From 6e6675a49ff4ee336e7a7e8df3ef197ce7b26620 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Sun, 17 Feb 2019 22:02:55 -0800
Subject: [PATCH 01/23] Span data structure; functions for handling span
 labeling; script to generate NER data for conll2003

---
 sci_bert/common/__init__.py                   |   0
 sci_bert/common/span.py                       | 339 ++++++++++++++++++
 .../semeval2017_to_coll2003_and_relations.py  | 177 +++++++++
 3 files changed, 516 insertions(+)
 create mode 100644 sci_bert/common/__init__.py
 create mode 100644 sci_bert/common/span.py
 create mode 100644 scripts/semeval2017_to_coll2003_and_relations.py

diff --git a/sci_bert/common/__init__.py b/sci_bert/common/__init__.py
new file mode 100644
index 0000000..e69de29
diff --git a/sci_bert/common/span.py b/sci_bert/common/span.py
new file mode 100644
index 0000000..cfab87f
--- /dev/null
+++ b/sci_bert/common/span.py
@@ -0,0 +1,339 @@
+"""
+
+Basic data structure and functions for manipulating spans
+
+author: kylel@allenai.org
+
+"""
+
+from typing import *
+
+from collections import defaultdict
+
+class Span:
+    """When comparing `self` to another span `other`, there are cases:
+
+            self        other
+    (a)     (2, 5)      (5, 8)          disjoint   (i.e. < and > operators)
+    (b)     (2, 5)      (3, 8)          partial overlap
+    (c)     (2, 5)      (1, 8)          (strict) subset   (i.e. `in` operator)
+    (d)     (2, 5)      (2, 5)          equal
+
+    Notice that the `stop` index is non-inclusive.
+    """
+    def __init__(self, start: int, stop: int):
+        self.start = start
+        self.stop = stop
+
+    def __eq__(self, other):
+        return self.start == other.start and self.stop == other.stop
+
+    def __lt__(self, other):
+        return self.stop <= other.start and self.start < other.start
+
+    def __gt__(self, other):
+        return other.stop <= self.start and other.start < self.start
+
+    def __repr__(self):
+        return str((self.start, self.stop))
+
+    def __len__(self):
+        return self.stop - self.start + 1
+
+    def __contains__(self, item):
+        """Only for strict subset, doesn't include equality"""
+        return item.start > self.start and item.stop < self.stop
+
+    @classmethod
+    def cluster_spans(cls, spans: List['Span']) -> List[List['Span']]:
+        """Iterate over spans; accumulate each span in same group"""
+        spans = sorted(spans, key=lambda s: (s.start, s.stop))
+        clusters: List[Dict] = [{
+            'proxy': Span(start=spans[0].start, stop=spans[0].stop),
+            'spans': [spans[0]]
+        }]
+        for span in spans[1:]:
+            # if this span is disjoint from the previous spans, start new cluster
+            if span > clusters[-1]['proxy']:
+                clusters.append({
+                    'proxy': Span(start=span.start, stop=span.stop),
+                    'spans': [span]
+                })
+            # otherwise, add to previous group
+            else:
+                clusters[-1]['spans'].append(span)
+                clusters[-1]['proxy'] = Span(start=clusters[-1]['proxy'].start,
+                                             stop=max(clusters[-1]['proxy'].stop, span.stop))
+        return [cluster['spans'] for cluster in clusters]
+
+    def to_json(self) -> Dict:
+        return {
+            'start': self.start,
+            'stop': self.stop
+        }
+
+
+class TokenSpan(Span):
+    def __init__(self, start: int, stop: int, text: str):
+        super().__init__(start, stop)
+        self.text = text
+
+    def __repr__(self):
+        return str((self.start, self.stop, self.text))
+
+    def to_json(self) -> Dict:
+        return {
+            'start': self.start,
+            'stop': self.stop,
+            'text': self.text
+        }
+
+    @classmethod
+    def find_token_spans(cls, text: str, tokens: List[str]) -> List['TokenSpan']:
+        """Given text and its tokenization, associate with each token a span
+        that indexes characters from the original text
+
+        text before tokenization:
+            'Hi, this is.'
+        tokens and their associated char-level spans:
+            Hi      -> (0,2)
+            ,       -> (2,3)
+            this    -> (4,8)
+            is      -> (9,11)
+            .       -> (11,12)
+        where span ends are non-inclusive
+
+        This should work for arbitrary tokenization (even sub-word tokenization),
+        as long as non-whitespace characters never disappear after tokenization.
+        """
+        assert text.strip().replace(' ', '').replace('\t', '').replace('\n', '') == ''.join(tokens)
+
+        spans = []
+        index_char_in_text = 0
+        for token in tokens:
+            # skip whitespace
+            while text[index_char_in_text].strip() == '':
+                index_char_in_text += 1
+
+            # remember start of span
+            start = index_char_in_text
+
+            # iterate over token characters
+            for char in token:
+                index_char_in_text += 1
+
+            # save span when match all characters in token
+            assert token == text[start:index_char_in_text]
+            token_span = TokenSpan(start=start, stop=index_char_in_text, text=token)
+            spans.append(token_span)
+
+        return spans
+
+    @classmethod
+    def find_sent_token_spans(cls, text: str, sent_tokens: List[List[str]]) -> List[List['TokenSpan']]:
+        # should fail if any tokens are whitespace
+        assert ''.join([char.strip() for char in text.strip()]) == ''.join([token for tokens in sent_tokens for token in tokens])
+
+        sent_spans = []
+        index_char_in_text = 0
+        for tokens in sent_tokens:
+            token_spans = []
+            for token in tokens:
+                # skip whitespace; this is why not allow any whitespace tokens
+                while text[index_char_in_text].strip() == '':
+                    index_char_in_text += 1
+
+                # remember start of span
+                start = index_char_in_text
+
+                # iterate over token characters
+                for char in token:
+                    index_char_in_text += 1
+
+                # save span when match all characters in token
+                assert token == text[start:index_char_in_text]
+                token_span = TokenSpan(start=start, stop=index_char_in_text, text=token)
+                token_spans.append(token_span)
+            sent_spans.append(token_spans)
+
+        return sent_spans
+
+
+class MentionSpan(Span):
+    def __init__(self, start: int, stop: int, text: str, entity_types: List[str], entity_id: str):
+        super().__init__(start, stop)
+        self.text = text
+        self.entity_types = entity_types
+        self.entity_id = entity_id
+
+    def __repr__(self):
+        return str((self.start, self.stop, self.text))
+
+    def to_json(self) -> Dict:
+        return {
+            'start': self.start,
+            'stop': self.stop,
+            'text': self.text,
+            'entity_types': self.entity_types,
+            'entity_id': self.entity_id
+        }
+
+    def __hash__(self):
+        return hash((self.start, self.stop, self.text, tuple(self.entity_types), self.entity_id))
+
+    def __eq__(self, other):
+        return isinstance(self, type(other)) and self.__hash__() == other.__hash__()
+
+
+def label_sent_token_spans(sent_token_spans: List[List[TokenSpan]],
+                           mention_spans: List[MentionSpan]) -> List[List[str]]:
+    assert _is_proper_sents(sent_token_spans)
+
+    # align mention spans with sentences
+    sent_mention_spans = _match_mention_spans_to_sentences(sent_token_spans, mention_spans)
+    assert _is_proper_sents([s for s in sent_mention_spans if len(s) > 0])
+
+    # create labels
+    sent_token_labels = []
+    for token_spans, mention_spans in zip(sent_token_spans, sent_mention_spans):
+        token_labels = _label_token_spans(token_spans, mention_spans)
+        sent_token_labels.append(token_labels)
+    return sent_token_labels
+
+
+def _is_proper_sents(sent_spans: List[List[Span]]) -> bool:
+    # order of sentences
+    for i in range(len(sent_spans) - 1):
+        if not sent_spans[i][-1] < sent_spans[i + 1][0]:
+            return False
+    # proper tokens within sentences
+    for token_spans in sent_spans:
+        if not _is_proper_sent(token_spans):
+            return False
+    return True
+
+def _is_proper_sent(spans: List[Span]) -> bool:
+    # check for sorted tokens & disjoint tokens
+    return all(spans[i].start <= spans[i + 1].start and spans[i] < spans[i + 1] for i in range(len(spans) - 1))
+
+
+
+def _label_token_spans(token_spans: List[TokenSpan],
+                       mention_spans: List[MentionSpan]) -> List[str]:
+    num_tokens, num_mentions = len(token_spans), len(mention_spans)
+
+    # no mentions
+    if num_mentions == 0:
+        return ['O'] * num_tokens
+
+    # check mentions should all be match-able to tokens
+    assert mention_spans[0].start >= token_spans[0].start
+    assert mention_spans[-1].stop <= token_spans[-1].stop
+
+    token_labels = []
+    index_token, index_mention = 0, 0
+    while index_token < num_tokens and index_mention < num_mentions:
+        token_span = token_spans[index_token]
+        mention_span = mention_spans[index_mention]
+        # case 1: token is left of mention (no overlap)
+        if token_span < mention_span:
+            token_labels.append('O')
+            index_token += 1
+        # case 2: token is right of mention (no overlap)
+        elif token_span > mention_span:
+            index_mention += 1
+        # case 3: token captures start of mention
+        elif token_span.start <= mention_span.start and token_span.stop <= mention_span.stop:
+            token_labels.append('B-{}'.format(mention_span.entity_types[0]))
+            index_token += 1
+            # handles case when last token is 'B'
+            if index_token == num_tokens:
+                index_mention += 1
+        # case 4: token within mention
+        elif token_span in mention_span:
+            token_labels.append('I-{}'.format(mention_span.entity_types[0]))
+            index_token += 1
+        # case 5: token captures end of mention
+        elif token_span.start > mention_span.start and token_span.stop >= mention_span.stop:
+            token_labels.append('I-{}'.format(mention_span.entity_types[0]))
+            index_token += 1
+            index_mention += 1
+
+    # ran out of mentions, but remaining tokens
+    while index_token < num_tokens:
+        token_labels.append('O')
+        index_token += 1
+
+    assert len(token_labels) == len(token_spans)
+    return token_labels
+
+
+def _match_mention_spans_to_sentences(sent_token_spans: List[List[TokenSpan]],
+                                      mention_spans: List[MentionSpan]) -> List[List[MentionSpan]]:
+    num_sents, num_mentions = len(sent_token_spans), len(mention_spans)
+
+    # check mentions should all be match-able to sentences
+    assert mention_spans[0].start >= sent_token_spans[0][0].start
+    assert mention_spans[-1].stop <= sent_token_spans[-1][-1].stop
+
+    sent_mention_spans = []
+    temp = []
+    index_sent, index_mention = 0, 0
+    while index_sent < num_sents - 1 and index_mention < num_mentions:
+        mention_span = mention_spans[index_mention]
+        this_sent_start = sent_token_spans[index_sent][0].start
+        this_sent_stop = sent_token_spans[index_sent][-1].stop
+        next_sent_start = sent_token_spans[index_sent + 1][0].start
+        # if mention within this sentence, keep it
+        if mention_span.start >= this_sent_start and mention_span.stop <= this_sent_stop:
+            temp.append(mention_span)
+            index_mention += 1
+        # if cross-sentence mention, skip it
+        elif mention_span.start < this_sent_stop and mention_span.stop > next_sent_start:
+            print(f'Mention {mention_span} crosses sentence boundary')
+            index_mention += 1
+        # if mention not within this sentence, go to next one
+        else:
+            sent_mention_spans.append(temp)
+            temp = []
+            index_sent += 1
+
+    # append remaining mentions
+    while index_mention < num_mentions:
+        mention_span = mention_spans[index_mention]
+        temp.append(mention_span)
+        index_mention += 1
+    sent_mention_spans.append(temp)
+    index_sent += 1
+
+    # remaining sentences without corresp. mentions
+    while index_sent < num_sents:
+        sent_mention_spans.append([])
+        index_sent += 1
+
+    assert len(sent_mention_spans) == len(sent_token_spans)
+    return sent_mention_spans
+
+    #
+    #
+    # # split mention spans to match sentences
+    # sent_mention_spans = []
+    # temp_hold_mentions = []
+    # index_sent, index_mention = 0, 0
+    # while index_sent < num_sents and index_mention < num_mentions:
+    #     mention_span = mention_spans[index_mention]
+    #     sent_start = sent_token_spans[index_sent][0].start
+    #     sent_stop = sent_token_spans[index_sent][-1].stop
+    #     # if mention within sentence, keep it
+    #     if mention_span.start >= sent_start and mention_span.stop <= sent_stop:
+    #         temp_hold_mentions.append(mention_span)
+    #         index_mention += 1
+    #     # skip if cross-sentence mention
+    #     elif mention_span.start >= sent_start and mention_span.stop > sent_stop and mention_span.start < sent_stop:
+    #         print(f'Mention {mention_span} crosses sentence boundary')
+    #         index_mention += 1
+    #     # if not, append accumulated spans & move to next sentence
+    #     else:
+    #         sent_mention_spans.append(temp_hold_mentions)
+    #         temp_hold_mentions = []
+    #         index_sent += 1
\ No newline at end of file
diff --git a/scripts/semeval2017_to_coll2003_and_relations.py b/scripts/semeval2017_to_coll2003_and_relations.py
new file mode 100644
index 0000000..688046b
--- /dev/null
+++ b/scripts/semeval2017_to_coll2003_and_relations.py
@@ -0,0 +1,177 @@
+"""
+
+Input:
+    Text:
+        Based on the theoretical analysis, the value of the measuring resistor...
+
+    Annotations:
+        T1	Process 39 70	value of the measuring resistor
+        T2	Process 72 74	Rm
+        *	Synonym-of T2 T1
+        T3	Material 427 466	NI-USB 6009 analog-to-digital converter
+        T4	Material 322 336	4.7kΩ resistor
+        T5	Material 375 402	saturated calomel electrode
+        T6	Process 472 500	electrochemical noise signal
+        T7	Material 520 547	in-house developed software
+        T8	Material 778 785	dataset
+        T10	Task 674 708	obtain a single value of potential
+        T11	Task 979 1051	accurate recording of the potential noise in the frequencies of interest
+        T12	Process 97 114	corrosion process
+        T13	Process 136 161	value of noise resistance
+        T14	Task 175 199	validate this conclusion
+        T15	Material 257 294	pair of nominally identical specimens
+        T16	Task 13 33	theoretical analysis
+
+Output 1:  Entity extraction (CONLL2003 format)
+
+
+Output 1:  Relation classification
+    JSONlines where each JSON is:
+    {
+        "text": "Based on the theoretical analysis , the [[ value of the measuring resistor ]] ...",
+        "label": "Synonym-of",
+        "metadata": [7, 11, 12, 12]
+    }
+    ** only contains sentences with relations; entities are gold wrt their Arg1/Arg2 position; no cross-sentence relations **
+
+Output 2:  Relation extraction
+    ** same format as above, but includes sentences without relations & all entity pairs are attempted as Arg1/Arg2 positions **
+
+
+
+Pseudocode for 1:
+    - sentence-ify & tokenize text & assign char-level span indices to each token
+    - for each sentence:
+        for each token:
+            if within entity, do stuff
+
+
+"""
+
+from typing import *
+
+import os
+import spacy
+nlp = spacy.load('en_core_web_md')
+
+from sci_bert.common.span import Span, TokenSpan, MentionSpan, label_sent_token_spans
+
+MIN_NUM_TOKENS_PER_SENT = 5
+
+os.makedirs('data/ner/semeval2017/', exist_ok=True)
+for split in ['train', 'dev', 'test']:
+    with open(f'data/ner/semeval2017/{split}.txt', 'w') as f_out:
+        ann_dir = f'semeval2017/{split}/'
+        instance_ids = sorted({os.path.splitext(ann_file)[0] for ann_file in os.listdir(ann_dir)})
+        for id in instance_ids:
+            ann_file = os.path.join(ann_dir, f'{id}.ann')
+            txt_file = ann_file.replace('.ann', '.txt')
+
+            # load text
+            with open(txt_file, 'r') as f_txt:
+                text = f_txt.read().strip()
+                text = ''.join([char if char.strip() != '' else ' ' for char in text])  # normalize whitespaces, such as '\xa0' --> ' '
+                spacy_text = nlp(text)
+
+            # split sentences & tokenize
+            sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for sent in spacy_text.sents for token in sent if token.text.strip() != '']])
+            # sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for token in sent if token.text.strip() != ''] for sent in spacy_text.sents])
+
+            # entity mentions might have duplicates & out of order
+            mention_spans = set()
+            with open(ann_file, 'r') as f_ann:
+                for line in f_ann:
+                    tup = line.strip().split('\t')
+                    if tup[0].startswith('T'):
+                        entity_id = tup[0]
+                        entity_type, start, stop = tup[1].split(' ')
+                        start = int(start)
+                        stop = int(stop)
+                        entity_text = tup[2]
+                        mention_span = MentionSpan(start=start, stop=stop, text=entity_text, entity_types=[entity_type], entity_id=entity_id)
+                        mention_spans.add(mention_span)
+            mention_spans = sorted(mention_spans, key=lambda s: (s.start, s.stop))
+
+            # overlapping mentions are handled by picking longest mention in the group
+            # this also handles same-mention multiple-types (arbitrarily picks one of them)
+            clean_mention_spans = []
+            groups = Span.cluster_spans(mention_spans)
+            for group in groups:
+                if len(group) == 1:
+                    clean_mention_spans.extend(group)
+                else:
+                    longest_span = sorted(group, key=lambda s: len(s))[-1]
+                    clean_mention_spans.append(longest_span)
+
+            # conll2003 -> BIO
+            sent_token_labels = label_sent_token_spans(sent_token_spans=sent_token_spans,
+                                                       mention_spans=clean_mention_spans)
+
+            # write
+            f_out.write(f'-DOCSTART- ({id})\n\n')
+            for token_spans, token_labels in zip(sent_token_spans, sent_token_labels):
+                for token_span, token_label in zip(token_spans, token_labels):
+                    f_out.write('\t'.join([token_span.text, 'NN', 'O', token_label]))
+                    f_out.write('\n')
+            f_out.write('\n')
+
+
+
+
+
+
+
+
+
+
+# group TokenSpans into sentences
+sents: List[List[TokenSpan]] = []
+sent: List[TokenSpan] = []
+for i, token_span in enumerate(token_spans):
+    if i in index_sent_start_tokens:
+        sents.append(sent)
+        sent: List[TokenSpan] = []
+    sent.append(token_span)
+
+# load annotations
+ID_TO_ENTITY = {}
+E1E2_TO_RELATION = {}
+with open(ann_file, 'r') as f_ann:
+    for line in f_ann:
+        tup = line.strip().split('\t')
+
+        # check if it's an entity
+        if tup[0].startswith('T'):
+            entity_id = tup[0]
+            entity_type, start, stop = tup[1].split(' ')
+            start = int(start)
+            stop = int(stop)
+            entity_text = tup[2]
+            ID_TO_ENTITY[entity_id] = {
+                'type': entity_type,
+                'span': (start, stop),
+                'text': entity_text
+            }
+
+        # or if it's an asymmetric relation
+        elif tup[0].startswith('R'):
+            relation_id = tup[0]
+            relation_type, arg1, arg2 = tup[1].split(' ')
+            tag1, e1 = arg1.split(':')
+            tag2, e2 = arg2.split(':')
+            assert tag1 == 'Arg1' and tag2 == 'Arg2'
+            E1E2_TO_RELATION[(e1, e2)] =
+
+        # or if it's a symmetric relation
+        elif tup[0].startswith('*'):
+
+        # not sure
+        else:
+            raise ValueError('Cant parse this line {}'.format(line))
+
+        E1E2_TO_RELATION[]
+
+
+
+with open(ann_file, 'r') as f_ann:
+    pass
\ No newline at end of file

From 4fcc10abbc37914592f8ba03ed5943c43620bc19 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 09:51:20 -0800
Subject: [PATCH 02/23] fix bug where infinite while loop when labeling tokens
 because token bigger than mention

---
 sci_bert/common/span.py | 4 ++--
 1 file changed, 2 insertions(+), 2 deletions(-)

diff --git a/sci_bert/common/span.py b/sci_bert/common/span.py
index cfab87f..4ed2e12 100644
--- a/sci_bert/common/span.py
+++ b/sci_bert/common/span.py
@@ -243,7 +243,7 @@ def _label_token_spans(token_spans: List[TokenSpan],
         elif token_span > mention_span:
             index_mention += 1
         # case 3: token captures start of mention
-        elif token_span.start <= mention_span.start and token_span.stop <= mention_span.stop:
+        elif token_span.start <= mention_span.start:
             token_labels.append('B-{}'.format(mention_span.entity_types[0]))
             index_token += 1
             # handles case when last token is 'B'
@@ -254,7 +254,7 @@ def _label_token_spans(token_spans: List[TokenSpan],
             token_labels.append('I-{}'.format(mention_span.entity_types[0]))
             index_token += 1
         # case 5: token captures end of mention
-        elif token_span.start > mention_span.start and token_span.stop >= mention_span.stop:
+        elif token_span.stop >= mention_span.stop:
             token_labels.append('I-{}'.format(mention_span.entity_types[0]))
             index_token += 1
             index_mention += 1

From da1adca60638ddb3579aa84099a713a175beabbc Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 09:51:37 -0800
Subject: [PATCH 03/23] add logging to know if script has stalled

---
 scripts/semeval2017_to_coll2003_and_relations.py | 3 ++-
 1 file changed, 2 insertions(+), 1 deletion(-)

diff --git a/scripts/semeval2017_to_coll2003_and_relations.py b/scripts/semeval2017_to_coll2003_and_relations.py
index 688046b..ef91967 100644
--- a/scripts/semeval2017_to_coll2003_and_relations.py
+++ b/scripts/semeval2017_to_coll2003_and_relations.py
@@ -25,7 +25,7 @@
 Output 1:  Entity extraction (CONLL2003 format)
 
 
-Output 1:  Relation classification
+Output 2:  Relation classification
     JSONlines where each JSON is:
     {
         "text": "Based on the theoretical analysis , the [[ value of the measuring resistor ]] ...",
@@ -108,6 +108,7 @@
                                                        mention_spans=clean_mention_spans)
 
             # write
+            print(f'Writing {id}')
             f_out.write(f'-DOCSTART- ({id})\n\n')
             for token_spans, token_labels in zip(sent_token_spans, sent_token_labels):
                 for token_span, token_label in zip(token_spans, token_labels):

From f626a6463a36e281b9ba6758fd9fa48cbebee0a8 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 09:59:26 -0800
Subject: [PATCH 04/23] add try-except to catch bad annotation in brat

---
 scripts/semeval2017_to_coll2003_and_relations.py | 7 ++++++-
 1 file changed, 6 insertions(+), 1 deletion(-)

diff --git a/scripts/semeval2017_to_coll2003_and_relations.py b/scripts/semeval2017_to_coll2003_and_relations.py
index ef91967..9d9a7a7 100644
--- a/scripts/semeval2017_to_coll2003_and_relations.py
+++ b/scripts/semeval2017_to_coll2003_and_relations.py
@@ -84,7 +84,12 @@
                     tup = line.strip().split('\t')
                     if tup[0].startswith('T'):
                         entity_id = tup[0]
-                        entity_type, start, stop = tup[1].split(' ')
+                        # note: occasionally data looks really stupid like `Task 400 436;437 453` in `S0167931713005042.ann`
+                        try:
+                            entity_type, start, stop = tup[1].split(' ')
+                        except ValueError as e:
+                            print(f'Tried unpacking line {tup} in {id}')
+                            continue
                         start = int(start)
                         stop = int(stop)
                         entity_text = tup[2]

From 77f37a57d7e5e38dc5285d82647ded0c570f2779 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 10:04:22 -0800
Subject: [PATCH 05/23] semeval2017 ner dataset

---
 data/ner/semeval2017/dev.txt   | 11523 ++++++
 data/ner/semeval2017/test.txt  | 22516 +++++++++++
 data/ner/semeval2017/train.txt | 67016 +++++++++++++++++++++++++++++++
 3 files changed, 101055 insertions(+)
 create mode 100644 data/ner/semeval2017/dev.txt
 create mode 100644 data/ner/semeval2017/test.txt
 create mode 100644 data/ner/semeval2017/train.txt

diff --git a/data/ner/semeval2017/dev.txt b/data/ner/semeval2017/dev.txt
new file mode 100644
index 0000000..3ee405d
--- /dev/null
+++ b/data/ner/semeval2017/dev.txt
@@ -0,0 +1,11523 @@
+-DOCSTART- (S0003491613001516)
+
+Complex	NN	O	B-Process
+Langevin	NN	O	I-Process
+(	NN	O	O
+CL	NN	O	B-Process
+)	NN	O	O
+dynamics	NN	O	O
+[	NN	O	O
+1,2	NN	O	O
+]	NN	O	O
+provides	NN	O	O
+an	NN	O	O
+approach	NN	O	O
+to	NN	O	O
+circumvent	NN	O	O
+the	NN	O	O
+sign	NN	O	B-Task
+problem	NN	O	I-Task
+in	NN	O	O
+numerical	NN	O	B-Process
+simulations	NN	O	I-Process
+of	NN	O	I-Process
+lattice	NN	O	I-Process
+field	NN	O	I-Process
+theories	NN	O	I-Process
+with	NN	O	O
+a	NN	O	O
+complex	NN	O	O
+Boltzmann	NN	O	O
+weight	NN	O	O
+,	NN	O	O
+since	NN	O	O
+it	NN	O	O
+does	NN	O	O
+not	NN	O	O
+rely	NN	O	O
+on	NN	O	O
+importance	NN	O	O
+sampling	NN	O	O
+.	NN	O	O
+In	NN	O	O
+recent	NN	O	O
+years	NN	O	O
+a	NN	O	O
+number	NN	O	O
+of	NN	O	O
+stimulating	NN	O	O
+results	NN	O	O
+has	NN	O	O
+been	NN	O	O
+obtained	NN	O	O
+in	NN	O	O
+the	NN	O	O
+context	NN	O	O
+of	NN	O	O
+nonzero	NN	O	B-Process
+chemical	NN	O	I-Process
+potential	NN	O	I-Process
+,	NN	O	O
+in	NN	O	O
+both	NN	O	O
+lower	NN	O	B-Process
+and	NN	O	I-Process
+four	NN	O	I-Process
+-	NN	O	I-Process
+dimensional	NN	O	I-Process
+field	NN	O	I-Process
+theories	NN	O	I-Process
+with	NN	O	O
+a	NN	O	O
+severe	NN	O	O
+sign	NN	O	B-Task
+problem	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+thermodynamic	NN	O	I-Task
+limit	NN	O	I-Task
+[	NN	O	O
+3–8	NN	O	O
+]	NN	O	O
+(	NN	O	O
+for	NN	O	O
+two	NN	O	O
+recent	NN	O	O
+reviews	NN	O	O
+,	NN	O	O
+see	NN	O	O
+e.g.	NN	O	O
+Refs	NN	O	O
+.	NN	O	O
+[	NN	O	O
+9,10	NN	O	O
+]	NN	O	O
+)	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+as	NN	O	O
+has	NN	O	O
+been	NN	O	O
+known	NN	O	O
+since	NN	O	O
+shortly	NN	O	O
+after	NN	O	O
+its	NN	O	O
+inception	NN	O	O
+,	NN	O	O
+correct	NN	O	O
+results	NN	O	O
+are	NN	O	O
+not	NN	O	O
+guaranteed	NN	O	O
+[	NN	O	O
+11–16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+calls	NN	O	O
+for	NN	O	O
+an	NN	O	O
+improved	NN	O	B-Task
+understanding	NN	O	I-Task
+,	NN	O	I-Task
+relying	NN	O	I-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+combination	NN	O	I-Task
+of	NN	O	I-Task
+analytical	NN	O	I-Task
+and	NN	O	I-Task
+numerical	NN	O	I-Task
+insight	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+recent	NN	O	O
+past	NN	O	O
+,	NN	O	O
+the	NN	O	O
+important	NN	O	O
+role	NN	O	O
+played	NN	O	O
+by	NN	O	O
+the	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+the	NN	O	O
+real	NN	O	O
+and	NN	O	O
+positive	NN	O	O
+probability	NN	O	B-Process
+distribution	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+complexified	NN	O	B-Process
+configuration	NN	O	I-Process
+space	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+effectively	NN	O	O
+sampled	NN	O	O
+during	NN	O	O
+the	NN	O	O
+Langevin	NN	O	B-Process
+process	NN	O	I-Process
+,	NN	O	O
+has	NN	O	O
+been	NN	O	O
+clarified	NN	O	O
+[	NN	O	O
+17,18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+An	NN	O	O
+important	NN	O	O
+conclusion	NN	O	O
+was	NN	O	O
+that	NN	O	O
+this	NN	O	O
+distribution	NN	O	B-Process
+should	NN	O	O
+be	NN	O	O
+sufficiently	NN	O	O
+localised	NN	O	O
+in	NN	O	O
+order	NN	O	O
+for	NN	O	O
+CL	NN	O	B-Process
+to	NN	O	O
+yield	NN	O	O
+valid	NN	O	O
+results	NN	O	O
+.	NN	O	O
+Importantly	NN	O	O
+,	NN	O	O
+this	NN	O	O
+insight	NN	O	O
+has	NN	O	O
+recently	NN	O	O
+also	NN	O	O
+led	NN	O	O
+to	NN	O	O
+promising	NN	O	O
+results	NN	O	O
+in	NN	O	O
+nonabelian	NN	O	B-Task
+gauge	NN	O	I-Task
+theories	NN	O	I-Task
+,	NN	O	O
+with	NN	O	O
+the	NN	O	O
+implementation	NN	O	O
+of	NN	O	O
+SL(N	NN	O	B-Material
+,	NN	O	I-Material
+C	NN	O	I-Material
+)	NN	O	I-Material
+gauge	NN	O	I-Material
+cooling	NN	O	I-Material
+[	NN	O	O
+8,10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0003491615001839)
+
+This	NN	O	O
+work	NN	O	O
+shows	NN	O	O
+how	NN	O	O
+our	NN	O	O
+approach	NN	O	O
+based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+combination	NN	O	O
+of	NN	O	O
+Statistical	NN	O	B-Process
+Mechanics	NN	O	I-Process
+and	NN	O	O
+nonlinear	NN	O	B-Process
+PDEs	NN	O	I-Process
+theory	NN	O	I-Process
+provides	NN	O	O
+us	NN	O	O
+with	NN	O	O
+a	NN	O	O
+novel	NN	O	O
+and	NN	O	O
+powerful	NN	O	O
+tool	NN	O	O
+to	NN	O	O
+tackle	NN	O	O
+phase	NN	O	B-Task
+transitions	NN	O	I-Task
+.	NN	O	O
+This	NN	O	O
+method	NN	O	O
+leads	NN	O	O
+to	NN	O	O
+solution	NN	O	O
+of	NN	O	O
+perhaps	NN	O	O
+the	NN	O	O
+most	NN	O	O
+known	NN	O	O
+test	NN	O	O
+-	NN	O	O
+case	NN	O	O
+that	NN	O	O
+exhibits	NN	O	O
+a	NN	O	O
+first	NN	O	B-Process
+order	NN	O	I-Process
+phase	NN	O	I-Process
+transition	NN	O	I-Process
+(	NN	O	O
+semi	NN	O	O
+-	NN	O	O
+heuristically	NN	O	O
+described	NN	O	O
+)	NN	O	O
+such	NN	O	O
+as	NN	O	O
+the	NN	O	O
+van	NN	O	B-Process
+der	NN	O	I-Process
+Waals	NN	O	I-Process
+model	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+particular	NN	O	O
+we	NN	O	O
+have	NN	O	O
+obtained	NN	O	O
+the	NN	O	O
+first	NN	O	O
+global	NN	O	O
+mean	NN	O	O
+field	NN	O	B-Process
+partition	NN	O	I-Process
+function	NN	O	I-Process
+(	NN	O	O
+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+9	NN	O	O
+)	NN	O	O
+)	NN	O	O
+,	NN	O	O
+for	NN	O	O
+a	NN	O	O
+system	NN	O	O
+of	NN	O	O
+finite	NN	O	O
+number	NN	O	O
+of	NN	O	O
+particles	NN	O	O
+.	NN	O	O
+The	NN	O	O
+partition	NN	O	B-Process
+function	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+solution	NN	O	O
+to	NN	O	O
+the	NN	O	O
+Klein	NN	O	B-Task
+–	NN	O	I-Task
+Gordon	NN	O	I-Task
+equation	NN	O	I-Task
+,	NN	O	O
+reproduces	NN	O	O
+the	NN	O	O
+van	NN	O	B-Process
+der	NN	O	I-Process
+Waals	NN	O	I-Process
+isotherms	NN	O	I-Process
+away	NN	O	O
+from	NN	O	O
+the	NN	O	O
+critical	NN	O	O
+region	NN	O	O
+and	NN	O	O
+,	NN	O	O
+in	NN	O	O
+the	NN	O	O
+thermodynamic	NN	O	B-Process
+limit	NN	O	I-Process
+N→∞	NN	O	I-Process
+automatically	NN	O	O
+encodes	NN	O	O
+the	NN	O	O
+Maxwell	NN	O	B-Process
+equal	NN	O	I-Process
+areas	NN	O	I-Process
+rule	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+approach	NN	O	O
+hereby	NN	O	O
+presented	NN	O	O
+is	NN	O	O
+of	NN	O	O
+remarkable	NN	O	O
+simplicity	NN	O	O
+,	NN	O	O
+has	NN	O	O
+been	NN	O	O
+successfully	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+spin	NN	O	B-Process
+[	NN	O	O
+17–19,14,16	NN	O	O
+]	NN	O	O
+and	NN	O	O
+macroscopic	NN	O	B-Process
+thermodynamic	NN	O	I-Process
+systems	NN	O	I-Process
+[	NN	O	O
+20,15	NN	O	O
+]	NN	O	O
+and	NN	O	O
+can	NN	O	O
+be	NN	O	O
+further	NN	O	O
+extended	NN	O	O
+to	NN	O	O
+include	NN	O	O
+the	NN	O	O
+larger	NN	O	O
+class	NN	O	O
+of	NN	O	O
+models	NN	O	O
+admitting	NN	O	O
+partition	NN	O	B-Process
+functions	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+form	NN	O	I-Process
+(	NN	O	O
+4	NN	O	O
+)	NN	O	O
+to	NN	O	O
+be	NN	O	O
+used	NN	O	O
+to	NN	O	O
+extend	NN	O	O
+to	NN	O	O
+the	NN	O	O
+critical	NN	O	O
+region	NN	O	O
+general	NN	O	B-Process
+equations	NN	O	I-Process
+of	NN	O	I-Process
+state	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+form	NN	O	I-Process
+(	NN	O	O
+7	NN	O	O
+)	NN	O	O
+including	NN	O	O
+a	NN	O	O
+class	NN	O	B-Process
+virial	NN	O	I-Process
+expansions	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0009261408017028)
+
+We	NN	O	O
+use	NN	O	O
+open	NN	O	O
+and	NN	O	O
+close	NN	O	O
+aperture	NN	O	B-Process
+Z	NN	O	I-Process
+-	NN	O	I-Process
+scan	NN	O	I-Process
+experiments	NN	O	I-Process
+,	NN	O	O
+in	NN	O	O
+analogy	NN	O	O
+to	NN	O	O
+the	NN	O	O
+saturation	NN	O	B-Task
+absorption	NN	O	I-Task
+work	NN	O	O
+discussed	NN	O	O
+earlier	NN	O	O
+in	NN	O	O
+water	NN	O	B-Material
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+,	NN	O	O
+to	NN	O	O
+respectively	NN	O	O
+measure	NN	O	O
+the	NN	O	O
+β	NN	O	O
+and	NN	O	O
+n2	NN	O	O
+for	NN	O	O
+a	NN	O	O
+series	NN	O	O
+of	NN	O	O
+primary	NN	O	B-Material
+alcohols	NN	O	I-Material
+with	NN	O	O
+the	NN	O	O
+help	NN	O	O
+of	NN	O	O
+1560	NN	O	B-Material
+nm	NN	O	I-Material
+femtosecond	NN	O	I-Material
+laser	NN	O	I-Material
+pulses	NN	O	I-Material
+,	NN	O	O
+however	NN	O	O
+,	NN	O	O
+with	NN	O	O
+the	NN	O	O
+important	NN	O	O
+inclusion	NN	O	O
+of	NN	O	O
+an	NN	O	O
+optical	NN	O	B-Material
+-	NN	O	I-Material
+chopper	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+vibrational	NN	O	B-Process
+combination	NN	O	I-Process
+states	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+alcohols	NN	O	B-Material
+are	NN	O	O
+coupled	NN	O	O
+by	NN	O	O
+the	NN	O	O
+femtosecond	NN	O	B-Material
+laser	NN	O	I-Material
+pulses	NN	O	I-Material
+at	NN	O	I-Material
+1560	NN	O	I-Material
+nm	NN	O	I-Material
+.	NN	O	O
+These	NN	O	O
+couplings	NN	O	O
+result	NN	O	O
+in	NN	O	O
+the	NN	O	O
+absorption	NN	O	B-Process
+of	NN	O	O
+1560	NN	O	O
+nm	NN	O	O
+and	NN	O	O
+the	NN	O	O
+excited	NN	O	O
+molecules	NN	O	B-Material
+undergo	NN	O	O
+relaxation	NN	O	O
+through	NN	O	O
+non	NN	O	B-Process
+-	NN	O	I-Process
+radiative	NN	O	I-Process
+processes	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+gives	NN	O	O
+rise	NN	O	O
+to	NN	O	O
+transient	NN	O	B-Process
+thermal	NN	O	I-Process
+effects	NN	O	I-Process
+.	NN	O	O
+These	NN	O	O
+transient	NN	O	B-Process
+thermal	NN	O	I-Process
+effects	NN	O	I-Process
+are	NN	O	O
+related	NN	O	O
+to	NN	O	O
+the	NN	O	O
+pure	NN	O	B-Process
+optical	NN	O	I-Process
+nonlinearity	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+samples	NN	O	O
+and	NN	O	O
+can	NN	O	O
+be	NN	O	O
+measured	NN	O	O
+as	NN	O	O
+a	NN	O	O
+change	NN	O	O
+in	NN	O	O
+their	NN	O	O
+n2	NN	O	O
+values	NN	O	O
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+transient	NN	O	B-Process
+thermal	NN	O	I-Process
+effects	NN	O	I-Process
+of	NN	O	O
+individual	NN	O	O
+pulses	NN	O	O
+accumulate	NN	O	O
+in	NN	O	O
+case	NN	O	O
+of	NN	O	O
+high	NN	O	B-Material
+repetition	NN	O	I-Material
+-	NN	O	I-Material
+rate	NN	O	I-Material
+lasers	NN	O	I-Material
+to	NN	O	O
+produce	NN	O	O
+a	NN	O	O
+cumulative	NN	O	B-Process
+thermal	NN	O	I-Process
+effect	NN	O	I-Process
+at	NN	O	O
+longer	NN	O	O
+timescales	NN	O	O
+.	NN	O	O
+We	NN	O	O
+measure	NN	O	B-Task
+this	NN	O	I-Task
+cumulative	NN	O	I-Task
+thermal	NN	O	I-Task
+effect	NN	O	I-Task
+with	NN	O	O
+the	NN	O	O
+mode	NN	O	B-Process
+-	NN	O	I-Process
+mismatched	NN	O	I-Process
+two	NN	O	I-Process
+-	NN	O	I-Process
+color	NN	O	I-Process
+pump	NN	O	I-Process
+–	NN	O	I-Process
+probe	NN	O	I-Process
+experiment	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0009261413004612)
+
+The	NN	O	O
+control	NN	O	O
+of	NN	O	O
+the	NN	O	O
+RP	NN	O	B-Process
+re	NN	O	I-Process
+-	NN	O	I-Process
+encounter	NN	O	I-Process
+probability	NN	O	I-Process
+finds	NN	O	O
+a	NN	O	O
+direct	NN	O	O
+application	NN	O	O
+to	NN	O	O
+improve	NN	O	B-Task
+the	NN	O	I-Task
+performance	NN	O	I-Task
+of	NN	O	I-Task
+chemical	NN	O	I-Task
+devices	NN	O	I-Task
+.	NN	O	O
+Here	NN	O	O
+,	NN	O	O
+we	NN	O	O
+show	NN	O	O
+how	NN	O	O
+a	NN	O	O
+simple	NN	O	O
+-	NN	O	O
+to	NN	O	O
+-	NN	O	O
+implement	NN	O	O
+control	NN	O	B-Process
+scheme	NN	O	I-Process
+highly	NN	O	O
+enhances	NN	O	O
+the	NN	O	O
+sensitivity	NN	O	O
+of	NN	O	O
+a	NN	O	O
+model	NN	O	B-Material
+chemical	NN	O	I-Material
+magnetometer	NN	O	I-Material
+by	NN	O	O
+up	NN	O	O
+to	NN	O	O
+two	NN	O	O
+orders	NN	O	O
+of	NN	O	O
+magnitude	NN	O	O
+.	NN	O	O
+The	NN	O	O
+basic	NN	O	O
+idea	NN	O	O
+behind	NN	O	O
+a	NN	O	O
+chemical	NN	O	B-Material
+magnetometer	NN	O	I-Material
+is	NN	O	O
+that	NN	O	O
+,	NN	O	O
+since	NN	O	O
+a	NN	O	O
+change	NN	O	O
+in	NN	O	O
+the	NN	O	O
+magnetic	NN	O	B-Process
+field	NN	O	I-Process
+modifies	NN	O	O
+the	NN	O	O
+amount	NN	O	O
+of	NN	O	O
+singlet	NN	O	B-Material
+products	NN	O	I-Material
+,	NN	O	O
+one	NN	O	O
+can	NN	O	O
+reverse	NN	O	O
+the	NN	O	O
+reasoning	NN	O	O
+and	NN	O	O
+measure	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Material
+yield	NN	O	I-Material
+to	NN	O	O
+estimate	NN	O	O
+B.	NN	O	B-Process
+Intuitively	NN	O	O
+,	NN	O	O
+the	NN	O	O
+magnetic	NN	O	B-Process
+sensitivity	NN	O	I-Process
+is	NN	O	O
+high	NN	O	O
+when	NN	O	O
+a	NN	O	O
+small	NN	O	O
+change	NN	O	O
+in	NN	O	O
+the	NN	O	O
+magnetic	NN	O	B-Process
+field	NN	O	I-Process
+intensity	NN	O	I-Process
+produces	NN	O	O
+large	NN	O	O
+effects	NN	O	O
+on	NN	O	O
+the	NN	O	O
+singlet	NN	O	B-Material
+yield	NN	O	I-Material
+.	NN	O	O
+Formally	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+defined	NN	O	O
+as:(2)Λs(B)≡∂Φs(B)∂B=∫0∞pre(t)gs(B	NN	O	B-Process
+,	NN	O	I-Process
+t)dt	NN	O	I-Process
+,	NN	O	O
+with	NN	O	O
+gs(B	NN	O	B-Process
+,	NN	O	I-Process
+t)≡∂fs(B	NN	O	I-Process
+,	NN	O	I-Process
+t)∂B	NN	O	I-Process
+being	NN	O	O
+the	NN	O	O
+instantaneous	NN	O	B-Process
+magnetic	NN	O	I-Process
+sensitivity	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+functional	NN	O	O
+form	NN	O	O
+of	NN	O	O
+fs(B	NN	O	O
+,	NN	O	O
+t)=Sρel(t)S	NN	O	O
+strongly	NN	O	O
+depends	NN	O	O
+on	NN	O	O
+the	NN	O	O
+specific	NN	O	O
+realization	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+radical	NN	O	I-Process
+pair	NN	O	I-Process
+,	NN	O	O
+in	NN	O	O
+particular	NN	O	O
+on	NN	O	O
+the	NN	O	O
+number	NN	O	O
+of	NN	O	O
+the	NN	O	O
+surrounding	NN	O	O
+nuclear	NN	O	B-Process
+spins	NN	O	I-Process
+.	NN	O	O
+Here	NN	O	O
+,	NN	O	O
+we	NN	O	O
+consider	NN	O	O
+a	NN	O	O
+radical	NN	O	O
+pair	NN	O	O
+in	NN	O	O
+which	NN	O	O
+the	NN	O	O
+first	NN	O	O
+electron	NN	O	B-Process
+spin	NN	O	I-Process
+is	NN	O	O
+devoid	NN	O	O
+of	NN	O	O
+hyperfine	NN	O	B-Process
+interactions	NN	O	I-Process
+,	NN	O	O
+while	NN	O	O
+the	NN	O	O
+second	NN	O	O
+electron	NN	O	B-Process
+spin	NN	O	I-Process
+interacts	NN	O	O
+isotropically	NN	O	O
+with	NN	O	O
+one	NN	O	O
+spin-1	NN	O	B-Material
+nucleus	NN	O	I-Material
+,	NN	O	O
+e.g.	NN	O	O
+nitrogen	NN	O	B-Material
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+context	NN	O	O
+of	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Task
+compass	NN	O	I-Task
+(	NN	O	O
+i.e.	NN	O	O
+when	NN	O	O
+the	NN	O	O
+task	NN	O	O
+is	NN	O	O
+determining	NN	O	B-Task
+the	NN	O	I-Task
+magnetic	NN	O	I-Task
+field	NN	O	I-Task
+direction	NN	O	I-Task
+through	NN	O	I-Task
+anisotropic	NN	O	I-Task
+hyperfine	NN	O	I-Task
+interactions	NN	O	I-Task
+)	NN	O	O
+,	NN	O	O
+an	NN	O	O
+analogous	NN	O	B-Process
+configuration	NN	O	I-Process
+(	NN	O	O
+with	NN	O	O
+only	NN	O	O
+one	NN	O	O
+spin-1/2	NN	O	B-Material
+nucleus	NN	O	I-Material
+)	NN	O	O
+has	NN	O	O
+been	NN	O	O
+proposed	NN	O	O
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+numerically	NN	O	O
+characterized	NN	O	O
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+,	NN	O	O
+as	NN	O	O
+being	NN	O	O
+optimal	NN	O	O
+:	NN	O	O
+Additional	NN	O	O
+nuclear	NN	O	B-Process
+spins	NN	O	I-Process
+would	NN	O	O
+perturb	NN	O	O
+the	NN	O	O
+intuitive	NN	O	O
+‘	NN	O	O
+reference	NN	O	O
+and	NN	O	O
+probe’	NN	O	O
+picture	NN	O	O
+.	NN	O	O
+The	NN	O	O
+Hamiltonian	NN	O	O
+then	NN	O	O
+simplifies	NN	O	O
+to	NN	O	O
+H=-γeB(S1(z)+S2(z))+|γe|αS→2·I→	NN	O	B-Process
+,	NN	O	O
+where	NN	O	O
+α	NN	O	B-Process
+is	NN	O	O
+the	NN	O	O
+isotropic	NN	O	B-Process
+hyperfine	NN	O	I-Process
+coupling	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0009261414000372)
+
+It	NN	O	O
+is	NN	O	O
+well	NN	O	O
+-	NN	O	O
+known	NN	O	O
+that	NN	O	O
+the	NN	O	O
+optical	NN	O	B-Task
+properties	NN	O	I-Task
+of	NN	O	O
+atoms	NN	O	B-Material
+and	NN	O	O
+molecules	NN	O	B-Material
+can	NN	O	O
+be	NN	O	O
+influenced	NN	O	O
+by	NN	O	O
+their	NN	O	O
+electronic	NN	O	B-Process
+environment	NN	O	I-Process
+.	NN	O	O
+Local	NN	O	B-Process
+field	NN	O	I-Process
+effects	NN	O	I-Process
+on	NN	O	O
+spontaneous	NN	O	O
+emission	NN	O	O
+rates	NN	O	O
+within	NN	O	O
+nanostructured	NN	O	B-Material
+photonic	NN	O	I-Material
+materials	NN	O	I-Material
+for	NN	O	O
+example	NN	O	O
+are	NN	O	O
+familiar	NN	O	O
+,	NN	O	O
+and	NN	O	O
+have	NN	O	O
+been	NN	O	O
+well	NN	O	O
+summarized	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Optical	NN	O	B-Process
+processes	NN	O	I-Process
+,	NN	O	O
+including	NN	O	O
+resonance	NN	O	B-Process
+energy	NN	O	I-Process
+transfer	NN	O	I-Process
+are	NN	O	O
+similarly	NN	O	O
+dependent	NN	O	O
+on	NN	O	O
+the	NN	O	O
+local	NN	O	B-Process
+environment	NN	O	I-Process
+of	NN	O	I-Process
+molecular	NN	O	I-Process
+chromophores	NN	O	I-Process
+[	NN	O	O
+2–4	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Many	NN	O	O
+biological	NN	O	O
+systems	NN	O	O
+are	NN	O	O
+known	NN	O	O
+to	NN	O	O
+contain	NN	O	O
+complex	NN	O	O
+organizations	NN	O	O
+of	NN	O	O
+molecules	NN	O	O
+with	NN	O	O
+absorption	NN	O	B-Material
+bands	NN	O	I-Material
+shifted	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+electronic	NN	O	B-Process
+influence	NN	O	I-Process
+of	NN	O	O
+other	NN	O	O
+,	NN	O	O
+nearby	NN	O	O
+optical	NN	O	O
+centres	NN	O	O
+.	NN	O	O
+For	NN	O	O
+instance	NN	O	O
+,	NN	O	O
+in	NN	O	O
+widely	NN	O	O
+studied	NN	O	O
+light	NN	O	B-Process
+-	NN	O	I-Process
+harvesting	NN	O	I-Process
+complexes	NN	O	I-Process
+,	NN	O	O
+there	NN	O	O
+are	NN	O	O
+two	NN	O	O
+identifiable	NN	O	O
+forms	NN	O	O
+of	NN	O	O
+the	NN	O	O
+photosynthetic	NN	O	B-Material
+antenna	NN	O	I-Material
+molecule	NN	O	I-Material
+bacteriochlorophyll	NN	O	I-Material
+,	NN	O	O
+with	NN	O	O
+absorption	NN	O	B-Material
+bands	NN	O	I-Material
+centred	NN	O	O
+on	NN	O	O
+800	NN	O	O
+and	NN	O	O
+850	NN	O	O
+nm	NN	O	O
+;	NN	O	O
+it	NN	O	O
+has	NN	O	O
+been	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+the	NN	O	O
+most	NN	O	O
+efficient	NN	O	O
+forms	NN	O	O
+of	NN	O	O
+energy	NN	O	B-Process
+transfer	NN	O	I-Process
+between	NN	O	O
+the	NN	O	O
+two	NN	O	O
+occurs	NN	O	O
+when	NN	O	O
+there	NN	O	O
+is	NN	O	O
+a	NN	O	O
+neighbouring	NN	O	O
+carotenoid	NN	O	B-Material
+species	NN	O	I-Material
+5–7	NN	O	O
+.	NN	O	O
+Until	NN	O	O
+now	NN	O	O
+,	NN	O	O
+research	NN	O	O
+on	NN	O	O
+the	NN	O	O
+broader	NN	O	O
+influence	NN	O	B-Task
+of	NN	O	I-Task
+a	NN	O	I-Task
+neighbouring	NN	O	I-Task
+,	NN	O	I-Task
+off	NN	O	I-Task
+-	NN	O	I-Task
+resonant	NN	O	I-Task
+,	NN	O	I-Task
+molecule	NN	O	I-Task
+on	NN	O	I-Task
+photon	NN	O	I-Task
+absorption	NN	O	I-Task
+has	NN	O	O
+mostly	NN	O	O
+centred	NN	O	O
+on	NN	O	O
+the	NN	O	O
+phenomenon	NN	O	O
+of	NN	O	O
+induced	NN	O	B-Process
+circular	NN	O	I-Process
+dichroism	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+both	NN	O	O
+quantum	NN	O	B-Process
+electrodynamic	NN	O	I-Process
+(	NN	O	O
+QED	NN	O	B-Process
+)	NN	O	O
+calculations	NN	O	O
+[	NN	O	O
+8–10	NN	O	O
+]	NN	O	O
+and	NN	O	O
+experimental	NN	O	B-Process
+procedures	NN	O	I-Process
+[	NN	O	O
+11–13	NN	O	O
+]	NN	O	O
+predict	NN	O	O
+and	NN	O	O
+verify	NN	O	O
+that	NN	O	O
+a	NN	O	O
+chiral	NN	O	B-Material
+mediator	NN	O	I-Material
+confers	NN	O	O
+the	NN	O	O
+capacity	NN	O	O
+for	NN	O	O
+an	NN	O	O
+achiral	NN	O	B-Material
+acceptor	NN	O	I-Material
+to	NN	O	O
+exhibit	NN	O	O
+circular	NN	O	B-Process
+differential	NN	O	I-Process
+absorption	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0009261415001517)
+
+Since	NN	O	O
+the	NN	O	O
+receptors	NN	O	O
+in	NN	O	O
+human	NN	O	O
+biology	NN	O	O
+mostly	NN	O	O
+consist	NN	O	O
+of	NN	O	O
+chiral	NN	O	B-Material
+molecules	NN	O	I-Material
+,	NN	O	O
+drug	NN	O	O
+action	NN	O	O
+mostly	NN	O	O
+involves	NN	O	O
+a	NN	O	O
+specified	NN	O	O
+enantiomeric	NN	O	O
+form	NN	O	O
+.	NN	O	O
+This	NN	O	O
+has	NN	O	O
+spurred	NN	O	O
+the	NN	O	O
+development	NN	O	O
+,	NN	O	O
+especially	NN	O	O
+in	NN	O	O
+the	NN	O	O
+pharmaceutical	NN	O	O
+industry	NN	O	O
+,	NN	O	O
+of	NN	O	O
+a	NN	O	O
+host	NN	O	O
+of	NN	O	O
+techniques	NN	O	B-Task
+to	NN	O	I-Task
+secure	NN	O	I-Task
+enantiopure	NN	O	I-Task
+products	NN	O	I-Task
+.	NN	O	O
+Such	NN	O	O
+methods	NN	O	B-Process
+,	NN	O	I-Process
+mostly	NN	O	I-Process
+multi	NN	O	I-Process
+-	NN	O	I-Process
+step	NN	O	I-Process
+and	NN	O	I-Process
+time	NN	O	I-Process
+-	NN	O	I-Process
+consuming	NN	O	I-Process
+,	NN	O	O
+can	NN	O	O
+typically	NN	O	O
+be	NN	O	O
+cast	NN	O	O
+in	NN	O	O
+one	NN	O	O
+of	NN	O	O
+two	NN	O	O
+distinct	NN	O	O
+categories	NN	O	O
+:	NN	O	O
+synthetic	NN	O	B-Process
+mechanisms	NN	O	I-Process
+designed	NN	O	O
+to	NN	O	O
+produce	NN	O	O
+a	NN	O	O
+single	NN	O	O
+stereoisomer	NN	O	B-Material
+,	NN	O	O
+or	NN	O	O
+separation	NN	O	B-Process
+techniques	NN	O	I-Process
+to	NN	O	O
+isolate	NN	O	O
+distinct	NN	O	O
+enantiomers	NN	O	B-Material
+from	NN	O	O
+a	NN	O	O
+racemic	NN	O	O
+mixture	NN	O	O
+.	NN	O	O
+A	NN	O	O
+significant	NN	O	O
+drawback	NN	O	O
+,	NN	O	O
+for	NN	O	O
+either	NN	O	O
+approach	NN	O	O
+,	NN	O	O
+is	NN	O	O
+a	NN	O	O
+dependence	NN	O	O
+on	NN	O	O
+a	NN	O	O
+supply	NN	O	O
+of	NN	O	O
+enantiopure	NN	O	B-Material
+reagents	NN	O	I-Material
+or	NN	O	I-Material
+substrates	NN	O	I-Material
+–	NN	O	O
+synthesis	NN	O	B-Process
+routes	NN	O	I-Process
+generally	NN	O	O
+utilise	NN	O	O
+chiral	NN	O	B-Material
+building	NN	O	I-Material
+blocks	NN	O	I-Material
+or	NN	O	O
+enantioselective	NN	O	B-Material
+catalysts	NN	O	I-Material
+[	NN	O	O
+7,8	NN	O	O
+]	NN	O	O
+,	NN	O	O
+while	NN	O	O
+enantiomer	NN	O	B-Process
+separation	NN	O	I-Process
+techniques	NN	O	I-Process
+typically	NN	O	O
+incorporate	NN	O	O
+chiral	NN	O	B-Material
+selector	NN	O	I-Material
+molecules	NN	O	I-Material
+to	NN	O	O
+form	NN	O	O
+chemically	NN	O	O
+distinct	NN	O	O
+and	NN	O	O
+distinguishable	NN	O	O
+diastereomeric	NN	O	B-Material
+complexes	NN	O	I-Material
+[	NN	O	O
+8,9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+A	NN	O	O
+key	NN	O	O
+requirement	NN	O	O
+in	NN	O	O
+aiming	NN	O	O
+to	NN	O	O
+achieve	NN	O	B-Task
+enantiopure	NN	O	I-Task
+products	NN	O	I-Task
+,	NN	O	I-Task
+irrespective	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+synthetic	NN	O	I-Task
+method	NN	O	I-Task
+,	NN	O	O
+is	NN	O	O
+therefore	NN	O	O
+a	NN	O	O
+means	NN	O	B-Task
+to	NN	O	I-Task
+measure	NN	O	I-Task
+,	NN	O	I-Task
+and	NN	O	I-Task
+duly	NN	O	I-Task
+quantitate	NN	O	I-Task
+the	NN	O	I-Task
+enantiomeric	NN	O	I-Task
+excess	NN	O	I-Task
+–	NN	O	O
+signifying	NN	O	O
+the	NN	O	O
+degree	NN	O	B-Process
+of	NN	O	I-Process
+chirality	NN	O	I-Process
+within	NN	O	O
+molecular	NN	O	B-Material
+products	NN	O	I-Material
+.	NN	O	O
+Chiral	NN	O	B-Process
+discrimination	NN	O	I-Process
+through	NN	O	O
+optical	NN	O	B-Material
+means	NN	O	I-Material
+is	NN	O	O
+well	NN	O	O
+-	NN	O	O
+known	NN	O	O
+to	NN	O	O
+offer	NN	O	O
+direct	NN	O	O
+,	NN	O	O
+non	NN	O	O
+-	NN	O	O
+contact	NN	O	O
+ways	NN	O	O
+to	NN	O	O
+distinguish	NN	O	O
+between	NN	O	O
+molecules	NN	O	B-Material
+of	NN	O	O
+different	NN	O	O
+handedness	NN	O	O
+,	NN	O	O
+based	NN	O	O
+on	NN	O	O
+observations	NN	O	O
+such	NN	O	O
+as	NN	O	O
+the	NN	O	O
+subtle	NN	O	O
+differences	NN	O	O
+in	NN	O	O
+absorption	NN	O	B-Process
+of	NN	O	O
+left-	NN	O	O
+and	NN	O	O
+right	NN	O	O
+-	NN	O	O
+handed	NN	O	O
+circularly	NN	O	O
+polarised	NN	O	O
+light	NN	O	O
+,	NN	O	O
+or	NN	O	O
+indeed	NN	O	O
+the	NN	O	O
+twisting	NN	O	B-Process
+of	NN	O	I-Process
+polarisation	NN	O	I-Process
+in	NN	O	I-Process
+optical	NN	O	I-Process
+rotation	NN	O	I-Process
+.	NN	O	O
+Other	NN	O	O
+optical	NN	O	B-Process
+methods	NN	O	I-Process
+,	NN	O	O
+under	NN	O	O
+more	NN	O	O
+recent	NN	O	O
+development	NN	O	O
+,	NN	O	O
+also	NN	O	O
+show	NN	O	O
+some	NN	O	O
+promise	NN	O	O
+to	NN	O	O
+achieve	NN	O	O
+enantiomer	NN	O	B-Task
+separation	NN	O	I-Task
+,	NN	O	O
+as	NN	O	O
+will	NN	O	O
+be	NN	O	O
+introduced	NN	O	O
+later	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0009261415008362)
+
+For	NN	O	O
+any	NN	O	O
+quantum	NN	O	B-Process
+dynamical	NN	O	I-Process
+method	NN	O	I-Process
+,	NN	O	O
+existing	NN	O	O
+or	NN	O	O
+emerging	NN	O	O
+,	NN	O	O
+reliable	NN	O	O
+benchmarks	NN	O	B-Task
+are	NN	O	O
+required	NN	O	O
+to	NN	O	O
+assess	NN	O	O
+their	NN	O	O
+accuracy	NN	O	O
+.	NN	O	O
+A	NN	O	B-Process
+model	NN	O	I-Process
+Hamiltonian	NN	O	I-Process
+exhibiting	NN	O	O
+tunnelling	NN	O	B-Process
+dynamics	NN	O	I-Process
+through	NN	O	O
+a	NN	O	O
+multidimensional	NN	O	B-Process
+asymmetric	NN	O	I-Process
+double	NN	O	I-Process
+well	NN	O	I-Process
+potential	NN	O	I-Process
+has	NN	O	O
+been	NN	O	O
+used	NN	O	O
+as	NN	O	O
+a	NN	O	O
+test	NN	O	O
+by	NN	O	O
+the	NN	O	O
+MP	NN	O	B-Process
+/	NN	O	I-Process
+SOFT	NN	O	I-Process
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+and	NN	O	O
+CCS	NN	O	B-Process
+methods	NN	O	I-Process
+[	NN	O	O
+19	NN	O	O
+]	NN	O	O
+mentioned	NN	O	O
+above	NN	O	O
+,	NN	O	O
+and	NN	O	O
+also	NN	O	O
+more	NN	O	O
+recently	NN	O	O
+by	NN	O	O
+a	NN	O	O
+configuration	NN	O	B-Process
+interaction	NN	O	I-Process
+(	NN	O	I-Process
+CI	NN	O	I-Process
+)	NN	O	I-Process
+expansion	NN	O	I-Process
+method	NN	O	I-Process
+[	NN	O	O
+20	NN	O	O
+]	NN	O	O
+and	NN	O	O
+two	NN	O	B-Process
+-	NN	O	I-Process
+layer	NN	O	I-Process
+version	NN	O	I-Process
+of	NN	O	I-Process
+CCS	NN	O	I-Process
+(	NN	O	O
+2L	NN	O	B-Process
+-	NN	O	I-Process
+CCS	NN	O	I-Process
+)	NN	O	O
+.	NN	O	O
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
+The	NN	O	B-Process
+Hamiltonian	NN	O	I-Process
+consists	NN	O	O
+of	NN	O	O
+a	NN	O	O
+1-dimensional	NN	O	B-Process
+tunnelling	NN	O	I-Process
+mode	NN	O	I-Process
+coupled	NN	O	O
+to	NN	O	O
+an	NN	O	O
+(	NN	O	B-Process
+M−1)-dimensional	NN	O	I-Process
+harmonic	NN	O	I-Process
+bath	NN	O	I-Process
+,	NN	O	O
+hence	NN	O	O
+it	NN	O	O
+is	NN	O	O
+a	NN	O	O
+system	NN	O	B-Task
+-	NN	O	I-Task
+bath	NN	O	I-Task
+problem	NN	O	I-Task
+which	NN	O	O
+bears	NN	O	O
+some	NN	O	O
+similarity	NN	O	O
+to	NN	O	O
+the	NN	O	O
+Caldeira	NN	O	B-Process
+-	NN	O	I-Process
+Leggett	NN	O	I-Process
+model	NN	O	I-Process
+of	NN	O	I-Process
+tunnelling	NN	O	I-Process
+in	NN	O	O
+a	NN	O	O
+dissipative	NN	O	O
+system	NN	O	O
+[	NN	O	O
+22,23	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+Hamiltonian	NN	O	B-Process
+is	NN	O	O
+non	NN	O	O
+-	NN	O	O
+dissipative	NN	O	O
+,	NN	O	O
+however	NN	O	O
+and	NN	O	O
+the	NN	O	O
+harmonic	NN	O	B-Process
+modes	NN	O	I-Process
+all	NN	O	O
+have	NN	O	O
+the	NN	O	O
+same	NN	O	O
+frequency	NN	O	O
+.	NN	O	O
+System	NN	O	B-Process
+-	NN	O	I-Process
+bath	NN	O	I-Process
+models	NN	O	I-Process
+play	NN	O	O
+an	NN	O	O
+important	NN	O	O
+role	NN	O	O
+in	NN	O	O
+physics	NN	O	B-Task
+,	NN	O	O
+being	NN	O	O
+used	NN	O	O
+to	NN	O	O
+describe	NN	O	O
+superconductivity	NN	O	B-Process
+at	NN	O	I-Process
+a	NN	O	I-Process
+Josephson	NN	O	I-Process
+junction	NN	O	I-Process
+in	NN	O	O
+a	NN	O	O
+superconducting	NN	O	B-Process
+quantum	NN	O	I-Process
+interface	NN	O	I-Process
+device	NN	O	I-Process
+(	NN	O	O
+SQUID	NN	O	B-Process
+)	NN	O	O
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+,	NN	O	O
+for	NN	O	O
+which	NN	O	O
+the	NN	O	O
+Caldeira	NN	O	B-Process
+-	NN	O	I-Process
+Leggett	NN	O	I-Process
+model	NN	O	I-Process
+provides	NN	O	O
+a	NN	O	O
+theoretical	NN	O	O
+basis	NN	O	O
+,	NN	O	O
+and	NN	O	O
+magnetic	NN	O	B-Process
+and	NN	O	I-Process
+conductance	NN	O	I-Process
+phenomena	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+spin	NN	O	B-Task
+-	NN	O	I-Task
+bath	NN	O	I-Task
+regime	NN	O	I-Task
+[	NN	O	O
+25	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0010938X13003818)
+
+Based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+theoretical	NN	O	B-Task
+analysis	NN	O	I-Task
+,	NN	O	O
+the	NN	O	O
+value	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+measuring	NN	O	I-Process
+resistor	NN	O	I-Process
+,	NN	O	O
+Rm	NN	O	B-Process
+,	NN	O	O
+has	NN	O	O
+no	NN	O	O
+effect	NN	O	O
+on	NN	O	O
+the	NN	O	O
+corrosion	NN	O	B-Process
+process	NN	O	I-Process
+and	NN	O	O
+on	NN	O	O
+the	NN	O	O
+estimated	NN	O	O
+value	NN	O	B-Process
+of	NN	O	I-Process
+noise	NN	O	I-Process
+resistance	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+order	NN	O	O
+to	NN	O	O
+validate	NN	O	B-Task
+this	NN	O	I-Task
+conclusion	NN	O	I-Task
+,	NN	O	O
+the	NN	O	O
+experiment	NN	O	O
+of	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+9	NN	O	O
+was	NN	O	O
+performed	NN	O	O
+.	NN	O	O
+Specifically	NN	O	O
+,	NN	O	O
+a	NN	O	O
+pair	NN	O	B-Material
+of	NN	O	I-Material
+nominally	NN	O	I-Material
+identical	NN	O	I-Material
+specimens	NN	O	I-Material
+was	NN	O	O
+initially	NN	O	O
+coupled	NN	O	O
+by	NN	O	O
+a	NN	O	O
+4.7kΩ	NN	O	B-Material
+resistor	NN	O	I-Material
+and	NN	O	O
+their	NN	O	O
+potential	NN	O	O
+with	NN	O	O
+respect	NN	O	O
+to	NN	O	O
+a	NN	O	O
+saturated	NN	O	B-Material
+calomel	NN	O	I-Material
+electrode	NN	O	I-Material
+was	NN	O	O
+recorded	NN	O	O
+by	NN	O	O
+using	NN	O	O
+a	NN	O	O
+NI	NN	O	B-Material
+-	NN	O	I-Material
+USB	NN	O	I-Material
+6009	NN	O	I-Material
+analog	NN	O	I-Material
+-	NN	O	I-Material
+to	NN	O	I-Material
+-	NN	O	I-Material
+digital	NN	O	I-Material
+converter	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+electrochemical	NN	O	B-Process
+noise	NN	O	I-Process
+signal	NN	O	I-Process
+was	NN	O	O
+recorded	NN	O	O
+using	NN	O	O
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+-	NN	O	I-Material
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+software	NN	O	I-Material
+,	NN	O	O
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+segments	NN	O	O
+of	NN	O	O
+1000	NN	O	O
+points	NN	O	O
+at	NN	O	O
+each	NN	O	O
+iteration	NN	O	O
+.	NN	O	O
+Between	NN	O	O
+iterations	NN	O	O
+,	NN	O	O
+the	NN	O	O
+1000	NN	O	O
+values	NN	O	O
+acquired	NN	O	O
+were	NN	O	O
+averaged	NN	O	O
+to	NN	O	O
+obtain	NN	O	B-Task
+a	NN	O	I-Task
+single	NN	O	I-Task
+value	NN	O	I-Task
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+potential	NN	O	I-Task
+,	NN	O	O
+subsequently	NN	O	O
+saved	NN	O	O
+to	NN	O	O
+the	NN	O	O
+file	NN	O	O
+used	NN	O	O
+for	NN	O	O
+later	NN	O	O
+processing	NN	O	O
+.	NN	O	O
+The	NN	O	O
+final	NN	O	O
+dataset	NN	O	B-Material
+comprised	NN	O	O
+potential	NN	O	O
+values	NN	O	O
+spaced	NN	O	O
+1±0.05s	NN	O	O
+in	NN	O	O
+time	NN	O	O
+.	NN	O	O
+Under	NN	O	O
+the	NN	O	O
+assumption	NN	O	O
+that	NN	O	O
+the	NN	O	O
+noise	NN	O	O
+present	NN	O	O
+above	NN	O	O
+1023Hz	NN	O	O
+is	NN	O	O
+negligible	NN	O	O
+compared	NN	O	O
+with	NN	O	O
+the	NN	O	O
+noise	NN	O	O
+present	NN	O	O
+below	NN	O	O
+0.5Hz	NN	O	O
+,	NN	O	O
+this	NN	O	O
+procedure	NN	O	O
+enables	NN	O	O
+an	NN	O	O
+accurate	NN	O	B-Task
+recording	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+potential	NN	O	I-Task
+noise	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+frequencies	NN	O	I-Task
+of	NN	O	I-Task
+interest	NN	O	I-Task
+,	NN	O	O
+avoiding	NN	O	O
+aliasing	NN	O	O
+of	NN	O	O
+frequencies	NN	O	O
+between	NN	O	O
+0.5	NN	O	O
+and	NN	O	O
+1023Hz	NN	O	O
+and	NN	O	O
+minimizing	NN	O	O
+the	NN	O	O
+50Hz	NN	O	O
+interference	NN	O	O
+from	NN	O	O
+the	NN	O	O
+mains	NN	O	O
+supply	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0010938X14002157)
+
+A	NN	O	O
+surfactant	NN	O	B-Material
+is	NN	O	O
+a	NN	O	O
+surface	NN	O	B-Material
+active	NN	O	I-Material
+agent	NN	O	I-Material
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+work	NN	O	O
+a	NN	O	O
+surfactant	NN	O	B-Material
+term	NN	O	O
+will	NN	O	O
+be	NN	O	O
+used	NN	O	O
+for	NN	O	O
+compounds	NN	O	B-Material
+which	NN	O	I-Material
+improve	NN	O	I-Material
+the	NN	O	I-Material
+dispersability	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+CI	NN	O	B-Material
+in	NN	O	O
+the	NN	O	O
+acid	NN	O	B-Material
+(	NN	O	O
+as	NN	O	O
+emulsifiers	NN	O	B-Material
+providing	NN	O	O
+dispersed	NN	O	B-Material
+emulsion	NN	O	I-Material
+–	NN	O	O
+not	NN	O	O
+separated	NN	O	O
+)	NN	O	O
+while	NN	O	O
+wetting	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+of	NN	O	O
+the	NN	O	O
+metallic	NN	O	B-Material
+material	NN	O	I-Material
+[	NN	O	O
+14,20,24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+surfactants	NN	O	O
+can	NN	O	O
+offer	NN	O	O
+corrosion	NN	O	B-Task
+protection	NN	O	I-Task
+themselves	NN	O	O
+.	NN	O	O
+Some	NN	O	O
+examples	NN	O	O
+when	NN	O	O
+the	NN	O	O
+same	NN	O	O
+compound	NN	O	O
+was	NN	O	O
+used	NN	O	O
+as	NN	O	O
+a	NN	O	O
+surfactant	NN	O	B-Material
+or	NN	O	I-Material
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+inhibitor	NN	O	I-Material
+ingredient	NN	O	O
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+below	NN	O	O
+.	NN	O	O
+Typical	NN	O	O
+surfactants	NN	O	B-Material
+in	NN	O	O
+the	NN	O	O
+oilfield	NN	O	O
+services	NN	O	O
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+alkylphenol	NN	O	B-Material
+ethoxylates	NN	O	I-Material
+,	NN	O	O
+e.g.	NN	O	O
+nonylphenol	NN	O	B-Material
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+(	NN	O	O
+NPE	NN	O	B-Material
+)	NN	O	O
+[	NN	O	O
+14,15,30,106,107	NN	O	O
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+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+NPEs	NN	O	B-Material
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+North	NN	O	O
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+On	NN	O	O
+the	NN	O	O
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+,	NN	O	O
+ethoxylated	NN	O	B-Material
+linear	NN	O	I-Material
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+[	NN	O	O
+20	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
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+a	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Material
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+[	NN	O	O
+106	NN	O	O
+]	NN	O	O
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+A	NN	O	O
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+employed	NN	O	O
+surfactant	NN	O	B-Material
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+N	NN	O	B-Material
+-	NN	O	I-Material
+dodecylpyridinium	NN	O	I-Material
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+(	NN	O	O
+DDPB	NN	O	B-Material
+)	NN	O	O
+[	NN	O	O
+9,60,61,108,109	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Anionic	NN	O	B-Material
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+,	NN	O	O
+anionic	NN	O	B-Material
+sulphonates	NN	O	I-Material
+,	NN	O	O
+alkoxylated	NN	O	B-Material
+alkylphenol	NN	O	I-Material
+resins	NN	O	I-Material
+,	NN	O	O
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+polyoxyethylene	NN	O	B-Material
+sorbitan	NN	O	I-Material
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+useful	NN	O	O
+surfactants	NN	O	B-Material
+.	NN	O	O
+Ali	NN	O	O
+reported	NN	O	O
+that	NN	O	O
+a	NN	O	O
+particularly	NN	O	O
+useful	NN	O	O
+surfactant	NN	O	B-Material
+is	NN	O	O
+a	NN	O	O
+blend	NN	O	B-Material
+of	NN	O	I-Material
+polyethylene	NN	O	I-Material
+glycol	NN	O	I-Material
+esters	NN	O	I-Material
+of	NN	O	I-Material
+fatty	NN	O	I-Material
+acids	NN	O	I-Material
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+ethoxylated	NN	O	I-Material
+alkylphenols	NN	O	I-Material
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Several	NN	O	O
+examples	NN	O	O
+of	NN	O	O
+the	NN	O	O
+surfactants	NN	O	B-Material
+used	NN	O	O
+are	NN	O	O
+given	NN	O	O
+below	NN	O	O
+in	NN	O	O
+Section	NN	O	O
+5.6	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0010938X15003261)
+
+The	NN	O	O
+related	NN	O	O
+Volta	NN	O	B-Process
+potential	NN	O	I-Process
+(	NN	O	O
+Ψ	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+the	NN	O	O
+potential	NN	O	B-Process
+difference	NN	O	I-Process
+between	NN	O	O
+a	NN	O	O
+position	NN	O	O
+infinitely	NN	O	O
+far	NN	O	O
+away	NN	O	O
+from	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+and	NN	O	O
+a	NN	O	O
+position	NN	O	O
+just	NN	O	O
+outside	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+,	NN	O	O
+and	NN	O	O
+is	NN	O	O
+the	NN	O	O
+measureable	NN	O	B-Process
+quantity	NN	O	I-Process
+characterising	NN	O	O
+electrochemical	NN	O	B-Process
+behaviour	NN	O	I-Process
+of	NN	O	I-Process
+a	NN	O	I-Process
+metal	NN	O	I-Process
+[	NN	O	O
+12,17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+scanning	NN	O	B-Process
+Kelvin	NN	O	I-Process
+probe	NN	O	I-Process
+force	NN	O	I-Process
+microscopy	NN	O	I-Process
+(	NN	O	O
+SKPFM	NN	O	B-Process
+)	NN	O	O
+technique	NN	O	O
+allows	NN	O	O
+detection	NN	O	B-Task
+of	NN	O	I-Task
+local	NN	O	I-Task
+EWF	NN	O	I-Task
+(	NN	O	O
+if	NN	O	O
+the	NN	O	O
+EWF	NN	O	O
+of	NN	O	O
+the	NN	O	O
+tip	NN	O	O
+is	NN	O	O
+known	NN	O	O
+)	NN	O	O
+,	NN	O	O
+or	NN	O	O
+Volta	NN	O	B-Task
+potential	NN	O	I-Task
+differences	NN	O	I-Task
+(	NN	O	O
+ΔΨ	NN	O	B-Task
+)	NN	O	O
+between	NN	O	O
+an	NN	O	O
+atomic	NN	O	B-Material
+force	NN	O	I-Material
+microscopy	NN	O	I-Material
+tip	NN	O	I-Material
+(	NN	O	O
+usually	NN	O	O
+Pt	NN	O	B-Material
+coated	NN	O	I-Material
+)	NN	O	O
+and	NN	O	O
+the	NN	O	O
+metal	NN	O	B-Material
+surface	NN	O	I-Material
+[	NN	O	O
+14,15,19	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+lateral	NN	O	O
+resolution	NN	O	O
+of	NN	O	O
+SKPFM	NN	O	B-Process
+can	NN	O	O
+be	NN	O	O
+as	NN	O	O
+high	NN	O	O
+as	NN	O	O
+10	NN	O	O
+’s	NN	O	O
+of	NN	O	O
+nm	NN	O	O
+in	NN	O	O
+ambient	NN	O	B-Material
+air	NN	O	I-Material
+,	NN	O	O
+with	NN	O	O
+a	NN	O	O
+sensitivity	NN	O	O
+up	NN	O	O
+to	NN	O	O
+10–20meV	NN	O	O
+[	NN	O	O
+19	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Volta	NN	O	B-Process
+potential	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+characteristic	NN	O	O
+property	NN	O	B-Process
+of	NN	O	I-Process
+a	NN	O	I-Process
+metal	NN	O	I-Process
+surface	NN	O	I-Process
+and	NN	O	O
+can	NN	O	O
+be	NN	O	O
+used	NN	O	O
+to	NN	O	O
+understand	NN	O	B-Task
+electrochemical	NN	O	I-Task
+processes	NN	O	I-Task
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+sensitive	NN	O	O
+to	NN	O	O
+any	NN	O	O
+kind	NN	O	O
+of	NN	O	O
+surface	NN	O	O
+defects	NN	O	O
+,	NN	O	O
+chemical	NN	O	O
+variations	NN	O	O
+,	NN	O	O
+and	NN	O	O
+residual	NN	O	O
+stress	NN	O	O
+[	NN	O	O
+13,17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Volta	NN	O	B-Process
+potential	NN	O	I-Process
+differences	NN	O	I-Process
+in	NN	O	I-Process
+microstructure	NN	O	I-Process
+have	NN	O	O
+been	NN	O	O
+used	NN	O	O
+to	NN	O	O
+predict	NN	O	B-Task
+corrosion	NN	O	I-Task
+behaviour	NN	O	I-Task
+[	NN	O	O
+10,15,18,20–22	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Regions	NN	O	O
+with	NN	O	O
+larger	NN	O	B-Process
+(	NN	O	I-Process
+ΔΨ	NN	O	I-Process
+)	NN	O	I-Process
+indicate	NN	O	I-Process
+increased	NN	O	I-Process
+surface	NN	O	I-Process
+reactivity	NN	O	I-Process
+[	NN	O	O
+11,15,18	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+even	NN	O	O
+a	NN	O	O
+correlation	NN	O	O
+between	NN	O	O
+Volta	NN	O	B-Process
+potential	NN	O	I-Process
+differences	NN	O	I-Process
+measured	NN	O	O
+in	NN	O	O
+nominally	NN	O	O
+dry	NN	O	B-Material
+air	NN	O	I-Material
+and	NN	O	O
+their	NN	O	O
+free	NN	O	B-Process
+corrosion	NN	O	I-Process
+potential	NN	O	I-Process
+(	NN	O	O
+Ecorr	NN	O	B-Process
+)	NN	O	O
+pre	NN	O	O
+-	NN	O	O
+determined	NN	O	O
+under	NN	O	O
+immersed	NN	O	O
+conditions	NN	O	O
+has	NN	O	O
+been	NN	O	O
+reported	NN	O	O
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021961415003821)
+
+The	NN	O	O
+homologous	NN	O	B-Material
+series	NN	O	I-Material
+of	NN	O	I-Material
+n	NN	O	I-Material
+-	NN	O	I-Material
+alkanes	NN	O	I-Material
+are	NN	O	O
+represented	NN	O	O
+here	NN	O	O
+as	NN	O	O
+homonuclear	NN	O	B-Material
+chains	NN	O	I-Material
+of	NN	O	I-Material
+tangent	NN	O	I-Material
+Mie	NN	O	I-Material
+spherical	NN	O	I-Material
+CG	NN	O	I-Material
+segments	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+development	NN	O	B-Task
+of	NN	O	I-Task
+CG	NN	O	I-Task
+models	NN	O	I-Task
+for	NN	O	I-Task
+long	NN	O	I-Task
+n	NN	O	I-Task
+-	NN	O	I-Task
+alkanes	NN	O	I-Task
+such	NN	O	O
+as	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+decane	NN	O	I-Material
+(	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+C10H22	NN	O	I-Material
+)	NN	O	O
+and	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+eicosane	NN	O	I-Material
+(	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+C20H42	NN	O	I-Material
+)	NN	O	O
+has	NN	O	O
+already	NN	O	O
+been	NN	O	O
+successfully	NN	O	O
+demonstrated	NN	O	O
+using	NN	O	O
+the	NN	O	O
+SAFT-γ	NN	O	B-Process
+Mie	NN	O	I-Process
+formalism	NN	O	I-Process
+[	NN	O	O
+118	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+decane	NN	O	I-Material
+molecule	NN	O	I-Material
+was	NN	O	O
+represented	NN	O	O
+by	NN	O	O
+chains	NN	O	O
+of	NN	O	O
+three	NN	O	O
+and	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+eicosane	NN	O	I-Material
+chains	NN	O	O
+of	NN	O	O
+six	NN	O	O
+fully	NN	O	O
+flexible	NN	O	O
+tangentially	NN	O	O
+bonded	NN	O	O
+Mie	NN	O	B-Material
+segments	NN	O	I-Material
+.	NN	O	O
+A	NN	O	O
+certain	NN	O	O
+degree	NN	O	O
+of	NN	O	O
+parameter	NN	O	O
+degeneracy	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+overall	NN	O	O
+performance	NN	O	O
+is	NN	O	O
+expected	NN	O	O
+as	NN	O	O
+a	NN	O	O
+consequence	NN	O	O
+of	NN	O	O
+the	NN	O	O
+conformal	NN	O	O
+nature	NN	O	O
+of	NN	O	O
+the	NN	O	O
+EOS	NN	O	O
+description	NN	O	O
+[	NN	O	O
+132	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+our	NN	O	O
+current	NN	O	O
+work	NN	O	O
+,	NN	O	O
+we	NN	O	O
+use	NN	O	O
+an	NN	O	O
+alternative	NN	O	B-Process
+CG	NN	O	I-Process
+mapping	NN	O	I-Process
+for	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+alkanes	NN	O	I-Material
+developed	NN	O	O
+in	NN	O	O
+reference	NN	O	O
+[	NN	O	O
+122	NN	O	O
+]	NN	O	O
+,	NN	O	O
+where	NN	O	O
+each	NN	O	O
+segment	NN	O	O
+was	NN	O	O
+taken	NN	O	O
+to	NN	O	O
+represent	NN	O	O
+three	NN	O	O
+alkyl	NN	O	B-Material
+carbon	NN	O	I-Material
+backbone	NN	O	I-Material
+atoms	NN	O	I-Material
+and	NN	O	O
+their	NN	O	O
+corresponding	NN	O	O
+hydrogen	NN	O	B-Material
+atoms	NN	O	I-Material
+.	NN	O	O
+By	NN	O	O
+applying	NN	O	O
+this	NN	O	O
+mapping	NN	O	O
+,	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+alkanes	NN	O	I-Material
+chains	NN	O	I-Material
+containing	NN	O	O
+multiples	NN	O	O
+of	NN	O	O
+three	NN	O	O
+carbon	NN	O	B-Material
+units	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+represented	NN	O	O
+directly	NN	O	O
+:	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+C6H14	NN	O	I-Material
+,	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+C9H20	NN	O	I-Material
+,	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+C12H26	NN	O	I-Material
+,	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+C15H32	NN	O	I-Material
+,	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+C18H38	NN	O	I-Material
+,	NN	O	O
+etc	NN	O	O
+.	NN	O	O
+A	NN	O	O
+good	NN	O	O
+description	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+thermodynamic	NN	O	I-Task
+properties	NN	O	I-Task
+of	NN	O	O
+these	NN	O	O
+alkanes	NN	O	B-Material
+is	NN	O	O
+found	NN	O	O
+to	NN	O	O
+be	NN	O	O
+provided	NN	O	O
+with	NN	O	O
+CG	NN	O	B-Material
+alkyl	NN	O	I-Material
+beads	NN	O	I-Material
+characterised	NN	O	O
+by	NN	O	O
+the	NN	O	O
+Mie	NN	O	B-Process
+(	NN	O	I-Process
+15–6	NN	O	I-Process
+)	NN	O	I-Process
+potential	NN	O	I-Process
+.	NN	O	O
+For	NN	O	O
+convenience	NN	O	O
+,	NN	O	O
+the	NN	O	O
+exponent	NN	O	O
+pair	NN	O	O
+(	NN	O	O
+15–6	NN	O	O
+)	NN	O	O
+is	NN	O	O
+also	NN	O	O
+used	NN	O	O
+to	NN	O	O
+represent	NN	O	O
+the	NN	O	O
+interactions	NN	O	O
+between	NN	O	O
+the	NN	O	O
+CG	NN	O	B-Material
+beads	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+intervening	NN	O	O
+alkanes	NN	O	B-Material
+considered	NN	O	O
+here	NN	O	O
+;	NN	O	O
+the	NN	O	O
+number	NN	O	O
+of	NN	O	O
+segments	NN	O	O
+m	NN	O	O
+is	NN	O	O
+taken	NN	O	O
+to	NN	O	O
+be	NN	O	O
+the	NN	O	O
+nearest	NN	O	O
+integer	NN	O	O
+of	NN	O	O
+the	NN	O	O
+division	NN	O	O
+of	NN	O	O
+the	NN	O	O
+carbon	NN	O	B-Material
+number	NN	O	O
+C	NN	O	O
+by	NN	O	O
+three	NN	O	O
+.	NN	O	O
+The	NN	O	O
+size	NN	O	O
+σ	NN	O	O
+and	NN	O	O
+energy	NN	O	O
+∊	NN	O	O
+parameters	NN	O	O
+are	NN	O	O
+then	NN	O	O
+estimated	NN	O	O
+from	NN	O	O
+the	NN	O	O
+experimental	NN	O	O
+saturated	NN	O	B-Process
+-	NN	O	I-Process
+liquid	NN	O	I-Process
+density	NN	O	I-Process
+and	NN	O	O
+vapour	NN	O	B-Process
+pressure	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+individual	NN	O	O
+alkanes	NN	O	B-Material
+following	NN	O	O
+the	NN	O	O
+usual	NN	O	O
+SAFT-γ	NN	O	B-Process
+Mie	NN	O	I-Process
+procedure	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+chosen	NN	O	O
+mapping	NN	O	O
+is	NN	O	O
+by	NN	O	O
+no	NN	O	O
+means	NN	O	O
+unique	NN	O	O
+,	NN	O	O
+as	NN	O	O
+one	NN	O	O
+can	NN	O	O
+postulate	NN	O	O
+parameter	NN	O	O
+sets	NN	O	O
+that	NN	O	O
+fulfil	NN	O	O
+other	NN	O	O
+requisites	NN	O	O
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+being	NN	O	O
+“	NN	O	O
+universal	NN	O	O
+”	NN	O	O
+across	NN	O	O
+the	NN	O	O
+entire	NN	O	O
+homologous	NN	O	O
+series	NN	O	O
+[	NN	O	O
+119	NN	O	O
+]	NN	O	O
+or	NN	O	O
+correlated	NN	O	O
+to	NN	O	O
+the	NN	O	O
+critical	NN	O	O
+properties	NN	O	O
+[	NN	O	O
+125	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999113005652)
+
+This	NN	O	O
+study	NN	O	O
+proposes	NN	O	O
+a	NN	O	O
+new	NN	O	B-Task
+framework	NN	O	I-Task
+of	NN	O	I-Task
+a	NN	O	I-Task
+numerical	NN	O	I-Task
+modelling	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Process
+exchange	NN	O	I-Process
+between	NN	O	O
+air	NN	O	B-Material
+and	NN	O	O
+water	NN	O	B-Material
+across	NN	O	O
+their	NN	O	O
+interface	NN	O	O
+,	NN	O	O
+and	NN	O	O
+subsequent	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+in	NN	O	I-Process
+water	NN	O	I-Process
+based	NN	O	O
+on	NN	O	O
+an	NN	O	O
+extended	NN	O	O
+two	NN	O	B-Process
+-	NN	O	I-Process
+compartment	NN	O	I-Process
+model	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+major	NN	O	O
+purpose	NN	O	O
+of	NN	O	O
+this	NN	O	O
+study	NN	O	O
+is	NN	O	O
+to	NN	O	O
+provide	NN	O	O
+a	NN	O	O
+fundamental	NN	O	B-Process
+concept	NN	O	I-Process
+for	NN	O	O
+modelling	NN	O	B-Task
+physicochemical	NN	O	I-Task
+processes	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Process
+exchange	NN	O	I-Process
+,	NN	O	O
+followed	NN	O	O
+by	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+in	NN	O	I-Process
+water	NN	O	I-Process
+.	NN	O	O
+Demonstrating	NN	O	O
+fundamental	NN	O	O
+data	NN	O	O
+and	NN	O	O
+knowledge	NN	O	O
+on	NN	O	O
+the	NN	O	O
+important	NN	O	O
+environmental	NN	O	O
+transport	NN	O	O
+phenomena	NN	O	O
+,	NN	O	O
+especially	NN	O	O
+the	NN	O	O
+effects	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+Schmidt	NN	O	I-Process
+number	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+rate	NN	O	I-Process
+on	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Process
+exchange	NN	O	I-Process
+mechanisms	NN	O	I-Process
+across	NN	O	I-Process
+the	NN	O	I-Process
+interface	NN	O	I-Process
+have	NN	O	O
+also	NN	O	O
+been	NN	O	O
+attempted	NN	O	O
+.	NN	O	O
+The	NN	O	O
+gas	NN	O	B-Process
+exchange	NN	O	I-Process
+processes	NN	O	I-Process
+are	NN	O	O
+separated	NN	O	O
+into	NN	O	O
+two	NN	O	O
+physicochemical	NN	O	O
+substeps	NN	O	O
+,	NN	O	O
+the	NN	O	O
+first	NN	O	O
+is	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Process
+–	NN	O	I-Process
+liquid	NN	O	I-Process
+equilibrium	NN	O	I-Process
+between	NN	O	O
+the	NN	O	O
+two	NN	O	O
+phases	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+second	NN	O	O
+is	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+water	NN	O	I-Process
+phase	NN	O	I-Process
+.	NN	O	O
+A	NN	O	O
+first	NN	O	O
+-	NN	O	O
+order	NN	O	O
+,	NN	O	O
+irreversible	NN	O	B-Process
+chemical	NN	O	I-Process
+reaction	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+gaseous	NN	O	B-Material
+material	NN	O	I-Material
+after	NN	O	O
+its	NN	O	O
+uptake	NN	O	O
+into	NN	O	O
+the	NN	O	O
+water	NN	O	B-Material
+phase	NN	O	I-Material
+is	NN	O	O
+assumed	NN	O	O
+here	NN	O	O
+to	NN	O	O
+simplify	NN	O	O
+interactions	NN	O	O
+of	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reactions	NN	O	I-Process
+and	NN	O	O
+turbulent	NN	O	B-Process
+transport	NN	O	I-Process
+phenomena	NN	O	I-Process
+in	NN	O	I-Process
+water	NN	O	I-Process
+.	NN	O	O
+While	NN	O	O
+a	NN	O	O
+traditional	NN	O	O
+two	NN	O	B-Process
+-	NN	O	I-Process
+compartment	NN	O	I-Process
+model	NN	O	I-Process
+assumes	NN	O	O
+uniform	NN	O	O
+concentration	NN	O	O
+of	NN	O	O
+a	NN	O	O
+material	NN	O	O
+in	NN	O	O
+each	NN	O	O
+compartment	NN	O	O
+,	NN	O	O
+the	NN	O	O
+present	NN	O	O
+two	NN	O	B-Process
+-	NN	O	I-Process
+compartment	NN	O	I-Process
+model	NN	O	I-Process
+uses	NN	O	O
+a	NN	O	O
+computational	NN	O	B-Process
+fluid	NN	O	I-Process
+dynamics	NN	O	I-Process
+(	NN	O	O
+CFD	NN	O	B-Process
+)	NN	O	O
+technique	NN	O	O
+in	NN	O	O
+the	NN	O	O
+water	NN	O	B-Material
+compartment	NN	O	O
+to	NN	O	O
+evaluate	NN	O	B-Task
+temporal	NN	O	I-Task
+development	NN	O	I-Task
+of	NN	O	I-Task
+three	NN	O	I-Task
+-	NN	O	I-Task
+dimensional	NN	O	I-Task
+profiles	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+velocity	NN	O	I-Task
+and	NN	O	I-Task
+concentration	NN	O	I-Task
+fields	NN	O	I-Task
+.	NN	O	O
+A	NN	O	O
+direct	NN	O	B-Process
+numerical	NN	O	I-Process
+simulation	NN	O	I-Process
+(	NN	O	O
+DNS	NN	O	B-Process
+)	NN	O	O
+approach	NN	O	O
+is	NN	O	O
+used	NN	O	O
+to	NN	O	O
+evaluate	NN	O	B-Task
+profiles	NN	O	I-Task
+of	NN	O	I-Task
+fluid	NN	O	I-Task
+velocities	NN	O	I-Task
+and	NN	O	I-Task
+concentrations	NN	O	I-Task
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+,	NN	O	O
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+closures	NN	O	O
+,	NN	O	O
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+-	NN	O	I-Process
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+.	NN	O	O
+We	NN	O	O
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+a	NN	O	O
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+-	NN	O	O
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+turbulent	NN	O	O
+water	NN	O	B-Material
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+a	NN	O	O
+low	NN	O	O
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+number	NN	O	O
+,	NN	O	O
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+1	NN	O	O
+to	NN	O	O
+8	NN	O	O
+to	NN	O	O
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+the	NN	O	O
+gas	NN	O	B-Material
+in	NN	O	O
+sub	NN	O	O
+-	NN	O	O
+interface	NN	O	O
+water	NN	O	B-Material
+on	NN	O	O
+the	NN	O	O
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+the	NN	O	I-Process
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+.	NN	O	O
+Six	NN	O	O
+degrees	NN	O	O
+of	NN	O	O
+the	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
+Extrapolations	NN	O	O
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+the	NN	O	O
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+the	NN	O	O
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+)	NN	O	I-Material
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+.	NN	O	O
+
+-DOCSTART- (S0021999113005846)
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+Although	NN	O	O
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+,	NN	O	O
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+a	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Material
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+16	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	O
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+-DOCSTART- (S002199911500025X)
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+A	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	I-Process
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+an	NN	O	O
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+of	NN	O	O
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+has	NN	O	O
+been	NN	O	O
+introduced	NN	O	O
+in	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	I-Process
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+-	NN	O	I-Process
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+.	NN	O	O
+Since	NN	O	O
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+a	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+independent	NN	O	O
+of	NN	O	O
+the	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+
+-DOCSTART- (S0021999115003423)
+
+The	NN	O	O
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+-	NN	O	I-Material
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+)	NN	O	O
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+.	NN	O	O
+In	NN	O	O
+Section	NN	O	O
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+for	NN	O	O
+the	NN	O	O
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+-	NN	O	O
+cell	NN	O	O
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+.	NN	O	O
+
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+
+The	NN	O	B-Task
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+,	NN	O	O
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+,	NN	O	I-Process
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+,	NN	O	I-Process
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+.	NN	O	O
+The	NN	O	O
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+to	NN	O	O
+Euler	NN	O	O
+,	NN	O	O
+Lagrange	NN	O	O
+,	NN	O	O
+and	NN	O	O
+Hamilton	NN	O	O
+;	NN	O	O
+an	NN	O	O
+overview	NN	O	O
+of	NN	O	O
+this	NN	O	O
+history	NN	O	O
+can	NN	O	O
+be	NN	O	O
+found	NN	O	O
+in	NN	O	O
+[	NN	O	O
+1,19	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+approach	NN	O	B-Process
+allows	NN	O	O
+to	NN	O	O
+express	NN	O	B-Task
+all	NN	O	I-Task
+the	NN	O	I-Task
+dynamics	NN	O	I-Task
+of	NN	O	I-Task
+a	NN	O	I-Task
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+in	NN	O	O
+a	NN	O	O
+single	NN	O	B-Process
+functional	NN	O	I-Process
+–	NN	O	O
+the	NN	O	O
+Lagrangian	NN	O	B-Process
+–	NN	O	O
+which	NN	O	O
+is	NN	O	O
+an	NN	O	O
+action	NN	O	B-Process
+integral	NN	O	I-Process
+.	NN	O	O
+Hamiltonian	NN	O	B-Process
+mechanics	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+reformulation	NN	O	B-Process
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+Lagrangian	NN	O	I-Process
+mechanics	NN	O	I-Process
+which	NN	O	O
+provides	NN	O	O
+a	NN	O	O
+convenient	NN	O	O
+framework	NN	O	B-Material
+to	NN	O	O
+study	NN	O	B-Task
+the	NN	O	I-Task
+symmetry	NN	O	I-Task
+properties	NN	O	I-Task
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+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+expressed	NN	O	O
+by	NN	O	O
+Noether	NN	O	O
+'s	NN	O	O
+theorem	NN	O	O
+which	NN	O	O
+establishes	NN	O	O
+the	NN	O	O
+direct	NN	O	O
+connection	NN	O	O
+between	NN	O	O
+the	NN	O	O
+symmetry	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+Hamiltonian	NN	O	B-Process
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+and	NN	O	O
+conservation	NN	O	O
+laws	NN	O	O
+.	NN	O	O
+When	NN	O	O
+one	NN	O	O
+approximates	NN	O	O
+the	NN	O	O
+system	NN	O	B-Process
+numerically	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+advantageous	NN	O	O
+to	NN	O	O
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+the	NN	O	O
+Hamiltonian	NN	O	O
+structure	NN	O	O
+also	NN	O	O
+at	NN	O	O
+the	NN	O	O
+discrete	NN	O	O
+level	NN	O	O
+.	NN	O	O
+Given	NN	O	O
+that	NN	O	O
+Hamiltonian	NN	O	B-Process
+systems	NN	O	I-Process
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+abundant	NN	O	O
+in	NN	O	O
+nature	NN	O	O
+,	NN	O	O
+their	NN	O	O
+numerical	NN	O	B-Task
+approximation	NN	O	I-Task
+is	NN	O	O
+therefore	NN	O	O
+a	NN	O	O
+topic	NN	O	O
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+relevance	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999115008153)
+
+As	NN	O	O
+discussed	NN	O	O
+above	NN	O	O
+,	NN	O	O
+proper	NN	O	B-Task
+inclusion	NN	O	I-Task
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+interactions	NN	O	I-Task
+requires	NN	O	O
+segment	NN	O	B-Process
+synchronization	NN	O	I-Process
+after	NN	O	I-Process
+every	NN	O	I-Process
+iteration	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+order	NN	O	O
+to	NN	O	O
+minimize	NN	O	B-Task
+simulation	NN	O	I-Task
+errors	NN	O	I-Task
+due	NN	O	O
+to	NN	O	O
+incorrect	NN	O	O
+values	NN	O	O
+of	NN	O	O
+the	NN	O	O
+interactions	NN	O	O
+potential	NN	O	O
+,	NN	O	O
+segments	NN	O	B-Process
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+after	NN	O	I-Process
+every	NN	O	I-Process
+iteration	NN	O	I-Process
+.	NN	O	O
+Although	NN	O	O
+relatively	NN	O	O
+long	NN	O	O
+communication	NN	O	O
+times	NN	O	O
+between	NN	O	O
+remote	NN	O	O
+processors	NN	O	B-Material
+may	NN	O	O
+hinder	NN	O	O
+this	NN	O	O
+process	NN	O	O
+in	NN	O	O
+typical	NN	O	O
+parallel	NN	O	B-Material
+computers	NN	O	I-Material
+,	NN	O	O
+this	NN	O	O
+is	NN	O	O
+not	NN	O	O
+the	NN	O	O
+case	NN	O	O
+for	NN	O	O
+GPGPU	NN	O	B-Material
+architectures	NN	O	I-Material
+.	NN	O	O
+Still	NN	O	O
+,	NN	O	O
+full	NN	O	O
+recalculation	NN	O	B-Process
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+potential	NN	O	I-Process
+after	NN	O	O
+each	NN	O	O
+iteration	NN	O	O
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+time	NN	O	O
+consuming	NN	O	O
+.	NN	O	O
+Instead	NN	O	O
+,	NN	O	O
+the	NN	O	O
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+corrects	NN	O	B-Process
+the	NN	O	I-Process
+current	NN	O	I-Process
+potential	NN	O	I-Process
+by	NN	O	O
+adding	NN	O	B-Process
+dipole	NN	O	I-Process
+contributions	NN	O	I-Process
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+every	NN	O	O
+nearby	NN	O	O
+charge	NN	O	O
+that	NN	O	O
+hopped	NN	O	O
+during	NN	O	O
+the	NN	O	O
+previous	NN	O	O
+iteration	NN	O	O
+.	NN	O	O
+Full	NN	O	O
+updates	NN	O	O
+of	NN	O	O
+the	NN	O	O
+interaction	NN	O	B-Process
+potential	NN	O	I-Process
+are	NN	O	O
+only	NN	O	O
+required	NN	O	O
+for	NN	O	O
+the	NN	O	O
+grid	NN	O	O
+points	NN	O	O
+that	NN	O	O
+are	NN	O	O
+related	NN	O	O
+to	NN	O	O
+charges	NN	O	O
+that	NN	O	O
+hopped	NN	O	O
+during	NN	O	O
+the	NN	O	O
+last	NN	O	O
+iteration	NN	O	O
+.	NN	O	O
+Accumulative	NN	O	O
+rounding	NN	O	O
+errors	NN	O	O
+that	NN	O	O
+arise	NN	O	O
+due	NN	O	O
+to	NN	O	O
+repetitive	NN	O	O
+addition	NN	O	O
+and	NN	O	O
+subtraction	NN	O	O
+are	NN	O	O
+solve	NN	O	O
+this	NN	O	O
+by	NN	O	O
+rounding	NN	O	O
+all	NN	O	O
+interaction	NN	O	O
+potentials	NN	O	O
+to	NN	O	O
+a	NN	O	O
+uniformly	NN	O	O
+spaced	NN	O	O
+range	NN	O	O
+of	NN	O	O
+floating	NN	O	O
+point	NN	O	O
+numbers	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999115008372)
+
+The	NN	O	O
+need	NN	O	O
+to	NN	O	O
+represent	NN	O	B-Task
+scale	NN	O	I-Task
+interactions	NN	O	I-Task
+in	NN	O	O
+weather	NN	O	B-Process
+and	NN	O	I-Process
+climate	NN	O	I-Process
+prediction	NN	O	I-Process
+models	NN	O	I-Process
+has	NN	O	O
+,	NN	O	O
+for	NN	O	O
+many	NN	O	O
+decades	NN	O	O
+,	NN	O	O
+motivated	NN	O	O
+research	NN	O	O
+into	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+adaptive	NN	O	B-Material
+meshes	NN	O	I-Material
+[	NN	O	O
+3,34,38	NN	O	O
+]	NN	O	O
+.	NN	O	O
+R	NN	O	B-Process
+-	NN	O	I-Process
+adaptivity	NN	O	I-Process
+–	NN	O	O
+mesh	NN	O	B-Process
+redistribution	NN	O	I-Process
+–	NN	O	O
+involves	NN	O	O
+deforming	NN	O	B-Process
+a	NN	O	I-Process
+mesh	NN	O	I-Process
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+vary	NN	O	O
+local	NN	O	O
+resolution	NN	O	O
+and	NN	O	O
+was	NN	O	O
+first	NN	O	O
+considered	NN	O	O
+for	NN	O	O
+atmospheric	NN	O	B-Process
+modelling	NN	O	I-Process
+more	NN	O	O
+than	NN	O	O
+twenty	NN	O	O
+years	NN	O	O
+ago	NN	O	O
+by	NN	O	O
+Dietachmayer	NN	O	O
+and	NN	O	O
+Droegemeier	NN	O	O
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+an	NN	O	O
+attractive	NN	O	O
+form	NN	O	O
+of	NN	O	O
+adaptivity	NN	O	B-Process
+since	NN	O	O
+it	NN	O	O
+does	NN	O	O
+not	NN	O	O
+involve	NN	O	O
+altering	NN	O	B-Process
+the	NN	O	I-Process
+mesh	NN	O	I-Process
+connectivity	NN	O	I-Process
+,	NN	O	O
+does	NN	O	O
+not	NN	O	O
+create	NN	O	O
+load	NN	O	O
+balancing	NN	O	O
+problems	NN	O	O
+because	NN	O	O
+points	NN	O	O
+are	NN	O	O
+never	NN	O	O
+created	NN	O	O
+or	NN	O	O
+destroyed	NN	O	O
+,	NN	O	O
+does	NN	O	O
+not	NN	O	O
+require	NN	O	O
+mapping	NN	O	B-Process
+of	NN	O	I-Process
+solutions	NN	O	I-Process
+between	NN	O	I-Process
+meshes	NN	O	I-Process
+[	NN	O	O
+26	NN	O	O
+]	NN	O	O
+,	NN	O	O
+does	NN	O	O
+not	NN	O	O
+lead	NN	O	O
+to	NN	O	O
+sudden	NN	O	O
+changes	NN	O	O
+in	NN	O	O
+resolution	NN	O	O
+and	NN	O	O
+can	NN	O	O
+be	NN	O	O
+retro	NN	O	O
+-	NN	O	O
+fitted	NN	O	O
+into	NN	O	O
+existing	NN	O	O
+models	NN	O	O
+.	NN	O	O
+Variational	NN	O	B-Process
+methods	NN	O	I-Process
+exist	NN	O	O
+which	NN	O	O
+attempt	NN	O	O
+to	NN	O	O
+control	NN	O	B-Task
+resolution	NN	O	I-Task
+in	NN	O	I-Task
+different	NN	O	I-Task
+directions	NN	O	I-Task
+for	NN	O	I-Task
+r	NN	O	I-Task
+-	NN	O	I-Task
+adaptive	NN	O	I-Task
+meshes	NN	O	I-Task
+(	NN	O	O
+e.g.	NN	O	O
+[	NN	O	O
+23,25	NN	O	O
+]	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Alternatively	NN	O	O
+,	NN	O	O
+the	NN	O	O
+solution	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Monge	NN	O	B-Process
+–	NN	O	I-Process
+Ampère	NN	O	I-Process
+equation	NN	O	I-Process
+to	NN	O	O
+generate	NN	O	O
+an	NN	O	O
+optimally	NN	O	B-Material
+transported	NN	O	I-Material
+(	NN	O	I-Material
+OT	NN	O	I-Material
+)	NN	O	I-Material
+mesh	NN	O	I-Material
+based	NN	O	O
+on	NN	O	O
+a	NN	O	O
+scalar	NN	O	B-Process
+valued	NN	O	I-Process
+monitor	NN	O	I-Process
+function	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+useful	NN	O	O
+form	NN	O	O
+of	NN	O	O
+r	NN	O	B-Process
+-	NN	O	I-Process
+adaptive	NN	O	I-Process
+mesh	NN	O	I-Process
+generation	NN	O	I-Process
+because	NN	O	O
+it	NN	O	O
+generates	NN	O	O
+a	NN	O	O
+mesh	NN	O	B-Material
+equidistributed	NN	O	O
+with	NN	O	O
+respect	NN	O	O
+to	NN	O	O
+a	NN	O	O
+monitor	NN	O	B-Process
+function	NN	O	I-Process
+and	NN	O	O
+does	NN	O	O
+not	NN	O	O
+lead	NN	O	O
+to	NN	O	O
+mesh	NN	O	B-Process
+tangling	NN	O	I-Process
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+We	NN	O	O
+will	NN	O	O
+see	NN	O	O
+that	NN	O	O
+the	NN	O	O
+optimal	NN	O	B-Task
+transport	NN	O	I-Task
+problem	NN	O	I-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+sphere	NN	O	I-Task
+leads	NN	O	O
+to	NN	O	O
+a	NN	O	O
+slightly	NN	O	O
+different	NN	O	O
+equation	NN	O	O
+of	NN	O	O
+Monge	NN	O	B-Process
+–	NN	O	I-Process
+Ampère	NN	O	I-Process
+type	NN	O	O
+,	NN	O	O
+which	NN	O	O
+has	NN	O	O
+not	NN	O	O
+before	NN	O	O
+been	NN	O	O
+solved	NN	O	O
+numerically	NN	O	O
+on	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+of	NN	O	O
+a	NN	O	O
+sphere	NN	O	B-Material
+,	NN	O	O
+which	NN	O	O
+would	NN	O	O
+be	NN	O	O
+necessary	NN	O	O
+for	NN	O	O
+weather	NN	O	B-Task
+and	NN	O	I-Task
+climate	NN	O	I-Task
+prediction	NN	O	I-Task
+using	NN	O	O
+r	NN	O	B-Process
+-	NN	O	I-Process
+adaptivity	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0022311513010313)
+
+The	NN	O	O
+four	NN	O	O
+bounding	NN	O	B-Material
+PCM	NN	O	I-Material
+wastes	NN	O	I-Material
+,	NN	O	O
+given	NN	O	O
+in	NN	O	O
+Table	NN	O	O
+1	NN	O	O
+,	NN	O	O
+were	NN	O	O
+simulated	NN	O	O
+using	NN	O	O
+the	NN	O	O
+most	NN	O	O
+appropriate	NN	O	O
+materials	NN	O	O
+and	NN	O	O
+geometries	NN	O	O
+.	NN	O	O
+“	NN	O	B-Material
+Mock	NN	O	I-Material
+up	NN	O	I-Material
+”	NN	O	I-Material
+PCM	NN	O	I-Material
+drums	NN	O	I-Material
+were	NN	O	O
+assembled	NN	O	O
+using	NN	O	O
+the	NN	O	O
+following	NN	O	O
+components	NN	O	O
+:	NN	O	O
+PCM	NN	O	B-Material
+drums	NN	O	I-Material
+were	NN	O	O
+simulated	NN	O	O
+using	NN	O	O
+mild	NN	O	B-Material
+steel	NN	O	I-Material
+paint	NN	O	I-Material
+cans	NN	O	I-Material
+and	NN	O	I-Material
+lids	NN	O	I-Material
+(	NN	O	O
+Fenton	NN	O	O
+Packaging	NN	O	O
+Ltd.	NN	O	O
+)	NN	O	O
+;	NN	O	O
+PVC	NN	O	B-Material
+bags	NN	O	I-Material
+were	NN	O	O
+replicated	NN	O	O
+using	NN	O	O
+identical	NN	O	B-Material
+PVC	NN	O	I-Material
+sheeting	NN	O	I-Material
+(	NN	O	O
+Romar	NN	O	O
+Workwear	NN	O	O
+Ltd.	NN	O	O
+)	NN	O	O
+;	NN	O	O
+the	NN	O	O
+metallic	NN	O	B-Material
+waste	NN	O	I-Material
+was	NN	O	O
+simulated	NN	O	O
+using	NN	O	O
+commercial	NN	O	B-Material
+grade	NN	O	I-Material
+18/8	NN	O	I-Material
+stainless	NN	O	I-Material
+steel	NN	O	I-Material
+,	NN	O	O
+aluminium	NN	O	B-Material
+and	NN	O	O
+copper	NN	O	B-Material
+(	NN	O	O
+Avus	NN	O	O
+Metals	NN	O	O
+&	NN	O	O
+Plastics	NN	O	O
+Ltd.	NN	O	O
+)	NN	O	O
+,	NN	O	O
+and	NN	O	O
+lead	NN	O	B-Material
+shot	NN	O	I-Material
+(	NN	O	O
+Aldrich	NN	O	O
+)	NN	O	O
+;	NN	O	O
+the	NN	O	O
+inorganic	NN	O	B-Material
+waste	NN	O	I-Material
+was	NN	O	O
+simulated	NN	O	O
+using	NN	O	O
+waste	NN	O	B-Material
+Pyrex	NN	O	I-Material
+labware	NN	O	I-Material
+,	NN	O	O
+crushed	NN	O	O
+masonry	NN	O	B-Material
+,	NN	O	O
+concrete	NN	O	B-Material
+and	NN	O	O
+window	NN	O	B-Material
+glass	NN	O	I-Material
+;	NN	O	O
+CeO2	NN	O	B-Material
+(	NN	O	O
+from	NN	O	O
+Acros	NN	O	O
+Organics	NN	O	O
+,	NN	O	O
+>	NN	O	O
+99.9	NN	O	O
+%	NN	O	O
+;	NN	O	O
+dried	NN	O	O
+15h	NN	O	O
+at	NN	O	O
+600	NN	O	O
+°	NN	O	O
+C	NN	O	O
+)	NN	O	O
+was	NN	O	O
+used	NN	O	O
+as	NN	O	O
+a	NN	O	O
+PuO2	NN	O	B-Material
+surrogate	NN	O	I-Material
+.	NN	O	O
+Commercially	NN	O	O
+available	NN	O	O
+ground	NN	O	O
+,	NN	O	O
+granulated	NN	O	O
+blast	NN	O	B-Material
+-	NN	O	I-Material
+furnace	NN	O	I-Material
+slag	NN	O	I-Material
+“	NN	O	I-Material
+Calumite	NN	O	I-Material
+”	NN	O	I-Material
+was	NN	O	O
+used	NN	O	O
+as	NN	O	O
+an	NN	O	O
+additive	NN	O	O
+[	NN	O	O
+27	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+analysed	NN	O	O
+chemical	NN	O	O
+composition	NN	O	O
+is	NN	O	O
+given	NN	O	O
+in	NN	O	O
+Table	NN	O	O
+3	NN	O	O
+.	NN	O	O
+Calumite	NN	O	B-Material
+is	NN	O	O
+a	NN	O	O
+powdered	NN	O	B-Material
+material	NN	O	I-Material
+,	NN	O	O
+with	NN	O	O
+a	NN	O	O
+typical	NN	O	O
+particle	NN	O	B-Material
+size	NN	O	O
+distribution	NN	O	O
+between	NN	O	O
+limits	NN	O	O
+of	NN	O	O
+ca	NN	O	O
+.	NN	O	O
+40	NN	O	O
+to	NN	O	O
+ca	NN	O	O
+.	NN	O	O
+400μm	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311513011422)
+
+There	NN	O	O
+is	NN	O	O
+still	NN	O	O
+some	NN	O	O
+debate	NN	O	O
+about	NN	O	O
+the	NN	O	O
+crystal	NN	O	B-Material
+structure	NN	O	O
+and	NN	O	O
+composition	NN	O	O
+of	NN	O	O
+the	NN	O	O
+fine	NN	O	B-Material
+oxides	NN	O	I-Material
+found	NN	O	O
+in	NN	O	O
+ODS	NN	O	B-Material
+steels	NN	O	I-Material
+and	NN	O	O
+a	NN	O	O
+number	NN	O	O
+of	NN	O	O
+different	NN	O	O
+phases	NN	O	O
+have	NN	O	O
+been	NN	O	O
+both	NN	O	O
+proposed	NN	O	O
+and	NN	O	O
+identified	NN	O	O
+.	NN	O	O
+A	NN	O	O
+complete	NN	O	B-Task
+characterisation	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+oxide	NN	O	I-Task
+particles	NN	O	I-Task
+,	NN	O	O
+including	NN	O	O
+crystal	NN	O	B-Material
+structure	NN	O	O
+and	NN	O	O
+composition	NN	O	O
+,	NN	O	O
+is	NN	O	O
+needed	NN	O	O
+as	NN	O	O
+different	NN	O	O
+phases	NN	O	O
+and	NN	O	O
+chemical	NN	O	O
+variants	NN	O	O
+of	NN	O	O
+a	NN	O	O
+single	NN	O	O
+structure	NN	O	O
+have	NN	O	O
+been	NN	O	O
+shown	NN	O	O
+to	NN	O	O
+respond	NN	O	O
+differently	NN	O	O
+to	NN	O	O
+high	NN	O	O
+temperatures	NN	O	O
+and	NN	O	O
+irradiation	NN	O	B-Process
+.	NN	O	O
+Ribis	NN	O	O
+and	NN	O	O
+de	NN	O	O
+Carlan	NN	O	O
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+have	NN	O	O
+studied	NN	O	O
+the	NN	O	O
+coarsening	NN	O	O
+characteristics	NN	O	O
+of	NN	O	O
+Y2O3	NN	O	B-Material
+and	NN	O	O
+Y2Ti2O7	NN	O	B-Material
+oxides	NN	O	I-Material
+at	NN	O	O
+high	NN	O	O
+temperatures	NN	O	O
+.	NN	O	O
+They	NN	O	O
+show	NN	O	O
+that	NN	O	O
+the	NN	O	O
+increase	NN	O	O
+in	NN	O	O
+particle	NN	O	B-Material
+size	NN	O	O
+is	NN	O	O
+greater	NN	O	O
+for	NN	O	O
+the	NN	O	O
+non	NN	O	O
+-	NN	O	O
+Ti	NN	O	B-Material
+containing	NN	O	O
+phase	NN	O	O
+.	NN	O	O
+Similarly	NN	O	O
+,	NN	O	O
+Ratti	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+,	NN	O	O
+although	NN	O	O
+they	NN	O	O
+do	NN	O	O
+not	NN	O	O
+allude	NN	O	O
+to	NN	O	O
+specific	NN	O	O
+oxide	NN	O	B-Material
+phases	NN	O	O
+,	NN	O	O
+have	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+small	NN	O	O
+Ti	NN	O	B-Material
+additions	NN	O	O
+to	NN	O	O
+an	NN	O	O
+18%Cr	NN	O	B-Material
+ODS	NN	O	I-Material
+alloy	NN	O	I-Material
+dramatically	NN	O	O
+reduces	NN	O	O
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+coarsening	NN	O	B-Process
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+of	NN	O	O
+dispersoids	NN	O	B-Material
+when	NN	O	O
+compared	NN	O	O
+to	NN	O	O
+an	NN	O	O
+equivalent	NN	O	O
+alloy	NN	O	B-Material
+without	NN	O	O
+titanium	NN	O	B-Material
+.	NN	O	O
+For	NN	O	O
+example	NN	O	O
+,	NN	O	O
+Ribis	NN	O	O
+indicates	NN	O	O
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+energy	NN	O	O
+between	NN	O	O
+the	NN	O	O
+secondary	NN	O	O
+phase	NN	O	O
+particles	NN	O	B-Material
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+the	NN	O	O
+matrix	NN	O	B-Material
+;	NN	O	O
+he	NN	O	O
+points	NN	O	O
+out	NN	O	O
+that	NN	O	O
+the	NN	O	O
+resistance	NN	O	O
+to	NN	O	O
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+observed	NN	O	O
+in	NN	O	O
+the	NN	O	O
+Y	NN	O	B-Material
+,	NN	O	O
+Ti	NN	O	B-Material
+,	NN	O	O
+O	NN	O	B-Material
+system	NN	O	O
+is	NN	O	O
+probably	NN	O	O
+the	NN	O	O
+result	NN	O	O
+of	NN	O	O
+a	NN	O	O
+very	NN	O	O
+low	NN	O	O
+interface	NN	O	O
+energy	NN	O	O
+and	NN	O	O
+this	NN	O	O
+would	NN	O	O
+differ	NN	O	O
+from	NN	O	O
+one	NN	O	O
+phase	NN	O	O
+to	NN	O	O
+another	NN	O	O
+.	NN	O	O
+Whittle	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+have	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+pyrochlore	NN	O	B-Material
+and	NN	O	O
+structures	NN	O	O
+closely	NN	O	O
+related	NN	O	O
+to	NN	O	O
+the	NN	O	O
+pyrochlore	NN	O	B-Material
+structure	NN	O	O
+respond	NN	O	O
+in	NN	O	O
+different	NN	O	O
+ways	NN	O	O
+to	NN	O	O
+irradiation	NN	O	B-Process
+.	NN	O	O
+They	NN	O	O
+revealed	NN	O	O
+that	NN	O	O
+oxide	NN	O	B-Material
+structure	NN	O	O
+and	NN	O	O
+variations	NN	O	O
+in	NN	O	O
+composition	NN	O	O
+can	NN	O	O
+affect	NN	O	O
+their	NN	O	O
+ability	NN	O	O
+to	NN	O	O
+withstand	NN	O	O
+and	NN	O	O
+recover	NN	O	O
+from	NN	O	O
+irradiation	NN	O	B-Process
+induced	NN	O	O
+damage	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311514006722)
+
+Zirconium	NN	O	B-Material
+alloys	NN	O	I-Material
+are	NN	O	O
+used	NN	O	O
+as	NN	O	O
+fuel	NN	O	O
+cladding	NN	O	O
+in	NN	O	O
+pressurised	NN	O	O
+and	NN	O	O
+boiling	NN	O	O
+water	NN	O	O
+nuclear	NN	O	B-Material
+reactors	NN	O	I-Material
+.	NN	O	O
+As	NN	O	O
+such	NN	O	O
+these	NN	O	O
+materials	NN	O	O
+are	NN	O	O
+exposed	NN	O	O
+to	NN	O	O
+a	NN	O	O
+large	NN	O	O
+number	NN	O	O
+of	NN	O	O
+environmental	NN	O	O
+factors	NN	O	O
+that	NN	O	O
+will	NN	O	O
+promote	NN	O	O
+degradation	NN	O	B-Process
+mechanisms	NN	O	I-Process
+such	NN	O	O
+as	NN	O	O
+oxidation	NN	O	B-Process
+.	NN	O	O
+At	NN	O	O
+high	NN	O	O
+burn	NN	O	O
+-	NN	O	O
+ups	NN	O	O
+,	NN	O	O
+i.e.	NN	O	O
+extended	NN	O	O
+service	NN	O	O
+life	NN	O	O
+,	NN	O	O
+oxidation	NN	O	B-Process
+and	NN	O	O
+the	NN	O	O
+associated	NN	O	O
+hydrogen	NN	O	B-Process
+pick	NN	O	I-Process
+-	NN	O	I-Process
+up	NN	O	I-Process
+can	NN	O	O
+be	NN	O	O
+a	NN	O	O
+limiting	NN	O	O
+factor	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+fuel	NN	O	B-Material
+efficiency	NN	O	O
+and	NN	O	O
+safety	NN	O	O
+.	NN	O	O
+The	NN	O	O
+oxidation	NN	O	B-Process
+kinetics	NN	O	O
+for	NN	O	O
+many	NN	O	O
+zirconium	NN	O	B-Material
+alloys	NN	O	I-Material
+are	NN	O	O
+cyclical	NN	O	O
+,	NN	O	O
+demonstrating	NN	O	O
+a	NN	O	O
+series	NN	O	O
+of	NN	O	O
+approximately	NN	O	O
+cubic	NN	O	O
+kinetic	NN	O	O
+curves	NN	O	O
+separated	NN	O	O
+by	NN	O	O
+transitions	NN	O	O
+[	NN	O	O
+1–5	NN	O	O
+]	NN	O	O
+.	NN	O	O
+These	NN	O	O
+transitions	NN	O	O
+are	NN	O	O
+typified	NN	O	O
+by	NN	O	O
+a	NN	O	O
+breakdown	NN	O	O
+in	NN	O	O
+the	NN	O	O
+protective	NN	O	O
+character	NN	O	O
+of	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Material
+and	NN	O	O
+are	NN	O	O
+potentially	NN	O	O
+linked	NN	O	O
+to	NN	O	O
+a	NN	O	O
+number	NN	O	O
+of	NN	O	O
+mechanical	NN	O	O
+issues	NN	O	O
+.	NN	O	O
+Understanding	NN	O	B-Task
+how	NN	O	I-Task
+these	NN	O	I-Task
+issues	NN	O	I-Task
+influence	NN	O	I-Task
+oxidation	NN	O	I-Task
+is	NN	O	O
+a	NN	O	O
+key	NN	O	O
+to	NN	O	O
+developing	NN	O	B-Task
+a	NN	O	I-Task
+full	NN	O	I-Task
+mechanistic	NN	O	I-Task
+understanding	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+corrosion	NN	O	I-Task
+process	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0022311514006941)
+
+The	NN	O	O
+formulation	NN	O	O
+in	NN	O	O
+Table	NN	O	O
+1	NN	O	O
+was	NN	O	O
+derived	NN	O	O
+by	NN	O	O
+an	NN	O	O
+empirical	NN	O	O
+approach	NN	O	O
+and	NN	O	O
+led	NN	O	O
+to	NN	O	O
+a	NN	O	O
+non	NN	O	B-Material
+-	NN	O	I-Material
+classical	NN	O	I-Material
+glass	NN	O	I-Material
+matrix	NN	O	I-Material
+.	NN	O	O
+Carter	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+and	NN	O	O
+Zhang	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+4	NN	O	O
+]	NN	O	O
+took	NN	O	O
+a	NN	O	O
+more	NN	O	O
+systematic	NN	O	O
+approach	NN	O	O
+to	NN	O	O
+such	NN	O	O
+glass	NN	O	B-Material
+-	NN	O	I-Material
+ceramic	NN	O	I-Material
+wasteforms	NN	O	I-Material
+.	NN	O	O
+These	NN	O	O
+wasteforms	NN	O	O
+were	NN	O	O
+targeted	NN	O	O
+at	NN	O	O
+Hanford	NN	O	B-Material
+K	NN	O	I-Material
+-	NN	O	I-Material
+basin	NN	O	I-Material
+sludges	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+immobilisation	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+primary	NN	O	I-Task
+waste	NN	O	I-Task
+stream	NN	O	I-Task
+from	NN	O	I-Task
+production	NN	O	I-Task
+of	NN	O	I-Task
+molybdenum-99	NN	O	I-Task
+at	NN	O	O
+the	NN	O	O
+Australian	NN	O	O
+Nuclear	NN	O	O
+Science	NN	O	O
+and	NN	O	O
+Technology	NN	O	O
+Organisation	NN	O	O
+site	NN	O	O
+in	NN	O	O
+Sydney	NN	O	O
+respectively	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+work	NN	O	O
+of	NN	O	O
+Carter	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+and	NN	O	O
+Zhang	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+the	NN	O	O
+intended	NN	O	O
+crystalline	NN	O	B-Material
+phase	NN	O	O
+was	NN	O	O
+the	NN	O	O
+closely	NN	O	O
+related	NN	O	O
+titanate	NN	O	B-Material
+pyrochlore	NN	O	I-Material
+,	NN	O	O
+CaUTi2O7	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+glass	NN	O	B-Material
+matrix	NN	O	I-Material
+was	NN	O	O
+formulated	NN	O	O
+such	NN	O	O
+that	NN	O	O
+the	NN	O	O
+trivalent	NN	O	O
+species	NN	O	O
+in	NN	O	O
+the	NN	O	O
+glass	NN	O	B-Material
+network	NN	O	I-Material
+,	NN	O	O
+boron	NN	O	B-Material
+and	NN	O	O
+aluminium	NN	O	B-Material
+,	NN	O	O
+were	NN	O	O
+charge	NN	O	O
+compensated	NN	O	O
+on	NN	O	O
+a	NN	O	O
+molar	NN	O	O
+basis	NN	O	O
+by	NN	O	O
+sodium	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+stoichiometric	NN	O	O
+composition	NN	O	O
+of	NN	O	O
+the	NN	O	O
+glass	NN	O	B-Material
+in	NN	O	O
+this	NN	O	O
+wasteform	NN	O	O
+was	NN	O	O
+Na2AlBSi6O16	NN	O	B-Material
+.	NN	O	O
+This	NN	O	O
+glass	NN	O	B-Material
+provides	NN	O	O
+a	NN	O	O
+method	NN	O	O
+by	NN	O	O
+which	NN	O	O
+the	NN	O	O
+glass	NN	O	B-Material
+composition	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+varied	NN	O	O
+systematically	NN	O	O
+.	NN	O	O
+Given	NN	O	O
+that	NN	O	O
+the	NN	O	O
+initial	NN	O	O
+observations	NN	O	O
+inferred	NN	O	O
+an	NN	O	O
+important	NN	O	O
+role	NN	O	O
+played	NN	O	O
+by	NN	O	O
+alumina	NN	O	B-Material
+,	NN	O	O
+it	NN	O	O
+was	NN	O	O
+decided	NN	O	O
+to	NN	O	O
+prepare	NN	O	O
+a	NN	O	O
+suite	NN	O	O
+of	NN	O	O
+zirconolite	NN	O	B-Material
+glass	NN	O	I-Material
+-	NN	O	I-Material
+ceramics	NN	O	I-Material
+in	NN	O	O
+which	NN	O	O
+the	NN	O	O
+glass	NN	O	B-Material
+matrix	NN	O	I-Material
+was	NN	O	O
+defined	NN	O	O
+by	NN	O	O
+Na2Al1+xB1–xSi6O16	NN	O	B-Material
+to	NN	O	O
+investigate	NN	O	B-Task
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+stability	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+x=1	NN	O	O
+end	NN	O	O
+member	NN	O	O
+gives	NN	O	O
+the	NN	O	O
+mineral	NN	O	B-Material
+albite	NN	O	I-Material
+,	NN	O	O
+NaAlSi3O8	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+melting	NN	O	O
+point	NN	O	O
+of	NN	O	O
+albite	NN	O	B-Material
+is	NN	O	O
+1120	NN	O	O
+°	NN	O	O
+C	NN	O	O
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+and	NN	O	O
+the	NN	O	O
+composition	NN	O	O
+cools	NN	O	O
+to	NN	O	O
+a	NN	O	O
+glass	NN	O	B-Material
+at	NN	O	O
+the	NN	O	O
+cooling	NN	O	O
+rates	NN	O	O
+that	NN	O	O
+occur	NN	O	O
+during	NN	O	O
+a	NN	O	O
+HIP	NN	O	O
+cycle	NN	O	O
+.	NN	O	O
+From	NN	O	O
+the	NN	O	O
+available	NN	O	O
+phase	NN	O	O
+diagrams	NN	O	O
+,	NN	O	O
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+no	NN	O	O
+boron	NN	O	B-Material
+analogue	NN	O	O
+for	NN	O	O
+albite	NN	O	B-Material
+was	NN	O	O
+shown	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+liquidus	NN	O	O
+estimated	NN	O	O
+from	NN	O	O
+the	NN	O	O
+relevant	NN	O	O
+phase	NN	O	O
+diagram	NN	O	O
+is	NN	O	O
+1100–1200	NN	O	O
+°	NN	O	O
+C	NN	O	O
+.	NN	O	O
+No	NN	O	O
+phase	NN	O	O
+diagrams	NN	O	O
+for	NN	O	O
+the	NN	O	O
+quaternary	NN	O	O
+system	NN	O	O
+Na2O	NN	O	B-Material
+–	NN	O	I-Material
+Al2O3–B2O3–SiO2	NN	O	I-Material
+could	NN	O	O
+be	NN	O	O
+found	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311514009271)
+
+Structural	NN	O	O
+properties	NN	O	O
+are	NN	O	O
+well	NN	O	O
+reproduced	NN	O	O
+by	NN	O	O
+all	NN	O	O
+models	NN	O	O
+(	NN	O	O
+Table	NN	O	O
+2	NN	O	O
+)	NN	O	O
+,	NN	O	O
+but	NN	O	O
+the	NN	O	O
+significant	NN	O	O
+improvement	NN	O	O
+of	NN	O	O
+our	NN	O	O
+potential	NN	O	O
+stands	NN	O	O
+in	NN	O	O
+the	NN	O	O
+elastic	NN	O	O
+constants	NN	O	O
+which	NN	O	O
+relate	NN	O	O
+to	NN	O	O
+how	NN	O	O
+the	NN	O	O
+system	NN	O	O
+responds	NN	O	O
+to	NN	O	O
+stress	NN	O	O
+.	NN	O	O
+Indeed	NN	O	O
+,	NN	O	O
+structure	NN	O	O
+and	NN	O	O
+elasticity	NN	O	O
+are	NN	O	O
+important	NN	O	O
+parameters	NN	O	O
+for	NN	O	O
+elucidating	NN	O	B-Task
+grain	NN	O	I-Task
+boundary	NN	O	I-Task
+stability	NN	O	I-Task
+.	NN	O	O
+All	NN	O	O
+potential	NN	O	O
+models	NN	O	O
+correctly	NN	O	O
+predict	NN	O	B-Task
+the	NN	O	I-Task
+relative	NN	O	I-Task
+stability	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+defect	NN	O	I-Task
+energies	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+Morelon	NN	O	B-Process
+potential	NN	O	I-Process
+model	NN	O	I-Process
+performed	NN	O	O
+best	NN	O	O
+as	NN	O	O
+it	NN	O	O
+was	NN	O	O
+specifically	NN	O	O
+derived	NN	O	O
+to	NN	O	O
+replicate	NN	O	B-Task
+defect	NN	O	I-Task
+formation	NN	O	I-Task
+energies	NN	O	I-Task
+,	NN	O	O
+but	NN	O	O
+it	NN	O	O
+largely	NN	O	O
+underestimates	NN	O	O
+the	NN	O	O
+bulk	NN	O	O
+modulus	NN	O	O
+.	NN	O	O
+The	NN	O	O
+energies	NN	O	O
+calculated	NN	O	O
+with	NN	O	O
+the	NN	O	O
+Morl	NN	O	B-Process
+and	NN	O	I-Process
+the	NN	O	I-Process
+Arima	NN	O	I-Process
+potential	NN	O	I-Process
+models	NN	O	I-Process
+are	NN	O	O
+overestimated	NN	O	O
+;	NN	O	O
+this	NN	O	O
+is	NN	O	O
+a	NN	O	O
+known	NN	O	O
+disadvantage	NN	O	O
+of	NN	O	O
+using	NN	O	O
+rigid	NN	O	B-Process
+ion	NN	O	I-Process
+models	NN	O	I-Process
+as	NN	O	O
+the	NN	O	O
+ionic	NN	O	O
+polarisability	NN	O	O
+is	NN	O	O
+not	NN	O	O
+taken	NN	O	O
+into	NN	O	O
+account	NN	O	O
+.	NN	O	O
+For	NN	O	O
+completeness	NN	O	O
+,	NN	O	O
+we	NN	O	O
+report	NN	O	O
+two	NN	O	O
+shell	NN	O	B-Process
+models	NN	O	I-Process
+with	NN	O	O
+the	NN	O	O
+best	NN	O	O
+results	NN	O	O
+given	NN	O	O
+by	NN	O	O
+the	NN	O	O
+Catlow	NN	O	B-Process
+potential	NN	O	I-Process
+model	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+Morl	NN	O	B-Process
+,	NN	O	I-Process
+along	NN	O	I-Process
+with	NN	O	I-Process
+the	NN	O	I-Process
+Grimes	NN	O	I-Process
+shell	NN	O	I-Process
+potential	NN	O	I-Process
+model	NN	O	I-Process
+,	NN	O	O
+accurately	NN	O	O
+reproduce	NN	O	B-Task
+the	NN	O	I-Task
+activation	NN	O	I-Task
+energy	NN	O	I-Task
+of	NN	O	I-Task
+oxygen	NN	O	I-Task
+migration	NN	O	I-Task
+(	NN	O	O
+the	NN	O	O
+migration	NN	O	B-Process
+path	NN	O	I-Process
+was	NN	O	O
+the	NN	O	O
+lowest	NN	O	O
+energy	NN	O	O
+and	NN	O	O
+most	NN	O	O
+favourable	NN	O	O
+diffusion	NN	O	B-Process
+mechanism	NN	O	I-Process
+observed	NN	O	O
+in	NN	O	O
+bulk	NN	O	O
+UO2	NN	O	B-Material
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+major	NN	O	O
+deficiency	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Morl	NN	O	B-Process
+potential	NN	O	I-Process
+is	NN	O	O
+that	NN	O	O
+the	NN	O	O
+cation	NN	O	B-Material
+defect	NN	O	O
+energies	NN	O	O
+are	NN	O	O
+high	NN	O	O
+,	NN	O	O
+and	NN	O	O
+hence	NN	O	O
+the	NN	O	O
+number	NN	O	O
+of	NN	O	O
+cation	NN	O	B-Material
+defects	NN	O	O
+will	NN	O	O
+be	NN	O	O
+underestimated	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+this	NN	O	O
+should	NN	O	O
+not	NN	O	O
+be	NN	O	O
+an	NN	O	O
+issue	NN	O	O
+unless	NN	O	O
+this	NN	O	O
+model	NN	O	O
+was	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+processes	NN	O	O
+such	NN	O	O
+as	NN	O	O
+grain	NN	O	B-Process
+growth	NN	O	I-Process
+where	NN	O	O
+cation	NN	O	O
+mobility	NN	O	O
+will	NN	O	O
+contribute	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311515002354)
+
+Hydrides	NN	O	B-Material
+,	NN	O	O
+once	NN	O	O
+precipitated	NN	O	O
+in	NN	O	O
+zirconium	NN	O	B-Material
+,	NN	O	O
+degrade	NN	O	O
+the	NN	O	O
+mechanical	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+a	NN	O	O
+component	NN	O	O
+,	NN	O	O
+leading	NN	O	O
+to	NN	O	O
+reductions	NN	O	O
+in	NN	O	O
+tensile	NN	O	O
+strength	NN	O	O
+,	NN	O	O
+ductility	NN	O	O
+and	NN	O	O
+fracture	NN	O	O
+toughness	NN	O	O
+[	NN	O	O
+35–40	NN	O	O
+]	NN	O	O
+.	NN	O	O
+These	NN	O	O
+changes	NN	O	O
+can	NN	O	O
+ultimately	NN	O	O
+compromise	NN	O	O
+the	NN	O	O
+integrity	NN	O	O
+of	NN	O	O
+cladding	NN	O	B-Process
+during	NN	O	O
+normal	NN	O	O
+operating	NN	O	O
+life	NN	O	O
+,	NN	O	O
+accident	NN	O	O
+conditions	NN	O	O
+and	NN	O	O
+fuel	NN	O	B-Material
+storage	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+As	NN	O	O
+well	NN	O	O
+as	NN	O	O
+the	NN	O	O
+degradation	NN	O	O
+of	NN	O	O
+mechanical	NN	O	O
+properties	NN	O	O
+,	NN	O	O
+the	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+hydrides	NN	O	B-Material
+can	NN	O	O
+also	NN	O	O
+affect	NN	O	O
+phenomena	NN	O	O
+like	NN	O	O
+pellet	NN	O	B-Process
+cladding	NN	O	I-Process
+mechanical	NN	O	I-Process
+interaction	NN	O	I-Process
+(	NN	O	O
+PCMI	NN	O	B-Process
+)	NN	O	O
+;	NN	O	O
+or	NN	O	O
+introduce	NN	O	O
+mechanisms	NN	O	O
+for	NN	O	O
+failure	NN	O	O
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+delayed	NN	O	B-Process
+hydride	NN	O	I-Process
+cracking	NN	O	I-Process
+(	NN	O	O
+DHC	NN	O	B-Process
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+former	NN	O	O
+mechanism	NN	O	O
+is	NN	O	O
+the	NN	O	O
+product	NN	O	O
+of	NN	O	O
+thermal	NN	O	B-Process
+expansion	NN	O	I-Process
+in	NN	O	O
+fuel	NN	O	B-Material
+pellets	NN	O	I-Material
+introducing	NN	O	O
+stresses	NN	O	O
+into	NN	O	O
+the	NN	O	O
+cladding	NN	O	B-Process
+,	NN	O	O
+which	NN	O	O
+may	NN	O	O
+then	NN	O	O
+lead	NN	O	O
+to	NN	O	O
+the	NN	O	O
+formation	NN	O	O
+of	NN	O	O
+cracks	NN	O	O
+in	NN	O	O
+areas	NN	O	O
+made	NN	O	O
+brittle	NN	O	O
+by	NN	O	O
+large	NN	O	O
+hydride	NN	O	B-Material
+concentrations	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+latter	NN	O	O
+mechanism	NN	O	O
+,	NN	O	O
+DHC	NN	O	B-Process
+,	NN	O	O
+is	NN	O	O
+a	NN	O	O
+sub	NN	O	O
+-	NN	O	O
+critical	NN	O	O
+,	NN	O	O
+time	NN	O	O
+dependent	NN	O	O
+cracking	NN	O	B-Process
+phenomenon	NN	O	I-Process
+that	NN	O	O
+requires	NN	O	O
+long	NN	O	O
+range	NN	O	O
+hydrogen	NN	O	B-Process
+diffusion	NN	O	I-Process
+for	NN	O	O
+repeated	NN	O	O
+local	NN	O	B-Task
+hydride	NN	O	I-Task
+growth	NN	O	I-Task
+and	NN	O	O
+fracture	NN	O	O
+at	NN	O	O
+a	NN	O	O
+hydrostatic	NN	O	B-Process
+tensile	NN	O	I-Process
+stress	NN	O	I-Process
+raiser	NN	O	I-Process
+[	NN	O	O
+5,41,42	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+process	NN	O	O
+occurs	NN	O	O
+over	NN	O	O
+an	NN	O	O
+extended	NN	O	O
+period	NN	O	O
+of	NN	O	O
+time	NN	O	O
+under	NN	O	O
+a	NN	O	O
+continuously	NN	O	O
+applied	NN	O	O
+load	NN	O	O
+that	NN	O	O
+is	NN	O	O
+below	NN	O	O
+the	NN	O	O
+yield	NN	O	O
+stress	NN	O	O
+of	NN	O	O
+the	NN	O	O
+material	NN	O	O
+[	NN	O	O
+5,41,42	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311515301653)
+
+Uranium	NN	O	B-Material
+carbide	NN	O	I-Material
+was	NN	O	O
+traditionally	NN	O	O
+used	NN	O	O
+as	NN	O	O
+fuel	NN	O	B-Material
+kernel	NN	O	I-Material
+for	NN	O	O
+the	NN	O	O
+US	NN	O	O
+version	NN	O	O
+of	NN	O	O
+pebble	NN	O	B-Material
+bed	NN	O	I-Material
+reactors	NN	O	I-Material
+as	NN	O	O
+opposed	NN	O	O
+to	NN	O	O
+the	NN	O	O
+German	NN	O	O
+version	NN	O	O
+based	NN	O	O
+on	NN	O	O
+uranium	NN	O	B-Material
+dioxide	NN	O	I-Material
+.	NN	O	O
+For	NN	O	O
+the	NN	O	O
+Generation	NN	O	B-Material
+IV	NN	O	I-Material
+nuclear	NN	O	I-Material
+systems	NN	O	I-Material
+,	NN	O	O
+mixed	NN	O	B-Material
+uranium	NN	O	I-Material
+–	NN	O	I-Material
+plutonium	NN	O	I-Material
+carbides	NN	O	I-Material
+(	NN	O	B-Material
+U	NN	O	I-Material
+,	NN	O	I-Material
+Pu	NN	O	I-Material
+)	NN	O	I-Material
+C	NN	O	I-Material
+constitute	NN	O	O
+the	NN	O	O
+primary	NN	O	O
+option	NN	O	O
+for	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Material
+fast	NN	O	I-Material
+reactors	NN	O	I-Material
+(	NN	O	O
+GFR	NN	O	B-Material
+)	NN	O	O
+and	NN	O	O
+UCO	NN	O	B-Material
+is	NN	O	O
+the	NN	O	O
+first	NN	O	O
+candidate	NN	O	O
+for	NN	O	O
+the	NN	O	O
+very	NN	O	B-Material
+high	NN	O	I-Material
+temperature	NN	O	I-Material
+reactor	NN	O	I-Material
+(	NN	O	O
+VHTR	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+former	NN	O	O
+case	NN	O	O
+the	NN	O	O
+fuel	NN	O	B-Material
+high	NN	O	O
+actinide	NN	O	B-Material
+density	NN	O	O
+and	NN	O	O
+thermal	NN	O	O
+conductivity	NN	O	O
+are	NN	O	O
+exploited	NN	O	O
+in	NN	O	O
+view	NN	O	O
+of	NN	O	O
+high	NN	O	O
+burnup	NN	O	B-Process
+performance	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+latter	NN	O	O
+,	NN	O	O
+UCO	NN	O	B-Material
+is	NN	O	O
+a	NN	O	O
+good	NN	O	O
+compromise	NN	O	O
+between	NN	O	O
+oxides	NN	O	B-Material
+and	NN	O	O
+carbides	NN	O	B-Material
+both	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+thermal	NN	O	O
+conductivity	NN	O	O
+and	NN	O	O
+fissile	NN	O	O
+density	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+in	NN	O	O
+the	NN	O	O
+American	NN	O	O
+VHTR	NN	O	B-Material
+design	NN	O	O
+,	NN	O	O
+the	NN	O	O
+fuel	NN	O	B-Material
+is	NN	O	O
+a	NN	O	O
+3:1	NN	O	O
+ratio	NN	O	O
+of	NN	O	O
+UO2:UC2	NN	O	B-Material
+for	NN	O	O
+one	NN	O	O
+essential	NN	O	O
+reason	NN	O	O
+,	NN	O	O
+well	NN	O	O
+explained	NN	O	O
+by	NN	O	O
+Olander	NN	O	O
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+in	NN	O	O
+a	NN	O	O
+recent	NN	O	O
+publication	NN	O	O
+.	NN	O	O
+During	NN	O	O
+burnup	NN	O	B-Process
+,	NN	O	O
+pure	NN	O	O
+UO2	NN	O	B-Material
+fuel	NN	O	I-Material
+tends	NN	O	O
+to	NN	O	O
+oxidize	NN	O	O
+to	NN	O	O
+UO2+x	NN	O	B-Material
+.	NN	O	O
+UO2+x	NN	O	B-Material
+reacts	NN	O	O
+with	NN	O	O
+the	NN	O	O
+pyrocarbon	NN	O	B-Material
+coating	NN	O	I-Material
+layer	NN	O	I-Material
+according	NN	O	O
+to	NN	O	O
+the	NN	O	O
+equilibrium:(1)UO2+x	NN	O	B-Material
++	NN	O	O
+xC	NN	O	B-Material
+→	NN	O	O
+UO2	NN	O	B-Material
++	NN	O	O
+xCO	NN	O	B-Material
+
+-DOCSTART- (S0022311515303901)
+
+The	NN	O	O
+Magnox	NN	O	B-Material
+reactors	NN	O	I-Material
+represent	NN	O	O
+the	NN	O	O
+first	NN	O	O
+generation	NN	O	O
+of	NN	O	O
+gas	NN	O	B-Material
+-	NN	O	I-Material
+cooled	NN	O	I-Material
+reactors	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+UK	NN	O	O
+that	NN	O	O
+used	NN	O	O
+carbon	NN	O	B-Material
+dioxide	NN	O	I-Material
+(	NN	O	O
+CO2	NN	O	B-Material
+)	NN	O	O
+as	NN	O	O
+the	NN	O	O
+primary	NN	O	O
+coolant	NN	O	B-Material
+and	NN	O	O
+a	NN	O	O
+honeycomb	NN	O	B-Material
+network	NN	O	I-Material
+of	NN	O	I-Material
+graphite	NN	O	I-Material
+bricks	NN	O	I-Material
+to	NN	O	O
+provide	NN	O	O
+neutron	NN	O	B-Process
+moderation	NN	O	I-Process
+.	NN	O	O
+During	NN	O	O
+reactor	NN	O	B-Material
+operation	NN	O	O
+significant	NN	O	O
+amounts	NN	O	O
+of	NN	O	O
+carbon	NN	O	B-Material
+monoxide	NN	O	I-Material
+(	NN	O	O
+CO	NN	O	B-Material
+)	NN	O	O
+was	NN	O	O
+produced	NN	O	O
+from	NN	O	O
+the	NN	O	O
+CO2	NN	O	B-Material
+coolant	NN	O	I-Material
+.	NN	O	O
+This	NN	O	O
+CO	NN	O	B-Material
+in	NN	O	O
+turn	NN	O	O
+can	NN	O	O
+be	NN	O	O
+radiolytically	NN	O	B-Process
+polymerised	NN	O	I-Process
+to	NN	O	O
+form	NN	O	B-Task
+a	NN	O	I-Task
+carbonaceous	NN	O	I-Task
+deposit	NN	O	I-Task
+on	NN	O	I-Task
+free	NN	O	I-Task
+surfaces	NN	O	I-Task
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+non	NN	O	B-Material
+-	NN	O	I-Material
+graphitic	NN	O	I-Material
+carbon	NN	O	I-Material
+deposit	NN	O	I-Material
+is	NN	O	O
+significantly	NN	O	O
+more	NN	O	O
+chemically	NN	O	O
+reactive	NN	O	O
+to	NN	O	O
+air	NN	O	B-Material
+than	NN	O	O
+the	NN	O	O
+underlying	NN	O	O
+graphite	NN	O	B-Material
+[	NN	O	O
+12,13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+During	NN	O	O
+the	NN	O	O
+lifetime	NN	O	O
+of	NN	O	O
+some	NN	O	O
+Magnox	NN	O	B-Material
+reactors	NN	O	I-Material
+,	NN	O	O
+small	NN	O	O
+quantities	NN	O	O
+of	NN	O	O
+methane	NN	O	B-Material
+gas	NN	O	I-Material
+were	NN	O	O
+injected	NN	O	O
+into	NN	O	O
+the	NN	O	O
+coolant	NN	O	B-Material
+gas	NN	O	I-Material
+to	NN	O	O
+inhibit	NN	O	B-Task
+weight	NN	O	I-Task
+loss	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+graphite	NN	O	I-Task
+core	NN	O	I-Task
+due	NN	O	I-Task
+to	NN	O	I-Task
+radiolytic	NN	O	I-Task
+oxidation	NN	O	I-Task
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Methane	NN	O	B-Material
+(	NN	O	O
+CH4	NN	O	B-Material
+)	NN	O	O
+is	NN	O	O
+a	NN	O	O
+precursor	NN	O	O
+for	NN	O	O
+carbonaceous	NN	O	B-Material
+deposits	NN	O	I-Material
+that	NN	O	O
+form	NN	O	O
+a	NN	O	O
+sacrificial	NN	O	O
+layer	NN	O	O
+protecting	NN	O	O
+the	NN	O	O
+underlying	NN	O	O
+graphite	NN	O	B-Material
+from	NN	O	O
+excessive	NN	O	B-Process
+weight	NN	O	I-Process
+loss	NN	O	I-Process
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+and	NN	O	O
+reduction	NN	O	B-Process
+in	NN	O	I-Process
+mechanical	NN	O	I-Process
+strength	NN	O	I-Process
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+assumed	NN	O	O
+nitrogen	NN	O	B-Process
+incorporation	NN	O	I-Process
+during	NN	O	I-Process
+deposit	NN	O	I-Process
+formation	NN	O	I-Process
+is	NN	O	O
+the	NN	O	O
+subsequent	NN	O	O
+production	NN	O	O
+route	NN	O	O
+for	NN	O	O
+the	NN	O	O
+high	NN	O	O
+14C	NN	O	O
+levels	NN	O	O
+observed	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0029549313003439)
+
+An	NN	O	O
+essential	NN	O	O
+part	NN	O	O
+of	NN	O	O
+nuclear	NN	O	B-Task
+reactor	NN	O	I-Task
+analysis	NN	O	I-Task
+is	NN	O	O
+the	NN	O	O
+prediction	NN	O	B-Task
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+-DOCSTART- (S0029549314002854)
+
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+-	NN	O	O
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+-DOCSTART- (S0038092X14004824)
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+,	NN	O	O
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+.	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+The	NN	O	O
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+diurnal	NN	O	O
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+.	NN	O	O
+Eight	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+is	NN	O	O
+to	NN	O	O
+capture	NN	O	B-Task
+the	NN	O	I-Task
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+in	NN	O	I-Task
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+-	NN	O	O
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+the	NN	O	O
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+,	NN	O	O
+Fig	NN	O	O
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+Fig	NN	O	O
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+11	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0038092X15003059)
+
+In	NN	O	O
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+electrical	NN	O	O
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+al	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+methods	NN	O	O
+for	NN	O	O
+the	NN	O	O
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+PV	NN	O	I-Process
+(	NN	O	O
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+The	NN	O	O
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+,	NN	O	O
+(	NN	O	O
+2	NN	O	O
+)	NN	O	O
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+3	NN	O	O
+)	NN	O	O
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+The	NN	O	O
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+)	NN	O	O
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+)	NN	O	O
+.	NN	O	O
+Most	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
+described	NN	O	O
+a	NN	O	O
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+electrical	NN	O	O
+parameters	NN	O	O
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+Fernández	NN	O	O
+et	NN	O	O
+al	NN	O	O
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+(	NN	O	O
+2014b	NN	O	O
+)	NN	O	O
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+on	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+to	NN	O	O
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+temperature	NN	O	I-Task
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+parameters	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
+2013a	NN	O	O
+)	NN	O	O
+offering	NN	O	O
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+(	NN	O	O
+RMSE	NN	O	O
+3.2	NN	O	O
+K	NN	O	O
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+(	NN	O	O
+Rodrigo	NN	O	O
+et	NN	O	O
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+.	NN	O	O
+,	NN	O	O
+2014	NN	O	O
+)	NN	O	O
+)	NN	O	O
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+The	NN	O	O
+main	NN	O	O
+disadvantage	NN	O	O
+of	NN	O	O
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+aforementioned	NN	O	O
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+to	NN	O	O
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+the	NN	O	O
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+used	NN	O	O
+for	NN	O	O
+the	NN	O	O
+cell	NN	O	B-Task
+temperature	NN	O	I-Task
+calculation	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0045782514001947)
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+Our	NN	O	O
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+the	NN	O	O
+issue	NN	O	O
+of	NN	O	O
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+,	NN	O	O
+Edeling	NN	O	O
+et	NN	O	O
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+.	NN	O	O
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+separate	NN	O	O
+calibrations	NN	O	O
+for	NN	O	O
+a	NN	O	O
+set	NN	O	O
+of	NN	O	O
+13	NN	O	O
+boundary	NN	O	B-Process
+-	NN	O	I-Process
+layer	NN	O	I-Process
+flows	NN	O	I-Process
+.	NN	O	O
+They	NN	O	O
+summarized	NN	O	O
+this	NN	O	O
+information	NN	O	O
+across	NN	O	O
+calibrations	NN	O	O
+by	NN	O	O
+computing	NN	O	O
+Highest	NN	O	B-Process
+Posterior	NN	O	I-Process
+-	NN	O	I-Process
+Density	NN	O	I-Process
+(	NN	O	O
+HPD	NN	O	B-Process
+)	NN	O	O
+intervals	NN	O	O
+,	NN	O	O
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+subsequently	NN	O	O
+represent	NN	O	O
+the	NN	O	O
+total	NN	O	O
+solution	NN	O	O
+uncertainty	NN	O	O
+with	NN	O	O
+a	NN	O	O
+probability	NN	O	B-Material
+-	NN	O	I-Material
+box	NN	O	I-Material
+(	NN	O	O
+p	NN	O	B-Material
+-	NN	O	I-Material
+box	NN	O	I-Material
+)	NN	O	O
+.	NN	O	O
+This	NN	O	O
+p	NN	O	B-Material
+-	NN	O	I-Material
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+represents	NN	O	O
+both	NN	O	O
+parameter	NN	O	O
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+,	NN	O	O
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+epistemic	NN	O	O
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+.	NN	O	O
+A	NN	O	O
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+of	NN	O	O
+a	NN	O	O
+new	NN	O	O
+boundary	NN	O	B-Process
+-	NN	O	I-Process
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+is	NN	O	O
+made	NN	O	O
+with	NN	O	O
+uncertainty	NN	O	O
+bars	NN	O	O
+generated	NN	O	O
+from	NN	O	O
+this	NN	O	O
+uncertainty	NN	O	O
+information	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+resulting	NN	O	O
+error	NN	O	O
+estimate	NN	O	O
+is	NN	O	O
+shown	NN	O	O
+to	NN	O	O
+be	NN	O	O
+consistent	NN	O	O
+with	NN	O	O
+measurement	NN	O	O
+data	NN	O	O
+.	NN	O	O
+This	NN	O	O
+approach	NN	O	O
+is	NN	O	O
+helpful	NN	O	O
+,	NN	O	O
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+it	NN	O	O
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+extended	NN	O	O
+further	NN	O	O
+by	NN	O	O
+modelling	NN	O	B-Process
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+a	NN	O	O
+distance	NN	O	O
+that	NN	O	O
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+to	NN	O	O
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+order	NN	O	O
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+.	NN	O	O
+This	NN	O	O
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+a	NN	O	O
+challenging	NN	O	O
+but	NN	O	O
+attractive	NN	O	O
+venue	NN	O	O
+for	NN	O	O
+future	NN	O	O
+research	NN	O	O
+.	NN	O	O
+
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+One	NN	O	O
+of	NN	O	O
+the	NN	O	O
+most	NN	O	O
+important	NN	O	O
+outcomes	NN	O	O
+of	NN	O	O
+the	NN	O	O
+comparative	NN	O	B-Task
+analysis	NN	O	I-Task
+is	NN	O	O
+the	NN	O	O
+fact	NN	O	O
+that	NN	O	O
+in	NN	O	O
+all	NN	O	O
+tested	NN	O	O
+cases	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
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+associated	NN	O	O
+with	NN	O	O
+a	NN	O	O
+dramatic	NN	O	O
+reduction	NN	O	O
+in	NN	O	O
+computational	NN	O	O
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+,	NN	O	O
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+being	NN	O	O
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+seconds	NN	O	O
+for	NN	O	O
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+1	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
+Free	NN	O	O
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+fastest	NN	O	O
+case	NN	O	O
+,	NN	O	O
+where	NN	O	O
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+the	NN	O	O
+load	NN	O	O
+-	NN	O	O
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+2	NN	O	O
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+,	NN	O	O
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+Most	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+time	NN	O	O
+(	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+curved	NN	O	B-Material
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+)	NN	O	O
+is	NN	O	O
+not	NN	O	O
+associated	NN	O	O
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+complex	NN	O	O
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+(	NN	O	O
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+,	NN	O	O
+patient	NN	O	O
+-	NN	O	O
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+aortic	NN	O	O
+dissection	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Another	NN	O	O
+fact	NN	O	O
+worth	NN	O	O
+mentioning	NN	O	O
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+relation	NN	O	O
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+computational	NN	O	O
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+to	NN	O	O
+the	NN	O	O
+diameter	NN	O	O
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+.	NN	O	O
+While	NN	O	O
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+,	NN	O	O
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+Such	NN	O	O
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+to	NN	O	O
+the	NN	O	O
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+-	NN	O	I-Process
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+once	NN	O	O
+the	NN	O	O
+nodes	NN	O	B-Material
+come	NN	O	O
+in	NN	O	O
+contact	NN	O	O
+with	NN	O	O
+the	NN	O	O
+vessel	NN	O	B-Material
+wall	NN	O	I-Material
+.	NN	O	O
+On	NN	O	O
+the	NN	O	O
+contrary	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+well	NN	O	O
+known	NN	O	O
+that	NN	O	O
+the	NN	O	O
+contact	NN	O	B-Process
+algorithm	NN	O	I-Process
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+FE	NN	O	B-Process
+analyses	NN	O	I-Process
+increases	NN	O	O
+the	NN	O	O
+computational	NN	O	O
+cost	NN	O	O
+of	NN	O	O
+the	NN	O	O
+simulations	NN	O	B-Process
+.	NN	O	O
+
+-DOCSTART- (S0079642514000784)
+
+Gas	NN	O	B-Process
+sorption	NN	O	I-Process
+,	NN	O	I-Process
+storage	NN	O	I-Process
+and	NN	O	I-Process
+separation	NN	O	I-Process
+in	NN	O	O
+carbon	NN	O	B-Material
+materials	NN	O	I-Material
+are	NN	O	O
+mainly	NN	O	O
+based	NN	O	O
+on	NN	O	O
+physisorption	NN	O	B-Process
+on	NN	O	O
+the	NN	O	O
+surfaces	NN	O	O
+and	NN	O	O
+particularly	NN	O	O
+depend	NN	O	O
+on	NN	O	O
+the	NN	O	O
+electrostatic	NN	O	B-Process
+and	NN	O	I-Process
+dispersion	NN	O	I-Process
+(	NN	O	I-Process
+i.e.	NN	O	I-Process
+,	NN	O	I-Process
+vdW	NN	O	I-Process
+)	NN	O	I-Process
+interactions	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+former	NN	O	O
+can	NN	O	O
+be	NN	O	O
+tuned	NN	O	O
+by	NN	O	O
+introducing	NN	O	B-Process
+charge	NN	O	I-Process
+variations	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+material	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+latter	NN	O	O
+by	NN	O	O
+chemical	NN	O	B-Process
+substitution	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+strength	NN	O	O
+of	NN	O	O
+the	NN	O	O
+interaction	NN	O	O
+is	NN	O	O
+determined	NN	O	O
+by	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+characteristics	NN	O	O
+of	NN	O	O
+the	NN	O	O
+adsorbent	NN	O	B-Material
+and	NN	O	O
+the	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+targeted	NN	O	O
+adsorbate	NN	O	B-Material
+molecule	NN	O	I-Material
+,	NN	O	O
+including	NN	O	O
+but	NN	O	O
+not	NN	O	O
+limited	NN	O	O
+to	NN	O	O
+the	NN	O	O
+size	NN	O	O
+and	NN	O	O
+shape	NN	O	O
+of	NN	O	O
+the	NN	O	O
+adsorbate	NN	O	B-Material
+molecule	NN	O	I-Material
+along	NN	O	O
+with	NN	O	O
+its	NN	O	O
+polarizability	NN	O	O
+,	NN	O	O
+magnetic	NN	O	O
+susceptibility	NN	O	O
+,	NN	O	O
+permanent	NN	O	O
+dipole	NN	O	O
+moment	NN	O	O
+,	NN	O	O
+and	NN	O	O
+quadrupole	NN	O	O
+moment	NN	O	O
+.	NN	O	O
+Li	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+summarise	NN	O	O
+the	NN	O	O
+adsorption	NN	O	O
+-	NN	O	O
+related	NN	O	O
+physical	NN	O	O
+parameters	NN	O	O
+of	NN	O	O
+many	NN	O	O
+gas	NN	O	B-Material
+or	NN	O	I-Material
+vapour	NN	O	I-Material
+adsorbates	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+herein	NN	O	O
+Table	NN	O	O
+1	NN	O	O
+we	NN	O	O
+show	NN	O	O
+a	NN	O	O
+few	NN	O	O
+of	NN	O	O
+those	NN	O	O
+of	NN	O	O
+interest	NN	O	O
+,	NN	O	O
+H2	NN	O	B-Material
+,	NN	O	O
+N2	NN	O	B-Material
+,	NN	O	O
+CO	NN	O	B-Material
+,	NN	O	O
+CO2	NN	O	B-Material
+,	NN	O	O
+CH4	NN	O	B-Material
+,	NN	O	O
+NH3	NN	O	B-Material
+,	NN	O	O
+SO2	NN	O	B-Material
+and	NN	O	O
+H2S	NN	O	B-Material
+[	NN	O	O
+90	NN	O	O
+]	NN	O	O
+.	NN	O	O
+For	NN	O	O
+instance	NN	O	O
+,	NN	O	O
+an	NN	O	O
+adsorbent	NN	O	B-Material
+with	NN	O	O
+a	NN	O	O
+high	NN	O	O
+specific	NN	O	O
+surface	NN	O	O
+area	NN	O	O
+is	NN	O	O
+a	NN	O	O
+good	NN	O	O
+candidate	NN	O	O
+for	NN	O	O
+adsorption	NN	O	O
+of	NN	O	O
+a	NN	O	O
+molecule	NN	O	B-Material
+with	NN	O	O
+high	NN	O	O
+polarizability	NN	O	O
+but	NN	O	O
+no	NN	O	O
+polarity	NN	O	O
+.	NN	O	O
+Adsorbents	NN	O	B-Material
+with	NN	O	O
+highly	NN	O	O
+polarised	NN	O	O
+surfaces	NN	O	O
+are	NN	O	O
+good	NN	O	O
+for	NN	O	O
+adsorbate	NN	O	B-Material
+molecules	NN	O	I-Material
+with	NN	O	O
+a	NN	O	O
+high	NN	O	O
+dipole	NN	O	O
+moment	NN	O	O
+.	NN	O	O
+The	NN	O	O
+adsorbents	NN	O	B-Material
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+high	NN	O	O
+electric	NN	O	O
+field	NN	O	O
+gradient	NN	O	O
+surfaces	NN	O	O
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+found	NN	O	O
+to	NN	O	O
+be	NN	O	O
+ideal	NN	O	O
+for	NN	O	O
+the	NN	O	O
+high	NN	O	B-Material
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+[	NN	O	O
+91	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Normally	NN	O	O
+,	NN	O	O
+the	NN	O	O
+binding	NN	O	O
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+a	NN	O	O
+carbon	NN	O	O
+nanostructure	NN	O	O
+is	NN	O	O
+relatively	NN	O	O
+low	NN	O	O
+for	NN	O	O
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+N2	NN	O	B-Material
+;	NN	O	O
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+CO	NN	O	B-Material
+,	NN	O	O
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+CO2	NN	O	B-Material
+;	NN	O	O
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+H2S	NN	O	B-Material
+,	NN	O	O
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+H2O.	NN	O	B-Material
+Thus	NN	O	O
+,	NN	O	O
+surface	NN	O	B-Process
+modifications	NN	O	I-Process
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+doping	NN	O	B-Process
+,	NN	O	O
+functionalization	NN	O	B-Process
+and	NN	O	O
+improving	NN	O	B-Process
+the	NN	O	I-Process
+pore	NN	O	I-Process
+structure	NN	O	I-Process
+and	NN	O	I-Process
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+nanocarbons	NN	O	I-Process
+,	NN	O	O
+are	NN	O	O
+important	NN	O	O
+to	NN	O	O
+enhance	NN	O	B-Task
+gas	NN	O	I-Task
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+.	NN	O	O
+For	NN	O	O
+this	NN	O	O
+purpose	NN	O	O
+,	NN	O	O
+graphene	NN	O	B-Material
+offers	NN	O	O
+a	NN	O	O
+great	NN	O	O
+scope	NN	O	O
+for	NN	O	O
+tailor	NN	O	O
+-	NN	O	O
+made	NN	O	O
+carbonaceous	NN	O	B-Material
+adsorbents	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0079642515000705)
+
+When	NN	O	O
+dominated	NN	O	O
+by	NN	O	O
+surface	NN	O	B-Process
+shadowing	NN	O	I-Process
+mechanisms	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+aggregation	NN	O	B-Process
+of	NN	O	I-Process
+vapor	NN	O	I-Process
+particles	NN	O	I-Process
+onto	NN	O	I-Process
+a	NN	O	I-Process
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+is	NN	O	O
+a	NN	O	O
+complex	NN	O	O
+,	NN	O	O
+non	NN	O	O
+-	NN	O	O
+local	NN	O	O
+phenomenon	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+literature	NN	O	O
+,	NN	O	O
+there	NN	O	O
+have	NN	O	O
+been	NN	O	O
+many	NN	O	O
+attempts	NN	O	O
+to	NN	O	O
+analyze	NN	O	B-Task
+the	NN	O	I-Task
+growth	NN	O	I-Task
+mechanism	NN	O	I-Task
+by	NN	O	O
+means	NN	O	O
+of	NN	O	O
+pure	NN	O	O
+geometrical	NN	O	B-Process
+considerations	NN	O	I-Process
+;	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+by	NN	O	O
+assuming	NN	O	O
+that	NN	O	O
+vapor	NN	O	B-Material
+particles	NN	O	I-Material
+arrive	NN	O	O
+at	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
+surface	NN	O	I-Material
+along	NN	O	O
+a	NN	O	O
+single	NN	O	B-Process
+angular	NN	O	I-Process
+direction	NN	O	I-Process
+[	NN	O	O
+38,41	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Continuum	NN	O	B-Process
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+,	NN	O	O
+which	NN	O	O
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+on	NN	O	O
+the	NN	O	O
+fact	NN	O	O
+that	NN	O	O
+the	NN	O	O
+geometrical	NN	O	B-Process
+features	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
+(	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+the	NN	O	O
+nanocolumns	NN	O	B-Process
+)	NN	O	O
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+much	NN	O	O
+larger	NN	O	O
+than	NN	O	O
+the	NN	O	O
+typical	NN	O	O
+size	NN	O	O
+of	NN	O	O
+an	NN	O	O
+atom	NN	O	B-Material
+[	NN	O	O
+42,266,267	NN	O	O
+]	NN	O	O
+,	NN	O	O
+have	NN	O	O
+been	NN	O	O
+also	NN	O	O
+explored	NN	O	O
+.	NN	O	O
+For	NN	O	O
+instance	NN	O	O
+,	NN	O	O
+Poxson	NN	O	O
+et	NN	O	O
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+.	NN	O	O
+[	NN	O	O
+228	NN	O	O
+]	NN	O	O
+developed	NN	O	O
+an	NN	O	O
+analytic	NN	O	B-Process
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+that	NN	O	O
+takes	NN	O	O
+into	NN	O	O
+account	NN	O	O
+geometrical	NN	O	B-Process
+factors	NN	O	I-Process
+as	NN	O	O
+well	NN	O	O
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+surface	NN	O	B-Process
+diffusion	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
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+predicted	NN	O	O
+the	NN	O	O
+porosity	NN	O	O
+and	NN	O	O
+deposition	NN	O	O
+rate	NN	O	O
+of	NN	O	O
+thin	NN	O	B-Material
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+using	NN	O	O
+a	NN	O	O
+single	NN	O	O
+input	NN	O	O
+parameter	NN	O	O
+related	NN	O	O
+to	NN	O	O
+the	NN	O	O
+cross	NN	O	O
+-	NN	O	O
+sectional	NN	O	O
+area	NN	O	O
+of	NN	O	O
+the	NN	O	O
+nanocolumns	NN	O	B-Material
+,	NN	O	O
+the	NN	O	O
+volume	NN	O	O
+of	NN	O	O
+material	NN	O	O
+and	NN	O	O
+the	NN	O	O
+thickness	NN	O	O
+of	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+in	NN	O	O
+Ref	NN	O	O
+.	NN	O	O
+[	NN	O	O
+39	NN	O	O
+]	NN	O	O
+,	NN	O	O
+an	NN	O	O
+analytical	NN	O	B-Process
+semi	NN	O	I-Process
+-	NN	O	I-Process
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+model	NN	O	I-Process
+was	NN	O	O
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+to	NN	O	O
+quantitatively	NN	O	B-Task
+describe	NN	O	I-Task
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+means	NN	O	O
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+single	NN	O	O
+parameter	NN	O	O
+dubbed	NN	O	O
+the	NN	O	O
+fan	NN	O	O
+angle	NN	O	O
+.	NN	O	O
+This	NN	O	O
+material	NN	O	O
+-	NN	O	O
+dependent	NN	O	O
+quantity	NN	O	O
+can	NN	O	O
+be	NN	O	O
+experimentally	NN	O	O
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+by	NN	O	O
+performing	NN	O	O
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+at	NN	O	O
+normal	NN	O	O
+incidence	NN	O	O
+on	NN	O	O
+an	NN	O	O
+imprinted	NN	O	O
+groove	NN	O	B-Material
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+substrate	NN	O	I-Material
+,	NN	O	O
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+measuring	NN	O	O
+the	NN	O	O
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+column	NN	O	O
+diameter	NN	O	O
+with	NN	O	O
+film	NN	O	B-Material
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+.	NN	O	O
+This	NN	O	O
+model	NN	O	O
+was	NN	O	O
+tested	NN	O	O
+under	NN	O	O
+various	NN	O	O
+conditions	NN	O	O
+[	NN	O	O
+40	NN	O	O
+]	NN	O	O
+,	NN	O	O
+which	NN	O	O
+returned	NN	O	O
+good	NN	O	O
+results	NN	O	O
+and	NN	O	O
+an	NN	O	O
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+prediction	NN	O	B-Task
+of	NN	O	I-Task
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+relation	NN	O	I-Task
+between	NN	O	I-Task
+the	NN	O	I-Task
+incident	NN	O	I-Task
+angle	NN	O	I-Task
+of	NN	O	I-Task
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+flux	NN	O	I-Task
+and	NN	O	I-Task
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+tilt	NN	O	I-Task
+angle	NN	O	I-Task
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+the	NN	O	I-Task
+columns	NN	O	I-Task
+for	NN	O	O
+several	NN	O	O
+materials	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0167844214000652)
+
+A	NN	O	O
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+is	NN	O	O
+thought	NN	O	O
+of	NN	O	O
+as	NN	O	O
+a	NN	O	O
+micro	NN	O	B-Process
+-	NN	O	I-Process
+crack	NN	O	I-Process
+nucleation	NN	O	I-Process
+,	NN	O	O
+specifically	NN	O	O
+as	NN	O	O
+a	NN	O	O
+separation	NN	O	B-Process
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+the	NN	O	I-Process
+adjacent	NN	O	I-Process
+cells	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+cellular	NN	O	I-Process
+structure	NN	O	I-Process
+along	NN	O	I-Process
+their	NN	O	I-Process
+common	NN	O	I-Process
+face	NN	O	I-Process
+.	NN	O	O
+Initially	NN	O	O
+,	NN	O	O
+the	NN	O	O
+micro	NN	O	B-Material
+-	NN	O	I-Material
+cracks	NN	O	I-Material
+may	NN	O	O
+be	NN	O	O
+dispersed	NN	O	O
+in	NN	O	O
+the	NN	O	O
+model	NN	O	O
+reflecting	NN	O	O
+the	NN	O	O
+random	NN	O	O
+distribution	NN	O	O
+of	NN	O	O
+pore	NN	O	B-Material
+sizes	NN	O	O
+and	NN	O	O
+the	NN	O	O
+low	NN	O	O
+level	NN	O	O
+of	NN	O	O
+interaction	NN	O	O
+due	NN	O	O
+to	NN	O	O
+force	NN	O	O
+redistribution	NN	O	O
+.	NN	O	O
+Interaction	NN	O	O
+and	NN	O	O
+coalescence	NN	O	O
+may	NN	O	O
+follow	NN	O	O
+as	NN	O	O
+the	NN	O	O
+population	NN	O	O
+of	NN	O	O
+micro	NN	O	B-Material
+-	NN	O	I-Material
+cracks	NN	O	I-Material
+increases	NN	O	O
+.	NN	O	O
+These	NN	O	O
+situations	NN	O	O
+are	NN	O	O
+illustrated	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3	NN	O	O
+.	NN	O	O
+The	NN	O	O
+structure	NN	O	O
+of	NN	O	O
+the	NN	O	O
+failed	NN	O	B-Material
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+can	NN	O	O
+be	NN	O	O
+represented	NN	O	O
+with	NN	O	O
+a	NN	O	O
+mathematical	NN	O	B-Process
+graph	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+graph	NN	O	O
+nodes	NN	O	O
+represent	NN	O	O
+failed	NN	O	B-Material
+faces	NN	O	I-Material
+and	NN	O	O
+graph	NN	O	O
+edges	NN	O	O
+exist	NN	O	O
+between	NN	O	O
+failed	NN	O	B-Material
+faces	NN	O	I-Material
+with	NN	O	O
+common	NN	O	O
+triple	NN	O	O
+line	NN	O	O
+in	NN	O	O
+the	NN	O	O
+cellular	NN	O	B-Material
+structure	NN	O	I-Material
+,	NN	O	O
+i.e.	NN	O	O
+where	NN	O	O
+two	NN	O	O
+micro	NN	O	B-Material
+-	NN	O	I-Material
+cracks	NN	O	I-Material
+formed	NN	O	O
+a	NN	O	O
+continuous	NN	O	O
+larger	NN	O	O
+crack	NN	O	B-Material
+.	NN	O	O
+With	NN	O	O
+reference	NN	O	O
+to	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3	NN	O	O
+,	NN	O	O
+each	NN	O	O
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+a	NN	O	O
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+node	NN	O	O
+and	NN	O	O
+each	NN	O	O
+pair	NN	O	O
+of	NN	O	O
+neighbouring	NN	O	O
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+is	NN	O	O
+a	NN	O	O
+graph	NN	O	O
+edge	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0254058415300766)
+
+Half	NN	O	B-Material
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+(	NN	O	O
+HMF	NN	O	B-Material
+)	NN	O	O
+have	NN	O	O
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+due	NN	O	O
+to	NN	O	O
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+in	NN	O	O
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+devices	NN	O	I-Task
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+the	NN	O	O
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+materials	NN	O	B-Material
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+.	NN	O	O
+These	NN	O	O
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+,	NN	O	O
+one	NN	O	O
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+a	NN	O	O
+semiconducting	NN	O	B-Material
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+with	NN	O	O
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+properties	NN	O	O
+while	NN	O	O
+the	NN	O	O
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+a	NN	O	O
+magnetic	NN	O	B-Material
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+such	NN	O	O
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+transition	NN	O	B-Material
+metal	NN	O	I-Material
+having	NN	O	O
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+-	NN	O	I-Material
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+d	NN	O	I-Material
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+[	NN	O	O
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+]	NN	O	O
+.	NN	O	O
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+the	NN	O	O
+charge	NN	O	O
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+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+issue	NN	O	O
+regarding	NN	O	O
+the	NN	O	O
+applicability	NN	O	O
+of	NN	O	O
+these	NN	O	O
+materials	NN	O	O
+is	NN	O	O
+to	NN	O	O
+enhance	NN	O	B-Task
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+Curie	NN	O	I-Task
+temperature	NN	O	I-Task
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+room	NN	O	I-Task
+temperature	NN	O	I-Task
+.	NN	O	O
+That	NN	O	O
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+the	NN	O	O
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+large	NN	O	B-Material
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+materials	NN	O	I-Material
+.	NN	O	O
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+reported	NN	O	O
+on	NN	O	O
+DMSs	NN	O	B-Material
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+different	NN	O	O
+II	NN	O	B-Material
+–	NN	O	I-Material
+VI	NN	O	I-Material
+and	NN	O	I-Material
+III	NN	O	I-Material
+–	NN	O	I-Material
+V	NN	O	I-Material
+semiconductors	NN	O	I-Material
+as	NN	O	O
+host	NN	O	B-Material
+material	NN	O	I-Material
+such	NN	O	O
+as	NN	O	O
+,	NN	O	O
+ZnS	NN	O	B-Material
+,	NN	O	O
+CdS	NN	O	B-Material
+,	NN	O	O
+GaN	NN	O	B-Material
+,	NN	O	O
+ZnO	NN	O	B-Material
+,	NN	O	O
+ZnSe	NN	O	B-Material
+,	NN	O	O
+ZnTe	NN	O	B-Material
+,	NN	O	O
+TiO2	NN	O	B-Material
+,	NN	O	O
+SnO2	NN	O	B-Material
+[	NN	O	O
+4–12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0301010409001219)
+
+It	NN	O	O
+has	NN	O	O
+been	NN	O	O
+known	NN	O	O
+[	NN	O	O
+9,14,18,22	NN	O	O
+]	NN	O	O
+that	NN	O	O
+the	NN	O	O
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+in	NN	O	O
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+induced	NN	O	O
+by	NN	O	O
+an	NN	O	O
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+field	NN	O	I-Material
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+on	NN	O	O
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+of	NN	O	O
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+.	NN	O	O
+Depending	NN	O	O
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+change	NN	O	O
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+the	NN	O	O
+chirped	NN	O	B-Material
+laser	NN	O	I-Material
+pulses	NN	O	I-Material
+,	NN	O	O
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+[	NN	O	O
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+Controlling	NN	O	O
+the	NN	O	O
+outcome	NN	O	O
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+molecular	NN	O	I-Process
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+with	NN	O	O
+chirped	NN	O	B-Material
+femtosecond	NN	O	I-Material
+laser	NN	O	I-Material
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+brought	NN	O	O
+forth	NN	O	O
+a	NN	O	O
+number	NN	O	O
+of	NN	O	O
+experimental	NN	O	O
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+theoretical	NN	O	O
+effects	NN	O	O
+in	NN	O	O
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+years	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
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+continuing	NN	O	O
+for	NN	O	O
+a	NN	O	O
+specific	NN	O	O
+fragment	NN	O	B-Task
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+,	NN	O	O
+which	NN	O	O
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+since	NN	O	O
+it	NN	O	O
+also	NN	O	O
+is	NN	O	O
+a	NN	O	O
+function	NN	O	O
+of	NN	O	O
+the	NN	O	O
+molecular	NN	O	B-Process
+system	NN	O	I-Process
+under	NN	O	O
+study	NN	O	O
+[	NN	O	O
+20,22–24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Here	NN	O	O
+we	NN	O	O
+report	NN	O	O
+the	NN	O	O
+observation	NN	O	B-Task
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+coherently	NN	O	I-Task
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+of	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+propyl	NN	O	I-Material
+benzene	NN	O	I-Material
+,	NN	O	O
+which	NN	O	O
+seems	NN	O	O
+to	NN	O	O
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+such	NN	O	O
+specific	NN	O	O
+fragmentation	NN	O	B-Material
+channel	NN	O	I-Material
+available	NN	O	O
+.	NN	O	O
+We	NN	O	O
+found	NN	O	O
+that	NN	O	O
+for	NN	O	O
+n	NN	O	B-Material
+-	NN	O	I-Material
+propyl	NN	O	I-Material
+benzene	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+relative	NN	O	O
+yield	NN	O	O
+of	NN	O	O
+C3H3	NN	O	B-Material
++	NN	O	I-Material
+is	NN	O	O
+extremely	NN	O	O
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+to	NN	O	O
+the	NN	O	O
+phase	NN	O	O
+of	NN	O	O
+the	NN	O	O
+laser	NN	O	B-Material
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+to	NN	O	O
+any	NN	O	O
+of	NN	O	O
+the	NN	O	O
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+possible	NN	O	O
+channels	NN	O	B-Material
+.	NN	O	O
+In	NN	O	O
+fact	NN	O	O
+,	NN	O	O
+there	NN	O	O
+is	NN	O	O
+almost	NN	O	O
+an	NN	O	O
+order	NN	O	O
+of	NN	O	O
+magnitude	NN	O	O
+enhancement	NN	O	O
+in	NN	O	O
+the	NN	O	O
+yield	NN	O	O
+of	NN	O	O
+C3H3	NN	O	B-Material
++	NN	O	I-Material
+when	NN	O	O
+negatively	NN	O	B-Material
+chirped	NN	O	I-Material
+pulses	NN	O	I-Material
+are	NN	O	O
+used	NN	O	O
+,	NN	O	O
+while	NN	O	O
+there	NN	O	O
+is	NN	O	O
+no	NN	O	O
+effect	NN	O	O
+with	NN	O	O
+the	NN	O	O
+positive	NN	O	B-Material
+chirp	NN	O	I-Material
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+the	NN	O	O
+relative	NN	O	O
+yield	NN	O	O
+of	NN	O	O
+all	NN	O	O
+the	NN	O	O
+other	NN	O	O
+heavier	NN	O	B-Material
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+ions	NN	O	I-Material
+resulting	NN	O	O
+from	NN	O	O
+interaction	NN	O	O
+of	NN	O	O
+the	NN	O	O
+strong	NN	O	O
+field	NN	O	O
+with	NN	O	O
+the	NN	O	O
+molecule	NN	O	B-Material
+is	NN	O	O
+not	NN	O	O
+sensitive	NN	O	O
+to	NN	O	O
+the	NN	O	O
+sign	NN	O	O
+of	NN	O	O
+the	NN	O	O
+chirp	NN	O	B-Material
+,	NN	O	O
+within	NN	O	O
+the	NN	O	O
+noise	NN	O	O
+level	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0301010413002139)
+
+The	NN	O	O
+vibrational	NN	O	O
+spectra	NN	O	O
+of	NN	O	O
+l	NN	O	B-Material
+-	NN	O	I-Material
+cysteine	NN	O	I-Material
+have	NN	O	O
+been	NN	O	O
+recorded	NN	O	O
+and	NN	O	O
+assigned	NN	O	O
+in	NN	O	O
+both	NN	O	O
+solution	NN	O	O
+[	NN	O	O
+8,9	NN	O	O
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+the	NN	O	O
+solid	NN	O	O
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+[	NN	O	O
+10–14	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Spectral	NN	O	B-Process
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+have	NN	O	O
+been	NN	O	O
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+fields	NN	O	I-Process
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+,	NN	O	O
+Hartree	NN	O	B-Process
+–	NN	O	I-Process
+Fock	NN	O	I-Process
+calculations	NN	O	I-Process
+[	NN	O	O
+10,16,17	NN	O	O
+]	NN	O	O
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+the	NN	O	O
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+molecule	NN	O	I-Process
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+.	NN	O	O
+For	NN	O	O
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+that	NN	O	O
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+intermolecular	NN	O	O
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+,	NN	O	O
+this	NN	O	O
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+.	NN	O	O
+A	NN	O	O
+striking	NN	O	O
+example	NN	O	O
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+purine	NN	O	B-Material
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+,	NN	O	O
+where	NN	O	O
+a	NN	O	O
+study	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+solid	NN	O	I-Task
+state	NN	O	I-Task
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+spectra	NN	O	I-Task
+by	NN	O	O
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+periodic	NN	O	I-Process
+calculations	NN	O	I-Process
+,	NN	O	O
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+theory	NN	O	O
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+for	NN	O	O
+the	NN	O	O
+latter	NN	O	O
+,	NN	O	O
+whereas	NN	O	O
+the	NN	O	O
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+between	NN	O	O
+the	NN	O	O
+tautomers	NN	O	B-Material
+.	NN	O	O
+In	NN	O	O
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+,	NN	O	O
+where	NN	O	O
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+linked	NN	O	O
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+hydrogen	NN	O	B-Material
+bonds	NN	O	O
+,	NN	O	O
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+on	NN	O	O
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+primitive	NN	O	I-Material
+cell	NN	O	I-Material
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+essential	NN	O	O
+[	NN	O	O
+19	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+only	NN	O	O
+work	NN	O	O
+[	NN	O	O
+20	NN	O	O
+]	NN	O	O
+that	NN	O	O
+includes	NN	O	O
+some	NN	O	O
+solid	NN	O	O
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+effects	NN	O	O
+used	NN	O	O
+molecular	NN	O	B-Process
+dynamics	NN	O	I-Process
+but	NN	O	O
+from	NN	O	O
+which	NN	O	O
+it	NN	O	O
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+difficult	NN	O	O
+to	NN	O	O
+extract	NN	O	O
+assignments	NN	O	O
+.	NN	O	O
+The	NN	O	O
+aim	NN	O	O
+of	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+is	NN	O	O
+to	NN	O	O
+provide	NN	O	B-Task
+a	NN	O	I-Task
+complete	NN	O	I-Task
+assignment	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
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+spectra	NN	O	I-Task
+of	NN	O	I-Task
+l	NN	O	I-Task
+-	NN	O	I-Task
+cysteine	NN	O	I-Task
+in	NN	O	O
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+orthorhombic	NN	O	O
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+forms	NN	O	O
+by	NN	O	O
+the	NN	O	O
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+a	NN	O	O
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+of	NN	O	O
+computational	NN	O	B-Process
+and	NN	O	I-Process
+experimental	NN	O	I-Process
+methods	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0301010413004096)
+
+It	NN	O	O
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+the	NN	O	O
+success	NN	O	O
+of	NN	O	O
+the	NN	O	O
+NPD	NN	O	B-Process
+technique	NN	O	I-Process
+that	NN	O	O
+the	NN	O	O
+MOF	NN	O	B-Material
+complex	NN	O	I-Material
+adsorbs	NN	O	O
+a	NN	O	O
+significant	NN	O	O
+amount	NN	O	O
+of	NN	O	O
+D2	NN	O	B-Material
+to	NN	O	O
+boost	NN	O	O
+the	NN	O	O
+observed	NN	O	O
+signal	NN	O	O
+.	NN	O	O
+This	NN	O	O
+technique	NN	O	O
+therefore	NN	O	O
+has	NN	O	O
+disadvantages	NN	O	O
+when	NN	O	O
+studying	NN	O	O
+the	NN	O	O
+binding	NN	O	B-Process
+interaction	NN	O	I-Process
+within	NN	O	O
+MOFs	NN	O	B-Material
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+low	NN	O	O
+uptakes	NN	O	O
+.	NN	O	O
+Furthermore	NN	O	O
+,	NN	O	O
+static	NN	O	B-Task
+crystallographic	NN	O	I-Task
+studies	NN	O	I-Task
+can	NN	O	O
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+provide	NN	O	O
+insights	NN	O	O
+into	NN	O	O
+the	NN	O	O
+dynamics	NN	O	O
+of	NN	O	O
+the	NN	O	O
+adsorbed	NN	O	B-Material
+gas	NN	O	I-Material
+molecules	NN	O	I-Material
+.	NN	O	O
+Thus	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+very	NN	O	O
+challenging	NN	O	O
+to	NN	O	O
+probe	NN	O	O
+experimentally	NN	O	O
+the	NN	O	O
+H2	NN	O	B-Process
+binding	NN	O	I-Process
+interactions	NN	O	I-Process
+within	NN	O	O
+a	NN	O	O
+porous	NN	O	O
+host	NN	O	O
+system	NN	O	O
+which	NN	O	O
+has	NN	O	O
+very	NN	O	O
+low	NN	O	O
+gas	NN	O	B-Material
+uptake	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+lack	NN	O	O
+of	NN	O	O
+suitable	NN	O	O
+characterisation	NN	O	B-Process
+techniques	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+report	NN	O	O
+herein	NN	O	O
+the	NN	O	O
+application	NN	O	O
+of	NN	O	O
+the	NN	O	O
+in	NN	O	B-Process
+situ	NN	O	I-Process
+inelastic	NN	O	I-Process
+neutron	NN	O	I-Process
+scattering	NN	O	I-Process
+(	NN	O	O
+INS	NN	O	B-Process
+)	NN	O	O
+technique	NN	O	O
+to	NN	O	O
+permit	NN	O	B-Task
+direct	NN	O	I-Task
+observation	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+dynamics	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+binding	NN	O	I-Task
+interactions	NN	O	I-Task
+between	NN	O	O
+adsorbed	NN	O	B-Material
+H2	NN	O	I-Material
+molecules	NN	O	I-Material
+and	NN	O	O
+an	NN	O	O
+aluminium	NN	O	B-Material
+-	NN	O	I-Material
+based	NN	O	I-Material
+porous	NN	O	I-Material
+MOF	NN	O	I-Material
+,	NN	O	O
+NOTT-300	NN	O	B-Material
+,	NN	O	O
+exhibiting	NN	O	O
+moderate	NN	O	O
+porosity	NN	O	O
+,	NN	O	O
+narrow	NN	O	O
+pore	NN	O	O
+window	NN	O	O
+and	NN	O	O
+very	NN	O	O
+low	NN	O	O
+uptake	NN	O	O
+of	NN	O	O
+H2	NN	O	B-Material
+.	NN	O	O
+This	NN	O	O
+neutron	NN	O	B-Task
+spectroscopy	NN	O	I-Task
+study	NN	O	O
+reveals	NN	O	O
+that	NN	O	O
+adsorbed	NN	O	B-Material
+H2	NN	O	I-Material
+molecules	NN	O	I-Material
+do	NN	O	O
+not	NN	O	O
+interact	NN	O	O
+with	NN	O	O
+the	NN	O	O
+organic	NN	O	B-Material
+ligand	NN	O	I-Material
+within	NN	O	O
+the	NN	O	O
+pore	NN	O	O
+channels	NN	O	O
+,	NN	O	O
+and	NN	O	O
+form	NN	O	O
+very	NN	O	O
+weak	NN	O	O
+interactions	NN	O	O
+with	NN	O	O
+[	NN	O	B-Material
+Al(OH)2O4	NN	O	I-Material
+]	NN	O	I-Material
+moieties	NN	O	I-Material
+via	NN	O	O
+a	NN	O	O
+type	NN	O	O
+of	NN	O	O
+through	NN	O	B-Process
+-	NN	O	I-Process
+spacing	NN	O	I-Process
+interaction	NN	O	I-Process
+(	NN	O	O
+Al	NN	O	B-Process
+-	NN	O	I-Process
+O⋯H2	NN	O	I-Process
+)	NN	O	O
+.	NN	O	O
+Interestingly	NN	O	O
+,	NN	O	O
+the	NN	O	O
+very	NN	O	O
+low	NN	O	O
+H2	NN	O	B-Process
+adsorption	NN	O	I-Process
+has	NN	O	O
+been	NN	O	O
+successfully	NN	O	O
+characterised	NN	O	O
+as	NN	O	O
+weak	NN	O	B-Process
+binding	NN	O	I-Process
+interactions	NN	O	I-Process
+and	NN	O	O
+,	NN	O	O
+for	NN	O	O
+the	NN	O	O
+first	NN	O	O
+time	NN	O	O
+,	NN	O	O
+we	NN	O	O
+have	NN	O	O
+found	NN	O	O
+that	NN	O	O
+the	NN	O	O
+adsorbed	NN	O	B-Material
+H2	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+pore	NN	O	O
+channel	NN	O	O
+has	NN	O	O
+a	NN	O	O
+liquid	NN	O	B-Material
+type	NN	O	O
+recoil	NN	O	O
+motion	NN	O	O
+at	NN	O	O
+5	NN	O	O
+K	NN	O	O
+(	NN	O	O
+below	NN	O	O
+its	NN	O	O
+melting	NN	O	O
+point	NN	O	O
+)	NN	O	O
+as	NN	O	O
+a	NN	O	O
+direct	NN	O	O
+result	NN	O	O
+of	NN	O	O
+this	NN	O	O
+weak	NN	O	B-Process
+interaction	NN	O	I-Process
+to	NN	O	O
+the	NN	O	O
+MOF	NN	O	B-Material
+host	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0301010415002189)
+
+The	NN	O	O
+sodium	NN	O	B-Material
+trimer	NN	O	I-Material
+has	NN	O	O
+a	NN	O	O
+long	NN	O	O
+history	NN	O	O
+of	NN	O	O
+theoretical	NN	O	O
+and	NN	O	O
+experimental	NN	O	O
+studies	NN	O	O
+.	NN	O	O
+A	NN	O	O
+pioneering	NN	O	O
+theoretical	NN	O	O
+paper	NN	O	O
+of	NN	O	O
+Martin	NN	O	O
+and	NN	O	O
+Davidson	NN	O	O
+published	NN	O	O
+in	NN	O	O
+1978	NN	O	O
+showed	NN	O	O
+that	NN	O	O
+the	NN	O	O
+obtuse	NN	O	B-Process
+isosceles	NN	O	I-Process
+geometry	NN	O	I-Process
+is	NN	O	O
+lower	NN	O	O
+in	NN	O	O
+energy	NN	O	O
+than	NN	O	O
+the	NN	O	O
+linear	NN	O	B-Process
+conformation	NN	O	I-Process
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Several	NN	O	O
+extended	NN	O	O
+PES	NN	O	B-Process
+scans	NN	O	I-Process
+of	NN	O	O
+Na3	NN	O	B-Material
+and	NN	O	O
+other	NN	O	O
+alkali	NN	O	B-Material
+trimers	NN	O	I-Material
+followed	NN	O	O
+this	NN	O	O
+initial	NN	O	O
+study	NN	O	O
+,	NN	O	O
+employing	NN	O	O
+DFT	NN	O	B-Process
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+,	NN	O	O
+complete	NN	O	B-Process
+active	NN	O	I-Process
+space	NN	O	I-Process
+SCF	NN	O	I-Process
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+,	NN	O	O
+or	NN	O	O
+a	NN	O	O
+configuration	NN	O	B-Process
+interaction	NN	O	I-Process
+approach	NN	O	I-Process
+based	NN	O	O
+on	NN	O	O
+valence	NN	O	B-Process
+bond	NN	O	I-Process
+wave	NN	O	I-Process
+functions	NN	O	I-Process
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Recently	NN	O	O
+,	NN	O	O
+the	NN	O	O
+applicability	NN	O	O
+of	NN	O	O
+density	NN	O	B-Process
+functional	NN	O	I-Process
+theory	NN	O	I-Process
+(	NN	O	O
+DFT	NN	O	B-Process
+)	NN	O	O
+to	NN	O	O
+JT	NN	O	B-Process
+-	NN	O	I-Process
+distorted	NN	O	I-Process
+systems	NN	O	I-Process
+has	NN	O	O
+also	NN	O	O
+been	NN	O	O
+tested	NN	O	O
+for	NN	O	O
+Na3	NN	O	B-Material
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+B	NN	O	B-Process
+-	NN	O	I-Process
+X	NN	O	I-Process
+transition	NN	O	I-Process
+has	NN	O	O
+been	NN	O	O
+revisited	NN	O	O
+as	NN	O	O
+well	NN	O	O
+,	NN	O	O
+applying	NN	O	O
+state	NN	O	B-Process
+-	NN	O	I-Process
+averaged	NN	O	I-Process
+multi	NN	O	I-Process
+-	NN	O	I-Process
+reference	NN	O	I-Process
+configuration	NN	O	I-Process
+interaction	NN	O	I-Process
+with	NN	O	O
+a	NN	O	O
+large	NN	O	O
+active	NN	O	O
+space	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+derive	NN	O	B-Task
+more	NN	O	I-Task
+accurate	NN	O	I-Task
+non	NN	O	I-Task
+-	NN	O	I-Task
+adiabatic	NN	O	I-Task
+coupling	NN	O	I-Task
+terms	NN	O	I-Task
+for	NN	O	O
+an	NN	O	O
+improved	NN	O	O
+interpretation	NN	O	O
+of	NN	O	O
+photoabsorption	NN	O	B-Material
+spectra	NN	O	I-Material
+[	NN	O	O
+11–13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0301010415300355)
+
+Alternatively	NN	O	O
+to	NN	O	O
+H	NN	O	B-Process
+-	NN	O	I-Process
+atom	NN	O	I-Process
+photodetachment	NN	O	I-Process
+from	NN	O	O
+the	NN	O	O
+intermediate	NN	O	B-Material
+radicals	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+latter	NN	O	O
+may	NN	O	O
+serve	NN	O	O
+as	NN	O	O
+reducing	NN	O	B-Material
+agents	NN	O	I-Material
+.	NN	O	O
+Evidence	NN	O	O
+has	NN	O	O
+been	NN	O	O
+reported	NN	O	O
+in	NN	O	O
+recent	NN	O	O
+years	NN	O	O
+that	NN	O	O
+the	NN	O	O
+pyridinyl	NN	O	B-Material
+radical	NN	O	I-Material
+(	NN	O	O
+PyH	NN	O	B-Material
+)	NN	O	O
+is	NN	O	O
+an	NN	O	O
+exceptionally	NN	O	O
+strong	NN	O	O
+reducing	NN	O	B-Material
+agent	NN	O	I-Material
+which	NN	O	O
+can	NN	O	O
+even	NN	O	O
+reduce	NN	O	O
+CO2	NN	O	B-Material
+to	NN	O	O
+formaldehyde	NN	O	B-Material
+,	NN	O	O
+formic	NN	O	B-Material
+acid	NN	O	I-Material
+or	NN	O	O
+methanol	NN	O	B-Material
+with	NN	O	O
+suitable	NN	O	O
+catalyzers	NN	O	B-Material
+[	NN	O	O
+27–29	NN	O	O
+]	NN	O	O
+,	NN	O	O
+albeit	NN	O	O
+the	NN	O	O
+mechanisms	NN	O	O
+of	NN	O	O
+these	NN	O	O
+reactions	NN	O	O
+are	NN	O	O
+currently	NN	O	O
+poorly	NN	O	O
+understood	NN	O	O
+[	NN	O	O
+30–32	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+theoretically	NN	O	O
+predicted	NN	O	O
+dissociation	NN	O	O
+thresholds	NN	O	O
+of	NN	O	O
+the	NN	O	O
+AcH	NN	O	B-Material
+,	NN	O	I-Material
+AOH	NN	O	I-Material
+and	NN	O	I-Material
+BAH	NN	O	I-Material
+radicals	NN	O	I-Material
+are	NN	O	O
+about	NN	O	O
+2.7eV	NN	O	O
+,	NN	O	O
+2.5eV	NN	O	O
+and	NN	O	O
+3.0eV	NN	O	O
+,	NN	O	O
+respectively	NN	O	O
+(	NN	O	O
+see	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+4	NN	O	O
+)	NN	O	O
+,	NN	O	O
+while	NN	O	O
+the	NN	O	O
+predicted	NN	O	O
+dissociation	NN	O	O
+threshold	NN	O	O
+of	NN	O	O
+the	NN	O	O
+pyridinyl	NN	O	B-Material
+radical	NN	O	I-Material
+is	NN	O	O
+much	NN	O	O
+lower	NN	O	O
+,	NN	O	O
+about	NN	O	O
+1.7eV	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Pyridinyl	NN	O	B-Material
+is	NN	O	O
+thus	NN	O	O
+a	NN	O	O
+significantly	NN	O	O
+stronger	NN	O	O
+reductant	NN	O	B-Material
+than	NN	O	O
+acridinyl	NN	O	B-Material
+and	NN	O	O
+related	NN	O	O
+radicals	NN	O	B-Material
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+therefore	NN	O	O
+not	NN	O	O
+expected	NN	O	O
+that	NN	O	O
+the	NN	O	O
+latter	NN	O	O
+will	NN	O	O
+be	NN	O	O
+able	NN	O	O
+to	NN	O	O
+reduce	NN	O	B-Task
+carbon	NN	O	I-Task
+dioxide	NN	O	I-Task
+in	NN	O	I-Task
+dark	NN	O	I-Task
+reactions	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0301932213000487)
+
+As	NN	O	O
+already	NN	O	O
+discussed	NN	O	O
+,	NN	O	O
+in	NN	O	O
+dilute	NN	O	B-Material
+flows	NN	O	I-Material
+the	NN	O	O
+choice	NN	O	O
+between	NN	O	O
+the	NN	O	O
+hard	NN	O	B-Process
+sphere	NN	O	I-Process
+and	NN	O	I-Process
+soft	NN	O	I-Process
+sphere	NN	O	I-Process
+models	NN	O	I-Process
+largely	NN	O	O
+depends	NN	O	O
+on	NN	O	O
+the	NN	O	O
+computational	NN	O	O
+time	NN	O	O
+spent	NN	O	O
+to	NN	O	O
+solve	NN	O	B-Task
+the	NN	O	I-Task
+particle	NN	O	I-Task
+equation	NN	O	I-Task
+of	NN	O	I-Task
+motion	NN	O	I-Task
+.	NN	O	O
+For	NN	O	O
+very	NN	O	O
+dilute	NN	O	B-Material
+flows	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+hard	NN	O	B-Process
+sphere	NN	O	I-Process
+model	NN	O	I-Process
+is	NN	O	O
+the	NN	O	O
+most	NN	O	O
+natural	NN	O	O
+choice	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+when	NN	O	O
+the	NN	O	O
+collisions	NN	O	O
+can	NN	O	O
+no	NN	O	O
+longer	NN	O	O
+be	NN	O	O
+assumed	NN	O	O
+as	NN	O	O
+binary	NN	O	O
+and	NN	O	O
+instantaneous	NN	O	O
+,	NN	O	O
+the	NN	O	O
+soft	NN	O	B-Process
+sphere	NN	O	I-Process
+model	NN	O	I-Process
+is	NN	O	O
+the	NN	O	O
+only	NN	O	O
+realistic	NN	O	O
+option	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+interesting	NN	O	O
+to	NN	O	O
+know	NN	O	O
+whether	NN	O	O
+the	NN	O	O
+choice	NN	O	O
+of	NN	O	O
+the	NN	O	O
+collision	NN	O	B-Process
+model	NN	O	I-Process
+affects	NN	O	O
+the	NN	O	O
+statistics	NN	O	O
+.	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+14	NN	O	O
+compares	NN	O	O
+the	NN	O	O
+mean	NN	O	O
+velocity	NN	O	O
+obtained	NN	O	O
+from	NN	O	O
+both	NN	O	O
+models	NN	O	O
+with	NN	O	O
+the	NN	O	O
+experimental	NN	O	O
+data	NN	O	O
+.	NN	O	O
+The	NN	O	O
+same	NN	O	O
+comparison	NN	O	O
+is	NN	O	O
+performed	NN	O	O
+for	NN	O	O
+the	NN	O	O
+smooth	NN	O	B-Material
+walls	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+differences	NN	O	O
+between	NN	O	O
+the	NN	O	O
+hard	NN	O	B-Process
+and	NN	O	I-Process
+soft	NN	O	I-Process
+sphere	NN	O	I-Process
+models	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+smooth	NN	O	B-Material
+walls	NN	O	I-Material
+are	NN	O	O
+almost	NN	O	O
+negligible	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+differences	NN	O	O
+between	NN	O	O
+the	NN	O	O
+hard	NN	O	B-Process
+and	NN	O	I-Process
+soft	NN	O	I-Process
+sphere	NN	O	I-Process
+models	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+rough	NN	O	B-Material
+walls	NN	O	I-Material
+are	NN	O	O
+minor	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+because	NN	O	O
+the	NN	O	O
+rough	NN	O	B-Task
+wall	NN	O	I-Task
+treatment	NN	O	I-Task
+in	NN	O	O
+the	NN	O	O
+soft	NN	O	B-Process
+sphere	NN	O	I-Process
+implementation	NN	O	I-Process
+adds	NN	O	O
+extra	NN	O	O
+virtual	NN	O	B-Material
+walls	NN	O	I-Material
+during	NN	O	O
+the	NN	O	O
+collision	NN	O	O
+of	NN	O	O
+a	NN	O	O
+particle	NN	O	B-Material
+with	NN	O	O
+a	NN	O	O
+wall	NN	O	B-Material
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+a	NN	O	O
+more	NN	O	O
+realistic	NN	O	O
+representation	NN	O	O
+of	NN	O	O
+a	NN	O	O
+rough	NN	O	B-Material
+wall	NN	O	I-Material
+compared	NN	O	O
+to	NN	O	O
+the	NN	O	O
+hard	NN	O	B-Task
+sphere	NN	O	I-Task
+rough	NN	O	I-Task
+wall	NN	O	I-Task
+treatment	NN	O	I-Task
+where	NN	O	O
+one	NN	O	O
+random	NN	O	B-Material
+wall	NN	O	I-Material
+is	NN	O	O
+considered	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+because	NN	O	O
+,	NN	O	O
+a	NN	O	O
+soft	NN	O	B-Process
+sphere	NN	O	I-Process
+collision	NN	O	I-Process
+is	NN	O	O
+not	NN	O	O
+instantaneous	NN	O	O
+and	NN	O	O
+occurs	NN	O	O
+over	NN	O	O
+a	NN	O	O
+finite	NN	O	O
+amount	NN	O	O
+of	NN	O	O
+time	NN	O	O
+.	NN	O	O
+Similarly	NN	O	O
+,	NN	O	O
+the	NN	O	O
+same	NN	O	O
+effects	NN	O	O
+are	NN	O	O
+observed	NN	O	O
+on	NN	O	O
+the	NN	O	O
+fluid	NN	O	B-Material
+statistics	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+15	NN	O	O
+,	NN	O	O
+which	NN	O	O
+compares	NN	O	O
+the	NN	O	O
+particle	NN	O	B-Material
+velocity	NN	O	O
+fluctuations	NN	O	O
+,	NN	O	O
+shows	NN	O	O
+that	NN	O	O
+the	NN	O	O
+differences	NN	O	O
+are	NN	O	O
+somewhat	NN	O	O
+larger	NN	O	O
+.	NN	O	O
+Additionally	NN	O	O
+,	NN	O	O
+the	NN	O	O
+differences	NN	O	O
+in	NN	O	O
+both	NN	O	O
+particle	NN	O	B-Material
+mean	NN	O	O
+and	NN	O	O
+RMS	NN	O	O
+velocity	NN	O	O
+profiles	NN	O	O
+are	NN	O	O
+because	NN	O	O
+the	NN	O	O
+hard	NN	O	B-Process
+sphere	NN	O	I-Process
+collisions	NN	O	I-Process
+are	NN	O	O
+unfortunately	NN	O	O
+heavily	NN	O	O
+dependent	NN	O	O
+on	NN	O	O
+the	NN	O	O
+tangential	NN	O	O
+coefficient	NN	O	O
+of	NN	O	O
+restitution	NN	O	O
+(	NN	O	O
+ψ	NN	O	O
+)	NN	O	O
+;	NN	O	O
+the	NN	O	O
+effects	NN	O	O
+by	NN	O	O
+varying	NN	O	O
+this	NN	O	O
+quantity	NN	O	O
+are	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Figs	NN	O	O
+.	NN	O	O
+16	NN	O	O
+and	NN	O	O
+17	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0301932213001985)
+
+In	NN	O	O
+the	NN	O	O
+current	NN	O	O
+CLSVOF	NN	O	B-Process
+method	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+normal	NN	O	O
+vector	NN	O	O
+is	NN	O	O
+calculated	NN	O	O
+directly	NN	O	O
+by	NN	O	O
+discretising	NN	O	O
+the	NN	O	O
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+gradient	NN	O	O
+using	NN	O	O
+a	NN	O	O
+finite	NN	O	B-Process
+difference	NN	O	I-Process
+scheme	NN	O	I-Process
+.	NN	O	O
+By	NN	O	O
+appropriately	NN	O	O
+choosing	NN	O	O
+one	NN	O	O
+of	NN	O	O
+three	NN	O	O
+finite	NN	O	B-Process
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+schemes	NN	O	I-Process
+(	NN	O	O
+central	NN	O	B-Process
+,	NN	O	I-Process
+forward	NN	O	I-Process
+,	NN	O	I-Process
+or	NN	O	I-Process
+backward	NN	O	I-Process
+differencing	NN	O	I-Process
+)	NN	O	O
+,	NN	O	O
+it	NN	O	O
+has	NN	O	O
+been	NN	O	O
+demonstrated	NN	O	O
+that	NN	O	O
+thin	NN	O	B-Material
+liquid	NN	O	I-Material
+ligaments	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+well	NN	O	O
+resolved	NN	O	O
+see	NN	O	O
+Xiao	NN	O	O
+(	NN	O	O
+2012	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Although	NN	O	O
+a	NN	O	O
+high	NN	O	B-Process
+order	NN	O	I-Process
+discretisation	NN	O	I-Process
+scheme	NN	O	I-Process
+(	NN	O	O
+e.g.	NN	O	O
+5th	NN	O	B-Process
+order	NN	O	I-Process
+WENO	NN	O	I-Process
+)	NN	O	O
+has	NN	O	O
+been	NN	O	O
+found	NN	O	O
+necessary	NN	O	O
+for	NN	O	O
+LS	NN	O	B-Process
+evolution	NN	O	O
+in	NN	O	O
+pure	NN	O	O
+LS	NN	O	B-Process
+methods	NN	O	I-Process
+to	NN	O	O
+reduce	NN	O	B-Task
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+error	NN	O	I-Task
+,	NN	O	O
+low	NN	O	B-Process
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+schemes	NN	O	I-Process
+(	NN	O	O
+2nd	NN	O	O
+order	NN	O	O
+is	NN	O	O
+used	NN	O	O
+here	NN	O	O
+)	NN	O	O
+can	NN	O	O
+produce	NN	O	O
+accurate	NN	O	O
+results	NN	O	O
+when	NN	O	O
+the	NN	O	O
+LS	NN	O	B-Process
+equation	NN	O	O
+is	NN	O	O
+solved	NN	O	O
+and	NN	O	O
+constrained	NN	O	O
+as	NN	O	O
+indicated	NN	O	O
+above	NN	O	O
+in	NN	O	O
+a	NN	O	O
+CLSVOF	NN	O	B-Process
+method	NN	O	I-Process
+(	NN	O	O
+see	NN	O	O
+Xiao	NN	O	O
+,	NN	O	O
+2012	NN	O	O
+)	NN	O	O
+,	NN	O	O
+since	NN	O	O
+the	NN	O	O
+VOF	NN	O	B-Process
+method	NN	O	I-Process
+maintains	NN	O	O
+2nd	NN	O	O
+order	NN	O	O
+accuracy	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+a	NN	O	O
+further	NN	O	O
+reason	NN	O	O
+to	NN	O	O
+adopt	NN	O	O
+the	NN	O	O
+CLSVOF	NN	O	B-Process
+method	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+has	NN	O	O
+been	NN	O	O
+used	NN	O	O
+for	NN	O	O
+all	NN	O	O
+the	NN	O	O
+following	NN	O	O
+simulations	NN	O	B-Task
+of	NN	O	I-Task
+liquid	NN	O	I-Task
+jet	NN	O	I-Task
+primary	NN	O	I-Task
+breakup	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0301932214001931)
+
+The	NN	O	O
+aim	NN	O	O
+of	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+is	NN	O	O
+to	NN	O	O
+investigate	NN	O	B-Task
+the	NN	O	I-Task
+influence	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+particle	NN	O	I-Task
+shape	NN	O	I-Task
+on	NN	O	I-Task
+interacting	NN	O	I-Task
+particles	NN	O	I-Task
+flowing	NN	O	I-Task
+in	NN	O	I-Task
+a	NN	O	I-Task
+horizontal	NN	O	I-Task
+turbulent	NN	O	I-Task
+channel	NN	O	I-Task
+flow	NN	O	I-Task
+,	NN	O	O
+for	NN	O	O
+particles	NN	O	B-Material
+with	NN	O	O
+a	NN	O	O
+significant	NN	O	O
+Stokes	NN	O	O
+number	NN	O	O
+.	NN	O	O
+To	NN	O	O
+achieve	NN	O	O
+this	NN	O	O
+,	NN	O	O
+large	NN	O	B-Process
+eddy	NN	O	I-Process
+simulations	NN	O	I-Process
+(	NN	O	O
+LES	NN	O	B-Process
+)	NN	O	O
+of	NN	O	O
+a	NN	O	O
+horizontal	NN	O	B-Process
+turbulent	NN	O	I-Process
+channel	NN	O	I-Process
+flow	NN	O	I-Process
+laden	NN	O	O
+with	NN	O	O
+five	NN	O	O
+different	NN	O	O
+particle	NN	O	B-Material
+shapes	NN	O	O
+,	NN	O	O
+incorporating	NN	O	O
+the	NN	O	O
+drag	NN	O	B-Process
+,	NN	O	I-Process
+lift	NN	O	I-Process
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+toque	NN	O	I-Process
+model	NN	O	I-Process
+derived	NN	O	O
+in	NN	O	O
+Zastawny	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+(	NN	O	O
+2012	NN	O	O
+)	NN	O	O
+,	NN	O	O
+are	NN	O	O
+performed	NN	O	O
+.	NN	O	O
+The	NN	O	O
+well	NN	O	O
+-	NN	O	O
+documented	NN	O	O
+horizontal	NN	O	B-Process
+channel	NN	O	I-Process
+flow	NN	O	I-Process
+case	NN	O	O
+described	NN	O	O
+in	NN	O	O
+Kussin	NN	O	O
+and	NN	O	O
+Sommerfeld	NN	O	O
+(	NN	O	O
+2002	NN	O	O
+)	NN	O	O
+,	NN	O	O
+who	NN	O	O
+study	NN	O	O
+spherical	NN	O	B-Material
+particles	NN	O	I-Material
+,	NN	O	O
+is	NN	O	O
+used	NN	O	O
+as	NN	O	O
+a	NN	O	O
+reference	NN	O	O
+case	NN	O	O
+.	NN	O	O
+The	NN	O	O
+measurements	NN	O	O
+in	NN	O	O
+their	NN	O	O
+work	NN	O	O
+was	NN	O	O
+done	NN	O	O
+with	NN	O	O
+phase	NN	O	B-Process
+Doppler	NN	O	I-Process
+anemometry	NN	O	I-Process
+(	NN	O	O
+PDA	NN	O	B-Process
+)	NN	O	O
+,	NN	O	O
+to	NN	O	O
+measure	NN	O	O
+the	NN	O	O
+fluid	NN	O	B-Material
+and	NN	O	O
+particle	NN	O	B-Material
+velocity	NN	O	O
+simultaneously	NN	O	O
+.	NN	O	O
+The	NN	O	O
+numerical	NN	O	B-Process
+framework	NN	O	I-Process
+applied	NN	O	O
+in	NN	O	O
+this	NN	O	O
+paper	NN	O	O
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+been	NN	O	O
+previously	NN	O	O
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+for	NN	O	O
+spherical	NN	O	B-Material
+particles	NN	O	I-Material
+in	NN	O	O
+Mallouppas	NN	O	O
+and	NN	O	O
+van	NN	O	O
+Wachem	NN	O	O
+(	NN	O	O
+2013	NN	O	O
+)	NN	O	O
+.	NN	O	O
+In	NN	O	O
+that	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+the	NN	O	O
+comprehensive	NN	O	B-Process
+discrete	NN	O	I-Process
+element	NN	O	I-Process
+model	NN	O	I-Process
+(	NN	O	O
+DEM	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+more	NN	O	O
+accurate	NN	O	O
+in	NN	O	O
+determining	NN	O	B-Task
+the	NN	O	I-Task
+behaviour	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+particles	NN	O	I-Task
+in	NN	O	I-Task
+this	NN	O	I-Task
+horizontal	NN	O	I-Task
+gas	NN	O	I-Task
+–	NN	O	I-Task
+solid	NN	O	I-Task
+channel	NN	O	I-Task
+flow	NN	O	I-Task
+that	NN	O	O
+the	NN	O	O
+hard	NN	O	B-Process
+-	NN	O	I-Process
+sphere	NN	O	I-Process
+model	NN	O	I-Process
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+showed	NN	O	O
+that	NN	O	O
+the	NN	O	O
+fluid	NN	O	B-Material
+mechanics	NN	O	O
+are	NN	O	O
+accurately	NN	O	O
+modelled	NN	O	O
+using	NN	O	O
+the	NN	O	O
+LES	NN	O	B-Process
+framework	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+current	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+this	NN	O	O
+framework	NN	O	O
+is	NN	O	O
+extended	NN	O	O
+to	NN	O	O
+account	NN	O	O
+for	NN	O	O
+non	NN	O	B-Material
+-	NN	O	I-Material
+spherical	NN	O	I-Material
+particles	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0378381215300297)
+
+The	NN	O	O
+Statistical	NN	O	B-Process
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+Theory	NN	O	I-Process
+(	NN	O	O
+SAFT	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+a	NN	O	O
+well	NN	O	O
+-	NN	O	O
+developed	NN	O	O
+perturbation	NN	O	B-Process
+theory	NN	O	I-Process
+used	NN	O	O
+to	NN	O	O
+describe	NN	O	O
+quantitatively	NN	O	O
+the	NN	O	O
+volumetric	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+fluids	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+reader	NN	O	O
+is	NN	O	O
+referred	NN	O	O
+to	NN	O	O
+several	NN	O	O
+reviews	NN	O	O
+on	NN	O	O
+the	NN	O	O
+topic	NN	O	O
+which	NN	O	O
+describe	NN	O	O
+the	NN	O	O
+various	NN	O	O
+stages	NN	O	O
+of	NN	O	O
+its	NN	O	O
+development	NN	O	O
+and	NN	O	O
+the	NN	O	O
+multiple	NN	O	O
+versions	NN	O	O
+available	NN	O	O
+[	NN	O	O
+50–53	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+difference	NN	O	O
+between	NN	O	O
+the	NN	O	O
+versions	NN	O	O
+is	NN	O	O
+in	NN	O	O
+the	NN	O	O
+underlying	NN	O	O
+intermolecular	NN	O	B-Process
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+employed	NN	O	O
+to	NN	O	O
+describe	NN	O	O
+the	NN	O	O
+unbounded	NN	O	B-Material
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+particles	NN	O	I-Material
+.	NN	O	O
+Hard	NN	O	B-Material
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+,	NN	O	O
+square	NN	O	B-Material
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+fluids	NN	O	I-Material
+,	NN	O	O
+LJ	NN	O	B-Material
+fluids	NN	O	I-Material
+,	NN	O	O
+argon	NN	O	B-Material
+,	NN	O	O
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+all	NN	O	O
+been	NN	O	O
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+as	NN	O	O
+reference	NN	O	B-Material
+fluids	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+different	NN	O	O
+incarnations	NN	O	O
+of	NN	O	O
+SAFT	NN	O	B-Process
+.	NN	O	O
+For	NN	O	O
+the	NN	O	O
+purpose	NN	O	O
+of	NN	O	O
+this	NN	O	O
+work	NN	O	O
+we	NN	O	O
+will	NN	O	O
+center	NN	O	O
+on	NN	O	O
+a	NN	O	O
+particular	NN	O	O
+version	NN	O	O
+of	NN	O	O
+the	NN	O	O
+SAFT	NN	O	B-Process
+EoS	NN	O	I-Process
+,	NN	O	O
+i.e.	NN	O	O
+the	NN	O	O
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+-	NN	O	I-Process
+VR	NN	O	I-Process
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+proposed	NN	O	O
+by	NN	O	O
+Laffitte	NN	O	O
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+.	NN	O	O
+[	NN	O	O
+54	NN	O	O
+]	NN	O	O
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+into	NN	O	O
+a	NN	O	O
+group	NN	O	B-Process
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+,	NN	O	O
+SAFT-γ	NN	O	B-Process
+,	NN	O	O
+by	NN	O	O
+Papaioannou	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+55	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+particular	NN	O	O
+version	NN	O	O
+of	NN	O	O
+SAFT	NN	O	B-Process
+provides	NN	O	O
+a	NN	O	O
+closed	NN	O	B-Process
+form	NN	O	I-Process
+EoS	NN	O	I-Process
+that	NN	O	O
+describes	NN	O	O
+the	NN	O	O
+macroscopical	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Mie	NN	O	B-Process
+potential	NN	O	I-Process
+[	NN	O	O
+56	NN	O	O
+]	NN	O	O
+,	NN	O	O
+also	NN	O	O
+known	NN	O	O
+as	NN	O	O
+the	NN	O	O
+(	NN	O	B-Process
+m	NN	O	I-Process
+,	NN	O	I-Process
+n	NN	O	I-Process
+)	NN	O	I-Process
+potential	NN	O	I-Process
+;	NN	O	O
+a	NN	O	O
+generalized	NN	O	O
+form	NN	O	O
+of	NN	O	O
+the	NN	O	O
+LJ	NN	O	B-Process
+potential	NN	O	I-Process
+(	NN	O	O
+albeit	NN	O	O
+predating	NN	O	O
+it	NN	O	O
+by	NN	O	O
+decades	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+Mie	NN	O	B-Process
+potential	NN	O	I-Process
+has	NN	O	O
+the	NN	O	O
+form(1)ϕ(r)=Cεσrλr−σrλawhere	NN	O	O
+C	NN	O	O
+is	NN	O	O
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+analytical	NN	O	O
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+of	NN	O	O
+the	NN	O	O
+repulsive	NN	O	O
+and	NN	O	O
+attractive	NN	O	O
+exponents	NN	O	O
+,	NN	O	O
+λa	NN	O	O
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+,	NN	O	O
+respectively	NN	O	O
+,	NN	O	O
+σ	NN	O	O
+is	NN	O	O
+a	NN	O	O
+parameter	NN	O	O
+that	NN	O	O
+defines	NN	O	O
+the	NN	O	O
+length	NN	O	O
+scale	NN	O	O
+and	NN	O	O
+is	NN	O	O
+loosely	NN	O	O
+related	NN	O	O
+to	NN	O	O
+the	NN	O	O
+average	NN	O	O
+diameter	NN	O	O
+of	NN	O	O
+a	NN	O	O
+Mie	NN	O	O
+bead	NN	O	B-Material
+;	NN	O	O
+ɛ	NN	O	O
+defines	NN	O	O
+the	NN	O	O
+energy	NN	O	O
+scale	NN	O	O
+and	NN	O	O
+corresponds	NN	O	O
+to	NN	O	O
+the	NN	O	O
+minimum	NN	O	O
+potential	NN	O	O
+energy	NN	O	O
+between	NN	O	O
+two	NN	O	O
+isolated	NN	O	O
+beads	NN	O	B-Material
+;	NN	O	O
+expressed	NN	O	O
+here	NN	O	O
+as	NN	O	O
+a	NN	O	O
+ratio	NN	O	O
+to	NN	O	O
+the	NN	O	O
+Boltzmann	NN	O	O
+constant	NN	O	O
+,	NN	O	O
+kB.	NN	O	O
+The	NN	O	O
+Mie	NN	O	O
+function	NN	O	O
+,	NN	O	O
+as	NN	O	O
+written	NN	O	O
+above	NN	O	O
+,	NN	O	O
+deceivingly	NN	O	O
+suggests	NN	O	O
+that	NN	O	O
+four	NN	O	O
+parameters	NN	O	O
+are	NN	O	O
+needed	NN	O	O
+to	NN	O	O
+characterize	NN	O	O
+the	NN	O	O
+behaviour	NN	O	O
+of	NN	O	O
+an	NN	O	O
+isotropic	NN	O	B-Material
+molecule	NN	O	I-Material
+,	NN	O	O
+however	NN	O	O
+the	NN	O	O
+exponents	NN	O	O
+λa	NN	O	O
+and	NN	O	O
+λr	NN	O	O
+are	NN	O	O
+intimately	NN	O	O
+related	NN	O	O
+,	NN	O	O
+and	NN	O	O
+for	NN	O	O
+fluid	NN	O	B-Material
+phase	NN	O	O
+equilibria	NN	O	O
+,	NN	O	O
+one	NN	O	O
+needs	NN	O	O
+not	NN	O	O
+consider	NN	O	O
+them	NN	O	O
+as	NN	O	O
+independent	NN	O	O
+parameters	NN	O	O
+[	NN	O	O
+57	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Accordingly	NN	O	O
+,	NN	O	O
+we	NN	O	O
+choose	NN	O	O
+herein	NN	O	O
+to	NN	O	O
+fix	NN	O	O
+the	NN	O	O
+attractive	NN	O	O
+exponent	NN	O	O
+to	NN	O	O
+λa=6	NN	O	O
+which	NN	O	O
+would	NN	O	O
+be	NN	O	O
+expected	NN	O	O
+to	NN	O	O
+be	NN	O	O
+representative	NN	O	O
+of	NN	O	O
+the	NN	O	O
+dispersion	NN	O	O
+scaling	NN	O	O
+of	NN	O	O
+most	NN	O	O
+simple	NN	O	B-Material
+fluids	NN	O	I-Material
+and	NN	O	O
+refer	NN	O	O
+from	NN	O	O
+here	NN	O	O
+on	NN	O	O
+to	NN	O	O
+the	NN	O	O
+repulsive	NN	O	O
+parameter	NN	O	O
+as	NN	O	O
+λ=λr	NN	O	O
+.	NN	O	O
+The	NN	O	O
+potential	NN	O	O
+simplifies	NN	O	O
+to(2)ϕ(r)=λλ−6λ66/(λ−6)εσrλ−σr6	NN	O	O
+
+-DOCSTART- (S1359028614000989)
+
+The	NN	O	O
+data	NN	O	B-Process
+acquisition	NN	O	I-Process
+strategies	NN	O	I-Process
+must	NN	O	O
+balance	NN	O	O
+the	NN	O	O
+relevant	NN	O	O
+scales	NN	O	O
+and	NN	O	O
+volumes	NN	O	O
+of	NN	O	O
+the	NN	O	O
+datasets	NN	O	O
+to	NN	O	O
+be	NN	O	O
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+physical	NN	O	B-Task
+and	NN	O	I-Task
+statistical	NN	O	I-Task
+modeling	NN	O	I-Task
+.	NN	O	O
+Approaches	NN	O	O
+for	NN	O	O
+extraction	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+necessary	NN	O	I-Task
+information	NN	O	I-Task
+must	NN	O	O
+be	NN	O	O
+able	NN	O	O
+to	NN	O	O
+disregard	NN	O	O
+spurious	NN	O	O
+information	NN	O	O
+,	NN	O	O
+so	NN	O	O
+as	NN	O	O
+to	NN	O	O
+develop	NN	O	O
+a	NN	O	O
+working	NN	O	O
+network	NN	O	B-Process
+of	NN	O	I-Process
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+for	NN	O	O
+each	NN	O	O
+active	NN	O	O
+mechanism	NN	O	O
+related	NN	O	O
+to	NN	O	O
+each	NN	O	O
+degradation	NN	O	O
+pathway	NN	O	O
+on	NN	O	O
+the	NN	O	O
+mesoscopic	NN	O	O
+physical	NN	O	O
+level	NN	O	O
+and	NN	O	O
+the	NN	O	O
+data	NN	O	O
+-	NN	O	O
+driven	NN	O	O
+statistical	NN	O	B-Process
+model	NN	O	I-Process
+level	NN	O	O
+.	NN	O	O
+To	NN	O	O
+capture	NN	O	B-Task
+the	NN	O	I-Task
+temporal	NN	O	I-Task
+evolution	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+energy	NN	O	B-Material
+material	NN	O	I-Material
+over	NN	O	O
+long	NN	O	O
+time	NN	O	O
+frames	NN	O	O
+,	NN	O	O
+appropriate	NN	O	B-Process
+informatics	NN	O	I-Process
+methods	NN	O	I-Process
+are	NN	O	O
+needed	NN	O	O
+to	NN	O	O
+balance	NN	O	O
+data	NN	O	O
+volume	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+simple	NN	O	O
+univariate	NN	O	B-Material
+time	NN	O	I-Material
+-	NN	O	I-Material
+series	NN	O	I-Material
+data	NN	O	I-Material
+streams	NN	O	I-Material
+with	NN	O	O
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+-	NN	O	I-Material
+dimensional	NN	O	I-Material
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+imaging	NN	O	I-Material
+datasets	NN	O	I-Material
+)	NN	O	O
+while	NN	O	O
+considering	NN	O	O
+their	NN	O	O
+respective	NN	O	O
+information	NN	O	O
+contents	NN	O	O
+[	NN	O	O
+68,69	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+raw	NN	O	O
+data	NN	O	O
+and	NN	O	O
+extracted	NN	O	O
+information	NN	O	O
+must	NN	O	O
+be	NN	O	O
+accessible	NN	O	O
+for	NN	O	O
+query	NN	O	B-Task
+and	NN	O	O
+modeling	NN	O	B-Task
+.	NN	O	O
+Similarly	NN	O	O
+,	NN	O	O
+the	NN	O	O
+modeling	NN	O	B-Process
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+used	NN	O	O
+to	NN	O	O
+understand	NN	O	O
+and	NN	O	O
+parameterize	NN	O	O
+active	NN	O	O
+mechanisms	NN	O	O
+and	NN	O	O
+phenomena	NN	O	O
+over	NN	O	O
+lifetime	NN	O	O
+fall	NN	O	O
+into	NN	O	O
+the	NN	O	O
+broad	NN	O	O
+categories	NN	O	O
+of	NN	O	O
+micro-	NN	O	B-Process
+,	NN	O	I-Process
+meso-	NN	O	I-Process
+and	NN	O	I-Process
+macroscopic	NN	O	I-Process
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+.	NN	O	O
+Laboratory	NN	O	B-Task
+and	NN	O	I-Task
+real	NN	O	I-Task
+-	NN	O	I-Task
+world	NN	O	I-Task
+experimentation	NN	O	I-Task
+,	NN	O	O
+informatics	NN	O	B-Task
+,	NN	O	O
+analytics	NN	O	B-Task
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+development	NN	O	B-Task
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+for	NN	O	O
+mesoscopic	NN	O	O
+evolution	NN	O	O
+of	NN	O	O
+energy	NN	O	B-Material
+materials	NN	O	I-Material
+over	NN	O	O
+lifetime	NN	O	O
+together	NN	O	O
+constitute	NN	O	O
+the	NN	O	O
+field	NN	O	O
+of	NN	O	O
+degradation	NN	O	B-Task
+science	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S1877750315000575)
+
+There	NN	O	O
+are	NN	O	O
+some	NN	O	O
+relevant	NN	O	O
+studies	NN	O	O
+on	NN	O	O
+information	NN	O	B-Task
+dissemination	NN	O	I-Task
+in	NN	O	I-Task
+transportation	NN	O	I-Task
+systems	NN	O	I-Task
+using	NN	O	O
+simulations	NN	O	B-Process
+.	NN	O	O
+One	NN	O	O
+category	NN	O	O
+of	NN	O	O
+studies	NN	O	O
+look	NN	O	O
+at	NN	O	O
+how	NN	O	O
+either	NN	O	O
+local	NN	O	O
+information	NN	O	O
+(	NN	O	O
+only	NN	O	O
+about	NN	O	O
+the	NN	O	O
+neighbours	NN	O	O
+)	NN	O	O
+or	NN	O	O
+global	NN	O	O
+information	NN	O	O
+(	NN	O	O
+about	NN	O	O
+the	NN	O	O
+entire	NN	O	O
+network	NN	O	O
+)	NN	O	O
+affects	NN	O	O
+the	NN	O	O
+global	NN	O	O
+network	NN	O	O
+performance	NN	O	O
+.	NN	O	O
+Our	NN	O	O
+approach	NN	O	O
+is	NN	O	O
+different	NN	O	O
+in	NN	O	O
+the	NN	O	O
+sense	NN	O	O
+that	NN	O	O
+we	NN	O	O
+investigate	NN	O	B-Process
+the	NN	O	I-Process
+impact	NN	O	I-Process
+of	NN	O	I-Process
+information	NN	O	I-Process
+on	NN	O	I-Process
+the	NN	O	I-Process
+global	NN	O	I-Process
+network	NN	O	I-Process
+performance	NN	O	I-Process
+depending	NN	O	O
+on	NN	O	O
+the	NN	O	O
+fraction	NN	O	O
+of	NN	O	O
+people	NN	O	O
+that	NN	O	O
+receive	NN	O	O
+information	NN	O	O
+.	NN	O	O
+We	NN	O	O
+analyse	NN	O	B-Task
+what	NN	O	I-Task
+is	NN	O	I-Task
+the	NN	O	I-Task
+effect	NN	O	I-Task
+of	NN	O	I-Task
+real	NN	O	I-Task
+time	NN	O	I-Task
+information	NN	O	I-Task
+dissemination	NN	O	I-Task
+and	NN	O	O
+explain	NN	O	O
+why	NN	O	O
+this	NN	O	O
+effect	NN	O	O
+appears	NN	O	O
+.	NN	O	O
+Information	NN	O	O
+is	NN	O	O
+disseminated	NN	O	O
+in	NN	O	O
+real	NN	O	O
+time	NN	O	O
+and	NN	O	O
+contains	NN	O	O
+global	NN	O	O
+details	NN	O	O
+about	NN	O	O
+how	NN	O	O
+congested	NN	O	O
+the	NN	O	O
+roads	NN	O	O
+are	NN	O	O
+.	NN	O	O
+This	NN	O	O
+approach	NN	O	O
+is	NN	O	O
+important	NN	O	O
+as	NN	O	O
+it	NN	O	O
+gives	NN	O	O
+insights	NN	O	O
+on	NN	O	O
+the	NN	O	O
+impact	NN	O	O
+that	NN	O	O
+massive	NN	O	B-Process
+use	NN	O	I-Process
+of	NN	O	I-Process
+real	NN	O	I-Process
+-	NN	O	I-Process
+time	NN	O	I-Process
+information	NN	O	I-Process
+can	NN	O	O
+have	NN	O	O
+on	NN	O	O
+traffic	NN	O	O
+.	NN	O	O
+This	NN	O	O
+can	NN	O	O
+be	NN	O	O
+useful	NN	O	O
+for	NN	O	O
+building	NN	O	B-Task
+more	NN	O	I-Task
+intelligent	NN	O	I-Task
+traffic	NN	O	I-Task
+control	NN	O	I-Task
+mechanisms	NN	O	I-Task
+where	NN	O	O
+information	NN	O	O
+is	NN	O	O
+a	NN	O	O
+steering	NN	O	O
+tool	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1877750315300119)
+
+Generalized	NN	O	B-Process
+polynomial	NN	O	I-Process
+chaos	NN	O	I-Process
+expansions	NN	O	I-Process
+.	NN	O	O
+One	NN	O	O
+approach	NN	O	O
+to	NN	O	O
+model	NN	O	B-Task
+densities	NN	O	I-Task
+with	NN	O	O
+stochastically	NN	O	O
+dependent	NN	O	O
+components	NN	O	O
+numerically	NN	O	O
+,	NN	O	O
+is	NN	O	O
+to	NN	O	O
+reformulate	NN	O	O
+the	NN	O	O
+uncertainty	NN	O	B-Task
+problem	NN	O	I-Task
+as	NN	O	O
+a	NN	O	O
+set	NN	O	O
+of	NN	O	O
+independent	NN	O	O
+components	NN	O	O
+through	NN	O	O
+generalised	NN	O	B-Process
+polynomial	NN	O	I-Process
+chaos	NN	O	I-Process
+expansion	NN	O	I-Process
+[	NN	O	O
+34	NN	O	O
+]	NN	O	O
+.	NN	O	O
+As	NN	O	O
+described	NN	O	O
+in	NN	O	O
+detail	NN	O	O
+in	NN	O	O
+Section	NN	O	O
+3.1	NN	O	O
+,	NN	O	O
+a	NN	O	O
+Rosenblatt	NN	O	B-Process
+transformation	NN	O	I-Process
+allows	NN	O	O
+for	NN	O	O
+the	NN	O	O
+mapping	NN	O	O
+between	NN	O	O
+any	NN	O	O
+domain	NN	O	O
+and	NN	O	O
+the	NN	O	O
+unit	NN	O	O
+hypercube	NN	O	O
+[	NN	O	O
+0	NN	O	O
+,	NN	O	O
+1]D.	NN	O	O
+With	NN	O	O
+a	NN	O	O
+double	NN	O	O
+transformation	NN	O	O
+we	NN	O	O
+can	NN	O	O
+reformulate	NN	O	O
+the	NN	O	O
+response	NN	O	O
+function	NN	O	O
+f	NN	O	O
+asf(x	NN	O	O
+,	NN	O	O
+t	NN	O	O
+,	NN	O	O
+Q)=f(x	NN	O	O
+,	NN	O	O
+t	NN	O	O
+,	NN	O	O
+TQ−1(TR(R)))≈fˆ(x	NN	O	O
+,	NN	O	O
+t	NN	O	O
+,	NN	O	O
+R)=∑n∈INcn(x	NN	O	O
+,	NN	O	O
+t)Φn(R),where	NN	O	O
+R	NN	O	O
+is	NN	O	O
+any	NN	O	O
+random	NN	O	O
+variable	NN	O	O
+drawn	NN	O	O
+from	NN	O	O
+pR	NN	O	O
+,	NN	O	O
+which	NN	O	O
+for	NN	O	O
+simplicity	NN	O	O
+is	NN	O	O
+chosen	NN	O	O
+to	NN	O	O
+consists	NN	O	O
+of	NN	O	O
+independent	NN	O	O
+components	NN	O	O
+.	NN	O	O
+Also	NN	O	O
+,	NN	O	O
+{	NN	O	O
+Φn}n∈IN	NN	O	O
+is	NN	O	O
+constructed	NN	O	O
+to	NN	O	O
+be	NN	O	O
+orthogonal	NN	O	O
+with	NN	O	O
+respect	NN	O	O
+to	NN	O	O
+LR	NN	O	O
+,	NN	O	O
+not	NN	O	O
+LQ	NN	O	O
+.	NN	O	O
+In	NN	O	O
+any	NN	O	O
+case	NN	O	O
+,	NN	O	O
+R	NN	O	O
+is	NN	O	O
+either	NN	O	O
+selected	NN	O	O
+from	NN	O	O
+the	NN	O	O
+Askey	NN	O	B-Process
+-	NN	O	I-Process
+Wilson	NN	O	I-Process
+scheme	NN	O	I-Process
+,	NN	O	O
+or	NN	O	O
+calculated	NN	O	O
+using	NN	O	O
+the	NN	O	O
+discretized	NN	O	B-Process
+Stieltjes	NN	O	I-Process
+procedure	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+remark	NN	O	O
+that	NN	O	O
+the	NN	O	O
+accuracy	NN	O	O
+of	NN	O	O
+the	NN	O	O
+approximation	NN	O	O
+deteriorate	NN	O	O
+if	NN	O	O
+the	NN	O	O
+transformation	NN	O	O
+composition	NN	O	O
+TQ−1∘TR	NN	O	O
+is	NN	O	O
+not	NN	O	O
+smooth	NN	O	O
+[	NN	O	O
+34	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Dakota	NN	O	O
+,	NN	O	O
+Turns	NN	O	O
+,	NN	O	O
+and	NN	O	O
+Chaospy	NN	O	O
+all	NN	O	O
+support	NN	O	O
+generalized	NN	O	B-Process
+polynomial	NN	O	I-Process
+chaos	NN	O	I-Process
+expansions	NN	O	I-Process
+for	NN	O	O
+independent	NN	O	O
+stochastic	NN	O	O
+variables	NN	O	O
+and	NN	O	O
+the	NN	O	O
+Normal	NN	O	O
+/	NN	O	O
+Nataf	NN	O	O
+copula	NN	O	O
+listed	NN	O	O
+in	NN	O	O
+Table	NN	O	O
+2	NN	O	O
+.	NN	O	O
+Since	NN	O	O
+Chaospy	NN	O	O
+has	NN	O	O
+the	NN	O	O
+Rosenblatt	NN	O	B-Process
+transformation	NN	O	I-Process
+underlying	NN	O	O
+the	NN	O	O
+computational	NN	O	B-Material
+framework	NN	O	I-Material
+,	NN	O	O
+generalized	NN	O	B-Process
+polynomial	NN	O	I-Process
+chaos	NN	O	I-Process
+expansions	NN	O	I-Process
+are	NN	O	O
+in	NN	O	O
+fact	NN	O	O
+available	NN	O	O
+for	NN	O	O
+all	NN	O	O
+densities	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2352179115300041)
+
+The	NN	O	O
+main	NN	O	O
+drawback	NN	O	O
+of	NN	O	O
+thermo	NN	O	B-Process
+-	NN	O	I-Process
+oxidation	NN	O	I-Process
+in	NN	O	O
+most	NN	O	O
+actual	NN	O	O
+devices	NN	O	O
+and	NN	O	O
+ITER	NN	O	B-Material
+is	NN	O	O
+its	NN	O	O
+limitation	NN	O	O
+to	NN	O	O
+maintenance	NN	O	O
+periods	NN	O	O
+,	NN	O	O
+when	NN	O	O
+the	NN	O	O
+vessel	NN	O	B-Material
+walls	NN	O	O
+can	NN	O	O
+be	NN	O	O
+heated	NN	O	O
+up	NN	O	O
+around	NN	O	O
+300–400	NN	O	O
+°	NN	O	O
+C	NN	O	O
+by	NN	O	O
+hot	NN	O	O
+helium	NN	O	B-Material
+injection	NN	O	O
+through	NN	O	O
+the	NN	O	O
+cooling	NN	O	B-Material
+system	NN	O	I-Material
+[	NN	O	O
+19,20	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+also	NN	O	O
+because	NN	O	O
+of	NN	O	O
+the	NN	O	O
+required	NN	O	O
+reconditioning	NN	O	B-Task
+of	NN	O	O
+the	NN	O	O
+walls	NN	O	O
+before	NN	O	O
+plasma	NN	O	B-Task
+operation	NN	O	I-Task
+to	NN	O	O
+remove	NN	O	O
+the	NN	O	O
+absorbed	NN	O	O
+oxygen	NN	O	B-Material
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+temperature	NN	O	O
+achieved	NN	O	O
+is	NN	O	O
+not	NN	O	O
+homogeneous	NN	O	O
+over	NN	O	O
+the	NN	O	O
+vessel	NN	O	B-Material
+,	NN	O	O
+as	NN	O	O
+it	NN	O	O
+is	NN	O	O
+limited	NN	O	O
+to	NN	O	O
+the	NN	O	O
+distance	NN	O	O
+to	NN	O	O
+the	NN	O	O
+cooling	NN	O	B-Material
+tubes	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+thus	NN	O	O
+to	NN	O	O
+the	NN	O	O
+device	NN	O	O
+design	NN	O	O
+.	NN	O	O
+The	NN	O	O
+analysis	NN	O	O
+of	NN	O	O
+this	NN	O	O
+study	NN	O	O
+is	NN	O	O
+a	NN	O	O
+continuation	NN	O	O
+of	NN	O	O
+previous	NN	O	O
+works	NN	O	O
+done	NN	O	O
+for	NN	O	O
+the	NN	O	O
+treatment	NN	O	B-Task
+of	NN	O	I-Task
+ITER	NN	O	I-Task
+carbon	NN	O	I-Task
+co	NN	O	I-Task
+-	NN	O	I-Task
+deposits	NN	O	I-Task
+[	NN	O	O
+1–3	NN	O	O
+]	NN	O	O
+,	NN	O	O
+so	NN	O	O
+the	NN	O	O
+temperatures	NN	O	O
+studied	NN	O	O
+are	NN	O	O
+in	NN	O	O
+the	NN	O	O
+range	NN	O	O
+of	NN	O	O
+350	NN	O	O
+°	NN	O	O
+C	NN	O	O
+for	NN	O	O
+divertor	NN	O	B-Material
+and	NN	O	O
+200–275	NN	O	O
+°	NN	O	O
+C	NN	O	O
+for	NN	O	O
+main	NN	O	B-Material
+wall	NN	O	I-Material
+and	NN	O	O
+remote	NN	O	B-Material
+parts	NN	O	I-Material
+.	NN	O	O
+At	NN	O	O
+present	NN	O	O
+,	NN	O	O
+due	NN	O	O
+to	NN	O	O
+budget	NN	O	O
+restrains	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+due	NN	O	O
+to	NN	O	O
+tritium	NN	O	B-Material
+trapped	NN	O	O
+in	NN	O	O
+co	NN	O	O
+-	NN	O	O
+deposited	NN	O	O
+carbon	NN	O	B-Material
+layers	NN	O	I-Material
+,	NN	O	O
+ITER	NN	O	B-Material
+will	NN	O	O
+not	NN	O	O
+use	NN	O	O
+carbon	NN	O	B-Material
+materials	NN	O	I-Material
+at	NN	O	O
+the	NN	O	O
+divertor	NN	O	B-Material
+strike	NN	O	O
+points	NN	O	O
+in	NN	O	O
+spite	NN	O	O
+of	NN	O	O
+their	NN	O	O
+excellent	NN	O	O
+resilience	NN	O	O
+against	NN	O	O
+large	NN	O	O
+heat	NN	O	O
+loads	NN	O	O
+.	NN	O	O
+Nevertheless	NN	O	O
+,	NN	O	O
+many	NN	O	O
+present	NN	O	O
+experimental	NN	O	O
+nuclear	NN	O	B-Material
+fusion	NN	O	I-Material
+devices	NN	O	I-Material
+(	NN	O	O
+DIII	NN	O	B-Material
+-	NN	O	I-Material
+D	NN	O	I-Material
+,	NN	O	O
+TCV	NN	O	B-Material
+,	NN	O	O
+etc	NN	O	O
+.	NN	O	O
+)	NN	O	O
+and	NN	O	O
+new	NN	O	O
+ones	NN	O	O
+(	NN	O	O
+JT-60SA	NN	O	B-Material
+,	NN	O	O
+KSTAR	NN	O	B-Material
+,	NN	O	O
+Wenderstein-7X	NN	O	B-Material
+)	NN	O	O
+use	NN	O	O
+carbon	NN	O	B-Material
+elements	NN	O	I-Material
+,	NN	O	O
+so	NN	O	O
+the	NN	O	O
+removal	NN	O	B-Task
+of	NN	O	I-Task
+carbon	NN	O	I-Task
+co	NN	O	I-Task
+-	NN	O	I-Task
+deposits	NN	O	I-Task
+is	NN	O	O
+still	NN	O	O
+necessary	NN	O	O
+for	NN	O	O
+a	NN	O	O
+better	NN	O	O
+device	NN	O	O
+operation	NN	O	O
+—	NN	O	O
+plasma	NN	O	B-Task
+density	NN	O	I-Task
+control	NN	O	I-Task
+,	NN	O	O
+dust	NN	O	B-Material
+events	NN	O	O
+,	NN	O	O
+etc	NN	O	O
+.	NN	O	O
+The	NN	O	O
+temperatures	NN	O	O
+used	NN	O	O
+in	NN	O	O
+this	NN	O	O
+work	NN	O	O
+are	NN	O	O
+not	NN	O	O
+very	NN	O	O
+different	NN	O	O
+from	NN	O	O
+the	NN	O	O
+ones	NN	O	O
+achievable	NN	O	O
+in	NN	O	O
+present	NN	O	O
+devices	NN	O	O
+,	NN	O	O
+such	NN	O	O
+that	NN	O	O
+the	NN	O	O
+results	NN	O	O
+can	NN	O	O
+be	NN	O	O
+extrapolated	NN	O	O
+to	NN	O	O
+them	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+even	NN	O	O
+for	NN	O	O
+ITER	NN	O	B-Material
+this	NN	O	O
+study	NN	O	O
+could	NN	O	O
+be	NN	O	O
+useful	NN	O	O
+if	NN	O	O
+carbon	NN	O	B-Material
+materials	NN	O	I-Material
+have	NN	O	O
+to	NN	O	O
+be	NN	O	O
+eventually	NN	O	O
+installed	NN	O	O
+in	NN	O	O
+the	NN	O	O
+case	NN	O	O
+that	NN	O	O
+operation	NN	O	O
+with	NN	O	O
+tungsten	NN	O	B-Material
+tiles	NN	O	I-Material
+at	NN	O	O
+the	NN	O	O
+strike	NN	O	O
+points	NN	O	O
+is	NN	O	O
+precluded	NN	O	O
+by	NN	O	O
+unexpected	NN	O	O
+reasons	NN	O	O
+.	NN	O	O
+
diff --git a/data/ner/semeval2017/test.txt b/data/ner/semeval2017/test.txt
new file mode 100644
index 0000000..678e7de
--- /dev/null
+++ b/data/ner/semeval2017/test.txt
@@ -0,0 +1,22516 @@
+-DOCSTART- (S0010482516301810)
+
+Three	NN	O	B-Process
+-	NN	O	I-Process
+dimensional	NN	O	I-Process
+digital	NN	O	I-Process
+subtraction	NN	O	I-Process
+angiographic	NN	O	I-Process
+(	NN	O	O
+3D	NN	O	B-Process
+-	NN	O	I-Process
+DSA	NN	O	I-Process
+)	NN	O	O
+images	NN	O	O
+from	NN	O	O
+diagnostic	NN	O	O
+cerebral	NN	O	B-Process
+angiography	NN	O	I-Process
+were	NN	O	O
+obtained	NN	O	O
+at	NN	O	O
+least	NN	O	O
+one	NN	O	O
+day	NN	O	O
+prior	NN	O	O
+to	NN	O	O
+embolization	NN	O	B-Process
+in	NN	O	O
+all	NN	O	O
+patients	NN	O	O
+.	NN	O	O
+The	NN	O	O
+raw	NN	O	O
+data	NN	O	O
+of	NN	O	O
+3D	NN	O	B-Process
+-	NN	O	I-Process
+DSA	NN	O	I-Process
+in	NN	O	O
+a	NN	O	O
+DICOM	NN	O	B-Material
+file	NN	O	I-Material
+were	NN	O	O
+used	NN	O	O
+for	NN	O	O
+creating	NN	O	B-Task
+a	NN	O	I-Task
+3D	NN	O	I-Task
+model	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+target	NN	O	I-Task
+vessel	NN	O	I-Task
+segment	NN	O	I-Task
+.	NN	O	O
+These	NN	O	O
+data	NN	O	O
+were	NN	O	O
+converted	NN	O	O
+to	NN	O	O
+standard	NN	O	B-Process
+triangulation	NN	O	I-Process
+language	NN	O	I-Process
+(	NN	O	O
+STL	NN	O	B-Process
+)	NN	O	O
+surface	NN	O	O
+data	NN	O	O
+as	NN	O	O
+an	NN	O	O
+aggregation	NN	O	O
+of	NN	O	O
+fine	NN	O	O
+triangular	NN	O	B-Material
+meshes	NN	O	I-Material
+using	NN	O	O
+3D	NN	O	B-Material
+visualization	NN	O	I-Material
+and	NN	O	I-Material
+measurement	NN	O	I-Material
+software	NN	O	I-Material
+(	NN	O	O
+Amira	NN	O	B-Material
+version	NN	O	I-Material
+X	NN	O	I-Material
+,	NN	O	O
+FEI	NN	O	O
+,	NN	O	O
+Burlington	NN	O	O
+,	NN	O	O
+MA	NN	O	O
+,	NN	O	O
+USA	NN	O	O
+)	NN	O	O
+.	NN	O	O
+An	NN	O	O
+unstructured	NN	O	O
+computational	NN	O	B-Material
+volumetric	NN	O	I-Material
+mesh	NN	O	I-Material
+was	NN	O	O
+constructed	NN	O	O
+from	NN	O	O
+the	NN	O	O
+triangulated	NN	O	B-Material
+surface	NN	O	I-Material
+.	NN	O	O
+Smoothing	NN	O	B-Process
+and	NN	O	O
+remeshing	NN	O	B-Process
+followed	NN	O	O
+as	NN	O	O
+next	NN	O	O
+steps	NN	O	O
+.	NN	O	O
+The	NN	O	O
+STL	NN	O	B-Material
+file	NN	O	I-Material
+was	NN	O	O
+then	NN	O	O
+transferred	NN	O	O
+to	NN	O	O
+a	NN	O	O
+3D	NN	O	B-Material
+printer	NN	O	I-Material
+(	NN	O	O
+OBJET30	NN	O	B-Material
+Pro	NN	O	I-Material
+;	NN	O	O
+Stratasys	NN	O	O
+Ltd.	NN	O	O
+,	NN	O	O
+Eden	NN	O	O
+Prairie	NN	O	O
+,	NN	O	O
+MN	NN	O	O
+,	NN	O	O
+USA	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+resolution	NN	O	O
+of	NN	O	O
+the	NN	O	O
+build	NN	O	O
+layer	NN	O	O
+was	NN	O	O
+0.028	NN	O	O
+mm	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+3D	NN	O	O
+printed	NN	O	O
+vessel	NN	O	O
+model	NN	O	O
+was	NN	O	O
+produced	NN	O	O
+using	NN	O	O
+acrylic	NN	O	B-Material
+resin	NN	O	I-Material
+(	NN	O	O
+Vero	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+Following	NN	O	O
+immersion	NN	O	B-Process
+in	NN	O	I-Process
+water	NN	O	I-Process
+for	NN	O	O
+a	NN	O	O
+few	NN	O	O
+hours	NN	O	O
+,	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+of	NN	O	O
+the	NN	O	O
+3D	NN	O	B-Material
+printed	NN	O	I-Material
+model	NN	O	I-Material
+was	NN	O	O
+smoothed	NN	O	B-Process
+by	NN	O	O
+manually	NN	O	O
+removing	NN	O	B-Process
+spicule	NN	O	I-Process
+.	NN	O	I-Process
+
+-DOCSTART- (S0010938X15301268)
+
+Fig	NN	O	O
+.	NN	O	O
+9	NN	O	O
+displays	NN	O	O
+the	NN	O	O
+growth	NN	O	O
+of	NN	O	O
+two	NN	O	O
+of	NN	O	O
+the	NN	O	O
+main	NN	O	O
+corrosion	NN	O	B-Material
+products	NN	O	I-Material
+that	NN	O	O
+develop	NN	O	O
+or	NN	O	O
+form	NN	O	O
+on	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+of	NN	O	O
+Cu40Zn	NN	O	B-Material
+with	NN	O	O
+time	NN	O	O
+,	NN	O	O
+hydrozincite	NN	O	B-Material
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+9a	NN	O	O
+)	NN	O	O
+and	NN	O	O
+Cu2O	NN	O	B-Material
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+9b	NN	O	O
+)	NN	O	O
+.	NN	O	O
+It	NN	O	O
+should	NN	O	O
+be	NN	O	O
+remembered	NN	O	O
+that	NN	O	O
+both	NN	O	O
+phases	NN	O	O
+were	NN	O	O
+present	NN	O	O
+already	NN	O	O
+from	NN	O	O
+start	NN	O	O
+of	NN	O	O
+the	NN	O	O
+exposure	NN	O	O
+.	NN	O	O
+The	NN	O	O
+data	NN	O	O
+is	NN	O	O
+presented	NN	O	O
+in	NN	O	O
+absorbance	NN	O	B-Process
+units	NN	O	I-Process
+and	NN	O	O
+allows	NN	O	O
+comparisons	NN	O	B-Task
+to	NN	O	I-Task
+be	NN	O	I-Task
+made	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+amounts	NN	O	I-Task
+of	NN	O	I-Task
+each	NN	O	I-Task
+species	NN	O	I-Task
+between	NN	O	I-Task
+the	NN	O	I-Task
+two	NN	O	I-Task
+Cu40Zn	NN	O	I-Task
+surfaces	NN	O	I-Task
+investigated	NN	O	I-Task
+,	NN	O	O
+DP	NN	O	B-Material
+and	NN	O	O
+HZ7	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+tendency	NN	O	O
+is	NN	O	O
+very	NN	O	O
+clear	NN	O	O
+that	NN	O	O
+the	NN	O	O
+formation	NN	O	B-Process
+rates	NN	O	I-Process
+of	NN	O	O
+both	NN	O	O
+hydrozincite	NN	O	B-Material
+and	NN	O	O
+cuprite	NN	O	B-Material
+are	NN	O	O
+quite	NN	O	O
+suppressed	NN	O	O
+for	NN	O	O
+Cu40Zn	NN	O	B-Material
+with	NN	O	O
+preformed	NN	O	O
+hydrozincite	NN	O	B-Material
+(	NN	O	O
+HZ7	NN	O	B-Material
+)	NN	O	O
+compared	NN	O	O
+to	NN	O	O
+the	NN	O	O
+diamond	NN	O	B-Material
+polished	NN	O	I-Material
+surface	NN	O	I-Material
+(	NN	O	O
+DP	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+In	NN	O	O
+summary	NN	O	O
+,	NN	O	O
+without	NN	O	O
+being	NN	O	O
+able	NN	O	O
+to	NN	O	O
+consider	NN	O	O
+the	NN	O	O
+formation	NN	O	B-Process
+of	NN	O	I-Process
+simonkolleite	NN	O	I-Process
+,	NN	O	O
+it	NN	O	O
+can	NN	O	O
+be	NN	O	O
+concluded	NN	O	O
+that	NN	O	O
+an	NN	O	O
+increased	NN	O	O
+surface	NN	O	O
+coverage	NN	O	O
+of	NN	O	O
+hydrozincite	NN	O	B-Material
+reduces	NN	O	O
+the	NN	O	O
+initial	NN	O	B-Process
+spreading	NN	O	I-Process
+ability	NN	O	O
+of	NN	O	O
+the	NN	O	O
+NaCl	NN	O	B-Material
+-	NN	O	I-Material
+containing	NN	O	I-Material
+droplets	NN	O	I-Material
+and	NN	O	O
+thereby	NN	O	O
+lowers	NN	O	O
+the	NN	O	O
+overall	NN	O	O
+formation	NN	O	B-Process
+rate	NN	O	I-Process
+of	NN	O	O
+hydrozincite	NN	O	B-Material
+and	NN	O	O
+cuprite	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S0010938X15301554)
+
+AA	NN	O	B-Material
+2024-T3	NN	O	I-Material
+aluminium	NN	O	I-Material
+alloy	NN	O	I-Material
+is	NN	O	O
+widely	NN	O	O
+used	NN	O	O
+for	NN	O	O
+aerospace	NN	O	B-Task
+applications	NN	O	I-Task
+due	NN	O	O
+to	NN	O	O
+its	NN	O	O
+high	NN	O	O
+strength	NN	O	O
+to	NN	O	O
+weight	NN	O	O
+ratio	NN	O	O
+and	NN	O	O
+high	NN	O	O
+damage	NN	O	O
+tolerance	NN	O	O
+that	NN	O	O
+result	NN	O	O
+from	NN	O	O
+copper	NN	O	B-Material
+and	NN	O	O
+magnesium	NN	O	B-Material
+as	NN	O	O
+the	NN	O	O
+principal	NN	O	O
+alloying	NN	O	B-Material
+elements	NN	O	I-Material
+and	NN	O	O
+appropriate	NN	O	O
+thermomechanical	NN	O	B-Process
+processing	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+microstructure	NN	O	O
+of	NN	O	O
+the	NN	O	O
+alloy	NN	O	B-Material
+is	NN	O	O
+relatively	NN	O	O
+complex	NN	O	O
+and	NN	O	O
+a	NN	O	O
+number	NN	O	O
+of	NN	O	O
+compositionally	NN	O	B-Process
+-	NN	O	I-Process
+distinct	NN	O	I-Process
+phases	NN	O	I-Process
+have	NN	O	O
+been	NN	O	O
+identified	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Although	NN	O	O
+possessing	NN	O	O
+favourable	NN	O	O
+mechanical	NN	O	O
+properties	NN	O	O
+,	NN	O	O
+the	NN	O	O
+alloy	NN	O	B-Material
+is	NN	O	O
+relatively	NN	O	O
+susceptible	NN	O	O
+to	NN	O	O
+corrosion	NN	O	B-Process
+and	NN	O	O
+generally	NN	O	O
+requires	NN	O	O
+surface	NN	O	B-Process
+treatment	NN	O	I-Process
+in	NN	O	O
+practical	NN	O	O
+applications	NN	O	O
+.	NN	O	O
+The	NN	O	O
+corrosion	NN	O	B-Process
+behaviour	NN	O	O
+of	NN	O	O
+the	NN	O	O
+alloy	NN	O	B-Material
+is	NN	O	O
+particularly	NN	O	O
+affected	NN	O	O
+by	NN	O	O
+the	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+the	NN	O	O
+intermetallic	NN	O	B-Material
+particles	NN	O	I-Material
+due	NN	O	O
+to	NN	O	O
+their	NN	O	O
+differing	NN	O	O
+potentials	NN	O	O
+with	NN	O	O
+respect	NN	O	O
+to	NN	O	O
+the	NN	O	O
+alloy	NN	O	B-Material
+matrix	NN	O	I-Material
+[	NN	O	O
+2–9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Copper	NN	O	B-Material
+-	NN	O	I-Material
+containing	NN	O	I-Material
+second	NN	O	I-Material
+phase	NN	O	I-Material
+particles	NN	O	I-Material
+at	NN	O	O
+the	NN	O	O
+alloy	NN	O	B-Material
+surface	NN	O	O
+are	NN	O	O
+particularly	NN	O	O
+detrimental	NN	O	O
+to	NN	O	O
+the	NN	O	O
+corrosion	NN	O	B-Process
+resistance	NN	O	I-Process
+as	NN	O	O
+they	NN	O	O
+provide	NN	O	O
+preferential	NN	O	O
+cathodic	NN	O	O
+sites	NN	O	O
+[	NN	O	O
+2,10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+One	NN	O	O
+of	NN	O	O
+the	NN	O	O
+principle	NN	O	O
+types	NN	O	O
+of	NN	O	O
+second	NN	O	B-Material
+phase	NN	O	I-Material
+particle	NN	O	I-Material
+that	NN	O	O
+is	NN	O	O
+important	NN	O	O
+to	NN	O	O
+the	NN	O	O
+corrosion	NN	O	B-Process
+behaviour	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+alloy	NN	O	O
+is	NN	O	O
+the	NN	O	O
+S	NN	O	B-Material
+phase	NN	O	I-Material
+(	NN	O	O
+Al2CuMg	NN	O	B-Material
+)	NN	O	O
+particle	NN	O	O
+[	NN	O	O
+1,11	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Dealloying	NN	O	O
+of	NN	O	O
+S	NN	O	B-Material
+phase	NN	O	I-Material
+particles	NN	O	I-Material
+,	NN	O	O
+which	NN	O	O
+may	NN	O	O
+account	NN	O	O
+for	NN	O	O
+∼60	NN	O	O
+%	NN	O	O
+of	NN	O	O
+the	NN	O	O
+constituent	NN	O	B-Material
+particles	NN	O	I-Material
+in	NN	O	O
+AA2024	NN	O	B-Material
+alloys	NN	O	I-Material
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+,	NN	O	O
+is	NN	O	O
+commonly	NN	O	O
+observed	NN	O	O
+when	NN	O	O
+the	NN	O	O
+alloy	NN	O	B-Material
+is	NN	O	O
+exposed	NN	O	O
+to	NN	O	O
+an	NN	O	O
+aggressive	NN	O	O
+environment	NN	O	O
+.	NN	O	O
+The	NN	O	O
+particles	NN	O	B-Material
+are	NN	O	O
+considered	NN	O	O
+as	NN	O	O
+important	NN	O	O
+initiation	NN	O	O
+sites	NN	O	O
+for	NN	O	O
+severe	NN	O	O
+localized	NN	O	O
+corrosion	NN	O	B-Process
+in	NN	O	O
+the	NN	O	O
+alloy	NN	O	B-Material
+[	NN	O	O
+11–22	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+dealloying	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+S	NN	O	B-Material
+phase	NN	O	I-Material
+particles	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+resulting	NN	O	O
+enrichment	NN	O	B-Process
+of	NN	O	O
+copper	NN	O	B-Material
+result	NN	O	O
+in	NN	O	O
+a	NN	O	O
+decrease	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+Volta	NN	O	I-Process
+potential	NN	O	I-Process
+with	NN	O	O
+respect	NN	O	O
+to	NN	O	O
+the	NN	O	O
+matrix	NN	O	O
+and	NN	O	O
+hence	NN	O	O
+the	NN	O	O
+dealloyed	NN	O	B-Material
+particles	NN	O	I-Material
+become	NN	O	O
+active	NN	O	O
+cathodic	NN	O	B-Material
+sites	NN	O	I-Material
+[	NN	O	O
+23–25	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0011227514002136)
+
+Measuring	NN	O	B-Task
+and	NN	O	I-Task
+analysing	NN	O	I-Task
+the	NN	O	I-Task
+hold	NN	O	I-Task
+time	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+CPA	NN	O	I-Task
+pill	NN	O	I-Task
+allows	NN	O	O
+the	NN	O	O
+thermal	NN	O	B-Process
+boundary	NN	O	I-Process
+resistance	NN	O	I-Process
+within	NN	O	O
+the	NN	O	O
+pill	NN	O	B-Material
+to	NN	O	O
+be	NN	O	O
+assessed	NN	O	O
+;	NN	O	O
+the	NN	O	O
+thermal	NN	O	B-Process
+boundary	NN	O	I-Process
+dictates	NN	O	O
+the	NN	O	O
+actual	NN	O	O
+temperature	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+CPA	NN	O	B-Material
+crystals	NN	O	I-Material
+in	NN	O	O
+comparison	NN	O	O
+to	NN	O	O
+the	NN	O	O
+temperature	NN	O	O
+of	NN	O	O
+the	NN	O	O
+cold	NN	O	B-Material
+finger	NN	O	I-Material
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
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+a	NN	O	O
+constant	NN	O	O
+temperature	NN	O	O
+by	NN	O	O
+a	NN	O	O
+servo	NN	O	B-Process
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+.	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+17	NN	O	O
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+the	NN	O	O
+temperature	NN	O	O
+profile	NN	O	O
+during	NN	O	O
+the	NN	O	O
+recycling	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+CPA	NN	O	B-Material
+pill	NN	O	I-Material
+and	NN	O	O
+subsequent	NN	O	O
+operation	NN	O	B-Process
+at	NN	O	I-Process
+200mK.	NN	O	I-Process
+During	NN	O	O
+the	NN	O	O
+hold	NN	O	O
+time	NN	O	O
+,	NN	O	O
+the	NN	O	O
+servo	NN	O	B-Process
+control	NN	O	I-Process
+program	NN	O	I-Process
+maintained	NN	O	O
+the	NN	O	O
+CPA	NN	O	B-Material
+pill	NN	O	I-Material
+temperature	NN	O	O
+to	NN	O	O
+within	NN	O	O
+a	NN	O	O
+millikelvin	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+expected	NN	O	O
+that	NN	O	O
+microkelvin	NN	O	B-Process
+stability	NN	O	I-Process
+can	NN	O	O
+be	NN	O	O
+achieved	NN	O	O
+with	NN	O	O
+fast	NN	O	B-Process
+read	NN	O	I-Process
+-	NN	O	I-Process
+out	NN	O	I-Process
+thermometry	NN	O	I-Process
+(	NN	O	O
+which	NN	O	O
+was	NN	O	O
+not	NN	O	O
+available	NN	O	O
+at	NN	O	O
+the	NN	O	O
+time	NN	O	O
+of	NN	O	O
+testing	NN	O	O
+but	NN	O	O
+which	NN	O	O
+will	NN	O	O
+be	NN	O	O
+used	NN	O	O
+for	NN	O	O
+the	NN	O	O
+mKCC	NN	O	B-Task
+)	NN	O	O
+,	NN	O	O
+as	NN	O	O
+this	NN	O	O
+would	NN	O	O
+allow	NN	O	O
+for	NN	O	O
+temperature	NN	O	O
+control	NN	O	O
+on	NN	O	O
+much	NN	O	O
+faster	NN	O	O
+(	NN	O	O
+millisecond	NN	O	O
+)	NN	O	O
+timescales	NN	O	O
+than	NN	O	O
+the	NN	O	O
+current	NN	O	O
+(	NN	O	O
+approximately	NN	O	O
+1s	NN	O	O
+)	NN	O	O
+thermometry	NN	O	O
+readout	NN	O	O
+used	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0011227515000648)
+
+The	NN	O	O
+product	NN	O	B-Process
+change	NN	O	I-Process
+between	NN	O	O
+batches	NN	O	B-Material
+#	NN	O	I-Material
+1/#2	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+others	NN	O	O
+is	NN	O	O
+the	NN	O	O
+most	NN	O	O
+influential	NN	O	O
+on	NN	O	O
+the	NN	O	O
+test	NN	O	O
+results	NN	O	O
+.	NN	O	O
+The	NN	O	O
+redesign	NN	O	O
+and	NN	O	O
+upgrade	NN	O	O
+to	NN	O	O
+110-nm	NN	O	B-Process
+process	NN	O	I-Process
+technology	NN	O	I-Process
+reduces	NN	O	O
+the	NN	O	O
+pass	NN	O	O
+rate	NN	O	O
+at	NN	O	O
+LNT	NN	O	B-Material
+by	NN	O	O
+approximately	NN	O	O
+half	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+mainly	NN	O	O
+caused	NN	O	O
+by	NN	O	O
+the	NN	O	O
+increased	NN	O	O
+incidence	NN	O	O
+of	NN	O	O
+erase	NN	O	B-Process
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+program	NN	O	I-Process
+timeouts	NN	O	I-Process
+with	NN	O	O
+some	NN	O	O
+contribution	NN	O	O
+from	NN	O	O
+long	NN	O	B-Process
+erase	NN	O	I-Process
+and	NN	O	O
+program	NN	O	B-Process
+times	NN	O	I-Process
+and	NN	O	O
+bit	NN	O	B-Process
+errors	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+difference	NN	O	O
+in	NN	O	O
+pass	NN	O	B-Process
+rates	NN	O	I-Process
+at	NN	O	O
+88	NN	O	O
+K	NN	O	O
+between	NN	O	O
+batches	NN	O	B-Material
+#	NN	O	I-Material
+3/#4	NN	O	I-Material
+and	NN	O	O
+#	NN	O	B-Material
+5/#6	NN	O	I-Material
+,	NN	O	O
+which	NN	O	O
+use	NN	O	O
+the	NN	O	O
+same	NN	O	O
+process	NN	O	B-Process
+technology	NN	O	I-Process
+with	NN	O	O
+the	NN	O	O
+same	NN	O	O
+dimensions	NN	O	O
+,	NN	O	O
+can	NN	O	O
+be	NN	O	O
+explained	NN	O	O
+by	NN	O	O
+the	NN	O	O
+fabrication	NN	O	O
+in	NN	O	O
+different	NN	O	O
+assembly	NN	O	B-Process
+lines	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+other	NN	O	O
+processes	NN	O	O
+or	NN	O	O
+base	NN	O	O
+materials	NN	O	O
+may	NN	O	O
+have	NN	O	O
+been	NN	O	O
+changed	NN	O	O
+.	NN	O	O
+This	NN	O	O
+means	NN	O	O
+different	NN	O	O
+tolerances	NN	O	B-Process
+in	NN	O	O
+base	NN	O	O
+materials	NN	O	O
+and	NN	O	O
+production	NN	O	O
+process	NN	O	O
+,	NN	O	O
+which	NN	O	O
+are	NN	O	O
+more	NN	O	O
+pronounced	NN	O	O
+the	NN	O	O
+lower	NN	O	O
+the	NN	O	O
+temperature	NN	O	O
+.	NN	O	O
+Some	NN	O	O
+of	NN	O	O
+the	NN	O	O
+differences	NN	O	O
+of	NN	O	O
+technology	NN	O	O
+scale	NN	O	O
+may	NN	O	O
+reflect	NN	O	O
+shifts	NN	O	O
+in	NN	O	O
+transistor	NN	O	B-Process
+parameters	NN	O	I-Process
+such	NN	O	O
+as	NN	O	O
+transconductance	NN	O	B-Process
+/	NN	O	I-Process
+gain	NN	O	I-Process
+,	NN	O	O
+threshold	NN	O	B-Process
+voltage	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+threshold	NN	O	B-Process
+slope	NN	O	I-Process
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0011227515001216)
+
+Prior	NN	O	O
+to	NN	O	O
+assembling	NN	O	B-Task
+the	NN	O	I-Task
+miniature	NN	O	I-Task
+ADR	NN	O	I-Task
+,	NN	O	O
+the	NN	O	O
+mKCC	NN	O	B-Material
+MR	NN	O	I-Material
+heat	NN	O	I-Material
+switch	NN	O	I-Material
+could	NN	O	O
+not	NN	O	O
+be	NN	O	O
+fully	NN	O	O
+thermally	NN	O	B-Process
+characterised	NN	O	I-Process
+due	NN	O	O
+to	NN	O	O
+cryostat	NN	O	B-Material
+constraints	NN	O	I-Material
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+based	NN	O	O
+on	NN	O	O
+experiments	NN	O	O
+and	NN	O	O
+research	NN	O	O
+conducted	NN	O	O
+at	NN	O	O
+MSSL	NN	O	O
+on	NN	O	O
+a	NN	O	O
+range	NN	O	O
+of	NN	O	O
+tungsten	NN	O	B-Material
+heat	NN	O	I-Material
+switches	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+thermal	NN	O	B-Process
+conductivity	NN	O	I-Process
+has	NN	O	O
+been	NN	O	O
+estimated	NN	O	O
+.	NN	O	O
+In	NN	O	O
+Hills	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+,	NN	O	O
+an	NN	O	O
+equation	NN	O	O
+is	NN	O	O
+derived	NN	O	O
+which	NN	O	O
+allows	NN	O	O
+the	NN	O	O
+thermal	NN	O	B-Process
+conductivity	NN	O	I-Process
+(	NN	O	O
+κ	NN	O	B-Process
+)	NN	O	O
+below	NN	O	O
+6	NN	O	O
+K	NN	O	O
+to	NN	O	O
+be	NN	O	O
+calculated	NN	O	O
+as	NN	O	O
+a	NN	O	O
+function	NN	O	O
+of	NN	O	O
+magnetic	NN	O	B-Process
+field	NN	O	I-Process
+(	NN	O	O
+B	NN	O	B-Process
+)	NN	O	O
+and	NN	O	O
+temperature	NN	O	O
+(	NN	O	O
+T	NN	O	O
+)	NN	O	O
+(	NN	O	O
+see	NN	O	O
+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+1	NN	O	O
+)	NN	O	O
+)	NN	O	O
+.	NN	O	O
+To	NN	O	O
+estimate	NN	O	O
+the	NN	O	O
+performance	NN	O	O
+of	NN	O	O
+the	NN	O	O
+mKCC	NN	O	B-Material
+heat	NN	O	I-Material
+switch	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+parameters	NN	O	O
+in	NN	O	O
+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+1	NN	O	O
+)	NN	O	O
+have	NN	O	O
+been	NN	O	O
+taken	NN	O	O
+from	NN	O	O
+the	NN	O	O
+measured	NN	O	O
+thermal	NN	O	B-Process
+conductivity	NN	O	I-Process
+of	NN	O	O
+another	NN	O	O
+MSSL	NN	O	B-Material
+heat	NN	O	I-Material
+switch	NN	O	I-Material
+with	NN	O	O
+the	NN	O	O
+same	NN	O	O
+1.5	NN	O	O
+mm	NN	O	O
+square	NN	O	O
+cross	NN	O	O
+section	NN	O	O
+,	NN	O	O
+a	NN	O	O
+free	NN	O	O
+path	NN	O	O
+length	NN	O	O
+of	NN	O	O
+43	NN	O	O
+cm	NN	O	O
+and	NN	O	O
+a	NN	O	O
+RRR	NN	O	O
+of	NN	O	O
+20,000	NN	O	O
+;	NN	O	O
+it	NN	O	O
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+been	NN	O	O
+observed	NN	O	O
+from	NN	O	O
+experiments	NN	O	O
+conducted	NN	O	O
+at	NN	O	O
+MSSL	NN	O	O
+that	NN	O	O
+there	NN	O	O
+is	NN	O	O
+little	NN	O	O
+change	NN	O	O
+in	NN	O	O
+the	NN	O	O
+thermal	NN	O	B-Process
+performance	NN	O	I-Process
+for	NN	O	O
+tungsten	NN	O	B-Material
+heat	NN	O	I-Material
+switches	NN	O	I-Material
+with	NN	O	O
+a	NN	O	O
+RRR	NN	O	O
+between	NN	O	O
+20,000	NN	O	O
+and	NN	O	O
+32,000	NN	O	O
+(	NN	O	O
+subject	NN	O	O
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+future	NN	O	O
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+)	NN	O	O
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+therefore	NN	O	O
+the	NN	O	O
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+of	NN	O	O
+the	NN	O	O
+20,000	NN	O	B-Material
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+switch	NN	O	I-Material
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+been	NN	O	O
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+be	NN	O	O
+a	NN	O	O
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+Fig	NN	O	O
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+5	NN	O	O
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+thermal	NN	O	B-Process
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+0	NN	O	O
+,	NN	O	O
+1	NN	O	O
+,	NN	O	O
+2	NN	O	O
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+3	NN	O	O
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+on	NN	O	O
+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+1	NN	O	O
+)	NN	O	O
+,	NN	O	O
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+the	NN	O	O
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+b0	NN	O	O
+,	NN	O	O
+a1	NN	O	O
+,	NN	O	O
+a2	NN	O	O
+,	NN	O	O
+a3	NN	O	O
+,	NN	O	O
+a4	NN	O	O
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+n	NN	O	O
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+the	NN	O	O
+values	NN	O	O
+0.0328	NN	O	O
+,	NN	O	O
+1.19×10−4	NN	O	O
+,	NN	O	O
+3.57×10−6	NN	O	O
+,	NN	O	O
+1.36	NN	O	O
+,	NN	O	O
+0.000968	NN	O	O
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+1.7	NN	O	O
+respectively	NN	O	O
+.	NN	O	O
+It	NN	O	O
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+be	NN	O	O
+noted	NN	O	O
+that	NN	O	O
+the	NN	O	O
+calculated	NN	O	O
+thermal	NN	O	B-Process
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+of	NN	O	O
+the	NN	O	O
+mKCC	NN	O	B-Material
+switch	NN	O	I-Material
+presented	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+5	NN	O	O
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+validated	NN	O	O
+by	NN	O	O
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+the	NN	O	O
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+of	NN	O	O
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+miniature	NN	O	B-Material
+ADR	NN	O	I-Material
+with	NN	O	O
+modelled	NN	O	O
+predictions	NN	O	O
+(	NN	O	O
+this	NN	O	O
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+discussed	NN	O	O
+in	NN	O	O
+Section	NN	O	O
+3.3).(1)κ(T)=b0T2	NN	O	O
++	NN	O	O
+1a1+a2T2T+Bna3T+a4T4	NN	O	O
+
+-DOCSTART- (S002002551630384X)
+
+An	NN	O	O
+early	NN	O	O
+attempt	NN	O	O
+to	NN	O	O
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+sets	NN	O	I-Task
+and	NN	O	I-Task
+networks	NN	O	I-Task
+in	NN	O	I-Task
+a	NN	O	I-Task
+single	NN	O	I-Task
+visualization	NN	O	I-Task
+relied	NN	O	O
+on	NN	O	O
+first	NN	O	O
+drawing	NN	O	O
+an	NN	O	O
+Euler	NN	O	B-Process
+diagram	NN	O	I-Process
+then	NN	O	O
+placing	NN	O	O
+a	NN	O	O
+graph	NN	O	O
+inside	NN	O	O
+it	NN	O	O
+[	NN	O	O
+30	NN	O	O
+]	NN	O	O
+,	NN	O	O
+however	NN	O	O
+the	NN	O	O
+sets	NN	O	O
+were	NN	O	O
+often	NN	O	O
+visualized	NN	O	O
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+convoluted	NN	O	O
+,	NN	O	O
+difficult	NN	O	O
+to	NN	O	O
+follow	NN	O	O
+curves	NN	O	O
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+only	NN	O	O
+limited	NN	O	O
+kinds	NN	O	O
+of	NN	O	O
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+as	NN	O	O
+the	NN	O	O
+system	NN	O	O
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+limited	NN	O	O
+to	NN	O	O
+well	NN	O	O
+-	NN	O	O
+formed	NN	O	O
+Euler	NN	O	B-Process
+diagrams	NN	O	I-Process
+.	NN	O	O
+Compound	NN	O	B-Material
+graphs	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+used	NN	O	O
+to	NN	O	O
+represent	NN	O	O
+restricted	NN	O	O
+kinds	NN	O	O
+of	NN	O	O
+grouped	NN	O	O
+network	NN	O	B-Material
+data	NN	O	I-Material
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Graph	NN	O	B-Material
+clusters	NN	O	I-Material
+are	NN	O	O
+visualized	NN	O	O
+with	NN	O	O
+transparent	NN	O	B-Process
+hulls	NN	O	I-Process
+by	NN	O	O
+Santamaria	NN	O	O
+and	NN	O	O
+Theron	NN	O	O
+[	NN	O	O
+39	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+technique	NN	O	O
+removes	NN	O	O
+edges	NN	O	O
+from	NN	O	O
+the	NN	O	O
+graph	NN	O	O
+and	NN	O	O
+it	NN	O	O
+is	NN	O	O
+not	NN	O	O
+sufficiently	NN	O	O
+sophisticated	NN	O	O
+for	NN	O	O
+arbitrary	NN	O	O
+overlapping	NN	O	O
+sets	NN	O	O
+.	NN	O	O
+Itoh	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+proposed	NN	O	O
+to	NN	O	O
+overlay	NN	O	O
+pie	NN	O	O
+-	NN	O	O
+like	NN	O	O
+glyphs	NN	O	B-Material
+over	NN	O	O
+the	NN	O	O
+nodes	NN	O	O
+in	NN	O	O
+a	NN	O	O
+graph	NN	O	O
+to	NN	O	O
+encode	NN	O	O
+multiple	NN	O	O
+categories	NN	O	O
+.	NN	O	O
+Each	NN	O	O
+set	NN	O	O
+is	NN	O	O
+hence	NN	O	O
+represented	NN	O	O
+using	NN	O	O
+disconnected	NN	O	O
+regions	NN	O	O
+that	NN	O	O
+are	NN	O	O
+linked	NN	O	O
+by	NN	O	O
+having	NN	O	O
+the	NN	O	O
+same	NN	O	O
+colour	NN	O	O
+.	NN	O	O
+This	NN	O	O
+causes	NN	O	O
+difficulties	NN	O	O
+with	NN	O	O
+tasks	NN	O	O
+that	NN	O	O
+involve	NN	O	O
+finding	NN	O	B-Task
+relations	NN	O	I-Task
+between	NN	O	I-Task
+sets	NN	O	I-Task
+such	NN	O	O
+as	NN	O	O
+T1	NN	O	B-Process
+,	NN	O	I-Process
+T3	NN	O	I-Process
+and	NN	O	I-Process
+T4	NN	O	I-Process
+in	NN	O	O
+Section	NN	O	O
+5.3	NN	O	O
+.	NN	O	O
+A	NN	O	O
+related	NN	O	O
+class	NN	O	O
+of	NN	O	O
+techniques	NN	O	O
+visualize	NN	O	B-Process
+grouping	NN	O	I-Process
+information	NN	O	I-Process
+over	NN	O	I-Process
+graphs	NN	O	I-Process
+using	NN	O	O
+convex	NN	O	B-Process
+hulls	NN	O	I-Process
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+Vizster	NN	O	B-Process
+[	NN	O	O
+22	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+they	NN	O	O
+do	NN	O	O
+not	NN	O	O
+support	NN	O	O
+visualizing	NN	O	O
+set	NN	O	O
+overlaps	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021961414003255)
+
+Moreover	NN	O	O
+,	NN	O	O
+one	NN	O	O
+observes	NN	O	O
+segregation	NN	O	B-Process
+effects	NN	O	I-Process
+by	NN	O	O
+the	NN	O	O
+XRD	NN	O	B-Task
+analysis	NN	O	I-Task
+,	NN	O	O
+which	NN	O	O
+probably	NN	O	O
+took	NN	O	O
+place	NN	O	O
+at	NN	O	O
+high	NN	O	O
+temperature	NN	O	O
+,	NN	O	O
+and	NN	O	O
+were	NN	O	O
+partially	NN	O	O
+quenched	NN	O	B-Process
+to	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+.	NN	O	O
+The	NN	O	O
+phase	NN	O	O
+analysis	NN	O	O
+showed	NN	O	O
+up	NN	O	O
+to	NN	O	O
+three	NN	O	O
+distinct	NN	O	O
+phases	NN	O	O
+,	NN	O	O
+which	NN	O	O
+should	NN	O	O
+have	NN	O	O
+hence	NN	O	O
+a	NN	O	O
+distinct	NN	O	O
+measurable	NN	O	O
+phase	NN	O	O
+transition	NN	O	O
+temperature	NN	O	O
+,	NN	O	O
+if	NN	O	O
+they	NN	O	O
+crystallise	NN	O	B-Process
+from	NN	O	O
+the	NN	O	O
+liquid	NN	O	B-Material
+on	NN	O	O
+the	NN	O	O
+surface	NN	O	B-Material
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+thermograms	NN	O	B-Process
+these	NN	O	O
+effects	NN	O	O
+are	NN	O	O
+not	NN	O	O
+observable	NN	O	O
+as	NN	O	O
+different	NN	O	O
+solidification	NN	O	B-Process
+arrest	NN	O	I-Process
+or	NN	O	O
+clear	NN	O	B-Process
+inflections	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+proportion	NN	O	O
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+new	NN	O	O
+appearing	NN	O	O
+phases	NN	O	O
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+small	NN	O	O
+and	NN	O	O
+therefore	NN	O	O
+the	NN	O	O
+latent	NN	O	B-Process
+heat	NN	O	I-Process
+released	NN	O	O
+by	NN	O	O
+this	NN	O	O
+new	NN	O	O
+phase	NN	O	O
+will	NN	O	O
+be	NN	O	O
+also	NN	O	O
+small	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+light	NN	O	I-Process
+signal	NN	O	I-Process
+technique	NN	O	I-Process
+only	NN	O	O
+showed	NN	O	O
+one	NN	O	O
+phase	NN	O	B-Process
+change	NN	O	I-Process
+during	NN	O	O
+cooling	NN	O	O
+.	NN	O	O
+As	NN	O	O
+well	NN	O	O
+,	NN	O	O
+the	NN	O	O
+location	NN	O	O
+of	NN	O	O
+this	NN	O	O
+segregation	NN	O	B-Process
+can	NN	O	O
+not	NN	O	O
+be	NN	O	O
+determined	NN	O	O
+exactly	NN	O	O
+in	NN	O	O
+the	NN	O	O
+molten	NN	O	B-Material
+pool	NN	O	I-Material
+or	NN	O	O
+later	NN	O	O
+in	NN	O	O
+the	NN	O	O
+re	NN	O	B-Material
+-	NN	O	I-Material
+solidified	NN	O	I-Material
+material	NN	O	I-Material
+.	NN	O	O
+At	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+,	NN	O	O
+where	NN	O	O
+the	NN	O	O
+temperature	NN	O	O
+is	NN	O	O
+measured	NN	O	O
+,	NN	O	O
+the	NN	O	O
+material	NN	O	B-Task
+analysis	NN	O	I-Task
+by	NN	O	I-Task
+Raman	NN	O	I-Task
+spectroscopy	NN	O	I-Task
+has	NN	O	O
+not	NN	O	O
+shown	NN	O	O
+signs	NN	O	O
+of	NN	O	O
+segregation	NN	O	B-Process
+,	NN	O	O
+so	NN	O	O
+that	NN	O	O
+also	NN	O	O
+the	NN	O	O
+uncertainties	NN	O	O
+in	NN	O	O
+composition	NN	O	O
+for	NN	O	O
+the	NN	O	O
+phase	NN	O	B-Process
+transition	NN	O	I-Process
+are	NN	O	O
+taken	NN	O	O
+from	NN	O	O
+the	NN	O	O
+uncertainties	NN	O	O
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+the	NN	O	O
+XRD	NN	O	B-Task
+analysis	NN	O	I-Task
+for	NN	O	O
+the	NN	O	O
+most	NN	O	O
+abundant	NN	O	O
+phase	NN	O	O
+at	NN	O	O
+each	NN	O	O
+composition	NN	O	O
+in	NN	O	O
+re	NN	O	B-Material
+-	NN	O	I-Material
+solidified	NN	O	I-Material
+material	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S002199911200068X)
+
+Myocardial	NN	O	B-Process
+electrical	NN	O	I-Process
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+be	NN	O	O
+simulated	NN	O	O
+using	NN	O	O
+the	NN	O	O
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+bidomain	NN	O	I-Material
+PDEs	NN	O	I-Material
+[	NN	O	O
+5,6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Due	NN	O	O
+to	NN	O	O
+its	NN	O	O
+capacity	NN	O	O
+to	NN	O	O
+represent	NN	O	O
+complex	NN	O	O
+geometries	NN	O	B-Material
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+,	NN	O	O
+approximations	NN	O	O
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+often	NN	O	O
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+the	NN	O	O
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+(	NN	O	O
+FEM	NN	O	B-Process
+)	NN	O	O
+to	NN	O	O
+discretise	NN	O	O
+the	NN	O	O
+PDEs	NN	O	B-Material
+in	NN	O	O
+space	NN	O	O
+on	NN	O	O
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+cardiac	NN	O	B-Material
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+;	NN	O	O
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+(	NN	O	O
+up	NN	O	O
+to	NN	O	O
+forty	NN	O	O
+-	NN	O	O
+million	NN	O	O
+degrees	NN	O	O
+of	NN	O	O
+freedom	NN	O	O
+(	NN	O	O
+DOF	NN	O	O
+)	NN	O	O
+for	NN	O	O
+human	NN	O	B-Task
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+geometries	NN	O	I-Task
+)	NN	O	O
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+equations	NN	O	I-Process
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+must	NN	O	O
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+many	NN	O	O
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+the	NN	O	O
+course	NN	O	O
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+a	NN	O	O
+short	NN	O	O
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+.	NN	O	O
+Thus	NN	O	O
+,	NN	O	O
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+extremely	NN	O	O
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+demanding	NN	O	O
+,	NN	O	O
+presenting	NN	O	O
+taxing	NN	O	O
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+to	NN	O	O
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+-	NN	O	I-Process
+end	NN	O	I-Process
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+resources	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
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+that	NN	O	O
+effort	NN	O	O
+has	NN	O	O
+been	NN	O	O
+invested	NN	O	O
+in	NN	O	O
+developing	NN	O	B-Task
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+solution	NN	O	I-Task
+techniques	NN	O	I-Task
+,	NN	O	O
+including	NN	O	O
+work	NN	O	O
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+preconditioning	NN	O	B-Task
+,	NN	O	O
+parallelisation	NN	O	B-Task
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+in	NN	O	I-Task
+space	NN	O	I-Task
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+time	NN	O	I-Task
+[	NN	O	O
+7–12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+study	NN	O	O
+,	NN	O	O
+we	NN	O	O
+investigate	NN	O	B-Task
+the	NN	O	I-Task
+potential	NN	O	I-Task
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+reducing	NN	O	I-Task
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+DOF	NN	O	I-Task
+by	NN	O	O
+using	NN	O	O
+a	NN	O	O
+high	NN	O	B-Process
+-	NN	O	I-Process
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+polynomial	NN	O	I-Process
+FEM	NN	O	I-Process
+[	NN	O	O
+13–15	NN	O	O
+]	NN	O	O
+to	NN	O	O
+approximate	NN	O	O
+the	NN	O	O
+monodomain	NN	O	B-Material
+PDE	NN	O	I-Material
+in	NN	O	O
+space	NN	O	O
+,	NN	O	O
+with	NN	O	O
+the	NN	O	O
+goal	NN	O	O
+of	NN	O	O
+significantly	NN	O	B-Task
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+efficiency	NN	O	I-Task
+over	NN	O	O
+the	NN	O	O
+piecewise	NN	O	B-Process
+-	NN	O	I-Process
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+commonly	NN	O	O
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+field	NN	O	O
+[	NN	O	O
+16–19	NN	O	O
+]	NN	O	O
+.	NN	O	O
+For	NN	O	O
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+the	NN	O	O
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+p	NN	O	O
+of	NN	O	O
+the	NN	O	O
+elements	NN	O	O
+is	NN	O	O
+adjusted	NN	O	O
+according	NN	O	O
+to	NN	O	O
+the	NN	O	O
+error	NN	O	O
+in	NN	O	O
+the	NN	O	O
+approximation	NN	O	O
+,	NN	O	O
+this	NN	O	O
+is	NN	O	O
+known	NN	O	O
+as	NN	O	O
+the	NN	O	O
+finite	NN	O	B-Process
+element	NN	O	I-Process
+p	NN	O	I-Process
+-	NN	O	I-Process
+version	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+work	NN	O	O
+presented	NN	O	O
+here	NN	O	O
+,	NN	O	O
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+which	NN	O	O
+keep	NN	O	O
+p	NN	O	O
+fixed	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999112002847)
+
+In	NN	O	O
+this	NN	O	O
+work	NN	O	O
+we	NN	O	O
+develop	NN	O	B-Task
+a	NN	O	I-Task
+new	NN	O	I-Task
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+to	NN	O	I-Task
+DEA	NN	O	I-Task
+suitable	NN	O	I-Task
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+modelling	NN	O	I-Task
+three	NN	O	I-Task
+-	NN	O	I-Task
+dimensional	NN	O	I-Task
+problems	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
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+rely	NN	O	O
+on	NN	O	O
+the	NN	O	O
+fact	NN	O	O
+that	NN	O	O
+one	NN	O	O
+can	NN	O	O
+easily	NN	O	O
+parametrise	NN	O	B-Process
+the	NN	O	I-Process
+boundary	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+region	NN	O	I-Process
+being	NN	O	O
+modelled	NN	O	O
+,	NN	O	O
+and	NN	O	O
+then	NN	O	O
+apply	NN	O	O
+an	NN	O	O
+orthonormal	NN	O	B-Process
+basis	NN	O	I-Process
+approximation	NN	O	I-Process
+over	NN	O	O
+the	NN	O	O
+resulting	NN	O	O
+boundary	NN	O	B-Material
+phase	NN	O	I-Material
+space	NN	O	I-Material
+coordinate	NN	O	I-Material
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+.	NN	O	O
+In	NN	O	O
+two	NN	O	O
+dimensions	NN	O	O
+this	NN	O	O
+is	NN	O	O
+simple	NN	O	O
+as	NN	O	O
+the	NN	O	O
+boundary	NN	O	O
+may	NN	O	O
+be	NN	O	O
+parametrised	NN	O	O
+along	NN	O	O
+its	NN	O	O
+arc	NN	O	B-Material
+-	NN	O	I-Material
+length	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+associated	NN	O	O
+momentum	NN	O	B-Material
+(	NN	O	I-Material
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+)	NN	O	I-Material
+coordinate	NN	O	I-Material
+taken	NN	O	O
+tangential	NN	O	O
+to	NN	O	O
+the	NN	O	O
+boundary	NN	O	O
+.	NN	O	O
+The	NN	O	O
+basis	NN	O	O
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+any	NN	O	O
+suitable	NN	O	O
+(	NN	O	O
+scaled	NN	O	O
+)	NN	O	O
+univariate	NN	O	B-Material
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+in	NN	O	O
+both	NN	O	O
+position	NN	O	O
+and	NN	O	O
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+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+a	NN	O	O
+Fourier	NN	O	B-Material
+basis	NN	O	I-Material
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+or	NN	O	O
+Chebyshev	NN	O	B-Material
+polynomials	NN	O	I-Material
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Defining	NN	O	O
+a	NN	O	O
+suitable	NN	O	O
+parametrisation	NN	O	O
+for	NN	O	O
+the	NN	O	O
+spatial	NN	O	O
+coordinate	NN	O	O
+in	NN	O	O
+three	NN	O	O
+-	NN	O	O
+dimensions	NN	O	O
+becomes	NN	O	O
+much	NN	O	O
+more	NN	O	O
+difficult	NN	O	O
+.	NN	O	O
+In	NN	O	O
+momentum	NN	O	O
+space	NN	O	O
+spherical	NN	O	B-Process
+polar	NN	O	I-Process
+coordinates	NN	O	I-Process
+may	NN	O	O
+be	NN	O	O
+employed	NN	O	O
+and	NN	O	O
+so	NN	O	O
+these	NN	O	O
+problems	NN	O	O
+do	NN	O	O
+not	NN	O	O
+arise	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999112003579)
+
+We	NN	O	O
+order	NN	O	B-Task
+the	NN	O	I-Task
+discrete	NN	O	I-Task
+unknowns	NN	O	I-Task
+so	NN	O	O
+that	NN	O	O
+the	NN	O	O
+vector	NN	O	B-Material
+of	NN	O	I-Material
+unknowns	NN	O	I-Material
+,	NN	O	O
+xPS=[X	NN	O	B-Material
+,	NN	O	I-Material
+L	NN	O	I-Material
+]	NN	O	I-Material
+,	NN	O	O
+contains	NN	O	O
+the	NN	O	O
+nx	NN	O	O
+unknown	NN	O	O
+nodal	NN	O	B-Material
+coordinates	NN	O	I-Material
+,	NN	O	O
+followed	NN	O	O
+by	NN	O	O
+the	NN	O	O
+nb	NN	O	O
+unknown	NN	O	O
+discrete	NN	O	O
+Lagrange	NN	O	B-Material
+multipliers	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+linear	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	I-Process
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+-	NN	O	I-Material
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+-	NN	O	I-Process
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+-DOCSTART- (S0021999113002945)
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+Inequality	NN	O	B-Process
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+-	NN	O	I-Material
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+-	NN	O	I-Material
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+.	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	I-Material
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+-DOCSTART- (S0021999113003422)
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+Similar	NN	O	O
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+to	NN	O	O
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+ISPM	NN	O	B-Material
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+,	NN	O	O
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+Lagrangian	NN	O	B-Process
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+,	NN	O	O
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+them	NN	O	O
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+,	NN	O	O
+it	NN	O	O
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+paper	NN	O	O
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+specifically	NN	O	O
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+a	NN	O	B-Task
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+,	NN	O	O
+tailor	NN	O	O
+-	NN	O	O
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+)	NN	O	O
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+.	NN	O	O
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+.	NN	O	O
+
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+Contact	NN	O	B-Process
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+)	NN	O	O
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+Wilkins	NN	O	O
+[	NN	O	O
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+]	NN	O	O
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+.	NN	O	O
+[	NN	O	O
+7	NN	O	O
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+.	NN	O	O
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+.	NN	O	O
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+;	NN	O	O
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+,	NN	O	O
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+new	NN	O	O
+CCH	NN	O	B-Process
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+a	NN	O	I-Task
+Riemann	NN	O	I-Task
+-	NN	O	I-Task
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+zone	NN	O	I-Task
+[	NN	O	O
+10,24,25,3	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999113004555)
+
+Three	NN	O	O
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+IMEX	NN	O	I-Process
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+by	NN	O	O
+Ullrich	NN	O	O
+and	NN	O	O
+Jablonowski	NN	O	O
+[	NN	O	O
+23	NN	O	O
+]	NN	O	O
+for	NN	O	O
+the	NN	O	O
+HEVI	NN	O	B-Process
+solution	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+equations	NN	O	O
+governing	NN	O	O
+atmospheric	NN	O	B-Process
+motion	NN	O	I-Process
+.	NN	O	O
+They	NN	O	O
+tested	NN	O	O
+the	NN	O	O
+ARS(2,3,2	NN	O	B-Process
+)	NN	O	I-Process
+scheme	NN	O	I-Process
+of	NN	O	O
+Ascher	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+and	NN	O	O
+also	NN	O	O
+suggested	NN	O	O
+the	NN	O	O
+less	NN	O	O
+computationally	NN	O	O
+expensive	NN	O	O
+but	NN	O	O
+nearly	NN	O	O
+as	NN	O	O
+accurate	NN	O	O
+Strang	NN	O	B-Process
+carryover	NN	O	I-Process
+scheme	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+involves	NN	O	O
+Strang	NN	O	B-Process
+splitting	NN	O	I-Process
+but	NN	O	O
+the	NN	O	O
+first	NN	O	O
+implicit	NN	O	O
+stage	NN	O	O
+is	NN	O	O
+cleverly	NN	O	O
+re	NN	O	O
+-	NN	O	O
+used	NN	O	O
+from	NN	O	O
+the	NN	O	O
+final	NN	O	O
+implicit	NN	O	O
+stage	NN	O	O
+of	NN	O	O
+the	NN	O	O
+previous	NN	O	O
+time	NN	O	O
+-	NN	O	O
+step	NN	O	O
+and	NN	O	O
+so	NN	O	O
+there	NN	O	O
+is	NN	O	O
+only	NN	O	O
+one	NN	O	O
+implicit	NN	O	O
+solution	NN	O	O
+per	NN	O	O
+time	NN	O	O
+-	NN	O	O
+step	NN	O	O
+.	NN	O	O
+Another	NN	O	O
+novel	NN	O	O
+approach	NN	O	O
+taken	NN	O	O
+by	NN	O	O
+Ullrich	NN	O	O
+and	NN	O	O
+Jablonowski	NN	O	O
+[	NN	O	O
+23	NN	O	O
+]	NN	O	O
+is	NN	O	O
+to	NN	O	O
+use	NN	O	O
+a	NN	O	O
+Rosenbrock	NN	O	B-Process
+solution	NN	O	I-Process
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+treat	NN	O	O
+all	NN	O	O
+of	NN	O	O
+the	NN	O	O
+vertical	NN	O	O
+terms	NN	O	O
+implicitly	NN	O	O
+rather	NN	O	O
+than	NN	O	O
+just	NN	O	O
+the	NN	O	O
+terms	NN	O	O
+involved	NN	O	O
+in	NN	O	O
+wave	NN	O	B-Process
+propagation	NN	O	I-Process
+.	NN	O	O
+A	NN	O	O
+Rosenbrock	NN	O	B-Process
+solution	NN	O	I-Process
+is	NN	O	O
+one	NN	O	B-Process
+iteration	NN	O	I-Process
+of	NN	O	I-Process
+a	NN	O	I-Process
+Newton	NN	O	I-Process
+solver	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+circumvents	NN	O	O
+the	NN	O	O
+time	NN	O	B-Process
+-	NN	O	I-Process
+step	NN	O	I-Process
+restriction	NN	O	I-Process
+associated	NN	O	O
+with	NN	O	O
+vertical	NN	O	B-Process
+advection	NN	O	I-Process
+at	NN	O	O
+the	NN	O	O
+cost	NN	O	O
+of	NN	O	O
+slowing	NN	O	B-Process
+the	NN	O	I-Process
+vertical	NN	O	I-Process
+advection	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0021999113005603)
+
+After	NN	O	O
+all	NN	O	O
+micro	NN	O	O
+elements	NN	O	O
+reach	NN	O	O
+a	NN	O	O
+relaxed	NN	O	O
+steady	NN	O	O
+-	NN	O	O
+state	NN	O	O
+,	NN	O	O
+measurements	NN	O	O
+are	NN	O	O
+obtained	NN	O	O
+using	NN	O	O
+a	NN	O	O
+cumulative	NN	O	B-Process
+averaging	NN	O	I-Process
+technique	NN	O	I-Process
+to	NN	O	O
+reduce	NN	O	B-Task
+noise	NN	O	I-Task
+.	NN	O	O
+Each	NN	O	O
+micro	NN	O	O
+element	NN	O	O
+is	NN	O	O
+divided	NN	O	B-Process
+into	NN	O	I-Process
+spatially	NN	O	I-Process
+-	NN	O	I-Process
+oriented	NN	O	I-Process
+bins	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+y	NN	O	O
+-	NN	O	O
+direction	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+resolve	NN	O	B-Process
+the	NN	O	I-Process
+velocity	NN	O	I-Process
+and	NN	O	I-Process
+shear	NN	O	I-Process
+-	NN	O	I-Process
+stress	NN	O	I-Process
+profiles	NN	O	I-Process
+.	NN	O	O
+Velocity	NN	O	O
+in	NN	O	O
+each	NN	O	O
+bin	NN	O	O
+is	NN	O	O
+measured	NN	O	O
+using	NN	O	O
+the	NN	O	O
+Cumulative	NN	O	B-Process
+Averaging	NN	O	I-Process
+Method	NN	O	I-Process
+(	NN	O	O
+CAM	NN	O	B-Process
+)	NN	O	O
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+,	NN	O	O
+while	NN	O	O
+the	NN	O	O
+stress	NN	O	B-Process
+tensor	NN	O	I-Process
+field	NN	O	I-Process
+is	NN	O	O
+measured	NN	O	O
+using	NN	O	O
+the	NN	O	O
+Irving	NN	O	B-Process
+–	NN	O	I-Process
+Kirkwood	NN	O	I-Process
+relationship	NN	O	I-Process
+[	NN	O	O
+25	NN	O	O
+]	NN	O	O
+.	NN	O	O
+A	NN	O	O
+least	NN	O	B-Process
+-	NN	O	I-Process
+squares	NN	O	I-Process
+polynomial	NN	O	I-Process
+fit	NN	O	I-Process
+to	NN	O	O
+the	NN	O	O
+data	NN	O	O
+is	NN	O	O
+performed	NN	O	O
+,	NN	O	O
+which	NN	O	O
+helps	NN	O	O
+reduce	NN	O	B-Task
+noise	NN	O	I-Task
+further	NN	O	O
+.	NN	O	O
+The	NN	O	O
+fit	NN	O	O
+produces	NN	O	O
+a	NN	O	O
+continuous	NN	O	B-Process
+function	NN	O	I-Process
+that	NN	O	O
+avoids	NN	O	O
+stability	NN	O	B-Process
+issues	NN	O	I-Process
+arising	NN	O	O
+from	NN	O	O
+supplying	NN	O	B-Process
+highly	NN	O	I-Process
+fluctuating	NN	O	I-Process
+data	NN	O	I-Process
+to	NN	O	I-Process
+the	NN	O	I-Process
+macro	NN	O	I-Process
+solver	NN	O	I-Process
+.	NN	O	O
+A	NN	O	O
+least	NN	O	B-Process
+-	NN	O	I-Process
+squares	NN	O	I-Process
+fit	NN	O	I-Process
+is	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+an	NN	O	O
+Nth	NN	O	B-Material
+order	NN	O	I-Material
+polynomial	NN	O	I-Material
+for	NN	O	O
+the	NN	O	O
+velocity	NN	O	O
+profile	NN	O	O
+in	NN	O	O
+the	NN	O	O
+core	NN	O	O
+region	NN	O	O
+,	NN	O	O
+and	NN	O	O
+an	NN	O	O
+Mth	NN	O	B-Material
+order	NN	O	I-Material
+polynomial	NN	O	I-Material
+for	NN	O	O
+the	NN	O	O
+velocity	NN	O	O
+profile	NN	O	O
+in	NN	O	O
+the	NN	O	O
+constrained	NN	O	O
+region:(16)〈ui	NN	O	O
+,	NN	O	O
+core〉=∑k=1Nbk	NN	O	O
+,	NN	O	O
+iyi′(N−k),for	NN	O	O
+0⩽yi′⩽hcore	NN	O	O
+,	NN	O	O
+and(17)〈ui	NN	O	O
+,	NN	O	O
+cs〉=∑k=1Mck	NN	O	O
+,	NN	O	O
+iyi″(M−k),for	NN	O	O
+0⩽yi″⩽hcs	NN	O	O
+,	NN	O	O
+where	NN	O	O
+bk	NN	O	O
+,	NN	O	O
+i	NN	O	O
+and	NN	O	O
+ck	NN	O	O
+,	NN	O	O
+i	NN	O	O
+are	NN	O	O
+the	NN	O	O
+coefficients	NN	O	O
+of	NN	O	O
+the	NN	O	O
+polynomials	NN	O	B-Material
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+core	NN	O	O
+micro	NN	O	O
+region	NN	O	O
+and	NN	O	O
+constrained	NN	O	O
+region	NN	O	O
+respectively	NN	O	O
+.	NN	O	O
+An	NN	O	O
+estimate	NN	O	O
+of	NN	O	O
+the	NN	O	O
+new	NN	O	B-Material
+slip	NN	O	I-Material
+velocity	NN	O	I-Material
+uB	NN	O	O
+for	NN	O	O
+input	NN	O	O
+to	NN	O	O
+the	NN	O	O
+macro	NN	O	B-Material
+solution	NN	O	I-Material
+(	NN	O	O
+6	NN	O	O
+)	NN	O	O
+is	NN	O	O
+taken	NN	O	O
+directly	NN	O	O
+from	NN	O	O
+the	NN	O	O
+compressed	NN	O	B-Material
+wall	NN	O	I-Material
+micro	NN	O	I-Material
+-	NN	O	I-Material
+element	NN	O	I-Material
+solution	NN	O	I-Material
+(	NN	O	O
+16	NN	O	O
+)	NN	O	O
+,	NN	O	O
+at	NN	O	O
+yi′=0	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999113005652)
+
+It	NN	O	O
+is	NN	O	O
+interesting	NN	O	O
+to	NN	O	O
+quantify	NN	O	B-Task
+the	NN	O	I-Task
+effects	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+Schmidt	NN	O	I-Task
+number	NN	O	I-Task
+and	NN	O	I-Task
+the	NN	O	I-Task
+chemical	NN	O	I-Task
+reaction	NN	O	I-Task
+rate	NN	O	I-Task
+on	NN	O	O
+the	NN	O	O
+bulk	NN	O	B-Material
+-	NN	O	I-Material
+mean	NN	O	I-Material
+concentration	NN	O	I-Material
+of	NN	O	I-Material
+B	NN	O	I-Material
+in	NN	O	O
+water	NN	O	O
+.	NN	O	O
+The	NN	O	O
+data	NN	O	O
+could	NN	O	O
+present	NN	O	O
+important	NN	O	O
+information	NN	O	O
+on	NN	O	O
+evaluating	NN	O	O
+the	NN	O	O
+environmental	NN	O	O
+impacts	NN	O	O
+of	NN	O	O
+the	NN	O	O
+degradation	NN	O	B-Material
+product	NN	O	I-Material
+of	NN	O	O
+B	NN	O	O
+,	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+acidification	NN	O	B-Process
+of	NN	O	I-Process
+water	NN	O	I-Process
+by	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+.	NN	O	O
+Here	NN	O	O
+,	NN	O	O
+the	NN	O	O
+bulk	NN	O	B-Material
+-	NN	O	I-Material
+mean	NN	O	I-Material
+concentration	NN	O	I-Material
+of	NN	O	I-Material
+B	NN	O	I-Material
+is	NN	O	O
+defined	NN	O	O
+by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+15	NN	O	O
+depicts	NN	O	O
+the	NN	O	O
+effect	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Schmidt	NN	O	B-Material
+and	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+rate	NN	O	I-Process
+on	NN	O	O
+the	NN	O	O
+bulk	NN	O	B-Material
+-	NN	O	I-Material
+mean	NN	O	I-Material
+concentration	NN	O	I-Material
+CB⁎¯.	NN	O	I-Material
+It	NN	O	O
+is	NN	O	O
+worth	NN	O	O
+to	NN	O	O
+mention	NN	O	O
+here	NN	O	O
+that	NN	O	O
+the	NN	O	O
+bulk	NN	O	B-Material
+-	NN	O	I-Material
+mean	NN	O	I-Material
+concentration	NN	O	I-Material
+of	NN	O	I-Material
+B	NN	O	I-Material
+reaches	NN	O	O
+approximately	NN	O	O
+0.6	NN	O	O
+as	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+rate	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+Schmidt	NN	O	B-Material
+number	NN	O	I-Material
+increase	NN	O	O
+to	NN	O	O
+infinite	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+concentration	NN	O	O
+is	NN	O	O
+smaller	NN	O	O
+than	NN	O	O
+the	NN	O	O
+equilibrium	NN	O	B-Material
+concentration	NN	O	I-Material
+of	NN	O	I-Material
+A	NN	O	I-Material
+at	NN	O	O
+the	NN	O	O
+interface	NN	O	O
+.	NN	O	O
+This	NN	O	O
+figure	NN	O	O
+indicates	NN	O	O
+that	NN	O	O
+progress	NN	O	O
+of	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+is	NN	O	O
+somewhat	NN	O	O
+interfered	NN	O	O
+by	NN	O	O
+turbulent	NN	O	B-Process
+mixing	NN	O	I-Process
+in	NN	O	O
+water	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+efficiency	NN	O	O
+of	NN	O	O
+the	NN	O	O
+chemical	NN	O	O
+reaction	NN	O	O
+is	NN	O	O
+up	NN	O	O
+to	NN	O	O
+approximately	NN	O	O
+60	NN	O	O
+%	NN	O	O
+.	NN	O	O
+The	NN	O	O
+efficiency	NN	O	O
+of	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+in	NN	O	O
+water	NN	O	O
+will	NN	O	O
+be	NN	O	O
+a	NN	O	O
+function	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Reynolds	NN	O	B-Material
+number	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+water	NN	O	O
+flow	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+efficiency	NN	O	O
+could	NN	O	O
+increase	NN	O	O
+as	NN	O	O
+the	NN	O	O
+Reynolds	NN	O	B-Material
+number	NN	O	I-Material
+increases	NN	O	O
+.	NN	O	O
+We	NN	O	O
+need	NN	O	O
+an	NN	O	O
+extensive	NN	O	O
+investigation	NN	O	O
+on	NN	O	O
+the	NN	O	O
+efficiency	NN	O	O
+of	NN	O	O
+the	NN	O	O
+aquarium	NN	O	B-Process
+chemical	NN	O	I-Process
+reaction	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+near	NN	O	O
+future	NN	O	O
+to	NN	O	O
+extend	NN	O	O
+the	NN	O	O
+results	NN	O	O
+of	NN	O	O
+this	NN	O	O
+study	NN	O	O
+further	NN	O	O
+to	NN	O	O
+establish	NN	O	O
+practical	NN	O	B-Process
+modelling	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Process
+exchange	NN	O	I-Process
+between	NN	O	O
+air	NN	O	O
+and	NN	O	O
+water	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999113005718)
+
+Numerical	NN	O	B-Task
+simulation	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Process
+flow	NN	O	I-Process
+through	NN	O	O
+such	NN	O	O
+non	NN	O	O
+-	NN	O	O
+trivial	NN	O	O
+internal	NN	O	O
+geometries	NN	O	O
+is	NN	O	O
+,	NN	O	O
+however	NN	O	O
+,	NN	O	O
+extremely	NN	O	O
+challenging	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+because	NN	O	O
+conventional	NN	O	B-Process
+continuum	NN	O	I-Process
+fluid	NN	O	I-Process
+dynamics	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+assumes	NN	O	O
+that	NN	O	O
+locally	NN	O	O
+a	NN	O	O
+gas	NN	O	O
+is	NN	O	O
+close	NN	O	O
+to	NN	O	O
+a	NN	O	O
+state	NN	O	O
+of	NN	O	O
+thermodynamic	NN	O	B-Process
+equilibrium	NN	O	I-Process
+,	NN	O	O
+becomes	NN	O	O
+invalid	NN	O	O
+or	NN	O	O
+inaccurate	NN	O	O
+as	NN	O	O
+the	NN	O	O
+smallest	NN	O	O
+characteristic	NN	O	O
+scale	NN	O	O
+of	NN	O	O
+the	NN	O	O
+geometry	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+the	NN	O	O
+channel	NN	O	B-Material
+height	NN	O	I-Material
+)	NN	O	O
+approaches	NN	O	O
+the	NN	O	O
+mean	NN	O	O
+distance	NN	O	O
+between	NN	O	O
+molecular	NN	O	B-Process
+collisions	NN	O	I-Process
+,	NN	O	O
+λ	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+An	NN	O	O
+accurate	NN	O	B-Process
+and	NN	O	I-Process
+flexible	NN	O	I-Process
+modelling	NN	O	I-Process
+alternative	NN	O	I-Process
+for	NN	O	O
+these	NN	O	O
+cases	NN	O	O
+is	NN	O	O
+the	NN	O	O
+direct	NN	O	B-Process
+simulation	NN	O	I-Process
+Monte	NN	O	I-Process
+Carlo	NN	O	I-Process
+method	NN	O	I-Process
+(	NN	O	O
+DSMC	NN	O	B-Process
+)	NN	O	O
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+DSMC	NN	O	B-Process
+can	NN	O	O
+be	NN	O	O
+prohibitively	NN	O	O
+expensive	NN	O	O
+for	NN	O	O
+internal	NN	O	B-Process
+-	NN	O	I-Process
+flow	NN	O	I-Process
+applications	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+typically	NN	O	O
+have	NN	O	O
+a	NN	O	O
+geometry	NN	O	O
+of	NN	O	O
+high	NN	O	B-Material
+-	NN	O	I-Material
+aspect	NN	O	I-Material
+ratio	NN	O	I-Material
+(	NN	O	O
+i.e.	NN	O	O
+are	NN	O	O
+extremely	NN	O	O
+long	NN	O	O
+,	NN	O	O
+relative	NN	O	O
+to	NN	O	O
+their	NN	O	O
+cross	NN	O	O
+-	NN	O	O
+section	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+-	NN	O	I-Material
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+formidable	NN	O	O
+multiscale	NN	O	B-Task
+problem	NN	O	I-Task
+:	NN	O	O
+processes	NN	O	O
+need	NN	O	O
+to	NN	O	O
+be	NN	O	O
+resolved	NN	O	O
+occurring	NN	O	O
+over	NN	O	O
+the	NN	O	O
+smallest	NN	O	O
+characteristic	NN	O	O
+scale	NN	O	O
+of	NN	O	O
+the	NN	O	O
+geometry	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+a	NN	O	O
+channelʼs	NN	O	O
+height	NN	O	O
+)	NN	O	O
+,	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+over	NN	O	O
+the	NN	O	O
+largest	NN	O	O
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+scale	NN	O	O
+of	NN	O	O
+the	NN	O	O
+geometry	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+the	NN	O	O
+length	NN	O	O
+of	NN	O	O
+a	NN	O	O
+long	NN	O	B-Process
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+)	NN	O	O
+,	NN	O	O
+simultaneously	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999113006955)
+
+The	NN	O	O
+test	NN	O	O
+cases	NN	O	O
+confirm	NN	O	O
+that	NN	O	O
+the	NN	O	O
+high	NN	O	B-Process
+-	NN	O	I-Process
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+retains	NN	O	O
+exponential	NN	O	B-Process
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+properties	NN	O	I-Process
+with	NN	O	O
+increasing	NN	O	O
+geometric	NN	O	O
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+polynomial	NN	O	O
+order	NN	O	O
+if	NN	O	O
+both	NN	O	O
+the	NN	O	O
+solution	NN	O	B-Material
+and	NN	O	O
+true	NN	O	B-Material
+surface	NN	O	I-Material
+are	NN	O	O
+smooth	NN	O	O
+.	NN	O	O
+Errors	NN	O	O
+are	NN	O	O
+found	NN	O	O
+to	NN	O	O
+saturate	NN	O	O
+when	NN	O	O
+the	NN	O	O
+geometric	NN	O	O
+errors	NN	O	O
+,	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+parametrisation	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+surface	NN	O	I-Process
+elements	NN	O	I-Process
+,	NN	O	O
+begin	NN	O	O
+to	NN	O	O
+dominate	NN	O	O
+the	NN	O	O
+temporal	NN	O	O
+and	NN	O	O
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+errors	NN	O	O
+.	NN	O	O
+For	NN	O	O
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+considered	NN	O	O
+as	NN	O	O
+test	NN	O	O
+cases	NN	O	O
+,	NN	O	O
+the	NN	O	O
+results	NN	O	O
+show	NN	O	O
+that	NN	O	O
+this	NN	O	O
+dominance	NN	O	O
+of	NN	O	O
+geometric	NN	O	O
+errors	NN	O	O
+quickly	NN	O	O
+limits	NN	O	O
+the	NN	O	O
+effectiveness	NN	O	O
+of	NN	O	O
+further	NN	O	O
+increases	NN	O	O
+in	NN	O	O
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+degrees	NN	O	O
+of	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+Increasing	NN	O	O
+the	NN	O	O
+order	NN	O	O
+of	NN	O	O
+the	NN	O	O
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+reduces	NN	O	O
+the	NN	O	O
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+error	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+analytic	NN	O	B-Task
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+cases	NN	O	I-Task
+presented	NN	O	O
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+;	NN	O	O
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+,	NN	O	O
+meshes	NN	O	B-Material
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+to	NN	O	O
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+features	NN	O	I-Process
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+the	NN	O	I-Process
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+so	NN	O	O
+will	NN	O	O
+better	NN	O	O
+capture	NN	O	B-Process
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+consequently	NN	O	O
+reduce	NN	O	B-Process
+this	NN	O	I-Process
+lower	NN	O	I-Process
+bound	NN	O	I-Process
+on	NN	O	O
+the	NN	O	O
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+error	NN	O	O
+.	NN	O	O
+If	NN	O	O
+the	NN	O	O
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+is	NN	O	O
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+,	NN	O	O
+we	NN	O	O
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+not	NN	O	O
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+to	NN	O	O
+see	NN	O	O
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+convergence	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+case	NN	O	O
+that	NN	O	O
+the	NN	O	O
+solution	NN	O	B-Material
+is	NN	O	O
+smooth	NN	O	O
+,	NN	O	O
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+the	NN	O	O
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+surface	NN	O	I-Material
+is	NN	O	O
+not	NN	O	O
+,	NN	O	O
+then	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+boundaries	NN	O	I-Process
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+if	NN	O	O
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+lie	NN	O	O
+within	NN	O	O
+an	NN	O	O
+element	NN	O	B-Material
+,	NN	O	O
+convergence	NN	O	O
+will	NN	O	O
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+limited	NN	O	O
+by	NN	O	O
+the	NN	O	O
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+approximation	NN	O	I-Process
+,	NN	O	O
+since	NN	O	O
+the	NN	O	O
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+surface	NN	O	I-Material
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+not	NN	O	O
+be	NN	O	O
+captured	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+cardiac	NN	O	B-Task
+problem	NN	O	I-Task
+,	NN	O	O
+we	NN	O	O
+consider	NN	O	O
+both	NN	O	O
+the	NN	O	O
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+and	NN	O	O
+solution	NN	O	B-Material
+to	NN	O	O
+be	NN	O	O
+smooth	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999116303291)
+
+DPD	NN	O	B-Process
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+to	NN	O	O
+recover	NN	O	O
+the	NN	O	O
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+of	NN	O	O
+isotropy	NN	O	B-Process
+(	NN	O	O
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+Galilean	NN	O	B-Process
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+)	NN	O	O
+that	NN	O	O
+were	NN	O	O
+broken	NN	O	O
+in	NN	O	O
+the	NN	O	O
+so	NN	O	O
+-	NN	O	O
+called	NN	O	O
+lattice	NN	O	B-Process
+-	NN	O	I-Process
+gas	NN	O	I-Process
+automata	NN	O	I-Process
+method	NN	O	O
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+DPD	NN	O	B-Process
+,	NN	O	O
+each	NN	O	O
+body	NN	O	O
+is	NN	O	O
+regarded	NN	O	O
+as	NN	O	O
+a	NN	O	O
+coarse	NN	O	B-Material
+-	NN	O	I-Material
+grained	NN	O	I-Material
+particle	NN	O	I-Material
+.	NN	O	O
+These	NN	O	O
+particles	NN	O	B-Material
+interact	NN	O	O
+in	NN	O	O
+a	NN	O	O
+soft	NN	O	O
+(	NN	O	O
+and	NN	O	O
+short	NN	O	O
+-	NN	O	O
+ranged	NN	O	O
+)	NN	O	O
+potential	NN	O	O
+,	NN	O	O
+allowing	NN	O	O
+larger	NN	O	O
+integration	NN	O	O
+timesteps	NN	O	O
+than	NN	O	O
+would	NN	O	O
+be	NN	O	O
+possible	NN	O	O
+in	NN	O	O
+MD	NN	O	B-Process
+,	NN	O	O
+while	NN	O	O
+simultaneously	NN	O	O
+decreasing	NN	O	O
+the	NN	O	O
+number	NN	O	O
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+of	NN	O	O
+freedom	NN	O	O
+required	NN	O	O
+.	NN	O	O
+As	NN	O	O
+in	NN	O	O
+Langevin	NN	O	B-Process
+dynamics	NN	O	I-Process
+,	NN	O	O
+a	NN	O	O
+thermostat	NN	O	B-Process
+consisting	NN	O	O
+of	NN	O	O
+well	NN	O	O
+-	NN	O	O
+balanced	NN	O	O
+damping	NN	O	O
+and	NN	O	O
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+terms	NN	O	O
+is	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+each	NN	O	O
+particle	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+unlike	NN	O	O
+in	NN	O	O
+Langevin	NN	O	B-Process
+dynamics	NN	O	I-Process
+,	NN	O	O
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+terms	NN	O	O
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+pairwise	NN	O	O
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+the	NN	O	O
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+term	NN	O	O
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+on	NN	O	O
+relative	NN	O	O
+velocities	NN	O	O
+,	NN	O	O
+leading	NN	O	O
+to	NN	O	O
+the	NN	O	O
+conservation	NN	O	O
+of	NN	O	O
+both	NN	O	O
+the	NN	O	O
+angular	NN	O	B-Process
+momentum	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+linear	NN	O	B-Process
+momentum	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+property	NN	O	O
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+Galilean	NN	O	B-Process
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+i.e.	NN	O	O
+,	NN	O	O
+the	NN	O	O
+dependence	NN	O	B-Process
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+velocity	NN	O	I-Process
+)	NN	O	O
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+profile	NN	O	B-Process
+-	NN	O	I-Process
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+PUT	NN	O	B-Process
+)	NN	O	O
+[	NN	O	O
+6,7	NN	O	O
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+it	NN	O	O
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+ideal	NN	O	O
+thermostat	NN	O	O
+for	NN	O	O
+nonequilibrium	NN	O	B-Task
+molecular	NN	O	I-Task
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+(	NN	O	I-Task
+NEMD	NN	O	I-Task
+)	NN	O	I-Task
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+to	NN	O	O
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+locally	NN	O	O
+(	NN	O	O
+while	NN	O	O
+global	NN	O	O
+momentum	NN	O	O
+is	NN	O	O
+conserved	NN	O	O
+)	NN	O	O
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+the	NN	O	O
+correct	NN	O	O
+hydrodynamics	NN	O	O
+is	NN	O	O
+expected	NN	O	O
+in	NN	O	O
+DPD	NN	O	B-Process
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+,	NN	O	O
+as	NN	O	O
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+previously	NN	O	O
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+[	NN	O	O
+9	NN	O	O
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+,	NN	O	O
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+,	NN	O	I-Task
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+,	NN	O	I-Task
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+complex	NN	O	B-Material
+fluids	NN	O	I-Material
+,	NN	O	O
+with	NN	O	O
+applications	NN	O	O
+in	NN	O	O
+polymer	NN	O	B-Material
+solutions	NN	O	I-Material
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+,	NN	O	O
+colloidal	NN	O	B-Material
+suspensions	NN	O	I-Material
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+,	NN	O	O
+multiphase	NN	O	B-Material
+flows	NN	O	I-Material
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+biological	NN	O	B-Material
+systems	NN	O	I-Material
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+DPD	NN	O	B-Process
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+compared	NN	O	O
+with	NN	O	O
+Langevin	NN	O	B-Process
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+out	NN	O	O
+-	NN	O	O
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+-	NN	O	O
+equilibrium	NN	O	O
+simulations	NN	O	O
+of	NN	O	O
+polymeric	NN	O	B-Process
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+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+,	NN	O	O
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+fluctuations	NN	O	I-Process
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+the	NN	O	O
+latter	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386107010518)
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+Copper	NN	O	B-Material
+-	NN	O	I-Material
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+Huisgen	NN	O	I-Material
+cycloadditions	NN	O	I-Material
+have	NN	O	O
+been	NN	O	O
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+extensively	NN	O	O
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+(	NN	O	O
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+-	NN	O	O
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+-	NN	O	O
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+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+post	NN	O	O
+-	NN	O	O
+functionalization	NN	O	O
+of	NN	O	O
+synthetic	NN	O	B-Material
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+is	NN	O	O
+an	NN	O	O
+important	NN	O	O
+feature	NN	O	O
+of	NN	O	O
+macromolecular	NN	O	B-Task
+engineering	NN	O	I-Task
+as	NN	O	O
+many	NN	O	O
+polymerization	NN	O	B-Process
+mechanisms	NN	O	O
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+rather	NN	O	O
+sensitive	NN	O	O
+to	NN	O	O
+the	NN	O	O
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+of	NN	O	O
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+or	NN	O	O
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+groups	NN	O	O
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+,	NN	O	O
+a	NN	O	O
+wide	NN	O	O
+variety	NN	O	O
+of	NN	O	O
+telechelic	NN	O	B-Material
+polymers	NN	O	I-Material
+(	NN	O	O
+i.e.	NN	O	O
+polymers	NN	O	B-Material
+with	NN	O	I-Material
+defined	NN	O	I-Material
+chain	NN	O	I-Material
+-	NN	O	I-Material
+ends	NN	O	I-Material
+)	NN	O	O
+can	NN	O	O
+be	NN	O	O
+efficiently	NN	O	O
+prepared	NN	O	O
+using	NN	O	O
+a	NN	O	O
+combination	NN	O	O
+of	NN	O	O
+atom	NN	O	B-Process
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+polymerization	NN	O	I-Process
+(	NN	O	O
+ATRP	NN	O	B-Process
+)	NN	O	O
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+CuAAC	NN	O	B-Process
+.	NN	O	O
+This	NN	O	O
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+independently	NN	O	O
+reported	NN	O	O
+in	NN	O	O
+early	NN	O	O
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+by	NN	O	O
+van	NN	O	O
+Hest	NN	O	O
+and	NN	O	O
+Opsteen	NN	O	O
+[	NN	O	O
+31	NN	O	O
+]	NN	O	O
+,	NN	O	O
+Lutz	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+32	NN	O	O
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+,	NN	O	O
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+-DOCSTART- (S0032386108009397)
+
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+corresponding	NN	O	O
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+This	NN	O	O
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+69	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+The	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+size	NN	O	O
+of	NN	O	O
+the	NN	O	O
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+.	NN	O	O
+We	NN	O	O
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+end	NN	O	O
+-	NN	O	O
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+PDMS	NN	O	B-Material
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+containing	NN	O	O
+unattached	NN	O	O
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+PDMS	NN	O	B-Material
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+)	NN	O	O
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+)	NN	O	O
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+)	NN	O	O
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+-	NN	O	O
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+)	NN	O	O
+,	NN	O	O
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+The	NN	O	O
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+-	NN	O	I-Material
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+.	NN	O	I-Material
+
+-DOCSTART- (S0032386109001463)
+
+When	NN	O	O
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+,	NN	O	O
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+ABC	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	I-Material
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+,	NN	O	O
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+30	NN	O	O
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+,	NN	O	O
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+out	NN	O	O
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+tilings	NN	O	O
+,	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
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+6.6.6	NN	O	O
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+,	NN	O	O
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+4.8.8	NN	O	O
+)	NN	O	O
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+4.6.12	NN	O	O
+)	NN	O	O
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+for	NN	O	O
+three	NN	O	B-Material
+-	NN	O	I-Material
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+molecules	NN	O	I-Material
+proposed	NN	O	O
+as	NN	O	O
+the	NN	O	O
+“	NN	O	O
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+polygon	NN	O	I-Process
+theorem	NN	O	I-Process
+”	NN	O	O
+[	NN	O	O
+31	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386109003991)
+
+A	NN	O	O
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+a	NN	O	O
+reaction	NN	O	B-Process
+without	NN	O	O
+transfer	NN	O	O
+and	NN	O	O
+termination	NN	O	B-Process
+reactions	NN	O	O
+that	NN	O	O
+can	NN	O	O
+proceed	NN	O	O
+up	NN	O	O
+to	NN	O	O
+complete	NN	O	O
+monomer	NN	O	B-Process
+conversion	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+when	NN	O	O
+initiation	NN	O	O
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+to	NN	O	O
+the	NN	O	O
+propagation	NN	O	B-Process
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+,	NN	O	O
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+In	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+an	NN	O	O
+industrial	NN	O	B-Task
+styrene	NN	O	I-Task
+polymerization	NN	O	I-Task
+this	NN	O	O
+would	NN	O	O
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+to	NN	O	O
+avoid	NN	O	O
+any	NN	O	O
+specific	NN	O	O
+washing	NN	O	B-Process
+or	NN	O	O
+degassing	NN	O	B-Process
+steps	NN	O	O
+,	NN	O	O
+which	NN	O	O
+are	NN	O	O
+necessary	NN	O	O
+in	NN	O	O
+the	NN	O	O
+radical	NN	O	O
+process	NN	O	O
+to	NN	O	O
+remove	NN	O	O
+residual	NN	O	O
+monomer	NN	O	O
+and	NN	O	O
+low	NN	O	B-Material
+molar	NN	O	I-Material
+mass	NN	O	I-Material
+oligomers	NN	O	I-Material
+.	NN	O	O
+Since	NN	O	O
+head	NN	O	O
+-	NN	O	O
+to	NN	O	O
+-	NN	O	O
+head	NN	O	O
+defects	NN	O	O
+along	NN	O	O
+the	NN	O	O
+chains	NN	O	O
+are	NN	O	O
+absent	NN	O	O
+,	NN	O	O
+anionic	NN	O	B-Material
+polystyrene	NN	O	I-Material
+would	NN	O	O
+exhibit	NN	O	O
+also	NN	O	O
+a	NN	O	O
+better	NN	O	O
+thermal	NN	O	O
+stability	NN	O	O
+than	NN	O	O
+radical	NN	O	O
+one	NN	O	O
+.	NN	O	O
+Therefore	NN	O	O
+,	NN	O	O
+production	NN	O	B-Task
+of	NN	O	I-Task
+anionic	NN	O	I-Task
+polystyrene	NN	O	I-Task
+(	NN	O	I-Task
+PS	NN	O	I-Task
+)	NN	O	I-Task
+would	NN	O	O
+be	NN	O	O
+of	NN	O	O
+interest	NN	O	O
+if	NN	O	O
+the	NN	O	O
+conditions	NN	O	O
+required	NN	O	O
+to	NN	O	O
+control	NN	O	O
+the	NN	O	O
+polymerization	NN	O	B-Process
+could	NN	O	O
+be	NN	O	O
+adapted	NN	O	O
+to	NN	O	O
+the	NN	O	O
+market	NN	O	O
+and	NN	O	O
+be	NN	O	O
+able	NN	O	O
+to	NN	O	O
+compete	NN	O	O
+economically	NN	O	O
+with	NN	O	O
+industrial	NN	O	O
+radical	NN	O	O
+processes	NN	O	O
+.	NN	O	O
+The	NN	O	O
+use	NN	O	O
+of	NN	O	O
+organic	NN	O	B-Material
+solvents	NN	O	I-Material
+and	NN	O	O
+of	NN	O	O
+expensive	NN	O	O
+alkyllithium	NN	O	B-Process
+initiators	NN	O	I-Process
+,	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+the	NN	O	O
+relatively	NN	O	O
+low	NN	O	O
+reaction	NN	O	O
+temperatures	NN	O	O
+required	NN	O	O
+,	NN	O	O
+was	NN	O	O
+some	NN	O	O
+important	NN	O	O
+limitation	NN	O	O
+to	NN	O	O
+overcome	NN	O	O
+.	NN	O	O
+The	NN	O	O
+possibilities	NN	O	O
+to	NN	O	O
+achieve	NN	O	O
+a	NN	O	O
+quantitative	NN	O	O
+living	NN	O	O
+-	NN	O	O
+like	NN	O	O
+anionic	NN	O	B-Process
+polymerization	NN	O	I-Process
+of	NN	O	I-Process
+styrene	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+absence	NN	O	O
+of	NN	O	O
+solvent	NN	O	B-Material
+and	NN	O	O
+at	NN	O	O
+elevated	NN	O	O
+temperature	NN	O	O
+,	NN	O	O
+using	NN	O	O
+inexpensive	NN	O	O
+initiating	NN	O	O
+systems	NN	O	O
+,	NN	O	O
+were	NN	O	O
+the	NN	O	O
+main	NN	O	O
+targets	NN	O	O
+identified	NN	O	O
+to	NN	O	O
+tremendously	NN	O	O
+decrease	NN	O	O
+the	NN	O	O
+cost	NN	O	O
+of	NN	O	O
+the	NN	O	O
+anionic	NN	O	O
+process	NN	O	O
+.	NN	O	O
+This	NN	O	O
+implied	NN	O	O
+at	NN	O	O
+first	NN	O	O
+to	NN	O	O
+control	NN	O	O
+the	NN	O	O
+reactivity	NN	O	O
+and	NN	O	O
+stability	NN	O	O
+of	NN	O	O
+initiating	NN	O	O
+and	NN	O	O
+propagating	NN	O	B-Process
+active	NN	O	I-Process
+species	NN	O	I-Process
+in	NN	O	O
+such	NN	O	O
+unusual	NN	O	O
+operating	NN	O	O
+conditions	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386109005357)
+
+A	NN	O	O
+hydroxyl	NN	O	O
+-	NN	O	O
+functionalized	NN	O	O
+poly(butylene	NN	O	O
+succinate	NN	O	O
+)	NN	O	O
+based	NN	O	O
+polyester	NN	O	B-Material
+was	NN	O	O
+prepared	NN	O	O
+by	NN	O	O
+conventional	NN	O	O
+polycondensation	NN	O	B-Process
+of	NN	O	O
+benzyl	NN	O	O
+-	NN	O	O
+protected	NN	O	O
+dimethyl	NN	O	B-Material
+malonate	NN	O	I-Material
+and	NN	O	O
+1,4-butanediol	NN	O	B-Material
+(	NN	O	O
+Scheme	NN	O	O
+2(a	NN	O	O
+)	NN	O	O
+)	NN	O	O
+[	NN	O	O
+24a	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Yao	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+reported	NN	O	O
+on	NN	O	O
+the	NN	O	O
+direct	NN	O	O
+polycondensation	NN	O	B-Process
+of	NN	O	O
+l	NN	O	B-Material
+-	NN	O	I-Material
+lactic	NN	O	I-Material
+acid	NN	O	I-Material
+and	NN	O	O
+citric	NN	O	B-Material
+acid	NN	O	I-Material
+with	NN	O	O
+the	NN	O	O
+formation	NN	O	O
+of	NN	O	O
+poly[(l	NN	O	B-Material
+-	NN	O	I-Material
+lactic	NN	O	I-Material
+acid)-co-(citric	NN	O	I-Material
+acid	NN	O	I-Material
+)	NN	O	I-Material
+]	NN	O	I-Material
+,	NN	O	O
+obtaining	NN	O	O
+a	NN	O	O
+polyester	NN	O	B-Material
+oligomer	NN	O	I-Material
+with	NN	O	O
+both	NN	O	O
+pendant	NN	O	O
+carboxylic	NN	O	O
+and	NN	O	O
+hydroxyl	NN	O	O
+groups	NN	O	O
+[	NN	O	O
+24b	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+PLCA	NN	O	B-Material
+oligomer	NN	O	I-Material
+was	NN	O	O
+reacted	NN	O	O
+with	NN	O	O
+dihydroxylated	NN	O	B-Material
+PLLA	NN	O	I-Material
+as	NN	O	O
+a	NN	O	O
+macromonomer	NN	O	O
+,	NN	O	O
+yielding	NN	O	O
+a	NN	O	O
+PLCA	NN	O	B-Material
+–	NN	O	I-Material
+PLLA	NN	O	I-Material
+multiblock	NN	O	I-Material
+copolymer	NN	O	I-Material
+as	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Scheme	NN	O	O
+2(b	NN	O	O
+)	NN	O	O
+.	NN	O	O
+While	NN	O	O
+lipases	NN	O	B-Material
+have	NN	O	O
+been	NN	O	O
+investigated	NN	O	O
+for	NN	O	O
+the	NN	O	O
+ring	NN	O	B-Process
+-	NN	O	I-Process
+opening	NN	O	I-Process
+polymerization	NN	O	I-Process
+(	NN	O	O
+ROP	NN	O	B-Process
+)	NN	O	O
+of	NN	O	O
+cyclic	NN	O	B-Material
+ester	NN	O	I-Material
+monomers	NN	O	I-Material
+[	NN	O	O
+25,26	NN	O	O
+]	NN	O	O
+,	NN	O	O
+they	NN	O	O
+have	NN	O	O
+also	NN	O	O
+been	NN	O	O
+used	NN	O	O
+for	NN	O	O
+the	NN	O	O
+preparation	NN	O	O
+of	NN	O	O
+polyesters	NN	O	B-Material
+by	NN	O	O
+polycondensation	NN	O	B-Process
+reactions	NN	O	O
+.	NN	O	O
+The	NN	O	O
+advantage	NN	O	O
+of	NN	O	O
+this	NN	O	O
+technique	NN	O	O
+is	NN	O	O
+that	NN	O	O
+these	NN	O	O
+enzyme	NN	O	B-Process
+-	NN	O	I-Process
+catalyzed	NN	O	I-Process
+reactions	NN	O	O
+proceed	NN	O	O
+without	NN	O	O
+protection	NN	O	O
+of	NN	O	O
+the	NN	O	O
+pendant	NN	O	O
+functional	NN	O	O
+groups	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+field	NN	O	O
+,	NN	O	O
+hydroxyl	NN	O	B-Material
+-	NN	O	I-Material
+bearing	NN	O	I-Material
+polyesters	NN	O	I-Material
+have	NN	O	O
+been	NN	O	O
+synthesized	NN	O	O
+by	NN	O	O
+the	NN	O	O
+copolymerization	NN	O	B-Process
+of	NN	O	O
+divinyl	NN	O	B-Material
+adipate	NN	O	I-Material
+with	NN	O	O
+various	NN	O	O
+triols	NN	O	B-Material
+(	NN	O	O
+e.g.	NN	O	O
+glycerol	NN	O	B-Material
+,	NN	O	O
+1,2,4-butanetriol	NN	O	B-Material
+)	NN	O	O
+as	NN	O	O
+represented	NN	O	O
+in	NN	O	O
+Scheme	NN	O	O
+2(c	NN	O	O
+)	NN	O	O
+[	NN	O	O
+27	NN	O	O
+]	NN	O	O
+and	NN	O	O
+by	NN	O	O
+copolymerizations	NN	O	B-Process
+of	NN	O	O
+1,8-octanediol	NN	O	B-Material
+with	NN	O	O
+adipic	NN	O	B-Material
+acid	NN	O	I-Material
+and	NN	O	O
+several	NN	O	O
+alditols	NN	O	B-Material
+[	NN	O	O
+28	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Very	NN	O	O
+recently	NN	O	O
+,	NN	O	O
+several	NN	O	O
+α-hydroxy	NN	O	B-Material
+acids	NN	O	I-Material
+derived	NN	O	O
+from	NN	O	O
+amino	NN	O	B-Material
+acids	NN	O	I-Material
+were	NN	O	O
+homo-	NN	O	O
+and	NN	O	O
+copolymerized	NN	O	O
+with	NN	O	O
+lactic	NN	O	B-Material
+acid	NN	O	I-Material
+by	NN	O	O
+polycondensation	NN	O	B-Process
+in	NN	O	O
+bulk	NN	O	O
+without	NN	O	O
+protected	NN	O	O
+monomers	NN	O	B-Material
+(	NN	O	O
+Scheme	NN	O	O
+2(d	NN	O	O
+)	NN	O	O
+)	NN	O	O
+[	NN	O	O
+29	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Biodegradable	NN	O	B-Material
+polyesters	NN	O	I-Material
+with	NN	O	O
+various	NN	O	O
+pendant	NN	O	O
+groups	NN	O	O
+were	NN	O	O
+obtained	NN	O	O
+,	NN	O	O
+although	NN	O	O
+the	NN	O	O
+molecular	NN	O	O
+weights	NN	O	O
+remained	NN	O	O
+low	NN	O	O
+(	NN	O	O
+1000–3000gmol−1	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386110001254)
+
+Despite	NN	O	O
+the	NN	O	O
+loss	NN	O	O
+of	NN	O	O
+directed	NN	O	O
+,	NN	O	O
+self	NN	O	O
+-	NN	O	O
+complementary	NN	O	O
+hydrogen	NN	O	B-Process
+bonding	NN	O	I-Process
+through	NN	O	O
+alkylation	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+imidazole	NN	O	O
+ring	NN	O	O
+,	NN	O	O
+electrostatic	NN	O	B-Process
+aggregation	NN	O	I-Process
+of	NN	O	O
+imidazolium	NN	O	B-Material
+salts	NN	O	I-Material
+is	NN	O	O
+a	NN	O	O
+tunable	NN	O	O
+,	NN	O	O
+self	NN	O	O
+-	NN	O	O
+assembly	NN	O	O
+process	NN	O	O
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+instrumental	NN	O	O
+to	NN	O	O
+several	NN	O	O
+applications	NN	O	O
+.	NN	O	O
+Imidazolium	NN	O	B-Material
+salts	NN	O	I-Material
+are	NN	O	O
+used	NN	O	O
+to	NN	O	O
+extract	NN	O	O
+metal	NN	O	B-Material
+ions	NN	O	I-Material
+from	NN	O	O
+aqueous	NN	O	B-Material
+solutions	NN	O	I-Material
+and	NN	O	O
+coat	NN	O	O
+metal	NN	O	B-Material
+nanoparticles	NN	O	I-Material
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+,	NN	O	O
+dissolve	NN	O	O
+carbohydrates	NN	O	B-Material
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+create	NN	O	O
+polyelectrolyte	NN	O	B-Process
+brushes	NN	O	I-Process
+on	NN	O	O
+surfaces	NN	O	O
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+For	NN	O	O
+example	NN	O	O
+,	NN	O	O
+atom	NN	O	B-Process
+transfer	NN	O	I-Process
+radical	NN	O	I-Process
+polymerization	NN	O	I-Process
+(	NN	O	O
+ATRP	NN	O	B-Process
+)	NN	O	O
+was	NN	O	O
+used	NN	O	O
+to	NN	O	O
+graft	NN	O	O
+poly(1-ethyl	NN	O	B-Material
+3-(2-methacryloyloxy	NN	O	I-Material
+ethyl	NN	O	I-Material
+)	NN	O	I-Material
+imidazolium	NN	O	I-Material
+chloride	NN	O	I-Material
+)	NN	O	O
+brushes	NN	O	O
+onto	NN	O	O
+gold	NN	O	B-Material
+surfaces	NN	O	I-Material
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+One	NN	O	O
+of	NN	O	O
+the	NN	O	O
+imidazolium	NN	O	B-Material
+salt	NN	O	I-Material
+’s	NN	O	O
+most	NN	O	O
+promising	NN	O	O
+attributes	NN	O	O
+is	NN	O	O
+its	NN	O	O
+antimicrobial	NN	O	B-Process
+action	NN	O	I-Process
+[	NN	O	O
+12,18	NN	O	O
+]	NN	O	O
+and	NN	O	O
+molecular	NN	O	O
+self	NN	O	O
+-	NN	O	O
+assembly	NN	O	O
+into	NN	O	O
+liquid	NN	O	B-Material
+crystals	NN	O	I-Material
+[	NN	O	O
+19,20	NN	O	O
+]	NN	O	O
+.	NN	O	O
+1-Alkyl-3-methylimidazolium	NN	O	B-Material
+chlorides	NN	O	I-Material
+and	NN	O	O
+bromides	NN	O	B-Material
+,	NN	O	O
+1-alkyl-2-methyl-3-hydroxyethylimidazolium	NN	O	B-Material
+chlorides	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+N	NN	O	B-Material
+-	NN	O	I-Material
+alkyl	NN	O	I-Material
+-	NN	O	I-Material
+N	NN	O	I-Material
+-	NN	O	I-Material
+hydroxyethylpyrrolidinonium	NN	O	I-Material
+,	NN	O	O
+for	NN	O	O
+example	NN	O	O
+,	NN	O	O
+all	NN	O	O
+exhibit	NN	O	O
+strong	NN	O	O
+biocidal	NN	O	B-Process
+activity	NN	O	I-Process
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Hydrogels	NN	O	B-Material
+form	NN	O	I-Material
+from	NN	O	O
+polymerized	NN	O	B-Material
+methylimidazolium	NN	O	I-Material
+-	NN	O	I-Material
+based	NN	O	I-Material
+ionic	NN	O	I-Material
+liquids	NN	O	I-Material
+with	NN	O	O
+acryloyl	NN	O	B-Material
+groups	NN	O	I-Material
+;	NN	O	O
+the	NN	O	O
+polymer	NN	O	B-Material
+self	NN	O	O
+-	NN	O	O
+assembles	NN	O	O
+into	NN	O	O
+organized	NN	O	B-Material
+lamellae	NN	O	I-Material
+with	NN	O	O
+unique	NN	O	O
+swelling	NN	O	O
+properties	NN	O	O
+,	NN	O	O
+leading	NN	O	O
+to	NN	O	O
+bioactive	NN	O	B-Task
+applications	NN	O	I-Task
+[	NN	O	O
+19	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Other	NN	O	O
+bioactive	NN	O	B-Task
+applications	NN	O	I-Task
+for	NN	O	O
+imidazolium	NN	O	B-Material
+salts	NN	O	I-Material
+include	NN	O	O
+antiarrhythmics	NN	O	B-Material
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
+,	NN	O	O
+anti	NN	O	B-Material
+-	NN	O	I-Material
+metastic	NN	O	I-Material
+agents	NN	O	I-Material
+[	NN	O	O
+22,23	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+imidazolium	NN	O	B-Material
+-	NN	O	I-Material
+based	NN	O	I-Material
+steroids	NN	O	I-Material
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Separation	NN	O	B-Process
+applications	NN	O	I-Process
+include	NN	O	O
+efficient	NN	O	B-Process
+absorption	NN	O	I-Process
+of	NN	O	I-Process
+CO2	NN	O	I-Process
+[	NN	O	O
+25	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Imidazolium	NN	O	B-Material
+salts	NN	O	I-Material
+enhance	NN	O	O
+vesicle	NN	O	B-Process
+formation	NN	O	I-Process
+as	NN	O	O
+imidazolium	NN	O	B-Material
+surfactants	NN	O	I-Material
+[	NN	O	O
+26	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+they	NN	O	O
+also	NN	O	O
+find	NN	O	O
+application	NN	O	O
+in	NN	O	O
+polymeric	NN	O	B-Process
+actuators	NN	O	I-Process
+[	NN	O	O
+27	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0039602899010493)
+
+Although	NN	O	O
+the	NN	O	O
+basic	NN	O	O
+mechanisms	NN	O	O
+of	NN	O	O
+the	NN	O	O
+AD	NN	O	B-Process
+process	NN	O	O
+are	NN	O	O
+reasonably	NN	O	O
+well	NN	O	O
+understood	NN	O	O
+,	NN	O	O
+it	NN	O	O
+has	NN	O	O
+not	NN	O	O
+proved	NN	O	O
+simple	NN	O	O
+to	NN	O	O
+apply	NN	O	O
+existing	NN	O	O
+theories	NN	O	O
+to	NN	O	O
+the	NN	O	O
+interpretation	NN	O	O
+of	NN	O	O
+experimental	NN	O	O
+data	NN	O	O
+.	NN	O	O
+What	NN	O	O
+is	NN	O	O
+needed	NN	O	O
+is	NN	O	O
+a	NN	O	O
+combination	NN	O	O
+of	NN	O	O
+the	NN	O	O
+AD	NN	O	B-Process
+theory	NN	O	O
+and	NN	O	O
+the	NN	O	O
+electronic	NN	O	O
+structure	NN	O	O
+of	NN	O	O
+realistic	NN	O	O
+systems	NN	O	O
+,	NN	O	O
+including	NN	O	O
+surface	NN	O	B-Material
+defects	NN	O	I-Material
+and	NN	O	O
+adsorbed	NN	O	B-Material
+species	NN	O	I-Material
+.	NN	O	O
+Such	NN	O	O
+electronic	NN	O	O
+structure	NN	O	O
+calculations	NN	O	O
+are	NN	O	O
+still	NN	O	O
+complex	NN	O	O
+and	NN	O	O
+time	NN	O	O
+-	NN	O	O
+consuming	NN	O	O
+.	NN	O	O
+In	NN	O	O
+many	NN	O	O
+cases	NN	O	O
+,	NN	O	O
+especially	NN	O	O
+for	NN	O	O
+insulating	NN	O	O
+surfaces	NN	O	O
+,	NN	O	O
+attempts	NN	O	O
+to	NN	O	O
+model	NN	O	O
+MIES	NN	O	B-Material
+spectra	NN	O	I-Material
+use	NN	O	O
+simple	NN	O	O
+or	NN	O	O
+intuitive	NN	O	O
+models	NN	O	O
+.	NN	O	O
+In	NN	O	O
+Refs	NN	O	O
+.	NN	O	O
+[	NN	O	O
+4,6,23	NN	O	O
+]	NN	O	O
+it	NN	O	O
+is	NN	O	O
+assumed	NN	O	O
+that	NN	O	O
+the	NN	O	O
+main	NN	O	O
+transition	NN	O	O
+mechanism	NN	O	O
+is	NN	O	O
+Auger	NN	O	B-Process
+de	NN	O	I-Process
+-	NN	O	I-Process
+excitation	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+MIES	NN	O	B-Material
+spectra	NN	O	I-Material
+have	NN	O	O
+been	NN	O	O
+simulated	NN	O	O
+by	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+density	NN	O	B-Process
+of	NN	O	I-Process
+states	NN	O	I-Process
+(	NN	O	O
+DOS	NN	O	B-Process
+)	NN	O	O
+projected	NN	O	O
+on	NN	O	O
+the	NN	O	O
+surface	NN	O	B-Material
+oxygen	NN	O	I-Material
+ions	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+uppermost	NN	O	O
+surface	NN	O	O
+layer	NN	O	O
+using	NN	O	O
+a	NN	O	O
+Hartree	NN	O	B-Process
+–	NN	O	I-Process
+Fock	NN	O	I-Process
+method	NN	O	I-Process
+(	NN	O	O
+the	NN	O	O
+crystal	NN	O	B-Process
+code	NN	O	I-Process
+[	NN	O	O
+24,25	NN	O	O
+]	NN	O	O
+)	NN	O	O
+and	NN	O	O
+a	NN	O	O
+density	NN	O	B-Process
+functional	NN	O	I-Process
+theory	NN	O	I-Process
+(	NN	O	O
+DFT	NN	O	B-Process
+)	NN	O	O
+method	NN	O	O
+(	NN	O	O
+the	NN	O	O
+cetep	NN	O	B-Process
+code	NN	O	I-Process
+[	NN	O	O
+26	NN	O	O
+]	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+effect	NN	O	O
+of	NN	O	O
+the	NN	O	O
+overlap	NN	O	O
+between	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+and	NN	O	O
+He(1s	NN	O	O
+)	NN	O	O
+wavefunctions	NN	O	O
+was	NN	O	O
+taken	NN	O	O
+into	NN	O	O
+account	NN	O	O
+only	NN	O	O
+approximately	NN	O	O
+by	NN	O	O
+applying	NN	O	O
+an	NN	O	O
+additional	NN	O	O
+z	NN	O	O
+-	NN	O	O
+dependent	NN	O	O
+exponential	NN	O	O
+factor	NN	O	O
+to	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+DOS	NN	O	B-Process
+.	NN	O	O
+Other	NN	O	O
+workers	NN	O	O
+[	NN	O	O
+5,6	NN	O	O
+]	NN	O	O
+estimated	NN	O	O
+the	NN	O	O
+AD	NN	O	B-Process
+transition	NN	O	I-Process
+probability	NN	O	O
+using	NN	O	O
+a	NN	O	O
+DOS	NN	O	B-Process
+projected	NN	O	O
+on	NN	O	O
+to	NN	O	O
+the	NN	O	O
+projectile	NN	O	O
+1s	NN	O	O
+atomic	NN	O	O
+orbital	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+they	NN	O	O
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+not	NN	O	O
+able	NN	O	O
+to	NN	O	O
+use	NN	O	O
+state	NN	O	O
+-	NN	O	O
+of	NN	O	O
+-	NN	O	O
+the	NN	O	O
+-	NN	O	O
+art	NN	O	O
+methods	NN	O	O
+for	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+electronic	NN	O	O
+structure	NN	O	O
+.	NN	O	O
+Yet	NN	O	O
+the	NN	O	O
+success	NN	O	O
+of	NN	O	O
+the	NN	O	O
+simplified	NN	O	O
+treatments	NN	O	O
+[	NN	O	O
+4–6	NN	O	O
+]	NN	O	O
+,	NN	O	O
+especially	NN	O	O
+for	NN	O	O
+MIES	NN	O	B-Material
+features	NN	O	O
+such	NN	O	O
+as	NN	O	O
+relative	NN	O	O
+energies	NN	O	O
+of	NN	O	O
+the	NN	O	O
+different	NN	O	O
+peaks	NN	O	O
+,	NN	O	O
+suggests	NN	O	O
+that	NN	O	O
+real	NN	O	O
+spectra	NN	O	O
+are	NN	O	O
+indeed	NN	O	O
+related	NN	O	O
+to	NN	O	O
+the	NN	O	O
+projection	NN	O	O
+of	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+DOS	NN	O	B-Process
+on	NN	O	O
+to	NN	O	O
+the	NN	O	O
+projectile	NN	O	O
+orbital	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0098300413002124)
+
+In	NN	O	O
+this	NN	O	O
+section	NN	O	O
+,	NN	O	O
+we	NN	O	O
+use	NN	O	O
+the	NN	O	O
+terrain	NN	O	B-Process
+data	NN	O	I-Process
+processing	NN	O	I-Process
+as	NN	O	O
+an	NN	O	O
+example	NN	O	O
+to	NN	O	O
+describe	NN	O	B-Task
+the	NN	O	I-Task
+geodetic	NN	O	I-Task
+data	NN	O	I-Task
+transformation	NN	O	I-Task
+method	NN	O	I-Task
+.	NN	O	O
+Since	NN	O	O
+Google	NN	O	O
+Maps	NN	O	O
+/	NN	O	O
+Earth	NN	O	O
+server	NN	O	O
+only	NN	O	O
+gives	NN	O	O
+the	NN	O	O
+terrain	NN	O	O
+data	NN	O	O
+in	NN	O	O
+graphical	NN	O	O
+display	NN	O	O
+,	NN	O	O
+we	NN	O	O
+have	NN	O	O
+to	NN	O	O
+get	NN	O	O
+terrain	NN	O	B-Material
+digital	NN	O	I-Material
+data	NN	O	I-Material
+from	NN	O	O
+other	NN	O	O
+sources	NN	O	O
+.	NN	O	O
+The	NN	O	O
+fine	NN	O	B-Process
+-	NN	O	I-Process
+resolution	NN	O	I-Process
+(	NN	O	I-Process
+3″	NN	O	I-Process
+or	NN	O	I-Process
+finer	NN	O	I-Process
+)	NN	O	I-Process
+terrain	NN	O	I-Process
+data	NN	O	I-Process
+bases	NN	O	I-Process
+such	NN	O	O
+as	NN	O	O
+SRTM	NN	O	B-Process
+(	NN	O	O
+Shuttle	NN	O	B-Process
+Radar	NN	O	I-Process
+Topographical	NN	O	I-Process
+Mission	NN	O	I-Process
+)	NN	O	O
+or	NN	O	O
+USGS	NN	O	O
+'s	NN	O	O
+DEM	NN	O	B-Process
+(	NN	O	O
+Digital	NN	O	B-Process
+Elevation	NN	O	I-Process
+Model	NN	O	I-Process
+)	NN	O	O
+data	NN	O	O
+are	NN	O	O
+necessary	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+since	NN	O	O
+3DWF	NN	O	O
+is	NN	O	O
+used	NN	O	O
+to	NN	O	O
+model	NN	O	O
+the	NN	O	O
+fine	NN	O	B-Process
+-	NN	O	I-Process
+scale	NN	O	I-Process
+(	NN	O	I-Process
+meters	NN	O	I-Process
+up	NN	O	I-Process
+to	NN	O	I-Process
+100	NN	O	I-Process
+m	NN	O	I-Process
+)	NN	O	I-Process
+atmospheric	NN	O	I-Process
+flow	NN	O	I-Process
+,	NN	O	O
+it	NN	O	O
+needs	NN	O	O
+fine	NN	O	O
+resolution	NN	O	O
+terrain	NN	O	O
+data	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+project	NN	O	O
+,	NN	O	O
+we	NN	O	O
+use	NN	O	O
+the	NN	O	O
+terrain	NN	O	O
+elevation	NN	O	O
+data	NN	O	O
+set	NN	O	O
+from	NN	O	O
+SRTM	NN	O	B-Process
+(	NN	O	O
+Farr	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+2007	NN	O	O
+)	NN	O	O
+with	NN	O	O
+3-arcsecond	NN	O	O
+(	NN	O	O
+~90	NN	O	O
+m	NN	O	O
+resolution	NN	O	O
+at	NN	O	O
+the	NN	O	O
+equator	NN	O	O
+)	NN	O	O
+resolution	NN	O	O
+.	NN	O	O
+The	NN	O	O
+data	NN	O	O
+covers	NN	O	O
+the	NN	O	O
+land	NN	O	O
+area	NN	O	O
+,	NN	O	O
+nearly	NN	O	O
+global	NN	O	O
+from	NN	O	O
+56S	NN	O	O
+to	NN	O	O
+60N	NN	O	O
+latitudes	NN	O	O
+.	NN	O	O
+We	NN	O	O
+use	NN	O	O
+the	NN	O	O
+processed	NN	O	O
+version	NN	O	O
+4	NN	O	O
+SRTM	NN	O	B-Process
+data	NN	O	O
+set	NN	O	O
+as	NN	O	O
+described	NN	O	O
+in	NN	O	O
+Gamache	NN	O	O
+(	NN	O	O
+2005	NN	O	O
+)	NN	O	O
+in	NN	O	O
+which	NN	O	O
+some	NN	O	O
+of	NN	O	O
+the	NN	O	O
+missing	NN	O	O
+data	NN	O	O
+holes	NN	O	O
+were	NN	O	O
+filled	NN	O	O
+.	NN	O	O
+The	NN	O	O
+original	NN	O	O
+data	NN	O	O
+is	NN	O	O
+organized	NN	O	O
+in	NN	O	O
+WGS84	NN	O	B-Material
+(	NN	O	O
+World	NN	O	B-Material
+Geodetic	NN	O	I-Material
+System	NN	O	I-Material
+84	NN	O	I-Material
+)	NN	O	O
+geodetic	NN	O	O
+coordinate	NN	O	O
+system	NN	O	O
+.	NN	O	O
+When	NN	O	O
+the	NN	O	O
+data	NN	O	O
+are	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+the	NN	O	O
+3DWF	NN	O	B-Process
+model	NN	O	O
+,	NN	O	O
+they	NN	O	O
+are	NN	O	O
+transformed	NN	O	O
+to	NN	O	O
+the	NN	O	O
+local	NN	O	O
+East	NN	O	B-Material
+,	NN	O	I-Material
+North	NN	O	I-Material
+and	NN	O	I-Material
+Up	NN	O	I-Material
+(	NN	O	O
+ENU	NN	O	B-Material
+)	NN	O	O
+coordinate	NN	O	O
+(	NN	O	O
+see	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Since	NN	O	O
+the	NN	O	O
+3DWF	NN	O	B-Process
+is	NN	O	O
+a	NN	O	O
+fine	NN	O	O
+scale	NN	O	O
+wind	NN	O	O
+model	NN	O	O
+and	NN	O	O
+its	NN	O	O
+entire	NN	O	O
+model	NN	O	O
+domain	NN	O	O
+is	NN	O	O
+not	NN	O	O
+intended	NN	O	O
+to	NN	O	O
+be	NN	O	O
+larger	NN	O	O
+than	NN	O	O
+20×20	NN	O	O
+km	NN	O	O
+,	NN	O	O
+this	NN	O	O
+Cartesian	NN	O	B-Material
+coordinate	NN	O	I-Material
+system	NN	O	I-Material
+is	NN	O	O
+a	NN	O	O
+good	NN	O	O
+choice	NN	O	O
+with	NN	O	O
+very	NN	O	O
+little	NN	O	O
+distortion	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+curvature	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Earth	NN	O	O
+'s	NN	O	O
+surface	NN	O	O
+.	NN	O	O
+The	NN	O	O
+transformation	NN	O	O
+from	NN	O	O
+the	NN	O	O
+WGS84	NN	O	O
+data	NN	O	O
+to	NN	O	O
+the	NN	O	O
+ENU	NN	O	O
+coordinate	NN	O	O
+is	NN	O	O
+performed	NN	O	O
+as	NN	O	O
+follows	NN	O	O
+(	NN	O	O
+Fukushima	NN	O	O
+,	NN	O	O
+2006	NN	O	O
+;	NN	O	O
+Featherstone	NN	O	O
+and	NN	O	O
+Claessens	NN	O	O
+,	NN	O	O
+2008	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0098300414000259)
+
+Apache	NN	O	B-Process
+Pig	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+platform	NN	O	O
+for	NN	O	O
+creating	NN	O	O
+MapReduce	NN	O	B-Process
+workflows	NN	O	I-Process
+with	NN	O	O
+Hadoop	NN	O	B-Material
+.	NN	O	O
+These	NN	O	O
+workflows	NN	O	O
+are	NN	O	O
+expressed	NN	O	O
+as	NN	O	O
+directed	NN	O	B-Material
+acyclic	NN	O	I-Material
+graphs	NN	O	I-Material
+(	NN	O	O
+DAGs	NN	O	B-Material
+)	NN	O	O
+of	NN	O	O
+tasks	NN	O	O
+that	NN	O	O
+exist	NN	O	O
+at	NN	O	O
+a	NN	O	O
+conceptually	NN	O	O
+higher	NN	O	O
+level	NN	O	O
+than	NN	O	O
+their	NN	O	O
+implementations	NN	O	O
+as	NN	O	O
+series	NN	O	O
+of	NN	O	O
+MapReduce	NN	O	B-Process
+jobs	NN	O	O
+.	NN	O	O
+Pig	NN	O	B-Process
+Latin	NN	O	I-Process
+is	NN	O	O
+the	NN	O	O
+procedural	NN	O	O
+language	NN	O	O
+used	NN	O	O
+for	NN	O	O
+building	NN	O	O
+these	NN	O	O
+workflows	NN	O	O
+,	NN	O	O
+providing	NN	O	O
+syntax	NN	O	O
+similar	NN	O	O
+to	NN	O	O
+the	NN	O	O
+declarative	NN	O	O
+SQL	NN	O	B-Process
+commonly	NN	O	O
+used	NN	O	O
+for	NN	O	O
+relational	NN	O	O
+database	NN	O	O
+systems	NN	O	O
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+to	NN	O	O
+standard	NN	O	O
+SQL	NN	O	B-Process
+operations	NN	O	I-Process
+,	NN	O	O
+Pig	NN	O	B-Process
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+user	NN	O	B-Process
+-	NN	O	I-Process
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+(	NN	O	O
+UDFs	NN	O	B-Process
+)	NN	O	O
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+written	NN	O	O
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+Java	NN	O	O
+.	NN	O	O
+We	NN	O	O
+adopted	NN	O	O
+Pig	NN	O	B-Process
+for	NN	O	O
+our	NN	O	O
+implementation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+correlator	NN	O	O
+to	NN	O	O
+speed	NN	O	O
+up	NN	O	O
+development	NN	O	O
+time	NN	O	O
+,	NN	O	O
+allow	NN	O	O
+for	NN	O	O
+ad	NN	O	O
+hoc	NN	O	O
+workflow	NN	O	O
+changes	NN	O	O
+,	NN	O	O
+and	NN	O	O
+to	NN	O	O
+embrace	NN	O	O
+the	NN	O	O
+Hadoop	NN	O	B-Material
+community׳s	NN	O	O
+migration	NN	O	O
+away	NN	O	O
+from	NN	O	O
+MapReduce	NN	O	B-Process
+towards	NN	O	O
+more	NN	O	O
+generalized	NN	O	O
+DAG	NN	O	B-Task
+processing	NN	O	I-Task
+(	NN	O	O
+Mayer	NN	O	O
+,	NN	O	O
+2013	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Specifically	NN	O	O
+,	NN	O	O
+in	NN	O	O
+the	NN	O	O
+event	NN	O	O
+that	NN	O	O
+future	NN	O	O
+versions	NN	O	O
+of	NN	O	O
+Hadoop	NN	O	B-Material
+are	NN	O	O
+optimized	NN	O	O
+to	NN	O	O
+support	NN	O	O
+paradigms	NN	O	O
+other	NN	O	O
+than	NN	O	O
+MapReduce	NN	O	B-Process
+,	NN	O	O
+Pig	NN	O	B-Material
+scripts	NN	O	I-Material
+could	NN	O	O
+take	NN	O	O
+advantage	NN	O	O
+of	NN	O	O
+these	NN	O	O
+advances	NN	O	O
+without	NN	O	O
+recoding	NN	O	O
+,	NN	O	O
+whereas	NN	O	O
+explicit	NN	O	O
+Java	NN	O	B-Process
+MapReduce	NN	O	I-Process
+jobs	NN	O	O
+would	NN	O	O
+need	NN	O	O
+to	NN	O	O
+be	NN	O	O
+rewritten	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0098300414002532)
+
+The	NN	O	B-Task
+threshold	NN	O	I-Task
+values	NN	O	I-Task
+for	NN	O	I-Task
+removing	NN	O	I-Task
+large	NN	O	I-Task
+caters	NN	O	I-Task
+were	NN	O	I-Task
+determined	NN	O	I-Task
+by	NN	O	O
+examining	NN	O	O
+the	NN	O	O
+craters	NN	O	O
+within	NN	O	O
+the	NN	O	O
+study	NN	O	O
+area	NN	O	O
+,	NN	O	O
+referencing	NN	O	O
+previous	NN	O	O
+studies	NN	O	O
+(	NN	O	O
+Molloy	NN	O	O
+and	NN	O	O
+Stepinski	NN	O	O
+,	NN	O	O
+2007	NN	O	O
+)	NN	O	O
+,	NN	O	O
+and	NN	O	O
+some	NN	O	O
+trial	NN	O	O
+and	NN	O	O
+error	NN	O	O
+.	NN	O	O
+After	NN	O	O
+the	NN	O	O
+parameter	NN	O	O
+values	NN	O	O
+are	NN	O	O
+determined	NN	O	O
+,	NN	O	O
+the	NN	O	O
+rest	NN	O	O
+of	NN	O	O
+the	NN	O	O
+process	NN	O	O
+is	NN	O	O
+automated	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
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+it	NN	O	O
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+all	NN	O	O
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+.	NN	O	O
+To	NN	O	O
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+the	NN	O	O
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+resulted	NN	O	O
+from	NN	O	O
+map	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+(	NN	O	O
+1995	NN	O	O
+)	NN	O	O
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+geodesic	NN	O	O
+area	NN	O	O
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+using	NN	O	O
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+“	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
+,	NN	O	O
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+.	NN	O	O
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+It	NN	O	O
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+Misalignments	NN	O	O
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+Rather	NN	O	O
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+the	NN	O	O
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+informal	NN	O	O
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+the	NN	O	O
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+decided	NN	O	O
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+processes	NN	O	O
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+organisational	NN	O	O
+goals	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+of	NN	O	O
+what	NN	O	O
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+term	NN	O	O
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+,	NN	O	O
+combining	NN	O	O
+the	NN	O	O
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+(	NN	O	O
+formal	NN	O	O
+)	NN	O	O
+ERP	NN	O	B-Process
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+(	NN	O	O
+ESS	NN	O	B-Process
+)	NN	O	O
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+However	NN	O	O
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+recognised	NN	O	O
+that	NN	O	O
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+operation	NN	O	O
+of	NN	O	O
+the	NN	O	O
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+require	NN	O	O
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+number	NN	O	O
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+changes	NN	O	O
+in	NN	O	O
+organisational	NN	O	O
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+in	NN	O	O
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+such	NN	O	O
+as	NN	O	O
+reporting	NN	O	O
+structures	NN	O	O
+and	NN	O	O
+communication	NN	O	O
+channels	NN	O	O
+.	NN	O	O
+A	NN	O	O
+narrative	NN	O	O
+provided	NN	O	O
+by	NN	O	O
+interviews	NN	O	O
+with	NN	O	O
+company	NN	O	O
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+is	NN	O	O
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+around	NN	O	O
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+the	NN	O	O
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+the	NN	O	O
+literature	NN	O	O
+.	NN	O	O
+This	NN	O	O
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+to	NN	O	O
+a	NN	O	O
+definition	NN	O	O
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+the	NN	O	O
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+,	NN	O	O
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+a	NN	O	O
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+,	NN	O	O
+which	NN	O	O
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+coupling	NN	O	I-Task
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+antigen	NN	O	I-Task
+uptake	NN	O	I-Task
+by	NN	O	O
+DCs	NN	O	O
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+-	NN	O	I-Process
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+receptor	NN	O	I-Process
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+.	NN	O	O
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+,	NN	O	O
+the	NN	O	O
+antigens	NN	O	B-Material
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+pHrodo	NN	O	B-Material
+Red	NN	O	I-Material
+dye	NN	O	I-Material
+(	NN	O	O
+Invitrogen	NN	O	B-Material
+)	NN	O	O
+,	NN	O	O
+a	NN	O	O
+dye	NN	O	O
+that	NN	O	O
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+fluoresces	NN	O	B-Process
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+pH	NN	O	O
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+neutral	NN	O	O
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+acidic	NN	O	O
+,	NN	O	O
+as	NN	O	O
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+in	NN	O	O
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+lysosomes	NN	O	B-Material
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+.	NN	O	O
+In	NN	O	O
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+characterization	NN	O	O
+of	NN	O	O
+the	NN	O	O
+cellular	NN	O	O
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+BMDCs	NN	O	B-Material
+)	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
+.	NN	O	O
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+-	NN	O	I-Task
+injection	NN	O	I-Task
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+into	NN	O	O
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+.	NN	O	O
+Antigen	NN	O	B-Material
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+24h	NN	O	O
+by	NN	O	O
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+.	NN	O	O
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+)	NN	O	O
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+-	NN	O	I-Material
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+(	NN	O	O
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+.	NN	O	O
+3B	NN	O	O
+,	NN	O	O
+D	NN	O	O
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+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
+in	NN	O	O
+comparison	NN	O	O
+to	NN	O	O
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+antigens	NN	O	B-Material
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3C	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Both	NN	O	O
+carbohydrates	NN	O	B-Material
+targeted	NN	O	O
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+to	NN	O	O
+CD8α−	NN	O	B-Material
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+,	NN	O	O
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+CD8α−/pHrodo+	NN	O	B-Material
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+compared	NN	O	O
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+antigens	NN	O	B-Material
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3E	NN	O	O
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+)	NN	O	O
+.	NN	O	O
+Nevertheless	NN	O	O
+,	NN	O	O
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+up	NN	O	O
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+resident	NN	O	O
+APCs	NN	O	O
+via	NN	O	O
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+lymphatics	NN	O	O
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+not	NN	O	O
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+fully	NN	O	O
+elucidated	NN	O	O
+.	NN	O	O
+Histology	NN	O	O
+revealed	NN	O	O
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+-	NN	O	I-Material
+loaded	NN	O	I-Material
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+30min	NN	O	O
+after	NN	O	O
+intradermal	NN	O	B-Process
+injection	NN	O	I-Process
+(	NN	O	O
+Supplementary	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+S4	NN	O	O
+G	NN	O	O
+)	NN	O	O
+,	NN	O	O
+suggesting	NN	O	O
+both	NN	O	O
+mechanisms	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0168365913001521)
+
+The	NN	O	O
+mesoporous	NN	O	B-Material
+silica	NN	O	I-Material
+particles	NN	O	O
+were	NN	O	O
+prepared	NN	O	O
+by	NN	O	O
+the	NN	O	O
+surfactant	NN	O	B-Process
+self	NN	O	I-Process
+-	NN	O	I-Process
+assembly	NN	O	I-Process
+method	NN	O	O
+described	NN	O	O
+previously	NN	O	O
+[	NN	O	O
+18,24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Briefly	NN	O	O
+,	NN	O	O
+a	NN	O	O
+homogeneous	NN	O	B-Material
+solution	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+soluble	NN	O	B-Material
+silica	NN	O	I-Material
+precursor	NN	O	I-Material
+,	NN	O	O
+tetraethylorthosilicate	NN	O	B-Material
+(	NN	O	O
+TEOS	NN	O	B-Material
+;	NN	O	O
+Sigma	NN	O	O
+-	NN	O	O
+Aldrich	NN	O	O
+Corp.	NN	O	O
+,	NN	O	O
+St.	NN	O	O
+Louis	NN	O	O
+,	NN	O	O
+MO	NN	O	O
+)	NN	O	O
+,	NN	O	O
+and	NN	O	O
+hydrochloric	NN	O	B-Material
+acid	NN	O	I-Material
+was	NN	O	O
+mixed	NN	O	O
+in	NN	O	O
+ethanol	NN	O	B-Material
+and	NN	O	O
+water	NN	O	B-Material
+.	NN	O	I-Material
+A	NN	O	O
+surfactant	NN	O	B-Material
+,	NN	O	O
+cetyltrimethylammonium	NN	O	B-Material
+bromide	NN	O	I-Material
+(	NN	O	O
+CTAB	NN	O	B-Material
+;	NN	O	O
+Sigma	NN	O	O
+-	NN	O	O
+Aldrich	NN	O	O
+Corp.	NN	O	O
+,	NN	O	O
+St.	NN	O	O
+Louis	NN	O	O
+,	NN	O	O
+MO	NN	O	O
+)	NN	O	O
+,	NN	O	O
+with	NN	O	O
+an	NN	O	O
+initial	NN	O	O
+concentration	NN	O	O
+much	NN	O	O
+less	NN	O	O
+than	NN	O	O
+the	NN	O	O
+critical	NN	O	O
+micelle	NN	O	O
+concentration	NN	O	O
+was	NN	O	O
+added	NN	O	O
+to	NN	O	O
+lower	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+tension	NN	O	O
+of	NN	O	O
+the	NN	O	O
+liquid	NN	O	O
+mixture	NN	O	O
+and	NN	O	O
+act	NN	O	O
+as	NN	O	O
+the	NN	O	O
+mesoporous	NN	O	B-Material
+structure	NN	O	I-Material
+-	NN	O	I-Material
+directing	NN	O	I-Material
+template	NN	O	I-Material
+.	NN	O	O
+Aerosol	NN	O	B-Material
+solutions	NN	O	I-Material
+of	NN	O	O
+soluble	NN	O	B-Material
+silica	NN	O	I-Material
+plus	NN	O	O
+surfactant	NN	O	B-Material
+were	NN	O	O
+then	NN	O	O
+generated	NN	O	O
+with	NN	O	O
+nitrogen	NN	O	B-Process
+as	NN	O	O
+a	NN	O	O
+carrier	NN	O	O
+atomizing	NN	O	B-Material
+gas	NN	O	I-Material
+using	NN	O	O
+a	NN	O	O
+commercially	NN	O	O
+available	NN	O	O
+atomizer	NN	O	B-Process
+(	NN	O	O
+Model	NN	O	O
+9392A	NN	O	O
+,	NN	O	O
+TSI	NN	O	O
+,	NN	O	O
+Inc.	NN	O	O
+,	NN	O	O
+St.	NN	O	O
+Paul	NN	O	O
+,	NN	O	O
+MN	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+aerosol	NN	O	B-Material
+droplets	NN	O	I-Material
+were	NN	O	O
+solidified	NN	O	O
+in	NN	O	O
+a	NN	O	O
+tube	NN	O	B-Process
+furnace	NN	O	I-Process
+at	NN	O	O
+400	NN	O	O
+°	NN	O	O
+C	NN	O	O
+until	NN	O	O
+dry	NN	O	O
+.	NN	O	O
+Once	NN	O	O
+dried	NN	O	O
+,	NN	O	O
+a	NN	O	O
+durapore	NN	O	B-Material
+membrane	NN	O	I-Material
+filter	NN	O	I-Material
+,	NN	O	O
+kept	NN	O	O
+at	NN	O	O
+80	NN	O	O
+°	NN	O	O
+C	NN	O	O
+,	NN	O	O
+was	NN	O	O
+used	NN	O	O
+to	NN	O	O
+collect	NN	O	O
+the	NN	O	O
+particles	NN	O	O
+.	NN	O	O
+As	NN	O	O
+a	NN	O	O
+final	NN	O	O
+step	NN	O	O
+,	NN	O	O
+the	NN	O	O
+surfactant	NN	O	B-Material
+was	NN	O	O
+removed	NN	O	O
+at	NN	O	O
+400	NN	O	O
+°	NN	O	O
+C	NN	O	O
+for	NN	O	O
+5h	NN	O	O
+via	NN	O	O
+calcination	NN	O	B-Process
+.	NN	O	O
+The	NN	O	O
+surface	NN	O	O
+of	NN	O	O
+the	NN	O	O
+mesoporous	NN	O	B-Material
+silica	NN	O	I-Material
+core	NN	O	I-Material
+in	NN	O	O
+these	NN	O	O
+studies	NN	O	O
+was	NN	O	O
+chemically	NN	O	O
+modified	NN	O	O
+with	NN	O	O
+10wt.%	NN	O	O
+or	NN	O	O
+15wt.%	NN	O	O
+by	NN	O	O
+aminopropyltriethoxysilane	NN	O	B-Material
+(	NN	O	O
+APTES	NN	O	B-Material
+;	NN	O	O
+Sigma	NN	O	O
+-	NN	O	O
+Aldrich	NN	O	O
+Corp.	NN	O	O
+,	NN	O	O
+St.	NN	O	O
+Louis	NN	O	O
+,	NN	O	O
+MO	NN	O	O
+)	NN	O	O
+conducted	NN	O	O
+identically	NN	O	O
+as	NN	O	O
+previously	NN	O	O
+described	NN	O	O
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+to	NN	O	O
+create	NN	O	O
+a	NN	O	O
+positive	NN	O	O
+surface	NN	O	O
+charge	NN	O	O
+to	NN	O	O
+increase	NN	O	O
+loading	NN	O	O
+efficiency	NN	O	O
+of	NN	O	O
+negatively	NN	O	O
+charged	NN	O	O
+cargo	NN	O	O
+.	NN	O	O
+Further	NN	O	O
+,	NN	O	O
+Liu	NN	O	O
+and	NN	O	O
+colleagues	NN	O	O
+report	NN	O	O
+the	NN	O	O
+colloidal	NN	O	O
+stability	NN	O	O
+of	NN	O	O
+these	NN	O	O
+protocells	NN	O	B-Material
+with	NN	O	O
+lipid	NN	O	O
+bilayers	NN	O	O
+,	NN	O	O
+excess	NN	O	O
+amount	NN	O	O
+of	NN	O	O
+liposomes	NN	O	B-Material
+(	NN	O	O
+50μg	NN	O	O
+liposomes	NN	O	O
+per	NN	O	O
+0.5	NN	O	O
+mg	NN	O	O
+silica	NN	O	O
+were	NN	O	O
+used	NN	O	O
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0168365913009589)
+
+Ultrasound	NN	O	B-Process
+(	NN	O	O
+US	NN	O	B-Process
+)	NN	O	O
+can	NN	O	O
+initiate	NN	O	O
+the	NN	O	O
+release	NN	O	O
+of	NN	O	O
+drugs	NN	O	O
+from	NN	O	O
+liposomes	NN	O	B-Material
+via	NN	O	O
+an	NN	O	O
+event	NN	O	O
+called	NN	O	O
+inertial	NN	O	B-Task
+cavitation	NN	O	I-Task
+,	NN	O	O
+whereby	NN	O	O
+the	NN	O	O
+rarefactional	NN	O	O
+phase	NN	O	O
+of	NN	O	O
+an	NN	O	O
+ultrasound	NN	O	O
+wave	NN	O	O
+causes	NN	O	O
+the	NN	O	O
+expansion	NN	O	O
+of	NN	O	O
+a	NN	O	O
+gas	NN	O	B-Material
+bubble	NN	O	I-Material
+followed	NN	O	O
+by	NN	O	O
+a	NN	O	O
+violent	NN	O	O
+collapse	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+inertia	NN	O	O
+of	NN	O	O
+the	NN	O	O
+surrounding	NN	O	O
+media	NN	O	O
+.	NN	O	O
+This	NN	O	O
+collapse	NN	O	O
+creates	NN	O	O
+shock	NN	O	O
+waves	NN	O	O
+which	NN	O	O
+can	NN	O	O
+disrupt	NN	O	O
+the	NN	O	O
+stability	NN	O	O
+of	NN	O	O
+co	NN	O	O
+-	NN	O	O
+localised	NN	O	O
+liposomal	NN	O	O
+drug	NN	O	O
+carriers	NN	O	O
+.	NN	O	O
+To	NN	O	O
+date	NN	O	O
+,	NN	O	O
+studies	NN	O	O
+have	NN	O	O
+concentrated	NN	O	O
+on	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+low	NN	O	O
+frequency	NN	O	O
+or	NN	O	O
+high	NN	O	O
+intensity	NN	O	O
+US	NN	O	B-Process
+to	NN	O	O
+generate	NN	O	O
+gas	NN	O	B-Material
+bubbles	NN	O	I-Material
+in	NN	O	O
+situ	NN	O	O
+,	NN	O	O
+and	NN	O	O
+most	NN	O	O
+recently	NN	O	O
+such	NN	O	O
+parameters	NN	O	O
+have	NN	O	O
+been	NN	O	O
+used	NN	O	O
+to	NN	O	O
+achieve	NN	O	O
+a	NN	O	O
+variable	NN	O	O
+level	NN	O	O
+of	NN	O	O
+triggered	NN	O	O
+drug	NN	O	O
+release	NN	O	O
+following	NN	O	O
+an	NN	O	O
+intratumoral	NN	O	B-Process
+injection	NN	O	I-Process
+of	NN	O	O
+liposomes	NN	O	O
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+concerns	NN	O	O
+persist	NN	O	O
+over	NN	O	O
+the	NN	O	O
+damage	NN	O	O
+to	NN	O	O
+non	NN	O	O
+-	NN	O	O
+target	NN	O	O
+tissue	NN	O	O
+that	NN	O	O
+such	NN	O	O
+US	NN	O	B-Process
+exposure	NN	O	O
+parameters	NN	O	O
+may	NN	O	O
+cause	NN	O	O
+and	NN	O	O
+whether	NN	O	O
+ultimately	NN	O	O
+they	NN	O	O
+will	NN	O	O
+be	NN	O	O
+widely	NN	O	O
+clinically	NN	O	O
+applicable	NN	O	O
+.	NN	O	O
+An	NN	O	O
+alternative	NN	O	O
+strategy	NN	O	O
+is	NN	O	O
+to	NN	O	O
+utilise	NN	O	O
+high	NN	O	O
+-	NN	O	O
+frequency	NN	O	O
+US	NN	O	B-Process
+pulses	NN	O	O
+at	NN	O	O
+pressures	NN	O	O
+in	NN	O	O
+the	NN	O	O
+diagnostic	NN	O	O
+range	NN	O	O
+in	NN	O	O
+the	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+pre	NN	O	O
+-	NN	O	O
+existing	NN	O	O
+gas	NN	O	O
+bubbles	NN	O	O
+.	NN	O	O
+This	NN	O	O
+provides	NN	O	O
+an	NN	O	O
+inertial	NN	O	B-Task
+cavitation	NN	O	I-Task
+stimulus	NN	O	O
+for	NN	O	O
+drug	NN	O	O
+release	NN	O	O
+using	NN	O	O
+safe	NN	O	O
+,	NN	O	O
+clinically	NN	O	O
+achievable	NN	O	O
+US	NN	O	B-Process
+exposure	NN	O	O
+conditions	NN	O	O
+and	NN	O	O
+approved	NN	O	O
+US	NN	O	B-Material
+contrast	NN	O	I-Material
+agents	NN	O	I-Material
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Indeed	NN	O	O
+,	NN	O	O
+in	NN	O	O
+the	NN	O	O
+context	NN	O	O
+of	NN	O	O
+improving	NN	O	O
+the	NN	O	O
+delivery	NN	O	O
+of	NN	O	O
+therapeutics	NN	O	O
+such	NN	O	O
+as	NN	O	O
+oncolytic	NN	O	B-Material
+viruses	NN	O	I-Material
+,	NN	O	O
+this	NN	O	O
+approach	NN	O	O
+has	NN	O	O
+already	NN	O	O
+shown	NN	O	O
+great	NN	O	O
+promise	NN	O	O
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+A	NN	O	O
+further	NN	O	O
+advantage	NN	O	O
+of	NN	O	O
+this	NN	O	O
+approach	NN	O	O
+is	NN	O	O
+that	NN	O	O
+US	NN	O	B-Process
+-	NN	O	I-Process
+induced	NN	O	I-Process
+cavitation	NN	O	I-Process
+events	NN	O	O
+produce	NN	O	O
+distinct	NN	O	O
+acoustic	NN	O	O
+emissions	NN	O	O
+that	NN	O	O
+can	NN	O	O
+be	NN	O	O
+recorded	NN	O	O
+and	NN	O	O
+characterised	NN	O	O
+providing	NN	O	O
+non	NN	O	O
+-	NN	O	O
+invasive	NN	O	O
+feedback	NN	O	O
+,	NN	O	O
+a	NN	O	O
+feature	NN	O	O
+which	NN	O	O
+has	NN	O	O
+proven	NN	O	O
+useful	NN	O	O
+in	NN	O	O
+ablative	NN	O	O
+US	NN	O	B-Process
+applications	NN	O	O
+[	NN	O	O
+17–19	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0168583X14003929)
+
+The	NN	O	O
+most	NN	O	O
+widely	NN	O	O
+used	NN	O	O
+ion	NN	O	O
+source	NN	O	O
+in	NN	O	O
+FIB	NN	O	B-Process
+instruments	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+gallium	NN	O	B-Material
+(	NN	O	O
+Ga	NN	O	B-Material
+)	NN	O	O
+liquid	NN	O	O
+metal	NN	O	O
+ion	NN	O	O
+source	NN	O	O
+(	NN	O	O
+LMIS	NN	O	O
+)	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Gallium	NN	O	B-Material
+is	NN	O	O
+attractive	NN	O	O
+as	NN	O	O
+an	NN	O	O
+ion	NN	O	O
+source	NN	O	O
+because	NN	O	O
+of	NN	O	O
+its	NN	O	O
+low	NN	O	O
+melting	NN	O	O
+temperature	NN	O	O
+(	NN	O	O
+29.8	NN	O	O
+°	NN	O	O
+C	NN	O	O
+at	NN	O	O
+standard	NN	O	O
+atmospheric	NN	O	O
+pressure	NN	O	O
+[	NN	O	O
+4	NN	O	O
+]	NN	O	O
+)	NN	O	O
+and	NN	O	O
+its	NN	O	O
+low	NN	O	O
+volatility	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+some	NN	O	O
+materials	NN	O	O
+show	NN	O	O
+sensitivity	NN	O	O
+to	NN	O	O
+the	NN	O	O
+Ga	NN	O	B-Process
+ion	NN	O	I-Process
+beam	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+sensitivity	NN	O	O
+is	NN	O	O
+manifested	NN	O	O
+as	NN	O	O
+changes	NN	O	O
+in	NN	O	O
+the	NN	O	O
+structure	NN	O	O
+and	NN	O	O
+chemical	NN	O	O
+composition	NN	O	O
+of	NN	O	O
+the	NN	O	O
+starting	NN	O	O
+material	NN	O	O
+upon	NN	O	O
+exposure	NN	O	O
+to	NN	O	O
+the	NN	O	O
+Ga	NN	O	B-Process
+ion	NN	O	I-Process
+beam	NN	O	I-Process
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Group	NN	O	O
+III	NN	O	O
+–	NN	O	O
+V	NN	O	O
+compound	NN	O	O
+semiconductors	NN	O	B-Process
+are	NN	O	O
+one	NN	O	O
+class	NN	O	O
+of	NN	O	O
+materials	NN	O	O
+that	NN	O	O
+show	NN	O	O
+such	NN	O	O
+sensitivity	NN	O	O
+.	NN	O	O
+Cryo	NN	O	B-Task
+-	NN	O	I-Task
+FIB	NN	O	I-Task
+milling	NN	O	I-Task
+has	NN	O	O
+recently	NN	O	O
+been	NN	O	O
+reported	NN	O	O
+to	NN	O	O
+suppress	NN	O	O
+the	NN	O	O
+reactions	NN	O	O
+between	NN	O	O
+the	NN	O	O
+Ga	NN	O	B-Process
+ion	NN	O	I-Process
+beam	NN	O	I-Process
+and	NN	O	O
+III	NN	O	B-Material
+–	NN	O	I-Material
+V	NN	O	I-Material
+materials	NN	O	I-Material
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+suggested	NN	O	O
+advantage	NN	O	O
+of	NN	O	O
+cryo	NN	O	B-Task
+-	NN	O	I-Task
+FIB	NN	O	I-Task
+milling	NN	O	I-Task
+over	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+milling	NN	O	O
+of	NN	O	O
+Group	NN	O	B-Material
+III	NN	O	I-Material
+–	NN	O	I-Material
+V	NN	O	I-Material
+materials	NN	O	I-Material
+is	NN	O	O
+appealing	NN	O	O
+,	NN	O	O
+given	NN	O	O
+the	NN	O	O
+variety	NN	O	O
+of	NN	O	O
+present	NN	O	O
+and	NN	O	O
+potential	NN	O	O
+future	NN	O	O
+applications	NN	O	O
+for	NN	O	O
+these	NN	O	O
+materials	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+as	NN	O	O
+electronic	NN	O	B-Process
+or	NN	O	I-Process
+photonic	NN	O	I-Process
+devices	NN	O	I-Process
+given	NN	O	O
+the	NN	O	O
+favorable	NN	O	O
+electron	NN	O	O
+transport	NN	O	O
+and	NN	O	O
+direct	NN	O	O
+band	NN	O	O
+gap	NN	O	O
+properties	NN	O	O
+associated	NN	O	O
+with	NN	O	O
+several	NN	O	O
+III	NN	O	O
+–	NN	O	O
+V	NN	O	O
+semiconductor	NN	O	B-Process
+systems	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0257897213003563)
+
+According	NN	O	O
+to	NN	O	O
+the	NN	O	O
+ellipsometric	NN	O	B-Process
+spectra	NN	O	I-Process
+,	NN	O	O
+optical	NN	O	B-Process
+constants	NN	O	I-Process
+and	NN	O	O
+other	NN	O	O
+physical	NN	O	O
+parameters	NN	O	O
+can	NN	O	O
+be	NN	O	O
+extracted	NN	O	O
+by	NN	O	O
+an	NN	O	O
+appropriate	NN	O	O
+fitting	NN	O	O
+model	NN	O	O
+.	NN	O	O
+In	NN	O	O
+order	NN	O	O
+to	NN	O	O
+estimate	NN	O	O
+the	NN	O	O
+optical	NN	O	B-Process
+constants	NN	O	I-Process
+/	NN	O	I-Process
+dielectric	NN	O	I-Process
+functions	NN	O	O
+of	NN	O	O
+Ni	NN	O	B-Material
+-	NN	O	I-Material
+doped	NN	O	I-Material
+TiO2	NN	O	I-Material
+films	NN	O	I-Material
+,	NN	O	O
+a	NN	O	O
+three	NN	O	B-Process
+-	NN	O	I-Process
+phase	NN	O	I-Process
+layered	NN	O	I-Process
+system	NN	O	I-Process
+(	NN	O	O
+air	NN	O	B-Process
+/	NN	O	I-Process
+film	NN	O	I-Process
+/	NN	O	I-Process
+substrate	NN	O	I-Process
+)	NN	O	O
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+was	NN	O	O
+utilized	NN	O	O
+to	NN	O	O
+study	NN	O	O
+the	NN	O	O
+ellipsometric	NN	O	O
+spectra	NN	O	O
+.	NN	O	O
+TiO2	NN	O	O
+belongs	NN	O	O
+to	NN	O	O
+the	NN	O	O
+wide	NN	O	O
+band	NN	O	O
+gap	NN	O	O
+semiconductors	NN	O	B-Process
+.	NN	O	O
+Considering	NN	O	O
+the	NN	O	O
+contribution	NN	O	O
+of	NN	O	O
+the	NN	O	O
+M0	NN	O	O
+type	NN	O	O
+critical	NN	O	O
+point	NN	O	O
+with	NN	O	O
+the	NN	O	O
+lowest	NN	O	O
+three	NN	O	O
+dimensions	NN	O	O
+,	NN	O	O
+its	NN	O	O
+dielectric	NN	O	O
+function	NN	O	O
+can	NN	O	O
+be	NN	O	O
+calculated	NN	O	O
+by	NN	O	O
+Adachi	NN	O	B-Process
+'s	NN	O	I-Process
+model	NN	O	I-Process
+[	NN	O	O
+15,22,23	NN	O	O
+]	NN	O	O
+:	NN	O	O
+ε(Ε)=ε∞+{A0[2−(1+χ0)1/2−(1−χ0)1/2]}/(EOBG2/3χ02	NN	O	B-Process
+)	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+model	NN	O	O
+,	NN	O	O
+E	NN	O	B-Process
+is	NN	O	O
+the	NN	O	O
+incident	NN	O	B-Process
+photon	NN	O	I-Process
+energy	NN	O	I-Process
+,	NN	O	O
+ε∞	NN	O	B-Process
+is	NN	O	O
+the	NN	O	O
+high	NN	O	B-Process
+-	NN	O	I-Process
+frequency	NN	O	I-Process
+dielectric	NN	O	I-Process
+constant	NN	O	I-Process
+,	NN	O	O
+χ0=(E+iΓ	NN	O	B-Process
+)	NN	O	I-Process
+,	NN	O	O
+EOBG	NN	O	B-Process
+is	NN	O	O
+the	NN	O	O
+optical	NN	O	O
+gap	NN	O	O
+energy	NN	O	O
+,	NN	O	O
+and	NN	O	O
+A0	NN	O	B-Process
+and	NN	O	I-Process
+Γ	NN	O	I-Process
+are	NN	O	O
+the	NN	O	O
+strength	NN	O	B-Process
+and	NN	O	I-Process
+broadening	NN	O	I-Process
+parameters	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+EOBG	NN	O	B-Process
+transition	NN	O	O
+,	NN	O	O
+respectively	NN	O	O
+.	NN	O	O
+As	NN	O	O
+an	NN	O	O
+example	NN	O	O
+,	NN	O	O
+the	NN	O	O
+experimental	NN	O	O
+SE	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+film	NN	O	O
+TN1	NN	O	O
+at	NN	O	O
+an	NN	O	O
+incident	NN	O	O
+angle	NN	O	O
+70	NN	O	O
+°	NN	O	O
+by	NN	O	O
+dot	NN	O	O
+scatter	NN	O	O
+is	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+4	NN	O	O
+.	NN	O	O
+The	NN	O	O
+Fabry	NN	O	B-Material
+–	NN	O	I-Material
+Pérot	NN	O	I-Material
+interference	NN	O	I-Material
+oscillations	NN	O	O
+due	NN	O	O
+to	NN	O	O
+multiple	NN	O	O
+reflections	NN	O	O
+within	NN	O	O
+the	NN	O	O
+film	NN	O	O
+have	NN	O	O
+been	NN	O	O
+found	NN	O	O
+in	NN	O	O
+the	NN	O	O
+photon	NN	O	O
+energy	NN	O	O
+from	NN	O	O
+1.5eV	NN	O	O
+to	NN	O	O
+3.5eV	NN	O	O
+(	NN	O	O
+354nm–826	NN	O	O
+nm	NN	O	O
+)	NN	O	O
+,	NN	O	O
+which	NN	O	O
+indicates	NN	O	O
+that	NN	O	O
+the	NN	O	O
+films	NN	O	O
+are	NN	O	O
+transparent	NN	O	O
+in	NN	O	O
+this	NN	O	O
+region	NN	O	O
+.	NN	O	O
+Note	NN	O	O
+that	NN	O	O
+a	NN	O	O
+good	NN	O	O
+agreement	NN	O	O
+of	NN	O	O
+the	NN	O	O
+experimental	NN	O	O
+and	NN	O	O
+calculated	NN	O	O
+spectra	NN	O	O
+is	NN	O	O
+attained	NN	O	O
+in	NN	O	O
+the	NN	O	O
+whole	NN	O	O
+measured	NN	O	O
+photon	NN	O	O
+energy	NN	O	O
+range	NN	O	O
+.	NN	O	O
+The	NN	O	O
+fitting	NN	O	O
+thickness	NN	O	O
+for	NN	O	O
+film	NN	O	O
+TN2	NN	O	O
+is	NN	O	O
+159	NN	O	O
+nm	NN	O	O
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+very	NN	O	O
+near	NN	O	O
+to	NN	O	O
+the	NN	O	O
+value	NN	O	O
+obtained	NN	O	O
+by	NN	O	O
+SEM	NN	O	B-Process
+(	NN	O	O
+see	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1(b	NN	O	O
+)	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0257897213004131)
+
+Fig	NN	O	O
+.	NN	O	O
+7	NN	O	O
+shows	NN	O	O
+the	NN	O	O
+relationship	NN	O	O
+between	NN	O	O
+the	NN	O	O
+testing	NN	O	B-Process
+time	NN	O	I-Process
+and	NN	O	O
+friction	NN	O	B-Process
+coefficients	NN	O	I-Process
+of	NN	O	O
+various	NN	O	O
+samples	NN	O	O
+under	NN	O	O
+dry	NN	O	O
+conditions	NN	O	O
+.	NN	O	O
+There	NN	O	O
+exist	NN	O	O
+running	NN	O	O
+in	NN	O	O
+and	NN	O	O
+steady	NN	O	O
+wear	NN	O	O
+period	NN	O	O
+in	NN	O	O
+the	NN	O	O
+wear	NN	O	B-Process
+process	NN	O	I-Process
+of	NN	O	O
+uncoated	NN	O	B-Material
+AZ31	NN	O	I-Material
+and	NN	O	O
+anodizing	NN	O	B-Material
+coating	NN	O	I-Material
+without	NN	O	I-Material
+Al2O3	NN	O	I-Material
+nanoparticles	NN	O	I-Material
+while	NN	O	O
+there	NN	O	O
+has	NN	O	O
+a	NN	O	O
+steady	NN	O	O
+wear	NN	O	O
+period	NN	O	O
+only	NN	O	O
+in	NN	O	O
+the	NN	O	O
+wear	NN	O	B-Process
+process	NN	O	I-Process
+of	NN	O	O
+composite	NN	O	B-Material
+anodizing	NN	O	I-Material
+coating	NN	O	I-Material
+with	NN	O	O
+Al2O3	NN	O	B-Material
+nanoparticles	NN	O	I-Material
+.	NN	O	O
+At	NN	O	O
+the	NN	O	O
+same	NN	O	O
+time	NN	O	O
+,	NN	O	O
+the	NN	O	O
+addition	NN	O	O
+of	NN	O	O
+nano	NN	O	B-Material
+-	NN	O	I-Material
+particles	NN	O	I-Material
+to	NN	O	O
+electrolyte	NN	O	B-Material
+led	NN	O	O
+to	NN	O	O
+reduction	NN	O	B-Process
+of	NN	O	I-Process
+friction	NN	O	I-Process
+coefficient	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+friction	NN	O	O
+coefficient	NN	O	O
+of	NN	O	O
+composite	NN	O	B-Process
+coating	NN	O	I-Process
+is	NN	O	O
+relatively	NN	O	O
+lower	NN	O	O
+and	NN	O	O
+more	NN	O	O
+stable	NN	O	O
+than	NN	O	O
+what	NN	O	O
+has	NN	O	O
+been	NN	O	O
+reported	NN	O	O
+in	NN	O	O
+literature	NN	O	O
+[	NN	O	O
+24,25	NN	O	O
+]	NN	O	O
+for	NN	O	O
+anodizing	NN	O	B-Material
+coatings	NN	O	I-Material
+.	NN	O	O
+This	NN	O	O
+may	NN	O	O
+be	NN	O	O
+caused	NN	O	O
+by	NN	O	O
+“	NN	O	B-Process
+rolling	NN	O	I-Process
+effect	NN	O	I-Process
+”	NN	O	I-Process
+made	NN	O	O
+by	NN	O	O
+Al2O3	NN	O	B-Material
+nanoparticles	NN	O	I-Material
+on	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+of	NN	O	O
+oxide	NN	O	O
+coating	NN	O	O
+.	NN	O	O
+Spherical	NN	O	B-Material
+nanoparticles	NN	O	I-Material
+change	NN	O	O
+sliding	NN	O	O
+into	NN	O	O
+rolling	NN	O	O
+,	NN	O	O
+which	NN	O	O
+reduce	NN	O	B-Process
+friction	NN	O	I-Process
+,	NN	O	O
+making	NN	O	O
+the	NN	O	O
+friction	NN	O	B-Process
+coefficient	NN	O	I-Process
+becomes	NN	O	O
+more	NN	O	O
+stable	NN	O	O
+.	NN	O	O
+The	NN	O	O
+friction	NN	O	O
+coefficient	NN	O	O
+of	NN	O	O
+anodizing	NN	O	B-Material
+coating	NN	O	I-Material
+without	NN	O	I-Material
+Al2O3	NN	O	I-Material
+nanoparticles	NN	O	I-Material
+has	NN	O	O
+large	NN	O	O
+fluctuation	NN	O	O
+maybe	NN	O	O
+for	NN	O	O
+the	NN	O	O
+damage	NN	O	O
+of	NN	O	O
+coating	NN	O	B-Process
+.	NN	O	O
+In	NN	O	O
+contrast	NN	O	O
+to	NN	O	O
+the	NN	O	O
+uncoated	NN	O	B-Material
+AZ31	NN	O	I-Material
+magnesium	NN	O	I-Material
+alloy	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+anodizing	NN	O	B-Material
+coatings	NN	O	I-Material
+show	NN	O	O
+slightly	NN	O	O
+lower	NN	O	O
+friction	NN	O	B-Process
+coefficient	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+can	NN	O	O
+be	NN	O	O
+attributed	NN	O	O
+to	NN	O	O
+their	NN	O	O
+higher	NN	O	O
+load	NN	O	O
+-	NN	O	O
+bearing	NN	O	O
+capacity	NN	O	O
+for	NN	O	O
+high	NN	O	O
+hardness	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0263822312000657)
+
+Functionally	NN	O	B-Material
+Graded	NN	O	I-Material
+Materials	NN	O	I-Material
+(	NN	O	O
+FGMs	NN	O	B-Material
+)	NN	O	O
+,	NN	O	O
+described	NN	O	O
+in	NN	O	O
+detail	NN	O	O
+by	NN	O	O
+Suresh	NN	O	O
+and	NN	O	O
+Mortensen	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+,	NN	O	O
+are	NN	O	O
+a	NN	O	O
+type	NN	O	O
+of	NN	O	O
+heterogeneous	NN	O	B-Material
+composite	NN	O	I-Material
+materials	NN	O	I-Material
+exhibiting	NN	O	O
+gradual	NN	O	O
+variation	NN	O	O
+in	NN	O	O
+volume	NN	O	O
+fraction	NN	O	O
+of	NN	O	O
+their	NN	O	O
+constituents	NN	O	O
+from	NN	O	O
+one	NN	O	O
+surface	NN	O	O
+of	NN	O	O
+the	NN	O	O
+material	NN	O	O
+to	NN	O	O
+the	NN	O	O
+other	NN	O	O
+,	NN	O	O
+resulting	NN	O	O
+in	NN	O	O
+properties	NN	O	O
+which	NN	O	O
+vary	NN	O	O
+continuously	NN	O	O
+across	NN	O	O
+the	NN	O	O
+material	NN	O	O
+.	NN	O	O
+The	NN	O	O
+idea	NN	O	O
+of	NN	O	O
+a	NN	O	O
+Functionally	NN	O	B-Material
+Graded	NN	O	I-Material
+Material	NN	O	I-Material
+is	NN	O	O
+not	NN	O	O
+a	NN	O	O
+new	NN	O	O
+one	NN	O	O
+,	NN	O	O
+there	NN	O	O
+are	NN	O	O
+in	NN	O	O
+fact	NN	O	O
+many	NN	O	O
+natural	NN	O	O
+materials	NN	O	O
+which	NN	O	O
+exhibit	NN	O	O
+this	NN	O	O
+property	NN	O	O
+.	NN	O	O
+Study	NN	O	B-Task
+of	NN	O	I-Task
+bone	NN	O	I-Task
+,	NN	O	I-Task
+shell	NN	O	I-Task
+,	NN	O	I-Task
+balsawood	NN	O	I-Task
+and	NN	O	I-Task
+bamboo	NN	O	I-Task
+shows	NN	O	O
+that	NN	O	O
+they	NN	O	O
+are	NN	O	O
+all	NN	O	O
+graded	NN	O	O
+with	NN	O	O
+their	NN	O	O
+greatest	NN	O	O
+strength	NN	O	O
+on	NN	O	O
+the	NN	O	O
+outside	NN	O	O
+,	NN	O	O
+in	NN	O	O
+areas	NN	O	O
+where	NN	O	O
+the	NN	O	O
+greatest	NN	O	O
+protection	NN	O	O
+is	NN	O	O
+required	NN	O	O
+.	NN	O	O
+However	NN	O	O
+it	NN	O	O
+was	NN	O	O
+not	NN	O	O
+until	NN	O	O
+the	NN	O	O
+1980s	NN	O	O
+in	NN	O	O
+Japan	NN	O	O
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+that	NN	O	O
+the	NN	O	O
+idea	NN	O	O
+of	NN	O	O
+a	NN	O	O
+Functionally	NN	O	B-Material
+Graded	NN	O	I-Material
+Material	NN	O	I-Material
+was	NN	O	O
+actively	NN	O	O
+researched	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+gain	NN	O	O
+advances	NN	O	O
+in	NN	O	O
+heat	NN	O	B-Material
+resistant	NN	O	I-Material
+materials	NN	O	I-Material
+for	NN	O	O
+use	NN	O	O
+in	NN	O	O
+aerospace	NN	O	B-Task
+and	NN	O	O
+nuclear	NN	O	B-Task
+fission	NN	O	I-Task
+reactors	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0263822312001468)
+
+Recently	NN	O	O
+together	NN	O	O
+with	NN	O	O
+structural	NN	O	B-Process
+efficiency	NN	O	I-Process
+,	NN	O	O
+passenger	NN	O	B-Task
+safety	NN	O	I-Task
+is	NN	O	O
+also	NN	O	O
+an	NN	O	O
+important	NN	O	O
+issue	NN	O	O
+in	NN	O	O
+application	NN	O	O
+of	NN	O	O
+material	NN	O	O
+to	NN	O	O
+transportation	NN	O	B-Process
+industries	NN	O	I-Process
+.	NN	O	O
+Hence	NN	O	O
+,	NN	O	O
+the	NN	O	O
+crashworthiness	NN	O	B-Material
+parameters	NN	O	I-Material
+are	NN	O	O
+introducing	NN	O	O
+to	NN	O	O
+predict	NN	O	O
+the	NN	O	O
+capability	NN	O	O
+of	NN	O	O
+structure	NN	O	O
+to	NN	O	O
+prevent	NN	O	B-Task
+the	NN	O	I-Task
+massive	NN	O	I-Task
+damage	NN	O	I-Task
+and	NN	O	O
+protect	NN	O	B-Task
+the	NN	O	I-Task
+passenger	NN	O	I-Task
+in	NN	O	O
+the	NN	O	O
+event	NN	O	O
+of	NN	O	O
+a	NN	O	O
+crash	NN	O	O
+.	NN	O	O
+Crashworthiness	NN	O	B-Task
+parameters	NN	O	I-Task
+for	NN	O	O
+various	NN	O	O
+thin	NN	O	O
+-	NN	O	O
+walled	NN	O	O
+tubes	NN	O	O
+made	NN	O	O
+from	NN	O	O
+metal	NN	O	B-Material
+or	NN	O	O
+fibre	NN	O	B-Material
+/	NN	O	I-Material
+resin	NN	O	I-Material
+composites	NN	O	I-Material
+in	NN	O	O
+different	NN	O	O
+geometries	NN	O	O
+have	NN	O	O
+been	NN	O	O
+studied	NN	O	O
+.	NN	O	O
+A	NN	O	O
+critical	NN	O	O
+difference	NN	O	O
+of	NN	O	O
+tubular	NN	O	B-Process
+composites	NN	O	I-Process
+failure	NN	O	I-Process
+modes	NN	O	O
+compared	NN	O	O
+with	NN	O	O
+metallic	NN	O	O
+is	NN	O	O
+the	NN	O	O
+brittle	NN	O	B-Process
+collapse	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+in	NN	O	O
+composites	NN	O	B-Material
+,	NN	O	O
+tubular	NN	O	B-Material
+failure	NN	O	I-Material
+modes	NN	O	I-Material
+are	NN	O	O
+involved	NN	O	O
+with	NN	O	O
+micro	NN	O	B-Process
+-	NN	O	I-Process
+cracking	NN	O	I-Process
+development	NN	O	I-Process
+,	NN	O	O
+delamination	NN	O	B-Process
+,	NN	O	O
+fibre	NN	O	B-Process
+breakage	NN	O	I-Process
+,	NN	O	O
+etc	NN	O	O
+.	NN	O	O
+,	NN	O	O
+instead	NN	O	O
+of	NN	O	O
+plastic	NN	O	B-Process
+deformation	NN	O	I-Process
+.	NN	O	O
+Implementation	NN	O	B-Task
+of	NN	O	I-Task
+composite	NN	O	I-Task
+materials	NN	O	I-Task
+in	NN	O	O
+the	NN	O	O
+field	NN	O	O
+of	NN	O	O
+crashworthiness	NN	O	O
+is	NN	O	O
+attributed	NN	O	O
+to	NN	O	O
+Hull	NN	O	O
+,	NN	O	O
+who	NN	O	O
+in	NN	O	O
+80s	NN	O	O
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+-	NN	O	I-Material
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+2	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+(	NN	O	I-Material
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+-DOCSTART- (S0301679X13003289)
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+-	NN	O	O
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+-	NN	O	O
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+-	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	I-Material
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+;	NN	O	O
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+-	NN	O	O
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+-	NN	O	O
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+-	NN	O	O
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+.	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	I-Material
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+.	NN	O	O
+
+-DOCSTART- (S0301679X14000449)
+
+Fig	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	O
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+-	NN	O	I-Material
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+(	NN	O	O
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+)	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S0301679X14003272)
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+The	NN	O	O
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+piezoelectric	NN	O	B-Process
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+-	NN	O	O
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+.	NN	O	O
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+horizontal	NN	O	O
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+-	NN	O	O
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+.	NN	O	O
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+-DOCSTART- (S0304399111001811)
+
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+-DOCSTART- (S030439911200040X)
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+-DOCSTART- (S0305440314001927)
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+,	NN	O	O
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+-	NN	O	I-Material
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+,	NN	O	O
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+,	NN	O	O
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+offering	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+Unlike	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+key	NN	O	O
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+by	NN	O	O
+anyone	NN	O	O
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+a	NN	O	O
+digital	NN	O	B-Material
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+training	NN	O	I-Process
+about	NN	O	I-Process
+the	NN	O	I-Process
+required	NN	O	I-Process
+number	NN	O	I-Process
+and	NN	O	I-Process
+overlap	NN	O	I-Process
+of	NN	O	I-Process
+photographs	NN	O	I-Process
+.	NN	O	O
+A	NN	O	O
+whole	NN	O	O
+series	NN	O	O
+of	NN	O	O
+traditional	NN	O	O
+bottlenecks	NN	O	O
+are	NN	O	O
+thereby	NN	O	O
+removed	NN	O	O
+from	NN	O	O
+the	NN	O	O
+recording	NN	O	B-Process
+process	NN	O	I-Process
+and	NN	O	O
+large	NN	O	O
+numbers	NN	O	O
+of	NN	O	O
+archaeological	NN	O	B-Task
+landscapes	NN	O	I-Task
+,	NN	O	O
+sites	NN	O	B-Task
+or	NN	O	O
+artefacts	NN	O	B-Task
+can	NN	O	O
+now	NN	O	O
+be	NN	O	O
+captured	NN	O	O
+rapidly	NN	O	O
+,	NN	O	O
+in	NN	O	O
+the	NN	O	O
+field	NN	O	O
+,	NN	O	O
+in	NN	O	O
+the	NN	O	O
+laboratory	NN	O	O
+or	NN	O	O
+in	NN	O	O
+the	NN	O	O
+museum	NN	O	O
+.	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+2a	NN	O	O
+–	NN	O	O
+c	NN	O	O
+shows	NN	O	O
+examples	NN	O	O
+of	NN	O	O
+terracotta	NN	O	B-Process
+warrior	NN	O	I-Process
+models	NN	O	I-Process
+for	NN	O	O
+which	NN	O	O
+the	NN	O	O
+level	NN	O	O
+of	NN	O	O
+surface	NN	O	O
+detail	NN	O	O
+is	NN	O	O
+considerable	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269301015222)
+
+Recent	NN	O	O
+astronomical	NN	O	B-Task
+observations	NN	O	I-Task
+of	NN	O	O
+high	NN	O	B-Material
+redshift	NN	O	I-Material
+type	NN	O	I-Material
+Ia	NN	O	I-Material
+supernovae	NN	O	I-Material
+performed	NN	O	O
+by	NN	O	O
+two	NN	O	O
+groups	NN	O	O
+[	NN	O	O
+1–3	NN	O	O
+]	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+the	NN	O	O
+power	NN	O	B-Task
+spectrum	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+cosmic	NN	O	I-Task
+microwave	NN	O	I-Task
+background	NN	O	I-Task
+radiation	NN	O	I-Task
+obtained	NN	O	O
+by	NN	O	O
+the	NN	O	O
+BOOMERANG	NN	O	B-Process
+[	NN	O	O
+4	NN	O	O
+]	NN	O	O
+and	NN	O	O
+MAXIMA-1	NN	O	B-Process
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+experiments	NN	O	O
+seem	NN	O	O
+to	NN	O	O
+indicate	NN	O	O
+that	NN	O	O
+at	NN	O	O
+present	NN	O	O
+the	NN	O	O
+Universe	NN	O	O
+is	NN	O	O
+in	NN	O	O
+a	NN	O	O
+state	NN	O	O
+of	NN	O	O
+accelerated	NN	O	O
+expansion	NN	O	O
+.	NN	O	O
+If	NN	O	O
+one	NN	O	O
+analyzes	NN	O	O
+these	NN	O	O
+data	NN	O	O
+within	NN	O	O
+the	NN	O	O
+Friedmann	NN	O	B-Process
+–	NN	O	I-Process
+Robertson	NN	O	I-Process
+–	NN	O	I-Process
+Walker	NN	O	I-Process
+(	NN	O	I-Process
+FRW	NN	O	I-Process
+)	NN	O	I-Process
+standard	NN	O	I-Process
+model	NN	O	I-Process
+of	NN	O	O
+cosmology	NN	O	B-Task
+their	NN	O	O
+most	NN	O	O
+natural	NN	O	O
+interpretation	NN	O	O
+is	NN	O	O
+that	NN	O	O
+the	NN	O	O
+Universe	NN	O	O
+is	NN	O	O
+spatially	NN	O	O
+flat	NN	O	O
+and	NN	O	O
+that	NN	O	O
+the	NN	O	O
+(	NN	O	O
+baryonic	NN	O	O
+plus	NN	O	O
+dark	NN	O	O
+)	NN	O	O
+matter	NN	O	B-Process
+density	NN	O	I-Process
+ρ	NN	O	B-Process
+is	NN	O	O
+about	NN	O	O
+one	NN	O	O
+third	NN	O	O
+of	NN	O	O
+the	NN	O	O
+critical	NN	O	B-Process
+density	NN	O	I-Process
+ρcrit	NN	O	B-Process
+.	NN	O	O
+Most	NN	O	O
+interestingly	NN	O	O
+,	NN	O	O
+the	NN	O	O
+dominant	NN	O	O
+contribution	NN	O	O
+to	NN	O	O
+the	NN	O	O
+energy	NN	O	O
+density	NN	O	O
+is	NN	O	O
+provided	NN	O	O
+by	NN	O	O
+the	NN	O	O
+cosmological	NN	O	B-Material
+constant	NN	O	I-Material
+Λ.	NN	O	B-Material
+The	NN	O	O
+vacuum	NN	O	B-Process
+energy	NN	O	I-Process
+density	NN	O	I-Process
+(	NN	O	O
+1.1)ρΛ≡Λ/(8πG	NN	O	B-Process
+)	NN	O	I-Process
+is	NN	O	O
+about	NN	O	O
+twice	NN	O	O
+as	NN	O	O
+large	NN	O	O
+as	NN	O	O
+ρ	NN	O	B-Process
+,	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+about	NN	O	O
+two	NN	O	O
+thirds	NN	O	O
+of	NN	O	O
+the	NN	O	O
+critical	NN	O	B-Process
+density	NN	O	I-Process
+.	NN	O	O
+With	NN	O	O
+ΩM≡ρ/ρcrit	NN	O	O
+,	NN	O	O
+ΩΛ≡ρΛ/ρcrit	NN	O	O
+and	NN	O	O
+Ωtot≡ΩM+ΩΛ	NN	O	O
+:	NN	O	O
+(	NN	O	O
+1.2)ΩM≈1/3,ΩΛ≈2/3,Ωtot≈1	NN	O	O
+.	NN	O	O
+This	NN	O	O
+implies	NN	O	O
+that	NN	O	O
+the	NN	O	O
+deceleration	NN	O	B-Process
+parameter	NN	O	I-Process
+q	NN	O	B-Process
+is	NN	O	O
+approximately	NN	O	O
+−1/2	NN	O	O
+.	NN	O	O
+While	NN	O	O
+originally	NN	O	O
+the	NN	O	O
+cosmological	NN	O	B-Task
+constant	NN	O	I-Task
+problem	NN	O	I-Task
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+was	NN	O	O
+related	NN	O	O
+to	NN	O	O
+the	NN	O	O
+question	NN	O	B-Task
+why	NN	O	I-Task
+Λ	NN	O	I-Task
+is	NN	O	I-Task
+so	NN	O	I-Task
+unnaturally	NN	O	I-Task
+small	NN	O	I-Task
+,	NN	O	O
+the	NN	O	O
+discovery	NN	O	O
+of	NN	O	O
+the	NN	O	O
+important	NN	O	O
+role	NN	O	O
+played	NN	O	O
+by	NN	O	O
+ρΛ	NN	O	B-Material
+has	NN	O	O
+shifted	NN	O	O
+the	NN	O	O
+emphasis	NN	O	O
+toward	NN	O	O
+the	NN	O	O
+“	NN	O	O
+coincidence	NN	O	B-Task
+problem	NN	O	I-Task
+”	NN	O	O
+,	NN	O	O
+the	NN	O	O
+question	NN	O	O
+why	NN	O	B-Task
+ρ	NN	O	I-Task
+and	NN	O	I-Task
+ρΛ	NN	O	I-Task
+happen	NN	O	I-Task
+to	NN	O	I-Task
+be	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+same	NN	O	I-Task
+order	NN	O	I-Task
+of	NN	O	I-Task
+magnitude	NN	O	I-Task
+precisely	NN	O	I-Task
+at	NN	O	I-Task
+this	NN	O	I-Task
+very	NN	O	I-Task
+moment	NN	O	I-Task
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269302011838)
+
+First	NN	O	O
+results	NN	O	O
+from	NN	O	O
+RHIC	NN	O	O
+on	NN	O	O
+charged	NN	O	B-Task
+multiplicities	NN	O	I-Task
+,	NN	O	O
+evolution	NN	O	B-Task
+of	NN	O	I-Task
+multiplicities	NN	O	I-Task
+with	NN	O	I-Task
+centrality	NN	O	I-Task
+,	NN	O	O
+particle	NN	O	B-Task
+ratios	NN	O	I-Task
+and	NN	O	O
+transverse	NN	O	B-Task
+momentum	NN	O	I-Task
+distributions	NN	O	I-Task
+in	NN	O	O
+central	NN	O	O
+and	NN	O	O
+minimum	NN	O	O
+bias	NN	O	O
+collisions	NN	O	O
+,	NN	O	O
+are	NN	O	O
+analyzed	NN	O	O
+in	NN	O	O
+a	NN	O	O
+string	NN	O	B-Process
+model	NN	O	I-Process
+which	NN	O	O
+includes	NN	O	O
+hard	NN	O	B-Material
+collisions	NN	O	I-Material
+,	NN	O	O
+collectivity	NN	O	B-Material
+in	NN	O	I-Material
+the	NN	O	I-Material
+initial	NN	O	I-Material
+state	NN	O	I-Material
+considered	NN	O	O
+as	NN	O	O
+string	NN	O	O
+fusion	NN	O	O
+,	NN	O	O
+and	NN	O	O
+rescattering	NN	O	B-Material
+of	NN	O	I-Material
+the	NN	O	I-Material
+produced	NN	O	I-Material
+secondaries	NN	O	I-Material
+.	NN	O	O
+Multiplicities	NN	O	B-Task
+and	NN	O	O
+their	NN	O	B-Task
+evolution	NN	O	I-Task
+with	NN	O	O
+centrality	NN	O	O
+are	NN	O	O
+successfully	NN	O	O
+reproduced	NN	O	O
+.	NN	O	O
+Transverse	NN	O	B-Process
+momentum	NN	O	I-Process
+distributions	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+model	NN	O	O
+show	NN	O	O
+a	NN	O	O
+larger	NN	O	O
+pT	NN	O	O
+-	NN	O	O
+tail	NN	O	O
+than	NN	O	O
+experimental	NN	O	O
+data	NN	O	O
+,	NN	O	O
+disagreement	NN	O	O
+which	NN	O	O
+grows	NN	O	O
+with	NN	O	O
+increasing	NN	O	O
+centrality	NN	O	O
+.	NN	O	O
+Discrepancies	NN	O	B-Process
+with	NN	O	I-Process
+particle	NN	O	I-Process
+ratios	NN	O	I-Process
+appear	NN	O	O
+and	NN	O	O
+are	NN	O	O
+examined	NN	O	O
+comparing	NN	O	O
+with	NN	O	O
+previous	NN	O	O
+features	NN	O	O
+of	NN	O	O
+the	NN	O	O
+model	NN	O	O
+at	NN	O	O
+SPS	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269302012492)
+
+In	NN	O	O
+this	NN	O	O
+section	NN	O	O
+we	NN	O	O
+wish	NN	O	O
+to	NN	O	O
+calculate	NN	O	B-Task
+the	NN	O	I-Task
+cross	NN	O	I-Task
+section	NN	O	I-Task
+for	NN	O	I-Task
+the	NN	O	I-Task
+absorption	NN	O	I-Task
+of	NN	O	I-Task
+massless	NN	O	I-Task
+scalars	NN	O	I-Task
+by	NN	O	O
+the	NN	O	O
+self	NN	O	B-Process
+-	NN	O	I-Process
+dual	NN	O	I-Process
+string	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+world	NN	O	O
+volume	NN	O	O
+of	NN	O	O
+the	NN	O	O
+M	NN	O	B-Material
+-	NN	O	I-Material
+theory	NN	O	I-Material
+five	NN	O	I-Material
+-	NN	O	I-Material
+brane	NN	O	I-Material
+.	NN	O	O
+We	NN	O	O
+will	NN	O	O
+adopt	NN	O	O
+an	NN	O	O
+entirely	NN	O	B-Process
+world	NN	O	I-Process
+volume	NN	O	I-Process
+approach	NN	O	I-Process
+similar	NN	O	O
+to	NN	O	O
+that	NN	O	O
+of	NN	O	O
+[	NN	O	O
+21–23	NN	O	O
+]	NN	O	O
+.	NN	O	O
+We	NN	O	O
+begin	NN	O	O
+by	NN	O	O
+writing	NN	O	O
+the	NN	O	O
+equation	NN	O	O
+satisfied	NN	O	O
+by	NN	O	O
+the	NN	O	O
+s	NN	O	B-Material
+-	NN	O	I-Material
+wave	NN	O	I-Material
+with	NN	O	O
+energy	NN	O	O
+ω	NN	O	O
+,	NN	O	O
+φ(r	NN	O	O
+,	NN	O	O
+t)=φ(r)eiωt	NN	O	O
+,	NN	O	O
+of	NN	O	O
+the	NN	O	O
+linear	NN	O	B-Process
+fluctuations	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+four	NN	O	O
+overall	NN	O	O
+transverse	NN	O	O
+scalars	NN	O	O
+about	NN	O	O
+the	NN	O	O
+self	NN	O	O
+-	NN	O	O
+dual	NN	O	O
+string	NN	O	O
+,	NN	O	O
+(	NN	O	O
+it	NN	O	O
+is	NN	O	O
+known	NN	O	O
+that	NN	O	O
+there	NN	O	O
+are	NN	O	O
+problems	NN	O	O
+when	NN	O	O
+one	NN	O	O
+considers	NN	O	O
+higher	NN	O	B-Process
+angular	NN	O	I-Process
+momentum	NN	O	I-Process
+modes	NN	O	I-Process
+[	NN	O	O
+23	NN	O	O
+]	NN	O	O
+,	NN	O	O
+one	NN	O	O
+must	NN	O	O
+take	NN	O	O
+care	NN	O	O
+with	NN	O	O
+the	NN	O	O
+validity	NN	O	O
+of	NN	O	O
+the	NN	O	O
+linearized	NN	O	B-Process
+approximation	NN	O	I-Process
+,	NN	O	O
+this	NN	O	O
+is	NN	O	O
+discussed	NN	O	O
+in	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+)	NN	O	O
+:	NN	O	O
+(	NN	O	O
+15)ρ−3ddρρ3ddρ+1+R6ω6ρ6φ(ρ)=0	NN	O	O
+,	NN	O	O
+where	NN	O	O
+ρ=rω	NN	O	O
+,	NN	O	O
+R	NN	O	O
+=	NN	O	O
+Q1/3ℓp	NN	O	O
+.	NN	O	O
+Note	NN	O	O
+,	NN	O	O
+as	NN	O	O
+pointed	NN	O	O
+out	NN	O	O
+by	NN	O	O
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+world	NN	O	B-Process
+volume	NN	O	I-Process
+solitons	NN	O	I-Process
+have	NN	O	O
+a	NN	O	O
+much	NN	O	O
+sharper	NN	O	O
+potential	NN	O	O
+than	NN	O	O
+the	NN	O	O
+Coulomb	NN	O	O
+type	NN	O	O
+potential	NN	O	O
+typical	NN	O	O
+of	NN	O	O
+brane	NN	O	B-Process
+solutions	NN	O	I-Process
+in	NN	O	O
+supergravity	NN	O	O
+;	NN	O	O
+thus	NN	O	O
+this	NN	O	O
+scattering	NN	O	O
+is	NN	O	O
+different	NN	O	O
+to	NN	O	O
+that	NN	O	O
+of	NN	O	O
+the	NN	O	O
+string	NN	O	O
+in	NN	O	O
+six	NN	O	O
+-	NN	O	O
+dimensional	NN	O	O
+supergravity	NN	O	O
+.	NN	O	O
+Nevertheless	NN	O	O
+,	NN	O	O
+for	NN	O	O
+small	NN	O	B-Task
+ωR	NN	O	I-Task
+one	NN	O	O
+may	NN	O	O
+solve	NN	O	O
+this	NN	O	O
+problem	NN	O	O
+by	NN	O	O
+matching	NN	O	O
+an	NN	O	O
+approximate	NN	O	B-Process
+solution	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+inner	NN	O	O
+region	NN	O	O
+to	NN	O	O
+an	NN	O	O
+approximate	NN	O	B-Process
+solution	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+outer	NN	O	O
+region	NN	O	O
+;	NN	O	O
+this	NN	O	O
+follows	NN	O	O
+closely	NN	O	O
+the	NN	O	O
+supergravity	NN	O	B-Process
+calculation	NN	O	I-Process
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269302013412)
+
+We	NN	O	O
+consider	NN	O	B-Task
+cosmological	NN	O	I-Task
+consequences	NN	O	I-Task
+of	NN	O	I-Task
+a	NN	O	I-Task
+conformal	NN	O	I-Task
+-	NN	O	I-Task
+invariant	NN	O	I-Task
+formulation	NN	O	I-Task
+of	NN	O	I-Task
+Einstein	NN	O	I-Task
+'s	NN	O	I-Task
+General	NN	O	I-Task
+Relativity	NN	O	I-Task
+where	NN	O	O
+instead	NN	O	O
+of	NN	O	O
+the	NN	O	O
+scale	NN	O	B-Material
+factor	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+spatial	NN	O	O
+metrics	NN	O	O
+in	NN	O	O
+the	NN	O	O
+action	NN	O	O
+functional	NN	O	O
+a	NN	O	O
+massless	NN	O	B-Material
+scalar	NN	O	I-Material
+(	NN	O	I-Material
+dilaton	NN	O	I-Material
+)	NN	O	I-Material
+field	NN	O	I-Material
+occurs	NN	O	O
+which	NN	O	O
+scales	NN	O	O
+all	NN	O	O
+masses	NN	O	B-Material
+including	NN	O	O
+the	NN	O	O
+Planck	NN	O	B-Material
+mass	NN	O	I-Material
+.	NN	O	O
+Instead	NN	O	O
+of	NN	O	O
+the	NN	O	O
+expansion	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+universe	NN	O	I-Process
+we	NN	O	O
+obtain	NN	O	O
+the	NN	O	O
+Hoyle	NN	O	B-Process
+–	NN	O	I-Process
+Narlikar	NN	O	I-Process
+type	NN	O	I-Process
+of	NN	O	I-Process
+mass	NN	O	I-Process
+evolution	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+the	NN	O	O
+temperature	NN	O	B-Process
+history	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+universe	NN	O	I-Process
+is	NN	O	O
+replaced	NN	O	O
+by	NN	O	O
+the	NN	O	O
+mass	NN	O	B-Process
+history	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+show	NN	O	O
+that	NN	O	O
+this	NN	O	O
+conformal	NN	O	B-Process
+-	NN	O	I-Process
+invariant	NN	O	I-Process
+cosmological	NN	O	I-Process
+model	NN	O	I-Process
+gives	NN	O	O
+a	NN	O	O
+satisfactory	NN	O	O
+description	NN	O	O
+of	NN	O	O
+the	NN	O	O
+new	NN	O	O
+supernova	NN	O	B-Material
+Ia	NN	O	I-Material
+data	NN	O	I-Material
+for	NN	O	O
+the	NN	O	O
+effective	NN	O	B-Process
+magnitude	NN	O	I-Process
+–	NN	O	I-Process
+redshift	NN	O	I-Process
+relation	NN	O	I-Process
+without	NN	O	O
+a	NN	O	O
+cosmological	NN	O	B-Material
+constant	NN	O	I-Material
+and	NN	O	O
+make	NN	O	O
+a	NN	O	O
+prediction	NN	O	O
+for	NN	O	O
+the	NN	O	O
+high	NN	O	B-Process
+-	NN	O	I-Process
+redshift	NN	O	I-Process
+behavior	NN	O	I-Process
+which	NN	O	O
+deviates	NN	O	O
+from	NN	O	O
+that	NN	O	O
+of	NN	O	O
+standard	NN	O	B-Task
+cosmology	NN	O	I-Task
+for	NN	O	O
+z>1.7	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269302014880)
+
+Production	NN	O	B-Task
+of	NN	O	I-Task
+charmonium	NN	O	I-Task
+states	NN	O	I-Task
+J/ψ	NN	O	I-Task
+and	NN	O	I-Task
+ψ′	NN	O	I-Task
+in	NN	O	I-Task
+nucleus	NN	O	I-Task
+–	NN	O	I-Task
+nucleus	NN	O	I-Task
+collisions	NN	O	I-Task
+has	NN	O	O
+been	NN	O	O
+studied	NN	O	O
+at	NN	O	O
+CERN	NN	O	O
+SPS	NN	O	O
+over	NN	O	O
+the	NN	O	O
+previous	NN	O	O
+15	NN	O	O
+years	NN	O	O
+by	NN	O	O
+the	NN	O	O
+NA38	NN	O	O
+and	NN	O	O
+NA50	NN	O	O
+Collaborations	NN	O	O
+.	NN	O	O
+This	NN	O	O
+experimental	NN	O	B-Task
+program	NN	O	I-Task
+was	NN	O	O
+mainly	NN	O	O
+motivated	NN	O	O
+by	NN	O	O
+the	NN	O	O
+suggestion	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+to	NN	O	O
+use	NN	O	B-Task
+the	NN	O	I-Task
+J/ψ	NN	O	I-Task
+as	NN	O	I-Task
+a	NN	O	I-Task
+probe	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+state	NN	O	I-Task
+of	NN	O	I-Task
+matter	NN	O	I-Task
+created	NN	O	I-Task
+at	NN	O	I-Task
+the	NN	O	I-Task
+early	NN	O	I-Task
+stage	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+collision	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+original	NN	O	B-Material
+picture	NN	O	I-Material
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+(	NN	O	O
+see	NN	O	O
+also	NN	O	O
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+for	NN	O	O
+a	NN	O	O
+modern	NN	O	O
+review	NN	O	O
+)	NN	O	O
+assumes	NN	O	O
+that	NN	O	O
+charmonia	NN	O	B-Material
+are	NN	O	O
+created	NN	O	O
+exclusively	NN	O	O
+at	NN	O	O
+the	NN	O	O
+initial	NN	O	O
+stage	NN	O	O
+of	NN	O	O
+the	NN	O	O
+reaction	NN	O	O
+in	NN	O	O
+primary	NN	O	B-Process
+nucleon	NN	O	I-Process
+–	NN	O	I-Process
+nucleon	NN	O	I-Process
+collisions	NN	O	I-Process
+.	NN	O	O
+During	NN	O	O
+the	NN	O	O
+subsequent	NN	O	B-Process
+evolution	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+system	NN	O	I-Process
+,	NN	O	I-Process
+the	NN	O	O
+number	NN	O	O
+of	NN	O	O
+hidden	NN	O	B-Material
+charm	NN	O	I-Material
+mesons	NN	O	I-Material
+is	NN	O	O
+reduced	NN	O	O
+because	NN	O	O
+of	NN	O	O
+:	NN	O	O
+(	NN	O	O
+a	NN	O	O
+)	NN	O	O
+absorption	NN	O	B-Process
+of	NN	O	I-Process
+pre	NN	O	I-Process
+-	NN	O	I-Process
+resonance	NN	O	I-Process
+charmonium	NN	O	I-Process
+states	NN	O	I-Process
+by	NN	O	I-Process
+nuclear	NN	O	I-Process
+nucleons	NN	O	I-Process
+(	NN	O	O
+normal	NN	O	B-Process
+nuclear	NN	O	I-Process
+suppression	NN	O	I-Process
+)	NN	O	O
+,	NN	O	O
+(	NN	O	O
+b	NN	O	O
+)	NN	O	O
+interactions	NN	O	B-Process
+of	NN	O	I-Process
+charmonia	NN	O	I-Process
+with	NN	O	I-Process
+secondary	NN	O	I-Process
+hadrons	NN	O	I-Process
+(	NN	O	O
+comovers	NN	O	B-Process
+)	NN	O	O
+,	NN	O	O
+(	NN	O	O
+c	NN	O	O
+)	NN	O	O
+dissociation	NN	O	B-Process
+of	NN	O	I-Process
+cc̄	NN	O	I-Process
+bound	NN	O	I-Process
+states	NN	O	I-Process
+in	NN	O	I-Process
+deconfined	NN	O	I-Process
+medium	NN	O	I-Process
+(	NN	O	O
+anomalous	NN	O	B-Process
+suppression	NN	O	I-Process
+)	NN	O	O
+.	NN	O	O
+It	NN	O	O
+was	NN	O	O
+found	NN	O	O
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+that	NN	O	O
+J/ψ	NN	O	B-Process
+suppression	NN	O	I-Process
+with	NN	O	O
+respect	NN	O	O
+to	NN	O	O
+Drell	NN	O	B-Material
+–	NN	O	I-Material
+Yan	NN	O	I-Material
+muon	NN	O	I-Material
+pairs	NN	O	I-Material
+measured	NN	O	O
+in	NN	O	O
+proton	NN	O	B-Material
+–	NN	O	I-Material
+nucleus	NN	O	I-Material
+and	NN	O	O
+nucleus	NN	O	B-Process
+–	NN	O	I-Process
+nucleus	NN	O	I-Process
+collisions	NN	O	I-Process
+with	NN	O	O
+light	NN	O	B-Material
+projectiles	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+explained	NN	O	O
+by	NN	O	O
+the	NN	O	O
+so	NN	O	O
+-	NN	O	O
+called	NN	O	O
+“	NN	O	O
+normal	NN	O	O
+”	NN	O	O
+(	NN	O	O
+due	NN	O	O
+to	NN	O	O
+sweeping	NN	O	B-Material
+nucleons	NN	O	I-Material
+)	NN	O	O
+nuclear	NN	O	B-Process
+suppression	NN	O	I-Process
+alone	NN	O	O
+.	NN	O	O
+In	NN	O	O
+contrast	NN	O	O
+,	NN	O	O
+the	NN	O	O
+NA50	NN	O	B-Task
+experiment	NN	O	I-Task
+with	NN	O	O
+a	NN	O	O
+heavy	NN	O	B-Material
+projectile	NN	O	I-Material
+and	NN	O	I-Material
+target	NN	O	I-Material
+(	NN	O	O
+Pb+Pb	NN	O	B-Material
+)	NN	O	O
+revealed	NN	O	O
+essentially	NN	O	O
+stronger	NN	O	O
+J/ψ	NN	O	B-Process
+suppression	NN	O	I-Process
+for	NN	O	O
+central	NN	O	B-Process
+collisions	NN	O	I-Process
+[	NN	O	O
+4–7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+anomalous	NN	O	O
+J/ψ	NN	O	B-Process
+suppression	NN	O	I-Process
+was	NN	O	O
+attributed	NN	O	O
+to	NN	O	O
+formation	NN	O	B-Process
+of	NN	O	I-Process
+quark	NN	O	I-Process
+–	NN	O	I-Process
+gluon	NN	O	I-Process
+plasma	NN	O	I-Process
+(	NN	O	O
+QGP	NN	O	B-Material
+)	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+,	NN	O	O
+but	NN	O	O
+a	NN	O	O
+comover	NN	O	B-Process
+scenario	NN	O	I-Process
+can	NN	O	O
+not	NN	O	O
+be	NN	O	O
+excluded	NN	O	O
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269302014892)
+
+Brodsky	NN	O	O
+and	NN	O	O
+Lepage	NN	O	O
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+have	NN	O	O
+proposed	NN	O	O
+a	NN	O	O
+formula	NN	O	B-Task
+for	NN	O	I-Task
+meson	NN	O	I-Task
+pair	NN	O	I-Task
+production	NN	O	I-Task
+which	NN	O	O
+looks	NN	O	O
+similar	NN	O	O
+to	NN	O	O
+(	NN	O	O
+25	NN	O	O
+)	NN	O	O
+,	NN	O	O
+except	NN	O	O
+for	NN	O	O
+a	NN	O	O
+different	NN	O	O
+charge	NN	O	O
+factor	NN	O	O
+and	NN	O	O
+the	NN	O	O
+appearance	NN	O	O
+of	NN	O	O
+the	NN	O	O
+timelike	NN	O	O
+electromagnetic	NN	O	B-Material
+meson	NN	O	I-Material
+form	NN	O	O
+factor	NN	O	O
+instead	NN	O	O
+of	NN	O	O
+the	NN	O	O
+annihilation	NN	O	O
+form	NN	O	O
+factor	NN	O	O
+R(s	NN	O	O
+)	NN	O	O
+.	NN	O	O
+This	NN	O	O
+formula	NN	O	B-Task
+was	NN	O	O
+obtained	NN	O	O
+from	NN	O	O
+the	NN	O	O
+leading	NN	O	O
+-	NN	O	O
+twist	NN	O	O
+result	NN	O	O
+by	NN	O	O
+neglecting	NN	O	B-Process
+part	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+amplitudes	NN	O	I-Process
+with	NN	O	I-Process
+opposite	NN	O	I-Process
+photon	NN	O	I-Process
+helicities	NN	O	I-Process
+.	NN	O	O
+As	NN	O	O
+has	NN	O	O
+been	NN	O	O
+pointed	NN	O	O
+out	NN	O	O
+in	NN	O	O
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+,	NN	O	O
+this	NN	O	O
+part	NN	O	O
+is	NN	O	O
+however	NN	O	O
+not	NN	O	O
+approximately	NN	O	O
+independent	NN	O	O
+of	NN	O	O
+the	NN	O	O
+pion	NN	O	O
+distribution	NN	O	O
+amplitude	NN	O	O
+and	NN	O	O
+not	NN	O	O
+generically	NN	O	O
+small	NN	O	O
+.	NN	O	O
+We	NN	O	O
+also	NN	O	O
+remark	NN	O	O
+that	NN	O	O
+the	NN	O	O
+appearance	NN	O	O
+of	NN	O	O
+Fπ(s	NN	O	O
+)	NN	O	O
+in	NN	O	O
+the	NN	O	O
+γγ→π+π−	NN	O	O
+amplitude	NN	O	O
+is	NN	O	O
+no	NN	O	O
+longer	NN	O	O
+observed	NN	O	O
+if	NN	O	O
+corrections	NN	O	O
+from	NN	O	O
+partonic	NN	O	B-Process
+transverse	NN	O	I-Process
+momentum	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+hard	NN	O	B-Process
+scattering	NN	O	I-Process
+process	NN	O	I-Process
+are	NN	O	O
+taken	NN	O	O
+into	NN	O	O
+account	NN	O	O
+,	NN	O	O
+and	NN	O	O
+that	NN	O	O
+these	NN	O	O
+corrections	NN	O	O
+are	NN	O	O
+not	NN	O	O
+numerically	NN	O	O
+small	NN	O	O
+for	NN	O	O
+the	NN	O	O
+values	NN	O	O
+of	NN	O	O
+s	NN	O	O
+we	NN	O	O
+are	NN	O	O
+dealing	NN	O	O
+with	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Notice	NN	O	O
+further	NN	O	O
+that	NN	O	O
+two	NN	O	B-Process
+-	NN	O	I-Process
+photon	NN	O	I-Process
+annihilation	NN	O	I-Process
+produces	NN	O	O
+two	NN	O	O
+pions	NN	O	B-Material
+in	NN	O	O
+a	NN	O	O
+C	NN	O	O
+-	NN	O	O
+even	NN	O	O
+state	NN	O	O
+,	NN	O	O
+whereas	NN	O	O
+the	NN	O	O
+electromagnetic	NN	O	B-Process
+form	NN	O	I-Process
+factor	NN	O	I-Process
+projects	NN	O	O
+on	NN	O	O
+the	NN	O	O
+C	NN	O	O
+-	NN	O	O
+odd	NN	O	O
+state	NN	O	O
+of	NN	O	O
+a	NN	O	O
+pion	NN	O	B-Material
+pair	NN	O	I-Material
+.	NN	O	O
+In	NN	O	O
+contrast	NN	O	O
+,	NN	O	O
+our	NN	O	O
+annihilation	NN	O	B-Material
+form	NN	O	I-Material
+factor	NN	O	I-Material
+R2π(s	NN	O	B-Material
+)	NN	O	I-Material
+is	NN	O	O
+C	NN	O	O
+-	NN	O	O
+even	NN	O	O
+as	NN	O	O
+discussed	NN	O	O
+after	NN	O	O
+(	NN	O	O
+24	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Finally	NN	O	O
+,	NN	O	O
+due	NN	O	O
+to	NN	O	O
+a	NN	O	O
+particular	NN	O	O
+charge	NN	O	O
+factor	NN	O	O
+,	NN	O	O
+the	NN	O	O
+Brodsky	NN	O	B-Task
+–	NN	O	I-Task
+Lepage	NN	O	I-Task
+formula	NN	O	I-Task
+leads	NN	O	O
+to	NN	O	O
+a	NN	O	O
+vanishing	NN	O	B-Process
+cross	NN	O	I-Process
+section	NN	O	I-Process
+for	NN	O	I-Process
+γγ	NN	O	I-Process
+annihilation	NN	O	I-Process
+into	NN	O	O
+pairs	NN	O	O
+of	NN	O	O
+neutral	NN	O	B-Material
+pseudoscalars	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0370269303015478)
+
+Since	NN	O	O
+perturbative	NN	O	B-Process
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+is	NN	O	O
+used	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+impossible	NN	O	O
+to	NN	O	O
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+the	NN	O	O
+exact	NN	O	B-Process
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+;	NN	O	O
+instead	NN	O	O
+,	NN	O	O
+one	NN	O	O
+can	NN	O	O
+derive	NN	O	O
+tree	NN	O	B-Process
+-	NN	O	I-Process
+level	NN	O	I-Process
+unitarity	NN	O	I-Process
+bounds	NN	O	I-Process
+or	NN	O	O
+loop	NN	O	B-Process
+-	NN	O	I-Process
+improved	NN	O	I-Process
+unitarity	NN	O	I-Process
+bounds	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+study	NN	O	O
+,	NN	O	O
+we	NN	O	O
+will	NN	O	O
+use	NN	O	O
+unitarity	NN	O	B-Process
+bounds	NN	O	I-Process
+coming	NN	O	O
+from	NN	O	O
+a	NN	O	O
+tree	NN	O	B-Task
+-	NN	O	I-Task
+level	NN	O	I-Task
+analysis	NN	O	I-Task
+[	NN	O	O
+20	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+tree	NN	O	B-Task
+level	NN	O	I-Task
+analysis	NN	O	I-Task
+is	NN	O	O
+derived	NN	O	O
+with	NN	O	O
+the	NN	O	O
+help	NN	O	O
+of	NN	O	O
+the	NN	O	O
+equivalence	NN	O	B-Process
+theorem	NN	O	I-Process
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
+,	NN	O	O
+which	NN	O	O
+itself	NN	O	O
+is	NN	O	O
+a	NN	O	O
+high	NN	O	B-Process
+-	NN	O	I-Process
+energy	NN	O	I-Process
+approximation	NN	O	I-Process
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+it	NN	O	O
+is	NN	O	O
+assumed	NN	O	O
+that	NN	O	O
+the	NN	O	O
+energy	NN	O	O
+scale	NN	O	O
+is	NN	O	O
+much	NN	O	O
+larger	NN	O	O
+than	NN	O	O
+the	NN	O	O
+Z0	NN	O	O
+and	NN	O	O
+W±	NN	O	O
+gauge	NN	O	B-Material
+-	NN	O	I-Material
+boson	NN	O	I-Material
+masses	NN	O	I-Material
+.	NN	O	O
+We	NN	O	O
+will	NN	O	O
+consider	NN	O	O
+here	NN	O	O
+this	NN	O	O
+“	NN	O	O
+high	NN	O	O
+-	NN	O	O
+energy	NN	O	O
+”	NN	O	O
+hypothesis	NN	O	O
+that	NN	O	O
+both	NN	O	O
+the	NN	O	O
+equivalence	NN	O	B-Process
+theorem	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+decoupling	NN	O	B-Process
+regime	NN	O	I-Process
+are	NN	O	O
+well	NN	O	O
+settled	NN	O	O
+,	NN	O	O
+but	NN	O	O
+in	NN	O	O
+such	NN	O	O
+a	NN	O	O
+way	NN	O	O
+that	NN	O	O
+the	NN	O	O
+unitarity	NN	O	B-Process
+constraint	NN	O	I-Process
+is	NN	O	O
+also	NN	O	O
+fulfilled	NN	O	O
+.	NN	O	O
+Our	NN	O	O
+purpose	NN	O	O
+is	NN	O	O
+to	NN	O	O
+investigate	NN	O	B-Task
+the	NN	O	I-Task
+quantum	NN	O	I-Task
+effects	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+decays	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+light	NN	O	I-Task
+CP	NN	O	I-Task
+-	NN	O	I-Task
+even	NN	O	I-Task
+Higgs	NN	O	I-Task
+boson	NN	O	I-Task
+h0	NN	O	I-Task
+,	NN	O	O
+especially	NN	O	O
+looking	NN	O	B-Task
+for	NN	O	I-Task
+sizeable	NN	O	I-Task
+differences	NN	O	I-Task
+with	NN	O	I-Task
+respect	NN	O	I-Task
+to	NN	O	I-Task
+the	NN	O	I-Task
+SM	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+decoupling	NN	O	I-Task
+regime	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0370269303017222)
+
+In	NN	O	O
+the	NN	O	O
+bag	NN	O	B-Process
+model	NN	O	I-Process
+and	NN	O	O
+in	NN	O	O
+linear	NN	O	O
+or	NN	O	O
+harmonic	NN	O	O
+oscillator	NN	O	B-Process
+confining	NN	O	I-Process
+potentials	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+first	NN	O	O
+excited	NN	O	O
+S	NN	O	O
+-	NN	O	O
+state	NN	O	O
+lies	NN	O	O
+above	NN	O	O
+the	NN	O	O
+lowest	NN	O	O
+P	NN	O	O
+-	NN	O	O
+state	NN	O	O
+,	NN	O	O
+making	NN	O	O
+the	NN	O	O
+predicted	NN	O	O
+Roper	NN	O	O
+mass	NN	O	O
+heavier	NN	O	O
+than	NN	O	O
+the	NN	O	O
+lightest	NN	O	O
+negative	NN	O	O
+parity	NN	O	O
+baryon	NN	O	O
+mass	NN	O	O
+.	NN	O	O
+Pairwise	NN	O	B-Process
+spin	NN	O	I-Process
+-	NN	O	I-Process
+dependent	NN	O	I-Process
+interactions	NN	O	I-Process
+must	NN	O	O
+reverse	NN	O	O
+the	NN	O	O
+level	NN	O	B-Process
+ordering	NN	O	I-Process
+.	NN	O	O
+As	NN	O	O
+mentioned	NN	O	O
+earlier	NN	O	O
+,	NN	O	O
+color	NN	O	B-Process
+-	NN	O	I-Process
+spin	NN	O	I-Process
+interactions	NN	O	I-Process
+fail	NN	O	O
+in	NN	O	O
+this	NN	O	O
+regard	NN	O	O
+[	NN	O	O
+29	NN	O	O
+]	NN	O	O
+,	NN	O	O
+while	NN	O	O
+flavor	NN	O	B-Process
+-	NN	O	I-Process
+spin	NN	O	I-Process
+interactions	NN	O	I-Process
+produce	NN	O	O
+the	NN	O	O
+desired	NN	O	O
+effect	NN	O	O
+.	NN	O	O
+Since	NN	O	O
+the	NN	O	O
+q3	NN	O	B-Process
+color	NN	O	I-Process
+wave	NN	O	I-Process
+function	NN	O	I-Process
+is	NN	O	O
+antisymmetric	NN	O	O
+,	NN	O	O
+the	NN	O	O
+flavor	NN	O	B-Process
+-	NN	O	I-Process
+spin	NN	O	I-Process
+-	NN	O	I-Process
+orbital	NN	O	I-Process
+wave	NN	O	I-Process
+function	NN	O	I-Process
+is	NN	O	O
+totally	NN	O	O
+symmetric	NN	O	O
+.	NN	O	O
+For	NN	O	O
+all	NN	O	O
+quarks	NN	O	B-Material
+in	NN	O	O
+an	NN	O	O
+S	NN	O	O
+-	NN	O	O
+state	NN	O	O
+,	NN	O	O
+the	NN	O	O
+flavor	NN	O	B-Process
+-	NN	O	I-Process
+spin	NN	O	I-Process
+wave	NN	O	I-Process
+function	NN	O	I-Process
+is	NN	O	O
+totally	NN	O	O
+symmetric	NN	O	O
+all	NN	O	O
+by	NN	O	O
+itself	NN	O	O
+and	NN	O	O
+leads	NN	O	O
+to	NN	O	O
+the	NN	O	O
+most	NN	O	O
+attractive	NN	O	O
+flavor	NN	O	B-Process
+-	NN	O	I-Process
+spin	NN	O	I-Process
+interaction	NN	O	I-Process
+.	NN	O	O
+If	NN	O	O
+one	NN	O	O
+quark	NN	O	B-Material
+is	NN	O	O
+in	NN	O	O
+a	NN	O	O
+P	NN	O	O
+-	NN	O	O
+state	NN	O	O
+,	NN	O	O
+the	NN	O	O
+orbital	NN	O	B-Process
+wave	NN	O	I-Process
+function	NN	O	I-Process
+is	NN	O	O
+mixed	NN	O	O
+symmetry	NN	O	O
+and	NN	O	O
+so	NN	O	O
+is	NN	O	O
+the	NN	O	O
+flavor	NN	O	B-Process
+-	NN	O	I-Process
+spin	NN	O	I-Process
+wave	NN	O	I-Process
+function	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+flavor	NN	O	B-Process
+-	NN	O	I-Process
+spin	NN	O	I-Process
+interaction	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+less	NN	O	O
+attractive	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+SU(3)F	NN	O	O
+symmetric	NN	O	O
+case	NN	O	O
+,	NN	O	O
+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+1	NN	O	O
+)	NN	O	O
+,	NN	O	O
+one	NN	O	O
+obtains	NN	O	O
+mass	NN	O	B-Process
+splittings	NN	O	I-Process
+(	NN	O	O
+2)ΔMχ=−14Cχ,N(939),N∗(1440),−4Cχ,Δ(1232),−2Cχ,N∗(1535	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Here	NN	O	O
+we	NN	O	O
+have	NN	O	O
+approximated	NN	O	O
+the	NN	O	O
+N∗(1535	NN	O	O
+)	NN	O	O
+as	NN	O	O
+a	NN	O	O
+state	NN	O	O
+with	NN	O	O
+total	NN	O	O
+quark	NN	O	B-Process
+spin-1/2	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S037026930301801X)
+
+The	NN	O	O
+measurements	NN	O	O
+presented	NN	O	O
+here	NN	O	O
+provide	NN	O	O
+evidence	NN	O	O
+for	NN	O	O
+the	NN	O	O
+existence	NN	O	O
+of	NN	O	O
+di	NN	O	B-Material
+-	NN	O	I-Material
+cluster	NN	O	I-Material
+structures	NN	O	I-Material
+in	NN	O	O
+10–12,14Be	NN	O	O
+.	NN	O	O
+Certainly	NN	O	O
+,	NN	O	O
+if	NN	O	O
+the	NN	O	O
+breakup	NN	O	B-Process
+process	NN	O	I-Process
+samples	NN	O	O
+the	NN	O	O
+overlap	NN	O	O
+between	NN	O	O
+the	NN	O	O
+wavefunctions	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+ground	NN	O	I-Process
+state	NN	O	I-Process
+and	NN	O	I-Process
+the	NN	O	I-Process
+excited	NN	O	I-Process
+states	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+first	NN	O	B-Process
+-	NN	O	I-Process
+chance	NN	O	I-Process
+cluster	NN	O	I-Process
+breakup	NN	O	I-Process
+cross	NN	O	I-Process
+-	NN	O	I-Process
+sections	NN	O	I-Process
+,	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+4(a	NN	O	O
+)	NN	O	O
+,	NN	O	O
+indicate	NN	O	O
+that	NN	O	O
+the	NN	O	O
+xHe+A−xHe	NN	O	B-Material
+cluster	NN	O	I-Material
+structure	NN	O	I-Material
+does	NN	O	O
+not	NN	O	O
+decrease	NN	O	O
+over	NN	O	O
+the	NN	O	O
+mass	NN	O	O
+range	NN	O	O
+A=10	NN	O	O
+,	NN	O	O
+12	NN	O	O
+and	NN	O	O
+14	NN	O	O
+.	NN	O	O
+Given	NN	O	O
+also	NN	O	O
+that	NN	O	O
+the	NN	O	O
+decay	NN	O	B-Process
+energy	NN	O	I-Process
+threshold	NN	O	O
+increases	NN	O	O
+with	NN	O	O
+mass	NN	O	O
+number	NN	O	O
+,	NN	O	O
+the	NN	O	O
+present	NN	O	O
+data	NN	O	O
+may	NN	O	O
+even	NN	O	O
+indicate	NN	O	O
+a	NN	O	O
+slight	NN	O	O
+increase	NN	O	O
+in	NN	O	O
+clustering	NN	O	O
+.	NN	O	O
+The	NN	O	O
+breakup	NN	O	B-Process
+cross	NN	O	I-Process
+-	NN	O	I-Process
+sections	NN	O	I-Process
+also	NN	O	O
+appear	NN	O	O
+to	NN	O	O
+demonstrate	NN	O	O
+that	NN	O	O
+these	NN	O	O
+nuclei	NN	O	B-Material
+possess	NN	O	O
+a	NN	O	O
+stronger	NN	O	O
+structural	NN	O	O
+overlap	NN	O	O
+with	NN	O	O
+an	NN	O	O
+α–Xn–α	NN	O	O
+configuration	NN	O	O
+,	NN	O	O
+although	NN	O	O
+the	NN	O	O
+reaction	NN	O	B-Process
+mechanics	NN	O	I-Process
+by	NN	O	O
+which	NN	O	O
+this	NN	O	O
+final	NN	O	O
+state	NN	O	O
+is	NN	O	O
+reached	NN	O	O
+may	NN	O	O
+be	NN	O	O
+complex	NN	O	O
+.	NN	O	O
+That	NN	O	O
+is	NN	O	O
+to	NN	O	O
+say	NN	O	O
+that	NN	O	O
+the	NN	O	O
+dominant	NN	O	B-Process
+structural	NN	O	I-Process
+mode	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+neutron	NN	O	B-Material
+rich	NN	O	I-Material
+isotopes	NN	O	I-Material
+may	NN	O	O
+be	NN	O	O
+identified	NN	O	O
+with	NN	O	O
+two	NN	O	O
+alpha	NN	O	B-Material
+-	NN	O	I-Material
+particles	NN	O	I-Material
+plus	NN	O	O
+valence	NN	O	B-Material
+neutrons	NN	O	I-Material
+.	NN	O	O
+These	NN	O	O
+comprehensive	NN	O	B-Task
+measurements	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+neutron	NN	O	I-Task
+-	NN	O	I-Task
+removal	NN	O	I-Task
+and	NN	O	I-Task
+cluster	NN	O	I-Task
+breakup	NN	O	I-Task
+for	NN	O	O
+the	NN	O	O
+first	NN	O	O
+time	NN	O	O
+provide	NN	O	O
+experimental	NN	O	O
+data	NN	O	O
+whereby	NN	O	O
+the	NN	O	O
+structure	NN	O	O
+of	NN	O	O
+the	NN	O	O
+most	NN	O	O
+neutron	NN	O	B-Material
+-	NN	O	I-Material
+rich	NN	O	I-Material
+Be	NN	O	I-Material
+isotopes	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+modeled	NN	O	O
+via	NN	O	O
+their	NN	O	O
+reactions	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304005829)
+
+Let	NN	O	O
+us	NN	O	O
+now	NN	O	O
+consider	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+a	NN	O	O
+beta	NN	O	B-Material
+-	NN	O	I-Material
+beam	NN	O	I-Material
+source	NN	O	I-Material
+.	NN	O	O
+Similarly	NN	O	O
+to	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+a	NN	O	O
+static	NN	O	B-Material
+tritium	NN	O	I-Material
+source	NN	O	I-Material
+,	NN	O	O
+an	NN	O	O
+advantage	NN	O	O
+of	NN	O	O
+the	NN	O	O
+beta	NN	O	B-Process
+-	NN	O	I-Process
+beams	NN	O	I-Process
+is	NN	O	O
+that	NN	O	O
+the	NN	O	O
+neutrino	NN	O	B-Process
+fluxes	NN	O	I-Process
+can	NN	O	O
+be	NN	O	O
+very	NN	O	O
+accurately	NN	O	O
+calculated	NN	O	O
+.	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3	NN	O	O
+shows	NN	O	O
+the	NN	O	O
+electron	NN	O	B-Process
+–	NN	O	I-Process
+neutrino	NN	O	I-Process
+scattering	NN	O	I-Process
+events	NN	O	O
+in	NN	O	O
+the	NN	O	O
+range	NN	O	O
+of	NN	O	O
+0.1	NN	O	O
+MeV	NN	O	O
+to	NN	O	O
+1	NN	O	O
+MeV	NN	O	O
+and	NN	O	O
+1	NN	O	O
+keV	NN	O	O
+to	NN	O	O
+10	NN	O	O
+keV	NN	O	O
+,	NN	O	O
+respectively	NN	O	O
+.	NN	O	O
+(	NN	O	O
+In	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3(b	NN	O	O
+)	NN	O	O
+we	NN	O	O
+have	NN	O	O
+rounded	NN	O	O
+to	NN	O	O
+the	NN	O	O
+nearest	NN	O	O
+integer	NN	O	O
+number	NN	O	O
+of	NN	O	O
+counts	NN	O	O
+.	NN	O	O
+)	NN	O	O
+The	NN	O	O
+shape	NN	O	O
+of	NN	O	O
+the	NN	O	O
+flux	NN	O	O
+-	NN	O	O
+averaged	NN	O	O
+cross	NN	O	O
+sections	NN	O	O
+is	NN	O	O
+very	NN	O	O
+similar	NN	O	O
+to	NN	O	O
+the	NN	O	O
+reactor	NN	O	B-Material
+case	NN	O	I-Material
+as	NN	O	O
+reflected	NN	O	O
+in	NN	O	O
+the	NN	O	O
+event	NN	O	O
+rates	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+the	NN	O	O
+figures	NN	O	O
+.	NN	O	O
+As	NN	O	O
+can	NN	O	O
+be	NN	O	O
+seen	NN	O	O
+,	NN	O	O
+by	NN	O	O
+measuring	NN	O	O
+electron	NN	O	B-Material
+recoils	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+keV	NN	O	O
+range	NN	O	O
+with	NN	O	O
+a	NN	O	O
+beta	NN	O	B-Material
+-	NN	O	I-Material
+beam	NN	O	I-Material
+source	NN	O	I-Material
+one	NN	O	O
+could	NN	O	O
+,	NN	O	O
+with	NN	O	O
+a	NN	O	O
+sufficiently	NN	O	O
+strong	NN	O	O
+source	NN	O	O
+,	NN	O	O
+have	NN	O	O
+a	NN	O	O
+very	NN	O	O
+clear	NN	O	O
+signature	NN	O	O
+for	NN	O	O
+a	NN	O	O
+neutrino	NN	O	B-Process
+magnetic	NN	O	I-Process
+moment	NN	O	I-Process
+of	NN	O	O
+5×10−11μB.	NN	O	O
+These	NN	O	O
+figures	NN	O	O
+are	NN	O	O
+for	NN	O	O
+Helium-6	NN	O	B-Material
+ions	NN	O	I-Material
+,	NN	O	O
+however	NN	O	O
+,	NN	O	O
+similar	NN	O	O
+results	NN	O	O
+can	NN	O	O
+be	NN	O	O
+obtained	NN	O	O
+using	NN	O	O
+neutrinos	NN	O	B-Material
+from	NN	O	O
+18Ne	NN	O	O
+.	NN	O	O
+The	NN	O	O
+results	NN	O	O
+shown	NN	O	O
+are	NN	O	O
+obtained	NN	O	O
+for	NN	O	O
+an	NN	O	O
+intensity	NN	O	O
+of	NN	O	O
+1015	NN	O	O
+ν/s	NN	O	O
+(	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+1015	NN	O	O
+ions	NN	O	O
+/	NN	O	O
+s	NN	O	O
+)	NN	O	O
+.	NN	O	O
+If	NN	O	O
+there	NN	O	O
+is	NN	O	O
+no	NN	O	O
+magnetic	NN	O	O
+moment	NN	O	O
+,	NN	O	O
+this	NN	O	O
+intensity	NN	O	O
+will	NN	O	O
+produce	NN	O	O
+about	NN	O	O
+170	NN	O	O
+events	NN	O	O
+in	NN	O	O
+the	NN	O	O
+0.1	NN	O	O
+MeV	NN	O	O
+to	NN	O	O
+1	NN	O	O
+MeV	NN	O	O
+range	NN	O	O
+per	NN	O	O
+year	NN	O	O
+and	NN	O	O
+3	NN	O	O
+events	NN	O	O
+in	NN	O	O
+the	NN	O	O
+1	NN	O	O
+keV	NN	O	O
+to	NN	O	O
+10	NN	O	O
+keV	NN	O	O
+range	NN	O	O
+per	NN	O	O
+year	NN	O	O
+.	NN	O	O
+These	NN	O	O
+numbers	NN	O	O
+increase	NN	O	O
+to	NN	O	O
+210	NN	O	O
+and	NN	O	O
+55	NN	O	O
+,	NN	O	O
+respectively	NN	O	O
+,	NN	O	O
+in	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+a	NN	O	O
+magnetic	NN	O	O
+moment	NN	O	O
+of	NN	O	O
+5×10−11μB.	NN	O	O
+
+-DOCSTART- (S0370269304007567)
+
+Each	NN	O	O
+hit	NN	O	O
+position	NN	O	O
+inside	NN	O	O
+the	NN	O	O
+drift	NN	O	B-Material
+chambers	NN	O	I-Material
+was	NN	O	O
+calculated	NN	O	O
+from	NN	O	O
+the	NN	O	O
+drift	NN	O	O
+time	NN	O	O
+digitized	NN	O	O
+by	NN	O	O
+a	NN	O	O
+flash	NN	O	B-Material
+analog	NN	O	I-Material
+-	NN	O	I-Material
+to	NN	O	I-Material
+-	NN	O	I-Material
+digital	NN	O	I-Material
+converter	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+calculation	NN	O	O
+was	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+based	NN	O	O
+on	NN	O	O
+a	NN	O	O
+relation	NN	O	B-Process
+between	NN	O	I-Process
+the	NN	O	I-Process
+hit	NN	O	I-Process
+position	NN	O	I-Process
+and	NN	O	I-Process
+the	NN	O	I-Process
+drift	NN	O	I-Process
+time	NN	O	I-Process
+(	NN	O	O
+x	NN	O	B-Process
+–	NN	O	I-Process
+t	NN	O	I-Process
+relation	NN	O	I-Process
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+x	NN	O	B-Process
+–	NN	O	I-Process
+t	NN	O	I-Process
+relation	NN	O	I-Process
+was	NN	O	O
+precisely	NN	O	O
+calculated	NN	O	O
+by	NN	O	O
+a	NN	O	O
+drift	NN	O	B-Material
+chamber	NN	O	I-Material
+simulation	NN	O	I-Material
+package	NN	O	I-Material
+,	NN	O	O
+GARFIELD	NN	O	B-Material
+[	NN	O	O
+20	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+a	NN	O	O
+gas	NN	O	B-Material
+property	NN	O	I-Material
+simulation	NN	O	I-Material
+package	NN	O	I-Material
+,	NN	O	O
+MAGBOLTZ	NN	O	B-Material
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Although	NN	O	O
+the	NN	O	O
+chambers	NN	O	B-Material
+were	NN	O	O
+constructed	NN	O	O
+carefully	NN	O	O
+with	NN	O	O
+a	NN	O	O
+tolerance	NN	O	O
+of	NN	O	O
+100	NN	O	O
+μm	NN	O	O
+,	NN	O	O
+there	NN	O	O
+was	NN	O	O
+a	NN	O	O
+small	NN	O	O
+position	NN	O	O
+deviation	NN	O	O
+of	NN	O	O
+wires	NN	O	O
+and	NN	O	O
+field	NN	O	O
+-	NN	O	O
+shaping	NN	O	O
+patterns	NN	O	O
+,	NN	O	O
+which	NN	O	O
+could	NN	O	O
+locally	NN	O	O
+modify	NN	O	O
+the	NN	O	O
+electric	NN	O	O
+field	NN	O	O
+.	NN	O	O
+In	NN	O	O
+order	NN	O	O
+to	NN	O	O
+take	NN	O	O
+account	NN	O	O
+of	NN	O	O
+the	NN	O	O
+limited	NN	O	O
+accuracy	NN	O	O
+in	NN	O	O
+the	NN	O	O
+chamber	NN	O	O
+manufacturing	NN	O	O
+,	NN	O	O
+a	NN	O	O
+correction	NN	O	O
+was	NN	O	O
+commonly	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+the	NN	O	O
+calculated	NN	O	O
+x	NN	O	B-Process
+–	NN	O	I-Process
+t	NN	O	I-Process
+relation	NN	O	I-Process
+throughout	NN	O	O
+the	NN	O	O
+experiments	NN	O	O
+.	NN	O	O
+The	NN	O	O
+correction	NN	O	O
+was	NN	O	O
+obtained	NN	O	O
+to	NN	O	O
+minimize	NN	O	O
+the	NN	O	O
+χ2	NN	O	O
+in	NN	O	O
+the	NN	O	O
+fitting	NN	O	O
+of	NN	O	O
+straight	NN	O	O
+tracks	NN	O	O
+of	NN	O	O
+clean	NN	O	O
+muon	NN	O	O
+events	NN	O	O
+observed	NN	O	O
+on	NN	O	O
+the	NN	O	O
+ground	NN	O	O
+without	NN	O	O
+magnetic	NN	O	B-Process
+field	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+correction	NN	O	O
+was	NN	O	O
+as	NN	O	O
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+as	NN	O	O
+expected	NN	O	O
+from	NN	O	O
+the	NN	O	O
+accuracy	NN	O	O
+in	NN	O	O
+the	NN	O	O
+chamber	NN	O	B-Process
+manufacturing	NN	O	I-Process
+.	NN	O	O
+During	NN	O	O
+the	NN	O	O
+observations	NN	O	O
+,	NN	O	O
+the	NN	O	O
+x	NN	O	B-Process
+–	NN	O	I-Process
+t	NN	O	I-Process
+relation	NN	O	I-Process
+was	NN	O	O
+affected	NN	O	O
+by	NN	O	O
+the	NN	O	O
+variation	NN	O	O
+in	NN	O	O
+the	NN	O	O
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+and	NN	O	O
+temperature	NN	O	O
+of	NN	O	O
+the	NN	O	O
+chamber	NN	O	B-Material
+gas	NN	O	I-Material
+.	NN	O	O
+In	NN	O	O
+order	NN	O	O
+to	NN	O	O
+take	NN	O	O
+account	NN	O	O
+of	NN	O	O
+these	NN	O	O
+time	NN	O	O
+-	NN	O	O
+dependent	NN	O	O
+variations	NN	O	O
+,	NN	O	O
+the	NN	O	O
+x	NN	O	B-Process
+–	NN	O	I-Process
+t	NN	O	I-Process
+relation	NN	O	I-Process
+was	NN	O	O
+calibrated	NN	O	O
+for	NN	O	O
+each	NN	O	O
+data	NN	O	O
+-	NN	O	O
+taking	NN	O	O
+run	NN	O	O
+.	NN	O	O
+Especially	NN	O	O
+in	NN	O	O
+calibrating	NN	O	O
+the	NN	O	O
+x	NN	O	B-Process
+–	NN	O	I-Process
+t	NN	O	I-Process
+relation	NN	O	I-Process
+of	NN	O	O
+ODCs	NN	O	B-Material
+,	NN	O	O
+an	NN	O	O
+absolute	NN	O	O
+reference	NN	O	O
+positions	NN	O	O
+were	NN	O	O
+provided	NN	O	O
+by	NN	O	O
+SciFi	NN	O	O
+,	NN	O	O
+which	NN	O	O
+are	NN	O	O
+not	NN	O	O
+affected	NN	O	O
+by	NN	O	O
+the	NN	O	O
+variation	NN	O	O
+in	NN	O	O
+the	NN	O	O
+pressure	NN	O	O
+nor	NN	O	O
+temperature	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304007816)
+
+We	NN	O	O
+define	NN	O	B-Task
+a	NN	O	I-Task
+new	NN	O	I-Task
+multispecies	NN	O	I-Task
+model	NN	O	I-Task
+of	NN	O	I-Task
+Calogero	NN	O	I-Task
+type	NN	O	I-Task
+in	NN	O	I-Task
+D	NN	O	I-Task
+dimensions	NN	O	I-Task
+with	NN	O	O
+harmonic	NN	O	B-Process
+,	NN	O	I-Process
+two	NN	O	I-Process
+-	NN	O	I-Process
+body	NN	O	I-Process
+and	NN	O	I-Process
+three	NN	O	I-Process
+-	NN	O	I-Process
+body	NN	O	I-Process
+interactions	NN	O	I-Process
+.	NN	O	O
+Using	NN	O	O
+the	NN	O	O
+underlying	NN	O	O
+conformal	NN	O	B-Process
+SU(1,1	NN	O	I-Process
+)	NN	O	I-Process
+algebra	NN	O	I-Process
+,	NN	O	O
+we	NN	O	O
+indicate	NN	O	O
+how	NN	O	O
+to	NN	O	O
+find	NN	O	O
+the	NN	O	O
+complete	NN	O	O
+set	NN	O	O
+of	NN	O	O
+the	NN	O	O
+states	NN	O	O
+in	NN	O	O
+Bargmann	NN	O	O
+–	NN	O	O
+Fock	NN	O	O
+space	NN	O	O
+.	NN	O	O
+There	NN	O	O
+are	NN	O	O
+towers	NN	O	O
+of	NN	O	O
+states	NN	O	O
+,	NN	O	O
+with	NN	O	O
+equidistant	NN	O	B-Process
+energy	NN	O	I-Process
+spectra	NN	O	I-Process
+in	NN	O	O
+each	NN	O	O
+tower	NN	O	O
+.	NN	O	O
+We	NN	O	O
+explicitely	NN	O	O
+construct	NN	O	B-Process
+all	NN	O	I-Process
+polynomial	NN	O	I-Process
+eigenstates	NN	O	I-Process
+,	NN	O	O
+namely	NN	O	O
+the	NN	O	O
+center	NN	O	O
+-	NN	O	O
+of	NN	O	O
+-	NN	O	O
+mass	NN	O	O
+states	NN	O	O
+and	NN	O	O
+global	NN	O	O
+dilatation	NN	O	O
+modes	NN	O	O
+,	NN	O	O
+and	NN	O	O
+find	NN	O	B-Process
+their	NN	O	I-Process
+corresponding	NN	O	I-Process
+eigenenergies	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+also	NN	O	O
+construct	NN	O	B-Process
+ladder	NN	O	I-Process
+operators	NN	O	I-Process
+for	NN	O	O
+these	NN	O	O
+global	NN	O	O
+collective	NN	O	O
+states	NN	O	O
+.	NN	O	O
+Analysing	NN	O	B-Task
+corresponding	NN	O	I-Task
+Fock	NN	O	I-Task
+space	NN	O	I-Task
+,	NN	O	O
+we	NN	O	O
+detect	NN	O	O
+the	NN	O	O
+universal	NN	O	O
+critical	NN	O	O
+point	NN	O	O
+at	NN	O	O
+which	NN	O	O
+the	NN	O	O
+model	NN	O	O
+exhibits	NN	O	O
+singular	NN	O	O
+behavior	NN	O	O
+.	NN	O	O
+The	NN	O	O
+above	NN	O	O
+results	NN	O	O
+are	NN	O	O
+universal	NN	O	O
+for	NN	O	O
+all	NN	O	O
+systems	NN	O	O
+with	NN	O	O
+underlying	NN	O	O
+conformal	NN	O	O
+SU(1,1	NN	O	O
+)	NN	O	O
+symmetry	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304008421)
+
+The	NN	O	O
+expression	NN	O	O
+for	NN	O	O
+Pc	NN	O	B-Material
+is	NN	O	O
+also	NN	O	O
+easily	NN	O	O
+found	NN	O	O
+in	NN	O	O
+the	NN	O	O
+same	NN	O	O
+basis	NN	O	O
+,	NN	O	O
+where	NN	O	O
+it	NN	O	O
+becomes	NN	O	O
+apparent	NN	O	O
+that	NN	O	O
+the	NN	O	O
+dynamics	NN	O	O
+of	NN	O	O
+conversion	NN	O	B-Process
+in	NN	O	I-Process
+matter	NN	O	I-Process
+depends	NN	O	O
+only	NN	O	O
+on	NN	O	O
+the	NN	O	O
+relative	NN	O	B-Process
+orientation	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+eigenstates	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+vacuum	NN	O	B-Process
+and	NN	O	O
+matter	NN	O	B-Process
+Hamiltonians	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+allows	NN	O	O
+to	NN	O	O
+directly	NN	O	O
+apply	NN	O	O
+the	NN	O	O
+known	NN	O	O
+analytical	NN	O	B-Process
+solutions	NN	O	I-Process
+for	NN	O	I-Process
+Pc	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+,	NN	O	O
+upon	NN	O	O
+rotating	NN	O	O
+back	NN	O	O
+,	NN	O	O
+obtain	NN	O	O
+a	NN	O	O
+generalization	NN	O	B-Process
+of	NN	O	I-Process
+these	NN	O	I-Process
+results	NN	O	I-Process
+to	NN	O	I-Process
+the	NN	O	I-Process
+NSI	NN	O	I-Process
+case	NN	O	I-Process
+.	NN	O	O
+For	NN	O	O
+example	NN	O	O
+,	NN	O	O
+the	NN	O	O
+answer	NN	O	O
+for	NN	O	O
+the	NN	O	O
+infinite	NN	O	O
+exponential	NN	O	O
+profile	NN	O	O
+[	NN	O	O
+18,19	NN	O	O
+]	NN	O	O
+A∝exp(−r	NN	O	O
+/	NN	O	O
+r0	NN	O	O
+)	NN	O	O
+becomes	NN	O	O
+Pc	NN	O	O
+=	NN	O	O
+exp[γ(1−cos2θrel)/2]−1exp(γ)−1	NN	O	O
+,	NN	O	O
+where	NN	O	O
+γ≡4πr0Δ=πr0Δm2/Eν.	NN	O	O
+We	NN	O	O
+further	NN	O	O
+observe	NN	O	O
+that	NN	O	O
+since	NN	O	O
+γ⪢1	NN	O	O
+the	NN	O	O
+adiabaticity	NN	O	B-Process
+violation	NN	O	I-Process
+occurs	NN	O	O
+only	NN	O	O
+when	NN	O	O
+|θ−α|⪡1	NN	O	O
+and	NN	O	O
+φ≃π/2	NN	O	O
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+the	NN	O	O
+analogue	NN	O	O
+of	NN	O	O
+the	NN	O	O
+small	NN	O	O
+-	NN	O	O
+angle	NN	O	O
+MSW	NN	O	O
+[	NN	O	O
+10,20	NN	O	O
+]	NN	O	O
+effect	NN	O	O
+in	NN	O	O
+the	NN	O	O
+rotated	NN	O	O
+basis	NN	O	O
+.	NN	O	O
+The	NN	O	O
+“	NN	O	O
+resonant	NN	O	O
+”	NN	O	O
+region	NN	O	O
+in	NN	O	O
+the	NN	O	O
+Sun	NN	O	O
+where	NN	O	O
+level	NN	O	O
+jumping	NN	O	O
+can	NN	O	O
+take	NN	O	O
+place	NN	O	O
+is	NN	O	O
+narrow	NN	O	O
+,	NN	O	O
+defined	NN	O	O
+by	NN	O	O
+A≃Δ	NN	O	O
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
+.	NN	O	O
+A	NN	O	O
+neutrino	NN	O	B-Material
+produced	NN	O	O
+at	NN	O	O
+a	NN	O	O
+lower	NN	O	O
+density	NN	O	O
+evolves	NN	O	O
+adiabatically	NN	O	O
+,	NN	O	O
+while	NN	O	O
+a	NN	O	O
+neutrino	NN	O	B-Material
+produced	NN	O	O
+at	NN	O	O
+a	NN	O	O
+higher	NN	O	O
+density	NN	O	O
+may	NN	O	O
+undergo	NN	O	O
+level	NN	O	O
+crossing	NN	O	O
+.	NN	O	O
+The	NN	O	O
+probability	NN	O	O
+Pc	NN	O	B-Material
+in	NN	O	O
+the	NN	O	O
+latter	NN	O	O
+case	NN	O	O
+is	NN	O	O
+given	NN	O	O
+to	NN	O	O
+a	NN	O	O
+very	NN	O	O
+good	NN	O	O
+accuracy	NN	O	O
+by	NN	O	O
+the	NN	O	O
+formula	NN	O	O
+for	NN	O	O
+the	NN	O	O
+linear	NN	O	O
+profile	NN	O	O
+,	NN	O	O
+with	NN	O	O
+an	NN	O	O
+appropriate	NN	O	O
+gradient	NN	O	O
+taken	NN	O	O
+along	NN	O	O
+the	NN	O	O
+neutrino	NN	O	B-Material
+trajectory	NN	O	O
+,	NN	O	O
+(	NN	O	O
+12)Pc≃Θ(A−Δ)e−γ(cos2θrel+1)/2	NN	O	O
+,	NN	O	O
+where	NN	O	O
+Θ(x	NN	O	O
+)	NN	O	O
+is	NN	O	O
+the	NN	O	O
+step	NN	O	O
+function	NN	O	O
+,	NN	O	O
+Θ(x)=1	NN	O	O
+for	NN	O	O
+x>0	NN	O	O
+and	NN	O	O
+Θ(x)=0	NN	O	O
+otherwise	NN	O	O
+.	NN	O	O
+We	NN	O	O
+emphasize	NN	O	O
+that	NN	O	O
+our	NN	O	O
+results	NN	O	O
+differ	NN	O	O
+from	NN	O	O
+the	NN	O	O
+similar	NN	O	O
+ones	NN	O	O
+given	NN	O	O
+in	NN	O	O
+[	NN	O	O
+5,22	NN	O	O
+]	NN	O	O
+in	NN	O	O
+three	NN	O	O
+important	NN	O	O
+respects	NN	O	O
+:	NN	O	O
+(	NN	O	O
+i	NN	O	O
+)	NN	O	O
+they	NN	O	O
+are	NN	O	O
+valid	NN	O	O
+for	NN	O	O
+all	NN	O	O
+,	NN	O	O
+not	NN	O	O
+just	NN	O	O
+small	NN	O	O
+values	NN	O	O
+of	NN	O	O
+α	NN	O	O
+(	NN	O	O
+which	NN	O	O
+is	NN	O	O
+essential	NN	O	O
+for	NN	O	O
+our	NN	O	O
+application	NN	O	O
+)	NN	O	O
+,	NN	O	O
+(	NN	O	O
+ii	NN	O	O
+)	NN	O	O
+they	NN	O	O
+include	NN	O	O
+the	NN	O	O
+angle	NN	O	O
+φ	NN	O	O
+,	NN	O	O
+and	NN	O	O
+(	NN	O	O
+iii	NN	O	O
+)	NN	O	O
+the	NN	O	O
+argument	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Θ	NN	O	O
+function	NN	O	O
+does	NN	O	O
+not	NN	O	O
+contain	NN	O	O
+cos2θ	NN	O	O
+,	NN	O	O
+as	NN	O	O
+follows	NN	O	O
+from	NN	O	O
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
+.	NN	O	O
+We	NN	O	O
+stress	NN	O	O
+that	NN	O	O
+for	NN	O	O
+large	NN	O	O
+values	NN	O	O
+of	NN	O	O
+α	NN	O	O
+and	NN	O	O
+φ≃π/2	NN	O	O
+adiabaticity	NN	O	O
+is	NN	O	O
+violated	NN	O	O
+for	NN	O	O
+large	NN	O	O
+values	NN	O	O
+of	NN	O	O
+θ.	NN	O	O
+
+-DOCSTART- (S0370269304008494)
+
+One	NN	O	O
+major	NN	O	O
+goal	NN	O	O
+of	NN	O	O
+current	NN	O	O
+nuclear	NN	O	B-Task
+physics	NN	O	I-Task
+is	NN	O	O
+the	NN	O	O
+observation	NN	O	B-Task
+of	NN	O	I-Task
+at	NN	O	I-Task
+least	NN	O	I-Task
+partial	NN	O	I-Task
+restoration	NN	O	I-Task
+of	NN	O	I-Task
+chiral	NN	O	I-Task
+symmetry	NN	O	I-Task
+.	NN	O	O
+Since	NN	O	O
+the	NN	O	O
+chiral	NN	O	B-Material
+order	NN	O	I-Material
+parameter	NN	O	I-Material
+〈	NN	O	O
+q̄q	NN	O	B-Material
+〉	NN	O	O
+is	NN	O	O
+expected	NN	O	O
+to	NN	O	O
+decrease	NN	O	O
+by	NN	O	O
+about	NN	O	O
+30	NN	O	O
+%	NN	O	O
+already	NN	O	O
+at	NN	O	O
+normal	NN	O	O
+nuclear	NN	O	B-Material
+matter	NN	O	I-Material
+density	NN	O	O
+[	NN	O	O
+1–4	NN	O	O
+]	NN	O	O
+,	NN	O	O
+any	NN	O	O
+in	NN	O	O
+-	NN	O	O
+medium	NN	O	O
+change	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+dropping	NN	O	O
+quark	NN	O	B-Material
+condensate	NN	O	I-Material
+should	NN	O	O
+in	NN	O	O
+principle	NN	O	O
+be	NN	O	O
+observable	NN	O	O
+in	NN	O	O
+photonuclear	NN	O	B-Process
+reactions	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+conjecture	NN	O	O
+that	NN	O	O
+such	NN	O	O
+a	NN	O	O
+partial	NN	O	B-Process
+restoration	NN	O	I-Process
+of	NN	O	I-Process
+chiral	NN	O	I-Process
+symmetry	NN	O	I-Process
+causes	NN	O	O
+a	NN	O	O
+softening	NN	O	O
+and	NN	O	O
+narrowing	NN	O	O
+of	NN	O	O
+the	NN	O	O
+σ	NN	O	B-Material
+meson	NN	O	I-Material
+as	NN	O	O
+the	NN	O	O
+chiral	NN	O	B-Material
+partner	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+pion	NN	O	B-Material
+in	NN	O	O
+the	NN	O	O
+nuclear	NN	O	B-Material
+medium	NN	O	I-Material
+[	NN	O	O
+5,6	NN	O	O
+]	NN	O	O
+has	NN	O	O
+led	NN	O	O
+to	NN	O	O
+the	NN	O	O
+idea	NN	O	O
+of	NN	O	O
+measuring	NN	O	B-Process
+the	NN	O	I-Process
+π0π0	NN	O	I-Process
+invariant	NN	O	I-Process
+mass	NN	O	I-Process
+distribution	NN	O	I-Process
+near	NN	O	O
+the	NN	O	O
+2π	NN	O	O
+threshold	NN	O	O
+in	NN	O	O
+photon	NN	O	B-Process
+induced	NN	O	I-Process
+reactions	NN	O	I-Process
+on	NN	O	O
+nuclei	NN	O	B-Material
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+contrast	NN	O	O
+to	NN	O	O
+its	NN	O	O
+questionable	NN	O	O
+nature	NN	O	O
+as	NN	O	O
+a	NN	O	O
+proper	NN	O	O
+quasiparticle	NN	O	B-Material
+in	NN	O	O
+vacuum	NN	O	O
+,	NN	O	O
+the	NN	O	O
+σ	NN	O	B-Material
+meson	NN	O	I-Material
+might	NN	O	O
+develop	NN	O	O
+a	NN	O	O
+much	NN	O	O
+narrower	NN	O	O
+peak	NN	O	O
+at	NN	O	O
+finite	NN	O	O
+baryon	NN	O	O
+density	NN	O	O
+due	NN	O	O
+to	NN	O	O
+phase	NN	O	O
+-	NN	O	O
+space	NN	O	O
+suppression	NN	O	O
+for	NN	O	O
+the	NN	O	O
+σ→ππ	NN	O	B-Process
+decay	NN	O	I-Process
+,	NN	O	O
+hence	NN	O	O
+making	NN	O	O
+it	NN	O	O
+possible	NN	O	O
+to	NN	O	O
+explore	NN	O	O
+its	NN	O	O
+properties	NN	O	O
+when	NN	O	O
+embedded	NN	O	O
+in	NN	O	O
+a	NN	O	O
+nuclear	NN	O	B-Process
+many	NN	O	I-Process
+-	NN	O	I-Process
+body	NN	O	I-Process
+system	NN	O	I-Process
+[	NN	O	O
+8–11	NN	O	O
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+.	NN	O	O
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+-DOCSTART- (S0370269304012638)
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+-DOCSTART- (S037877531001949X)
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+our	NN	O	O
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+,	NN	O	O
+significant	NN	O	O
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+in	NN	O	O
+accentedness	NN	O	O
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+those	NN	O	O
+in	NN	O	O
+the	NN	O	O
+control	NN	O	O
+group	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S092583881302834X)
+
+Plastically	NN	O	O
+deformed	NN	O	O
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+and	NN	O	O
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+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
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+in	NN	O	O
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+to	NN	O	O
+the	NN	O	O
+composite	NN	O	O
+model	NN	O	O
+,	NN	O	O
+a	NN	O	O
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+no	NN	O	O
+basis	NN	O	O
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+a	NN	O	O
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+-	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	O
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+)	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+In	NN	O	O
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+,	NN	O	O
+anelasticity	NN	O	O
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+a	NN	O	O
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+the	NN	O	O
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+of	NN	O	O
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+zones	NN	O	I-Process
+(	NN	O	O
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+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+)	NN	O	O
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+to	NN	O	O
+interpret	NN	O	O
+the	NN	O	O
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+of	NN	O	O
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+Fujita	NN	O	O
+et	NN	O	O
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+.	NN	O	O
+have	NN	O	O
+used	NN	O	O
+torsion	NN	O	O
+tests	NN	O	O
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+loaded	NN	O	O
+(	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
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+30	NN	O	O
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+,	NN	O	O
+16	NN	O	O
+%	NN	O	O
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+4	NN	O	O
+%	NN	O	O
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+stress	NN	O	O
+τy	NN	O	O
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
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+In	NN	O	O
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+up	NN	O	O
+to	NN	O	O
+24	NN	O	O
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+,	NN	O	O
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+elastic	NN	O	O
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+
+-DOCSTART- (S0925838814009669)
+
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+utilized	NN	O	O
+in	NN	O	O
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+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
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+X	NN	O	B-Process
+-	NN	O	I-Process
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+and	NN	O	O
+after	NN	O	O
+SPS	NN	O	B-Process
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+that	NN	O	O
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+of	NN	O	O
+the	NN	O	O
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+from	NN	O	O
+25	NN	O	O
+nm	NN	O	O
+to	NN	O	O
+50	NN	O	O
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+(	NN	O	O
+from	NN	O	O
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+)	NN	O	O
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+Subsequently	NN	O	O
+,	NN	O	O
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+comparison	NN	O	O
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+sintering	NN	O	O
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+a	NN	O	O
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+In	NN	O	O
+another	NN	O	O
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+the	NN	O	O
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+largely	NN	O	O
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+the	NN	O	O
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+flexural	NN	O	O
+strengths	NN	O	O
+of	NN	O	O
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+nanocomposite	NN	O	I-Material
+.	NN	O	O
+Rana	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
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+the	NN	O	I-Task
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+)	NN	O	I-Task
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+-	NN	O	I-Task
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+The	NN	O	O
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+20h	NN	O	O
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+500	NN	O	O
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+C	NN	O	O
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+Microhardness	NN	O	O
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+out	NN	O	O
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+the	NN	O	O
+consolidated	NN	O	O
+near	NN	O	O
+full	NN	O	O
+density	NN	O	O
+specimens	NN	O	O
+of	NN	O	O
+both	NN	O	O
+unmilled	NN	O	B-Material
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+milled	NN	O	I-Material
+powders	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
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+increase	NN	O	O
+in	NN	O	O
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+compressive	NN	O	O
+strengths	NN	O	O
+for	NN	O	O
+the	NN	O	O
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+nanocrystalline	NN	O	I-Material
+powders	NN	O	I-Material
+as	NN	O	O
+a	NN	O	O
+result	NN	O	O
+of	NN	O	O
+the	NN	O	O
+very	NN	O	O
+fine	NN	O	O
+grain	NN	O	O
+size	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0927025614003322)
+
+A	NN	O	O
+principle	NN	O	O
+of	NN	O	O
+high	NN	O	B-Task
+-	NN	O	I-Task
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+is	NN	O	O
+that	NN	O	O
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+a	NN	O	O
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+the	NN	O	O
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+data	NN	O	O
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+any	NN	O	O
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+application	NN	O	O
+.	NN	O	O
+Trends	NN	O	O
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+deduced	NN	O	O
+a	NN	O	O
+posteriori	NN	O	O
+.	NN	O	O
+This	NN	O	O
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+efficient	NN	O	B-Task
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+available	NN	O	I-Task
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+We	NN	O	O
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+WEB	NN	O	B-Process
+-	NN	O	I-Process
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+14	NN	O	O
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+community	NN	O	O
+.	NN	O	O
+Through	NN	O	O
+it	NN	O	O
+,	NN	O	O
+the	NN	O	O
+client	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
+,	NN	O	O
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+runtime	NN	O	B-Material
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+the	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+directly	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
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+work	NN	O	I-Process
+-	NN	O	I-Process
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+.	NN	O	O
+The	NN	O	O
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+for	NN	O	O
+the	NN	O	O
+sharing	NN	O	B-Process
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+updates	NN	O	I-Process
+of	NN	O	I-Process
+data	NN	O	I-Process
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+in	NN	O	O
+previous	NN	O	O
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+works	NN	O	O
+,	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+previously	NN	O	O
+calculated	NN	O	O
+alloy	NN	O	B-Material
+phase	NN	O	I-Material
+diagrams	NN	O	I-Material
+[	NN	O	O
+19–31	NN	O	O
+]	NN	O	O
+,	NN	O	O
+thus	NN	O	O
+the	NN	O	O
+database	NN	O	O
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+be	NN	O	O
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+systematically	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0927025614006181)
+
+The	NN	O	O
+Discrete	NN	O	B-Process
+Element	NN	O	I-Process
+Method	NN	O	I-Process
+applied	NN	O	O
+to	NN	O	O
+spheres	NN	O	B-Material
+is	NN	O	O
+well	NN	O	O
+established	NN	O	O
+as	NN	O	O
+a	NN	O	O
+reasonably	NN	O	O
+realistic	NN	O	O
+tool	NN	O	O
+,	NN	O	O
+in	NN	O	O
+a	NN	O	O
+wide	NN	O	O
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+of	NN	O	O
+engineering	NN	O	O
+disciplines	NN	O	O
+,	NN	O	O
+for	NN	O	O
+modelling	NN	O	B-Task
+packing	NN	O	I-Task
+and	NN	O	I-Task
+flow	NN	O	I-Task
+of	NN	O	I-Task
+granular	NN	O	I-Task
+materials	NN	O	I-Task
+;	NN	O	O
+Asmar	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+describes	NN	O	O
+the	NN	O	O
+fundamentals	NN	O	O
+of	NN	O	O
+this	NN	O	O
+method	NN	O	O
+as	NN	O	O
+applied	NN	O	O
+by	NN	O	O
+code	NN	O	O
+developed	NN	O	O
+in	NN	O	O
+-	NN	O	O
+house	NN	O	O
+at	NN	O	O
+Nottingham	NN	O	O
+;	NN	O	O
+since	NN	O	O
+these	NN	O	O
+are	NN	O	O
+widely	NN	O	O
+documented	NN	O	O
+the	NN	O	O
+details	NN	O	O
+are	NN	O	O
+not	NN	O	O
+reproduced	NN	O	O
+here	NN	O	O
+,	NN	O	O
+simply	NN	O	O
+a	NN	O	O
+summary	NN	O	O
+.	NN	O	O
+It	NN	O	O
+applies	NN	O	O
+an	NN	O	O
+explicit	NN	O	B-Process
+time	NN	O	I-Process
+stepping	NN	O	I-Process
+approach	NN	O	I-Process
+to	NN	O	O
+numerically	NN	O	B-Process
+integrate	NN	O	I-Process
+the	NN	O	O
+translational	NN	O	B-Process
+and	NN	O	I-Process
+rotational	NN	O	I-Process
+motion	NN	O	I-Process
+of	NN	O	O
+each	NN	O	O
+particle	NN	O	O
+from	NN	O	O
+the	NN	O	O
+resulting	NN	O	O
+forces	NN	O	B-Process
+and	NN	O	O
+moments	NN	O	B-Process
+acting	NN	O	O
+on	NN	O	O
+them	NN	O	O
+at	NN	O	O
+each	NN	O	O
+timestep	NN	O	O
+.	NN	O	O
+The	NN	O	O
+inter	NN	O	B-Material
+-	NN	O	I-Material
+particle	NN	O	I-Material
+and	NN	O	I-Material
+particle	NN	O	I-Material
+wall	NN	O	I-Material
+contacts	NN	O	I-Material
+are	NN	O	O
+modelled	NN	O	O
+using	NN	O	O
+the	NN	O	O
+linear	NN	O	B-Process
+spring	NN	O	I-Process
+–	NN	O	I-Process
+dashpot	NN	O	I-Process
+–	NN	O	I-Process
+slider	NN	O	I-Process
+analogy	NN	O	I-Process
+.	NN	O	O
+Contact	NN	O	B-Process
+forces	NN	O	I-Process
+are	NN	O	O
+modelled	NN	O	O
+in	NN	O	O
+the	NN	O	O
+normal	NN	O	O
+and	NN	O	O
+tangential	NN	O	O
+directions	NN	O	O
+with	NN	O	O
+respect	NN	O	O
+to	NN	O	O
+the	NN	O	O
+line	NN	O	O
+connecting	NN	O	O
+the	NN	O	O
+particles	NN	O	B-Material
+centres	NN	O	I-Material
+.	NN	O	O
+Particle	NN	O	B-Process
+elastic	NN	O	I-Process
+stiffness	NN	O	I-Process
+is	NN	O	O
+set	NN	O	O
+so	NN	O	O
+sphere	NN	O	B-Process
+“	NN	O	I-Process
+overlap	NN	O	I-Process
+”	NN	O	I-Process
+is	NN	O	O
+not	NN	O	O
+significant	NN	O	O
+and	NN	O	O
+moderate	NN	O	O
+contact	NN	O	B-Process
+damping	NN	O	I-Process
+is	NN	O	O
+applied	NN	O	O
+.	NN	O	O
+Particle	NN	O	B-Process
+cohesion	NN	O	I-Process
+can	NN	O	O
+also	NN	O	O
+be	NN	O	O
+modelled	NN	O	O
+but	NN	O	O
+is	NN	O	O
+assumed	NN	O	O
+to	NN	O	O
+be	NN	O	O
+negligible	NN	O	O
+in	NN	O	O
+the	NN	O	O
+current	NN	O	O
+study	NN	O	O
+.	NN	O	O
+The	NN	O	O
+translational	NN	O	B-Process
+and	NN	O	I-Process
+rotational	NN	O	I-Process
+motion	NN	O	I-Process
+of	NN	O	O
+each	NN	O	O
+particle	NN	O	B-Material
+is	NN	O	O
+modelled	NN	O	O
+using	NN	O	O
+a	NN	O	O
+half	NN	O	B-Process
+step	NN	O	I-Process
+leap	NN	O	I-Process
+-	NN	O	I-Process
+frog	NN	O	I-Process
+Verlet	NN	O	I-Process
+numerical	NN	O	I-Process
+integration	NN	O	I-Process
+scheme	NN	O	I-Process
+to	NN	O	O
+update	NN	O	O
+particle	NN	O	B-Material
+positions	NN	O	I-Material
+and	NN	O	O
+velocities	NN	O	B-Material
+.	NN	O	O
+Near	NN	O	B-Process
+-	NN	O	I-Process
+neighbour	NN	O	I-Process
+lists	NN	O	I-Process
+are	NN	O	O
+used	NN	O	O
+to	NN	O	O
+increase	NN	O	O
+the	NN	O	O
+computational	NN	O	O
+efficiency	NN	O	O
+of	NN	O	O
+determining	NN	O	O
+particle	NN	O	B-Material
+contacts	NN	O	I-Material
+and	NN	O	O
+a	NN	O	O
+zoning	NN	O	B-Process
+method	NN	O	I-Process
+is	NN	O	O
+used	NN	O	O
+each	NN	O	O
+time	NN	O	O
+the	NN	O	O
+list	NN	O	O
+is	NN	O	O
+composed	NN	O	O
+;	NN	O	O
+that	NN	O	O
+is	NN	O	O
+the	NN	O	O
+system	NN	O	O
+is	NN	O	O
+divided	NN	O	O
+into	NN	O	O
+cubic	NN	O	O
+regions	NN	O	O
+,	NN	O	O
+each	NN	O	O
+particle	NN	O	B-Material
+centre	NN	O	I-Material
+is	NN	O	O
+within	NN	O	O
+one	NN	O	O
+zone	NN	O	O
+,	NN	O	O
+and	NN	O	O
+potential	NN	O	O
+contacting	NN	O	B-Material
+particles	NN	O	I-Material
+are	NN	O	O
+within	NN	O	O
+the	NN	O	O
+same	NN	O	O
+or	NN	O	O
+next	NN	O	O
+-	NN	O	O
+door	NN	O	O
+neighbour	NN	O	O
+zones	NN	O	O
+.	NN	O	O
+Full	NN	O	O
+details	NN	O	O
+are	NN	O	O
+given	NN	O	O
+in	NN	O	O
+Asmar	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0927025615006357)
+
+In	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+crystal	NN	O	B-Process
+plasticity	NN	O	I-Process
+model	NN	O	I-Process
+,	NN	O	O
+in	NN	O	O
+combination	NN	O	O
+with	NN	O	O
+XFEM	NN	O	B-Process
+,	NN	O	O
+has	NN	O	O
+been	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+study	NN	O	B-Task
+cyclic	NN	O	I-Task
+deformation	NN	O	I-Task
+and	NN	O	I-Task
+fatigue	NN	O	I-Task
+crack	NN	O	I-Task
+growth	NN	O	I-Task
+in	NN	O	O
+a	NN	O	O
+nickel	NN	O	B-Material
+-	NN	O	I-Material
+based	NN	O	I-Material
+superalloy	NN	O	I-Material
+LSHR	NN	O	I-Material
+(	NN	O	O
+Low	NN	O	B-Material
+Solvus	NN	O	I-Material
+High	NN	O	I-Material
+Refractory	NN	O	I-Material
+)	NN	O	O
+at	NN	O	O
+high	NN	O	O
+temperature	NN	O	O
+.	NN	O	O
+The	NN	O	O
+first	NN	O	O
+objective	NN	O	O
+of	NN	O	O
+this	NN	O	O
+research	NN	O	O
+was	NN	O	O
+to	NN	O	O
+develop	NN	O	B-Task
+and	NN	O	I-Task
+evaluate	NN	O	I-Task
+a	NN	O	I-Task
+RVE	NN	O	I-Task
+-	NN	O	I-Task
+based	NN	O	I-Task
+finite	NN	O	I-Task
+element	NN	O	I-Task
+model	NN	O	I-Task
+with	NN	O	O
+the	NN	O	O
+incorporation	NN	O	O
+of	NN	O	O
+a	NN	O	O
+realistic	NN	O	O
+material	NN	O	O
+microstructure	NN	O	O
+.	NN	O	O
+The	NN	O	O
+second	NN	O	O
+objective	NN	O	O
+of	NN	O	O
+this	NN	O	O
+work	NN	O	O
+was	NN	O	O
+to	NN	O	O
+determine	NN	O	B-Task
+the	NN	O	I-Task
+parameters	NN	O	I-Task
+of	NN	O	I-Task
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+crystal	NN	O	I-Task
+plasticity	NN	O	I-Task
+constitutive	NN	O	I-Task
+model	NN	O	I-Task
+to	NN	O	O
+describe	NN	O	O
+the	NN	O	O
+cyclic	NN	O	B-Process
+deformation	NN	O	I-Process
+behaviour	NN	O	O
+of	NN	O	O
+the	NN	O	O
+material	NN	O	O
+by	NN	O	O
+using	NN	O	O
+a	NN	O	O
+user	NN	O	B-Material
+-	NN	O	I-Material
+defined	NN	O	I-Material
+material	NN	O	I-Material
+subroutine	NN	O	I-Material
+(	NN	O	O
+UMAT	NN	O	B-Material
+)	NN	O	O
+interfaced	NN	O	O
+with	NN	O	O
+the	NN	O	O
+finite	NN	O	O
+element	NN	O	O
+package	NN	O	O
+ABAQUS	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+model	NN	O	O
+parameters	NN	O	O
+were	NN	O	O
+calibrated	NN	O	O
+from	NN	O	O
+extensive	NN	O	O
+finite	NN	O	B-Process
+element	NN	O	I-Process
+analyses	NN	O	I-Process
+to	NN	O	O
+fit	NN	O	O
+the	NN	O	O
+monotonic	NN	O	B-Material
+,	NN	O	I-Material
+stress	NN	O	I-Material
+relaxation	NN	O	I-Material
+and	NN	O	I-Material
+cyclic	NN	O	I-Material
+test	NN	O	I-Material
+data	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+third	NN	O	O
+objective	NN	O	O
+was	NN	O	O
+to	NN	O	O
+predict	NN	O	B-Task
+crack	NN	O	I-Task
+growth	NN	O	I-Task
+by	NN	O	O
+combining	NN	O	O
+the	NN	O	O
+XFEM	NN	O	B-Process
+technique	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+calibrated	NN	O	B-Process
+crystal	NN	O	I-Process
+plasticity	NN	O	I-Process
+UMAT	NN	O	I-Process
+,	NN	O	O
+for	NN	O	O
+which	NN	O	O
+accumulated	NN	O	O
+plastic	NN	O	B-Process
+strain	NN	O	I-Process
+was	NN	O	O
+used	NN	O	O
+as	NN	O	O
+the	NN	O	O
+fracture	NN	O	B-Process
+criterion	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S096386951400070X)
+
+This	NN	O	O
+paper	NN	O	O
+has	NN	O	O
+highlighted	NN	O	B-Task
+a	NN	O	I-Task
+band	NN	O	I-Task
+of	NN	O	I-Task
+frequencies	NN	O	I-Task
+,	NN	O	O
+outside	NN	O	O
+the	NN	O	O
+conventional	NN	O	O
+operation	NN	O	O
+range	NN	O	O
+,	NN	O	O
+and	NN	O	O
+close	NN	O	O
+to	NN	O	O
+electrical	NN	O	B-Process
+resonance	NN	O	I-Process
+of	NN	O	I-Process
+an	NN	O	I-Process
+eddy	NN	O	I-Process
+current	NN	O	I-Process
+probe	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+the	NN	O	O
+magnitude	NN	O	O
+of	NN	O	O
+impedance	NN	O	B-Material
+SNR	NN	O	I-Material
+reaches	NN	O	O
+a	NN	O	O
+peak	NN	O	O
+.	NN	O	O
+The	NN	O	O
+SNR	NN	O	B-Material
+of	NN	O	O
+scans	NN	O	O
+of	NN	O	O
+three	NN	O	O
+slots	NN	O	O
+of	NN	O	O
+varying	NN	O	O
+depth	NN	O	O
+were	NN	O	O
+enhanced	NN	O	O
+by	NN	O	O
+a	NN	O	O
+factor	NN	O	O
+of	NN	O	O
+up	NN	O	O
+to	NN	O	O
+3.7	NN	O	O
+,	NN	O	O
+from	NN	O	O
+the	NN	O	O
+SNR	NN	O	B-Material
+measured	NN	O	O
+at	NN	O	O
+1MHz	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+a	NN	O	O
+result	NN	O	O
+of	NN	O	O
+a	NN	O	O
+defect	NN	O	B-Process
+-	NN	O	I-Process
+decoupling	NN	O	I-Process
+resonance	NN	O	I-Process
+-	NN	O	I-Process
+shift	NN	O	I-Process
+effect	NN	O	I-Process
+and	NN	O	O
+is	NN	O	O
+referred	NN	O	O
+to	NN	O	O
+as	NN	O	O
+the	NN	O	O
+near	NN	O	B-Process
+electrical	NN	O	I-Process
+resonance	NN	O	I-Process
+signal	NN	O	I-Process
+enhancement	NN	O	I-Process
+(	NN	O	O
+NERSE	NN	O	B-Process
+)	NN	O	O
+phenomenon	NN	O	O
+.	NN	O	O
+NERSE	NN	O	B-Process
+frequency	NN	O	O
+operation	NN	O	O
+has	NN	O	O
+significant	NN	O	O
+potential	NN	O	O
+for	NN	O	O
+ECT	NN	O	B-Process
+inspection	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+opens	NN	O	O
+up	NN	O	O
+a	NN	O	O
+range	NN	O	O
+of	NN	O	O
+investigative	NN	O	O
+possibilities	NN	O	O
+.	NN	O	O
+Within	NN	O	O
+this	NN	O	O
+investigation	NN	O	O
+,	NN	O	O
+only	NN	O	O
+the	NN	O	O
+magnitude	NN	O	O
+of	NN	O	O
+the	NN	O	O
+electrical	NN	O	B-Material
+impedance	NN	O	I-Material
+has	NN	O	O
+been	NN	O	O
+analyzed	NN	O	O
+.	NN	O	O
+An	NN	O	O
+immediate	NN	O	O
+extension	NN	O	O
+of	NN	O	O
+this	NN	O	O
+investigation	NN	O	O
+will	NN	O	O
+be	NN	O	O
+to	NN	O	O
+consider	NN	O	O
+phase	NN	O	O
+information	NN	O	O
+,	NN	O	O
+and	NN	O	O
+determine	NN	O	O
+whether	NN	O	O
+a	NN	O	O
+similar	NN	O	O
+exploitable	NN	O	O
+NERSE	NN	O	B-Process
+effect	NN	O	O
+exists	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0963869514000875)
+
+There	NN	O	O
+are	NN	O	O
+a	NN	O	O
+number	NN	O	O
+of	NN	O	O
+avenues	NN	O	O
+to	NN	O	O
+explore	NN	O	O
+for	NN	O	O
+future	NN	O	O
+work	NN	O	O
+,	NN	O	O
+in	NN	O	O
+particular	NN	O	O
+the	NN	O	O
+use	NN	O	B-Task
+of	NN	O	I-Task
+other	NN	O	I-Task
+time	NN	O	I-Task
+–	NN	O	I-Task
+frequency	NN	O	I-Task
+analysis	NN	O	I-Task
+methods	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+STFT	NN	O	B-Process
+spectrogram	NN	O	I-Process
+was	NN	O	O
+utilised	NN	O	O
+here	NN	O	O
+,	NN	O	O
+as	NN	O	O
+it	NN	O	O
+is	NN	O	O
+the	NN	O	O
+simplest	NN	O	O
+to	NN	O	O
+implement	NN	O	O
+.	NN	O	O
+Whilst	NN	O	O
+all	NN	O	O
+of	NN	O	O
+the	NN	O	O
+echoes	NN	O	O
+could	NN	O	O
+be	NN	O	O
+clearly	NN	O	O
+resolved	NN	O	O
+in	NN	O	O
+both	NN	O	O
+time	NN	O	O
+and	NN	O	O
+frequency	NN	O	O
+,	NN	O	O
+the	NN	O	O
+spectrogram	NN	O	B-Process
+suffers	NN	O	O
+from	NN	O	O
+a	NN	O	O
+fixed	NN	O	B-Material
+resolution	NN	O	I-Material
+,	NN	O	O
+i.e.	NN	O	O
+an	NN	O	O
+increase	NN	O	O
+of	NN	O	O
+time	NN	O	B-Material
+resolution	NN	O	I-Material
+necessarily	NN	O	O
+leads	NN	O	O
+to	NN	O	O
+a	NN	O	O
+decrease	NN	O	O
+in	NN	O	O
+frequency	NN	O	B-Material
+resolution	NN	O	I-Material
+.	NN	O	O
+Other	NN	O	O
+methods	NN	O	O
+of	NN	O	O
+time	NN	O	B-Process
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+frequency	NN	O	I-Process
+analysis	NN	O	I-Process
+,	NN	O	O
+such	NN	O	O
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+discrete	NN	O	B-Process
+wavelet	NN	O	I-Process
+analysis	NN	O	I-Process
+,	NN	O	O
+benefit	NN	O	O
+from	NN	O	O
+advantage	NN	O	O
+of	NN	O	O
+multi	NN	O	B-Process
+-	NN	O	I-Process
+resolution	NN	O	I-Process
+analysis	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+offers	NN	O	O
+improved	NN	O	O
+temporal	NN	O	B-Material
+resolution	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+high	NN	O	O
+frequency	NN	O	O
+components	NN	O	O
+,	NN	O	O
+and	NN	O	O
+frequency	NN	O	B-Material
+resolution	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+low	NN	O	B-Material
+frequency	NN	O	I-Material
+components	NN	O	I-Material
+[	NN	O	O
+25,18,19	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Also	NN	O	O
+,	NN	O	O
+whilst	NN	O	O
+the	NN	O	O
+current	NN	O	O
+work	NN	O	O
+has	NN	O	O
+utilised	NN	O	O
+SH	NN	O	B-Material
+waves	NN	O	I-Material
+that	NN	O	O
+are	NN	O	O
+generated	NN	O	O
+by	NN	O	O
+EMATs	NN	O	B-Process
+,	NN	O	O
+the	NN	O	O
+physics	NN	O	O
+that	NN	O	O
+describes	NN	O	O
+the	NN	O	O
+pulsed	NN	O	B-Material
+array	NN	O	I-Material
+system	NN	O	I-Material
+is	NN	O	O
+universal	NN	O	O
+to	NN	O	O
+other	NN	O	O
+types	NN	O	O
+of	NN	O	O
+waves	NN	O	O
+.	NN	O	O
+Future	NN	O	O
+work	NN	O	O
+will	NN	O	O
+include	NN	O	O
+demonstrating	NN	O	B-Task
+this	NN	O	I-Task
+phenomenon	NN	O	I-Task
+with	NN	O	I-Task
+a	NN	O	I-Task
+number	NN	O	I-Task
+of	NN	O	I-Task
+other	NN	O	I-Task
+systems	NN	O	I-Task
+,	NN	O	O
+for	NN	O	O
+example	NN	O	O
+using	NN	O	O
+longitudinal	NN	O	B-Material
+ultrasonic	NN	O	I-Material
+waves	NN	O	I-Material
+or	NN	O	O
+electromagnetic	NN	O	B-Material
+waves	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0963869514000954)
+
+Global	NN	O	B-Process
+optimisation	NN	O	I-Process
+algorithms	NN	O	I-Process
+are	NN	O	O
+used	NN	O	O
+in	NN	O	O
+this	NN	O	O
+study	NN	O	O
+to	NN	O	O
+solve	NN	O	B-Task
+the	NN	O	I-Task
+optimisation	NN	O	I-Task
+problem	NN	O	I-Task
+as	NN	O	O
+they	NN	O	O
+are	NN	O	O
+known	NN	O	O
+to	NN	O	O
+be	NN	O	O
+efficient	NN	O	O
+in	NN	O	O
+incorporating	NN	O	B-Process
+statistical	NN	O	I-Process
+information	NN	O	I-Process
+and	NN	O	O
+dealing	NN	O	O
+with	NN	O	O
+complicated	NN	O	O
+objective	NN	O	B-Process
+functions	NN	O	I-Process
+that	NN	O	O
+have	NN	O	O
+multiple	NN	O	O
+local	NN	O	B-Material
+minima	NN	O	I-Material
+/	NN	O	I-Material
+maxima	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+genetic	NN	O	B-Process
+algorithm	NN	O	I-Process
+(	NN	O	O
+GA	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+such	NN	O	O
+a	NN	O	O
+global	NN	O	B-Process
+optimisation	NN	O	I-Process
+technique	NN	O	I-Process
+that	NN	O	O
+mimics	NN	O	B-Process
+biological	NN	O	I-Process
+evolution	NN	O	I-Process
+processes	NN	O	I-Process
+and	NN	O	O
+is	NN	O	O
+used	NN	O	O
+in	NN	O	O
+this	NN	O	O
+particular	NN	O	O
+study	NN	O	O
+.	NN	O	O
+The	NN	O	O
+algorithm	NN	O	O
+starts	NN	O	O
+with	NN	O	O
+a	NN	O	O
+random	NN	O	B-Process
+selection	NN	O	I-Process
+of	NN	O	I-Process
+a	NN	O	I-Process
+population	NN	O	I-Process
+from	NN	O	O
+the	NN	O	O
+decision	NN	O	B-Material
+variable	NN	O	I-Material
+domain	NN	O	I-Material
+(	NN	O	O
+X	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+genetic	NN	O	B-Process
+algorithm	NN	O	I-Process
+repeatedly	NN	O	O
+modifies	NN	O	O
+this	NN	O	O
+population	NN	O	O
+.	NN	O	O
+At	NN	O	O
+each	NN	O	O
+step	NN	O	O
+,	NN	O	O
+the	NN	O	O
+algorithm	NN	O	O
+selects	NN	O	B-Process
+a	NN	O	I-Process
+group	NN	O	I-Process
+of	NN	O	I-Process
+individual	NN	O	I-Process
+values	NN	O	I-Process
+from	NN	O	O
+the	NN	O	O
+population	NN	O	B-Material
+(	NN	O	O
+parent	NN	O	B-Material
+)	NN	O	O
+which	NN	O	O
+are	NN	O	O
+evolved	NN	O	O
+through	NN	O	O
+crossover	NN	O	B-Process
+or	NN	O	O
+mutation	NN	O	B-Process
+to	NN	O	O
+produce	NN	O	O
+members	NN	O	O
+of	NN	O	O
+the	NN	O	O
+next	NN	O	O
+generation	NN	O	O
+.	NN	O	O
+This	NN	O	O
+process	NN	O	O
+is	NN	O	O
+repeated	NN	O	O
+for	NN	O	O
+several	NN	O	O
+generations	NN	O	O
+until	NN	O	O
+an	NN	O	O
+optimum	NN	O	O
+solution	NN	O	O
+is	NN	O	O
+reached	NN	O	O
+.	NN	O	O
+See	NN	O	O
+[	NN	O	O
+19	NN	O	O
+]	NN	O	O
+for	NN	O	O
+a	NN	O	O
+fuller	NN	O	O
+description	NN	O	O
+of	NN	O	O
+the	NN	O	O
+GA	NN	O	B-Process
+.	NN	O	O
+
+-DOCSTART- (S0963869514001066)
+
+In	NN	O	O
+the	NN	O	O
+Total	NN	O	B-Process
+Focusing	NN	O	I-Process
+Method	NN	O	I-Process
+(	NN	O	O
+TFM	NN	O	B-Process
+)	NN	O	O
+the	NN	O	O
+beam	NN	O	O
+is	NN	O	O
+synthetically	NN	O	O
+focused	NN	O	O
+at	NN	O	O
+every	NN	O	O
+point	NN	O	O
+in	NN	O	O
+the	NN	O	O
+target	NN	O	O
+region	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+as	NN	O	O
+follows	NN	O	O
+.	NN	O	O
+After	NN	O	O
+obtaining	NN	O	O
+the	NN	O	O
+FMC	NN	O	B-Material
+data	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+target	NN	O	O
+region	NN	O	O
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+in	NN	O	O
+the	NN	O	O
+x	NN	O	B-Material
+–	NN	O	I-Material
+z	NN	O	I-Material
+plane	NN	O	I-Material
+in	NN	O	O
+2D	NN	O	O
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+)	NN	O	O
+,	NN	O	O
+is	NN	O	O
+discretized	NN	O	B-Process
+into	NN	O	I-Process
+a	NN	O	I-Process
+grid	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+signals	NN	O	O
+from	NN	O	O
+all	NN	O	O
+elements	NN	O	O
+in	NN	O	O
+the	NN	O	O
+array	NN	O	O
+are	NN	O	O
+then	NN	O	O
+summed	NN	O	B-Process
+to	NN	O	O
+synthesize	NN	O	B-Process
+a	NN	O	I-Process
+focus	NN	O	I-Process
+at	NN	O	I-Process
+every	NN	O	I-Process
+point	NN	O	I-Process
+in	NN	O	I-Process
+this	NN	O	I-Process
+grid	NN	O	I-Process
+.	NN	O	O
+Linear	NN	O	B-Process
+interpolation	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+time	NN	O	O
+domain	NN	O	O
+signals	NN	O	O
+is	NN	O	O
+necessary	NN	O	O
+since	NN	O	O
+they	NN	O	O
+are	NN	O	O
+discretely	NN	O	B-Process
+sampled	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+intensity	NN	O	O
+of	NN	O	O
+the	NN	O	O
+TFM	NN	O	B-Process
+image	NN	O	I-Process
+ITFM	NN	O	I-Process
+at	NN	O	O
+any	NN	O	O
+point	NN	O	O
+(	NN	O	O
+x	NN	O	O
+,	NN	O	O
+z	NN	O	O
+)	NN	O	O
+is	NN	O	O
+given	NN	O	O
+by:(10)ITFM(x	NN	O	O
+,	NN	O	O
+z)=|∑HTR(1c((xT−x)2+z2+(xR−x)2+z2))|forallT	NN	O	O
+,	NN	O	O
+Rwhere	NN	O	O
+HTR(t	NN	O	O
+)	NN	O	O
+is	NN	O	O
+the	NN	O	O
+Hilbert	NN	O	B-Process
+transform	NN	O	I-Process
+of	NN	O	O
+a	NN	O	O
+signal	NN	O	O
+uTR(t	NN	O	O
+)	NN	O	O
+in	NN	O	O
+the	NN	O	O
+FMC	NN	O	B-Material
+data	NN	O	I-Material
+,	NN	O	O
+xT	NN	O	O
+is	NN	O	O
+the	NN	O	O
+x	NN	O	O
+-	NN	O	O
+position	NN	O	O
+of	NN	O	O
+the	NN	O	O
+transmitting	NN	O	B-Material
+element	NN	O	I-Material
+(	NN	O	O
+T	NN	O	B-Material
+)	NN	O	O
+and	NN	O	O
+xR	NN	O	O
+is	NN	O	O
+the	NN	O	O
+x	NN	O	O
+-	NN	O	O
+position	NN	O	O
+of	NN	O	O
+the	NN	O	O
+receiving	NN	O	B-Material
+element	NN	O	I-Material
+(	NN	O	O
+R	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+Note	NN	O	O
+that	NN	O	O
+the	NN	O	O
+z	NN	O	O
+-	NN	O	O
+position	NN	O	O
+of	NN	O	O
+all	NN	O	O
+elements	NN	O	O
+is	NN	O	O
+zero	NN	O	O
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3a	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+summation	NN	O	B-Process
+is	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+for	NN	O	O
+all	NN	O	O
+possible	NN	O	O
+transmitter	NN	O	B-Material
+–	NN	O	I-Material
+receiver	NN	O	I-Material
+pairs	NN	O	I-Material
+and	NN	O	O
+therefore	NN	O	O
+uses	NN	O	O
+all	NN	O	O
+the	NN	O	O
+information	NN	O	O
+captured	NN	O	O
+with	NN	O	O
+FMC	NN	O	B-Material
+.	NN	O	O
+This	NN	O	O
+algorithm	NN	O	O
+is	NN	O	O
+referred	NN	O	O
+to	NN	O	O
+as	NN	O	O
+‘	NN	O	O
+conventional	NN	O	B-Process
+TFM’	NN	O	I-Process
+in	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0963869514001078)
+
+It	NN	O	O
+is	NN	O	O
+known	NN	O	O
+that	NN	O	O
+as	NN	O	O
+the	NN	O	O
+temperature	NN	O	O
+of	NN	O	O
+the	NN	O	O
+sample	NN	O	O
+rises	NN	O	O
+,	NN	O	O
+the	NN	O	O
+Lorentz	NN	O	B-Process
+mechanism	NN	O	I-Process
+remains	NN	O	O
+dominant	NN	O	O
+until	NN	O	O
+Tc	NN	O	O
+of	NN	O	O
+steel	NN	O	B-Material
+is	NN	O	O
+reached	NN	O	O
+(	NN	O	O
+770	NN	O	O
+°	NN	O	O
+C	NN	O	O
+for	NN	O	O
+a	NN	O	O
+low	NN	O	B-Material
+carbon	NN	O	I-Material
+steel	NN	O	I-Material
+)	NN	O	O
+,	NN	O	O
+when	NN	O	O
+the	NN	O	O
+magnetostrictive	NN	O	B-Process
+mechanism	NN	O	I-Process
+becomes	NN	O	O
+more	NN	O	O
+efficient	NN	O	O
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Previously	NN	O	O
+this	NN	O	O
+has	NN	O	O
+been	NN	O	O
+thought	NN	O	O
+due	NN	O	O
+to	NN	O	O
+a	NN	O	O
+thin	NN	O	O
+ferromagnetic	NN	O	B-Material
+oxide	NN	O	I-Material
+layer	NN	O	O
+on	NN	O	O
+the	NN	O	O
+sample	NN	O	O
+surface	NN	O	O
+,	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+being	NN	O	O
+cooler	NN	O	O
+than	NN	O	O
+the	NN	O	O
+bulk	NN	O	O
+of	NN	O	O
+the	NN	O	O
+material	NN	O	O
+[	NN	O	O
+16,17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+layer	NN	O	O
+concentrates	NN	O	O
+the	NN	O	O
+magnetic	NN	O	B-Material
+field	NN	O	I-Material
+,	NN	O	O
+increasing	NN	O	O
+generation	NN	O	B-Process
+efficiency	NN	O	I-Process
+.	NN	O	O
+Recent	NN	O	O
+studies	NN	O	O
+also	NN	O	O
+show	NN	O	O
+that	NN	O	O
+rearrangement	NN	O	O
+of	NN	O	O
+the	NN	O	O
+magnetic	NN	O	O
+moments	NN	O	O
+from	NN	O	O
+ordered	NN	O	O
+domains	NN	O	O
+to	NN	O	O
+a	NN	O	O
+disordered	NN	O	O
+state	NN	O	O
+at	NN	O	O
+a	NN	O	O
+magnetic	NN	O	B-Process
+phase	NN	O	I-Process
+transition	NN	O	I-Process
+lowers	NN	O	O
+the	NN	O	O
+magnetostrictive	NN	O	O
+constant	NN	O	O
+.	NN	O	O
+This	NN	O	O
+ferromagnetic	NN	O	B-Process
+to	NN	O	I-Process
+paramagnetic	NN	O	I-Process
+transition	NN	O	I-Process
+is	NN	O	O
+accompanied	NN	O	O
+by	NN	O	O
+large	NN	O	O
+changes	NN	O	O
+in	NN	O	O
+the	NN	O	O
+efficiency	NN	O	O
+of	NN	O	O
+electromagnetic	NN	O	B-Process
+ultrasound	NN	O	I-Process
+generation	NN	O	I-Process
+leading	NN	O	O
+to	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+EMATs	NN	O	B-Material
+as	NN	O	O
+a	NN	O	O
+method	NN	O	O
+of	NN	O	O
+studying	NN	O	B-Task
+phase	NN	O	I-Task
+transitions	NN	O	I-Task
+in	NN	O	O
+magnetic	NN	O	B-Material
+alloys	NN	O	I-Material
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0963869515000572)
+
+Shear	NN	O	B-Material
+horizontal	NN	O	I-Material
+(	NN	O	I-Material
+SH	NN	O	I-Material
+)	NN	O	I-Material
+ultrasound	NN	O	I-Material
+waves	NN	O	I-Material
+are	NN	O	O
+guided	NN	O	B-Material
+waves	NN	O	I-Material
+(	NN	O	O
+they	NN	O	O
+have	NN	O	O
+propagation	NN	O	O
+properties	NN	O	O
+affected	NN	O	O
+by	NN	O	O
+the	NN	O	O
+geometry	NN	O	O
+of	NN	O	O
+the	NN	O	O
+propagation	NN	O	B-Process
+medium	NN	O	O
+)	NN	O	O
+,	NN	O	O
+with	NN	O	O
+symmetric	NN	O	O
+and	NN	O	O
+anti	NN	O	O
+-	NN	O	O
+symmetric	NN	O	O
+modes	NN	O	O
+;	NN	O	O
+phase	NN	O	O
+and	NN	O	O
+group	NN	O	O
+speeds	NN	O	O
+are	NN	O	O
+dependent	NN	O	O
+on	NN	O	O
+frequency	NN	O	O
+,	NN	O	O
+sample	NN	O	O
+thickness	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+bulk	NN	O	B-Process
+shear	NN	O	I-Process
+wave	NN	O	I-Process
+speed	NN	O	I-Process
+[	NN	O	O
+11,12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+the	NN	O	O
+different	NN	O	O
+modes	NN	O	O
+can	NN	O	O
+be	NN	O	O
+very	NN	O	O
+useful	NN	O	O
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+in	NN	O	O
+thickness	NN	O	O
+measurement	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+,	NN	O	O
+but	NN	O	O
+in	NN	O	O
+this	NN	O	O
+case	NN	O	O
+they	NN	O	O
+are	NN	O	O
+a	NN	O	O
+complication	NN	O	O
+.	NN	O	O
+SH0	NN	O	B-Material
+has	NN	O	O
+a	NN	O	O
+thickness	NN	O	O
+independent	NN	O	O
+speed	NN	O	O
+,	NN	O	O
+equal	NN	O	O
+to	NN	O	O
+the	NN	O	O
+shear	NN	O	B-Process
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+,	NN	O	O
+and	NN	O	O
+is	NN	O	O
+non	NN	O	O
+-	NN	O	O
+dispersive	NN	O	O
+(	NN	O	O
+the	NN	O	O
+phase	NN	O	B-Process
+and	NN	O	I-Process
+group	NN	O	I-Process
+speed	NN	O	I-Process
+are	NN	O	O
+equal	NN	O	O
+to	NN	O	O
+the	NN	O	O
+shear	NN	O	B-Process
+wave	NN	O	I-Process
+speed	NN	O	I-Process
+for	NN	O	O
+all	NN	O	O
+frequencies	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+oscillation	NN	O	B-Process
+direction	NN	O	O
+of	NN	O	O
+SH	NN	O	B-Process
+ultrasound	NN	O	I-Process
+is	NN	O	O
+in	NN	O	O
+the	NN	O	O
+plane	NN	O	O
+of	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+where	NN	O	O
+the	NN	O	O
+wave	NN	O	B-Material
+was	NN	O	O
+generated	NN	O	O
+,	NN	O	O
+and	NN	O	O
+perpendicular	NN	O	O
+to	NN	O	O
+the	NN	O	O
+propagation	NN	O	B-Process
+direction	NN	O	O
+,	NN	O	O
+as	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+,	NN	O	O
+with	NN	O	O
+respect	NN	O	O
+to	NN	O	O
+a	NN	O	O
+reference	NN	O	O
+interface	NN	O	O
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+typically	NN	O	O
+a	NN	O	O
+sample	NN	O	O
+surface	NN	O	O
+.	NN	O	O
+Under	NN	O	O
+certain	NN	O	O
+conditions	NN	O	O
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+over	NN	O	O
+short	NN	O	O
+propagation	NN	O	B-Process
+distances	NN	O	O
+,	NN	O	O
+SH	NN	O	B-Material
+waves	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+treated	NN	O	O
+as	NN	O	O
+bulk	NN	O	B-Material
+waves	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0968432814000250)
+
+Volume	NN	O	B-Task
+EM	NN	O	I-Task
+can	NN	O	O
+be	NN	O	O
+performed	NN	O	O
+using	NN	O	O
+transmission	NN	O	B-Process
+or	NN	O	O
+scanning	NN	O	B-Material
+electron	NN	O	I-Material
+microscopes	NN	O	I-Material
+.	NN	O	O
+Each	NN	O	O
+approach	NN	O	O
+has	NN	O	O
+its	NN	O	O
+own	NN	O	O
+strengths	NN	O	O
+and	NN	O	O
+weaknesses	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+choice	NN	O	O
+is	NN	O	O
+dependant	NN	O	O
+on	NN	O	O
+the	NN	O	O
+required	NN	O	O
+lateral	NN	O	O
+(	NN	O	O
+x	NN	O	O
+,	NN	O	O
+y	NN	O	O
+)	NN	O	O
+and	NN	O	O
+axial	NN	O	O
+(	NN	O	O
+z	NN	O	O
+)	NN	O	O
+resolution	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+size	NN	O	O
+of	NN	O	O
+the	NN	O	O
+structure	NN	O	O
+of	NN	O	O
+interest	NN	O	O
+.	NN	O	O
+Historically	NN	O	O
+,	NN	O	O
+transmission	NN	O	B-Material
+electron	NN	O	I-Material
+microscopy	NN	O	I-Material
+(	NN	O	O
+TEM	NN	O	B-Material
+)	NN	O	O
+was	NN	O	O
+the	NN	O	O
+tool	NN	O	O
+of	NN	O	O
+choice	NN	O	O
+for	NN	O	O
+ultrastructural	NN	O	B-Task
+examination	NN	O	I-Task
+of	NN	O	I-Task
+biomedical	NN	O	I-Task
+specimens	NN	O	I-Task
+at	NN	O	O
+sub	NN	O	O
+-	NN	O	O
+nanometer	NN	O	O
+resolution	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+for	NN	O	O
+many	NN	O	O
+cell	NN	O	B-Task
+biology	NN	O	I-Task
+studies	NN	O	I-Task
+structural	NN	O	O
+resolution	NN	O	O
+is	NN	O	O
+actually	NN	O	O
+limited	NN	O	O
+by	NN	O	O
+the	NN	O	O
+deposition	NN	O	B-Process
+of	NN	O	I-Process
+heavy	NN	O	I-Process
+metals	NN	O	I-Process
+onto	NN	O	O
+membranes	NN	O	O
+during	NN	O	O
+sample	NN	O	O
+preparation	NN	O	O
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+voxel	NN	O	O
+dimensions	NN	O	O
+may	NN	O	O
+only	NN	O	O
+need	NN	O	O
+to	NN	O	O
+be	NN	O	O
+half	NN	O	O
+that	NN	O	O
+of	NN	O	O
+the	NN	O	O
+smallest	NN	O	O
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+(	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+,	NN	O	O
+2008	NN	O	O
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+.	NN	O	O
+,	NN	O	O
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+;	NN	O	O
+Villinger	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
+,	NN	O	O
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+(	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
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+The	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
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+In	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+moving	NN	O	O
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+,	NN	O	O
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+where	NN	O	O
+aspects	NN	O	O
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+automated	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1010603009002676)
+
+In	NN	O	O
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+,	NN	O	O
+we	NN	O	O
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+our	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Process
+molecule	NN	O	I-Process
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+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+,	NN	O	O
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+-	NN	O	I-Process
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+determination	NN	O	I-Process
+[	NN	O	O
+25	NN	O	O
+]	NN	O	O
+,	NN	O	O
+fluorescence	NN	O	B-Process
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+[	NN	O	O
+26	NN	O	O
+]	NN	O	O
+,	NN	O	O
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+fluorescence	NN	O	B-Process
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+.	NN	O	O
+Molecular	NN	O	O
+geometries	NN	O	O
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+-	NN	O	O
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+[	NN	O	O
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+]	NN	O	O
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+-	NN	O	O
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+In	NN	O	O
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+,	NN	O	O
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+centrosymmetric	NN	O	B-Material
+molecules	NN	O	I-Material
+,	NN	O	O
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+when	NN	O	O
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+one	NN	O	O
+-	NN	O	O
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+the	NN	O	O
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+frequencies	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
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+non	NN	O	B-Material
+-	NN	O	I-Material
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+due	NN	O	O
+to	NN	O	O
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+relaxations	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
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+-	NN	O	I-Process
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+(	NN	O	I-Process
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+.	NN	O	O
+So	NN	O	O
+we	NN	O	O
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+our	NN	O	O
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+to	NN	O	O
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+the	NN	O	O
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+of	NN	O	O
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+on	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S1010603013001809)
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+grafting	NN	O	O
+co	NN	O	B-Material
+-	NN	O	I-Material
+catalysts	NN	O	I-Material
+.	NN	O	O
+There	NN	O	O
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+kinds	NN	O	O
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+-	NN	O	I-Material
+catalysts	NN	O	I-Material
+in	NN	O	O
+terms	NN	O	O
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+:	NN	O	O
+one	NN	O	O
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+for	NN	O	O
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+The	NN	O	O
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+,	NN	O	O
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++	NN	O	I-Material
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++	NN	O	I-Material
+[	NN	O	O
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+.	NN	O	O
+It	NN	O	O
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++	NN	O	I-Material
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++	NN	O	I-Material
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+[	NN	O	O
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+]	NN	O	O
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++	NN	O	I-Material
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+[	NN	O	O
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+The	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	I-Process
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+.	NN	O	O
+We	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	I-Material
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+electrons	NN	O	B-Material
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+,	NN	O	O
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+,	NN	O	O
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+materials	NN	O	O
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+-	NN	O	I-Material
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+photocatalytic	NN	O	B-Process
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+.	NN	O	O
+
+-DOCSTART- (S107158191630074X)
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+An	NN	O	O
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+to	NN	O	O
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+the	NN	O	O
+monitoring	NN	O	O
+performance	NN	O	O
+between	NN	O	O
+the	NN	O	O
+different	NN	O	O
+conditions	NN	O	O
+would	NN	O	O
+be	NN	O	O
+to	NN	O	O
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+.	NN	O	O
+Furthermore	NN	O	O
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+interest	NN	O	O
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+the	NN	O	O
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+the	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
+.	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+that	NN	O	O
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+users	NN	O	O
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+On	NN	O	O
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+hand	NN	O	O
+,	NN	O	O
+if	NN	O	O
+e.g.	NN	O	O
+an	NN	O	O
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+had	NN	O	O
+already	NN	O	O
+been	NN	O	O
+completely	NN	O	O
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+-DOCSTART- (S1359646214000165)
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+-DOCSTART- (S1364815216302122)
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+Even	NN	O	O
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+an	NN	O	O
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+scaling	NN	O	B-Process
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Process
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+.	NN	O	O
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+,	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S1364815216302705)
+
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+to	NN	O	O
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+discuss	NN	O	I-Task
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+.	NN	O	O
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+,	NN	O	O
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+driving	NN	O	O
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+,	NN	O	O
+refined	NN	O	O
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+-	NN	O	O
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+.	NN	O	O
+To	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+,	NN	O	O
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+)	NN	O	O
+.	NN	O	O
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+,	NN	O	O
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+our	NN	O	O
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+,	NN	O	O
+no	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+)	NN	O	O
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+.	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Material
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+
+-DOCSTART- (S136481521630305X)
+
+Using	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+relationship	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1364815216303061)
+
+In	NN	O	O
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+-	NN	O	I-Task
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+,	NN	O	O
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+,	NN	O	O
+the	NN	O	O
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+)	NN	O	O
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+)	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+;	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+;	NN	O	O
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+al	NN	O	O
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+,	NN	O	O
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+;	NN	O	O
+Wen	NN	O	O
+et	NN	O	O
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+,	NN	O	O
+2013	NN	O	O
+;	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+;	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Task
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+-	NN	O	I-Material
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+,	NN	O	O
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+.	NN	O	O
+Since	NN	O	O
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+surface	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+MODFLOW	NN	O	B-Process
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+.	NN	O	O
+
+-DOCSTART- (S1364815216303243)
+
+Typical	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+This	NN	O	O
+reduction	NN	O	O
+is	NN	O	O
+usually	NN	O	O
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+or	NN	O	O
+neglecting	NN	O	O
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+(	NN	O	O
+Hunter	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2007	NN	O	O
+;	NN	O	O
+Yen	NN	O	O
+and	NN	O	O
+Tsai	NN	O	O
+,	NN	O	O
+2001	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+JFLOW	NN	O	B-Process
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+(	NN	O	O
+Bradbrook	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2004	NN	O	O
+)	NN	O	O
+,	NN	O	O
+Urban	NN	O	B-Process
+Inundation	NN	O	I-Process
+Model	NN	O	I-Process
+(	NN	O	O
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+local	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
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+,	NN	O	O
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+-DOCSTART- (S1386505616301769)
+
+The	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+clinics	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+Innovative	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+New	NN	O	O
+cloud	NN	O	B-Process
+-	NN	O	I-Process
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+,	NN	O	O
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+to	NN	O	O
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+more	NN	O	O
+health	NN	O	O
+information	NN	O	O
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+,	NN	O	O
+coordination	NN	O	O
+of	NN	O	O
+care	NN	O	O
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+ultimately	NN	O	O
+better	NN	O	O
+outcomes	NN	O	O
+for	NN	O	O
+vulnerable	NN	O	O
+populations	NN	O	O
+.	NN	O	O
+Summary	NN	O	O
+pointsWhat	NN	O	O
+was	NN	O	O
+already	NN	O	O
+known	NN	O	O
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+the	NN	O	O
+topic?•Rapid	NN	O	O
+urbanization	NN	O	O
+is	NN	O	O
+associated	NN	O	O
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+growth	NN	O	O
+in	NN	O	O
+the	NN	O	O
+number	NN	O	O
+and	NN	O	O
+size	NN	O	O
+of	NN	O	O
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+in	NN	O	O
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+disease	NN	O	O
+,	NN	O	O
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+inefficient	NN	O	O
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+care	NN	O	O
+system	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1574119211001544)
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+As	NN	O	O
+future	NN	O	O
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+on	NN	O	O
+the	NN	O	O
+protocol	NN	O	B-Task
+,	NN	O	O
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+items	NN	O	O
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+Firstly	NN	O	O
+,	NN	O	O
+the	NN	O	O
+two	NN	O	O
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+considered	NN	O	O
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+this	NN	O	O
+work	NN	O	O
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+possible	NN	O	O
+way	NN	O	O
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+capture	NN	O	O
+social	NN	O	O
+context	NN	O	O
+in	NN	O	O
+the	NN	O	O
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+in	NN	O	O
+the	NN	O	O
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+,	NN	O	O
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+the	NN	O	O
+geographical	NN	O	B-Material
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+.	NN	O	O
+Further	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+3.3	NN	O	O
+express	NN	O	O
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+levels	NN	O	O
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+across	NN	O	O
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+The	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	O
+community	NN	O	O
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+reciprocation	NN	O	O
+in	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+to	NN	O	O
+different	NN	O	O
+instances	NN	O	O
+of	NN	O	O
+node	NN	O	B-Material
+misbehaviours	NN	O	O
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+a	NN	O	O
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+item	NN	O	O
+worth	NN	O	O
+exploring	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1574119215000796)
+
+The	NN	O	O
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+,	NN	O	O
+PHASeR	NN	O	B-Process
+,	NN	O	O
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+the	NN	O	O
+technique	NN	O	O
+of	NN	O	O
+blind	NN	O	O
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+in	NN	O	O
+a	NN	O	O
+MWSN	NN	O	B-Material
+,	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
+This	NN	O	O
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+a	NN	O	O
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+,	NN	O	O
+which	NN	O	O
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+a	NN	O	O
+dynamic	NN	O	O
+topology	NN	O	O
+.	NN	O	O
+The	NN	O	O
+literature	NN	O	O
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+,	NN	O	O
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+of	NN	O	O
+overhead	NN	O	O
+and	NN	O	O
+location	NN	O	O
+determination	NN	O	O
+schemes	NN	O	O
+can	NN	O	O
+often	NN	O	O
+be	NN	O	O
+inaccurate	NN	O	O
+,	NN	O	O
+power	NN	O	O
+hungry	NN	O	O
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+the	NN	O	O
+issue	NN	O	O
+of	NN	O	O
+the	NN	O	O
+dead	NN	O	O
+end	NN	O	O
+problem	NN	O	O
+.	NN	O	O
+PHASeR	NN	O	B-Process
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+a	NN	O	O
+novel	NN	O	O
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+in	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+This	NN	O	O
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+global	NN	O	O
+TDMA	NN	O	B-Process
+(	NN	O	O
+time	NN	O	B-Process
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+)	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+reduces	NN	O	O
+the	NN	O	O
+amount	NN	O	O
+of	NN	O	O
+overhead	NN	O	O
+,	NN	O	O
+which	NN	O	O
+in	NN	O	O
+turn	NN	O	O
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+decrease	NN	O	O
+packet	NN	O	B-Material
+latency	NN	O	I-Material
+.	NN	O	O
+PHASeR	NN	O	B-Process
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+set	NN	O	O
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+its	NN	O	O
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+of	NN	O	O
+encapsulation	NN	O	B-Process
+,	NN	O	O
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+to	NN	O	O
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+transmitted	NN	O	O
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+the	NN	O	O
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+packet	NN	O	O
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+order	NN	O	O
+to	NN	O	O
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+high	NN	O	O
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+.	NN	O	O
+It	NN	O	O
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+routing	NN	O	O
+solution	NN	O	O
+.	NN	O	O
+As	NN	O	O
+such	NN	O	O
+,	NN	O	O
+the	NN	O	O
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+this	NN	O	O
+paper	NN	O	O
+is	NN	O	O
+a	NN	O	O
+cross	NN	O	B-Task
+-	NN	O	I-Task
+layer	NN	O	I-Task
+routing	NN	O	I-Task
+protocol	NN	O	I-Task
+for	NN	O	I-Task
+MWSNs	NN	O	I-Task
+that	NN	O	O
+can	NN	O	O
+handle	NN	O	O
+the	NN	O	O
+constant	NN	O	O
+flow	NN	O	O
+of	NN	O	O
+data	NN	O	O
+from	NN	O	O
+sensors	NN	O	B-Material
+in	NN	O	O
+highly	NN	O	O
+mobile	NN	O	O
+situations	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1631070514000954)
+
+Superconductivity	NN	O	B-Task
+in	NN	O	I-Task
+actinides	NN	O	I-Task
+was	NN	O	O
+first	NN	O	O
+observed	NN	O	O
+in	NN	O	O
+thorium	NN	O	B-Material
+metal	NN	O	I-Material
+in	NN	O	O
+1929	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+,	NN	O	O
+then	NN	O	O
+in	NN	O	O
+elemental	NN	O	O
+uranium	NN	O	B-Material
+in	NN	O	O
+1942	NN	O	O
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+in	NN	O	O
+uranium	NN	O	B-Material
+compounds	NN	O	I-Material
+in	NN	O	O
+1958	NN	O	O
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+A	NN	O	O
+new	NN	O	O
+class	NN	O	O
+of	NN	O	O
+uranium	NN	O	B-Material
+superconductors	NN	O	I-Material
+emerged	NN	O	O
+in	NN	O	O
+the	NN	O	O
+1980	NN	O	O
+'s	NN	O	O
+with	NN	O	O
+the	NN	O	O
+discovery	NN	O	O
+of	NN	O	O
+uranium	NN	O	B-Material
+heavy	NN	O	I-Material
+fermion	NN	O	I-Material
+superconductors	NN	O	I-Material
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Further	NN	O	O
+surprises	NN	O	O
+came	NN	O	O
+at	NN	O	O
+the	NN	O	O
+beginning	NN	O	O
+of	NN	O	O
+the	NN	O	O
+century	NN	O	O
+with	NN	O	O
+the	NN	O	O
+discovery	NN	O	O
+of	NN	O	O
+ferromagnetic	NN	O	B-Material
+superconductors	NN	O	I-Material
+in	NN	O	O
+uranium	NN	O	B-Material
+systems	NN	O	O
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+and	NN	O	O
+the	NN	O	O
+first	NN	O	O
+observation	NN	O	O
+of	NN	O	O
+superconductivity	NN	O	B-Process
+in	NN	O	O
+plutonium	NN	O	B-Material
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+and	NN	O	O
+neptunium	NN	O	B-Material
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+compounds	NN	O	O
+.	NN	O	O
+The	NN	O	O
+actinides	NN	O	B-Material
+(	NN	O	O
+or	NN	O	O
+actinoids	NN	O	B-Material
+)	NN	O	O
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+located	NN	O	O
+at	NN	O	O
+the	NN	O	O
+end	NN	O	O
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+periodic	NN	O	B-Process
+table	NN	O	I-Process
+(	NN	O	O
+N=89	NN	O	O
+(	NN	O	O
+Ac	NN	O	B-Material
+)	NN	O	O
+or	NN	O	O
+90	NN	O	O
+(	NN	O	O
+Th	NN	O	B-Material
+)	NN	O	O
+to	NN	O	O
+103	NN	O	O
+(	NN	O	O
+Lr	NN	O	B-Material
+)	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Transuranium	NN	O	B-Material
+elements	NN	O	I-Material
+(	NN	O	O
+or	NN	O	O
+transuranics	NN	O	B-Material
+)	NN	O	O
+are	NN	O	O
+the	NN	O	O
+chemical	NN	O	O
+elements	NN	O	O
+with	NN	O	O
+atomic	NN	O	O
+number	NN	O	O
+(	NN	O	O
+Z	NN	O	O
+)	NN	O	O
+greater	NN	O	O
+than	NN	O	O
+92	NN	O	O
+(	NN	O	O
+uranium	NN	O	B-Material
+)	NN	O	O
+and	NN	O	O
+due	NN	O	O
+to	NN	O	O
+their	NN	O	O
+short	NN	O	O
+half	NN	O	O
+-	NN	O	O
+life	NN	O	O
+on	NN	O	O
+a	NN	O	O
+geological	NN	O	O
+timescale	NN	O	O
+,	NN	O	O
+they	NN	O	O
+are	NN	O	O
+essentially	NN	O	O
+synthetic	NN	O	B-Material
+elements	NN	O	I-Material
+.	NN	O	O
+Above	NN	O	O
+Z=103	NN	O	O
+(	NN	O	O
+Lr	NN	O	B-Material
+)	NN	O	O
+,	NN	O	O
+one	NN	O	O
+talks	NN	O	O
+about	NN	O	O
+transactinides	NN	O	B-Material
+(	NN	O	O
+or	NN	O	O
+superactinides	NN	O	B-Material
+)	NN	O	O
+elements	NN	O	O
+.	NN	O	O
+These	NN	O	O
+latter	NN	O	O
+elements	NN	O	O
+have	NN	O	O
+extremely	NN	O	O
+short	NN	O	O
+half	NN	O	O
+-	NN	O	O
+lives	NN	O	O
+and	NN	O	O
+no	NN	O	O
+macroscopic	NN	O	O
+quantity	NN	O	O
+is	NN	O	O
+available	NN	O	O
+for	NN	O	O
+the	NN	O	O
+study	NN	O	B-Task
+of	NN	O	I-Task
+condensed	NN	O	I-Task
+-	NN	O	I-Task
+matter	NN	O	I-Task
+properties	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S167420011300196X)
+
+PV	NN	O	B-Task
+cells	NN	O	I-Task
+are	NN	O	O
+one	NN	O	O
+of	NN	O	O
+the	NN	O	O
+most	NN	O	O
+promising	NN	O	O
+technologies	NN	O	O
+for	NN	O	O
+conversion	NN	O	B-Process
+of	NN	O	I-Process
+incident	NN	O	I-Process
+solar	NN	O	I-Process
+radiation	NN	O	I-Process
+into	NN	O	I-Process
+electric	NN	O	I-Process
+power	NN	O	I-Process
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+this	NN	O	O
+technology	NN	O	O
+is	NN	O	O
+still	NN	O	O
+far	NN	O	O
+from	NN	O	O
+being	NN	O	O
+able	NN	O	O
+to	NN	O	O
+compete	NN	O	O
+with	NN	O	O
+fossil	NN	O	B-Process
+fuel	NN	O	I-Process
+-	NN	O	I-Process
+based	NN	O	I-Process
+energy	NN	O	I-Process
+conversion	NN	O	I-Process
+technologies	NN	O	O
+because	NN	O	O
+of	NN	O	O
+its	NN	O	O
+relatively	NN	O	O
+low	NN	O	O
+efficiency	NN	O	O
+and	NN	O	O
+energy	NN	O	O
+density	NN	O	O
+.	NN	O	O
+Theoretically	NN	O	O
+,	NN	O	O
+there	NN	O	O
+are	NN	O	O
+three	NN	O	O
+unavoidable	NN	O	O
+losses	NN	O	O
+that	NN	O	O
+limit	NN	O	O
+the	NN	O	O
+solar	NN	O	B-Process
+conversion	NN	O	I-Process
+efficiency	NN	O	O
+of	NN	O	O
+a	NN	O	O
+device	NN	O	O
+with	NN	O	O
+a	NN	O	O
+single	NN	O	O
+absorption	NN	O	B-Process
+threshold	NN	O	O
+or	NN	O	O
+band	NN	O	O
+gap	NN	O	O
+Eg	NN	O	O
+:	NN	O	O
+(	NN	O	O
+1	NN	O	O
+)	NN	O	O
+incomplete	NN	O	B-Process
+absorption	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+photons	NN	O	B-Material
+with	NN	O	O
+energies	NN	O	O
+below	NN	O	O
+Eg	NN	O	O
+are	NN	O	O
+not	NN	O	O
+absorbed	NN	O	O
+;	NN	O	O
+(	NN	O	O
+2	NN	O	O
+)	NN	O	O
+thermalization	NN	O	B-Process
+or	NN	O	O
+carrier	NN	O	B-Process
+cooling	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+solar	NN	O	B-Material
+photons	NN	O	I-Material
+with	NN	O	O
+sufficient	NN	O	O
+energy	NN	O	O
+generate	NN	O	O
+electron	NN	O	B-Material
+-	NN	O	I-Material
+hole	NN	O	I-Material
+pairs	NN	O	I-Material
+and	NN	O	O
+then	NN	O	O
+immediately	NN	O	O
+lose	NN	O	O
+almost	NN	O	O
+all	NN	O	O
+energy	NN	O	O
+in	NN	O	O
+excess	NN	O	O
+of	NN	O	O
+Eg	NN	O	O
+in	NN	O	O
+the	NN	O	O
+form	NN	O	O
+of	NN	O	O
+heat	NN	O	O
+;	NN	O	O
+and	NN	O	O
+(	NN	O	O
+3	NN	O	O
+)	NN	O	O
+radiative	NN	O	B-Process
+recombination	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+a	NN	O	O
+small	NN	O	O
+fraction	NN	O	O
+of	NN	O	O
+the	NN	O	O
+excited	NN	O	O
+states	NN	O	O
+radioactively	NN	O	O
+recombine	NN	O	O
+with	NN	O	O
+the	NN	O	O
+ground	NN	O	O
+state	NN	O	O
+at	NN	O	O
+the	NN	O	O
+maximum	NN	O	O
+power	NN	O	O
+output	NN	O	O
+(	NN	O	O
+Hanna	NN	O	O
+&	NN	O	O
+Nozik	NN	O	O
+,	NN	O	O
+2006	NN	O	O
+;	NN	O	O
+Henry	NN	O	O
+,	NN	O	O
+1980	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Taking	NN	O	O
+an	NN	O	O
+air	NN	O	O
+mass	NN	O	O
+of	NN	O	O
+1.5	NN	O	O
+as	NN	O	O
+an	NN	O	O
+example	NN	O	O
+,	NN	O	O
+for	NN	O	O
+different	NN	O	O
+band	NN	O	O
+gap	NN	O	O
+Eg	NN	O	O
+these	NN	O	O
+three	NN	O	O
+losses	NN	O	O
+can	NN	O	O
+be	NN	O	O
+calculated	NN	O	O
+and	NN	O	O
+the	NN	O	O
+results	NN	O	O
+are	NN	O	O
+indicated	NN	O	O
+by	NN	O	O
+areas	NN	O	O
+S1	NN	O	O
+,	NN	O	O
+S2	NN	O	O
+,	NN	O	O
+and	NN	O	O
+S3	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+.	NN	O	O
+Note	NN	O	O
+that	NN	O	O
+the	NN	O	O
+area	NN	O	O
+under	NN	O	O
+the	NN	O	O
+outer	NN	O	O
+curve	NN	O	O
+is	NN	O	O
+the	NN	O	O
+solar	NN	O	B-Process
+power	NN	O	I-Process
+per	NN	O	O
+unit	NN	O	O
+area	NN	O	O
+,	NN	O	O
+and	NN	O	O
+that	NN	O	O
+only	NN	O	O
+S4	NN	O	O
+can	NN	O	O
+be	NN	O	O
+delivered	NN	O	O
+to	NN	O	O
+the	NN	O	O
+load	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1687850714000405)
+
+Xylanases	NN	O	B-Material
+have	NN	O	O
+potential	NN	O	O
+applications	NN	O	O
+in	NN	O	O
+various	NN	O	O
+fields	NN	O	O
+.	NN	O	O
+Some	NN	O	O
+of	NN	O	O
+the	NN	O	O
+important	NN	O	O
+applications	NN	O	O
+are	NN	O	O
+as	NN	O	O
+fallows	NN	O	O
+.	NN	O	O
+Xylanases	NN	O	B-Material
+are	NN	O	O
+used	NN	O	O
+as	NN	O	O
+bleaching	NN	O	B-Material
+agent	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+pulp	NN	O	B-Task
+and	NN	O	I-Task
+paper	NN	O	I-Task
+industry	NN	O	I-Task
+.	NN	O	O
+Mostly	NN	O	O
+they	NN	O	O
+are	NN	O	O
+used	NN	O	O
+to	NN	O	O
+hydrolyzed	NN	O	B-Process
+the	NN	O	I-Process
+xylan	NN	O	I-Process
+component	NN	O	I-Process
+from	NN	O	O
+wood	NN	O	B-Material
+which	NN	O	O
+facilitate	NN	O	O
+in	NN	O	O
+removal	NN	O	B-Process
+of	NN	O	I-Process
+lignin	NN	O	I-Process
+(	NN	O	O
+Viikari	NN	O	O
+,	NN	O	O
+Kantelinen	NN	O	O
+,	NN	O	O
+Buchert	NN	O	O
+,	NN	O	O
+&	NN	O	O
+Puls	NN	O	O
+,	NN	O	O
+1994	NN	O	O
+)	NN	O	O
+.	NN	O	O
+It	NN	O	O
+also	NN	O	O
+helps	NN	O	O
+in	NN	O	O
+brightening	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+pulp	NN	O	I-Process
+to	NN	O	O
+avoid	NN	O	O
+the	NN	O	O
+chlorine	NN	O	B-Process
+free	NN	O	I-Process
+bleaching	NN	O	I-Process
+operations	NN	O	I-Process
+(	NN	O	O
+Paice	NN	O	O
+,	NN	O	O
+Jurasek	NN	O	O
+,	NN	O	O
+Ho	NN	O	O
+,	NN	O	O
+Bourbonnais	NN	O	O
+,	NN	O	O
+&	NN	O	O
+Archibald	NN	O	O
+,	NN	O	O
+1989	NN	O	O
+)	NN	O	O
+.	NN	O	O
+In	NN	O	O
+bakeries	NN	O	O
+the	NN	O	O
+xylanase	NN	O	B-Material
+act	NN	O	O
+on	NN	O	O
+the	NN	O	O
+gluten	NN	O	O
+fraction	NN	O	O
+of	NN	O	O
+the	NN	O	O
+dough	NN	O	O
+and	NN	O	O
+help	NN	O	O
+in	NN	O	O
+the	NN	O	O
+even	NN	O	B-Process
+redistribution	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+water	NN	O	I-Process
+content	NN	O	I-Process
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+the	NN	O	I-Process
+bread	NN	O	I-Process
+(	NN	O	O
+Wong	NN	O	O
+&	NN	O	O
+Saddler	NN	O	O
+,	NN	O	O
+1992	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Xylanases	NN	O	B-Material
+also	NN	O	O
+have	NN	O	O
+potential	NN	O	O
+application	NN	O	O
+in	NN	O	O
+animal	NN	O	B-Task
+feed	NN	O	I-Task
+industry	NN	O	I-Task
+.	NN	O	O
+They	NN	O	O
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+used	NN	O	O
+for	NN	O	O
+the	NN	O	O
+hydrolysis	NN	O	B-Task
+of	NN	O	I-Task
+non	NN	O	I-Task
+-	NN	O	I-Task
+starchy	NN	O	I-Task
+polysaccharides	NN	O	I-Task
+such	NN	O	O
+as	NN	O	O
+arabinoxylan	NN	O	B-Material
+in	NN	O	O
+monogastric	NN	O	O
+diets	NN	O	O
+(	NN	O	O
+Walsh	NN	O	O
+,	NN	O	O
+Power	NN	O	O
+,	NN	O	O
+&	NN	O	O
+Headon	NN	O	O
+,	NN	O	O
+1993	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Xylanases	NN	O	B-Material
+also	NN	O	O
+play	NN	O	O
+a	NN	O	O
+key	NN	O	O
+role	NN	O	O
+in	NN	O	O
+the	NN	O	O
+maceration	NN	O	B-Task
+of	NN	O	I-Task
+vegetable	NN	O	I-Task
+matter	NN	O	I-Task
+(	NN	O	O
+Beck	NN	O	O
+&	NN	O	O
+Scoot	NN	O	O
+,	NN	O	O
+1974	NN	O	O
+)	NN	O	O
+,	NN	O	O
+protoplastation	NN	O	B-Task
+of	NN	O	I-Task
+plant	NN	O	I-Task
+cells	NN	O	I-Task
+,	NN	O	O
+clarification	NN	O	B-Task
+of	NN	O	I-Task
+juices	NN	O	I-Task
+and	NN	O	I-Task
+wine	NN	O	I-Task
+(	NN	O	O
+Biely	NN	O	O
+,	NN	O	O
+1985	NN	O	O
+)	NN	O	O
+liquefaction	NN	O	B-Task
+of	NN	O	I-Task
+coffee	NN	O	I-Task
+mucilage	NN	O	I-Task
+for	NN	O	O
+making	NN	O	B-Task
+liquid	NN	O	I-Task
+coffee	NN	O	I-Task
+,	NN	O	O
+recovery	NN	O	B-Task
+of	NN	O	I-Task
+oil	NN	O	I-Task
+from	NN	O	I-Task
+subterranian	NN	O	I-Task
+mines	NN	O	I-Task
+,	NN	O	O
+extraction	NN	O	B-Task
+of	NN	O	I-Task
+flavors	NN	O	I-Task
+and	NN	O	I-Task
+pigments	NN	O	I-Task
+,	NN	O	I-Task
+plant	NN	O	I-Task
+oils	NN	O	I-Task
+and	NN	O	I-Task
+starch	NN	O	I-Task
+(	NN	O	O
+McCleary	NN	O	O
+,	NN	O	O
+1986	NN	O	O
+)	NN	O	O
+and	NN	O	O
+to	NN	O	O
+improve	NN	O	O
+the	NN	O	O
+efficiency	NN	O	B-Task
+of	NN	O	I-Task
+agricultural	NN	O	I-Task
+silage	NN	O	I-Task
+production	NN	O	I-Task
+(	NN	O	O
+Wong	NN	O	O
+&	NN	O	O
+Saddler	NN	O	O
+,	NN	O	O
+1992	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1746809416300933)
+
+ObjectiveElectrically	NN	O	B-Material
+evoked	NN	O	I-Material
+auditory	NN	O	I-Material
+steady	NN	O	I-Material
+-	NN	O	I-Material
+state	NN	O	I-Material
+responses	NN	O	I-Material
+(	NN	O	O
+EASSRs	NN	O	B-Material
+)	NN	O	O
+are	NN	O	O
+neural	NN	O	B-Material
+potentials	NN	O	I-Material
+measured	NN	O	O
+in	NN	O	O
+the	NN	O	O
+electroencephalogram	NN	O	B-Process
+(	NN	O	O
+EEG	NN	O	B-Process
+)	NN	O	O
+in	NN	O	O
+response	NN	O	O
+to	NN	O	O
+periodic	NN	O	O
+pulse	NN	O	O
+trains	NN	O	O
+presented	NN	O	O
+,	NN	O	O
+for	NN	O	O
+example	NN	O	O
+,	NN	O	O
+through	NN	O	O
+a	NN	O	O
+cochlear	NN	O	B-Process
+implant	NN	O	I-Process
+(	NN	O	O
+CI	NN	O	B-Process
+)	NN	O	O
+.	NN	O	O
+EASSRs	NN	O	B-Material
+could	NN	O	O
+potentially	NN	O	O
+be	NN	O	O
+used	NN	O	O
+for	NN	O	O
+objective	NN	O	O
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+fitting	NN	O	I-Process
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+electrical	NN	O	O
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+,	NN	O	O
+we	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+across	NN	O	O
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+,	NN	O	O
+which	NN	O	O
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+not	NN	O	O
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+the	NN	O	O
+case	NN	O	O
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+900pps	NN	O	O
+.	NN	O	O
+SignificanceCI	NN	O	B-Process
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+-	NN	O	O
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+.	NN	O	O
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+to	NN	O	O
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+500pps	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1877750311000676)
+
+One	NN	O	O
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+,	NN	O	I-Process
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+,	NN	O	O
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+Fig	NN	O	O
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+7	NN	O	O
+)	NN	O	O
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+One	NN	O	O
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+the	NN	O	O
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+of	NN	O	O
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+a	NN	O	O
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+to	NN	O	O
+highlight	NN	O	O
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+behaviour	NN	O	O
+.	NN	O	O
+Fig	NN	O	O
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+7	NN	O	O
+shows	NN	O	O
+the	NN	O	O
+congestion	NN	O	O
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+point	NN	O	O
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+2	NN	O	O
+different	NN	O	O
+runs	NN	O	O
+.	NN	O	O
+Using	NN	O	O
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+to	NN	O	O
+enforce	NN	O	O
+correct	NN	O	O
+routing	NN	O	O
+percentages	NN	O	O
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+a	NN	O	O
+clear	NN	O	O
+case	NN	O	O
+of	NN	O	O
+overcalibration	NN	O	O
+affecting	NN	O	O
+simulation	NN	O	B-Process
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+.	NN	O	O
+
+-DOCSTART- (S1877750313000240)
+
+A	NN	O	O
+few	NN	O	O
+studies	NN	O	O
+within	NN	O	O
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+physiological	NN	O	O
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+of	NN	O	O
+special	NN	O	O
+relevance	NN	O	O
+to	NN	O	O
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+work	NN	O	O
+.	NN	O	O
+These	NN	O	O
+include	NN	O	O
+a	NN	O	O
+performance	NN	O	O
+analysis	NN	O	O
+of	NN	O	O
+a	NN	O	O
+blood	NN	O	B-Process
+-	NN	O	I-Process
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+LB	NN	O	I-Process
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+using	NN	O	O
+a	NN	O	O
+range	NN	O	O
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+sparse	NN	O	O
+and	NN	O	O
+non	NN	O	O
+-	NN	O	O
+sparse	NN	O	O
+geometries	NN	O	O
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
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+a	NN	O	O
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+prediction	NN	O	I-Process
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+for	NN	O	O
+lattice	NN	O	B-Process
+-	NN	O	I-Process
+Boltzmann	NN	O	I-Process
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+[	NN	O	O
+22,23	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
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+to	NN	O	O
+our	NN	O	O
+HemeLB	NN	O	B-Process
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+,	NN	O	O
+although	NN	O	O
+HemeLB	NN	O	B-Process
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+-	NN	O	O
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+visualisation	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
+Mazzeo	NN	O	O
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+[	NN	O	O
+1	NN	O	O
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+of	NN	O	O
+an	NN	O	O
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+version	NN	O	O
+of	NN	O	O
+HemeLB	NN	O	B-Process
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+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+current	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+;	NN	O	O
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+-	NN	O	I-Process
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+
+-DOCSTART- (S187775031300077X)
+
+Although	NN	O	O
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+-	NN	O	I-Process
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+settings	NN	O	O
+,	NN	O	O
+little	NN	O	O
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+their	NN	O	O
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+dynamical	NN	O	I-Task
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+.	NN	O	O
+In	NN	O	O
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+,	NN	O	O
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+due	NN	O	O
+to	NN	O	O
+their	NN	O	O
+staggering	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+15	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+,	NN	O	O
+imposed	NN	O	O
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+membrane	NN	O	B-Material
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+the	NN	O	O
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+inputs	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
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+reduced	NN	O	O
+to	NN	O	O
+a	NN	O	O
+system	NN	O	O
+of	NN	O	O
+Ordinary	NN	O	B-Material
+Differential	NN	O	I-Material
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+(	NN	O	O
+ODEs	NN	O	B-Material
+)	NN	O	O
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+,	NN	O	O
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+in	NN	O	O
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+)	NN	O	O
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+In	NN	O	O
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+,	NN	O	O
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+PDE	NN	O	B-Material
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+,	NN	O	O
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+,	NN	O	O
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+that	NN	O	O
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+to	NN	O	O
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+up	NN	O	O
+to	NN	O	O
+a	NN	O	O
+domain	NN	O	O
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+of	NN	O	O
+about	NN	O	O
+2500cm2	NN	O	O
+,	NN	O	O
+the	NN	O	O
+size	NN	O	O
+of	NN	O	O
+a	NN	O	O
+full	NN	O	O
+-	NN	O	O
+grown	NN	O	O
+human	NN	O	O
+cortex	NN	O	O
+.	NN	O	O
+We	NN	O	O
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+need	NN	O	O
+efficient	NN	O	B-Task
+,	NN	O	I-Task
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+with	NN	O	I-Task
+large	NN	O	I-Task
+,	NN	O	I-Task
+sparse	NN	O	I-Task
+matrices	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
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+-DOCSTART- (S221267161400105X)
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+popular	NN	O	I-Task
+feature	NN	O	I-Task
+extraction	NN	O	I-Task
+methods	NN	O	I-Task
+is	NN	O	O
+presented	NN	O	O
+.	NN	O	O
+Scale	NN	O	B-Process
+-	NN	O	I-Process
+invariant	NN	O	I-Process
+feature	NN	O	I-Process
+transform	NN	O	I-Process
+(	NN	O	O
+or	NN	O	O
+SIFT	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+the	NN	O	O
+first	NN	O	O
+method	NN	O	O
+.	NN	O	O
+The	NN	O	O
+Speeded	NN	O	B-Process
+up	NN	O	I-Process
+robust	NN	O	I-Process
+features	NN	O	I-Process
+(	NN	O	O
+or	NN	O	O
+SURF	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+presented	NN	O	O
+as	NN	O	O
+second	NN	O	O
+.	NN	O	O
+These	NN	O	O
+two	NN	O	O
+methods	NN	O	O
+are	NN	O	O
+tested	NN	O	O
+on	NN	O	O
+set	NN	O	O
+of	NN	O	O
+depth	NN	O	B-Material
+maps	NN	O	I-Material
+.	NN	O	O
+Ten	NN	O	O
+defined	NN	O	O
+gestures	NN	O	O
+of	NN	O	O
+left	NN	O	O
+hand	NN	O	O
+are	NN	O	O
+in	NN	O	O
+these	NN	O	O
+depth	NN	O	O
+maps	NN	O	O
+.	NN	O	O
+The	NN	O	O
+Microsoft	NN	O	B-Process
+Kinect	NN	O	I-Process
+camera	NN	O	I-Process
+is	NN	O	O
+used	NN	O	O
+for	NN	O	O
+capturing	NN	O	O
+the	NN	O	O
+images	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+Support	NN	O	B-Process
+vector	NN	O	I-Process
+machine	NN	O	I-Process
+(	NN	O	O
+or	NN	O	O
+SVM	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+used	NN	O	O
+as	NN	O	O
+classification	NN	O	B-Process
+method	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+results	NN	O	O
+are	NN	O	O
+accuracy	NN	O	O
+of	NN	O	O
+SVM	NN	O	B-Process
+prediction	NN	O	O
+on	NN	O	O
+selected	NN	O	O
+images	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S221450951400014X)
+
+This	NN	O	O
+figure	NN	O	O
+demonstrates	NN	O	O
+that	NN	O	O
+changes	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+measure	NN	O	I-Process
+of	NN	O	I-Process
+bitumen	NN	O	I-Process
+content	NN	O	I-Process
+create	NN	O	O
+sizable	NN	O	O
+differences	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+stiffness	NN	O	I-Process
+modulus	NN	O	I-Process
+of	NN	O	I-Process
+asphaltic	NN	O	I-Process
+samples	NN	O	I-Process
+that	NN	O	O
+include	NN	O	O
+waste	NN	O	B-Material
+glass	NN	O	I-Material
+cullet	NN	O	I-Material
+.	NN	O	O
+As	NN	O	O
+the	NN	O	O
+percentage	NN	O	O
+of	NN	O	O
+glass	NN	O	B-Material
+increases	NN	O	O
+,	NN	O	O
+the	NN	O	O
+measure	NN	O	O
+of	NN	O	O
+the	NN	O	O
+stiffness	NN	O	B-Process
+modulus	NN	O	I-Process
+of	NN	O	O
+modified	NN	O	B-Material
+asphalt	NN	O	I-Material
+increases	NN	O	O
+too	NN	O	O
+.	NN	O	O
+But	NN	O	O
+with	NN	O	O
+pass	NN	O	O
+of	NN	O	O
+optimum	NN	O	O
+measure	NN	O	O
+of	NN	O	O
+glass	NN	O	B-Material
+the	NN	O	O
+stiffness	NN	O	B-Process
+modulus	NN	O	I-Process
+of	NN	O	O
+asphaltic	NN	O	B-Material
+samples	NN	O	I-Material
+decrease	NN	O	O
+.	NN	O	O
+This	NN	O	O
+trend	NN	O	O
+in	NN	O	O
+total	NN	O	O
+of	NN	O	O
+percentages	NN	O	O
+of	NN	O	O
+bitumen	NN	O	B-Material
+content	NN	O	O
+is	NN	O	O
+existing	NN	O	O
+.	NN	O	O
+Due	NN	O	O
+to	NN	O	O
+that	NN	O	O
+waste	NN	O	B-Material
+glass	NN	O	I-Material
+cullet	NN	O	I-Material
+has	NN	O	O
+no	NN	O	O
+suction	NN	O	O
+;	NN	O	O
+the	NN	O	O
+trend	NN	O	O
+does	NN	O	O
+not	NN	O	O
+extend	NN	O	O
+to	NN	O	O
+measuring	NN	O	O
+the	NN	O	O
+stiffness	NN	O	B-Process
+modulus	NN	O	I-Process
+of	NN	O	O
+asphaltic	NN	O	B-Material
+samples	NN	O	I-Material
+including	NN	O	O
+waste	NN	O	B-Material
+glass	NN	O	I-Material
+cullet	NN	O	I-Material
+with	NN	O	O
+different	NN	O	O
+percentage	NN	O	O
+of	NN	O	O
+bitumen	NN	O	B-Material
+content	NN	O	O
+.	NN	O	O
+Glass	NN	O	B-Material
+particles	NN	O	I-Material
+do	NN	O	O
+not	NN	O	O
+absorb	NN	O	O
+any	NN	O	O
+bituminous	NN	O	B-Material
+material	NN	O	I-Material
+,	NN	O	O
+so	NN	O	O
+it	NN	O	O
+is	NN	O	O
+necessary	NN	O	O
+to	NN	O	O
+decrease	NN	O	O
+the	NN	O	O
+bitumen	NN	O	B-Material
+content	NN	O	O
+with	NN	O	O
+the	NN	O	O
+addition	NN	O	O
+of	NN	O	O
+glass	NN	O	B-Material
+cullet	NN	O	I-Material
+.	NN	O	O
+According	NN	O	O
+to	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+2	NN	O	O
+and	NN	O	O
+the	NN	O	O
+results	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Marshall	NN	O	B-Process
+tests	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+optimum	NN	O	O
+bitumen	NN	O	B-Material
+measures	NN	O	O
+decrease	NN	O	O
+significantly	NN	O	O
+in	NN	O	O
+samples	NN	O	O
+that	NN	O	O
+include	NN	O	O
+higher	NN	O	O
+percentages	NN	O	O
+of	NN	O	O
+waste	NN	O	B-Material
+glass	NN	O	I-Material
+cullet	NN	O	I-Material
+.	NN	O	O
+As	NN	O	O
+the	NN	O	O
+percentage	NN	O	O
+of	NN	O	O
+optimum	NN	O	O
+bitumen	NN	O	B-Material
+content	NN	O	O
+is	NN	O	O
+1	NN	O	O
+%	NN	O	O
+more	NN	O	O
+in	NN	O	O
+samples	NN	O	O
+without	NN	O	O
+waste	NN	O	B-Material
+glass	NN	O	I-Material
+cullet	NN	O	I-Material
+in	NN	O	O
+comparison	NN	O	O
+with	NN	O	O
+saphaltic	NN	O	B-Material
+samples	NN	O	I-Material
+that	NN	O	O
+include	NN	O	O
+20	NN	O	O
+%	NN	O	O
+waste	NN	O	B-Material
+glass	NN	O	I-Material
+cullet	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+stiffness	NN	O	B-Process
+modulus	NN	O	I-Process
+of	NN	O	O
+asphaltic	NN	O	B-Material
+samples	NN	O	I-Material
+that	NN	O	O
+include	NN	O	O
+waste	NN	O	B-Material
+glass	NN	O	I-Material
+cullet	NN	O	I-Material
+increased	NN	O	O
+due	NN	O	O
+to	NN	O	O
+additional	NN	O	O
+interlocking	NN	O	B-Process
+between	NN	O	O
+the	NN	O	O
+aggregate	NN	O	O
+and	NN	O	O
+the	NN	O	O
+angularity	NN	O	O
+of	NN	O	O
+particles	NN	O	O
+of	NN	O	O
+glass	NN	O	B-Material
+cullet	NN	O	I-Material
+content	NN	O	O
+.	NN	O	O
+The	NN	O	O
+increase	NN	O	O
+in	NN	O	O
+the	NN	O	O
+intrusive	NN	O	O
+friction	NN	O	O
+angle	NN	O	O
+because	NN	O	O
+of	NN	O	O
+the	NN	O	O
+glass	NN	O	B-Material
+particles’	NN	O	I-Material
+increased	NN	O	O
+angularity	NN	O	O
+is	NN	O	O
+the	NN	O	O
+main	NN	O	O
+reason	NN	O	O
+for	NN	O	O
+the	NN	O	O
+addition	NN	O	O
+of	NN	O	O
+the	NN	O	O
+stiffness	NN	O	B-Process
+modulus	NN	O	I-Process
+of	NN	O	O
+asphaltic	NN	O	B-Material
+samples	NN	O	I-Material
+that	NN	O	O
+include	NN	O	O
+waste	NN	O	B-Material
+glass	NN	O	I-Material
+cullet	NN	O	I-Material
+.	NN	O	O
+But	NN	O	O
+as	NN	O	O
+the	NN	O	O
+percentage	NN	O	O
+of	NN	O	O
+glass	NN	O	B-Material
+content	NN	O	O
+reaches	NN	O	O
+greater	NN	O	O
+than	NN	O	O
+15	NN	O	O
+%	NN	O	O
+,	NN	O	O
+the	NN	O	O
+particles’	NN	O	B-Material
+abundance	NN	O	O
+cause	NN	O	O
+slip	NN	O	O
+these	NN	O	O
+particles	NN	O	O
+on	NN	O	O
+together	NN	O	O
+.	NN	O	O
+The	NN	O	O
+stiffness	NN	O	B-Process
+modulus	NN	O	I-Process
+of	NN	O	O
+samples	NN	O	O
+decreases	NN	O	O
+as	NN	O	O
+the	NN	O	O
+percentage	NN	O	O
+of	NN	O	O
+glass	NN	O	B-Material
+cullet	NN	O	I-Material
+increases	NN	O	O
+.	NN	O	O
+The	NN	O	O
+variations	NN	O	O
+in	NN	O	O
+the	NN	O	O
+stiffness	NN	O	B-Process
+modulus	NN	O	I-Process
+of	NN	O	O
+asphaltic	NN	O	B-Material
+samples	NN	O	I-Material
+that	NN	O	O
+include	NN	O	O
+different	NN	O	O
+percentages	NN	O	O
+of	NN	O	O
+waste	NN	O	B-Material
+glass	NN	O	I-Material
+cullet	NN	O	I-Material
+at	NN	O	O
+different	NN	O	O
+temperature	NN	O	O
+are	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3	NN	O	O
+.	NN	O	O
+
diff --git a/data/ner/semeval2017/train.txt b/data/ner/semeval2017/train.txt
new file mode 100644
index 0000000..9eac1ba
--- /dev/null
+++ b/data/ner/semeval2017/train.txt
@@ -0,0 +1,67016 @@
+-DOCSTART- (S0003491615000433)
+
+Nuclear	NN	O	B-Task
+theory	NN	O	I-Task
+devoted	NN	O	O
+major	NN	O	O
+efforts	NN	O	O
+since	NN	O	O
+4	NN	O	O
+decades	NN	O	O
+to	NN	O	O
+describe	NN	O	O
+thermalization	NN	O	B-Task
+in	NN	O	O
+nuclear	NN	O	B-Process
+reactions	NN	O	I-Process
+,	NN	O	O
+predominantly	NN	O	O
+using	NN	O	O
+semi	NN	O	B-Process
+-	NN	O	I-Process
+classical	NN	O	I-Process
+methods	NN	O	I-Process
+[	NN	O	O
+13,14,10	NN	O	O
+]	NN	O	O
+,	NN	O	O
+in	NN	O	O
+line	NN	O	O
+with	NN	O	O
+similar	NN	O	O
+problems	NN	O	O
+in	NN	O	O
+quantum	NN	O	B-Material
+liquids	NN	O	I-Material
+[	NN	O	O
+15,16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+There	NN	O	O
+were	NN	O	O
+attempts	NN	O	O
+to	NN	O	O
+develop	NN	O	O
+improved	NN	O	B-Process
+molecular	NN	O	I-Process
+dynamics	NN	O	I-Process
+methods	NN	O	I-Process
+combining	NN	O	B-Task
+quantum	NN	O	I-Task
+features	NN	O	I-Task
+with	NN	O	O
+a	NN	O	O
+semi	NN	O	B-Process
+classical	NN	O	I-Process
+treatment	NN	O	I-Process
+of	NN	O	I-Process
+dynamical	NN	O	I-Process
+correlations	NN	O	I-Process
+[	NN	O	O
+17,18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Still	NN	O	O
+,	NN	O	O
+no	NN	O	O
+clear	NN	O	O
+-	NN	O	O
+cut	NN	O	O
+quantum	NN	O	B-Process
+approach	NN	O	I-Process
+is	NN	O	O
+readily	NN	O	O
+available	NN	O	O
+yet	NN	O	O
+,	NN	O	O
+in	NN	O	O
+spite	NN	O	O
+of	NN	O	O
+numerous	NN	O	O
+formal	NN	O	O
+attempts	NN	O	O
+[	NN	O	O
+19,20,10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+field	NN	O	B-Task
+of	NN	O	I-Task
+clusters	NN	O	I-Task
+and	NN	O	I-Task
+nano	NN	O	I-Task
+structures	NN	O	I-Task
+is	NN	O	O
+far	NN	O	O
+younger	NN	O	O
+but	NN	O	O
+fast	NN	O	O
+developing	NN	O	O
+in	NN	O	O
+relation	NN	O	O
+to	NN	O	O
+the	NN	O	O
+ongoing	NN	O	O
+developments	NN	O	O
+of	NN	O	O
+lasers	NN	O	B-Process
+and	NN	O	O
+imaging	NN	O	B-Process
+techniques	NN	O	I-Process
+.	NN	O	O
+Semiclassical	NN	O	O
+approaches	NN	O	O
+were	NN	O	O
+also	NN	O	O
+considered	NN	O	O
+in	NN	O	O
+the	NN	O	O
+field	NN	O	O
+to	NN	O	O
+include	NN	O	O
+some	NN	O	O
+dynamical	NN	O	O
+corrections	NN	O	O
+[	NN	O	O
+21,22	NN	O	O
+]	NN	O	O
+and	NN	O	O
+could	NN	O	O
+qualitatively	NN	O	B-Process
+describe	NN	O	I-Process
+dynamical	NN	O	I-Process
+processes	NN	O	I-Process
+.	NN	O	I-Process
+But	NN	O	O
+such	NN	O	O
+approaches	NN	O	O
+are	NN	O	O
+bound	NN	O	O
+to	NN	O	O
+simple	NN	O	B-Material
+metals	NN	O	I-Material
+with	NN	O	I-Material
+sufficiently	NN	O	I-Material
+delocalized	NN	O	I-Material
+wave	NN	O	I-Material
+functions	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+thus	NN	O	O
+smooth	NN	O	O
+potentials	NN	O	O
+justifying	NN	O	O
+semiclassical	NN	O	O
+approximations	NN	O	O
+.	NN	O	O
+The	NN	O	O
+case	NN	O	O
+of	NN	O	O
+organic	NN	O	B-Task
+systems	NN	O	I-Task
+,	NN	O	O
+in	NN	O	O
+particular	NN	O	O
+the	NN	O	O
+much	NN	O	O
+celebrated	NN	O	O
+C60	NN	O	B-Material
+[	NN	O	O
+4,23	NN	O	O
+]	NN	O	O
+,	NN	O	O
+can	NN	O	O
+not	NN	O	O
+be	NN	O	O
+treated	NN	O	O
+this	NN	O	O
+way	NN	O	O
+.	NN	O	O
+Semi	NN	O	O
+classical	NN	O	O
+,	NN	O	O
+and	NN	O	O
+even	NN	O	O
+classical	NN	O	O
+approaches	NN	O	O
+,	NN	O	O
+can	NN	O	O
+be	NN	O	O
+used	NN	O	O
+at	NN	O	O
+very	NN	O	O
+high	NN	O	O
+excitations	NN	O	O
+such	NN	O	O
+as	NN	O	O
+delivered	NN	O	O
+by	NN	O	O
+very	NN	O	B-Process
+intense	NN	O	I-Process
+laser	NN	O	I-Process
+pulses	NN	O	I-Process
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+such	NN	O	O
+cases	NN	O	O
+the	NN	O	O
+system	NN	O	O
+is	NN	O	O
+blown	NN	O	O
+up	NN	O	O
+and	NN	O	O
+details	NN	O	O
+of	NN	O	O
+its	NN	O	O
+quantum	NN	O	B-Task
+mechanical	NN	O	I-Task
+features	NN	O	I-Task
+do	NN	O	O
+not	NN	O	O
+matter	NN	O	O
+anymore	NN	O	O
+.	NN	O	O
+But	NN	O	O
+for	NN	O	O
+less	NN	O	O
+violent	NN	O	O
+scenarios	NN	O	O
+,	NN	O	O
+quantum	NN	O	B-Process
+shell	NN	O	I-Process
+effects	NN	O	I-Process
+can	NN	O	O
+not	NN	O	O
+be	NN	O	O
+ignored	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0003491615001505)
+
+The	NN	O	O
+next	NN	O	O
+important	NN	O	O
+step	NN	O	O
+might	NN	O	O
+be	NN	O	O
+the	NN	O	O
+derivation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Dirac	NN	O	B-Process
+equation	NN	O	I-Process
+.	NN	O	O
+The	NN	O	B-Process
+Creutz	NN	O	I-Process
+model	NN	O	I-Process
+[	NN	O	O
+32	NN	O	O
+]	NN	O	O
+suggests	NN	O	O
+that	NN	O	O
+we	NN	O	O
+should	NN	O	O
+consider	NN	O	O
+incorporating	NN	O	O
+into	NN	O	O
+the	NN	O	O
+logical	NN	O	O
+inference	NN	O	O
+treatment	NN	O	O
+,	NN	O	O
+the	NN	O	O
+additional	NN	O	O
+knowledge	NN	O	O
+that	NN	O	O
+one	NN	O	O
+has	NN	O	O
+objects	NN	O	B-Process
+hopping	NN	O	I-Process
+on	NN	O	I-Process
+a	NN	O	I-Process
+lattice	NN	O	I-Process
+instead	NN	O	I-Process
+of	NN	O	I-Process
+particles	NN	O	I-Process
+moving	NN	O	O
+in	NN	O	O
+a	NN	O	O
+space	NN	O	O
+-	NN	O	O
+time	NN	O	O
+continuum	NN	O	O
+.	NN	O	O
+Recall	NN	O	O
+that	NN	O	O
+up	NN	O	O
+to	NN	O	O
+Section	NN	O	O
+2.4	NN	O	O
+,	NN	O	O
+the	NN	O	O
+description	NN	O	O
+of	NN	O	O
+the	NN	O	O
+measurement	NN	O	B-Task
+scenario	NN	O	I-Task
+,	NN	O	O
+robustness	NN	O	O
+etc	NN	O	O
+.	NN	O	O
+is	NN	O	O
+explicitly	NN	O	O
+discrete	NN	O	O
+.	NN	O	O
+In	NN	O	O
+Section	NN	O	O
+2.4	NN	O	O
+,	NN	O	O
+the	NN	O	O
+continuum	NN	O	O
+limit	NN	O	O
+was	NN	O	O
+taken	NN	O	O
+only	NN	O	O
+because	NN	O	O
+our	NN	O	O
+aim	NN	O	O
+was	NN	O	O
+to	NN	O	O
+derive	NN	O	O
+the	NN	O	O
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+-	NN	O	I-Material
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+the	NN	O	O
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+Section	NN	O	O
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+entirely	NN	O	O
+within	NN	O	O
+a	NN	O	O
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+obstacle	NN	O	O
+to	NN	O	O
+replace	NN	O	O
+this	NN	O	O
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+by	NN	O	O
+a	NN	O	O
+proper	NN	O	O
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+of	NN	O	O
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+hopping	NN	O	O
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+.	NN	O	O
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+to	NN	O	O
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+-	NN	O	O
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+limit	NN	O	O
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+An	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+the	NN	O	O
+scope	NN	O	O
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+the	NN	O	O
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+leave	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S0003491615001955)
+
+A	NN	O	O
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+general	NN	O	O
+feature	NN	O	O
+of	NN	O	O
+quantum	NN	O	B-Process
+fields	NN	O	I-Process
+,	NN	O	O
+of	NN	O	O
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+the	NN	O	O
+free	NN	O	B-Process
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+[	NN	O	O
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+one	NN	O	O
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+.	NN	O	O
+Fermionic	NN	O	B-Process
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+such	NN	O	O
+as	NN	O	O
+that	NN	O	O
+describing	NN	O	O
+the	NN	O	O
+electron	NN	O	O
+,	NN	O	O
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+,	NN	O	O
+consequently	NN	O	O
+one	NN	O	O
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+to	NN	O	O
+find	NN	O	O
+Casimir	NN	O	B-Process
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+associated	NN	O	O
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+whenever	NN	O	O
+they	NN	O	O
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+confined	NN	O	O
+in	NN	O	O
+some	NN	O	O
+way	NN	O	O
+.	NN	O	O
+Such	NN	O	O
+effects	NN	O	O
+were	NN	O	O
+first	NN	O	O
+investigated	NN	O	O
+in	NN	O	O
+the	NN	O	O
+context	NN	O	O
+of	NN	O	O
+nuclear	NN	O	B-Task
+physics	NN	O	I-Task
+,	NN	O	O
+within	NN	O	O
+the	NN	O	O
+so	NN	O	O
+-	NN	O	O
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+“	NN	O	B-Task
+MIT	NN	O	I-Task
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+model	NN	O	I-Task
+”	NN	O	I-Task
+of	NN	O	I-Task
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+nucleon	NN	O	I-Task
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+bag	NN	O	O
+-	NN	O	O
+model	NN	O	O
+one	NN	O	O
+envisages	NN	O	O
+the	NN	O	O
+nucleon	NN	O	B-Material
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+.	NN	O	O
+These	NN	O	O
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+subject	NN	O	O
+to	NN	O	O
+a	NN	O	O
+boundary	NN	O	O
+condition	NN	O	O
+at	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+of	NN	O	O
+the	NN	O	O
+‘	NN	O	O
+bag’	NN	O	O
+that	NN	O	O
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+the	NN	O	O
+nucleon	NN	O	O
+’s	NN	O	O
+surface	NN	O	O
+.	NN	O	O
+Just	NN	O	O
+as	NN	O	O
+in	NN	O	O
+the	NN	O	O
+electromagnetic	NN	O	O
+case	NN	O	O
+,	NN	O	O
+the	NN	O	B-Process
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+the	NN	O	I-Process
+vacuum	NN	O	I-Process
+fluctuations	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
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+,	NN	O	O
+which	NN	O	O
+results	NN	O	O
+in	NN	O	O
+the	NN	O	O
+appearance	NN	O	O
+of	NN	O	O
+a	NN	O	O
+Casimir	NN	O	B-Task
+force	NN	O	I-Task
+[	NN	O	O
+14–18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+force	NN	O	O
+,	NN	O	O
+although	NN	O	O
+very	NN	O	O
+weak	NN	O	O
+at	NN	O	O
+a	NN	O	O
+macroscopic	NN	O	O
+scale	NN	O	O
+,	NN	O	O
+can	NN	O	O
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+small	NN	O	O
+length	NN	O	O
+scales	NN	O	O
+encountered	NN	O	O
+in	NN	O	O
+nuclear	NN	O	B-Task
+physics	NN	O	I-Task
+.	NN	O	O
+It	NN	O	O
+therefore	NN	O	O
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+important	NN	O	O
+consequences	NN	O	O
+for	NN	O	O
+the	NN	O	O
+physics	NN	O	O
+of	NN	O	O
+the	NN	O	O
+bag	NN	O	B-Material
+-	NN	O	I-Material
+model	NN	O	I-Material
+nucleon	NN	O	I-Material
+[	NN	O	O
+19	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0009261409006666)
+
+We	NN	O	O
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+presented	NN	O	O
+spectrally	NN	O	B-Process
+resolved	NN	O	I-Process
+femtosecond	NN	O	I-Process
+three	NN	O	I-Process
+-	NN	O	I-Process
+pulse	NN	O	I-Process
+photon	NN	O	I-Process
+echo	NN	O	I-Process
+measurements	NN	O	I-Process
+on	NN	O	O
+Zn(II)–OEP	NN	O	B-Material
+,	NN	O	O
+Ni(II)–OEP	NN	O	B-Material
+and	NN	O	O
+Co(II)–OEP	NN	O	B-Material
+.	NN	O	O
+Increased	NN	O	B-Task
+degree	NN	O	I-Task
+of	NN	O	I-Task
+freedom	NN	O	I-Task
+in	NN	O	O
+scans	NN	O	O
+of	NN	O	O
+time	NN	O	O
+delays	NN	O	O
+allows	NN	O	O
+one	NN	O	O
+to	NN	O	O
+separate	NN	O	B-Process
+and	NN	O	I-Process
+extract	NN	O	I-Process
+specific	NN	O	I-Process
+type	NN	O	I-Process
+of	NN	O	I-Process
+spectroscopic	NN	O	I-Process
+information	NN	O	I-Process
+in	NN	O	O
+complex	NN	O	B-Material
+molecules	NN	O	I-Material
+by	NN	O	O
+studying	NN	O	O
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+evolution	NN	O	I-Process
+of	NN	O	I-Process
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+photon	NN	O	I-Process
+echo	NN	O	I-Process
+signals	NN	O	I-Process
+.	NN	O	O
+By	NN	O	O
+varying	NN	O	B-Process
+the	NN	O	I-Process
+population	NN	O	I-Process
+times	NN	O	I-Process
+,	NN	O	O
+population	NN	O	B-Task
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+dynamics	NN	O	I-Task
+and	NN	O	O
+inhomogeneous	NN	O	B-Process
+broadening	NN	O	I-Process
+is	NN	O	O
+revealed	NN	O	O
+in	NN	O	O
+the	NN	O	O
+photon	NN	O	B-Material
+echo	NN	O	I-Material
+spectra	NN	O	I-Material
+.	NN	O	O
+Time	NN	O	B-Material
+-	NN	O	I-Material
+integrated	NN	O	I-Material
+photon	NN	O	I-Material
+echo	NN	O	I-Material
+signals	NN	O	I-Material
+show	NN	O	O
+two	NN	O	O
+different	NN	O	O
+timescales	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+electronic	NN	O	B-Material
+relaxation	NN	O	I-Material
+timescale	NN	O	I-Material
+is	NN	O	O
+found	NN	O	O
+to	NN	O	O
+be	NN	O	O
+sub	NN	O	B-Material
+50fs	NN	O	I-Material
+whereas	NN	O	O
+the	NN	O	O
+timescale	NN	O	B-Material
+for	NN	O	O
+intramolecular	NN	O	B-Process
+vibrational	NN	O	I-Process
+relaxation	NN	O	I-Process
+,	NN	O	O
+occurring	NN	O	O
+in	NN	O	O
+Q00	NN	O	B-Material
+band	NN	O	I-Material
+,	NN	O	O
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+over	NN	O	O
+a	NN	O	O
+picosecond	NN	O	O
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+Co(II)–OEP	NN	O	B-Material
+and	NN	O	O
+Ni(II)–OEP	NN	O	B-Material
+and	NN	O	O
+within	NN	O	B-Material
+a	NN	O	I-Material
+picosecond	NN	O	I-Material
+for	NN	O	I-Material
+Zn(II)–OEP	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0009261412006513)
+
+Water	NN	O	B-Material
+is	NN	O	O
+the	NN	O	O
+most	NN	O	O
+important	NN	O	O
+liquid	NN	O	B-Material
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+nature	NN	O	O
+of	NN	O	O
+its	NN	O	O
+structure	NN	O	O
+remains	NN	O	O
+a	NN	O	O
+topic	NN	O	O
+of	NN	O	O
+keen	NN	O	O
+debate	NN	O	O
+and	NN	O	O
+an	NN	O	O
+active	NN	O	O
+area	NN	O	O
+of	NN	O	O
+research	NN	O	O
+[	NN	O	O
+1–9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Much	NN	O	O
+of	NN	O	O
+this	NN	O	O
+debate	NN	O	O
+centers	NN	O	O
+around	NN	O	O
+whether	NN	O	O
+water	NN	O	B-Material
+has	NN	O	O
+a	NN	O	O
+mainly	NN	O	O
+tetrahedral	NN	O	O
+structure	NN	O	O
+with	NN	O	O
+a	NN	O	O
+continuum	NN	O	O
+of	NN	O	O
+distorted	NN	O	B-Material
+hydrogen	NN	O	I-Material
+bonds	NN	O	I-Material
+,	NN	O	O
+or	NN	O	O
+if	NN	O	O
+it	NN	O	O
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+a	NN	O	O
+mixture	NN	O	O
+of	NN	O	O
+two	NN	O	O
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+.	NN	O	O
+One	NN	O	O
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+development	NN	O	O
+in	NN	O	O
+recent	NN	O	O
+years	NN	O	O
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+the	NN	O	O
+application	NN	O	O
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+-	NN	O	I-Process
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+techniques	NN	O	I-Process
+,	NN	O	O
+such	NN	O	O
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+X	NN	O	B-Process
+-	NN	O	I-Process
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+absorption	NN	O	I-Process
+spectroscopy	NN	O	I-Process
+(	NN	O	O
+XAS	NN	O	B-Process
+)	NN	O	O
+and	NN	O	O
+X	NN	O	B-Process
+-	NN	O	I-Process
+ray	NN	O	I-Process
+emission	NN	O	I-Process
+spectroscopy	NN	O	I-Process
+(	NN	O	O
+XES	NN	O	B-Process
+)	NN	O	O
+at	NN	O	O
+the	NN	O	O
+oxygen	NN	O	B-Material
+K	NN	O	I-Material
+-	NN	O	I-Material
+edge	NN	O	I-Material
+to	NN	O	O
+investigate	NN	O	O
+the	NN	O	O
+structure	NN	O	O
+of	NN	O	O
+water	NN	O	B-Material
+[	NN	O	O
+2,10–12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+These	NN	O	O
+methods	NN	O	O
+can	NN	O	O
+provide	NN	O	O
+a	NN	O	O
+direct	NN	O	B-Process
+structural	NN	O	I-Process
+probe	NN	O	I-Process
+of	NN	O	I-Process
+water	NN	O	I-Process
+,	NN	O	O
+providing	NN	O	O
+insight	NN	O	O
+into	NN	O	O
+the	NN	O	O
+nature	NN	O	O
+of	NN	O	O
+its	NN	O	O
+hydrogen	NN	O	B-Task
+bonding	NN	O	I-Task
+network	NN	O	I-Task
+.	NN	O	O
+Theoretical	NN	O	O
+studies	NN	O	O
+play	NN	O	O
+a	NN	O	O
+critical	NN	O	O
+role	NN	O	O
+in	NN	O	O
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+studies	NN	O	O
+,	NN	O	O
+since	NN	O	O
+the	NN	O	O
+analysis	NN	O	O
+of	NN	O	O
+the	NN	O	O
+experimental	NN	O	B-Material
+data	NN	O	I-Material
+requires	NN	O	O
+calculations	NN	O	B-Material
+to	NN	O	O
+provide	NN	O	O
+a	NN	O	O
+link	NN	O	O
+between	NN	O	O
+the	NN	O	O
+observed	NN	O	B-Process
+spectral	NN	O	I-Process
+features	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+underlying	NN	O	B-Task
+structure	NN	O	I-Task
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+simulation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+XAS	NN	O	B-Process
+or	NN	O	O
+XES	NN	O	B-Process
+for	NN	O	O
+liquid	NN	O	B-Material
+water	NN	O	I-Material
+presents	NN	O	O
+a	NN	O	O
+difficult	NN	O	O
+challenge	NN	O	O
+because	NN	O	O
+it	NN	O	O
+requires	NN	O	O
+accurate	NN	O	B-Process
+molecular	NN	O	I-Process
+dynamics	NN	O	I-Process
+simulations	NN	O	I-Process
+to	NN	O	O
+provide	NN	O	O
+a	NN	O	O
+correct	NN	O	O
+description	NN	O	O
+of	NN	O	O
+the	NN	O	O
+molecular	NN	O	B-Task
+structure	NN	O	I-Task
+coupled	NN	O	O
+with	NN	O	O
+accurate	NN	O	O
+calculations	NN	O	O
+of	NN	O	O
+the	NN	O	O
+spectral	NN	O	B-Task
+properties	NN	O	I-Task
+,	NN	O	O
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+excitation	NN	O	B-Task
+energies	NN	O	I-Task
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+line	NN	O	B-Task
+intensities	NN	O	I-Task
+.	NN	O	O
+Furthermore	NN	O	O
+,	NN	O	O
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+sampling	NN	O	I-Material
+over	NN	O	O
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+needs	NN	O	O
+to	NN	O	O
+be	NN	O	O
+accounted	NN	O	O
+for	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0009261412012365)
+
+Under	NN	O	O
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+,	NN	O	O
+the	NN	O	O
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+dynamics	NN	O	I-Process
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+to	NN	O	O
+occur	NN	O	O
+where	NN	O	O
+the	NN	O	O
+probe	NN	O	B-Process
+laser	NN	O	I-Process
+induces	NN	O	O
+the	NN	O	O
+reactions	NN	O	B-Task
+resulting	NN	O	O
+in	NN	O	O
+further	NN	O	B-Process
+ionization	NN	O	I-Process
+[	NN	O	O
+30	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+two	NN	O	B-Process
+-	NN	O	I-Process
+step	NN	O	I-Process
+decay	NN	O	I-Process
+model	NN	O	I-Process
+[	NN	O	O
+26	NN	O	O
+]	NN	O	O
+was	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+explain	NN	O	O
+the	NN	O	O
+above	NN	O	O
+-	NN	O	O
+mentioned	NN	O	O
+fragmentation	NN	O	B-Process
+of	NN	O	I-Process
+DCPD	NN	O	I-Process
+to	NN	O	I-Process
+CPD	NN	O	I-Process
+,	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Figure	NN	O	O
+8a	NN	O	O
+.	NN	O	O
+The	NN	O	O
+fitting	NN	O	O
+of	NN	O	O
+the	NN	O	O
+rise	NN	O	B-Material
+and	NN	O	I-Material
+decay	NN	O	I-Material
+components	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+transients	NN	O	B-Material
+were	NN	O	O
+done	NN	O	O
+by	NN	O	O
+Matlab	NN	O	B-Process
+®	NN	O	I-Process
+programming	NN	O	I-Process
+using	NN	O	O
+the	NN	O	O
+curve	NN	O	B-Process
+fitting	NN	O	I-Process
+Levenberg	NN	O	I-Process
+–	NN	O	I-Process
+Marquardt	NN	O	I-Process
+algorithm	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+best	NN	O	B-Process
+fit	NN	O	I-Process
+decay	NN	O	I-Process
+constants	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+biexponential	NN	O	B-Material
+decay	NN	O	I-Material
+components	NN	O	I-Material
+of	NN	O	O
+C10H12	NN	O	B-Material
++	NN	O	I-Material
+ion	NN	O	I-Material
+signal	NN	O	I-Material
+is	NN	O	O
+τ1=35fs	NN	O	B-Process
+and	NN	O	O
+τ2=240fs	NN	O	B-Process
+,	NN	O	O
+while	NN	O	O
+that	NN	O	O
+for	NN	O	O
+C5H6	NN	O	B-Material
++	NN	O	I-Material
+ion	NN	O	I-Material
+signal	NN	O	I-Material
+is	NN	O	O
+τ1=36fs	NN	O	B-Process
+and	NN	O	O
+τ2=280fs	NN	O	B-Process
+,	NN	O	O
+respectively	NN	O	O
+.	NN	O	O
+These	NN	O	O
+decay	NN	O	B-Task
+constants	NN	O	I-Task
+conform	NN	O	O
+to	NN	O	O
+the	NN	O	O
+previously	NN	O	O
+reported	NN	O	O
+time	NN	O	O
+constants	NN	O	O
+of	NN	O	O
+norbornene	NN	O	B-Material
+and	NN	O	O
+norbornadiene	NN	O	B-Material
+[	NN	O	O
+22,23	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+transients	NN	O	O
+of	NN	O	O
+the	NN	O	O
+reaction	NN	O	O
+fragment	NN	O	O
+C5H6	NN	O	O
++	NN	O	O
+are	NN	O	O
+sufficiently	NN	O	O
+different	NN	O	O
+from	NN	O	O
+that	NN	O	O
+of	NN	O	O
+the	NN	O	O
+parent	NN	O	B-Material
+ion	NN	O	I-Material
+C10H12	NN	O	B-Material
++	NN	O	I-Material
+indicating	NN	O	O
+that	NN	O	O
+we	NN	O	O
+are	NN	O	O
+studying	NN	O	O
+the	NN	O	O
+distinct	NN	O	B-Task
+dynamics	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+neutrals	NN	O	I-Task
+and	NN	O	O
+not	NN	O	O
+that	NN	O	O
+of	NN	O	O
+the	NN	O	O
+parent	NN	O	B-Task
+ion	NN	O	I-Task
+fragmentation	NN	O	I-Task
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Applying	NN	O	B-Process
+laser	NN	O	I-Process
+control	NN	O	I-Process
+principles	NN	O	I-Process
+under	NN	O	O
+such	NN	O	O
+experimental	NN	O	O
+circumstances	NN	O	O
+also	NN	O	O
+confirms	NN	O	O
+that	NN	O	O
+we	NN	O	O
+are	NN	O	O
+controlling	NN	O	B-Process
+the	NN	O	I-Process
+product	NN	O	I-Process
+yield	NN	O	I-Process
+of	NN	O	I-Process
+C5H6	NN	O	I-Process
++	NN	O	I-Process
+,	NN	O	O
+resulting	NN	O	O
+from	NN	O	O
+the	NN	O	O
+photochemical	NN	O	B-Process
+reaction	NN	O	I-Process
+of	NN	O	I-Process
+DCPD	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0009261412013838)
+
+Experimental	NN	O	O
+studies	NN	O	O
+of	NN	O	O
+the	NN	O	O
+dynamics	NN	O	O
+of	NN	O	O
+individual	NN	O	O
+carbon	NN	O	B-Material
+atoms	NN	O	I-Material
+in	NN	O	O
+graphene	NN	O	B-Material
+have	NN	O	O
+been	NN	O	O
+empowered	NN	O	O
+by	NN	O	O
+the	NN	O	O
+recent	NN	O	O
+progress	NN	O	O
+in	NN	O	O
+aberration	NN	O	B-Process
+-	NN	O	I-Process
+corrected	NN	O	I-Process
+transmission	NN	O	I-Process
+electron	NN	O	I-Process
+microscopy	NN	O	I-Process
+(	NN	O	O
+AC	NN	O	B-Process
+-	NN	O	I-Process
+TEM	NN	O	I-Process
+)	NN	O	O
+capable	NN	O	O
+of	NN	O	O
+sub	NN	O	B-Process
+-	NN	O	I-Process
+Ångstrom	NN	O	I-Process
+resolution	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+examples	NN	O	O
+include	NN	O	O
+AC	NN	O	B-Process
+-	NN	O	I-Process
+TEM	NN	O	I-Process
+observations	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+formation	NN	O	I-Process
+and	NN	O	I-Process
+annealing	NN	O	I-Process
+of	NN	O	I-Process
+Stone	NN	O	I-Process
+–	NN	O	I-Process
+Wales	NN	O	I-Process
+defects	NN	O	I-Process
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+,	NN	O	O
+edge	NN	O	B-Process
+reconstruction	NN	O	I-Process
+[	NN	O	O
+2,3	NN	O	O
+]	NN	O	O
+and	NN	O	O
+formation	NN	O	B-Process
+of	NN	O	I-Process
+a	NN	O	I-Process
+large	NN	O	I-Process
+hole	NN	O	I-Process
+in	NN	O	I-Process
+graphene	NN	O	I-Process
+sheet	NN	O	I-Process
+from	NN	O	I-Process
+a	NN	O	I-Process
+single	NN	O	I-Process
+vacancy	NN	O	I-Process
+defect	NN	O	I-Process
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+AC	NN	O	O
+-	NN	O	O
+TEM	NN	O	O
+has	NN	O	O
+been	NN	O	O
+also	NN	O	O
+exploited	NN	O	O
+in	NN	O	O
+visualization	NN	O	O
+in	NN	O	O
+real	NN	O	O
+time	NN	O	O
+of	NN	O	O
+the	NN	O	O
+process	NN	O	B-Process
+of	NN	O	I-Process
+self	NN	O	I-Process
+-	NN	O	I-Process
+assembly	NN	O	I-Process
+of	NN	O	I-Process
+graphene	NN	O	I-Process
+nanoribbons	NN	O	I-Process
+from	NN	O	O
+molecular	NN	O	B-Material
+precursors	NN	O	I-Material
+[	NN	O	O
+4,5	NN	O	O
+]	NN	O	O
+and	NN	O	O
+formation	NN	O	B-Process
+of	NN	O	I-Process
+nanometre	NN	O	I-Process
+size	NN	O	I-Process
+hollow	NN	O	I-Process
+protrusion	NN	O	I-Process
+on	NN	O	I-Process
+the	NN	O	I-Process
+nanotube	NN	O	I-Process
+sidewall	NN	O	I-Process
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Based	NN	O	O
+on	NN	O	O
+AC	NN	O	B-Process
+-	NN	O	I-Process
+TEM	NN	O	I-Process
+observations	NN	O	I-Process
+of	NN	O	O
+transformation	NN	O	O
+of	NN	O	O
+small	NN	O	B-Material
+finite	NN	O	I-Material
+graphene	NN	O	I-Material
+flake	NN	O	I-Material
+into	NN	O	O
+fullerene	NN	O	B-Material
+,	NN	O	O
+a	NN	O	O
+new	NN	O	O
+‘	NN	O	B-Task
+top	NN	O	I-Task
+-	NN	O	I-Task
+down’	NN	O	I-Task
+mechanism	NN	O	I-Task
+for	NN	O	I-Task
+the	NN	O	I-Task
+formation	NN	O	I-Task
+of	NN	O	I-Task
+fullerene	NN	O	I-Task
+under	NN	O	O
+the	NN	O	O
+electron	NN	O	O
+beam	NN	O	O
+radiation	NN	O	O
+has	NN	O	O
+been	NN	O	O
+proposed	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+critical	NN	O	O
+step	NN	O	O
+in	NN	O	O
+the	NN	O	O
+proposed	NN	O	B-Task
+‘	NN	O	I-Task
+top	NN	O	I-Task
+-	NN	O	I-Task
+down’	NN	O	I-Task
+mechanism	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+fullerene	NN	O	I-Task
+formation	NN	O	I-Task
+is	NN	O	O
+creation	NN	O	B-Process
+of	NN	O	I-Process
+vacancies	NN	O	I-Process
+in	NN	O	I-Process
+small	NN	O	I-Process
+graphene	NN	O	I-Process
+flake	NN	O	I-Process
+as	NN	O	O
+a	NN	O	O
+result	NN	O	O
+of	NN	O	O
+knock	NN	O	B-Process
+-	NN	O	I-Process
+on	NN	O	I-Process
+damage	NN	O	I-Process
+by	NN	O	I-Process
+electrons	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+imaging	NN	O	I-Process
+electron	NN	O	I-Process
+beam	NN	O	I-Process
+(	NN	O	I-Process
+e	NN	O	I-Process
+-	NN	O	I-Process
+beam	NN	O	I-Process
+)	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+subsequent	NN	O	B-Task
+formation	NN	O	I-Task
+of	NN	O	I-Task
+pentagons	NN	O	I-Task
+at	NN	O	O
+the	NN	O	O
+vacancy	NN	O	O
+sites	NN	O	O
+near	NN	O	O
+the	NN	O	O
+edge	NN	O	O
+reduces	NN	O	O
+the	NN	O	O
+number	NN	O	O
+of	NN	O	O
+dangling	NN	O	O
+bonds	NN	O	O
+and	NN	O	O
+triggers	NN	O	O
+the	NN	O	O
+curving	NN	O	O
+process	NN	O	O
+of	NN	O	O
+graphene	NN	O	O
+flake	NN	O	O
+into	NN	O	O
+a	NN	O	O
+closed	NN	O	O
+fullerene	NN	O	O
+structure	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Thus	NN	O	O
+,	NN	O	O
+dynamic	NN	O	O
+behaviour	NN	O	O
+of	NN	O	O
+vacancies	NN	O	O
+near	NN	O	O
+graphene	NN	O	O
+edge	NN	O	O
+plays	NN	O	O
+a	NN	O	O
+crucial	NN	O	O
+role	NN	O	O
+in	NN	O	O
+explaining	NN	O	O
+mechanisms	NN	O	O
+of	NN	O	O
+the	NN	O	O
+e	NN	O	B-Task
+-	NN	O	I-Task
+beam	NN	O	I-Task
+assisted	NN	O	I-Task
+self	NN	O	I-Task
+-	NN	O	I-Task
+assembly	NN	O	I-Task
+and	NN	O	O
+structural	NN	O	B-Task
+transformations	NN	O	I-Task
+in	NN	O	I-Task
+graphene	NN	O	I-Task
+-	NN	O	I-Task
+like	NN	O	I-Task
+structures	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0009261413006738)
+
+The	NN	O	O
+PESs	NN	O	O
+here	NN	O	O
+employed	NN	O	O
+have	NN	O	O
+already	NN	O	O
+been	NN	O	O
+tested	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+verify	NN	O	B-Process
+their	NN	O	I-Process
+validity	NN	O	I-Process
+for	NN	O	I-Process
+dynamical	NN	O	I-Process
+purposes	NN	O	I-Process
+.	NN	O	O
+Such	NN	O	O
+tests	NN	O	O
+include	NN	O	O
+studies	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+nitrogen	NN	O	I-Task
+exchange	NN	O	I-Task
+reaction	NN	O	I-Task
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+both	NN	O	O
+adiabatic	NN	O	O
+by	NN	O	O
+running	NN	O	O
+trajectories	NN	O	O
+on	NN	O	O
+the	NN	O	O
+lowest	NN	O	O
+surfaces	NN	O	O
+and	NN	O	O
+non	NN	O	O
+-	NN	O	O
+adiabatic	NN	O	O
+by	NN	O	O
+using	NN	O	O
+the	NN	O	O
+trajectory	NN	O	B-Process
+surface	NN	O	I-Process
+hoping	NN	O	I-Process
+(	NN	O	I-Process
+TSH	NN	O	I-Process
+)	NN	O	I-Process
+method	NN	O	I-Process
+[	NN	O	O
+22,23	NN	O	O
+]	NN	O	O
+for	NN	O	O
+transitions	NN	O	O
+to	NN	O	O
+the	NN	O	O
+excited	NN	O	O
+state	NN	O	O
+of	NN	O	O
+same	NN	O	O
+symmetry	NN	O	O
+.	NN	O	O
+It	NN	O	O
+was	NN	O	O
+concluded	NN	O	O
+that	NN	O	O
+nonadiabatic	NN	O	O
+transitions	NN	O	O
+could	NN	O	O
+not	NN	O	O
+make	NN	O	O
+a	NN	O	O
+significant	NN	O	O
+impact	NN	O	O
+on	NN	O	O
+the	NN	O	O
+rate	NN	O	B-Material
+coefficients	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+therefore	NN	O	O
+all	NN	O	O
+trajectories	NN	O	O
+here	NN	O	O
+reported	NN	O	O
+are	NN	O	O
+independently	NN	O	B-Process
+integrated	NN	O	I-Process
+for	NN	O	I-Process
+each	NN	O	I-Process
+symmetry	NN	O	I-Process
+on	NN	O	O
+the	NN	O	O
+corresponding	NN	O	O
+lowest	NN	O	O
+adiabatic	NN	O	O
+PES	NN	O	O
+.	NN	O	O
+In	NN	O	O
+fact	NN	O	O
+,	NN	O	O
+we	NN	O	O
+have	NN	O	O
+tested	NN	O	O
+the	NN	O	O
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+of	NN	O	O
+running	NN	O	O
+the	NN	O	O
+trajectories	NN	O	O
+starting	NN	O	O
+on	NN	O	O
+the	NN	O	O
+upper	NN	O	O
+sheets	NN	O	O
+,	NN	O	O
+and	NN	O	O
+found	NN	O	O
+no	NN	O	O
+vibrational	NN	O	B-Process
+transition	NN	O	I-Process
+to	NN	O	O
+take	NN	O	O
+place	NN	O	O
+,	NN	O	O
+only	NN	O	O
+small	NN	O	O
+amounts	NN	O	O
+of	NN	O	O
+rotational	NN	O	B-Task
+energy	NN	O	I-Task
+is	NN	O	O
+exchanged	NN	O	O
+in	NN	O	O
+this	NN	O	O
+case	NN	O	O
+.	NN	O	O
+Also	NN	O	O
+neglected	NN	O	O
+are	NN	O	O
+electronic	NN	O	B-Process
+transitions	NN	O	I-Process
+to	NN	O	I-Process
+the	NN	O	I-Process
+quartet	NN	O	I-Process
+state	NN	O	I-Process
+which	NN	O	O
+are	NN	O	O
+believed	NN	O	O
+to	NN	O	O
+be	NN	O	O
+far	NN	O	O
+less	NN	O	O
+probable	NN	O	O
+than	NN	O	O
+the	NN	O	O
+simple	NN	O	O
+vibrational	NN	O	O
+energy	NN	O	O
+transfer	NN	O	O
+here	NN	O	O
+studied	NN	O	O
+due	NN	O	O
+to	NN	O	O
+their	NN	O	O
+spin	NN	O	O
+-	NN	O	O
+forbidden	NN	O	O
+character	NN	O	O
+.	NN	O	O
+It	NN	O	O
+should	NN	O	O
+also	NN	O	O
+be	NN	O	O
+noted	NN	O	O
+that	NN	O	O
+the	NN	O	O
+use	NN	O	B-Process
+of	NN	O	I-Process
+quasiclassical	NN	O	I-Process
+trajectories	NN	O	I-Process
+is	NN	O	O
+justified	NN	O	O
+by	NN	O	O
+the	NN	O	O
+large	NN	O	O
+masses	NN	O	O
+of	NN	O	O
+the	NN	O	O
+atoms	NN	O	B-Material
+involved	NN	O	O
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0009261413011111)
+
+The	NN	O	O
+optical	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+charged	NN	O	O
+excitations	NN	O	O
+are	NN	O	O
+important	NN	O	O
+for	NN	O	O
+understanding	NN	O	O
+organic	NN	O	B-Task
+semiconductor	NN	O	I-Task
+photophysics	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+injection	NN	O	O
+of	NN	O	O
+electric	NN	O	B-Material
+charge	NN	O	I-Material
+into	NN	O	O
+organic	NN	O	B-Material
+materials	NN	O	I-Material
+polarizes	NN	O	O
+the	NN	O	O
+surroundings	NN	O	O
+and	NN	O	O
+changes	NN	O	O
+the	NN	O	O
+bond	NN	O	O
+lengths	NN	O	O
+around	NN	O	O
+it	NN	O	O
+,	NN	O	O
+such	NN	O	O
+an	NN	O	O
+excitation	NN	O	O
+is	NN	O	O
+defined	NN	O	O
+as	NN	O	O
+a	NN	O	O
+charged	NN	O	B-Material
+polaron	NN	O	I-Material
+.	NN	O	O
+Absorption	NN	O	O
+of	NN	O	O
+light	NN	O	O
+and	NN	O	O
+fluorescence	NN	O	O
+quenching	NN	O	O
+by	NN	O	O
+polarons	NN	O	O
+are	NN	O	O
+important	NN	O	O
+issues	NN	O	O
+in	NN	O	O
+the	NN	O	O
+operation	NN	O	B-Task
+of	NN	O	I-Task
+organic	NN	O	I-Task
+optoelectronic	NN	O	I-Task
+devices	NN	O	I-Task
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+particularly	NN	O	O
+relevant	NN	O	O
+to	NN	O	O
+the	NN	O	O
+development	NN	O	B-Task
+of	NN	O	I-Task
+electrically	NN	O	I-Task
+pumped	NN	O	I-Task
+lasers	NN	O	I-Task
+.	NN	O	O
+With	NN	O	O
+recent	NN	O	O
+advances	NN	O	O
+in	NN	O	O
+materials	NN	O	O
+properties	NN	O	O
+and	NN	O	O
+optical	NN	O	O
+design	NN	O	O
+the	NN	O	O
+lasing	NN	O	B-Task
+threshold	NN	O	I-Task
+of	NN	O	I-Task
+organic	NN	O	I-Task
+structures	NN	O	I-Task
+under	NN	O	I-Task
+optical	NN	O	I-Task
+pumping	NN	O	I-Task
+is	NN	O	O
+now	NN	O	O
+low	NN	O	O
+enough	NN	O	O
+to	NN	O	O
+enable	NN	O	O
+pumping	NN	O	O
+by	NN	O	O
+inorganic	NN	O	B-Material
+laser	NN	O	I-Material
+diodes	NN	O	I-Material
+[	NN	O	O
+1–3	NN	O	O
+]	NN	O	O
+and	NN	O	O
+LEDs	NN	O	O
+[	NN	O	O
+4	NN	O	O
+]	NN	O	O
+which	NN	O	O
+is	NN	O	O
+promising	NN	O	O
+for	NN	O	O
+fabrication	NN	O	O
+of	NN	O	O
+very	NN	O	B-Material
+sensitive	NN	O	I-Material
+low	NN	O	I-Material
+-	NN	O	I-Material
+cost	NN	O	I-Material
+devices	NN	O	I-Material
+for	NN	O	O
+biosensing	NN	O	B-Process
+and	NN	O	O
+chemosensing	NN	O	B-Process
+[	NN	O	O
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+]	NN	O	O
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+However	NN	O	O
+,	NN	O	O
+light	NN	O	B-Process
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+by	NN	O	O
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+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
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+as	NN	O	O
+they	NN	O	O
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+as	NN	O	O
+well	NN	O	O
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+lasers	NN	O	B-Material
+.	NN	O	O
+Absorption	NN	O	O
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+-	NN	O	O
+sections	NN	O	O
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+desired	NN	O	O
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+because	NN	O	O
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+-	NN	O	I-Material
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+estimate	NN	O	O
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+values	NN	O	O
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+three	NN	O	O
+[	NN	O	O
+8,9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S000926141301539X)
+
+In	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+we	NN	O	O
+revisit	NN	O	O
+the	NN	O	O
+Chesnavich	NN	O	B-Process
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+[	NN	O	O
+37	NN	O	O
+]	NN	O	O
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+,	NN	O	O
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+terms	NN	O	O
+of	NN	O	O
+well	NN	O	O
+defined	NN	O	O
+phase	NN	O	O
+space	NN	O	B-Material
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+objects	NN	O	I-Material
+.	NN	O	O
+(	NN	O	O
+For	NN	O	O
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+[	NN	O	O
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+]	NN	O	O
+.	NN	O	O
+)	NN	O	O
+The	NN	O	O
+first	NN	O	O
+goal	NN	O	O
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+present	NN	O	O
+article	NN	O	O
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+the	NN	O	O
+identification	NN	O	B-Process
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+.	NN	O	O
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+elucidation	NN	O	O
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+roaming	NN	O	O
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+The	NN	O	O
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+PES	NN	O	O
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+leads	NN	O	O
+to	NN	O	O
+dynamics	NN	O	B-Task
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+reveal	NN	O	I-Task
+the	NN	O	I-Task
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+the	NN	O	I-Task
+roaming	NN	O	I-Task
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+.	NN	O	O
+Based	NN	O	O
+on	NN	O	O
+our	NN	O	O
+trajectory	NN	O	B-Material
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+,	NN	O	O
+we	NN	O	O
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+of	NN	O	O
+the	NN	O	O
+TTS	NN	O	O
+and	NN	O	O
+OTS	NN	O	O
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+periodic	NN	O	B-Material
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+(	NN	O	O
+PODS	NN	O	B-Material
+)	NN	O	O
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+the	NN	O	O
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+the	NN	O	O
+roaming	NN	O	O
+mechanism	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0009261415000974)
+
+Within	NN	O	O
+the	NN	O	O
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+temperatures	NN	O	I-Material
+chosen	NN	O	I-Material
+,	NN	O	O
+alanine	NN	O	B-Material
+dipeptide	NN	O	I-Material
+exhibits	NN	O	O
+very	NN	O	O
+simple	NN	O	O
+behaviour	NN	O	O
+.	NN	O	O
+This	NN	O	O
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+is	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+relatively	NN	O	O
+small	NN	O	O
+number	NN	O	O
+of	NN	O	O
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+minima	NN	O	I-Process
+(	NN	O	O
+seven	NN	O	O
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+using	NN	O	O
+this	NN	O	O
+force	NN	O	B-Process
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+model	NN	O	I-Process
+)	NN	O	O
+and	NN	O	O
+the	NN	O	O
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+spacing	NN	O	I-Material
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+the	NN	O	O
+global	NN	O	O
+minimum	NN	O	O
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+higher	NN	O	O
+energy	NN	O	O
+minima	NN	O	O
+.	NN	O	O
+Indeed	NN	O	O
+,	NN	O	O
+cross	NN	O	B-Process
+-	NN	O	I-Process
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+in	NN	O	I-Process
+the	NN	O	I-Process
+approximate	NN	O	I-Process
+global	NN	O	I-Process
+free	NN	O	I-Process
+energy	NN	O	I-Process
+minimum	NN	O	O
+for	NN	O	O
+this	NN	O	O
+system	NN	O	O
+(	NN	O	O
+where	NN	O	O
+the	NN	O	O
+free	NN	O	O
+energy	NN	O	O
+of	NN	O	O
+the	NN	O	O
+second	NN	O	O
+-	NN	O	O
+lowest	NN	O	O
+potential	NN	O	O
+energy	NN	O	O
+minimum	NN	O	O
+becomes	NN	O	O
+lower	NN	O	O
+than	NN	O	O
+that	NN	O	O
+of	NN	O	O
+the	NN	O	O
+global	NN	O	O
+potential	NN	O	O
+energy	NN	O	O
+minimum	NN	O	O
+)	NN	O	O
+in	NN	O	O
+the	NN	O	O
+harmonic	NN	O	O
+approximation	NN	O	O
+would	NN	O	O
+occur	NN	O	O
+at	NN	O	O
+1170K.	NN	O	O
+In	NN	O	O
+general	NN	O	O
+,	NN	O	O
+the	NN	O	O
+harmonic	NN	O	O
+prediction	NN	O	O
+for	NN	O	O
+the	NN	O	O
+crossover	NN	O	O
+temperature	NN	O	O
+between	NN	O	O
+two	NN	O	O
+minima	NN	O	O
+is(4)kBTxo	NN	O	O
+=	NN	O	O
+V1−V2ln((o2ν¯2κ)/(o1ν¯1κ)),from	NN	O	O
+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+3	NN	O	O
+)	NN	O	O
+,	NN	O	O
+which	NN	O	O
+clearly	NN	O	O
+illustrates	NN	O	O
+the	NN	O	O
+balance	NN	O	B-Task
+between	NN	O	I-Task
+potential	NN	O	I-Task
+energy	NN	O	I-Task
+and	NN	O	I-Task
+well	NN	O	I-Task
+entropy	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0009261415002730)
+
+Both	NN	O	O
+methods	NN	O	O
+of	NN	O	O
+structure	NN	O	B-Process
+solution	NN	O	I-Process
+reveal	NN	O	O
+a	NN	O	O
+bent	NN	O	B-Process
+conformation	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+central	NN	O	B-Material
+terthiophene	NN	O	I-Material
+units	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+DOTT	NN	O	B-Material
+molecule	NN	O	I-Material
+as	NN	O	O
+is	NN	O	O
+clearly	NN	O	O
+visible	NN	O	O
+in	NN	O	O
+all	NN	O	O
+three	NN	O	O
+cases	NN	O	O
+in	NN	O	O
+Figure	NN	O	O
+5	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+there	NN	O	O
+is	NN	O	O
+a	NN	O	O
+fundamental	NN	O	O
+difference	NN	O	O
+in	NN	O	O
+the	NN	O	O
+conformation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+octyl	NN	O	B-Material
+side	NN	O	I-Material
+chains	NN	O	I-Material
+.	NN	O	O
+Whilst	NN	O	O
+for	NN	O	O
+the	NN	O	O
+single	NN	O	O
+crystal	NN	O	O
+phase	NN	O	O
+at	NN	O	O
+T=100	NN	O	O
+K	NN	O	O
+linearly	NN	O	B-Material
+extended	NN	O	I-Material
+chains	NN	O	I-Material
+are	NN	O	O
+observed	NN	O	O
+(	NN	O	O
+Figure	NN	O	O
+5B	NN	O	O
+)	NN	O	O
+,	NN	O	O
+a	NN	O	O
+defined	NN	O	B-Process
+rotation	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+octyl	NN	O	I-Process
+chains	NN	O	I-Process
+relative	NN	O	O
+to	NN	O	O
+the	NN	O	O
+terthiophene	NN	O	B-Material
+unit	NN	O	I-Material
+is	NN	O	O
+found	NN	O	O
+for	NN	O	O
+the	NN	O	O
+three	NN	O	O
+thin	NN	O	B-Material
+film	NN	O	I-Material
+phases	NN	O	O
+(	NN	O	O
+Figure	NN	O	O
+5A	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+rotation	NN	O	O
+angle	NN	O	O
+of	NN	O	O
+about	NN	O	O
+±70	NN	O	O
+°	NN	O	O
+results	NN	O	O
+from	NN	O	O
+a	NN	O	O
+twist	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+first	NN	O	I-Process
+CC	NN	O	I-Process
+single	NN	O	I-Process
+bond	NN	O	I-Process
+at	NN	O	O
+the	NN	O	O
+link	NN	O	O
+between	NN	O	O
+the	NN	O	O
+terthiophene	NN	O	B-Material
+unit	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+octyl	NN	O	B-Material
+chain	NN	O	I-Material
+(	NN	O	O
+see	NN	O	O
+arrows	NN	O	O
+Figure	NN	O	O
+5A	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Two	NN	O	O
+features	NN	O	O
+of	NN	O	O
+this	NN	O	O
+rotated	NN	O	O
+conformation	NN	O	O
+are	NN	O	O
+interesting	NN	O	O
+.	NN	O	O
+First	NN	O	O
+,	NN	O	O
+a	NN	O	O
+molecule	NN	O	O
+with	NN	O	O
+rotated	NN	O	B-Material
+side	NN	O	I-Material
+chains	NN	O	I-Material
+represents	NN	O	O
+the	NN	O	O
+equilibrium	NN	O	O
+state	NN	O	O
+of	NN	O	O
+an	NN	O	O
+isolated	NN	O	O
+single	NN	O	O
+DOTT	NN	O	B-Material
+molecule	NN	O	I-Material
+as	NN	O	O
+obtained	NN	O	O
+by	NN	O	O
+combined	NN	O	B-Process
+MD	NN	O	I-Process
+and	NN	O	I-Process
+VASP	NN	O	I-Process
+calculations	NN	O	I-Process
+[	NN	O	O
+33	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Second	NN	O	O
+,	NN	O	O
+the	NN	O	O
+rotated	NN	O	O
+conformation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+octyl	NN	O	B-Material
+chains	NN	O	I-Material
+allows	NN	O	O
+a	NN	O	O
+dense	NN	O	B-Process
+packing	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+octyl	NN	O	B-Material
+side	NN	O	I-Material
+chains	NN	O	I-Material
+for	NN	O	O
+both	NN	O	O
+molecules	NN	O	O
+.	NN	O	O
+Interestingly	NN	O	O
+,	NN	O	O
+the	NN	O	O
+single	NN	O	O
+crystal	NN	O	B-Material
+structure	NN	O	I-Material
+at	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+shows	NN	O	O
+the	NN	O	O
+twisted	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+the	NN	O	O
+linear	NN	O	O
+conformation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+octyl	NN	O	B-Material
+side	NN	O	I-Material
+chains	NN	O	I-Material
+within	NN	O	O
+one	NN	O	O
+molecule	NN	O	O
+(	NN	O	O
+Figure	NN	O	O
+5C	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S000926141500651X)
+
+Previous	NN	O	O
+studies	NN	O	O
+have	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+there	NN	O	O
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+two	NN	O	O
+main	NN	O	O
+mechanisms	NN	O	O
+for	NN	O	O
+the	NN	O	O
+development	NN	O	B-Process
+of	NN	O	I-Process
+radiation	NN	O	I-Process
+-	NN	O	I-Process
+induced	NN	O	I-Process
+DSBs	NN	O	I-Process
+[	NN	O	O
+16,17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+For	NN	O	O
+γ-ray	NN	O	B-Process
+radiation	NN	O	I-Process
+,	NN	O	O
+single	NN	O	B-Process
+step	NN	O	I-Process
+is	NN	O	O
+the	NN	O	O
+main	NN	O	O
+process	NN	O	O
+to	NN	O	O
+cause	NN	O	O
+DSBs	NN	O	B-Process
+(	NN	O	O
+see	NN	O	O
+Figure	NN	O	O
+3b	NN	O	O
+)	NN	O	O
+,	NN	O	O
+which	NN	O	O
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+the	NN	O	O
+generation	NN	O	B-Process
+of	NN	O	I-Process
+number	NN	O	I-Process
+of	NN	O	I-Process
+ROS	NN	O	I-Process
+upon	NN	O	O
+the	NN	O	O
+incident	NN	O	O
+of	NN	O	O
+individual	NN	O	O
+photon	NN	O	B-Material
+of	NN	O	I-Material
+γ-ray	NN	O	I-Material
+.	NN	O	O
+Whereas	NN	O	O
+photo	NN	O	B-Process
+-	NN	O	I-Process
+radiation	NN	O	I-Process
+causes	NN	O	O
+DSBs	NN	O	B-Process
+through	NN	O	O
+two	NN	O	B-Process
+step	NN	O	I-Process
+mechanism	NN	O	I-Process
+(	NN	O	O
+Figure	NN	O	O
+3a	NN	O	O
+)	NN	O	O
+by	NN	O	O
+reflecting	NN	O	O
+that	NN	O	O
+each	NN	O	O
+single	NN	O	O
+photon	NN	O	B-Material
+causes	NN	O	O
+mostly	NN	O	O
+single	NN	O	O
+ROS	NN	O	B-Material
+and	NN	O	O
+thus	NN	O	O
+induces	NN	O	O
+only	NN	O	O
+single	NN	O	B-Process
+strand	NN	O	I-Process
+break	NN	O	I-Process
+.	NN	O	O
+Then	NN	O	O
+,	NN	O	O
+when	NN	O	O
+a	NN	O	O
+second	NN	O	O
+single	NN	O	B-Process
+strand	NN	O	I-Process
+break	NN	O	I-Process
+occurs	NN	O	O
+where	NN	O	O
+near	NN	O	O
+the	NN	O	O
+existing	NN	O	O
+single	NN	O	B-Process
+strand	NN	O	I-Process
+break	NN	O	I-Process
+,	NN	O	O
+DBS	NN	O	B-Process
+is	NN	O	O
+caused	NN	O	O
+,	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+the	NN	O	O
+two	NN	O	B-Process
+step	NN	O	I-Process
+mechanism	NN	O	I-Process
+.	NN	O	O
+Summarizing	NN	O	O
+the	NN	O	O
+results	NN	O	O
+and	NN	O	O
+discussion	NN	O	O
+we	NN	O	O
+may	NN	O	O
+conclude	NN	O	O
+as	NN	O	O
+that	NN	O	O
+:	NN	O	O
+(	NN	O	O
+1	NN	O	O
+)	NN	O	O
+The	NN	O	O
+significant	NN	O	O
+protective	NN	O	O
+effect	NN	O	O
+of	NN	O	O
+AA	NN	O	B-Material
+against	NN	O	O
+photo	NN	O	B-Process
+-	NN	O	I-Process
+induced	NN	O	I-Process
+damage	NN	O	I-Process
+may	NN	O	O
+reflect	NN	O	O
+the	NN	O	O
+effective	NN	O	O
+diminish	NN	O	O
+of	NN	O	O
+ROS	NN	O	B-Material
+by	NN	O	O
+AA	NN	O	B-Material
+.	NN	O	O
+(	NN	O	O
+2	NN	O	O
+)	NN	O	O
+For	NN	O	O
+the	NN	O	O
+γ-ray	NN	O	B-Material
+induced	NN	O	I-Material
+DSB	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+protective	NN	O	O
+effect	NN	O	O
+by	NN	O	O
+AA	NN	O	B-Material
+is	NN	O	O
+a	NN	O	O
+little	NN	O	O
+bit	NN	O	O
+weaker	NN	O	O
+than	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+photo	NN	O	B-Process
+irradiation	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+may	NN	O	O
+be	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+generation	NN	O	O
+of	NN	O	O
+numbers	NN	O	O
+of	NN	O	O
+ROS	NN	O	B-Material
+by	NN	O	O
+single	NN	O	B-Material
+photon	NN	O	I-Material
+of	NN	O	I-Material
+γ-ray	NN	O	I-Material
+.	NN	O	O
+Surviving	NN	O	O
+oxygen	NN	O	O
+species	NN	O	O
+against	NN	O	O
+the	NN	O	O
+diminishment	NN	O	O
+effect	NN	O	O
+by	NN	O	O
+AA	NN	O	B-Material
+may	NN	O	O
+cause	NN	O	O
+DSBs	NN	O	B-Material
+.	NN	O	O
+(	NN	O	O
+3	NN	O	O
+)	NN	O	O
+As	NN	O	O
+for	NN	O	O
+the	NN	O	O
+DSBs	NN	O	B-Material
+by	NN	O	O
+ultrasound	NN	O	B-Process
+,	NN	O	O
+damage	NN	O	O
+is	NN	O	O
+caused	NN	O	O
+by	NN	O	O
+the	NN	O	O
+shockwave	NN	O	B-Process
+through	NN	O	O
+the	NN	O	O
+generation	NN	O	O
+of	NN	O	O
+cavitations	NN	O	B-Material
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Thus	NN	O	O
+,	NN	O	O
+the	NN	O	O
+chemical	NN	O	O
+effect	NN	O	O
+of	NN	O	O
+AA	NN	O	B-Material
+to	NN	O	O
+diminish	NN	O	B-Process
+ROS	NN	O	I-Process
+is	NN	O	O
+considered	NN	O	O
+to	NN	O	O
+be	NN	O	O
+negligibly	NN	O	O
+small	NN	O	O
+for	NN	O	O
+the	NN	O	O
+protection	NN	O	O
+of	NN	O	O
+DSBs	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S0010938X12001163)
+
+In	NN	O	B-Process
+situ	NN	O	I-Process
+oxidation	NN	O	I-Process
+,	NN	O	O
+experiments	NN	O	O
+were	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+using	NN	O	O
+3	NN	O	B-Material
+mm	NN	O	I-Material
+diameter	NN	O	I-Material
+discs	NN	O	I-Material
+with	NN	O	O
+one	NN	O	O
+surface	NN	O	O
+ground	NN	O	B-Process
+and	NN	O	I-Process
+polished	NN	O	I-Process
+to	NN	O	O
+a	NN	O	O
+1μm	NN	O	O
+diamond	NN	O	O
+finish	NN	O	O
+.	NN	O	O
+The	NN	O	O
+3	NN	O	O
+mm	NN	O	O
+discs	NN	O	O
+were	NN	O	O
+then	NN	O	O
+oxidised	NN	O	B-Process
+in	NN	O	O
+a	NN	O	O
+Philips	NN	O	B-Material
+XL-30	NN	O	I-Material
+FEG	NN	O	I-Material
+ESEM	NN	O	I-Material
+with	NN	O	O
+a	NN	O	O
+hot	NN	O	B-Material
+stage	NN	O	I-Material
+attachment	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+oxidising	NN	O	O
+atmosphere	NN	O	O
+used	NN	O	O
+was	NN	O	O
+laboratory	NN	O	O
+air	NN	O	O
+at	NN	O	O
+a	NN	O	O
+pressure	NN	O	O
+of	NN	O	O
+266	NN	O	O
+Pa	NN	O	O
+.	NN	O	O
+During	NN	O	O
+the	NN	O	O
+experiment	NN	O	O
+,	NN	O	O
+the	NN	O	O
+sample	NN	O	O
+was	NN	O	O
+observed	NN	O	O
+and	NN	O	O
+imaged	NN	O	O
+using	NN	O	O
+a	NN	O	O
+primary	NN	O	O
+beam	NN	O	O
+energy	NN	O	O
+of	NN	O	O
+20kV	NN	O	O
+and	NN	O	O
+an	NN	O	O
+Everhart	NN	O	O
+–	NN	O	O
+Thornley	NN	O	O
+secondary	NN	O	O
+electron	NN	O	O
+detector	NN	O	O
+.	NN	O	O
+The	NN	O	O
+sample	NN	O	O
+was	NN	O	O
+heated	NN	O	B-Process
+at	NN	O	O
+a	NN	O	O
+rate	NN	O	O
+of	NN	O	O
+100	NN	O	O
+°	NN	O	O
+C	NN	O	O
+/	NN	O	O
+min	NN	O	O
+to	NN	O	O
+a	NN	O	O
+temperature	NN	O	O
+of	NN	O	O
+700	NN	O	O
+°	NN	O	O
+C	NN	O	O
+and	NN	O	O
+held	NN	O	O
+at	NN	O	O
+this	NN	O	O
+temperature	NN	O	O
+for	NN	O	O
+8min	NN	O	O
+to	NN	O	O
+stabilise	NN	O	B-Process
+the	NN	O	I-Process
+stage	NN	O	I-Process
+and	NN	O	I-Process
+the	NN	O	I-Process
+microscope	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+sample	NN	O	O
+was	NN	O	O
+then	NN	O	O
+heated	NN	O	B-Process
+to	NN	O	I-Process
+a	NN	O	I-Process
+final	NN	O	I-Process
+temperature	NN	O	I-Process
+of	NN	O	I-Process
+900	NN	O	I-Process
+°	NN	O	I-Process
+C	NN	O	I-Process
+at	NN	O	O
+the	NN	O	O
+same	NN	O	O
+heating	NN	O	O
+rate	NN	O	O
+.	NN	O	O
+The	NN	O	O
+total	NN	O	O
+time	NN	O	O
+of	NN	O	O
+exposure	NN	O	O
+of	NN	O	O
+the	NN	O	O
+sample	NN	O	O
+was	NN	O	O
+120min	NN	O	O
+before	NN	O	O
+cooling	NN	O	O
+to	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+by	NN	O	O
+turning	NN	O	O
+off	NN	O	O
+the	NN	O	O
+heating	NN	O	B-Material
+coils	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+samples	NN	O	O
+were	NN	O	O
+then	NN	O	O
+examined	NN	O	O
+in	NN	O	O
+the	NN	O	O
+LEO	NN	O	B-Material
+1530VP	NN	O	I-Material
+FEGSEM	NN	O	I-Material
+with	NN	O	O
+chemical	NN	O	O
+information	NN	O	O
+gathered	NN	O	O
+using	NN	O	O
+EDS	NN	O	B-Material
+.	NN	O	O
+Cross	NN	O	O
+-	NN	O	O
+sections	NN	O	O
+and	NN	O	O
+Transmission	NN	O	B-Material
+Electron	NN	O	I-Material
+Microscope	NN	O	I-Material
+(	NN	O	O
+TEM	NN	O	B-Material
+)	NN	O	O
+samples	NN	O	O
+were	NN	O	O
+produced	NN	O	O
+using	NN	O	O
+a	NN	O	O
+dual	NN	O	B-Material
+beam	NN	O	I-Material
+FEI	NN	O	I-Material
+Nova	NN	O	I-Material
+Nanolab	NN	O	I-Material
+600	NN	O	I-Material
+for	NN	O	O
+Focused	NN	O	B-Material
+Ion	NN	O	I-Material
+Beam	NN	O	I-Material
+(	NN	O	O
+FIB	NN	O	B-Material
+)	NN	O	O
+milling	NN	O	O
+perpendicular	NN	O	O
+to	NN	O	O
+the	NN	O	O
+phase	NN	O	O
+boundaries	NN	O	O
+to	NN	O	O
+determine	NN	O	O
+their	NN	O	O
+influence	NN	O	O
+on	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Process
+development	NN	O	I-Process
+and	NN	O	O
+imaged	NN	O	O
+using	NN	O	O
+a	NN	O	O
+Jeol	NN	O	B-Material
+2000FX	NN	O	I-Material
+W	NN	O	I-Material
+-	NN	O	I-Material
+filament	NN	O	I-Material
+TEM	NN	O	I-Material
+.	NN	O	O
+EDS	NN	O	B-Material
+maps	NN	O	O
+of	NN	O	O
+the	NN	O	O
+TEM	NN	O	B-Material
+samples	NN	O	I-Material
+were	NN	O	O
+collected	NN	O	O
+using	NN	O	O
+the	NN	O	O
+Nanolab	NN	O	B-Material
+600	NN	O	I-Material
+with	NN	O	O
+a	NN	O	O
+Scanning	NN	O	B-Material
+TEM	NN	O	I-Material
+(	NN	O	I-Material
+STEM	NN	O	I-Material
+)	NN	O	I-Material
+detector	NN	O	I-Material
+and	NN	O	O
+an	NN	O	O
+EDAX	NN	O	B-Material
+Genesis	NN	O	I-Material
+EDS	NN	O	I-Material
+system	NN	O	I-Material
+at	NN	O	O
+an	NN	O	O
+accelerating	NN	O	B-Process
+voltage	NN	O	I-Process
+of	NN	O	I-Process
+30kV.	NN	O	I-Process
+
+-DOCSTART- (S0010938X12002508)
+
+The	NN	O	O
+study	NN	O	O
+outlines	NN	O	O
+a	NN	O	O
+trial	NN	O	O
+of	NN	O	O
+transient	NN	O	B-Task
+response	NN	O	I-Task
+analysis	NN	O	I-Task
+on	NN	O	O
+full	NN	O	O
+-	NN	O	O
+scale	NN	O	O
+motorway	NN	O	B-Material
+bridge	NN	O	I-Material
+structures	NN	O	I-Material
+to	NN	O	O
+obtain	NN	O	O
+information	NN	O	O
+concerning	NN	O	O
+the	NN	O	O
+steel	NN	O	B-Task
+–	NN	O	I-Task
+concrete	NN	O	I-Task
+interface	NN	O	I-Task
+and	NN	O	O
+is	NN	O	O
+part	NN	O	O
+of	NN	O	O
+a	NN	O	O
+larger	NN	O	O
+study	NN	O	O
+to	NN	O	O
+assess	NN	O	O
+the	NN	O	O
+long	NN	O	B-Process
+-	NN	O	I-Process
+term	NN	O	I-Process
+sustained	NN	O	I-Process
+benefits	NN	O	I-Process
+offered	NN	O	O
+by	NN	O	O
+Impressed	NN	O	B-Process
+Current	NN	O	I-Process
+Cathodic	NN	O	I-Process
+Protection	NN	O	I-Process
+(	NN	O	O
+ICCP	NN	O	B-Process
+)	NN	O	O
+after	NN	O	O
+the	NN	O	O
+interruption	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+protective	NN	O	I-Process
+current	NN	O	I-Process
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+These	NN	O	O
+structures	NN	O	O
+had	NN	O	O
+previously	NN	O	O
+been	NN	O	O
+protected	NN	O	O
+for	NN	O	O
+5–16years	NN	O	O
+by	NN	O	O
+an	NN	O	O
+ICCP	NN	O	B-Process
+system	NN	O	I-Process
+prior	NN	O	O
+to	NN	O	O
+the	NN	O	O
+start	NN	O	O
+of	NN	O	O
+the	NN	O	O
+study	NN	O	O
+.	NN	O	O
+The	NN	O	O
+protective	NN	O	B-Process
+current	NN	O	I-Process
+was	NN	O	I-Process
+interrupted	NN	O	I-Process
+,	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+assess	NN	O	B-Process
+the	NN	O	I-Process
+long	NN	O	I-Process
+-	NN	O	I-Process
+term	NN	O	I-Process
+benefits	NN	O	I-Process
+provided	NN	O	O
+by	NN	O	O
+ICCP	NN	O	B-Process
+after	NN	O	O
+it	NN	O	O
+has	NN	O	O
+been	NN	O	O
+turned	NN	O	O
+off	NN	O	O
+.	NN	O	O
+This	NN	O	O
+paper	NN	O	O
+develops	NN	O	B-Task
+and	NN	O	I-Task
+examines	NN	O	I-Task
+a	NN	O	I-Task
+simplified	NN	O	I-Task
+approach	NN	O	I-Task
+for	NN	O	O
+the	NN	O	O
+on	NN	O	O
+-	NN	O	O
+site	NN	O	O
+use	NN	O	O
+of	NN	O	O
+transient	NN	O	B-Process
+response	NN	O	I-Process
+analysis	NN	O	I-Process
+and	NN	O	O
+discusses	NN	O	B-Process
+the	NN	O	I-Process
+potential	NN	O	I-Process
+advantages	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+technique	NN	O	O
+as	NN	O	O
+a	NN	O	O
+tool	NN	O	O
+for	NN	O	O
+the	NN	O	O
+assessment	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+corrosion	NN	O	I-Task
+condition	NN	O	I-Task
+of	NN	O	O
+steel	NN	O	B-Material
+in	NN	O	O
+reinforced	NN	O	B-Material
+concrete	NN	O	I-Material
+structures	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0010938X13002187)
+
+The	NN	O	O
+results	NN	O	O
+from	NN	O	O
+two	NN	O	O
+types	NN	O	O
+of	NN	O	O
+oxidation	NN	O	B-Process
+test	NN	O	I-Process
+are	NN	O	O
+combined	NN	O	O
+in	NN	O	O
+this	NN	O	O
+study	NN	O	O
+.	NN	O	O
+Table	NN	O	O
+1	NN	O	O
+shows	NN	O	O
+the	NN	O	O
+test	NN	O	B-Material
+matrix	NN	O	I-Material
+with	NN	O	O
+the	NN	O	O
+two	NN	O	O
+approaches	NN	O	O
+included	NN	O	O
+.	NN	O	O
+All	NN	O	O
+the	NN	O	O
+100h	NN	O	O
+tests	NN	O	O
+and	NN	O	O
+the	NN	O	O
+test	NN	O	O
+conducted	NN	O	O
+at	NN	O	O
+650	NN	O	O
+°	NN	O	O
+C	NN	O	O
+were	NN	O	O
+performed	NN	O	O
+using	NN	O	O
+a	NN	O	O
+thermogravimetric	NN	O	B-Process
+balance	NN	O	I-Process
+(	NN	O	O
+TGA	NN	O	B-Process
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+weight	NN	O	B-Material
+change	NN	O	I-Material
+during	NN	O	I-Material
+these	NN	O	I-Material
+tests	NN	O	I-Material
+was	NN	O	I-Material
+monitored	NN	O	I-Material
+continually	NN	O	I-Material
+and	NN	O	O
+adjusted	NN	O	B-Process
+to	NN	O	I-Process
+accommodate	NN	O	I-Process
+buoyancy	NN	O	I-Process
+effects	NN	O	I-Process
+.	NN	O	O
+All	NN	O	O
+other	NN	O	O
+tests	NN	O	O
+were	NN	O	O
+conducted	NN	O	O
+in	NN	O	O
+horizontal	NN	O	B-Material
+tube	NN	O	I-Material
+furnaces	NN	O	I-Material
+.	NN	O	O
+For	NN	O	O
+these	NN	O	O
+latter	NN	O	O
+tests	NN	O	O
+,	NN	O	O
+batches	NN	O	O
+of	NN	O	O
+specimens	NN	O	O
+were	NN	O	O
+placed	NN	O	O
+in	NN	O	O
+alumina	NN	O	B-Material
+boats	NN	O	I-Material
+and	NN	O	O
+inserted	NN	O	O
+into	NN	O	O
+the	NN	O	O
+furnaces	NN	O	B-Material
+at	NN	O	O
+temperature	NN	O	O
+.	NN	O	O
+Intermittent	NN	O	O
+weighing	NN	O	O
+at	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+was	NN	O	O
+used	NN	O	O
+to	NN	O	O
+determine	NN	O	B-Task
+the	NN	O	I-Task
+oxidation	NN	O	I-Task
+kinetics	NN	O	I-Task
+.	NN	O	O
+At	NN	O	O
+selected	NN	O	O
+time	NN	O	O
+intervals	NN	O	O
+,	NN	O	O
+a	NN	O	O
+specimen	NN	O	O
+was	NN	O	O
+removed	NN	O	O
+from	NN	O	O
+the	NN	O	O
+batch	NN	O	O
+for	NN	O	O
+examination	NN	O	O
+before	NN	O	O
+the	NN	O	O
+high	NN	O	O
+temperature	NN	O	O
+exposure	NN	O	O
+continued	NN	O	O
+for	NN	O	O
+the	NN	O	O
+remainder	NN	O	O
+of	NN	O	O
+the	NN	O	O
+batch	NN	O	O
+.	NN	O	O
+Table	NN	O	B-Material
+1	NN	O	I-Material
+shows	NN	O	I-Material
+the	NN	O	I-Material
+time	NN	O	I-Material
+intervals	NN	O	I-Material
+chosen	NN	O	I-Material
+for	NN	O	I-Material
+examination	NN	O	I-Material
+.	NN	O	O
+At	NN	O	O
+600	NN	O	O
+°	NN	O	O
+C	NN	O	O
+one	NN	O	O
+isothermal	NN	O	O
+test	NN	O	O
+,	NN	O	O
+having	NN	O	O
+an	NN	O	O
+exposure	NN	O	O
+time	NN	O	O
+of	NN	O	O
+1000h	NN	O	O
+,	NN	O	O
+has	NN	O	O
+been	NN	O	O
+performed	NN	O	O
+to	NN	O	O
+date	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0010938X13005945)
+
+The	NN	O	O
+adhesion	NN	O	B-Task
+/	NN	O	I-Task
+cohesion	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+coating	NN	O	I-Task
+was	NN	O	O
+evaluated	NN	O	O
+by	NN	O	O
+the	NN	O	O
+scratch	NN	O	B-Process
+test	NN	O	I-Process
+method	NN	O	I-Process
+,	NN	O	O
+using	NN	O	O
+a	NN	O	O
+Revetest	NN	O	B-Material
+system	NN	O	I-Material
+(	NN	O	I-Material
+CSM	NN	O	I-Material
+Instruments	NN	O	I-Material
+SA	NN	O	I-Material
+,	NN	O	I-Material
+Switzerland	NN	O	I-Material
+)	NN	O	I-Material
+equipped	NN	O	I-Material
+with	NN	O	I-Material
+a	NN	O	I-Material
+H-270	NN	O	I-Material
+diamond	NN	O	I-Material
+indentor	NN	O	I-Material
+(	NN	O	I-Material
+200μm	NN	O	I-Material
+diameter	NN	O	I-Material
+)	NN	O	I-Material
+.	NN	O	O
+Six	NN	O	O
+scratch	NN	O	B-Process
+indentations	NN	O	I-Process
+were	NN	O	I-Process
+carried	NN	O	I-Process
+out	NN	O	I-Process
+under	NN	O	O
+previously	NN	O	O
+optimized	NN	O	O
+conditions	NN	O	O
+(	NN	O	O
+linear	NN	O	O
+progressive	NN	O	O
+load	NN	O	O
+mode	NN	O	O
+1–4N	NN	O	O
+,	NN	O	O
+4Nmin−1	NN	O	O
+)	NN	O	O
+.	NN	O	O
+In	NN	O	O
+order	NN	O	O
+to	NN	O	O
+aid	NN	O	O
+in	NN	O	O
+determination	NN	O	B-Task
+of	NN	O	I-Task
+location	NN	O	I-Task
+of	NN	O	I-Task
+spallation	NN	O	I-Task
+/	NN	O	I-Task
+delamination	NN	O	I-Task
+,	NN	O	O
+an	NN	O	O
+extended	NN	O	O
+scratch	NN	O	O
+length	NN	O	O
+of	NN	O	O
+6	NN	O	O
+mm	NN	O	O
+was	NN	O	O
+employed	NN	O	O
+.	NN	O	O
+The	NN	O	O
+scratch	NN	O	O
+tracks	NN	O	O
+were	NN	O	O
+subsequently	NN	O	O
+observed	NN	O	O
+by	NN	O	O
+SEM	NN	O	O
+to	NN	O	O
+determine	NN	O	O
+the	NN	O	O
+locations	NN	O	O
+of	NN	O	O
+the	NN	O	O
+first	NN	O	O
+coating	NN	O	O
+failure	NN	O	O
+and	NN	O	O
+to	NN	O	O
+understand	NN	O	B-Task
+the	NN	O	I-Task
+nature	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+coating	NN	O	I-Task
+failure	NN	O	I-Task
+.	NN	O	O
+During	NN	O	O
+the	NN	O	O
+scratch	NN	O	O
+tests	NN	O	O
+,	NN	O	O
+the	NN	O	O
+loading	NN	O	B-Process
+force	NN	O	I-Process
+and	NN	O	I-Process
+penetration	NN	O	I-Process
+depth	NN	O	I-Process
+were	NN	O	I-Process
+recorded	NN	O	I-Process
+and	NN	O	I-Process
+their	NN	O	I-Process
+respective	NN	O	I-Process
+values	NN	O	I-Process
+were	NN	O	I-Process
+correlated	NN	O	I-Process
+with	NN	O	I-Process
+the	NN	O	I-Process
+observed	NN	O	I-Process
+failure	NN	O	I-Process
+locations	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+surface	NN	O	B-Task
+roughness	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+coating	NN	O	I-Task
+was	NN	O	I-Task
+evaluated	NN	O	I-Task
+using	NN	O	O
+a	NN	O	O
+surface	NN	O	B-Material
+roughness	NN	O	I-Material
+tester	NN	O	I-Material
+(	NN	O	O
+TR200	NN	O	O
+,	NN	O	O
+Timegroup	NN	O	O
+Inc.	NN	O	O
+)	NN	O	O
+according	NN	O	O
+to	NN	O	O
+ISO	NN	O	O
+standard	NN	O	O
+[	NN	O	O
+29	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+the	NN	O	O
+open	NN	O	O
+porosity	NN	O	O
+in	NN	O	O
+the	NN	O	O
+outer	NN	O	B-Material
+layer	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+coating	NN	O	B-Process
+,	NN	O	O
+a	NN	O	O
+measurement	NN	O	O
+length	NN	O	O
+for	NN	O	O
+determination	NN	O	O
+of	NN	O	O
+the	NN	O	O
+roughness	NN	O	B-Process
+(	NN	O	O
+Ra	NN	O	B-Process
+)	NN	O	O
+of	NN	O	O
+0.8	NN	O	O
+mm	NN	O	O
+was	NN	O	O
+used	NN	O	O
+.	NN	O	O
+In	NN	O	O
+total	NN	O	O
+,	NN	O	O
+eight	NN	O	B-Material
+measurements	NN	O	I-Material
+were	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+in	NN	O	O
+different	NN	O	O
+directions	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0010938X14000420)
+
+One	NN	O	O
+surface	NN	O	O
+was	NN	O	O
+then	NN	O	O
+polished	NN	O	O
+and	NN	O	O
+cleaned	NN	O	O
+using	NN	O	O
+a	NN	O	O
+protocol	NN	O	O
+designed	NN	O	O
+to	NN	O	O
+eliminate	NN	O	O
+as	NN	O	O
+much	NN	O	O
+preparation	NN	O	O
+-	NN	O	O
+related	NN	O	O
+contamination	NN	O	O
+as	NN	O	O
+possible	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+as	NN	O	O
+follows	NN	O	O
+:	NN	O	O
+The	NN	O	O
+lead	NN	O	O
+surface	NN	O	O
+was	NN	O	O
+polished	NN	O	O
+by	NN	O	O
+hand	NN	O	O
+using	NN	O	O
+a	NN	O	O
+damp	NN	O	B-Material
+abrasive	NN	O	I-Material
+disc	NN	O	I-Material
+(	NN	O	O
+BuehlerMet	NN	O	O
+II	NN	O	O
+®	NN	O	O
+)	NN	O	O
+to	NN	O	O
+remove	NN	O	O
+visible	NN	O	O
+surface	NN	O	B-Material
+defects	NN	O	O
+and	NN	O	O
+to	NN	O	O
+expose	NN	O	O
+a	NN	O	O
+fresh	NN	O	O
+metal	NN	O	B-Material
+surface	NN	O	I-Material
+.	NN	O	O
+Coupons	NN	O	O
+were	NN	O	O
+then	NN	O	O
+polished	NN	O	O
+using	NN	O	O
+a	NN	O	O
+sequence	NN	O	O
+of	NN	O	O
+diamond	NN	O	B-Material
+polishes	NN	O	I-Material
+with	NN	O	O
+decreasing	NN	O	O
+particle	NN	O	O
+sizes	NN	O	O
+(	NN	O	O
+6μm	NN	O	O
+,	NN	O	O
+3μm	NN	O	O
+,	NN	O	O
+1μm	NN	O	O
+Buehler	NN	O	O
+MetaDi	NN	O	O
+®	NN	O	O
+polycrystalline	NN	O	B-Material
+diamond	NN	O	I-Material
+suspension	NN	O	O
+)	NN	O	O
+.	NN	O	O
+A	NN	O	O
+polishing	NN	O	B-Material
+cloth	NN	O	I-Material
+(	NN	O	O
+Buehler	NN	O	O
+MicroCloth	NN	O	O
+®	NN	O	O
+)	NN	O	O
+was	NN	O	O
+saturated	NN	O	O
+with	NN	O	O
+the	NN	O	O
+appropriate	NN	O	O
+diamond	NN	O	B-Material
+suspension	NN	O	O
+.	NN	O	O
+A	NN	O	O
+custom	NN	O	B-Material
+-	NN	O	I-Material
+made	NN	O	I-Material
+jig	NN	O	I-Material
+fitted	NN	O	O
+to	NN	O	O
+an	NN	O	O
+automatic	NN	O	O
+polisher	NN	O	B-Material
+(	NN	O	O
+Buehler	NN	O	O
+Minimet	NN	O	O
+®	NN	O	O
+1000	NN	O	O
+)	NN	O	O
+was	NN	O	O
+used	NN	O	O
+to	NN	O	O
+hold	NN	O	O
+the	NN	O	O
+coupons	NN	O	B-Material
+in	NN	O	O
+place	NN	O	O
+during	NN	O	O
+automated	NN	O	B-Process
+polishing	NN	O	I-Process
+.	NN	O	O
+Coupons	NN	O	B-Material
+were	NN	O	O
+polished	NN	O	B-Process
+for	NN	O	O
+15min	NN	O	O
+using	NN	O	O
+each	NN	O	O
+diamond	NN	O	B-Process
+suspension	NN	O	I-Process
+followed	NN	O	O
+by	NN	O	O
+rinsing	NN	O	O
+with	NN	O	O
+2-propanol	NN	O	B-Material
+(	NN	O	O
+99.5	NN	O	O
+%	NN	O	O
+,	NN	O	O
+reagent	NN	O	O
+grade	NN	O	O
+)	NN	O	O
+and	NN	O	O
+cleaning	NN	O	O
+in	NN	O	O
+2-propanol	NN	O	B-Material
+for	NN	O	O
+5min	NN	O	O
+in	NN	O	O
+an	NN	O	O
+ultrasonic	NN	O	B-Material
+bath	NN	O	I-Material
+.	NN	O	O
+After	NN	O	O
+polishing	NN	O	B-Process
+with	NN	O	O
+the	NN	O	O
+1μm	NN	O	O
+diamond	NN	O	B-Material
+suspension	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+coupons	NN	O	B-Material
+were	NN	O	O
+ultrasonically	NN	O	O
+cleaned	NN	O	O
+in	NN	O	O
+2-propanol	NN	O	B-Material
+for	NN	O	O
+3×5min	NN	O	O
+,	NN	O	O
+with	NN	O	O
+fresh	NN	O	O
+propanol	NN	O	B-Material
+for	NN	O	O
+each	NN	O	O
+cleaning	NN	O	B-Process
+cycle	NN	O	O
+.	NN	O	O
+Polished	NN	O	O
+coupons	NN	O	B-Material
+were	NN	O	O
+stored	NN	O	O
+in	NN	O	O
+2-propanol	NN	O	B-Material
+until	NN	O	O
+required	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0010938X1500195X)
+
+Poor	NN	O	O
+oxidation	NN	O	B-Process
+behavior	NN	O	O
+is	NN	O	O
+the	NN	O	O
+major	NN	O	O
+barrier	NN	O	O
+to	NN	O	O
+the	NN	O	O
+increased	NN	O	O
+use	NN	O	O
+of	NN	O	O
+Ti	NN	O	B-Material
+-	NN	O	I-Material
+based	NN	O	I-Material
+alloys	NN	O	I-Material
+in	NN	O	O
+high	NN	O	O
+-	NN	O	O
+temperature	NN	O	O
+structural	NN	O	O
+applications	NN	O	O
+.	NN	O	O
+The	NN	O	O
+demand	NN	O	O
+to	NN	O	O
+increase	NN	O	O
+the	NN	O	O
+service	NN	O	O
+temperature	NN	O	O
+of	NN	O	O
+these	NN	O	O
+alloys	NN	O	B-Material
+beyond	NN	O	O
+550	NN	O	O
+°	NN	O	O
+C	NN	O	O
+(	NN	O	O
+the	NN	O	O
+typical	NN	O	O
+temperature	NN	O	O
+limit	NN	O	O
+)	NN	O	O
+requires	NN	O	O
+careful	NN	O	O
+study	NN	O	O
+to	NN	O	O
+understand	NN	O	B-Task
+the	NN	O	I-Task
+role	NN	O	I-Task
+that	NN	O	I-Task
+composition	NN	O	I-Task
+has	NN	O	I-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+oxidation	NN	O	I-Task
+behavior	NN	O	I-Task
+of	NN	O	I-Task
+Ti	NN	O	I-Task
+-	NN	O	I-Task
+based	NN	O	I-Task
+alloys	NN	O	I-Task
+[	NN	O	O
+1–3	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+attempt	NN	O	O
+to	NN	O	O
+overcome	NN	O	O
+this	NN	O	O
+limitation	NN	O	O
+in	NN	O	O
+Ti	NN	O	B-Material
+-	NN	O	I-Material
+based	NN	O	I-Material
+alloys	NN	O	I-Material
+has	NN	O	O
+led	NN	O	O
+to	NN	O	O
+the	NN	O	O
+production	NN	O	O
+of	NN	O	O
+alloys	NN	O	B-Material
+with	NN	O	I-Material
+substantially	NN	O	I-Material
+improved	NN	O	I-Material
+oxidation	NN	O	I-Material
+resistance	NN	O	I-Material
+such	NN	O	O
+as	NN	O	O
+β-21S	NN	O	B-Material
+and	NN	O	O
+also	NN	O	O
+development	NN	O	B-Task
+of	NN	O	I-Task
+coatings	NN	O	I-Task
+and	NN	O	I-Task
+pre	NN	O	I-Task
+-	NN	O	I-Task
+oxidation	NN	O	I-Task
+techniques	NN	O	I-Task
+[	NN	O	O
+1,4–6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+While	NN	O	O
+it	NN	O	O
+is	NN	O	O
+tempting	NN	O	O
+to	NN	O	O
+extrapolate	NN	O	O
+the	NN	O	O
+oxidation	NN	O	B-Process
+behavior	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+oxidation	NN	O	O
+rate	NN	O	O
+law	NN	O	O
+,	NN	O	O
+depth	NN	O	O
+of	NN	O	O
+oxygen	NN	O	B-Material
+ingress	NN	O	O
+and	NN	O	O
+scale	NN	O	O
+thickness	NN	O	O
+)	NN	O	O
+observed	NN	O	O
+for	NN	O	O
+a	NN	O	O
+limited	NN	O	O
+number	NN	O	O
+of	NN	O	O
+compositions	NN	O	O
+under	NN	O	O
+a	NN	O	O
+certain	NN	O	O
+oxidation	NN	O	B-Process
+condition	NN	O	O
+to	NN	O	O
+a	NN	O	O
+broader	NN	O	O
+compositional	NN	O	O
+range	NN	O	O
+,	NN	O	O
+there	NN	O	O
+are	NN	O	O
+numerous	NN	O	O
+examples	NN	O	O
+in	NN	O	O
+the	NN	O	O
+literature	NN	O	O
+where	NN	O	O
+deviations	NN	O	O
+from	NN	O	O
+the	NN	O	O
+expected	NN	O	O
+relations	NN	O	O
+are	NN	O	O
+observed	NN	O	O
+[	NN	O	O
+7,8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0010938X15002085)
+
+The	NN	O	O
+oxide	NN	O	B-Process
+thickness	NN	O	O
+is	NN	O	O
+calculated	NN	O	O
+using	NN	O	O
+the	NN	O	O
+weight	NN	O	O
+gain	NN	O	O
+and	NN	O	O
+surface	NN	O	O
+area	NN	O	O
+.	NN	O	O
+Artificially	NN	O	O
+changing	NN	O	O
+the	NN	O	O
+surface	NN	O	B-Material
+profile	NN	O	O
+will	NN	O	O
+modify	NN	O	O
+the	NN	O	O
+surface	NN	O	B-Material
+area	NN	O	I-Material
+and	NN	O	O
+calculated	NN	O	O
+oxide	NN	O	B-Material
+thickness	NN	O	O
+.	NN	O	O
+SEM	NN	O	B-Material
+images	NN	O	I-Material
+of	NN	O	O
+samples	NN	O	O
+removed	NN	O	O
+after	NN	O	O
+111	NN	O	O
+days	NN	O	O
+oxidation	NN	O	B-Process
+were	NN	O	O
+used	NN	O	O
+to	NN	O	O
+define	NN	O	O
+the	NN	O	O
+change	NN	O	O
+in	NN	O	O
+surface	NN	O	B-Material
+profile	NN	O	I-Material
+length	NN	O	O
+with	NN	O	O
+variation	NN	O	O
+in	NN	O	O
+applied	NN	O	O
+roughness	NN	O	O
+.	NN	O	O
+The	NN	O	O
+profile	NN	O	B-Material
+lengths	NN	O	O
+extracted	NN	O	O
+from	NN	O	O
+the	NN	O	O
+images	NN	O	B-Material
+were	NN	O	O
+then	NN	O	O
+used	NN	O	O
+to	NN	O	O
+modify	NN	O	O
+the	NN	O	O
+length	NN	O	O
+of	NN	O	O
+the	NN	O	O
+sample	NN	O	B-Material
+and	NN	O	O
+therefore	NN	O	O
+the	NN	O	O
+surface	NN	O	B-Material
+area	NN	O	I-Material
+.	NN	O	O
+Table	NN	O	O
+1	NN	O	O
+shows	NN	O	O
+the	NN	O	O
+original	NN	O	O
+oxide	NN	O	B-Material
+thicknesses	NN	O	O
+after	NN	O	O
+111	NN	O	O
+days	NN	O	O
+oxidation	NN	O	O
+,	NN	O	O
+the	NN	O	O
+modified	NN	O	O
+oxide	NN	O	B-Material
+thicknesses	NN	O	O
+based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+profile	NN	O	O
+length	NN	O	O
+and	NN	O	O
+the	NN	O	O
+percentage	NN	O	O
+difference	NN	O	O
+.	NN	O	O
+Results	NN	O	O
+show	NN	O	O
+a	NN	O	O
+maximum	NN	O	O
+decrease	NN	O	O
+in	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Material
+thickness	NN	O	O
+of	NN	O	O
+4	NN	O	O
+%	NN	O	O
+when	NN	O	O
+using	NN	O	O
+a	NN	O	O
+surface	NN	O	B-Material
+which	NN	O	O
+accounts	NN	O	O
+for	NN	O	O
+roughness	NN	O	O
+.	NN	O	O
+Comparing	NN	O	O
+the	NN	O	O
+change	NN	O	O
+in	NN	O	O
+oxide	NN	O	B-Material
+thickness	NN	O	O
+between	NN	O	O
+different	NN	O	O
+surface	NN	O	B-Material
+finishes	NN	O	O
+indicates	NN	O	O
+a	NN	O	O
+variation	NN	O	O
+of	NN	O	O
+less	NN	O	O
+than	NN	O	O
+1	NN	O	O
+%	NN	O	O
+.	NN	O	O
+As	NN	O	O
+such	NN	O	O
+,	NN	O	O
+the	NN	O	O
+impact	NN	O	O
+of	NN	O	O
+the	NN	O	O
+variation	NN	O	O
+in	NN	O	O
+the	NN	O	O
+profile	NN	O	O
+length	NN	O	O
+on	NN	O	O
+the	NN	O	O
+calculated	NN	O	O
+oxide	NN	O	B-Material
+thickness	NN	O	O
+is	NN	O	O
+considered	NN	O	O
+to	NN	O	O
+be	NN	O	O
+insignificant	NN	O	O
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+if	NN	O	O
+the	NN	O	O
+differences	NN	O	O
+in	NN	O	O
+weight	NN	O	O
+gain	NN	O	O
+were	NN	O	O
+only	NN	O	O
+due	NN	O	O
+to	NN	O	O
+differences	NN	O	O
+in	NN	O	O
+surface	NN	O	B-Material
+area	NN	O	I-Material
+,	NN	O	O
+rougher	NN	O	O
+samples	NN	O	B-Material
+would	NN	O	O
+be	NN	O	O
+expected	NN	O	O
+to	NN	O	O
+demonstrate	NN	O	O
+thicker	NN	O	O
+oxides	NN	O	B-Material
+at	NN	O	O
+the	NN	O	O
+earliest	NN	O	O
+stages	NN	O	O
+of	NN	O	O
+oxidation	NN	O	B-Process
+.	NN	O	O
+
+-DOCSTART- (S0010938X15002954)
+
+There	NN	O	O
+have	NN	O	O
+been	NN	O	O
+relatively	NN	O	O
+few	NN	O	O
+attempts	NN	O	O
+to	NN	O	O
+observe	NN	O	O
+and	NN	O	O
+in	NN	O	O
+some	NN	O	O
+cases	NN	O	O
+extract	NN	O	O
+the	NN	O	O
+average	NN	O	O
+current	NN	O	O
+density	NN	O	O
+from	NN	O	O
+video	NN	O	B-Material
+images	NN	O	I-Material
+taken	NN	O	O
+of	NN	O	O
+growing	NN	O	O
+2D	NN	O	B-Material
+pits	NN	O	I-Material
+.	NN	O	O
+Frankel	NN	O	O
+presented	NN	O	O
+a	NN	O	O
+method	NN	O	O
+to	NN	O	O
+directly	NN	O	O
+measure	NN	O	O
+the	NN	O	O
+average	NN	O	O
+anodic	NN	O	B-Material
+current	NN	O	I-Material
+density	NN	O	O
+from	NN	O	O
+the	NN	O	O
+growing	NN	O	O
+pit	NN	O	B-Material
+boundary	NN	O	O
+velocity	NN	O	O
+in	NN	O	O
+Al	NN	O	B-Material
+[	NN	O	O
+33	NN	O	O
+]	NN	O	O
+,	NN	O	O
+an	NN	O	O
+Al	NN	O	B-Material
+alloy	NN	O	I-Material
+[	NN	O	O
+34	NN	O	O
+]	NN	O	O
+and	NN	O	O
+Ni	NN	O	B-Material
+–	NN	O	I-Material
+Fe	NN	O	I-Material
+[	NN	O	I-Material
+35	NN	O	I-Material
+]	NN	O	I-Material
+thin	NN	O	I-Material
+films	NN	O	I-Material
+.	NN	O	O
+Subsequently	NN	O	O
+,	NN	O	O
+Ryan	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+27,36	NN	O	O
+]	NN	O	O
+determined	NN	O	O
+the	NN	O	O
+anodic	NN	O	O
+current	NN	O	O
+density	NN	O	O
+in	NN	O	O
+pits	NN	O	B-Material
+propagating	NN	O	O
+as	NN	O	O
+2D	NN	O	B-Material
+disks	NN	O	I-Material
+in	NN	O	O
+stainless	NN	O	B-Material
+steel	NN	O	I-Material
+thin	NN	O	I-Material
+films	NN	O	I-Material
+by	NN	O	O
+measuring	NN	O	O
+the	NN	O	O
+pit	NN	O	B-Material
+edge	NN	O	I-Material
+movement	NN	O	O
+velocity	NN	O	O
+.	NN	O	O
+Ernst	NN	O	O
+and	NN	O	O
+Newman	NN	O	O
+[	NN	O	O
+11,12,37	NN	O	O
+]	NN	O	O
+studied	NN	O	O
+stability	NN	O	O
+of	NN	O	O
+pit	NN	O	B-Process
+growth	NN	O	I-Process
+in	NN	O	O
+detail	NN	O	O
+and	NN	O	O
+measured	NN	O	B-Process
+the	NN	O	I-Process
+kinetics	NN	O	I-Process
+of	NN	O	I-Process
+2D	NN	O	I-Process
+pit	NN	O	I-Process
+propagation	NN	O	I-Process
+in	NN	O	O
+depth	NN	O	O
+and	NN	O	O
+width	NN	O	O
+and	NN	O	O
+compared	NN	O	O
+the	NN	O	O
+results	NN	O	O
+with	NN	O	O
+kinetics	NN	O	O
+in	NN	O	O
+1D	NN	O	B-Material
+pencil	NN	O	I-Material
+electrodes	NN	O	I-Material
+.	NN	O	O
+They	NN	O	O
+developed	NN	O	O
+a	NN	O	O
+semi	NN	O	B-Process
+-	NN	O	I-Process
+quantitative	NN	O	I-Process
+model	NN	O	I-Process
+for	NN	O	O
+pit	NN	O	B-Task
+propagation	NN	O	I-Task
+which	NN	O	O
+explained	NN	O	O
+the	NN	O	O
+lacy	NN	O	B-Process
+pit	NN	O	I-Process
+cover	NN	O	I-Process
+formation	NN	O	I-Process
+during	NN	O	O
+the	NN	O	O
+pit	NN	O	B-Process
+growth	NN	O	I-Process
+,	NN	O	O
+although	NN	O	O
+they	NN	O	O
+did	NN	O	O
+not	NN	O	O
+measure	NN	O	O
+current	NN	O	O
+density	NN	O	O
+within	NN	O	O
+the	NN	O	O
+pit	NN	O	B-Material
+.	NN	O	O
+More	NN	O	O
+recently	NN	O	O
+,	NN	O	O
+Tang	NN	O	O
+and	NN	O	O
+Davenport	NN	O	O
+[	NN	O	O
+38	NN	O	O
+]	NN	O	O
+tracked	NN	O	O
+the	NN	O	O
+pit	NN	O	B-Material
+boundary	NN	O	O
+movement	NN	O	O
+and	NN	O	O
+computed	NN	O	O
+the	NN	O	O
+instantaneous	NN	O	O
+but	NN	O	O
+average	NN	O	O
+current	NN	O	O
+density	NN	O	O
+in	NN	O	O
+Fe	NN	O	B-Material
+-	NN	O	I-Material
+Co	NN	O	I-Material
+thin	NN	O	I-Material
+films	NN	O	I-Material
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+there	NN	O	O
+have	NN	O	O
+been	NN	O	O
+no	NN	O	O
+previous	NN	O	O
+attempts	NN	O	O
+to	NN	O	O
+quantify	NN	O	O
+the	NN	O	O
+local	NN	O	O
+current	NN	O	O
+density	NN	O	O
+during	NN	O	O
+inhomogeneous	NN	O	O
+growth	NN	O	O
+of	NN	O	O
+pits	NN	O	B-Material
+,	NN	O	O
+although	NN	O	O
+such	NN	O	O
+local	NN	O	O
+variation	NN	O	O
+in	NN	O	O
+current	NN	O	B-Process
+density	NN	O	O
+has	NN	O	O
+long	NN	O	O
+been	NN	O	O
+recognised	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0010938X15300512)
+
+Anodizing	NN	O	B-Process
+processes	NN	O	I-Process
+are	NN	O	O
+widely	NN	O	O
+used	NN	O	O
+for	NN	O	O
+protecting	NN	O	B-Task
+aluminium	NN	O	I-Task
+alloys	NN	O	I-Task
+against	NN	O	O
+corrosion	NN	O	B-Process
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+resultant	NN	O	B-Material
+films	NN	O	I-Material
+are	NN	O	O
+composed	NN	O	O
+of	NN	O	O
+amorphous	NN	O	B-Material
+alumina	NN	O	I-Material
+and	NN	O	O
+consist	NN	O	O
+of	NN	O	O
+a	NN	O	O
+relatively	NN	O	O
+thick	NN	O	O
+,	NN	O	O
+porous	NN	O	O
+,	NN	O	O
+outer	NN	O	O
+region	NN	O	O
+and	NN	O	O
+a	NN	O	O
+thinner	NN	O	O
+,	NN	O	O
+non	NN	O	O
+-	NN	O	O
+porous	NN	O	O
+,	NN	O	O
+inner	NN	O	O
+region	NN	O	O
+[	NN	O	O
+2,3	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+porous	NN	O	O
+region	NN	O	O
+contains	NN	O	O
+the	NN	O	O
+major	NN	O	B-Material
+pores	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
+,	NN	O	O
+which	NN	O	O
+extend	NN	O	B-Process
+from	NN	O	I-Process
+the	NN	O	I-Process
+film	NN	O	I-Process
+surface	NN	O	I-Process
+to	NN	O	O
+the	NN	O	O
+barrier	NN	O	B-Material
+layer	NN	O	I-Material
+.	NN	O	O
+Near	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
+surface	NN	O	I-Material
+,	NN	O	O
+shorter	NN	O	O
+,	NN	O	O
+incipient	NN	O	B-Material
+pores	NN	O	I-Material
+are	NN	O	O
+also	NN	O	O
+present	NN	O	O
+,	NN	O	O
+whose	NN	O	O
+growth	NN	O	B-Process
+stopped	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+early	NN	O	I-Process
+stages	NN	O	I-Process
+of	NN	O	I-Process
+anodizing	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+diameter	NN	O	O
+of	NN	O	O
+the	NN	O	O
+major	NN	O	B-Material
+pores	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+thickness	NN	O	O
+of	NN	O	O
+the	NN	O	O
+inner	NN	O	O
+,	NN	O	O
+barrier	NN	O	O
+region	NN	O	O
+are	NN	O	O
+dependent	NN	O	O
+on	NN	O	O
+the	NN	O	O
+potential	NN	O	O
+applied	NN	O	O
+during	NN	O	O
+anodizing	NN	O	B-Process
+,	NN	O	O
+with	NN	O	O
+typical	NN	O	O
+proportionalities	NN	O	O
+of	NN	O	O
+∼1nmV−1	NN	O	O
+[	NN	O	O
+3,4	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Studies	NN	O	O
+of	NN	O	O
+ionic	NN	O	B-Task
+migration	NN	O	I-Task
+in	NN	O	O
+barrier	NN	O	O
+-	NN	O	O
+type	NN	O	O
+and	NN	O	O
+porous	NN	O	O
+anodic	NN	O	B-Material
+alumina	NN	O	I-Material
+films	NN	O	I-Material
+have	NN	O	O
+usually	NN	O	O
+found	NN	O	O
+a	NN	O	O
+transport	NN	O	O
+number	NN	O	O
+of	NN	O	O
+O2−	NN	O	B-Material
+ions	NN	O	I-Material
+of	NN	O	O
+∼0.6	NN	O	O
+[	NN	O	O
+5,6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+During	NN	O	O
+the	NN	O	O
+formation	NN	O	O
+of	NN	O	O
+porous	NN	O	B-Material
+films	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+outward	NN	O	B-Material
+migrating	NN	O	I-Material
+Al3	NN	O	I-Material
++	NN	O	I-Material
+ions	NN	O	I-Material
+,	NN	O	O
+constituting	NN	O	O
+the	NN	O	O
+remainder	NN	O	O
+of	NN	O	O
+the	NN	O	O
+ionic	NN	O	B-Material
+current	NN	O	I-Material
+,	NN	O	O
+are	NN	O	O
+ejected	NN	O	B-Process
+to	NN	O	O
+the	NN	O	O
+electrolyte	NN	O	B-Material
+at	NN	O	O
+the	NN	O	O
+pore	NN	O	B-Material
+bases	NN	O	I-Material
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+electronic	NN	O	O
+current	NN	O	O
+in	NN	O	O
+the	NN	O	O
+barrier	NN	O	O
+region	NN	O	O
+is	NN	O	O
+generally	NN	O	O
+considered	NN	O	O
+to	NN	O	O
+be	NN	O	O
+negligible	NN	O	O
+.	NN	O	O
+The	NN	O	O
+thickness	NN	O	O
+of	NN	O	O
+the	NN	O	O
+barrier	NN	O	B-Material
+region	NN	O	I-Material
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+relatively	NN	O	O
+constant	NN	O	O
+during	NN	O	O
+the	NN	O	O
+growth	NN	O	O
+of	NN	O	O
+a	NN	O	O
+film	NN	O	B-Material
+under	NN	O	O
+either	NN	O	O
+a	NN	O	O
+constant	NN	O	O
+potential	NN	O	O
+or	NN	O	O
+constant	NN	O	O
+current	NN	O	O
+density	NN	O	O
+,	NN	O	O
+is	NN	O	O
+maintained	NN	O	O
+by	NN	O	O
+a	NN	O	O
+balance	NN	O	O
+between	NN	O	O
+growth	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+barrier	NN	O	I-Process
+layer	NN	O	I-Process
+by	NN	O	I-Process
+continued	NN	O	I-Process
+oxidation	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+aluminium	NN	O	B-Material
+substrate	NN	O	I-Material
+and	NN	O	O
+thinning	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+barrier	NN	O	I-Process
+layer	NN	O	I-Process
+by	NN	O	I-Process
+either	NN	O	I-Process
+field	NN	O	I-Process
+-	NN	O	I-Process
+assisted	NN	O	I-Process
+dissolution	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+alumina	NN	O	B-Material
+at	NN	O	O
+the	NN	O	O
+pore	NN	O	B-Material
+bases	NN	O	I-Material
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+or	NN	O	O
+field	NN	O	B-Process
+-	NN	O	I-Process
+assisted	NN	O	I-Process
+flow	NN	O	I-Process
+of	NN	O	I-Process
+alumina	NN	O	I-Process
+from	NN	O	O
+the	NN	O	O
+barrier	NN	O	B-Material
+layer	NN	O	I-Material
+to	NN	O	O
+the	NN	O	O
+pore	NN	O	B-Material
+walls	NN	O	I-Material
+[	NN	O	O
+9–13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+pores	NN	O	B-Material
+may	NN	O	O
+be	NN	O	O
+widened	NN	O	O
+toward	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
+surface	NN	O	I-Material
+by	NN	O	O
+chemical	NN	O	B-Process
+dissolution	NN	O	I-Process
+to	NN	O	O
+an	NN	O	O
+extent	NN	O	O
+dependent	NN	O	O
+on	NN	O	O
+the	NN	O	O
+anodizing	NN	O	O
+conditions	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0010938X15301189)
+
+Failure	NN	O	B-Process
+of	NN	O	I-Process
+structural	NN	O	I-Process
+components	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+major	NN	O	O
+concern	NN	O	O
+in	NN	O	O
+the	NN	O	O
+nuclear	NN	O	O
+power	NN	O	O
+industry	NN	O	O
+and	NN	O	O
+represents	NN	O	O
+not	NN	O	O
+only	NN	O	O
+a	NN	O	O
+safety	NN	O	O
+issue	NN	O	O
+,	NN	O	O
+but	NN	O	O
+also	NN	O	O
+a	NN	O	O
+hazard	NN	O	O
+to	NN	O	O
+economic	NN	O	O
+performance	NN	O	O
+.	NN	O	O
+Stress	NN	O	B-Process
+corrosion	NN	O	I-Process
+cracking	NN	O	I-Process
+(	NN	O	O
+SCC	NN	O	B-Process
+)	NN	O	O
+,	NN	O	O
+and	NN	O	O
+especially	NN	O	O
+intergranular	NN	O	B-Process
+stress	NN	O	I-Process
+corrosion	NN	O	I-Process
+cracking	NN	O	I-Process
+(	NN	O	O
+IGSCC	NN	O	B-Process
+)	NN	O	O
+,	NN	O	O
+have	NN	O	O
+proved	NN	O	O
+to	NN	O	O
+be	NN	O	O
+a	NN	O	O
+significant	NN	O	O
+potential	NN	O	O
+cause	NN	O	O
+of	NN	O	O
+failures	NN	O	O
+in	NN	O	O
+the	NN	O	O
+nuclear	NN	O	O
+industry	NN	O	O
+in	NN	O	O
+materials	NN	O	O
+such	NN	O	O
+as	NN	O	O
+Alloy	NN	O	B-Material
+600	NN	O	I-Material
+(	NN	O	O
+74	NN	O	B-Material
+%	NN	O	I-Material
+Ni	NN	O	I-Material
+,	NN	O	I-Material
+16	NN	O	I-Material
+%	NN	O	I-Material
+Cr	NN	O	I-Material
+and	NN	O	I-Material
+8	NN	O	I-Material
+%	NN	O	I-Material
+Fe	NN	O	I-Material
+)	NN	O	O
+and	NN	O	O
+stainless	NN	O	B-Material
+steels	NN	O	I-Material
+,	NN	O	O
+especially	NN	O	O
+in	NN	O	O
+Pressurised	NN	O	B-Material
+Water	NN	O	I-Material
+Reactors	NN	O	I-Material
+(	NN	O	O
+PWR	NN	O	B-Material
+)	NN	O	O
+[	NN	O	O
+1–5	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Stress	NN	O	B-Process
+corrosion	NN	O	I-Process
+cracking	NN	O	I-Process
+in	NN	O	O
+pressurized	NN	O	B-Material
+water	NN	O	I-Material
+reactors	NN	O	I-Material
+(	NN	O	O
+PWSCC	NN	O	B-Material
+)	NN	O	O
+occurs	NN	O	O
+in	NN	O	O
+Alloy	NN	O	B-Material
+600	NN	O	I-Material
+in	NN	O	O
+safety	NN	O	B-Material
+critical	NN	O	I-Material
+components	NN	O	I-Material
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+steam	NN	O	B-Material
+generator	NN	O	I-Material
+tubes	NN	O	I-Material
+,	NN	O	O
+heater	NN	O	B-Material
+sleeves	NN	O	I-Material
+,	NN	O	O
+pressurized	NN	O	B-Material
+instrument	NN	O	I-Material
+penetrations	NN	O	I-Material
+and	NN	O	O
+control	NN	O	B-Material
+rod	NN	O	I-Material
+drive	NN	O	I-Material
+mechanisms	NN	O	I-Material
+[	NN	O	O
+2,6,7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Understanding	NN	O	O
+the	NN	O	O
+mechanisms	NN	O	O
+that	NN	O	O
+control	NN	O	O
+SCC	NN	O	B-Material
+in	NN	O	O
+this	NN	O	O
+alloy	NN	O	B-Material
+will	NN	O	O
+allow	NN	O	O
+for	NN	O	O
+continued	NN	O	O
+extensions	NN	O	O
+of	NN	O	O
+life	NN	O	O
+in	NN	O	O
+current	NN	O	O
+plant	NN	O	B-Material
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+safer	NN	O	B-Task
+designs	NN	O	I-Task
+of	NN	O	I-Task
+future	NN	O	I-Task
+nuclear	NN	O	I-Task
+reactors	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0010938X1530161X)
+
+A	NN	O	O
+key	NN	O	O
+part	NN	O	O
+of	NN	O	O
+this	NN	O	O
+problem	NN	O	O
+is	NN	O	O
+that	NN	O	O
+an	NN	O	O
+inspector	NN	O	O
+only	NN	O	O
+has	NN	O	O
+access	NN	O	O
+to	NN	O	O
+data	NN	O	O
+from	NN	O	O
+a	NN	O	O
+small	NN	O	O
+inspected	NN	O	O
+area	NN	O	O
+.	NN	O	O
+In	NN	O	O
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+,	NN	O	O
+there	NN	O	O
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+,	NN	O	O
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+enough	NN	O	O
+information	NN	O	O
+to	NN	O	O
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+.	NN	O	O
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+.	NN	O	O
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+,	NN	O	O
+one	NN	O	O
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+build	NN	O	O
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+.	NN	O	O
+Extreme	NN	O	B-Process
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+(	NN	O	O
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+)	NN	O	O
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+a	NN	O	O
+limiting	NN	O	O
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+this	NN	O	O
+model	NN	O	O
+.	NN	O	O
+It	NN	O	O
+states	NN	O	O
+that	NN	O	O
+,	NN	O	O
+if	NN	O	O
+the	NN	O	O
+underlying	NN	O	O
+thickness	NN	O	O
+measurements	NN	O	O
+in	NN	O	O
+each	NN	O	O
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+taken	NN	O	O
+from	NN	O	O
+independent	NN	O	O
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+,	NN	O	O
+then	NN	O	O
+the	NN	O	O
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+minimum	NN	O	O
+thickness	NN	O	O
+measurements	NN	O	O
+will	NN	O	O
+follow	NN	O	O
+a	NN	O	O
+generalized	NN	O	B-Process
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+value	NN	O	I-Process
+distribution	NN	O	I-Process
+(	NN	O	O
+GEVD	NN	O	B-Process
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021961413004321)
+
+The	NN	O	O
+thermodynamics	NN	O	B-Task
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+copper	NN	O	I-Task
+-	NN	O	I-Task
+zinc	NN	O	I-Task
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+(	NN	O	I-Task
+brass	NN	O	I-Task
+)	NN	O	I-Task
+was	NN	O	O
+subject	NN	O	O
+of	NN	O	O
+numerous	NN	O	O
+investigations	NN	O	O
+.	NN	O	O
+Brass	NN	O	B-Material
+is	NN	O	O
+characterised	NN	O	O
+by	NN	O	O
+an	NN	O	O
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+enthalpy	NN	O	I-Process
+and	NN	O	I-Process
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+entropy	NN	O	I-Process
+of	NN	O	I-Process
+mixing	NN	O	I-Process
+,	NN	O	O
+both	NN	O	O
+of	NN	O	O
+which	NN	O	O
+are	NN	O	O
+negative	NN	O	O
+.	NN	O	O
+The	NN	O	O
+enthalpic	NN	O	B-Material
+data	NN	O	I-Material
+were	NN	O	O
+measured	NN	O	O
+by	NN	O	O
+solution	NN	O	B-Process
+calorimetry	NN	O	I-Process
+e.g.	NN	O	O
+,	NN	O	O
+[	NN	O	O
+1–3	NN	O	O
+]	NN	O	O
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+on	NN	O	O
+chemical	NN	O	B-Material
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+from	NN	O	O
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+e.g.	NN	O	O
+,	NN	O	O
+[	NN	O	O
+4–6	NN	O	O
+]	NN	O	O
+,	NN	O	O
+the	NN	O	O
+excess	NN	O	B-Task
+entropy	NN	O	I-Task
+of	NN	O	I-Task
+mixing	NN	O	I-Task
+could	NN	O	O
+be	NN	O	O
+evaluated	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+[	NN	O	O
+7–9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
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+entropy	NN	O	O
+contains	NN	O	O
+both	NN	O	O
+,	NN	O	O
+the	NN	O	O
+vibrational	NN	O	B-Task
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+the	NN	O	I-Task
+configurational	NN	O	I-Task
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+.	NN	O	O
+The	NN	O	O
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+vibrational	NN	O	O
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+,	NN	O	O
+defined	NN	O	O
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+the	NN	O	O
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+mixture	NN	O	O
+of	NN	O	O
+the	NN	O	O
+end	NN	O	O
+members	NN	O	O
+A	NN	O	O
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+(	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+Smmechmix	NN	O	B-Material
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+)	NN	O	O
+,	NN	O	O
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+(	NN	O	I-Process
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+to	NN	O	I-Process
+300	NN	O	I-Process
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+)	NN	O	I-Process
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+.	NN	O	O
+The	NN	O	O
+determination	NN	O	O
+of	NN	O	O
+the	NN	O	O
+excess	NN	O	B-Task
+configurational	NN	O	I-Task
+entropy	NN	O	I-Task
+,	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+the	NN	O	O
+excess	NN	O	O
+entropy	NN	O	O
+coming	NN	O	O
+from	NN	O	O
+non	NN	O	O
+-	NN	O	O
+random	NN	O	O
+atomic	NN	O	O
+distributions	NN	O	O
+and	NN	O	O
+defects	NN	O	O
+,	NN	O	O
+is	NN	O	O
+much	NN	O	O
+more	NN	O	O
+difficult	NN	O	O
+.	NN	O	O
+Here	NN	O	O
+,	NN	O	O
+neutron	NN	O	B-Process
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+investigations	NN	O	I-Process
+together	NN	O	O
+with	NN	O	O
+computer	NN	O	B-Process
+simulations	NN	O	I-Process
+are	NN	O	O
+normally	NN	O	O
+used	NN	O	O
+.	NN	O	O
+If	NN	O	O
+,	NN	O	O
+however	NN	O	O
+,	NN	O	O
+reliable	NN	O	B-Material
+data	NN	O	I-Material
+of	NN	O	I-Material
+the	NN	O	I-Material
+total	NN	O	I-Material
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+entropy	NN	O	I-Material
+(	NN	O	O
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+chemical	NN	O	I-Material
+potential	NN	O	I-Material
+data	NN	O	I-Material
+)	NN	O	O
+are	NN	O	O
+available	NN	O	O
+,	NN	O	O
+the	NN	O	O
+measurement	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+excess	NN	O	I-Process
+vibrational	NN	O	I-Process
+entropy	NN	O	I-Process
+enables	NN	O	O
+the	NN	O	O
+determination	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+excess	NN	O	I-Process
+configurational	NN	O	I-Process
+entropy	NN	O	I-Process
+simply	NN	O	O
+by	NN	O	O
+subtraction	NN	O	B-Process
+.	NN	O	O
+Since	NN	O	O
+configurational	NN	O	O
+and	NN	O	O
+vibrational	NN	O	O
+entropies	NN	O	O
+may	NN	O	O
+have	NN	O	O
+different	NN	O	O
+temperature	NN	O	O
+dependencies	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+worthwhile	NN	O	O
+to	NN	O	O
+separate	NN	O	B-Task
+the	NN	O	I-Task
+entropic	NN	O	I-Task
+effects	NN	O	I-Task
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+one	NN	O	O
+aim	NN	O	O
+of	NN	O	O
+this	NN	O	O
+study	NN	O	O
+.	NN	O	O
+Another	NN	O	O
+aim	NN	O	O
+is	NN	O	O
+to	NN	O	O
+deliver	NN	O	B-Task
+experimental	NN	O	I-Task
+data	NN	O	I-Task
+so	NN	O	O
+that	NN	O	O
+first	NN	O	O
+principles	NN	O	O
+studies	NN	O	O
+can	NN	O	O
+test	NN	O	O
+their	NN	O	O
+models	NN	O	O
+on	NN	O	O
+a	NN	O	O
+disordered	NN	O	B-Material
+alloy	NN	O	I-Material
+,	NN	O	O
+whose	NN	O	O
+structural	NN	O	O
+details	NN	O	O
+(	NN	O	O
+short	NN	O	O
+-	NN	O	O
+range	NN	O	O
+order	NN	O	O
+)	NN	O	O
+depend	NN	O	O
+on	NN	O	O
+temperature	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999113002362)
+
+The	NN	O	O
+algorithm	NN	O	O
+allows	NN	O	O
+the	NN	O	O
+modelling	NN	O	B-Task
+of	NN	O	I-Task
+plasmas	NN	O	I-Task
+of	NN	O	I-Task
+arbitrary	NN	O	I-Task
+degeneracy	NN	O	I-Task
+under	NN	O	O
+the	NN	O	O
+binary	NN	O	B-Process
+collision	NN	O	I-Process
+approximation	NN	O	I-Process
+.	NN	O	O
+It	NN	O	O
+uses	NN	O	O
+a	NN	O	O
+numerical	NN	O	B-Process
+interpolation	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+inverse	NN	O	O
+cumulative	NN	O	O
+density	NN	O	O
+function	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Fermi	NN	O	B-Process
+–	NN	O	I-Process
+Dirac	NN	O	I-Process
+distribution	NN	O	I-Process
+to	NN	O	O
+initialise	NN	O	O
+simulation	NN	O	B-Material
+particles	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+collisions	NN	O	B-Process
+are	NN	O	O
+subject	NN	O	O
+to	NN	O	O
+Pauli	NN	O	B-Process
+blocking	NN	O	I-Process
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+not	NN	O	O
+appropriate	NN	O	O
+in	NN	O	O
+the	NN	O	O
+limit	NN	O	O
+of	NN	O	O
+very	NN	O	O
+strong	NN	O	O
+coupling	NN	O	B-Process
+because	NN	O	O
+the	NN	O	O
+plasma	NN	O	B-Task
+theory	NN	O	I-Task
+which	NN	O	O
+the	NN	O	O
+Monte	NN	O	B-Process
+Carlo	NN	O	I-Process
+code	NN	O	I-Process
+is	NN	O	O
+based	NN	O	O
+on	NN	O	O
+breaks	NN	O	O
+down	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+coupling	NN	O	I-Task
+limit	NN	O	I-Task
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+to	NN	O	O
+lnΛ≲3	NN	O	O
+,	NN	O	O
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+lnΛ	NN	O	O
+the	NN	O	O
+Coulomb	NN	O	B-Process
+logarithm	NN	O	I-Process
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+code	NN	O	O
+is	NN	O	O
+designed	NN	O	O
+for	NN	O	O
+lnΛ>3	NN	O	O
+in	NN	O	O
+collisional	NN	O	B-Material
+plasmas	NN	O	I-Material
+with	NN	O	O
+a	NN	O	O
+non	NN	O	O
+-	NN	O	O
+negligible	NN	O	O
+level	NN	O	O
+of	NN	O	O
+degeneracy	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+noted	NN	O	O
+that	NN	O	O
+Monte	NN	O	B-Process
+Carlo	NN	O	I-Process
+techniques	NN	O	I-Process
+with	NN	O	O
+degenerate	NN	O	O
+capabilities	NN	O	O
+have	NN	O	O
+been	NN	O	O
+developed	NN	O	O
+for	NN	O	O
+studying	NN	O	O
+transport	NN	O	B-Task
+in	NN	O	I-Task
+semi	NN	O	I-Task
+-	NN	O	I-Task
+conductors	NN	O	I-Task
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
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+no	NN	O	O
+such	NN	O	O
+method	NN	O	O
+exists	NN	O	O
+for	NN	O	O
+fully	NN	O	B-Material
+-	NN	O	I-Material
+ionised	NN	O	I-Material
+plasmas	NN	O	I-Material
+.	NN	O	O
+Some	NN	O	O
+of	NN	O	O
+the	NN	O	O
+techniques	NN	O	O
+described	NN	O	O
+are	NN	O	O
+potentially	NN	O	O
+applicable	NN	O	O
+to	NN	O	O
+other	NN	O	O
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+of	NN	O	O
+codes	NN	O	O
+,	NN	O	O
+for	NN	O	O
+example	NN	O	O
+,	NN	O	O
+Particle	NN	O	O
+-	NN	O	O
+In	NN	O	O
+-	NN	O	O
+Cell	NN	O	O
+(	NN	O	O
+PIC	NN	O	O
+)	NN	O	O
+codes	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999113003422)
+
+Similar	NN	O	O
+numerical	NN	O	B-Process
+oscillations	NN	O	I-Process
+to	NN	O	O
+those	NN	O	O
+described	NN	O	O
+above	NN	O	O
+also	NN	O	O
+emerge	NN	O	O
+in	NN	O	O
+the	NN	O	O
+ISPM	NN	O	B-Process
+when	NN	O	O
+utilising	NN	O	O
+classical	NN	O	B-Process
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+due	NN	O	O
+to	NN	O	O
+their	NN	O	O
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+of	NN	O	O
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+(	NN	O	O
+with	NN	O	O
+discontinuous	NN	O	O
+second	NN	O	O
+derivatives	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Furthermore	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+important	NN	O	O
+to	NN	O	O
+remark	NN	O	O
+that	NN	O	O
+the	NN	O	O
+immersed	NN	O	O
+structure	NN	O	O
+stresses	NN	O	O
+are	NN	O	O
+captured	NN	O	O
+in	NN	O	O
+the	NN	O	O
+Lagrangian	NN	O	B-Process
+description	NN	O	I-Process
+and	NN	O	O
+hence	NN	O	O
+,	NN	O	O
+in	NN	O	O
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+to	NN	O	O
+compute	NN	O	O
+them	NN	O	O
+accurately	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+important	NN	O	O
+to	NN	O	O
+ensure	NN	O	O
+that	NN	O	O
+these	NN	O	O
+spurious	NN	O	O
+oscillations	NN	O	B-Material
+are	NN	O	O
+not	NN	O	O
+introduced	NN	O	O
+via	NN	O	O
+the	NN	O	O
+kernel	NN	O	B-Process
+interpolation	NN	O	I-Process
+functions	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+the	NN	O	O
+authors	NN	O	O
+have	NN	O	O
+specifically	NN	O	O
+designed	NN	O	O
+a	NN	O	O
+new	NN	O	B-Task
+family	NN	O	I-Task
+of	NN	O	I-Task
+kernel	NN	O	I-Task
+functions	NN	O	I-Task
+which	NN	O	O
+do	NN	O	B-Task
+not	NN	O	I-Task
+introduce	NN	O	I-Task
+these	NN	O	I-Task
+spurious	NN	O	I-Task
+oscillations	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
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+functions	NN	O	I-Process
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+obtained	NN	O	O
+by	NN	O	O
+taking	NN	O	O
+into	NN	O	O
+account	NN	O	O
+discrete	NN	O	O
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+conditions	NN	O	O
+as	NN	O	O
+originally	NN	O	O
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+Peskin	NN	O	O
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+(	NN	O	O
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+our	NN	O	O
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+,	NN	O	O
+tailor	NN	O	O
+-	NN	O	O
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+Cartesian	NN	O	B-Process
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+grids	NN	O	I-Process
+)	NN	O	O
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+requirements	NN	O	O
+to	NN	O	O
+prevent	NN	O	O
+the	NN	O	O
+appearance	NN	O	O
+of	NN	O	O
+spurious	NN	O	O
+oscillations	NN	O	B-Material
+when	NN	O	O
+computing	NN	O	O
+derivatives	NN	O	O
+.	NN	O	O
+A	NN	O	O
+Maple	NN	O	B-Material
+computer	NN	O	I-Material
+program	NN	O	I-Material
+has	NN	O	O
+been	NN	O	O
+developed	NN	O	O
+to	NN	O	O
+obtain	NN	O	B-Task
+explicit	NN	O	I-Task
+expressions	NN	O	I-Task
+for	NN	O	I-Task
+the	NN	O	I-Task
+new	NN	O	I-Task
+kernels	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0021999113005603)
+
+After	NN	O	O
+all	NN	O	O
+micro	NN	O	O
+elements	NN	O	O
+reach	NN	O	O
+a	NN	O	O
+relaxed	NN	O	O
+steady	NN	O	O
+-	NN	O	O
+state	NN	O	O
+,	NN	O	O
+measurements	NN	O	O
+are	NN	O	O
+obtained	NN	O	O
+using	NN	O	O
+a	NN	O	O
+cumulative	NN	O	B-Process
+averaging	NN	O	I-Process
+technique	NN	O	I-Process
+to	NN	O	O
+reduce	NN	O	B-Task
+noise	NN	O	I-Task
+.	NN	O	O
+Each	NN	O	O
+micro	NN	O	B-Material
+element	NN	O	I-Material
+is	NN	O	O
+divided	NN	O	O
+into	NN	O	O
+spatially	NN	O	B-Material
+-	NN	O	I-Material
+oriented	NN	O	I-Material
+bins	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+y	NN	O	O
+-	NN	O	O
+direction	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+resolve	NN	O	B-Task
+the	NN	O	I-Task
+velocity	NN	O	I-Task
+and	NN	O	I-Task
+shear	NN	O	I-Task
+-	NN	O	I-Task
+stress	NN	O	I-Task
+profiles	NN	O	I-Task
+.	NN	O	O
+Velocity	NN	O	O
+in	NN	O	O
+each	NN	O	O
+bin	NN	O	B-Material
+is	NN	O	O
+measured	NN	O	O
+using	NN	O	O
+the	NN	O	O
+Cumulative	NN	O	B-Process
+Averaging	NN	O	I-Process
+Method	NN	O	I-Process
+(	NN	O	O
+CAM	NN	O	B-Process
+)	NN	O	O
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+,	NN	O	O
+while	NN	O	O
+the	NN	O	O
+stress	NN	O	B-Process
+tensor	NN	O	I-Process
+field	NN	O	I-Process
+is	NN	O	O
+measured	NN	O	O
+using	NN	O	O
+the	NN	O	O
+Irving	NN	O	B-Process
+–	NN	O	I-Process
+Kirkwood	NN	O	I-Process
+relationship	NN	O	I-Process
+[	NN	O	O
+25	NN	O	O
+]	NN	O	O
+.	NN	O	O
+A	NN	O	O
+least	NN	O	B-Process
+-	NN	O	I-Process
+squares	NN	O	I-Process
+polynomial	NN	O	I-Process
+fit	NN	O	I-Process
+to	NN	O	O
+the	NN	O	O
+data	NN	O	O
+is	NN	O	O
+performed	NN	O	O
+,	NN	O	O
+which	NN	O	O
+helps	NN	O	O
+reduce	NN	O	B-Process
+noise	NN	O	I-Process
+further	NN	O	O
+.	NN	O	O
+The	NN	O	O
+fit	NN	O	O
+produces	NN	O	O
+a	NN	O	O
+continuous	NN	O	B-Process
+function	NN	O	I-Process
+that	NN	O	O
+avoids	NN	O	B-Process
+stability	NN	O	I-Process
+issues	NN	O	I-Process
+arising	NN	O	O
+from	NN	O	O
+supplying	NN	O	O
+highly	NN	O	B-Material
+fluctuating	NN	O	I-Material
+data	NN	O	I-Material
+to	NN	O	O
+the	NN	O	O
+macro	NN	O	B-Material
+solver	NN	O	I-Material
+.	NN	O	O
+A	NN	O	O
+least	NN	O	B-Process
+-	NN	O	I-Process
+squares	NN	O	I-Process
+fit	NN	O	I-Process
+is	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+an	NN	O	O
+Nth	NN	O	B-Material
+order	NN	O	I-Material
+polynomial	NN	O	I-Material
+for	NN	O	O
+the	NN	O	O
+velocity	NN	O	O
+profile	NN	O	O
+in	NN	O	O
+the	NN	O	O
+core	NN	O	B-Material
+region	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+an	NN	O	O
+Mth	NN	O	B-Material
+order	NN	O	I-Material
+polynomial	NN	O	I-Material
+for	NN	O	O
+the	NN	O	O
+velocity	NN	O	O
+profile	NN	O	O
+in	NN	O	O
+the	NN	O	O
+constrained	NN	O	O
+region:(16)〈ui	NN	O	O
+,	NN	O	O
+core〉=∑k=1Nbk	NN	O	O
+,	NN	O	O
+iyi′(N−k),for	NN	O	O
+0⩽yi′⩽hcore	NN	O	O
+,	NN	O	O
+and(17)〈ui	NN	O	O
+,	NN	O	O
+cs〉=∑k=1Mck	NN	O	O
+,	NN	O	O
+iyi″(M−k),for	NN	O	O
+0⩽yi″⩽hcs	NN	O	O
+,	NN	O	O
+where	NN	O	O
+bk	NN	O	O
+,	NN	O	O
+i	NN	O	O
+and	NN	O	O
+ck	NN	O	O
+,	NN	O	O
+i	NN	O	O
+are	NN	O	O
+the	NN	O	O
+coefficients	NN	O	B-Material
+of	NN	O	O
+the	NN	O	O
+polynomials	NN	O	B-Material
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+core	NN	O	B-Material
+micro	NN	O	I-Material
+region	NN	O	I-Material
+and	NN	O	O
+constrained	NN	O	B-Material
+region	NN	O	I-Material
+respectively	NN	O	O
+.	NN	O	O
+An	NN	O	O
+estimate	NN	O	O
+of	NN	O	O
+the	NN	O	O
+new	NN	O	O
+slip	NN	O	O
+velocity	NN	O	O
+uB	NN	O	O
+for	NN	O	O
+input	NN	O	O
+to	NN	O	O
+the	NN	O	O
+macro	NN	O	B-Material
+solution	NN	O	I-Material
+(	NN	O	O
+6	NN	O	O
+)	NN	O	O
+is	NN	O	O
+taken	NN	O	O
+directly	NN	O	O
+from	NN	O	O
+the	NN	O	O
+compressed	NN	O	B-Material
+wall	NN	O	I-Material
+micro	NN	O	I-Material
+-	NN	O	I-Material
+element	NN	O	I-Material
+solution	NN	O	I-Material
+(	NN	O	O
+16	NN	O	O
+)	NN	O	O
+,	NN	O	O
+at	NN	O	O
+yi′=0	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999113005652)
+
+It	NN	O	O
+is	NN	O	O
+interesting	NN	O	O
+to	NN	O	O
+quantify	NN	O	O
+the	NN	O	O
+effects	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Schmidt	NN	O	O
+number	NN	O	O
+and	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+rate	NN	O	O
+on	NN	O	O
+the	NN	O	O
+bulk	NN	O	B-Process
+-	NN	O	I-Process
+mean	NN	O	I-Process
+concentration	NN	O	I-Process
+of	NN	O	O
+B	NN	O	B-Material
+in	NN	O	O
+water	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+data	NN	O	O
+could	NN	O	O
+present	NN	O	O
+important	NN	O	O
+information	NN	O	O
+on	NN	O	O
+evaluating	NN	O	O
+the	NN	O	O
+environmental	NN	O	O
+impacts	NN	O	O
+of	NN	O	O
+the	NN	O	O
+degradation	NN	O	B-Process
+product	NN	O	O
+of	NN	O	O
+B	NN	O	B-Material
+,	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+acidification	NN	O	B-Process
+of	NN	O	O
+water	NN	O	B-Material
+by	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+.	NN	O	O
+Here	NN	O	O
+,	NN	O	O
+the	NN	O	O
+bulk	NN	O	B-Material
+-	NN	O	I-Material
+mean	NN	O	I-Material
+concentration	NN	O	I-Material
+of	NN	O	O
+B	NN	O	B-Material
+is	NN	O	O
+defined	NN	O	O
+by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+15	NN	O	O
+depicts	NN	O	O
+the	NN	O	O
+effect	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Schmidt	NN	O	O
+and	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+rate	NN	O	O
+on	NN	O	O
+the	NN	O	O
+bulk	NN	O	B-Material
+-	NN	O	I-Material
+mean	NN	O	I-Material
+concentration	NN	O	I-Material
+CB⁎¯.	NN	O	B-Material
+It	NN	O	O
+is	NN	O	O
+worth	NN	O	O
+to	NN	O	O
+mention	NN	O	O
+here	NN	O	O
+that	NN	O	O
+the	NN	O	O
+bulk	NN	O	B-Process
+-	NN	O	I-Process
+mean	NN	O	I-Process
+concentration	NN	O	I-Process
+of	NN	O	O
+B	NN	O	B-Material
+reaches	NN	O	O
+approximately	NN	O	O
+0.6	NN	O	O
+as	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+rate	NN	O	O
+and	NN	O	O
+the	NN	O	O
+Schmidt	NN	O	O
+number	NN	O	O
+increase	NN	O	O
+to	NN	O	O
+infinite	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+concentration	NN	O	O
+is	NN	O	O
+smaller	NN	O	O
+than	NN	O	O
+the	NN	O	O
+equilibrium	NN	O	O
+concentration	NN	O	O
+of	NN	O	O
+A	NN	O	B-Material
+at	NN	O	O
+the	NN	O	O
+interface	NN	O	O
+.	NN	O	O
+This	NN	O	O
+figure	NN	O	O
+indicates	NN	O	O
+that	NN	O	O
+progress	NN	O	O
+of	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+is	NN	O	O
+somewhat	NN	O	O
+interfered	NN	O	O
+by	NN	O	O
+turbulent	NN	O	B-Process
+mixing	NN	O	I-Process
+in	NN	O	O
+water	NN	O	B-Material
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+efficiency	NN	O	O
+of	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+is	NN	O	O
+up	NN	O	O
+to	NN	O	O
+approximately	NN	O	O
+60	NN	O	O
+%	NN	O	O
+.	NN	O	O
+The	NN	O	O
+efficiency	NN	O	O
+of	NN	O	O
+the	NN	O	O
+chemical	NN	O	B-Process
+reaction	NN	O	I-Process
+in	NN	O	O
+water	NN	O	B-Material
+will	NN	O	O
+be	NN	O	O
+a	NN	O	O
+function	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Reynolds	NN	O	O
+number	NN	O	O
+of	NN	O	O
+the	NN	O	O
+water	NN	O	B-Process
+flow	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+efficiency	NN	O	O
+could	NN	O	O
+increase	NN	O	O
+as	NN	O	O
+the	NN	O	O
+Reynolds	NN	O	O
+number	NN	O	O
+increases	NN	O	O
+.	NN	O	O
+We	NN	O	O
+need	NN	O	O
+an	NN	O	O
+extensive	NN	O	B-Task
+investigation	NN	O	I-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+efficiency	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+aquarium	NN	O	I-Task
+chemical	NN	O	I-Task
+reaction	NN	O	I-Task
+in	NN	O	O
+the	NN	O	O
+near	NN	O	O
+future	NN	O	O
+to	NN	O	O
+extend	NN	O	O
+the	NN	O	O
+results	NN	O	O
+of	NN	O	O
+this	NN	O	O
+study	NN	O	O
+further	NN	O	O
+to	NN	O	O
+establish	NN	O	B-Task
+practical	NN	O	I-Task
+modelling	NN	O	I-Task
+for	NN	O	I-Task
+the	NN	O	I-Task
+gas	NN	O	I-Task
+exchange	NN	O	I-Task
+between	NN	O	I-Task
+air	NN	O	I-Task
+and	NN	O	I-Task
+water	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0021999113005718)
+
+Numerical	NN	O	B-Process
+simulation	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+gas	NN	O	I-Process
+flow	NN	O	I-Process
+through	NN	O	O
+such	NN	O	O
+non	NN	O	O
+-	NN	O	O
+trivial	NN	O	O
+internal	NN	O	O
+geometries	NN	O	O
+is	NN	O	O
+,	NN	O	O
+however	NN	O	O
+,	NN	O	O
+extremely	NN	O	O
+challenging	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+because	NN	O	O
+conventional	NN	O	B-Task
+continuum	NN	O	I-Task
+fluid	NN	O	I-Task
+dynamics	NN	O	I-Task
+,	NN	O	O
+which	NN	O	O
+assumes	NN	O	O
+that	NN	O	O
+locally	NN	O	O
+a	NN	O	O
+gas	NN	O	B-Material
+is	NN	O	O
+close	NN	O	O
+to	NN	O	O
+a	NN	O	O
+state	NN	O	O
+of	NN	O	O
+thermodynamic	NN	O	B-Task
+equilibrium	NN	O	I-Task
+,	NN	O	O
+becomes	NN	O	O
+invalid	NN	O	O
+or	NN	O	O
+inaccurate	NN	O	O
+as	NN	O	O
+the	NN	O	O
+smallest	NN	O	O
+characteristic	NN	O	O
+scale	NN	O	O
+of	NN	O	O
+the	NN	O	O
+geometry	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+the	NN	O	O
+channel	NN	O	B-Material
+height	NN	O	I-Material
+)	NN	O	O
+approaches	NN	O	O
+the	NN	O	O
+mean	NN	O	O
+distance	NN	O	O
+between	NN	O	O
+molecular	NN	O	B-Process
+collisions	NN	O	I-Process
+,	NN	O	O
+λ	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+An	NN	O	O
+accurate	NN	O	O
+and	NN	O	O
+flexible	NN	O	O
+modelling	NN	O	O
+alternative	NN	O	O
+for	NN	O	O
+these	NN	O	O
+cases	NN	O	O
+is	NN	O	O
+the	NN	O	O
+direct	NN	O	B-Process
+simulation	NN	O	I-Process
+Monte	NN	O	I-Process
+Carlo	NN	O	I-Process
+method	NN	O	I-Process
+(	NN	O	O
+DSMC	NN	O	B-Process
+)	NN	O	O
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+DSMC	NN	O	B-Process
+can	NN	O	O
+be	NN	O	O
+prohibitively	NN	O	O
+expensive	NN	O	O
+for	NN	O	O
+internal	NN	O	B-Task
+-	NN	O	I-Task
+flow	NN	O	I-Task
+applications	NN	O	I-Task
+,	NN	O	O
+which	NN	O	O
+typically	NN	O	O
+have	NN	O	O
+a	NN	O	O
+geometry	NN	O	O
+of	NN	O	O
+high	NN	O	O
+-	NN	O	O
+aspect	NN	O	O
+ratio	NN	O	O
+(	NN	O	O
+i.e.	NN	O	O
+are	NN	O	O
+extremely	NN	O	O
+long	NN	O	O
+,	NN	O	O
+relative	NN	O	O
+to	NN	O	O
+their	NN	O	O
+cross	NN	O	O
+-	NN	O	O
+section	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+high	NN	O	B-Process
+-	NN	O	I-Process
+aspect	NN	O	I-Process
+ratio	NN	O	I-Process
+creates	NN	O	O
+a	NN	O	O
+formidable	NN	O	B-Task
+multiscale	NN	O	I-Task
+problem	NN	O	I-Task
+:	NN	O	O
+processes	NN	O	O
+need	NN	O	O
+to	NN	O	O
+be	NN	O	O
+resolved	NN	O	O
+occurring	NN	O	O
+over	NN	O	O
+the	NN	O	O
+smallest	NN	O	O
+characteristic	NN	O	O
+scale	NN	O	O
+of	NN	O	O
+the	NN	O	O
+geometry	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+a	NN	O	O
+channelʼs	NN	O	O
+height	NN	O	O
+)	NN	O	O
+,	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+over	NN	O	O
+the	NN	O	O
+largest	NN	O	O
+characteristic	NN	O	O
+scale	NN	O	O
+of	NN	O	O
+the	NN	O	O
+geometry	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+the	NN	O	O
+length	NN	O	O
+of	NN	O	O
+a	NN	O	O
+long	NN	O	O
+channel	NN	O	O
+network	NN	O	O
+)	NN	O	O
+,	NN	O	O
+simultaneously	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999113006955)
+
+The	NN	O	O
+test	NN	O	O
+cases	NN	O	O
+confirm	NN	O	O
+that	NN	O	O
+the	NN	O	O
+high	NN	O	B-Process
+-	NN	O	I-Process
+order	NN	O	I-Process
+discretisation	NN	O	I-Process
+retains	NN	O	O
+exponential	NN	O	O
+convergence	NN	O	O
+properties	NN	O	O
+with	NN	O	O
+increasing	NN	O	O
+geometric	NN	O	O
+and	NN	O	O
+expansion	NN	O	O
+polynomial	NN	O	O
+order	NN	O	O
+if	NN	O	O
+both	NN	O	O
+the	NN	O	O
+solution	NN	O	B-Material
+and	NN	O	O
+true	NN	O	B-Material
+surface	NN	O	I-Material
+are	NN	O	O
+smooth	NN	O	O
+.	NN	O	O
+Errors	NN	O	O
+are	NN	O	O
+found	NN	O	O
+to	NN	O	O
+saturate	NN	O	O
+when	NN	O	O
+the	NN	O	O
+geometric	NN	O	O
+errors	NN	O	O
+,	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+parametrisation	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+surface	NN	O	I-Process
+elements	NN	O	I-Process
+,	NN	O	O
+begin	NN	O	O
+to	NN	O	O
+dominate	NN	O	O
+the	NN	O	O
+temporal	NN	O	O
+and	NN	O	O
+spatial	NN	O	O
+discretisation	NN	O	O
+errors	NN	O	O
+.	NN	O	O
+For	NN	O	O
+the	NN	O	O
+smooth	NN	O	O
+solutions	NN	O	O
+considered	NN	O	O
+as	NN	O	O
+test	NN	O	O
+cases	NN	O	O
+,	NN	O	O
+the	NN	O	O
+results	NN	O	O
+show	NN	O	O
+that	NN	O	O
+this	NN	O	O
+dominance	NN	O	O
+of	NN	O	O
+geometric	NN	O	O
+errors	NN	O	O
+quickly	NN	O	O
+limits	NN	O	O
+the	NN	O	O
+effectiveness	NN	O	O
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+-DOCSTART- (S0021999114002587)
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+Wigner	NN	O	I-Process
+function	NN	O	I-Process
+[	NN	O	O
+27,28,46	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+numerical	NN	O	B-Material
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+cases	NN	O	I-Material
+presented	NN	O	O
+therein	NN	O	O
+are	NN	O	O
+for	NN	O	O
+symmetric	NN	O	B-Material
+potentials	NN	O	I-Material
+for	NN	O	O
+which	NN	O	O
+we	NN	O	O
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+not	NN	O	O
+provide	NN	O	O
+reliable	NN	O	O
+,	NN	O	O
+i.e.	NN	O	O
+well	NN	O	O
+-	NN	O	O
+resolved	NN	O	O
+,	NN	O	O
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+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
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+of	NN	O	O
+singular	NN	O	O
+terms	NN	O	O
+in	NN	O	O
+the	NN	O	O
+steady	NN	O	B-Process
+state	NN	O	I-Process
+Wigner	NN	O	I-Process
+functions	NN	O	I-Process
+,	NN	O	O
+see	NN	O	O
+Section	NN	O	O
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+Other	NN	O	B-Material
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+the	NN	O	O
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+the	NN	O	I-Process
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+[	NN	O	O
+44	NN	O	O
+]	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+possible	NN	O	O
+improvements	NN	O	O
+by	NN	O	O
+adapting	NN	O	B-Process
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+the	NN	O	O
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+state	NN	O	O
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+[	NN	O	O
+47	NN	O	O
+]	NN	O	O
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+Despite	NN	O	O
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+we	NN	O	O
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+demonstrate	NN	O	O
+that	NN	O	O
+accurate	NN	O	B-Task
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+physically	NN	O	I-Task
+valid	NN	O	I-Task
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+can	NN	O	O
+be	NN	O	O
+achieved	NN	O	O
+for	NN	O	O
+sufficiently	NN	O	O
+large	NN	O	O
+values	NN	O	O
+of	NN	O	O
+Lres	NN	O	O
+.	NN	O	O
+Due	NN	O	O
+to	NN	O	O
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+problematics	NN	O	O
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+singular	NN	O	O
+terms	NN	O	O
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+-	NN	O	I-Task
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+V.	NN	O	O
+
+-DOCSTART- (S0021999114008523)
+
+A	NN	O	O
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+-	NN	O	I-Process
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+a	NN	O	O
+‘	NN	O	B-Process
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+In	NN	O	O
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+,	NN	O	O
+a	NN	O	O
+typical	NN	O	O
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+a	NN	O	O
+molecular	NN	O	B-Process
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+(	NN	O	O
+a	NN	O	O
+‘	NN	O	B-Process
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+model	NN	O	I-Process
+)	NN	O	O
+with	NN	O	O
+a	NN	O	O
+continuum	NN	O	B-Process
+-	NN	O	I-Process
+fluid	NN	O	I-Process
+one	NN	O	I-Process
+(	NN	O	O
+a	NN	O	O
+‘	NN	O	O
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+)	NN	O	O
+,	NN	O	O
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+the	NN	O	O
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+[	NN	O	O
+1–4	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+micro	NN	O	B-Process
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+macro	NN	O	I-Process
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+have	NN	O	O
+characteristic	NN	O	O
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+that	NN	O	O
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+,	NN	O	O
+which	NN	O	O
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+-	NN	O	O
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+extremely	NN	O	O
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+:	NN	O	O
+the	NN	O	O
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+of	NN	O	O
+the	NN	O	O
+timestep	NN	O	O
+required	NN	O	O
+to	NN	O	O
+make	NN	O	O
+the	NN	O	O
+micro	NN	O	O
+model	NN	O	O
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+and	NN	O	O
+accurate	NN	O	O
+is	NN	O	O
+so	NN	O	O
+small	NN	O	O
+that	NN	O	O
+simulations	NN	O	O
+over	NN	O	O
+significant	NN	O	O
+macro	NN	O	O
+-	NN	O	O
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+periods	NN	O	O
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+intractable	NN	O	O
+.	NN	O	O
+If	NN	O	O
+the	NN	O	O
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+is	NN	O	O
+‘	NN	O	O
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+-	NN	O	I-Process
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+)	NN	O	I-Process
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+made	NN	O	O
+that	NN	O	O
+enables	NN	O	O
+the	NN	O	O
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+)	NN	O	O
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+-	NN	O	O
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+[	NN	O	O
+5	NN	O	O
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+first	NN	O	O
+to	NN	O	O
+introduce	NN	O	O
+and	NN	O	O
+implement	NN	O	O
+this	NN	O	O
+concept	NN	O	O
+in	NN	O	O
+a	NN	O	O
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+-	NN	O	I-Process
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+[	NN	O	O
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+)	NN	O	O
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+‘	NN	O	O
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+since	NN	O	O
+the	NN	O	O
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+interruption	NN	O	O
+[	NN	O	O
+5	NN	O	O
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+)	NN	O	O
+.	NN	O	O
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+
+-DOCSTART- (S0021999115000546)
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+The	NN	O	O
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+extension	NN	O	O
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+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+,	NN	O	O
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+is	NN	O	O
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+the	NN	O	O
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+[	NN	O	O
+7	NN	O	O
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+-	NN	O	I-Process
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+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+One	NN	O	O
+feature	NN	O	O
+of	NN	O	O
+the	NN	O	O
+physical	NN	O	O
+problem	NN	O	O
+is	NN	O	O
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+it	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+–	NN	O	O
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+[	NN	O	O
+9	NN	O	O
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+[	NN	O	O
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+That	NN	O	O
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+,	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
+As	NN	O	O
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+if	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
+Although	NN	O	O
+we	NN	O	O
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+listed	NN	O	O
+some	NN	O	O
+of	NN	O	O
+the	NN	O	O
+difficult	NN	O	O
+aspects	NN	O	O
+of	NN	O	O
+this	NN	O	O
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+,	NN	O	O
+the	NN	O	O
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+asset	NN	O	O
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+numerical	NN	O	B-Process
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+,	NN	O	O
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+of	NN	O	O
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+melt	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999115001412)
+
+Inspired	NN	O	O
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+-	NN	O	O
+fueled	NN	O	O
+phenomena	NN	O	O
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+cortical	NN	O	B-Process
+cytoskeleton	NN	O	I-Process
+flows	NN	O	I-Process
+[	NN	O	O
+46,45,32	NN	O	O
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+,	NN	O	O
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+been	NN	O	O
+developed	NN	O	O
+[	NN	O	O
+37,33	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+the	NN	O	I-Process
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+,	NN	O	I-Process
+macroscopic	NN	O	I-Process
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+of	NN	O	O
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+collection	NN	O	O
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+uniaxial	NN	O	B-Material
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+agents	NN	O	I-Material
+,	NN	O	O
+embedded	NN	O	O
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+,	NN	O	O
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+internal	NN	O	O
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+dissipation	NN	O	O
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+energy	NN	O	O
+[	NN	O	O
+41,58	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+energy	NN	O	O
+-	NN	O	O
+consuming	NN	O	O
+uniaxial	NN	O	B-Material
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+constituting	NN	O	O
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+the	NN	O	O
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+and	NN	O	O
+is	NN	O	O
+described	NN	O	O
+by	NN	O	O
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+polarization	NN	O	B-Process
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+.	NN	O	O
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+is	NN	O	O
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+an	NN	O	O
+equation	NN	O	B-Process
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+accounting	NN	O	O
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+consumption	NN	O	O
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+the	NN	O	O
+strain	NN	O	O
+rate	NN	O	O
+in	NN	O	O
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+fluid	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+relationship	NN	O	O
+between	NN	O	O
+the	NN	O	O
+strain	NN	O	O
+rate	NN	O	O
+and	NN	O	O
+the	NN	O	O
+stress	NN	O	O
+in	NN	O	O
+the	NN	O	O
+fluid	NN	O	O
+is	NN	O	O
+provided	NN	O	O
+by	NN	O	O
+a	NN	O	O
+constitutive	NN	O	B-Process
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+that	NN	O	O
+accounts	NN	O	O
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+anisotropic	NN	O	O
+,	NN	O	O
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+and	NN	O	O
+consumption	NN	O	O
+of	NN	O	O
+energy	NN	O	O
+.	NN	O	O
+These	NN	O	B-Process
+equations	NN	O	I-Process
+,	NN	O	I-Process
+along	NN	O	I-Process
+with	NN	O	I-Process
+conservation	NN	O	I-Process
+of	NN	O	I-Process
+momentum	NN	O	I-Process
+,	NN	O	O
+provide	NN	O	O
+a	NN	O	O
+continuum	NN	O	B-Process
+hydrodynamic	NN	O	I-Process
+description	NN	O	I-Process
+modeling	NN	O	O
+active	NN	O	O
+polar	NN	O	B-Material
+viscous	NN	O	I-Material
+gels	NN	O	I-Material
+as	NN	O	O
+an	NN	O	O
+energy	NN	O	B-Material
+consuming	NN	O	I-Material
+,	NN	O	I-Material
+anisotropic	NN	O	I-Material
+,	NN	O	I-Material
+non	NN	O	I-Material
+-	NN	O	I-Material
+Newtonian	NN	O	I-Material
+fluid	NN	O	I-Material
+[	NN	O	O
+37,33,32,41	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+resulting	NN	O	O
+partial	NN	O	O
+differential	NN	O	O
+equations	NN	O	O
+governing	NN	O	O
+the	NN	O	O
+hydrodynamics	NN	O	O
+of	NN	O	O
+active	NN	O	B-Material
+polar	NN	O	I-Material
+viscous	NN	O	I-Material
+gels	NN	O	I-Material
+are	NN	O	O
+,	NN	O	O
+however	NN	O	O
+,	NN	O	O
+in	NN	O	O
+general	NN	O	O
+analytically	NN	O	O
+intractable	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999115003459)
+
+The	NN	O	O
+boundary	NN	O	B-Process
+element	NN	O	I-Process
+method	NN	O	I-Process
+(	NN	O	O
+BEM	NN	O	B-Process
+)	NN	O	O
+has	NN	O	O
+clear	NN	O	O
+advantages	NN	O	O
+when	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+shape	NN	O	B-Task
+optimisation	NN	O	I-Task
+of	NN	O	I-Task
+high	NN	O	I-Task
+-	NN	O	I-Task
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+devices	NN	O	I-Task
+,	NN	O	O
+see	NN	O	O
+[	NN	O	O
+4–8	NN	O	O
+]	NN	O	O
+for	NN	O	O
+an	NN	O	O
+introduction	NN	O	O
+to	NN	O	O
+BEM	NN	O	B-Process
+.	NN	O	O
+First	NN	O	O
+of	NN	O	O
+all	NN	O	O
+,	NN	O	O
+BEM	NN	O	B-Process
+relies	NN	O	O
+only	NN	O	O
+on	NN	O	O
+a	NN	O	O
+surface	NN	O	B-Process
+discretisation	NN	O	I-Process
+so	NN	O	O
+that	NN	O	O
+there	NN	O	O
+is	NN	O	O
+no	NN	O	O
+need	NN	O	O
+to	NN	O	O
+maintain	NN	O	O
+an	NN	O	O
+analysis	NN	O	O
+-	NN	O	O
+suitable	NN	O	O
+volume	NN	O	O
+discretisation	NN	O	O
+during	NN	O	O
+the	NN	O	O
+shape	NN	O	B-Process
+optimisation	NN	O	I-Process
+process	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+BEM	NN	O	B-Process
+is	NN	O	O
+ideal	NN	O	O
+for	NN	O	O
+solving	NN	O	B-Task
+problems	NN	O	I-Task
+in	NN	O	I-Task
+unbounded	NN	O	I-Task
+domains	NN	O	I-Task
+that	NN	O	O
+occur	NN	O	O
+in	NN	O	O
+electrostatic	NN	O	B-Process
+field	NN	O	I-Process
+analysis	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+gradient	NN	O	B-Task
+-	NN	O	I-Task
+based	NN	O	I-Task
+shape	NN	O	I-Task
+optimisation	NN	O	I-Task
+the	NN	O	O
+shape	NN	O	B-Process
+derivative	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+cost	NN	O	O
+functional	NN	O	O
+with	NN	O	O
+respect	NN	O	O
+to	NN	O	O
+geometry	NN	O	O
+perturbations	NN	O	O
+is	NN	O	O
+needed	NN	O	O
+[	NN	O	O
+9–11	NN	O	O
+]	NN	O	O
+.	NN	O	O
+To	NN	O	O
+this	NN	O	O
+purpose	NN	O	O
+,	NN	O	O
+we	NN	O	O
+use	NN	O	O
+the	NN	O	O
+adjoint	NN	O	B-Process
+approach	NN	O	I-Process
+and	NN	O	O
+solve	NN	O	O
+the	NN	O	O
+primary	NN	O	B-Task
+and	NN	O	I-Task
+the	NN	O	I-Task
+adjoint	NN	O	I-Task
+boundary	NN	O	I-Task
+value	NN	O	I-Task
+problems	NN	O	I-Task
+with	NN	O	O
+BEM	NN	O	B-Process
+.	NN	O	O
+The	NN	O	O
+associated	NN	O	O
+linear	NN	O	O
+systems	NN	O	O
+of	NN	O	O
+equations	NN	O	O
+are	NN	O	O
+dense	NN	O	O
+and	NN	O	O
+an	NN	O	O
+acceleration	NN	O	O
+technique	NN	O	O
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+the	NN	O	O
+fast	NN	O	B-Process
+multipole	NN	O	I-Process
+method	NN	O	I-Process
+[	NN	O	O
+12,13	NN	O	O
+]	NN	O	O
+,	NN	O	O
+is	NN	O	O
+necessary	NN	O	O
+for	NN	O	O
+their	NN	O	O
+efficient	NN	O	O
+solution	NN	O	O
+.	NN	O	O
+For	NN	O	O
+some	NN	O	O
+recent	NN	O	O
+applications	NN	O	O
+of	NN	O	O
+fast	NN	O	B-Task
+BEM	NN	O	I-Task
+in	NN	O	I-Task
+shape	NN	O	I-Task
+optimisation	NN	O	I-Task
+and	NN	O	O
+Bernoulli	NN	O	B-Task
+-	NN	O	I-Task
+type	NN	O	I-Task
+free	NN	O	I-Task
+-	NN	O	I-Task
+boundary	NN	O	I-Task
+problems	NN	O	I-Task
+we	NN	O	O
+refer	NN	O	O
+to	NN	O	O
+[	NN	O	O
+14–16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999115003939)
+
+The	NN	O	O
+extrapolation	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+upwind	NN	O	I-Task
+value	NN	O	I-Task
+required	NN	O	O
+for	NN	O	O
+TVD	NN	O	B-Process
+differencing	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+particular	NN	O	O
+hurdle	NN	O	O
+for	NN	O	O
+the	NN	O	O
+application	NN	O	O
+on	NN	O	O
+unstructured	NN	O	B-Material
+meshes	NN	O	I-Material
+.	NN	O	O
+As	NN	O	O
+discussed	NN	O	O
+in	NN	O	O
+Section	NN	O	O
+3.2	NN	O	O
+,	NN	O	O
+two	NN	O	O
+methods	NN	O	O
+to	NN	O	O
+extrapolate	NN	O	O
+the	NN	O	O
+value	NN	O	O
+at	NN	O	O
+the	NN	O	O
+virtual	NN	O	O
+upwind	NN	O	O
+node	NN	O	O
+,	NN	O	O
+using	NN	O	O
+data	NN	O	B-Material
+readily	NN	O	I-Material
+available	NN	O	I-Material
+on	NN	O	I-Material
+unstructured	NN	O	I-Material
+meshes	NN	O	I-Material
+,	NN	O	O
+are	NN	O	O
+considered	NN	O	O
+.	NN	O	O
+Given	NN	O	O
+how	NN	O	O
+the	NN	O	O
+virtual	NN	O	B-Process
+upwind	NN	O	I-Process
+node	NN	O	I-Process
+is	NN	O	I-Process
+incorporated	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+gradient	NN	O	I-Process
+ratio	NN	O	I-Process
+rf	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+extrapolation	NN	O	O
+method	NN	O	O
+of	NN	O	O
+Darwish	NN	O	B-Process
+and	NN	O	I-Process
+Moukalled	NN	O	I-Process
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+is	NN	O	O
+referred	NN	O	O
+to	NN	O	O
+as	NN	O	O
+implicit	NN	O	B-Process
+extrapolation	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+method	NN	O	B-Process
+introduced	NN	O	I-Process
+by	NN	O	I-Process
+Ubbink	NN	O	I-Process
+and	NN	O	I-Process
+Issa	NN	O	I-Process
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+as	NN	O	O
+explicit	NN	O	B-Process
+extrapolation	NN	O	I-Process
+.	NN	O	O
+Both	NN	O	O
+methods	NN	O	O
+precisely	NN	O	O
+reconstruct	NN	O	O
+the	NN	O	O
+upwind	NN	O	O
+value	NN	O	O
+for	NN	O	O
+equidistant	NN	O	B-Material
+,	NN	O	I-Material
+rectilinear	NN	O	I-Material
+meshes	NN	O	I-Material
+but	NN	O	O
+fail	NN	O	O
+to	NN	O	O
+do	NN	O	O
+so	NN	O	O
+on	NN	O	O
+non	NN	O	B-Material
+-	NN	O	I-Material
+equidistant	NN	O	I-Material
+or	NN	O	O
+non	NN	O	B-Material
+-	NN	O	I-Material
+rectilinear	NN	O	I-Material
+meshes	NN	O	I-Material
+,	NN	O	O
+as	NN	O	O
+discussed	NN	O	O
+in	NN	O	O
+Section	NN	O	O
+3.2	NN	O	O
+.	NN	O	O
+Using	NN	O	O
+the	NN	O	O
+explicit	NN	O	B-Process
+extrapolation	NN	O	I-Process
+method	NN	O	O
+this	NN	O	O
+issue	NN	O	O
+can	NN	O	O
+be	NN	O	O
+rectified	NN	O	O
+by	NN	O	O
+imposing	NN	O	O
+appropriate	NN	O	O
+limits	NN	O	O
+on	NN	O	O
+the	NN	O	O
+extrapolated	NN	O	O
+upwind	NN	O	O
+value	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999115004301)
+
+A	NN	O	O
+popular	NN	O	O
+choice	NN	O	O
+is	NN	O	O
+to	NN	O	O
+couple	NN	O	B-Process
+a	NN	O	I-Process
+set	NN	O	I-Process
+of	NN	O	I-Process
+quadrature	NN	O	I-Process
+points	NN	O	I-Process
+with	NN	O	I-Process
+an	NN	O	I-Process
+equal	NN	O	I-Process
+number	NN	O	I-Process
+of	NN	O	I-Process
+nodal	NN	O	I-Process
+Lagrange	NN	O	I-Process
+polynomials	NN	O	I-Process
+defined	NN	O	O
+at	NN	O	O
+the	NN	O	O
+same	NN	O	O
+points	NN	O	O
+,	NN	O	O
+leading	NN	O	O
+to	NN	O	O
+a	NN	O	O
+collocation	NN	O	B-Process
+method	NN	O	I-Process
+.	NN	O	O
+There	NN	O	O
+are	NN	O	O
+many	NN	O	O
+examples	NN	O	O
+of	NN	O	O
+this	NN	O	O
+throughout	NN	O	O
+the	NN	O	O
+literature	NN	O	O
+,	NN	O	O
+both	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+the	NN	O	O
+more	NN	O	O
+traditionally	NN	O	O
+utilised	NN	O	O
+continuous	NN	O	O
+Galerkin	NN	O	B-Process
+(	NN	O	O
+CG	NN	O	B-Process
+)	NN	O	O
+and	NN	O	O
+discontinuous	NN	O	B-Process
+Galerkin	NN	O	I-Process
+(	NN	O	O
+DG	NN	O	B-Process
+)	NN	O	O
+formulations	NN	O	O
+,	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+newer	NN	O	B-Process
+extensions	NN	O	I-Process
+such	NN	O	O
+as	NN	O	O
+the	NN	O	O
+flux	NN	O	B-Process
+reconstruction	NN	O	I-Process
+(	NN	O	O
+FR	NN	O	B-Process
+)	NN	O	O
+technique	NN	O	O
+as	NN	O	O
+presented	NN	O	O
+by	NN	O	O
+Huynh	NN	O	O
+[	NN	O	O
+23	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+collocation	NN	O	B-Process
+methods	NN	O	I-Process
+,	NN	O	O
+while	NN	O	O
+most	NN	O	O
+linear	NN	O	B-Material
+operators	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+exactly	NN	O	O
+integrated	NN	O	O
+in	NN	O	O
+this	NN	O	O
+setting	NN	O	O
+depending	NN	O	O
+on	NN	O	O
+the	NN	O	O
+choice	NN	O	O
+of	NN	O	O
+quadrature	NN	O	O
+,	NN	O	O
+integrals	NN	O	O
+of	NN	O	O
+nonlinear	NN	O	O
+terms	NN	O	O
+typically	NN	O	O
+incur	NN	O	O
+numerical	NN	O	O
+error	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+computational	NN	O	O
+efficiencies	NN	O	O
+that	NN	O	O
+can	NN	O	O
+be	NN	O	O
+attained	NN	O	O
+through	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+a	NN	O	O
+collocation	NN	O	B-Task
+formulation	NN	O	I-Task
+,	NN	O	I-Task
+especially	NN	O	I-Task
+given	NN	O	I-Task
+the	NN	O	I-Task
+presence	NN	O	I-Task
+of	NN	O	I-Task
+a	NN	O	I-Task
+diagonal	NN	O	I-Task
+mass	NN	O	I-Task
+matrix	NN	O	I-Task
+,	NN	O	O
+often	NN	O	O
+outweigh	NN	O	O
+the	NN	O	O
+numerical	NN	O	O
+error	NN	O	O
+that	NN	O	O
+is	NN	O	O
+incurred	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999115007238)
+
+An	NN	O	O
+inherent	NN	O	O
+problem	NN	O	O
+of	NN	O	O
+the	NN	O	O
+phase	NN	O	B-Task
+-	NN	O	I-Task
+space	NN	O	I-Task
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+is	NN	O	O
+the	NN	O	O
+spurious	NN	O	B-Process
+separation	NN	O	I-Process
+of	NN	O	I-Process
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+the	NN	O	I-Process
+discretised	NN	O	I-Process
+bins	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+called	NN	O	O
+the	NN	O	O
+“	NN	O	O
+Garden	NN	O	B-Task
+Sprinkler	NN	O	I-Task
+Effect	NN	O	I-Task
+”	NN	O	O
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+has	NN	O	O
+been	NN	O	O
+extensively	NN	O	O
+studied	NN	O	O
+in	NN	O	O
+[	NN	O	O
+48,49,20	NN	O	O
+]	NN	O	O
+.	NN	O	O
+(	NN	O	O
+In	NN	O	O
+the	NN	O	O
+Boltzmann	NN	O	O
+transport	NN	O	O
+community	NN	O	O
+this	NN	O	O
+is	NN	O	O
+known	NN	O	O
+as	NN	O	O
+the	NN	O	O
+ray	NN	O	B-Task
+effect	NN	O	I-Task
+.	NN	O	O
+)	NN	O	O
+To	NN	O	O
+showcase	NN	O	O
+this	NN	O	O
+effect	NN	O	O
+in	NN	O	O
+the	NN	O	O
+angular	NN	O	O
+dimension	NN	O	O
+,	NN	O	O
+a	NN	O	O
+large	NN	O	O
+spatial	NN	O	B-Process
+domain	NN	O	I-Process
+(	NN	O	I-Process
+4000km×4000	NN	O	I-Process
+km	NN	O	I-Process
+)	NN	O	I-Process
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+simulated	NN	O	I-Process
+,	NN	O	O
+with	NN	O	O
+a	NN	O	O
+monochromatic	NN	O	B-Material
+wave	NN	O	I-Material
+propagating	NN	O	O
+over	NN	O	O
+a	NN	O	O
+long	NN	O	O
+distance	NN	O	O
+in	NN	O	O
+deep	NN	O	B-Material
+water	NN	O	I-Material
+(	NN	O	O
+d=10000	NN	O	O
+m	NN	O	O
+)	NN	O	O
+.	NN	O	O
+For	NN	O	O
+the	NN	O	O
+spatial	NN	O	B-Process
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+a	NN	O	O
+structured	NN	O	B-Process
+triangle	NN	O	I-Process
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+is	NN	O	O
+used	NN	O	O
+,	NN	O	O
+with	NN	O	O
+an	NN	O	O
+element	NN	O	O
+edge	NN	O	O
+length	NN	O	O
+of	NN	O	O
+67	NN	O	O
+km	NN	O	O
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+11(a	NN	O	O
+)	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+initial	NN	O	O
+wave	NN	O	B-Material
+field	NN	O	I-Material
+,	NN	O	O
+located	NN	O	O
+500	NN	O	O
+km	NN	O	O
+from	NN	O	O
+the	NN	O	O
+lower	NN	O	O
+and	NN	O	O
+left	NN	O	O
+side	NN	O	O
+has	NN	O	O
+a	NN	O	O
+Gaussian	NN	O	B-Material
+distribution	NN	O	I-Material
+in	NN	O	I-Material
+space	NN	O	I-Material
+,	NN	O	O
+with	NN	O	O
+a	NN	O	O
+significant	NN	O	O
+wave	NN	O	B-Material
+height	NN	O	O
+of	NN	O	O
+Hs=2.5	NN	O	O
+m	NN	O	O
+and	NN	O	O
+a	NN	O	O
+standard	NN	O	O
+deviation	NN	O	O
+of	NN	O	O
+150	NN	O	O
+km	NN	O	O
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+11(b	NN	O	O
+)	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Its	NN	O	O
+mean	NN	O	O
+direction	NN	O	O
+is	NN	O	O
+30	NN	O	O
+°	NN	O	O
+with	NN	O	O
+an	NN	O	O
+angular	NN	O	O
+distribution	NN	O	O
+of	NN	O	O
+cos2⁡(θ	NN	O	O
+)	NN	O	O
+and	NN	O	O
+a	NN	O	O
+frequency	NN	O	O
+of	NN	O	O
+0.1Hz	NN	O	O
+.	NN	O	O
+The	NN	O	O
+simulation	NN	O	B-Process
+is	NN	O	O
+time	NN	O	O
+-	NN	O	O
+dependent	NN	O	O
+and	NN	O	O
+runs	NN	O	O
+for	NN	O	O
+5	NN	O	O
+days	NN	O	O
+with	NN	O	O
+a	NN	O	O
+time	NN	O	O
+-	NN	O	O
+step	NN	O	O
+of	NN	O	O
+600s	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999115008207)
+
+Multi	NN	O	B-Task
+-	NN	O	I-Task
+phase	NN	O	I-Task
+flows	NN	O	I-Task
+are	NN	O	O
+common	NN	O	O
+,	NN	O	O
+in	NN	O	O
+fact	NN	O	O
+quite	NN	O	O
+general	NN	O	O
+,	NN	O	O
+in	NN	O	O
+environmental	NN	O	B-Process
+and	NN	O	I-Process
+industrial	NN	O	I-Process
+processes	NN	O	I-Process
+.	NN	O	O
+Broadly	NN	O	O
+these	NN	O	O
+may	NN	O	O
+be	NN	O	O
+modelled	NN	O	O
+as	NN	O	O
+continuous	NN	O	O
+problems	NN	O	O
+where	NN	O	O
+phases	NN	O	B-Process
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+mixed	NN	O	I-Process
+(	NN	O	O
+e.g.	NN	O	O
+oil	NN	O	B-Process
+–	NN	O	I-Process
+water	NN	O	I-Process
+homogenisation	NN	O	I-Process
+[	NN	O	O
+36	NN	O	O
+]	NN	O	O
+,	NN	O	O
+sediment	NN	O	B-Process
+transport	NN	O	I-Process
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+)	NN	O	O
+or	NN	O	O
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+phases	NN	O	O
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+and	NN	O	O
+interact	NN	O	O
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+the	NN	O	O
+interface	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+gas	NN	O	B-Process
+-	NN	O	I-Process
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+injection	NN	O	I-Process
+moulding	NN	O	I-Process
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
+,	NN	O	O
+liquid	NN	O	B-Process
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+breakup	NN	O	I-Process
+[	NN	O	O
+40	NN	O	O
+]	NN	O	O
+)	NN	O	O
+.	NN	O	O
+In	NN	O	O
+some	NN	O	O
+cases	NN	O	O
+flows	NN	O	O
+start	NN	O	O
+as	NN	O	O
+interface	NN	O	O
+problems	NN	O	O
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+as	NN	O	O
+mixing	NN	O	B-Process
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+,	NN	O	O
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+perhaps	NN	O	O
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+,	NN	O	O
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+We	NN	O	O
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+-	NN	O	I-Task
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+difference	NN	O	O
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+high	NN	O	O
+,	NN	O	O
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+air	NN	O	B-Material
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+water	NN	O	B-Material
+,	NN	O	O
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+.	NN	O	O
+Such	NN	O	O
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+-	NN	O	I-Process
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+(	NN	O	O
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+)	NN	O	O
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+-	NN	O	I-Process
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+additional	NN	O	O
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+functions	NN	O	I-Process
+[	NN	O	O
+40	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+these	NN	O	O
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+can	NN	O	O
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+-	NN	O	O
+consuming	NN	O	O
+to	NN	O	O
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+and	NN	O	O
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+to	NN	O	O
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+surface	NN	O	O
+representation	NN	O	O
+[	NN	O	O
+50	NN	O	O
+]	NN	O	O
+or	NN	O	O
+mass	NN	O	O
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+[	NN	O	O
+34	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0021999115008256)
+
+This	NN	O	O
+section	NN	O	O
+is	NN	O	O
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+to	NN	O	O
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+discretization	NN	O	B-Task
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+the	NN	O	I-Task
+advection	NN	O	I-Task
+–	NN	O	I-Task
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+equation	NN	O	I-Task
+and	NN	O	O
+to	NN	O	O
+the	NN	O	O
+analysis	NN	O	O
+of	NN	O	O
+dispersion	NN	O	B-Task
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+for	NN	O	O
+different	NN	O	O
+polynomial	NN	O	O
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+The	NN	O	O
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+hp	NN	O	O
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+Galerkin	NN	O	B-Process
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+closely	NN	O	O
+resembles	NN	O	O
+the	NN	O	O
+formulation	NN	O	O
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+in	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Sec	NN	O	O
+.	NN	O	O
+2.1	NN	O	O
+describes	NN	O	O
+in	NN	O	O
+detail	NN	O	O
+the	NN	O	O
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+the	NN	O	I-Process
+semi	NN	O	I-Process
+-	NN	O	I-Process
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+problem	NN	O	I-Process
+as	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+wave	NN	O	B-Material
+-	NN	O	I-Material
+like	NN	O	I-Material
+solutions	NN	O	I-Material
+,	NN	O	O
+from	NN	O	O
+which	NN	O	O
+the	NN	O	O
+relevant	NN	O	O
+eigencurves	NN	O	O
+can	NN	O	O
+be	NN	O	O
+obtained	NN	O	O
+.	NN	O	O
+The	NN	O	O
+inviscid	NN	O	B-Material
+case	NN	O	I-Material
+(	NN	O	O
+linear	NN	O	B-Material
+advection	NN	O	I-Material
+)	NN	O	O
+is	NN	O	O
+then	NN	O	O
+addressed	NN	O	O
+in	NN	O	O
+Sec	NN	O	O
+.	NN	O	O
+2.2	NN	O	O
+,	NN	O	O
+where	NN	O	O
+the	NN	O	O
+role	NN	O	O
+of	NN	O	O
+primary	NN	O	O
+and	NN	O	O
+secondary	NN	O	O
+eigencurves	NN	O	O
+is	NN	O	O
+discussed	NN	O	O
+from	NN	O	O
+the	NN	O	O
+perspective	NN	O	O
+introduced	NN	O	O
+in	NN	O	O
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+viscous	NN	O	B-Material
+case	NN	O	I-Material
+is	NN	O	O
+subsequently	NN	O	O
+considered	NN	O	O
+in	NN	O	O
+Sec	NN	O	O
+.	NN	O	O
+2.3	NN	O	O
+,	NN	O	O
+where	NN	O	O
+eigencurves	NN	O	O
+are	NN	O	O
+shown	NN	O	O
+to	NN	O	O
+feature	NN	O	O
+irregular	NN	O	O
+oscillations	NN	O	O
+for	NN	O	O
+problems	NN	O	O
+strongly	NN	O	O
+dominated	NN	O	O
+by	NN	O	O
+either	NN	O	O
+convection	NN	O	O
+or	NN	O	O
+diffusion	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311511010014)
+
+Discovering	NN	O	O
+that	NN	O	O
+both	NN	O	O
+the	NN	O	O
+vacancy	NN	O	O
+and	NN	O	O
+interstitial	NN	O	O
+defect	NN	O	B-Task
+migration	NN	O	I-Task
+pathways	NN	O	I-Task
+are	NN	O	O
+confined	NN	O	O
+to	NN	O	O
+Ga	NN	O	B-Material
+-	NN	O	O
+free	NN	O	O
+regions	NN	O	O
+suggests	NN	O	O
+changes	NN	O	O
+in	NN	O	O
+recombination	NN	O	O
+rates	NN	O	O
+of	NN	O	O
+isolated	NN	O	O
+vacancy	NN	O	O
+-	NN	O	O
+interstitial	NN	O	O
+pairs	NN	O	O
+in	NN	O	O
+comparison	NN	O	O
+to	NN	O	O
+pure	NN	O	O
+Pu	NN	O	O
+.	NN	O	O
+The	NN	O	O
+degree	NN	O	O
+to	NN	O	O
+which	NN	O	O
+the	NN	O	O
+rates	NN	O	O
+are	NN	O	O
+effected	NN	O	O
+depends	NN	O	O
+on	NN	O	O
+the	NN	O	O
+distribution	NN	O	O
+of	NN	O	O
+residual	NN	O	O
+defects	NN	O	O
+post	NN	O	O
+a	NN	O	O
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+,	NN	O	O
+in	NN	O	O
+addition	NN	O	O
+to	NN	O	O
+the	NN	O	O
+concentration	NN	O	O
+and	NN	O	O
+ordering	NN	O	O
+of	NN	O	O
+the	NN	O	O
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+atoms	NN	O	I-Material
+.	NN	O	O
+If	NN	O	O
+vacancies	NN	O	O
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+interstitials	NN	O	O
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+greatly	NN	O	O
+separated	NN	O	O
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+,	NN	O	O
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+to	NN	O	O
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+restricted	NN	O	O
+and	NN	O	O
+recovery	NN	O	O
+times	NN	O	O
+will	NN	O	O
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+extended	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+viable	NN	O	O
+for	NN	O	O
+cascades	NN	O	O
+that	NN	O	O
+created	NN	O	O
+a	NN	O	O
+vacancy	NN	O	O
+rich	NN	O	O
+core	NN	O	O
+surrounded	NN	O	O
+by	NN	O	O
+dispersed	NN	O	O
+interstitials	NN	O	O
+,	NN	O	O
+as	NN	O	O
+found	NN	O	O
+for	NN	O	O
+the	NN	O	O
+low	NN	O	B-Material
+energy	NN	O	I-Material
+cascades	NN	O	I-Material
+in	NN	O	I-Material
+Pu	NN	O	I-Material
+and	NN	O	I-Material
+PuGa	NN	O	I-Material
+[	NN	O	O
+11,12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+may	NN	O	O
+also	NN	O	O
+be	NN	O	O
+the	NN	O	O
+case	NN	O	O
+for	NN	O	O
+channelling	NN	O	B-Material
+events	NN	O	I-Material
+,	NN	O	O
+where	NN	O	O
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+atoms	NN	O	I-Material
+travel	NN	O	I-Material
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+into	NN	O	I-Material
+the	NN	O	I-Material
+lattice	NN	O	I-Material
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+channels	NN	O	I-Material
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+density	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0022311513001165)
+
+Our	NN	O	O
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+confirm	NN	O	O
+experimental	NN	O	O
+observations	NN	O	O
+that	NN	O	O
+W	NN	O	B-Task
+net	NN	O	I-Task
+erosion	NN	O	I-Task
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+only	NN	O	O
+tiny	NN	O	O
+fraction	NN	O	O
+(	NN	O	O
+in	NN	O	O
+our	NN	O	O
+simulation	NN	O	O
+∼1	NN	O	O
+%	NN	O	O
+)	NN	O	O
+of	NN	O	O
+the	NN	O	O
+W	NN	O	B-Task
+gross	NN	O	I-Task
+erosion	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+estimated	NN	O	B-Process
+upstream	NN	O	I-Process
+W	NN	O	I-Process
+fluxes	NN	O	I-Process
+,	NN	O	O
+FWupstrem	NN	O	B-Process
+,	NN	O	O
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+in	NN	O	O
+good	NN	O	O
+agreement	NN	O	O
+with	NN	O	O
+the	NN	O	O
+experimentally	NN	O	B-Material
+observed	NN	O	I-Material
+values	NN	O	I-Material
+⩽1019m-2s-1	NN	O	O
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+this	NN	O	O
+value	NN	O	O
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+not	NN	O	O
+very	NN	O	O
+sensitive	NN	O	O
+to	NN	O	O
+the	NN	O	O
+divertor	NN	O	B-Material
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+.	NN	O	O
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+D	NN	O	B-Material
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+plates	NN	O	I-Process
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+sputter	NN	O	O
+sufficient	NN	O	O
+amount	NN	O	O
+of	NN	O	O
+W.	NN	O	B-Material
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+increasing	NN	O	B-Process
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+the	NN	O	O
+W	NN	O	B-Process
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+,	NN	O	O
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+potential	NN	O	O
+drop	NN	O	O
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+the	NN	O	O
+divertor	NN	O	B-Material
+plasma	NN	O	I-Material
+increases	NN	O	O
+too	NN	O	O
+.	NN	O	O
+As	NN	O	O
+a	NN	O	O
+result	NN	O	O
+,	NN	O	O
+most	NN	O	O
+of	NN	O	O
+the	NN	O	O
+W	NN	O	B-Material
+atoms	NN	O	I-Material
+are	NN	O	O
+ionized	NN	O	B-Process
+in	NN	O	O
+the	NN	O	O
+vicinity	NN	O	O
+of	NN	O	O
+the	NN	O	O
+divertor	NN	O	B-Material
+and	NN	O	O
+return	NN	O	B-Process
+back	NN	O	O
+to	NN	O	O
+the	NN	O	O
+plates	NN	O	B-Material
+.	NN	O	O
+There	NN	O	O
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+two	NN	O	O
+effects	NN	O	O
+leading	NN	O	O
+to	NN	O	O
+the	NN	O	O
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+of	NN	O	O
+W	NN	O	B-Material
+ions	NN	O	I-Material
+:	NN	O	O
+first	NN	O	O
+is	NN	O	O
+the	NN	O	O
+“	NN	O	O
+near	NN	O	B-Process
+-	NN	O	I-Process
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+”	NN	O	I-Process
+ionization	NN	O	I-Process
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+W	NN	O	B-Material
+due	NN	O	O
+to	NN	O	O
+low	NN	O	O
+ionization	NN	O	B-Process
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+−7.86eV	NN	O	O
+(	NN	O	O
+for	NN	O	O
+comparison	NN	O	O
+the	NN	O	O
+ionization	NN	O	B-Process
+potentials	NN	O	O
+for	NN	O	O
+D	NN	O	B-Material
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+C	NN	O	B-Material
+are	NN	O	O
+13,6	NN	O	O
+and	NN	O	O
+10.6eV	NN	O	O
+)	NN	O	O
+,	NN	O	O
+second	NN	O	O
+,	NN	O	O
+W+n	NN	O	B-Material
+ions	NN	O	I-Material
+have	NN	O	O
+large	NN	O	B-Process
+Larmor	NN	O	I-Process
+radius	NN	O	I-Process
+∼2/nmm	NN	O	O
+,	NN	O	O
+so	NN	O	O
+that	NN	O	O
+they	NN	O	O
+are	NN	O	O
+redeposited	NN	O	O
+within	NN	O	O
+the	NN	O	O
+distance	NN	O	O
+of	NN	O	O
+a	NN	O	O
+Larmor	NN	O	O
+radius	NN	O	O
+.	NN	O	O
+Important	NN	O	O
+to	NN	O	O
+note	NN	O	O
+that	NN	O	O
+a	NN	O	O
+significant	NN	O	O
+fraction	NN	O	O
+of	NN	O	O
+W	NN	O	B-Material
+ions	NN	O	I-Material
+escaping	NN	O	O
+this	NN	O	O
+prompt	NN	O	O
+redeposition	NN	O	O
+are	NN	O	O
+returned	NN	O	O
+back	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+friction	NN	O	B-Process
+with	NN	O	I-Process
+the	NN	O	I-Process
+main	NN	O	I-Process
+ions	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0022311513011951)
+
+The	NN	O	O
+displacement	NN	O	B-Task
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+a	NN	O	O
+rapid	NN	O	O
+process	NN	O	O
+(	NN	O	O
+of	NN	O	O
+order	NN	O	O
+picoseconds	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Further	NN	O	O
+migration	NN	O	B-Process
+of	NN	O	I-Process
+vacancies	NN	O	I-Process
+and	NN	O	I-Process
+SIAs	NN	O	I-Process
+,	NN	O	O
+mainly	NN	O	O
+by	NN	O	O
+diffusion	NN	O	B-Process
+,	NN	O	O
+happens	NN	O	O
+over	NN	O	O
+a	NN	O	O
+timescale	NN	O	O
+of	NN	O	O
+order	NN	O	O
+nanoseconds	NN	O	O
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+still	NN	O	O
+short	NN	O	O
+compared	NN	O	O
+to	NN	O	O
+operating	NN	O	O
+times	NN	O	O
+,	NN	O	O
+so	NN	O	O
+is	NN	O	O
+important	NN	O	O
+to	NN	O	O
+consider	NN	O	O
+the	NN	O	O
+equilibrium	NN	O	O
+result	NN	O	O
+of	NN	O	O
+such	NN	O	O
+processes	NN	O	O
+:	NN	O	O
+If	NN	O	O
+the	NN	O	O
+vacancies	NN	O	O
+and	NN	O	O
+SIAs	NN	O	O
+were	NN	O	O
+likely	NN	O	O
+to	NN	O	O
+find	NN	O	O
+their	NN	O	O
+Frenkel	NN	O	O
+partner	NN	O	O
+,	NN	O	O
+recombine	NN	O	O
+,	NN	O	O
+and	NN	O	O
+annihilate	NN	O	O
+,	NN	O	O
+then	NN	O	O
+the	NN	O	O
+metal	NN	O	O
+should	NN	O	O
+essentially	NN	O	O
+return	NN	O	O
+to	NN	O	O
+its	NN	O	O
+original	NN	O	O
+structure	NN	O	B-Material
+;	NN	O	O
+however	NN	O	O
+,	NN	O	O
+if	NN	O	O
+defects	NN	O	B-Material
+instead	NN	O	O
+formed	NN	O	O
+large	NN	O	O
+clusters	NN	O	O
+of	NN	O	O
+a	NN	O	O
+single	NN	O	O
+type	NN	O	O
+this	NN	O	O
+could	NN	O	O
+result	NN	O	O
+in	NN	O	O
+formation	NN	O	O
+of	NN	O	O
+voids	NN	O	B-Material
+,	NN	O	O
+dislocation	NN	O	B-Material
+loops	NN	O	I-Material
+or	NN	O	O
+swelling	NN	O	B-Material
+,	NN	O	O
+possibly	NN	O	O
+weakening	NN	O	O
+the	NN	O	O
+material	NN	O	O
+in	NN	O	O
+the	NN	O	O
+process	NN	O	O
+.	NN	O	O
+Defects	NN	O	O
+can	NN	O	O
+be	NN	O	O
+trapped	NN	O	O
+at	NN	O	O
+grain	NN	O	B-Material
+boundaries	NN	O	O
+or	NN	O	O
+surface	NN	O	O
+,	NN	O	O
+so	NN	O	O
+for	NN	O	O
+an	NN	O	O
+ODS	NN	O	B-Material
+particle	NN	O	I-Material
+to	NN	O	O
+effect	NN	O	O
+the	NN	O	O
+diffusion	NN	O	O
+,	NN	O	O
+there	NN	O	O
+concentration	NN	O	O
+must	NN	O	O
+be	NN	O	O
+such	NN	O	O
+that	NN	O	O
+there	NN	O	O
+are	NN	O	O
+many	NN	O	O
+such	NN	O	O
+particles	NN	O	O
+in	NN	O	O
+each	NN	O	O
+grain	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S0022311514000919)
+
+The	NN	O	O
+dashed	NN	O	O
+curve	NN	O	O
+represents	NN	O	O
+the	NN	O	O
+PuO2	NN	O	B-Material
+molar	NN	O	O
+fraction	NN	O	O
+on	NN	O	O
+the	NN	O	O
+sample	NN	O	O
+surface	NN	O	O
+.	NN	O	O
+It	NN	O	O
+shows	NN	O	O
+that	NN	O	O
+,	NN	O	O
+following	NN	O	O
+the	NN	O	O
+UO2–PuO2	NN	O	B-Task
+phase	NN	O	I-Task
+boundaries	NN	O	I-Task
+,	NN	O	O
+rather	NN	O	O
+well	NN	O	O
+established	NN	O	O
+in	NN	O	O
+this	NN	O	O
+compositional	NN	O	O
+range	NN	O	O
+(	NN	O	O
+see	NN	O	O
+Section	NN	O	O
+4.3	NN	O	O
+below	NN	O	O
+)	NN	O	O
+,	NN	O	O
+the	NN	O	O
+newly	NN	O	O
+formed	NN	O	O
+liquid	NN	O	B-Material
+surface	NN	O	I-Material
+is	NN	O	O
+initially	NN	O	O
+enriched	NN	O	B-Process
+in	NN	O	I-Process
+plutonium	NN	O	I-Process
+dioxide	NN	O	I-Process
+.	NN	O	O
+Subsequently	NN	O	O
+,	NN	O	O
+due	NN	O	O
+to	NN	O	O
+fast	NN	O	O
+diffusion	NN	O	O
+in	NN	O	O
+the	NN	O	O
+liquid	NN	O	B-Material
+phase	NN	O	O
+,	NN	O	O
+the	NN	O	O
+initial	NN	O	O
+sample	NN	O	O
+composition	NN	O	O
+(	NN	O	O
+x(PuO2)=0.25	NN	O	B-Material
+)	NN	O	O
+tends	NN	O	O
+to	NN	O	O
+be	NN	O	O
+rapidly	NN	O	O
+restored	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+however	NN	O	O
+clear	NN	O	O
+,	NN	O	O
+from	NN	O	O
+the	NN	O	O
+simulation	NN	O	B-Process
+,	NN	O	O
+that	NN	O	O
+the	NN	O	O
+fast	NN	O	O
+cooling	NN	O	B-Process
+occurring	NN	O	O
+after	NN	O	O
+the	NN	O	O
+end	NN	O	O
+of	NN	O	O
+the	NN	O	O
+laser	NN	O	B-Process
+pulse	NN	O	I-Process
+leads	NN	O	O
+to	NN	O	O
+onset	NN	O	O
+of	NN	O	O
+solidification	NN	O	B-Process
+before	NN	O	O
+the	NN	O	O
+initial	NN	O	O
+composition	NN	O	O
+is	NN	O	O
+fully	NN	O	O
+recovered	NN	O	O
+in	NN	O	O
+the	NN	O	O
+liquid	NN	O	B-Material
+.	NN	O	O
+A	NN	O	O
+surface	NN	O	B-Material
+solid	NN	O	I-Material
+crust	NN	O	I-Material
+forms	NN	O	O
+then	NN	O	O
+upon	NN	O	O
+freezing	NN	O	B-Process
+before	NN	O	O
+the	NN	O	O
+total	NN	O	O
+liquid	NN	O	B-Material
+mass	NN	O	O
+has	NN	O	O
+crystallised	NN	O	O
+(	NN	O	O
+see	NN	O	O
+insets	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+4	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+double	NN	O	O
+inflection	NN	O	O
+during	NN	O	O
+cooling	NN	O	B-Process
+in	NN	O	O
+this	NN	O	O
+case	NN	O	O
+corresponds	NN	O	O
+to	NN	O	O
+the	NN	O	O
+solidification	NN	O	B-Process
+onset	NN	O	O
+on	NN	O	O
+the	NN	O	O
+sample	NN	O	B-Material
+surface	NN	O	I-Material
+(	NN	O	O
+first	NN	O	O
+inflection	NN	O	O
+)	NN	O	O
+and	NN	O	O
+to	NN	O	O
+the	NN	O	O
+disappearance	NN	O	O
+of	NN	O	O
+the	NN	O	O
+last	NN	O	O
+liquid	NN	O	B-Material
+inside	NN	O	O
+the	NN	O	O
+material	NN	O	O
+(	NN	O	O
+second	NN	O	O
+inflection	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+highest	NN	O	O
+recalescence	NN	O	O
+temperature	NN	O	O
+represents	NN	O	O
+the	NN	O	O
+solidification	NN	O	B-Process
+point	NN	O	O
+of	NN	O	O
+a	NN	O	O
+composition	NN	O	O
+very	NN	O	O
+close	NN	O	O
+to	NN	O	O
+the	NN	O	O
+initial	NN	O	O
+one	NN	O	O
+(	NN	O	O
+approximately	NN	O	O
+±0.01	NN	O	O
+on	NN	O	O
+x(PuO2	NN	O	O
+)	NN	O	O
+in	NN	O	O
+the	NN	O	O
+current	NN	O	O
+example	NN	O	O
+)	NN	O	O
+,	NN	O	O
+except	NN	O	O
+for	NN	O	O
+small	NN	O	B-Task
+segregation	NN	O	I-Task
+effects	NN	O	I-Task
+.	NN	O	O
+These	NN	O	O
+latter	NN	O	O
+have	NN	O	O
+been	NN	O	O
+studied	NN	O	O
+also	NN	O	O
+experimentally	NN	O	O
+in	NN	O	O
+the	NN	O	O
+present	NN	O	O
+research	NN	O	O
+,	NN	O	O
+by	NN	O	O
+post	NN	O	B-Process
+-	NN	O	I-Process
+melting	NN	O	I-Process
+material	NN	O	I-Process
+characterisation	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0022311514001640)
+
+The	NN	O	O
+vapour	NN	O	B-Material
+phase	NN	O	I-Material
+consists	NN	O	O
+of	NN	O	O
+a	NN	O	O
+number	NN	O	B-Material
+of	NN	O	I-Material
+different	NN	O	I-Material
+gases	NN	O	I-Material
+with	NN	O	O
+silicon	NN	O	B-Material
+exhibiting	NN	O	O
+a	NN	O	O
+far	NN	O	O
+higher	NN	O	O
+partial	NN	O	O
+pressure	NN	O	O
+than	NN	O	O
+all	NN	O	O
+carbon	NN	O	B-Material
+containing	NN	O	O
+species	NN	O	O
+over	NN	O	O
+the	NN	O	O
+full	NN	O	O
+temperature	NN	O	O
+range	NN	O	O
+.	NN	O	O
+As	NN	O	O
+an	NN	O	O
+immediate	NN	O	O
+result	NN	O	O
+the	NN	O	O
+vapour	NN	O	B-Material
+contains	NN	O	O
+a	NN	O	O
+higher	NN	O	O
+amount	NN	O	O
+of	NN	O	O
+silicon	NN	O	B-Material
+leaving	NN	O	O
+the	NN	O	O
+solid	NN	O	B-Process
+phase	NN	O	I-Process
+with	NN	O	O
+excess	NN	O	O
+carbon	NN	O	B-Material
+.	NN	O	O
+This	NN	O	O
+carbon	NN	O	B-Material
+is	NN	O	O
+likely	NN	O	O
+to	NN	O	O
+precipitate	NN	O	B-Process
+on	NN	O	I-Process
+the	NN	O	I-Process
+surface	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+SiC	NN	O	I-Process
+grains	NN	O	I-Process
+,	NN	O	O
+a	NN	O	O
+process	NN	O	O
+that	NN	O	O
+becomes	NN	O	O
+very	NN	O	O
+rapid	NN	O	O
+as	NN	O	O
+the	NN	O	O
+temperature	NN	O	O
+approaches	NN	O	O
+2100	NN	O	O
+K	NN	O	O
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Within	NN	O	O
+the	NN	O	O
+TRISO	NN	O	B-Material
+particle	NN	O	I-Material
+the	NN	O	O
+SiC	NN	O	B-Material
+layer	NN	O	O
+is	NN	O	O
+sandwiched	NN	O	O
+between	NN	O	O
+two	NN	O	O
+coatings	NN	O	O
+of	NN	O	O
+dense	NN	O	O
+carbon	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+partial	NN	O	B-Material
+pressure	NN	O	I-Material
+in	NN	O	O
+thermodynamic	NN	O	O
+equilibrium	NN	O	O
+of	NN	O	O
+gaseous	NN	O	B-Material
+carbon	NN	O	I-Material
+forming	NN	O	O
+above	NN	O	O
+graphite	NN	O	B-Material
+was	NN	O	O
+calculated	NN	O	O
+using	NN	O	O
+data	NN	O	B-Material
+taken	NN	O	I-Material
+from	NN	O	I-Material
+JANAF	NN	O	I-Material
+tables	NN	O	I-Material
+and	NN	O	O
+added	NN	O	O
+to	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+[	NN	O	O
+25	NN	O	O
+]	NN	O	O
+,	NN	O	O
+which	NN	O	O
+showed	NN	O	O
+that	NN	O	O
+in	NN	O	O
+the	NN	O	O
+whole	NN	O	O
+temperature	NN	O	O
+range	NN	O	O
+relevant	NN	O	O
+for	NN	O	O
+this	NN	O	O
+study	NN	O	O
+the	NN	O	O
+vapour	NN	O	B-Task
+pressure	NN	O	I-Task
+of	NN	O	I-Task
+carbon	NN	O	I-Task
+is	NN	O	O
+several	NN	O	O
+magnitudes	NN	O	O
+smaller	NN	O	O
+than	NN	O	O
+that	NN	O	O
+of	NN	O	O
+the	NN	O	O
+dominant	NN	O	O
+gas	NN	O	B-Material
+phases	NN	O	O
+above	NN	O	O
+SiC.	NN	O	B-Material
+
+-DOCSTART- (S0022311514005480)
+
+The	NN	O	O
+second	NN	O	B-Task
+stress	NN	O	I-Task
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+is	NN	O	O
+a	NN	O	O
+tri	NN	O	B-Task
+-	NN	O	I-Task
+axial	NN	O	I-Task
+tensile	NN	O	I-Task
+stress	NN	O	I-Task
+designed	NN	O	O
+to	NN	O	O
+represent	NN	O	O
+the	NN	O	O
+zone	NN	O	O
+ahead	NN	O	O
+of	NN	O	O
+an	NN	O	O
+advancing	NN	O	B-Material
+crack	NN	O	I-Material
+tip	NN	O	I-Material
+.	NN	O	O
+Micro	NN	O	O
+-	NN	O	O
+scale	NN	O	O
+lateral	NN	O	O
+cracks	NN	O	O
+have	NN	O	O
+been	NN	O	O
+observed	NN	O	O
+in	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Material
+layer	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+appear	NN	O	O
+to	NN	O	O
+form	NN	O	O
+very	NN	O	O
+close	NN	O	O
+to	NN	O	O
+or	NN	O	O
+at	NN	O	O
+the	NN	O	O
+metal	NN	O	B-Material
+–	NN	O	I-Material
+oxide	NN	O	I-Material
+interface	NN	O	I-Material
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Finite	NN	O	B-Process
+element	NN	O	I-Process
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+by	NN	O	O
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+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+indicated	NN	O	O
+that	NN	O	O
+these	NN	O	O
+cracks	NN	O	B-Material
+form	NN	O	O
+as	NN	O	O
+a	NN	O	O
+result	NN	O	O
+of	NN	O	O
+localised	NN	O	B-Material
+tensile	NN	O	I-Material
+stresses	NN	O	I-Material
+above	NN	O	O
+peaks	NN	O	O
+in	NN	O	O
+the	NN	O	O
+metal	NN	O	B-Material
+–	NN	O	I-Material
+oxide	NN	O	I-Material
+interface	NN	O	I-Material
+roughness	NN	O	O
+[	NN	O	O
+31	NN	O	O
+]	NN	O	O
+.	NN	O	O
+These	NN	O	O
+cracks	NN	O	O
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+considered	NN	O	O
+separate	NN	O	O
+to	NN	O	O
+any	NN	O	O
+nano	NN	O	O
+-	NN	O	O
+scale	NN	O	O
+cracks	NN	O	O
+that	NN	O	O
+might	NN	O	O
+result	NN	O	O
+from	NN	O	O
+the	NN	O	O
+tetragonal	NN	O	B-Process
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+monoclinic	NN	O	I-Process
+phase	NN	O	I-Process
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+.	NN	O	O
+An	NN	O	O
+assumption	NN	O	O
+is	NN	O	O
+made	NN	O	O
+here	NN	O	O
+that	NN	O	O
+whether	NN	O	O
+the	NN	O	O
+micro	NN	O	O
+-	NN	O	O
+scale	NN	O	O
+lateral	NN	O	O
+cracks	NN	O	O
+form	NN	O	O
+via	NN	O	O
+fracture	NN	O	O
+of	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Material
+or	NN	O	O
+by	NN	O	O
+de	NN	O	B-Process
+-	NN	O	I-Process
+bonding	NN	O	I-Process
+at	NN	O	O
+the	NN	O	O
+interface	NN	O	O
+a	NN	O	O
+triaxial	NN	O	B-Process
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+stress	NN	O	I-Process
+state	NN	O	O
+will	NN	O	O
+still	NN	O	O
+be	NN	O	O
+present	NN	O	O
+.	NN	O	O
+In	NN	O	O
+manufactured	NN	O	B-Material
+partially	NN	O	I-Material
+stabilised	NN	O	I-Material
+zirconia	NN	O	I-Material
+cracks	NN	O	O
+would	NN	O	O
+be	NN	O	O
+expected	NN	O	O
+to	NN	O	O
+destabilise	NN	O	O
+the	NN	O	O
+tetragonal	NN	O	B-Process
+phase	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
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+simulated	NN	O	B-Task
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+1	NN	O	I-Task
+,	NN	O	I-Task
+2	NN	O	I-Task
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+3	NN	O	I-Task
+.	NN	O	O
+As	NN	O	O
+this	NN	O	O
+the	NN	O	O
+maximum	NN	O	B-Process
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+at	NN	O	O
+the	NN	O	O
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+tip	NN	O	O
+is	NN	O	O
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+known	NN	O	O
+,	NN	O	O
+the	NN	O	O
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+stresses	NN	O	I-Process
+cover	NN	O	O
+a	NN	O	O
+range	NN	O	O
+from	NN	O	O
+0.1GPa	NN	O	O
+up	NN	O	O
+to	NN	O	O
+a	NN	O	O
+maximum	NN	O	O
+stress	NN	O	O
+value	NN	O	O
+of	NN	O	O
+2.2GPa	NN	O	O
+as	NN	O	O
+it	NN	O	O
+is	NN	O	O
+approximately	NN	O	O
+equal	NN	O	O
+to	NN	O	O
+three	NN	O	O
+times	NN	O	O
+the	NN	O	O
+fracture	NN	O	B-Process
+strength	NN	O	O
+of	NN	O	O
+bulk	NN	O	O
+fracture	NN	O	O
+strength	NN	O	O
+for	NN	O	O
+manufactured	NN	O	B-Material
+stabilized	NN	O	I-Material
+zirconia	NN	O	I-Material
+[	NN	O	O
+34	NN	O	O
+]	NN	O	O
+.	NN	O	O
+For	NN	O	O
+the	NN	O	O
+biaxial	NN	O	B-Task
+compressive	NN	O	I-Task
+and	NN	O	I-Task
+triaxial	NN	O	I-Task
+tensile	NN	O	I-Task
+stress	NN	O	I-Task
+states	NN	O	I-Task
+it	NN	O	O
+is	NN	O	O
+the	NN	O	O
+trends	NN	O	O
+in	NN	O	O
+behaviour	NN	O	O
+rather	NN	O	O
+than	NN	O	O
+the	NN	O	O
+absolute	NN	O	O
+values	NN	O	O
+that	NN	O	O
+are	NN	O	O
+considered	NN	O	O
+of	NN	O	O
+greatest	NN	O	O
+importance	NN	O	O
+for	NN	O	O
+this	NN	O	O
+work	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311514006849)
+
+The	NN	O	O
+early	NN	O	O
+theoretical	NN	O	O
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+stable	NN	O	O
+using	NN	O	O
+potential	NN	O	B-Process
+-	NN	O	I-Process
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+[	NN	O	O
+6	NN	O	O
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+.	NN	O	O
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+“	NN	O	O
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+(	NN	O	O
+Fig	NN	O	O
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+the	NN	O	O
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+Govers	NN	O	O
+et	NN	O	O
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+UO2	NN	O	B-Material
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+-	NN	O	I-Material
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+13	NN	O	O
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+)	NN	O	O
+)	NN	O	O
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+three	NN	O	I-Material
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+〈	NN	O	O
+111	NN	O	O
+〉	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	I-Material
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+)	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	I-Material
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+,	NN	O	O
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+six	NN	O	O
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+)	NN	O	O
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+Fig	NN	O	O
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+)	NN	O	O
+)	NN	O	O
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+this	NN	O	O
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+a	NN	O	O
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+U4O9	NN	O	I-Material
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+on	NN	O	O
+a	NN	O	O
+UO2	NN	O	B-Material
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+containing	NN	O	O
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+-	NN	O	I-Material
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+;	NN	O	O
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+prediction	NN	O	O
+of	NN	O	O
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+that	NN	O	O
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+-	NN	O	I-Material
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+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311514007119)
+
+In	NN	O	O
+the	NN	O	O
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+the	NN	O	O
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+,	NN	O	O
+the	NN	O	O
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+is	NN	O	O
+set	NN	O	O
+to	NN	O	O
+30a0×30a0×30a0	NN	O	O
+,	NN	O	O
+where	NN	O	O
+a0	NN	O	O
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+the	NN	O	O
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+parameter	NN	O	O
+.	NN	O	O
+For	NN	O	O
+all	NN	O	O
+calculations	NN	O	O
+periodic	NN	O	O
+boundary	NN	O	O
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+volume	NN	O	O
+are	NN	O	O
+used	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+to	NN	O	O
+determine	NN	O	B-Process
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+the	NN	O	O
+cluster	NN	O	O
+[	NN	O	O
+28	NN	O	O
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+is	NN	O	O
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+First	NN	O	O
+,	NN	O	O
+the	NN	O	O
+energetics	NN	O	O
+of	NN	O	O
+voids	NN	O	B-Material
+without	NN	O	I-Material
+helium	NN	O	I-Material
+are	NN	O	O
+investigated	NN	O	O
+.	NN	O	O
+A	NN	O	O
+vacancy	NN	O	O
+is	NN	O	O
+introduced	NN	O	O
+into	NN	O	O
+the	NN	O	O
+simulation	NN	O	B-Material
+cell	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
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+minimised	NN	O	O
+using	NN	O	O
+a	NN	O	O
+conjugate	NN	O	B-Process
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+,	NN	O	O
+yielding	NN	O	O
+a	NN	O	O
+single	NN	O	B-Material
+vacancy	NN	O	I-Material
+formation	NN	O	I-Material
+energy	NN	O	I-Material
+Evac	NN	O	B-Material
+of	NN	O	O
+1.72eV.	NN	O	O
+Next	NN	O	O
+,	NN	O	O
+the	NN	O	O
+atom	NN	O	O
+with	NN	O	O
+the	NN	O	O
+highest	NN	O	O
+potential	NN	O	O
+energy	NN	O	O
+is	NN	O	O
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+from	NN	O	O
+the	NN	O	O
+system	NN	O	O
+and	NN	O	O
+again	NN	O	O
+the	NN	O	O
+system	NN	O	O
+is	NN	O	O
+minimised	NN	O	B-Process
+.	NN	O	O
+This	NN	O	O
+scheme	NN	O	O
+is	NN	O	O
+iteratively	NN	O	O
+continued	NN	O	O
+to	NN	O	O
+create	NN	O	O
+voids	NN	O	O
+up	NN	O	O
+to	NN	O	O
+the	NN	O	O
+number	NN	O	O
+of	NN	O	O
+target	NN	O	O
+vacancies	NN	O	O
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+the	NN	O	O
+formation	NN	O	O
+energy	NN	O	O
+of	NN	O	O
+each	NN	O	O
+is	NN	O	O
+calculated	NN	O	O
+.	NN	O	O
+Next	NN	O	O
+,	NN	O	O
+helium	NN	O	B-Material
+atoms	NN	O	I-Material
+are	NN	O	O
+introduced	NN	O	O
+to	NN	O	O
+the	NN	O	O
+vacancies	NN	O	O
+.	NN	O	O
+The	NN	O	O
+total	NN	O	B-Material
+system	NN	O	I-Material
+energy	NN	O	I-Material
+is	NN	O	O
+measured	NN	O	O
+and	NN	O	O
+recorded	NN	O	O
+.	NN	O	O
+At	NN	O	O
+this	NN	O	O
+point	NN	O	O
+,	NN	O	O
+a	NN	O	O
+Metropolis	NN	O	B-Process
+MC	NN	O	I-Process
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+[	NN	O	O
+29	NN	O	O
+]	NN	O	O
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+used	NN	O	O
+to	NN	O	O
+find	NN	O	O
+the	NN	O	O
+low	NN	O	B-Material
+energy	NN	O	I-Material
+configurations	NN	O	I-Material
+.	NN	O	O
+Every	NN	O	O
+helium	NN	O	B-Material
+in	NN	O	O
+the	NN	O	O
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+randomly	NN	O	O
+displaced	NN	O	O
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+a	NN	O	O
+maximum	NN	O	O
+of	NN	O	O
+rmax	NN	O	O
+(	NN	O	O
+4.5Å	NN	O	O
+,	NN	O	O
+the	NN	O	O
+cut	NN	O	O
+off	NN	O	O
+distance	NN	O	O
+for	NN	O	O
+He	NN	O	B-Process
+–	NN	O	I-Process
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+)	NN	O	O
+in	NN	O	O
+each	NN	O	O
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+x	NN	O	O
+,	NN	O	O
+y	NN	O	O
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+z	NN	O	O
+directions	NN	O	O
+and	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
+Each	NN	O	O
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+a	NN	O	O
+minimum	NN	O	O
+of	NN	O	O
+10,000	NN	O	O
+steps	NN	O	O
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+After	NN	O	O
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+,	NN	O	O
+the	NN	O	O
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+if	NN	O	O
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+system	NN	O	O
+energy	NN	O	O
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+not	NN	O	O
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+within	NN	O	O
+a	NN	O	O
+further	NN	O	O
+10	NN	O	O
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+.	NN	O	O
+A	NN	O	O
+schematic	NN	O	O
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+is	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311514008691)
+
+The	NN	O	O
+class	NN	O	B-Material
+of	NN	O	I-Material
+steels	NN	O	I-Material
+known	NN	O	O
+as	NN	O	O
+oxide	NN	O	B-Material
+dispersion	NN	O	I-Material
+strengthened	NN	O	I-Material
+(	NN	O	O
+ODS	NN	O	B-Material
+)	NN	O	O
+ferritic	NN	O	B-Material
+alloys	NN	O	I-Material
+(	NN	O	O
+also	NN	O	O
+known	NN	O	O
+as	NN	O	O
+nanostructured	NN	O	B-Material
+ferritic	NN	O	B-Material
+alloys	NN	O	I-Material
+)	NN	O	O
+consist	NN	O	O
+of	NN	O	O
+a	NN	O	O
+dispersion	NN	O	B-Material
+of	NN	O	I-Material
+ultra	NN	O	I-Material
+-	NN	O	I-Material
+fine	NN	O	I-Material
+oxide	NN	O	I-Material
+particles	NN	O	I-Material
+throughout	NN	O	I-Material
+the	NN	O	I-Material
+matrix	NN	O	I-Material
+.	NN	O	O
+These	NN	O	O
+oxide	NN	O	B-Material
+particles	NN	O	I-Material
+serve	NN	O	O
+to	NN	O	O
+improve	NN	O	B-Task
+the	NN	O	I-Task
+mechanical	NN	O	I-Task
+properties	NN	O	I-Task
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+,	NN	O	O
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+,	NN	O	O
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+motion	NN	O	O
+and	NN	O	O
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+sliding	NN	O	O
+.	NN	O	O
+In	NN	O	O
+nuclear	NN	O	O
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+the	NN	O	O
+oxide	NN	O	B-Material
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+to	NN	O	O
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+defect	NN	O	O
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+[	NN	O	O
+10,11	NN	O	O
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+to	NN	O	O
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+radiation	NN	O	I-Task
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+,	NN	O	O
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+preferential	NN	O	O
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+the	NN	O	O
+formation	NN	O	O
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+nano	NN	O	B-Material
+-	NN	O	I-Material
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+bubbles	NN	O	I-Material
+therefore	NN	O	O
+reducing	NN	O	B-Task
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+to	NN	O	O
+non	NN	O	B-Material
+-	NN	O	I-Material
+ODS	NN	O	I-Material
+steels	NN	O	I-Material
+[	NN	O	O
+12–15	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+ability	NN	O	O
+of	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Material
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+to	NN	O	O
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+these	NN	O	O
+properties	NN	O	O
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+the	NN	O	O
+structure	NN	O	B-Material
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+of	NN	O	I-Material
+the	NN	O	I-Material
+particles	NN	O	I-Material
+[	NN	O	O
+10,11,16,17	NN	O	O
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+their	NN	O	O
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+under	NN	O	O
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+.	NN	O	O
+Typical	NN	O	O
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+include	NN	O	O
+between	NN	O	O
+9	NN	O	B-Material
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+14at.%	NN	O	I-Material
+Cr	NN	O	I-Material
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+oxidation	NN	O	B-Process
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+(	NN	O	O
+most	NN	O	O
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+)	NN	O	O
+;	NN	O	O
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+solution	NN	O	O
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+;	NN	O	O
+Y2O3	NN	O	B-Material
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+,	NN	O	O
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+,	NN	O	O
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+temperatures	NN	O	O
+forms	NN	O	O
+precipitates	NN	O	B-Material
+;	NN	O	O
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+Ti	NN	O	B-Material
+to	NN	O	O
+inhibit	NN	O	O
+significant	NN	O	O
+growth	NN	O	O
+of	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Material
+particles	NN	O	I-Material
+;	NN	O	O
+the	NN	O	O
+balance	NN	O	B-Material
+being	NN	O	O
+made	NN	O	O
+up	NN	O	O
+of	NN	O	O
+Fe	NN	O	B-Material
+and	NN	O	I-Material
+impurities	NN	O	I-Material
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+For	NN	O	O
+this	NN	O	O
+reason	NN	O	O
+these	NN	O	O
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+often	NN	O	O
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+to	NN	O	O
+as	NN	O	O
+14YWT	NN	O	B-Material
+,	NN	O	O
+reflecting	NN	O	O
+the	NN	O	O
+constituent	NN	O	B-Material
+elements	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S002231151500032X)
+
+Zirconium	NN	O	B-Material
+alloys	NN	O	I-Material
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+as	NN	O	O
+cladding	NN	O	B-Material
+to	NN	O	O
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+fuel	NN	O	B-Material
+pellets	NN	O	I-Material
+in	NN	O	O
+pressurised	NN	O	O
+and	NN	O	O
+boiling	NN	O	O
+water	NN	O	B-Material
+nuclear	NN	O	I-Material
+reactors	NN	O	I-Material
+.	NN	O	O
+Research	NN	O	O
+into	NN	O	O
+oxidation	NN	O	B-Task
+of	NN	O	I-Task
+these	NN	O	I-Task
+alloys	NN	O	I-Task
+has	NN	O	O
+been	NN	O	O
+significant	NN	O	O
+since	NN	O	O
+the	NN	O	O
+introduction	NN	O	O
+of	NN	O	O
+the	NN	O	O
+material	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+microstructure	NN	O	B-Process
+and	NN	O	I-Process
+electro	NN	O	I-Process
+-	NN	O	I-Process
+chemical	NN	O	I-Process
+processes	NN	O	I-Process
+during	NN	O	O
+oxidation	NN	O	B-Process
+are	NN	O	O
+complex	NN	O	O
+and	NN	O	O
+many	NN	O	O
+questions	NN	O	O
+still	NN	O	O
+remain	NN	O	O
+unanswered	NN	O	O
+.	NN	O	O
+One	NN	O	O
+such	NN	O	O
+issue	NN	O	O
+is	NN	O	O
+the	NN	O	O
+formation	NN	O	O
+of	NN	O	O
+lateral	NN	O	O
+cracks	NN	O	O
+near	NN	O	O
+the	NN	O	O
+metal	NN	O	B-Material
+-	NN	O	I-Material
+oxide	NN	O	I-Material
+interface	NN	O	I-Material
+.	NN	O	O
+Small	NN	O	O
+cracks	NN	O	O
+have	NN	O	O
+been	NN	O	O
+seen	NN	O	O
+to	NN	O	O
+form	NN	O	O
+continuously	NN	O	O
+during	NN	O	O
+oxidation	NN	O	B-Process
+,	NN	O	O
+with	NN	O	O
+large	NN	O	O
+scale	NN	O	O
+networks	NN	O	O
+of	NN	O	O
+lateral	NN	O	O
+cracks	NN	O	O
+forming	NN	O	O
+cyclically	NN	O	O
+every	NN	O	O
+∼2μm	NN	O	O
+of	NN	O	O
+oxide	NN	O	O
+growth	NN	O	O
+.	NN	O	O
+These	NN	O	O
+networks	NN	O	O
+of	NN	O	O
+cracks	NN	O	O
+can	NN	O	O
+be	NN	O	O
+correlated	NN	O	O
+with	NN	O	O
+acceleration	NN	O	O
+in	NN	O	O
+the	NN	O	O
+corrosion	NN	O	B-Material
+kinetics	NN	O	I-Material
+[	NN	O	O
+1–7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+These	NN	O	O
+lateral	NN	O	O
+cracks	NN	O	O
+might	NN	O	O
+enable	NN	O	O
+the	NN	O	O
+link	NN	O	B-Material
+up	NN	O	I-Material
+of	NN	O	I-Material
+nano	NN	O	I-Material
+pores	NN	O	I-Material
+along	NN	O	O
+grain	NN	O	B-Material
+boundaries	NN	O	O
+perpendicular	NN	O	O
+to	NN	O	O
+the	NN	O	O
+metal	NN	O	B-Material
+/	NN	O	I-Material
+oxide	NN	O	I-Material
+interface	NN	O	I-Material
+as	NN	O	O
+reported	NN	O	O
+in	NN	O	O
+[	NN	O	O
+8,9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Experiments	NN	O	O
+using	NN	O	O
+Synchrotron	NN	O	B-Process
+X	NN	O	I-Process
+-	NN	O	I-Process
+Ray	NN	O	I-Process
+Diffraction	NN	O	I-Process
+(	NN	O	O
+S	NN	O	B-Process
+-	NN	O	I-Process
+XRD	NN	O	I-Process
+)	NN	O	O
+by	NN	O	O
+both	NN	O	O
+Polatidis	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+and	NN	O	O
+Petigny	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+have	NN	O	O
+separately	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+oxides	NN	O	B-Material
+formed	NN	O	O
+on	NN	O	O
+Zircaloy-4	NN	O	B-Material
+are	NN	O	O
+composed	NN	O	O
+of	NN	O	O
+monoclinic	NN	O	B-Material
+and	NN	O	I-Material
+stabilised	NN	O	I-Material
+tetragonal	NN	O	I-Material
+phases	NN	O	I-Material
+,	NN	O	O
+with	NN	O	O
+an	NN	O	O
+∼7	NN	O	B-Material
+%	NN	O	I-Material
+reduction	NN	O	I-Material
+in	NN	O	I-Material
+the	NN	O	I-Material
+tetragonal	NN	O	I-Material
+phase	NN	O	I-Material
+fraction	NN	O	O
+from	NN	O	O
+1	NN	O	O
+to	NN	O	O
+3μm	NN	O	O
+oxide	NN	O	O
+growth	NN	O	O
+[	NN	O	O
+4,10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+One	NN	O	O
+theory	NN	O	O
+is	NN	O	O
+that	NN	O	O
+the	NN	O	O
+lateral	NN	O	O
+cracks	NN	O	O
+may	NN	O	O
+destabilise	NN	O	O
+the	NN	O	O
+tetragonal	NN	O	B-Process
+phase	NN	O	I-Process
+close	NN	O	O
+to	NN	O	O
+the	NN	O	O
+metal	NN	O	B-Material
+-	NN	O	I-Material
+oxide	NN	O	I-Material
+interface	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+phase	NN	O	B-Process
+transformation	NN	O	I-Process
+has	NN	O	O
+an	NN	O	O
+∼6	NN	O	O
+%	NN	O	O
+expansion	NN	O	O
+associated	NN	O	O
+with	NN	O	O
+it	NN	O	O
+,	NN	O	O
+which	NN	O	O
+could	NN	O	O
+lead	NN	O	O
+to	NN	O	O
+fracture	NN	O	B-Process
+perpendicular	NN	O	O
+to	NN	O	O
+the	NN	O	O
+metal	NN	O	B-Material
+-	NN	O	I-Material
+oxide	NN	O	I-Material
+interface	NN	O	I-Material
+,	NN	O	O
+thereby	NN	O	O
+generating	NN	O	O
+fast	NN	O	O
+ingress	NN	O	B-Process
+routes	NN	O	O
+for	NN	O	O
+oxygen	NN	O	B-Material
+containing	NN	O	I-Material
+species	NN	O	I-Material
+[	NN	O	O
+11,12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311515002391)
+
+Spark	NN	O	B-Process
+plasma	NN	O	I-Process
+sintering	NN	O	I-Process
+(	NN	O	O
+SPS	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+a	NN	O	O
+relatively	NN	O	O
+new	NN	O	O
+sintering	NN	O	B-Process
+-	NN	O	I-Process
+based	NN	O	I-Process
+technique	NN	O	I-Process
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+in	NN	O	O
+which	NN	O	O
+the	NN	O	O
+powder	NN	O	B-Material
+to	NN	O	O
+be	NN	O	O
+consolidated	NN	O	O
+is	NN	O	O
+loaded	NN	O	O
+into	NN	O	O
+an	NN	O	O
+electrically	NN	O	B-Process
+and	NN	O	I-Process
+thermally	NN	O	I-Process
+conductive	NN	O	I-Process
+graphite	NN	O	I-Process
+mould	NN	O	I-Process
+and	NN	O	I-Process
+a	NN	O	I-Process
+large	NN	O	I-Process
+DC	NN	O	I-Process
+pulsed	NN	O	I-Process
+current	NN	O	I-Process
+(	NN	O	I-Process
+1000–5000A	NN	O	I-Process
+)	NN	O	I-Process
+is	NN	O	I-Process
+applied	NN	O	I-Process
+under	NN	O	I-Process
+a	NN	O	I-Process
+uniaxial	NN	O	I-Process
+pressure	NN	O	I-Process
+.	NN	O	O
+When	NN	O	O
+current	NN	O	O
+passes	NN	O	O
+through	NN	O	O
+the	NN	O	O
+graphite	NN	O	B-Material
+mould	NN	O	I-Material
+(	NN	O	O
+and	NN	O	O
+the	NN	O	O
+powder	NN	O	B-Material
+if	NN	O	O
+it	NN	O	O
+is	NN	O	O
+electrically	NN	O	O
+conductive	NN	O	O
+)	NN	O	O
+,	NN	O	O
+the	NN	O	O
+powder	NN	O	B-Material
+is	NN	O	O
+heated	NN	O	O
+both	NN	O	O
+from	NN	O	O
+the	NN	O	O
+outside	NN	O	O
+(	NN	O	O
+the	NN	O	O
+mould	NN	O	B-Material
+acts	NN	O	O
+as	NN	O	O
+a	NN	O	O
+heating	NN	O	B-Material
+element	NN	O	I-Material
+)	NN	O	O
+and	NN	O	O
+inside	NN	O	O
+(	NN	O	O
+due	NN	O	O
+to	NN	O	O
+Joule	NN	O	O
+heating	NN	O	O
+from	NN	O	O
+the	NN	O	O
+intrinsic	NN	O	O
+electrical	NN	O	O
+resistance	NN	O	O
+of	NN	O	O
+the	NN	O	O
+powder	NN	O	B-Material
+material	NN	O	I-Material
+)	NN	O	O
+.	NN	O	O
+SPS	NN	O	B-Process
+is	NN	O	O
+characterised	NN	O	O
+by	NN	O	O
+very	NN	O	O
+fast	NN	O	O
+heating	NN	O	O
+(	NN	O	O
+up	NN	O	O
+to	NN	O	O
+2000	NN	O	O
+°	NN	O	O
+C	NN	O	O
+/	NN	O	O
+min	NN	O	O
+)	NN	O	O
+and	NN	O	O
+cooling	NN	O	O
+rates	NN	O	O
+and	NN	O	O
+short	NN	O	O
+holding	NN	O	O
+times	NN	O	O
+(	NN	O	O
+minutes	NN	O	O
+)	NN	O	O
+to	NN	O	O
+achieve	NN	O	O
+near	NN	O	O
+theoretical	NN	O	O
+density	NN	O	O
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Thus	NN	O	O
+SPS	NN	O	B-Process
+occupies	NN	O	O
+a	NN	O	O
+very	NN	O	O
+different	NN	O	O
+time	NN	O	O
+–	NN	O	O
+temperature	NN	O	O
+–	NN	O	O
+density	NN	O	O
+space	NN	O	O
+in	NN	O	O
+powder	NN	O	B-Process
+consolidation	NN	O	I-Process
+maps	NN	O	I-Process
+when	NN	O	O
+compared	NN	O	O
+with	NN	O	O
+conventional	NN	O	B-Process
+methods	NN	O	I-Process
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+hot	NN	O	B-Process
+pressing	NN	O	I-Process
+sintering	NN	O	I-Process
+and	NN	O	O
+HIP	NN	O	B-Process
+with	NN	O	O
+ramp	NN	O	O
+rate	NN	O	O
+of	NN	O	O
+50–80	NN	O	O
+°	NN	O	O
+C	NN	O	O
+/	NN	O	O
+min	NN	O	O
+and	NN	O	O
+a	NN	O	O
+few	NN	O	O
+hours	NN	O	O
+holding	NN	O	O
+time	NN	O	O
+.	NN	O	O
+Although	NN	O	O
+SPS	NN	O	B-Process
+has	NN	O	O
+been	NN	O	O
+studied	NN	O	O
+for	NN	O	O
+a	NN	O	O
+rapidly	NN	O	O
+growing	NN	O	O
+number	NN	O	O
+of	NN	O	O
+materials	NN	O	O
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+,	NN	O	O
+there	NN	O	O
+are	NN	O	O
+only	NN	O	O
+a	NN	O	O
+small	NN	O	O
+number	NN	O	O
+of	NN	O	O
+studies	NN	O	O
+on	NN	O	O
+the	NN	O	O
+fabrication	NN	O	B-Task
+and	NN	O	I-Task
+microstructural	NN	O	I-Task
+characterisation	NN	O	I-Task
+of	NN	O	I-Task
+ODS	NN	O	I-Task
+steels	NN	O	I-Task
+processed	NN	O	I-Task
+by	NN	O	I-Task
+SPS	NN	O	I-Task
+,	NN	O	O
+briefly	NN	O	O
+reviewed	NN	O	O
+below	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311515002470)
+
+To	NN	O	O
+conclude	NN	O	O
+,	NN	O	O
+the	NN	O	O
+electrochemical	NN	O	B-Task
+reduction	NN	O	I-Task
+of	NN	O	I-Task
+uranium	NN	O	I-Task
+dioxide	NN	O	I-Task
+to	NN	O	O
+uranium	NN	O	B-Material
+metal	NN	O	I-Material
+has	NN	O	O
+been	NN	O	O
+studied	NN	O	O
+in	NN	O	O
+a	NN	O	O
+lithium	NN	O	B-Material
+chloride	NN	O	I-Material
+–	NN	O	I-Material
+potassium	NN	O	I-Material
+chloride	NN	O	I-Material
+eutectic	NN	O	I-Material
+molten	NN	O	I-Material
+salt	NN	O	I-Material
+at	NN	O	O
+450	NN	O	O
+°	NN	O	O
+C	NN	O	O
+.	NN	O	O
+Both	NN	O	O
+electrochemical	NN	O	B-Process
+and	NN	O	O
+synchrotron	NN	O	B-Process
+X	NN	O	I-Process
+-	NN	O	I-Process
+ray	NN	O	I-Process
+techniques	NN	O	O
+have	NN	O	O
+been	NN	O	O
+utilised	NN	O	O
+to	NN	O	O
+deduce	NN	O	B-Task
+the	NN	O	I-Task
+electrochemical	NN	O	I-Task
+reduction	NN	O	I-Task
+potential	NN	O	I-Task
+,	NN	O	I-Task
+mechanism	NN	O	I-Task
+and	NN	O	I-Task
+reduction	NN	O	I-Task
+pathway	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+electrochemical	NN	O	O
+reduction	NN	O	O
+potential	NN	O	O
+of	NN	O	O
+the	NN	O	O
+UO2|U	NN	O	B-Material
+couple	NN	O	I-Material
+is	NN	O	O
+dependent	NN	O	O
+on	NN	O	O
+the	NN	O	O
+activity	NN	O	O
+of	NN	O	O
+oxide	NN	O	B-Material
+ions	NN	O	I-Material
+existing	NN	O	O
+within	NN	O	O
+the	NN	O	O
+melt	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+electrochemical	NN	O	B-Process
+reduction	NN	O	I-Process
+of	NN	O	O
+uranium	NN	O	B-Material
+dioxide	NN	O	I-Material
+to	NN	O	O
+uranium	NN	O	B-Material
+metal	NN	O	I-Material
+seems	NN	O	O
+to	NN	O	O
+occur	NN	O	O
+in	NN	O	O
+a	NN	O	O
+single	NN	O	O
+,	NN	O	O
+4-electron	NN	O	B-Process
+-	NN	O	I-Process
+step	NN	O	I-Process
+,	NN	O	O
+process	NN	O	O
+;	NN	O	O
+indicated	NN	O	O
+by	NN	O	O
+a	NN	O	O
+single	NN	O	O
+reduction	NN	O	O
+peak	NN	O	O
+(	NN	O	O
+C1	NN	O	O
+)	NN	O	O
+in	NN	O	O
+the	NN	O	O
+cyclic	NN	O	B-Process
+voltammograms	NN	O	I-Process
+and	NN	O	O
+also	NN	O	O
+by	NN	O	O
+the	NN	O	O
+exclusion	NN	O	O
+of	NN	O	O
+any	NN	O	O
+other	NN	O	O
+phases	NN	O	O
+in	NN	O	O
+the	NN	O	O
+EDXD	NN	O	B-Process
+data	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+electrochemical	NN	O	B-Process
+reduction	NN	O	I-Process
+may	NN	O	O
+be	NN	O	O
+impeded	NN	O	O
+by	NN	O	O
+an	NN	O	O
+increase	NN	O	O
+in	NN	O	O
+oxo	NN	O	O
+-	NN	O	O
+acidity	NN	O	O
+of	NN	O	O
+the	NN	O	O
+molten	NN	O	B-Material
+salt	NN	O	I-Material
+.	NN	O	O
+That	NN	O	O
+is	NN	O	O
+,	NN	O	O
+O2−	NN	O	B-Material
+ions	NN	O	I-Material
+that	NN	O	O
+are	NN	O	O
+liberated	NN	O	O
+by	NN	O	O
+the	NN	O	O
+electroreduction	NN	O	B-Process
+may	NN	O	O
+not	NN	O	O
+react	NN	O	O
+at	NN	O	O
+the	NN	O	O
+counter	NN	O	B-Material
+electrode	NN	O	I-Material
+and	NN	O	O
+,	NN	O	O
+thus	NN	O	O
+,	NN	O	O
+not	NN	O	O
+be	NN	O	O
+removed	NN	O	O
+from	NN	O	O
+the	NN	O	O
+molten	NN	O	B-Material
+salt	NN	O	I-Material
+.	NN	O	O
+This	NN	O	O
+could	NN	O	O
+be	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+electrode	NN	O	B-Material
+geometry	NN	O	O
+and/or	NN	O	O
+the	NN	O	O
+inherent	NN	O	O
+microstructure	NN	O	O
+of	NN	O	O
+the	NN	O	O
+working	NN	O	O
+electrode	NN	O	B-Material
+:	NN	O	O
+a	NN	O	O
+high	NN	O	O
+tortuosity	NN	O	O
+,	NN	O	O
+for	NN	O	O
+example	NN	O	O
+,	NN	O	O
+would	NN	O	O
+impede	NN	O	O
+the	NN	O	O
+diffusion	NN	O	O
+of	NN	O	O
+O2−	NN	O	B-Material
+ions	NN	O	I-Material
+out	NN	O	O
+of	NN	O	O
+the	NN	O	O
+working	NN	O	O
+electrode	NN	O	B-Material
+.	NN	O	O
+This	NN	O	O
+could	NN	O	O
+then	NN	O	O
+cause	NN	O	O
+an	NN	O	O
+increase	NN	O	O
+in	NN	O	O
+the	NN	O	O
+activity	NN	O	O
+of	NN	O	O
+oxide	NN	O	B-Material
+ions	NN	O	I-Material
+existing	NN	O	O
+within	NN	O	O
+the	NN	O	O
+melt	NN	O	B-Material
+and	NN	O	O
+hence	NN	O	O
+inhibit	NN	O	O
+the	NN	O	O
+electrochemical	NN	O	B-Process
+reduction	NN	O	I-Process
+–	NN	O	O
+exploration	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+microstructure	NN	O	I-Task
+of	NN	O	I-Task
+working	NN	O	I-Task
+electrodes	NN	O	I-Task
+will	NN	O	O
+be	NN	O	O
+the	NN	O	O
+focus	NN	O	O
+of	NN	O	O
+future	NN	O	O
+work	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311515002664)
+
+The	NN	O	O
+primary	NN	O	O
+benefit	NN	O	O
+of	NN	O	O
+using	NN	O	O
+a	NN	O	O
+3D	NN	O	B-Process
+model	NN	O	I-Process
+is	NN	O	O
+that	NN	O	O
+it	NN	O	O
+allows	NN	O	O
+the	NN	O	O
+application	NN	O	O
+of	NN	O	O
+anisotropic	NN	O	B-Task
+material	NN	O	I-Task
+properties	NN	O	I-Task
+.	NN	O	O
+As	NN	O	O
+a	NN	O	O
+hexagonal	NN	O	O
+close	NN	O	O
+packed	NN	O	O
+lattice	NN	O	O
+structure	NN	O	O
+,	NN	O	O
+a	NN	O	O
+single	NN	O	O
+zirconium	NN	O	B-Material
+grain	NN	O	I-Material
+is	NN	O	O
+plastically	NN	O	O
+anisotropic	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+difficulty	NN	O	O
+of	NN	O	O
+activating	NN	O	O
+slip	NN	O	O
+with	NN	O	O
+a	NN	O	O
+〈	NN	O	O
+c	NN	O	O
+〉	NN	O	O
+component	NN	O	O
+[	NN	O	O
+23–26	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Abaqus	NN	O	B-Process
+allows	NN	O	O
+this	NN	O	O
+to	NN	O	O
+be	NN	O	O
+represented	NN	O	O
+by	NN	O	O
+setting	NN	O	O
+plasticity	NN	O	B-Process
+potential	NN	O	I-Process
+ratios	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+anisotropic	NN	O	B-Material
+elastic	NN	O	I-Material
+and	NN	O	I-Material
+plastic	NN	O	I-Material
+constants	NN	O	I-Material
+are	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Table	NN	O	O
+1	NN	O	O
+.	NN	O	O
+Zirconium	NN	O	B-Material
+alloys	NN	O	O
+can	NN	O	O
+often	NN	O	O
+have	NN	O	O
+a	NN	O	O
+bimodal	NN	O	B-Process
+basal	NN	O	I-Process
+pole	NN	O	I-Process
+distribution	NN	O	I-Process
+,	NN	O	O
+with	NN	O	O
+a	NN	O	O
+tilt	NN	O	O
+on	NN	O	O
+the	NN	O	O
+basal	NN	O	O
+normal	NN	O	O
+or	NN	O	O
+c	NN	O	O
+direction	NN	O	O
+of	NN	O	O
+±30	NN	O	O
+°	NN	O	O
+in	NN	O	O
+the	NN	O	O
+normal	NN	O	O
+direction	NN	O	O
+being	NN	O	O
+quoted	NN	O	O
+for	NN	O	O
+recrystallized	NN	O	B-Material
+Zircaloy-4	NN	O	I-Material
+[	NN	O	O
+27,28	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+for	NN	O	O
+simplicity	NN	O	O
+the	NN	O	O
+basal	NN	O	O
+normal	NN	O	O
+or	NN	O	O
+c	NN	O	O
+direction	NN	O	O
+has	NN	O	O
+been	NN	O	O
+taken	NN	O	O
+as	NN	O	O
+being	NN	O	O
+parallel	NN	O	O
+to	NN	O	O
+the	NN	O	O
+normal	NN	O	O
+direction	NN	O	O
+.	NN	O	O
+As	NN	O	O
+such	NN	O	O
+the	NN	O	O
+1	NN	O	O
+,	NN	O	O
+2	NN	O	O
+and	NN	O	O
+3	NN	O	O
+directions	NN	O	O
+in	NN	O	O
+Table	NN	O	O
+1	NN	O	O
+correlate	NN	O	O
+with	NN	O	O
+the	NN	O	O
+X	NN	O	O
+,	NN	O	O
+Y	NN	O	O
+and	NN	O	O
+Z	NN	O	O
+global	NN	O	O
+coordinate	NN	O	O
+system	NN	O	O
+for	NN	O	O
+the	NN	O	O
+3D	NN	O	B-Process
+simulations	NN	O	I-Process
+,	NN	O	O
+with	NN	O	O
+the	NN	O	O
+3	NN	O	O
+direction	NN	O	O
+correlating	NN	O	O
+to	NN	O	O
+the	NN	O	O
+c	NN	O	O
+direction	NN	O	O
+of	NN	O	O
+a	NN	O	O
+zirconium	NN	O	B-Material
+unit	NN	O	I-Material
+lattice	NN	O	I-Material
+.	NN	O	O
+Table	NN	O	O
+1	NN	O	O
+also	NN	O	O
+shows	NN	O	O
+the	NN	O	O
+elastic	NN	O	O
+properties	NN	O	O
+incorporated	NN	O	O
+into	NN	O	O
+the	NN	O	O
+simulations	NN	O	B-Process
+.	NN	O	O
+The	NN	O	O
+oxide	NN	O	B-Material
+layer	NN	O	I-Material
+has	NN	O	O
+been	NN	O	O
+simulated	NN	O	O
+as	NN	O	O
+a	NN	O	O
+purely	NN	O	B-Material
+elastic	NN	O	I-Material
+material	NN	O	I-Material
+.	NN	O	O
+Although	NN	O	O
+it	NN	O	O
+is	NN	O	O
+known	NN	O	O
+that	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Material
+is	NN	O	O
+strongly	NN	O	O
+textured	NN	O	O
+[	NN	O	O
+29	NN	O	O
+]	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+still	NN	O	O
+simulated	NN	O	O
+as	NN	O	O
+a	NN	O	O
+homogenous	NN	O	O
+solid	NN	O	O
+therefore	NN	O	O
+isotropic	NN	O	B-Task
+material	NN	O	I-Task
+properties	NN	O	I-Task
+have	NN	O	O
+been	NN	O	O
+used	NN	O	O
+for	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Material
+in	NN	O	O
+all	NN	O	O
+simulations	NN	O	B-Process
+.	NN	O	O
+
+-DOCSTART- (S0022311515300295)
+
+Zirconium	NN	O	B-Material
+alloys	NN	O	I-Material
+are	NN	O	O
+commonly	NN	O	O
+used	NN	O	O
+as	NN	O	O
+the	NN	O	O
+fuel	NN	O	B-Material
+cladding	NN	O	I-Material
+for	NN	O	O
+water	NN	O	B-Material
+cooled	NN	O	I-Material
+nuclear	NN	O	I-Material
+fission	NN	O	I-Material
+reactors	NN	O	I-Material
+,	NN	O	O
+mainly	NN	O	O
+due	NN	O	O
+to	NN	O	O
+their	NN	O	O
+low	NN	O	O
+neutron	NN	O	O
+cross	NN	O	O
+-	NN	O	O
+section	NN	O	O
+,	NN	O	O
+good	NN	O	O
+corrosion	NN	O	O
+resistance	NN	O	O
+during	NN	O	O
+normal	NN	O	O
+operating	NN	O	O
+conditions	NN	O	O
+and	NN	O	O
+sufficient	NN	O	O
+mechanical	NN	O	O
+strength	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Despite	NN	O	O
+high	NN	O	O
+corrosion	NN	O	O
+resistance	NN	O	O
+at	NN	O	O
+normal	NN	O	O
+operating	NN	O	O
+temperatures	NN	O	O
+(	NN	O	O
+around	NN	O	O
+300	NN	O	O
+°	NN	O	O
+C	NN	O	O
+)	NN	O	O
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+,	NN	O	O
+Zr	NN	O	B-Material
+alloys	NN	O	I-Material
+oxidise	NN	O	B-Process
+very	NN	O	O
+rapidly	NN	O	O
+when	NN	O	O
+exposed	NN	O	O
+to	NN	O	O
+temperatures	NN	O	O
+a	NN	O	O
+few	NN	O	O
+hundred	NN	O	O
+degrees	NN	O	O
+higher	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+an	NN	O	O
+exothermic	NN	O	B-Process
+reaction	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+can	NN	O	O
+further	NN	O	O
+accelerate	NN	O	O
+oxidation	NN	O	B-Process
+and	NN	O	O
+,	NN	O	O
+at	NN	O	O
+temperatures	NN	O	O
+beyond	NN	O	O
+1000	NN	O	O
+°	NN	O	O
+C	NN	O	O
+,	NN	O	O
+potentially	NN	O	O
+lead	NN	O	O
+to	NN	O	O
+disintegration	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+fuel	NN	O	I-Process
+rods	NN	O	I-Process
+,	NN	O	O
+as	NN	O	O
+highlighted	NN	O	O
+during	NN	O	O
+the	NN	O	O
+Fukushima	NN	O	O
+Daiichi	NN	O	O
+nuclear	NN	O	O
+accident	NN	O	O
+.	NN	O	O
+For	NN	O	O
+this	NN	O	O
+reason	NN	O	O
+new	NN	O	O
+research	NN	O	O
+activities	NN	O	O
+have	NN	O	O
+been	NN	O	O
+initiated	NN	O	O
+worldwide	NN	O	O
+to	NN	O	O
+develop	NN	O	B-Task
+accident	NN	O	I-Task
+tolerant	NN	O	I-Task
+fuels	NN	O	I-Task
+(	NN	O	O
+ATF	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+Additionally	NN	O	O
+,	NN	O	O
+ATFs	NN	O	B-Material
+could	NN	O	O
+also	NN	O	O
+provide	NN	O	O
+further	NN	O	O
+enhancements	NN	O	B-Task
+in	NN	O	I-Task
+corrosion	NN	O	I-Task
+performance	NN	O	I-Task
+during	NN	O	O
+normal	NN	O	O
+operating	NN	O	O
+conditions	NN	O	O
+enabling	NN	O	O
+the	NN	O	O
+development	NN	O	B-Task
+of	NN	O	I-Task
+fuel	NN	O	I-Task
+assemblies	NN	O	I-Task
+for	NN	O	O
+very	NN	O	O
+high	NN	O	O
+burn	NN	O	O
+-	NN	O	O
+up	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311515300477)
+
+In	NN	O	O
+all	NN	O	O
+these	NN	O	O
+studies	NN	O	O
+,	NN	O	O
+the	NN	O	O
+association	NN	O	O
+between	NN	O	O
+the	NN	O	O
+transition	NN	O	O
+and	NN	O	O
+lateral	NN	O	O
+cracking	NN	O	O
+in	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Material
+layer	NN	O	I-Material
+depicts	NN	O	O
+some	NN	O	O
+interaction	NN	O	O
+between	NN	O	O
+the	NN	O	O
+mechanical	NN	O	O
+behaviour	NN	O	O
+of	NN	O	O
+the	NN	O	O
+system	NN	O	O
+,	NN	O	O
+and	NN	O	O
+its	NN	O	O
+corrosion	NN	O	O
+kinetics	NN	O	O
+,	NN	O	O
+but	NN	O	O
+does	NN	O	O
+not	NN	O	O
+provide	NN	O	O
+a	NN	O	O
+clear	NN	O	O
+understanding	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+morphology	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+metal	NN	O	I-Task
+:	NN	O	I-Task
+oxide	NN	O	I-Task
+interface	NN	O	I-Task
+during	NN	O	O
+the	NN	O	O
+corrosion	NN	O	B-Process
+process	NN	O	I-Process
+,	NN	O	O
+at	NN	O	O
+the	NN	O	O
+nanometre	NN	O	O
+level	NN	O	O
+.	NN	O	O
+Understanding	NN	O	B-Task
+why	NN	O	I-Task
+this	NN	O	I-Task
+transition	NN	O	I-Task
+behaviour	NN	O	I-Task
+happens	NN	O	I-Task
+is	NN	O	O
+critical	NN	O	O
+when	NN	O	O
+modelling	NN	O	B-Task
+the	NN	O	I-Task
+rate	NN	O	I-Task
+of	NN	O	I-Task
+growth	NN	O	I-Task
+of	NN	O	I-Task
+oxide	NN	O	I-Task
+,	NN	O	O
+and	NN	O	O
+therefore	NN	O	O
+to	NN	O	O
+the	NN	O	O
+lifetime	NN	O	O
+prediction	NN	O	O
+of	NN	O	O
+Zr	NN	O	B-Material
+clads	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+ultimately	NN	O	O
+to	NN	O	O
+the	NN	O	O
+safety	NN	O	O
+of	NN	O	O
+nuclear	NN	O	B-Material
+power	NN	O	I-Material
+reactors	NN	O	I-Material
+.	NN	O	O
+No	NN	O	O
+model	NN	O	O
+will	NN	O	O
+be	NN	O	O
+complete	NN	O	O
+without	NN	O	O
+a	NN	O	O
+nanoscale	NN	O	O
+understanding	NN	O	B-Task
+of	NN	O	I-Task
+what	NN	O	I-Task
+is	NN	O	I-Task
+going	NN	O	I-Task
+on	NN	O	I-Task
+during	NN	O	I-Task
+oxidation	NN	O	I-Task
+.	NN	O	O
+Thus	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+essential	NN	O	O
+that	NN	O	O
+the	NN	O	O
+oxide	NN	O	B-Material
+scale	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+top	NN	O	B-Material
+layers	NN	O	I-Material
+of	NN	O	I-Material
+the	NN	O	I-Material
+metal	NN	O	I-Material
+are	NN	O	O
+studied	NN	O	O
+at	NN	O	O
+nanometre	NN	O	O
+resolution	NN	O	O
+to	NN	O	O
+reveal	NN	O	O
+the	NN	O	O
+detailed	NN	O	O
+structural	NN	O	B-Process
+and	NN	O	I-Process
+chemical	NN	O	I-Process
+changes	NN	O	I-Process
+associated	NN	O	O
+with	NN	O	O
+diffusion	NN	O	B-Process
+of	NN	O	I-Process
+oxygen	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+resulting	NN	O	O
+oxidation	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+metal	NN	O	I-Process
+.	NN	O	O
+Whilst	NN	O	O
+a	NN	O	O
+number	NN	O	O
+of	NN	O	O
+techniques	NN	O	O
+have	NN	O	O
+been	NN	O	O
+employed	NN	O	O
+for	NN	O	O
+this	NN	O	O
+purpose	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+clear	NN	O	O
+that	NN	O	O
+various	NN	O	O
+techniques	NN	O	O
+within	NN	O	O
+transmission	NN	O	B-Process
+electron	NN	O	I-Process
+microscopy	NN	O	I-Process
+(	NN	O	O
+TEM	NN	O	B-Process
+)	NN	O	O
+will	NN	O	O
+be	NN	O	O
+among	NN	O	O
+the	NN	O	O
+most	NN	O	O
+versatile	NN	O	O
+and	NN	O	O
+informative	NN	O	O
+for	NN	O	O
+this	NN	O	O
+purpose	NN	O	O
+,	NN	O	O
+although	NN	O	O
+additional	NN	O	O
+information	NN	O	O
+can	NN	O	O
+be	NN	O	O
+added	NN	O	O
+by	NN	O	O
+techniques	NN	O	O
+such	NN	O	O
+as	NN	O	O
+atom	NN	O	B-Process
+probe	NN	O	I-Process
+tomography	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0022311515300830)
+
+Solid	NN	O	B-Material
+pieces	NN	O	I-Material
+of	NN	O	O
+23–114	NN	O	O
+mg	NN	O	O
+were	NN	O	O
+further	NN	O	O
+used	NN	O	O
+to	NN	O	O
+measure	NN	O	B-Process
+the	NN	O	I-Process
+enthalpy	NN	O	I-Process
+increments	NN	O	I-Process
+using	NN	O	O
+a	NN	O	O
+Setaram	NN	O	B-Process
+Multi	NN	O	I-Process
+-	NN	O	I-Process
+detector	NN	O	I-Process
+High	NN	O	I-Process
+Temperature	NN	O	I-Process
+Calorimeter	NN	O	I-Process
+(	NN	O	O
+MDHTC-96	NN	O	B-Process
+)	NN	O	O
+using	NN	O	O
+a	NN	O	O
+drop	NN	O	B-Process
+detector	NN	O	I-Process
+.	NN	O	O
+For	NN	O	O
+more	NN	O	O
+details	NN	O	O
+about	NN	O	O
+the	NN	O	O
+technique	NN	O	O
+we	NN	O	O
+refer	NN	O	O
+to	NN	O	O
+our	NN	O	O
+previous	NN	O	O
+studies	NN	O	O
+[	NN	O	O
+9,10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+measurements	NN	O	O
+were	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+under	NN	O	O
+an	NN	O	O
+argon	NN	O	B-Material
+atmosphere	NN	O	O
+(	NN	O	O
+with	NN	O	O
+an	NN	O	O
+oxygen	NN	O	B-Material
+content	NN	O	O
+of	NN	O	O
+7	NN	O	O
+ppm	NN	O	O
+)	NN	O	O
+,	NN	O	O
+using	NN	O	O
+pure	NN	O	O
+platinum	NN	O	B-Material
+ingots	NN	O	I-Material
+(	NN	O	O
+64–144	NN	O	O
+mg	NN	O	O
+)	NN	O	O
+of	NN	O	O
+99.95	NN	O	O
+at	NN	O	O
+%	NN	O	O
+purity	NN	O	O
+as	NN	O	O
+a	NN	O	O
+reference	NN	O	B-Material
+material	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+temperature	NN	O	O
+range	NN	O	O
+of	NN	O	O
+the	NN	O	O
+experiment	NN	O	O
+was	NN	O	O
+from	NN	O	O
+430.3	NN	O	O
+K	NN	O	O
+to	NN	O	O
+1088.8	NN	O	O
+K	NN	O	O
+using	NN	O	O
+steps	NN	O	O
+of	NN	O	O
+50	NN	O	O
+K.	NN	O	O
+Each	NN	O	O
+isothermal	NN	O	B-Process
+run	NN	O	I-Process
+consisted	NN	O	O
+of	NN	O	O
+2–4	NN	O	B-Material
+drops	NN	O	I-Material
+of	NN	O	I-Material
+Bi2UO6	NN	O	I-Material
+samples	NN	O	I-Material
+,	NN	O	O
+each	NN	O	O
+surrounded	NN	O	O
+by	NN	O	O
+two	NN	O	O
+drops	NN	O	O
+of	NN	O	O
+platinum	NN	O	B-Material
+from	NN	O	O
+which	NN	O	O
+the	NN	O	O
+sensitivity	NN	O	O
+of	NN	O	O
+the	NN	O	O
+device	NN	O	O
+was	NN	O	O
+determined	NN	O	O
+.	NN	O	O
+The	NN	O	O
+drops	NN	O	O
+were	NN	O	O
+separated	NN	O	O
+by	NN	O	O
+time	NN	O	O
+intervals	NN	O	O
+of	NN	O	O
+20	NN	O	O
+min	NN	O	O
+,	NN	O	O
+long	NN	O	O
+enough	NN	O	O
+to	NN	O	O
+re	NN	O	O
+-	NN	O	O
+stabilize	NN	O	O
+the	NN	O	O
+monitored	NN	O	O
+heat	NN	O	B-Process
+flow	NN	O	I-Process
+signal	NN	O	O
+.	NN	O	O
+Background	NN	O	B-Process
+subtraction	NN	O	I-Process
+and	NN	O	I-Process
+peak	NN	O	I-Process
+integration	NN	O	I-Process
+were	NN	O	O
+performed	NN	O	O
+using	NN	O	O
+commercially	NN	O	B-Material
+available	NN	O	I-Material
+software	NN	O	I-Material
+for	NN	O	I-Material
+data	NN	O	I-Material
+processing	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+reported	NN	O	O
+temperatures	NN	O	O
+were	NN	O	O
+corrected	NN	O	B-Process
+in	NN	O	O
+accordance	NN	O	O
+with	NN	O	O
+the	NN	O	O
+calibration	NN	O	O
+curve	NN	O	O
+obtained	NN	O	O
+prior	NN	O	O
+to	NN	O	O
+measurement	NN	O	O
+using	NN	O	O
+several	NN	O	O
+high	NN	O	B-Material
+purity	NN	O	I-Material
+standard	NN	O	I-Material
+metals	NN	O	I-Material
+(	NN	O	O
+Sn	NN	O	B-Material
+,	NN	O	O
+Pb	NN	O	B-Material
+,	NN	O	O
+Zn	NN	O	B-Material
+,	NN	O	O
+Al	NN	O	B-Material
+,	NN	O	O
+Ag	NN	O	B-Material
+,	NN	O	O
+Ni	NN	O	B-Material
+)	NN	O	O
+with	NN	O	O
+various	NN	O	O
+melting	NN	O	O
+temperatures	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+cover	NN	O	O
+the	NN	O	O
+whole	NN	O	O
+temperature	NN	O	O
+range	NN	O	O
+of	NN	O	O
+the	NN	O	O
+measurement	NN	O	O
+.	NN	O	O
+After	NN	O	O
+drop	NN	O	O
+calorimetric	NN	O	B-Process
+measurements	NN	O	I-Process
+at	NN	O	O
+the	NN	O	O
+maximum	NN	O	O
+considered	NN	O	O
+temperature	NN	O	O
+,	NN	O	O
+the	NN	O	O
+material	NN	O	O
+was	NN	O	O
+subjected	NN	O	O
+to	NN	O	O
+a	NN	O	O
+new	NN	O	O
+XRD	NN	O	B-Process
+measurement	NN	O	O
+,	NN	O	O
+confirming	NN	O	O
+the	NN	O	O
+stability	NN	O	O
+of	NN	O	O
+the	NN	O	O
+compound	NN	O	B-Material
+under	NN	O	O
+the	NN	O	O
+experimental	NN	O	O
+conditions	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311515301069)
+
+The	NN	O	O
+fluence	NN	O	B-Task
+of	NN	O	I-Task
+each	NN	O	I-Task
+capsule	NN	O	I-Task
+was	NN	O	O
+determined	NN	O	O
+by	NN	O	O
+using	NN	O	O
+activation	NN	O	B-Material
+monitor	NN	O	I-Material
+sets	NN	O	I-Material
+.	NN	O	I-Material
+These	NN	O	O
+monitor	NN	O	B-Material
+sets	NN	O	I-Material
+consist	NN	O	O
+of	NN	O	O
+different	NN	O	O
+metal	NN	O	B-Material
+wire	NN	O	I-Material
+pieces	NN	O	I-Material
+that	NN	O	O
+have	NN	O	O
+an	NN	O	O
+activation	NN	O	O
+reaction	NN	O	O
+at	NN	O	O
+a	NN	O	O
+specific	NN	O	O
+energy	NN	O	O
+range	NN	O	O
+.	NN	O	O
+The	NN	O	O
+different	NN	O	O
+activation	NN	O	O
+energies	NN	O	O
+are	NN	O	O
+chosen	NN	O	O
+in	NN	O	O
+such	NN	O	O
+a	NN	O	O
+way	NN	O	O
+that	NN	O	O
+the	NN	O	O
+spectrum	NN	O	O
+can	NN	O	O
+be	NN	O	O
+reconstructed	NN	O	O
+.	NN	O	O
+In	NN	O	O
+BODEX	NN	O	O
+,	NN	O	O
+each	NN	O	O
+capsule	NN	O	B-Material
+contained	NN	O	O
+a	NN	O	O
+flux	NN	O	B-Material
+monitor	NN	O	I-Material
+set	NN	O	I-Material
+on	NN	O	O
+the	NN	O	O
+‘	NN	O	O
+back	NN	O	O
+side’	NN	O	O
+(	NN	O	O
+as	NN	O	O
+seen	NN	O	O
+from	NN	O	O
+the	NN	O	O
+core	NN	O	O
+)	NN	O	O
+and	NN	O	O
+one	NN	O	O
+on	NN	O	O
+the	NN	O	O
+front	NN	O	O
+side	NN	O	O
+,	NN	O	O
+positioned	NN	O	O
+at	NN	O	O
+the	NN	O	O
+central	NN	O	O
+height	NN	O	O
+of	NN	O	O
+the	NN	O	O
+capsules	NN	O	B-Material
+.	NN	O	O
+Additionally	NN	O	O
+,	NN	O	O
+one	NN	O	O
+detector	NN	O	B-Material
+was	NN	O	O
+placed	NN	O	O
+at	NN	O	O
+the	NN	O	O
+top	NN	O	O
+and	NN	O	O
+one	NN	O	O
+at	NN	O	O
+the	NN	O	O
+bottom	NN	O	O
+,	NN	O	O
+resulting	NN	O	O
+in	NN	O	O
+a	NN	O	O
+total	NN	O	O
+of	NN	O	O
+6	NN	O	O
+monitor	NN	O	B-Material
+sets	NN	O	O
+per	NN	O	O
+leg	NN	O	O
+.	NN	O	O
+The	NN	O	O
+fluence	NN	O	O
+in	NN	O	O
+each	NN	O	O
+capsule	NN	O	B-Material
+was	NN	O	O
+determined	NN	O	O
+as	NN	O	O
+the	NN	O	O
+average	NN	O	O
+between	NN	O	O
+the	NN	O	O
+two	NN	O	O
+flux	NN	O	B-Material
+monitor	NN	O	I-Material
+located	NN	O	O
+in	NN	O	O
+each	NN	O	O
+capsule	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+sets	NN	O	O
+have	NN	O	O
+been	NN	O	O
+analysed	NN	O	O
+by	NN	O	O
+determining	NN	O	B-Task
+the	NN	O	I-Task
+activation	NN	O	I-Task
+of	NN	O	I-Task
+each	NN	O	I-Task
+wire	NN	O	I-Task
+piece	NN	O	I-Task
+,	NN	O	O
+which	NN	O	O
+indicates	NN	O	O
+the	NN	O	O
+fluence	NN	O	B-Process
+of	NN	O	O
+a	NN	O	O
+specific	NN	O	O
+energy	NN	O	O
+range	NN	O	O
+.	NN	O	O
+Table	NN	O	O
+3	NN	O	O
+show	NN	O	O
+the	NN	O	O
+values	NN	O	O
+of	NN	O	O
+the	NN	O	O
+fluences	NN	O	B-Process
+for	NN	O	O
+the	NN	O	O
+two	NN	O	O
+capsules	NN	O	B-Material
+containing	NN	O	O
+molybdenum	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S0022311515301963)
+
+Following	NN	O	O
+fission	NN	O	B-Process
+,	NN	O	O
+noble	NN	O	B-Material
+gas	NN	O	I-Material
+atoms	NN	O	I-Material
+will	NN	O	O
+be	NN	O	O
+distributed	NN	O	O
+in	NN	O	O
+the	NN	O	O
+fuel	NN	O	B-Process
+matrix	NN	O	I-Process
+initially	NN	O	O
+accommodated	NN	O	O
+at	NN	O	O
+point	NN	O	B-Process
+defects	NN	O	I-Process
+trap	NN	O	I-Process
+sites	NN	O	I-Process
+,	NN	O	O
+generally	NN	O	O
+thought	NN	O	O
+to	NN	O	O
+be	NN	O	O
+Schottky	NN	O	B-Process
+trivacancy	NN	O	I-Process
+defects	NN	O	I-Process
+[	NN	O	O
+4,5,31	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Diffusion	NN	O	B-Process
+to	NN	O	O
+either	NN	O	O
+bubbles	NN	O	B-Material
+or	NN	O	O
+grain	NN	O	B-Material
+boundaries	NN	O	I-Material
+is	NN	O	O
+then	NN	O	O
+facilitated	NN	O	O
+by	NN	O	O
+associating	NN	O	O
+a	NN	O	O
+further	NN	O	O
+uranium	NN	O	B-Material
+vacancy	NN	O	O
+defect	NN	O	O
+for	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Material
+atom	NN	O	I-Material
+to	NN	O	O
+‘	NN	O	B-Process
+hop’	NN	O	I-Process
+into	NN	O	I-Process
+,	NN	O	O
+with	NN	O	O
+the	NN	O	O
+original	NN	O	O
+vacancy	NN	O	O
+then	NN	O	O
+able	NN	O	O
+to	NN	O	O
+loop	NN	O	B-Process
+around	NN	O	I-Process
+to	NN	O	O
+ensure	NN	O	O
+continued	NN	O	O
+diffusion	NN	O	B-Process
+.	NN	O	O
+The	NN	O	O
+rate	NN	O	O
+determining	NN	O	O
+step	NN	O	O
+in	NN	O	O
+the	NN	O	O
+process	NN	O	O
+is	NN	O	O
+not	NN	O	O
+the	NN	O	O
+migration	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+Xe	NN	O	B-Material
+itself	NN	O	O
+but	NN	O	O
+rather	NN	O	O
+the	NN	O	O
+rearrangement	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+VU	NN	O	B-Process
+defect	NN	O	I-Process
+to	NN	O	O
+facilitate	NN	O	O
+net	NN	O	O
+Xe	NN	O	B-Process
+diffusion	NN	O	I-Process
+[	NN	O	O
+6–8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Activation	NN	O	B-Process
+energies	NN	O	O
+for	NN	O	O
+the	NN	O	O
+overall	NN	O	O
+process	NN	O	O
+depend	NN	O	O
+on	NN	O	O
+the	NN	O	O
+availability	NN	O	O
+of	NN	O	O
+the	NN	O	O
+defect	NN	O	B-Process
+trap	NN	O	I-Process
+sites	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+in	NN	O	O
+turn	NN	O	O
+depends	NN	O	O
+on	NN	O	O
+the	NN	O	O
+crystal	NN	O	B-Process
+stoichiometry	NN	O	I-Process
+.	NN	O	O
+For	NN	O	O
+Xe	NN	O	B-Process
+diffusion	NN	O	I-Process
+in	NN	O	O
+UO2−x	NN	O	B-Material
+,	NN	O	O
+UO2	NN	O	B-Material
+and	NN	O	O
+UO2+x	NN	O	B-Material
+the	NN	O	O
+activation	NN	O	O
+energies	NN	O	O
+calculated	NN	O	O
+using	NN	O	O
+DFT	NN	O	B-Process
+are	NN	O	O
+7.04–12.92	NN	O	O
+eV	NN	O	O
+,	NN	O	O
+4.15–7.88	NN	O	O
+eV	NN	O	O
+and	NN	O	O
+1.38–4.07	NN	O	O
+eV	NN	O	O
+with	NN	O	O
+the	NN	O	O
+ranges	NN	O	O
+reflecting	NN	O	O
+the	NN	O	O
+way	NN	O	O
+the	NN	O	O
+calculations	NN	O	O
+were	NN	O	O
+performed	NN	O	O
+depending	NN	O	O
+on	NN	O	O
+the	NN	O	O
+charge	NN	O	B-Process
+states	NN	O	O
+of	NN	O	O
+the	NN	O	O
+defects	NN	O	O
+involved	NN	O	O
+and	NN	O	O
+the	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+a	NN	O	O
+Jahn	NN	O	B-Process
+–	NN	O	I-Process
+Teller	NN	O	I-Process
+distortion	NN	O	I-Process
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Activation	NN	O	O
+energies	NN	O	O
+calculated	NN	O	O
+using	NN	O	O
+empirical	NN	O	B-Process
+pair	NN	O	I-Process
+potentials	NN	O	I-Process
+can	NN	O	O
+vary	NN	O	O
+strongly	NN	O	O
+depending	NN	O	O
+on	NN	O	O
+the	NN	O	O
+choice	NN	O	O
+of	NN	O	O
+potential	NN	O	B-Process
+.	NN	O	O
+Govers	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+examined	NN	O	O
+three	NN	O	O
+different	NN	O	O
+potentials	NN	O	B-Process
+for	NN	O	O
+UO2	NN	O	B-Material
+(	NN	O	O
+those	NN	O	O
+of	NN	O	O
+Basak	NN	O	O
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+,	NN	O	O
+Jackson	NN	O	O
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+and	NN	O	O
+Morelon	NN	O	O
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+)	NN	O	O
+coupled	NN	O	O
+with	NN	O	O
+different	NN	O	O
+parameterisations	NN	O	O
+for	NN	O	O
+the	NN	O	O
+U	NN	O	B-Material
+–	NN	O	I-Material
+Xe	NN	O	I-Material
+and	NN	O	O
+O	NN	O	B-Material
+–	NN	O	I-Material
+Xe	NN	O	I-Material
+interactions	NN	O	O
+from	NN	O	O
+Geng	NN	O	O
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+and	NN	O	O
+Nicoll	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+and	NN	O	O
+recommend	NN	O	O
+values	NN	O	O
+of	NN	O	O
+6.5	NN	O	O
+eV	NN	O	O
+,	NN	O	O
+4.5	NN	O	O
+eV	NN	O	O
+and	NN	O	O
+2.4	NN	O	O
+eV	NN	O	O
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+for	NN	O	O
+the	NN	O	O
+different	NN	O	O
+stoichiometric	NN	O	O
+regimes	NN	O	O
+in	NN	O	O
+very	NN	O	O
+good	NN	O	O
+agreement	NN	O	O
+with	NN	O	O
+the	NN	O	O
+experimental	NN	O	O
+values	NN	O	O
+of	NN	O	O
+6.0	NN	O	O
+eV	NN	O	O
+,	NN	O	O
+3.9	NN	O	O
+eV	NN	O	O
+and	NN	O	O
+1.7	NN	O	O
+eV	NN	O	O
+respectively	NN	O	O
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0022311515303640)
+
+Ferritic	NN	O	B-Material
+and	NN	O	I-Material
+martensitic	NN	O	I-Material
+steels	NN	O	I-Material
+are	NN	O	O
+candidate	NN	O	O
+materials	NN	O	O
+for	NN	O	O
+use	NN	O	O
+in	NN	O	O
+nuclear	NN	O	B-Material
+reactors	NN	O	I-Material
+[	NN	O	O
+1,2	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+transmutation	NN	O	B-Material
+-	NN	O	I-Material
+created	NN	O	I-Material
+inert	NN	O	I-Material
+gas	NN	O	I-Material
+,	NN	O	O
+especially	NN	O	O
+He	NN	O	B-Material
+,	NN	O	O
+plays	NN	O	O
+an	NN	O	O
+important	NN	O	O
+role	NN	O	O
+in	NN	O	O
+the	NN	O	O
+microstructural	NN	O	B-Task
+evolution	NN	O	I-Task
+of	NN	O	I-Task
+these	NN	O	I-Task
+steels	NN	O	I-Task
+under	NN	O	I-Task
+neutron	NN	O	I-Task
+irradiation	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+a	NN	O	O
+previous	NN	O	O
+paper	NN	O	O
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+the	NN	O	O
+mechanisms	NN	O	B-Task
+by	NN	O	I-Task
+which	NN	O	I-Task
+He	NN	O	I-Task
+in	NN	O	I-Task
+a	NN	O	I-Task
+perfect	NN	O	I-Task
+body	NN	O	I-Task
+-	NN	O	I-Task
+centred	NN	O	I-Task
+-	NN	O	I-Task
+cubic	NN	O	I-Task
+(	NN	O	I-Task
+bcc	NN	O	I-Task
+)	NN	O	I-Task
+Fe	NN	O	I-Task
+lattice	NN	O	I-Task
+,	NN	O	I-Task
+can	NN	O	I-Task
+agglomerate	NN	O	I-Task
+into	NN	O	I-Task
+bubbles	NN	O	I-Task
+was	NN	O	O
+discussed	NN	O	O
+.	NN	O	O
+It	NN	O	O
+was	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+small	NN	O	O
+He	NN	O	B-Material
+interstitial	NN	O	I-Material
+clusters	NN	O	I-Material
+are	NN	O	O
+highly	NN	O	O
+mobile	NN	O	O
+but	NN	O	O
+become	NN	O	O
+effectively	NN	O	O
+pinned	NN	O	O
+with	NN	O	O
+the	NN	O	O
+emission	NN	O	O
+of	NN	O	O
+Fe	NN	O	B-Material
+interstitials	NN	O	I-Material
+when	NN	O	O
+the	NN	O	O
+clusters	NN	O	O
+contain	NN	O	O
+5	NN	O	O
+or	NN	O	O
+more	NN	O	O
+He	NN	O	B-Material
+atoms	NN	O	I-Material
+.	NN	O	O
+Small	NN	O	O
+bubbles	NN	O	B-Material
+up	NN	O	O
+to	NN	O	O
+around	NN	O	O
+1.5	NN	O	O
+nm	NN	O	O
+in	NN	O	O
+diameter	NN	O	O
+can	NN	O	O
+easily	NN	O	O
+form	NN	O	O
+at	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+from	NN	O	O
+such	NN	O	O
+seed	NN	O	O
+points	NN	O	O
+but	NN	O	O
+larger	NN	O	O
+bubbles	NN	O	B-Material
+are	NN	O	O
+more	NN	O	O
+difficult	NN	O	O
+to	NN	O	O
+form	NN	O	O
+by	NN	O	O
+diffusion	NN	O	B-Process
+alone	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+induced	NN	O	B-Process
+strain	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+bcc	NN	O	B-Material
+lattice	NN	O	I-Material
+which	NN	O	O
+increases	NN	O	O
+the	NN	O	O
+energy	NN	O	O
+barriers	NN	O	O
+for	NN	O	O
+diffusion	NN	O	B-Material
+towards	NN	O	O
+the	NN	O	O
+bubbles	NN	O	B-Material
+whilst	NN	O	O
+reducing	NN	O	O
+them	NN	O	O
+in	NN	O	O
+a	NN	O	O
+direction	NN	O	O
+away	NN	O	O
+from	NN	O	O
+the	NN	O	O
+bubbles	NN	O	B-Material
+.	NN	O	O
+Subsequent	NN	O	O
+bubble	NN	O	B-Process
+enlargement	NN	O	I-Process
+can	NN	O	O
+then	NN	O	O
+only	NN	O	O
+occur	NN	O	O
+either	NN	O	O
+through	NN	O	O
+increased	NN	O	O
+temperature	NN	O	O
+or	NN	O	O
+by	NN	O	O
+radiation	NN	O	B-Process
+induced	NN	O	I-Process
+mechanisms	NN	O	I-Process
+which	NN	O	O
+increase	NN	O	O
+the	NN	O	O
+number	NN	O	O
+of	NN	O	O
+vacancies	NN	O	O
+in	NN	O	O
+the	NN	O	O
+bubble	NN	O	B-Material
+and	NN	O	O
+reduce	NN	O	B-Task
+the	NN	O	I-Task
+lattice	NN	O	I-Task
+strain	NN	O	I-Task
+.	NN	O	O
+Emission	NN	O	B-Process
+of	NN	O	I-Process
+interracial	NN	O	I-Process
+loops	NN	O	I-Process
+from	NN	O	O
+such	NN	O	O
+a	NN	O	O
+bubble	NN	O	B-Material
+was	NN	O	O
+not	NN	O	O
+observed	NN	O	O
+in	NN	O	O
+molecular	NN	O	B-Process
+dynamics	NN	O	I-Process
+simulations	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0029549314001551)
+
+An	NN	O	O
+increase	NN	O	O
+of	NN	O	O
+neutron	NN	O	B-Process
+leakage	NN	O	I-Process
+from	NN	O	O
+the	NN	O	O
+core	NN	O	B-Material
+region	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+achieved	NN	O	O
+through	NN	O	O
+modifications	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+core	NN	O	I-Process
+geometry	NN	O	I-Process
+(	NN	O	O
+usually	NN	O	O
+by	NN	O	O
+adopting	NN	O	O
+a	NN	O	O
+pan	NN	O	B-Process
+-	NN	O	I-Process
+cake	NN	O	I-Process
+geometry	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+active	NN	O	I-Process
+core	NN	O	I-Process
+region	NN	O	I-Process
+at	NN	O	O
+the	NN	O	O
+expense	NN	O	O
+of	NN	O	O
+the	NN	O	O
+general	NN	O	O
+neutron	NN	O	B-Material
+economy	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Extensive	NN	O	O
+studies	NN	O	O
+determined	NN	O	O
+a	NN	O	O
+set	NN	O	O
+of	NN	O	O
+core	NN	O	B-Task
+design	NN	O	I-Task
+modifications	NN	O	I-Task
+that	NN	O	I-Task
+optimised	NN	O	I-Task
+the	NN	O	I-Task
+total	NN	O	I-Task
+sodium	NN	O	I-Task
+void	NN	O	I-Task
+reactivity	NN	O	I-Task
+(	NN	O	O
+becoming	NN	O	O
+less	NN	O	O
+positive	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Among	NN	O	O
+the	NN	O	O
+most	NN	O	O
+efficient	NN	O	O
+design	NN	O	B-Process
+solutions	NN	O	I-Process
+identified	NN	O	O
+is	NN	O	O
+an	NN	O	O
+enlarged	NN	O	B-Process
+sodium	NN	O	I-Process
+plenum	NN	O	I-Process
+above	NN	O	O
+the	NN	O	O
+active	NN	O	O
+core	NN	O	B-Material
+region	NN	O	O
+in	NN	O	O
+combination	NN	O	O
+with	NN	O	O
+an	NN	O	O
+absorber	NN	O	B-Process
+layer	NN	O	I-Process
+above	NN	O	O
+the	NN	O	O
+sodium	NN	O	B-Material
+plenum	NN	O	I-Material
+(	NN	O	O
+to	NN	O	O
+reduce	NN	O	B-Task
+neutron	NN	O	I-Task
+backscattering	NN	O	I-Task
+from	NN	O	I-Task
+the	NN	O	I-Task
+reflector	NN	O	I-Task
+region	NN	O	I-Task
+above	NN	O	I-Task
+the	NN	O	I-Task
+plenum	NN	O	I-Task
+)	NN	O	O
+.	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+19	NN	O	O
+shows	NN	O	O
+the	NN	O	O
+combined	NN	O	O
+effect	NN	O	O
+of	NN	O	O
+different	NN	O	O
+upper	NN	O	B-Material
+plenum	NN	O	I-Material
+thicknesses	NN	O	O
+of	NN	O	O
+the	NN	O	O
+absorber	NN	O	B-Material
+and	NN	O	I-Material
+boron	NN	O	I-Material
+layers	NN	O	I-Material
+.	NN	O	O
+It	NN	O	O
+can	NN	O	O
+be	NN	O	O
+observed	NN	O	O
+that	NN	O	O
+the	NN	O	O
+sequential	NN	O	O
+increase	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+layer	NN	O	I-Process
+'s	NN	O	I-Process
+thickness	NN	O	I-Process
+converge	NN	O	O
+to	NN	O	O
+an	NN	O	O
+asymptotic	NN	O	O
+value	NN	O	O
+of	NN	O	O
+reactivity	NN	O	B-Process
+reduction	NN	O	I-Process
+slightly	NN	O	O
+over	NN	O	O
+800pcm	NN	O	O
+.	NN	O	O
+The	NN	O	O
+pair	NN	O	O
+of	NN	O	O
+values	NN	O	O
+selected	NN	O	O
+was	NN	O	O
+60	NN	O	O
+cm	NN	O	O
+for	NN	O	O
+the	NN	O	O
+sodium	NN	O	B-Material
+plenum	NN	O	I-Material
+and	NN	O	O
+30	NN	O	O
+cm	NN	O	O
+for	NN	O	O
+the	NN	O	O
+boron	NN	O	B-Material
+layer	NN	O	I-Material
+.	NN	O	O
+These	NN	O	O
+modifications	NN	O	O
+implied	NN	O	O
+a	NN	O	O
+considerable	NN	O	O
+increase	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+sub	NN	O	I-Process
+-	NN	O	I-Process
+assembly	NN	O	I-Process
+length	NN	O	I-Process
+that	NN	O	O
+was	NN	O	O
+compensated	NN	O	O
+by	NN	O	O
+reducing	NN	O	B-Task
+the	NN	O	I-Task
+upper	NN	O	I-Task
+axial	NN	O	I-Task
+reflector	NN	O	I-Task
+width	NN	O	I-Task
+(	NN	O	O
+Sun	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2013	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0029549314002970)
+
+The	NN	O	O
+design	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+temperature	NN	O	O
+reached	NN	O	O
+in	NN	O	O
+the	NN	O	O
+sample	NN	O	B-Material
+holders	NN	O	I-Material
+,	NN	O	O
+guarantees	NN	O	O
+that	NN	O	O
+the	NN	O	O
+Na	NN	O	B-Material
+remains	NN	O	O
+liquid	NN	O	O
+during	NN	O	O
+operation	NN	O	O
+to	NN	O	O
+improve	NN	O	B-Task
+the	NN	O	I-Task
+heating	NN	O	I-Task
+transfer	NN	O	I-Task
+and	NN	O	O
+avoiding	NN	O	O
+solid	NN	O	B-Process
+formation	NN	O	I-Process
+(	NN	O	O
+too	NN	O	O
+cold	NN	O	O
+working	NN	O	O
+temperature	NN	O	O
+)	NN	O	O
+or	NN	O	O
+sodium	NN	O	B-Process
+boiling	NN	O	I-Process
+(	NN	O	O
+too	NN	O	O
+hot	NN	O	O
+working	NN	O	O
+temperature	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+temperature	NN	O	O
+above	NN	O	O
+and	NN	O	O
+just	NN	O	O
+below	NN	O	O
+the	NN	O	O
+Na	NN	O	B-Material
+surface	NN	O	I-Material
+will	NN	O	O
+be	NN	O	O
+monitored	NN	O	B-Process
+by	NN	O	I-Process
+six	NN	O	I-Process
+dedicated	NN	O	I-Process
+thermocouples	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+order	NN	O	O
+to	NN	O	O
+prevent	NN	O	O
+oxidation	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+Na	NN	O	B-Material
+,	NN	O	O
+the	NN	O	O
+plenum	NN	O	O
+of	NN	O	O
+the	NN	O	O
+1st	NN	O	O
+containment	NN	O	O
+is	NN	O	O
+filled	NN	O	O
+with	NN	O	O
+high	NN	O	B-Material
+-	NN	O	I-Material
+purity	NN	O	I-Material
+He	NN	O	I-Material
+at	NN	O	O
+0.1MPa	NN	O	O
+,	NN	O	O
+sealed	NN	O	O
+after	NN	O	O
+final	NN	O	O
+assembly	NN	O	O
+and	NN	O	O
+kept	NN	O	O
+closed	NN	O	O
+during	NN	O	O
+in	NN	O	O
+-	NN	O	O
+pile	NN	O	O
+operation	NN	O	O
+(	NN	O	O
+no	NN	O	O
+gas	NN	O	B-Process
+circulation	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+1st	NN	O	O
+containment	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+heat	NN	O	O
+generated	NN	O	O
+by	NN	O	O
+fission	NN	O	B-Process
+and	NN	O	I-Process
+gamma	NN	O	I-Process
+absorption	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+materials	NN	O	O
+will	NN	O	O
+be	NN	O	O
+radially	NN	O	O
+dissipated	NN	O	O
+through	NN	O	O
+the	NN	O	O
+Na	NN	O	B-Material
+bath	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+structural	NN	O	O
+materials	NN	O	O
+and	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Material
+gaps	NN	O	O
+by	NN	O	O
+conduction	NN	O	O
+and	NN	O	O
+radiation	NN	O	O
+to	NN	O	O
+the	NN	O	O
+downstream	NN	O	O
+primary	NN	O	O
+coolant	NN	O	O
+of	NN	O	O
+the	NN	O	O
+TRIO	NN	O	B-Material
+wet	NN	O	I-Material
+channel	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0031920113000708)
+
+Geomagnetic	NN	O	B-Process
+jerks	NN	O	I-Process
+are	NN	O	O
+conspicuous	NN	O	O
+yet	NN	O	O
+poorly	NN	O	O
+understood	NN	O	O
+phenomena	NN	O	O
+of	NN	O	O
+Earth	NN	O	B-Material
+’s	NN	O	I-Material
+magnetic	NN	O	I-Material
+field	NN	O	I-Material
+,	NN	O	O
+motivating	NN	O	O
+investigations	NN	O	O
+of	NN	O	O
+their	NN	O	O
+morphology	NN	O	O
+and	NN	O	O
+the	NN	O	O
+theory	NN	O	O
+behind	NN	O	O
+their	NN	O	O
+origins	NN	O	O
+.	NN	O	O
+Jerks	NN	O	B-Process
+are	NN	O	O
+most	NN	O	O
+commonly	NN	O	O
+defined	NN	O	O
+by	NN	O	O
+their	NN	O	O
+observed	NN	O	O
+form	NN	O	O
+at	NN	O	O
+a	NN	O	O
+single	NN	O	O
+observatory	NN	O	O
+as	NN	O	O
+‘	NN	O	O
+V’	NN	O	O
+shapes	NN	O	O
+in	NN	O	O
+a	NN	O	O
+single	NN	O	O
+component	NN	O	O
+of	NN	O	O
+the	NN	O	O
+geomagnetic	NN	O	B-Process
+secular	NN	O	I-Process
+variation	NN	O	I-Process
+(	NN	O	O
+SV	NN	O	B-Process
+)	NN	O	O
+,	NN	O	O
+the	NN	O	O
+first	NN	O	O
+time	NN	O	O
+derivative	NN	O	O
+of	NN	O	O
+the	NN	O	O
+main	NN	O	B-Material
+magnetic	NN	O	I-Material
+field	NN	O	I-Material
+(	NN	O	O
+MF	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+times	NN	O	O
+of	NN	O	O
+the	NN	O	O
+gradient	NN	O	B-Process
+changes	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+separate	NN	O	O
+linear	NN	O	O
+trends	NN	O	O
+of	NN	O	O
+several	NN	O	O
+years	NN	O	O
+,	NN	O	O
+have	NN	O	O
+associated	NN	O	O
+step	NN	O	O
+changes	NN	O	O
+in	NN	O	O
+the	NN	O	O
+second	NN	O	O
+time	NN	O	O
+derivative	NN	O	O
+of	NN	O	O
+the	NN	O	O
+MF	NN	O	B-Material
+(	NN	O	O
+secular	NN	O	B-Process
+acceleration	NN	O	I-Process
+(	NN	O	O
+SA	NN	O	B-Process
+)	NN	O	O
+)	NN	O	O
+and	NN	O	O
+impulses	NN	O	O
+in	NN	O	O
+the	NN	O	O
+third	NN	O	O
+time	NN	O	O
+derivative	NN	O	O
+.	NN	O	O
+The	NN	O	O
+‘	NN	O	O
+V’	NN	O	O
+shape	NN	O	O
+SV	NN	O	O
+definition	NN	O	O
+of	NN	O	O
+jerks	NN	O	B-Process
+includes	NN	O	O
+an	NN	O	O
+implicit	NN	O	O
+expectation	NN	O	O
+of	NN	O	O
+a	NN	O	O
+‘	NN	O	B-Process
+large’	NN	O	I-Process
+magnitude	NN	O	I-Process
+step	NN	O	I-Process
+change	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+gradient	NN	O	O
+without	NN	O	O
+definition	NN	O	O
+of	NN	O	O
+this	NN	O	O
+scale	NN	O	O
+or	NN	O	O
+its	NN	O	O
+threshold	NN	O	O
+value	NN	O	O
+other	NN	O	O
+than	NN	O	O
+the	NN	O	O
+basic	NN	O	O
+need	NN	O	O
+for	NN	O	O
+it	NN	O	O
+to	NN	O	O
+be	NN	O	O
+observable	NN	O	O
+in	NN	O	O
+the	NN	O	O
+data	NN	O	O
+above	NN	O	O
+the	NN	O	O
+highly	NN	O	O
+variable	NN	O	O
+background	NN	O	O
+noise	NN	O	O
+.	NN	O	O
+Jerks	NN	O	B-Process
+can	NN	O	O
+be	NN	O	O
+described	NN	O	O
+by	NN	O	O
+their	NN	O	O
+amplitude	NN	O	O
+,	NN	O	O
+that	NN	O	O
+is	NN	O	O
+,	NN	O	O
+the	NN	O	O
+difference	NN	O	O
+in	NN	O	O
+the	NN	O	O
+gradients	NN	O	O
+of	NN	O	O
+the	NN	O	O
+two	NN	O	O
+linear	NN	O	O
+SV	NN	O	B-Process
+segments	NN	O	I-Process
+about	NN	O	O
+a	NN	O	O
+jerk	NN	O	B-Process
+,	NN	O	O
+A	NN	O	O
+=	NN	O	O
+a2-a1	NN	O	O
+,	NN	O	O
+where	NN	O	O
+a2	NN	O	O
+is	NN	O	O
+the	NN	O	O
+gradient	NN	O	O
+after	NN	O	O
+the	NN	O	O
+jerk	NN	O	B-Process
+and	NN	O	O
+a1	NN	O	O
+is	NN	O	O
+the	NN	O	O
+gradient	NN	O	O
+before	NN	O	O
+the	NN	O	O
+jerk	NN	O	B-Process
+.	NN	O	O
+This	NN	O	O
+measure	NN	O	O
+is	NN	O	O
+essentially	NN	O	O
+the	NN	O	O
+best	NN	O	O
+fit	NN	O	O
+SA	NN	O	B-Process
+change	NN	O	I-Process
+across	NN	O	O
+a	NN	O	O
+jerk	NN	O	B-Process
+.	NN	O	O
+Jerk	NN	O	B-Process
+amplitude	NN	O	I-Process
+is	NN	O	O
+thus	NN	O	O
+positive	NN	O	O
+for	NN	O	O
+a	NN	O	O
+positive	NN	O	O
+step	NN	O	O
+in	NN	O	O
+SA	NN	O	B-Process
+and	NN	O	O
+negative	NN	O	O
+for	NN	O	O
+a	NN	O	O
+negative	NN	O	O
+step	NN	O	O
+.	NN	O	O
+Here	NN	O	O
+we	NN	O	O
+do	NN	O	O
+not	NN	O	O
+consider	NN	O	O
+spatial	NN	O	O
+extent	NN	O	O
+in	NN	O	O
+our	NN	O	O
+definition	NN	O	O
+and	NN	O	O
+refer	NN	O	O
+to	NN	O	O
+individual	NN	O	O
+features	NN	O	O
+in	NN	O	O
+one	NN	O	O
+field	NN	O	O
+component	NN	O	O
+of	NN	O	O
+a	NN	O	O
+given	NN	O	O
+observatory	NN	O	O
+time	NN	O	O
+series	NN	O	O
+as	NN	O	O
+a	NN	O	O
+single	NN	O	O
+jerk	NN	O	B-Process
+.	NN	O	O
+
+-DOCSTART- (S0031920113001222)
+
+Seismic	NN	O	B-Process
+tomography	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+powerful	NN	O	O
+tool	NN	O	O
+to	NN	O	O
+investigate	NN	O	B-Task
+the	NN	O	I-Task
+deep	NN	O	I-Task
+structure	NN	O	I-Task
+under	NN	O	I-Task
+the	NN	O	I-Task
+volcanoes	NN	O	I-Task
+.	NN	O	O
+With	NN	O	O
+the	NN	O	O
+recently	NN	O	O
+rapid	NN	O	O
+development	NN	O	O
+of	NN	O	O
+Chinese	NN	O	O
+provincial	NN	O	B-Process
+seismic	NN	O	I-Process
+networks	NN	O	I-Process
+(	NN	O	O
+Zheng	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2009	NN	O	O
+,	NN	O	O
+2010	NN	O	O
+)	NN	O	O
+and	NN	O	O
+some	NN	O	O
+portable	NN	O	B-Process
+seismic	NN	O	I-Process
+arrays	NN	O	I-Process
+(	NN	O	O
+Hetland	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2004	NN	O	O
+;	NN	O	O
+Duan	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2009	NN	O	O
+;	NN	O	O
+Lei	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2012b	NN	O	O
+)	NN	O	O
+around	NN	O	O
+the	NN	O	O
+volcanoes	NN	O	O
+,	NN	O	O
+it	NN	O	O
+has	NN	O	O
+become	NN	O	O
+possible	NN	O	O
+to	NN	O	O
+image	NN	O	B-Process
+the	NN	O	I-Process
+detailed	NN	O	I-Process
+3-D	NN	O	I-Process
+velocity	NN	O	I-Process
+structure	NN	O	I-Process
+under	NN	O	O
+some	NN	O	O
+of	NN	O	O
+these	NN	O	O
+volcanoes	NN	O	O
+,	NN	O	O
+where	NN	O	O
+seismic	NN	O	B-Material
+stations	NN	O	I-Material
+are	NN	O	O
+densely	NN	O	O
+spaced	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+overview	NN	O	O
+,	NN	O	O
+we	NN	O	O
+synthesize	NN	O	B-Task
+the	NN	O	I-Task
+results	NN	O	I-Task
+from	NN	O	I-Task
+the	NN	O	I-Task
+deep	NN	O	I-Task
+seismic	NN	O	I-Task
+images	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+upper	NN	O	I-Task
+mantle	NN	O	I-Task
+under	NN	O	O
+the	NN	O	O
+Changbaishan	NN	O	B-Material
+,	NN	O	I-Material
+Tengchong	NN	O	I-Material
+,	NN	O	I-Material
+Hainan	NN	O	I-Material
+volcanoes	NN	O	I-Material
+as	NN	O	I-Material
+well	NN	O	I-Material
+as	NN	O	I-Material
+the	NN	O	I-Material
+Datong	NN	O	I-Material
+volcano	NN	O	O
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+)	NN	O	O
+.	NN	O	O
+We	NN	O	O
+also	NN	O	O
+evaluate	NN	O	O
+the	NN	O	O
+advantages	NN	O	B-Task
+of	NN	O	I-Task
+recently	NN	O	I-Task
+updated	NN	O	I-Task
+seismic	NN	O	I-Task
+tomographic	NN	O	I-Task
+techniques	NN	O	I-Task
+for	NN	O	O
+deriving	NN	O	O
+potential	NN	O	O
+information	NN	O	O
+.	NN	O	O
+This	NN	O	O
+work	NN	O	O
+updates	NN	O	O
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+review	NN	O	O
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+Zhao	NN	O	O
+and	NN	O	O
+Liu	NN	O	O
+(	NN	O	O
+2010	NN	O	O
+)	NN	O	O
+on	NN	O	O
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+,	NN	O	O
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+detailed	NN	O	O
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+available	NN	O	O
+information	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386108010392)
+
+Microhardness	NN	O	B-Task
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+,	NN	O	O
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+,	NN	O	O
+E	NN	O	O
+,	NN	O	O
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+.	NN	O	O
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+-	NN	O	I-Material
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+20	NN	O	O
+]	NN	O	O
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+,	NN	O	O
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+[	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+-	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+,	NN	O	I-Task
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+]	NN	O	O
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+-	NN	O	O
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+/	NN	O	O
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+-DOCSTART- (S003238610801080X)
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+-	NN	O	I-Material
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+)	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+due	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+“	NN	O	B-Process
+(	NN	O	I-Process
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+)	NN	O	I-Process
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+”	NN	O	I-Process
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+data	NN	O	B-Task
+analysis	NN	O	I-Task
+in	NN	O	O
+advance	NN	O	O
+:	NN	O	O
+They	NN	O	O
+do	NN	O	O
+not	NN	O	O
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+an	NN	O	O
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+into	NN	O	O
+the	NN	O	O
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+.	NN	O	O
+After	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+the	NN	O	O
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+the	NN	O	O
+microscopy	NN	O	B-Task
+and	NN	O	O
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+to	NN	O	O
+evaluate	NN	O	O
+the	NN	O	O
+structural	NN	O	O
+parameters	NN	O	O
+by	NN	O	O
+scattering	NN	O	O
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+the	NN	O	O
+basis	NN	O	O
+of	NN	O	O
+the	NN	O	O
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+;	NN	O	O
+the	NN	O	O
+two	NN	O	O
+methods	NN	O	O
+are	NN	O	O
+complementary	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S003238610900086X)
+
+We	NN	O	O
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+the	NN	O	O
+intensity	NN	O	O
+scattered	NN	O	O
+by	NN	O	O
+a	NN	O	O
+random	NN	O	O
+mixture	NN	O	O
+of	NN	O	O
+deuterated	NN	O	B-Process
+/	NN	O	O
+hydrogenated	NN	O	B-Process
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+chains	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
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+used	NN	O	O
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+the	NN	O	O
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+plots	NN	O	I-Material
+by	NN	O	O
+sets	NN	O	O
+of	NN	O	O
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+stems	NN	O	I-Material
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+very	NN	O	O
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+.	NN	O	O
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+it	NN	O	O
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+be	NN	O	O
+adequate	NN	O	O
+in	NN	O	O
+the	NN	O	O
+reciprocal	NN	O	O
+coordinate	NN	O	O
+range	NN	O	O
+under	NN	O	O
+investigation	NN	O	O
+[	NN	O	O
+0<q(=4πsinθ/λ)≤0.25Å−1	NN	O	O
+]	NN	O	O
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+the	NN	O	O
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+more	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+identified	NN	O	O
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+-	NN	O	I-Material
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+a	NN	O	O
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+1.27Å	NN	O	O
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+straight	NN	O	O
+lines	NN	O	O
+coinciding	NN	O	O
+with	NN	O	O
+the	NN	O	O
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+,	NN	O	O
+100	NN	O	O
+scattering	NN	O	O
+centres	NN	O	O
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+each	NN	O	O
+stem	NN	O	B-Material
+;	NN	O	O
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+.	NN	O	O
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+–	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+.	NN	O	O
+Defining	NN	O	O
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+i	NN	O	O
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+1	NN	O	O
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+the	NN	O	O
+total	NN	O	O
+number	NN	O	O
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+centres	NN	O	I-Material
+,	NN	O	O
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+(	NN	O	O
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+9](1A)q2·I(q)=C·(bH−bD)2∑i=1ns·100∑j=1ns·1004πqsin(q·dij)dij;dij2=Δij2+(zj−zi)2;q=2πsinθλwhere	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+The	NN	O	O
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+-	NN	O	O
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+zi	NN	O	O
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+i	NN	O	O
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+.	NN	O	O
+For	NN	O	O
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+The	NN	O	O
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+Eq	NN	O	O
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+1A	NN	O	O
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+extended	NN	O	O
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+the	NN	O	O
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+,	NN	O	O
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+Figs	NN	O	O
+.	NN	O	O
+2	NN	O	O
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+10	NN	O	O
+for	NN	O	O
+examples	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386109001712)
+
+With	NN	O	O
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+performance	NN	O	O
+,	NN	O	O
+simulations	NN	O	B-Process
+in	NN	O	O
+much	NN	O	O
+larger	NN	O	O
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+feasible	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+full	NN	O	B-Process
+-	NN	O	I-Process
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+approaches	NN	O	I-Process
+to	NN	O	O
+polymer	NN	O	B-Task
+crystallization	NN	O	I-Task
+need	NN	O	O
+extremely	NN	O	O
+large	NN	O	O
+computer	NN	O	O
+power	NN	O	O
+even	NN	O	O
+in	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+simple	NN	O	B-Material
+polymers	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+appropriate	NN	O	B-Process
+modeling	NN	O	I-Process
+or	NN	O	O
+coarse	NN	O	B-Process
+-	NN	O	I-Process
+graining	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+system	NN	O	I-Process
+is	NN	O	O
+imperative	NN	O	O
+.	NN	O	O
+From	NN	O	O
+a	NN	O	O
+series	NN	O	O
+of	NN	O	O
+work	NN	O	O
+on	NN	O	O
+the	NN	O	O
+development	NN	O	O
+of	NN	O	O
+coarse	NN	O	B-Process
+-	NN	O	I-Process
+grained	NN	O	I-Process
+models	NN	O	I-Process
+for	NN	O	O
+polymers	NN	O	B-Material
+,	NN	O	O
+Mayer	NN	O	O
+and	NN	O	O
+Muller	NN	O	O
+-	NN	O	O
+Plathe	NN	O	O
+have	NN	O	O
+build	NN	O	O
+up	NN	O	O
+a	NN	O	O
+model	NN	O	O
+of	NN	O	O
+poly(vinyl	NN	O	B-Material
+alcohol	NN	O	I-Material
+)	NN	O	I-Material
+(	NN	O	O
+PVA	NN	O	B-Material
+)	NN	O	O
+for	NN	O	O
+studying	NN	O	O
+early	NN	O	O
+stage	NN	O	O
+of	NN	O	O
+crystallization	NN	O	B-Process
+.	NN	O	O
+They	NN	O	O
+investigated	NN	O	O
+the	NN	O	O
+emergence	NN	O	O
+of	NN	O	O
+crystalline	NN	O	B-Material
+order	NN	O	O
+from	NN	O	O
+the	NN	O	O
+isotropic	NN	O	B-Material
+melt	NN	O	I-Material
+by	NN	O	O
+rapid	NN	O	B-Process
+quenching	NN	O	I-Process
+[	NN	O	O
+51,52	NN	O	O
+]	NN	O	O
+.	NN	O	O
+They	NN	O	O
+could	NN	O	O
+reproduce	NN	O	O
+many	NN	O	O
+elementary	NN	O	O
+processes	NN	O	O
+of	NN	O	O
+homogenous	NN	O	B-Process
+nucleation	NN	O	I-Process
+that	NN	O	O
+showed	NN	O	O
+good	NN	O	O
+correspondence	NN	O	O
+with	NN	O	O
+experiments	NN	O	O
+and	NN	O	O
+other	NN	O	O
+simulations	NN	O	B-Process
+,	NN	O	O
+in	NN	O	O
+temperature	NN	O	O
+dependence	NN	O	O
+of	NN	O	O
+lamella	NN	O	B-Material
+thickness	NN	O	O
+,	NN	O	O
+structure	NN	O	O
+of	NN	O	O
+fold	NN	O	B-Material
+surface	NN	O	I-Material
+,	NN	O	O
+etc	NN	O	O
+.	NN	O	O
+In	NN	O	O
+their	NN	O	O
+work	NN	O	O
+,	NN	O	O
+they	NN	O	O
+neglected	NN	O	O
+long	NN	O	O
+-	NN	O	O
+range	NN	O	O
+force	NN	O	O
+(	NN	O	O
+van	NN	O	O
+der	NN	O	O
+Waals	NN	O	O
+attraction	NN	O	O
+)	NN	O	O
+to	NN	O	O
+accelerate	NN	O	O
+computation	NN	O	O
+.	NN	O	O
+Their	NN	O	O
+model	NN	O	O
+has	NN	O	O
+the	NN	O	O
+energy	NN	O	O
+contribution	NN	O	O
+due	NN	O	O
+to	NN	O	O
+intrachain	NN	O	B-Process
+interactions	NN	O	I-Process
+only	NN	O	O
+and	NN	O	O
+the	NN	O	O
+dominant	NN	O	O
+driving	NN	O	O
+force	NN	O	O
+for	NN	O	O
+crystallization	NN	O	B-Process
+is	NN	O	O
+entropic	NN	O	O
+,	NN	O	O
+which	NN	O	O
+seems	NN	O	O
+to	NN	O	O
+ignore	NN	O	O
+dominant	NN	O	O
+driving	NN	O	O
+force	NN	O	O
+for	NN	O	O
+polymer	NN	O	B-Process
+crystallization	NN	O	I-Process
+in	NN	O	O
+conventional	NN	O	O
+sense	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+their	NN	O	O
+work	NN	O	O
+is	NN	O	O
+reminiscent	NN	O	O
+of	NN	O	O
+the	NN	O	O
+classical	NN	O	B-Process
+solid	NN	O	I-Process
+–	NN	O	I-Process
+liquid	NN	O	I-Process
+transition	NN	O	I-Process
+in	NN	O	O
+systems	NN	O	O
+of	NN	O	O
+repulsive	NN	O	B-Material
+spherical	NN	O	I-Material
+atoms	NN	O	I-Material
+[	NN	O	O
+53	NN	O	O
+]	NN	O	O
+and	NN	O	O
+poses	NN	O	O
+an	NN	O	O
+intriguing	NN	O	O
+problem	NN	O	O
+as	NN	O	O
+to	NN	O	O
+the	NN	O	O
+intrinsic	NN	O	O
+driving	NN	O	O
+force	NN	O	O
+for	NN	O	O
+polymer	NN	O	B-Process
+crystallization	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0032386109004996)
+
+SPM	NN	O	B-Process
+,	NN	O	O
+and	NN	O	O
+AFM	NN	O	B-Process
+in	NN	O	O
+particular	NN	O	O
+,	NN	O	O
+has	NN	O	O
+been	NN	O	O
+widely	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+questions	NN	O	B-Task
+in	NN	O	I-Task
+polymer	NN	O	I-Task
+crystallization	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+technique	NN	O	O
+has	NN	O	O
+several	NN	O	O
+strengths	NN	O	O
+that	NN	O	O
+make	NN	O	O
+it	NN	O	O
+ideally	NN	O	O
+suited	NN	O	O
+for	NN	O	O
+such	NN	O	O
+studies	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+a	NN	O	O
+high	NN	O	B-Process
+resolution	NN	O	I-Process
+technology	NN	O	I-Process
+,	NN	O	O
+routinely	NN	O	O
+resolving	NN	O	B-Process
+sub	NN	O	I-Process
+10	NN	O	I-Process
+nm	NN	O	I-Process
+features	NN	O	I-Process
+[	NN	O	O
+13,14	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+hence	NN	O	O
+allowing	NN	O	O
+the	NN	O	O
+fundamental	NN	O	O
+length	NN	O	O
+scale	NN	O	O
+of	NN	O	O
+the	NN	O	O
+polymer	NN	O	B-Material
+lamellar	NN	O	I-Material
+crystal	NN	O	I-Material
+,	NN	O	O
+its	NN	O	O
+thickness	NN	O	O
+,	NN	O	O
+to	NN	O	O
+be	NN	O	O
+observed	NN	O	O
+.	NN	O	O
+AFM	NN	O	B-Process
+requires	NN	O	O
+no	NN	O	O
+staining	NN	O	B-Process
+or	NN	O	O
+metal	NN	O	B-Process
+coating	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+sample	NN	O	O
+,	NN	O	O
+so	NN	O	O
+sample	NN	O	B-Process
+preparation	NN	O	I-Process
+is	NN	O	O
+relatively	NN	O	O
+straightforward	NN	O	O
+.	NN	O	O
+Also	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+non	NN	O	O
+-	NN	O	O
+destructive	NN	O	O
+under	NN	O	O
+many	NN	O	O
+circumstances	NN	O	O
+.	NN	O	O
+This	NN	O	O
+allows	NN	O	O
+images	NN	O	O
+to	NN	O	O
+be	NN	O	O
+obtained	NN	O	O
+while	NN	O	O
+a	NN	O	O
+process	NN	O	O
+such	NN	O	O
+as	NN	O	O
+crystal	NN	O	B-Process
+growth	NN	O	I-Process
+or	NN	O	O
+melting	NN	O	B-Process
+is	NN	O	O
+occurring	NN	O	O
+,	NN	O	O
+giving	NN	O	O
+time	NN	O	B-Material
+-	NN	O	I-Material
+resolved	NN	O	I-Material
+data	NN	O	I-Material
+at	NN	O	O
+lamellar	NN	O	O
+or	NN	O	O
+sub	NN	O	O
+-	NN	O	O
+lamellar	NN	O	O
+resolution	NN	O	O
+[	NN	O	O
+15–18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+this	NN	O	O
+final	NN	O	O
+feature	NN	O	O
+that	NN	O	O
+provides	NN	O	O
+many	NN	O	O
+of	NN	O	O
+the	NN	O	O
+most	NN	O	O
+exciting	NN	O	O
+possibilities	NN	O	O
+of	NN	O	O
+AFM	NN	O	B-Process
+for	NN	O	O
+studying	NN	O	B-Task
+polymer	NN	O	I-Task
+crystallization	NN	O	I-Task
+,	NN	O	O
+as	NN	O	O
+it	NN	O	O
+is	NN	O	O
+now	NN	O	O
+possible	NN	O	O
+to	NN	O	O
+watch	NN	O	O
+crystal	NN	O	B-Process
+growth	NN	O	I-Process
+,	NN	O	O
+crystal	NN	O	B-Process
+melting	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+re	NN	O	B-Process
+-	NN	O	I-Process
+organisations	NN	O	I-Process
+within	NN	O	I-Process
+crystals	NN	O	I-Process
+at	NN	O	I-Process
+the	NN	O	I-Process
+lamellar	NN	O	I-Process
+scale	NN	O	I-Process
+,	NN	O	O
+seeing	NN	O	O
+how	NN	O	O
+structure	NN	O	O
+evolves	NN	O	O
+and	NN	O	O
+local	NN	O	O
+conditions	NN	O	O
+influence	NN	O	O
+kinetics	NN	O	O
+.	NN	O	O
+AFM	NN	O	B-Material
+has	NN	O	O
+a	NN	O	O
+wide	NN	O	O
+range	NN	O	O
+of	NN	O	O
+different	NN	O	O
+measuring	NN	O	O
+modes	NN	O	O
+,	NN	O	O
+and	NN	O	O
+,	NN	O	O
+with	NN	O	O
+the	NN	O	O
+ever	NN	O	O
+increasing	NN	O	O
+number	NN	O	O
+of	NN	O	O
+functional	NN	O	O
+semicrystalline	NN	O	B-Material
+polymers	NN	O	I-Material
+available	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+[	NN	O	O
+19	NN	O	O
+]	NN	O	O
+)	NN	O	O
+,	NN	O	O
+the	NN	O	O
+breadth	NN	O	O
+of	NN	O	O
+experiments	NN	O	O
+that	NN	O	O
+can	NN	O	O
+be	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+with	NN	O	O
+a	NN	O	O
+single	NN	O	O
+machine	NN	O	O
+is	NN	O	O
+also	NN	O	O
+one	NN	O	O
+of	NN	O	O
+the	NN	O	O
+techniques	NN	O	O
+attractions	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386109005485)
+
+Inverse	NN	O	B-Process
+miniemulsion	NN	O	I-Process
+polymerization	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+water	NN	O	B-Process
+-	NN	O	I-Process
+in	NN	O	I-Process
+-	NN	O	I-Process
+oil	NN	O	I-Process
+(	NN	O	O
+W	NN	O	B-Process
+/	NN	O	I-Process
+O	NN	O	I-Process
+)	NN	O	O
+heterogeneous	NN	O	B-Process
+polymerization	NN	O	I-Process
+process	NN	O	I-Process
+that	NN	O	O
+forms	NN	O	O
+kinetically	NN	O	B-Material
+stable	NN	O	I-Material
+macroemulsions	NN	O	I-Material
+at	NN	O	O
+,	NN	O	O
+below	NN	O	O
+,	NN	O	O
+or	NN	O	O
+around	NN	O	O
+the	NN	O	O
+critical	NN	O	B-Material
+micellar	NN	O	I-Material
+concentration	NN	O	I-Material
+(	NN	O	O
+CMC	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+This	NN	O	O
+process	NN	O	O
+contains	NN	O	O
+aqueous	NN	O	B-Material
+droplets	NN	O	I-Material
+(	NN	O	O
+including	NN	O	O
+water	NN	O	B-Material
+-	NN	O	I-Material
+soluble	NN	O	I-Material
+monomers	NN	O	I-Material
+)	NN	O	O
+stably	NN	O	O
+dispersed	NN	O	O
+,	NN	O	O
+with	NN	O	O
+the	NN	O	O
+aid	NN	O	O
+of	NN	O	O
+oil	NN	O	B-Material
+-	NN	O	I-Material
+soluble	NN	O	I-Material
+surfactants	NN	O	I-Material
+,	NN	O	O
+in	NN	O	O
+a	NN	O	O
+continuous	NN	O	O
+organic	NN	O	B-Material
+medium	NN	O	I-Material
+.	NN	O	O
+Stable	NN	O	B-Material
+inverse	NN	O	I-Material
+miniemulsions	NN	O	I-Material
+are	NN	O	O
+formed	NN	O	O
+under	NN	O	O
+high	NN	O	O
+shear	NN	O	O
+by	NN	O	O
+either	NN	O	O
+a	NN	O	O
+homogenizer	NN	O	B-Material
+or	NN	O	O
+a	NN	O	O
+high	NN	O	B-Material
+speed	NN	O	I-Material
+mechanical	NN	O	I-Material
+stirrer	NN	O	I-Material
+.	NN	O	O
+Oil	NN	O	B-Material
+-	NN	O	I-Material
+soluble	NN	O	I-Material
+nonionic	NN	O	I-Material
+surfactants	NN	O	I-Material
+with	NN	O	O
+hydrophilic	NN	O	O
+-	NN	O	O
+lipophilic	NN	O	O
+balance	NN	O	O
+(	NN	O	O
+HLB	NN	O	O
+)	NN	O	O
+value	NN	O	O
+around	NN	O	O
+4	NN	O	O
+are	NN	O	O
+used	NN	O	O
+to	NN	O	O
+implement	NN	O	B-Task
+colloidal	NN	O	I-Task
+stability	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+resulting	NN	O	I-Task
+inverse	NN	O	I-Task
+emulsion	NN	O	I-Task
+.	NN	O	O
+Upon	NN	O	O
+addition	NN	O	O
+of	NN	O	O
+radical	NN	O	B-Material
+initiators	NN	O	I-Material
+,	NN	O	O
+polymerization	NN	O	B-Process
+occurs	NN	O	O
+within	NN	O	O
+the	NN	O	O
+aqueous	NN	O	B-Material
+droplets	NN	O	I-Material
+producing	NN	O	O
+colloidal	NN	O	B-Material
+particles	NN	O	I-Material
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+2	NN	O	O
+)	NN	O	O
+[	NN	O	O
+83	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Several	NN	O	O
+reports	NN	O	O
+have	NN	O	O
+demonstrated	NN	O	O
+the	NN	O	O
+preparation	NN	O	O
+of	NN	O	O
+stable	NN	O	B-Material
+particles	NN	O	I-Material
+of	NN	O	I-Material
+hydrophilic	NN	O	I-Material
+and	NN	O	I-Material
+water	NN	O	I-Material
+-	NN	O	I-Material
+soluble	NN	O	I-Material
+polymers	NN	O	I-Material
+[	NN	O	O
+86–89	NN	O	O
+]	NN	O	O
+,	NN	O	O
+polyaniline	NN	O	B-Material
+nanoparticles	NN	O	I-Material
+[	NN	O	O
+90	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+organic	NN	O	B-Material
+–	NN	O	I-Material
+inorganic	NN	O	I-Material
+hybrid	NN	O	I-Material
+particles	NN	O	I-Material
+[	NN	O	O
+91–93	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+method	NN	O	O
+also	NN	O	O
+allows	NN	O	O
+for	NN	O	O
+the	NN	O	O
+preparation	NN	O	B-Process
+of	NN	O	I-Process
+crosslinked	NN	O	I-Process
+microgels	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+presence	NN	O	I-Process
+of	NN	O	I-Process
+difunctional	NN	O	I-Process
+crosslinkers	NN	O	I-Process
+[	NN	O	O
+27,94–100	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+CRP	NN	O	B-Process
+techniques	NN	O	I-Process
+including	NN	O	O
+ATRP	NN	O	B-Process
+[	NN	O	O
+78,79,82,101,102	NN	O	O
+]	NN	O	O
+and	NN	O	O
+RAFT	NN	O	B-Process
+[	NN	O	O
+103	NN	O	O
+]	NN	O	O
+in	NN	O	O
+inverse	NN	O	B-Material
+miniemulsion	NN	O	I-Material
+have	NN	O	O
+been	NN	O	O
+explored	NN	O	O
+to	NN	O	O
+prepare	NN	O	O
+well	NN	O	O
+-	NN	O	O
+defined	NN	O	O
+nanoparticles	NN	O	B-Material
+and	NN	O	O
+nanogels	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S0032386109006612)
+
+In	NN	O	O
+contrast	NN	O	O
+with	NN	O	O
+polymers	NN	O	B-Material
+,	NN	O	O
+which	NN	O	O
+are	NN	O	O
+typically	NN	O	O
+synthesized	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+liquid	NN	O	I-Process
+phase	NN	O	I-Process
+,	NN	O	O
+SWNTs	NN	O	B-Material
+are	NN	O	O
+produced	NN	O	B-Process
+through	NN	O	I-Process
+a	NN	O	I-Process
+variety	NN	O	I-Process
+of	NN	O	I-Process
+synthesis	NN	O	I-Process
+techniques	NN	O	I-Process
+that	NN	O	O
+typically	NN	O	O
+involve	NN	O	O
+the	NN	O	B-Process
+reaction	NN	O	I-Process
+of	NN	O	I-Process
+a	NN	O	I-Process
+gaseous	NN	O	I-Process
+carbon	NN	O	I-Process
+feedstock	NN	O	I-Process
+to	NN	O	I-Process
+form	NN	O	I-Process
+the	NN	O	I-Process
+nanotubes	NN	O	I-Process
+on	NN	O	I-Process
+catalyst	NN	O	I-Process
+particles	NN	O	I-Process
+.	NN	O	O
+MWNTs	NN	O	B-Task
+were	NN	O	O
+first	NN	O	O
+observed	NN	O	B-Process
+in	NN	O	I-Process
+arc	NN	O	I-Process
+discharge	NN	O	I-Process
+fullerene	NN	O	I-Process
+reactors	NN	O	I-Process
+[	NN	O	O
+1,26	NN	O	O
+]	NN	O	O
+;	NN	O	O
+this	NN	O	B-Task
+technique	NN	O	I-Task
+was	NN	O	O
+later	NN	O	O
+adapted	NN	O	O
+to	NN	O	O
+produce	NN	O	O
+SWNTs	NN	O	B-Material
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Similarly	NN	O	O
+,	NN	O	O
+the	NN	O	B-Process
+fullerene	NN	O	I-Process
+production	NN	O	I-Process
+method	NN	O	I-Process
+of	NN	O	I-Process
+laser	NN	O	I-Process
+ablation	NN	O	I-Process
+[	NN	O	O
+27	NN	O	O
+]	NN	O	O
+was	NN	O	O
+adapted	NN	O	O
+to	NN	O	O
+produce	NN	O	O
+SWNTs	NN	O	B-Material
+(	NN	O	O
+∼1.4	NN	O	O
+nm	NN	O	O
+diameter	NN	O	O
+)	NN	O	O
+in	NN	O	O
+larger	NN	O	O
+quantities	NN	O	O
+on	NN	O	O
+metal	NN	O	B-Material
+catalyst	NN	O	I-Material
+particles	NN	O	I-Material
+[	NN	O	O
+28–30	NN	O	O
+]	NN	O	O
+.	NN	O	O
+A	NN	O	O
+number	NN	O	O
+of	NN	O	O
+chemical	NN	O	B-Process
+vapor	NN	O	I-Process
+deposition	NN	O	I-Process
+(	NN	O	O
+CVD	NN	O	B-Process
+)	NN	O	O
+processes	NN	O	O
+have	NN	O	O
+been	NN	O	O
+developed	NN	O	O
+to	NN	O	O
+grow	NN	O	O
+SWNTs	NN	O	B-Material
+and	NN	O	O
+MWNTs	NN	O	B-Material
+,	NN	O	O
+all	NN	O	O
+involving	NN	O	O
+the	NN	O	B-Process
+reaction	NN	O	I-Process
+of	NN	O	I-Process
+a	NN	O	I-Process
+gaseous	NN	O	I-Process
+carbon	NN	O	I-Process
+compound	NN	O	I-Process
+as	NN	O	I-Process
+feedstock	NN	O	I-Process
+.	NN	O	O
+These	NN	O	O
+processes	NN	O	O
+include	NN	O	O
+fluidized	NN	O	B-Process
+bed	NN	O	I-Process
+[	NN	O	O
+31	NN	O	O
+]	NN	O	O
+,	NN	O	O
+“	NN	O	B-Process
+carpet	NN	O	I-Process
+”	NN	O	I-Process
+growth	NN	O	I-Process
+of	NN	O	I-Process
+carbon	NN	O	I-Process
+nanotubes	NN	O	I-Process
+(	NN	O	I-Process
+CNTs	NN	O	I-Process
+)	NN	O	I-Process
+from	NN	O	I-Process
+catalyst	NN	O	I-Process
+particles	NN	O	I-Process
+embedded	NN	O	I-Process
+in	NN	O	I-Process
+a	NN	O	I-Process
+substrate	NN	O	I-Process
+[	NN	O	O
+32–35	NN	O	O
+]	NN	O	O
+as	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3	NN	O	O
+,	NN	O	O
+and	NN	O	O
+“	NN	O	B-Process
+catalytic	NN	O	I-Process
+gas	NN	O	I-Process
+flow	NN	O	I-Process
+CVD	NN	O	I-Process
+”	NN	O	I-Process
+[	NN	O	O
+36,37	NN	O	O
+]	NN	O	O
+.	NN	O	O
+One	NN	O	O
+of	NN	O	O
+the	NN	O	B-Task
+most	NN	O	I-Task
+effective	NN	O	I-Task
+,	NN	O	I-Task
+cheap	NN	O	I-Task
+,	NN	O	I-Task
+and	NN	O	I-Task
+scalable	NN	O	I-Task
+CVD	NN	O	I-Task
+techniques	NN	O	I-Task
+is	NN	O	O
+the	NN	O	O
+HiPco	NN	O	B-Process
+(	NN	O	I-Process
+high	NN	O	I-Process
+-	NN	O	I-Process
+pressure	NN	O	I-Process
+CO	NN	O	I-Process
+)	NN	O	I-Process
+process	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+does	NN	O	B-Process
+not	NN	O	I-Process
+use	NN	O	I-Process
+pre	NN	O	I-Process
+-	NN	O	I-Process
+formed	NN	O	I-Process
+catalyst	NN	O	I-Process
+particles	NN	O	I-Process
+unlike	NN	O	O
+most	NN	O	O
+other	NN	O	O
+CVD	NN	O	B-Process
+techniques	NN	O	I-Process
+[	NN	O	O
+38	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386109007290)
+
+ELRs	NN	O	B-Material
+are	NN	O	O
+particularly	NN	O	O
+attractive	NN	O	O
+for	NN	O	O
+the	NN	O	O
+synthesis	NN	O	B-Process
+of	NN	O	I-Process
+block	NN	O	I-Process
+copolymers	NN	O	I-Process
+that	NN	O	O
+self	NN	O	O
+-	NN	O	O
+assemble	NN	O	O
+into	NN	O	O
+polymer	NN	O	B-Material
+nanostructures	NN	O	I-Material
+such	NN	O	O
+as	NN	O	O
+micelles	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+first	NN	O	O
+work	NN	O	O
+in	NN	O	O
+this	NN	O	O
+area	NN	O	O
+involved	NN	O	O
+an	NN	O	O
+elastin	NN	O	B-Material
+-	NN	O	I-Material
+mimetic	NN	O	I-Material
+di	NN	O	I-Material
+-	NN	O	I-Material
+block	NN	O	I-Material
+copolymer	NN	O	I-Material
+containing	NN	O	O
+VPGEG–(IPGAG)4	NN	O	B-Material
+and	NN	O	O
+VPGFG–(IPGVG)4	NN	O	B-Material
+as	NN	O	O
+the	NN	O	O
+hydrophilic	NN	O	B-Material
+and	NN	O	I-Material
+hydrophobic	NN	O	I-Material
+blocks	NN	O	I-Material
+,	NN	O	O
+respectively	NN	O	O
+[	NN	O	O
+49	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+resulting	NN	O	O
+micelles	NN	O	B-Material
+were	NN	O	O
+studied	NN	O	O
+by	NN	O	O
+dynamic	NN	O	B-Process
+light	NN	O	I-Process
+scattering	NN	O	I-Process
+(	NN	O	O
+DLS	NN	O	B-Process
+)	NN	O	O
+and	NN	O	O
+DSC	NN	O	B-Process
+was	NN	O	O
+used	NN	O	O
+to	NN	O	O
+measure	NN	O	O
+the	NN	O	O
+enthalpy	NN	O	O
+of	NN	O	O
+self	NN	O	B-Process
+-	NN	O	I-Process
+assembly	NN	O	I-Process
+.	NN	O	O
+A	NN	O	O
+tri	NN	O	B-Material
+-	NN	O	I-Material
+block	NN	O	I-Material
+copolymer	NN	O	I-Material
+was	NN	O	O
+subsequently	NN	O	O
+synthesized	NN	O	O
+and	NN	O	O
+the	NN	O	O
+TEM	NN	O	B-Material
+images	NN	O	I-Material
+of	NN	O	O
+this	NN	O	O
+polymer	NN	O	B-Material
+showed	NN	O	O
+that	NN	O	O
+it	NN	O	O
+formed	NN	O	O
+spherical	NN	O	B-Material
+aggregates	NN	O	I-Material
+[	NN	O	O
+50	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Other	NN	O	O
+multivalent	NN	O	B-Material
+spherical	NN	O	I-Material
+micelles	NN	O	I-Material
+have	NN	O	O
+been	NN	O	O
+obtained	NN	O	O
+from	NN	O	O
+linear	NN	O	B-Material
+elastin	NN	O	I-Material
+-	NN	O	I-Material
+like	NN	O	I-Material
+AB	NN	O	I-Material
+di	NN	O	I-Material
+-	NN	O	I-Material
+block	NN	O	I-Material
+copolymers	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+temperature	NN	O	O
+range	NN	O	O
+37–42	NN	O	O
+°	NN	O	O
+C	NN	O	O
+with	NN	O	O
+the	NN	O	O
+aim	NN	O	O
+of	NN	O	O
+targeting	NN	O	B-Task
+cancer	NN	O	I-Task
+cells	NN	O	I-Task
+[	NN	O	O
+51	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Bidwell	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+have	NN	O	O
+also	NN	O	O
+exploited	NN	O	O
+the	NN	O	O
+ELRs	NN	O	B-Material
+for	NN	O	O
+its	NN	O	O
+ability	NN	O	O
+to	NN	O	O
+serve	NN	O	O
+as	NN	O	O
+macromolecular	NN	O	B-Material
+carriers	NN	O	I-Material
+for	NN	O	O
+thermally	NN	O	B-Task
+targeted	NN	O	I-Task
+delivery	NN	O	I-Task
+of	NN	O	I-Task
+drugs	NN	O	I-Task
+.	NN	O	O
+Attachment	NN	O	O
+of	NN	O	O
+doxorubicin	NN	O	B-Material
+to	NN	O	O
+ELR	NN	O	B-Material
+-	NN	O	I-Material
+based	NN	O	I-Material
+system	NN	O	I-Material
+showed	NN	O	O
+enhanced	NN	O	O
+cytotoxicity	NN	O	B-Process
+in	NN	O	O
+uterine	NN	O	B-Material
+sarcoma	NN	O	I-Material
+cells	NN	O	I-Material
+when	NN	O	O
+aggregation	NN	O	B-Process
+was	NN	O	O
+induced	NN	O	O
+with	NN	O	O
+hyperthermia	NN	O	B-Process
+[	NN	O	O
+52	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386109007423)
+
+In	NN	O	O
+general	NN	O	O
+,	NN	O	O
+the	NN	O	O
+ion	NN	O	B-Process
+exchange	NN	O	I-Process
+capacity	NN	O	I-Process
+(	NN	O	O
+IEC	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+closely	NN	O	O
+related	NN	O	O
+to	NN	O	O
+the	NN	O	O
+proton	NN	O	B-Process
+conductivity	NN	O	I-Process
+of	NN	O	O
+PEMs	NN	O	B-Material
+because	NN	O	O
+the	NN	O	O
+acid	NN	O	O
+functionalities	NN	O	O
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+sulfonic	NN	O	B-Material
+acid	NN	O	I-Material
+groups	NN	O	I-Material
+,	NN	O	O
+contribute	NN	O	O
+to	NN	O	O
+the	NN	O	O
+proton	NN	O	B-Process
+conduction	NN	O	I-Process
+in	NN	O	O
+a	NN	O	O
+membrane	NN	O	B-Material
+.	NN	O	O
+Beyond	NN	O	O
+a	NN	O	O
+certain	NN	O	O
+sulfonation	NN	O	O
+degree	NN	O	O
+,	NN	O	O
+PEMs	NN	O	B-Material
+tend	NN	O	O
+to	NN	O	O
+absorb	NN	O	O
+too	NN	O	O
+much	NN	O	O
+water	NN	O	B-Material
+or	NN	O	O
+are	NN	O	O
+even	NN	O	O
+soluble	NN	O	O
+in	NN	O	O
+water	NN	O	B-Material
+,	NN	O	O
+which	NN	O	O
+negatively	NN	O	O
+affect	NN	O	O
+their	NN	O	O
+mechanical	NN	O	O
+resistance	NN	O	O
+and	NN	O	O
+water	NN	O	B-Material
+resistance	NN	O	O
+[	NN	O	O
+17,18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Therefore	NN	O	O
+,	NN	O	O
+the	NN	O	O
+improvement	NN	O	B-Task
+of	NN	O	I-Task
+proton	NN	O	I-Task
+conductivity	NN	O	I-Task
+using	NN	O	I-Task
+aromatic	NN	O	I-Task
+polymers	NN	O	I-Task
+with	NN	O	I-Task
+moderately	NN	O	I-Task
+adjusted	NN	O	I-Task
+IEC	NN	O	I-Task
+values	NN	O	I-Task
+has	NN	O	O
+been	NN	O	O
+under	NN	O	O
+intense	NN	O	O
+investigation	NN	O	O
+[	NN	O	O
+19–23	NN	O	O
+]	NN	O	O
+.	NN	O	O
+To	NN	O	O
+achieve	NN	O	O
+high	NN	O	B-Process
+proton	NN	O	I-Process
+conductivity	NN	O	I-Process
+with	NN	O	O
+moderate	NN	O	O
+IEC	NN	O	B-Process
+values	NN	O	O
+,	NN	O	O
+the	NN	O	O
+formation	NN	O	B-Process
+of	NN	O	I-Process
+ion	NN	O	I-Process
+channel	NN	O	I-Process
+structures	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+enable	NN	O	O
+effective	NN	O	B-Process
+proton	NN	O	I-Process
+conduction	NN	O	I-Process
+,	NN	O	O
+has	NN	O	O
+been	NN	O	O
+studied	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+course	NN	O	O
+of	NN	O	O
+these	NN	O	O
+studies	NN	O	O
+,	NN	O	O
+an	NN	O	O
+ideal	NN	O	O
+morphology	NN	O	O
+has	NN	O	O
+been	NN	O	O
+pursued	NN	O	O
+by	NN	O	O
+microphase	NN	O	O
+separation	NN	O	O
+of	NN	O	O
+segmented	NN	O	B-Material
+block	NN	O	I-Material
+copolymers	NN	O	I-Material
+in	NN	O	O
+which	NN	O	O
+hydrophilic	NN	O	B-Material
+sulfonated	NN	O	I-Material
+polymer	NN	O	I-Material
+segments	NN	O	I-Material
+form	NN	O	O
+an	NN	O	O
+interconnected	NN	O	B-Material
+three	NN	O	I-Material
+-	NN	O	I-Material
+dimensional	NN	O	I-Material
+network	NN	O	I-Material
+responsible	NN	O	O
+for	NN	O	O
+efficient	NN	O	O
+proton	NN	O	B-Process
+transport	NN	O	I-Process
+,	NN	O	O
+while	NN	O	O
+a	NN	O	O
+complementary	NN	O	B-Process
+network	NN	O	I-Process
+of	NN	O	I-Process
+hydrophobic	NN	O	I-Process
+non	NN	O	I-Process
+-	NN	O	I-Process
+sulfonated	NN	O	I-Process
+segments	NN	O	I-Process
+imparts	NN	O	O
+a	NN	O	O
+reinforcing	NN	O	O
+effect	NN	O	O
+,	NN	O	O
+preventing	NN	O	B-Task
+excessive	NN	O	I-Task
+swelling	NN	O	I-Task
+in	NN	O	I-Task
+water	NN	O	I-Task
+and	NN	O	O
+enhancing	NN	O	B-Task
+the	NN	O	I-Task
+mechanical	NN	O	I-Task
+properties	NN	O	I-Task
+.	NN	O	O
+An	NN	O	O
+image	NN	O	O
+of	NN	O	O
+the	NN	O	O
+ideal	NN	O	O
+morphology	NN	O	O
+for	NN	O	O
+PEMs	NN	O	B-Material
+is	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+2	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386109010386)
+
+From	NN	O	O
+a	NN	O	O
+general	NN	O	O
+point	NN	O	O
+of	NN	O	O
+view	NN	O	O
+,	NN	O	O
+polymerization	NN	O	B-Process
+techniques	NN	O	I-Process
+can	NN	O	O
+be	NN	O	O
+divided	NN	O	O
+into	NN	O	O
+two	NN	O	O
+types	NN	O	O
+of	NN	O	O
+chemical	NN	O	B-Process
+reactions	NN	O	I-Process
+:	NN	O	O
+step	NN	O	B-Process
+-	NN	O	I-Process
+growth	NN	O	I-Process
+polymerization	NN	O	I-Process
+and	NN	O	O
+free	NN	O	B-Process
+radical	NN	O	I-Process
+polymerization	NN	O	I-Process
+.	NN	O	O
+Step	NN	O	B-Process
+-	NN	O	I-Process
+growth	NN	O	I-Process
+polymerization	NN	O	I-Process
+is	NN	O	O
+widely	NN	O	O
+used	NN	O	O
+for	NN	O	O
+synthesis	NN	O	B-Task
+of	NN	O	I-Task
+polyesters	NN	O	I-Task
+,	NN	O	O
+polyamide	NN	O	B-Material
+and	NN	O	O
+epoxies	NN	O	B-Material
+while	NN	O	O
+the	NN	O	O
+synthesis	NN	O	B-Process
+of	NN	O	I-Process
+polyacrylics	NN	O	I-Process
+requires	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+free	NN	O	B-Process
+radical	NN	O	I-Process
+polymerization	NN	O	I-Process
+.	NN	O	O
+These	NN	O	O
+polymerization	NN	O	B-Process
+reactions	NN	O	I-Process
+can	NN	O	O
+be	NN	O	O
+performed	NN	O	O
+either	NN	O	O
+in	NN	O	O
+bulk	NN	O	B-Material
+or	NN	O	O
+in	NN	O	O
+solution	NN	O	B-Material
+or	NN	O	O
+in	NN	O	O
+dispersed	NN	O	B-Material
+media	NN	O	I-Material
+.	NN	O	O
+Heterophase	NN	O	B-Process
+polymerizations	NN	O	I-Process
+(	NN	O	O
+i.e.	NN	O	O
+emulsion	NN	O	B-Process
+,	NN	O	O
+dispersion	NN	O	B-Process
+and	NN	O	O
+miniemulsion	NN	O	B-Process
+polymerizations	NN	O	I-Process
+)	NN	O	O
+present	NN	O	O
+the	NN	O	O
+advantage	NN	O	O
+of	NN	O	O
+easier	NN	O	O
+removal	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+resulting	NN	O	I-Task
+product	NN	O	I-Task
+from	NN	O	O
+the	NN	O	O
+reactor	NN	O	B-Material
+compared	NN	O	O
+to	NN	O	O
+bulk	NN	O	B-Process
+polymerization	NN	O	I-Process
+thanks	NN	O	O
+to	NN	O	O
+the	NN	O	O
+low	NN	O	O
+viscosity	NN	O	O
+of	NN	O	O
+the	NN	O	O
+reaction	NN	O	B-Material
+medium	NN	O	I-Material
+.	NN	O	O
+Polymerization	NN	O	B-Process
+in	NN	O	O
+solution	NN	O	B-Material
+also	NN	O	O
+induces	NN	O	O
+lower	NN	O	O
+viscosity	NN	O	O
+but	NN	O	O
+also	NN	O	O
+lower	NN	O	O
+reaction	NN	O	B-Process
+rates	NN	O	O
+due	NN	O	O
+to	NN	O	O
+dilution	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+reactants	NN	O	B-Material
+and	NN	O	O
+higher	NN	O	O
+cost	NN	O	O
+and	NN	O	O
+environmental	NN	O	O
+impact	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+organic	NN	O	B-Material
+solvents	NN	O	I-Material
+.	NN	O	O
+These	NN	O	O
+problems	NN	O	O
+are	NN	O	O
+solved	NN	O	O
+in	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+heterophase	NN	O	B-Process
+polymerizations	NN	O	I-Process
+where	NN	O	O
+the	NN	O	O
+reactants	NN	O	B-Material
+are	NN	O	O
+confined	NN	O	O
+inside	NN	O	O
+droplets	NN	O	B-Material
+(	NN	O	O
+no	NN	O	O
+dilution	NN	O	B-Process
+effect	NN	O	I-Process
+)	NN	O	O
+and	NN	O	O
+water	NN	O	B-Material
+is	NN	O	O
+used	NN	O	O
+as	NN	O	O
+medium	NN	O	O
+.	NN	O	O
+The	NN	O	O
+use	NN	O	O
+of	NN	O	O
+surfactant	NN	O	B-Material
+molecules	NN	O	I-Material
+are	NN	O	O
+usually	NN	O	O
+needed	NN	O	O
+for	NN	O	O
+the	NN	O	O
+stabilization	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+monomer	NN	O	I-Process
+droplet	NN	O	I-Process
+and	NN	O	O
+subsequent	NN	O	O
+polymer	NN	O	B-Material
+particles	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+water	NN	O	B-Material
+phase	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386110001667)
+
+Note	NN	O	O
+that	NN	O	O
+the	NN	O	O
+quantitative	NN	O	B-Task
+introduction	NN	O	I-Task
+of	NN	O	I-Task
+a	NN	O	I-Task
+reactive	NN	O	I-Task
+functionality	NN	O	I-Task
+into	NN	O	I-Task
+the	NN	O	I-Task
+polymer	NN	O	I-Task
+chain	NN	O	I-Task
+end	NN	O	I-Task
+can	NN	O	O
+be	NN	O	O
+easily	NN	O	O
+achieved	NN	O	O
+by	NN	O	O
+adopting	NN	O	O
+the	NN	O	O
+living	NN	O	B-Process
+ROMP	NN	O	I-Process
+technique	NN	O	I-Process
+especially	NN	O	O
+using	NN	O	O
+the	NN	O	O
+Schrock	NN	O	B-Material
+type	NN	O	I-Material
+molybdenum	NN	O	I-Material
+alkylidene	NN	O	I-Material
+initiator	NN	O	I-Material
+[	NN	O	O
+7,12,21,61–65	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+exclusive	NN	O	O
+preparation	NN	O	B-Process
+of	NN	O	I-Process
+end	NN	O	I-Process
+-	NN	O	I-Process
+functionalized	NN	O	I-Process
+ring	NN	O	I-Process
+-	NN	O	I-Process
+opened	NN	O	I-Process
+polymers	NN	O	I-Process
+(	NN	O	O
+realized	NN	O	O
+by	NN	O	O
+a	NN	O	O
+living	NN	O	B-Process
+polymerization	NN	O	I-Process
+with	NN	O	I-Process
+quantitative	NN	O	I-Process
+initiation	NN	O	I-Process
+)	NN	O	O
+can	NN	O	O
+be	NN	O	O
+applied	NN	O	O
+not	NN	O	O
+only	NN	O	O
+to	NN	O	O
+prepare	NN	O	O
+block	NN	O	B-Material
+copolymers	NN	O	I-Material
+(	NN	O	O
+ABCs	NN	O	B-Material
+)	NN	O	O
+coupled	NN	O	O
+with	NN	O	O
+another	NN	O	O
+living	NN	O	B-Process
+polymerization	NN	O	I-Process
+techniques	NN	O	I-Process
+[	NN	O	O
+66	NN	O	O
+]	NN	O	O
+,	NN	O	O
+but	NN	O	O
+also	NN	O	O
+for	NN	O	O
+preparation	NN	O	B-Process
+of	NN	O	I-Process
+macromonomers	NN	O	I-Process
+,	NN	O	O
+as	NN	O	O
+described	NN	O	O
+below	NN	O	O
+.	NN	O	O
+In	NN	O	O
+contrast	NN	O	O
+,	NN	O	O
+the	NN	O	O
+initiation	NN	O	O
+efficiency	NN	O	O
+is	NN	O	O
+not	NN	O	O
+always	NN	O	O
+perfect	NN	O	O
+as	NN	O	O
+seen	NN	O	O
+in	NN	O	O
+the	NN	O	O
+molybdenum	NN	O	B-Material
+alkylidene	NN	O	I-Material
+initiators	NN	O	I-Material
+,	NN	O	O
+because	NN	O	O
+dissociation	NN	O	B-Process
+of	NN	O	O
+ligand	NN	O	B-Material
+(	NN	O	O
+PR3	NN	O	B-Material
+etc	NN	O	O
+.	NN	O	O
+)	NN	O	O
+should	NN	O	O
+be	NN	O	O
+required	NN	O	O
+to	NN	O	O
+generate	NN	O	B-Process
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+catalytically	NN	O	I-Process
+active	NN	O	I-Process
+species	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+ROMP	NN	O	I-Process
+with	NN	O	O
+the	NN	O	O
+ruthenium	NN	O	B-Material
+carbene	NN	O	I-Material
+catalysts	NN	O	I-Material
+(	NN	O	O
+Scheme	NN	O	O
+2	NN	O	O
+)	NN	O	O
+[	NN	O	O
+67–69	NN	O	O
+]	NN	O	O
+.	NN	O	O
+An	NN	O	O
+equilibrium	NN	O	O
+between	NN	O	O
+coordination	NN	O	B-Process
+and	NN	O	O
+dissociation	NN	O	B-Process
+of	NN	O	O
+PR3	NN	O	B-Material
+should	NN	O	O
+be	NN	O	O
+present	NN	O	O
+even	NN	O	O
+in	NN	O	O
+the	NN	O	O
+propagation	NN	O	B-Process
+process	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+replacement	NN	O	O
+of	NN	O	O
+halogen	NN	O	B-Material
+with	NN	O	O
+the	NN	O	O
+other	NN	O	O
+anionic	NN	O	B-Material
+ligand	NN	O	I-Material
+(	NN	O	O
+and/or	NN	O	O
+replacement	NN	O	O
+of	NN	O	O
+PR3	NN	O	B-Material
+with	NN	O	O
+the	NN	O	O
+other	NN	O	O
+neutral	NN	O	B-Material
+donor	NN	O	I-Material
+ligands	NN	O	I-Material
+/	NN	O	I-Material
+substrates	NN	O	I-Material
+)	NN	O	O
+can	NN	O	O
+also	NN	O	O
+be	NN	O	O
+considered	NN	O	O
+as	NN	O	O
+the	NN	O	O
+probable	NN	O	O
+side	NN	O	O
+reactions	NN	O	O
+.	NN	O	O
+Importance	NN	O	O
+of	NN	O	O
+using	NN	O	O
+the	NN	O	O
+molybdenum	NN	O	B-Material
+catalysts	NN	O	I-Material
+should	NN	O	O
+be	NN	O	O
+thus	NN	O	O
+emphasized	NN	O	O
+for	NN	O	O
+their	NN	O	O
+precise	NN	O	O
+preparations	NN	O	O
+,	NN	O	O
+although	NN	O	O
+the	NN	O	O
+initiators	NN	O	O
+are	NN	O	O
+highly	NN	O	O
+sensitive	NN	O	O
+to	NN	O	O
+moisture	NN	O	O
+and	NN	O	O
+both	NN	O	O
+monomers	NN	O	B-Material
+and	NN	O	O
+solvent	NN	O	B-Material
+have	NN	O	O
+to	NN	O	O
+be	NN	O	O
+thus	NN	O	O
+strictly	NN	O	O
+purified	NN	O	O
+to	NN	O	O
+avoid	NN	O	O
+the	NN	O	O
+catalyst	NN	O	B-Material
+decomposition	NN	O	B-Process
+(	NN	O	O
+deactivation	NN	O	B-Process
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386110004039)
+
+An	NN	O	O
+application	NN	O	O
+of	NN	O	O
+ROMP	NN	O	B-Material
+derived	NN	O	I-Material
+random	NN	O	I-Material
+copolymers	NN	O	I-Material
+is	NN	O	O
+the	NN	O	O
+covalent	NN	O	B-Task
+incorporation	NN	O	I-Task
+of	NN	O	I-Task
+optical	NN	O	I-Task
+sensor	NN	O	I-Task
+moieties	NN	O	I-Task
+into	NN	O	I-Task
+a	NN	O	I-Task
+polymer	NN	O	I-Task
+matrix	NN	O	I-Task
+.	NN	O	O
+ROM	NN	O	B-Material
+polymers	NN	O	I-Material
+have	NN	O	O
+been	NN	O	O
+tested	NN	O	O
+as	NN	O	O
+matrix	NN	O	B-Material
+materials	NN	O	I-Material
+for	NN	O	O
+the	NN	O	O
+oxygen	NN	O	B-Material
+sensing	NN	O	O
+phosphorescent	NN	O	B-Material
+complex	NN	O	I-Material
+platinum	NN	O	I-Material
+tetrakis(pentafluorophenyl)porphyrin	NN	O	I-Material
+.	NN	O	O
+A	NN	O	O
+correlation	NN	O	O
+between	NN	O	O
+the	NN	O	O
+nature	NN	O	O
+of	NN	O	O
+the	NN	O	O
+ROM	NN	O	B-Material
+polymer	NN	O	I-Material
+’s	NN	O	I-Material
+side	NN	O	I-Material
+chain	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+optical	NN	O	O
+response	NN	O	O
+of	NN	O	O
+the	NN	O	O
+sensor	NN	O	B-Material
+molecules	NN	O	I-Material
+has	NN	O	O
+been	NN	O	O
+established	NN	O	O
+[	NN	O	O
+34	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Several	NN	O	O
+works	NN	O	O
+are	NN	O	O
+dedicated	NN	O	O
+to	NN	O	O
+the	NN	O	O
+synthesis	NN	O	B-Task
+of	NN	O	I-Task
+ROMP	NN	O	I-Task
+-	NN	O	I-Task
+able	NN	O	I-Task
+optical	NN	O	I-Task
+sensor	NN	O	I-Task
+molecules	NN	O	I-Task
+such	NN	O	O
+as	NN	O	O
+phenantroimidazoles	NN	O	B-Material
+[	NN	O	O
+35,36	NN	O	O
+]	NN	O	O
+,	NN	O	O
+europium	NN	O	B-Material
+complexes	NN	O	I-Material
+[	NN	O	O
+37	NN	O	O
+]	NN	O	O
+or	NN	O	O
+xanthene	NN	O	B-Material
+dyes	NN	O	I-Material
+[	NN	O	O
+38	NN	O	O
+]	NN	O	O
+,	NN	O	O
+their	NN	O	O
+random	NN	O	O
+copolymerization	NN	O	B-Process
+and	NN	O	O
+the	NN	O	O
+evaluation	NN	O	B-Task
+of	NN	O	I-Task
+their	NN	O	I-Task
+sensing	NN	O	I-Task
+profiles	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+copolymers	NN	O	I-Task
+.	NN	O	O
+Another	NN	O	O
+application	NN	O	O
+comprises	NN	O	O
+random	NN	O	B-Task
+copolymers	NN	O	I-Task
+with	NN	O	I-Task
+covalently	NN	O	I-Task
+bound	NN	O	I-Task
+eosin	NN	O	I-Task
+and/or	NN	O	I-Task
+ethyl	NN	O	I-Task
+dimethylamino	NN	O	I-Task
+benzoate	NN	O	I-Task
+units	NN	O	I-Task
+which	NN	O	O
+were	NN	O	O
+tested	NN	O	O
+as	NN	O	O
+macroinitiators	NN	O	B-Material
+for	NN	O	O
+the	NN	O	O
+photopolymerization	NN	O	O
+of	NN	O	O
+acrylates	NN	O	B-Material
+aiming	NN	O	O
+at	NN	O	O
+an	NN	O	O
+initiator	NN	O	B-Material
+/	NN	O	I-Material
+coinitiator	NN	O	I-Material
+system	NN	O	I-Material
+which	NN	O	O
+combines	NN	O	O
+good	NN	O	O
+polymerization	NN	O	B-Process
+activity	NN	O	O
+with	NN	O	O
+improved	NN	O	O
+migration	NN	O	O
+stability	NN	O	O
+[	NN	O	O
+39	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0032386114008428)
+
+Another	NN	O	B-Process
+choice	NN	O	I-Process
+was	NN	O	O
+to	NN	O	O
+graft	NN	O	B-Process
+the	NN	O	I-Process
+fluorinated	NN	O	I-Process
+groups	NN	O	I-Process
+on	NN	O	I-Process
+the	NN	O	I-Process
+copolymers	NN	O	I-Process
+with	NN	O	I-Process
+functional	NN	O	I-Process
+groups	NN	O	I-Process
+.	NN	O	O
+Casazza	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+52	NN	O	O
+]	NN	O	O
+synthesized	NN	O	O
+an	NN	O	B-Task
+acrylic	NN	O	I-Task
+terpolymer	NN	O	I-Task
+with	NN	O	I-Task
+pendent	NN	O	I-Task
+perfluoroether	NN	O	I-Task
+segments	NN	O	I-Task
+via	NN	O	O
+grafting	NN	O	B-Process
+fluorinated	NN	O	I-Process
+groups	NN	O	I-Process
+into	NN	O	O
+a	NN	O	O
+poly(butyl	NN	O	B-Material
+methacrylate	NN	O	I-Material
+-	NN	O	I-Material
+co	NN	O	I-Material
+-	NN	O	I-Material
+hydroxyehtyl	NN	O	I-Material
+acrylate	NN	O	I-Material
+-	NN	O	I-Material
+co	NN	O	I-Material
+-	NN	O	I-Material
+ethyl	NN	O	I-Material
+acrylate	NN	O	I-Material
+)	NN	O	O
+random	NN	O	O
+copolymer	NN	O	B-Material
+through	NN	O	O
+hexamethylene	NN	O	B-Process
+diisocyanate	NN	O	I-Process
+functionality	NN	O	I-Process
+.	NN	O	O
+Malshe	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+53,54	NN	O	O
+]	NN	O	O
+studied	NN	O	O
+the	NN	O	B-Task
+coating	NN	O	I-Task
+properties	NN	O	I-Task
+of	NN	O	I-Task
+fluorinated	NN	O	I-Task
+acrylic	NN	O	I-Task
+copolymers	NN	O	I-Task
+based	NN	O	O
+on	NN	O	O
+MMA	NN	O	B-Material
+,	NN	O	O
+BA	NN	O	B-Material
+,	NN	O	O
+and	NN	O	O
+2-hydroxyethyl	NN	O	B-Material
+methacrylate	NN	O	I-Material
+(	NN	O	O
+HEMA	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+They	NN	O	O
+partially	NN	O	O
+esterified	NN	O	O
+hydroxyl	NN	O	B-Task
+functionality	NN	O	I-Task
+of	NN	O	I-Task
+HEMA	NN	O	I-Task
+with	NN	O	I-Task
+tetrafluoro	NN	O	I-Task
+propanoic	NN	O	I-Task
+acid	NN	O	I-Task
+and	NN	O	O
+cured	NN	O	O
+the	NN	O	B-Material
+polymer	NN	O	I-Material
+with	NN	O	I-Material
+butylated	NN	O	I-Material
+melamine	NN	O	I-Material
+formaldehyde	NN	O	I-Material
+resin	NN	O	I-Material
+.	NN	O	O
+Such	NN	O	O
+methods	NN	O	O
+were	NN	O	O
+suited	NN	O	O
+for	NN	O	O
+the	NN	O	O
+synthesis	NN	O	O
+of	NN	O	O
+copolymers	NN	O	B-Material
+containing	NN	O	I-Material
+complicated	NN	O	I-Material
+fluorinated	NN	O	I-Material
+groups	NN	O	I-Material
+or	NN	O	O
+difficult	NN	O	O
+to	NN	O	O
+be	NN	O	O
+provided	NN	O	O
+directly	NN	O	O
+by	NN	O	O
+living	NN	O	B-Process
+polymerization	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0038092X11004129)
+
+Assuming	NN	O	O
+a	NN	O	O
+constant	NN	O	O
+cell	NN	O	B-Process
+electrical	NN	O	I-Process
+conversion	NN	O	I-Process
+efficiency	NN	O	O
+of	NN	O	O
+15	NN	O	O
+%	NN	O	O
+,	NN	O	O
+a	NN	O	O
+constant	NN	O	O
+fraction	NN	O	O
+of	NN	O	O
+the	NN	O	O
+incident	NN	O	O
+solar	NN	O	B-Process
+radiation	NN	O	I-Process
+would	NN	O	O
+be	NN	O	O
+dissipated	NN	O	O
+by	NN	O	O
+the	NN	O	O
+solar	NN	O	O
+cell	NN	O	O
+for	NN	O	O
+each	NN	O	O
+solar	NN	O	B-Process
+radiation	NN	O	I-Process
+intensity	NN	O	O
+level	NN	O	O
+.	NN	O	O
+From	NN	O	O
+Table	NN	O	O
+2	NN	O	O
+,	NN	O	O
+it	NN	O	O
+can	NN	O	O
+be	NN	O	O
+seen	NN	O	O
+that	NN	O	O
+for	NN	O	O
+the	NN	O	O
+worst	NN	O	O
+scenario	NN	O	O
+when	NN	O	O
+the	NN	O	O
+ambient	NN	O	O
+temperature	NN	O	O
+was	NN	O	O
+50	NN	O	O
+°	NN	O	O
+C	NN	O	O
+with	NN	O	O
+natural	NN	O	B-Process
+convection	NN	O	I-Process
+only	NN	O	O
+,	NN	O	O
+the	NN	O	O
+predicted	NN	O	B-Task
+cell	NN	O	I-Task
+electrical	NN	O	I-Task
+conversion	NN	O	I-Task
+efficiency	NN	O	I-Task
+would	NN	O	O
+have	NN	O	O
+reduced	NN	O	O
+to	NN	O	O
+approximately	NN	O	O
+8	NN	O	O
+%	NN	O	O
+rather	NN	O	O
+than	NN	O	O
+the	NN	O	O
+15	NN	O	O
+%	NN	O	O
+assumed	NN	O	O
+.	NN	O	O
+The	NN	O	O
+energy	NN	O	O
+dissipated	NN	O	O
+as	NN	O	O
+heat	NN	O	O
+from	NN	O	O
+the	NN	O	O
+cell	NN	O	O
+would	NN	O	O
+thus	NN	O	O
+be	NN	O	O
+7	NN	O	O
+%	NN	O	O
+higher	NN	O	O
+.	NN	O	O
+To	NN	O	O
+correct	NN	O	O
+for	NN	O	O
+this	NN	O	O
+effect	NN	O	O
+the	NN	O	O
+apparent	NN	O	B-Process
+insolation	NN	O	I-Process
+level	NN	O	I-Process
+should	NN	O	O
+be	NN	O	O
+modified	NN	O	O
+using	NN	O	O
+the	NN	O	O
+following	NN	O	O
+formula:(3)Iact	NN	O	B-Process
+=	NN	O	I-Process
+I×0.850.85+dηwhere	NN	O	I-Process
+Iact	NN	O	O
+is	NN	O	O
+the	NN	O	O
+actual	NN	O	O
+incident	NN	O	O
+solar	NN	O	B-Process
+radiation	NN	O	I-Process
+intensity	NN	O	O
+,	NN	O	O
+dη	NN	O	O
+is	NN	O	O
+solar	NN	O	O
+cell	NN	O	O
+efficiency	NN	O	O
+difference	NN	O	O
+between	NN	O	O
+the	NN	O	O
+initially	NN	O	O
+assumed	NN	O	O
+15	NN	O	O
+%	NN	O	O
+and	NN	O	O
+final	NN	O	O
+calculated	NN	O	O
+cell	NN	O	O
+efficiency	NN	O	O
+based	NN	O	O
+on	NN	O	O
+measured	NN	O	O
+cell	NN	O	O
+temperature	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0038092X14000942)
+
+Thermal	NN	O	B-Task
+performance	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+smart	NN	O	I-Task
+window	NN	O	I-Task
+has	NN	O	O
+been	NN	O	O
+predicted	NN	O	O
+under	NN	O	O
+different	NN	O	O
+simulated	NN	O	B-Process
+parameters	NN	O	I-Process
+namely	NN	O	O
+,	NN	O	O
+direct	NN	O	B-Process
+solar	NN	O	I-Process
+radiation	NN	O	I-Process
+intensity	NN	O	I-Process
+,	NN	O	O
+ambient	NN	O	B-Process
+temperature	NN	O	I-Process
+,	NN	O	O
+water	NN	O	B-Process
+inlet	NN	O	I-Process
+temperature	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+water	NN	O	B-Process
+flow	NN	O	I-Process
+rate	NN	O	I-Process
+.	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+11	NN	O	O
+shows	NN	O	O
+a	NN	O	O
+sample	NN	O	O
+of	NN	O	O
+temperature	NN	O	O
+distribution	NN	O	O
+of	NN	O	O
+all	NN	O	O
+window	NN	O	B-Material
+components	NN	O	I-Material
+at	NN	O	O
+a	NN	O	O
+plane	NN	O	O
+passing	NN	O	O
+through	NN	O	O
+the	NN	O	O
+horizontal	NN	O	O
+window	NN	O	O
+segment	NN	O	O
+based	NN	O	O
+on	NN	O	O
+simulation	NN	O	B-Material
+physical	NN	O	I-Material
+conditions	NN	O	I-Material
+listed	NN	O	O
+on	NN	O	O
+Table	NN	O	O
+3	NN	O	O
+.	NN	O	O
+Simulation	NN	O	B-Material
+data	NN	O	I-Material
+has	NN	O	O
+been	NN	O	O
+collected	NN	O	O
+from	NN	O	O
+all	NN	O	O
+successive	NN	O	O
+simulations	NN	O	B-Process
+.	NN	O	O
+The	NN	O	O
+effect	NN	O	O
+of	NN	O	O
+increasing	NN	O	B-Process
+direct	NN	O	I-Process
+solar	NN	O	I-Process
+radiation	NN	O	I-Process
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+-DOCSTART- (S0038092X14004770)
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+-DOCSTART- (S0038092X15000559)
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+Since	NN	O	O
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+-DOCSTART- (S0045782512002678)
+
+To	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
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+
+-DOCSTART- (S0045782512003234)
+
+An	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
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+.	NN	O	O
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+(	NN	O	O
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+5	NN	O	O
+)	NN	O	O
+,	NN	O	O
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+6	NN	O	O
+)	NN	O	O
+.	NN	O	O
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+,	NN	O	O
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+8)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0045782512003428)
+
+The	NN	O	O
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+-	NN	O	O
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+-	NN	O	I-Material
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+,	NN	O	I-Task
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+nodes	NN	O	O
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+.	NN	O	O
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+,	NN	O	O
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+cost	NN	O	O
+per	NN	O	O
+restoring	NN	O	O
+force	NN	O	O
+assembly	NN	O	O
+.	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+illustrates	NN	O	O
+the	NN	O	O
+positions	NN	O	O
+of	NN	O	O
+support	NN	O	O
+points	NN	O	O
+for	NN	O	O
+various	NN	O	O
+CAG	NN	O	B-Process
+and	NN	O	I-Process
+SFEM	NN	O	I-Process
+formulations	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0045782513000479)
+
+Algorithms	NN	O	B-Material
+regarding	NN	O	I-Material
+distance	NN	O	I-Material
+fields	NN	O	I-Material
+go	NN	O	O
+back	NN	O	O
+to	NN	O	O
+the	NN	O	O
+level	NN	O	B-Process
+set	NN	O	I-Process
+equation	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
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+method	NN	O	I-Process
+was	NN	O	O
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+by	NN	O	O
+Osher	NN	O	O
+and	NN	O	O
+Sethian	NN	O	O
+[	NN	O	O
+20	NN	O	O
+]	NN	O	O
+who	NN	O	O
+described	NN	O	O
+the	NN	O	O
+temporal	NN	O	B-Process
+propagation	NN	O	I-Process
+of	NN	O	O
+moving	NN	O	O
+interfaces	NN	O	O
+by	NN	O	O
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+the	NN	O	O
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+equation	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+performed	NN	O	O
+by	NN	O	O
+a	NN	O	O
+finite	NN	O	B-Process
+difference	NN	O	I-Process
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+working	NN	O	O
+on	NN	O	O
+a	NN	O	O
+rectangular	NN	O	B-Material
+grid	NN	O	I-Material
+in	NN	O	I-Material
+two	NN	O	I-Material
+or	NN	O	I-Material
+three	NN	O	I-Material
+dimensions	NN	O	I-Material
+.	NN	O	O
+Information	NN	O	O
+on	NN	O	O
+normal	NN	O	O
+vectors	NN	O	O
+and	NN	O	O
+curvature	NN	O	O
+can	NN	O	O
+be	NN	O	O
+obtained	NN	O	O
+.	NN	O	O
+The	NN	O	O
+fast	NN	O	B-Process
+marching	NN	O	I-Process
+method	NN	O	I-Process
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
+provides	NN	O	O
+an	NN	O	O
+efficient	NN	O	O
+numerical	NN	O	B-Task
+scheme	NN	O	I-Task
+of	NN	O	I-Task
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+nlogn	NN	O	I-Task
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+the	NN	O	I-Task
+support	NN	O	I-Task
+values	NN	O	I-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+grid	NN	O	I-Task
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+a	NN	O	O
+reinterpretation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+propagation	NN	O	B-Process
+process	NN	O	I-Process
+,	NN	O	O
+i.e.	NN	O	O
+the	NN	O	B-Process
+time	NN	O	I-Process
+where	NN	O	I-Process
+the	NN	O	I-Process
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+a	NN	O	I-Process
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+influenced	NN	O	I-Process
+only	NN	O	I-Process
+by	NN	O	I-Process
+those	NN	O	I-Process
+neighboring	NN	O	I-Process
+grid	NN	O	I-Process
+points	NN	O	I-Process
+which	NN	O	I-Process
+are	NN	O	I-Process
+previously	NN	O	I-Process
+passed	NN	O	I-Process
+by	NN	O	I-Process
+the	NN	O	I-Process
+interface	NN	O	I-Process
+.	NN	O	O
+An	NN	O	O
+overview	NN	O	O
+on	NN	O	O
+the	NN	O	O
+theory	NN	O	B-Process
+of	NN	O	I-Process
+level	NN	O	I-Process
+set	NN	O	I-Process
+and	NN	O	O
+fast	NN	O	B-Process
+marching	NN	O	I-Process
+methods	NN	O	O
+and	NN	O	O
+their	NN	O	O
+applications	NN	O	O
+to	NN	O	O
+problems	NN	O	O
+of	NN	O	O
+various	NN	O	O
+areas	NN	O	B-Task
+are	NN	O	O
+given	NN	O	O
+in	NN	O	O
+[	NN	O	O
+22,23	NN	O	O
+]	NN	O	O
+,	NN	O	O
+for	NN	O	O
+example	NN	O	O
+shape	NN	O	B-Task
+offsetting	NN	O	I-Task
+,	NN	O	O
+computing	NN	O	B-Task
+distances	NN	O	I-Task
+,	NN	O	O
+photolithography	NN	O	B-Task
+development	NN	O	I-Task
+,	NN	O	O
+seismic	NN	O	B-Task
+travel	NN	O	I-Task
+times	NN	O	I-Task
+,	NN	O	O
+etc	NN	O	O
+.	NN	O	O
+Distance	NN	O	B-Task
+fields	NN	O	I-Task
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+a	NN	O	O
+special	NN	O	O
+case	NN	O	O
+of	NN	O	O
+the	NN	O	O
+level	NN	O	B-Process
+set	NN	O	I-Process
+equation	NN	O	O
+where	NN	O	O
+the	NN	O	O
+absolute	NN	O	O
+value	NN	O	O
+of	NN	O	O
+the	NN	O	O
+advection	NN	O	O
+velocity	NN	O	O
+is	NN	O	O
+1	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0045782513000546)
+
+In	NN	O	O
+this	NN	O	O
+article	NN	O	O
+we	NN	O	O
+consider	NN	O	O
+an	NN	O	O
+extension	NN	O	B-Task
+to	NN	O	I-Task
+the	NN	O	I-Task
+equations	NN	O	I-Task
+of	NN	O	I-Task
+poroelasticity	NN	O	I-Task
+by	NN	O	O
+modelling	NN	O	B-Task
+the	NN	O	I-Task
+flow	NN	O	I-Task
+of	NN	O	I-Task
+a	NN	O	I-Task
+slightly	NN	O	I-Task
+compressible	NN	O	I-Task
+single	NN	O	I-Task
+phase	NN	O	I-Task
+fluid	NN	O	I-Task
+in	NN	O	I-Task
+a	NN	O	I-Task
+viscoelastic	NN	O	I-Task
+porous	NN	O	I-Task
+medium	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+constitutive	NN	O	B-Process
+equations	NN	O	I-Process
+therefore	NN	O	O
+allow	NN	O	O
+for	NN	O	O
+the	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+viscoelastic	NN	O	B-Process
+relaxation	NN	O	I-Process
+effects	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+porous	NN	O	B-Material
+media	NN	O	I-Material
+(	NN	O	O
+but	NN	O	O
+not	NN	O	O
+the	NN	O	O
+fluid	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+Fully	NN	O	B-Process
+discrete	NN	O	I-Process
+numerical	NN	O	I-Process
+schemes	NN	O	I-Process
+are	NN	O	O
+derived	NN	O	O
+based	NN	O	O
+on	NN	O	O
+a	NN	O	O
+lagged	NN	O	B-Process
+and	NN	O	I-Process
+non	NN	O	I-Process
+-	NN	O	I-Process
+lagged	NN	O	I-Process
+backward	NN	O	I-Process
+Euler	NN	O	I-Process
+time	NN	O	I-Process
+stepping	NN	O	I-Process
+method	NN	O	I-Process
+applied	NN	O	O
+to	NN	O	O
+a	NN	O	O
+mixed	NN	O	B-Material
+and	NN	O	I-Material
+Galerkin	NN	O	I-Material
+finite	NN	O	I-Material
+element	NN	O	I-Material
+spatial	NN	O	I-Material
+discretization	NN	O	I-Material
+.	NN	O	O
+We	NN	O	O
+show	NN	O	O
+that	NN	O	O
+the	NN	O	O
+lagged	NN	O	O
+scheme	NN	O	O
+is	NN	O	O
+unconditionally	NN	O	O
+stable	NN	O	O
+and	NN	O	O
+give	NN	O	O
+an	NN	O	O
+optimal	NN	O	O
+a	NN	O	O
+priori	NN	O	O
+error	NN	O	O
+bound	NN	O	O
+for	NN	O	O
+it	NN	O	O
+.	NN	O	O
+Furthermore	NN	O	O
+,	NN	O	O
+this	NN	O	O
+scheme	NN	O	O
+is	NN	O	O
+practical	NN	O	O
+and	NN	O	O
+useful	NN	O	O
+in	NN	O	O
+the	NN	O	O
+sense	NN	O	O
+that	NN	O	O
+it	NN	O	O
+can	NN	O	O
+be	NN	O	O
+easily	NN	O	O
+implemented	NN	O	O
+in	NN	O	O
+existing	NN	O	O
+poroelasticity	NN	O	O
+software	NN	O	O
+because	NN	O	O
+the	NN	O	O
+coupling	NN	O	B-Process
+between	NN	O	O
+the	NN	O	O
+viscous	NN	O	O
+stresses	NN	O	O
+and	NN	O	O
+pressures	NN	O	O
+and	NN	O	O
+the	NN	O	O
+elasticity	NN	O	O
+and	NN	O	O
+flow	NN	O	B-Process
+equations	NN	O	I-Process
+is	NN	O	O
+‘	NN	O	O
+lagged’	NN	O	O
+by	NN	O	O
+one	NN	O	O
+time	NN	O	O
+step	NN	O	O
+.	NN	O	O
+The	NN	O	O
+required	NN	O	O
+additional	NN	O	O
+coding	NN	O	O
+therefore	NN	O	O
+takes	NN	O	O
+the	NN	O	O
+form	NN	O	O
+of	NN	O	O
+extra	NN	O	O
+‘	NN	O	O
+right	NN	O	O
+hand	NN	O	O
+side	NN	O	O
+loads’	NN	O	O
+together	NN	O	O
+with	NN	O	O
+some	NN	O	O
+updating	NN	O	B-Process
+subroutines	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+viscoelastic	NN	O	O
+internal	NN	O	O
+variables	NN	O	O
+,	NN	O	O
+but	NN	O	O
+the	NN	O	O
+solver	NN	O	O
+and	NN	O	O
+assembly	NN	O	B-Material
+engines	NN	O	I-Material
+remain	NN	O	O
+intact	NN	O	O
+.	NN	O	O
+This	NN	O	O
+idea	NN	O	O
+of	NN	O	O
+lagging	NN	O	O
+has	NN	O	O
+been	NN	O	O
+used	NN	O	O
+before	NN	O	O
+for	NN	O	O
+nonlinearly	NN	O	B-Task
+viscoelastic	NN	O	I-Task
+diffusion	NN	O	I-Task
+problems	NN	O	I-Task
+in	NN	O	O
+[	NN	O	O
+3,24	NN	O	O
+]	NN	O	O
+but	NN	O	O
+,	NN	O	O
+of	NN	O	O
+course	NN	O	O
+,	NN	O	O
+is	NN	O	O
+not	NN	O	O
+new	NN	O	O
+.	NN	O	O
+Lagging	NN	O	O
+in	NN	O	O
+numerical	NN	O	B-Process
+schemes	NN	O	I-Process
+is	NN	O	O
+discussed	NN	O	O
+more	NN	O	O
+widely	NN	O	O
+by	NN	O	O
+Lowrie	NN	O	O
+in	NN	O	O
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0045782513001448)
+
+Traditionally	NN	O	O
+,	NN	O	O
+the	NN	O	O
+simulation	NN	O	B-Task
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+incompressible	NN	O	I-Task
+fluid	NN	O	I-Task
+flow	NN	O	I-Task
+by	NN	O	O
+the	NN	O	O
+SPH	NN	O	B-Process
+method	NN	O	I-Process
+has	NN	O	O
+been	NN	O	O
+through	NN	O	O
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+SPH	NN	O	I-Process
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+(	NN	O	O
+WCSPH	NN	O	B-Process
+)	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
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+,	NN	O	O
+the	NN	O	O
+pressure	NN	O	O
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+thermodynamic	NN	O	O
+variable	NN	O	O
+and	NN	O	O
+is	NN	O	O
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+using	NN	O	O
+an	NN	O	O
+artificial	NN	O	B-Process
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+.	NN	O	O
+The	NN	O	O
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+set	NN	O	O
+to	NN	O	O
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+sufficiently	NN	O	O
+high	NN	O	O
+to	NN	O	O
+limit	NN	O	O
+density	NN	O	O
+variations	NN	O	O
+to	NN	O	O
+within	NN	O	O
+a	NN	O	O
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+fraction	NN	O	O
+of	NN	O	O
+the	NN	O	O
+actual	NN	O	O
+fluid	NN	O	B-Material
+density	NN	O	O
+.	NN	O	O
+In	NN	O	O
+practice	NN	O	O
+,	NN	O	O
+this	NN	O	O
+high	NN	O	O
+sound	NN	O	O
+speed	NN	O	O
+places	NN	O	O
+a	NN	O	O
+limitation	NN	O	O
+on	NN	O	O
+the	NN	O	O
+maximum	NN	O	O
+permissible	NN	O	O
+time	NN	O	O
+-	NN	O	O
+step	NN	O	O
+size	NN	O	O
+through	NN	O	O
+the	NN	O	O
+Courant	NN	O	O
+–	NN	O	O
+Friedrichs	NN	O	O
+–	NN	O	O
+Lewy	NN	O	O
+(	NN	O	O
+CFL	NN	O	O
+)	NN	O	O
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+.	NN	O	O
+A	NN	O	O
+particular	NN	O	O
+weakness	NN	O	O
+relates	NN	O	O
+to	NN	O	O
+noise	NN	O	O
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+the	NN	O	O
+pressure	NN	O	O
+field	NN	O	O
+since	NN	O	O
+a	NN	O	O
+small	NN	O	O
+perturbation	NN	O	O
+in	NN	O	O
+the	NN	O	O
+local	NN	O	O
+density	NN	O	O
+will	NN	O	O
+yield	NN	O	O
+a	NN	O	O
+large	NN	O	O
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+in	NN	O	O
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+local	NN	O	O
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+.	NN	O	O
+This	NN	O	O
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+make	NN	O	O
+WCSPH	NN	O	B-Process
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+accurate	NN	O	O
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+,	NN	O	O
+although	NN	O	O
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+developments	NN	O	O
+which	NN	O	O
+create	NN	O	B-Task
+more	NN	O	I-Task
+uniform	NN	O	I-Task
+particle	NN	O	I-Task
+distributions	NN	O	I-Task
+have	NN	O	O
+improved	NN	O	O
+this	NN	O	O
+[	NN	O	O
+1,2	NN	O	O
+]	NN	O	O
+.	NN	O	O
+A	NN	O	O
+review	NN	O	O
+of	NN	O	O
+the	NN	O	O
+SPH	NN	O	B-Process
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+be	NN	O	O
+found	NN	O	O
+in	NN	O	O
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+while	NN	O	O
+a	NN	O	O
+review	NN	O	O
+of	NN	O	O
+the	NN	O	O
+classical	NN	O	O
+WCSPH	NN	O	B-Process
+formulation	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+free	NN	O	B-Process
+-	NN	O	I-Process
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+found	NN	O	O
+in	NN	O	O
+[	NN	O	O
+4	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0045782513001473)
+
+In	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+however	NN	O	O
+,	NN	O	O
+we	NN	O	O
+prefer	NN	O	O
+the	NN	O	O
+simpler	NN	O	O
+‘	NN	O	O
+framed’	NN	O	B-Process
+cell	NN	O	I-Process
+employed	NN	O	O
+by	NN	O	O
+Hadjiconstantinou	NN	O	O
+and	NN	O	O
+Patera	NN	O	O
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+,	NN	O	O
+where	NN	O	O
+the	NN	O	O
+shear	NN	O	B-Process
+stress	NN	O	I-Process
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+constraining	NN	O	B-Process
+the	NN	O	I-Process
+velocity	NN	O	I-Process
+in	NN	O	O
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+‘	NN	O	O
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+modifying	NN	O	O
+the	NN	O	O
+shape	NN	O	O
+of	NN	O	O
+the	NN	O	O
+box	NN	O	O
+.	NN	O	O
+The	NN	O	O
+framed	NN	O	B-Process
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+periodic	NN	O	O
+,	NN	O	O
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+calculate	NN	O	O
+the	NN	O	O
+average	NN	O	O
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+in	NN	O	O
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+whole	NN	O	O
+box	NN	O	O
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+the	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+an	NN	O	O
+external	NN	O	O
+buffer	NN	O	O
+would	NN	O	O
+produce	NN	O	O
+spurious	NN	O	O
+results	NN	O	O
+.	NN	O	O
+We	NN	O	O
+need	NN	O	O
+the	NN	O	O
+local	NN	O	O
+stress	NN	O	O
+in	NN	O	O
+the	NN	O	O
+core	NN	O	O
+region	NN	O	O
+,	NN	O	O
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+this	NN	O	O
+complicates	NN	O	O
+the	NN	O	O
+Oij	NN	O	O
+term	NN	O	O
+in	NN	O	O
+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+3	NN	O	O
+)	NN	O	O
+.	NN	O	O
+There	NN	O	O
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+other	NN	O	O
+methods	NN	O	O
+to	NN	O	O
+calculate	NN	O	B-Task
+the	NN	O	I-Task
+stress	NN	O	I-Task
+tensor	NN	O	I-Task
+such	NN	O	O
+as	NN	O	O
+the	NN	O	O
+method	NN	O	B-Process
+of	NN	O	I-Process
+planes	NN	O	I-Process
+[	NN	O	O
+32	NN	O	O
+]	NN	O	O
+,	NN	O	O
+the	NN	O	O
+volume	NN	O	B-Process
+-	NN	O	I-Process
+average	NN	O	I-Process
+approach	NN	O	I-Process
+[	NN	O	O
+26,14	NN	O	O
+]	NN	O	O
+,	NN	O	O
+or	NN	O	O
+the	NN	O	O
+method	NN	O	O
+derived	NN	O	O
+from	NN	O	O
+the	NN	O	O
+Schweitz	NN	O	B-Process
+virial	NN	O	I-Process
+relation	NN	O	I-Process
+[	NN	O	O
+25	NN	O	O
+]	NN	O	O
+,	NN	O	O
+but	NN	O	O
+,	NN	O	O
+in	NN	O	O
+general	NN	O	O
+,	NN	O	O
+we	NN	O	O
+must	NN	O	O
+choose	NN	O	O
+between	NN	O	O
+a	NN	O	O
+complicated	NN	O	B-Process
+computational	NN	O	I-Process
+cell	NN	O	I-Process
+(	NN	O	O
+i.e.	NN	O	O
+Lees	NN	O	B-Process
+–	NN	O	I-Process
+Edwards	NN	O	I-Process
+cell	NN	O	I-Process
+)	NN	O	O
+and	NN	O	O
+simplifying	NN	O	O
+the	NN	O	O
+calculation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+momentum	NN	O	O
+flux	NN	O	O
+,	NN	O	O
+or	NN	O	O
+a	NN	O	O
+simple	NN	O	B-Process
+cell	NN	O	I-Process
+(	NN	O	O
+i.e.	NN	O	O
+framed	NN	O	B-Process
+cell	NN	O	I-Process
+)	NN	O	O
+and	NN	O	O
+complicating	NN	O	O
+the	NN	O	O
+calculation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+momentum	NN	O	O
+flux	NN	O	O
+.	NN	O	O
+The	NN	O	O
+new	NN	O	O
+method	NN	O	O
+we	NN	O	O
+propose	NN	O	O
+here	NN	O	O
+does	NN	O	O
+not	NN	O	O
+need	NN	O	O
+the	NN	O	O
+direct	NN	O	O
+calculation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+flux	NN	O	O
+,	NN	O	O
+so	NN	O	O
+it	NN	O	O
+avoids	NN	O	O
+this	NN	O	O
+issue	NN	O	O
+altogether	NN	O	O
+:	NN	O	O
+we	NN	O	O
+can	NN	O	O
+use	NN	O	O
+the	NN	O	O
+framed	NN	O	B-Process
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+and	NN	O	O
+,	NN	O	O
+at	NN	O	O
+the	NN	O	O
+same	NN	O	O
+time	NN	O	O
+,	NN	O	O
+avoid	NN	O	O
+the	NN	O	O
+calculation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+IK	NN	O	B-Process
+equation	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S004578251300176X)
+
+Powder	NN	O	B-Process
+metallurgy	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+versatile	NN	O	O
+technology	NN	O	B-Process
+for	NN	O	I-Process
+the	NN	O	I-Process
+manufacturing	NN	O	I-Process
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+components	NN	O	I-Process
+to	NN	O	I-Process
+(	NN	O	I-Process
+near	NN	O	I-Process
+)	NN	O	I-Process
+net	NN	O	I-Process
+-	NN	O	I-Process
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+with	NN	O	O
+high	NN	O	O
+product	NN	O	O
+quality	NN	O	O
+.	NN	O	O
+For	NN	O	O
+a	NN	O	O
+hardmetal	NN	O	B-Material
+(	NN	O	O
+such	NN	O	O
+as	NN	O	O
+WC	NN	O	B-Material
+-	NN	O	I-Material
+Co	NN	O	I-Material
+)	NN	O	O
+cold	NN	O	O
+compaction	NN	O	O
+of	NN	O	O
+the	NN	O	O
+powder	NN	O	B-Material
+to	NN	O	O
+a	NN	O	O
+“	NN	O	O
+green	NN	O	B-Material
+body	NN	O	I-Material
+”	NN	O	O
+is	NN	O	O
+followed	NN	O	O
+by	NN	O	O
+liquid	NN	O	B-Process
+-	NN	O	I-Process
+phase	NN	O	I-Process
+sintering	NN	O	I-Process
+from	NN	O	O
+the	NN	O	O
+subsequent	NN	O	O
+heating	NN	O	B-Process
+.	NN	O	O
+This	NN	O	O
+means	NN	O	O
+that	NN	O	O
+the	NN	O	O
+binder	NN	O	O
+metal	NN	O	O
+Co	NN	O	B-Process
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+heated	NN	O	I-Process
+to	NN	O	O
+melt	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+obtain	NN	O	B-Task
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+action	NN	O	I-Task
+,	NN	O	O
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+,	NN	O	O
+via	NN	O	O
+surface	NN	O	B-Process
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+,	NN	O	O
+stemming	NN	O	O
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+surface	NN	O	O
+energy	NN	O	O
+.	NN	O	O
+The	NN	O	O
+resulting	NN	O	O
+flow	NN	O	O
+causes	NN	O	O
+gradual	NN	O	B-Process
+filling	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+pore	NN	O	I-Process
+space	NN	O	O
+and	NN	O	O
+brings	NN	O	O
+about	NN	O	O
+a	NN	O	O
+macroscopic	NN	O	B-Process
+shrinkage	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+particle	NN	O	B-Material
+compact	NN	O	O
+until	NN	O	O
+a	NN	O	O
+completely	NN	O	O
+dense	NN	O	B-Material
+state	NN	O	I-Material
+is	NN	O	O
+obtained	NN	O	O
+,	NN	O	O
+at	NN	O	O
+least	NN	O	O
+ideally	NN	O	O
+.	NN	O	O
+To	NN	O	O
+model	NN	O	B-Task
+and	NN	O	I-Task
+quantitatively	NN	O	I-Task
+simulate	NN	O	I-Task
+the	NN	O	I-Task
+sintering	NN	O	I-Task
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+is	NN	O	O
+a	NN	O	O
+challenging	NN	O	O
+task	NN	O	O
+.	NN	O	O
+The	NN	O	O
+goal	NN	O	O
+is	NN	O	O
+to	NN	O	O
+(	NN	O	O
+i	NN	O	O
+)	NN	O	O
+estimate	NN	O	B-Task
+the	NN	O	I-Task
+final	NN	O	I-Task
+resulting	NN	O	I-Task
+quality	NN	O	I-Task
+(	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+porosity	NN	O	B-Task
+)	NN	O	O
+and	NN	O	O
+(	NN	O	O
+ii	NN	O	O
+)	NN	O	O
+to	NN	O	B-Task
+predict	NN	O	I-Task
+the	NN	O	I-Task
+final	NN	O	I-Task
+net	NN	O	I-Task
+shape	NN	O	I-Task
+and	NN	O	I-Task
+size	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+sintered	NN	O	B-Material
+component	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0045782514000607)
+
+As	NN	O	O
+mentioned	NN	O	O
+previously	NN	O	O
+,	NN	O	O
+the	NN	O	O
+weakly	NN	O	B-Process
+penalized	NN	O	I-Process
+system	NN	O	O
+can	NN	O	O
+be	NN	O	O
+thought	NN	O	O
+of	NN	O	O
+as	NN	O	O
+a	NN	O	O
+generalized	NN	O	B-Process
+formulation	NN	O	I-Process
+which	NN	O	O
+can	NN	O	O
+result	NN	O	O
+in	NN	O	O
+the	NN	O	O
+PL	NN	O	B-Process
+,	NN	O	I-Process
+penalty	NN	O	I-Process
+or	NN	O	I-Process
+statically	NN	O	I-Process
+condensed	NN	O	I-Process
+PL	NN	O	I-Process
+formulations	NN	O	I-Process
+depending	NN	O	O
+on	NN	O	O
+the	NN	O	O
+choice	NN	O	O
+of	NN	O	O
+the	NN	O	O
+projection	NN	O	O
+operator	NN	O	O
+.	NN	O	O
+The	NN	O	O
+equivalence	NN	O	O
+of	NN	O	O
+these	NN	O	O
+methods	NN	O	O
+under	NN	O	O
+the	NN	O	O
+weakly	NN	O	O
+penalized	NN	O	O
+regime	NN	O	O
+,	NN	O	O
+allows	NN	O	O
+us	NN	O	O
+to	NN	O	O
+combine	NN	O	O
+and	NN	O	O
+take	NN	O	O
+advantage	NN	O	O
+of	NN	O	O
+the	NN	O	O
+good	NN	O	O
+characteristics	NN	O	O
+of	NN	O	O
+each	NN	O	O
+method	NN	O	O
+.	NN	O	O
+For	NN	O	O
+instance	NN	O	O
+,	NN	O	O
+the	NN	O	O
+weakly	NN	O	B-Process
+penalized	NN	O	I-Process
+formulation	NN	O	I-Process
+combines	NN	O	O
+the	NN	O	O
+simplified	NN	O	O
+structure	NN	O	O
+of	NN	O	O
+the	NN	O	O
+penalty	NN	O	B-Process
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+with	NN	O	O
+the	NN	O	O
+convergence	NN	O	O
+characteristics	NN	O	O
+of	NN	O	O
+the	NN	O	O
+PL	NN	O	B-Process
+formulation	NN	O	I-Process
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+stiffness	NN	O	O
+of	NN	O	O
+the	NN	O	O
+linear	NN	O	O
+system	NN	O	O
+at	NN	O	O
+high	NN	O	O
+values	NN	O	O
+of	NN	O	O
+the	NN	O	O
+bulk	NN	O	O
+modulus	NN	O	O
+,	NN	O	O
+the	NN	O	O
+penalized	NN	O	B-Process
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+(	NN	O	O
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+penalty	NN	O	I-Process
+/	NN	O	I-Process
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+penalized	NN	O	I-Process
+)	NN	O	O
+exhibit	NN	O	O
+deteriorated	NN	O	O
+nonlinear	NN	O	B-Material
+convergence	NN	O	I-Material
+.	NN	O	O
+This	NN	O	O
+stands	NN	O	O
+in	NN	O	O
+stark	NN	O	O
+contrast	NN	O	O
+to	NN	O	O
+the	NN	O	O
+PL	NN	O	B-Process
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+which	NN	O	O
+(	NN	O	O
+for	NN	O	O
+inf	NN	O	B-Process
+–	NN	O	I-Process
+sup	NN	O	I-Process
+stable	NN	O	I-Process
+schemes	NN	O	I-Process
+)	NN	O	O
+exhibits	NN	O	O
+fast	NN	O	O
+convergence	NN	O	B-Material
+even	NN	O	O
+for	NN	O	O
+high	NN	O	O
+bulk	NN	O	O
+modulus	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+we	NN	O	O
+observe	NN	O	O
+that	NN	O	O
+,	NN	O	O
+when	NN	O	O
+the	NN	O	O
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+of	NN	O	O
+πh	NN	O	O
+provides	NN	O	O
+equivalence	NN	O	O
+with	NN	O	O
+the	NN	O	O
+discrete	NN	O	O
+PL	NN	O	B-Task
+method	NN	O	O
+,	NN	O	O
+poor	NN	O	B-Material
+nonlinear	NN	O	I-Material
+convergence	NN	O	I-Material
+is	NN	O	O
+observed	NN	O	O
+though	NN	O	O
+,	NN	O	O
+in	NN	O	O
+principle	NN	O	O
+,	NN	O	O
+the	NN	O	O
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+should	NN	O	O
+be	NN	O	O
+similar	NN	O	O
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+Examining	NN	O	O
+the	NN	O	O
+update	NN	O	O
+formulae	NN	O	O
+for	NN	O	O
+both	NN	O	O
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+(	NN	O	O
+see	NN	O	O
+Appendix	NN	O	O
+C	NN	O	O
+)	NN	O	O
+,	NN	O	O
+we	NN	O	O
+observe	NN	O	O
+that	NN	O	O
+deteriorated	NN	O	B-Task
+convergence	NN	O	I-Task
+stems	NN	O	O
+from	NN	O	O
+:	NN	O	O
+(	NN	O	O
+1	NN	O	O
+)	NN	O	O
+initial	NN	O	B-Task
+residual	NN	O	I-Task
+amplification	NN	O	I-Task
+,	NN	O	O
+and	NN	O	O
+(	NN	O	O
+2	NN	O	O
+)	NN	O	O
+the	NN	O	O
+amplification	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+residual	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0045782514001492)
+
+Energy	NN	O	B-Process
+conservation	NN	O	I-Process
+is	NN	O	O
+critical	NN	O	O
+to	NN	O	O
+ensure	NN	O	O
+stability	NN	O	O
+of	NN	O	O
+a	NN	O	O
+numerical	NN	O	O
+method	NN	O	O
+,	NN	O	O
+especially	NN	O	O
+for	NN	O	O
+contact	NN	O	B-Task
+and	NN	O	I-Task
+collision	NN	O	I-Task
+problems	NN	O	I-Task
+[	NN	O	O
+28,43	NN	O	O
+]	NN	O	O
+.	NN	O	O
+A	NN	O	O
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+conserving	NN	O	O
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+have	NN	O	O
+been	NN	O	O
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+to	NN	O	O
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+energy	NN	O	B-Task
+conservation	NN	O	I-Task
+.	NN	O	O
+These	NN	O	O
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+make	NN	O	O
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+the	NN	O	O
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+the	NN	O	O
+conservation	NN	O	O
+property	NN	O	O
+from	NN	O	O
+continuum	NN	O	B-Task
+problems	NN	O	I-Task
+.	NN	O	O
+These	NN	O	O
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+schemes	NN	O	I-Process
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+conveniently	NN	O	O
+be	NN	O	O
+combined	NN	O	O
+with	NN	O	O
+the	NN	O	O
+finite	NN	O	B-Process
+element	NN	O	I-Process
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+to	NN	O	O
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+frictionless	NN	O	I-Task
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+Hesch	NN	O	O
+and	NN	O	O
+Betsch	NN	O	O
+[	NN	O	O
+45	NN	O	O
+]	NN	O	O
+formulated	NN	O	O
+the	NN	O	O
+node	NN	O	B-Process
+-	NN	O	I-Process
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+-	NN	O	I-Process
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+46	NN	O	O
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+adhesive	NN	O	B-Task
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+problems	NN	O	I-Task
+without	NN	O	O
+considering	NN	O	O
+friction	NN	O	B-Process
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+dissipation	NN	O	B-Process
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+Even	NN	O	O
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+the	NN	O	O
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+,	NN	O	O
+it	NN	O	O
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+penalty	NN	O	O
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+Chawla	NN	O	O
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+47	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S004578251400334X)
+
+In	NN	O	O
+this	NN	O	O
+article	NN	O	O
+we	NN	O	O
+propose	NN	O	O
+a	NN	O	O
+method	NN	O	O
+which	NN	O	O
+adopts	NN	O	O
+a	NN	O	O
+different	NN	O	O
+approach	NN	O	O
+to	NN	O	O
+the	NN	O	O
+generation	NN	O	B-Process
+procedure	NN	O	I-Process
+outlined	NN	O	O
+above	NN	O	O
+and	NN	O	O
+that	NN	O	O
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+to	NN	O	O
+address	NN	O	O
+the	NN	O	O
+problem	NN	O	O
+of	NN	O	O
+generating	NN	O	B-Task
+high	NN	O	I-Task
+-	NN	O	I-Task
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+high	NN	O	I-Task
+Reynolds	NN	O	I-Task
+number	NN	O	I-Task
+flows	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+method	NN	O	O
+is	NN	O	O
+conceptually	NN	O	O
+simple	NN	O	O
+,	NN	O	O
+cheap	NN	O	O
+to	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S0045782515002418)
+
+FR	NN	O	B-Process
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+,	NN	O	O
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+-	NN	O	I-Process
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+)	NN	O	O
+.	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Process
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+(	NN	O	O
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+)	NN	O	O
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+within	NN	O	O
+each	NN	O	O
+element	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+do	NN	O	O
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+-	NN	O	I-Process
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+continuity	NN	O	I-Process
+.	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+FR	NN	O	B-Process
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+.	NN	O	O
+A	NN	O	O
+description	NN	O	O
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+below	NN	O	O
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+For	NN	O	O
+further	NN	O	O
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+[	NN	O	O
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+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0045782515002686)
+
+The	NN	O	O
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+)	NN	O	O
+,	NN	O	O
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+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+,	NN	O	O
+has	NN	O	O
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+]	NN	O	O
+,	NN	O	O
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+,	NN	O	O
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+6	NN	O	O
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+7	NN	O	O
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+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+,	NN	O	O
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+Newtonian	NN	O	B-Material
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+part	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
+This	NN	O	O
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+single	NN	O	O
+equation	NN	O	O
+of	NN	O	O
+motion	NN	O	B-Process
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+to	NN	O	O
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+i.e.	NN	O	O
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+-	NN	O	O
+phase	NN	O	O
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+)	NN	O	O
+.	NN	O	O
+Additionally	NN	O	O
+,	NN	O	O
+the	NN	O	O
+IBM	NN	O	B-Process
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+the	NN	O	O
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+move	NN	O	O
+freely	NN	O	O
+over	NN	O	O
+the	NN	O	O
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+,	NN	O	O
+alleviating	NN	O	O
+the	NN	O	O
+need	NN	O	O
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+remeshing	NN	O	B-Process
+required	NN	O	O
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+a	NN	O	O
+classical	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S0045782515003680)
+
+We	NN	O	O
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+the	NN	O	O
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+three	NN	O	I-Material
+-	NN	O	I-Material
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+.	NN	O	O
+As	NN	O	O
+widely	NN	O	O
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+literature	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+geometry	NN	O	B-Process
+representations	NN	O	I-Process
+used	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+(	NN	O	O
+FEA	NN	O	B-Process
+)	NN	O	O
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+[	NN	O	O
+1	NN	O	O
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+.	NN	O	O
+This	NN	O	O
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+limiting	NN	O	O
+in	NN	O	O
+shape	NN	O	B-Task
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+which	NN	O	O
+a	NN	O	O
+given	NN	O	O
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+to	NN	O	O
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+updated	NN	O	O
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+.	NN	O	O
+The	NN	O	O
+inherent	NN	O	O
+shortcomings	NN	O	O
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+representations	NN	O	I-Task
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+motivated	NN	O	O
+the	NN	O	O
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+various	NN	O	O
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+.	NN	O	O
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+prevalent	NN	O	O
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+a	NN	O	O
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+[	NN	O	O
+2–8	NN	O	O
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+[	NN	O	O
+9,10	NN	O	O
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+instead	NN	O	O
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+,	NN	O	O
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+11	NN	O	O
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+.	NN	O	O
+Generally	NN	O	O
+,	NN	O	O
+it	NN	O	O
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+to	NN	O	O
+map	NN	O	O
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+or	NN	O	O
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+back	NN	O	O
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+,	NN	O	O
+which	NN	O	O
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+.	NN	O	O
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+,	NN	O	O
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+respect	NN	O	O
+to	NN	O	O
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+Recently	NN	O	O
+,	NN	O	O
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+,	NN	O	O
+solids	NN	O	B-Material
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+,	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S0079642514000887)
+
+The	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+thoroughly	NN	O	O
+addressed	NN	O	O
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+importance	NN	O	O
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+new	NN	O	I-Task
+devices	NN	O	I-Task
+[	NN	O	O
+58–61	NN	O	O
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+.	NN	O	O
+To	NN	O	O
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+,	NN	O	O
+several	NN	O	O
+instruments	NN	O	B-Material
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+been	NN	O	O
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+goals	NN	O	O
+,	NN	O	O
+namely	NN	O	O
+,	NN	O	O
+scanning	NN	O	B-Material
+electron	NN	O	I-Material
+microscopes	NN	O	I-Material
+(	NN	O	O
+SEM	NN	O	B-Material
+)	NN	O	O
+,	NN	O	O
+atomic	NN	O	B-Material
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+microscopes	NN	O	I-Material
+(	NN	O	O
+AFM	NN	O	B-Material
+)	NN	O	O
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+transmission	NN	O	B-Material
+electron	NN	O	I-Material
+microscopes	NN	O	I-Material
+(	NN	O	O
+TEM	NN	O	B-Material
+)	NN	O	O
+[	NN	O	O
+62,63	NN	O	O
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+Compared	NN	O	O
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+the	NN	O	O
+first	NN	O	O
+two	NN	O	O
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+,	NN	O	O
+which	NN	O	O
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+no	NN	O	O
+direct	NN	O	O
+access	NN	O	O
+to	NN	O	O
+the	NN	O	O
+material	NN	O	B-Task
+internal	NN	O	I-Task
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+atomic	NN	O	B-Task
+bonding	NN	O	I-Task
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+[	NN	O	O
+64–67	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
+of	NN	O	O
+-	NN	O	O
+the	NN	O	O
+-	NN	O	O
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+situ	NN	O	O
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+-	NN	O	O
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+TEM	NN	O	B-Process
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+allows	NN	O	O
+one	NN	O	O
+to	NN	O	O
+not	NN	O	O
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+-	NN	O	O
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+insights	NN	O	O
+into	NN	O	O
+its	NN	O	O
+physical	NN	O	O
+,	NN	O	O
+chemical	NN	O	O
+,	NN	O	O
+and	NN	O	O
+microstructural	NN	O	O
+statuses	NN	O	O
+[	NN	O	O
+68–71	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Combining	NN	O	O
+the	NN	O	O
+capabilities	NN	O	O
+of	NN	O	O
+a	NN	O	O
+conventional	NN	O	O
+high	NN	O	O
+-	NN	O	O
+resolution	NN	O	O
+TEM	NN	O	B-Process
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+AFM	NN	O	B-Process
+or	NN	O	O
+STM	NN	O	B-Process
+probes	NN	O	I-Process
+produces	NN	O	O
+advanced	NN	O	O
+and	NN	O	O
+dedicated	NN	O	O
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+,	NN	O	O
+which	NN	O	O
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+the	NN	O	O
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+properties	NN	O	B-Task
+analysis	NN	O	I-Task
+.	NN	O	O
+Such	NN	O	O
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+have	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+“	NN	O	O
+Nanofactory	NN	O	O
+Instruments	NN	O	O
+AB	NN	O	O
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+,	NN	O	O
+Goteborg	NN	O	O
+,	NN	O	O
+Sweden	NN	O	O
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+72	NN	O	O
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+.	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+[	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+field	NN	O	B-Task
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+[	NN	O	O
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+]	NN	O	O
+,	NN	O	O
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+[	NN	O	O
+78–80	NN	O	O
+]	NN	O	O
+,	NN	O	O
+soldering	NN	O	B-Task
+[	NN	O	O
+81,82	NN	O	O
+]	NN	O	O
+,	NN	O	O
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+doping	NN	O	B-Task
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+83	NN	O	O
+]	NN	O	O
+,	NN	O	O
+etc	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0098300412001793)
+
+MINERAL	NN	O	B-Task
+(	NN	O	I-Task
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+AnaLysis	NN	O	I-Task
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+is	NN	O	O
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+that	NN	O	O
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+formula	NN	O	I-Process
+recalculations	NN	O	I-Process
+combined	NN	O	I-Process
+with	NN	O	I-Process
+the	NN	O	I-Process
+associated	NN	O	I-Process
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+of	NN	O	I-Process
+the	NN	O	I-Process
+analytical	NN	O	I-Process
+uncertainties	NN	O	I-Process
+.	NN	O	O
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+on	NN	O	O
+the	NN	O	O
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+Giamarita	NN	O	O
+and	NN	O	O
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+(	NN	O	O
+1990	NN	O	O
+)	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+additional	NN	O	O
+features	NN	O	O
+have	NN	O	O
+been	NN	O	O
+added	NN	O	O
+to	NN	O	B-Task
+provide	NN	O	I-Task
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+.	NN	O	O
+Many	NN	O	O
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+wt%	NN	O	O
+data	NN	O	O
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+Some	NN	O	B-Task
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+(	NN	O	O
+Esawi	NN	O	O
+,	NN	O	O
+2004	NN	O	O
+)	NN	O	O
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+PROBE	NN	O	B-Material
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+(	NN	O	O
+Tindle	NN	O	O
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+Webb	NN	O	O
+,	NN	O	O
+1994	NN	O	O
+)	NN	O	O
+for	NN	O	O
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+recalculation	NN	O	B-Task
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+amphibole	NN	O	I-Task
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+;	NN	O	O
+ILMAT	NN	O	B-Material
+(	NN	O	O
+Lepage	NN	O	O
+,	NN	O	O
+2003	NN	O	O
+)	NN	O	O
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+the	NN	O	O
+recalculation	NN	O	B-Task
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+magnetite	NN	O	I-Task
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+ilmenite	NN	O	I-Task
+;	NN	O	O
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+PX	NN	O	B-Material
+-	NN	O	I-Material
+NOM	NN	O	I-Material
+(	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
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+recalculation	NN	O	B-Task
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+pyroxene	NN	O	I-Task
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+.	NN	O	O
+MINERAL	NN	O	B-Material
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+a	NN	O	O
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+method	NN	O	O
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+minerals	NN	O	I-Task
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+its	NN	O	O
+strength	NN	O	O
+lies	NN	O	O
+in	NN	O	O
+the	NN	O	O
+fact	NN	O	O
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+the	NN	O	O
+first	NN	O	O
+tool	NN	O	O
+to	NN	O	O
+incorporate	NN	O	B-Process
+the	NN	O	I-Process
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+uncertainty	NN	O	I-Process
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+.	NN	O	I-Process
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+these	NN	O	O
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+concurrently	NN	O	O
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+the	NN	O	O
+standard	NN	O	O
+recalculations	NN	O	O
+,	NN	O	O
+no	NN	O	O
+additional	NN	O	O
+time	NN	O	O
+is	NN	O	O
+needed	NN	O	O
+to	NN	O	O
+perform	NN	O	O
+uncertainty	NN	O	O
+propagation	NN	O	O
+.	NN	O	O
+While	NN	O	O
+an	NN	O	O
+understanding	NN	O	O
+of	NN	O	O
+the	NN	O	O
+underlying	NN	O	O
+calculations	NN	O	O
+is	NN	O	O
+strongly	NN	O	O
+recommended	NN	O	O
+,	NN	O	O
+MINERAL	NN	O	B-Material
+is	NN	O	O
+designed	NN	O	O
+to	NN	O	O
+allow	NN	O	B-Task
+users	NN	O	I-Task
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+little	NN	O	I-Task
+or	NN	O	I-Task
+no	NN	O	I-Task
+experience	NN	O	I-Task
+operating	NN	O	I-Task
+MATLAB	NN	O	I-Task
+®	NN	O	I-Task
+and/or	NN	O	I-Task
+performing	NN	O	I-Task
+mineral	NN	O	I-Task
+formula	NN	O	I-Task
+recalculations	NN	O	I-Task
+and	NN	O	I-Task
+uncertainty	NN	O	I-Task
+propagation	NN	O	I-Task
+to	NN	O	I-Task
+undertake	NN	O	I-Task
+both	NN	O	I-Task
+with	NN	O	I-Task
+ease	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0098300413002185)
+
+A	NN	O	O
+number	NN	O	O
+of	NN	O	O
+model	NN	O	O
+parameters	NN	O	O
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+change	NN	O	O
+regionally	NN	O	O
+or	NN	O	O
+seasonally	NN	O	O
+,	NN	O	O
+in	NN	O	O
+particular	NN	O	O
+the	NN	O	O
+inherent	NN	O	O
+optical	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+water	NN	O	B-Material
+constituents	NN	O	I-Material
+[	NN	O	O
+ai⁎(λ	NN	O	B-Material
+)	NN	O	O
+,	NN	O	O
+aY⁎(λ	NN	O	B-Material
+)	NN	O	I-Material
+,	NN	O	O
+aD⁎(λ	NN	O	B-Material
+)	NN	O	I-Material
+,	NN	O	O
+bX(λ	NN	O	B-Material
+)	NN	O	I-Material
+,	NN	O	O
+bb	NN	O	B-Material
+,	NN	O	I-Material
+X⁎	NN	O	I-Material
+,	NN	O	O
+bb	NN	O	B-Material
+,	NN	O	O
+Mie⁎	NN	O	B-Material
+]	NN	O	O
+and	NN	O	O
+the	NN	O	O
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+optical	NN	O	B-Material
+properties	NN	O	I-Material
+of	NN	O	I-Material
+the	NN	O	I-Material
+bottom	NN	O	I-Material
+[	NN	O	I-Material
+Rib(λ	NN	O	I-Material
+)	NN	O	I-Material
+,	NN	O	I-Material
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+the	NN	O	I-Material
+atmosphere	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+database	NN	O	B-Material
+provided	NN	O	O
+with	NN	O	O
+WASI	NN	O	B-Material
+has	NN	O	O
+been	NN	O	O
+derived	NN	O	O
+from	NN	O	O
+in	NN	O	B-Process
+-	NN	O	I-Process
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+measurements	NN	O	I-Process
+from	NN	O	O
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+(	NN	O	O
+Gege	NN	O	O
+,	NN	O	O
+1998	NN	O	O
+;	NN	O	O
+Heege	NN	O	O
+,	NN	O	O
+2000	NN	O	O
+;	NN	O	O
+Pinnel	NN	O	O
+,	NN	O	O
+2007	NN	O	O
+)	NN	O	O
+.	NN	O	O
+If	NN	O	O
+no	NN	O	O
+site	NN	O	O
+-	NN	O	O
+specific	NN	O	O
+information	NN	O	O
+is	NN	O	O
+available	NN	O	O
+,	NN	O	O
+it	NN	O	O
+can	NN	O	O
+be	NN	O	O
+used	NN	O	O
+as	NN	O	O
+a	NN	O	O
+first	NN	O	O
+approximation	NN	O	O
+for	NN	O	O
+other	NN	O	O
+ecosystems	NN	O	O
+as	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+an	NN	O	O
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+different	NN	O	O
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+-	NN	O	O
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+not	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+the	NN	O	O
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+test	NN	O	O
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+to	NN	O	O
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+airplane	NN	O	O
+or	NN	O	O
+satellite	NN	O	O
+overpass	NN	O	O
+.	NN	O	O
+This	NN	O	O
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+not	NN	O	O
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+possible	NN	O	O
+.	NN	O	O
+A	NN	O	O
+valuable	NN	O	O
+source	NN	O	O
+of	NN	O	O
+information	NN	O	O
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+the	NN	O	O
+IOCCG	NN	O	B-Material
+webpage	NN	O	O
+(	NN	O	O
+IOCCG	NN	O	O
+,	NN	O	O
+2013b	NN	O	O
+)	NN	O	O
+.	NN	O	O
+It	NN	O	O
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+a	NN	O	O
+list	NN	O	O
+of	NN	O	O
+links	NN	O	O
+to	NN	O	O
+publicly	NN	O	O
+available	NN	O	O
+data	NN	O	O
+sets	NN	O	O
+,	NN	O	O
+for	NN	O	O
+example	NN	O	O
+the	NN	O	O
+IOCCG	NN	O	B-Material
+(	NN	O	I-Material
+2006	NN	O	I-Material
+)	NN	O	I-Material
+data	NN	O	I-Material
+bank	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+NASA	NN	O	B-Material
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+-	NN	O	I-Material
+Optical	NN	O	I-Material
+Marine	NN	O	I-Material
+Algorithm	NN	O	I-Material
+Data	NN	O	I-Material
+set	NN	O	I-Material
+(	NN	O	O
+NOMAD	NN	O	B-Material
+)	NN	O	O
+and	NN	O	O
+the	NN	O	O
+SeaWiFS	NN	O	B-Material
+Bio	NN	O	I-Material
+-	NN	O	I-Material
+Optical	NN	O	I-Material
+Archive	NN	O	I-Material
+and	NN	O	I-Material
+Storage	NN	O	I-Material
+System	NN	O	I-Material
+(	NN	O	O
+SeaBASS	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0098300413002720)
+
+Artificial	NN	O	B-Task
+Neural	NN	O	I-Task
+Networks	NN	O	I-Task
+(	NN	O	O
+ANN	NN	O	B-Task
+)	NN	O	O
+have	NN	O	O
+been	NN	O	O
+widely	NN	O	O
+used	NN	O	O
+in	NN	O	O
+science	NN	O	B-Task
+and	NN	O	I-Task
+engineering	NN	O	I-Task
+problems	NN	O	I-Task
+.	NN	O	O
+They	NN	O	O
+attempt	NN	O	O
+to	NN	O	O
+model	NN	O	B-Process
+the	NN	O	I-Process
+ability	NN	O	I-Process
+of	NN	O	I-Process
+biological	NN	O	I-Process
+nervous	NN	O	I-Process
+systems	NN	O	I-Process
+to	NN	O	I-Process
+recognize	NN	O	I-Process
+patterns	NN	O	I-Process
+and	NN	O	I-Process
+objects	NN	O	I-Process
+.	NN	O	O
+ANN	NN	O	B-Task
+basic	NN	O	I-Task
+architecture	NN	O	I-Task
+consists	NN	O	O
+of	NN	O	O
+networks	NN	O	B-Material
+of	NN	O	I-Material
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+capable	NN	O	O
+of	NN	O	O
+receiving	NN	O	B-Process
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+that	NN	O	O
+are	NN	O	O
+evaluated	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+their	NN	O	O
+success	NN	O	O
+at	NN	O	O
+discriminating	NN	O	O
+the	NN	O	O
+classes	NN	O	O
+in	NN	O	O
+Τa	NN	O	O
+.	NN	O	O
+Different	NN	O	B-Task
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+of	NN	O	I-Task
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+functions	NN	O	I-Task
+and	NN	O	I-Task
+network	NN	O	I-Task
+configurations	NN	O	I-Task
+result	NN	O	O
+in	NN	O	O
+varying	NN	O	O
+models	NN	O	O
+(	NN	O	O
+Hastie	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2009	NN	O	O
+;	NN	O	O
+Rojas	NN	O	O
+,	NN	O	O
+1996	NN	O	O
+)	NN	O	O
+.	NN	O	O
+During	NN	O	O
+training	NN	O	B-Task
+network	NN	O	I-Task
+connection	NN	O	I-Task
+weights	NN	O	B-Material
+are	NN	O	O
+adjusted	NN	O	B-Process
+if	NN	O	I-Process
+the	NN	O	I-Process
+separation	NN	O	I-Process
+of	NN	O	I-Process
+inputs	NN	O	I-Process
+and	NN	O	I-Process
+predefined	NN	O	I-Process
+classes	NN	O	I-Process
+incurs	NN	O	I-Process
+an	NN	O	I-Process
+error	NN	O	I-Process
+.	NN	O	O
+Convergence	NN	O	B-Process
+proceeds	NN	O	O
+until	NN	O	O
+the	NN	O	B-Task
+reduction	NN	O	I-Task
+in	NN	O	I-Task
+error	NN	O	I-Task
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+-	NN	O	I-Process
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+-DOCSTART- (S0098300413002951)
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+-DOCSTART- (S0142061516308079)
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+-DOCSTART- (S0165168416300603)
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+-DOCSTART- (S0165212511000862)
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+-	NN	O	I-Process
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+effectively	NN	O	O
+re	NN	O	O
+-	NN	O	O
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+3D	NN	O	O
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+However	NN	O	O
+,	NN	O	O
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+is	NN	O	O
+destructive	NN	O	O
+,	NN	O	O
+studies	NN	O	B-Task
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+sample	NN	O	O
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+.	NN	O	O
+Non	NN	O	B-Process
+-	NN	O	I-Process
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+X	NN	O	I-Process
+-	NN	O	I-Process
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+-	NN	O	I-Process
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+tomography	NN	O	I-Process
+(	NN	O	O
+CT	NN	O	B-Process
+)	NN	O	O
+[	NN	O	O
+9–11	NN	O	O
+]	NN	O	O
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+a	NN	O	O
+platform	NN	O	O
+for	NN	O	O
+exploring	NN	O	B-Task
+dynamic	NN	O	I-Task
+microstructural	NN	O	I-Task
+change	NN	O	I-Task
+in	NN	O	O
+the	NN	O	O
+absence	NN	O	O
+of	NN	O	O
+these	NN	O	O
+possible	NN	O	O
+complications	NN	O	O
+and	NN	O	O
+is	NN	O	O
+compatible	NN	O	O
+with	NN	O	O
+both	NN	O	O
+laboratory	NN	O	B-Material
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+synchrotron	NN	O	I-Material
+radiation	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+authors	NN	O	O
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+demonstrated	NN	O	O
+a	NN	O	O
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+optimal	NN	O	I-Task
+sample	NN	O	I-Task
+geometries	NN	O	I-Task
+for	NN	O	I-Task
+X	NN	O	I-Task
+-	NN	O	I-Task
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+-	NN	O	I-Task
+CT	NN	O	I-Task
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+,	NN	O	O
+while	NN	O	O
+this	NN	O	O
+FIB	NN	O	B-Process
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+will	NN	O	O
+involve	NN	O	O
+the	NN	O	O
+selective	NN	O	O
+removal	NN	O	O
+of	NN	O	O
+portions	NN	O	O
+of	NN	O	O
+the	NN	O	O
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+(	NN	O	O
+and	NN	O	O
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+be	NN	O	O
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+to	NN	O	O
+the	NN	O	O
+working	NN	O	B-Material
+fuel	NN	O	I-Material
+cell	NN	O	I-Material
+)	NN	O	O
+,	NN	O	O
+the	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	I-Process
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+characterization	NN	O	I-Process
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+,	NN	O	O
+non	NN	O	O
+-	NN	O	O
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+characterization	NN	O	O
+of	NN	O	O
+the	NN	O	O
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+which	NN	O	O
+facilitates	NN	O	O
+the	NN	O	O
+study	NN	O	O
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+processes	NN	O	I-Process
+in	NN	O	O
+response	NN	O	O
+to	NN	O	O
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+changes	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0167273812003025)
+
+In	NN	O	O
+conclusion	NN	O	O
+,	NN	O	O
+a	NN	O	O
+new	NN	O	B-Task
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+to	NN	O	I-Task
+the	NN	O	I-Task
+“	NN	O	I-Task
+grind	NN	O	I-Task
+-	NN	O	I-Task
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+”	NN	O	I-Task
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+solid	NN	O	I-Task
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+of	NN	O	O
+several	NN	O	O
+“	NN	O	O
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+to	NN	O	O
+make	NN	O	O
+”	NN	O	O
+and	NN	O	O
+hitherto	NN	O	O
+unknown	NN	O	O
+phase	NN	O	B-Material
+-	NN	O	I-Material
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+heterometallic	NN	O	I-Material
+Ruddlesden	NN	O	I-Material
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+La4Ni3−xFexO10	NN	O	I-Material
+materials	NN	O	I-Material
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+been	NN	O	O
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+.	NN	O	O
+The	NN	O	O
+new	NN	O	O
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+a	NN	O	O
+high	NN	O	B-Process
+-	NN	O	I-Process
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+reactor	NN	O	I-Process
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+robotic	NN	O	B-Process
+automation	NN	O	I-Process
+(	NN	O	O
+RAMSI	NN	O	B-Process
+)	NN	O	O
+to	NN	O	O
+rapidly	NN	O	O
+synthesise	NN	O	B-Process
+a	NN	O	I-Process
+range	NN	O	I-Process
+of	NN	O	I-Process
+nanoparticle	NN	O	I-Process
+co	NN	O	I-Process
+-	NN	O	I-Process
+precipitate	NN	O	I-Process
+precursors	NN	O	I-Process
+in	NN	O	O
+cloned	NN	O	O
+libraries	NN	O	O
+at	NN	O	O
+a	NN	O	O
+rate	NN	O	B-Process
+of	NN	O	I-Process
+7.5	NN	O	I-Process
+samples	NN	O	I-Process
+an	NN	O	I-Process
+hour	NN	O	I-Process
+.	NN	O	O
+Each	NN	O	O
+library	NN	O	O
+could	NN	O	O
+then	NN	O	O
+be	NN	O	O
+heat	NN	O	B-Process
+-	NN	O	I-Process
+treated	NN	O	I-Process
+at	NN	O	O
+a	NN	O	O
+different	NN	O	O
+temperature	NN	O	O
+and	NN	O	O
+an	NN	O	O
+initial	NN	O	O
+powder	NN	O	B-Process
+XRD	NN	O	I-Process
+screen	NN	O	I-Process
+was	NN	O	O
+used	NN	O	O
+to	NN	O	O
+locate	NN	O	B-Process
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+phase	NN	O	I-Process
+boundary	NN	O	I-Process
+.	NN	O	O
+A	NN	O	O
+more	NN	O	O
+focussed	NN	O	O
+second	NN	O	O
+synthesis	NN	O	B-Process
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+XRD	NN	O	I-Process
+characterisation	NN	O	I-Process
+of	NN	O	O
+selected	NN	O	O
+larger	NN	O	O
+heat	NN	O	B-Material
+-	NN	O	I-Material
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+powders	NN	O	I-Material
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+to	NN	O	O
+reconfirm	NN	O	O
+the	NN	O	O
+locations	NN	O	O
+of	NN	O	O
+the	NN	O	O
+phase	NN	O	O
+boundaries	NN	O	O
+with	NN	O	O
+the	NN	O	O
+highest	NN	O	O
+dopant	NN	O	O
+level	NN	O	O
+being	NN	O	O
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+for	NN	O	O
+La4Ni2FeO10	NN	O	B-Material
+which	NN	O	O
+is	NN	O	O
+significantly	NN	O	O
+greater	NN	O	O
+Fe	NN	O	B-Material
+doping	NN	O	O
+than	NN	O	O
+has	NN	O	O
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+by	NN	O	O
+anyone	NN	O	O
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+(	NN	O	O
+despite	NN	O	O
+several	NN	O	O
+notable	NN	O	O
+efforts	NN	O	O
+)	NN	O	O
+.	NN	O	O
+EXAFS	NN	O	B-Material
+data	NN	O	I-Material
+suggested	NN	O	O
+that	NN	O	O
+Fe3	NN	O	B-Material
++	NN	O	I-Material
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+Ni	NN	O	B-Material
+sites	NN	O	O
+in	NN	O	O
+all	NN	O	O
+cases	NN	O	O
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+did	NN	O	O
+not	NN	O	O
+exist	NN	O	O
+as	NN	O	O
+a	NN	O	O
+separate	NN	O	O
+iron	NN	O	B-Material
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+phase	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0167273813005298)
+
+At	NN	O	O
+200	NN	O	O
+–	NN	O	O
+300	NN	O	O
+°	NN	O	O
+C	NN	O	O
+:	NN	O	O
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+tetrahedral	NN	O	O
+volume	NN	O	O
+roughly	NN	O	O
+covering	NN	O	O
+the	NN	O	O
+8c	NN	O	O
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+32f	NN	O	O
+positions	NN	O	O
+with	NN	O	O
+“	NN	O	B-Material
+bulges	NN	O	I-Material
+”	NN	O	I-Material
+of	NN	O	O
+nuclear	NN	O	O
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+pointing	NN	O	O
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+48i	NN	O	O
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+,	NN	O	O
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+400	NN	O	O
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+°	NN	O	O
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+forming	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
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+48i	NN	O	O
+site	NN	O	O
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+in	NN	O	O
+fluorite	NN	O	B-Material
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+[	NN	O	O
+20	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+the	NN	O	O
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+–	NN	O	O
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+to	NN	O	O
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+a	NN	O	O
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+distance	NN	O	O
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+However	NN	O	O
+,	NN	O	O
+a	NN	O	O
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+Y0.785Ta0.215O1.715	NN	O	O
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+23	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+This	NN	O	O
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+role	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S0167273813006735)
+
+While	NN	O	O
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+is	NN	O	O
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+to	NN	O	O
+investigate	NN	O	O
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+,	NN	O	O
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+Recently	NN	O	O
+,	NN	O	O
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+[	NN	O	O
+17–19	NN	O	O
+]	NN	O	O
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+such	NN	O	O
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+.	NN	O	O
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+,	NN	O	O
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+zirconia	NN	O	I-Material
+(	NN	O	O
+YSZ	NN	O	B-Material
+)	NN	O	O
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+.	NN	O	O
+Quantitative	NN	O	B-Task
+material	NN	O	I-Task
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+comparison	NN	O	B-Process
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+data	NN	O	I-Process
+allowed	NN	O	O
+testing	NN	O	O
+the	NN	O	O
+appropriateness	NN	O	B-Task
+of	NN	O	I-Task
+analysis	NN	O	I-Task
+models	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0167273814004408)
+
+Thin	NN	O	B-Material
+MIEC	NN	O	I-Material
+layers	NN	O	I-Material
+of	NN	O	O
+GDC	NN	O	B-Material
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+STFO	NN	O	B-Material
+on	NN	O	O
+single	NN	O	B-Material
+-	NN	O	I-Material
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+YSZ	NN	O	I-Material
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+were	NN	O	O
+exposed	NN	O	B-Process
+to	NN	O	I-Process
+H2/H218O	NN	O	I-Process
+atmosphere	NN	O	I-Process
+for	NN	O	O
+thermally	NN	O	O
+and	NN	O	O
+electrochemically	NN	O	O
+driven	NN	O	O
+tracer	NN	O	B-Task
+exchange	NN	O	I-Task
+experiments	NN	O	I-Task
+.	NN	O	O
+Rectangular	NN	O	B-Material
+noble	NN	O	I-Material
+metal	NN	O	I-Material
+thin	NN	O	I-Material
+film	NN	O	I-Material
+current	NN	O	I-Material
+collectors	NN	O	I-Material
+were	NN	O	O
+deposited	NN	O	B-Process
+on	NN	O	I-Process
+top	NN	O	I-Process
+and	NN	O	I-Process
+beneath	NN	O	I-Process
+the	NN	O	I-Process
+MIEC	NN	O	I-Process
+layer	NN	O	I-Process
+and	NN	O	O
+used	NN	O	O
+for	NN	O	O
+polarization	NN	O	B-Process
+.	NN	O	O
+The	NN	O	O
+lateral	NN	O	B-Process
+distribution	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+tracer	NN	O	I-Process
+revealed	NN	O	O
+several	NN	O	O
+interesting	NN	O	O
+features	NN	O	O
+:	NN	O	O
+(	NN	O	O
+i	NN	O	O
+)	NN	O	O
+In	NN	O	O
+case	NN	O	O
+of	NN	O	O
+thermal	NN	O	B-Process
+tracer	NN	O	I-Process
+exchange	NN	O	I-Process
+,	NN	O	O
+an	NN	O	O
+enhanced	NN	O	O
+tracer	NN	O	B-Process
+fraction	NN	O	I-Process
+is	NN	O	O
+found	NN	O	O
+on	NN	O	O
+top	NN	O	O
+of	NN	O	O
+the	NN	O	O
+metallic	NN	O	B-Material
+current	NN	O	I-Material
+collector	NN	O	I-Material
+due	NN	O	O
+to	NN	O	O
+its	NN	O	O
+ionically	NN	O	O
+blocking	NN	O	O
+nature	NN	O	O
+.	NN	O	O
+At	NN	O	O
+the	NN	O	O
+edges	NN	O	O
+of	NN	O	O
+the	NN	O	O
+current	NN	O	O
+collector	NN	O	O
+,	NN	O	O
+the	NN	O	O
+concentration	NN	O	O
+of	NN	O	O
+18O	NN	O	B-Material
+decreases	NN	O	O
+with	NN	O	O
+a	NN	O	O
+finite	NN	O	O
+step	NN	O	O
+width	NN	O	O
+that	NN	O	O
+is	NN	O	O
+correlated	NN	O	O
+with	NN	O	O
+in	NN	O	B-Process
+-	NN	O	I-Process
+plane	NN	O	I-Process
+diffusion	NN	O	I-Process
+of	NN	O	I-Process
+oxygen	NN	O	I-Process
+ions	NN	O	I-Process
+.	NN	O	O
+(	NN	O	O
+ii	NN	O	O
+)	NN	O	O
+Due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+low	NN	O	B-Process
+electronic	NN	O	I-Process
+conductivity	NN	O	I-Process
+of	NN	O	O
+STFO	NN	O	B-Material
+and	NN	O	O
+GDC	NN	O	B-Material
+,	NN	O	O
+the	NN	O	O
+MIEC	NN	O	O
+area	NN	O	O
+that	NN	O	O
+is	NN	O	O
+influenced	NN	O	O
+by	NN	O	O
+an	NN	O	O
+applied	NN	O	B-Process
+bias	NN	O	I-Process
+is	NN	O	O
+restricted	NN	O	O
+to	NN	O	O
+a	NN	O	O
+region	NN	O	O
+close	NN	O	O
+to	NN	O	O
+the	NN	O	O
+current	NN	O	B-Material
+collector	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+width	NN	O	B-Task
+of	NN	O	I-Task
+this	NN	O	I-Task
+active	NN	O	I-Task
+region	NN	O	I-Task
+depends	NN	O	O
+on	NN	O	O
+the	NN	O	O
+bias	NN	O	O
+.	NN	O	O
+It	NN	O	O
+amounts	NN	O	O
+to	NN	O	O
+only	NN	O	O
+10–15μm	NN	O	O
+for	NN	O	O
+STFO	NN	O	B-Material
+but	NN	O	O
+more	NN	O	O
+than	NN	O	O
+100μm	NN	O	O
+for	NN	O	O
+GDC	NN	O	B-Material
+at	NN	O	O
+a	NN	O	O
+cathodic	NN	O	O
+bias	NN	O	O
+of	NN	O	O
+−500mV.	NN	O	O
+(	NN	O	O
+iii	NN	O	O
+)	NN	O	O
+Not	NN	O	O
+only	NN	O	O
+enhanced	NN	O	B-Process
+tracer	NN	O	I-Process
+incorporation	NN	O	I-Process
+due	NN	O	O
+to	NN	O	O
+cathodic	NN	O	O
+bias	NN	O	O
+but	NN	O	O
+also	NN	O	O
+reduced	NN	O	B-Process
+incorporation	NN	O	I-Process
+due	NN	O	O
+to	NN	O	O
+anodic	NN	O	O
+bias	NN	O	O
+could	NN	O	O
+be	NN	O	O
+experimentally	NN	O	O
+resolved	NN	O	O
+in	NN	O	O
+the	NN	O	O
+active	NN	O	O
+region	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0167273814004548)
+
+Two	NN	O	O
+different	NN	O	O
+micro	NN	O	B-Material
+-	NN	O	I-Material
+contact	NN	O	I-Material
+set	NN	O	I-Material
+-	NN	O	I-Material
+ups	NN	O	I-Material
+were	NN	O	O
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+experiments	NN	O	O
+.	NN	O	O
+The	NN	O	O
+asymmetrically	NN	O	B-Material
+heated	NN	O	I-Material
+measurement	NN	O	I-Material
+set	NN	O	I-Material
+-	NN	O	I-Material
+up	NN	O	I-Material
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+2a	NN	O	O
+)	NN	O	O
+allows	NN	O	O
+to	NN	O	O
+change	NN	O	B-Process
+the	NN	O	I-Process
+contacted	NN	O	I-Process
+electrode	NN	O	I-Process
+within	NN	O	O
+seconds	NN	O	O
+and	NN	O	O
+thereby	NN	O	O
+to	NN	O	O
+gain	NN	O	B-Task
+statistical	NN	O	I-Task
+information	NN	O	I-Task
+over	NN	O	O
+a	NN	O	O
+large	NN	O	O
+number	NN	O	O
+of	NN	O	O
+different	NN	O	O
+microelectrodes	NN	O	B-Material
+on	NN	O	O
+one	NN	O	O
+and	NN	O	O
+the	NN	O	O
+same	NN	O	O
+sample	NN	O	O
+in	NN	O	O
+a	NN	O	O
+relatively	NN	O	O
+short	NN	O	O
+time	NN	O	O
+.	NN	O	O
+It	NN	O	O
+also	NN	O	O
+enables	NN	O	O
+monitoring	NN	O	B-Task
+of	NN	O	I-Task
+optical	NN	O	I-Task
+changes	NN	O	I-Task
+during	NN	O	O
+the	NN	O	O
+measurement	NN	O	O
+in	NN	O	O
+real	NN	O	O
+time	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+asymmetrical	NN	O	B-Process
+heating	NN	O	I-Process
+from	NN	O	O
+the	NN	O	O
+bottom	NN	O	O
+side	NN	O	O
+and	NN	O	O
+local	NN	O	B-Process
+cooling	NN	O	I-Process
+(	NN	O	O
+e.g.	NN	O	O
+by	NN	O	O
+convection	NN	O	B-Process
+,	NN	O	O
+radiation	NN	O	B-Process
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+contacting	NN	O	B-Material
+tip	NN	O	I-Material
+acting	NN	O	O
+as	NN	O	O
+a	NN	O	O
+heat	NN	O	B-Material
+sink	NN	O	I-Material
+)	NN	O	O
+is	NN	O	O
+known	NN	O	O
+to	NN	O	O
+cause	NN	O	O
+temperature	NN	O	B-Process
+gradients	NN	O	I-Process
+within	NN	O	O
+the	NN	O	O
+sample	NN	O	O
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Such	NN	O	O
+temperature	NN	O	B-Process
+gradients	NN	O	I-Process
+are	NN	O	O
+responsible	NN	O	O
+for	NN	O	O
+thermo	NN	O	O
+-	NN	O	O
+voltages	NN	O	O
+,	NN	O	O
+which	NN	O	O
+can	NN	O	O
+lead	NN	O	O
+to	NN	O	O
+measurement	NN	O	O
+artifacts	NN	O	O
+in	NN	O	O
+electrochemical	NN	O	B-Process
+experiments	NN	O	I-Process
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+in	NN	O	O
+this	NN	O	O
+set	NN	O	O
+-	NN	O	O
+up	NN	O	O
+temperature	NN	O	B-Process
+cycles	NN	O	I-Process
+can	NN	O	O
+hardly	NN	O	O
+be	NN	O	O
+performed	NN	O	O
+on	NN	O	O
+single	NN	O	O
+microelectrodes	NN	O	B-Material
+but	NN	O	O
+require	NN	O	O
+subsequent	NN	O	O
+contacting	NN	O	B-Process
+and	NN	O	I-Process
+de	NN	O	I-Process
+-	NN	O	I-Process
+contacting	NN	O	I-Process
+of	NN	O	I-Process
+different	NN	O	I-Process
+microelectrodes	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0167273815004130)
+
+Room	NN	O	O
+temperature	NN	O	O
+powder	NN	O	B-Process
+X	NN	O	I-Process
+-	NN	O	I-Process
+ray	NN	O	I-Process
+diffraction	NN	O	I-Process
+(	NN	O	O
+XRD	NN	O	B-Process
+)	NN	O	O
+was	NN	O	O
+performed	NN	O	O
+on	NN	O	O
+a	NN	O	O
+PANalytical	NN	O	B-Process
+Empyrean	NN	O	I-Process
+diffractometer	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+obtained	NN	O	O
+XRD	NN	O	B-Material
+patterns	NN	O	I-Material
+were	NN	O	O
+analysed	NN	O	O
+with	NN	O	O
+STOE	NN	O	B-Process
+Win	NN	O	I-Process
+XPOW	NN	O	I-Process
+software	NN	O	I-Process
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+determine	NN	O	O
+phase	NN	O	B-Task
+purity	NN	O	I-Task
+,	NN	O	O
+the	NN	O	O
+crystal	NN	O	B-Task
+structure	NN	O	I-Task
+and	NN	O	O
+the	NN	O	O
+cell	NN	O	B-Task
+parameters	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+samples	NN	O	O
+.	NN	O	O
+Thermogravimetric	NN	O	B-Process
+analysis	NN	O	I-Process
+(	NN	O	O
+TGA	NN	O	B-Process
+)	NN	O	O
+was	NN	O	O
+performed	NN	O	O
+using	NN	O	O
+a	NN	O	O
+Netzsch	NN	O	B-Process
+STA	NN	O	I-Process
+449C	NN	O	I-Process
+instrument	NN	O	I-Process
+equipped	NN	O	O
+with	NN	O	O
+Proteus	NN	O	B-Process
+thermal	NN	O	I-Process
+analysis	NN	O	I-Process
+software	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+TGA	NN	O	O
+studies	NN	O	O
+were	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+under	NN	O	O
+reducing	NN	O	B-Process
+conditions	NN	O	I-Process
+(	NN	O	O
+5	NN	O	B-Material
+%	NN	O	I-Material
+H2/Ar	NN	O	I-Material
+)	NN	O	O
+from	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+to	NN	O	O
+900	NN	O	O
+°	NN	O	O
+C	NN	O	O
+,	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+determine	NN	O	O
+the	NN	O	O
+weight	NN	O	B-Task
+change	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+perovskite	NN	O	B-Material
+during	NN	O	O
+the	NN	O	O
+reduction	NN	O	O
+.	NN	O	O
+The	NN	O	O
+microstructure	NN	O	O
+of	NN	O	O
+the	NN	O	O
+samples	NN	O	O
+'	NN	O	O
+surface	NN	O	O
+was	NN	O	O
+analysed	NN	O	O
+using	NN	O	O
+a	NN	O	O
+JEOL	NN	O	O
+JSM-6700	NN	O	O
+field	NN	O	B-Process
+emission	NN	O	I-Process
+74	NN	O	I-Process
+scanning	NN	O	I-Process
+electron	NN	O	I-Process
+microscope	NN	O	I-Process
+(	NN	O	O
+FEG	NN	O	B-Process
+-	NN	O	I-Process
+SEM	NN	O	I-Process
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+total	NN	O	B-Task
+conductivity	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+samples	NN	O	O
+was	NN	O	O
+measured	NN	O	O
+using	NN	O	O
+a	NN	O	O
+conventional	NN	O	O
+four	NN	O	B-Process
+-	NN	O	I-Process
+terminal	NN	O	I-Process
+method	NN	O	I-Process
+.	NN	O	O
+Bar	NN	O	O
+samples	NN	O	O
+were	NN	O	O
+prepared	NN	O	O
+by	NN	O	O
+calcination	NN	O	B-Task
+at	NN	O	O
+1300	NN	O	O
+°	NN	O	O
+C	NN	O	O
+for	NN	O	O
+1h	NN	O	O
+.	NN	O	O
+Gold	NN	O	B-Material
+wire	NN	O	I-Material
+contacts	NN	O	I-Material
+were	NN	O	O
+attached	NN	O	O
+to	NN	O	O
+the	NN	O	O
+bars	NN	O	O
+,	NN	O	O
+which	NN	O	O
+then	NN	O	O
+were	NN	O	O
+cured	NN	O	O
+at	NN	O	O
+850	NN	O	O
+°	NN	O	O
+C	NN	O	O
+for	NN	O	O
+1h	NN	O	O
+.	NN	O	O
+The	NN	O	O
+conductivity	NN	O	B-Task
+of	NN	O	O
+the	NN	O	O
+samples	NN	O	O
+was	NN	O	O
+measured	NN	O	O
+under	NN	O	O
+a	NN	O	O
+redox	NN	O	B-Task
+cycle	NN	O	I-Task
+at	NN	O	O
+900	NN	O	O
+°	NN	O	O
+C	NN	O	O
+.	NN	O	O
+Low	NN	O	B-Process
+oxygen	NN	O	I-Process
+partial	NN	O	I-Process
+pressure	NN	O	I-Process
+was	NN	O	O
+achieved	NN	O	O
+by	NN	O	O
+using	NN	O	O
+a	NN	O	O
+continuous	NN	O	O
+flow	NN	O	B-Process
+of	NN	O	O
+5	NN	O	O
+%	NN	O	O
+H2/Ar	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S0167931711005120)
+
+A	NN	O	B-Task
+nanocomposite	NN	O	I-Task
+system	NN	O	I-Task
+consisting	NN	O	O
+of	NN	O	O
+a	NN	O	B-Material
+semiconducting	NN	O	I-Material
+matrix	NN	O	I-Material
+and	NN	O	I-Material
+embedded	NN	O	I-Material
+ferromagnetic	NN	O	I-Material
+nanostructures	NN	O	I-Material
+has	NN	O	O
+been	NN	O	O
+fabricated	NN	O	O
+.	NN	O	O
+The	NN	O	B-Task
+ferromagnetic	NN	O	I-Task
+characteristics	NN	O	I-Task
+as	NN	O	O
+coercivity	NN	O	B-Task
+,	NN	O	I-Task
+remanence	NN	O	I-Task
+and	NN	O	I-Task
+magnetic	NN	O	I-Task
+anisotropy	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+nanocomposite	NN	O	I-Task
+can	NN	O	O
+be	NN	O	O
+adjusted	NN	O	O
+by	NN	O	O
+the	NN	O	B-Material
+electrochemical	NN	O	I-Material
+parameters	NN	O	I-Material
+.	NN	O	O
+Furthermore	NN	O	O
+the	NN	O	O
+spatial	NN	O	O
+distribution	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+metal	NN	O	O
+structures	NN	O	O
+within	NN	O	O
+the	NN	O	O
+pores	NN	O	O
+can	NN	O	O
+be	NN	O	O
+varied	NN	O	O
+which	NN	O	O
+means	NN	O	O
+that	NN	O	O
+the	NN	O	O
+magnetic	NN	O	O
+interactions	NN	O	O
+between	NN	O	O
+the	NN	O	O
+particles	NN	O	O
+can	NN	O	O
+be	NN	O	O
+influenced	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+densely	NN	O	B-Task
+packed	NN	O	I-Task
+particles	NN	O	I-Task
+within	NN	O	O
+the	NN	O	O
+pores	NN	O	O
+dipolar	NN	O	O
+coupling	NN	O	O
+between	NN	O	O
+them	NN	O	O
+occurs	NN	O	O
+and	NN	O	O
+results	NN	O	O
+in	NN	O	O
+quasi	NN	O	O
+magnetic	NN	O	O
+chains	NN	O	O
+which	NN	O	O
+offer	NN	O	O
+a	NN	O	B-Material
+much	NN	O	I-Material
+larger	NN	O	I-Material
+magnetic	NN	O	I-Material
+anisotropy	NN	O	I-Material
+than	NN	O	O
+non	NN	O	B-Material
+-	NN	O	I-Material
+interacting	NN	O	I-Material
+particles	NN	O	I-Material
+.	NN	O	O
+By	NN	O	O
+modifying	NN	O	B-Process
+the	NN	O	I-Process
+current	NN	O	I-Process
+density	NN	O	I-Process
+small	NN	O	B-Material
+Ni	NN	O	I-Material
+-	NN	O	I-Material
+particles	NN	O	I-Material
+(	NN	O	I-Material
+3–6	NN	O	I-Material
+nm	NN	O	I-Material
+)	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+deposited	NN	O	O
+.	NN	O	O
+If	NN	O	O
+the	NN	O	O
+packing	NN	O	O
+density	NN	O	O
+of	NN	O	O
+these	NN	O	B-Material
+particles	NN	O	I-Material
+is	NN	O	O
+sufficiently	NN	O	O
+close	NN	O	O
+,	NN	O	O
+Ni	NN	O	B-Material
+-	NN	O	I-Material
+tubes	NN	O	I-Material
+of	NN	O	O
+a	NN	O	O
+few	NN	O	O
+nanometer	NN	O	O
+in	NN	O	O
+thickness	NN	O	O
+are	NN	O	O
+covering	NN	O	O
+the	NN	O	O
+pore	NN	O	O
+walls	NN	O	O
+.	NN	O	O
+The	NN	O	B-Task
+presented	NN	O	I-Task
+nanocomposite	NN	O	I-Task
+is	NN	O	O
+an	NN	O	O
+interesting	NN	O	O
+system	NN	O	O
+for	NN	O	O
+magnetic	NN	O	O
+applications	NN	O	O
+as	NN	O	O
+magnetic	NN	O	O
+sensor	NN	O	O
+technology	NN	O	O
+.	NN	O	O
+Silicon	NN	O	B-Material
+as	NN	O	O
+substrate	NN	O	O
+renders	NN	O	O
+this	NN	O	O
+composite	NN	O	O
+a	NN	O	B-Task
+good	NN	O	I-Task
+candidate	NN	O	I-Task
+for	NN	O	I-Task
+the	NN	O	I-Task
+integration	NN	O	I-Task
+in	NN	O	O
+existing	NN	O	O
+process	NN	O	O
+technology	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0167931712002699)
+
+As	NN	O	O
+the	NN	O	O
+progression	NN	O	O
+towards	NN	O	O
+smaller	NN	O	B-Task
+lithographic	NN	O	I-Task
+nodes	NN	O	I-Task
+continues	NN	O	O
+it	NN	O	O
+has	NN	O	O
+become	NN	O	O
+necessary	NN	O	O
+to	NN	O	O
+adopt	NN	O	O
+thinner	NN	O	B-Material
+resist	NN	O	I-Material
+films	NN	O	I-Material
+to	NN	O	O
+mitigate	NN	O	O
+problems	NN	O	O
+such	NN	O	O
+as	NN	O	O
+pattern	NN	O	B-Process
+collapse	NN	O	I-Process
+.	NN	O	O
+To	NN	O	O
+address	NN	O	O
+the	NN	O	O
+issue	NN	O	O
+of	NN	O	O
+reduced	NN	O	B-Process
+etch	NN	O	I-Process
+resistance	NN	O	I-Process
+of	NN	O	I-Process
+thin	NN	O	I-Process
+photoresist	NN	O	I-Process
+films	NN	O	I-Process
+the	NN	O	O
+semiconductor	NN	O	O
+industry	NN	O	O
+has	NN	O	O
+begun	NN	O	O
+to	NN	O	O
+develop	NN	O	O
+multilayer	NN	O	B-Process
+processes	NN	O	I-Process
+where	NN	O	O
+the	NN	O	O
+pattern	NN	O	O
+is	NN	O	O
+first	NN	O	O
+transferred	NN	O	O
+into	NN	O	O
+an	NN	O	O
+intermediate	NN	O	B-Material
+organic	NN	O	I-Material
+hardmask	NN	O	I-Material
+with	NN	O	O
+higher	NN	O	O
+etch	NN	O	O
+selectivity	NN	O	O
+before	NN	O	O
+final	NN	O	O
+silicon	NN	O	B-Process
+pattern	NN	O	I-Process
+transfer	NN	O	I-Process
+[	NN	O	O
+25–27	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+we	NN	O	O
+demonstrate	NN	O	O
+how	NN	O	O
+the	NN	O	O
+introduction	NN	O	O
+of	NN	O	O
+such	NN	O	O
+a	NN	O	O
+multilayer	NN	O	B-Process
+process	NN	O	I-Process
+can	NN	O	O
+also	NN	O	O
+benefit	NN	O	O
+nanosphere	NN	O	B-Task
+lithography	NN	O	I-Task
+by	NN	O	O
+increasing	NN	O	O
+achievable	NN	O	O
+aspect	NN	O	O
+ratios	NN	O	O
+of	NN	O	O
+silicon	NN	O	B-Material
+nanopillars	NN	O	I-Material
+without	NN	O	O
+the	NN	O	O
+need	NN	O	O
+for	NN	O	O
+complex	NN	O	B-Process
+etch	NN	O	I-Process
+processes	NN	O	I-Process
+requiring	NN	O	O
+specialised	NN	O	O
+and	NN	O	O
+expensive	NN	O	O
+equipment	NN	O	O
+,	NN	O	O
+but	NN	O	O
+instead	NN	O	O
+needing	NN	O	O
+only	NN	O	O
+a	NN	O	O
+standard	NN	O	O
+SF6/C4F8	NN	O	O
+inductively	NN	O	O
+coupled	NN	O	B-Material
+plasma	NN	O	I-Material
+(	NN	O	O
+ICP	NN	O	B-Material
+)	NN	O	O
+mixed	NN	O	O
+mode	NN	O	O
+etch	NN	O	O
+process	NN	O	O
+at	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+[	NN	O	O
+28	NN	O	O
+]	NN	O	O
+.	NN	O	O
+As	NN	O	O
+intermediate	NN	O	B-Material
+layer	NN	O	I-Material
+material	NN	O	I-Material
+we	NN	O	O
+used	NN	O	O
+polyimide	NN	O	B-Material
+,	NN	O	O
+which	NN	O	O
+finds	NN	O	O
+widespread	NN	O	O
+use	NN	O	O
+as	NN	O	O
+encapsulation	NN	O	B-Material
+material	NN	O	I-Material
+for	NN	O	O
+IC	NN	O	B-Task
+production	NN	O	I-Task
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+readily	NN	O	O
+patterned	NN	O	O
+in	NN	O	O
+oxygen	NN	O	B-Material
+plasma	NN	O	I-Material
+and	NN	O	O
+has	NN	O	O
+a	NN	O	O
+lower	NN	O	O
+etch	NN	O	O
+rate	NN	O	O
+than	NN	O	O
+silicon	NN	O	B-Material
+in	NN	O	O
+SF6	NN	O	B-Material
+gas	NN	O	I-Material
+.	NN	O	O
+Its	NN	O	O
+flexibility	NN	O	O
+can	NN	O	O
+also	NN	O	O
+be	NN	O	O
+used	NN	O	O
+for	NN	O	O
+the	NN	O	O
+fabrication	NN	O	B-Task
+of	NN	O	I-Task
+soft	NN	O	I-Task
+polymer	NN	O	I-Task
+pillars	NN	O	I-Task
+by	NN	O	O
+the	NN	O	O
+same	NN	O	O
+process	NN	O	O
+as	NN	O	O
+we	NN	O	O
+will	NN	O	O
+show	NN	O	O
+.	NN	O	O
+The	NN	O	O
+multilayer	NN	O	B-Process
+process	NN	O	I-Process
+slightly	NN	O	O
+increases	NN	O	O
+the	NN	O	O
+complexity	NN	O	O
+of	NN	O	O
+sample	NN	O	B-Process
+preparation	NN	O	I-Process
+but	NN	O	O
+allows	NN	O	O
+basic	NN	O	O
+ICP	NN	O	B-Process
+etching	NN	O	I-Process
+to	NN	O	O
+achieve	NN	O	O
+high	NN	O	O
+aspect	NN	O	O
+ratio	NN	O	O
+structures	NN	O	O
+at	NN	O	O
+smaller	NN	O	O
+feature	NN	O	O
+sizes	NN	O	O
+that	NN	O	O
+previously	NN	O	O
+reported	NN	O	O
+without	NN	O	O
+the	NN	O	O
+need	NN	O	O
+for	NN	O	O
+complex	NN	O	O
+etching	NN	O	B-Material
+equipment	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0167931712002936)
+
+A	NN	O	O
+3D	NN	O	B-Process
+finite	NN	O	I-Process
+element	NN	O	I-Process
+based	NN	O	I-Process
+(	NN	O	I-Process
+FEM	NN	O	I-Process
+)	NN	O	I-Process
+COMSOL	NN	O	I-Process
+capacitance	NN	O	I-Process
+analysis	NN	O	I-Process
+is	NN	O	O
+combined	NN	O	O
+with	NN	O	O
+Monte	NN	O	B-Process
+Carlo	NN	O	I-Process
+single	NN	O	I-Process
+-	NN	O	I-Process
+electron	NN	O	I-Process
+circuit	NN	O	I-Process
+simulations	NN	O	I-Process
+to	NN	O	O
+model	NN	O	B-Task
+device	NN	O	I-Task
+operations	NN	O	I-Task
+during	NN	O	I-Task
+single	NN	O	I-Task
+electron	NN	O	I-Task
+detection	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+3D	NN	O	B-Material
+structural	NN	O	I-Material
+data	NN	O	I-Material
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1b	NN	O	O
+)	NN	O	O
+of	NN	O	O
+the	NN	O	O
+nanoscale	NN	O	B-Material
+DQD	NN	O	I-Material
+pair	NN	O	I-Material
+and	NN	O	O
+multiple	NN	O	B-Material
+gate	NN	O	I-Material
+electrodes	NN	O	I-Material
+are	NN	O	O
+precisely	NN	O	O
+input	NN	O	O
+into	NN	O	O
+COMSOL	NN	O	B-Material
+’s	NN	O	I-Material
+FEM	NN	O	I-Material
+-	NN	O	I-Material
+based	NN	O	I-Material
+electrostatics	NN	O	I-Material
+simulator	NN	O	I-Material
+.	NN	O	O
+Capacitances	NN	O	O
+between	NN	O	O
+different	NN	O	O
+device	NN	O	B-Material
+components	NN	O	I-Material
+are	NN	O	O
+then	NN	O	O
+extracted	NN	O	O
+and	NN	O	O
+fed	NN	O	O
+into	NN	O	O
+the	NN	O	O
+well	NN	O	B-Material
+-	NN	O	I-Material
+tested	NN	O	I-Material
+single	NN	O	I-Material
+electron	NN	O	I-Material
+circuit	NN	O	I-Material
+simulator	NN	O	I-Material
+SETSPICE	NN	O	B-Material
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+,	NN	O	O
+based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+orthodox	NN	O	B-Task
+theory	NN	O	I-Task
+of	NN	O	O
+single	NN	O	B-Process
+electron	NN	O	I-Process
+tunnelling	NN	O	I-Process
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+For	NN	O	O
+our	NN	O	O
+target	NN	O	B-Material
+d1	NN	O	I-Material
+of	NN	O	O
+60	NN	O	O
+nm	NN	O	O
+,	NN	O	O
+simulation	NN	O	B-Process
+results	NN	O	O
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1c	NN	O	O
+)	NN	O	O
+showed	NN	O	O
+that	NN	O	O
+as	NN	O	O
+we	NN	O	O
+sweep	NN	O	O
+the	NN	O	O
+voltage	NN	O	O
+applied	NN	O	O
+on	NN	O	O
+gate	NN	O	B-Material
+G1	NN	O	I-Material
+,	NN	O	O
+VG1	NN	O	B-Material
+,	NN	O	O
+single	NN	O	B-Process
+electron	NN	O	I-Process
+tunnelling	NN	O	I-Process
+into	NN	O	O
+the	NN	O	O
+turnstile	NN	O	B-Material
+’s	NN	O	I-Material
+two	NN	O	I-Material
+QDs	NN	O	I-Material
+should	NN	O	O
+generate	NN	O	O
+shifts	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+electrometer	NN	O	I-Process
+current	NN	O	I-Process
+,	NN	O	O
+IDS	NN	O	B-Material
+,	NN	O	O
+of	NN	O	O
+tens	NN	O	O
+of	NN	O	O
+pA.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+well	NN	O	O
+within	NN	O	O
+the	NN	O	O
+charge	NN	O	O
+sensitivity	NN	O	O
+of	NN	O	O
+DQD	NN	O	B-Material
+electrometer	NN	O	I-Material
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+and	NN	O	O
+consistent	NN	O	O
+to	NN	O	O
+the	NN	O	O
+same	NN	O	O
+order	NN	O	O
+of	NN	O	O
+magnitude	NN	O	O
+with	NN	O	O
+previous	NN	O	O
+work	NN	O	O
+in	NN	O	O
+single	NN	O	B-Task
+electron	NN	O	I-Task
+detection	NN	O	I-Task
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+the	NN	O	O
+gate	NN	O	B-Material
+to	NN	O	O
+QD	NN	O	B-Process
+capacitive	NN	O	I-Process
+coupling	NN	O	I-Process
+appear	NN	O	O
+to	NN	O	O
+be	NN	O	O
+sufficient	NN	O	O
+for	NN	O	O
+the	NN	O	O
+control	NN	O	B-Process
+of	NN	O	I-Process
+QD	NN	O	I-Process
+occupations	NN	O	I-Process
+down	NN	O	O
+to	NN	O	O
+the	NN	O	O
+single	NN	O	O
+electron	NN	O	O
+limit	NN	O	O
+,	NN	O	O
+allowing	NN	O	O
+for	NN	O	O
+future	NN	O	O
+manipulation	NN	O	B-Task
+of	NN	O	I-Task
+single	NN	O	I-Task
+electron	NN	O	I-Task
+spins	NN	O	I-Task
+in	NN	O	O
+qubit	NN	O	B-Task
+research	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0167931712003012)
+
+We	NN	O	O
+evaluated	NN	O	B-Task
+three	NN	O	I-Task
+spin	NN	O	I-Task
+-	NN	O	I-Task
+on	NN	O	I-Task
+carbon	NN	O	I-Task
+hardmasks	NN	O	I-Task
+from	NN	O	I-Task
+Irresistible	NN	O	I-Task
+Materials	NN	O	I-Task
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+spin	NN	O	B-Material
+-	NN	O	I-Material
+on	NN	O	I-Material
+carbon	NN	O	I-Material
+compositions	NN	O	I-Material
+were	NN	O	O
+dissolved	NN	O	O
+in	NN	O	O
+a	NN	O	O
+suitable	NN	O	O
+solvent	NN	O	B-Material
+such	NN	O	O
+as	NN	O	O
+chloroform	NN	O	B-Material
+or	NN	O	O
+anisole	NN	O	B-Material
+with	NN	O	O
+a	NN	O	O
+concentration	NN	O	O
+in	NN	O	O
+the	NN	O	O
+range	NN	O	O
+5–50g	NN	O	O
+/	NN	O	O
+l	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+report	NN	O	O
+,	NN	O	O
+film	NN	O	B-Process
+thickness	NN	O	I-Process
+measurements	NN	O	I-Process
+were	NN	O	O
+made	NN	O	O
+for	NN	O	O
+IM	NN	O	B-Material
+-	NN	O	I-Material
+HM11	NN	O	I-Material
+-	NN	O	I-Material
+01	NN	O	I-Material
+and	NN	O	O
+IM	NN	O	B-Material
+-	NN	O	I-Material
+HM11	NN	O	I-Material
+-	NN	O	I-Material
+02	NN	O	I-Material
+films	NN	O	I-Material
+,	NN	O	O
+whilst	NN	O	O
+IM	NN	O	B-Material
+-	NN	O	I-Material
+HM11	NN	O	I-Material
+-	NN	O	I-Material
+03	NN	O	I-Material
+was	NN	O	O
+used	NN	O	O
+for	NN	O	O
+etching	NN	O	B-Process
+;	NN	O	O
+further	NN	O	O
+investigations	NN	O	O
+to	NN	O	O
+compare	NN	O	B-Task
+the	NN	O	I-Task
+performance	NN	O	I-Task
+of	NN	O	I-Task
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+.	NN	O	O
+Films	NN	O	B-Material
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+SoC	NN	O	I-Material
+were	NN	O	O
+prepared	NN	O	O
+by	NN	O	O
+spin	NN	O	B-Process
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+on	NN	O	O
+hydrogen	NN	O	B-Material
+-	NN	O	I-Material
+terminated	NN	O	I-Material
+silicon	NN	O	I-Material
+substrates	NN	O	I-Material
+with	NN	O	O
+a	NN	O	O
+speed	NN	O	O
+varying	NN	O	O
+between	NN	O	O
+800	NN	O	O
+and	NN	O	O
+2000	NN	O	O
+RPM	NN	O	O
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+60s	NN	O	O
+.	NN	O	O
+After	NN	O	O
+spin	NN	O	O
+coating	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
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+2min	NN	O	I-Process
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+temperatures	NN	O	I-Process
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+330	NN	O	I-Process
+°	NN	O	I-Process
+C	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
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+to	NN	O	O
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+further	NN	O	O
+processing	NN	O	O
+,	NN	O	O
+the	NN	O	O
+SoC	NN	O	B-Material
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+rendered	NN	O	O
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+in	NN	O	O
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+solvents	NN	O	O
+for	NN	O	O
+resist	NN	O	O
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+spin	NN	O	B-Material
+-	NN	O	I-Material
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+-	NN	O	I-Material
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+to	NN	O	O
+enable	NN	O	O
+further	NN	O	O
+processing	NN	O	O
+.	NN	O	O
+The	NN	O	O
+elution	NN	O	B-Task
+behavior	NN	O	I-Task
+of	NN	O	O
+films	NN	O	O
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+IM	NN	O	B-Material
+-	NN	O	I-Material
+HM11	NN	O	I-Material
+-	NN	O	I-Material
+01	NN	O	I-Material
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+IM	NN	O	I-Material
+-	NN	O	I-Material
+HM11	NN	O	I-Material
+-	NN	O	I-Material
+02	NN	O	I-Material
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+thicknesses	NN	O	O
+between	NN	O	O
+30	NN	O	O
+and	NN	O	O
+325	NN	O	O
+nm	NN	O	O
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+tested	NN	O	O
+as	NN	O	O
+a	NN	O	O
+function	NN	O	O
+of	NN	O	O
+the	NN	O	O
+baking	NN	O	O
+temperature	NN	O	O
+.	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+shows	NN	O	O
+the	NN	O	O
+normalized	NN	O	O
+film	NN	O	O
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+formulations	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	I-Material
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+-	NN	O	I-Material
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+-	NN	O	I-Material
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+)	NN	O	O
+,	NN	O	O
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+monochlorobenzene	NN	O	B-Material
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+MCB):IPA	NN	O	B-Material
+1:1	NN	O	O
+solution	NN	O	O
+.	NN	O	O
+Prior	NN	O	O
+to	NN	O	O
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+the	NN	O	O
+thickness	NN	O	O
+of	NN	O	O
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+-	NN	O	I-Material
+HM11	NN	O	I-Material
+-	NN	O	I-Material
+01	NN	O	I-Material
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+∼320	NN	O	O
+nm	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+thickness	NN	O	O
+of	NN	O	O
+IM	NN	O	B-Material
+-	NN	O	I-Material
+HM11	NN	O	I-Material
+-	NN	O	I-Material
+02	NN	O	I-Material
+was	NN	O	O
+∼250	NN	O	O
+nm	NN	O	O
+.	NN	O	O
+For	NN	O	O
+temperatures	NN	O	O
+above	NN	O	O
+190	NN	O	O
+°	NN	O	O
+C	NN	O	O
+the	NN	O	O
+IM	NN	O	B-Material
+-	NN	O	I-Material
+HM11	NN	O	I-Material
+-	NN	O	I-Material
+02	NN	O	I-Material
+film	NN	O	I-Material
+was	NN	O	O
+rendered	NN	O	O
+insoluble	NN	O	O
+,	NN	O	O
+whilst	NN	O	O
+a	NN	O	O
+temperature	NN	O	O
+of	NN	O	O
+260	NN	O	O
+°	NN	O	O
+C	NN	O	O
+was	NN	O	O
+required	NN	O	O
+to	NN	O	O
+achieve	NN	O	O
+the	NN	O	O
+same	NN	O	O
+for	NN	O	O
+IM	NN	O	B-Material
+-	NN	O	I-Material
+HM11	NN	O	I-Material
+-	NN	O	I-Material
+01	NN	O	I-Material
+.	NN	O	O
+Film	NN	O	B-Material
+thickness	NN	O	O
+did	NN	O	O
+not	NN	O	O
+affect	NN	O	O
+the	NN	O	O
+elution	NN	O	O
+results	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0167931712003905)
+
+In	NN	O	O
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+,	NN	O	O
+we	NN	O	O
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+developed	NN	O	O
+a	NN	O	O
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+Transmission	NN	O	B-Material
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+microscope	NN	O	I-Material
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+nm	NN	O	O
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+density	NN	O	O
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+the	NN	O	O
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+-	NN	O	I-Material
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+50	NN	O	O
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+1.7×105	NN	O	O
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+1.4×105A	NN	O	O
+/	NN	O	O
+cm2	NN	O	O
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+4.26	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+insignificant	NN	O	O
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+properties	NN	O	I-Process
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+.	NN	O	O
+These	NN	O	O
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+that	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S0167931713002438)
+
+There	NN	O	O
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+15	NN	O	O
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+It	NN	O	O
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+et	NN	O	O
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+.	NN	O	O
+,	NN	O	O
+who	NN	O	O
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+molecular	NN	O	B-Process
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+that	NN	O	O
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+O	NN	O	I-Material
+bonds	NN	O	I-Material
+in	NN	O	O
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+-	NN	O	I-Material
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+to	NN	O	O
+their	NN	O	O
+weakening	NN	O	B-Process
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+16	NN	O	O
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+shown	NN	O	O
+that	NN	O	O
+electrons	NN	O	B-Material
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+-	NN	O	I-Material
+SiO2	NN	O	I-Material
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
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+Recent	NN	O	O
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+at	NN	O	O
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+-	NN	O	I-Material
+SiO2	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
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+-	NN	O	I-Material
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+dangling	NN	O	I-Material
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+,	NN	O	O
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+the	NN	O	O
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+negatively	NN	O	B-Material
+charged	NN	O	I-Material
+defects	NN	O	I-Material
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+these	NN	O	O
+theoretical	NN	O	O
+predictions	NN	O	O
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+experimentally	NN	O	O
+,	NN	O	O
+emphasising	NN	O	O
+the	NN	O	O
+challenges	NN	O	O
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+identifying	NN	O	B-Task
+defect	NN	O	I-Task
+centres	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S016793171300244X)
+
+Ever	NN	O	O
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+E′	NN	O	I-Process
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+,	NN	O	O
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+explaining	NN	O	B-Task
+the	NN	O	I-Task
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+The	NN	O	O
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+-	NN	O	I-Process
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+thermal	NN	O	B-Process
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+.	NN	O	O
+This	NN	O	O
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+initial	NN	O	O
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+-	NN	O	I-Material
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+[	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Process
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+6	NN	O	O
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+-DOCSTART- (S0167931713002487)
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+-	NN	O	I-Material
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+600	NN	O	O
+°	NN	O	O
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+10min	NN	O	O
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+evaporate	NN	O	B-Process
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+oxide	NN	O	I-Process
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+,	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+temperatures	NN	O	O
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+The	NN	O	O
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+Oxford	NN	O	B-Material
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+.	NN	O	O
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+7	NN	O	O
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+250	NN	O	O
+°	NN	O	O
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+.	NN	O	O
+For	NN	O	O
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+measurements	NN	O	I-Task
+,	NN	O	O
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+1.96×10−3cm2	NN	O	O
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+onto	NN	O	O
+the	NN	O	O
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+form	NN	O	O
+MOS	NN	O	B-Material
+gate	NN	O	I-Material
+electrodes	NN	O	I-Material
+and	NN	O	O
+Al	NN	O	B-Material
+was	NN	O	O
+deposited	NN	O	O
+on	NN	O	O
+the	NN	O	O
+back	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Ge	NN	O	B-Material
+wafers	NN	O	I-Material
+to	NN	O	O
+provide	NN	O	O
+an	NN	O	O
+ohmic	NN	O	B-Material
+contact	NN	O	I-Material
+.	NN	O	O
+After	NN	O	O
+preliminary	NN	O	O
+measurements	NN	O	O
+,	NN	O	O
+the	NN	O	O
+samples	NN	O	B-Material
+were	NN	O	O
+annealed	NN	O	B-Process
+in	NN	O	I-Process
+forming	NN	O	I-Process
+gas	NN	O	I-Process
+(	NN	O	O
+FGA	NN	O	B-Material
+)	NN	O	O
+at	NN	O	O
+350	NN	O	O
+°	NN	O	O
+C	NN	O	O
+for	NN	O	O
+30min	NN	O	O
+.	NN	O	O
+The	NN	O	O
+oxide	NN	O	B-Material
+leakage	NN	O	I-Material
+current	NN	O	I-Material
+was	NN	O	O
+measured	NN	O	B-Process
+using	NN	O	O
+a	NN	O	O
+Keithley	NN	O	B-Material
+230B	NN	O	I-Material
+voltage	NN	O	I-Material
+source	NN	O	I-Material
+and	NN	O	O
+Keithley	NN	O	B-Material
+617B	NN	O	I-Material
+electrometer	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+HP	NN	O	B-Material
+4192A	NN	O	I-Material
+low	NN	O	I-Material
+frequency	NN	O	I-Material
+(	NN	O	I-Material
+LF	NN	O	I-Material
+)	NN	O	I-Material
+impedance	NN	O	I-Material
+analyzer	NN	O	I-Material
+at	NN	O	O
+small	NN	O	O
+signal	NN	O	O
+frequencies	NN	O	O
+between	NN	O	O
+100Hz	NN	O	O
+to	NN	O	O
+1MHz	NN	O	O
+was	NN	O	O
+used	NN	O	O
+to	NN	O	B-Task
+perform	NN	O	I-Task
+high	NN	O	I-Task
+frequency	NN	O	I-Task
+capacitance	NN	O	I-Task
+–	NN	O	I-Task
+voltage	NN	O	I-Task
+(	NN	O	I-Task
+HF	NN	O	I-Task
+CV	NN	O	I-Task
+)	NN	O	I-Task
+measurements	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0167931713004061)
+
+We	NN	O	O
+have	NN	O	O
+demonstrated	NN	O	O
+a	NN	O	O
+new	NN	O	O
+approach	NN	O	O
+to	NN	O	O
+the	NN	O	O
+manufacture	NN	O	B-Task
+of	NN	O	I-Task
+self	NN	O	I-Task
+-	NN	O	I-Task
+folding	NN	O	I-Task
+hydrogel	NN	O	I-Task
+scaffolds	NN	O	I-Task
+by	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+readily	NN	O	B-Process
+available	NN	O	I-Process
+and	NN	O	I-Process
+fast	NN	O	I-Process
+throughput	NN	O	I-Process
+methods	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+process	NN	O	O
+shows	NN	O	O
+effective	NN	O	B-Process
+pattern	NN	O	I-Process
+transfer	NN	O	I-Process
+by	NN	O	O
+first	NN	O	O
+embossing	NN	O	B-Process
+a	NN	O	I-Process
+sacrificial	NN	O	I-Process
+layer	NN	O	I-Process
+and	NN	O	O
+using	NN	O	B-Process
+it	NN	O	I-Process
+as	NN	O	I-Process
+a	NN	O	I-Process
+soluble	NN	O	I-Process
+mould	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+fabrication	NN	O	I-Process
+process	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+use	NN	O	O
+of	NN	O	O
+a	NN	O	O
+sacrificial	NN	O	B-Material
+layer	NN	O	I-Material
+of	NN	O	I-Material
+PAA	NN	O	I-Material
+imparts	NN	O	O
+environmental	NN	O	O
+sensitivity	NN	O	O
+to	NN	O	O
+the	NN	O	O
+hydrogel	NN	O	B-Material
+film	NN	O	I-Material
+on	NN	O	O
+only	NN	O	O
+one	NN	O	O
+surface	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+subsequent	NN	O	O
+swelling	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+PAA	NN	O	I-Process
+inter	NN	O	I-Process
+-	NN	O	I-Process
+penetrating	NN	O	I-Process
+network	NN	O	I-Process
+(	NN	O	O
+IPN	NN	O	B-Process
+)	NN	O	O
+in	NN	O	O
+elevated	NN	O	B-Material
+pH	NN	O	I-Material
+causes	NN	O	O
+a	NN	O	O
+swelling	NN	O	B-Process
+differential	NN	O	I-Process
+across	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
+,	NN	O	O
+causing	NN	O	O
+it	NN	O	O
+to	NN	O	O
+roll	NN	O	B-Process
+to	NN	O	O
+accommodate	NN	O	B-Task
+the	NN	O	I-Task
+difference	NN	O	I-Task
+in	NN	O	I-Task
+surface	NN	O	I-Task
+area	NN	O	I-Task
+between	NN	O	I-Task
+the	NN	O	I-Task
+two	NN	O	I-Task
+surfaces	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+surface	NN	O	O
+functionalization	NN	O	O
+and	NN	O	O
+patterning	NN	O	O
+stages	NN	O	O
+are	NN	O	O
+thus	NN	O	O
+combined	NN	O	O
+into	NN	O	O
+one	NN	O	O
+photolithographic	NN	O	B-Process
+operation	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+net	NN	O	O
+result	NN	O	O
+is	NN	O	O
+a	NN	O	O
+method	NN	O	O
+of	NN	O	O
+producing	NN	O	B-Process
+environmentally	NN	O	I-Process
+triggered	NN	O	I-Process
+self	NN	O	I-Process
+-	NN	O	I-Process
+folding	NN	O	I-Process
+all	NN	O	I-Process
+hydrogel	NN	O	I-Process
+scaffolds	NN	O	I-Process
+by	NN	O	O
+a	NN	O	O
+,	NN	O	O
+to	NN	O	O
+the	NN	O	O
+authors’	NN	O	O
+knowledge	NN	O	O
+,	NN	O	O
+novel	NN	O	B-Task
+use	NN	O	I-Task
+of	NN	O	I-Task
+sacrificial	NN	O	I-Task
+layer	NN	O	I-Task
+embossing	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+patterned	NN	O	B-Material
+hydrogel	NN	O	I-Material
+films	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+triggered	NN	O	B-Process
+consecutively	NN	O	I-Process
+allowing	NN	O	O
+for	NN	O	O
+successive	NN	O	O
+rolling	NN	O	B-Process
+and	NN	O	O
+unrolling	NN	O	B-Process
+depending	NN	O	O
+on	NN	O	O
+the	NN	O	O
+aqueous	NN	O	B-Material
+pH.	NN	O	I-Material
+The	NN	O	O
+choice	NN	O	O
+of	NN	O	O
+PEGDMA	NN	O	B-Material
+hydrogel	NN	O	I-Material
+provides	NN	O	O
+a	NN	O	O
+versatile	NN	O	B-Material
+platform	NN	O	I-Material
+for	NN	O	I-Material
+creating	NN	O	I-Material
+a	NN	O	I-Material
+variety	NN	O	I-Material
+of	NN	O	I-Material
+hydrogel	NN	O	I-Material
+scaffolds	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+while	NN	O	O
+being	NN	O	O
+non	NN	O	O
+-	NN	O	O
+fouling	NN	O	O
+and	NN	O	O
+nontoxic	NN	O	O
+it	NN	O	O
+is	NN	O	O
+permeable	NN	O	O
+to	NN	O	O
+proteins	NN	O	B-Material
+.	NN	O	O
+Furthermore	NN	O	O
+PEGDMA	NN	O	B-Material
+can	NN	O	O
+be	NN	O	O
+modified	NN	O	O
+to	NN	O	O
+produce	NN	O	B-Task
+biodegradable	NN	O	I-Task
+and	NN	O	I-Task
+cell	NN	O	I-Task
+adhesive	NN	O	I-Task
+hydrogels	NN	O	I-Task
+for	NN	O	O
+a	NN	O	O
+variety	NN	O	O
+of	NN	O	O
+biomedical	NN	O	B-Task
+applications	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0167931713004991)
+
+The	NN	O	O
+number	NN	O	O
+of	NN	O	O
+experiments	NN	O	O
+conducted	NN	O	O
+was	NN	O	O
+reduced	NN	O	O
+by	NN	O	O
+selecting	NN	O	O
+the	NN	O	O
+four	NN	O	O
+most	NN	O	O
+important	NN	O	O
+parameters	NN	O	O
+for	NN	O	O
+variation	NN	O	O
+,	NN	O	O
+Table	NN	O	O
+1	NN	O	O
+while	NN	O	O
+the	NN	O	O
+remaining	NN	O	O
+parameters	NN	O	O
+were	NN	O	O
+kept	NN	O	O
+constant	NN	O	O
+.	NN	O	O
+The	NN	O	O
+O2	NN	O	O
+flow	NN	O	O
+rate	NN	O	O
+(	NN	O	O
+QO2	NN	O	O
+)	NN	O	O
+was	NN	O	O
+keep	NN	O	O
+constant	NN	O	O
+at	NN	O	O
+99sccm	NN	O	O
+,	NN	O	O
+while	NN	O	O
+the	NN	O	O
+SF6	NN	O	O
+flow	NN	O	O
+rate	NN	O	O
+(	NN	O	O
+QSF6	NN	O	O
+)	NN	O	O
+was	NN	O	O
+varied	NN	O	O
+between	NN	O	O
+0	NN	O	O
+and	NN	O	O
+20sccm	NN	O	O
+.	NN	O	O
+The	NN	O	O
+pressure	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+etch	NN	O	I-Process
+chamber	NN	O	I-Process
+was	NN	O	O
+controlled	NN	O	O
+to	NN	O	O
+keep	NN	O	B-Task
+the	NN	O	I-Task
+gas	NN	O	I-Task
+density	NN	O	I-Task
+stable	NN	O	I-Task
+.	NN	O	O
+Since	NN	O	O
+the	NN	O	O
+pressure	NN	O	O
+has	NN	O	O
+a	NN	O	O
+pronounced	NN	O	O
+effect	NN	O	O
+on	NN	O	O
+etch	NN	O	O
+characteristics	NN	O	O
+,	NN	O	O
+the	NN	O	O
+pressure	NN	O	O
+(	NN	O	O
+p	NN	O	O
+)	NN	O	O
+was	NN	O	O
+varied	NN	O	O
+between	NN	O	O
+20	NN	O	O
+and	NN	O	O
+40mTorr	NN	O	O
+.	NN	O	O
+It	NN	O	O
+should	NN	O	O
+be	NN	O	O
+noted	NN	O	O
+that	NN	O	O
+the	NN	O	O
+system	NN	O	O
+was	NN	O	O
+run	NN	O	O
+in	NN	O	O
+automatic	NN	O	B-Process
+pressure	NN	O	I-Process
+control	NN	O	I-Process
+mode	NN	O	O
+,	NN	O	O
+which	NN	O	O
+continuously	NN	O	O
+adjusts	NN	O	B-Process
+the	NN	O	I-Process
+throttle	NN	O	I-Process
+valve	NN	O	I-Process
+to	NN	O	O
+keep	NN	O	O
+a	NN	O	O
+constant	NN	O	O
+pressure	NN	O	O
+during	NN	O	O
+etch	NN	O	O
+.	NN	O	O
+The	NN	O	O
+coil	NN	O	O
+power	NN	O	O
+(	NN	O	O
+PC	NN	O	O
+)	NN	O	O
+was	NN	O	O
+fixed	NN	O	O
+at	NN	O	O
+1000W	NN	O	O
+,	NN	O	O
+while	NN	O	O
+the	NN	O	O
+bias	NN	O	O
+power	NN	O	O
+(	NN	O	O
+PB	NN	O	O
+)	NN	O	O
+was	NN	O	O
+varied	NN	O	O
+between	NN	O	O
+0	NN	O	O
+and	NN	O	O
+30W.	NN	O	O
+Finally	NN	O	O
+,	NN	O	O
+the	NN	O	O
+substrate	NN	O	O
+chuck	NN	O	O
+temperature	NN	O	O
+(	NN	O	O
+T	NN	O	O
+)	NN	O	O
+was	NN	O	O
+controlled	NN	O	O
+between	NN	O	O
+10	NN	O	O
+and	NN	O	O
+50	NN	O	O
+°	NN	O	O
+C	NN	O	O
+.	NN	O	O
+This	NN	O	O
+design	NN	O	O
+resulted	NN	O	O
+in	NN	O	O
+a	NN	O	O
+full	NN	O	O
+factorial	NN	O	B-Process
+screening	NN	O	I-Process
+in	NN	O	O
+four	NN	O	O
+parameters	NN	O	O
+,	NN	O	O
+where	NN	O	O
+three	NN	O	O
+center	NN	O	O
+points	NN	O	O
+were	NN	O	O
+used	NN	O	O
+to	NN	O	O
+check	NN	O	B-Process
+for	NN	O	I-Process
+quadratic	NN	O	I-Process
+curvature	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+the	NN	O	O
+quadratic	NN	O	O
+term	NN	O	O
+of	NN	O	O
+a	NN	O	O
+parameter	NN	O	O
+is	NN	O	O
+needed	NN	O	O
+to	NN	O	O
+generate	NN	O	O
+a	NN	O	O
+valid	NN	O	O
+model	NN	O	O
+.	NN	O	O
+The	NN	O	O
+total	NN	O	O
+number	NN	O	O
+of	NN	O	O
+experiments	NN	O	O
+in	NN	O	O
+this	NN	O	O
+setup	NN	O	O
+is	NN	O	O
+19	NN	O	O
+,	NN	O	O
+which	NN	O	O
+were	NN	O	O
+processed	NN	O	O
+for	NN	O	O
+20min	NN	O	O
+each	NN	O	O
+.	NN	O	O
+The	NN	O	O
+experiments	NN	O	O
+in	NN	O	O
+the	NN	O	O
+design	NN	O	O
+were	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+in	NN	O	O
+random	NN	O	O
+order	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0167931713005042)
+
+We	NN	O	O
+used	NN	O	O
+2μm	NN	O	O
+of	NN	O	O
+ultra	NN	O	B-Material
+-	NN	O	I-Material
+nanocrystalline	NN	O	I-Material
+diamond	NN	O	I-Material
+(	NN	O	O
+UNCD	NN	O	B-Material
+)	NN	O	O
+grown	NN	O	O
+by	NN	O	O
+chemical	NN	O	B-Process
+vapour	NN	O	I-Process
+deposition	NN	O	I-Process
+(	NN	O	O
+CVD	NN	O	B-Process
+)	NN	O	O
+on	NN	O	O
+a	NN	O	O
+∼520μm	NN	O	O
+silicon	NN	O	O
+carrier	NN	O	O
+wafer	NN	O	O
+from	NN	O	O
+Advanced	NN	O	O
+Diamond	NN	O	O
+Technologies	NN	O	O
+Ltd.	NN	O	O
+Detailed	NN	O	O
+information	NN	O	O
+about	NN	O	O
+the	NN	O	O
+material	NN	O	O
+and	NN	O	O
+the	NN	O	O
+stamp	NN	O	O
+fabrication	NN	O	O
+can	NN	O	O
+be	NN	O	O
+found	NN	O	O
+in	NN	O	O
+our	NN	O	O
+earlier	NN	O	O
+paper	NN	O	O
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+UNCD	NN	O	B-Material
+wafer	NN	O	I-Material
+was	NN	O	O
+scribed	NN	O	O
+into	NN	O	O
+1×1cm2	NN	O	O
+samples	NN	O	O
+and	NN	O	O
+subjected	NN	O	O
+to	NN	O	O
+RCA	NN	O	B-Process
+cleaning	NN	O	I-Process
+(	NN	O	O
+SC-1	NN	O	O
+)	NN	O	O
+,	NN	O	O
+followed	NN	O	O
+by	NN	O	O
+ultrasonic	NN	O	B-Process
+solvent	NN	O	I-Process
+cleaning	NN	O	I-Process
+.	NN	O	O
+Nanofeature	NN	O	O
+stamps	NN	O	O
+were	NN	O	O
+then	NN	O	O
+created	NN	O	O
+from	NN	O	O
+the	NN	O	O
+samples	NN	O	O
+using	NN	O	O
+conventional	NN	O	B-Process
+electron	NN	O	I-Process
+beam	NN	O	I-Process
+lithography	NN	O	I-Process
+(	NN	O	O
+EBL	NN	O	B-Process
+)	NN	O	O
+with	NN	O	O
+negative	NN	O	B-Material
+tone	NN	O	I-Material
+electron	NN	O	I-Material
+sensitive	NN	O	I-Material
+resist	NN	O	I-Material
+,	NN	O	O
+hydrogen	NN	O	B-Material
+silsesquioxane	NN	O	I-Material
+(	NN	O	O
+HSQ	NN	O	B-Material
+)	NN	O	O
+.	NN	O	O
+An	NN	O	O
+Al	NN	O	B-Material
+discharge	NN	O	I-Material
+layer	NN	O	I-Material
+was	NN	O	O
+required	NN	O	O
+above	NN	O	O
+the	NN	O	O
+resist	NN	O	O
+to	NN	O	O
+prevent	NN	O	B-Task
+e	NN	O	I-Task
+-	NN	O	I-Task
+beam	NN	O	I-Task
+deflection	NN	O	I-Task
+due	NN	O	I-Task
+to	NN	O	I-Task
+charge	NN	O	I-Task
+build	NN	O	I-Task
+-	NN	O	I-Task
+up	NN	O	I-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+surface	NN	O	I-Task
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Several	NN	O	B-Task
+stamps	NN	O	I-Task
+were	NN	O	I-Task
+produced	NN	O	I-Task
+with	NN	O	O
+this	NN	O	O
+process	NN	O	O
+and	NN	O	O
+the	NN	O	O
+pattern	NN	O	O
+written	NN	O	O
+varied	NN	O	O
+in	NN	O	O
+design	NN	O	O
+but	NN	O	O
+consisted	NN	O	O
+of	NN	O	O
+arrays	NN	O	O
+of	NN	O	O
+circular	NN	O	B-Material
+pillars	NN	O	I-Material
+.	NN	O	O
+After	NN	O	O
+EBL	NN	O	B-Task
+and	NN	O	I-Task
+HSQ	NN	O	I-Task
+development	NN	O	I-Task
+,	NN	O	I-Task
+the	NN	O	I-Task
+HSQ	NN	O	B-Material
+was	NN	O	O
+used	NN	O	O
+as	NN	O	O
+an	NN	O	O
+etch	NN	O	B-Material
+mask	NN	O	I-Material
+for	NN	O	O
+RIE	NN	O	B-Material
+with	NN	O	O
+a	NN	O	O
+mixture	NN	O	O
+of	NN	O	O
+oxygen	NN	O	B-Material
+and	NN	O	O
+argon	NN	O	B-Material
+gas	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+etched	NN	O	B-Material
+diamond	NN	O	I-Material
+nanopillars	NN	O	I-Material
+were	NN	O	O
+typically	NN	O	O
+225	NN	O	O
+nm	NN	O	O
+high	NN	O	O
+.	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+displays	NN	O	O
+a	NN	O	O
+scanning	NN	O	B-Material
+electron	NN	O	I-Material
+micrograph	NN	O	I-Material
+of	NN	O	O
+some	NN	O	O
+typical	NN	O	O
+stamp	NN	O	O
+features	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0167931713006904)
+
+Copper	NN	O	B-Task
+electro	NN	O	I-Task
+-	NN	O	I-Task
+chemical	NN	O	I-Task
+deposition	NN	O	I-Task
+(	NN	O	I-Task
+ECD	NN	O	I-Task
+)	NN	O	I-Task
+of	NN	O	I-Task
+through	NN	O	I-Task
+silicon	NN	O	I-Task
+via	NN	O	I-Task
+(	NN	O	I-Task
+TSV	NN	O	I-Task
+)	NN	O	I-Task
+is	NN	O	O
+a	NN	O	O
+key	NN	O	O
+challenge	NN	O	O
+of	NN	O	O
+3D	NN	O	B-Task
+integration	NN	O	I-Task
+.	NN	O	O
+This	NN	O	O
+paper	NN	O	O
+presents	NN	O	O
+a	NN	O	O
+numerical	NN	O	B-Process
+modeling	NN	O	I-Process
+of	NN	O	I-Process
+TSV	NN	O	I-Process
+filling	NN	O	I-Process
+concerning	NN	O	O
+the	NN	O	O
+influence	NN	O	O
+of	NN	O	O
+the	NN	O	O
+accelerator	NN	O	B-Material
+and	NN	O	I-Material
+the	NN	O	I-Material
+suppressor	NN	O	I-Material
+.	NN	O	I-Material
+The	NN	O	O
+diffusion	NN	O	B-Process
+–	NN	O	I-Process
+adsorption	NN	O	I-Process
+model	NN	O	I-Process
+was	NN	O	O
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+simulation	NN	O	B-Process
+and	NN	O	I-Process
+effects	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+additives	NN	O	I-Process
+were	NN	O	O
+incorporated	NN	O	O
+in	NN	O	O
+the	NN	O	O
+model	NN	O	O
+.	NN	O	O
+The	NN	O	O
+boundary	NN	O	O
+conditions	NN	O	O
+were	NN	O	O
+derived	NN	O	O
+from	NN	O	O
+a	NN	O	O
+set	NN	O	B-Material
+of	NN	O	I-Material
+experimental	NN	O	I-Material
+Tafel	NN	O	I-Material
+curves	NN	O	I-Material
+with	NN	O	O
+different	NN	O	O
+concentrations	NN	O	O
+of	NN	O	O
+additives	NN	O	B-Material
+,	NN	O	O
+which	NN	O	O
+provided	NN	O	O
+a	NN	O	O
+quick	NN	O	O
+and	NN	O	O
+accurate	NN	O	O
+way	NN	O	O
+for	NN	O	O
+copper	NN	O	B-Process
+ECD	NN	O	I-Process
+process	NN	O	I-Process
+prediction	NN	O	I-Process
+without	NN	O	O
+complicated	NN	O	O
+surface	NN	O	O
+kinetic	NN	O	O
+parameters	NN	O	O
+fitting	NN	O	O
+.	NN	O	O
+The	NN	O	O
+level	NN	O	B-Process
+set	NN	O	I-Process
+method	NN	O	I-Process
+(	NN	O	O
+LSM	NN	O	B-Process
+)	NN	O	O
+was	NN	O	O
+employed	NN	O	O
+to	NN	O	O
+track	NN	O	B-Task
+the	NN	O	I-Task
+copper	NN	O	I-Task
+and	NN	O	I-Task
+electrolyte	NN	O	I-Task
+interface	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+simulation	NN	O	B-Process
+results	NN	O	O
+were	NN	O	O
+in	NN	O	O
+good	NN	O	O
+agreement	NN	O	O
+with	NN	O	O
+the	NN	O	O
+experiments	NN	O	O
+.	NN	O	O
+For	NN	O	O
+a	NN	O	O
+given	NN	O	O
+feature	NN	O	O
+size	NN	O	O
+,	NN	O	O
+the	NN	O	O
+current	NN	O	O
+density	NN	O	O
+for	NN	O	O
+superfilling	NN	O	B-Material
+could	NN	O	O
+be	NN	O	O
+predicted	NN	O	O
+,	NN	O	O
+which	NN	O	O
+provided	NN	O	O
+a	NN	O	O
+guideline	NN	O	O
+for	NN	O	O
+ECD	NN	O	B-Process
+process	NN	O	I-Process
+optimization	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0167931714000203)
+
+To	NN	O	O
+restrict	NN	O	B-Task
+pollen	NN	O	I-Task
+tube	NN	O	I-Task
+growth	NN	O	I-Task
+to	NN	O	I-Task
+a	NN	O	I-Task
+single	NN	O	I-Task
+focal	NN	O	I-Task
+plane	NN	O	I-Task
+is	NN	O	O
+an	NN	O	O
+important	NN	O	O
+subject	NN	O	O
+to	NN	O	O
+enable	NN	O	O
+their	NN	O	O
+accurate	NN	O	O
+growth	NN	O	B-Process
+analysis	NN	O	I-Process
+under	NN	O	I-Process
+microscopic	NN	O	I-Process
+observation	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+conventional	NN	O	O
+method	NN	O	O
+to	NN	O	O
+assay	NN	O	B-Process
+pollen	NN	O	I-Process
+tube	NN	O	I-Process
+growth	NN	O	I-Process
+,	NN	O	I-Process
+the	NN	O	O
+pollen	NN	O	B-Process
+tubes	NN	O	I-Process
+grow	NN	O	I-Process
+in	NN	O	O
+a	NN	O	O
+disorderly	NN	O	O
+manner	NN	O	O
+on	NN	O	O
+solid	NN	O	O
+medium	NN	O	O
+,	NN	O	O
+rendering	NN	O	O
+it	NN	O	O
+impossible	NN	O	O
+to	NN	O	O
+observe	NN	O	B-Process
+their	NN	O	I-Process
+growth	NN	O	I-Process
+in	NN	O	I-Process
+detail	NN	O	I-Process
+.	NN	O	I-Process
+Here	NN	O	O
+,	NN	O	O
+we	NN	O	O
+present	NN	O	O
+a	NN	O	O
+new	NN	O	B-Task
+method	NN	O	I-Task
+to	NN	O	I-Task
+assay	NN	O	I-Task
+pollen	NN	O	I-Task
+tube	NN	O	I-Task
+growth	NN	O	I-Task
+using	NN	O	O
+poly	NN	O	B-Material
+-	NN	O	I-Material
+dimethylsiloxane	NN	O	I-Material
+microchannel	NN	O	I-Material
+device	NN	O	I-Material
+to	NN	O	O
+isolate	NN	O	B-Process
+individual	NN	O	I-Process
+pollen	NN	O	I-Process
+tubes	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+growth	NN	O	O
+of	NN	O	O
+the	NN	O	O
+pollen	NN	O	B-Material
+tube	NN	O	I-Material
+is	NN	O	O
+confined	NN	O	O
+to	NN	O	O
+the	NN	O	O
+microchannel	NN	O	O
+and	NN	O	O
+to	NN	O	O
+the	NN	O	O
+same	NN	O	O
+focal	NN	O	O
+plane	NN	O	O
+,	NN	O	O
+allowing	NN	O	O
+accurate	NN	O	B-Task
+microscopic	NN	O	I-Task
+observations	NN	O	I-Task
+.	NN	O	O
+This	NN	O	O
+methodology	NN	O	O
+has	NN	O	O
+the	NN	O	O
+potential	NN	O	O
+for	NN	O	O
+analyses	NN	O	B-Task
+of	NN	O	I-Task
+pollen	NN	O	I-Task
+tube	NN	O	I-Task
+growth	NN	O	I-Task
+in	NN	O	O
+microfluidic	NN	O	O
+environments	NN	O	O
+in	NN	O	O
+response	NN	O	O
+to	NN	O	O
+chemical	NN	O	B-Material
+products	NN	O	I-Material
+and	NN	O	O
+signaling	NN	O	B-Material
+molecules	NN	O	I-Material
+,	NN	O	O
+which	NN	O	O
+paves	NN	O	O
+the	NN	O	O
+way	NN	O	O
+for	NN	O	O
+various	NN	O	O
+experiments	NN	O	B-Task
+on	NN	O	I-Task
+plant	NN	O	I-Task
+reproduction	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0167931714003347)
+
+In	NN	O	O
+order	NN	O	O
+to	NN	O	O
+study	NN	O	B-Task
+the	NN	O	I-Task
+mechanical	NN	O	I-Task
+behavior	NN	O	I-Task
+of	NN	O	O
+metal	NN	O	B-Material
+films	NN	O	I-Material
+on	NN	O	O
+compliant	NN	O	O
+polymer	NN	O	B-Material
+substrates	NN	O	I-Material
+,	NN	O	O
+fragmentation	NN	O	B-Process
+testing	NN	O	I-Process
+is	NN	O	O
+often	NN	O	O
+employed	NN	O	O
+[	NN	O	O
+8–12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+During	NN	O	O
+fragmentation	NN	O	B-Process
+testing	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
+-	NN	O	I-Material
+substrate	NN	O	I-Material
+couple	NN	O	I-Material
+is	NN	O	O
+strained	NN	O	B-Process
+under	NN	O	I-Process
+uni	NN	O	I-Process
+-	NN	O	I-Process
+axial	NN	O	I-Process
+tension	NN	O	I-Process
+and	NN	O	O
+observed	NN	O	O
+with	NN	O	O
+light	NN	O	B-Process
+microscopy	NN	O	I-Process
+(	NN	O	O
+LM	NN	O	B-Process
+)	NN	O	O
+or	NN	O	O
+scanning	NN	O	B-Process
+electron	NN	O	I-Process
+microscopy	NN	O	I-Process
+(	NN	O	O
+SEM	NN	O	B-Process
+)	NN	O	O
+.	NN	O	O
+Brittle	NN	O	B-Material
+metals	NN	O	I-Material
+or	NN	O	O
+ceramic	NN	O	B-Material
+films	NN	O	I-Material
+fracture	NN	O	B-Process
+,	NN	O	O
+forming	NN	O	O
+through	NN	O	O
+thickness	NN	O	O
+cracks	NN	O	O
+(	NN	O	O
+channel	NN	O	O
+cracks	NN	O	O
+)	NN	O	O
+at	NN	O	O
+low	NN	O	O
+strain	NN	O	O
+perpendicular	NN	O	O
+to	NN	O	O
+the	NN	O	O
+straining	NN	O	O
+direction	NN	O	O
+.	NN	O	O
+On	NN	O	O
+the	NN	O	O
+other	NN	O	O
+hand	NN	O	O
+,	NN	O	O
+ductile	NN	O	O
+metal	NN	O	B-Material
+films	NN	O	I-Material
+will	NN	O	O
+first	NN	O	O
+deform	NN	O	B-Process
+locally	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+form	NN	O	O
+of	NN	O	O
+necks	NN	O	O
+at	NN	O	O
+low	NN	O	O
+strains	NN	O	O
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1a	NN	O	O
+)	NN	O	O
+and	NN	O	O
+with	NN	O	O
+increased	NN	O	O
+strain	NN	O	B-Process
+through	NN	O	O
+thickness	NN	O	O
+cracks	NN	O	O
+(	NN	O	O
+TTC	NN	O	O
+)	NN	O	O
+can	NN	O	O
+evolve	NN	O	O
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1b	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Fragmentation	NN	O	B-Process
+testing	NN	O	I-Process
+is	NN	O	O
+best	NN	O	O
+performed	NN	O	B-Task
+in	NN	O	I-Task
+-	NN	O	I-Task
+situ	NN	O	I-Task
+with	NN	O	I-Task
+LM	NN	O	I-Task
+or	NN	O	I-Task
+SEM	NN	O	I-Task
+so	NN	O	O
+that	NN	O	O
+the	NN	O	O
+strain	NN	O	O
+when	NN	O	O
+the	NN	O	O
+first	NN	O	O
+crack	NN	O	O
+forms	NN	O	O
+can	NN	O	O
+be	NN	O	O
+observed	NN	O	O
+.	NN	O	O
+The	NN	O	O
+initial	NN	O	O
+fracture	NN	O	B-Process
+strain	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
+,	NN	O	O
+also	NN	O	O
+known	NN	O	O
+as	NN	O	O
+the	NN	O	O
+crack	NN	O	O
+onset	NN	O	O
+strain	NN	O	O
+,	NN	O	O
+can	NN	O	O
+then	NN	O	O
+be	NN	O	O
+used	NN	O	O
+to	NN	O	O
+determine	NN	O	O
+the	NN	O	O
+interfacial	NN	O	O
+fracture	NN	O	O
+shear	NN	O	B-Process
+stress	NN	O	I-Process
+with	NN	O	O
+knowledge	NN	O	O
+of	NN	O	O
+the	NN	O	O
+crack	NN	O	O
+spacing	NN	O	O
+at	NN	O	O
+saturation	NN	O	O
+,	NN	O	O
+λ	NN	O	O
+,	NN	O	O
+film	NN	O	B-Material
+thickness	NN	O	O
+,	NN	O	O
+h	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+fracture	NN	O	O
+stress	NN	O	O
+,	NN	O	O
+σf	NN	O	B-Process
+=	NN	O	I-Process
+Efilmεf	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+εf	NN	O	O
+is	NN	O	O
+the	NN	O	O
+fracture	NN	O	B-Process
+strain	NN	O	I-Process
+,	NN	O	O
+using	NN	O	O
+the	NN	O	O
+shear	NN	O	B-Process
+lag	NN	O	I-Process
+model	NN	O	I-Process
+[	NN	O	O
+8,13,14	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+-	NN	O	O
+situ	NN	O	O
+fragmentation	NN	O	O
+testing	NN	O	O
+with	NN	O	O
+LM	NN	O	B-Process
+or	NN	O	O
+SEM	NN	O	B-Process
+allows	NN	O	O
+for	NN	O	O
+the	NN	O	O
+crack	NN	O	B-Process
+spacing	NN	O	I-Process
+evolution	NN	O	I-Process
+to	NN	O	O
+be	NN	O	O
+observed	NN	O	O
+as	NN	O	O
+a	NN	O	O
+function	NN	O	B-Process
+of	NN	O	I-Process
+applied	NN	O	I-Process
+strain	NN	O	I-Process
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1c	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Under	NN	O	O
+tensile	NN	O	B-Process
+straining	NN	O	I-Process
+conditions	NN	O	O
+,	NN	O	O
+a	NN	O	O
+brittle	NN	O	B-Material
+film	NN	O	I-Material
+will	NN	O	O
+initially	NN	O	O
+fracture	NN	O	B-Process
+at	NN	O	O
+very	NN	O	O
+low	NN	O	O
+strains	NN	O	O
+(	NN	O	O
+<	NN	O	O
+1	NN	O	O
+%	NN	O	O
+)	NN	O	O
+and	NN	O	O
+then	NN	O	O
+with	NN	O	O
+further	NN	O	O
+strain	NN	O	O
+continue	NN	O	O
+to	NN	O	O
+form	NN	O	B-Process
+cracks	NN	O	I-Process
+until	NN	O	O
+the	NN	O	O
+saturation	NN	O	O
+crack	NN	O	O
+spacing	NN	O	O
+is	NN	O	O
+reached	NN	O	O
+.	NN	O	O
+After	NN	O	O
+the	NN	O	O
+saturation	NN	O	O
+spacing	NN	O	O
+has	NN	O	O
+been	NN	O	O
+reached	NN	O	O
+,	NN	O	O
+cracks	NN	O	O
+can	NN	O	O
+no	NN	O	O
+longer	NN	O	O
+form	NN	O	O
+between	NN	O	O
+existing	NN	O	O
+crack	NN	O	O
+fragments	NN	O	O
+and	NN	O	O
+the	NN	O	O
+film	NN	O	O
+could	NN	O	O
+delaminate	NN	O	B-Process
+via	NN	O	O
+buckling	NN	O	B-Process
+.	NN	O	O
+
+-DOCSTART- (S0167931714004456)
+
+PDMS	NN	O	B-Material
+(	NN	O	O
+Polydimethylsiloxane	NN	O	B-Material
+)	NN	O	O
+has	NN	O	O
+become	NN	O	O
+by	NN	O	O
+far	NN	O	O
+the	NN	O	O
+most	NN	O	O
+popular	NN	O	O
+material	NN	O	O
+in	NN	O	O
+the	NN	O	O
+academic	NN	O	O
+microfluidics	NN	O	B-Material
+community	NN	O	O
+because	NN	O	O
+it	NN	O	O
+is	NN	O	O
+inexpensive	NN	O	O
+,	NN	O	O
+easy	NN	O	O
+to	NN	O	O
+fabricate	NN	O	B-Task
+by	NN	O	O
+replication	NN	O	B-Process
+of	NN	O	I-Process
+molds	NN	O	I-Process
+made	NN	O	O
+using	NN	O	O
+rapid	NN	O	B-Process
+prototyping	NN	O	I-Process
+or	NN	O	O
+other	NN	O	O
+techniques	NN	O	O
+,	NN	O	O
+flexible	NN	O	O
+,	NN	O	O
+optically	NN	O	O
+transparent	NN	O	O
+,	NN	O	O
+biocompatible	NN	O	O
+and	NN	O	O
+its	NN	O	O
+fabrication	NN	O	O
+does	NN	O	O
+not	NN	O	O
+require	NN	O	O
+high	NN	O	O
+capital	NN	O	O
+investment	NN	O	O
+and	NN	O	O
+cleanroom	NN	O	O
+conditions	NN	O	O
+.	NN	O	O
+Various	NN	O	O
+techniques	NN	O	O
+have	NN	O	O
+been	NN	O	O
+adapted	NN	O	O
+to	NN	O	O
+fabricate	NN	O	B-Task
+microfluidic	NN	O	I-Task
+structures	NN	O	I-Task
+in	NN	O	O
+PDMS	NN	O	B-Material
+,	NN	O	O
+including	NN	O	O
+wet	NN	O	B-Process
+and	NN	O	I-Process
+dry	NN	O	I-Process
+etching	NN	O	I-Process
+[	NN	O	O
+20–22	NN	O	O
+]	NN	O	O
+,	NN	O	O
+photolithographic	NN	O	B-Process
+patterning	NN	O	I-Process
+of	NN	O	O
+a	NN	O	O
+photosensitive	NN	O	O
+PDMS	NN	O	B-Material
+[	NN	O	O
+23	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+laser	NN	O	B-Process
+ablation	NN	O	I-Process
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+But	NN	O	O
+,	NN	O	O
+it	NN	O	O
+was	NN	O	O
+the	NN	O	O
+“	NN	O	B-Process
+soft	NN	O	I-Process
+-	NN	O	I-Process
+lithography	NN	O	I-Process
+”	NN	O	I-Process
+techniques	NN	O	I-Process
+[	NN	O	O
+25	NN	O	O
+]	NN	O	O
+introduced	NN	O	O
+by	NN	O	O
+Whitesides	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+that	NN	O	O
+enabled	NN	O	O
+the	NN	O	O
+widespread	NN	O	O
+use	NN	O	O
+of	NN	O	O
+PDMS	NN	O	B-Material
+and	NN	O	O
+opened	NN	O	O
+up	NN	O	O
+the	NN	O	O
+era	NN	O	O
+of	NN	O	O
+PDMS	NN	O	B-Process
+-	NN	O	I-Process
+based	NN	O	I-Process
+microfluidics	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+late	NN	O	O
+1990s	NN	O	O
+.	NN	O	O
+Replica	NN	O	B-Process
+molding	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+the	NN	O	O
+casting	NN	O	B-Process
+of	NN	O	I-Process
+prepolymer	NN	O	I-Process
+against	NN	O	I-Process
+a	NN	O	I-Process
+master	NN	O	I-Process
+and	NN	O	I-Process
+generating	NN	O	I-Process
+a	NN	O	I-Process
+replica	NN	O	I-Process
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+the	NN	O	I-Process
+master	NN	O	I-Process
+in	NN	O	I-Process
+PDMS	NN	O	I-Process
+,	NN	O	O
+has	NN	O	O
+become	NN	O	O
+a	NN	O	O
+standard	NN	O	O
+fabrication	NN	O	B-Process
+technique	NN	O	I-Process
+available	NN	O	O
+in	NN	O	O
+almost	NN	O	O
+every	NN	O	O
+research	NN	O	O
+laboratory	NN	O	O
+.	NN	O	O
+Detailed	NN	O	O
+overviews	NN	O	O
+of	NN	O	O
+soft	NN	O	B-Process
+-	NN	O	I-Process
+lithography	NN	O	I-Process
+techniques	NN	O	I-Process
+and	NN	O	O
+their	NN	O	O
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+found	NN	O	O
+from	NN	O	O
+the	NN	O	O
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+by	NN	O	O
+McDonald	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+26	NN	O	O
+]	NN	O	O
+and	NN	O	O
+Sia	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+27	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Nowadays	NN	O	O
+,	NN	O	O
+many	NN	O	O
+tools	NN	O	O
+dedicated	NN	O	O
+for	NN	O	O
+this	NN	O	O
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+complete	NN	O	O
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+(	NN	O	O
+e.g.	NN	O	O
+SoftLithoBox	NN	O	B-Material
+®	NN	O	I-Material
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+Elveflow	NN	O	O
+(	NN	O	O
+USA	NN	O	O
+)	NN	O	O
+[	NN	O	O
+28	NN	O	O
+]	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+companies	NN	O	O
+,	NN	O	O
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+as	NN	O	O
+FlowJEM	NN	O	O
+(	NN	O	O
+Canada	NN	O	O
+)	NN	O	O
+[	NN	O	O
+29	NN	O	O
+]	NN	O	O
+,	NN	O	O
+Microfluidic	NN	O	O
+Innovations	NN	O	O
+(	NN	O	O
+USA	NN	O	O
+)	NN	O	O
+[	NN	O	O
+30	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+Scientific	NN	O	O
+Device	NN	O	O
+Laboratory	NN	O	O
+(	NN	O	O
+USA	NN	O	O
+)	NN	O	O
+[	NN	O	O
+31	NN	O	O
+]	NN	O	O
+provide	NN	O	O
+rapid	NN	O	B-Process
+prototyping	NN	O	I-Process
+service	NN	O	I-Process
+for	NN	O	O
+PDMS	NN	O	B-Material
+-	NN	O	I-Material
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+LOC	NN	O	I-Material
+devices	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S0168365912006207)
+
+Unlike	NN	O	O
+conventional	NN	O	O
+materials	NN	O	O
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+tissue	NN	O	O
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+,	NN	O	O
+PAs	NN	O	B-Material
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+directly	NN	O	O
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+in	NN	O	I-Process
+vivo	NN	O	I-Process
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+models	NN	O	I-Process
+and	NN	O	I-Process
+spontaneously	NN	O	I-Process
+self	NN	O	I-Process
+-	NN	O	I-Process
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+into	NN	O	I-Process
+nanofibers	NN	O	I-Process
+in	NN	O	I-Process
+aqueous	NN	O	I-Process
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+.	NN	O	O
+Furthermore	NN	O	O
+,	NN	O	O
+PAs	NN	O	B-Material
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+biomimetic	NN	O	B-Material
+materials	NN	O	I-Material
+exemplified	NN	O	O
+by	NN	O	O
+collagen	NN	O	B-Material
+-	NN	O	I-Material
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+[	NN	O	O
+92	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Conventional	NN	O	O
+materials	NN	O	O
+often	NN	O	O
+rely	NN	O	O
+on	NN	O	O
+electrospinning	NN	O	B-Process
+as	NN	O	O
+a	NN	O	B-Process
+manufacturing	NN	O	I-Process
+method	NN	O	I-Process
+to	NN	O	O
+achieve	NN	O	B-Task
+fiber	NN	O	I-Task
+-	NN	O	I-Task
+like	NN	O	I-Task
+structures	NN	O	I-Task
+suitable	NN	O	O
+for	NN	O	O
+use	NN	O	O
+in	NN	O	O
+nerve	NN	O	O
+regeneration	NN	O	O
+.	NN	O	O
+The	NN	O	O
+self	NN	O	O
+-	NN	O	O
+assembly	NN	O	O
+nature	NN	O	O
+of	NN	O	O
+PAs	NN	O	B-Material
+allows	NN	O	O
+them	NN	O	O
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+costly	NN	O	B-Process
+manufacturing	NN	O	I-Process
+methods	NN	O	I-Process
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+in	NN	O	O
+contrast	NN	O	O
+to	NN	O	O
+conventional	NN	O	B-Process
+manufacturing	NN	O	I-Process
+methods	NN	O	I-Process
+like	NN	O	O
+electrospinning	NN	O	B-Process
+where	NN	O	O
+quality	NN	O	O
+and	NN	O	O
+batch	NN	O	O
+-	NN	O	O
+to	NN	O	O
+-	NN	O	O
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+variability	NN	O	O
+can	NN	O	O
+be	NN	O	O
+tightly	NN	O	O
+controlled	NN	O	O
+,	NN	O	O
+merely	NN	O	O
+relying	NN	O	O
+on	NN	O	O
+self	NN	O	B-Process
+-	NN	O	I-Process
+assembly	NN	O	I-Process
+as	NN	O	O
+a	NN	O	O
+method	NN	O	O
+of	NN	O	O
+large	NN	O	B-Task
+-	NN	O	I-Task
+scale	NN	O	I-Task
+commercial	NN	O	I-Task
+production	NN	O	I-Task
+is	NN	O	O
+still	NN	O	O
+an	NN	O	O
+experimental	NN	O	O
+concept	NN	O	O
+.	NN	O	O
+Perhaps	NN	O	O
+the	NN	O	O
+next	NN	O	O
+step	NN	O	O
+would	NN	O	O
+be	NN	O	O
+to	NN	O	O
+carefully	NN	O	O
+compare	NN	O	B-Process
+and	NN	O	I-Process
+contrast	NN	O	I-Process
+the	NN	O	O
+robustness	NN	O	B-Task
+of	NN	O	I-Task
+self	NN	O	I-Task
+-	NN	O	I-Task
+assemled	NN	O	I-Task
+PAs	NN	O	I-Task
+to	NN	O	I-Task
+electrospun	NN	O	I-Task
+nanofibers	NN	O	I-Task
+.	NN	O	O
+Given	NN	O	O
+that	NN	O	O
+the	NN	O	O
+constituent	NN	O	O
+elements	NN	O	O
+in	NN	O	O
+PAs	NN	O	B-Material
+and	NN	O	O
+external	NN	O	O
+factors	NN	O	O
+like	NN	O	O
+pH	NN	O	O
+can	NN	O	O
+affect	NN	O	O
+its	NN	O	O
+structural	NN	O	O
+assembly	NN	O	O
+,	NN	O	O
+parameters	NN	O	O
+must	NN	O	O
+be	NN	O	O
+finely	NN	O	O
+tuned	NN	O	B-Process
+and	NN	O	I-Process
+optimized	NN	O	I-Process
+in	NN	O	O
+order	NN	O	O
+for	NN	O	O
+PA	NN	O	B-Material
+nanofibers	NN	O	I-Material
+to	NN	O	O
+be	NN	O	O
+used	NN	O	O
+as	NN	O	O
+a	NN	O	B-Task
+full	NN	O	I-Task
+-	NN	O	I-Task
+fledged	NN	O	I-Task
+commercialized	NN	O	I-Task
+medical	NN	O	I-Task
+product	NN	O	I-Task
+[	NN	O	O
+93	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0168365913002848)
+
+Mice	NN	O	B-Task
+bearing	NN	O	I-Task
+the	NN	O	I-Task
+orthotopic	NN	O	I-Task
+model	NN	O	I-Task
+were	NN	O	O
+treated	NN	O	O
+starting	NN	O	O
+from	NN	O	O
+day	NN	O	O
+21	NN	O	O
+after	NN	O	O
+NB	NN	O	O
+cell	NN	O	O
+implant	NN	O	O
+;	NN	O	O
+mice	NN	O	B-Task
+with	NN	O	I-Task
+the	NN	O	I-Task
+pseudo	NN	O	I-Task
+-	NN	O	I-Task
+metastatic	NN	O	I-Task
+model	NN	O	I-Task
+received	NN	O	O
+the	NN	O	O
+first	NN	O	O
+treatment	NN	O	O
+4h	NN	O	O
+after	NN	O	O
+NB	NN	O	O
+cell	NN	O	O
+injection	NN	O	O
+.	NN	O	O
+These	NN	O	B-Task
+therapeutic	NN	O	I-Task
+schedules	NN	O	I-Task
+were	NN	O	O
+designed	NN	O	O
+to	NN	O	O
+test	NN	O	B-Process
+the	NN	O	I-Process
+effects	NN	O	I-Process
+of	NN	O	O
+our	NN	O	B-Material
+targeted	NN	O	I-Material
+formulations	NN	O	I-Material
+against	NN	O	O
+both	NN	O	O
+established	NN	O	O
+and	NN	O	O
+pseudo	NN	O	O
+-	NN	O	O
+metastatic	NN	O	O
+preclinical	NN	O	B-Material
+models	NN	O	I-Material
+of	NN	O	O
+human	NN	O	O
+NB	NN	O	O
+,	NN	O	O
+as	NN	O	O
+described	NN	O	O
+[	NN	O	O
+16,19	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Animals	NN	O	B-Task
+were	NN	O	O
+treated	NN	O	O
+i.v	NN	O	O
+.	NN	O	O
+once	NN	O	O
+a	NN	O	O
+week	NN	O	O
+for	NN	O	O
+3	NN	O	O
+weeks	NN	O	O
+with	NN	O	O
+untargeted	NN	O	B-Material
+(	NN	O	O
+SL[DXR	NN	O	B-Material
+]	NN	O	I-Material
+)	NN	O	O
+or	NN	O	O
+peptide	NN	O	B-Material
+-	NN	O	I-Material
+targeted	NN	O	I-Material
+SL[DXR	NN	O	I-Material
+]	NN	O	I-Material
+(	NN	O	O
+5mg	NN	O	O
+/	NN	O	O
+kg	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Scrambled	NN	O	B-Task
+peptide	NN	O	I-Task
+-	NN	O	I-Task
+functionalized	NN	O	I-Task
+liposomes	NN	O	I-Task
+were	NN	O	O
+used	NN	O	O
+as	NN	O	O
+a	NN	O	O
+control	NN	O	O
+,	NN	O	O
+and	NN	O	O
+in	NN	O	O
+every	NN	O	O
+experiment	NN	O	O
+a	NN	O	O
+group	NN	O	O
+of	NN	O	O
+control	NN	O	O
+mice	NN	O	O
+received	NN	O	O
+HEPES	NN	O	B-Material
+-	NN	O	I-Material
+buffered	NN	O	I-Material
+saline	NN	O	I-Material
+.	NN	O	O
+Survival	NN	O	B-Material
+times	NN	O	I-Material
+were	NN	O	O
+used	NN	O	O
+as	NN	O	O
+the	NN	O	O
+main	NN	O	O
+criterion	NN	O	O
+for	NN	O	O
+determining	NN	O	B-Task
+treatment	NN	O	I-Task
+efficacy	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+orthotopic	NN	O	B-Task
+model	NN	O	I-Task
+,	NN	O	O
+time	NN	O	B-Material
+-	NN	O	I-Material
+dependent	NN	O	I-Material
+anti	NN	O	I-Material
+-	NN	O	I-Material
+tumor	NN	O	I-Material
+activity	NN	O	I-Material
+was	NN	O	O
+also	NN	O	O
+evaluated	NN	O	O
+by	NN	O	O
+bioluminescence	NN	O	O
+imaging	NN	O	O
+(	NN	O	O
+BLI	NN	O	O
+)	NN	O	O
+and	NN	O	O
+X	NN	O	O
+-	NN	O	O
+ray	NN	O	O
+analyses	NN	O	O
+.	NN	O	O
+For	NN	O	O
+this	NN	O	O
+purpose	NN	O	O
+,	NN	O	O
+the	NN	O	B-Task
+GI	NN	O	I-Task
+-	NN	O	I-Task
+LI	NN	O	I-Task
+-	NN	O	I-Task
+N	NN	O	I-Task
+cell	NN	O	I-Task
+line	NN	O	I-Task
+was	NN	O	O
+infected	NN	O	B-Process
+with	NN	O	O
+a	NN	O	O
+retrovirus	NN	O	O
+expressing	NN	O	O
+the	NN	O	O
+firefly	NN	O	O
+luciferase	NN	O	O
+gene	NN	O	O
+,	NN	O	O
+as	NN	O	O
+previously	NN	O	O
+reported	NN	O	O
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+;	NN	O	O
+luciferase	NN	O	B-Task
+activity	NN	O	I-Task
+of	NN	O	O
+retrovirally	NN	O	B-Material
+-	NN	O	I-Material
+transduced	NN	O	I-Material
+cells	NN	O	I-Material
+was	NN	O	O
+visualized	NN	O	B-Process
+in	NN	O	O
+vivo	NN	O	O
+by	NN	O	O
+BLI	NN	O	O
+(	NN	O	O
+IVIS	NN	O	O
+Caliper	NN	O	O
+Life	NN	O	O
+Sciences	NN	O	O
+,	NN	O	O
+Hopkinton	NN	O	O
+,	NN	O	O
+MA	NN	O	O
+)	NN	O	O
+after	NN	O	O
+a	NN	O	O
+10min	NN	O	O
+incubation	NN	O	O
+with	NN	O	O
+150μg	NN	O	O
+/	NN	O	O
+mL	NN	O	O
+of	NN	O	O
+d	NN	O	B-Material
+-	NN	O	I-Material
+luciferin	NN	O	I-Material
+(	NN	O	O
+Caliper	NN	O	O
+Life	NN	O	O
+Sciences	NN	O	O
+)	NN	O	O
+,	NN	O	O
+as	NN	O	O
+described	NN	O	O
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+X	NN	O	O
+-	NN	O	O
+ray	NN	O	O
+analysis	NN	O	O
+was	NN	O	O
+superimposed	NN	O	O
+to	NN	O	O
+the	NN	O	O
+luminescence	NN	O	O
+for	NN	O	O
+a	NN	O	O
+better	NN	O	O
+visualization	NN	O	O
+of	NN	O	O
+the	NN	O	O
+tumors	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0168365913003295)
+
+A	NN	O	O
+limitation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+pharmacyte	NN	O	B-Process
+approach	NN	O	I-Process
+is	NN	O	O
+the	NN	O	O
+one	NN	O	O
+-	NN	O	O
+time	NN	O	O
+nature	NN	O	O
+of	NN	O	O
+the	NN	O	O
+intervention	NN	O	O
+:	NN	O	O
+ACT	NN	O	B-Material
+T	NN	O	I-Material
+-	NN	O	I-Material
+cells	NN	O	I-Material
+can	NN	O	O
+only	NN	O	O
+be	NN	O	O
+loaded	NN	O	O
+once	NN	O	O
+with	NN	O	O
+a	NN	O	O
+cargo	NN	O	O
+of	NN	O	O
+adjuvant	NN	O	B-Material
+drug	NN	O	I-Material
+prior	NN	O	O
+to	NN	O	O
+transfer	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+duration	NN	O	O
+of	NN	O	O
+stimulation	NN	O	B-Process
+is	NN	O	O
+inherently	NN	O	O
+limited	NN	O	O
+by	NN	O	O
+expansion	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+cell	NN	O	I-Process
+population	NN	O	I-Process
+in	NN	O	I-Process
+vivo	NN	O	I-Process
+,	NN	O	O
+since	NN	O	O
+cell	NN	O	B-Material
+-	NN	O	I-Material
+bound	NN	O	I-Material
+particles	NN	O	I-Material
+are	NN	O	O
+diluted	NN	O	O
+with	NN	O	O
+each	NN	O	O
+cell	NN	O	B-Process
+division	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+hypothesized	NN	O	O
+that	NN	O	O
+a	NN	O	O
+strategy	NN	O	O
+to	NN	O	O
+target	NN	O	O
+supporting	NN	O	B-Material
+drugs	NN	O	I-Material
+to	NN	O	O
+T	NN	O	B-Material
+-	NN	O	I-Material
+cells	NN	O	I-Material
+with	NN	O	O
+nanoparticle	NN	O	B-Material
+drug	NN	O	I-Material
+carriers	NN	O	I-Material
+directly	NN	O	O
+in	NN	O	O
+vivo	NN	O	O
+would	NN	O	O
+enable	NN	O	O
+transferred	NN	O	B-Material
+lymphocytes	NN	O	I-Material
+to	NN	O	O
+be	NN	O	O
+repeatedly	NN	O	O
+stimulated	NN	O	O
+with	NN	O	O
+supporting	NN	O	B-Material
+adjuvant	NN	O	I-Material
+drugs	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+thereby	NN	O	O
+provide	NN	O	O
+continuous	NN	O	O
+supporting	NN	O	O
+signals	NN	O	O
+over	NN	O	O
+the	NN	O	O
+prolonged	NN	O	O
+durations	NN	O	O
+that	NN	O	O
+might	NN	O	O
+be	NN	O	O
+necessary	NN	O	O
+for	NN	O	O
+elimination	NN	O	B-Task
+of	NN	O	I-Task
+large	NN	O	I-Task
+tumor	NN	O	I-Task
+burdens	NN	O	I-Task
+.	NN	O	O
+Such	NN	O	O
+“	NN	O	B-Process
+re	NN	O	I-Process
+-	NN	O	I-Process
+arming	NN	O	I-Process
+”	NN	O	I-Process
+of	NN	O	I-Process
+T	NN	O	I-Process
+-	NN	O	I-Process
+cells	NN	O	I-Process
+with	NN	O	I-Process
+supporting	NN	O	I-Process
+drugs	NN	O	I-Process
+could	NN	O	O
+be	NN	O	O
+achieved	NN	O	O
+by	NN	O	O
+repeated	NN	O	O
+administration	NN	O	B-Process
+of	NN	O	I-Process
+targeted	NN	O	I-Process
+particles	NN	O	I-Process
+,	NN	O	O
+allowing	NN	O	O
+adoptively	NN	O	B-Material
+-	NN	O	I-Material
+transferred	NN	O	I-Material
+T	NN	O	I-Material
+-	NN	O	I-Material
+cells	NN	O	I-Material
+to	NN	O	O
+be	NN	O	O
+restimulated	NN	O	O
+multiple	NN	O	O
+times	NN	O	O
+directly	NN	O	O
+in	NN	O	O
+vivo	NN	O	O
+,	NN	O	O
+while	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+internalizing	NN	O	B-Material
+targeting	NN	O	I-Material
+ligands	NN	O	I-Material
+would	NN	O	O
+minimize	NN	O	O
+the	NN	O	O
+likelihood	NN	O	O
+of	NN	O	O
+immune	NN	O	O
+responses	NN	O	O
+against	NN	O	O
+the	NN	O	O
+nanoparticle	NN	O	B-Material
+carrier	NN	O	I-Material
+.	NN	O	O
+To	NN	O	O
+our	NN	O	O
+knowledge	NN	O	O
+,	NN	O	O
+only	NN	O	O
+two	NN	O	O
+prior	NN	O	O
+studies	NN	O	O
+have	NN	O	O
+attempted	NN	O	O
+to	NN	O	O
+target	NN	O	O
+nanoparticles	NN	O	B-Material
+to	NN	O	O
+T	NN	O	B-Material
+-	NN	O	I-Material
+cells	NN	O	I-Material
+in	NN	O	O
+vivo	NN	O	O
+[	NN	O	O
+17,18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+both	NN	O	O
+of	NN	O	O
+these	NN	O	O
+studies	NN	O	O
+,	NN	O	O
+particles	NN	O	O
+were	NN	O	O
+targeted	NN	O	O
+to	NN	O	O
+T	NN	O	B-Material
+-	NN	O	I-Material
+cells	NN	O	I-Material
+via	NN	O	O
+peptide	NN	O	B-Material
+-	NN	O	I-Material
+MHC	NN	O	I-Material
+ligands	NN	O	I-Material
+that	NN	O	O
+bind	NN	O	O
+to	NN	O	O
+specific	NN	O	O
+T	NN	O	B-Material
+-	NN	O	I-Material
+cell	NN	O	I-Material
+receptors	NN	O	I-Material
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+peptide	NN	O	B-Material
+-	NN	O	I-Material
+MHC	NN	O	I-Material
+-	NN	O	I-Material
+functionalized	NN	O	I-Material
+nanoparticles	NN	O	I-Material
+have	NN	O	O
+recently	NN	O	O
+been	NN	O	O
+shown	NN	O	O
+to	NN	O	O
+deliver	NN	O	O
+an	NN	O	O
+anergizing	NN	O	O
+/	NN	O	O
+tolerizing	NN	O	O
+signal	NN	O	O
+to	NN	O	O
+T	NN	O	B-Material
+-	NN	O	I-Material
+cells	NN	O	I-Material
+[	NN	O	O
+18,19	NN	O	O
+]	NN	O	O
+—	NN	O	O
+which	NN	O	O
+is	NN	O	O
+ideal	NN	O	O
+for	NN	O	O
+treating	NN	O	B-Task
+graft	NN	O	I-Task
+rejection	NN	O	I-Task
+or	NN	O	I-Task
+autoimmunity	NN	O	I-Task
+,	NN	O	O
+but	NN	O	O
+runs	NN	O	O
+counter	NN	O	O
+to	NN	O	O
+the	NN	O	O
+goals	NN	O	O
+of	NN	O	O
+cancer	NN	O	B-Task
+immunotherapy	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0168365913004975)
+
+The	NN	O	O
+α-ω-aminohexylcarbamate	NN	O	B-Material
+derivative	NN	O	I-Material
+of	NN	O	I-Material
+cyanocobalamin	NN	O	I-Material
+was	NN	O	O
+prepared	NN	O	O
+using	NN	O	O
+a	NN	O	O
+method	NN	O	O
+described	NN	O	O
+previously	NN	O	O
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Briefly	NN	O	O
+,	NN	O	O
+solid	NN	O	B-Material
+CDI	NN	O	I-Material
+(	NN	O	O
+260	NN	O	O
+mg	NN	O	O
+,	NN	O	O
+0.32mmol	NN	O	O
+)	NN	O	O
+was	NN	O	O
+added	NN	O	O
+to	NN	O	O
+cyanocobalamin	NN	O	B-Material
+(	NN	O	O
+1.0	NN	O	O
+g	NN	O	O
+,	NN	O	O
+0.148mmol	NN	O	O
+)	NN	O	O
+previously	NN	O	O
+dissolved	NN	O	O
+in	NN	O	O
+anhydrous	NN	O	B-Material
+dimethyl	NN	O	I-Material
+sulfoxide	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+mixture	NN	O	O
+was	NN	O	O
+stirred	NN	O	O
+for	NN	O	O
+up	NN	O	O
+to	NN	O	O
+2h	NN	O	O
+at	NN	O	O
+30	NN	O	O
+°	NN	O	O
+C	NN	O	O
+,	NN	O	O
+followed	NN	O	O
+by	NN	O	O
+the	NN	O	O
+addition	NN	O	O
+of	NN	O	O
+dry	NN	O	B-Material
+1,6-hexanediamine	NN	O	I-Material
+(	NN	O	O
+314	NN	O	O
+mg	NN	O	O
+,	NN	O	O
+0.54mmol	NN	O	O
+)	NN	O	O
+and	NN	O	O
+stirring	NN	O	O
+of	NN	O	O
+the	NN	O	O
+mixture	NN	O	O
+at	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+over	NN	O	O
+24h	NN	O	O
+.	NN	O	O
+The	NN	O	O
+mixture	NN	O	O
+was	NN	O	O
+poured	NN	O	O
+into	NN	O	O
+ethyl	NN	O	B-Material
+acetate	NN	O	I-Material
+(	NN	O	O
+30ml	NN	O	O
+)	NN	O	O
+and	NN	O	O
+left	NN	O	O
+to	NN	O	O
+stand	NN	O	O
+.	NN	O	O
+Following	NN	O	O
+centrifugation	NN	O	B-Process
+and	NN	O	O
+decanting	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+supernatant	NN	O	B-Material
+,	NN	O	O
+the	NN	O	O
+residue	NN	O	B-Material
+was	NN	O	O
+sonicated	NN	O	O
+for	NN	O	O
+5min	NN	O	O
+in	NN	O	O
+acetone	NN	O	B-Material
+(	NN	O	O
+50ml	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+resulting	NN	O	O
+precipitate	NN	O	B-Material
+was	NN	O	O
+filtered	NN	O	O
+and	NN	O	O
+the	NN	O	O
+solid	NN	O	B-Material
+washed	NN	O	O
+in	NN	O	O
+acetone	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+crude	NN	O	B-Material
+product	NN	O	I-Material
+was	NN	O	O
+purified	NN	O	O
+by	NN	O	O
+silica	NN	O	B-Process
+column	NN	O	I-Process
+chromatography	NN	O	I-Process
+(	NN	O	O
+45	NN	O	O
+%	NN	O	O
+v	NN	O	O
+/	NN	O	O
+v	NN	O	O
+2-propanol	NN	O	B-Material
+,	NN	O	O
+30	NN	O	O
+%	NN	O	O
+v	NN	O	O
+/	NN	O	O
+v	NN	O	O
+n	NN	O	O
+-	NN	O	O
+butanol	NN	O	B-Material
+,	NN	O	O
+2	NN	O	O
+%	NN	O	O
+v	NN	O	O
+/	NN	O	O
+v	NN	O	O
+ammonia	NN	O	B-Material
+and	NN	O	O
+25	NN	O	O
+%	NN	O	O
+v	NN	O	O
+/	NN	O	O
+v	NN	O	O
+water	NN	O	B-Material
+)	NN	O	O
+followed	NN	O	O
+by	NN	O	O
+lyophilisation	NN	O	B-Process
+.	NN	O	O
+
+-DOCSTART- (S0168365913008766)
+
+Immunopotentiators	NN	O	B-Material
+activate	NN	O	B-Process
+innate	NN	O	I-Process
+immunity	NN	O	I-Process
+directly	NN	O	O
+(	NN	O	O
+for	NN	O	O
+example	NN	O	O
+,	NN	O	O
+cytokines	NN	O	O
+)	NN	O	O
+or	NN	O	O
+through	NN	O	O
+pattern	NN	O	B-Process
+-	NN	O	I-Process
+recognition	NN	O	I-Process
+receptors	NN	O	I-Process
+(	NN	O	O
+PRRs	NN	O	B-Process
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+those	NN	O	O
+for	NN	O	O
+bacterial	NN	O	O
+components	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+Toll	NN	O	B-Process
+-	NN	O	I-Process
+like	NN	O	I-Process
+receptors	NN	O	I-Process
+(	NN	O	O
+TLRs	NN	O	B-Process
+)	NN	O	O
+are	NN	O	O
+a	NN	O	O
+family	NN	O	O
+of	NN	O	O
+PRRs	NN	O	B-Process
+that	NN	O	O
+are	NN	O	O
+an	NN	O	O
+important	NN	O	O
+link	NN	O	O
+between	NN	O	O
+innate	NN	O	O
+and	NN	O	O
+adaptive	NN	O	O
+immunity	NN	O	O
+.	NN	O	O
+Some	NN	O	O
+studies	NN	O	O
+have	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+TLR	NN	O	B-Material
+ligands	NN	O	I-Material
+have	NN	O	O
+adjuvant	NN	O	O
+activity	NN	O	O
+and	NN	O	O
+enhance	NN	O	O
+antigen	NN	O	O
+-	NN	O	O
+specific	NN	O	O
+antibody	NN	O	O
+and	NN	O	O
+cell	NN	O	O
+-	NN	O	O
+mediated	NN	O	O
+immune	NN	O	O
+responses	NN	O	O
+,	NN	O	O
+especially	NN	O	O
+when	NN	O	O
+they	NN	O	O
+are	NN	O	O
+combined	NN	O	O
+with	NN	O	O
+delivery	NN	O	O
+systems	NN	O	O
+that	NN	O	O
+promote	NN	O	O
+their	NN	O	O
+uptake	NN	O	O
+and	NN	O	O
+delivery	NN	O	O
+into	NN	O	O
+antigen	NN	O	B-Material
+-	NN	O	I-Material
+presenting	NN	O	I-Material
+cells	NN	O	I-Material
+[	NN	O	O
+22–24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+For	NN	O	O
+clinical	NN	O	B-Task
+studies	NN	O	I-Task
+,	NN	O	O
+TLR9	NN	O	B-Material
+is	NN	O	O
+generally	NN	O	O
+stimulated	NN	O	B-Process
+with	NN	O	O
+synthetic	NN	O	B-Material
+oligodeoxynucleotides	NN	O	I-Material
+containing	NN	O	O
+one	NN	O	O
+or	NN	O	O
+more	NN	O	O
+unmethylated	NN	O	B-Material
+CpG	NN	O	I-Material
+dinucleotides	NN	O	I-Material
+.	NN	O	O
+In	NN	O	O
+humans	NN	O	O
+,	NN	O	O
+CpG	NN	O	B-Material
+has	NN	O	O
+been	NN	O	O
+used	NN	O	O
+as	NN	O	O
+an	NN	O	O
+adjuvant	NN	O	B-Material
+for	NN	O	O
+infectious	NN	O	B-Task
+disease	NN	O	I-Task
+vaccination	NN	O	I-Task
+[	NN	O	O
+25,26	NN	O	O
+]	NN	O	O
+and	NN	O	O
+in	NN	O	O
+the	NN	O	B-Task
+development	NN	O	I-Task
+of	NN	O	I-Task
+cancer	NN	O	I-Task
+therapy	NN	O	I-Task
+[	NN	O	O
+27	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+a	NN	O	O
+mouse	NN	O	B-Process
+model	NN	O	I-Process
+,	NN	O	O
+CpG	NN	O	B-Material
+has	NN	O	O
+also	NN	O	O
+been	NN	O	O
+shown	NN	O	O
+to	NN	O	O
+induce	NN	O	B-Process
+T	NN	O	I-Process
+helper	NN	O	I-Process
+1	NN	O	I-Process
+(	NN	O	O
+Th1	NN	O	O
+)	NN	O	O
+immune	NN	O	O
+responses	NN	O	O
+,	NN	O	O
+which	NN	O	O
+are	NN	O	O
+characterized	NN	O	O
+by	NN	O	O
+the	NN	O	O
+production	NN	O	B-Process
+of	NN	O	I-Process
+IFN-γ	NN	O	I-Process
+and	NN	O	I-Process
+the	NN	O	I-Process
+generation	NN	O	I-Process
+of	NN	O	I-Process
+IgG2a	NN	O	I-Process
+[	NN	O	O
+28,29	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+a	NN	O	O
+previous	NN	O	O
+study	NN	O	O
+had	NN	O	O
+demonstrated	NN	O	O
+that	NN	O	O
+different	NN	O	O
+liposomes	NN	O	B-Material
+with	NN	O	O
+CpG	NN	O	O
+ODN	NN	O	O
+significantly	NN	O	O
+increased	NN	O	O
+Th1-biased	NN	O	B-Material
+cytokines	NN	O	I-Material
+and	NN	O	O
+augmented	NN	O	B-Process
+cell	NN	O	I-Process
+mediated	NN	O	I-Process
+immune	NN	O	I-Process
+response	NN	O	I-Process
+[	NN	O	O
+30	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0168365913009036)
+
+Two	NN	O	O
+methods	NN	O	O
+of	NN	O	O
+formulating	NN	O	B-Task
+anionic	NN	O	I-Task
+nanocomplexes	NN	O	I-Task
+were	NN	O	O
+evaluated	NN	O	O
+.	NN	O	O
+In	NN	O	O
+both	NN	O	O
+,	NN	O	O
+nanocomplexes	NN	O	B-Material
+were	NN	O	O
+prepared	NN	O	B-Process
+in	NN	O	O
+water	NN	O	O
+at	NN	O	O
+a	NN	O	O
+range	NN	O	O
+of	NN	O	O
+molar	NN	O	O
+charge	NN	O	O
+ratios	NN	O	O
+of	NN	O	O
+L	NN	O	O
+to	NN	O	O
+D	NN	O	O
+while	NN	O	O
+the	NN	O	O
+peptide	NN	O	O
+P	NN	O	O
+to	NN	O	O
+D	NN	O	O
+molar	NN	O	O
+charge	NN	O	O
+ratio	NN	O	O
+was	NN	O	O
+maintained	NN	O	O
+constant	NN	O	O
+at	NN	O	O
+3:1	NN	O	O
+.	NN	O	O
+Method	NN	O	O
+1	NN	O	O
+(	NN	O	O
+L	NN	O	O
+:	NN	O	O
+D	NN	O	O
+:	NN	O	O
+P	NN	O	O
+)	NN	O	O
+:	NN	O	O
+DNA	NN	O	B-Material
+was	NN	O	O
+first	NN	O	O
+added	NN	O	B-Process
+to	NN	O	O
+an	NN	O	B-Material
+anionic	NN	O	I-Material
+liposome	NN	O	I-Material
+(	NN	O	O
+LA	NN	O	B-Material
+,	NN	O	I-Material
+LAP1	NN	O	I-Material
+or	NN	O	I-Material
+LAP2	NN	O	I-Material
+)	NN	O	O
+and	NN	O	O
+incubated	NN	O	B-Process
+for	NN	O	O
+15min	NN	O	O
+at	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+and	NN	O	O
+then	NN	O	O
+the	NN	O	O
+peptide	NN	O	O
+was	NN	O	O
+added	NN	O	B-Process
+with	NN	O	O
+rapid	NN	O	O
+mixing	NN	O	O
+and	NN	O	O
+incubated	NN	O	B-Process
+at	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+for	NN	O	O
+a	NN	O	O
+further	NN	O	O
+20min	NN	O	O
+;	NN	O	O
+Method	NN	O	O
+2	NN	O	O
+(	NN	O	O
+P	NN	O	O
+:	NN	O	O
+D	NN	O	O
+:	NN	O	O
+L	NN	O	O
+)	NN	O	O
+:	NN	O	O
+the	NN	O	O
+peptide	NN	O	B-Material
+was	NN	O	O
+added	NN	O	B-Process
+to	NN	O	O
+the	NN	O	O
+DNA	NN	O	O
+and	NN	O	O
+incubated	NN	O	B-Process
+for	NN	O	O
+15min	NN	O	O
+at	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+and	NN	O	O
+then	NN	O	O
+liposome	NN	O	B-Material
+was	NN	O	O
+added	NN	O	B-Process
+with	NN	O	O
+rapid	NN	O	O
+mixing	NN	O	O
+and	NN	O	O
+incubated	NN	O	B-Process
+at	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+for	NN	O	O
+a	NN	O	O
+further	NN	O	O
+20min	NN	O	O
+.	NN	O	O
+Irrespective	NN	O	O
+of	NN	O	O
+the	NN	O	O
+method	NN	O	O
+of	NN	O	O
+order	NN	O	O
+of	NN	O	O
+mixing	NN	O	O
+,	NN	O	O
+all	NN	O	O
+molar	NN	O	O
+charge	NN	O	O
+ratios	NN	O	O
+in	NN	O	O
+this	NN	O	O
+study	NN	O	O
+refer	NN	O	O
+to	NN	O	O
+L	NN	O	O
+:	NN	O	O
+P	NN	O	O
+:	NN	O	O
+D.	NN	O	O
+Cationic	NN	O	O
+formulations	NN	O	O
+LPD	NN	O	B-Material
+and	NN	O	O
+LCPRGPD	NN	O	B-Material
+were	NN	O	O
+prepared	NN	O	O
+in	NN	O	O
+the	NN	O	O
+order	NN	O	O
+L	NN	O	O
+:	NN	O	O
+P	NN	O	O
+:	NN	O	O
+D	NN	O	O
+as	NN	O	O
+described	NN	O	O
+previously	NN	O	O
+;	NN	O	O
+first	NN	O	O
+,	NN	O	O
+the	NN	O	O
+peptide	NN	O	O
+was	NN	O	O
+added	NN	O	B-Process
+to	NN	O	O
+the	NN	O	O
+liposome	NN	O	O
+DOTMA	NN	O	B-Material
+/	NN	O	O
+DOPE	NN	O	B-Material
+or	NN	O	O
+LCPRG	NN	O	B-Material
+followed	NN	O	O
+by	NN	O	O
+addition	NN	O	O
+of	NN	O	O
+the	NN	O	O
+DNA	NN	O	B-Material
+with	NN	O	O
+rapid	NN	O	B-Process
+mixing	NN	O	I-Process
+and	NN	O	I-Process
+incubated	NN	O	I-Process
+for	NN	O	O
+30min	NN	O	O
+at	NN	O	O
+room	NN	O	O
+temperature	NN	O	O
+to	NN	O	O
+allow	NN	O	O
+for	NN	O	O
+complex	NN	O	O
+formation	NN	O	O
+[	NN	O	O
+30	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+nanocomplexes	NN	O	O
+prepared	NN	O	O
+were	NN	O	O
+termed	NN	O	O
+LPD	NN	O	B-Material
+(	NN	O	O
+liposome	NN	O	B-Material
+DOTMA	NN	O	I-Material
+/	NN	O	I-Material
+DOPE	NN	O	I-Material
+)	NN	O	O
+,	NN	O	O
+LADP	NN	O	B-Material
+and	NN	O	O
+PDLA	NN	O	B-Material
+(	NN	O	O
+liposome	NN	O	B-Material
+LA	NN	O	I-Material
+)	NN	O	O
+,	NN	O	O
+PDLAP1	NN	O	B-Material
+(	NN	O	O
+liposome	NN	O	B-Material
+LAP1	NN	O	I-Material
+)	NN	O	O
+,	NN	O	O
+PDLAP2	NN	O	B-Material
+(	NN	O	O
+liposome	NN	O	B-Material
+LAP2	NN	O	I-Material
+)	NN	O	O
+,	NN	O	O
+PDLAPRG	NN	O	B-Material
+(	NN	O	O
+liposome	NN	O	B-Material
+LAPRG	NN	O	I-Material
+)	NN	O	O
+and	NN	O	O
+LCPRGPD	NN	O	B-Material
+(	NN	O	O
+liposome	NN	O	B-Material
+LCPRG	NN	O	I-Material
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0168874X1630049X)
+
+The	NN	O	O
+crack	NN	O	B-Process
+band	NN	O	I-Process
+approach	NN	O	I-Process
+for	NN	O	O
+producing	NN	O	O
+mesh	NN	O	O
+independent	NN	O	O
+load	NN	O	O
+–	NN	O	O
+displacement	NN	O	O
+curves	NN	O	O
+for	NN	O	O
+fracture	NN	O	O
+in	NN	O	O
+plain	NN	O	O
+concrete	NN	O	O
+is	NN	O	O
+based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+idea	NN	O	O
+that	NN	O	O
+the	NN	O	O
+crack	NN	O	O
+opening	NN	O	O
+is	NN	O	O
+transformed	NN	O	O
+into	NN	O	O
+inelastic	NN	O	O
+strain	NN	O	O
+by	NN	O	O
+distributing	NN	O	O
+it	NN	O	O
+over	NN	O	O
+an	NN	O	O
+element	NN	O	O
+length	NN	O	O
+dependent	NN	O	O
+zone	NN	O	O
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+approach	NN	O	O
+will	NN	O	O
+only	NN	O	O
+produce	NN	O	O
+mesh	NN	O	O
+independent	NN	O	O
+load	NN	O	O
+–	NN	O	O
+displacement	NN	O	O
+curves	NN	O	O
+,	NN	O	O
+if	NN	O	O
+the	NN	O	O
+inelastic	NN	O	O
+strain	NN	O	O
+profiles	NN	O	O
+in	NN	O	O
+the	NN	O	O
+finite	NN	O	O
+element	NN	O	O
+analysis	NN	O	O
+are	NN	O	O
+mesh	NN	O	O
+size	NN	O	O
+dependent	NN	O	O
+.	NN	O	O
+This	NN	O	O
+requirement	NN	O	O
+is	NN	O	O
+an	NN	O	O
+important	NN	O	O
+difference	NN	O	O
+to	NN	O	O
+the	NN	O	O
+nonlocal	NN	O	O
+model	NN	O	O
+which	NN	O	O
+is	NN	O	O
+designed	NN	O	O
+to	NN	O	O
+produce	NN	O	O
+both	NN	O	O
+mesh	NN	O	O
+size	NN	O	O
+independent	NN	O	O
+load	NN	O	O
+–	NN	O	O
+displacement	NN	O	O
+curves	NN	O	O
+and	NN	O	O
+strain	NN	O	O
+profiles	NN	O	O
+.	NN	O	O
+In	NN	O	O
+CDPM2	NN	O	O
+,	NN	O	O
+the	NN	O	O
+crack	NN	O	B-Process
+band	NN	O	I-Process
+approach	NN	O	I-Process
+is	NN	O	O
+applied	NN	O	O
+only	NN	O	O
+to	NN	O	O
+the	NN	O	O
+tensile	NN	O	B-Material
+part	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+damage	NN	O	O
+algorithm	NN	O	O
+by	NN	O	O
+replacing	NN	O	O
+the	NN	O	O
+stress	NN	O	B-Process
+–	NN	O	I-Process
+inelastic	NN	O	I-Process
+strain	NN	O	I-Process
+law	NN	O	I-Process
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+2(b	NN	O	O
+)	NN	O	O
+by	NN	O	O
+a	NN	O	O
+stress	NN	O	B-Process
+–	NN	O	I-Process
+inelastic	NN	O	I-Process
+displacement	NN	O	I-Process
+law	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+form(13)σ=ftexp(−ϵinhwft)if(ϵin>0)Here	NN	O	B-Process
+,	NN	O	O
+wft	NN	O	O
+is	NN	O	O
+a	NN	O	O
+crack	NN	O	O
+opening	NN	O	O
+threshold	NN	O	O
+used	NN	O	O
+to	NN	O	O
+control	NN	O	O
+the	NN	O	O
+slope	NN	O	O
+of	NN	O	O
+the	NN	O	O
+softening	NN	O	O
+curve	NN	O	O
+and	NN	O	O
+h	NN	O	O
+is	NN	O	O
+the	NN	O	O
+width	NN	O	O
+of	NN	O	O
+the	NN	O	O
+crack	NN	O	O
+-	NN	O	O
+band	NN	O	O
+,	NN	O	O
+which	NN	O	O
+in	NN	O	O
+the	NN	O	O
+present	NN	O	O
+study	NN	O	O
+is	NN	O	O
+equal	NN	O	O
+to	NN	O	O
+the	NN	O	O
+maximum	NN	O	O
+dimension	NN	O	O
+of	NN	O	O
+the	NN	O	O
+element	NN	O	O
+along	NN	O	O
+the	NN	O	O
+principal	NN	O	O
+direction	NN	O	O
+of	NN	O	O
+the	NN	O	O
+strain	NN	O	O
+tensor	NN	O	O
+corresponding	NN	O	O
+to	NN	O	O
+the	NN	O	O
+maximum	NN	O	O
+tensile	NN	O	O
+principal	NN	O	O
+strain	NN	O	O
+at	NN	O	O
+the	NN	O	O
+onset	NN	O	O
+of	NN	O	O
+damage	NN	O	O
+.	NN	O	O
+For	NN	O	O
+the	NN	O	O
+compressive	NN	O	O
+part	NN	O	O
+,	NN	O	O
+a	NN	O	O
+stress	NN	O	B-Process
+–	NN	O	I-Process
+inelastic	NN	O	I-Process
+strain	NN	O	I-Process
+law	NN	O	I-Process
+was	NN	O	O
+used	NN	O	O
+to	NN	O	O
+determine	NN	O	O
+the	NN	O	O
+compressive	NN	O	O
+damage	NN	O	O
+parameter	NN	O	O
+,	NN	O	O
+since	NN	O	O
+it	NN	O	O
+was	NN	O	O
+reported	NN	O	O
+in	NN	O	O
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+for	NN	O	O
+columns	NN	O	O
+subjected	NN	O	O
+to	NN	O	O
+eccentric	NN	O	O
+compression	NN	O	O
+that	NN	O	O
+inelastic	NN	O	B-Material
+strain	NN	O	I-Material
+profiles	NN	O	I-Material
+in	NN	O	O
+compression	NN	O	O
+do	NN	O	O
+not	NN	O	O
+exhibit	NN	O	O
+a	NN	O	O
+mesh	NN	O	O
+dependence	NN	O	O
+which	NN	O	O
+would	NN	O	O
+satisfy	NN	O	O
+the	NN	O	O
+assumptions	NN	O	O
+of	NN	O	O
+the	NN	O	O
+crack	NN	O	O
+-	NN	O	O
+band	NN	O	O
+approach	NN	O	O
+.	NN	O	O
+This	NN	O	O
+approach	NN	O	O
+of	NN	O	O
+applying	NN	O	O
+the	NN	O	O
+crack	NN	O	B-Process
+-	NN	O	I-Process
+band	NN	O	I-Process
+approach	NN	O	I-Process
+only	NN	O	O
+to	NN	O	O
+the	NN	O	O
+tensile	NN	O	B-Material
+part	NN	O	I-Material
+has	NN	O	O
+already	NN	O	O
+been	NN	O	O
+successfully	NN	O	O
+used	NN	O	O
+in	NN	O	O
+Grassl	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0254058414000662)
+
+HOMO	NN	O	B-Material
+–	NN	O	I-Material
+LUMO	NN	O	I-Material
+energy	NN	O	O
+band	NN	O	O
+gaps	NN	O	O
+between	NN	O	O
+ylides	NN	O	B-Material
+and	NN	O	O
+their	NN	O	O
+pyrene	NN	O	B-Material
+adducts	NN	O	I-Material
+propose	NN	O	O
+that	NN	O	O
+the	NN	O	O
+1,3-DC	NN	O	B-Material
+of	NN	O	O
+second	NN	O	B-Material
+pyridinium	NN	O	I-Material
+ylides	NN	O	I-Material
+to	NN	O	O
+ylidepyrene	NN	O	B-Material
+adducts	NN	O	I-Material
+are	NN	O	O
+HOMOylide	NN	O	B-Material
+–	NN	O	I-Material
+LUMOylide	NN	O	I-Material
+–	NN	O	I-Material
+pyrene	NN	O	I-Material
+controlled	NN	O	O
+since	NN	O	O
+the	NN	O	O
+energy	NN	O	O
+band	NN	O	O
+gap	NN	O	O
+is	NN	O	O
+smaller	NN	O	O
+than	NN	O	O
+HOMOylide	NN	O	B-Material
+–	NN	O	I-Material
+pyrene	NN	O	I-Material
+–	NN	O	I-Material
+LUMOylide	NN	O	I-Material
+.	NN	O	O
+Regioselectivity	NN	O	B-Task
+of	NN	O	I-Task
+second	NN	O	I-Task
+cycloaddition	NN	O	I-Task
+was	NN	O	O
+predicted	NN	O	O
+using	NN	O	O
+the	NN	O	O
+atomic	NN	O	B-Process
+orbital	NN	O	I-Process
+coefficients	NN	O	I-Process
+corresponding	NN	O	O
+to	NN	O	O
+HOMOylide	NN	O	B-Material
+–	NN	O	I-Material
+LUMOylide	NN	O	I-Material
+–	NN	O	I-Material
+pyrene	NN	O	I-Material
+.	NN	O	O
+According	NN	O	O
+to	NN	O	O
+Fukui	NN	O	O
+[	NN	O	O
+33	NN	O	O
+]	NN	O	O
+,	NN	O	O
+reactions	NN	O	O
+can	NN	O	O
+be	NN	O	O
+favorable	NN	O	O
+in	NN	O	O
+the	NN	O	O
+direction	NN	O	O
+of	NN	O	O
+maximal	NN	O	B-Task
+HOMO	NN	O	I-Task
+–	NN	O	I-Task
+LUMO	NN	O	I-Task
+overlapping	NN	O	I-Task
+of	NN	O	O
+larger	NN	O	O
+coefficients	NN	O	O
+at	NN	O	O
+the	NN	O	O
+reactive	NN	O	O
+sites	NN	O	O
+.	NN	O	O
+The	NN	O	O
+most	NN	O	O
+favorable	NN	O	O
+interactions	NN	O	O
+between	NN	O	O
+corresponding	NN	O	O
+ylides	NN	O	B-Material
+and	NN	O	I-Material
+ylidepyrene	NN	O	I-Material
+adducts	NN	O	I-Material
+to	NN	O	O
+form	NN	O	O
+the	NN	O	O
+most	NN	O	B-Process
+favorable	NN	O	I-Process
+regioisomer	NN	O	I-Process
+conformation	NN	O	I-Process
+are	NN	O	O
+given	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3	NN	O	O
+.	NN	O	O
+Second	NN	O	O
+ylide	NN	O	B-Material
+addition	NN	O	O
+to	NN	O	O
+ylidepyrene	NN	O	B-Material
+structure	NN	O	O
+is	NN	O	O
+therefore	NN	O	O
+anticipated	NN	O	O
+to	NN	O	O
+proceed	NN	O	O
+via	NN	O	O
+ylideC2/C6–ylidepyrene	NN	O	B-Material
+-	NN	O	I-Material
+C3	NN	O	I-Material
+and	NN	O	O
+ylideC7–ylidepyrene	NN	O	B-Material
+/	NN	O	I-Material
+C2	NN	O	I-Material
+interactions	NN	O	O
+to	NN	O	O
+produce	NN	O	O
+the	NN	O	O
+same	NN	O	O
+regioisomer	NN	O	B-Task
+conformations	NN	O	I-Task
+.	NN	O	O
+Considering	NN	O	O
+the	NN	O	O
+theoretical	NN	O	B-Process
+calculations	NN	O	I-Process
+performed	NN	O	O
+for	NN	O	O
+pyrrolidine	NN	O	B-Material
+attached	NN	O	I-Material
+pyrene	NN	O	I-Material
+structure	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+also	NN	O	O
+expected	NN	O	O
+that	NN	O	O
+formation	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+same	NN	O	I-Process
+type	NN	O	I-Process
+of	NN	O	I-Process
+regioisomers	NN	O	I-Process
+are	NN	O	O
+favorable	NN	O	O
+for	NN	O	O
+SWNTs	NN	O	B-Process
+after	NN	O	O
+the	NN	O	O
+1,3-DC	NN	O	B-Material
+of	NN	O	I-Material
+pyridinium	NN	O	I-Material
+ylides	NN	O	I-Material
+,	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+3	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0254058415001212)
+
+Gamma	NN	O	B-Material
+titanium	NN	O	I-Material
+aluminides	NN	O	I-Material
+are	NN	O	O
+a	NN	O	O
+family	NN	O	O
+of	NN	O	O
+low	NN	O	O
+density	NN	O	O
+,	NN	O	O
+high	NN	O	O
+performance	NN	O	O
+alloys	NN	O	B-Material
+with	NN	O	O
+the	NN	O	O
+potential	NN	O	O
+to	NN	O	O
+replace	NN	O	O
+current	NN	O	O
+Ni	NN	O	B-Material
+-	NN	O	I-Material
+base	NN	O	I-Material
+superalloys	NN	O	I-Material
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+production	NN	O	B-Task
+of	NN	O	I-Task
+aero	NN	O	I-Task
+-	NN	O	I-Task
+engine	NN	O	I-Task
+components	NN	O	I-Task
+.	NN	O	O
+Investment	NN	O	B-Process
+casting	NN	O	I-Process
+is	NN	O	O
+one	NN	O	O
+of	NN	O	O
+the	NN	O	O
+most	NN	O	O
+economical	NN	O	O
+methods	NN	O	O
+to	NN	O	O
+produce	NN	O	B-Task
+titanium	NN	O	I-Task
+and	NN	O	I-Task
+titanium	NN	O	I-Task
+aluminide	NN	O	I-Task
+alloy	NN	O	I-Task
+products	NN	O	I-Task
+,	NN	O	O
+increasing	NN	O	O
+the	NN	O	B-Material
+components	NN	O	I-Material
+'	NN	O	O
+integrity	NN	O	O
+and	NN	O	O
+mechanical	NN	O	O
+properties	NN	O	O
+,	NN	O	O
+whilst	NN	O	O
+reducing	NN	O	O
+material	NN	O	O
+waste	NN	O	O
+and	NN	O	O
+machining	NN	O	O
+cost	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Titanium	NN	O	B-Material
+aluminides	NN	O	I-Material
+are	NN	O	O
+difficult	NN	O	O
+to	NN	O	O
+process	NN	O	O
+mainly	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+low	NN	O	O
+fluidity	NN	O	O
+of	NN	O	O
+the	NN	O	O
+TiAl	NN	O	B-Material
+alloy	NN	O	I-Material
+around	NN	O	O
+its	NN	O	O
+melting	NN	O	O
+temperature	NN	O	O
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+high	NN	O	O
+affinity	NN	O	O
+of	NN	O	O
+elements	NN	O	B-Material
+such	NN	O	O
+as	NN	O	O
+oxygen	NN	O	B-Material
+,	NN	O	O
+nitrogen	NN	O	B-Material
+etc	NN	O	O
+.	NN	O	O
+,	NN	O	O
+titanium	NN	O	B-Material
+and	NN	O	O
+its	NN	O	O
+alloys	NN	O	B-Material
+can	NN	O	O
+easily	NN	O	O
+interact	NN	O	O
+with	NN	O	O
+mould	NN	O	B-Material
+materials	NN	O	I-Material
+during	NN	O	O
+the	NN	O	O
+investment	NN	O	O
+casting	NN	O	B-Process
+process	NN	O	I-Process
+,	NN	O	O
+resulting	NN	O	O
+in	NN	O	O
+an	NN	O	O
+interaction	NN	O	B-Material
+hardened	NN	O	I-Material
+layer	NN	O	I-Material
+being	NN	O	O
+generated	NN	O	O
+at	NN	O	O
+the	NN	O	O
+metal	NN	O	B-Material
+surface	NN	O	I-Material
+[	NN	O	O
+3,4	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+hardened	NN	O	B-Material
+layer	NN	O	I-Material
+contains	NN	O	O
+a	NN	O	O
+large	NN	O	O
+amount	NN	O	O
+of	NN	O	O
+dissolved	NN	O	B-Material
+oxygen	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+it	NN	O	O
+is	NN	O	O
+very	NN	O	O
+brittle	NN	O	O
+and	NN	O	O
+susceptible	NN	O	O
+to	NN	O	O
+crack	NN	O	B-Process
+generation	NN	O	I-Process
+and	NN	O	I-Process
+propagation	NN	O	I-Process
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S025405841530136X)
+
+From	NN	O	O
+this	NN	O	O
+study	NN	O	O
+where	NN	O	O
+a	NN	O	O
+commercial	NN	O	O
+Al–12Si	NN	O	B-Material
+alloy	NN	O	I-Material
+was	NN	O	O
+inoculated	NN	O	B-Process
+with	NN	O	I-Process
+different	NN	O	I-Process
+level	NN	O	I-Process
+of	NN	O	I-Process
+Nb+B	NN	O	I-Process
+addition	NN	O	O
+to	NN	O	O
+assess	NN	O	O
+the	NN	O	O
+grain	NN	O	B-Task
+refining	NN	O	I-Task
+potency	NN	O	I-Task
+of	NN	O	I-Task
+Nb+B	NN	O	I-Task
+inoculation	NN	O	I-Task
+it	NN	O	O
+can	NN	O	O
+be	NN	O	O
+concluded	NN	O	O
+that	NN	O	O
+in	NN	O	O
+-	NN	O	O
+situ	NN	O	O
+formed	NN	O	O
+Nb	NN	O	B-Material
+-	NN	O	I-Material
+based	NN	O	I-Material
+intermetallics	NN	O	I-Material
+compounds	NN	O	I-Material
+are	NN	O	O
+potent	NN	O	O
+heterogeneous	NN	O	B-Material
+nucleation	NN	O	I-Material
+substrates	NN	O	I-Material
+with	NN	O	O
+high	NN	O	O
+potency	NN	O	O
+for	NN	O	O
+the	NN	O	O
+refinement	NN	O	B-Process
+of	NN	O	I-Process
+Al	NN	O	I-Process
+–	NN	O	I-Process
+Si	NN	O	I-Process
+cast	NN	O	I-Process
+alloys	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+primary	NN	O	O
+α-Al	NN	O	B-Material
+dendritic	NN	O	I-Material
+grain	NN	O	I-Material
+size	NN	O	O
+varies	NN	O	O
+with	NN	O	O
+the	NN	O	O
+addition	NN	O	O
+level	NN	O	O
+of	NN	O	O
+Nb	NN	O	B-Material
+and	NN	O	O
+B.	NN	O	B-Material
+Moreover	NN	O	O
+,	NN	O	O
+significant	NN	O	O
+grain	NN	O	B-Task
+refinement	NN	O	I-Task
+over	NN	O	O
+a	NN	O	O
+wide	NN	O	B-Process
+range	NN	O	I-Process
+of	NN	O	I-Process
+cooling	NN	O	I-Process
+rates	NN	O	I-Process
+is	NN	O	O
+obtained	NN	O	O
+via	NN	O	O
+enhanced	NN	O	B-Task
+heterogeneous	NN	O	I-Task
+nucleation	NN	O	I-Task
+making	NN	O	O
+the	NN	O	O
+grain	NN	O	B-Material
+size	NN	O	O
+of	NN	O	O
+the	NN	O	O
+material	NN	O	O
+less	NN	O	O
+sensitive	NN	O	O
+to	NN	O	O
+the	NN	O	O
+cooling	NN	O	O
+rate	NN	O	O
+.	NN	O	O
+Nb+B	NN	O	B-Material
+inoculants	NN	O	I-Material
+are	NN	O	O
+characterised	NN	O	O
+by	NN	O	O
+some	NN	O	O
+fading	NN	O	B-Process
+which	NN	O	O
+is	NN	O	O
+still	NN	O	O
+acceptable	NN	O	O
+after	NN	O	O
+4	NN	O	O
+h	NN	O	O
+of	NN	O	O
+contact	NN	O	O
+time	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+alloys	NN	O	B-Material
+refined	NN	O	O
+by	NN	O	O
+means	NN	O	O
+of	NN	O	O
+Nb+B	NN	O	B-Material
+inoculants	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+recycled	NN	O	O
+obtaining	NN	O	O
+a	NN	O	O
+fine	NN	O	B-Material
+grain	NN	O	I-Material
+structure	NN	O	I-Material
+with	NN	O	O
+small	NN	O	O
+addition	NN	O	O
+or	NN	O	O
+no	NN	O	O
+further	NN	O	O
+addition	NN	O	O
+of	NN	O	O
+inoculants	NN	O	B-Material
+after	NN	O	O
+the	NN	O	O
+first	NN	O	O
+initial	NN	O	O
+addition	NN	O	O
+.	NN	O	O
+Concluding	NN	O	O
+,	NN	O	O
+Nb+B	NN	O	B-Process
+inoculation	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+promising	NN	O	O
+candidate	NN	O	O
+for	NN	O	O
+the	NN	O	O
+refinement	NN	O	B-Task
+of	NN	O	I-Task
+cast	NN	O	I-Task
+Al	NN	O	I-Task
+alloy	NN	O	I-Task
+which	NN	O	O
+could	NN	O	O
+lead	NN	O	O
+to	NN	O	O
+their	NN	O	O
+wider	NN	O	O
+employment	NN	O	O
+in	NN	O	O
+the	NN	O	O
+automotive	NN	O	O
+industry	NN	O	O
+with	NN	O	O
+the	NN	O	O
+resultant	NN	O	O
+intrinsic	NN	O	O
+advantages	NN	O	O
+of	NN	O	O
+lighter	NN	O	B-Task
+structural	NN	O	I-Task
+component	NN	O	I-Task
+from	NN	O	O
+an	NN	O	O
+environmental	NN	O	O
+point	NN	O	O
+of	NN	O	O
+view	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0254058415304235)
+
+The	NN	O	O
+observed	NN	O	B-Task
+conductivity	NN	O	I-Task
+of	NN	O	O
+A2FeMoO6–δ	NN	O	B-Material
+(	NN	O	O
+A	NN	O	O
+=	NN	O	O
+Ca	NN	O	B-Material
+,	NN	O	O
+Sr	NN	O	B-Material
+,	NN	O	O
+Ba	NN	O	B-Material
+)	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+was	NN	O	O
+linked	NN	O	O
+to	NN	O	O
+a	NN	O	O
+potential	NN	O	O
+double	NN	O	B-Process
+exchange	NN	O	I-Process
+mechanism	NN	O	I-Process
+,	NN	O	O
+with	NN	O	O
+conduction	NN	O	O
+between	NN	O	O
+Fe3	NN	O	B-Material
++	NN	O	I-Material
+-O	NN	O	I-Material
+-	NN	O	I-Material
+Mo	NN	O	I-Material
+-	NN	O	I-Material
+O	NN	O	I-Material
+-	NN	O	I-Material
+Fe2	NN	O	I-Material
++	NN	O	I-Material
+.	NN	O	O
+Double	NN	O	B-Process
+-	NN	O	I-Process
+exchange	NN	O	I-Process
+mechanisms	NN	O	I-Process
+,	NN	O	O
+as	NN	O	O
+proposed	NN	O	O
+by	NN	O	O
+Zener	NN	O	O
+[	NN	O	O
+23	NN	O	O
+]	NN	O	O
+,	NN	O	O
+posit	NN	O	O
+that	NN	O	O
+electron	NN	O	B-Process
+transfer	NN	O	I-Process
+between	NN	O	O
+ions	NN	O	B-Material
+in	NN	O	O
+different	NN	O	O
+oxidation	NN	O	B-Process
+states	NN	O	O
+may	NN	O	O
+be	NN	O	O
+facilitated	NN	O	O
+if	NN	O	O
+the	NN	O	O
+electron	NN	O	B-Material
+does	NN	O	O
+not	NN	O	O
+have	NN	O	O
+to	NN	O	O
+alter	NN	O	O
+its	NN	O	O
+spin	NN	O	O
+state	NN	O	O
+.	NN	O	O
+Replacement	NN	O	B-Process
+of	NN	O	O
+Mo	NN	O	B-Material
+with	NN	O	O
+Fe	NN	O	B-Material
+in	NN	O	O
+this	NN	O	O
+mechanism	NN	O	O
+would	NN	O	O
+be	NN	O	O
+expected	NN	O	O
+to	NN	O	O
+result	NN	O	O
+in	NN	O	O
+a	NN	O	O
+reduction	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+conductivity	NN	O	I-Process
+through	NN	O	O
+reduction	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+available	NN	O	I-Process
+percolation	NN	O	I-Process
+pathways	NN	O	I-Process
+,	NN	O	O
+unless	NN	O	O
+delocalisation	NN	O	B-Process
+of	NN	O	I-Process
+Fe	NN	O	I-Process
+electrons	NN	O	I-Process
+through	NN	O	O
+Fe2	NN	O	B-Process
++	NN	O	I-Process
+-O	NN	O	I-Process
+-	NN	O	I-Process
+Fe3	NN	O	I-Process
++	NN	O	I-Process
+exchange	NN	O	I-Process
+could	NN	O	O
+also	NN	O	O
+occur	NN	O	O
+.	NN	O	O
+Double	NN	O	B-Process
+exchange	NN	O	I-Process
+mechanisms	NN	O	I-Process
+have	NN	O	O
+been	NN	O	O
+observed	NN	O	O
+previously	NN	O	O
+for	NN	O	O
+mixed	NN	O	O
+valent	NN	O	O
+iron	NN	O	B-Material
+in	NN	O	I-Material
+iron	NN	O	I-Material
+oxides	NN	O	I-Material
+[	NN	O	O
+24	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+,	NN	O	O
+as	NN	O	O
+iron	NN	O	B-Material
+is	NN	O	O
+known	NN	O	O
+to	NN	O	O
+exist	NN	O	O
+in	NN	O	O
+a	NN	O	O
+mixed	NN	O	O
+valent	NN	O	O
+state	NN	O	O
+for	NN	O	O
+Ca2–xSrxFeMoO6–δ	NN	O	B-Material
+[	NN	O	O
+25	NN	O	O
+]	NN	O	O
+,	NN	O	O
+this	NN	O	O
+provides	NN	O	O
+a	NN	O	O
+plausible	NN	O	O
+explanation	NN	O	O
+for	NN	O	O
+the	NN	O	O
+observed	NN	O	O
+metallic	NN	O	B-Task
+conductivity	NN	O	I-Task
+.	NN	O	O
+Band	NN	O	B-Process
+structure	NN	O	I-Process
+calculations	NN	O	I-Process
+and	NN	O	O
+Mossbauer	NN	O	B-Process
+spectroscopy	NN	O	I-Process
+could	NN	O	O
+be	NN	O	O
+utilised	NN	O	O
+to	NN	O	O
+further	NN	O	O
+elucidate	NN	O	O
+the	NN	O	O
+conduction	NN	O	B-Task
+mechanism	NN	O	I-Task
+for	NN	O	O
+these	NN	O	O
+compounds	NN	O	B-Material
+,	NN	O	O
+however	NN	O	O
+this	NN	O	O
+is	NN	O	O
+outside	NN	O	O
+the	NN	O	O
+scope	NN	O	O
+of	NN	O	O
+this	NN	O	O
+enquiry	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0266352X16301550)
+
+To	NN	O	O
+address	NN	O	O
+the	NN	O	O
+vertical	NN	O	B-Task
+displacement	NN	O	I-Task
+estimation	NN	O	I-Task
+of	NN	O	I-Task
+conventional	NN	O	I-Task
+pile	NN	O	I-Task
+groups	NN	O	I-Task
+subjected	NN	O	I-Task
+to	NN	O	I-Task
+mechanical	NN	O	I-Task
+loads	NN	O	I-Task
+,	NN	O	O
+various	NN	O	O
+numerical	NN	O	B-Process
+and	NN	O	I-Process
+analytical	NN	O	I-Process
+methods	NN	O	I-Process
+have	NN	O	O
+been	NN	O	O
+proposed	NN	O	O
+.	NN	O	O
+These	NN	O	O
+methods	NN	O	O
+include	NN	O	O
+the	NN	O	O
+finite	NN	O	B-Process
+element	NN	O	I-Process
+method	NN	O	I-Process
+[	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+2,3	NN	O	O
+]	NN	O	O
+,	NN	O	O
+the	NN	O	O
+boundary	NN	O	B-Process
+element	NN	O	I-Process
+method	NN	O	I-Process
+[	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+4,5	NN	O	O
+]	NN	O	O
+,	NN	O	O
+the	NN	O	O
+finite	NN	O	B-Process
+difference	NN	O	I-Process
+method	NN	O	I-Process
+[	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+6	NN	O	O
+]	NN	O	O
+,	NN	O	O
+the	NN	O	O
+interaction	NN	O	B-Process
+factor	NN	O	I-Process
+method	NN	O	I-Process
+[	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+7,8–11	NN	O	O
+]	NN	O	O
+,	NN	O	O
+the	NN	O	O
+equivalent	NN	O	B-Process
+pier	NN	O	I-Process
+and	NN	O	I-Process
+raft	NN	O	I-Process
+methods	NN	O	I-Process
+[	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+12–14	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+settlement	NN	O	B-Process
+ratio	NN	O	I-Process
+method	NN	O	I-Process
+[	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+15	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+finite	NN	O	B-Process
+element	NN	O	I-Process
+method	NN	O	I-Process
+,	NN	O	O
+while	NN	O	O
+providing	NN	O	O
+the	NN	O	O
+most	NN	O	O
+rigorous	NN	O	O
+and	NN	O	O
+exhaustive	NN	O	O
+representation	NN	O	O
+of	NN	O	O
+the	NN	O	O
+pile	NN	O	B-Task
+group	NN	O	I-Task
+-	NN	O	I-Task
+related	NN	O	I-Task
+problem	NN	O	I-Task
+,	NN	O	O
+is	NN	O	O
+generally	NN	O	O
+computationally	NN	O	O
+expensive	NN	O	O
+and	NN	O	O
+considered	NN	O	O
+mainly	NN	O	O
+a	NN	O	O
+research	NN	O	B-Material
+tool	NN	O	I-Material
+rather	NN	O	O
+than	NN	O	O
+a	NN	O	O
+design	NN	O	B-Material
+tool	NN	O	I-Material
+.	NN	O	O
+Conversely	NN	O	O
+,	NN	O	O
+the	NN	O	O
+versatility	NN	O	B-Process
+of	NN	O	I-Process
+simplified	NN	O	I-Process
+(	NN	O	I-Process
+approximate	NN	O	I-Process
+)	NN	O	I-Process
+methods	NN	O	I-Process
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+the	NN	O	O
+interaction	NN	O	B-Process
+factor	NN	O	I-Process
+approach	NN	O	I-Process
+that	NN	O	O
+allows	NN	O	O
+capturing	NN	O	B-Process
+the	NN	O	I-Process
+(	NN	O	I-Process
+e.g.	NN	O	I-Process
+,	NN	O	I-Process
+vertical	NN	O	I-Process
+)	NN	O	I-Process
+displacements	NN	O	I-Process
+of	NN	O	I-Process
+any	NN	O	I-Process
+general	NN	O	I-Process
+pile	NN	O	I-Process
+group	NN	O	I-Process
+by	NN	O	O
+the	NN	O	O
+analysis	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+displacement	NN	O	I-Process
+interaction	NN	O	I-Process
+between	NN	O	I-Process
+two	NN	O	I-Process
+identical	NN	O	I-Process
+piles	NN	O	I-Process
+and	NN	O	O
+by	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+the	NN	O	O
+elastic	NN	O	B-Process
+principle	NN	O	I-Process
+of	NN	O	I-Process
+superposition	NN	O	I-Process
+of	NN	O	I-Process
+effects	NN	O	I-Process
+,	NN	O	O
+makes	NN	O	O
+them	NN	O	O
+attractive	NN	O	O
+as	NN	O	O
+design	NN	O	B-Material
+tools	NN	O	I-Material
+because	NN	O	O
+they	NN	O	O
+allow	NN	O	O
+for	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+expedient	NN	O	B-Task
+parametric	NN	O	I-Task
+studies	NN	O	I-Task
+under	NN	O	O
+various	NN	O	O
+design	NN	O	O
+conditions	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0301010414003115)
+
+The	NN	O	O
+optimised	NN	O	B-Task
+structure	NN	O	I-Task
+at	NN	O	O
+the	NN	O	O
+B3LYP	NN	O	B-Process
+/	NN	O	I-Process
+aug	NN	O	I-Process
+-	NN	O	I-Process
+cc	NN	O	I-Process
+-	NN	O	I-Process
+pVTZ	NN	O	I-Process
+level	NN	O	O
+was	NN	O	O
+then	NN	O	O
+used	NN	O	O
+to	NN	O	O
+perform	NN	O	O
+calculations	NN	O	O
+of	NN	O	O
+the	NN	O	O
+lowest	NN	O	B-Process
+electronic	NN	O	I-Process
+singlet	NN	O	I-Process
+excited	NN	O	O
+states	NN	O	O
+with	NN	O	O
+the	NN	O	O
+coupled	NN	O	O
+cluster	NN	O	O
+linear	NN	O	B-Process
+response	NN	O	I-Process
+(	NN	O	O
+LR	NN	O	B-Process
+)	NN	O	O
+coupled	NN	O	B-Process
+cluster	NN	O	I-Process
+hierarchy	NN	O	I-Process
+CCS	NN	O	B-Process
+,	NN	O	O
+CC2	NN	O	B-Process
+,	NN	O	O
+CCSD	NN	O	B-Process
+and	NN	O	O
+CC3	NN	O	B-Process
+,	NN	O	O
+along	NN	O	O
+with	NN	O	O
+perturbative	NN	O	B-Process
+corrected	NN	O	I-Process
+methods	NN	O	I-Process
+CIS(D	NN	O	B-Process
+)	NN	O	I-Process
+and	NN	O	O
+CCSDR(3	NN	O	B-Process
+)	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+correlated	NN	O	B-Process
+response	NN	O	I-Process
+methods	NN	O	I-Process
+were	NN	O	O
+performed	NN	O	O
+with	NN	O	O
+an	NN	O	O
+all	NN	O	O
+-	NN	O	O
+electron	NN	O	O
+atomic	NN	O	B-Process
+natural	NN	O	I-Process
+orbital	NN	O	I-Process
+(	NN	O	O
+ANO	NN	O	B-Process
+)	NN	O	O
+basis	NN	O	O
+set	NN	O	O
+contracted	NN	O	O
+to	NN	O	O
+6s5p4d3f1	NN	O	B-Process
+g	NN	O	I-Process
+on	NN	O	O
+manganese	NN	O	B-Material
+,	NN	O	O
+[	NN	O	O
+47	NN	O	O
+]	NN	O	O
+together	NN	O	O
+with	NN	O	O
+the	NN	O	O
+cc	NN	O	B-Process
+-	NN	O	I-Process
+pVTZ	NN	O	I-Process
+basis	NN	O	O
+set	NN	O	O
+on	NN	O	O
+the	NN	O	O
+oxygen	NN	O	B-Material
+atoms	NN	O	O
+.	NN	O	O
+The	NN	O	O
+all	NN	O	B-Process
+-	NN	O	I-Process
+electron	NN	O	I-Process
+correlated	NN	O	I-Process
+calculations	NN	O	I-Process
+invoked	NN	O	O
+a	NN	O	O
+13	NN	O	O
+orbital	NN	O	O
+frozen	NN	O	O
+core	NN	O	O
+(	NN	O	O
+O	NN	O	B-Material
+1s	NN	O	O
+,	NN	O	O
+Mn	NN	O	B-Material
+1s2s2p3s3p	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Trial	NN	O	O
+calculations	NN	O	O
+correlating	NN	O	O
+these	NN	O	O
+orbitals	NN	O	O
+only	NN	O	O
+had	NN	O	O
+a	NN	O	O
+minor	NN	O	O
+effect	NN	O	O
+on	NN	O	O
+excitation	NN	O	B-Task
+energies	NN	O	I-Task
+.	NN	O	O
+For	NN	O	O
+comparison	NN	O	O
+the	NN	O	O
+EOM	NN	O	B-Process
+-	NN	O	I-Process
+CCSD	NN	O	I-Process
+method	NN	O	I-Process
+with	NN	O	O
+the	NN	O	O
+cc	NN	O	B-Process
+-	NN	O	I-Process
+pVTZ	NN	O	I-Process
+basis	NN	O	O
+on	NN	O	O
+all	NN	O	O
+atoms	NN	O	O
+was	NN	O	O
+tested	NN	O	O
+to	NN	O	O
+compare	NN	O	O
+with	NN	O	O
+LR	NN	O	B-Process
+-	NN	O	I-Process
+CCSD	NN	O	I-Process
+.	NN	O	O
+These	NN	O	O
+formally	NN	O	O
+give	NN	O	O
+exactly	NN	O	O
+the	NN	O	O
+same	NN	O	O
+excitation	NN	O	B-Task
+energies	NN	O	I-Task
+,	NN	O	O
+although	NN	O	O
+the	NN	O	O
+transition	NN	O	B-Task
+moments	NN	O	I-Task
+are	NN	O	O
+more	NN	O	O
+accurate	NN	O	O
+for	NN	O	O
+LR	NN	O	B-Process
+-	NN	O	I-Process
+CCSD	NN	O	I-Process
+.	NN	O	O
+Abelian	NN	O	B-Process
+symmetry	NN	O	I-Process
+(	NN	O	O
+D2	NN	O	B-Process
+)	NN	O	O
+was	NN	O	O
+used	NN	O	O
+in	NN	O	O
+all	NN	O	O
+correlated	NN	O	O
+excited	NN	O	B-Process
+state	NN	O	I-Process
+calculations	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0301010414003516)
+
+Arrays	NN	O	O
+of	NN	O	O
+TFTs	NN	O	B-Material
+and	NN	O	O
+circuits	NN	O	B-Material
+were	NN	O	O
+fabricated	NN	O	O
+on	NN	O	O
+precleaned	NN	O	O
+,	NN	O	O
+5cm×5	NN	O	O
+cm	NN	O	O
+,	NN	O	O
+125μm	NN	O	O
+thick	NN	O	O
+polyethylene	NN	O	B-Material
+naphthalate	NN	O	I-Material
+(	NN	O	I-Material
+PEN	NN	O	I-Material
+)	NN	O	I-Material
+substrates	NN	O	I-Material
+(	NN	O	O
+Dupont	NN	O	O
+-	NN	O	O
+Teijin	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Full	NN	O	O
+details	NN	O	O
+of	NN	O	O
+our	NN	O	O
+vacuum	NN	O	B-Process
+-	NN	O	I-Process
+fabrication	NN	O	I-Process
+procedures	NN	O	I-Process
+have	NN	O	O
+been	NN	O	O
+given	NN	O	O
+in	NN	O	O
+previous	NN	O	O
+publications	NN	O	O
+[	NN	O	O
+17–19,23	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Briefly	NN	O	O
+,	NN	O	O
+aluminium	NN	O	B-Material
+gate	NN	O	I-Material
+electrodes	NN	O	I-Material
+and	NN	O	O
+associated	NN	O	O
+tracks	NN	O	B-Material
+were	NN	O	O
+vacuum	NN	O	B-Process
+evaporated	NN	O	I-Process
+onto	NN	O	O
+the	NN	O	O
+substrates	NN	O	B-Material
+through	NN	O	O
+shadow	NN	O	B-Material
+masks	NN	O	I-Material
+.	NN	O	O
+Subsequently	NN	O	O
+,	NN	O	O
+the	NN	O	O
+substrates	NN	O	B-Material
+were	NN	O	O
+attached	NN	O	O
+to	NN	O	O
+a	NN	O	O
+cooled	NN	O	O
+web	NN	O	B-Material
+-	NN	O	I-Material
+coater	NN	O	I-Material
+drum	NN	O	I-Material
+(	NN	O	O
+Aerre	NN	O	O
+Machines	NN	O	O
+)	NN	O	O
+.	NN	O	O
+With	NN	O	O
+the	NN	O	O
+drum	NN	O	B-Material
+rotating	NN	O	O
+at	NN	O	O
+a	NN	O	O
+linear	NN	O	O
+speed	NN	O	O
+of	NN	O	O
+25m	NN	O	O
+/	NN	O	O
+min	NN	O	O
+under	NN	O	O
+vacuum	NN	O	O
+,	NN	O	O
+flash	NN	O	B-Material
+-	NN	O	I-Material
+evaporated	NN	O	I-Material
+TPGDA	NN	O	I-Material
+monomer	NN	O	I-Material
+vapour	NN	O	I-Material
+which	NN	O	O
+condensed	NN	O	O
+onto	NN	O	O
+the	NN	O	O
+substrates	NN	O	B-Material
+was	NN	O	O
+cross	NN	O	B-Process
+-	NN	O	I-Process
+linked	NN	O	I-Process
+by	NN	O	O
+exposure	NN	O	B-Process
+,	NN	O	O
+in	NN	O	O
+situ	NN	O	O
+,	NN	O	O
+to	NN	O	O
+a	NN	O	O
+plasma	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+resulting	NN	O	O
+smooth	NN	O	O
+,	NN	O	O
+pinhole	NN	O	O
+-	NN	O	O
+free	NN	O	O
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+typically	NN	O	O
+500	NN	O	O
+nm	NN	O	O
+to	NN	O	O
+1μm	NN	O	O
+thick	NN	O	O
+with	NN	O	O
+a	NN	O	O
+measured	NN	O	O
+dielectric	NN	O	O
+constant	NN	O	O
+varying	NN	O	O
+in	NN	O	O
+the	NN	O	O
+range	NN	O	O
+4–5	NN	O	O
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+For	NN	O	O
+circuit	NN	O	B-Task
+fabrication	NN	O	I-Task
+,	NN	O	O
+the	NN	O	O
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+patterned	NN	O	O
+using	NN	O	O
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+to	NN	O	O
+define	NN	O	O
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+areas	NN	O	O
+separated	NN	O	O
+by	NN	O	O
+1	NN	O	O
+mm	NN	O	O
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+to	NN	O	O
+act	NN	O	O
+as	NN	O	O
+vias	NN	O	O
+for	NN	O	O
+inter	NN	O	B-Process
+-	NN	O	I-Process
+layer	NN	O	I-Process
+metallic	NN	O	I-Process
+connections	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+substrates	NN	O	B-Material
+were	NN	O	O
+then	NN	O	O
+transferred	NN	O	O
+into	NN	O	O
+an	NN	O	O
+evaporator	NN	O	B-Material
+(	NN	O	O
+Minispectros	NN	O	O
+,	NN	O	O
+Kurt	NN	O	O
+Lesker	NN	O	O
+)	NN	O	O
+integrated	NN	O	O
+into	NN	O	O
+a	NN	O	O
+nitrogen	NN	O	B-Material
+glovebox	NN	O	I-Material
+for	NN	O	O
+the	NN	O	O
+vacuum	NN	O	B-Process
+-	NN	O	I-Process
+deposition	NN	O	I-Process
+(	NN	O	O
+2.4nm	NN	O	O
+/	NN	O	O
+min	NN	O	O
+)	NN	O	O
+of	NN	O	O
+DNTT	NN	O	O
+onto	NN	O	O
+the	NN	O	O
+insulator	NN	O	B-Material
+.	NN	O	O
+Without	NN	O	O
+exposing	NN	O	O
+the	NN	O	O
+substrates	NN	O	B-Material
+to	NN	O	O
+ambient	NN	O	B-Material
+air	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+gold	NN	O	B-Material
+source	NN	O	I-Material
+/	NN	O	I-Material
+drain	NN	O	I-Material
+metallisation	NN	O	I-Material
+layer	NN	O	I-Material
+was	NN	O	O
+deposited	NN	O	O
+through	NN	O	O
+a	NN	O	O
+shadow	NN	O	B-Material
+mask	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+same	NN	O	O
+evaporator	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S0301010415002256)
+
+For	NN	O	O
+decades	NN	O	O
+,	NN	O	O
+vibronic	NN	O	B-Process
+coupling	NN	O	I-Process
+models	NN	O	I-Process
+[	NN	O	O
+1–4	NN	O	O
+]	NN	O	O
+have	NN	O	O
+served	NN	O	O
+as	NN	O	O
+bridges	NN	O	O
+connecting	NN	O	O
+nuclear	NN	O	B-Task
+dynamics	NN	O	I-Task
+studies	NN	O	I-Task
+with	NN	O	O
+the	NN	O	O
+static	NN	O	O
+studies	NN	O	O
+of	NN	O	O
+electronic	NN	O	B-Task
+structure	NN	O	I-Task
+calculations	NN	O	I-Task
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+vibronic	NN	O	B-Process
+coupling	NN	O	I-Process
+model	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+simple	NN	O	O
+polynomial	NN	O	B-Task
+expansion	NN	O	I-Task
+of	NN	O	O
+diabatic	NN	O	B-Task
+potential	NN	O	I-Task
+energy	NN	O	I-Task
+surfaces	NN	O	I-Task
+and	NN	O	I-Task
+couplings	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+expansion	NN	O	B-Process
+coefficients	NN	O	I-Process
+are	NN	O	O
+chosen	NN	O	O
+so	NN	O	O
+that	NN	O	O
+the	NN	O	O
+eigenvalues	NN	O	O
+of	NN	O	O
+the	NN	O	O
+potential	NN	O	O
+operator	NN	O	O
+map	NN	O	O
+on	NN	O	O
+to	NN	O	O
+the	NN	O	O
+adiabatic	NN	O	O
+potential	NN	O	O
+surfaces	NN	O	O
+.	NN	O	O
+This	NN	O	O
+diabatisation	NN	O	B-Process
+by	NN	O	O
+ansatz	NN	O	O
+circumvents	NN	O	O
+many	NN	O	O
+of	NN	O	O
+the	NN	O	O
+problems	NN	O	O
+of	NN	O	O
+describing	NN	O	O
+non	NN	O	B-Task
+-	NN	O	I-Task
+adiabatic	NN	O	I-Task
+systems	NN	O	I-Task
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+also	NN	O	O
+the	NN	O	O
+inspiration	NN	O	O
+for	NN	O	O
+a	NN	O	O
+diabatisation	NN	O	B-Process
+scheme	NN	O	I-Process
+that	NN	O	O
+is	NN	O	O
+used	NN	O	O
+in	NN	O	O
+modern	NN	O	O
+,	NN	O	O
+direct	NN	O	B-Process
+-	NN	O	I-Process
+dynamic	NN	O	I-Process
+methods	NN	O	I-Process
+that	NN	O	O
+include	NN	O	O
+non	NN	O	O
+-	NN	O	O
+adiabatic	NN	O	O
+effects	NN	O	O
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+For	NN	O	O
+a	NN	O	O
+model	NN	O	B-Process
+Hamiltonian	NN	O	I-Process
+to	NN	O	O
+correctly	NN	O	O
+approximate	NN	O	O
+the	NN	O	O
+eigenvectors	NN	O	O
+of	NN	O	O
+the	NN	O	O
+true	NN	O	B-Process
+Hamiltonian	NN	O	I-Process
+it	NN	O	O
+has	NN	O	O
+to	NN	O	O
+span	NN	O	O
+the	NN	O	O
+totally	NN	O	O
+symmetric	NN	O	O
+irreducible	NN	O	B-Process
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+(	NN	O	O
+IrRep	NN	O	B-Process
+)	NN	O	O
+of	NN	O	O
+the	NN	O	O
+point	NN	O	O
+groups	NN	O	O
+the	NN	O	O
+molecule	NN	O	O
+belongs	NN	O	O
+to	NN	O	O
+,	NN	O	O
+at	NN	O	O
+the	NN	O	O
+appropriate	NN	O	O
+symmetric	NN	O	B-Process
+geometries	NN	O	I-Process
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+recent	NN	O	O
+times	NN	O	O
+,	NN	O	O
+many	NN	O	O
+articles	NN	O	O
+have	NN	O	O
+demonstrated	NN	O	O
+the	NN	O	O
+advantages	NN	O	O
+of	NN	O	O
+using	NN	O	O
+symmetry	NN	O	O
+when	NN	O	O
+constructing	NN	O	O
+analytic	NN	O	B-Process
+model	NN	O	I-Process
+potentials	NN	O	I-Process
+[	NN	O	O
+8–12	NN	O	O
+]	NN	O	O
+,	NN	O	O
+most	NN	O	O
+often	NN	O	O
+in	NN	O	O
+the	NN	O	O
+context	NN	O	O
+of	NN	O	O
+permutation	NN	O	B-Process
+-	NN	O	I-Process
+inversion	NN	O	I-Process
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+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S030193221400144X)
+
+In	NN	O	O
+the	NN	O	O
+present	NN	O	O
+work	NN	O	O
+,	NN	O	O
+a	NN	O	O
+LIF	NN	O	B-Process
+technique	NN	O	I-Process
+is	NN	O	O
+applied	NN	O	O
+for	NN	O	O
+investigation	NN	O	O
+of	NN	O	O
+gas	NN	O	B-Task
+-	NN	O	I-Task
+sheared	NN	O	I-Task
+film	NN	O	I-Task
+flow	NN	O	I-Task
+in	NN	O	O
+horizontal	NN	O	O
+rectangular	NN	O	O
+duct	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+technique	NN	O	O
+makes	NN	O	O
+it	NN	O	O
+possible	NN	O	O
+to	NN	O	O
+perform	NN	O	O
+field	NN	O	B-Process
+measurements	NN	O	I-Process
+of	NN	O	I-Process
+local	NN	O	I-Process
+film	NN	O	I-Process
+thickness	NN	O	I-Process
+,	NN	O	O
+resolved	NN	O	O
+in	NN	O	O
+both	NN	O	O
+space	NN	O	O
+and	NN	O	O
+time	NN	O	O
+,	NN	O	O
+similar	NN	O	O
+to	NN	O	O
+the	NN	O	O
+work	NN	O	O
+of	NN	O	O
+Alekseenko	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+(	NN	O	O
+2009	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+flat	NN	O	O
+shape	NN	O	O
+and	NN	O	O
+large	NN	O	O
+transverse	NN	O	O
+size	NN	O	O
+of	NN	O	O
+the	NN	O	O
+duct	NN	O	B-Material
+allow	NN	O	O
+us	NN	O	O
+to	NN	O	O
+resolve	NN	O	B-Process
+the	NN	O	I-Process
+film	NN	O	I-Process
+thickness	NN	O	I-Process
+in	NN	O	O
+transverse	NN	O	O
+coordinate	NN	O	O
+as	NN	O	O
+well	NN	O	O
+.	NN	O	O
+Alekseenko	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+(	NN	O	O
+2012	NN	O	O
+)	NN	O	O
+attempted	NN	O	O
+to	NN	O	O
+do	NN	O	O
+this	NN	O	O
+in	NN	O	O
+annular	NN	O	B-Process
+downward	NN	O	I-Process
+flow	NN	O	I-Process
+,	NN	O	O
+but	NN	O	O
+,	NN	O	O
+for	NN	O	O
+technical	NN	O	O
+reasons	NN	O	O
+,	NN	O	O
+the	NN	O	O
+sampling	NN	O	B-Process
+frequency	NN	O	I-Process
+was	NN	O	O
+not	NN	O	O
+high	NN	O	O
+enough	NN	O	O
+in	NN	O	O
+their	NN	O	O
+experiments	NN	O	O
+.	NN	O	O
+More	NN	O	O
+recently	NN	O	O
+Alekseenko	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+(	NN	O	O
+2014a	NN	O	O
+)	NN	O	O
+showed	NN	O	O
+that	NN	O	O
+the	NN	O	O
+LIF	NN	O	B-Process
+technique	NN	O	I-Process
+can	NN	O	O
+also	NN	O	O
+detect	NN	O	B-Task
+entrained	NN	O	I-Task
+droplets	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+technique	NN	O	O
+allows	NN	O	O
+the	NN	O	O
+simultaneous	NN	O	O
+study	NN	O	O
+of	NN	O	O
+three	NN	O	B-Material
+-	NN	O	I-Material
+dimensional	NN	O	I-Material
+wavy	NN	O	I-Material
+structures	NN	O	I-Material
+and	NN	O	O
+liquid	NN	O	B-Task
+entrainment	NN	O	I-Task
+,	NN	O	O
+and	NN	O	O
+can	NN	O	O
+improve	NN	O	B-Task
+understanding	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+entrainment	NN	O	I-Task
+phenomenon	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0301932214001499)
+
+In	NN	O	O
+general	NN	O	O
+,	NN	O	O
+liquid	NN	O	B-Process
+film	NN	O	I-Process
+flows	NN	O	I-Process
+of	NN	O	O
+practical	NN	O	O
+relevance	NN	O	O
+are	NN	O	O
+turbulent	NN	O	O
+and	NN	O	O
+,	NN	O	O
+hence	NN	O	O
+,	NN	O	O
+are	NN	O	O
+associated	NN	O	O
+with	NN	O	O
+the	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+broadband	NN	O	B-Material
+interfacial	NN	O	I-Material
+waves	NN	O	I-Material
+on	NN	O	O
+the	NN	O	O
+film	NN	O	B-Material
+surface	NN	O	I-Material
+.	NN	O	O
+A	NN	O	O
+thorough	NN	O	O
+understanding	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+characteristic	NN	O	I-Task
+profiles	NN	O	I-Task
+,	NN	O	I-Task
+scales	NN	O	I-Task
+and	NN	O	I-Task
+dynamics	NN	O	I-Task
+of	NN	O	I-Task
+these	NN	O	I-Task
+interfacial	NN	O	I-Task
+waves	NN	O	I-Task
+is	NN	O	O
+of	NN	O	O
+essential	NN	O	O
+importance	NN	O	O
+in	NN	O	O
+making	NN	O	O
+accurate	NN	O	O
+and	NN	O	O
+reliable	NN	O	O
+predictions	NN	O	O
+of	NN	O	O
+heat	NN	O	O
+and	NN	O	O
+mass	NN	O	O
+transfer	NN	O	O
+rates	NN	O	O
+(	NN	O	O
+Mathie	NN	O	O
+and	NN	O	O
+Markides	NN	O	O
+,	NN	O	O
+2013a	NN	O	O
+;	NN	O	O
+Mathie	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2013	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Previous	NN	O	O
+efforts	NN	O	O
+in	NN	O	O
+downwards	NN	O	B-Process
+annular	NN	O	I-Process
+flow	NN	O	I-Process
+have	NN	O	O
+focused	NN	O	O
+on	NN	O	O
+the	NN	O	O
+spatio	NN	O	B-Process
+/	NN	O	I-Process
+temporal	NN	O	I-Process
+measurement	NN	O	I-Process
+of	NN	O	O
+liquid	NN	O	B-Process
+film	NN	O	I-Process
+thickness	NN	O	I-Process
+,	NN	O	O
+followed	NN	O	O
+by	NN	O	O
+in	NN	O	O
+-	NN	O	O
+depth	NN	O	O
+statistical	NN	O	B-Task
+analyses	NN	O	I-Task
+of	NN	O	I-Task
+this	NN	O	I-Task
+film	NN	O	I-Task
+thickness	NN	O	I-Task
+(	NN	O	O
+Webb	NN	O	O
+and	NN	O	O
+Hewitt	NN	O	O
+,	NN	O	O
+1975	NN	O	O
+;	NN	O	O
+Belt	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2010	NN	O	O
+;	NN	O	O
+Alekseenko	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2012	NN	O	O
+;	NN	O	O
+Zhao	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2013	NN	O	O
+)	NN	O	O
+.	NN	O	O
+These	NN	O	O
+efforts	NN	O	O
+have	NN	O	O
+contributed	NN	O	O
+to	NN	O	O
+a	NN	O	O
+much	NN	O	O
+improved	NN	O	O
+understanding	NN	O	O
+of	NN	O	O
+the	NN	O	O
+interfacial	NN	O	B-Task
+topology	NN	O	I-Task
+observed	NN	O	O
+in	NN	O	O
+downwards	NN	O	B-Process
+annular	NN	O	I-Process
+flows	NN	O	I-Process
+and	NN	O	O
+also	NN	O	O
+to	NN	O	O
+the	NN	O	O
+subsequent	NN	O	O
+proposal	NN	O	O
+of	NN	O	O
+a	NN	O	O
+series	NN	O	O
+of	NN	O	O
+correlations	NN	O	O
+for	NN	O	O
+the	NN	O	O
+quantification	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+mean	NN	O	I-Task
+film	NN	O	I-Task
+thickness	NN	O	I-Task
+,	NN	O	I-Task
+wave	NN	O	I-Task
+amplitudes	NN	O	I-Task
+and	NN	O	I-Task
+liquid	NN	O	I-Task
+entrainment	NN	O	I-Task
+rates	NN	O	I-Task
+into	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Process
+phase	NN	O	I-Process
+(	NN	O	O
+Ambrosini	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+1991	NN	O	O
+;	NN	O	O
+Karapantsios	NN	O	O
+and	NN	O	O
+Karabelas	NN	O	O
+,	NN	O	O
+1995	NN	O	O
+;	NN	O	O
+Azzopardi	NN	O	O
+,	NN	O	O
+1997	NN	O	O
+)	NN	O	O
+.	NN	O	O
+On	NN	O	O
+the	NN	O	O
+other	NN	O	O
+hand	NN	O	O
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+-	NN	O	O
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+-DOCSTART- (S0301932215002037)
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+-DOCSTART- (S0305054816300867)
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+-DOCSTART- (S0306437913000768)
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+-DOCSTART- (S0370157309002877)
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+-	NN	O	I-Task
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+terms	NN	O	O
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+.	NN	O	O
+To	NN	O	O
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+-DOCSTART- (S0370157312000105)
+
+By	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-DOCSTART- (S0370157314001318)
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+-	NN	O	I-Task
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
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+-	NN	O	I-Task
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+-	NN	O	I-Task
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+,	NN	O	O
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+-	NN	O	I-Process
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+5	NN	O	O
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+.	NN	O	O
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+a	NN	O	O
+global	NN	O	B-Task
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+the	NN	O	O
+latest	NN	O	O
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+,	NN	O	I-Material
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+,	NN	O	I-Material
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+[	NN	O	I-Material
+10	NN	O	I-Material
+]	NN	O	I-Material
+)	NN	O	I-Material
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+K2	NN	O	I-Material
+K	NN	O	I-Material
+)	NN	O	I-Material
+neutrino	NN	O	I-Material
+data	NN	O	I-Material
+.	NN	O	O
+We	NN	O	O
+find	NN	O	O
+no	NN	O	O
+parameter	NN	O	O
+space	NN	O	O
+allowed	NN	O	O
+for	NN	O	O
+six	NN	O	O
+isomeric	NN	O	B-Material
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+mass	NN	O	I-Material
+matrices	NN	O	I-Material
+at	NN	O	O
+the	NN	O	O
+2σ	NN	O	O
+level	NN	O	O
+.	NN	O	O
+At	NN	O	O
+the	NN	O	O
+3σ	NN	O	O
+level	NN	O	O
+,	NN	O	O
+however	NN	O	O
+,	NN	O	O
+their	NN	O	O
+results	NN	O	O
+for	NN	O	O
+neutrino	NN	O	B-Material
+masses	NN	O	O
+and	NN	O	O
+lepton	NN	O	B-Process
+flavor	NN	O	I-Process
+mixing	NN	O	I-Process
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+can	NN	O	O
+be	NN	O	O
+compatible	NN	O	O
+with	NN	O	O
+current	NN	O	B-Material
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+Third	NN	O	O
+,	NN	O	O
+we	NN	O	O
+incorporate	NN	O	O
+the	NN	O	O
+seesaw	NN	O	B-Process
+mechanism	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+Fukugita	NN	O	B-Process
+–	NN	O	I-Process
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+–	NN	O	I-Process
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+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+in	NN	O	O
+the	NN	O	O
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+and	NN	O	O
+Dirac	NN	O	B-Material
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+six	NN	O	O
+texture	NN	O	O
+zeros	NN	O	O
+.	NN	O	O
+It	NN	O	O
+turns	NN	O	O
+out	NN	O	O
+that	NN	O	O
+their	NN	O	O
+predictions	NN	O	O
+,	NN	O	O
+including	NN	O	O
+θ23≈45	NN	O	O
+°	NN	O	O
+,	NN	O	O
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+good	NN	O	O
+agreement	NN	O	O
+with	NN	O	O
+the	NN	O	O
+present	NN	O	O
+experimental	NN	O	B-Material
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+at	NN	O	O
+the	NN	O	O
+2σ	NN	O	O
+level	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304006082)
+
+The	NN	O	O
+aim	NN	O	O
+of	NN	O	O
+this	NN	O	O
+note	NN	O	O
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+nothing	NN	O	O
+more	NN	O	O
+than	NN	O	O
+to	NN	O	O
+bring	NN	O	B-Task
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+approaches	NN	O	I-Task
+on	NN	O	I-Task
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+footing	NN	O	I-Task
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+to	NN	O	O
+relax	NN	O	B-Task
+the	NN	O	I-Task
+assumptions	NN	O	I-Task
+under	NN	O	O
+which	NN	O	O
+the	NN	O	O
+results	NN	O	O
+of	NN	O	O
+[	NN	O	O
+11,13	NN	O	O
+]	NN	O	O
+have	NN	O	O
+been	NN	O	O
+derived	NN	O	O
+using	NN	O	O
+the	NN	O	O
+first	NN	O	O
+approach	NN	O	O
+.	NN	O	O
+More	NN	O	O
+concretely	NN	O	O
+,	NN	O	O
+we	NN	O	O
+generalize	NN	O	B-Process
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+one	NN	O	I-Process
+-	NN	O	I-Process
+loop	NN	O	I-Process
+partition	NN	O	I-Process
+functions	NN	O	I-Process
+,	NN	O	I-Process
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+derived	NN	O	O
+in	NN	O	O
+[	NN	O	O
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+]	NN	O	O
+for	NN	O	O
+levels	NN	O	O
+being	NN	O	O
+odd	NN	O	O
+,	NN	O	O
+to	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+even	NN	O	O
+levels	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+on	NN	O	O
+the	NN	O	O
+level	NN	O	O
+of	NN	O	O
+partition	NN	O	O
+functions	NN	O	O
+we	NN	O	O
+implement	NN	O	O
+additional	NN	O	B-Process
+dressings	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+world	NN	O	I-Process
+-	NN	O	I-Process
+sheet	NN	O	I-Process
+parity	NN	O	I-Process
+symmetry	NN	O	I-Process
+and	NN	O	O
+identify	NN	O	O
+them	NN	O	O
+with	NN	O	O
+the	NN	O	O
+dressings	NN	O	B-Process
+introduced	NN	O	O
+in	NN	O	O
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+in	NN	O	O
+the	NN	O	O
+crosscap	NN	O	B-Process
+state	NN	O	I-Process
+approach	NN	O	I-Process
+.	NN	O	O
+As	NN	O	O
+expected	NN	O	O
+,	NN	O	O
+all	NN	O	O
+the	NN	O	O
+physical	NN	O	O
+information	NN	O	O
+can	NN	O	O
+be	NN	O	O
+read	NN	O	O
+off	NN	O	O
+entirely	NN	O	O
+from	NN	O	O
+the	NN	O	O
+various	NN	O	O
+amplitudes	NN	O	O
+.	NN	O	O
+We	NN	O	O
+will	NN	O	O
+end	NN	O	O
+up	NN	O	O
+with	NN	O	O
+a	NN	O	O
+collection	NN	O	O
+of	NN	O	O
+very	NN	O	O
+explicit	NN	O	O
+and	NN	O	O
+general	NN	O	O
+one	NN	O	B-Process
+-	NN	O	I-Process
+loop	NN	O	I-Process
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+functions	NN	O	I-Process
+and	NN	O	O
+tadpole	NN	O	B-Process
+cancellation	NN	O	I-Process
+conditions	NN	O	I-Process
+covering	NN	O	O
+simple	NN	O	O
+current	NN	O	B-Process
+extensions	NN	O	I-Process
+of	NN	O	I-Process
+all	NN	O	I-Process
+168	NN	O	I-Process
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+additional	NN	O	O
+dressings	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+parity	NN	O	B-Process
+symmetry	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+fact	NN	O	O
+providing	NN	O	O
+a	NN	O	O
+compact	NN	O	O
+collection	NN	O	O
+of	NN	O	O
+the	NN	O	O
+main	NN	O	O
+relevant	NN	O	O
+formulas	NN	O	O
+for	NN	O	O
+constructing	NN	O	B-Task
+supersymmetric	NN	O	I-Task
+Gepner	NN	O	I-Task
+model	NN	O	I-Task
+orientifolds	NN	O	I-Task
+was	NN	O	O
+one	NN	O	O
+of	NN	O	O
+the	NN	O	O
+motivations	NN	O	O
+for	NN	O	O
+writing	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+.	NN	O	O
+We	NN	O	O
+hope	NN	O	O
+that	NN	O	O
+these	NN	O	O
+expressions	NN	O	O
+turn	NN	O	O
+out	NN	O	O
+to	NN	O	O
+be	NN	O	O
+useful	NN	O	O
+for	NN	O	O
+a	NN	O	O
+systematic	NN	O	B-Task
+search	NN	O	I-Task
+for	NN	O	I-Task
+Standard	NN	O	I-Task
+-	NN	O	I-Task
+like	NN	O	I-Task
+models	NN	O	I-Task
+respectively	NN	O	O
+for	NN	O	O
+providing	NN	O	B-Task
+a	NN	O	I-Task
+statistical	NN	O	I-Task
+ensemble	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+spirit	NN	O	I-Task
+of	NN	O	I-Task
+[	NN	O	I-Task
+29	NN	O	I-Task
+]	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0370269304006161)
+
+Absorption	NN	O	B-Task
+events	NN	O	I-Task
+through	NN	O	I-Task
+the	NN	O	I-Task
+charged	NN	O	I-Task
+current	NN	O	I-Task
+reactions	NN	O	I-Task
+(	NN	O	O
+2)νe+40Ar→e−+40K∗andν̄e+40Ar→e++40Cl∗.	NN	O	O
+There	NN	O	O
+is	NN	O	O
+some	NN	O	O
+uncertainty	NN	O	O
+in	NN	O	O
+predicting	NN	O	B-Task
+e−(e+	NN	O	I-Task
+)	NN	O	I-Task
+event	NN	O	I-Task
+rates	NN	O	I-Task
+for	NN	O	O
+these	NN	O	O
+processes	NN	O	O
+which	NN	O	O
+arise	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+nuclear	NN	O	B-Process
+model	NN	O	I-Process
+dependencies	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+absorption	NN	O	O
+cross	NN	O	O
+section	NN	O	O
+and	NN	O	O
+the	NN	O	O
+treatment	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+Coulomb	NN	O	I-Process
+distortion	NN	O	I-Process
+of	NN	O	O
+electron	NN	O	B-Material
+(	NN	O	O
+positron	NN	O	B-Material
+)	NN	O	O
+in	NN	O	O
+the	NN	O	O
+field	NN	O	O
+of	NN	O	O
+the	NN	O	O
+residual	NN	O	B-Task
+nucleus	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+nuclear	NN	O	B-Task
+absorption	NN	O	I-Task
+cross	NN	O	I-Task
+section	NN	O	I-Task
+for	NN	O	I-Task
+the	NN	O	I-Task
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+in	NN	O	O
+40Ar	NN	O	O
+relevant	NN	O	O
+to	NN	O	O
+supernova	NN	O	B-Material
+neutrino	NN	O	I-Material
+energies	NN	O	I-Material
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+first	NN	O	O
+calculated	NN	O	O
+by	NN	O	O
+Raghavan	NN	O	O
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+and	NN	O	O
+Bahcall	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+for	NN	O	O
+Fermi	NN	O	O
+transitions	NN	O	O
+leading	NN	O	O
+to	NN	O	O
+isobaric	NN	O	B-Process
+analogue	NN	O	I-Process
+state	NN	O	I-Process
+(	NN	O	O
+IAS	NN	O	B-Process
+)	NN	O	O
+at	NN	O	O
+4.38	NN	O	B-Process
+MeV	NN	O	I-Process
+in	NN	O	I-Process
+40K∗.	NN	O	I-Process
+Later	NN	O	O
+Ormand	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+used	NN	O	O
+a	NN	O	O
+shell	NN	O	B-Process
+model	NN	O	I-Process
+to	NN	O	O
+calculate	NN	O	O
+the	NN	O	B-Task
+Fermi	NN	O	I-Task
+and	NN	O	I-Task
+Gamow	NN	O	I-Task
+–	NN	O	I-Task
+Teller	NN	O	I-Task
+transitions	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+these	NN	O	O
+calculations	NN	O	O
+Fermi	NN	O	O
+function	NN	O	O
+F(Z	NN	O	O
+,	NN	O	O
+Ee	NN	O	O
+)	NN	O	O
+was	NN	O	O
+used	NN	O	O
+to	NN	O	O
+take	NN	O	O
+into	NN	O	O
+account	NN	O	O
+the	NN	O	O
+Coulomb	NN	O	B-Process
+effects	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+a	NN	O	O
+recent	NN	O	O
+paper	NN	O	O
+Bueno	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+make	NN	O	O
+use	NN	O	O
+of	NN	O	O
+a	NN	O	O
+calculation	NN	O	B-Process
+by	NN	O	I-Process
+Martinez	NN	O	I-Process
+-	NN	O	I-Process
+Pinedo	NN	O	I-Process
+et	NN	O	I-Process
+al	NN	O	I-Process
+.	NN	O	I-Process
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+who	NN	O	O
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+continuum	NN	O	B-Process
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+(	NN	O	O
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+to	NN	O	O
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+sections	NN	O	I-Task
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+a	NN	O	O
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+lower	NN	O	O
+electron	NN	O	O
+energies	NN	O	O
+and	NN	O	O
+modified	NN	O	B-Process
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+momentum	NN	O	I-Process
+approximation	NN	O	I-Process
+(	NN	O	O
+MEMA	NN	O	B-Process
+)	NN	O	O
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+higher	NN	O	O
+electron	NN	O	O
+energies	NN	O	O
+[	NN	O	O
+14–17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+a	NN	O	O
+recent	NN	O	O
+work	NN	O	O
+Bhattacharya	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+have	NN	O	O
+measured	NN	O	O
+the	NN	O	O
+Fermi	NN	O	B-Process
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+Gamow	NN	O	I-Process
+–	NN	O	I-Process
+Teller	NN	O	I-Process
+transition	NN	O	I-Process
+strengths	NN	O	I-Process
+leading	NN	O	O
+to	NN	O	O
+excited	NN	O	O
+states	NN	O	O
+up	NN	O	O
+to	NN	O	O
+6	NN	O	O
+MeV	NN	O	O
+in	NN	O	O
+40K∗	NN	O	O
+and	NN	O	O
+obtained	NN	O	O
+the	NN	O	O
+neutrino	NN	O	B-Task
+absorption	NN	O	I-Task
+cross	NN	O	I-Task
+section	NN	O	I-Task
+for	NN	O	O
+supernova	NN	O	O
+neutrinos	NN	O	O
+in	NN	O	O
+40Ar	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304006720)
+
+Classical	NN	O	O
+,	NN	O	O
+two	NN	O	B-Task
+-	NN	O	I-Task
+dimensional	NN	O	I-Task
+sigma	NN	O	I-Task
+models	NN	O	I-Task
+on	NN	O	I-Task
+compact	NN	O	I-Task
+symmetric	NN	O	I-Task
+spaces	NN	O	I-Task
+G	NN	O	I-Task
+/	NN	O	I-Task
+H	NN	O	I-Task
+are	NN	O	O
+integrable	NN	O	O
+by	NN	O	O
+virtue	NN	O	O
+of	NN	O	O
+conserved	NN	O	O
+quantities	NN	O	O
+which	NN	O	O
+can	NN	O	O
+arise	NN	O	O
+as	NN	O	O
+integrals	NN	O	B-Process
+of	NN	O	I-Process
+local	NN	O	I-Process
+or	NN	O	I-Process
+non	NN	O	I-Process
+-	NN	O	I-Process
+local	NN	O	I-Process
+functions	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+underlying	NN	O	O
+fields	NN	O	O
+(	NN	O	O
+the	NN	O	O
+accounts	NN	O	O
+in	NN	O	O
+[	NN	O	O
+1–5	NN	O	O
+]	NN	O	O
+contain	NN	O	O
+references	NN	O	O
+to	NN	O	O
+the	NN	O	O
+extensive	NN	O	O
+literature	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Since	NN	O	O
+these	NN	O	O
+models	NN	O	O
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+asymptotically	NN	O	O
+free	NN	O	O
+and	NN	O	O
+strongly	NN	O	O
+coupled	NN	O	O
+in	NN	O	O
+the	NN	O	O
+infrared	NN	O	O
+,	NN	O	O
+their	NN	O	O
+quantum	NN	O	O
+properties	NN	O	O
+are	NN	O	O
+not	NN	O	O
+straightforward	NN	O	O
+to	NN	O	O
+determine	NN	O	O
+.	NN	O	O
+Nevertheless	NN	O	O
+,	NN	O	O
+following	NN	O	O
+Lüscher	NN	O	O
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+,	NN	O	O
+Abdalla	NN	O	O
+,	NN	O	O
+Forger	NN	O	O
+and	NN	O	O
+Gomes	NN	O	O
+showed	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+that	NN	O	O
+,	NN	O	O
+in	NN	O	O
+a	NN	O	O
+G	NN	O	B-Task
+/	NN	O	I-Task
+H	NN	O	I-Task
+sigma	NN	O	I-Task
+model	NN	O	I-Task
+with	NN	O	I-Task
+H	NN	O	I-Task
+simple,11Here	NN	O	I-Task
+,	NN	O	O
+and	NN	O	O
+throughout	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+,	NN	O	O
+we	NN	O	O
+shall	NN	O	O
+use	NN	O	O
+‘	NN	O	O
+simple’	NN	O	B-Process
+to	NN	O	O
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+that	NN	O	O
+the	NN	O	O
+corresponding	NN	O	B-Process
+Lie	NN	O	I-Process
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+no	NN	O	I-Process
+non	NN	O	I-Process
+-	NN	O	I-Process
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+ideals	NN	O	I-Process
+.	NN	O	O
+Hence	NN	O	O
+U(1	NN	O	O
+)	NN	O	O
+is	NN	O	O
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+in	NN	O	O
+our	NN	O	O
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+,	NN	O	O
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+to	NN	O	O
+the	NN	O	O
+usual	NN	O	O
+non	NN	O	O
+-	NN	O	O
+Abelian	NN	O	O
+simple	NN	O	O
+groups	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Cartan	NN	O	O
+–	NN	O	O
+Killing	NN	O	O
+classification	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+the	NN	O	O
+first	NN	O	O
+conserved	NN	O	O
+non	NN	O	O
+-	NN	O	O
+local	NN	O	O
+charge	NN	O	O
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+(	NN	O	O
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+[	NN	O	O
+6–8	NN	O	O
+]	NN	O	O
+)	NN	O	O
+,	NN	O	O
+which	NN	O	O
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+to	NN	O	O
+ensure	NN	O	O
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+of	NN	O	O
+the	NN	O	O
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+.	NN	O	O
+By	NN	O	O
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+,	NN	O	O
+calculations	NN	O	B-Process
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+the	NN	O	I-Process
+1/N	NN	O	I-Process
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+reveal	NN	O	O
+anomalies	NN	O	O
+that	NN	O	O
+spoil	NN	O	O
+the	NN	O	O
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+the	NN	O	I-Task
+quantum	NN	O	I-Task
+non	NN	O	I-Task
+-	NN	O	I-Task
+local	NN	O	I-Task
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+in	NN	O	O
+the	NN	O	O
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+)	NN	O	I-Process
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+N>2	NN	O	I-Process
+,	NN	O	O
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+wider	NN	O	O
+class	NN	O	O
+of	NN	O	O
+theories	NN	O	O
+based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+complex	NN	O	B-Process
+Grassmannians	NN	O	I-Process
+SU(N)/SU(n)×SU(N−n)×U(1	NN	O	I-Process
+)	NN	O	I-Process
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+N	NN	O	I-Process
+>	NN	O	I-Process
+n>1	NN	O	I-Process
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304006756)
+
+We	NN	O	O
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+a	NN	O	O
+method	NN	O	O
+for	NN	O	O
+the	NN	O	O
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+of	NN	O	I-Task
+nucleon	NN	O	I-Task
+–	NN	O	I-Task
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+low	NN	O	I-Task
+-	NN	O	I-Task
+energy	NN	O	I-Task
+interactions	NN	O	I-Task
+.	NN	O	O
+It	NN	O	O
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+in	NN	O	O
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+QCD	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+background	NN	O	O
+of	NN	O	O
+a	NN	O	O
+“	NN	O	O
+electromagnetic	NN	O	B-Material
+”	NN	O	I-Material
+field	NN	O	I-Material
+whose	NN	O	O
+potential	NN	O	O
+is	NN	O	O
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+-	NN	O	O
+vanishing	NN	O	O
+,	NN	O	O
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+whose	NN	O	O
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+zero	NN	O	I-Process
+.	NN	O	O
+By	NN	O	O
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+the	NN	O	I-Process
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+field	NN	O	I-Process
+,	NN	O	O
+phase	NN	O	B-Task
+-	NN	O	I-Task
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+(	NN	O	I-Task
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+)	NN	O	I-Task
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+5	NN	O	O
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+mπ/2	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304006768)
+
+In	NN	O	O
+our	NN	O	O
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+We	NN	O	O
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+at	NN	O	O
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+,	NN	O	O
+via	NN	O	O
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+,	NN	O	O
+the	NN	O	O
+relation	NN	O	O
+between	NN	O	O
+a	NN	O	O
+functional	NN	O	B-Task
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+a	NN	O	I-Task
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+gauge	NN	O	O
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+)	NN	O	O
+,	NN	O	O
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+(	NN	O	O
+which	NN	O	O
+is	NN	O	O
+not	NN	O	O
+necessarily	NN	O	O
+local	NN	O	O
+)	NN	O	O
+.	NN	O	O
+We	NN	O	O
+show	NN	O	O
+that	NN	O	O
+the	NN	O	O
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+-	NN	O	I-Process
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+local	NN	O	O
+because	NN	O	O
+they	NN	O	O
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+not	NN	O	O
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+expressed	NN	O	O
+in	NN	O	O
+terms	NN	O	O
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+infinite	NN	O	B-Process
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+.	NN	O	O
+We	NN	O	O
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+that	NN	O	O
+the	NN	O	O
+implications	NN	O	O
+of	NN	O	O
+this	NN	O	O
+observation	NN	O	O
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+been	NN	O	O
+clearly	NN	O	O
+emphasised	NN	O	O
+in	NN	O	O
+the	NN	O	O
+literature	NN	O	O
+,	NN	O	O
+as	NN	O	O
+attested	NN	O	O
+by	NN	O	O
+the	NN	O	O
+absence	NN	O	O
+of	NN	O	O
+any	NN	O	O
+debate	NN	O	O
+about	NN	O	O
+it	NN	O	O
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+.	NN	O	O
+It	NN	O	O
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+precisely	NN	O	O
+these	NN	O	O
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+infrared	NN	O	B-Task
+modes	NN	O	I-Task
+that	NN	O	O
+make	NN	O	O
+it	NN	O	O
+hard	NN	O	O
+to	NN	O	O
+define	NN	O	O
+a	NN	O	O
+gauge	NN	O	B-Process
+independent	NN	O	I-Process
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+for	NN	O	O
+the	NN	O	O
+gauge	NN	O	B-Task
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+extensions	NN	O	I-Task
+of	NN	O	I-Task
+local	NN	O	I-Task
+functionals	NN	O	I-Task
+.	NN	O	O
+This	NN	O	O
+observation	NN	O	O
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+the	NN	O	O
+remark	NN	O	O
+in	NN	O	O
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+that	NN	O	O
+the	NN	O	O
+expectation	NN	O	B-Task
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+receives	NN	O	O
+important	NN	O	O
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+from	NN	O	O
+both	NN	O	O
+large	NN	O	O
+and	NN	O	O
+small	NN	O	O
+distances	NN	O	O
+.	NN	O	O
+Our	NN	O	O
+arguments	NN	O	O
+on	NN	O	O
+renormalisability	NN	O	B-Task
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+on	NN	O	O
+the	NN	O	O
+notion	NN	O	B-Process
+of	NN	O	I-Process
+renormalisation	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+modern	NN	O	O
+sense	NN	O	O
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+which	NN	O	O
+relies	NN	O	O
+on	NN	O	O
+BRST	NN	O	B-Process
+cohomology	NN	O	I-Process
+theorems	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+BRST	NN	O	B-Material
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+,	NN	O	O
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+it	NN	O	O
+is	NN	O	O
+not	NN	O	O
+always	NN	O	O
+necessary	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S037026930400680X)
+
+Certainly	NN	O	O
+therefore	NN	O	O
+the	NN	O	O
+see	NN	O	B-Process
+-	NN	O	I-Process
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+an	NN	O	O
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+of	NN	O	O
+why	NN	O	O
+the	NN	O	O
+light	NN	O	B-Task
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+masses	NN	O	I-Task
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+so	NN	O	O
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+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
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+its	NN	O	O
+faults	NN	O	O
+.	NN	O	O
+In	NN	O	O
+particular	NN	O	O
+,	NN	O	O
+there	NN	O	O
+is	NN	O	O
+a	NN	O	O
+tension	NN	O	O
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+the	NN	O	O
+strongly	NN	O	O
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+of	NN	O	O
+the	NN	O	O
+observed	NN	O	O
+Yukawa	NN	O	B-Task
+couplings	NN	O	I-Task
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+-	NN	O	I-Task
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+Moreover	NN	O	O
+,	NN	O	O
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+sharp	NN	O	O
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+with	NN	O	O
+the	NN	O	O
+corresponding	NN	O	O
+mixings	NN	O	O
+in	NN	O	O
+the	NN	O	O
+quark	NN	O	B-Process
+sector	NN	O	I-Process
+which	NN	O	O
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+all	NN	O	O
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+.	NN	O	O
+These	NN	O	O
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+models	NN	O	O
+,	NN	O	O
+for	NN	O	O
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+,	NN	O	O
+the	NN	O	O
+Δm2	NN	O	B-Process
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+spectrum	NN	O	I-Process
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+masses	NN	O	I-Process
+to	NN	O	O
+be	NN	O	O
+hierarchical	NN	O	O
+in	NN	O	O
+such	NN	O	O
+a	NN	O	O
+way	NN	O	O
+as	NN	O	O
+to	NN	O	O
+almost	NN	O	O
+compensate	NN	O	O
+for	NN	O	O
+the	NN	O	O
+hierarchical	NN	O	B-Process
+neutrino	NN	O	I-Process
+Yukawa	NN	O	I-Process
+couplings	NN	O	I-Process
+.	NN	O	O
+But	NN	O	O
+this	NN	O	O
+has	NN	O	O
+the	NN	O	O
+price	NN	O	O
+of	NN	O	O
+introducing	NN	O	O
+a	NN	O	O
+wide	NN	O	O
+range	NN	O	O
+of	NN	O	O
+rhd	NN	O	B-Material
+neutrino	NN	O	I-Material
+masses	NN	O	I-Material
+MR∼1010–1015	NN	O	B-Material
+which	NN	O	O
+then	NN	O	O
+require	NN	O	O
+explanation	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304007129)
+
+We	NN	O	O
+analyze	NN	O	O
+the	NN	O	O
+diagonal	NN	O	B-Task
+and	NN	O	I-Task
+transition	NN	O	I-Task
+magnetic	NN	O	I-Task
+and	NN	O	I-Task
+electric	NN	O	I-Task
+dipole	NN	O	I-Task
+moments	NN	O	I-Task
+of	NN	O	I-Task
+charged	NN	O	I-Task
+leptons	NN	O	I-Task
+in	NN	O	O
+extended	NN	O	B-Process
+technicolor	NN	O	I-Process
+(	NN	O	O
+ETC	NN	O	B-Process
+)	NN	O	O
+models	NN	O	O
+,	NN	O	O
+taking	NN	O	O
+account	NN	O	O
+of	NN	O	O
+the	NN	O	O
+multiscale	NN	O	O
+nature	NN	O	O
+of	NN	O	O
+the	NN	O	O
+ETC	NN	O	B-Process
+gauge	NN	O	B-Process
+symmetry	NN	O	I-Process
+breaking	NN	O	I-Process
+,	NN	O	O
+conformal	NN	O	B-Process
+(	NN	O	I-Process
+walking	NN	O	I-Process
+)	NN	O	I-Process
+behavior	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+technicolor	NN	O	I-Process
+theory	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+mixing	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+charged	NN	O	I-Process
+-	NN	O	I-Process
+lepton	NN	O	I-Process
+mass	NN	O	I-Process
+matrix	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+show	NN	O	O
+that	NN	O	O
+mixing	NN	O	B-Task
+effects	NN	O	I-Task
+dominate	NN	O	O
+the	NN	O	O
+ETC	NN	O	B-Process
+contributions	NN	O	O
+to	NN	O	O
+charged	NN	O	B-Task
+lepton	NN	O	I-Task
+electric	NN	O	I-Task
+dipole	NN	O	I-Task
+moments	NN	O	I-Task
+and	NN	O	O
+that	NN	O	O
+these	NN	O	O
+can	NN	O	O
+yield	NN	O	O
+a	NN	O	O
+value	NN	O	B-Process
+of	NN	O	I-Process
+|de|	NN	O	I-Process
+comparable	NN	O	O
+to	NN	O	O
+the	NN	O	O
+current	NN	O	O
+limit	NN	O	O
+.	NN	O	O
+The	NN	O	O
+rate	NN	O	B-Process
+for	NN	O	I-Process
+μ→eγ	NN	O	I-Process
+can	NN	O	O
+also	NN	O	O
+be	NN	O	O
+close	NN	O	O
+to	NN	O	O
+its	NN	O	O
+limit	NN	O	O
+.	NN	O	O
+From	NN	O	O
+these	NN	O	O
+and	NN	O	O
+other	NN	O	O
+processes	NN	O	O
+we	NN	O	O
+derive	NN	O	O
+constraints	NN	O	O
+on	NN	O	O
+the	NN	O	O
+charged	NN	O	B-Task
+lepton	NN	O	I-Task
+mixing	NN	O	I-Task
+angles	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+constraints	NN	O	O
+are	NN	O	O
+such	NN	O	O
+that	NN	O	O
+the	NN	O	O
+ETC	NN	O	B-Process
+contribution	NN	O	O
+to	NN	O	O
+the	NN	O	O
+muon	NN	O	B-Task
+anomalous	NN	O	I-Task
+magnetic	NN	O	I-Task
+moment	NN	O	I-Task
+,	NN	O	O
+which	NN	O	O
+includes	NN	O	O
+a	NN	O	O
+significant	NN	O	O
+lepton	NN	O	B-Process
+mixing	NN	O	I-Process
+term	NN	O	I-Process
+,	NN	O	O
+can	NN	O	O
+approach	NN	O	O
+,	NN	O	O
+but	NN	O	O
+does	NN	O	O
+not	NN	O	O
+exceed	NN	O	O
+,	NN	O	O
+the	NN	O	O
+current	NN	O	O
+sensitivity	NN	O	O
+level	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304007208)
+
+It	NN	O	O
+is	NN	O	O
+well	NN	O	O
+known	NN	O	O
+that	NN	O	O
+one	NN	O	O
+of	NN	O	O
+the	NN	O	O
+long	NN	O	O
+standing	NN	O	O
+problems	NN	O	O
+in	NN	O	O
+physics	NN	O	O
+is	NN	O	O
+understanding	NN	O	B-Task
+the	NN	O	I-Task
+confinement	NN	O	I-Task
+physics	NN	O	I-Task
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+first	NN	O	I-Task
+principles	NN	O	I-Task
+.	NN	O	O
+Hence	NN	O	O
+the	NN	O	O
+challenge	NN	O	O
+is	NN	O	O
+to	NN	O	O
+develop	NN	O	B-Task
+analytical	NN	O	I-Task
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+which	NN	O	O
+provide	NN	O	O
+valuable	NN	O	O
+insight	NN	O	O
+and	NN	O	O
+theoretical	NN	O	O
+guidance	NN	O	O
+.	NN	O	O
+According	NN	O	O
+to	NN	O	O
+this	NN	O	O
+viewpoint	NN	O	O
+,	NN	O	O
+an	NN	O	O
+effective	NN	O	O
+theory	NN	O	O
+in	NN	O	O
+which	NN	O	O
+confining	NN	O	O
+potentials	NN	O	O
+are	NN	O	O
+obtained	NN	O	O
+as	NN	O	O
+a	NN	O	O
+consequence	NN	O	O
+of	NN	O	O
+spontaneous	NN	O	B-Process
+symmetry	NN	O	I-Process
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+scale	NN	O	I-Process
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+been	NN	O	O
+developed	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+particular	NN	O	O
+,	NN	O	O
+it	NN	O	O
+was	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+a	NN	O	O
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+on	NN	O	O
+a	NN	O	O
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+-	NN	O	I-Process
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+type	NN	O	O
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+(	NN	O	O
+1)L=14w2−12w−FμνaFaμν	NN	O	O
+,	NN	O	O
+where	NN	O	O
+Fμνa=∂μAνa−∂νAμa+gfabcAμbAνc	NN	O	O
+,	NN	O	O
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+w	NN	O	O
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+a	NN	O	O
+fundamental	NN	O	O
+field	NN	O	O
+but	NN	O	O
+rather	NN	O	O
+is	NN	O	O
+a	NN	O	O
+function	NN	O	B-Process
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+4-index	NN	O	I-Process
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+,	NN	O	O
+that	NN	O	O
+is	NN	O	O
+,	NN	O	O
+(	NN	O	B-Process
+2)w=εμναβ∂μAναβ.	NN	O	I-Process
+The	NN	O	O
+Aναβ	NN	O	B-Process
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+leads	NN	O	I-Process
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+3)εμναβ∂βw−−FγδaFaγδ=0	NN	O	B-Process
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
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+integrated	NN	O	B-Process
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+(	NN	O	I-Process
+4)w=−FμνaFaμν+M.	NN	O	I-Process
+It	NN	O	O
+is	NN	O	O
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+verify	NN	O	O
+that	NN	O	O
+the	NN	O	O
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+leads	NN	O	O
+us	NN	O	O
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+(	NN	O	O
+5)∇μFaμν+MFaμν−FαβbFbαβ=0	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
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+stressing	NN	O	O
+at	NN	O	O
+this	NN	O	O
+stage	NN	O	O
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+Eq	NN	O	O
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+5	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+a	NN	O	O
+Coulomb	NN	O	B-Material
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+a	NN	O	O
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+.	NN	O	O
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+,	NN	O	O
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+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+It	NN	O	O
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+well	NN	O	O
+known	NN	O	O
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+the	NN	O	O
+square	NN	O	O
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+[	NN	O	O
+3,4	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S037026930400721X)
+
+In	NN	O	O
+the	NN	O	O
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+,	NN	O	O
+such	NN	O	O
+a	NN	O	O
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+if	NN	O	O
+the	NN	O	O
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+is	NN	O	O
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+the	NN	O	O
+gauge	NN	O	B-Process
+D	NN	O	I-Process
+-	NN	O	I-Process
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+the	NN	O	B-Material
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+O(g2	NN	O	O
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+g	NN	O	O
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+,	NN	O	O
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+D	NN	O	B-Task
+-	NN	O	I-Task
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+,	NN	O	O
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+MSSM	NN	O	O
+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Task
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+R	NN	O	O
+-	NN	O	O
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+,	NN	O	O
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+-	NN	O	I-Task
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+breaking.33Here	NN	O	O
+,	NN	O	O
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+that	NN	O	O
+coefficients	NN	O	B-Task
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+non	NN	O	I-Task
+-	NN	O	I-Task
+renormalizable	NN	O	I-Task
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+suppressed	NN	O	O
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+to	NN	O	O
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+neglected	NN	O	O
+.	NN	O	O
+This	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
+assigning	NN	O	O
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+-	NN	O	I-Process
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+.	NN	O	O
+(	NN	O	O
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+.	NN	O	O
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
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+the	NN	O	O
+details	NN	O	O
+.	NN	O	O
+)	NN	O	O
+
+-DOCSTART- (S0370269304007257)
+
+Some	NN	O	O
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+-	NN	O	I-Task
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+,	NN	O	O
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+,	NN	O	O
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+e+e−	NN	O	I-Process
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+a	NN	O	O
+linear	NN	O	B-Material
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+.	NN	O	O
+Therefore	NN	O	O
+,	NN	O	O
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+.	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S0370269304007439)
+
+In	NN	O	O
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+to	NN	O	O
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+H	NN	O	O
+particle	NN	O	O
+,	NN	O	O
+the	NN	O	O
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+is	NN	O	O
+very	NN	O	O
+promising	NN	O	O
+.	NN	O	O
+Thus	NN	O	O
+,	NN	O	O
+in	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+we	NN	O	O
+explore	NN	O	O
+the	NN	O	B-Task
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+the	NN	O	I-Task
+Θ+-baryon	NN	O	I-Task
+within	NN	O	O
+a	NN	O	O
+new	NN	O	O
+approach	NN	O	O
+called	NN	O	O
+parton	NN	O	B-Process
+-	NN	O	I-Process
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+Gribov	NN	O	I-Process
+–	NN	O	I-Process
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+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+realized	NN	O	O
+in	NN	O	O
+the	NN	O	O
+Monte	NN	O	B-Material
+Carlo	NN	O	I-Material
+program	NN	O	I-Material
+NEXUS	NN	O	B-Material
+3.97	NN	O	I-Material
+[	NN	O	O
+22,23	NN	O	O
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+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+model	NN	O	O
+high	NN	O	B-Process
+energy	NN	O	I-Process
+hadronic	NN	O	I-Process
+and	NN	O	I-Process
+nuclear	NN	O	I-Process
+collisions	NN	O	I-Process
+are	NN	O	O
+treated	NN	O	O
+within	NN	O	O
+a	NN	O	O
+self	NN	O	B-Process
+-	NN	O	I-Process
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+.	NN	O	O
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+,	NN	O	O
+happening	NN	O	O
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+,	NN	O	O
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+microscopic	NN	O	B-Process
+(	NN	O	I-Process
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+)	NN	O	I-Process
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+and	NN	O	O
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+phenomenological	NN	O	B-Process
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+.	NN	O	O
+A	NN	O	O
+pomeron	NN	O	B-Material
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+layers	NN	O	O
+of	NN	O	O
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+(	NN	O	B-Material
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+,	NN	O	O
+which	NN	O	O
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+to	NN	O	O
+projectile	NN	O	B-Material
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+nucleons	NN	O	I-Material
+via	NN	O	O
+leg	NN	O	B-Material
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+At	NN	O	O
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+one	NN	O	O
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+)	NN	O	I-Material
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+a	NN	O	O
+so	NN	O	O
+-	NN	O	O
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+“	NN	O	B-Material
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+QCD	NN	O	I-Material
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+.	NN	O	O
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+nucleons	NN	O	I-Material
+,	NN	O	O
+left	NN	O	O
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+pomeron	NN	O	B-Process
+emissions	NN	O	I-Process
+,	NN	O	O
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+.	NN	O	O
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+[	NN	O	O
+23	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304007634)
+
+I	NN	O	O
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+mentioning	NN	O	O
+another	NN	O	O
+wild	NN	O	O
+speculation	NN	O	O
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Many	NN	O	O
+years	NN	O	O
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+,	NN	O	O
+inspired	NN	O	O
+by	NN	O	O
+the	NN	O	O
+almost	NN	O	O
+exact	NN	O	O
+correspondence	NN	O	O
+between	NN	O	O
+Einstein	NN	O	B-Process
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+post	NN	O	I-Process
+-	NN	O	I-Process
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+I	NN	O	O
+proposed	NN	O	O
+the	NN	O	O
+gravitipole	NN	O	B-Process
+in	NN	O	O
+analogy	NN	O	O
+with	NN	O	O
+Dirac	NN	O	B-Process
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+magnetic	NN	O	I-Process
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+.	NN	O	O
+After	NN	O	O
+Dirac	NN	O	O
+there	NN	O	O
+was	NN	O	O
+considerable	NN	O	O
+debate	NN	O	O
+on	NN	O	O
+how	NN	O	O
+a	NN	O	O
+field	NN	O	B-Task
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+monopoles	NN	O	I-Task
+may	NN	O	O
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+formulated	NN	O	O
+.	NN	O	O
+Eventually	NN	O	O
+,	NN	O	O
+'	NN	O	O
+t	NN	O	O
+Hooft	NN	O	O
+and	NN	O	O
+Polyakov	NN	O	O
+showed	NN	O	O
+that	NN	O	O
+the	NN	O	O
+magnetic	NN	O	B-Task
+monopole	NN	O	I-Task
+exists	NN	O	O
+as	NN	O	O
+an	NN	O	O
+extended	NN	O	O
+solution	NN	O	O
+in	NN	O	O
+certain	NN	O	O
+non	NN	O	B-Process
+-	NN	O	I-Process
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+.	NN	O	O
+Most	NN	O	O
+theorists	NN	O	O
+now	NN	O	O
+believe	NN	O	O
+that	NN	O	O
+electromagnetism	NN	O	B-Process
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+merely	NN	O	O
+a	NN	O	O
+piece	NN	O	O
+of	NN	O	O
+a	NN	O	O
+grand	NN	O	O
+unified	NN	O	O
+theory	NN	O	O
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+that	NN	O	O
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+Might	NN	O	O
+it	NN	O	O
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+turn	NN	O	O
+out	NN	O	O
+that	NN	O	O
+Einstein	NN	O	O
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+theory	NN	O	O
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+?	NN	O	O
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+grand	NN	O	O
+unified	NN	O	O
+theory	NN	O	O
+the	NN	O	O
+electromagnetic	NN	O	B-Process
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+component	NN	O	O
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+it	NN	O	O
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+internal	NN	O	O
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+a	NN	O	O
+component	NN	O	O
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+caution	NN	O	O
+to	NN	O	O
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+wind	NN	O	O
+,	NN	O	O
+I	NN	O	O
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+in	NN	O	O
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+if	NN	O	O
+the	NN	O	O
+gravitipole	NN	O	B-Process
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+the	NN	O	O
+graviton	NN	O	B-Process
+might	NN	O	O
+not	NN	O	O
+form	NN	O	O
+a	NN	O	O
+representation	NN	O	O
+under	NN	O	O
+some	NN	O	O
+dual	NN	O	O
+group	NN	O	O
+just	NN	O	O
+as	NN	O	O
+the	NN	O	O
+magnetic	NN	O	B-Process
+monopole	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+photon	NN	O	B-Material
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+dual	NN	O	O
+group	NN	O	O
+of	NN	O	O
+Montonen	NN	O	O
+and	NN	O	O
+Olive	NN	O	O
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304007695)
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+In	NN	O	O
+summary	NN	O	O
+,	NN	O	O
+we	NN	O	O
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+shown	NN	O	O
+that	NN	O	O
+one	NN	O	O
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+describe	NN	O	B-Task
+the	NN	O	I-Task
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+data	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+HERMES	NN	O	I-Task
+Collaboration	NN	O	I-Task
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+attenuation	NN	O	I-Task
+on	NN	O	I-Task
+nuclei	NN	O	I-Task
+without	NN	O	O
+invoking	NN	O	O
+any	NN	O	O
+changes	NN	O	O
+in	NN	O	O
+the	NN	O	O
+fragmentation	NN	O	B-Process
+function	NN	O	I-Process
+due	NN	O	O
+to	NN	O	O
+gluon	NN	O	B-Process
+radiation	NN	O	I-Process
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+dynamical	NN	O	B-Task
+studies	NN	O	I-Task
+,	NN	O	O
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+FSI	NN	O	B-Process
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+a	NN	O	O
+nucleon	NN	O	B-Material
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+attribute	NN	O	O
+the	NN	O	O
+hadron	NN	O	B-Process
+attenuation	NN	O	I-Process
+to	NN	O	O
+the	NN	O	O
+deceleration	NN	O	O
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+-	NN	O	I-Process
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+sensitive	NN	O	O
+to	NN	O	O
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+interaction	NN	O	O
+cross	NN	O	O
+section	NN	O	O
+of	NN	O	O
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+used	NN	O	O
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+determine	NN	O	B-Task
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+.	NN	O	O
+The	NN	O	O
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+-	NN	O	I-Process
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+which	NN	O	O
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+given	NN	O	O
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+a	NN	O	O
+closed	NN	O	O
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+The	NN	O	O
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+c	NN	O	O
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+analysis	NN	O	B-Task
+of	NN	O	I-Task
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+attenuation	NN	O	I-Task
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+p+A	NN	O	B-Process
+reactions	NN	O	I-Process
+at	NN	O	O
+AGS	NN	O	O
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+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
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+work	NN	O	O
+we	NN	O	O
+will	NN	O	O
+investigate	NN	O	O
+in	NN	O	O
+detail	NN	O	B-Task
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+spectra	NN	O	I-Task
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+different	NN	O	I-Task
+particle	NN	O	I-Task
+species	NN	O	I-Task
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+π±,K±,p	NN	O	I-Task
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+examine	NN	O	B-Task
+,	NN	O	I-Task
+if	NN	O	I-Task
+the	NN	O	I-Task
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+mesons	NN	O	I-Task
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+antibaryons	NN	O	I-Task
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+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+we	NN	O	O
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+below	NN	O	I-Task
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+PYTHIA	NN	O	I-Task
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+of	NN	O	I-Task
+W⩾4	NN	O	I-Task
+GeV.	NN	O	I-Task
+
+-DOCSTART- (S0370269304007701)
+
+Solitons	NN	O	B-Material
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+-	NN	O	I-Process
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+in	NN	O	I-Process
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+limit	NN	O	I-Process
+,	NN	O	O
+their	NN	O	O
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+justified	NN	O	O
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+on	NN	O	O
+the	NN	O	O
+associated	NN	O	B-Process
+topological	NN	O	I-Process
+conservation	NN	O	I-Process
+laws	NN	O	I-Process
+.	NN	O	O
+A	NN	O	O
+more	NN	O	O
+curious	NN	O	O
+occurrence	NN	O	O
+is	NN	O	O
+that	NN	O	O
+of	NN	O	O
+fermionic	NN	O	B-Task
+zero	NN	O	I-Task
+-	NN	O	I-Task
+energy	NN	O	I-Task
+modes	NN	O	I-Task
+trapped	NN	O	I-Task
+on	NN	O	I-Task
+such	NN	O	I-Task
+solutions	NN	O	I-Task
+.	NN	O	O
+Their	NN	O	O
+presence	NN	O	O
+requires	NN	O	O
+,	NN	O	O
+according	NN	O	O
+to	NN	O	O
+well	NN	O	O
+-	NN	O	O
+known	NN	O	O
+arguments	NN	O	O
+[	NN	O	O
+1,2	NN	O	O
+]	NN	O	O
+,	NN	O	O
+an	NN	O	O
+assignment	NN	O	B-Process
+of	NN	O	I-Process
+half	NN	O	I-Process
+-	NN	O	I-Process
+integer	NN	O	I-Process
+fermion	NN	O	I-Process
+number	NN	O	I-Process
+to	NN	O	I-Process
+the	NN	O	I-Process
+solitonic	NN	O	I-Process
+states	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+usual	NN	O	O
+treatment	NN	O	O
+,	NN	O	O
+the	NN	O	B-Task
+back	NN	O	I-Task
+reaction	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+fermion	NN	O	I-Task
+zero	NN	O	I-Task
+-	NN	O	I-Task
+modes	NN	O	I-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+soliton	NN	O	I-Task
+itself	NN	O	O
+is	NN	O	O
+ignored	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+fractional	NN	O	B-Task
+values	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+fermionic	NN	O	I-Task
+charge	NN	O	I-Task
+have	NN	O	O
+interesting	NN	O	O
+consequence	NN	O	O
+for	NN	O	O
+the	NN	O	B-Task
+fate	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+soliton	NN	O	I-Task
+if	NN	O	O
+the	NN	O	O
+latter	NN	O	O
+is	NN	O	O
+not	NN	O	O
+strictly	NN	O	O
+stable	NN	O	O
+.	NN	O	O
+The	NN	O	O
+reason	NN	O	O
+for	NN	O	O
+this	NN	O	O
+is	NN	O	O
+that	NN	O	O
+if	NN	O	O
+the	NN	O	O
+configuration	NN	O	O
+were	NN	O	O
+to	NN	O	O
+relax	NN	O	O
+to	NN	O	O
+trivial	NN	O	O
+vacuum	NN	O	B-Material
+in	NN	O	O
+isolation	NN	O	O
+,	NN	O	O
+there	NN	O	O
+is	NN	O	O
+no	NN	O	O
+particle	NN	O	O
+-	NN	O	O
+like	NN	O	O
+state	NN	O	O
+available	NN	O	O
+for	NN	O	O
+carrying	NN	O	B-Task
+the	NN	O	I-Task
+fractional	NN	O	I-Task
+value	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+fermionic	NN	O	I-Task
+charge	NN	O	I-Task
+.	NN	O	O
+Dynamical	NN	O	B-Task
+stability	NN	O	I-Task
+of	NN	O	I-Task
+such	NN	O	I-Task
+objects	NN	O	I-Task
+was	NN	O	O
+pointed	NN	O	O
+out	NN	O	O
+in	NN	O	O
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+,	NN	O	O
+in	NN	O	O
+cosmological	NN	O	O
+context	NN	O	O
+in	NN	O	O
+[	NN	O	O
+4,5	NN	O	O
+]	NN	O	O
+and	NN	O	O
+more	NN	O	O
+recently	NN	O	O
+in	NN	O	O
+[	NN	O	O
+6–8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Fractional	NN	O	O
+fermion	NN	O	O
+number	NN	O	O
+phenomenon	NN	O	O
+also	NN	O	O
+occurs	NN	O	O
+in	NN	O	O
+condensed	NN	O	B-Material
+matter	NN	O	I-Material
+systems	NN	O	I-Material
+and	NN	O	O
+its	NN	O	O
+wide	NN	O	O
+ranging	NN	O	O
+implications	NN	O	O
+call	NN	O	O
+for	NN	O	O
+a	NN	O	O
+systematic	NN	O	B-Task
+understanding	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+phenomenon	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0370269304007749)
+
+The	NN	O	O
+charmonium	NN	O	B-Process
+production	NN	O	I-Process
+has	NN	O	O
+long	NN	O	O
+been	NN	O	O
+considered	NN	O	O
+as	NN	O	O
+a	NN	O	O
+good	NN	O	O
+process	NN	O	O
+for	NN	O	O
+investigating	NN	O	B-Task
+both	NN	O	I-Task
+perturbative	NN	O	I-Task
+and	NN	O	I-Task
+nonperturbative	NN	O	I-Task
+properties	NN	O	I-Task
+of	NN	O	I-Task
+quantum	NN	O	I-Task
+chromodynamics	NN	O	I-Task
+(	NN	O	I-Task
+QCD	NN	O	I-Task
+)	NN	O	O
+,	NN	O	O
+because	NN	O	O
+of	NN	O	O
+the	NN	O	O
+relatively	NN	O	O
+large	NN	O	O
+difference	NN	O	O
+between	NN	O	O
+the	NN	O	O
+scale	NN	O	O
+at	NN	O	O
+which	NN	O	O
+the	NN	O	O
+charm	NN	O	O
+–	NN	O	O
+quark	NN	O	O
+pair	NN	O	O
+is	NN	O	O
+produced	NN	O	O
+at	NN	O	O
+the	NN	O	O
+parton	NN	O	O
+level	NN	O	O
+and	NN	O	O
+the	NN	O	O
+scale	NN	O	O
+at	NN	O	O
+which	NN	O	O
+it	NN	O	O
+evolves	NN	O	O
+into	NN	O	O
+a	NN	O	O
+quarkonium	NN	O	O
+.	NN	O	O
+In	NN	O	O
+particular	NN	O	O
+,	NN	O	O
+comparing	NN	O	O
+to	NN	O	O
+hadron	NN	O	O
+colliders	NN	O	O
+,	NN	O	O
+e+e−	NN	O	B-Material
+colliders	NN	O	I-Material
+,	NN	O	O
+provide	NN	O	O
+a	NN	O	O
+cleaner	NN	O	O
+environment	NN	O	O
+to	NN	O	O
+study	NN	O	B-Task
+the	NN	O	I-Task
+charmonium	NN	O	I-Task
+productions	NN	O	I-Task
+and	NN	O	I-Task
+decays	NN	O	I-Task
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+some	NN	O	O
+puzzles	NN	O	O
+arise	NN	O	O
+from	NN	O	O
+the	NN	O	O
+recent	NN	O	B-Process
+measurements	NN	O	I-Process
+on	NN	O	I-Process
+the	NN	O	I-Process
+prompt	NN	O	I-Process
+J/ψ	NN	O	I-Process
+productions	NN	O	O
+at	NN	O	O
+BaBar	NN	O	B-Process
+and	NN	O	O
+Belle	NN	O	B-Process
+[	NN	O	O
+1–3	NN	O	O
+]	NN	O	O
+.	NN	O	O
+For	NN	O	O
+the	NN	O	O
+inclusive	NN	O	B-Task
+J/ψ	NN	O	I-Task
+productions	NN	O	I-Task
+,	NN	O	O
+the	NN	O	O
+cross	NN	O	O
+section	NN	O	O
+is	NN	O	O
+much	NN	O	O
+larger	NN	O	O
+than	NN	O	O
+the	NN	O	O
+predictions	NN	O	O
+of	NN	O	O
+nonrelativistic	NN	O	B-Process
+quantum	NN	O	I-Process
+chromodynamics	NN	O	I-Process
+(	NN	O	O
+NRQCD	NN	O	B-Process
+)	NN	O	O
+[	NN	O	O
+4	NN	O	O
+]	NN	O	O
+;	NN	O	O
+there	NN	O	O
+is	NN	O	O
+also	NN	O	O
+an	NN	O	O
+over	NN	O	O
+-	NN	O	O
+abundance	NN	O	O
+of	NN	O	O
+the	NN	O	O
+four	NN	O	B-Process
+-	NN	O	I-Process
+charm	NN	O	I-Process
+–	NN	O	I-Process
+quark	NN	O	I-Process
+processes	NN	O	I-Process
+including	NN	O	O
+the	NN	O	O
+exclusive	NN	O	B-Process
+J/ψ	NN	O	I-Process
+and	NN	O	I-Process
+charmonium	NN	O	I-Process
+productions	NN	O	I-Process
+;	NN	O	O
+there	NN	O	O
+is	NN	O	O
+no	NN	O	O
+apparent	NN	O	O
+signal	NN	O	O
+in	NN	O	O
+the	NN	O	O
+hard	NN	O	O
+J/ψ	NN	O	O
+spectrum	NN	O	O
+which	NN	O	O
+has	NN	O	O
+been	NN	O	O
+predicted	NN	O	O
+by	NN	O	O
+the	NN	O	O
+J/ψgg	NN	O	B-Process
+production	NN	O	I-Process
+mode	NN	O	I-Process
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+the	NN	O	O
+color	NN	O	B-Process
+-	NN	O	I-Process
+octet	NN	O	I-Process
+mechanism	NN	O	I-Process
+in	NN	O	I-Process
+NRQCD	NN	O	I-Process
+.	NN	O	O
+To	NN	O	O
+provide	NN	O	O
+plausible	NN	O	O
+solutions	NN	O	O
+and	NN	O	O
+explanations	NN	O	O
+for	NN	O	O
+these	NN	O	O
+conflicts	NN	O	O
+,	NN	O	O
+theorists	NN	O	O
+have	NN	O	O
+studied	NN	O	O
+the	NN	O	O
+possibilities	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+contribution	NN	O	I-Task
+from	NN	O	I-Task
+two	NN	O	I-Task
+-	NN	O	I-Task
+virtual	NN	O	I-Task
+-	NN	O	I-Task
+photon	NN	O	I-Task
+mediate	NN	O	I-Task
+processes	NN	O	I-Task
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+,	NN	O	O
+large	NN	O	B-Task
+higher	NN	O	I-Task
+-	NN	O	I-Task
+order	NN	O	I-Task
+QCD	NN	O	I-Task
+corrections	NN	O	I-Task
+[	NN	O	O
+6,7	NN	O	O
+]	NN	O	O
+,	NN	O	O
+collinear	NN	O	B-Task
+suppression	NN	O	I-Task
+at	NN	O	I-Task
+the	NN	O	I-Task
+end	NN	O	I-Task
+-	NN	O	I-Task
+point	NN	O	I-Task
+region	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+J/ψ	NN	O	I-Task
+momentum	NN	O	I-Task
+[	NN	O	O
+7,8	NN	O	O
+]	NN	O	O
+,	NN	O	O
+contribution	NN	O	B-Task
+from	NN	O	I-Task
+the	NN	O	I-Task
+J/ψ-glueball	NN	O	I-Task
+associated	NN	O	I-Task
+production	NN	O	I-Task
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+and	NN	O	O
+contribution	NN	O	B-Task
+from	NN	O	I-Task
+a	NN	O	I-Task
+very	NN	O	I-Task
+light	NN	O	I-Task
+scalar	NN	O	I-Task
+boson	NN	O	I-Task
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304007798)
+
+States	NN	O	O
+outside	NN	O	O
+the	NN	O	O
+constituent	NN	O	O
+quark	NN	O	O
+model	NN	O	O
+have	NN	O	O
+been	NN	O	O
+hypothesized	NN	O	O
+to	NN	O	O
+exist	NN	O	O
+almost	NN	O	O
+since	NN	O	O
+the	NN	O	O
+introduction	NN	O	O
+of	NN	O	O
+color	NN	O	O
+[	NN	O	O
+1–4	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Hybrid	NN	O	B-Material
+mesons	NN	O	I-Material
+,	NN	O	O
+qq̄	NN	O	O
+states	NN	O	O
+with	NN	O	O
+an	NN	O	O
+admixture	NN	O	O
+of	NN	O	O
+gluons	NN	O	B-Material
+,	NN	O	O
+and	NN	O	O
+glueballs	NN	O	B-Material
+,	NN	O	O
+states	NN	O	O
+with	NN	O	O
+no	NN	O	O
+quark	NN	O	B-Material
+content	NN	O	O
+,	NN	O	O
+rely	NN	O	O
+on	NN	O	O
+the	NN	O	O
+self	NN	O	O
+interaction	NN	O	O
+property	NN	O	O
+of	NN	O	O
+gluons	NN	O	B-Material
+due	NN	O	O
+to	NN	O	O
+their	NN	O	O
+color	NN	O	B-Process
+charge	NN	O	I-Process
+.	NN	O	O
+Looking	NN	O	B-Process
+for	NN	O	I-Process
+glueballs	NN	O	I-Process
+would	NN	O	O
+be	NN	O	O
+the	NN	O	O
+most	NN	O	O
+obvious	NN	O	O
+way	NN	O	O
+to	NN	O	O
+find	NN	O	B-Task
+evidence	NN	O	I-Task
+for	NN	O	I-Task
+states	NN	O	I-Task
+with	NN	O	I-Task
+constituent	NN	O	I-Task
+gluons	NN	O	I-Task
+;	NN	O	O
+however	NN	O	O
+,	NN	O	O
+the	NN	O	O
+search	NN	O	O
+is	NN	O	O
+hindered	NN	O	O
+by	NN	O	O
+the	NN	O	O
+fact	NN	O	O
+that	NN	O	O
+these	NN	O	O
+states	NN	O	O
+may	NN	O	O
+significantly	NN	O	O
+mix	NN	O	O
+with	NN	O	O
+regular	NN	O	O
+qq̄-mesons	NN	O	B-Material
+in	NN	O	O
+the	NN	O	O
+region	NN	O	O
+where	NN	O	O
+the	NN	O	O
+lightest	NN	O	O
+are	NN	O	O
+predicted	NN	O	O
+to	NN	O	O
+occur	NN	O	O
+.	NN	O	O
+As	NN	O	O
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+,	NN	O	O
+they	NN	O	O
+may	NN	O	O
+not	NN	O	O
+be	NN	O	O
+observable	NN	O	O
+as	NN	O	O
+pure	NN	O	O
+states	NN	O	O
+and	NN	O	O
+disentangling	NN	O	B-Task
+the	NN	O	I-Task
+observed	NN	O	I-Task
+spectra	NN	O	I-Task
+may	NN	O	O
+be	NN	O	O
+a	NN	O	O
+very	NN	O	O
+difficult	NN	O	O
+task	NN	O	O
+.	NN	O	O
+Instead	NN	O	O
+,	NN	O	O
+hybrid	NN	O	B-Material
+mesons	NN	O	I-Material
+(	NN	O	O
+qq̄gn	NN	O	B-Material
+)	NN	O	O
+may	NN	O	O
+be	NN	O	O
+a	NN	O	O
+better	NN	O	O
+place	NN	O	O
+to	NN	O	O
+search	NN	O	O
+for	NN	O	O
+evidence	NN	O	O
+of	NN	O	O
+resonances	NN	O	B-Task
+outside	NN	O	I-Task
+the	NN	O	I-Task
+constituent	NN	O	I-Task
+quark	NN	O	I-Task
+model	NN	O	I-Task
+,	NN	O	O
+especially	NN	O	O
+since	NN	O	O
+the	NN	O	O
+lightest	NN	O	O
+of	NN	O	O
+theses	NN	O	O
+states	NN	O	O
+are	NN	O	O
+predicted	NN	O	O
+to	NN	O	O
+have	NN	O	O
+exotic	NN	O	O
+quantum	NN	O	O
+numbers	NN	O	O
+of	NN	O	O
+spin	NN	O	O
+,	NN	O	O
+parity	NN	O	O
+,	NN	O	O
+and	NN	O	O
+charge	NN	O	O
+conjugation	NN	O	O
+,	NN	O	O
+JPC	NN	O	B-Process
+,	NN	O	O
+that	NN	O	O
+is	NN	O	O
+,	NN	O	O
+combinations	NN	O	O
+that	NN	O	O
+are	NN	O	O
+unattainable	NN	O	O
+by	NN	O	O
+regular	NN	O	O
+qq̄-mesons	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S0370269304008305)
+
+Correlation	NN	O	B-Task
+of	NN	O	I-Task
+charm	NN	O	I-Task
+-	NN	O	I-Task
+quark	NN	O	I-Task
+–	NN	O	I-Task
+charm	NN	O	I-Task
+-	NN	O	I-Task
+antiquark	NN	O	I-Task
+in	NN	O	I-Task
+γp	NN	O	I-Task
+scattering	NN	O	I-Task
+are	NN	O	O
+calculated	NN	O	O
+in	NN	O	O
+the	NN	O	O
+kt	NN	O	B-Process
+-	NN	O	I-Process
+factorization	NN	O	I-Process
+approach	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+apply	NN	O	O
+different	NN	O	O
+unintegrated	NN	O	B-Process
+gluon	NN	O	I-Process
+distributions	NN	O	I-Process
+(	NN	O	O
+uGDF	NN	O	B-Process
+)	NN	O	O
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+literature	NN	O	O
+.	NN	O	O
+The	NN	O	O
+results	NN	O	O
+of	NN	O	O
+our	NN	O	O
+calculations	NN	O	O
+are	NN	O	O
+compared	NN	O	O
+with	NN	O	O
+very	NN	O	O
+recent	NN	O	O
+experimental	NN	O	O
+results	NN	O	O
+from	NN	O	O
+the	NN	O	O
+FOCUS	NN	O	O
+Collaboration	NN	O	O
+.	NN	O	O
+The	NN	O	O
+CCFM	NN	O	B-Material
+uGDF	NN	O	I-Material
+developed	NN	O	O
+recently	NN	O	O
+by	NN	O	O
+Kwieciński	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+gives	NN	O	O
+a	NN	O	O
+good	NN	O	O
+description	NN	O	O
+of	NN	O	O
+the	NN	O	O
+data	NN	O	O
+.	NN	O	O
+New	NN	O	O
+observables	NN	O	O
+are	NN	O	O
+suggested	NN	O	O
+for	NN	O	O
+future	NN	O	O
+studies	NN	O	O
+.	NN	O	O
+Predictions	NN	O	O
+and	NN	O	O
+perspectives	NN	O	O
+for	NN	O	O
+the	NN	O	O
+HERA	NN	O	B-Task
+energies	NN	O	I-Task
+are	NN	O	O
+presented	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304008706)
+
+The	NN	O	O
+agreement	NN	O	B-Process
+between	NN	O	I-Process
+the	NN	O	I-Process
+new	NN	O	I-Process
+data	NN	O	I-Process
+and	NN	O	I-Process
+the	NN	O	I-Process
+calculations	NN	O	I-Process
+with	NN	O	I-Process
+the	NN	O	I-Process
+relativistic	NN	O	I-Process
+deuteron	NN	O	I-Process
+wave	NN	O	I-Process
+function	NN	O	I-Process
+should	NN	O	O
+not	NN	O	O
+be	NN	O	O
+considered	NN	O	O
+as	NN	O	O
+accidental	NN	O	O
+one	NN	O	O
+;	NN	O	O
+in	NN	O	O
+this	NN	O	O
+connection	NN	O	O
+other	NN	O	O
+results	NN	O	O
+should	NN	O	O
+be	NN	O	O
+mentioned	NN	O	O
+.	NN	O	O
+Previously	NN	O	O
+it	NN	O	O
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+[	NN	O	O
+15	NN	O	O
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+-	NN	O	I-Process
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+reasonably	NN	O	O
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+the	NN	O	O
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+0	NN	O	I-Process
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+/	NN	O	I-Process
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+Furthermore	NN	O	O
+,	NN	O	O
+within	NN	O	O
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+a	NN	O	O
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+of	NN	O	O
+4.5	NN	O	O
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+80	NN	O	O
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+,	NN	O	I-Process
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+9	NN	O	O
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+c	NN	O	O
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+85	NN	O	O
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+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304008731)
+
+A	NN	O	O
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+-	NN	O	I-Task
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+the	NN	O	O
+framework	NN	O	O
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+threefold	NN	O	O
+degenerate	NN	O	B-Material
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+neutrinos	NN	O	I-Material
+.	NN	O	O
+In	NN	O	O
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+,	NN	O	O
+we	NN	O	O
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+symmetry	NN	O	O
+in	NN	O	O
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+at	NN	O	O
+a	NN	O	O
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+account	NN	O	O
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+,	NN	O	O
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+matrix	NN	O	I-Process
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+.	NN	O	O
+On	NN	O	O
+the	NN	O	O
+other	NN	O	O
+hand	NN	O	O
+,	NN	O	O
+the	NN	O	O
+solar	NN	O	B-Process
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+due	NN	O	O
+to	NN	O	O
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+-	NN	O	I-Material
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+,	NN	O	O
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+the	NN	O	O
+desirable	NN	O	O
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+be	NN	O	O
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+corrections	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0370269304008780)
+
+In	NN	O	O
+the	NN	O	O
+NJL	NN	O	B-Task
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+studied	NN	O	I-Task
+here	NN	O	O
+,	NN	O	O
+we	NN	O	O
+find	NN	O	O
+no	NN	O	O
+stable	NN	O	B-Material
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+with	NN	O	O
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+CFL	NN	O	B-Material
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+quark	NN	O	I-Material
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+cores	NN	O	I-Material
+.	NN	O	O
+This	NN	O	O
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+opposite	NN	O	O
+of	NN	O	O
+the	NN	O	O
+prediction	NN	O	O
+of	NN	O	O
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+.	NN	O	O
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+where	NN	O	O
+it	NN	O	O
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+argued	NN	O	O
+that	NN	O	O
+there	NN	O	O
+is	NN	O	O
+no	NN	O	O
+2SC	NN	O	O
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+in	NN	O	O
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+.	NN	O	O
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+a	NN	O	O
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+,	NN	O	O
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+[	NN	O	O
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+-	NN	O	I-Material
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+the	NN	O	O
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+or	NN	O	O
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+quark	NN	O	I-Material
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+.	NN	O	O
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+that	NN	O	O
+the	NN	O	O
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+in	NN	O	O
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+.	NN	O	O
+In	NN	O	O
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+,	NN	O	O
+it	NN	O	O
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+[	NN	O	O
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+the	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+
+-DOCSTART- (S0370269304008792)
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+-	NN	O	I-Process
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+-	NN	O	I-Process
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+-DOCSTART- (S0370269304008809)
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+constructed	NN	O	I-Task
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+At	NN	O	O
+one	NN	O	O
+extreme	NN	O	O
+where	NN	O	O
+no	NN	O	B-Process
+correlations	NN	O	I-Process
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+therefore	NN	O	I-Process
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+redundancy	NN	O	I-Process
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+(	NN	O	O
+Poissonian	NN	O	B-Process
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+)	NN	O	O
+,	NN	O	O
+there	NN	O	O
+is	NN	O	O
+no	NN	O	O
+possibility	NN	O	O
+of	NN	O	O
+detecting	NN	O	B-Task
+one	NN	O	I-Task
+missing	NN	O	I-Task
+level	NN	O	I-Task
+.	NN	O	O
+At	NN	O	O
+the	NN	O	O
+other	NN	O	O
+extreme	NN	O	O
+,	NN	O	O
+a	NN	O	O
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+levels	NN	O	I-Task
+(	NN	O	O
+picket	NN	O	B-Task
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+)	NN	O	O
+,	NN	O	O
+there	NN	O	O
+is	NN	O	O
+a	NN	O	O
+maximum	NN	O	O
+redundancy	NN	O	O
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+a	NN	O	O
+missed	NN	O	B-Task
+level	NN	O	I-Task
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+be	NN	O	I-Task
+obviously	NN	O	I-Task
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+a	NN	O	I-Task
+hole	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+spectrum	NN	O	I-Task
+.	NN	O	O
+Eigenvalues	NN	O	O
+of	NN	O	O
+random	NN	O	O
+matrices	NN	O	O
+,	NN	O	O
+which	NN	O	O
+exhibit	NN	O	O
+characteristic	NN	O	O
+correlations	NN	O	O
+,	NN	O	O
+correspond	NN	O	O
+to	NN	O	O
+an	NN	O	O
+intermediate	NN	O	O
+situation	NN	O	O
+between	NN	O	O
+these	NN	O	O
+two	NN	O	O
+extremes	NN	O	O
+.	NN	O	O
+The	NN	O	O
+attempts	NN	O	O
+to	NN	O	O
+locate	NN	O	B-Task
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+the	NN	O	I-Task
+last	NN	O	I-Task
+case	NN	O	I-Task
+a	NN	O	I-Task
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+have	NN	O	O
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+unsuccessful	NN	O	O
+so	NN	O	O
+far	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+it	NN	O	O
+should	NN	O	O
+be	NN	O	O
+mentioned	NN	O	O
+that	NN	O	O
+for	NN	O	O
+two	NN	O	B-Task
+-	NN	O	I-Task
+dimensional	NN	O	I-Task
+chaotic	NN	O	I-Task
+systems	NN	O	I-Task
+where	NN	O	O
+,	NN	O	O
+besides	NN	O	O
+correlations	NN	O	O
+of	NN	O	O
+the	NN	O	O
+order	NN	O	O
+of	NN	O	O
+one	NN	O	O
+mean	NN	O	O
+spacing	NN	O	O
+as	NN	O	O
+described	NN	O	O
+by	NN	O	O
+random	NN	O	O
+matrices	NN	O	O
+,	NN	O	O
+the	NN	O	O
+presence	NN	O	O
+and	NN	O	O
+the	NN	O	O
+role	NN	O	O
+of	NN	O	O
+long	NN	O	O
+range	NN	O	O
+correlations	NN	O	O
+governed	NN	O	O
+by	NN	O	O
+the	NN	O	O
+shortest	NN	O	O
+periodic	NN	O	O
+orbits	NN	O	O
+and	NN	O	O
+reflected	NN	O	O
+in	NN	O	O
+Weyl	NN	O	B-Process
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+law	NN	O	I-Process
+describing	NN	O	I-Process
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+density	NN	O	I-Process
+,	NN	O	O
+is	NN	O	O
+well	NN	O	O
+understood	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+then	NN	O	O
+possible	NN	O	O
+to	NN	O	O
+approximately	NN	O	B-Task
+locate	NN	O	I-Task
+,	NN	O	O
+from	NN	O	O
+the	NN	O	O
+study	NN	O	B-Process
+of	NN	O	I-Process
+spectral	NN	O	I-Process
+fluctuations	NN	O	I-Process
+,	NN	O	O
+a	NN	O	B-Task
+single	NN	O	I-Task
+missed	NN	O	I-Task
+level	NN	O	I-Task
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304008858)
+
+The	NN	O	O
+reason	NN	O	O
+to	NN	O	O
+investigate	NN	O	B-Task
+the	NN	O	I-Task
+BFKL	NN	O	I-Task
+and	NN	O	I-Task
+DGLAP	NN	O	I-Task
+equations	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+case	NN	O	I-Task
+of	NN	O	I-Task
+supersymmetric	NN	O	I-Task
+theories	NN	O	I-Task
+is	NN	O	O
+based	NN	O	O
+on	NN	O	O
+a	NN	O	O
+common	NN	O	O
+belief	NN	O	O
+,	NN	O	O
+that	NN	O	O
+the	NN	O	O
+high	NN	O	B-Task
+symmetry	NN	O	I-Task
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+significantly	NN	O	I-Task
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+the	NN	O	I-Task
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+these	NN	O	I-Task
+equations	NN	O	I-Task
+.	NN	O	O
+Indeed	NN	O	O
+,	NN	O	O
+it	NN	O	O
+was	NN	O	O
+found	NN	O	O
+in	NN	O	O
+the	NN	O	O
+leading	NN	O	B-Process
+logarithmic	NN	O	I-Process
+approximation	NN	O	I-Process
+(	NN	O	O
+LLA	NN	O	B-Process
+)	NN	O	O
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+,	NN	O	O
+that	NN	O	O
+the	NN	O	O
+so	NN	O	O
+-	NN	O	O
+called	NN	O	O
+quasi	NN	O	O
+-	NN	O	O
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+operators	NN	O	O
+in	NN	O	O
+N=1	NN	O	O
+SYM	NN	O	O
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+unified	NN	O	O
+in	NN	O	O
+supermultiplets	NN	O	O
+with	NN	O	O
+anomalous	NN	O	B-Process
+dimensions	NN	O	I-Process
+obtained	NN	O	I-Process
+from	NN	O	I-Process
+universal	NN	O	I-Process
+anomalous	NN	O	I-Process
+dimensions	NN	O	I-Process
+γuni(j	NN	O	I-Process
+)	NN	O	I-Process
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+shifting	NN	O	I-Process
+its	NN	O	I-Process
+arguments	NN	O	I-Process
+by	NN	O	I-Process
+an	NN	O	I-Process
+integer	NN	O	I-Process
+number	NN	O	I-Process
+.	NN	O	O
+Further	NN	O	O
+,	NN	O	O
+the	NN	O	O
+anomalous	NN	O	B-Task
+dimension	NN	O	I-Task
+matrices	NN	O	I-Task
+for	NN	O	I-Task
+twist-2	NN	O	I-Task
+operators	NN	O	I-Task
+are	NN	O	O
+fixed	NN	O	B-Process
+by	NN	O	I-Process
+the	NN	O	I-Process
+superconformal	NN	O	I-Process
+invariance	NN	O	I-Process
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Calculations	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+maximally	NN	O	I-Process
+extended	NN	O	I-Process
+N=4	NN	O	I-Process
+SYM	NN	O	I-Process
+,	NN	O	I-Process
+where	NN	O	I-Process
+the	NN	O	I-Process
+coupling	NN	O	I-Process
+constant	NN	O	I-Process
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+not	NN	O	I-Process
+renormalized	NN	O	I-Process
+,	NN	O	O
+give	NN	O	O
+even	NN	O	O
+more	NN	O	O
+remarkable	NN	O	O
+results	NN	O	O
+.	NN	O	O
+Namely	NN	O	O
+,	NN	O	O
+it	NN	O	O
+turns	NN	O	O
+out	NN	O	O
+,	NN	O	O
+that	NN	O	O
+here	NN	O	O
+all	NN	O	O
+twist-2	NN	O	B-Task
+operators	NN	O	I-Task
+enter	NN	O	O
+in	NN	O	O
+the	NN	O	O
+same	NN	O	O
+multiplet	NN	O	O
+,	NN	O	O
+their	NN	O	O
+anomalous	NN	O	B-Task
+dimension	NN	O	I-Task
+matrix	NN	O	I-Task
+is	NN	O	O
+fixed	NN	O	O
+completely	NN	O	O
+by	NN	O	O
+the	NN	O	O
+super	NN	O	B-Process
+-	NN	O	I-Process
+conformal	NN	O	I-Process
+invariance	NN	O	I-Process
+and	NN	O	O
+its	NN	O	O
+universal	NN	O	O
+anomalous	NN	O	O
+dimension	NN	O	O
+in	NN	O	O
+LLA	NN	O	O
+is	NN	O	O
+proportional	NN	O	O
+to	NN	O	O
+Ψ(j−1)−Ψ(1	NN	O	O
+)	NN	O	O
+,	NN	O	O
+which	NN	O	O
+means	NN	O	O
+,	NN	O	O
+that	NN	O	O
+the	NN	O	O
+evolution	NN	O	B-Task
+equations	NN	O	I-Task
+for	NN	O	I-Task
+the	NN	O	I-Task
+matrix	NN	O	I-Task
+elements	NN	O	I-Task
+of	NN	O	I-Task
+quasi	NN	O	I-Task
+-	NN	O	I-Task
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+in	NN	O	I-Task
+the	NN	O	I-Task
+multicolor	NN	O	I-Task
+limit	NN	O	I-Task
+Nc→∞	NN	O	I-Task
+are	NN	O	O
+equivalent	NN	O	O
+to	NN	O	O
+the	NN	O	O
+Schrödinger	NN	O	O
+equation	NN	O	O
+for	NN	O	O
+an	NN	O	O
+integrable	NN	O	O
+Heisenberg	NN	O	O
+spin	NN	O	O
+model	NN	O	O
+[	NN	O	O
+11,12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+QCD	NN	O	O
+the	NN	O	O
+integrability	NN	O	O
+remains	NN	O	O
+only	NN	O	O
+in	NN	O	O
+a	NN	O	O
+small	NN	O	O
+sector	NN	O	O
+of	NN	O	O
+the	NN	O	O
+quasi	NN	O	O
+-	NN	O	O
+partonic	NN	O	O
+operators	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+N=4	NN	O	B-Task
+SYM	NN	O	I-Task
+the	NN	O	O
+equations	NN	O	O
+for	NN	O	O
+other	NN	O	O
+sets	NN	O	O
+of	NN	O	O
+operators	NN	O	O
+are	NN	O	O
+also	NN	O	O
+integrable	NN	O	O
+[	NN	O	O
+14–16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Evolution	NN	O	B-Task
+equations	NN	O	I-Task
+for	NN	O	I-Task
+quasi	NN	O	I-Task
+-	NN	O	I-Task
+partonic	NN	O	I-Task
+operators	NN	O	I-Task
+are	NN	O	O
+written	NN	O	O
+in	NN	O	O
+an	NN	O	O
+explicitly	NN	O	O
+super	NN	O	O
+-	NN	O	O
+conformal	NN	O	O
+form	NN	O	O
+in	NN	O	O
+Ref	NN	O	O
+.	NN	O	O
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304008974)
+
+Thus	NN	O	O
+,	NN	O	O
+the	NN	O	O
+extension	NN	O	B-Process
+to	NN	O	I-Process
+the	NN	O	I-Process
+charmed	NN	O	I-Process
+analogue	NN	O	I-Process
+Θc(3099	NN	O	I-Process
+)	NN	O	I-Process
+provides	NN	O	O
+an	NN	O	O
+interesting	NN	O	O
+test	NN	O	O
+for	NN	O	O
+the	NN	O	O
+SDO	NN	O	B-Task
+sum	NN	O	I-Task
+rule	NN	O	I-Task
+and	NN	O	I-Task
+lattice	NN	O	I-Task
+calculations	NN	O	I-Task
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Here	NN	O	O
+,	NN	O	O
+the	NN	O	O
+charm	NN	O	B-Material
+quark	NN	O	I-Material
+is	NN	O	O
+quite	NN	O	O
+heavy	NN	O	O
+so	NN	O	O
+that	NN	O	O
+the	NN	O	O
+constituent	NN	O	B-Process
+-	NN	O	I-Process
+quark	NN	O	I-Process
+picture	NN	O	I-Process
+may	NN	O	O
+fit	NN	O	O
+well	NN	O	O
+and	NN	O	O
+the	NN	O	O
+JW	NN	O	B-Process
+prediction	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+parity	NN	O	O
+is	NN	O	O
+expected	NN	O	O
+to	NN	O	O
+be	NN	O	O
+reproduced	NN	O	O
+from	NN	O	O
+QCD	NN	O	B-Material
+.	NN	O	O
+In	NN	O	O
+fact	NN	O	O
+,	NN	O	O
+quenched	NN	O	B-Task
+lattice	NN	O	I-Task
+calculation	NN	O	I-Task
+finds	NN	O	O
+the	NN	O	O
+parity	NN	O	O
+of	NN	O	O
+Θc(3099	NN	O	O
+)	NN	O	O
+to	NN	O	O
+be	NN	O	O
+positive	NN	O	O
+[	NN	O	O
+28	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+extension	NN	O	O
+to	NN	O	O
+the	NN	O	O
+Θc(3099	NN	O	O
+)	NN	O	O
+sum	NN	O	O
+rules	NN	O	O
+,	NN	O	O
+there	NN	O	O
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+important	NN	O	O
+aspects	NN	O	O
+,	NN	O	O
+which	NN	O	O
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+this	NN	O	O
+sum	NN	O	B-Task
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+,	NN	O	O
+since	NN	O	O
+the	NN	O	O
+charm	NN	O	B-Material
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+too	NN	O	O
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+to	NN	O	O
+form	NN	O	O
+quark	NN	O	B-Material
+condensate	NN	O	I-Material
+,	NN	O	O
+it	NN	O	O
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+non	NN	O	O
+-	NN	O	O
+perturbative	NN	O	O
+effects	NN	O	O
+only	NN	O	O
+by	NN	O	O
+radiating	NN	O	B-Material
+gluons	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+quark	NN	O	B-Material
+–	NN	O	I-Material
+gluon	NN	O	I-Material
+mixed	NN	O	I-Material
+condensate	NN	O	I-Material
+〈	NN	O	O
+s̄gsσ·Gs	NN	O	B-Material
+〉	NN	O	O
+,	NN	O	O
+which	NN	O	O
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+the	NN	O	O
+important	NN	O	O
+contribution	NN	O	O
+in	NN	O	O
+the	NN	O	O
+Θ+	NN	O	B-Process
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+rule	NN	O	I-Process
+,	NN	O	O
+is	NN	O	O
+replaced	NN	O	B-Process
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+gluonic	NN	O	I-Process
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+quark	NN	O	I-Process
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+that	NN	O	O
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+normally	NN	O	O
+suppressed	NN	O	O
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+Secondly	NN	O	O
+,	NN	O	O
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+OPE	NN	O	I-Process
+,	NN	O	O
+which	NN	O	O
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+done	NN	O	O
+by	NN	O	O
+using	NN	O	O
+the	NN	O	O
+momentum	NN	O	B-Process
+space	NN	O	I-Process
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+for	NN	O	O
+the	NN	O	O
+charm	NN	O	B-Material
+-	NN	O	I-Material
+quark	NN	O	I-Material
+propagator	NN	O	I-Material
+.	NN	O	O
+This	NN	O	O
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+different	NN	O	O
+from	NN	O	O
+the	NN	O	B-Process
+light	NN	O	I-Process
+-	NN	O	I-Process
+quark	NN	O	I-Process
+sum	NN	O	I-Process
+rule	NN	O	I-Process
+where	NN	O	O
+the	NN	O	O
+calculation	NN	O	O
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+performed	NN	O	O
+in	NN	O	O
+the	NN	O	O
+coordinate	NN	O	O
+space	NN	O	O
+and	NN	O	O
+all	NN	O	O
+the	NN	O	O
+quark	NN	O	B-Material
+propagators	NN	O	I-Material
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+obtained	NN	O	O
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+on	NN	O	O
+the	NN	O	O
+expansion	NN	O	O
+with	NN	O	O
+the	NN	O	O
+small	NN	O	B-Material
+quark	NN	O	I-Material
+mass	NN	O	O
+.	NN	O	O
+Keeping	NN	O	O
+these	NN	O	O
+two	NN	O	O
+aspects	NN	O	O
+in	NN	O	O
+mind	NN	O	O
+,	NN	O	O
+we	NN	O	O
+construct	NN	O	O
+QCD	NN	O	B-Process
+sum	NN	O	I-Process
+rules	NN	O	I-Process
+for	NN	O	O
+Θc(3099	NN	O	O
+)	NN	O	O
+and	NN	O	O
+see	NN	O	B-Task
+how	NN	O	I-Task
+they	NN	O	I-Task
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+different	NN	O	I-Task
+from	NN	O	I-Task
+the	NN	O	I-Task
+Θ+(1540	NN	O	I-Task
+)	NN	O	I-Task
+sum	NN	O	I-Task
+rule	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0370269304008998)
+
+Including	NN	O	O
+the	NN	O	O
+O(αs	NN	O	O
+)	NN	O	O
+corrections	NN	O	O
+,	NN	O	O
+all	NN	O	O
+the	NN	O	O
+operators	NN	O	B-Task
+listed	NN	O	I-Task
+in	NN	O	I-Task
+(	NN	O	I-Task
+9	NN	O	I-Task
+)	NN	O	I-Task
+and	NN	O	I-Task
+(	NN	O	I-Task
+10	NN	O	I-Task
+)	NN	O	I-Task
+have	NN	O	I-Task
+to	NN	O	I-Task
+be	NN	O	I-Task
+included	NN	O	I-Task
+.	NN	O	O
+A	NN	O	O
+convenient	NN	O	O
+framework	NN	O	O
+to	NN	O	O
+carry	NN	O	O
+out	NN	O	O
+these	NN	O	O
+calculations	NN	O	O
+is	NN	O	O
+the	NN	O	O
+QCD	NN	O	B-Process
+factorization	NN	O	I-Process
+framework	NN	O	I-Process
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+which	NN	O	O
+allows	NN	O	O
+to	NN	O	O
+express	NN	O	B-Process
+the	NN	O	I-Process
+hadronic	NN	O	I-Process
+matrix	NN	O	I-Process
+elements	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+schematic	NN	O	I-Process
+form	NN	O	I-Process
+:	NN	O	I-Process
+(	NN	O	O
+11)〈Vγ|Oi|B〉=FB→VTiI+∫dk+2π∫01duφB,+(k+)TiII(k+,u)φV⊥(u	NN	O	B-Process
+)	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+FB→V	NN	O	B-Process
+are	NN	O	O
+the	NN	O	O
+transition	NN	O	B-Process
+form	NN	O	I-Process
+factors	NN	O	I-Process
+defined	NN	O	I-Process
+through	NN	O	I-Process
+the	NN	O	I-Process
+matrix	NN	O	I-Process
+elements	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+operator	NN	O	I-Process
+O7	NN	O	I-Process
+,	NN	O	I-Process
+φB,+(k+	NN	O	I-Process
+)	NN	O	I-Process
+is	NN	O	O
+the	NN	O	O
+leading	NN	O	B-Process
+-	NN	O	I-Process
+twist	NN	O	I-Process
+B	NN	O	I-Process
+-	NN	O	I-Process
+meson	NN	O	I-Process
+wave	NN	O	I-Process
+-	NN	O	I-Process
+function	NN	O	I-Process
+with	NN	O	I-Process
+k+	NN	O	I-Process
+being	NN	O	I-Process
+a	NN	O	I-Process
+light	NN	O	I-Process
+-	NN	O	I-Process
+cone	NN	O	I-Process
+component	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+spectator	NN	O	I-Process
+quark	NN	O	I-Process
+momentum	NN	O	I-Process
+,	NN	O	O
+φ⊥V(u	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+the	NN	O	O
+leading	NN	O	B-Process
+-	NN	O	I-Process
+twist	NN	O	I-Process
+light	NN	O	I-Process
+-	NN	O	I-Process
+cone	NN	O	I-Process
+distribution	NN	O	I-Process
+amplitude	NN	O	I-Process
+(	NN	O	O
+LCDA	NN	O	B-Process
+)	NN	O	O
+of	NN	O	O
+the	NN	O	O
+transversely	NN	O	O
+-	NN	O	O
+polarized	NN	O	O
+vector	NN	O	O
+meson	NN	O	O
+V	NN	O	O
+,	NN	O	O
+and	NN	O	O
+u	NN	O	B-Process
+is	NN	O	O
+the	NN	O	O
+fractional	NN	O	B-Process
+momentum	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+vector	NN	O	I-Process
+meson	NN	O	I-Process
+carried	NN	O	I-Process
+by	NN	O	I-Process
+one	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+two	NN	O	I-Process
+partons	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+quantities	NN	O	O
+TiI	NN	O	O
+and	NN	O	O
+TiII	NN	O	O
+are	NN	O	O
+the	NN	O	O
+hard	NN	O	O
+-	NN	O	O
+perturbative	NN	O	O
+kernels	NN	O	O
+calculated	NN	O	O
+to	NN	O	O
+order	NN	O	O
+αs	NN	O	O
+,	NN	O	O
+with	NN	O	O
+the	NN	O	O
+latter	NN	O	O
+containing	NN	O	O
+the	NN	O	O
+so	NN	O	O
+-	NN	O	O
+called	NN	O	O
+hard	NN	O	O
+-	NN	O	O
+spectator	NN	O	O
+contributions	NN	O	O
+.	NN	O	O
+The	NN	O	B-Process
+factorization	NN	O	I-Process
+formula	NN	O	I-Process
+(	NN	O	O
+11	NN	O	O
+)	NN	O	O
+holds	NN	O	O
+in	NN	O	O
+the	NN	O	O
+heavy	NN	O	B-Material
+quark	NN	O	I-Material
+limit	NN	O	O
+,	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+to	NN	O	O
+order	NN	O	O
+ΛQCD	NN	O	O
+/	NN	O	O
+MB	NN	O	O
+.	NN	O	O
+This	NN	O	B-Process
+factorization	NN	O	I-Process
+framework	NN	O	I-Process
+has	NN	O	O
+been	NN	O	O
+used	NN	O	O
+to	NN	O	O
+calculate	NN	O	O
+the	NN	O	O
+branching	NN	O	O
+fractions	NN	O	O
+and	NN	O	O
+related	NN	O	O
+quantities	NN	O	O
+for	NN	O	O
+the	NN	O	O
+decays	NN	O	O
+B→K∗γ	NN	O	O
+[	NN	O	O
+15–17	NN	O	O
+]	NN	O	O
+and	NN	O	O
+B→ργ	NN	O	O
+[	NN	O	O
+15,17	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+isospin	NN	O	B-Task
+violation	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+B→K∗γ	NN	O	I-Task
+decays	NN	O	I-Task
+in	NN	O	O
+this	NN	O	O
+framework	NN	O	O
+have	NN	O	O
+also	NN	O	O
+been	NN	O	O
+studied	NN	O	O
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+(	NN	O	O
+For	NN	O	O
+applications	NN	O	O
+to	NN	O	O
+B→K∗γ∗	NN	O	O
+,	NN	O	O
+see	NN	O	O
+Refs	NN	O	O
+.	NN	O	O
+[	NN	O	O
+16,19,20	NN	O	O
+]	NN	O	O
+.	NN	O	O
+)	NN	O	O
+Very	NN	O	O
+recently	NN	O	O
+,	NN	O	O
+the	NN	O	O
+hard	NN	O	B-Task
+-	NN	O	I-Task
+spectator	NN	O	I-Task
+contribution	NN	O	I-Task
+arising	NN	O	I-Task
+from	NN	O	I-Task
+the	NN	O	I-Task
+chromomagnetic	NN	O	I-Task
+operator	NN	O	I-Task
+O8	NN	O	I-Task
+have	NN	O	O
+also	NN	O	O
+been	NN	O	O
+calculated	NN	O	O
+in	NN	O	O
+next	NN	O	B-Process
+-	NN	O	I-Process
+to	NN	O	I-Process
+-	NN	O	I-Process
+next	NN	O	I-Process
+-	NN	O	I-Process
+to	NN	O	I-Process
+-	NN	O	I-Process
+leading	NN	O	I-Process
+order	NN	O	I-Process
+(	NN	O	O
+NNLO	NN	O	B-Process
+)	NN	O	O
+in	NN	O	O
+αs	NN	O	O
+showing	NN	O	O
+that	NN	O	O
+the	NN	O	O
+spectator	NN	O	B-Task
+interactions	NN	O	I-Task
+factorize	NN	O	O
+in	NN	O	O
+the	NN	O	O
+heavy	NN	O	O
+quark	NN	O	O
+limit	NN	O	O
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+numerical	NN	O	O
+effect	NN	O	O
+of	NN	O	O
+the	NN	O	O
+resummed	NN	O	O
+NNLO	NN	O	O
+contributions	NN	O	O
+is	NN	O	O
+marginal	NN	O	O
+and	NN	O	O
+we	NN	O	O
+shall	NN	O	O
+not	NN	O	O
+include	NN	O	O
+this	NN	O	O
+in	NN	O	O
+our	NN	O	O
+update	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009013)
+
+Several	NN	O	O
+methods	NN	O	O
+based	NN	O	O
+on	NN	O	O
+dynamical	NN	O	O
+assumptions	NN	O	O
+were	NN	O	O
+suggested	NN	O	O
+for	NN	O	O
+determination	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+P	NN	O	I-Task
+-	NN	O	I-Task
+parity	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+Θ+	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+According	NN	O	O
+to	NN	O	O
+a	NN	O	O
+general	NN	O	B-Process
+theorem	NN	O	I-Process
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+,	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+determine	NN	O	B-Task
+the	NN	O	I-Task
+parity	NN	O	I-Task
+of	NN	O	O
+one	NN	O	O
+particle	NN	O	B-Material
+in	NN	O	O
+a	NN	O	O
+binary	NN	O	B-Process
+reaction	NN	O	I-Process
+one	NN	O	O
+has	NN	O	O
+to	NN	O	O
+know	NN	O	O
+polarizations	NN	O	O
+at	NN	O	O
+least	NN	O	O
+of	NN	O	O
+two	NN	O	O
+fermions	NN	O	B-Material
+participating	NN	O	O
+in	NN	O	O
+this	NN	O	B-Process
+reaction	NN	O	I-Process
+.	NN	O	O
+Model	NN	O	B-Process
+independent	NN	O	I-Process
+methods	NN	O	I-Process
+for	NN	O	O
+determination	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+P	NN	O	I-Task
+-	NN	O	I-Task
+parity	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+Θ+	NN	O	O
+were	NN	O	O
+suggested	NN	O	O
+recently	NN	O	O
+in	NN	O	O
+Refs	NN	O	O
+.	NN	O	O
+[	NN	O	O
+15,16	NN	O	O
+]	NN	O	O
+for	NN	O	O
+pp	NN	O	B-Process
+-	NN	O	I-Process
+collision	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+in	NN	O	O
+Ref	NN	O	O
+.	NN	O	O
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+for	NN	O	O
+photoproduction	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+Θ+	NN	O	O
+.	NN	O	O
+The	NN	O	O
+method	NN	O	O
+of	NN	O	O
+Refs	NN	O	O
+.	NN	O	O
+[	NN	O	O
+15,16	NN	O	O
+]	NN	O	O
+,	NN	O	O
+based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+assumption	NN	O	O
+that	NN	O	O
+the	NN	O	O
+spin	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Θ+	NN	O	O
+equals	NN	O	O
+12	NN	O	O
+,	NN	O	O
+suggests	NN	O	O
+to	NN	O	O
+measure	NN	O	B-Process
+the	NN	O	I-Process
+spin	NN	O	I-Process
+–	NN	O	I-Process
+spin	NN	O	I-Process
+correlation	NN	O	I-Process
+parameter	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+reaction	NN	O	O
+p→p→→Σ+Θ+	NN	O	O
+near	NN	O	O
+the	NN	O	O
+threshold	NN	O	O
+.	NN	O	O
+We	NN	O	O
+generalize	NN	O	O
+here	NN	O	O
+this	NN	O	O
+method	NN	O	O
+for	NN	O	O
+an	NN	O	O
+arbitrary	NN	O	O
+spin	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Θ+	NN	O	O
+and	NN	O	O
+both	NN	O	O
+isospins	NN	O	O
+T=0	NN	O	O
+and	NN	O	O
+T=1	NN	O	O
+of	NN	O	O
+the	NN	O	O
+NN	NN	O	O
+channel	NN	O	O
+of	NN	O	O
+the	NN	O	O
+NN→YΘ+	NN	O	O
+reaction	NN	O	O
+.	NN	O	O
+Furthermore	NN	O	O
+,	NN	O	O
+we	NN	O	O
+consider	NN	O	O
+a	NN	O	O
+polarization	NN	O	B-Process
+transfer	NN	O	I-Process
+from	NN	O	O
+a	NN	O	O
+nucleon	NN	O	B-Material
+to	NN	O	O
+the	NN	O	B-Material
+hyperon	NN	O	I-Material
+Y	NN	O	I-Material
+in	NN	O	O
+this	NN	O	O
+reaction	NN	O	O
+.	NN	O	O
+Our	NN	O	O
+consideration	NN	O	O
+is	NN	O	O
+model	NN	O	O
+independent	NN	O	O
+,	NN	O	O
+since	NN	O	O
+it	NN	O	O
+is	NN	O	O
+based	NN	O	O
+only	NN	O	O
+on	NN	O	O
+conservation	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+P	NN	O	I-Process
+-	NN	O	I-Process
+parity	NN	O	I-Process
+,	NN	O	O
+total	NN	O	B-Process
+angular	NN	O	I-Process
+momentum	NN	O	I-Process
+and	NN	O	O
+isospin	NN	O	B-Process
+in	NN	O	O
+the	NN	O	O
+reaction	NN	O	B-Process
+and	NN	O	O
+the	NN	O	O
+generalized	NN	O	O
+Pauli	NN	O	O
+principle	NN	O	O
+for	NN	O	O
+nucleons	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S0370269304009025)
+
+A	NN	O	O
+central	NN	O	O
+question	NN	O	O
+from	NN	O	O
+the	NN	O	O
+point	NN	O	O
+of	NN	O	O
+view	NN	O	O
+of	NN	O	O
+nuclear	NN	O	O
+physics	NN	O	O
+involves	NN	O	O
+the	NN	O	O
+changes	NN	O	B-Task
+to	NN	O	I-Task
+the	NN	O	I-Task
+quark	NN	O	I-Task
+and	NN	O	I-Task
+antiquark	NN	O	I-Task
+distributions	NN	O	I-Task
+of	NN	O	I-Task
+a	NN	O	I-Task
+bound	NN	O	I-Task
+proton	NN	O	I-Task
+.	NN	O	O
+Since	NN	O	O
+one	NN	O	O
+must	NN	O	O
+develop	NN	O	B-Task
+a	NN	O	I-Task
+reliable	NN	O	I-Task
+model	NN	O	I-Task
+of	NN	O	I-Task
+both	NN	O	I-Task
+the	NN	O	I-Task
+free	NN	O	I-Task
+proton	NN	O	I-Task
+and	NN	O	I-Task
+the	NN	O	I-Task
+binding	NN	O	I-Task
+of	NN	O	I-Task
+nucleons	NN	O	I-Task
+starting	NN	O	I-Task
+from	NN	O	I-Task
+the	NN	O	I-Task
+quark	NN	O	I-Task
+level	NN	O	I-Task
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+,	NN	O	O
+this	NN	O	O
+problem	NN	O	O
+is	NN	O	O
+rather	NN	O	O
+complicated	NN	O	O
+.	NN	O	O
+We	NN	O	O
+intend	NN	O	O
+to	NN	O	O
+report	NN	O	O
+on	NN	O	O
+our	NN	O	O
+investigation	NN	O	O
+of	NN	O	O
+that	NN	O	O
+problem	NN	O	O
+in	NN	O	O
+future	NN	O	O
+work	NN	O	O
+.	NN	O	O
+For	NN	O	O
+the	NN	O	O
+present	NN	O	O
+,	NN	O	O
+we	NN	O	O
+have	NN	O	O
+chosen	NN	O	O
+to	NN	O	O
+illustrate	NN	O	B-Process
+the	NN	O	I-Process
+formal	NN	O	I-Process
+ideas	NN	O	I-Process
+developed	NN	O	I-Process
+here	NN	O	I-Process
+by	NN	O	I-Process
+applying	NN	O	I-Process
+them	NN	O	I-Process
+to	NN	O	I-Process
+a	NN	O	I-Process
+toy	NN	O	I-Process
+model	NN	O	I-Process
+,	NN	O	O
+namely	NN	O	O
+the	NN	O	O
+quark	NN	O	B-Material
+distributions	NN	O	I-Material
+of	NN	O	I-Material
+isospin	NN	O	I-Material
+symmetric	NN	O	I-Material
+quark	NN	O	I-Material
+matter	NN	O	I-Material
+in	NN	O	O
+which	NN	O	O
+each	NN	O	B-Process
+quark	NN	O	I-Process
+feels	NN	O	I-Process
+a	NN	O	I-Process
+scalar	NN	O	I-Process
+potential	NN	O	I-Process
+,	NN	O	I-Process
+−Vsq	NN	O	I-Process
+,	NN	O	I-Process
+and	NN	O	I-Process
+a	NN	O	I-Process
+vector	NN	O	I-Process
+potential	NN	O	I-Process
+,	NN	O	I-Process
+Vvq	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+the	NN	O	O
+premise	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Quark	NN	O	B-Process
+–	NN	O	I-Process
+Meson	NN	O	I-Process
+Coupling	NN	O	I-Process
+(	NN	O	O
+QMC	NN	O	B-Process
+)	NN	O	O
+model	NN	O	O
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+which	NN	O	O
+has	NN	O	O
+been	NN	O	O
+used	NN	O	O
+successfully	NN	O	O
+to	NN	O	O
+calculate	NN	O	B-Task
+the	NN	O	I-Task
+properties	NN	O	I-Task
+of	NN	O	I-Task
+nuclear	NN	O	I-Task
+matter	NN	O	I-Task
+as	NN	O	I-Task
+well	NN	O	I-Task
+as	NN	O	I-Task
+finite	NN	O	I-Task
+nuclei	NN	O	I-Task
+[	NN	O	O
+10,11	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Most	NN	O	O
+recently	NN	O	O
+it	NN	O	O
+has	NN	O	O
+also	NN	O	O
+been	NN	O	O
+used	NN	O	O
+to	NN	O	O
+derive	NN	O	O
+an	NN	O	O
+effective	NN	O	B-Task
+nuclear	NN	O	I-Task
+force	NN	O	I-Task
+which	NN	O	O
+is	NN	O	O
+very	NN	O	O
+close	NN	O	O
+to	NN	O	O
+the	NN	O	O
+widely	NN	O	O
+used	NN	O	O
+Skyrme	NN	O	O
+III	NN	O	O
+force	NN	O	O
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+(	NN	O	O
+Except	NN	O	O
+that	NN	O	O
+in	NN	O	O
+QMC	NN	O	O
+the	NN	O	O
+quarks	NN	O	O
+are	NN	O	O
+confined	NN	O	O
+by	NN	O	O
+the	NN	O	O
+MIT	NN	O	O
+bag	NN	O	O
+,	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+feeling	NN	O	O
+the	NN	O	O
+mean	NN	O	O
+-	NN	O	O
+field	NN	O	O
+scalar	NN	O	O
+and	NN	O	O
+vector	NN	O	O
+potentials	NN	O	O
+generated	NN	O	O
+by	NN	O	O
+the	NN	O	O
+surrounding	NN	O	O
+nucleons	NN	O	O
+.	NN	O	O
+)	NN	O	O
+In	NN	O	O
+the	NN	O	O
+mean	NN	O	B-Process
+field	NN	O	I-Process
+approximation	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+Dirac	NN	O	B-Task
+equation	NN	O	I-Task
+for	NN	O	I-Task
+the	NN	O	I-Task
+quark	NN	O	I-Task
+in	NN	O	I-Task
+infinite	NN	O	I-Task
+quark	NN	O	I-Task
+matter	NN	O	I-Task
+is	NN	O	O
+written	NN	O	O
+as	NN	O	O
+:	NN	O	O
+(	NN	O	B-Task
+30)iγ·∂−m−Vqs−γ0VqvψQMq(x)=0	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0370269304009037)
+
+Within	NN	O	O
+a	NN	O	O
+coalescence	NN	O	B-Process
+approach	NN	O	I-Process
+as	NN	O	O
+successfully	NN	O	O
+applied	NN	O	O
+earlier	NN	O	O
+in	NN	O	O
+the	NN	O	O
+light	NN	O	B-Task
+-	NN	O	I-Task
+quark	NN	O	I-Task
+sector	NN	O	I-Task
+,	NN	O	O
+we	NN	O	O
+have	NN	O	O
+evaluated	NN	O	B-Process
+transverse	NN	O	I-Process
+-	NN	O	I-Process
+momentum	NN	O	I-Process
+dependencies	NN	O	I-Process
+of	NN	O	O
+charmed	NN	O	B-Material
+hadrons	NN	O	I-Material
+in	NN	O	O
+central	NN	O	B-Process
+heavy	NN	O	I-Process
+-	NN	O	I-Process
+ion	NN	O	I-Process
+reactions	NN	O	I-Process
+at	NN	O	O
+RHIC	NN	O	O
+.	NN	O	O
+For	NN	O	O
+the	NN	O	O
+charm	NN	O	B-Task
+-	NN	O	I-Task
+quark	NN	O	I-Task
+distributions	NN	O	I-Task
+at	NN	O	O
+hadronization	NN	O	B-Process
+we	NN	O	O
+have	NN	O	O
+considered	NN	O	O
+two	NN	O	O
+limiting	NN	O	O
+scenarios	NN	O	O
+,	NN	O	O
+i.e.	NN	O	O
+,	NN	O	O
+no	NN	O	O
+reinteractions	NN	O	O
+(	NN	O	O
+using	NN	O	O
+spectra	NN	O	B-Material
+from	NN	O	O
+PYTHIA	NN	O	O
+)	NN	O	O
+and	NN	O	O
+complete	NN	O	B-Process
+thermalization	NN	O	I-Process
+with	NN	O	O
+transverse	NN	O	B-Process
+flow	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+bulk	NN	O	O
+matter	NN	O	O
+.	NN	O	O
+The	NN	O	O
+resulting	NN	O	O
+J/ψ	NN	O	O
+(	NN	O	O
+mT-)spectra	NN	O	O
+differ	NN	O	O
+in	NN	O	O
+slope	NN	O	O
+by	NN	O	O
+up	NN	O	O
+to	NN	O	O
+a	NN	O	O
+factor	NN	O	O
+of	NN	O	O
+2	NN	O	O
+(	NN	O	O
+harder	NN	O	O
+for	NN	O	O
+pQCD	NN	O	B-Material
+c	NN	O	I-Material
+-	NN	O	I-Material
+quarks	NN	O	I-Material
+)	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+integrated	NN	O	B-Process
+yield	NN	O	I-Process
+is	NN	O	O
+about	NN	O	O
+a	NN	O	O
+factor	NN	O	O
+of	NN	O	O
+3	NN	O	O
+larger	NN	O	O
+in	NN	O	O
+the	NN	O	O
+thermal	NN	O	O
+case	NN	O	O
+.	NN	O	O
+For	NN	O	O
+D	NN	O	B-Material
+-	NN	O	I-Material
+mesons	NN	O	I-Material
+,	NN	O	O
+we	NN	O	O
+found	NN	O	O
+that	NN	O	O
+the	NN	O	O
+difference	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+slope	NN	O	I-Process
+parameters	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+pT	NN	O	B-Task
+-	NN	O	I-Task
+spectra	NN	O	I-Task
+in	NN	O	O
+the	NN	O	O
+two	NN	O	O
+scenarios	NN	O	O
+is	NN	O	O
+less	NN	O	O
+pronounced	NN	O	O
+,	NN	O	O
+but	NN	O	O
+their	NN	O	O
+elliptic	NN	O	B-Process
+flow	NN	O	I-Process
+is	NN	O	O
+about	NN	O	O
+a	NN	O	O
+factor	NN	O	O
+of	NN	O	O
+2	NN	O	O
+larger	NN	O	O
+for	NN	O	O
+pT⩾1.5	NN	O	O
+GeV	NN	O	O
+in	NN	O	O
+the	NN	O	O
+thermalized	NN	O	O
+case	NN	O	O
+.	NN	O	O
+The	NN	O	O
+elliptic	NN	O	B-Process
+flow	NN	O	I-Process
+pattern	NN	O	I-Process
+of	NN	O	O
+D	NN	O	B-Material
+-	NN	O	I-Material
+mesons	NN	O	I-Material
+was	NN	O	O
+found	NN	O	O
+to	NN	O	O
+be	NN	O	O
+essentially	NN	O	O
+preserved	NN	O	O
+in	NN	O	O
+the	NN	O	O
+single	NN	O	B-Task
+-	NN	O	I-Task
+electron	NN	O	I-Task
+decay	NN	O	I-Task
+spectra	NN	O	I-Task
+,	NN	O	O
+rendering	NN	O	O
+the	NN	O	O
+latter	NN	O	O
+a	NN	O	O
+very	NN	O	O
+promising	NN	O	O
+observable	NN	O	O
+to	NN	O	O
+address	NN	O	O
+the	NN	O	O
+strength	NN	O	O
+of	NN	O	O
+charm	NN	O	B-Process
+reinteractions	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+QGP	NN	O	B-Process
+.	NN	O	O
+The	NN	O	O
+present	NN	O	O
+study	NN	O	O
+can	NN	O	O
+be	NN	O	O
+straightforwardly	NN	O	O
+generalized	NN	O	O
+to	NN	O	O
+charmed	NN	O	O
+baryons	NN	O	B-Material
+(	NN	O	O
+Λc	NN	O	O
+)	NN	O	O
+,	NN	O	O
+which	NN	O	O
+may	NN	O	O
+serve	NN	O	O
+as	NN	O	O
+a	NN	O	O
+complimentary	NN	O	B-Material
+probe	NN	O	I-Material
+for	NN	O	O
+charm	NN	O	B-Process
+-	NN	O	I-Process
+quark	NN	O	I-Process
+reinteractions	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+QGP	NN	O	B-Process
+.	NN	O	O
+
+-DOCSTART- (S0370269304009049)
+
+One	NN	O	O
+of	NN	O	O
+the	NN	O	O
+challenges	NN	O	O
+in	NN	O	O
+quantum	NN	O	B-Task
+chromodynamics	NN	O	I-Task
+(	NN	O	O
+QCD	NN	O	B-Task
+)	NN	O	O
+is	NN	O	O
+the	NN	O	O
+relativistic	NN	O	B-Task
+bound	NN	O	I-Task
+state	NN	O	I-Task
+problem	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+light	NN	O	B-Process
+-	NN	O	I-Process
+cone	NN	O	I-Process
+Hamiltonian	NN	O	I-Process
+approach	NN	O	I-Process
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+light	NN	O	B-Task
+-	NN	O	I-Task
+cone	NN	O	I-Task
+wave	NN	O	I-Task
+functions	NN	O	I-Task
+can	NN	O	O
+be	NN	O	O
+constructed	NN	O	O
+in	NN	O	O
+a	NN	O	O
+boost	NN	O	O
+invariant	NN	O	O
+way	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+necessary	NN	O	O
+to	NN	O	O
+have	NN	O	O
+reliable	NN	O	B-Material
+light	NN	O	I-Material
+-	NN	O	I-Material
+cone	NN	O	I-Material
+wave	NN	O	I-Material
+functions	NN	O	I-Material
+if	NN	O	O
+one	NN	O	O
+wants	NN	O	O
+to	NN	O	O
+calculate	NN	O	B-Task
+high	NN	O	I-Task
+energy	NN	O	I-Task
+scattering	NN	O	I-Task
+,	NN	O	O
+especially	NN	O	O
+exclusive	NN	O	O
+reactions	NN	O	B-Process
+.	NN	O	O
+Many	NN	O	O
+parametrizations	NN	O	O
+assume	NN	O	O
+separability	NN	O	O
+of	NN	O	O
+the	NN	O	O
+dependence	NN	O	O
+on	NN	O	O
+the	NN	O	O
+longitudinal	NN	O	O
+momentum	NN	O	O
+fraction	NN	O	O
+and	NN	O	O
+transverse	NN	O	O
+momentum	NN	O	O
+which	NN	O	O
+is	NN	O	O
+very	NN	O	O
+unlikely	NN	O	O
+since	NN	O	O
+the	NN	O	O
+two	NN	O	O
+momenta	NN	O	O
+are	NN	O	O
+coupled	NN	O	O
+in	NN	O	O
+the	NN	O	O
+kinetic	NN	O	O
+energy	NN	O	O
+operator	NN	O	O
+.	NN	O	O
+Various	NN	O	O
+approaches	NN	O	O
+have	NN	O	O
+been	NN	O	O
+tried	NN	O	O
+to	NN	O	O
+compute	NN	O	O
+such	NN	O	O
+wave	NN	O	O
+functions	NN	O	O
+.	NN	O	O
+One	NN	O	O
+can	NN	O	O
+use	NN	O	O
+the	NN	O	O
+usual	NN	O	O
+equal	NN	O	B-Process
+time	NN	O	I-Process
+Hamiltonian	NN	O	I-Process
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+and	NN	O	O
+transform	NN	O	B-Process
+the	NN	O	I-Process
+resulting	NN	O	I-Process
+wave	NN	O	I-Process
+functions	NN	O	I-Process
+into	NN	O	I-Process
+light	NN	O	I-Process
+-	NN	O	I-Process
+cone	NN	O	I-Process
+form	NN	O	I-Process
+with	NN	O	O
+the	NN	O	O
+help	NN	O	O
+of	NN	O	O
+kinematical	NN	O	B-Process
+on	NN	O	I-Process
+-	NN	O	I-Process
+shell	NN	O	I-Process
+equations	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+light	NN	O	O
+-	NN	O	O
+cone	NN	O	O
+Hamiltonian	NN	O	O
+in	NN	O	O
+a	NN	O	O
+string	NN	O	O
+picture	NN	O	O
+is	NN	O	O
+formulated	NN	O	O
+in	NN	O	O
+Ref	NN	O	O
+.	NN	O	O
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+.	NN	O	O
+More	NN	O	O
+ambitious	NN	O	O
+is	NN	O	O
+the	NN	O	O
+construction	NN	O	B-Task
+of	NN	O	I-Task
+an	NN	O	I-Task
+effective	NN	O	I-Task
+Hamiltonian	NN	O	I-Task
+including	NN	O	I-Task
+the	NN	O	I-Task
+gauge	NN	O	I-Task
+degrees	NN	O	I-Task
+of	NN	O	I-Task
+freedom	NN	O	I-Task
+explicitly	NN	O	I-Task
+and	NN	O	O
+then	NN	O	O
+solving	NN	O	B-Process
+the	NN	O	I-Process
+bound	NN	O	I-Process
+state	NN	O	I-Process
+problem	NN	O	I-Process
+.	NN	O	O
+For	NN	O	O
+mesons	NN	O	B-Material
+this	NN	O	O
+approach	NN	O	O
+[	NN	O	O
+4,5	NN	O	O
+]	NN	O	O
+still	NN	O	O
+needs	NN	O	O
+many	NN	O	O
+parameters	NN	O	O
+to	NN	O	O
+be	NN	O	O
+fixed	NN	O	O
+.	NN	O	O
+Attempts	NN	O	O
+have	NN	O	O
+been	NN	O	O
+made	NN	O	O
+to	NN	O	O
+solve	NN	O	B-Task
+the	NN	O	I-Task
+valence	NN	O	I-Task
+quark	NN	O	I-Task
+wave	NN	O	I-Task
+function	NN	O	I-Task
+for	NN	O	I-Task
+mesons	NN	O	I-Task
+in	NN	O	O
+a	NN	O	O
+simple	NN	O	B-Process
+Hamiltonian	NN	O	I-Process
+with	NN	O	I-Process
+a	NN	O	I-Process
+two	NN	O	I-Process
+-	NN	O	I-Process
+body	NN	O	I-Process
+potential	NN	O	I-Process
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009062)
+
+The	NN	O	O
+microwave	NN	O	B-Process
+background	NN	O	I-Process
+is	NN	O	O
+not	NN	O	O
+the	NN	O	O
+only	NN	O	O
+universal	NN	O	B-Material
+photon	NN	O	I-Material
+field	NN	O	I-Material
+that	NN	O	O
+has	NN	O	O
+to	NN	O	O
+be	NN	O	O
+taken	NN	O	B-Process
+in	NN	O	I-Process
+consideration	NN	O	I-Process
+.	NN	O	O
+Especially	NN	O	O
+interesting	NN	O	O
+is	NN	O	O
+the	NN	O	O
+isotropic	NN	O	B-Process
+infrared	NN	O	I-Process
+and	NN	O	I-Process
+optical	NN	O	I-Process
+background	NN	O	I-Process
+(	NN	O	O
+IRB	NN	O	B-Process
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+number	NN	O	O
+density	NN	O	O
+of	NN	O	O
+IRB	NN	O	B-Process
+is	NN	O	O
+smaller	NN	O	O
+than	NN	O	O
+that	NN	O	O
+of	NN	O	O
+MBR	NN	O	B-Process
+by	NN	O	O
+more	NN	O	O
+that	NN	O	O
+two	NN	O	O
+orders	NN	O	O
+of	NN	O	O
+magnitude	NN	O	O
+.	NN	O	O
+On	NN	O	O
+the	NN	O	O
+other	NN	O	O
+hand	NN	O	O
+,	NN	O	O
+protons	NN	O	B-Material
+of	NN	O	O
+lower	NN	O	O
+energy	NN	O	O
+can	NN	O	O
+interact	NN	O	O
+on	NN	O	O
+the	NN	O	O
+IRB	NN	O	B-Process
+,	NN	O	O
+and	NN	O	O
+the	NN	O	B-Process
+smaller	NN	O	I-Process
+number	NN	O	I-Process
+density	NN	O	I-Process
+has	NN	O	I-Process
+to	NN	O	I-Process
+be	NN	O	I-Process
+weighted	NN	O	I-Process
+with	NN	O	I-Process
+the	NN	O	I-Process
+higher	NN	O	I-Process
+flux	NN	O	I-Process
+of	NN	O	I-Process
+interacting	NN	O	I-Process
+protons	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+present	NN	O	B-Task
+Universe	NN	O	I-Task
+is	NN	O	O
+optically	NN	O	O
+thin	NN	O	O
+to	NN	O	O
+1019	NN	O	O
+eV	NN	O	O
+and	NN	O	O
+lower	NN	O	B-Material
+energy	NN	O	I-Material
+protons	NN	O	I-Material
+,	NN	O	O
+but	NN	O	O
+even	NN	O	O
+at	NN	O	O
+low	NN	O	O
+redshifts	NN	O	O
+the	NN	O	O
+proton	NN	O	B-Task
+interaction	NN	O	I-Task
+rate	NN	O	I-Task
+quickly	NN	O	O
+increases	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+different	NN	O	O
+from	NN	O	O
+the	NN	O	O
+interactions	NN	O	B-Task
+on	NN	O	I-Task
+MBR	NN	O	I-Task
+,	NN	O	O
+where	NN	O	O
+the	NN	O	O
+interacting	NN	O	B-Material
+protons	NN	O	I-Material
+quickly	NN	O	B-Process
+lose	NN	O	I-Process
+their	NN	O	I-Process
+energy	NN	O	I-Process
+even	NN	O	I-Process
+at	NN	O	I-Process
+z=0	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+cosmological	NN	O	B-Process
+evolution	NN	O	I-Process
+of	NN	O	I-Process
+UHECR	NN	O	I-Process
+injection	NN	O	I-Process
+is	NN	O	O
+thus	NN	O	O
+of	NN	O	O
+major	NN	O	O
+importance	NN	O	O
+for	NN	O	O
+the	NN	O	O
+contribution	NN	O	O
+of	NN	O	O
+such	NN	O	O
+interactions	NN	O	O
+to	NN	O	O
+the	NN	O	O
+flux	NN	O	B-Task
+of	NN	O	I-Task
+cosmogenic	NN	O	I-Task
+neutrinos	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0370269304009074)
+
+In	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+,	NN	O	O
+we	NN	O	O
+extend	NN	O	B-Task
+the	NN	O	I-Task
+McVittie	NN	O	I-Task
+'s	NN	O	I-Task
+solution	NN	O	I-Task
+into	NN	O	I-Task
+charged	NN	O	I-Task
+black	NN	O	I-Task
+holes	NN	O	I-Task
+.	NN	O	O
+We	NN	O	O
+first	NN	O	O
+deduce	NN	O	B-Process
+the	NN	O	I-Process
+metric	NN	O	I-Process
+for	NN	O	I-Process
+a	NN	O	I-Process
+Reissner	NN	O	I-Process
+–	NN	O	I-Process
+Nordström	NN	O	I-Process
+black	NN	O	I-Process
+hole	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+expanding	NN	O	I-Process
+universe	NN	O	I-Process
+;	NN	O	O
+several	NN	O	O
+special	NN	O	O
+cases	NN	O	O
+of	NN	O	O
+our	NN	O	O
+solution	NN	O	O
+are	NN	O	O
+exactly	NN	O	O
+the	NN	O	O
+same	NN	O	O
+as	NN	O	O
+some	NN	O	O
+solutions	NN	O	O
+discovered	NN	O	O
+previously	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+previous	NN	O	O
+work	NN	O	O
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+we	NN	O	O
+have	NN	O	O
+applied	NN	O	B-Task
+the	NN	O	I-Task
+asymptotic	NN	O	I-Task
+conditions	NN	O	I-Task
+to	NN	O	I-Task
+derive	NN	O	I-Task
+the	NN	O	I-Task
+Schwarzschild	NN	O	I-Task
+metric	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+expanding	NN	O	I-Task
+universe	NN	O	I-Task
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+exactly	NN	O	O
+the	NN	O	O
+same	NN	O	O
+as	NN	O	O
+that	NN	O	O
+derived	NN	O	O
+by	NN	O	O
+McVittie	NN	O	O
+by	NN	O	O
+solving	NN	O	B-Process
+the	NN	O	I-Process
+full	NN	O	I-Process
+Einstein	NN	O	I-Process
+equations	NN	O	I-Process
+.	NN	O	O
+That	NN	O	O
+demonstrates	NN	O	O
+the	NN	O	O
+power	NN	O	O
+of	NN	O	O
+this	NN	O	O
+simple	NN	O	O
+and	NN	O	O
+straight	NN	O	O
+-	NN	O	O
+forward	NN	O	O
+approach	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+we	NN	O	O
+follow	NN	O	B-Process
+the	NN	O	I-Process
+same	NN	O	I-Process
+procedure	NN	O	I-Process
+to	NN	O	I-Process
+derive	NN	O	I-Process
+the	NN	O	I-Process
+metric	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+Reissner	NN	O	B-Task
+–	NN	O	I-Task
+Nordström	NN	O	I-Task
+black	NN	O	I-Task
+holes	NN	O	I-Task
+in	NN	O	I-Task
+Friedman	NN	O	I-Task
+–	NN	O	I-Task
+Robertson	NN	O	I-Task
+–	NN	O	I-Task
+Walker	NN	O	I-Task
+universe	NN	O	I-Task
+.	NN	O	O
+We	NN	O	O
+then	NN	O	O
+study	NN	O	B-Task
+the	NN	O	I-Task
+influences	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+evolution	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+universe	NN	O	I-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+size	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+black	NN	O	I-Task
+hole	NN	O	I-Task
+.	NN	O	O
+Finally	NN	O	O
+,	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+study	NN	O	B-Task
+the	NN	O	I-Task
+motion	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+planet	NN	O	I-Task
+,	NN	O	O
+we	NN	O	O
+rewrite	NN	O	B-Process
+the	NN	O	I-Process
+metric	NN	O	I-Process
+from	NN	O	I-Process
+the	NN	O	I-Process
+cosmic	NN	O	I-Process
+coordinates	NN	O	I-Process
+system	NN	O	I-Process
+to	NN	O	I-Process
+the	NN	O	I-Process
+Schwarzschild	NN	O	I-Process
+coordinates	NN	O	I-Process
+system	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0370269304009086)
+
+The	NN	O	O
+ART	NN	O	B-Process
+model	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+hadronic	NN	O	B-Process
+transport	NN	O	I-Process
+model	NN	O	I-Process
+that	NN	O	O
+includes	NN	O	O
+baryons	NN	O	B-Material
+such	NN	O	O
+as	NN	O	O
+N	NN	O	B-Material
+,	NN	O	I-Material
+Δ(1232	NN	O	I-Material
+)	NN	O	I-Material
+,	NN	O	O
+N∗(1440	NN	O	B-Material
+)	NN	O	I-Material
+,	NN	O	O
+N∗(1535	NN	O	B-Material
+)	NN	O	I-Material
+,	NN	O	O
+Λ	NN	O	B-Material
+,	NN	O	O
+Σ	NN	O	B-Material
+,	NN	O	O
+and	NN	O	O
+mesons	NN	O	B-Material
+such	NN	O	O
+as	NN	O	O
+π	NN	O	B-Material
+,	NN	O	O
+ρ	NN	O	B-Material
+,	NN	O	O
+ω	NN	O	B-Material
+,	NN	O	O
+η	NN	O	B-Material
+,	NN	O	O
+K	NN	O	B-Material
+,	NN	O	O
+K∗.	NN	O	B-Material
+Both	NN	O	O
+elastic	NN	O	B-Task
+and	NN	O	I-Task
+inelastic	NN	O	I-Task
+collisions	NN	O	I-Task
+among	NN	O	O
+most	NN	O	O
+of	NN	O	O
+these	NN	O	B-Material
+particles	NN	O	I-Material
+are	NN	O	O
+included	NN	O	O
+by	NN	O	O
+using	NN	O	O
+the	NN	O	O
+experimental	NN	O	B-Material
+data	NN	O	I-Material
+from	NN	O	I-Material
+hadron	NN	O	I-Material
+–	NN	O	I-Material
+hadron	NN	O	I-Material
+collisions	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+ART	NN	O	B-Process
+model	NN	O	I-Process
+has	NN	O	O
+been	NN	O	O
+quite	NN	O	O
+successful	NN	O	O
+in	NN	O	O
+explaining	NN	O	B-Task
+many	NN	O	I-Task
+experimental	NN	O	I-Task
+observations	NN	O	I-Task
+,	NN	O	O
+including	NN	O	O
+the	NN	O	O
+surprisingly	NN	O	O
+large	NN	O	O
+kaon	NN	O	B-Process
+antiflow	NN	O	I-Process
+[	NN	O	O
+11,12	NN	O	O
+]	NN	O	O
+in	NN	O	O
+heavy	NN	O	B-Process
+ion	NN	O	I-Process
+collisions	NN	O	I-Process
+at	NN	O	O
+AGS	NN	O	B-Process
+energies	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+ART	NN	O	B-Process
+model	NN	O	I-Process
+also	NN	O	O
+allows	NN	O	O
+us	NN	O	O
+to	NN	O	O
+understand	NN	O	B-Task
+whether	NN	O	I-Task
+or	NN	O	I-Task
+not	NN	O	I-Task
+the	NN	O	I-Task
+strongly	NN	O	I-Task
+interacting	NN	O	I-Task
+matter	NN	O	I-Task
+formed	NN	O	I-Task
+in	NN	O	I-Task
+these	NN	O	I-Task
+collisions	NN	O	I-Task
+reaches	NN	O	I-Task
+chemical	NN	O	I-Task
+and/or	NN	O	I-Task
+thermal	NN	O	I-Task
+equilibrium	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+present	NN	O	O
+study	NN	O	O
+,	NN	O	O
+we	NN	O	O
+extend	NN	O	B-Task
+the	NN	O	I-Task
+ART	NN	O	I-Task
+model	NN	O	I-Task
+to	NN	O	I-Task
+include	NN	O	I-Task
+perturbatively	NN	O	I-Task
+the	NN	O	I-Task
+Ξ	NN	O	I-Task
+particle	NN	O	I-Task
+as	NN	O	O
+in	NN	O	O
+the	NN	O	O
+studies	NN	O	O
+for	NN	O	O
+other	NN	O	O
+rare	NN	O	B-Material
+particles	NN	O	I-Material
+using	NN	O	O
+the	NN	O	O
+transport	NN	O	B-Material
+model	NN	O	I-Material
+[	NN	O	O
+6,13,14	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009104)
+
+Though	NN	O	O
+,	NN	O	O
+in	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+we	NN	O	O
+have	NN	O	O
+constructed	NN	O	B-Task
+the	NN	O	I-Task
+Born	NN	O	I-Task
+–	NN	O	I-Task
+Infeld	NN	O	I-Task
+black	NN	O	I-Task
+holes	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+presence	NN	O	I-Task
+of	NN	O	I-Task
+a	NN	O	I-Task
+cosmological	NN	O	I-Task
+constant	NN	O	I-Task
+and	NN	O	O
+discussed	NN	O	B-Task
+their	NN	O	I-Task
+thermodynamical	NN	O	I-Task
+properties	NN	O	I-Task
+,	NN	O	O
+many	NN	O	O
+issues	NN	O	O
+however	NN	O	O
+still	NN	O	O
+remain	NN	O	O
+to	NN	O	O
+be	NN	O	O
+investigated	NN	O	O
+.	NN	O	O
+We	NN	O	O
+know	NN	O	O
+that	NN	O	O
+Reissner	NN	O	B-Material
+–	NN	O	I-Material
+Nordström	NN	O	I-Material
+AdS	NN	O	I-Material
+black	NN	O	I-Material
+holes	NN	O	I-Material
+undergo	NN	O	O
+Hawking	NN	O	B-Process
+–	NN	O	I-Process
+Page	NN	O	I-Process
+phase	NN	O	I-Process
+transition	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+transition	NN	O	O
+gets	NN	O	O
+modified	NN	O	O
+as	NN	O	O
+we	NN	O	O
+include	NN	O	O
+Born	NN	O	B-Process
+–	NN	O	I-Process
+Infeld	NN	O	I-Process
+corrections	NN	O	I-Process
+into	NN	O	O
+account	NN	O	O
+.	NN	O	O
+We	NN	O	O
+hope	NN	O	O
+to	NN	O	O
+carry	NN	O	O
+out	NN	O	O
+a	NN	O	O
+detail	NN	O	O
+study	NN	O	O
+on	NN	O	O
+this	NN	O	O
+issue	NN	O	O
+in	NN	O	O
+the	NN	O	O
+future	NN	O	O
+.	NN	O	O
+Furthermore	NN	O	O
+,	NN	O	O
+in	NN	O	O
+the	NN	O	O
+context	NN	O	O
+of	NN	O	O
+brane	NN	O	B-Task
+world	NN	O	I-Task
+cosmology	NN	O	I-Task
+,	NN	O	O
+it	NN	O	O
+was	NN	O	O
+found	NN	O	O
+that	NN	O	O
+a	NN	O	O
+brane	NN	O	B-Material
+moving	NN	O	O
+in	NN	O	O
+a	NN	O	O
+Reissner	NN	O	B-Process
+–	NN	O	I-Process
+Nordström	NN	O	I-Process
+AdS	NN	O	I-Process
+background	NN	O	I-Process
+generates	NN	O	O
+non	NN	O	B-Task
+-	NN	O	I-Task
+singular	NN	O	I-Task
+cosmology	NN	O	I-Task
+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+as	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+,	NN	O	O
+the	NN	O	O
+brane	NN	O	B-Material
+always	NN	O	O
+crosses	NN	O	B-Process
+the	NN	O	I-Process
+inner	NN	O	I-Process
+horizon	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+bulk	NN	O	I-Process
+geometry	NN	O	I-Process
+,	NN	O	O
+creating	NN	O	O
+an	NN	O	O
+instability	NN	O	B-Process
+.	NN	O	O
+It	NN	O	O
+would	NN	O	O
+be	NN	O	O
+interesting	NN	O	O
+to	NN	O	O
+study	NN	O	B-Task
+cosmology	NN	O	I-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+brane	NN	O	I-Task
+when	NN	O	I-Task
+it	NN	O	I-Task
+is	NN	O	I-Task
+moving	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+charged	NN	O	I-Task
+black	NN	O	I-Task
+hole	NN	O	I-Task
+backgrounds	NN	O	I-Task
+that	NN	O	O
+we	NN	O	O
+have	NN	O	O
+constructed	NN	O	O
+.	NN	O	O
+Note	NN	O	O
+that	NN	O	O
+since	NN	O	O
+these	NN	O	O
+charged	NN	O	B-Material
+holes	NN	O	I-Material
+does	NN	O	O
+not	NN	O	O
+have	NN	O	O
+inner	NN	O	O
+horizon	NN	O	O
+for	NN	O	O
+certain	NN	O	O
+range	NN	O	O
+of	NN	O	O
+parameters	NN	O	O
+,	NN	O	O
+we	NN	O	O
+may	NN	O	O
+generate	NN	O	B-Task
+non	NN	O	I-Task
+-	NN	O	I-Task
+singular	NN	O	I-Task
+cosmology	NN	O	I-Task
+without	NN	O	I-Task
+creating	NN	O	I-Task
+the	NN	O	I-Task
+instabilities	NN	O	I-Task
+that	NN	O	O
+we	NN	O	O
+have	NN	O	O
+just	NN	O	O
+mentioned	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009116)
+
+We	NN	O	O
+prove	NN	O	B-Process
+the	NN	O	I-Process
+uniqueness	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+supersymmetric	NN	O	O
+Salam	NN	O	O
+–	NN	O	O
+Sezgin	NN	O	O
+(	NN	O	O
+Minkowski)4×S2	NN	O	O
+ground	NN	O	O
+state	NN	O	O
+among	NN	O	O
+all	NN	O	O
+non	NN	O	B-Task
+-	NN	O	I-Task
+singular	NN	O	I-Task
+solutions	NN	O	I-Task
+with	NN	O	I-Task
+a	NN	O	I-Task
+four	NN	O	I-Task
+-	NN	O	I-Task
+dimensional	NN	O	I-Task
+Poincaré	NN	O	I-Task
+,	NN	O	O
+de	NN	O	B-Task
+Sitter	NN	O	I-Task
+or	NN	O	I-Task
+anti	NN	O	I-Task
+-	NN	O	I-Task
+de	NN	O	I-Task
+Sitter	NN	O	I-Task
+symmetry	NN	O	I-Task
+.	NN	O	O
+We	NN	O	O
+construct	NN	O	B-Process
+the	NN	O	I-Process
+most	NN	O	I-Process
+general	NN	O	I-Process
+solutions	NN	O	I-Process
+with	NN	O	O
+an	NN	O	O
+axial	NN	O	B-Task
+symmetry	NN	O	I-Task
+in	NN	O	I-Task
+the	NN	O	I-Task
+two	NN	O	I-Task
+-	NN	O	I-Task
+dimensional	NN	O	I-Task
+internal	NN	O	I-Task
+space	NN	O	I-Task
+,	NN	O	I-Task
+and	NN	O	O
+show	NN	O	O
+that	NN	O	O
+included	NN	O	O
+amongst	NN	O	O
+these	NN	O	O
+is	NN	O	O
+a	NN	O	O
+family	NN	O	O
+that	NN	O	O
+is	NN	O	O
+non	NN	O	B-Process
+-	NN	O	I-Process
+singular	NN	O	I-Process
+away	NN	O	I-Process
+from	NN	O	I-Process
+a	NN	O	I-Process
+conical	NN	O	I-Process
+defect	NN	O	I-Process
+at	NN	O	O
+one	NN	O	O
+pole	NN	O	O
+of	NN	O	O
+a	NN	O	O
+distorted	NN	O	O
+2-sphere	NN	O	O
+.	NN	O	O
+These	NN	O	O
+solutions	NN	O	O
+admit	NN	O	O
+the	NN	O	O
+interpretation	NN	O	B-Process
+of	NN	O	I-Process
+3-branes	NN	O	I-Process
+with	NN	O	I-Process
+negative	NN	O	I-Process
+tension	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0370269304009141)
+
+Longitudinal	NN	O	B-Task
+beam	NN	O	I-Task
+and	NN	O	I-Task
+target	NN	O	I-Task
+single	NN	O	I-Task
+-	NN	O	I-Task
+spin	NN	O	I-Task
+asymmetries	NN	O	I-Task
+have	NN	O	O
+been	NN	O	O
+at	NN	O	O
+the	NN	O	O
+center	NN	O	O
+of	NN	O	O
+the	NN	O	O
+attention	NN	O	O
+lately	NN	O	O
+,	NN	O	O
+since	NN	O	O
+they	NN	O	O
+have	NN	O	O
+been	NN	O	O
+measured	NN	O	O
+by	NN	O	O
+the	NN	O	O
+HERMES	NN	O	B-Process
+and	NN	O	I-Process
+CLAS	NN	O	I-Process
+experimental	NN	O	I-Process
+Collaborations	NN	O	I-Process
+[	NN	O	O
+1–4	NN	O	O
+]	NN	O	O
+and	NN	O	O
+more	NN	O	O
+measurements	NN	O	O
+are	NN	O	O
+planned	NN	O	O
+.	NN	O	O
+They	NN	O	O
+were	NN	O	O
+originally	NN	O	O
+believed	NN	O	O
+to	NN	O	O
+be	NN	O	O
+signals	NN	O	O
+of	NN	O	O
+the	NN	O	O
+so	NN	O	O
+-	NN	O	O
+called	NN	O	O
+T	NN	O	B-Process
+-	NN	O	I-Process
+odd	NN	O	I-Process
+fragmentation	NN	O	I-Process
+functions	NN	O	I-Process
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+,	NN	O	O
+in	NN	O	O
+particular	NN	O	O
+,	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Collins	NN	O	B-Process
+function	NN	O	I-Process
+[	NN	O	O
+6–12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+both	NN	O	O
+types	NN	O	O
+of	NN	O	O
+asymmetry	NN	O	O
+can	NN	O	O
+receive	NN	O	B-Process
+contributions	NN	O	I-Process
+also	NN	O	I-Process
+from	NN	O	I-Process
+T	NN	O	I-Process
+-	NN	O	I-Process
+odd	NN	O	I-Process
+distribution	NN	O	I-Process
+functions	NN	O	I-Process
+[	NN	O	O
+13–16	NN	O	O
+]	NN	O	O
+,	NN	O	O
+a	NN	O	O
+fact	NN	O	O
+that	NN	O	O
+has	NN	O	O
+often	NN	O	O
+been	NN	O	O
+neglected	NN	O	O
+in	NN	O	O
+analyses	NN	O	O
+.	NN	O	O
+An	NN	O	O
+exhaustive	NN	O	B-Task
+treatment	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+contributions	NN	O	I-Task
+of	NN	O	I-Task
+T	NN	O	I-Task
+-	NN	O	I-Task
+odd	NN	O	I-Task
+distribution	NN	O	I-Task
+functions	NN	O	I-Task
+has	NN	O	O
+not	NN	O	O
+been	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+completely	NN	O	O
+so	NN	O	O
+far	NN	O	O
+,	NN	O	O
+especially	NN	O	O
+up	NN	O	O
+to	NN	O	O
+subleading	NN	O	B-Process
+order	NN	O	I-Process
+in	NN	O	I-Process
+an	NN	O	I-Process
+expansion	NN	O	I-Process
+in	NN	O	I-Process
+1/Q	NN	O	I-Process
+,	NN	O	O
+Q2	NN	O	O
+being	NN	O	O
+the	NN	O	O
+virtuality	NN	O	O
+of	NN	O	O
+the	NN	O	O
+incident	NN	O	B-Material
+photon	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+only	NN	O	O
+hard	NN	O	O
+scale	NN	O	O
+of	NN	O	O
+the	NN	O	O
+process	NN	O	O
+,	NN	O	O
+and	NN	O	O
+including	NN	O	O
+quark	NN	O	B-Process
+mass	NN	O	I-Process
+corrections	NN	O	I-Process
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+the	NN	O	O
+purpose	NN	O	O
+of	NN	O	O
+the	NN	O	O
+present	NN	O	O
+work	NN	O	O
+to	NN	O	O
+describe	NN	O	B-Task
+the	NN	O	I-Task
+longitudinal	NN	O	I-Task
+beam	NN	O	I-Task
+and	NN	O	I-Task
+target	NN	O	I-Task
+spin	NN	O	I-Task
+asymmetries	NN	O	I-Task
+in	NN	O	O
+a	NN	O	O
+complete	NN	O	O
+way	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+leading	NN	O	O
+and	NN	O	O
+subleading	NN	O	O
+twist	NN	O	B-Process
+distribution	NN	O	I-Process
+and	NN	O	O
+fragmentation	NN	O	B-Process
+functions	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+consider	NN	O	O
+both	NN	O	O
+single	NN	O	B-Process
+-	NN	O	I-Process
+particle	NN	O	I-Process
+inclusive	NN	O	I-Process
+DIS	NN	O	I-Process
+,	NN	O	O
+e+p→e′+h+X	NN	O	B-Process
+,	NN	O	O
+and	NN	O	O
+single	NN	O	B-Process
+-	NN	O	I-Process
+jet	NN	O	I-Process
+inclusive	NN	O	I-Process
+DIS	NN	O	I-Process
+,	NN	O	O
+e+p→e′+jet+X.	NN	O	B-Process
+We	NN	O	O
+assume	NN	O	O
+factorization	NN	O	B-Process
+holds	NN	O	O
+for	NN	O	O
+these	NN	O	O
+processes	NN	O	O
+,	NN	O	O
+even	NN	O	O
+though	NN	O	O
+at	NN	O	O
+present	NN	O	O
+there	NN	O	O
+is	NN	O	O
+no	NN	O	O
+factorization	NN	O	B-Task
+proof	NN	O	I-Task
+for	NN	O	I-Task
+observables	NN	O	I-Task
+containing	NN	O	I-Task
+subleading	NN	O	I-Task
+-	NN	O	I-Task
+twist	NN	O	I-Task
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+-	NN	O	I-Task
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+dependent	NN	O	I-Task
+functions	NN	O	I-Task
+(	NN	O	O
+only	NN	O	O
+recently	NN	O	O
+proofs	NN	O	B-Task
+for	NN	O	I-Task
+the	NN	O	I-Task
+leading	NN	O	I-Task
+-	NN	O	I-Task
+twist	NN	O	I-Task
+case	NN	O	I-Task
+have	NN	O	O
+been	NN	O	O
+presented	NN	O	O
+in	NN	O	O
+Refs	NN	O	O
+.	NN	O	O
+[	NN	O	O
+17,18	NN	O	O
+]	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009165)
+
+There	NN	O	O
+are	NN	O	O
+many	NN	O	O
+possible	NN	O	O
+applications	NN	O	B-Task
+for	NN	O	I-Task
+this	NN	O	I-Task
+mechanism	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+,	NN	O	O
+we	NN	O	O
+have	NN	O	O
+concentrated	NN	O	O
+on	NN	O	O
+its	NN	O	B-Task
+contribution	NN	O	I-Task
+to	NN	O	I-Task
+leptogenesis	NN	O	I-Task
+and	NN	O	I-Task
+baryogenesis	NN	O	I-Task
+.	NN	O	O
+Our	NN	O	O
+calculation	NN	O	O
+is	NN	O	O
+applicable	NN	O	O
+in	NN	O	B-Process
+the	NN	O	I-Process
+phase	NN	O	I-Process
+when	NN	O	I-Process
+the	NN	O	I-Process
+fields	NN	O	I-Process
+are	NN	O	I-Process
+rolling	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+rolling	NN	O	B-Process
+phase	NN	O	I-Process
+will	NN	O	O
+start	NN	O	O
+when	NN	O	O
+the	NN	O	O
+Hubble	NN	O	B-Process
+constant	NN	O	I-Process
+drops	NN	O	I-Process
+to	NN	O	I-Process
+a	NN	O	I-Process
+value	NN	O	I-Process
+comparable	NN	O	I-Process
+to	NN	O	I-Process
+the	NN	O	I-Process
+mass	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+scalar	NN	O	I-Process
+fields	NN	O	I-Process
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+at	NN	O	O
+this	NN	O	O
+time	NN	O	O
+in	NN	O	O
+the	NN	O	O
+cosmological	NN	O	B-Process
+evolution	NN	O	I-Process
+that	NN	O	O
+CP	NN	O	B-Process
+violation	NN	O	I-Process
+is	NN	O	O
+most	NN	O	O
+efficient	NN	O	O
+.	NN	O	O
+After	NN	O	O
+the	NN	O	O
+fields	NN	O	B-Process
+have	NN	O	I-Process
+relaxed	NN	O	I-Process
+to	NN	O	I-Process
+their	NN	O	I-Process
+vacuum	NN	O	I-Process
+values	NN	O	I-Process
+,	NN	O	O
+our	NN	O	O
+CP	NN	O	B-Process
+violation	NN	O	I-Process
+mechanism	NN	O	I-Process
+turns	NN	O	O
+off	NN	O	O
+.	NN	O	O
+We	NN	O	O
+plan	NN	O	O
+to	NN	O	O
+discuss	NN	O	O
+more	NN	O	O
+details	NN	O	O
+,	NN	O	O
+in	NN	O	O
+particular	NN	O	O
+applications	NN	O	B-Task
+to	NN	O	I-Task
+concrete	NN	O	I-Task
+baryogenesis	NN	O	I-Task
+models	NN	O	I-Task
+,	NN	O	O
+in	NN	O	O
+a	NN	O	O
+future	NN	O	O
+publication	NN	O	O
+[	NN	O	O
+20	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Note	NN	O	O
+that	NN	O	O
+string	NN	O	B-Task
+cosmology	NN	O	I-Task
+and	NN	O	O
+brane	NN	O	B-Task
+world	NN	O	I-Task
+scenarios	NN	O	I-Task
+may	NN	O	O
+provide	NN	O	O
+natural	NN	O	O
+settings	NN	O	O
+for	NN	O	O
+the	NN	O	O
+origin	NN	O	O
+of	NN	O	O
+the	NN	O	O
+scalar	NN	O	B-Material
+fields	NN	O	I-Material
+required	NN	O	O
+for	NN	O	O
+our	NN	O	B-Process
+mechanism	NN	O	I-Process
+(	NN	O	O
+e.g.	NN	O	O
+see	NN	O	O
+Ref	NN	O	O
+.	NN	O	O
+[	NN	O	O
+30	NN	O	O
+]	NN	O	O
+for	NN	O	O
+a	NN	O	O
+recent	NN	O	O
+paper	NN	O	O
+on	NN	O	O
+how	NN	O	B-Task
+scalar	NN	O	I-Task
+fields	NN	O	I-Task
+from	NN	O	I-Task
+brane	NN	O	I-Task
+world	NN	O	I-Task
+scenarios	NN	O	I-Task
+can	NN	O	I-Task
+play	NN	O	I-Task
+a	NN	O	I-Task
+new	NN	O	I-Task
+role	NN	O	I-Task
+in	NN	O	I-Task
+spontaneous	NN	O	I-Task
+baryogenesis	NN	O	I-Task
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009177)
+
+In	NN	O	O
+the	NN	O	O
+brane	NN	O	B-Material
+system	NN	O	I-Material
+appearing	NN	O	O
+in	NN	O	O
+string	NN	O	B-Process
+/	NN	O	I-Process
+D	NN	O	I-Process
+-	NN	O	I-Process
+brane	NN	O	I-Process
+theory	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+stableness	NN	O	B-Task
+is	NN	O	O
+the	NN	O	O
+most	NN	O	O
+important	NN	O	O
+requirement	NN	O	O
+.	NN	O	O
+We	NN	O	O
+find	NN	O	O
+some	NN	O	O
+stable	NN	O	B-Process
+brane	NN	O	I-Process
+configurations	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+SUSY	NN	O	B-Process
+bulk	NN	O	I-Process
+-	NN	O	I-Process
+boundary	NN	O	I-Process
+theory	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+systematically	NN	O	O
+solve	NN	O	B-Task
+the	NN	O	I-Task
+singular	NN	O	I-Task
+field	NN	O	I-Task
+equation	NN	O	I-Task
+using	NN	O	O
+a	NN	O	O
+general	NN	O	B-Process
+mathematical	NN	O	I-Process
+result	NN	O	I-Process
+about	NN	O	I-Process
+the	NN	O	I-Process
+free	NN	O	I-Process
+-	NN	O	I-Process
+wave	NN	O	I-Process
+solution	NN	O	I-Process
+in	NN	O	O
+S1/Z2-space	NN	O	O
+.	NN	O	O
+The	NN	O	O
+two	NN	O	O
+scalars	NN	O	O
+,	NN	O	O
+the	NN	O	O
+extra	NN	O	B-Process
+-	NN	O	I-Process
+component	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+bulk	NN	O	I-Process
+-	NN	O	I-Process
+vector	NN	O	I-Process
+(	NN	O	O
+A5	NN	O	B-Process
+)	NN	O	O
+and	NN	O	O
+the	NN	O	O
+bulk	NN	O	B-Process
+-	NN	O	I-Process
+scalar	NN	O	I-Process
+(	NN	O	O
+Φ	NN	O	B-Process
+)	NN	O	O
+,	NN	O	O
+constitute	NN	O	O
+the	NN	O	O
+solutions	NN	O	O
+.	NN	O	O
+Their	NN	O	O
+different	NN	O	B-Task
+roles	NN	O	I-Task
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+clarified	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+importance	NN	O	O
+of	NN	O	O
+the	NN	O	O
+“	NN	O	O
+parallel	NN	O	O
+”	NN	O	O
+configuration	NN	O	O
+is	NN	O	O
+disclosed	NN	O	O
+.	NN	O	O
+The	NN	O	O
+boundary	NN	O	B-Process
+condition	NN	O	I-Process
+(	NN	O	O
+of	NN	O	O
+A5	NN	O	O
+)	NN	O	O
+and	NN	O	O
+the	NN	O	O
+boundary	NN	O	O
+matter	NN	O	O
+fields	NN	O	O
+are	NN	O	O
+two	NN	O	O
+important	NN	O	O
+elements	NN	O	O
+for	NN	O	O
+making	NN	O	O
+the	NN	O	O
+localized	NN	O	O
+configuration	NN	O	O
+.	NN	O	O
+Among	NN	O	O
+all	NN	O	O
+solutions	NN	O	O
+,	NN	O	O
+the	NN	O	O
+solution	NN	O	B-Process
+(	NN	O	O
+c1=−1	NN	O	B-Process
+,	NN	O	I-Process
+c2=−1	NN	O	I-Process
+)	NN	O	O
+is	NN	O	O
+expected	NN	O	O
+to	NN	O	O
+be	NN	O	O
+the	NN	O	O
+thin	NN	O	B-Process
+-	NN	O	I-Process
+wall	NN	O	I-Process
+limit	NN	O	I-Process
+of	NN	O	O
+a	NN	O	O
+kink	NN	O	B-Process
+solution	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+present	NN	O	O
+a	NN	O	O
+bulk	NN	O	B-Process
+Higgs	NN	O	I-Process
+model	NN	O	I-Process
+corresponding	NN	O	O
+to	NN	O	O
+the	NN	O	O
+non	NN	O	B-Process
+-	NN	O	I-Process
+singular	NN	O	I-Process
+solution	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+model	NN	O	O
+is	NN	O	O
+expected	NN	O	O
+to	NN	O	O
+give	NN	O	O
+a	NN	O	O
+non	NN	O	B-Process
+-	NN	O	I-Process
+singular	NN	O	I-Process
+and	NN	O	I-Process
+stable	NN	O	I-Process
+brane	NN	O	I-Process
+solution	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+SUSY	NN	O	B-Process
+bulk	NN	O	I-Process
+-	NN	O	I-Process
+boundary	NN	O	I-Process
+theory	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0370269304009189)
+
+The	NN	O	O
+spins	NN	O	B-Task
+and	NN	O	I-Task
+parities	NN	O	I-Task
+of	NN	O	I-Task
+Θ+	NN	O	I-Task
+and	NN	O	I-Task
+Ξ−−	NN	O	I-Task
+are	NN	O	O
+not	NN	O	O
+yet	NN	O	O
+known	NN	O	O
+experimentally	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+new	NN	O	B-Task
+wave	NN	O	I-Task
+of	NN	O	I-Task
+pentaquark	NN	O	I-Task
+research	NN	O	I-Task
+,	NN	O	O
+most	NN	O	O
+theoretical	NN	O	O
+papers	NN	O	O
+take	NN	O	B-Process
+the	NN	O	I-Process
+spin	NN	O	I-Process
+equal	NN	O	I-Process
+to	NN	O	I-Process
+1/2	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+parity	NN	O	O
+is	NN	O	O
+more	NN	O	O
+controversial	NN	O	O
+.	NN	O	O
+In	NN	O	O
+chiral	NN	O	B-Process
+soliton	NN	O	I-Process
+or	NN	O	O
+Skyrme	NN	O	B-Process
+models	NN	O	I-Process
+the	NN	O	O
+parity	NN	O	O
+is	NN	O	O
+positive	NN	O	O
+[	NN	O	O
+4	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+constituent	NN	O	B-Process
+quark	NN	O	I-Process
+models	NN	O	I-Process
+it	NN	O	O
+is	NN	O	O
+usually	NN	O	O
+positive	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+present	NN	O	O
+approach	NN	O	O
+,	NN	O	O
+the	NN	O	O
+parity	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+pentaquark	NN	O	I-Task
+is	NN	O	O
+given	NN	O	O
+by	NN	O	O
+P=(−)ℓ+1	NN	O	B-Task
+,	NN	O	O
+where	NN	O	O
+ℓ	NN	O	B-Task
+is	NN	O	O
+the	NN	O	O
+angular	NN	O	B-Task
+momentum	NN	O	I-Task
+associated	NN	O	I-Task
+with	NN	O	I-Task
+the	NN	O	I-Task
+relative	NN	O	I-Task
+coordinates	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+q4	NN	O	I-Task
+subsystem	NN	O	I-Task
+.	NN	O	O
+We	NN	O	O
+analyze	NN	O	O
+the	NN	O	O
+case	NN	O	O
+where	NN	O	O
+the	NN	O	O
+subsystem	NN	O	B-Task
+of	NN	O	I-Task
+four	NN	O	I-Task
+light	NN	O	I-Task
+quarks	NN	O	I-Task
+is	NN	O	I-Task
+in	NN	O	I-Task
+a	NN	O	I-Task
+state	NN	O	I-Task
+of	NN	O	I-Task
+orbital	NN	O	I-Task
+symmetry	NN	O	I-Task
+[	NN	O	O
+31]O	NN	O	O
+and	NN	O	O
+carries	NN	O	O
+an	NN	O	O
+angular	NN	O	O
+momentum	NN	O	O
+ℓ=1	NN	O	O
+.	NN	O	O
+Although	NN	O	O
+the	NN	O	O
+kinetic	NN	O	B-Process
+energy	NN	O	I-Process
+of	NN	O	O
+such	NN	O	O
+a	NN	O	O
+state	NN	O	O
+is	NN	O	O
+higher	NN	O	O
+than	NN	O	O
+that	NN	O	O
+of	NN	O	O
+the	NN	O	O
+totally	NN	O	B-Process
+symmetric	NN	O	I-Process
+[	NN	O	I-Process
+4]O	NN	O	I-Process
+state	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+[	NN	O	O
+31]O	NN	O	B-Process
+symmetry	NN	O	I-Process
+is	NN	O	O
+the	NN	O	O
+most	NN	O	O
+favourable	NN	O	O
+both	NN	O	O
+for	NN	O	O
+the	NN	O	O
+flavour	NN	O	B-Process
+–	NN	O	I-Process
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+interaction	NN	O	I-Process
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+and	NN	O	O
+the	NN	O	O
+colour	NN	O	B-Process
+–	NN	O	I-Process
+spin	NN	O	I-Process
+interaction	NN	O	I-Process
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+first	NN	O	O
+case	NN	O	O
+the	NN	O	O
+statement	NN	O	O
+is	NN	O	O
+confirmed	NN	O	O
+by	NN	O	O
+the	NN	O	O
+comparison	NN	O	B-Task
+between	NN	O	I-Task
+the	NN	O	I-Task
+realistic	NN	O	I-Task
+calculations	NN	O	I-Task
+for	NN	O	I-Task
+positive	NN	O	I-Task
+parity	NN	O	I-Task
+[	NN	O	I-Task
+12	NN	O	I-Task
+]	NN	O	I-Task
+and	NN	O	I-Task
+negative	NN	O	I-Task
+parity	NN	O	I-Task
+[	NN	O	I-Task
+14	NN	O	I-Task
+]	NN	O	I-Task
+,	NN	O	I-Task
+based	NN	O	I-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+same	NN	O	I-Task
+quark	NN	O	I-Task
+model	NN	O	I-Task
+[	NN	O	I-Task
+15	NN	O	I-Task
+]	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+Ref	NN	O	O
+.	NN	O	O
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+the	NN	O	O
+antiquark	NN	O	B-Material
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+heavy	NN	O	O
+,	NN	O	O
+c	NN	O	O
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+b	NN	O	O
+,	NN	O	O
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+accordingly	NN	O	O
+the	NN	O	O
+interaction	NN	O	B-Process
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+light	NN	O	I-Process
+quarks	NN	O	I-Process
+and	NN	O	I-Process
+the	NN	O	I-Process
+heavy	NN	O	I-Process
+antiquark	NN	O	I-Process
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+neglected	NN	O	I-Process
+,	NN	O	I-Process
+consistent	NN	O	I-Process
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+the	NN	O	I-Process
+heavy	NN	O	I-Process
+quark	NN	O	I-Process
+limit	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
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+.	NN	O	O
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+an	NN	O	O
+attractive	NN	O	O
+spin	NN	O	B-Process
+–	NN	O	I-Process
+spin	NN	O	I-Process
+interaction	NN	O	I-Process
+between	NN	O	O
+s̄	NN	O	B-Material
+and	NN	O	O
+the	NN	O	O
+light	NN	O	B-Material
+quarks	NN	O	I-Material
+was	NN	O	O
+incorporated	NN	O	O
+and	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+a	NN	O	O
+stable	NN	O	O
+or	NN	O	O
+narrow	NN	O	O
+positive	NN	O	O
+parity	NN	O	O
+uudds̄	NN	O	B-Material
+pentaquark	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+accommodated	NN	O	O
+within	NN	O	O
+such	NN	O	O
+a	NN	O	O
+model	NN	O	O
+.	NN	O	O
+This	NN	O	O
+interaction	NN	O	O
+has	NN	O	O
+a	NN	O	O
+form	NN	O	O
+that	NN	O	O
+corresponds	NN	O	O
+to	NN	O	O
+η	NN	O	B-Process
+meson	NN	O	I-Process
+exchange	NN	O	I-Process
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+and	NN	O	O
+its	NN	O	O
+role	NN	O	O
+is	NN	O	O
+to	NN	O	O
+lower	NN	O	B-Process
+the	NN	O	I-Process
+energy	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+whole	NN	O	I-Process
+system	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0370269304009220)
+
+There	NN	O	O
+exist	NN	O	O
+some	NN	O	O
+interesting	NN	O	O
+cases	NN	O	O
+where	NN	O	O
+the	NN	O	O
+deformation	NN	O	B-Process
+structure	NN	O	I-Process
+becomes	NN	O	O
+simple	NN	O	O
+.	NN	O	O
+One	NN	O	O
+is	NN	O	O
+the	NN	O	O
+limit	NN	O	O
+to	NN	O	O
+the	NN	O	O
+N=1/2	NN	O	B-Process
+superspace	NN	O	I-Process
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+,	NN	O	O
+where	NN	O	O
+the	NN	O	O
+action	NN	O	O
+should	NN	O	O
+reduce	NN	O	O
+to	NN	O	O
+N=1/2	NN	O	B-Process
+super	NN	O	I-Process
+-	NN	O	I-Process
+Yang	NN	O	I-Process
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+.	NN	O	O
+Another	NN	O	O
+interesting	NN	O	O
+case	NN	O	O
+is	NN	O	O
+the	NN	O	O
+singlet	NN	O	B-Task
+deformation	NN	O	I-Task
+[	NN	O	O
+10,11	NN	O	O
+]	NN	O	O
+,	NN	O	O
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+to	NN	O	O
+the	NN	O	O
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+the	NN	O	O
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+-	NN	O	I-Process
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+In	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+,	NN	O	O
+we	NN	O	O
+will	NN	O	O
+study	NN	O	O
+N=2	NN	O	B-Task
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+U(1	NN	O	I-Task
+)	NN	O	I-Task
+gauge	NN	O	I-Task
+theory	NN	O	I-Task
+in	NN	O	O
+the	NN	O	O
+harmonic	NN	O	B-Process
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+singlet	NN	O	B-Process
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+In	NN	O	O
+this	NN	O	O
+case	NN	O	O
+,	NN	O	O
+the	NN	O	B-Task
+gauge	NN	O	I-Task
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+get	NN	O	O
+correction	NN	O	B-Process
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+the	NN	O	O
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+.	NN	O	O
+Therefore	NN	O	O
+we	NN	O	O
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+the	NN	O	O
+field	NN	O	B-Process
+redefinition	NN	O	I-Process
+such	NN	O	O
+that	NN	O	O
+the	NN	O	O
+component	NN	O	O
+fields	NN	O	O
+transform	NN	O	O
+canonically	NN	O	O
+under	NN	O	O
+the	NN	O	O
+gauge	NN	O	B-Process
+transformation	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+N=1/2	NN	O	B-Task
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+-	NN	O	I-Task
+Yang	NN	O	I-Task
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+theory	NN	O	I-Task
+,	NN	O	O
+such	NN	O	O
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+possible	NN	O	O
+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
+.	NN	O	O
+But	NN	O	O
+in	NN	O	O
+this	NN	O	O
+case	NN	O	O
+the	NN	O	O
+component	NN	O	B-Task
+fields	NN	O	I-Task
+do	NN	O	O
+not	NN	O	O
+transform	NN	O	O
+canonically	NN	O	O
+under	NN	O	O
+the	NN	O	O
+deformed	NN	O	B-Process
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+transformation	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+singlet	NN	O	B-Task
+case	NN	O	I-Task
+,	NN	O	O
+we	NN	O	O
+will	NN	O	O
+show	NN	O	O
+that	NN	O	O
+there	NN	O	O
+is	NN	O	O
+a	NN	O	O
+field	NN	O	B-Process
+redefinition	NN	O	I-Process
+such	NN	O	O
+that	NN	O	O
+the	NN	O	O
+redefined	NN	O	O
+fields	NN	O	O
+also	NN	O	O
+transform	NN	O	B-Process
+canonically	NN	O	I-Process
+under	NN	O	I-Process
+the	NN	O	I-Process
+deformed	NN	O	I-Process
+supersymmetry	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+will	NN	O	O
+construct	NN	O	O
+a	NN	O	O
+deformed	NN	O	B-Process
+Lagrangian	NN	O	I-Process
+which	NN	O	O
+is	NN	O	O
+invariant	NN	O	O
+under	NN	O	O
+both	NN	O	O
+the	NN	O	O
+gauge	NN	O	B-Process
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+transformations	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+find	NN	O	O
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+the	NN	O	O
+deformed	NN	O	B-Process
+Lagrangian	NN	O	I-Process
+is	NN	O	O
+characterized	NN	O	O
+by	NN	O	O
+a	NN	O	O
+single	NN	O	B-Process
+function	NN	O	I-Process
+of	NN	O	O
+an	NN	O	O
+antiholomorphic	NN	O	B-Process
+scalar	NN	O	I-Process
+field	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0370269304009232)
+
+We	NN	O	O
+consider	NN	O	O
+finite	NN	O	B-Process
+-	NN	O	I-Process
+time	NN	O	I-Process
+,	NN	O	I-Process
+future	NN	O	I-Process
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+sudden	NN	O	I-Process
+or	NN	O	I-Process
+Big	NN	O	I-Process
+Rip	NN	O	I-Process
+type	NN	O	I-Process
+)	NN	O	I-Process
+singularities	NN	O	I-Process
+which	NN	O	O
+may	NN	O	O
+occur	NN	O	O
+even	NN	O	O
+when	NN	O	O
+strong	NN	O	B-Process
+energy	NN	O	I-Process
+condition	NN	O	I-Process
+is	NN	O	O
+not	NN	O	O
+violated	NN	O	O
+but	NN	O	O
+equation	NN	O	O
+of	NN	O	O
+state	NN	O	O
+parameter	NN	O	O
+is	NN	O	O
+time	NN	O	O
+-	NN	O	O
+dependent	NN	O	O
+.	NN	O	O
+Recently	NN	O	O
+,	NN	O	O
+example	NN	O	B-Task
+of	NN	O	I-Task
+such	NN	O	I-Task
+singularity	NN	O	I-Task
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+been	NN	O	O
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+by	NN	O	O
+Barrow	NN	O	O
+,	NN	O	O
+we	NN	O	B-Task
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+another	NN	O	I-Task
+example	NN	O	I-Task
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+it	NN	O	I-Task
+.	NN	O	O
+Taking	NN	O	O
+into	NN	O	O
+account	NN	O	O
+back	NN	O	B-Task
+reaction	NN	O	I-Task
+of	NN	O	I-Task
+conformal	NN	O	I-Task
+quantum	NN	O	I-Task
+fields	NN	O	I-Task
+near	NN	O	I-Task
+singularity	NN	O	I-Task
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+shown	NN	O	O
+explicitly	NN	O	O
+that	NN	O	O
+quantum	NN	O	B-Process
+effects	NN	O	I-Process
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+(	NN	O	O
+or	NN	O	O
+make	NN	O	O
+milder	NN	O	O
+)	NN	O	O
+the	NN	O	O
+singularity	NN	O	B-Process
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+argued	NN	O	O
+that	NN	O	O
+if	NN	O	O
+the	NN	O	O
+evolution	NN	O	B-Task
+to	NN	O	I-Task
+singularity	NN	O	I-Task
+is	NN	O	O
+realistic	NN	O	O
+,	NN	O	O
+due	NN	O	O
+to	NN	O	O
+quantum	NN	O	B-Process
+effects	NN	O	I-Process
+the	NN	O	B-Process
+universe	NN	O	I-Process
+may	NN	O	I-Process
+end	NN	O	I-Process
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+in	NN	O	I-Process
+de	NN	O	I-Process
+Sitter	NN	O	I-Process
+phase	NN	O	I-Process
+before	NN	O	O
+scale	NN	O	B-Process
+factor	NN	O	I-Process
+blows	NN	O	I-Process
+up	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+picture	NN	O	O
+is	NN	O	O
+generalized	NN	O	O
+for	NN	O	O
+braneworld	NN	O	B-Material
+where	NN	O	O
+sudden	NN	O	B-Process
+singularity	NN	O	I-Process
+may	NN	O	O
+occur	NN	O	O
+on	NN	O	O
+the	NN	O	O
+brane	NN	O	B-Material
+with	NN	O	O
+qualitatively	NN	O	B-Process
+similar	NN	O	I-Process
+conclusions	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0370269304009268)
+
+One	NN	O	O
+of	NN	O	O
+the	NN	O	O
+great	NN	O	O
+successes	NN	O	O
+of	NN	O	O
+the	NN	O	O
+experimental	NN	O	O
+program	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+at	NN	O	O
+LEP	NN	O	O
+has	NN	O	O
+been	NN	O	O
+to	NN	O	O
+put	NN	O	B-Process
+a	NN	O	I-Process
+firm	NN	O	I-Process
+lower	NN	O	I-Process
+bound	NN	O	I-Process
+on	NN	O	I-Process
+the	NN	O	I-Process
+Higgs	NN	O	I-Process
+mass	NN	O	I-Process
+,	NN	O	O
+mH>114	NN	O	B-Process
+GeV	NN	O	I-Process
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+at	NN	O	O
+the	NN	O	O
+same	NN	O	O
+time	NN	O	O
+,	NN	O	O
+together	NN	O	O
+with	NN	O	O
+the	NN	O	O
+information	NN	O	O
+coming	NN	O	O
+from	NN	O	O
+SLD	NN	O	B-Material
+,	NN	O	O
+to	NN	O	O
+give	NN	O	O
+a	NN	O	O
+strong	NN	O	O
+indirect	NN	O	O
+evidence	NN	O	O
+that	NN	O	O
+the	NN	O	O
+Higgs	NN	O	B-Material
+boson	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
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+missing	NN	O	O
+particle	NN	O	B-Material
+of	NN	O	O
+the	NN	O	O
+Standard	NN	O	B-Process
+Model	NN	O	I-Process
+(	NN	O	O
+SM	NN	O	B-Process
+)	NN	O	O
+,	NN	O	O
+should	NN	O	O
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+light	NN	O	O
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+a	NN	O	O
+high	NN	O	O
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+its	NN	O	O
+mass	NN	O	O
+to	NN	O	O
+be	NN	O	O
+below	NN	O	O
+200	NN	O	O
+GeV.	NN	O	O
+The	NN	O	B-Task
+search	NN	O	I-Task
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+the	NN	O	I-Task
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+is	NN	O	O
+one	NN	O	O
+of	NN	O	O
+the	NN	O	O
+main	NN	O	O
+objective	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Tevatron	NN	O	B-Material
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+the	NN	O	O
+future	NN	O	O
+Large	NN	O	B-Material
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+Collider	NN	O	I-Material
+(	NN	O	B-Material
+LHC	NN	O	I-Material
+)	NN	O	I-Material
+,	NN	O	O
+that	NN	O	O
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+supposed	NN	O	O
+to	NN	O	O
+span	NN	O	B-Process
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+the	NN	O	I-Process
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+mass	NN	O	I-Process
+regions	NN	O	I-Process
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+1	NN	O	I-Process
+TeV.	NN	O	I-Process
+At	NN	O	O
+hadron	NN	O	B-Material
+colliders	NN	O	I-Material
+the	NN	O	O
+main	NN	O	B-Task
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+mechanism	NN	O	I-Task
+is	NN	O	O
+the	NN	O	O
+gluon	NN	O	B-Process
+fusion	NN	O	I-Process
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+,	NN	O	O
+a	NN	O	O
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+whose	NN	O	O
+knowledge	NN	O	O
+is	NN	O	O
+fundamental	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
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+limits	NN	O	I-Process
+on	NN	O	I-Process
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+mass	NN	O	I-Process
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+,	NN	O	O
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+the	NN	O	O
+Higgs	NN	O	B-Material
+is	NN	O	O
+discovered	NN	O	O
+,	NN	O	O
+to	NN	O	O
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+the	NN	O	I-Process
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+section	NN	O	I-Process
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+the	NN	O	I-Process
+SM	NN	O	I-Process
+result	NN	O	I-Process
+.	NN	O	O
+Concerning	NN	O	O
+the	NN	O	O
+Higgs	NN	O	B-Process
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+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+quite	NN	O	O
+difficult	NN	O	O
+for	NN	O	O
+an	NN	O	O
+hadron	NN	O	B-Material
+collider	NN	O	I-Material
+to	NN	O	O
+access	NN	O	B-Task
+part	NN	O	I-Task
+of	NN	O	I-Task
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+,	NN	O	O
+the	NN	O	O
+so	NN	O	O
+-	NN	O	O
+called	NN	O	O
+intermediate	NN	O	B-Process
+Higgs	NN	O	I-Process
+mass	NN	O	I-Process
+region	NN	O	I-Process
+114≲mH≲160	NN	O	B-Process
+GeV	NN	O	I-Process
+,	NN	O	O
+because	NN	O	O
+of	NN	O	O
+the	NN	O	O
+large	NN	O	O
+QCD	NN	O	B-Material
+background	NN	O	I-Material
+to	NN	O	O
+the	NN	O	O
+dominant	NN	O	O
+modes	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+region	NN	O	O
+the	NN	O	O
+rare	NN	O	B-Process
+decay	NN	O	I-Process
+H→γγ	NN	O	B-Process
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+most	NN	O	O
+interesting	NN	O	O
+alternative	NN	O	O
+to	NN	O	O
+the	NN	O	O
+usual	NN	O	O
+decay	NN	O	B-Process
+channels	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S037026930400930X)
+
+Recent	NN	O	O
+publications	NN	O	O
+[	NN	O	O
+31	NN	O	O
+]	NN	O	O
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+a	NN	O	O
+variety	NN	O	O
+of	NN	O	O
+methods	NN	O	O
+for	NN	O	O
+calculating	NN	O	B-Task
+upper	NN	O	I-Task
+limits	NN	O	I-Task
+and	NN	O	O
+there	NN	O	O
+is	NN	O	O
+no	NN	O	O
+universally	NN	O	O
+accepted	NN	O	O
+procedure	NN	O	O
+[	NN	O	O
+27,32,33	NN	O	O
+]	NN	O	O
+.	NN	O	O
+We	NN	O	O
+choose	NN	O	O
+an	NN	O	O
+approach	NN	O	O
+similar	NN	O	O
+to	NN	O	O
+that	NN	O	O
+first	NN	O	O
+advocated	NN	O	O
+by	NN	O	O
+Feldman	NN	O	O
+and	NN	O	O
+Cousins	NN	O	O
+[	NN	O	O
+27	NN	O	O
+]	NN	O	O
+.	NN	O	O
+This	NN	O	O
+method	NN	O	O
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+been	NN	O	O
+since	NN	O	O
+extended	NN	O	O
+by	NN	O	O
+Conrad	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+34	NN	O	O
+]	NN	O	O
+to	NN	O	O
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+detector	NN	O	B-Task
+sensitivity	NN	O	I-Task
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+the	NN	O	O
+background	NN	O	B-Process
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+on	NN	O	O
+an	NN	O	O
+approach	NN	O	O
+described	NN	O	O
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+Highland	NN	O	O
+[	NN	O	O
+35	NN	O	O
+]	NN	O	O
+.	NN	O	O
+A	NN	O	O
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+the	NN	O	I-Process
+Conrad	NN	O	I-Process
+et	NN	O	I-Process
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+.	NN	O	I-Process
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+Hill	NN	O	O
+[	NN	O	O
+36	NN	O	O
+]	NN	O	O
+results	NN	O	O
+in	NN	O	O
+more	NN	O	B-Process
+appropriate	NN	O	I-Process
+behavior	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+upper	NN	O	O
+limit	NN	O	O
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+the	NN	O	O
+observed	NN	O	O
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+events	NN	O	O
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+less	NN	O	O
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+the	NN	O	O
+estimated	NN	O	O
+background	NN	O	O
+,	NN	O	O
+as	NN	O	O
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+the	NN	O	O
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+present	NN	O	O
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+We	NN	O	O
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+note	NN	O	O
+that	NN	O	O
+Table	NN	O	O
+2	NN	O	O
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+all	NN	O	O
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+the	NN	O	O
+numbers	NN	O	O
+needed	NN	O	O
+to	NN	O	O
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+the	NN	O	O
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+the	NN	O	O
+papers	NN	O	O
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+.	NN	O	O
+We	NN	O	O
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+functions	NN	O	I-Process
+of	NN	O	O
+Fsens	NN	O	O
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+Gaussian	NN	O	B-Process
+-	NN	O	I-Process
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+.	NN	O	O
+
+-DOCSTART- (S0370269304009335)
+
+In	NN	O	O
+these	NN	O	O
+frameworks	NN	O	O
+,	NN	O	O
+however	NN	O	O
+,	NN	O	O
+the	NN	O	O
+physical	NN	O	B-Task
+spacetime	NN	O	I-Task
+dimension	NN	O	I-Task
+is	NN	O	O
+an	NN	O	O
+input	NN	O	O
+rather	NN	O	O
+than	NN	O	O
+a	NN	O	O
+prediction	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+theory	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+fact	NN	O	O
+,	NN	O	O
+in	NN	O	O
+standard	NN	O	B-Process
+theories	NN	O	I-Process
+whose	NN	O	O
+gravitational	NN	O	O
+sector	NN	O	O
+is	NN	O	O
+described	NN	O	O
+by	NN	O	O
+the	NN	O	O
+Einstein	NN	O	B-Process
+–	NN	O	I-Process
+Hilbert	NN	O	I-Process
+action	NN	O	I-Process
+,	NN	O	O
+there	NN	O	O
+is	NN	O	O
+no	NN	O	O
+obstruction	NN	O	O
+to	NN	O	O
+perform	NN	O	O
+dimensional	NN	O	B-Process
+reductions	NN	O	I-Process
+to	NN	O	O
+spacetimes	NN	O	O
+of	NN	O	O
+dimensions	NN	O	O
+d≠4	NN	O	O
+.	NN	O	O
+Then	NN	O	O
+the	NN	O	O
+question	NN	O	O
+arises	NN	O	O
+,	NN	O	O
+since	NN	O	O
+eleven	NN	O	O
+-	NN	O	O
+dimensional	NN	O	O
+Minkowski	NN	O	B-Material
+space	NN	O	I-Material
+is	NN	O	O
+a	NN	O	O
+maximally	NN	O	O
+(	NN	O	B-Process
+super)symmetric	NN	O	I-Process
+state	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+theory	NN	O	O
+is	NN	O	O
+well	NN	O	O
+-	NN	O	O
+behaved	NN	O	O
+around	NN	O	O
+it	NN	O	O
+,	NN	O	O
+why	NN	O	O
+the	NN	O	O
+theory	NN	O	O
+does	NN	O	O
+not	NN	O	O
+select	NN	O	B-Process
+this	NN	O	I-Process
+configuration	NN	O	I-Process
+as	NN	O	O
+the	NN	O	O
+vacuum	NN	O	O
+,	NN	O	O
+but	NN	O	O
+instead	NN	O	O
+,	NN	O	O
+it	NN	O	O
+chooses	NN	O	O
+a	NN	O	O
+particular	NN	O	O
+compactified	NN	O	B-Process
+space	NN	O	I-Process
+with	NN	O	O
+less	NN	O	O
+symmetry	NN	O	O
+.	NN	O	O
+An	NN	O	O
+ideal	NN	O	O
+situation	NN	O	O
+,	NN	O	O
+instead	NN	O	O
+,	NN	O	O
+would	NN	O	O
+be	NN	O	O
+that	NN	O	O
+the	NN	O	O
+eleven	NN	O	B-Process
+-	NN	O	I-Process
+dimensional	NN	O	I-Process
+theory	NN	O	I-Process
+dynamically	NN	O	O
+predicted	NN	O	O
+a	NN	O	O
+low	NN	O	B-Task
+energy	NN	O	I-Task
+regime	NN	O	I-Task
+which	NN	O	O
+could	NN	O	O
+only	NN	O	O
+be	NN	O	O
+a	NN	O	O
+four	NN	O	B-Process
+-	NN	O	I-Process
+dimensional	NN	O	I-Process
+effective	NN	O	I-Process
+theory	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+such	NN	O	O
+a	NN	O	O
+scenario	NN	O	O
+,	NN	O	O
+a	NN	O	O
+background	NN	O	B-Process
+solution	NN	O	I-Process
+with	NN	O	O
+an	NN	O	O
+effective	NN	O	B-Process
+spacetime	NN	O	I-Process
+dimension	NN	O	I-Process
+d>4	NN	O	B-Process
+should	NN	O	O
+be	NN	O	O
+expected	NN	O	O
+to	NN	O	O
+be	NN	O	O
+a	NN	O	O
+false	NN	O	B-Process
+vacuum	NN	O	I-Process
+where	NN	O	O
+the	NN	O	O
+propagators	NN	O	B-Process
+for	NN	O	I-Process
+the	NN	O	I-Process
+dynamical	NN	O	I-Process
+fields	NN	O	I-Process
+are	NN	O	O
+ill	NN	O	O
+-	NN	O	O
+defined	NN	O	O
+,	NN	O	O
+lest	NN	O	O
+a	NN	O	O
+low	NN	O	B-Process
+energy	NN	O	I-Process
+effective	NN	O	I-Process
+theory	NN	O	I-Process
+could	NN	O	O
+exist	NN	O	O
+in	NN	O	O
+dimensions	NN	O	O
+higher	NN	O	O
+than	NN	O	O
+four	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009347)
+
+The	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+chaotic	NN	O	B-Task
+motion	NN	O	I-Task
+in	NN	O	I-Task
+nuclear	NN	O	I-Task
+systems	NN	O	I-Task
+has	NN	O	O
+been	NN	O	O
+firmly	NN	O	O
+related	NN	O	O
+with	NN	O	O
+the	NN	O	O
+statistics	NN	O	B-Process
+of	NN	O	I-Process
+high	NN	O	I-Process
+-	NN	O	I-Process
+lying	NN	O	I-Process
+energy	NN	O	I-Process
+levels	NN	O	I-Process
+[	NN	O	O
+8,9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Poisson	NN	O	B-Process
+distributions	NN	O	I-Process
+of	NN	O	O
+normalized	NN	O	O
+spacings	NN	O	O
+of	NN	O	O
+successive	NN	O	O
+nuclear	NN	O	O
+or	NN	O	O
+atomic	NN	O	O
+excited	NN	O	B-Process
+levels	NN	O	I-Process
+with	NN	O	O
+the	NN	O	O
+same	NN	O	O
+spin	NN	O	B-Process
+and	NN	O	O
+parity	NN	O	B-Process
+correspond	NN	O	O
+to	NN	O	O
+integrable	NN	O	B-Process
+classical	NN	O	I-Process
+dynamics	NN	O	I-Process
+,	NN	O	O
+while	NN	O	O
+Wigner	NN	O	B-Material
+'s	NN	O	I-Material
+statistics	NN	O	I-Material
+signal	NN	O	O
+chaotic	NN	O	B-Process
+motion	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+corresponding	NN	O	O
+classical	NN	O	B-Task
+regime	NN	O	I-Task
+[	NN	O	O
+10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Intermediate	NN	O	O
+situations	NN	O	O
+are	NN	O	O
+more	NN	O	O
+difficult	NN	O	O
+to	NN	O	O
+assess	NN	O	O
+.	NN	O	O
+Very	NN	O	O
+recently	NN	O	O
+a	NN	O	O
+proposal	NN	O	O
+has	NN	O	O
+been	NN	O	O
+made	NN	O	O
+to	NN	O	O
+treat	NN	O	O
+the	NN	O	O
+spectral	NN	O	B-Process
+fluctuations	NN	O	I-Process
+δn	NN	O	B-Process
+as	NN	O	O
+discrete	NN	O	B-Process
+time	NN	O	I-Process
+series	NN	O	I-Process
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Defining	NN	O	O
+(	NN	O	O
+1)δn=∫−∞En+1ρ˜(E)dE−n	NN	O	O
+,	NN	O	O
+with	NN	O	O
+ρ˜(E	NN	O	O
+)	NN	O	O
+the	NN	O	O
+mean	NN	O	O
+level	NN	O	O
+density	NN	O	O
+which	NN	O	O
+allows	NN	O	O
+the	NN	O	O
+mapping	NN	O	B-Process
+to	NN	O	I-Process
+dimensionless	NN	O	I-Process
+levels	NN	O	I-Process
+with	NN	O	O
+unitary	NN	O	B-Process
+average	NN	O	I-Process
+level	NN	O	I-Process
+density	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+analyzing	NN	O	B-Process
+the	NN	O	I-Process
+energy	NN	O	I-Process
+fluctuations	NN	O	I-Process
+as	NN	O	O
+a	NN	O	O
+discrete	NN	O	B-Process
+time	NN	O	I-Process
+series	NN	O	I-Process
+,	NN	O	O
+they	NN	O	O
+found	NN	O	O
+that	NN	O	O
+nuclear	NN	O	B-Task
+power	NN	O	I-Task
+spectra	NN	O	I-Task
+behave	NN	O	O
+like	NN	O	O
+1f	NN	O	O
+noise	NN	O	O
+,	NN	O	O
+postulating	NN	O	O
+that	NN	O	O
+this	NN	O	O
+might	NN	O	O
+be	NN	O	O
+a	NN	O	O
+characteristic	NN	O	O
+signature	NN	O	O
+of	NN	O	O
+generic	NN	O	O
+quantum	NN	O	B-Task
+chaotic	NN	O	I-Task
+systems	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+present	NN	O	O
+work	NN	O	O
+we	NN	O	O
+implement	NN	O	O
+this	NN	O	O
+idea	NN	O	O
+,	NN	O	O
+using	NN	O	O
+the	NN	O	O
+1f	NN	O	B-Process
+spectral	NN	O	I-Process
+behavior	NN	O	I-Process
+as	NN	O	O
+a	NN	O	O
+test	NN	O	O
+for	NN	O	O
+the	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+chaos	NN	O	B-Process
+in	NN	O	I-Process
+nuclear	NN	O	I-Process
+mass	NN	O	I-Process
+errors	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0370269304009359)
+
+Table	NN	O	O
+1	NN	O	O
+lists	NN	O	O
+8	NN	O	O
+pairs	NN	O	O
+of	NN	O	O
+B	NN	O	B-Process
+decays	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+fact	NN	O	O
+,	NN	O	O
+there	NN	O	O
+are	NN	O	O
+more	NN	O	O
+decay	NN	O	B-Process
+pairs	NN	O	I-Process
+,	NN	O	O
+since	NN	O	O
+many	NN	O	O
+of	NN	O	O
+the	NN	O	O
+particles	NN	O	O
+in	NN	O	O
+the	NN	O	O
+final	NN	O	O
+states	NN	O	O
+can	NN	O	O
+be	NN	O	O
+observed	NN	O	O
+as	NN	O	O
+either	NN	O	O
+pseudoscalar	NN	O	O
+(	NN	O	O
+P	NN	O	O
+)	NN	O	O
+or	NN	O	O
+vector	NN	O	O
+(	NN	O	O
+V	NN	O	O
+)	NN	O	O
+mesons	NN	O	B-Material
+.	NN	O	O
+Note	NN	O	O
+that	NN	O	O
+certain	NN	O	O
+decays	NN	O	B-Process
+are	NN	O	O
+written	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+VV	NN	O	O
+final	NN	O	O
+states	NN	O	O
+,	NN	O	O
+while	NN	O	O
+others	NN	O	O
+are	NN	O	O
+have	NN	O	O
+PP	NN	O	O
+states	NN	O	O
+.	NN	O	O
+There	NN	O	O
+are	NN	O	O
+three	NN	O	O
+reasons	NN	O	O
+for	NN	O	O
+this	NN	O	O
+.	NN	O	O
+First	NN	O	O
+,	NN	O	O
+some	NN	O	O
+decays	NN	O	B-Process
+involve	NN	O	O
+a	NN	O	O
+final	NN	O	O
+-	NN	O	O
+state	NN	O	O
+π0	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+experimentally	NN	O	O
+it	NN	O	O
+will	NN	O	O
+be	NN	O	O
+necessary	NN	O	O
+to	NN	O	O
+find	NN	O	B-Task
+the	NN	O	I-Task
+decay	NN	O	I-Task
+vertices	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+final	NN	O	B-Material
+particles	NN	O	I-Material
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+virtually	NN	O	O
+impossible	NN	O	O
+for	NN	O	O
+a	NN	O	O
+π0	NN	O	O
+,	NN	O	O
+and	NN	O	O
+so	NN	O	O
+we	NN	O	O
+always	NN	O	O
+use	NN	O	O
+a	NN	O	O
+ρ0	NN	O	O
+.	NN	O	O
+Second	NN	O	O
+,	NN	O	O
+some	NN	O	O
+pairs	NN	O	B-Material
+of	NN	O	I-Material
+decays	NN	O	I-Material
+are	NN	O	O
+related	NN	O	O
+by	NN	O	O
+SU(3	NN	O	O
+)	NN	O	O
+in	NN	O	O
+the	NN	O	O
+SM	NN	O	B-Material
+only	NN	O	O
+if	NN	O	O
+an	NN	O	O
+(	NN	O	O
+ss¯	NN	O	O
+)	NN	O	O
+quark	NN	O	B-Material
+pair	NN	O	I-Material
+is	NN	O	O
+used	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+there	NN	O	O
+are	NN	O	O
+no	NN	O	O
+P	NN	O	O
+'s	NN	O	O
+which	NN	O	O
+are	NN	O	O
+pure	NN	O	O
+(	NN	O	O
+ss¯	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+mesons	NN	O	B-Material
+η	NN	O	B-Material
+and	NN	O	O
+η′	NN	O	B-Material
+have	NN	O	O
+an	NN	O	O
+(	NN	O	O
+ss¯	NN	O	O
+)	NN	O	O
+component	NN	O	O
+,	NN	O	O
+but	NN	O	O
+they	NN	O	O
+also	NN	O	O
+have	NN	O	O
+significant	NN	O	O
+(	NN	O	O
+uu¯	NN	O	O
+)	NN	O	O
+and	NN	O	O
+(	NN	O	O
+dd¯	NN	O	O
+)	NN	O	O
+pieces	NN	O	O
+.	NN	O	O
+As	NN	O	O
+a	NN	O	O
+result	NN	O	O
+the	NN	O	O
+b¯→s¯	NN	O	O
+and	NN	O	O
+b¯→d¯	NN	O	O
+decays	NN	O	B-Process
+are	NN	O	O
+not	NN	O	O
+really	NN	O	O
+related	NN	O	O
+by	NN	O	O
+SU(3	NN	O	O
+)	NN	O	O
+in	NN	O	O
+the	NN	O	O
+SM	NN	O	B-Material
+if	NN	O	O
+the	NN	O	O
+final	NN	O	O
+state	NN	O	O
+involves	NN	O	O
+an	NN	O	O
+η	NN	O	B-Material
+or	NN	O	O
+η′.	NN	O	B-Material
+We	NN	O	O
+therefore	NN	O	O
+consider	NN	O	O
+instead	NN	O	O
+the	NN	O	O
+vector	NN	O	B-Material
+meson	NN	O	I-Material
+ϕ	NN	O	B-Material
+which	NN	O	O
+is	NN	O	O
+essentially	NN	O	O
+a	NN	O	O
+pure	NN	O	O
+(	NN	O	O
+ss¯	NN	O	O
+)	NN	O	O
+quark	NN	O	B-Process
+state	NN	O	I-Process
+.	NN	O	O
+Finally	NN	O	O
+,	NN	O	O
+we	NN	O	O
+require	NN	O	O
+that	NN	O	O
+both	NN	O	O
+B0	NN	O	B-Material
+and	NN	O	O
+B¯0	NN	O	B-Material
+be	NN	O	O
+able	NN	O	O
+to	NN	O	O
+decay	NN	O	B-Process
+to	NN	O	I-Process
+the	NN	O	I-Process
+final	NN	O	I-Process
+state	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+can	NN	O	O
+not	NN	O	O
+happen	NN	O	O
+if	NN	O	O
+the	NN	O	O
+final	NN	O	O
+state	NN	O	O
+contains	NN	O	O
+a	NN	O	O
+single	NN	O	O
+K0	NN	O	O
+(	NN	O	O
+or	NN	O	O
+K¯0	NN	O	O
+)	NN	O	O
+meson	NN	O	B-Material
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+it	NN	O	O
+can	NN	O	O
+occur	NN	O	O
+if	NN	O	O
+this	NN	O	O
+final	NN	O	B-Material
+-	NN	O	I-Material
+state	NN	O	I-Material
+particle	NN	O	I-Material
+is	NN	O	O
+an	NN	O	O
+excited	NN	O	B-Material
+neutral	NN	O	I-Material
+kaon	NN	O	I-Material
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+case	NN	O	O
+one	NN	O	O
+decay	NN	O	O
+involves	NN	O	O
+K*0	NN	O	B-Material
+,	NN	O	O
+while	NN	O	O
+the	NN	O	O
+other	NN	O	O
+has	NN	O	O
+K¯*0	NN	O	B-Material
+.	NN	O	O
+Assuming	NN	O	O
+that	NN	O	O
+the	NN	O	O
+vector	NN	O	B-Material
+meson	NN	O	I-Material
+is	NN	O	O
+detected	NN	O	O
+via	NN	O	O
+its	NN	O	O
+decay	NN	O	B-Process
+to	NN	O	I-Process
+ψKsπ0	NN	O	I-Process
+(	NN	O	O
+as	NN	O	O
+in	NN	O	O
+the	NN	O	O
+measurement	NN	O	B-Process
+of	NN	O	I-Process
+sin2β	NN	O	I-Process
+via	NN	O	O
+Bd0(t)→J/ψK	NN	O	O
+*	NN	O	O
+)	NN	O	O
+,	NN	O	O
+then	NN	O	O
+both	NN	O	O
+B0	NN	O	B-Material
+and	NN	O	O
+B¯0	NN	O	B-Material
+can	NN	O	O
+decay	NN	O	B-Process
+to	NN	O	O
+the	NN	O	O
+same	NN	O	O
+final	NN	O	O
+state	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009530)
+
+If	NN	O	O
+signals	NN	O	O
+suggesting	NN	O	O
+supersymmetry	NN	O	B-Process
+(	NN	O	O
+SUSY	NN	O	B-Process
+)	NN	O	O
+are	NN	O	O
+discovered	NN	O	O
+at	NN	O	O
+the	NN	O	O
+LHC	NN	O	O
+then	NN	O	O
+it	NN	O	O
+will	NN	O	O
+be	NN	O	O
+vital	NN	O	O
+to	NN	O	O
+measure	NN	O	B-Task
+the	NN	O	I-Task
+spins	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+new	NN	O	I-Task
+particles	NN	O	I-Task
+to	NN	O	O
+demonstrate	NN	O	B-Task
+that	NN	O	I-Task
+they	NN	O	I-Task
+are	NN	O	I-Task
+indeed	NN	O	I-Task
+the	NN	O	I-Task
+predicted	NN	O	I-Task
+super	NN	O	I-Task
+-	NN	O	I-Task
+partners	NN	O	I-Task
+.	NN	O	O
+A	NN	O	O
+method	NN	O	O
+is	NN	O	O
+discussed	NN	O	O
+by	NN	O	O
+which	NN	O	O
+the	NN	O	O
+spins	NN	O	O
+of	NN	O	O
+some	NN	O	O
+of	NN	O	O
+the	NN	O	O
+SUSY	NN	O	B-Material
+particles	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+determined	NN	O	O
+.	NN	O	O
+Angular	NN	O	B-Process
+distributions	NN	O	I-Process
+in	NN	O	O
+sparticle	NN	O	B-Process
+decays	NN	O	I-Process
+lead	NN	O	O
+to	NN	O	O
+charge	NN	O	B-Process
+asymmetry	NN	O	I-Process
+in	NN	O	O
+lepton	NN	O	B-Process
+-	NN	O	I-Process
+jet	NN	O	I-Process
+invariant	NN	O	I-Process
+mass	NN	O	I-Process
+distributions	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+size	NN	O	O
+of	NN	O	O
+the	NN	O	O
+asymmetry	NN	O	O
+is	NN	O	O
+proportional	NN	O	O
+to	NN	O	O
+the	NN	O	O
+primary	NN	O	B-Process
+production	NN	O	I-Process
+asymmetry	NN	O	I-Process
+between	NN	O	O
+squarks	NN	O	B-Material
+and	NN	O	O
+anti	NN	O	B-Material
+-	NN	O	I-Material
+squarks	NN	O	I-Material
+.	NN	O	O
+Monte	NN	O	B-Process
+Carlo	NN	O	I-Process
+simulations	NN	O	I-Process
+are	NN	O	O
+performed	NN	O	O
+for	NN	O	O
+a	NN	O	O
+particular	NN	O	O
+mSUGRA	NN	O	B-Process
+model	NN	O	I-Process
+point	NN	O	I-Process
+at	NN	O	O
+the	NN	O	O
+LHC	NN	O	O
+.	NN	O	O
+The	NN	O	O
+resultant	NN	O	O
+asymmetry	NN	O	B-Process
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+are	NN	O	O
+consistent	NN	O	O
+with	NN	O	O
+a	NN	O	O
+spin-0	NN	O	B-Material
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+a	NN	O	O
+spin-12χ˜20	NN	O	O
+,	NN	O	O
+but	NN	O	O
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+not	NN	O	O
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+with	NN	O	O
+both	NN	O	O
+particles	NN	O	B-Material
+being	NN	O	O
+scalars	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009608)
+
+It	NN	O	O
+should	NN	O	O
+be	NN	O	O
+noted	NN	O	O
+that	NN	O	O
+BEBC	NN	O	B-Material
+[	NN	O	O
+21	NN	O	O
+]	NN	O	O
+and	NN	O	O
+NOMAD	NN	O	B-Material
+[	NN	O	O
+20	NN	O	O
+]	NN	O	O
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+ρ	NN	O	O
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+those	NN	O	O
+estimated	NN	O	O
+with	NN	O	O
+JETSET	NN	O	B-Material
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+NOMAD	NN	O	B-Material
+[	NN	O	O
+20	NN	O	O
+]	NN	O	O
+proposed	NN	O	O
+to	NN	O	O
+retune	NN	O	B-Process
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+the	NN	O	I-Process
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+within	NN	O	O
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+to	NN	O	O
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+Therefore	NN	O	O
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+for	NN	O	O
+the	NN	O	O
+purpose	NN	O	O
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+events	NN	O	B-Process
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+the	NN	O	O
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+the	NN	O	O
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+of	NN	O	O
+key	NN	O	O
+JETSET	NN	O	B-Material
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+result	NN	O	O
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+a	NN	O	I-Process
+systematic	NN	O	I-Process
+error	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+used	NN	O	O
+experimental	NN	O	O
+rates	NN	O	O
+of	NN	O	O
+light	NN	O	B-Material
+neutral	NN	O	I-Material
+mesons	NN	O	I-Material
+and	NN	O	O
+resonances	NN	O	B-Process
+where	NN	O	O
+available	NN	O	O
+(	NN	O	O
+Table	NN	O	O
+1	NN	O	O
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+for	NN	O	O
+normalization	NN	O	B-Process
+purposes	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+the	NN	O	O
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+which	NN	O	O
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+to	NN	O	O
+20	NN	O	O
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+at	NN	O	O
+most	NN	O	O
+)	NN	O	O
+affects	NN	O	O
+only	NN	O	O
+the	NN	O	O
+production	NN	O	O
+of	NN	O	O
+the	NN	O	O
+η′	NN	O	O
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+ϕ	NN	O	O
+for	NN	O	O
+which	NN	O	O
+no	NN	O	O
+experimental	NN	O	B-Material
+data	NN	O	I-Material
+are	NN	O	O
+available	NN	O	O
+.	NN	O	O
+This	NN	O	O
+uncertainty	NN	O	O
+is	NN	O	O
+reflected	NN	O	O
+in	NN	O	O
+the	NN	O	O
+error	NN	O	O
+quoted	NN	O	O
+in	NN	O	O
+the	NN	O	O
+table	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+since	NN	O	O
+the	NN	O	O
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+from	NN	O	O
+η′	NN	O	O
+and	NN	O	O
+ϕ	NN	O	O
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+,	NN	O	O
+the	NN	O	O
+overall	NN	O	O
+effect	NN	O	O
+is	NN	O	O
+less	NN	O	O
+important	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009657)
+
+In	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+,	NN	O	O
+we	NN	O	O
+present	NN	O	O
+results	NN	O	O
+of	NN	O	O
+a	NN	O	O
+relativistic	NN	O	B-Task
+calculation	NN	O	I-Task
+of	NN	O	I-Task
+decay	NN	O	I-Task
+constants	NN	O	I-Task
+in	NN	O	O
+the	NN	O	O
+framework	NN	O	B-Process
+of	NN	O	I-Process
+full	NN	O	I-Process
+Salpeter	NN	O	I-Process
+equation	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+full	NN	O	O
+Salpeter	NN	O	B-Process
+equation	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+relativistic	NN	O	B-Process
+equation	NN	O	I-Process
+describing	NN	O	O
+a	NN	O	O
+bound	NN	O	O
+state	NN	O	O
+.	NN	O	O
+Since	NN	O	O
+this	NN	O	O
+method	NN	O	O
+has	NN	O	O
+a	NN	O	O
+very	NN	O	O
+solid	NN	O	O
+basis	NN	O	O
+in	NN	O	O
+quantum	NN	O	B-Process
+field	NN	O	I-Process
+theory	NN	O	I-Process
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+very	NN	O	O
+good	NN	O	O
+in	NN	O	O
+describing	NN	O	B-Task
+a	NN	O	I-Task
+bound	NN	O	I-Task
+state	NN	O	I-Task
+which	NN	O	O
+is	NN	O	O
+a	NN	O	O
+relativistic	NN	O	B-Process
+system	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+a	NN	O	O
+previous	NN	O	O
+paper	NN	O	O
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+,	NN	O	O
+we	NN	O	O
+solved	NN	O	B-Task
+the	NN	O	I-Task
+instantaneous	NN	O	I-Task
+Bethe	NN	O	I-Task
+–	NN	O	I-Task
+Salpeter	NN	O	I-Task
+equation	NN	O	I-Task
+[	NN	O	O
+17	NN	O	O
+]	NN	O	O
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+also	NN	O	O
+called	NN	O	O
+full	NN	O	B-Process
+Salpeter	NN	O	I-Process
+equation	NN	O	I-Process
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+After	NN	O	O
+we	NN	O	O
+solved	NN	O	B-Task
+the	NN	O	I-Task
+full	NN	O	I-Task
+Salpeter	NN	O	I-Task
+equation	NN	O	I-Task
+,	NN	O	O
+we	NN	O	O
+obtained	NN	O	O
+the	NN	O	O
+relativistic	NN	O	B-Process
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+function	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+bound	NN	O	I-Process
+state	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+used	NN	O	O
+this	NN	O	O
+wave	NN	O	B-Process
+function	NN	O	I-Process
+to	NN	O	O
+calculate	NN	O	B-Task
+the	NN	O	I-Task
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+kinetic	NN	O	I-Task
+energy	NN	O	I-Task
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+the	NN	O	O
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+inside	NN	O	O
+a	NN	O	O
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+0−	NN	O	O
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+,	NN	O	O
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+experiments	NN	O	O
+.	NN	O	O
+We	NN	O	O
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+found	NN	O	O
+there	NN	O	O
+that	NN	O	O
+the	NN	O	O
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+corrections	NN	O	I-Process
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+ignored	NN	O	O
+[	NN	O	O
+16	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+Letter	NN	O	O
+we	NN	O	O
+use	NN	O	B-Process
+this	NN	O	I-Process
+method	NN	O	I-Process
+to	NN	O	O
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+the	NN	O	I-Task
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+of	NN	O	I-Task
+decay	NN	O	I-Task
+constants	NN	O	I-Task
+of	NN	O	O
+heavy	NN	O	B-Material
+mesons	NN	O	I-Material
+in	NN	O	O
+0−	NN	O	O
+state	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009803)
+
+Our	NN	O	O
+aim	NN	O	O
+is	NN	O	O
+to	NN	O	O
+introduce	NN	O	B-Task
+vector	NN	O	I-Task
+mesons	NN	O	I-Task
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+a	NN	O	O
+Lagrangian	NN	O	B-Process
+which	NN	O	O
+satisfies	NN	O	O
+the	NN	O	O
+low	NN	O	B-Process
+energy	NN	O	I-Process
+current	NN	O	I-Process
+algebra	NN	O	I-Process
+.	NN	O	O
+One	NN	O	O
+consistent	NN	O	O
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+is	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+a	NN	O	O
+non	NN	O	B-Process
+-	NN	O	I-Process
+linear	NN	O	I-Process
+chiral	NN	O	I-Process
+Lagrangian	NN	O	I-Process
+with	NN	O	O
+a	NN	O	O
+hidden	NN	O	B-Process
+local	NN	O	I-Process
+symmetry	NN	O	I-Process
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+theory	NN	O	O
+the	NN	O	O
+vector	NN	O	B-Material
+mesons	NN	O	I-Material
+emerge	NN	O	O
+as	NN	O	O
+dynamical	NN	O	B-Material
+vector	NN	O	I-Material
+mesons	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+three	NN	O	O
+point	NN	O	O
+vector	NN	O	B-Process
+-	NN	O	I-Process
+pseudo	NN	O	I-Process
+scalar	NN	O	I-Process
+interaction	NN	O	I-Process
+is	NN	O	O
+given	NN	O	O
+by	NN	O	O
+(	NN	O	O
+11)ih4〈Vμ(P∂μP−∂μPP	NN	O	B-Process
+)	NN	O	I-Process
+〉	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+h	NN	O	B-Process
+stands	NN	O	O
+for	NN	O	O
+the	NN	O	O
+vector	NN	O	B-Process
+-	NN	O	I-Process
+pseudoscalar	NN	O	I-Process
+coupling	NN	O	I-Process
+.	NN	O	O
+Some	NN	O	O
+typical	NN	O	O
+vertices	NN	O	B-Process
+of	NN	O	I-Process
+ρ	NN	O	I-Process
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+12)π+(p1)π−(p2)ρ0:h(p1−p2)μεμ,π+(p1)π0(p2)ρ−:h(p1−p2)μεμ,K+(p1)K¯0(p2)ρ−:h2(p1−p2)μεμ,etc	NN	O	I-Process
+.	NN	O	O
+,	NN	O	O
+which	NN	O	O
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+directly	NN	O	O
+related	NN	O	O
+to	NN	O	O
+the	NN	O	O
+ρ	NN	O	B-Process
+decay	NN	O	I-Process
+width	NN	O	I-Process
+:	NN	O	O
+Γ(ρ)=h2(|pπ|)3/(6πmρ2	NN	O	B-Process
+)	NN	O	I-Process
+,	NN	O	O
+where	NN	O	O
+pπ	NN	O	B-Process
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+the	NN	O	O
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+final	NN	O	I-Process
+state	NN	O	I-Process
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+in	NN	O	I-Process
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+ρ	NN	O	I-Process
+rest	NN	O	I-Process
+frame	NN	O	I-Process
+.	NN	O	O
+With	NN	O	O
+Γ(ρ)=149.2MeV	NN	O	O
+,	NN	O	O
+we	NN	O	O
+find	NN	O	O
+h=5.95	NN	O	O
+.	NN	O	O
+We	NN	O	O
+note	NN	O	O
+in	NN	O	O
+passing	NN	O	O
+that	NN	O	O
+the	NN	O	O
+Kawarabayashi	NN	O	B-Material
+–	NN	O	I-Material
+Suzuki	NN	O	I-Material
+–	NN	O	I-Material
+Riazuddin	NN	O	I-Material
+–	NN	O	I-Material
+Fayyazuddin	NN	O	I-Material
+relation	NN	O	I-Material
+gives	NN	O	O
+the	NN	O	O
+value	NN	O	O
+h	NN	O	O
+=	NN	O	O
+mρ/(2fπ)[12	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Thus	NN	O	O
+the	NN	O	O
+value	NN	O	O
+of	NN	O	O
+h	NN	O	O
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+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+4	NN	O	O
+)	NN	O	O
+and	NN	O	O
+the	NN	O	O
+two	NN	O	O
+values	NN	O	O
+in	NN	O	O
+this	NN	O	O
+paragraph	NN	O	O
+differ	NN	O	B-Process
+by	NN	O	I-Process
+small	NN	O	I-Process
+amounts	NN	O	I-Process
+(	NN	O	O
+∼19	NN	O	O
+%	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+strong	NN	O	B-Task
+four	NN	O	I-Task
+-	NN	O	I-Task
+point	NN	O	I-Task
+vertices	NN	O	I-Task
+involving	NN	O	I-Task
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+the	NN	O	O
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+two	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+5	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+weak	NN	O	B-Task
+vertices	NN	O	I-Task
+are	NN	O	I-Task
+obtained	NN	O	I-Task
+from	NN	O	O
+the	NN	O	O
+definitions	NN	O	O
+of	NN	O	O
+Q6	NN	O	O
+and	NN	O	O
+Q8	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+numerical	NN	O	O
+work	NN	O	O
+we	NN	O	O
+shall	NN	O	O
+use	NN	O	O
+the	NN	O	O
+value	NN	O	O
+of	NN	O	O
+h	NN	O	O
+from	NN	O	O
+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+4	NN	O	O
+)	NN	O	O
+and	NN	O	O
+also	NN	O	O
+h=5.95	NN	O	O
+obtained	NN	O	O
+from	NN	O	O
+the	NN	O	O
+decay	NN	O	O
+width	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0370269304009979)
+
+On	NN	O	O
+the	NN	O	O
+other	NN	O	O
+hand	NN	O	O
+,	NN	O	O
+the	NN	O	O
+other	NN	O	O
+local	NN	O	O
+fields	NN	O	O
+except	NN	O	O
+the	NN	O	O
+gravitational	NN	O	O
+field	NN	O	O
+are	NN	O	O
+not	NN	O	O
+always	NN	O	O
+localized	NN	O	B-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+brane	NN	O	I-Task
+even	NN	O	O
+in	NN	O	O
+the	NN	O	O
+warped	NN	O	B-Process
+geometry	NN	O	I-Process
+.	NN	O	O
+Indeed	NN	O	O
+,	NN	O	O
+in	NN	O	O
+the	NN	O	O
+Randall	NN	O	B-Material
+–	NN	O	I-Material
+Sundrum	NN	O	I-Material
+model	NN	O	I-Material
+in	NN	O	O
+five	NN	O	B-Task
+dimensions	NN	O	I-Task
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+,	NN	O	O
+the	NN	O	O
+following	NN	O	O
+facts	NN	O	O
+are	NN	O	O
+well	NN	O	O
+known	NN	O	O
+:	NN	O	O
+spin	NN	O	B-Process
+0	NN	O	I-Process
+field	NN	O	I-Process
+is	NN	O	I-Process
+localized	NN	O	I-Process
+on	NN	O	I-Process
+a	NN	O	I-Process
+brane	NN	O	I-Process
+with	NN	O	O
+positive	NN	O	B-Process
+tension	NN	O	I-Process
+which	NN	O	O
+also	NN	O	O
+localizes	NN	O	B-Process
+the	NN	O	I-Process
+graviton	NN	O	I-Process
+while	NN	O	O
+the	NN	O	O
+spin	NN	O	O
+1/2	NN	O	O
+and	NN	O	O
+3/2	NN	O	O
+fields	NN	O	O
+are	NN	O	O
+localized	NN	O	O
+not	NN	O	O
+on	NN	O	O
+a	NN	O	O
+brane	NN	O	O
+with	NN	O	O
+positive	NN	O	B-Process
+tension	NN	O	I-Process
+but	NN	O	O
+on	NN	O	O
+a	NN	O	O
+brane	NN	O	O
+with	NN	O	O
+negative	NN	O	B-Process
+tension	NN	O	I-Process
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Spin	NN	O	O
+1	NN	O	O
+field	NN	O	O
+is	NN	O	O
+not	NN	O	O
+localized	NN	O	O
+neither	NN	O	O
+on	NN	O	O
+a	NN	O	O
+brane	NN	O	O
+with	NN	O	O
+positive	NN	O	B-Process
+tension	NN	O	I-Process
+nor	NN	O	O
+on	NN	O	O
+a	NN	O	O
+brane	NN	O	O
+with	NN	O	O
+negative	NN	O	B-Process
+tension	NN	O	I-Process
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+six	NN	O	B-Process
+space	NN	O	I-Process
+–	NN	O	I-Process
+time	NN	O	I-Process
+dimensions	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+spin	NN	O	O
+1	NN	O	O
+gauge	NN	O	O
+field	NN	O	O
+is	NN	O	O
+also	NN	O	O
+localized	NN	O	B-Process
+on	NN	O	I-Process
+the	NN	O	I-Process
+brane	NN	O	I-Process
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Thus	NN	O	O
+,	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+fulfill	NN	O	O
+the	NN	O	O
+localization	NN	O	B-Task
+of	NN	O	O
+Standard	NN	O	B-Material
+Model	NN	O	I-Material
+particles	NN	O	O
+on	NN	O	O
+a	NN	O	O
+brane	NN	O	O
+with	NN	O	O
+positive	NN	O	B-Process
+tension	NN	O	I-Process
+,	NN	O	O
+it	NN	O	O
+seems	NN	O	O
+that	NN	O	O
+some	NN	O	O
+additional	NN	O	O
+interactions	NN	O	O
+except	NN	O	O
+the	NN	O	O
+gravitational	NN	O	O
+interaction	NN	O	O
+must	NN	O	O
+be	NN	O	O
+also	NN	O	O
+introduced	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+bulk	NN	O	I-Process
+.	NN	O	O
+There	NN	O	O
+is	NN	O	O
+a	NN	O	O
+lot	NN	O	O
+of	NN	O	O
+papers	NN	O	O
+devoted	NN	O	O
+to	NN	O	O
+the	NN	O	O
+different	NN	O	O
+localization	NN	O	B-Process
+mechanisms	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+bulk	NN	O	O
+fields	NN	O	O
+in	NN	O	O
+various	NN	O	O
+brane	NN	O	B-Process
+world	NN	O	I-Process
+models	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0375960112002885)
+
+First	NN	O	B-Process
+-	NN	O	I-Process
+principles	NN	O	I-Process
+calculations	NN	O	I-Process
+have	NN	O	O
+clarified	NN	O	O
+the	NN	O	O
+electronic	NN	O	B-Task
+structure	NN	O	I-Task
+and	NN	O	I-Task
+stability	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+W@Si12	NN	O	B-Material
+cluster	NN	O	I-Material
+under	NN	O	O
+O2	NN	O	B-Task
+molecule	NN	O	I-Task
+adsorption	NN	O	I-Task
+and	NN	O	I-Task
+reaction	NN	O	I-Task
+.	NN	O	O
+Our	NN	O	O
+results	NN	O	O
+show	NN	O	O
+that	NN	O	O
+the	NN	O	O
+W	NN	O	B-Process
+-	NN	O	I-Process
+encapsulated	NN	O	I-Process
+Si12	NN	O	I-Process
+hexagonal	NN	O	I-Process
+prism	NN	O	I-Process
+cage	NN	O	I-Process
+is	NN	O	O
+very	NN	O	O
+inert	NN	O	O
+to	NN	O	O
+oxidation	NN	O	B-Task
+.	NN	O	O
+The	NN	O	O
+O2	NN	O	B-Material
+molecule	NN	O	O
+only	NN	O	O
+weakly	NN	O	O
+adsorbs	NN	O	O
+onto	NN	O	O
+the	NN	O	O
+cluster	NN	O	B-Material
+at	NN	O	O
+relatively	NN	O	O
+low	NN	O	B-Process
+temperatures	NN	O	I-Process
+,	NN	O	O
+in	NN	O	O
+the	NN	O	O
+range	NN	O	O
+of	NN	O	O
+several	NN	O	O
+tens	NN	O	O
+meV.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+significant	NN	O	B-Task
+reaction	NN	O	I-Task
+barriers	NN	O	I-Task
+(	NN	O	O
+0.593–1.118	NN	O	B-Task
+eV	NN	O	I-Task
+)	NN	O	O
+for	NN	O	O
+the	NN	O	O
+O2	NN	O	B-Material
+molecule	NN	O	O
+on	NN	O	O
+the	NN	O	O
+cluster	NN	O	B-Material
+are	NN	O	O
+identified	NN	O	O
+on	NN	O	O
+different	NN	O	O
+adsorption	NN	O	B-Process
+sites	NN	O	O
+,	NN	O	O
+nevertheless	NN	O	O
+,	NN	O	O
+these	NN	O	O
+reaction	NN	O	B-Process
+paths	NN	O	O
+are	NN	O	O
+spin	NN	O	B-Task
+forbidden	NN	O	I-Task
+reactions	NN	O	I-Task
+according	NN	O	O
+to	NN	O	O
+Wingerʼs	NN	O	B-Process
+spin	NN	O	I-Process
+selection	NN	O	I-Process
+rule	NN	O	I-Process
+.	NN	O	O
+These	NN	O	O
+results	NN	O	O
+imply	NN	O	O
+that	NN	O	O
+O2	NN	O	B-Material
+readily	NN	O	O
+desorb	NN	O	O
+from	NN	O	O
+the	NN	O	O
+cluster	NN	O	B-Material
+surface	NN	O	O
+rather	NN	O	O
+than	NN	O	O
+dissociate	NN	O	O
+and	NN	O	O
+oxide	NN	O	O
+the	NN	O	O
+W@Si12	NN	O	B-Material
+cluster	NN	O	I-Material
+upon	NN	O	O
+excitations	NN	O	O
+.	NN	O	O
+In	NN	O	O
+high	NN	O	B-Process
+temperature	NN	O	I-Process
+and	NN	O	I-Process
+high	NN	O	I-Process
+pressure	NN	O	I-Process
+conditions	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+O2	NN	O	B-Material
+molecules	NN	O	O
+may	NN	O	O
+dissociate	NN	O	O
+on	NN	O	O
+the	NN	O	O
+preferential	NN	O	O
+edge	NN	O	O
+site	NN	O	O
+by	NN	O	O
+overcoming	NN	O	B-Process
+a	NN	O	I-Process
+significantly	NN	O	I-Process
+large	NN	O	I-Process
+energy	NN	O	I-Process
+barrier	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0375960113004568)
+
+The	NN	O	O
+length	NN	O	B-Task
+effect	NN	O	I-Task
+is	NN	O	O
+always	NN	O	O
+important	NN	O	O
+in	NN	O	O
+nanodevices	NN	O	B-Material
+.	NN	O	O
+So	NN	O	O
+we	NN	O	O
+investigate	NN	O	O
+the	NN	O	O
+length	NN	O	B-Task
+dependence	NN	O	I-Task
+of	NN	O	I-Task
+electronic	NN	O	I-Task
+transport	NN	O	I-Task
+properties	NN	O	I-Task
+in	NN	O	O
+M3	NN	O	O
+by	NN	O	O
+increasing	NN	O	B-Process
+the	NN	O	I-Process
+number	NN	O	I-Process
+of	NN	O	I-Process
+carbon	NN	O	I-Process
+unit	NN	O	I-Process
+cells	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+scattering	NN	O	O
+region	NN	O	O
+.	NN	O	O
+Here	NN	O	O
+we	NN	O	O
+present	NN	O	O
+the	NN	O	O
+transport	NN	O	O
+results	NN	O	O
+when	NN	O	O
+the	NN	O	O
+numbers	NN	O	O
+of	NN	O	O
+carbon	NN	O	B-Material
+unit	NN	O	I-Material
+cells	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+scattering	NN	O	O
+region	NN	O	O
+are	NN	O	O
+10	NN	O	O
+and	NN	O	O
+12	NN	O	O
+,	NN	O	O
+which	NN	O	O
+are	NN	O	O
+called	NN	O	O
+M4	NN	O	O
+and	NN	O	O
+M5	NN	O	O
+,	NN	O	O
+respectively	NN	O	O
+.	NN	O	O
+The	NN	O	O
+current	NN	O	B-Process
+–	NN	O	I-Process
+voltage	NN	O	I-Process
+characteristics	NN	O	I-Process
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+8	NN	O	O
+.	NN	O	O
+We	NN	O	O
+can	NN	O	O
+see	NN	O	O
+that	NN	O	O
+the	NN	O	O
+large	NN	O	B-Process
+rectifying	NN	O	I-Process
+ratio	NN	O	I-Process
+still	NN	O	O
+can	NN	O	O
+be	NN	O	O
+observed	NN	O	O
+irrespective	NN	O	O
+of	NN	O	O
+the	NN	O	O
+length	NN	O	O
+of	NN	O	O
+heterojunctions	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+fact	NN	O	O
+that	NN	O	O
+the	NN	O	O
+electronic	NN	O	B-Task
+transport	NN	O	I-Task
+properties	NN	O	I-Task
+for	NN	O	O
+M3	NN	O	O
+are	NN	O	O
+mainly	NN	O	O
+determined	NN	O	O
+by	NN	O	O
+the	NN	O	O
+parity	NN	O	O
+of	NN	O	O
+the	NN	O	O
+π	NN	O	B-Process
+and	NN	O	I-Process
+π⁎	NN	O	I-Process
+subbands	NN	O	I-Process
+of	NN	O	O
+left	NN	O	O
+and	NN	O	O
+right	NN	O	O
+electrodes	NN	O	O
+.	NN	O	O
+Thees	NN	O	O
+results	NN	O	O
+indicate	NN	O	O
+that	NN	O	O
+the	NN	O	O
+lengths	NN	O	O
+of	NN	O	O
+the	NN	O	O
+two	NN	O	O
+parts	NN	O	O
+in	NN	O	O
+the	NN	O	O
+scattering	NN	O	O
+regions	NN	O	O
+have	NN	O	O
+no	NN	O	O
+affects	NN	O	O
+on	NN	O	O
+the	NN	O	O
+qualitative	NN	O	B-Task
+charge	NN	O	I-Task
+transport	NN	O	I-Task
+in	NN	O	O
+M3	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0375960113004908)
+
+Topological	NN	O	B-Process
+insulators	NN	O	I-Process
+(	NN	O	O
+TIs	NN	O	B-Process
+)	NN	O	O
+are	NN	O	O
+promising	NN	O	O
+candidates	NN	O	O
+of	NN	O	O
+spintronics	NN	O	B-Material
+materials	NN	O	I-Material
+because	NN	O	O
+of	NN	O	O
+their	NN	O	O
+robust	NN	O	O
+helical	NN	O	O
+surface	NN	O	O
+states	NN	O	O
+and	NN	O	O
+the	NN	O	O
+extremely	NN	O	O
+strong	NN	O	O
+spin	NN	O	B-Process
+–	NN	O	I-Process
+orbit	NN	O	I-Process
+interaction	NN	O	I-Process
+[	NN	O	O
+1–3	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Initially	NN	O	O
+,	NN	O	O
+binary	NN	O	B-Material
+chalcogenides	NN	O	I-Material
+Bi2Te3	NN	O	B-Material
+,	NN	O	O
+Sb2Te3	NN	O	B-Material
+and	NN	O	O
+Bi2Se3	NN	O	B-Material
+have	NN	O	O
+been	NN	O	O
+identified	NN	O	O
+as	NN	O	O
+three	NN	O	O
+-	NN	O	O
+dimensional	NN	O	O
+TIs	NN	O	B-Process
+by	NN	O	O
+surface	NN	O	B-Process
+sensitive	NN	O	I-Process
+probes	NN	O	I-Process
+such	NN	O	O
+as	NN	O	O
+angle	NN	O	B-Process
+resolved	NN	O	I-Process
+photoemission	NN	O	I-Process
+spectroscopy	NN	O	I-Process
+and	NN	O	O
+scanning	NN	O	B-Process
+tunneling	NN	O	I-Process
+microscopy	NN	O	I-Process
+/	NN	O	I-Process
+spectroscopy	NN	O	I-Process
+.	NN	O	O
+Later	NN	O	O
+,	NN	O	O
+ternary	NN	O	B-Material
+chalcogenide	NN	O	I-Material
+(	NN	O	B-Material
+BixSb1−x)2Te3	NN	O	I-Material
+[	NN	O	O
+4,5	NN	O	O
+]	NN	O	O
+,	NN	O	O
+which	NN	O	O
+has	NN	O	O
+similar	NN	O	O
+tetradymite	NN	O	O
+structure	NN	O	O
+to	NN	O	O
+the	NN	O	O
+parent	NN	O	O
+compounds	NN	O	O
+Bi2Te3	NN	O	B-Material
+and	NN	O	O
+Sb2Te3	NN	O	B-Material
+,	NN	O	O
+was	NN	O	O
+predicted	NN	O	O
+by	NN	O	O
+ab	NN	O	B-Process
+initio	NN	O	I-Process
+calculations	NN	O	I-Process
+and	NN	O	O
+confirmed	NN	O	O
+by	NN	O	O
+ARPES	NN	O	B-Process
+measurements	NN	O	I-Process
+as	NN	O	O
+a	NN	O	O
+tunable	NN	O	O
+topological	NN	O	B-Process
+insulator	NN	O	I-Process
+whose	NN	O	O
+Fermi	NN	O	O
+energy	NN	O	O
+and	NN	O	O
+carrier	NN	O	O
+density	NN	O	O
+can	NN	O	O
+be	NN	O	O
+adjusted	NN	O	O
+via	NN	O	O
+changing	NN	O	B-Process
+the	NN	O	I-Process
+Bi	NN	O	I-Process
+/	NN	O	I-Process
+Sb	NN	O	I-Process
+composition	NN	O	I-Process
+ratio	NN	O	I-Process
+with	NN	O	O
+stable	NN	O	O
+topological	NN	O	O
+surface	NN	O	O
+state	NN	O	O
+for	NN	O	O
+the	NN	O	O
+entire	NN	O	O
+composition	NN	O	O
+range	NN	O	O
+.	NN	O	O
+Combined	NN	O	O
+with	NN	O	O
+magnetism	NN	O	B-Process
+or	NN	O	O
+superconductivity	NN	O	B-Process
+,	NN	O	O
+TIs	NN	O	B-Process
+have	NN	O	O
+attracted	NN	O	O
+great	NN	O	O
+attention	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+rich	NN	O	O
+variety	NN	O	O
+of	NN	O	O
+new	NN	O	O
+physics	NN	O	O
+and	NN	O	O
+applications	NN	O	O
+.	NN	O	O
+The	NN	O	O
+ferromagnetism	NN	O	B-Process
+in	NN	O	O
+several	NN	O	O
+transition	NN	O	B-Material
+metal	NN	O	I-Material
+(	NN	O	O
+TM	NN	O	B-Material
+)	NN	O	O
+doped	NN	O	O
+TIs	NN	O	B-Process
+,	NN	O	O
+which	NN	O	O
+breaks	NN	O	O
+the	NN	O	O
+time	NN	O	O
+-	NN	O	O
+reversal	NN	O	O
+symmetry	NN	O	O
+,	NN	O	O
+has	NN	O	O
+been	NN	O	O
+reported	NN	O	O
+[	NN	O	O
+6–13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Ferromagnetism	NN	O	B-Process
+in	NN	O	O
+TIs	NN	O	B-Process
+is	NN	O	O
+important	NN	O	O
+because	NN	O	O
+the	NN	O	O
+combination	NN	O	O
+of	NN	O	O
+magnetism	NN	O	B-Process
+with	NN	O	O
+TIs	NN	O	B-Process
+makes	NN	O	O
+a	NN	O	O
+good	NN	O	O
+platform	NN	O	O
+to	NN	O	O
+study	NN	O	O
+fundamental	NN	O	B-Task
+physical	NN	O	I-Task
+phenomena	NN	O	I-Task
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+the	NN	O	O
+quantum	NN	O	O
+anomalous	NN	O	O
+Hall	NN	O	B-Task
+effect	NN	O	I-Task
+[	NN	O	O
+14–17	NN	O	O
+]	NN	O	O
+,	NN	O	O
+Majorana	NN	O	B-Task
+fermions	NN	O	I-Task
+[	NN	O	O
+18	NN	O	O
+]	NN	O	O
+,	NN	O	O
+image	NN	O	B-Task
+magnetic	NN	O	I-Task
+monopole	NN	O	I-Task
+effect	NN	O	I-Task
+[	NN	O	O
+19	NN	O	O
+]	NN	O	O
+,	NN	O	O
+and	NN	O	O
+topological	NN	O	O
+contributions	NN	O	O
+to	NN	O	O
+the	NN	O	O
+Faraday	NN	O	B-Task
+and	NN	O	I-Task
+Kerr	NN	O	I-Task
+magneto	NN	O	I-Task
+-	NN	O	I-Task
+optical	NN	O	I-Task
+effect	NN	O	I-Task
+[	NN	O	O
+20	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0375960113006725)
+
+Observations	NN	O	B-Process
+show	NN	O	O
+that	NN	O	O
+in	NN	O	O
+the	NN	O	O
+same	NN	O	O
+area	NN	O	O
+with	NN	O	O
+dimensions	NN	O	O
+of	NN	O	O
+a	NN	O	O
+few	NN	O	O
+tenths	NN	O	O
+of	NN	O	O
+a	NN	O	O
+parsec	NN	O	O
+could	NN	O	O
+be	NN	O	O
+many	NN	O	O
+sources	NN	O	O
+,	NN	O	O
+some	NN	O	O
+of	NN	O	O
+which	NN	O	O
+only	NN	O	O
+emits	NN	O	O
+OH	NN	O	B-Material
+lines	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+some	NN	O	O
+–	NN	O	O
+only	NN	O	O
+lines	NN	O	O
+H2O.	NN	O	B-Material
+The	NN	O	O
+only	NN	O	O
+known	NN	O	O
+in	NN	O	O
+physics	NN	O	O
+the	NN	O	O
+emission	NN	O	B-Process
+mechanism	NN	O	I-Process
+that	NN	O	O
+can	NN	O	O
+give	NN	O	O
+tremendous	NN	O	O
+power	NN	O	O
+within	NN	O	O
+a	NN	O	O
+narrow	NN	O	O
+range	NN	O	O
+of	NN	O	O
+the	NN	O	O
+spectrum	NN	O	O
+,	NN	O	O
+is	NN	O	O
+coherent	NN	O	O
+(	NN	O	O
+i.e.	NN	O	O
+the	NN	O	O
+same	NN	O	O
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+)	NN	O	O
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+,	NN	O	O
+which	NN	O	O
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+called	NN	O	O
+optical	NN	O	B-Process
+lasers	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+radio	NN	O	B-Process
+-	NN	O	I-Process
+masers	NN	O	I-Process
+.	NN	O	O
+Cosmic	NN	O	B-Material
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+radio	NN	O	I-Material
+sources	NN	O	I-Material
+emitting	NN	O	O
+in	NN	O	O
+the	NN	O	O
+lines	NN	O	O
+of	NN	O	O
+the	NN	O	O
+molecules	NN	O	O
+have	NN	O	O
+an	NN	O	O
+extremely	NN	O	O
+high	NN	O	O
+brightness	NN	O	O
+temperature	NN	O	O
+radiation	NN	O	O
+Tb	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+molecules	NN	O	O
+of	NN	O	O
+methanol	NN	O	B-Material
+masers	NN	O	I-Material
+(	NN	O	O
+CH3OH	NN	O	B-Material
+)	NN	O	O
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+109	NN	O	O
+K	NN	O	O
+,	NN	O	O
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+)	NN	O	O
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+size	NN	O	O
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+m	NN	O	O
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+10	NN	O	O
+km	NN	O	O
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+Thus	NN	O	O
+,	NN	O	O
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+2.5×10−23)–(2.5×10−21	NN	O	O
+)	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+μB2B2/4(hν)2∼(2.4×10−5)–(2.4×10−7	NN	O	O
+)	NN	O	O
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+the	NN	O	O
+hydrogen	NN	O	B-Material
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+21	NN	O	O
+cm	NN	O	O
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+of	NN	O	O
+the	NN	O	O
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+10−5–10−7	NN	O	O
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+the	NN	O	O
+OH	NN	O	O
+18	NN	O	O
+cm	NN	O	O
+line	NN	O	O
+or	NN	O	O
+the	NN	O	O
+same	NN	O	O
+order	NN	O	O
+as	NN	O	O
+Eq	NN	O	O
+.	NN	O	O
+(	NN	O	O
+1	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S037596011300741X)
+
+In	NN	O	O
+exploring	NN	O	O
+the	NN	O	O
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+theory	NN	O	I-Task
+,	NN	O	O
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+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
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+the	NN	O	O
+first	NN	O	O
+to	NN	O	O
+notice	NN	O	O
+that	NN	O	O
+although	NN	O	O
+one	NN	O	O
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+all	NN	O	O
+the	NN	O	O
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+about	NN	O	O
+the	NN	O	O
+nature	NN	O	O
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+,	NN	O	O
+the	NN	O	O
+first	NN	O	O
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+the	NN	O	O
+ordinary	NN	O	O
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+By	NN	O	O
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+that	NN	O	O
+the	NN	O	O
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+part	NN	O	O
+of	NN	O	O
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+,	NN	O	O
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+show	NN	O	O
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+the	NN	O	O
+classical	NN	O	O
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+a	NN	O	O
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+-	NN	O	I-Process
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+terms	NN	O	O
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+O(Δt2	NN	O	O
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+This	NN	O	O
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+Holland	NN	O	O
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+years	NN	O	O
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+:	NN	O	O
+In	NN	O	O
+page	NN	O	O
+269	NN	O	O
+of	NN	O	O
+his	NN	O	O
+book	NN	O	O
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
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+considered	NN	O	O
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+a	NN	O	O
+finite	NN	O	O
+path	NN	O	O
+.	NN	O	O
+It	NN	O	O
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+shown	NN	O	O
+that	NN	O	O
+along	NN	O	O
+each	NN	O	O
+segment	NN	O	O
+the	NN	O	O
+motion	NN	O	O
+is	NN	O	O
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+(	NN	O	O
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+potential	NN	O	O
+)	NN	O	O
+,	NN	O	O
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+it	NN	O	O
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+that	NN	O	O
+the	NN	O	O
+quantum	NN	O	O
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+may	NN	O	O
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+into	NN	O	O
+a	NN	O	O
+sequence	NN	O	O
+of	NN	O	O
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+along	NN	O	O
+each	NN	O	O
+of	NN	O	O
+which	NN	O	O
+the	NN	O	O
+classical	NN	O	O
+action	NN	O	O
+is	NN	O	O
+a	NN	O	O
+minimum	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+of	NN	O	O
+the	NN	O	O
+present	NN	O	O
+Letter	NN	O	O
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+an	NN	O	O
+improved	NN	O	O
+proof	NN	O	O
+of	NN	O	O
+Hollandʼs	NN	O	O
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+using	NN	O	O
+an	NN	O	O
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+version	NN	O	O
+of	NN	O	O
+the	NN	O	O
+propagator	NN	O	B-Process
+due	NN	O	O
+to	NN	O	O
+Makri	NN	O	O
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+Miller	NN	O	O
+[	NN	O	O
+9,10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+(	NN	O	O
+See	NN	O	O
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+de	NN	O	O
+Gosson	NN	O	O
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+for	NN	O	O
+a	NN	O	O
+further	NN	O	O
+discussion	NN	O	O
+.	NN	O	O
+)	NN	O	O
+
+-DOCSTART- (S0375960113010839)
+
+The	NN	O	O
+goal	NN	O	O
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+the	NN	O	O
+glued	NN	O	B-Process
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+(	NN	O	O
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+)	NN	O	O
+algorithm	NN	O	O
+for	NN	O	O
+quantum	NN	O	B-Task
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+the	NN	O	O
+following	NN	O	O
+:	NN	O	O
+beginning	NN	O	O
+from	NN	O	O
+the	NN	O	O
+left	NN	O	O
+-	NN	O	O
+most	NN	O	O
+vertex	NN	O	O
+of	NN	O	O
+a	NN	O	O
+given	NN	O	O
+GT	NN	O	B-Material
+graph	NN	O	I-Material
+,	NN	O	O
+traverse	NN	O	O
+the	NN	O	O
+graph	NN	O	B-Material
+and	NN	O	O
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+the	NN	O	O
+right	NN	O	O
+-	NN	O	O
+most	NN	O	O
+vertex	NN	O	O
+,	NN	O	O
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+to	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
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+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+1	NN	O	O
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+this	NN	O	O
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+to	NN	O	O
+show	NN	O	O
+quantum	NN	O	B-Task
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+to	NN	O	O
+be	NN	O	O
+fundamentally	NN	O	O
+more	NN	O	O
+effective	NN	O	O
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+presenting	NN	O	O
+a	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
+that	NN	O	O
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+random	NN	O	I-Task
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+to	NN	O	O
+make	NN	O	O
+exponentially	NN	O	O
+many	NN	O	O
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+to	NN	O	O
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+encoding	NN	O	O
+the	NN	O	O
+structure	NN	O	O
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+,	NN	O	O
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+a	NN	O	O
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+to	NN	O	O
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+In	NN	O	O
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+detrimental	NN	O	O
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+of	NN	O	O
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+,	NN	O	O
+we	NN	O	O
+shall	NN	O	O
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+how	NN	O	O
+effectively	NN	O	O
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+to	NN	O	O
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+For	NN	O	O
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+.	NN	O	O
+We	NN	O	O
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+the	NN	O	O
+one	NN	O	O
+illustrated	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
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+1(b	NN	O	O
+)	NN	O	O
+,	NN	O	O
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+,	NN	O	O
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+
+-DOCSTART- (S0375960115004120)
+
+Another	NN	O	O
+remarkable	NN	O	O
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+the	NN	O	O
+investigation	NN	O	O
+of	NN	O	O
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+vacuum	NN	O	B-Material
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+.	NN	O	O
+For	NN	O	O
+a	NN	O	O
+classical	NN	O	O
+field	NN	O	O
+,	NN	O	O
+vacuum	NN	O	B-Material
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+by	NN	O	O
+simply	NN	O	O
+setting	NN	O	O
+the	NN	O	O
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+to	NN	O	O
+zero	NN	O	O
+resulting	NN	O	O
+in	NN	O	O
+an	NN	O	O
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+,	NN	O	O
+free	NN	O	O
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+|ψI〉=|ψIII〉=|k0	NN	O	O
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+)	NN	O	O
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+,	NN	O	O
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+initial	NN	O	O
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+〉	NN	O	O
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+|ΨIII	NN	O	O
+〉	NN	O	O
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+〉	NN	O	O
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+The	NN	O	O
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+to	NN	O	O
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+leading	NN	O	O
+to	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
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+it	NN	O	O
+with	NN	O	O
+a	NN	O	O
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+of	NN	O	O
+kinetic	NN	O	O
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+even	NN	O	O
+if	NN	O	O
+the	NN	O	O
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+is	NN	O	O
+initially	NN	O	O
+uncharged	NN	O	O
+and	NN	O	O
+there	NN	O	O
+is	NN	O	O
+classically	NN	O	O
+no	NN	O	O
+field	NN	O	O
+it	NN	O	O
+can	NN	O	O
+couple	NN	O	O
+to	NN	O	O
+.	NN	O	O
+The	NN	O	O
+phenomenon	NN	O	O
+that	NN	O	O
+vacuum	NN	O	B-Material
+in	NN	O	O
+quantum	NN	O	O
+field	NN	O	O
+theory	NN	O	O
+does	NN	O	O
+not	NN	O	O
+mean	NN	O	O
+to	NN	O	O
+“	NN	O	O
+no	NN	O	O
+influence	NN	O	O
+”	NN	O	O
+as	NN	O	O
+known	NN	O	O
+from	NN	O	O
+Casimir	NN	O	B-Process
+forces	NN	O	I-Process
+or	NN	O	I-Process
+Lamb	NN	O	I-Process
+shift	NN	O	I-Process
+is	NN	O	O
+clearly	NN	O	O
+visible	NN	O	O
+here	NN	O	O
+as	NN	O	O
+well	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0375960115005630)
+
+The	NN	O	O
+systems	NN	O	O
+in	NN	O	O
+which	NN	O	O
+the	NN	O	O
+Stern	NN	O	B-Process
+–	NN	O	I-Process
+Gerlach	NN	O	I-Process
+force	NN	O	I-Process
+is	NN	O	O
+most	NN	O	O
+prominent	NN	O	O
+are	NN	O	O
+those	NN	O	O
+with	NN	O	O
+a	NN	O	O
+high	NN	O	O
+electromagnetic	NN	O	B-Process
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+gradient	NN	O	I-Process
+.	NN	O	O
+Section	NN	O	O
+2	NN	O	O
+considers	NN	O	O
+the	NN	O	O
+implications	NN	O	O
+of	NN	O	O
+the	NN	O	O
+coupling	NN	O	O
+between	NN	O	O
+the	NN	O	O
+spin	NN	O	O
+of	NN	O	O
+a	NN	O	O
+classical	NN	O	O
+electron	NN	O	B-Material
+and	NN	O	O
+the	NN	O	O
+rapidly	NN	O	O
+varying	NN	O	O
+electromagnetic	NN	O	B-Material
+field	NN	O	I-Material
+produced	NN	O	O
+by	NN	O	O
+a	NN	O	O
+laser	NN	O	B-Process
+-	NN	O	I-Process
+driven	NN	O	I-Process
+plasma	NN	O	I-Process
+wave	NN	O	I-Process
+.	NN	O	O
+Sufficiently	NN	O	O
+short	NN	O	O
+,	NN	O	O
+high	NN	O	B-Process
+-	NN	O	I-Process
+intensity	NN	O	I-Process
+laser	NN	O	I-Process
+pulses	NN	O	I-Process
+can	NN	O	O
+form	NN	O	O
+longitudinal	NN	O	B-Material
+waves	NN	O	I-Material
+within	NN	O	O
+the	NN	O	O
+electron	NN	O	O
+density	NN	O	O
+of	NN	O	O
+a	NN	O	O
+plasma	NN	O	B-Material
+.	NN	O	O
+These	NN	O	O
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+to	NN	O	O
+the	NN	O	O
+group	NN	O	O
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+of	NN	O	O
+the	NN	O	O
+laser	NN	O	B-Process
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+.	NN	O	O
+Not	NN	O	O
+all	NN	O	O
+plasma	NN	O	B-Material
+electrons	NN	O	I-Material
+form	NN	O	O
+this	NN	O	O
+wave	NN	O	O
+,	NN	O	O
+however	NN	O	O
+;	NN	O	O
+some	NN	O	O
+of	NN	O	O
+the	NN	O	O
+electrons	NN	O	B-Material
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+caught	NN	O	O
+up	NN	O	O
+in	NN	O	O
+the	NN	O	O
+wave	NN	O	O
+and	NN	O	O
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+by	NN	O	O
+its	NN	O	O
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+.	NN	O	O
+The	NN	O	O
+wave	NN	O	O
+eventually	NN	O	O
+collapses	NN	O	O
+as	NN	O	O
+these	NN	O	O
+electrons	NN	O	B-Process
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+(	NN	O	O
+the	NN	O	O
+wave	NN	O	B-Process
+‘	NN	O	I-Process
+breaks’	NN	O	I-Process
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+extremely	NN	O	O
+high	NN	O	B-Material
+electric	NN	O	I-Material
+field	NN	O	I-Material
+gradient	NN	O	I-Material
+of	NN	O	I-Material
+a	NN	O	I-Material
+plasma	NN	O	I-Material
+wave	NN	O	I-Material
+near	NN	O	O
+wavebreaking	NN	O	O
+provides	NN	O	O
+an	NN	O	O
+excellent	NN	O	O
+theoretical	NN	O	O
+testing	NN	O	O
+ground	NN	O	O
+for	NN	O	O
+the	NN	O	O
+effects	NN	O	O
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+–	NN	O	I-Task
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+-	NN	O	I-Task
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+contributions	NN	O	I-Task
+to	NN	O	O
+the	NN	O	O
+trajectory	NN	O	O
+of	NN	O	O
+a	NN	O	O
+test	NN	O	O
+electron	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S0377025713001031)
+
+Flow	NN	O	O
+-	NN	O	O
+induced	NN	O	O
+deformations	NN	O	O
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+lead	NN	O	O
+to	NN	O	O
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+changes	NN	O	O
+in	NN	O	O
+the	NN	O	O
+structure	NN	O	O
+of	NN	O	O
+a	NN	O	O
+polymeric	NN	O	B-Material
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+;	NN	O	O
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+the	NN	O	O
+rate	NN	O	O
+of	NN	O	O
+extension	NN	O	O
+far	NN	O	O
+exceeds	NN	O	O
+the	NN	O	O
+rate	NN	O	O
+of	NN	O	O
+relaxation	NN	O	O
+,	NN	O	O
+then	NN	O	O
+the	NN	O	O
+polymer	NN	O	O
+chain	NN	O	O
+can	NN	O	O
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+broken	NN	O	O
+.	NN	O	O
+Mechanical	NN	O	O
+degradation	NN	O	O
+of	NN	O	O
+polymers	NN	O	B-Material
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+extensional	NN	O	O
+flow	NN	O	O
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+long	NN	O	O
+been	NN	O	O
+recognised	NN	O	O
+[	NN	O	O
+30	NN	O	O
+]	NN	O	O
+and	NN	O	O
+leads	NN	O	O
+to	NN	O	O
+a	NN	O	O
+reduction	NN	O	B-Process
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+the	NN	O	I-Process
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+molecular	NN	O	I-Process
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+.	NN	O	O
+A	NN	O	O
+-	NN	O	O
+Alamry	NN	O	O
+et	NN	O	O
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+.	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
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+recently	NN	O	O
+reported	NN	O	O
+evidence	NN	O	O
+of	NN	O	O
+flow	NN	O	O
+-	NN	O	O
+induced	NN	O	O
+polymer	NN	O	O
+degradation	NN	O	O
+in	NN	O	O
+DoD	NN	O	B-Process
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+.	NN	O	O
+Central	NN	O	B-Task
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+observed	NN	O	O
+for	NN	O	O
+polystyrene	NN	O	B-Material
+in	NN	O	O
+a	NN	O	O
+number	NN	O	O
+of	NN	O	O
+good	NN	O	O
+solvents	NN	O	O
+under	NN	O	O
+certain	NN	O	O
+jetting	NN	O	O
+conditions	NN	O	O
+for	NN	O	O
+a	NN	O	O
+bounded	NN	O	O
+range	NN	O	O
+of	NN	O	O
+molecular	NN	O	O
+weights	NN	O	O
+.	NN	O	O
+Since	NN	O	O
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+those	NN	O	O
+molecules	NN	O	O
+that	NN	O	O
+are	NN	O	O
+fully	NN	O	O
+extended	NN	O	O
+can	NN	O	O
+be	NN	O	O
+fractured	NN	O	O
+at	NN	O	O
+the	NN	O	O
+centre	NN	O	O
+of	NN	O	O
+the	NN	O	O
+polymer	NN	O	O
+chain	NN	O	O
+[	NN	O	O
+29	NN	O	O
+]	NN	O	O
+,	NN	O	O
+in	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+we	NN	O	O
+investigate	NN	O	O
+whether	NN	O	O
+flow	NN	O	B-Task
+-	NN	O	I-Task
+induced	NN	O	I-Task
+central	NN	O	I-Task
+scission	NN	O	I-Task
+is	NN	O	O
+possible	NN	O	O
+under	NN	O	O
+the	NN	O	O
+conditions	NN	O	O
+of	NN	O	O
+DoD	NN	O	B-Process
+jetting	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0377025714000135)
+
+This	NN	O	O
+conclusion	NN	O	O
+is	NN	O	O
+a	NN	O	O
+consequence	NN	O	O
+of	NN	O	O
+the	NN	O	O
+high	NN	O	O
+jet	NN	O	O
+speeds	NN	O	O
+and	NN	O	O
+small	NN	O	O
+nozzle	NN	O	O
+diameters	NN	O	O
+in	NN	O	O
+combination	NN	O	O
+with	NN	O	O
+the	NN	O	O
+relatively	NN	O	O
+high	NN	O	O
+viscosity	NN	O	O
+solvent	NN	O	O
+and	NN	O	O
+modest	NN	O	O
+molecular	NN	O	O
+weights	NN	O	O
+of	NN	O	O
+the	NN	O	O
+polystyrene	NN	O	B-Material
+,	NN	O	O
+which	NN	O	O
+results	NN	O	O
+in	NN	O	O
+high	NN	O	O
+Weissenberg	NN	O	O
+numbers	NN	O	O
+and	NN	O	O
+moderate	NN	O	O
+values	NN	O	O
+of	NN	O	O
+the	NN	O	O
+extensibility	NN	O	O
+,	NN	O	O
+L	NN	O	O
+studied	NN	O	O
+here	NN	O	O
+.	NN	O	O
+As	NN	O	O
+discussed	NN	O	O
+in	NN	O	O
+earlier	NN	O	O
+papers	NN	O	O
+[	NN	O	O
+3,6	NN	O	O
+]	NN	O	O
+,	NN	O	O
+other	NN	O	O
+jetting	NN	O	B-Process
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+combinations	NN	O	I-Process
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+those	NN	O	O
+of	NN	O	O
+de	NN	O	O
+Gans	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+4	NN	O	O
+]	NN	O	O
+,	NN	O	O
+lie	NN	O	O
+in	NN	O	O
+a	NN	O	O
+different	NN	O	O
+jetting	NN	O	O
+regime	NN	O	O
+where	NN	O	O
+full	NN	O	O
+extension	NN	O	O
+does	NN	O	O
+not	NN	O	O
+occur	NN	O	O
+and	NN	O	O
+relaxation	NN	O	O
+time	NN	O	O
+controls	NN	O	O
+the	NN	O	O
+viscoelastic	NN	O	O
+behaviour	NN	O	O
+.	NN	O	O
+Consequently	NN	O	O
+inkjet	NN	O	B-Process
+fluid	NN	O	I-Process
+assessment	NN	O	I-Process
+methods	NN	O	I-Process
+need	NN	O	O
+to	NN	O	O
+provide	NN	O	B-Task
+a	NN	O	I-Task
+full	NN	O	I-Task
+characterisation	NN	O	I-Task
+including	NN	O	I-Task
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+linear	NN	O	I-Task
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+viscoelastic	NN	O	I-Task
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+.	NN	O	O
+This	NN	O	O
+complexity	NN	O	O
+suggests	NN	O	O
+assessments	NN	O	O
+of	NN	O	O
+inkjet	NN	O	B-Material
+fluids	NN	O	I-Material
+might	NN	O	O
+have	NN	O	O
+to	NN	O	O
+include	NN	O	O
+jetting	NN	O	O
+from	NN	O	O
+sets	NN	O	O
+of	NN	O	O
+DoD	NN	O	B-Process
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+head	NN	O	I-Process
+devices	NN	O	I-Process
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+different	NN	O	O
+sensitivities	NN	O	O
+to	NN	O	O
+all	NN	O	O
+the	NN	O	O
+various	NN	O	O
+VE	NN	O	O
+parameters	NN	O	O
+[	NN	O	O
+37	NN	O	O
+]	NN	O	O
+,	NN	O	O
+rather	NN	O	O
+than	NN	O	O
+reliance	NN	O	O
+on	NN	O	O
+testing	NN	O	O
+without	NN	O	O
+jetting	NN	O	B-Process
+.	NN	O	O
+This	NN	O	O
+was	NN	O	O
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+the	NN	O	O
+expected	NN	O	O
+outcome	NN	O	O
+from	NN	O	O
+the	NN	O	O
+present	NN	O	O
+work	NN	O	O
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+does	NN	O	O
+echo	NN	O	O
+the	NN	O	O
+very	NN	O	O
+pragmatic	NN	O	O
+viewpoint	NN	O	O
+expressed	NN	O	O
+as	NN	O	O
+a	NN	O	O
+“	NN	O	B-Process
+map	NN	O	I-Process
+of	NN	O	I-Process
+misery	NN	O	I-Process
+”	NN	O	I-Process
+by	NN	O	O
+Clasen	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+[	NN	O	O
+38	NN	O	O
+]	NN	O	O
+and	NN	O	O
+may	NN	O	O
+provide	NN	O	O
+a	NN	O	O
+way	NN	O	O
+forward	NN	O	O
+for	NN	O	O
+future	NN	O	O
+R&D	NN	O	O
+strategies	NN	O	O
+towards	NN	O	O
+ink	NN	O	B-Task
+testing	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0377025714000317)
+
+Denier	NN	O	O
+and	NN	O	O
+Hewitt	NN	O	O
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+have	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+bounded	NN	O	O
+solutions	NN	O	O
+to	NN	O	O
+9a	NN	O	O
+,	NN	O	O
+9b	NN	O	O
+and	NN	O	O
+9c	NN	O	O
+subject	NN	O	O
+to	NN	O	O
+(	NN	O	O
+10a	NN	O	O
+)	NN	O	O
+and	NN	O	O
+(	NN	O	O
+10b	NN	O	O
+)	NN	O	O
+exist	NN	O	O
+only	NN	O	O
+in	NN	O	O
+the	NN	O	O
+shear	NN	O	O
+-	NN	O	O
+thinning	NN	O	O
+case	NN	O	O
+for	NN	O	O
+n>12	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+shear	NN	O	B-Process
+-	NN	O	I-Process
+thickening	NN	O	I-Process
+case	NN	O	O
+they	NN	O	O
+have	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+solutions	NN	O	B-Material
+become	NN	O	O
+non	NN	O	O
+-	NN	O	O
+differentiable	NN	O	O
+at	NN	O	O
+some	NN	O	O
+critical	NN	O	O
+location	NN	O	O
+ηc	NN	O	O
+,	NN	O	O
+and	NN	O	O
+although	NN	O	O
+it	NN	O	O
+transpires	NN	O	O
+that	NN	O	O
+this	NN	O	O
+singularity	NN	O	B-Process
+can	NN	O	O
+be	NN	O	O
+regularised	NN	O	O
+entirely	NN	O	O
+within	NN	O	O
+the	NN	O	O
+context	NN	O	O
+of	NN	O	O
+the	NN	O	O
+power	NN	O	B-Process
+-	NN	O	I-Process
+law	NN	O	I-Process
+model	NN	O	I-Process
+,	NN	O	O
+we	NN	O	O
+will	NN	O	O
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+such	NN	O	O
+flows	NN	O	B-Material
+here	NN	O	O
+.	NN	O	O
+Thus	NN	O	O
+in	NN	O	O
+this	NN	O	O
+study	NN	O	O
+we	NN	O	O
+will	NN	O	O
+consider	NN	O	O
+flows	NN	O	B-Material
+with	NN	O	O
+power	NN	O	O
+-	NN	O	O
+law	NN	O	O
+index	NN	O	O
+in	NN	O	O
+the	NN	O	O
+range	NN	O	O
+12<n⩽1	NN	O	O
+.	NN	O	O
+They	NN	O	O
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+also	NN	O	O
+shown	NN	O	O
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+12<n<1	NN	O	O
+to	NN	O	O
+ensure	NN	O	O
+the	NN	O	O
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+algebraic	NN	O	I-Process
+decay	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+numerical	NN	O	O
+solutions	NN	O	O
+one	NN	O	O
+must	NN	O	O
+apply	NN	O	O
+the	NN	O	O
+Robin	NN	O	B-Process
+condition(11)(u¯′,v¯′)=nη(n-1)(u¯,v¯)asη→∞,at	NN	O	I-Process
+some	NN	O	O
+suitably	NN	O	O
+large	NN	O	O
+value	NN	O	O
+of	NN	O	O
+η=η∞≫1	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+Newtonian	NN	O	O
+case	NN	O	O
+this	NN	O	O
+relationship	NN	O	O
+becomes	NN	O	O
+singular	NN	O	O
+,	NN	O	O
+this	NN	O	O
+is	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+fact	NN	O	O
+that	NN	O	O
+when	NN	O	O
+n=1	NN	O	O
+the	NN	O	O
+functions	NN	O	O
+u¯	NN	O	O
+and	NN	O	O
+v¯	NN	O	O
+decay	NN	O	O
+exponentially	NN	O	O
+.	NN	O	O
+Cochran	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+showed	NN	O	O
+that	NN	O	O
+in	NN	O	O
+this	NN	O	O
+case(12)(u¯′,v¯′)=w¯∞(u¯,v¯)asη→∞,where	NN	O	O
+w∞=-2∫0∞u¯dη.	NN	O	O
+
+-DOCSTART- (S0377025714001682)
+
+In	NN	O	O
+order	NN	O	O
+for	NN	O	O
+DLS	NN	O	B-Task
+based	NN	O	I-Task
+micro	NN	O	I-Task
+-	NN	O	I-Task
+rheology	NN	O	I-Task
+to	NN	O	O
+be	NN	O	O
+successful	NN	O	O
+,	NN	O	O
+there	NN	O	O
+must	NN	O	O
+be	NN	O	O
+sufficient	NN	O	O
+scattering	NN	O	O
+contrast	NN	O	O
+between	NN	O	O
+the	NN	O	O
+sample	NN	O	B-Material
+and	NN	O	I-Material
+the	NN	O	I-Material
+tracer	NN	O	I-Material
+particles	NN	O	I-Material
+.	NN	O	O
+In	NN	O	O
+order	NN	O	O
+to	NN	O	O
+achieve	NN	O	O
+this	NN	O	O
+,	NN	O	O
+the	NN	O	O
+maximum	NN	O	O
+possible	NN	O	O
+concentration	NN	O	O
+of	NN	O	O
+tracer	NN	O	B-Material
+particles	NN	O	I-Material
+was	NN	O	O
+added	NN	O	O
+such	NN	O	O
+that	NN	O	O
+single	NN	O	O
+scattering	NN	O	O
+events	NN	O	O
+still	NN	O	O
+dominated	NN	O	O
+(	NN	O	O
+as	NN	O	O
+determined	NN	O	O
+by	NN	O	O
+measurements	NN	O	O
+of	NN	O	O
+diffusion	NN	O	O
+coefficients	NN	O	O
+in	NN	O	O
+water	NN	O	B-Material
+at	NN	O	O
+different	NN	O	O
+concentrations	NN	O	O
+)	NN	O	O
+.	NN	O	O
+In	NN	O	O
+order	NN	O	O
+to	NN	O	O
+determine	NN	O	O
+whether	NN	O	O
+or	NN	O	O
+not	NN	O	O
+the	NN	O	O
+background	NN	O	O
+scattering	NN	O	O
+from	NN	O	O
+the	NN	O	O
+sample	NN	O	O
+was	NN	O	O
+sufficiently	NN	O	O
+low	NN	O	O
+compared	NN	O	O
+to	NN	O	O
+that	NN	O	O
+of	NN	O	O
+the	NN	O	O
+tracer	NN	O	B-Material
+particles	NN	O	I-Material
+,	NN	O	O
+we	NN	O	O
+also	NN	O	O
+compared	NN	O	O
+the	NN	O	O
+scattering	NN	O	B-Material
+intensities	NN	O	I-Material
+obtained	NN	O	O
+from	NN	O	O
+samples	NN	O	O
+with	NN	O	O
+and	NN	O	O
+without	NN	O	O
+tracer	NN	O	B-Material
+particles	NN	O	I-Material
+as	NN	O	O
+a	NN	O	O
+function	NN	O	O
+of	NN	O	O
+time	NN	O	O
+.	NN	O	O
+The	NN	O	O
+results	NN	O	O
+of	NN	O	O
+this	NN	O	O
+exercise	NN	O	O
+are	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+6	NN	O	O
+.	NN	O	O
+From	NN	O	O
+this	NN	O	O
+figure	NN	O	O
+it	NN	O	O
+can	NN	O	O
+be	NN	O	O
+seen	NN	O	O
+that	NN	O	O
+although	NN	O	O
+initially	NN	O	O
+the	NN	O	O
+scattering	NN	O	B-Process
+from	NN	O	O
+the	NN	O	O
+sample	NN	O	O
+without	NN	O	O
+tracer	NN	O	B-Material
+particles	NN	O	I-Material
+is	NN	O	O
+low	NN	O	O
+compared	NN	O	O
+to	NN	O	O
+those	NN	O	O
+containing	NN	O	O
+tracer	NN	O	B-Material
+particles	NN	O	I-Material
+,	NN	O	O
+as	NN	O	O
+gelation	NN	O	B-Material
+proceeds	NN	O	O
+this	NN	O	O
+eventually	NN	O	O
+ceases	NN	O	O
+to	NN	O	O
+be	NN	O	O
+the	NN	O	O
+case	NN	O	O
+.	NN	O	O
+This	NN	O	O
+is	NN	O	O
+presumably	NN	O	O
+because	NN	O	O
+of	NN	O	O
+the	NN	O	O
+development	NN	O	O
+of	NN	O	O
+supra	NN	O	B-Material
+-	NN	O	I-Material
+molecular	NN	O	I-Material
+structures	NN	O	I-Material
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+those	NN	O	O
+seen	NN	O	O
+previously	NN	O	O
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+2B	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+results	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+6	NN	O	O
+it	NN	O	O
+was	NN	O	O
+decided	NN	O	O
+to	NN	O	O
+only	NN	O	O
+use	NN	O	O
+data	NN	O	O
+collected	NN	O	O
+in	NN	O	O
+the	NN	O	O
+first	NN	O	O
+240min	NN	O	O
+of	NN	O	O
+the	NN	O	O
+experiment	NN	O	O
+,	NN	O	O
+after	NN	O	O
+which	NN	O	O
+point	NN	O	O
+the	NN	O	O
+scattering	NN	O	B-Material
+from	NN	O	I-Material
+the	NN	O	I-Material
+gel	NN	O	I-Material
+network	NN	O	I-Material
+became	NN	O	O
+rather	NN	O	O
+too	NN	O	O
+large	NN	O	O
+to	NN	O	O
+ignore	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0377025714001931)
+
+Tack	NN	O	B-Material
+is	NN	O	O
+an	NN	O	O
+important	NN	O	O
+property	NN	O	O
+of	NN	O	O
+a	NN	O	O
+PSA	NN	O	B-Material
+as	NN	O	O
+it	NN	O	O
+quantifies	NN	O	O
+its	NN	O	O
+ability	NN	O	O
+to	NN	O	O
+form	NN	O	O
+instantly	NN	O	O
+a	NN	O	O
+bond	NN	O	O
+when	NN	O	O
+brought	NN	O	O
+into	NN	O	O
+contact	NN	O	O
+with	NN	O	O
+a	NN	O	O
+surface	NN	O	O
+.	NN	O	O
+The	NN	O	O
+final	NN	O	O
+adhesion	NN	O	O
+and	NN	O	O
+cohesive	NN	O	O
+strength	NN	O	O
+of	NN	O	O
+the	NN	O	O
+bond	NN	O	O
+are	NN	O	O
+influenced	NN	O	O
+by	NN	O	O
+numerous	NN	O	O
+factors	NN	O	O
+including	NN	O	O
+the	NN	O	O
+surface	NN	O	O
+energies	NN	O	O
+of	NN	O	O
+the	NN	O	O
+adhesive	NN	O	B-Material
+and	NN	O	O
+substrate	NN	O	B-Material
+,	NN	O	O
+dwell	NN	O	O
+time	NN	O	O
+,	NN	O	O
+contact	NN	O	O
+pressure	NN	O	O
+,	NN	O	O
+mechanical	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+the	NN	O	O
+adhesive	NN	O	B-Material
+,	NN	O	O
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+environmental	NN	O	O
+conditions	NN	O	O
+such	NN	O	O
+as	NN	O	O
+temperature	NN	O	O
+and	NN	O	O
+humidity	NN	O	O
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Therefore	NN	O	O
+,	NN	O	O
+tack	NN	O	O
+is	NN	O	O
+important	NN	O	O
+in	NN	O	O
+many	NN	O	O
+applications	NN	O	O
+where	NN	O	O
+an	NN	O	O
+instant	NN	O	O
+bond	NN	O	O
+is	NN	O	O
+required	NN	O	O
+,	NN	O	O
+however	NN	O	O
+it	NN	O	O
+is	NN	O	O
+equally	NN	O	O
+important	NN	O	O
+when	NN	O	O
+a	NN	O	O
+‘	NN	O	B-Task
+clean’	NN	O	I-Task
+separation	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+initially	NN	O	O
+bonded	NN	O	B-Material
+surfaces	NN	O	I-Material
+is	NN	O	O
+desirable	NN	O	O
+.	NN	O	O
+Many	NN	O	O
+different	NN	O	O
+methods	NN	O	O
+for	NN	O	O
+measuring	NN	O	O
+the	NN	O	O
+tack	NN	O	B-Material
+have	NN	O	O
+been	NN	O	O
+devised	NN	O	O
+with	NN	O	O
+the	NN	O	O
+four	NN	O	O
+main	NN	O	O
+ones	NN	O	O
+being	NN	O	O
+the	NN	O	O
+rolling	NN	O	B-Process
+ball	NN	O	I-Process
+,	NN	O	O
+loop	NN	O	B-Process
+tack	NN	O	I-Process
+,	NN	O	O
+quick	NN	O	B-Process
+stick	NN	O	I-Process
+and	NN	O	O
+probe	NN	O	B-Process
+tack	NN	O	I-Process
+tests	NN	O	B-Process
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Each	NN	O	O
+has	NN	O	O
+its	NN	O	O
+own	NN	O	O
+advantages	NN	O	O
+and	NN	O	O
+disadvantages	NN	O	O
+and	NN	O	O
+the	NN	O	O
+specific	NN	O	O
+testing	NN	O	O
+method	NN	O	O
+should	NN	O	O
+be	NN	O	O
+selected	NN	O	O
+based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+particular	NN	O	O
+application	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0377025714002213)
+
+The	NN	O	O
+first	NN	O	O
+of	NN	O	O
+these	NN	O	O
+systems	NN	O	O
+,	NN	O	O
+a	NN	O	O
+biopolymer	NN	O	B-Process
+gel	NN	O	I-Process
+,	NN	O	O
+involves	NN	O	O
+the	NN	O	O
+thermoreversible	NN	O	B-Task
+gelation	NN	O	I-Task
+of	NN	O	O
+aqueous	NN	O	O
+gelatin	NN	O	O
+solutions	NN	O	O
+to	NN	O	O
+form	NN	O	O
+a	NN	O	O
+physical	NN	O	O
+gel	NN	O	O
+,	NN	O	O
+whereas	NN	O	O
+the	NN	O	O
+other	NN	O	O
+systems	NN	O	O
+considered	NN	O	O
+herein	NN	O	O
+involve	NN	O	O
+the	NN	O	O
+formation	NN	O	O
+of	NN	O	O
+chemical	NN	O	O
+gels	NN	O	O
+featuring	NN	O	O
+permanent	NN	O	O
+cross	NN	O	B-Process
+-	NN	O	I-Process
+linked	NN	O	I-Process
+branching	NN	O	I-Process
+networks	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+second	NN	O	O
+system	NN	O	O
+is	NN	O	O
+a	NN	O	O
+commercial	NN	O	B-Process
+silicone	NN	O	I-Process
+dielectric	NN	O	I-Process
+gel	NN	O	I-Process
+(	NN	O	O
+SDG	NN	O	B-Process
+)	NN	O	O
+which	NN	O	O
+is	NN	O	O
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+production	NN	O	B-Task
+of	NN	O	I-Task
+electronic	NN	O	I-Task
+products	NN	O	I-Task
+created	NN	O	O
+by	NN	O	O
+industrial	NN	O	O
+printing	NN	O	O
+processes	NN	O	O
+.	NN	O	O
+The	NN	O	O
+third	NN	O	O
+experimental	NN	O	O
+system	NN	O	O
+is	NN	O	O
+a	NN	O	O
+fibrin	NN	O	B-Process
+gel	NN	O	I-Process
+formed	NN	O	O
+by	NN	O	O
+the	NN	O	O
+thrombin	NN	O	B-Process
+-	NN	O	I-Process
+induced	NN	O	I-Process
+polymerisation	NN	O	I-Process
+of	NN	O	O
+fibrinogen	NN	O	B-Process
+molecules	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+gel	NN	O	B-Process
+network	NN	O	I-Process
+product	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+latter	NN	O	O
+case	NN	O	O
+forms	NN	O	O
+the	NN	O	O
+principal	NN	O	O
+microstructural	NN	O	B-Material
+component	NN	O	I-Material
+of	NN	O	O
+a	NN	O	O
+blood	NN	O	B-Material
+clot	NN	O	I-Material
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+latter	NN	O	O
+case	NN	O	O
+is	NN	O	O
+particularly	NN	O	O
+interesting	NN	O	O
+as	NN	O	O
+the	NN	O	O
+critical	NN	O	B-Material
+-	NN	O	I-Material
+gel	NN	O	I-Material
+which	NN	O	O
+is	NN	O	O
+established	NN	O	O
+at	NN	O	O
+the	NN	O	O
+GP	NN	O	B-Material
+serves	NN	O	O
+as	NN	O	O
+a	NN	O	O
+‘	NN	O	B-Material
+template’	NN	O	I-Material
+for	NN	O	I-Material
+the	NN	O	I-Material
+ensuing	NN	O	I-Material
+development	NN	O	I-Material
+of	NN	O	I-Material
+microstructure	NN	O	I-Material
+and	NN	O	I-Material
+associated	NN	O	I-Material
+rheological	NN	O	I-Material
+properties	NN	O	I-Material
+in	NN	O	O
+the	NN	O	O
+post	NN	O	O
+-	NN	O	O
+GP	NN	O	B-Material
+phase	NN	O	O
+of	NN	O	O
+fibrin	NN	O	B-Material
+clot	NN	O	I-Material
+evolution	NN	O	O
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0377025715000051)
+
+A	NN	O	O
+convenient	NN	O	O
+and	NN	O	O
+widely	NN	O	O
+reported	NN	O	O
+technique	NN	O	O
+for	NN	O	O
+detection	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+GP	NN	O	I-Task
+involves	NN	O	O
+measurements	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+complex	NN	O	I-Process
+shear	NN	O	I-Process
+modulus	NN	O	I-Process
+,	NN	O	O
+G∗	NN	O	O
+,	NN	O	O
+over	NN	O	O
+a	NN	O	O
+range	NN	O	O
+of	NN	O	O
+frequencies	NN	O	O
+,	NN	O	O
+ω	NN	O	O
+,	NN	O	O
+in	NN	O	O
+oscillatory	NN	O	O
+shear	NN	O	O
+.	NN	O	O
+At	NN	O	O
+the	NN	O	O
+GP	NN	O	O
+the	NN	O	O
+elastic	NN	O	O
+and	NN	O	O
+viscous	NN	O	O
+components	NN	O	O
+of	NN	O	O
+the	NN	O	O
+complex	NN	O	O
+modulus	NN	O	O
+,	NN	O	O
+G′	NN	O	O
+and	NN	O	O
+G″	NN	O	O
+,	NN	O	O
+respectively	NN	O	O
+scale	NN	O	O
+in	NN	O	O
+oscillatory	NN	O	O
+frequency	NN	O	O
+,	NN	O	O
+ω	NN	O	O
+,	NN	O	O
+as	NN	O	O
+G′(ω)∼G″(ω)∼ωα	NN	O	O
+where	NN	O	O
+α	NN	O	O
+is	NN	O	O
+termed	NN	O	O
+the	NN	O	O
+stress	NN	O	O
+relaxation	NN	O	O
+exponent	NN	O	O
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Thus	NN	O	O
+,	NN	O	O
+the	NN	O	O
+GP	NN	O	O
+may	NN	O	O
+be	NN	O	O
+identified	NN	O	O
+as	NN	O	O
+the	NN	O	O
+instant	NN	O	O
+where	NN	O	O
+the	NN	O	O
+G′	NN	O	O
+and	NN	O	O
+G″	NN	O	O
+scale	NN	O	O
+in	NN	O	O
+frequency	NN	O	O
+according	NN	O	O
+to	NN	O	O
+identical	NN	O	O
+power	NN	O	O
+laws	NN	O	O
+[	NN	O	O
+15	NN	O	O
+]	NN	O	O
+,	NN	O	O
+behaviour	NN	O	O
+corresponding	NN	O	O
+to	NN	O	O
+attainment	NN	O	O
+of	NN	O	O
+a	NN	O	O
+frequency	NN	O	O
+independent	NN	O	O
+phase	NN	O	O
+angle	NN	O	O
+,	NN	O	O
+δ(=atan(G″/G′	NN	O	O
+)	NN	O	O
+)	NN	O	O
+.	NN	O	O
+GP	NN	O	B-Process
+measurements	NN	O	I-Process
+may	NN	O	O
+involve	NN	O	O
+‘	NN	O	O
+frequency	NN	O	B-Process
+sweeps’	NN	O	I-Process
+with	NN	O	O
+repeated	NN	O	O
+consecutive	NN	O	O
+application	NN	O	O
+of	NN	O	O
+a	NN	O	O
+set	NN	O	O
+of	NN	O	O
+small	NN	O	B-Process
+amplitude	NN	O	I-Process
+oscillatory	NN	O	I-Process
+shear	NN	O	I-Process
+,	NN	O	O
+SAOS	NN	O	B-Process
+,	NN	O	O
+waveforms	NN	O	B-Process
+[	NN	O	O
+15,16	NN	O	O
+]	NN	O	O
+,	NN	O	O
+or	NN	O	O
+by	NN	O	O
+Fourier	NN	O	B-Process
+Transform	NN	O	I-Process
+Mechanical	NN	O	I-Process
+Spectroscopy	NN	O	I-Process
+,	NN	O	O
+FTMS	NN	O	B-Process
+,	NN	O	O
+in	NN	O	O
+which	NN	O	O
+G∗(ω	NN	O	O
+)	NN	O	O
+is	NN	O	O
+found	NN	O	O
+by	NN	O	O
+simultaneous	NN	O	O
+application	NN	O	B-Process
+of	NN	O	I-Process
+several	NN	O	I-Process
+harmonic	NN	O	I-Process
+frequencies	NN	O	I-Process
+in	NN	O	O
+a	NN	O	O
+composite	NN	O	B-Process
+waveform	NN	O	I-Process
+and	NN	O	O
+its	NN	O	O
+subsequent	NN	O	O
+Fourier	NN	O	B-Process
+analysis	NN	O	I-Process
+[	NN	O	O
+17,18	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Frequency	NN	O	O
+sweeps	NN	O	O
+are	NN	O	O
+limited	NN	O	O
+to	NN	O	O
+relatively	NN	O	O
+slow	NN	O	O
+gelation	NN	O	B-Process
+processes	NN	O	I-Process
+due	NN	O	O
+to	NN	O	O
+sample	NN	O	O
+mutation	NN	O	O
+and	NN	O	O
+interpolation	NN	O	O
+errors	NN	O	O
+[	NN	O	O
+9,19,20	NN	O	O
+]	NN	O	O
+.	NN	O	O
+FTMS	NN	O	B-Process
+may	NN	O	O
+overcome	NN	O	O
+these	NN	O	O
+limitations	NN	O	O
+,	NN	O	O
+but	NN	O	O
+is	NN	O	O
+unsuitable	NN	O	O
+for	NN	O	O
+markedly	NN	O	B-Material
+strain	NN	O	I-Material
+sensitive	NN	O	I-Material
+materials	NN	O	I-Material
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+fibrin	NN	O	B-Material
+gels	NN	O	I-Material
+,	NN	O	O
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+strain	NN	O	O
+amplitude	NN	O	O
+of	NN	O	O
+the	NN	O	O
+composite	NN	O	B-Process
+waveform	NN	O	I-Process
+exceeding	NN	O	O
+the	NN	O	O
+linear	NN	O	O
+viscoelastic	NN	O	O
+range	NN	O	O
+(	NN	O	O
+LVR	NN	O	O
+)	NN	O	O
+[	NN	O	O
+9	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0377025715000993)
+
+Equilibrium	NN	O	B-Material
+surface	NN	O	I-Material
+tension	NN	O	I-Material
+was	NN	O	O
+measured	NN	O	O
+at	NN	O	O
+21	NN	O	O
+°	NN	O	O
+C	NN	O	O
+with	NN	O	O
+a	NN	O	O
+SITA	NN	O	B-Process
+pro	NN	O	I-Process
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+21	NN	O	O
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+4	NN	O	O
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+-	NN	O	O
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+
+-DOCSTART- (S0377221716300984)
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+,	NN	O	O
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+-DOCSTART- (S0377221716301357)
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+-	NN	O	O
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+-	NN	O	O
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+-DOCSTART- (S0377221716302259)
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+,	NN	O	O
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+the	NN	O	O
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+of	NN	O	O
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+literature	NN	O	O
+that	NN	O	O
+resorts	NN	O	O
+to	NN	O	O
+the	NN	O	O
+weighted	NN	O	B-Material
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+some	NN	O	B-Material
+related	NN	O	I-Material
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+to	NN	O	O
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+(	NN	O	O
+see	NN	O	O
+,	NN	O	O
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+,	NN	O	O
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+&	NN	O	O
+Sahoo	NN	O	O
+,	NN	O	O
+2011	NN	O	O
+or	NN	O	O
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+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2012	NN	O	O
+)	NN	O	O
+.	NN	O	O
+From	NN	O	O
+a	NN	O	O
+theoretical	NN	O	O
+point	NN	O	O
+of	NN	O	O
+view	NN	O	O
+,	NN	O	O
+we	NN	O	O
+have	NN	O	O
+provided	NN	O	O
+a	NN	O	B-Material
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+distance	NN	O	I-Material
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+some	NN	O	O
+interesting	NN	O	O
+properties	NN	O	O
+in	NN	O	O
+contrast	NN	O	O
+to	NN	O	O
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+,	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+to	NN	O	O
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+,	NN	O	O
+the	NN	O	B-Material
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+with	NN	O	O
+the	NN	O	O
+weighted	NN	O	O
+additive	NN	O	O
+model	NN	O	O
+,	NN	O	O
+which	NN	O	O
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+-	NN	O	I-Process
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+;	NN	O	O
+and	NN	O	O
+(	NN	O	O
+2	NN	O	O
+)	NN	O	O
+when	NN	O	O
+productivity	NN	O	O
+has	NN	O	O
+to	NN	O	O
+be	NN	O	O
+determined	NN	O	B-Process
+and	NN	O	I-Process
+decomposed	NN	O	I-Process
+over	NN	O	I-Process
+time	NN	O	I-Process
+the	NN	O	O
+weighted	NN	O	B-Material
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+function	NN	O	I-Material
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+as	NN	O	O
+an	NN	O	O
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+tool	NN	O	O
+to	NN	O	O
+be	NN	O	O
+used	NN	O	O
+for	NN	O	O
+cross	NN	O	O
+-	NN	O	O
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+evaluation	NN	O	O
+of	NN	O	O
+returns	NN	O	O
+to	NN	O	O
+scale	NN	O	O
+changes	NN	O	O
+,	NN	O	O
+since	NN	O	O
+this	NN	O	O
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+is	NN	O	O
+always	NN	O	O
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+,	NN	O	O
+even	NN	O	O
+under	NN	O	O
+Variable	NN	O	O
+Returns	NN	O	O
+to	NN	O	O
+Scale	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0377221716303873)
+
+The	NN	O	O
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+blocks	NN	O	O
+of	NN	O	O
+25×25×12meter3	NN	O	O
+located	NN	O	O
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+three	NN	O	O
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+mining	NN	O	O
+benches	NN	O	O
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+12meter	NN	O	O
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+For	NN	O	O
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+study	NN	O	O
+,	NN	O	O
+ten	NN	O	O
+equally	NN	O	O
+probable	NN	O	B-Process
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+of	NN	O	O
+iron	NN	O	B-Material
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+,	NN	O	O
+phosphorous	NN	O	B-Material
+,	NN	O	O
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+,	NN	O	O
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+LOI	NN	O	B-Material
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+to	NN	O	O
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+iron	NN	O	I-Task
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+deposit	NN	O	I-Task
+considered	NN	O	O
+and	NN	O	O
+are	NN	O	O
+the	NN	O	O
+input	NN	O	O
+to	NN	O	O
+the	NN	O	O
+SSTPS	NN	O	B-Process
+formulation	NN	O	I-Process
+proposed	NN	O	O
+in	NN	O	O
+the	NN	O	O
+previous	NN	O	O
+section	NN	O	O
+.	NN	O	O
+The	NN	O	O
+simulated	NN	O	B-Task
+scenarios	NN	O	I-Task
+available	NN	O	O
+were	NN	O	O
+provided	NN	O	O
+and	NN	O	O
+generated	NN	O	O
+using	NN	O	O
+the	NN	O	O
+stochastic	NN	O	B-Process
+simulated	NN	O	I-Process
+technique	NN	O	I-Process
+detailed	NN	O	O
+in	NN	O	O
+Boucher	NN	O	O
+and	NN	O	O
+Dimitrakopoulos	NN	O	O
+(	NN	O	O
+2012	NN	O	O
+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
+area	NN	O	O
+considered	NN	O	O
+is	NN	O	O
+bounded	NN	O	O
+by	NN	O	O
+the	NN	O	O
+limits	NN	O	O
+of	NN	O	O
+the	NN	O	O
+given	NN	O	O
+volume	NN	O	O
+of	NN	O	O
+production	NN	O	O
+in	NN	O	O
+the	NN	O	O
+long	NN	O	O
+-	NN	O	O
+term	NN	O	O
+first	NN	O	O
+year	NN	O	O
+production	NN	O	O
+schedule	NN	O	O
+provided	NN	O	O
+.	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+4	NN	O	O
+shows	NN	O	O
+3	NN	O	O
+scenarios	NN	O	B-Process
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+iron	NN	O	I-Process
+ore	NN	O	I-Process
+content	NN	O	I-Process
+as	NN	O	O
+well	NN	O	O
+as	NN	O	O
+the	NN	O	O
+corresponding	NN	O	O
+conventional	NN	O	O
+and	NN	O	O
+single	NN	O	O
+estimated	NN	O	O
+(	NN	O	O
+average	NN	O	O
+)	NN	O	O
+representation	NN	O	O
+of	NN	O	O
+iron	NN	O	B-Material
+content	NN	O	O
+(	NN	O	O
+Fe2O3	NN	O	O
+%	NN	O	O
+)	NN	O	O
+for	NN	O	O
+the	NN	O	O
+upper	NN	O	O
+bench	NN	O	O
+.	NN	O	O
+In	NN	O	O
+total	NN	O	O
+,	NN	O	O
+734	NN	O	B-Material
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+from	NN	O	O
+3525	NN	O	O
+to	NN	O	O
+21,150	NN	O	O
+tonnes	NN	O	O
+,	NN	O	O
+with	NN	O	O
+Fe2O3	NN	O	B-Material
+from	NN	O	O
+54.59	NN	O	O
+%	NN	O	O
+to	NN	O	O
+60.63	NN	O	O
+%	NN	O	O
+,	NN	O	O
+P	NN	O	B-Material
+from	NN	O	O
+0.02	NN	O	O
+%	NN	O	O
+to	NN	O	O
+0.04	NN	O	O
+%	NN	O	O
+,	NN	O	O
+SiO2	NN	O	B-Material
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+3.10	NN	O	O
+%	NN	O	O
+to	NN	O	O
+8.58	NN	O	O
+%	NN	O	O
+,	NN	O	O
+Al2O3	NN	O	B-Material
+from	NN	O	O
+0.53	NN	O	O
+%	NN	O	O
+to	NN	O	O
+1.88	NN	O	O
+%	NN	O	O
+and	NN	O	O
+LOI	NN	O	B-Material
+from	NN	O	O
+8.75	NN	O	O
+%	NN	O	O
+to	NN	O	O
+11.75	NN	O	O
+%	NN	O	O
+are	NN	O	O
+available	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0377221716304258)
+
+Two	NN	O	B-Process
+-	NN	O	I-Process
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+models	NN	O	I-Process
+are	NN	O	O
+often	NN	O	O
+insufficient	NN	O	O
+to	NN	O	O
+fit	NN	O	O
+complex	NN	O	O
+traces	NN	O	O
+,	NN	O	O
+therefore	NN	O	O
+we	NN	O	O
+also	NN	O	O
+study	NN	O	B-Task
+the	NN	O	I-Task
+approximate	NN	O	I-Task
+fitting	NN	O	I-Task
+of	NN	O	I-Task
+large	NN	O	I-Task
+M3PPs	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+single	NN	O	O
+class	NN	O	O
+setting	NN	O	O
+,	NN	O	O
+a	NN	O	O
+known	NN	O	O
+limitation	NN	O	O
+of	NN	O	O
+MMPPs	NN	O	B-Material
+is	NN	O	O
+the	NN	O	O
+inability	NN	O	O
+to	NN	O	O
+simultaneously	NN	O	O
+fit	NN	O	O
+many	NN	O	O
+statistical	NN	O	B-Process
+descriptors	NN	O	I-Process
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+non	NN	O	O
+-	NN	O	O
+linearity	NN	O	O
+of	NN	O	O
+their	NN	O	O
+underlying	NN	O	B-Process
+equations	NN	O	I-Process
+(	NN	O	O
+Bodrog	NN	O	O
+,	NN	O	O
+Heindl	NN	O	O
+,	NN	O	O
+Horváth	NN	O	O
+,	NN	O	O
+&	NN	O	O
+Telek	NN	O	O
+,	NN	O	O
+2008	NN	O	O
+;	NN	O	O
+Heindl	NN	O	O
+,	NN	O	O
+Horváth	NN	O	O
+,	NN	O	O
+&	NN	O	O
+Gross	NN	O	O
+,	NN	O	O
+2006	NN	O	O
+;	NN	O	O
+Horváth	NN	O	O
+&	NN	O	O
+Telek	NN	O	O
+,	NN	O	O
+2009	NN	O	O
+)	NN	O	O
+.	NN	O	O
+This	NN	O	O
+has	NN	O	O
+led	NN	O	O
+to	NN	O	O
+the	NN	O	O
+definition	NN	O	O
+of	NN	O	O
+several	NN	O	O
+approaches	NN	O	O
+to	NN	O	O
+fit	NN	O	O
+complex	NN	O	O
+traces	NN	O	O
+by	NN	O	O
+composing	NN	O	B-Process
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+small	NN	O	I-Process
+-	NN	O	I-Process
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+MMPPs	NN	O	I-Process
+or	NN	O	I-Process
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+using	NN	O	O
+Kronecker	NN	O	B-Process
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+(	NN	O	O
+Andersen	NN	O	O
+&	NN	O	O
+Nielsen	NN	O	O
+,	NN	O	O
+1998	NN	O	O
+;	NN	O	O
+Casale	NN	O	O
+,	NN	O	O
+Zhang	NN	O	O
+,	NN	O	O
+&	NN	O	O
+Smirni	NN	O	O
+,	NN	O	O
+2010	NN	O	O
+;	NN	O	O
+Horváth	NN	O	O
+&	NN	O	O
+Telek	NN	O	O
+,	NN	O	O
+2002	NN	O	O
+)	NN	O	O
+.	NN	O	O
+These	NN	O	O
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+employ	NN	O	O
+composition	NN	O	B-Process
+operators	NN	O	I-Process
+for	NN	O	O
+moment	NN	O	O
+fitting	NN	O	O
+,	NN	O	O
+offering	NN	O	O
+a	NN	O	O
+different	NN	O	O
+trade	NN	O	O
+-	NN	O	O
+off	NN	O	O
+between	NN	O	O
+computational	NN	O	O
+cost	NN	O	O
+and	NN	O	O
+fitting	NN	O	O
+accuracy	NN	O	O
+compared	NN	O	O
+to	NN	O	O
+fitting	NN	O	B-Task
+methods	NN	O	I-Task
+based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+EM	NN	O	B-Process
+algorithm	NN	O	I-Process
+(	NN	O	O
+Breuer	NN	O	O
+,	NN	O	O
+2002	NN	O	O
+;	NN	O	O
+Horváth	NN	O	O
+&	NN	O	O
+Okamura	NN	O	O
+,	NN	O	O
+2013	NN	O	O
+;	NN	O	O
+Klemm	NN	O	O
+,	NN	O	O
+Lindemann	NN	O	O
+,	NN	O	O
+&	NN	O	O
+Lohmann	NN	O	O
+,	NN	O	O
+2003	NN	O	O
+)	NN	O	O
+.	NN	O	O
+In	NN	O	O
+particular	NN	O	O
+,	NN	O	O
+the	NN	O	O
+superposition	NN	O	B-Process
+operator	NN	O	I-Process
+allows	NN	O	O
+one	NN	O	O
+to	NN	O	O
+describe	NN	O	O
+a	NN	O	O
+trace	NN	O	O
+by	NN	O	O
+the	NN	O	O
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+,	NN	O	O
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+the	NN	O	O
+expense	NN	O	O
+of	NN	O	O
+an	NN	O	O
+exponential	NN	O	O
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+of	NN	O	O
+the	NN	O	O
+number	NN	O	O
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+in	NN	O	O
+the	NN	O	O
+resulting	NN	O	O
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+(	NN	O	O
+Sriram	NN	O	O
+&	NN	O	O
+Whitt	NN	O	O
+,	NN	O	O
+1986	NN	O	O
+)	NN	O	O
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+This	NN	O	O
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+explosion	NN	O	I-Process
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+an	NN	O	O
+obstacle	NN	O	O
+for	NN	O	O
+the	NN	O	O
+application	NN	O	O
+of	NN	O	O
+MMPPs	NN	O	B-Material
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+to	NN	O	O
+modeling	NN	O	B-Task
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+;	NN	O	O
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+example	NN	O	O
+it	NN	O	O
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+down	NN	O	O
+,	NN	O	O
+or	NN	O	O
+even	NN	O	O
+renders	NN	O	O
+infeasible	NN	O	O
+,	NN	O	O
+the	NN	O	O
+numerical	NN	O	B-Task
+evaluation	NN	O	I-Task
+of	NN	O	I-Task
+queueing	NN	O	I-Task
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+by	NN	O	O
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+(	NN	O	O
+Bini	NN	O	O
+,	NN	O	O
+Meini	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+&	NN	O	O
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+,	NN	O	O
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+;	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+&	NN	O	O
+Houdt	NN	O	O
+,	NN	O	O
+2008	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0378381215300297)
+
+For	NN	O	O
+mixtures	NN	O	B-Material
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+by	NN	O	O
+an	NN	O	O
+equation	NN	O	O
+of	NN	O	O
+state	NN	O	O
+,	NN	O	O
+this	NN	O	O
+calculation	NN	O	O
+amounts	NN	O	O
+to	NN	O	O
+simultaneously	NN	O	O
+solving	NN	O	O
+the	NN	O	O
+condition	NN	O	O
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+,	NN	O	O
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+diffusive	NN	O	O
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+)	NN	O	O
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+fluid	NN	O	O
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+the	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+nature	NN	O	O
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+itself	NN	O	O
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+a	NN	O	O
+reasonably	NN	O	O
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+by	NN	O	O
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+.	NN	O	O
+In	NN	O	O
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+form	NN	O	O
+,	NN	O	O
+the	NN	O	O
+composition	NN	O	O
+and	NN	O	O
+temperature	NN	O	O
+are	NN	O	O
+fixed	NN	O	O
+and	NN	O	O
+the	NN	O	O
+pressures	NN	O	B-Material
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+the	NN	O	I-Material
+bubble	NN	O	I-Material
+or	NN	O	I-Material
+the	NN	O	I-Material
+dew	NN	O	I-Material
+point	NN	O	I-Material
+are	NN	O	O
+recursively	NN	O	O
+calculated	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+is	NN	O	O
+referred	NN	O	O
+to	NN	O	O
+the	NN	O	O
+excellent	NN	O	O
+textbooks	NN	O	O
+that	NN	O	O
+describe	NN	O	O
+the	NN	O	O
+common	NN	O	B-Process
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+employed	NN	O	I-Process
+[	NN	O	O
+80–82	NN	O	O
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+-DOCSTART- (S0378381215300674)
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+,	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+-DOCSTART- (S0749603615302184)
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+,	NN	O	O
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+two	NN	O	O
+PPLs	NN	O	B-Material
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+ProbLog	NN	O	B-Material
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+on	NN	O	O
+models	NN	O	O
+where	NN	O	O
+“	NN	O	O
+logical	NN	O	B-Task
+inference	NN	O	I-Task
+”	NN	O	O
+needs	NN	O	O
+to	NN	O	O
+be	NN	O	O
+efficient	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+resulting	NN	O	O
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+,	NN	O	O
+the	NN	O	O
+decision	NN	O	O
+diagrams	NN	O	O
+,	NN	O	O
+need	NN	O	O
+to	NN	O	O
+be	NN	O	O
+compact	NN	O	O
+,	NN	O	O
+while	NN	O	O
+PB	NN	O	B-Material
+focuses	NN	O	O
+on	NN	O	O
+models	NN	O	O
+where	NN	O	O
+“	NN	O	B-Task
+logical	NN	O	I-Task
+inference	NN	O	I-Task
+”	NN	O	I-Task
+is	NN	O	O
+typically	NN	O	O
+easy	NN	O	O
+,	NN	O	O
+however	NN	O	O
+it	NN	O	O
+must	NN	O	O
+be	NN	O	O
+applied	NN	O	O
+repeatedly	NN	O	O
+,	NN	O	O
+according	NN	O	O
+to	NN	O	O
+the	NN	O	O
+nature	NN	O	O
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+the	NN	O	O
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+the	NN	O	O
+observations	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+in	NN	O	O
+future	NN	O	O
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+,	NN	O	O
+PB	NN	O	B-Material
+could	NN	O	O
+benefit	NN	O	O
+from	NN	O	O
+the	NN	O	O
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+decision	NN	O	I-Process
+diagrams	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S0895611116300684)
+
+In	NN	O	O
+the	NN	O	O
+case	NN	O	O
+of	NN	O	O
+PSR	NN	O	B-Task
+applied	NN	O	I-Task
+to	NN	O	I-Task
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+,	NN	O	O
+preservation	NN	O	O
+of	NN	O	O
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+branches	NN	O	O
+(	NN	O	O
+concavities	NN	O	O
+)	NN	O	O
+demands	NN	O	O
+a	NN	O	O
+high	NN	O	O
+value	NN	O	O
+of	NN	O	O
+the	NN	O	O
+d	NN	O	O
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+,	NN	O	O
+resulting	NN	O	O
+in	NN	O	O
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+with	NN	O	O
+high	NN	O	O
+number	NN	O	O
+of	NN	O	O
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+.	NN	O	O
+To	NN	O	O
+cope	NN	O	O
+with	NN	O	O
+this	NN	O	O
+problem	NN	O	O
+,	NN	O	O
+Wu	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+(	NN	O	O
+2013	NN	O	O
+)	NN	O	O
+evaluates	NN	O	O
+a	NN	O	O
+variant	NN	O	O
+of	NN	O	O
+PSR	NN	O	B-Process
+(	NN	O	O
+in	NN	O	O
+that	NN	O	O
+work	NN	O	O
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+to	NN	O	O
+as	NN	O	O
+scale	NN	O	B-Process
+-	NN	O	I-Process
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+[	NN	O	O
+SA	NN	O	B-Process
+]	NN	O	O
+)	NN	O	O
+,	NN	O	O
+which	NN	O	O
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+curvature	NN	O	B-Process
+-	NN	O	I-Process
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+(	NN	O	O
+e.g.	NN	O	O
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+/	NN	O	I-Process
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+the	NN	O	I-Process
+local	NN	O	I-Process
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+)	NN	O	O
+(	NN	O	O
+Wu	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2010	NN	O	O
+)	NN	O	O
+.	NN	O	O
+In	NN	O	O
+Wu	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+(	NN	O	O
+2013	NN	O	O
+)	NN	O	O
+,	NN	O	O
+other	NN	O	O
+methods	NN	O	O
+including	NN	O	O
+MC	NN	O	B-Process
+(	NN	O	O
+without	NN	O	O
+smoothing	NN	O	O
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+decimation	NN	O	O
+)	NN	O	O
+are	NN	O	O
+evaluated	NN	O	O
+with	NN	O	O
+application	NN	O	O
+to	NN	O	O
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+.	NN	O	O
+The	NN	O	O
+authors	NN	O	O
+,	NN	O	O
+point	NN	O	O
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+a	NN	O	O
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+applications	NN	O	O
+to	NN	O	O
+surgery	NN	O	B-Task
+planning	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+methods	NN	O	O
+evaluated	NN	O	O
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+Wu	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+(	NN	O	O
+2013	NN	O	O
+)	NN	O	O
+could	NN	O	O
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+also	NN	O	O
+compared	NN	O	O
+with	NN	O	O
+another	NN	O	O
+set	NN	O	O
+of	NN	O	O
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+(	NN	O	O
+known	NN	O	O
+as	NN	O	O
+model	NN	O	B-Material
+-	NN	O	I-Material
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+)	NN	O	O
+(	NN	O	O
+Preim	NN	O	O
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+Oeltze	NN	O	O
+,	NN	O	O
+2008	NN	O	O
+)	NN	O	O
+,	NN	O	O
+widely	NN	O	O
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+context	NN	O	O
+of	NN	O	O
+vessel	NN	O	B-Task
+modeling	NN	O	I-Task
+for	NN	O	I-Task
+surgery	NN	O	I-Task
+planning	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S0927025612000249)
+
+The	NN	O	O
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+to	NN	O	O
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+the	NN	O	I-Task
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+efficiency	NN	O	I-Task
+of	NN	O	I-Task
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+plant	NN	O	I-Task
+has	NN	O	O
+led	NN	O	O
+to	NN	O	O
+the	NN	O	O
+development	NN	O	O
+of	NN	O	O
+9–12	NN	O	B-Material
+%	NN	O	I-Material
+Cr	NN	O	I-Material
+martensitic	NN	O	I-Material
+steels	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+development	NN	O	B-Task
+of	NN	O	I-Task
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+P91	NN	O	I-Task
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+since	NN	O	O
+late	NN	O	O
+1970s	NN	O	O
+and	NN	O	O
+early	NN	O	O
+1990s	NN	O	O
+,	NN	O	O
+respectively	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+work	NN	O	O
+has	NN	O	O
+focussed	NN	O	O
+on	NN	O	O
+their	NN	O	O
+creep	NN	O	O
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+due	NN	O	O
+to	NN	O	O
+its	NN	O	O
+intended	NN	O	O
+application	NN	O	O
+at	NN	O	O
+high	NN	O	O
+temperature	NN	O	O
+.	NN	O	O
+Recently	NN	O	O
+,	NN	O	O
+the	NN	O	O
+introduction	NN	O	O
+of	NN	O	O
+more	NN	O	O
+cyclic	NN	O	O
+operation	NN	O	O
+of	NN	O	O
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+has	NN	O	O
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+the	NN	O	O
+possibility	NN	O	O
+of	NN	O	O
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+.	NN	O	O
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+cracking	NN	O	O
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+to	NN	O	O
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+of	NN	O	O
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+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+cycling	NN	O	I-Process
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+thermal	NN	O	O
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+between	NN	O	O
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+inside	NN	O	O
+and	NN	O	O
+outside	NN	O	O
+of	NN	O	O
+components	NN	O	O
+and	NN	O	O
+this	NN	O	O
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+cause	NN	O	O
+cyclic	NN	O	O
+stress	NN	O	O
+levels	NN	O	O
+to	NN	O	O
+be	NN	O	O
+of	NN	O	O
+concerns	NN	O	O
+.	NN	O	O
+Recently	NN	O	O
+,	NN	O	O
+research	NN	O	O
+on	NN	O	O
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+P91	NN	O	I-Task
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+been	NN	O	O
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+out	NN	O	O
+including	NN	O	O
+the	NN	O	O
+characterisation	NN	O	B-Task
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+cyclic	NN	O	I-Task
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+material	NN	O	I-Task
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+the	NN	O	O
+two	NN	O	B-Process
+-	NN	O	I-Process
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+-	NN	O	I-Process
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+[	NN	O	O
+3,4	NN	O	O
+]	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S092702561300267X)
+
+In	NN	O	O
+previous	NN	O	O
+publications	NN	O	O
+the	NN	O	O
+present	NN	O	O
+authors	NN	O	O
+proposed	NN	O	O
+a	NN	O	O
+method	NN	O	O
+to	NN	O	O
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+the	NN	O	I-Task
+thermodynamics	NN	O	I-Task
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+liquid	NN	O	I-Task
+diffusion	NN	O	I-Task
+-	NN	O	I-Task
+governed	NN	O	I-Task
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+kinetics	NN	O	I-Task
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+[	NN	O	O
+23,24	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Back	NN	O	B-Process
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+was	NN	O	O
+disregarded	NN	O	O
+.	NN	O	O
+A	NN	O	O
+way	NN	O	O
+to	NN	O	O
+access	NN	O	O
+the	NN	O	O
+thermodynamic	NN	O	B-Material
+data	NN	O	I-Material
+(	NN	O	O
+e.g.	NN	O	O
+Thermo	NN	O	O
+-	NN	O	O
+Calc	NN	O	O
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+)	NN	O	O
+through	NN	O	O
+a	NN	O	O
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+)	NN	O	O
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+.	NN	O	O
+With	NN	O	O
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+it	NN	O	O
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+an	NN	O	O
+online	NN	O	O
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+trace	NN	O	O
+the	NN	O	O
+formation	NN	O	O
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+each	NN	O	O
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+solid	NN	O	O
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+(	NN	O	O
+primary	NN	O	O
+,	NN	O	O
+peritectic	NN	O	O
+,	NN	O	O
+eutectic	NN	O	O
+,	NN	O	O
+etc	NN	O	O
+.	NN	O	O
+)	NN	O	O
+.	NN	O	O
+As	NN	O	O
+the	NN	O	O
+number	NN	O	O
+of	NN	O	O
+calls	NN	O	O
+of	NN	O	O
+the	NN	O	O
+thermodynamic	NN	O	B-Material
+data	NN	O	I-Material
+is	NN	O	O
+equal	NN	O	O
+to	NN	O	O
+the	NN	O	O
+product	NN	O	O
+of	NN	O	O
+the	NN	O	O
+number	NN	O	O
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+the	NN	O	O
+discretized	NN	O	B-Material
+volume	NN	O	I-Material
+elements	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
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+the	NN	O	O
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+exhausting	NN	O	O
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+Therefore	NN	O	O
+,	NN	O	O
+the	NN	O	O
+current	NN	O	B-Process
+model	NN	O	I-Process
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+a	NN	O	O
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+,	NN	O	O
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+no	NN	O	O
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+is	NN	O	O
+necessary	NN	O	O
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+the	NN	O	O
+model	NN	O	O
+presented	NN	O	O
+in	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+is	NN	O	O
+extended	NN	O	B-Task
+to	NN	O	I-Task
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+the	NN	O	I-Task
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+diffusion	NN	O	I-Task
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+the	NN	O	I-Task
+solid	NN	O	I-Task
+.	NN	O	O
+With	NN	O	O
+these	NN	O	O
+modifications	NN	O	B-Process
+,	NN	O	O
+the	NN	O	O
+model	NN	O	O
+can	NN	O	O
+be	NN	O	O
+used	NN	O	O
+to	NN	O	O
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+casting	NN	O	I-Task
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+simulations	NN	O	I-Task
+with	NN	O	I-Task
+incorporated	NN	O	I-Task
+full	NN	O	I-Task
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+-	NN	O	I-Task
+governed	NN	O	I-Task
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+kinetics	NN	O	I-Task
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+ternary	NN	O	B-Material
+alloys	NN	O	I-Material
+at	NN	O	O
+a	NN	O	O
+reasonable	NN	O	O
+computation	NN	O	O
+cost	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S092702561300760X)
+
+Due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+complex	NN	O	O
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+of	NN	O	O
+the	NN	O	O
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+spray	NN	O	I-Process
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+,	NN	O	O
+modelling	NN	O	B-Task
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+been	NN	O	O
+playing	NN	O	O
+a	NN	O	O
+key	NN	O	O
+role	NN	O	O
+in	NN	O	O
+providing	NN	O	B-Task
+some	NN	O	I-Task
+key	NN	O	I-Task
+insights	NN	O	I-Task
+for	NN	O	I-Task
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+design	NN	O	I-Task
+and	NN	O	I-Task
+operations	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+relationships	NN	O	O
+among	NN	O	O
+processing	NN	O	B-Process
+conditions	NN	O	O
+,	NN	O	O
+particle	NN	O	O
+characteristics	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+resulting	NN	O	O
+coating	NN	O	B-Process
+properties	NN	O	O
+are	NN	O	O
+nonlinear	NN	O	O
+and	NN	O	O
+might	NN	O	O
+be	NN	O	O
+difficult	NN	O	O
+to	NN	O	O
+be	NN	O	O
+unravelled	NN	O	O
+by	NN	O	O
+the	NN	O	O
+experimental	NN	O	B-Task
+studies	NN	O	I-Task
+alone	NN	O	O
+(	NN	O	O
+e.g.	NN	O	O
+[	NN	O	O
+5–7	NN	O	O
+]	NN	O	O
+)	NN	O	O
+Detailed	NN	O	O
+information	NN	O	O
+on	NN	O	O
+the	NN	O	O
+atomic	NN	O	B-Process
+level	NN	O	I-Process
+changes	NN	O	I-Process
+leading	NN	O	O
+to	NN	O	O
+changes	NN	O	O
+observed	NN	O	O
+at	NN	O	O
+macroscale	NN	O	O
+can	NN	O	O
+appropriately	NN	O	O
+be	NN	O	O
+obtained	NN	O	O
+by	NN	O	O
+MD	NN	O	B-Process
+simulation	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+effect	NN	O	O
+of	NN	O	O
+temperature	NN	O	O
+and	NN	O	O
+velocity	NN	O	O
+can	NN	O	O
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+more	NN	O	O
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+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
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+,	NN	O	O
+relatively	NN	O	O
+simpler	NN	O	O
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+copper	NN	O	I-Material
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+to	NN	O	O
+obtain	NN	O	O
+a	NN	O	O
+better	NN	O	O
+understanding	NN	O	O
+of	NN	O	O
+particle	NN	O	B-Process
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+solidification	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+deformation	NN	O	B-Process
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+topography	NN	O	O
+of	NN	O	O
+the	NN	O	O
+impacting	NN	O	O
+particles	NN	O	B-Material
+.	NN	O	O
+Using	NN	O	O
+state	NN	O	O
+-	NN	O	O
+of	NN	O	O
+-	NN	O	O
+the	NN	O	O
+-	NN	O	O
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+to	NN	O	O
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+the	NN	O	O
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+the	NN	O	O
+impacting	NN	O	O
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+and	NN	O	O
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+–	NN	O	O
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+,	NN	O	O
+it	NN	O	O
+can	NN	O	O
+be	NN	O	O
+suggested	NN	O	O
+that	NN	O	O
+the	NN	O	O
+consecutive	NN	O	B-Process
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+deposition	NN	O	I-Process
+of	NN	O	O
+particles	NN	O	B-Material
+can	NN	O	O
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+be	NN	O	O
+understood	NN	O	O
+by	NN	O	O
+understanding	NN	O	B-Task
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+impacts	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
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+its	NN	O	O
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+to	NN	O	O
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+offer	NN	O	O
+information	NN	O	O
+on	NN	O	O
+the	NN	O	O
+quality	NN	O	O
+of	NN	O	O
+the	NN	O	O
+coating	NN	O	B-Process
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+its	NN	O	O
+response	NN	O	O
+to	NN	O	O
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+.	NN	O	O
+As	NN	O	O
+a	NN	O	O
+general	NN	O	O
+practice	NN	O	O
+,	NN	O	O
+engineering	NN	O	B-Material
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+in	NN	O	O
+a	NN	O	O
+continuous	NN	O	O
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+mode	NN	O	O
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+cooling	NN	O	B-Process
+;	NN	O	O
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+there	NN	O	O
+is	NN	O	O
+an	NN	O	O
+opportunity	NN	O	O
+for	NN	O	O
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+in	NN	O	O
+conjunction	NN	O	O
+with	NN	O	O
+actual	NN	O	O
+spraying	NN	O	B-Task
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+,	NN	O	O
+so	NN	O	O
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+to	NN	O	O
+identify	NN	O	O
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+and	NN	O	O
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+,	NN	O	O
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+stresses	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0927025614007137)
+
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+within	NN	O	O
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+such	NN	O	O
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+.	NN	O	O
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+on	NN	O	O
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+.	NN	O	O
+Epoxies	NN	O	B-Material
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+inherently	NN	O	O
+brittle	NN	O	O
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+linked	NN	O	O
+nature	NN	O	O
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+Thus	NN	O	O
+,	NN	O	O
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+-	NN	O	I-Process
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+.	NN	O	O
+These	NN	O	O
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+main	NN	O	O
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+:	NN	O	O
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+,	NN	O	O
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+[	NN	O	O
+1,2	NN	O	O
+]	NN	O	O
+,	NN	O	O
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+3	NN	O	O
+]	NN	O	O
+,	NN	O	O
+alumina	NN	O	B-Material
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+4	NN	O	O
+]	NN	O	O
+,	NN	O	O
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+-	NN	O	I-Material
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+[	NN	O	O
+5	NN	O	O
+]	NN	O	O
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+[	NN	O	O
+6,7	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
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+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+It	NN	O	O
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+a	NN	O	O
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+[	NN	O	O
+14	NN	O	O
+]	NN	O	O
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+
+-DOCSTART- (S0957417416301786)
+
+These	NN	O	O
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+that	NN	O	O
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+-	NN	O	I-Process
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+micrometeorological	NN	O	B-Material
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+the	NN	O	O
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+,	NN	O	O
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+data	NN	O	O
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+-	NN	O	I-Process
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+prediction	NN	O	O
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+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+there	NN	O	O
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+-	NN	O	I-Process
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+Firstly	NN	O	O
+,	NN	O	O
+the	NN	O	O
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+-	NN	O	I-Process
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+an	NN	O	O
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+of	NN	O	O
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+.	NN	O	O
+In	NN	O	O
+particular	NN	O	O
+,	NN	O	O
+this	NN	O	O
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+the	NN	O	O
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+that	NN	O	O
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+6	NN	O	O
+h	NN	O	O
+as	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
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+3	NN	O	O
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+This	NN	O	O
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+extracted	NN	O	O
+by	NN	O	O
+D	NN	O	B-Process
+-	NN	O	I-Process
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+.	NN	O	O
+If	NN	O	O
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+-	NN	O	I-Process
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+the	NN	O	O
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+the	NN	O	O
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+of	NN	O	O
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+-	NN	O	I-Process
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+due	NN	O	O
+to	NN	O	O
+an	NN	O	O
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+of	NN	O	O
+training	NN	O	B-Material
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+.	NN	O	O
+Therefore	NN	O	O
+,	NN	O	O
+we	NN	O	O
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+mapping	NN	O	O
+and	NN	O	O
+algorithms	NN	O	O
+of	NN	O	O
+D	NN	O	B-Process
+-	NN	O	I-Process
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+,	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	I-Process
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+,	NN	O	O
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+several	NN	O	O
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+.	NN	O	O
+Therefore	NN	O	O
+,	NN	O	O
+SW	NN	O	B-Process
+-	NN	O	I-Process
+SVR	NN	O	I-Process
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+varied	NN	O	O
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+,	NN	O	O
+and	NN	O	O
+it	NN	O	O
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+more	NN	O	O
+time	NN	O	O
+to	NN	O	O
+tune	NN	O	B-Process
+the	NN	O	I-Process
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+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
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+,	NN	O	O
+we	NN	O	O
+used	NN	O	O
+a	NN	O	O
+grid	NN	O	B-Process
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+roughly	NN	O	O
+so	NN	O	O
+as	NN	O	O
+to	NN	O	O
+decide	NN	O	O
+the	NN	O	O
+parameters	NN	O	O
+in	NN	O	O
+a	NN	O	O
+certain	NN	O	O
+time	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+there	NN	O	O
+is	NN	O	O
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+room	NN	O	O
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+improvement	NN	O	O
+in	NN	O	O
+the	NN	O	O
+prediction	NN	O	O
+performance	NN	O	O
+by	NN	O	O
+using	NN	O	O
+other	NN	O	O
+approaches	NN	O	O
+such	NN	O	O
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+a	NN	O	O
+genetic	NN	O	B-Process
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+a	NN	O	O
+grid	NN	O	B-Process
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+(	NN	O	O
+Huang	NN	O	O
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+Wang	NN	O	O
+,	NN	O	O
+2006	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S0957417416302561)
+
+•More	NN	O	O
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+should	NN	O	O
+be	NN	O	O
+directed	NN	O	O
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+advancing	NN	O	O
+the	NN	O	O
+methods	NN	O	O
+of	NN	O	O
+feature	NN	O	B-Task
+extraction	NN	O	I-Task
+to	NN	O	O
+overcome	NN	O	O
+the	NN	O	O
+influence	NN	O	O
+of	NN	O	O
+dynamic	NN	O	O
+factors	NN	O	O
+that	NN	O	O
+limit	NN	O	O
+the	NN	O	O
+performance	NN	O	O
+.	NN	O	O
+The	NN	O	O
+use	NN	O	O
+of	NN	O	O
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+muscles	NN	O	B-Process
+synergies	NN	O	I-Process
+extraction	NN	O	I-Process
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+on	NN	O	O
+problems	NN	O	O
+under	NN	O	O
+the	NN	O	O
+influence	NN	O	O
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+such	NN	O	O
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+may	NN	O	O
+provide	NN	O	O
+substantial	NN	O	O
+improvements	NN	O	O
+upon	NN	O	O
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+which	NN	O	O
+results	NN	O	O
+in	NN	O	O
+an	NN	O	O
+increase	NN	O	B-Process
+in	NN	O	I-Process
+critical	NN	O	I-Process
+Reynolds	NN	O	I-Process
+numbers	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+onset	NN	O	O
+of	NN	O	O
+convective	NN	O	O
+and	NN	O	O
+absolute	NN	O	O
+instabilities	NN	O	O
+,	NN	O	O
+a	NN	O	O
+narrowing	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+range	NN	O	I-Process
+of	NN	O	I-Process
+unstable	NN	O	I-Process
+parameters	NN	O	I-Process
+and	NN	O	O
+a	NN	O	O
+decrease	NN	O	B-Process
+in	NN	O	I-Process
+amplification	NN	O	I-Process
+rates	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+unstable	NN	O	O
+convective	NN	O	O
+modes	NN	O	O
+.	NN	O	O
+The	NN	O	O
+convective	NN	O	B-Process
+instability	NN	O	I-Process
+results	NN	O	O
+are	NN	O	O
+interpreted	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+a	NN	O	O
+delay	NN	O	O
+in	NN	O	O
+the	NN	O	O
+onset	NN	O	O
+of	NN	O	O
+spiral	NN	O	B-Material
+vortices	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+absolute	NN	O	B-Process
+instability	NN	O	I-Process
+results	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+the	NN	O	O
+onset	NN	O	O
+of	NN	O	O
+laminar	NN	O	B-Process
+-	NN	O	I-Process
+turbulent	NN	O	I-Process
+transition	NN	O	I-Process
+(	NN	O	O
+Lingwood	NN	O	O
+[	NN	O	O
+7,10,11	NN	O	O
+]	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1071581916300854)
+
+We	NN	O	O
+have	NN	O	O
+developed	NN	O	O
+a	NN	O	O
+systematic	NN	O	O
+,	NN	O	O
+quantified	NN	O	O
+understanding	NN	O	O
+of	NN	O	O
+a	NN	O	O
+specific	NN	O	O
+problem	NN	O	O
+:	NN	O	O
+the	NN	O	O
+design	NN	O	B-Task
+of	NN	O	I-Task
+mobile	NN	O	I-Task
+-	NN	O	I-Task
+friendly	NN	O	I-Task
+unique	NN	O	I-Task
+identifiers	NN	O	I-Task
+.	NN	O	O
+But	NN	O	O
+our	NN	O	O
+results	NN	O	O
+also	NN	O	O
+apply	NN	O	O
+to	NN	O	O
+the	NN	O	O
+design	NN	O	B-Task
+of	NN	O	I-Task
+other	NN	O	I-Task
+text	NN	O	I-Task
+-	NN	O	I-Task
+based	NN	O	I-Task
+services	NN	O	I-Task
+.	NN	O	O
+There	NN	O	O
+has	NN	O	O
+been	NN	O	O
+a	NN	O	O
+trend	NN	O	O
+toward	NN	O	O
+bespoke	NN	O	B-Material
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+keyboards	NN	O	I-Material
+(	NN	O	O
+e.g.	NN	O	O
+,	NN	O	O
+Dunlop	NN	O	O
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+Levine	NN	O	O
+,	NN	O	O
+2012	NN	O	O
+;	NN	O	O
+Karrenbauer	NN	O	O
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+Oulasvirta	NN	O	O
+,	NN	O	O
+2014	NN	O	O
+;	NN	O	O
+Leiva	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2015	NN	O	O
+;	NN	O	O
+Wiseman	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2013	NN	O	O
+)	NN	O	O
+.	NN	O	O
+More	NN	O	O
+often	NN	O	O
+than	NN	O	O
+not	NN	O	O
+,	NN	O	O
+though	NN	O	O
+,	NN	O	O
+input	NN	O	B-Material
+devices	NN	O	I-Material
+are	NN	O	O
+a	NN	O	O
+fixed	NN	O	O
+constraint	NN	O	O
+in	NN	O	O
+the	NN	O	O
+design	NN	O	B-Task
+of	NN	O	I-Task
+a	NN	O	I-Task
+service	NN	O	I-Task
+.	NN	O	O
+Most	NN	O	O
+users	NN	O	O
+are	NN	O	O
+typing	NN	O	O
+on	NN	O	O
+the	NN	O	O
+keyboard	NN	O	O
+that	NN	O	O
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+with	NN	O	O
+their	NN	O	O
+phone	NN	O	O
+.	NN	O	O
+Those	NN	O	O
+keyboards	NN	O	O
+have	NN	O	O
+advantages	NN	O	O
+,	NN	O	O
+limitations	NN	O	O
+and	NN	O	O
+quirks	NN	O	O
+.	NN	O	O
+The	NN	O	O
+mode	NN	O	B-Process
+-	NN	O	I-Process
+switching	NN	O	I-Process
+that	NN	O	O
+most	NN	O	O
+touchscreen	NN	O	O
+keyboards	NN	O	O
+require	NN	O	O
+to	NN	O	O
+reach	NN	O	O
+numbers	NN	O	O
+and	NN	O	O
+capital	NN	O	O
+letters	NN	O	O
+is	NN	O	O
+at	NN	O	O
+the	NN	O	O
+root	NN	O	O
+of	NN	O	O
+design	NN	O	O
+improvements	NN	O	O
+we	NN	O	O
+propose	NN	O	O
+in	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+.	NN	O	O
+When	NN	O	O
+designing	NN	O	B-Task
+services	NN	O	I-Task
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+vital	NN	O	O
+to	NN	O	O
+be	NN	O	O
+aware	NN	O	O
+of	NN	O	O
+the	NN	O	O
+fixed	NN	O	O
+constraints	NN	O	O
+of	NN	O	O
+a	NN	O	O
+system	NN	O	O
+and	NN	O	O
+to	NN	O	O
+then	NN	O	O
+focus	NN	O	O
+on	NN	O	O
+the	NN	O	O
+aspects	NN	O	O
+of	NN	O	O
+a	NN	O	O
+service	NN	O	O
+'s	NN	O	O
+design	NN	O	O
+that	NN	O	O
+can	NN	O	O
+be	NN	O	O
+controlled	NN	O	O
+.	NN	O	O
+Making	NN	O	O
+changes	NN	O	O
+to	NN	O	O
+input	NN	O	O
+data	NN	O	O
+in	NN	O	O
+this	NN	O	O
+way	NN	O	O
+is	NN	O	O
+a	NN	O	O
+cheap	NN	O	O
+,	NN	O	O
+quick	NN	O	O
+and	NN	O	O
+easy	NN	O	O
+way	NN	O	O
+to	NN	O	O
+improve	NN	O	O
+user	NN	O	O
+experience	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1361841516300342)
+
+Probabilistic	NN	O	B-Process
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+facilitate	NN	O	O
+the	NN	O	O
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+for	NN	O	I-Task
+local	NN	O	I-Task
+and	NN	O	I-Task
+global	NN	O	I-Task
+optima	NN	O	I-Task
+.	NN	O	O
+Evolutionary	NN	O	B-Process
+algorithms	NN	O	I-Process
+,	NN	O	O
+such	NN	O	O
+as	NN	O	O
+genetic	NN	O	B-Process
+population	NN	O	I-Process
+(	NN	O	O
+Jomier	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2006	NN	O	O
+;	NN	O	O
+Rivest	NN	O	O
+-	NN	O	O
+Henault	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2012	NN	O	O
+;	NN	O	O
+Ruijters	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2009	NN	O	O
+)	NN	O	O
+,	NN	O	O
+are	NN	O	O
+considered	NN	O	O
+as	NN	O	O
+a	NN	O	O
+strategy	NN	O	O
+that	NN	O	O
+is	NN	O	O
+“	NN	O	O
+less	NN	O	O
+likely	NN	O	O
+to	NN	O	O
+get	NN	O	O
+stuck	NN	O	O
+in	NN	O	O
+a	NN	O	O
+local	NN	O	O
+optimum	NN	O	O
+”	NN	O	O
+(	NN	O	O
+Ruijters	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2009	NN	O	O
+)	NN	O	O
+.	NN	O	O
+A	NN	O	O
+cost	NN	O	B-Material
+function	NN	O	I-Material
+consisting	NN	O	O
+of	NN	O	O
+the	NN	O	O
+“	NN	O	O
+sum	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Gaussian	NN	O	O
+-	NN	O	O
+blurred	NN	O	O
+intensity	NN	O	O
+values	NN	O	O
+in	NN	O	O
+the	NN	O	O
+[	NN	O	O
+DSA	NN	O	O
+]	NN	O	O
+at	NN	O	O
+the	NN	O	O
+projected	NN	O	O
+model	NN	O	O
+points	NN	O	O
+”	NN	O	O
+(	NN	O	O
+Jomier	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2006	NN	O	O
+)	NN	O	O
+is	NN	O	O
+optimized	NN	O	O
+using	NN	O	O
+a	NN	O	O
+genetic	NN	O	B-Process
+algorithm	NN	O	I-Process
+optimizer	NN	O	I-Process
+.	NN	O	O
+Other	NN	O	O
+authors	NN	O	O
+“	NN	O	O
+use	NN	O	O
+the	NN	O	O
+Condensation	NN	O	B-Process
+form	NN	O	I-Process
+of	NN	O	I-Process
+sequential	NN	O	I-Process
+Monte	NN	O	I-Process
+Carlo	NN	O	I-Process
+sampling	NN	O	I-Process
+to	NN	O	O
+estimate	NN	O	B-Task
+a	NN	O	I-Task
+cost	NN	O	I-Task
+function	NN	O	I-Task
+gradient	NN	O	I-Task
+”	NN	O	O
+(	NN	O	O
+Florin	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+2005	NN	O	O
+)	NN	O	O
+for	NN	O	O
+finding	NN	O	O
+the	NN	O	O
+global	NN	O	O
+minimum	NN	O	O
+.	NN	O	O
+Besides	NN	O	O
+,	NN	O	O
+the	NN	O	O
+Kalman	NN	O	B-Process
+filter	NN	O	I-Process
+is	NN	O	O
+successfully	NN	O	O
+adopted	NN	O	O
+(	NN	O	O
+Curwen	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+1994	NN	O	O
+;	NN	O	O
+Feldmar	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+1997	NN	O	O
+;	NN	O	O
+Toledo	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+,	NN	O	O
+1998	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1361841516300822)
+
+For	NN	O	O
+all	NN	O	O
+volunteers	NN	O	O
+the	NN	O	O
+AAMM	NN	O	B-Task
+technique	NN	O	I-Task
+significantly	NN	O	O
+(	NN	O	O
+p	NN	O	O
+<	NN	O	O
+0.01	NN	O	O
+)	NN	O	O
+outperformed	NN	O	O
+the	NN	O	O
+other	NN	O	O
+two	NN	O	O
+methods	NN	O	O
+in	NN	O	O
+all	NN	O	O
+of	NN	O	O
+the	NN	O	O
+intervals	NN	O	O
+as	NN	O	O
+can	NN	O	O
+be	NN	O	O
+seen	NN	O	O
+by	NN	O	O
+comparing	NN	O	O
+to	NN	O	O
+the	NN	O	O
+error	NN	O	B-Material
+curves	NN	O	I-Material
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+8	NN	O	O
+and	NN	O	O
+the	NN	O	O
+figures	NN	O	O
+in	NN	O	O
+Table	NN	O	O
+1	NN	O	O
+in	NN	O	O
+the	NN	O	O
+supplementary	NN	O	O
+materials	NN	O	O
+.	NN	O	O
+Significance	NN	O	O
+was	NN	O	O
+assessed	NN	O	O
+using	NN	O	O
+a	NN	O	O
+1-tailed	NN	O	B-Process
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+signed	NN	O	I-Process
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+since	NN	O	O
+the	NN	O	O
+error	NN	O	O
+distributions	NN	O	O
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+generally	NN	O	O
+not	NN	O	O
+symmetric	NN	O	O
+.	NN	O	O
+The	NN	O	O
+estimation	NN	O	O
+errors	NN	O	O
+for	NN	O	O
+AAMM	NN	O	B-Task
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+its	NN	O	O
+non	NN	O	O
+-	NN	O	O
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+,	NN	O	O
+AAMM	NN	O	B-Task
+(	NN	O	I-Task
+no	NN	O	I-Task
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+.	NN	O	I-Task
+)	NN	O	I-Task
+,	NN	O	O
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+similar	NN	O	O
+in	NN	O	O
+the	NN	O	O
+beginning	NN	O	O
+of	NN	O	O
+the	NN	O	O
+application	NN	O	O
+phase	NN	O	O
+,	NN	O	O
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+as	NN	O	O
+anticipated	NN	O	O
+,	NN	O	O
+as	NN	O	O
+the	NN	O	O
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+phase	NN	O	O
+went	NN	O	O
+on	NN	O	O
+,	NN	O	O
+the	NN	O	O
+AAMM	NN	O	B-Task
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+On	NN	O	O
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+its	NN	O	O
+non	NN	O	O
+-	NN	O	O
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+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
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+T2	NN	O	O
+,	NN	O	O
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+3	NN	O	O
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+7	NN	O	O
+min	NN	O	O
+of	NN	O	O
+imaging	NN	O	B-Process
+,	NN	O	O
+where	NN	O	O
+motion	NN	O	B-Material
+estimations	NN	O	I-Material
+where	NN	O	O
+on	NN	O	O
+average	NN	O	O
+16.87	NN	O	O
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+than	NN	O	O
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+the	NN	O	O
+beginning	NN	O	O
+of	NN	O	O
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+By	NN	O	O
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+inspecting	NN	O	O
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+curves	NN	O	O
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+AAMM	NN	O	B-Task
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+8	NN	O	O
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+volunteers	NN	O	O
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+D	NN	O	O
+,	NN	O	O
+E	NN	O	O
+,	NN	O	O
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+F	NN	O	O
+)	NN	O	O
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+the	NN	O	O
+7	NN	O	O
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+mark	NN	O	O
+.	NN	O	O
+From	NN	O	O
+this	NN	O	O
+it	NN	O	O
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+be	NN	O	O
+concluded	NN	O	O
+that	NN	O	O
+a	NN	O	O
+longer	NN	O	O
+calibration	NN	O	B-Process
+scan	NN	O	I-Process
+of	NN	O	O
+around	NN	O	O
+12	NN	O	O
+min	NN	O	O
+would	NN	O	O
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+optimal	NN	O	O
+,	NN	O	O
+that	NN	O	O
+is	NN	O	O
+the	NN	O	O
+5	NN	O	O
+min	NN	O	O
+that	NN	O	O
+were	NN	O	O
+used	NN	O	O
+for	NN	O	O
+calibration	NN	O	B-Process
+in	NN	O	O
+this	NN	O	O
+experiment	NN	O	O
+plus	NN	O	O
+7	NN	O	O
+min	NN	O	O
+worth	NN	O	O
+of	NN	O	O
+data	NN	O	O
+added	NN	O	O
+during	NN	O	O
+the	NN	O	O
+application	NN	O	O
+phase	NN	O	O
+.	NN	O	O
+Note	NN	O	O
+that	NN	O	O
+this	NN	O	O
+time	NN	O	O
+could	NN	O	O
+be	NN	O	O
+significantly	NN	O	O
+reduced	NN	O	O
+if	NN	O	O
+a	NN	O	O
+non	NN	O	B-Process
+-	NN	O	I-Process
+cardiac	NN	O	I-Process
+-	NN	O	I-Process
+gated	NN	O	I-Process
+sequence	NN	O	I-Process
+was	NN	O	O
+used	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S1364815216303541)
+
+As	NN	O	O
+a	NN	O	O
+particular	NN	O	O
+case	NN	O	O
+of	NN	O	O
+survey	NN	O	O
+data	NN	O	O
+,	NN	O	O
+we	NN	O	O
+used	NN	O	O
+the	NN	O	O
+iUTAH	NN	O	B-Process
+“	NN	O	I-Process
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+,	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S1570870516301822)
+
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+,	NN	O	O
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+,	NN	O	O
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+-	NN	O	O
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+
+-DOCSTART- (S1875952116300209)
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+emotion	NN	O	O
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+20	NN	O	O
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+The	NN	O	O
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+in	NN	O	O
+the	NN	O	O
+film	NN	O	O
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+,	NN	O	O
+and	NN	O	O
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+,	NN	O	O
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+In	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+From	NN	O	O
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+,	NN	O	O
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+-DOCSTART- (S2212667812000032)
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+-	NN	O	I-Task
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+,	NN	O	O
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+First	NN	O	O
+,	NN	O	O
+this	NN	O	O
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+a	NN	O	O
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+-	NN	O	I-Task
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+In	NN	O	O
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+the	NN	O	O
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+,	NN	O	O
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+Then	NN	O	O
+,	NN	O	O
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+Finally	NN	O	O
+,	NN	O	O
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+Bank	NN	O	B-Process
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+-DOCSTART- (S221266781200007X)
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+In	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+receiving	NN	O	I-Material
+chambers	NN	O	I-Material
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+the	NN	O	O
+Varnish	NN	O	B-Material
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+.	NN	O	O
+Heat	NN	O	O
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+the	NN	O	O
+exhaust	NN	O	B-Material
+gas	NN	O	I-Material
+which	NN	O	O
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+,	NN	O	O
+gone	NN	O	O
+wasted	NN	O	O
+,	NN	O	O
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+utilised	NN	O	O
+by	NN	O	O
+redesigning	NN	O	B-Task
+the	NN	O	I-Task
+varnish	NN	O	I-Task
+plant	NN	O	I-Task
+and	NN	O	O
+this	NN	O	O
+yielded	NN	O	O
+6.74kW	NN	O	O
+of	NN	O	O
+heat	NN	O	B-Process
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+into	NN	O	I-Task
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+air	NN	O	I-Task
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+aid	NN	O	O
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+drying	NN	O	B-Process
+ofmatchets	NN	O	I-Process
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+Consequently	NN	O	O
+,	NN	O	O
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+absorption	NN	O	B-Process
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+-DOCSTART- (S2212667812000524)
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+-DOCSTART- (S2212667812000536)
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+-DOCSTART- (S2212667812000664)
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+-DOCSTART- (S2212667812000780)
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+-DOCSTART- (S2212667812000792)
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+-	NN	O	O
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+-DOCSTART- (S2212667812000810)
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+-DOCSTART- (S2212667812000822)
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+Chinese	NN	O	O
+form	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667812000883)
+
+The	NN	O	O
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+,	NN	O	O
+the	NN	O	O
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+hot	NN	O	O
+issue	NN	O	O
+of	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+to	NN	O	O
+explore	NN	O	B-Task
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+the	NN	O	O
+Chinese	NN	O	O
+population	NN	O	O
+aging	NN	O	O
+and	NN	O	O
+the	NN	O	O
+elderly	NN	O	O
+,	NN	O	O
+elderly	NN	O	O
+fitness	NN	O	O
+exercise	NN	O	O
+Misunderstanding	NN	O	O
+study	NN	O	O
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+of	NN	O	O
+the	NN	O	O
+elderly	NN	O	O
+,	NN	O	O
+promoting	NN	O	O
+elderly	NN	O	B-Process
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+a	NN	O	O
+healthy	NN	O	O
+,	NN	O	O
+scientific	NN	O	O
+direction	NN	O	O
+,	NN	O	O
+to	NN	O	O
+promote	NN	O	B-Task
+a	NN	O	I-Task
+nationwide	NN	O	I-Task
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+out	NN	O	O
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+order	NN	O	O
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+achieve	NN	O	O
+the	NN	O	O
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+of	NN	O	O
+older	NN	O	O
+persons	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212667812000895)
+
+Faced	NN	O	O
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+deficient	NN	O	O
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+-	NN	O	I-Material
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+,	NN	O	O
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+-	NN	O	O
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+up	NN	O	O
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+these	NN	O	O
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+Further	NN	O	O
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+,	NN	O	O
+we	NN	O	O
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+the	NN	O	O
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+apparel	NN	O	O
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+and	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667812000937)
+
+In	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
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+.	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667812000949)
+
+By	NN	O	O
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+-	NN	O	I-Task
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+-DOCSTART- (S221266781300018X)
+
+Amodel	NN	O	O
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+-	NN	O	I-Task
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+,	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	I-Process
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+(	NN	O	O
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+-	NN	O	I-Process
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+)	NN	O	O
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+,	NN	O	O
+states	NN	O	O
+,	NN	O	O
+outputs	NN	O	O
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+to	NN	O	O
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+verified	NN	O	O
+.	NN	O	O
+We	NN	O	O
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+proven	NN	O	O
+that	NN	O	O
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+verification	NN	O	O
+of	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	I-Material
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+-	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
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+.	NN	O	O
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+-DOCSTART- (S2212667813000610)
+
+The	NN	O	O
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+During	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
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+,	NN	O	O
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+courses	NN	O	O
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+Turkish	NN	O	O
+universities	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212667813000762)
+
+Analyzing	NN	O	O
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+,	NN	O	O
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+Interpretation	NN	O	B-Task
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+.	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667813000774)
+
+Evolutionary	NN	O	B-Process
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+,	NN	O	O
+simulating	NN	O	O
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+.	NN	O	O
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+algorithms	NN	O	O
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+basically	NN	O	O
+population	NN	O	B-Process
+based	NN	O	I-Process
+search	NN	O	I-Process
+procedures	NN	O	I-Process
+efficiently	NN	O	O
+dealing	NN	O	O
+with	NN	O	O
+complex	NN	O	O
+search	NN	O	O
+spaces	NN	O	O
+having	NN	O	O
+robust	NN	O	O
+and	NN	O	O
+powerful	NN	O	O
+search	NN	O	B-Process
+mechanism	NN	O	I-Process
+.	NN	O	O
+EAs	NN	O	B-Process
+are	NN	O	O
+highly	NN	O	O
+applicable	NN	O	O
+in	NN	O	O
+multiobjective	NN	O	O
+optimization	NN	O	B-Process
+problem	NN	O	I-Process
+which	NN	O	O
+are	NN	O	O
+having	NN	O	O
+conflicting	NN	O	O
+objectives	NN	O	O
+.	NN	O	O
+This	NN	O	O
+paper	NN	O	O
+reviews	NN	O	B-Task
+the	NN	O	I-Task
+work	NN	O	I-Task
+carried	NN	O	I-Task
+out	NN	O	I-Task
+for	NN	O	I-Task
+diversity	NN	O	I-Task
+and	NN	O	I-Task
+convergence	NN	O	I-Task
+issues	NN	O	I-Task
+in	NN	O	I-Task
+EMO	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S221266781300083X)
+
+In	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+coordination	NN	O	B-Task
+problem	NN	O	I-Task
+of	NN	O	I-Task
+agricultural	NN	O	I-Task
+products	NN	O	I-Task
+supply	NN	O	I-Task
+chain	NN	O	I-Task
+with	NN	O	O
+stochastic	NN	O	B-Process
+yield	NN	O	I-Process
+is	NN	O	O
+studied	NN	O	O
+based	NN	O	O
+on	NN	O	O
+prices	NN	O	B-Process
+compensation	NN	O	I-Process
+strategy	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+agricultural	NN	O	B-Process
+producing	NN	O	I-Process
+is	NN	O	O
+influenced	NN	O	O
+by	NN	O	O
+the	NN	O	O
+natural	NN	O	O
+conditions	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+yield	NN	O	B-Process
+is	NN	O	O
+uncertain	NN	O	O
+.	NN	O	O
+While	NN	O	O
+agricultural	NN	O	B-Material
+products	NN	O	I-Material
+is	NN	O	O
+rigid	NN	O	O
+demand	NN	O	O
+goods	NN	O	O
+,	NN	O	O
+the	NN	O	O
+fluctuations	NN	O	B-Process
+of	NN	O	I-Process
+yield	NN	O	I-Process
+cause	NN	O	O
+greater	NN	O	O
+volatility	NN	O	O
+of	NN	O	O
+prices	NN	O	O
+.	NN	O	O
+The	NN	O	O
+two-	NN	O	B-Process
+echelon	NN	O	I-Process
+supply	NN	O	I-Process
+chain	NN	O	I-Process
+with	NN	O	O
+one	NN	O	O
+supplier	NN	O	O
+and	NN	O	O
+one	NN	O	O
+retailor	NN	O	O
+is	NN	O	O
+studied	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+mathematical	NN	O	B-Task
+model	NN	O	I-Task
+is	NN	O	I-Task
+constructed	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+model	NN	O	O
+showed	NN	O	O
+that	NN	O	O
+prices	NN	O	B-Process
+compensation	NN	O	I-Process
+strategy	NN	O	I-Process
+is	NN	O	O
+Pareto	NN	O	O
+improvement	NN	O	O
+for	NN	O	O
+agricultural	NN	O	B-Process
+products	NN	O	I-Process
+supply	NN	O	I-Process
+chain	NN	O	I-Process
+with	NN	O	O
+stochastic	NN	O	B-Process
+yield	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+it	NN	O	O
+also	NN	O	O
+incentive	NN	O	O
+agricultural	NN	O	B-Material
+products	NN	O	I-Material
+supplier	NN	O	O
+to	NN	O	O
+rise	NN	O	O
+the	NN	O	O
+production	NN	O	B-Process
+plan	NN	O	I-Process
+and	NN	O	O
+balance	NN	O	O
+the	NN	O	O
+profit	NN	O	B-Process
+allocation	NN	O	I-Process
+of	NN	O	O
+supply	NN	O	B-Process
+chain	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S2212667813001068)
+
+It	NN	O	O
+is	NN	O	O
+difficult	NN	O	O
+in	NN	O	O
+directly	NN	O	O
+predicting	NN	O	O
+permeability	NN	O	B-Process
+from	NN	O	O
+porosity	NN	O	B-Process
+in	NN	O	O
+tight	NN	O	O
+sandstones	NN	O	B-Material
+due	NN	O	O
+to	NN	O	O
+the	NN	O	O
+poor	NN	O	O
+relationship	NN	O	O
+between	NN	O	O
+core	NN	O	O
+derived	NN	O	O
+porosity	NN	O	B-Process
+and	NN	O	O
+permeability	NN	O	B-Process
+that	NN	O	O
+caused	NN	O	O
+by	NN	O	O
+the	NN	O	O
+extreme	NN	O	O
+heterogeneity	NN	O	O
+.	NN	O	O
+The	NN	O	O
+classical	NN	O	O
+SDR	NN	O	B-Process
+(	NN	O	O
+Schlumberger	NN	O	B-Process
+Doll	NN	O	I-Process
+Research	NN	O	I-Process
+)	NN	O	O
+and	NN	O	O
+Timur	NN	O	B-Process
+-	NN	O	I-Process
+Coates	NN	O	I-Process
+models	NN	O	I-Process
+are	NN	O	O
+all	NN	O	O
+unusable	NN	O	O
+because	NN	O	O
+not	NN	O	O
+enough	NN	O	O
+core	NN	O	O
+samples	NN	O	O
+were	NN	O	O
+drilled	NN	O	O
+for	NN	O	O
+lab	NN	O	O
+NMR	NN	O	B-Process
+experimental	NN	O	B-Process
+measurements	NN	O	I-Process
+to	NN	O	O
+calibrate	NN	O	B-Task
+the	NN	O	I-Task
+involved	NN	O	I-Task
+model	NN	O	I-Task
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+.	NN	O	O
+Based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+classification	NN	O	B-Process
+scale	NN	O	I-Process
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+(	NN	O	O
+CSM	NN	O	B-Process
+)	NN	O	O
+,	NN	O	O
+after	NN	O	O
+the	NN	O	O
+target	NN	O	O
+tight	NN	O	O
+sandstones	NN	O	B-Material
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+classified	NN	O	O
+into	NN	O	O
+two	NN	O	O
+types	NN	O	O
+,	NN	O	O
+the	NN	O	O
+relationship	NN	O	O
+between	NN	O	O
+core	NN	O	O
+porosity	NN	O	B-Process
+and	NN	O	O
+permeability	NN	O	B-Process
+is	NN	O	O
+established	NN	O	O
+for	NN	O	O
+every	NN	O	O
+type	NN	O	O
+of	NN	O	O
+formations	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+corresponding	NN	O	O
+permeability	NN	O	B-Task
+estimation	NN	O	I-Task
+models	NN	O	I-Task
+are	NN	O	O
+established	NN	O	O
+.	NN	O	O
+Field	NN	O	B-Material
+examples	NN	O	I-Material
+show	NN	O	O
+that	NN	O	O
+the	NN	O	O
+classification	NN	O	B-Process
+scale	NN	O	I-Process
+method	NN	O	I-Process
+is	NN	O	O
+effective	NN	O	O
+in	NN	O	O
+estimating	NN	O	O
+tight	NN	O	O
+sandstone	NN	O	B-Material
+permeability	NN	O	B-Process
+.	NN	O	O
+
+-DOCSTART- (S2212667814000045)
+
+The	NN	O	O
+opportunity	NN	O	O
+offered	NN	O	O
+by	NN	O	O
+digital	NN	O	O
+technologies	NN	O	O
+to	NN	O	O
+make	NN	O	O
+deep	NN	O	O
+rationalization	NN	O	B-Process
+in	NN	O	O
+purchase	NN	O	O
+of	NN	O	O
+supplies	NN	O	B-Material
+is	NN	O	O
+becoming	NN	O	O
+indispensable	NN	O	O
+in	NN	O	O
+competition	NN	O	O
+between	NN	O	O
+enterprises	NN	O	O
+,	NN	O	O
+considering	NN	O	O
+positive	NN	O	O
+effects	NN	O	O
+in	NN	O	O
+reducing	NN	O	B-Process
+the	NN	O	I-Process
+costs	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+companies	NN	O	O
+that	NN	O	O
+have	NN	O	O
+adopted	NN	O	O
+the	NN	O	O
+E	NN	O	B-Process
+-	NN	O	I-Process
+Procurement	NN	O	I-Process
+.	NN	O	O
+As	NN	O	O
+it	NN	O	O
+has	NN	O	O
+been	NN	O	O
+confirmed	NN	O	O
+by	NN	O	O
+numerous	NN	O	O
+case	NN	O	B-Task
+studies	NN	O	I-Task
+,	NN	O	O
+automation	NN	O	B-Process
+of	NN	O	I-Process
+procedures	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+purchase	NN	O	O
+through	NN	O	O
+e	NN	O	B-Process
+-	NN	O	I-Process
+procurement	NN	O	I-Process
+technology	NN	O	I-Process
+enables	NN	O	O
+companies	NN	O	O
+to	NN	O	O
+achieve	NN	O	O
+a	NN	O	O
+reduction	NN	O	O
+in	NN	O	O
+costs	NN	O	O
+(	NN	O	O
+average	NN	O	O
+8	NN	O	O
+-	NN	O	O
+12	NN	O	O
+%	NN	O	O
+)	NN	O	O
+of	NN	O	O
+total	NN	O	O
+purchases	NN	O	O
+.	NN	O	O
+So	NN	O	O
+web	NN	O	B-Process
+-	NN	O	I-Process
+based	NN	O	I-Process
+models	NN	O	I-Process
+are	NN	O	O
+playing	NN	O	O
+a	NN	O	O
+critical	NN	O	O
+role	NN	O	O
+within	NN	O	O
+companies	NN	O	O
+,	NN	O	O
+especially	NN	O	O
+in	NN	O	O
+the	NN	O	O
+generation	NN	O	B-Process
+of	NN	O	I-Process
+value	NN	O	I-Process
+of	NN	O	I-Process
+supply	NN	O	I-Process
+chain	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+article	NN	O	O
+focuses	NN	O	O
+on	NN	O	O
+the	NN	O	O
+role	NN	O	B-Task
+of	NN	O	I-Task
+e	NN	O	I-Task
+-	NN	O	I-Task
+procurement	NN	O	I-Task
+within	NN	O	O
+a	NN	O	O
+supply	NN	O	B-Process
+chain	NN	O	I-Process
+showing	NN	O	O
+,	NN	O	O
+through	NN	O	O
+simulations	NN	O	B-Process
+,	NN	O	O
+the	NN	O	O
+advantages	NN	O	O
+and	NN	O	O
+difficulties	NN	O	O
+of	NN	O	O
+implementing	NN	O	O
+a	NN	O	O
+systematic	NN	O	O
+use	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Internet	NN	O	O
+and	NN	O	O
+defining	NN	O	O
+the	NN	O	O
+basic	NN	O	O
+structure	NN	O	O
+of	NN	O	O
+an	NN	O	O
+e	NN	O	B-Process
+-	NN	O	I-Process
+supply	NN	O	I-Process
+chain	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S2212667814000069)
+
+In	NN	O	O
+the	NN	O	O
+present	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+a	NN	O	O
+hypergraph	NN	O	B-Task
+model	NN	O	I-Task
+for	NN	O	O
+the	NN	O	O
+structural	NN	O	B-Process
+system	NN	O	I-Process
+modeling	NN	O	I-Process
+and	NN	O	O
+reconfigurability	NN	O	B-Process
+analysis	NN	O	I-Process
+has	NN	O	O
+been	NN	O	O
+presented	NN	O	O
+.	NN	O	O
+At	NN	O	O
+first	NN	O	O
+,	NN	O	O
+we	NN	O	O
+represent	NN	O	O
+each	NN	O	O
+system	NN	O	O
+equation	NN	O	O
+by	NN	O	O
+a	NN	O	O
+hyperedge	NN	O	O
+,	NN	O	O
+and	NN	O	O
+then	NN	O	O
+we	NN	O	O
+extend	NN	O	O
+the	NN	O	O
+modeling	NN	O	B-Process
+hypergraph	NN	O	I-Process
+with	NN	O	O
+others	NN	O	O
+colored	NN	O	O
+hyperedges	NN	O	O
+(	NN	O	O
+red	NN	O	O
+and	NN	O	O
+blue	NN	O	O
+)	NN	O	O
+which	NN	O	O
+allows	NN	O	O
+us	NN	O	O
+to	NN	O	O
+perform	NN	O	O
+the	NN	O	O
+analysis	NN	O	B-Task
+task	NN	O	I-Task
+.	NN	O	O
+Based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+bottom	NN	O	B-Process
+up	NN	O	I-Process
+analysis	NN	O	I-Process
+hypergraph	NN	O	I-Process
+model	NN	O	I-Process
+,	NN	O	O
+it	NN	O	O
+'s	NN	O	O
+very	NN	O	O
+easy	NN	O	O
+to	NN	O	O
+check	NN	O	O
+the	NN	O	O
+system	NN	O	B-Process
+reconfigurability	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+presence	NN	O	O
+of	NN	O	O
+fault	NN	O	O
+by	NN	O	O
+verifying	NN	O	B-Process
+the	NN	O	I-Process
+existence	NN	O	I-Process
+of	NN	O	I-Process
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+from	NN	O	I-Process
+the	NN	O	I-Process
+affected	NN	O	I-Process
+hyperedge	NN	O	I-Process
+to	NN	O	O
+specifics	NN	O	O
+blue	NN	O	O
+hyperedges	NN	O	O
+passing	NN	O	O
+through	NN	O	O
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+red	NN	O	O
+hyperedges	NN	O	O
+.	NN	O	O
+The	NN	O	O
+method	NN	O	O
+is	NN	O	O
+illustrated	NN	O	O
+through	NN	O	O
+a	NN	O	O
+pedagogical	NN	O	B-Task
+example	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S2212667814000070)
+
+This	NN	O	O
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+a	NN	O	O
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+-	NN	O	I-Task
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+smart	NN	O	I-Task
+TV	NN	O	I-Task
+.	NN	O	O
+For	NN	O	O
+high	NN	O	O
+performance	NN	O	O
+rotated	NN	O	O
+face	NN	O	B-Process
+detection	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+multiple	NN	O	O
+-	NN	O	O
+MCT(Modified	NN	O	B-Process
+Census	NN	O	I-Process
+Transform	NN	O	I-Process
+)	NN	O	O
+architecture	NN	O	O
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
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+lighting	NN	O	O
+change	NN	O	O
+,	NN	O	O
+was	NN	O	O
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+.	NN	O	O
+The	NN	O	O
+Adaboost	NN	O	B-Process
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+creating	NN	O	B-Task
+optimized	NN	O	I-Task
+learning	NN	O	I-Task
+data	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+proposed	NN	O	O
+hardware	NN	O	B-Material
+structure	NN	O	I-Material
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+of	NN	O	O
+Color	NN	O	B-Material
+Space	NN	O	I-Material
+Converter	NN	O	I-Material
+,	NN	O	O
+Image	NN	O	B-Material
+Resizer	NN	O	I-Material
+,	NN	O	I-Material
+Noise	NN	O	B-Material
+Filter	NN	O	I-Material
+,	NN	O	O
+Memory	NN	O	B-Material
+Controller	NN	O	I-Material
+Interface	NN	O	I-Material
+,	NN	O	O
+Image	NN	O	B-Material
+Rotator	NN	O	I-Material
+,	NN	O	O
+Image	NN	O	B-Material
+Scaler	NN	O	I-Material
+,	NN	O	O
+MCT	NN	O	B-Material
+Generator	NN	O	I-Material
+,	NN	O	O
+Candidate	NN	O	B-Material
+Detector	NN	O	I-Material
+,	NN	O	I-Material
+Confidence	NN	O	B-Material
+Switch	NN	O	I-Material
+,	NN	O	O
+Confidence	NN	O	B-Material
+Mapper	NN	O	I-Material
+,	NN	O	O
+Position	NN	O	B-Material
+Resizer	NN	O	I-Material
+,	NN	O	I-Material
+Data	NN	O	B-Material
+Grouper	NN	O	I-Material
+,	NN	O	O
+Overlay	NN	O	B-Material
+Processor	NN	O	I-Material
+and	NN	O	O
+Color	NN	O	B-Material
+Overlay	NN	O	I-Material
+Processer	NN	O	I-Material
+.	NN	O	O
+As	NN	O	O
+a	NN	O	O
+result	NN	O	O
+,	NN	O	O
+suggested	NN	O	O
+face	NN	O	B-Process
+detection	NN	O	I-Process
+device	NN	O	O
+can	NN	O	O
+conduct	NN	O	O
+real	NN	O	B-Process
+-	NN	O	I-Process
+time	NN	O	I-Process
+processing	NN	O	I-Process
+at	NN	O	O
+speed	NN	O	O
+of	NN	O	O
+at	NN	O	O
+least	NN	O	O
+30	NN	O	O
+frames	NN	O	O
+per	NN	O	O
+second	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212667814000124)
+
+Based	NN	O	O
+on	NN	O	O
+expectation	NN	O	B-Process
+-	NN	O	I-Process
+maximization	NN	O	I-Process
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+,	NN	O	O
+parameter	NN	O	B-Task
+estimation	NN	O	I-Task
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+proposed	NN	O	O
+for	NN	O	O
+data	NN	O	B-Process
+-	NN	O	I-Process
+driven	NN	O	I-Process
+nonlinear	NN	O	I-Process
+models	NN	O	I-Process
+in	NN	O	O
+this	NN	O	O
+work	NN	O	O
+.	NN	O	O
+On	NN	O	O
+this	NN	O	O
+basis	NN	O	O
+,	NN	O	O
+particle	NN	O	B-Material
+filters	NN	O	I-Material
+were	NN	O	O
+used	NN	O	O
+to	NN	O	O
+approximately	NN	O	O
+calculate	NN	O	O
+integrals	NN	O	O
+,	NN	O	O
+deriving	NN	O	O
+EM	NN	O	B-Process
+algorithm	NN	O	I-Process
+based	NN	O	O
+on	NN	O	O
+particle	NN	O	B-Material
+filter	NN	O	I-Material
+.	NN	O	O
+And	NN	O	O
+the	NN	O	O
+effectiveness	NN	O	O
+of	NN	O	O
+using	NN	O	O
+the	NN	O	O
+proposed	NN	O	O
+algorithm	NN	O	O
+for	NN	O	O
+the	NN	O	O
+soft	NN	O	B-Material
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+.	NN	O	O
+
+-DOCSTART- (S2212667814000264)
+
+In	NN	O	O
+this	NN	O	O
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+,	NN	O	O
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+a	NN	O	O
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+-	NN	O	I-Task
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+-	NN	O	I-Material
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+.	NN	O	O
+
+-DOCSTART- (S2212667814000331)
+
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+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+the	NN	O	O
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+;	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+correctly	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667814000380)
+
+The	NN	O	O
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+:	NN	O	O
+5950	NN	O	O
+,	NN	O	O
+considering	NN	O	O
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+element	NN	O	O
+.	NN	O	O
+Such	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+on	NN	O	O
+plastic	NN	O	B-Process
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+section	NN	O	I-Process
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+elastic	NN	O	B-Process
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+serviceability	NN	O	O
+loads	NN	O	O
+.	NN	O	O
+The	NN	O	O
+procedure	NN	O	B-Task
+of	NN	O	I-Task
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+cellular	NN	O	I-Task
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+illustrated	NN	O	I-Task
+and	NN	O	O
+an	NN	O	O
+example	NN	O	O
+based	NN	O	O
+on	NN	O	O
+design	NN	O	B-Process
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+is	NN	O	O
+worked	NN	O	O
+out	NN	O	O
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+its	NN	O	O
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+is	NN	O	O
+done	NN	O	O
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+checking	NN	O	O
+the	NN	O	O
+suitability	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212667814000550)
+
+The	NN	O	O
+low	NN	O	B-Process
+-	NN	O	I-Process
+carbon	NN	O	I-Process
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+.	NN	O	O
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+,	NN	O	O
+their	NN	O	O
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+the	NN	O	O
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+-	NN	O	O
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+.	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
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+,	NN	O	O
+it	NN	O	O
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+that	NN	O	O
+the	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	O
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+,	NN	O	O
+it	NN	O	O
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+obvious	NN	O	O
+that	NN	O	O
+the	NN	O	O
+development	NN	O	B-Task
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+-	NN	O	I-Task
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+economy	NN	O	I-Task
+is	NN	O	O
+a	NN	O	O
+complex	NN	O	O
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+systematic	NN	O	O
+project	NN	O	O
+,	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667814000690)
+
+The	NN	O	O
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+18	NN	O	O
+-	NN	O	O
+20	NN	O	O
+nm	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+,	NN	O	O
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+)	NN	O	O
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+
+-DOCSTART- (S2212667814000732)
+
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+,	NN	O	O
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+.	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667814000756)
+
+This	NN	O	O
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+-	NN	O	I-Process
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+(	NN	O	O
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+)	NN	O	O
+,	NN	O	O
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+,	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+the	NN	O	O
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+of	NN	O	O
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+catalysts	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
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+the	NN	O	O
+catalyst	NN	O	B-Material
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+.	NN	O	O
+To	NN	O	O
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+the	NN	O	O
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+of	NN	O	O
+the	NN	O	O
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+,	NN	O	O
+natural	NN	O	B-Material
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+calcite	NN	O	B-Material
+,	NN	O	O
+coal	NN	O	B-Material
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+(	NN	O	O
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+residues	NN	O	I-Material
+from	NN	O	I-Material
+coal	NN	O	I-Material
+)	NN	O	O
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+-DOCSTART- (S221266781400080X)
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+-DOCSTART- (S2212667814000884)
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+-DOCSTART- (S2212667814000951)
+
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+-DOCSTART- (S2212667814000975)
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+-DOCSTART- (S2212667814000987)
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+-DOCSTART- (S2212667814001166)
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+,	NN	O	O
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+)	NN	O	O
+,	NN	O	O
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+to	NN	O	O
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+Next	NN	O	O
+,	NN	O	O
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+-	NN	O	I-Process
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+end	NN	O	O
+,	NN	O	O
+a	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667814001397)
+
+In	NN	O	O
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+,	NN	O	O
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+is	NN	O	O
+proposed	NN	O	O
+to	NN	O	O
+calculate	NN	O	B-Task
+the	NN	O	I-Task
+Journal	NN	O	I-Task
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+.	NN	O	O
+This	NN	O	O
+Influence	NN	O	B-Process
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+used	NN	O	O
+to	NN	O	O
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+.	NN	O	O
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+The	NN	O	O
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+small	NN	O	O
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+the	NN	O	O
+existing	NN	O	O
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+,	NN	O	O
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+and	NN	O	O
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+way	NN	O	O
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+
+-DOCSTART- (S2212667814001440)
+
+In	NN	O	O
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+,	NN	O	O
+we	NN	O	O
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+a	NN	O	O
+tele	NN	O	B-Process
+-	NN	O	I-Process
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+The	NN	O	O
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+in	NN	O	O
+autonomous	NN	O	B-Process
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+in	NN	O	O
+which	NN	O	O
+the	NN	O	O
+robots	NN	O	O
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+If	NN	O	O
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+.	NN	O	O
+The	NN	O	O
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+In	NN	O	O
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+,	NN	O	O
+the	NN	O	O
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+environment	NN	O	O
+.	NN	O	O
+The	NN	O	O
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+it	NN	O	O
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+to	NN	O	O
+communicate	NN	O	B-Process
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+the	NN	O	O
+user	NN	O	O
+in	NN	O	O
+remote	NN	O	B-Material
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+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+the	NN	O	O
+robot	NN	O	B-Material
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+the	NN	O	O
+vital	NN	O	B-Process
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+the	NN	O	O
+patient	NN	O	B-Material
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+condition	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
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+surveillance	NN	O	O
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+a	NN	O	O
+good	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667814001464)
+
+Recently	NN	O	O
+,	NN	O	O
+a	NN	O	O
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+one	NN	O	O
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+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
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+,	NN	O	O
+in	NN	O	O
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+to	NN	O	O
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+,	NN	O	O
+we	NN	O	O
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+In	NN	O	O
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+,	NN	O	O
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+,	NN	O	O
+a	NN	O	O
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+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
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+,	NN	O	O
+the	NN	O	O
+service	NN	O	B-Material
+provider	NN	O	I-Material
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+the	NN	O	I-Process
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+on	NN	O	O
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+betweenness	NN	O	I-Process
+.	NN	O	O
+We	NN	O	O
+evaluate	NN	O	O
+the	NN	O	O
+performance	NN	O	O
+of	NN	O	O
+our	NN	O	O
+proposed	NN	O	O
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+simulation	NN	O	B-Process
+,	NN	O	O
+and	NN	O	O
+we	NN	O	O
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+the	NN	O	O
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+our	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667814001476)
+
+Security	NN	O	O
+issues	NN	O	O
+of	NN	O	O
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+remain	NN	O	O
+hidden	NN	O	O
+seen	NN	O	O
+excessive	NN	O	B-Process
+marketing	NN	O	I-Process
+that	NN	O	O
+led	NN	O	O
+to	NN	O	O
+a	NN	O	O
+totally	NN	O	O
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+view	NN	O	O
+of	NN	O	O
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+.	NN	O	O
+Although	NN	O	O
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+not	NN	O	O
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+the	NN	O	O
+level	NN	O	O
+of	NN	O	O
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+by	NN	O	O
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+,	NN	O	O
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+that	NN	O	O
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+,	NN	O	I-Process
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+,	NN	O	O
+the	NN	O	O
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+in	NN	O	O
+this	NN	O	O
+field	NN	O	O
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+considered	NN	O	O
+a	NN	O	O
+future	NN	O	B-Process
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+which	NN	O	O
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+:	NN	O	O
+a	NN	O	O
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+QoS	NN	O	O
+,	NN	O	O
+reliability	NN	O	O
+and	NN	O	O
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+,	NN	O	O
+it	NN	O	O
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+-	NN	O	I-Process
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+,	NN	O	O
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+.	NN	O	O
+This	NN	O	O
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+-	NN	O	I-Task
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+,	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212667814001488)
+
+This	NN	O	O
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+in	NN	O	O
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+literature	NN	O	O
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+really	NN	O	O
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+,	NN	O	O
+they	NN	O	O
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+Our	NN	O	O
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+offers	NN	O	O
+to	NN	O	O
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+dynamically	NN	O	I-Process
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+Scripthon	NN	O	B-Material
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+.	NN	O	O
+We	NN	O	O
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+achieve	NN	O	O
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+
+-DOCSTART- (S221266781400149X)
+
+In	NN	O	O
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+adaptive	NN	O	B-Task
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+Squares	NN	O	I-Process
+(	NN	O	O
+LMS	NN	O	B-Process
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+,	NN	O	O
+Sample	NN	O	B-Process
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+(	NN	O	O
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+,	NN	O	O
+Recursive	NN	O	B-Process
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+Squares	NN	O	I-Process
+(	NN	O	O
+RLS	NN	O	B-Process
+)	NN	O	O
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+Conjugate	NN	O	B-Process
+Gradient	NN	O	I-Process
+Method	NN	O	I-Process
+(	NN	O	O
+CGM	NN	O	B-Process
+)	NN	O	O
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+discussed	NN	O	B-Task
+and	NN	O	I-Task
+analyzed	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+beamforming	NN	O	B-Process
+performance	NN	O	I-Process
+is	NN	O	O
+studied	NN	O	O
+by	NN	O	O
+varying	NN	O	B-Process
+the	NN	O	I-Process
+element	NN	O	I-Process
+spacing	NN	O	I-Process
+and	NN	O	I-Process
+the	NN	O	I-Process
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+elements	NN	O	I-Process
+for	NN	O	O
+each	NN	O	O
+algorithm	NN	O	B-Material
+.	NN	O	O
+These	NN	O	O
+four	NN	O	O
+algorithms	NN	O	B-Material
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+their	NN	O	O
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+of	NN	O	I-Process
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+,	NN	O	O
+beamforming	NN	O	B-Process
+and	NN	O	O
+null	NN	O	B-Process
+steering	NN	O	I-Process
+performance	NN	O	I-Process
+(	NN	O	O
+beamwidth	NN	O	B-Process
+,	NN	O	O
+null	NN	O	B-Process
+depths	NN	O	I-Process
+and	NN	O	O
+maximum	NN	O	B-Process
+side	NN	O	I-Process
+lobe	NN	O	I-Process
+level	NN	O	I-Process
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212671612000121)
+
+In	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+three	NN	O	B-Task
+different	NN	O	I-Task
+approaches	NN	O	I-Task
+for	NN	O	O
+implementing	NN	O	B-Task
+a	NN	O	I-Task
+quantum	NN	O	I-Task
+search	NN	O	I-Task
+algorithm	NN	O	I-Task
+by	NN	O	I-Task
+adiabatic	NN	O	I-Task
+evolution	NN	O	I-Task
+are	NN	O	O
+shown	NN	O	O
+.	NN	O	O
+As	NN	O	O
+expected	NN	O	O
+,	NN	O	O
+either	NN	O	O
+one	NN	O	O
+of	NN	O	O
+them	NN	O	O
+can	NN	O	O
+provide	NN	O	O
+a	NN	O	O
+quadratic	NN	O	B-Process
+speed	NN	O	I-Process
+up	NN	O	I-Process
+as	NN	O	O
+opposed	NN	O	O
+to	NN	O	O
+the	NN	O	O
+classical	NN	O	B-Process
+search	NN	O	I-Process
+algorithm	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+implies	NN	O	O
+that	NN	O	O
+adiabatic	NN	O	B-Process
+evolution	NN	O	I-Process
+based	NN	O	O
+quantum	NN	O	B-Task
+computation	NN	O	I-Task
+gives	NN	O	O
+more	NN	O	O
+feasibilities	NN	O	B-Material
+than	NN	O	O
+the	NN	O	O
+quantum	NN	O	B-Process
+circuit	NN	O	I-Process
+model	NN	O	I-Process
+,	NN	O	O
+although	NN	O	O
+the	NN	O	O
+equivalence	NN	O	O
+between	NN	O	O
+them	NN	O	O
+has	NN	O	O
+already	NN	O	O
+been	NN	O	O
+proven	NN	O	O
+in	NN	O	O
+the	NN	O	O
+corresponding	NN	O	O
+literature	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212671612000613)
+
+Video	NN	O	B-Process
+-	NN	O	I-Process
+oculography	NN	O	I-Process
+(	NN	O	O
+VOG	NN	O	B-Process
+)	NN	O	O
+is	NN	O	O
+one	NN	O	O
+of	NN	O	O
+eye	NN	O	B-Process
+movement	NN	O	I-Process
+measurement	NN	O	I-Process
+methods	NN	O	I-Process
+.	NN	O	O
+A	NN	O	O
+key	NN	O	O
+problem	NN	O	O
+of	NN	O	O
+VOG	NN	O	B-Process
+is	NN	O	O
+to	NN	O	O
+accurately	NN	O	B-Task
+estimate	NN	O	I-Task
+the	NN	O	I-Task
+pupil	NN	O	I-Task
+center	NN	O	I-Task
+.	NN	O	O
+Then	NN	O	O
+a	NN	O	O
+pupil	NN	O	B-Process
+location	NN	O	I-Process
+method	NN	O	I-Process
+based	NN	O	O
+on	NN	O	O
+morphology	NN	O	B-Process
+and	NN	O	O
+Canny	NN	O	B-Process
+algorithm	NN	O	I-Process
+was	NN	O	O
+proposed	NN	O	O
+for	NN	O	O
+a	NN	O	O
+WIFI	NN	O	B-Process
+-	NN	O	I-Process
+based	NN	O	I-Process
+VOG	NN	O	I-Process
+system	NN	O	I-Process
+which	NN	O	O
+was	NN	O	O
+developed	NN	O	O
+our	NN	O	O
+latest	NN	O	O
+work	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+a	NN	O	O
+healthy	NN	O	B-Material
+volunteer	NN	O	I-Material
+was	NN	O	O
+introduced	NN	O	O
+to	NN	O	O
+do	NN	O	O
+sinusoidal	NN	O	B-Task
+tracking	NN	O	I-Task
+test	NN	O	I-Task
+to	NN	O	O
+evaluate	NN	O	B-Task
+the	NN	O	I-Task
+pupil	NN	O	I-Task
+location	NN	O	I-Task
+method	NN	O	I-Task
+.	NN	O	O
+Experimental	NN	O	O
+results	NN	O	O
+showed	NN	O	O
+that	NN	O	O
+the	NN	O	O
+method	NN	O	O
+could	NN	O	O
+well	NN	O	O
+trace	NN	O	B-Process
+eye	NN	O	I-Process
+movement	NN	O	I-Process
+and	NN	O	O
+meet	NN	O	O
+the	NN	O	O
+anticipated	NN	O	O
+results	NN	O	O
+with	NN	O	O
+stimulation	NN	O	B-Process
+.	NN	O	O
+
+-DOCSTART- (S2212671612000637)
+
+The	NN	O	O
+Hamiltonian	NN	O	B-Process
+approach	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+variational	NN	O	B-Process
+approach	NN	O	I-Process
+are	NN	O	O
+utilized	NN	O	O
+to	NN	O	O
+treat	NN	O	B-Task
+the	NN	O	I-Task
+relativistic	NN	O	I-Task
+harmonic	NN	O	I-Task
+oscillator	NN	O	I-Task
+for	NN	O	O
+the	NN	O	O
+amplitude	NN	O	B-Process
+-	NN	O	I-Process
+frequency	NN	O	I-Process
+relationship	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+nice	NN	O	O
+reliability	NN	O	O
+is	NN	O	O
+shown	NN	O	O
+by	NN	O	O
+the	NN	O	O
+result	NN	O	B-Process
+comparison	NN	O	I-Process
+with	NN	O	O
+that	NN	O	O
+from	NN	O	O
+open	NN	O	B-Material
+literature	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+simplicity	NN	O	O
+and	NN	O	O
+efficiency	NN	O	O
+of	NN	O	O
+the	NN	O	O
+methods	NN	O	O
+are	NN	O	O
+also	NN	O	O
+disclosed	NN	O	O
+for	NN	O	O
+different	NN	O	O
+range	NN	O	O
+of	NN	O	O
+the	NN	O	O
+initial	NN	O	B-Process
+amplitude	NN	O	I-Process
+during	NN	O	O
+looking	NN	O	O
+for	NN	O	O
+the	NN	O	O
+amplitude	NN	O	B-Process
+-	NN	O	I-Process
+frequency	NN	O	I-Process
+relationship	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+nonlinear	NN	O	B-Process
+relativistic	NN	O	I-Process
+harmonic	NN	O	I-Process
+oscillator	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S2212671612000686)
+
+This	NN	O	O
+paper	NN	O	O
+make	NN	O	O
+the	NN	O	O
+explained	NN	O	O
+variables	NN	O	O
+our	NN	O	O
+financial	NN	O	B-Process
+stress	NN	O	I-Process
+index	NN	O	I-Process
+consist	NN	O	O
+of	NN	O	O
+the	NN	O	O
+synchronous	NN	O	B-Process
+variables	NN	O	I-Process
+financial	NN	O	I-Process
+systemic	NN	O	I-Process
+risk	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+make	NN	O	O
+the	NN	O	O
+explanatory	NN	O	O
+variables	NN	O	O
+the	NN	O	O
+macroeconomic	NN	O	B-Process
+variable	NN	O	I-Process
+,	NN	O	O
+currency	NN	O	B-Process
+credit	NN	O	I-Process
+variable	NN	O	I-Process
+,	NN	O	O
+asset	NN	O	B-Process
+price	NN	O	I-Process
+variable	NN	O	I-Process
+and	NN	O	O
+the	NN	O	O
+macroeconomic	NN	O	B-Process
+variable	NN	O	I-Process
+of	NN	O	I-Process
+correlative	NN	O	I-Process
+economic	NN	O	I-Process
+powers	NN	O	I-Process
+,	NN	O	O
+then	NN	O	O
+use	NN	O	O
+stepwise	NN	O	B-Process
+regression	NN	O	I-Process
+method	NN	O	I-Process
+to	NN	O	O
+establish	NN	O	B-Task
+the	NN	O	I-Task
+financial	NN	O	I-Task
+systemic	NN	O	I-Task
+risk	NN	O	I-Task
+best	NN	O	I-Task
+predict	NN	O	I-Task
+equation	NN	O	I-Task
+,	NN	O	O
+thus	NN	O	O
+set	NN	O	B-Task
+up	NN	O	I-Task
+the	NN	O	I-Task
+reasonable	NN	O	I-Task
+and	NN	O	I-Task
+practical	NN	O	I-Task
+financial	NN	O	I-Task
+systemic	NN	O	I-Task
+risk	NN	O	I-Task
+early	NN	O	I-Task
+-	NN	O	I-Task
+warning	NN	O	I-Task
+index	NN	O	I-Task
+system	NN	O	I-Task
+;	NN	O	O
+besides	NN	O	O
+,	NN	O	O
+use	NN	O	O
+the	NN	O	O
+best	NN	O	B-Process
+prediction	NN	O	I-Process
+equations	NN	O	I-Process
+predicts	NN	O	O
+the	NN	O	O
+financial	NN	O	O
+systemic	NN	O	O
+risk	NN	O	O
+status	NN	O	O
+in	NN	O	O
+2011	NN	O	O
+.	NN	O	O
+The	NN	O	O
+predicted	NN	O	O
+results	NN	O	O
+show	NN	O	O
+that	NN	O	O
+Chinese	NN	O	O
+financial	NN	O	O
+systemic	NN	O	O
+risk	NN	O	O
+is	NN	O	O
+on	NN	O	O
+the	NN	O	O
+rise	NN	O	O
+in	NN	O	O
+the	NN	O	O
+first	NN	O	O
+three	NN	O	O
+quarters	NN	O	O
+and	NN	O	O
+higher	NN	O	O
+than	NN	O	O
+the	NN	O	O
+peak	NN	O	O
+of	NN	O	O
+2008	NN	O	O
+;	NN	O	O
+financial	NN	O	O
+systemic	NN	O	O
+risk	NN	O	O
+start	NN	O	O
+to	NN	O	O
+decline	NN	O	O
+since	NN	O	O
+the	NN	O	O
+fourth	NN	O	O
+quarter	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212671612000698)
+
+In	NN	O	O
+Obstacle	NN	O	B-Task
+detection	NN	O	I-Task
+is	NN	O	O
+based	NN	O	O
+on	NN	O	O
+inverse	NN	O	B-Process
+perspective	NN	O	I-Process
+mapping	NN	O	I-Process
+and	NN	O	I-Process
+homography	NN	O	I-Process
+.	NN	O	O
+Obstacle	NN	O	B-Task
+classification	NN	O	I-Task
+is	NN	O	O
+based	NN	O	O
+on	NN	O	O
+fuzzy	NN	O	B-Process
+neural	NN	O	I-Process
+network	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+estimation	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+vanishing	NN	O	I-Task
+point	NN	O	I-Task
+relies	NN	O	O
+on	NN	O	O
+feature	NN	O	B-Process
+extraction	NN	O	I-Process
+strategy	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+method	NN	O	O
+exploits	NN	O	O
+the	NN	O	O
+geometrical	NN	O	B-Process
+relations	NN	O	I-Process
+between	NN	O	O
+the	NN	O	O
+elements	NN	O	B-Material
+in	NN	O	O
+the	NN	O	O
+scene	NN	O	B-Material
+so	NN	O	O
+that	NN	O	O
+obstacle	NN	O	B-Material
+can	NN	O	O
+be	NN	O	O
+detected	NN	O	B-Process
+.	NN	O	O
+The	NN	O	O
+estimated	NN	O	B-Process
+homography	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+road	NN	O	B-Material
+plane	NN	O	I-Material
+between	NN	O	O
+successive	NN	O	O
+images	NN	O	B-Material
+is	NN	O	O
+used	NN	O	O
+for	NN	O	O
+image	NN	O	B-Task
+alignment	NN	O	I-Task
+.	NN	O	O
+A	NN	O	O
+new	NN	O	O
+fuzzy	NN	O	B-Process
+decision	NN	O	I-Process
+fusion	NN	O	I-Process
+method	NN	O	I-Process
+with	NN	O	O
+fuzzy	NN	O	B-Process
+attribution	NN	O	I-Process
+for	NN	O	I-Process
+obstacle	NN	O	I-Process
+detection	NN	O	I-Process
+and	NN	O	I-Process
+classification	NN	O	I-Process
+application	NN	O	I-Process
+is	NN	O	O
+described	NN	O	O
+The	NN	O	B-Process
+fuzzy	NN	O	I-Process
+decision	NN	O	I-Process
+function	NN	O	I-Process
+modifies	NN	O	O
+parameters	NN	O	O
+with	NN	O	O
+auto	NN	O	B-Process
+-	NN	O	I-Process
+adapted	NN	O	I-Process
+algorithm	NN	O	I-Process
+to	NN	O	O
+get	NN	O	O
+better	NN	O	O
+classification	NN	O	B-Process
+probability	NN	O	O
+It	NN	O	O
+is	NN	O	O
+shown	NN	O	O
+that	NN	O	O
+the	NN	O	O
+method	NN	O	O
+can	NN	O	O
+achieve	NN	O	O
+better	NN	O	O
+classification	NN	O	B-Process
+result	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212671612000704)
+
+The	NN	O	O
+load	NN	O	O
+of	NN	O	O
+beam	NN	O	B-Material
+pumping	NN	O	I-Material
+unit	NN	O	I-Material
+is	NN	O	O
+changeable	NN	O	O
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+often	NN	O	O
+in	NN	O	O
+a	NN	O	O
+state	NN	O	O
+of	NN	O	O
+light	NN	O	B-Process
+load	NN	O	I-Process
+.	NN	O	O
+Reducing	NN	O	B-Process
+a	NN	O	I-Process
+certain	NN	O	I-Process
+voltage	NN	O	I-Process
+can	NN	O	O
+improve	NN	O	B-Process
+the	NN	O	I-Process
+power	NN	O	I-Process
+factor	NN	O	I-Process
+and	NN	O	I-Process
+efficiency	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+beam	NN	O	I-Process
+pumping	NN	O	I-Process
+unit	NN	O	I-Process
+when	NN	O	O
+in	NN	O	O
+light	NN	O	B-Process
+load	NN	O	I-Process
+.We	NN	O	O
+can	NN	O	O
+change	NN	O	B-Process
+the	NN	O	I-Process
+voltage	NN	O	I-Process
+by	NN	O	O
+changing	NN	O	B-Process
+the	NN	O	I-Process
+thyristor	NN	O	I-Process
+trigger	NN	O	I-Process
+angle	NN	O	I-Process
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+complex	NN	O	O
+and	NN	O	O
+unacceptable	NN	O	O
+to	NN	O	O
+analyze	NN	O	B-Process
+the	NN	O	I-Process
+change	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+cycles	NN	O	I-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+load	NN	O	I-Process
+overall	NN	O	I-Process
+.	NN	O	O
+So	NN	O	O
+we	NN	O	O
+can	NN	O	O
+divide	NN	O	B-Process
+the	NN	O	I-Process
+load	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+whole	NN	O	O
+cycle	NN	O	O
+into	NN	O	O
+several	NN	O	O
+equal	NN	O	B-Material
+parts	NN	O	I-Material
+,	NN	O	O
+each	NN	O	O
+can	NN	O	O
+be	NN	O	O
+thought	NN	O	O
+of	NN	O	O
+as	NN	O	O
+a	NN	O	O
+constant	NN	O	B-Process
+load	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+most	NN	O	O
+optimal	NN	O	B-Process
+voltage	NN	O	I-Process
+for	NN	O	O
+the	NN	O	O
+current	NN	O	B-Process
+load	NN	O	I-Process
+can	NN	O	O
+be	NN	O	O
+calculated	NN	O	B-Task
+by	NN	O	I-Task
+genetic	NN	O	I-Task
+algorithm	NN	O	I-Task
+.	NN	O	O
+When	NN	O	O
+each	NN	O	O
+load	NN	O	O
+is	NN	O	O
+in	NN	O	O
+the	NN	O	O
+most	NN	O	O
+optimal	NN	O	B-Process
+voltage	NN	O	I-Process
+,	NN	O	O
+we	NN	O	O
+can	NN	O	O
+get	NN	O	O
+the	NN	O	O
+whole	NN	O	B-Process
+optimal	NN	O	I-Process
+voltage	NN	O	I-Process
+changeable	NN	O	I-Process
+rule	NN	O	I-Process
+.	NN	O	I-Process
+Then	NN	O	O
+it	NN	O	O
+produces	NN	O	O
+the	NN	O	O
+result	NN	O	O
+of	NN	O	O
+energy	NN	O	B-Task
+saving	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S2212671612000716)
+
+Based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+description	NN	O	B-Process
+model	NN	O	I-Process
+of	NN	O	O
+object	NN	O	B-Process
+-	NN	O	I-Process
+orientation	NN	O	I-Process
+-	NN	O	I-Process
+based	NN	O	I-Process
+direction	NN	O	I-Process
+relation	NN	O	I-Process
+in	NN	O	O
+two	NN	O	B-Material
+-	NN	O	I-Material
+dimensional	NN	O	I-Material
+space	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+description	NN	O	B-Task
+mode	NN	O	I-Task
+of	NN	O	I-Task
+object	NN	O	I-Task
+-	NN	O	I-Task
+orientation	NN	O	I-Task
+-	NN	O	I-Task
+based	NN	O	I-Task
+direction	NN	O	I-Task
+relation	NN	O	I-Task
+in	NN	O	I-Task
+three	NN	O	I-Task
+-	NN	O	I-Task
+dimensional	NN	O	I-Task
+space	NN	O	I-Task
+is	NN	O	I-Task
+proposed	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+basic	NN	O	O
+idea	NN	O	O
+is	NN	O	O
+that	NN	O	O
+the	NN	O	O
+actual	NN	O	O
+direction	NN	O	B-Process
+region	NN	O	I-Process
+is	NN	O	O
+modeled	NN	O	O
+as	NN	O	O
+an	NN	O	O
+open	NN	O	B-Material
+shape	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
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+related	NN	O	O
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+world	NN	O	B-Material
+boundary	NN	O	I-Material
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+is	NN	O	O
+eliminated	NN	O	O
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+processing	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+direction	NN	O	I-Process
+predicates	NN	O	I-Process
+is	NN	O	O
+converted	NN	O	O
+into	NN	O	O
+the	NN	O	O
+processing	NN	O	B-Process
+of	NN	O	I-Process
+topological	NN	O	I-Process
+operations	NN	O	I-Process
+between	NN	O	O
+open	NN	O	B-Material
+shapes	NN	O	I-Material
+and	NN	O	O
+closed	NN	O	O
+geometry	NN	O	B-Material
+objects	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+algorithms	NN	O	B-Process
+of	NN	O	I-Process
+topological	NN	O	I-Process
+operations	NN	O	I-Process
+between	NN	O	O
+open	NN	O	B-Material
+shapes	NN	O	I-Material
+and	NN	O	O
+closed	NN	O	O
+geometry	NN	O	B-Material
+objects	NN	O	I-Material
+are	NN	O	O
+presented	NN	O	O
+and	NN	O	O
+the	NN	O	O
+theoretical	NN	O	B-Task
+proof	NN	O	I-Task
+for	NN	O	I-Task
+the	NN	O	I-Task
+correctness	NN	O	I-Task
+and	NN	O	I-Task
+completeness	NN	O	I-Task
+of	NN	O	I-Task
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+-DOCSTART- (S2212671612001163)
+
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+.	NN	O	O
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+.	NN	O	O
+It	NN	O	O
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+this	NN	O	O
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+direct	NN	O	O
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+the	NN	O	O
+Czech	NN	O	O
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+Slovak	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212671612001291)
+
+In	NN	O	O
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+-	NN	O	I-Material
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+-	NN	O	I-Process
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+horizontal	NN	O	B-Material
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+.	NN	O	O
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+the	NN	O	O
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+overall	NN	O	O
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+direction	NN	O	O
+to	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212671612001497)
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+Our	NN	O	O
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+rich	NN	O	O
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+galloping	NN	O	I-Process
+,	NN	O	O
+there	NN	O	O
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+.	NN	O	O
+After	NN	O	O
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+organized	NN	O	O
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+lot	NN	O	O
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+(	NN	O	O
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+)	NN	O	O
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+To	NN	O	O
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+.	NN	O	O
+
+-DOCSTART- (S2212671612001618)
+
+This	NN	O	O
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+-	NN	O	I-Process
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+.	NN	O	O
+For	NN	O	O
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+variations	NN	O	I-Process
+,	NN	O	O
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+-	NN	O	I-Process
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+LMI	NN	O	B-Task
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+-	NN	O	I-Process
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+.	NN	O	O
+
+-DOCSTART- (S221267161200162X)
+
+A	NN	O	O
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+-	NN	O	I-Task
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+-	NN	O	I-Material
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+In	NN	O	O
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+-	NN	O	I-Process
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+-	NN	O	I-Process
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+.	NN	O	O
+
+-DOCSTART- (S2212671612001692)
+
+The	NN	O	O
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+The	NN	O	O
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+goal	NN	O	O
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+Screws	NN	O	B-Material
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+It	NN	O	O
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+,	NN	O	I-Process
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+.	NN	O	O
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+.	NN	O	O
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+.	NN	O	I-Process
+The	NN	O	O
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+on	NN	O	O
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+clear	NN	O	O
+.	NN	O	O
+It	NN	O	O
+'s	NN	O	O
+efficiency	NN	O	O
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+high	NN	O	O
+of	NN	O	O
+O(N	NN	O	O
+)	NN	O	O
+and	NN	O	O
+is	NN	O	O
+linear	NN	O	B-Process
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+the	NN	O	I-Process
+degree	NN	O	I-Process
+of	NN	O	I-Process
+freedom	NN	O	I-Process
+.	NN	O	O
+With	NN	O	O
+the	NN	O	O
+improvement	NN	O	B-Task
+of	NN	O	I-Task
+computation	NN	O	I-Task
+efficiency	NN	O	I-Task
+,	NN	O	O
+it	NN	O	O
+will	NN	O	O
+make	NN	O	O
+the	NN	O	O
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+-	NN	O	I-Process
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+dynamics	NN	O	I-Process
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+become	NN	O	O
+possible	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212671612001709)
+
+An	NN	O	O
+algorithm	NN	O	B-Task
+of	NN	O	I-Task
+multi	NN	O	I-Task
+-	NN	O	I-Task
+axis	NN	O	I-Task
+NC	NN	O	I-Task
+tool	NN	O	I-Task
+-	NN	O	I-Task
+path	NN	O	I-Task
+generation	NN	O	I-Task
+for	NN	O	I-Task
+subdivision	NN	O	I-Task
+surfaces	NN	O	I-Task
+is	NN	O	O
+proposed	NN	O	O
+.	NN	O	O
+The	NN	O	O
+algorithm	NN	O	B-Process
+includes	NN	O	O
+two	NN	O	O
+steps	NN	O	O
+:	NN	O	O
+model	NN	O	B-Process
+building	NN	O	I-Process
+and	NN	O	O
+tool	NN	O	B-Process
+path	NN	O	I-Process
+generation	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+section	NN	O	O
+of	NN	O	O
+model	NN	O	B-Process
+building	NN	O	I-Process
+,	NN	O	O
+in	NN	O	O
+order	NN	O	O
+to	NN	O	O
+obtain	NN	O	B-Task
+the	NN	O	I-Task
+deformed	NN	O	I-Task
+surface	NN	O	I-Task
+,	NN	O	O
+the	NN	O	O
+deformation	NN	O	B-Process
+vector	NN	O	I-Process
+is	NN	O	I-Process
+computed	NN	O	I-Process
+which	NN	O	O
+is	NN	O	O
+associated	NN	O	O
+with	NN	O	O
+the	NN	O	O
+curvature	NN	O	B-Process
+and	NN	O	I-Process
+the	NN	O	I-Process
+slope	NN	O	I-Process
+of	NN	O	I-Process
+cutter	NN	O	I-Process
+location	NN	O	I-Process
+surface	NN	O	I-Process
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+procedure	NN	O	O
+of	NN	O	O
+tool	NN	O	B-Process
+path	NN	O	I-Process
+generation	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+slicing	NN	O	B-Process
+procedure	NN	O	I-Process
+is	NN	O	O
+adopted	NN	O	O
+to	NN	O	O
+get	NN	O	O
+the	NN	O	O
+CL	NN	O	B-Material
+points	NN	O	I-Material
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+the	NN	O	O
+inversely	NN	O	B-Process
+converted	NN	O	I-Process
+method	NN	O	I-Process
+is	NN	O	O
+used	NN	O	O
+.	NN	O	O
+The	NN	O	O
+method	NN	O	O
+is	NN	O	O
+tested	NN	O	B-Task
+by	NN	O	I-Task
+some	NN	O	I-Task
+examples	NN	O	I-Task
+with	NN	O	I-Task
+actual	NN	O	I-Task
+machining	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+results	NN	O	O
+show	NN	O	O
+that	NN	O	O
+the	NN	O	O
+method	NN	O	O
+can	NN	O	O
+effectively	NN	O	O
+reduce	NN	O	O
+the	NN	O	O
+error	NN	O	O
+of	NN	O	O
+the	NN	O	O
+scallop	NN	O	B-Material
+height	NN	O	I-Material
+for	NN	O	O
+subdivision	NN	O	B-Material
+surface	NN	O	I-Material
+and	NN	O	O
+obtain	NN	O	O
+the	NN	O	O
+better	NN	O	O
+shape	NN	O	O
+and	NN	O	O
+quality	NN	O	O
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+the	NN	O	O
+computational	NN	O	O
+complexity	NN	O	O
+and	NN	O	O
+is	NN	O	O
+scalable	NN	O	O
+and	NN	O	O
+robust	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S221267161200176X)
+
+Modeling	NN	O	B-Task
+or	NN	O	I-Task
+approximating	NN	O	I-Task
+high	NN	O	I-Task
+dimensional	NN	O	I-Task
+,	NN	O	I-Task
+computationally	NN	O	I-Task
+-	NN	O	I-Task
+expensive	NN	O	I-Task
+problems	NN	O	I-Task
+faces	NN	O	O
+an	NN	O	O
+exponentially	NN	O	O
+increasing	NN	O	O
+difficulty	NN	O	O
+,	NN	O	O
+the	NN	O	O
+“	NN	O	O
+curse	NN	O	B-Process
+of	NN	O	I-Process
+dimensionality	NN	O	I-Process
+”	NN	O	O
+.	NN	O	O
+This	NN	O	O
+paper	NN	O	O
+proposes	NN	O	O
+a	NN	O	O
+new	NN	O	B-Process
+form	NN	O	I-Process
+of	NN	O	I-Process
+high	NN	O	I-Process
+dimensional	NN	O	I-Process
+model	NN	O	I-Process
+representation	NN	O	I-Process
+(	NN	O	O
+HDMR	NN	O	B-Process
+)	NN	O	O
+by	NN	O	O
+utilizing	NN	O	O
+the	NN	O	O
+support	NN	O	B-Process
+vector	NN	O	I-Process
+regression	NN	O	I-Process
+(	NN	O	O
+SVR	NN	O	B-Process
+)	NN	O	O
+,	NN	O	O
+termed	NN	O	O
+as	NN	O	O
+adaptive	NN	O	B-Process
+SVR	NN	O	I-Process
+-	NN	O	I-Process
+HMDR	NN	O	I-Process
+,	NN	O	O
+to	NN	O	O
+conquer	NN	O	B-Task
+this	NN	O	I-Task
+dilemma	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+proposed	NN	O	O
+model	NN	O	O
+could	NN	O	O
+reveal	NN	O	O
+explicit	NN	O	B-Process
+correlations	NN	O	I-Process
+among	NN	O	O
+different	NN	O	O
+input	NN	O	B-Material
+variables	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+underlying	NN	O	O
+function	NN	O	O
+which	NN	O	O
+is	NN	O	O
+unknown	NN	O	O
+or	NN	O	O
+expensive	NN	O	O
+for	NN	O	O
+computation	NN	O	B-Process
+.	NN	O	O
+Taking	NN	O	O
+advantage	NN	O	O
+of	NN	O	O
+HDMR	NN	O	B-Process
+'s	NN	O	O
+hierarchical	NN	O	O
+structure	NN	O	O
+,	NN	O	O
+it	NN	O	O
+could	NN	O	O
+alleviate	NN	O	B-Task
+the	NN	O	I-Task
+exponential	NN	O	I-Task
+increasing	NN	O	I-Task
+difficulty	NN	O	I-Task
+,	NN	O	O
+and	NN	O	O
+gain	NN	O	O
+satisfying	NN	O	O
+accuracy	NN	O	O
+with	NN	O	O
+small	NN	O	O
+set	NN	O	O
+of	NN	O	O
+samples	NN	O	O
+by	NN	O	O
+SVR	NN	O	B-Process
+.	NN	O	O
+Numerical	NN	O	O
+examples	NN	O	O
+of	NN	O	O
+different	NN	O	O
+dimensionality	NN	O	O
+are	NN	O	O
+given	NN	O	O
+to	NN	O	O
+illustrate	NN	O	B-Task
+the	NN	O	I-Task
+principle	NN	O	I-Task
+,	NN	O	I-Task
+procedure	NN	O	I-Task
+and	NN	O	I-Task
+performance	NN	O	I-Task
+of	NN	O	O
+SVR	NN	O	B-Process
+-	NN	O	I-Process
+HDMR	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S2212671612001783)
+
+Metal	NN	O	B-Material
+–	NN	O	I-Material
+intermetallic	NN	O	I-Material
+laminated	NN	O	I-Material
+(	NN	O	O
+MIL	NN	O	B-Material
+)	NN	O	O
+composites	NN	O	O
+are	NN	O	O
+fabricated	NN	O	B-Process
+upon	NN	O	I-Process
+reaction	NN	O	I-Process
+sintering	NN	O	I-Process
+of	NN	O	O
+titanium	NN	O	B-Material
+and	NN	O	I-Material
+aluminum	NN	O	I-Material
+foils	NN	O	I-Material
+of	NN	O	O
+various	NN	O	O
+thicknesses	NN	O	O
+.	NN	O	O
+The	NN	O	O
+intermetallic	NN	O	B-Process
+phase	NN	O	I-Process
+of	NN	O	O
+Al3Ti	NN	O	B-Process
+forming	NN	O	I-Process
+during	NN	O	O
+the	NN	O	O
+above	NN	O	O
+processing	NN	O	B-Process
+gives	NN	O	O
+high	NN	O	O
+hardness	NN	O	O
+and	NN	O	O
+stiffness	NN	O	O
+to	NN	O	O
+the	NN	O	O
+composite	NN	O	B-Material
+,	NN	O	O
+while	NN	O	O
+unreacted	NN	O	B-Material
+titanium	NN	O	I-Material
+provides	NN	O	O
+the	NN	O	O
+necessary	NN	O	O
+high	NN	O	O
+strength	NN	O	O
+and	NN	O	O
+ductility	NN	O	O
+.	NN	O	O
+Some	NN	O	O
+results	NN	O	O
+of	NN	O	O
+studies	NN	O	B-Process
+of	NN	O	I-Process
+microstructure	NN	O	I-Process
+and	NN	O	O
+some	NN	O	O
+mechanical	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+layered	NN	O	B-Material
+composites	NN	O	I-Material
+are	NN	O	O
+presented	NN	O	B-Task
+on	NN	O	I-Task
+the	NN	O	I-Task
+example	NN	O	I-Task
+of	NN	O	I-Task
+Ti	NN	O	I-Task
+-	NN	O	I-Task
+Al	NN	O	I-Task
+system	NN	O	I-Task
+.	NN	O	O
+Static	NN	O	B-Task
+and	NN	O	I-Task
+dynamic	NN	O	I-Task
+tests	NN	O	I-Task
+results	NN	O	I-Task
+are	NN	O	I-Task
+discussed	NN	O	I-Task
+for	NN	O	O
+the	NN	O	O
+case	NN	O	O
+when	NN	O	O
+the	NN	O	O
+intermetallic	NN	O	B-Process
+reaction	NN	O	I-Process
+was	NN	O	O
+interrupted	NN	O	B-Process
+in	NN	O	O
+the	NN	O	O
+course	NN	O	O
+of	NN	O	O
+intermetallic	NN	O	B-Process
+sintering	NN	O	I-Process
+and	NN	O	O
+also	NN	O	O
+for	NN	O	O
+the	NN	O	O
+case	NN	O	O
+when	NN	O	O
+it	NN	O	O
+was	NN	O	O
+completed	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212671612002120)
+
+A	NN	O	O
+design	NN	O	B-Process
+method	NN	O	I-Process
+for	NN	O	O
+network	NN	O	B-Process
+attack	NN	O	I-Process
+and	NN	O	O
+defense	NN	O	B-Process
+simulation	NN	O	I-Process
+platform	NN	O	I-Process
+is	NN	O	O
+discussed	NN	O	O
+in	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+.	NN	O	O
+Firstly	NN	O	O
+the	NN	O	O
+component	NN	O	O
+and	NN	O	O
+function	NN	O	O
+of	NN	O	O
+the	NN	O	O
+platform	NN	O	B-Process
+are	NN	O	O
+analyzed	NN	O	O
+.	NN	O	O
+Then	NN	O	O
+Visio	NN	O	B-Process
+second	NN	O	I-Process
+development	NN	O	I-Process
+method	NN	O	I-Process
+is	NN	O	O
+used	NN	O	O
+to	NN	O	O
+construct	NN	O	B-Task
+the	NN	O	I-Task
+virtual	NN	O	I-Task
+network	NN	O	I-Task
+topology	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+parsing	NN	O	B-Task
+of	NN	O	I-Task
+virtual	NN	O	I-Task
+network	NN	O	I-Task
+topology	NN	O	I-Task
+is	NN	O	O
+also	NN	O	O
+researched	NN	O	O
+and	NN	O	O
+the	NN	O	O
+relative	NN	O	B-Material
+flow	NN	O	I-Material
+sheet	NN	O	I-Material
+is	NN	O	O
+described	NN	O	O
+.	NN	O	O
+Lastly	NN	O	O
+an	NN	O	O
+example	NN	O	O
+is	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+to	NN	O	O
+test	NN	O	B-Task
+performance	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+platform	NN	O	I-Task
+.	NN	O	O
+Simulation	NN	O	O
+results	NN	O	O
+show	NN	O	O
+the	NN	O	O
+effectiveness	NN	O	O
+of	NN	O	O
+the	NN	O	O
+proposed	NN	O	O
+method	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S221267161200217X)
+
+The	NN	O	O
+existing	NN	O	O
+GO	NN	O	B-Process
+methodology	NN	O	I-Process
+algorithm	NN	O	I-Process
+is	NN	O	O
+theoretical	NN	O	O
+,	NN	O	O
+and	NN	O	O
+hard	NN	O	O
+to	NN	O	O
+solve	NN	O	O
+with	NN	O	O
+computer	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+we	NN	O	O
+research	NN	O	O
+a	NN	O	O
+new	NN	O	B-Task
+method	NN	O	I-Task
+to	NN	O	I-Task
+get	NN	O	I-Task
+the	NN	O	I-Task
+reliability	NN	O	I-Task
+of	NN	O	I-Task
+system	NN	O	I-Task
+based	NN	O	I-Task
+on	NN	O	I-Task
+GO	NN	O	I-Task
+methodology	NN	O	I-Task
+.	NN	O	O
+According	NN	O	O
+to	NN	O	O
+some	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+the	NN	O	O
+operators	NN	O	O
+in	NN	O	O
+GO	NN	O	B-Material
+chart	NN	O	I-Material
+,	NN	O	O
+GO	NN	O	B-Material
+chart	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+transformed	NN	O	O
+into	NN	O	O
+series	NN	O	B-Process
+structure	NN	O	I-Process
+,	NN	O	O
+then	NN	O	O
+the	NN	O	O
+minimal	NN	O	B-Process
+path	NN	O	I-Process
+sets	NN	O	I-Process
+are	NN	O	I-Process
+induced	NN	O	I-Process
+based	NN	O	O
+on	NN	O	O
+Enumeration	NN	O	B-Process
+method	NN	O	I-Process
+from	NN	O	O
+first	NN	O	O
+operator	NN	O	O
+to	NN	O	O
+last	NN	O	O
+one	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+very	NN	O	O
+convenient	NN	O	O
+for	NN	O	O
+computer	NN	O	O
+to	NN	O	O
+calculate	NN	O	B-Task
+the	NN	O	I-Task
+system	NN	O	I-Task
+reliability	NN	O	I-Task
+with	NN	O	O
+the	NN	O	O
+new	NN	O	O
+method	NN	O	O
+based	NN	O	O
+on	NN	O	O
+minimal	NN	O	B-Process
+path	NN	O	I-Process
+sets	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+case	NN	O	O
+study	NN	O	O
+indicates	NN	O	O
+the	NN	O	O
+method	NN	O	O
+is	NN	O	O
+suitable	NN	O	O
+for	NN	O	O
+practical	NN	O	B-Task
+engineering	NN	O	I-Task
+,	NN	O	O
+which	NN	O	O
+can	NN	O	O
+be	NN	O	O
+used	NN	O	O
+to	NN	O	O
+possess	NN	O	O
+the	NN	O	O
+quantitative	NN	O	B-Process
+analysis	NN	O	I-Process
+of	NN	O	O
+complex	NN	O	B-Process
+GO	NN	O	I-Process
+methodology	NN	O	I-Process
+models	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S2212671612002181)
+
+The	NN	O	O
+number	NN	O	O
+of	NN	O	O
+hidden	NN	O	B-Material
+nodes	NN	O	I-Material
+is	NN	O	O
+a	NN	O	O
+critical	NN	O	O
+factor	NN	O	O
+for	NN	O	O
+the	NN	O	O
+generalization	NN	O	B-Task
+of	NN	O	I-Task
+ELM	NN	O	I-Task
+.	NN	O	O
+Generally	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+heavy	NN	O	O
+for	NN	O	O
+time	NN	O	B-Process
+consumption	NN	O	I-Process
+to	NN	O	O
+obtain	NN	O	B-Process
+the	NN	O	I-Process
+optimal	NN	O	I-Process
+number	NN	O	I-Process
+of	NN	O	I-Process
+hidden	NN	O	I-Process
+nodes	NN	O	I-Process
+with	NN	O	O
+trial	NN	O	B-Process
+-	NN	O	I-Process
+and	NN	O	I-Process
+-	NN	O	I-Process
+error	NN	O	I-Process
+.	NN	O	O
+A	NN	O	O
+novel	NN	O	B-Task
+algorithm	NN	O	I-Task
+is	NN	O	I-Task
+proposed	NN	O	I-Task
+to	NN	O	O
+optimize	NN	O	B-Task
+the	NN	O	I-Task
+hidden	NN	O	I-Task
+node	NN	O	I-Task
+number	NN	O	I-Task
+to	NN	O	O
+guarantee	NN	O	O
+good	NN	O	O
+generalization	NN	O	B-Process
+,	NN	O	O
+which	NN	O	O
+employs	NN	O	O
+the	NN	O	O
+PSO	NN	O	B-Process
+in	NN	O	O
+the	NN	O	O
+optimization	NN	O	B-Process
+process	NN	O	I-Process
+with	NN	O	O
+structural	NN	O	B-Process
+risk	NN	O	I-Process
+minimization	NN	O	I-Process
+principle	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+simulation	NN	O	O
+results	NN	O	O
+indicate	NN	O	O
+our	NN	O	O
+algorithm	NN	O	B-Process
+for	NN	O	O
+the	NN	O	O
+optimal	NN	O	O
+number	NN	O	O
+of	NN	O	O
+hidden	NN	O	B-Material
+nodes	NN	O	I-Material
+is	NN	O	O
+reasonable	NN	O	O
+and	NN	O	O
+feasible	NN	O	O
+with	NN	O	O
+6	NN	O	B-Material
+datasets	NN	O	I-Material
+on	NN	O	O
+benchmark	NN	O	O
+problems	NN	O	O
+by	NN	O	O
+the	NN	O	O
+accuracy	NN	O	B-Process
+comparisons	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S221267161200220X)
+
+For	NN	O	O
+providing	NN	O	O
+the	NN	O	O
+government	NN	O	O
+with	NN	O	O
+effective	NN	O	B-Task
+monitoring	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+trends	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+economic	NN	O	I-Process
+variables	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+future	NN	O	O
+and	NN	O	O
+good	NN	O	O
+reference	NN	O	O
+for	NN	O	O
+developing	NN	O	B-Process
+a	NN	O	I-Process
+reasonable	NN	O	I-Process
+policy	NN	O	I-Process
+,	NN	O	O
+in	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+we	NN	O	O
+establish	NN	O	B-Task
+a	NN	O	I-Task
+time	NN	O	I-Task
+series	NN	O	I-Task
+model	NN	O	I-Task
+on	NN	O	O
+China	NN	O	O
+'s	NN	O	O
+Foreign	NN	O	B-Process
+Direct	NN	O	I-Process
+Investment	NN	O	I-Process
+(	NN	O	O
+FDI	NN	O	B-Process
+)	NN	O	O
+by	NN	O	O
+using	NN	O	O
+wavelet	NN	O	B-Process
+analysis	NN	O	I-Process
+and	NN	O	O
+intervention	NN	O	B-Process
+analysis	NN	O	I-Process
+and	NN	O	O
+time	NN	O	B-Process
+series	NN	O	I-Process
+analysis	NN	O	I-Process
+and	NN	O	O
+predict	NN	O	B-Task
+the	NN	O	I-Task
+trend	NN	O	I-Task
+of	NN	O	I-Task
+FDI	NN	O	I-Task
+in	NN	O	O
+the	NN	O	O
+next	NN	O	O
+several	NN	O	O
+years	NN	O	O
+.	NN	O	O
+This	NN	O	O
+model	NN	O	O
+eliminates	NN	O	O
+the	NN	O	O
+interference	NN	O	B-Process
+of	NN	O	I-Process
+noise	NN	O	I-Process
+for	NN	O	O
+predicting	NN	O	O
+by	NN	O	O
+using	NN	O	O
+wavelet	NN	O	B-Process
+analysis	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+describes	NN	O	O
+the	NN	O	O
+autocorrelation	NN	O	B-Process
+and	NN	O	O
+time	NN	O	B-Process
+-	NN	O	I-Process
+varying	NN	O	I-Process
+volatility	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+financial	NN	O	B-Material
+time	NN	O	I-Material
+series	NN	O	I-Material
+by	NN	O	O
+using	NN	O	O
+ARIMA-	NN	O	B-Process
+GARCH	NN	O	I-Process
+-	NN	O	I-Process
+M	NN	O	I-Process
+model	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+simulation	NN	O	O
+results	NN	O	O
+show	NN	O	O
+that	NN	O	O
+this	NN	O	O
+model	NN	O	O
+explains	NN	O	O
+the	NN	O	O
+dynamic	NN	O	O
+structure	NN	O	O
+of	NN	O	O
+China	NN	O	O
+'s	NN	O	O
+FDI	NN	O	B-Process
+trends	NN	O	O
+well	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212671612002302)
+
+Monitoring	NN	O	B-Task
+the	NN	O	I-Task
+wear	NN	O	I-Task
+condition	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+tramway	NN	O	B-Material
+superstructure	NN	O	I-Material
+is	NN	O	O
+one	NN	O	O
+of	NN	O	O
+the	NN	O	O
+key	NN	O	O
+points	NN	O	O
+to	NN	O	O
+guarantee	NN	O	O
+an	NN	O	O
+adequate	NN	O	O
+safety	NN	O	B-Process
+level	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+light	NN	O	B-Material
+rail	NN	O	I-Material
+transport	NN	O	I-Material
+system	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+purpose	NN	O	O
+of	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+is	NN	O	O
+to	NN	O	O
+suggest	NN	O	O
+a	NN	O	O
+new	NN	O	B-Task
+non	NN	O	I-Task
+-	NN	O	I-Task
+conventionalprocedure	NN	O	I-Task
+for	NN	O	O
+measuring	NN	O	O
+the	NN	O	O
+transverse	NN	O	B-Process
+profile	NN	O	I-Process
+of	NN	O	O
+rails	NN	O	B-Material
+in	NN	O	O
+operation	NN	O	O
+by	NN	O	O
+means	NN	O	O
+of	NN	O	O
+image	NN	O	B-Process
+-	NN	O	I-Process
+processing	NN	O	I-Process
+technique	NN	O	I-Process
+.	NN	O	O
+This	NN	O	O
+methodological	NN	O	O
+approach	NN	O	O
+is	NN	O	O
+based	NN	O	O
+on	NN	O	O
+the	NN	O	O
+“	NN	O	O
+information	NN	O	B-Material
+”	NN	O	I-Material
+contained	NN	O	O
+in	NN	O	O
+high	NN	O	B-Material
+-	NN	O	I-Material
+resolution	NN	O	I-Material
+photographic	NN	O	I-Material
+images	NN	O	I-Material
+of	NN	O	O
+tracks	NN	O	B-Material
+and	NN	O	O
+on	NN	O	O
+specific	NN	O	B-Process
+algorithms	NN	O	I-Process
+which	NN	O	O
+allow	NN	O	O
+to	NN	O	O
+obtain	NN	O	O
+the	NN	O	O
+exact	NN	O	O
+geometric	NN	O	O
+profile	NN	O	O
+of	NN	O	O
+the	NN	O	O
+rails	NN	O	B-Material
+and	NN	O	O
+therefore	NN	O	O
+to	NN	O	O
+measure	NN	O	O
+the	NN	O	O
+state	NN	O	O
+of	NN	O	O
+the	NN	O	O
+rail	NN	O	O
+-	NN	O	O
+head	NN	O	O
+extrados	NN	O	O
+wear	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212671612002338)
+
+Robust	NN	O	B-Task
+and	NN	O	I-Task
+automatic	NN	O	I-Task
+thresholding	NN	O	I-Task
+of	NN	O	O
+gray	NN	O	B-Material
+level	NN	O	I-Material
+images	NN	O	I-Material
+has	NN	O	O
+been	NN	O	O
+commonly	NN	O	O
+used	NN	O	O
+in	NN	O	O
+the	NN	O	O
+field	NN	O	O
+of	NN	O	O
+pattern	NN	O	B-Task
+recognition	NN	O	I-Task
+and	NN	O	O
+computer	NN	O	B-Task
+vision	NN	O	I-Task
+for	NN	O	O
+objects	NN	O	B-Task
+detecting	NN	O	I-Task
+,	NN	O	I-Task
+tracking	NN	O	I-Task
+and	NN	O	I-Task
+recognizing	NN	O	I-Task
+.	NN	O	O
+The	NN	O	O
+Otsu	NN	O	B-Process
+scheme	NN	O	I-Process
+,	NN	O	O
+a	NN	O	O
+widely	NN	O	O
+used	NN	O	O
+image	NN	O	B-Process
+thresholding	NN	O	I-Process
+technique	NN	O	I-Process
+,	NN	O	O
+provides	NN	O	O
+approving	NN	O	O
+results	NN	O	O
+for	NN	O	O
+segmenting	NN	O	B-Process
+a	NN	O	O
+gray	NN	O	B-Material
+level	NN	O	I-Material
+image	NN	O	I-Material
+with	NN	O	O
+only	NN	O	O
+one	NN	O	O
+modal	NN	O	B-Process
+distribution	NN	O	I-Process
+in	NN	O	O
+gray	NN	O	B-Material
+level	NN	O	I-Material
+histogram	NN	O	I-Material
+.	NN	O	I-Material
+However	NN	O	O
+,	NN	O	O
+it	NN	O	O
+provides	NN	O	O
+poor	NN	O	O
+results	NN	O	O
+if	NN	O	O
+the	NN	O	O
+histogram	NN	O	B-Material
+of	NN	O	O
+a	NN	O	O
+gray	NN	O	O
+level	NN	O	O
+is	NN	O	O
+non	NN	O	O
+-	NN	O	O
+bimodal	NN	O	O
+.	NN	O	O
+For	NN	O	O
+enhancing	NN	O	B-Task
+the	NN	O	I-Task
+performance	NN	O	I-Task
+of	NN	O	O
+the	NN	O	O
+Otsu	NN	O	B-Process
+algorithm	NN	O	I-Process
+further	NN	O	O
+,	NN	O	O
+in	NN	O	O
+this	NN	O	O
+work	NN	O	O
+,	NN	O	O
+an	NN	O	O
+improved	NN	O	O
+median	NN	O	B-Process
+-	NN	O	I-Process
+based	NN	O	I-Process
+Otsu	NN	O	I-Process
+image	NN	O	I-Process
+thresholding	NN	O	I-Process
+algorithm	NN	O	I-Process
+is	NN	O	O
+presented	NN	O	O
+.	NN	O	O
+Finally	NN	O	O
+extensive	NN	O	B-Task
+tests	NN	O	I-Task
+are	NN	O	O
+performed	NN	O	O
+and	NN	O	O
+the	NN	O	O
+experiments	NN	O	O
+show	NN	O	O
+that	NN	O	O
+our	NN	O	O
+method	NN	O	O
+obtain	NN	O	O
+more	NN	O	O
+satisfactory	NN	O	O
+results	NN	O	O
+than	NN	O	O
+the	NN	O	O
+original	NN	O	O
+Otsu	NN	O	B-Process
+thresholding	NN	O	I-Process
+algorithm	NN	O	I-Process
+.	NN	O	O
+
+-DOCSTART- (S2212671612002351)
+
+In	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+a	NN	O	O
+novel	NN	O	O
+position	NN	O	B-Task
+estimation	NN	O	I-Task
+method	NN	O	I-Task
+of	NN	O	O
+prism	NN	O	B-Material
+was	NN	O	O
+proposed	NN	O	O
+for	NN	O	O
+single	NN	O	B-Material
+-	NN	O	I-Material
+lens	NN	O	I-Material
+stereovision	NN	O	I-Material
+system	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+prism	NN	O	B-Material
+with	NN	O	O
+multi	NN	O	O
+faces	NN	O	O
+was	NN	O	O
+considered	NN	O	O
+as	NN	O	O
+a	NN	O	O
+single	NN	O	B-Material
+optical	NN	O	I-Material
+system	NN	O	I-Material
+composed	NN	O	O
+of	NN	O	O
+some	NN	O	O
+refractive	NN	O	B-Material
+planes	NN	O	I-Material
+.	NN	O	O
+A	NN	O	O
+transformation	NN	O	B-Material
+matrix	NN	O	I-Material
+which	NN	O	O
+can	NN	O	O
+express	NN	O	B-Task
+the	NN	O	I-Task
+relationship	NN	O	I-Task
+between	NN	O	O
+an	NN	O	O
+object	NN	O	B-Material
+point	NN	O	I-Material
+and	NN	O	O
+its	NN	O	O
+image	NN	O	B-Material
+by	NN	O	O
+the	NN	O	O
+refraction	NN	O	B-Process
+of	NN	O	I-Process
+prism	NN	O	I-Process
+was	NN	O	O
+derived	NN	O	O
+based	NN	O	O
+on	NN	O	O
+geometrical	NN	O	B-Process
+optics	NN	O	I-Process
+,	NN	O	O
+and	NN	O	O
+a	NN	O	O
+mathematical	NN	O	B-Process
+model	NN	O	I-Process
+was	NN	O	O
+introduced	NN	O	O
+which	NN	O	O
+can	NN	O	O
+denote	NN	O	O
+the	NN	O	O
+position	NN	O	O
+of	NN	O	O
+prism	NN	O	B-Material
+with	NN	O	O
+arbitrary	NN	O	O
+faces	NN	O	O
+only	NN	O	O
+by	NN	O	O
+7	NN	O	O
+parameters	NN	O	O
+.	NN	O	O
+This	NN	O	O
+model	NN	O	O
+can	NN	O	O
+extend	NN	O	B-Process
+the	NN	O	I-Process
+application	NN	O	I-Process
+of	NN	O	I-Process
+single	NN	O	I-Process
+-	NN	O	I-Process
+lens	NN	O	I-Process
+stereovision	NN	O	I-Process
+system	NN	O	I-Process
+using	NN	O	O
+prism	NN	O	B-Material
+to	NN	O	O
+a	NN	O	O
+more	NN	O	O
+widely	NN	O	O
+area	NN	O	O
+.	NN	O	O
+Experimentation	NN	O	O
+results	NN	O	O
+are	NN	O	O
+presented	NN	O	O
+to	NN	O	O
+prove	NN	O	O
+the	NN	O	O
+effectiveness	NN	O	B-Process
+and	NN	O	O
+robustness	NN	O	B-Process
+of	NN	O	O
+our	NN	O	O
+proposed	NN	O	O
+model	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2212671612002375)
+
+Power	NN	O	B-Process
+Grid	NN	O	I-Process
+reasoning	NN	O	I-Process
+expert	NN	O	I-Process
+system	NN	O	I-Process
+is	NN	O	O
+a	NN	O	O
+complex	NN	O	O
+system	NN	O	B-Process
+.	NN	O	O
+To	NN	O	O
+solve	NN	O	O
+knowledge	NN	O	B-Task
+sharing	NN	O	I-Task
+of	NN	O	I-Task
+knowledge	NN	O	I-Task
+Base	NN	O	I-Task
+in	NN	O	I-Task
+expert	NN	O	I-Task
+system	NN	O	I-Task
+,	NN	O	O
+we	NN	O	O
+abstract	NN	O	B-Task
+and	NN	O	I-Task
+analyze	NN	O	I-Task
+the	NN	O	I-Task
+power	NN	O	I-Task
+grid	NN	O	I-Task
+security	NN	O	I-Task
+investigation	NN	O	I-Task
+procedure	NN	O	I-Task
+by	NN	O	O
+using	NN	O	O
+ontology	NN	O	B-Process
+Technology	NN	O	I-Process
+.	NN	O	O
+With	NN	O	O
+ontology	NN	O	B-Material
+-	NN	O	I-Material
+based	NN	O	I-Material
+Power	NN	O	I-Material
+Grid	NN	O	I-Material
+knowledge	NN	O	I-Material
+base	NN	O	I-Material
+,	NN	O	O
+we	NN	O	O
+establish	NN	O	O
+associated	NN	O	B-Task
+relationship	NN	O	I-Task
+of	NN	O	I-Task
+procedure	NN	O	I-Task
+vocabularies	NN	O	I-Task
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+paper	NN	O	O
+,	NN	O	O
+we	NN	O	O
+introduce	NN	O	B-Task
+and	NN	O	I-Task
+analyze	NN	O	I-Task
+of	NN	O	I-Task
+semantic	NN	O	I-Task
+reasoning	NN	O	I-Task
+tools	NN	O	I-Task
+such	NN	O	O
+as	NN	O	O
+Jena	NN	O	B-Material
+.	NN	O	O
+The	NN	O	O
+reasoner	NN	O	B-Process
+mechanism	NN	O	I-Process
+and	NN	O	O
+inference	NN	O	B-Material
+rules	NN	O	I-Material
+of	NN	O	I-Material
+grammar	NN	O	I-Material
+has	NN	O	O
+been	NN	O	O
+included	NN	O	O
+and	NN	O	O
+explained	NN	O	O
+.	NN	O	O
+At	NN	O	O
+last	NN	O	O
+we	NN	O	O
+give	NN	O	O
+a	NN	O	O
+specific	NN	O	B-Task
+application	NN	O	I-Task
+of	NN	O	I-Task
+security	NN	O	I-Task
+investigation	NN	O	I-Task
+procedure	NN	O	I-Task
+ontology	NN	O	I-Task
+and	NN	O	I-Task
+reasoning	NN	O	I-Task
+.	NN	O	O
+
+-DOCSTART- (S221450951400031X)
+
+This	NN	O	O
+phase	NN	O	O
+was	NN	O	O
+completed	NN	O	O
+in	NN	O	O
+2005	NN	O	O
+.	NN	O	O
+Previous	NN	O	O
+contracts	NN	O	O
+had	NN	O	O
+been	NN	O	O
+procured	NN	O	O
+with	NN	O	O
+the	NN	O	O
+contractor	NN	O	O
+providing	NN	O	O
+the	NN	O	O
+detailed	NN	O	B-Material
+design	NN	O	I-Material
+.	NN	O	O
+For	NN	O	O
+this	NN	O	O
+system	NN	O	O
+the	NN	O	O
+design	NN	O	O
+was	NN	O	O
+undertaken	NN	O	O
+by	NN	O	O
+Mott	NN	O	O
+MacDonald	NN	O	O
+.	NN	O	O
+It	NN	O	O
+was	NN	O	O
+developed	NN	O	O
+by	NN	O	O
+looking	NN	O	B-Process
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+the	NN	O	I-Process
+systems	NN	O	I-Process
+installed	NN	O	I-Process
+previously	NN	O	I-Process
+and	NN	O	I-Process
+calculating	NN	O	I-Process
+what	NN	O	O
+was	NN	O	O
+actually	NN	O	O
+required	NN	O	O
+to	NN	O	O
+achieve	NN	O	O
+cathodic	NN	O	B-Task
+protection	NN	O	I-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+piers	NN	O	I-Task
+.	NN	O	O
+This	NN	O	O
+resulted	NN	O	O
+in	NN	O	O
+a	NN	O	O
+significant	NN	O	B-Process
+reduction	NN	O	I-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+number	NN	O	I-Process
+of	NN	O	I-Process
+zones	NN	O	I-Process
+and	NN	O	I-Process
+monitoring	NN	O	I-Process
+probes	NN	O	I-Process
+.	NN	O	O
+The	NN	O	O
+varying	NN	O	B-Process
+amounts	NN	O	I-Process
+of	NN	O	I-Process
+steelwork	NN	O	I-Process
+in	NN	O	O
+the	NN	O	O
+beams	NN	O	O
+had	NN	O	O
+previously	NN	O	O
+lead	NN	O	O
+to	NN	O	O
+up	NN	O	O
+to	NN	O	O
+5	NN	O	O
+zones	NN	O	O
+per	NN	O	O
+beam	NN	O	O
+,	NN	O	O
+with	NN	O	O
+multiple	NN	O	B-Process
+layers	NN	O	I-Process
+of	NN	O	I-Process
+mesh	NN	O	I-Process
+to	NN	O	O
+achieve	NN	O	O
+the	NN	O	O
+design	NN	O	O
+current	NN	O	O
+density	NN	O	O
+.	NN	O	O
+On	NN	O	O
+review	NN	O	O
+of	NN	O	O
+the	NN	O	O
+data	NN	O	B-Material
+the	NN	O	O
+operating	NN	O	O
+current	NN	O	O
+density	NN	O	O
+was	NN	O	O
+similar	NN	O	O
+in	NN	O	O
+all	NN	O	O
+zones	NN	O	O
+and	NN	O	O
+so	NN	O	O
+this	NN	O	O
+was	NN	O	O
+reduced	NN	O	O
+to	NN	O	O
+a	NN	O	O
+single	NN	O	O
+zone	NN	O	O
+per	NN	O	O
+beam	NN	O	O
+.	NN	O	O
+The	NN	O	O
+encapsulation	NN	O	B-Process
+was	NN	O	O
+susceptible	NN	O	O
+to	NN	O	O
+ASR	NN	O	B-Process
+and	NN	O	O
+contained	NN	O	O
+post	NN	O	O
+tensioning	NN	O	O
+and	NN	O	O
+so	NN	O	O
+it	NN	O	O
+was	NN	O	O
+decided	NN	O	O
+to	NN	O	O
+use	NN	O	O
+a	NN	O	O
+galvanic	NN	O	B-Material
+system	NN	O	I-Material
+based	NN	O	O
+on	NN	O	O
+Galvashield	NN	O	B-Material
+CC	NN	O	I-Material
+anodes	NN	O	I-Material
+from	NN	O	O
+Fosroc	NN	O	O
+.	NN	O	O
+Our	NN	O	O
+design	NN	O	O
+did	NN	O	O
+not	NN	O	O
+include	NN	O	O
+an	NN	O	O
+option	NN	O	O
+to	NN	O	O
+allow	NN	O	O
+depolarization	NN	O	B-Task
+of	NN	O	I-Task
+the	NN	O	I-Task
+galvanic	NN	O	I-Task
+system	NN	O	I-Task
+,	NN	O	O
+but	NN	O	O
+the	NN	O	O
+contractor	NN	O	O
+supplied	NN	O	O
+one	NN	O	O
+,	NN	O	O
+such	NN	O	O
+that	NN	O	O
+the	NN	O	O
+anodes	NN	O	O
+could	NN	O	O
+be	NN	O	O
+remotely	NN	O	O
+disconnected	NN	O	O
+.	NN	O	O
+The	NN	O	O
+control	NN	O	O
+unit	NN	O	O
+was	NN	O	O
+from	NN	O	O
+Electrotech	NN	O	O
+CP	NN	O	O
+and	NN	O	O
+operated	NN	O	O
+via	NN	O	O
+a	NN	O	O
+broadband	NN	O	B-Process
+connection	NN	O	I-Process
+provided	NN	O	O
+by	NN	O	O
+the	NN	O	O
+contractor	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S221450951530005X)
+
+An	NN	O	O
+innovative	NN	O	O
+sound	NN	O	B-Material
+wall	NN	O	I-Material
+system	NN	O	I-Material
+was	NN	O	O
+developed	NN	O	O
+in	NN	O	O
+the	NN	O	O
+University	NN	O	O
+of	NN	O	O
+Western	NN	O	O
+Ontario	NN	O	O
+,	NN	O	O
+and	NN	O	O
+was	NN	O	O
+examined	NN	O	O
+to	NN	O	O
+serve	NN	O	O
+as	NN	O	O
+a	NN	O	O
+vertical	NN	O	O
+extension	NN	O	O
+to	NN	O	O
+the	NN	O	O
+existing	NN	O	B-Material
+sound	NN	O	I-Material
+walls	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+wall	NN	O	B-Material
+system	NN	O	I-Material
+(	NN	O	O
+denoted	NN	O	O
+as	NN	O	O
+flexi	NN	O	B-Material
+-	NN	O	I-Material
+wall	NN	O	I-Material
+)	NN	O	O
+consists	NN	O	O
+of	NN	O	O
+stay	NN	O	B-Material
+-	NN	O	I-Material
+in	NN	O	I-Material
+-	NN	O	I-Material
+place	NN	O	I-Material
+poly	NN	O	I-Material
+-	NN	O	I-Material
+blocks	NN	O	I-Material
+as	NN	O	O
+formwork	NN	O	O
+,	NN	O	O
+light	NN	O	B-Material
+polyurethane	NN	O	I-Material
+foam	NN	O	I-Material
+(	NN	O	O
+LPF	NN	O	B-Material
+)	NN	O	O
+reinforced	NN	O	O
+with	NN	O	O
+steel	NN	O	B-Material
+rebars	NN	O	I-Material
+as	NN	O	O
+structural	NN	O	B-Material
+cores	NN	O	I-Material
+and	NN	O	O
+polyurea	NN	O	B-Material
+as	NN	O	O
+a	NN	O	O
+coating	NN	O	B-Process
+of	NN	O	O
+the	NN	O	O
+wall	NN	O	B-Material
+surfaces	NN	O	I-Material
+(	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+1	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Poly	NN	O	B-Material
+-	NN	O	I-Material
+blocks	NN	O	I-Material
+are	NN	O	O
+interlocking	NN	O	B-Material
+light	NN	O	I-Material
+-	NN	O	I-Material
+weight	NN	O	I-Material
+blocks	NN	O	I-Material
+which	NN	O	O
+are	NN	O	O
+stacked	NN	O	O
+up	NN	O	O
+layer	NN	O	O
+by	NN	O	O
+layer	NN	O	O
+and	NN	O	O
+act	NN	O	O
+as	NN	O	O
+formwork	NN	O	O
+for	NN	O	O
+the	NN	O	O
+LPF	NN	O	B-Material
+cores	NN	O	I-Material
+.	NN	O	O
+The	NN	O	O
+poly	NN	O	B-Material
+-	NN	O	I-Material
+block	NN	O	I-Material
+is	NN	O	O
+20×20×80cm3	NN	O	O
+and	NN	O	O
+includes	NN	O	O
+four	NN	O	O
+cylindrical	NN	O	B-Material
+voids	NN	O	I-Material
+with	NN	O	O
+14	NN	O	O
+cm	NN	O	O
+diameter	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+made	NN	O	O
+of	NN	O	O
+molded	NN	O	B-Material
+low	NN	O	I-Material
+-	NN	O	I-Material
+density	NN	O	I-Material
+polyurethane	NN	O	I-Material
+and	NN	O	O
+weighs	NN	O	O
+approximately	NN	O	O
+1	NN	O	O
+kg	NN	O	O
+.	NN	O	O
+The	NN	O	O
+poly	NN	O	B-Material
+-	NN	O	I-Material
+blocks	NN	O	I-Material
+are	NN	O	O
+fire	NN	O	B-Material
+-	NN	O	I-Material
+resistant	NN	O	I-Material
+blocks	NN	O	I-Material
+and	NN	O	O
+have	NN	O	O
+an	NN	O	O
+excellent	NN	O	O
+capability	NN	O	O
+to	NN	O	O
+absorb	NN	O	B-Process
+,	NN	O	O
+mitigate	NN	O	B-Process
+and	NN	O	O
+reflect	NN	O	B-Process
+a	NN	O	O
+wide	NN	O	O
+range	NN	O	O
+of	NN	O	O
+noises	NN	O	O
+with	NN	O	O
+unmatched	NN	O	O
+frequency	NN	O	O
+of	NN	O	O
+reflective	NN	O	O
+noise	NN	O	O
+.	NN	O	O
+Polyurea	NN	O	B-Material
+coating	NN	O	I-Material
+is	NN	O	O
+an	NN	O	O
+abrasion	NN	O	B-Material
+-	NN	O	I-Material
+resistant	NN	O	I-Material
+finishing	NN	O	I-Material
+layer	NN	O	I-Material
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+sprayed	NN	O	B-Process
+on	NN	O	O
+the	NN	O	O
+surfaces	NN	O	B-Material
+of	NN	O	I-Material
+the	NN	O	I-Material
+wall	NN	O	I-Material
+and	NN	O	O
+sets	NN	O	O
+within	NN	O	O
+2–3min	NN	O	O
+.	NN	O	O
+This	NN	O	O
+layer	NN	O	B-Material
+also	NN	O	O
+enhances	NN	O	B-Process
+the	NN	O	I-Process
+surface	NN	O	I-Process
+resistance	NN	O	I-Process
+of	NN	O	O
+poly	NN	O	B-Material
+-	NN	O	I-Material
+blocks	NN	O	I-Material
+against	NN	O	O
+stone	NN	O	B-Process
+impact	NN	O	I-Process
+,	NN	O	O
+weathering	NN	O	B-Process
+,	NN	O	O
+fire	NN	O	B-Process
+development	NN	O	I-Process
+,	NN	O	O
+chemicals	NN	O	B-Material
+and	NN	O	O
+penetration	NN	O	B-Process
+.	NN	O	O
+LPF	NN	O	B-Material
+is	NN	O	O
+an	NN	O	O
+expanding	NN	O	B-Material
+liquid	NN	O	I-Material
+mixture	NN	O	I-Material
+which	NN	O	O
+is	NN	O	O
+injected	NN	O	O
+into	NN	O	O
+the	NN	O	O
+poly	NN	O	B-Material
+-	NN	O	I-Material
+block	NN	O	I-Material
+voids	NN	O	I-Material
+and	NN	O	O
+cures	NN	O	B-Material
+within	NN	O	O
+10min	NN	O	O
+.	NN	O	O
+Steel	NN	O	B-Material
+rebars	NN	O	I-Material
+are	NN	O	O
+epoxied	NN	O	O
+into	NN	O	O
+holes	NN	O	B-Material
+drilled	NN	O	O
+in	NN	O	O
+the	NN	O	O
+existing	NN	O	B-Material
+sound	NN	O	I-Material
+wall	NN	O	I-Material
+to	NN	O	O
+connect	NN	O	O
+the	NN	O	O
+wall	NN	O	B-Material
+extension	NN	O	I-Material
+to	NN	O	O
+its	NN	O	O
+base	NN	O	B-Material
+.	NN	O	O
+
+-DOCSTART- (S2214509515300103)
+
+Another	NN	O	O
+important	NN	O	O
+reason	NN	O	O
+for	NN	O	O
+the	NN	O	O
+damages	NN	O	O
+incurred	NN	O	O
+by	NN	O	O
+the	NN	O	O
+RC	NN	O	O
+buildings	NN	O	O
+is	NN	O	O
+workmanship	NN	O	B-Process
+defects	NN	O	I-Process
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+understood	NN	O	O
+that	NN	O	O
+granulometry	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+handmade	NN	O	I-Process
+concretes	NN	O	I-Process
+was	NN	O	O
+not	NN	O	O
+in	NN	O	O
+compliance	NN	O	O
+with	NN	O	O
+the	NN	O	O
+standards	NN	O	O
+since	NN	O	O
+the	NN	O	O
+aggregate	NN	O	O
+utilized	NN	O	O
+in	NN	O	O
+them	NN	O	O
+was	NN	O	O
+not	NN	O	O
+sieved	NN	O	O
+.	NN	O	O
+Also	NN	O	O
+the	NN	O	O
+compaction	NN	O	B-Process
+process	NN	O	I-Process
+was	NN	O	O
+not	NN	O	O
+properly	NN	O	O
+implemented	NN	O	O
+in	NN	O	O
+general	NN	O	O
+in	NN	O	O
+the	NN	O	O
+installment	NN	O	B-Process
+of	NN	O	I-Process
+concrete	NN	O	I-Process
+in	NN	O	O
+RC	NN	O	O
+buildings	NN	O	O
+.	NN	O	O
+This	NN	O	O
+situation	NN	O	O
+resulted	NN	O	O
+in	NN	O	O
+the	NN	O	O
+concrete	NN	O	B-Material
+to	NN	O	O
+exhibit	NN	O	O
+an	NN	O	O
+excessively	NN	O	O
+porous	NN	O	O
+structure	NN	O	O
+.	NN	O	O
+The	NN	O	O
+most	NN	O	O
+fundamental	NN	O	O
+rules	NN	O	O
+of	NN	O	O
+thumb	NN	O	O
+of	NN	O	O
+construction	NN	O	O
+,	NN	O	O
+namely	NN	O	O
+concrete	NN	O	B-Material
+cover	NN	O	I-Material
+,	NN	O	O
+was	NN	O	O
+not	NN	O	O
+taken	NN	O	O
+care	NN	O	O
+of	NN	O	O
+in	NN	O	O
+formwork	NN	O	O
+workmanship	NN	O	O
+.	NN	O	O
+Faults	NN	O	B-Process
+in	NN	O	I-Process
+the	NN	O	I-Process
+connections	NN	O	I-Process
+of	NN	O	I-Process
+stirrups	NN	O	I-Process
+to	NN	O	O
+the	NN	O	O
+longitudinal	NN	O	O
+bars	NN	O	O
+,	NN	O	O
+unstaggered	NN	O	B-Process
+formation	NN	O	I-Process
+of	NN	O	I-Process
+stirrup	NN	O	I-Process
+hooks	NN	O	B-Material
+in	NN	O	O
+beams	NN	O	B-Material
+and	NN	O	O
+columns	NN	O	B-Material
+,	NN	O	O
+the	NN	O	O
+perpendicular	NN	O	B-Process
+angles	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+hooks	NN	O	B-Material
+,	NN	O	O
+inadequately	NN	O	B-Process
+anchorage	NN	O	I-Process
+lengths	NN	O	I-Process
+of	NN	O	O
+the	NN	O	O
+stirrup	NN	O	B-Material
+hooks	NN	O	I-Material
+and	NN	O	O
+longitudinal	NN	O	B-Material
+bars	NN	O	I-Material
+,	NN	O	O
+and	NN	O	O
+the	NN	O	O
+use	NN	O	B-Process
+of	NN	O	I-Process
+cold	NN	O	I-Process
+joints	NN	O	I-Process
+were	NN	O	O
+the	NN	O	O
+other	NN	O	O
+frequently	NN	O	O
+encountered	NN	O	O
+workmanship	NN	O	B-Process
+defects	NN	O	I-Process
+(	NN	O	O
+Figs	NN	O	O
+.	NN	O	O
+19–22	NN	O	O
+)	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2214657115000052)
+
+The	NN	O	O
+exponential	NN	O	B-Process
+relationships	NN	O	I-Process
+reported	NN	O	O
+in	NN	O	O
+the	NN	O	O
+plots	NN	O	O
+may	NN	O	O
+be	NN	O	O
+used	NN	O	O
+to	NN	O	O
+convert	NN	O	B-Task
+the	NN	O	I-Task
+dielectric	NN	O	I-Task
+values	NN	O	I-Task
+to	NN	O	I-Task
+air	NN	O	I-Task
+void	NN	O	I-Task
+values	NN	O	I-Task
+as	NN	O	O
+prescribed	NN	O	O
+in	NN	O	O
+previous	NN	O	O
+studies	NN	O	O
+[	NN	O	O
+1–3	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+AC	NN	O	B-Process
+pavement	NN	O	I-Process
+composite	NN	O	I-Process
+permittivity	NN	O	I-Process
+reduces	NN	O	O
+,	NN	O	O
+along	NN	O	O
+with	NN	O	O
+the	NN	O	O
+reflection	NN	O	O
+coefficient	NN	O	O
+,	NN	O	O
+as	NN	O	O
+the	NN	O	O
+volumetric	NN	O	B-Process
+proportion	NN	O	I-Process
+of	NN	O	I-Process
+air	NN	O	I-Process
+increases	NN	O	O
+as	NN	O	O
+compared	NN	O	O
+to	NN	O	O
+the	NN	O	O
+remaining	NN	O	O
+components	NN	O	O
+.	NN	O	O
+However	NN	O	O
+,	NN	O	O
+the	NN	O	O
+method	NN	O	O
+relies	NN	O	O
+on	NN	O	O
+an	NN	O	O
+empirical	NN	O	O
+fit	NN	O	O
+,	NN	O	O
+determined	NN	O	O
+on	NN	O	O
+a	NN	O	O
+case	NN	O	O
+-	NN	O	O
+by	NN	O	O
+-	NN	O	O
+case	NN	O	O
+basis	NN	O	O
+,	NN	O	O
+since	NN	O	O
+the	NN	O	O
+permittivity	NN	O	O
+of	NN	O	O
+the	NN	O	O
+remaining	NN	O	O
+components	NN	O	O
+depends	NN	O	O
+on	NN	O	O
+the	NN	O	O
+mix	NN	O	B-Material
+design	NN	O	I-Material
+(	NN	O	O
+aggregate	NN	O	O
+type	NN	O	O
+,	NN	O	O
+binder	NN	O	O
+content	NN	O	O
+,	NN	O	O
+etc	NN	O	O
+.	NN	O	O
+)	NN	O	O
+.	NN	O	O
+Long	NN	O	B-Process
+term	NN	O	I-Process
+studies	NN	O	I-Process
+in	NN	O	I-Process
+Finland	NN	O	I-Process
+concluded	NN	O	O
+that	NN	O	O
+this	NN	O	O
+empirical	NN	O	O
+fit	NN	O	O
+is	NN	O	O
+an	NN	O	O
+exponential	NN	O	B-Task
+relationship	NN	O	I-Task
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+exponential	NN	O	O
+fits	NN	O	O
+,	NN	O	O
+using	NN	O	O
+a	NN	O	O
+sufficient	NN	O	B-Process
+amount	NN	O	I-Process
+of	NN	O	I-Process
+cores	NN	O	I-Process
+,	NN	O	O
+can	NN	O	O
+be	NN	O	O
+used	NN	O	O
+to	NN	O	O
+map	NN	O	B-Task
+the	NN	O	I-Task
+air	NN	O	I-Task
+void	NN	O	I-Task
+content	NN	O	I-Task
+variation	NN	O	I-Task
+in	NN	O	O
+a	NN	O	O
+similar	NN	O	O
+manner	NN	O	O
+to	NN	O	O
+the	NN	O	O
+dielectric	NN	O	B-Material
+maps	NN	O	I-Material
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+4	NN	O	O
+.	NN	O	O
+Only	NN	O	O
+4	NN	O	O
+cores	NN	O	O
+were	NN	O	O
+feasible	NN	O	O
+due	NN	O	O
+to	NN	O	O
+various	NN	O	O
+factors	NN	O	O
+involved	NN	O	O
+with	NN	O	O
+testing	NN	O	B-Task
+the	NN	O	I-Task
+final	NN	O	I-Task
+lift	NN	O	I-Task
+of	NN	O	O
+an	NN	O	O
+in	NN	O	O
+-	NN	O	O
+service	NN	O	O
+pavement	NN	O	O
+.	NN	O	O
+More	NN	O	O
+cores	NN	O	O
+are	NN	O	O
+needed	NN	O	O
+for	NN	O	O
+more	NN	O	B-Task
+stable	NN	O	I-Task
+exponential	NN	O	I-Task
+coefficients	NN	O	I-Task
+,	NN	O	O
+although	NN	O	O
+the	NN	O	O
+limited	NN	O	O
+cores	NN	O	O
+show	NN	O	O
+that	NN	O	O
+the	NN	O	O
+predicted	NN	O	B-Process
+relationships	NN	O	I-Process
+are	NN	O	O
+similar	NN	O	O
+for	NN	O	O
+the	NN	O	O
+measured	NN	O	B-Process
+dielectric	NN	O	I-Process
+range	NN	O	I-Process
+in	NN	O	O
+this	NN	O	O
+case	NN	O	O
+-	NN	O	O
+study	NN	O	O
+.	NN	O	O
+Since	NN	O	O
+both	NN	O	O
+regressions	NN	O	B-Process
+predict	NN	O	O
+air	NN	O	B-Task
+void	NN	O	I-Task
+content	NN	O	I-Task
+at	NN	O	O
+a	NN	O	O
+maximum	NN	O	O
+difference	NN	O	O
+of	NN	O	O
+0.56	NN	O	O
+%	NN	O	O
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+within	NN	O	O
+the	NN	O	O
+uncertainty	NN	O	O
+of	NN	O	O
+the	NN	O	O
+core	NN	O	B-Process
+measurement	NN	O	I-Process
+precision	NN	O	I-Process
+of	NN	O	O
+0.7	NN	O	O
+%	NN	O	O
+,	NN	O	O
+use	NN	O	O
+of	NN	O	O
+either	NN	O	O
+the	NN	O	O
+initial	NN	O	B-Process
+or	NN	O	I-Process
+repeat	NN	O	I-Process
+run	NN	O	I-Process
+regression	NN	O	I-Process
+predictions	NN	O	I-Process
+are	NN	O	O
+appropriate	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2214657115000155)
+
+MicroCT	NN	O	B-Process
+has	NN	O	O
+been	NN	O	O
+applied	NN	O	O
+to	NN	O	O
+AM	NN	O	B-Material
+parts	NN	O	I-Material
+in	NN	O	O
+various	NN	O	O
+forms	NN	O	O
+.	NN	O	O
+Some	NN	O	O
+preliminary	NN	O	B-Material
+results	NN	O	I-Material
+demonstrating	NN	O	O
+the	NN	O	O
+visualization	NN	O	B-Task
+of	NN	O	I-Task
+defects	NN	O	I-Task
+including	NN	O	O
+porosity	NN	O	B-Process
+in	NN	O	I-Process
+AM	NN	O	I-Process
+components	NN	O	I-Process
+were	NN	O	O
+reported	NN	O	O
+in	NN	O	O
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+another	NN	O	O
+study	NN	O	O
+,	NN	O	O
+the	NN	O	O
+porosity	NN	O	B-Task
+structures	NN	O	I-Task
+in	NN	O	I-Task
+parts	NN	O	I-Task
+built	NN	O	O
+with	NN	O	O
+improper	NN	O	O
+settings	NN	O	O
+were	NN	O	O
+investigated	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+this	NN	O	O
+work	NN	O	O
+,	NN	O	O
+the	NN	O	O
+average	NN	O	B-Process
+porosity	NN	O	I-Process
+ranged	NN	O	O
+from	NN	O	O
+0.1–0.5	NN	O	O
+%	NN	O	O
+,	NN	O	O
+and	NN	O	O
+large	NN	O	O
+pores	NN	O	O
+were	NN	O	O
+observed	NN	O	O
+which	NN	O	O
+followed	NN	O	O
+the	NN	O	O
+build	NN	O	B-Process
+direction	NN	O	I-Process
+and	NN	O	O
+may	NN	O	O
+be	NN	O	O
+attributed	NN	O	O
+to	NN	O	O
+the	NN	O	O
+electron	NN	O	B-Process
+beam	NN	O	I-Process
+raster	NN	O	I-Process
+and	NN	O	I-Process
+overlap	NN	O	I-Process
+pattern	NN	O	I-Process
+.	NN	O	I-Process
+This	NN	O	O
+was	NN	O	O
+followed	NN	O	O
+by	NN	O	O
+more	NN	O	O
+recent	NN	O	B-Material
+reports	NN	O	I-Material
+of	NN	O	O
+the	NN	O	O
+porosity	NN	O	B-Task
+distribution	NN	O	I-Task
+as	NN	O	O
+a	NN	O	O
+function	NN	O	O
+of	NN	O	O
+build	NN	O	O
+strategy	NN	O	O
+for	NN	O	O
+electron	NN	O	B-Material
+beam	NN	O	I-Material
+melted	NN	O	I-Material
+samples	NN	O	I-Material
+with	NN	O	O
+average	NN	O	O
+porosity	NN	O	O
+<	NN	O	O
+0.2	NN	O	O
+%	NN	O	O
+[	NN	O	O
+8	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+another	NN	O	O
+study	NN	O	O
+,	NN	O	O
+similar	NN	O	O
+porosity	NN	O	B-Material
+images	NN	O	I-Material
+from	NN	O	O
+microCT	NN	O	B-Material
+were	NN	O	O
+reported	NN	O	O
+at	NN	O	O
+levels	NN	O	O
+above	NN	O	O
+0.2	NN	O	O
+%	NN	O	O
+average	NN	O	O
+porosity	NN	O	O
+[	NN	O	O
+9,10	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Very	NN	O	O
+recent	NN	O	O
+work	NN	O	O
+reports	NN	O	O
+similar	NN	O	O
+images	NN	O	O
+and	NN	O	O
+may	NN	O	O
+indicate	NN	O	O
+that	NN	O	O
+the	NN	O	O
+porosity	NN	O	O
+structure	NN	O	O
+depends	NN	O	O
+on	NN	O	O
+the	NN	O	O
+build	NN	O	O
+direction	NN	O	O
+[	NN	O	O
+11	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Other	NN	O	O
+applications	NN	O	O
+of	NN	O	O
+the	NN	O	O
+use	NN	O	O
+of	NN	O	O
+microCT	NN	O	B-Material
+to	NN	O	O
+characterize	NN	O	B-Task
+AM	NN	O	I-Task
+parts	NN	O	I-Task
+include	NN	O	O
+the	NN	O	O
+comparison	NN	O	B-Process
+of	NN	O	I-Process
+the	NN	O	I-Process
+part	NN	O	I-Process
+to	NN	O	I-Process
+its	NN	O	I-Process
+design	NN	O	I-Process
+model	NN	O	I-Process
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+and	NN	O	O
+the	NN	O	O
+characterization	NN	O	B-Process
+of	NN	O	I-Process
+surface	NN	O	I-Process
+roughness	NN	O	I-Process
+of	NN	O	O
+such	NN	O	O
+parts	NN	O	O
+[	NN	O	O
+13	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+the	NN	O	O
+present	NN	O	O
+work	NN	O	O
+,	NN	O	O
+the	NN	O	O
+aim	NN	O	O
+is	NN	O	O
+to	NN	O	O
+demonstrate	NN	O	B-Task
+a	NN	O	I-Task
+specific	NN	O	I-Task
+type	NN	O	I-Task
+of	NN	O	I-Task
+defect	NN	O	I-Task
+present	NN	O	O
+at	NN	O	O
+very	NN	O	B-Process
+low	NN	O	I-Process
+average	NN	O	I-Process
+porosity	NN	O	I-Process
+levels	NN	O	I-Process
+below	NN	O	O
+0.01	NN	O	O
+%	NN	O	O
+,	NN	O	O
+and	NN	O	O
+which	NN	O	O
+does	NN	O	O
+not	NN	O	B-Process
+follow	NN	O	I-Process
+the	NN	O	I-Process
+build	NN	O	I-Process
+direction	NN	O	I-Process
+as	NN	O	O
+in	NN	O	O
+some	NN	O	O
+other	NN	O	O
+reported	NN	O	O
+examples	NN	O	O
+.	NN	O	O
+We	NN	O	O
+also	NN	O	O
+demonstrate	NN	O	O
+how	NN	O	O
+this	NN	O	O
+porosity	NN	O	B-Task
+structure	NN	O	I-Task
+changes	NN	O	I-Task
+after	NN	O	O
+Hot	NN	O	B-Process
+Isostatic	NN	O	I-Process
+Pressing	NN	O	I-Process
+(	NN	O	O
+HIP	NN	O	B-Process
+)	NN	O	O
+treatment	NN	O	O
+of	NN	O	O
+the	NN	O	O
+same	NN	O	O
+sample	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2214657115000179)
+
+Aeroengine	NN	O	B-Task
+turbine	NN	O	I-Task
+disks	NN	O	I-Task
+often	NN	O	O
+consist	NN	O	O
+of	NN	O	O
+paramagnetic	NN	O	B-Material
+,	NN	O	O
+that	NN	O	O
+means	NN	O	O
+non	NN	O	B-Material
+-	NN	O	I-Material
+ferromagnetic	NN	O	I-Material
+Nickel	NN	O	I-Material
+based	NN	O	I-Material
+alloys	NN	O	I-Material
+.	NN	O	O
+Sometimes	NN	O	O
+,	NN	O	O
+parasitic	NN	O	B-Material
+small	NN	O	I-Material
+ferromagnetic	NN	O	I-Material
+particles	NN	O	I-Material
+can	NN	O	O
+be	NN	O	O
+included	NN	O	O
+in	NN	O	O
+these	NN	O	O
+disks	NN	O	O
+that	NN	O	O
+may	NN	O	O
+decrease	NN	O	B-Task
+the	NN	O	I-Task
+mechanical	NN	O	I-Task
+stability	NN	O	I-Task
+.	NN	O	O
+For	NN	O	O
+this	NN	O	O
+reason	NN	O	O
+,	NN	O	O
+in	NN	O	O
+case	NN	O	O
+of	NN	O	O
+a	NN	O	O
+suspicion	NN	O	O
+disks	NN	O	O
+are	NN	O	O
+to	NN	O	O
+be	NN	O	O
+analysed	NN	O	O
+with	NN	O	O
+respect	NN	O	O
+to	NN	O	O
+ferromagnetic	NN	O	B-Process
+inclusions	NN	O	I-Process
+.	NN	O	O
+These	NN	O	O
+inclusions	NN	O	O
+generate	NN	O	O
+a	NN	O	O
+magnetic	NN	O	B-Task
+density	NN	O	I-Task
+which	NN	O	O
+can	NN	O	O
+be	NN	O	O
+measured	NN	O	O
+by	NN	O	O
+a	NN	O	O
+flux	NN	O	B-Material
+gate	NN	O	I-Material
+magnetometer	NN	O	I-Material
+using	NN	O	O
+the	NN	O	O
+magnetic	NN	O	B-Process
+remanence	NN	O	I-Process
+method	NN	O	I-Process
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+The	NN	O	O
+detection	NN	O	B-Process
+principle	NN	O	I-Process
+of	NN	O	I-Process
+ferromagnetic	NN	O	I-Process
+impurities	NN	O	I-Process
+in	NN	O	O
+non	NN	O	O
+-	NN	O	O
+magnetic	NN	O	O
+metallic	NN	O	O
+materials	NN	O	O
+is	NN	O	O
+based	NN	O	O
+on	NN	O	O
+their	NN	O	O
+remanence	NN	O	O
+.	NN	O	O
+Before	NN	O	O
+such	NN	O	O
+a	NN	O	O
+measurement	NN	O	B-Task
+can	NN	O	O
+be	NN	O	O
+carried	NN	O	O
+out	NN	O	O
+,	NN	O	O
+the	NN	O	O
+aeroengine	NN	O	O
+turbine	NN	O	O
+disks	NN	O	O
+are	NN	O	O
+premagnetised	NN	O	B-Process
+in	NN	O	O
+axial	NN	O	O
+direction	NN	O	O
+.	NN	O	O
+As	NN	O	O
+ferromagnetic	NN	O	O
+materials	NN	O	O
+show	NN	O	O
+the	NN	O	O
+well	NN	O	O
+-	NN	O	O
+known	NN	O	O
+hysteresis	NN	O	B-Process
+behaviour	NN	O	I-Process
+,	NN	O	O
+those	NN	O	O
+materials	NN	O	O
+can	NN	O	O
+be	NN	O	O
+magnetised	NN	O	O
+by	NN	O	O
+a	NN	O	O
+strong	NN	O	B-Process
+magnetic	NN	O	I-Process
+field	NN	O	I-Process
+which	NN	O	O
+drives	NN	O	O
+the	NN	O	O
+magnetic	NN	O	O
+material	NN	O	O
+into	NN	O	O
+saturation	NN	O	O
+.	NN	O	O
+When	NN	O	O
+removing	NN	O	B-Process
+the	NN	O	I-Process
+magnetic	NN	O	I-Process
+field	NN	O	I-Process
+,	NN	O	O
+the	NN	O	O
+remanence	NN	O	O
+is	NN	O	O
+left	NN	O	O
+.	NN	O	O
+This	NN	O	O
+remaining	NN	O	B-Process
+flux	NN	O	I-Process
+density	NN	O	I-Process
+is	NN	O	O
+used	NN	O	O
+to	NN	O	O
+detect	NN	O	O
+them	NN	O	O
+in	NN	O	O
+non	NN	O	O
+-	NN	O	O
+magnetic	NN	O	O
+materials	NN	O	O
+.	NN	O	O
+
+-DOCSTART- (S2352179114200032)
+
+Although	NN	O	O
+the	NN	O	O
+presented	NN	O	O
+model	NN	O	O
+is	NN	O	O
+developed	NN	O	O
+and	NN	O	O
+tested	NN	O	O
+with	NN	O	O
+a	NN	O	B-Material
+-	NN	O	I-Material
+C	NN	O	I-Material
+:	NN	O	I-Material
+H	NN	O	I-Material
+layers	NN	O	I-Material
+in	NN	O	O
+mind	NN	O	O
+,	NN	O	O
+it	NN	O	O
+is	NN	O	O
+not	NN	O	O
+necessarily	NN	O	O
+limited	NN	O	O
+to	NN	O	O
+them	NN	O	O
+.	NN	O	O
+Moreover	NN	O	O
+,	NN	O	O
+the	NN	O	O
+only	NN	O	O
+assumptions	NN	O	O
+are	NN	O	O
+chemical	NN	O	B-Process
+reactions	NN	O	I-Process
+between	NN	O	O
+the	NN	O	O
+gas	NN	O	B-Material
+and	NN	O	O
+the	NN	O	O
+solid	NN	O	B-Material
+forming	NN	O	I-Material
+volatiles	NN	O	I-Material
+,	NN	O	O
+the	NN	O	O
+loss	NN	O	O
+of	NN	O	O
+these	NN	O	O
+volatiles	NN	O	O
+from	NN	O	O
+the	NN	O	O
+material	NN	O	O
+and	NN	O	O
+the	NN	O	O
+two	NN	O	O
+stated	NN	O	O
+boundary	NN	O	O
+conditions	NN	O	O
+of	NN	O	O
+gas	NN	O	B-Process
+influx	NN	O	I-Process
+at	NN	O	O
+a	NN	O	O
+single	NN	O	B-Material
+outer	NN	O	I-Material
+surface	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+possibility	NN	O	O
+of	NN	O	O
+reactions	NN	O	B-Process
+throughout	NN	O	O
+the	NN	O	O
+bulk	NN	O	O
+.	NN	O	O
+Porosity	NN	O	B-Process
+and	NN	O	O
+significant	NN	O	O
+gas	NN	O	B-Material
+inventories	NN	O	I-Material
+were	NN	O	O
+observed	NN	O	O
+not	NN	O	O
+only	NN	O	O
+for	NN	O	O
+carbon	NN	O	B-Material
+[	NN	O	O
+12	NN	O	O
+]	NN	O	O
+but	NN	O	O
+,	NN	O	O
+e.g.	NN	O	O
+also	NN	O	O
+for	NN	O	O
+beryllium	NN	O	B-Material
+co	NN	O	I-Material
+-	NN	O	I-Material
+deposits	NN	O	I-Material
+[	NN	O	O
+25	NN	O	O
+]	NN	O	O
+and	NN	O	O
+can	NN	O	O
+be	NN	O	O
+expected	NN	O	O
+for	NN	O	O
+other	NN	O	O
+co	NN	O	O
+-	NN	O	O
+deposits	NN	O	O
+formed	NN	O	O
+in	NN	O	O
+plasma	NN	O	B-Material
+devices	NN	O	I-Material
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+.	NN	O	O
+Thus	NN	O	O
+,	NN	O	O
+TCR	NN	O	B-Material
+and	NN	O	O
+its	NN	O	O
+description	NN	O	O
+by	NN	O	O
+the	NN	O	O
+presented	NN	O	O
+model	NN	O	O
+may	NN	O	O
+be	NN	O	O
+applicable	NN	O	O
+to	NN	O	O
+all	NN	O	O
+deposits	NN	O	O
+.	NN	O	O
+If	NN	O	O
+a	NN	O	O
+layer	NN	O	O
+has	NN	O	O
+constituents	NN	O	B-Process
+that	NN	O	I-Process
+are	NN	O	I-Process
+not	NN	O	I-Process
+forming	NN	O	I-Process
+volatiles	NN	O	I-Process
+with	NN	O	I-Process
+the	NN	O	I-Process
+reactive	NN	O	I-Process
+gas	NN	O	I-Process
+,	NN	O	O
+e.g.	NN	O	O
+W	NN	O	B-Process
+and	NN	O	I-Process
+Be	NN	O	I-Process
+with	NN	O	I-Process
+O2	NN	O	I-Process
+,	NN	O	O
+these	NN	O	O
+constituents	NN	O	O
+can	NN	O	O
+not	NN	O	O
+be	NN	O	O
+removed	NN	O	O
+by	NN	O	O
+TCR	NN	O	B-Material
+,	NN	O	O
+as	NN	O	O
+they	NN	O	O
+will	NN	O	O
+not	NN	O	O
+be	NN	O	O
+removed	NN	O	O
+from	NN	O	O
+the	NN	O	O
+deposit	NN	O	O
+.	NN	O	O
+This	NN	O	O
+can	NN	O	O
+influence	NN	O	O
+the	NN	O	O
+removal	NN	O	O
+of	NN	O	O
+other	NN	O	O
+deposit	NN	O	B-Material
+constituents	NN	O	I-Material
+and	NN	O	O
+the	NN	O	O
+time	NN	O	O
+evolution	NN	O	O
+of	NN	O	O
+the	NN	O	O
+process	NN	O	O
+can	NN	O	O
+change	NN	O	O
+.	NN	O	O
+The	NN	O	O
+new	NN	O	O
+understanding	NN	O	O
+of	NN	O	O
+TCR	NN	O	B-Material
+may	NN	O	O
+,	NN	O	O
+for	NN	O	O
+the	NN	O	O
+first	NN	O	O
+time	NN	O	O
+,	NN	O	O
+allow	NN	O	O
+applying	NN	O	O
+the	NN	O	O
+method	NN	O	O
+in	NN	O	O
+a	NN	O	O
+controlled	NN	O	O
+way	NN	O	O
+to	NN	O	O
+nuclear	NN	O	B-Material
+fusion	NN	O	I-Material
+devices	NN	O	I-Material
+,	NN	O	O
+possibly	NN	O	O
+solving	NN	O	O
+the	NN	O	O
+tritium	NN	O	B-Task
+retention	NN	O	I-Task
+issue	NN	O	I-Task
+especially	NN	O	O
+related	NN	O	O
+to	NN	O	O
+carbon	NN	O	B-Material
+based	NN	O	I-Material
+materials	NN	O	I-Material
+.	NN	O	O
+
+-DOCSTART- (S2352179114200056)
+
+Power	NN	O	B-Material
+and	NN	O	I-Material
+particle	NN	O	I-Material
+exhaust	NN	O	I-Material
+are	NN	O	O
+crucial	NN	O	O
+for	NN	O	O
+the	NN	O	O
+viability	NN	O	O
+of	NN	O	O
+any	NN	O	O
+future	NN	O	O
+fusion	NN	O	B-Material
+power	NN	O	I-Material
+plant	NN	O	I-Material
+concept	NN	O	O
+.	NN	O	O
+Heat	NN	O	O
+in	NN	O	O
+fusion	NN	O	B-Process
+reactors	NN	O	I-Process
+must	NN	O	O
+be	NN	O	O
+extracted	NN	O	O
+through	NN	O	O
+a	NN	O	O
+wall	NN	O	O
+and	NN	O	O
+can	NN	O	O
+not	NN	O	O
+be	NN	O	O
+exhausted	NN	O	O
+volumetrically	NN	O	O
+,	NN	O	O
+which	NN	O	O
+limits	NN	O	O
+the	NN	O	O
+allowed	NN	O	O
+power	NN	O	O
+density	NN	O	O
+in	NN	O	O
+fusion	NN	O	B-Process
+reactors	NN	O	I-Process
+[	NN	O	O
+1	NN	O	O
+]	NN	O	O
+and	NN	O	O
+is	NN	O	O
+a	NN	O	O
+severe	NN	O	B-Task
+technical	NN	O	I-Task
+challenge	NN	O	I-Task
+in	NN	O	O
+itself	NN	O	O
+[	NN	O	O
+2	NN	O	O
+]	NN	O	O
+.	NN	O	O
+In	NN	O	O
+addition	NN	O	O
+,	NN	O	O
+structural	NN	O	B-Process
+material	NN	O	I-Process
+changes	NN	O	I-Process
+resulting	NN	O	O
+from	NN	O	O
+neutron	NN	O	B-Process
+irradiation	NN	O	I-Process
+cause	NN	O	O
+degradation	NN	O	O
+in	NN	O	O
+the	NN	O	O
+heat	NN	O	O
+exhaust	NN	O	O
+capabilities	NN	O	O
+of	NN	O	O
+existing	NN	O	O
+designs	NN	O	O
+[	NN	O	O
+3	NN	O	O
+]	NN	O	O
+and	NN	O	O
+static	NN	O	B-Process
+surfaces	NN	O	I-Process
+can	NN	O	O
+suffer	NN	O	O
+severely	NN	O	O
+from	NN	O	O
+erosion	NN	O	O
+due	NN	O	O
+to	NN	O	O
+impinging	NN	O	B-Material
+plasma	NN	O	I-Material
+particles	NN	O	I-Material
+[	NN	O	O
+4,5	NN	O	O
+]	NN	O	O
+.	NN	O	O
+It	NN	O	O
+is	NN	O	O
+concluded	NN	O	O
+that	NN	O	O
+conventional	NN	O	O
+concepts	NN	O	O
+and	NN	O	O
+materials	NN	O	O
+for	NN	O	O
+plasma	NN	O	B-Task
+facing	NN	O	I-Task
+components	NN	O	I-Task
+(	NN	O	O
+PFCs	NN	O	B-Task
+)	NN	O	O
+reach	NN	O	O
+their	NN	O	O
+limits	NN	O	O
+in	NN	O	O
+terms	NN	O	O
+of	NN	O	O
+material	NN	O	O
+lifetime	NN	O	O
+and	NN	O	O
+power	NN	O	O
+exhaust	NN	O	O
+at	NN	O	O
+approximately	NN	O	O
+20MW	NN	O	O
+/	NN	O	O
+m2	NN	O	O
+,	NN	O	O
+which	NN	O	O
+is	NN	O	O
+presumably	NN	O	O
+dramatically	NN	O	O
+reduced	NN	O	O
+to	NN	O	O
+<	NN	O	O
+10MW	NN	O	O
+/	NN	O	O
+m2	NN	O	O
+due	NN	O	O
+to	NN	O	O
+neutron	NN	O	B-Process
+damage	NN	O	I-Process
+in	NN	O	O
+a	NN	O	O
+D	NN	O	B-Material
+-	NN	O	I-Material
+T	NN	O	I-Material
+reactor	NN	O	I-Material
+[	NN	O	O
+6	NN	O	O
+]	NN	O	O
+or	NN	O	O
+even	NN	O	O
+only	NN	O	O
+half	NN	O	O
+that	NN	O	O
+value	NN	O	O
+[	NN	O	O
+7	NN	O	O
+]	NN	O	O
+.	NN	O	O
+

From 6c0291d1156c4303f33f1a437d334be88dfb8f33 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 10:06:26 -0800
Subject: [PATCH 06/23] typsetting

---
 sci_bert/common/span.py                       | 26 +------------------
 .../semeval2017_to_coll2003_and_relations.py  |  2 +-
 2 files changed, 2 insertions(+), 26 deletions(-)

diff --git a/sci_bert/common/span.py b/sci_bert/common/span.py
index 4ed2e12..68fa07a 100644
--- a/sci_bert/common/span.py
+++ b/sci_bert/common/span.py
@@ -212,12 +212,12 @@ def _is_proper_sents(sent_spans: List[List[Span]]) -> bool:
             return False
     return True
 
+
 def _is_proper_sent(spans: List[Span]) -> bool:
     # check for sorted tokens & disjoint tokens
     return all(spans[i].start <= spans[i + 1].start and spans[i] < spans[i + 1] for i in range(len(spans) - 1))
 
 
-
 def _label_token_spans(token_spans: List[TokenSpan],
                        mention_spans: List[MentionSpan]) -> List[str]:
     num_tokens, num_mentions = len(token_spans), len(mention_spans)
@@ -313,27 +313,3 @@ def _match_mention_spans_to_sentences(sent_token_spans: List[List[TokenSpan]],
 
     assert len(sent_mention_spans) == len(sent_token_spans)
     return sent_mention_spans
-
-    #
-    #
-    # # split mention spans to match sentences
-    # sent_mention_spans = []
-    # temp_hold_mentions = []
-    # index_sent, index_mention = 0, 0
-    # while index_sent < num_sents and index_mention < num_mentions:
-    #     mention_span = mention_spans[index_mention]
-    #     sent_start = sent_token_spans[index_sent][0].start
-    #     sent_stop = sent_token_spans[index_sent][-1].stop
-    #     # if mention within sentence, keep it
-    #     if mention_span.start >= sent_start and mention_span.stop <= sent_stop:
-    #         temp_hold_mentions.append(mention_span)
-    #         index_mention += 1
-    #     # skip if cross-sentence mention
-    #     elif mention_span.start >= sent_start and mention_span.stop > sent_stop and mention_span.start < sent_stop:
-    #         print(f'Mention {mention_span} crosses sentence boundary')
-    #         index_mention += 1
-    #     # if not, append accumulated spans & move to next sentence
-    #     else:
-    #         sent_mention_spans.append(temp_hold_mentions)
-    #         temp_hold_mentions = []
-    #         index_sent += 1
\ No newline at end of file
diff --git a/scripts/semeval2017_to_coll2003_and_relations.py b/scripts/semeval2017_to_coll2003_and_relations.py
index 9d9a7a7..d80ebf0 100644
--- a/scripts/semeval2017_to_coll2003_and_relations.py
+++ b/scripts/semeval2017_to_coll2003_and_relations.py
@@ -124,7 +124,7 @@
 
 
 
-
+# TODO: stop here; below incomplete relations script
 
 
 

From 11bb876997a898789d4db7ba83c41cb9a8361536 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 11:44:18 -0800
Subject: [PATCH 07/23] refactor Span stuff for clarity

---
 sci_bert/common/span.py | 130 +++++++++++++++++++++-------------------
 1 file changed, 70 insertions(+), 60 deletions(-)

diff --git a/sci_bert/common/span.py b/sci_bert/common/span.py
index 68fa07a..e201015 100644
--- a/sci_bert/common/span.py
+++ b/sci_bert/common/span.py
@@ -8,20 +8,22 @@
 
 from typing import *
 
-from collections import defaultdict
-
 class Span:
     """When comparing `self` to another span `other`, there are cases:
 
-            self        other
-    (a)     (2, 5)      (5, 8)          disjoint   (i.e. < and > operators)
-    (b)     (2, 5)      (3, 8)          partial overlap
-    (c)     (2, 5)      (1, 8)          (strict) subset   (i.e. `in` operator)
-    (d)     (2, 5)      (2, 5)          equal
+            self            other
+    (a)     (0, 3)    <     (3, 5)          disjoint   (i.e. < and > operators)
+    (b)     (0, 3)    <=    (2, 5)          partial overlap    (i.e. <= and >= operators)
+            (0, 3)    <=    (1, 5)
+            (0, 3)    <=    (0, 5)
+    (c)     (1, 2)    in    (0, 3)          (strict) subset   (i.e. `in` operator)
+    (d)     (0, 3)    ==    (0, 3)          equal
 
     Notice that the `stop` index is non-inclusive.
     """
     def __init__(self, start: int, stop: int):
+        if start >= stop:
+            raise ValueError('Strictly start < stop')
         self.start = start
         self.stop = stop
 
@@ -29,10 +31,17 @@ def __eq__(self, other):
         return self.start == other.start and self.stop == other.stop
 
     def __lt__(self, other):
-        return self.stop <= other.start and self.start < other.start
+        return self.stop <= other.start
 
     def __gt__(self, other):
-        return other.stop <= self.start and other.start < self.start
+        return other < self
+
+    def __le__(self, other):
+        # self is left of other, but not disjoint
+        return self.start <= other.start and self.stop < other.stop and not self < other
+
+    def __ge__(self, other):
+        return other <= self
 
     def __repr__(self):
         return str((self.start, self.stop))
@@ -89,8 +98,9 @@ def to_json(self) -> Dict:
         }
 
     @classmethod
-    def find_token_spans(cls, text: str, tokens: List[str]) -> List['TokenSpan']:
-        """Given text and its tokenization, associate with each token a span
+    def find_sent_token_spans(cls, text: str, sent_tokens: List[List[str]]) -> List[List['TokenSpan']]:
+        """
+        Given text and its tokenization, associate with each token a span
         that indexes characters from the original text
 
         text before tokenization:
@@ -106,10 +116,21 @@ def find_token_spans(cls, text: str, tokens: List[str]) -> List['TokenSpan']:
         This should work for arbitrary tokenization (even sub-word tokenization),
         as long as non-whitespace characters never disappear after tokenization.
         """
-        assert text.strip().replace(' ', '').replace('\t', '').replace('\n', '') == ''.join(tokens)
 
-        spans = []
+        # assertion should fail if any tokens are whitespace, which can happen like:
+        #   text = "This is     too    much white    space ."
+        assert ''.join([char.strip() for char in text.strip()]) == ''.join([token for tokens in sent_tokens for token in tokens])
+        sent_spans = []
         index_char_in_text = 0
+        for tokens in sent_tokens:
+            token_spans, index_char_in_text = TokenSpan._find_token_spans(text, tokens, index_char_in_text)
+            sent_spans.append(token_spans)
+        return sent_spans
+
+    @classmethod
+    def _find_token_spans(cls, text: str, tokens: List[str], index_char_in_text: int) -> Tuple[List['TokenSpan'], int]:
+        """Private method to process each sentence in `_find_sent_token_spans()`"""
+        token_spans = []
         for token in tokens:
             # skip whitespace
             while text[index_char_in_text].strip() == '':
@@ -125,38 +146,9 @@ def find_token_spans(cls, text: str, tokens: List[str]) -> List['TokenSpan']:
             # save span when match all characters in token
             assert token == text[start:index_char_in_text]
             token_span = TokenSpan(start=start, stop=index_char_in_text, text=token)
-            spans.append(token_span)
-
-        return spans
-
-    @classmethod
-    def find_sent_token_spans(cls, text: str, sent_tokens: List[List[str]]) -> List[List['TokenSpan']]:
-        # should fail if any tokens are whitespace
-        assert ''.join([char.strip() for char in text.strip()]) == ''.join([token for tokens in sent_tokens for token in tokens])
-
-        sent_spans = []
-        index_char_in_text = 0
-        for tokens in sent_tokens:
-            token_spans = []
-            for token in tokens:
-                # skip whitespace; this is why not allow any whitespace tokens
-                while text[index_char_in_text].strip() == '':
-                    index_char_in_text += 1
-
-                # remember start of span
-                start = index_char_in_text
-
-                # iterate over token characters
-                for char in token:
-                    index_char_in_text += 1
-
-                # save span when match all characters in token
-                assert token == text[start:index_char_in_text]
-                token_span = TokenSpan(start=start, stop=index_char_in_text, text=token)
-                token_spans.append(token_span)
-            sent_spans.append(token_spans)
+            token_spans.append(token_span)
 
-        return sent_spans
+        return token_spans, index_char_in_text
 
 
 class MentionSpan(Span):
@@ -179,14 +171,25 @@ def to_json(self) -> Dict:
         }
 
     def __hash__(self):
-        return hash((self.start, self.stop, self.text, tuple(self.entity_types), self.entity_id))
+        """This is more strict than equality, which is inhereted from `Span.__eq__`
 
-    def __eq__(self, other):
-        return isinstance(self, type(other)) and self.__hash__() == other.__hash__()
+        e.g.
+            MentionSpan(0, 1, '', [], '') == MentionSpan(0, 1, 'abc', [], 'abc') is True
+            hash(MentionSpan(0, 1, '', [], '')) == hash(MentionSpan(0, 1, 'abc', [], 'abc')) is False
+        """
+        return hash((self.start, self.stop, self.text, tuple(self.entity_types), self.entity_id))
 
 
 def label_sent_token_spans(sent_token_spans: List[List[TokenSpan]],
                            mention_spans: List[MentionSpan]) -> List[List[str]]:
+    """
+    `sent_token_spans` is a list of sentences, where each sentence is a list of token spans
+    `mention_spans` is a single list of mention spans
+
+    Assumes both of these are properly sorted (sentences & tokens) & disjoint in their tokens.
+
+    Returns BIO labels for each sentence, for each token, matching structure of `sent_token_spans`
+    """
     assert _is_proper_sents(sent_token_spans)
 
     # align mention spans with sentences
@@ -214,19 +217,23 @@ def _is_proper_sents(sent_spans: List[List[Span]]) -> bool:
 
 
 def _is_proper_sent(spans: List[Span]) -> bool:
-    # check for sorted tokens & disjoint tokens
-    return all(spans[i].start <= spans[i + 1].start and spans[i] < spans[i + 1] for i in range(len(spans) - 1))
+    # check for sorted & disjoint tokens
+    return all(spans[i] < spans[i + 1] for i in range(len(spans) - 1))
 
 
 def _label_token_spans(token_spans: List[TokenSpan],
                        mention_spans: List[MentionSpan]) -> List[str]:
+    """Private method to process each sentence in `label_sent_token_spans()`"""
     num_tokens, num_mentions = len(token_spans), len(mention_spans)
+    # no tokens
+    if num_tokens == 0:
+        return []
 
     # no mentions
     if num_mentions == 0:
         return ['O'] * num_tokens
 
-    # check mentions should all be match-able to tokens
+    # check mentions should be within range of tokens
     assert mention_spans[0].start >= token_spans[0].start
     assert mention_spans[-1].stop <= token_spans[-1].stop
 
@@ -235,6 +242,7 @@ def _label_token_spans(token_spans: List[TokenSpan],
     while index_token < num_tokens and index_mention < num_mentions:
         token_span = token_spans[index_token]
         mention_span = mention_spans[index_mention]
+        entity_type = mention_span.entity_types[0]
         # case 1: token is left of mention (no overlap)
         if token_span < mention_span:
             token_labels.append('O')
@@ -244,22 +252,19 @@ def _label_token_spans(token_spans: List[TokenSpan],
             index_mention += 1
         # case 3: token captures start of mention
         elif token_span.start <= mention_span.start:
-            token_labels.append('B-{}'.format(mention_span.entity_types[0]))
+            token_labels.append(f'B-{entity_type}')
             index_token += 1
-            # handles case when last token is 'B'
-            if index_token == num_tokens:
-                index_mention += 1
         # case 4: token within mention
         elif token_span in mention_span:
-            token_labels.append('I-{}'.format(mention_span.entity_types[0]))
+            token_labels.append(f'I-{entity_type}')
             index_token += 1
         # case 5: token captures end of mention
         elif token_span.stop >= mention_span.stop:
-            token_labels.append('I-{}'.format(mention_span.entity_types[0]))
+            token_labels.append(f'I-{entity_type}')
             index_token += 1
             index_mention += 1
 
-    # ran out of mentions, but remaining tokens
+    # ran out of mentions, but label remaining tokens
     while index_token < num_tokens:
         token_labels.append('O')
         index_token += 1
@@ -270,6 +275,7 @@ def _label_token_spans(token_spans: List[TokenSpan],
 
 def _match_mention_spans_to_sentences(sent_token_spans: List[List[TokenSpan]],
                                       mention_spans: List[MentionSpan]) -> List[List[MentionSpan]]:
+    """Private method to process `mention_spans` into sentences in `label_sent_token_spans()`"""
     num_sents, num_mentions = len(sent_token_spans), len(mention_spans)
 
     # check mentions should all be match-able to sentences
@@ -292,13 +298,17 @@ def _match_mention_spans_to_sentences(sent_token_spans: List[List[TokenSpan]],
         elif mention_span.start < this_sent_stop and mention_span.stop > next_sent_start:
             print(f'Mention {mention_span} crosses sentence boundary')
             index_mention += 1
-        # if mention not within this sentence, go to next one
+        # if mention not within this sentence, go to next sentence
         else:
             sent_mention_spans.append(temp)
             temp = []
             index_sent += 1
 
-    # append remaining mentions
+    # previous loop should conclude either:
+    #   (1) sentence n-2 with mentions remaining.
+    #   (2) earlier sentence but with no mentions remaining.
+
+    # (1) handle final sentence's mentions
     while index_mention < num_mentions:
         mention_span = mention_spans[index_mention]
         temp.append(mention_span)
@@ -306,7 +316,7 @@ def _match_mention_spans_to_sentences(sent_token_spans: List[List[TokenSpan]],
     sent_mention_spans.append(temp)
     index_sent += 1
 
-    # remaining sentences without corresp. mentions
+    # (2) handle remaining sentences without mentions
     while index_sent < num_sents:
         sent_mention_spans.append([])
         index_sent += 1

From 33cd99a8554805e7658b89eaf790871a0dc47e5e Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 11:55:03 -0800
Subject: [PATCH 08/23] fix bug in Span where recursively calling itself in <>
 and <= >= methods

---
 sci_bert/common/span.py | 8 ++++----
 1 file changed, 4 insertions(+), 4 deletions(-)

diff --git a/sci_bert/common/span.py b/sci_bert/common/span.py
index e201015..9731271 100644
--- a/sci_bert/common/span.py
+++ b/sci_bert/common/span.py
@@ -34,14 +34,14 @@ def __lt__(self, other):
         return self.stop <= other.start
 
     def __gt__(self, other):
-        return other < self
+        return other.__lt__(self)
 
     def __le__(self, other):
         # self is left of other, but not disjoint
         return self.start <= other.start and self.stop < other.stop and not self < other
 
     def __ge__(self, other):
-        return other <= self
+        return other.__le__(self)
 
     def __repr__(self):
         return str((self.start, self.stop))
@@ -54,9 +54,9 @@ def __contains__(self, item):
         return item.start > self.start and item.stop < self.stop
 
     @classmethod
-    def cluster_spans(cls, spans: List['Span']) -> List[List['Span']]:
+    def sort_cluster_spans(cls, spans: Set['Span']) -> List[List['Span']]:
         """Iterate over spans; accumulate each span in same group"""
-        spans = sorted(spans, key=lambda s: (s.start, s.stop))
+        spans: List['Span'] = sorted(spans, key=lambda s: (s.start, s.stop))
         clusters: List[Dict] = [{
             'proxy': Span(start=spans[0].start, stop=spans[0].stop),
             'spans': [spans[0]]

From 66db2a34779eedf4cd7c5baedf34ddc2fc5fcfd4 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 11:55:32 -0800
Subject: [PATCH 09/23] add better comments; revert to sentence splitting since
 contexts can be too long for bert

---
 .../semeval2017_to_coll2003_and_relations.py  | 29 +++++++++++--------
 1 file changed, 17 insertions(+), 12 deletions(-)

diff --git a/scripts/semeval2017_to_coll2003_and_relations.py b/scripts/semeval2017_to_coll2003_and_relations.py
index d80ebf0..c08fafa 100644
--- a/scripts/semeval2017_to_coll2003_and_relations.py
+++ b/scripts/semeval2017_to_coll2003_and_relations.py
@@ -67,17 +67,19 @@
             ann_file = os.path.join(ann_dir, f'{id}.ann')
             txt_file = ann_file.replace('.ann', '.txt')
 
-            # load text
+            # load text & tokenize w/ Spacy
             with open(txt_file, 'r') as f_txt:
                 text = f_txt.read().strip()
                 text = ''.join([char if char.strip() != '' else ' ' for char in text])  # normalize whitespaces, such as '\xa0' --> ' '
                 spacy_text = nlp(text)
 
+            # no sentence splitting (one long sentence) & tokenize
+            # sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for sent in spacy_text.sents for token in sent if token.text.strip() != '']])
+
             # split sentences & tokenize
-            sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for sent in spacy_text.sents for token in sent if token.text.strip() != '']])
-            # sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for token in sent if token.text.strip() != ''] for sent in spacy_text.sents])
+            sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for token in sent if token.text.strip() != ''] for sent in spacy_text.sents])
 
-            # entity mentions might have duplicates & out of order
+            # load annotated entity mentions
             mention_spans = set()
             with open(ann_file, 'r') as f_ann:
                 for line in f_ann:
@@ -95,17 +97,16 @@
                         entity_text = tup[2]
                         mention_span = MentionSpan(start=start, stop=stop, text=entity_text, entity_types=[entity_type], entity_id=entity_id)
                         mention_spans.add(mention_span)
-            mention_spans = sorted(mention_spans, key=lambda s: (s.start, s.stop))
 
             # overlapping mentions are handled by picking longest mention in the group
             # this also handles same-mention multiple-types (arbitrarily picks one of them)
             clean_mention_spans = []
-            groups = Span.cluster_spans(mention_spans)
-            for group in groups:
-                if len(group) == 1:
-                    clean_mention_spans.extend(group)
+            clusters = Span.sort_cluster_spans(mention_spans)
+            for cluster in clusters:
+                if len(cluster) == 1:
+                    clean_mention_spans.extend(cluster)
                 else:
-                    longest_span = sorted(group, key=lambda s: len(s))[-1]
+                    longest_span = sorted(cluster, key=lambda s: len(s))[-1]
                     clean_mention_spans.append(longest_span)
 
             # conll2003 -> BIO
@@ -118,8 +119,12 @@
             for token_spans, token_labels in zip(sent_token_spans, sent_token_labels):
                 for token_span, token_label in zip(token_spans, token_labels):
                     f_out.write('\t'.join([token_span.text, 'NN', 'O', token_label]))
-                    f_out.write('\n')
-            f_out.write('\n')
+                    f_out.write('\n')  # new token
+                f_out.write('\n')  # new sent
+            f_out.write('\n')  # new paper
+
+            break
+    break
 
 
 

From 15921ca70514cceee61dc80687a43bd0417be2e2 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 13:15:02 -0800
Subject: [PATCH 10/23] fix bug in span where wrong length

---
 sci_bert/common/span.py | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/sci_bert/common/span.py b/sci_bert/common/span.py
index 9731271..491eae6 100644
--- a/sci_bert/common/span.py
+++ b/sci_bert/common/span.py
@@ -47,7 +47,7 @@ def __repr__(self):
         return str((self.start, self.stop))
 
     def __len__(self):
-        return self.stop - self.start + 1
+        return self.stop - self.start
 
     def __contains__(self, item):
         """Only for strict subset, doesn't include equality"""

From a092ba79efbaff3249e905c2632634cb24166a67 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 13:20:58 -0800
Subject: [PATCH 11/23] handle bug with whitespacing in entity mention
 annotations

---
 scripts/semeval2017_to_coll2003_and_relations.py | 16 ++++++++++++----
 1 file changed, 12 insertions(+), 4 deletions(-)

diff --git a/scripts/semeval2017_to_coll2003_and_relations.py b/scripts/semeval2017_to_coll2003_and_relations.py
index c08fafa..9e176a9 100644
--- a/scripts/semeval2017_to_coll2003_and_relations.py
+++ b/scripts/semeval2017_to_coll2003_and_relations.py
@@ -83,18 +83,28 @@
             mention_spans = set()
             with open(ann_file, 'r') as f_ann:
                 for line in f_ann:
-                    tup = line.strip().split('\t')
+                    tup = line.strip('\n').split('\t')
                     if tup[0].startswith('T'):
                         entity_id = tup[0]
                         # note: occasionally data looks really stupid like `Task 400 436;437 453` in `S0167931713005042.ann`
                         try:
                             entity_type, start, stop = tup[1].split(' ')
                         except ValueError as e:
-                            print(f'Tried unpacking line {tup} in {id}')
+                            print(f'Failed unpacking line {tup} in {id}. Skipping...')
                             continue
                         start = int(start)
                         stop = int(stop)
                         entity_text = tup[2]
+                        # note: occasionally, spans include whitespace like `line = "T6	Task 220 268	modelling of red blood cells in Poiseuille flow "`
+                        # where `stop=268` actually includes the `\xa0` token at end of `flow`
+                        # >> correct these situations
+                        if len(entity_text.strip()) != stop - start:
+                            entity_text = entity_text.lstrip()
+                            start += stop - start - len(entity_text)
+                            entity_text = entity_text.rstrip()
+                            stop -= stop - start - len(entity_text)
+                            print(f'Corrected {tup} in {id} -> ({start}, {stop}) due to whitespace in mention text')
+                        assert len(entity_text) == stop - start
                         mention_span = MentionSpan(start=start, stop=stop, text=entity_text, entity_types=[entity_type], entity_id=entity_id)
                         mention_spans.add(mention_span)
 
@@ -123,8 +133,6 @@
                 f_out.write('\n')  # new sent
             f_out.write('\n')  # new paper
 
-            break
-    break
 
 
 

From cccd81cf3a621e47ea9adfaaec83c00a9a1d2bd5 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 13:21:12 -0800
Subject: [PATCH 12/23] updated data to semeval2017 ner

---
 data/ner/semeval2017/dev.txt   |  428 ++++-
 data/ner/semeval2017/test.txt  | 1048 ++++++++++-
 data/ner/semeval2017/train.txt | 3114 +++++++++++++++++++++++++++++---
 3 files changed, 4200 insertions(+), 390 deletions(-)

diff --git a/data/ner/semeval2017/dev.txt b/data/ner/semeval2017/dev.txt
index 3ee405d..771db8b 100644
--- a/data/ner/semeval2017/dev.txt
+++ b/data/ner/semeval2017/dev.txt
@@ -39,6 +39,7 @@ on	NN	O	O
 importance	NN	O	O
 sampling	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 recent	NN	O	O
 years	NN	O	O
@@ -89,11 +90,13 @@ see	NN	O	O
 e.g.	NN	O	O
 Refs	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 9,10	NN	O	O
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 as	NN	O	O
@@ -111,10 +114,12 @@ results	NN	O	O
 are	NN	O	O
 not	NN	O	O
 guaranteed	NN	O	O
+
 [	NN	O	O
 11–16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 calls	NN	O	O
 for	NN	O	O
@@ -132,6 +137,7 @@ and	NN	O	I-Task
 numerical	NN	O	I-Task
 insight	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 recent	NN	O	O
@@ -173,6 +179,7 @@ clarified	NN	O	O
 17,18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 important	NN	O	O
 conclusion	NN	O	O
@@ -193,6 +200,7 @@ yield	NN	O	O
 valid	NN	O	O
 results	NN	O	O
 .	NN	O	O
+
 Importantly	NN	O	O
 ,	NN	O	O
 this	NN	O	O
@@ -224,6 +232,7 @@ cooling	NN	O	I-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0003491615001839)
 
 This	NN	O	O
@@ -256,6 +265,7 @@ tackle	NN	O	O
 phase	NN	O	B-Task
 transitions	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 method	NN	O	O
 leads	NN	O	O
@@ -290,6 +300,7 @@ der	NN	O	I-Process
 Waals	NN	O	I-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 we	NN	O	O
@@ -305,6 +316,7 @@ function	NN	O	I-Process
 (	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 9	NN	O	O
 )	NN	O	O
@@ -319,6 +331,7 @@ number	NN	O	O
 of	NN	O	O
 particles	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 partition	NN	O	B-Process
 function	NN	O	I-Process
@@ -358,6 +371,7 @@ equal	NN	O	I-Process
 areas	NN	O	I-Process
 rule	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 approach	NN	O	O
 hereby	NN	O	O
@@ -430,6 +444,7 @@ virial	NN	O	I-Process
 expansions	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0009261408017028)
 
 We	NN	O	O
@@ -493,6 +508,7 @@ optical	NN	O	B-Material
 -	NN	O	I-Material
 chopper	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 vibrational	NN	O	B-Process
 combination	NN	O	I-Process
@@ -511,6 +527,7 @@ at	NN	O	I-Material
 1560	NN	O	I-Material
 nm	NN	O	I-Material
 .	NN	O	O
+
 These	NN	O	O
 couplings	NN	O	O
 result	NN	O	O
@@ -540,6 +557,7 @@ transient	NN	O	B-Process
 thermal	NN	O	I-Process
 effects	NN	O	I-Process
 .	NN	O	O
+
 These	NN	O	O
 transient	NN	O	B-Process
 thermal	NN	O	I-Process
@@ -569,6 +587,7 @@ values	NN	O	O
 14	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 transient	NN	O	B-Process
 thermal	NN	O	I-Process
@@ -595,6 +614,7 @@ at	NN	O	O
 longer	NN	O	O
 timescales	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 measure	NN	O	B-Task
 this	NN	O	I-Task
@@ -615,6 +635,7 @@ probe	NN	O	I-Process
 experiment	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0009261413004612)
 
 The	NN	O	O
@@ -638,6 +659,7 @@ of	NN	O	I-Task
 chemical	NN	O	I-Task
 devices	NN	O	I-Task
 .	NN	O	O
+
 Here	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -668,6 +690,7 @@ orders	NN	O	O
 of	NN	O	O
 magnitude	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 basic	NN	O	O
 idea	NN	O	O
@@ -729,6 +752,7 @@ the	NN	O	O
 singlet	NN	O	B-Material
 yield	NN	O	I-Material
 .	NN	O	O
+
 Formally	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -750,6 +774,7 @@ instantaneous	NN	O	B-Process
 magnetic	NN	O	I-Process
 sensitivity	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 functional	NN	O	O
 form	NN	O	O
@@ -779,6 +804,7 @@ surrounding	NN	O	O
 nuclear	NN	O	B-Process
 spins	NN	O	I-Process
 .	NN	O	O
+
 Here	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -813,6 +839,7 @@ nucleus	NN	O	I-Material
 e.g.	NN	O	O
 nitrogen	NN	O	B-Material
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 context	NN	O	O
@@ -878,6 +905,7 @@ and	NN	O	O
 probe’	NN	O	O
 picture	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Hamiltonian	NN	O	O
 then	NN	O	O
@@ -894,6 +922,7 @@ hyperfine	NN	O	I-Process
 coupling	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0009261414000372)
 
 It	NN	O	O
@@ -917,6 +946,7 @@ their	NN	O	O
 electronic	NN	O	B-Process
 environment	NN	O	I-Process
 .	NN	O	O
+
 Local	NN	O	B-Process
 field	NN	O	I-Process
 effects	NN	O	I-Process
@@ -942,6 +972,7 @@ summarized	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Optical	NN	O	B-Process
 processes	NN	O	I-Process
 ,	NN	O	O
@@ -963,6 +994,7 @@ chromophores	NN	O	I-Process
 2–4	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Many	NN	O	O
 biological	NN	O	O
 systems	NN	O	O
@@ -990,6 +1022,7 @@ nearby	NN	O	O
 optical	NN	O	O
 centres	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 instance	NN	O	O
 ,	NN	O	O
@@ -1048,6 +1081,7 @@ carotenoid	NN	O	B-Material
 species	NN	O	I-Material
 5–7	NN	O	O
 .	NN	O	O
+
 Until	NN	O	O
 now	NN	O	O
 ,	NN	O	O
@@ -1117,6 +1151,7 @@ differential	NN	O	I-Process
 absorption	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0009261415001517)
 
 Since	NN	O	O
@@ -1140,6 +1175,7 @@ specified	NN	O	O
 enantiomeric	NN	O	O
 form	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 has	NN	O	O
 spurred	NN	O	O
@@ -1162,6 +1198,7 @@ secure	NN	O	I-Task
 enantiopure	NN	O	I-Task
 products	NN	O	I-Task
 .	NN	O	O
+
 Such	NN	O	O
 methods	NN	O	B-Process
 ,	NN	O	I-Process
@@ -1206,6 +1243,7 @@ a	NN	O	O
 racemic	NN	O	O
 mixture	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 significant	NN	O	O
 drawback	NN	O	O
@@ -1261,6 +1299,7 @@ complexes	NN	O	I-Material
 8,9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 key	NN	O	O
 requirement	NN	O	O
@@ -1300,6 +1339,7 @@ within	NN	O	O
 molecular	NN	O	B-Material
 products	NN	O	I-Material
 .	NN	O	O
+
 Chiral	NN	O	B-Process
 discrimination	NN	O	I-Process
 through	NN	O	O
@@ -1355,6 +1395,7 @@ in	NN	O	I-Process
 optical	NN	O	I-Process
 rotation	NN	O	I-Process
 .	NN	O	O
+
 Other	NN	O	O
 optical	NN	O	B-Process
 methods	NN	O	I-Process
@@ -1380,6 +1421,7 @@ introduced	NN	O	O
 later	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0009261415008362)
 
 For	NN	O	O
@@ -1401,6 +1443,7 @@ assess	NN	O	O
 their	NN	O	O
 accuracy	NN	O	O
 .	NN	O	O
+
 A	NN	O	B-Process
 model	NN	O	I-Process
 Hamiltonian	NN	O	I-Process
@@ -1466,9 +1509,11 @@ CCS	NN	O	I-Process
 CCS	NN	O	I-Process
 )	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 21	NN	O	O
 ]	NN	O	O
+
 The	NN	O	B-Process
 Hamiltonian	NN	O	I-Process
 consists	NN	O	O
@@ -1513,6 +1558,7 @@ system	NN	O	O
 22,23	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 Hamiltonian	NN	O	B-Process
 is	NN	O	O
@@ -1531,6 +1577,7 @@ the	NN	O	O
 same	NN	O	O
 frequency	NN	O	O
 .	NN	O	O
+
 System	NN	O	B-Process
 -	NN	O	I-Process
 bath	NN	O	I-Process
@@ -1560,6 +1607,7 @@ device	NN	O	I-Process
 (	NN	O	O
 SQUID	NN	O	B-Process
 )	NN	O	O
+
 [	NN	O	O
 24	NN	O	O
 ]	NN	O	O
@@ -1592,6 +1640,7 @@ regime	NN	O	I-Task
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X13003818)
 
 Based	NN	O	O
@@ -1625,6 +1674,7 @@ of	NN	O	I-Process
 noise	NN	O	I-Process
 resistance	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -1641,6 +1691,7 @@ Fig	NN	O	O
 was	NN	O	O
 performed	NN	O	O
 .	NN	O	O
+
 Specifically	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -1682,6 +1733,7 @@ to	NN	O	I-Material
 digital	NN	O	I-Material
 converter	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 electrochemical	NN	O	B-Process
 noise	NN	O	I-Process
@@ -1706,6 +1758,7 @@ at	NN	O	O
 each	NN	O	O
 iteration	NN	O	O
 .	NN	O	O
+
 Between	NN	O	O
 iterations	NN	O	O
 ,	NN	O	O
@@ -1733,6 +1786,7 @@ for	NN	O	O
 later	NN	O	O
 processing	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 final	NN	O	O
 dataset	NN	O	B-Material
@@ -1744,6 +1798,7 @@ spaced	NN	O	O
 in	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 Under	NN	O	O
 the	NN	O	O
 assumption	NN	O	O
@@ -1798,6 +1853,7 @@ mains	NN	O	O
 supply	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X14002157)
 
 A	NN	O	O
@@ -1808,6 +1864,7 @@ surface	NN	O	B-Material
 active	NN	O	I-Material
 agent	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 work	NN	O	O
@@ -1851,6 +1908,7 @@ material	NN	O	I-Material
 14,20,24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 surfactants	NN	O	O
@@ -1860,6 +1918,7 @@ corrosion	NN	O	B-Task
 protection	NN	O	I-Task
 themselves	NN	O	O
 .	NN	O	O
+
 Some	NN	O	O
 examples	NN	O	O
 when	NN	O	O
@@ -1880,6 +1939,7 @@ are	NN	O	O
 given	NN	O	O
 below	NN	O	O
 .	NN	O	O
+
 Typical	NN	O	O
 surfactants	NN	O	B-Material
 in	NN	O	O
@@ -1897,10 +1957,12 @@ ethoxylate	NN	O	I-Material
 (	NN	O	O
 NPE	NN	O	B-Material
 )	NN	O	O
+
 [	NN	O	O
 14,15,30,106,107	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 NPEs	NN	O	B-Material
@@ -1918,6 +1980,7 @@ of	NN	O	O
 their	NN	O	O
 toxicity	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 other	NN	O	O
@@ -1933,6 +1996,7 @@ acceptable	NN	O	O
 20	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 quaternary	NN	O	B-Material
 ammonium	NN	O	I-Material
@@ -1963,6 +2027,7 @@ surface	NN	O	B-Material
 active	NN	O	I-Material
 specie	NN	O	I-Material
 .	NN	O	O
+
 As	NN	O	O
 the	NN	O	O
 amines	NN	O	B-Material
@@ -1998,6 +2063,7 @@ abbreviated	NN	O	O
 as	NN	O	O
 “	NN	O	O
 quats	NN	O	B-Material
+
 ”	NN	O	O
 ,	NN	O	O
 are	NN	O	O
@@ -2005,6 +2071,7 @@ not	NN	O	O
 pH	NN	O	O
 sensitive	NN	O	O
 .	NN	O	O
+
 Long	NN	O	B-Material
 -	NN	O	I-Material
 chain	NN	O	I-Material
@@ -2026,6 +2093,7 @@ materials	NN	O	I-Material
 106	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 frequently	NN	O	O
 employed	NN	O	O
@@ -2038,10 +2106,12 @@ bromide	NN	O	I-Material
 (	NN	O	O
 DDPB	NN	O	B-Material
 )	NN	O	O
+
 [	NN	O	O
 9,60,61,108,109	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Anionic	NN	O	B-Material
 sulphates	NN	O	I-Material
 ,	NN	O	O
@@ -2061,6 +2131,7 @@ also	NN	O	O
 useful	NN	O	O
 surfactants	NN	O	B-Material
 .	NN	O	O
+
 Ali	NN	O	O
 reported	NN	O	O
 that	NN	O	O
@@ -2085,6 +2156,7 @@ alkylphenols	NN	O	I-Material
 15	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Several	NN	O	O
 examples	NN	O	O
 of	NN	O	O
@@ -2099,6 +2171,7 @@ Section	NN	O	O
 5.6	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X15003261)
 
 The	NN	O	O
@@ -2144,6 +2217,7 @@ metal	NN	O	I-Process
 12,17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 scanning	NN	O	B-Process
 Kelvin	NN	O	I-Process
@@ -2196,6 +2270,7 @@ surface	NN	O	I-Material
 14,15,19	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 lateral	NN	O	O
 resolution	NN	O	O
@@ -2224,6 +2299,7 @@ to	NN	O	O
 19	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Volta	NN	O	B-Process
 potential	NN	O	I-Process
 is	NN	O	O
@@ -2246,6 +2322,7 @@ processes	NN	O	I-Task
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 sensitive	NN	O	O
@@ -2266,6 +2343,7 @@ stress	NN	O	O
 13,17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Volta	NN	O	B-Process
 potential	NN	O	I-Process
 differences	NN	O	I-Process
@@ -2282,6 +2360,7 @@ behaviour	NN	O	I-Task
 10,15,18,20–22	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Regions	NN	O	O
 with	NN	O	O
 larger	NN	O	B-Process
@@ -2331,6 +2410,7 @@ reported	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021961415003821)
 
 The	NN	O	O
@@ -2353,6 +2433,7 @@ spherical	NN	O	I-Material
 CG	NN	O	I-Material
 segments	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 development	NN	O	B-Task
 of	NN	O	I-Task
@@ -2396,6 +2477,7 @@ formalism	NN	O	I-Process
 118	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 n	NN	O	B-Material
 -	NN	O	I-Material
@@ -2421,6 +2503,7 @@ bonded	NN	O	O
 Mie	NN	O	B-Material
 segments	NN	O	I-Material
 .	NN	O	O
+
 A	NN	O	O
 certain	NN	O	O
 degree	NN	O	O
@@ -2449,6 +2532,7 @@ description	NN	O	O
 132	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 our	NN	O	O
 current	NN	O	O
@@ -2489,6 +2573,7 @@ corresponding	NN	O	O
 hydrogen	NN	O	B-Material
 atoms	NN	O	I-Material
 .	NN	O	O
+
 By	NN	O	O
 applying	NN	O	O
 this	NN	O	O
@@ -2513,9 +2598,10 @@ n	NN	O	B-Material
 -	NN	O	I-Material
 C6H14	NN	O	I-Material
 ,	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-C9H20	NN	O	I-Material
+n	NN	O	O
+
+-	NN	O	O
+C9H20	NN	O	O
 ,	NN	O	O
 n	NN	O	B-Material
 -	NN	O	I-Material
@@ -2531,6 +2617,7 @@ C18H38	NN	O	I-Material
 ,	NN	O	O
 etc	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 good	NN	O	O
 description	NN	O	B-Task
@@ -2559,6 +2646,7 @@ Mie	NN	O	B-Process
 )	NN	O	I-Process
 potential	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 convenience	NN	O	O
 ,	NN	O	O
@@ -2609,6 +2697,7 @@ C	NN	O	O
 by	NN	O	O
 three	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 size	NN	O	O
 σ	NN	O	O
@@ -2640,6 +2729,7 @@ SAFT-γ	NN	O	B-Process
 Mie	NN	O	I-Process
 procedure	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 chosen	NN	O	O
 mapping	NN	O	O
@@ -2685,6 +2775,7 @@ properties	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113005652)
 
 This	NN	O	O
@@ -2724,6 +2815,7 @@ two	NN	O	B-Process
 compartment	NN	O	I-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 major	NN	O	O
 purpose	NN	O	O
@@ -2753,6 +2845,7 @@ reaction	NN	O	I-Process
 in	NN	O	I-Process
 water	NN	O	I-Process
 .	NN	O	O
+
 Demonstrating	NN	O	O
 fundamental	NN	O	O
 data	NN	O	O
@@ -2790,6 +2883,7 @@ also	NN	O	O
 been	NN	O	O
 attempted	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 gas	NN	O	B-Process
 exchange	NN	O	I-Process
@@ -2826,6 +2920,7 @@ the	NN	O	I-Process
 water	NN	O	I-Process
 phase	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 first	NN	O	O
 -	NN	O	O
@@ -2862,6 +2957,7 @@ phenomena	NN	O	I-Process
 in	NN	O	I-Process
 water	NN	O	I-Process
 .	NN	O	O
+
 While	NN	O	O
 a	NN	O	O
 traditional	NN	O	O
@@ -2914,6 +3010,7 @@ and	NN	O	I-Task
 concentration	NN	O	I-Task
 fields	NN	O	I-Task
 .	NN	O	O
+
 A	NN	O	O
 direct	NN	O	B-Process
 numerical	NN	O	I-Process
@@ -2954,6 +3051,7 @@ subgrid	NN	O	B-Process
 scale	NN	O	I-Process
 models	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 assume	NN	O	O
 that	NN	O	O
@@ -3013,6 +3111,7 @@ at	NN	O	I-Process
 the	NN	O	I-Process
 interface	NN	O	I-Process
 .	NN	O	O
+
 Six	NN	O	O
 degrees	NN	O	O
 of	NN	O	O
@@ -3038,6 +3137,7 @@ gas	NN	O	I-Task
 exchange	NN	O	I-Task
 mechanisms	NN	O	I-Task
 .	NN	O	O
+
 Extrapolations	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -3086,6 +3186,7 @@ numerical	NN	O	B-Task
 experiments	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113005846)
 
 Although	NN	O	O
@@ -3110,6 +3211,7 @@ greater	NN	O	O
 practical	NN	O	O
 importance	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 nature	NN	O	O
 ,	NN	O	O
@@ -3148,6 +3250,7 @@ bottom	NN	O	I-Process
 boundary	NN	O	I-Process
 layer	NN	O	I-Process
 .	NN	O	O
+
 Regardless	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -3207,6 +3310,7 @@ Gill	NN	O	O
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 When	NN	O	O
 ω≈ωf	NN	O	B-Process
 ,	NN	O	O
@@ -3233,6 +3337,7 @@ damping	NN	O	I-Process
 and	NN	O	O
 |ω−ωf|	NN	O	B-Process
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -3271,6 +3376,7 @@ forced	NN	O	O
 response	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S002199911500025X)
 
 A	NN	O	O
@@ -3298,6 +3404,7 @@ in	NN	O	O
 this	NN	O	O
 article	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 fully	NN	O	B-Process
 -	NN	O	I-Process
@@ -3327,6 +3434,7 @@ from	NN	O	I-Process
 capillary	NN	O	I-Process
 waves	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 conducted	NN	O	O
 study	NN	O	O
@@ -3356,6 +3464,7 @@ of	NN	O	I-Process
 surface	NN	O	I-Process
 tension	NN	O	I-Process
 .	NN	O	O
+
 Since	NN	O	O
 surface	NN	O	B-Process
 tension	NN	O	I-Process
@@ -3397,6 +3506,7 @@ of	NN	O	I-Task
 surface	NN	O	I-Task
 tension	NN	O	I-Task
 .	NN	O	O
+
 Further	NN	O	O
 analysis	NN	O	O
 shows	NN	O	O
@@ -3429,6 +3539,7 @@ numerical	NN	O	I-Process
 methodology	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115003423)
 
 The	NN	O	O
@@ -3440,6 +3551,7 @@ proceeds	NN	O	O
 as	NN	O	O
 follows	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 Section	NN	O	O
 2	NN	O	O
@@ -3474,6 +3586,7 @@ image	NN	O	I-Material
 data	NN	O	I-Material
 sets	NN	O	I-Material
 .	NN	O	O
+
 We	NN	O	O
 present	NN	O	O
 the	NN	O	O
@@ -3507,6 +3620,7 @@ experiments	NN	O	O
 8,10–12,4,13,9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 finish	NN	O	O
 Section	NN	O	O
@@ -3545,6 +3659,7 @@ constrained	NN	O	I-Task
 optimisation	NN	O	I-Task
 problem	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 Section	NN	O	O
 3	NN	O	O
@@ -3572,6 +3687,7 @@ to	NN	O	O
 the	NN	O	O
 implementation	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 we	NN	O	O
@@ -3606,6 +3722,7 @@ quality	NN	O	O
 without	NN	O	O
 segmentation	NN	O	B-Process
 .	NN	O	O
+
 In	NN	O	O
 Section	NN	O	O
 4	NN	O	O
@@ -3628,6 +3745,7 @@ image	NN	O	B-Material
 data	NN	O	I-Material
 sets	NN	O	I-Material
 .	NN	O	O
+
 Finally	NN	O	O
 in	NN	O	O
 Section	NN	O	O
@@ -3650,6 +3768,7 @@ the	NN	O	O
 work	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115007895)
 
 The	NN	O	B-Task
@@ -3679,6 +3798,7 @@ a	NN	O	O
 variational	NN	O	B-Process
 framework	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 development	NN	O	O
 of	NN	O	O
@@ -3710,6 +3830,7 @@ in	NN	O	O
 1,19	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 approach	NN	O	B-Process
 allows	NN	O	O
@@ -3735,6 +3856,7 @@ an	NN	O	O
 action	NN	O	B-Process
 integral	NN	O	I-Process
 .	NN	O	O
+
 Hamiltonian	NN	O	B-Process
 mechanics	NN	O	I-Process
 is	NN	O	O
@@ -3757,6 +3879,7 @@ of	NN	O	I-Task
 a	NN	O	I-Task
 system	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 expressed	NN	O	O
@@ -3780,6 +3903,7 @@ and	NN	O	O
 conservation	NN	O	O
 laws	NN	O	O
 .	NN	O	O
+
 When	NN	O	O
 one	NN	O	O
 approximates	NN	O	O
@@ -3801,6 +3925,7 @@ the	NN	O	O
 discrete	NN	O	O
 level	NN	O	O
 .	NN	O	O
+
 Given	NN	O	O
 that	NN	O	O
 Hamiltonian	NN	O	B-Process
@@ -3822,6 +3947,7 @@ significant	NN	O	O
 relevance	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115008153)
 
 As	NN	O	O
@@ -3840,6 +3966,7 @@ after	NN	O	I-Process
 every	NN	O	I-Process
 iteration	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -3862,6 +3989,7 @@ after	NN	O	I-Process
 every	NN	O	I-Process
 iteration	NN	O	I-Process
 .	NN	O	O
+
 Although	NN	O	O
 relatively	NN	O	O
 long	NN	O	O
@@ -3888,6 +4016,7 @@ for	NN	O	O
 GPGPU	NN	O	B-Material
 architectures	NN	O	I-Material
 .	NN	O	O
+
 Still	NN	O	O
 ,	NN	O	O
 full	NN	O	O
@@ -3903,6 +4032,7 @@ is	NN	O	O
 time	NN	O	O
 consuming	NN	O	O
 .	NN	O	O
+
 Instead	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -3926,6 +4056,7 @@ the	NN	O	O
 previous	NN	O	O
 iteration	NN	O	O
 .	NN	O	O
+
 Full	NN	O	O
 updates	NN	O	O
 of	NN	O	O
@@ -3951,6 +4082,7 @@ the	NN	O	O
 last	NN	O	O
 iteration	NN	O	O
 .	NN	O	O
+
 Accumulative	NN	O	O
 rounding	NN	O	O
 errors	NN	O	O
@@ -3981,6 +4113,7 @@ point	NN	O	O
 numbers	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115008372)
 
 The	NN	O	O
@@ -4013,6 +4146,7 @@ meshes	NN	O	I-Material
 3,34,38	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 R	NN	O	B-Process
 -	NN	O	I-Process
 adaptivity	NN	O	I-Process
@@ -4046,10 +4180,12 @@ by	NN	O	O
 Dietachmayer	NN	O	O
 and	NN	O	O
 Droegemeier	NN	O	O
+
 [	NN	O	O
 14	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 an	NN	O	O
@@ -4111,6 +4247,7 @@ into	NN	O	O
 existing	NN	O	O
 models	NN	O	O
 .	NN	O	O
+
 Variational	NN	O	B-Process
 methods	NN	O	I-Process
 exist	NN	O	O
@@ -4134,6 +4271,7 @@ e.g.	NN	O	O
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Alternatively	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -4193,6 +4331,7 @@ tangling	NN	O	I-Process
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 will	NN	O	O
 see	NN	O	O
@@ -4245,6 +4384,7 @@ r	NN	O	B-Process
 adaptivity	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0022311513010313)
 
 The	NN	O	O
@@ -4268,6 +4408,7 @@ materials	NN	O	O
 and	NN	O	O
 geometries	NN	O	O
 .	NN	O	O
+
 “	NN	O	B-Material
 Mock	NN	O	I-Material
 up	NN	O	I-Material
@@ -4384,6 +4525,7 @@ a	NN	O	O
 PuO2	NN	O	B-Material
 surrogate	NN	O	I-Material
 .	NN	O	O
+
 Commercially	NN	O	O
 available	NN	O	O
 ground	NN	O	O
@@ -4405,6 +4547,7 @@ additive	NN	O	O
 27	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 analysed	NN	O	O
 chemical	NN	O	O
@@ -4415,6 +4558,7 @@ in	NN	O	O
 Table	NN	O	O
 3	NN	O	O
 .	NN	O	O
+
 Calumite	NN	O	B-Material
 is	NN	O	O
 a	NN	O	O
@@ -4432,13 +4576,16 @@ limits	NN	O	O
 of	NN	O	O
 ca	NN	O	O
 .	NN	O	O
+
 40	NN	O	O
 to	NN	O	O
 ca	NN	O	O
 .	NN	O	O
+
 400μm	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311513011422)
 
 There	NN	O	O
@@ -4473,6 +4620,7 @@ proposed	NN	O	O
 and	NN	O	O
 identified	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 complete	NN	O	B-Task
 characterisation	NN	O	I-Task
@@ -4511,6 +4659,7 @@ temperatures	NN	O	O
 and	NN	O	O
 irradiation	NN	O	B-Process
 .	NN	O	O
+
 Ribis	NN	O	O
 and	NN	O	O
 de	NN	O	O
@@ -4532,6 +4681,7 @@ at	NN	O	O
 high	NN	O	O
 temperatures	NN	O	O
 .	NN	O	O
+
 They	NN	O	O
 show	NN	O	O
 that	NN	O	O
@@ -4550,12 +4700,14 @@ Ti	NN	O	B-Material
 containing	NN	O	O
 phase	NN	O	O
 .	NN	O	O
+
 Similarly	NN	O	O
 ,	NN	O	O
 Ratti	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 9	NN	O	O
 ]	NN	O	O
@@ -4597,6 +4749,7 @@ alloy	NN	O	B-Material
 without	NN	O	O
 titanium	NN	O	B-Material
 .	NN	O	O
+
 For	NN	O	O
 example	NN	O	O
 ,	NN	O	O
@@ -4657,10 +4810,12 @@ phase	NN	O	O
 to	NN	O	O
 another	NN	O	O
 .	NN	O	O
+
 Whittle	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 10	NN	O	O
 ]	NN	O	O
@@ -4683,6 +4838,7 @@ ways	NN	O	O
 to	NN	O	O
 irradiation	NN	O	B-Process
 .	NN	O	O
+
 They	NN	O	O
 revealed	NN	O	O
 that	NN	O	O
@@ -4706,6 +4862,7 @@ induced	NN	O	O
 damage	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311514006722)
 
 Zirconium	NN	O	B-Material
@@ -4723,6 +4880,7 @@ water	NN	O	O
 nuclear	NN	O	B-Material
 reactors	NN	O	I-Material
 .	NN	O	O
+
 As	NN	O	O
 such	NN	O	O
 these	NN	O	O
@@ -4745,6 +4903,7 @@ such	NN	O	O
 as	NN	O	O
 oxidation	NN	O	B-Process
 .	NN	O	O
+
 At	NN	O	O
 high	NN	O	O
 burn	NN	O	O
@@ -4777,6 +4936,7 @@ efficiency	NN	O	O
 and	NN	O	O
 safety	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 oxidation	NN	O	B-Process
 kinetics	NN	O	O
@@ -4802,6 +4962,7 @@ transitions	NN	O	O
 1–5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 transitions	NN	O	O
 are	NN	O	O
@@ -4827,6 +4988,7 @@ of	NN	O	O
 mechanical	NN	O	O
 issues	NN	O	O
 .	NN	O	O
+
 Understanding	NN	O	B-Task
 how	NN	O	I-Task
 these	NN	O	I-Task
@@ -4848,6 +5010,7 @@ corrosion	NN	O	I-Task
 process	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0022311514006941)
 
 The	NN	O	O
@@ -4871,10 +5034,12 @@ classical	NN	O	I-Material
 glass	NN	O	I-Material
 matrix	NN	O	I-Material
 .	NN	O	O
+
 Carter	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 3	NN	O	O
 ]	NN	O	O
@@ -4883,6 +5048,7 @@ Zhang	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 4	NN	O	O
 ]	NN	O	O
@@ -4898,6 +5064,7 @@ glass	NN	O	B-Material
 ceramic	NN	O	I-Material
 wasteforms	NN	O	I-Material
 .	NN	O	O
+
 These	NN	O	O
 wasteforms	NN	O	O
 were	NN	O	O
@@ -4933,6 +5100,7 @@ in	NN	O	O
 Sydney	NN	O	O
 respectively	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 work	NN	O	O
@@ -4941,11 +5109,13 @@ Carter	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 and	NN	O	O
 Zhang	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 the	NN	O	O
 intended	NN	O	O
 crystalline	NN	O	B-Material
@@ -4959,6 +5129,7 @@ pyrochlore	NN	O	I-Material
 ,	NN	O	O
 CaUTi2O7	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 glass	NN	O	B-Material
 matrix	NN	O	I-Material
@@ -4988,6 +5159,7 @@ basis	NN	O	O
 by	NN	O	O
 sodium	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 stoichiometric	NN	O	O
 composition	NN	O	O
@@ -5000,6 +5172,7 @@ wasteform	NN	O	O
 was	NN	O	O
 Na2AlBSi6O16	NN	O	B-Material
 .	NN	O	O
+
 This	NN	O	O
 glass	NN	O	B-Material
 provides	NN	O	O
@@ -5015,6 +5188,7 @@ be	NN	O	O
 varied	NN	O	O
 systematically	NN	O	O
 .	NN	O	O
+
 Given	NN	O	O
 that	NN	O	O
 the	NN	O	O
@@ -5063,6 +5237,7 @@ crystalline	NN	O	I-Task
 phase	NN	O	I-Task
 stability	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 x=1	NN	O	O
 end	NN	O	O
@@ -5074,6 +5249,7 @@ albite	NN	O	I-Material
 ,	NN	O	O
 NaAlSi3O8	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 melting	NN	O	O
 point	NN	O	O
@@ -5104,6 +5280,7 @@ a	NN	O	O
 HIP	NN	O	O
 cycle	NN	O	O
 .	NN	O	O
+
 From	NN	O	O
 the	NN	O	O
 available	NN	O	O
@@ -5135,6 +5312,7 @@ is	NN	O	O
 °	NN	O	O
 C	NN	O	O
 .	NN	O	O
+
 No	NN	O	O
 phase	NN	O	O
 diagrams	NN	O	O
@@ -5142,14 +5320,18 @@ for	NN	O	O
 the	NN	O	O
 quaternary	NN	O	O
 system	NN	O	O
-Na2O	NN	O	B-Material
-–	NN	O	I-Material
-Al2O3–B2O3–SiO2	NN	O	I-Material
+
+Na2O	NN	O	O
+
+–	NN	O	O
+
+Al2O3–B2O3–SiO2	NN	O	O
 could	NN	O	O
 be	NN	O	O
 found	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311514009271)
 
 Structural	NN	O	O
@@ -5187,6 +5369,7 @@ responds	NN	O	O
 to	NN	O	O
 stress	NN	O	O
 .	NN	O	O
+
 Indeed	NN	O	O
 ,	NN	O	O
 structure	NN	O	O
@@ -5201,6 +5384,7 @@ grain	NN	O	I-Task
 boundary	NN	O	I-Task
 stability	NN	O	I-Task
 .	NN	O	O
+
 All	NN	O	O
 potential	NN	O	O
 models	NN	O	O
@@ -5214,6 +5398,7 @@ the	NN	O	I-Task
 defect	NN	O	I-Task
 energies	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 Morelon	NN	O	B-Process
 potential	NN	O	I-Process
@@ -5239,6 +5424,7 @@ the	NN	O	O
 bulk	NN	O	O
 modulus	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 energies	NN	O	O
 calculated	NN	O	O
@@ -5273,6 +5459,7 @@ taken	NN	O	O
 into	NN	O	O
 account	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 completeness	NN	O	O
 ,	NN	O	O
@@ -5292,6 +5479,7 @@ Catlow	NN	O	B-Process
 potential	NN	O	I-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 Morl	NN	O	B-Process
 ,	NN	O	I-Process
@@ -5333,6 +5521,7 @@ UO2	NN	O	B-Material
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 major	NN	O	O
 deficiency	NN	O	O
@@ -5360,6 +5549,7 @@ will	NN	O	O
 be	NN	O	O
 underestimated	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 this	NN	O	O
@@ -5386,6 +5576,7 @@ will	NN	O	O
 contribute	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515002354)
 
 Hydrides	NN	O	B-Material
@@ -5418,6 +5609,7 @@ toughness	NN	O	O
 35–40	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 changes	NN	O	O
 can	NN	O	O
@@ -5441,6 +5633,7 @@ storage	NN	O	O
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 well	NN	O	O
 as	NN	O	O
@@ -5482,6 +5675,7 @@ cracking	NN	O	I-Process
 DHC	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 former	NN	O	O
 mechanism	NN	O	O
@@ -5521,6 +5715,7 @@ concentrations	NN	O	O
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 latter	NN	O	O
 mechanism	NN	O	O
@@ -5560,6 +5755,7 @@ raiser	NN	O	I-Process
 5,41,42	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 process	NN	O	O
 occurs	NN	O	O
@@ -5588,6 +5784,7 @@ material	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515301653)
 
 Uranium	NN	O	B-Material
@@ -5617,6 +5814,7 @@ on	NN	O	O
 uranium	NN	O	B-Material
 dioxide	NN	O	I-Material
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 Generation	NN	O	B-Material
@@ -5663,6 +5861,7 @@ reactor	NN	O	I-Material
 VHTR	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 former	NN	O	O
@@ -5684,6 +5883,7 @@ high	NN	O	O
 burnup	NN	O	B-Process
 performance	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 latter	NN	O	O
@@ -5707,6 +5907,7 @@ and	NN	O	O
 fissile	NN	O	O
 density	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -5740,6 +5941,7 @@ a	NN	O	O
 recent	NN	O	O
 publication	NN	O	O
 .	NN	O	O
+
 During	NN	O	O
 burnup	NN	O	B-Process
 ,	NN	O	O
@@ -5752,6 +5954,7 @@ oxidize	NN	O	O
 to	NN	O	O
 UO2+x	NN	O	B-Material
 .	NN	O	O
+
 UO2+x	NN	O	B-Material
 reacts	NN	O	O
 with	NN	O	O
@@ -5770,6 +5973,7 @@ UO2	NN	O	B-Material
 +	NN	O	O
 xCO	NN	O	B-Material
 
+
 -DOCSTART- (S0022311515303901)
 
 The	NN	O	O
@@ -5810,6 +6014,7 @@ provide	NN	O	O
 neutron	NN	O	B-Process
 moderation	NN	O	I-Process
 .	NN	O	O
+
 During	NN	O	O
 reactor	NN	O	B-Material
 operation	NN	O	O
@@ -5828,6 +6033,7 @@ the	NN	O	O
 CO2	NN	O	B-Material
 coolant	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 CO	NN	O	B-Material
 in	NN	O	O
@@ -5848,6 +6054,7 @@ surfaces	NN	O	I-Task
 12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 non	NN	O	B-Material
 -	NN	O	I-Material
@@ -5869,6 +6076,7 @@ graphite	NN	O	B-Material
 12,13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 During	NN	O	O
 the	NN	O	O
 lifetime	NN	O	O
@@ -5904,6 +6112,7 @@ oxidation	NN	O	I-Task
 14	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Methane	NN	O	B-Material
 (	NN	O	O
 CH4	NN	O	B-Material
@@ -5939,6 +6148,7 @@ strength	NN	O	I-Process
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 assumed	NN	O	O
@@ -5960,6 +6170,7 @@ levels	NN	O	O
 observed	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0029549313003439)
 
 An	NN	O	O
@@ -5998,6 +6209,7 @@ dimensional	NN	O	O
 reactor	NN	O	B-Material
 core	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 a	NN	O	O
 majority	NN	O	O
@@ -6039,6 +6251,7 @@ dimensional	NN	O	I-Process
 lattice	NN	O	I-Process
 geometries	NN	O	I-Process
 .	NN	O	O
+
 There	NN	O	O
 has	NN	O	O
 been	NN	O	O
@@ -6091,6 +6304,7 @@ to	NN	O	O
 these	NN	O	O
 efforts	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 goal	NN	O	O
 of	NN	O	O
@@ -6119,6 +6333,7 @@ multi	NN	O	I-Material
 group	NN	O	I-Material
 library	NN	O	I-Material
 .	NN	O	O
+
 Results	NN	O	O
 are	NN	O	O
 presented	NN	O	O
@@ -6137,6 +6352,7 @@ National	NN	O	O
 Laboratories	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0029549314002854)
 
 The	NN	O	O
@@ -6162,11 +6378,13 @@ ferritic	NN	O	I-Material
 stainless	NN	O	I-Material
 steel	NN	O	I-Material
 .	NN	O	O
+
 Most	NN	O	O
 connections	NN	O	O
 are	NN	O	O
 welded	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 pipes	NN	O	B-Material
 may	NN	O	O
@@ -6193,6 +6411,7 @@ etc	NN	O	O
 .	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Event	NN	O	B-Task
 screening	NN	O	I-Task
 in	NN	O	O
@@ -6215,6 +6434,7 @@ to	NN	O	O
 leaks	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Three	NN	O	O
 main	NN	O	O
 causes	NN	O	O
@@ -6235,6 +6455,7 @@ of	NN	O	O
 manufacturing	NN	O	O
 defects	NN	O	O
 .	NN	O	O
+
 Human	NN	O	O
 factor	NN	O	O
 induced	NN	O	O
@@ -6259,6 +6480,7 @@ to	NN	O	O
 operation	NN	O	O
 errors	NN	O	O
 .	NN	O	O
+
 Fatigue	NN	O	O
 was	NN	O	O
 found	NN	O	O
@@ -6291,6 +6513,7 @@ of	NN	O	O
 these	NN	O	O
 factors	NN	O	O
 .	NN	O	O
+
 Corrosion	NN	O	O
 was	NN	O	O
 induced	NN	O	O
@@ -6323,6 +6546,7 @@ fluid	NN	O	B-Material
 inside	NN	O	O
 pipes	NN	O	B-Material
 .	NN	O	O
+
 Manufacturing	NN	O	O
 defects	NN	O	O
 mostly	NN	O	O
@@ -6345,6 +6569,7 @@ heat	NN	O	O
 treatment	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0038092X14004824)
 
 Historically	NN	O	O
@@ -6360,6 +6585,7 @@ started	NN	O	O
 decades	NN	O	O
 ago	NN	O	O
 .	NN	O	O
+
 Early	NN	O	O
 studies	NN	O	O
 (	NN	O	O
@@ -6405,6 +6631,7 @@ as	NN	O	O
 circumsolar	NN	O	O
 irradiance	NN	O	O
 .	NN	O	O
+
 Pastiels	NN	O	O
 (	NN	O	O
 1959	NN	O	O
@@ -6435,6 +6662,7 @@ of	NN	O	O
 the	NN	O	O
 latter	NN	O	O
 .	NN	O	O
+
 Various	NN	O	O
 communications	NN	O	O
 were	NN	O	O
@@ -6471,6 +6699,7 @@ the	NN	O	I-Task
 circumsolar	NN	O	I-Task
 enhancement	NN	O	I-Task
 .	NN	O	O
+
 Ångström	NN	O	O
 (	NN	O	O
 1961	NN	O	O
@@ -6500,6 +6729,7 @@ Major	NN	O	O
 1980	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 whole	NN	O	O
 issue	NN	O	O
@@ -6527,6 +6757,7 @@ had	NN	O	O
 differing	NN	O	O
 geometries	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 was	NN	O	O
 considerably	NN	O	O
@@ -6557,6 +6788,7 @@ all	NN	O	O
 recent	NN	O	O
 instruments	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 experimental	NN	O	O
 issues	NN	O	O
@@ -6573,6 +6805,7 @@ Section	NN	O	O
 3.2	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0038092X15001024)
 
 The	NN	O	O
@@ -6590,6 +6823,7 @@ for	NN	O	O
 seasonal	NN	O	O
 variations	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 Markov	NN	O	B-Process
 chain	NN	O	I-Process
@@ -6620,6 +6854,7 @@ four	NN	O	O
 chains	NN	O	O
 each	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 okta	NN	O	B-Process
 number	NN	O	I-Process
@@ -6643,6 +6878,7 @@ and	NN	O	O
 diurnal	NN	O	O
 variation	NN	O	O
 .	NN	O	O
+
 Eight	NN	O	O
 okta	NN	O	B-Process
 Markov	NN	O	I-Process
@@ -6687,6 +6923,7 @@ for	NN	O	O
 each	NN	O	O
 season	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 intent	NN	O	O
 is	NN	O	O
@@ -6713,6 +6950,7 @@ of	NN	O	O
 solar	NN	O	O
 energy	NN	O	O
 .	NN	O	O
+
 5	NN	O	O
 am	NN	O	O
 is	NN	O	O
@@ -6736,6 +6974,7 @@ applied	NN	O	O
 study	NN	O	O
 locations	NN	O	O
 .	NN	O	O
+
 5h	NN	O	O
 represents	NN	O	O
 5	NN	O	O
@@ -6763,6 +7002,7 @@ represented	NN	O	O
 ,	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 8	NN	O	O
 demonstrates	NN	O	O
 the	NN	O	O
@@ -6770,8 +7010,10 @@ diurnal	NN	O	O
 transition	NN	O	O
 differences	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 2	NN	O	O
 visually	NN	O	O
 demonstrates	NN	O	O
@@ -6796,9 +7038,11 @@ seen	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 11	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0038092X15003059)
 
 In	NN	O	O
@@ -6822,10 +7066,12 @@ of	NN	O	O
 CPV	NN	O	B-Process
 modules	NN	O	O
 .	NN	O	O
+
 Rodrigo	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2014	NN	O	O
 )	NN	O	O
@@ -6848,6 +7094,7 @@ HCPV	NN	O	B-Process
 )	NN	O	O
 modules	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 methods	NN	O	O
 were	NN	O	O
@@ -6874,6 +7121,7 @@ and	NN	O	O
 atmospheric	NN	O	O
 parameters	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 first	NN	O	O
 two	NN	O	O
@@ -6907,10 +7155,12 @@ Error	NN	O	O
 (	NN	O	O
 RMSE	NN	O	O
 )	NN	O	O
+
 1.7–2.5	NN	O	O
 K	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Most	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -6921,6 +7171,7 @@ Rodrigo	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2014	NN	O	O
 )	NN	O	O
@@ -6934,6 +7185,7 @@ open	NN	O	B-Process
 circuit	NN	O	I-Process
 conditions	NN	O	I-Process
 .	NN	O	O
+
 Methods	NN	O	O
 that	NN	O	O
 predict	NN	O	O
@@ -6975,6 +7227,7 @@ Yandt	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2012	NN	O	O
 )	NN	O	O
@@ -6996,6 +7249,7 @@ Fernández	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2014b	NN	O	O
 )	NN	O	O
@@ -7012,6 +7266,7 @@ Fernández	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2014a	NN	O	O
 )	NN	O	O
@@ -7071,6 +7326,7 @@ al	NN	O	O
 )	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 main	NN	O	O
 disadvantage	NN	O	O
@@ -7097,6 +7353,7 @@ temperature	NN	O	I-Task
 calculation	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0045782514001947)
 
 Our	NN	O	O
@@ -7116,12 +7373,14 @@ different	NN	O	O
 flow	NN	O	B-Process
 types	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 Edeling	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 9	NN	O	O
 ]	NN	O	O
@@ -7139,6 +7398,7 @@ boundary	NN	O	B-Process
 layer	NN	O	I-Process
 flows	NN	O	I-Process
 .	NN	O	O
+
 They	NN	O	O
 summarized	NN	O	O
 this	NN	O	O
@@ -7174,6 +7434,7 @@ p	NN	O	B-Material
 box	NN	O	I-Material
 )	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 p	NN	O	B-Material
 -	NN	O	I-Material
@@ -7192,6 +7453,7 @@ within	NN	O	O
 each	NN	O	O
 calibration	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 prediction	NN	O	O
 of	NN	O	O
@@ -7226,6 +7488,7 @@ with	NN	O	O
 measurement	NN	O	O
 data	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 approach	NN	O	O
 is	NN	O	O
@@ -7271,6 +7534,7 @@ the	NN	O	I-Process
 outcomes	NN	O	I-Process
 afterwards	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 a	NN	O	O
@@ -7283,6 +7547,7 @@ future	NN	O	O
 research	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782515001322)
 
 One	NN	O	O
@@ -7339,6 +7604,7 @@ hours	NN	O	O
 for	NN	O	O
 FE	NN	O	B-Process
 .	NN	O	O
+
 Table	NN	O	O
 1	NN	O	O
 reports	NN	O	O
@@ -7351,6 +7617,7 @@ for	NN	O	O
 both	NN	O	O
 methods	NN	O	O
 .	NN	O	O
+
 Free	NN	O	O
 expansion	NN	O	O
 is	NN	O	O
@@ -7387,6 +7654,7 @@ take	NN	O	O
 approximately	NN	O	O
 30	NN	O	O
 s.	NN	O	O
+
 Most	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -7417,6 +7685,7 @@ the	NN	O	O
 stent	NN	O	O
 structure	NN	O	O
 .	NN	O	O
+
 Interestingly	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -7453,6 +7722,7 @@ aortic	NN	O	O
 dissection	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Another	NN	O	O
 fact	NN	O	O
 worth	NN	O	O
@@ -7474,6 +7744,7 @@ in	NN	O	O
 both	NN	O	O
 methods	NN	O	O
 .	NN	O	O
+
 While	NN	O	O
 the	NN	O	O
 computational	NN	O	O
@@ -7502,6 +7773,7 @@ the	NN	O	O
 FE	NN	O	B-Process
 simulations	NN	O	I-Process
 .	NN	O	O
+
 Such	NN	O	O
 outcome	NN	O	O
 is	NN	O	O
@@ -7535,6 +7807,7 @@ the	NN	O	O
 vessel	NN	O	B-Material
 wall	NN	O	I-Material
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 contrary	NN	O	O
@@ -7561,6 +7834,7 @@ the	NN	O	O
 simulations	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0079642514000784)
 
 Gas	NN	O	B-Process
@@ -7595,6 +7869,7 @@ vdW	NN	O	I-Process
 )	NN	O	I-Process
 interactions	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 former	NN	O	O
 can	NN	O	O
@@ -7615,6 +7890,7 @@ by	NN	O	O
 chemical	NN	O	B-Process
 substitution	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 strength	NN	O	O
 of	NN	O	O
@@ -7666,6 +7942,7 @@ and	NN	O	O
 quadrupole	NN	O	O
 moment	NN	O	O
 .	NN	O	O
+
 Li	NN	O	O
 et	NN	O	O
 al	NN	O	O
@@ -7688,6 +7965,7 @@ and	NN	O	O
 herein	NN	O	O
 Table	NN	O	O
 1	NN	O	O
+
 we	NN	O	O
 show	NN	O	O
 a	NN	O	O
@@ -7712,10 +7990,12 @@ NH3	NN	O	B-Material
 SO2	NN	O	B-Material
 and	NN	O	O
 H2S	NN	O	B-Material
+
 [	NN	O	O
 90	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 instance	NN	O	O
 ,	NN	O	O
@@ -7743,6 +8023,7 @@ but	NN	O	O
 no	NN	O	O
 polarity	NN	O	O
 .	NN	O	O
+
 Adsorbents	NN	O	B-Material
 with	NN	O	O
 highly	NN	O	O
@@ -7759,6 +8040,7 @@ high	NN	O	O
 dipole	NN	O	O
 moment	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 adsorbents	NN	O	B-Material
 with	NN	O	O
@@ -7783,6 +8065,7 @@ molecules	NN	O	I-Material
 91	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Normally	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -7819,6 +8102,7 @@ H2S	NN	O	B-Material
 NH3	NN	O	B-Material
 and	NN	O	O
 H2O.	NN	O	B-Material
+
 Thus	NN	O	O
 ,	NN	O	O
 surface	NN	O	B-Process
@@ -7848,6 +8132,7 @@ enhance	NN	O	B-Task
 gas	NN	O	I-Task
 adsorption	NN	O	I-Task
 .	NN	O	O
+
 For	NN	O	O
 this	NN	O	O
 purpose	NN	O	O
@@ -7865,6 +8150,7 @@ carbonaceous	NN	O	B-Material
 adsorbents	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0079642515000705)
 
 When	NN	O	O
@@ -7891,6 +8177,7 @@ non	NN	O	O
 local	NN	O	O
 phenomenon	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 literature	NN	O	O
@@ -7933,6 +8220,7 @@ direction	NN	O	I-Process
 38,41	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Continuum	NN	O	B-Process
 approaches	NN	O	I-Process
 ,	NN	O	O
@@ -7974,6 +8262,7 @@ been	NN	O	O
 also	NN	O	O
 explored	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 instance	NN	O	O
 ,	NN	O	O
@@ -7981,6 +8270,7 @@ Poxson	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 228	NN	O	O
 ]	NN	O	O
@@ -8000,6 +8290,7 @@ as	NN	O	O
 surface	NN	O	B-Process
 diffusion	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 model	NN	O	O
 accurately	NN	O	O
@@ -8039,11 +8330,13 @@ of	NN	O	O
 the	NN	O	O
 film	NN	O	B-Material
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 in	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 39	NN	O	O
 ]	NN	O	O
@@ -8075,6 +8368,7 @@ the	NN	O	O
 fan	NN	O	O
 angle	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 material	NN	O	O
 -	NN	O	O
@@ -8109,6 +8403,7 @@ with	NN	O	O
 film	NN	O	B-Material
 thickness	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 model	NN	O	O
 was	NN	O	O
@@ -8151,6 +8446,7 @@ several	NN	O	O
 materials	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167844214000652)
 
 A	NN	O	O
@@ -8183,6 +8479,7 @@ their	NN	O	I-Process
 common	NN	O	I-Process
 face	NN	O	I-Process
 .	NN	O	O
+
 Initially	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -8213,6 +8510,7 @@ to	NN	O	O
 force	NN	O	O
 redistribution	NN	O	O
 .	NN	O	O
+
 Interaction	NN	O	O
 and	NN	O	O
 coalescence	NN	O	O
@@ -8227,6 +8525,7 @@ micro	NN	O	B-Material
 cracks	NN	O	I-Material
 increases	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 situations	NN	O	O
 are	NN	O	O
@@ -8234,8 +8533,10 @@ illustrated	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 structure	NN	O	O
 of	NN	O	O
@@ -8284,11 +8585,13 @@ continuous	NN	O	O
 larger	NN	O	O
 crack	NN	O	B-Material
 .	NN	O	O
+
 With	NN	O	O
 reference	NN	O	O
 to	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3	NN	O	O
 ,	NN	O	O
 each	NN	O	O
@@ -8303,6 +8606,7 @@ each	NN	O	O
 pair	NN	O	O
 of	NN	O	O
 neighbouring	NN	O	O
+
 failed	NN	O	B-Material
 faces	NN	O	I-Material
 is	NN	O	O
@@ -8311,6 +8615,7 @@ graph	NN	O	O
 edge	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0254058415300766)
 
 Half	NN	O	B-Material
@@ -8334,6 +8639,7 @@ devices	NN	O	I-Task
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Dilute	NN	O	B-Material
 magnetic	NN	O	I-Material
 semiconductors	NN	O	I-Material
@@ -8352,6 +8658,7 @@ show	NN	O	I-Material
 half	NN	O	I-Material
 metallicity	NN	O	I-Material
 .	NN	O	O
+
 These	NN	O	O
 materials	NN	O	O
 have	NN	O	O
@@ -8387,6 +8694,7 @@ electrons	NN	O	I-Material
 2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 major	NN	O	O
 advantage	NN	O	O
@@ -8429,6 +8737,7 @@ electrons	NN	O	B-Material
 3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 major	NN	O	O
 issue	NN	O	O
@@ -8448,6 +8757,7 @@ above	NN	O	I-Task
 room	NN	O	I-Task
 temperature	NN	O	I-Task
 .	NN	O	O
+
 That	NN	O	O
 's	NN	O	O
 why	NN	O	O
@@ -8461,6 +8771,7 @@ band	NN	O	I-Material
 gap	NN	O	I-Material
 materials	NN	O	I-Material
 .	NN	O	O
+
 A	NN	O	O
 lot	NN	O	O
 of	NN	O	O
@@ -8506,6 +8817,7 @@ SnO2	NN	O	B-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0301010409001219)
 
 It	NN	O	O
@@ -8544,6 +8856,7 @@ the	NN	O	O
 laser	NN	O	B-Material
 field	NN	O	I-Material
 .	NN	O	O
+
 Depending	NN	O	O
 on	NN	O	O
 the	NN	O	O
@@ -8566,6 +8879,7 @@ suppressed	NN	O	O
 14,18,22	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Controlling	NN	O	O
 the	NN	O	O
 outcome	NN	O	O
@@ -8595,6 +8909,7 @@ the	NN	O	O
 recent	NN	O	O
 years	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 efforts	NN	O	O
@@ -8626,6 +8941,7 @@ study	NN	O	O
 20,22–24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Here	NN	O	O
 we	NN	O	O
 report	NN	O	O
@@ -8653,6 +8969,7 @@ fragmentation	NN	O	B-Material
 channel	NN	O	I-Material
 available	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 found	NN	O	O
 that	NN	O	O
@@ -8688,6 +9005,7 @@ other	NN	O	O
 possible	NN	O	O
 channels	NN	O	B-Material
 .	NN	O	O
+
 In	NN	O	O
 fact	NN	O	O
 ,	NN	O	O
@@ -8722,6 +9040,7 @@ the	NN	O	O
 positive	NN	O	B-Material
 chirp	NN	O	I-Material
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -8760,6 +9079,7 @@ noise	NN	O	O
 level	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0301010413002139)
 
 The	NN	O	O
@@ -8788,6 +9108,7 @@ state	NN	O	O
 10–14	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Spectral	NN	O	B-Process
 assignments	NN	O	I-Process
 have	NN	O	O
@@ -8815,6 +9136,7 @@ isolated	NN	O	B-Process
 molecule	NN	O	I-Process
 approximation	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 systems	NN	O	O
 that	NN	O	O
@@ -8835,6 +9157,7 @@ experiment	NN	O	O
 and	NN	O	O
 theory	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 striking	NN	O	O
 example	NN	O	O
@@ -8888,6 +9211,7 @@ between	NN	O	O
 the	NN	O	O
 tautomers	NN	O	B-Material
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 present	NN	O	O
@@ -8918,6 +9242,7 @@ essential	NN	O	O
 19	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 only	NN	O	O
 work	NN	O	O
@@ -8943,6 +9268,7 @@ to	NN	O	O
 extract	NN	O	O
 assignments	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 aim	NN	O	O
 of	NN	O	O
@@ -8982,6 +9308,7 @@ experimental	NN	O	I-Process
 methods	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0301010413004096)
 
 It	NN	O	O
@@ -9010,6 +9337,7 @@ the	NN	O	O
 observed	NN	O	O
 signal	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 technique	NN	O	O
 therefore	NN	O	O
@@ -9026,6 +9354,7 @@ with	NN	O	O
 low	NN	O	O
 uptakes	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 static	NN	O	B-Task
@@ -9044,6 +9373,7 @@ adsorbed	NN	O	B-Material
 gas	NN	O	I-Material
 molecules	NN	O	I-Material
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -9077,6 +9407,7 @@ suitable	NN	O	O
 characterisation	NN	O	B-Process
 techniques	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 report	NN	O	O
 herein	NN	O	O
@@ -9132,6 +9463,7 @@ uptake	NN	O	O
 of	NN	O	O
 H2	NN	O	B-Material
 .	NN	O	O
+
 This	NN	O	O
 neutron	NN	O	B-Task
 spectroscopy	NN	O	I-Task
@@ -9177,6 +9509,7 @@ Al	NN	O	B-Process
 O⋯H2	NN	O	I-Process
 )	NN	O	O
 .	NN	O	O
+
 Interestingly	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -9239,6 +9572,7 @@ MOF	NN	O	B-Material
 host	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0301010415002189)
 
 The	NN	O	O
@@ -9254,6 +9588,7 @@ and	NN	O	O
 experimental	NN	O	O
 studies	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 pioneering	NN	O	O
 theoretical	NN	O	O
@@ -9283,6 +9618,7 @@ conformation	NN	O	I-Process
 6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Several	NN	O	O
 extended	NN	O	O
 PES	NN	O	B-Process
@@ -9327,6 +9663,7 @@ functions	NN	O	I-Process
 9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Recently	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -9349,6 +9686,7 @@ been	NN	O	O
 tested	NN	O	O
 for	NN	O	O
 Na3	NN	O	B-Material
+
 [	NN	O	O
 10	NN	O	O
 ]	NN	O	O
@@ -9402,6 +9740,7 @@ spectra	NN	O	I-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0301010415300355)
 
 Alternatively	NN	O	O
@@ -9423,6 +9762,7 @@ as	NN	O	O
 reducing	NN	O	B-Material
 agents	NN	O	I-Material
 .	NN	O	O
+
 Evidence	NN	O	O
 has	NN	O	O
 been	NN	O	O
@@ -9458,6 +9798,7 @@ methanol	NN	O	B-Material
 with	NN	O	O
 suitable	NN	O	O
 catalyzers	NN	O	B-Material
+
 [	NN	O	O
 27–29	NN	O	O
 ]	NN	O	O
@@ -9476,6 +9817,7 @@ understood	NN	O	O
 30–32	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 theoretically	NN	O	O
 predicted	NN	O	O
@@ -9502,6 +9844,7 @@ respectively	NN	O	O
 see	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 4	NN	O	O
 )	NN	O	O
 ,	NN	O	O
@@ -9524,6 +9867,7 @@ about	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Pyridinyl	NN	O	B-Material
 is	NN	O	O
 thus	NN	O	O
@@ -9537,6 +9881,7 @@ and	NN	O	O
 related	NN	O	O
 radicals	NN	O	B-Material
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 therefore	NN	O	O
@@ -9557,6 +9902,7 @@ dark	NN	O	I-Task
 reactions	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0301932213000487)
 
 As	NN	O	O
@@ -9591,6 +9937,7 @@ equation	NN	O	I-Task
 of	NN	O	I-Task
 motion	NN	O	I-Task
 .	NN	O	O
+
 For	NN	O	O
 very	NN	O	O
 dilute	NN	O	B-Material
@@ -9606,6 +9953,7 @@ most	NN	O	O
 natural	NN	O	O
 choice	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 when	NN	O	O
@@ -9631,6 +9979,7 @@ only	NN	O	O
 realistic	NN	O	O
 option	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 interesting	NN	O	O
@@ -9647,8 +9996,10 @@ affects	NN	O	O
 the	NN	O	O
 statistics	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 14	NN	O	O
 compares	NN	O	O
 the	NN	O	O
@@ -9663,6 +10014,7 @@ the	NN	O	O
 experimental	NN	O	O
 data	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 same	NN	O	O
 comparison	NN	O	O
@@ -9673,6 +10025,7 @@ the	NN	O	O
 smooth	NN	O	B-Material
 walls	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 differences	NN	O	O
 between	NN	O	O
@@ -9690,6 +10043,7 @@ are	NN	O	O
 almost	NN	O	O
 negligible	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -9708,6 +10062,7 @@ walls	NN	O	I-Material
 are	NN	O	O
 minor	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 because	NN	O	O
@@ -9759,6 +10114,7 @@ wall	NN	O	I-Material
 is	NN	O	O
 considered	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 because	NN	O	O
@@ -9779,6 +10135,7 @@ amount	NN	O	O
 of	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 Similarly	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -9791,10 +10148,12 @@ the	NN	O	O
 fluid	NN	O	B-Material
 statistics	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 15	NN	O	O
 ,	NN	O	O
 which	NN	O	O
@@ -9812,6 +10171,7 @@ are	NN	O	O
 somewhat	NN	O	O
 larger	NN	O	O
 .	NN	O	O
+
 Additionally	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -9855,11 +10215,13 @@ shown	NN	O	O
 in	NN	O	O
 Figs	NN	O	O
 .	NN	O	O
+
 16	NN	O	O
 and	NN	O	O
 17	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0301932213001985)
 
 In	NN	O	O
@@ -9885,6 +10247,7 @@ finite	NN	O	B-Process
 difference	NN	O	I-Process
 scheme	NN	O	I-Process
 .	NN	O	O
+
 By	NN	O	O
 appropriately	NN	O	O
 choosing	NN	O	O
@@ -9922,6 +10285,7 @@ Xiao	NN	O	O
 2012	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Although	NN	O	O
 a	NN	O	O
 high	NN	O	B-Process
@@ -9997,6 +10361,7 @@ maintains	NN	O	O
 order	NN	O	O
 accuracy	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 a	NN	O	O
@@ -10024,6 +10389,7 @@ primary	NN	O	I-Task
 breakup	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0301932214001931)
 
 The	NN	O	O
@@ -10059,6 +10425,7 @@ significant	NN	O	O
 Stokes	NN	O	O
 number	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 achieve	NN	O	O
 this	NN	O	O
@@ -10096,6 +10463,7 @@ Zastawny	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2012	NN	O	O
 )	NN	O	O
@@ -10103,6 +10471,7 @@ al	NN	O	O
 are	NN	O	O
 performed	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 well	NN	O	O
 -	NN	O	O
@@ -10132,6 +10501,7 @@ a	NN	O	O
 reference	NN	O	O
 case	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 measurements	NN	O	O
 in	NN	O	O
@@ -10156,6 +10526,7 @@ particle	NN	O	B-Material
 velocity	NN	O	O
 simultaneously	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 numerical	NN	O	B-Process
 framework	NN	O	I-Process
@@ -10179,6 +10550,7 @@ Wachem	NN	O	O
 2013	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 that	NN	O	O
 paper	NN	O	O
@@ -10220,6 +10592,7 @@ hard	NN	O	B-Process
 sphere	NN	O	I-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 this	NN	O	O
@@ -10237,6 +10610,7 @@ the	NN	O	O
 LES	NN	O	B-Process
 framework	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 current	NN	O	O
@@ -10255,6 +10629,7 @@ spherical	NN	O	I-Material
 particles	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0378381215300297)
 
 The	NN	O	O
@@ -10282,6 +10657,7 @@ properties	NN	O	O
 of	NN	O	O
 fluids	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 reader	NN	O	O
 is	NN	O	O
@@ -10309,6 +10685,7 @@ available	NN	O	O
 50–53	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 fundamental	NN	O	O
 difference	NN	O	O
@@ -10329,6 +10706,7 @@ unbounded	NN	O	B-Material
 constituent	NN	O	I-Material
 particles	NN	O	I-Material
 .	NN	O	O
+
 Hard	NN	O	B-Material
 spheres	NN	O	I-Material
 ,	NN	O	O
@@ -10356,6 +10734,7 @@ incarnations	NN	O	O
 of	NN	O	O
 SAFT	NN	O	B-Process
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 purpose	NN	O	O
@@ -10387,6 +10766,7 @@ Laffitte	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 54	NN	O	O
 ]	NN	O	O
@@ -10405,10 +10785,12 @@ Papaioannou	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 55	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 particular	NN	O	O
 version	NN	O	O
@@ -10458,6 +10840,7 @@ by	NN	O	O
 decades	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Mie	NN	O	B-Process
 potential	NN	O	I-Process
@@ -10584,6 +10967,7 @@ parameters	NN	O	O
 57	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Accordingly	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -10623,11 +11007,13 @@ parameter	NN	O	O
 as	NN	O	O
 λ=λr	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 potential	NN	O	O
 simplifies	NN	O	O
 to(2)ϕ(r)=λλ−6λ66/(λ−6)εσrλ−σr6	NN	O	O
 
+
 -DOCSTART- (S1359028614000989)
 
 The	NN	O	O
@@ -10654,6 +11040,7 @@ and	NN	O	I-Task
 statistical	NN	O	I-Task
 modeling	NN	O	I-Task
 .	NN	O	O
+
 Approaches	NN	O	O
 for	NN	O	O
 extraction	NN	O	B-Task
@@ -10701,6 +11088,7 @@ statistical	NN	O	B-Process
 model	NN	O	I-Process
 level	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 capture	NN	O	B-Task
 the	NN	O	I-Task
@@ -10752,6 +11140,7 @@ contents	NN	O	O
 68,69	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 raw	NN	O	O
 data	NN	O	O
@@ -10766,6 +11155,7 @@ query	NN	O	B-Task
 and	NN	O	O
 modeling	NN	O	B-Task
 .	NN	O	O
+
 Similarly	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -10795,6 +11185,7 @@ and	NN	O	I-Process
 macroscopic	NN	O	I-Process
 approaches	NN	O	I-Process
 .	NN	O	O
+
 Laboratory	NN	O	B-Task
 and	NN	O	I-Task
 real	NN	O	I-Task
@@ -10829,6 +11220,7 @@ degradation	NN	O	B-Task
 science	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S1877750315000575)
 
 There	NN	O	O
@@ -10845,6 +11237,7 @@ systems	NN	O	I-Task
 using	NN	O	O
 simulations	NN	O	B-Process
 .	NN	O	O
+
 One	NN	O	O
 category	NN	O	O
 of	NN	O	O
@@ -10876,6 +11269,7 @@ global	NN	O	O
 network	NN	O	O
 performance	NN	O	O
 .	NN	O	O
+
 Our	NN	O	O
 approach	NN	O	O
 is	NN	O	O
@@ -10905,6 +11299,7 @@ that	NN	O	O
 receive	NN	O	O
 information	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 analyse	NN	O	B-Task
 what	NN	O	I-Task
@@ -10923,6 +11318,7 @@ this	NN	O	O
 effect	NN	O	O
 appears	NN	O	O
 .	NN	O	O
+
 Information	NN	O	O
 is	NN	O	O
 disseminated	NN	O	O
@@ -10940,6 +11336,7 @@ the	NN	O	O
 roads	NN	O	O
 are	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 approach	NN	O	O
 is	NN	O	O
@@ -10964,6 +11361,7 @@ have	NN	O	O
 on	NN	O	O
 traffic	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 can	NN	O	O
 be	NN	O	O
@@ -10983,6 +11381,7 @@ steering	NN	O	O
 tool	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1877750315300119)
 
 Generalized	NN	O	B-Process
@@ -10990,6 +11389,7 @@ polynomial	NN	O	I-Process
 chaos	NN	O	I-Process
 expansions	NN	O	I-Process
 .	NN	O	O
+
 One	NN	O	O
 approach	NN	O	O
 to	NN	O	O
@@ -11022,6 +11422,7 @@ expansion	NN	O	I-Process
 34	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 described	NN	O	O
 in	NN	O	O
@@ -11048,6 +11449,7 @@ hypercube	NN	O	O
 0	NN	O	O
 ,	NN	O	O
 1]D.	NN	O	O
+
 With	NN	O	O
 a	NN	O	O
 double	NN	O	O
@@ -11073,6 +11475,7 @@ t	NN	O	O
 ,	NN	O	O
 R)=∑n∈INcn(x	NN	O	O
 ,	NN	O	O
+
 t)Φn(R),where	NN	O	O
 R	NN	O	O
 is	NN	O	O
@@ -11094,6 +11497,7 @@ of	NN	O	O
 independent	NN	O	O
 components	NN	O	O
 .	NN	O	O
+
 Also	NN	O	O
 ,	NN	O	O
 {	NN	O	O
@@ -11111,6 +11515,7 @@ LR	NN	O	O
 not	NN	O	O
 LQ	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 any	NN	O	O
 case	NN	O	O
@@ -11134,6 +11539,7 @@ discretized	NN	O	B-Process
 Stieltjes	NN	O	I-Process
 procedure	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 remark	NN	O	O
 that	NN	O	O
@@ -11155,6 +11561,7 @@ smooth	NN	O	O
 34	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Dakota	NN	O	O
 ,	NN	O	O
 Turns	NN	O	O
@@ -11182,6 +11589,7 @@ in	NN	O	O
 Table	NN	O	O
 2	NN	O	O
 .	NN	O	O
+
 Since	NN	O	O
 Chaospy	NN	O	O
 has	NN	O	O
@@ -11206,6 +11614,7 @@ all	NN	O	O
 densities	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2352179115300041)
 
 The	NN	O	O
@@ -11274,6 +11683,7 @@ oxygen	NN	O	B-Material
 10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -11305,6 +11715,7 @@ the	NN	O	O
 device	NN	O	O
 design	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 analysis	NN	O	O
 of	NN	O	O
@@ -11355,6 +11766,7 @@ and	NN	O	O
 remote	NN	O	B-Material
 parts	NN	O	I-Material
 .	NN	O	O
+
 At	NN	O	O
 present	NN	O	O
 ,	NN	O	O
@@ -11398,6 +11810,7 @@ large	NN	O	O
 heat	NN	O	O
 loads	NN	O	O
 .	NN	O	O
+
 Nevertheless	NN	O	O
 ,	NN	O	O
 many	NN	O	O
@@ -11456,6 +11869,7 @@ events	NN	O	O
 ,	NN	O	O
 etc	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 temperatures	NN	O	O
 used	NN	O	O
@@ -11484,6 +11898,7 @@ extrapolated	NN	O	O
 to	NN	O	O
 them	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 even	NN	O	O
@@ -11521,3 +11936,4 @@ unexpected	NN	O	O
 reasons	NN	O	O
 .	NN	O	O
 
+
diff --git a/data/ner/semeval2017/test.txt b/data/ner/semeval2017/test.txt
index 678e7de..aae536b 100644
--- a/data/ner/semeval2017/test.txt
+++ b/data/ner/semeval2017/test.txt
@@ -29,6 +29,7 @@ in	NN	O	O
 all	NN	O	O
 patients	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 raw	NN	O	O
 data	NN	O	O
@@ -53,6 +54,7 @@ target	NN	O	I-Task
 vessel	NN	O	I-Task
 segment	NN	O	I-Task
 .	NN	O	O
+
 These	NN	O	O
 data	NN	O	O
 were	NN	O	O
@@ -93,6 +95,7 @@ MA	NN	O	O
 USA	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 unstructured	NN	O	O
 computational	NN	O	B-Material
@@ -105,6 +108,7 @@ the	NN	O	O
 triangulated	NN	O	B-Material
 surface	NN	O	I-Material
 .	NN	O	O
+
 Smoothing	NN	O	B-Process
 and	NN	O	O
 remeshing	NN	O	B-Process
@@ -113,6 +117,7 @@ as	NN	O	O
 next	NN	O	O
 steps	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 STL	NN	O	B-Material
 file	NN	O	I-Material
@@ -138,6 +143,7 @@ MN	NN	O	O
 USA	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resolution	NN	O	O
 of	NN	O	O
@@ -163,6 +169,7 @@ resin	NN	O	I-Material
 Vero	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 Following	NN	O	O
 immersion	NN	O	B-Process
 in	NN	O	I-Process
@@ -187,10 +194,12 @@ removing	NN	O	B-Process
 spicule	NN	O	I-Process
 .	NN	O	I-Process
 
+
 -DOCSTART- (S0010938X15301268)
 
 Fig	NN	O	O
 .	NN	O	O
+
 9	NN	O	O
 displays	NN	O	O
 the	NN	O	O
@@ -218,6 +227,7 @@ hydrozincite	NN	O	B-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 9a	NN	O	O
 )	NN	O	O
 and	NN	O	O
@@ -225,9 +235,11 @@ Cu2O	NN	O	B-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 9b	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 should	NN	O	O
 be	NN	O	O
@@ -244,6 +256,7 @@ of	NN	O	O
 the	NN	O	O
 exposure	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 data	NN	O	O
 is	NN	O	O
@@ -274,6 +287,7 @@ DP	NN	O	B-Material
 and	NN	O	O
 HZ7	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 tendency	NN	O	O
 is	NN	O	O
@@ -309,6 +323,7 @@ surface	NN	O	I-Material
 DP	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 summary	NN	O	O
 ,	NN	O	O
@@ -357,6 +372,7 @@ and	NN	O	O
 cuprite	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X15301554)
 
 AA	NN	O	B-Material
@@ -397,6 +413,7 @@ appropriate	NN	O	O
 thermomechanical	NN	O	B-Process
 processing	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 microstructure	NN	O	O
 of	NN	O	O
@@ -420,6 +437,7 @@ identified	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Although	NN	O	O
 possessing	NN	O	O
 favourable	NN	O	O
@@ -442,6 +460,7 @@ in	NN	O	O
 practical	NN	O	O
 applications	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 corrosion	NN	O	B-Process
 behaviour	NN	O	O
@@ -473,6 +492,7 @@ matrix	NN	O	I-Material
 2–9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Copper	NN	O	B-Material
 -	NN	O	I-Material
 containing	NN	O	I-Material
@@ -500,6 +520,7 @@ sites	NN	O	O
 2,10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 One	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -531,6 +552,7 @@ particle	NN	O	O
 1,11	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Dealloying	NN	O	O
 of	NN	O	O
 S	NN	O	B-Material
@@ -548,6 +570,7 @@ the	NN	O	O
 constituent	NN	O	B-Material
 particles	NN	O	I-Material
 in	NN	O	O
+
 AA2024	NN	O	B-Material
 alloys	NN	O	I-Material
 [	NN	O	O
@@ -567,6 +590,7 @@ an	NN	O	O
 aggressive	NN	O	O
 environment	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 particles	NN	O	B-Material
 are	NN	O	O
@@ -586,6 +610,7 @@ alloy	NN	O	B-Material
 11–22	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 dealloying	NN	O	B-Process
 of	NN	O	O
@@ -626,6 +651,7 @@ sites	NN	O	I-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0011227514002136)
 
 Measuring	NN	O	B-Task
@@ -684,8 +710,10 @@ servo	NN	O	B-Process
 control	NN	O	I-Process
 program	NN	O	I-Process
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 17	NN	O	O
 shows	NN	O	O
 the	NN	O	O
@@ -703,6 +731,7 @@ subsequent	NN	O	O
 operation	NN	O	B-Process
 at	NN	O	I-Process
 200mK.	NN	O	I-Process
+
 During	NN	O	O
 the	NN	O	O
 hold	NN	O	O
@@ -722,6 +751,7 @@ within	NN	O	O
 a	NN	O	O
 millikelvin	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 expected	NN	O	O
@@ -783,6 +813,7 @@ readout	NN	O	O
 used	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0011227515000648)
 
 The	NN	O	O
@@ -804,6 +835,7 @@ the	NN	O	O
 test	NN	O	O
 results	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 redesign	NN	O	O
 and	NN	O	O
@@ -822,6 +854,7 @@ by	NN	O	O
 approximately	NN	O	O
 half	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 mainly	NN	O	O
@@ -848,6 +881,7 @@ and	NN	O	O
 bit	NN	O	B-Process
 errors	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 difference	NN	O	O
 in	NN	O	O
@@ -897,6 +931,7 @@ have	NN	O	O
 been	NN	O	O
 changed	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 means	NN	O	O
 different	NN	O	O
@@ -917,6 +952,7 @@ lower	NN	O	O
 the	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
+
 Some	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -947,6 +983,7 @@ slope	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0011227515001216)
 
 Prior	NN	O	O
@@ -972,6 +1009,7 @@ to	NN	O	O
 cryostat	NN	O	B-Material
 constraints	NN	O	I-Material
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 based	NN	O	O
@@ -997,11 +1035,13 @@ has	NN	O	O
 been	NN	O	O
 estimated	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 Hills	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 8	NN	O	O
 ]	NN	O	O
@@ -1042,11 +1082,13 @@ T	NN	O	O
 see	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 1	NN	O	O
 )	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 estimate	NN	O	O
 the	NN	O	O
@@ -1062,6 +1104,7 @@ parameters	NN	O	O
 in	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 1	NN	O	O
 )	NN	O	O
@@ -1155,8 +1198,10 @@ a	NN	O	O
 good	NN	O	O
 approximation	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 5	NN	O	O
 gives	NN	O	O
 the	NN	O	O
@@ -1180,6 +1225,7 @@ based	NN	O	O
 on	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 1	NN	O	O
 )	NN	O	O
@@ -1214,6 +1260,7 @@ and	NN	O	O
 1.7	NN	O	O
 respectively	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 should	NN	O	O
 be	NN	O	O
@@ -1257,6 +1304,7 @@ Section	NN	O	O
 +	NN	O	O
 1a1+a2T2T+Bna3T+a4T4	NN	O	O
 
+
 -DOCSTART- (S002002551630384X)
 
 An	NN	O	O
@@ -1302,6 +1350,7 @@ to	NN	O	O
 follow	NN	O	O
 curves	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -1326,6 +1375,7 @@ formed	NN	O	O
 Euler	NN	O	B-Process
 diagrams	NN	O	I-Process
 .	NN	O	O
+
 Compound	NN	O	B-Material
 graphs	NN	O	I-Material
 can	NN	O	O
@@ -1343,6 +1393,7 @@ data	NN	O	I-Material
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Graph	NN	O	B-Material
 clusters	NN	O	I-Material
 are	NN	O	O
@@ -1358,6 +1409,7 @@ Theron	NN	O	O
 39	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -1378,10 +1430,12 @@ arbitrary	NN	O	O
 overlapping	NN	O	O
 sets	NN	O	O
 .	NN	O	O
+
 Itoh	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 24	NN	O	O
 ]	NN	O	O
@@ -1403,6 +1457,7 @@ encode	NN	O	O
 multiple	NN	O	O
 categories	NN	O	O
 .	NN	O	O
+
 Each	NN	O	O
 set	NN	O	O
 is	NN	O	O
@@ -1420,6 +1475,7 @@ the	NN	O	O
 same	NN	O	O
 colour	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 causes	NN	O	O
 difficulties	NN	O	O
@@ -1442,6 +1498,7 @@ in	NN	O	O
 Section	NN	O	O
 5.3	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 related	NN	O	O
 class	NN	O	O
@@ -1463,6 +1520,7 @@ Vizster	NN	O	B-Process
 22	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 they	NN	O	O
@@ -1474,6 +1532,7 @@ set	NN	O	O
 overlaps	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021961414003255)
 
 Moreover	NN	O	O
@@ -1503,6 +1562,7 @@ to	NN	O	O
 room	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 phase	NN	O	O
 analysis	NN	O	O
@@ -1534,6 +1594,7 @@ on	NN	O	O
 the	NN	O	O
 surface	NN	O	B-Material
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 thermograms	NN	O	B-Process
@@ -1550,6 +1611,7 @@ or	NN	O	O
 clear	NN	O	B-Process
 inflections	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 proportion	NN	O	O
 of	NN	O	O
@@ -1573,6 +1635,7 @@ be	NN	O	O
 also	NN	O	O
 small	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 reflected	NN	O	B-Process
 light	NN	O	I-Process
@@ -1586,6 +1649,7 @@ change	NN	O	I-Process
 during	NN	O	O
 cooling	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 well	NN	O	O
 ,	NN	O	O
@@ -1612,6 +1676,7 @@ re	NN	O	B-Material
 solidified	NN	O	I-Material
 material	NN	O	I-Material
 .	NN	O	O
+
 At	NN	O	O
 the	NN	O	O
 surface	NN	O	O
@@ -1670,6 +1735,7 @@ solidified	NN	O	I-Material
 material	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S002199911200068X)
 
 Myocardial	NN	O	B-Process
@@ -1688,6 +1754,7 @@ PDEs	NN	O	I-Material
 5,6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Due	NN	O	O
 to	NN	O	O
 its	NN	O	O
@@ -1766,6 +1833,7 @@ a	NN	O	O
 short	NN	O	O
 simulation	NN	O	B-Process
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 they	NN	O	O
@@ -1785,6 +1853,7 @@ end	NN	O	I-Process
 supercomputing	NN	O	I-Process
 resources	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 computational	NN	O	O
 demand	NN	O	O
@@ -1816,6 +1885,7 @@ time	NN	O	I-Task
 7–12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 study	NN	O	O
@@ -1873,6 +1943,7 @@ field	NN	O	O
 16–19	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 schemes	NN	O	O
 where	NN	O	O
@@ -1904,6 +1975,7 @@ p	NN	O	I-Process
 -	NN	O	I-Process
 version	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 work	NN	O	O
@@ -1920,6 +1992,7 @@ p	NN	O	O
 fixed	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999112002847)
 
 In	NN	O	O
@@ -1940,6 +2013,7 @@ three	NN	O	I-Task
 dimensional	NN	O	I-Task
 problems	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 present	NN	O	O
 DEA	NN	O	B-Process
@@ -1977,6 +2051,7 @@ space	NN	O	I-Material
 coordinate	NN	O	I-Material
 system	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 two	NN	O	O
 dimensions	NN	O	O
@@ -2009,6 +2084,7 @@ to	NN	O	O
 the	NN	O	O
 boundary	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 basis	NN	O	O
 can	NN	O	O
@@ -2041,6 +2117,7 @@ polynomials	NN	O	I-Material
 9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Defining	NN	O	O
 a	NN	O	O
 suitable	NN	O	O
@@ -2058,6 +2135,7 @@ much	NN	O	O
 more	NN	O	O
 difficult	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 momentum	NN	O	O
 space	NN	O	O
@@ -2076,6 +2154,7 @@ not	NN	O	O
 arise	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999112003579)
 
 We	NN	O	O
@@ -2111,6 +2190,7 @@ discrete	NN	O	O
 Lagrange	NN	O	B-Material
 multipliers	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 linear	NN	O	O
 systems	NN	O	O
@@ -2129,6 +2209,7 @@ solution	NN	O	I-Process
 of	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 10	NN	O	O
 )	NN	O	O
@@ -2187,6 +2268,7 @@ the	NN	O	O
 Lagrange	NN	O	B-Material
 multipliers	NN	O	I-Material
 .	NN	O	O
+
 We	NN	O	O
 refer	NN	O	O
 to	NN	O	O
@@ -2232,6 +2314,7 @@ in	NN	O	O
 related	NN	O	O
 problems	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 note	NN	O	O
 that	NN	O	O
@@ -2265,6 +2348,7 @@ equilibrium	NN	O	B-Process
 configuration	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113002945)
 
 Inequality	NN	O	B-Process
@@ -2286,6 +2370,7 @@ p	NN	O	B-Material
 -	NN	O	I-Material
 norms	NN	O	I-Material
 .	NN	O	O
+
 Fortunately	NN	O	O
 ,	NN	O	O
 this	NN	O	O
@@ -2312,6 +2397,7 @@ the	NN	O	O
 and	NN	O	O
 1-norm	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 maximum	NN	O	B-Material
 -	NN	O	I-Material
@@ -2334,6 +2420,7 @@ limitation	NN	O	O
 24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 would	NN	O	O
 greatly	NN	O	O
@@ -2354,6 +2441,7 @@ vast	NN	O	B-Process
 solution	NN	O	I-Process
 set	NN	O	I-Process
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 other	NN	O	O
@@ -2389,6 +2477,7 @@ the	NN	O	O
 space	NN	O	O
 domain	NN	O	O
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -2418,6 +2507,7 @@ as	NN	O	O
 possible	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113003422)
 
 Similar	NN	O	O
@@ -2450,6 +2540,7 @@ second	NN	O	O
 derivatives	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -2496,6 +2587,7 @@ kernel	NN	O	B-Process
 interpolation	NN	O	I-Process
 functions	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -2519,6 +2611,7 @@ these	NN	O	I-Task
 spurious	NN	O	I-Task
 oscillations	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 kernel	NN	O	B-Process
 functions	NN	O	I-Process
@@ -2566,6 +2659,7 @@ when	NN	O	O
 computing	NN	O	B-Process
 derivatives	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 Maple	NN	O	B-Task
 computer	NN	O	I-Task
@@ -2583,6 +2677,7 @@ new	NN	O	I-Task
 kernels	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S002199911300346X)
 
 Contact	NN	O	B-Process
@@ -2606,6 +2701,7 @@ for	NN	O	O
 many	NN	O	O
 years	NN	O	O
 .	NN	O	O
+
 Early	NN	O	O
 examples	NN	O	O
 of	NN	O	O
@@ -2623,14 +2719,17 @@ Cherry	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Hallquist	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 17	NN	O	O
 ]	NN	O	O
@@ -2655,6 +2754,7 @@ HEMP	NN	O	B-Process
 37	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Of	NN	O	O
 particular	NN	O	O
 interest	NN	O	O
@@ -2663,6 +2763,7 @@ Hallquist	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 17	NN	O	O
 ]	NN	O	O
@@ -2686,6 +2787,7 @@ DYNA2D	NN	O	B-Process
 36	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 contact	NN	O	B-Process
 method	NN	O	I-Process
@@ -2698,6 +2800,7 @@ master	NN	O	B-Process
 slave	NN	O	I-Process
 approach	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 goal	NN	O	O
 of	NN	O	O
@@ -2721,6 +2824,7 @@ an	NN	O	O
 internal	NN	O	B-Material
 node	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 physical	NN	O	O
 properties	NN	O	O
@@ -2749,6 +2853,7 @@ the	NN	O	O
 slave	NN	O	B-Material
 zones	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 physical	NN	O	O
 properties	NN	O	O
@@ -2767,6 +2872,7 @@ surface	NN	O	O
 area	NN	O	O
 weights	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 surface	NN	O	O
 area	NN	O	O
@@ -2791,6 +2897,7 @@ the	NN	O	O
 master	NN	O	B-Material
 surface	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 contact	NN	O	B-Task
 surface	NN	O	I-Task
@@ -2824,6 +2931,7 @@ those	NN	O	O
 in	NN	O	O
 TOODY	NN	O	B-Process
 .	NN	O	O
+
 Following	NN	O	O
 the	NN	O	O
 area	NN	O	B-Process
@@ -2866,20 +2974,23 @@ zone	NN	O	I-Task
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113004555)
 
 Three	NN	O	O
-Runge	NN	O	B-Process
-–	NN	O	I-Process
-Kutta	NN	O	I-Process
-IMEX	NN	O	I-Process
-schemes	NN	O	I-Process
+Runge	NN	O	O
+–	NN	O	O
+
+Kutta	NN	O	O
+IMEX	NN	O	O
+schemes	NN	O	O
 were	NN	O	O
 tested	NN	O	O
 by	NN	O	O
 Ullrich	NN	O	O
 and	NN	O	O
 Jablonowski	NN	O	O
+
 [	NN	O	O
 23	NN	O	O
 ]	NN	O	O
@@ -2894,6 +3005,7 @@ governing	NN	O	O
 atmospheric	NN	O	B-Process
 motion	NN	O	I-Process
 .	NN	O	O
+
 They	NN	O	O
 tested	NN	O	O
 the	NN	O	O
@@ -2905,6 +3017,7 @@ Ascher	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 1	NN	O	O
 ]	NN	O	O
@@ -2923,6 +3036,7 @@ Strang	NN	O	B-Process
 carryover	NN	O	I-Process
 scheme	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 involves	NN	O	O
 Strang	NN	O	B-Process
@@ -2948,6 +3062,7 @@ previous	NN	O	O
 time	NN	O	O
 -	NN	O	O
 step	NN	O	O
+
 and	NN	O	O
 so	NN	O	O
 there	NN	O	O
@@ -2961,6 +3076,7 @@ time	NN	O	O
 -	NN	O	O
 step	NN	O	O
 .	NN	O	O
+
 Another	NN	O	O
 novel	NN	O	O
 approach	NN	O	O
@@ -2969,6 +3085,7 @@ by	NN	O	O
 Ullrich	NN	O	O
 and	NN	O	O
 Jablonowski	NN	O	O
+
 [	NN	O	O
 23	NN	O	O
 ]	NN	O	O
@@ -2998,6 +3115,7 @@ in	NN	O	O
 wave	NN	O	B-Process
 propagation	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 Rosenbrock	NN	O	B-Process
 solution	NN	O	I-Process
@@ -3009,6 +3127,7 @@ a	NN	O	I-Process
 Newton	NN	O	I-Process
 solver	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 circumvents	NN	O	O
 the	NN	O	O
@@ -3030,6 +3149,7 @@ vertical	NN	O	I-Process
 advection	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113005603)
 
 After	NN	O	O
@@ -3055,6 +3175,7 @@ to	NN	O	O
 reduce	NN	O	B-Task
 noise	NN	O	I-Task
 .	NN	O	O
+
 Each	NN	O	O
 micro	NN	O	O
 element	NN	O	O
@@ -3082,6 +3203,7 @@ shear	NN	O	I-Process
 stress	NN	O	I-Process
 profiles	NN	O	I-Process
 .	NN	O	O
+
 Velocity	NN	O	O
 in	NN	O	O
 each	NN	O	O
@@ -3109,14 +3231,16 @@ is	NN	O	O
 measured	NN	O	O
 using	NN	O	O
 the	NN	O	O
-Irving	NN	O	B-Process
-–	NN	O	I-Process
-Kirkwood	NN	O	I-Process
-relationship	NN	O	I-Process
+Irving	NN	O	O
+–	NN	O	O
+
+Kirkwood	NN	O	O
+relationship	NN	O	O
 [	NN	O	O
 25	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 least	NN	O	B-Process
 -	NN	O	I-Process
@@ -3135,6 +3259,7 @@ reduce	NN	O	B-Task
 noise	NN	O	I-Task
 further	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 fit	NN	O	O
 produces	NN	O	O
@@ -3156,6 +3281,7 @@ the	NN	O	I-Process
 macro	NN	O	I-Process
 solver	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 least	NN	O	B-Process
 -	NN	O	I-Process
@@ -3200,7 +3326,9 @@ and(17)〈ui	NN	O	O
 ,	NN	O	O
 cs〉=∑k=1Mck	NN	O	O
 ,	NN	O	O
+
 iyi″(M−k),for	NN	O	O
+
 0⩽yi″⩽hcs	NN	O	O
 ,	NN	O	O
 where	NN	O	O
@@ -3228,6 +3356,7 @@ constrained	NN	O	O
 region	NN	O	O
 respectively	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 estimate	NN	O	O
 of	NN	O	O
@@ -3264,6 +3393,7 @@ at	NN	O	O
 yi′=0	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113005652)
 
 It	NN	O	O
@@ -3293,6 +3423,7 @@ B	NN	O	I-Material
 in	NN	O	O
 water	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 data	NN	O	O
 could	NN	O	O
@@ -3322,6 +3453,7 @@ the	NN	O	O
 chemical	NN	O	B-Process
 reaction	NN	O	I-Process
 .	NN	O	O
+
 Here	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -3336,6 +3468,7 @@ defined	NN	O	O
 by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 15	NN	O	O
 depicts	NN	O	O
 the	NN	O	O
@@ -3355,6 +3488,7 @@ bulk	NN	O	B-Material
 mean	NN	O	I-Material
 concentration	NN	O	I-Material
 CB⁎¯.	NN	O	I-Material
+
 It	NN	O	O
 is	NN	O	O
 worth	NN	O	O
@@ -3400,6 +3534,7 @@ at	NN	O	O
 the	NN	O	O
 interface	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 figure	NN	O	O
 indicates	NN	O	O
@@ -3432,6 +3567,7 @@ approximately	NN	O	O
 60	NN	O	O
 %	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 efficiency	NN	O	O
 of	NN	O	O
@@ -3464,6 +3600,7 @@ Reynolds	NN	O	B-Material
 number	NN	O	I-Material
 increases	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 need	NN	O	O
 an	NN	O	O
@@ -3503,6 +3640,7 @@ and	NN	O	O
 water	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113005718)
 
 Numerical	NN	O	B-Task
@@ -3525,6 +3663,7 @@ however	NN	O	O
 extremely	NN	O	O
 challenging	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 because	NN	O	O
@@ -3579,6 +3718,7 @@ collisions	NN	O	I-Process
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 accurate	NN	O	B-Process
 and	NN	O	I-Process
@@ -3602,6 +3742,7 @@ DSMC	NN	O	B-Process
 2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 DSMC	NN	O	B-Process
@@ -3639,6 +3780,7 @@ cross	NN	O	O
 section	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 high	NN	O	B-Material
 -	NN	O	I-Material
@@ -3696,6 +3838,7 @@ network	NN	O	I-Process
 simultaneously	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113006955)
 
 The	NN	O	O
@@ -3729,6 +3872,7 @@ surface	NN	O	I-Material
 are	NN	O	O
 smooth	NN	O	O
 .	NN	O	O
+
 Errors	NN	O	O
 are	NN	O	O
 found	NN	O	O
@@ -3758,6 +3902,7 @@ spatial	NN	O	O
 discretisation	NN	O	O
 errors	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 smooth	NN	O	B-Material
@@ -3801,6 +3946,7 @@ solution	NN	O	I-Process
 polynomial	NN	O	I-Process
 orders	NN	O	I-Process
 .	NN	O	O
+
 Increasing	NN	O	O
 the	NN	O	O
 order	NN	O	O
@@ -3813,6 +3959,7 @@ the	NN	O	O
 geometric	NN	O	B-Process
 error	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 analytic	NN	O	B-Task
 test	NN	O	I-Task
@@ -3859,6 +4006,7 @@ the	NN	O	O
 solution	NN	O	B-Material
 error	NN	O	O
 .	NN	O	O
+
 If	NN	O	O
 the	NN	O	O
 solution	NN	O	B-Material
@@ -3875,6 +4023,7 @@ see	NN	O	O
 rapid	NN	O	O
 convergence	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -3916,6 +4065,7 @@ with	NN	O	I-Process
 element	NN	O	I-Process
 boundaries	NN	O	I-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 if	NN	O	O
@@ -3943,6 +4093,7 @@ not	NN	O	O
 be	NN	O	O
 captured	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 cardiac	NN	O	B-Task
@@ -3961,6 +4112,7 @@ be	NN	O	O
 smooth	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999116303291)
 
 DPD	NN	O	B-Process
@@ -3997,6 +4149,7 @@ method	NN	O	O
 5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 DPD	NN	O	B-Process
 ,	NN	O	O
@@ -4011,6 +4164,7 @@ coarse	NN	O	B-Material
 grained	NN	O	I-Material
 particle	NN	O	I-Material
 .	NN	O	O
+
 These	NN	O	O
 particles	NN	O	B-Material
 interact	NN	O	O
@@ -4047,6 +4201,7 @@ of	NN	O	O
 freedom	NN	O	O
 required	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 in	NN	O	O
 Langevin	NN	O	B-Process
@@ -4069,6 +4224,7 @@ to	NN	O	O
 each	NN	O	O
 particle	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 unlike	NN	O	O
@@ -4104,6 +4260,7 @@ the	NN	O	O
 linear	NN	O	B-Process
 momentum	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 property	NN	O	O
 of	NN	O	O
@@ -4152,6 +4309,7 @@ NEMD	NN	O	I-Task
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 momentum	NN	O	O
 is	NN	O	O
@@ -4187,6 +4345,7 @@ in	NN	O	O
 9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Due	NN	O	O
 to	NN	O	O
 the	NN	O	O
@@ -4239,6 +4398,7 @@ systems	NN	O	I-Material
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 DPD	NN	O	B-Process
 has	NN	O	O
 been	NN	O	O
@@ -4283,6 +4443,7 @@ the	NN	O	O
 latter	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386107010518)
 
 Copper	NN	O	B-Material
@@ -4315,6 +4476,7 @@ side	NN	O	O
 functional	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 post	NN	O	O
 -	NN	O	O
@@ -4345,6 +4507,7 @@ or	NN	O	O
 functional	NN	O	O
 groups	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 example	NN	O	O
 ,	NN	O	O
@@ -4381,6 +4544,7 @@ ATRP	NN	O	B-Process
 and	NN	O	O
 CuAAC	NN	O	B-Process
 .	NN	O	O
+
 This	NN	O	O
 strategy	NN	O	O
 was	NN	O	O
@@ -4394,6 +4558,7 @@ van	NN	O	O
 Hest	NN	O	O
 and	NN	O	O
 Opsteen	NN	O	O
+
 [	NN	O	O
 31	NN	O	O
 ]	NN	O	O
@@ -4402,6 +4567,7 @@ Lutz	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 32	NN	O	O
 ]	NN	O	O
@@ -4411,10 +4577,12 @@ Matyjaszewski	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 33	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Such	NN	O	O
 step	NN	O	O
 was	NN	O	O
@@ -4435,6 +4603,7 @@ science	NN	O	O
 34,35	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Indeed	NN	O	O
 ,	NN	O	O
 ATRP	NN	O	B-Process
@@ -4476,6 +4645,7 @@ architecture	NN	O	O
 36–41	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -4491,6 +4661,7 @@ broadened	NN	O	O
 by	NN	O	O
 CuAAC	NN	O	B-Process
 .	NN	O	O
+
 For	NN	O	O
 instance	NN	O	O
 ,	NN	O	O
@@ -4526,6 +4697,7 @@ Scheme	NN	O	O
 32	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Due	NN	O	O
 to	NN	O	O
 the	NN	O	O
@@ -4553,6 +4725,7 @@ of	NN	O	O
 ω-functional	NN	O	B-Material
 polymers	NN	O	I-Material
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -4579,6 +4752,7 @@ and	NN	O	O
 rigidity	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386108009397)
 
 The	NN	O	O
@@ -4611,6 +4785,7 @@ networks	NN	O	O
 66–68	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Polymer	NN	O	B-Material
 chains	NN	O	I-Material
 trapped	NN	O	O
@@ -4636,6 +4811,7 @@ uncrosslinked	NN	O	O
 polymer	NN	O	B-Material
 melts	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 because	NN	O	O
@@ -4674,6 +4850,7 @@ fixed	NN	O	O
 network	NN	O	O
 systems	NN	O	O
 .	NN	O	O
+
 Most	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -4687,6 +4864,7 @@ as	NN	O	O
 host	NN	O	O
 networks	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 case	NN	O	O
@@ -4714,6 +4892,7 @@ a	NN	O	O
 broad	NN	O	O
 distribution	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 end	NN	O	O
 -	NN	O	O
@@ -4744,6 +4923,7 @@ the	NN	O	O
 precursor	NN	O	B-Material
 chains	NN	O	I-Material
 .	NN	O	O
+
 We	NN	O	O
 investigated	NN	O	O
 the	NN	O	O
@@ -4781,12 +4961,14 @@ Mx	NN	O	B-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 9a	NN	O	O
 )	NN	O	O
 [	NN	O	O
 70	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 employed	NN	O	O
 two	NN	O	O
@@ -4795,13 +4977,15 @@ of	NN	O	O
 host	NN	O	O
 networks	NN	O	O
 with	NN	O	O
-Mx	NN	O	B-Process
->	NN	O	I-Process
-Me	NN	O	I-Process
+Mx	NN	O	O
+>	NN	O	O
+
+Me	NN	O	O
 and	NN	O	O
-Mx	NN	O	B-Process
-<	NN	O	I-Process
-Me	NN	O	I-Process
+Mx	NN	O	O
+
+<	NN	O	O
+Me	NN	O	O
 where	NN	O	O
 Me	NN	O	O
 (	NN	O	O
@@ -4821,14 +5005,17 @@ the	NN	O	O
 molten	NN	O	O
 state	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
-Mx	NN	O	B-Process
->	NN	O	I-Process
-Me	NN	O	I-Process
+Mx	NN	O	O
+>	NN	O	O
+
+Me	NN	O	O
 and	NN	O	O
-Mx	NN	O	B-Process
-<	NN	O	I-Process
-Me	NN	O	I-Process
+Mx	NN	O	O
+
+<	NN	O	O
+Me	NN	O	O
 networks	NN	O	O
 (	NN	O	O
 designated	NN	O	O
@@ -4860,6 +5047,7 @@ Mn=4,550	NN	O	O
 ,	NN	O	O
 respectively	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 mesh	NN	O	B-Material
 of	NN	O	O
@@ -4887,6 +5075,7 @@ cross	NN	O	I-Material
 links	NN	O	I-Material
 .	NN	O	I-Material
 
+
 -DOCSTART- (S0032386109001463)
 
 When	NN	O	O
@@ -4919,6 +5108,7 @@ field	NN	O	O
 in	NN	O	O
 bulk	NN	O	O
 .	NN	O	O
+
 That	NN	O	O
 is	NN	O	O
 ,	NN	O	O
@@ -4947,8 +5137,10 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 when	NN	O	O
@@ -4974,6 +5166,7 @@ and	NN	O	O
 long	NN	O	O
 one	NN	O	O
 .	NN	O	O
+
 Consequently	NN	O	O
 each	NN	O	O
 domain	NN	O	O
@@ -4996,6 +5189,7 @@ polygons	NN	O	B-Material
 28,29	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 because	NN	O	O
@@ -5050,6 +5244,7 @@ graft	NN	O	O
 copolymer	NN	O	O
 systems	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 a	NN	O	O
 matter	NN	O	O
@@ -5121,6 +5316,7 @@ theorem	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386109003991)
 
 A	NN	O	O
@@ -5143,6 +5339,7 @@ complete	NN	O	O
 monomer	NN	O	B-Process
 conversion	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -5173,6 +5370,7 @@ can	NN	O	O
 be	NN	O	O
 obtained	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -5210,6 +5408,7 @@ molar	NN	O	I-Material
 mass	NN	O	I-Material
 oligomers	NN	O	I-Material
 .	NN	O	O
+
 Since	NN	O	O
 head	NN	O	O
 -	NN	O	O
@@ -5236,6 +5435,7 @@ than	NN	O	O
 radical	NN	O	O
 one	NN	O	O
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 production	NN	O	B-Task
@@ -5274,6 +5474,7 @@ industrial	NN	O	O
 radical	NN	O	O
 processes	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 use	NN	O	O
 of	NN	O	O
@@ -5302,6 +5503,7 @@ limitation	NN	O	O
 to	NN	O	O
 overcome	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 possibilities	NN	O	O
 to	NN	O	O
@@ -5345,6 +5547,7 @@ the	NN	O	O
 anionic	NN	O	O
 process	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 implied	NN	O	O
 at	NN	O	O
@@ -5368,6 +5571,7 @@ operating	NN	O	O
 conditions	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386109005357)
 
 A	NN	O	O
@@ -5392,15 +5596,18 @@ dimethyl	NN	O	B-Material
 malonate	NN	O	I-Material
 and	NN	O	O
 1,4-butanediol	NN	O	B-Material
+
 (	NN	O	O
 Scheme	NN	O	O
 2(a	NN	O	O
 )	NN	O	O
 )	NN	O	O
+
 [	NN	O	O
 24a	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Yao	NN	O	O
 et	NN	O	O
 al	NN	O	O
@@ -5445,6 +5652,7 @@ groups	NN	O	O
 24b	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 PLCA	NN	O	B-Material
 oligomer	NN	O	I-Material
@@ -5459,11 +5667,12 @@ macromonomer	NN	O	O
 ,	NN	O	O
 yielding	NN	O	O
 a	NN	O	O
-PLCA	NN	O	B-Material
-–	NN	O	I-Material
-PLLA	NN	O	I-Material
-multiblock	NN	O	I-Material
-copolymer	NN	O	I-Material
+PLCA	NN	O	O
+–	NN	O	O
+
+PLLA	NN	O	O
+multiblock	NN	O	O
+copolymer	NN	O	O
 as	NN	O	O
 shown	NN	O	O
 in	NN	O	O
@@ -5471,6 +5680,7 @@ Scheme	NN	O	O
 2(b	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 While	NN	O	O
 lipases	NN	O	B-Material
 have	NN	O	O
@@ -5507,6 +5717,7 @@ by	NN	O	O
 polycondensation	NN	O	B-Process
 reactions	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 advantage	NN	O	O
 of	NN	O	O
@@ -5528,6 +5739,7 @@ pendant	NN	O	O
 functional	NN	O	O
 groups	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 field	NN	O	O
@@ -5560,6 +5772,7 @@ in	NN	O	O
 Scheme	NN	O	O
 2(c	NN	O	O
 )	NN	O	O
+
 [	NN	O	O
 27	NN	O	O
 ]	NN	O	O
@@ -5578,6 +5791,7 @@ alditols	NN	O	B-Material
 28	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Very	NN	O	O
 recently	NN	O	O
 ,	NN	O	O
@@ -5607,10 +5821,12 @@ Scheme	NN	O	O
 2(d	NN	O	O
 )	NN	O	O
 )	NN	O	O
+
 [	NN	O	O
 29	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Biodegradable	NN	O	B-Material
 polyesters	NN	O	I-Material
 with	NN	O	O
@@ -5631,6 +5847,7 @@ low	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386110001254)
 
 Despite	NN	O	O
@@ -5672,6 +5889,7 @@ to	NN	O	O
 several	NN	O	O
 applications	NN	O	O
 .	NN	O	O
+
 Imidazolium	NN	O	B-Material
 salts	NN	O	I-Material
 are	NN	O	O
@@ -5707,6 +5925,7 @@ surfaces	NN	O	O
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 example	NN	O	O
 ,	NN	O	O
@@ -5736,6 +5955,7 @@ surfaces	NN	O	I-Material
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 One	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -5764,6 +5984,7 @@ crystals	NN	O	I-Material
 19,20	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 1-Alkyl-3-methylimidazolium	NN	O	B-Material
 chlorides	NN	O	I-Material
 and	NN	O	O
@@ -5793,6 +6014,7 @@ activity	NN	O	I-Process
 18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Hydrogels	NN	O	B-Material
 form	NN	O	I-Material
 from	NN	O	O
@@ -5827,6 +6049,7 @@ applications	NN	O	I-Task
 19	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Other	NN	O	O
 bioactive	NN	O	B-Task
 applications	NN	O	I-Task
@@ -5856,6 +6079,7 @@ steroids	NN	O	I-Material
 24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Separation	NN	O	B-Process
 applications	NN	O	I-Process
 include	NN	O	O
@@ -5867,6 +6091,7 @@ CO2	NN	O	I-Process
 25	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Imidazolium	NN	O	B-Material
 salts	NN	O	I-Material
 enhance	NN	O	O
@@ -5892,6 +6117,7 @@ actuators	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0039602899010493)
 
 Although	NN	O	O
@@ -5923,6 +6149,7 @@ of	NN	O	O
 experimental	NN	O	O
 data	NN	O	O
 .	NN	O	O
+
 What	NN	O	O
 is	NN	O	O
 needed	NN	O	O
@@ -5948,6 +6175,7 @@ and	NN	O	O
 adsorbed	NN	O	B-Material
 species	NN	O	I-Material
 .	NN	O	O
+
 Such	NN	O	O
 electronic	NN	O	O
 structure	NN	O	O
@@ -5960,6 +6188,7 @@ time	NN	O	O
 -	NN	O	O
 consuming	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 many	NN	O	O
 cases	NN	O	O
@@ -5980,9 +6209,11 @@ or	NN	O	O
 intuitive	NN	O	O
 models	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 Refs	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 4,6,23	NN	O	O
 ]	NN	O	O
@@ -6059,6 +6290,7 @@ code	NN	O	I-Process
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 effect	NN	O	O
 of	NN	O	O
@@ -6091,6 +6323,7 @@ the	NN	O	O
 surface	NN	O	O
 DOS	NN	O	B-Process
 .	NN	O	O
+
 Other	NN	O	O
 workers	NN	O	O
 [	NN	O	O
@@ -6113,6 +6346,7 @@ projectile	NN	O	O
 atomic	NN	O	O
 orbital	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 they	NN	O	O
@@ -6135,6 +6369,7 @@ surface	NN	O	O
 electronic	NN	O	O
 structure	NN	O	O
 .	NN	O	O
+
 Yet	NN	O	O
 the	NN	O	O
 success	NN	O	O
@@ -6180,6 +6415,7 @@ projectile	NN	O	O
 orbital	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0098300413002124)
 
 In	NN	O	O
@@ -6203,6 +6439,7 @@ data	NN	O	I-Task
 transformation	NN	O	I-Task
 method	NN	O	I-Task
 .	NN	O	O
+
 Since	NN	O	O
 Google	NN	O	O
 Maps	NN	O	O
@@ -6229,6 +6466,7 @@ from	NN	O	O
 other	NN	O	O
 sources	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 fine	NN	O	B-Process
 -	NN	O	I-Process
@@ -6263,6 +6501,7 @@ data	NN	O	O
 are	NN	O	O
 necessary	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 since	NN	O	O
@@ -6292,6 +6531,7 @@ resolution	NN	O	O
 terrain	NN	O	O
 data	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 project	NN	O	O
@@ -6310,6 +6550,7 @@ Farr	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 2007	NN	O	O
 )	NN	O	O
 with	NN	O	O
@@ -6324,6 +6565,7 @@ equator	NN	O	O
 )	NN	O	O
 resolution	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 data	NN	O	O
 covers	NN	O	O
@@ -6339,6 +6581,7 @@ to	NN	O	O
 60N	NN	O	O
 latitudes	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 use	NN	O	O
 the	NN	O	O
@@ -6366,6 +6609,7 @@ holes	NN	O	O
 were	NN	O	O
 filled	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 original	NN	O	O
 data	NN	O	O
@@ -6379,10 +6623,12 @@ Geodetic	NN	O	I-Material
 System	NN	O	I-Material
 84	NN	O	I-Material
 )	NN	O	O
+
 geodetic	NN	O	O
 coordinate	NN	O	O
 system	NN	O	O
 .	NN	O	O
+
 When	NN	O	O
 the	NN	O	O
 data	NN	O	O
@@ -6412,9 +6658,11 @@ coordinate	NN	O	O
 see	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Since	NN	O	O
 the	NN	O	O
 3DWF	NN	O	B-Process
@@ -6461,6 +6709,7 @@ Earth	NN	O	O
 's	NN	O	O
 surface	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 transformation	NN	O	O
 from	NN	O	O
@@ -6488,6 +6737,7 @@ Claessens	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0098300414000259)
 
 Apache	NN	O	B-Process
@@ -6502,6 +6752,7 @@ workflows	NN	O	I-Process
 with	NN	O	O
 Hadoop	NN	O	B-Material
 .	NN	O	O
+
 These	NN	O	O
 workflows	NN	O	O
 are	NN	O	O
@@ -6531,6 +6782,7 @@ of	NN	O	O
 MapReduce	NN	O	B-Process
 jobs	NN	O	O
 .	NN	O	O
+
 Pig	NN	O	B-Process
 Latin	NN	O	I-Process
 is	NN	O	O
@@ -6557,6 +6809,7 @@ relational	NN	O	O
 database	NN	O	O
 systems	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 to	NN	O	O
@@ -6581,6 +6834,7 @@ written	NN	O	O
 in	NN	O	O
 Java	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 adopted	NN	O	O
 Pig	NN	O	B-Process
@@ -6624,6 +6878,7 @@ Mayer	NN	O	O
 2013	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Specifically	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -6666,6 +6921,7 @@ be	NN	O	O
 rewritten	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0098300414002532)
 
 The	NN	O	B-Task
@@ -6703,6 +6959,7 @@ trial	NN	O	O
 and	NN	O	O
 error	NN	O	O
 .	NN	O	O
+
 After	NN	O	O
 the	NN	O	O
 parameter	NN	O	O
@@ -6718,6 +6975,7 @@ process	NN	O	O
 is	NN	O	O
 automated	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -6742,6 +7000,7 @@ all	NN	O	O
 of	NN	O	O
 Mars	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 minimize	NN	O	O
 the	NN	O	O
@@ -6771,6 +7030,7 @@ Steinwand	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 1995	NN	O	O
 )	NN	O	O
@@ -6789,6 +7049,7 @@ for	NN	O	I-Process
 Graphics	NN	O	I-Process
 and	NN	O	I-Process
 Shapes	NN	O	I-Process
+
 ”	NN	O	O
 (	NN	O	O
 http://www.jennessent.com/arcgis/shapes_graphics.htm)Although	NN	O	O
@@ -6833,6 +7094,7 @@ al	NN	O	O
 2008	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 the	NN	O	O
 volume	NN	O	O
@@ -6846,6 +7108,7 @@ a	NN	O	O
 lower	NN	O	O
 bound	NN	O	O
 .	NN	O	O
+
 Comparing	NN	O	O
 the	NN	O	O
 estimates	NN	O	O
@@ -6866,6 +7129,7 @@ of	NN	O	O
 HRSC	NN	O	B-Material
 value	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 MOLA	NN	O	B-Material
@@ -6877,6 +7141,7 @@ HRSC	NN	O	B-Material
 does	NN	O	O
 not	NN	O	O
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 for	NN	O	O
@@ -6898,6 +7163,7 @@ by	NN	O	O
 1.1	NN	O	O
 times	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 algorithm	NN	O	O
 has	NN	O	O
@@ -6927,6 +7193,7 @@ for	NN	O	O
 MOLA	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 can	NN	O	O
 certainly	NN	O	O
@@ -6954,6 +7221,7 @@ be	NN	O	O
 adjusted	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0166361516300926)
 
 This	NN	O	O
@@ -6982,6 +7250,7 @@ Chinese	NN	O	O
 service	NN	O	O
 company	NN	O	O
 .	NN	O	O
+
 Misalignments	NN	O	O
 between	NN	O	O
 the	NN	O	O
@@ -7002,6 +7271,7 @@ within	NN	O	O
 the	NN	O	O
 organisation	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 processes	NN	O	O
 are	NN	O	O
@@ -7023,6 +7293,7 @@ the	NN	O	O
 formal	NN	O	O
 organisation	NN	O	O
 .	NN	O	O
+
 Rather	NN	O	O
 than	NN	O	O
 to	NN	O	O
@@ -7052,6 +7323,7 @@ towards	NN	O	O
 organisational	NN	O	O
 goals	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 company	NN	O	O
 achieved	NN	O	O
@@ -7091,6 +7363,7 @@ Software	NN	O	I-Process
 ESS	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 the	NN	O	O
 company	NN	O	O
@@ -7123,6 +7396,7 @@ and	NN	O	O
 communication	NN	O	O
 channels	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 narrative	NN	O	O
 provided	NN	O	O
@@ -7148,6 +7422,7 @@ in	NN	O	O
 the	NN	O	O
 literature	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 leads	NN	O	O
 to	NN	O	O
@@ -7194,6 +7469,7 @@ hybrid	NN	O	O
 implementations	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0168365912007560)
 
 We	NN	O	O
@@ -7216,6 +7492,7 @@ lectin	NN	O	I-Process
 receptor	NN	O	I-Process
 targeting	NN	O	I-Process
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -7252,6 +7529,7 @@ lysosomes	NN	O	B-Material
 of	NN	O	O
 cells	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 vitro	NN	O	O
 characterization	NN	O	O
@@ -7274,20 +7552,22 @@ demonstrated	NN	O	O
 superior	NN	O	O
 ingestion	NN	O	B-Process
 of	NN	O	O
-mannan	NN	O	B-Material
--	NN	O	I-Material
-conjugates	NN	O	I-Material
-MN	NN	O	I-Material
-–	NN	O	I-Material
-Ova	NN	O	I-Material
-and	NN	O	I-Material
-MN	NN	O	I-Material
-–	NN	O	I-Material
-Pap	NN	O	I-Material
+mannan	NN	O	O
+-	NN	O	O
+conjugates	NN	O	O
+MN	NN	O	O
+–	NN	O	O
+Ova	NN	O	O
+and	NN	O	O
+MN	NN	O	O
+
+–	NN	O	O
+Pap	NN	O	O
 (	NN	O	O
 Supplementary	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 S4A	NN	O	O
 -	NN	O	O
 D	NN	O	O
@@ -7295,6 +7575,7 @@ D	NN	O	O
 F	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 was	NN	O	O
 confirmed	NN	O	O
@@ -7315,6 +7596,7 @@ pinnae	NN	O	O
 of	NN	O	O
 mice	NN	O	O
 .	NN	O	O
+
 Antigen	NN	O	B-Material
 uptake	NN	O	O
 and	NN	O	O
@@ -7322,6 +7604,7 @@ transport	NN	O	O
 to	NN	O	O
 the	NN	O	O
 ear	NN	O	O
+
 dLNs	NN	O	O
 were	NN	O	O
 measured	NN	O	O
@@ -7331,6 +7614,7 @@ by	NN	O	O
 FACS	NN	O	B-Process
 analysis	NN	O	I-Process
 .	NN	O	O
+
 DCs	NN	O	O
 in	NN	O	O
 cervical	NN	O	O
@@ -7349,6 +7633,7 @@ II	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3A	NN	O	O
 )	NN	O	O
 and	NN	O	O
@@ -7372,6 +7657,7 @@ antigen	NN	O	I-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3B	NN	O	O
 ,	NN	O	O
 D	NN	O	O
@@ -7379,6 +7665,7 @@ D	NN	O	O
 F	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 showed	NN	O	O
@@ -7418,9 +7705,11 @@ antigens	NN	O	B-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3C	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Both	NN	O	O
 carbohydrates	NN	O	B-Material
 targeted	NN	O	O
@@ -7445,11 +7734,13 @@ antigens	NN	O	B-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3E	NN	O	O
 and	NN	O	O
 F	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Nevertheless	NN	O	O
 ,	NN	O	O
 whether	NN	O	O
@@ -7478,6 +7769,7 @@ be	NN	O	O
 fully	NN	O	O
 elucidated	NN	O	O
 .	NN	O	O
+
 Histology	NN	O	O
 revealed	NN	O	O
 that	NN	O	O
@@ -7499,6 +7791,7 @@ injection	NN	O	I-Process
 Supplementary	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 S4	NN	O	O
 G	NN	O	O
 )	NN	O	O
@@ -7508,6 +7801,7 @@ both	NN	O	O
 mechanisms	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0168365913001521)
 
 The	NN	O	O
@@ -7529,6 +7823,7 @@ previously	NN	O	O
 18,24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Briefly	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -7565,6 +7860,7 @@ ethanol	NN	O	B-Material
 and	NN	O	O
 water	NN	O	B-Material
 .	NN	O	I-Material
+
 A	NN	O	O
 surfactant	NN	O	B-Material
 ,	NN	O	O
@@ -7616,6 +7912,7 @@ structure	NN	O	I-Material
 directing	NN	O	I-Material
 template	NN	O	I-Material
 .	NN	O	O
+
 Aerosol	NN	O	B-Material
 solutions	NN	O	I-Material
 of	NN	O	O
@@ -7652,6 +7949,7 @@ Paul	NN	O	O
 MN	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 aerosol	NN	O	B-Material
 droplets	NN	O	I-Material
@@ -7668,6 +7966,7 @@ C	NN	O	O
 until	NN	O	O
 dry	NN	O	O
 .	NN	O	O
+
 Once	NN	O	O
 dried	NN	O	O
 ,	NN	O	O
@@ -7689,6 +7988,7 @@ collect	NN	O	O
 the	NN	O	O
 particles	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 a	NN	O	O
 final	NN	O	O
@@ -7707,6 +8007,7 @@ for	NN	O	O
 via	NN	O	O
 calcination	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 surface	NN	O	O
 of	NN	O	O
@@ -7762,6 +8063,7 @@ negatively	NN	O	O
 charged	NN	O	O
 cargo	NN	O	O
 .	NN	O	O
+
 Further	NN	O	O
 ,	NN	O	O
 Liu	NN	O	O
@@ -7797,6 +8099,7 @@ used	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0168365913009589)
 
 Ultrasound	NN	O	B-Process
@@ -7847,6 +8150,7 @@ the	NN	O	O
 surrounding	NN	O	O
 media	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 collapse	NN	O	O
 creates	NN	O	O
@@ -7865,6 +8169,7 @@ liposomal	NN	O	O
 drug	NN	O	O
 carriers	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 date	NN	O	O
 ,	NN	O	O
@@ -7915,6 +8220,7 @@ liposomes	NN	O	O
 14	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 concerns	NN	O	O
@@ -7944,6 +8250,7 @@ widely	NN	O	O
 clinically	NN	O	O
 applicable	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 alternative	NN	O	O
 strategy	NN	O	O
@@ -7971,6 +8278,7 @@ existing	NN	O	O
 gas	NN	O	O
 bubbles	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 provides	NN	O	O
 an	NN	O	O
@@ -7997,6 +8305,7 @@ agents	NN	O	I-Material
 15	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Indeed	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -8024,6 +8333,7 @@ promise	NN	O	O
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 further	NN	O	O
 advantage	NN	O	O
@@ -8068,6 +8378,7 @@ applications	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0168583X14003929)
 
 The	NN	O	O
@@ -8096,6 +8407,7 @@ LMIS	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Gallium	NN	O	B-Material
 is	NN	O	O
 attractive	NN	O	O
@@ -8129,6 +8441,7 @@ volatility	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 some	NN	O	O
@@ -8141,6 +8454,7 @@ Ga	NN	O	B-Process
 ion	NN	O	I-Process
 beam	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 sensitivity	NN	O	O
 is	NN	O	O
@@ -8168,6 +8482,7 @@ beam	NN	O	I-Process
 5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Group	NN	O	O
 III	NN	O	O
 –	NN	O	O
@@ -8184,6 +8499,7 @@ show	NN	O	O
 such	NN	O	O
 sensitivity	NN	O	O
 .	NN	O	O
+
 Cryo	NN	O	B-Task
 -	NN	O	I-Task
 FIB	NN	O	I-Task
@@ -8210,6 +8526,7 @@ materials	NN	O	I-Material
 6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 suggested	NN	O	O
 advantage	NN	O	O
@@ -8272,6 +8589,7 @@ systems	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0257897213003563)
 
 According	NN	O	O
@@ -8295,6 +8613,7 @@ appropriate	NN	O	O
 fitting	NN	O	O
 model	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -8336,6 +8655,7 @@ the	NN	O	O
 ellipsometric	NN	O	O
 spectra	NN	O	O
 .	NN	O	O
+
 TiO2	NN	O	O
 belongs	NN	O	O
 to	NN	O	O
@@ -8345,6 +8665,7 @@ band	NN	O	O
 gap	NN	O	O
 semiconductors	NN	O	B-Process
 .	NN	O	O
+
 Considering	NN	O	O
 the	NN	O	O
 contribution	NN	O	O
@@ -8377,6 +8698,7 @@ model	NN	O	I-Process
 ε(Ε)=ε∞+{A0[2−(1+χ0)1/2−(1−χ0)1/2]}/(EOBG2/3χ02	NN	O	B-Process
 )	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 model	NN	O	O
@@ -8424,6 +8746,7 @@ transition	NN	O	O
 ,	NN	O	O
 respectively	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 an	NN	O	O
 example	NN	O	O
@@ -8449,8 +8772,10 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 4	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Fabry	NN	O	B-Material
 –	NN	O	I-Material
@@ -8491,6 +8816,7 @@ in	NN	O	O
 this	NN	O	O
 region	NN	O	O
 .	NN	O	O
+
 Note	NN	O	O
 that	NN	O	O
 a	NN	O	O
@@ -8512,6 +8838,7 @@ photon	NN	O	O
 energy	NN	O	O
 range	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 fitting	NN	O	O
 thickness	NN	O	O
@@ -8536,15 +8863,18 @@ SEM	NN	O	B-Process
 see	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1(b	NN	O	O
 )	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0257897213004131)
 
 Fig	NN	O	O
 .	NN	O	O
+
 7	NN	O	O
 shows	NN	O	O
 the	NN	O	O
@@ -8563,6 +8893,7 @@ under	NN	O	O
 dry	NN	O	O
 conditions	NN	O	O
 .	NN	O	O
+
 There	NN	O	O
 exist	NN	O	O
 running	NN	O	O
@@ -8604,6 +8935,7 @@ with	NN	O	O
 Al2O3	NN	O	B-Material
 nanoparticles	NN	O	I-Material
 .	NN	O	O
+
 At	NN	O	O
 the	NN	O	O
 same	NN	O	O
@@ -8624,6 +8956,7 @@ of	NN	O	I-Process
 friction	NN	O	I-Process
 coefficient	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 friction	NN	O	O
 coefficient	NN	O	O
@@ -8650,6 +8983,7 @@ for	NN	O	O
 anodizing	NN	O	B-Material
 coatings	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 may	NN	O	O
 be	NN	O	O
@@ -8670,6 +9004,7 @@ of	NN	O	O
 oxide	NN	O	O
 coating	NN	O	O
 .	NN	O	O
+
 Spherical	NN	O	B-Material
 nanoparticles	NN	O	I-Material
 change	NN	O	O
@@ -8689,6 +9024,7 @@ becomes	NN	O	O
 more	NN	O	O
 stable	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 friction	NN	O	O
 coefficient	NN	O	O
@@ -8708,6 +9044,7 @@ damage	NN	O	O
 of	NN	O	O
 coating	NN	O	B-Process
 .	NN	O	O
+
 In	NN	O	O
 contrast	NN	O	O
 to	NN	O	O
@@ -8726,6 +9063,7 @@ lower	NN	O	O
 friction	NN	O	B-Process
 coefficient	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 can	NN	O	O
 be	NN	O	O
@@ -8742,6 +9080,7 @@ high	NN	O	O
 hardness	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0263822312000657)
 
 Functionally	NN	O	B-Material
@@ -8798,6 +9137,7 @@ across	NN	O	O
 the	NN	O	O
 material	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 idea	NN	O	O
 of	NN	O	O
@@ -8823,6 +9163,7 @@ exhibit	NN	O	O
 this	NN	O	O
 property	NN	O	O
 .	NN	O	O
+
 Study	NN	O	B-Task
 of	NN	O	I-Task
 bone	NN	O	I-Task
@@ -8855,6 +9196,7 @@ protection	NN	O	O
 is	NN	O	O
 required	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 it	NN	O	O
 was	NN	O	O
@@ -8897,6 +9239,7 @@ fission	NN	O	I-Task
 reactors	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0263822312001468)
 
 Recently	NN	O	O
@@ -8920,6 +9263,7 @@ to	NN	O	O
 transportation	NN	O	B-Process
 industries	NN	O	I-Process
 .	NN	O	O
+
 Hence	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -8949,6 +9293,7 @@ of	NN	O	O
 a	NN	O	O
 crash	NN	O	O
 .	NN	O	O
+
 Crashworthiness	NN	O	B-Task
 parameters	NN	O	I-Task
 for	NN	O	O
@@ -8972,6 +9317,7 @@ have	NN	O	O
 been	NN	O	O
 studied	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 critical	NN	O	O
 difference	NN	O	O
@@ -8988,6 +9334,7 @@ the	NN	O	O
 brittle	NN	O	B-Process
 collapse	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -9018,6 +9365,7 @@ of	NN	O	O
 plastic	NN	O	B-Process
 deformation	NN	O	I-Process
 .	NN	O	O
+
 Implementation	NN	O	B-Task
 of	NN	O	I-Task
 composite	NN	O	I-Task
@@ -9052,6 +9400,7 @@ reinforced	NN	O	I-Material
 composite	NN	O	I-Material
 material	NN	O	I-Material
 .	NN	O	O
+
 He	NN	O	O
 found	NN	O	O
 that	NN	O	O
@@ -9082,6 +9431,7 @@ metals	NN	O	B-Material
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 observation	NN	O	O
 has	NN	O	O
@@ -9097,6 +9447,7 @@ of	NN	O	O
 composite	NN	O	B-Material
 materials	NN	O	I-Material
 .	NN	O	O
+
 Studies	NN	O	O
 have	NN	O	O
 examined	NN	O	O
@@ -9138,6 +9489,7 @@ tubes	NN	O	I-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0301679X13003289)
 
 Nanoparticle	NN	O	B-Process
@@ -9165,6 +9517,7 @@ Microscoscopy	NN	O	I-Process
 TEM	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
+
 Soot	NN	O	B-Material
 nanoparticles	NN	O	I-Material
 were	NN	O	O
@@ -9184,6 +9537,7 @@ automotive	NN	O	O
 diesel	NN	O	O
 engine	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 samples	NN	O	O
 were	NN	O	O
@@ -9195,6 +9549,7 @@ diluting	NN	O	O
 with	NN	O	O
 heptane	NN	O	B-Material
 .	NN	O	O
+
 Individual	NN	O	O
 tracking	NN	O	O
 of	NN	O	O
@@ -9206,6 +9561,7 @@ size	NN	O	B-Process
 distribution	NN	O	I-Process
 analysis	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 size	NN	O	O
 of	NN	O	O
@@ -9225,6 +9581,7 @@ images	NN	O	O
 of	NN	O	O
 agglomerates	NN	O	B-Material
 .	NN	O	O
+
 Both	NN	O	O
 the	NN	O	O
 techniques	NN	O	O
@@ -9245,6 +9602,7 @@ of	NN	O	O
 120	NN	O	O
 nm	NN	O	O
 .	NN	O	O
+
 NTA	NN	O	B-Process
 is	NN	O	O
 able	NN	O	O
@@ -9308,6 +9666,7 @@ Microscoscopy	NN	O	I-Process
 TEM	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
+
 Soot	NN	O	O
 nanoparticles	NN	O	O
 were	NN	O	O
@@ -9327,6 +9686,7 @@ automotive	NN	O	O
 diesel	NN	O	O
 engine	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 samples	NN	O	O
 were	NN	O	O
@@ -9338,6 +9698,7 @@ diluting	NN	O	O
 with	NN	O	O
 heptane	NN	O	B-Material
 .	NN	O	O
+
 Individual	NN	O	O
 tracking	NN	O	O
 of	NN	O	O
@@ -9349,6 +9710,7 @@ size	NN	O	B-Process
 distribution	NN	O	I-Process
 analysis	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 size	NN	O	O
 of	NN	O	O
@@ -9368,6 +9730,7 @@ images	NN	O	O
 of	NN	O	O
 agglomerates	NN	O	B-Material
 .	NN	O	O
+
 Both	NN	O	O
 the	NN	O	O
 techniques	NN	O	O
@@ -9388,6 +9751,7 @@ of	NN	O	O
 120	NN	O	O
 nm	NN	O	O
 .	NN	O	O
+
 NTA	NN	O	B-Process
 is	NN	O	O
 able	NN	O	O
@@ -9429,10 +9793,12 @@ with	NN	O	O
 TEM	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0301679X14000449)
 
 Fig	NN	O	O
 .	NN	O	O
+
 11	NN	O	O
 shows	NN	O	O
 the	NN	O	O
@@ -9463,6 +9829,7 @@ surface	NN	O	O
 were	NN	O	O
 chosen	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 value	NN	O	O
 of	NN	O	O
@@ -9486,6 +9853,7 @@ literature	NN	O	O
 22	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Sc	NN	O	O
 of	NN	O	O
@@ -9508,6 +9876,7 @@ stage	NN	O	O
 of	NN	O	O
 friction	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -9523,6 +9892,7 @@ formation	NN	O	I-Process
 or	NN	O	O
 plowing	NN	O	B-Process
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -9552,6 +9922,7 @@ critical⁎).(3)Sc⁎=HvRmaxKIc(4)Sc	NN	O	I-Material
 critical⁎=51	NN	O	I-Process
 +	NN	O	I-Process
 10μwhere	NN	O	I-Process
+
 Hv	NN	O	O
 is	NN	O	O
 the	NN	O	O
@@ -9560,10 +9931,12 @@ hardness	NN	O	I-Process
 of	NN	O	O
 RH	NN	O	O
 ceramics	NN	O	O
+
 [	NN	O	O
 Pa	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 initial	NN	O	O
 wear	NN	O	O
@@ -9586,9 +9959,11 @@ demonstrated	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 12(a	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -9607,9 +9982,11 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 12(b	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 map	NN	O	O
@@ -9624,6 +10001,7 @@ curve	NN	O	O
 to	NN	O	O
 plowing	NN	O	B-Process
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -9647,6 +10025,7 @@ or	NN	O	I-Material
 Si3N4	NN	O	I-Material
 balls	NN	O	I-Material
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 RH	NN	O	O
@@ -9667,6 +10046,7 @@ other	NN	O	O
 counterpart	NN	O	O
 materials	NN	O	O
 .	NN	O	O
+
 Nevertheless	NN	O	O
 ,	NN	O	O
 these	NN	O	O
@@ -9708,6 +10088,7 @@ wear	NN	O	O
 5×10−9mm2/N	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Indeed	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -9738,9 +10119,11 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 13	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0301679X14003272)
 
 The	NN	O	O
@@ -9772,6 +10155,7 @@ quasi	NN	O	O
 stationary	NN	O	O
 LSMB	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 LSMB	NN	O	B-Process
 is	NN	O	O
@@ -9811,8 +10195,10 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 2	NN	O	O
 .	NN	O	O
+
 Both	NN	O	O
 displacement	NN	O	B-Process
 and	NN	O	I-Process
@@ -9833,6 +10219,7 @@ in	NN	O	O
 static	NN	O	O
 conditions	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 load	NN	O	O
 and	NN	O	O
@@ -9865,6 +10252,7 @@ generate	NN	O	O
 fretting	NN	O	B-Material
 loops	NN	O	I-Material
 .	NN	O	I-Material
+
 The	NN	O	O
 loops	NN	O	O
 were	NN	O	O
@@ -9894,10 +10282,12 @@ Fouvry	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Average	NN	O	O
 values	NN	O	O
 for	NN	O	O
@@ -9929,12 +10319,14 @@ by	NN	O	O
 Hirsch	NN	O	O
 and	NN	O	O
 Neu	NN	O	O
+
 [	NN	O	O
 18	NN	O	O
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0304399111001811)
 
 We	NN	O	O
@@ -9950,6 +10342,7 @@ orbital	NN	O	I-Process
 angular	NN	O	I-Process
 momentum	NN	O	I-Process
 .	NN	O	I-Process
+
 To	NN	O	O
 make	NN	O	O
 connection	NN	O	O
@@ -9989,6 +10382,7 @@ the	NN	O	O
 holographic	NN	O	B-Material
 mask	NN	O	I-Material
 .	NN	O	O
+
 It	NN	O	O
 turns	NN	O	O
 out	NN	O	O
@@ -10024,6 +10418,7 @@ Bessel	NN	O	O
 differential	NN	O	O
 equation	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 ensuing	NN	O	O
 eigenfunctions	NN	O	O
@@ -10048,6 +10443,7 @@ magnetic	NN	O	O
 quantum	NN	O	O
 number	NN	O	O
 .	NN	O	O
+
 Those	NN	O	O
 vortices	NN	O	B-Material
 can	NN	O	O
@@ -10076,6 +10472,7 @@ the	NN	O	O
 cylindrical	NN	O	O
 problem	NN	O	O
 .	NN	O	O
+
 Vortices	NN	O	O
 can	NN	O	O
 be	NN	O	O
@@ -10103,6 +10500,7 @@ the	NN	O	O
 diffraction	NN	O	O
 plane	NN	O	O
 .	NN	O	O
+
 Inclusion	NN	O	B-Process
 of	NN	O	I-Process
 spherical	NN	O	I-Process
@@ -10124,6 +10522,7 @@ vortices	NN	O	O
 with	NN	O	O
 m≠0	NN	O	O
 .	NN	O	O
+
 Partial	NN	O	B-Process
 coherence	NN	O	I-Process
 of	NN	O	O
@@ -10140,6 +10539,7 @@ central	NN	O	O
 intensity	NN	O	O
 minimum	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 shown	NN	O	O
@@ -10167,6 +10567,7 @@ volcano	NN	O	O
 structure	NN	O	O
 intact	NN	O	O
 .	NN	O	O
+
 Their	NN	O	O
 small	NN	O	O
 angular	NN	O	O
@@ -10203,6 +10604,7 @@ serious	NN	O	O
 difficulty	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S030439911200040X)
 
 Some	NN	O	O
@@ -10230,6 +10632,7 @@ averaging	NN	O	I-Process
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 inadequacy	NN	O	O
 of	NN	O	O
@@ -10241,6 +10644,7 @@ it	NN	O	O
 neglects	NN	O	O
 astigmatism	NN	O	B-Process
 .	NN	O	O
+
 Astigmatism	NN	O	B-Process
 distorts	NN	O	O
 the	NN	O	O
@@ -10262,6 +10666,7 @@ obtained	NN	O	O
 1D	NN	O	B-Material
 profile	NN	O	I-Material
 .	NN	O	O
+
 A	NN	O	O
 few	NN	O	O
 algorithms	NN	O	O
@@ -10341,6 +10746,7 @@ ATLAS	NN	O	B-Process
 23	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Some	NN	O	O
 other	NN	O	O
 approaches	NN	O	O
@@ -10375,6 +10781,7 @@ not	NN	O	O
 guarantee	NN	O	O
 convergence	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 only	NN	O	O
@@ -10396,6 +10803,7 @@ analysis	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0305440314001927)
 
 Traditionally	NN	O	O
@@ -10423,6 +10831,7 @@ cross	NN	O	I-Material
 -	NN	O	I-Material
 sections	NN	O	I-Material
 .	NN	O	O
+
 Given	NN	O	O
 these	NN	O	O
 constraints	NN	O	O
@@ -10463,6 +10872,7 @@ Bates	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 ,	NN	O	O
 2010	NN	O	O
 ;	NN	O	O
@@ -10473,6 +10883,7 @@ Robson	NN	O	O
 2010	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 highest	NN	O	O
 specification	NN	O	O
@@ -10489,10 +10900,11 @@ true	NN	O	O
 colour	NN	O	O
 fidelity	NN	O	O
 than	NN	O	O
-SfM	NN	O	B-Process
-–	NN	O	I-Process
-MVS	NN	O	I-Process
-methods	NN	O	I-Process
+SfM	NN	O	O
+–	NN	O	O
+
+MVS	NN	O	O
+methods	NN	O	O
 (	NN	O	O
 James	NN	O	O
 and	NN	O	O
@@ -10517,6 +10929,7 @@ unique	NN	O	O
 selling	NN	O	O
 points	NN	O	O
 .	NN	O	O
+
 Unlike	NN	O	O
 traditional	NN	O	B-Process
 digital	NN	O	I-Process
@@ -10547,15 +10960,17 @@ setup	NN	O	O
 are	NN	O	O
 involved	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
 key	NN	O	O
 attraction	NN	O	O
 of	NN	O	O
-SfM	NN	O	B-Process
-–	NN	O	I-Process
-MVS	NN	O	I-Process
+SfM	NN	O	O
+–	NN	O	O
+
+MVS	NN	O	O
 is	NN	O	O
 that	NN	O	O
 the	NN	O	O
@@ -10583,6 +10998,7 @@ overlap	NN	O	I-Process
 of	NN	O	I-Process
 photographs	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 whole	NN	O	O
 series	NN	O	O
@@ -10624,9 +11040,12 @@ in	NN	O	O
 the	NN	O	O
 museum	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 2a	NN	O	O
+
 –	NN	O	O
 c	NN	O	O
 shows	NN	O	O
@@ -10646,6 +11065,7 @@ is	NN	O	O
 considerable	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269301015222)
 
 Recent	NN	O	O
@@ -10705,6 +11125,7 @@ of	NN	O	O
 accelerated	NN	O	O
 expansion	NN	O	O
 .	NN	O	O
+
 If	NN	O	O
 one	NN	O	O
 analyzes	NN	O	O
@@ -10756,6 +11177,7 @@ critical	NN	O	B-Process
 density	NN	O	I-Process
 ρcrit	NN	O	B-Process
 .	NN	O	O
+
 Most	NN	O	O
 interestingly	NN	O	O
 ,	NN	O	O
@@ -10798,6 +11220,7 @@ the	NN	O	O
 critical	NN	O	B-Process
 density	NN	O	I-Process
 .	NN	O	O
+
 With	NN	O	O
 ΩM≡ρ/ρcrit	NN	O	O
 ,	NN	O	O
@@ -10808,6 +11231,7 @@ and	NN	O	O
 (	NN	O	O
 1.2)ΩM≈1/3,ΩΛ≈2/3,Ωtot≈1	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 implies	NN	O	O
 that	NN	O	O
@@ -10819,6 +11243,7 @@ is	NN	O	O
 approximately	NN	O	O
 −1/2	NN	O	O
 .	NN	O	O
+
 While	NN	O	O
 originally	NN	O	O
 the	NN	O	O
@@ -10885,6 +11310,7 @@ moment	NN	O	I-Task
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269302011838)
 
 First	NN	O	O
@@ -10942,6 +11368,7 @@ the	NN	O	I-Material
 produced	NN	O	I-Material
 secondaries	NN	O	I-Material
 .	NN	O	O
+
 Multiplicities	NN	O	B-Task
 and	NN	O	O
 their	NN	O	B-Task
@@ -10952,6 +11379,7 @@ are	NN	O	O
 successfully	NN	O	O
 reproduced	NN	O	O
 .	NN	O	O
+
 Transverse	NN	O	B-Process
 momentum	NN	O	I-Process
 distributions	NN	O	I-Process
@@ -10975,6 +11403,7 @@ with	NN	O	O
 increasing	NN	O	O
 centrality	NN	O	O
 .	NN	O	O
+
 Discrepancies	NN	O	B-Process
 with	NN	O	I-Process
 particle	NN	O	I-Process
@@ -10994,6 +11423,7 @@ at	NN	O	O
 SPS	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269302012492)
 
 In	NN	O	O
@@ -11031,6 +11461,7 @@ five	NN	O	I-Material
 -	NN	O	I-Material
 brane	NN	O	I-Material
 .	NN	O	O
+
 We	NN	O	O
 will	NN	O	O
 adopt	NN	O	O
@@ -11047,6 +11478,7 @@ of	NN	O	O
 21–23	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 begin	NN	O	O
 by	NN	O	O
@@ -11134,6 +11566,7 @@ R	NN	O	O
 =	NN	O	O
 Q1/3ℓp	NN	O	O
 .	NN	O	O
+
 Note	NN	O	O
 ,	NN	O	O
 as	NN	O	O
@@ -11179,6 +11612,7 @@ six	NN	O	O
 dimensional	NN	O	O
 supergravity	NN	O	O
 .	NN	O	O
+
 Nevertheless	NN	O	O
 ,	NN	O	O
 for	NN	O	O
@@ -11218,6 +11652,7 @@ calculation	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269302013412)
 
 We	NN	O	O
@@ -11266,6 +11701,7 @@ the	NN	O	O
 Planck	NN	O	B-Material
 mass	NN	O	I-Material
 .	NN	O	O
+
 Instead	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -11298,6 +11734,7 @@ the	NN	O	O
 mass	NN	O	B-Process
 history	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 show	NN	O	O
 that	NN	O	O
@@ -11349,6 +11786,7 @@ for	NN	O	O
 z>1.7	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269302014880)
 
 Production	NN	O	B-Task
@@ -11381,6 +11819,7 @@ and	NN	O	O
 NA50	NN	O	O
 Collaborations	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 experimental	NN	O	B-Task
 program	NN	O	I-Task
@@ -11414,6 +11853,7 @@ of	NN	O	I-Task
 the	NN	O	I-Task
 collision	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 original	NN	O	B-Material
 picture	NN	O	I-Material
@@ -11451,6 +11891,7 @@ nucleon	NN	O	I-Process
 nucleon	NN	O	I-Process
 collisions	NN	O	I-Process
 .	NN	O	O
+
 During	NN	O	O
 the	NN	O	O
 subsequent	NN	O	B-Process
@@ -11518,6 +11959,7 @@ anomalous	NN	O	B-Process
 suppression	NN	O	I-Process
 )	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 was	NN	O	O
 found	NN	O	O
@@ -11541,10 +11983,11 @@ proton	NN	O	B-Material
 –	NN	O	I-Material
 nucleus	NN	O	I-Material
 and	NN	O	O
-nucleus	NN	O	B-Process
-–	NN	O	I-Process
-nucleus	NN	O	I-Process
-collisions	NN	O	I-Process
+nucleus	NN	O	O
+–	NN	O	O
+
+nucleus	NN	O	O
+collisions	NN	O	O
 with	NN	O	O
 light	NN	O	B-Material
 projectiles	NN	O	I-Material
@@ -11569,6 +12012,7 @@ nuclear	NN	O	B-Process
 suppression	NN	O	I-Process
 alone	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 contrast	NN	O	O
 ,	NN	O	O
@@ -11596,6 +12040,7 @@ collisions	NN	O	I-Process
 4–7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 anomalous	NN	O	O
 J/ψ	NN	O	B-Process
@@ -11629,6 +12074,7 @@ excluded	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269302014892)
 
 Brodsky	NN	O	O
@@ -11678,6 +12124,7 @@ factor	NN	O	O
 R(s	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 formula	NN	O	B-Task
 was	NN	O	O
@@ -11699,6 +12146,7 @@ opposite	NN	O	I-Process
 photon	NN	O	I-Process
 helicities	NN	O	I-Process
 .	NN	O	O
+
 As	NN	O	O
 has	NN	O	O
 been	NN	O	O
@@ -11726,6 +12174,7 @@ not	NN	O	O
 generically	NN	O	O
 small	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 also	NN	O	O
 remark	NN	O	O
@@ -11780,6 +12229,7 @@ with	NN	O	O
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Notice	NN	O	O
 further	NN	O	O
 that	NN	O	O
@@ -11814,6 +12264,7 @@ a	NN	O	O
 pion	NN	O	B-Material
 pair	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 contrast	NN	O	O
 ,	NN	O	O
@@ -11834,6 +12285,7 @@ after	NN	O	O
 24	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Finally	NN	O	O
 ,	NN	O	O
 due	NN	O	O
@@ -11864,6 +12316,7 @@ neutral	NN	O	B-Material
 pseudoscalars	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0370269303015478)
 
 Since	NN	O	O
@@ -11898,6 +12351,7 @@ improved	NN	O	I-Process
 unitarity	NN	O	I-Process
 bounds	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 study	NN	O	O
@@ -11918,6 +12372,7 @@ analysis	NN	O	I-Task
 20	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 tree	NN	O	B-Task
 level	NN	O	I-Task
@@ -11964,6 +12419,7 @@ gauge	NN	O	B-Material
 boson	NN	O	I-Material
 masses	NN	O	I-Material
 .	NN	O	O
+
 We	NN	O	O
 will	NN	O	O
 consider	NN	O	O
@@ -12001,6 +12457,7 @@ is	NN	O	O
 also	NN	O	O
 fulfilled	NN	O	O
 .	NN	O	O
+
 Our	NN	O	O
 purpose	NN	O	O
 is	NN	O	O
@@ -12038,6 +12495,7 @@ decoupling	NN	O	I-Task
 regime	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0370269303017222)
 
 In	NN	O	O
@@ -12081,6 +12539,7 @@ parity	NN	O	O
 baryon	NN	O	O
 mass	NN	O	O
 .	NN	O	O
+
 Pairwise	NN	O	B-Process
 spin	NN	O	I-Process
 -	NN	O	I-Process
@@ -12092,6 +12551,7 @@ the	NN	O	O
 level	NN	O	B-Process
 ordering	NN	O	I-Process
 .	NN	O	O
+
 As	NN	O	O
 mentioned	NN	O	O
 earlier	NN	O	O
@@ -12118,6 +12578,7 @@ the	NN	O	O
 desired	NN	O	O
 effect	NN	O	O
 .	NN	O	O
+
 Since	NN	O	O
 the	NN	O	O
 q3	NN	O	B-Process
@@ -12139,6 +12600,7 @@ is	NN	O	O
 totally	NN	O	O
 symmetric	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 all	NN	O	O
 quarks	NN	O	B-Material
@@ -12171,6 +12633,7 @@ flavor	NN	O	B-Process
 spin	NN	O	I-Process
 interaction	NN	O	I-Process
 .	NN	O	O
+
 If	NN	O	O
 one	NN	O	O
 quark	NN	O	B-Material
@@ -12209,6 +12672,7 @@ a	NN	O	O
 less	NN	O	O
 attractive	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 SU(3)F	NN	O	O
@@ -12217,6 +12681,7 @@ case	NN	O	O
 ,	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 1	NN	O	O
 )	NN	O	O
@@ -12229,6 +12694,7 @@ splittings	NN	O	I-Process
 2)ΔMχ=−14Cχ,N(939),N∗(1440),−4Cχ,Δ(1232),−2Cχ,N∗(1535	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Here	NN	O	O
 we	NN	O	O
 have	NN	O	O
@@ -12245,6 +12711,7 @@ quark	NN	O	B-Process
 spin-1/2	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S037026930301801X)
 
 The	NN	O	O
@@ -12264,6 +12731,7 @@ structures	NN	O	I-Material
 in	NN	O	O
 10–12,14Be	NN	O	O
 .	NN	O	O
+
 Certainly	NN	O	O
 ,	NN	O	O
 if	NN	O	O
@@ -12299,6 +12767,7 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 4(a	NN	O	O
 )	NN	O	O
 ,	NN	O	O
@@ -12321,6 +12790,7 @@ A=10	NN	O	O
 and	NN	O	O
 14	NN	O	O
 .	NN	O	O
+
 Given	NN	O	O
 also	NN	O	O
 that	NN	O	O
@@ -12345,6 +12815,7 @@ increase	NN	O	O
 in	NN	O	O
 clustering	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 breakup	NN	O	B-Process
 cross	NN	O	I-Process
@@ -12382,6 +12853,7 @@ may	NN	O	O
 be	NN	O	O
 complex	NN	O	O
 .	NN	O	O
+
 That	NN	O	O
 is	NN	O	O
 to	NN	O	O
@@ -12408,6 +12880,7 @@ plus	NN	O	O
 valence	NN	O	B-Material
 neutrons	NN	O	I-Material
 .	NN	O	O
+
 These	NN	O	O
 comprehensive	NN	O	B-Task
 measurements	NN	O	I-Task
@@ -12445,6 +12918,7 @@ their	NN	O	O
 reactions	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304005829)
 
 Let	NN	O	O
@@ -12460,6 +12934,7 @@ beta	NN	O	B-Material
 beam	NN	O	I-Material
 source	NN	O	I-Material
 .	NN	O	O
+
 Similarly	NN	O	O
 to	NN	O	O
 the	NN	O	O
@@ -12488,8 +12963,10 @@ very	NN	O	O
 accurately	NN	O	O
 calculated	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 3	NN	O	O
 shows	NN	O	O
 the	NN	O	O
@@ -12516,12 +12993,15 @@ keV	NN	O	O
 ,	NN	O	O
 respectively	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 In	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3(b	NN	O	O
 )	NN	O	O
+
 we	NN	O	O
 have	NN	O	O
 rounded	NN	O	O
@@ -12534,6 +13014,7 @@ of	NN	O	O
 counts	NN	O	O
 .	NN	O	O
 )	NN	O	O
+
 The	NN	O	O
 shape	NN	O	O
 of	NN	O	O
@@ -12561,6 +13042,7 @@ in	NN	O	O
 the	NN	O	O
 figures	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 can	NN	O	O
 be	NN	O	O
@@ -12601,6 +13083,7 @@ magnetic	NN	O	I-Process
 moment	NN	O	I-Process
 of	NN	O	O
 5×10−11μB.	NN	O	O
+
 These	NN	O	O
 figures	NN	O	O
 are	NN	O	O
@@ -12620,6 +13103,7 @@ neutrinos	NN	O	B-Material
 from	NN	O	O
 18Ne	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 shown	NN	O	O
@@ -12640,6 +13124,7 @@ ions	NN	O	O
 s	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 If	NN	O	O
 there	NN	O	O
 is	NN	O	O
@@ -12678,6 +13163,7 @@ range	NN	O	O
 per	NN	O	O
 year	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 numbers	NN	O	O
 increase	NN	O	O
@@ -12698,6 +13184,7 @@ moment	NN	O	O
 of	NN	O	O
 5×10−11μB.	NN	O	O
 
+
 -DOCSTART- (S0370269304007567)
 
 Each	NN	O	O
@@ -12724,6 +13211,7 @@ to	NN	O	I-Material
 digital	NN	O	I-Material
 converter	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 calculation	NN	O	O
 was	NN	O	O
@@ -12748,6 +13236,7 @@ t	NN	O	I-Process
 relation	NN	O	I-Process
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 x	NN	O	B-Process
 –	NN	O	I-Process
@@ -12780,6 +13269,7 @@ MAGBOLTZ	NN	O	B-Material
 21	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Although	NN	O	O
 the	NN	O	O
 chambers	NN	O	B-Material
@@ -12815,6 +13305,7 @@ the	NN	O	O
 electric	NN	O	O
 field	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -12845,6 +13336,7 @@ throughout	NN	O	O
 the	NN	O	O
 experiments	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 correction	NN	O	O
 was	NN	O	O
@@ -12871,6 +13363,7 @@ without	NN	O	O
 magnetic	NN	O	B-Process
 field	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 correction	NN	O	O
 was	NN	O	O
@@ -12886,6 +13379,7 @@ the	NN	O	O
 chamber	NN	O	B-Process
 manufacturing	NN	O	I-Process
 .	NN	O	O
+
 During	NN	O	O
 the	NN	O	O
 observations	NN	O	O
@@ -12910,6 +13404,7 @@ the	NN	O	O
 chamber	NN	O	B-Material
 gas	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -12936,6 +13431,7 @@ data	NN	O	O
 taking	NN	O	O
 run	NN	O	O
 .	NN	O	O
+
 Especially	NN	O	O
 in	NN	O	O
 calibrating	NN	O	O
@@ -12970,6 +13466,7 @@ nor	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304007816)
 
 We	NN	O	O
@@ -12996,6 +13493,7 @@ three	NN	O	I-Process
 body	NN	O	I-Process
 interactions	NN	O	I-Process
 .	NN	O	O
+
 Using	NN	O	O
 the	NN	O	O
 underlying	NN	O	O
@@ -13021,6 +13519,7 @@ Bargmann	NN	O	O
 Fock	NN	O	O
 space	NN	O	O
 .	NN	O	O
+
 There	NN	O	O
 are	NN	O	O
 towers	NN	O	O
@@ -13035,6 +13534,7 @@ in	NN	O	O
 each	NN	O	O
 tower	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 explicitely	NN	O	O
 construct	NN	O	B-Process
@@ -13061,6 +13561,7 @@ their	NN	O	I-Process
 corresponding	NN	O	I-Process
 eigenenergies	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 also	NN	O	O
 construct	NN	O	B-Process
@@ -13072,6 +13573,7 @@ global	NN	O	O
 collective	NN	O	O
 states	NN	O	O
 .	NN	O	O
+
 Analysing	NN	O	B-Task
 corresponding	NN	O	I-Task
 Fock	NN	O	I-Task
@@ -13091,6 +13593,7 @@ exhibits	NN	O	O
 singular	NN	O	O
 behavior	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 above	NN	O	O
 results	NN	O	O
@@ -13107,6 +13610,7 @@ SU(1,1	NN	O	O
 symmetry	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304008421)
 
 The	NN	O	O
@@ -13149,6 +13653,7 @@ and	NN	O	O
 matter	NN	O	B-Process
 Hamiltonians	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 allows	NN	O	O
 to	NN	O	O
@@ -13178,6 +13683,7 @@ the	NN	O	I-Process
 NSI	NN	O	I-Process
 case	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 example	NN	O	O
 ,	NN	O	O
@@ -13237,6 +13743,7 @@ the	NN	O	O
 rotated	NN	O	O
 basis	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 “	NN	O	O
 resonant	NN	O	O
@@ -13261,6 +13768,7 @@ A≃Δ	NN	O	O
 21	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 neutrino	NN	O	B-Material
 produced	NN	O	O
@@ -13284,6 +13792,7 @@ undergo	NN	O	O
 level	NN	O	O
 crossing	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 probability	NN	O	O
 Pc	NN	O	B-Material
@@ -13334,6 +13843,7 @@ and	NN	O	O
 Θ(x)=0	NN	O	O
 otherwise	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 emphasize	NN	O	O
 that	NN	O	O
@@ -13409,6 +13919,7 @@ from	NN	O	O
 21	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 stress	NN	O	O
 that	NN	O	O
@@ -13419,6 +13930,7 @@ of	NN	O	O
 α	NN	O	O
 and	NN	O	O
 φ≃π/2	NN	O	O
+
 adiabaticity	NN	O	O
 is	NN	O	O
 violated	NN	O	O
@@ -13428,6 +13940,7 @@ values	NN	O	O
 of	NN	O	O
 θ.	NN	O	O
 
+
 -DOCSTART- (S0370269304008494)
 
 One	NN	O	O
@@ -13449,6 +13962,7 @@ of	NN	O	I-Task
 chiral	NN	O	I-Task
 symmetry	NN	O	I-Task
 .	NN	O	O
+
 Since	NN	O	O
 the	NN	O	O
 chiral	NN	O	B-Material
@@ -13495,6 +14009,7 @@ in	NN	O	O
 photonuclear	NN	O	B-Process
 reactions	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 conjecture	NN	O	O
 that	NN	O	O
@@ -13554,6 +14069,7 @@ nuclei	NN	O	B-Material
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 contrast	NN	O	O
 to	NN	O	O
@@ -13612,6 +14128,7 @@ system	NN	O	I-Process
 8–11	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Measuring	NN	O	B-Process
 a	NN	O	I-Process
 threshold	NN	O	I-Process
@@ -13653,6 +14170,7 @@ of	NN	O	O
 QCD	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009293)
 
 An	NN	O	O
@@ -13667,6 +14185,7 @@ in	NN	O	O
 3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 and	NN	O	O
@@ -13686,6 +14205,7 @@ to	NN	O	O
 our	NN	O	O
 analysis	NN	O	O
 .	NN	O	O
+
 Within	NN	O	O
 this	NN	O	O
 framework	NN	O	O
@@ -13730,6 +14250,7 @@ r→	NN	O	O
 at	NN	O	O
 r≪ΛQCD−1	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 following	NN	O	O
 relation	NN	O	O
@@ -13740,6 +14261,7 @@ derived	NN	O	O
 16)VQCD(r)=VS(r)+δEUS(r),(17)δEUS=−ig2TFNC∫0∞dte−iΔV(r)t×〈r→⋅E→a(t)φadj(t,0)abr→⋅E→b(0)〉+O(r3	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 VS(r	NN	O	O
 )	NN	O	O
 denotes	NN	O	O
@@ -13747,6 +14269,7 @@ the	NN	O	O
 singlet	NN	O	O
 potential	NN	O	O
 .	NN	O	O
+
 δEUS(r	NN	O	O
 )	NN	O	O
 denotes	NN	O	O
@@ -13770,6 +14293,7 @@ the	NN	O	O
 multipole	NN	O	B-Process
 expansion	NN	O	I-Process
 .	NN	O	O
+
 ΔV(r)=VO(r)−VS(r	NN	O	O
 )	NN	O	O
 denotes	NN	O	O
@@ -13789,6 +14313,7 @@ see	NN	O	O
 for	NN	O	O
 details	NN	O	O
 .	NN	O	O
+
 Intuitively	NN	O	O
 VS(r	NN	O	O
 )	NN	O	O
@@ -13803,6 +14328,7 @@ to	NN	O	O
 VIR(r;μf	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 adopt	NN	O	O
 dimensional	NN	O	B-Process
@@ -13824,6 +14350,7 @@ conceptual	NN	O	O
 aspects	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304012638)
 
 It	NN	O	O
@@ -13878,6 +14405,7 @@ the	NN	O	O
 same	NN	O	O
 background	NN	O	O
 .	NN	O	O
+
 There	NN	O	O
 are	NN	O	O
 expectations	NN	O	O
@@ -13909,6 +14437,7 @@ for	NN	O	O
 gauge	NN	O	O
 theories	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 supersymmetric	NN	O	O
@@ -13950,6 +14479,7 @@ in	NN	O	O
 15	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Further	NN	O	O
 progress	NN	O	O
 in	NN	O	O
@@ -13966,6 +14496,7 @@ N=2	NN	O	I-Task
 covariant	NN	O	I-Task
 supergraphs	NN	O	I-Task
 .	NN	O	O
+
 Finally	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -14003,9 +14534,10 @@ energy	NN	O	O
 action	NN	O	O
 for	NN	O	O
 N=4	NN	O	O
-SU(N	NN	O	B-Material
-)	NN	O	I-Material
-SYM	NN	O	I-Material
+SU(N	NN	O	O
+
+)	NN	O	O
+SYM	NN	O	O
 on	NN	O	O
 its	NN	O	O
 Coulomb	NN	O	B-Material
@@ -14023,6 +14555,7 @@ to	NN	O	O
 SU(N−1)×U(1	NN	O	B-Material
 )	NN	O	I-Material
 .	NN	O	O
+
 There	NN	O	O
 have	NN	O	O
 appeared	NN	O	O
@@ -14041,6 +14574,7 @@ with	NN	O	O
 conflicting	NN	O	O
 conclusions	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 approach	NN	O	O
 advocated	NN	O	O
@@ -14054,6 +14588,7 @@ further	NN	O	O
 test	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S037877531001949X)
 
 The	NN	O	O
@@ -14078,6 +14613,7 @@ with	NN	O	O
 small	NN	O	O
 particles	NN	O	O
 .	NN	O	O
+
 Most	NN	O	O
 research	NN	O	O
 so	NN	O	O
@@ -14100,6 +14636,7 @@ blacks	NN	O	I-Material
 34,35,36	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Layers	NN	O	O
 deposited	NN	O	O
 by	NN	O	O
@@ -14142,6 +14679,7 @@ Teflon	NN	O	B-Material
 37,38,39	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 advantage	NN	O	O
 of	NN	O	O
@@ -14184,6 +14722,7 @@ meta	NN	O	B-Process
 stable	NN	O	I-Process
 dispersion	NN	O	I-Process
 .	NN	O	O
+
 Recently	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -14211,6 +14750,7 @@ dispersions	NN	O	O
 36	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 dispersions	NN	O	O
 were	NN	O	O
@@ -14242,6 +14782,7 @@ high	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0885230816301759)
 
 This	NN	O	O
@@ -14267,6 +14808,7 @@ models	NN	O	O
 are	NN	O	O
 combined	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 system	NN	O	O
 provides	NN	O	B-Task
@@ -14297,6 +14839,7 @@ self	NN	O	O
 study	NN	O	O
 setting	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 sentence	NN	O	O
 stress	NN	O	O
@@ -14316,6 +14859,7 @@ any	NN	O	O
 practice	NN	O	O
 sentence	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 accuracy	NN	O	O
 of	NN	O	O
@@ -14333,6 +14877,7 @@ and	NN	O	O
 ,	NN	O	O
 respectively	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 stress	NN	O	B-Process
 feedback	NN	O	I-Process
@@ -14365,6 +14910,7 @@ detected	NN	O	O
 stress	NN	O	O
 pattern	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 an	NN	O	O
 experiment	NN	O	O
@@ -14409,6 +14955,7 @@ control	NN	O	O
 group	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S092583881302834X)
 
 Plastically	NN	O	O
@@ -14426,6 +14973,7 @@ regions	NN	O	O
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 While	NN	O	O
 this	NN	O	O
 could	NN	O	O
@@ -14454,6 +15002,7 @@ dislocation	NN	O	O
 based	NN	O	O
 theory	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 search	NN	O	B-Task
 for	NN	O	I-Task
@@ -14488,6 +15037,7 @@ conventional	NN	O	O
 alloys	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Anelastic	NN	O	B-Process
 deformation	NN	O	I-Process
 is	NN	O	O
@@ -14522,6 +15072,7 @@ onset	NN	O	O
 of	NN	O	O
 plasticity	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -14554,10 +15105,12 @@ deformation	NN	O	O
 of	NN	O	O
 MGs	NN	O	B-Material
 .	NN	O	O
+
 Fujita	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 have	NN	O	O
 used	NN	O	O
 torsion	NN	O	O
@@ -14592,12 +15145,14 @@ of	NN	O	O
 the	NN	O	O
 shear	NN	O	O
 yield	NN	O	O
+
 stress	NN	O	O
 τy	NN	O	O
 [	NN	O	O
 18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 present	NN	O	O
@@ -14635,6 +15190,7 @@ torque	NN	O	I-Task
 reversal	NN	O	I-Task
 .	NN	O	I-Task
 
+
 -DOCSTART- (S0925838814009669)
 
 SPS	NN	O	B-Material
@@ -14655,6 +15211,7 @@ powders	NN	O	I-Process
 during	NN	O	I-Process
 consolidation	NN	O	I-Process
 .	NN	O	O
+
 Ye	NN	O	O
 et	NN	O	O
 al	NN	O	O
@@ -14675,6 +15232,7 @@ SPS	NN	O	B-Process
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 X	NN	O	B-Process
 -	NN	O	I-Process
 ray	NN	O	I-Process
@@ -14714,6 +15272,7 @@ bulk	NN	O	O
 state	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Subsequently	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -14748,6 +15307,7 @@ a	NN	O	O
 larger	NN	O	O
 scale	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 another	NN	O	O
 study	NN	O	O
@@ -14776,34 +15336,39 @@ the	NN	O	O
 bulk	NN	O	B-Material
 nanocomposite	NN	O	I-Material
 .	NN	O	O
+
 Rana	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 14	NN	O	O
 ]	NN	O	O
-investigated	NN	O	B-Task
-the	NN	O	I-Task
-effect	NN	O	I-Task
-of	NN	O	I-Task
-SPS	NN	O	I-Task
-on	NN	O	I-Task
-mechanically	NN	O	I-Task
-milled	NN	O	I-Task
-AA6061	NN	O	I-Task
-(	NN	O	I-Task
-Al	NN	O	I-Task
-–	NN	O	I-Task
-Mg	NN	O	I-Task
-–	NN	O	I-Task
-Si	NN	O	I-Task
-)	NN	O	I-Task
-micro	NN	O	I-Task
--	NN	O	I-Task
-alloy	NN	O	I-Task
-powder	NN	O	I-Task
+investigated	NN	O	O
+the	NN	O	O
+effect	NN	O	O
+of	NN	O	O
+SPS	NN	O	O
+on	NN	O	O
+mechanically	NN	O	O
+milled	NN	O	O
+AA6061	NN	O	O
+
+(	NN	O	O
+Al	NN	O	O
+–	NN	O	O
+
+Mg	NN	O	O
+–	NN	O	O
+Si	NN	O	O
+)	NN	O	O
+micro	NN	O	O
+-	NN	O	O
+alloy	NN	O	O
+powder	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 average	NN	O	O
 grain	NN	O	O
@@ -14830,6 +15395,7 @@ at	NN	O	O
 °	NN	O	O
 C	NN	O	O
 .	NN	O	O
+
 Microhardness	NN	O	O
 and	NN	O	O
 compressive	NN	O	O
@@ -14878,6 +15444,7 @@ grain	NN	O	O
 size	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0927025614003322)
 
 A	NN	O	O
@@ -14908,6 +15475,7 @@ any	NN	O	O
 specific	NN	O	O
 application	NN	O	O
 .	NN	O	O
+
 Trends	NN	O	O
 and	NN	O	O
 insights	NN	O	O
@@ -14916,6 +15484,7 @@ deduced	NN	O	O
 a	NN	O	O
 posteriori	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 requires	NN	O	O
 efficient	NN	O	B-Task
@@ -14928,6 +15497,7 @@ on	NN	O	I-Task
 various	NN	O	I-Task
 levels	NN	O	I-Task
 .	NN	O	O
+
 We	NN	O	O
 have	NN	O	O
 developed	NN	O	O
@@ -14956,6 +15526,7 @@ the	NN	O	O
 scientific	NN	O	O
 community	NN	O	O
 .	NN	O	O
+
 Through	NN	O	O
 it	NN	O	O
 ,	NN	O	O
@@ -14989,6 +15560,7 @@ the	NN	O	O
 included	NN	O	O
 systems	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 data	NN	O	O
 may	NN	O	O
@@ -15018,6 +15590,7 @@ work	NN	O	I-Process
 -	NN	O	I-Process
 flows	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 interface	NN	O	B-Process
 also	NN	O	O
@@ -15055,6 +15628,7 @@ expanded	NN	O	O
 systematically	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0927025614006181)
 
 The	NN	O	O
@@ -15094,6 +15668,7 @@ Asmar	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 8	NN	O	O
 ]	NN	O	O
@@ -15130,6 +15705,7 @@ simply	NN	O	O
 a	NN	O	O
 summary	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 applies	NN	O	O
 an	NN	O	O
@@ -15161,6 +15737,7 @@ at	NN	O	O
 each	NN	O	O
 timestep	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 inter	NN	O	B-Material
 -	NN	O	I-Material
@@ -15181,6 +15758,7 @@ dashpot	NN	O	I-Process
 slider	NN	O	I-Process
 analogy	NN	O	I-Process
 .	NN	O	O
+
 Contact	NN	O	B-Process
 forces	NN	O	I-Process
 are	NN	O	O
@@ -15201,6 +15779,7 @@ the	NN	O	O
 particles	NN	O	B-Material
 centres	NN	O	I-Material
 .	NN	O	O
+
 Particle	NN	O	B-Process
 elastic	NN	O	I-Process
 stiffness	NN	O	I-Process
@@ -15221,6 +15800,7 @@ damping	NN	O	I-Process
 is	NN	O	O
 applied	NN	O	O
 .	NN	O	O
+
 Particle	NN	O	B-Process
 cohesion	NN	O	I-Process
 can	NN	O	O
@@ -15238,6 +15818,7 @@ the	NN	O	O
 current	NN	O	O
 study	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 translational	NN	O	B-Process
 and	NN	O	I-Process
@@ -15266,6 +15847,7 @@ positions	NN	O	I-Material
 and	NN	O	O
 velocities	NN	O	B-Material
 .	NN	O	O
+
 Near	NN	O	B-Process
 -	NN	O	I-Process
 neighbour	NN	O	I-Process
@@ -15327,6 +15909,7 @@ door	NN	O	O
 neighbour	NN	O	O
 zones	NN	O	O
 .	NN	O	O
+
 Full	NN	O	O
 details	NN	O	O
 are	NN	O	O
@@ -15336,11 +15919,13 @@ Asmar	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0927025615006357)
 
 In	NN	O	O
@@ -15384,6 +15969,7 @@ at	NN	O	O
 high	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 first	NN	O	O
 objective	NN	O	O
@@ -15411,6 +15997,7 @@ realistic	NN	O	O
 material	NN	O	O
 microstructure	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 second	NN	O	O
 objective	NN	O	O
@@ -15456,6 +16043,7 @@ element	NN	O	O
 package	NN	O	O
 ABAQUS	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 model	NN	O	O
 parameters	NN	O	O
@@ -15478,6 +16066,7 @@ cyclic	NN	O	I-Material
 test	NN	O	I-Material
 data	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 third	NN	O	O
 objective	NN	O	O
@@ -15511,6 +16100,7 @@ fracture	NN	O	B-Process
 criterion	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S096386951400070X)
 
 This	NN	O	O
@@ -15549,6 +16139,7 @@ reaches	NN	O	O
 a	NN	O	O
 peak	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 SNR	NN	O	B-Material
 of	NN	O	O
@@ -15576,6 +16167,7 @@ measured	NN	O	O
 at	NN	O	O
 1MHz	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 a	NN	O	O
@@ -15605,6 +16197,7 @@ NERSE	NN	O	B-Process
 )	NN	O	O
 phenomenon	NN	O	O
 .	NN	O	O
+
 NERSE	NN	O	B-Process
 frequency	NN	O	O
 operation	NN	O	O
@@ -15624,6 +16217,7 @@ of	NN	O	O
 investigative	NN	O	O
 possibilities	NN	O	O
 .	NN	O	O
+
 Within	NN	O	O
 this	NN	O	O
 investigation	NN	O	O
@@ -15639,6 +16233,7 @@ has	NN	O	O
 been	NN	O	O
 analyzed	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 immediate	NN	O	O
 extension	NN	O	O
@@ -15663,6 +16258,7 @@ effect	NN	O	O
 exists	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0963869514000875)
 
 There	NN	O	O
@@ -15689,6 +16285,7 @@ frequency	NN	O	I-Task
 analysis	NN	O	I-Task
 methods	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 STFT	NN	O	B-Process
 spectrogram	NN	O	I-Process
@@ -15704,6 +16301,7 @@ simplest	NN	O	O
 to	NN	O	O
 implement	NN	O	O
 .	NN	O	O
+
 Whilst	NN	O	O
 all	NN	O	O
 of	NN	O	O
@@ -15742,6 +16340,7 @@ in	NN	O	O
 frequency	NN	O	B-Material
 resolution	NN	O	I-Material
 .	NN	O	O
+
 Other	NN	O	O
 methods	NN	O	O
 of	NN	O	O
@@ -15788,6 +16387,7 @@ components	NN	O	I-Material
 25,18,19	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Also	NN	O	O
 ,	NN	O	O
 whilst	NN	O	O
@@ -15820,6 +16420,7 @@ types	NN	O	O
 of	NN	O	O
 waves	NN	O	O
 .	NN	O	O
+
 Future	NN	O	O
 work	NN	O	O
 will	NN	O	O
@@ -15845,6 +16446,7 @@ electromagnetic	NN	O	B-Material
 waves	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0963869514000954)
 
 Global	NN	O	B-Process
@@ -15885,6 +16487,7 @@ minima	NN	O	I-Material
 /	NN	O	I-Material
 maxima	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 genetic	NN	O	B-Process
 algorithm	NN	O	I-Process
@@ -15910,6 +16513,7 @@ this	NN	O	O
 particular	NN	O	O
 study	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 algorithm	NN	O	O
 starts	NN	O	O
@@ -15929,6 +16533,7 @@ domain	NN	O	I-Material
 X	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 genetic	NN	O	B-Process
 algorithm	NN	O	I-Process
@@ -15937,6 +16542,7 @@ modifies	NN	O	O
 this	NN	O	O
 population	NN	O	O
 .	NN	O	O
+
 At	NN	O	O
 each	NN	O	O
 step	NN	O	O
@@ -15970,6 +16576,7 @@ the	NN	O	O
 next	NN	O	O
 generation	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 process	NN	O	O
 is	NN	O	O
@@ -15984,6 +16591,7 @@ solution	NN	O	O
 is	NN	O	O
 reached	NN	O	O
 .	NN	O	O
+
 See	NN	O	O
 [	NN	O	O
 19	NN	O	O
@@ -15997,6 +16605,7 @@ the	NN	O	O
 GA	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0963869514001066)
 
 In	NN	O	O
@@ -16025,6 +16634,7 @@ region	NN	O	O
 as	NN	O	O
 follows	NN	O	O
 .	NN	O	O
+
 After	NN	O	O
 obtaining	NN	O	O
 the	NN	O	O
@@ -16048,6 +16658,7 @@ in	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 )	NN	O	O
 ,	NN	O	O
@@ -16057,6 +16668,7 @@ into	NN	O	I-Process
 a	NN	O	I-Process
 grid	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 signals	NN	O	O
 from	NN	O	O
@@ -16079,6 +16691,7 @@ in	NN	O	I-Process
 this	NN	O	I-Process
 grid	NN	O	I-Process
 .	NN	O	O
+
 Linear	NN	O	B-Process
 interpolation	NN	O	I-Process
 of	NN	O	O
@@ -16094,6 +16707,7 @@ are	NN	O	O
 discretely	NN	O	B-Process
 sampled	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 intensity	NN	O	O
 of	NN	O	O
@@ -16160,6 +16774,7 @@ element	NN	O	I-Material
 R	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 Note	NN	O	O
 that	NN	O	O
 the	NN	O	O
@@ -16174,9 +16789,11 @@ zero	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3a	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 summation	NN	O	B-Process
 is	NN	O	O
@@ -16199,6 +16816,7 @@ captured	NN	O	O
 with	NN	O	O
 FMC	NN	O	B-Material
 .	NN	O	O
+
 This	NN	O	O
 algorithm	NN	O	O
 is	NN	O	O
@@ -16213,6 +16831,7 @@ this	NN	O	O
 paper	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0963869514001078)
 
 It	NN	O	O
@@ -16260,6 +16879,7 @@ efficient	NN	O	O
 15	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Previously	NN	O	O
 this	NN	O	O
 has	NN	O	O
@@ -16291,6 +16911,7 @@ material	NN	O	O
 16,17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 layer	NN	O	O
 concentrates	NN	O	O
@@ -16302,6 +16923,7 @@ increasing	NN	O	O
 generation	NN	O	B-Process
 efficiency	NN	O	I-Process
 .	NN	O	O
+
 Recent	NN	O	O
 studies	NN	O	O
 also	NN	O	O
@@ -16329,6 +16951,7 @@ the	NN	O	O
 magnetostrictive	NN	O	O
 constant	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 ferromagnetic	NN	O	B-Process
 to	NN	O	I-Process
@@ -16367,6 +16990,7 @@ alloys	NN	O	I-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0963869515000572)
 
 Shear	NN	O	B-Material
@@ -16424,6 +17048,7 @@ speed	NN	O	I-Process
 11,12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 properties	NN	O	O
 of	NN	O	O
@@ -16453,6 +17078,7 @@ are	NN	O	O
 a	NN	O	O
 complication	NN	O	O
 .	NN	O	O
+
 SH0	NN	O	B-Material
 has	NN	O	O
 a	NN	O	O
@@ -16490,6 +17116,7 @@ all	NN	O	O
 frequencies	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 oscillation	NN	O	B-Process
 direction	NN	O	O
@@ -16521,6 +17148,7 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 ,	NN	O	O
 with	NN	O	O
@@ -16537,6 +17165,7 @@ a	NN	O	O
 sample	NN	O	O
 surface	NN	O	O
 .	NN	O	O
+
 Under	NN	O	O
 certain	NN	O	O
 conditions	NN	O	O
@@ -16558,6 +17187,7 @@ bulk	NN	O	B-Material
 waves	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0968432814000250)
 
 Volume	NN	O	B-Task
@@ -16572,6 +17202,7 @@ scanning	NN	O	B-Material
 electron	NN	O	I-Material
 microscopes	NN	O	I-Material
 .	NN	O	O
+
 Each	NN	O	O
 approach	NN	O	O
 has	NN	O	O
@@ -16611,6 +17242,7 @@ structure	NN	O	O
 of	NN	O	O
 interest	NN	O	O
 .	NN	O	O
+
 Historically	NN	O	O
 ,	NN	O	O
 transmission	NN	O	B-Material
@@ -16636,6 +17268,7 @@ sub	NN	O	O
 nanometer	NN	O	O
 resolution	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 for	NN	O	O
@@ -16660,6 +17293,7 @@ during	NN	O	O
 sample	NN	O	O
 preparation	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -16687,6 +17321,7 @@ Bock	NN	O	O
 2012	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Advances	NN	O	O
 in	NN	O	O
 scanning	NN	O	B-Process
@@ -16706,6 +17341,7 @@ in	NN	O	O
 electron	NN	O	B-Task
 imaging	NN	O	I-Task
 .	NN	O	O
+
 SEMs	NN	O	B-Process
 with	NN	O	O
 field	NN	O	B-Material
@@ -16744,6 +17380,7 @@ Winter	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 ,	NN	O	O
 2009	NN	O	O
 ;	NN	O	O
@@ -16788,6 +17425,7 @@ al	NN	O	O
 2013	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 use	NN	O	O
 of	NN	O	O
@@ -16811,6 +17449,7 @@ Denk	NN	O	O
 2007	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 review	NN	O	O
@@ -16851,6 +17490,7 @@ been	NN	O	O
 automated	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1010603009002676)
 
 In	NN	O	O
@@ -16860,25 +17500,26 @@ paper	NN	O	O
 we	NN	O	O
 present	NN	O	O
 our	NN	O	O
-experimental	NN	O	B-Task
-observations	NN	O	I-Task
-on	NN	O	I-Task
-how	NN	O	I-Task
-solvents	NN	O	I-Task
-can	NN	O	I-Task
-vary	NN	O	I-Task
-the	NN	O	I-Task
-TPA	NN	O	I-Task
-and	NN	O	I-Task
-TPF	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	I-Task
-fluorescent	NN	O	I-Task
-rhodamine	NN	O	I-Task
-(	NN	O	I-Task
-Rh	NN	O	I-Task
-)	NN	O	I-Task
-dyes	NN	O	I-Task
+experimental	NN	O	O
+observations	NN	O	O
+on	NN	O	O
+how	NN	O	O
+solvents	NN	O	O
+can	NN	O	O
+vary	NN	O	O
+the	NN	O	O
+TPA	NN	O	O
+and	NN	O	O
+TPF	NN	O	O
+properties	NN	O	O
+of	NN	O	O
+fluorescent	NN	O	O
+rhodamine	NN	O	O
+
+(	NN	O	O
+Rh	NN	O	O
+)	NN	O	O
+dyes	NN	O	O
 Rh6	NN	O	B-Material
 G	NN	O	I-Material
 ,	NN	O	O
@@ -16886,6 +17527,7 @@ RhB	NN	O	B-Material
 and	NN	O	O
 Rh101	NN	O	B-Material
 .	NN	O	O
+
 Rhodamines	NN	O	B-Material
 are	NN	O	O
 well	NN	O	O
@@ -16939,6 +17581,7 @@ visible	NN	O	O
 spectral	NN	O	O
 region	NN	O	O
 .	NN	O	O
+
 Molecular	NN	O	O
 geometries	NN	O	O
 of	NN	O	O
@@ -16962,6 +17605,7 @@ non	NN	O	O
 -	NN	O	O
 centrosymmetric	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 general	NN	O	O
 ,	NN	O	O
@@ -16986,6 +17630,7 @@ the	NN	O	O
 excitation	NN	O	O
 frequencies	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 for	NN	O	O
@@ -17013,6 +17658,7 @@ peaks	NN	O	I-Process
 may	NN	O	O
 coincide	NN	O	O
 .	NN	O	O
+
 So	NN	O	O
 we	NN	O	O
 set	NN	O	O
@@ -17040,6 +17686,7 @@ the	NN	O	O
 dyes	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S1010603013001809)
 
 The	NN	O	O
@@ -17056,6 +17703,7 @@ co	NN	O	B-Material
 -	NN	O	I-Material
 catalysts	NN	O	I-Material
 .	NN	O	O
+
 There	NN	O	O
 are	NN	O	O
 two	NN	O	O
@@ -17085,6 +17733,7 @@ separation	NN	O	B-Process
 of	NN	O	I-Process
 holes	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 former	NN	O	O
 representative	NN	O	O
@@ -17104,6 +17753,7 @@ Cu2	NN	O	B-Material
 9–12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 was	NN	O	O
 reported	NN	O	O
@@ -17111,8 +17761,9 @@ that	NN	O	O
 Fe3	NN	O	B-Material
 +	NN	O	I-Material
 and	NN	O	O
-Cu2	NN	O	B-Material
-+	NN	O	I-Material
+Cu2	NN	O	O
+
++	NN	O	O
 were	NN	O	O
 grafted	NN	O	O
 as	NN	O	O
@@ -17140,6 +17791,7 @@ respectively	NN	O	O
 11,12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 reduced	NN	O	B-Material
 metal	NN	O	I-Material
@@ -17164,6 +17816,7 @@ to	NN	O	O
 molecular	NN	O	O
 oxygen	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 latter	NN	O	O
 ones	NN	O	O
@@ -17206,6 +17859,7 @@ oxidation	NN	O	I-Process
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 there	NN	O	O
@@ -17225,6 +17879,7 @@ in	NN	O	O
 gaseous	NN	O	B-Process
 phase	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 expected	NN	O	O
 that	NN	O	O
@@ -17254,6 +17909,7 @@ be	NN	O	O
 further	NN	O	O
 enhanced	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 complex	NN	O	O
@@ -17277,6 +17933,7 @@ photocatalytic	NN	O	B-Process
 activity	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S107158191630074X)
 
 An	NN	O	O
@@ -17307,6 +17964,7 @@ for	NN	O	I-Task
 each	NN	O	I-Task
 condition	NN	O	I-Task
 .	NN	O	O
+
 Furthermore	NN	O	O
 of	NN	O	O
 interest	NN	O	O
@@ -17347,6 +18005,7 @@ refilling	NN	O	O
 it	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 relatively	NN	O	O
 high	NN	O	O
@@ -17399,6 +18058,7 @@ just	NN	O	O
 in	NN	O	O
 case	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 low	NN	O	O
 average	NN	O	O
@@ -17425,6 +18085,7 @@ signal	NN	O	O
 interaction	NN	O	O
 needs	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 other	NN	O	O
@@ -17462,6 +18123,7 @@ users	NN	O	O
 in	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 many	NN	O	O
 cases	NN	O	O
@@ -17496,6 +18158,7 @@ to	NN	O	O
 the	NN	O	O
 participants	NN	O	O
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 if	NN	O	O
@@ -17518,6 +18181,7 @@ into	NN	O	O
 account	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1359646214000165)
 
 The	NN	O	O
@@ -17550,6 +18214,7 @@ pseudopotential	NN	O	I-Process
 DFT	NN	O	I-Process
 method	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 exchange	NN	O	B-Process
 correlation	NN	O	I-Process
@@ -17566,6 +18231,7 @@ PBE	NN	O	B-Process
 -	NN	O	I-Process
 GGA	NN	O	I-Process
 )	NN	O	O
+
 [	NN	O	O
 22	NN	O	O
 ]	NN	O	O
@@ -17588,6 +18254,7 @@ pseudopotentials	NN	O	I-Process
 23	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 plane	NN	O	B-Material
 wave	NN	O	I-Material
@@ -17627,6 +18294,7 @@ space	NN	O	O
 of	NN	O	O
 0.04Å−1	NN	O	O
 .	NN	O	O
+
 Tests	NN	O	O
 show	NN	O	O
 that	NN	O	O
@@ -17643,6 +18311,7 @@ for	NN	O	O
 present	NN	O	O
 purposes	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 ferromagnetism	NN	O	B-Process
 of	NN	O	O
@@ -17671,6 +18340,7 @@ its	NN	O	O
 ground	NN	O	O
 state	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 for	NN	O	O
@@ -17707,6 +18377,7 @@ their	NN	O	O
 phase	NN	O	O
 stability	NN	O	O
 .	NN	O	O
+
 Table	NN	O	O
 1	NN	O	O
 shows	NN	O	O
@@ -17730,6 +18401,7 @@ ordered	NN	O	O
 ηP	NN	O	B-Material
 structures	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 change	NN	O	O
 in	NN	O	O
@@ -17756,6 +18428,7 @@ radius	NN	O	O
 of	NN	O	O
 Ti	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 calculated	NN	O	O
 lattice	NN	O	O
@@ -17784,6 +18457,7 @@ of	NN	O	O
 ∼2.75	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1364815216302122)
 
 When	NN	O	O
@@ -17809,6 +18483,7 @@ the	NN	O	O
 following	NN	O	O
 problems	NN	O	O
 .	NN	O	O
+
 Minimizing	NN	O	O
 the	NN	O	O
 sum	NN	O	O
@@ -17827,6 +18502,7 @@ units	NN	O	O
 and	NN	O	O
 ranges	NN	O	O
 .	NN	O	O
+
 Even	NN	O	O
 with	NN	O	O
 an	NN	O	O
@@ -17850,6 +18526,7 @@ a	NN	O	O
 local	NN	O	O
 minimum	NN	O	O
 .	NN	O	O
+
 Firstly	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -17873,6 +18550,7 @@ by	NN	O	O
 the	NN	O	O
 regression	NN	O	B-Process
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 designing	NN	O	O
@@ -17899,6 +18577,7 @@ objectives	NN	O	O
 in	NN	O	O
 advance	NN	O	O
 .	NN	O	O
+
 Secondly	NN	O	O
 ,	NN	O	O
 adding	NN	O	O
@@ -17924,6 +18603,7 @@ optimization	NN	O	B-Process
 more	NN	O	O
 difficult	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 avoid	NN	O	O
 these	NN	O	O
@@ -17965,6 +18645,7 @@ or	NN	O	I-Process
 cost	NN	O	I-Process
 function	NN	O	I-Process
 .	NN	O	O
+
 Approaches	NN	O	O
 for	NN	O	O
 multi	NN	O	B-Process
@@ -17980,6 +18661,7 @@ in	NN	O	O
 evolutionary	NN	O	B-Task
 computation	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 SPEA	NN	O	B-Process
 the	NN	O	O
@@ -17999,6 +18681,7 @@ the	NN	O	O
 different	NN	O	O
 models	NN	O	O
 .	NN	O	O
+
 Further	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -18018,6 +18701,7 @@ is	NN	O	O
 returned	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1364815216302705)
 
 The	NN	O	O
@@ -18041,6 +18725,7 @@ New	NN	O	I-Task
 York	NN	O	I-Task
 coast	NN	O	I-Task
 .	NN	O	O
+
 Although	NN	O	O
 the	NN	O	O
 base	NN	O	O
@@ -18073,6 +18758,7 @@ not	NN	O	O
 accounted	NN	O	O
 for	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -18105,6 +18791,7 @@ run	NN	O	O
 the	NN	O	O
 model	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 ignore	NN	O	O
 the	NN	O	O
@@ -18137,6 +18824,7 @@ would	NN	O	O
 be	NN	O	O
 unknown	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 unique	NN	O	O
 capability	NN	O	O
@@ -18169,6 +18857,7 @@ and	NN	O	O
 confidence	NN	O	O
 intervals	NN	O	O
 .	NN	O	O
+
 Uncertainty	NN	O	O
 in	NN	O	O
 elevation	NN	O	O
@@ -18195,6 +18884,7 @@ Ferdaña	NN	O	O
 ,	NN	O	O
 2012	NN	O	O
 ;	NN	O	O
+
 Schmid	NN	O	O
 et	NN	O	O
 al	NN	O	O
@@ -18203,6 +18893,7 @@ al	NN	O	O
 2014	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 to	NN	O	O
@@ -18236,6 +18927,7 @@ VDATUM	NN	O	B-Process
 etc	NN	O	O
 .	NN	O	O
 )	NN	O	O
+
 and	NN	O	O
 parameter	NN	O	B-Process
 choices	NN	O	I-Process
@@ -18249,10 +18941,12 @@ ranges	NN	O	I-Process
 etc	NN	O	O
 .	NN	O	O
 )	NN	O	O
+
 on	NN	O	O
 landcover	NN	O	B-Process
 projections	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 added	NN	O	O
 feature	NN	O	O
@@ -18280,6 +18974,7 @@ and	NN	O	O
 parameter	NN	O	O
 uncertainties	NN	O	O
 .	NN	O	O
+
 Further	NN	O	O
 ,	NN	O	O
 by	NN	O	O
@@ -18311,6 +19006,7 @@ not	NN	O	O
 available	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S136481521630305X)
 
 Using	NN	O	O
@@ -18358,6 +19054,7 @@ of	NN	O	O
 the	NN	O	O
 residuals	NN	O	O
 .	NN	O	O
+
 Also	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -18391,6 +19088,7 @@ sum	NN	O	O
 of	NN	O	O
 residuals	NN	O	O
 .	NN	O	O
+
 By	NN	O	O
 dividing	NN	O	O
 the	NN	O	O
@@ -18424,6 +19122,7 @@ have	NN	O	O
 been	NN	O	O
 identified	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 challenging	NN	O	O
 task	NN	O	O
@@ -18445,6 +19144,7 @@ determine	NN	O	O
 their	NN	O	O
 cause	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 task	NN	O	O
 becomes	NN	O	O
@@ -18466,6 +19166,7 @@ various	NN	O	O
 interacting	NN	O	O
 variables	NN	O	O
 .	NN	O	O
+
 Even	NN	O	O
 more	NN	O	O
 so	NN	O	O
@@ -18507,6 +19208,7 @@ widely	NN	O	O
 in	NN	O	O
 size	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 study	NN	O	O
@@ -18547,6 +19249,7 @@ respective	NN	O	O
 results	NN	O	O
 for	NN	O	O
 N2O.	NN	O	B-Material
+
 In	NN	O	O
 our	NN	O	O
 first	NN	O	O
@@ -18579,6 +19282,7 @@ gradually	NN	O	O
 through	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 our	NN	O	O
 second	NN	O	O
@@ -18612,6 +19316,7 @@ positive	NN	O	O
 relationship	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1364815216303061)
 
 In	NN	O	O
@@ -18643,6 +19348,7 @@ flows	NN	O	O
 from	NN	O	O
 it	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 such	NN	O	O
 models	NN	O	O
@@ -18696,10 +19402,12 @@ Kadlec	NN	O	O
 Johnson	NN	O	O
 et	NN	O	O
 al	NN	O	O
+
 .	NN	O	O
 ,	NN	O	O
 2010	NN	O	O
 ;	NN	O	O
+
 Kadlec	NN	O	O
 and	NN	O	O
 Wallace	NN	O	O
@@ -18734,6 +19442,7 @@ Mitsch	NN	O	O
 2005	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -18761,6 +19470,7 @@ to	NN	O	O
 be	NN	O	O
 bidirectional	NN	O	O
 .	NN	O	O
+
 Such	NN	O	O
 interactions	NN	O	B-Task
 should	NN	O	I-Task
@@ -18798,6 +19508,7 @@ Liu	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 ,	NN	O	O
 2008	NN	O	O
 ;	NN	O	O
@@ -18820,6 +19531,7 @@ al	NN	O	O
 1998	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 WATFLOOD	NN	O	B-Process
@@ -18853,6 +19565,7 @@ Kouwen	NN	O	O
 2013	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Since	NN	O	O
 exchange	NN	O	O
 between	NN	O	O
@@ -18874,6 +19587,7 @@ Restrepo	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 1998	NN	O	O
 )	NN	O	O
@@ -18903,6 +19617,7 @@ MODFLOW	NN	O	B-Process
 model	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1364815216303243)
 
 Typical	NN	O	O
@@ -18926,6 +19641,7 @@ high	NN	O	O
 computational	NN	O	O
 resources	NN	O	O
 .	NN	O	O
+
 Many	NN	O	O
 of	NN	O	O
 these	NN	O	O
@@ -18952,6 +19668,7 @@ of	NN	O	I-Process
 the	NN	O	I-Process
 SWEs	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 reduction	NN	O	O
 is	NN	O	O
@@ -18972,6 +19689,7 @@ Hunter	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 ,	NN	O	O
 2007	NN	O	O
 ;	NN	O	O
@@ -18982,6 +19700,7 @@ Tsai	NN	O	O
 2001	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 JFLOW	NN	O	B-Process
 model	NN	O	O
@@ -19000,6 +19719,7 @@ Model	NN	O	I-Process
 (	NN	O	O
 UIM	NN	O	B-Process
 )	NN	O	O
+
 (	NN	O	O
 Chen	NN	O	O
 et	NN	O	O
@@ -19054,6 +19774,7 @@ Tsai	NN	O	O
 2001	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 inertial	NN	O	O
 version	NN	O	O
@@ -19077,6 +19798,7 @@ the	NN	O	O
 advection	NN	O	O
 term	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 either	NN	O	O
 version	NN	O	O
@@ -19093,6 +19815,7 @@ the	NN	O	O
 Cartesian	NN	O	B-Process
 directions	NN	O	I-Process
 .	NN	O	O
+
 Other	NN	O	O
 models	NN	O	O
 use	NN	O	O
@@ -19137,6 +19860,7 @@ al	NN	O	O
 2013	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 last	NN	O	O
 two	NN	O	O
@@ -19161,6 +19885,7 @@ public	NN	O	O
 domain	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1386505616301769)
 
 The	NN	O	O
@@ -19176,6 +19901,7 @@ are	NN	O	O
 widely	NN	O	O
 promoted	NN	O	O
 .	NN	O	O
+
 Increasingly	NN	O	O
 capable	NN	O	O
 health	NN	O	B-Task
@@ -19201,6 +19927,7 @@ communities	NN	O	O
 like	NN	O	O
 Kibera	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 available	NN	O	O
@@ -19237,6 +19964,7 @@ opportunistic	NN	O	O
 not	NN	O	O
 strategic	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 study	NN	O	O
 described	NN	O	O
@@ -19251,6 +19979,7 @@ urban	NN	O	O
 slum	NN	O	O
 clinics	NN	O	O
 .	NN	O	O
+
 They	NN	O	O
 shared	NN	O	O
 many	NN	O	O
@@ -19279,6 +20008,7 @@ in	NN	O	O
 like	NN	O	O
 communities	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 future	NN	O	O
 for	NN	O	O
@@ -19290,6 +20020,7 @@ slums	NN	O	O
 is	NN	O	O
 promising	NN	O	O
 .	NN	O	O
+
 Innovative	NN	O	O
 new	NN	O	O
 technologies	NN	O	O
@@ -19318,6 +20049,7 @@ infrastructure	NN	O	O
 is	NN	O	O
 wanting	NN	O	O
 .	NN	O	O
+
 New	NN	O	O
 cloud	NN	O	B-Process
 -	NN	O	I-Process
@@ -19355,6 +20087,7 @@ for	NN	O	O
 vulnerable	NN	O	O
 populations	NN	O	O
 .	NN	O	O
+
 Summary	NN	O	O
 pointsWhat	NN	O	O
 was	NN	O	O
@@ -19398,6 +20131,7 @@ care	NN	O	O
 system	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1574119211001544)
 
 As	NN	O	O
@@ -19413,6 +20147,7 @@ promote	NN	O	O
 two	NN	O	O
 items	NN	O	O
 .	NN	O	O
+
 Firstly	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -19458,6 +20193,7 @@ in	NN	O	O
 its	NN	O	O
 entirety	NN	O	O
 .	NN	O	O
+
 Further	NN	O	O
 insights	NN	O	O
 to	NN	O	O
@@ -19508,6 +20244,7 @@ specifically	NN	O	I-Process
 defined	NN	O	I-Process
 areas	NN	O	I-Process
 .	NN	O	O
+
 Secondly	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -19527,6 +20264,7 @@ across	NN	O	O
 the	NN	O	O
 network	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 push	NN	O	B-Process
 -	NN	O	I-Process
@@ -19552,6 +20290,7 @@ the	NN	O	O
 nodes’	NN	O	B-Material
 behaviour	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 vulnerability	NN	O	O
 (	NN	O	O
@@ -19576,13 +20315,14 @@ worth	NN	O	O
 exploring	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1574119215000796)
 
 The	NN	O	O
 proposed	NN	O	O
-multihop	NN	O	B-Process
-routing	NN	O	I-Process
-protocol	NN	O	I-Process
+multihop	NN	O	B-Task
+routing	NN	O	I-Task
+protocol	NN	O	I-Task
 ,	NN	O	O
 PHASeR	NN	O	B-Process
 ,	NN	O	O
@@ -19611,6 +20351,7 @@ of	NN	O	O
 multiple	NN	O	O
 routes	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 approach	NN	O	O
 requires	NN	O	O
@@ -19630,6 +20371,7 @@ a	NN	O	O
 dynamic	NN	O	O
 topology	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 literature	NN	O	O
 commonly	NN	O	O
@@ -19668,6 +20410,7 @@ dead	NN	O	O
 end	NN	O	O
 problem	NN	O	O
 .	NN	O	O
+
 PHASeR	NN	O	B-Process
 uses	NN	O	O
 a	NN	O	O
@@ -19692,6 +20435,7 @@ local	NN	O	O
 topology	NN	O	O
 information	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 facilitated	NN	O	O
@@ -19728,6 +20472,7 @@ decrease	NN	O	O
 packet	NN	O	B-Material
 latency	NN	O	I-Material
 .	NN	O	O
+
 PHASeR	NN	O	B-Process
 is	NN	O	O
 also	NN	O	O
@@ -19761,6 +20506,7 @@ volumes	NN	O	O
 of	NN	O	O
 traffic	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 utilises	NN	O	O
 node	NN	O	B-Process
@@ -19773,6 +20519,7 @@ multipath	NN	O	O
 routing	NN	O	O
 solution	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 such	NN	O	O
 ,	NN	O	O
@@ -19806,6 +20553,7 @@ mobile	NN	O	O
 situations	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1631070514000954)
 
 Superconductivity	NN	O	B-Task
@@ -19843,6 +20591,7 @@ in	NN	O	O
 9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 new	NN	O	O
 class	NN	O	O
@@ -19866,6 +20615,7 @@ superconductors	NN	O	I-Material
 10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Further	NN	O	O
 surprises	NN	O	O
 came	NN	O	O
@@ -19905,6 +20655,7 @@ neptunium	NN	O	B-Material
 ]	NN	O	O
 compounds	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 actinides	NN	O	B-Material
 (	NN	O	O
@@ -19937,6 +20688,7 @@ Lr	NN	O	B-Material
 )	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Transuranium	NN	O	B-Material
 elements	NN	O	I-Material
 (	NN	O	O
@@ -19978,6 +20730,7 @@ essentially	NN	O	O
 synthetic	NN	O	B-Material
 elements	NN	O	I-Material
 .	NN	O	O
+
 Above	NN	O	O
 Z=103	NN	O	O
 (	NN	O	O
@@ -19994,6 +20747,7 @@ superactinides	NN	O	B-Material
 )	NN	O	O
 elements	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 latter	NN	O	O
 elements	NN	O	O
@@ -20019,6 +20773,7 @@ matter	NN	O	I-Task
 properties	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S167420011300196X)
 
 PV	NN	O	B-Task
@@ -20040,6 +20795,7 @@ into	NN	O	I-Process
 electric	NN	O	I-Process
 power	NN	O	I-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 this	NN	O	O
@@ -20070,6 +20826,7 @@ and	NN	O	O
 energy	NN	O	O
 density	NN	O	O
 .	NN	O	O
+
 Theoretically	NN	O	O
 ,	NN	O	O
 there	NN	O	O
@@ -20094,6 +20851,7 @@ threshold	NN	O	O
 or	NN	O	O
 band	NN	O	O
 gap	NN	O	O
+
 Eg	NN	O	O
 :	NN	O	O
 (	NN	O	O
@@ -20186,6 +20944,7 @@ Henry	NN	O	O
 1980	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Taking	NN	O	O
 an	NN	O	O
 air	NN	O	O
@@ -20200,6 +20959,7 @@ for	NN	O	O
 different	NN	O	O
 band	NN	O	O
 gap	NN	O	O
+
 Eg	NN	O	O
 these	NN	O	O
 three	NN	O	O
@@ -20223,8 +20983,10 @@ S3	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 .	NN	O	O
+
 Note	NN	O	O
 that	NN	O	O
 the	NN	O	O
@@ -20253,6 +21015,7 @@ the	NN	O	O
 load	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1687850714000405)
 
 Xylanases	NN	O	B-Material
@@ -20263,6 +21026,7 @@ in	NN	O	O
 various	NN	O	O
 fields	NN	O	O
 .	NN	O	O
+
 Some	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -20272,6 +21036,7 @@ are	NN	O	O
 as	NN	O	O
 fallows	NN	O	O
 .	NN	O	O
+
 Xylanases	NN	O	B-Material
 are	NN	O	O
 used	NN	O	O
@@ -20285,6 +21050,7 @@ and	NN	O	I-Task
 paper	NN	O	I-Task
 industry	NN	O	I-Task
 .	NN	O	O
+
 Mostly	NN	O	O
 they	NN	O	O
 are	NN	O	O
@@ -20315,6 +21081,7 @@ Puls	NN	O	O
 1994	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 also	NN	O	O
 helps	NN	O	O
@@ -20345,6 +21112,7 @@ Archibald	NN	O	O
 1989	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 bakeries	NN	O	O
 the	NN	O	O
@@ -20378,6 +21146,7 @@ Saddler	NN	O	O
 1992	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Xylanases	NN	O	B-Material
 also	NN	O	O
 have	NN	O	O
@@ -20388,6 +21157,7 @@ animal	NN	O	B-Task
 feed	NN	O	I-Task
 industry	NN	O	I-Task
 .	NN	O	O
+
 They	NN	O	O
 are	NN	O	O
 used	NN	O	O
@@ -20416,6 +21186,7 @@ Headon	NN	O	O
 1993	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Xylanases	NN	O	B-Material
 also	NN	O	O
 play	NN	O	O
@@ -20500,6 +21271,7 @@ Saddler	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1746809416300933)
 
 ObjectiveElectrically	NN	O	B-Material
@@ -20541,6 +21313,7 @@ implant	NN	O	I-Process
 CI	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
+
 EASSRs	NN	O	B-Material
 could	NN	O	O
 potentially	NN	O	O
@@ -20551,6 +21324,7 @@ objective	NN	O	O
 CI	NN	O	B-Process
 fitting	NN	O	I-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 EEG	NN	O	B-Process
@@ -20562,6 +21336,7 @@ electrical	NN	O	O
 CI	NN	O	B-Process
 artifacts	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -20595,6 +21370,7 @@ artifact	NN	O	I-Process
 is	NN	O	O
 successful	NN	O	O
 .	NN	O	O
+
 MethodsCI	NN	O	O
 artifacts	NN	O	O
 were	NN	O	O
@@ -20609,6 +21385,7 @@ functions	NN	O	O
 and	NN	O	O
 duration	NN	O	O
 .	NN	O	O
+
 ResultsCI	NN	O	B-Process
 artifact	NN	O	I-Process
 durations	NN	O	O
@@ -20623,6 +21400,7 @@ contralateral	NN	O	B-Process
 recording	NN	O	I-Process
 electrodes	NN	O	I-Process
 .	NN	O	O
+
 At	NN	O	O
 ipsilateral	NN	O	B-Process
 recording	NN	O	I-Process
@@ -20640,6 +21418,7 @@ larger	NN	O	O
 than	NN	O	O
 2ms	NN	O	O
 .	NN	O	O
+
 ConclusionAt	NN	O	O
 contralateral	NN	O	B-Process
 recording	NN	O	I-Process
@@ -20667,6 +21446,7 @@ case	NN	O	O
 for	NN	O	O
 900pps	NN	O	O
 .	NN	O	O
+
 SignificanceCI	NN	O	B-Process
 artifact	NN	O	I-Process
 -	NN	O	O
@@ -20682,6 +21462,7 @@ and	NN	O	O
 neuroscience	NN	O	B-Task
 research	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 CI	NN	O	B-Process
 artifact	NN	O	I-Process
@@ -20705,6 +21486,7 @@ at	NN	O	O
 500pps	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1877750311000676)
 
 One	NN	O	O
@@ -20727,6 +21509,7 @@ lane	NN	O	B-Task
 selection	NN	O	I-Task
 policy	NN	O	I-Task
 .	NN	O	O
+
 VISSIM	NN	O	B-Process
 ,	NN	O	O
 along	NN	O	O
@@ -20753,6 +21536,7 @@ down	NN	O	O
 unique	NN	O	O
 routes	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 a	NN	O	O
@@ -20769,6 +21553,7 @@ around	NN	O	O
 a	NN	O	O
 simulation	NN	O	B-Process
 .	NN	O	O
+
 While	NN	O	O
 these	NN	O	O
 methods	NN	O	O
@@ -20806,6 +21591,7 @@ at	NN	O	O
 precise	NN	O	O
 locations	NN	O	O
 .	NN	O	O
+
 So	NN	O	O
 in	NN	O	O
 this	NN	O	O
@@ -20834,6 +21620,7 @@ the	NN	O	O
 respective	NN	O	O
 probabilities	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 turns	NN	O	O
 out	NN	O	O
@@ -20877,9 +21664,11 @@ runs	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 7	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 One	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -20913,8 +21702,10 @@ highlight	NN	O	O
 unrealistic	NN	O	O
 behaviour	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 7	NN	O	O
 shows	NN	O	O
 the	NN	O	O
@@ -20928,6 +21719,7 @@ for	NN	O	O
 different	NN	O	O
 runs	NN	O	O
 .	NN	O	O
+
 Using	NN	O	O
 probabilistic	NN	O	B-Process
 routing	NN	O	I-Process
@@ -20947,6 +21739,7 @@ simulation	NN	O	B-Process
 brittleness	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1877750313000240)
 
 A	NN	O	O
@@ -20964,6 +21757,7 @@ to	NN	O	O
 this	NN	O	O
 work	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 include	NN	O	O
 a	NN	O	O
@@ -21003,6 +21797,7 @@ solvers	NN	O	I-Process
 22,23	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 performance	NN	O	B-Process
 prediction	NN	O	I-Process
@@ -21037,6 +21832,7 @@ the	NN	O	O
 LB	NN	O	B-Process
 simulations	NN	O	I-Process
 .	NN	O	O
+
 Mazzeo	NN	O	O
 and	NN	O	O
 Coveney	NN	O	O
@@ -21053,6 +21849,7 @@ version	NN	O	O
 of	NN	O	O
 HemeLB	NN	O	B-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -21122,6 +21919,7 @@ inner	NN	O	O
 loops	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S187775031300077X)
 
 Although	NN	O	O
@@ -21151,6 +21949,7 @@ extended	NN	O	I-Task
 dynamical	NN	O	I-Task
 systems	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 part	NN	O	O
 ,	NN	O	O
@@ -21162,6 +21961,7 @@ their	NN	O	O
 staggering	NN	O	O
 complexity	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Liley	NN	O	B-Process
 model	NN	O	I-Process
@@ -21202,6 +22002,7 @@ mean	NN	O	O
 synaptic	NN	O	B-Material
 inputs	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 model	NN	O	O
 can	NN	O	O
@@ -21247,6 +22048,7 @@ references	NN	O	O
 therein	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -21303,6 +22105,7 @@ grown	NN	O	O
 human	NN	O	O
 cortex	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 also	NN	O	O
 need	NN	O	O
@@ -21319,6 +22122,7 @@ large	NN	O	I-Task
 sparse	NN	O	I-Task
 matrices	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -21344,6 +22148,7 @@ PETSc	NN	O	B-Material
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Our	NN	O	O
 implementation	NN	O	O
 consists	NN	O	O
@@ -21363,6 +22168,7 @@ publicly	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1877750313001269)
 
 While	NN	O	O
@@ -21398,6 +22204,7 @@ performance	NN	O	I-Task
 computing	NN	O	I-Task
 scenarios	NN	O	I-Task
 .	NN	O	O
+
 As	NN	O	O
 its	NN	O	O
 name	NN	O	O
@@ -21413,6 +22220,7 @@ from	NN	O	O
 computing	NN	O	O
 platforms	NN	O	O
 .	NN	O	O
+
 Extra	NN	O	O
 software	NN	O	O
 layers	NN	O	O
@@ -21441,6 +22249,7 @@ metal’	NN	O	O
 as	NN	O	O
 possible	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 to	NN	O	O
@@ -21466,6 +22275,7 @@ itself	NN	O	O
 very	NN	O	O
 important	NN	O	O
 .	NN	O	O
+
 Grid	NN	O	B-Process
 and	NN	O	I-Process
 cloud	NN	O	I-Process
@@ -21475,6 +22285,7 @@ different	NN	O	O
 interaction	NN	O	B-Process
 models	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 grid	NN	O	B-Process
 computing	NN	O	I-Process
@@ -21502,6 +22313,7 @@ a	NN	O	O
 queuing	NN	O	B-Process
 system	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 cloud	NN	O	B-Process
 computing	NN	O	I-Process
@@ -21526,6 +22338,7 @@ complete	NN	O	O
 operating	NN	O	O
 system	NN	O	O
 .	NN	O	O
+
 Both	NN	O	O
 of	NN	O	O
 these	NN	O	O
@@ -21581,6 +22394,7 @@ the	NN	O	O
 pathway	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1877750315000460)
 
 FabHemeLB	NN	O	B-Material
@@ -21600,6 +22414,7 @@ ensemble	NN	O	I-Task
 simulation	NN	O	I-Task
 workflows	NN	O	I-Task
 .	NN	O	O
+
 FabHemeLB	NN	O	B-Material
 is	NN	O	O
 an	NN	O	O
@@ -21616,6 +22431,7 @@ handle	NN	O	O
 HemeLB	NN	O	B-Material
 operations	NN	O	O
 .	NN	O	O
+
 Both	NN	O	O
 FabSim	NN	O	B-Material
 and	NN	O	O
@@ -21634,6 +22450,7 @@ on	NN	O	I-Task
 remote	NN	O	I-Task
 resources	NN	O	I-Task
 .	NN	O	O
+
 FabHemeLB	NN	O	B-Material
 can	NN	O	O
 be	NN	O	O
@@ -21663,6 +22480,7 @@ curate	NN	O	I-Process
 simulation	NN	O	I-Process
 data	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 can	NN	O	O
 also	NN	O	O
@@ -21689,6 +22507,7 @@ completing	NN	O	O
 a	NN	O	O
 simulation	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 tool	NN	O	O
 is	NN	O	O
@@ -21721,6 +22540,7 @@ one	NN	O	I-Process
 line	NN	O	I-Process
 commands	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 general	NN	O	O
 ,	NN	O	O
@@ -21733,6 +22553,7 @@ following	NN	O	O
 structure	NN	O	O
 :	NN	O	O
 
+
 -DOCSTART- (S2212671612000431)
 
 In	NN	O	O
@@ -21760,6 +22581,7 @@ platform	NN	O	I-Material
 is	NN	O	O
 presented	NN	O	O
 .	NN	O	O
+
 First	NN	O	O
 ,	NN	O	O
 face	NN	O	O
@@ -21774,6 +22596,7 @@ using	NN	O	O
 AdaBoost	NN	O	B-Process
 algorithm	NN	O	I-Process
 .	NN	O	O
+
 Second	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -21796,6 +22619,7 @@ normalization	NN	O	I-Task
 illumination	NN	O	I-Task
 normalization	NN	O	I-Task
 .	NN	O	O
+
 During	NN	O	O
 the	NN	O	O
 face	NN	O	B-Task
@@ -21817,6 +22641,7 @@ proposed	NN	O	O
 and	NN	O	O
 implemented	NN	O	O
 .	NN	O	O
+
 Last	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -21827,6 +22652,7 @@ adopted	NN	O	O
 for	NN	O	O
 recognition	NN	O	B-Task
 .	NN	O	O
+
 Although	NN	O	O
 the	NN	O	O
 computational	NN	O	O
@@ -21850,6 +22676,7 @@ rate	NN	O	O
 and	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 in	NN	O	O
 pressIn	NN	O	O
 this	NN	O	O
@@ -21876,6 +22703,7 @@ platform	NN	O	I-Material
 is	NN	O	O
 presented	NN	O	O
 .	NN	O	O
+
 First	NN	O	O
 ,	NN	O	O
 face	NN	O	O
@@ -21890,6 +22718,7 @@ using	NN	O	O
 AdaBoost	NN	O	B-Process
 algorithm	NN	O	I-Process
 .	NN	O	O
+
 Second	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -21912,6 +22741,7 @@ normalization	NN	O	I-Task
 illumination	NN	O	B-Task
 normalization	NN	O	I-Task
 .	NN	O	O
+
 During	NN	O	O
 the	NN	O	O
 face	NN	O	O
@@ -21933,6 +22763,7 @@ proposed	NN	O	O
 and	NN	O	O
 implemented	NN	O	O
 .	NN	O	O
+
 Last	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -21943,6 +22774,7 @@ adopted	NN	O	O
 for	NN	O	O
 recognition	NN	O	B-Process
 .	NN	O	O
+
 Although	NN	O	O
 the	NN	O	O
 computational	NN	O	O
@@ -21966,9 +22798,11 @@ rate	NN	O	O
 and	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 in	NN	O	O
 press	NN	O	O
 
+
 -DOCSTART- (S2212671612000741)
 
 A	NN	O	O
@@ -21991,6 +22825,7 @@ method	NN	O	O
 is	NN	O	O
 proposed	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 model	NN	O	O
@@ -22053,6 +22888,7 @@ alignments	NN	O	O
 by	NN	O	O
 KEMM	NN	O	B-Process
 .	NN	O	O
+
 Experimental	NN	O	O
 results	NN	O	O
 illustrated	NN	O	O
@@ -22084,6 +22920,7 @@ rate	NN	O	O
 decreasing	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S221267161400105X)
 
 In	NN	O	O
@@ -22100,6 +22937,7 @@ methods	NN	O	I-Task
 is	NN	O	O
 presented	NN	O	O
 .	NN	O	O
+
 Scale	NN	O	B-Process
 -	NN	O	I-Process
 invariant	NN	O	I-Process
@@ -22114,6 +22952,7 @@ the	NN	O	O
 first	NN	O	O
 method	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Speeded	NN	O	B-Process
 up	NN	O	I-Process
@@ -22128,6 +22967,7 @@ presented	NN	O	O
 as	NN	O	O
 second	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 two	NN	O	O
 methods	NN	O	O
@@ -22139,6 +22979,7 @@ of	NN	O	O
 depth	NN	O	B-Material
 maps	NN	O	I-Material
 .	NN	O	O
+
 Ten	NN	O	O
 defined	NN	O	O
 gestures	NN	O	O
@@ -22151,6 +22992,7 @@ these	NN	O	O
 depth	NN	O	O
 maps	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Microsoft	NN	O	B-Process
 Kinect	NN	O	I-Process
@@ -22165,6 +23007,7 @@ images	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Support	NN	O	B-Process
 vector	NN	O	I-Process
@@ -22179,6 +23022,7 @@ as	NN	O	O
 classification	NN	O	B-Process
 method	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 are	NN	O	O
@@ -22191,6 +23035,7 @@ selected	NN	O	O
 images	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S221450951400014X)
 
 This	NN	O	O
@@ -22220,6 +23065,7 @@ waste	NN	O	B-Material
 glass	NN	O	I-Material
 cullet	NN	O	I-Material
 .	NN	O	O
+
 As	NN	O	O
 the	NN	O	O
 percentage	NN	O	O
@@ -22239,6 +23085,7 @@ asphalt	NN	O	I-Material
 increases	NN	O	O
 too	NN	O	O
 .	NN	O	O
+
 But	NN	O	O
 with	NN	O	O
 pass	NN	O	O
@@ -22255,6 +23102,7 @@ asphaltic	NN	O	B-Material
 samples	NN	O	I-Material
 decrease	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 trend	NN	O	O
 in	NN	O	O
@@ -22267,6 +23115,7 @@ content	NN	O	O
 is	NN	O	O
 existing	NN	O	O
 .	NN	O	O
+
 Due	NN	O	O
 to	NN	O	O
 that	NN	O	O
@@ -22301,6 +23150,7 @@ of	NN	O	O
 bitumen	NN	O	B-Material
 content	NN	O	O
 .	NN	O	O
+
 Glass	NN	O	B-Material
 particles	NN	O	I-Material
 do	NN	O	O
@@ -22326,10 +23176,12 @@ of	NN	O	O
 glass	NN	O	B-Material
 cullet	NN	O	I-Material
 .	NN	O	O
+
 According	NN	O	O
 to	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 2	NN	O	O
 and	NN	O	O
 the	NN	O	O
@@ -22356,6 +23208,7 @@ waste	NN	O	B-Material
 glass	NN	O	I-Material
 cullet	NN	O	I-Material
 .	NN	O	O
+
 As	NN	O	O
 the	NN	O	O
 percentage	NN	O	O
@@ -22386,6 +23239,7 @@ waste	NN	O	B-Material
 glass	NN	O	I-Material
 cullet	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 stiffness	NN	O	B-Process
 modulus	NN	O	I-Process
@@ -22415,6 +23269,7 @@ glass	NN	O	B-Material
 cullet	NN	O	I-Material
 content	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 increase	NN	O	O
 in	NN	O	O
@@ -22449,6 +23304,7 @@ waste	NN	O	B-Material
 glass	NN	O	I-Material
 cullet	NN	O	I-Material
 .	NN	O	O
+
 But	NN	O	O
 as	NN	O	O
 the	NN	O	O
@@ -22472,6 +23328,7 @@ particles	NN	O	O
 on	NN	O	O
 together	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 stiffness	NN	O	B-Process
 modulus	NN	O	I-Process
@@ -22486,6 +23343,7 @@ glass	NN	O	B-Material
 cullet	NN	O	I-Material
 increases	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 variations	NN	O	O
 in	NN	O	O
@@ -22511,6 +23369,8 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3	NN	O	O
 .	NN	O	O
 
+
diff --git a/data/ner/semeval2017/train.txt b/data/ner/semeval2017/train.txt
index 9eac1ba..2bf6e2a 100644
--- a/data/ner/semeval2017/train.txt
+++ b/data/ner/semeval2017/train.txt
@@ -37,6 +37,7 @@ liquids	NN	O	I-Material
 15,16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 There	NN	O	O
 were	NN	O	O
 attempts	NN	O	O
@@ -61,6 +62,7 @@ correlations	NN	O	I-Process
 17,18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Still	NN	O	O
 ,	NN	O	O
 no	NN	O	O
@@ -84,6 +86,7 @@ attempts	NN	O	O
 19,20,10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 field	NN	O	B-Task
 of	NN	O	I-Task
@@ -109,6 +112,7 @@ and	NN	O	O
 imaging	NN	O	B-Process
 techniques	NN	O	I-Process
 .	NN	O	O
+
 Semiclassical	NN	O	O
 approaches	NN	O	O
 were	NN	O	O
@@ -132,6 +136,7 @@ describe	NN	O	I-Process
 dynamical	NN	O	I-Process
 processes	NN	O	I-Process
 .	NN	O	I-Process
+
 But	NN	O	O
 such	NN	O	O
 approaches	NN	O	O
@@ -154,6 +159,7 @@ justifying	NN	O	O
 semiclassical	NN	O	O
 approximations	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 case	NN	O	O
 of	NN	O	O
@@ -166,6 +172,7 @@ the	NN	O	O
 much	NN	O	O
 celebrated	NN	O	O
 C60	NN	O	B-Material
+
 [	NN	O	O
 4,23	NN	O	O
 ]	NN	O	O
@@ -177,6 +184,7 @@ treated	NN	O	O
 this	NN	O	O
 way	NN	O	O
 .	NN	O	O
+
 Semi	NN	O	O
 classical	NN	O	O
 ,	NN	O	O
@@ -200,10 +208,12 @@ very	NN	O	B-Process
 intense	NN	O	I-Process
 laser	NN	O	I-Process
 pulses	NN	O	I-Process
+
 [	NN	O	O
 2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 such	NN	O	O
 cases	NN	O	O
@@ -224,6 +234,7 @@ not	NN	O	O
 matter	NN	O	O
 anymore	NN	O	O
 .	NN	O	O
+
 But	NN	O	O
 for	NN	O	O
 less	NN	O	O
@@ -239,6 +250,7 @@ be	NN	O	O
 ignored	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0003491615001505)
 
 The	NN	O	O
@@ -254,6 +266,7 @@ the	NN	O	O
 Dirac	NN	O	B-Process
 equation	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	B-Process
 Creutz	NN	O	I-Process
 model	NN	O	I-Process
@@ -294,6 +307,7 @@ space	NN	O	O
 time	NN	O	O
 continuum	NN	O	O
 .	NN	O	O
+
 Recall	NN	O	O
 that	NN	O	O
 up	NN	O	O
@@ -315,6 +329,7 @@ is	NN	O	O
 explicitly	NN	O	O
 discrete	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 Section	NN	O	O
 2.4	NN	O	O
@@ -344,6 +359,7 @@ space	NN	O	I-Material
 -	NN	O	I-Material
 time	NN	O	I-Material
 .	NN	O	O
+
 Of	NN	O	O
 course	NN	O	O
 ,	NN	O	O
@@ -385,6 +401,7 @@ on	NN	O	O
 a	NN	O	O
 lattice	NN	O	B-Material
 .	NN	O	O
+
 Therefore	NN	O	O
 it	NN	O	O
 seems	NN	O	O
@@ -419,6 +436,7 @@ corresponding	NN	O	O
 lattice	NN	O	B-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 An	NN	O	O
 in	NN	O	O
 -	NN	O	O
@@ -449,6 +467,7 @@ future	NN	O	B-Task
 research	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0003491615001955)
 
 A	NN	O	O
@@ -478,6 +497,7 @@ but	NN	O	O
 one	NN	O	O
 example	NN	O	O
 .	NN	O	O
+
 Fermionic	NN	O	B-Process
 fields	NN	O	I-Process
 such	NN	O	O
@@ -511,6 +531,7 @@ in	NN	O	O
 some	NN	O	O
 way	NN	O	O
 .	NN	O	O
+
 Such	NN	O	O
 effects	NN	O	O
 were	NN	O	O
@@ -540,6 +561,7 @@ nucleon	NN	O	I-Task
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 bag	NN	O	O
@@ -559,6 +581,7 @@ describing	NN	O	I-Task
 confined	NN	O	I-Task
 quarks	NN	O	I-Task
 .	NN	O	O
+
 These	NN	O	O
 quarks	NN	O	O
 are	NN	O	O
@@ -581,6 +604,7 @@ nucleon	NN	O	O
 ’s	NN	O	O
 surface	NN	O	O
 .	NN	O	O
+
 Just	NN	O	O
 as	NN	O	O
 in	NN	O	O
@@ -609,10 +633,12 @@ of	NN	O	O
 a	NN	O	O
 Casimir	NN	O	B-Task
 force	NN	O	I-Task
+
 [	NN	O	O
 14–18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 force	NN	O	O
 ,	NN	O	O
@@ -637,6 +663,7 @@ in	NN	O	O
 nuclear	NN	O	B-Task
 physics	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 therefore	NN	O	O
 has	NN	O	O
@@ -656,6 +683,7 @@ nucleon	NN	O	I-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0009261409006666)
 
 We	NN	O	O
@@ -677,6 +705,7 @@ Ni(II)–OEP	NN	O	B-Material
 and	NN	O	O
 Co(II)–OEP	NN	O	B-Material
 .	NN	O	O
+
 Increased	NN	O	B-Task
 degree	NN	O	I-Task
 of	NN	O	I-Task
@@ -712,6 +741,7 @@ photon	NN	O	I-Process
 echo	NN	O	I-Process
 signals	NN	O	I-Process
 .	NN	O	O
+
 By	NN	O	O
 varying	NN	O	B-Process
 the	NN	O	I-Process
@@ -732,6 +762,7 @@ photon	NN	O	B-Material
 echo	NN	O	I-Material
 spectra	NN	O	I-Material
 .	NN	O	O
+
 Time	NN	O	B-Material
 -	NN	O	I-Material
 integrated	NN	O	I-Material
@@ -743,6 +774,7 @@ two	NN	O	O
 different	NN	O	O
 timescales	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 electronic	NN	O	B-Material
 relaxation	NN	O	I-Material
@@ -785,6 +817,7 @@ for	NN	O	I-Material
 Zn(II)–OEP	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0009261412006513)
 
 Water	NN	O	B-Material
@@ -816,6 +849,7 @@ research	NN	O	O
 1–9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Much	NN	O	O
 of	NN	O	O
 this	NN	O	O
@@ -848,6 +882,7 @@ two	NN	O	O
 distinct	NN	O	O
 components	NN	O	O
 .	NN	O	O
+
 One	NN	O	O
 major	NN	O	O
 development	NN	O	O
@@ -899,6 +934,7 @@ water	NN	O	B-Material
 2,10–12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 methods	NN	O	O
 can	NN	O	O
@@ -921,6 +957,7 @@ hydrogen	NN	O	B-Task
 bonding	NN	O	I-Task
 network	NN	O	I-Task
 .	NN	O	O
+
 Theoretical	NN	O	O
 studies	NN	O	O
 play	NN	O	O
@@ -954,6 +991,7 @@ the	NN	O	O
 underlying	NN	O	B-Task
 structure	NN	O	I-Task
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -1002,6 +1040,7 @@ and	NN	O	O
 line	NN	O	B-Task
 intensities	NN	O	I-Task
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 adequate	NN	O	B-Material
@@ -1017,6 +1056,7 @@ accounted	NN	O	O
 for	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0009261412012365)
 
 Under	NN	O	O
@@ -1045,6 +1085,7 @@ ionization	NN	O	I-Process
 30	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 two	NN	O	B-Process
 -	NN	O	I-Process
@@ -1073,6 +1114,7 @@ in	NN	O	O
 Figure	NN	O	O
 8a	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 fitting	NN	O	O
 of	NN	O	O
@@ -1099,6 +1141,7 @@ Levenberg	NN	O	I-Process
 Marquardt	NN	O	I-Process
 algorithm	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 best	NN	O	B-Process
 fit	NN	O	I-Process
@@ -1133,6 +1176,7 @@ and	NN	O	O
 ,	NN	O	O
 respectively	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 decay	NN	O	B-Task
 constants	NN	O	I-Task
@@ -1151,6 +1195,7 @@ norbornadiene	NN	O	B-Material
 22,23	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 transients	NN	O	O
 of	NN	O	O
@@ -1186,13 +1231,14 @@ not	NN	O	O
 that	NN	O	O
 of	NN	O	O
 the	NN	O	O
-parent	NN	O	B-Task
-ion	NN	O	I-Task
-fragmentation	NN	O	I-Task
+parent	NN	O	B-Process
+ion	NN	O	I-Process
+fragmentation	NN	O	I-Process
 [	NN	O	O
 24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Applying	NN	O	B-Process
 laser	NN	O	I-Process
 control	NN	O	I-Process
@@ -1223,6 +1269,7 @@ of	NN	O	I-Process
 DCPD	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0009261412013838)
 
 Experimental	NN	O	O
@@ -1262,6 +1309,7 @@ sub	NN	O	B-Process
 Ångstrom	NN	O	I-Process
 resolution	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 examples	NN	O	O
 include	NN	O	O
@@ -1306,6 +1354,7 @@ defect	NN	O	I-Process
 3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 AC	NN	O	O
 -	NN	O	O
@@ -1332,6 +1381,7 @@ nanoribbons	NN	O	I-Process
 from	NN	O	O
 molecular	NN	O	B-Material
 precursors	NN	O	I-Material
+
 [	NN	O	O
 4,5	NN	O	O
 ]	NN	O	O
@@ -1350,6 +1400,7 @@ sidewall	NN	O	I-Process
 6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Based	NN	O	O
 on	NN	O	O
 AC	NN	O	B-Process
@@ -1390,6 +1441,7 @@ proposed	NN	O	O
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 critical	NN	O	O
 step	NN	O	O
@@ -1434,6 +1486,7 @@ e	NN	O	I-Process
 beam	NN	O	I-Process
 )	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 subsequent	NN	O	B-Task
 formation	NN	O	I-Task
@@ -1469,6 +1522,7 @@ structure	NN	O	O
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 dynamic	NN	O	O
@@ -1504,6 +1558,7 @@ like	NN	O	I-Task
 structures	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0009261413006738)
 
 The	NN	O	O
@@ -1517,13 +1572,14 @@ tested	NN	O	O
 in	NN	O	O
 order	NN	O	O
 to	NN	O	O
-verify	NN	O	B-Process
-their	NN	O	I-Process
-validity	NN	O	I-Process
-for	NN	O	I-Process
-dynamical	NN	O	I-Process
-purposes	NN	O	I-Process
+verify	NN	O	B-Task
+their	NN	O	I-Task
+validity	NN	O	I-Task
+for	NN	O	I-Task
+dynamical	NN	O	I-Task
+purposes	NN	O	I-Task
 .	NN	O	O
+
 Such	NN	O	O
 tests	NN	O	O
 include	NN	O	O
@@ -1572,6 +1628,7 @@ of	NN	O	O
 same	NN	O	O
 symmetry	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 was	NN	O	O
 concluded	NN	O	O
@@ -1608,6 +1665,7 @@ lowest	NN	O	O
 adiabatic	NN	O	O
 PES	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 fact	NN	O	O
 ,	NN	O	O
@@ -1647,6 +1705,7 @@ in	NN	O	O
 this	NN	O	O
 case	NN	O	O
 .	NN	O	O
+
 Also	NN	O	O
 neglected	NN	O	O
 are	NN	O	O
@@ -1680,6 +1739,7 @@ spin	NN	O	O
 forbidden	NN	O	O
 character	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 should	NN	O	O
 also	NN	O	O
@@ -1706,6 +1766,7 @@ involved	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0009261413011111)
 
 The	NN	O	O
@@ -1722,6 +1783,7 @@ organic	NN	O	B-Task
 semiconductor	NN	O	I-Task
 photophysics	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 injection	NN	O	O
 of	NN	O	O
@@ -1751,6 +1813,7 @@ a	NN	O	O
 charged	NN	O	B-Material
 polaron	NN	O	I-Material
 .	NN	O	O
+
 Absorption	NN	O	O
 of	NN	O	O
 light	NN	O	O
@@ -1770,6 +1833,7 @@ organic	NN	O	I-Task
 optoelectronic	NN	O	I-Task
 devices	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 particularly	NN	O	O
@@ -1782,6 +1846,7 @@ electrically	NN	O	I-Task
 pumped	NN	O	I-Task
 lasers	NN	O	I-Task
 .	NN	O	O
+
 With	NN	O	O
 recent	NN	O	O
 advances	NN	O	O
@@ -1811,6 +1876,7 @@ by	NN	O	O
 inorganic	NN	O	B-Material
 laser	NN	O	I-Material
 diodes	NN	O	I-Material
+
 [	NN	O	O
 1–3	NN	O	O
 ]	NN	O	O
@@ -1839,6 +1905,7 @@ chemosensing	NN	O	B-Process
 5,6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 light	NN	O	B-Process
@@ -1862,6 +1929,7 @@ lasing	NN	O	I-Process
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Injected	NN	O	O
 charges	NN	O	O
 can	NN	O	O
@@ -1896,6 +1964,7 @@ as	NN	O	O
 in	NN	O	O
 lasers	NN	O	B-Material
 .	NN	O	O
+
 Absorption	NN	O	O
 cross	NN	O	O
 -	NN	O	O
@@ -1923,6 +1992,7 @@ into	NN	O	O
 the	NN	O	O
 film	NN	O	O
 .	NN	O	O
+
 Previous	NN	O	O
 studies	NN	O	O
 used	NN	O	O
@@ -1976,6 +2046,7 @@ three	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S000926141301539X)
 
 In	NN	O	O
@@ -1999,6 +2070,7 @@ developments	NN	O	O
 in	NN	O	O
 TST	NN	O	B-Material
 .	NN	O	O
+
 For	NN	O	O
 barrierless	NN	O	O
 systems	NN	O	O
@@ -2029,6 +2101,7 @@ space	NN	O	B-Material
 geometrical	NN	O	I-Material
 objects	NN	O	I-Material
 .	NN	O	O
+
 (	NN	O	O
 For	NN	O	O
 work	NN	O	O
@@ -2043,11 +2116,13 @@ OTS	NN	O	B-Material
 see	NN	O	O
 Refs	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 38–40	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 )	NN	O	O
+
 The	NN	O	O
 first	NN	O	O
 goal	NN	O	O
@@ -2072,6 +2147,7 @@ attached	NN	O	I-Material
 to	NN	O	I-Material
 NHIMs	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 second	NN	O	O
 and	NN	O	O
@@ -2093,6 +2169,7 @@ Chesnavich	NN	O	B-Process
 model	NN	O	I-Process
 Hamiltonian	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 associated	NN	O	B-Process
 potential	NN	O	I-Process
@@ -2121,6 +2198,7 @@ the	NN	O	I-Task
 roaming	NN	O	I-Task
 effect	NN	O	I-Task
 .	NN	O	O
+
 Based	NN	O	O
 on	NN	O	O
 our	NN	O	O
@@ -2158,6 +2236,7 @@ roaming	NN	O	O
 mechanism	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0009261415000974)
 
 Within	NN	O	O
@@ -2174,6 +2253,7 @@ very	NN	O	O
 simple	NN	O	O
 behaviour	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 result	NN	O	O
 is	NN	O	O
@@ -2214,6 +2294,7 @@ higher	NN	O	O
 energy	NN	O	O
 minima	NN	O	O
 .	NN	O	O
+
 Indeed	NN	O	O
 ,	NN	O	O
 cross	NN	O	B-Process
@@ -2261,6 +2342,7 @@ would	NN	O	O
 occur	NN	O	O
 at	NN	O	O
 1170K.	NN	O	O
+
 In	NN	O	O
 general	NN	O	O
 ,	NN	O	O
@@ -2279,6 +2361,7 @@ is(4)kBTxo	NN	O	O
 V1−V2ln((o2ν¯2κ)/(o1ν¯1κ)),from	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 3	NN	O	O
 )	NN	O	O
@@ -2296,6 +2379,7 @@ well	NN	O	I-Task
 entropy	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0009261415002730)
 
 Both	NN	O	O
@@ -2328,6 +2412,7 @@ in	NN	O	O
 Figure	NN	O	O
 5	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 there	NN	O	O
@@ -2344,6 +2429,7 @@ octyl	NN	O	B-Material
 side	NN	O	I-Material
 chains	NN	O	I-Material
 .	NN	O	O
+
 Whilst	NN	O	O
 for	NN	O	O
 the	NN	O	O
@@ -2388,6 +2474,7 @@ Figure	NN	O	O
 5A	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 rotation	NN	O	O
 angle	NN	O	O
@@ -2423,6 +2510,7 @@ Figure	NN	O	O
 5A	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Two	NN	O	O
 features	NN	O	O
 of	NN	O	O
@@ -2432,6 +2520,7 @@ conformation	NN	O	O
 are	NN	O	O
 interesting	NN	O	O
 .	NN	O	O
+
 First	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -2458,10 +2547,12 @@ MD	NN	O	I-Process
 and	NN	O	I-Process
 VASP	NN	O	I-Process
 calculations	NN	O	I-Process
+
 [	NN	O	O
 33	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Second	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -2484,6 +2575,7 @@ for	NN	O	O
 both	NN	O	O
 molecules	NN	O	O
 .	NN	O	O
+
 Interestingly	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -2516,6 +2608,7 @@ Figure	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S000926141500651X)
 
 Previous	NN	O	O
@@ -2540,6 +2633,7 @@ DSBs	NN	O	I-Process
 16,17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 γ-ray	NN	O	B-Process
 radiation	NN	O	I-Process
@@ -2578,6 +2672,7 @@ photon	NN	O	B-Material
 of	NN	O	I-Material
 γ-ray	NN	O	I-Material
 .	NN	O	O
+
 Whereas	NN	O	O
 photo	NN	O	B-Process
 -	NN	O	I-Process
@@ -2610,6 +2705,7 @@ single	NN	O	B-Process
 strand	NN	O	I-Process
 break	NN	O	I-Process
 .	NN	O	O
+
 Then	NN	O	O
 ,	NN	O	O
 when	NN	O	O
@@ -2638,6 +2734,7 @@ two	NN	O	B-Process
 step	NN	O	I-Process
 mechanism	NN	O	I-Process
 .	NN	O	O
+
 Summarizing	NN	O	O
 the	NN	O	O
 results	NN	O	O
@@ -2673,15 +2770,18 @@ ROS	NN	O	B-Material
 by	NN	O	O
 AA	NN	O	B-Material
 .	NN	O	O
+
 (	NN	O	O
 2	NN	O	O
 )	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 γ-ray	NN	O	B-Material
 induced	NN	O	I-Material
 DSB	NN	O	I-Material
 ,	NN	O	O
+
 the	NN	O	O
 protective	NN	O	O
 effect	NN	O	O
@@ -2699,6 +2799,7 @@ of	NN	O	O
 photo	NN	O	B-Process
 irradiation	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 may	NN	O	O
 be	NN	O	O
@@ -2716,6 +2817,7 @@ photon	NN	O	I-Material
 of	NN	O	I-Material
 γ-ray	NN	O	I-Material
 .	NN	O	O
+
 Surviving	NN	O	O
 oxygen	NN	O	O
 species	NN	O	O
@@ -2729,9 +2831,11 @@ may	NN	O	O
 cause	NN	O	O
 DSBs	NN	O	B-Material
 .	NN	O	O
+
 (	NN	O	O
 3	NN	O	O
 )	NN	O	O
+
 As	NN	O	O
 for	NN	O	O
 the	NN	O	O
@@ -2754,6 +2858,7 @@ cavitations	NN	O	B-Material
 18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -2777,6 +2882,7 @@ of	NN	O	O
 DSBs	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X12001163)
 
 In	NN	O	B-Process
@@ -2804,6 +2910,7 @@ a	NN	O	O
 diamond	NN	O	O
 finish	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 3	NN	O	O
 mm	NN	O	O
@@ -2813,16 +2920,18 @@ then	NN	O	O
 oxidised	NN	O	B-Process
 in	NN	O	O
 a	NN	O	O
-Philips	NN	O	B-Material
-XL-30	NN	O	I-Material
-FEG	NN	O	I-Material
-ESEM	NN	O	I-Material
+Philips	NN	O	O
+XL-30	NN	O	O
+
+FEG	NN	O	O
+ESEM	NN	O	O
 with	NN	O	O
 a	NN	O	O
 hot	NN	O	B-Material
 stage	NN	O	I-Material
 attachment	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 oxidising	NN	O	O
 atmosphere	NN	O	O
@@ -2837,6 +2946,7 @@ of	NN	O	O
 266	NN	O	O
 Pa	NN	O	O
 .	NN	O	O
+
 During	NN	O	O
 the	NN	O	O
 experiment	NN	O	O
@@ -2863,6 +2973,7 @@ secondary	NN	O	O
 electron	NN	O	O
 detector	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 sample	NN	O	O
 was	NN	O	O
@@ -2898,6 +3009,7 @@ and	NN	O	I-Process
 the	NN	O	I-Process
 microscope	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 sample	NN	O	O
 was	NN	O	O
@@ -2917,6 +3029,7 @@ same	NN	O	O
 heating	NN	O	O
 rate	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 total	NN	O	O
 time	NN	O	O
@@ -2939,6 +3052,7 @@ the	NN	O	O
 heating	NN	O	B-Material
 coils	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 samples	NN	O	O
 were	NN	O	O
@@ -2956,6 +3070,7 @@ gathered	NN	O	O
 using	NN	O	O
 EDS	NN	O	B-Material
 .	NN	O	O
+
 Cross	NN	O	O
 -	NN	O	O
 sections	NN	O	O
@@ -3009,6 +3124,7 @@ W	NN	O	I-Material
 filament	NN	O	I-Material
 TEM	NN	O	I-Material
 .	NN	O	O
+
 EDS	NN	O	B-Material
 maps	NN	O	O
 of	NN	O	O
@@ -3042,6 +3158,7 @@ voltage	NN	O	I-Process
 of	NN	O	I-Process
 30kV.	NN	O	I-Process
 
+
 -DOCSTART- (S0010938X12002508)
 
 The	NN	O	O
@@ -3104,6 +3221,7 @@ current	NN	O	I-Process
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 structures	NN	O	O
 had	NN	O	O
@@ -3124,6 +3242,7 @@ of	NN	O	O
 the	NN	O	O
 study	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 protective	NN	O	B-Process
 current	NN	O	I-Process
@@ -3149,6 +3268,7 @@ been	NN	O	O
 turned	NN	O	O
 off	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 develops	NN	O	B-Task
@@ -3193,6 +3313,7 @@ concrete	NN	O	I-Material
 structures	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X13002187)
 
 The	NN	O	O
@@ -3209,6 +3330,7 @@ in	NN	O	O
 this	NN	O	O
 study	NN	O	O
 .	NN	O	O
+
 Table	NN	O	O
 1	NN	O	O
 shows	NN	O	O
@@ -3221,6 +3343,7 @@ two	NN	O	O
 approaches	NN	O	O
 included	NN	O	O
 .	NN	O	O
+
 All	NN	O	O
 the	NN	O	O
 100h	NN	O	O
@@ -3243,6 +3366,7 @@ balance	NN	O	I-Process
 TGA	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 weight	NN	O	B-Material
 change	NN	O	I-Material
@@ -3259,6 +3383,7 @@ accommodate	NN	O	I-Process
 buoyancy	NN	O	I-Process
 effects	NN	O	I-Process
 .	NN	O	O
+
 All	NN	O	O
 other	NN	O	O
 tests	NN	O	O
@@ -3269,6 +3394,7 @@ horizontal	NN	O	B-Material
 tube	NN	O	I-Material
 furnaces	NN	O	I-Material
 .	NN	O	O
+
 For	NN	O	O
 these	NN	O	O
 latter	NN	O	O
@@ -3290,6 +3416,7 @@ furnaces	NN	O	B-Material
 at	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
+
 Intermittent	NN	O	O
 weighing	NN	O	O
 at	NN	O	O
@@ -3303,6 +3430,7 @@ the	NN	O	I-Task
 oxidation	NN	O	I-Task
 kinetics	NN	O	I-Task
 .	NN	O	O
+
 At	NN	O	O
 selected	NN	O	O
 time	NN	O	O
@@ -3330,6 +3458,7 @@ of	NN	O	O
 the	NN	O	O
 batch	NN	O	O
 .	NN	O	O
+
 Table	NN	O	B-Material
 1	NN	O	I-Material
 shows	NN	O	I-Material
@@ -3340,6 +3469,7 @@ chosen	NN	O	I-Material
 for	NN	O	I-Material
 examination	NN	O	I-Material
 .	NN	O	O
+
 At	NN	O	O
 600	NN	O	O
 °	NN	O	O
@@ -3362,6 +3492,7 @@ to	NN	O	O
 date	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X13005945)
 
 The	NN	O	O
@@ -3401,6 +3532,7 @@ indentor	NN	O	I-Material
 diameter	NN	O	I-Material
 )	NN	O	I-Material
 .	NN	O	O
+
 Six	NN	O	O
 scratch	NN	O	B-Process
 indentations	NN	O	I-Process
@@ -3421,6 +3553,7 @@ mode	NN	O	O
 4Nmin−1	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -3444,6 +3577,7 @@ mm	NN	O	O
 was	NN	O	O
 employed	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 scratch	NN	O	O
 tracks	NN	O	O
@@ -3471,6 +3605,7 @@ the	NN	O	I-Task
 coating	NN	O	I-Task
 failure	NN	O	I-Task
 .	NN	O	O
+
 During	NN	O	O
 the	NN	O	O
 scratch	NN	O	O
@@ -3496,6 +3631,7 @@ observed	NN	O	I-Process
 failure	NN	O	I-Process
 locations	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 surface	NN	O	B-Task
 roughness	NN	O	I-Task
@@ -3523,6 +3659,7 @@ standard	NN	O	O
 29	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Due	NN	O	O
 to	NN	O	O
 the	NN	O	O
@@ -3556,6 +3693,7 @@ mm	NN	O	O
 was	NN	O	O
 used	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 total	NN	O	O
 ,	NN	O	O
@@ -3569,6 +3707,7 @@ different	NN	O	O
 directions	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X14000420)
 
 One	NN	O	O
@@ -3593,11 +3732,13 @@ contamination	NN	O	O
 as	NN	O	O
 possible	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 as	NN	O	O
 follows	NN	O	O
 :	NN	O	O
+
 The	NN	O	O
 lead	NN	O	O
 surface	NN	O	O
@@ -3628,6 +3769,7 @@ fresh	NN	O	O
 metal	NN	O	B-Material
 surface	NN	O	I-Material
 .	NN	O	O
+
 Coupons	NN	O	O
 were	NN	O	O
 then	NN	O	O
@@ -3656,6 +3798,7 @@ diamond	NN	O	I-Material
 suspension	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 polishing	NN	O	B-Material
 cloth	NN	O	I-Material
@@ -3672,6 +3815,7 @@ appropriate	NN	O	O
 diamond	NN	O	B-Material
 suspension	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 custom	NN	O	B-Material
 -	NN	O	I-Material
@@ -3700,6 +3844,7 @@ during	NN	O	O
 automated	NN	O	B-Process
 polishing	NN	O	I-Process
 .	NN	O	O
+
 Coupons	NN	O	B-Material
 were	NN	O	O
 polished	NN	O	B-Process
@@ -3732,6 +3877,7 @@ an	NN	O	O
 ultrasonic	NN	O	B-Material
 bath	NN	O	I-Material
 .	NN	O	O
+
 After	NN	O	O
 polishing	NN	O	B-Process
 with	NN	O	O
@@ -3758,6 +3904,7 @@ each	NN	O	O
 cleaning	NN	O	B-Process
 cycle	NN	O	O
 .	NN	O	O
+
 Polished	NN	O	O
 coupons	NN	O	B-Material
 were	NN	O	O
@@ -3768,6 +3915,7 @@ until	NN	O	O
 required	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X1500195X)
 
 Poor	NN	O	O
@@ -3793,6 +3941,7 @@ temperature	NN	O	O
 structural	NN	O	O
 applications	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 demand	NN	O	O
 to	NN	O	O
@@ -3836,6 +3985,7 @@ alloys	NN	O	I-Task
 1–3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 attempt	NN	O	O
 to	NN	O	O
@@ -3876,6 +4026,7 @@ techniques	NN	O	I-Task
 1,4–6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 While	NN	O	O
 it	NN	O	O
 is	NN	O	O
@@ -3937,6 +4088,7 @@ observed	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X15002085)
 
 The	NN	O	O
@@ -3952,6 +4104,7 @@ and	NN	O	O
 surface	NN	O	O
 area	NN	O	O
 .	NN	O	O
+
 Artificially	NN	O	O
 changing	NN	O	O
 the	NN	O	O
@@ -3967,6 +4120,7 @@ calculated	NN	O	O
 oxide	NN	O	B-Material
 thickness	NN	O	O
 .	NN	O	O
+
 SEM	NN	O	B-Material
 images	NN	O	I-Material
 of	NN	O	O
@@ -3992,6 +4146,7 @@ in	NN	O	O
 applied	NN	O	O
 roughness	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 profile	NN	O	B-Material
 lengths	NN	O	O
@@ -4015,6 +4170,7 @@ the	NN	O	O
 surface	NN	O	B-Material
 area	NN	O	I-Material
 .	NN	O	O
+
 Table	NN	O	O
 1	NN	O	O
 shows	NN	O	O
@@ -4042,6 +4198,7 @@ the	NN	O	O
 percentage	NN	O	O
 difference	NN	O	O
 .	NN	O	O
+
 Results	NN	O	O
 show	NN	O	O
 a	NN	O	O
@@ -4063,6 +4220,7 @@ accounts	NN	O	O
 for	NN	O	O
 roughness	NN	O	O
 .	NN	O	O
+
 Comparing	NN	O	O
 the	NN	O	O
 change	NN	O	O
@@ -4082,6 +4240,7 @@ than	NN	O	O
 1	NN	O	O
 %	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 such	NN	O	O
 ,	NN	O	O
@@ -4105,6 +4264,7 @@ to	NN	O	O
 be	NN	O	O
 insignificant	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -4140,6 +4300,7 @@ of	NN	O	O
 oxidation	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X15002954)
 
 There	NN	O	O
@@ -4168,6 +4329,7 @@ growing	NN	O	O
 2D	NN	O	B-Material
 pits	NN	O	I-Material
 .	NN	O	O
+
 Frankel	NN	O	O
 presented	NN	O	O
 a	NN	O	O
@@ -4199,6 +4361,7 @@ alloy	NN	O	I-Material
 34	NN	O	O
 ]	NN	O	O
 and	NN	O	O
+
 Ni	NN	O	B-Material
 –	NN	O	I-Material
 Fe	NN	O	I-Material
@@ -4208,12 +4371,14 @@ Fe	NN	O	I-Material
 thin	NN	O	I-Material
 films	NN	O	I-Material
 .	NN	O	O
+
 Subsequently	NN	O	O
 ,	NN	O	O
 Ryan	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 27,36	NN	O	O
 ]	NN	O	O
@@ -4241,6 +4406,7 @@ edge	NN	O	I-Material
 movement	NN	O	O
 velocity	NN	O	O
 .	NN	O	O
+
 Ernst	NN	O	O
 and	NN	O	O
 Newman	NN	O	O
@@ -4277,6 +4443,7 @@ in	NN	O	O
 pencil	NN	O	I-Material
 electrodes	NN	O	I-Material
 .	NN	O	O
+
 They	NN	O	O
 developed	NN	O	O
 a	NN	O	O
@@ -4310,6 +4477,7 @@ within	NN	O	O
 the	NN	O	O
 pit	NN	O	B-Material
 .	NN	O	O
+
 More	NN	O	O
 recently	NN	O	O
 ,	NN	O	O
@@ -4339,6 +4507,7 @@ Co	NN	O	I-Material
 thin	NN	O	I-Material
 films	NN	O	I-Material
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 there	NN	O	O
@@ -4375,6 +4544,7 @@ recognised	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X15300512)
 
 Anodizing	NN	O	B-Process
@@ -4392,6 +4562,7 @@ corrosion	NN	O	B-Process
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resultant	NN	O	B-Material
 films	NN	O	I-Material
@@ -4425,6 +4596,7 @@ region	NN	O	O
 2,3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 porous	NN	O	O
 region	NN	O	O
@@ -4447,6 +4619,7 @@ the	NN	O	O
 barrier	NN	O	B-Material
 layer	NN	O	I-Material
 .	NN	O	O
+
 Near	NN	O	O
 the	NN	O	O
 film	NN	O	B-Material
@@ -4470,6 +4643,7 @@ stages	NN	O	I-Process
 of	NN	O	I-Process
 anodizing	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 diameter	NN	O	O
 of	NN	O	O
@@ -4503,6 +4677,7 @@ of	NN	O	O
 3,4	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Studies	NN	O	O
 of	NN	O	O
 ionic	NN	O	B-Task
@@ -4531,6 +4706,7 @@ of	NN	O	O
 5,6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 During	NN	O	O
 the	NN	O	O
 formation	NN	O	O
@@ -4566,6 +4742,7 @@ bases	NN	O	I-Material
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 electronic	NN	O	O
 current	NN	O	O
@@ -4580,6 +4757,7 @@ to	NN	O	O
 be	NN	O	O
 negligible	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 thickness	NN	O	O
 of	NN	O	O
@@ -4666,6 +4844,7 @@ walls	NN	O	I-Material
 9–13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 pores	NN	O	B-Material
 may	NN	O	O
@@ -4688,6 +4867,7 @@ anodizing	NN	O	O
 conditions	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X15301189)
 
 Failure	NN	O	B-Process
@@ -4719,6 +4899,7 @@ to	NN	O	O
 economic	NN	O	O
 performance	NN	O	O
 .	NN	O	O
+
 Stress	NN	O	B-Process
 corrosion	NN	O	I-Process
 cracking	NN	O	I-Process
@@ -4785,6 +4966,7 @@ PWR	NN	O	B-Material
 1–5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Stress	NN	O	B-Process
 corrosion	NN	O	I-Process
 cracking	NN	O	I-Process
@@ -4825,6 +5007,7 @@ mechanisms	NN	O	I-Material
 2,6,7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Understanding	NN	O	O
 the	NN	O	O
 mechanisms	NN	O	O
@@ -4855,6 +5038,7 @@ nuclear	NN	O	I-Task
 reactors	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0010938X1530161X)
 
 A	NN	O	O
@@ -4878,6 +5062,7 @@ small	NN	O	O
 inspected	NN	O	O
 area	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 area	NN	O	O
@@ -4904,6 +5089,7 @@ the	NN	O	I-Task
 smallest	NN	O	I-Task
 thicknesses	NN	O	I-Task
 .	NN	O	O
+
 An	NN	O	O
 inspector	NN	O	O
 can	NN	O	O
@@ -4928,6 +5114,7 @@ equally	NN	O	B-Material
 sized	NN	O	I-Material
 blocks	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 each	NN	O	O
 block	NN	O	B-Material
@@ -4937,6 +5124,7 @@ thickness	NN	O	O
 is	NN	O	O
 recorded	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 set	NN	O	O
 forms	NN	O	O
@@ -4948,6 +5136,7 @@ smallest	NN	O	O
 thickness	NN	O	O
 measurements	NN	O	O
 .	NN	O	O
+
 From	NN	O	O
 this	NN	O	O
 sample	NN	O	O
@@ -4969,6 +5158,7 @@ smallest	NN	O	I-Process
 thickness	NN	O	I-Process
 measurements	NN	O	I-Process
 .	NN	O	O
+
 Extreme	NN	O	B-Process
 value	NN	O	I-Process
 analysis	NN	O	I-Process
@@ -4983,6 +5173,7 @@ for	NN	O	O
 this	NN	O	O
 model	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 states	NN	O	O
 that	NN	O	O
@@ -5022,6 +5213,7 @@ GEVD	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021961413004321)
 
 The	NN	O	O
@@ -5040,6 +5232,7 @@ of	NN	O	O
 numerous	NN	O	O
 investigations	NN	O	O
 .	NN	O	O
+
 Brass	NN	O	B-Material
 is	NN	O	O
 characterised	NN	O	O
@@ -5059,6 +5252,7 @@ which	NN	O	O
 are	NN	O	O
 negative	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 enthalpic	NN	O	B-Material
 data	NN	O	I-Material
@@ -5103,6 +5297,7 @@ e.g.	NN	O	O
 7–9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 excess	NN	O	O
 entropy	NN	O	O
@@ -5116,6 +5311,7 @@ the	NN	O	I-Task
 configurational	NN	O	I-Task
 parts	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 excess	NN	O	O
 vibrational	NN	O	O
@@ -5142,9 +5338,11 @@ B	NN	O	O
 (	NN	O	O
 i.e.	NN	O	O
 ,	NN	O	O
-Smmechmix	NN	O	B-Material
-=	NN	O	I-Material
-XASmA+XBSmB	NN	O	I-Material
+Smmechmix	NN	O	O
+=	NN	O	O
+
+XASmA+XBSmB	NN	O	O
+
 )	NN	O	O
 ,	NN	O	O
 can	NN	O	O
@@ -5167,6 +5365,7 @@ versus	NN	O	I-Process
 composition	NN	O	I-Process
 behaviour	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 determination	NN	O	O
 of	NN	O	O
@@ -5195,6 +5394,7 @@ much	NN	O	O
 more	NN	O	O
 difficult	NN	O	O
 .	NN	O	O
+
 Here	NN	O	O
 ,	NN	O	O
 neutron	NN	O	B-Process
@@ -5208,6 +5408,7 @@ are	NN	O	O
 normally	NN	O	O
 used	NN	O	O
 .	NN	O	O
+
 If	NN	O	O
 ,	NN	O	O
 however	NN	O	O
@@ -5249,6 +5450,7 @@ simply	NN	O	O
 by	NN	O	O
 subtraction	NN	O	B-Process
 .	NN	O	O
+
 Since	NN	O	O
 configurational	NN	O	O
 and	NN	O	O
@@ -5269,6 +5471,7 @@ the	NN	O	I-Task
 entropic	NN	O	I-Task
 effects	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 one	NN	O	O
@@ -5277,6 +5480,7 @@ of	NN	O	O
 this	NN	O	O
 study	NN	O	O
 .	NN	O	O
+
 Another	NN	O	O
 aim	NN	O	O
 is	NN	O	O
@@ -5312,6 +5516,7 @@ on	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113002362)
 
 The	NN	O	O
@@ -5330,6 +5535,7 @@ binary	NN	O	B-Process
 collision	NN	O	I-Process
 approximation	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 uses	NN	O	O
 a	NN	O	O
@@ -5360,6 +5566,7 @@ to	NN	O	O
 Pauli	NN	O	B-Process
 blocking	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 not	NN	O	O
@@ -5386,6 +5593,7 @@ on	NN	O	O
 breaks	NN	O	O
 down	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 strong	NN	O	B-Task
 coupling	NN	O	I-Task
@@ -5403,6 +5611,7 @@ logarithm	NN	O	I-Process
 10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 code	NN	O	O
 is	NN	O	O
@@ -5421,6 +5630,7 @@ level	NN	O	O
 of	NN	O	O
 degeneracy	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 noted	NN	O	O
@@ -5455,6 +5665,7 @@ fully	NN	O	B-Material
 ionised	NN	O	I-Material
 plasmas	NN	O	I-Material
 .	NN	O	O
+
 Some	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -5483,6 +5694,7 @@ PIC	NN	O	O
 codes	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113003422)
 
 Similar	NN	O	O
@@ -5515,6 +5727,7 @@ second	NN	O	O
 derivatives	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -5561,6 +5774,7 @@ kernel	NN	O	B-Process
 interpolation	NN	O	I-Process
 functions	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -5584,6 +5798,7 @@ these	NN	O	I-Task
 spurious	NN	O	I-Task
 oscillations	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 kernel	NN	O	B-Process
 functions	NN	O	I-Process
@@ -5631,6 +5846,7 @@ when	NN	O	O
 computing	NN	O	O
 derivatives	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 Maple	NN	O	B-Material
 computer	NN	O	I-Material
@@ -5648,6 +5864,7 @@ new	NN	O	I-Task
 kernels	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113005603)
 
 After	NN	O	O
@@ -5673,6 +5890,7 @@ to	NN	O	O
 reduce	NN	O	B-Task
 noise	NN	O	I-Task
 .	NN	O	O
+
 Each	NN	O	O
 micro	NN	O	B-Material
 element	NN	O	I-Material
@@ -5700,6 +5918,7 @@ shear	NN	O	I-Task
 stress	NN	O	I-Task
 profiles	NN	O	I-Task
 .	NN	O	O
+
 Velocity	NN	O	O
 in	NN	O	O
 each	NN	O	O
@@ -5727,14 +5946,16 @@ is	NN	O	O
 measured	NN	O	O
 using	NN	O	O
 the	NN	O	O
-Irving	NN	O	B-Process
-–	NN	O	I-Process
-Kirkwood	NN	O	I-Process
-relationship	NN	O	I-Process
+Irving	NN	O	O
+–	NN	O	O
+
+Kirkwood	NN	O	O
+relationship	NN	O	O
 [	NN	O	O
 25	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 least	NN	O	B-Process
 -	NN	O	I-Process
@@ -5753,6 +5974,7 @@ reduce	NN	O	B-Process
 noise	NN	O	I-Process
 further	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 fit	NN	O	O
 produces	NN	O	O
@@ -5774,6 +5996,7 @@ the	NN	O	O
 macro	NN	O	B-Material
 solver	NN	O	I-Material
 .	NN	O	O
+
 A	NN	O	O
 least	NN	O	B-Process
 -	NN	O	I-Process
@@ -5818,7 +6041,9 @@ and(17)〈ui	NN	O	O
 ,	NN	O	O
 cs〉=∑k=1Mck	NN	O	O
 ,	NN	O	O
+
 iyi″(M−k),for	NN	O	O
+
 0⩽yi″⩽hcs	NN	O	O
 ,	NN	O	O
 where	NN	O	O
@@ -5846,6 +6071,7 @@ constrained	NN	O	B-Material
 region	NN	O	I-Material
 respectively	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 estimate	NN	O	O
 of	NN	O	O
@@ -5882,6 +6108,7 @@ at	NN	O	O
 yi′=0	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113005652)
 
 It	NN	O	O
@@ -5911,6 +6138,7 @@ B	NN	O	B-Material
 in	NN	O	O
 water	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 data	NN	O	O
 could	NN	O	O
@@ -5940,6 +6168,7 @@ the	NN	O	O
 chemical	NN	O	B-Process
 reaction	NN	O	I-Process
 .	NN	O	O
+
 Here	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -5954,6 +6183,7 @@ defined	NN	O	O
 by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 15	NN	O	O
 depicts	NN	O	O
 the	NN	O	O
@@ -5973,6 +6203,7 @@ bulk	NN	O	B-Material
 mean	NN	O	I-Material
 concentration	NN	O	I-Material
 CB⁎¯.	NN	O	B-Material
+
 It	NN	O	O
 is	NN	O	O
 worth	NN	O	O
@@ -6018,6 +6249,7 @@ at	NN	O	O
 the	NN	O	O
 interface	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 figure	NN	O	O
 indicates	NN	O	O
@@ -6050,6 +6282,7 @@ approximately	NN	O	O
 60	NN	O	O
 %	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 efficiency	NN	O	O
 of	NN	O	O
@@ -6082,6 +6315,7 @@ Reynolds	NN	O	O
 number	NN	O	O
 increases	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 need	NN	O	O
 an	NN	O	O
@@ -6121,6 +6355,7 @@ and	NN	O	I-Task
 water	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113005718)
 
 Numerical	NN	O	B-Process
@@ -6143,6 +6378,7 @@ however	NN	O	O
 extremely	NN	O	O
 challenging	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 because	NN	O	O
@@ -6197,6 +6433,7 @@ collisions	NN	O	I-Process
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 accurate	NN	O	O
 and	NN	O	O
@@ -6220,6 +6457,7 @@ DSMC	NN	O	B-Process
 2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 DSMC	NN	O	B-Process
@@ -6257,6 +6495,7 @@ cross	NN	O	O
 section	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 high	NN	O	B-Process
 -	NN	O	I-Process
@@ -6314,6 +6553,7 @@ network	NN	O	O
 simultaneously	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999113006955)
 
 The	NN	O	O
@@ -6347,6 +6587,7 @@ surface	NN	O	I-Material
 are	NN	O	O
 smooth	NN	O	O
 .	NN	O	O
+
 Errors	NN	O	O
 are	NN	O	O
 found	NN	O	O
@@ -6376,6 +6617,7 @@ spatial	NN	O	O
 discretisation	NN	O	O
 errors	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 smooth	NN	O	O
@@ -6419,6 +6661,7 @@ solution	NN	O	I-Task
 polynomial	NN	O	I-Task
 orders	NN	O	I-Task
 .	NN	O	O
+
 Increasing	NN	O	O
 the	NN	O	O
 order	NN	O	O
@@ -6431,6 +6674,7 @@ the	NN	O	I-Task
 geometric	NN	O	I-Task
 error	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 analytic	NN	O	O
 test	NN	O	O
@@ -6477,6 +6721,7 @@ the	NN	O	O
 solution	NN	O	O
 error	NN	O	O
 .	NN	O	O
+
 If	NN	O	O
 the	NN	O	O
 solution	NN	O	B-Material
@@ -6493,6 +6738,7 @@ see	NN	O	O
 rapid	NN	O	O
 convergence	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -6534,6 +6780,7 @@ with	NN	O	O
 element	NN	O	O
 boundaries	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 if	NN	O	O
@@ -6561,6 +6808,7 @@ not	NN	O	O
 be	NN	O	O
 captured	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 cardiac	NN	O	B-Task
@@ -6579,6 +6827,7 @@ be	NN	O	O
 smooth	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999114002587)
 
 Designers	NN	O	O
@@ -6608,6 +6857,7 @@ complex	NN	O	I-Task
 micro	NN	O	I-Task
 geometries	NN	O	I-Task
 .	NN	O	O
+
 Numerical	NN	O	B-Process
 simulation	NN	O	I-Process
 of	NN	O	O
@@ -6624,6 +6874,7 @@ however	NN	O	O
 extremely	NN	O	O
 challenging	NN	O	O
 .	NN	O	O
+
 Conventional	NN	O	B-Process
 continuum	NN	O	I-Process
 fluid	NN	O	I-Process
@@ -6662,6 +6913,7 @@ path	NN	O	O
 1,2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 When	NN	O	O
 λ/h≳0.1	NN	O	O
 ,	NN	O	O
@@ -6693,6 +6945,7 @@ of	NN	O	I-Material
 interacting	NN	O	I-Material
 particles	NN	O	I-Material
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -6755,6 +7008,7 @@ high	NN	O	O
 3,4	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 computational	NN	O	O
 intensity	NN	O	O
@@ -6793,6 +7047,7 @@ temperature	NN	O	I-Material
 gradients	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0021999114007396)
 
 In	NN	O	O
@@ -6831,6 +7086,7 @@ derivatives	NN	O	I-Process
 in	NN	O	I-Process
 time	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 complete	NN	O	O
 error	NN	O	O
@@ -6844,6 +7100,7 @@ scheme	NN	O	I-Process
 is	NN	O	O
 provided	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 theory	NN	O	O
 covers	NN	O	O
@@ -6861,6 +7118,7 @@ right	NN	O	O
 hand	NN	O	O
 side	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 analysis	NN	O	O
 relies	NN	O	O
@@ -6880,6 +7138,7 @@ fractional	NN	O	O
 diffusion	NN	O	O
 equation	NN	O	O
 .	NN	O	O
+
 Further	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -6901,6 +7160,7 @@ Caputo	NN	O	I-Process
 fractional	NN	O	I-Process
 derivatives	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 stability	NN	O	O
 and	NN	O	O
@@ -6921,6 +7181,7 @@ solution	NN	O	O
 is	NN	O	O
 smooth	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 extensive	NN	O	O
 numerical	NN	O	B-Process
@@ -6955,6 +7216,7 @@ nonsmooth	NN	O	O
 data	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999114007876)
 
 In	NN	O	O
@@ -6982,6 +7244,7 @@ equation	NN	O	I-Process
 was	NN	O	O
 studied	NN	O	O
 .	NN	O	O
+
 Light	NN	O	O
 propagation	NN	O	O
 in	NN	O	O
@@ -7022,6 +7285,7 @@ sub	NN	O	O
 -	NN	O	O
 domains	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resulting	NN	O	O
 coupled	NN	O	B-Process
@@ -7035,6 +7299,7 @@ using	NN	O	O
 the	NN	O	O
 FEM	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 proposed	NN	O	O
 model	NN	O	O
@@ -7054,6 +7319,7 @@ Monte	NN	O	I-Material
 Carlo	NN	O	I-Material
 method	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 show	NN	O	O
@@ -7074,6 +7340,7 @@ Monte	NN	O	B-Material
 Carlo	NN	O	I-Material
 method	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -7095,6 +7362,7 @@ of	NN	O	O
 scattered	NN	O	O
 light	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 indicates	NN	O	O
 that	NN	O	O
@@ -7124,6 +7392,7 @@ reconstruction	NN	O	I-Process
 procedure	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0021999114008432)
 
 The	NN	O	O
@@ -7172,6 +7441,7 @@ function	NN	O	I-Process
 27,28,46	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 numerical	NN	O	B-Material
 test	NN	O	I-Material
@@ -7214,6 +7484,7 @@ see	NN	O	O
 Section	NN	O	O
 4.3	NN	O	O
 .	NN	O	O
+
 Other	NN	O	B-Material
 recent	NN	O	I-Material
 studies	NN	O	I-Material
@@ -7258,6 +7529,7 @@ region	NN	O	O
 47	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Despite	NN	O	O
 their	NN	O	O
 approximate	NN	O	O
@@ -7290,6 +7562,7 @@ values	NN	O	O
 of	NN	O	O
 Lres	NN	O	O
 .	NN	O	O
+
 Due	NN	O	O
 to	NN	O	O
 the	NN	O	O
@@ -7310,6 +7583,7 @@ voltages	NN	O	I-Task
 VDS≠0	NN	O	O
 V.	NN	O	O
 
+
 -DOCSTART- (S0021999114008523)
 
 A	NN	O	O
@@ -7331,6 +7605,7 @@ a	NN	O	O
 hybrid’	NN	O	I-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 fluid	NN	O	B-Task
 dynamics	NN	O	I-Task
@@ -7381,6 +7656,7 @@ latter	NN	O	I-Task
 1–4	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 micro	NN	O	B-Process
 and	NN	O	I-Process
@@ -7436,6 +7712,7 @@ periods	NN	O	O
 are	NN	O	O
 intractable	NN	O	O
 .	NN	O	O
+
 If	NN	O	O
 the	NN	O	O
 system	NN	O	O
@@ -7479,10 +7756,12 @@ macro	NN	O	O
 scale	NN	O	O
 accuracy	NN	O	O
 .	NN	O	O
+
 E	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 5	NN	O	O
 ]	NN	O	O
@@ -7515,6 +7794,7 @@ Lockerby	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 6	NN	O	O
 ]	NN	O	O
@@ -7543,6 +7823,7 @@ interruption	NN	O	O
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -7562,6 +7843,7 @@ coupled	NN	O	I-Task
 models	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115000546)
 
 The	NN	O	O
@@ -7608,6 +7890,7 @@ of	NN	O	O
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 One	NN	O	O
 feature	NN	O	O
 of	NN	O	O
@@ -7632,6 +7915,7 @@ relaxational	NN	O	O
 phenomena	NN	O	O
 are	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resulting	NN	O	O
 PDEs	NN	O	B-Material
@@ -7640,6 +7924,7 @@ of	NN	O	O
 Allen	NN	O	O
 –	NN	O	O
 Cahn	NN	O	O
+
 [	NN	O	O
 9	NN	O	O
 ]	NN	O	O
@@ -7652,6 +7937,7 @@ type	NN	O	O
 10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 That	NN	O	O
 is	NN	O	O
 to	NN	O	O
@@ -7682,6 +7968,7 @@ free	NN	O	B-Process
 energy	NN	O	I-Process
 functional	NN	O	I-Process
 .	NN	O	O
+
 As	NN	O	O
 the	NN	O	O
 dendrite	NN	O	B-Material
@@ -7707,6 +7994,7 @@ from	NN	O	O
 the	NN	O	O
 dendrite	NN	O	B-Material
 .	NN	O	O
+
 Although	NN	O	O
 we	NN	O	O
 have	NN	O	O
@@ -7755,6 +8043,7 @@ melt	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115001412)
 
 Inspired	NN	O	O
@@ -7789,6 +8078,7 @@ developed	NN	O	O
 37,33	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 theory	NN	O	O
 models	NN	O	B-Process
@@ -7827,6 +8117,7 @@ energy	NN	O	O
 41,58	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 energy	NN	O	O
 -	NN	O	O
@@ -7843,6 +8134,7 @@ as	NN	O	O
 unit	NN	O	O
 vectors	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 average	NN	O	O
 of	NN	O	O
@@ -7871,6 +8163,7 @@ a	NN	O	O
 polarization	NN	O	B-Process
 field	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 polarization	NN	O	B-Process
 field	NN	O	I-Process
@@ -7894,6 +8187,7 @@ in	NN	O	O
 the	NN	O	O
 fluid	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 relationship	NN	O	O
 between	NN	O	O
@@ -7924,6 +8218,7 @@ consumption	NN	O	O
 of	NN	O	O
 energy	NN	O	O
 .	NN	O	O
+
 These	NN	O	B-Process
 equations	NN	O	I-Process
 ,	NN	O	I-Process
@@ -7958,6 +8253,7 @@ fluid	NN	O	I-Material
 37,33,32,41	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resulting	NN	O	O
 partial	NN	O	O
@@ -7981,6 +8277,7 @@ analytically	NN	O	O
 intractable	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115003459)
 
 The	NN	O	O
@@ -8014,6 +8311,7 @@ introduction	NN	O	O
 to	NN	O	O
 BEM	NN	O	B-Process
 .	NN	O	O
+
 First	NN	O	O
 of	NN	O	O
 all	NN	O	O
@@ -8045,6 +8343,7 @@ shape	NN	O	B-Process
 optimisation	NN	O	I-Process
 process	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 BEM	NN	O	B-Process
@@ -8063,6 +8362,7 @@ electrostatic	NN	O	B-Process
 field	NN	O	I-Process
 analysis	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 gradient	NN	O	B-Task
 -	NN	O	I-Task
@@ -8087,6 +8387,7 @@ needed	NN	O	O
 9–11	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 this	NN	O	O
 purpose	NN	O	O
@@ -8109,6 +8410,7 @@ problems	NN	O	I-Task
 with	NN	O	O
 BEM	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 associated	NN	O	O
 linear	NN	O	O
@@ -8139,6 +8441,7 @@ their	NN	O	O
 efficient	NN	O	O
 solution	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 some	NN	O	O
 recent	NN	O	O
@@ -8165,6 +8468,7 @@ to	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115003939)
 
 The	NN	O	O
@@ -8188,6 +8492,7 @@ on	NN	O	O
 unstructured	NN	O	B-Material
 meshes	NN	O	I-Material
 .	NN	O	O
+
 As	NN	O	O
 discussed	NN	O	O
 in	NN	O	O
@@ -8217,6 +8522,7 @@ meshes	NN	O	I-Material
 are	NN	O	O
 considered	NN	O	O
 .	NN	O	O
+
 Given	NN	O	O
 how	NN	O	O
 the	NN	O	O
@@ -8262,6 +8568,7 @@ as	NN	O	O
 explicit	NN	O	B-Process
 extrapolation	NN	O	I-Process
 .	NN	O	O
+
 Both	NN	O	O
 methods	NN	O	O
 precisely	NN	O	O
@@ -8295,6 +8602,7 @@ in	NN	O	O
 Section	NN	O	O
 3.2	NN	O	O
 .	NN	O	O
+
 Using	NN	O	O
 the	NN	O	O
 explicit	NN	O	B-Process
@@ -8316,6 +8624,7 @@ upwind	NN	O	O
 value	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115004301)
 
 A	NN	O	O
@@ -8349,6 +8658,7 @@ a	NN	O	O
 collocation	NN	O	B-Process
 method	NN	O	I-Process
 .	NN	O	O
+
 There	NN	O	O
 are	NN	O	O
 many	NN	O	O
@@ -8402,6 +8712,7 @@ Huynh	NN	O	O
 23	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 collocation	NN	O	B-Process
 methods	NN	O	I-Process
@@ -8433,6 +8744,7 @@ incur	NN	O	O
 numerical	NN	O	O
 error	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -8470,6 +8782,7 @@ is	NN	O	O
 incurred	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115007238)
 
 An	NN	O	O
@@ -8492,6 +8805,7 @@ the	NN	O	I-Process
 discretised	NN	O	I-Process
 bins	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 called	NN	O	O
@@ -8511,6 +8825,7 @@ in	NN	O	O
 48,49,20	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 In	NN	O	O
 the	NN	O	O
@@ -8526,6 +8841,7 @@ ray	NN	O	B-Task
 effect	NN	O	I-Task
 .	NN	O	O
 )	NN	O	O
+
 To	NN	O	O
 showcase	NN	O	O
 this	NN	O	O
@@ -8563,6 +8879,7 @@ d=10000	NN	O	O
 m	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 spatial	NN	O	B-Process
@@ -8585,10 +8902,12 @@ km	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 11(a	NN	O	O
 )	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 initial	NN	O	O
 wave	NN	O	B-Material
@@ -8628,10 +8947,12 @@ km	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 11(b	NN	O	O
 )	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Its	NN	O	O
 mean	NN	O	O
 direction	NN	O	O
@@ -8651,6 +8972,7 @@ frequency	NN	O	O
 of	NN	O	O
 0.1Hz	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 simulation	NN	O	B-Process
 is	NN	O	O
@@ -8671,6 +8993,7 @@ of	NN	O	O
 600s	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115008207)
 
 Multi	NN	O	B-Task
@@ -8691,6 +9014,7 @@ and	NN	O	I-Process
 industrial	NN	O	I-Process
 processes	NN	O	I-Process
 .	NN	O	O
+
 Broadly	NN	O	O
 these	NN	O	O
 may	NN	O	O
@@ -8750,6 +9074,7 @@ breakup	NN	O	I-Process
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 some	NN	O	O
 cases	NN	O	O
@@ -8774,6 +9099,7 @@ at	NN	O	O
 least	NN	O	O
 locally	NN	O	O
 .	NN	O	O
+
 Air	NN	O	B-Task
 entrainment	NN	O	I-Task
 ,	NN	O	O
@@ -8788,6 +9114,7 @@ an	NN	O	O
 obvious	NN	O	O
 example	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 consider	NN	O	O
 here	NN	O	O
@@ -8822,6 +9149,7 @@ be	NN	O	O
 considered	NN	O	O
 incompressible	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 interface	NN	O	O
 is	NN	O	O
@@ -8834,6 +9162,7 @@ distorted	NN	O	B-Process
 and	NN	O	I-Process
 interconnected	NN	O	I-Process
 .	NN	O	O
+
 Such	NN	O	O
 problems	NN	O	O
 have	NN	O	O
@@ -8862,6 +9191,7 @@ functions	NN	O	I-Process
 40	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 these	NN	O	O
@@ -8891,6 +9221,7 @@ conservation	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0021999115008256)
 
 This	NN	O	O
@@ -8920,6 +9251,7 @@ different	NN	O	O
 polynomial	NN	O	O
 orders	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 spectral	NN	O	O
 /	NN	O	O
@@ -8938,8 +9270,10 @@ in	NN	O	O
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Sec	NN	O	O
 .	NN	O	O
+
 2.1	NN	O	O
 describes	NN	O	O
 in	NN	O	O
@@ -8972,6 +9306,7 @@ can	NN	O	O
 be	NN	O	O
 obtained	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 inviscid	NN	O	B-Material
 case	NN	O	I-Material
@@ -8985,6 +9320,7 @@ addressed	NN	O	O
 in	NN	O	O
 Sec	NN	O	O
 .	NN	O	O
+
 2.2	NN	O	O
 ,	NN	O	O
 where	NN	O	O
@@ -9006,6 +9342,7 @@ in	NN	O	O
 9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 viscous	NN	O	B-Material
 case	NN	O	I-Material
@@ -9015,6 +9352,7 @@ considered	NN	O	O
 in	NN	O	O
 Sec	NN	O	O
 .	NN	O	O
+
 2.3	NN	O	O
 ,	NN	O	O
 where	NN	O	O
@@ -9036,6 +9374,7 @@ or	NN	O	O
 diffusion	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311511010014)
 
 Discovering	NN	O	O
@@ -9072,6 +9411,7 @@ to	NN	O	O
 pure	NN	O	O
 Pu	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 degree	NN	O	O
 to	NN	O	O
@@ -9104,6 +9444,7 @@ the	NN	O	O
 Ga	NN	O	B-Material
 atoms	NN	O	I-Material
 .	NN	O	O
+
 If	NN	O	O
 vacancies	NN	O	O
 and	NN	O	O
@@ -9132,6 +9473,7 @@ will	NN	O	O
 be	NN	O	O
 extended	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 viable	NN	O	O
@@ -9163,6 +9505,7 @@ PuGa	NN	O	I-Material
 11,12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 may	NN	O	O
 also	NN	O	O
@@ -9189,6 +9532,7 @@ atomic	NN	O	I-Material
 density	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0022311513001165)
 
 Our	NN	O	O
@@ -9217,6 +9561,7 @@ W	NN	O	B-Task
 gross	NN	O	I-Task
 erosion	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 estimated	NN	O	B-Process
 upstream	NN	O	I-Process
@@ -9235,10 +9580,12 @@ experimentally	NN	O	B-Material
 observed	NN	O	I-Material
 values	NN	O	I-Material
 ⩽1019m-2s-1	NN	O	O
+
 [	NN	O	O
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 this	NN	O	O
@@ -9253,6 +9600,7 @@ divertor	NN	O	B-Material
 plasma	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 low	NN	O	O
 temperatures	NN	O	O
@@ -9296,6 +9644,7 @@ plasma	NN	O	I-Material
 increases	NN	O	O
 too	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 a	NN	O	O
 result	NN	O	O
@@ -9320,6 +9669,7 @@ to	NN	O	O
 the	NN	O	O
 plates	NN	O	B-Material
 .	NN	O	O
+
 There	NN	O	O
 are	NN	O	O
 two	NN	O	O
@@ -9390,6 +9740,7 @@ a	NN	O	O
 Larmor	NN	O	O
 radius	NN	O	O
 .	NN	O	O
+
 Important	NN	O	O
 to	NN	O	O
 note	NN	O	O
@@ -9417,6 +9768,7 @@ main	NN	O	I-Process
 ions	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0022311513011951)
 
 The	NN	O	O
@@ -9432,6 +9784,7 @@ order	NN	O	O
 picoseconds	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Further	NN	O	O
 migration	NN	O	B-Process
 of	NN	O	I-Process
@@ -9454,6 +9807,7 @@ nanoseconds	NN	O	O
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 still	NN	O	O
@@ -9537,6 +9891,7 @@ in	NN	O	O
 the	NN	O	O
 process	NN	O	O
 .	NN	O	O
+
 Defects	NN	O	O
 can	NN	O	O
 be	NN	O	O
@@ -9573,6 +9928,7 @@ each	NN	O	O
 grain	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0022311514000919)
 
 The	NN	O	O
@@ -9588,6 +9944,7 @@ the	NN	O	O
 sample	NN	O	O
 surface	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 shows	NN	O	O
 that	NN	O	O
@@ -9624,6 +9981,7 @@ in	NN	O	I-Process
 plutonium	NN	O	I-Process
 dioxide	NN	O	I-Process
 .	NN	O	O
+
 Subsequently	NN	O	O
 ,	NN	O	O
 due	NN	O	O
@@ -9648,6 +10006,7 @@ be	NN	O	O
 rapidly	NN	O	O
 restored	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 however	NN	O	O
@@ -9685,6 +10044,7 @@ in	NN	O	O
 the	NN	O	O
 liquid	NN	O	B-Material
 .	NN	O	O
+
 A	NN	O	O
 surface	NN	O	B-Material
 solid	NN	O	I-Material
@@ -9706,9 +10066,11 @@ insets	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 4	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 double	NN	O	O
 inflection	NN	O	O
@@ -9746,6 +10108,7 @@ second	NN	O	O
 inflection	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 highest	NN	O	O
 recalescence	NN	O	O
@@ -9781,6 +10144,7 @@ small	NN	O	B-Task
 segregation	NN	O	I-Task
 effects	NN	O	I-Task
 .	NN	O	O
+
 These	NN	O	O
 latter	NN	O	O
 have	NN	O	O
@@ -9801,6 +10165,7 @@ material	NN	O	I-Process
 characterisation	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0022311514001640)
 
 The	NN	O	O
@@ -9832,6 +10197,7 @@ full	NN	O	O
 temperature	NN	O	O
 range	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 an	NN	O	O
 immediate	NN	O	O
@@ -9852,6 +10218,7 @@ with	NN	O	O
 excess	NN	O	O
 carbon	NN	O	B-Material
 .	NN	O	O
+
 This	NN	O	O
 carbon	NN	O	B-Material
 is	NN	O	O
@@ -9882,6 +10249,7 @@ K	NN	O	O
 24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Within	NN	O	O
 the	NN	O	O
 TRISO	NN	O	B-Material
@@ -9898,6 +10266,7 @@ of	NN	O	O
 dense	NN	O	O
 carbon	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 partial	NN	O	B-Material
 pressure	NN	O	I-Material
@@ -9923,6 +10292,7 @@ added	NN	O	O
 to	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 [	NN	O	O
 25	NN	O	O
@@ -9959,6 +10329,7 @@ phases	NN	O	O
 above	NN	O	O
 SiC.	NN	O	B-Material
 
+
 -DOCSTART- (S0022311514005480)
 
 The	NN	O	O
@@ -9984,6 +10355,7 @@ advancing	NN	O	B-Material
 crack	NN	O	I-Material
 tip	NN	O	I-Material
 .	NN	O	O
+
 Micro	NN	O	O
 -	NN	O	O
 scale	NN	O	O
@@ -10014,9 +10386,11 @@ interface	NN	O	I-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Finite	NN	O	B-Process
 element	NN	O	I-Process
 analysis	NN	O	I-Process
@@ -10050,6 +10424,7 @@ roughness	NN	O	O
 31	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 cracks	NN	O	O
 are	NN	O	O
@@ -10072,6 +10447,7 @@ monoclinic	NN	O	I-Process
 phase	NN	O	I-Process
 transformation	NN	O	I-Process
 .	NN	O	O
+
 An	NN	O	O
 assumption	NN	O	O
 is	NN	O	O
@@ -10109,6 +10485,7 @@ still	NN	O	O
 be	NN	O	O
 present	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 manufactured	NN	O	B-Material
 partially	NN	O	I-Material
@@ -10124,6 +10501,7 @@ the	NN	O	O
 tetragonal	NN	O	B-Process
 phase	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 simulated	NN	O	B-Task
@@ -10139,6 +10517,7 @@ direction	NN	O	I-Task
 and	NN	O	I-Task
 3	NN	O	I-Task
 .	NN	O	O
+
 As	NN	O	O
 this	NN	O	O
 the	NN	O	O
@@ -10174,6 +10553,7 @@ it	NN	O	O
 is	NN	O	O
 approximately	NN	O	O
 equal	NN	O	O
+
 to	NN	O	O
 three	NN	O	O
 times	NN	O	O
@@ -10192,6 +10572,7 @@ zirconia	NN	O	I-Material
 34	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 biaxial	NN	O	B-Task
@@ -10223,6 +10604,7 @@ this	NN	O	O
 work	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311514006849)
 
 The	NN	O	O
@@ -10254,6 +10636,7 @@ methods	NN	O	I-Process
 6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 More	NN	O	O
 recently	NN	O	O
 “	NN	O	O
@@ -10265,6 +10648,7 @@ clusters	NN	O	I-Task
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 )	NN	O	O
 have	NN	O	O
@@ -10285,6 +10669,7 @@ Govers	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 which	NN	O	O
 found	NN	O	O
 the	NN	O	O
@@ -10307,6 +10692,7 @@ interstitial	NN	O	I-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1(b	NN	O	O
 )	NN	O	O
 )	NN	O	O
@@ -10329,6 +10715,7 @@ from	NN	O	O
 the	NN	O	O
 VO	NN	O	B-Material
 .	NN	O	O
+
 This	NN	O	O
 result	NN	O	O
 was	NN	O	O
@@ -10343,10 +10730,12 @@ Geng	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 family	NN	O	O
 of	NN	O	O
@@ -10401,13 +10790,16 @@ and	NN	O	O
 six	NN	O	O
 Oi	NN	O	B-Material
 )	NN	O	O
+
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1(d	NN	O	O
 )	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Following	NN	O	O
 this	NN	O	O
 Andersson	NN	O	O
@@ -10456,6 +10848,7 @@ counterpart	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311514007119)
 
 In	NN	O	O
@@ -10483,6 +10876,7 @@ Fe	NN	O	B-Material
 lattice	NN	O	I-Material
 parameter	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 all	NN	O	O
 calculations	NN	O	O
@@ -10495,6 +10889,7 @@ volume	NN	O	O
 are	NN	O	O
 used	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Monte	NN	O	B-Process
 Carlo	NN	O	I-Process
@@ -10517,6 +10912,7 @@ organised	NN	O	O
 as	NN	O	O
 follows	NN	O	O
 .	NN	O	O
+
 First	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -10528,6 +10924,7 @@ helium	NN	O	I-Material
 are	NN	O	O
 investigated	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 vacancy	NN	O	O
 is	NN	O	O
@@ -10577,6 +10974,7 @@ system	NN	O	O
 is	NN	O	O
 minimised	NN	O	B-Process
 .	NN	O	O
+
 This	NN	O	O
 scheme	NN	O	O
 is	NN	O	O
@@ -10601,6 +10999,7 @@ each	NN	O	O
 is	NN	O	O
 calculated	NN	O	O
 .	NN	O	O
+
 Next	NN	O	O
 ,	NN	O	O
 helium	NN	O	B-Material
@@ -10611,6 +11010,7 @@ to	NN	O	O
 the	NN	O	O
 vacancies	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 total	NN	O	B-Material
 system	NN	O	I-Material
@@ -10620,6 +11020,7 @@ measured	NN	O	O
 and	NN	O	O
 recorded	NN	O	O
 .	NN	O	O
+
 At	NN	O	O
 this	NN	O	O
 point	NN	O	O
@@ -10640,6 +11041,7 @@ low	NN	O	B-Material
 energy	NN	O	I-Material
 configurations	NN	O	I-Material
 .	NN	O	O
+
 Every	NN	O	O
 helium	NN	O	B-Material
 in	NN	O	O
@@ -10689,6 +11091,7 @@ conjugate	NN	O	B-Process
 gradient	NN	O	I-Process
 algorithm	NN	O	I-Process
 .	NN	O	O
+
 Each	NN	O	O
 bubble	NN	O	O
 is	NN	O	O
@@ -10700,6 +11103,7 @@ of	NN	O	O
 10,000	NN	O	O
 steps	NN	O	O
 .	NN	O	O
+
 After	NN	O	O
 that	NN	O	O
 ,	NN	O	O
@@ -10721,6 +11125,7 @@ further	NN	O	O
 10	NN	O	O
 steps	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 schematic	NN	O	O
 of	NN	O	O
@@ -10732,9 +11137,11 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311514008691)
 
 The	NN	O	O
@@ -10773,6 +11180,7 @@ throughout	NN	O	I-Material
 the	NN	O	I-Material
 matrix	NN	O	I-Material
 .	NN	O	O
+
 These	NN	O	O
 oxide	NN	O	B-Material
 particles	NN	O	I-Material
@@ -10803,6 +11211,7 @@ grain	NN	O	O
 boundary	NN	O	O
 sliding	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 nuclear	NN	O	O
 applications	NN	O	O
@@ -10834,11 +11243,12 @@ for	NN	O	O
 the	NN	O	O
 formation	NN	O	O
 of	NN	O	O
-nano	NN	O	B-Material
--	NN	O	I-Material
-scale	NN	O	I-Material
-He	NN	O	I-Material
-bubbles	NN	O	I-Material
+nano	NN	O	O
+-	NN	O	O
+scale	NN	O	O
+
+He	NN	O	O
+bubbles	NN	O	O
 therefore	NN	O	O
 reducing	NN	O	B-Task
 swelling	NN	O	I-Task
@@ -10852,6 +11262,7 @@ steels	NN	O	I-Material
 12–15	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 ability	NN	O	O
 of	NN	O	O
@@ -10871,6 +11282,7 @@ composition	NN	O	I-Material
 of	NN	O	I-Material
 the	NN	O	I-Material
 particles	NN	O	I-Material
+
 [	NN	O	O
 10,11,16,17	NN	O	O
 ]	NN	O	O
@@ -10880,6 +11292,7 @@ stability	NN	O	O
 under	NN	O	O
 irradiation	NN	O	B-Process
 .	NN	O	O
+
 Typical	NN	O	O
 compositions	NN	O	O
 of	NN	O	O
@@ -10951,10 +11364,12 @@ of	NN	O	O
 Fe	NN	O	B-Material
 and	NN	O	I-Material
 impurities	NN	O	I-Material
+
 [	NN	O	O
 18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 this	NN	O	O
 reason	NN	O	O
@@ -10973,6 +11388,7 @@ constituent	NN	O	B-Material
 elements	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S002231151500032X)
 
 Zirconium	NN	O	B-Material
@@ -10993,6 +11409,7 @@ water	NN	O	B-Material
 nuclear	NN	O	I-Material
 reactors	NN	O	I-Material
 .	NN	O	O
+
 Research	NN	O	O
 into	NN	O	O
 oxidation	NN	O	B-Task
@@ -11009,6 +11426,7 @@ of	NN	O	O
 the	NN	O	O
 material	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -11029,6 +11447,7 @@ still	NN	O	O
 remain	NN	O	O
 unanswered	NN	O	O
 .	NN	O	O
+
 One	NN	O	O
 such	NN	O	O
 issue	NN	O	O
@@ -11045,6 +11464,7 @@ metal	NN	O	B-Material
 oxide	NN	O	I-Material
 interface	NN	O	I-Material
 .	NN	O	O
+
 Small	NN	O	O
 cracks	NN	O	O
 have	NN	O	O
@@ -11071,6 +11491,7 @@ of	NN	O	O
 oxide	NN	O	O
 growth	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 networks	NN	O	O
 of	NN	O	O
@@ -11084,10 +11505,12 @@ in	NN	O	O
 the	NN	O	O
 corrosion	NN	O	B-Material
 kinetics	NN	O	I-Material
+
 [	NN	O	O
 1–7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 lateral	NN	O	O
 cracks	NN	O	O
@@ -11116,6 +11539,7 @@ in	NN	O	O
 8,9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Experiments	NN	O	O
 using	NN	O	O
 Synchrotron	NN	O	B-Process
@@ -11177,6 +11601,7 @@ growth	NN	O	O
 4,10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 One	NN	O	O
 theory	NN	O	O
 is	NN	O	O
@@ -11197,6 +11622,7 @@ metal	NN	O	B-Material
 oxide	NN	O	I-Material
 interface	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 phase	NN	O	B-Process
 transformation	NN	O	I-Process
@@ -11236,6 +11662,7 @@ species	NN	O	I-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515002391)
 
 Spark	NN	O	B-Process
@@ -11266,28 +11693,30 @@ is	NN	O	O
 loaded	NN	O	O
 into	NN	O	O
 an	NN	O	O
-electrically	NN	O	B-Process
-and	NN	O	I-Process
-thermally	NN	O	I-Process
-conductive	NN	O	I-Process
-graphite	NN	O	I-Process
-mould	NN	O	I-Process
-and	NN	O	I-Process
-a	NN	O	I-Process
-large	NN	O	I-Process
-DC	NN	O	I-Process
-pulsed	NN	O	I-Process
-current	NN	O	I-Process
-(	NN	O	I-Process
-1000–5000A	NN	O	I-Process
-)	NN	O	I-Process
-is	NN	O	I-Process
-applied	NN	O	I-Process
-under	NN	O	I-Process
-a	NN	O	I-Process
-uniaxial	NN	O	I-Process
-pressure	NN	O	I-Process
+electrically	NN	O	O
+and	NN	O	O
+thermally	NN	O	O
+conductive	NN	O	O
+graphite	NN	O	O
+mould	NN	O	O
+and	NN	O	O
+
+a	NN	O	O
+large	NN	O	O
+DC	NN	O	O
+pulsed	NN	O	O
+current	NN	O	O
+(	NN	O	O
+1000–5000A	NN	O	O
+)	NN	O	O
+is	NN	O	O
+applied	NN	O	O
+under	NN	O	O
+a	NN	O	O
+uniaxial	NN	O	O
+pressure	NN	O	O
 .	NN	O	O
+
 When	NN	O	O
 current	NN	O	O
 passes	NN	O	O
@@ -11341,6 +11770,7 @@ powder	NN	O	B-Material
 material	NN	O	I-Material
 )	NN	O	O
 .	NN	O	O
+
 SPS	NN	O	B-Process
 is	NN	O	O
 characterised	NN	O	O
@@ -11376,6 +11806,7 @@ density	NN	O	O
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 SPS	NN	O	B-Process
 occupies	NN	O	O
@@ -11385,6 +11816,7 @@ different	NN	O	O
 time	NN	O	O
 –	NN	O	O
 temperature	NN	O	O
+
 –	NN	O	O
 density	NN	O	O
 space	NN	O	O
@@ -11421,6 +11853,7 @@ hours	NN	O	O
 holding	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 Although	NN	O	O
 SPS	NN	O	B-Process
 has	NN	O	O
@@ -11463,6 +11896,7 @@ reviewed	NN	O	O
 below	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515002470)
 
 To	NN	O	O
@@ -11495,6 +11929,7 @@ at	NN	O	O
 °	NN	O	O
 C	NN	O	O
 .	NN	O	O
+
 Both	NN	O	O
 electrochemical	NN	O	B-Process
 and	NN	O	O
@@ -11518,6 +11953,7 @@ and	NN	O	I-Task
 reduction	NN	O	I-Task
 pathway	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 electrochemical	NN	O	O
 reduction	NN	O	O
@@ -11539,6 +11975,7 @@ within	NN	O	O
 the	NN	O	O
 melt	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 electrochemical	NN	O	B-Process
 reduction	NN	O	I-Process
@@ -11588,6 +12025,7 @@ the	NN	O	O
 EDXD	NN	O	B-Process
 data	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 electrochemical	NN	O	B-Process
 reduction	NN	O	I-Process
@@ -11606,6 +12044,7 @@ the	NN	O	O
 molten	NN	O	B-Material
 salt	NN	O	I-Material
 .	NN	O	O
+
 That	NN	O	O
 is	NN	O	O
 ,	NN	O	O
@@ -11636,6 +12075,7 @@ the	NN	O	O
 molten	NN	O	B-Material
 salt	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 could	NN	O	O
 be	NN	O	O
@@ -11673,6 +12113,7 @@ the	NN	O	O
 working	NN	O	O
 electrode	NN	O	B-Material
 .	NN	O	O
+
 This	NN	O	O
 could	NN	O	O
 then	NN	O	O
@@ -11712,6 +12153,7 @@ future	NN	O	O
 work	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515002664)
 
 The	NN	O	O
@@ -11733,6 +12175,7 @@ anisotropic	NN	O	B-Task
 material	NN	O	I-Task
 properties	NN	O	I-Task
 .	NN	O	O
+
 As	NN	O	O
 a	NN	O	O
 hexagonal	NN	O	O
@@ -11765,6 +12208,7 @@ component	NN	O	O
 23–26	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Abaqus	NN	O	B-Process
 allows	NN	O	O
 this	NN	O	O
@@ -11777,6 +12221,7 @@ plasticity	NN	O	B-Process
 potential	NN	O	I-Process
 ratios	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 anisotropic	NN	O	B-Material
 elastic	NN	O	I-Material
@@ -11789,6 +12234,7 @@ in	NN	O	O
 Table	NN	O	O
 1	NN	O	O
 .	NN	O	O
+
 Zirconium	NN	O	B-Material
 alloys	NN	O	O
 can	NN	O	O
@@ -11826,6 +12272,7 @@ Zircaloy-4	NN	O	I-Material
 27,28	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 for	NN	O	O
@@ -11847,6 +12294,7 @@ the	NN	O	O
 normal	NN	O	O
 direction	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 such	NN	O	O
 the	NN	O	O
@@ -11890,6 +12338,7 @@ zirconium	NN	O	B-Material
 unit	NN	O	I-Material
 lattice	NN	O	I-Material
 .	NN	O	O
+
 Table	NN	O	O
 1	NN	O	O
 also	NN	O	O
@@ -11902,6 +12351,7 @@ into	NN	O	O
 the	NN	O	O
 simulations	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 oxide	NN	O	B-Material
 layer	NN	O	I-Material
@@ -11914,6 +12364,7 @@ purely	NN	O	B-Material
 elastic	NN	O	I-Material
 material	NN	O	I-Material
 .	NN	O	O
+
 Although	NN	O	O
 it	NN	O	O
 is	NN	O	O
@@ -11951,6 +12402,7 @@ all	NN	O	O
 simulations	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515300295)
 
 Zirconium	NN	O	B-Material
@@ -11994,6 +12446,7 @@ strength	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Despite	NN	O	O
 high	NN	O	O
 corrosion	NN	O	O
@@ -12008,6 +12461,7 @@ around	NN	O	O
 °	NN	O	O
 C	NN	O	O
 )	NN	O	O
+
 [	NN	O	O
 2	NN	O	O
 ]	NN	O	O
@@ -12027,6 +12481,7 @@ hundred	NN	O	O
 degrees	NN	O	O
 higher	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 an	NN	O	O
@@ -12065,6 +12520,7 @@ Daiichi	NN	O	O
 nuclear	NN	O	O
 accident	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 this	NN	O	O
 reason	NN	O	O
@@ -12084,6 +12540,7 @@ fuels	NN	O	I-Task
 ATF	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 Additionally	NN	O	O
 ,	NN	O	O
 ATFs	NN	O	B-Material
@@ -12113,6 +12570,7 @@ burn	NN	O	O
 up	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515300477)
 
 In	NN	O	O
@@ -12174,6 +12632,7 @@ the	NN	O	O
 nanometre	NN	O	O
 level	NN	O	O
 .	NN	O	O
+
 Understanding	NN	O	B-Task
 why	NN	O	I-Task
 this	NN	O	I-Task
@@ -12211,6 +12670,7 @@ nuclear	NN	O	B-Material
 power	NN	O	I-Material
 reactors	NN	O	I-Material
 .	NN	O	O
+
 No	NN	O	O
 model	NN	O	O
 will	NN	O	O
@@ -12228,6 +12688,7 @@ on	NN	O	I-Task
 during	NN	O	I-Task
 oxidation	NN	O	I-Task
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -12270,6 +12731,7 @@ of	NN	O	I-Process
 the	NN	O	I-Process
 metal	NN	O	I-Process
 .	NN	O	O
+
 Whilst	NN	O	O
 a	NN	O	O
 number	NN	O	O
@@ -12322,6 +12784,7 @@ probe	NN	O	I-Process
 tomography	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515300830)
 
 Solid	NN	O	B-Material
@@ -12354,6 +12817,7 @@ a	NN	O	O
 drop	NN	O	B-Process
 detector	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 more	NN	O	O
 details	NN	O	O
@@ -12370,6 +12834,7 @@ studies	NN	O	O
 9,10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 measurements	NN	O	O
 were	NN	O	O
@@ -12407,6 +12872,7 @@ a	NN	O	O
 reference	NN	O	B-Material
 material	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 temperature	NN	O	O
 range	NN	O	O
@@ -12424,6 +12890,7 @@ using	NN	O	O
 steps	NN	O	O
 of	NN	O	O
 50	NN	O	O
+
 K.	NN	O	O
 Each	NN	O	O
 isothermal	NN	O	B-Process
@@ -12453,6 +12920,7 @@ device	NN	O	O
 was	NN	O	O
 determined	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 drops	NN	O	O
 were	NN	O	O
@@ -12476,6 +12944,7 @@ heat	NN	O	B-Process
 flow	NN	O	I-Process
 signal	NN	O	O
 .	NN	O	O
+
 Background	NN	O	B-Process
 subtraction	NN	O	I-Process
 and	NN	O	I-Process
@@ -12491,6 +12960,7 @@ for	NN	O	I-Material
 data	NN	O	I-Material
 processing	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 reported	NN	O	O
 temperatures	NN	O	O
@@ -12541,6 +13011,7 @@ of	NN	O	O
 the	NN	O	O
 measurement	NN	O	O
 .	NN	O	O
+
 After	NN	O	O
 drop	NN	O	O
 calorimetric	NN	O	B-Process
@@ -12573,6 +13044,7 @@ experimental	NN	O	O
 conditions	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515301069)
 
 The	NN	O	O
@@ -12588,6 +13060,7 @@ activation	NN	O	B-Material
 monitor	NN	O	I-Material
 sets	NN	O	I-Material
 .	NN	O	I-Material
+
 These	NN	O	O
 monitor	NN	O	B-Material
 sets	NN	O	I-Material
@@ -12608,6 +13081,7 @@ specific	NN	O	O
 energy	NN	O	O
 range	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 different	NN	O	O
 activation	NN	O	O
@@ -12625,6 +13099,7 @@ can	NN	O	O
 be	NN	O	O
 reconstructed	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 BODEX	NN	O	O
 ,	NN	O	O
@@ -12663,6 +13138,7 @@ of	NN	O	O
 the	NN	O	O
 capsules	NN	O	B-Material
 .	NN	O	O
+
 Additionally	NN	O	O
 ,	NN	O	O
 one	NN	O	O
@@ -12689,6 +13165,7 @@ sets	NN	O	O
 per	NN	O	O
 leg	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 fluence	NN	O	O
 in	NN	O	O
@@ -12709,6 +13186,7 @@ in	NN	O	O
 each	NN	O	O
 capsule	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 sets	NN	O	O
 have	NN	O	O
@@ -12733,6 +13211,7 @@ specific	NN	O	O
 energy	NN	O	O
 range	NN	O	O
 .	NN	O	O
+
 Table	NN	O	O
 3	NN	O	O
 show	NN	O	O
@@ -12749,6 +13228,7 @@ containing	NN	O	O
 molybdenum	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515301963)
 
 Following	NN	O	O
@@ -12779,10 +13259,12 @@ be	NN	O	O
 Schottky	NN	O	B-Process
 trivacancy	NN	O	I-Process
 defects	NN	O	I-Process
+
 [	NN	O	O
 4,5,31	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Diffusion	NN	O	B-Process
 to	NN	O	O
 either	NN	O	O
@@ -12823,6 +13305,7 @@ ensure	NN	O	O
 continued	NN	O	O
 diffusion	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 rate	NN	O	O
 determining	NN	O	O
@@ -12855,6 +13338,7 @@ diffusion	NN	O	I-Process
 6–8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Activation	NN	O	B-Process
 energies	NN	O	O
 for	NN	O	O
@@ -12880,6 +13364,7 @@ the	NN	O	O
 crystal	NN	O	B-Process
 stoichiometry	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 Xe	NN	O	B-Process
 diffusion	NN	O	I-Process
@@ -12928,14 +13413,16 @@ the	NN	O	O
 presence	NN	O	O
 of	NN	O	O
 a	NN	O	O
-Jahn	NN	O	B-Process
-–	NN	O	I-Process
-Teller	NN	O	I-Process
-distortion	NN	O	I-Process
+Jahn	NN	O	O
+–	NN	O	O
+
+Teller	NN	O	O
+distortion	NN	O	O
 [	NN	O	O
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Activation	NN	O	O
 energies	NN	O	O
 calculated	NN	O	O
@@ -12953,10 +13440,12 @@ choice	NN	O	O
 of	NN	O	O
 potential	NN	O	B-Process
 .	NN	O	O
+
 Govers	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 examined	NN	O	O
 three	NN	O	O
 different	NN	O	O
@@ -12987,13 +13476,16 @@ different	NN	O	O
 parameterisations	NN	O	O
 for	NN	O	O
 the	NN	O	O
-U	NN	O	B-Material
-–	NN	O	I-Material
-Xe	NN	O	I-Material
+U	NN	O	O
+
+–	NN	O	O
+
+Xe	NN	O	O
 and	NN	O	O
-O	NN	O	B-Material
-–	NN	O	I-Material
-Xe	NN	O	I-Material
+O	NN	O	O
+–	NN	O	O
+
+Xe	NN	O	O
 interactions	NN	O	O
 from	NN	O	O
 Geng	NN	O	O
@@ -13048,6 +13540,7 @@ respectively	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0022311515303640)
 
 Ferritic	NN	O	B-Material
@@ -13066,6 +13559,7 @@ reactors	NN	O	I-Material
 1,2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 transmutation	NN	O	B-Material
 -	NN	O	I-Material
@@ -13091,6 +13585,7 @@ under	NN	O	I-Task
 neutron	NN	O	I-Task
 irradiation	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 a	NN	O	O
 previous	NN	O	O
@@ -13124,6 +13619,7 @@ bubbles	NN	O	I-Task
 was	NN	O	O
 discussed	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 was	NN	O	O
 shown	NN	O	O
@@ -13155,6 +13651,7 @@ more	NN	O	O
 He	NN	O	B-Material
 atoms	NN	O	I-Material
 .	NN	O	O
+
 Small	NN	O	O
 bubbles	NN	O	B-Material
 up	NN	O	O
@@ -13215,6 +13712,7 @@ from	NN	O	O
 the	NN	O	O
 bubbles	NN	O	B-Material
 .	NN	O	O
+
 Subsequent	NN	O	O
 bubble	NN	O	B-Process
 enlargement	NN	O	I-Process
@@ -13246,6 +13744,7 @@ the	NN	O	I-Task
 lattice	NN	O	I-Task
 strain	NN	O	I-Task
 .	NN	O	O
+
 Emission	NN	O	B-Process
 of	NN	O	I-Process
 interracial	NN	O	I-Process
@@ -13263,6 +13762,7 @@ dynamics	NN	O	I-Process
 simulations	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0029549314001551)
 
 An	NN	O	O
@@ -13307,6 +13807,7 @@ neutron	NN	O	B-Material
 economy	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Extensive	NN	O	O
 studies	NN	O	O
 determined	NN	O	O
@@ -13329,6 +13830,7 @@ less	NN	O	O
 positive	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Among	NN	O	O
 the	NN	O	O
 most	NN	O	O
@@ -13370,8 +13872,10 @@ the	NN	O	I-Task
 plenum	NN	O	I-Task
 )	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 19	NN	O	O
 shows	NN	O	O
 the	NN	O	O
@@ -13389,6 +13893,7 @@ and	NN	O	I-Material
 boron	NN	O	I-Material
 layers	NN	O	I-Material
 .	NN	O	O
+
 It	NN	O	O
 can	NN	O	O
 be	NN	O	O
@@ -13414,6 +13919,7 @@ slightly	NN	O	O
 over	NN	O	O
 800pcm	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 pair	NN	O	O
 of	NN	O	O
@@ -13434,6 +13940,7 @@ the	NN	O	O
 boron	NN	O	B-Material
 layer	NN	O	I-Material
 .	NN	O	O
+
 These	NN	O	O
 modifications	NN	O	O
 implied	NN	O	O
@@ -13466,6 +13973,7 @@ al	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0029549314002970)
 
 The	NN	O	O
@@ -13513,6 +14021,7 @@ working	NN	O	O
 temperature	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 temperature	NN	O	O
 above	NN	O	O
@@ -13530,6 +14039,7 @@ six	NN	O	I-Process
 dedicated	NN	O	I-Process
 thermocouples	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -13577,6 +14087,7 @@ the	NN	O	O
 containment	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 heat	NN	O	O
 generated	NN	O	O
@@ -13620,6 +14131,7 @@ wet	NN	O	I-Material
 channel	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0031920113000708)
 
 Geomagnetic	NN	O	B-Process
@@ -13648,6 +14160,7 @@ behind	NN	O	O
 their	NN	O	O
 origins	NN	O	O
 .	NN	O	O
+
 Jerks	NN	O	B-Process
 are	NN	O	O
 most	NN	O	O
@@ -13691,6 +14204,7 @@ field	NN	O	I-Material
 MF	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 times	NN	O	O
 of	NN	O	O
@@ -13733,6 +14247,7 @@ third	NN	O	O
 time	NN	O	O
 derivative	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 ‘	NN	O	O
 V’	NN	O	O
@@ -13784,6 +14299,7 @@ variable	NN	O	O
 background	NN	O	O
 noise	NN	O	O
 .	NN	O	O
+
 Jerks	NN	O	B-Process
 can	NN	O	O
 be	NN	O	O
@@ -13831,6 +14347,7 @@ before	NN	O	O
 the	NN	O	O
 jerk	NN	O	B-Process
 .	NN	O	O
+
 This	NN	O	O
 measure	NN	O	O
 is	NN	O	O
@@ -13844,6 +14361,7 @@ across	NN	O	O
 a	NN	O	O
 jerk	NN	O	B-Process
 .	NN	O	O
+
 Jerk	NN	O	B-Process
 amplitude	NN	O	I-Process
 is	NN	O	O
@@ -13862,6 +14380,7 @@ a	NN	O	O
 negative	NN	O	O
 step	NN	O	O
 .	NN	O	O
+
 Here	NN	O	O
 we	NN	O	O
 do	NN	O	O
@@ -13893,6 +14412,7 @@ single	NN	O	O
 jerk	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0031920113001222)
 
 Seismic	NN	O	B-Process
@@ -13910,6 +14430,7 @@ under	NN	O	I-Task
 the	NN	O	I-Task
 volcanoes	NN	O	I-Task
 .	NN	O	O
+
 With	NN	O	O
 the	NN	O	O
 recently	NN	O	O
@@ -13985,6 +14506,7 @@ are	NN	O	O
 densely	NN	O	O
 spaced	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 overview	NN	O	O
@@ -14019,9 +14541,11 @@ volcano	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 also	NN	O	O
 evaluate	NN	O	O
@@ -14038,6 +14562,7 @@ deriving	NN	O	O
 potential	NN	O	O
 information	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 work	NN	O	O
 updates	NN	O	O
@@ -14066,6 +14591,7 @@ available	NN	O	O
 information	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386108010392)
 
 Microhardness	NN	O	B-Task
@@ -14096,6 +14622,7 @@ from	NN	O	O
 compression	NN	O	B-Process
 testing	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 work	NN	O	B-Material
 -	NN	O	I-Material
@@ -14119,6 +14646,7 @@ H≈3σ	NN	O	O
 20	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -14141,6 +14669,7 @@ plasticity	NN	O	I-Material
 9,10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Deviations	NN	O	B-Task
 from	NN	O	I-Task
 this	NN	O	I-Task
@@ -14169,6 +14698,7 @@ negligible	NN	O	O
 9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Hence	NN	O	O
 ,	NN	O	O
 the	NN	O	B-Task
@@ -14198,6 +14728,7 @@ elasto	NN	O	O
 plastic	NN	O	O
 models	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 way	NN	O	O
@@ -14233,6 +14764,7 @@ modulus	NN	O	O
 9,11–13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 has	NN	O	O
 been	NN	O	O
@@ -14281,6 +14813,7 @@ determined	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S003238610801080X)
 
 Up	NN	O	O
@@ -14307,6 +14840,7 @@ and	NN	O	I-Process
 scattering	NN	O	I-Process
 methods	NN	O	I-Process
 .	NN	O	O
+
 Optical	NN	O	B-Material
 microscopes	NN	O	I-Material
 ,	NN	O	O
@@ -14337,6 +14871,7 @@ and	NN	O	O
 widely	NN	O	O
 used	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 biggest	NN	O	O
 advantage	NN	O	O
@@ -14356,6 +14891,7 @@ the	NN	O	O
 various	NN	O	O
 morphologies	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 when	NN	O	O
@@ -14386,6 +14922,7 @@ field	NN	O	O
 of	NN	O	O
 view	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 contrast	NN	O	O
 ,	NN	O	O
@@ -14415,6 +14952,7 @@ of	NN	O	O
 the	NN	O	O
 microscopes	NN	O	B-Material
 .	NN	O	O
+
 One	NN	O	O
 must	NN	O	O
 remember	NN	O	O
@@ -14453,6 +14991,7 @@ as	NN	O	O
 does	NN	O	O
 microscopy	NN	O	B-Task
 .	NN	O	O
+
 After	NN	O	O
 all	NN	O	O
 ,	NN	O	O
@@ -14499,6 +15038,7 @@ are	NN	O	O
 complementary	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S003238610900086X)
 
 We	NN	O	O
@@ -14518,6 +15058,7 @@ hydrogenated	NN	O	B-Process
 PE	NN	O	B-Material
 chains	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 algorithm	NN	O	O
 used	NN	O	O
@@ -14538,6 +15079,7 @@ is	NN	O	O
 very	NN	O	O
 simplified	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 checked	NN	O	O
 it	NN	O	O
@@ -14562,6 +15104,7 @@ more	NN	O	O
 precise	NN	O	O
 calculations	NN	O	B-Task
 .	NN	O	O
+
 The	NN	O	O
 scattering	NN	O	B-Material
 centres	NN	O	I-Material
@@ -14607,6 +15150,7 @@ folds	NN	O	I-Material
 is	NN	O	O
 neglected	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 parallel	NN	O	B-Material
 stem	NN	O	I-Material
@@ -14647,6 +15191,7 @@ all	NN	O	O
 the	NN	O	O
 stems	NN	O	B-Material
 .	NN	O	O
+
 Defining	NN	O	O
 an	NN	O	O
 integer	NN	O	O
@@ -14668,6 +15213,7 @@ have	NN	O	O
 (	NN	O	O
 q<1	NN	O	O
 )	NN	O	O
+
 [	NN	O	O
 9](1A)q2·I(q)=C·(bH−bD)2∑i=1ns·100∑j=1ns·1004πqsin(q·dij)dij;dij2=Δij2+(zj−zi)2;q=2πsinθλwhere	NN	O	O
 bH	NN	O	O
@@ -14701,6 +15247,7 @@ and	NN	O	O
 the	NN	O	O
 wavelength	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 i	NN	O	O
 -	NN	O	O
@@ -14714,6 +15261,7 @@ stem	NN	O	O
 axis	NN	O	O
 is	NN	O	O
 zi	NN	O	O
+
 and	NN	O	O
 Δij	NN	O	O
 is	NN	O	O
@@ -14731,6 +15279,7 @@ and	NN	O	O
 j	NN	O	O
 belong	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 all	NN	O	O
 the	NN	O	O
@@ -14744,11 +15293,13 @@ of	NN	O	O
 zi	NN	O	O
 coordinates	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 sum	NN	O	O
 in	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 1A	NN	O	O
 )	NN	O	O
@@ -14766,6 +15317,7 @@ domain	NN	O	O
 see	NN	O	O
 Figs	NN	O	O
 .	NN	O	O
+
 2	NN	O	O
 and	NN	O	O
 10	NN	O	O
@@ -14773,6 +15325,7 @@ for	NN	O	O
 examples	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386109001712)
 
 With	NN	O	O
@@ -14790,6 +15343,7 @@ have	NN	O	O
 become	NN	O	O
 feasible	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 full	NN	O	B-Process
@@ -14825,6 +15379,7 @@ system	NN	O	I-Process
 is	NN	O	O
 imperative	NN	O	O
 .	NN	O	O
+
 From	NN	O	O
 a	NN	O	O
 series	NN	O	O
@@ -14855,6 +15410,7 @@ of	NN	O	O
 poly(vinyl	NN	O	B-Material
 alcohol	NN	O	I-Material
 )	NN	O	I-Material
+
 (	NN	O	O
 PVA	NN	O	B-Material
 )	NN	O	O
@@ -14865,6 +15421,7 @@ stage	NN	O	O
 of	NN	O	O
 crystallization	NN	O	B-Process
 .	NN	O	O
+
 They	NN	O	O
 investigated	NN	O	O
 the	NN	O	O
@@ -14883,6 +15440,7 @@ quenching	NN	O	I-Process
 51,52	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 They	NN	O	O
 could	NN	O	O
 reproduce	NN	O	O
@@ -14916,6 +15474,7 @@ surface	NN	O	I-Material
 ,	NN	O	O
 etc	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 their	NN	O	O
 work	NN	O	O
@@ -14936,6 +15495,7 @@ to	NN	O	O
 accelerate	NN	O	O
 computation	NN	O	O
 .	NN	O	O
+
 Their	NN	O	O
 model	NN	O	O
 has	NN	O	O
@@ -14971,6 +15531,7 @@ in	NN	O	O
 conventional	NN	O	O
 sense	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 their	NN	O	O
@@ -15009,6 +15570,7 @@ polymer	NN	O	B-Process
 crystallization	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0032386109004996)
 
 SPM	NN	O	B-Process
@@ -15028,6 +15590,7 @@ in	NN	O	I-Task
 polymer	NN	O	I-Task
 crystallization	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 technique	NN	O	O
 has	NN	O	O
@@ -15042,6 +15605,7 @@ for	NN	O	O
 such	NN	O	O
 studies	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 a	NN	O	O
@@ -15079,6 +15643,7 @@ to	NN	O	O
 be	NN	O	O
 observed	NN	O	O
 .	NN	O	O
+
 AFM	NN	O	B-Process
 requires	NN	O	O
 no	NN	O	O
@@ -15097,6 +15662,7 @@ is	NN	O	O
 relatively	NN	O	O
 straightforward	NN	O	O
 .	NN	O	O
+
 Also	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -15108,6 +15674,7 @@ under	NN	O	O
 many	NN	O	O
 circumstances	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 allows	NN	O	O
 images	NN	O	O
@@ -15142,6 +15709,7 @@ resolution	NN	O	O
 15–18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 this	NN	O	O
@@ -15196,6 +15764,7 @@ conditions	NN	O	O
 influence	NN	O	O
 kinetics	NN	O	O
 .	NN	O	O
+
 AFM	NN	O	B-Material
 has	NN	O	O
 a	NN	O	O
@@ -15247,6 +15816,7 @@ techniques	NN	O	O
 attractions	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386109005485)
 
 Inverse	NN	O	B-Process
@@ -15286,6 +15856,7 @@ concentration	NN	O	I-Material
 CMC	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 process	NN	O	O
 contains	NN	O	O
@@ -15316,6 +15887,7 @@ continuous	NN	O	O
 organic	NN	O	B-Material
 medium	NN	O	I-Material
 .	NN	O	O
+
 Stable	NN	O	B-Material
 inverse	NN	O	I-Material
 miniemulsions	NN	O	I-Material
@@ -15335,6 +15907,7 @@ speed	NN	O	I-Material
 mechanical	NN	O	I-Material
 stirrer	NN	O	I-Material
 .	NN	O	O
+
 Oil	NN	O	B-Material
 -	NN	O	I-Material
 soluble	NN	O	I-Material
@@ -15363,6 +15936,7 @@ resulting	NN	O	I-Task
 inverse	NN	O	I-Task
 emulsion	NN	O	I-Task
 .	NN	O	O
+
 Upon	NN	O	O
 addition	NN	O	O
 of	NN	O	O
@@ -15381,12 +15955,15 @@ particles	NN	O	I-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 2	NN	O	O
 )	NN	O	O
+
 [	NN	O	O
 83	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Several	NN	O	O
 reports	NN	O	O
 have	NN	O	O
@@ -15423,6 +16000,7 @@ particles	NN	O	I-Material
 91–93	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 method	NN	O	O
 also	NN	O	O
@@ -15443,6 +16021,7 @@ crosslinkers	NN	O	I-Process
 27,94–100	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -15474,6 +16053,7 @@ and	NN	O	O
 nanogels	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0032386109006612)
 
 In	NN	O	O
@@ -15517,6 +16097,7 @@ on	NN	O	I-Process
 catalyst	NN	O	I-Process
 particles	NN	O	I-Process
 .	NN	O	O
+
 MWNTs	NN	O	B-Task
 were	NN	O	O
 first	NN	O	O
@@ -15542,6 +16123,7 @@ SWNTs	NN	O	B-Material
 3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Similarly	NN	O	O
 ,	NN	O	O
 the	NN	O	B-Process
@@ -15575,6 +16157,7 @@ particles	NN	O	I-Material
 28–30	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 number	NN	O	O
 of	NN	O	O
@@ -15606,6 +16189,7 @@ compound	NN	O	I-Process
 as	NN	O	I-Process
 feedstock	NN	O	I-Process
 .	NN	O	O
+
 These	NN	O	O
 processes	NN	O	O
 include	NN	O	O
@@ -15640,19 +16224,23 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3	NN	O	O
 ,	NN	O	O
 and	NN	O	O
-“	NN	O	B-Process
-catalytic	NN	O	I-Process
-gas	NN	O	I-Process
-flow	NN	O	I-Process
-CVD	NN	O	I-Process
-”	NN	O	I-Process
+“	NN	O	O
+catalytic	NN	O	O
+gas	NN	O	O
+flow	NN	O	O
+CVD	NN	O	O
+
+”	NN	O	O
+
 [	NN	O	O
 36,37	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 One	NN	O	O
 of	NN	O	O
 the	NN	O	B-Task
@@ -15695,6 +16283,7 @@ techniques	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386109007290)
 
 ELRs	NN	O	B-Material
@@ -15718,6 +16307,7 @@ such	NN	O	O
 as	NN	O	O
 micelles	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 first	NN	O	O
 work	NN	O	O
@@ -15749,6 +16339,7 @@ respectively	NN	O	O
 49	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resulting	NN	O	O
 micelles	NN	O	B-Material
@@ -15774,6 +16365,7 @@ self	NN	O	B-Process
 -	NN	O	I-Process
 assembly	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 tri	NN	O	B-Material
 -	NN	O	I-Material
@@ -15799,6 +16391,7 @@ aggregates	NN	O	I-Material
 50	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Other	NN	O	O
 multivalent	NN	O	B-Material
 spherical	NN	O	I-Material
@@ -15834,6 +16427,7 @@ cells	NN	O	I-Task
 51	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Bidwell	NN	O	O
 et	NN	O	O
 al	NN	O	O
@@ -15858,6 +16452,7 @@ delivery	NN	O	I-Task
 of	NN	O	I-Task
 drugs	NN	O	I-Task
 .	NN	O	O
+
 Attachment	NN	O	O
 of	NN	O	O
 doxorubicin	NN	O	B-Material
@@ -15884,6 +16479,7 @@ hyperthermia	NN	O	B-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386109007423)
 
 In	NN	O	O
@@ -15925,6 +16521,7 @@ in	NN	O	O
 a	NN	O	O
 membrane	NN	O	B-Material
 .	NN	O	O
+
 Beyond	NN	O	O
 a	NN	O	O
 certain	NN	O	O
@@ -15958,6 +16555,7 @@ resistance	NN	O	O
 17,18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -15982,6 +16580,7 @@ investigation	NN	O	O
 19–23	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 achieve	NN	O	O
 high	NN	O	B-Process
@@ -16009,6 +16608,7 @@ has	NN	O	O
 been	NN	O	O
 studied	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 course	NN	O	O
@@ -16074,6 +16674,7 @@ the	NN	O	I-Task
 mechanical	NN	O	I-Task
 properties	NN	O	I-Task
 .	NN	O	O
+
 An	NN	O	O
 image	NN	O	O
 of	NN	O	O
@@ -16087,9 +16688,11 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 2	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386109010386)
 
 From	NN	O	O
@@ -16120,6 +16723,7 @@ free	NN	O	B-Process
 radical	NN	O	I-Process
 polymerization	NN	O	I-Process
 .	NN	O	O
+
 Step	NN	O	B-Process
 -	NN	O	I-Process
 growth	NN	O	I-Process
@@ -16148,6 +16752,7 @@ free	NN	O	B-Process
 radical	NN	O	I-Process
 polymerization	NN	O	I-Process
 .	NN	O	O
+
 These	NN	O	O
 polymerization	NN	O	B-Process
 reactions	NN	O	I-Process
@@ -16165,6 +16770,7 @@ in	NN	O	O
 dispersed	NN	O	B-Material
 media	NN	O	I-Material
 .	NN	O	O
+
 Heterophase	NN	O	B-Process
 polymerizations	NN	O	I-Process
 (	NN	O	O
@@ -16203,6 +16809,7 @@ the	NN	O	O
 reaction	NN	O	B-Material
 medium	NN	O	I-Material
 .	NN	O	O
+
 Polymerization	NN	O	B-Process
 in	NN	O	O
 solution	NN	O	B-Material
@@ -16235,6 +16842,7 @@ of	NN	O	O
 organic	NN	O	B-Material
 solvents	NN	O	I-Material
 .	NN	O	O
+
 These	NN	O	O
 problems	NN	O	O
 are	NN	O	O
@@ -16264,6 +16872,7 @@ used	NN	O	O
 as	NN	O	O
 medium	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 use	NN	O	O
 of	NN	O	O
@@ -16289,6 +16898,7 @@ water	NN	O	B-Material
 phase	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386110001667)
 
 Note	NN	O	O
@@ -16327,6 +16937,7 @@ initiator	NN	O	I-Material
 7,12,21,61–65	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 exclusive	NN	O	O
 preparation	NN	O	B-Process
@@ -16381,6 +16992,7 @@ as	NN	O	O
 described	NN	O	O
 below	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 contrast	NN	O	O
 ,	NN	O	O
@@ -16433,6 +17045,7 @@ Scheme	NN	O	O
 67–69	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 equilibrium	NN	O	O
 between	NN	O	O
@@ -16483,6 +17096,7 @@ probable	NN	O	O
 side	NN	O	O
 reactions	NN	O	O
 .	NN	O	O
+
 Importance	NN	O	O
 of	NN	O	O
 using	NN	O	O
@@ -16527,6 +17141,7 @@ deactivation	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386110004039)
 
 An	NN	O	O
@@ -16549,6 +17164,7 @@ a	NN	O	I-Task
 polymer	NN	O	I-Task
 matrix	NN	O	I-Task
 .	NN	O	O
+
 ROM	NN	O	B-Material
 polymers	NN	O	I-Material
 have	NN	O	O
@@ -16566,6 +17182,7 @@ complex	NN	O	I-Material
 platinum	NN	O	I-Material
 tetrakis(pentafluorophenyl)porphyrin	NN	O	I-Material
 .	NN	O	O
+
 A	NN	O	O
 correlation	NN	O	O
 between	NN	O	O
@@ -16593,6 +17210,7 @@ established	NN	O	O
 34	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Several	NN	O	O
 works	NN	O	O
 are	NN	O	O
@@ -16640,6 +17258,7 @@ in	NN	O	I-Task
 the	NN	O	I-Task
 copolymers	NN	O	I-Task
 .	NN	O	O
+
 Another	NN	O	O
 application	NN	O	O
 comprises	NN	O	O
@@ -16685,6 +17304,7 @@ stability	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0032386114008428)
 
 Another	NN	O	B-Process
@@ -16702,10 +17322,12 @@ with	NN	O	I-Process
 functional	NN	O	I-Process
 groups	NN	O	I-Process
 .	NN	O	O
+
 Casazza	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 52	NN	O	O
 ]	NN	O	O
@@ -16736,6 +17358,7 @@ co	NN	O	I-Material
 ethyl	NN	O	I-Material
 acrylate	NN	O	I-Material
 )	NN	O	O
+
 random	NN	O	O
 copolymer	NN	O	B-Material
 through	NN	O	O
@@ -16743,10 +17366,12 @@ hexamethylene	NN	O	B-Process
 diisocyanate	NN	O	I-Process
 functionality	NN	O	I-Process
 .	NN	O	O
+
 Malshe	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 53,54	NN	O	O
 ]	NN	O	O
@@ -16771,6 +17396,7 @@ methacrylate	NN	O	I-Material
 HEMA	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 They	NN	O	O
 partially	NN	O	O
 esterified	NN	O	O
@@ -16792,6 +17418,7 @@ melamine	NN	O	I-Material
 formaldehyde	NN	O	I-Material
 resin	NN	O	I-Material
 .	NN	O	O
+
 Such	NN	O	O
 methods	NN	O	O
 were	NN	O	O
@@ -16816,6 +17443,7 @@ living	NN	O	B-Process
 polymerization	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0038092X11004129)
 
 Assuming	NN	O	O
@@ -16851,6 +17479,7 @@ radiation	NN	O	I-Process
 intensity	NN	O	O
 level	NN	O	O
 .	NN	O	O
+
 From	NN	O	O
 Table	NN	O	O
 2	NN	O	O
@@ -16897,6 +17526,7 @@ the	NN	O	O
 %	NN	O	O
 assumed	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 energy	NN	O	O
 dissipated	NN	O	O
@@ -16912,6 +17542,7 @@ be	NN	O	O
 %	NN	O	O
 higher	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 correct	NN	O	O
 for	NN	O	O
@@ -16927,9 +17558,11 @@ modified	NN	O	O
 using	NN	O	O
 the	NN	O	O
 following	NN	O	O
-formula:(3)Iact	NN	O	B-Process
-=	NN	O	I-Process
-I×0.850.85+dηwhere	NN	O	I-Process
+formula:(3)Iact	NN	O	O
+
+=	NN	O	O
+I×0.850.85+dηwhere	NN	O	O
+
 Iact	NN	O	O
 is	NN	O	O
 the	NN	O	O
@@ -16963,6 +17596,7 @@ cell	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0038092X14000942)
 
 Thermal	NN	O	B-Task
@@ -16997,8 +17631,10 @@ water	NN	O	B-Process
 flow	NN	O	I-Process
 rate	NN	O	I-Process
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 11	NN	O	O
 shows	NN	O	O
 a	NN	O	O
@@ -17029,6 +17665,7 @@ on	NN	O	O
 Table	NN	O	O
 3	NN	O	O
 .	NN	O	O
+
 Simulation	NN	O	B-Material
 data	NN	O	I-Material
 has	NN	O	O
@@ -17039,6 +17676,7 @@ all	NN	O	O
 successive	NN	O	O
 simulations	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 effect	NN	O	O
 of	NN	O	O
@@ -17058,8 +17696,10 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 12	NN	O	O
 .	NN	O	O
+
 Three	NN	O	O
 different	NN	O	O
 simulations	NN	O	B-Process
@@ -17107,9 +17747,11 @@ K	NN	O	O
 K	NN	O	O
 and	NN	O	O
 0.01kg	NN	O	O
+
 /	NN	O	O
 s	NN	O	O
 .	NN	O	O
+
 Water	NN	O	O
 temperature	NN	O	O
 was	NN	O	O
@@ -17152,6 +17794,7 @@ solar	NN	O	B-Process
 radiation	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0038092X14004770)
 
 Shading	NN	O	B-Process
@@ -17168,6 +17811,7 @@ a	NN	O	O
 domestic	NN	O	B-Material
 system	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 impact	NN	O	O
 of	NN	O	O
@@ -17195,6 +17839,7 @@ an	NN	O	O
 installed	NN	O	B-Material
 array	NN	O	I-Material
 .	NN	O	O
+
 Whilst	NN	O	O
 many	NN	O	O
 approaches	NN	O	O
@@ -17226,6 +17871,7 @@ energy	NN	O	B-Process
 yield	NN	O	I-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 lack	NN	O	O
 of	NN	O	O
@@ -17263,17 +17909,19 @@ antennas	NN	O	B-Material
 or	NN	O	O
 chimneys	NN	O	B-Material
 .	NN	O	O
+
 As	NN	O	O
 an	NN	O	O
 example	NN	O	O
 ,	NN	O	O
 the	NN	O	O
-system	NN	O	B-Material
-shown	NN	O	I-Material
-in	NN	O	I-Material
-Fig	NN	O	I-Material
-.	NN	O	I-Material
-1	NN	O	I-Material
+system	NN	O	O
+shown	NN	O	O
+in	NN	O	O
+Fig	NN	O	O
+.	NN	O	O
+
+1	NN	O	O
 illustrates	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -17324,6 +17972,7 @@ cell	NN	O	I-Process
 mismatch	NN	O	I-Process
 effects	NN	O	I-Process
 .	NN	O	O
+
 An	NN	O	O
 effective	NN	O	B-Process
 shading	NN	O	I-Process
@@ -17356,6 +18005,7 @@ power	NN	O	I-Process
 computing	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0038092X15000559)
 
 Progressive	NN	O	B-Process
@@ -17369,6 +18019,7 @@ Hachisuka	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2008	NN	O	O
 )	NN	O	O
@@ -17390,6 +18041,7 @@ the	NN	O	O
 Radiance	NN	O	B-Process
 extension	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 combines	NN	O	O
 multiple	NN	O	O
@@ -17413,6 +18065,7 @@ the	NN	O	O
 traditional	NN	O	B-Process
 approach	NN	O	I-Process
 .	NN	O	O
+
 Through	NN	O	O
 iteration	NN	O	O
 ,	NN	O	O
@@ -17434,6 +18087,7 @@ and	NN	O	I-Process
 averaging	NN	O	I-Process
 them	NN	O	O
 .	NN	O	O
+
 At	NN	O	O
 the	NN	O	O
 same	NN	O	O
@@ -17479,6 +18133,7 @@ Jensen	NN	O	O
 2001	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resulting	NN	O	O
 irradiance	NN	O	B-Material
@@ -17506,6 +18161,7 @@ furthest	NN	O	O
 photon	NN	O	B-Material
 found	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -17549,6 +18205,7 @@ to	NN	O	O
 mitigate	NN	O	B-Process
 bias	NN	O	I-Process
 .	NN	O	O
+
 As	NN	O	O
 Hachisuka	NN	O	O
 points	NN	O	O
@@ -17568,6 +18225,7 @@ the	NN	O	O
 limit	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0038092X15001681)
 
 For	NN	O	O
@@ -17605,6 +18263,7 @@ high	NN	O	B-Material
 efficiency	NN	O	I-Material
 modules	NN	O	I-Material
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 standard	NN	O	B-Material
@@ -17641,6 +18300,7 @@ of	NN	O	I-Material
 VDC	NN	O	B-Material
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 high	NN	O	B-Material
@@ -17673,12 +18333,15 @@ system	NN	O	O
 Voc	NN	O	B-Material
 of	NN	O	I-Material
 873	NN	O	I-Material
+
 [	NN	O	O
 VDC	NN	O	B-Material
 ]	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 5(a	NN	O	O
 )	NN	O	O
 shows	NN	O	O
@@ -17703,8 +18366,10 @@ by	NN	O	O
 90	NN	O	O
 %	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 5(b	NN	O	O
 )	NN	O	O
 shows	NN	O	O
@@ -17728,6 +18393,7 @@ short	NN	O	I-Process
 -	NN	O	I-Process
 circuited	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 both	NN	O	O
 figures	NN	O	O
@@ -17752,6 +18418,7 @@ efficiency	NN	O	I-Material
 system	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0039602899010869)
 
 The	NN	O	O
@@ -17767,6 +18434,7 @@ der	NN	O	I-Process
 Waals	NN	O	I-Process
 interaction	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 includes	NN	O	O
 the	NN	O	O
@@ -17835,6 +18503,7 @@ the	NN	O	O
 sample	NN	O	B-Material
 atoms	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 first	NN	O	O
 contribution	NN	O	O
@@ -17845,6 +18514,7 @@ analytically	NN	O	O
 27	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 fact	NN	O	O
 ,	NN	O	O
@@ -17897,6 +18567,7 @@ system	NN	O	O
 27	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 All	NN	O	O
 these	NN	O	O
 quantities	NN	O	O
@@ -17905,6 +18576,7 @@ identical	NN	O	O
 in	NN	O	O
 each	NN	O	O
 system	NN	O	O
+
 we	NN	O	O
 look	NN	O	O
 at	NN	O	O
@@ -17934,6 +18606,7 @@ system	NN	O	O
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Hamaker	NN	O	O
 constant	NN	O	O
@@ -17953,11 +18626,13 @@ estimated	NN	O	O
 to	NN	O	O
 be	NN	O	O
 0.5eV	NN	O	O
+
 [	NN	O	O
 32	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782511003823)
 
 In	NN	O	O
@@ -17987,6 +18662,7 @@ of	NN	O	I-Task
 nonlinear	NN	O	I-Task
 elasticity	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 mortar	NN	O	B-Process
 method	NN	O	I-Process
@@ -18004,6 +18680,7 @@ Laursen	NN	O	O
 (	NN	O	O
 2002	NN	O	O
 )	NN	O	O
+
 [	NN	O	O
 25	NN	O	O
 ]	NN	O	O
@@ -18015,6 +18692,7 @@ is	NN	O	O
 variationally	NN	O	O
 consistent	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 show	NN	O	O
 that	NN	O	O
@@ -18042,6 +18720,7 @@ has	NN	O	O
 been	NN	O	O
 implemented	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -18066,6 +18745,7 @@ system	NN	O	I-Process
 under	NN	O	O
 consideration	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 excellent	NN	O	O
 performance	NN	O	O
@@ -18089,6 +18769,7 @@ representative	NN	O	O
 numerical	NN	O	O
 examples	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 present	NN	O	O
@@ -18116,6 +18797,7 @@ of	NN	O	I-Task
 nonlinear	NN	O	I-Task
 elasticity	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 mortar	NN	O	B-Process
 method	NN	O	I-Process
@@ -18133,6 +18815,7 @@ Laursen	NN	O	O
 (	NN	O	O
 2002	NN	O	O
 )	NN	O	O
+
 [	NN	O	O
 25	NN	O	O
 ]	NN	O	O
@@ -18144,6 +18827,7 @@ is	NN	O	O
 variationally	NN	O	O
 consistent	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 show	NN	O	O
 that	NN	O	O
@@ -18171,6 +18855,7 @@ has	NN	O	O
 been	NN	O	O
 implemented	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -18195,6 +18880,7 @@ system	NN	O	I-Process
 under	NN	O	O
 consideration	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 excellent	NN	O	O
 performance	NN	O	O
@@ -18219,6 +18905,7 @@ numerical	NN	O	O
 examples	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782512000266)
 
 In	NN	O	O
@@ -18248,6 +18935,7 @@ uncertainty	NN	O	I-Process
 is	NN	O	O
 suggested	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 contribution	NN	O	O
 ,	NN	O	O
@@ -18279,6 +18967,7 @@ in	NN	O	O
 the	NN	O	O
 literature	NN	O	O
 .	NN	O	O
+
 Firstly	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -18301,6 +18990,7 @@ elements	NN	O	I-Material
 24–26	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 application	NN	O	O
 of	NN	O	O
@@ -18320,6 +19010,7 @@ a	NN	O	I-Task
 unified	NN	O	I-Task
 framework	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 should	NN	O	O
 be	NN	O	O
@@ -18344,6 +19035,7 @@ phenomenon	NN	O	I-Task
 27,28	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 its	NN	O	O
 application	NN	O	O
@@ -18357,6 +19049,7 @@ constitutes	NN	O	O
 a	NN	O	O
 novelty	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 second	NN	O	O
 innovative	NN	O	O
@@ -18383,6 +19076,7 @@ the	NN	O	I-Process
 maintenance	NN	O	I-Process
 scheduling	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 estimation	NN	O	B-Process
 of	NN	O	I-Process
@@ -18430,6 +19124,7 @@ the	NN	O	I-Task
 failure	NN	O	I-Task
 probability	NN	O	I-Task
 .	NN	O	O
+
 A	NN	O	O
 new	NN	O	O
 approach	NN	O	O
@@ -18441,6 +19136,7 @@ is	NN	O	O
 proposed	NN	O	O
 herein	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 continuous	NN	O	B-Material
 and	NN	O	I-Material
@@ -18464,6 +19160,7 @@ failure	NN	O	I-Process
 events	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0045782512002599)
 
 Finite	NN	O	B-Process
@@ -18491,6 +19188,7 @@ in	NN	O	I-Task
 computational	NN	O	I-Task
 mechanics	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 numerical	NN	O	B-Material
 simulation	NN	O	I-Material
@@ -18514,7 +19212,9 @@ in	NN	O	O
 appropriate	NN	O	O
 ways	NN	O	O
 .	NN	O	O
+
 NURBS-	NN	O	B-Process
+
 (	NN	O	O
 Non	NN	O	B-Process
 -	NN	O	I-Process
@@ -18524,6 +19224,7 @@ B	NN	O	I-Process
 -	NN	O	I-Process
 spline	NN	O	I-Process
 )	NN	O	O
+
 based	NN	O	O
 isogeometric	NN	O	B-Process
 analysis	NN	O	I-Process
@@ -18548,6 +19249,7 @@ several	NN	O	I-Task
 NURBS	NN	O	I-Task
 geometries	NN	O	I-Task
 .	NN	O	O
+
 Since	NN	O	O
 there	NN	O	O
 is	NN	O	O
@@ -18575,6 +19277,7 @@ using	NN	O	O
 FETI	NN	O	B-Process
 methods	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 proposes	NN	O	O
@@ -18605,6 +19308,7 @@ representation	NN	O	I-Process
 of	NN	O	O
 IGA	NN	O	B-Process
 .	NN	O	O
+
 We	NN	O	O
 describe	NN	O	O
 the	NN	O	O
@@ -18650,6 +19354,7 @@ hanging	NN	O	B-Material
 nodes	NN	O	I-Material
 )	NN	O	O
 .	NN	O	O
+
 Special	NN	O	O
 attention	NN	O	O
 is	NN	O	O
@@ -18672,6 +19377,7 @@ the	NN	O	O
 interface	NN	O	O
 problem	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 report	NN	O	O
 several	NN	O	O
@@ -18688,6 +19394,7 @@ IETI	NN	O	I-Task
 method	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0045782512002678)
 
 To	NN	O	O
@@ -18717,9 +19424,11 @@ linear	NN	O	I-Process
 algebra	NN	O	I-Process
 solvers	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 16	NN	O	O
 ]	NN	O	O
@@ -18747,9 +19456,11 @@ three	NN	O	O
 -	NN	O	O
 dimensions	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 29	NN	O	O
 ]	NN	O	O
@@ -18804,6 +19515,7 @@ and	NN	O	I-Process
 interconnecting	NN	O	I-Process
 method	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 only	NN	O	O
 paper	NN	O	O
@@ -18825,6 +19537,7 @@ Beirao	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 12	NN	O	O
 ]	NN	O	O
@@ -18837,6 +19550,7 @@ overlapping	NN	O	O
 Schwarz	NN	O	B-Process
 methods	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 same	NN	O	O
 authors	NN	O	O
@@ -18854,6 +19568,7 @@ in	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782512003234)
 
 An	NN	O	O
@@ -18899,6 +19614,7 @@ Pivonka	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 25,26	NN	O	O
 ]	NN	O	O
@@ -18915,6 +19631,7 @@ Section	NN	O	O
 2	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Then	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -18929,6 +19646,7 @@ Hellmich	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 30	NN	O	O
 ]	NN	O	O
@@ -18976,6 +19694,7 @@ load	NN	O	I-Process
 carrying	NN	O	I-Process
 capacity	NN	O	I-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 extension	NN	O	O
@@ -19006,6 +19725,7 @@ Section	NN	O	O
 3	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 micromechanics	NN	O	B-Process
 formulation	NN	O	I-Process
@@ -19037,6 +19757,7 @@ the	NN	O	O
 micromechanics	NN	O	B-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 then	NN	O	O
 apply	NN	O	O
@@ -19074,6 +19795,7 @@ Section	NN	O	O
 6	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 After	NN	O	O
 emphasizing	NN	O	O
 the	NN	O	O
@@ -19099,6 +19821,7 @@ Section	NN	O	O
 8)	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782512003428)
 
 The	NN	O	O
@@ -19126,6 +19849,7 @@ of	NN	O	I-Task
 the	NN	O	I-Task
 formulation	NN	O	I-Task
 .	NN	O	O
+
 For	NN	O	O
 example	NN	O	O
 ,	NN	O	O
@@ -19147,6 +19871,7 @@ low	NN	O	O
 energy	NN	O	O
 modes	NN	O	O
 .	NN	O	O
+
 They	NN	O	O
 need	NN	O	O
 non	NN	O	B-Material
@@ -19159,6 +19884,7 @@ that	NN	O	O
 stabilize	NN	O	B-Task
 them	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 articles	NN	O	O
 [	NN	O	O
@@ -19193,6 +19919,7 @@ continuous	NN	O	B-Process
 deformation	NN	O	I-Process
 gradients	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 first	NN	O	B-Material
 order	NN	O	I-Material
@@ -19211,7 +19938,9 @@ element	NN	O	B-Material
 types	NN	O	I-Material
 C3D_8N_27C	NN	O	B-Material
 and	NN	O	O
+
 C3D_8N_8I.	NN	O	B-Material
+
 The	NN	O	O
 first	NN	O	O
 is	NN	O	O
@@ -19236,6 +19965,7 @@ by	NN	O	O
 Lagrange	NN	O	O
 polynomials	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 latter	NN	O	O
 element	NN	O	O
@@ -19263,6 +19993,7 @@ the	NN	O	O
 element	NN	O	O
 interior	NN	O	O
 .	NN	O	O
+
 Among	NN	O	O
 the	NN	O	O
 tested	NN	O	O
@@ -19289,6 +20020,7 @@ be	NN	O	O
 most	NN	O	O
 accurate	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 turned	NN	O	O
 out	NN	O	O
@@ -19326,8 +20058,10 @@ restoring	NN	O	O
 force	NN	O	O
 assembly	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 illustrates	NN	O	O
 the	NN	O	O
@@ -19343,6 +20077,7 @@ SFEM	NN	O	I-Process
 formulations	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0045782513000479)
 
 Algorithms	NN	O	B-Material
@@ -19357,6 +20092,7 @@ level	NN	O	B-Process
 set	NN	O	I-Process
 equation	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 level	NN	O	B-Process
 set	NN	O	I-Process
@@ -19388,6 +20124,7 @@ Hamilton	NN	O	B-Process
 Jacobi	NN	O	I-Process
 equation	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 performed	NN	O	O
@@ -19407,6 +20144,7 @@ or	NN	O	I-Material
 three	NN	O	I-Material
 dimensions	NN	O	I-Material
 .	NN	O	O
+
 Information	NN	O	O
 on	NN	O	O
 normal	NN	O	O
@@ -19417,6 +20155,7 @@ can	NN	O	O
 be	NN	O	O
 obtained	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 fast	NN	O	B-Process
 marching	NN	O	I-Process
@@ -19441,6 +20180,7 @@ on	NN	O	I-Task
 the	NN	O	I-Task
 grid	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 a	NN	O	O
@@ -19477,6 +20217,7 @@ by	NN	O	I-Process
 the	NN	O	I-Process
 interface	NN	O	I-Process
 .	NN	O	O
+
 An	NN	O	O
 overview	NN	O	O
 on	NN	O	O
@@ -19521,6 +20262,7 @@ times	NN	O	I-Task
 ,	NN	O	O
 etc	NN	O	O
 .	NN	O	O
+
 Distance	NN	O	B-Task
 fields	NN	O	I-Task
 are	NN	O	O
@@ -19544,6 +20286,7 @@ is	NN	O	O
 1	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782513000546)
 
 In	NN	O	O
@@ -19575,6 +20318,7 @@ viscoelastic	NN	O	I-Task
 porous	NN	O	I-Task
 medium	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 constitutive	NN	O	B-Process
 equations	NN	O	I-Process
@@ -19598,6 +20342,7 @@ the	NN	O	O
 fluid	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 Fully	NN	O	B-Process
 discrete	NN	O	I-Process
 numerical	NN	O	I-Process
@@ -19628,6 +20373,7 @@ element	NN	O	I-Material
 spatial	NN	O	I-Material
 discretization	NN	O	I-Material
 .	NN	O	O
+
 We	NN	O	O
 show	NN	O	O
 that	NN	O	O
@@ -19648,6 +20394,7 @@ bound	NN	O	O
 for	NN	O	O
 it	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 this	NN	O	O
@@ -19692,6 +20439,7 @@ one	NN	O	O
 time	NN	O	O
 step	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 required	NN	O	O
 additional	NN	O	O
@@ -19727,6 +20475,7 @@ engines	NN	O	I-Material
 remain	NN	O	O
 intact	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 idea	NN	O	O
 of	NN	O	O
@@ -19753,6 +20502,7 @@ is	NN	O	O
 not	NN	O	O
 new	NN	O	O
 .	NN	O	O
+
 Lagging	NN	O	O
 in	NN	O	O
 numerical	NN	O	B-Process
@@ -19769,6 +20519,7 @@ in	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782513001448)
 
 Traditionally	NN	O	O
@@ -19795,6 +20546,7 @@ formulation	NN	O	I-Process
 WCSPH	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 approach	NN	O	O
@@ -19817,6 +20569,7 @@ equation	NN	O	I-Process
 of	NN	O	I-Process
 state	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 sound	NN	O	O
 speed	NN	O	O
@@ -19841,6 +20594,7 @@ actual	NN	O	O
 fluid	NN	O	B-Material
 density	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 practice	NN	O	O
 ,	NN	O	O
@@ -19865,12 +20619,14 @@ Courant	NN	O	O
 –	NN	O	O
 Friedrichs	NN	O	O
 –	NN	O	O
+
 Lewy	NN	O	O
 (	NN	O	O
 CFL	NN	O	O
 )	NN	O	O
 constraint	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 particular	NN	O	O
 weakness	NN	O	O
@@ -19899,6 +20655,7 @@ the	NN	O	O
 local	NN	O	O
 pressure	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 can	NN	O	O
 make	NN	O	O
@@ -19928,6 +20685,7 @@ this	NN	O	O
 1,2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 review	NN	O	O
 of	NN	O	O
@@ -19964,6 +20722,7 @@ in	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782513001473)
 
 In	NN	O	O
@@ -19984,6 +20743,7 @@ by	NN	O	O
 Hadjiconstantinou	NN	O	O
 and	NN	O	O
 Patera	NN	O	O
+
 [	NN	O	O
 16	NN	O	O
 ]	NN	O	O
@@ -20012,6 +20772,7 @@ of	NN	O	O
 the	NN	O	O
 box	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 framed	NN	O	B-Process
 cell	NN	O	I-Process
@@ -20043,6 +20804,7 @@ produce	NN	O	O
 spurious	NN	O	O
 results	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 need	NN	O	O
 the	NN	O	O
@@ -20062,10 +20824,12 @@ term	NN	O	O
 in	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 3	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 There	NN	O	O
 are	NN	O	O
 other	NN	O	O
@@ -20154,6 +20918,7 @@ the	NN	O	O
 momentum	NN	O	O
 flux	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 new	NN	O	O
 method	NN	O	O
@@ -20199,6 +20964,7 @@ IK	NN	O	B-Process
 equation	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S004578251300176X)
 
 Powder	NN	O	B-Process
@@ -20224,6 +20990,7 @@ high	NN	O	O
 product	NN	O	O
 quality	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 a	NN	O	O
 hardmetal	NN	O	B-Material
@@ -20257,6 +21024,7 @@ the	NN	O	O
 subsequent	NN	O	O
 heating	NN	O	B-Process
 .	NN	O	O
+
 This	NN	O	O
 means	NN	O	O
 that	NN	O	O
@@ -20290,6 +21058,7 @@ stored	NN	O	O
 surface	NN	O	O
 energy	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resulting	NN	O	O
 flow	NN	O	O
@@ -20322,6 +21091,7 @@ at	NN	O	O
 least	NN	O	O
 ideally	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 model	NN	O	B-Task
 and	NN	O	I-Task
@@ -20335,6 +21105,7 @@ a	NN	O	O
 challenging	NN	O	O
 task	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 goal	NN	O	O
 is	NN	O	O
@@ -20373,6 +21144,7 @@ sintered	NN	O	B-Material
 component	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0045782514000607)
 
 As	NN	O	O
@@ -20413,6 +21185,7 @@ the	NN	O	O
 projection	NN	O	O
 operator	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 equivalence	NN	O	O
 of	NN	O	O
@@ -20439,6 +21212,7 @@ of	NN	O	O
 each	NN	O	O
 method	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 instance	NN	O	O
 ,	NN	O	O
@@ -20463,6 +21237,7 @@ the	NN	O	O
 PL	NN	O	B-Process
 formulation	NN	O	I-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 due	NN	O	O
@@ -20496,6 +21271,7 @@ deteriorated	NN	O	O
 nonlinear	NN	O	B-Material
 convergence	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 stands	NN	O	O
 in	NN	O	O
@@ -20523,6 +21299,7 @@ high	NN	O	O
 bulk	NN	O	O
 modulus	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -20558,6 +21335,7 @@ should	NN	O	O
 be	NN	O	O
 similar	NN	O	O
 .	NN	O	O
+
 Examining	NN	O	O
 the	NN	O	O
 update	NN	O	O
@@ -20601,6 +21379,7 @@ the	NN	O	I-Task
 residual	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0045782514001492)
 
 Energy	NN	O	B-Process
@@ -20621,10 +21400,12 @@ contact	NN	O	B-Task
 and	NN	O	I-Task
 collision	NN	O	I-Task
 problems	NN	O	I-Task
+
 [	NN	O	O
 28,43	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 number	NN	O	O
 of	NN	O	O
@@ -20638,6 +21419,7 @@ ensure	NN	O	O
 energy	NN	O	B-Task
 conservation	NN	O	I-Task
 .	NN	O	O
+
 These	NN	O	O
 schemes	NN	O	O
 make	NN	O	O
@@ -20659,6 +21441,7 @@ from	NN	O	O
 continuum	NN	O	B-Task
 problems	NN	O	I-Task
 .	NN	O	O
+
 These	NN	O	O
 conservation	NN	O	B-Process
 schemes	NN	O	I-Process
@@ -20686,9 +21469,11 @@ contact	NN	O	I-Task
 and	NN	O	I-Task
 collision	NN	O	I-Task
 .	NN	O	O
+
 Hesch	NN	O	O
 and	NN	O	O
 Betsch	NN	O	O
+
 [	NN	O	O
 45	NN	O	O
 ]	NN	O	O
@@ -20712,6 +21497,7 @@ the	NN	O	O
 conserving	NN	O	B-Process
 scheme	NN	O	I-Process
 .	NN	O	O
+
 More	NN	O	O
 recently	NN	O	O
 ,	NN	O	O
@@ -20739,6 +21525,7 @@ friction	NN	O	B-Process
 and	NN	O	O
 dissipation	NN	O	B-Process
 .	NN	O	O
+
 Even	NN	O	O
 though	NN	O	O
 the	NN	O	O
@@ -20764,6 +21551,7 @@ determine	NN	O	O
 penalty	NN	O	O
 parameters	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -20797,6 +21585,7 @@ penalty	NN	O	O
 parameters	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S004578251400334X)
 
 In	NN	O	O
@@ -20836,6 +21625,7 @@ Reynolds	NN	O	I-Task
 number	NN	O	I-Task
 flows	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 method	NN	O	O
 is	NN	O	O
@@ -20857,6 +21647,7 @@ boundary	NN	O	I-Material
 layer	NN	O	I-Material
 mesh	NN	O	I-Material
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 based	NN	O	O
@@ -20910,6 +21701,7 @@ high	NN	O	I-Material
 order	NN	O	I-Material
 prisms	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 procedure	NN	O	O
 is	NN	O	O
@@ -20955,6 +21747,7 @@ chosen	NN	O	O
 appropriately	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782514004812)
 
 We	NN	O	O
@@ -20999,6 +21792,7 @@ time	NN	O	I-Task
 -	NN	O	I-Task
 derivative	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -21014,6 +21808,7 @@ within	NN	O	O
 this	NN	O	O
 class	NN	O	O
 .	NN	O	O
+
 Another	NN	O	O
 interesting	NN	O	O
 application	NN	O	O
@@ -21036,6 +21831,7 @@ a	NN	O	O
 Hamiltonian	NN	O	B-Task
 description	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 of	NN	O	O
@@ -21092,6 +21888,7 @@ the	NN	O	O
 next	NN	O	O
 one	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 this	NN	O	O
 end	NN	O	O
@@ -21101,6 +21898,7 @@ introduce	NN	O	O
 a	NN	O	O
 partition	NN	O	O
 0=t0<t1<⋯<tN	NN	O	O
+
 =	NN	O	O
 T	NN	O	O
 of	NN	O	O
@@ -21119,6 +21917,7 @@ In=(tn−1,tn	NN	O	O
 of	NN	O	O
 length	NN	O	O
 Δtn	NN	O	O
+
 =	NN	O	O
 tn−tn−1.11The	NN	O	O
 abbreviated	NN	O	O
@@ -21137,24 +21936,29 @@ associated	NN	O	O
 with	NN	O	O
 In	NN	O	O
 .	NN	O	O
+
 Hence	NN	O	O
 ,	NN	O	O
 we	NN	O	O
 define	NN	O	O
+
 space	NN	O	B-Material
 –	NN	O	I-Material
 time	NN	O	I-Material
 slabs	NN	O	I-Material
-Sn	NN	O	B-Material
-=	NN	O	I-Material
-defΩ×In	NN	O	I-Material
+Sn	NN	O	O
+
+=	NN	O	O
+defΩ×In	NN	O	O
 such	NN	O	O
+
 that	NN	O	O
 the	NN	O	O
-space	NN	O	B-Material
-–	NN	O	I-Material
-time	NN	O	I-Material
-domain	NN	O	I-Material
+space	NN	O	O
+–	NN	O	O
+
+time	NN	O	O
+domain	NN	O	O
 can	NN	O	O
 be	NN	O	O
 given	NN	O	O
@@ -21166,11 +21970,13 @@ defΩ×I	NN	O	I-Material
 S1∪S2⋯∪Sn	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0045782515001231)
 
 Isogeometric	NN	O	B-Task
 analysis	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 central	NN	O	O
 idea	NN	O	O
@@ -21206,6 +22012,7 @@ the	NN	O	O
 problem	NN	O	B-Task
 geometry	NN	O	I-Task
 .	NN	O	O
+
 Usually	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -21230,6 +22037,7 @@ T	NN	O	B-Material
 -	NN	O	I-Material
 splines	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 concept	NN	O	O
 ,	NN	O	O
@@ -21264,6 +22072,7 @@ monograph	NN	O	O
 3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Since	NN	O	O
 CAD	NN	O	B-Process
 directly	NN	O	O
@@ -21309,6 +22118,7 @@ explicitly	NN	O	O
 known	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Isogeometric	NN	O	B-Process
 BEM	NN	O	I-Process
 (	NN	O	O
@@ -21334,6 +22144,7 @@ in	NN	O	O
 5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Unlike	NN	O	O
 standard	NN	O	B-Process
 BEM	NN	O	I-Process
@@ -21351,6 +22162,7 @@ literature	NN	O	O
 ,	NN	O	O
 cf	NN	O	O
 .	NN	O	O
+
 the	NN	O	O
 monographs	NN	O	O
 [	NN	O	O
@@ -21370,10 +22182,12 @@ is	NN	O	O
 essentially	NN	O	O
 open	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 only	NN	O	O
 refer	NN	O	O
 to	NN	O	O
+
 [	NN	O	O
 2,8–10	NN	O	O
 ]	NN	O	O
@@ -21390,6 +22204,7 @@ some	NN	O	O
 quadrature	NN	O	B-Task
 analysis	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -21432,6 +22247,7 @@ IGABEM	NN	O	B-Process
 so	NN	O	O
 far	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 purpose	NN	O	O
 of	NN	O	O
@@ -21463,6 +22279,7 @@ adaptive	NN	O	I-Task
 algorithm	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0045782515001899)
 
 In	NN	O	O
@@ -21496,10 +22313,12 @@ equations	NN	O	I-Task
 with	NN	O	O
 higher	NN	O	O
 accuracy	NN	O	O
+
 [	NN	O	O
 21–27	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 DG	NN	O	B-Process
 method	NN	O	I-Process
@@ -21533,6 +22352,7 @@ local	NN	O	B-Process
 basis	NN	O	I-Process
 functions	NN	O	I-Process
 .	NN	O	O
+
 On	NN	O	O
 this	NN	O	O
 basis	NN	O	O
@@ -21575,6 +22395,7 @@ order	NN	O	O
 of	NN	O	O
 accuracy	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 DG	NN	O	B-Task
 -	NN	O	I-Task
@@ -21621,6 +22442,7 @@ number	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782515002418)
 
 FR	NN	O	B-Process
@@ -21656,6 +22478,7 @@ computational	NN	O	B-Task
 aerodynamics	NN	O	I-Task
 )	NN	O	O
 .	NN	O	O
+
 Like	NN	O	O
 nodal	NN	O	B-Process
 DG	NN	O	I-Process
@@ -21703,6 +22526,7 @@ element	NN	O	I-Process
 solution	NN	O	I-Process
 continuity	NN	O	I-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 unlike	NN	O	O
@@ -21724,6 +22548,7 @@ a	NN	O	O
 differential	NN	O	O
 form	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 description	NN	O	O
 of	NN	O	O
@@ -21736,6 +22561,7 @@ is	NN	O	O
 presented	NN	O	O
 below	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 further	NN	O	O
 information	NN	O	O
@@ -21750,6 +22576,7 @@ Huynh	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782515002686)
 
 The	NN	O	O
@@ -21807,6 +22634,7 @@ cells	NN	O	I-Task
 in	NN	O	I-Task
 Poiseuille	NN	O	I-Task
 flow	NN	O	I-Task
+
 [	NN	O	O
 6	NN	O	O
 ]	NN	O	O
@@ -21819,6 +22647,7 @@ particles	NN	O	I-Task
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 comprehensive	NN	O	O
 list	NN	O	O
@@ -21832,6 +22661,7 @@ in	NN	O	O
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 IBM	NN	O	B-Process
 is	NN	O	O
@@ -21850,6 +22680,7 @@ structure	NN	O	I-Task
 interaction	NN	O	I-Task
 problems	NN	O	I-Task
 .	NN	O	O
+
 As	NN	O	O
 mentioned	NN	O	O
 above	NN	O	O
@@ -21881,6 +22712,7 @@ suitable	NN	O	O
 jump	NN	O	O
 conditions	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 IBM	NN	O	B-Process
@@ -21908,6 +22740,7 @@ the	NN	O	O
 surrounding	NN	O	B-Material
 fluid	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 means	NN	O	O
 that	NN	O	O
@@ -21930,6 +22763,7 @@ phase	NN	O	O
 formulation	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Additionally	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -21960,6 +22794,7 @@ classical	NN	O	O
 formulation	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0045782515003680)
 
 We	NN	O	O
@@ -21984,6 +22819,7 @@ immersed	NN	O	B-Material
 finite	NN	O	I-Material
 elements	NN	O	I-Material
 .	NN	O	O
+
 As	NN	O	O
 widely	NN	O	O
 discussed	NN	O	O
@@ -22020,6 +22856,7 @@ incompatible	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 particularly	NN	O	O
@@ -22049,6 +22886,7 @@ finite	NN	O	B-Process
 element	NN	O	I-Process
 computation	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 inherent	NN	O	O
 shortcomings	NN	O	O
@@ -22068,6 +22906,7 @@ shape	NN	O	B-Process
 optimisation	NN	O	I-Process
 techniques	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 most	NN	O	O
@@ -22105,6 +22944,7 @@ and	NN	O	O
 references	NN	O	O
 therein	NN	O	O
 .	NN	O	O
+
 Generally	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -22144,6 +22984,7 @@ for	NN	O	O
 manufacturing	NN	O	O
 purposes	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 geometric	NN	O	O
@@ -22169,6 +23010,7 @@ the	NN	O	O
 surrogate	NN	O	B-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 Recently	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -22198,11 +23040,13 @@ the	NN	O	O
 CAD	NN	O	B-Process
 geometry	NN	O	I-Process
 model	NN	O	I-Process
+
 [	NN	O	O
 12–15	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0079642514000887)
 
 The	NN	O	O
@@ -22246,6 +23090,7 @@ devices	NN	O	I-Task
 58–61	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 date	NN	O	O
 ,	NN	O	O
@@ -22284,6 +23129,7 @@ TEM	NN	O	B-Material
 62,63	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Compared	NN	O	O
 with	NN	O	O
 the	NN	O	O
@@ -22359,6 +23205,7 @@ statuses	NN	O	O
 68–71	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Combining	NN	O	O
 the	NN	O	O
 capabilities	NN	O	O
@@ -22394,6 +23241,7 @@ and	NN	O	O
 properties	NN	O	B-Task
 analysis	NN	O	I-Task
 .	NN	O	O
+
 Such	NN	O	O
 holders	NN	O	B-Process
 have	NN	O	O
@@ -22417,6 +23265,7 @@ Sweden	NN	O	O
 72	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 full	NN	O	O
 usefulness	NN	O	O
@@ -22494,6 +23343,7 @@ doping	NN	O	B-Task
 etc	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0098300412001793)
 
 MINERAL	NN	O	B-Task
@@ -22524,6 +23374,7 @@ the	NN	O	I-Process
 analytical	NN	O	I-Process
 uncertainties	NN	O	I-Process
 .	NN	O	O
+
 Methods	NN	O	B-Task
 are	NN	O	O
 based	NN	O	O
@@ -22538,6 +23389,7 @@ Day	NN	O	O
 1990	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 additional	NN	O	O
@@ -22555,6 +23407,7 @@ in	NN	O	I-Task
 data	NN	O	I-Task
 reporting	NN	O	I-Task
 .	NN	O	O
+
 Many	NN	O	O
 programs	NN	O	O
 exist	NN	O	O
@@ -22567,6 +23420,7 @@ formula	NN	O	O
 unit	NN	O	O
 cations	NN	O	O
 .	NN	O	O
+
 Some	NN	O	B-Task
 generalized	NN	O	I-Task
 programs	NN	O	I-Task
@@ -22601,6 +23455,7 @@ al	NN	O	O
 1992	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Other	NN	O	O
 programs	NN	O	O
 are	NN	O	O
@@ -22661,6 +23516,7 @@ of	NN	O	I-Task
 pyroxene	NN	O	I-Task
 analyses	NN	O	I-Task
 .	NN	O	O
+
 MINERAL	NN	O	B-Material
 provides	NN	O	O
 a	NN	O	O
@@ -22674,6 +23530,7 @@ multiple	NN	O	I-Task
 common	NN	O	I-Task
 minerals	NN	O	I-Task
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 its	NN	O	O
@@ -22695,6 +23552,7 @@ uncertainty	NN	O	I-Process
 propagation	NN	O	I-Process
 calculations	NN	O	I-Process
 .	NN	O	I-Process
+
 As	NN	O	O
 these	NN	O	O
 are	NN	O	O
@@ -22715,6 +23573,7 @@ perform	NN	O	O
 uncertainty	NN	O	O
 propagation	NN	O	O
 .	NN	O	O
+
 While	NN	O	O
 an	NN	O	O
 understanding	NN	O	O
@@ -22755,6 +23614,7 @@ with	NN	O	I-Task
 ease	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0098300413002185)
 
 A	NN	O	O
@@ -22816,6 +23676,7 @@ and	NN	O	I-Material
 the	NN	O	I-Material
 atmosphere	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 database	NN	O	B-Material
 provided	NN	O	O
@@ -22834,6 +23695,7 @@ lakes	NN	O	O
 in	NN	O	O
 Southern	NN	O	O
 Germany	NN	O	O
+
 (	NN	O	O
 Gege	NN	O	O
 ,	NN	O	O
@@ -22848,6 +23710,7 @@ Pinnel	NN	O	O
 2007	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 If	NN	O	O
 no	NN	O	O
 site	NN	O	O
@@ -22871,6 +23734,7 @@ ecosystems	NN	O	O
 as	NN	O	O
 well	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 variability	NN	O	O
 within	NN	O	O
@@ -22897,6 +23761,7 @@ do	NN	O	O
 not	NN	O	O
 exist	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 region	NN	O	B-Material
@@ -22910,6 +23775,7 @@ used	NN	O	O
 whenever	NN	O	O
 available	NN	O	O
 .	NN	O	O
+
 Ideally	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -22930,6 +23796,7 @@ or	NN	O	O
 satellite	NN	O	O
 overpass	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 however	NN	O	O
@@ -22937,6 +23804,7 @@ not	NN	O	O
 always	NN	O	O
 possible	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 valuable	NN	O	O
 source	NN	O	O
@@ -22952,6 +23820,7 @@ IOCCG	NN	O	O
 2013b	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 maintains	NN	O	O
 a	NN	O	O
@@ -23001,6 +23870,7 @@ SeaBASS	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0098300413002720)
 
 Artificial	NN	O	B-Task
@@ -23019,6 +23889,7 @@ and	NN	O	I-Task
 engineering	NN	O	I-Task
 problems	NN	O	I-Task
 .	NN	O	O
+
 They	NN	O	O
 attempt	NN	O	O
 to	NN	O	O
@@ -23035,6 +23906,7 @@ patterns	NN	O	I-Process
 and	NN	O	I-Process
 objects	NN	O	I-Process
 .	NN	O	O
+
 ANN	NN	O	B-Task
 basic	NN	O	I-Task
 architecture	NN	O	I-Task
@@ -23065,6 +23937,7 @@ classes	NN	O	O
 in	NN	O	O
 Τa	NN	O	O
 .	NN	O	O
+
 Different	NN	O	B-Task
 types	NN	O	I-Task
 of	NN	O	I-Task
@@ -23090,6 +23963,7 @@ Rojas	NN	O	O
 1996	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 During	NN	O	O
 training	NN	O	B-Task
 network	NN	O	I-Task
@@ -23109,6 +23983,7 @@ incurs	NN	O	I-Process
 an	NN	O	I-Process
 error	NN	O	I-Process
 .	NN	O	O
+
 Convergence	NN	O	B-Process
 proceeds	NN	O	O
 until	NN	O	O
@@ -23132,6 +24007,7 @@ Rojas	NN	O	O
 1996	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 use	NN	O	O
 feed	NN	O	B-Process
@@ -23183,6 +24059,7 @@ hidden	NN	O	O
 layer	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0098300413002951)
 
 Hitherto	NN	O	O
@@ -23212,6 +24089,7 @@ the	NN	O	O
 sea	NN	O	O
 floor	NN	O	O
 .	NN	O	O
+
 Due	NN	O	O
 to	NN	O	O
 the	NN	O	O
@@ -23236,6 +24114,7 @@ CT	NN	O	I-Process
 etc	NN	O	O
 .	NN	O	O
 )	NN	O	O
+
 it	NN	O	O
 became	NN	O	O
 possible	NN	O	O
@@ -23256,6 +24135,7 @@ three	NN	O	O
 dimensional	NN	O	O
 detail	NN	O	O
 .	NN	O	O
+
 Although	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -23288,6 +24168,7 @@ their	NN	O	I-Task
 interior	NN	O	I-Task
 orientation	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 study	NN	O	O
 illustrates	NN	O	O
@@ -23311,6 +24192,7 @@ ammonoid	NN	O	B-Material
 mass	NN	O	I-Material
 occurrence	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 method	NN	O	O
 established	NN	O	O
@@ -23342,6 +24224,7 @@ for	NN	O	O
 depositional	NN	O	B-Task
 interpretations	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 method	NN	O	O
 can	NN	O	O
@@ -23382,6 +24265,7 @@ on	NN	O	O
 paleocurrents	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0142061516308079)
 
 The	NN	O	O
@@ -23405,6 +24289,7 @@ between	NN	O	O
 RT	NN	O	B-Process
 simulators	NN	O	I-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 research	NN	O	O
@@ -23430,6 +24315,7 @@ it	NN	O	O
 34	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 thermo	NN	O	B-Process
@@ -23460,6 +24346,7 @@ power	NN	O	O
 system	NN	O	O
 simulation	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 the	NN	O	O
 communication	NN	O	B-Material
@@ -23475,6 +24362,7 @@ co	NN	O	O
 -	NN	O	O
 simulation	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 [	NN	O	O
 36	NN	O	O
@@ -23508,6 +24396,7 @@ simulators	NN	O	O
 is	NN	O	O
 ignored	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 [	NN	O	O
 37	NN	O	O
@@ -23542,6 +24431,7 @@ as	NN	O	O
 future	NN	O	O
 work	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 in	NN	O	O
 -	NN	O	O
@@ -23574,6 +24464,7 @@ this	NN	O	O
 paper	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0165168416300603)
 
 Despite	NN	O	O
@@ -23609,6 +24500,7 @@ applications	NN	O	O
 39	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 previous	NN	O	O
 SRC	NN	O	O
@@ -23645,6 +24537,7 @@ point	NN	O	O
 function	NN	O	O
 estimations	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 drawback	NN	O	O
 is	NN	O	O
@@ -23691,6 +24584,7 @@ T60≈0.3s	NN	O	O
 40	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 these	NN	O	O
 reasons	NN	O	O
@@ -23726,6 +24620,7 @@ or	NN	O	O
 more	NN	O	O
 people	NN	O	O
 .	NN	O	O
+
 Speech	NN	O	B-Material
 segments	NN	O	I-Material
 using	NN	O	O
@@ -23736,6 +24631,7 @@ detector	NN	O	I-Process
 (	NN	O	O
 VAD	NN	O	B-Process
 )	NN	O	O
+
 [	NN	O	O
 41	NN	O	O
 ]	NN	O	O
@@ -23761,6 +24657,7 @@ robust	NN	O	O
 to	NN	O	O
 reverberations	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -23802,6 +24699,7 @@ each	NN	O	O
 time	NN	O	O
 step	NN	O	O
 t.	NN	O	O
+
 Since	NN	O	O
 TDOAs	NN	O	O
 are	NN	O	O
@@ -23838,6 +24736,7 @@ position	NN	O	I-Task
 estimation	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0165212511000862)
 
 In	NN	O	O
@@ -23856,6 +24755,7 @@ distribution	NN	O	I-Task
 of	NN	O	I-Task
 relaxations	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 based	NN	O	O
@@ -23902,6 +24802,7 @@ see	NN	O	O
 25	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 present	NN	O	O
 work	NN	O	O
@@ -23918,6 +24819,7 @@ in	NN	O	O
 normal	NN	O	O
 stresses	NN	O	O
 .	NN	O	O
+
 More	NN	O	O
 specifically	NN	O	O
 ,	NN	O	O
@@ -23981,6 +24883,7 @@ see	NN	O	O
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 No	NN	O	O
 attempt	NN	O	O
 is	NN	O	O
@@ -23997,10 +24900,11 @@ conduction	NN	O	I-Process
 beyond	NN	O	O
 the	NN	O	O
 conventional	NN	O	O
-Navier	NN	O	B-Process
-–	NN	O	I-Process
-Stokes	NN	O	I-Process
-approach	NN	O	I-Process
+Navier	NN	O	O
+–	NN	O	O
+
+Stokes	NN	O	O
+approach	NN	O	O
 ,	NN	O	O
 since	NN	O	O
 this	NN	O	O
@@ -24015,6 +24919,7 @@ this	NN	O	O
 paper	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0165212511000874)
 
 The	NN	O	O
@@ -24048,6 +24953,7 @@ multiple	NN	O	B-Process
 scales	NN	O	I-Process
 approach	NN	O	I-Process
 .	NN	O	O
+
 From	NN	O	O
 the	NN	O	O
 first	NN	O	O
@@ -24121,6 +25027,7 @@ ducts	NN	O	I-Material
 5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 multiple	NN	O	B-Process
 -	NN	O	I-Process
@@ -24163,6 +25070,7 @@ straight	NN	O	B-Material
 parallel	NN	O	I-Material
 duct	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 accuracy	NN	O	O
 and	NN	O	O
@@ -24195,6 +25103,7 @@ frequencies	NN	O	I-Task
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0165212515000931)
 
 We	NN	O	O
@@ -24207,6 +25116,7 @@ the	NN	O	O
 reflection	NN	O	B-Task
 problem	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 first	NN	O	O
 way	NN	O	O
@@ -24218,6 +25128,7 @@ Section	NN	O	O
 4	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 exploit	NN	O	O
 the	NN	O	O
@@ -24240,6 +25151,7 @@ or	NN	O	O
 left	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 effect	NN	O	O
 ,	NN	O	O
@@ -24264,6 +25176,7 @@ semi	NN	O	B-Process
 infinite	NN	O	I-Process
 row	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 idea	NN	O	O
 goes	NN	O	O
@@ -24285,6 +25198,7 @@ with	NN	O	O
 2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 He	NN	O	O
 used	NN	O	O
 it	NN	O	O
@@ -24296,6 +25210,7 @@ dimensional	NN	O	I-Task
 grating	NN	O	I-Task
 problems	NN	O	I-Task
 .	NN	O	O
+
 A	NN	O	O
 similar	NN	O	O
 approach	NN	O	O
@@ -24310,6 +25225,7 @@ Shenderov	NN	O	O
 3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 our	NN	O	O
 one	NN	O	O
@@ -24334,6 +25250,7 @@ the	NN	O	O
 correct	NN	O	O
 solution	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 remark	NN	O	O
 that	NN	O	O
@@ -24385,6 +25302,7 @@ certain	NN	O	O
 operator	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0166218X1300348X)
 
 Max	NN	O	B-Process
@@ -24403,6 +25321,7 @@ multiprocessor	NN	O	B-Material
 interactive	NN	O	I-Material
 systems	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 some	NN	O	O
 instances	NN	O	O
@@ -24435,6 +25354,7 @@ max	NN	O	B-Material
 linear	NN	O	I-Material
 programs	NN	O	I-Material
 .	NN	O	O
+
 For	NN	O	O
 a	NN	O	O
 generic	NN	O	B-Material
@@ -24464,6 +25384,7 @@ in	NN	O	O
 polynomial	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 general	NN	O	B-Material
 matrices	NN	O	I-Material
@@ -24486,6 +25407,7 @@ integer	NN	O	I-Task
 solutions	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0166218X14003011)
 
 We	NN	O	O
@@ -24518,6 +25440,7 @@ with	NN	O	I-Task
 growing	NN	O	I-Task
 exponents	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 known	NN	O	O
@@ -24534,6 +25457,7 @@ are	NN	O	I-Process
 strongly	NN	O	I-Process
 connected	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 transient	NN	O	O
 of	NN	O	O
@@ -24558,6 +25482,7 @@ of	NN	O	O
 the	NN	O	O
 weights	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -24594,9 +25519,12 @@ Schwarz	NN	O	O
 Kim	NN	O	O
 and	NN	O	O
 Gregory	NN	O	O
+
 –	NN	O	O
 Kirkland	NN	O	O
+
 –	NN	O	O
+
 Pullman	NN	O	O
 ,	NN	O	O
 apply	NN	O	O
@@ -24617,6 +25545,7 @@ critical	NN	O	O
 node	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167273811005091)
 
 Owing	NN	O	O
@@ -24673,6 +25602,7 @@ in	NN	O	O
 3D	NN	O	O
 space	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 because	NN	O	O
@@ -24705,6 +25635,7 @@ tomography	NN	O	I-Process
 (	NN	O	O
 CT	NN	O	B-Process
 )	NN	O	O
+
 [	NN	O	O
 9–11	NN	O	O
 ]	NN	O	O
@@ -24733,6 +25664,7 @@ and	NN	O	I-Material
 synchrotron	NN	O	I-Material
 radiation	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 authors	NN	O	O
 have	NN	O	O
@@ -24825,6 +25757,7 @@ environmental	NN	O	O
 changes	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167273812003025)
 
 In	NN	O	O
@@ -24871,6 +25804,7 @@ has	NN	O	O
 been	NN	O	O
 described	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 new	NN	O	O
 approach	NN	O	O
@@ -24909,6 +25843,7 @@ samples	NN	O	I-Process
 an	NN	O	I-Process
 hour	NN	O	I-Process
 .	NN	O	O
+
 Each	NN	O	O
 library	NN	O	O
 could	NN	O	O
@@ -24936,6 +25871,7 @@ approximate	NN	O	I-Process
 phase	NN	O	I-Process
 boundary	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 more	NN	O	O
 focussed	NN	O	O
@@ -24991,6 +25927,7 @@ notable	NN	O	O
 efforts	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 EXAFS	NN	O	B-Material
 data	NN	O	I-Material
 suggested	NN	O	O
@@ -25017,6 +25954,7 @@ oxide	NN	O	I-Material
 phase	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167273813005298)
 
 At	NN	O	O
@@ -25088,6 +26026,7 @@ along	NN	O	O
 that	NN	O	O
 direction	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 literature	NN	O	O
@@ -25149,6 +26088,7 @@ a	NN	O	O
 reasonable	NN	O	O
 distance	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -25171,6 +26111,7 @@ the	NN	O	O
 present	NN	O	B-Material
 material	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 suggests	NN	O	O
 that	NN	O	O
@@ -25188,6 +26129,7 @@ these	NN	O	O
 systems	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167273813006735)
 
 While	NN	O	O
@@ -25222,6 +26164,7 @@ samples	NN	O	I-Material
 13–16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Recently	NN	O	O
 ,	NN	O	O
 several	NN	O	O
@@ -25247,6 +26190,7 @@ substrates	NN	O	I-Material
 17–19	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 to	NN	O	O
@@ -25277,6 +26221,7 @@ the	NN	O	O
 same	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 contribution	NN	O	O
 reports	NN	O	O
@@ -25285,21 +26230,23 @@ results	NN	O	O
 of	NN	O	O
 a	NN	O	O
 study	NN	O	O
-applying	NN	O	B-Task
-EIS	NN	O	I-Task
-and	NN	O	I-Task
-IEDP	NN	O	I-Task
-to	NN	O	I-Task
-one	NN	O	I-Task
-and	NN	O	I-Task
-the	NN	O	I-Task
-same	NN	O	I-Task
-La0.6Sr0.4CoO3−δ	NN	O	I-Task
-(	NN	O	I-Task
-LSC	NN	O	I-Task
-)	NN	O	I-Task
-thin	NN	O	I-Task
-film	NN	O	I-Task
+applying	NN	O	O
+EIS	NN	O	O
+and	NN	O	O
+IEDP	NN	O	O
+to	NN	O	O
+one	NN	O	O
+and	NN	O	O
+the	NN	O	O
+same	NN	O	O
+La0.6Sr0.4CoO3−δ	NN	O	O
+
+(	NN	O	O
+LSC	NN	O	O
+)	NN	O	O
+
+thin	NN	O	O
+film	NN	O	O
 in	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -25319,6 +26266,7 @@ on	NN	O	O
 such	NN	O	O
 films	NN	O	B-Material
 .	NN	O	O
+
 As	NN	O	O
 electrical	NN	O	B-Process
 measurements	NN	O	I-Process
@@ -25347,6 +26295,7 @@ different	NN	O	O
 grain	NN	O	B-Material
 sizes	NN	O	O
 .	NN	O	O
+
 Quantitative	NN	O	B-Task
 material	NN	O	I-Task
 parameters	NN	O	I-Task
@@ -25371,6 +26320,7 @@ analysis	NN	O	I-Task
 models	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0167273814004408)
 
 Thin	NN	O	B-Material
@@ -25400,6 +26350,7 @@ tracer	NN	O	B-Task
 exchange	NN	O	I-Task
 experiments	NN	O	I-Task
 .	NN	O	O
+
 Rectangular	NN	O	B-Material
 noble	NN	O	I-Material
 metal	NN	O	I-Material
@@ -25421,6 +26372,7 @@ used	NN	O	O
 for	NN	O	O
 polarization	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 lateral	NN	O	B-Process
 distribution	NN	O	I-Process
@@ -25435,6 +26387,7 @@ features	NN	O	O
 (	NN	O	O
 i	NN	O	O
 )	NN	O	O
+
 In	NN	O	O
 case	NN	O	O
 of	NN	O	O
@@ -25462,6 +26415,7 @@ ionically	NN	O	O
 blocking	NN	O	O
 nature	NN	O	O
 .	NN	O	O
+
 At	NN	O	O
 the	NN	O	O
 edges	NN	O	O
@@ -25492,9 +26446,11 @@ of	NN	O	I-Process
 oxygen	NN	O	I-Process
 ions	NN	O	I-Process
 .	NN	O	O
+
 (	NN	O	O
 ii	NN	O	O
 )	NN	O	O
+
 Due	NN	O	O
 to	NN	O	O
 the	NN	O	O
@@ -25527,6 +26483,7 @@ the	NN	O	O
 current	NN	O	B-Material
 collector	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 width	NN	O	B-Task
 of	NN	O	I-Task
@@ -25538,6 +26495,7 @@ on	NN	O	O
 the	NN	O	O
 bias	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 amounts	NN	O	O
 to	NN	O	O
@@ -25587,6 +26545,7 @@ active	NN	O	O
 region	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167273814004548)
 
 Two	NN	O	O
@@ -25603,6 +26562,7 @@ in	NN	O	O
 the	NN	O	O
 experiments	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 asymmetrically	NN	O	B-Material
 heated	NN	O	I-Material
@@ -25613,6 +26573,7 @@ up	NN	O	I-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 2a	NN	O	O
 )	NN	O	O
 allows	NN	O	O
@@ -25648,6 +26609,7 @@ relatively	NN	O	O
 short	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 also	NN	O	O
 enables	NN	O	O
@@ -25662,6 +26624,7 @@ in	NN	O	O
 real	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -25704,6 +26667,7 @@ sample	NN	O	O
 11	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Such	NN	O	O
 temperature	NN	O	B-Process
 gradients	NN	O	I-Process
@@ -25727,6 +26691,7 @@ experiments	NN	O	I-Process
 24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -25756,6 +26721,7 @@ different	NN	O	I-Process
 microelectrodes	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0167273815004130)
 
 Room	NN	O	O
@@ -25776,6 +26742,7 @@ PANalytical	NN	O	B-Process
 Empyrean	NN	O	I-Process
 diffractometer	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 obtained	NN	O	O
 XRD	NN	O	B-Material
@@ -25805,6 +26772,7 @@ of	NN	O	O
 the	NN	O	O
 samples	NN	O	O
 .	NN	O	O
+
 Thermogravimetric	NN	O	B-Process
 analysis	NN	O	I-Process
 (	NN	O	O
@@ -25825,6 +26793,7 @@ thermal	NN	O	I-Process
 analysis	NN	O	I-Process
 software	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 TGA	NN	O	O
 studies	NN	O	O
@@ -25861,6 +26830,7 @@ during	NN	O	O
 the	NN	O	O
 reduction	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 microstructure	NN	O	O
 of	NN	O	O
@@ -25886,6 +26856,7 @@ FEG	NN	O	B-Process
 SEM	NN	O	I-Process
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 total	NN	O	B-Task
 conductivity	NN	O	I-Task
@@ -25902,6 +26873,7 @@ four	NN	O	B-Process
 terminal	NN	O	I-Process
 method	NN	O	I-Process
 .	NN	O	O
+
 Bar	NN	O	O
 samples	NN	O	O
 were	NN	O	O
@@ -25915,6 +26887,7 @@ C	NN	O	O
 for	NN	O	O
 1h	NN	O	O
 .	NN	O	O
+
 Gold	NN	O	B-Material
 wire	NN	O	I-Material
 contacts	NN	O	I-Material
@@ -25935,6 +26908,7 @@ C	NN	O	O
 for	NN	O	O
 1h	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 conductivity	NN	O	B-Task
 of	NN	O	O
@@ -25951,6 +26925,7 @@ at	NN	O	O
 °	NN	O	O
 C	NN	O	O
 .	NN	O	O
+
 Low	NN	O	B-Process
 oxygen	NN	O	I-Process
 partial	NN	O	I-Process
@@ -25968,6 +26943,7 @@ of	NN	O	O
 H2/Ar	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0167931711005120)
 
 A	NN	O	B-Task
@@ -25986,6 +26962,7 @@ has	NN	O	O
 been	NN	O	O
 fabricated	NN	O	O
 .	NN	O	O
+
 The	NN	O	B-Task
 ferromagnetic	NN	O	I-Task
 characteristics	NN	O	I-Task
@@ -26007,6 +26984,7 @@ the	NN	O	B-Material
 electrochemical	NN	O	I-Material
 parameters	NN	O	I-Material
 .	NN	O	O
+
 Furthermore	NN	O	O
 the	NN	O	O
 spatial	NN	O	O
@@ -26034,6 +27012,7 @@ can	NN	O	O
 be	NN	O	O
 influenced	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -26068,6 +27047,7 @@ non	NN	O	B-Material
 interacting	NN	O	I-Material
 particles	NN	O	I-Material
 .	NN	O	O
+
 By	NN	O	O
 modifying	NN	O	B-Process
 the	NN	O	I-Process
@@ -26085,6 +27065,7 @@ can	NN	O	O
 be	NN	O	O
 deposited	NN	O	O
 .	NN	O	O
+
 If	NN	O	O
 the	NN	O	O
 packing	NN	O	O
@@ -26111,6 +27092,7 @@ the	NN	O	O
 pore	NN	O	O
 walls	NN	O	O
 .	NN	O	O
+
 The	NN	O	B-Task
 presented	NN	O	I-Task
 nanocomposite	NN	O	I-Task
@@ -26126,6 +27108,7 @@ magnetic	NN	O	O
 sensor	NN	O	O
 technology	NN	O	O
 .	NN	O	O
+
 Silicon	NN	O	B-Material
 as	NN	O	O
 substrate	NN	O	O
@@ -26144,6 +27127,7 @@ process	NN	O	O
 technology	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167931712002699)
 
 As	NN	O	O
@@ -26171,6 +27155,7 @@ as	NN	O	O
 pattern	NN	O	B-Process
 collapse	NN	O	I-Process
 .	NN	O	O
+
 To	NN	O	O
 address	NN	O	O
 the	NN	O	O
@@ -26216,6 +27201,7 @@ transfer	NN	O	I-Process
 25–27	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -26279,6 +27265,7 @@ temperature	NN	O	O
 28	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 intermediate	NN	O	B-Material
 layer	NN	O	I-Material
@@ -26298,6 +27285,7 @@ for	NN	O	O
 IC	NN	O	B-Task
 production	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 readily	NN	O	O
@@ -26317,6 +27305,7 @@ in	NN	O	O
 SF6	NN	O	B-Material
 gas	NN	O	I-Material
 .	NN	O	O
+
 Its	NN	O	O
 flexibility	NN	O	O
 can	NN	O	O
@@ -26339,6 +27328,7 @@ we	NN	O	O
 will	NN	O	O
 show	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 multilayer	NN	O	B-Process
 process	NN	O	I-Process
@@ -26376,19 +27366,21 @@ etching	NN	O	B-Material
 equipment	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0167931712002936)
 
 A	NN	O	O
-3D	NN	O	B-Process
-finite	NN	O	I-Process
-element	NN	O	I-Process
-based	NN	O	I-Process
-(	NN	O	I-Process
-FEM	NN	O	I-Process
-)	NN	O	I-Process
-COMSOL	NN	O	I-Process
-capacitance	NN	O	I-Process
-analysis	NN	O	I-Process
+3D	NN	O	O
+finite	NN	O	O
+element	NN	O	O
+based	NN	O	O
+(	NN	O	O
+FEM	NN	O	O
+)	NN	O	O
+
+COMSOL	NN	O	O
+capacitance	NN	O	O
+analysis	NN	O	O
 is	NN	O	O
 combined	NN	O	O
 with	NN	O	O
@@ -26408,6 +27400,7 @@ single	NN	O	I-Task
 electron	NN	O	I-Task
 detection	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 3D	NN	O	B-Material
 structural	NN	O	I-Material
@@ -26415,6 +27408,7 @@ data	NN	O	I-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1b	NN	O	O
 )	NN	O	O
 of	NN	O	O
@@ -26438,6 +27432,7 @@ based	NN	O	I-Material
 electrostatics	NN	O	I-Material
 simulator	NN	O	I-Material
 .	NN	O	O
+
 Capacitances	NN	O	O
 between	NN	O	O
 different	NN	O	O
@@ -26475,6 +27470,7 @@ tunnelling	NN	O	I-Process
 12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 our	NN	O	O
 target	NN	O	B-Material
@@ -26488,6 +27484,7 @@ results	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1c	NN	O	O
 )	NN	O	O
 showed	NN	O	O
@@ -26527,6 +27524,7 @@ of	NN	O	O
 tens	NN	O	O
 of	NN	O	O
 pA.	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 well	NN	O	O
@@ -26559,6 +27557,7 @@ detection	NN	O	I-Task
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -26598,6 +27597,7 @@ qubit	NN	O	B-Task
 research	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0167931712003012)
 
 We	NN	O	O
@@ -26615,6 +27615,7 @@ Materials	NN	O	I-Task
 12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 spin	NN	O	B-Material
 -	NN	O	I-Material
@@ -26639,9 +27640,11 @@ in	NN	O	O
 the	NN	O	O
 range	NN	O	O
 5–50g	NN	O	O
+
 /	NN	O	O
 l	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 report	NN	O	O
@@ -26691,6 +27694,7 @@ tasks	NN	O	I-Task
 are	NN	O	O
 underway	NN	O	O
 .	NN	O	O
+
 Films	NN	O	B-Material
 of	NN	O	I-Material
 the	NN	O	I-Material
@@ -26718,6 +27722,7 @@ RPM	NN	O	O
 for	NN	O	O
 60s	NN	O	O
 .	NN	O	O
+
 After	NN	O	O
 spin	NN	O	O
 coating	NN	O	O
@@ -26736,6 +27741,7 @@ to	NN	O	I-Process
 °	NN	O	I-Process
 C	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -26765,6 +27771,7 @@ enable	NN	O	O
 further	NN	O	O
 processing	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 elution	NN	O	B-Task
 behavior	NN	O	I-Task
@@ -26799,8 +27806,10 @@ the	NN	O	O
 baking	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 shows	NN	O	O
 the	NN	O	O
@@ -26838,6 +27847,7 @@ MCB):IPA	NN	O	B-Material
 1:1	NN	O	O
 solution	NN	O	O
 .	NN	O	O
+
 Prior	NN	O	O
 to	NN	O	O
 baking	NN	O	B-Process
@@ -26866,6 +27876,7 @@ was	NN	O	O
 ∼250	NN	O	O
 nm	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 temperatures	NN	O	O
 above	NN	O	O
@@ -26903,6 +27914,7 @@ HM11	NN	O	I-Material
 -	NN	O	I-Material
 01	NN	O	I-Material
 .	NN	O	O
+
 Film	NN	O	B-Material
 thickness	NN	O	O
 did	NN	O	O
@@ -26913,6 +27925,7 @@ elution	NN	O	O
 results	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167931712003905)
 
 In	NN	O	O
@@ -26934,6 +27947,7 @@ by	NN	O	O
 FIB	NN	O	B-Process
 thinning	NN	O	I-Process
 .	NN	O	O
+
 Transmission	NN	O	B-Material
 electron	NN	O	I-Material
 microscope	NN	O	I-Material
@@ -26975,6 +27989,7 @@ morphology	NN	O	O
 after	NN	O	O
 thinning	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 critical	NN	O	O
 current	NN	O	O
@@ -26995,9 +28010,11 @@ of	NN	O	O
 50	NN	O	O
 nm	NN	O	O
 is	NN	O	O
+
 1.7×105	NN	O	O
 and	NN	O	O
 1.4×105A	NN	O	O
+
 /	NN	O	O
 cm2	NN	O	O
 at	NN	O	O
@@ -27016,6 +28033,7 @@ properties	NN	O	I-Process
 during	NN	O	O
 thinning	NN	O	B-Process
 .	NN	O	O
+
 These	NN	O	O
 results	NN	O	O
 suggest	NN	O	O
@@ -27054,6 +28072,7 @@ superconducting	NN	O	I-Task
 nanodevices	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0167931713002438)
 
 There	NN	O	O
@@ -27089,6 +28108,7 @@ appear	NN	O	O
 only	NN	O	O
 recently	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 has	NN	O	O
 been	NN	O	O
@@ -27098,6 +28118,7 @@ Bersuker	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 ,	NN	O	O
 who	NN	O	O
 used	NN	O	O
@@ -27125,15 +28146,18 @@ weakening	NN	O	B-Process
 and	NN	O	O
 thus	NN	O	O
 facilitating	NN	O	O
-Si	NN	O	B-Process
-–	NN	O	I-Process
-O	NN	O	I-Process
-bond	NN	O	I-Process
-dissociation	NN	O	I-Process
+Si	NN	O	O
+
+–	NN	O	O
+
+O	NN	O	O
+bond	NN	O	O
+dissociation	NN	O	O
 [	NN	O	O
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Further	NN	O	O
 calculations	NN	O	O
 by	NN	O	O
@@ -27160,10 +28184,12 @@ of	NN	O	O
 a	NN	O	B-Material
 -	NN	O	I-Material
 SiO2	NN	O	I-Material
+
 [	NN	O	O
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Recent	NN	O	O
 calculations	NN	O	O
 have	NN	O	O
@@ -27211,6 +28237,7 @@ defects	NN	O	I-Material
 18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 these	NN	O	O
@@ -27232,6 +28259,7 @@ defect	NN	O	I-Task
 centres	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S016793171300244X)
 
 Ever	NN	O	O
@@ -27288,6 +28316,7 @@ of	NN	O	I-Task
 E′	NN	O	I-Task
 centres	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 irradiation	NN	O	B-Process
 or	NN	O	O
@@ -27313,6 +28342,7 @@ by	NN	O	O
 thermal	NN	O	B-Process
 oxidation	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 effect	NN	O	O
 has	NN	O	O
@@ -27343,10 +28373,12 @@ in	NN	O	O
 a	NN	O	B-Material
 -	NN	O	I-Material
 SiO2	NN	O	I-Material
+
 [	NN	O	O
 1–3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 model	NN	O	O
@@ -27390,6 +28422,7 @@ becomes	NN	O	O
 positively	NN	O	O
 charged	NN	O	O
 .	NN	O	O
+
 Although	NN	O	O
 this	NN	O	O
 model	NN	O	O
@@ -27478,6 +28511,7 @@ SiO2	NN	O	B-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167931713002487)
 
 Ge	NN	O	B-Material
@@ -27526,6 +28560,7 @@ oxide	NN	O	B-Material
 free	NN	O	I-Material
 surface	NN	O	I-Material
 .	NN	O	O
+
 Subsequently	NN	O	O
 ,	NN	O	O
 wafers	NN	O	B-Material
@@ -27546,6 +28581,7 @@ ultrathin	NN	O	B-Material
 Al	NN	O	I-Material
 layers	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 samples	NN	O	B-Material
 were	NN	O	O
@@ -27564,6 +28600,7 @@ produce	NN	O	B-Task
 Al2O3	NN	O	I-Task
 layers	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 samples	NN	O	B-Material
 were	NN	O	O
@@ -27594,6 +28631,7 @@ deposition	NN	O	I-Process
 ALD	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 HfO2	NN	O	B-Process
 depositions	NN	O	I-Process
@@ -27614,6 +28652,7 @@ the	NN	O	O
 oxidizing	NN	O	B-Material
 species	NN	O	I-Material
 .	NN	O	O
+
 Between	NN	O	O
 30	NN	O	O
 and	NN	O	O
@@ -27636,6 +28675,7 @@ at	NN	O	O
 °	NN	O	O
 C	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 electrical	NN	O	B-Task
 measurements	NN	O	I-Task
@@ -27673,6 +28713,7 @@ an	NN	O	O
 ohmic	NN	O	B-Material
 contact	NN	O	I-Material
 .	NN	O	O
+
 After	NN	O	O
 preliminary	NN	O	O
 measurements	NN	O	O
@@ -27694,6 +28735,7 @@ C	NN	O	O
 for	NN	O	O
 30min	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 oxide	NN	O	B-Material
 leakage	NN	O	I-Material
@@ -27711,6 +28753,7 @@ Keithley	NN	O	B-Material
 617B	NN	O	I-Material
 electrometer	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 HP	NN	O	B-Material
 4192A	NN	O	I-Material
@@ -27745,6 +28788,7 @@ CV	NN	O	I-Task
 measurements	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0167931713004061)
 
 We	NN	O	O
@@ -27773,6 +28817,7 @@ fast	NN	O	I-Process
 throughput	NN	O	I-Process
 methods	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 process	NN	O	O
 shows	NN	O	O
@@ -27797,6 +28842,7 @@ the	NN	O	I-Process
 fabrication	NN	O	I-Process
 process	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 use	NN	O	O
 of	NN	O	O
@@ -27817,6 +28863,7 @@ only	NN	O	O
 one	NN	O	O
 surface	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 subsequent	NN	O	O
 swelling	NN	O	B-Process
@@ -27857,6 +28904,7 @@ the	NN	O	I-Task
 two	NN	O	I-Task
 surfaces	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 surface	NN	O	O
 functionalization	NN	O	O
@@ -27871,6 +28919,7 @@ one	NN	O	O
 photolithographic	NN	O	B-Process
 operation	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 net	NN	O	O
 result	NN	O	O
@@ -27902,6 +28951,7 @@ sacrificial	NN	O	I-Task
 layer	NN	O	I-Task
 embossing	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 patterned	NN	O	B-Material
 hydrogel	NN	O	I-Material
@@ -27952,6 +29002,7 @@ permeable	NN	O	O
 to	NN	O	O
 proteins	NN	O	B-Material
 .	NN	O	O
+
 Furthermore	NN	O	O
 PEGDMA	NN	O	B-Material
 can	NN	O	O
@@ -27972,6 +29023,7 @@ biomedical	NN	O	B-Task
 applications	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0167931713004991)
 
 The	NN	O	O
@@ -28001,6 +29053,7 @@ were	NN	O	O
 kept	NN	O	O
 constant	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 O2	NN	O	O
 flow	NN	O	O
@@ -28029,6 +29082,7 @@ between	NN	O	O
 and	NN	O	O
 20sccm	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 pressure	NN	O	B-Process
 in	NN	O	I-Process
@@ -28044,6 +29098,7 @@ gas	NN	O	I-Task
 density	NN	O	I-Task
 stable	NN	O	I-Task
 .	NN	O	O
+
 Since	NN	O	O
 the	NN	O	O
 pressure	NN	O	O
@@ -28067,6 +29122,7 @@ between	NN	O	O
 and	NN	O	O
 40mTorr	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 should	NN	O	O
 be	NN	O	O
@@ -28096,6 +29152,7 @@ pressure	NN	O	O
 during	NN	O	O
 etch	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 coil	NN	O	O
 power	NN	O	O
@@ -28138,6 +29195,7 @@ and	NN	O	O
 °	NN	O	O
 C	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 design	NN	O	O
 resulted	NN	O	O
@@ -28177,6 +29235,7 @@ a	NN	O	O
 valid	NN	O	O
 model	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 total	NN	O	O
 number	NN	O	O
@@ -28195,6 +29254,7 @@ for	NN	O	O
 20min	NN	O	O
 each	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 experiments	NN	O	O
 in	NN	O	O
@@ -28208,6 +29268,7 @@ random	NN	O	O
 order	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167931713005042)
 
 We	NN	O	O
@@ -28260,6 +29321,7 @@ paper	NN	O	O
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 UNCD	NN	O	B-Material
 wafer	NN	O	I-Material
@@ -28283,6 +29345,7 @@ ultrasonic	NN	O	B-Process
 solvent	NN	O	I-Process
 cleaning	NN	O	I-Process
 .	NN	O	O
+
 Nanofeature	NN	O	O
 stamps	NN	O	O
 were	NN	O	O
@@ -28312,6 +29375,7 @@ silsesquioxane	NN	O	I-Material
 HSQ	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 Al	NN	O	B-Material
 discharge	NN	O	I-Material
@@ -28340,6 +29404,7 @@ surface	NN	O	I-Task
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Several	NN	O	B-Task
 stamps	NN	O	I-Task
 were	NN	O	I-Task
@@ -28362,6 +29427,7 @@ of	NN	O	O
 circular	NN	O	B-Material
 pillars	NN	O	I-Material
 .	NN	O	O
+
 After	NN	O	O
 EBL	NN	O	B-Task
 and	NN	O	I-Task
@@ -28387,6 +29453,7 @@ and	NN	O	O
 argon	NN	O	B-Material
 gas	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 etched	NN	O	B-Material
 diamond	NN	O	I-Material
@@ -28397,8 +29464,10 @@ typically	NN	O	O
 nm	NN	O	O
 high	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 displays	NN	O	O
 a	NN	O	O
@@ -28412,6 +29481,7 @@ stamp	NN	O	O
 features	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0167931713006904)
 
 Copper	NN	O	B-Task
@@ -28437,6 +29507,7 @@ of	NN	O	O
 3D	NN	O	B-Task
 integration	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 presents	NN	O	O
@@ -28456,6 +29527,7 @@ and	NN	O	I-Material
 the	NN	O	I-Material
 suppressor	NN	O	I-Material
 .	NN	O	I-Material
+
 The	NN	O	O
 diffusion	NN	O	B-Process
 –	NN	O	I-Process
@@ -28477,6 +29549,7 @@ in	NN	O	O
 the	NN	O	O
 model	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 boundary	NN	O	O
 conditions	NN	O	O
@@ -28514,6 +29587,7 @@ kinetic	NN	O	O
 parameters	NN	O	O
 fitting	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 level	NN	O	B-Process
 set	NN	O	I-Process
@@ -28531,6 +29605,7 @@ and	NN	O	I-Task
 electrolyte	NN	O	I-Task
 interface	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 simulation	NN	O	B-Process
 results	NN	O	O
@@ -28542,6 +29617,7 @@ with	NN	O	O
 the	NN	O	O
 experiments	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 a	NN	O	O
 given	NN	O	O
@@ -28567,6 +29643,7 @@ process	NN	O	I-Process
 optimization	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0167931714000203)
 
 To	NN	O	O
@@ -28593,6 +29670,7 @@ under	NN	O	I-Process
 microscopic	NN	O	I-Process
 observation	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 conventional	NN	O	O
@@ -28625,6 +29703,7 @@ growth	NN	O	I-Process
 in	NN	O	I-Process
 detail	NN	O	I-Process
 .	NN	O	I-Process
+
 Here	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -28649,6 +29728,7 @@ individual	NN	O	I-Process
 pollen	NN	O	I-Process
 tubes	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 growth	NN	O	O
 of	NN	O	O
@@ -28672,6 +29752,7 @@ accurate	NN	O	B-Task
 microscopic	NN	O	I-Task
 observations	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 methodology	NN	O	O
 has	NN	O	O
@@ -28707,6 +29788,7 @@ plant	NN	O	I-Task
 reproduction	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0167931714003347)
 
 In	NN	O	O
@@ -28733,6 +29815,7 @@ employed	NN	O	O
 8–12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 During	NN	O	O
 fragmentation	NN	O	B-Process
 testing	NN	O	I-Process
@@ -28765,6 +29848,7 @@ microscopy	NN	O	I-Process
 SEM	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
+
 Brittle	NN	O	B-Material
 metals	NN	O	I-Material
 or	NN	O	O
@@ -28789,6 +29873,7 @@ the	NN	O	O
 straining	NN	O	O
 direction	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 other	NN	O	O
@@ -28812,6 +29897,7 @@ strains	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1a	NN	O	O
 )	NN	O	O
 and	NN	O	O
@@ -28829,9 +29915,11 @@ evolve	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1b	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Fragmentation	NN	O	B-Process
 testing	NN	O	I-Process
 is	NN	O	O
@@ -28857,6 +29945,7 @@ can	NN	O	O
 be	NN	O	O
 observed	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 initial	NN	O	O
 fracture	NN	O	B-Process
@@ -28925,6 +30014,7 @@ model	NN	O	I-Process
 8,13,14	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 -	NN	O	O
 situ	NN	O	O
@@ -28952,9 +30042,11 @@ strain	NN	O	I-Process
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1c	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Under	NN	O	O
 tensile	NN	O	B-Process
 straining	NN	O	I-Process
@@ -28992,6 +30084,7 @@ spacing	NN	O	O
 is	NN	O	O
 reached	NN	O	O
 .	NN	O	O
+
 After	NN	O	O
 the	NN	O	O
 saturation	NN	O	O
@@ -29018,6 +30111,7 @@ via	NN	O	O
 buckling	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0167931714004456)
 
 PDMS	NN	O	B-Material
@@ -29076,6 +30170,7 @@ and	NN	O	O
 cleanroom	NN	O	O
 conditions	NN	O	O
 .	NN	O	O
+
 Various	NN	O	O
 techniques	NN	O	O
 have	NN	O	O
@@ -29102,6 +30197,7 @@ patterning	NN	O	I-Process
 of	NN	O	O
 a	NN	O	O
 photosensitive	NN	O	O
+
 PDMS	NN	O	B-Material
 [	NN	O	O
 23	NN	O	O
@@ -29114,6 +30210,7 @@ ablation	NN	O	I-Process
 24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 But	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -29134,6 +30231,7 @@ Whitesides	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 that	NN	O	O
 enabled	NN	O	O
 the	NN	O	O
@@ -29156,6 +30254,7 @@ the	NN	O	O
 late	NN	O	O
 1990s	NN	O	O
 .	NN	O	O
+
 Replica	NN	O	B-Process
 molding	NN	O	I-Process
 ,	NN	O	O
@@ -29191,6 +30290,7 @@ every	NN	O	O
 research	NN	O	O
 laboratory	NN	O	O
 .	NN	O	O
+
 Detailed	NN	O	O
 overviews	NN	O	O
 of	NN	O	O
@@ -29212,6 +30312,7 @@ McDonald	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 26	NN	O	O
 ]	NN	O	O
@@ -29220,10 +30321,12 @@ Sia	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 27	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Nowadays	NN	O	O
 ,	NN	O	O
 many	NN	O	O
@@ -29257,6 +30360,7 @@ USA	NN	O	O
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 companies	NN	O	O
@@ -29302,6 +30406,7 @@ LOC	NN	O	I-Material
 devices	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0168365912006207)
 
 Unlike	NN	O	O
@@ -29333,6 +30438,7 @@ in	NN	O	I-Process
 aqueous	NN	O	I-Process
 solutions	NN	O	I-Process
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 PAs	NN	O	B-Material
@@ -29351,6 +30457,7 @@ PAs	NN	O	I-Material
 92	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Conventional	NN	O	O
 materials	NN	O	O
 often	NN	O	O
@@ -29374,6 +30481,7 @@ in	NN	O	O
 nerve	NN	O	O
 regeneration	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 self	NN	O	O
 -	NN	O	O
@@ -29389,6 +30497,7 @@ costly	NN	O	B-Process
 manufacturing	NN	O	I-Process
 methods	NN	O	I-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -29434,6 +30543,7 @@ an	NN	O	O
 experimental	NN	O	O
 concept	NN	O	O
 .	NN	O	O
+
 Perhaps	NN	O	O
 the	NN	O	O
 next	NN	O	O
@@ -29456,6 +30566,7 @@ to	NN	O	I-Task
 electrospun	NN	O	I-Task
 nanofibers	NN	O	I-Task
 .	NN	O	O
+
 Given	NN	O	O
 that	NN	O	O
 the	NN	O	O
@@ -29502,6 +30613,7 @@ product	NN	O	I-Task
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0168365913002848)
 
 Mice	NN	O	B-Task
@@ -29537,6 +30649,7 @@ NB	NN	O	O
 cell	NN	O	O
 injection	NN	O	O
 .	NN	O	O
+
 These	NN	O	B-Task
 therapeutic	NN	O	I-Task
 schedules	NN	O	I-Task
@@ -29569,11 +30682,13 @@ described	NN	O	O
 16,19	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Animals	NN	O	B-Task
 were	NN	O	O
 treated	NN	O	O
 i.v	NN	O	O
 .	NN	O	O
+
 once	NN	O	O
 a	NN	O	O
 week	NN	O	O
@@ -29598,6 +30713,7 @@ SL[DXR	NN	O	I-Material
 kg	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Scrambled	NN	O	B-Task
 peptide	NN	O	I-Task
 -	NN	O	I-Task
@@ -29624,6 +30740,7 @@ HEPES	NN	O	B-Material
 buffered	NN	O	I-Material
 saline	NN	O	I-Material
 .	NN	O	O
+
 Survival	NN	O	B-Material
 times	NN	O	I-Material
 were	NN	O	O
@@ -29637,6 +30754,7 @@ determining	NN	O	B-Task
 treatment	NN	O	I-Task
 efficacy	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 orthotopic	NN	O	B-Task
@@ -29664,6 +30782,7 @@ X	NN	O	O
 ray	NN	O	O
 analyses	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 this	NN	O	O
 purpose	NN	O	O
@@ -29741,6 +30860,7 @@ described	NN	O	O
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 X	NN	O	O
 -	NN	O	O
 ray	NN	O	O
@@ -29759,6 +30879,7 @@ the	NN	O	O
 tumors	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0168365913003295)
 
 A	NN	O	O
@@ -29825,6 +30946,7 @@ each	NN	O	O
 cell	NN	O	B-Process
 division	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 hypothesized	NN	O	O
 that	NN	O	O
@@ -29879,6 +31001,7 @@ large	NN	O	I-Task
 tumor	NN	O	I-Task
 burdens	NN	O	I-Task
 .	NN	O	O
+
 Such	NN	O	O
 “	NN	O	B-Process
 re	NN	O	I-Process
@@ -29937,6 +31060,7 @@ the	NN	O	O
 nanoparticle	NN	O	B-Material
 carrier	NN	O	I-Material
 .	NN	O	O
+
 To	NN	O	O
 our	NN	O	O
 knowledge	NN	O	O
@@ -29960,6 +31084,7 @@ vivo	NN	O	O
 17,18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 both	NN	O	O
 of	NN	O	O
@@ -29987,6 +31112,7 @@ T	NN	O	B-Material
 cell	NN	O	I-Material
 receptors	NN	O	I-Material
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 peptide	NN	O	B-Material
@@ -30035,6 +31161,7 @@ cancer	NN	O	B-Task
 immunotherapy	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0168365913004975)
 
 The	NN	O	O
@@ -30053,6 +31180,7 @@ previously	NN	O	O
 18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Briefly	NN	O	O
 ,	NN	O	O
 solid	NN	O	B-Material
@@ -30080,6 +31208,7 @@ anhydrous	NN	O	B-Material
 dimethyl	NN	O	I-Material
 sulfoxide	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 mixture	NN	O	O
 was	NN	O	O
@@ -30117,6 +31246,7 @@ temperature	NN	O	O
 over	NN	O	O
 24h	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 mixture	NN	O	O
 was	NN	O	O
@@ -30132,6 +31262,7 @@ left	NN	O	O
 to	NN	O	O
 stand	NN	O	O
 .	NN	O	O
+
 Following	NN	O	O
 centrifugation	NN	O	B-Process
 and	NN	O	O
@@ -30152,6 +31283,7 @@ acetone	NN	O	B-Material
 50ml	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resulting	NN	O	O
 precipitate	NN	O	B-Material
@@ -30164,6 +31296,7 @@ washed	NN	O	O
 in	NN	O	O
 acetone	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 crude	NN	O	B-Material
 product	NN	O	I-Material
@@ -30209,6 +31342,7 @@ by	NN	O	O
 lyophilisation	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0168365913008766)
 
 Immunopotentiators	NN	O	B-Material
@@ -30239,6 +31373,7 @@ bacterial	NN	O	O
 components	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Toll	NN	O	B-Process
 -	NN	O	I-Process
@@ -30263,6 +31398,7 @@ and	NN	O	O
 adaptive	NN	O	O
 immunity	NN	O	O
 .	NN	O	O
+
 Some	NN	O	O
 studies	NN	O	O
 have	NN	O	O
@@ -30309,6 +31445,7 @@ cells	NN	O	I-Material
 22–24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 clinical	NN	O	B-Task
 studies	NN	O	I-Task
@@ -30328,6 +31465,7 @@ unmethylated	NN	O	B-Material
 CpG	NN	O	I-Material
 dinucleotides	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 humans	NN	O	O
 ,	NN	O	O
@@ -30356,6 +31494,7 @@ therapy	NN	O	I-Task
 27	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 a	NN	O	O
 mouse	NN	O	B-Process
@@ -30394,6 +31533,7 @@ IgG2a	NN	O	I-Process
 28,29	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -30422,6 +31562,7 @@ response	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0168365913009036)
 
 Two	NN	O	O
@@ -30433,6 +31574,7 @@ nanocomplexes	NN	O	I-Task
 were	NN	O	O
 evaluated	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 both	NN	O	O
 ,	NN	O	O
@@ -30467,6 +31609,7 @@ constant	NN	O	O
 at	NN	O	O
 3:1	NN	O	O
 .	NN	O	O
+
 Method	NN	O	O
 1	NN	O	O
 (	NN	O	O
@@ -30476,6 +31619,7 @@ D	NN	O	O
 :	NN	O	O
 P	NN	O	O
 )	NN	O	O
+
 :	NN	O	O
 DNA	NN	O	B-Material
 was	NN	O	O
@@ -30560,6 +31704,7 @@ a	NN	O	O
 further	NN	O	O
 20min	NN	O	O
 .	NN	O	O
+
 Irrespective	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -30613,6 +31758,7 @@ the	NN	O	O
 liposome	NN	O	O
 DOTMA	NN	O	B-Material
 /	NN	O	O
+
 DOPE	NN	O	B-Material
 or	NN	O	O
 LCPRG	NN	O	B-Material
@@ -30641,6 +31787,7 @@ formation	NN	O	O
 30	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 nanocomplexes	NN	O	O
 prepared	NN	O	O
@@ -30662,6 +31809,7 @@ liposome	NN	O	B-Material
 LA	NN	O	I-Material
 )	NN	O	O
 ,	NN	O	O
+
 PDLAP1	NN	O	B-Material
 (	NN	O	O
 liposome	NN	O	B-Material
@@ -30669,6 +31817,7 @@ LAP1	NN	O	I-Material
 )	NN	O	O
 ,	NN	O	O
 PDLAP2	NN	O	B-Material
+
 (	NN	O	O
 liposome	NN	O	B-Material
 LAP2	NN	O	I-Material
@@ -30687,6 +31836,7 @@ LCPRG	NN	O	I-Material
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0168874X1630049X)
 
 The	NN	O	O
@@ -30733,6 +31883,7 @@ zone	NN	O	O
 5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 approach	NN	O	O
 will	NN	O	O
@@ -30760,6 +31911,7 @@ mesh	NN	O	O
 size	NN	O	O
 dependent	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 requirement	NN	O	O
 is	NN	O	O
@@ -30787,6 +31939,7 @@ and	NN	O	O
 strain	NN	O	O
 profiles	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 CDPM2	NN	O	O
 ,	NN	O	O
@@ -30817,6 +31970,7 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 2(b	NN	O	O
 )	NN	O	O
 by	NN	O	O
@@ -30829,6 +31983,7 @@ law	NN	O	I-Process
 of	NN	O	O
 the	NN	O	O
 form(13)σ=ftexp(−ϵinhwft)if(ϵin>0)Here	NN	O	B-Process
+
 ,	NN	O	O
 wft	NN	O	O
 is	NN	O	O
@@ -30891,6 +32046,7 @@ onset	NN	O	O
 of	NN	O	O
 damage	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 compressive	NN	O	O
@@ -30949,6 +32105,7 @@ crack	NN	O	O
 band	NN	O	O
 approach	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 approach	NN	O	O
 of	NN	O	O
@@ -30973,11 +32130,13 @@ Grassl	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0254058414000662)
 
 HOMO	NN	O	B-Material
@@ -30992,6 +32151,7 @@ and	NN	O	O
 their	NN	O	O
 pyrene	NN	O	B-Material
 adducts	NN	O	I-Material
+
 propose	NN	O	O
 that	NN	O	O
 the	NN	O	O
@@ -31004,11 +32164,12 @@ to	NN	O	O
 ylidepyrene	NN	O	B-Material
 adducts	NN	O	I-Material
 are	NN	O	O
-HOMOylide	NN	O	B-Material
-–	NN	O	I-Material
-LUMOylide	NN	O	I-Material
-–	NN	O	I-Material
-pyrene	NN	O	I-Material
+HOMOylide	NN	O	O
+–	NN	O	O
+
+LUMOylide	NN	O	O
+–	NN	O	O
+pyrene	NN	O	O
 controlled	NN	O	O
 since	NN	O	O
 the	NN	O	O
@@ -31024,6 +32185,7 @@ pyrene	NN	O	I-Material
 –	NN	O	I-Material
 LUMOylide	NN	O	I-Material
 .	NN	O	O
+
 Regioselectivity	NN	O	B-Task
 of	NN	O	I-Task
 second	NN	O	I-Task
@@ -31037,12 +32199,14 @@ orbital	NN	O	I-Process
 coefficients	NN	O	I-Process
 corresponding	NN	O	O
 to	NN	O	O
-HOMOylide	NN	O	B-Material
-–	NN	O	I-Material
-LUMOylide	NN	O	I-Material
-–	NN	O	I-Material
-pyrene	NN	O	I-Material
+HOMOylide	NN	O	O
+–	NN	O	O
+
+LUMOylide	NN	O	O
+–	NN	O	O
+pyrene	NN	O	O
 .	NN	O	O
+
 According	NN	O	O
 to	NN	O	O
 Fukui	NN	O	O
@@ -31058,11 +32222,12 @@ in	NN	O	O
 the	NN	O	O
 direction	NN	O	O
 of	NN	O	O
-maximal	NN	O	B-Task
-HOMO	NN	O	I-Task
-–	NN	O	I-Task
-LUMO	NN	O	I-Task
-overlapping	NN	O	I-Task
+maximal	NN	O	O
+HOMO	NN	O	O
+–	NN	O	O
+
+LUMO	NN	O	O
+overlapping	NN	O	O
 of	NN	O	O
 larger	NN	O	O
 coefficients	NN	O	O
@@ -31071,6 +32236,7 @@ the	NN	O	O
 reactive	NN	O	O
 sites	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 most	NN	O	O
 favorable	NN	O	O
@@ -31093,8 +32259,10 @@ given	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3	NN	O	O
 .	NN	O	O
+
 Second	NN	O	O
 ylide	NN	O	B-Material
 addition	NN	O	O
@@ -31122,6 +32290,7 @@ same	NN	O	O
 regioisomer	NN	O	B-Task
 conformations	NN	O	I-Task
 .	NN	O	O
+
 Considering	NN	O	O
 the	NN	O	O
 theoretical	NN	O	B-Process
@@ -31158,9 +32327,11 @@ ylides	NN	O	I-Material
 ,	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0254058415001212)
 
 Gamma	NN	O	B-Material
@@ -31196,6 +32367,7 @@ aero	NN	O	I-Task
 engine	NN	O	I-Task
 components	NN	O	I-Task
 .	NN	O	O
+
 Investment	NN	O	B-Process
 casting	NN	O	I-Process
 is	NN	O	O
@@ -31234,6 +32406,7 @@ cost	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Titanium	NN	O	B-Material
 aluminides	NN	O	I-Material
 are	NN	O	O
@@ -31258,6 +32431,7 @@ temperature	NN	O	O
 2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Due	NN	O	O
 to	NN	O	O
 the	NN	O	O
@@ -31305,6 +32479,7 @@ surface	NN	O	I-Material
 3,4	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 hardened	NN	O	B-Material
 layer	NN	O	I-Material
@@ -31333,6 +32508,7 @@ propagation	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S025405841530136X)
 
 From	NN	O	O
@@ -31384,14 +32560,16 @@ high	NN	O	O
 potency	NN	O	O
 for	NN	O	O
 the	NN	O	O
-refinement	NN	O	B-Process
-of	NN	O	I-Process
-Al	NN	O	I-Process
-–	NN	O	I-Process
-Si	NN	O	I-Process
-cast	NN	O	I-Process
-alloys	NN	O	I-Process
+refinement	NN	O	O
+of	NN	O	O
+Al	NN	O	O
+–	NN	O	O
+
+Si	NN	O	O
+cast	NN	O	O
+alloys	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 primary	NN	O	O
 α-Al	NN	O	B-Material
@@ -31407,6 +32585,7 @@ of	NN	O	O
 Nb	NN	O	B-Material
 and	NN	O	O
 B.	NN	O	B-Material
+
 Moreover	NN	O	O
 ,	NN	O	O
 significant	NN	O	O
@@ -31439,6 +32618,7 @@ the	NN	O	O
 cooling	NN	O	O
 rate	NN	O	O
 .	NN	O	O
+
 Nb+B	NN	O	B-Material
 inoculants	NN	O	I-Material
 are	NN	O	O
@@ -31457,6 +32637,7 @@ of	NN	O	O
 contact	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 alloys	NN	O	B-Material
@@ -31489,6 +32670,7 @@ first	NN	O	O
 initial	NN	O	O
 addition	NN	O	O
 .	NN	O	O
+
 Concluding	NN	O	O
 ,	NN	O	O
 Nb+B	NN	O	B-Process
@@ -31532,6 +32714,7 @@ of	NN	O	O
 view	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0254058415304235)
 
 The	NN	O	O
@@ -31563,17 +32746,19 @@ mechanism	NN	O	I-Process
 with	NN	O	O
 conduction	NN	O	O
 between	NN	O	O
-Fe3	NN	O	B-Material
-+	NN	O	I-Material
--O	NN	O	I-Material
--	NN	O	I-Material
-Mo	NN	O	I-Material
--	NN	O	I-Material
-O	NN	O	I-Material
--	NN	O	I-Material
-Fe2	NN	O	I-Material
-+	NN	O	I-Material
+Fe3	NN	O	O
++	NN	O	O
+-O	NN	O	O
+-	NN	O	O
+Mo	NN	O	O
+-	NN	O	O
+O	NN	O	O
+-	NN	O	O
+Fe2	NN	O	O
+
++	NN	O	O
 .	NN	O	O
+
 Double	NN	O	B-Process
 -	NN	O	I-Process
 exchange	NN	O	I-Process
@@ -31612,6 +32797,7 @@ its	NN	O	O
 spin	NN	O	O
 state	NN	O	O
 .	NN	O	O
+
 Replacement	NN	O	B-Process
 of	NN	O	O
 Mo	NN	O	B-Material
@@ -31645,17 +32831,19 @@ of	NN	O	I-Process
 Fe	NN	O	I-Process
 electrons	NN	O	I-Process
 through	NN	O	O
-Fe2	NN	O	B-Process
-+	NN	O	I-Process
--O	NN	O	I-Process
--	NN	O	I-Process
-Fe3	NN	O	I-Process
-+	NN	O	I-Process
-exchange	NN	O	I-Process
+Fe2	NN	O	O
++	NN	O	O
+-O	NN	O	O
+-	NN	O	O
+Fe3	NN	O	O
+
++	NN	O	O
+exchange	NN	O	O
 could	NN	O	O
 also	NN	O	O
 occur	NN	O	O
 .	NN	O	O
+
 Double	NN	O	B-Process
 exchange	NN	O	I-Process
 mechanisms	NN	O	I-Process
@@ -31689,6 +32877,7 @@ valent	NN	O	O
 state	NN	O	O
 for	NN	O	O
 Ca2–xSrxFeMoO6–δ	NN	O	B-Material
+
 [	NN	O	O
 25	NN	O	O
 ]	NN	O	O
@@ -31704,6 +32893,7 @@ observed	NN	O	O
 metallic	NN	O	B-Task
 conductivity	NN	O	I-Task
 .	NN	O	O
+
 Band	NN	O	B-Process
 structure	NN	O	I-Process
 calculations	NN	O	I-Process
@@ -31734,6 +32924,7 @@ this	NN	O	O
 enquiry	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0266352X16301550)
 
 To	NN	O	O
@@ -31760,6 +32951,7 @@ have	NN	O	O
 been	NN	O	O
 proposed	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 methods	NN	O	O
 include	NN	O	O
@@ -31826,6 +33018,7 @@ e.g.	NN	O	O
 15	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 finite	NN	O	B-Process
 element	NN	O	I-Process
@@ -31863,6 +33056,7 @@ a	NN	O	O
 design	NN	O	B-Material
 tool	NN	O	I-Material
 .	NN	O	O
+
 Conversely	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -31941,6 +33135,7 @@ design	NN	O	O
 conditions	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0301010414003115)
 
 The	NN	O	O
@@ -32000,6 +33195,7 @@ and	NN	O	O
 CCSDR(3	NN	O	B-Process
 )	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 correlated	NN	O	B-Process
 response	NN	O	I-Process
@@ -32042,6 +33238,7 @@ the	NN	O	O
 oxygen	NN	O	B-Material
 atoms	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 all	NN	O	B-Process
 -	NN	O	I-Process
@@ -32062,6 +33259,7 @@ Mn	NN	O	B-Material
 1s2s2p3s3p	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Trial	NN	O	O
 calculations	NN	O	O
 correlating	NN	O	O
@@ -32076,6 +33274,7 @@ on	NN	O	O
 excitation	NN	O	B-Task
 energies	NN	O	I-Task
 .	NN	O	O
+
 For	NN	O	O
 comparison	NN	O	O
 the	NN	O	O
@@ -32101,6 +33300,7 @@ LR	NN	O	B-Process
 -	NN	O	I-Process
 CCSD	NN	O	I-Process
 .	NN	O	O
+
 These	NN	O	O
 formally	NN	O	O
 give	NN	O	O
@@ -32122,6 +33322,7 @@ LR	NN	O	B-Process
 -	NN	O	I-Process
 CCSD	NN	O	I-Process
 .	NN	O	O
+
 Abelian	NN	O	B-Process
 symmetry	NN	O	I-Process
 (	NN	O	O
@@ -32137,6 +33338,7 @@ state	NN	O	I-Process
 calculations	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0301010414003516)
 
 Arrays	NN	O	O
@@ -32166,6 +33368,7 @@ Dupont	NN	O	O
 Teijin	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Full	NN	O	O
 details	NN	O	O
 of	NN	O	O
@@ -32184,6 +33387,7 @@ publications	NN	O	O
 17–19,23	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Briefly	NN	O	O
 ,	NN	O	O
 aluminium	NN	O	B-Material
@@ -32202,6 +33406,7 @@ through	NN	O	O
 shadow	NN	O	B-Material
 masks	NN	O	I-Material
 .	NN	O	O
+
 Subsequently	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -32220,6 +33425,7 @@ Aerre	NN	O	O
 Machines	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 With	NN	O	O
 the	NN	O	O
 drum	NN	O	B-Material
@@ -32260,6 +33466,7 @@ to	NN	O	O
 a	NN	O	O
 plasma	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 resulting	NN	O	O
 smooth	NN	O	O
@@ -32286,6 +33493,7 @@ the	NN	O	O
 range	NN	O	O
 4–5	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 circuit	NN	O	B-Task
 fabrication	NN	O	I-Task
@@ -32317,6 +33525,7 @@ layer	NN	O	I-Process
 metallic	NN	O	I-Process
 connections	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 substrates	NN	O	B-Material
 were	NN	O	O
@@ -32352,6 +33561,7 @@ onto	NN	O	O
 the	NN	O	O
 insulator	NN	O	B-Material
 .	NN	O	O
+
 Without	NN	O	O
 exposing	NN	O	O
 the	NN	O	O
@@ -32379,6 +33589,7 @@ same	NN	O	O
 evaporator	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0301010415002256)
 
 For	NN	O	O
@@ -32410,6 +33621,7 @@ calculations	NN	O	I-Task
 5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 vibronic	NN	O	B-Process
 coupling	NN	O	I-Process
@@ -32427,6 +33639,7 @@ surfaces	NN	O	I-Task
 and	NN	O	I-Task
 couplings	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 expansion	NN	O	B-Process
 coefficients	NN	O	I-Process
@@ -32448,6 +33661,7 @@ adiabatic	NN	O	O
 potential	NN	O	O
 surfaces	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 diabatisation	NN	O	B-Process
 by	NN	O	O
@@ -32464,6 +33678,7 @@ non	NN	O	B-Task
 adiabatic	NN	O	I-Task
 systems	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 also	NN	O	O
@@ -32493,6 +33708,7 @@ effects	NN	O	O
 6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 a	NN	O	O
 model	NN	O	B-Process
@@ -32536,6 +33752,7 @@ geometries	NN	O	I-Process
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 recent	NN	O	O
 times	NN	O	O
@@ -32573,6 +33790,7 @@ groups	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S030193221400144X)
 
 In	NN	O	O
@@ -32598,6 +33816,7 @@ horizontal	NN	O	O
 rectangular	NN	O	O
 duct	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 technique	NN	O	O
 makes	NN	O	O
@@ -32628,10 +33847,12 @@ Alekseenko	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2009	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 flat	NN	O	O
 shape	NN	O	O
@@ -32655,10 +33876,12 @@ coordinate	NN	O	O
 as	NN	O	O
 well	NN	O	O
 .	NN	O	O
+
 Alekseenko	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2012	NN	O	O
 )	NN	O	O
@@ -32688,12 +33911,14 @@ in	NN	O	O
 their	NN	O	O
 experiments	NN	O	O
 .	NN	O	O
+
 More	NN	O	O
 recently	NN	O	O
 Alekseenko	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2014a	NN	O	O
 )	NN	O	O
@@ -32708,6 +33933,7 @@ detect	NN	O	B-Task
 entrained	NN	O	I-Task
 droplets	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 technique	NN	O	O
 allows	NN	O	O
@@ -32734,6 +33960,7 @@ entrainment	NN	O	I-Task
 phenomenon	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0301932214001499)
 
 In	NN	O	O
@@ -32765,6 +33992,7 @@ the	NN	O	O
 film	NN	O	B-Material
 surface	NN	O	I-Material
 .	NN	O	O
+
 A	NN	O	O
 thorough	NN	O	O
 understanding	NN	O	B-Task
@@ -32811,6 +34039,7 @@ al	NN	O	O
 2013	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Previous	NN	O	O
 efforts	NN	O	O
 in	NN	O	O
@@ -32859,6 +34088,7 @@ Alekseenko	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 ,	NN	O	O
 2012	NN	O	O
 ;	NN	O	O
@@ -32870,6 +34100,7 @@ al	NN	O	O
 2013	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 efforts	NN	O	O
 have	NN	O	O
@@ -32923,6 +34154,7 @@ Ambrosini	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 ,	NN	O	O
 1991	NN	O	O
 ;	NN	O	O
@@ -32937,6 +34169,7 @@ Azzopardi	NN	O	O
 1997	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 other	NN	O	O
@@ -32964,6 +34197,7 @@ the	NN	O	O
 film	NN	O	B-Material
 surface	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 can	NN	O	O
 be	NN	O	O
@@ -33024,6 +34258,7 @@ gas	NN	O	B-Process
 liquid	NN	O	I-Process
 interface	NN	O	I-Process
 ,	NN	O	O
+
 (	NN	O	O
 iii	NN	O	O
 )	NN	O	O
@@ -33060,6 +34295,7 @@ liquid	NN	O	B-Material
 phases	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0301932215002037)
 
 There	NN	O	O
@@ -33076,6 +34312,7 @@ constitutes	NN	O	O
 churn	NN	O	B-Process
 flow	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 fairly	NN	O	O
@@ -33085,6 +34322,7 @@ gas	NN	O	B-Process
 continuous	NN	O	I-Process
 flow	NN	O	I-Process
 .	NN	O	O
+
 There	NN	O	O
 is	NN	O	O
 growing	NN	O	O
@@ -33105,6 +34343,7 @@ carried	NN	O	O
 as	NN	O	O
 drops	NN	O	O
 .	NN	O	O
+
 Sekoguchi	NN	O	O
 and	NN	O	O
 Mori	NN	O	O
@@ -33116,6 +34355,7 @@ Sawai	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2004	NN	O	O
 )	NN	O	O
@@ -33145,6 +34385,7 @@ void	NN	O	I-Process
 fraction	NN	O	I-Process
 information	NN	O	I-Process
 .	NN	O	O
+
 From	NN	O	O
 this	NN	O	O
 they	NN	O	O
@@ -33161,6 +34402,7 @@ waves	NN	O	I-Material
 and	NN	O	O
 slugs	NN	O	B-Material
 .	NN	O	O
+
 They	NN	O	O
 classified	NN	O	O
 individual	NN	O	O
@@ -33186,6 +34428,7 @@ corresponding	NN	O	O
 axial	NN	O	O
 length	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 was	NN	O	O
 in	NN	O	O
@@ -33210,6 +34453,7 @@ of	NN	O	O
 these	NN	O	O
 waves	NN	O	B-Material
 .	NN	O	O
+
 They	NN	O	O
 also	NN	O	O
 found	NN	O	O
@@ -33230,6 +34474,7 @@ gas	NN	O	B-Process
 superficial	NN	O	I-Process
 velocity	NN	O	I-Process
 .	NN	O	O
+
 Similarly	NN	O	O
 ,	NN	O	O
 their	NN	O	O
@@ -33256,6 +34501,7 @@ a	NN	O	O
 minimum	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0305054816300867)
 
 The	NN	O	O
@@ -33271,6 +34517,7 @@ stochastic	NN	O	I-Process
 programming	NN	O	I-Process
 approach	NN	O	I-Process
 .	NN	O	O
+
 Standard	NN	O	O
 two	NN	O	B-Process
 -	NN	O	I-Process
@@ -33299,6 +34546,7 @@ decomposition	NN	O	I-Process
 44,6,7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 our	NN	O	O
@@ -33326,6 +34574,7 @@ unavailability	NN	O	O
 and	NN	O	O
 cancellations	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 such	NN	O	O
 ,	NN	O	O
@@ -33346,6 +34595,7 @@ model	NN	O	I-Process
 5,6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Solving	NN	O	O
 the	NN	O	O
 scheduling	NN	O	B-Task
@@ -33360,9 +34610,11 @@ function	NN	O	I-Process
 is	NN	O	O
 integer	NN	O	O
 .	NN	O	O
+
 Laporte	NN	O	O
 and	NN	O	O
 Louveaux	NN	O	O
+
 [	NN	O	O
 26	NN	O	O
 ]	NN	O	O
@@ -33385,10 +34637,12 @@ with	NN	O	O
 integer	NN	O	B-Process
 recourse	NN	O	I-Process
 .	NN	O	O
+
 Angulo	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 1	NN	O	O
 ]	NN	O	O
@@ -33422,6 +34676,7 @@ also	NN	O	O
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 follow	NN	O	O
 a	NN	O	O
@@ -33437,6 +34692,7 @@ uses	NN	O	O
 this	NN	O	O
 framework	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -33468,6 +34724,7 @@ of	NN	O	O
 integer	NN	O	B-Process
 cuts	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 use	NN	O	O
 Jensen	NN	O	B-Process
@@ -33499,11 +34756,13 @@ Batun	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0306437913000768)
 
 Modeling	NN	O	B-Task
@@ -33514,6 +34773,7 @@ a	NN	O	O
 challenging	NN	O	O
 task	NN	O	O
 .	NN	O	O
+
 Existing	NN	O	O
 modeling	NN	O	B-Process
 approaches	NN	O	I-Process
@@ -33544,6 +34804,7 @@ of	NN	O	O
 involved	NN	O	O
 collaborators	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 propose	NN	O	O
 a	NN	O	O
@@ -33570,6 +34831,7 @@ network	NN	O	I-Process
 of	NN	O	I-Process
 collaborators	NN	O	I-Process
 .	NN	O	O
+
 Our	NN	O	O
 modeling	NN	O	B-Process
 approach	NN	O	I-Process
@@ -33615,6 +34877,7 @@ or	NN	O	O
 unbiased	NN	O	O
 experts	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 demonstrate	NN	O	O
 the	NN	O	O
@@ -33635,6 +34898,7 @@ and	NN	O	O
 weaknesses	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370157309002877)
 
 We	NN	O	O
@@ -33651,6 +34915,7 @@ of	NN	O	O
 the	NN	O	O
 review	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 has	NN	O	O
 long	NN	O	O
@@ -33671,6 +34936,7 @@ not	NN	O	O
 exactly	NN	O	O
 periodic	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 put	NN	O	O
 it	NN	O	O
@@ -33685,6 +34951,7 @@ fluctuate	NN	O	O
 with	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 example	NN	O	O
 ,	NN	O	O
@@ -33704,6 +34971,7 @@ topic	NN	O	O
 of	NN	O	O
 discussion	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 introduce	NN	O	B-Task
 one	NN	O	I-Task
@@ -33717,6 +34985,7 @@ in	NN	O	O
 Section	NN	O	O
 3	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -33766,6 +35035,7 @@ to	NN	O	O
 produce	NN	O	O
 HRV	NN	O	B-Task
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 demonstrated	NN	O	O
@@ -33782,6 +35052,7 @@ the	NN	O	O
 wavelet	NN	O	B-Process
 transform	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 Section	NN	O	O
 5	NN	O	O
@@ -33799,6 +35070,7 @@ of	NN	O	O
 phase	NN	O	B-Process
 synchronization	NN	O	I-Process
 .	NN	O	O
+
 To	NN	O	O
 set	NN	O	O
 the	NN	O	O
@@ -33820,6 +35092,7 @@ in	NN	O	O
 Section	NN	O	O
 2	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 readers	NN	O	O
 who	NN	O	O
@@ -33852,6 +35125,7 @@ signals	NN	O	I-Process
 are	NN	O	O
 conducted	NN	O	O
 .	NN	O	O
+
 Appendix	NN	O	O
 C	NN	O	O
 provides	NN	O	O
@@ -33868,6 +35142,7 @@ data	NN	O	I-Task
 analyses	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0370157312000105)
 
 By	NN	O	O
@@ -33909,6 +35184,7 @@ rival	NN	O	O
 Einstein	NN	O	O
 ’s	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 formalism	NN	O	O
 was	NN	O	O
@@ -33949,6 +35225,7 @@ and	NN	O	O
 Clifford	NN	O	O
 Will	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 PPN	NN	O	B-Process
 formalism	NN	O	I-Process
@@ -34002,6 +35279,7 @@ Taylor	NN	O	I-Task
 binary	NN	O	I-Task
 pulsar	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 PPN	NN	O	B-Process
 formalism	NN	O	I-Process
@@ -34035,6 +35313,7 @@ evaluated	NN	O	I-Process
 ever	NN	O	O
 since	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 will	NN	O	O
 give	NN	O	O
@@ -34058,6 +35337,7 @@ Section	NN	O	O
 2	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370157314001318)
 
 Despite	NN	O	O
@@ -34089,6 +35369,7 @@ from	NN	O	O
 such	NN	O	O
 systems	NN	O	O
 .	NN	O	O
+
 Mathematically	NN	O	O
 they	NN	O	O
 are	NN	O	O
@@ -34132,6 +35413,7 @@ points	NN	O	O
 in	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 Recently	NN	O	O
 there	NN	O	O
 has	NN	O	O
@@ -34182,6 +35464,7 @@ systems	NN	O	I-Task
 8,9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 contrast	NN	O	O
 ,	NN	O	O
@@ -34213,6 +35496,7 @@ in	NN	O	O
 detail	NN	O	O
 before	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 partly	NN	O	O
@@ -34249,6 +35533,7 @@ stochastic	NN	O	B-Process
 ]	NN	O	O
 regime	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -34281,6 +35566,7 @@ of	NN	O	O
 such	NN	O	O
 systems	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -34313,6 +35599,7 @@ variability	NN	O	I-Task
 12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 general	NN	O	O
 and	NN	O	O
@@ -34332,6 +35619,7 @@ tackled	NN	O	O
 though	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304006070)
 
 The	NN	O	O
@@ -34363,6 +35651,7 @@ latest	NN	O	O
 experimental	NN	O	B-Material
 data	NN	O	I-Material
 .	NN	O	O
+
 First	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -34401,6 +35690,7 @@ are	NN	O	O
 apparently	NN	O	O
 different	NN	O	O
 .	NN	O	O
+
 Second	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -34431,10 +35721,11 @@ squared	NN	O	I-Process
 differences	NN	O	I-Process
 and	NN	O	O
 three	NN	O	O
-lepton	NN	O	B-Process
-flavor	NN	O	I-Process
-mixing	NN	O	I-Process
-angles,22To	NN	O	I-Process
+lepton	NN	O	O
+flavor	NN	O	O
+mixing	NN	O	O
+
+angles,22To	NN	O	O
 be	NN	O	O
 specific	NN	O	O
 ,	NN	O	O
@@ -34467,13 +35758,16 @@ Maltoni	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 in	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 which	NN	O	O
 are	NN	O	O
 obtained	NN	O	O
@@ -34506,6 +35800,7 @@ K	NN	O	I-Material
 neutrino	NN	O	I-Material
 data	NN	O	I-Material
 .	NN	O	O
+
 We	NN	O	O
 find	NN	O	O
 no	NN	O	O
@@ -34523,6 +35818,7 @@ the	NN	O	O
 2σ	NN	O	O
 level	NN	O	O
 .	NN	O	O
+
 At	NN	O	O
 the	NN	O	O
 3σ	NN	O	O
@@ -34547,6 +35843,7 @@ with	NN	O	O
 current	NN	O	B-Material
 data	NN	O	I-Material
 .	NN	O	O
+
 Third	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -34556,12 +35853,13 @@ seesaw	NN	O	B-Process
 mechanism	NN	O	I-Process
 and	NN	O	O
 the	NN	O	O
-Fukugita	NN	O	B-Process
-–	NN	O	I-Process
-Tanimoto	NN	O	I-Process
-–	NN	O	I-Process
-Yanagida	NN	O	I-Process
-hypothesis	NN	O	I-Process
+Fukugita	NN	O	O
+–	NN	O	O
+
+Tanimoto	NN	O	O
+–	NN	O	O
+Yanagida	NN	O	O
+hypothesis	NN	O	O
 [	NN	O	O
 9	NN	O	O
 ]	NN	O	O
@@ -34579,6 +35877,7 @@ six	NN	O	O
 texture	NN	O	O
 zeros	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 turns	NN	O	O
 out	NN	O	O
@@ -34606,6 +35905,7 @@ the	NN	O	O
 level	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304006082)
 
 The	NN	O	O
@@ -34645,6 +35945,7 @@ the	NN	O	O
 first	NN	O	O
 approach	NN	O	O
 .	NN	O	O
+
 More	NN	O	O
 concretely	NN	O	O
 ,	NN	O	O
@@ -34675,6 +35976,7 @@ of	NN	O	O
 even	NN	O	O
 levels	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 on	NN	O	O
@@ -34711,6 +36013,7 @@ crosscap	NN	O	B-Process
 state	NN	O	I-Process
 approach	NN	O	I-Process
 .	NN	O	O
+
 As	NN	O	O
 expected	NN	O	O
 ,	NN	O	O
@@ -34728,6 +36031,7 @@ the	NN	O	O
 various	NN	O	O
 amplitudes	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 will	NN	O	O
 end	NN	O	O
@@ -34766,6 +36070,7 @@ the	NN	O	O
 parity	NN	O	B-Process
 symmetry	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 fact	NN	O	O
 providing	NN	O	O
@@ -34793,6 +36098,7 @@ writing	NN	O	O
 this	NN	O	O
 Letter	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 hope	NN	O	O
 that	NN	O	O
@@ -34827,6 +36133,7 @@ of	NN	O	I-Task
 ]	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304006161)
 
 Absorption	NN	O	B-Task
@@ -34884,6 +36191,7 @@ the	NN	O	O
 residual	NN	O	B-Task
 nucleus	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 nuclear	NN	O	B-Task
 absorption	NN	O	I-Task
@@ -34915,6 +36223,7 @@ Bahcall	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 11	NN	O	O
 ]	NN	O	O
@@ -34939,6 +36248,7 @@ Ormand	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 12	NN	O	O
 ]	NN	O	O
@@ -34956,6 +36266,7 @@ Gamow	NN	O	I-Task
 Teller	NN	O	I-Task
 transitions	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 these	NN	O	O
 calculations	NN	O	O
@@ -34975,6 +36286,7 @@ the	NN	O	O
 Coulomb	NN	O	B-Process
 effects	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 a	NN	O	O
 recent	NN	O	O
@@ -34983,6 +36295,7 @@ Bueno	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 13	NN	O	O
 ]	NN	O	O
@@ -34998,6 +36311,7 @@ Pinedo	NN	O	I-Process
 et	NN	O	I-Process
 al	NN	O	I-Process
 .	NN	O	I-Process
+
 [	NN	O	O
 14	NN	O	O
 ]	NN	O	O
@@ -35032,6 +36346,7 @@ absorption	NN	O	I-Task
 cross	NN	O	I-Task
 sections	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 calculation	NN	O	O
@@ -35074,6 +36389,7 @@ energies	NN	O	O
 14–17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 a	NN	O	O
 recent	NN	O	O
@@ -35082,6 +36398,7 @@ Bhattacharya	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 18	NN	O	O
 ]	NN	O	O
@@ -35119,22 +36436,24 @@ in	NN	O	O
 40Ar	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304006720)
 
 Classical	NN	O	O
 ,	NN	O	O
-two	NN	O	B-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-sigma	NN	O	I-Task
-models	NN	O	I-Task
-on	NN	O	I-Task
-compact	NN	O	I-Task
-symmetric	NN	O	I-Task
-spaces	NN	O	I-Task
-G	NN	O	I-Task
-/	NN	O	I-Task
-H	NN	O	I-Task
+two	NN	O	O
+-	NN	O	O
+dimensional	NN	O	O
+sigma	NN	O	O
+models	NN	O	O
+on	NN	O	O
+compact	NN	O	O
+symmetric	NN	O	O
+spaces	NN	O	O
+
+G	NN	O	O
+/	NN	O	O
+H	NN	O	O
 are	NN	O	O
 integrable	NN	O	O
 by	NN	O	O
@@ -35173,6 +36492,7 @@ extensive	NN	O	O
 literature	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Since	NN	O	O
 these	NN	O	O
 models	NN	O	O
@@ -35195,6 +36515,7 @@ straightforward	NN	O	O
 to	NN	O	O
 determine	NN	O	O
 .	NN	O	O
+
 Nevertheless	NN	O	O
 ,	NN	O	O
 following	NN	O	O
@@ -35249,6 +36570,7 @@ non	NN	O	I-Process
 trivial	NN	O	I-Process
 ideals	NN	O	I-Process
 .	NN	O	O
+
 Hence	NN	O	O
 U(1	NN	O	O
 )	NN	O	O
@@ -35278,6 +36600,7 @@ classification	NN	O	O
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 the	NN	O	O
 first	NN	O	O
 conserved	NN	O	O
@@ -35307,6 +36630,7 @@ of	NN	O	O
 the	NN	O	O
 theory	NN	O	O
 .	NN	O	O
+
 By	NN	O	O
 contrast	NN	O	O
 ,	NN	O	O
@@ -35359,6 +36683,7 @@ n>1	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304006756)
 
 We	NN	O	O
@@ -35379,6 +36704,7 @@ low	NN	O	I-Task
 energy	NN	O	I-Task
 interactions	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 consists	NN	O	O
 in	NN	O	O
@@ -35407,6 +36733,7 @@ strength	NN	O	I-Process
 is	NN	O	I-Process
 zero	NN	O	I-Process
 .	NN	O	O
+
 By	NN	O	O
 tuning	NN	O	B-Process
 the	NN	O	I-Process
@@ -35436,6 +36763,7 @@ ground	NN	O	I-Process
 state	NN	O	I-Process
 energy	NN	O	I-Process
 .	NN	O	O
+
 Lattice	NN	O	B-Material
 sizes	NN	O	I-Material
 as	NN	O	O
@@ -35461,6 +36789,7 @@ of	NN	O	O
 mπ/2	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304006768)
 
 In	NN	O	O
@@ -35478,6 +36807,7 @@ of	NN	O	I-Task
 local	NN	O	I-Task
 functionals	NN	O	I-Task
 .	NN	O	O
+
 We	NN	O	O
 aim	NN	O	O
 at	NN	O	O
@@ -35520,6 +36850,7 @@ necessarily	NN	O	O
 local	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 show	NN	O	O
 that	NN	O	O
@@ -35546,6 +36877,7 @@ infinite	NN	O	B-Process
 derivative	NN	O	I-Process
 expansion	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 believe	NN	O	O
 that	NN	O	O
@@ -35577,6 +36909,7 @@ in	NN	O	O
 recent	NN	O	O
 works	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 precisely	NN	O	O
@@ -35603,6 +36936,7 @@ of	NN	O	I-Task
 local	NN	O	I-Task
 functionals	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 observation	NN	O	O
 supports	NN	O	O
@@ -35626,6 +36960,7 @@ and	NN	O	O
 small	NN	O	O
 distances	NN	O	O
 .	NN	O	O
+
 Our	NN	O	O
 arguments	NN	O	O
 on	NN	O	O
@@ -35651,6 +36986,7 @@ BRST	NN	O	B-Process
 cohomology	NN	O	I-Process
 theorems	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 BRST	NN	O	B-Material
 terminology	NN	O	I-Material
@@ -35670,6 +37006,7 @@ always	NN	O	O
 necessary	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S037026930400680X)
 
 Certainly	NN	O	O
@@ -35693,6 +37030,7 @@ are	NN	O	O
 so	NN	O	O
 small	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -35702,6 +37040,7 @@ without	NN	O	O
 its	NN	O	O
 faults	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -35740,6 +37079,7 @@ the	NN	O	I-Task
 Δm2	NN	O	I-Task
 's	NN	O	I-Task
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 both	NN	O	O
@@ -35775,6 +37115,7 @@ are	NN	O	O
 all	NN	O	O
 small	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 problems	NN	O	O
 can	NN	O	O
@@ -35819,6 +37160,7 @@ neutrino	NN	O	I-Process
 Yukawa	NN	O	I-Process
 couplings	NN	O	I-Process
 .	NN	O	O
+
 But	NN	O	O
 this	NN	O	O
 has	NN	O	O
@@ -35840,6 +37182,7 @@ require	NN	O	O
 explanation	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304007129)
 
 We	NN	O	O
@@ -35897,6 +37240,7 @@ lepton	NN	O	I-Process
 mass	NN	O	I-Process
 matrix	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 show	NN	O	O
 that	NN	O	O
@@ -35927,6 +37271,7 @@ the	NN	O	O
 current	NN	O	O
 limit	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 rate	NN	O	B-Process
 for	NN	O	I-Process
@@ -35939,6 +37284,7 @@ to	NN	O	O
 its	NN	O	O
 limit	NN	O	O
 .	NN	O	O
+
 From	NN	O	O
 these	NN	O	O
 and	NN	O	O
@@ -35954,6 +37300,7 @@ lepton	NN	O	I-Task
 mixing	NN	O	I-Task
 angles	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 constraints	NN	O	O
 are	NN	O	O
@@ -35991,6 +37338,7 @@ sensitivity	NN	O	O
 level	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304007208)
 
 It	NN	O	O
@@ -36015,6 +37363,7 @@ from	NN	O	I-Task
 first	NN	O	I-Task
 principles	NN	O	I-Task
 .	NN	O	O
+
 Hence	NN	O	O
 the	NN	O	O
 challenge	NN	O	O
@@ -36031,6 +37380,7 @@ and	NN	O	O
 theoretical	NN	O	O
 guidance	NN	O	O
 .	NN	O	O
+
 According	NN	O	O
 to	NN	O	O
 this	NN	O	O
@@ -36062,6 +37412,7 @@ developed	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -36111,8 +37462,10 @@ strength	NN	O	I-Process
 that	NN	O	O
 is	NN	O	O
 ,	NN	O	O
+
 (	NN	O	B-Process
 2)w=εμναβ∂μAναβ.	NN	O	I-Process
+
 The	NN	O	O
 Aναβ	NN	O	B-Process
 equation	NN	O	I-Process
@@ -36130,6 +37483,7 @@ integrated	NN	O	B-Process
 to	NN	O	I-Process
 (	NN	O	I-Process
 4)w=−FμνaFaμν+M.	NN	O	I-Process
+
 It	NN	O	O
 is	NN	O	O
 easy	NN	O	O
@@ -36147,6 +37501,7 @@ to	NN	O	O
 (	NN	O	O
 5)∇μFaμν+MFaμν−FαβbFbαβ=0	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 worth	NN	O	O
@@ -36173,6 +37528,7 @@ solutions	NN	O	I-Task
 of	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 5	NN	O	O
 )	NN	O	O
@@ -36192,6 +37548,7 @@ a	NN	O	O
 confining	NN	O	B-Material
 part	NN	O	I-Material
 .	NN	O	O
+
 Also	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -36213,6 +37570,7 @@ behavior	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 well	NN	O	O
@@ -36231,6 +37589,7 @@ solutions	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S037026930400721X)
 
 In	NN	O	O
@@ -36289,6 +37648,7 @@ the	NN	O	O
 standard	NN	O	B-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -36302,6 +37662,7 @@ D	NN	O	B-Task
 flat	NN	O	I-Task
 directions	NN	O	I-Task
 .	NN	O	O
+
 For	NN	O	O
 D	NN	O	B-Task
 -	NN	O	I-Task
@@ -36327,6 +37688,7 @@ direction	NN	O	O
 we	NN	O	O
 consider	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 MSSM	NN	O	O
@@ -36343,6 +37705,7 @@ the	NN	O	O
 fermion	NN	O	O
 masses	NN	O	O
 .	NN	O	O
+
 Such	NN	O	O
 Yukawa	NN	O	O
 interactions	NN	O	O
@@ -36355,6 +37718,7 @@ D	NN	O	B-Task
 flat	NN	O	I-Task
 directions	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -36418,6 +37782,7 @@ to	NN	O	O
 be	NN	O	O
 neglected	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 may	NN	O	O
 be	NN	O	O
@@ -36439,10 +37804,12 @@ MSSM	NN	O	B-Process
 chiral	NN	O	I-Process
 superfields	NN	O	I-Process
 .	NN	O	O
+
 (	NN	O	O
 See	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 6	NN	O	O
 ]	NN	O	O
@@ -36452,6 +37819,7 @@ details	NN	O	O
 .	NN	O	O
 )	NN	O	O
 
+
 -DOCSTART- (S0370269304007257)
 
 Some	NN	O	O
@@ -36480,6 +37848,7 @@ a	NN	O	O
 linear	NN	O	B-Material
 collider	NN	O	I-Material
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -36496,6 +37865,7 @@ the	NN	O	O
 two	NN	O	O
 options	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 far	NN	O	O
 as	NN	O	O
@@ -36560,11 +37930,13 @@ OqW	NN	O	O
 are	NN	O	O
 redundant	NN	O	O
 .	NN	O	O
+
 can	NN	O	O
 be	NN	O	O
 measured	NN	O	O
 here	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 should	NN	O	O
 be	NN	O	O
@@ -36626,6 +37998,7 @@ see	NN	O	O
 24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 while	NN	O	O
 here	NN	O	O
 the	NN	O	O
@@ -36635,6 +38008,7 @@ could	NN	O	O
 be	NN	O	O
 determined	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 measurement	NN	O	B-Task
@@ -36667,6 +38041,7 @@ could	NN	O	I-Task
 be	NN	O	I-Task
 measured	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -36702,6 +38077,7 @@ appropriately	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304007439)
 
 In	NN	O	O
@@ -36721,6 +38097,7 @@ is	NN	O	O
 very	NN	O	O
 promising	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -36746,6 +38123,7 @@ Gribov	NN	O	I-Process
 Regge	NN	O	I-Process
 theory	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 realized	NN	O	O
@@ -36760,6 +38138,7 @@ NEXUS	NN	O	B-Material
 22,23	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 model	NN	O	O
@@ -36782,6 +38161,7 @@ multiple	NN	O	I-Process
 scattering	NN	O	I-Process
 formalism	NN	O	I-Process
 .	NN	O	O
+
 Elementary	NN	O	B-Process
 interactions	NN	O	I-Process
 ,	NN	O	O
@@ -36809,6 +38189,7 @@ soft	NN	O	I-Process
 pomeron	NN	O	I-Process
 exchanges	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 pomeron	NN	O	B-Material
 can	NN	O	O
@@ -36836,6 +38217,7 @@ via	NN	O	O
 leg	NN	O	B-Material
 partons	NN	O	I-Material
 .	NN	O	O
+
 At	NN	O	O
 high	NN	O	O
 energies	NN	O	O
@@ -36887,6 +38269,7 @@ the	NN	O	I-Material
 usual	NN	O	I-Material
 way	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 spectator	NN	O	B-Material
 partons	NN	O	I-Material
@@ -36906,6 +38289,7 @@ form	NN	O	O
 nucleon	NN	O	B-Material
 remnants	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 legs	NN	O	O
 of	NN	O	O
@@ -36926,6 +38310,7 @@ q	NN	O	B-Material
 qq	NN	O	I-Material
 or	NN	O	O
 q̄–q̄q̄.	NN	O	B-Material
+
 The	NN	O	O
 probability	NN	O	O
 of	NN	O	O
@@ -36956,6 +38341,7 @@ baryons	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304007634)
 
 I	NN	O	O
@@ -36971,6 +38357,7 @@ speculation	NN	O	O
 10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Many	NN	O	O
 years	NN	O	O
 ago	NN	O	O
@@ -37008,6 +38395,7 @@ Dirac	NN	O	B-Process
 magnetic	NN	O	I-Process
 monopole	NN	O	I-Process
 .	NN	O	O
+
 After	NN	O	O
 Dirac	NN	O	O
 there	NN	O	O
@@ -37026,6 +38414,7 @@ may	NN	O	O
 be	NN	O	O
 formulated	NN	O	O
 .	NN	O	O
+
 Eventually	NN	O	O
 ,	NN	O	O
 '	NN	O	O
@@ -37051,6 +38440,7 @@ abelian	NN	O	I-Process
 gauge	NN	O	I-Process
 theories	NN	O	I-Process
 .	NN	O	O
+
 Most	NN	O	O
 theorists	NN	O	O
 now	NN	O	O
@@ -37072,6 +38462,7 @@ magnetic	NN	O	B-Process
 monopoles	NN	O	I-Process
 exist	NN	O	O
 .	NN	O	O
+
 Might	NN	O	O
 it	NN	O	O
 not	NN	O	O
@@ -37094,6 +38485,7 @@ that	NN	O	O
 gravitipoles	NN	O	B-Process
 exist	NN	O	O
 ?	NN	O	O
+
 In	NN	O	O
 grand	NN	O	O
 unified	NN	O	O
@@ -37108,6 +38500,7 @@ of	NN	O	O
 a	NN	O	O
 multiplet	NN	O	O
 .	NN	O	O
+
 Could	NN	O	O
 it	NN	O	O
 be	NN	O	O
@@ -37135,6 +38528,7 @@ of	NN	O	O
 a	NN	O	O
 multiplet	NN	O	O
 ?	NN	O	O
+
 Throwing	NN	O	O
 caution	NN	O	O
 to	NN	O	O
@@ -37182,11 +38576,13 @@ of	NN	O	O
 Montonen	NN	O	O
 and	NN	O	O
 Olive	NN	O	O
+
 [	NN	O	O
 11	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304007695)
 
 In	NN	O	O
@@ -37224,6 +38620,7 @@ to	NN	O	O
 gluon	NN	O	B-Process
 radiation	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 our	NN	O	O
 dynamical	NN	O	B-Task
@@ -37268,6 +38665,7 @@ the	NN	O	O
 surrounding	NN	O	B-Material
 medium	NN	O	I-Material
 .	NN	O	O
+
 We	NN	O	O
 find	NN	O	O
 that	NN	O	O
@@ -37298,6 +38696,7 @@ to	NN	O	O
 determine	NN	O	B-Task
 σlead	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 interaction	NN	O	B-Process
 of	NN	O	I-Process
@@ -37333,6 +38732,7 @@ a	NN	O	O
 closed	NN	O	O
 form	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 extracted	NN	O	O
 average	NN	O	O
@@ -37362,6 +38762,7 @@ energies	NN	O	O
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 an	NN	O	O
 upcoming	NN	O	O
@@ -37397,6 +38798,7 @@ are	NN	O	I-Task
 about	NN	O	I-Task
 equal	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 we	NN	O	O
@@ -37420,6 +38822,7 @@ of	NN	O	I-Task
 W⩾4	NN	O	I-Task
 GeV.	NN	O	I-Task
 
+
 -DOCSTART- (S0370269304007701)
 
 Solitons	NN	O	B-Material
@@ -37437,6 +38840,7 @@ Quantum	NN	O	O
 Field	NN	O	O
 Theory	NN	O	O
 .	NN	O	O
+
 Although	NN	O	O
 these	NN	O	O
 solutions	NN	O	O
@@ -37467,6 +38871,7 @@ topological	NN	O	I-Process
 conservation	NN	O	I-Process
 laws	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 more	NN	O	O
 curious	NN	O	O
@@ -37484,6 +38889,7 @@ on	NN	O	I-Task
 such	NN	O	I-Task
 solutions	NN	O	I-Task
 .	NN	O	O
+
 Their	NN	O	O
 presence	NN	O	O
 requires	NN	O	O
@@ -37511,6 +38917,7 @@ the	NN	O	I-Process
 solitonic	NN	O	I-Process
 states	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 usual	NN	O	O
@@ -37532,6 +38939,7 @@ itself	NN	O	O
 is	NN	O	O
 ignored	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -37558,6 +38966,7 @@ not	NN	O	O
 strictly	NN	O	O
 stable	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 reason	NN	O	O
 for	NN	O	O
@@ -37594,6 +39003,7 @@ the	NN	O	I-Task
 fermionic	NN	O	I-Task
 charge	NN	O	I-Task
 .	NN	O	O
+
 Dynamical	NN	O	B-Task
 stability	NN	O	I-Task
 of	NN	O	I-Task
@@ -37622,6 +39032,7 @@ in	NN	O	O
 6–8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Fractional	NN	O	O
 fermion	NN	O	O
 number	NN	O	O
@@ -37647,6 +39058,7 @@ the	NN	O	I-Task
 phenomenon	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304007749)
 
 The	NN	O	O
@@ -37707,6 +39119,7 @@ into	NN	O	O
 a	NN	O	O
 quarkonium	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -37730,6 +39143,7 @@ productions	NN	O	I-Task
 and	NN	O	I-Task
 decays	NN	O	I-Task
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 some	NN	O	O
@@ -37748,10 +39162,12 @@ at	NN	O	O
 BaBar	NN	O	B-Process
 and	NN	O	O
 Belle	NN	O	B-Process
+
 [	NN	O	O
 1–3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 inclusive	NN	O	B-Task
@@ -37831,6 +39247,7 @@ mechanism	NN	O	I-Process
 in	NN	O	I-Process
 NRQCD	NN	O	I-Process
 .	NN	O	O
+
 To	NN	O	O
 provide	NN	O	O
 plausible	NN	O	O
@@ -37909,6 +39326,7 @@ boson	NN	O	I-Task
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304007798)
 
 States	NN	O	O
@@ -37932,6 +39350,7 @@ color	NN	O	O
 1–4	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Hybrid	NN	O	B-Material
 mesons	NN	O	I-Material
 ,	NN	O	O
@@ -37966,6 +39385,7 @@ their	NN	O	O
 color	NN	O	B-Process
 charge	NN	O	I-Process
 .	NN	O	O
+
 Looking	NN	O	B-Process
 for	NN	O	I-Process
 glueballs	NN	O	I-Process
@@ -38013,6 +39433,7 @@ predicted	NN	O	O
 to	NN	O	O
 occur	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 such	NN	O	O
 ,	NN	O	O
@@ -38036,6 +39457,7 @@ very	NN	O	O
 difficult	NN	O	O
 task	NN	O	O
 .	NN	O	O
+
 Instead	NN	O	O
 ,	NN	O	O
 hybrid	NN	O	B-Material
@@ -38097,6 +39519,7 @@ regular	NN	O	O
 qq̄-mesons	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304008305)
 
 Correlation	NN	O	B-Task
@@ -38120,6 +39543,7 @@ kt	NN	O	B-Process
 factorization	NN	O	I-Process
 approach	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 apply	NN	O	O
 different	NN	O	O
@@ -38134,6 +39558,7 @@ in	NN	O	O
 the	NN	O	O
 literature	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 of	NN	O	O
@@ -38151,6 +39576,7 @@ the	NN	O	O
 FOCUS	NN	O	O
 Collaboration	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 CCFM	NN	O	B-Material
 uGDF	NN	O	I-Material
@@ -38161,6 +39587,7 @@ Kwieciński	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 gives	NN	O	O
 a	NN	O	O
 good	NN	O	O
@@ -38169,6 +39596,7 @@ of	NN	O	O
 the	NN	O	O
 data	NN	O	O
 .	NN	O	O
+
 New	NN	O	O
 observables	NN	O	O
 are	NN	O	O
@@ -38177,6 +39605,7 @@ for	NN	O	O
 future	NN	O	O
 studies	NN	O	O
 .	NN	O	O
+
 Predictions	NN	O	O
 and	NN	O	O
 perspectives	NN	O	O
@@ -38188,6 +39617,7 @@ are	NN	O	O
 presented	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304008706)
 
 The	NN	O	O
@@ -38222,6 +39652,7 @@ should	NN	O	O
 be	NN	O	O
 mentioned	NN	O	O
 .	NN	O	O
+
 Previously	NN	O	O
 it	NN	O	O
 was	NN	O	O
@@ -38286,6 +39717,7 @@ GeV	NN	O	I-Process
 /	NN	O	I-Process
 c	NN	O	I-Process
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 within	NN	O	O
@@ -38345,6 +39777,7 @@ at	NN	O	O
 9	NN	O	O
 GeV	NN	O	O
 /	NN	O	O
+
 c	NN	O	O
 and	NN	O	O
 85	NN	O	O
@@ -38356,6 +39789,7 @@ obtained	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304008731)
 
 A	NN	O	O
@@ -38378,6 +39812,7 @@ degenerate	NN	O	B-Material
 Majorana	NN	O	I-Material
 neutrinos	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 our	NN	O	O
 proposal	NN	O	O
@@ -38410,6 +39845,7 @@ between	NN	O	O
 νμ	NN	O	O
 and	NN	O	O
 ντ.	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -38444,6 +39880,7 @@ breaking	NN	O	I-Process
 Z3	NN	O	I-Process
 symmetry	NN	O	I-Process
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 other	NN	O	O
@@ -38486,6 +39923,7 @@ radiative	NN	O	B-Process
 corrections	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304008780)
 
 In	NN	O	O
@@ -38509,6 +39947,7 @@ quark	NN	O	I-Material
 matter	NN	O	I-Material
 cores	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 the	NN	O	O
@@ -38519,6 +39958,7 @@ prediction	NN	O	O
 of	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 15	NN	O	O
 ]	NN	O	O
@@ -38536,6 +39976,7 @@ in	NN	O	O
 compact	NN	O	B-Material
 stars	NN	O	I-Material
 .	NN	O	O
+
 Let	NN	O	O
 us	NN	O	O
 be	NN	O	O
@@ -38557,6 +39998,7 @@ authors	NN	O	O
 of	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 15	NN	O	O
 ]	NN	O	O
@@ -38588,6 +40030,7 @@ normal	NN	O	B-Material
 quark	NN	O	I-Material
 matter	NN	O	I-Material
 .	NN	O	O
+
 From	NN	O	O
 this	NN	O	O
 observation	NN	O	O
@@ -38603,6 +40046,7 @@ in	NN	O	O
 compact	NN	O	B-Material
 stars	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 contrast	NN	O	O
 to	NN	O	O
@@ -38615,6 +40059,7 @@ shown	NN	O	O
 in	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 16	NN	O	O
 ]	NN	O	O
@@ -38641,6 +40086,7 @@ a	NN	O	O
 certain	NN	O	O
 regime	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -38660,6 +40106,7 @@ included	NN	O	O
 more	NN	O	O
 properly	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 indeed	NN	O	O
@@ -38686,6 +40133,7 @@ a	NN	O	O
 tiny	NN	O	O
 window	NN	O	O
 .	NN	O	O
+
 Nevertheless	NN	O	O
 ,	NN	O	O
 if	NN	O	O
@@ -38726,6 +40174,7 @@ compact	NN	O	B-Material
 stars	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304008792)
 
 We	NN	O	O
@@ -38756,6 +40205,7 @@ of	NN	O	O
 and	NN	O	O
 1.528A	NN	O	O
 GeV.	NN	O	O
+
 The	NN	O	O
 study	NN	O	B-Task
 is	NN	O	O
@@ -38788,6 +40238,7 @@ is	NN	O	I-Task
 particularly	NN	O	I-Task
 explored	NN	O	I-Task
 .	NN	O	O
+
 We	NN	O	O
 find	NN	O	O
 that	NN	O	O
@@ -38808,6 +40259,7 @@ to	NN	O	O
 more	NN	O	O
 transparency	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 are	NN	O	O
@@ -38837,6 +40289,7 @@ isovector	NN	O	B-Material
 meson	NN	O	I-Material
 fields	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 isospin	NN	O	O
 tracing	NN	O	O
@@ -38847,12 +40300,13 @@ dependent	NN	O	O
 on	NN	O	O
 the	NN	O	O
 in	NN	O	O
-medium	NN	O	B-Process
-neutron	NN	O	I-Process
-–	NN	O	I-Process
-proton	NN	O	I-Process
-cross	NN	O	I-Process
-sections	NN	O	I-Process
+medium	NN	O	O
+neutron	NN	O	O
+–	NN	O	O
+
+proton	NN	O	O
+cross	NN	O	O
+sections	NN	O	O
 (	NN	O	O
 σnp	NN	O	B-Process
 )	NN	O	O
@@ -38877,6 +40331,7 @@ equation	NN	O	I-Task
 of	NN	O	I-Task
 state	NN	O	I-Task
 .	NN	O	O
+
 Within	NN	O	O
 such	NN	O	O
 a	NN	O	O
@@ -38905,6 +40360,7 @@ of	NN	O	I-Process
 state	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304008809)
 
 The	NN	O	O
@@ -38934,6 +40390,7 @@ otherwise	NN	O	I-Task
 complete	NN	O	I-Task
 sequence	NN	O	I-Task
 .	NN	O	O
+
 Dyson	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -38969,6 +40426,7 @@ can	NN	O	I-Task
 be	NN	O	I-Task
 constructed	NN	O	I-Task
 .	NN	O	O
+
 At	NN	O	O
 one	NN	O	O
 extreme	NN	O	O
@@ -38996,6 +40454,7 @@ one	NN	O	I-Task
 missing	NN	O	I-Task
 level	NN	O	I-Task
 .	NN	O	O
+
 At	NN	O	O
 the	NN	O	O
 other	NN	O	O
@@ -39032,6 +40491,7 @@ in	NN	O	I-Task
 the	NN	O	I-Task
 spectrum	NN	O	I-Task
 .	NN	O	O
+
 Eigenvalues	NN	O	O
 of	NN	O	O
 random	NN	O	O
@@ -39052,6 +40512,7 @@ these	NN	O	O
 two	NN	O	O
 extremes	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 attempts	NN	O	O
 to	NN	O	O
@@ -39070,6 +40531,7 @@ unsuccessful	NN	O	O
 so	NN	O	O
 far	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -39131,6 +40593,7 @@ is	NN	O	O
 well	NN	O	O
 understood	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 then	NN	O	O
@@ -39155,6 +40618,7 @@ level	NN	O	I-Task
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304008858)
 
 The	NN	O	O
@@ -39192,6 +40656,7 @@ of	NN	O	I-Task
 these	NN	O	I-Task
 equations	NN	O	I-Task
 .	NN	O	O
+
 Indeed	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -39244,6 +40709,7 @@ an	NN	O	I-Process
 integer	NN	O	I-Process
 number	NN	O	I-Process
 .	NN	O	O
+
 Further	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -39263,6 +40729,7 @@ invariance	NN	O	I-Process
 10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Calculations	NN	O	B-Process
 in	NN	O	I-Process
 the	NN	O	I-Process
@@ -39285,6 +40752,7 @@ more	NN	O	O
 remarkable	NN	O	O
 results	NN	O	O
 .	NN	O	O
+
 Namely	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -39365,6 +40833,7 @@ model	NN	O	O
 11,12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 QCD	NN	O	O
 the	NN	O	O
@@ -39385,6 +40854,7 @@ operators	NN	O	O
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -39405,6 +40875,7 @@ integrable	NN	O	O
 14–16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Evolution	NN	O	B-Task
 equations	NN	O	I-Task
 for	NN	O	I-Task
@@ -39424,11 +40895,13 @@ form	NN	O	O
 in	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304008974)
 
 Thus	NN	O	O
@@ -39457,6 +40930,7 @@ calculations	NN	O	I-Task
 17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Here	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -39490,6 +40964,7 @@ reproduced	NN	O	O
 from	NN	O	O
 QCD	NN	O	B-Material
 .	NN	O	O
+
 In	NN	O	O
 fact	NN	O	O
 ,	NN	O	O
@@ -39509,6 +40984,7 @@ positive	NN	O	O
 28	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 extension	NN	O	O
@@ -39537,6 +41013,7 @@ SDO	NN	O	B-Process
 sum	NN	O	I-Process
 rule	NN	O	I-Process
 .	NN	O	O
+
 First	NN	O	O
 of	NN	O	O
 all	NN	O	O
@@ -39564,6 +41041,7 @@ by	NN	O	O
 radiating	NN	O	B-Material
 gluons	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 quark	NN	O	B-Material
 –	NN	O	I-Material
@@ -39600,6 +41078,7 @@ are	NN	O	O
 normally	NN	O	O
 suppressed	NN	O	O
 .	NN	O	O
+
 Secondly	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -39632,6 +41111,7 @@ charm	NN	O	B-Material
 quark	NN	O	I-Material
 propagator	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 different	NN	O	O
@@ -39668,6 +41148,7 @@ small	NN	O	B-Material
 quark	NN	O	I-Material
 mass	NN	O	O
 .	NN	O	O
+
 Keeping	NN	O	O
 these	NN	O	O
 two	NN	O	O
@@ -39697,6 +41178,7 @@ sum	NN	O	I-Task
 rule	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304008998)
 
 Including	NN	O	O
@@ -39722,6 +41204,7 @@ to	NN	O	I-Task
 be	NN	O	I-Task
 included	NN	O	I-Task
 .	NN	O	O
+
 A	NN	O	O
 convenient	NN	O	O
 framework	NN	O	O
@@ -39841,6 +41324,7 @@ the	NN	O	I-Process
 two	NN	O	I-Process
 partons	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 quantities	NN	O	O
 TiI	NN	O	O
@@ -39870,6 +41354,7 @@ hard	NN	O	O
 spectator	NN	O	O
 contributions	NN	O	O
 .	NN	O	O
+
 The	NN	O	B-Process
 factorization	NN	O	I-Process
 formula	NN	O	I-Process
@@ -39891,6 +41376,7 @@ order	NN	O	O
 /	NN	O	O
 MB	NN	O	O
 .	NN	O	O
+
 This	NN	O	B-Process
 factorization	NN	O	I-Process
 framework	NN	O	I-Process
@@ -39908,6 +41394,7 @@ quantities	NN	O	O
 for	NN	O	O
 the	NN	O	O
 decays	NN	O	O
+
 B→K∗γ	NN	O	O
 [	NN	O	O
 15–17	NN	O	O
@@ -39918,6 +41405,7 @@ B→ργ	NN	O	O
 15,17	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 isospin	NN	O	B-Task
 violation	NN	O	I-Task
@@ -39936,6 +41424,7 @@ studied	NN	O	O
 18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 For	NN	O	O
 applications	NN	O	O
@@ -39945,11 +41434,13 @@ B→K∗γ∗	NN	O	O
 see	NN	O	O
 Refs	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 16,19,20	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 )	NN	O	O
+
 Very	NN	O	O
 recently	NN	O	O
 ,	NN	O	O
@@ -39999,6 +41490,7 @@ limit	NN	O	O
 21	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -40022,6 +41514,7 @@ our	NN	O	O
 update	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009013)
 
 Several	NN	O	O
@@ -40046,6 +41539,7 @@ the	NN	O	O
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 According	NN	O	O
 to	NN	O	O
 a	NN	O	O
@@ -40083,6 +41577,7 @@ in	NN	O	O
 this	NN	O	B-Process
 reaction	NN	O	I-Process
 .	NN	O	O
+
 Model	NN	O	B-Process
 independent	NN	O	I-Process
 methods	NN	O	I-Process
@@ -40102,6 +41597,7 @@ recently	NN	O	O
 in	NN	O	O
 Refs	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 15,16	NN	O	O
 ]	NN	O	O
@@ -40114,6 +41610,7 @@ and	NN	O	O
 in	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 17	NN	O	O
 ]	NN	O	O
@@ -40123,11 +41620,13 @@ of	NN	O	O
 the	NN	O	O
 Θ+	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 method	NN	O	O
 of	NN	O	O
 Refs	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 15,16	NN	O	O
 ]	NN	O	O
@@ -40162,6 +41661,7 @@ near	NN	O	O
 the	NN	O	O
 threshold	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 generalize	NN	O	O
 here	NN	O	O
@@ -40189,6 +41689,7 @@ the	NN	O	O
 NN→YΘ+	NN	O	O
 reaction	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -40207,6 +41708,7 @@ in	NN	O	O
 this	NN	O	O
 reaction	NN	O	O
 .	NN	O	O
+
 Our	NN	O	O
 consideration	NN	O	O
 is	NN	O	O
@@ -40243,6 +41745,7 @@ for	NN	O	O
 nucleons	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009025)
 
 A	NN	O	O
@@ -40270,6 +41773,7 @@ a	NN	O	I-Task
 bound	NN	O	I-Task
 proton	NN	O	I-Task
 .	NN	O	O
+
 Since	NN	O	O
 one	NN	O	O
 must	NN	O	O
@@ -40302,6 +41806,7 @@ is	NN	O	O
 rather	NN	O	O
 complicated	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 intend	NN	O	O
 to	NN	O	O
@@ -40316,6 +41821,7 @@ in	NN	O	O
 future	NN	O	O
 work	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 present	NN	O	O
@@ -40365,6 +41871,7 @@ potential	NN	O	I-Process
 ,	NN	O	I-Process
 Vvq	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 the	NN	O	O
@@ -40403,6 +41910,7 @@ nuclei	NN	O	I-Task
 10,11	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Most	NN	O	O
 recently	NN	O	O
 it	NN	O	O
@@ -40431,6 +41939,7 @@ force	NN	O	O
 12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 Except	NN	O	O
 that	NN	O	O
@@ -40464,6 +41973,7 @@ surrounding	NN	O	O
 nucleons	NN	O	O
 .	NN	O	O
 )	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 mean	NN	O	B-Process
@@ -40488,6 +41998,7 @@ as	NN	O	O
 30)iγ·∂−m−Vqs−γ0VqvψQMq(x)=0	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009037)
 
 Within	NN	O	O
@@ -40524,6 +42035,7 @@ reactions	NN	O	I-Process
 at	NN	O	O
 RHIC	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 charm	NN	O	B-Task
@@ -40560,6 +42072,7 @@ the	NN	O	O
 bulk	NN	O	O
 matter	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resulting	NN	O	O
 J/ψ	NN	O	O
@@ -40600,6 +42113,7 @@ the	NN	O	O
 thermal	NN	O	O
 case	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 D	NN	O	B-Material
 -	NN	O	I-Material
@@ -40646,6 +42160,7 @@ the	NN	O	O
 thermalized	NN	O	O
 case	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 elliptic	NN	O	B-Process
 flow	NN	O	I-Process
@@ -40686,6 +42201,7 @@ in	NN	O	O
 the	NN	O	O
 QGP	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 present	NN	O	O
 study	NN	O	O
@@ -40717,6 +42233,7 @@ the	NN	O	O
 QGP	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009049)
 
 One	NN	O	O
@@ -40736,6 +42253,7 @@ bound	NN	O	I-Task
 state	NN	O	I-Task
 problem	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 light	NN	O	B-Process
@@ -40760,6 +42278,7 @@ boost	NN	O	O
 invariant	NN	O	O
 way	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 necessary	NN	O	O
@@ -40784,6 +42303,7 @@ especially	NN	O	O
 exclusive	NN	O	O
 reactions	NN	O	B-Process
 .	NN	O	O
+
 Many	NN	O	O
 parametrizations	NN	O	O
 assume	NN	O	O
@@ -40815,6 +42335,7 @@ kinetic	NN	O	O
 energy	NN	O	O
 operator	NN	O	O
 .	NN	O	O
+
 Various	NN	O	O
 approaches	NN	O	O
 have	NN	O	O
@@ -40826,6 +42347,7 @@ such	NN	O	O
 wave	NN	O	O
 functions	NN	O	O
 .	NN	O	O
+
 One	NN	O	O
 can	NN	O	O
 use	NN	O	O
@@ -40858,6 +42380,7 @@ on	NN	O	I-Process
 shell	NN	O	I-Process
 equations	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 light	NN	O	O
 -	NN	O	O
@@ -40872,10 +42395,12 @@ formulated	NN	O	O
 in	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 More	NN	O	O
 ambitious	NN	O	O
 is	NN	O	O
@@ -40900,6 +42425,7 @@ bound	NN	O	I-Process
 state	NN	O	I-Process
 problem	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 mesons	NN	O	B-Material
 this	NN	O	O
@@ -40915,6 +42441,7 @@ to	NN	O	O
 be	NN	O	O
 fixed	NN	O	O
 .	NN	O	O
+
 Attempts	NN	O	O
 have	NN	O	O
 been	NN	O	O
@@ -40943,6 +42470,7 @@ potential	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009062)
 
 The	NN	O	O
@@ -40963,6 +42491,7 @@ taken	NN	O	B-Process
 in	NN	O	I-Process
 consideration	NN	O	I-Process
 .	NN	O	O
+
 Especially	NN	O	O
 interesting	NN	O	O
 is	NN	O	O
@@ -40976,6 +42505,7 @@ background	NN	O	I-Process
 IRB	NN	O	B-Process
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 number	NN	O	O
 density	NN	O	O
@@ -40995,6 +42525,7 @@ orders	NN	O	O
 of	NN	O	O
 magnitude	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 other	NN	O	O
@@ -41027,6 +42558,7 @@ of	NN	O	I-Process
 interacting	NN	O	I-Process
 protons	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 present	NN	O	B-Task
 Universe	NN	O	I-Task
@@ -41053,6 +42585,7 @@ rate	NN	O	I-Task
 quickly	NN	O	O
 increases	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 different	NN	O	O
@@ -41074,6 +42607,7 @@ even	NN	O	I-Process
 at	NN	O	I-Process
 z=0	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 cosmological	NN	O	B-Process
 evolution	NN	O	I-Process
@@ -41099,6 +42633,7 @@ cosmogenic	NN	O	I-Task
 neutrinos	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009074)
 
 In	NN	O	O
@@ -41116,22 +42651,25 @@ charged	NN	O	I-Task
 black	NN	O	I-Task
 holes	NN	O	I-Task
 .	NN	O	O
+
 We	NN	O	O
 first	NN	O	O
-deduce	NN	O	B-Process
-the	NN	O	I-Process
-metric	NN	O	I-Process
-for	NN	O	I-Process
-a	NN	O	I-Process
-Reissner	NN	O	I-Process
-–	NN	O	I-Process
-Nordström	NN	O	I-Process
-black	NN	O	I-Process
-hole	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-expanding	NN	O	I-Process
-universe	NN	O	I-Process
+deduce	NN	O	O
+the	NN	O	O
+metric	NN	O	O
+for	NN	O	O
+a	NN	O	O
+Reissner	NN	O	O
+–	NN	O	O
+
+Nordström	NN	O	O
+black	NN	O	O
+hole	NN	O	O
+in	NN	O	O
+the	NN	O	O
+expanding	NN	O	O
+universe	NN	O	O
+
 ;	NN	O	O
 several	NN	O	O
 special	NN	O	O
@@ -41149,6 +42687,7 @@ solutions	NN	O	O
 discovered	NN	O	O
 previously	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 previous	NN	O	O
@@ -41189,6 +42728,7 @@ full	NN	O	I-Process
 Einstein	NN	O	I-Process
 equations	NN	O	I-Process
 .	NN	O	O
+
 That	NN	O	O
 demonstrates	NN	O	O
 the	NN	O	O
@@ -41202,6 +42742,7 @@ straight	NN	O	O
 forward	NN	O	O
 approach	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 Letter	NN	O	O
@@ -41216,19 +42757,23 @@ the	NN	O	I-Process
 metric	NN	O	I-Process
 for	NN	O	O
 the	NN	O	O
-Reissner	NN	O	B-Task
-–	NN	O	I-Task
-Nordström	NN	O	I-Task
-black	NN	O	I-Task
-holes	NN	O	I-Task
-in	NN	O	I-Task
-Friedman	NN	O	I-Task
-–	NN	O	I-Task
-Robertson	NN	O	I-Task
-–	NN	O	I-Task
-Walker	NN	O	I-Task
-universe	NN	O	I-Task
+Reissner	NN	O	O
+–	NN	O	O
+
+Nordström	NN	O	O
+black	NN	O	O
+holes	NN	O	O
+in	NN	O	O
+Friedman	NN	O	O
+
+–	NN	O	O
+
+Robertson	NN	O	O
+–	NN	O	O
+Walker	NN	O	O
+universe	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 then	NN	O	O
 study	NN	O	B-Task
@@ -41248,6 +42793,7 @@ the	NN	O	I-Task
 black	NN	O	I-Task
 hole	NN	O	I-Task
 .	NN	O	O
+
 Finally	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -41276,6 +42822,7 @@ coordinates	NN	O	I-Process
 system	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009086)
 
 The	NN	O	O
@@ -41344,6 +42891,7 @@ hadron	NN	O	I-Material
 hadron	NN	O	I-Material
 collisions	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 ART	NN	O	B-Process
 model	NN	O	I-Process
@@ -41374,6 +42922,7 @@ at	NN	O	O
 AGS	NN	O	B-Process
 energies	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 ART	NN	O	B-Process
 model	NN	O	I-Process
@@ -41399,6 +42948,7 @@ and/or	NN	O	I-Task
 thermal	NN	O	I-Task
 equilibrium	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 present	NN	O	O
@@ -41432,6 +42982,7 @@ model	NN	O	I-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009104)
 
 Though	NN	O	O
@@ -41470,22 +43021,27 @@ to	NN	O	O
 be	NN	O	O
 investigated	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 know	NN	O	O
 that	NN	O	O
-Reissner	NN	O	B-Material
-–	NN	O	I-Material
-Nordström	NN	O	I-Material
-AdS	NN	O	I-Material
-black	NN	O	I-Material
-holes	NN	O	I-Material
+Reissner	NN	O	O
+–	NN	O	O
+
+Nordström	NN	O	O
+AdS	NN	O	O
+
+black	NN	O	O
+holes	NN	O	O
 undergo	NN	O	O
+
 Hawking	NN	O	B-Process
 –	NN	O	I-Process
 Page	NN	O	I-Process
 phase	NN	O	I-Process
 transition	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 transition	NN	O	O
 gets	NN	O	O
@@ -41493,13 +43049,15 @@ modified	NN	O	O
 as	NN	O	O
 we	NN	O	O
 include	NN	O	O
-Born	NN	O	B-Process
-–	NN	O	I-Process
-Infeld	NN	O	I-Process
-corrections	NN	O	I-Process
+Born	NN	O	O
+–	NN	O	O
+
+Infeld	NN	O	O
+corrections	NN	O	O
 into	NN	O	O
 account	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 hope	NN	O	O
 to	NN	O	O
@@ -41515,6 +43073,7 @@ in	NN	O	O
 the	NN	O	O
 future	NN	O	O
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -41534,11 +43093,12 @@ brane	NN	O	B-Material
 moving	NN	O	O
 in	NN	O	O
 a	NN	O	O
-Reissner	NN	O	B-Process
-–	NN	O	I-Process
-Nordström	NN	O	I-Process
-AdS	NN	O	I-Process
-background	NN	O	I-Process
+Reissner	NN	O	O
+–	NN	O	O
+
+Nordström	NN	O	O
+AdS	NN	O	O
+background	NN	O	O
 generates	NN	O	O
 non	NN	O	B-Task
 -	NN	O	I-Task
@@ -41548,6 +43108,7 @@ cosmology	NN	O	I-Task
 14	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 as	NN	O	O
@@ -41573,6 +43134,7 @@ creating	NN	O	O
 an	NN	O	O
 instability	NN	O	B-Process
 .	NN	O	O
+
 It	NN	O	O
 would	NN	O	O
 be	NN	O	O
@@ -41598,6 +43160,7 @@ we	NN	O	O
 have	NN	O	O
 constructed	NN	O	O
 .	NN	O	O
+
 Note	NN	O	O
 that	NN	O	O
 since	NN	O	O
@@ -41633,6 +43196,7 @@ just	NN	O	O
 mentioned	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009116)
 
 We	NN	O	O
@@ -41644,6 +43208,7 @@ the	NN	O	O
 supersymmetric	NN	O	O
 Salam	NN	O	O
 –	NN	O	O
+
 Sezgin	NN	O	O
 (	NN	O	O
 Minkowski)4×S2	NN	O	O
@@ -41671,6 +43236,7 @@ de	NN	O	I-Task
 Sitter	NN	O	I-Task
 symmetry	NN	O	I-Task
 .	NN	O	O
+
 We	NN	O	O
 construct	NN	O	B-Process
 the	NN	O	I-Process
@@ -41716,6 +43282,7 @@ a	NN	O	O
 distorted	NN	O	O
 2-sphere	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 solutions	NN	O	O
 admit	NN	O	O
@@ -41728,6 +43295,7 @@ negative	NN	O	I-Process
 tension	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009141)
 
 Longitudinal	NN	O	B-Task
@@ -41769,6 +43337,7 @@ measurements	NN	O	O
 are	NN	O	O
 planned	NN	O	O
 .	NN	O	O
+
 They	NN	O	O
 were	NN	O	O
 originally	NN	O	O
@@ -41801,6 +43370,7 @@ function	NN	O	I-Process
 6–12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 both	NN	O	O
@@ -41831,6 +43401,7 @@ neglected	NN	O	O
 in	NN	O	O
 analyses	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 exhaustive	NN	O	B-Task
 treatment	NN	O	I-Task
@@ -41886,6 +43457,7 @@ quark	NN	O	B-Process
 mass	NN	O	I-Process
 corrections	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 the	NN	O	O
@@ -41919,6 +43491,7 @@ and	NN	O	O
 fragmentation	NN	O	B-Process
 functions	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 consider	NN	O	O
 both	NN	O	O
@@ -41938,6 +43511,7 @@ inclusive	NN	O	I-Process
 DIS	NN	O	I-Process
 ,	NN	O	O
 e+p→e′+jet+X.	NN	O	B-Process
+
 We	NN	O	O
 assume	NN	O	O
 factorization	NN	O	B-Process
@@ -41982,12 +43556,14 @@ presented	NN	O	O
 in	NN	O	O
 Refs	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 17,18	NN	O	O
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009165)
 
 There	NN	O	O
@@ -41999,6 +43575,7 @@ for	NN	O	I-Task
 this	NN	O	I-Task
 mechanism	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 Letter	NN	O	O
@@ -42014,6 +43591,7 @@ leptogenesis	NN	O	I-Task
 and	NN	O	I-Task
 baryogenesis	NN	O	I-Task
 .	NN	O	O
+
 Our	NN	O	O
 calculation	NN	O	O
 is	NN	O	O
@@ -42027,6 +43605,7 @@ fields	NN	O	I-Process
 are	NN	O	I-Process
 rolling	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 rolling	NN	O	B-Process
 phase	NN	O	I-Process
@@ -42049,6 +43628,7 @@ the	NN	O	I-Process
 scalar	NN	O	I-Process
 fields	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 at	NN	O	O
@@ -42065,6 +43645,7 @@ is	NN	O	O
 most	NN	O	O
 efficient	NN	O	O
 .	NN	O	O
+
 After	NN	O	O
 the	NN	O	O
 fields	NN	O	B-Process
@@ -42082,6 +43663,7 @@ mechanism	NN	O	I-Process
 turns	NN	O	O
 off	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 plan	NN	O	O
 to	NN	O	O
@@ -42105,6 +43687,7 @@ publication	NN	O	O
 20	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Note	NN	O	O
 that	NN	O	O
 string	NN	O	B-Task
@@ -42133,6 +43716,7 @@ e.g.	NN	O	O
 see	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 30	NN	O	O
 ]	NN	O	O
@@ -42159,6 +43743,7 @@ baryogenesis	NN	O	I-Task
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009177)
 
 In	NN	O	O
@@ -42167,12 +43752,13 @@ brane	NN	O	B-Material
 system	NN	O	I-Material
 appearing	NN	O	O
 in	NN	O	O
-string	NN	O	B-Process
-/	NN	O	I-Process
-D	NN	O	I-Process
--	NN	O	I-Process
-brane	NN	O	I-Process
-theory	NN	O	I-Process
+string	NN	O	O
+/	NN	O	O
+
+D	NN	O	O
+-	NN	O	O
+brane	NN	O	O
+theory	NN	O	O
 ,	NN	O	O
 the	NN	O	O
 stableness	NN	O	B-Task
@@ -42182,6 +43768,7 @@ most	NN	O	O
 important	NN	O	O
 requirement	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 find	NN	O	O
 some	NN	O	O
@@ -42196,6 +43783,7 @@ bulk	NN	O	I-Process
 boundary	NN	O	I-Process
 theory	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 systematically	NN	O	O
 solve	NN	O	B-Task
@@ -42217,6 +43805,7 @@ solution	NN	O	I-Process
 in	NN	O	O
 S1/Z2-space	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 two	NN	O	O
 scalars	NN	O	O
@@ -42246,12 +43835,14 @@ constitute	NN	O	O
 the	NN	O	O
 solutions	NN	O	O
 .	NN	O	O
+
 Their	NN	O	O
 different	NN	O	B-Task
 roles	NN	O	I-Task
 are	NN	O	I-Task
 clarified	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 importance	NN	O	O
 of	NN	O	O
@@ -42263,6 +43854,7 @@ configuration	NN	O	O
 is	NN	O	O
 disclosed	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 boundary	NN	O	B-Process
 condition	NN	O	I-Process
@@ -42285,6 +43877,7 @@ the	NN	O	O
 localized	NN	O	O
 configuration	NN	O	O
 .	NN	O	O
+
 Among	NN	O	O
 all	NN	O	O
 solutions	NN	O	O
@@ -42310,6 +43903,7 @@ a	NN	O	O
 kink	NN	O	B-Process
 solution	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 present	NN	O	O
 a	NN	O	O
@@ -42324,6 +43918,7 @@ non	NN	O	B-Process
 singular	NN	O	I-Process
 solution	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 model	NN	O	O
 is	NN	O	O
@@ -42347,6 +43942,7 @@ boundary	NN	O	I-Process
 theory	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009189)
 
 The	NN	O	O
@@ -42363,6 +43959,7 @@ yet	NN	O	O
 known	NN	O	O
 experimentally	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 new	NN	O	B-Task
@@ -42381,12 +43978,14 @@ equal	NN	O	I-Process
 to	NN	O	I-Process
 1/2	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 parity	NN	O	O
 is	NN	O	O
 more	NN	O	O
 controversial	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 chiral	NN	O	B-Process
 soliton	NN	O	I-Process
@@ -42401,6 +44000,7 @@ positive	NN	O	O
 4	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 constituent	NN	O	B-Process
 quark	NN	O	I-Process
@@ -42410,6 +44010,7 @@ is	NN	O	O
 usually	NN	O	O
 positive	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 present	NN	O	O
@@ -42441,6 +44042,7 @@ the	NN	O	I-Task
 q4	NN	O	I-Task
 subsystem	NN	O	I-Task
 .	NN	O	O
+
 We	NN	O	O
 analyze	NN	O	O
 the	NN	O	O
@@ -42466,8 +44068,10 @@ carries	NN	O	O
 an	NN	O	O
 angular	NN	O	O
 momentum	NN	O	O
+
 ℓ=1	NN	O	O
 .	NN	O	O
+
 Although	NN	O	O
 the	NN	O	O
 kinetic	NN	O	B-Process
@@ -42516,6 +44120,7 @@ interaction	NN	O	I-Process
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 first	NN	O	O
@@ -42554,9 +44159,11 @@ model	NN	O	I-Task
 15	NN	O	I-Task
 ]	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 12	NN	O	O
 ]	NN	O	O
@@ -42590,9 +44197,11 @@ heavy	NN	O	I-Process
 quark	NN	O	I-Process
 limit	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 Ref	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 16	NN	O	O
 ]	NN	O	O
@@ -42629,6 +44238,7 @@ such	NN	O	O
 a	NN	O	O
 model	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 interaction	NN	O	O
 has	NN	O	O
@@ -42657,6 +44267,7 @@ whole	NN	O	I-Process
 system	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009220)
 
 There	NN	O	O
@@ -42671,6 +44282,7 @@ structure	NN	O	I-Process
 becomes	NN	O	O
 simple	NN	O	O
 .	NN	O	O
+
 One	NN	O	O
 is	NN	O	O
 the	NN	O	O
@@ -42700,6 +44312,7 @@ with	NN	O	I-Process
 adjoint	NN	O	I-Process
 matter	NN	O	I-Process
 .	NN	O	O
+
 Another	NN	O	O
 interesting	NN	O	O
 case	NN	O	O
@@ -42727,6 +44340,7 @@ R	NN	O	B-Process
 symmetry	NN	O	I-Process
 group	NN	O	I-Process
 SU(2)R.	NN	O	B-Process
+
 In	NN	O	O
 this	NN	O	O
 Letter	NN	O	O
@@ -42734,12 +44348,13 @@ Letter	NN	O	O
 we	NN	O	O
 will	NN	O	O
 study	NN	O	O
-N=2	NN	O	B-Task
-supersymmetric	NN	O	I-Task
-U(1	NN	O	I-Task
-)	NN	O	I-Task
-gauge	NN	O	I-Task
-theory	NN	O	I-Task
+N=2	NN	O	O
+supersymmetric	NN	O	O
+U(1	NN	O	O
+)	NN	O	O
+
+gauge	NN	O	O
+theory	NN	O	O
 in	NN	O	O
 the	NN	O	O
 harmonic	NN	O	B-Process
@@ -42748,6 +44363,7 @@ with	NN	O	O
 singlet	NN	O	B-Process
 deformation	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 case	NN	O	O
@@ -42765,6 +44381,7 @@ the	NN	O	O
 deformation	NN	O	B-Process
 parameter	NN	O	I-Process
 .	NN	O	O
+
 Therefore	NN	O	O
 we	NN	O	O
 can	NN	O	O
@@ -42785,6 +44402,7 @@ the	NN	O	O
 gauge	NN	O	B-Process
 transformation	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -42807,6 +44425,7 @@ possible	NN	O	O
 5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 But	NN	O	O
 in	NN	O	O
 this	NN	O	O
@@ -42824,6 +44443,7 @@ deformed	NN	O	B-Process
 supersymmtery	NN	O	I-Process
 transformation	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 singlet	NN	O	B-Task
@@ -42851,6 +44471,7 @@ the	NN	O	I-Process
 deformed	NN	O	I-Process
 supersymmetry	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 will	NN	O	O
 construct	NN	O	O
@@ -42868,6 +44489,7 @@ and	NN	O	I-Process
 supersymmetry	NN	O	I-Process
 transformations	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 find	NN	O	O
 that	NN	O	O
@@ -42887,6 +44509,7 @@ scalar	NN	O	I-Process
 field	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009232)
 
 We	NN	O	O
@@ -42925,6 +44548,7 @@ time	NN	O	O
 -	NN	O	O
 dependent	NN	O	O
 .	NN	O	O
+
 Recently	NN	O	O
 ,	NN	O	O
 example	NN	O	B-Task
@@ -42944,6 +44568,7 @@ example	NN	O	I-Task
 of	NN	O	I-Task
 it	NN	O	I-Task
 .	NN	O	O
+
 Taking	NN	O	O
 into	NN	O	O
 account	NN	O	O
@@ -42973,6 +44598,7 @@ milder	NN	O	O
 the	NN	O	O
 singularity	NN	O	B-Process
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 argued	NN	O	O
@@ -43004,6 +44630,7 @@ factor	NN	O	I-Process
 blows	NN	O	I-Process
 up	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 picture	NN	O	O
 is	NN	O	O
@@ -43024,6 +44651,7 @@ similar	NN	O	I-Process
 conclusions	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009268)
 
 One	NN	O	O
@@ -43111,6 +44739,7 @@ be	NN	O	O
 below	NN	O	O
 200	NN	O	O
 GeV.	NN	O	O
+
 The	NN	O	B-Task
 search	NN	O	I-Task
 for	NN	O	I-Task
@@ -43150,6 +44779,7 @@ up	NN	O	I-Process
 to	NN	O	I-Process
 1	NN	O	I-Process
 TeV.	NN	O	I-Process
+
 At	NN	O	O
 hadron	NN	O	B-Material
 colliders	NN	O	I-Material
@@ -43201,6 +44831,7 @@ the	NN	O	I-Process
 SM	NN	O	I-Process
 result	NN	O	I-Process
 .	NN	O	O
+
 Concerning	NN	O	O
 the	NN	O	O
 Higgs	NN	O	B-Process
@@ -43250,6 +44881,7 @@ the	NN	O	O
 dominant	NN	O	O
 modes	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 region	NN	O	O
@@ -43269,6 +44901,7 @@ decay	NN	O	B-Process
 channels	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S037026930400930X)
 
 Recent	NN	O	O
@@ -43296,6 +44929,7 @@ procedure	NN	O	O
 27,32,33	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 choose	NN	O	O
 an	NN	O	O
@@ -43313,6 +44947,7 @@ Cousins	NN	O	O
 27	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 method	NN	O	O
 has	NN	O	O
@@ -43324,6 +44959,7 @@ Conrad	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 34	NN	O	O
 ]	NN	O	O
@@ -43346,20 +44982,23 @@ by	NN	O	O
 Cousins	NN	O	O
 and	NN	O	O
 Highland	NN	O	O
+
 [	NN	O	O
 35	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
-further	NN	O	B-Process
-refinement	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-Conrad	NN	O	I-Process
-et	NN	O	I-Process
-al	NN	O	I-Process
-.	NN	O	I-Process
-method	NN	O	I-Process
+further	NN	O	O
+refinement	NN	O	O
+of	NN	O	O
+the	NN	O	O
+Conrad	NN	O	O
+et	NN	O	O
+al	NN	O	O
+.	NN	O	O
+
+method	NN	O	O
 by	NN	O	O
 Hill	NN	O	O
 [	NN	O	O
@@ -43396,6 +45035,7 @@ the	NN	O	O
 present	NN	O	O
 measurement	NN	O	B-Process
 .	NN	O	O
+
 We	NN	O	O
 have	NN	O	O
 adopted	NN	O	O
@@ -43428,6 +45068,7 @@ papers	NN	O	O
 cited	NN	O	O
 above	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 assume	NN	O	O
 that	NN	O	O
@@ -43446,6 +45087,7 @@ Gaussian	NN	O	B-Process
 distributed	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009335)
 
 In	NN	O	O
@@ -43469,6 +45111,7 @@ of	NN	O	I-Process
 the	NN	O	I-Process
 theory	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 fact	NN	O	O
 ,	NN	O	O
@@ -43501,6 +45144,7 @@ of	NN	O	O
 dimensions	NN	O	O
 d≠4	NN	O	O
 .	NN	O	O
+
 Then	NN	O	O
 the	NN	O	O
 question	NN	O	O
@@ -43554,6 +45198,7 @@ with	NN	O	O
 less	NN	O	O
 symmetry	NN	O	O
 .	NN	O	O
+
 An	NN	O	O
 ideal	NN	O	O
 situation	NN	O	O
@@ -43585,6 +45230,7 @@ dimensional	NN	O	I-Process
 effective	NN	O	I-Process
 theory	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 such	NN	O	O
 a	NN	O	O
@@ -43634,6 +45280,7 @@ than	NN	O	O
 four	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009347)
 
 The	NN	O	O
@@ -43661,6 +45308,7 @@ levels	NN	O	I-Process
 8,9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Poisson	NN	O	B-Process
 distributions	NN	O	I-Process
 of	NN	O	O
@@ -43701,6 +45349,7 @@ regime	NN	O	I-Task
 10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Intermediate	NN	O	O
 situations	NN	O	O
 are	NN	O	O
@@ -43709,6 +45358,7 @@ difficult	NN	O	O
 to	NN	O	O
 assess	NN	O	O
 .	NN	O	O
+
 Very	NN	O	O
 recently	NN	O	O
 a	NN	O	O
@@ -43730,6 +45380,7 @@ series	NN	O	I-Process
 11	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Defining	NN	O	O
 (	NN	O	O
 1)δn=∫−∞En+1ρ˜(E)dE−n	NN	O	O
@@ -43790,6 +45441,7 @@ quantum	NN	O	B-Task
 chaotic	NN	O	I-Task
 systems	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 present	NN	O	O
@@ -43818,6 +45470,7 @@ mass	NN	O	I-Process
 errors	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009359)
 
 Table	NN	O	O
@@ -43829,6 +45482,7 @@ of	NN	O	O
 B	NN	O	B-Process
 decays	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 fact	NN	O	O
 ,	NN	O	O
@@ -43863,6 +45517,7 @@ V	NN	O	O
 )	NN	O	O
 mesons	NN	O	B-Material
 .	NN	O	O
+
 Note	NN	O	O
 that	NN	O	O
 certain	NN	O	O
@@ -43883,6 +45538,7 @@ have	NN	O	O
 PP	NN	O	O
 states	NN	O	O
 .	NN	O	O
+
 There	NN	O	O
 are	NN	O	O
 three	NN	O	O
@@ -43890,6 +45546,7 @@ reasons	NN	O	O
 for	NN	O	O
 this	NN	O	O
 .	NN	O	O
+
 First	NN	O	O
 ,	NN	O	O
 some	NN	O	O
@@ -43901,6 +45558,7 @@ final	NN	O	O
 state	NN	O	O
 π0	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 experimentally	NN	O	O
@@ -43918,6 +45576,7 @@ the	NN	O	O
 final	NN	O	B-Material
 particles	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 virtually	NN	O	O
@@ -43934,6 +45593,7 @@ use	NN	O	O
 a	NN	O	O
 ρ0	NN	O	O
 .	NN	O	O
+
 Second	NN	O	O
 ,	NN	O	O
 some	NN	O	O
@@ -43959,6 +45619,7 @@ pair	NN	O	I-Material
 is	NN	O	O
 used	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 there	NN	O	O
@@ -43973,6 +45634,7 @@ pure	NN	O	O
 ss¯	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 mesons	NN	O	B-Material
 η	NN	O	B-Material
@@ -43999,6 +45661,7 @@ dd¯	NN	O	O
 )	NN	O	O
 pieces	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 a	NN	O	O
 result	NN	O	O
@@ -44045,6 +45708,7 @@ ss¯	NN	O	O
 quark	NN	O	B-Process
 state	NN	O	I-Process
 .	NN	O	O
+
 Finally	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -44063,6 +45727,7 @@ the	NN	O	I-Process
 final	NN	O	I-Process
 state	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 can	NN	O	O
 not	NN	O	O
@@ -44081,6 +45746,7 @@ K¯0	NN	O	O
 )	NN	O	O
 meson	NN	O	B-Material
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -44098,6 +45764,7 @@ excited	NN	O	B-Material
 neutral	NN	O	I-Material
 kaon	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 case	NN	O	O
@@ -44112,6 +45779,7 @@ other	NN	O	O
 has	NN	O	O
 K¯*0	NN	O	B-Material
 .	NN	O	O
+
 Assuming	NN	O	O
 that	NN	O	O
 the	NN	O	O
@@ -44150,6 +45818,7 @@ final	NN	O	O
 state	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009530)
 
 If	NN	O	O
@@ -44189,6 +45858,7 @@ super	NN	O	I-Task
 -	NN	O	I-Task
 partners	NN	O	I-Task
 .	NN	O	O
+
 A	NN	O	O
 method	NN	O	O
 is	NN	O	O
@@ -44207,6 +45877,7 @@ can	NN	O	O
 be	NN	O	O
 determined	NN	O	O
 .	NN	O	O
+
 Angular	NN	O	B-Process
 distributions	NN	O	I-Process
 in	NN	O	O
@@ -44224,6 +45895,7 @@ invariant	NN	O	I-Process
 mass	NN	O	I-Process
 distributions	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 size	NN	O	O
 of	NN	O	O
@@ -44243,6 +45915,7 @@ anti	NN	O	B-Material
 -	NN	O	I-Material
 squarks	NN	O	I-Material
 .	NN	O	O
+
 Monte	NN	O	B-Process
 Carlo	NN	O	I-Process
 simulations	NN	O	I-Process
@@ -44258,6 +45931,7 @@ at	NN	O	O
 the	NN	O	O
 LHC	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resultant	NN	O	O
 asymmetry	NN	O	B-Process
@@ -44283,6 +45957,7 @@ being	NN	O	O
 scalars	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009608)
 
 It	NN	O	O
@@ -44311,10 +45986,12 @@ those	NN	O	O
 estimated	NN	O	O
 with	NN	O	O
 JETSET	NN	O	B-Material
+
 [	NN	O	O
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 NOMAD	NN	O	B-Material
 [	NN	O	O
 20	NN	O	O
@@ -44334,6 +46011,7 @@ obtain	NN	O	B-Task
 better	NN	O	I-Task
 agreement	NN	O	I-Task
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 for	NN	O	O
@@ -44379,6 +46057,7 @@ a	NN	O	I-Process
 systematic	NN	O	I-Process
 error	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 used	NN	O	O
 experimental	NN	O	O
@@ -44399,6 +46078,7 @@ for	NN	O	O
 normalization	NN	O	B-Process
 purposes	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 uncertainty	NN	O	O
 introduced	NN	O	O
@@ -44433,6 +46113,7 @@ data	NN	O	I-Material
 are	NN	O	O
 available	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 uncertainty	NN	O	O
 is	NN	O	O
@@ -44445,6 +46126,7 @@ in	NN	O	O
 the	NN	O	O
 table	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 since	NN	O	O
@@ -44465,6 +46147,7 @@ less	NN	O	O
 important	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009657)
 
 In	NN	O	O
@@ -44489,6 +46172,7 @@ full	NN	O	I-Process
 Salpeter	NN	O	I-Process
 equation	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 full	NN	O	O
 Salpeter	NN	O	B-Process
@@ -44502,6 +46186,7 @@ a	NN	O	O
 bound	NN	O	O
 state	NN	O	O
 .	NN	O	O
+
 Since	NN	O	O
 this	NN	O	O
 method	NN	O	O
@@ -44530,6 +46215,7 @@ a	NN	O	O
 relativistic	NN	O	B-Process
 system	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 a	NN	O	O
 previous	NN	O	O
@@ -44539,13 +46225,14 @@ paper	NN	O	O
 ]	NN	O	O
 ,	NN	O	O
 we	NN	O	O
-solved	NN	O	B-Task
-the	NN	O	I-Task
-instantaneous	NN	O	I-Task
-Bethe	NN	O	I-Task
-–	NN	O	I-Task
-Salpeter	NN	O	I-Task
-equation	NN	O	I-Task
+solved	NN	O	O
+the	NN	O	O
+instantaneous	NN	O	O
+Bethe	NN	O	O
+–	NN	O	O
+
+Salpeter	NN	O	O
+equation	NN	O	O
 [	NN	O	O
 17	NN	O	O
 ]	NN	O	O
@@ -44557,10 +46244,12 @@ called	NN	O	O
 full	NN	O	B-Process
 Salpeter	NN	O	I-Process
 equation	NN	O	I-Process
+
 [	NN	O	O
 18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 After	NN	O	O
 we	NN	O	O
 solved	NN	O	B-Task
@@ -44580,6 +46269,7 @@ the	NN	O	I-Process
 bound	NN	O	I-Process
 state	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 used	NN	O	O
 this	NN	O	O
@@ -44614,6 +46304,7 @@ with	NN	O	O
 recent	NN	O	O
 experiments	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 also	NN	O	O
 found	NN	O	O
@@ -44634,6 +46325,7 @@ ignored	NN	O	O
 16	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 Letter	NN	O	O
@@ -44656,6 +46348,7 @@ in	NN	O	O
 state	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009803)
 
 Our	NN	O	O
@@ -44678,6 +46371,7 @@ energy	NN	O	I-Process
 current	NN	O	I-Process
 algebra	NN	O	I-Process
 .	NN	O	O
+
 One	NN	O	O
 consistent	NN	O	O
 method	NN	O	O
@@ -44700,6 +46394,7 @@ symmetry	NN	O	I-Process
 6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 theory	NN	O	O
@@ -44712,6 +46407,7 @@ dynamical	NN	O	B-Material
 vector	NN	O	I-Material
 mesons	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 three	NN	O	O
 point	NN	O	O
@@ -44738,6 +46434,7 @@ vector	NN	O	B-Process
 pseudoscalar	NN	O	I-Process
 coupling	NN	O	I-Process
 .	NN	O	O
+
 Some	NN	O	O
 typical	NN	O	O
 vertices	NN	O	B-Process
@@ -44780,6 +46477,7 @@ the	NN	O	I-Process
 rest	NN	O	I-Process
 frame	NN	O	I-Process
 .	NN	O	O
+
 With	NN	O	O
 Γ(ρ)=149.2MeV	NN	O	O
 ,	NN	O	O
@@ -44787,20 +46485,23 @@ we	NN	O	O
 find	NN	O	O
 h=5.95	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 note	NN	O	O
 in	NN	O	O
 passing	NN	O	O
 that	NN	O	O
 the	NN	O	O
-Kawarabayashi	NN	O	B-Material
-–	NN	O	I-Material
-Suzuki	NN	O	I-Material
-–	NN	O	I-Material
-Riazuddin	NN	O	I-Material
-–	NN	O	I-Material
-Fayyazuddin	NN	O	I-Material
-relation	NN	O	I-Material
+Kawarabayashi	NN	O	O
+–	NN	O	O
+
+Suzuki	NN	O	O
+–	NN	O	O
+Riazuddin	NN	O	O
+–	NN	O	O
+
+Fayyazuddin	NN	O	O
+relation	NN	O	O
 gives	NN	O	O
 the	NN	O	O
 value	NN	O	O
@@ -44809,6 +46510,7 @@ h	NN	O	O
 mρ/(2fπ)[12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 the	NN	O	O
 value	NN	O	O
@@ -44817,6 +46519,7 @@ h	NN	O	O
 in	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 4	NN	O	O
 )	NN	O	O
@@ -44836,6 +46539,7 @@ amounts	NN	O	I-Process
 %	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 strong	NN	O	B-Task
 four	NN	O	I-Task
@@ -44854,10 +46558,12 @@ terms	NN	O	O
 of	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 5	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 weak	NN	O	B-Task
 vertices	NN	O	I-Task
@@ -44871,6 +46577,7 @@ Q6	NN	O	O
 and	NN	O	O
 Q8	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 numerical	NN	O	O
@@ -44885,6 +46592,7 @@ h	NN	O	O
 from	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 4	NN	O	O
 )	NN	O	O
@@ -44898,6 +46606,7 @@ decay	NN	O	O
 width	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0370269304009979)
 
 On	NN	O	O
@@ -44926,6 +46635,7 @@ the	NN	O	O
 warped	NN	O	B-Process
 geometry	NN	O	I-Process
 .	NN	O	O
+
 Indeed	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -44941,6 +46651,7 @@ dimensions	NN	O	I-Task
 2	NN	O	O
 ]	NN	O	O
 ,	NN	O	O
+
 the	NN	O	O
 following	NN	O	O
 facts	NN	O	O
@@ -44991,6 +46702,7 @@ tension	NN	O	I-Process
 6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Spin	NN	O	O
 1	NN	O	O
 field	NN	O	O
@@ -45015,6 +46727,7 @@ tension	NN	O	I-Process
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 six	NN	O	B-Process
 space	NN	O	I-Process
@@ -45037,6 +46750,7 @@ brane	NN	O	I-Process
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -45074,6 +46788,7 @@ in	NN	O	I-Process
 the	NN	O	I-Process
 bulk	NN	O	I-Process
 .	NN	O	O
+
 There	NN	O	O
 is	NN	O	O
 a	NN	O	O
@@ -45097,6 +46812,7 @@ world	NN	O	I-Process
 models	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0375960112002885)
 
 First	NN	O	B-Process
@@ -45121,6 +46837,7 @@ adsorption	NN	O	I-Task
 and	NN	O	I-Task
 reaction	NN	O	I-Task
 .	NN	O	O
+
 Our	NN	O	O
 results	NN	O	O
 show	NN	O	O
@@ -45139,6 +46856,7 @@ inert	NN	O	O
 to	NN	O	O
 oxidation	NN	O	B-Task
 .	NN	O	O
+
 The	NN	O	O
 O2	NN	O	B-Material
 molecule	NN	O	O
@@ -45160,6 +46878,7 @@ of	NN	O	O
 several	NN	O	O
 tens	NN	O	O
 meV.	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 significant	NN	O	B-Task
@@ -45199,6 +46918,7 @@ spin	NN	O	I-Process
 selection	NN	O	I-Process
 rule	NN	O	I-Process
 .	NN	O	O
+
 These	NN	O	O
 results	NN	O	O
 imply	NN	O	O
@@ -45221,6 +46941,7 @@ cluster	NN	O	I-Material
 upon	NN	O	O
 excitations	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 high	NN	O	B-Process
 temperature	NN	O	I-Process
@@ -45248,6 +46969,7 @@ energy	NN	O	I-Process
 barrier	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0375960113004568)
 
 The	NN	O	O
@@ -45259,6 +46981,7 @@ important	NN	O	O
 in	NN	O	O
 nanodevices	NN	O	B-Material
 .	NN	O	O
+
 So	NN	O	O
 we	NN	O	O
 investigate	NN	O	O
@@ -45284,6 +47007,7 @@ the	NN	O	O
 scattering	NN	O	O
 region	NN	O	O
 .	NN	O	O
+
 Here	NN	O	O
 we	NN	O	O
 present	NN	O	O
@@ -45315,6 +47039,7 @@ M5	NN	O	O
 ,	NN	O	O
 respectively	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 current	NN	O	B-Process
 –	NN	O	I-Process
@@ -45324,8 +47049,10 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 8	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 can	NN	O	O
 see	NN	O	O
@@ -45345,6 +47072,7 @@ length	NN	O	O
 of	NN	O	O
 heterojunctions	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 due	NN	O	O
@@ -45376,6 +47104,7 @@ and	NN	O	O
 right	NN	O	O
 electrodes	NN	O	O
 .	NN	O	O
+
 Thees	NN	O	O
 results	NN	O	O
 indicate	NN	O	O
@@ -45402,6 +47131,7 @@ in	NN	O	O
 M3	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0375960113004908)
 
 Topological	NN	O	B-Process
@@ -45434,6 +47164,7 @@ interaction	NN	O	I-Process
 1–3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Initially	NN	O	O
 ,	NN	O	O
 binary	NN	O	B-Material
@@ -45468,6 +47199,7 @@ microscopy	NN	O	I-Process
 /	NN	O	I-Process
 spectroscopy	NN	O	I-Process
 .	NN	O	O
+
 Later	NN	O	O
 ,	NN	O	O
 ternary	NN	O	B-Material
@@ -45535,6 +47267,7 @@ entire	NN	O	O
 composition	NN	O	O
 range	NN	O	O
 .	NN	O	O
+
 Combined	NN	O	O
 with	NN	O	O
 magnetism	NN	O	B-Process
@@ -45557,6 +47290,7 @@ physics	NN	O	O
 and	NN	O	O
 applications	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 ferromagnetism	NN	O	B-Process
 in	NN	O	O
@@ -45584,6 +47318,7 @@ reported	NN	O	O
 6–13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Ferromagnetism	NN	O	B-Process
 in	NN	O	O
 TIs	NN	O	B-Process
@@ -45648,6 +47383,7 @@ effect	NN	O	I-Task
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0375960113006725)
 
 Observations	NN	O	B-Process
@@ -45685,6 +47421,7 @@ some	NN	O	O
 only	NN	O	O
 lines	NN	O	O
 H2O.	NN	O	B-Material
+
 The	NN	O	O
 only	NN	O	O
 known	NN	O	O
@@ -45730,6 +47467,7 @@ radio	NN	O	B-Process
 -	NN	O	I-Process
 masers	NN	O	I-Process
 .	NN	O	O
+
 Cosmic	NN	O	B-Material
 maser	NN	O	I-Material
 radio	NN	O	I-Material
@@ -45750,6 +47488,7 @@ temperature	NN	O	O
 radiation	NN	O	O
 Tb	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 molecules	NN	O	O
@@ -45759,6 +47498,7 @@ masers	NN	O	I-Material
 (	NN	O	O
 CH3OH	NN	O	B-Material
 )	NN	O	O
+
 Tb	NN	O	O
 value	NN	O	O
 can	NN	O	O
@@ -45773,8 +47513,10 @@ molecules	NN	O	I-Material
 (	NN	O	O
 OH	NN	O	B-Material
 )	NN	O	O
+
 6×1012	NN	O	O
 K.	NN	O	O
+
 The	NN	O	O
 typical	NN	O	O
 size	NN	O	O
@@ -45799,6 +47541,7 @@ of	NN	O	O
 10	NN	O	O
 km	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -45841,11 +47584,13 @@ order	NN	O	O
 as	NN	O	O
 Eq	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 1	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S037596011300741X)
 
 In	NN	O	O
@@ -45892,6 +47637,7 @@ ordinary	NN	O	O
 classical	NN	O	O
 ontology	NN	O	O
 .	NN	O	O
+
 By	NN	O	O
 that	NN	O	O
 we	NN	O	O
@@ -45914,10 +47660,11 @@ function	NN	O	I-Process
 becomes	NN	O	O
 the	NN	O	O
 classical	NN	O	O
-Hamilton	NN	O	B-Process
-–	NN	O	I-Process
-Jacobi	NN	O	I-Process
-equation	NN	O	I-Process
+Hamilton	NN	O	O
+–	NN	O	O
+
+Jacobi	NN	O	O
+equation	NN	O	O
 in	NN	O	O
 the	NN	O	O
 limit	NN	O	O
@@ -45928,6 +47675,7 @@ involving	NN	O	O
 are	NN	O	O
 neglected	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 contrast	NN	O	O
 to	NN	O	O
@@ -45960,6 +47708,7 @@ can	NN	O	O
 be	NN	O	O
 neglected	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 fact	NN	O	O
 was	NN	O	O
@@ -45973,6 +47722,7 @@ twenty	NN	O	O
 years	NN	O	O
 ago	NN	O	O
 :	NN	O	O
+
 In	NN	O	O
 page	NN	O	O
 269	NN	O	O
@@ -45994,6 +47744,7 @@ a	NN	O	O
 finite	NN	O	O
 path	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 shown	NN	O	O
@@ -46038,6 +47789,7 @@ is	NN	O	O
 a	NN	O	O
 minimum	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 novel	NN	O	O
 contribution	NN	O	O
@@ -46068,6 +47820,7 @@ Miller	NN	O	O
 9,10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 See	NN	O	O
 also	NN	O	O
@@ -46083,6 +47836,7 @@ discussion	NN	O	O
 .	NN	O	O
 )	NN	O	O
 
+
 -DOCSTART- (S0375960113010839)
 
 The	NN	O	O
@@ -46133,10 +47887,12 @@ the	NN	O	O
 target	NN	O	O
 vertex	NN	O	O
 .	NN	O	O
+
 Childs	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 1	NN	O	O
 ]	NN	O	O
@@ -46207,6 +47963,7 @@ such	NN	O	O
 an	NN	O	O
 oracle	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -46243,6 +48000,7 @@ phase	NN	O	I-Process
 damping	NN	O	I-Process
 noise	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 this	NN	O	O
 reason	NN	O	O
@@ -46268,6 +48026,7 @@ of	NN	O	O
 the	NN	O	O
 walk	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 thus	NN	O	O
 consider	NN	O	O
@@ -46281,6 +48040,7 @@ illustrated	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1(b	NN	O	O
 )	NN	O	O
 ,	NN	O	O
@@ -46301,6 +48061,7 @@ as	NN	O	O
 G′n	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0375960115004120)
 
 Another	NN	O	O
@@ -46322,6 +48083,7 @@ the	NN	O	O
 vacuum	NN	O	B-Material
 state	NN	O	I-Material
 .	NN	O	O
+
 For	NN	O	O
 a	NN	O	O
 classical	NN	O	O
@@ -46355,6 +48117,7 @@ wave	NN	O	I-Material
 〉	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 quantized	NN	O	B-Task
@@ -46411,6 +48174,7 @@ final	NN	O	O
 photon	NN	O	O
 number	NN	O	O
 .	NN	O	O
+
 Let	NN	O	O
 's	NN	O	O
 consider	NN	O	O
@@ -46428,6 +48192,7 @@ of	NN	O	O
 the	NN	O	O
 field	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 magnetic	NN	O	B-Material
 field	NN	O	I-Material
@@ -46447,6 +48212,7 @@ the	NN	O	O
 rectangular	NN	O	O
 form	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 particle	NN	O	B-Material
 with	NN	O	O
@@ -46491,6 +48257,7 @@ can	NN	O	O
 couple	NN	O	O
 to	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 phenomenon	NN	O	O
 that	NN	O	O
@@ -46523,6 +48290,7 @@ as	NN	O	O
 well	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0375960115005630)
 
 The	NN	O	O
@@ -46546,6 +48314,7 @@ electromagnetic	NN	O	B-Process
 field	NN	O	I-Process
 gradient	NN	O	I-Process
 .	NN	O	O
+
 Section	NN	O	O
 2	NN	O	O
 considers	NN	O	O
@@ -46576,6 +48345,7 @@ driven	NN	O	I-Process
 plasma	NN	O	I-Process
 wave	NN	O	I-Process
 .	NN	O	O
+
 Sufficiently	NN	O	O
 short	NN	O	O
 ,	NN	O	O
@@ -46596,6 +48366,7 @@ of	NN	O	O
 a	NN	O	O
 plasma	NN	O	B-Material
 .	NN	O	O
+
 These	NN	O	O
 density	NN	O	B-Material
 waves	NN	O	I-Material
@@ -46612,6 +48383,7 @@ the	NN	O	O
 laser	NN	O	B-Process
 pulse	NN	O	I-Process
 .	NN	O	O
+
 Not	NN	O	O
 all	NN	O	O
 plasma	NN	O	B-Material
@@ -46639,6 +48411,7 @@ its	NN	O	O
 high	NN	O	O
 fields	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 wave	NN	O	O
 eventually	NN	O	O
@@ -46656,6 +48429,7 @@ wave	NN	O	B-Process
 breaks’	NN	O	I-Process
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 extremely	NN	O	O
 high	NN	O	B-Material
@@ -46693,6 +48467,7 @@ test	NN	O	O
 electron	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0377025713001031)
 
 Flow	NN	O	O
@@ -46732,6 +48507,7 @@ can	NN	O	O
 be	NN	O	O
 broken	NN	O	O
 .	NN	O	O
+
 Mechanical	NN	O	O
 degradation	NN	O	O
 of	NN	O	O
@@ -46757,12 +48533,14 @@ average	NN	O	I-Process
 molecular	NN	O	I-Process
 weight	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 -	NN	O	O
 Alamry	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 1	NN	O	O
 ]	NN	O	O
@@ -46780,6 +48558,7 @@ in	NN	O	O
 DoD	NN	O	B-Process
 jetting	NN	O	I-Process
 .	NN	O	O
+
 Central	NN	O	B-Task
 scission	NN	O	I-Task
 is	NN	O	O
@@ -46804,6 +48583,7 @@ of	NN	O	O
 molecular	NN	O	O
 weights	NN	O	O
 .	NN	O	O
+
 Since	NN	O	O
 only	NN	O	O
 those	NN	O	O
@@ -46847,6 +48627,7 @@ DoD	NN	O	B-Process
 jetting	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0377025714000135)
 
 This	NN	O	O
@@ -46896,6 +48677,7 @@ L	NN	O	O
 studied	NN	O	O
 here	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 discussed	NN	O	O
 in	NN	O	O
@@ -46919,6 +48701,7 @@ Gans	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 4	NN	O	O
 ]	NN	O	O
@@ -46943,6 +48726,7 @@ the	NN	O	O
 viscoelastic	NN	O	O
 behaviour	NN	O	O
 .	NN	O	O
+
 Consequently	NN	O	O
 inkjet	NN	O	B-Process
 fluid	NN	O	I-Process
@@ -46962,6 +48746,7 @@ nonlinear	NN	O	I-Task
 viscoelastic	NN	O	I-Task
 properties	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 complexity	NN	O	O
 suggests	NN	O	O
@@ -47002,6 +48787,7 @@ testing	NN	O	O
 without	NN	O	O
 jetting	NN	O	B-Process
 .	NN	O	O
+
 This	NN	O	O
 was	NN	O	O
 not	NN	O	O
@@ -47032,6 +48818,7 @@ Clasen	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 [	NN	O	O
 38	NN	O	O
 ]	NN	O	O
@@ -47050,6 +48837,7 @@ ink	NN	O	B-Task
 testing	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0377025714000317)
 
 Denier	NN	O	O
@@ -47089,6 +48877,7 @@ case	NN	O	O
 for	NN	O	O
 n>12	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 shear	NN	O	B-Process
@@ -47139,6 +48928,7 @@ such	NN	O	O
 flows	NN	O	B-Material
 here	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 in	NN	O	O
 this	NN	O	O
@@ -47157,6 +48947,7 @@ the	NN	O	O
 range	NN	O	O
 12<n⩽1	NN	O	O
 .	NN	O	O
+
 They	NN	O	O
 have	NN	O	O
 also	NN	O	O
@@ -47187,6 +48978,7 @@ value	NN	O	O
 of	NN	O	O
 η=η∞≫1	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 Newtonian	NN	O	O
@@ -47213,6 +49005,7 @@ v¯	NN	O	O
 decay	NN	O	O
 exponentially	NN	O	O
 .	NN	O	O
+
 Cochran	NN	O	O
 [	NN	O	O
 13	NN	O	O
@@ -47224,6 +49017,7 @@ this	NN	O	O
 case(12)(u¯′,v¯′)=w¯∞(u¯,v¯)asη→∞,where	NN	O	O
 w∞=-2∫0∞u¯dη.	NN	O	O
 
+
 -DOCSTART- (S0377025714001682)
 
 In	NN	O	O
@@ -47252,6 +49046,7 @@ the	NN	O	I-Material
 tracer	NN	O	I-Material
 particles	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -47289,6 +49084,7 @@ different	NN	O	O
 concentrations	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -47333,6 +49129,7 @@ function	NN	O	O
 of	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 of	NN	O	O
@@ -47343,8 +49140,10 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 6	NN	O	O
 .	NN	O	O
+
 From	NN	O	O
 this	NN	O	O
 figure	NN	O	O
@@ -47383,6 +49182,7 @@ be	NN	O	O
 the	NN	O	O
 case	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 presumably	NN	O	O
@@ -47404,9 +49204,11 @@ previously	NN	O	O
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 2B	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Based	NN	O	O
 on	NN	O	O
 the	NN	O	O
@@ -47414,6 +49216,7 @@ results	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 6	NN	O	O
 it	NN	O	O
 was	NN	O	O
@@ -47448,6 +49251,7 @@ to	NN	O	O
 ignore	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0377025714001931)
 
 Tack	NN	O	B-Material
@@ -47476,6 +49280,7 @@ with	NN	O	O
 a	NN	O	O
 surface	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 final	NN	O	O
 adhesion	NN	O	O
@@ -47526,6 +49331,7 @@ humidity	NN	O	O
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 tack	NN	O	O
@@ -47559,6 +49365,7 @@ surfaces	NN	O	I-Material
 is	NN	O	O
 desirable	NN	O	O
 .	NN	O	O
+
 Many	NN	O	O
 different	NN	O	O
 methods	NN	O	O
@@ -47592,6 +49399,7 @@ tests	NN	O	B-Process
 9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Each	NN	O	O
 has	NN	O	O
 its	NN	O	O
@@ -47614,6 +49422,7 @@ particular	NN	O	O
 application	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0377025714002213)
 
 The	NN	O	O
@@ -47660,6 +49469,7 @@ linked	NN	O	I-Process
 branching	NN	O	I-Process
 networks	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 second	NN	O	O
 system	NN	O	O
@@ -47687,6 +49497,7 @@ industrial	NN	O	O
 printing	NN	O	O
 processes	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 third	NN	O	O
 experimental	NN	O	O
@@ -47706,6 +49517,7 @@ of	NN	O	O
 fibrinogen	NN	O	B-Process
 molecules	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 gel	NN	O	B-Process
 network	NN	O	I-Process
@@ -47727,6 +49539,7 @@ clot	NN	O	I-Material
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 latter	NN	O	O
 case	NN	O	O
@@ -47774,6 +49587,7 @@ evolution	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0377025715000051)
 
 A	NN	O	O
@@ -47809,6 +49623,7 @@ in	NN	O	O
 oscillatory	NN	O	O
 shear	NN	O	O
 .	NN	O	O
+
 At	NN	O	O
 the	NN	O	O
 GP	NN	O	O
@@ -47848,6 +49663,7 @@ exponent	NN	O	O
 15	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -47890,6 +49706,7 @@ angle	NN	O	O
 )	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 GP	NN	O	B-Process
 measurements	NN	O	I-Process
 may	NN	O	O
@@ -47952,6 +49769,7 @@ analysis	NN	O	I-Process
 17,18	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Frequency	NN	O	O
 sweeps	NN	O	O
 are	NN	O	O
@@ -47968,10 +49786,12 @@ mutation	NN	O	O
 and	NN	O	O
 interpolation	NN	O	O
 errors	NN	O	O
+
 [	NN	O	O
 9,19,20	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 FTMS	NN	O	B-Process
 may	NN	O	O
 overcome	NN	O	O
@@ -48009,11 +49829,13 @@ range	NN	O	O
 (	NN	O	O
 LVR	NN	O	O
 )	NN	O	O
+
 [	NN	O	O
 9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0377025715000993)
 
 Equilibrium	NN	O	B-Material
@@ -48034,6 +49856,7 @@ t-15	NN	O	I-Process
 bubble	NN	O	I-Process
 tensiometer	NN	O	I-Process
 .	NN	O	O
+
 Rheological	NN	O	B-Process
 measurements	NN	O	I-Process
 were	NN	O	O
@@ -48066,6 +49889,7 @@ up	NN	O	O
 to	NN	O	O
 6kHz	NN	O	O
 .	NN	O	O
+
 Table	NN	O	O
 1	NN	O	O
 shows	NN	O	O
@@ -48086,6 +49910,7 @@ viscosity	NN	O	O
 at	NN	O	O
 1s−1	NN	O	O
 and	NN	O	O
+
 4000s−1	NN	O	O
 and	NN	O	O
 of	NN	O	O
@@ -48101,6 +49926,7 @@ the	NN	O	O
 surfactant	NN	O	O
 mixture	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 most	NN	O	B-Material
@@ -48128,6 +49954,7 @@ highest	NN	O	O
 shear	NN	O	O
 rates	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 PEDOT	NN	O	B-Material
 :	NN	O	I-Material
@@ -48146,13 +49973,15 @@ frequency	NN	O	O
 4	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 All	NN	O	O
 the	NN	O	O
 aqueous	NN	O	O
-PEDOT	NN	O	B-Material
-:	NN	O	I-Material
-PSS	NN	O	I-Material
-solutions	NN	O	I-Material
+PEDOT	NN	O	O
+:	NN	O	O
+
+PSS	NN	O	O
+solutions	NN	O	O
 shear	NN	O	O
 -	NN	O	O
 thinned	NN	O	O
@@ -48183,6 +50012,7 @@ frequencies	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0377221716300984)
 
 In	NN	O	O
@@ -48211,6 +50041,7 @@ local	NN	O	I-Process
 search	NN	O	I-Process
 combination	NN	O	I-Process
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 an	NN	O	O
@@ -48235,6 +50066,7 @@ and	NN	O	O
 pattern	NN	O	B-Task
 matching	NN	O	I-Task
 .	NN	O	O
+
 Good	NN	O	B-Task
 patterns	NN	O	I-Task
 that	NN	O	O
@@ -48250,6 +50082,7 @@ by	NN	O	O
 the	NN	O	O
 agents	NN	O	B-Material
 .	NN	O	O
+
 This	NN	O	O
 agent	NN	O	B-Task
 -	NN	O	I-Task
@@ -48272,6 +50105,7 @@ different	NN	O	I-Process
 problem	NN	O	I-Process
 domains	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 have	NN	O	O
 evaluated	NN	O	O
@@ -48312,6 +50146,7 @@ Capacitated	NN	O	I-Material
 Vehicle	NN	O	I-Material
 Routing	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 show	NN	O	O
@@ -48357,6 +50192,7 @@ benchmarks	NN	O	O
 tested	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0377221716301357)
 
 As	NN	O	O
@@ -48375,6 +50211,7 @@ the	NN	O	O
 stochastic	NN	O	B-Task
 MPSP	NN	O	I-Task
 .	NN	O	O
+
 Future	NN	O	O
 work	NN	O	O
 may	NN	O	O
@@ -48430,6 +50267,7 @@ in	NN	O	O
 this	NN	O	O
 paper	NN	O	O
 .	NN	O	O
+
 Indeed	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -48449,6 +50287,7 @@ of	NN	O	O
 these	NN	O	O
 variants	NN	O	O
 .	NN	O	O
+
 Other	NN	O	O
 research	NN	O	O
 avenues	NN	O	O
@@ -48472,6 +50311,7 @@ sub	NN	O	O
 -	NN	O	O
 problems	NN	O	O
 .	NN	O	O
+
 Finally	NN	O	O
 ,	NN	O	O
 another	NN	O	O
@@ -48487,6 +50327,7 @@ efficient	NN	O	O
 solution	NN	O	O
 approaches	NN	O	O
 .	NN	O	O
+
 Since	NN	O	O
 it	NN	O	O
 has	NN	O	O
@@ -48535,6 +50376,7 @@ integer	NN	O	O
 solution	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0377221716301904)
 
 We	NN	O	O
@@ -48576,6 +50418,7 @@ liberalized	NN	O	O
 electricity	NN	O	O
 markets	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 model	NN	O	O
 incorporates	NN	O	O
@@ -48603,6 +50446,7 @@ cost	NN	O	O
 based	NN	O	O
 redispatch	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 different	NN	O	O
 specifications	NN	O	O
@@ -48643,6 +50487,7 @@ energy	NN	O	B-Task
 based	NN	O	I-Task
 fees	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -48669,6 +50514,7 @@ integrated	NN	O	I-Process
 planner	NN	O	I-Process
 problem	NN	O	I-Process
 .	NN	O	O
+
 Using	NN	O	O
 two	NN	O	O
 test	NN	O	O
@@ -48696,6 +50542,7 @@ excessive	NN	O	B-Process
 network	NN	O	I-Process
 expansion	NN	O	I-Process
 .	NN	O	O
+
 Market	NN	O	B-Process
 splitting	NN	O	I-Process
 heals	NN	O	O
@@ -48704,6 +50551,7 @@ problems	NN	O	O
 only	NN	O	O
 partially	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 results	NN	O	O
 are	NN	O	O
@@ -48725,6 +50573,7 @@ those	NN	O	O
 regimes	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0377221716302259)
 
 Regarding	NN	O	O
@@ -48742,6 +50591,7 @@ note	NN	O	O
 two	NN	O	O
 points	NN	O	O
 .	NN	O	O
+
 From	NN	O	O
 a	NN	O	O
 practical	NN	O	O
@@ -48785,6 +50635,7 @@ production	NN	O	I-Process
 possibility	NN	O	I-Process
 set	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 respect	NN	O	O
@@ -48837,6 +50688,7 @@ al	NN	O	O
 2012	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 From	NN	O	O
 a	NN	O	O
 theoretical	NN	O	O
@@ -48956,6 +50808,7 @@ to	NN	O	O
 Scale	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0377221716303873)
 
 The	NN	O	O
@@ -48978,6 +50831,7 @@ of	NN	O	O
 12meter	NN	O	O
 height	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 this	NN	O	O
 case	NN	O	O
@@ -49028,6 +50882,7 @@ the	NN	O	O
 previous	NN	O	O
 section	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 simulated	NN	O	B-Task
 scenarios	NN	O	I-Task
@@ -49050,6 +50905,7 @@ Dimitrakopoulos	NN	O	O
 2012	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 area	NN	O	O
 considered	NN	O	O
@@ -49075,8 +50931,10 @@ production	NN	O	O
 schedule	NN	O	O
 provided	NN	O	O
 .	NN	O	O
+
 Fig	NN	O	O
 .	NN	O	O
+
 4	NN	O	O
 shows	NN	O	O
 3	NN	O	O
@@ -49110,6 +50968,7 @@ the	NN	O	O
 upper	NN	O	O
 bench	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 total	NN	O	O
 ,	NN	O	O
@@ -49165,6 +51024,7 @@ are	NN	O	O
 available	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0377221716304258)
 
 Two	NN	O	B-Process
@@ -49190,6 +51050,7 @@ of	NN	O	I-Task
 large	NN	O	I-Task
 M3PPs	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 single	NN	O	O
@@ -49248,6 +51109,7 @@ Telek	NN	O	O
 2009	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 has	NN	O	O
 led	NN	O	O
@@ -49296,6 +51158,7 @@ Telek	NN	O	O
 2002	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 methods	NN	O	O
 employ	NN	O	O
@@ -49347,6 +51210,7 @@ Lohmann	NN	O	O
 2003	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -49391,6 +51255,7 @@ Whitt	NN	O	O
 1986	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 state	NN	O	B-Process
 space	NN	O	I-Process
@@ -49457,6 +51322,7 @@ Houdt	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0378381215300297)
 
 For	NN	O	O
@@ -49500,6 +51366,7 @@ of	NN	O	O
 the	NN	O	O
 mixture	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 analytical	NN	O	O
 nature	NN	O	O
@@ -49517,6 +51384,7 @@ by	NN	O	O
 numerical	NN	O	B-Process
 methods	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 its	NN	O	O
 most	NN	O	O
@@ -49544,6 +51412,7 @@ are	NN	O	O
 recursively	NN	O	O
 calculated	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 reader	NN	O	O
 is	NN	O	O
@@ -49562,6 +51431,7 @@ employed	NN	O	I-Process
 80–82	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 quality	NN	O	O
 of	NN	O	O
@@ -49582,6 +51452,7 @@ represent	NN	O	O
 fluid	NN	O	B-Material
 mixtures	NN	O	I-Material
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -49626,6 +51497,7 @@ of	NN	O	O
 models	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0378381215300674)
 
 The	NN	O	O
@@ -49656,6 +51528,7 @@ the	NN	O	O
 corresponding	NN	O	O
 mixtures	NN	O	O
 .	NN	O	O
+
 Mixtures	NN	O	B-Material
 of	NN	O	I-Material
 n	NN	O	I-Material
@@ -49674,6 +51547,7 @@ SW	NN	O	I-Process
 82	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 general	NN	O	O
 it	NN	O	O
@@ -49705,6 +51579,7 @@ non	NN	O	B-Process
 polar	NN	O	I-Process
 compounds	NN	O	I-Process
 .	NN	O	O
+
 Because	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -49755,6 +51630,7 @@ the	NN	O	O
 equilibrium	NN	O	O
 phases	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 previous	NN	O	O
 work	NN	O	O
@@ -49800,6 +51676,7 @@ composition	NN	O	O
 were	NN	O	O
 achieved	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 systems	NN	O	O
 of	NN	O	O
@@ -49824,6 +51701,7 @@ alkylamine	NN	O	B-Material
 and	NN	O	O
 CO2	NN	O	B-Material
 .	NN	O	O
+
 Consequently	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -49886,6 +51764,7 @@ and	NN	O	O
 ,	NN	O	I-Process
 λCH2,H2O.	NN	O	I-Process
 
+
 -DOCSTART- (S0378381215301291)
 
 Recently	NN	O	O
@@ -49915,6 +51794,7 @@ years	NN	O	O
 21–30	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Previously	NN	O	O
 ,	NN	O	O
 beginning	NN	O	O
@@ -49964,6 +51844,7 @@ was	NN	O	O
 generally	NN	O	O
 accepted	NN	O	O
 .	NN	O	O
+
 Semiclathrate	NN	O	B-Material
 hydrates	NN	O	I-Material
 have	NN	O	O
@@ -49993,6 +51874,7 @@ storage	NN	O	I-Process
 36–41	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -50022,6 +51904,7 @@ hydrate	NN	O	O
 in	NN	O	O
 general	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 because	NN	O	O
@@ -50117,6 +52000,7 @@ semiclathrate	NN	O	B-Material
 hydrates	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0379711213001653)
 
 With	NN	O	O
@@ -50144,10 +52028,12 @@ perspectives	NN	O	O
 and	NN	O	O
 levels	NN	O	O
 .	NN	O	O
+
 Models	NN	O	B-Process
 such	NN	O	O
 as	NN	O	O
 FiRECAM	NN	O	B-Process
+
 [	NN	O	O
 11,12	NN	O	O
 ]	NN	O	O
@@ -50165,6 +52051,7 @@ expected	NN	O	O
 life	NN	O	O
 risk	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 other	NN	O	O
 studies	NN	O	O
@@ -50185,6 +52072,7 @@ buildings	NN	O	O
 14	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Quantitative	NN	O	B-Process
 risk	NN	O	I-Process
 analysis	NN	O	I-Process
@@ -50206,6 +52094,7 @@ factors	NN	O	I-Process
 15	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 studies	NN	O	O
@@ -50249,6 +52138,7 @@ fire	NN	O	O
 risk	NN	O	O
 management	NN	O	O
 .	NN	O	O
+
 Existing	NN	O	O
 fire	NN	O	O
 risk	NN	O	O
@@ -50287,6 +52177,7 @@ drills	NN	O	I-Process
 19	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 study	NN	O	O
@@ -50327,6 +52218,7 @@ occupants	NN	O	O
 '	NN	O	O
 behavior	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 number	NN	O	B-Material
 of	NN	O	I-Material
@@ -50365,6 +52257,7 @@ be	NN	O	O
 adopted	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0379711215000223)
 
 The	NN	O	O
@@ -50382,6 +52275,7 @@ of	NN	O	O
 inverse	NN	O	B-Task
 modelling	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 case	NN	O	O
@@ -50422,6 +52316,7 @@ curve	NN	O	I-Task
 fitting	NN	O	I-Task
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 most	NN	O	O
 used	NN	O	O
@@ -50444,6 +52339,7 @@ temperature	NN	O	I-Process
 10–12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 optimization	NN	O	B-Process
 technique	NN	O	I-Process
@@ -50459,6 +52355,7 @@ and	NN	O	O
 their	NN	O	O
 interactions	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 past	NN	O	O
@@ -50484,6 +52381,7 @@ potentiometers	NN	O	B-Process
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 sophisticated	NN	O	O
@@ -50507,6 +52405,7 @@ Algorithm	NN	O	I-Process
 (	NN	O	O
 GA	NN	O	B-Process
 )	NN	O	O
+
 [	NN	O	O
 10,14	NN	O	O
 ]	NN	O	O
@@ -50522,6 +52421,7 @@ SCE	NN	O	B-Process
 ]	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Lautenberger	NN	O	O
 and	NN	O	O
 Fernandez	NN	O	O
@@ -50547,6 +52447,7 @@ the	NN	O	O
 optimized	NN	O	O
 parameters	NN	O	O
 .	NN	O	O
+
 They	NN	O	O
 generated	NN	O	O
 using	NN	O	O
@@ -50580,6 +52481,7 @@ of	NN	O	O
 input	NN	O	O
 parameters	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 four	NN	O	O
 optimization	NN	O	B-Process
@@ -50598,6 +52500,7 @@ and	NN	O	O
 25	NN	O	O
 %	NN	O	O
 .	NN	O	O
+
 SCE	NN	O	B-Process
 was	NN	O	O
 the	NN	O	O
@@ -50605,6 +52508,7 @@ most	NN	O	O
 suitable	NN	O	O
 algorithm	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 use	NN	O	O
 of	NN	O	O
@@ -50627,6 +52531,7 @@ modelling	NN	O	O
 assumption	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0393044012000198)
 
 RemarkThe	NN	O	O
@@ -50648,6 +52553,7 @@ the	NN	O	O
 Minkowski	NN	O	B-Task
 spacetime	NN	O	I-Task
 .	NN	O	O
+
 A	NN	O	O
 way	NN	O	O
 of	NN	O	O
@@ -50665,11 +52571,13 @@ of	NN	O	O
 the	NN	O	O
 spacetime	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
-Newman	NN	O	B-Material
-–	NN	O	I-Material
-Penrose	NN	O	I-Material
-constants	NN	O	I-Material
+Newman	NN	O	O
+–	NN	O	O
+
+Penrose	NN	O	O
+constants	NN	O	O
 are	NN	O	O
 a	NN	O	O
 set	NN	O	O
@@ -50708,6 +52616,7 @@ Einstein	NN	O	O
 Maxwell	NN	O	O
 case	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 [	NN	O	O
 22	NN	O	O
@@ -50756,6 +52665,7 @@ of	NN	O	O
 this	NN	O	O
 article	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 radiative	NN	O	B-Task
@@ -50792,6 +52702,7 @@ seed	NN	O	O
 static	NN	O	O
 spacetime	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 follows	NN	O	O
 ,	NN	O	O
@@ -50810,6 +52721,7 @@ take	NN	O	O
 arbitrary	NN	O	O
 values	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 other	NN	O	O
@@ -50821,10 +52733,11 @@ Minkowski	NN	O	B-Task
 spacetime	NN	O	I-Task
 ,	NN	O	O
 the	NN	O	O
-Newman	NN	O	B-Material
-–	NN	O	I-Material
-Penrose	NN	O	I-Material
-constants	NN	O	I-Material
+Newman	NN	O	O
+–	NN	O	O
+
+Penrose	NN	O	O
+constants	NN	O	O
 are	NN	O	O
 exactly	NN	O	O
 zero	NN	O	O
@@ -50838,6 +52751,7 @@ will	NN	O	O
 be	NN	O	O
 small	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -50869,6 +52783,7 @@ constants	NN	O	I-Material
 vanish	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0736585316300661)
 
 To	NN	O	O
@@ -50896,6 +52811,7 @@ Triplett	NN	O	O
 2006	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 present	NN	O	O
 study	NN	O	O
@@ -50959,6 +52875,7 @@ Table	NN	O	O
 S5	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 continuous	NN	O	O
 characteristics	NN	O	O
@@ -50984,6 +52901,7 @@ feature	NN	O	O
 are	NN	O	O
 used	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 resulting	NN	O	O
 prices	NN	O	O
@@ -51009,6 +52927,7 @@ changes	NN	O	I-Process
 δs	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Finally	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -51028,6 +52947,7 @@ firm	NN	O	O
 level	NN	O	O
 indices	NN	O	O
 .	NN	O	O
+
 Weights	NN	O	O
 correspond	NN	O	O
 to	NN	O	O
@@ -51059,6 +52979,7 @@ Tele2	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S074756321630348X)
 
 Social	NN	O	B-Process
@@ -51096,6 +53017,7 @@ popular	NN	O	O
 online	NN	O	O
 activity	NN	O	O
 .	NN	O	O
+
 Social	NN	O	B-Process
 network	NN	O	I-Process
 games	NN	O	I-Process
@@ -51158,6 +53080,7 @@ as	NN	O	O
 ‘	NN	O	O
 freemium’	NN	O	O
 .	NN	O	O
+
 Although	NN	O	O
 SNG	NN	O	B-Material
 are	NN	O	O
@@ -51184,6 +53107,7 @@ any	NN	O	O
 social	NN	O	O
 interaction	NN	O	O
 .	NN	O	O
+
 SNG	NN	O	B-Material
 have	NN	O	O
 grown	NN	O	O
@@ -51225,6 +53149,7 @@ Research	NN	O	O
 2015	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 survey	NN	O	B-Process
 of	NN	O	O
@@ -51253,6 +53178,7 @@ almost	NN	O	O
 play	NN	O	O
 SNG	NN	O	B-Material
 daily	NN	O	O
+
 (	NN	O	O
 Spiral	NN	O	O
 Media	NN	O	O
@@ -51277,6 +53203,7 @@ this	NN	O	O
 time	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0749603615302184)
 
 However	NN	O	O
@@ -51334,6 +53261,7 @@ DBR	NN	O	B-Material
 layer	NN	O	I-Material
 thicknesses	NN	O	O
 .	NN	O	O
+
 Using	NN	O	O
 STEM	NN	O	B-Process
 measurements	NN	O	I-Process
@@ -51377,6 +53305,7 @@ to	NN	O	O
 85	NN	O	O
 %	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 implies	NN	O	O
 that	NN	O	O
@@ -51401,6 +53330,7 @@ to	NN	O	O
 the	NN	O	O
 model	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 fact	NN	O	O
 ,	NN	O	O
@@ -51455,6 +53385,7 @@ the	NN	O	B-Material
 window	NN	O	I-Material
 regions	NN	O	I-Material
 .	NN	O	O
+
 (	NN	O	O
 The	NN	O	O
 GaN	NN	O	B-Material
@@ -51476,6 +53407,7 @@ stack	NN	O	I-Material
 .	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 observation	NN	O	O
 could	NN	O	O
@@ -51517,6 +53449,7 @@ in	NN	O	O
 growth	NN	O	O
 rate	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 possibility	NN	O	O
 is	NN	O	O
@@ -51526,6 +53459,7 @@ of	NN	O	O
 ongoing	NN	O	O
 investigations	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -51548,6 +53482,7 @@ reflectivity	NN	O	O
 further	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S088523081530036X)
 
 Note	NN	O	O
@@ -51592,6 +53527,7 @@ the	NN	O	O
 target	NN	O	B-Material
 languages	NN	O	I-Material
 .	NN	O	O
+
 This	NN	O	O
 fact	NN	O	O
 makes	NN	O	O
@@ -51630,6 +53566,7 @@ each	NN	O	O
 new	NN	O	O
 frame	NN	O	O
 .	NN	O	O
+
 Indeed	NN	O	O
 ,	NN	O	O
 at	NN	O	O
@@ -51658,6 +53595,7 @@ and	NN	O	O
 the	NN	O	O
 targetlanguages	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 simple	NN	O	O
 way	NN	O	O
@@ -51682,6 +53620,7 @@ the	NN	O	I-Process
 last	NN	O	I-Process
 layer	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 score	NN	O	O
 sl	NN	O	O
@@ -51729,6 +53668,7 @@ output	NN	O	O
 for	NN	O	O
 the	NN	O	O
 language	NN	O	O
+
 l	NN	O	O
 corresponding	NN	O	O
 to	NN	O	O
@@ -51749,6 +53689,7 @@ by	NN	O	O
 parameters	NN	O	O
 θ.	NN	O	O
 
+
 -DOCSTART- (S0885230816300043)
 
 The	NN	O	O
@@ -51758,19 +53699,21 @@ of	NN	O	O
 experiments	NN	O	O
 involved	NN	O	O
 an	NN	O	O
-adaptive	NN	O	B-Process
-retraining	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-GMM	NN	O	I-Process
-–	NN	O	I-Process
-HMM	NN	O	I-Process
-parameters	NN	O	I-Process
+adaptive	NN	O	O
+retraining	NN	O	O
+of	NN	O	O
+the	NN	O	O
+GMM	NN	O	O
+–	NN	O	O
+
+HMM	NN	O	O
+parameters	NN	O	O
 following	NN	O	O
 the	NN	O	O
 aNAT	NN	O	B-Process
 procedure	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 new	NN	O	O
 model	NN	O	O
@@ -51796,6 +53739,7 @@ GMM	NN	O	B-Process
 HMM	NN	O	I-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 training	NN	O	B-Process
@@ -51819,6 +53763,7 @@ to	NN	O	O
 %	NN	O	O
 absolute	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 showed	NN	O	O
 how	NN	O	O
@@ -51842,6 +53787,7 @@ in	NN	O	O
 each	NN	O	O
 show	NN	O	O
 .	NN	O	O
+
 Finally	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -51866,6 +53812,7 @@ transforms	NN	O	I-Process
 was	NN	O	O
 tested	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 only	NN	O	O
 increased	NN	O	O
@@ -51902,6 +53849,7 @@ speaker	NN	O	B-Task
 adaptation	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0888327016300048)
 
 The	NN	O	O
@@ -51925,6 +53873,7 @@ the	NN	O	I-Task
 multivariate	NN	O	I-Task
 EMD	NN	O	I-Task
 .	NN	O	O
+
 It	NN	O	O
 also	NN	O	O
 clearly	NN	O	O
@@ -51951,6 +53900,7 @@ a	NN	O	O
 successful	NN	O	O
 exploration	NN	O	O
 .	NN	O	O
+
 Using	NN	O	O
 multiple	NN	O	O
 sensors	NN	O	B-Material
@@ -52002,6 +53952,7 @@ weak	NN	O	O
 fault	NN	O	O
 characteristics	NN	O	O
 .	NN	O	O
+
 Both	NN	O	O
 the	NN	O	O
 characteristic	NN	O	O
@@ -52064,6 +54015,7 @@ correlation	NN	O	I-Process
 factor	NN	O	I-Process
 analysis	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 signal	NN	O	B-Task
 acquisition	NN	O	I-Task
@@ -52103,6 +54055,7 @@ data	NN	O	I-Process
 processing	NN	O	I-Process
 algorithm	NN	O	I-Process
 .	NN	O	O
+
 By	NN	O	O
 analyzing	NN	O	O
 the	NN	O	O
@@ -52135,6 +54088,7 @@ rolling	NN	O	I-Task
 bearing	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0888327016302333)
 
 The	NN	O	B-Task
@@ -52166,6 +54120,7 @@ method	NN	O	I-Material
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 parametric	NN	O	O
@@ -52185,6 +54140,7 @@ input	NN	O	O
 output	NN	O	O
 data	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 GFRFs	NN	O	B-Task
 are	NN	O	O
@@ -52207,6 +54163,7 @@ method	NN	O	I-Material
 9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 nonparametric	NN	O	B-Task
 approach	NN	O	I-Task
@@ -52271,6 +54228,7 @@ higher	NN	O	O
 order	NN	O	O
 GFRFs	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 linear	NN	O	B-Task
 relationship	NN	O	I-Task
@@ -52291,6 +54249,7 @@ for	NN	O	O
 the	NN	O	O
 GFRFs	NN	O	B-Task
 .	NN	O	O
+
 Several	NN	O	O
 researchers	NN	O	O
 [	NN	O	O
@@ -52305,6 +54264,7 @@ estimate	NN	O	O
 the	NN	O	O
 GFRFs	NN	O	B-Task
 .	NN	O	O
+
 But	NN	O	O
 they	NN	O	O
 usually	NN	O	O
@@ -52332,6 +54292,7 @@ or	NN	O	I-Material
 three	NN	O	I-Material
 terms	NN	O	I-Material
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 such	NN	O	O
@@ -52343,6 +54304,7 @@ a	NN	O	O
 priori	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0888613X16300767)
 
 However	NN	O	O
@@ -52362,6 +54324,7 @@ supported	NN	O	I-Task
 statistical	NN	O	I-Task
 model	NN	O	I-Task
 .	NN	O	O
+
 If	NN	O	O
 we	NN	O	O
 are	NN	O	O
@@ -52438,6 +54401,7 @@ of	NN	O	O
 a	NN	O	O
 BN	NN	O	B-Material
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 context	NN	O	O
@@ -52472,6 +54436,7 @@ specific	NN	O	O
 ,	NN	O	O
 experiments	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 therefore	NN	O	O
@@ -52503,6 +54468,7 @@ process	NN	O	O
 she	NN	O	O
 studies	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 conjectures	NN	O	B-Task
 can	NN	O	O
@@ -52517,6 +54483,7 @@ of	NN	O	I-Material
 parsimony	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S0888613X16301062)
 
 The	NN	O	O
@@ -52551,6 +54518,7 @@ ProbLog	NN	O	B-Material
 9	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 While	NN	O	O
 both	NN	O	O
 languages	NN	O	O
@@ -52592,6 +54560,7 @@ the	NN	O	O
 probabilistic	NN	O	O
 program	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -52638,6 +54607,7 @@ d	NN	O	B-Process
 DNNF	NN	O	I-Process
 )	NN	O	O
 .	NN	O	O
+
 These	NN	O	O
 differences	NN	O	O
 reflect	NN	O	O
@@ -52709,6 +54679,7 @@ of	NN	O	O
 the	NN	O	O
 observations	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 in	NN	O	O
@@ -52728,6 +54699,7 @@ decision	NN	O	I-Process
 diagrams	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S0895611116300684)
 
 In	NN	O	O
@@ -52766,6 +54738,7 @@ number	NN	O	O
 of	NN	O	O
 polygons	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 cope	NN	O	O
 with	NN	O	O
@@ -52776,6 +54749,7 @@ Wu	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2013	NN	O	O
 )	NN	O	O
@@ -52820,6 +54794,7 @@ the	NN	O	I-Process
 local	NN	O	I-Process
 curvature	NN	O	I-Process
 )	NN	O	O
+
 (	NN	O	O
 Wu	NN	O	O
 et	NN	O	O
@@ -52829,11 +54804,13 @@ al	NN	O	O
 2010	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 Wu	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2013	NN	O	O
 )	NN	O	O
@@ -52856,6 +54833,7 @@ to	NN	O	O
 vessel	NN	O	B-Task
 modeling	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 authors	NN	O	O
 ,	NN	O	O
@@ -52876,6 +54854,7 @@ to	NN	O	O
 surgery	NN	O	B-Task
 planning	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 methods	NN	O	O
 evaluated	NN	O	O
@@ -52884,6 +54863,7 @@ Wu	NN	O	O
 et	NN	O	O
 al	NN	O	O
 .	NN	O	O
+
 (	NN	O	O
 2013	NN	O	O
 )	NN	O	O
@@ -52925,6 +54905,7 @@ surgery	NN	O	I-Task
 planning	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S0927025612000249)
 
 The	NN	O	O
@@ -52953,6 +54934,7 @@ Cr	NN	O	I-Material
 martensitic	NN	O	I-Material
 steels	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 development	NN	O	B-Task
 of	NN	O	I-Task
@@ -52974,6 +54956,7 @@ respectively	NN	O	O
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 work	NN	O	O
 has	NN	O	O
@@ -52991,6 +54974,7 @@ at	NN	O	O
 high	NN	O	O
 temperature	NN	O	O
 .	NN	O	O
+
 Recently	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -53010,6 +54994,7 @@ of	NN	O	O
 fatigue	NN	O	B-Process
 problems	NN	O	I-Process
 .	NN	O	O
+
 Bore	NN	O	O
 cracking	NN	O	O
 due	NN	O	O
@@ -53027,6 +55012,7 @@ reported	NN	O	O
 2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 temperature	NN	O	B-Process
 cycling	NN	O	I-Process
@@ -53052,6 +55038,7 @@ be	NN	O	O
 of	NN	O	O
 concerns	NN	O	O
 .	NN	O	O
+
 Recently	NN	O	O
 ,	NN	O	O
 research	NN	O	O
@@ -53092,6 +55079,7 @@ models	NN	O	I-Process
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S092702561300267X)
 
 In	NN	O	O
@@ -53128,11 +55116,13 @@ model	NN	O	I-Task
 23,24	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Back	NN	O	B-Process
 diffusion	NN	O	I-Process
 was	NN	O	O
 disregarded	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 way	NN	O	O
 to	NN	O	O
@@ -53165,6 +55155,7 @@ Tabulation	NN	O	I-Material
 was	NN	O	O
 suggested	NN	O	O
 .	NN	O	O
+
 With	NN	O	O
 the	NN	O	O
 ISAT	NN	O	B-Process
@@ -53201,6 +55192,7 @@ etc	NN	O	O
 .	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 the	NN	O	O
 number	NN	O	O
@@ -53240,6 +55232,7 @@ calculation	NN	O	O
 becomes	NN	O	O
 exhausting	NN	O	O
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -53268,6 +55261,7 @@ data	NN	O	I-Process
 is	NN	O	O
 necessary	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -53288,6 +55282,7 @@ into	NN	O	I-Task
 the	NN	O	I-Task
 solid	NN	O	I-Task
 .	NN	O	O
+
 With	NN	O	O
 these	NN	O	O
 modifications	NN	O	B-Process
@@ -53320,6 +55315,7 @@ computation	NN	O	O
 cost	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S092702561300760X)
 
 Due	NN	O	O
@@ -53351,6 +55347,7 @@ design	NN	O	I-Task
 and	NN	O	I-Task
 operations	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 relationships	NN	O	O
 among	NN	O	O
@@ -53385,6 +55382,7 @@ e.g.	NN	O	O
 5–7	NN	O	O
 ]	NN	O	O
 )	NN	O	O
+
 Detailed	NN	O	O
 information	NN	O	O
 on	NN	O	O
@@ -53418,6 +55416,7 @@ determined	NN	O	O
 more	NN	O	O
 precisely	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 work	NN	O	O
@@ -53454,6 +55453,7 @@ the	NN	O	O
 impacting	NN	O	O
 particles	NN	O	B-Material
 .	NN	O	O
+
 Using	NN	O	O
 state	NN	O	O
 -	NN	O	O
@@ -53500,6 +55500,7 @@ individual	NN	O	I-Task
 particle	NN	O	I-Task
 impacts	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 particle	NN	O	B-Process
 –	NN	O	I-Process
@@ -53528,6 +55529,7 @@ to	NN	O	O
 shock	NN	O	B-Process
 heating	NN	O	I-Process
 .	NN	O	O
+
 As	NN	O	O
 a	NN	O	O
 general	NN	O	O
@@ -53584,6 +55586,7 @@ residual	NN	O	O
 stresses	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0927025614007137)
 
 Structural	NN	O	B-Material
@@ -53606,6 +55609,7 @@ aerospace	NN	O	B-Material
 and	NN	O	O
 automotives	NN	O	B-Material
 .	NN	O	O
+
 Typically	NN	O	O
 these	NN	O	O
 adhesives	NN	O	B-Material
@@ -53615,6 +55619,7 @@ on	NN	O	O
 epoxy	NN	O	B-Material
 polymers	NN	O	I-Material
 .	NN	O	O
+
 Epoxies	NN	O	B-Material
 are	NN	O	O
 inherently	NN	O	O
@@ -53630,6 +55635,7 @@ cross	NN	O	O
 linked	NN	O	O
 nature	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 there	NN	O	O
@@ -53658,6 +55664,7 @@ nano	NN	O	I-Process
 -	NN	O	I-Process
 scale	NN	O	I-Process
 .	NN	O	O
+
 These	NN	O	O
 modifiers	NN	O	O
 fall	NN	O	O
@@ -53706,6 +55713,7 @@ usually	NN	O	O
 rubber	NN	O	B-Material
 particles	NN	O	I-Material
 .	NN	O	O
+
 Rubbery	NN	O	B-Material
 additives	NN	O	I-Material
 can	NN	O	O
@@ -53734,6 +55742,7 @@ mechanisms	NN	O	I-Process
 11,12	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 primary	NN	O	O
 energy	NN	O	B-Process
@@ -53759,6 +55768,7 @@ development	NN	O	I-Task
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 has	NN	O	O
 also	NN	O	O
@@ -53801,6 +55811,7 @@ nanoparticles	NN	O	I-Material
 ]	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0957417416301786)
 
 These	NN	O	O
@@ -53829,6 +55840,7 @@ with	NN	O	O
 standard	NN	O	B-Process
 algorithms	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -53862,6 +55874,7 @@ low	NN	O	O
 computational	NN	O	O
 complexity	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 there	NN	O	O
@@ -53875,6 +55888,7 @@ SW	NN	O	B-Process
 -	NN	O	I-Process
 SVR	NN	O	I-Process
 .	NN	O	O
+
 Firstly	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -53893,6 +55907,7 @@ of	NN	O	O
 training	NN	O	B-Material
 data	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -53913,8 +55928,10 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 3	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 is	NN	O	O
 because	NN	O	O
@@ -53933,6 +55950,7 @@ highly	NN	O	O
 accurate	NN	O	O
 prediction	NN	O	O
 .	NN	O	O
+
 If	NN	O	O
 D	NN	O	B-Process
 -	NN	O	I-Process
@@ -53968,6 +55986,7 @@ of	NN	O	O
 training	NN	O	B-Material
 data	NN	O	I-Material
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -53991,6 +56010,7 @@ unnecessary	NN	O	O
 training	NN	O	O
 data	NN	O	O
 .	NN	O	O
+
 Meanwhile	NN	O	O
 ,	NN	O	O
 SW	NN	O	B-Process
@@ -54023,6 +56043,7 @@ and	NN	O	O
 linear	NN	O	B-Process
 SVR	NN	O	I-Process
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 each	NN	O	O
@@ -54031,6 +56052,7 @@ has	NN	O	O
 several	NN	O	O
 parameters	NN	O	O
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 SW	NN	O	B-Process
@@ -54051,6 +56073,7 @@ tune	NN	O	B-Process
 the	NN	O	I-Process
 parameters	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 experiment	NN	O	O
@@ -54072,6 +56095,7 @@ a	NN	O	O
 certain	NN	O	O
 time	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 there	NN	O	O
@@ -54107,6 +56131,7 @@ Wang	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0957417416302561)
 
 •More	NN	O	O
@@ -54133,6 +56158,7 @@ limit	NN	O	O
 the	NN	O	O
 performance	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 use	NN	O	O
 of	NN	O	O
@@ -54211,6 +56237,7 @@ Lee	NN	O	O
 2016	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Meanwhile	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -54241,6 +56268,7 @@ muscle	NN	O	O
 activation	NN	O	O
 patterns	NN	O	O
 .	NN	O	O
+
 Features	NN	O	B-Process
 such	NN	O	O
 as	NN	O	O
@@ -54272,6 +56300,7 @@ in	NN	O	O
 this	NN	O	O
 paper	NN	O	O
 .	NN	O	O
+
 Such	NN	O	O
 features	NN	O	O
 can	NN	O	O
@@ -54315,8 +56344,10 @@ et	NN	O	O
 al	NN	O	O
 .	NN	O	O
 ,	NN	O	O
+
 2014)11https://www.coaptengineering.com/.	NN	O	O
 
+
 -DOCSTART- (S0957417416303773)
 
 In	NN	O	O
@@ -54340,6 +56371,7 @@ reduction	NN	O	I-Task
 have	NN	O	O
 arisen	NN	O	O
 .	NN	O	O
+
 Within	NN	O	O
 these	NN	O	O
 ,	NN	O	O
@@ -54355,12 +56387,14 @@ method	NN	O	I-Material
 (	NN	O	O
 PCA	NN	O	B-Material
 )	NN	O	O
+
 (	NN	O	O
 Jolliffe	NN	O	O
 ,	NN	O	O
 2002	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 an	NN	O	O
 N	NN	O	O
@@ -54400,6 +56434,7 @@ the	NN	O	I-Process
 highest	NN	O	I-Process
 variances	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 result	NN	O	O
 is	NN	O	O
@@ -54416,6 +56451,7 @@ of	NN	O	O
 achieved	NN	O	O
 variance	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 first	NN	O	O
 of	NN	O	O
@@ -54436,6 +56472,7 @@ samples	NN	O	I-Process
 is	NN	O	I-Process
 maximum	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 sense	NN	O	O
@@ -54466,6 +56503,7 @@ the	NN	O	O
 highest	NN	O	O
 variance	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 be	NN	O	O
 rigorous	NN	O	O
@@ -54480,6 +56518,7 @@ may	NN	O	O
 be	NN	O	O
 computed	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 only	NN	O	O
@@ -54507,6 +56546,7 @@ the	NN	O	O
 data	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0963869514000863)
 
 EM	NN	O	B-Material
@@ -54534,6 +56574,7 @@ microstructural	NN	O	B-Task
 phase	NN	O	I-Task
 balances	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 ferromagnetic	NN	O	B-Material
 steels	NN	O	I-Material
@@ -54548,6 +56589,7 @@ a	NN	O	O
 significant	NN	O	O
 effect	NN	O	O
 .	NN	O	O
+
 Previously	NN	O	O
 ,	NN	O	O
 multi	NN	O	B-Material
@@ -54589,6 +56631,7 @@ alloys	NN	O	O
 7,8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 large	NN	O	O
 difference	NN	O	B-Process
@@ -54619,6 +56662,7 @@ easy	NN	O	O
 to	NN	O	O
 measure	NN	O	O
 .	NN	O	O
+
 EM	NN	O	B-Material
 sensors	NN	O	I-Material
 have	NN	O	O
@@ -54643,6 +56687,7 @@ rod	NN	O	I-Material
 9,10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 approach	NN	O	O
 adopted	NN	O	O
@@ -54680,6 +56725,7 @@ and	NN	O	O
 distribution	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 EM	NN	O	B-Process
 properties	NN	O	I-Process
@@ -54702,6 +56748,7 @@ of	NN	O	O
 the	NN	O	O
 steel	NN	O	B-Material
 .	NN	O	O
+
 Within	NN	O	O
 the	NN	O	O
 model	NN	O	O
@@ -54740,6 +56787,7 @@ external	NN	O	B-Material
 circuits	NN	O	I-Material
 predicted	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 way	NN	O	O
@@ -54753,6 +56801,7 @@ be	NN	O	O
 compared	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S0997754612001318)
 
 Many	NN	O	O
@@ -54776,6 +56825,7 @@ flow	NN	O	B-Process
 control	NN	O	I-Process
 mechanism	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 example	NN	O	O
 ,	NN	O	O
@@ -54816,6 +56866,7 @@ of	NN	O	I-Task
 crossflow	NN	O	I-Task
 velocity	NN	O	I-Task
 .	NN	O	O
+
 Conclusions	NN	O	O
 for	NN	O	O
 the	NN	O	O
@@ -54905,6 +56956,7 @@ for	NN	O	O
 example	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 literature	NN	O	O
 shows	NN	O	O
@@ -54970,6 +57022,7 @@ unstable	NN	O	O
 convective	NN	O	O
 modes	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 convective	NN	O	B-Process
 instability	NN	O	I-Process
@@ -55011,6 +57064,7 @@ Lingwood	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1071581916300854)
 
 We	NN	O	O
@@ -55035,6 +57089,7 @@ friendly	NN	O	I-Task
 unique	NN	O	I-Task
 identifiers	NN	O	I-Task
 .	NN	O	O
+
 But	NN	O	O
 our	NN	O	O
 results	NN	O	O
@@ -55050,6 +57105,7 @@ text	NN	O	I-Task
 based	NN	O	I-Task
 services	NN	O	I-Task
 .	NN	O	O
+
 There	NN	O	O
 has	NN	O	O
 been	NN	O	O
@@ -55090,6 +57146,7 @@ al	NN	O	O
 2013	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 More	NN	O	O
 often	NN	O	O
 than	NN	O	O
@@ -55110,6 +57167,7 @@ of	NN	O	I-Task
 a	NN	O	I-Task
 service	NN	O	I-Task
 .	NN	O	O
+
 Most	NN	O	O
 users	NN	O	O
 are	NN	O	O
@@ -55123,6 +57181,7 @@ with	NN	O	O
 their	NN	O	O
 phone	NN	O	O
 .	NN	O	O
+
 Those	NN	O	O
 keyboards	NN	O	O
 have	NN	O	O
@@ -55132,6 +57191,7 @@ limitations	NN	O	O
 and	NN	O	O
 quirks	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 mode	NN	O	B-Process
 -	NN	O	I-Process
@@ -55160,6 +57220,7 @@ in	NN	O	O
 this	NN	O	O
 paper	NN	O	O
 .	NN	O	O
+
 When	NN	O	O
 designing	NN	O	B-Task
 services	NN	O	I-Task
@@ -55194,6 +57255,7 @@ can	NN	O	O
 be	NN	O	O
 controlled	NN	O	O
 .	NN	O	O
+
 Making	NN	O	O
 changes	NN	O	O
 to	NN	O	O
@@ -55216,6 +57278,7 @@ user	NN	O	O
 experience	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1361841516300342)
 
 Probabilistic	NN	O	B-Process
@@ -55232,6 +57295,7 @@ and	NN	O	I-Task
 global	NN	O	I-Task
 optima	NN	O	I-Task
 .	NN	O	O
+
 Evolutionary	NN	O	B-Process
 algorithms	NN	O	I-Process
 ,	NN	O	O
@@ -55291,6 +57355,7 @@ al	NN	O	O
 2009	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 cost	NN	O	B-Material
 function	NN	O	I-Material
@@ -55316,7 +57381,9 @@ the	NN	O	O
 projected	NN	O	O
 model	NN	O	O
 points	NN	O	O
+
 ”	NN	O	O
+
 (	NN	O	O
 Jomier	NN	O	O
 et	NN	O	O
@@ -55333,6 +57400,7 @@ genetic	NN	O	B-Process
 algorithm	NN	O	I-Process
 optimizer	NN	O	I-Process
 .	NN	O	O
+
 Other	NN	O	O
 authors	NN	O	O
 “	NN	O	O
@@ -55352,6 +57420,7 @@ cost	NN	O	I-Task
 function	NN	O	I-Task
 gradient	NN	O	I-Task
 ”	NN	O	O
+
 (	NN	O	O
 Florin	NN	O	O
 et	NN	O	O
@@ -55366,6 +57435,7 @@ the	NN	O	O
 global	NN	O	O
 minimum	NN	O	O
 .	NN	O	O
+
 Besides	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -55398,6 +57468,7 @@ al	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1361841516300822)
 
 For	NN	O	O
@@ -55436,6 +57507,7 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 8	NN	O	O
 and	NN	O	O
 the	NN	O	O
@@ -55448,6 +57520,7 @@ the	NN	O	O
 supplementary	NN	O	O
 materials	NN	O	O
 .	NN	O	O
+
 Significance	NN	O	O
 was	NN	O	O
 assessed	NN	O	O
@@ -55467,6 +57540,7 @@ generally	NN	O	O
 not	NN	O	O
 symmetric	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 estimation	NN	O	O
 errors	NN	O	O
@@ -55524,6 +57598,7 @@ into	NN	O	O
 the	NN	O	O
 model	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 average	NN	O	O
 the	NN	O	O
@@ -55546,6 +57621,7 @@ non	NN	O	O
 adaptive	NN	O	O
 counterpart	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -55590,6 +57666,7 @@ the	NN	O	O
 adaptation	NN	O	O
 phase	NN	O	O
 .	NN	O	O
+
 By	NN	O	O
 visually	NN	O	O
 inspecting	NN	O	O
@@ -55600,6 +57677,7 @@ AAMM	NN	O	B-Task
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 8	NN	O	O
 it	NN	O	O
 can	NN	O	O
@@ -55635,6 +57713,7 @@ the	NN	O	O
 min	NN	O	O
 mark	NN	O	O
 .	NN	O	O
+
 From	NN	O	O
 this	NN	O	O
 it	NN	O	O
@@ -55679,6 +57758,7 @@ the	NN	O	O
 application	NN	O	O
 phase	NN	O	O
 .	NN	O	O
+
 Note	NN	O	O
 that	NN	O	O
 this	NN	O	O
@@ -55699,6 +57779,7 @@ was	NN	O	O
 used	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1364815216303541)
 
 As	NN	O	O
@@ -55733,6 +57814,7 @@ of	NN	O	O
 higher	NN	O	O
 education	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 objectives	NN	O	O
 of	NN	O	O
@@ -55757,6 +57839,7 @@ about	NN	O	I-Task
 water	NN	O	I-Task
 issues	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 survey	NN	O	B-Process
 included	NN	O	O
@@ -55797,6 +57880,7 @@ non	NN	O	I-Material
 water	NN	O	I-Material
 issues	NN	O	I-Material
 .	NN	O	O
+
 A	NN	O	O
 number	NN	O	O
 of	NN	O	O
@@ -55827,6 +57911,7 @@ and	NN	O	O
 demographic	NN	O	B-Material
 attributes	NN	O	I-Material
 .	NN	O	O
+
 Supplementary	NN	O	B-Process
 material	NN	O	I-Process
 to	NN	O	O
@@ -55871,6 +57956,7 @@ Section	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1524070312000380)
 
 Isogeometric	NN	O	B-Process
@@ -55897,6 +57983,7 @@ of	NN	O	I-Process
 CAD	NN	O	I-Process
 models	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 exploits	NN	O	O
 the	NN	O	O
@@ -55916,6 +58003,7 @@ the	NN	O	O
 physical	NN	O	O
 domain	NN	O	O
 .	NN	O	O
+
 Hence	NN	O	O
 the	NN	O	O
 physical	NN	O	B-Process
@@ -55932,6 +58020,7 @@ to	NN	O	O
 a	NN	O	O
 cube	NN	O	O
 .	NN	O	O
+
 Consequently	NN	O	O
 ,	NN	O	O
 singularly	NN	O	O
@@ -55967,6 +58056,7 @@ and	NN	O	O
 convenient	NN	O	O
 representation	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Galerkin	NN	O	B-Process
 projection	NN	O	I-Process
@@ -55987,6 +58077,7 @@ partial	NN	O	I-Process
 differential	NN	O	I-Process
 equations	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 particular	NN	O	O
 ,	NN	O	O
@@ -56013,6 +58104,7 @@ NURBS	NN	O	B-Process
 basis	NN	O	I-Process
 functions	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -56037,6 +58129,7 @@ required	NN	O	O
 regularity	NN	O	O
 properties	NN	O	O
 .	NN	O	O
+
 Consequently	NN	O	O
 ,	NN	O	O
 numerical	NN	O	B-Process
@@ -56054,6 +58147,7 @@ be	NN	O	O
 applied	NN	O	O
 properly	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 discuss	NN	O	B-Task
 the	NN	O	I-Task
@@ -56064,6 +58158,7 @@ the	NN	O	I-Task
 test	NN	O	I-Task
 functions	NN	O	I-Task
 .	NN	O	O
+
 For	NN	O	O
 one-	NN	O	O
 and	NN	O	O
@@ -56082,6 +58177,7 @@ of	NN	O	I-Task
 NURBS	NN	O	I-Task
 parameterizations	NN	O	I-Task
 .	NN	O	O
+
 For	NN	O	O
 specific	NN	O	O
 cases	NN	O	O
@@ -56098,6 +58194,7 @@ the	NN	O	I-Task
 test	NN	O	I-Task
 functions	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 we	NN	O	O
@@ -56116,6 +58213,7 @@ of	NN	O	O
 insufficient	NN	O	O
 regularity	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 also	NN	O	O
@@ -56140,6 +58238,7 @@ via	NN	O	O
 sweeping	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S1566253516300069)
 
 The	NN	O	O
@@ -56220,6 +58319,7 @@ to	NN	O	O
 these	NN	O	O
 orderings	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 [	NN	O	O
 67	NN	O	O
@@ -56256,6 +58356,7 @@ knowledge	NN	O	B-Process
 based	NN	O	I-Process
 merging	NN	O	I-Process
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 they	NN	O	O
@@ -56273,6 +58374,7 @@ the	NN	O	O
 previous	NN	O	O
 section	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 belief	NN	O	B-Task
 revision	NN	O	I-Task
@@ -56291,6 +58393,7 @@ processes	NN	O	O
 under	NN	O	O
 study	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 underlying	NN	O	O
 ordered	NN	O	B-Material
@@ -56322,6 +58425,7 @@ from	NN	O	O
 the	NN	O	O
 outside	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 contrary	NN	O	O
@@ -56344,6 +58448,7 @@ supplied	NN	O	O
 by	NN	O	O
 sources	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 sequel	NN	O	O
@@ -56381,6 +58486,7 @@ plausibility	NN	O	O
 scale	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1566253516300252)
 
 Methods	NN	O	O
@@ -56410,6 +58516,7 @@ globally	NN	O	B-Material
 shared	NN	O	I-Material
 models	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 data	NN	O	B-Task
 mining	NN	O	I-Task
@@ -56438,6 +58545,7 @@ Euclidean	NN	O	I-Material
 distance	NN	O	I-Material
 )	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 data	NN	O	O
 point	NN	O	O
@@ -56459,6 +58567,7 @@ distance	NN	O	O
 42	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	B-Task
@@ -56480,6 +58589,7 @@ of	NN	O	O
 the	NN	O	O
 data	NN	O	O
 .	NN	O	O
+
 Many	NN	O	B-Material
 similar	NN	O	I-Material
 values	NN	O	I-Material
@@ -56515,6 +58625,7 @@ a	NN	O	I-Process
 lower	NN	O	I-Process
 density	NN	O	I-Process
 .	NN	O	O
+
 Anomalies	NN	O	B-Task
 can	NN	O	O
 fall	NN	O	O
@@ -56534,6 +58645,7 @@ a	NN	O	I-Process
 cluster	NN	O	I-Process
 too	NN	O	O
 .	NN	O	O
+
 Determining	NN	O	B-Task
 if	NN	O	I-Task
 a	NN	O	I-Task
@@ -56552,6 +58664,7 @@ a	NN	O	O
 challenge	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S1570870516301822)
 
 MWSN	NN	O	B-Process
@@ -56588,6 +58701,7 @@ power	NN	O	O
 and	NN	O	O
 cost	NN	O	O
 .	NN	O	O
+
 WSNs	NN	O	B-Process
 often	NN	O	O
 share	NN	O	O
@@ -56612,6 +58726,7 @@ a	NN	O	O
 single	NN	O	O
 sink	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 WSNs	NN	O	B-Process
@@ -56640,6 +58755,7 @@ scenario	NN	O	O
 10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Alternatively	NN	O	O
 ,	NN	O	O
 MANET	NN	O	B-Process
@@ -56678,6 +58794,7 @@ nodes	NN	O	O
 2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 extra	NN	O	O
 functionality	NN	O	O
@@ -56695,6 +58812,7 @@ overhead	NN	O	O
 is	NN	O	O
 unnecessary	NN	O	O
 .	NN	O	O
+
 Combined	NN	O	O
 with	NN	O	O
 the	NN	O	O
@@ -56747,6 +58865,7 @@ and	NN	O	O
 timely	NN	O	O
 manner	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 set	NN	O	O
 of	NN	O	O
@@ -56771,6 +58890,7 @@ specifically	NN	O	O
 designed	NN	O	O
 solutions	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 this	NN	O	O
 reason	NN	O	O
@@ -56784,6 +58904,7 @@ designed	NN	O	O
 for	NN	O	O
 MWSNs	NN	O	B-Process
 .	NN	O	O
+
 As	NN	O	O
 such	NN	O	O
 ,	NN	O	O
@@ -56812,6 +58933,7 @@ MWSN	NN	O	B-Process
 routing	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S1875952116300209)
 
 In	NN	O	O
@@ -56853,6 +58975,7 @@ the	NN	O	O
 mood	NN	O	O
 music	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 following	NN	O	O
 database	NN	O	B-Material
@@ -56884,6 +59007,7 @@ Stim	NN	O	I-Material
 20	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 these	NN	O	O
@@ -56894,6 +59018,7 @@ review	NN	O	B-Process
 as	NN	O	O
 unsuitable	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 aim	NN	O	O
 of	NN	O	O
@@ -56930,6 +59055,7 @@ the	NN	O	O
 clips	NN	O	O
 unsuitable	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 case	NN	O	O
@@ -56968,6 +59094,7 @@ English	NN	O	B-Material
 speaking	NN	O	I-Material
 participants	NN	O	I-Material
 .	NN	O	O
+
 Furthermore	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -56999,6 +59126,7 @@ unsuitable	NN	O	O
 as	NN	O	O
 discussed	NN	O	O
 .	NN	O	O
+
 From	NN	O	O
 our	NN	O	O
 review	NN	O	B-Process
@@ -57036,6 +59164,7 @@ the	NN	O	O
 clip	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000032)
 
 Aspect	NN	O	B-Process
@@ -57054,6 +59183,7 @@ cross	NN	O	I-Task
 cutting	NN	O	I-Task
 concerns	NN	O	I-Task
 .	NN	O	O
+
 Because	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -57069,6 +59199,7 @@ techniques	NN	O	O
 for	NN	O	O
 testing	NN	O	O
 .	NN	O	O
+
 First	NN	O	O
 ,	NN	O	O
 this	NN	O	O
@@ -57083,6 +59214,7 @@ aspect	NN	O	I-Task
 oriented	NN	O	I-Task
 software	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 order	NN	O	O
 to	NN	O	O
@@ -57107,6 +59239,7 @@ relevant	NN	O	I-Process
 test	NN	O	I-Process
 cases	NN	O	I-Process
 .	NN	O	O
+
 Then	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -57124,6 +59257,7 @@ select	NN	O	I-Task
 test	NN	O	I-Task
 case	NN	O	I-Task
 .	NN	O	O
+
 Finally	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -57142,6 +59276,7 @@ testing	NN	O	O
 approach	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S221266781200007X)
 
 In	NN	O	O
@@ -57190,6 +59325,7 @@ in	NN	O	O
 the	NN	O	O
 atmosphere	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 proposed	NN	O	O
 design	NN	O	O
@@ -57206,6 +59342,7 @@ the	NN	O	O
 Varnish	NN	O	B-Material
 Plant	NN	O	I-Material
 .	NN	O	O
+
 Heat	NN	O	O
 from	NN	O	O
 the	NN	O	O
@@ -57250,6 +59387,7 @@ the	NN	O	O
 hardening	NN	O	B-Material
 plant	NN	O	I-Material
 .	NN	O	O
+
 Consequently	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -57269,6 +59407,7 @@ product	NN	O	O
 were	NN	O	O
 improved	NN	O	O
 .	NN	O	O
+
 Further	NN	O	B-Task
 studies	NN	O	I-Task
 were	NN	O	O
@@ -57286,6 +59425,7 @@ air	NN	O	I-Process
 chambers	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000524)
 
 Digital	NN	O	B-Material
@@ -57325,6 +59465,7 @@ and	NN	O	I-Material
 mortar	NN	O	I-Material
 libraries	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 library	NN	O	O
 and	NN	O	O
@@ -57351,6 +59492,7 @@ influenced	NN	O	O
 service	NN	O	O
 profession	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 gives	NN	O	O
@@ -57375,6 +59517,7 @@ disadvantages	NN	O	O
 and	NN	O	O
 function	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 also	NN	O	O
@@ -57391,6 +59534,7 @@ traditional	NN	O	O
 library	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000536)
 
 According	NN	O	O
@@ -57442,6 +59586,7 @@ sense	NN	O	I-Task
 of	NN	O	I-Task
 students	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 system	NN	O	O
 can	NN	O	O
@@ -57487,6 +59632,7 @@ software	NN	O	B-Task
 industry	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000664)
 
 According	NN	O	O
@@ -57522,6 +59668,7 @@ analysis(PCA	NN	O	I-Process
 color	NN	O	B-Process
 extraction	NN	O	I-Process
 .	NN	O	I-Process
+
 On	NN	O	O
 the	NN	O	O
 basis	NN	O	O
@@ -57564,6 +59711,7 @@ in	NN	O	O
 the	NN	O	O
 paper	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 experimental	NN	O	O
 results	NN	O	O
@@ -57583,6 +59731,7 @@ accuracy	NN	O	O
 of	NN	O	O
 recognition	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 algorithm	NN	O	O
 provides	NN	O	O
@@ -57600,6 +59749,7 @@ recognition	NN	O	I-Task
 algorithm	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000780)
 
 With	NN	O	O
@@ -57685,6 +59835,7 @@ and	NN	O	O
 so	NN	O	O
 on	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 meaning	NN	O	O
 of	NN	O	O
@@ -57699,6 +59850,7 @@ are	NN	O	O
 discussed	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000792)
 
 A	NN	O	O
@@ -57726,6 +59878,7 @@ most	NN	O	O
 universities	NN	O	O
 facing	NN	O	O
 .	NN	O	O
+
 With	NN	O	O
 this	NN	O	O
 model	NN	O	O
@@ -57746,6 +59899,7 @@ into	NN	O	O
 small	NN	O	O
 tasks	NN	O	O
 .	NN	O	O
+
 Each	NN	O	O
 task	NN	O	O
 has	NN	O	O
@@ -57754,6 +59908,7 @@ role	NN	O	O
 of	NN	O	O
 executors	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 process	NN	O	O
 describes	NN	O	O
@@ -57764,6 +59919,7 @@ relationships	NN	O	O
 among	NN	O	O
 them	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 prototype	NN	O	O
 of	NN	O	O
@@ -57778,6 +59934,7 @@ Bonita	NN	O	B-Material
 open	NN	O	I-Material
 solution	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 demo	NN	O	O
 shows	NN	O	O
@@ -57806,6 +59963,7 @@ to	NN	O	O
 do	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000810)
 
 With	NN	O	O
@@ -57838,6 +59996,7 @@ free	NN	O	O
 normal	NN	O	O
 students	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 the	NN	O	O
 basis	NN	O	O
@@ -57859,6 +60018,7 @@ proposed	NN	O	O
 some	NN	O	O
 suggestions	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 hope	NN	O	O
 that	NN	O	O
@@ -57877,6 +60037,7 @@ normal	NN	O	O
 students	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000822)
 
 It	NN	O	O
@@ -57894,6 +60055,7 @@ the	NN	O	O
 lettered	NN	O	B-Material
 words	NN	O	I-Material
 .	NN	O	O
+
 After	NN	O	O
 that	NN	O	O
 ,	NN	O	O
@@ -57926,6 +60088,7 @@ appearing	NN	O	O
 more	NN	O	O
 frequently	NN	O	O
 .	NN	O	O
+
 Lettered	NN	O	B-Material
 words	NN	O	I-Material
 have	NN	O	O
@@ -57947,6 +60110,7 @@ OK	NN	O	I-Material
 and	NN	O	O
 MP3	NN	O	B-Material
 .	NN	O	O
+
 As	NN	O	O
 a	NN	O	O
 new	NN	O	O
@@ -57970,6 +60134,7 @@ of	NN	O	O
 academic	NN	O	O
 attention	NN	O	O
 .	NN	O	O
+
 Ecolinguistics	NN	O	B-Process
 is	NN	O	O
 a	NN	O	O
@@ -57986,6 +60151,7 @@ with	NN	O	I-Process
 the	NN	O	I-Process
 ecology	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 is	NN	O	O
@@ -58001,6 +60167,7 @@ perspective	NN	O	I-Task
 of	NN	O	I-Task
 Ecolinguistics	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 will	NN	O	O
@@ -58026,6 +60193,7 @@ ecolinguistic	NN	O	O
 view	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000883)
 
 The	NN	O	O
@@ -58119,6 +60287,7 @@ older	NN	O	O
 persons	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000895)
 
 Faced	NN	O	O
@@ -58166,6 +60335,7 @@ for	NN	O	O
 these	NN	O	O
 shortages	NN	O	O
 .	NN	O	O
+
 Further	NN	O	O
 more	NN	O	O
 ,	NN	O	O
@@ -58192,6 +60362,7 @@ and	NN	O	O
 management	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000937)
 
 In	NN	O	O
@@ -58209,6 +60380,7 @@ logic	NN	O	I-Task
 reasoning	NN	O	I-Task
 questions	NN	O	I-Task
 .	NN	O	I-Task
+
 The	NN	O	O
 algorithms	NN	O	O
 are	NN	O	O
@@ -58223,6 +60395,7 @@ with	NN	O	I-Process
 unique	NN	O	I-Process
 solutions	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 algorithms	NN	O	O
 employ	NN	O	O
@@ -58237,6 +60410,7 @@ produce	NN	O	O
 verbal	NN	O	B-Material
 questions	NN	O	I-Material
 .	NN	O	O
+
 These	NN	O	O
 algorithms	NN	O	O
 are	NN	O	O
@@ -58252,6 +60426,7 @@ traditional	NN	O	B-Material
 question	NN	O	I-Material
 databases	NN	O	I-Material
 .	NN	O	O
+
 They	NN	O	O
 are	NN	O	O
 particularly	NN	O	O
@@ -58265,6 +60440,7 @@ constrained	NN	O	I-Process
 mobile	NN	O	I-Process
 platforms	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 algorithms	NN	O	O
 can	NN	O	O
@@ -58284,6 +60460,7 @@ exam	NN	O	O
 etc	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667812000949)
 
 By	NN	O	O
@@ -58324,6 +60501,7 @@ on	NN	O	O
 sports	NN	O	B-Process
 biomechanics	NN	O	I-Process
 .With	NN	O	O
+
 redard	NN	O	O
 to	NN	O	O
 the	NN	O	O
@@ -58366,6 +60544,7 @@ walking	NN	O	I-Task
 race	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S221266781300018X)
 
 Amodel	NN	O	O
@@ -58408,6 +60587,7 @@ output	NN	O	I-Process
 action	NN	O	I-Process
 rules	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 Linear	NN	O	B-Process
 Temporal	NN	O	I-Process
@@ -58439,6 +60619,7 @@ to	NN	O	O
 be	NN	O	O
 verified	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 have	NN	O	O
 proven	NN	O	O
@@ -58474,6 +60655,7 @@ centric	NN	O	I-Process
 Web	NN	O	I-Process
 applications	NN	O	I-Process
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 we	NN	O	O
@@ -58491,6 +60673,7 @@ Web	NN	O	B-Process
 applications	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212667813000610)
 
 The	NN	O	O
@@ -58507,6 +60690,7 @@ produce	NN	O	B-Task
 successful	NN	O	I-Task
 product	NN	O	I-Task
 .	NN	O	O
+
 During	NN	O	O
 the	NN	O	O
 process	NN	O	O
@@ -58524,6 +60708,7 @@ of	NN	O	O
 proper	NN	O	O
 management	NN	O	B-Process
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 is	NN	O	O
@@ -58554,6 +60739,7 @@ software	NN	O	I-Process
 management	NN	O	I-Process
 trainings	NN	O	I-Process
 .	NN	O	O
+
 Our	NN	O	O
 findings	NN	O	O
 reflect	NN	O	O
@@ -58584,6 +60770,7 @@ project	NN	O	I-Process
 management	NN	O	I-Process
 course	NN	O	I-Process
 .	NN	O	O
+
 Our	NN	O	O
 findings	NN	O	O
 are	NN	O	O
@@ -58611,6 +60798,7 @@ Turkish	NN	O	O
 universities	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667813000762)
 
 Analyzing	NN	O	O
@@ -58677,6 +60865,7 @@ and	NN	O	O
 field	NN	O	B-Process
 validation	NN	O	I-Process
 .	NN	O	O
+
 Interpretation	NN	O	B-Task
 results	NN	O	O
 of	NN	O	O
@@ -58711,6 +60900,7 @@ about	NN	O	O
 6	NN	O	O
 acres	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 ability	NN	O	O
 20	NN	O	O
@@ -58745,6 +60935,7 @@ accuracy	NN	O	O
 increases	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667813000774)
 
 Evolutionary	NN	O	B-Process
@@ -58762,6 +60953,7 @@ of	NN	O	O
 natural	NN	O	B-Process
 evolution	NN	O	I-Process
 .	NN	O	O
+
 These	NN	O	O
 algorithms	NN	O	O
 are	NN	O	O
@@ -58783,6 +60975,7 @@ powerful	NN	O	O
 search	NN	O	B-Process
 mechanism	NN	O	I-Process
 .	NN	O	O
+
 EAs	NN	O	B-Process
 are	NN	O	O
 highly	NN	O	O
@@ -58797,6 +60990,7 @@ having	NN	O	O
 conflicting	NN	O	O
 objectives	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 reviews	NN	O	B-Task
@@ -58813,6 +61007,7 @@ in	NN	O	I-Task
 EMO	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S221266781300083X)
 
 In	NN	O	O
@@ -58837,6 +61032,7 @@ prices	NN	O	B-Process
 compensation	NN	O	I-Process
 strategy	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 agricultural	NN	O	B-Process
 producing	NN	O	I-Process
@@ -58853,6 +61049,7 @@ yield	NN	O	B-Process
 is	NN	O	O
 uncertain	NN	O	O
 .	NN	O	O
+
 While	NN	O	O
 agricultural	NN	O	B-Material
 products	NN	O	I-Material
@@ -58871,6 +61068,7 @@ volatility	NN	O	O
 of	NN	O	O
 prices	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 two-	NN	O	B-Process
 echelon	NN	O	I-Process
@@ -58892,6 +61090,7 @@ model	NN	O	I-Task
 is	NN	O	I-Task
 constructed	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 model	NN	O	O
 showed	NN	O	O
@@ -58933,6 +61132,7 @@ supply	NN	O	B-Process
 chain	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212667813001068)
 
 It	NN	O	O
@@ -58965,6 +61165,7 @@ the	NN	O	O
 extreme	NN	O	O
 heterogeneity	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 classical	NN	O	O
 SDR	NN	O	B-Process
@@ -59000,6 +61201,7 @@ involved	NN	O	I-Task
 model	NN	O	I-Task
 parameters	NN	O	I-Task
 .	NN	O	O
+
 Based	NN	O	O
 on	NN	O	O
 the	NN	O	O
@@ -59045,6 +61247,7 @@ models	NN	O	I-Task
 are	NN	O	O
 established	NN	O	O
 .	NN	O	O
+
 Field	NN	O	B-Material
 examples	NN	O	I-Material
 show	NN	O	O
@@ -59062,6 +61265,7 @@ sandstone	NN	O	B-Material
 permeability	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000045)
 
 The	NN	O	O
@@ -59104,6 +61308,7 @@ E	NN	O	B-Process
 -	NN	O	I-Process
 Procurement	NN	O	I-Process
 .	NN	O	O
+
 As	NN	O	O
 it	NN	O	O
 has	NN	O	O
@@ -59144,6 +61349,7 @@ of	NN	O	O
 total	NN	O	O
 purchases	NN	O	O
 .	NN	O	O
+
 So	NN	O	O
 web	NN	O	B-Process
 -	NN	O	I-Process
@@ -59167,6 +61373,7 @@ of	NN	O	I-Process
 supply	NN	O	I-Process
 chain	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 article	NN	O	O
 focuses	NN	O	O
@@ -59211,6 +61418,7 @@ supply	NN	O	I-Process
 chain	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000069)
 
 In	NN	O	O
@@ -59233,6 +61441,7 @@ has	NN	O	O
 been	NN	O	O
 presented	NN	O	O
 .	NN	O	O
+
 At	NN	O	O
 first	NN	O	O
 ,	NN	O	O
@@ -59270,6 +61479,7 @@ the	NN	O	O
 analysis	NN	O	B-Task
 task	NN	O	I-Task
 .	NN	O	O
+
 Based	NN	O	O
 on	NN	O	O
 the	NN	O	O
@@ -59313,6 +61523,7 @@ specifics	NN	O	O
 red	NN	O	O
 hyperedges	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 method	NN	O	O
 is	NN	O	O
@@ -59323,6 +61534,7 @@ pedagogical	NN	O	B-Task
 example	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000070)
 
 This	NN	O	O
@@ -59347,6 +61559,7 @@ of	NN	O	I-Task
 smart	NN	O	I-Task
 TV	NN	O	I-Task
 .	NN	O	O
+
 For	NN	O	O
 high	NN	O	O
 performance	NN	O	O
@@ -59373,6 +61586,7 @@ change	NN	O	O
 was	NN	O	O
 used	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Adaboost	NN	O	B-Process
 learning	NN	O	I-Process
@@ -59385,6 +61599,7 @@ optimized	NN	O	I-Task
 learning	NN	O	I-Task
 data	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 proposed	NN	O	O
 hardware	NN	O	B-Material
@@ -59437,6 +61652,7 @@ Color	NN	O	B-Material
 Overlay	NN	O	I-Material
 Processer	NN	O	I-Material
 .	NN	O	O
+
 As	NN	O	O
 a	NN	O	O
 result	NN	O	O
@@ -59462,6 +61678,7 @@ per	NN	O	O
 second	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000124)
 
 Based	NN	O	O
@@ -59485,6 +61702,7 @@ in	NN	O	O
 this	NN	O	O
 work	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 this	NN	O	O
 basis	NN	O	O
@@ -59506,6 +61724,7 @@ on	NN	O	O
 particle	NN	O	B-Material
 filter	NN	O	I-Material
 .	NN	O	O
+
 And	NN	O	O
 the	NN	O	O
 effectiveness	NN	O	O
@@ -59536,6 +61755,7 @@ simulation	NN	O	B-Process
 results	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000264)
 
 In	NN	O	O
@@ -59561,6 +61781,7 @@ dimensional	NN	O	I-Task
 virtual	NN	O	I-Task
 world	NN	O	I-Task
 .	NN	O	O
+
 We	NN	O	O
 use	NN	O	O
 an	NN	O	O
@@ -59589,6 +61810,7 @@ subsequently	NN	O	O
 the	NN	O	O
 outcomes	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 aim	NN	O	O
 at	NN	O	O
@@ -59623,6 +61845,7 @@ head	NN	O	B-Material
 mounted	NN	O	I-Material
 display	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -59643,6 +61866,7 @@ designed	NN	O	O
 systems	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000331)
 
 In	NN	O	O
@@ -59679,6 +61903,7 @@ PT	NN	O	I-Material
 fuel	NN	O	I-Material
 system	NN	O	I-Material
 .	NN	O	O
+
 Firstly	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -59755,6 +61980,7 @@ system	NN	O	I-Process
 state	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000380)
 
 The	NN	O	O
@@ -59785,6 +62011,7 @@ web	NN	O	O
 post	NN	O	O
 element	NN	O	O
 .	NN	O	O
+
 Such	NN	O	O
 behavior	NN	O	O
 is	NN	O	O
@@ -59800,6 +62027,7 @@ using	NN	O	O
 software	NN	O	O
 ANSYS	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 design	NN	O	B-Process
 method	NN	O	I-Process
@@ -59821,6 +62049,7 @@ at	NN	O	O
 serviceability	NN	O	O
 loads	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 procedure	NN	O	B-Task
 of	NN	O	I-Task
@@ -59851,6 +62080,7 @@ the	NN	O	O
 suitability	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000550)
 
 The	NN	O	O
@@ -59870,6 +62100,7 @@ regional	NN	O	B-Process
 economic	NN	O	I-Process
 development	NN	O	I-Process
 .	NN	O	O
+
 As	NN	O	O
 the	NN	O	O
 residents	NN	O	O
@@ -59892,6 +62123,7 @@ low	NN	O	O
 carbon	NN	O	B-Material
 lifestyle	NN	O	O
 .	NN	O	O
+
 Based	NN	O	O
 on	NN	O	O
 the	NN	O	O
@@ -59939,6 +62171,7 @@ knowledge	NN	O	O
 and	NN	O	O
 culture	NN	O	O
 .	NN	O	O
+
 Therefore	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -59977,6 +62210,7 @@ of	NN	O	O
 lifestyle	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000690)
 
 The	NN	O	O
@@ -60017,15 +62251,17 @@ clone	NN	O	B-Material
 PP-07	NN	O	I-Material
 )	NN	O	O
 and	NN	O	O
-golden	NN	O	B-Material
-alga	NN	O	I-Material
-Isochrysis	NN	O	I-Material
-galbana	NN	O	I-Material
+golden	NN	O	O
+alga	NN	O	O
+
+Isochrysis	NN	O	O
+galbana	NN	O	O
 (	NN	O	O
 clone	NN	O	B-Material
 TISO	NN	O	I-Material
 )	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 toxic	NN	O	B-Process
 effects	NN	O	I-Process
@@ -60078,6 +62314,7 @@ galbana	NN	O	I-Material
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000732)
 
 The	NN	O	O
@@ -60116,6 +62353,7 @@ management	NN	O	I-Task
 of	NN	O	I-Task
 reclamation	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -60151,6 +62389,7 @@ Bay	NN	O	O
 ,	NN	O	O
 China	NN	O	O
 .	NN	O	O
+
 With	NN	O	O
 the	NN	O	O
 field	NN	O	B-Material
@@ -60185,6 +62424,7 @@ marine	NN	O	O
 environment	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000756)
 
 This	NN	O	O
@@ -60220,6 +62460,7 @@ from	NN	O	O
 industrial	NN	O	B-Process
 processes	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 research	NN	O	O
 deals	NN	O	O
@@ -60235,6 +62476,7 @@ three	NN	O	O
 different	NN	O	O
 catalysts	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 amount	NN	O	O
 of	NN	O	O
@@ -60252,6 +62494,7 @@ the	NN	O	O
 catalyst	NN	O	B-Material
 composition	NN	O	O
 .	NN	O	O
+
 To	NN	O	O
 improve	NN	O	O
 the	NN	O	O
@@ -60276,6 +62519,7 @@ coal	NN	O	I-Material
 and	NN	O	O
 modified	NN	O	B-Material
 olivine	NN	O	I-Material
+
 –	NN	O	O
 are	NN	O	O
 added	NN	O	O
@@ -60296,6 +62540,7 @@ of	NN	O	O
 and	NN	O	O
 900oC.	NN	O	O
 
+
 -DOCSTART- (S221266781400080X)
 
 Several	NN	O	O
@@ -60332,6 +62577,7 @@ in	NN	O	O
 this	NN	O	O
 paper	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 ideal	NN	O	O
 operating	NN	O	O
@@ -60347,6 +62593,7 @@ orthogonal	NN	O	B-Task
 design	NN	O	I-Task
 experiment	NN	O	I-Task
 .	NN	O	O
+
 And	NN	O	O
 the	NN	O	O
 ideal	NN	O	O
@@ -60360,8 +62607,10 @@ dose	NN	O	O
 of	NN	O	O
 FeSO4	NN	O	B-Material
 and	NN	O	O
+
 PAM	NN	O	B-Material
 is	NN	O	O
+
 135.2mg	NN	O	O
 /	NN	O	O
 L	NN	O	O
@@ -60377,6 +62626,7 @@ pH	NN	O	O
 10	NN	O	O
 ;	NN	O	O
 and	NN	O	O
+
 the	NN	O	O
 corresponding	NN	O	O
 removal	NN	O	B-Process
@@ -60392,6 +62642,7 @@ COD	NN	O	B-Material
 and	NN	O	O
 turbidity	NN	O	O
 .	NN	O	O
+
 Based	NN	O	O
 on	NN	O	O
 the	NN	O	O
@@ -60411,6 +62662,7 @@ flocculation	NN	O	I-Process
 treatment	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000884)
 
 Many	NN	O	O
@@ -60422,6 +62674,7 @@ for	NN	O	O
 forecasting	NN	O	B-Process
 lightning	NN	O	I-Process
 .	NN	O	O
+
 Though	NN	O	O
 majority	NN	O	O
 of	NN	O	O
@@ -60442,6 +62695,7 @@ is	NN	O	O
 quite	NN	O	O
 low	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 model	NN	O	O
@@ -60473,6 +62727,7 @@ influence	NN	O	O
 of	NN	O	O
 lightning	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 Schrödinger	NN	O	B-Process
 -	NN	O	I-Process
@@ -60493,6 +62748,7 @@ detecting	NN	O	B-Process
 natural	NN	O	I-Process
 phenomena	NN	O	I-Process
 .	NN	O	I-Process
+
 According	NN	O	O
 to	NN	O	O
 our	NN	O	O
@@ -60510,6 +62766,7 @@ in	NN	O	O
 lightning	NN	O	B-Process
 forecast	NN	O	O
 .	NN	O	O
+
 Our	NN	O	O
 guess	NN	O	O
 was	NN	O	O
@@ -60532,6 +62789,7 @@ and	NN	O	O
 lower	NN	O	O
 atmosphere	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 air	NN	O	B-Material
 density	NN	O	O
@@ -60550,6 +62808,7 @@ lightning	NN	O	B-Process
 forecast	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000951)
 
 Design	NN	O	B-Task
@@ -60580,6 +62839,7 @@ art	NN	O	I-Task
 and	NN	O	I-Task
 science	NN	O	I-Task
 .	NN	O	O
+
 Design	NN	O	B-Task
 semantics	NN	O	I-Task
 is	NN	O	O
@@ -60608,6 +62868,7 @@ human	NN	O	I-Task
 cultural	NN	O	I-Task
 spirit	NN	O	I-Task
 .	NN	O	O
+
 Chinese	NN	O	O
 art	NN	O	O
 stresses	NN	O	O
@@ -60617,6 +62878,7 @@ Force	NN	O	O
 and	NN	O	O
 Qi	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 China	NN	O	O
 ,	NN	O	O
@@ -60668,6 +62930,7 @@ state	NN	O	O
 of	NN	O	O
 spirit	NN	O	O
 .	NN	O	O
+
 Design	NN	O	B-Task
 semantics	NN	O	I-Task
 is	NN	O	O
@@ -60691,6 +62954,7 @@ complementary	NN	O	O
 and	NN	O	O
 interactive	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 form	NN	O	O
 of	NN	O	O
@@ -60713,6 +62977,7 @@ in	NN	O	O
 One	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814000975)
 
 It	NN	O	O
@@ -60737,6 +63002,7 @@ and	NN	O	O
 culture	NN	O	B-Process
 change	NN	O	I-Process
 .	NN	O	O
+
 Thereupon	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -60765,6 +63031,7 @@ diagnosis	NN	O	I-Task
 potential	NN	O	I-Task
 drawbacks	NN	O	I-Task
 .	NN	O	O
+
 By	NN	O	O
 examining	NN	O	O
 the	NN	O	O
@@ -60815,6 +63082,7 @@ demand	NN	O	O
 in	NN	O	O
 megalopolis	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 proposed	NN	O	B-Task
 framework	NN	O	I-Task
@@ -60837,6 +63105,7 @@ River	NN	O	O
 Delta	NN	O	O
 ..	NN	O	O
 
+
 -DOCSTART- (S2212667814000987)
 
 In	NN	O	O
@@ -60866,6 +63135,7 @@ efficiency	NN	O	I-Task
 in	NN	O	O
 industry	NN	O	O
 .	NN	O	O
+
 Operating	NN	O	O
 principles	NN	O	O
 of	NN	O	O
@@ -60891,6 +63161,7 @@ plants	NN	O	O
 are	NN	O	O
 described	NN	O	O
 .	NN	O	O
+
 Essential	NN	O	O
 devices	NN	O	B-Task
 composing	NN	O	I-Task
@@ -60905,11 +63176,13 @@ characteristics	NN	O	I-Task
 are	NN	O	I-Task
 described	NN	O	I-Task
 .	NN	O	O
+
 Experimental	NN	O	O
 results	NN	O	O
 are	NN	O	O
 presented	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -60937,6 +63210,7 @@ efficiency	NN	O	I-Task
 in	NN	O	O
 industry	NN	O	O
 .	NN	O	O
+
 Operating	NN	O	O
 principles	NN	O	O
 of	NN	O	O
@@ -60962,6 +63236,7 @@ plants	NN	O	O
 are	NN	O	O
 described	NN	O	O
 .	NN	O	O
+
 Essential	NN	O	O
 devices	NN	O	B-Task
 composing	NN	O	I-Task
@@ -60976,12 +63251,14 @@ characteristics	NN	O	I-Task
 are	NN	O	I-Task
 described	NN	O	I-Task
 .	NN	O	O
+
 Experimental	NN	O	O
 results	NN	O	O
 are	NN	O	O
 presented	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001166)
 
 Along	NN	O	O
@@ -61010,6 +63287,7 @@ important	NN	O	O
 than	NN	O	O
 ever	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -61035,6 +63313,7 @@ data	NN	O	I-Process
 mining	NN	O	I-Process
 techniques	NN	O	I-Process
 .	NN	O	O
+
 With	NN	O	O
 constant	NN	O	O
 query	NN	O	O
@@ -61067,6 +63346,7 @@ and	NN	O	O
 max	NN	O	O
 value	NN	O	O
 .	NN	O	O
+
 A	NN	O	O
 new	NN	O	O
 time	NN	O	B-Process
@@ -61087,6 +63367,7 @@ analyzing	NN	O	B-Task
 big	NN	O	I-Task
 data	NN	O	I-Task
 .	NN	O	O
+
 All	NN	O	O
 these	NN	O	O
 algorithms	NN	O	B-Process
@@ -61111,6 +63392,7 @@ ultra	NN	O	I-Material
 resolution	NN	O	I-Material
 display	NN	O	I-Material
 .	NN	O	O
+
 Experimental	NN	O	O
 results	NN	O	O
 on	NN	O	O
@@ -61123,6 +63405,7 @@ are	NN	O	O
 presented	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001208)
 
 Improving	NN	O	B-Task
@@ -61162,6 +63445,7 @@ and	NN	O	I-Task
 Cloud	NN	O	I-Task
 computing	NN	O	I-Task
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 poor	NN	O	B-Process
@@ -61185,6 +63469,7 @@ applications	NN	O	I-Process
 in	NN	O	I-Process
 Cloud	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 proposes	NN	O	B-Task
@@ -61206,6 +63491,7 @@ Amazon	NN	O	B-Material
 HPC	NN	O	I-Material
 Cloud	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 evidence	NN	O	O
 from	NN	O	O
@@ -61242,6 +63528,7 @@ dedicated	NN	O	O
 HPC	NN	O	B-Material
 cluster	NN	O	I-Material
 .	NN	O	O
+
 We	NN	O	O
 state	NN	O	O
 that	NN	O	O
@@ -61265,6 +63552,7 @@ HPC	NN	O	I-Process
 applications	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S221266781400121X)
 
 In	NN	O	O
@@ -61286,6 +63574,7 @@ Sense	NN	O	I-Task
 Disambiguation	NN	O	I-Task
 algorithm	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 algorithm	NN	O	B-Process
 is	NN	O	O
@@ -61313,6 +63602,7 @@ a	NN	O	I-Process
 large	NN	O	I-Process
 wordnet	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 algorithm	NN	O	B-Process
 ,	NN	O	O
@@ -61331,6 +63621,7 @@ Polish	NN	O	B-Material
 and	NN	O	I-Material
 plWordNet	NN	O	I-Material
 .	NN	O	O
+
 An	NN	O	O
 extension	NN	O	B-Process
 based	NN	O	O
@@ -61350,6 +63641,7 @@ Relatedness	NN	O	I-Process
 was	NN	O	O
 proposed	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 extended	NN	O	B-Process
 algorithm	NN	O	I-Process
@@ -61361,6 +63653,7 @@ manually	NN	O	B-Material
 disambiguated	NN	O	I-Material
 corpus	NN	O	I-Material
 .	NN	O	O
+
 We	NN	O	O
 observed	NN	O	O
 improvement	NN	O	O
@@ -61376,6 +63669,7 @@ shorter	NN	O	O
 text	NN	O	O
 contexts	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 the	NN	O	O
@@ -61389,6 +63683,7 @@ clustering	NN	O	I-Task
 task	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001245)
 
 Sentence	NN	O	B-Task
@@ -61414,6 +63709,7 @@ language	NN	O	I-Task
 processing	NN	O	I-Task
 field	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -61437,6 +63733,7 @@ Bayesian	NN	O	B-Process
 Network	NN	O	I-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 Bayesian	NN	O	B-Process
 network	NN	O	I-Process
 model	NN	O	I-Process
@@ -61455,6 +63752,7 @@ difference	NN	O	I-Process
 of	NN	O	I-Process
 probability	NN	O	I-Process
 .	NN	O	O
+
 Experimental	NN	O	O
 results	NN	O	O
 with	NN	O	O
@@ -61462,6 +63760,7 @@ with	NN	O	O
 sentences	NN	O	I-Material
 ,	NN	O	O
 show	NN	O	O
+
 that	NN	O	O
 our	NN	O	O
 method	NN	O	O
@@ -61480,6 +63779,7 @@ exactly	NN	O	O
 grammar	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001294)
 
 Knowledge	NN	O	B-Task
@@ -61499,6 +63799,7 @@ the	NN	O	O
 past	NN	O	O
 decade	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 most	NN	O	O
 cases	NN	O	O
@@ -61530,6 +63831,7 @@ even	NN	O	O
 other	NN	O	O
 companies	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -61563,6 +63865,7 @@ to	NN	O	O
 be	NN	O	O
 extended	NN	O	B-Process
 .	NN	O	O
+
 To	NN	O	O
 overcome	NN	O	O
 the	NN	O	O
@@ -61595,6 +63898,7 @@ Knowledge	NN	O	B-Process
 Management	NN	O	I-Process
 System	NN	O	I-Process
 .	NN	O	O
+
 Also	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -61611,6 +63915,7 @@ proposed	NN	O	I-Task
 methodology	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001348)
 
 Some	NN	O	O
@@ -61634,6 +63939,7 @@ their	NN	O	O
 solutions	NN	O	O
 exists	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 Exponential	NN	O	B-Process
 Time	NN	O	I-Process
@@ -61667,6 +63973,7 @@ nonlinear	NN	O	I-Task
 wave	NN	O	I-Task
 equations	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 article	NN	O	O
 solves	NN	O	B-Task
@@ -61685,6 +63992,7 @@ Kutta	NN	O	I-Process
 4	NN	O	I-Process
 technique	NN	O	I-Process
 .	NN	O	O
+
 Implementation	NN	O	O
 of	NN	O	O
 this	NN	O	O
@@ -61697,6 +64005,7 @@ Matlab	NN	O	B-Material
 programs	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001361)
 
 Contractor	NN	O	B-Task
@@ -61726,6 +64035,7 @@ by	NN	O	O
 the	NN	O	O
 project	NN	O	O
 .	NN	O	O
+
 Although	NN	O	O
 the	NN	O	O
 project	NN	O	B-Material
@@ -61751,6 +64061,7 @@ un	NN	O	B-Material
 experienced	NN	O	I-Material
 managers	NN	O	I-Material
 .	NN	O	O
+
 With	NN	O	O
 a	NN	O	O
 learnable	NN	O	B-Process
@@ -61776,6 +64087,7 @@ well	NN	O	I-Task
 drilling	NN	O	I-Task
 project	NN	O	I-Task
 .	NN	O	O
+
 Then	NN	O	O
 ,	NN	O	O
 based	NN	O	O
@@ -61803,6 +64115,7 @@ an	NN	O	O
 optimization	NN	O	B-Task
 problem	NN	O	I-Task
 .	NN	O	O
+
 Next	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -61815,6 +64128,7 @@ utilized	NN	O	O
 for	NN	O	O
 solution	NN	O	O
 .	NN	O	O
+
 At	NN	O	O
 the	NN	O	O
 end	NN	O	O
@@ -61833,6 +64147,7 @@ the	NN	O	O
 algorithm	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001397)
 
 In	NN	O	O
@@ -61853,6 +64168,7 @@ Journal	NN	O	I-Task
 Influence	NN	O	I-Task
 Score	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 Influence	NN	O	B-Process
 Score	NN	O	I-Process
@@ -61867,6 +64183,7 @@ of	NN	O	I-Task
 scholarly	NN	O	I-Task
 journals	NN	O	I-Task
 .	NN	O	O
+
 Journal	NN	O	B-Process
 Influence	NN	O	I-Process
 Score	NN	O	I-Process
@@ -61881,6 +64198,7 @@ a	NN	O	I-Process
 weighted	NN	O	I-Process
 manner	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 Score	NN	O	O
 is	NN	O	O
@@ -61892,6 +64210,7 @@ SCImago	NN	O	I-Task
 Journal	NN	O	I-Task
 Score	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 show	NN	O	O
@@ -61925,6 +64244,7 @@ of	NN	O	I-Task
 journals	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001440)
 
 In	NN	O	O
@@ -61934,17 +64254,18 @@ paper	NN	O	O
 we	NN	O	O
 present	NN	O	O
 a	NN	O	O
-tele	NN	O	B-Process
--	NN	O	I-Process
-operated	NN	O	I-Process
-mobile	NN	O	I-Process
-robot	NN	O	I-Process
-system	NN	O	I-Process
+tele	NN	O	B-Material
+-	NN	O	I-Material
+operated	NN	O	I-Material
+mobile	NN	O	I-Material
+robot	NN	O	I-Material
+system	NN	O	I-Material
 for	NN	O	O
 old	NN	O	B-Task
 age	NN	O	I-Task
 surveillance	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 robot	NN	O	O
 operates	NN	O	O
@@ -61968,6 +64289,7 @@ of	NN	O	O
 elderly	NN	O	B-Material
 people	NN	O	I-Material
 .	NN	O	O
+
 If	NN	O	O
 a	NN	O	O
 patient	NN	O	B-Material
@@ -61983,6 +64305,7 @@ informs	NN	O	B-Process
 the	NN	O	I-Process
 user	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 user	NN	O	O
 switches	NN	O	B-Process
@@ -61997,6 +64320,7 @@ based	NN	O	I-Process
 user	NN	O	O
 control	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 autonomous	NN	O	B-Process
@@ -62016,6 +64340,7 @@ the	NN	O	O
 entire	NN	O	O
 environment	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 robot	NN	O	B-Material
 is	NN	O	O
@@ -62037,6 +64362,7 @@ in	NN	O	O
 remote	NN	O	B-Material
 place	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -62053,6 +64379,7 @@ patient	NN	O	B-Material
 's	NN	O	I-Material
 condition	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 preliminary	NN	O	O
 surveillance	NN	O	O
@@ -62063,6 +64390,7 @@ good	NN	O	O
 performance	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001464)
 
 Recently	NN	O	O
@@ -62083,6 +64411,7 @@ generation	NN	O	I-Task
 network	NN	O	I-Task
 technologies	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -62117,6 +64446,7 @@ shortest	NN	O	B-Process
 path	NN	O	I-Process
 betweenness	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 our	NN	O	O
 proposed	NN	O	B-Process
@@ -62142,6 +64472,7 @@ constructed	NN	O	I-Process
 virtual	NN	O	I-Process
 network	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 case	NN	O	O
@@ -62164,6 +64495,7 @@ shortest	NN	O	B-Process
 path	NN	O	I-Process
 betweenness	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 evaluate	NN	O	O
 the	NN	O	O
@@ -62186,6 +64518,7 @@ proposed	NN	O	O
 method	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001476)
 
 Security	NN	O	O
@@ -62215,6 +64548,7 @@ cloud	NN	O	B-Task
 computing	NN	O	I-Task
 security	NN	O	I-Task
 .	NN	O	O
+
 Although	NN	O	O
 Cloud	NN	O	B-Task
 Computing	NN	O	I-Task
@@ -62287,6 +64621,7 @@ Clouds	NN	O	I-Process
 or	NN	O	O
 Interclouds	NN	O	B-Process
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 will	NN	O	O
@@ -62335,6 +64670,7 @@ of	NN	O	O
 data	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212667814001488)
 
 This	NN	O	O
@@ -62351,6 +64687,7 @@ snippet	NN	O	I-Task
 detection	NN	O	I-Task
 problem	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 propose	NN	O	O
 the	NN	O	O
@@ -62363,6 +64700,7 @@ subgraph	NN	O	I-Process
 isomorphism	NN	O	I-Process
 detection	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 number	NN	O	O
 of	NN	O	O
@@ -62379,6 +64717,7 @@ in	NN	O	O
 the	NN	O	O
 literature	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 although	NN	O	O
@@ -62398,6 +64737,7 @@ constant	NN	O	I-Process
 static	NN	O	I-Process
 trees	NN	O	I-Process
 .	NN	O	O
+
 Our	NN	O	O
 solution	NN	O	O
 offers	NN	O	O
@@ -62417,6 +64757,7 @@ an	NN	O	I-Process
 acceptable	NN	O	I-Process
 speed	NN	O	I-Process
 .	NN	O	O
+
 We	NN	O	O
 used	NN	O	O
 several	NN	O	B-Process
@@ -62434,6 +64775,7 @@ matching	NN	O	B-Process
 algorithm	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S221266781400149X)
 
 In	NN	O	O
@@ -62480,6 +64822,7 @@ discussed	NN	O	B-Task
 and	NN	O	I-Task
 analyzed	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 beamforming	NN	O	B-Process
 performance	NN	O	I-Process
@@ -62501,6 +64844,7 @@ for	NN	O	O
 each	NN	O	O
 algorithm	NN	O	B-Material
 .	NN	O	O
+
 These	NN	O	O
 four	NN	O	O
 algorithms	NN	O	B-Material
@@ -62530,6 +64874,7 @@ level	NN	O	I-Process
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612000121)
 
 In	NN	O	O
@@ -62551,6 +64896,7 @@ evolution	NN	O	I-Task
 are	NN	O	O
 shown	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 expected	NN	O	O
 ,	NN	O	O
@@ -62572,6 +64918,7 @@ classical	NN	O	B-Process
 search	NN	O	I-Process
 algorithm	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 implies	NN	O	O
 that	NN	O	O
@@ -62604,6 +64951,7 @@ corresponding	NN	O	O
 literature	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612000613)
 
 Video	NN	O	B-Process
@@ -62620,6 +64968,7 @@ movement	NN	O	I-Process
 measurement	NN	O	I-Process
 methods	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 key	NN	O	O
 problem	NN	O	O
@@ -62633,6 +64982,7 @@ the	NN	O	I-Task
 pupil	NN	O	I-Task
 center	NN	O	I-Task
 .	NN	O	O
+
 Then	NN	O	O
 a	NN	O	O
 pupil	NN	O	B-Process
@@ -62660,6 +65010,7 @@ our	NN	O	O
 latest	NN	O	O
 work	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 a	NN	O	O
@@ -62679,6 +65030,7 @@ pupil	NN	O	I-Task
 location	NN	O	I-Task
 method	NN	O	I-Task
 .	NN	O	O
+
 Experimental	NN	O	O
 results	NN	O	O
 showed	NN	O	O
@@ -62699,6 +65051,7 @@ with	NN	O	O
 stimulation	NN	O	B-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612000637)
 
 The	NN	O	O
@@ -62723,6 +65076,7 @@ amplitude	NN	O	B-Process
 frequency	NN	O	I-Process
 relationship	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 nice	NN	O	O
 reliability	NN	O	O
@@ -62738,6 +65092,7 @@ from	NN	O	O
 open	NN	O	B-Material
 literature	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 simplicity	NN	O	O
 and	NN	O	O
@@ -62771,6 +65126,7 @@ harmonic	NN	O	I-Process
 oscillator	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612000686)
 
 This	NN	O	O
@@ -62864,6 +65220,7 @@ status	NN	O	O
 in	NN	O	O
 2011	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 predicted	NN	O	O
 results	NN	O	O
@@ -62902,6 +65259,7 @@ fourth	NN	O	O
 quarter	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612000698)
 
 In	NN	O	O
@@ -62916,6 +65274,7 @@ mapping	NN	O	I-Process
 and	NN	O	I-Process
 homography	NN	O	I-Process
 .	NN	O	O
+
 Obstacle	NN	O	B-Task
 classification	NN	O	I-Task
 is	NN	O	O
@@ -62925,6 +65284,7 @@ fuzzy	NN	O	B-Process
 neural	NN	O	I-Process
 network	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 estimation	NN	O	B-Task
 of	NN	O	I-Task
@@ -62937,6 +65297,7 @@ feature	NN	O	B-Process
 extraction	NN	O	I-Process
 strategy	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 method	NN	O	O
 exploits	NN	O	O
@@ -62956,6 +65317,7 @@ can	NN	O	O
 be	NN	O	O
 detected	NN	O	B-Process
 .	NN	O	O
+
 The	NN	O	O
 estimated	NN	O	B-Process
 homography	NN	O	I-Process
@@ -62972,6 +65334,7 @@ for	NN	O	O
 image	NN	O	B-Task
 alignment	NN	O	I-Task
 .	NN	O	O
+
 A	NN	O	O
 new	NN	O	O
 fuzzy	NN	O	B-Process
@@ -63005,6 +65368,7 @@ get	NN	O	O
 better	NN	O	O
 classification	NN	O	B-Process
 probability	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 shown	NN	O	O
@@ -63018,6 +65382,7 @@ classification	NN	O	B-Process
 result	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612000704)
 
 The	NN	O	O
@@ -63039,6 +65404,7 @@ of	NN	O	O
 light	NN	O	B-Process
 load	NN	O	I-Process
 .	NN	O	O
+
 Reducing	NN	O	B-Process
 a	NN	O	I-Process
 certain	NN	O	I-Process
@@ -63060,6 +65426,7 @@ in	NN	O	O
 light	NN	O	B-Process
 load	NN	O	I-Process
 .We	NN	O	O
+
 can	NN	O	O
 change	NN	O	B-Process
 the	NN	O	I-Process
@@ -63071,6 +65438,7 @@ thyristor	NN	O	I-Process
 trigger	NN	O	I-Process
 angle	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 complex	NN	O	O
@@ -63088,6 +65456,7 @@ the	NN	O	I-Process
 load	NN	O	I-Process
 overall	NN	O	I-Process
 .	NN	O	O
+
 So	NN	O	O
 we	NN	O	O
 can	NN	O	O
@@ -63113,6 +65482,7 @@ a	NN	O	O
 constant	NN	O	B-Process
 load	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 most	NN	O	O
 optimal	NN	O	B-Process
@@ -63128,6 +65498,7 @@ by	NN	O	I-Task
 genetic	NN	O	I-Task
 algorithm	NN	O	I-Task
 .	NN	O	O
+
 When	NN	O	O
 each	NN	O	O
 load	NN	O	O
@@ -63148,6 +65519,7 @@ voltage	NN	O	I-Process
 changeable	NN	O	I-Process
 rule	NN	O	I-Process
 .	NN	O	I-Process
+
 Then	NN	O	O
 it	NN	O	O
 produces	NN	O	O
@@ -63158,6 +65530,7 @@ energy	NN	O	B-Task
 saving	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612000716)
 
 Based	NN	O	O
@@ -63198,6 +65571,7 @@ space	NN	O	I-Task
 is	NN	O	I-Task
 proposed	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 basic	NN	O	O
 idea	NN	O	O
@@ -63214,6 +65588,7 @@ an	NN	O	O
 open	NN	O	B-Material
 shape	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 computation	NN	O	B-Process
 related	NN	O	O
@@ -63251,6 +65626,7 @@ closed	NN	O	O
 geometry	NN	O	B-Material
 objects	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 algorithms	NN	O	B-Process
 of	NN	O	I-Process
@@ -63281,6 +65657,7 @@ is	NN	O	O
 performed	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612001163)
 
 The	NN	O	O
@@ -63296,6 +65673,7 @@ components	NN	O	I-Task
 reliability	NN	O	I-Task
 parameters	NN	O	I-Task
 .	NN	O	O
+
 Knowledge	NN	O	O
 of	NN	O	O
 the	NN	O	O
@@ -63320,6 +65698,7 @@ centered	NN	O	I-Process
 maintenance	NN	O	I-Process
 system	NN	O	I-Process
 .	NN	O	O
+
 Component	NN	O	B-Process
 reliability	NN	O	I-Process
 parameters	NN	O	I-Process
@@ -63335,6 +65714,7 @@ of	NN	O	I-Material
 distribution	NN	O	I-Material
 companies	NN	O	I-Material
 .	NN	O	O
+
 Such	NN	O	O
 a	NN	O	O
 database	NN	O	B-Material
@@ -63348,6 +65728,7 @@ in	NN	O	O
 power	NN	O	B-Material
 networks	NN	O	I-Material
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 impossible	NN	O	O
@@ -63366,6 +65747,7 @@ because	NN	O	O
 of	NN	O	O
 heterogeneity	NN	O	B-Process
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -63378,6 +65760,7 @@ of	NN	O	I-Task
 databases	NN	O	I-Task
 calculations	NN	O	I-Task
 .	NN	O	O
+
 We	NN	O	O
 apply	NN	O	O
 this	NN	O	O
@@ -63397,6 +65780,7 @@ and	NN	O	O
 Slovak	NN	O	O
 republics	NN	O	O
 .	NN	O	O
+
 There	NN	O	O
 are	NN	O	O
 also	NN	O	O
@@ -63404,6 +65788,7 @@ actual	NN	O	O
 results	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612001291)
 
 In	NN	O	O
@@ -63438,6 +65823,7 @@ die	NN	O	I-Process
 casting	NN	O	I-Process
 process	NN	O	I-Process
 .	NN	O	O
+
 Given	NN	O	O
 that	NN	O	O
 ,	NN	O	O
@@ -63465,6 +65851,7 @@ and	NN	O	O
 their	NN	O	O
 elements	NN	O	O
 .	NN	O	O
+
 Subsequently	NN	O	O
 the	NN	O	O
 paper	NN	O	O
@@ -63482,6 +65869,7 @@ of	NN	O	I-Task
 holding	NN	O	I-Task
 furnace	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 application	NN	O	O
 was	NN	O	O
@@ -63500,6 +65888,7 @@ machine	NN	O	I-Material
 CLH	NN	O	B-Material
 400.1	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 chemical	NN	O	B-Process
 analysis	NN	O	I-Process
@@ -63511,6 +65900,7 @@ SPECTROLAB	NN	O	B-Material
 JR.CCD	NN	O	I-Material
 2000	NN	O	I-Material
 .	NN	O	O
+
 Finally	NN	O	O
 the	NN	O	O
 last	NN	O	O
@@ -63533,6 +65923,7 @@ in	NN	O	I-Task
 practice	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612001497)
 
 Our	NN	O	O
@@ -63563,6 +65954,7 @@ unified	NN	O	B-Process
 management	NN	O	I-Process
 platform	NN	O	I-Process
 .	NN	O	O
+
 After	NN	O	O
 the	NN	O	O
 galloping	NN	O	B-Process
@@ -63603,6 +65995,7 @@ consuming	NN	O	O
 and	NN	O	O
 inefficient	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 State	NN	O	O
 Grid	NN	O	O
@@ -63625,6 +66018,7 @@ easy	NN	O	O
 to	NN	O	O
 use	NN	O	O
 .	NN	O	O
+
 With	NN	O	O
 the	NN	O	O
 help	NN	O	O
@@ -63647,6 +66041,7 @@ the	NN	O	I-Process
 galloping	NN	O	I-Process
 data	NN	O	I-Process
 .	NN	O	O
+
 To	NN	O	O
 build	NN	O	O
 and	NN	O	O
@@ -63670,6 +66065,7 @@ research	NN	O	I-Process
 work	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612001618)
 
 This	NN	O	O
@@ -63689,6 +66085,7 @@ quadratic	NN	O	I-Process
 performance	NN	O	I-Process
 optimization	NN	O	I-Process
 .	NN	O	O
+
 For	NN	O	O
 the	NN	O	O
 additive	NN	O	B-Process
@@ -63733,6 +66130,7 @@ state	NN	O	I-Process
 feedback	NN	O	I-Process
 controllers	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 flight	NN	O	B-Process
 control	NN	O	I-Process
@@ -63748,6 +66146,7 @@ the	NN	O	O
 method	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S221267161200162X)
 
 A	NN	O	O
@@ -63771,6 +66170,7 @@ reactor	NN	O	I-Material
 CSTR	NN	O	B-Material
 )	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -63806,6 +66206,7 @@ of	NN	O	O
 optimal	NN	O	B-Process
 control	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 designed	NN	O	O
 nonlinear	NN	O	B-Process
@@ -63851,6 +66252,7 @@ linear	NN	O	B-Process
 predictive	NN	O	I-Process
 control	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 application	NN	O	O
 results	NN	O	O
@@ -63872,6 +66274,7 @@ PID	NN	O	B-Material
 controller	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612001692)
 
 The	NN	O	O
@@ -63886,6 +66289,7 @@ design	NN	O	O
 and	NN	O	O
 control	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 efficiency	NN	O	B-Task
 of	NN	O	I-Task
@@ -63901,6 +66305,7 @@ in	NN	O	O
 recent	NN	O	O
 years	NN	O	O
 .	NN	O	O
+
 Screws	NN	O	B-Material
 are	NN	O	O
 used	NN	O	O
@@ -63926,6 +66331,7 @@ given	NN	O	O
 on	NN	O	O
 this	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 can	NN	O	O
 be	NN	O	O
@@ -63942,6 +66348,7 @@ spatial	NN	O	I-Process
 robot	NN	O	I-Process
 systems	NN	O	I-Process
 .	NN	O	O
+
 And	NN	O	O
 three	NN	O	O
 classic	NN	O	O
@@ -63956,6 +66363,7 @@ easy	NN	O	O
 of	NN	O	O
 use	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 show	NN	O	O
@@ -63972,6 +66380,7 @@ efficient	NN	O	I-Process
 dynamics	NN	O	I-Process
 modelling	NN	O	I-Process
 .	NN	O	I-Process
+
 The	NN	O	O
 dynamical	NN	O	B-Process
 expressions	NN	O	I-Process
@@ -63983,6 +66392,7 @@ concise	NN	O	O
 and	NN	O	O
 clear	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 's	NN	O	O
 efficiency	NN	O	O
@@ -64000,6 +66410,7 @@ degree	NN	O	I-Process
 of	NN	O	I-Process
 freedom	NN	O	I-Process
 .	NN	O	O
+
 With	NN	O	O
 the	NN	O	O
 improvement	NN	O	B-Task
@@ -64020,6 +66431,7 @@ become	NN	O	O
 possible	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612001709)
 
 An	NN	O	O
@@ -64039,6 +66451,7 @@ surfaces	NN	O	I-Task
 is	NN	O	O
 proposed	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 algorithm	NN	O	B-Process
 includes	NN	O	O
@@ -64052,6 +66465,7 @@ tool	NN	O	B-Process
 path	NN	O	I-Process
 generation	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 section	NN	O	O
@@ -64086,6 +66500,7 @@ cutter	NN	O	I-Process
 location	NN	O	I-Process
 surface	NN	O	I-Process
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 procedure	NN	O	O
@@ -64105,6 +66520,7 @@ the	NN	O	O
 CL	NN	O	B-Material
 points	NN	O	I-Material
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -64115,6 +66531,7 @@ method	NN	O	I-Process
 is	NN	O	O
 used	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 method	NN	O	O
 is	NN	O	O
@@ -64126,6 +66543,7 @@ with	NN	O	I-Task
 actual	NN	O	I-Task
 machining	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 results	NN	O	O
 show	NN	O	O
@@ -64152,6 +66570,7 @@ shape	NN	O	O
 and	NN	O	O
 quality	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -64165,6 +66584,7 @@ and	NN	O	O
 robust	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S221267161200176X)
 
 Modeling	NN	O	B-Task
@@ -64190,6 +66610,7 @@ of	NN	O	I-Process
 dimensionality	NN	O	I-Process
 ”	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 paper	NN	O	O
 proposes	NN	O	O
@@ -64226,6 +66647,7 @@ conquer	NN	O	B-Task
 this	NN	O	I-Task
 dilemma	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 proposed	NN	O	O
 model	NN	O	O
@@ -64249,6 +66671,7 @@ expensive	NN	O	O
 for	NN	O	O
 computation	NN	O	B-Process
 .	NN	O	O
+
 Taking	NN	O	O
 advantage	NN	O	O
 of	NN	O	O
@@ -64277,6 +66700,7 @@ samples	NN	O	O
 by	NN	O	O
 SVR	NN	O	B-Process
 .	NN	O	O
+
 Numerical	NN	O	O
 examples	NN	O	O
 of	NN	O	O
@@ -64298,6 +66722,7 @@ SVR	NN	O	B-Process
 HDMR	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612001783)
 
 Metal	NN	O	B-Material
@@ -64322,6 +66747,7 @@ of	NN	O	O
 various	NN	O	O
 thicknesses	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 intermetallic	NN	O	B-Process
 phase	NN	O	I-Process
@@ -64352,6 +66778,7 @@ strength	NN	O	O
 and	NN	O	O
 ductility	NN	O	O
 .	NN	O	O
+
 Some	NN	O	O
 results	NN	O	O
 of	NN	O	O
@@ -64376,6 +66803,7 @@ Ti	NN	O	I-Task
 Al	NN	O	I-Task
 system	NN	O	I-Task
 .	NN	O	O
+
 Static	NN	O	B-Task
 and	NN	O	I-Task
 dynamic	NN	O	I-Task
@@ -64409,6 +66837,7 @@ was	NN	O	O
 completed	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612002120)
 
 A	NN	O	O
@@ -64427,6 +66856,7 @@ in	NN	O	O
 this	NN	O	O
 paper	NN	O	O
 .	NN	O	O
+
 Firstly	NN	O	O
 the	NN	O	O
 component	NN	O	O
@@ -64438,6 +66868,7 @@ platform	NN	O	B-Process
 are	NN	O	O
 analyzed	NN	O	O
 .	NN	O	O
+
 Then	NN	O	O
 Visio	NN	O	B-Process
 second	NN	O	I-Process
@@ -64452,6 +66883,7 @@ virtual	NN	O	I-Task
 network	NN	O	I-Task
 topology	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 parsing	NN	O	B-Task
 of	NN	O	I-Task
@@ -64469,6 +66901,7 @@ sheet	NN	O	I-Material
 is	NN	O	O
 described	NN	O	O
 .	NN	O	O
+
 Lastly	NN	O	O
 an	NN	O	O
 example	NN	O	O
@@ -64482,6 +66915,7 @@ of	NN	O	I-Task
 the	NN	O	I-Task
 platform	NN	O	I-Task
 .	NN	O	O
+
 Simulation	NN	O	O
 results	NN	O	O
 show	NN	O	O
@@ -64493,6 +66927,7 @@ proposed	NN	O	O
 method	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S221267161200217X)
 
 The	NN	O	O
@@ -64510,6 +66945,7 @@ solve	NN	O	O
 with	NN	O	O
 computer	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -64530,6 +66966,7 @@ on	NN	O	I-Task
 GO	NN	O	I-Task
 methodology	NN	O	I-Task
 .	NN	O	O
+
 According	NN	O	O
 to	NN	O	O
 some	NN	O	O
@@ -64568,6 +67005,7 @@ to	NN	O	O
 last	NN	O	O
 one	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 very	NN	O	O
@@ -64589,6 +67027,7 @@ minimal	NN	O	B-Process
 path	NN	O	I-Process
 sets	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 case	NN	O	O
 study	NN	O	O
@@ -64617,6 +67056,7 @@ methodology	NN	O	I-Process
 models	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612002181)
 
 The	NN	O	O
@@ -64634,6 +67074,7 @@ generalization	NN	O	B-Task
 of	NN	O	I-Task
 ELM	NN	O	I-Task
 .	NN	O	O
+
 Generally	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -64657,6 +67098,7 @@ and	NN	O	I-Process
 -	NN	O	I-Process
 error	NN	O	I-Process
 .	NN	O	O
+
 A	NN	O	O
 novel	NN	O	B-Task
 algorithm	NN	O	I-Task
@@ -64687,6 +67129,7 @@ risk	NN	O	I-Process
 minimization	NN	O	I-Process
 principle	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 simulation	NN	O	O
 results	NN	O	O
@@ -64716,6 +67159,7 @@ accuracy	NN	O	B-Process
 comparisons	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S221267161200220X)
 
 For	NN	O	O
@@ -64786,6 +67230,7 @@ next	NN	O	O
 several	NN	O	O
 years	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 model	NN	O	O
 eliminates	NN	O	O
@@ -64822,6 +67267,7 @@ GARCH	NN	O	I-Process
 M	NN	O	I-Process
 model	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 simulation	NN	O	O
 results	NN	O	O
@@ -64841,6 +67287,7 @@ trends	NN	O	O
 well	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612002302)
 
 Monitoring	NN	O	B-Task
@@ -64870,6 +67317,7 @@ rail	NN	O	I-Material
 transport	NN	O	I-Material
 system	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 purpose	NN	O	O
 of	NN	O	O
@@ -64900,6 +67348,7 @@ image	NN	O	B-Process
 processing	NN	O	I-Process
 technique	NN	O	I-Process
 .	NN	O	O
+
 This	NN	O	O
 methodological	NN	O	O
 approach	NN	O	O
@@ -64949,6 +67398,7 @@ extrados	NN	O	O
 wear	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612002338)
 
 Robust	NN	O	B-Task
@@ -64980,6 +67430,7 @@ tracking	NN	O	I-Task
 and	NN	O	I-Task
 recognizing	NN	O	I-Task
 .	NN	O	O
+
 The	NN	O	O
 Otsu	NN	O	B-Process
 scheme	NN	O	I-Process
@@ -65010,6 +67461,7 @@ gray	NN	O	B-Material
 level	NN	O	I-Material
 histogram	NN	O	I-Material
 .	NN	O	I-Material
+
 However	NN	O	O
 ,	NN	O	O
 it	NN	O	O
@@ -65028,6 +67480,7 @@ non	NN	O	O
 -	NN	O	O
 bimodal	NN	O	O
 .	NN	O	O
+
 For	NN	O	O
 enhancing	NN	O	B-Task
 the	NN	O	I-Task
@@ -65054,6 +67507,7 @@ algorithm	NN	O	I-Process
 is	NN	O	O
 presented	NN	O	O
 .	NN	O	O
+
 Finally	NN	O	O
 extensive	NN	O	B-Task
 tests	NN	O	I-Task
@@ -65078,6 +67532,7 @@ thresholding	NN	O	I-Process
 algorithm	NN	O	I-Process
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612002351)
 
 In	NN	O	O
@@ -65100,6 +67555,7 @@ lens	NN	O	I-Material
 stereovision	NN	O	I-Material
 system	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 prism	NN	O	B-Material
 with	NN	O	O
@@ -65118,6 +67574,7 @@ some	NN	O	O
 refractive	NN	O	B-Material
 planes	NN	O	I-Material
 .	NN	O	O
+
 A	NN	O	O
 transformation	NN	O	B-Material
 matrix	NN	O	I-Material
@@ -65166,6 +67623,7 @@ by	NN	O	O
 7	NN	O	O
 parameters	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 model	NN	O	O
 can	NN	O	O
@@ -65186,6 +67644,7 @@ more	NN	O	O
 widely	NN	O	O
 area	NN	O	O
 .	NN	O	O
+
 Experimentation	NN	O	O
 results	NN	O	O
 are	NN	O	O
@@ -65202,6 +67661,7 @@ proposed	NN	O	O
 model	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2212671612002375)
 
 Power	NN	O	B-Process
@@ -65214,6 +67674,7 @@ a	NN	O	O
 complex	NN	O	O
 system	NN	O	B-Process
 .	NN	O	O
+
 To	NN	O	O
 solve	NN	O	O
 knowledge	NN	O	B-Task
@@ -65240,6 +67701,7 @@ using	NN	O	O
 ontology	NN	O	B-Process
 Technology	NN	O	I-Process
 .	NN	O	O
+
 With	NN	O	O
 ontology	NN	O	B-Material
 -	NN	O	I-Material
@@ -65257,6 +67719,7 @@ of	NN	O	I-Task
 procedure	NN	O	I-Task
 vocabularies	NN	O	I-Task
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 paper	NN	O	O
@@ -65273,6 +67736,7 @@ such	NN	O	O
 as	NN	O	O
 Jena	NN	O	B-Material
 .	NN	O	O
+
 The	NN	O	O
 reasoner	NN	O	B-Process
 mechanism	NN	O	I-Process
@@ -65287,6 +67751,7 @@ included	NN	O	O
 and	NN	O	O
 explained	NN	O	O
 .	NN	O	O
+
 At	NN	O	O
 last	NN	O	O
 we	NN	O	O
@@ -65303,6 +67768,7 @@ and	NN	O	I-Task
 reasoning	NN	O	I-Task
 .	NN	O	O
 
+
 -DOCSTART- (S221450951400031X)
 
 This	NN	O	O
@@ -65312,6 +67778,7 @@ completed	NN	O	O
 in	NN	O	O
 2005	NN	O	O
 .	NN	O	O
+
 Previous	NN	O	O
 contracts	NN	O	O
 had	NN	O	O
@@ -65325,6 +67792,7 @@ the	NN	O	O
 detailed	NN	O	B-Material
 design	NN	O	I-Material
 .	NN	O	O
+
 For	NN	O	O
 this	NN	O	O
 system	NN	O	O
@@ -65336,6 +67804,7 @@ by	NN	O	O
 Mott	NN	O	O
 MacDonald	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 was	NN	O	O
 developed	NN	O	O
@@ -65360,6 +67829,7 @@ of	NN	O	I-Task
 the	NN	O	I-Task
 piers	NN	O	I-Task
 .	NN	O	O
+
 This	NN	O	O
 resulted	NN	O	O
 in	NN	O	O
@@ -65375,6 +67845,7 @@ and	NN	O	I-Process
 monitoring	NN	O	I-Process
 probes	NN	O	I-Process
 .	NN	O	O
+
 The	NN	O	O
 varying	NN	O	B-Process
 amounts	NN	O	I-Process
@@ -65406,6 +67877,7 @@ design	NN	O	O
 current	NN	O	O
 density	NN	O	O
 .	NN	O	O
+
 On	NN	O	O
 review	NN	O	O
 of	NN	O	O
@@ -65432,6 +67904,7 @@ zone	NN	O	O
 per	NN	O	O
 beam	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 encapsulation	NN	O	B-Process
 was	NN	O	O
@@ -65442,6 +67915,7 @@ and	NN	O	O
 contained	NN	O	O
 post	NN	O	O
 tensioning	NN	O	O
+
 and	NN	O	O
 so	NN	O	O
 it	NN	O	O
@@ -65460,6 +67934,7 @@ anodes	NN	O	I-Material
 from	NN	O	O
 Fosroc	NN	O	O
 .	NN	O	O
+
 Our	NN	O	O
 design	NN	O	O
 did	NN	O	O
@@ -65490,6 +67965,7 @@ be	NN	O	O
 remotely	NN	O	O
 disconnected	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 control	NN	O	O
 unit	NN	O	O
@@ -65509,6 +67985,7 @@ the	NN	O	O
 contractor	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S221450951530005X)
 
 An	NN	O	O
@@ -65540,6 +68017,7 @@ existing	NN	O	B-Material
 sound	NN	O	I-Material
 walls	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 wall	NN	O	B-Material
 system	NN	O	I-Material
@@ -65588,9 +68066,11 @@ surfaces	NN	O	I-Material
 (	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 1	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Poly	NN	O	B-Material
 -	NN	O	I-Material
 blocks	NN	O	I-Material
@@ -65616,6 +68096,7 @@ the	NN	O	O
 LPF	NN	O	B-Material
 cores	NN	O	I-Material
 .	NN	O	O
+
 The	NN	O	O
 poly	NN	O	B-Material
 -	NN	O	I-Material
@@ -65632,6 +68113,7 @@ with	NN	O	O
 cm	NN	O	O
 diameter	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 made	NN	O	O
@@ -65647,6 +68129,7 @@ approximately	NN	O	O
 1	NN	O	O
 kg	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 poly	NN	O	B-Material
 -	NN	O	I-Material
@@ -65679,6 +68162,7 @@ of	NN	O	O
 reflective	NN	O	O
 noise	NN	O	O
 .	NN	O	O
+
 Polyurea	NN	O	B-Material
 coating	NN	O	I-Material
 is	NN	O	O
@@ -65703,6 +68187,7 @@ sets	NN	O	O
 within	NN	O	O
 2–3min	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 layer	NN	O	B-Material
 also	NN	O	O
@@ -65727,6 +68212,7 @@ chemicals	NN	O	B-Material
 and	NN	O	O
 penetration	NN	O	B-Process
 .	NN	O	O
+
 LPF	NN	O	B-Material
 is	NN	O	O
 an	NN	O	O
@@ -65747,6 +68233,7 @@ cures	NN	O	B-Material
 within	NN	O	O
 10min	NN	O	O
 .	NN	O	O
+
 Steel	NN	O	B-Material
 rebars	NN	O	I-Material
 are	NN	O	O
@@ -65769,6 +68256,7 @@ its	NN	O	O
 base	NN	O	B-Material
 .	NN	O	O
 
+
 -DOCSTART- (S2214509515300103)
 
 Another	NN	O	O
@@ -65786,6 +68274,7 @@ is	NN	O	O
 workmanship	NN	O	B-Process
 defects	NN	O	I-Process
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 understood	NN	O	O
@@ -65812,6 +68301,7 @@ was	NN	O	O
 not	NN	O	O
 sieved	NN	O	O
 .	NN	O	O
+
 Also	NN	O	O
 the	NN	O	O
 compaction	NN	O	B-Process
@@ -65831,6 +68321,7 @@ in	NN	O	O
 RC	NN	O	O
 buildings	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 situation	NN	O	O
 resulted	NN	O	O
@@ -65844,6 +68335,7 @@ excessively	NN	O	O
 porous	NN	O	O
 structure	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 most	NN	O	O
 fundamental	NN	O	O
@@ -65866,6 +68358,7 @@ in	NN	O	O
 formwork	NN	O	O
 workmanship	NN	O	O
 .	NN	O	O
+
 Faults	NN	O	B-Process
 in	NN	O	I-Process
 the	NN	O	I-Process
@@ -65921,10 +68414,12 @@ defects	NN	O	I-Process
 (	NN	O	O
 Figs	NN	O	O
 .	NN	O	O
+
 19–22	NN	O	O
 )	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2214657115000052)
 
 The	NN	O	O
@@ -65955,6 +68450,7 @@ studies	NN	O	O
 1–3	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 AC	NN	O	B-Process
 pavement	NN	O	I-Process
@@ -65982,6 +68478,7 @@ the	NN	O	O
 remaining	NN	O	O
 components	NN	O	O
 .	NN	O	O
+
 However	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -66025,6 +68522,7 @@ etc	NN	O	O
 .	NN	O	O
 )	NN	O	O
 .	NN	O	O
+
 Long	NN	O	B-Process
 term	NN	O	I-Process
 studies	NN	O	I-Process
@@ -66043,6 +68541,7 @@ relationship	NN	O	I-Task
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 exponential	NN	O	O
 fits	NN	O	O
@@ -66076,8 +68575,10 @@ shown	NN	O	O
 in	NN	O	O
 Fig	NN	O	O
 .	NN	O	O
+
 4	NN	O	O
 .	NN	O	O
+
 Only	NN	O	O
 4	NN	O	O
 cores	NN	O	O
@@ -66100,6 +68601,7 @@ in	NN	O	O
 service	NN	O	O
 pavement	NN	O	O
 .	NN	O	O
+
 More	NN	O	O
 cores	NN	O	O
 are	NN	O	O
@@ -66132,6 +68634,7 @@ case	NN	O	O
 -	NN	O	O
 study	NN	O	O
 .	NN	O	O
+
 Since	NN	O	O
 both	NN	O	O
 regressions	NN	O	B-Process
@@ -66175,6 +68678,7 @@ are	NN	O	O
 appropriate	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2214657115000155)
 
 MicroCT	NN	O	B-Process
@@ -66188,6 +68692,7 @@ in	NN	O	O
 various	NN	O	O
 forms	NN	O	O
 .	NN	O	O
+
 Some	NN	O	O
 preliminary	NN	O	B-Material
 results	NN	O	I-Material
@@ -66208,6 +68713,7 @@ in	NN	O	O
 6	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 another	NN	O	O
 study	NN	O	O
@@ -66227,6 +68733,7 @@ investigated	NN	O	O
 7	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 this	NN	O	O
 work	NN	O	O
@@ -66262,6 +68769,7 @@ and	NN	O	I-Process
 overlap	NN	O	I-Process
 pattern	NN	O	I-Process
 .	NN	O	I-Process
+
 This	NN	O	O
 was	NN	O	O
 followed	NN	O	O
@@ -66294,6 +68802,7 @@ porosity	NN	O	O
 8	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 another	NN	O	O
 study	NN	O	O
@@ -66316,6 +68825,7 @@ porosity	NN	O	O
 9,10	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Very	NN	O	O
 recent	NN	O	O
 work	NN	O	O
@@ -66338,6 +68848,7 @@ direction	NN	O	O
 11	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Other	NN	O	O
 applications	NN	O	O
 of	NN	O	O
@@ -66375,6 +68886,7 @@ parts	NN	O	O
 13	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 the	NN	O	O
 present	NN	O	O
@@ -66416,6 +68928,7 @@ other	NN	O	O
 reported	NN	O	O
 examples	NN	O	O
 .	NN	O	O
+
 We	NN	O	O
 also	NN	O	O
 demonstrate	NN	O	O
@@ -66438,6 +68951,7 @@ same	NN	O	O
 sample	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2214657115000179)
 
 Aeroengine	NN	O	B-Task
@@ -66457,6 +68971,7 @@ Nickel	NN	O	I-Material
 based	NN	O	I-Material
 alloys	NN	O	I-Material
 .	NN	O	O
+
 Sometimes	NN	O	O
 ,	NN	O	O
 parasitic	NN	O	B-Material
@@ -66476,6 +68991,7 @@ the	NN	O	I-Task
 mechanical	NN	O	I-Task
 stability	NN	O	I-Task
 .	NN	O	O
+
 For	NN	O	O
 this	NN	O	O
 reason	NN	O	O
@@ -66496,6 +69012,7 @@ to	NN	O	O
 ferromagnetic	NN	O	B-Process
 inclusions	NN	O	I-Process
 .	NN	O	O
+
 These	NN	O	O
 inclusions	NN	O	O
 generate	NN	O	O
@@ -66520,6 +69037,7 @@ method	NN	O	I-Process
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 detection	NN	O	B-Process
 principle	NN	O	I-Process
@@ -66538,6 +69056,7 @@ on	NN	O	O
 their	NN	O	O
 remanence	NN	O	O
 .	NN	O	O
+
 Before	NN	O	O
 such	NN	O	O
 a	NN	O	O
@@ -66557,6 +69076,7 @@ in	NN	O	O
 axial	NN	O	O
 direction	NN	O	O
 .	NN	O	O
+
 As	NN	O	O
 ferromagnetic	NN	O	O
 materials	NN	O	O
@@ -66586,6 +69106,7 @@ material	NN	O	O
 into	NN	O	O
 saturation	NN	O	O
 .	NN	O	O
+
 When	NN	O	O
 removing	NN	O	B-Process
 the	NN	O	I-Process
@@ -66597,6 +69118,7 @@ remanence	NN	O	O
 is	NN	O	O
 left	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 remaining	NN	O	B-Process
 flux	NN	O	I-Process
@@ -66613,6 +69135,7 @@ magnetic	NN	O	O
 materials	NN	O	O
 .	NN	O	O
 
+
 -DOCSTART- (S2352179114200032)
 
 Although	NN	O	O
@@ -66641,6 +69164,7 @@ limited	NN	O	O
 to	NN	O	O
 them	NN	O	O
 .	NN	O	O
+
 Moreover	NN	O	O
 ,	NN	O	O
 the	NN	O	O
@@ -66689,6 +69213,7 @@ throughout	NN	O	O
 the	NN	O	O
 bulk	NN	O	O
 .	NN	O	O
+
 Porosity	NN	O	B-Process
 and	NN	O	O
 significant	NN	O	O
@@ -66732,6 +69257,7 @@ devices	NN	O	I-Material
 1	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 Thus	NN	O	O
 ,	NN	O	O
 TCR	NN	O	B-Material
@@ -66749,6 +69275,7 @@ to	NN	O	O
 all	NN	O	O
 deposits	NN	O	O
 .	NN	O	O
+
 If	NN	O	O
 a	NN	O	O
 layer	NN	O	O
@@ -66790,6 +69317,7 @@ from	NN	O	O
 the	NN	O	O
 deposit	NN	O	O
 .	NN	O	O
+
 This	NN	O	O
 can	NN	O	O
 influence	NN	O	O
@@ -66809,6 +69337,7 @@ process	NN	O	O
 can	NN	O	O
 change	NN	O	O
 .	NN	O	O
+
 The	NN	O	O
 new	NN	O	O
 understanding	NN	O	O
@@ -66848,6 +69377,7 @@ based	NN	O	I-Material
 materials	NN	O	I-Material
 .	NN	O	O
 
+
 -DOCSTART- (S2352179114200056)
 
 Power	NN	O	B-Material
@@ -66867,6 +69397,7 @@ power	NN	O	I-Material
 plant	NN	O	I-Material
 concept	NN	O	O
 .	NN	O	O
+
 Heat	NN	O	O
 in	NN	O	O
 fusion	NN	O	B-Process
@@ -66908,6 +69439,7 @@ itself	NN	O	O
 2	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 In	NN	O	O
 addition	NN	O	O
 ,	NN	O	O
@@ -66948,6 +69480,7 @@ particles	NN	O	I-Material
 4,5	NN	O	O
 ]	NN	O	O
 .	NN	O	O
+
 It	NN	O	O
 is	NN	O	O
 concluded	NN	O	O
@@ -67014,3 +69547,4 @@ value	NN	O	O
 ]	NN	O	O
 .	NN	O	O
 
+

From 48725b6320499606e342119857fd6c98faba02ac Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 13:55:20 -0800
Subject: [PATCH 13/23] clean up script for ner

---
 data/ner/semeval2017/train.txt                |  42 ++---
 .../semeval2017_to_coll2003_and_relations.py  | 150 ++++++++++--------
 2 files changed, 103 insertions(+), 89 deletions(-)

diff --git a/data/ner/semeval2017/train.txt b/data/ner/semeval2017/train.txt
index 2bf6e2a..011f252 100644
--- a/data/ner/semeval2017/train.txt
+++ b/data/ner/semeval2017/train.txt
@@ -478,8 +478,8 @@ a	NN	O	O
 general	NN	O	O
 feature	NN	O	O
 of	NN	O	O
-quantum	NN	O	B-Process
-fields	NN	O	I-Process
+quantum	NN	O	B-Task
+fields	NN	O	I-Task
 ,	NN	O	O
 of	NN	O	O
 which	NN	O	O
@@ -689,15 +689,15 @@ nucleon	NN	O	I-Material
 We	NN	O	O
 have	NN	O	O
 presented	NN	O	O
-spectrally	NN	O	B-Process
-resolved	NN	O	I-Process
-femtosecond	NN	O	I-Process
-three	NN	O	I-Process
--	NN	O	I-Process
-pulse	NN	O	I-Process
-photon	NN	O	I-Process
-echo	NN	O	I-Process
-measurements	NN	O	I-Process
+spectrally	NN	O	B-Material
+resolved	NN	O	I-Material
+femtosecond	NN	O	I-Material
+three	NN	O	I-Material
+-	NN	O	I-Material
+pulse	NN	O	I-Material
+photon	NN	O	I-Material
+echo	NN	O	I-Material
+measurements	NN	O	I-Material
 on	NN	O	O
 Zn(II)–OEP	NN	O	B-Material
 ,	NN	O	O
@@ -1572,12 +1572,12 @@ tested	NN	O	O
 in	NN	O	O
 order	NN	O	O
 to	NN	O	O
-verify	NN	O	B-Task
-their	NN	O	I-Task
-validity	NN	O	I-Task
-for	NN	O	I-Task
-dynamical	NN	O	I-Task
-purposes	NN	O	I-Task
+verify	NN	O	B-Process
+their	NN	O	I-Process
+validity	NN	O	I-Process
+for	NN	O	I-Process
+dynamical	NN	O	I-Process
+purposes	NN	O	I-Process
 .	NN	O	O
 
 Such	NN	O	O
@@ -20835,10 +20835,10 @@ are	NN	O	O
 other	NN	O	O
 methods	NN	O	O
 to	NN	O	O
-calculate	NN	O	B-Task
-the	NN	O	I-Task
-stress	NN	O	I-Task
-tensor	NN	O	I-Task
+calculate	NN	O	B-Process
+the	NN	O	I-Process
+stress	NN	O	I-Process
+tensor	NN	O	I-Process
 such	NN	O	O
 as	NN	O	O
 the	NN	O	O
diff --git a/scripts/semeval2017_to_coll2003_and_relations.py b/scripts/semeval2017_to_coll2003_and_relations.py
index 9e176a9..6affda7 100644
--- a/scripts/semeval2017_to_coll2003_and_relations.py
+++ b/scripts/semeval2017_to_coll2003_and_relations.py
@@ -58,75 +58,92 @@
 
 MIN_NUM_TOKENS_PER_SENT = 5
 
+# each instance is a single NER[split][instance_id] = {'spans': List, 'labels': List}
+NER = {'train': {}, 'dev': {}, 'test': {}}
+RELATIONS = {}
+for split in ['train', 'dev', 'test']:
+    print(f'Processing {split}')
+
+    ann_dir = f'semeval2017/{split}/'
+    instance_ids = sorted({os.path.splitext(ann_file)[0] for ann_file in os.listdir(ann_dir)})
+    for id in instance_ids:
+        print(f'Processing {id}')
+
+        ann_file = os.path.join(ann_dir, f'{id}.ann')
+        txt_file = ann_file.replace('.ann', '.txt')
+
+        # load text & tokenize w/ Spacy
+        with open(txt_file, 'r') as f_txt:
+            text = f_txt.read().strip()
+            text = ''.join([char if char.strip() != '' else ' ' for char in text])  # normalize whitespaces, such as '\xa0' --> ' '
+            spacy_text = nlp(text)
+
+        # no sentence splitting (one long sentence) & tokenize
+        # sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for sent in spacy_text.sents for token in sent if token.text.strip() != '']])
+
+        # split sentences & tokenize
+        sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for token in sent if token.text.strip() != ''] for sent in spacy_text.sents])
+
+        # load annotated entity mentions
+        mention_spans = set()
+        with open(ann_file, 'r') as f_ann:
+            for line in f_ann:
+                tup = line.strip('\n').split('\t')
+                if tup[0].startswith('T'):
+                    entity_id = tup[0]
+                    # note: occasionally data looks really stupid like `Task 400 436;437 453` in `S0167931713005042.ann`
+                    try:
+                        entity_type, start, stop = tup[1].split(' ')
+                    except ValueError as e:
+                        print(f'Failed unpacking line {tup} in {id}. Skipping...')
+                        continue
+                    start = int(start)
+                    stop = int(stop)
+                    entity_text = tup[2]
+                    # note: occasionally, spans include whitespace like `line = "T6	Task 220 268	modelling of red blood cells in Poiseuille flow "`
+                    # where `stop=268` actually includes the `\xa0` token at end of `flow`
+                    # >> correct these situations
+                    if len(entity_text.strip()) != stop - start:
+                        entity_text = entity_text.lstrip()
+                        start += stop - start - len(entity_text)
+                        entity_text = entity_text.rstrip()
+                        stop -= stop - start - len(entity_text)
+                        print(f'Corrected {tup} in {id} -> ({start}, {stop}) due to whitespace in mention text')
+                    assert len(entity_text) == stop - start
+                    mention_span = MentionSpan(start=start, stop=stop, text=entity_text, entity_types=[entity_type], entity_id=entity_id)
+                    mention_spans.add(mention_span)
+
+        # overlapping mentions are handled by picking longest mention in the group
+        # this also handles same-mention multiple-types (arbitrarily picks one of them)
+        clean_mention_spans = []
+        clusters = Span.sort_cluster_spans(mention_spans)
+        for cluster in clusters:
+            if len(cluster) == 1:
+                clean_mention_spans.extend(cluster)
+            else:
+                longest_span = sorted(cluster, key=lambda s: len(s))[-1]
+                clean_mention_spans.append(longest_span)
+
+        # conll2003 -> BIO
+        sent_token_labels = label_sent_token_spans(sent_token_spans=sent_token_spans,
+                                                   mention_spans=clean_mention_spans)
+        # save
+        NER[split][id] = {
+            'spans': sent_token_spans,
+            'labels': sent_token_labels
+        }
+
+for split in ['train', 'dev', 'test']:
+    num_papers = len(NER[split])
+    print(f'Finished processing {num_papers} papers from {split}')
+
+# write NER
 os.makedirs('data/ner/semeval2017/', exist_ok=True)
 for split in ['train', 'dev', 'test']:
     with open(f'data/ner/semeval2017/{split}.txt', 'w') as f_out:
-        ann_dir = f'semeval2017/{split}/'
-        instance_ids = sorted({os.path.splitext(ann_file)[0] for ann_file in os.listdir(ann_dir)})
-        for id in instance_ids:
-            ann_file = os.path.join(ann_dir, f'{id}.ann')
-            txt_file = ann_file.replace('.ann', '.txt')
-
-            # load text & tokenize w/ Spacy
-            with open(txt_file, 'r') as f_txt:
-                text = f_txt.read().strip()
-                text = ''.join([char if char.strip() != '' else ' ' for char in text])  # normalize whitespaces, such as '\xa0' --> ' '
-                spacy_text = nlp(text)
-
-            # no sentence splitting (one long sentence) & tokenize
-            # sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for sent in spacy_text.sents for token in sent if token.text.strip() != '']])
-
-            # split sentences & tokenize
-            sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for token in sent if token.text.strip() != ''] for sent in spacy_text.sents])
-
-            # load annotated entity mentions
-            mention_spans = set()
-            with open(ann_file, 'r') as f_ann:
-                for line in f_ann:
-                    tup = line.strip('\n').split('\t')
-                    if tup[0].startswith('T'):
-                        entity_id = tup[0]
-                        # note: occasionally data looks really stupid like `Task 400 436;437 453` in `S0167931713005042.ann`
-                        try:
-                            entity_type, start, stop = tup[1].split(' ')
-                        except ValueError as e:
-                            print(f'Failed unpacking line {tup} in {id}. Skipping...')
-                            continue
-                        start = int(start)
-                        stop = int(stop)
-                        entity_text = tup[2]
-                        # note: occasionally, spans include whitespace like `line = "T6	Task 220 268	modelling of red blood cells in Poiseuille flow "`
-                        # where `stop=268` actually includes the `\xa0` token at end of `flow`
-                        # >> correct these situations
-                        if len(entity_text.strip()) != stop - start:
-                            entity_text = entity_text.lstrip()
-                            start += stop - start - len(entity_text)
-                            entity_text = entity_text.rstrip()
-                            stop -= stop - start - len(entity_text)
-                            print(f'Corrected {tup} in {id} -> ({start}, {stop}) due to whitespace in mention text')
-                        assert len(entity_text) == stop - start
-                        mention_span = MentionSpan(start=start, stop=stop, text=entity_text, entity_types=[entity_type], entity_id=entity_id)
-                        mention_spans.add(mention_span)
-
-            # overlapping mentions are handled by picking longest mention in the group
-            # this also handles same-mention multiple-types (arbitrarily picks one of them)
-            clean_mention_spans = []
-            clusters = Span.sort_cluster_spans(mention_spans)
-            for cluster in clusters:
-                if len(cluster) == 1:
-                    clean_mention_spans.extend(cluster)
-                else:
-                    longest_span = sorted(cluster, key=lambda s: len(s))[-1]
-                    clean_mention_spans.append(longest_span)
-
-            # conll2003 -> BIO
-            sent_token_labels = label_sent_token_spans(sent_token_spans=sent_token_spans,
-                                                       mention_spans=clean_mention_spans)
-
-            # write
-            print(f'Writing {id}')
+        for id, instance in NER[split].items():
             f_out.write(f'-DOCSTART- ({id})\n\n')
-            for token_spans, token_labels in zip(sent_token_spans, sent_token_labels):
+            for token_spans, token_labels in zip(instance['spans'], instance['labels']):
                 for token_span, token_label in zip(token_spans, token_labels):
                     f_out.write('\t'.join([token_span.text, 'NN', 'O', token_label]))
                     f_out.write('\n')  # new token
@@ -134,9 +151,6 @@
             f_out.write('\n')  # new paper
 
 
-
-
-
 # TODO: stop here; below incomplete relations script
 
 

From f5836627c4e52659df9185f59d184de74991f689 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 23:06:07 -0800
Subject: [PATCH 14/23] split semeval2017 script into NER and REL

---
 ...lations.py => semeval2017_to_conll2003.py} |  96 +-------
 scripts/semeval2017_to_relations.py           | 229 ++++++++++++++++++
 2 files changed, 235 insertions(+), 90 deletions(-)
 rename scripts/{semeval2017_to_coll2003_and_relations.py => semeval2017_to_conll2003.py} (67%)
 create mode 100644 scripts/semeval2017_to_relations.py

diff --git a/scripts/semeval2017_to_coll2003_and_relations.py b/scripts/semeval2017_to_conll2003.py
similarity index 67%
rename from scripts/semeval2017_to_coll2003_and_relations.py
rename to scripts/semeval2017_to_conll2003.py
index 6affda7..9b8ed7d 100644
--- a/scripts/semeval2017_to_coll2003_and_relations.py
+++ b/scripts/semeval2017_to_conll2003.py
@@ -22,29 +22,7 @@
         T15	Material 257 294	pair of nominally identical specimens
         T16	Task 13 33	theoretical analysis
 
-Output 1:  Entity extraction (CONLL2003 format)
-
-
-Output 2:  Relation classification
-    JSONlines where each JSON is:
-    {
-        "text": "Based on the theoretical analysis , the [[ value of the measuring resistor ]] ...",
-        "label": "Synonym-of",
-        "metadata": [7, 11, 12, 12]
-    }
-    ** only contains sentences with relations; entities are gold wrt their Arg1/Arg2 position; no cross-sentence relations **
-
-Output 2:  Relation extraction
-    ** same format as above, but includes sentences without relations & all entity pairs are attempted as Arg1/Arg2 positions **
-
-
-
-Pseudocode for 1:
-    - sentence-ify & tokenize text & assign char-level span indices to each token
-    - for each sentence:
-        for each token:
-            if within entity, do stuff
-
+Output:  Entity extraction (CONLL2003 format)
 
 """
 
@@ -56,19 +34,16 @@
 
 from sci_bert.common.span import Span, TokenSpan, MentionSpan, label_sent_token_spans
 
-MIN_NUM_TOKENS_PER_SENT = 5
-
 # each instance is a single NER[split][instance_id] = {'spans': List, 'labels': List}
 NER = {'train': {}, 'dev': {}, 'test': {}}
-RELATIONS = {}
 for split in ['train', 'dev', 'test']:
     print(f'Processing {split}')
-
     ann_dir = f'semeval2017/{split}/'
+
+    # loop over each instance ID in this split
     instance_ids = sorted({os.path.splitext(ann_file)[0] for ann_file in os.listdir(ann_dir)})
     for id in instance_ids:
         print(f'Processing {id}')
-
         ann_file = os.path.join(ann_dir, f'{id}.ann')
         txt_file = ann_file.replace('.ann', '.txt')
 
@@ -78,17 +53,16 @@
             text = ''.join([char if char.strip() != '' else ' ' for char in text])  # normalize whitespaces, such as '\xa0' --> ' '
             spacy_text = nlp(text)
 
-        # no sentence splitting (one long sentence) & tokenize
-        # sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for sent in spacy_text.sents for token in sent if token.text.strip() != '']])
-
         # split sentences & tokenize
         sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for token in sent if token.text.strip() != ''] for sent in spacy_text.sents])
 
-        # load annotated entity mentions
+        # load annotations
         mention_spans = set()
         with open(ann_file, 'r') as f_ann:
             for line in f_ann:
                 tup = line.strip('\n').split('\t')
+
+                # load entity mention
                 if tup[0].startswith('T'):
                     entity_id = tup[0]
                     # note: occasionally data looks really stupid like `Task 400 436;437 453` in `S0167931713005042.ann`
@@ -150,61 +124,3 @@
                 f_out.write('\n')  # new sent
             f_out.write('\n')  # new paper
 
-
-# TODO: stop here; below incomplete relations script
-
-
-
-
-
-# group TokenSpans into sentences
-sents: List[List[TokenSpan]] = []
-sent: List[TokenSpan] = []
-for i, token_span in enumerate(token_spans):
-    if i in index_sent_start_tokens:
-        sents.append(sent)
-        sent: List[TokenSpan] = []
-    sent.append(token_span)
-
-# load annotations
-ID_TO_ENTITY = {}
-E1E2_TO_RELATION = {}
-with open(ann_file, 'r') as f_ann:
-    for line in f_ann:
-        tup = line.strip().split('\t')
-
-        # check if it's an entity
-        if tup[0].startswith('T'):
-            entity_id = tup[0]
-            entity_type, start, stop = tup[1].split(' ')
-            start = int(start)
-            stop = int(stop)
-            entity_text = tup[2]
-            ID_TO_ENTITY[entity_id] = {
-                'type': entity_type,
-                'span': (start, stop),
-                'text': entity_text
-            }
-
-        # or if it's an asymmetric relation
-        elif tup[0].startswith('R'):
-            relation_id = tup[0]
-            relation_type, arg1, arg2 = tup[1].split(' ')
-            tag1, e1 = arg1.split(':')
-            tag2, e2 = arg2.split(':')
-            assert tag1 == 'Arg1' and tag2 == 'Arg2'
-            E1E2_TO_RELATION[(e1, e2)] =
-
-        # or if it's a symmetric relation
-        elif tup[0].startswith('*'):
-
-        # not sure
-        else:
-            raise ValueError('Cant parse this line {}'.format(line))
-
-        E1E2_TO_RELATION[]
-
-
-
-with open(ann_file, 'r') as f_ann:
-    pass
\ No newline at end of file
diff --git a/scripts/semeval2017_to_relations.py b/scripts/semeval2017_to_relations.py
new file mode 100644
index 0000000..d013b2a
--- /dev/null
+++ b/scripts/semeval2017_to_relations.py
@@ -0,0 +1,229 @@
+"""
+
+Input:
+    Text:
+        Based on the theoretical analysis, the value of the measuring resistor...
+
+    Annotations:
+        T1	Process 39 70	value of the measuring resistor
+        T2	Process 72 74	Rm
+        *	Synonym-of T2 T1
+        T3	Material 427 466	NI-USB 6009 analog-to-digital converter
+        T4	Material 322 336	4.7kΩ resistor
+        T5	Material 375 402	saturated calomel electrode
+        T6	Process 472 500	electrochemical noise signal
+        T7	Material 520 547	in-house developed software
+        T8	Material 778 785	dataset
+        T10	Task 674 708	obtain a single value of potential
+        T11	Task 979 1051	accurate recording of the potential noise in the frequencies of interest
+        T12	Process 97 114	corrosion process
+        T13	Process 136 161	value of noise resistance
+        T14	Task 175 199	validate this conclusion
+        T15	Material 257 294	pair of nominally identical specimens
+        T16	Task 13 33	theoretical analysis
+
+Output 1:  Relation classification
+    JSONlines where each JSON is:
+    {
+        "text": "Based on the theoretical analysis , the [[ value of the measuring resistor ]] ...",
+        "label": "Synonym-of",
+        "metadata": [7, 11, 12, 12]
+    }
+    ** only contains sentences with relations; entities are gold wrt their Arg1/Arg2 position; no cross-sentence relations **
+
+Output 2:  Relation extraction
+    ** same format as above, but includes sentences without relations & all entity pairs are attempted as Arg1/Arg2 positions **
+
+"""
+
+from typing import *
+
+import os
+
+import json
+
+import spacy
+nlp = spacy.load('en_core_web_md')
+
+from collections import defaultdict
+
+from sci_bert.common.span import Span, TokenSpan, MentionSpan, _match_mention_spans_to_sentences
+from sci_bert.common.relation import RelationMention
+
+
+def load_annotations(ann_file: str) -> Tuple[DefaultDict, Set]:
+    mention_spans = defaultdict(MentionSpan)
+    relation_mentions = set()
+    with open(ann_file, 'r') as f_ann:
+        for line in f_ann:
+            tup = line.strip('\n').split('\t')
+
+            # load entity mention
+            if tup[0].startswith('T'):
+                entity_id = tup[0]
+                # note: occasionally data looks really stupid like `Task 400 436;437 453` in `S0167931713005042.ann`
+                try:
+                    entity_type, start, stop = tup[1].split(' ')
+                except ValueError as e:
+                    print(f'Failed unpacking line {tup} in {id}. Skipping...')
+                    continue
+                start = int(start)
+                stop = int(stop)
+                entity_text = tup[2]
+                # note: occasionally, spans include whitespace like in S0370269304008998 with mention `'transition form factors defined through the matrix elements of the operator\xa0O7, φB'`
+                # this makes it hard to check that `text[start:stop]` == mention_text
+                # >> correct these situations
+                entity_text = ''.join([char if char.strip() != '' else ' ' for char in entity_text])  # normalize whitespaces, such as '\xa0' --> ' '
+
+                # note: occasionally, spans include whitespace like `line = "T6	Task 220 268	modelling of red blood cells in Poiseuille flow "`
+                # where `stop=268` actually includes the `\xa0` token at end of `flow`
+                # >> correct these situations
+                if len(entity_text.strip()) != stop - start:
+                    entity_text = entity_text.lstrip()
+                    start += stop - start - len(entity_text)
+                    entity_text = entity_text.rstrip()
+                    stop -= stop - start - len(entity_text)
+                    print(f'Corrected {tup} in {id} -> ({start}, {stop}) due to whitespace in mention text')
+                assert len(entity_text) == stop - start
+                mention_span = MentionSpan(start=start, stop=stop,
+                                           text=entity_text,
+                                           entity_types=[entity_type],
+                                           entity_id=entity_id)
+                mention_spans[entity_id] = mention_span
+
+            # load asymmetric relation
+            elif tup[0].startswith('R'):
+                relation_id = tup[0]
+                relation_type, arg1, arg2 = tup[1].split(' ')
+                tag1, e1 = arg1.split(':')
+                tag2, e2 = arg2.split(':')
+                assert tag1 == 'Arg1' and tag2 == 'Arg2'
+                relation_mention = RelationMention(e1=mention_spans[e1],
+                                                   e2=mention_spans[e2],
+                                                   labels=[relation_type],
+                                                   is_symmetric=False)
+                relation_mentions.add(relation_mention)
+
+            # load symmetric relation
+            elif tup[0].startswith('*'):
+                relation_id = tup[0]
+                # handle odd cases like in `S0021999114008523` with 3 entities: `*	Synonym-of T11 T12 T10`
+                try:
+                    relation_type, e1, e2 = tup[1].split(' ')
+                except ValueError as e:
+                    print(f'Failed unpacking line {tup} in {id}. Skipping...')
+                    continue
+                relation_mention = RelationMention(e1=mention_spans[e1],
+                                                   e2=mention_spans[e2],
+                                                   labels=[relation_type],
+                                                   is_symmetric=True)
+                relation_mentions.add(relation_mention)
+    return mention_spans, relation_mentions
+
+
+def tag_mentions_in_sentence(text: str,
+                             sent_start: int,
+                             sent_stop: int,
+                             e1: MentionSpan,
+                             e2: MentionSpan) -> str:
+    sent_text = text[sent_start:sent_stop]
+    if e1 < e2:
+        e1_start = e1.start - sent_start
+        e1_stop = e1.stop - sent_start
+        assert sent_text[e1_start:e1_stop] == relation.e1.text
+        sent_text = sent_text[:e1_start] + '<E1>' + sent_text[e1_start:e1_stop] + '</E1>' + sent_text[e1_stop:]
+        e2_start = relation.e2.start - sent_start + 9
+        e2_stop = relation.e2.stop - sent_start + 9
+        assert sent_text[e2_start:e2_stop] == relation.e2.text
+        sent_text = sent_text[:e2_start] + '<E2>' + sent_text[e2_start:e2_stop] + '</E2>' + sent_text[e2_stop:]
+        return sent_text
+
+    elif e2 < e1:
+        e2_start = e2.start - sent_start
+        e2_stop = e2.stop - sent_start
+        assert sent_text[e2_start:e2_stop] == relation.e2.text
+        sent_text = sent_text[:e2_start] + '<E2>' + sent_text[e2_start:e2_stop] + '</E2>' + sent_text[e2_stop:]
+        e1_start = relation.e1.start - sent_start + 9
+        e1_stop = relation.e1.stop - sent_start + 9
+        assert sent_text[e1_start:e1_stop] == relation.e1.text
+        sent_text = sent_text[:e1_start] + '<E1>' + sent_text[e1_start:e1_stop] + '</E1>' + sent_text[e1_stop:]
+        return sent_text
+
+    else:
+        raise Exception('GAHH!! Nested mentions!!')
+
+
+RE = {'train': {}, 'dev': {}, 'test': {}}
+for split in ['train', 'dev', 'test']:
+    print(f'Processing {split}')
+    ann_dir = f'semeval2017/{split}/'
+
+    # loop over each instance ID in this split
+    instance_ids = sorted({os.path.splitext(ann_file)[0] for ann_file in os.listdir(ann_dir)})
+    for id in instance_ids:
+        print(f'Processing {id}')
+        ann_file = os.path.join(ann_dir, f'{id}.ann')
+        txt_file = ann_file.replace('.ann', '.txt')
+
+        # load text & tokenize w/ Spacy
+        with open(txt_file, 'r') as f_txt:
+            text = f_txt.read().strip()
+            text = ''.join([char if char.strip() != '' else ' ' for char in text])  # normalize whitespaces, such as '\xa0' --> ' '
+            spacy_text = nlp(text)
+
+        # split sentences & tokenize
+        sent_token_spans = TokenSpan.find_sent_token_spans(text=text, sent_tokens=[[token.text for token in sent if token.text.strip() != ''] for sent in spacy_text.sents])
+
+        # load annotations
+        mention_spans, relation_mentions = load_annotations(ann_file)
+
+        # map entity mentions to sentences
+        entity_to_sentence = {}
+        sent_mention_spans = _match_mention_spans_to_sentences(sent_token_spans, sorted(mention_spans.values(), key=lambda s: (s.start, s.stop)))
+        for i, mention_spans in enumerate(sent_mention_spans):
+            for mention_span in mention_spans:
+                entity_to_sentence[mention_span.entity_id] = i
+
+        # remove cross sentence relations
+        sent_id_to_relations = defaultdict(set)
+        for relation_mention in relation_mentions:
+            sent_id_e1 = entity_to_sentence.get(relation_mention.e1.entity_id)
+            sent_id_e2 = entity_to_sentence.get(relation_mention.e2.entity_id)
+            if sent_id_e1 is None:
+                print(f'Mention {relation_mention.e1} was removed so skipping relation...')
+                continue
+            if sent_id_e2 is None:
+                print(f'Mention {relation_mention.e2} was removed so skipping relation...')
+                continue
+            if sent_id_e1 == sent_id_e2:
+                sent_id_to_relations[sent_id_e1].add(relation_mention)
+
+        # for each sentence containing relation(s), save the sentence after
+        # tagging the entities with << >> and [[ ]]
+        for sent_id, relations in sent_id_to_relations.items():
+            sent_start = sent_token_spans[sent_id][0].start
+            sent_stop = sent_token_spans[sent_id][-1].stop
+            for relation in relations:
+                e1 = relation.e1
+                e2 = relation.e2
+                sent_text = tag_mentions_in_sentence(text, sent_start, sent_stop, e1, e2)
+                RE[split][id] = {
+                    'text': sent_text,
+                    'label': relation.labels[0],
+                    'metadata': {
+                        'id': id,
+                        'spans': [e1.start, e1.stop, e2.start, e2.stop]
+                    }
+                }
+
+for split in ['train', 'dev', 'test']:
+    num_papers = len(RE[split])
+    print(f'Finished processing {num_papers} papers from {split}')
+
+# write NER
+os.makedirs('data/rel/semeval2017/', exist_ok=True)
+for split in ['train', 'dev', 'test']:
+    with open(f'data/rel/semeval2017/{split}.txt', 'w') as f_out:
+        for id, instance in RE[split].items():
+            json.dump(instance, f_out)
+            f_out.write('\n')
\ No newline at end of file

From ee37144990745b60b6af6d0a4447e07bf7a80eb4 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 23:06:20 -0800
Subject: [PATCH 15/23] relex data for semeval17

---
 data/rel/semeval2017/dev.txt   |  40 ++++++
 data/rel/semeval2017/test.txt  |  74 +++++++++++
 data/rel/semeval2017/train.txt | 229 +++++++++++++++++++++++++++++++++
 3 files changed, 343 insertions(+)
 create mode 100644 data/rel/semeval2017/dev.txt
 create mode 100644 data/rel/semeval2017/test.txt
 create mode 100644 data/rel/semeval2017/train.txt

diff --git a/data/rel/semeval2017/dev.txt b/data/rel/semeval2017/dev.txt
new file mode 100644
index 0000000..850cce8
--- /dev/null
+++ b/data/rel/semeval2017/dev.txt
@@ -0,0 +1,40 @@
+{"text": "<E2>Complex Langevin</E2> (<E1>CL</E1>) dynamics  [1,2] provides an approach to circumvent the sign problem in numerical simulations of lattice field theories with a complex Boltzmann weight, since it does not rely on importance sampling.", "label": "Synonym-of", "metadata": {"id": "S0003491613001516", "spans": [18, 20, 0, 16]}}
+{"text": "This method leads to solution of perhaps the most known test-case that exhibits a <E2>first order phase transition</E2> (semi-heuristically described) such as the <E1>van der Waals model</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0003491615001839", "spans": [335, 354, 263, 291]}}
+{"text": "The Hamiltonian then simplifies to H=-\u03b3eB(S1(z)+S2(z))+|\u03b3e|\u03b1S\u21922\u00b7I\u2192, where <E1>\u03b1</E1> is the <E2>isotropic hyperfine coupling</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0009261413004612", "spans": [1570, 1571, 1579, 1607]}}
+{"text": "<E2>Optical processes</E2>, including <E1>resonance energy transfer</E1> are similarly dependent on the local environment of molecular chromophores [2\u20134].", "label": "Hyponym-of", "metadata": {"id": "S0009261414000372", "spans": [300, 325, 271, 288]}}
+{"text": "Such <E2>methods, mostly multi-step and time-consuming</E2>, can typically be cast in one of two distinct categories: synthetic mechanisms designed to produce a single stereoisomer, or <E1>separation techniques</E1> to isolate distinct enantiomers from a racemic mixture.", "label": "Hyponym-of", "metadata": {"id": "S0009261415001517", "spans": [441, 462, 270, 315]}}
+{"text": "A model Hamiltonian exhibiting tunnelling dynamics through a multidimensional asymmetric double well potential has been used as a test by the MP/SOFT [18] and CCS methods [19] mentioned above, and also more recently by a <E1>configuration interaction</E1> (<E2>CI</E2>) expansion method [20] and two-layer version of CCS (2L-CCS).", "label": "Synonym-of", "metadata": {"id": "S0009261415008362", "spans": [336, 361, 363, 365]}}
+{"text": "Based on the theoretical analysis, the <E2>value of the measuring resistor</E2>, <E1>Rm</E1>, has no effect on the corrosion process and on the estimated value of noise resistance.", "label": "Synonym-of", "metadata": {"id": "S0010938X13003818", "spans": [72, 74, 39, 70]}}
+{"text": "A <E2>surfactant</E2> is a <E1>surface active agent</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0010938X14002157", "spans": [18, 38, 2, 12]}}
+{"text": "Regions with larger (\u0394\u03a8) indicate increased surface reactivity [11,15,18], and even a correlation between Volta potential differences measured in nominally dry air and their <E2>free corrosion potential</E2> (<E1>Ecorr</E1>) pre-determined under immersed conditions has been reported [18].", "label": "Synonym-of", "metadata": {"id": "S0010938X15003261", "spans": [1156, 1161, 1130, 1154]}}
+{"text": "By applying this mapping, <E2>n-alkanes chains</E2> containing multiples of three carbon units can be represented directly: <E1>n-C6H14</E1>, n", "label": "Hyponym-of", "metadata": {"id": "S0021961415003821", "spans": [919, 926, 830, 846]}}
+{"text": "A <E2>direct numerical simulation</E2> (<E1>DNS</E1>) approach is used to evaluate profiles of fluid velocities and concentrations in water, and several important turbulence statistics have been evaluated without using turbulent closures, and subgrid-scale models.", "label": "Synonym-of", "metadata": {"id": "S0021999113005652", "spans": [1410, 1413, 1381, 1408]}}
+{"text": "Regardless of the details, the forced response is composed of shallow-water waves, possibly including <E1>Kelvin waves</E1>, with the largest amplitudes in <E2>waves</E2> with a natural frequency \u03c9f close to that of the forcing frequency \u03c9; various examples of this sort are given in Chapters 9 and 10 of Gill [16].", "label": "Hyponym-of", "metadata": {"id": "S0021999113005846", "spans": [442, 454, 487, 492]}}
+{"text": "We finish Section 2 by reformulating our model into the phase field framework, which appears more suitable for the problem in hand, and we formulate the <E1>cell tracking problem</E1> as a <E2>PDE constrained optimisation problem</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0021999115003423", "spans": [594, 615, 621, 657]}}
+{"text": "The dynamics of various <E2>physical phenomena</E2>, such as the <E1>movement of pendulums, planets, or water waves</E1> can be described in a variational framework.", "label": "Hyponym-of", "metadata": {"id": "S0021999115007895", "spans": [56, 102, 24, 42]}}
+{"text": "Although relatively long communication times between remote processors may hinder this process in typical <E2>parallel computers</E2>, this is not the case for <E1>GPGPU architectures</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0021999115008153", "spans": [409, 428, 364, 382]}}
+{"text": "R-adaptivity \u2013 <E2>mesh redistribution</E2> \u2013 involves <E1>deforming a mesh</E1> in order to vary local resolution and was first considered for atmospheric modelling more than twenty years ago by Dietachmayer and Droegemeier", "label": "Hyponym-of", "metadata": {"id": "S0021999115008372", "spans": [213, 229, 182, 201]}}
+{"text": "<E1>Calumite</E1> is a <E2>powdered material</E2>, with a typical particle size distribution between limits of ca.", "label": "Hyponym-of", "metadata": {"id": "S0022311513010313", "spans": [849, 857, 863, 880]}}
+{"text": "As such these materials are exposed to a large number of environmental factors that will promote <E2>degradation mechanisms</E2> such as <E1>oxidation</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0022311514006722", "spans": [222, 231, 191, 213]}}
+{"text": "the intended crystalline phase was the closely related <E1>titanate pyrochlore</E1>, <E2>CaUTi2O7</E2>.", "label": "Synonym-of", "metadata": {"id": "S0022311514006941", "spans": [544, 563, 565, 573]}}
+{"text": "For completeness, we report two <E2>shell models</E2> with the best results given by the <E1>Catlow potential model</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0022311514009271", "spans": [825, 847, 777, 789]}}
+{"text": "The latter mechanism, <E1>DHC</E1>, is a sub-critical, time dependent <E2>cracking phenomenon</E2> that requires long range hydrogen diffusion for repeated local hydride growth and fracture at a hydrostatic tensile stress raiser [5,41,42].", "label": "Hyponym-of", "metadata": {"id": "S0022311515002354", "spans": [792, 795, 831, 850]}}
+{"text": "During burnup, pure <E1>UO2 fuel</E1> tends to oxidize to <E2>UO2+x</E2>.", "label": "Synonym-of", "metadata": {"id": "S0022311515301653", "spans": [802, 810, 831, 836]}}
+{"text": "<E1>Methane</E1> (<E2>CH4</E2>) is a precursor for carbonaceous deposits that form a sacrificial layer protecting the underlying graphite from excessive weight loss [15] and reduction in mechanical strength [16].", "label": "Synonym-of", "metadata": {"id": "S0022311515303901", "spans": [731, 738, 740, 743]}}
+{"text": "An essential part of <E2>nuclear reactor analysis</E2> is the <E1>prediction of the three-dimensional space-time kinetics of neutrons</E1> in a relatively large, finite, heterogeneous, three-dimensional reactor core.", "label": "Hyponym-of", "metadata": {"id": "S0029549313003439", "spans": [53, 120, 21, 45]}}
+{"text": "Methods that predict the cell temperature at <E1>maximum power point</E1> (<E2>MPP</E2>) operation offer a more realistic approach since they include the electrical energy generation of the solar cells (i.e. real operating conditions); Yandt et al.", "label": "Synonym-of", "metadata": {"id": "S0038092X15003059", "spans": [740, 759, 761, 764]}}
+{"text": "They summarized this information across calibrations by computing <E1>Highest Posterior-Density</E1> (<E2>HPD</E2>) intervals, and subsequently represent the total solution uncertainty with a probability-box (p-box).", "label": "Synonym-of", "metadata": {"id": "S0045782514001947", "spans": [268, 293, 295, 298]}}
+{"text": "Thus, <E2>surface modifications</E2>, such as <E1>doping</E1>, functionalization and improving the pore structure and specific surface area of nanocarbons, are important to enhance gas adsorption.", "label": "Hyponym-of", "metadata": {"id": "S0079642514000784", "spans": [1438, 1444, 1407, 1428]}}
+{"text": "Continuum approaches, which are based on the fact that the <E2>geometrical features</E2> of the film (i.e., the <E1>nanocolumns</E1>) are much larger than the typical size of an atom [42,266,267], have been also explored.", "label": "Hyponym-of", "metadata": {"id": "S0079642515000705", "spans": [471, 482, 427, 447]}}
+{"text": "The structure of the failed surface can be represented with a mathematical graph, where graph nodes represent failed faces and graph edges exist between failed faces with common triple line in the cellular structure, i.e. where two <E1>micro-cracks</E1> formed a continuous larger <E2>crack</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0167844214000652", "spans": [694, 706, 734, 739]}}
+{"text": "These materials have two components, one being a semiconducting material with diamagnetic properties while the other is a <E2>magnetic dopant</E2> such as <E1>transition metal</E1> having un-paired d electrons [2].", "label": "Hyponym-of", "metadata": {"id": "S0254058415300766", "spans": [369, 385, 345, 360]}}
+{"text": "We found that for n-propyl benzene, the relative yield of C3H3+ is extremely sensitive to the phase of the <E1>laser pulse</E1> as compared to any of the other possible <E2>channels</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0301010409001219", "spans": [1002, 1013, 1055, 1063]}}
+{"text": "Interestingly, the very low H2 adsorption has been successfully characterised as <E1>weak binding interactions</E1> and, for the first time, we have found that the adsorbed H2 in the pore channel has a liquid type recoil motion at 5K (below its melting point) as a direct result of this <E2>weak interaction</E2> to the MOF host.", "label": "Hyponym-of", "metadata": {"id": "S0301010413004096", "spans": [1204, 1229, 1401, 1417]}}
+{"text": "Several extended PES scans of <E1>Na3</E1> and other <E2>alkali trimers</E2> followed this initial study, employing DFT [7], complete active space SCF [8], or a configuration interaction approach based on valence bond wave functions [9].", "label": "Hyponym-of", "metadata": {"id": "S0301010415002189", "spans": [275, 278, 289, 303]}}
+{"text": "Alternatively to H-atom photodetachment from the <E1>intermediate radicals</E1>, the latter may serve as <E2>reducing agents</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0301010415300355", "spans": [49, 70, 96, 111]}}
+{"text": "This is because the rough wall treatment in the soft sphere implementation adds extra virtual walls during the collision of a particle with a <E2>wall</E2>, which is a more realistic representation of a rough wall compared to the hard sphere rough wall treatment where one <E1>random wall</E1> is considered.", "label": "Hyponym-of", "metadata": {"id": "S0301932213000487", "spans": [1090, 1101, 968, 972]}}
+{"text": "By appropriately choosing one of three <E2>finite difference schemes</E2> (<E1>central, forward, or backward differencing</E1>), it has been demonstrated that thin liquid ligaments can be well resolved see Xiao (2012).", "label": "Hyponym-of", "metadata": {"id": "S0301932213001985", "spans": [203, 245, 176, 201]}}
+{"text": "To achieve this, <E1>large eddy simulations</E1> (<E2>LES</E2>) of a horizontal turbulent channel flow laden with five different particle shapes, incorporating the drag, lift and toque model derived in Zastawny et al.", "label": "Hyponym-of", "metadata": {"id": "S0301932214001931", "spans": [214, 236, 238, 241]}}
+{"text": "[54] and expanded into a <E2>group contribution approach</E2>, <E1>SAFT-\u03b3</E1>, by Papaioannou et al.", "label": "Hyponym-of", "metadata": {"id": "S0378381215300297", "spans": [801, 807, 772, 799]}}
+{"text": "Similarly, the <E2>modeling approaches</E2> used to understand and parameterize active mechanisms and phenomena over lifetime fall into the broad categories of <E1>micro-, meso- and macroscopic approaches</E1>.", "label": "Hyponym-of", "metadata": {"id": "S1359028614000989", "spans": [979, 1019, 843, 862]}}
+{"text": "Nevertheless, many present experimental <E2>nuclear fusion devices</E2> (DIII-D, <E1>TCV</E1>, etc.) and new ones (JT-60SA, KSTAR, Wenderstein-7X) use carbon elements, so the removal of carbon co-deposits is still necessary for a better device operation\u2014plasma density control, dust events, etc.", "label": "Hyponym-of", "metadata": {"id": "S2352179115300041", "spans": [1044, 1047, 1012, 1034]}}
diff --git a/data/rel/semeval2017/test.txt b/data/rel/semeval2017/test.txt
new file mode 100644
index 0000000..b023991
--- /dev/null
+++ b/data/rel/semeval2017/test.txt
@@ -0,0 +1,74 @@
+{"text": "<E1>Three-dimensional digital subtraction angiographic</E1> (<E2>3D-DSA</E2>) images from diagnostic cerebral angiography were obtained at least one day prior to embolization in all patients.", "label": "Synonym-of", "metadata": {"id": "S0010482516301810", "spans": [0, 50, 52, 58]}}
+{"text": "9 displays the growth of two of the main <E2>corrosion products</E2> that develop or form on the surface of Cu40Zn with time, <E1>hydrozincite</E1> (Fig.", "label": "Hyponym-of", "metadata": {"id": "S0010938X15301268", "spans": [122, 134, 46, 64]}}
+{"text": "Dealloying of <E1>S phase particles</E1>, which may account for \u223c60% of the <E2>constituent particles</E2> in", "label": "Hyponym-of", "metadata": {"id": "S0010938X15301554", "spans": [1073, 1090, 1126, 1147]}}
+{"text": "Measuring and analysing the hold time of the <E1>CPA pill</E1> allows the thermal boundary resistance within the <E2>pill</E2> to be assessed; the thermal boundary dictates the actual temperature of the CPA crystals in comparison to the temperature of the cold finger, which is maintained at a constant temperature by a servo control program.", "label": "Synonym-of", "metadata": {"id": "S0011227514002136", "spans": [45, 53, 104, 108]}}
+{"text": "Some of the differences of technology scale may reflect shifts in <E2>transistor parameters</E2> such as transconductance/gain, threshold voltage, and <E1>threshold slope</E1> [7].", "label": "Hyponym-of", "metadata": {"id": "S0011227515000648", "spans": [889, 904, 813, 834]}}
+{"text": "(1) have been taken from the measured thermal conductivity of another MSSL heat switch with the same 1.5mm square cross section, a free path length of 43cm and a RRR of 20,000; it has been observed from experiments conducted at MSSL that there is little change in the thermal performance for <E2>tungsten heat switches</E2> with a RRR between 20,000 and 32,000 (subject of a future publication) and therefore the performance of the <E1>20,000 RRR heat switch</E1> has been assumed to be a good approximation.", "label": "Hyponym-of", "metadata": {"id": "S0011227515001216", "spans": [960, 982, 829, 851]}}
+{"text": "A related class of techniques visualize grouping information over graphs using <E2>convex hulls</E2>, such as <E1>Vizster</E1> [22].", "label": "Hyponym-of", "metadata": {"id": "S002002551630384X", "spans": [1075, 1082, 1053, 1065]}}
+{"text": "Due to its capacity to represent complex geometries with ease, approximations are often obtained using the <E1>finite element method</E1> (<E2>FEM</E2>) to discretise the PDEs in space on realistic cardiac geometry meshes; this results in very large (up to forty-million degrees of freedom (DOF) for human heart geometries) systems of linear equations which must be solved many thousands of times over the course of even a short simulation.", "label": "Synonym-of", "metadata": {"id": "S002199911200068X", "spans": [203, 224, 226, 229]}}
+{"text": "The basis can be any suitable (scaled) <E2>univariate basis</E2> in both position and momentum, such as a Fourier basis [8] or <E1>Chebyshev polynomials</E1> [9].", "label": "Hyponym-of", "metadata": {"id": "S0021999112002847", "spans": [618, 639, 539, 555]}}
+{"text": "(10), subject to the displacement constraint (9), then have saddle-point structure,(15)where E is the tangent stiffness matrix of the unconstrained pseudo-solid problem, and the <E2>two off-diagonal blocks</E2> Cxl and <E1>Clx=CxlT</E1> arise through the imposition of the displacement constraint by the Lagrange multipliers.", "label": "Hyponym-of", "metadata": {"id": "S0021999112003579", "spans": [467, 475, 435, 458]}}
+{"text": "Inequality (22) indicates that the <E1>maximum-norm</E1> is the loosest among all <E2>p-norms</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0021999113002945", "spans": [35, 47, 73, 80]}}
+{"text": "The contact surface method for nodal-based Lagrangian <E1>cell-centered hydrodynamics</E1> (<E2>CCH</E2>) presented in this paper will use surface area weights similar in concept to those in TOODY.", "label": "Synonym-of", "metadata": {"id": "S002199911300346X", "spans": [1084, 1111, 1113, 1116]}}
+{"text": "A <E1>Rosenbrock solution</E1> is <E2>one iteration of a Newton solver</E2>.", "label": "Synonym-of", "metadata": {"id": "S0021999113004555", "spans": [702, 721, 725, 757]}}
+{"text": "Velocity in each bin is measured using the <E1>Cumulative Averaging Method</E1> (<E2>CAM</E2>) [24], while the stress tensor field is measured using the Irving\u2013", "label": "Synonym-of", "metadata": {"id": "S0021999113005603", "spans": [318, 345, 347, 350]}}
+{"text": "An accurate and flexible modelling alternative for these cases is the <E1>direct simulation Monte Carlo method</E1> (<E2>DSMC</E2>) [2].", "label": "Synonym-of", "metadata": {"id": "S0021999113005718", "spans": [501, 537, 539, 543]}}
+{"text": "The analytic test cases presented here use a <E1>coarse curvilinear mesh</E1>; for applications, <E2>meshes</E2> are typically more refined in order to capture features in the solution and so will better capture the geometry and consequently reduce this lower bound on the solution error.", "label": "Hyponym-of", "metadata": {"id": "S0021999113006955", "spans": [777, 800, 820, 826]}}
+{"text": "The property of Galilean invariance (i.e., the dependence on the relative velocity) makes DPD a profile-unbiased thermostat (PUT) [6,7] by construction and thus it is an ideal thermostat for <E2>nonequilibrium molecular dynamics</E2> (<E1>NEMD</E1>) [8].", "label": "Synonym-of", "metadata": {"id": "S0021999116303291", "spans": [979, 983, 944, 977]}}
+{"text": "For example, a wide variety of telechelic polymers (i.e. polymers with defined chain-ends) can be efficiently prepared using a combination of <E1>atom transfer radical polymerization</E1> (<E2>ATRP</E2>) and CuAAC.", "label": "Synonym-of", "metadata": {"id": "S0032386107010518", "spans": [531, 567, 569, 573]}}
+{"text": "We investigated the dynamic viscoelasticity of end-linked PDMS elastomers containing unattached linear PDMS as functions of the size of the <E1>unattached chains</E1> (<E2>Mg</E2>) and the network mesh (Mx) (Fig.", "label": "Synonym-of", "metadata": {"id": "S0032386108009397", "spans": [1051, 1068, 1070, 1072]}}
+{"text": "As a matter of fact, Dotera predicted several tiling patterns by the <E2>diagonal bond method</E2>, a new <E1>Monte Carlo Simulation</E1> [30], while Gemma and Dotera pointed out that only three regular tilings, i.e., (6.6.6), (4.8.8) and (4.6.12) are permitted for three-branched molecules proposed as the \u201ceven polygon theorem\u201d [31].", "label": "Hyponym-of", "metadata": {"id": "S0032386109001463", "spans": [949, 971, 921, 941]}}
+{"text": "Therefore, production of <E1>anionic polystyrene</E1> <E2>(PS</E2>) would be of interest if the conditions required to control the polymerization could be adapted to the market and be able to compete economically with industrial radical processes.", "label": "Synonym-of", "metadata": {"id": "S0032386109003991", "spans": [710, 729, 730, 733]}}
+{"text": "While lipases have been investigated for the <E1>ring-opening polymerization</E1> (<E2>ROP</E2>) of cyclic ester monomers [25,26], they have also been used for the preparation of polyesters by polycondensation reactions.", "label": "Synonym-of", "metadata": {"id": "S0032386109005357", "spans": [611, 638, 640, 643]}}
+{"text": "<E2>Separation applications</E2> include <E1>efficient absorption of CO2</E1> [25].", "label": "Hyponym-of", "metadata": {"id": "S0032386110001254", "spans": [1350, 1377, 1318, 1341]}}
+{"text": "[4,6,23] it is assumed that the main transition mechanism is Auger de-excitation, and the MIES spectra have been simulated by the surface <E1>density of states</E1> (<E2>DOS</E2>) projected on the surface oxygen ions of the uppermost surface layer using a Hartree\u2013Fock method (the crystal code [24,25]) and a density functional theory (DFT) method (the cetep code [26]).", "label": "Synonym-of", "metadata": {"id": "S0039602899010493", "spans": [662, 679, 681, 684]}}
+{"text": "The original data is organized in <E1>WGS84</E1> (<E2>World Geodetic System 84</E2>)", "label": "Synonym-of", "metadata": {"id": "S0098300413002124", "spans": [931, 936, 938, 962]}}
+{"text": "These workflows are expressed as <E1>directed acyclic graphs</E1> (<E2>DAGs</E2>) of tasks that exist at a conceptually higher level than their implementations as series of MapReduce jobs.", "label": "Synonym-of", "metadata": {"id": "S0098300414000259", "spans": [104, 127, 129, 133]}}
+{"text": "The company achieved this by harnessing the capabilities of what we term a hybrid ERP system, combining the functionality of a traditional (formal) ERP installation with the capabilities of <E1>Enterprise Social Software</E1> (<E2>ESS</E2>).", "label": "Synonym-of", "metadata": {"id": "S0166361516300926", "spans": [832, 858, 860, 863]}}
+{"text": "In vitro characterization of the cellular uptake of neoglycocomplexes using <E1>bone marrow derived dendritic cells</E1> (<E2>BMDCs</E2>) demonstrated superior ingestion of mannan-conjugates MN\u2013Ova and MN", "label": "Synonym-of", "metadata": {"id": "S0168365912007560", "spans": [393, 428, 430, 435]}}
+{"text": "A <E2>surfactant</E2>, <E1>cetyltrimethylammonium bromide</E1> (CTAB; Sigma-Aldrich Corp., St. Louis, MO), with an initial concentration much less than the critical micelle concentration was added to lower the surface tension of the liquid mixture and act as the mesoporous structure-directing template.", "label": "Hyponym-of", "metadata": {"id": "S0168365913001521", "spans": [316, 346, 304, 314]}}
+{"text": "The most widely used ion source in FIB instruments is a <E1>gallium</E1> (<E2>Ga</E2>) liquid metal ion source (LMIS) [1].", "label": "Synonym-of", "metadata": {"id": "S0168583X14003929", "spans": [56, 63, 65, 67]}}
+{"text": "Considering the contribution of the M0 type critical point with the lowest three dimensions, its dielectric function can be calculated by <E1>Adachi's model</E1> [15,22,23]: <E2>\u03b5(\u0395)=\u03b5\u221e+{A0[2\u2212(1+\u03c70)1/2\u2212(1\u2212\u03c70)1/2]}/(EOBG2/3\u03c702)</E2>.", "label": "Synonym-of", "metadata": {"id": "S0257897213003563", "spans": [518, 532, 545, 593]}}
+{"text": "Functionally Graded Materials (<E1>FGMs</E1>), described in detail by Suresh and Mortensen [1], are a type of <E2>heterogeneous composite materials</E2> exhibiting gradual variation in volume fraction of their constituents from one surface of the material to the other, resulting in properties which vary continuously across the material.", "label": "Hyponym-of", "metadata": {"id": "S0263822312000657", "spans": [31, 35, 101, 134]}}
+{"text": "Studies have examined the axial crushing behaviour of fibre-reinforced tubes [2], fibreglass tubes [3,4], PVC tubes [5] and <E1>carbon fibre reinforced plastic</E1> (<E2>CFRP</E2>) tubes [6].", "label": "Synonym-of", "metadata": {"id": "S0263822312001468", "spans": [1368, 1399, 1401, 1405]}}
+{"text": "In addition, powder formation and plowing can be distinguished using a dimensionless parameter (Sc\u204e) and a <E1>critical parameter</E1> (<E2>Sc,critical\u204e</E2>).(3)Sc\u204e=HvRmaxKIc(4)Sc,critical\u204e=51+10\u03bcwhere", "label": "Hyponym-of", "metadata": {"id": "S0301679X14000449", "spans": [574, 592, 594, 606]}}
+{"text": "While originally the cosmological constant problem [6] was related to the question why \u039b is so unnaturally small, the discovery of the important role played by \u03c1\u039b has shifted the emphasis toward the \u201c<E1>coincidence problem</E1>\u201d, the question <E2>why \u03c1 and \u03c1\u039b happen to be of the same order of magnitude precisely at this very moment</E2> [7].", "label": "Synonym-of", "metadata": {"id": "S0370269301015222", "spans": [1166, 1185, 1201, 1287]}}
+{"text": "We consider cosmological consequences of a conformal-invariant formulation of Einstein's General Relativity where instead of the scale factor of the spatial metrics in the action functional a <E1>massless scalar</E1> (<E2>dilaton</E2>) field occurs which scales all masses including the Planck mass.", "label": "Synonym-of", "metadata": {"id": "S0370269302013412", "spans": [192, 207, 209, 216]}}
+{"text": "In contrast, the NA50 experiment with a <E2>heavy projectile and target</E2> (<E1>Pb+Pb</E1>) revealed essentially stronger J/\u03c8 suppression for central collisions [4\u20137].", "label": "Hyponym-of", "metadata": {"id": "S0370269302014880", "spans": [1186, 1191, 1157, 1184]}}
+{"text": "In contrast, our <E1>annihilation form factor</E1> <E2>R2\u03c0(s)</E2> is C-even as discussed after (24).", "label": "Synonym-of", "metadata": {"id": "S0370269302014892", "spans": [1002, 1026, 1027, 1033]}}
+{"text": "Our purpose is to investigate the quantum effects in the decays of the light CP-even <E2>Higgs boson</E2> <E1>h0</E1>, especially looking for sizeable differences with respect to the SM in the decoupling regime.", "label": "Synonym-of", "metadata": {"id": "S0370269303015478", "spans": [769, 771, 757, 768]}}
+{"text": "The x\u2013t relation was precisely calculated by a <E2>drift chamber simulation package</E2>, <E1>GARFIELD</E1> [20], and a gas property simulation package, MAGBOLTZ [21].", "label": "Hyponym-of", "metadata": {"id": "S0370269304007567", "spans": [322, 330, 288, 320]}}
+{"text": "This allows to directly apply the known analytical solutions for <E1>Pc</E1>, and, upon rotating back, obtain a generalization of these results to the <E2>NSI</E2> case.", "label": "Hyponym-of", "metadata": {"id": "S0370269304008421", "spans": [294, 296, 371, 374]}}
+{"text": "One major goal of current <E2>nuclear physics</E2> is the <E1>observation of at least partial restoration of chiral symmetry</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0370269304008494", "spans": [49, 111, 26, 41]}}
+{"text": ") SYM on its Coulomb branch, with the <E2>gauge group</E2> <E1>SU(N)</E1> spontaneously broken to SU(N\u22121)\u00d7U(1).", "label": "Hyponym-of", "metadata": {"id": "S0370269304012638", "spans": [971, 976, 959, 970]}}
+{"text": "The <E1>Substrate Induced Coagulation</E1> (<E2>SIC</E2>) coating process provides a self assembled and almost binder free coating with small particles.", "label": "Synonym-of", "metadata": {"id": "S037877531001949X", "spans": [4, 33, 35, 38]}}
+{"text": "In particular, anelasticity may offer a way to study the operation of the <E1>shear transformation zones</E1> (<E2>STZs</E2> [17]) often used to interpret the deformation of MGs.", "label": "Synonym-of", "metadata": {"id": "S092583881302834X", "spans": [663, 689, 691, 695]}}
+{"text": "<E1>X-ray Diffraction</E1> (<E2>XRD</E2>) grain size calculations before and after SPS showed that the average grain size of the alloy only increased from 25nm to 50nm (from powder to bulk state).", "label": "Synonym-of", "metadata": {"id": "S0925838814009669", "spans": [208, 225, 227, 230]}}
+{"text": "Through it, the client can access calculated <E1>physical properties</E1> (<E2>thermodynamic, crystallographic, or mechanical properties</E2>), as well as simulation provenance and runtime properties of the included systems.", "label": "Synonym-of", "metadata": {"id": "S0927025614003322", "spans": [471, 490, 492, 549]}}
+{"text": "In this paper, crystal plasticity model, in combination with XFEM, has been applied to study cyclic deformation and fatigue crack growth in a nickel-based superalloy <E1>LSHR</E1> (<E2>Low Solvus High Refractory</E2>) at high temperature.", "label": "Synonym-of", "metadata": {"id": "S0927025615006357", "spans": [166, 170, 172, 198]}}
+{"text": "This is a result of a defect-decoupling resonance-shift effect and is referred to as the <E1>near electrical resonance signal enhancement</E1> (<E2>NERSE</E2>) phenomenon.", "label": "Synonym-of", "metadata": {"id": "S096386951400070X", "spans": [414, 458, 460, 465]}}
+{"text": "Other methods of <E2>time\u2013frequency analysis</E2>, such as <E1>discrete wavelet analysis</E1>, benefit from advantage of multi-resolution analysis, which offers improved temporal resolution of the high frequency components, and frequency resolution of the low frequency components [25,18,19].", "label": "Hyponym-of", "metadata": {"id": "S0963869514000875", "spans": [469, 494, 436, 459]}}
+{"text": "At each step, the algorithm selects a group of individual values from the <E2>population</E2> (<E1>parent</E1>) which are evolved through crossover or mutation to produce members of the next generation.", "label": "Hyponym-of", "metadata": {"id": "S0963869514000954", "spans": [645, 651, 633, 643]}}
+{"text": "The intensity of the TFM image ITFM at any point (x,z) is given by:(10)ITFM(x,z)=|\u2211HTR(1c((xT\u2212x)2+z2+(xR\u2212x)2+z2))|forallT,Rwhere HTR(t) is the Hilbert transform of a signal uTR(t) in the FMC data, xT is the x-position of the transmitting element (T) and xR is the x-position of the <E1>receiving element</E1> (<E2>R</E2>).", "label": "Synonym-of", "metadata": {"id": "S0963869514001066", "spans": [728, 745, 747, 748]}}
+{"text": "It is known that as the temperature of the sample rises, the Lorentz mechanism remains dominant until Tc of <E2>steel</E2> is reached (770\u00b0C for a <E1>low carbon steel</E1>), when the magnetostrictive mechanism becomes more efficient [15].", "label": "Hyponym-of", "metadata": {"id": "S0963869514001078", "spans": [138, 154, 108, 113]}}
+{"text": "Under certain conditions, such as over short propagation distances, <E1>SH waves</E1> can be treated as <E2>bulk waves</E2>.", "label": "Synonym-of", "metadata": {"id": "S0963869515000572", "spans": [922, 930, 949, 959]}}
+{"text": "Advances in <E1>scanning electron microscopy</E1> (<E2>SEM</E2>) technology are now driving a paradigm shift in electron imaging.", "label": "Synonym-of", "metadata": {"id": "S0968432814000250", "spans": [722, 750, 752, 755]}}
+{"text": "<E1>Rhodamines</E1> are well-known <E2>xanthenes dyes</E2>, which have been extensively used for many widespread applications in single-molecule detection [24], DNA-sequence determination [25], fluorescence labelling [26], etc. due to their strong fluorescence over the visible spectral region.", "label": "Hyponym-of", "metadata": {"id": "S1010603009002676", "spans": [164, 174, 190, 204]}}
+{"text": "The latter ones are CoOx, <E1>CoPi</E1> (<E2>CoPOx</E2>), IrOx, and RuOx which are used for water oxidation, among which CoPi is reported to be the most effective co-catalyst for water oxidation [13].", "label": "Synonym-of", "metadata": {"id": "S1010603013001809", "spans": [626, 630, 632, 637]}}
+{"text": "The first-principles calculations are performed using the <E1>Cambridge Serial Total Energy Package</E1> (<E2>CASTEP</E2>) [21] which implements the plane-wave pseudopotential DFT method.", "label": "Synonym-of", "metadata": {"id": "S1359646214000165", "spans": [58, 95, 97, 103]}}
+{"text": "To avoid these problems, we have implemented fitness calculation according to the <E1>Strength Pareto Evolutionary Algorithm</E1> (<E2>SPEA</E2>) by Zitzler and Thiele (1999), instead of using a single (weighted) fitness or cost function.", "label": "Synonym-of", "metadata": {"id": "S1364815216302122", "spans": [882, 920, 922, 926]}}
+{"text": "and <E2>parameter choices</E2> (<E1>accretion rates</E1>, tide ranges, etc.)", "label": "Hyponym-of", "metadata": {"id": "S1364815216302705", "spans": [1274, 1289, 1255, 1272]}}
+{"text": "Also, we used the division of MSE to three <E2>constituent statistics</E2> (SB, <E1>SDSD</E1> and LCS) to show how the level of correlation can affect the sum of residuals.", "label": "Hyponym-of", "metadata": {"id": "S136481521630305X", "spans": [324, 328, 296, 318]}}
+{"text": "Typical physically-based 2D flood models solve the <E1>Shallow Water Equations</E1> (<E2>SWEs</E2>), requiring high computational resources.", "label": "Synonym-of", "metadata": {"id": "S1364815216303243", "spans": [51, 74, 76, 80]}}
+{"text": "The proposed <E1>multihop routing protocol</E1>, <E2>PHASeR</E2>, applies the technique of blind forwarding in a MWSN, which increases the reliability of data delivery through its inherent use of multiple routes.", "label": "Synonym-of", "metadata": {"id": "S1574119215000796", "spans": [13, 38, 40, 46]}}
+{"text": "A new class of <E2>uranium superconductors</E2> emerged in the 1980's with the discovery of <E1>uranium heavy fermion superconductors</E1> [10].", "label": "Hyponym-of", "metadata": {"id": "S1631070514000954", "spans": [240, 277, 172, 195]}}
+{"text": "Eg: (1) incomplete absorption, where photons with energies below Eg are not absorbed; (2) <E1>thermalization</E1> or <E2>carrier cooling</E2>, where solar photons with sufficient energy generate electron-hole pairs and then immediately lose almost all energy in excess of Eg in the form of heat; and (3) radiative recombination, where a small fraction of the excited states radioactively recombine with the ground state at the maximum power output (Hanna & Nozik, 2006; Henry, 1980).", "label": "Synonym-of", "metadata": {"id": "S167420011300196X", "spans": [538, 552, 556, 571]}}
+{"text": "They are used for the hydrolysis of <E2>non-starchy polysaccharides</E2> such as <E1>arabinoxylan</E1> in monogastric diets (Walsh, Power, & Headon, 1993).", "label": "Hyponym-of", "metadata": {"id": "S1687850714000405", "spans": [768, 780, 732, 759]}}
+{"text": "ObjectiveElectrically evoked auditory steady-state responses (EASSRs) are neural potentials measured in the electroencephalogram (EEG) in response to periodic pulse trains presented, for example, through a <E2>cochlear implant</E2> (<E1>CI</E1>).", "label": "Synonym-of", "metadata": {"id": "S1746809416300933", "spans": [224, 226, 206, 222]}}
+{"text": "One of the benefits of <E2>graphical microsimulation</E2> is that the <E1>2D and 3D simulations</E1> help the researcher to visualise a new scheme and its potential benefits but also to highlight unrealistic behaviour.", "label": "Synonym-of", "metadata": {"id": "S1877750311000676", "spans": [1032, 1053, 994, 1019]}}
+{"text": "This performance prediction model can be applied largely to our <E1>HemeLB application</E1>, although <E2>HemeLB</E2> uses a different decomposition technique and performs real-time rendering and visualisation tasks during the LB simulations.", "label": "Synonym-of", "metadata": {"id": "S1877750313000240", "spans": [341, 359, 370, 376]}}
+{"text": "The Liley model [15] considered here, for instance, consists of fourteen coupled <E1>Partial Differential Equations</E1> (<E2>PDEs</E2>) with strong nonlinearities, imposed by coupling between the mean membrane potentials and the mean synaptic inputs.", "label": "Synonym-of", "metadata": {"id": "S187775031300077X", "spans": [289, 319, 321, 325]}}
+{"text": "<E1>FabHemeLB</E1> is a <E2>Python tool</E2> which helps automate the construction and management of ensemble simulation workflows.", "label": "Hyponym-of", "metadata": {"id": "S1877750315000460", "spans": [0, 9, 15, 26]}}
+{"text": "During the face preprocessing, a rapid eye location method named <E2>ER</E2> (<E1>Eyeball Search</E1>) is proposed and implemented.", "label": "Synonym-of", "metadata": {"id": "S2212671612000431", "spans": [1070, 1084, 1066, 1068]}}
+{"text": "A sentence alignment model based on combined clues and <E1>Kernel Extensional Matrix Matching</E1> (<E2>KEMM</E2>) method is proposed.", "label": "Synonym-of", "metadata": {"id": "S2212671612000741", "spans": [55, 89, 91, 95]}}
+{"text": "The <E1>Speeded up robust features</E1> (or <E2>SURF</E2>) is presented as second.", "label": "Synonym-of", "metadata": {"id": "S221267161400105X", "spans": [157, 183, 188, 192]}}
diff --git a/data/rel/semeval2017/train.txt b/data/rel/semeval2017/train.txt
new file mode 100644
index 0000000..2b18e7f
--- /dev/null
+++ b/data/rel/semeval2017/train.txt
@@ -0,0 +1,229 @@
+{"text": "There were attempts to develop <E2>improved molecular dynamics methods</E2> combining quantum features with a <E1>semi classical treatment of dynamical correlations</E1>  [17,18].", "label": "Hyponym-of", "metadata": {"id": "S0003491615000433", "spans": [318, 368, 248, 283]}}
+{"text": "A fluctuating vacuum is a general feature of <E2>quantum fields</E2>, of which the <E1>free Maxwell field</E1> considered in  [1\u201312] is but one example.", "label": "Hyponym-of", "metadata": {"id": "S0003491615001955", "spans": [74, 92, 45, 59]}}
+{"text": "The <E2>electronic relaxation timescale</E2> is found to be <E1>sub 50fs</E1> whereas the timescale for intramolecular vibrational relaxation, occurring in Q00 band, was found to be over a picosecond for Co(II)\u2013OEP and Ni(II)\u2013OEP and within a picosecond for Zn(II)\u2013OEP.", "label": "Hyponym-of", "metadata": {"id": "S0009261409006666", "spans": [603, 611, 556, 587]}}
+{"text": "<E1>Water</E1> is the most important <E2>liquid</E2>, and the nature of its structure remains a topic of keen debate and an active area of research [1\u20139].", "label": "Hyponym-of", "metadata": {"id": "S0009261412006513", "spans": [0, 5, 28, 34]}}
+{"text": "The fitting of the rise and decay components of the transients were done by <E2>Matlab\u00ae programming</E2> using the <E1>curve fitting Levenberg\u2013Marquardt algorithm</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0009261412012365", "spans": [383, 426, 353, 372]}}
+{"text": "Experimental studies of the dynamics of individual carbon atoms in graphene have been empowered by the recent progress in <E1>aberration-corrected transmission electron microscopy</E1> (<E2>AC-TEM</E2>) capable of sub-\u00c5ngstrom resolution.", "label": "Synonym-of", "metadata": {"id": "S0009261412013838", "spans": [122, 175, 177, 183]}}
+{"text": "Such tests include studies of the nitrogen exchange reaction [14] both adiabatic by running trajectories on the lowest surfaces and non-adiabatic by using the <E1>trajectory surface hoping</E1> (<E2>TSH</E2>) method [22,23] for transitions to the excited state of same symmetry.", "label": "Synonym-of", "metadata": {"id": "S0009261413006738", "spans": [265, 290, 292, 295]}}
+{"text": "For barrierless systems such as ion\u2013molecule reactions, the concepts of <E1>OTS</E1> and TTS can be clearly formulated in terms of well defined phase <E2>space geometrical objects</E2>.", "label": "Hyponym-of", "metadata": {"id": "S000926141301539X", "spans": [180, 183, 249, 274]}}
+{"text": "For <E2>\u03b3-ray radiation</E2>, <E1>single step</E1> is the main process to cause DSBs (see Figure 3b), which is attributed to the generation of number of ROS upon the incident of individual photon of \u03b3-ray.", "label": "Hyponym-of", "metadata": {"id": "S000926141500651X", "spans": [139, 150, 122, 137]}}
+{"text": "EDS maps of the TEM samples were collected using the Nanolab 600 with a <E1>Scanning TEM</E1> (<E2>STEM</E2>) detector and an EDAX Genesis EDS system at an accelerating voltage of 30kV.", "label": "Synonym-of", "metadata": {"id": "S0010938X12001163", "spans": [1271, 1283, 1285, 1289]}}
+{"text": "The study outlines a trial of transient response analysis on full-scale motorway bridge structures to obtain information concerning the steel\u2013concrete interface and is part of a larger study to assess the long-term sustained benefits offered by <E2>Impressed Current Cathodic Protection</E2> (<E1>ICCP</E1>) after the interruption of the protective current [1].", "label": "Synonym-of", "metadata": {"id": "S0010938X12002508", "spans": [284, 288, 245, 282]}}
+{"text": "All the 100h tests and the test conducted at 650\u00b0C were performed using a <E1>thermogravimetric balance</E1> (<E2>TGA</E2>).", "label": "Synonym-of", "metadata": {"id": "S0010938X13002187", "spans": [211, 236, 238, 241]}}
+{"text": "Due to the presence of the open porosity in the outer layer of the coating, a measurement length for determination of the <E2>roughness</E2> (<E1>Ra</E1>) of 0.8mm was used.", "label": "Synonym-of", "metadata": {"id": "S0010938X13005945", "spans": [1037, 1039, 1026, 1035]}}
+{"text": "The attempt to overcome this limitation in Ti-based alloys has led to the production of <E2>alloys with substantially improved oxidation resistance</E2> such as <E1>\u03b2-21S</E1> and also development of coatings and pre-oxidation techniques [1,4\u20136].", "label": "Hyponym-of", "metadata": {"id": "S0010938X1500195X", "spans": [509, 514, 445, 500]}}
+{"text": "Frankel presented a method to directly measure the average anodic current density from the growing pit boundary velocity in <E1>Al</E1> [33], an <E2>Al alloy</E2> [34] and", "label": "Hyponym-of", "metadata": {"id": "S0010938X15002954", "spans": [273, 275, 285, 293]}}
+{"text": "Stress corrosion cracking in pressurized water reactors (PWSCC) occurs in Alloy 600 in <E2>safety critical components</E2>, such as steam generator tubes, <E1>heater sleeves</E1>, pressurized instrument penetrations and control rod drive mechanisms [2,6,7].", "label": "Hyponym-of", "metadata": {"id": "S0010938X15301189", "spans": [626, 640, 567, 593]}}
+{"text": "It states that, if the underlying thickness measurements in each block are taken from independent and identical distributions, then the sample of minimum thickness measurements will follow a <E1>generalized extreme value distribution</E1> (<E2>GEVD</E2>).", "label": "Synonym-of", "metadata": {"id": "S0010938X1530161X", "spans": [883, 921, 923, 927]}}
+{"text": "The thermodynamics of <E1>copper-zinc alloys</E1> (<E2>brass</E2>) was subject of numerous investigations.", "label": "Synonym-of", "metadata": {"id": "S0021961413004321", "spans": [22, 40, 42, 47]}}
+{"text": "Velocity in each bin is measured using the <E1>Cumulative Averaging Method</E1> (<E2>CAM</E2>) [24], while the stress tensor field is measured using the Irving\u2013", "label": "Synonym-of", "metadata": {"id": "S0021999113005603", "spans": [318, 345, 347, 350]}}
+{"text": "15 depicts the effect of the Schmidt and the chemical reaction rate on the <E2>bulk-mean concentration</E2> <E1>CB\u204e\u00af</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0021999113005652", "spans": [500, 504, 476, 499]}}
+{"text": "An accurate and flexible modelling alternative for these cases is the <E1>direct simulation Monte Carlo method</E1> (<E2>DSMC</E2>) [2].", "label": "Synonym-of", "metadata": {"id": "S0021999113005718", "spans": [501, 537, 539, 543]}}
+{"text": "The analytic test cases presented here use a <E1>coarse curvilinear mesh</E1>; for applications, <E2>meshes</E2> are typically more refined in order to capture features in the solution and so will better capture the geometry and consequently reduce this lower bound on the solution error.", "label": "Hyponym-of", "metadata": {"id": "S0021999113006955", "spans": [777, 800, 820, 826]}}
+{"text": "The computational intensity of the particle method is greater still when simulating low-speed <E1>microfluidic devices</E1> where there are only <E2>small deviations from equilibrium</E2>, characterised by extremely low Mach numbers and weak temperature gradients.", "label": "Hyponym-of", "metadata": {"id": "S0021999114002587", "spans": [1008, 1028, 1050, 1083]}}
+{"text": "Further, we have developed a <E1>fully discrete scheme</E1> based on a <E2>finite difference discretization of the Caputo fractional derivatives</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0021999114007396", "spans": [545, 566, 578, 647]}}
+{"text": "In fluid dynamics, a typical <E1>hybrid</E1> combines a molecular treatment (a \u2018micro\u2019 model) with a <E2>continuum-fluid one</E2> (a \u2018macro\u2019 model), with the aim of obtaining the accuracy of the former with the efficiency of the latter [1\u20134].", "label": "Hyponym-of", "metadata": {"id": "S0021999114008523", "spans": [122, 128, 185, 204]}}
+{"text": "That is to say, the model involves time derivatives of the three fields coupled to forms involving variational derivatives of some <E2>functional</E2> \u2013 typically the <E1>free energy functional</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0021999115000546", "spans": [564, 586, 537, 547]}}
+{"text": "The energy-consuming <E1>uniaxial polar agents</E1> constituting the <E2>gel</E2> are modeled as unit vectors.", "label": "Synonym-of", "metadata": {"id": "S0021999115001412", "spans": [415, 436, 454, 457]}}
+{"text": "Both methods precisely reconstruct the upwind value for equidistant, rectilinear meshes but fail to do so on <E1>non-equidistant</E1> or <E2>non-rectilinear meshes</E2>, as discussed in Section 3.2.", "label": "Synonym-of", "metadata": {"id": "S0021999115003939", "spans": [656, 671, 675, 697]}}
+{"text": "A popular choice is to <E1>couple a set of quadrature points with an equal number of nodal Lagrange polynomials</E1> defined at the same points, leading to a <E2>collocation method</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0021999115004301", "spans": [23, 107, 149, 167]}}
+{"text": "For the <E1>spatial discretisation</E1> a <E2>structured triangle mesh</E2> is used, with an element edge length of 67km (Fig.", "label": "Hyponym-of", "metadata": {"id": "S0021999115007238", "spans": [479, 501, 504, 528]}}
+{"text": "Broadly these may be modelled as continuous problems where <E2>phases are mixed</E2> (e.g. oil\u2013water homogenisation [36], <E1>sediment transport</E1> [18]) or interface problems where phases are distinct and interact at the interface (e.g. gas-assisted injection moulding [21], liquid jet breakup [40]).", "label": "Hyponym-of", "metadata": {"id": "S0021999115008207", "spans": [209, 227, 155, 171]}}
+{"text": "The <E1>inviscid case</E1> (<E2>linear advection</E2>) is then addressed in Sec.", "label": "Synonym-of", "metadata": {"id": "S0021999115008256", "spans": [466, 479, 481, 497]}}
+{"text": "This may also be the case for <E1>channelling events</E1>, where <E2>energetic atoms travel deep into the lattice through channels of low atomic density</E2>.", "label": "Synonym-of", "metadata": {"id": "S0022311511010014", "spans": [766, 784, 792, 875]}}
+{"text": "The <E2>estimated upstream W fluxes</E2>, <E1>FWupstrem</E1>, are in good agreement with the experimentally observed values \u2a7d1019m-2s-1", "label": "Synonym-of", "metadata": {"id": "S0022311513001165", "spans": [180, 189, 151, 178]}}
+{"text": "This is still short compared to operating times, so is important to consider the equilibrium result of such processes: If the vacancies and SIAs were likely to find their Frenkel partner, recombine, and annihilate, then the metal should essentially return to its original structure; however, if <E2>defects</E2> instead formed large clusters of a single type this could result in formation of <E1>voids</E1>, dislocation loops or swelling, possibly weakening the material in the process.", "label": "Hyponym-of", "metadata": {"id": "S0022311513011951", "spans": [566, 571, 477, 484]}}
+{"text": "The <E1>vapour phase</E1> consists of a <E2>number of different gases</E2> with silicon exhibiting a far higher partial pressure than all carbon containing species over the full temperature range.", "label": "Hyponym-of", "metadata": {"id": "S0022311514001640", "spans": [4, 16, 31, 56]}}
+{"text": "The <E1>second stress state</E1> is a <E2>tri-axial tensile stress</E2> designed to represent the zone ahead of an advancing crack tip.", "label": "Hyponym-of", "metadata": {"id": "S0022311514005480", "spans": [4, 23, 29, 53]}}
+{"text": "The family of split interstitial clusters was extended to include <E2>tri-interstitials</E2> [8] (a <E1>di-interstitial with the fourth Oi site occupied</E1>) and quad-interstitials [9] (two di-interstitials on adjacent sites, giving a total of two VO and six Oi)", "label": "Synonym-of", "metadata": {"id": "S0022311514006849", "spans": [683, 731, 658, 675]}}
+{"text": "A vacancy is introduced into the simulation cell and the system is minimised using a conjugate gradient algorithm, yielding a <E1>single vacancy formation energy</E1> <E2>Evac</E2> of 1.72eV. Next, the atom with the highest potential energy is removed from the system and again the system is minimised.", "label": "Synonym-of", "metadata": {"id": "S0022311514007119", "spans": [518, 549, 550, 554]}}
+{"text": "Typical compositions of <E2>ODS steels</E2> include between <E1>9 and 14at.% Cr</E1> for oxidation resistance (most commonly 14at.%); W for solid solution hardening; Y2O3 that is put into solid solution during the initial, mechanical alloying, process but then during consolidation at high temperatures forms precipitates; and Ti to inhibit significant growth of the oxide particles; the balance being made up of Fe and impurities", "label": "Hyponym-of", "metadata": {"id": "S0022311514008691", "spans": [891, 906, 864, 874]}}
+{"text": "Experiments using Synchrotron X-Ray Diffraction (S-XRD) by both Polatidis et al. and Petigny et al., have separately shown that <E1>oxides</E1> formed on Zircaloy-4 are composed of <E2>monoclinic and stabilised tetragonal phases</E2>, with an \u223c7% reduction in the tetragonal phase fraction from 1 to 3\u03bcm oxide growth [4,10].", "label": "Hyponym-of", "metadata": {"id": "S002231151500032X", "spans": [960, 966, 1004, 1047]}}
+{"text": "\u2013density space in powder consolidation maps when compared with <E2>conventional methods</E2>, such as <E1>hot pressing sintering</E1> and HIP with ramp rate of 50\u201380\u00b0C/min and a few hours holding time.", "label": "Hyponym-of", "metadata": {"id": "S0022311515002391", "spans": [848, 870, 818, 838]}}
+{"text": "<E1>Zirconium alloys</E1> are commonly used as the <E2>fuel cladding</E2> for water cooled nuclear fission reactors, mainly due to their low neutron cross-section, good corrosion resistance during normal operating conditions and sufficient mechanical strength [1].", "label": "Hyponym-of", "metadata": {"id": "S0022311515300295", "spans": [0, 16, 42, 55]}}
+{"text": "Whilst a number of techniques have been employed for this purpose, it is clear that various techniques within <E1>transmission electron microscopy</E1> (<E2>TEM</E2>) will be among the most versatile and informative for this purpose, although additional information can be added by techniques such as atom probe tomography.", "label": "Synonym-of", "metadata": {"id": "S0022311515300477", "spans": [1016, 1048, 1050, 1053]}}
+{"text": "Solid pieces of 23\u2013114 mg were further used to measure the enthalpy increments using a <E1>Setaram Multi-detector High Temperature Calorimeter</E1> (<E2>MDHTC-96</E2>) using a drop detector.", "label": "Hyponym-of", "metadata": {"id": "S0022311515300830", "spans": [87, 138, 140, 148]}}
+{"text": "Following fission, noble gas atoms will be distributed in the fuel matrix initially accommodated at <E2>point defects trap sites</E2>, generally thought to be <E1>Schottky trivacancy defects</E1>", "label": "Hyponym-of", "metadata": {"id": "S0022311515301963", "spans": [150, 177, 100, 124]}}
+{"text": "The <E2>transmutation-created inert gas</E2>, especially <E1>He</E1>, plays an important role in the microstructural evolution of these steels under neutron irradiation.", "label": "Hyponym-of", "metadata": {"id": "S0022311515303640", "spans": [139, 141, 95, 126]}}
+{"text": "An increase of neutron leakage from the core region can be achieved through <E2>modifications in the core geometry</E2> (usually by adopting a <E1>pan-cake geometry of the active core region</E1> at the expense of the general neutron economy).", "label": "Hyponym-of", "metadata": {"id": "S0029549314001551", "spans": [134, 177, 76, 110]}}
+{"text": "The times of the gradient changes, which separate linear trends of several years, have associated step changes in the second time derivative of the MF (<E1>secular acceleration</E1> (<E2>SA</E2>)) and impulses in the third time derivative.", "label": "Synonym-of", "metadata": {"id": "S0031920113000708", "spans": [545, 565, 567, 569]}}
+{"text": "Optical microscopes, transmission electron microscopes (TEMs), scanning electron microscopes (SEMs) and <E1>atomic force microscopes</E1> (<E2>AFMs</E2>) are commercially available and widely used.", "label": "Synonym-of", "metadata": {"id": "S003238610801080X", "spans": [249, 273, 275, 279]}}
+{"text": "This process contains <E2>aqueous droplets</E2> (including <E1>water-soluble monomers</E1>) stably dispersed, with the aid of oil-soluble surfactants, in a continuous organic medium.", "label": "Hyponym-of", "metadata": {"id": "S0032386109005485", "spans": [256, 278, 228, 244]}}
+{"text": "A number of <E1>chemical vapor deposition</E1> (<E2>CVD</E2>) processes have been developed to grow SWNTs and MWNTs, all involving the reaction of a gaseous carbon compound as feedstock.", "label": "Synonym-of", "metadata": {"id": "S0032386109006612", "spans": [560, 585, 587, 590]}}
+{"text": "A <E1>tri-block copolymer</E1> was subsequently synthesized and the TEM images of this <E2>polymer</E2> showed that it formed spherical aggregates [50].", "label": "Synonym-of", "metadata": {"id": "S0032386109007290", "spans": [449, 468, 525, 532]}}
+{"text": "In general, the <E1>ion exchange capacity</E1> (<E2>IEC</E2>) is closely related to the proton conductivity of PEMs because the acid functionalities, such as sulfonic acid groups, contribute to the proton conduction in a membrane.", "label": "Synonym-of", "metadata": {"id": "S0032386109007423", "spans": [16, 37, 39, 42]}}
+{"text": "<E2>Heterophase polymerizations</E2> (i.e. <E1>emulsion</E1>, dispersion and miniemulsion polymerizations) present the advantage of easier removal of the resulting product from the reactor compared to bulk polymerization thanks to the low viscosity of the reaction medium.", "label": "Hyponym-of", "metadata": {"id": "S0032386109010386", "spans": [482, 490, 448, 475]}}
+{"text": "In contrast, the initiation efficiency is not always perfect as seen in the molybdenum alkylidene initiators, because dissociation of <E2>ligand</E2> (<E1>PR3</E1> etc.) should be required to generate the catalytically active species in the ROMP with the ruthenium carbene catalysts (Scheme 2) [67\u201369].", "label": "Hyponym-of", "metadata": {"id": "S0032386110001667", "spans": [699, 702, 691, 697]}}
+{"text": "<E1>ROM polymers</E1> have been tested as <E2>matrix materials</E2> for the oxygen sensing phosphorescent complex platinum tetrakis(pentafluorophenyl)porphyrin.", "label": "Hyponym-of", "metadata": {"id": "S0032386110004039", "spans": [129, 141, 162, 178]}}
+{"text": "<E1>Another choice</E1> was to <E2>graft the fluorinated groups on the copolymers with functional groups</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0032386114008428", "spans": [0, 14, 22, 91]}}
+{"text": "Thermal performance of the smart window has been predicted under different <E2>simulated parameters</E2> namely, <E1>direct solar radiation intensity</E1>, ambient temperature, water inlet temperature, and water flow rate.", "label": "Hyponym-of", "metadata": {"id": "S0038092X14000942", "spans": [104, 136, 75, 95]}}
+{"text": "The impact of shading on performance varies depending on the electrical series and parallel arrangement of cells within a module and <E1>modules</E1> within an <E2>installed array</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0038092X14004770", "spans": [214, 221, 232, 247]}}
+{"text": "(2008) as an <E1>iterative extension of the standard static photon mapping</E1> approach as implemented in the <E2>Radiance extension</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0038092X15000559", "spans": [79, 136, 168, 186]}}
+{"text": "For the high efficiency system, a power of 40kWp was considered, with a <E2>system</E2> composed by 10 strings of 18 modules per string and an approximate system <E1>Voc of 873</E1>", "label": "Hyponym-of", "metadata": {"id": "S0038092X15001681", "spans": [527, 537, 446, 452]}}
+{"text": "based <E2>isogeometric analysis</E2> (<E1>IGA</E1>) applied to complex geometries requires to represent the computational domain as a collection of several NURBS geometries.", "label": "Synonym-of", "metadata": {"id": "S0045782512002599", "spans": [358, 361, 335, 356]}}
+{"text": "For first order hexahedral elements, [2,28] found good results for the <E2>element types</E2> <E1>C3D_8N_27C</E1> and", "label": "Hyponym-of", "metadata": {"id": "S0045782512003428", "spans": [636, 646, 622, 635]}}
+{"text": "The <E2>level set method</E2> was presented by Osher and Sethian [20] who described the temporal propagation of moving interfaces by <E1>numerical methods</E1> solving the Hamilton\u2013Jacobi equation.", "label": "Hyponym-of", "metadata": {"id": "S0045782513000479", "spans": [196, 213, 76, 92]}}
+{"text": "<E2>Fully discrete numerical schemes</E2> are derived based on a <E1>lagged and non-lagged backward Euler time stepping method</E1> applied to a mixed and Galerkin finite element spatial discretization.", "label": "Hyponym-of", "metadata": {"id": "S0045782513000546", "spans": [369, 426, 313, 345]}}
+{"text": "Traditionally, the simulation of incompressible fluid flow by the SPH method has been through a <E1>weakly compressible SPH formulation</E1> (<E2>WCSPH</E2>).", "label": "Synonym-of", "metadata": {"id": "S0045782513001448", "spans": [96, 131, 133, 138]}}
+{"text": "[16], where the <E1>shear stress</E1> is generated by <E2>constraining the velocity</E2> in a \u2018frame\u2019 rather than by modifying the shape of the box.", "label": "Hyponym-of", "metadata": {"id": "S0045782513001473", "spans": [117, 129, 146, 171]}}
+{"text": "<E1>Powder metallurgy</E1> is a versatile <E2>technology for the manufacturing of components to (near) net-shape</E2> with high product quality.", "label": "Hyponym-of", "metadata": {"id": "S004578251300176X", "spans": [0, 17, 33, 99]}}
+{"text": "For instance, the <E1>weakly penalized formulation</E1> combines the simplified structure of the penalty method with the convergence characteristics of the <E2>PL formulation</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0045782514000607", "spans": [398, 426, 527, 541]}}
+{"text": "It is based on the use of an isoparametric [17] or, in general, a transfinite interpolation [18] where a high-order coarse boundary-layer prismatic mesh is subdivided into either <E2>prisms</E2> or tetrahedra using the mapping that defines the <E1>coarse high-order prisms</E1>.", "label": "Hyponym-of", "metadata": {"id": "S004578251400334X", "spans": [561, 585, 505, 511]}}
+{"text": "We shall establish the <E1>variational format in the space\u2013time domain</E1> <E2>S=def\u03a9\u00d7I</E2>, for given spatial domain \u03a9 and time domain I=(0,T), for a quite broad class of problems involving a first order time-derivative.", "label": "Synonym-of", "metadata": {"id": "S0045782514004812", "spans": [23, 66, 67, 75]}}
+{"text": "Usually, the problem geometry \u03a9 is represented in <E1>computer aided design</E1> (<E2>CAD</E2>) by means of NURBS or T-splines.", "label": "Synonym-of", "metadata": {"id": "S0045782515001231", "spans": [280, 301, 303, 306]}}
+{"text": "In recent years, the <E1>Discontinuous Galerkin</E1> (<E2>DG</E2>) method has emerged as a more thorough alternative for locally solving conservation laws of the shallow water equations with higher accuracy", "label": "Synonym-of", "metadata": {"id": "S0045782515001899", "spans": [21, 43, 45, 47]}}
+{"text": "<E2>FR schemes</E2> are similar to nodal DG schemes, which are arguably the most popular type of <E1>unstructured high-order method</E1> (at least in the field of computational aerodynamics).", "label": "Hyponym-of", "metadata": {"id": "S0045782515002418", "spans": [88, 118, 0, 10]}}
+{"text": "The <E1>immersed boundary method</E1> (<E2>IBM</E2>), proposed by Peskin for studying flow patterns around heart valves  [3], has been applied to a wide range of problems including arterial blood flow  [4], modelling of the cochlea  [5], modelling of red blood cells in Poiseuille flow", "label": "Synonym-of", "metadata": {"id": "S0045782515002686", "spans": [4, 28, 30, 33]}}
+{"text": "As widely discussed in isogeometric analysis literature, the geometry representations used in today\u2019s <E1>computer aided design</E1> (<E2>CAD</E2>) and finite element analysis (FEA) software are inherently incompatible  [1].", "label": "Synonym-of", "metadata": {"id": "S0045782515003680", "spans": [255, 276, 278, 281]}}
+{"text": "To date, several <E2>instruments</E2> have been designed for such goals, namely, scanning electron microscopes (SEM), <E1>atomic force microscopes</E1> (AFM) and transmission electron microscopes (TEM) [62,63].", "label": "Hyponym-of", "metadata": {"id": "S0079642514000887", "spans": [376, 400, 284, 295]}}
+{"text": "<E1>MINERAL (MINeral ERror AnaLysis)</E1> is <E2>a new MATLAB\u00ae based program</E2> that provides mineral formula recalculations combined with the associated propagation of the analytical uncertainties.", "label": "Hyponym-of", "metadata": {"id": "S0098300412001793", "spans": [0, 32, 36, 63]}}
+{"text": "It maintains a list of links to publicly available data sets, for example the IOCCG (2006) data bank, the NASA bio-Optical Marine Algorithm Data set (NOMAD) and the <E1>SeaWiFS Bio-Optical Archive and Storage System</E1> (<E2>SeaBASS</E2>).", "label": "Synonym-of", "metadata": {"id": "S0098300413002185", "spans": [1144, 1190, 1192, 1199]}}
+{"text": "<E1>Artificial Neural Networks</E1> (<E2>ANN</E2>) have been widely used in science and engineering problems.", "label": "Synonym-of", "metadata": {"id": "S0098300413002720", "spans": [0, 26, 28, 31]}}
+{"text": "Due to the fast development of <E2>virtual methods</E2> (e.g., macro-CT, \u00b5-CT, <E1>nano-CT</E1>, etc.)", "label": "Hyponym-of", "metadata": {"id": "S0098300413002951", "spans": [223, 230, 184, 199]}}
+{"text": "Speech segments using a <E1>voice activity detector</E1> (<E2>VAD</E2>)", "label": "Synonym-of", "metadata": {"id": "S0165168416300603", "spans": [791, 814, 816, 819]}}
+{"text": "From the first application [1] of multiple-scales analysis to sound propagation in ducts of rectangular and circular cross section without <E2>mean flow</E2>, more recent developments have extended the method to cases with uniform mean flow [2], <E1>mean swirling flow</E1> [3], ducts of arbitrary cross section [4] (with uniform mean flow) and strongly curved ducts [5].", "label": "Synonym-of", "metadata": {"id": "S0165212511000874", "spans": [418, 436, 320, 329]}}
+{"text": "In effect, we regard the <E1>semi-infinite row</E1> as <E2>two scatterers</E2>, one of which is another semi-infinite row.", "label": "Hyponym-of", "metadata": {"id": "S0165212515000931", "spans": [224, 241, 245, 259]}}
+{"text": "For general matrices, we <E2>adapt the existing methods for finding real solutions</E2> to obtain <E1>algorithms for finding integer solutions</E1>.", "label": "Synonym-of", "metadata": {"id": "S0166218X1300348X", "spans": [506, 546, 442, 495]}}
+{"text": "We study <E1>sequences of optimal walks of a growing length in weighted digraphs</E1>, or equivalently, <E2>sequences of entries of max-algebraic matrix powers with growing exponents</E2>.", "label": "Synonym-of", "metadata": {"id": "S0166218X14003011", "spans": [9, 76, 95, 169]}}
+{"text": "However, because this technique is destructive, studies of microstructural evolution are influenced by inherent sample variability. <E1>Non-destructive X-ray nano-computed tomography</E1> (<E2>CT</E2>)", "label": "Synonym-of", "metadata": {"id": "S0167273811005091", "spans": [427, 473, 475, 477]}}
+{"text": "The new approach used a high-throughput reactor and <E1>robotic automation</E1> (<E2>RAMSI</E2>) to rapidly synthesise a range of nanoparticle co-precipitate precursors in cloned libraries at a rate of 7.5 samples an hour.", "label": "Synonym-of", "metadata": {"id": "S0167273812003025", "spans": [314, 332, 334, 339]}}
+{"text": "As electrical measurements require an oxygen ion conductor, <E1>yttria stabilized zirconia</E1> (<E2>YSZ</E2>) was used as substrate for LSC films with two different grain sizes.", "label": "Synonym-of", "metadata": {"id": "S0167273813006735", "spans": [812, 838, 840, 843]}}
+{"text": "<E1>Thermogravimetric analysis</E1> (<E2>TGA</E2>) was performed using a Netzsch STA 449C instrument equipped with Proteus thermal analysis software.", "label": "Synonym-of", "metadata": {"id": "S0167273815004130", "spans": [270, 296, 298, 301]}}
+{"text": "<E1>The ferromagnetic characteristics</E1> as <E2>coercivity, remanence and magnetic anisotropy of the nanocomposite</E2> can be adjusted by the electrochemical parameters.", "label": "Synonym-of", "metadata": {"id": "S0167931711005120", "spans": [124, 157, 161, 227]}}
+{"text": "In this paper we demonstrate how the introduction of such a multilayer process can also benefit nanosphere lithography by increasing achievable aspect ratios of silicon nanopillars without the need for complex etch processes requiring specialised and expensive equipment, but instead needing only a standard SF6/C4F8 inductively <E1>coupled plasma</E1> (<E2>ICP</E2>) mixed mode etch process at room temperature [28].", "label": "Synonym-of", "metadata": {"id": "S0167931712002699", "spans": [790, 804, 806, 809]}}
+{"text": "Capacitances between different device components are then extracted and fed into the <E2>well-tested single electron circuit simulator</E2> <E1>SETSPICE</E1> [11], based on the orthodox theory of single electron tunnelling [12].", "label": "Hyponym-of", "metadata": {"id": "S0167931712002936", "spans": [475, 483, 429, 474]}}
+{"text": "1 shows the normalized film thickness of two formulations of the SoC (IM-HM11-01 and IM-HM11-02), before and after dipping in <E1>monochlorobenzene</E1> (<E2>MCB</E2>):IPA 1:1 solution.", "label": "Synonym-of", "metadata": {"id": "S0167931712003012", "spans": [1118, 1135, 1137, 1140]}}
+{"text": "Recent calculations have also demonstrated that the two dominant neutral paramagnetic defects at <E2>surfaces of a-SiO2</E2>, the non-bridging oxygen centre and the <E1>silicon dangling bond</E1>, are deep electron traps and can form the corresponding negatively charged defects [18].", "label": "Hyponym-of", "metadata": {"id": "S0167931713002438", "spans": [689, 710, 630, 648]}}
+{"text": "This effect has been correlated with paramagnetic E\u2032 centre signals and led to the initial assignment of the <E1>neutral oxygen vacancy</E1> as the <E2>major hole trap</E2> in a-SiO2", "label": "Hyponym-of", "metadata": {"id": "S016793171300244X", "spans": [553, 575, 583, 598]}}
+{"text": "After preliminary measurements, the samples were annealed in <E1>forming gas</E1> (<E2>FGA</E2>) at 350\u00b0C for 30min.", "label": "Synonym-of", "metadata": {"id": "S0167931713002487", "spans": [1013, 1024, 1026, 1029]}}
+{"text": "The patterned hydrogel films can be triggered consecutively allowing for successive rolling and unrolling depending on the aqueous pH. The choice of <E1>PEGDMA hydrogel</E1> provides a <E2>versatile platform for creating a variety of hydrogel scaffolds</E2>, and while being non-fouling and nontoxic it is permeable to proteins.", "label": "Hyponym-of", "metadata": {"id": "S0167931713004061", "spans": [1064, 1079, 1091, 1154]}}
+{"text": "We used 2\u03bcm of ultra-nanocrystalline diamond (UNCD) grown by <E1>chemical vapour deposition</E1> (<E2>CVD</E2>) on a \u223c520\u03bcm silicon carrier wafer from Advanced Diamond Technologies Ltd. Detailed information about the material and the stamp fabrication can be found in our earlier paper [16].", "label": "Synonym-of", "metadata": {"id": "S0167931713005042", "spans": [61, 87, 89, 92]}}
+{"text": "Copper electro-chemical deposition (ECD) of <E1>through silicon via</E1> (<E2>TSV</E2>) is a key challenge of 3D integration.", "label": "Synonym-of", "metadata": {"id": "S0167931713006904", "spans": [44, 63, 65, 68]}}
+{"text": "After the saturation spacing has been reached, cracks can no longer form between existing crack fragments and the film could <E2>delaminate</E2> via <E1>buckling</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0167931714003347", "spans": [1583, 1591, 1568, 1578]}}
+{"text": "<E1>Replica molding</E1>, which is the <E2>casting of prepolymer against a master and generating a replica of the master in PDMS</E2>, has become a standard fabrication technique available in almost every research laboratory.", "label": "Synonym-of", "metadata": {"id": "S0167931714004456", "spans": [764, 779, 794, 879]}}
+{"text": "Conventional materials often rely on <E1>electrospinning</E1> as <E2>a manufacturing method</E2> to achieve fiber-like structures suitable for use in nerve regeneration.", "label": "Hyponym-of", "metadata": {"id": "S0168365912006207", "spans": [316, 331, 335, 357]}}
+{"text": "once a week for 3 weeks with <E2>untargeted</E2> (<E1>SL[DXR]</E1>) or peptide-targeted SL[DXR] (5mg/kg).", "label": "Hyponym-of", "metadata": {"id": "S0168365913002848", "spans": [445, 452, 433, 443]}}
+{"text": "Immunopotentiators activate innate immunity directly (for example, cytokines) or through <E2>pattern-recognition receptors</E2> (<E1>PRRs</E1>, such as those for bacterial components).", "label": "Synonym-of", "metadata": {"id": "S0168365913008766", "spans": [120, 124, 89, 118]}}
+{"text": ": DNA was first added to <E1>an anionic liposome</E1> (<E2>LA, LAP1 or LAP2</E2>) and incubated for 15min at room temperature and then the peptide was added with rapid mixing and incubated at room temperature for a further 20min; Method 2 (P:D:L): the peptide was added to the DNA and incubated for 15min at room temperature and then liposome was added with rapid mixing and incubated at room temperature for a further 20min.", "label": "Synonym-of", "metadata": {"id": "S0168365913009036", "spans": [272, 291, 293, 309]}}
+{"text": "2(b) by a <E2>stress\u2013inelastic displacement law</E2> of the form<E1>(13)\u03c3=ftexp(\u2212\u03f5inhwft)if(\u03f5in>0)</E1>Here", "label": "Hyponym-of", "metadata": {"id": "S0168874X1630049X", "spans": [794, 824, 749, 782]}}
+{"text": "Investment casting is one of the most economical methods to produce titanium and <E1>titanium aluminide alloy</E1> products, increasing <E2>the components</E2>' integrity and mechanical properties, whilst reducing material waste and machining cost [1].", "label": "Hyponym-of", "metadata": {"id": "S0254058415001212", "spans": [268, 292, 314, 328]}}
+{"text": "From this study where a commercial Al\u201312Si alloy was inoculated with different level of Nb+B addition to assess the grain refining potency of Nb+B inoculation it can be concluded that in-situ formed <E1>Nb-based intermetallics compounds</E1> are potent <E2>heterogeneous nucleation substrates</E2> with high potency for the refinement of Al\u2013", "label": "Hyponym-of", "metadata": {"id": "S025405841530136X", "spans": [199, 232, 244, 279]}}
+{"text": "Conversely, the <E2>versatility of simplified (approximate) methods</E2>, such as the <E1>interaction factor approach</E1> that allows capturing the (e.g., vertical) displacements of any general pile group by the analysis of the displacement interaction between two identical piles and by the use of the elastic principle of superposition of effects, makes them attractive as design tools because they allow for the use of expedient parametric studies under various design conditions.", "label": "Hyponym-of", "metadata": {"id": "S0266352X16301550", "spans": [759, 786, 698, 745]}}
+{"text": "The correlated response methods were performed with an all-electron <E1>atomic natural orbital</E1> (<E2>ANO</E2>) basis set contracted to 6s5p4d3f1g on manganese, [47] together with the cc-pVTZ basis set on the oxygen atoms.", "label": "Synonym-of", "metadata": {"id": "S0301010414003115", "spans": [368, 390, 392, 395]}}
+{"text": "Arrays of TFTs and circuits were fabricated on precleaned, 5cm\u00d75cm, 125\u03bcm thick <E1>polyethylene naphthalate</E1> (<E2>PEN</E2>) substrates (Dupont-Teijin).", "label": "Synonym-of", "metadata": {"id": "S0301010414003516", "spans": [80, 104, 106, 109]}}
+{"text": "For a model Hamiltonian to correctly approximate the eigenvectors of the true Hamiltonian it has to span the totally symmetric <E1>irreducible representation</E1> (<E2>IrRep</E2>) of the point groups the molecule belongs to, at the appropriate symmetric geometries [7].", "label": "Synonym-of", "metadata": {"id": "S0301010415002256", "spans": [782, 808, 810, 815]}}
+{"text": "We follow a <E1>sample average approximation approach</E1> (<E2>SAA</E2>) which uses this framework.", "label": "Synonym-of", "metadata": {"id": "S0305054816300867", "spans": [927, 964, 966, 969]}}
+{"text": "We propose a modeling approach which considers <E2>collaboration processes</E2> as the <E1>evolution of a network of collaborative documents along with a social network of collaborators</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0306437913000768", "spans": [324, 418, 293, 316]}}
+{"text": "For example, <E1>heart rate variability</E1> (<E2>HRV</E2>) has in itself provided a major topic of discussion.", "label": "Synonym-of", "metadata": {"id": "S0370157309002877", "spans": [285, 307, 309, 312]}}
+{"text": "The <E1>PPN formalism</E1> provided a clear structure within which one could compare and assess various theories, and has been the <E2>benchmark for how theories of gravity should be evaluated</E2> ever since.", "label": "Hyponym-of", "metadata": {"id": "S0370157312000105", "spans": [695, 708, 813, 870]}}
+{"text": "In contrast, the <E1>time series analysis</E1> of these systems, referred to as the inverse or <E2>\u2018top-down\u2019</E2> approach, has not been studied in detail before.", "label": "Hyponym-of", "metadata": {"id": "S0370157314001318", "spans": [674, 694, 743, 753]}}
+{"text": "[11] for Fermi transitions leading to <E1>isobaric analogue state</E1> (<E2>IAS</E2>) at 4.38 MeV in 40K\u2217. Later Ormand et al.", "label": "Synonym-of", "metadata": {"id": "S0370269304006161", "spans": [585, 608, 610, 613]}}
+{"text": "Nevertheless, following L\u00fcscher [6], Abdalla, Forger and Gomes showed [7] that, in a G/H sigma model with H simple,11Here, and throughout this Letter, we shall use \u2018<E1>simple</E1>\u2019 to mean that the <E2>corresponding Lie algebra has no non-trivial ideals</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0370269304006720", "spans": [588, 594, 613, 664]}}
+{"text": "But this has the price of introducing a wide range of <E2>rhd neutrino masses</E2> <E1>MR\u223c1010\u20131015</E1> which then require explanation.", "label": "Synonym-of", "metadata": {"id": "S037026930400680X", "spans": [869, 881, 849, 868]}}
+{"text": "It is worth stressing at this stage that the above equation can be obtained from <E1>the effective Lagrangian</E1> (6)<E2>Leff=\u221214F\u03bc\u03bdaFa\u03bc\u03bd+M2\u2212F\u03bc\u03bdaFa\u03bc\u03bd</E2>. Spherically symmetric solutions of Eq.", "label": "Hyponym-of", "metadata": {"id": "S0370269304007208", "spans": [986, 1010, 1014, 1042]}}
+{"text": "Elementary interactions, happening in parallel, correspond to underlying <E1>microscopic (predominantly soft) parton cascades</E1> and are described effectively as <E2>phenomenological soft pomeron exchanges</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0370269304007439", "spans": [488, 536, 570, 609]}}
+{"text": "The <E1>interaction of the leading prehadrons during the formation time</E1> could be interpreted as an <E2>in-medium change of the fragmentation function</E2>, which however could not be given in a closed form.", "label": "Synonym-of", "metadata": {"id": "S0370269304007695", "spans": [627, 690, 718, 764]}}
+{"text": "For the inclusive J/\u03c8 productions, the cross section is much larger than the predictions of nonrelativistic quantum chromodynamics (NRQCD) [4]; there is also an over-abundance of the <E2>four-charm\u2013quark processes</E2> including the <E1>exclusive J/\u03c8 and charmonium productions</E1>; there is no apparent signal in the hard J/\u03c8 spectrum which has been predicted by the J/\u03c8gg production mode as well as the color-octet mechanism in NRQCD.", "label": "Hyponym-of", "metadata": {"id": "S0370269304007749", "spans": [822, 862, 781, 807]}}
+{"text": "Instead, <E2>hybrid mesons</E2> (<E1>qq\u0304gn</E1>) may be a better place to search for evidence of resonances outside the constituent quark model, especially since the lightest of theses states are predicted to have exotic quantum numbers of spin, parity, and charge conjugation, JPC, that is, combinations that are unattainable by regular qq\u0304-mesons.", "label": "Hyponym-of", "metadata": {"id": "S0370269304007798", "spans": [710, 715, 695, 708]}}
+{"text": "We apply different <E1>unintegrated gluon distributions</E1> (<E2>uGDF</E2>) used in the literature.", "label": "Synonym-of", "metadata": {"id": "S0370269304008305", "spans": [128, 160, 162, 166]}}
+{"text": "We investigate the density behavior of the symmetry energy with respect to isospin equilibration in the <E2>combined systems</E2> <E1>Ru(Zr)+Zr(Ru)</E1> at relativistic energies of 0.4 and 1.528A GeV.", "label": "Hyponym-of", "metadata": {"id": "S0370269304008792", "spans": [121, 134, 104, 120]}}
+{"text": "At one extreme where <E1>no correlations and therefore no redundancy are present</E1> (<E2>Poissonian sequence</E2>), there is no possibility of detecting one missing level.", "label": "Hyponym-of", "metadata": {"id": "S0370269304008809", "spans": [356, 411, 413, 432]}}
+{"text": "Indeed, it was found in the <E1>leading logarithmic approximation</E1> (<E2>LLA</E2>) [10], that the so-called quasi-partonic operators in N=1 SYM are unified in supermultiplets with anomalous dimensions obtained from universal anomalous dimensions \u03b3uni(j) by shifting its arguments by an integer number.", "label": "Synonym-of", "metadata": {"id": "S0370269304008858", "spans": [235, 268, 270, 273]}}
+{"text": "The <E2>quark\u2013gluon mixed condensate</E2> \u3008<E1>s\u0304gs\u03c3\u00b7Gs</E1>\u3009, which was the important contribution in the \u0398+ sum rule, is replaced by gluonic operators in the heavy quark expansion that are normally suppressed.", "label": "Hyponym-of", "metadata": {"id": "S0370269304008974", "spans": [690, 698, 660, 688]}}
+{"text": "Very recently, the hard-spectator contribution arising from the chromomagnetic operator O8 have also been calculated in <E1>next-to-next-to-leading orde</E1>r (<E2>NNLO</E2>) in \u03b1s showing that the spectator interactions factorize in the heavy quark limit [21].", "label": "Synonym-of", "metadata": {"id": "S0370269304008998", "spans": [1404, 1432, 1435, 1439]}}
+{"text": "According to a general theorem [14], in order to determine the parity of one particle in a <E2>binary reaction</E2> one has to know polarizations at least of two fermions participating in <E1>this reaction</E1>.", "label": "Synonym-of", "metadata": {"id": "S0370269304009013", "spans": [291, 304, 203, 218]}}
+{"text": "In the mean field approximation, the <E1>Dirac equation for the quark in infinite quark matter</E1> is written as: <E2>(30)i\u03b3\u00b7\u2202\u2212m\u2212Vqs\u2212\u03b30Vqv\u03c8QMq(x)=0</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009025", "spans": [1147, 1200, 1216, 1245]}}
+{"text": "The present study can be straightforwardly generalized to charmed <E1>baryons</E1> (\u039bc), which may serve as a <E2>complimentary probe</E2> for charm-quark reinteractions in the QGP.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009037", "spans": [1097, 1104, 1132, 1151]}}
+{"text": "One of the challenges in <E1>quantum chromodynamics</E1> (<E2>QCD</E2>) is the relativistic bound state problem.", "label": "Synonym-of", "metadata": {"id": "S0370269304009049", "spans": [25, 47, 49, 52]}}
+{"text": "Especially interesting is the <E1>isotropic infrared and optical background</E1> (<E2>IRB</E2>).", "label": "Synonym-of", "metadata": {"id": "S0370269304009062", "spans": [133, 174, 176, 179]}}
+{"text": "The ART model is a hadronic transport model that includes baryons such as N, \u0394(1232), N\u2217(1440), N\u2217(1535), \u039b, \u03a3, and <E2>mesons</E2> such as \u03c0, \u03c1, \u03c9, \u03b7, <E1>K</E1>, K\u2217. Both elastic and inelastic collisions among most of these particles are included by using the experimental data from hadron\u2013hadron collisions.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009086", "spans": [143, 144, 116, 122]}}
+{"text": "However, as shown in [15], the brane always <E1>crosses the inner horizon of the bulk geometry</E1>, creating an <E2>instability</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009104", "spans": [658, 704, 718, 729]}}
+{"text": "Sezgin (Minkowski)4\u00d7S2 ground state among all <E2>non-singular solutions with a four-dimensional Poincar\u00e9</E2>, <E1>de Sitter or anti-de Sitter symmetry</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009116", "spans": [155, 191, 98, 153]}}
+{"text": "They were originally believed to be signals of the so-called <E2>T-odd fragmentation functions</E2> [5], in particular, of the <E1>Collins function</E1> [6\u201312].", "label": "Hyponym-of", "metadata": {"id": "S0370269304009141", "spans": [342, 358, 285, 314]}}
+{"text": "We present a <E1>bulk Higgs model</E1> corresponding to the <E2>non-singular solution</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009177", "spans": [773, 789, 811, 832]}}
+{"text": "In the present approach, the <E1>parity of the pentaquark</E1> is given by <E2>P=(\u2212)\u2113+1</E2>, where \u2113 is the angular momentum associated with the relative coordinates of the q4 subsystem.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009189", "spans": [342, 366, 379, 387]}}
+{"text": "Another interesting case is the singlet deformation [10,11], where the deformation parameters belongs to the singlet representation of the <E2>R-symmetry group</E2> <E1>SU(2)R</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009220", "spans": [370, 376, 353, 369]}}
+{"text": "Recently, <E2>example of such singularity</E2> has been presented by Barrow, <E1>we found another example of it</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009232", "spans": [256, 286, 198, 225]}}
+{"text": "In this region the <E1>rare decay</E1> <E2>H\u2192\u03b3\u03b3</E2> is the most interesting alternative to the usual decay channels.", "label": "Synonym-of", "metadata": {"id": "S0370269304009268", "spans": [1136, 1146, 1147, 1151]}}
+{"text": "In such a scenario, a background solution with an <E2>effective spacetime dimension</E2> <E1>d>4</E1> should be expected to be a false vacuum where the propagators for the dynamical fields are ill-defined, lest a low energy effective theory could exist in dimensions higher than four.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009335", "spans": [849, 852, 819, 848]}}
+{"text": "Very recently a proposal has been made to treat the <E2>spectral fluctuations</E2> \u03b4n as <E1>discrete time series</E1> [11].", "label": "Hyponym-of", "metadata": {"id": "S0370269304009347", "spans": [522, 542, 494, 515]}}
+{"text": "As a result the b\u00af\u2192s\u00af and b\u00af\u2192d\u00af decays are not really related by SU(3) in the SM if the final state involves an \u03b7 or \u03b7\u2032. We therefore consider instead the <E2>vector meson</E2> <E1>\u03d5</E1> which is essentially a pure (ss\u00af) quark state.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009359", "spans": [938, 939, 925, 937]}}
+{"text": "If signals suggesting supersymmetry (SUSY) are discovered at the LHC then it will be vital to measure the spins of the new <E2>particles</E2> to demonstrate that they are indeed the predicted <E1>super-partners</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009530", "spans": [183, 197, 123, 132]}}
+{"text": "The full <E1>Salpeter equation</E1> is a <E2>relativistic equation</E2> describing a bound state.", "label": "Hyponym-of", "metadata": {"id": "S0370269304009657", "spans": [137, 154, 160, 181]}}
+{"text": "The three point <E2>vector-pseudo scalar interaction</E2> is given by (11)<E1>ih4\u3008V\u03bc(P\u2202\u03bcP\u2212\u2202\u03bcPP)\u3009</E1>, where h stands for the vector-pseudoscalar coupling.", "label": "Synonym-of", "metadata": {"id": "S0370269304009803", "spans": [346, 364, 297, 329]}}
+{"text": "However, <E2>significant reaction barriers</E2> (<E1>0.593\u20131.118 eV</E1>) for the O2 molecule on the cluster are identified on different adsorption sites, nevertheless, these reaction paths are spin forbidden reactions according to Winger\u02bcs spin selection rule.", "label": "Hyponym-of", "metadata": {"id": "S0375960112002885", "spans": [403, 417, 372, 401]}}
+{"text": "Later, <E2>ternary chalcogenide</E2> <E1>(BixSb1\u2212x)2Te3</E1> [4,5], which has similar tetradymite structure to the parent compounds Bi2Te3 and Sb2Te3, was predicted by ab initio calculations and confirmed by ARPES measurements as a tunable topological insulator whose Fermi energy and carrier density can be adjusted via changing the Bi/Sb composition ratio with stable topological surface state for the entire composition range.", "label": "Hyponym-of", "metadata": {"id": "S0375960113004908", "spans": [439, 453, 418, 438]}}
+{"text": "In the molecules of <E2>methanol masers</E2> (<E1>CH3OH</E1>)", "label": "Synonym-of", "metadata": {"id": "S0375960113006725", "spans": [564, 569, 547, 562]}}
+{"text": "[1] use this algorithm to show quantum walk search to be fundamentally more effective than classical random walk search by presenting a <E2>class of graphs</E2> (the <E1>GT graphs</E1>) that force classical random walks to make exponentially many queries to an oracle encoding the structure of the graph, but that are traversable by quantum walks with a polynomial number of queries to such an oracle.", "label": "Hyponym-of", "metadata": {"id": "S0375960113010839", "spans": [394, 403, 373, 388]}}
+{"text": "The wave eventually collapses as these <E2>electrons damp the wave</E2> (the <E1>wave \u2018breaks\u2019</E1>).", "label": "Synonym-of", "metadata": {"id": "S0375960115005630", "spans": [707, 720, 678, 701]}}
+{"text": "Many different methods for measuring the tack have been devised with the four main ones being the rolling ball, loop tack, quick stick and <E1>probe tack</E1> <E2>tests</E2> [9].", "label": "Hyponym-of", "metadata": {"id": "S0377025714001931", "spans": [757, 767, 768, 773]}}
+{"text": "The second system is a <E1>commercial silicone dielectric gel</E1> (<E2>SDG</E2>) which is used in the production of electronic products created by industrial printing processes.", "label": "Synonym-of", "metadata": {"id": "S0377025714002213", "spans": [297, 331, 333, 336]}}
+{"text": "FTMS may overcome these limitations, but is unsuitable for <E2>markedly strain sensitive materials</E2>, such as <E1>fibrin gels</E1>, due to the strain amplitude of the composite waveform exceeding the linear viscoelastic range (LVR)", "label": "Hyponym-of", "metadata": {"id": "S0377025715000051", "spans": [1193, 1204, 1148, 1183]}}
+{"text": "Rheological measurements were performed with an ARES rheometer at shear rates up to 15s\u22121 and with a <E2>piezo axial vibrator</E2> [21] (<E1>PAV</E1>) at frequencies up to 6kHz.", "label": "Synonym-of", "metadata": {"id": "S0377025715000993", "spans": [223, 226, 196, 216]}}
+{"text": "We have evaluated the performance of this approach using the proposed framework which embodies a set of well known metaheuristics with different configurations as agents on <E1>two problem domains</E1>, <E2>Permutation Flow-shop Scheduling and Capacitated Vehicle Routing</E2>.", "label": "Synonym-of", "metadata": {"id": "S0377221716300984", "spans": [700, 719, 721, 785]}}
+{"text": "Future work may consider investigating whether the algorithm would be as successful or not in solving variants of the MPSP that include more <E2>operational constraints</E2>, such as variable cut-off grade, grade blending, and <E1>stockpiling</E1>, as it is in solving the \u201cclassical\u201d variant considered in this paper.", "label": "Hyponym-of", "metadata": {"id": "S0377221716301357", "spans": [322, 333, 245, 268]}}
+{"text": "In different specifications we consider the cases of one vs. multiple price zones (market splitting) and analyze different approaches to <E2>recover network cost</E2>\u2014in particular lump sum, <E1>generation capacity based</E1>, and energy based fees.", "label": "Hyponym-of", "metadata": {"id": "S0377221716301904", "spans": [594, 619, 549, 569]}}
+{"text": "Consequently, in order to provide an improved overall description of the fluid-phase equilibria at the conditions of interest, refinements have been made to the unlike parameters presented in the previous study [129] relating to the interactions between H2O and the <E2>alkyl groups</E2>, <E1>CH3 and CH2</E1>, namely \u03f5CH3,H2O, \u03f5CH2,H2O and \u03bbCH3,H2O, \u03bbCH2,H2O.", "label": "Hyponym-of", "metadata": {"id": "S0378381215300674", "spans": [1336, 1347, 1322, 1334]}}
+{"text": "Previously, beginning with the first paper on unusual hydrates of tetrabutylammonium salts in 1940 [31], a number of studies could be found on <E2>ionic clathrate hydrates</E2> (hereafter, <E1>semiclathrate hydrates</E1>) [32\u201335] before the unified terminology semiclathrate hydrate was generally accepted.", "label": "Synonym-of", "metadata": {"id": "S0378381215301291", "spans": [346, 368, 309, 333]}}
+{"text": "<E2>Models</E2> such as <E1>FiRECAM</E1>", "label": "Hyponym-of", "metadata": {"id": "S0379711213001653", "spans": [169, 176, 154, 160]}}
+{"text": "<E1>SCE</E1> was the most suitable <E2>algorithm</E2>.", "label": "Hyponym-of", "metadata": {"id": "S0379711215000223", "spans": [1338, 1341, 1364, 1373]}}
+{"text": "Social network gaming, which refers to playing games that are connected to social networking services (SNS) directly, or through <E1>mobile applications</E1> (<E2>apps</E2>), is a popular online activity.", "label": "Synonym-of", "metadata": {"id": "S074756321630348X", "spans": [129, 148, 150, 154]}}
+{"text": "This fact makes the DNNs particularly suitable for real-time applications because, unlike <E2>other approaches</E2> (i.e. <E1>i-vectors</E1>), we can potentially make a decision about the language at each new frame.", "label": "Hyponym-of", "metadata": {"id": "S088523081530036X", "spans": [349, 358, 326, 342]}}
+{"text": "Both the characteristic frequencies of simulated signal and the fault frequencies of practical rolling bearing signal can be extracted from the same order of IMF groups, thus showing that <E1>multivariate EMD</E1> is an effective <E2>signal decomposition algorithm</E2> and can be competently applied to fault diagnosis of rolling bearings when combined with a multiscale reduction method and fault correlation factor analysis.", "label": "Hyponym-of", "metadata": {"id": "S0888327016300048", "spans": [840, 856, 873, 903]}}
+{"text": "The <E1>nonparametric approach</E1> is often referred to as <E2>frequency-domain Volterra system identification</E2> and is based on the observation that the Volterra model of nonlinear systems is linear in terms of the unknown Volterra kernels, which, in the frequency domain, corresponds to a linear relation between the output frequency response and linear, quadratic, and higher order GFRFs.", "label": "Hyponym-of", "metadata": {"id": "S0888327016302333", "spans": [358, 380, 405, 452]}}
+{"text": "Moreover, in PB compilation of the boolean formulas is performed using (RO)BDDs, while ProbLog can use a wider range of <E2>decision diagrams</E2>, e.g. <E1>sentential decision diagrams</E1> (SDD), deterministic, decomposable negation normal form (d-DNNF).", "label": "Hyponym-of", "metadata": {"id": "S0888613X16301062", "spans": [547, 575, 523, 540]}}
+{"text": "(2013) evaluates a variant of PSR (in that work referred to as scale-adaptive [SA]), which includes <E1>curvature-dependent polygonization</E1> (e.g. <E2>increasing/decreasing the size of triangles according to the local curvature</E2>)", "label": "Synonym-of", "metadata": {"id": "S0895611116300684", "spans": [325, 359, 366, 442]}}
+{"text": "Recently, research on thermal\u2013mechanical analysis of <E1>P91</E1> has been carried out including the characterisation of the cyclic behaviour of <E2>the material</E2> using the two-layer and unified visco-plasticity models [3,4].", "label": "Synonym-of", "metadata": {"id": "S0927025612000249", "spans": [759, 762, 842, 854]}}
+{"text": "Therefore, the <E1>current model</E1> is a <E2>modification of the previous model using a linearized phase diagram</E2>, and no online call of thermodynamic data is necessary.", "label": "Hyponym-of", "metadata": {"id": "S092702561300267X", "spans": [842, 855, 861, 928]}}
+{"text": "Due to the complex nature of the thermal spray process, <E1>modelling</E1> has been playing a key role in <E2>providing some key insights for process design and operations</E2>.", "label": "Hyponym-of", "metadata": {"id": "S092702561300760X", "spans": [56, 65, 97, 158]}}
+{"text": "Structural adhesives are increasingly used for bonding components within <E2>critical load bearing engineering structures</E2> such as aerospace and <E1>automotives</E1>.", "label": "Hyponym-of", "metadata": {"id": "S0927025614007137", "spans": [140, 151, 73, 117]}}
+{"text": "The use of <E2>advanced machine learning methods</E2> such as deep neural networks and <E1>muscles synergies extraction</E1> should also be investigated on problems under the influence of multiple dynamic factors as such methods may provide substantial improvements upon the utilized time-and-frequency EMG feature extraction methods (Diener, Janke, & Schultz, 2015; Ison, Vujaklija, Whitsell, Farina, & Artemiadis, 2016; Park & Lee, 2016).", "label": "Hyponym-of", "metadata": {"id": "S0957417416302561", "spans": [236, 264, 169, 202]}}
+{"text": "In an N-dimensional vector space, <E2>the simplest version of PCA</E2> (<E1>linear PCA</E1>) is a technique that finds the mutually-uncorrelated vectors onto which the projection of the samples generates the highest variances.", "label": "Hyponym-of", "metadata": {"id": "S0957417416303773", "spans": [292, 302, 263, 290]}}
+{"text": "EM sensors have also measured the levels of <E1>decarburisation</E1> (<E2>variation in ferrite content with depth</E2>) in steel rod [9,10].", "label": "Hyponym-of", "metadata": {"id": "S0963869514000863", "spans": [683, 698, 700, 739]}}
+{"text": "<E2>Evolutionary algorithms</E2>, such as <E1>genetic population</E1> (Jomier et al., 2006; Rivest-Henault et al., 2012; Ruijters et al., 2009), are considered as a strategy that is \u201cless likely to get stuck in a local optimum\u201d (Ruijters et al., 2009).", "label": "Hyponym-of", "metadata": {"id": "S1361841516300342", "spans": [128, 146, 95, 118]}}
+{"text": "<E2>Supplementary material</E2> to this paper includes a document with a description of the dataset as a whole, a document containing the <E1>complete survey instrument</E1>, and two data files containing the results and an associated codebook (see Section 4.3).", "label": "Hyponym-of", "metadata": {"id": "S1364815216303541", "spans": [854, 880, 725, 747]}}
+{"text": "Isogeometric analysis (IGA) is a <E1>numerical simulation method</E1> which is directly based on the <E2>NURBS-based representation of CAD models</E2>.", "label": "Hyponym-of", "metadata": {"id": "S1524070312000380", "spans": [33, 60, 92, 132]}}
+{"text": "In data mining, the notion of locality is often given as <E1>distance between data values</E1> (given <E2>a specific distance metric such as Euclidean distance</E2>).", "label": "Hyponym-of", "metadata": {"id": "S1566253516300252", "spans": [216, 244, 252, 305]}}
+{"text": "MWSN routing protocols generally take influence from both WSN and <E1>mobile ad hoc network</E1> (<E2>MANET</E2>) routing protocols, which all share common limitations, such as bandwidth, power and cost.", "label": "Synonym-of", "metadata": {"id": "S1570870516301822", "spans": [66, 87, 89, 94]}}
+{"text": "The following <E2>database collections</E2> were examined as possible sources for the corpus: the Emotional Movie Database (EMDB) [19], and <E1>Film Stim</E1> [20].", "label": "Hyponym-of", "metadata": {"id": "S1875952116300209", "spans": [346, 355, 229, 249]}}
+{"text": "<E2>Aspect-oriented Programming</E2> (<E1>AOP</E1>) can well solve the cross-cutting concerns.", "label": "Synonym-of", "metadata": {"id": "S2212667812000032", "spans": [29, 32, 0, 27]}}
+{"text": "According to the shortcomings of long time and big errors about the moving plate recognition system, we present the moving plate recognition algorithm based on <E2>principal component analysis</E2>(<E1>PCA</E1>) color extraction.", "label": "Synonym-of", "metadata": {"id": "S2212667812000664", "spans": [189, 192, 160, 188]}}
+{"text": "With the development of sport normal students in china, Some ideas to teaching and learning that view learning as a simple process of knowledge have become outdated and ineffective, therefore, In order to improving the quality of teaching and learning on sport normal students in china, this author discussed some <E2>factors on promoting the level of teaching and learning</E2> for sport normal students, such as implementation principle, <E1>curriculum design</E1>, education policy, and so on.", "label": "Hyponym-of", "metadata": {"id": "S2212667812000780", "spans": [431, 448, 314, 369]}}
+{"text": "Lettered words have become an indispensable part of <E2>Chinese vocabulary</E2>, such as <E1>WTO</E1>, Ka la OK and MP3.", "label": "Hyponym-of", "metadata": {"id": "S2212667812000822", "spans": [358, 361, 330, 348]}}
+{"text": "The algorithms employ <E2>AI techniques</E2> such as <E1>semantic networks</E1> to produce verbal questions.", "label": "Hyponym-of", "metadata": {"id": "S2212667812000937", "spans": [224, 241, 202, 215]}}
+{"text": "The <E2>Linear Temporal First-Order Logic</E2> (<E1>LTL-FO</E1>) formulas over inputs, states, outputs and actions are used to express the properties to be verified.", "label": "Synonym-of", "metadata": {"id": "S221266781300018X", "spans": [280, 286, 245, 278]}}
+{"text": "<E1>Evolutionary Algorithms</E1> are the <E2>stochastic optimization methods</E2>, simulating the behavior of natural evolution.", "label": "Hyponym-of", "metadata": {"id": "S2212667813000774", "spans": [0, 23, 32, 63]}}
+{"text": "Based on the <E2>classification scale method</E2> (<E1>CSM</E1>), after the target tight sandstones are classified into two types, the relationship between core porosity and permeability is established for every type of formations, and the corresponding permeability estimation models are established.", "label": "Synonym-of", "metadata": {"id": "S2212667813001068", "spans": [461, 464, 432, 459]}}
+{"text": "For high performance rotated face detection, the multiple-<E2>MCT</E2>(<E1>Modified Census Transform</E1>) architecture, which is robust against lighting change, was used.", "label": "Synonym-of", "metadata": {"id": "S2212667814000070", "spans": [191, 216, 187, 190]}}
+{"text": "We use an <E2>educational platform</E2> <E1>vAcademia</E1> as a test bed for the project, and focus on improving the learning process and, subsequently \u2013 the outcomes.", "label": "Hyponym-of", "metadata": {"id": "S2212667814000264", "spans": [168, 177, 147, 167]}}
+{"text": "The paper presents the results of studies of the effect of multiwalled carbon nanotubes 18-20nm in concentrations of 1 and 10mg / ml for diatoms <E2>Pseudo-nitzschia pungens</E2> (<E1>clone PP-07</E1>) and golden alga", "label": "Hyponym-of", "metadata": {"id": "S2212667814000690", "spans": [171, 182, 145, 169]}}
+{"text": "To improve the course of the reaction, natural catalysts \u2013 calcite, <E1>coal char</E1> (<E2>unburned residues from coal</E2>) and modified olivine", "label": "Synonym-of", "metadata": {"id": "S2212667814000756", "spans": [451, 460, 462, 489]}}
+{"text": "Several <E2>inorganic flocculating agents</E2>, including FeSO4, <E1>Al2(SO4)3,</E1> FeCl3 and an organic coagulant aid PAM, were used to treat the wastewater from domestic anima and poultry breeding in this paper.", "label": "Hyponym-of", "metadata": {"id": "S221266781400080X", "spans": [56, 66, 8, 37]}}
+{"text": "<E1>Design semantics</E1> is the <E2>annotation of form and the reflection of its symbolic meaning</E2>, which means it is an explanation of the deposited human cultural spirit.", "label": "Hyponym-of", "metadata": {"id": "S2212667814000951", "spans": [137, 153, 161, 222]}}
+{"text": "Improving as well as evaluating the performance of <E1>High Performance Computing</E1> (<E2>HPC</E2>) applications by migrating them to Cloud environments are widely considered as critical issues in the field of high performance and Cloud computing.", "label": "Synonym-of", "metadata": {"id": "S2212667814001208", "spans": [51, 77, 79, 82]}}
+{"text": "The <E1>algorithm</E1> is based on the <E2>spreading activation scheme</E2> applied to the graphs dynamically built on the basis of the text words and a large wordnet.", "label": "Hyponym-of", "metadata": {"id": "S221266781400121X", "spans": [117, 126, 143, 170]}}
+{"text": "<E1>Sentence reduction</E1> is one of approaches for <E2>text summarization</E2> that has been attracted many researchers and scholars of natural language processing field.", "label": "Hyponym-of", "metadata": {"id": "S2212667814001245", "spans": [0, 18, 44, 62]}}
+{"text": "In most cases, the number of users in a <E1>Knowledge Management System</E1> (<E2>KMS</E2>) is very large, and they are from varied departments, even other companies.", "label": "Synonym-of", "metadata": {"id": "S2212667814001294", "spans": [122, 149, 151, 154]}}
+{"text": "The <E1>Exponential Time Differencing</E1> (<E2>ETD</E2>) technique requires minimum stages to obtain the requiredaccurateness, which suggests an efficient technique relatingto computational duration thatensures remarkable stability characteristicsupon resolving nonlinear wave equations.", "label": "Synonym-of", "metadata": {"id": "S2212667814001348", "spans": [144, 173, 175, 178]}}
+{"text": "Then, based on these three <E1>objectives</E1> (time, <E2>cost</E2>, and quality), a contractor selection problem is converted to an optimization problem.", "label": "Hyponym-of", "metadata": {"id": "S2212667814001361", "spans": [459, 469, 477, 481]}}
+{"text": "Recently, a <E2>network virtualization technology</E2> has attracted considerable attention as one of <E1>new generation network technologies</E1>.", "label": "Hyponym-of", "metadata": {"id": "S2212667814001464", "spans": [93, 128, 12, 45]}}
+{"text": "Although Cloud Computing has not yet reached the level of maturity expected by its customers, and that the problems of <E1>confidentiality, integrity, reliability and consistency</E1> (<E2>CIRC</E2>) are still open, the researchers in this field have already considered a future cloud strategy which aims: a better QoS, reliability and high availability, it is the Multi-Clouds, Cloud of Clouds or Interclouds.", "label": "Synonym-of", "metadata": {"id": "S2212667814001476", "spans": [287, 342, 344, 348]}}
+{"text": "In this paper, adaptive beamforming techniques for smart antennas based upon Least Mean Squares (LMS), Sample Matrix Inversion (SMI), Recursive Least Squares (RLS) and <E1>Conjugate Gradient Method</E1> (<E2>CGM</E2>) are discussed and analyzed.", "label": "Synonym-of", "metadata": {"id": "S221266781400149X", "spans": [168, 193, 195, 198]}}
+{"text": "<E2>Video-oculography</E2> (VOG) is one of <E1>eye movement measurement methods</E1>.", "label": "Hyponym-of", "metadata": {"id": "S2212671612000613", "spans": [34, 66, 0, 17]}}
+{"text": "This paper make the explained variables our financial stress index consist of the synchronous variables financial systemic risk, and make the explanatory variables the macroeconomic variable, currency credit variable, asset price variable and the macroeconomic variable of correlative economic powers, then use stepwise regression method to <E2>establish the financial systemic risk best predict equation</E2>, thus <E1>set up the reasonable and practical financial systemic risk early-warning index system</E1>; besides, use the best prediction equations predicts the financial systemic risk status in 2011.", "label": "Hyponym-of", "metadata": {"id": "S2212671612000686", "spans": [407, 493, 341, 400]}}
+{"text": "Given that, we determine the characteristic of the holding furnace based on <E1>weight percent</E1> (<E2>wt %</E2>) of the certain alloys and their elements.", "label": "Synonym-of", "metadata": {"id": "S2212671612001291", "spans": [237, 251, 253, 257]}}
+{"text": "Our country is rich of <E1>line galloping</E1>, there are many important <E2>galloping</E2> data failed to collect systematically and completely because there is no unified management platform.", "label": "Synonym-of", "metadata": {"id": "S2212671612001497", "spans": [23, 37, 64, 73]}}
+{"text": "A fuzzy-Hammerstein model predictive control method is proposed for a <E1>continuous stirred-tank reactor</E1> (<E2>CSTR</E2>).", "label": "Synonym-of", "metadata": {"id": "S221267161200162X", "spans": [70, 101, 103, 107]}}
+{"text": "The <E2>algorithm</E2> includes two steps: model building and <E1>tool path generation</E1>.", "label": "Hyponym-of", "metadata": {"id": "S2212671612001709", "spans": [142, 162, 93, 102]}}
+{"text": "This paper proposes a <E1>new form of high dimensional model representation</E1> (HDMR) by utilizing the support vector regression (SVR), termed as <E2>adaptive SVR-HMDR</E2>, to conquer this dilemma.", "label": "Synonym-of", "metadata": {"id": "S221267161200176X", "spans": [178, 227, 295, 312]}}
+{"text": "<E1>Metal\u2013intermetallic laminated</E1> (<E2>MIL</E2>) composites are fabricated upon reaction sintering of titanium and aluminum foils of various thicknesses.", "label": "Synonym-of", "metadata": {"id": "S2212671612001783", "spans": [0, 29, 31, 34]}}
+{"text": "For providing the government with effective monitoring of the trends of the economic variables in the future and good reference for developing a reasonable policy, in this paper, we establish a time series model on China's <E1>Foreign Direct Investment</E1> (<E2>FDI</E2>) by using wavelet analysis and intervention analysis and time series analysis and predict the trend of FDI in the next several years.", "label": "Synonym-of", "metadata": {"id": "S221267161200220X", "spans": [223, 248, 250, 253]}}
+{"text": "For enhancing the performance of the <E2>Otsu algorithm</E2> further, in this work, an improved <E1>median-based Otsu image thresholding algorithm</E1> is presented.", "label": "Hyponym-of", "metadata": {"id": "S2212671612002338", "spans": [533, 579, 483, 497]}}
+{"text": "A transformation matrix which can express the relationship between an <E2>object point</E2> and its <E1>image</E1> by the refraction of prism was derived based on geometrical optics, and a mathematical model was introduced which can denote the position of prism with arbitrary faces only by 7 parameters.", "label": "Hyponym-of", "metadata": {"id": "S2212671612002351", "spans": [305, 310, 284, 296]}}
+{"text": "In this paper, we introduce and analyze of <E2>semantic reasoning tools</E2> such as <E1>Jena</E1>.", "label": "Hyponym-of", "metadata": {"id": "S2212671612002375", "spans": [408, 412, 375, 399]}}
+{"text": "The <E1>poly-blocks</E1> are <E2>fire-resistant blocks</E2> and have an excellent capability to absorb, mitigate and reflect a wide range of noises with unmatched frequency of reflective noise.", "label": "Hyponym-of", "metadata": {"id": "S221450951530005X", "spans": [680, 691, 696, 717]}}
+{"text": "Faults in the connections of stirrups to the longitudinal bars, unstaggered formation of stirrup hooks in beams and columns, the <E1>perpendicular angles</E1> of the hooks, inadequately anchorage lengths of the stirrup hooks and longitudinal bars, and the use of cold joints were the other frequently encountered <E2>workmanship defects</E2> (Figs.", "label": "Hyponym-of", "metadata": {"id": "S2214509515300103", "spans": [701, 721, 876, 895]}}
+{"text": "We also demonstrate how this porosity structure changes after <E1>Hot Isostatic Pressing</E1> (<E2>HIP</E2>) treatment of the same sample.", "label": "Synonym-of", "metadata": {"id": "S2214657115000155", "spans": [1349, 1371, 1373, 1376]}}
+{"text": "Aeroengine turbine disks often consist of <E2>paramagnetic</E2>, that means <E1>non-ferromagnetic Nickel based alloys</E1>.", "label": "Hyponym-of", "metadata": {"id": "S2214657115000179", "spans": [67, 104, 42, 54]}}
+{"text": "If a layer has <E2>constituents that are not forming volatiles with the reactive gas</E2>, e.g. <E1>W and Be with O2</E1>, these constituents cannot be removed by TCR, as they will not be removed from the deposit.", "label": "Hyponym-of", "metadata": {"id": "S2352179114200032", "spans": [774, 790, 702, 767]}}
+{"text": "It is concluded that conventional concepts and materials for <E2>plasma facing components</E2> (<E1>PFCs</E1>) reach their limits in terms of material lifetime and power exhaust at approximately 20MW/m2, which is presumably dramatically reduced to <10MW/m2 due to neutron damage in a D-T reactor [6] or even only half that value [7].", "label": "Synonym-of", "metadata": {"id": "S2352179114200056", "spans": [641, 645, 615, 639]}}

From 4b4edf8464502bd290879f4aaa926f853fd6b4c1 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Mon, 18 Feb 2019 23:06:35 -0800
Subject: [PATCH 16/23] data structure for Relation Mention

---
 sci_bert/common/relation.py | 26 ++++++++++++++++++++++++++
 1 file changed, 26 insertions(+)
 create mode 100644 sci_bert/common/relation.py

diff --git a/sci_bert/common/relation.py b/sci_bert/common/relation.py
new file mode 100644
index 0000000..7f9b799
--- /dev/null
+++ b/sci_bert/common/relation.py
@@ -0,0 +1,26 @@
+"""
+
+Basic data structure and functions for relation mentions
+
+author: kylel@allenai.org
+
+"""
+
+from typing import *
+
+from sci_bert.common.span import MentionSpan, TokenSpan
+
+class RelationMention:
+    """
+    A relation mention corresponds to an (ordered) tuple of entity mentions
+    with a label(s) and a direction implied by the order of the tuple.
+    """
+    def __init__(self, e1: MentionSpan, e2: MentionSpan, labels: List[str],
+                 is_symmetric: Optional[bool] = None):
+        self.e1 = e1
+        self.e2 = e2
+        self.labels = labels
+        self.is_symmetric = is_symmetric
+
+    def __repr__(self):
+        return str((self.e1.text, tuple(self.labels), self.e2.text))

From 213346b79981aee809e7723dbf3d2c60b4f71f56 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Wed, 20 Feb 2019 21:45:42 -0800
Subject: [PATCH 17/23] add char start/stop spans to conll2003 data for semeval

---
 data/ner/semeval2017/dev.txt   |  23478 ++---
 data/ner/semeval2017/test.txt  |  45952 +++++-----
 data/ner/semeval2017/train.txt | 136300 +++++++++++++++---------------
 3 files changed, 102865 insertions(+), 102865 deletions(-)

diff --git a/data/ner/semeval2017/dev.txt b/data/ner/semeval2017/dev.txt
index 771db8b..64511b3 100644
--- a/data/ner/semeval2017/dev.txt
+++ b/data/ner/semeval2017/dev.txt
@@ -1,11939 +1,11939 @@
 -DOCSTART- (S0003491613001516)
 
-Complex	NN	O	B-Process
-Langevin	NN	O	I-Process
-(	NN	O	O
-CL	NN	O	B-Process
-)	NN	O	O
-dynamics	NN	O	O
-[	NN	O	O
-1,2	NN	O	O
-]	NN	O	O
-provides	NN	O	O
-an	NN	O	O
-approach	NN	O	O
-to	NN	O	O
-circumvent	NN	O	O
-the	NN	O	O
-sign	NN	O	B-Task
-problem	NN	O	I-Task
-in	NN	O	O
-numerical	NN	O	B-Process
-simulations	NN	O	I-Process
-of	NN	O	I-Process
-lattice	NN	O	I-Process
-field	NN	O	I-Process
-theories	NN	O	I-Process
-with	NN	O	O
-a	NN	O	O
-complex	NN	O	O
-Boltzmann	NN	O	O
-weight	NN	O	O
-,	NN	O	O
-since	NN	O	O
-it	NN	O	O
-does	NN	O	O
-not	NN	O	O
-rely	NN	O	O
-on	NN	O	O
-importance	NN	O	O
-sampling	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-recent	NN	O	O
-years	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-stimulating	NN	O	O
-results	NN	O	O
-has	NN	O	O
-been	NN	O	O
-obtained	NN	O	O
-in	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-nonzero	NN	O	B-Process
-chemical	NN	O	I-Process
-potential	NN	O	I-Process
-,	NN	O	O
-in	NN	O	O
-both	NN	O	O
-lower	NN	O	B-Process
-and	NN	O	I-Process
-four	NN	O	I-Process
--	NN	O	I-Process
-dimensional	NN	O	I-Process
-field	NN	O	I-Process
-theories	NN	O	I-Process
-with	NN	O	O
-a	NN	O	O
-severe	NN	O	O
-sign	NN	O	B-Task
-problem	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-thermodynamic	NN	O	I-Task
-limit	NN	O	I-Task
-[	NN	O	O
-3–8	NN	O	O
-]	NN	O	O
-(	NN	O	O
-for	NN	O	O
-two	NN	O	O
-recent	NN	O	O
-reviews	NN	O	O
-,	NN	O	O
-see	NN	O	O
-e.g.	NN	O	O
-Refs	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-9,10	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-as	NN	O	O
-has	NN	O	O
-been	NN	O	O
-known	NN	O	O
-since	NN	O	O
-shortly	NN	O	O
-after	NN	O	O
-its	NN	O	O
-inception	NN	O	O
-,	NN	O	O
-correct	NN	O	O
-results	NN	O	O
-are	NN	O	O
-not	NN	O	O
-guaranteed	NN	O	O
-
-[	NN	O	O
-11–16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-calls	NN	O	O
-for	NN	O	O
-an	NN	O	O
-improved	NN	O	B-Task
-understanding	NN	O	I-Task
-,	NN	O	I-Task
-relying	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-combination	NN	O	I-Task
-of	NN	O	I-Task
-analytical	NN	O	I-Task
-and	NN	O	I-Task
-numerical	NN	O	I-Task
-insight	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-recent	NN	O	O
-past	NN	O	O
-,	NN	O	O
-the	NN	O	O
-important	NN	O	O
-role	NN	O	O
-played	NN	O	O
-by	NN	O	O
-the	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-the	NN	O	O
-real	NN	O	O
-and	NN	O	O
-positive	NN	O	O
-probability	NN	O	B-Process
-distribution	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-complexified	NN	O	B-Process
-configuration	NN	O	I-Process
-space	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-effectively	NN	O	O
-sampled	NN	O	O
-during	NN	O	O
-the	NN	O	O
-Langevin	NN	O	B-Process
-process	NN	O	I-Process
-,	NN	O	O
-has	NN	O	O
-been	NN	O	O
-clarified	NN	O	O
-[	NN	O	O
-17,18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-important	NN	O	O
-conclusion	NN	O	O
-was	NN	O	O
-that	NN	O	O
-this	NN	O	O
-distribution	NN	O	B-Process
-should	NN	O	O
-be	NN	O	O
-sufficiently	NN	O	O
-localised	NN	O	O
-in	NN	O	O
-order	NN	O	O
-for	NN	O	O
-CL	NN	O	B-Process
-to	NN	O	O
-yield	NN	O	O
-valid	NN	O	O
-results	NN	O	O
-.	NN	O	O
-
-Importantly	NN	O	O
-,	NN	O	O
-this	NN	O	O
-insight	NN	O	O
-has	NN	O	O
-recently	NN	O	O
-also	NN	O	O
-led	NN	O	O
-to	NN	O	O
-promising	NN	O	O
-results	NN	O	O
-in	NN	O	O
-nonabelian	NN	O	B-Task
-gauge	NN	O	I-Task
-theories	NN	O	I-Task
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-implementation	NN	O	O
-of	NN	O	O
-SL(N	NN	O	B-Material
-,	NN	O	I-Material
-C	NN	O	I-Material
-)	NN	O	I-Material
-gauge	NN	O	I-Material
-cooling	NN	O	I-Material
-[	NN	O	O
-8,10	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Complex	0	7	B-Process
+Langevin	8	16	I-Process
+(	17	18	O
+CL	18	20	B-Process
+)	20	21	O
+dynamics	22	30	O
+[	32	33	O
+1,2	33	36	O
+]	36	37	O
+provides	38	46	O
+an	47	49	O
+approach	50	58	O
+to	59	61	O
+circumvent	62	72	O
+the	73	76	O
+sign	77	81	B-Task
+problem	82	89	I-Task
+in	90	92	O
+numerical	93	102	B-Process
+simulations	103	114	I-Process
+of	115	117	I-Process
+lattice	118	125	I-Process
+field	126	131	I-Process
+theories	132	140	I-Process
+with	141	145	O
+a	146	147	O
+complex	148	155	O
+Boltzmann	156	165	O
+weight	166	172	O
+,	172	173	O
+since	174	179	O
+it	180	182	O
+does	183	187	O
+not	188	191	O
+rely	192	196	O
+on	197	199	O
+importance	200	210	O
+sampling	211	219	O
+.	219	220	O
+
+In	221	223	O
+recent	224	230	O
+years	231	236	O
+a	237	238	O
+number	239	245	O
+of	246	248	O
+stimulating	249	260	O
+results	261	268	O
+has	269	272	O
+been	273	277	O
+obtained	278	286	O
+in	287	289	O
+the	290	293	O
+context	294	301	O
+of	302	304	O
+nonzero	305	312	B-Process
+chemical	313	321	I-Process
+potential	322	331	I-Process
+,	331	332	O
+in	333	335	O
+both	336	340	O
+lower	341	346	B-Process
+and	347	350	I-Process
+four	351	355	I-Process
+-	355	356	I-Process
+dimensional	356	367	I-Process
+field	368	373	I-Process
+theories	374	382	I-Process
+with	383	387	O
+a	388	389	O
+severe	390	396	O
+sign	397	401	B-Task
+problem	402	409	I-Task
+in	410	412	I-Task
+the	413	416	I-Task
+thermodynamic	417	430	I-Task
+limit	431	436	I-Task
+[	438	439	O
+3–8	439	442	O
+]	442	443	O
+(	444	445	O
+for	445	448	O
+two	449	452	O
+recent	453	459	O
+reviews	460	467	O
+,	467	468	O
+see	469	472	O
+e.g.	473	477	O
+Refs	478	482	O
+.	482	483	O
+
+[	485	486	O
+9,10	486	490	O
+]	490	491	O
+)	491	492	O
+.	492	493	O
+
+However	494	501	O
+,	501	502	O
+as	503	505	O
+has	506	509	O
+been	510	514	O
+known	515	520	O
+since	521	526	O
+shortly	527	534	O
+after	535	540	O
+its	541	544	O
+inception	545	554	O
+,	554	555	O
+correct	556	563	O
+results	564	571	O
+are	572	575	O
+not	576	579	O
+guaranteed	580	590	O
+
+[	592	593	O
+11–16	593	598	O
+]	598	599	O
+.	599	600	O
+
+This	601	605	O
+calls	606	611	O
+for	612	615	O
+an	616	618	O
+improved	619	627	B-Task
+understanding	628	641	I-Task
+,	641	642	I-Task
+relying	643	650	I-Task
+on	651	653	I-Task
+the	654	657	I-Task
+combination	658	669	I-Task
+of	670	672	I-Task
+analytical	673	683	I-Task
+and	684	687	I-Task
+numerical	688	697	I-Task
+insight	698	705	I-Task
+.	705	706	O
+
+In	707	709	O
+the	710	713	O
+recent	714	720	O
+past	721	725	O
+,	725	726	O
+the	727	730	O
+important	731	740	O
+role	741	745	O
+played	746	752	O
+by	753	755	O
+the	756	759	O
+properties	760	770	O
+of	771	773	O
+the	774	777	O
+real	778	782	O
+and	783	786	O
+positive	787	795	O
+probability	796	807	B-Process
+distribution	808	820	I-Process
+in	821	823	O
+the	824	827	O
+complexified	828	840	B-Process
+configuration	841	854	I-Process
+space	855	860	I-Process
+,	860	861	O
+which	862	867	O
+is	868	870	O
+effectively	871	882	O
+sampled	883	890	O
+during	891	897	O
+the	898	901	O
+Langevin	902	910	B-Process
+process	911	918	I-Process
+,	918	919	O
+has	920	923	O
+been	924	928	O
+clarified	929	938	O
+[	940	941	O
+17,18	941	946	O
+]	946	947	O
+.	947	948	O
+
+An	949	951	O
+important	952	961	O
+conclusion	962	972	O
+was	973	976	O
+that	977	981	O
+this	982	986	O
+distribution	987	999	B-Process
+should	1000	1006	O
+be	1007	1009	O
+sufficiently	1010	1022	O
+localised	1023	1032	O
+in	1033	1035	O
+order	1036	1041	O
+for	1042	1045	O
+CL	1046	1048	B-Process
+to	1049	1051	O
+yield	1052	1057	O
+valid	1058	1063	O
+results	1064	1071	O
+.	1071	1072	O
+
+Importantly	1073	1084	O
+,	1084	1085	O
+this	1086	1090	O
+insight	1091	1098	O
+has	1099	1102	O
+recently	1103	1111	O
+also	1112	1116	O
+led	1117	1120	O
+to	1121	1123	O
+promising	1124	1133	O
+results	1134	1141	O
+in	1142	1144	O
+nonabelian	1145	1155	B-Task
+gauge	1156	1161	I-Task
+theories	1162	1170	I-Task
+,	1170	1171	O
+with	1172	1176	O
+the	1177	1180	O
+implementation	1181	1195	O
+of	1196	1198	O
+SL(N	1199	1203	B-Material
+,	1203	1204	I-Material
+C	1204	1205	I-Material
+)	1205	1206	I-Material
+gauge	1207	1212	I-Material
+cooling	1213	1220	I-Material
+[	1222	1223	O
+8,10	1223	1227	O
+]	1227	1228	O
+.	1228	1229	O
 
 
 -DOCSTART- (S0003491615001839)
 
-This	NN	O	O
-work	NN	O	O
-shows	NN	O	O
-how	NN	O	O
-our	NN	O	O
-approach	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-combination	NN	O	O
-of	NN	O	O
-Statistical	NN	O	B-Process
-Mechanics	NN	O	I-Process
-and	NN	O	O
-nonlinear	NN	O	B-Process
-PDEs	NN	O	I-Process
-theory	NN	O	I-Process
-provides	NN	O	O
-us	NN	O	O
-with	NN	O	O
-a	NN	O	O
-novel	NN	O	O
-and	NN	O	O
-powerful	NN	O	O
-tool	NN	O	O
-to	NN	O	O
-tackle	NN	O	O
-phase	NN	O	B-Task
-transitions	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-method	NN	O	O
-leads	NN	O	O
-to	NN	O	O
-solution	NN	O	O
-of	NN	O	O
-perhaps	NN	O	O
-the	NN	O	O
-most	NN	O	O
-known	NN	O	O
-test	NN	O	O
--	NN	O	O
-case	NN	O	O
-that	NN	O	O
-exhibits	NN	O	O
-a	NN	O	O
-first	NN	O	B-Process
-order	NN	O	I-Process
-phase	NN	O	I-Process
-transition	NN	O	I-Process
-(	NN	O	O
-semi	NN	O	O
--	NN	O	O
-heuristically	NN	O	O
-described	NN	O	O
-)	NN	O	O
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-van	NN	O	B-Process
-der	NN	O	I-Process
-Waals	NN	O	I-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-we	NN	O	O
-have	NN	O	O
-obtained	NN	O	O
-the	NN	O	O
-first	NN	O	O
-global	NN	O	O
-mean	NN	O	O
-field	NN	O	B-Process
-partition	NN	O	I-Process
-function	NN	O	I-Process
-(	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-9	NN	O	O
-)	NN	O	O
-)	NN	O	O
-,	NN	O	O
-for	NN	O	O
-a	NN	O	O
-system	NN	O	O
-of	NN	O	O
-finite	NN	O	O
-number	NN	O	O
-of	NN	O	O
-particles	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-partition	NN	O	B-Process
-function	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-solution	NN	O	O
-to	NN	O	O
-the	NN	O	O
-Klein	NN	O	B-Task
-–	NN	O	I-Task
-Gordon	NN	O	I-Task
-equation	NN	O	I-Task
-,	NN	O	O
-reproduces	NN	O	O
-the	NN	O	O
-van	NN	O	B-Process
-der	NN	O	I-Process
-Waals	NN	O	I-Process
-isotherms	NN	O	I-Process
-away	NN	O	O
-from	NN	O	O
-the	NN	O	O
-critical	NN	O	O
-region	NN	O	O
-and	NN	O	O
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-thermodynamic	NN	O	B-Process
-limit	NN	O	I-Process
-N→∞	NN	O	I-Process
-automatically	NN	O	O
-encodes	NN	O	O
-the	NN	O	O
-Maxwell	NN	O	B-Process
-equal	NN	O	I-Process
-areas	NN	O	I-Process
-rule	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-approach	NN	O	O
-hereby	NN	O	O
-presented	NN	O	O
-is	NN	O	O
-of	NN	O	O
-remarkable	NN	O	O
-simplicity	NN	O	O
-,	NN	O	O
-has	NN	O	O
-been	NN	O	O
-successfully	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-spin	NN	O	B-Process
-[	NN	O	O
-17–19,14,16	NN	O	O
-]	NN	O	O
-and	NN	O	O
-macroscopic	NN	O	B-Process
-thermodynamic	NN	O	I-Process
-systems	NN	O	I-Process
-[	NN	O	O
-20,15	NN	O	O
-]	NN	O	O
-and	NN	O	O
-can	NN	O	O
-be	NN	O	O
-further	NN	O	O
-extended	NN	O	O
-to	NN	O	O
-include	NN	O	O
-the	NN	O	O
-larger	NN	O	O
-class	NN	O	O
-of	NN	O	O
-models	NN	O	O
-admitting	NN	O	O
-partition	NN	O	B-Process
-functions	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-form	NN	O	I-Process
-(	NN	O	O
-4	NN	O	O
-)	NN	O	O
-to	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-extend	NN	O	O
-to	NN	O	O
-the	NN	O	O
-critical	NN	O	O
-region	NN	O	O
-general	NN	O	B-Process
-equations	NN	O	I-Process
-of	NN	O	I-Process
-state	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-form	NN	O	I-Process
-(	NN	O	O
-7	NN	O	O
-)	NN	O	O
-including	NN	O	O
-a	NN	O	O
-class	NN	O	B-Process
-virial	NN	O	I-Process
-expansions	NN	O	I-Process
-.	NN	O	O
+This	0	4	O
+work	5	9	O
+shows	10	15	O
+how	16	19	O
+our	20	23	O
+approach	24	32	O
+based	33	38	O
+on	39	41	O
+the	42	45	O
+combination	46	57	O
+of	58	60	O
+Statistical	61	72	B-Process
+Mechanics	73	82	I-Process
+and	83	86	O
+nonlinear	87	96	B-Process
+PDEs	97	101	I-Process
+theory	102	108	I-Process
+provides	109	117	O
+us	118	120	O
+with	121	125	O
+a	126	127	O
+novel	128	133	O
+and	134	137	O
+powerful	138	146	O
+tool	147	151	O
+to	152	154	O
+tackle	155	161	O
+phase	162	167	B-Task
+transitions	168	179	I-Task
+.	179	180	O
+
+This	181	185	O
+method	186	192	O
+leads	193	198	O
+to	199	201	O
+solution	202	210	O
+of	211	213	O
+perhaps	214	221	O
+the	222	225	O
+most	226	230	O
+known	231	236	O
+test	237	241	O
+-	241	242	O
+case	242	246	O
+that	247	251	O
+exhibits	252	260	O
+a	261	262	O
+first	263	268	B-Process
+order	269	274	I-Process
+phase	275	280	I-Process
+transition	281	291	I-Process
+(	292	293	O
+semi	293	297	O
+-	297	298	O
+heuristically	298	311	O
+described	312	321	O
+)	321	322	O
+such	323	327	O
+as	328	330	O
+the	331	334	O
+van	335	338	B-Process
+der	339	342	I-Process
+Waals	343	348	I-Process
+model	349	354	I-Process
+.	354	355	O
+
+In	356	358	O
+particular	359	369	O
+we	370	372	O
+have	373	377	O
+obtained	378	386	O
+the	387	390	O
+first	391	396	O
+global	397	403	O
+mean	404	408	O
+field	409	414	B-Process
+partition	415	424	I-Process
+function	425	433	I-Process
+(	434	435	O
+Eq	435	437	O
+.	437	438	O
+
+(	439	440	O
+9	440	441	O
+)	441	442	O
+)	442	443	O
+,	443	444	O
+for	445	448	O
+a	449	450	O
+system	451	457	O
+of	458	460	O
+finite	461	467	O
+number	468	474	O
+of	475	477	O
+particles	478	487	O
+.	487	488	O
+
+The	489	492	O
+partition	493	502	B-Process
+function	503	511	I-Process
+is	512	514	O
+a	515	516	O
+solution	517	525	O
+to	526	528	O
+the	529	532	O
+Klein	533	538	B-Task
+–	538	539	I-Task
+Gordon	539	545	I-Task
+equation	546	554	I-Task
+,	554	555	O
+reproduces	556	566	O
+the	567	570	O
+van	571	574	B-Process
+der	575	578	I-Process
+Waals	579	584	I-Process
+isotherms	585	594	I-Process
+away	595	599	O
+from	600	604	O
+the	605	608	O
+critical	609	617	O
+region	618	624	O
+and	625	628	O
+,	628	629	O
+in	630	632	O
+the	633	636	O
+thermodynamic	637	650	B-Process
+limit	651	656	I-Process
+N→∞	657	660	I-Process
+automatically	661	674	O
+encodes	675	682	O
+the	683	686	O
+Maxwell	687	694	B-Process
+equal	695	700	I-Process
+areas	701	706	I-Process
+rule	707	711	I-Process
+.	711	712	O
+
+The	713	716	O
+approach	717	725	O
+hereby	726	732	O
+presented	733	742	O
+is	743	745	O
+of	746	748	O
+remarkable	749	759	O
+simplicity	760	770	O
+,	770	771	O
+has	772	775	O
+been	776	780	O
+successfully	781	793	O
+applied	794	801	O
+to	802	804	O
+spin	805	809	B-Process
+[	811	812	O
+17–19,14,16	812	823	O
+]	823	824	O
+and	825	828	O
+macroscopic	829	840	B-Process
+thermodynamic	841	854	I-Process
+systems	855	862	I-Process
+[	864	865	O
+20,15	865	870	O
+]	870	871	O
+and	872	875	O
+can	876	879	O
+be	880	882	O
+further	883	890	O
+extended	891	899	O
+to	900	902	O
+include	903	910	O
+the	911	914	O
+larger	915	921	O
+class	922	927	O
+of	928	930	O
+models	931	937	O
+admitting	938	947	O
+partition	948	957	B-Process
+functions	958	967	I-Process
+of	968	970	I-Process
+the	971	974	I-Process
+form	975	979	I-Process
+(	980	981	O
+4	981	982	O
+)	982	983	O
+to	984	986	O
+be	987	989	O
+used	990	994	O
+to	995	997	O
+extend	998	1004	O
+to	1005	1007	O
+the	1008	1011	O
+critical	1012	1020	O
+region	1021	1027	O
+general	1028	1035	B-Process
+equations	1036	1045	I-Process
+of	1046	1048	I-Process
+state	1049	1054	I-Process
+of	1055	1057	I-Process
+the	1058	1061	I-Process
+form	1062	1066	I-Process
+(	1067	1068	O
+7	1068	1069	O
+)	1069	1070	O
+including	1071	1080	O
+a	1081	1082	O
+class	1083	1088	B-Process
+virial	1089	1095	I-Process
+expansions	1096	1106	I-Process
+.	1106	1107	O
 
 
 -DOCSTART- (S0009261408017028)
 
-We	NN	O	O
-use	NN	O	O
-open	NN	O	O
-and	NN	O	O
-close	NN	O	O
-aperture	NN	O	B-Process
-Z	NN	O	I-Process
--	NN	O	I-Process
-scan	NN	O	I-Process
-experiments	NN	O	I-Process
-,	NN	O	O
-in	NN	O	O
-analogy	NN	O	O
-to	NN	O	O
-the	NN	O	O
-saturation	NN	O	B-Task
-absorption	NN	O	I-Task
-work	NN	O	O
-discussed	NN	O	O
-earlier	NN	O	O
-in	NN	O	O
-water	NN	O	B-Material
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-,	NN	O	O
-to	NN	O	O
-respectively	NN	O	O
-measure	NN	O	O
-the	NN	O	O
-β	NN	O	O
-and	NN	O	O
-n2	NN	O	O
-for	NN	O	O
-a	NN	O	O
-series	NN	O	O
-of	NN	O	O
-primary	NN	O	B-Material
-alcohols	NN	O	I-Material
-with	NN	O	O
-the	NN	O	O
-help	NN	O	O
-of	NN	O	O
-1560	NN	O	B-Material
-nm	NN	O	I-Material
-femtosecond	NN	O	I-Material
-laser	NN	O	I-Material
-pulses	NN	O	I-Material
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-important	NN	O	O
-inclusion	NN	O	O
-of	NN	O	O
-an	NN	O	O
-optical	NN	O	B-Material
--	NN	O	I-Material
-chopper	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-vibrational	NN	O	B-Process
-combination	NN	O	I-Process
-states	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-alcohols	NN	O	B-Material
-are	NN	O	O
-coupled	NN	O	O
-by	NN	O	O
-the	NN	O	O
-femtosecond	NN	O	B-Material
-laser	NN	O	I-Material
-pulses	NN	O	I-Material
-at	NN	O	I-Material
-1560	NN	O	I-Material
-nm	NN	O	I-Material
-.	NN	O	O
-
-These	NN	O	O
-couplings	NN	O	O
-result	NN	O	O
-in	NN	O	O
-the	NN	O	O
-absorption	NN	O	B-Process
-of	NN	O	O
-1560	NN	O	O
-nm	NN	O	O
-and	NN	O	O
-the	NN	O	O
-excited	NN	O	O
-molecules	NN	O	B-Material
-undergo	NN	O	O
-relaxation	NN	O	O
-through	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-radiative	NN	O	I-Process
-processes	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-gives	NN	O	O
-rise	NN	O	O
-to	NN	O	O
-transient	NN	O	B-Process
-thermal	NN	O	I-Process
-effects	NN	O	I-Process
-.	NN	O	O
-
-These	NN	O	O
-transient	NN	O	B-Process
-thermal	NN	O	I-Process
-effects	NN	O	I-Process
-are	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-pure	NN	O	B-Process
-optical	NN	O	I-Process
-nonlinearity	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-samples	NN	O	O
-and	NN	O	O
-can	NN	O	O
-be	NN	O	O
-measured	NN	O	O
-as	NN	O	O
-a	NN	O	O
-change	NN	O	O
-in	NN	O	O
-their	NN	O	O
-n2	NN	O	O
-values	NN	O	O
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-transient	NN	O	B-Process
-thermal	NN	O	I-Process
-effects	NN	O	I-Process
-of	NN	O	O
-individual	NN	O	O
-pulses	NN	O	O
-accumulate	NN	O	O
-in	NN	O	O
-case	NN	O	O
-of	NN	O	O
-high	NN	O	B-Material
-repetition	NN	O	I-Material
--	NN	O	I-Material
-rate	NN	O	I-Material
-lasers	NN	O	I-Material
-to	NN	O	O
-produce	NN	O	O
-a	NN	O	O
-cumulative	NN	O	B-Process
-thermal	NN	O	I-Process
-effect	NN	O	I-Process
-at	NN	O	O
-longer	NN	O	O
-timescales	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-measure	NN	O	B-Task
-this	NN	O	I-Task
-cumulative	NN	O	I-Task
-thermal	NN	O	I-Task
-effect	NN	O	I-Task
-with	NN	O	O
-the	NN	O	O
-mode	NN	O	B-Process
--	NN	O	I-Process
-mismatched	NN	O	I-Process
-two	NN	O	I-Process
--	NN	O	I-Process
-color	NN	O	I-Process
-pump	NN	O	I-Process
-–	NN	O	I-Process
-probe	NN	O	I-Process
-experiment	NN	O	I-Process
-.	NN	O	O
+We	0	2	O
+use	3	6	O
+open	7	11	O
+and	12	15	O
+close	16	21	O
+aperture	22	30	B-Process
+Z	31	32	I-Process
+-	32	33	I-Process
+scan	33	37	I-Process
+experiments	38	49	I-Process
+,	49	50	O
+in	51	53	O
+analogy	54	61	O
+to	62	64	O
+the	65	68	O
+saturation	69	79	B-Task
+absorption	80	90	I-Task
+work	91	95	O
+discussed	96	105	O
+earlier	106	113	O
+in	114	116	O
+water	117	122	B-Material
+[	123	124	O
+8	124	125	O
+]	125	126	O
+,	126	127	O
+to	128	130	O
+respectively	131	143	O
+measure	144	151	O
+the	152	155	O
+β	156	157	O
+and	158	161	O
+n2	162	164	O
+for	165	168	O
+a	169	170	O
+series	171	177	O
+of	178	180	O
+primary	181	188	B-Material
+alcohols	189	197	I-Material
+with	198	202	O
+the	203	206	O
+help	207	211	O
+of	212	214	O
+1560	215	219	B-Material
+nm	219	221	I-Material
+femtosecond	222	233	I-Material
+laser	234	239	I-Material
+pulses	240	246	I-Material
+,	246	247	O
+however	248	255	O
+,	255	256	O
+with	257	261	O
+the	262	265	O
+important	266	275	O
+inclusion	276	285	O
+of	286	288	O
+an	289	291	O
+optical	292	299	B-Material
+-	299	300	I-Material
+chopper	300	307	I-Material
+.	307	308	O
+
+The	309	312	O
+vibrational	313	324	B-Process
+combination	325	336	I-Process
+states	337	343	I-Process
+of	344	346	O
+the	347	350	O
+alcohols	351	359	B-Material
+are	360	363	O
+coupled	364	371	O
+by	372	374	O
+the	375	378	O
+femtosecond	379	390	B-Material
+laser	391	396	I-Material
+pulses	397	403	I-Material
+at	404	406	I-Material
+1560	407	411	I-Material
+nm	411	413	I-Material
+.	413	414	O
+
+These	415	420	O
+couplings	421	430	O
+result	431	437	O
+in	438	440	O
+the	441	444	O
+absorption	445	455	B-Process
+of	456	458	O
+1560	459	463	O
+nm	463	465	O
+and	466	469	O
+the	470	473	O
+excited	474	481	O
+molecules	482	491	B-Material
+undergo	492	499	O
+relaxation	500	510	O
+through	511	518	O
+non	519	522	B-Process
+-	522	523	I-Process
+radiative	523	532	I-Process
+processes	533	542	I-Process
+,	542	543	O
+which	544	549	O
+gives	550	555	O
+rise	556	560	O
+to	561	563	O
+transient	564	573	B-Process
+thermal	574	581	I-Process
+effects	582	589	I-Process
+.	589	590	O
+
+These	591	596	O
+transient	597	606	B-Process
+thermal	607	614	I-Process
+effects	615	622	I-Process
+are	623	626	O
+related	627	634	O
+to	635	637	O
+the	638	641	O
+pure	642	646	B-Process
+optical	647	654	I-Process
+nonlinearity	655	667	I-Process
+of	668	670	O
+the	671	674	O
+samples	675	682	O
+and	683	686	O
+can	687	690	O
+be	691	693	O
+measured	694	702	O
+as	703	705	O
+a	706	707	O
+change	708	714	O
+in	715	717	O
+their	718	723	O
+n2	724	726	O
+values	727	733	O
+[	734	735	O
+14	735	737	O
+]	737	738	O
+.	738	739	O
+
+The	740	743	O
+transient	744	753	B-Process
+thermal	754	761	I-Process
+effects	762	769	I-Process
+of	770	772	O
+individual	773	783	O
+pulses	784	790	O
+accumulate	791	801	O
+in	802	804	O
+case	805	809	O
+of	810	812	O
+high	813	817	B-Material
+repetition	818	828	I-Material
+-	828	829	I-Material
+rate	829	833	I-Material
+lasers	834	840	I-Material
+to	841	843	O
+produce	844	851	O
+a	852	853	O
+cumulative	854	864	B-Process
+thermal	865	872	I-Process
+effect	873	879	I-Process
+at	880	882	O
+longer	883	889	O
+timescales	890	900	O
+.	900	901	O
+
+We	902	904	O
+measure	905	912	B-Task
+this	913	917	I-Task
+cumulative	918	928	I-Task
+thermal	929	936	I-Task
+effect	937	943	I-Task
+with	944	948	O
+the	949	952	O
+mode	953	957	B-Process
+-	957	958	I-Process
+mismatched	958	968	I-Process
+two	969	972	I-Process
+-	972	973	I-Process
+color	973	978	I-Process
+pump	979	983	I-Process
+–	983	984	I-Process
+probe	984	989	I-Process
+experiment	990	1000	I-Process
+.	1000	1001	O
 
 
 -DOCSTART- (S0009261413004612)
 
-The	NN	O	O
-control	NN	O	O
-of	NN	O	O
-the	NN	O	O
-RP	NN	O	B-Process
-re	NN	O	I-Process
--	NN	O	I-Process
-encounter	NN	O	I-Process
-probability	NN	O	I-Process
-finds	NN	O	O
-a	NN	O	O
-direct	NN	O	O
-application	NN	O	O
-to	NN	O	O
-improve	NN	O	B-Task
-the	NN	O	I-Task
-performance	NN	O	I-Task
-of	NN	O	I-Task
-chemical	NN	O	I-Task
-devices	NN	O	I-Task
-.	NN	O	O
-
-Here	NN	O	O
-,	NN	O	O
-we	NN	O	O
-show	NN	O	O
-how	NN	O	O
-a	NN	O	O
-simple	NN	O	O
--	NN	O	O
-to	NN	O	O
--	NN	O	O
-implement	NN	O	O
-control	NN	O	B-Process
-scheme	NN	O	I-Process
-highly	NN	O	O
-enhances	NN	O	O
-the	NN	O	O
-sensitivity	NN	O	O
-of	NN	O	O
-a	NN	O	O
-model	NN	O	B-Material
-chemical	NN	O	I-Material
-magnetometer	NN	O	I-Material
-by	NN	O	O
-up	NN	O	O
-to	NN	O	O
-two	NN	O	O
-orders	NN	O	O
-of	NN	O	O
-magnitude	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-basic	NN	O	O
-idea	NN	O	O
-behind	NN	O	O
-a	NN	O	O
-chemical	NN	O	B-Material
-magnetometer	NN	O	I-Material
-is	NN	O	O
-that	NN	O	O
-,	NN	O	O
-since	NN	O	O
-a	NN	O	O
-change	NN	O	O
-in	NN	O	O
-the	NN	O	O
-magnetic	NN	O	B-Process
-field	NN	O	I-Process
-modifies	NN	O	O
-the	NN	O	O
-amount	NN	O	O
-of	NN	O	O
-singlet	NN	O	B-Material
-products	NN	O	I-Material
-,	NN	O	O
-one	NN	O	O
-can	NN	O	O
-reverse	NN	O	O
-the	NN	O	O
-reasoning	NN	O	O
-and	NN	O	O
-measure	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Material
-yield	NN	O	I-Material
-to	NN	O	O
-estimate	NN	O	O
-B.	NN	O	B-Process
-Intuitively	NN	O	O
-,	NN	O	O
-the	NN	O	O
-magnetic	NN	O	B-Process
-sensitivity	NN	O	I-Process
-is	NN	O	O
-high	NN	O	O
-when	NN	O	O
-a	NN	O	O
-small	NN	O	O
-change	NN	O	O
-in	NN	O	O
-the	NN	O	O
-magnetic	NN	O	B-Process
-field	NN	O	I-Process
-intensity	NN	O	I-Process
-produces	NN	O	O
-large	NN	O	O
-effects	NN	O	O
-on	NN	O	O
-the	NN	O	O
-singlet	NN	O	B-Material
-yield	NN	O	I-Material
-.	NN	O	O
-
-Formally	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-defined	NN	O	O
-as:(2)Λs(B)≡∂Φs(B)∂B=∫0∞pre(t)gs(B	NN	O	B-Process
-,	NN	O	I-Process
-t)dt	NN	O	I-Process
-,	NN	O	O
-with	NN	O	O
-gs(B	NN	O	B-Process
-,	NN	O	I-Process
-t)≡∂fs(B	NN	O	I-Process
-,	NN	O	I-Process
-t)∂B	NN	O	I-Process
-being	NN	O	O
-the	NN	O	O
-instantaneous	NN	O	B-Process
-magnetic	NN	O	I-Process
-sensitivity	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-functional	NN	O	O
-form	NN	O	O
-of	NN	O	O
-fs(B	NN	O	O
-,	NN	O	O
-t)=Sρel(t)S	NN	O	O
-strongly	NN	O	O
-depends	NN	O	O
-on	NN	O	O
-the	NN	O	O
-specific	NN	O	O
-realization	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-radical	NN	O	I-Process
-pair	NN	O	I-Process
-,	NN	O	O
-in	NN	O	O
-particular	NN	O	O
-on	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-the	NN	O	O
-surrounding	NN	O	O
-nuclear	NN	O	B-Process
-spins	NN	O	I-Process
-.	NN	O	O
-
-Here	NN	O	O
-,	NN	O	O
-we	NN	O	O
-consider	NN	O	O
-a	NN	O	O
-radical	NN	O	O
-pair	NN	O	O
-in	NN	O	O
-which	NN	O	O
-the	NN	O	O
-first	NN	O	O
-electron	NN	O	B-Process
-spin	NN	O	I-Process
-is	NN	O	O
-devoid	NN	O	O
-of	NN	O	O
-hyperfine	NN	O	B-Process
-interactions	NN	O	I-Process
-,	NN	O	O
-while	NN	O	O
-the	NN	O	O
-second	NN	O	O
-electron	NN	O	B-Process
-spin	NN	O	I-Process
-interacts	NN	O	O
-isotropically	NN	O	O
-with	NN	O	O
-one	NN	O	O
-spin-1	NN	O	B-Material
-nucleus	NN	O	I-Material
-,	NN	O	O
-e.g.	NN	O	O
-nitrogen	NN	O	B-Material
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Task
-compass	NN	O	I-Task
-(	NN	O	O
-i.e.	NN	O	O
-when	NN	O	O
-the	NN	O	O
-task	NN	O	O
-is	NN	O	O
-determining	NN	O	B-Task
-the	NN	O	I-Task
-magnetic	NN	O	I-Task
-field	NN	O	I-Task
-direction	NN	O	I-Task
-through	NN	O	I-Task
-anisotropic	NN	O	I-Task
-hyperfine	NN	O	I-Task
-interactions	NN	O	I-Task
-)	NN	O	O
-,	NN	O	O
-an	NN	O	O
-analogous	NN	O	B-Process
-configuration	NN	O	I-Process
-(	NN	O	O
-with	NN	O	O
-only	NN	O	O
-one	NN	O	O
-spin-1/2	NN	O	B-Material
-nucleus	NN	O	I-Material
-)	NN	O	O
-has	NN	O	O
-been	NN	O	O
-proposed	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-numerically	NN	O	O
-characterized	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-,	NN	O	O
-as	NN	O	O
-being	NN	O	O
-optimal	NN	O	O
-:	NN	O	O
-Additional	NN	O	O
-nuclear	NN	O	B-Process
-spins	NN	O	I-Process
-would	NN	O	O
-perturb	NN	O	O
-the	NN	O	O
-intuitive	NN	O	O
-‘	NN	O	O
-reference	NN	O	O
-and	NN	O	O
-probe’	NN	O	O
-picture	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Hamiltonian	NN	O	O
-then	NN	O	O
-simplifies	NN	O	O
-to	NN	O	O
-H=-γeB(S1(z)+S2(z))+|γe|αS→2·I→	NN	O	B-Process
-,	NN	O	O
-where	NN	O	O
-α	NN	O	B-Process
-is	NN	O	O
-the	NN	O	O
-isotropic	NN	O	B-Process
-hyperfine	NN	O	I-Process
-coupling	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+control	4	11	O
+of	12	14	O
+the	15	18	O
+RP	19	21	B-Process
+re	22	24	I-Process
+-	24	25	I-Process
+encounter	25	34	I-Process
+probability	35	46	I-Process
+finds	47	52	O
+a	53	54	O
+direct	55	61	O
+application	62	73	O
+to	74	76	O
+improve	77	84	B-Task
+the	85	88	I-Task
+performance	89	100	I-Task
+of	101	103	I-Task
+chemical	104	112	I-Task
+devices	113	120	I-Task
+.	120	121	O
+
+Here	122	126	O
+,	126	127	O
+we	128	130	O
+show	131	135	O
+how	136	139	O
+a	140	141	O
+simple	142	148	O
+-	148	149	O
+to	149	151	O
+-	151	152	O
+implement	152	161	O
+control	162	169	B-Process
+scheme	170	176	I-Process
+highly	177	183	O
+enhances	184	192	O
+the	193	196	O
+sensitivity	197	208	O
+of	209	211	O
+a	212	213	O
+model	214	219	B-Material
+chemical	220	228	I-Material
+magnetometer	229	241	I-Material
+by	242	244	O
+up	245	247	O
+to	248	250	O
+two	251	254	O
+orders	255	261	O
+of	262	264	O
+magnitude	265	274	O
+.	274	275	O
+
+The	276	279	O
+basic	280	285	O
+idea	286	290	O
+behind	291	297	O
+a	298	299	O
+chemical	300	308	B-Material
+magnetometer	309	321	I-Material
+is	322	324	O
+that	325	329	O
+,	329	330	O
+since	331	336	O
+a	337	338	O
+change	339	345	O
+in	346	348	O
+the	349	352	O
+magnetic	353	361	B-Process
+field	362	367	I-Process
+modifies	368	376	O
+the	377	380	O
+amount	381	387	O
+of	388	390	O
+singlet	391	398	B-Material
+products	399	407	I-Material
+,	407	408	O
+one	409	412	O
+can	413	416	O
+reverse	417	424	O
+the	425	428	O
+reasoning	429	438	O
+and	439	442	O
+measure	443	450	O
+the	451	454	O
+chemical	455	463	B-Material
+yield	464	469	I-Material
+to	470	472	O
+estimate	473	481	O
+B.	482	484	B-Process
+Intuitively	485	496	O
+,	496	497	O
+the	498	501	O
+magnetic	502	510	B-Process
+sensitivity	511	522	I-Process
+is	523	525	O
+high	526	530	O
+when	531	535	O
+a	536	537	O
+small	538	543	O
+change	544	550	O
+in	551	553	O
+the	554	557	O
+magnetic	558	566	B-Process
+field	567	572	I-Process
+intensity	573	582	I-Process
+produces	583	591	O
+large	592	597	O
+effects	598	605	O
+on	606	608	O
+the	609	612	O
+singlet	613	620	B-Material
+yield	621	626	I-Material
+.	626	627	O
+
+Formally	628	636	O
+,	636	637	O
+it	638	640	O
+is	641	643	O
+defined	644	651	O
+as:(2)Λs(B)≡∂Φs(B)∂B=∫0∞pre(t)gs(B	652	686	B-Process
+,	686	687	I-Process
+t)dt	687	691	I-Process
+,	691	692	O
+with	692	696	O
+gs(B	697	701	B-Process
+,	701	702	I-Process
+t)≡∂fs(B	702	710	I-Process
+,	710	711	I-Process
+t)∂B	711	715	I-Process
+being	716	721	O
+the	722	725	O
+instantaneous	726	739	B-Process
+magnetic	740	748	I-Process
+sensitivity	749	760	I-Process
+.	760	761	O
+
+The	762	765	O
+functional	766	776	O
+form	777	781	O
+of	782	784	O
+fs(B	785	789	O
+,	789	790	O
+t)=Sρel(t)S	790	801	O
+strongly	802	810	O
+depends	811	818	O
+on	819	821	O
+the	822	825	O
+specific	826	834	O
+realization	835	846	B-Process
+of	847	849	I-Process
+the	850	853	I-Process
+radical	854	861	I-Process
+pair	862	866	I-Process
+,	866	867	O
+in	868	870	O
+particular	871	881	O
+on	882	884	O
+the	885	888	O
+number	889	895	O
+of	896	898	O
+the	899	902	O
+surrounding	903	914	O
+nuclear	915	922	B-Process
+spins	923	928	I-Process
+.	928	929	O
+
+Here	930	934	O
+,	934	935	O
+we	936	938	O
+consider	939	947	O
+a	948	949	O
+radical	950	957	O
+pair	958	962	O
+in	963	965	O
+which	966	971	O
+the	972	975	O
+first	976	981	O
+electron	982	990	B-Process
+spin	991	995	I-Process
+is	996	998	O
+devoid	999	1005	O
+of	1006	1008	O
+hyperfine	1009	1018	B-Process
+interactions	1019	1031	I-Process
+,	1031	1032	O
+while	1033	1038	O
+the	1039	1042	O
+second	1043	1049	O
+electron	1050	1058	B-Process
+spin	1059	1063	I-Process
+interacts	1064	1073	O
+isotropically	1074	1087	O
+with	1088	1092	O
+one	1093	1096	O
+spin-1	1097	1103	B-Material
+nucleus	1104	1111	I-Material
+,	1111	1112	O
+e.g.	1113	1117	O
+nitrogen	1118	1126	B-Material
+.	1126	1127	O
+
+In	1128	1130	O
+the	1131	1134	O
+context	1135	1142	O
+of	1143	1145	O
+the	1146	1149	O
+chemical	1150	1158	B-Task
+compass	1159	1166	I-Task
+(	1167	1168	O
+i.e.	1168	1172	O
+when	1173	1177	O
+the	1178	1181	O
+task	1182	1186	O
+is	1187	1189	O
+determining	1190	1201	B-Task
+the	1202	1205	I-Task
+magnetic	1206	1214	I-Task
+field	1215	1220	I-Task
+direction	1221	1230	I-Task
+through	1231	1238	I-Task
+anisotropic	1239	1250	I-Task
+hyperfine	1251	1260	I-Task
+interactions	1261	1273	I-Task
+)	1273	1274	O
+,	1274	1275	O
+an	1276	1278	O
+analogous	1279	1288	B-Process
+configuration	1289	1302	I-Process
+(	1303	1304	O
+with	1304	1308	O
+only	1309	1313	O
+one	1314	1317	O
+spin-1/2	1318	1326	B-Material
+nucleus	1327	1334	I-Material
+)	1334	1335	O
+has	1336	1339	O
+been	1340	1344	O
+proposed	1345	1353	O
+[	1354	1355	O
+3	1355	1356	O
+]	1356	1357	O
+,	1357	1358	O
+and	1359	1362	O
+numerically	1363	1374	O
+characterized	1375	1388	O
+[	1389	1390	O
+8	1390	1391	O
+]	1391	1392	O
+,	1392	1393	O
+as	1394	1396	O
+being	1397	1402	O
+optimal	1403	1410	O
+:	1410	1411	O
+Additional	1412	1422	O
+nuclear	1423	1430	B-Process
+spins	1431	1436	I-Process
+would	1437	1442	O
+perturb	1443	1450	O
+the	1451	1454	O
+intuitive	1455	1464	O
+‘	1465	1466	O
+reference	1466	1475	O
+and	1476	1479	O
+probe’	1480	1486	O
+picture	1487	1494	O
+.	1494	1495	O
+
+The	1496	1499	O
+Hamiltonian	1500	1511	O
+then	1512	1516	O
+simplifies	1517	1527	O
+to	1528	1530	O
+H=-γeB(S1(z)+S2(z))+|γe|αS→2·I→	1531	1562	B-Process
+,	1562	1563	O
+where	1564	1569	O
+α	1570	1571	B-Process
+is	1572	1574	O
+the	1575	1578	O
+isotropic	1579	1588	B-Process
+hyperfine	1589	1598	I-Process
+coupling	1599	1607	I-Process
+.	1607	1608	O
 
 
 -DOCSTART- (S0009261414000372)
 
-It	NN	O	O
-is	NN	O	O
-well	NN	O	O
--	NN	O	O
-known	NN	O	O
-that	NN	O	O
-the	NN	O	O
-optical	NN	O	B-Task
-properties	NN	O	I-Task
-of	NN	O	O
-atoms	NN	O	B-Material
-and	NN	O	O
-molecules	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-influenced	NN	O	O
-by	NN	O	O
-their	NN	O	O
-electronic	NN	O	B-Process
-environment	NN	O	I-Process
-.	NN	O	O
-
-Local	NN	O	B-Process
-field	NN	O	I-Process
-effects	NN	O	I-Process
-on	NN	O	O
-spontaneous	NN	O	O
-emission	NN	O	O
-rates	NN	O	O
-within	NN	O	O
-nanostructured	NN	O	B-Material
-photonic	NN	O	I-Material
-materials	NN	O	I-Material
-for	NN	O	O
-example	NN	O	O
-are	NN	O	O
-familiar	NN	O	O
-,	NN	O	O
-and	NN	O	O
-have	NN	O	O
-been	NN	O	O
-well	NN	O	O
-summarized	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Optical	NN	O	B-Process
-processes	NN	O	I-Process
-,	NN	O	O
-including	NN	O	O
-resonance	NN	O	B-Process
-energy	NN	O	I-Process
-transfer	NN	O	I-Process
-are	NN	O	O
-similarly	NN	O	O
-dependent	NN	O	O
-on	NN	O	O
-the	NN	O	O
-local	NN	O	B-Process
-environment	NN	O	I-Process
-of	NN	O	I-Process
-molecular	NN	O	I-Process
-chromophores	NN	O	I-Process
-[	NN	O	O
-2–4	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Many	NN	O	O
-biological	NN	O	O
-systems	NN	O	O
-are	NN	O	O
-known	NN	O	O
-to	NN	O	O
-contain	NN	O	O
-complex	NN	O	O
-organizations	NN	O	O
-of	NN	O	O
-molecules	NN	O	O
-with	NN	O	O
-absorption	NN	O	B-Material
-bands	NN	O	I-Material
-shifted	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-electronic	NN	O	B-Process
-influence	NN	O	I-Process
-of	NN	O	O
-other	NN	O	O
-,	NN	O	O
-nearby	NN	O	O
-optical	NN	O	O
-centres	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-instance	NN	O	O
-,	NN	O	O
-in	NN	O	O
-widely	NN	O	O
-studied	NN	O	O
-light	NN	O	B-Process
--	NN	O	I-Process
-harvesting	NN	O	I-Process
-complexes	NN	O	I-Process
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-two	NN	O	O
-identifiable	NN	O	O
-forms	NN	O	O
-of	NN	O	O
-the	NN	O	O
-photosynthetic	NN	O	B-Material
-antenna	NN	O	I-Material
-molecule	NN	O	I-Material
-bacteriochlorophyll	NN	O	I-Material
-,	NN	O	O
-with	NN	O	O
-absorption	NN	O	B-Material
-bands	NN	O	I-Material
-centred	NN	O	O
-on	NN	O	O
-800	NN	O	O
-and	NN	O	O
-850	NN	O	O
-nm	NN	O	O
-;	NN	O	O
-it	NN	O	O
-has	NN	O	O
-been	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-the	NN	O	O
-most	NN	O	O
-efficient	NN	O	O
-forms	NN	O	O
-of	NN	O	O
-energy	NN	O	B-Process
-transfer	NN	O	I-Process
-between	NN	O	O
-the	NN	O	O
-two	NN	O	O
-occurs	NN	O	O
-when	NN	O	O
-there	NN	O	O
-is	NN	O	O
-a	NN	O	O
-neighbouring	NN	O	O
-carotenoid	NN	O	B-Material
-species	NN	O	I-Material
-5–7	NN	O	O
-.	NN	O	O
-
-Until	NN	O	O
-now	NN	O	O
-,	NN	O	O
-research	NN	O	O
-on	NN	O	O
-the	NN	O	O
-broader	NN	O	O
-influence	NN	O	B-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-neighbouring	NN	O	I-Task
-,	NN	O	I-Task
-off	NN	O	I-Task
--	NN	O	I-Task
-resonant	NN	O	I-Task
-,	NN	O	I-Task
-molecule	NN	O	I-Task
-on	NN	O	I-Task
-photon	NN	O	I-Task
-absorption	NN	O	I-Task
-has	NN	O	O
-mostly	NN	O	O
-centred	NN	O	O
-on	NN	O	O
-the	NN	O	O
-phenomenon	NN	O	O
-of	NN	O	O
-induced	NN	O	B-Process
-circular	NN	O	I-Process
-dichroism	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-both	NN	O	O
-quantum	NN	O	B-Process
-electrodynamic	NN	O	I-Process
-(	NN	O	O
-QED	NN	O	B-Process
-)	NN	O	O
-calculations	NN	O	O
-[	NN	O	O
-8–10	NN	O	O
-]	NN	O	O
-and	NN	O	O
-experimental	NN	O	B-Process
-procedures	NN	O	I-Process
-[	NN	O	O
-11–13	NN	O	O
-]	NN	O	O
-predict	NN	O	O
-and	NN	O	O
-verify	NN	O	O
-that	NN	O	O
-a	NN	O	O
-chiral	NN	O	B-Material
-mediator	NN	O	I-Material
-confers	NN	O	O
-the	NN	O	O
-capacity	NN	O	O
-for	NN	O	O
-an	NN	O	O
-achiral	NN	O	B-Material
-acceptor	NN	O	I-Material
-to	NN	O	O
-exhibit	NN	O	O
-circular	NN	O	B-Process
-differential	NN	O	I-Process
-absorption	NN	O	I-Process
-.	NN	O	O
+It	0	2	O
+is	3	5	O
+well	6	10	O
+-	10	11	O
+known	11	16	O
+that	17	21	O
+the	22	25	O
+optical	26	33	B-Task
+properties	34	44	I-Task
+of	45	47	O
+atoms	48	53	B-Material
+and	54	57	O
+molecules	58	67	B-Material
+can	68	71	O
+be	72	74	O
+influenced	75	85	O
+by	86	88	O
+their	89	94	O
+electronic	95	105	B-Process
+environment	106	117	I-Process
+.	117	118	O
+
+Local	119	124	B-Process
+field	125	130	I-Process
+effects	131	138	I-Process
+on	139	141	O
+spontaneous	142	153	O
+emission	154	162	O
+rates	163	168	O
+within	169	175	O
+nanostructured	176	190	B-Material
+photonic	191	199	I-Material
+materials	200	209	I-Material
+for	210	213	O
+example	214	221	O
+are	222	225	O
+familiar	226	234	O
+,	234	235	O
+and	236	239	O
+have	240	244	O
+been	245	249	O
+well	250	254	O
+summarized	255	265	O
+[	266	267	O
+1	267	268	O
+]	268	269	O
+.	269	270	O
+
+Optical	271	278	B-Process
+processes	279	288	I-Process
+,	288	289	O
+including	290	299	O
+resonance	300	309	B-Process
+energy	310	316	I-Process
+transfer	317	325	I-Process
+are	326	329	O
+similarly	330	339	O
+dependent	340	349	O
+on	350	352	O
+the	353	356	O
+local	357	362	B-Process
+environment	363	374	I-Process
+of	375	377	I-Process
+molecular	378	387	I-Process
+chromophores	388	400	I-Process
+[	401	402	O
+2–4	402	405	O
+]	405	406	O
+.	406	407	O
+
+Many	408	412	O
+biological	413	423	O
+systems	424	431	O
+are	432	435	O
+known	436	441	O
+to	442	444	O
+contain	445	452	O
+complex	453	460	O
+organizations	461	474	O
+of	475	477	O
+molecules	478	487	O
+with	488	492	O
+absorption	493	503	B-Material
+bands	504	509	I-Material
+shifted	510	517	O
+due	518	521	O
+to	522	524	O
+the	525	528	O
+electronic	529	539	B-Process
+influence	540	549	I-Process
+of	550	552	O
+other	553	558	O
+,	558	559	O
+nearby	560	566	O
+optical	567	574	O
+centres	575	582	O
+.	582	583	O
+
+For	584	587	O
+instance	588	596	O
+,	596	597	O
+in	598	600	O
+widely	601	607	O
+studied	608	615	O
+light	616	621	B-Process
+-	621	622	I-Process
+harvesting	622	632	I-Process
+complexes	633	642	I-Process
+,	642	643	O
+there	644	649	O
+are	650	653	O
+two	654	657	O
+identifiable	658	670	O
+forms	671	676	O
+of	677	679	O
+the	680	683	O
+photosynthetic	684	698	B-Material
+antenna	699	706	I-Material
+molecule	707	715	I-Material
+bacteriochlorophyll	716	735	I-Material
+,	735	736	O
+with	737	741	O
+absorption	742	752	B-Material
+bands	753	758	I-Material
+centred	759	766	O
+on	767	769	O
+800	770	773	O
+and	774	777	O
+850	778	781	O
+nm	781	783	O
+;	783	784	O
+it	785	787	O
+has	788	791	O
+been	792	796	O
+shown	797	802	O
+that	803	807	O
+the	808	811	O
+most	812	816	O
+efficient	817	826	O
+forms	827	832	O
+of	833	835	O
+energy	836	842	B-Process
+transfer	843	851	I-Process
+between	852	859	O
+the	860	863	O
+two	864	867	O
+occurs	868	874	O
+when	875	879	O
+there	880	885	O
+is	886	888	O
+a	889	890	O
+neighbouring	891	903	O
+carotenoid	904	914	B-Material
+species	915	922	I-Material
+5–7	923	926	O
+.	926	927	O
+
+Until	928	933	O
+now	934	937	O
+,	937	938	O
+research	939	947	O
+on	948	950	O
+the	951	954	O
+broader	955	962	O
+influence	963	972	B-Task
+of	973	975	I-Task
+a	976	977	I-Task
+neighbouring	978	990	I-Task
+,	990	991	I-Task
+off	992	995	I-Task
+-	995	996	I-Task
+resonant	996	1004	I-Task
+,	1004	1005	I-Task
+molecule	1006	1014	I-Task
+on	1015	1017	I-Task
+photon	1018	1024	I-Task
+absorption	1025	1035	I-Task
+has	1036	1039	O
+mostly	1040	1046	O
+centred	1047	1054	O
+on	1055	1057	O
+the	1058	1061	O
+phenomenon	1062	1072	O
+of	1073	1075	O
+induced	1076	1083	B-Process
+circular	1084	1092	I-Process
+dichroism	1093	1102	I-Process
+,	1102	1103	O
+where	1104	1109	O
+both	1110	1114	O
+quantum	1115	1122	B-Process
+electrodynamic	1123	1137	I-Process
+(	1138	1139	O
+QED	1139	1142	B-Process
+)	1142	1143	O
+calculations	1144	1156	O
+[	1157	1158	O
+8–10	1158	1162	O
+]	1162	1163	O
+and	1164	1167	O
+experimental	1168	1180	B-Process
+procedures	1181	1191	I-Process
+[	1192	1193	O
+11–13	1193	1198	O
+]	1198	1199	O
+predict	1200	1207	O
+and	1208	1211	O
+verify	1212	1218	O
+that	1219	1223	O
+a	1224	1225	O
+chiral	1226	1232	B-Material
+mediator	1233	1241	I-Material
+confers	1242	1249	O
+the	1250	1253	O
+capacity	1254	1262	O
+for	1263	1266	O
+an	1267	1269	O
+achiral	1270	1277	B-Material
+acceptor	1278	1286	I-Material
+to	1287	1289	O
+exhibit	1290	1297	O
+circular	1298	1306	B-Process
+differential	1307	1319	I-Process
+absorption	1320	1330	I-Process
+.	1330	1331	O
 
 
 -DOCSTART- (S0009261415001517)
 
-Since	NN	O	O
-the	NN	O	O
-receptors	NN	O	O
-in	NN	O	O
-human	NN	O	O
-biology	NN	O	O
-mostly	NN	O	O
-consist	NN	O	O
-of	NN	O	O
-chiral	NN	O	B-Material
-molecules	NN	O	I-Material
-,	NN	O	O
-drug	NN	O	O
-action	NN	O	O
-mostly	NN	O	O
-involves	NN	O	O
-a	NN	O	O
-specified	NN	O	O
-enantiomeric	NN	O	O
-form	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-has	NN	O	O
-spurred	NN	O	O
-the	NN	O	O
-development	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-in	NN	O	O
-the	NN	O	O
-pharmaceutical	NN	O	O
-industry	NN	O	O
-,	NN	O	O
-of	NN	O	O
-a	NN	O	O
-host	NN	O	O
-of	NN	O	O
-techniques	NN	O	B-Task
-to	NN	O	I-Task
-secure	NN	O	I-Task
-enantiopure	NN	O	I-Task
-products	NN	O	I-Task
-.	NN	O	O
-
-Such	NN	O	O
-methods	NN	O	B-Process
-,	NN	O	I-Process
-mostly	NN	O	I-Process
-multi	NN	O	I-Process
--	NN	O	I-Process
-step	NN	O	I-Process
-and	NN	O	I-Process
-time	NN	O	I-Process
--	NN	O	I-Process
-consuming	NN	O	I-Process
-,	NN	O	O
-can	NN	O	O
-typically	NN	O	O
-be	NN	O	O
-cast	NN	O	O
-in	NN	O	O
-one	NN	O	O
-of	NN	O	O
-two	NN	O	O
-distinct	NN	O	O
-categories	NN	O	O
-:	NN	O	O
-synthetic	NN	O	B-Process
-mechanisms	NN	O	I-Process
-designed	NN	O	O
-to	NN	O	O
-produce	NN	O	O
-a	NN	O	O
-single	NN	O	O
-stereoisomer	NN	O	B-Material
-,	NN	O	O
-or	NN	O	O
-separation	NN	O	B-Process
-techniques	NN	O	I-Process
-to	NN	O	O
-isolate	NN	O	O
-distinct	NN	O	O
-enantiomers	NN	O	B-Material
-from	NN	O	O
-a	NN	O	O
-racemic	NN	O	O
-mixture	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-significant	NN	O	O
-drawback	NN	O	O
-,	NN	O	O
-for	NN	O	O
-either	NN	O	O
-approach	NN	O	O
-,	NN	O	O
-is	NN	O	O
-a	NN	O	O
-dependence	NN	O	O
-on	NN	O	O
-a	NN	O	O
-supply	NN	O	O
-of	NN	O	O
-enantiopure	NN	O	B-Material
-reagents	NN	O	I-Material
-or	NN	O	I-Material
-substrates	NN	O	I-Material
-–	NN	O	O
-synthesis	NN	O	B-Process
-routes	NN	O	I-Process
-generally	NN	O	O
-utilise	NN	O	O
-chiral	NN	O	B-Material
-building	NN	O	I-Material
-blocks	NN	O	I-Material
-or	NN	O	O
-enantioselective	NN	O	B-Material
-catalysts	NN	O	I-Material
-[	NN	O	O
-7,8	NN	O	O
-]	NN	O	O
-,	NN	O	O
-while	NN	O	O
-enantiomer	NN	O	B-Process
-separation	NN	O	I-Process
-techniques	NN	O	I-Process
-typically	NN	O	O
-incorporate	NN	O	O
-chiral	NN	O	B-Material
-selector	NN	O	I-Material
-molecules	NN	O	I-Material
-to	NN	O	O
-form	NN	O	O
-chemically	NN	O	O
-distinct	NN	O	O
-and	NN	O	O
-distinguishable	NN	O	O
-diastereomeric	NN	O	B-Material
-complexes	NN	O	I-Material
-[	NN	O	O
-8,9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-key	NN	O	O
-requirement	NN	O	O
-in	NN	O	O
-aiming	NN	O	O
-to	NN	O	O
-achieve	NN	O	B-Task
-enantiopure	NN	O	I-Task
-products	NN	O	I-Task
-,	NN	O	I-Task
-irrespective	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-synthetic	NN	O	I-Task
-method	NN	O	I-Task
-,	NN	O	O
-is	NN	O	O
-therefore	NN	O	O
-a	NN	O	O
-means	NN	O	B-Task
-to	NN	O	I-Task
-measure	NN	O	I-Task
-,	NN	O	I-Task
-and	NN	O	I-Task
-duly	NN	O	I-Task
-quantitate	NN	O	I-Task
-the	NN	O	I-Task
-enantiomeric	NN	O	I-Task
-excess	NN	O	I-Task
-–	NN	O	O
-signifying	NN	O	O
-the	NN	O	O
-degree	NN	O	B-Process
-of	NN	O	I-Process
-chirality	NN	O	I-Process
-within	NN	O	O
-molecular	NN	O	B-Material
-products	NN	O	I-Material
-.	NN	O	O
-
-Chiral	NN	O	B-Process
-discrimination	NN	O	I-Process
-through	NN	O	O
-optical	NN	O	B-Material
-means	NN	O	I-Material
-is	NN	O	O
-well	NN	O	O
--	NN	O	O
-known	NN	O	O
-to	NN	O	O
-offer	NN	O	O
-direct	NN	O	O
-,	NN	O	O
-non	NN	O	O
--	NN	O	O
-contact	NN	O	O
-ways	NN	O	O
-to	NN	O	O
-distinguish	NN	O	O
-between	NN	O	O
-molecules	NN	O	B-Material
-of	NN	O	O
-different	NN	O	O
-handedness	NN	O	O
-,	NN	O	O
-based	NN	O	O
-on	NN	O	O
-observations	NN	O	O
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-subtle	NN	O	O
-differences	NN	O	O
-in	NN	O	O
-absorption	NN	O	B-Process
-of	NN	O	O
-left-	NN	O	O
-and	NN	O	O
-right	NN	O	O
--	NN	O	O
-handed	NN	O	O
-circularly	NN	O	O
-polarised	NN	O	O
-light	NN	O	O
-,	NN	O	O
-or	NN	O	O
-indeed	NN	O	O
-the	NN	O	O
-twisting	NN	O	B-Process
-of	NN	O	I-Process
-polarisation	NN	O	I-Process
-in	NN	O	I-Process
-optical	NN	O	I-Process
-rotation	NN	O	I-Process
-.	NN	O	O
-
-Other	NN	O	O
-optical	NN	O	B-Process
-methods	NN	O	I-Process
-,	NN	O	O
-under	NN	O	O
-more	NN	O	O
-recent	NN	O	O
-development	NN	O	O
-,	NN	O	O
-also	NN	O	O
-show	NN	O	O
-some	NN	O	O
-promise	NN	O	O
-to	NN	O	O
-achieve	NN	O	O
-enantiomer	NN	O	B-Task
-separation	NN	O	I-Task
-,	NN	O	O
-as	NN	O	O
-will	NN	O	O
-be	NN	O	O
-introduced	NN	O	O
-later	NN	O	O
-.	NN	O	O
+Since	0	5	O
+the	6	9	O
+receptors	10	19	O
+in	20	22	O
+human	23	28	O
+biology	29	36	O
+mostly	37	43	O
+consist	44	51	O
+of	52	54	O
+chiral	55	61	B-Material
+molecules	62	71	I-Material
+,	71	72	O
+drug	73	77	O
+action	78	84	O
+mostly	85	91	O
+involves	92	100	O
+a	101	102	O
+specified	103	112	O
+enantiomeric	113	125	O
+form	126	130	O
+.	130	131	O
+
+This	132	136	O
+has	137	140	O
+spurred	141	148	O
+the	149	152	O
+development	153	164	O
+,	164	165	O
+especially	166	176	O
+in	177	179	O
+the	180	183	O
+pharmaceutical	184	198	O
+industry	199	207	O
+,	207	208	O
+of	209	211	O
+a	212	213	O
+host	214	218	O
+of	219	221	O
+techniques	222	232	B-Task
+to	233	235	I-Task
+secure	236	242	I-Task
+enantiopure	243	254	I-Task
+products	255	263	I-Task
+.	263	264	O
+
+Such	265	269	O
+methods	270	277	B-Process
+,	277	278	I-Process
+mostly	279	285	I-Process
+multi	286	291	I-Process
+-	291	292	I-Process
+step	292	296	I-Process
+and	297	300	I-Process
+time	301	305	I-Process
+-	305	306	I-Process
+consuming	306	315	I-Process
+,	315	316	O
+can	317	320	O
+typically	321	330	O
+be	331	333	O
+cast	334	338	O
+in	339	341	O
+one	342	345	O
+of	346	348	O
+two	349	352	O
+distinct	353	361	O
+categories	362	372	O
+:	372	373	O
+synthetic	374	383	B-Process
+mechanisms	384	394	I-Process
+designed	395	403	O
+to	404	406	O
+produce	407	414	O
+a	415	416	O
+single	417	423	O
+stereoisomer	424	436	B-Material
+,	436	437	O
+or	438	440	O
+separation	441	451	B-Process
+techniques	452	462	I-Process
+to	463	465	O
+isolate	466	473	O
+distinct	474	482	O
+enantiomers	483	494	B-Material
+from	495	499	O
+a	500	501	O
+racemic	502	509	O
+mixture	510	517	O
+.	517	518	O
+
+A	519	520	O
+significant	521	532	O
+drawback	533	541	O
+,	541	542	O
+for	543	546	O
+either	547	553	O
+approach	554	562	O
+,	562	563	O
+is	564	566	O
+a	567	568	O
+dependence	569	579	O
+on	580	582	O
+a	583	584	O
+supply	585	591	O
+of	592	594	O
+enantiopure	595	606	B-Material
+reagents	607	615	I-Material
+or	616	618	I-Material
+substrates	619	629	I-Material
+–	630	631	O
+synthesis	632	641	B-Process
+routes	642	648	I-Process
+generally	649	658	O
+utilise	659	666	O
+chiral	667	673	B-Material
+building	674	682	I-Material
+blocks	683	689	I-Material
+or	690	692	O
+enantioselective	693	709	B-Material
+catalysts	710	719	I-Material
+[	720	721	O
+7,8	721	724	O
+]	724	725	O
+,	725	726	O
+while	727	732	O
+enantiomer	733	743	B-Process
+separation	744	754	I-Process
+techniques	755	765	I-Process
+typically	766	775	O
+incorporate	776	787	O
+chiral	788	794	B-Material
+selector	795	803	I-Material
+molecules	804	813	I-Material
+to	814	816	O
+form	817	821	O
+chemically	822	832	O
+distinct	833	841	O
+and	842	845	O
+distinguishable	846	861	O
+diastereomeric	862	876	B-Material
+complexes	877	886	I-Material
+[	887	888	O
+8,9	888	891	O
+]	891	892	O
+.	892	893	O
+
+A	894	895	O
+key	896	899	O
+requirement	900	911	O
+in	912	914	O
+aiming	915	921	O
+to	922	924	O
+achieve	925	932	B-Task
+enantiopure	933	944	I-Task
+products	945	953	I-Task
+,	953	954	I-Task
+irrespective	955	967	I-Task
+of	968	970	I-Task
+the	971	974	I-Task
+synthetic	975	984	I-Task
+method	985	991	I-Task
+,	991	992	O
+is	993	995	O
+therefore	996	1005	O
+a	1006	1007	O
+means	1008	1013	B-Task
+to	1014	1016	I-Task
+measure	1017	1024	I-Task
+,	1024	1025	I-Task
+and	1026	1029	I-Task
+duly	1030	1034	I-Task
+quantitate	1035	1045	I-Task
+the	1046	1049	I-Task
+enantiomeric	1050	1062	I-Task
+excess	1063	1069	I-Task
+–	1070	1071	O
+signifying	1072	1082	O
+the	1083	1086	O
+degree	1087	1093	B-Process
+of	1094	1096	I-Process
+chirality	1097	1106	I-Process
+within	1107	1113	O
+molecular	1114	1123	B-Material
+products	1124	1132	I-Material
+.	1132	1133	O
+
+Chiral	1134	1140	B-Process
+discrimination	1141	1155	I-Process
+through	1156	1163	O
+optical	1164	1171	B-Material
+means	1172	1177	I-Material
+is	1178	1180	O
+well	1181	1185	O
+-	1185	1186	O
+known	1186	1191	O
+to	1192	1194	O
+offer	1195	1200	O
+direct	1201	1207	O
+,	1207	1208	O
+non	1209	1212	O
+-	1212	1213	O
+contact	1213	1220	O
+ways	1221	1225	O
+to	1226	1228	O
+distinguish	1229	1240	O
+between	1241	1248	O
+molecules	1249	1258	B-Material
+of	1259	1261	O
+different	1262	1271	O
+handedness	1272	1282	O
+,	1282	1283	O
+based	1284	1289	O
+on	1290	1292	O
+observations	1293	1305	O
+such	1306	1310	O
+as	1311	1313	O
+the	1314	1317	O
+subtle	1318	1324	O
+differences	1325	1336	O
+in	1337	1339	O
+absorption	1340	1350	B-Process
+of	1351	1353	O
+left-	1354	1359	O
+and	1360	1363	O
+right	1364	1369	O
+-	1369	1370	O
+handed	1370	1376	O
+circularly	1377	1387	O
+polarised	1388	1397	O
+light	1398	1403	O
+,	1403	1404	O
+or	1405	1407	O
+indeed	1408	1414	O
+the	1415	1418	O
+twisting	1419	1427	B-Process
+of	1428	1430	I-Process
+polarisation	1431	1443	I-Process
+in	1444	1446	I-Process
+optical	1447	1454	I-Process
+rotation	1455	1463	I-Process
+.	1463	1464	O
+
+Other	1465	1470	O
+optical	1471	1478	B-Process
+methods	1479	1486	I-Process
+,	1486	1487	O
+under	1488	1493	O
+more	1494	1498	O
+recent	1499	1505	O
+development	1506	1517	O
+,	1517	1518	O
+also	1519	1523	O
+show	1524	1528	O
+some	1529	1533	O
+promise	1534	1541	O
+to	1542	1544	O
+achieve	1545	1552	O
+enantiomer	1553	1563	B-Task
+separation	1564	1574	I-Task
+,	1574	1575	O
+as	1576	1578	O
+will	1579	1583	O
+be	1584	1586	O
+introduced	1587	1597	O
+later	1598	1603	O
+.	1603	1604	O
 
 
 -DOCSTART- (S0009261415008362)
 
-For	NN	O	O
-any	NN	O	O
-quantum	NN	O	B-Process
-dynamical	NN	O	I-Process
-method	NN	O	I-Process
-,	NN	O	O
-existing	NN	O	O
-or	NN	O	O
-emerging	NN	O	O
-,	NN	O	O
-reliable	NN	O	O
-benchmarks	NN	O	B-Task
-are	NN	O	O
-required	NN	O	O
-to	NN	O	O
-assess	NN	O	O
-their	NN	O	O
-accuracy	NN	O	O
-.	NN	O	O
-
-A	NN	O	B-Process
-model	NN	O	I-Process
-Hamiltonian	NN	O	I-Process
-exhibiting	NN	O	O
-tunnelling	NN	O	B-Process
-dynamics	NN	O	I-Process
-through	NN	O	O
-a	NN	O	O
-multidimensional	NN	O	B-Process
-asymmetric	NN	O	I-Process
-double	NN	O	I-Process
-well	NN	O	I-Process
-potential	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-used	NN	O	O
-as	NN	O	O
-a	NN	O	O
-test	NN	O	O
-by	NN	O	O
-the	NN	O	O
-MP	NN	O	B-Process
-/	NN	O	I-Process
-SOFT	NN	O	I-Process
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-and	NN	O	O
-CCS	NN	O	B-Process
-methods	NN	O	I-Process
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-mentioned	NN	O	O
-above	NN	O	O
-,	NN	O	O
-and	NN	O	O
-also	NN	O	O
-more	NN	O	O
-recently	NN	O	O
-by	NN	O	O
-a	NN	O	O
-configuration	NN	O	B-Process
-interaction	NN	O	I-Process
-(	NN	O	I-Process
-CI	NN	O	I-Process
-)	NN	O	I-Process
-expansion	NN	O	I-Process
-method	NN	O	I-Process
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-and	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-layer	NN	O	I-Process
-version	NN	O	I-Process
-of	NN	O	I-Process
-CCS	NN	O	I-Process
-(	NN	O	O
-2L	NN	O	B-Process
--	NN	O	I-Process
-CCS	NN	O	I-Process
-)	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-
-The	NN	O	B-Process
-Hamiltonian	NN	O	I-Process
-consists	NN	O	O
-of	NN	O	O
-a	NN	O	O
-1-dimensional	NN	O	B-Process
-tunnelling	NN	O	I-Process
-mode	NN	O	I-Process
-coupled	NN	O	O
-to	NN	O	O
-an	NN	O	O
-(	NN	O	B-Process
-M−1)-dimensional	NN	O	I-Process
-harmonic	NN	O	I-Process
-bath	NN	O	I-Process
-,	NN	O	O
-hence	NN	O	O
-it	NN	O	O
-is	NN	O	O
-a	NN	O	O
-system	NN	O	B-Task
--	NN	O	I-Task
-bath	NN	O	I-Task
-problem	NN	O	I-Task
-which	NN	O	O
-bears	NN	O	O
-some	NN	O	O
-similarity	NN	O	O
-to	NN	O	O
-the	NN	O	O
-Caldeira	NN	O	B-Process
--	NN	O	I-Process
-Leggett	NN	O	I-Process
-model	NN	O	I-Process
-of	NN	O	I-Process
-tunnelling	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-dissipative	NN	O	O
-system	NN	O	O
-[	NN	O	O
-22,23	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-Hamiltonian	NN	O	B-Process
-is	NN	O	O
-non	NN	O	O
--	NN	O	O
-dissipative	NN	O	O
-,	NN	O	O
-however	NN	O	O
-and	NN	O	O
-the	NN	O	O
-harmonic	NN	O	B-Process
-modes	NN	O	I-Process
-all	NN	O	O
-have	NN	O	O
-the	NN	O	O
-same	NN	O	O
-frequency	NN	O	O
-.	NN	O	O
-
-System	NN	O	B-Process
--	NN	O	I-Process
-bath	NN	O	I-Process
-models	NN	O	I-Process
-play	NN	O	O
-an	NN	O	O
-important	NN	O	O
-role	NN	O	O
-in	NN	O	O
-physics	NN	O	B-Task
-,	NN	O	O
-being	NN	O	O
-used	NN	O	O
-to	NN	O	O
-describe	NN	O	O
-superconductivity	NN	O	B-Process
-at	NN	O	I-Process
-a	NN	O	I-Process
-Josephson	NN	O	I-Process
-junction	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-superconducting	NN	O	B-Process
-quantum	NN	O	I-Process
-interface	NN	O	I-Process
-device	NN	O	I-Process
-(	NN	O	O
-SQUID	NN	O	B-Process
-)	NN	O	O
-
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-,	NN	O	O
-for	NN	O	O
-which	NN	O	O
-the	NN	O	O
-Caldeira	NN	O	B-Process
--	NN	O	I-Process
-Leggett	NN	O	I-Process
-model	NN	O	I-Process
-provides	NN	O	O
-a	NN	O	O
-theoretical	NN	O	O
-basis	NN	O	O
-,	NN	O	O
-and	NN	O	O
-magnetic	NN	O	B-Process
-and	NN	O	I-Process
-conductance	NN	O	I-Process
-phenomena	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-spin	NN	O	B-Task
--	NN	O	I-Task
-bath	NN	O	I-Task
-regime	NN	O	I-Task
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-.	NN	O	O
+For	0	3	O
+any	4	7	O
+quantum	8	15	B-Process
+dynamical	16	25	I-Process
+method	26	32	I-Process
+,	32	33	O
+existing	34	42	O
+or	43	45	O
+emerging	46	54	O
+,	54	55	O
+reliable	56	64	O
+benchmarks	65	75	B-Task
+are	76	79	O
+required	80	88	O
+to	89	91	O
+assess	92	98	O
+their	99	104	O
+accuracy	105	113	O
+.	113	114	O
+
+A	115	116	B-Process
+model	117	122	I-Process
+Hamiltonian	123	134	I-Process
+exhibiting	135	145	O
+tunnelling	146	156	B-Process
+dynamics	157	165	I-Process
+through	166	173	O
+a	174	175	O
+multidimensional	176	192	B-Process
+asymmetric	193	203	I-Process
+double	204	210	I-Process
+well	211	215	I-Process
+potential	216	225	I-Process
+has	226	229	O
+been	230	234	O
+used	235	239	O
+as	240	242	O
+a	243	244	O
+test	245	249	O
+by	250	252	O
+the	253	256	O
+MP	257	259	B-Process
+/	259	260	I-Process
+SOFT	260	264	I-Process
+[	265	266	O
+18	266	268	O
+]	268	269	O
+and	270	273	O
+CCS	274	277	B-Process
+methods	278	285	I-Process
+[	286	287	O
+19	287	289	O
+]	289	290	O
+mentioned	291	300	O
+above	301	306	O
+,	306	307	O
+and	308	311	O
+also	312	316	O
+more	317	321	O
+recently	322	330	O
+by	331	333	O
+a	334	335	O
+configuration	336	349	B-Process
+interaction	350	361	I-Process
+(	362	363	I-Process
+CI	363	365	I-Process
+)	365	366	I-Process
+expansion	367	376	I-Process
+method	377	383	I-Process
+[	384	385	O
+20	385	387	O
+]	387	388	O
+and	389	392	O
+two	393	396	B-Process
+-	396	397	I-Process
+layer	397	402	I-Process
+version	403	410	I-Process
+of	411	413	I-Process
+CCS	414	417	I-Process
+(	418	419	O
+2L	419	421	B-Process
+-	421	422	I-Process
+CCS	422	425	I-Process
+)	425	426	O
+.	426	427	O
+
+[	428	429	O
+21	429	431	O
+]	431	432	O
+
+The	433	436	B-Process
+Hamiltonian	437	448	I-Process
+consists	449	457	O
+of	458	460	O
+a	461	462	O
+1-dimensional	463	476	B-Process
+tunnelling	477	487	I-Process
+mode	488	492	I-Process
+coupled	493	500	O
+to	501	503	O
+an	504	506	O
+(	507	508	B-Process
+M−1)-dimensional	508	524	I-Process
+harmonic	525	533	I-Process
+bath	534	538	I-Process
+,	538	539	O
+hence	540	545	O
+it	546	548	O
+is	549	551	O
+a	552	553	O
+system	554	560	B-Task
+-	560	561	I-Task
+bath	561	565	I-Task
+problem	566	573	I-Task
+which	574	579	O
+bears	580	585	O
+some	586	590	O
+similarity	591	601	O
+to	602	604	O
+the	605	608	O
+Caldeira	609	617	B-Process
+-	617	618	I-Process
+Leggett	618	625	I-Process
+model	626	631	I-Process
+of	632	634	I-Process
+tunnelling	635	645	I-Process
+in	646	648	O
+a	649	650	O
+dissipative	651	662	O
+system	663	669	O
+[	670	671	O
+22,23	671	676	O
+]	676	677	O
+.	677	678	O
+
+This	679	683	O
+Hamiltonian	684	695	B-Process
+is	696	698	O
+non	699	702	O
+-	702	703	O
+dissipative	703	714	O
+,	714	715	O
+however	716	723	O
+and	724	727	O
+the	728	731	O
+harmonic	732	740	B-Process
+modes	741	746	I-Process
+all	747	750	O
+have	751	755	O
+the	756	759	O
+same	760	764	O
+frequency	765	774	O
+.	774	775	O
+
+System	776	782	B-Process
+-	782	783	I-Process
+bath	783	787	I-Process
+models	788	794	I-Process
+play	795	799	O
+an	800	802	O
+important	803	812	O
+role	813	817	O
+in	818	820	O
+physics	821	828	B-Task
+,	828	829	O
+being	830	835	O
+used	836	840	O
+to	841	843	O
+describe	844	852	O
+superconductivity	853	870	B-Process
+at	871	873	I-Process
+a	874	875	I-Process
+Josephson	876	885	I-Process
+junction	886	894	I-Process
+in	895	897	O
+a	898	899	O
+superconducting	900	915	B-Process
+quantum	916	923	I-Process
+interface	924	933	I-Process
+device	934	940	I-Process
+(	941	942	O
+SQUID	942	947	B-Process
+)	947	948	O
+
+[	949	950	O
+24	950	952	O
+]	952	953	O
+,	953	954	O
+for	955	958	O
+which	959	964	O
+the	965	968	O
+Caldeira	969	977	B-Process
+-	977	978	I-Process
+Leggett	978	985	I-Process
+model	986	991	I-Process
+provides	992	1000	O
+a	1001	1002	O
+theoretical	1003	1014	O
+basis	1015	1020	O
+,	1020	1021	O
+and	1022	1025	O
+magnetic	1026	1034	B-Process
+and	1035	1038	I-Process
+conductance	1039	1050	I-Process
+phenomena	1051	1060	I-Process
+in	1061	1063	O
+the	1064	1067	O
+spin	1068	1072	B-Task
+-	1072	1073	I-Task
+bath	1073	1077	I-Task
+regime	1078	1084	I-Task
+[	1085	1086	O
+25	1086	1088	O
+]	1088	1089	O
+.	1089	1090	O
 
 
 -DOCSTART- (S0010938X13003818)
 
-Based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-theoretical	NN	O	B-Task
-analysis	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-value	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-measuring	NN	O	I-Process
-resistor	NN	O	I-Process
-,	NN	O	O
-Rm	NN	O	B-Process
-,	NN	O	O
-has	NN	O	O
-no	NN	O	O
-effect	NN	O	O
-on	NN	O	O
-the	NN	O	O
-corrosion	NN	O	B-Process
-process	NN	O	I-Process
-and	NN	O	O
-on	NN	O	O
-the	NN	O	O
-estimated	NN	O	O
-value	NN	O	B-Process
-of	NN	O	I-Process
-noise	NN	O	I-Process
-resistance	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-validate	NN	O	B-Task
-this	NN	O	I-Task
-conclusion	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-experiment	NN	O	O
-of	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-9	NN	O	O
-was	NN	O	O
-performed	NN	O	O
-.	NN	O	O
-
-Specifically	NN	O	O
-,	NN	O	O
-a	NN	O	O
-pair	NN	O	B-Material
-of	NN	O	I-Material
-nominally	NN	O	I-Material
-identical	NN	O	I-Material
-specimens	NN	O	I-Material
-was	NN	O	O
-initially	NN	O	O
-coupled	NN	O	O
-by	NN	O	O
-a	NN	O	O
-4.7kΩ	NN	O	B-Material
-resistor	NN	O	I-Material
-and	NN	O	O
-their	NN	O	O
-potential	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-a	NN	O	O
-saturated	NN	O	B-Material
-calomel	NN	O	I-Material
-electrode	NN	O	I-Material
-was	NN	O	O
-recorded	NN	O	O
-by	NN	O	O
-using	NN	O	O
-a	NN	O	O
-NI	NN	O	B-Material
--	NN	O	I-Material
-USB	NN	O	I-Material
-6009	NN	O	I-Material
-analog	NN	O	I-Material
--	NN	O	I-Material
-to	NN	O	I-Material
--	NN	O	I-Material
-digital	NN	O	I-Material
-converter	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-electrochemical	NN	O	B-Process
-noise	NN	O	I-Process
-signal	NN	O	I-Process
-was	NN	O	O
-recorded	NN	O	O
-using	NN	O	O
-in	NN	O	B-Material
--	NN	O	I-Material
-house	NN	O	I-Material
-developed	NN	O	I-Material
-software	NN	O	I-Material
-,	NN	O	O
-acquiring	NN	O	O
-at	NN	O	O
-1023Hz	NN	O	O
-segments	NN	O	O
-of	NN	O	O
-1000	NN	O	O
-points	NN	O	O
-at	NN	O	O
-each	NN	O	O
-iteration	NN	O	O
-.	NN	O	O
-
-Between	NN	O	O
-iterations	NN	O	O
-,	NN	O	O
-the	NN	O	O
-1000	NN	O	O
-values	NN	O	O
-acquired	NN	O	O
-were	NN	O	O
-averaged	NN	O	O
-to	NN	O	O
-obtain	NN	O	B-Task
-a	NN	O	I-Task
-single	NN	O	I-Task
-value	NN	O	I-Task
-of	NN	O	I-Task
-potential	NN	O	I-Task
-,	NN	O	O
-subsequently	NN	O	O
-saved	NN	O	O
-to	NN	O	O
-the	NN	O	O
-file	NN	O	O
-used	NN	O	O
-for	NN	O	O
-later	NN	O	O
-processing	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-final	NN	O	O
-dataset	NN	O	B-Material
-comprised	NN	O	O
-potential	NN	O	O
-values	NN	O	O
-spaced	NN	O	O
-1±0.05s	NN	O	O
-in	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-Under	NN	O	O
-the	NN	O	O
-assumption	NN	O	O
-that	NN	O	O
-the	NN	O	O
-noise	NN	O	O
-present	NN	O	O
-above	NN	O	O
-1023Hz	NN	O	O
-is	NN	O	O
-negligible	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-the	NN	O	O
-noise	NN	O	O
-present	NN	O	O
-below	NN	O	O
-0.5Hz	NN	O	O
-,	NN	O	O
-this	NN	O	O
-procedure	NN	O	O
-enables	NN	O	O
-an	NN	O	O
-accurate	NN	O	B-Task
-recording	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-potential	NN	O	I-Task
-noise	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-frequencies	NN	O	I-Task
-of	NN	O	I-Task
-interest	NN	O	I-Task
-,	NN	O	O
-avoiding	NN	O	O
-aliasing	NN	O	O
-of	NN	O	O
-frequencies	NN	O	O
-between	NN	O	O
-0.5	NN	O	O
-and	NN	O	O
-1023Hz	NN	O	O
-and	NN	O	O
-minimizing	NN	O	O
-the	NN	O	O
-50Hz	NN	O	O
-interference	NN	O	O
-from	NN	O	O
-the	NN	O	O
-mains	NN	O	O
-supply	NN	O	O
-.	NN	O	O
+Based	0	5	O
+on	6	8	O
+the	9	12	O
+theoretical	13	24	B-Task
+analysis	25	33	I-Task
+,	33	34	O
+the	35	38	O
+value	39	44	B-Process
+of	45	47	I-Process
+the	48	51	I-Process
+measuring	52	61	I-Process
+resistor	62	70	I-Process
+,	70	71	O
+Rm	72	74	B-Process
+,	74	75	O
+has	76	79	O
+no	80	82	O
+effect	83	89	O
+on	90	92	O
+the	93	96	O
+corrosion	97	106	B-Process
+process	107	114	I-Process
+and	115	118	O
+on	119	121	O
+the	122	125	O
+estimated	126	135	O
+value	136	141	B-Process
+of	142	144	I-Process
+noise	145	150	I-Process
+resistance	151	161	I-Process
+.	161	162	O
+
+In	163	165	O
+order	166	171	O
+to	172	174	O
+validate	175	183	B-Task
+this	184	188	I-Task
+conclusion	189	199	I-Task
+,	199	200	O
+the	201	204	O
+experiment	205	215	O
+of	216	218	O
+Fig	219	222	O
+.	222	223	O
+9	224	225	O
+was	226	229	O
+performed	230	239	O
+.	239	240	O
+
+Specifically	241	253	O
+,	253	254	O
+a	255	256	O
+pair	257	261	B-Material
+of	262	264	I-Material
+nominally	265	274	I-Material
+identical	275	284	I-Material
+specimens	285	294	I-Material
+was	295	298	O
+initially	299	308	O
+coupled	309	316	O
+by	317	319	O
+a	320	321	O
+4.7kΩ	322	327	B-Material
+resistor	328	336	I-Material
+and	337	340	O
+their	341	346	O
+potential	347	356	O
+with	357	361	O
+respect	362	369	O
+to	370	372	O
+a	373	374	O
+saturated	375	384	B-Material
+calomel	385	392	I-Material
+electrode	393	402	I-Material
+was	403	406	O
+recorded	407	415	O
+by	416	418	O
+using	419	424	O
+a	425	426	O
+NI	427	429	B-Material
+-	429	430	I-Material
+USB	430	433	I-Material
+6009	434	438	I-Material
+analog	439	445	I-Material
+-	445	446	I-Material
+to	446	448	I-Material
+-	448	449	I-Material
+digital	449	456	I-Material
+converter	457	466	I-Material
+.	466	467	O
+
+The	468	471	O
+electrochemical	472	487	B-Process
+noise	488	493	I-Process
+signal	494	500	I-Process
+was	501	504	O
+recorded	505	513	O
+using	514	519	O
+in	520	522	B-Material
+-	522	523	I-Material
+house	523	528	I-Material
+developed	529	538	I-Material
+software	539	547	I-Material
+,	547	548	O
+acquiring	549	558	O
+at	559	561	O
+1023Hz	562	568	O
+segments	569	577	O
+of	578	580	O
+1000	581	585	O
+points	586	592	O
+at	593	595	O
+each	596	600	O
+iteration	601	610	O
+.	610	611	O
+
+Between	612	619	O
+iterations	620	630	O
+,	630	631	O
+the	632	635	O
+1000	636	640	O
+values	641	647	O
+acquired	648	656	O
+were	657	661	O
+averaged	662	670	O
+to	671	673	O
+obtain	674	680	B-Task
+a	681	682	I-Task
+single	683	689	I-Task
+value	690	695	I-Task
+of	696	698	I-Task
+potential	699	708	I-Task
+,	708	709	O
+subsequently	710	722	O
+saved	723	728	O
+to	729	731	O
+the	732	735	O
+file	736	740	O
+used	741	745	O
+for	746	749	O
+later	750	755	O
+processing	756	766	O
+.	766	767	O
+
+The	768	771	O
+final	772	777	O
+dataset	778	785	B-Material
+comprised	786	795	O
+potential	796	805	O
+values	806	812	O
+spaced	813	819	O
+1±0.05s	820	827	O
+in	828	830	O
+time	831	835	O
+.	835	836	O
+
+Under	837	842	O
+the	843	846	O
+assumption	847	857	O
+that	858	862	O
+the	863	866	O
+noise	867	872	O
+present	873	880	O
+above	881	886	O
+1023Hz	887	893	O
+is	894	896	O
+negligible	897	907	O
+compared	908	916	O
+with	917	921	O
+the	922	925	O
+noise	926	931	O
+present	932	939	O
+below	940	945	O
+0.5Hz	946	951	O
+,	951	952	O
+this	953	957	O
+procedure	958	967	O
+enables	968	975	O
+an	976	978	O
+accurate	979	987	B-Task
+recording	988	997	I-Task
+of	998	1000	I-Task
+the	1001	1004	I-Task
+potential	1005	1014	I-Task
+noise	1015	1020	I-Task
+in	1021	1023	I-Task
+the	1024	1027	I-Task
+frequencies	1028	1039	I-Task
+of	1040	1042	I-Task
+interest	1043	1051	I-Task
+,	1051	1052	O
+avoiding	1053	1061	O
+aliasing	1062	1070	O
+of	1071	1073	O
+frequencies	1074	1085	O
+between	1086	1093	O
+0.5	1094	1097	O
+and	1098	1101	O
+1023Hz	1102	1108	O
+and	1109	1112	O
+minimizing	1113	1123	O
+the	1124	1127	O
+50Hz	1128	1132	O
+interference	1133	1145	O
+from	1146	1150	O
+the	1151	1154	O
+mains	1155	1160	O
+supply	1161	1167	O
+.	1167	1168	O
 
 
 -DOCSTART- (S0010938X14002157)
 
-A	NN	O	O
-surfactant	NN	O	B-Material
-is	NN	O	O
-a	NN	O	O
-surface	NN	O	B-Material
-active	NN	O	I-Material
-agent	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-work	NN	O	O
-a	NN	O	O
-surfactant	NN	O	B-Material
-term	NN	O	O
-will	NN	O	O
-be	NN	O	O
-used	NN	O	O
-for	NN	O	O
-compounds	NN	O	B-Material
-which	NN	O	I-Material
-improve	NN	O	I-Material
-the	NN	O	I-Material
-dispersability	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-CI	NN	O	B-Material
-in	NN	O	O
-the	NN	O	O
-acid	NN	O	B-Material
-(	NN	O	O
-as	NN	O	O
-emulsifiers	NN	O	B-Material
-providing	NN	O	O
-dispersed	NN	O	B-Material
-emulsion	NN	O	I-Material
-–	NN	O	O
-not	NN	O	O
-separated	NN	O	O
-)	NN	O	O
-while	NN	O	O
-wetting	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-of	NN	O	O
-the	NN	O	O
-metallic	NN	O	B-Material
-material	NN	O	I-Material
-[	NN	O	O
-14,20,24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-surfactants	NN	O	O
-can	NN	O	O
-offer	NN	O	O
-corrosion	NN	O	B-Task
-protection	NN	O	I-Task
-themselves	NN	O	O
-.	NN	O	O
-
-Some	NN	O	O
-examples	NN	O	O
-when	NN	O	O
-the	NN	O	O
-same	NN	O	O
-compound	NN	O	O
-was	NN	O	O
-used	NN	O	O
-as	NN	O	O
-a	NN	O	O
-surfactant	NN	O	B-Material
-or	NN	O	I-Material
-active	NN	O	I-Material
-corrosion	NN	O	I-Material
-inhibitor	NN	O	I-Material
-ingredient	NN	O	O
-are	NN	O	O
-given	NN	O	O
-below	NN	O	O
-.	NN	O	O
-
-Typical	NN	O	O
-surfactants	NN	O	B-Material
-in	NN	O	O
-the	NN	O	O
-oilfield	NN	O	O
-services	NN	O	O
-industry	NN	O	O
-are	NN	O	O
-alkylphenol	NN	O	B-Material
-ethoxylates	NN	O	I-Material
-,	NN	O	O
-e.g.	NN	O	O
-nonylphenol	NN	O	B-Material
-ethoxylate	NN	O	I-Material
-(	NN	O	O
-NPE	NN	O	B-Material
-)	NN	O	O
-
-[	NN	O	O
-14,15,30,106,107	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-NPEs	NN	O	B-Material
-have	NN	O	O
-been	NN	O	O
-banned	NN	O	O
-from	NN	O	O
-use	NN	O	O
-in	NN	O	O
-the	NN	O	O
-North	NN	O	O
-Sea	NN	O	O
-because	NN	O	O
-of	NN	O	O
-their	NN	O	O
-toxicity	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-ethoxylated	NN	O	B-Material
-linear	NN	O	I-Material
-alcohols	NN	O	I-Material
-are	NN	O	O
-more	NN	O	O
-acceptable	NN	O	O
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-quaternary	NN	O	B-Material
-ammonium	NN	O	I-Material
-salts	NN	O	I-Material
-and	NN	O	O
-amines	NN	O	B-Material
-(	NN	O	I-Material
-when	NN	O	I-Material
-protonated	NN	O	I-Material
-)	NN	O	I-Material
-are	NN	O	O
-the	NN	O	O
-most	NN	O	O
-used	NN	O	O
-compounds	NN	O	O
-of	NN	O	O
-the	NN	O	O
-cationic	NN	O	B-Material
-surfactants	NN	O	I-Material
-class	NN	O	I-Material
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-cation	NN	O	B-Material
-is	NN	O	O
-the	NN	O	O
-surface	NN	O	B-Material
-active	NN	O	I-Material
-specie	NN	O	I-Material
-.	NN	O	O
-
-As	NN	O	O
-the	NN	O	O
-amines	NN	O	B-Material
-only	NN	O	O
-function	NN	O	O
-as	NN	O	O
-a	NN	O	O
-surfactant	NN	O	B-Material
-in	NN	O	O
-the	NN	O	O
-protonated	NN	O	B-Process
-state	NN	O	I-Process
-,	NN	O	O
-they	NN	O	O
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-used	NN	O	O
-at	NN	O	O
-high	NN	O	O
-pH.	NN	O	O
-On	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-quaternary	NN	O	B-Material
-ammonium	NN	O	I-Material
-compounds	NN	O	I-Material
-,	NN	O	O
-frequently	NN	O	O
-abbreviated	NN	O	O
-as	NN	O	O
-“	NN	O	O
-quats	NN	O	B-Material
-
-”	NN	O	O
-,	NN	O	O
-are	NN	O	O
-not	NN	O	O
-pH	NN	O	O
-sensitive	NN	O	O
-.	NN	O	O
-
-Long	NN	O	B-Material
--	NN	O	I-Material
-chain	NN	O	I-Material
-quaternary	NN	O	I-Material
-ammonium	NN	O	I-Material
-bromides	NN	O	I-Material
-were	NN	O	O
-also	NN	O	O
-reported	NN	O	O
-to	NN	O	O
-work	NN	O	O
-as	NN	O	O
-efficient	NN	O	O
-CIs	NN	O	B-Material
-for	NN	O	O
-steel	NN	O	B-Material
-materials	NN	O	I-Material
-[	NN	O	O
-106	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-frequently	NN	O	O
-employed	NN	O	O
-surfactant	NN	O	B-Material
-was	NN	O	O
-N	NN	O	B-Material
--	NN	O	I-Material
-dodecylpyridinium	NN	O	I-Material
-bromide	NN	O	I-Material
-(	NN	O	O
-DDPB	NN	O	B-Material
-)	NN	O	O
-
-[	NN	O	O
-9,60,61,108,109	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Anionic	NN	O	B-Material
-sulphates	NN	O	I-Material
-,	NN	O	O
-anionic	NN	O	B-Material
-sulphonates	NN	O	I-Material
-,	NN	O	O
-alkoxylated	NN	O	B-Material
-alkylphenol	NN	O	I-Material
-resins	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-polyoxyethylene	NN	O	B-Material
-sorbitan	NN	O	I-Material
-oleates	NN	O	I-Material
-are	NN	O	O
-also	NN	O	O
-useful	NN	O	O
-surfactants	NN	O	B-Material
-.	NN	O	O
-
-Ali	NN	O	O
-reported	NN	O	O
-that	NN	O	O
-a	NN	O	O
-particularly	NN	O	O
-useful	NN	O	O
-surfactant	NN	O	B-Material
-is	NN	O	O
-a	NN	O	O
-blend	NN	O	B-Material
-of	NN	O	I-Material
-polyethylene	NN	O	I-Material
-glycol	NN	O	I-Material
-esters	NN	O	I-Material
-of	NN	O	I-Material
-fatty	NN	O	I-Material
-acids	NN	O	I-Material
-and	NN	O	I-Material
-ethoxylated	NN	O	I-Material
-alkylphenols	NN	O	I-Material
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Several	NN	O	O
-examples	NN	O	O
-of	NN	O	O
-the	NN	O	O
-surfactants	NN	O	B-Material
-used	NN	O	O
-are	NN	O	O
-given	NN	O	O
-below	NN	O	O
-in	NN	O	O
-Section	NN	O	O
-5.6	NN	O	O
-.	NN	O	O
+A	0	1	O
+surfactant	2	12	B-Material
+is	13	15	O
+a	16	17	O
+surface	18	25	B-Material
+active	26	32	I-Material
+agent	33	38	I-Material
+.	38	39	O
+
+In	40	42	O
+this	43	47	O
+work	48	52	O
+a	53	54	O
+surfactant	55	65	B-Material
+term	66	70	O
+will	71	75	O
+be	76	78	O
+used	79	83	O
+for	84	87	O
+compounds	88	97	B-Material
+which	98	103	I-Material
+improve	104	111	I-Material
+the	112	115	I-Material
+dispersability	116	130	I-Material
+of	131	133	O
+the	134	137	O
+CI	138	140	B-Material
+in	141	143	O
+the	144	147	O
+acid	148	152	B-Material
+(	153	154	O
+as	154	156	O
+emulsifiers	157	168	B-Material
+providing	169	178	O
+dispersed	179	188	B-Material
+emulsion	189	197	I-Material
+–	198	199	O
+not	200	203	O
+separated	204	213	O
+)	213	214	O
+while	215	220	O
+wetting	221	228	O
+the	229	232	O
+surface	233	240	O
+of	241	243	O
+the	244	247	O
+metallic	248	256	B-Material
+material	257	265	I-Material
+[	266	267	O
+14,20,24	267	275	O
+]	275	276	O
+.	276	277	O
+
+However	278	285	O
+,	285	286	O
+surfactants	287	298	O
+can	299	302	O
+offer	303	308	O
+corrosion	309	318	B-Task
+protection	319	329	I-Task
+themselves	330	340	O
+.	340	341	O
+
+Some	342	346	O
+examples	347	355	O
+when	356	360	O
+the	361	364	O
+same	365	369	O
+compound	370	378	O
+was	379	382	O
+used	383	387	O
+as	388	390	O
+a	391	392	O
+surfactant	393	403	B-Material
+or	404	406	I-Material
+active	407	413	I-Material
+corrosion	414	423	I-Material
+inhibitor	424	433	I-Material
+ingredient	434	444	O
+are	445	448	O
+given	449	454	O
+below	455	460	O
+.	460	461	O
+
+Typical	462	469	O
+surfactants	470	481	B-Material
+in	482	484	O
+the	485	488	O
+oilfield	489	497	O
+services	498	506	O
+industry	507	515	O
+are	516	519	O
+alkylphenol	520	531	B-Material
+ethoxylates	532	543	I-Material
+,	543	544	O
+e.g.	545	549	O
+nonylphenol	550	561	B-Material
+ethoxylate	562	572	I-Material
+(	573	574	O
+NPE	574	577	B-Material
+)	577	578	O
+
+[	579	580	O
+14,15,30,106,107	580	596	O
+]	596	597	O
+.	597	598	O
+
+However	599	606	O
+,	606	607	O
+NPEs	608	612	B-Material
+have	613	617	O
+been	618	622	O
+banned	623	629	O
+from	630	634	O
+use	635	638	O
+in	639	641	O
+the	642	645	O
+North	646	651	O
+Sea	652	655	O
+because	656	663	O
+of	664	666	O
+their	667	672	O
+toxicity	673	681	O
+.	681	682	O
+
+On	683	685	O
+the	686	689	O
+other	690	695	O
+hand	696	700	O
+,	700	701	O
+ethoxylated	702	713	B-Material
+linear	714	720	I-Material
+alcohols	721	729	I-Material
+are	730	733	O
+more	734	738	O
+acceptable	739	749	O
+[	750	751	O
+20	751	753	O
+]	753	754	O
+.	754	755	O
+
+The	756	759	O
+quaternary	760	770	B-Material
+ammonium	771	779	I-Material
+salts	780	785	I-Material
+and	786	789	O
+amines	790	796	B-Material
+(	797	798	I-Material
+when	798	802	I-Material
+protonated	803	813	I-Material
+)	813	814	I-Material
+are	815	818	O
+the	819	822	O
+most	823	827	O
+used	828	832	O
+compounds	833	842	O
+of	843	845	O
+the	846	849	O
+cationic	850	858	B-Material
+surfactants	859	870	I-Material
+class	871	876	I-Material
+,	876	877	O
+where	878	883	O
+the	884	887	O
+cation	888	894	B-Material
+is	895	897	O
+the	898	901	O
+surface	902	909	B-Material
+active	910	916	I-Material
+specie	917	923	I-Material
+.	923	924	O
+
+As	925	927	O
+the	928	931	O
+amines	932	938	B-Material
+only	939	943	O
+function	944	952	O
+as	953	955	O
+a	956	957	O
+surfactant	958	968	B-Material
+in	969	971	O
+the	972	975	O
+protonated	976	986	B-Process
+state	987	992	I-Process
+,	992	993	O
+they	994	998	O
+can	999	1002	O
+not	1002	1005	O
+be	1006	1008	O
+used	1009	1013	O
+at	1014	1016	O
+high	1017	1021	O
+pH.	1022	1025	O
+On	1026	1028	O
+the	1029	1032	O
+other	1033	1038	O
+hand	1039	1043	O
+,	1043	1044	O
+quaternary	1045	1055	B-Material
+ammonium	1056	1064	I-Material
+compounds	1065	1074	I-Material
+,	1074	1075	O
+frequently	1076	1086	O
+abbreviated	1087	1098	O
+as	1099	1101	O
+“	1102	1103	O
+quats	1103	1108	B-Material
+
+”	1108	1109	O
+,	1109	1110	O
+are	1111	1114	O
+not	1115	1118	O
+pH	1119	1121	O
+sensitive	1122	1131	O
+.	1131	1132	O
+
+Long	1133	1137	B-Material
+-	1137	1138	I-Material
+chain	1138	1143	I-Material
+quaternary	1144	1154	I-Material
+ammonium	1155	1163	I-Material
+bromides	1164	1172	I-Material
+were	1173	1177	O
+also	1178	1182	O
+reported	1183	1191	O
+to	1192	1194	O
+work	1195	1199	O
+as	1200	1202	O
+efficient	1203	1212	O
+CIs	1213	1216	B-Material
+for	1217	1220	O
+steel	1221	1226	B-Material
+materials	1227	1236	I-Material
+[	1237	1238	O
+106	1238	1241	O
+]	1241	1242	O
+.	1242	1243	O
+
+A	1244	1245	O
+frequently	1246	1256	O
+employed	1257	1265	O
+surfactant	1266	1276	B-Material
+was	1277	1280	O
+N	1281	1282	B-Material
+-	1282	1283	I-Material
+dodecylpyridinium	1283	1300	I-Material
+bromide	1301	1308	I-Material
+(	1309	1310	O
+DDPB	1310	1314	B-Material
+)	1314	1315	O
+
+[	1316	1317	O
+9,60,61,108,109	1317	1332	O
+]	1332	1333	O
+.	1333	1334	O
+
+Anionic	1335	1342	B-Material
+sulphates	1343	1352	I-Material
+,	1352	1353	O
+anionic	1354	1361	B-Material
+sulphonates	1362	1373	I-Material
+,	1373	1374	O
+alkoxylated	1375	1386	B-Material
+alkylphenol	1387	1398	I-Material
+resins	1399	1405	I-Material
+,	1405	1406	O
+and	1407	1410	O
+polyoxyethylene	1411	1426	B-Material
+sorbitan	1427	1435	I-Material
+oleates	1436	1443	I-Material
+are	1444	1447	O
+also	1448	1452	O
+useful	1453	1459	O
+surfactants	1460	1471	B-Material
+.	1471	1472	O
+
+Ali	1473	1476	O
+reported	1477	1485	O
+that	1486	1490	O
+a	1491	1492	O
+particularly	1493	1505	O
+useful	1506	1512	O
+surfactant	1513	1523	B-Material
+is	1524	1526	O
+a	1527	1528	O
+blend	1529	1534	B-Material
+of	1535	1537	I-Material
+polyethylene	1538	1550	I-Material
+glycol	1551	1557	I-Material
+esters	1558	1564	I-Material
+of	1565	1567	I-Material
+fatty	1568	1573	I-Material
+acids	1574	1579	I-Material
+and	1580	1583	I-Material
+ethoxylated	1584	1595	I-Material
+alkylphenols	1596	1608	I-Material
+[	1609	1610	O
+15	1610	1612	O
+]	1612	1613	O
+.	1613	1614	O
+
+Several	1615	1622	O
+examples	1623	1631	O
+of	1632	1634	O
+the	1635	1638	O
+surfactants	1639	1650	B-Material
+used	1651	1655	O
+are	1656	1659	O
+given	1660	1665	O
+below	1666	1671	O
+in	1672	1674	O
+Section	1675	1682	O
+5.6	1683	1686	O
+.	1686	1687	O
 
 
 -DOCSTART- (S0010938X15003261)
 
-The	NN	O	O
-related	NN	O	O
-Volta	NN	O	B-Process
-potential	NN	O	I-Process
-(	NN	O	O
-Ψ	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-the	NN	O	O
-potential	NN	O	B-Process
-difference	NN	O	I-Process
-between	NN	O	O
-a	NN	O	O
-position	NN	O	O
-infinitely	NN	O	O
-far	NN	O	O
-away	NN	O	O
-from	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-and	NN	O	O
-a	NN	O	O
-position	NN	O	O
-just	NN	O	O
-outside	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-,	NN	O	O
-and	NN	O	O
-is	NN	O	O
-the	NN	O	O
-measureable	NN	O	B-Process
-quantity	NN	O	I-Process
-characterising	NN	O	O
-electrochemical	NN	O	B-Process
-behaviour	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-metal	NN	O	I-Process
-[	NN	O	O
-12,17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-scanning	NN	O	B-Process
-Kelvin	NN	O	I-Process
-probe	NN	O	I-Process
-force	NN	O	I-Process
-microscopy	NN	O	I-Process
-(	NN	O	O
-SKPFM	NN	O	B-Process
-)	NN	O	O
-technique	NN	O	O
-allows	NN	O	O
-detection	NN	O	B-Task
-of	NN	O	I-Task
-local	NN	O	I-Task
-EWF	NN	O	I-Task
-(	NN	O	O
-if	NN	O	O
-the	NN	O	O
-EWF	NN	O	O
-of	NN	O	O
-the	NN	O	O
-tip	NN	O	O
-is	NN	O	O
-known	NN	O	O
-)	NN	O	O
-,	NN	O	O
-or	NN	O	O
-Volta	NN	O	B-Task
-potential	NN	O	I-Task
-differences	NN	O	I-Task
-(	NN	O	O
-ΔΨ	NN	O	B-Task
-)	NN	O	O
-between	NN	O	O
-an	NN	O	O
-atomic	NN	O	B-Material
-force	NN	O	I-Material
-microscopy	NN	O	I-Material
-tip	NN	O	I-Material
-(	NN	O	O
-usually	NN	O	O
-Pt	NN	O	B-Material
-coated	NN	O	I-Material
-)	NN	O	O
-and	NN	O	O
-the	NN	O	O
-metal	NN	O	B-Material
-surface	NN	O	I-Material
-[	NN	O	O
-14,15,19	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-lateral	NN	O	O
-resolution	NN	O	O
-of	NN	O	O
-SKPFM	NN	O	B-Process
-can	NN	O	O
-be	NN	O	O
-as	NN	O	O
-high	NN	O	O
-as	NN	O	O
-10	NN	O	O
-’s	NN	O	O
-of	NN	O	O
-nm	NN	O	O
-in	NN	O	O
-ambient	NN	O	B-Material
-air	NN	O	I-Material
-,	NN	O	O
-with	NN	O	O
-a	NN	O	O
-sensitivity	NN	O	O
-up	NN	O	O
-to	NN	O	O
-10–20meV	NN	O	O
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Volta	NN	O	B-Process
-potential	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-characteristic	NN	O	O
-property	NN	O	B-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-metal	NN	O	I-Process
-surface	NN	O	I-Process
-and	NN	O	O
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-understand	NN	O	B-Task
-electrochemical	NN	O	I-Task
-processes	NN	O	I-Task
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-any	NN	O	O
-kind	NN	O	O
-of	NN	O	O
-surface	NN	O	O
-defects	NN	O	O
-,	NN	O	O
-chemical	NN	O	O
-variations	NN	O	O
-,	NN	O	O
-and	NN	O	O
-residual	NN	O	O
-stress	NN	O	O
-[	NN	O	O
-13,17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Volta	NN	O	B-Process
-potential	NN	O	I-Process
-differences	NN	O	I-Process
-in	NN	O	I-Process
-microstructure	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-used	NN	O	O
-to	NN	O	O
-predict	NN	O	B-Task
-corrosion	NN	O	I-Task
-behaviour	NN	O	I-Task
-[	NN	O	O
-10,15,18,20–22	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Regions	NN	O	O
-with	NN	O	O
-larger	NN	O	B-Process
-(	NN	O	I-Process
-ΔΨ	NN	O	I-Process
-)	NN	O	I-Process
-indicate	NN	O	I-Process
-increased	NN	O	I-Process
-surface	NN	O	I-Process
-reactivity	NN	O	I-Process
-[	NN	O	O
-11,15,18	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-even	NN	O	O
-a	NN	O	O
-correlation	NN	O	O
-between	NN	O	O
-Volta	NN	O	B-Process
-potential	NN	O	I-Process
-differences	NN	O	I-Process
-measured	NN	O	O
-in	NN	O	O
-nominally	NN	O	O
-dry	NN	O	B-Material
-air	NN	O	I-Material
-and	NN	O	O
-their	NN	O	O
-free	NN	O	B-Process
-corrosion	NN	O	I-Process
-potential	NN	O	I-Process
-(	NN	O	O
-Ecorr	NN	O	B-Process
-)	NN	O	O
-pre	NN	O	O
--	NN	O	O
-determined	NN	O	O
-under	NN	O	O
-immersed	NN	O	O
-conditions	NN	O	O
-has	NN	O	O
-been	NN	O	O
-reported	NN	O	O
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+related	4	11	O
+Volta	12	17	B-Process
+potential	18	27	I-Process
+(	28	29	O
+Ψ	29	30	B-Process
+)	30	31	O
+is	32	34	O
+the	35	38	O
+potential	39	48	B-Process
+difference	49	59	I-Process
+between	60	67	O
+a	68	69	O
+position	70	78	O
+infinitely	79	89	O
+far	90	93	O
+away	94	98	O
+from	99	103	O
+the	104	107	O
+surface	108	115	O
+and	116	119	O
+a	120	121	O
+position	122	130	O
+just	131	135	O
+outside	136	143	O
+the	144	147	O
+surface	148	155	O
+,	155	156	O
+and	157	160	O
+is	161	163	O
+the	164	167	O
+measureable	168	179	B-Process
+quantity	180	188	I-Process
+characterising	189	203	O
+electrochemical	204	219	B-Process
+behaviour	220	229	I-Process
+of	230	232	I-Process
+a	233	234	I-Process
+metal	235	240	I-Process
+[	241	242	O
+12,17	242	247	O
+]	247	248	O
+.	248	249	O
+
+The	250	253	O
+scanning	254	262	B-Process
+Kelvin	263	269	I-Process
+probe	270	275	I-Process
+force	276	281	I-Process
+microscopy	282	292	I-Process
+(	293	294	O
+SKPFM	294	299	B-Process
+)	299	300	O
+technique	301	310	O
+allows	311	317	O
+detection	318	327	B-Task
+of	328	330	I-Task
+local	331	336	I-Task
+EWF	337	340	I-Task
+(	341	342	O
+if	342	344	O
+the	345	348	O
+EWF	349	352	O
+of	353	355	O
+the	356	359	O
+tip	360	363	O
+is	364	366	O
+known	367	372	O
+)	372	373	O
+,	373	374	O
+or	375	377	O
+Volta	378	383	B-Task
+potential	384	393	I-Task
+differences	394	405	I-Task
+(	406	407	O
+ΔΨ	407	409	B-Task
+)	409	410	O
+between	411	418	O
+an	419	421	O
+atomic	422	428	B-Material
+force	429	434	I-Material
+microscopy	435	445	I-Material
+tip	446	449	I-Material
+(	450	451	O
+usually	451	458	O
+Pt	459	461	B-Material
+coated	462	468	I-Material
+)	468	469	O
+and	470	473	O
+the	474	477	O
+metal	478	483	B-Material
+surface	484	491	I-Material
+[	492	493	O
+14,15,19	493	501	O
+]	501	502	O
+.	502	503	O
+
+The	504	507	O
+lateral	508	515	O
+resolution	516	526	O
+of	527	529	O
+SKPFM	530	535	B-Process
+can	536	539	O
+be	540	542	O
+as	543	545	O
+high	546	550	O
+as	551	553	O
+10	554	556	O
+’s	556	558	O
+of	559	561	O
+nm	562	564	O
+in	565	567	O
+ambient	568	575	B-Material
+air	576	579	I-Material
+,	579	580	O
+with	581	585	O
+a	586	587	O
+sensitivity	588	599	O
+up	600	602	O
+to	603	605	O
+10–20meV	606	614	O
+[	615	616	O
+19	616	618	O
+]	618	619	O
+.	619	620	O
+
+Volta	621	626	B-Process
+potential	627	636	I-Process
+is	637	639	O
+a	640	641	O
+characteristic	642	656	O
+property	657	665	B-Process
+of	666	668	I-Process
+a	669	670	I-Process
+metal	671	676	I-Process
+surface	677	684	I-Process
+and	685	688	O
+can	689	692	O
+be	693	695	O
+used	696	700	O
+to	701	703	O
+understand	704	714	B-Task
+electrochemical	715	730	I-Task
+processes	731	740	I-Task
+[	741	742	O
+16	742	744	O
+]	744	745	O
+.	746	747	O
+
+It	748	750	O
+is	751	753	O
+sensitive	754	763	O
+to	764	766	O
+any	767	770	O
+kind	771	775	O
+of	776	778	O
+surface	779	786	O
+defects	787	794	O
+,	794	795	O
+chemical	796	804	O
+variations	805	815	O
+,	815	816	O
+and	817	820	O
+residual	821	829	O
+stress	830	836	O
+[	837	838	O
+13,17	838	843	O
+]	843	844	O
+.	844	845	O
+
+Volta	846	851	B-Process
+potential	852	861	I-Process
+differences	862	873	I-Process
+in	874	876	I-Process
+microstructure	877	891	I-Process
+have	892	896	O
+been	897	901	O
+used	902	906	O
+to	907	909	O
+predict	910	917	B-Task
+corrosion	918	927	I-Task
+behaviour	928	937	I-Task
+[	938	939	O
+10,15,18,20–22	939	953	O
+]	953	954	O
+.	954	955	O
+
+Regions	956	963	O
+with	964	968	O
+larger	969	975	B-Process
+(	976	977	I-Process
+ΔΨ	977	979	I-Process
+)	979	980	I-Process
+indicate	981	989	I-Process
+increased	990	999	I-Process
+surface	1000	1007	I-Process
+reactivity	1008	1018	I-Process
+[	1019	1020	O
+11,15,18	1020	1028	O
+]	1028	1029	O
+,	1029	1030	O
+and	1031	1034	O
+even	1035	1039	O
+a	1040	1041	O
+correlation	1042	1053	O
+between	1054	1061	O
+Volta	1062	1067	B-Process
+potential	1068	1077	I-Process
+differences	1078	1089	I-Process
+measured	1090	1098	O
+in	1099	1101	O
+nominally	1102	1111	O
+dry	1112	1115	B-Material
+air	1116	1119	I-Material
+and	1120	1123	O
+their	1124	1129	O
+free	1130	1134	B-Process
+corrosion	1135	1144	I-Process
+potential	1145	1154	I-Process
+(	1155	1156	O
+Ecorr	1156	1161	B-Process
+)	1161	1162	O
+pre	1163	1166	O
+-	1166	1167	O
+determined	1167	1177	O
+under	1178	1183	O
+immersed	1184	1192	O
+conditions	1193	1203	O
+has	1204	1207	O
+been	1208	1212	O
+reported	1213	1221	O
+[	1222	1223	O
+18	1223	1225	O
+]	1225	1226	O
+.	1226	1227	O
 
 
 -DOCSTART- (S0021961415003821)
 
-The	NN	O	O
-homologous	NN	O	B-Material
-series	NN	O	I-Material
-of	NN	O	I-Material
-n	NN	O	I-Material
--	NN	O	I-Material
-alkanes	NN	O	I-Material
-are	NN	O	O
-represented	NN	O	O
-here	NN	O	O
-as	NN	O	O
-homonuclear	NN	O	B-Material
-chains	NN	O	I-Material
-of	NN	O	I-Material
-tangent	NN	O	I-Material
-Mie	NN	O	I-Material
-spherical	NN	O	I-Material
-CG	NN	O	I-Material
-segments	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-development	NN	O	B-Task
-of	NN	O	I-Task
-CG	NN	O	I-Task
-models	NN	O	I-Task
-for	NN	O	I-Task
-long	NN	O	I-Task
-n	NN	O	I-Task
--	NN	O	I-Task
-alkanes	NN	O	I-Task
-such	NN	O	O
-as	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-decane	NN	O	I-Material
-(	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-C10H22	NN	O	I-Material
-)	NN	O	O
-and	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-eicosane	NN	O	I-Material
-(	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-C20H42	NN	O	I-Material
-)	NN	O	O
-has	NN	O	O
-already	NN	O	O
-been	NN	O	O
-successfully	NN	O	O
-demonstrated	NN	O	O
-using	NN	O	O
-the	NN	O	O
-SAFT-γ	NN	O	B-Process
-Mie	NN	O	I-Process
-formalism	NN	O	I-Process
-[	NN	O	O
-118	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-decane	NN	O	I-Material
-molecule	NN	O	I-Material
-was	NN	O	O
-represented	NN	O	O
-by	NN	O	O
-chains	NN	O	O
-of	NN	O	O
-three	NN	O	O
-and	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-eicosane	NN	O	I-Material
-chains	NN	O	O
-of	NN	O	O
-six	NN	O	O
-fully	NN	O	O
-flexible	NN	O	O
-tangentially	NN	O	O
-bonded	NN	O	O
-Mie	NN	O	B-Material
-segments	NN	O	I-Material
-.	NN	O	O
-
-A	NN	O	O
-certain	NN	O	O
-degree	NN	O	O
-of	NN	O	O
-parameter	NN	O	O
-degeneracy	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-overall	NN	O	O
-performance	NN	O	O
-is	NN	O	O
-expected	NN	O	O
-as	NN	O	O
-a	NN	O	O
-consequence	NN	O	O
-of	NN	O	O
-the	NN	O	O
-conformal	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-EOS	NN	O	O
-description	NN	O	O
-[	NN	O	O
-132	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-our	NN	O	O
-current	NN	O	O
-work	NN	O	O
-,	NN	O	O
-we	NN	O	O
-use	NN	O	O
-an	NN	O	O
-alternative	NN	O	B-Process
-CG	NN	O	I-Process
-mapping	NN	O	I-Process
-for	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-alkanes	NN	O	I-Material
-developed	NN	O	O
-in	NN	O	O
-reference	NN	O	O
-[	NN	O	O
-122	NN	O	O
-]	NN	O	O
-,	NN	O	O
-where	NN	O	O
-each	NN	O	O
-segment	NN	O	O
-was	NN	O	O
-taken	NN	O	O
-to	NN	O	O
-represent	NN	O	O
-three	NN	O	O
-alkyl	NN	O	B-Material
-carbon	NN	O	I-Material
-backbone	NN	O	I-Material
-atoms	NN	O	I-Material
-and	NN	O	O
-their	NN	O	O
-corresponding	NN	O	O
-hydrogen	NN	O	B-Material
-atoms	NN	O	I-Material
-.	NN	O	O
-
-By	NN	O	O
-applying	NN	O	O
-this	NN	O	O
-mapping	NN	O	O
-,	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-alkanes	NN	O	I-Material
-chains	NN	O	I-Material
-containing	NN	O	O
-multiples	NN	O	O
-of	NN	O	O
-three	NN	O	O
-carbon	NN	O	B-Material
-units	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-represented	NN	O	O
-directly	NN	O	O
-:	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-C6H14	NN	O	I-Material
-,	NN	O	O
-n	NN	O	O
-
--	NN	O	O
-C9H20	NN	O	O
-,	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-C12H26	NN	O	I-Material
-,	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-C15H32	NN	O	I-Material
-,	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-C18H38	NN	O	I-Material
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-good	NN	O	O
-description	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-thermodynamic	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	O
-these	NN	O	O
-alkanes	NN	O	B-Material
-is	NN	O	O
-found	NN	O	O
-to	NN	O	O
-be	NN	O	O
-provided	NN	O	O
-with	NN	O	O
-CG	NN	O	B-Material
-alkyl	NN	O	I-Material
-beads	NN	O	I-Material
-characterised	NN	O	O
-by	NN	O	O
-the	NN	O	O
-Mie	NN	O	B-Process
-(	NN	O	I-Process
-15–6	NN	O	I-Process
-)	NN	O	I-Process
-potential	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-convenience	NN	O	O
-,	NN	O	O
-the	NN	O	O
-exponent	NN	O	O
-pair	NN	O	O
-(	NN	O	O
-15–6	NN	O	O
-)	NN	O	O
-is	NN	O	O
-also	NN	O	O
-used	NN	O	O
-to	NN	O	O
-represent	NN	O	O
-the	NN	O	O
-interactions	NN	O	O
-between	NN	O	O
-the	NN	O	O
-CG	NN	O	B-Material
-beads	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-intervening	NN	O	O
-alkanes	NN	O	B-Material
-considered	NN	O	O
-here	NN	O	O
-;	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-segments	NN	O	O
-m	NN	O	O
-is	NN	O	O
-taken	NN	O	O
-to	NN	O	O
-be	NN	O	O
-the	NN	O	O
-nearest	NN	O	O
-integer	NN	O	O
-of	NN	O	O
-the	NN	O	O
-division	NN	O	O
-of	NN	O	O
-the	NN	O	O
-carbon	NN	O	B-Material
-number	NN	O	O
-C	NN	O	O
-by	NN	O	O
-three	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-size	NN	O	O
-σ	NN	O	O
-and	NN	O	O
-energy	NN	O	O
-∊	NN	O	O
-parameters	NN	O	O
-are	NN	O	O
-then	NN	O	O
-estimated	NN	O	O
-from	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-saturated	NN	O	B-Process
--	NN	O	I-Process
-liquid	NN	O	I-Process
-density	NN	O	I-Process
-and	NN	O	O
-vapour	NN	O	B-Process
-pressure	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-individual	NN	O	O
-alkanes	NN	O	B-Material
-following	NN	O	O
-the	NN	O	O
-usual	NN	O	O
-SAFT-γ	NN	O	B-Process
-Mie	NN	O	I-Process
-procedure	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-chosen	NN	O	O
-mapping	NN	O	O
-is	NN	O	O
-by	NN	O	O
-no	NN	O	O
-means	NN	O	O
-unique	NN	O	O
-,	NN	O	O
-as	NN	O	O
-one	NN	O	O
-can	NN	O	O
-postulate	NN	O	O
-parameter	NN	O	O
-sets	NN	O	O
-that	NN	O	O
-fulfil	NN	O	O
-other	NN	O	O
-requisites	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-being	NN	O	O
-“	NN	O	O
-universal	NN	O	O
-”	NN	O	O
-across	NN	O	O
-the	NN	O	O
-entire	NN	O	O
-homologous	NN	O	O
-series	NN	O	O
-[	NN	O	O
-119	NN	O	O
-]	NN	O	O
-or	NN	O	O
-correlated	NN	O	O
-to	NN	O	O
-the	NN	O	O
-critical	NN	O	O
-properties	NN	O	O
-[	NN	O	O
-125	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+homologous	4	14	B-Material
+series	15	21	I-Material
+of	22	24	I-Material
+n	25	26	I-Material
+-	26	27	I-Material
+alkanes	27	34	I-Material
+are	35	38	O
+represented	39	50	O
+here	51	55	O
+as	56	58	O
+homonuclear	59	70	B-Material
+chains	71	77	I-Material
+of	78	80	I-Material
+tangent	81	88	I-Material
+Mie	89	92	I-Material
+spherical	93	102	I-Material
+CG	103	105	I-Material
+segments	106	114	I-Material
+.	114	115	O
+
+The	116	119	O
+development	120	131	B-Task
+of	132	134	I-Task
+CG	135	137	I-Task
+models	138	144	I-Task
+for	145	148	I-Task
+long	149	153	I-Task
+n	154	155	I-Task
+-	155	156	I-Task
+alkanes	156	163	I-Task
+such	164	168	O
+as	169	171	O
+n	172	173	B-Material
+-	173	174	I-Material
+decane	174	180	I-Material
+(	181	182	O
+n	182	183	B-Material
+-	183	184	I-Material
+C10H22	184	190	I-Material
+)	190	191	O
+and	192	195	O
+n	196	197	B-Material
+-	197	198	I-Material
+eicosane	198	206	I-Material
+(	207	208	O
+n	208	209	B-Material
+-	209	210	I-Material
+C20H42	210	216	I-Material
+)	216	217	O
+has	218	221	O
+already	222	229	O
+been	230	234	O
+successfully	235	247	O
+demonstrated	248	260	O
+using	261	266	O
+the	267	270	O
+SAFT-γ	271	277	B-Process
+Mie	278	281	I-Process
+formalism	282	291	I-Process
+[	292	293	O
+118	293	296	O
+]	296	297	O
+.	297	298	O
+
+The	299	302	O
+n	303	304	B-Material
+-	304	305	I-Material
+decane	305	311	I-Material
+molecule	312	320	I-Material
+was	321	324	O
+represented	325	336	O
+by	337	339	O
+chains	340	346	O
+of	347	349	O
+three	350	355	O
+and	356	359	O
+n	360	361	B-Material
+-	361	362	I-Material
+eicosane	362	370	I-Material
+chains	371	377	O
+of	378	380	O
+six	381	384	O
+fully	385	390	O
+flexible	391	399	O
+tangentially	400	412	O
+bonded	413	419	O
+Mie	420	423	B-Material
+segments	424	432	I-Material
+.	432	433	O
+
+A	434	435	O
+certain	436	443	O
+degree	444	450	O
+of	451	453	O
+parameter	454	463	O
+degeneracy	464	474	O
+in	475	477	O
+terms	478	483	O
+of	484	486	O
+overall	487	494	O
+performance	495	506	O
+is	507	509	O
+expected	510	518	O
+as	519	521	O
+a	522	523	O
+consequence	524	535	O
+of	536	538	O
+the	539	542	O
+conformal	543	552	O
+nature	553	559	O
+of	560	562	O
+the	563	566	O
+EOS	567	570	O
+description	571	582	O
+[	583	584	O
+132	584	587	O
+]	587	588	O
+.	588	589	O
+
+In	590	592	O
+our	593	596	O
+current	597	604	O
+work	605	609	O
+,	609	610	O
+we	611	613	O
+use	614	617	O
+an	618	620	O
+alternative	621	632	B-Process
+CG	633	635	I-Process
+mapping	636	643	I-Process
+for	644	647	O
+n	648	649	B-Material
+-	649	650	I-Material
+alkanes	650	657	I-Material
+developed	658	667	O
+in	668	670	O
+reference	671	680	O
+[	681	682	O
+122	682	685	O
+]	685	686	O
+,	686	687	O
+where	688	693	O
+each	694	698	O
+segment	699	706	O
+was	707	710	O
+taken	711	716	O
+to	717	719	O
+represent	720	729	O
+three	730	735	O
+alkyl	736	741	B-Material
+carbon	742	748	I-Material
+backbone	749	757	I-Material
+atoms	758	763	I-Material
+and	764	767	O
+their	768	773	O
+corresponding	774	787	O
+hydrogen	788	796	B-Material
+atoms	797	802	I-Material
+.	802	803	O
+
+By	804	806	O
+applying	807	815	O
+this	816	820	O
+mapping	821	828	O
+,	828	829	O
+n	830	831	B-Material
+-	831	832	I-Material
+alkanes	832	839	I-Material
+chains	840	846	I-Material
+containing	847	857	O
+multiples	858	867	O
+of	868	870	O
+three	871	876	O
+carbon	877	883	B-Material
+units	884	889	I-Material
+can	890	893	O
+be	894	896	O
+represented	897	908	O
+directly	909	917	O
+:	917	918	O
+n	919	920	B-Material
+-	920	921	I-Material
+C6H14	921	926	I-Material
+,	926	927	O
+n	928	929	O
+
+-	929	930	O
+C9H20	930	935	O
+,	935	936	O
+n	937	938	B-Material
+-	938	939	I-Material
+C12H26	939	945	I-Material
+,	945	946	O
+n	947	948	B-Material
+-	948	949	I-Material
+C15H32	949	955	I-Material
+,	955	956	O
+n	957	958	B-Material
+-	958	959	I-Material
+C18H38	959	965	I-Material
+,	965	966	O
+etc	967	970	O
+.	970	971	O
+
+A	972	973	O
+good	974	978	O
+description	979	990	B-Task
+of	991	993	I-Task
+the	994	997	I-Task
+thermodynamic	998	1011	I-Task
+properties	1012	1022	I-Task
+of	1023	1025	O
+these	1026	1031	O
+alkanes	1032	1039	B-Material
+is	1040	1042	O
+found	1043	1048	O
+to	1049	1051	O
+be	1052	1054	O
+provided	1055	1063	O
+with	1064	1068	O
+CG	1069	1071	B-Material
+alkyl	1072	1077	I-Material
+beads	1078	1083	I-Material
+characterised	1084	1097	O
+by	1098	1100	O
+the	1101	1104	O
+Mie	1105	1108	B-Process
+(	1109	1110	I-Process
+15–6	1110	1114	I-Process
+)	1114	1115	I-Process
+potential	1116	1125	I-Process
+.	1125	1126	O
+
+For	1127	1130	O
+convenience	1131	1142	O
+,	1142	1143	O
+the	1144	1147	O
+exponent	1148	1156	O
+pair	1157	1161	O
+(	1162	1163	O
+15–6	1163	1167	O
+)	1167	1168	O
+is	1169	1171	O
+also	1172	1176	O
+used	1177	1181	O
+to	1182	1184	O
+represent	1185	1194	O
+the	1195	1198	O
+interactions	1199	1211	O
+between	1212	1219	O
+the	1220	1223	O
+CG	1224	1226	B-Material
+beads	1227	1232	I-Material
+of	1233	1235	O
+the	1236	1239	O
+intervening	1240	1251	O
+alkanes	1252	1259	B-Material
+considered	1260	1270	O
+here	1271	1275	O
+;	1275	1276	O
+the	1277	1280	O
+number	1281	1287	O
+of	1288	1290	O
+segments	1291	1299	O
+m	1300	1301	O
+is	1302	1304	O
+taken	1305	1310	O
+to	1311	1313	O
+be	1314	1316	O
+the	1317	1320	O
+nearest	1321	1328	O
+integer	1329	1336	O
+of	1337	1339	O
+the	1340	1343	O
+division	1344	1352	O
+of	1353	1355	O
+the	1356	1359	O
+carbon	1360	1366	B-Material
+number	1367	1373	O
+C	1374	1375	O
+by	1376	1378	O
+three	1379	1384	O
+.	1384	1385	O
+
+The	1386	1389	O
+size	1390	1394	O
+σ	1395	1396	O
+and	1397	1400	O
+energy	1401	1407	O
+∊	1408	1409	O
+parameters	1410	1420	O
+are	1421	1424	O
+then	1425	1429	O
+estimated	1430	1439	O
+from	1440	1444	O
+the	1445	1448	O
+experimental	1449	1461	O
+saturated	1462	1471	B-Process
+-	1471	1472	I-Process
+liquid	1472	1478	I-Process
+density	1479	1486	I-Process
+and	1487	1490	O
+vapour	1491	1497	B-Process
+pressure	1498	1506	I-Process
+of	1507	1509	O
+the	1510	1513	O
+individual	1514	1524	O
+alkanes	1525	1532	B-Material
+following	1533	1542	O
+the	1543	1546	O
+usual	1547	1552	O
+SAFT-γ	1553	1559	B-Process
+Mie	1560	1563	I-Process
+procedure	1564	1573	I-Process
+.	1573	1574	O
+
+The	1575	1578	O
+chosen	1579	1585	O
+mapping	1586	1593	O
+is	1594	1596	O
+by	1597	1599	O
+no	1600	1602	O
+means	1603	1608	O
+unique	1609	1615	O
+,	1615	1616	O
+as	1617	1619	O
+one	1620	1623	O
+can	1624	1627	O
+postulate	1628	1637	O
+parameter	1638	1647	O
+sets	1648	1652	O
+that	1653	1657	O
+fulfil	1658	1664	O
+other	1665	1670	O
+requisites	1671	1681	O
+,	1681	1682	O
+such	1683	1687	O
+as	1688	1690	O
+being	1691	1696	O
+“	1697	1698	O
+universal	1698	1707	O
+”	1707	1708	O
+across	1709	1715	O
+the	1716	1719	O
+entire	1720	1726	O
+homologous	1727	1737	O
+series	1738	1744	O
+[	1745	1746	O
+119	1746	1749	O
+]	1749	1750	O
+or	1751	1753	O
+correlated	1754	1764	O
+to	1765	1767	O
+the	1768	1771	O
+critical	1772	1780	O
+properties	1781	1791	O
+[	1792	1793	O
+125	1793	1796	O
+]	1796	1797	O
+.	1797	1798	O
 
 
 -DOCSTART- (S0021999113005652)
 
-This	NN	O	O
-study	NN	O	O
-proposes	NN	O	O
-a	NN	O	O
-new	NN	O	B-Task
-framework	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-numerical	NN	O	I-Task
-modelling	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Process
-exchange	NN	O	I-Process
-between	NN	O	O
-air	NN	O	B-Material
-and	NN	O	O
-water	NN	O	B-Material
-across	NN	O	O
-their	NN	O	O
-interface	NN	O	O
-,	NN	O	O
-and	NN	O	O
-subsequent	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-in	NN	O	I-Process
-water	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-an	NN	O	O
-extended	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-compartment	NN	O	I-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-major	NN	O	O
-purpose	NN	O	O
-of	NN	O	O
-this	NN	O	O
-study	NN	O	O
-is	NN	O	O
-to	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-fundamental	NN	O	B-Process
-concept	NN	O	I-Process
-for	NN	O	O
-modelling	NN	O	B-Task
-physicochemical	NN	O	I-Task
-processes	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Process
-exchange	NN	O	I-Process
-,	NN	O	O
-followed	NN	O	O
-by	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-in	NN	O	I-Process
-water	NN	O	I-Process
-.	NN	O	O
-
-Demonstrating	NN	O	O
-fundamental	NN	O	O
-data	NN	O	O
-and	NN	O	O
-knowledge	NN	O	O
-on	NN	O	O
-the	NN	O	O
-important	NN	O	O
-environmental	NN	O	O
-transport	NN	O	O
-phenomena	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-the	NN	O	O
-effects	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-Schmidt	NN	O	I-Process
-number	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-rate	NN	O	I-Process
-on	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Process
-exchange	NN	O	I-Process
-mechanisms	NN	O	I-Process
-across	NN	O	I-Process
-the	NN	O	I-Process
-interface	NN	O	I-Process
-have	NN	O	O
-also	NN	O	O
-been	NN	O	O
-attempted	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-gas	NN	O	B-Process
-exchange	NN	O	I-Process
-processes	NN	O	I-Process
-are	NN	O	O
-separated	NN	O	O
-into	NN	O	O
-two	NN	O	O
-physicochemical	NN	O	O
-substeps	NN	O	O
-,	NN	O	O
-the	NN	O	O
-first	NN	O	O
-is	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Process
-–	NN	O	I-Process
-liquid	NN	O	I-Process
-equilibrium	NN	O	I-Process
-between	NN	O	O
-the	NN	O	O
-two	NN	O	O
-phases	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-second	NN	O	O
-is	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-water	NN	O	I-Process
-phase	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-first	NN	O	O
--	NN	O	O
-order	NN	O	O
-,	NN	O	O
-irreversible	NN	O	B-Process
-chemical	NN	O	I-Process
-reaction	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-gaseous	NN	O	B-Material
-material	NN	O	I-Material
-after	NN	O	O
-its	NN	O	O
-uptake	NN	O	O
-into	NN	O	O
-the	NN	O	O
-water	NN	O	B-Material
-phase	NN	O	I-Material
-is	NN	O	O
-assumed	NN	O	O
-here	NN	O	O
-to	NN	O	O
-simplify	NN	O	O
-interactions	NN	O	O
-of	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reactions	NN	O	I-Process
-and	NN	O	O
-turbulent	NN	O	B-Process
-transport	NN	O	I-Process
-phenomena	NN	O	I-Process
-in	NN	O	I-Process
-water	NN	O	I-Process
-.	NN	O	O
-
-While	NN	O	O
-a	NN	O	O
-traditional	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-compartment	NN	O	I-Process
-model	NN	O	I-Process
-assumes	NN	O	O
-uniform	NN	O	O
-concentration	NN	O	O
-of	NN	O	O
-a	NN	O	O
-material	NN	O	O
-in	NN	O	O
-each	NN	O	O
-compartment	NN	O	O
-,	NN	O	O
-the	NN	O	O
-present	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-compartment	NN	O	I-Process
-model	NN	O	I-Process
-uses	NN	O	O
-a	NN	O	O
-computational	NN	O	B-Process
-fluid	NN	O	I-Process
-dynamics	NN	O	I-Process
-(	NN	O	O
-CFD	NN	O	B-Process
-)	NN	O	O
-technique	NN	O	O
-in	NN	O	O
-the	NN	O	O
-water	NN	O	B-Material
-compartment	NN	O	O
-to	NN	O	O
-evaluate	NN	O	B-Task
-temporal	NN	O	I-Task
-development	NN	O	I-Task
-of	NN	O	I-Task
-three	NN	O	I-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-profiles	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-velocity	NN	O	I-Task
-and	NN	O	I-Task
-concentration	NN	O	I-Task
-fields	NN	O	I-Task
-.	NN	O	O
-
-A	NN	O	O
-direct	NN	O	B-Process
-numerical	NN	O	I-Process
-simulation	NN	O	I-Process
-(	NN	O	O
-DNS	NN	O	B-Process
-)	NN	O	O
-approach	NN	O	O
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-evaluate	NN	O	B-Task
-profiles	NN	O	I-Task
-of	NN	O	I-Task
-fluid	NN	O	I-Task
-velocities	NN	O	I-Task
-and	NN	O	I-Task
-concentrations	NN	O	I-Task
-in	NN	O	I-Task
-water	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-several	NN	O	O
-important	NN	O	O
-turbulence	NN	O	O
-statistics	NN	O	O
-have	NN	O	O
-been	NN	O	O
-evaluated	NN	O	O
-without	NN	O	O
-using	NN	O	O
-turbulent	NN	O	O
-closures	NN	O	O
-,	NN	O	O
-and	NN	O	O
-subgrid	NN	O	B-Process
--	NN	O	I-Process
-scale	NN	O	I-Process
-models	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-assume	NN	O	O
-that	NN	O	O
-a	NN	O	O
-fluid	NN	O	B-Process
-flow	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-water	NN	O	I-Process
-phase	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-well	NN	O	O
--	NN	O	O
-developed	NN	O	O
-turbulent	NN	O	O
-water	NN	O	B-Material
-layer	NN	O	O
-of	NN	O	O
-a	NN	O	O
-low	NN	O	O
-Reynolds	NN	O	O
-number	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-Schmidt	NN	O	O
-number	NN	O	O
-is	NN	O	O
-varied	NN	O	O
-from	NN	O	O
-1	NN	O	O
-to	NN	O	O
-8	NN	O	O
-to	NN	O	O
-observe	NN	O	B-Task
-the	NN	O	I-Task
-effects	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-molecular	NN	O	I-Task
-diffusion	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Material
-in	NN	O	O
-sub	NN	O	O
--	NN	O	O
-interface	NN	O	O
-water	NN	O	B-Material
-on	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Process
-exchange	NN	O	I-Process
-rate	NN	O	I-Process
-at	NN	O	I-Process
-the	NN	O	I-Process
-interface	NN	O	I-Process
-.	NN	O	O
-
-Six	NN	O	O
-degrees	NN	O	O
-of	NN	O	O
-the	NN	O	O
-nondimensional	NN	O	B-Process
-chemical	NN	O	I-Process
-reaction	NN	O	I-Process
-rate	NN	O	I-Process
-are	NN	O	O
-used	NN	O	O
-to	NN	O	O
-find	NN	O	O
-the	NN	O	O
-effect	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-chemical	NN	O	I-Task
-reaction	NN	O	I-Task
-rate	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-gas	NN	O	I-Task
-exchange	NN	O	I-Task
-mechanisms	NN	O	I-Task
-.	NN	O	O
-
-Extrapolations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Process
-exchange	NN	O	I-Process
-rates	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-related	NN	O	O
-transport	NN	O	B-Process
-phenomena	NN	O	I-Process
-toward	NN	O	O
-larger	NN	O	O
-Schmidt	NN	O	O
-number	NN	O	O
-and	NN	O	O
-the	NN	O	O
-faster	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-rate	NN	O	O
-will	NN	O	O
-also	NN	O	O
-be	NN	O	O
-examined	NN	O	O
-to	NN	O	O
-predict	NN	O	B-Task
-the	NN	O	I-Task
-gas	NN	O	I-Task
-exchange	NN	O	I-Task
-processes	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-actual	NN	O	O
-gases	NN	O	B-Material
-of	NN	O	O
-Sc∼O(102	NN	O	B-Material
-)	NN	O	I-Material
-based	NN	O	O
-on	NN	O	O
-results	NN	O	O
-from	NN	O	O
-the	NN	O	O
-present	NN	O	O
-numerical	NN	O	B-Task
-experiments	NN	O	I-Task
-.	NN	O	O
+This	0	4	O
+study	5	10	O
+proposes	11	19	O
+a	20	21	O
+new	22	25	B-Task
+framework	26	35	I-Task
+of	36	38	I-Task
+a	39	40	I-Task
+numerical	41	50	I-Task
+modelling	51	60	I-Task
+of	61	63	O
+the	64	67	O
+gas	68	71	B-Process
+exchange	72	80	I-Process
+between	81	88	O
+air	89	92	B-Material
+and	93	96	O
+water	97	102	B-Material
+across	103	109	O
+their	110	115	O
+interface	116	125	O
+,	125	126	O
+and	127	130	O
+subsequent	131	141	O
+chemical	142	150	B-Process
+reaction	151	159	I-Process
+in	160	162	I-Process
+water	163	168	I-Process
+based	169	174	O
+on	175	177	O
+an	178	180	O
+extended	181	189	O
+two	190	193	B-Process
+-	193	194	I-Process
+compartment	194	205	I-Process
+model	206	211	I-Process
+.	211	212	O
+
+The	213	216	O
+major	217	222	O
+purpose	223	230	O
+of	231	233	O
+this	234	238	O
+study	239	244	O
+is	245	247	O
+to	248	250	O
+provide	251	258	O
+a	259	260	O
+fundamental	261	272	B-Process
+concept	273	280	I-Process
+for	281	284	O
+modelling	285	294	B-Task
+physicochemical	295	310	I-Task
+processes	311	320	I-Task
+of	321	323	O
+the	324	327	O
+gas	328	331	B-Process
+exchange	332	340	I-Process
+,	340	341	O
+followed	342	350	O
+by	351	353	O
+the	354	357	O
+chemical	358	366	B-Process
+reaction	367	375	I-Process
+in	376	378	I-Process
+water	379	384	I-Process
+.	384	385	O
+
+Demonstrating	386	399	O
+fundamental	400	411	O
+data	412	416	O
+and	417	420	O
+knowledge	421	430	O
+on	431	433	O
+the	434	437	O
+important	438	447	O
+environmental	448	461	O
+transport	462	471	O
+phenomena	472	481	O
+,	481	482	O
+especially	483	493	O
+the	494	497	O
+effects	498	505	B-Process
+of	506	508	I-Process
+the	509	512	I-Process
+Schmidt	513	520	I-Process
+number	521	527	I-Process
+and	528	531	O
+the	532	535	O
+chemical	536	544	B-Process
+reaction	545	553	I-Process
+rate	554	558	I-Process
+on	559	561	O
+the	562	565	O
+gas	566	569	B-Process
+exchange	570	578	I-Process
+mechanisms	579	589	I-Process
+across	590	596	I-Process
+the	597	600	I-Process
+interface	601	610	I-Process
+have	611	615	O
+also	616	620	O
+been	621	625	O
+attempted	626	635	O
+.	635	636	O
+
+The	637	640	O
+gas	641	644	B-Process
+exchange	645	653	I-Process
+processes	654	663	I-Process
+are	664	667	O
+separated	668	677	O
+into	678	682	O
+two	683	686	O
+physicochemical	687	702	O
+substeps	703	711	O
+,	711	712	O
+the	713	716	O
+first	717	722	O
+is	723	725	O
+the	726	729	O
+gas	730	733	B-Process
+–	733	734	I-Process
+liquid	734	740	I-Process
+equilibrium	741	752	I-Process
+between	753	760	O
+the	761	764	O
+two	765	768	O
+phases	769	775	O
+,	775	776	O
+and	777	780	O
+the	781	784	O
+second	785	791	O
+is	792	794	O
+the	795	798	O
+chemical	799	807	B-Process
+reaction	808	816	I-Process
+in	817	819	I-Process
+the	820	823	I-Process
+water	824	829	I-Process
+phase	830	835	I-Process
+.	835	836	O
+
+A	837	838	O
+first	839	844	O
+-	844	845	O
+order	845	850	O
+,	850	851	O
+irreversible	852	864	B-Process
+chemical	865	873	I-Process
+reaction	874	882	I-Process
+of	883	885	O
+the	886	889	O
+gaseous	890	897	B-Material
+material	898	906	I-Material
+after	907	912	O
+its	913	916	O
+uptake	917	923	O
+into	924	928	O
+the	929	932	O
+water	933	938	B-Material
+phase	939	944	I-Material
+is	945	947	O
+assumed	948	955	O
+here	956	960	O
+to	961	963	O
+simplify	964	972	O
+interactions	973	985	O
+of	986	988	O
+the	989	992	O
+chemical	993	1001	B-Process
+reactions	1002	1011	I-Process
+and	1012	1015	O
+turbulent	1016	1025	B-Process
+transport	1026	1035	I-Process
+phenomena	1036	1045	I-Process
+in	1046	1048	I-Process
+water	1049	1054	I-Process
+.	1054	1055	O
+
+While	1056	1061	O
+a	1062	1063	O
+traditional	1064	1075	O
+two	1076	1079	B-Process
+-	1079	1080	I-Process
+compartment	1080	1091	I-Process
+model	1092	1097	I-Process
+assumes	1098	1105	O
+uniform	1106	1113	O
+concentration	1114	1127	O
+of	1128	1130	O
+a	1131	1132	O
+material	1133	1141	O
+in	1142	1144	O
+each	1145	1149	O
+compartment	1150	1161	O
+,	1161	1162	O
+the	1163	1166	O
+present	1167	1174	O
+two	1175	1178	B-Process
+-	1178	1179	I-Process
+compartment	1179	1190	I-Process
+model	1191	1196	I-Process
+uses	1197	1201	O
+a	1202	1203	O
+computational	1204	1217	B-Process
+fluid	1218	1223	I-Process
+dynamics	1224	1232	I-Process
+(	1233	1234	O
+CFD	1234	1237	B-Process
+)	1237	1238	O
+technique	1239	1248	O
+in	1249	1251	O
+the	1252	1255	O
+water	1256	1261	B-Material
+compartment	1262	1273	O
+to	1274	1276	O
+evaluate	1277	1285	B-Task
+temporal	1286	1294	I-Task
+development	1295	1306	I-Task
+of	1307	1309	I-Task
+three	1310	1315	I-Task
+-	1315	1316	I-Task
+dimensional	1316	1327	I-Task
+profiles	1328	1336	I-Task
+of	1337	1339	I-Task
+the	1340	1343	I-Task
+velocity	1344	1352	I-Task
+and	1353	1356	I-Task
+concentration	1357	1370	I-Task
+fields	1371	1377	I-Task
+.	1377	1378	O
+
+A	1379	1380	O
+direct	1381	1387	B-Process
+numerical	1388	1397	I-Process
+simulation	1398	1408	I-Process
+(	1409	1410	O
+DNS	1410	1413	B-Process
+)	1413	1414	O
+approach	1415	1423	O
+is	1424	1426	O
+used	1427	1431	O
+to	1432	1434	O
+evaluate	1435	1443	B-Task
+profiles	1444	1452	I-Task
+of	1453	1455	I-Task
+fluid	1456	1461	I-Task
+velocities	1462	1472	I-Task
+and	1473	1476	I-Task
+concentrations	1477	1491	I-Task
+in	1492	1494	I-Task
+water	1495	1500	I-Task
+,	1500	1501	O
+and	1502	1505	O
+several	1506	1513	O
+important	1514	1523	O
+turbulence	1524	1534	O
+statistics	1535	1545	O
+have	1546	1550	O
+been	1551	1555	O
+evaluated	1556	1565	O
+without	1566	1573	O
+using	1574	1579	O
+turbulent	1580	1589	O
+closures	1590	1598	O
+,	1598	1599	O
+and	1600	1603	O
+subgrid	1604	1611	B-Process
+-	1611	1612	I-Process
+scale	1612	1617	I-Process
+models	1618	1624	I-Process
+.	1624	1625	O
+
+We	1626	1628	O
+assume	1629	1635	O
+that	1636	1640	O
+a	1641	1642	O
+fluid	1643	1648	B-Process
+flow	1649	1653	I-Process
+in	1654	1656	I-Process
+the	1657	1660	I-Process
+water	1661	1666	I-Process
+phase	1667	1672	I-Process
+is	1673	1675	O
+a	1676	1677	O
+well	1678	1682	O
+-	1682	1683	O
+developed	1683	1692	O
+turbulent	1693	1702	O
+water	1703	1708	B-Material
+layer	1709	1714	O
+of	1715	1717	O
+a	1718	1719	O
+low	1720	1723	O
+Reynolds	1724	1732	O
+number	1733	1739	O
+,	1739	1740	O
+and	1741	1744	O
+the	1745	1748	O
+Schmidt	1749	1756	O
+number	1757	1763	O
+is	1764	1766	O
+varied	1767	1773	O
+from	1774	1778	O
+1	1779	1780	O
+to	1781	1783	O
+8	1784	1785	O
+to	1786	1788	O
+observe	1789	1796	B-Task
+the	1797	1800	I-Task
+effects	1801	1808	I-Task
+of	1809	1811	I-Task
+the	1812	1815	I-Task
+molecular	1816	1825	I-Task
+diffusion	1826	1835	I-Task
+of	1836	1838	O
+the	1839	1842	O
+gas	1843	1846	B-Material
+in	1847	1849	O
+sub	1850	1853	O
+-	1853	1854	O
+interface	1854	1863	O
+water	1864	1869	B-Material
+on	1870	1872	O
+the	1873	1876	O
+gas	1877	1880	B-Process
+exchange	1881	1889	I-Process
+rate	1890	1894	I-Process
+at	1895	1897	I-Process
+the	1898	1901	I-Process
+interface	1902	1911	I-Process
+.	1911	1912	O
+
+Six	1913	1916	O
+degrees	1917	1924	O
+of	1925	1927	O
+the	1928	1931	O
+nondimensional	1932	1946	B-Process
+chemical	1947	1955	I-Process
+reaction	1956	1964	I-Process
+rate	1965	1969	I-Process
+are	1970	1973	O
+used	1974	1978	O
+to	1979	1981	O
+find	1982	1986	O
+the	1987	1990	O
+effect	1991	1997	B-Task
+of	1998	2000	I-Task
+the	2001	2004	I-Task
+chemical	2005	2013	I-Task
+reaction	2014	2022	I-Task
+rate	2023	2027	I-Task
+on	2028	2030	I-Task
+the	2031	2034	I-Task
+gas	2035	2038	I-Task
+exchange	2039	2047	I-Task
+mechanisms	2048	2058	I-Task
+.	2058	2059	O
+
+Extrapolations	2060	2074	O
+of	2075	2077	O
+the	2078	2081	O
+gas	2082	2085	B-Process
+exchange	2086	2094	I-Process
+rates	2095	2100	I-Process
+and	2101	2104	O
+the	2105	2108	O
+related	2109	2116	O
+transport	2117	2126	B-Process
+phenomena	2127	2136	I-Process
+toward	2137	2143	O
+larger	2144	2150	O
+Schmidt	2151	2158	O
+number	2159	2165	O
+and	2166	2169	O
+the	2170	2173	O
+faster	2174	2180	O
+chemical	2181	2189	B-Process
+reaction	2190	2198	I-Process
+rate	2199	2203	O
+will	2204	2208	O
+also	2209	2213	O
+be	2214	2216	O
+examined	2217	2225	O
+to	2226	2228	O
+predict	2229	2236	B-Task
+the	2237	2240	I-Task
+gas	2241	2244	I-Task
+exchange	2245	2253	I-Task
+processes	2254	2263	I-Task
+of	2264	2266	O
+the	2267	2270	O
+actual	2271	2277	O
+gases	2278	2283	B-Material
+of	2284	2286	O
+Sc∼O(102	2287	2295	B-Material
+)	2295	2296	I-Material
+based	2297	2302	O
+on	2303	2305	O
+results	2306	2313	O
+from	2314	2318	O
+the	2319	2322	O
+present	2323	2330	O
+numerical	2331	2340	B-Task
+experiments	2341	2352	I-Task
+.	2352	2353	O
 
 
 -DOCSTART- (S0021999113005846)
 
-Although	NN	O	O
-the	NN	O	O
-free	NN	O	B-Task
-Kelvin	NN	O	I-Task
-wave	NN	O	I-Task
-problem	NN	O	I-Task
-is	NN	O	O
-of	NN	O	O
-considerable	NN	O	O
-theoretical	NN	O	O
-importance	NN	O	O
-,	NN	O	O
-problems	NN	O	B-Task
-with	NN	O	I-Task
-forcing	NN	O	I-Task
-and	NN	O	I-Task
-damping	NN	O	I-Task
-have	NN	O	O
-greater	NN	O	O
-practical	NN	O	O
-importance	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-nature	NN	O	O
-,	NN	O	O
-the	NN	O	O
-forcing	NN	O	B-Process
-could	NN	O	O
-be	NN	O	O
-due	NN	O	O
-to	NN	O	O
-a	NN	O	O
-wind	NN	O	B-Process
-stress	NN	O	I-Process
-at	NN	O	I-Process
-the	NN	O	I-Process
-free	NN	O	I-Process
-surface	NN	O	I-Process
-or	NN	O	O
-an	NN	O	O
-astronomical	NN	O	B-Process
-tidal	NN	O	I-Process
-potential	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-damping	NN	O	B-Process
-could	NN	O	O
-be	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-turbulent	NN	O	B-Process
-stress	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-bottom	NN	O	I-Process
-boundary	NN	O	I-Process
-layer	NN	O	I-Process
-.	NN	O	O
-
-Regardless	NN	O	O
-of	NN	O	O
-the	NN	O	O
-details	NN	O	O
-,	NN	O	O
-the	NN	O	O
-forced	NN	O	B-Process
-response	NN	O	I-Process
-is	NN	O	O
-composed	NN	O	O
-of	NN	O	O
-shallow	NN	O	B-Material
--	NN	O	I-Material
-water	NN	O	I-Material
-waves	NN	O	I-Material
-,	NN	O	O
-possibly	NN	O	O
-including	NN	O	O
-Kelvin	NN	O	B-Material
-waves	NN	O	I-Material
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-largest	NN	O	O
-amplitudes	NN	O	O
-in	NN	O	O
-waves	NN	O	B-Material
-with	NN	O	O
-a	NN	O	O
-natural	NN	O	B-Process
-frequency	NN	O	I-Process
-ωf	NN	O	B-Process
-close	NN	O	O
-to	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-forcing	NN	O	B-Process
-frequency	NN	O	I-Process
-ω	NN	O	B-Process
-;	NN	O	O
-various	NN	O	O
-examples	NN	O	O
-of	NN	O	O
-this	NN	O	O
-sort	NN	O	O
-are	NN	O	O
-given	NN	O	O
-in	NN	O	O
-Chapters	NN	O	O
-9	NN	O	O
-and	NN	O	O
-10	NN	O	O
-of	NN	O	O
-Gill	NN	O	O
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-When	NN	O	O
-ω≈ωf	NN	O	B-Process
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-a	NN	O	O
-large	NN	O	O
-amplitude	NN	O	O
-near	NN	O	O
--	NN	O	O
-resonant	NN	O	O
-response	NN	O	O
-,	NN	O	O
-the	NN	O	O
-size	NN	O	O
-of	NN	O	O
-which	NN	O	O
-is	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-the	NN	O	O
-weak	NN	O	B-Process
-damping	NN	O	I-Process
-and	NN	O	O
-|ω−ωf|	NN	O	B-Process
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-in	NN	O	O
-numerical	NN	O	B-Task
-solutions	NN	O	I-Task
-of	NN	O	O
-near	NN	O	B-Material
--	NN	O	I-Material
-resonantly	NN	O	I-Material
-forced	NN	O	I-Material
-waves	NN	O	I-Material
-,	NN	O	O
-we	NN	O	O
-anticipate	NN	O	O
-that	NN	O	O
-errors	NN	O	O
-in	NN	O	O
-ωf	NN	O	B-Process
-(	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-the	NN	O	O
-spatial	NN	O	B-Process
-discretisation	NN	O	I-Process
-)	NN	O	O
-could	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-non	NN	O	O
--	NN	O	O
-trivial	NN	O	O
-errors	NN	O	O
-in	NN	O	O
-the	NN	O	O
-forced	NN	O	O
-response	NN	O	O
-.	NN	O	O
+Although	0	8	O
+the	9	12	O
+free	13	17	B-Task
+Kelvin	18	24	I-Task
+wave	25	29	I-Task
+problem	30	37	I-Task
+is	38	40	O
+of	41	43	O
+considerable	44	56	O
+theoretical	57	68	O
+importance	69	79	O
+,	79	80	O
+problems	81	89	B-Task
+with	90	94	I-Task
+forcing	95	102	I-Task
+and	103	106	I-Task
+damping	107	114	I-Task
+have	115	119	O
+greater	120	127	O
+practical	128	137	O
+importance	138	148	O
+.	148	149	O
+
+In	150	152	O
+nature	153	159	O
+,	159	160	O
+the	161	164	O
+forcing	165	172	B-Process
+could	173	178	O
+be	179	181	O
+due	182	185	O
+to	186	188	O
+a	189	190	O
+wind	191	195	B-Process
+stress	196	202	I-Process
+at	203	205	I-Process
+the	206	209	I-Process
+free	210	214	I-Process
+surface	215	222	I-Process
+or	223	225	O
+an	226	228	O
+astronomical	229	241	B-Process
+tidal	242	247	I-Process
+potential	248	257	I-Process
+,	257	258	O
+and	259	262	O
+the	263	266	O
+damping	267	274	B-Process
+could	275	280	O
+be	281	283	O
+due	284	287	O
+to	288	290	O
+the	291	294	O
+turbulent	295	304	B-Process
+stress	305	311	I-Process
+of	312	314	I-Process
+a	315	316	I-Process
+bottom	317	323	I-Process
+boundary	324	332	I-Process
+layer	333	338	I-Process
+.	338	339	O
+
+Regardless	340	350	O
+of	351	353	O
+the	354	357	O
+details	358	365	O
+,	365	366	O
+the	367	370	O
+forced	371	377	B-Process
+response	378	386	I-Process
+is	387	389	O
+composed	390	398	O
+of	399	401	O
+shallow	402	409	B-Material
+-	409	410	I-Material
+water	410	415	I-Material
+waves	416	421	I-Material
+,	421	422	O
+possibly	423	431	O
+including	432	441	O
+Kelvin	442	448	B-Material
+waves	449	454	I-Material
+,	454	455	O
+with	456	460	O
+the	461	464	O
+largest	465	472	O
+amplitudes	473	483	O
+in	484	486	O
+waves	487	492	B-Material
+with	493	497	O
+a	498	499	O
+natural	500	507	B-Process
+frequency	508	517	I-Process
+ωf	518	520	B-Process
+close	521	526	O
+to	527	529	O
+that	530	534	O
+of	535	537	O
+the	538	541	O
+forcing	542	549	B-Process
+frequency	550	559	I-Process
+ω	560	561	B-Process
+;	561	562	O
+various	563	570	O
+examples	571	579	O
+of	580	582	O
+this	583	587	O
+sort	588	592	O
+are	593	596	O
+given	597	602	O
+in	603	605	O
+Chapters	606	614	O
+9	615	616	O
+and	617	620	O
+10	621	623	O
+of	624	626	O
+Gill	627	631	O
+[	632	633	O
+16	633	635	O
+]	635	636	O
+.	636	637	O
+
+When	638	642	O
+ω≈ωf	643	647	B-Process
+,	647	648	O
+there	649	654	O
+is	655	657	O
+a	658	659	O
+large	660	665	O
+amplitude	666	675	O
+near	676	680	O
+-	680	681	O
+resonant	681	689	O
+response	690	698	O
+,	698	699	O
+the	700	703	O
+size	704	708	O
+of	709	711	O
+which	712	717	O
+is	718	720	O
+sensitive	721	730	O
+to	731	733	O
+the	734	737	O
+weak	738	742	B-Process
+damping	743	750	I-Process
+and	751	754	O
+|ω−ωf|	755	761	B-Process
+.	761	762	O
+
+Thus	763	767	O
+,	767	768	O
+in	769	771	O
+numerical	772	781	B-Task
+solutions	782	791	I-Task
+of	792	794	O
+near	795	799	B-Material
+-	799	800	I-Material
+resonantly	800	810	I-Material
+forced	811	817	I-Material
+waves	818	823	I-Material
+,	823	824	O
+we	825	827	O
+anticipate	828	838	O
+that	839	843	O
+errors	844	850	O
+in	851	853	O
+ωf	854	856	B-Process
+(	857	858	O
+associated	858	868	O
+with	869	873	O
+the	874	877	O
+spatial	878	885	B-Process
+discretisation	886	900	I-Process
+)	900	901	O
+could	902	907	O
+lead	908	912	O
+to	913	915	O
+non	916	919	O
+-	919	920	O
+trivial	920	927	O
+errors	928	934	O
+in	935	937	O
+the	938	941	O
+forced	942	948	O
+response	949	957	O
+.	957	958	O
 
 
 -DOCSTART- (S002199911500025X)
 
-A	NN	O	O
-fully	NN	O	B-Process
--	NN	O	I-Process
-coupled	NN	O	I-Process
-numerical	NN	O	I-Process
-framework	NN	O	I-Process
-for	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-phase	NN	O	I-Process
-flows	NN	O	I-Process
-with	NN	O	O
-an	NN	O	O
-implicit	NN	O	O
-implementation	NN	O	O
-of	NN	O	O
-surface	NN	O	B-Process
-tension	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-introduced	NN	O	O
-in	NN	O	O
-this	NN	O	O
-article	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
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--	NN	O	I-Process
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-then	NN	O	O
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-to	NN	O	O
-compare	NN	O	B-Task
-the	NN	O	I-Task
-influence	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-surface	NN	O	B-Process
-tension	NN	O	I-Process
-treatment	NN	O	I-Process
-on	NN	O	O
-the	NN	O	O
-time	NN	O	B-Process
--	NN	O	I-Process
-step	NN	O	I-Process
-restrictions	NN	O	I-Process
-resulting	NN	O	I-Process
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-capillary	NN	O	I-Process
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-.	NN	O	O
-
-The	NN	O	O
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-study	NN	O	O
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-that	NN	O	O
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--	NN	O	I-Process
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-of	NN	O	O
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-surface	NN	O	I-Process
-tension	NN	O	I-Process
-.	NN	O	O
-
-Since	NN	O	O
-surface	NN	O	B-Process
-tension	NN	O	I-Process
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-not	NN	O	O
-a	NN	O	O
-function	NN	O	O
-of	NN	O	O
-pressure	NN	O	O
-or	NN	O	O
-velocity	NN	O	O
-,	NN	O	O
-the	NN	O	O
-change	NN	O	O
-in	NN	O	O
-implementation	NN	O	O
-does	NN	O	O
-not	NN	O	O
-affect	NN	O	O
-the	NN	O	O
-matrix	NN	O	O
-coefficients	NN	O	O
-of	NN	O	O
-the	NN	O	O
-primitive	NN	O	O
-variables	NN	O	O
-and	NN	O	O
-,	NN	O	O
-thus	NN	O	O
-,	NN	O	O
-numerical	NN	O	O
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-is	NN	O	O
-independent	NN	O	O
-of	NN	O	O
-the	NN	O	O
-treatment	NN	O	B-Task
-of	NN	O	I-Task
-surface	NN	O	I-Task
-tension	NN	O	I-Task
-.	NN	O	O
-
-Further	NN	O	O
-analysis	NN	O	O
-shows	NN	O	O
-that	NN	O	O
-the	NN	O	O
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-time	NN	O	O
--	NN	O	O
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-a	NN	O	O
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-imposed	NN	O	O
-by	NN	O	O
-the	NN	O	O
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-of	NN	O	I-Task
-capillary	NN	O	I-Task
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-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
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-of	NN	O	O
-the	NN	O	O
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-.	NN	O	O
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+-	7	8	I-Process
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+-	43	44	I-Process
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+.	142	143	O
+
+This	144	148	O
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+-	154	155	I-Process
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+has	173	176	O
+then	177	181	O
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+of	217	219	O
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+on	250	252	O
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+-	261	262	I-Process
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+.	310	311	O
+
+The	312	315	O
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+-	384	385	I-Process
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+.	501	502	O
+
+Since	503	508	O
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+,	566	567	O
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+,	667	668	O
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+,	673	674	O
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+.	745	746	O
+
+Further	747	754	O
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+-	793	794	O
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+,	884	885	O
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+.	943	944	O
 
 
 -DOCSTART- (S0021999115003423)
 
-The	NN	O	O
-remainder	NN	O	O
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-
-In	NN	O	O
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-,	NN	O	O
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-,	NN	O	O
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-.	NN	O	O
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-
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--	NN	O	O
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-.	NN	O	O
-
-Finally	NN	O	O
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-of	NN	O	O
-our	NN	O	O
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-and	NN	O	O
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-work	NN	O	O
-.	NN	O	O
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+
+In	53	55	O
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+,	158	159	O
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+.	245	246	O
+
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+,	306	307	O
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+.	439	440	O
+
+We	441	443	O
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+,	518	519	O
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+,	571	572	O
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+.	657	658	O
+
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+
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+
+In	1023	1025	O
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+
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+extensions	1210	1220	O
+and	1221	1224	O
+applications	1225	1237	O
+of	1238	1240	O
+the	1241	1244	O
+work	1245	1249	O
+.	1249	1250	O
 
 
 -DOCSTART- (S0021999115007895)
 
-The	NN	O	B-Task
-dynamics	NN	O	I-Task
-of	NN	O	I-Task
-various	NN	O	I-Task
-physical	NN	O	I-Task
-phenomena	NN	O	I-Task
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-movement	NN	O	B-Process
-of	NN	O	I-Process
-pendulums	NN	O	I-Process
-,	NN	O	I-Process
-planets	NN	O	I-Process
-,	NN	O	I-Process
-or	NN	O	I-Process
-water	NN	O	I-Process
-waves	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-described	NN	O	O
-in	NN	O	O
-a	NN	O	O
-variational	NN	O	B-Process
-framework	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-development	NN	O	O
-of	NN	O	O
-variational	NN	O	B-Process
-principles	NN	O	I-Process
-for	NN	O	O
-classical	NN	O	O
-mechanics	NN	O	O
-traces	NN	O	O
-back	NN	O	O
-to	NN	O	O
-Euler	NN	O	O
-,	NN	O	O
-Lagrange	NN	O	O
-,	NN	O	O
-and	NN	O	O
-Hamilton	NN	O	O
-;	NN	O	O
-an	NN	O	O
-overview	NN	O	O
-of	NN	O	O
-this	NN	O	O
-history	NN	O	O
-can	NN	O	O
-be	NN	O	O
-found	NN	O	O
-in	NN	O	O
-[	NN	O	O
-1,19	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-approach	NN	O	B-Process
-allows	NN	O	O
-to	NN	O	O
-express	NN	O	B-Task
-all	NN	O	I-Task
-the	NN	O	I-Task
-dynamics	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-system	NN	O	I-Task
-in	NN	O	O
-a	NN	O	O
-single	NN	O	B-Process
-functional	NN	O	I-Process
-–	NN	O	O
-the	NN	O	O
-Lagrangian	NN	O	B-Process
-–	NN	O	O
-which	NN	O	O
-is	NN	O	O
-an	NN	O	O
-action	NN	O	B-Process
-integral	NN	O	I-Process
-.	NN	O	O
-
-Hamiltonian	NN	O	B-Process
-mechanics	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-reformulation	NN	O	B-Process
-of	NN	O	I-Process
-Lagrangian	NN	O	I-Process
-mechanics	NN	O	I-Process
-which	NN	O	O
-provides	NN	O	O
-a	NN	O	O
-convenient	NN	O	O
-framework	NN	O	B-Material
-to	NN	O	O
-study	NN	O	B-Task
-the	NN	O	I-Task
-symmetry	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-system	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-expressed	NN	O	O
-by	NN	O	O
-Noether	NN	O	O
-'s	NN	O	O
-theorem	NN	O	O
-which	NN	O	O
-establishes	NN	O	O
-the	NN	O	O
-direct	NN	O	O
-connection	NN	O	O
-between	NN	O	O
-the	NN	O	O
-symmetry	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-Hamiltonian	NN	O	B-Process
-systems	NN	O	I-Process
-and	NN	O	O
-conservation	NN	O	O
-laws	NN	O	O
-.	NN	O	O
-
-When	NN	O	O
-one	NN	O	O
-approximates	NN	O	O
-the	NN	O	O
-system	NN	O	B-Process
-numerically	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-advantageous	NN	O	O
-to	NN	O	O
-preserve	NN	O	O
-the	NN	O	O
-Hamiltonian	NN	O	O
-structure	NN	O	O
-also	NN	O	O
-at	NN	O	O
-the	NN	O	O
-discrete	NN	O	O
-level	NN	O	O
-.	NN	O	O
-
-Given	NN	O	O
-that	NN	O	O
-Hamiltonian	NN	O	B-Process
-systems	NN	O	I-Process
-are	NN	O	O
-abundant	NN	O	O
-in	NN	O	O
-nature	NN	O	O
-,	NN	O	O
-their	NN	O	O
-numerical	NN	O	B-Task
-approximation	NN	O	I-Task
-is	NN	O	O
-therefore	NN	O	O
-a	NN	O	O
-topic	NN	O	O
-of	NN	O	O
-significant	NN	O	O
-relevance	NN	O	O
-.	NN	O	O
+The	0	3	B-Task
+dynamics	4	12	I-Task
+of	13	15	I-Task
+various	16	23	I-Task
+physical	24	32	I-Task
+phenomena	33	42	I-Task
+,	42	43	O
+such	44	48	O
+as	49	51	O
+the	52	55	O
+movement	56	64	B-Process
+of	65	67	I-Process
+pendulums	68	77	I-Process
+,	77	78	I-Process
+planets	79	86	I-Process
+,	86	87	I-Process
+or	88	90	I-Process
+water	91	96	I-Process
+waves	97	102	I-Process
+can	103	106	O
+be	107	109	O
+described	110	119	O
+in	120	122	O
+a	123	124	O
+variational	125	136	B-Process
+framework	137	146	I-Process
+.	146	147	O
+
+The	148	151	O
+development	152	163	O
+of	164	166	O
+variational	167	178	B-Process
+principles	179	189	I-Process
+for	190	193	O
+classical	194	203	O
+mechanics	204	213	O
+traces	214	220	O
+back	221	225	O
+to	226	228	O
+Euler	229	234	O
+,	234	235	O
+Lagrange	236	244	O
+,	244	245	O
+and	246	249	O
+Hamilton	250	258	O
+;	258	259	O
+an	260	262	O
+overview	263	271	O
+of	272	274	O
+this	275	279	O
+history	280	287	O
+can	288	291	O
+be	292	294	O
+found	295	300	O
+in	301	303	O
+[	304	305	O
+1,19	305	309	O
+]	309	310	O
+.	310	311	O
+
+This	312	316	O
+approach	317	325	B-Process
+allows	326	332	O
+to	333	335	O
+express	336	343	B-Task
+all	344	347	I-Task
+the	348	351	I-Task
+dynamics	352	360	I-Task
+of	361	363	I-Task
+a	364	365	I-Task
+system	366	372	I-Task
+in	373	375	O
+a	376	377	O
+single	378	384	B-Process
+functional	385	395	I-Process
+–	396	397	O
+the	398	401	O
+Lagrangian	402	412	B-Process
+–	413	414	O
+which	415	420	O
+is	421	423	O
+an	424	426	O
+action	427	433	B-Process
+integral	434	442	I-Process
+.	442	443	O
+
+Hamiltonian	444	455	B-Process
+mechanics	456	465	I-Process
+is	466	468	O
+a	469	470	O
+reformulation	471	484	B-Process
+of	485	487	I-Process
+Lagrangian	488	498	I-Process
+mechanics	499	508	I-Process
+which	509	514	O
+provides	515	523	O
+a	524	525	O
+convenient	526	536	O
+framework	537	546	B-Material
+to	547	549	O
+study	550	555	B-Task
+the	556	559	I-Task
+symmetry	560	568	I-Task
+properties	569	579	I-Task
+of	580	582	I-Task
+a	583	584	I-Task
+system	585	591	I-Task
+.	591	592	O
+
+This	593	597	O
+is	598	600	O
+expressed	601	610	O
+by	611	613	O
+Noether	614	621	O
+'s	621	623	O
+theorem	624	631	O
+which	632	637	O
+establishes	638	649	O
+the	650	653	O
+direct	654	660	O
+connection	661	671	O
+between	672	679	O
+the	680	683	O
+symmetry	684	692	O
+properties	693	703	O
+of	704	706	O
+Hamiltonian	707	718	B-Process
+systems	719	726	I-Process
+and	727	730	O
+conservation	731	743	O
+laws	744	748	O
+.	748	749	O
+
+When	750	754	O
+one	755	758	O
+approximates	759	771	O
+the	772	775	O
+system	776	782	B-Process
+numerically	783	794	O
+,	794	795	O
+it	796	798	O
+is	799	801	O
+advantageous	802	814	O
+to	815	817	O
+preserve	818	826	O
+the	827	830	O
+Hamiltonian	831	842	O
+structure	843	852	O
+also	853	857	O
+at	858	860	O
+the	861	864	O
+discrete	865	873	O
+level	874	879	O
+.	879	880	O
+
+Given	881	886	O
+that	887	891	O
+Hamiltonian	892	903	B-Process
+systems	904	911	I-Process
+are	912	915	O
+abundant	916	924	O
+in	925	927	O
+nature	928	934	O
+,	934	935	O
+their	936	941	O
+numerical	942	951	B-Task
+approximation	952	965	I-Task
+is	966	968	O
+therefore	969	978	O
+a	979	980	O
+topic	981	986	O
+of	987	989	O
+significant	990	1001	O
+relevance	1002	1011	O
+.	1011	1012	O
 
 
 -DOCSTART- (S0021999115008153)
 
-As	NN	O	O
-discussed	NN	O	O
-above	NN	O	O
-,	NN	O	O
-proper	NN	O	B-Task
-inclusion	NN	O	I-Task
-of	NN	O	I-Task
-these	NN	O	I-Task
-interactions	NN	O	I-Task
-requires	NN	O	O
-segment	NN	O	B-Process
-synchronization	NN	O	I-Process
-after	NN	O	I-Process
-every	NN	O	I-Process
-iteration	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-minimize	NN	O	B-Task
-simulation	NN	O	I-Task
-errors	NN	O	I-Task
-due	NN	O	O
-to	NN	O	O
-incorrect	NN	O	O
-values	NN	O	O
-of	NN	O	O
-the	NN	O	O
-interactions	NN	O	O
-potential	NN	O	O
-,	NN	O	O
-segments	NN	O	B-Process
-are	NN	O	I-Process
-synchronized	NN	O	I-Process
-after	NN	O	I-Process
-every	NN	O	I-Process
-iteration	NN	O	I-Process
-.	NN	O	O
-
-Although	NN	O	O
-relatively	NN	O	O
-long	NN	O	O
-communication	NN	O	O
-times	NN	O	O
-between	NN	O	O
-remote	NN	O	O
-processors	NN	O	B-Material
-may	NN	O	O
-hinder	NN	O	O
-this	NN	O	O
-process	NN	O	O
-in	NN	O	O
-typical	NN	O	O
-parallel	NN	O	B-Material
-computers	NN	O	I-Material
-,	NN	O	O
-this	NN	O	O
-is	NN	O	O
-not	NN	O	O
-the	NN	O	O
-case	NN	O	O
-for	NN	O	O
-GPGPU	NN	O	B-Material
-architectures	NN	O	I-Material
-.	NN	O	O
-
-Still	NN	O	O
-,	NN	O	O
-full	NN	O	O
-recalculation	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-interaction	NN	O	I-Process
-potential	NN	O	I-Process
-after	NN	O	O
-each	NN	O	O
-iteration	NN	O	O
-is	NN	O	O
-time	NN	O	O
-consuming	NN	O	O
-.	NN	O	O
-
-Instead	NN	O	O
-,	NN	O	O
-the	NN	O	O
-algorithm	NN	O	B-Process
-corrects	NN	O	B-Process
-the	NN	O	I-Process
-current	NN	O	I-Process
-potential	NN	O	I-Process
-by	NN	O	O
-adding	NN	O	B-Process
-dipole	NN	O	I-Process
-contributions	NN	O	I-Process
-for	NN	O	O
-every	NN	O	O
-nearby	NN	O	O
-charge	NN	O	O
-that	NN	O	O
-hopped	NN	O	O
-during	NN	O	O
-the	NN	O	O
-previous	NN	O	O
-iteration	NN	O	O
-.	NN	O	O
-
-Full	NN	O	O
-updates	NN	O	O
-of	NN	O	O
-the	NN	O	O
-interaction	NN	O	B-Process
-potential	NN	O	I-Process
-are	NN	O	O
-only	NN	O	O
-required	NN	O	O
-for	NN	O	O
-the	NN	O	O
-grid	NN	O	O
-points	NN	O	O
-that	NN	O	O
-are	NN	O	O
-related	NN	O	O
-to	NN	O	O
-charges	NN	O	O
-that	NN	O	O
-hopped	NN	O	O
-during	NN	O	O
-the	NN	O	O
-last	NN	O	O
-iteration	NN	O	O
-.	NN	O	O
-
-Accumulative	NN	O	O
-rounding	NN	O	O
-errors	NN	O	O
-that	NN	O	O
-arise	NN	O	O
-due	NN	O	O
-to	NN	O	O
-repetitive	NN	O	O
-addition	NN	O	O
-and	NN	O	O
-subtraction	NN	O	O
-are	NN	O	O
-solve	NN	O	O
-this	NN	O	O
-by	NN	O	O
-rounding	NN	O	O
-all	NN	O	O
-interaction	NN	O	O
-potentials	NN	O	O
-to	NN	O	O
-a	NN	O	O
-uniformly	NN	O	O
-spaced	NN	O	O
-range	NN	O	O
-of	NN	O	O
-floating	NN	O	O
-point	NN	O	O
-numbers	NN	O	O
-.	NN	O	O
+As	0	2	O
+discussed	3	12	O
+above	13	18	O
+,	18	19	O
+proper	20	26	B-Task
+inclusion	27	36	I-Task
+of	37	39	I-Task
+these	40	45	I-Task
+interactions	46	58	I-Task
+requires	59	67	O
+segment	68	75	B-Process
+synchronization	76	91	I-Process
+after	92	97	I-Process
+every	98	103	I-Process
+iteration	104	113	I-Process
+.	113	114	O
+
+In	115	117	O
+order	118	123	O
+to	124	126	O
+minimize	127	135	B-Task
+simulation	136	146	I-Task
+errors	147	153	I-Task
+due	154	157	O
+to	158	160	O
+incorrect	161	170	O
+values	171	177	O
+of	178	180	O
+the	181	184	O
+interactions	185	197	O
+potential	198	207	O
+,	207	208	O
+segments	209	217	B-Process
+are	218	221	I-Process
+synchronized	222	234	I-Process
+after	235	240	I-Process
+every	241	246	I-Process
+iteration	247	256	I-Process
+.	256	257	O
+
+Although	258	266	O
+relatively	267	277	O
+long	278	282	O
+communication	283	296	O
+times	297	302	O
+between	303	310	O
+remote	311	317	O
+processors	318	328	B-Material
+may	329	332	O
+hinder	333	339	O
+this	340	344	O
+process	345	352	O
+in	353	355	O
+typical	356	363	O
+parallel	364	372	B-Material
+computers	373	382	I-Material
+,	382	383	O
+this	384	388	O
+is	389	391	O
+not	392	395	O
+the	396	399	O
+case	400	404	O
+for	405	408	O
+GPGPU	409	414	B-Material
+architectures	415	428	I-Material
+.	428	429	O
+
+Still	430	435	O
+,	435	436	O
+full	437	441	O
+recalculation	442	455	B-Process
+of	456	458	I-Process
+the	459	462	I-Process
+interaction	463	474	I-Process
+potential	475	484	I-Process
+after	485	490	O
+each	491	495	O
+iteration	496	505	O
+is	506	508	O
+time	509	513	O
+consuming	514	523	O
+.	523	524	O
+
+Instead	525	532	O
+,	532	533	O
+the	534	537	O
+algorithm	538	547	B-Process
+corrects	548	556	B-Process
+the	557	560	I-Process
+current	561	568	I-Process
+potential	569	578	I-Process
+by	579	581	O
+adding	582	588	B-Process
+dipole	589	595	I-Process
+contributions	596	609	I-Process
+for	610	613	O
+every	614	619	O
+nearby	620	626	O
+charge	627	633	O
+that	634	638	O
+hopped	639	645	O
+during	646	652	O
+the	653	656	O
+previous	657	665	O
+iteration	666	675	O
+.	675	676	O
+
+Full	677	681	O
+updates	682	689	O
+of	690	692	O
+the	693	696	O
+interaction	697	708	B-Process
+potential	709	718	I-Process
+are	719	722	O
+only	723	727	O
+required	728	736	O
+for	737	740	O
+the	741	744	O
+grid	745	749	O
+points	750	756	O
+that	757	761	O
+are	762	765	O
+related	766	773	O
+to	774	776	O
+charges	777	784	O
+that	785	789	O
+hopped	790	796	O
+during	797	803	O
+the	804	807	O
+last	808	812	O
+iteration	813	822	O
+.	822	823	O
+
+Accumulative	824	836	O
+rounding	837	845	O
+errors	846	852	O
+that	853	857	O
+arise	858	863	O
+due	864	867	O
+to	868	870	O
+repetitive	871	881	O
+addition	882	890	O
+and	891	894	O
+subtraction	895	906	O
+are	907	910	O
+solve	911	916	O
+this	917	921	O
+by	922	924	O
+rounding	925	933	O
+all	934	937	O
+interaction	938	949	O
+potentials	950	960	O
+to	961	963	O
+a	964	965	O
+uniformly	966	975	O
+spaced	976	982	O
+range	983	988	O
+of	989	991	O
+floating	992	1000	O
+point	1001	1006	O
+numbers	1007	1014	O
+.	1014	1015	O
 
 
 -DOCSTART- (S0021999115008372)
 
-The	NN	O	O
-need	NN	O	O
-to	NN	O	O
-represent	NN	O	B-Task
-scale	NN	O	I-Task
-interactions	NN	O	I-Task
-in	NN	O	O
-weather	NN	O	B-Process
-and	NN	O	I-Process
-climate	NN	O	I-Process
-prediction	NN	O	I-Process
-models	NN	O	I-Process
-has	NN	O	O
-,	NN	O	O
-for	NN	O	O
-many	NN	O	O
-decades	NN	O	O
-,	NN	O	O
-motivated	NN	O	O
-research	NN	O	O
-into	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-adaptive	NN	O	B-Material
-meshes	NN	O	I-Material
-[	NN	O	O
-3,34,38	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-R	NN	O	B-Process
--	NN	O	I-Process
-adaptivity	NN	O	I-Process
-–	NN	O	O
-mesh	NN	O	B-Process
-redistribution	NN	O	I-Process
-–	NN	O	O
-involves	NN	O	O
-deforming	NN	O	B-Process
-a	NN	O	I-Process
-mesh	NN	O	I-Process
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-vary	NN	O	O
-local	NN	O	O
-resolution	NN	O	O
-and	NN	O	O
-was	NN	O	O
-first	NN	O	O
-considered	NN	O	O
-for	NN	O	O
-atmospheric	NN	O	B-Process
-modelling	NN	O	I-Process
-more	NN	O	O
-than	NN	O	O
-twenty	NN	O	O
-years	NN	O	O
-ago	NN	O	O
-by	NN	O	O
-Dietachmayer	NN	O	O
-and	NN	O	O
-Droegemeier	NN	O	O
-
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-an	NN	O	O
-attractive	NN	O	O
-form	NN	O	O
-of	NN	O	O
-adaptivity	NN	O	B-Process
-since	NN	O	O
-it	NN	O	O
-does	NN	O	O
-not	NN	O	O
-involve	NN	O	O
-altering	NN	O	B-Process
-the	NN	O	I-Process
-mesh	NN	O	I-Process
-connectivity	NN	O	I-Process
-,	NN	O	O
-does	NN	O	O
-not	NN	O	O
-create	NN	O	O
-load	NN	O	O
-balancing	NN	O	O
-problems	NN	O	O
-because	NN	O	O
-points	NN	O	O
-are	NN	O	O
-never	NN	O	O
-created	NN	O	O
-or	NN	O	O
-destroyed	NN	O	O
-,	NN	O	O
-does	NN	O	O
-not	NN	O	O
-require	NN	O	O
-mapping	NN	O	B-Process
-of	NN	O	I-Process
-solutions	NN	O	I-Process
-between	NN	O	I-Process
-meshes	NN	O	I-Process
-[	NN	O	O
-26	NN	O	O
-]	NN	O	O
-,	NN	O	O
-does	NN	O	O
-not	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-sudden	NN	O	O
-changes	NN	O	O
-in	NN	O	O
-resolution	NN	O	O
-and	NN	O	O
-can	NN	O	O
-be	NN	O	O
-retro	NN	O	O
--	NN	O	O
-fitted	NN	O	O
-into	NN	O	O
-existing	NN	O	O
-models	NN	O	O
-.	NN	O	O
-
-Variational	NN	O	B-Process
-methods	NN	O	I-Process
-exist	NN	O	O
-which	NN	O	O
-attempt	NN	O	O
-to	NN	O	O
-control	NN	O	B-Task
-resolution	NN	O	I-Task
-in	NN	O	I-Task
-different	NN	O	I-Task
-directions	NN	O	I-Task
-for	NN	O	I-Task
-r	NN	O	I-Task
--	NN	O	I-Task
-adaptive	NN	O	I-Task
-meshes	NN	O	I-Task
-(	NN	O	O
-e.g.	NN	O	O
-[	NN	O	O
-23,25	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Alternatively	NN	O	O
-,	NN	O	O
-the	NN	O	O
-solution	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Monge	NN	O	B-Process
-–	NN	O	I-Process
-Ampère	NN	O	I-Process
-equation	NN	O	I-Process
-to	NN	O	O
-generate	NN	O	O
-an	NN	O	O
-optimally	NN	O	B-Material
-transported	NN	O	I-Material
-(	NN	O	I-Material
-OT	NN	O	I-Material
-)	NN	O	I-Material
-mesh	NN	O	I-Material
-based	NN	O	O
-on	NN	O	O
-a	NN	O	O
-scalar	NN	O	B-Process
-valued	NN	O	I-Process
-monitor	NN	O	I-Process
-function	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-useful	NN	O	O
-form	NN	O	O
-of	NN	O	O
-r	NN	O	B-Process
--	NN	O	I-Process
-adaptive	NN	O	I-Process
-mesh	NN	O	I-Process
-generation	NN	O	I-Process
-because	NN	O	O
-it	NN	O	O
-generates	NN	O	O
-a	NN	O	O
-mesh	NN	O	B-Material
-equidistributed	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-a	NN	O	O
-monitor	NN	O	B-Process
-function	NN	O	I-Process
-and	NN	O	O
-does	NN	O	O
-not	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-mesh	NN	O	B-Process
-tangling	NN	O	I-Process
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-will	NN	O	O
-see	NN	O	O
-that	NN	O	O
-the	NN	O	O
-optimal	NN	O	B-Task
-transport	NN	O	I-Task
-problem	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-sphere	NN	O	I-Task
-leads	NN	O	O
-to	NN	O	O
-a	NN	O	O
-slightly	NN	O	O
-different	NN	O	O
-equation	NN	O	O
-of	NN	O	O
-Monge	NN	O	B-Process
-–	NN	O	I-Process
-Ampère	NN	O	I-Process
-type	NN	O	O
-,	NN	O	O
-which	NN	O	O
-has	NN	O	O
-not	NN	O	O
-before	NN	O	O
-been	NN	O	O
-solved	NN	O	O
-numerically	NN	O	O
-on	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-of	NN	O	O
-a	NN	O	O
-sphere	NN	O	B-Material
-,	NN	O	O
-which	NN	O	O
-would	NN	O	O
-be	NN	O	O
-necessary	NN	O	O
-for	NN	O	O
-weather	NN	O	B-Task
-and	NN	O	I-Task
-climate	NN	O	I-Task
-prediction	NN	O	I-Task
-using	NN	O	O
-r	NN	O	B-Process
--	NN	O	I-Process
-adaptivity	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+need	4	8	O
+to	9	11	O
+represent	12	21	B-Task
+scale	22	27	I-Task
+interactions	28	40	I-Task
+in	41	43	O
+weather	44	51	B-Process
+and	52	55	I-Process
+climate	56	63	I-Process
+prediction	64	74	I-Process
+models	75	81	I-Process
+has	82	85	O
+,	85	86	O
+for	87	90	O
+many	91	95	O
+decades	96	103	O
+,	103	104	O
+motivated	105	114	O
+research	115	123	O
+into	124	128	O
+the	129	132	O
+use	133	136	O
+of	137	139	O
+adaptive	140	148	B-Material
+meshes	149	155	I-Material
+[	156	157	O
+3,34,38	157	164	O
+]	164	165	O
+.	165	166	O
+
+R	167	168	B-Process
+-	168	169	I-Process
+adaptivity	169	179	I-Process
+–	180	181	O
+mesh	182	186	B-Process
+redistribution	187	201	I-Process
+–	202	203	O
+involves	204	212	O
+deforming	213	222	B-Process
+a	223	224	I-Process
+mesh	225	229	I-Process
+in	230	232	O
+order	233	238	O
+to	239	241	O
+vary	242	246	O
+local	247	252	O
+resolution	253	263	O
+and	264	267	O
+was	268	271	O
+first	272	277	O
+considered	278	288	O
+for	289	292	O
+atmospheric	293	304	B-Process
+modelling	305	314	I-Process
+more	315	319	O
+than	320	324	O
+twenty	325	331	O
+years	332	337	O
+ago	338	341	O
+by	342	344	O
+Dietachmayer	345	357	O
+and	358	361	O
+Droegemeier	362	373	O
+
+[	374	375	O
+14	375	377	O
+]	377	378	O
+.	378	379	O
+
+It	380	382	O
+is	383	385	O
+an	386	388	O
+attractive	389	399	O
+form	400	404	O
+of	405	407	O
+adaptivity	408	418	B-Process
+since	419	424	O
+it	425	427	O
+does	428	432	O
+not	433	436	O
+involve	437	444	O
+altering	445	453	B-Process
+the	454	457	I-Process
+mesh	458	462	I-Process
+connectivity	463	475	I-Process
+,	475	476	O
+does	477	481	O
+not	482	485	O
+create	486	492	O
+load	493	497	O
+balancing	498	507	O
+problems	508	516	O
+because	517	524	O
+points	525	531	O
+are	532	535	O
+never	536	541	O
+created	542	549	O
+or	550	552	O
+destroyed	553	562	O
+,	562	563	O
+does	564	568	O
+not	569	572	O
+require	573	580	O
+mapping	581	588	B-Process
+of	589	591	I-Process
+solutions	592	601	I-Process
+between	602	609	I-Process
+meshes	610	616	I-Process
+[	617	618	O
+26	618	620	O
+]	620	621	O
+,	621	622	O
+does	623	627	O
+not	628	631	O
+lead	632	636	O
+to	637	639	O
+sudden	640	646	O
+changes	647	654	O
+in	655	657	O
+resolution	658	668	O
+and	669	672	O
+can	673	676	O
+be	677	679	O
+retro	680	685	O
+-	685	686	O
+fitted	686	692	O
+into	693	697	O
+existing	698	706	O
+models	707	713	O
+.	713	714	O
+
+Variational	715	726	B-Process
+methods	727	734	I-Process
+exist	735	740	O
+which	741	746	O
+attempt	747	754	O
+to	755	757	O
+control	758	765	B-Task
+resolution	766	776	I-Task
+in	777	779	I-Task
+different	780	789	I-Task
+directions	790	800	I-Task
+for	801	804	I-Task
+r	805	806	I-Task
+-	806	807	I-Task
+adaptive	807	815	I-Task
+meshes	816	822	I-Task
+(	823	824	O
+e.g.	824	828	O
+[	829	830	O
+23,25	830	835	O
+]	835	836	O
+)	836	837	O
+.	837	838	O
+
+Alternatively	839	852	O
+,	852	853	O
+the	854	857	O
+solution	858	866	O
+of	867	869	O
+the	870	873	O
+Monge	874	879	B-Process
+–	879	880	I-Process
+Ampère	880	886	I-Process
+equation	887	895	I-Process
+to	896	898	O
+generate	899	907	O
+an	908	910	O
+optimally	911	920	B-Material
+transported	921	932	I-Material
+(	933	934	I-Material
+OT	934	936	I-Material
+)	936	937	I-Material
+mesh	938	942	I-Material
+based	943	948	O
+on	949	951	O
+a	952	953	O
+scalar	954	960	B-Process
+valued	961	967	I-Process
+monitor	968	975	I-Process
+function	976	984	I-Process
+is	985	987	O
+a	988	989	O
+useful	990	996	O
+form	997	1001	O
+of	1002	1004	O
+r	1005	1006	B-Process
+-	1006	1007	I-Process
+adaptive	1007	1015	I-Process
+mesh	1016	1020	I-Process
+generation	1021	1031	I-Process
+because	1032	1039	O
+it	1040	1042	O
+generates	1043	1052	O
+a	1053	1054	O
+mesh	1055	1059	B-Material
+equidistributed	1060	1075	O
+with	1076	1080	O
+respect	1081	1088	O
+to	1089	1091	O
+a	1092	1093	O
+monitor	1094	1101	B-Process
+function	1102	1110	I-Process
+and	1111	1114	O
+does	1115	1119	O
+not	1120	1123	O
+lead	1124	1128	O
+to	1129	1131	O
+mesh	1132	1136	B-Process
+tangling	1137	1145	I-Process
+[	1146	1147	O
+7	1147	1148	O
+]	1148	1149	O
+.	1149	1150	O
+
+We	1151	1153	O
+will	1154	1158	O
+see	1159	1162	O
+that	1163	1167	O
+the	1168	1171	O
+optimal	1172	1179	B-Task
+transport	1180	1189	I-Task
+problem	1190	1197	I-Task
+on	1198	1200	I-Task
+the	1201	1204	I-Task
+sphere	1205	1211	I-Task
+leads	1212	1217	O
+to	1218	1220	O
+a	1221	1222	O
+slightly	1223	1231	O
+different	1232	1241	O
+equation	1242	1250	O
+of	1251	1253	O
+Monge	1254	1259	B-Process
+–	1259	1260	I-Process
+Ampère	1260	1266	I-Process
+type	1267	1271	O
+,	1271	1272	O
+which	1273	1278	O
+has	1279	1282	O
+not	1283	1286	O
+before	1287	1293	O
+been	1294	1298	O
+solved	1299	1305	O
+numerically	1306	1317	O
+on	1318	1320	O
+the	1321	1324	O
+surface	1325	1332	O
+of	1333	1335	O
+a	1336	1337	O
+sphere	1338	1344	B-Material
+,	1344	1345	O
+which	1346	1351	O
+would	1352	1357	O
+be	1358	1360	O
+necessary	1361	1370	O
+for	1371	1374	O
+weather	1375	1382	B-Task
+and	1383	1386	I-Task
+climate	1387	1394	I-Task
+prediction	1395	1405	I-Task
+using	1406	1411	O
+r	1412	1413	B-Process
+-	1413	1414	I-Process
+adaptivity	1414	1424	I-Process
+.	1424	1425	O
 
 
 -DOCSTART- (S0022311513010313)
 
-The	NN	O	O
-four	NN	O	O
-bounding	NN	O	B-Material
-PCM	NN	O	I-Material
-wastes	NN	O	I-Material
-,	NN	O	O
-given	NN	O	O
-in	NN	O	O
-Table	NN	O	O
-1	NN	O	O
-,	NN	O	O
-were	NN	O	O
-simulated	NN	O	O
-using	NN	O	O
-the	NN	O	O
-most	NN	O	O
-appropriate	NN	O	O
-materials	NN	O	O
-and	NN	O	O
-geometries	NN	O	O
-.	NN	O	O
-
-“	NN	O	B-Material
-Mock	NN	O	I-Material
-up	NN	O	I-Material
-”	NN	O	I-Material
-PCM	NN	O	I-Material
-drums	NN	O	I-Material
-were	NN	O	O
-assembled	NN	O	O
-using	NN	O	O
-the	NN	O	O
-following	NN	O	O
-components	NN	O	O
-:	NN	O	O
-PCM	NN	O	B-Material
-drums	NN	O	I-Material
-were	NN	O	O
-simulated	NN	O	O
-using	NN	O	O
-mild	NN	O	B-Material
-steel	NN	O	I-Material
-paint	NN	O	I-Material
-cans	NN	O	I-Material
-and	NN	O	I-Material
-lids	NN	O	I-Material
-(	NN	O	O
-Fenton	NN	O	O
-Packaging	NN	O	O
-Ltd.	NN	O	O
-)	NN	O	O
-;	NN	O	O
-PVC	NN	O	B-Material
-bags	NN	O	I-Material
-were	NN	O	O
-replicated	NN	O	O
-using	NN	O	O
-identical	NN	O	B-Material
-PVC	NN	O	I-Material
-sheeting	NN	O	I-Material
-(	NN	O	O
-Romar	NN	O	O
-Workwear	NN	O	O
-Ltd.	NN	O	O
-)	NN	O	O
-;	NN	O	O
-the	NN	O	O
-metallic	NN	O	B-Material
-waste	NN	O	I-Material
-was	NN	O	O
-simulated	NN	O	O
-using	NN	O	O
-commercial	NN	O	B-Material
-grade	NN	O	I-Material
-18/8	NN	O	I-Material
-stainless	NN	O	I-Material
-steel	NN	O	I-Material
-,	NN	O	O
-aluminium	NN	O	B-Material
-and	NN	O	O
-copper	NN	O	B-Material
-(	NN	O	O
-Avus	NN	O	O
-Metals	NN	O	O
-&	NN	O	O
-Plastics	NN	O	O
-Ltd.	NN	O	O
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-lead	NN	O	B-Material
-shot	NN	O	I-Material
-(	NN	O	O
-Aldrich	NN	O	O
-)	NN	O	O
-;	NN	O	O
-the	NN	O	O
-inorganic	NN	O	B-Material
-waste	NN	O	I-Material
-was	NN	O	O
-simulated	NN	O	O
-using	NN	O	O
-waste	NN	O	B-Material
-Pyrex	NN	O	I-Material
-labware	NN	O	I-Material
-,	NN	O	O
-crushed	NN	O	O
-masonry	NN	O	B-Material
-,	NN	O	O
-concrete	NN	O	B-Material
-and	NN	O	O
-window	NN	O	B-Material
-glass	NN	O	I-Material
-;	NN	O	O
-CeO2	NN	O	B-Material
-(	NN	O	O
-from	NN	O	O
-Acros	NN	O	O
-Organics	NN	O	O
-,	NN	O	O
->	NN	O	O
-99.9	NN	O	O
-%	NN	O	O
-;	NN	O	O
-dried	NN	O	O
-15h	NN	O	O
-at	NN	O	O
-600	NN	O	O
-°	NN	O	O
-C	NN	O	O
-)	NN	O	O
-was	NN	O	O
-used	NN	O	O
-as	NN	O	O
-a	NN	O	O
-PuO2	NN	O	B-Material
-surrogate	NN	O	I-Material
-.	NN	O	O
-
-Commercially	NN	O	O
-available	NN	O	O
-ground	NN	O	O
-,	NN	O	O
-granulated	NN	O	O
-blast	NN	O	B-Material
--	NN	O	I-Material
-furnace	NN	O	I-Material
-slag	NN	O	I-Material
-“	NN	O	I-Material
-Calumite	NN	O	I-Material
-”	NN	O	I-Material
-was	NN	O	O
-used	NN	O	O
-as	NN	O	O
-an	NN	O	O
-additive	NN	O	O
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-analysed	NN	O	O
-chemical	NN	O	O
-composition	NN	O	O
-is	NN	O	O
-given	NN	O	O
-in	NN	O	O
-Table	NN	O	O
-3	NN	O	O
-.	NN	O	O
-
-Calumite	NN	O	B-Material
-is	NN	O	O
-a	NN	O	O
-powdered	NN	O	B-Material
-material	NN	O	I-Material
-,	NN	O	O
-with	NN	O	O
-a	NN	O	O
-typical	NN	O	O
-particle	NN	O	B-Material
-size	NN	O	O
-distribution	NN	O	O
-between	NN	O	O
-limits	NN	O	O
-of	NN	O	O
-ca	NN	O	O
-.	NN	O	O
-
-40	NN	O	O
-to	NN	O	O
-ca	NN	O	O
-.	NN	O	O
-
-400μm	NN	O	O
-.	NN	O	O
+The	0	3	O
+four	4	8	O
+bounding	9	17	B-Material
+PCM	18	21	I-Material
+wastes	22	28	I-Material
+,	28	29	O
+given	30	35	O
+in	36	38	O
+Table	39	44	O
+1	45	46	O
+,	46	47	O
+were	48	52	O
+simulated	53	62	O
+using	63	68	O
+the	69	72	O
+most	73	77	O
+appropriate	78	89	O
+materials	90	99	O
+and	100	103	O
+geometries	104	114	O
+.	114	115	O
+
+“	116	117	B-Material
+Mock	117	121	I-Material
+up	122	124	I-Material
+”	124	125	I-Material
+PCM	126	129	I-Material
+drums	130	135	I-Material
+were	136	140	O
+assembled	141	150	O
+using	151	156	O
+the	157	160	O
+following	161	170	O
+components	171	181	O
+:	181	182	O
+PCM	183	186	B-Material
+drums	187	192	I-Material
+were	193	197	O
+simulated	198	207	O
+using	208	213	O
+mild	214	218	B-Material
+steel	219	224	I-Material
+paint	225	230	I-Material
+cans	231	235	I-Material
+and	236	239	I-Material
+lids	240	244	I-Material
+(	245	246	O
+Fenton	246	252	O
+Packaging	253	262	O
+Ltd.	263	267	O
+)	267	268	O
+;	268	269	O
+PVC	270	273	B-Material
+bags	274	278	I-Material
+were	279	283	O
+replicated	284	294	O
+using	295	300	O
+identical	301	310	B-Material
+PVC	311	314	I-Material
+sheeting	315	323	I-Material
+(	324	325	O
+Romar	325	330	O
+Workwear	331	339	O
+Ltd.	340	344	O
+)	344	345	O
+;	345	346	O
+the	347	350	O
+metallic	351	359	B-Material
+waste	360	365	I-Material
+was	366	369	O
+simulated	370	379	O
+using	380	385	O
+commercial	386	396	B-Material
+grade	397	402	I-Material
+18/8	403	407	I-Material
+stainless	408	417	I-Material
+steel	418	423	I-Material
+,	423	424	O
+aluminium	425	434	B-Material
+and	435	438	O
+copper	439	445	B-Material
+(	446	447	O
+Avus	447	451	O
+Metals	452	458	O
+&	459	460	O
+Plastics	461	469	O
+Ltd.	470	474	O
+)	474	475	O
+,	475	476	O
+and	477	480	O
+lead	481	485	B-Material
+shot	486	490	I-Material
+(	491	492	O
+Aldrich	492	499	O
+)	499	500	O
+;	500	501	O
+the	502	505	O
+inorganic	506	515	B-Material
+waste	516	521	I-Material
+was	522	525	O
+simulated	526	535	O
+using	536	541	O
+waste	542	547	B-Material
+Pyrex	548	553	I-Material
+labware	554	561	I-Material
+,	561	562	O
+crushed	563	570	O
+masonry	571	578	B-Material
+,	578	579	O
+concrete	580	588	B-Material
+and	589	592	O
+window	593	599	B-Material
+glass	600	605	I-Material
+;	605	606	O
+CeO2	607	611	B-Material
+(	612	613	O
+from	613	617	O
+Acros	618	623	O
+Organics	624	632	O
+,	632	633	O
+>	634	635	O
+99.9	635	639	O
+%	639	640	O
+;	640	641	O
+dried	642	647	O
+15h	648	651	O
+at	652	654	O
+600	655	658	O
+°	658	659	O
+C	659	660	O
+)	660	661	O
+was	662	665	O
+used	666	670	O
+as	671	673	O
+a	674	675	O
+PuO2	676	680	B-Material
+surrogate	681	690	I-Material
+.	690	691	O
+
+Commercially	692	704	O
+available	705	714	O
+ground	715	721	O
+,	721	722	O
+granulated	723	733	O
+blast	734	739	B-Material
+-	739	740	I-Material
+furnace	740	747	I-Material
+slag	748	752	I-Material
+“	753	754	I-Material
+Calumite	754	762	I-Material
+”	762	763	I-Material
+was	764	767	O
+used	768	772	O
+as	773	775	O
+an	776	778	O
+additive	779	787	O
+[	788	789	O
+27	789	791	O
+]	791	792	O
+.	792	793	O
+
+The	794	797	O
+analysed	798	806	O
+chemical	807	815	O
+composition	816	827	O
+is	828	830	O
+given	831	836	O
+in	837	839	O
+Table	840	845	O
+3	846	847	O
+.	847	848	O
+
+Calumite	849	857	B-Material
+is	858	860	O
+a	861	862	O
+powdered	863	871	B-Material
+material	872	880	I-Material
+,	880	881	O
+with	882	886	O
+a	887	888	O
+typical	889	896	O
+particle	897	905	B-Material
+size	906	910	O
+distribution	911	923	O
+between	924	931	O
+limits	932	938	O
+of	939	941	O
+ca	942	944	O
+.	944	945	O
+
+40	946	948	O
+to	949	951	O
+ca	952	954	O
+.	954	955	O
+
+400μm	956	961	O
+.	961	962	O
 
 
 -DOCSTART- (S0022311513011422)
 
-There	NN	O	O
-is	NN	O	O
-still	NN	O	O
-some	NN	O	O
-debate	NN	O	O
-about	NN	O	O
-the	NN	O	O
-crystal	NN	O	B-Material
-structure	NN	O	O
-and	NN	O	O
-composition	NN	O	O
-of	NN	O	O
-the	NN	O	O
-fine	NN	O	B-Material
-oxides	NN	O	I-Material
-found	NN	O	O
-in	NN	O	O
-ODS	NN	O	B-Material
-steels	NN	O	I-Material
-and	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-different	NN	O	O
-phases	NN	O	O
-have	NN	O	O
-been	NN	O	O
-both	NN	O	O
-proposed	NN	O	O
-and	NN	O	O
-identified	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-complete	NN	O	B-Task
-characterisation	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-oxide	NN	O	I-Task
-particles	NN	O	I-Task
-,	NN	O	O
-including	NN	O	O
-crystal	NN	O	B-Material
-structure	NN	O	O
-and	NN	O	O
-composition	NN	O	O
-,	NN	O	O
-is	NN	O	O
-needed	NN	O	O
-as	NN	O	O
-different	NN	O	O
-phases	NN	O	O
-and	NN	O	O
-chemical	NN	O	O
-variants	NN	O	O
-of	NN	O	O
-a	NN	O	O
-single	NN	O	O
-structure	NN	O	O
-have	NN	O	O
-been	NN	O	O
-shown	NN	O	O
-to	NN	O	O
-respond	NN	O	O
-differently	NN	O	O
-to	NN	O	O
-high	NN	O	O
-temperatures	NN	O	O
-and	NN	O	O
-irradiation	NN	O	B-Process
-.	NN	O	O
-
-Ribis	NN	O	O
-and	NN	O	O
-de	NN	O	O
-Carlan	NN	O	O
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-have	NN	O	O
-studied	NN	O	O
-the	NN	O	O
-coarsening	NN	O	O
-characteristics	NN	O	O
-of	NN	O	O
-Y2O3	NN	O	B-Material
-and	NN	O	O
-Y2Ti2O7	NN	O	B-Material
-oxides	NN	O	I-Material
-at	NN	O	O
-high	NN	O	O
-temperatures	NN	O	O
-.	NN	O	O
-
-They	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-increase	NN	O	O
-in	NN	O	O
-particle	NN	O	B-Material
-size	NN	O	O
-is	NN	O	O
-greater	NN	O	O
-for	NN	O	O
-the	NN	O	O
-non	NN	O	O
--	NN	O	O
-Ti	NN	O	B-Material
-containing	NN	O	O
-phase	NN	O	O
-.	NN	O	O
-
-Similarly	NN	O	O
-,	NN	O	O
-Ratti	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-,	NN	O	O
-although	NN	O	O
-they	NN	O	O
-do	NN	O	O
-not	NN	O	O
-allude	NN	O	O
-to	NN	O	O
-specific	NN	O	O
-oxide	NN	O	B-Material
-phases	NN	O	O
-,	NN	O	O
-have	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-small	NN	O	O
-Ti	NN	O	B-Material
-additions	NN	O	O
-to	NN	O	O
-an	NN	O	O
-18%Cr	NN	O	B-Material
-ODS	NN	O	I-Material
-alloy	NN	O	I-Material
-dramatically	NN	O	O
-reduces	NN	O	O
-the	NN	O	O
-coarsening	NN	O	B-Process
-rates	NN	O	I-Process
-of	NN	O	O
-dispersoids	NN	O	B-Material
-when	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-an	NN	O	O
-equivalent	NN	O	O
-alloy	NN	O	B-Material
-without	NN	O	O
-titanium	NN	O	B-Material
-.	NN	O	O
-
-For	NN	O	O
-example	NN	O	O
-,	NN	O	O
-Ribis	NN	O	O
-indicates	NN	O	O
-that	NN	O	O
-coarsening	NN	O	B-Process
-rates	NN	O	I-Process
-may	NN	O	O
-be	NN	O	O
-controlled	NN	O	O
-by	NN	O	O
-interfacial	NN	O	O
-energy	NN	O	O
-between	NN	O	O
-the	NN	O	O
-secondary	NN	O	O
-phase	NN	O	O
-particles	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-matrix	NN	O	B-Material
-;	NN	O	O
-he	NN	O	O
-points	NN	O	O
-out	NN	O	O
-that	NN	O	O
-the	NN	O	O
-resistance	NN	O	O
-to	NN	O	O
-coarsening	NN	O	O
-observed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-Y	NN	O	B-Material
-,	NN	O	O
-Ti	NN	O	B-Material
-,	NN	O	O
-O	NN	O	B-Material
-system	NN	O	O
-is	NN	O	O
-probably	NN	O	O
-the	NN	O	O
-result	NN	O	O
-of	NN	O	O
-a	NN	O	O
-very	NN	O	O
-low	NN	O	O
-interface	NN	O	O
-energy	NN	O	O
-and	NN	O	O
-this	NN	O	O
-would	NN	O	O
-differ	NN	O	O
-from	NN	O	O
-one	NN	O	O
-phase	NN	O	O
-to	NN	O	O
-another	NN	O	O
-.	NN	O	O
-
-Whittle	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-have	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-pyrochlore	NN	O	B-Material
-and	NN	O	O
-structures	NN	O	O
-closely	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-pyrochlore	NN	O	B-Material
-structure	NN	O	O
-respond	NN	O	O
-in	NN	O	O
-different	NN	O	O
-ways	NN	O	O
-to	NN	O	O
-irradiation	NN	O	B-Process
-.	NN	O	O
-
-They	NN	O	O
-revealed	NN	O	O
-that	NN	O	O
-oxide	NN	O	B-Material
-structure	NN	O	O
-and	NN	O	O
-variations	NN	O	O
-in	NN	O	O
-composition	NN	O	O
-can	NN	O	O
-affect	NN	O	O
-their	NN	O	O
-ability	NN	O	O
-to	NN	O	O
-withstand	NN	O	O
-and	NN	O	O
-recover	NN	O	O
-from	NN	O	O
-irradiation	NN	O	B-Process
-induced	NN	O	O
-damage	NN	O	O
-.	NN	O	O
+There	0	5	O
+is	6	8	O
+still	9	14	O
+some	15	19	O
+debate	20	26	O
+about	27	32	O
+the	33	36	O
+crystal	37	44	B-Material
+structure	45	54	O
+and	55	58	O
+composition	59	70	O
+of	71	73	O
+the	74	77	O
+fine	78	82	B-Material
+oxides	83	89	I-Material
+found	90	95	O
+in	96	98	O
+ODS	99	102	B-Material
+steels	103	109	I-Material
+and	110	113	O
+a	114	115	O
+number	116	122	O
+of	123	125	O
+different	126	135	O
+phases	136	142	O
+have	143	147	O
+been	148	152	O
+both	153	157	O
+proposed	158	166	O
+and	167	170	O
+identified	171	181	O
+.	181	182	O
+
+A	183	184	O
+complete	185	193	B-Task
+characterisation	194	210	I-Task
+of	211	213	I-Task
+the	214	217	I-Task
+oxide	218	223	I-Task
+particles	224	233	I-Task
+,	233	234	O
+including	235	244	O
+crystal	245	252	B-Material
+structure	253	262	O
+and	263	266	O
+composition	267	278	O
+,	278	279	O
+is	280	282	O
+needed	283	289	O
+as	290	292	O
+different	293	302	O
+phases	303	309	O
+and	310	313	O
+chemical	314	322	O
+variants	323	331	O
+of	332	334	O
+a	335	336	O
+single	337	343	O
+structure	344	353	O
+have	354	358	O
+been	359	363	O
+shown	364	369	O
+to	370	372	O
+respond	373	380	O
+differently	381	392	O
+to	393	395	O
+high	396	400	O
+temperatures	401	413	O
+and	414	417	O
+irradiation	418	429	B-Process
+.	429	430	O
+
+Ribis	431	436	O
+and	437	440	O
+de	441	443	O
+Carlan	444	450	O
+[	451	452	O
+6	452	453	O
+]	453	454	O
+have	455	459	O
+studied	460	467	O
+the	468	471	O
+coarsening	472	482	O
+characteristics	483	498	O
+of	499	501	O
+Y2O3	502	506	B-Material
+and	507	510	O
+Y2Ti2O7	511	518	B-Material
+oxides	519	525	I-Material
+at	526	528	O
+high	529	533	O
+temperatures	534	546	O
+.	546	547	O
+
+They	548	552	O
+show	553	557	O
+that	558	562	O
+the	563	566	O
+increase	567	575	O
+in	576	578	O
+particle	579	587	B-Material
+size	588	592	O
+is	593	595	O
+greater	596	603	O
+for	604	607	O
+the	608	611	O
+non	612	615	O
+-	615	616	O
+Ti	616	618	B-Material
+containing	619	629	O
+phase	630	635	O
+.	635	636	O
+
+Similarly	637	646	O
+,	646	647	O
+Ratti	648	653	O
+et	654	656	O
+al	657	659	O
+.	659	660	O
+
+[	661	662	O
+9	662	663	O
+]	663	664	O
+,	664	665	O
+although	666	674	O
+they	675	679	O
+do	680	682	O
+not	683	686	O
+allude	687	693	O
+to	694	696	O
+specific	697	705	O
+oxide	706	711	B-Material
+phases	712	718	O
+,	718	719	O
+have	720	724	O
+shown	725	730	O
+that	731	735	O
+small	736	741	O
+Ti	742	744	B-Material
+additions	745	754	O
+to	755	757	O
+an	758	760	O
+18%Cr	761	766	B-Material
+ODS	767	770	I-Material
+alloy	771	776	I-Material
+dramatically	777	789	O
+reduces	790	797	O
+the	798	801	O
+coarsening	802	812	B-Process
+rates	813	818	I-Process
+of	819	821	O
+dispersoids	822	833	B-Material
+when	834	838	O
+compared	839	847	O
+to	848	850	O
+an	851	853	O
+equivalent	854	864	O
+alloy	865	870	B-Material
+without	871	878	O
+titanium	879	887	B-Material
+.	887	888	O
+
+For	889	892	O
+example	893	900	O
+,	900	901	O
+Ribis	902	907	O
+indicates	908	917	O
+that	918	922	O
+coarsening	923	933	B-Process
+rates	934	939	I-Process
+may	940	943	O
+be	944	946	O
+controlled	947	957	O
+by	958	960	O
+interfacial	961	972	O
+energy	973	979	O
+between	980	987	O
+the	988	991	O
+secondary	992	1001	O
+phase	1002	1007	O
+particles	1008	1017	B-Material
+and	1018	1021	O
+the	1022	1025	O
+matrix	1026	1032	B-Material
+;	1032	1033	O
+he	1034	1036	O
+points	1037	1043	O
+out	1044	1047	O
+that	1048	1052	O
+the	1053	1056	O
+resistance	1057	1067	O
+to	1068	1070	O
+coarsening	1071	1081	O
+observed	1082	1090	O
+in	1091	1093	O
+the	1094	1097	O
+Y	1098	1099	B-Material
+,	1099	1100	O
+Ti	1101	1103	B-Material
+,	1103	1104	O
+O	1105	1106	B-Material
+system	1107	1113	O
+is	1114	1116	O
+probably	1117	1125	O
+the	1126	1129	O
+result	1130	1136	O
+of	1137	1139	O
+a	1140	1141	O
+very	1142	1146	O
+low	1147	1150	O
+interface	1151	1160	O
+energy	1161	1167	O
+and	1168	1171	O
+this	1172	1176	O
+would	1177	1182	O
+differ	1183	1189	O
+from	1190	1194	O
+one	1195	1198	O
+phase	1199	1204	O
+to	1205	1207	O
+another	1208	1215	O
+.	1215	1216	O
+
+Whittle	1217	1224	O
+et	1225	1227	O
+al	1228	1230	O
+.	1230	1231	O
+
+[	1232	1233	O
+10	1233	1235	O
+]	1235	1236	O
+have	1237	1241	O
+shown	1242	1247	O
+that	1248	1252	O
+pyrochlore	1253	1263	B-Material
+and	1264	1267	O
+structures	1268	1278	O
+closely	1279	1286	O
+related	1287	1294	O
+to	1295	1297	O
+the	1298	1301	O
+pyrochlore	1302	1312	B-Material
+structure	1313	1322	O
+respond	1323	1330	O
+in	1331	1333	O
+different	1334	1343	O
+ways	1344	1348	O
+to	1349	1351	O
+irradiation	1352	1363	B-Process
+.	1363	1364	O
+
+They	1365	1369	O
+revealed	1370	1378	O
+that	1379	1383	O
+oxide	1384	1389	B-Material
+structure	1390	1399	O
+and	1400	1403	O
+variations	1404	1414	O
+in	1415	1417	O
+composition	1418	1429	O
+can	1430	1433	O
+affect	1434	1440	O
+their	1441	1446	O
+ability	1447	1454	O
+to	1455	1457	O
+withstand	1458	1467	O
+and	1468	1471	O
+recover	1472	1479	O
+from	1480	1484	O
+irradiation	1485	1496	B-Process
+induced	1497	1504	O
+damage	1505	1511	O
+.	1511	1512	O
 
 
 -DOCSTART- (S0022311514006722)
 
-Zirconium	NN	O	B-Material
-alloys	NN	O	I-Material
-are	NN	O	O
-used	NN	O	O
-as	NN	O	O
-fuel	NN	O	O
-cladding	NN	O	O
-in	NN	O	O
-pressurised	NN	O	O
-and	NN	O	O
-boiling	NN	O	O
-water	NN	O	O
-nuclear	NN	O	B-Material
-reactors	NN	O	I-Material
-.	NN	O	O
-
-As	NN	O	O
-such	NN	O	O
-these	NN	O	O
-materials	NN	O	O
-are	NN	O	O
-exposed	NN	O	O
-to	NN	O	O
-a	NN	O	O
-large	NN	O	O
-number	NN	O	O
-of	NN	O	O
-environmental	NN	O	O
-factors	NN	O	O
-that	NN	O	O
-will	NN	O	O
-promote	NN	O	O
-degradation	NN	O	B-Process
-mechanisms	NN	O	I-Process
-such	NN	O	O
-as	NN	O	O
-oxidation	NN	O	B-Process
-.	NN	O	O
-
-At	NN	O	O
-high	NN	O	O
-burn	NN	O	O
--	NN	O	O
-ups	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-extended	NN	O	O
-service	NN	O	O
-life	NN	O	O
-,	NN	O	O
-oxidation	NN	O	B-Process
-and	NN	O	O
-the	NN	O	O
-associated	NN	O	O
-hydrogen	NN	O	B-Process
-pick	NN	O	I-Process
--	NN	O	I-Process
-up	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-a	NN	O	O
-limiting	NN	O	O
-factor	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-fuel	NN	O	B-Material
-efficiency	NN	O	O
-and	NN	O	O
-safety	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-oxidation	NN	O	B-Process
-kinetics	NN	O	O
-for	NN	O	O
-many	NN	O	O
-zirconium	NN	O	B-Material
-alloys	NN	O	I-Material
-are	NN	O	O
-cyclical	NN	O	O
-,	NN	O	O
-demonstrating	NN	O	O
-a	NN	O	O
-series	NN	O	O
-of	NN	O	O
-approximately	NN	O	O
-cubic	NN	O	O
-kinetic	NN	O	O
-curves	NN	O	O
-separated	NN	O	O
-by	NN	O	O
-transitions	NN	O	O
-[	NN	O	O
-1–5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-transitions	NN	O	O
-are	NN	O	O
-typified	NN	O	O
-by	NN	O	O
-a	NN	O	O
-breakdown	NN	O	O
-in	NN	O	O
-the	NN	O	O
-protective	NN	O	O
-character	NN	O	O
-of	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-and	NN	O	O
-are	NN	O	O
-potentially	NN	O	O
-linked	NN	O	O
-to	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-mechanical	NN	O	O
-issues	NN	O	O
-.	NN	O	O
-
-Understanding	NN	O	B-Task
-how	NN	O	I-Task
-these	NN	O	I-Task
-issues	NN	O	I-Task
-influence	NN	O	I-Task
-oxidation	NN	O	I-Task
-is	NN	O	O
-a	NN	O	O
-key	NN	O	O
-to	NN	O	O
-developing	NN	O	B-Task
-a	NN	O	I-Task
-full	NN	O	I-Task
-mechanistic	NN	O	I-Task
-understanding	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-corrosion	NN	O	I-Task
-process	NN	O	I-Task
-.	NN	O	O
+Zirconium	0	9	B-Material
+alloys	10	16	I-Material
+are	17	20	O
+used	21	25	O
+as	26	28	O
+fuel	29	33	O
+cladding	34	42	O
+in	43	45	O
+pressurised	46	57	O
+and	58	61	O
+boiling	62	69	O
+water	70	75	O
+nuclear	76	83	B-Material
+reactors	84	92	I-Material
+.	92	93	O
+
+As	94	96	O
+such	97	101	O
+these	102	107	O
+materials	108	117	O
+are	118	121	O
+exposed	122	129	O
+to	130	132	O
+a	133	134	O
+large	135	140	O
+number	141	147	O
+of	148	150	O
+environmental	151	164	O
+factors	165	172	O
+that	173	177	O
+will	178	182	O
+promote	183	190	O
+degradation	191	202	B-Process
+mechanisms	203	213	I-Process
+such	214	218	O
+as	219	221	O
+oxidation	222	231	B-Process
+.	231	232	O
+
+At	233	235	O
+high	236	240	O
+burn	241	245	O
+-	245	246	O
+ups	246	249	O
+,	249	250	O
+i.e.	251	255	O
+extended	256	264	O
+service	265	272	O
+life	273	277	O
+,	277	278	O
+oxidation	279	288	B-Process
+and	289	292	O
+the	293	296	O
+associated	297	307	O
+hydrogen	308	316	B-Process
+pick	317	321	I-Process
+-	321	322	I-Process
+up	322	324	I-Process
+can	325	328	O
+be	329	331	O
+a	332	333	O
+limiting	334	342	O
+factor	343	349	O
+in	350	352	O
+terms	353	358	O
+of	359	361	O
+fuel	362	366	B-Material
+efficiency	367	377	O
+and	378	381	O
+safety	382	388	O
+.	388	389	O
+
+The	390	393	O
+oxidation	394	403	B-Process
+kinetics	404	412	O
+for	413	416	O
+many	417	421	O
+zirconium	422	431	B-Material
+alloys	432	438	I-Material
+are	439	442	O
+cyclical	443	451	O
+,	451	452	O
+demonstrating	453	466	O
+a	467	468	O
+series	469	475	O
+of	476	478	O
+approximately	479	492	O
+cubic	493	498	O
+kinetic	499	506	O
+curves	507	513	O
+separated	514	523	O
+by	524	526	O
+transitions	527	538	O
+[	539	540	O
+1–5	540	543	O
+]	543	544	O
+.	544	545	O
+
+These	546	551	O
+transitions	552	563	O
+are	564	567	O
+typified	568	576	O
+by	577	579	O
+a	580	581	O
+breakdown	582	591	O
+in	592	594	O
+the	595	598	O
+protective	599	609	O
+character	610	619	O
+of	620	622	O
+the	623	626	O
+oxide	627	632	B-Material
+and	633	636	O
+are	637	640	O
+potentially	641	652	O
+linked	653	659	O
+to	660	662	O
+a	663	664	O
+number	665	671	O
+of	672	674	O
+mechanical	675	685	O
+issues	686	692	O
+.	692	693	O
+
+Understanding	694	707	B-Task
+how	708	711	I-Task
+these	712	717	I-Task
+issues	718	724	I-Task
+influence	725	734	I-Task
+oxidation	735	744	I-Task
+is	745	747	O
+a	748	749	O
+key	750	753	O
+to	754	756	O
+developing	757	767	B-Task
+a	768	769	I-Task
+full	770	774	I-Task
+mechanistic	775	786	I-Task
+understanding	787	800	I-Task
+of	801	803	I-Task
+the	804	807	I-Task
+corrosion	808	817	I-Task
+process	818	825	I-Task
+.	825	826	O
 
 
 -DOCSTART- (S0022311514006941)
 
-The	NN	O	O
-formulation	NN	O	O
-in	NN	O	O
-Table	NN	O	O
-1	NN	O	O
-was	NN	O	O
-derived	NN	O	O
-by	NN	O	O
-an	NN	O	O
-empirical	NN	O	O
-approach	NN	O	O
-and	NN	O	O
-led	NN	O	O
-to	NN	O	O
-a	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-classical	NN	O	I-Material
-glass	NN	O	I-Material
-matrix	NN	O	I-Material
-.	NN	O	O
-
-Carter	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-and	NN	O	O
-Zhang	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-took	NN	O	O
-a	NN	O	O
-more	NN	O	O
-systematic	NN	O	O
-approach	NN	O	O
-to	NN	O	O
-such	NN	O	O
-glass	NN	O	B-Material
--	NN	O	I-Material
-ceramic	NN	O	I-Material
-wasteforms	NN	O	I-Material
-.	NN	O	O
-
-These	NN	O	O
-wasteforms	NN	O	O
-were	NN	O	O
-targeted	NN	O	O
-at	NN	O	O
-Hanford	NN	O	B-Material
-K	NN	O	I-Material
--	NN	O	I-Material
-basin	NN	O	I-Material
-sludges	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-immobilisation	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-primary	NN	O	I-Task
-waste	NN	O	I-Task
-stream	NN	O	I-Task
-from	NN	O	I-Task
-production	NN	O	I-Task
-of	NN	O	I-Task
-molybdenum-99	NN	O	I-Task
-at	NN	O	O
-the	NN	O	O
-Australian	NN	O	O
-Nuclear	NN	O	O
-Science	NN	O	O
-and	NN	O	O
-Technology	NN	O	O
-Organisation	NN	O	O
-site	NN	O	O
-in	NN	O	O
-Sydney	NN	O	O
-respectively	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-work	NN	O	O
-of	NN	O	O
-Carter	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-and	NN	O	O
-Zhang	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-the	NN	O	O
-intended	NN	O	O
-crystalline	NN	O	B-Material
-phase	NN	O	O
-was	NN	O	O
-the	NN	O	O
-closely	NN	O	O
-related	NN	O	O
-titanate	NN	O	B-Material
-pyrochlore	NN	O	I-Material
-,	NN	O	O
-CaUTi2O7	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-glass	NN	O	B-Material
-matrix	NN	O	I-Material
-was	NN	O	O
-formulated	NN	O	O
-such	NN	O	O
-that	NN	O	O
-the	NN	O	O
-trivalent	NN	O	O
-species	NN	O	O
-in	NN	O	O
-the	NN	O	O
-glass	NN	O	B-Material
-network	NN	O	I-Material
-,	NN	O	O
-boron	NN	O	B-Material
-and	NN	O	O
-aluminium	NN	O	B-Material
-,	NN	O	O
-were	NN	O	O
-charge	NN	O	O
-compensated	NN	O	O
-on	NN	O	O
-a	NN	O	O
-molar	NN	O	O
-basis	NN	O	O
-by	NN	O	O
-sodium	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-stoichiometric	NN	O	O
-composition	NN	O	O
-of	NN	O	O
-the	NN	O	O
-glass	NN	O	B-Material
-in	NN	O	O
-this	NN	O	O
-wasteform	NN	O	O
-was	NN	O	O
-Na2AlBSi6O16	NN	O	B-Material
-.	NN	O	O
-
-This	NN	O	O
-glass	NN	O	B-Material
-provides	NN	O	O
-a	NN	O	O
-method	NN	O	O
-by	NN	O	O
-which	NN	O	O
-the	NN	O	O
-glass	NN	O	B-Material
-composition	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-varied	NN	O	O
-systematically	NN	O	O
-.	NN	O	O
-
-Given	NN	O	O
-that	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-observations	NN	O	O
-inferred	NN	O	O
-an	NN	O	O
-important	NN	O	O
-role	NN	O	O
-played	NN	O	O
-by	NN	O	O
-alumina	NN	O	B-Material
-,	NN	O	O
-it	NN	O	O
-was	NN	O	O
-decided	NN	O	O
-to	NN	O	O
-prepare	NN	O	O
-a	NN	O	O
-suite	NN	O	O
-of	NN	O	O
-zirconolite	NN	O	B-Material
-glass	NN	O	I-Material
--	NN	O	I-Material
-ceramics	NN	O	I-Material
-in	NN	O	O
-which	NN	O	O
-the	NN	O	O
-glass	NN	O	B-Material
-matrix	NN	O	I-Material
-was	NN	O	O
-defined	NN	O	O
-by	NN	O	O
-Na2Al1+xB1–xSi6O16	NN	O	B-Material
-to	NN	O	O
-investigate	NN	O	B-Task
-the	NN	O	I-Task
-role	NN	O	I-Task
-played	NN	O	I-Task
-by	NN	O	I-Task
-glass	NN	O	I-Task
-composition	NN	O	I-Task
-in	NN	O	I-Task
-controlling	NN	O	I-Task
-crystalline	NN	O	I-Task
-phase	NN	O	I-Task
-stability	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-x=1	NN	O	O
-end	NN	O	O
-member	NN	O	O
-gives	NN	O	O
-the	NN	O	O
-mineral	NN	O	B-Material
-albite	NN	O	I-Material
-,	NN	O	O
-NaAlSi3O8	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-melting	NN	O	O
-point	NN	O	O
-of	NN	O	O
-albite	NN	O	B-Material
-is	NN	O	O
-1120	NN	O	O
-°	NN	O	O
-C	NN	O	O
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-and	NN	O	O
-the	NN	O	O
-composition	NN	O	O
-cools	NN	O	O
-to	NN	O	O
-a	NN	O	O
-glass	NN	O	B-Material
-at	NN	O	O
-the	NN	O	O
-cooling	NN	O	O
-rates	NN	O	O
-that	NN	O	O
-occur	NN	O	O
-during	NN	O	O
-a	NN	O	O
-HIP	NN	O	O
-cycle	NN	O	O
-.	NN	O	O
-
-From	NN	O	O
-the	NN	O	O
-available	NN	O	O
-phase	NN	O	O
-diagrams	NN	O	O
-,	NN	O	O
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-no	NN	O	O
-boron	NN	O	B-Material
-analogue	NN	O	O
-for	NN	O	O
-albite	NN	O	B-Material
-was	NN	O	O
-shown	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-liquidus	NN	O	O
-estimated	NN	O	O
-from	NN	O	O
-the	NN	O	O
-relevant	NN	O	O
-phase	NN	O	O
-diagram	NN	O	O
-is	NN	O	O
-1100–1200	NN	O	O
-°	NN	O	O
-C	NN	O	O
-.	NN	O	O
-
-No	NN	O	O
-phase	NN	O	O
-diagrams	NN	O	O
-for	NN	O	O
-the	NN	O	O
-quaternary	NN	O	O
-system	NN	O	O
-
-Na2O	NN	O	O
-
-–	NN	O	O
-
-Al2O3–B2O3–SiO2	NN	O	O
-could	NN	O	O
-be	NN	O	O
-found	NN	O	O
-.	NN	O	O
+The	0	3	O
+formulation	4	15	O
+in	16	18	O
+Table	19	24	O
+1	25	26	O
+was	27	30	O
+derived	31	38	O
+by	39	41	O
+an	42	44	O
+empirical	45	54	O
+approach	55	63	O
+and	64	67	O
+led	68	71	O
+to	72	74	O
+a	75	76	O
+non	77	80	B-Material
+-	80	81	I-Material
+classical	81	90	I-Material
+glass	91	96	I-Material
+matrix	97	103	I-Material
+.	103	104	O
+
+Carter	105	111	O
+et	112	114	O
+al	115	117	O
+.	117	118	O
+
+[	119	120	O
+3	120	121	O
+]	121	122	O
+and	123	126	O
+Zhang	127	132	O
+et	133	135	O
+al	136	138	O
+.	138	139	O
+
+[	140	141	O
+4	141	142	O
+]	142	143	O
+took	144	148	O
+a	149	150	O
+more	151	155	O
+systematic	156	166	O
+approach	167	175	O
+to	176	178	O
+such	179	183	O
+glass	184	189	B-Material
+-	189	190	I-Material
+ceramic	190	197	I-Material
+wasteforms	198	208	I-Material
+.	208	209	O
+
+These	210	215	O
+wasteforms	216	226	O
+were	227	231	O
+targeted	232	240	O
+at	241	243	O
+Hanford	244	251	B-Material
+K	252	253	I-Material
+-	253	254	I-Material
+basin	254	259	I-Material
+sludges	260	267	I-Material
+and	268	271	O
+the	272	275	O
+immobilisation	276	290	B-Task
+of	291	293	I-Task
+the	294	297	I-Task
+primary	298	305	I-Task
+waste	306	311	I-Task
+stream	312	318	I-Task
+from	319	323	I-Task
+production	324	334	I-Task
+of	335	337	I-Task
+molybdenum-99	338	351	I-Task
+at	352	354	O
+the	355	358	O
+Australian	359	369	O
+Nuclear	370	377	O
+Science	378	385	O
+and	386	389	O
+Technology	390	400	O
+Organisation	401	413	O
+site	414	418	O
+in	419	421	O
+Sydney	422	428	O
+respectively	429	441	O
+.	441	442	O
+
+In	443	445	O
+the	446	449	O
+work	450	454	O
+of	455	457	O
+Carter	458	464	O
+et	465	467	O
+al	468	470	O
+.	470	471	O
+
+and	472	475	O
+Zhang	476	481	O
+et	482	484	O
+al	485	487	O
+.	487	488	O
+
+the	489	492	O
+intended	493	501	O
+crystalline	502	513	B-Material
+phase	514	519	O
+was	520	523	O
+the	524	527	O
+closely	528	535	O
+related	536	543	O
+titanate	544	552	B-Material
+pyrochlore	553	563	I-Material
+,	563	564	O
+CaUTi2O7	565	573	B-Material
+.	573	574	O
+
+The	575	578	O
+glass	579	584	B-Material
+matrix	585	591	I-Material
+was	592	595	O
+formulated	596	606	O
+such	607	611	O
+that	612	616	O
+the	617	620	O
+trivalent	621	630	O
+species	631	638	O
+in	639	641	O
+the	642	645	O
+glass	646	651	B-Material
+network	652	659	I-Material
+,	659	660	O
+boron	661	666	B-Material
+and	667	670	O
+aluminium	671	680	B-Material
+,	680	681	O
+were	682	686	O
+charge	687	693	O
+compensated	694	705	O
+on	706	708	O
+a	709	710	O
+molar	711	716	O
+basis	717	722	O
+by	723	725	O
+sodium	726	732	B-Material
+.	732	733	O
+
+The	734	737	O
+stoichiometric	738	752	O
+composition	753	764	O
+of	765	767	O
+the	768	771	O
+glass	772	777	B-Material
+in	778	780	O
+this	781	785	O
+wasteform	786	795	O
+was	796	799	O
+Na2AlBSi6O16	800	812	B-Material
+.	812	813	O
+
+This	814	818	O
+glass	819	824	B-Material
+provides	825	833	O
+a	834	835	O
+method	836	842	O
+by	843	845	O
+which	846	851	O
+the	852	855	O
+glass	856	861	B-Material
+composition	862	873	I-Material
+can	874	877	O
+be	878	880	O
+varied	881	887	O
+systematically	888	902	O
+.	902	903	O
+
+Given	904	909	O
+that	910	914	O
+the	915	918	O
+initial	919	926	O
+observations	927	939	O
+inferred	940	948	O
+an	949	951	O
+important	952	961	O
+role	962	966	O
+played	967	973	O
+by	974	976	O
+alumina	977	984	B-Material
+,	984	985	O
+it	986	988	O
+was	989	992	O
+decided	993	1000	O
+to	1001	1003	O
+prepare	1004	1011	O
+a	1012	1013	O
+suite	1014	1019	O
+of	1020	1022	O
+zirconolite	1023	1034	B-Material
+glass	1035	1040	I-Material
+-	1040	1041	I-Material
+ceramics	1041	1049	I-Material
+in	1050	1052	O
+which	1053	1058	O
+the	1059	1062	O
+glass	1063	1068	B-Material
+matrix	1069	1075	I-Material
+was	1076	1079	O
+defined	1080	1087	O
+by	1088	1090	O
+Na2Al1+xB1–xSi6O16	1091	1109	B-Material
+to	1110	1112	O
+investigate	1113	1124	B-Task
+the	1125	1128	I-Task
+role	1129	1133	I-Task
+played	1134	1140	I-Task
+by	1141	1143	I-Task
+glass	1144	1149	I-Task
+composition	1150	1161	I-Task
+in	1162	1164	I-Task
+controlling	1165	1176	I-Task
+crystalline	1177	1188	I-Task
+phase	1189	1194	I-Task
+stability	1195	1204	I-Task
+.	1204	1205	O
+
+The	1206	1209	O
+x=1	1210	1213	O
+end	1214	1217	O
+member	1218	1224	O
+gives	1225	1230	O
+the	1231	1234	O
+mineral	1235	1242	B-Material
+albite	1243	1249	I-Material
+,	1249	1250	O
+NaAlSi3O8	1251	1260	B-Material
+.	1260	1261	O
+
+The	1262	1265	O
+melting	1266	1273	O
+point	1274	1279	O
+of	1280	1282	O
+albite	1283	1289	B-Material
+is	1290	1292	O
+1120	1293	1297	O
+°	1297	1298	O
+C	1298	1299	O
+[	1300	1301	O
+5	1301	1302	O
+]	1302	1303	O
+and	1304	1307	O
+the	1308	1311	O
+composition	1312	1323	O
+cools	1324	1329	O
+to	1330	1332	O
+a	1333	1334	O
+glass	1335	1340	B-Material
+at	1341	1343	O
+the	1344	1347	O
+cooling	1348	1355	O
+rates	1356	1361	O
+that	1362	1366	O
+occur	1367	1372	O
+during	1373	1379	O
+a	1380	1381	O
+HIP	1382	1385	O
+cycle	1386	1391	O
+.	1391	1392	O
+
+From	1393	1397	O
+the	1398	1401	O
+available	1402	1411	O
+phase	1412	1417	O
+diagrams	1418	1426	O
+,	1426	1427	O
+[	1428	1429	O
+6	1429	1430	O
+]	1430	1431	O
+no	1432	1434	O
+boron	1435	1440	B-Material
+analogue	1441	1449	O
+for	1450	1453	O
+albite	1454	1460	B-Material
+was	1461	1464	O
+shown	1465	1470	O
+,	1470	1471	O
+and	1472	1475	O
+the	1476	1479	O
+liquidus	1480	1488	O
+estimated	1489	1498	O
+from	1499	1503	O
+the	1504	1507	O
+relevant	1508	1516	O
+phase	1517	1522	O
+diagram	1523	1530	O
+is	1531	1533	O
+1100–1200	1534	1543	O
+°	1543	1544	O
+C	1544	1545	O
+.	1545	1546	O
+
+No	1547	1549	O
+phase	1550	1555	O
+diagrams	1556	1564	O
+for	1565	1568	O
+the	1569	1572	O
+quaternary	1573	1583	O
+system	1584	1590	O
+
+Na2O	1591	1595	O
+
+–	1595	1596	O
+
+Al2O3–B2O3–SiO2	1596	1611	O
+could	1612	1617	O
+be	1618	1620	O
+found	1621	1626	O
+.	1626	1627	O
 
 
 -DOCSTART- (S0022311514009271)
 
-Structural	NN	O	O
-properties	NN	O	O
-are	NN	O	O
-well	NN	O	O
-reproduced	NN	O	O
-by	NN	O	O
-all	NN	O	O
-models	NN	O	O
-(	NN	O	O
-Table	NN	O	O
-2	NN	O	O
-)	NN	O	O
-,	NN	O	O
-but	NN	O	O
-the	NN	O	O
-significant	NN	O	O
-improvement	NN	O	O
-of	NN	O	O
-our	NN	O	O
-potential	NN	O	O
-stands	NN	O	O
-in	NN	O	O
-the	NN	O	O
-elastic	NN	O	O
-constants	NN	O	O
-which	NN	O	O
-relate	NN	O	O
-to	NN	O	O
-how	NN	O	O
-the	NN	O	O
-system	NN	O	O
-responds	NN	O	O
-to	NN	O	O
-stress	NN	O	O
-.	NN	O	O
-
-Indeed	NN	O	O
-,	NN	O	O
-structure	NN	O	O
-and	NN	O	O
-elasticity	NN	O	O
-are	NN	O	O
-important	NN	O	O
-parameters	NN	O	O
-for	NN	O	O
-elucidating	NN	O	B-Task
-grain	NN	O	I-Task
-boundary	NN	O	I-Task
-stability	NN	O	I-Task
-.	NN	O	O
-
-All	NN	O	O
-potential	NN	O	O
-models	NN	O	O
-correctly	NN	O	O
-predict	NN	O	B-Task
-the	NN	O	I-Task
-relative	NN	O	I-Task
-stability	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-defect	NN	O	I-Task
-energies	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-Morelon	NN	O	B-Process
-potential	NN	O	I-Process
-model	NN	O	I-Process
-performed	NN	O	O
-best	NN	O	O
-as	NN	O	O
-it	NN	O	O
-was	NN	O	O
-specifically	NN	O	O
-derived	NN	O	O
-to	NN	O	O
-replicate	NN	O	B-Task
-defect	NN	O	I-Task
-formation	NN	O	I-Task
-energies	NN	O	I-Task
-,	NN	O	O
-but	NN	O	O
-it	NN	O	O
-largely	NN	O	O
-underestimates	NN	O	O
-the	NN	O	O
-bulk	NN	O	O
-modulus	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-energies	NN	O	O
-calculated	NN	O	O
-with	NN	O	O
-the	NN	O	O
-Morl	NN	O	B-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-Arima	NN	O	I-Process
-potential	NN	O	I-Process
-models	NN	O	I-Process
-are	NN	O	O
-overestimated	NN	O	O
-;	NN	O	O
-this	NN	O	O
-is	NN	O	O
-a	NN	O	O
-known	NN	O	O
-disadvantage	NN	O	O
-of	NN	O	O
-using	NN	O	O
-rigid	NN	O	B-Process
-ion	NN	O	I-Process
-models	NN	O	I-Process
-as	NN	O	O
-the	NN	O	O
-ionic	NN	O	O
-polarisability	NN	O	O
-is	NN	O	O
-not	NN	O	O
-taken	NN	O	O
-into	NN	O	O
-account	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-completeness	NN	O	O
-,	NN	O	O
-we	NN	O	O
-report	NN	O	O
-two	NN	O	O
-shell	NN	O	B-Process
-models	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-best	NN	O	O
-results	NN	O	O
-given	NN	O	O
-by	NN	O	O
-the	NN	O	O
-Catlow	NN	O	B-Process
-potential	NN	O	I-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-Morl	NN	O	B-Process
-,	NN	O	I-Process
-along	NN	O	I-Process
-with	NN	O	I-Process
-the	NN	O	I-Process
-Grimes	NN	O	I-Process
-shell	NN	O	I-Process
-potential	NN	O	I-Process
-model	NN	O	I-Process
-,	NN	O	O
-accurately	NN	O	O
-reproduce	NN	O	B-Task
-the	NN	O	I-Task
-activation	NN	O	I-Task
-energy	NN	O	I-Task
-of	NN	O	I-Task
-oxygen	NN	O	I-Task
-migration	NN	O	I-Task
-(	NN	O	O
-the	NN	O	O
-migration	NN	O	B-Process
-path	NN	O	I-Process
-was	NN	O	O
-the	NN	O	O
-lowest	NN	O	O
-energy	NN	O	O
-and	NN	O	O
-most	NN	O	O
-favourable	NN	O	O
-diffusion	NN	O	B-Process
-mechanism	NN	O	I-Process
-observed	NN	O	O
-in	NN	O	O
-bulk	NN	O	O
-UO2	NN	O	B-Material
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-major	NN	O	O
-deficiency	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Morl	NN	O	B-Process
-potential	NN	O	I-Process
-is	NN	O	O
-that	NN	O	O
-the	NN	O	O
-cation	NN	O	B-Material
-defect	NN	O	O
-energies	NN	O	O
-are	NN	O	O
-high	NN	O	O
-,	NN	O	O
-and	NN	O	O
-hence	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-cation	NN	O	B-Material
-defects	NN	O	O
-will	NN	O	O
-be	NN	O	O
-underestimated	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-this	NN	O	O
-should	NN	O	O
-not	NN	O	O
-be	NN	O	O
-an	NN	O	O
-issue	NN	O	O
-unless	NN	O	O
-this	NN	O	O
-model	NN	O	O
-was	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-processes	NN	O	O
-such	NN	O	O
-as	NN	O	O
-grain	NN	O	B-Process
-growth	NN	O	I-Process
-where	NN	O	O
-cation	NN	O	O
-mobility	NN	O	O
-will	NN	O	O
-contribute	NN	O	O
-.	NN	O	O
+Structural	0	10	O
+properties	11	21	O
+are	22	25	O
+well	26	30	O
+reproduced	31	41	O
+by	42	44	O
+all	45	48	O
+models	49	55	O
+(	56	57	O
+Table	57	62	O
+2	63	64	O
+)	64	65	O
+,	65	66	O
+but	67	70	O
+the	71	74	O
+significant	75	86	O
+improvement	87	98	O
+of	99	101	O
+our	102	105	O
+potential	106	115	O
+stands	116	122	O
+in	123	125	O
+the	126	129	O
+elastic	130	137	O
+constants	138	147	O
+which	148	153	O
+relate	154	160	O
+to	161	163	O
+how	164	167	O
+the	168	171	O
+system	172	178	O
+responds	179	187	O
+to	188	190	O
+stress	191	197	O
+.	197	198	O
+
+Indeed	199	205	O
+,	205	206	O
+structure	207	216	O
+and	217	220	O
+elasticity	221	231	O
+are	232	235	O
+important	236	245	O
+parameters	246	256	O
+for	257	260	O
+elucidating	261	272	B-Task
+grain	273	278	I-Task
+boundary	279	287	I-Task
+stability	288	297	I-Task
+.	297	298	O
+
+All	299	302	O
+potential	303	312	O
+models	313	319	O
+correctly	320	329	O
+predict	330	337	B-Task
+the	338	341	I-Task
+relative	342	350	I-Task
+stability	351	360	I-Task
+of	361	363	I-Task
+the	364	367	I-Task
+defect	368	374	I-Task
+energies	375	383	I-Task
+.	383	384	O
+
+The	385	388	O
+Morelon	389	396	B-Process
+potential	397	406	I-Process
+model	407	412	I-Process
+performed	413	422	O
+best	423	427	O
+as	428	430	O
+it	431	433	O
+was	434	437	O
+specifically	438	450	O
+derived	451	458	O
+to	459	461	O
+replicate	462	471	B-Task
+defect	472	478	I-Task
+formation	479	488	I-Task
+energies	489	497	I-Task
+,	497	498	O
+but	499	502	O
+it	503	505	O
+largely	506	513	O
+underestimates	514	528	O
+the	529	532	O
+bulk	533	537	O
+modulus	538	545	O
+.	545	546	O
+
+The	547	550	O
+energies	551	559	O
+calculated	560	570	O
+with	571	575	O
+the	576	579	O
+Morl	580	584	B-Process
+and	585	588	I-Process
+the	589	592	I-Process
+Arima	593	598	I-Process
+potential	599	608	I-Process
+models	609	615	I-Process
+are	616	619	O
+overestimated	620	633	O
+;	633	634	O
+this	635	639	O
+is	640	642	O
+a	643	644	O
+known	645	650	O
+disadvantage	651	663	O
+of	664	666	O
+using	667	672	O
+rigid	673	678	B-Process
+ion	679	682	I-Process
+models	683	689	I-Process
+as	690	692	O
+the	693	696	O
+ionic	697	702	O
+polarisability	703	717	O
+is	718	720	O
+not	721	724	O
+taken	725	730	O
+into	731	735	O
+account	736	743	O
+.	743	744	O
+
+For	745	748	O
+completeness	749	761	O
+,	761	762	O
+we	763	765	O
+report	766	772	O
+two	773	776	O
+shell	777	782	B-Process
+models	783	789	I-Process
+with	790	794	O
+the	795	798	O
+best	799	803	O
+results	804	811	O
+given	812	817	O
+by	818	820	O
+the	821	824	O
+Catlow	825	831	B-Process
+potential	832	841	I-Process
+model	842	847	I-Process
+.	847	848	O
+
+The	849	852	O
+Morl	853	857	B-Process
+,	857	858	I-Process
+along	859	864	I-Process
+with	865	869	I-Process
+the	870	873	I-Process
+Grimes	874	880	I-Process
+shell	881	886	I-Process
+potential	887	896	I-Process
+model	897	902	I-Process
+,	902	903	O
+accurately	904	914	O
+reproduce	915	924	B-Task
+the	925	928	I-Task
+activation	929	939	I-Task
+energy	940	946	I-Task
+of	947	949	I-Task
+oxygen	950	956	I-Task
+migration	957	966	I-Task
+(	967	968	O
+the	968	971	O
+migration	972	981	B-Process
+path	982	986	I-Process
+was	987	990	O
+the	991	994	O
+lowest	995	1001	O
+energy	1002	1008	O
+and	1009	1012	O
+most	1013	1017	O
+favourable	1018	1028	O
+diffusion	1029	1038	B-Process
+mechanism	1039	1048	I-Process
+observed	1049	1057	O
+in	1058	1060	O
+bulk	1061	1065	O
+UO2	1066	1069	B-Material
+[	1070	1071	O
+1	1071	1072	O
+]	1072	1073	O
+)	1073	1074	O
+.	1074	1075	O
+
+The	1076	1079	O
+major	1080	1085	O
+deficiency	1086	1096	O
+of	1097	1099	O
+the	1100	1103	O
+Morl	1104	1108	B-Process
+potential	1109	1118	I-Process
+is	1119	1121	O
+that	1122	1126	O
+the	1127	1130	O
+cation	1131	1137	B-Material
+defect	1138	1144	O
+energies	1145	1153	O
+are	1154	1157	O
+high	1158	1162	O
+,	1162	1163	O
+and	1164	1167	O
+hence	1168	1173	O
+the	1174	1177	O
+number	1178	1184	O
+of	1185	1187	O
+cation	1188	1194	B-Material
+defects	1195	1202	O
+will	1203	1207	O
+be	1208	1210	O
+underestimated	1211	1225	O
+.	1225	1226	O
+
+However	1227	1234	O
+,	1234	1235	O
+this	1236	1240	O
+should	1241	1247	O
+not	1248	1251	O
+be	1252	1254	O
+an	1255	1257	O
+issue	1258	1263	O
+unless	1264	1270	O
+this	1271	1275	O
+model	1276	1281	O
+was	1282	1285	O
+applied	1286	1293	O
+to	1294	1296	O
+processes	1297	1306	O
+such	1307	1311	O
+as	1312	1314	O
+grain	1315	1320	B-Process
+growth	1321	1327	I-Process
+where	1328	1333	O
+cation	1334	1340	O
+mobility	1341	1349	O
+will	1350	1354	O
+contribute	1355	1365	O
+.	1365	1366	O
 
 
 -DOCSTART- (S0022311515002354)
 
-Hydrides	NN	O	B-Material
-,	NN	O	O
-once	NN	O	O
-precipitated	NN	O	O
-in	NN	O	O
-zirconium	NN	O	B-Material
-,	NN	O	O
-degrade	NN	O	O
-the	NN	O	O
-mechanical	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-a	NN	O	O
-component	NN	O	O
-,	NN	O	O
-leading	NN	O	O
-to	NN	O	O
-reductions	NN	O	O
-in	NN	O	O
-tensile	NN	O	O
-strength	NN	O	O
-,	NN	O	O
-ductility	NN	O	O
-and	NN	O	O
-fracture	NN	O	O
-toughness	NN	O	O
-[	NN	O	O
-35–40	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-changes	NN	O	O
-can	NN	O	O
-ultimately	NN	O	O
-compromise	NN	O	O
-the	NN	O	O
-integrity	NN	O	O
-of	NN	O	O
-cladding	NN	O	B-Process
-during	NN	O	O
-normal	NN	O	O
-operating	NN	O	O
-life	NN	O	O
-,	NN	O	O
-accident	NN	O	O
-conditions	NN	O	O
-and	NN	O	O
-fuel	NN	O	B-Material
-storage	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-well	NN	O	O
-as	NN	O	O
-the	NN	O	O
-degradation	NN	O	O
-of	NN	O	O
-mechanical	NN	O	O
-properties	NN	O	O
-,	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-hydrides	NN	O	B-Material
-can	NN	O	O
-also	NN	O	O
-affect	NN	O	O
-phenomena	NN	O	O
-like	NN	O	O
-pellet	NN	O	B-Process
-cladding	NN	O	I-Process
-mechanical	NN	O	I-Process
-interaction	NN	O	I-Process
-(	NN	O	O
-PCMI	NN	O	B-Process
-)	NN	O	O
-;	NN	O	O
-or	NN	O	O
-introduce	NN	O	O
-mechanisms	NN	O	O
-for	NN	O	O
-failure	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-delayed	NN	O	B-Process
-hydride	NN	O	I-Process
-cracking	NN	O	I-Process
-(	NN	O	O
-DHC	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-former	NN	O	O
-mechanism	NN	O	O
-is	NN	O	O
-the	NN	O	O
-product	NN	O	O
-of	NN	O	O
-thermal	NN	O	B-Process
-expansion	NN	O	I-Process
-in	NN	O	O
-fuel	NN	O	B-Material
-pellets	NN	O	I-Material
-introducing	NN	O	O
-stresses	NN	O	O
-into	NN	O	O
-the	NN	O	O
-cladding	NN	O	B-Process
-,	NN	O	O
-which	NN	O	O
-may	NN	O	O
-then	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-the	NN	O	O
-formation	NN	O	O
-of	NN	O	O
-cracks	NN	O	O
-in	NN	O	O
-areas	NN	O	O
-made	NN	O	O
-brittle	NN	O	O
-by	NN	O	O
-large	NN	O	O
-hydride	NN	O	B-Material
-concentrations	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-latter	NN	O	O
-mechanism	NN	O	O
-,	NN	O	O
-DHC	NN	O	B-Process
-,	NN	O	O
-is	NN	O	O
-a	NN	O	O
-sub	NN	O	O
--	NN	O	O
-critical	NN	O	O
-,	NN	O	O
-time	NN	O	O
-dependent	NN	O	O
-cracking	NN	O	B-Process
-phenomenon	NN	O	I-Process
-that	NN	O	O
-requires	NN	O	O
-long	NN	O	O
-range	NN	O	O
-hydrogen	NN	O	B-Process
-diffusion	NN	O	I-Process
-for	NN	O	O
-repeated	NN	O	O
-local	NN	O	B-Task
-hydride	NN	O	I-Task
-growth	NN	O	I-Task
-and	NN	O	O
-fracture	NN	O	O
-at	NN	O	O
-a	NN	O	O
-hydrostatic	NN	O	B-Process
-tensile	NN	O	I-Process
-stress	NN	O	I-Process
-raiser	NN	O	I-Process
-[	NN	O	O
-5,41,42	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-process	NN	O	O
-occurs	NN	O	O
-over	NN	O	O
-an	NN	O	O
-extended	NN	O	O
-period	NN	O	O
-of	NN	O	O
-time	NN	O	O
-under	NN	O	O
-a	NN	O	O
-continuously	NN	O	O
-applied	NN	O	O
-load	NN	O	O
-that	NN	O	O
-is	NN	O	O
-below	NN	O	O
-the	NN	O	O
-yield	NN	O	O
-stress	NN	O	O
-of	NN	O	O
-the	NN	O	O
-material	NN	O	O
-[	NN	O	O
-5,41,42	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Hydrides	0	8	B-Material
+,	8	9	O
+once	10	14	O
+precipitated	15	27	O
+in	28	30	O
+zirconium	31	40	B-Material
+,	40	41	O
+degrade	42	49	O
+the	50	53	O
+mechanical	54	64	O
+properties	65	75	O
+of	76	78	O
+a	79	80	O
+component	81	90	O
+,	90	91	O
+leading	92	99	O
+to	100	102	O
+reductions	103	113	O
+in	114	116	O
+tensile	117	124	O
+strength	125	133	O
+,	133	134	O
+ductility	135	144	O
+and	145	148	O
+fracture	149	157	O
+toughness	158	167	O
+[	168	169	O
+35–40	169	174	O
+]	174	175	O
+.	175	176	O
+
+These	177	182	O
+changes	183	190	O
+can	191	194	O
+ultimately	195	205	O
+compromise	206	216	O
+the	217	220	O
+integrity	221	230	O
+of	231	233	O
+cladding	234	242	B-Process
+during	243	249	O
+normal	250	256	O
+operating	257	266	O
+life	267	271	O
+,	272	273	O
+accident	274	282	O
+conditions	283	293	O
+and	294	297	O
+fuel	298	302	B-Material
+storage	303	310	O
+[	311	312	O
+13	312	314	O
+]	314	315	O
+.	315	316	O
+
+As	317	319	O
+well	320	324	O
+as	325	327	O
+the	328	331	O
+degradation	332	343	O
+of	344	346	O
+mechanical	347	357	O
+properties	358	368	O
+,	368	369	O
+the	370	373	O
+presence	374	382	O
+of	383	385	O
+hydrides	386	394	B-Material
+can	395	398	O
+also	399	403	O
+affect	404	410	O
+phenomena	411	420	O
+like	421	425	O
+pellet	426	432	B-Process
+cladding	433	441	I-Process
+mechanical	442	452	I-Process
+interaction	453	464	I-Process
+(	465	466	O
+PCMI	466	470	B-Process
+)	470	471	O
+;	471	472	O
+or	473	475	O
+introduce	476	485	O
+mechanisms	486	496	O
+for	497	500	O
+failure	501	508	O
+,	508	509	O
+such	510	514	O
+as	515	517	O
+delayed	518	525	B-Process
+hydride	526	533	I-Process
+cracking	534	542	I-Process
+(	543	544	O
+DHC	544	547	B-Process
+)	547	548	O
+.	548	549	O
+
+The	550	553	O
+former	554	560	O
+mechanism	561	570	O
+is	571	573	O
+the	574	577	O
+product	578	585	O
+of	586	588	O
+thermal	589	596	B-Process
+expansion	597	606	I-Process
+in	607	609	O
+fuel	610	614	B-Material
+pellets	615	622	I-Material
+introducing	623	634	O
+stresses	635	643	O
+into	644	648	O
+the	649	652	O
+cladding	653	661	B-Process
+,	661	662	O
+which	663	668	O
+may	669	672	O
+then	673	677	O
+lead	678	682	O
+to	683	685	O
+the	686	689	O
+formation	690	699	O
+of	700	702	O
+cracks	703	709	O
+in	710	712	O
+areas	713	718	O
+made	719	723	O
+brittle	724	731	O
+by	732	734	O
+large	735	740	O
+hydride	741	748	B-Material
+concentrations	749	763	O
+[	764	765	O
+13	765	767	O
+]	767	768	O
+.	768	769	O
+
+The	770	773	O
+latter	774	780	O
+mechanism	781	790	O
+,	790	791	O
+DHC	792	795	B-Process
+,	795	796	O
+is	797	799	O
+a	800	801	O
+sub	802	805	O
+-	805	806	O
+critical	806	814	O
+,	814	815	O
+time	816	820	O
+dependent	821	830	O
+cracking	831	839	B-Process
+phenomenon	840	850	I-Process
+that	851	855	O
+requires	856	864	O
+long	865	869	O
+range	870	875	O
+hydrogen	876	884	B-Process
+diffusion	885	894	I-Process
+for	895	898	O
+repeated	899	907	O
+local	908	913	B-Task
+hydride	914	921	I-Task
+growth	922	928	I-Task
+and	929	932	O
+fracture	933	941	O
+at	942	944	O
+a	945	946	O
+hydrostatic	947	958	B-Process
+tensile	959	966	I-Process
+stress	967	973	I-Process
+raiser	974	980	I-Process
+[	981	982	O
+5,41,42	982	989	O
+]	989	990	O
+.	990	991	O
+
+The	992	995	O
+process	996	1003	O
+occurs	1004	1010	O
+over	1011	1015	O
+an	1016	1018	O
+extended	1019	1027	O
+period	1028	1034	O
+of	1035	1037	O
+time	1038	1042	O
+under	1043	1048	O
+a	1049	1050	O
+continuously	1051	1063	O
+applied	1064	1071	O
+load	1072	1076	O
+that	1077	1081	O
+is	1082	1084	O
+below	1085	1090	O
+the	1091	1094	O
+yield	1095	1100	O
+stress	1101	1107	O
+of	1108	1110	O
+the	1111	1114	O
+material	1115	1123	O
+[	1124	1125	O
+5,41,42	1125	1132	O
+]	1132	1133	O
+.	1133	1134	O
 
 
 -DOCSTART- (S0022311515301653)
 
-Uranium	NN	O	B-Material
-carbide	NN	O	I-Material
-was	NN	O	O
-traditionally	NN	O	O
-used	NN	O	O
-as	NN	O	O
-fuel	NN	O	B-Material
-kernel	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-US	NN	O	O
-version	NN	O	O
-of	NN	O	O
-pebble	NN	O	B-Material
-bed	NN	O	I-Material
-reactors	NN	O	I-Material
-as	NN	O	O
-opposed	NN	O	O
-to	NN	O	O
-the	NN	O	O
-German	NN	O	O
-version	NN	O	O
-based	NN	O	O
-on	NN	O	O
-uranium	NN	O	B-Material
-dioxide	NN	O	I-Material
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-Generation	NN	O	B-Material
-IV	NN	O	I-Material
-nuclear	NN	O	I-Material
-systems	NN	O	I-Material
-,	NN	O	O
-mixed	NN	O	B-Material
-uranium	NN	O	I-Material
-–	NN	O	I-Material
-plutonium	NN	O	I-Material
-carbides	NN	O	I-Material
-(	NN	O	B-Material
-U	NN	O	I-Material
-,	NN	O	I-Material
-Pu	NN	O	I-Material
-)	NN	O	I-Material
-C	NN	O	I-Material
-constitute	NN	O	O
-the	NN	O	O
-primary	NN	O	O
-option	NN	O	O
-for	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Material
-fast	NN	O	I-Material
-reactors	NN	O	I-Material
-(	NN	O	O
-GFR	NN	O	B-Material
-)	NN	O	O
-and	NN	O	O
-UCO	NN	O	B-Material
-is	NN	O	O
-the	NN	O	O
-first	NN	O	O
-candidate	NN	O	O
-for	NN	O	O
-the	NN	O	O
-very	NN	O	B-Material
-high	NN	O	I-Material
-temperature	NN	O	I-Material
-reactor	NN	O	I-Material
-(	NN	O	O
-VHTR	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-former	NN	O	O
-case	NN	O	O
-the	NN	O	O
-fuel	NN	O	B-Material
-high	NN	O	O
-actinide	NN	O	B-Material
-density	NN	O	O
-and	NN	O	O
-thermal	NN	O	O
-conductivity	NN	O	O
-are	NN	O	O
-exploited	NN	O	O
-in	NN	O	O
-view	NN	O	O
-of	NN	O	O
-high	NN	O	O
-burnup	NN	O	B-Process
-performance	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-,	NN	O	O
-UCO	NN	O	B-Material
-is	NN	O	O
-a	NN	O	O
-good	NN	O	O
-compromise	NN	O	O
-between	NN	O	O
-oxides	NN	O	B-Material
-and	NN	O	O
-carbides	NN	O	B-Material
-both	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-thermal	NN	O	O
-conductivity	NN	O	O
-and	NN	O	O
-fissile	NN	O	O
-density	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-American	NN	O	O
-VHTR	NN	O	B-Material
-design	NN	O	O
-,	NN	O	O
-the	NN	O	O
-fuel	NN	O	B-Material
-is	NN	O	O
-a	NN	O	O
-3:1	NN	O	O
-ratio	NN	O	O
-of	NN	O	O
-UO2:UC2	NN	O	B-Material
-for	NN	O	O
-one	NN	O	O
-essential	NN	O	O
-reason	NN	O	O
-,	NN	O	O
-well	NN	O	O
-explained	NN	O	O
-by	NN	O	O
-Olander	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-in	NN	O	O
-a	NN	O	O
-recent	NN	O	O
-publication	NN	O	O
-.	NN	O	O
-
-During	NN	O	O
-burnup	NN	O	B-Process
-,	NN	O	O
-pure	NN	O	O
-UO2	NN	O	B-Material
-fuel	NN	O	I-Material
-tends	NN	O	O
-to	NN	O	O
-oxidize	NN	O	O
-to	NN	O	O
-UO2+x	NN	O	B-Material
-.	NN	O	O
-
-UO2+x	NN	O	B-Material
-reacts	NN	O	O
-with	NN	O	O
-the	NN	O	O
-pyrocarbon	NN	O	B-Material
-coating	NN	O	I-Material
-layer	NN	O	I-Material
-according	NN	O	O
-to	NN	O	O
-the	NN	O	O
-equilibrium:(1)UO2+x	NN	O	B-Material
-+	NN	O	O
-xC	NN	O	B-Material
-→	NN	O	O
-UO2	NN	O	B-Material
-+	NN	O	O
-xCO	NN	O	B-Material
+Uranium	0	7	B-Material
+carbide	8	15	I-Material
+was	16	19	O
+traditionally	20	33	O
+used	34	38	O
+as	39	41	O
+fuel	42	46	B-Material
+kernel	47	53	I-Material
+for	54	57	O
+the	58	61	O
+US	62	64	O
+version	65	72	O
+of	73	75	O
+pebble	76	82	B-Material
+bed	83	86	I-Material
+reactors	87	95	I-Material
+as	96	98	O
+opposed	99	106	O
+to	107	109	O
+the	110	113	O
+German	114	120	O
+version	121	128	O
+based	129	134	O
+on	135	137	O
+uranium	138	145	B-Material
+dioxide	146	153	I-Material
+.	153	154	O
+
+For	155	158	O
+the	159	162	O
+Generation	163	173	B-Material
+IV	174	176	I-Material
+nuclear	177	184	I-Material
+systems	185	192	I-Material
+,	192	193	O
+mixed	194	199	B-Material
+uranium	200	207	I-Material
+–	207	208	I-Material
+plutonium	208	217	I-Material
+carbides	218	226	I-Material
+(	227	228	B-Material
+U	228	229	I-Material
+,	229	230	I-Material
+Pu	231	233	I-Material
+)	233	234	I-Material
+C	235	236	I-Material
+constitute	237	247	O
+the	248	251	O
+primary	252	259	O
+option	260	266	O
+for	267	270	O
+the	271	274	O
+gas	275	278	B-Material
+fast	279	283	I-Material
+reactors	284	292	I-Material
+(	293	294	O
+GFR	294	297	B-Material
+)	297	298	O
+and	299	302	O
+UCO	303	306	B-Material
+is	307	309	O
+the	310	313	O
+first	314	319	O
+candidate	320	329	O
+for	330	333	O
+the	334	337	O
+very	338	342	B-Material
+high	343	347	I-Material
+temperature	348	359	I-Material
+reactor	360	367	I-Material
+(	368	369	O
+VHTR	369	373	B-Material
+)	373	374	O
+.	374	375	O
+
+In	376	378	O
+the	379	382	O
+former	383	389	O
+case	390	394	O
+the	395	398	O
+fuel	399	403	B-Material
+high	404	408	O
+actinide	409	417	B-Material
+density	418	425	O
+and	426	429	O
+thermal	430	437	O
+conductivity	438	450	O
+are	451	454	O
+exploited	455	464	O
+in	465	467	O
+view	468	472	O
+of	473	475	O
+high	476	480	O
+burnup	481	487	B-Process
+performance	488	499	O
+.	499	500	O
+
+In	501	503	O
+the	504	507	O
+latter	508	514	O
+,	514	515	O
+UCO	516	519	B-Material
+is	520	522	O
+a	523	524	O
+good	525	529	O
+compromise	530	540	O
+between	541	548	O
+oxides	549	555	B-Material
+and	556	559	O
+carbides	560	568	B-Material
+both	569	573	O
+in	574	576	O
+terms	577	582	O
+of	583	585	O
+thermal	586	593	O
+conductivity	594	606	O
+and	607	610	O
+fissile	611	618	O
+density	619	626	O
+.	626	627	O
+
+However	628	635	O
+,	635	636	O
+in	637	639	O
+the	640	643	O
+American	644	652	O
+VHTR	653	657	B-Material
+design	658	664	O
+,	664	665	O
+the	666	669	O
+fuel	670	674	B-Material
+is	675	677	O
+a	678	679	O
+3:1	680	683	O
+ratio	684	689	O
+of	690	692	O
+UO2:UC2	693	700	B-Material
+for	701	704	O
+one	705	708	O
+essential	709	718	O
+reason	719	725	O
+,	725	726	O
+well	727	731	O
+explained	732	741	O
+by	742	744	O
+Olander	745	752	O
+[	753	754	O
+2	754	755	O
+]	755	756	O
+in	757	759	O
+a	760	761	O
+recent	762	768	O
+publication	769	780	O
+.	780	781	O
+
+During	782	788	O
+burnup	789	795	B-Process
+,	795	796	O
+pure	797	801	O
+UO2	802	805	B-Material
+fuel	806	810	I-Material
+tends	811	816	O
+to	817	819	O
+oxidize	820	827	O
+to	828	830	O
+UO2+x	831	836	B-Material
+.	836	837	O
+
+UO2+x	838	843	B-Material
+reacts	844	850	O
+with	851	855	O
+the	856	859	O
+pyrocarbon	860	870	B-Material
+coating	871	878	I-Material
+layer	879	884	I-Material
+according	885	894	O
+to	895	897	O
+the	898	901	O
+equilibrium:(1)UO2+x	902	922	B-Material
++	923	924	O
+xC	925	927	B-Material
+→	928	929	O
+UO2	930	933	B-Material
++	934	935	O
+xCO	936	939	B-Material
 
 
 -DOCSTART- (S0022311515303901)
 
-The	NN	O	O
-Magnox	NN	O	B-Material
-reactors	NN	O	I-Material
-represent	NN	O	O
-the	NN	O	O
-first	NN	O	O
-generation	NN	O	O
-of	NN	O	O
-gas	NN	O	B-Material
--	NN	O	I-Material
-cooled	NN	O	I-Material
-reactors	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-UK	NN	O	O
-that	NN	O	O
-used	NN	O	O
-carbon	NN	O	B-Material
-dioxide	NN	O	I-Material
-(	NN	O	O
-CO2	NN	O	B-Material
-)	NN	O	O
-as	NN	O	O
-the	NN	O	O
-primary	NN	O	O
-coolant	NN	O	B-Material
-and	NN	O	O
-a	NN	O	O
-honeycomb	NN	O	B-Material
-network	NN	O	I-Material
-of	NN	O	I-Material
-graphite	NN	O	I-Material
-bricks	NN	O	I-Material
-to	NN	O	O
-provide	NN	O	O
-neutron	NN	O	B-Process
-moderation	NN	O	I-Process
-.	NN	O	O
-
-During	NN	O	O
-reactor	NN	O	B-Material
-operation	NN	O	O
-significant	NN	O	O
-amounts	NN	O	O
-of	NN	O	O
-carbon	NN	O	B-Material
-monoxide	NN	O	I-Material
-(	NN	O	O
-CO	NN	O	B-Material
-)	NN	O	O
-was	NN	O	O
-produced	NN	O	O
-from	NN	O	O
-the	NN	O	O
-CO2	NN	O	B-Material
-coolant	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-CO	NN	O	B-Material
-in	NN	O	O
-turn	NN	O	O
-can	NN	O	O
-be	NN	O	O
-radiolytically	NN	O	B-Process
-polymerised	NN	O	I-Process
-to	NN	O	O
-form	NN	O	B-Task
-a	NN	O	I-Task
-carbonaceous	NN	O	I-Task
-deposit	NN	O	I-Task
-on	NN	O	I-Task
-free	NN	O	I-Task
-surfaces	NN	O	I-Task
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-graphitic	NN	O	I-Material
-carbon	NN	O	I-Material
-deposit	NN	O	I-Material
-is	NN	O	O
-significantly	NN	O	O
-more	NN	O	O
-chemically	NN	O	O
-reactive	NN	O	O
-to	NN	O	O
-air	NN	O	B-Material
-than	NN	O	O
-the	NN	O	O
-underlying	NN	O	O
-graphite	NN	O	B-Material
-[	NN	O	O
-12,13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-During	NN	O	O
-the	NN	O	O
-lifetime	NN	O	O
-of	NN	O	O
-some	NN	O	O
-Magnox	NN	O	B-Material
-reactors	NN	O	I-Material
-,	NN	O	O
-small	NN	O	O
-quantities	NN	O	O
-of	NN	O	O
-methane	NN	O	B-Material
-gas	NN	O	I-Material
-were	NN	O	O
-injected	NN	O	O
-into	NN	O	O
-the	NN	O	O
-coolant	NN	O	B-Material
-gas	NN	O	I-Material
-to	NN	O	O
-inhibit	NN	O	B-Task
-weight	NN	O	I-Task
-loss	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-graphite	NN	O	I-Task
-core	NN	O	I-Task
-due	NN	O	I-Task
-to	NN	O	I-Task
-radiolytic	NN	O	I-Task
-oxidation	NN	O	I-Task
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Methane	NN	O	B-Material
-(	NN	O	O
-CH4	NN	O	B-Material
-)	NN	O	O
-is	NN	O	O
-a	NN	O	O
-precursor	NN	O	O
-for	NN	O	O
-carbonaceous	NN	O	B-Material
-deposits	NN	O	I-Material
-that	NN	O	O
-form	NN	O	O
-a	NN	O	O
-sacrificial	NN	O	O
-layer	NN	O	O
-protecting	NN	O	O
-the	NN	O	O
-underlying	NN	O	O
-graphite	NN	O	B-Material
-from	NN	O	O
-excessive	NN	O	B-Process
-weight	NN	O	I-Process
-loss	NN	O	I-Process
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-and	NN	O	O
-reduction	NN	O	B-Process
-in	NN	O	I-Process
-mechanical	NN	O	I-Process
-strength	NN	O	I-Process
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-assumed	NN	O	O
-nitrogen	NN	O	B-Process
-incorporation	NN	O	I-Process
-during	NN	O	I-Process
-deposit	NN	O	I-Process
-formation	NN	O	I-Process
-is	NN	O	O
-the	NN	O	O
-subsequent	NN	O	O
-production	NN	O	O
-route	NN	O	O
-for	NN	O	O
-the	NN	O	O
-high	NN	O	O
-14C	NN	O	O
-levels	NN	O	O
-observed	NN	O	O
-.	NN	O	O
+The	0	3	O
+Magnox	4	10	B-Material
+reactors	11	19	I-Material
+represent	20	29	O
+the	30	33	O
+first	34	39	O
+generation	40	50	O
+of	51	53	O
+gas	54	57	B-Material
+-	57	58	I-Material
+cooled	58	64	I-Material
+reactors	65	73	I-Material
+in	74	76	O
+the	77	80	O
+UK	81	83	O
+that	84	88	O
+used	89	93	O
+carbon	94	100	B-Material
+dioxide	101	108	I-Material
+(	109	110	O
+CO2	110	113	B-Material
+)	113	114	O
+as	115	117	O
+the	118	121	O
+primary	122	129	O
+coolant	130	137	B-Material
+and	138	141	O
+a	142	143	O
+honeycomb	144	153	B-Material
+network	154	161	I-Material
+of	162	164	I-Material
+graphite	165	173	I-Material
+bricks	174	180	I-Material
+to	181	183	O
+provide	184	191	O
+neutron	192	199	B-Process
+moderation	200	210	I-Process
+.	210	211	O
+
+During	212	218	O
+reactor	219	226	B-Material
+operation	227	236	O
+significant	237	248	O
+amounts	249	256	O
+of	257	259	O
+carbon	260	266	B-Material
+monoxide	267	275	I-Material
+(	276	277	O
+CO	277	279	B-Material
+)	279	280	O
+was	281	284	O
+produced	285	293	O
+from	294	298	O
+the	299	302	O
+CO2	303	306	B-Material
+coolant	307	314	I-Material
+.	314	315	O
+
+This	316	320	O
+CO	321	323	B-Material
+in	324	326	O
+turn	327	331	O
+can	332	335	O
+be	336	338	O
+radiolytically	339	353	B-Process
+polymerised	354	365	I-Process
+to	366	368	O
+form	369	373	B-Task
+a	374	375	I-Task
+carbonaceous	376	388	I-Task
+deposit	389	396	I-Task
+on	397	399	I-Task
+free	400	404	I-Task
+surfaces	405	413	I-Task
+[	414	415	O
+12	415	417	O
+]	417	418	O
+.	418	419	O
+
+This	420	424	O
+non	425	428	B-Material
+-	428	429	I-Material
+graphitic	429	438	I-Material
+carbon	439	445	I-Material
+deposit	446	453	I-Material
+is	454	456	O
+significantly	457	470	O
+more	471	475	O
+chemically	476	486	O
+reactive	487	495	O
+to	496	498	O
+air	499	502	B-Material
+than	503	507	O
+the	508	511	O
+underlying	512	522	O
+graphite	523	531	B-Material
+[	532	533	O
+12,13	533	538	O
+]	538	539	O
+.	539	540	O
+
+During	541	547	O
+the	548	551	O
+lifetime	552	560	O
+of	561	563	O
+some	564	568	O
+Magnox	569	575	B-Material
+reactors	576	584	I-Material
+,	584	585	O
+small	586	591	O
+quantities	592	602	O
+of	603	605	O
+methane	606	613	B-Material
+gas	614	617	I-Material
+were	618	622	O
+injected	623	631	O
+into	632	636	O
+the	637	640	O
+coolant	641	648	B-Material
+gas	649	652	I-Material
+to	653	655	O
+inhibit	656	663	B-Task
+weight	664	670	I-Task
+loss	671	675	I-Task
+of	676	678	I-Task
+the	679	682	I-Task
+graphite	683	691	I-Task
+core	692	696	I-Task
+due	697	700	I-Task
+to	701	703	I-Task
+radiolytic	704	714	I-Task
+oxidation	715	724	I-Task
+[	725	726	O
+14	726	728	O
+]	728	729	O
+.	729	730	O
+
+Methane	731	738	B-Material
+(	739	740	O
+CH4	740	743	B-Material
+)	743	744	O
+is	745	747	O
+a	748	749	O
+precursor	750	759	O
+for	760	763	O
+carbonaceous	764	776	B-Material
+deposits	777	785	I-Material
+that	786	790	O
+form	791	795	O
+a	796	797	O
+sacrificial	798	809	O
+layer	810	815	O
+protecting	816	826	O
+the	827	830	O
+underlying	831	841	O
+graphite	842	850	B-Material
+from	851	855	O
+excessive	856	865	B-Process
+weight	866	872	I-Process
+loss	873	877	I-Process
+[	878	879	O
+15	879	881	O
+]	881	882	O
+and	883	886	O
+reduction	887	896	B-Process
+in	897	899	I-Process
+mechanical	900	910	I-Process
+strength	911	919	I-Process
+[	920	921	O
+16	921	923	O
+]	923	924	O
+.	924	925	O
+
+It	926	928	O
+is	929	931	O
+assumed	932	939	O
+nitrogen	940	948	B-Process
+incorporation	949	962	I-Process
+during	963	969	I-Process
+deposit	970	977	I-Process
+formation	978	987	I-Process
+is	988	990	O
+the	991	994	O
+subsequent	995	1005	O
+production	1006	1016	O
+route	1017	1022	O
+for	1023	1026	O
+the	1027	1030	O
+high	1031	1035	O
+14C	1036	1039	O
+levels	1040	1046	O
+observed	1047	1055	O
+.	1055	1056	O
 
 
 -DOCSTART- (S0029549313003439)
 
-An	NN	O	O
-essential	NN	O	O
-part	NN	O	O
-of	NN	O	O
-nuclear	NN	O	B-Task
-reactor	NN	O	I-Task
-analysis	NN	O	I-Task
-is	NN	O	O
-the	NN	O	O
-prediction	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-three	NN	O	I-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-space	NN	O	I-Task
--	NN	O	I-Task
-time	NN	O	I-Task
-kinetics	NN	O	I-Task
-of	NN	O	I-Task
-neutrons	NN	O	I-Task
-in	NN	O	O
-a	NN	O	O
-relatively	NN	O	O
-large	NN	O	O
-,	NN	O	O
-finite	NN	O	O
-,	NN	O	O
-heterogeneous	NN	O	O
-,	NN	O	O
-three	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-reactor	NN	O	B-Material
-core	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-a	NN	O	O
-majority	NN	O	O
-of	NN	O	O
-safety	NN	O	B-Task
-analyses	NN	O	I-Task
-the	NN	O	O
-prediction	NN	O	B-Task
-of	NN	O	I-Task
-reactor	NN	O	I-Task
-physics	NN	O	I-Task
-responses	NN	O	I-Task
-is	NN	O	O
-performed	NN	O	O
-using	NN	O	O
-neutron	NN	O	B-Process
-diffusion	NN	O	I-Process
-theory	NN	O	I-Process
-applied	NN	O	I-Process
-to	NN	O	I-Process
-three	NN	O	I-Process
--	NN	O	I-Process
-dimensional	NN	O	I-Process
-systems	NN	O	I-Process
-,	NN	O	O
-with	NN	O	O
-inputs	NN	O	O
-usually	NN	O	O
-derived	NN	O	O
-from	NN	O	O
-deterministic	NN	O	B-Process
-neutron	NN	O	I-Process
-transport	NN	O	I-Process
-solutions	NN	O	I-Process
-of	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-dimensional	NN	O	I-Process
-lattice	NN	O	I-Process
-geometries	NN	O	I-Process
-.	NN	O	O
-
-There	NN	O	O
-has	NN	O	O
-been	NN	O	O
-increased	NN	O	O
-activity	NN	O	O
-related	NN	O	O
-to	NN	O	O
-uncertainty	NN	O	O
-and	NN	O	O
-sensitivity	NN	O	O
-in	NN	O	O
-reactor	NN	O	B-Task
-physics	NN	O	I-Task
-calculations	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-Organization	NN	O	O
-for	NN	O	O
-Economic	NN	O	O
-Cooperation	NN	O	O
-and	NN	O	O
-Development	NN	O	O
-–	NN	O	O
-Nuclear	NN	O	O
-Energy	NN	O	O
-Agency	NN	O	O
-(	NN	O	O
-OECD	NN	O	O
--	NN	O	O
-NEA	NN	O	O
-)	NN	O	O
-has	NN	O	O
-sponsored	NN	O	O
-an	NN	O	O
-ongoing	NN	O	O
-benchmark	NN	O	O
-entitled	NN	O	O
-“	NN	O	O
-Uncertainty	NN	O	B-Material
-Analysis	NN	O	I-Material
-in	NN	O	I-Material
-Modelling	NN	O	I-Material
-”	NN	O	O
-(	NN	O	O
-UAM	NN	O	B-Material
-)	NN	O	O
-related	NN	O	O
-to	NN	O	O
-these	NN	O	O
-efforts	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-goal	NN	O	O
-of	NN	O	O
-this	NN	O	O
-work	NN	O	O
-is	NN	O	O
-to	NN	O	O
-offer	NN	O	O
-a	NN	O	O
-strategy	NN	O	B-Task
-for	NN	O	I-Task
-computing	NN	O	I-Task
-lattice	NN	O	I-Task
-sensitivities	NN	O	I-Task
-using	NN	O	O
-the	NN	O	O
-DRAGON	NN	O	B-Material
-lattice	NN	O	I-Material
-code	NN	O	I-Material
-and	NN	O	O
-WIMS	NN	O	B-Material
--	NN	O	I-Material
-D4	NN	O	I-Material
-multi	NN	O	I-Material
--	NN	O	I-Material
-group	NN	O	I-Material
-library	NN	O	I-Material
-.	NN	O	O
-
-Results	NN	O	O
-are	NN	O	O
-presented	NN	O	O
-with	NN	O	O
-comparison	NN	O	O
-to	NN	O	O
-those	NN	O	O
-from	NN	O	O
-TSUNAMI	NN	O	B-Process
-,	NN	O	O
-developed	NN	O	O
-by	NN	O	O
-Oak	NN	O	O
-Ridge	NN	O	O
-National	NN	O	O
-Laboratories	NN	O	O
-.	NN	O	O
+An	0	2	O
+essential	3	12	O
+part	13	17	O
+of	18	20	O
+nuclear	21	28	B-Task
+reactor	29	36	I-Task
+analysis	37	45	I-Task
+is	46	48	O
+the	49	52	O
+prediction	53	63	B-Task
+of	64	66	I-Task
+the	67	70	I-Task
+three	71	76	I-Task
+-	76	77	I-Task
+dimensional	77	88	I-Task
+space	89	94	I-Task
+-	94	95	I-Task
+time	95	99	I-Task
+kinetics	100	108	I-Task
+of	109	111	I-Task
+neutrons	112	120	I-Task
+in	121	123	O
+a	124	125	O
+relatively	126	136	O
+large	137	142	O
+,	142	143	O
+finite	144	150	O
+,	150	151	O
+heterogeneous	152	165	O
+,	165	166	O
+three	167	172	O
+-	172	173	O
+dimensional	173	184	O
+reactor	185	192	B-Material
+core	193	197	I-Material
+.	197	198	O
+
+In	199	201	O
+a	202	203	O
+majority	204	212	O
+of	213	215	O
+safety	216	222	B-Task
+analyses	223	231	I-Task
+the	232	235	O
+prediction	236	246	B-Task
+of	247	249	I-Task
+reactor	250	257	I-Task
+physics	258	265	I-Task
+responses	266	275	I-Task
+is	276	278	O
+performed	279	288	O
+using	289	294	O
+neutron	295	302	B-Process
+diffusion	303	312	I-Process
+theory	313	319	I-Process
+applied	320	327	I-Process
+to	328	330	I-Process
+three	331	336	I-Process
+-	336	337	I-Process
+dimensional	337	348	I-Process
+systems	349	356	I-Process
+,	356	357	O
+with	358	362	O
+inputs	363	369	O
+usually	370	377	O
+derived	378	385	O
+from	386	390	O
+deterministic	391	404	B-Process
+neutron	405	412	I-Process
+transport	413	422	I-Process
+solutions	423	432	I-Process
+of	433	435	O
+two	436	439	B-Process
+-	439	440	I-Process
+dimensional	440	451	I-Process
+lattice	452	459	I-Process
+geometries	460	470	I-Process
+.	470	471	O
+
+There	472	477	O
+has	478	481	O
+been	482	486	O
+increased	487	496	O
+activity	497	505	O
+related	506	513	O
+to	514	516	O
+uncertainty	517	528	O
+and	529	532	O
+sensitivity	533	544	O
+in	545	547	O
+reactor	548	555	B-Task
+physics	556	563	I-Task
+calculations	564	576	I-Task
+,	576	577	O
+and	578	581	O
+the	582	585	O
+Organization	586	598	O
+for	599	602	O
+Economic	603	611	O
+Cooperation	612	623	O
+and	624	627	O
+Development	628	639	O
+–	640	641	O
+Nuclear	642	649	O
+Energy	650	656	O
+Agency	657	663	O
+(	664	665	O
+OECD	665	669	O
+-	669	670	O
+NEA	670	673	O
+)	673	674	O
+has	675	678	O
+sponsored	679	688	O
+an	689	691	O
+ongoing	692	699	O
+benchmark	700	709	O
+entitled	710	718	O
+“	719	720	O
+Uncertainty	720	731	B-Material
+Analysis	732	740	I-Material
+in	741	743	I-Material
+Modelling	744	753	I-Material
+”	753	754	O
+(	755	756	O
+UAM	756	759	B-Material
+)	759	760	O
+related	761	768	O
+to	769	771	O
+these	772	777	O
+efforts	778	785	O
+.	785	786	O
+
+The	787	790	O
+goal	791	795	O
+of	796	798	O
+this	799	803	O
+work	804	808	O
+is	809	811	O
+to	812	814	O
+offer	815	820	O
+a	821	822	O
+strategy	823	831	B-Task
+for	832	835	I-Task
+computing	836	845	I-Task
+lattice	846	853	I-Task
+sensitivities	854	867	I-Task
+using	868	873	O
+the	874	877	O
+DRAGON	878	884	B-Material
+lattice	885	892	I-Material
+code	893	897	I-Material
+and	898	901	O
+WIMS	902	906	B-Material
+-	906	907	I-Material
+D4	907	909	I-Material
+multi	910	915	I-Material
+-	915	916	I-Material
+group	916	921	I-Material
+library	922	929	I-Material
+.	929	930	O
+
+Results	931	938	O
+are	939	942	O
+presented	943	952	O
+with	953	957	O
+comparison	958	968	O
+to	969	971	O
+those	972	977	O
+from	978	982	O
+TSUNAMI	983	990	B-Process
+,	990	991	O
+developed	992	1001	O
+by	1002	1004	O
+Oak	1005	1008	O
+Ridge	1009	1014	O
+National	1015	1023	O
+Laboratories	1024	1036	O
+.	1036	1037	O
 
 
 -DOCSTART- (S0029549314002854)
 
-The	NN	O	O
-pipes	NN	O	B-Material
-under	NN	O	O
-pressure	NN	O	O
-in	NN	O	O
-the	NN	O	O
-RCS	NN	O	B-Material
-or	NN	O	O
-connected	NN	O	O
-to	NN	O	O
-RCS	NN	O	B-Material
-are	NN	O	O
-usually	NN	O	O
-made	NN	O	O
-of	NN	O	O
-austenitic	NN	O	B-Material
-or	NN	O	I-Material
-austenitic	NN	O	I-Material
-&	NN	O	I-Material
-ferritic	NN	O	I-Material
-stainless	NN	O	I-Material
-steel	NN	O	I-Material
-.	NN	O	O
-
-Most	NN	O	O
-connections	NN	O	O
-are	NN	O	O
-welded	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-pipes	NN	O	B-Material
-may	NN	O	O
-be	NN	O	O
-exposed	NN	O	O
-to	NN	O	O
-various	NN	O	O
-degradation	NN	O	O
-phenomena	NN	O	O
-(	NN	O	O
-diverse	NN	O	O
-hazards	NN	O	O
-,	NN	O	O
-mechanical	NN	O	O
-fatigue	NN	O	O
-,	NN	O	O
-thermal	NN	O	O
-fatigue	NN	O	O
-,	NN	O	O
-stress	NN	O	O
-corrosion	NN	O	O
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Event	NN	O	B-Task
-screening	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-databases	NN	O	O
-showed	NN	O	O
-a	NN	O	O
-total	NN	O	O
-of	NN	O	O
-116	NN	O	O
-events	NN	O	O
-(	NN	O	O
-33	NN	O	O
-related	NN	O	O
-to	NN	O	O
-cracks	NN	O	O
-and	NN	O	O
-83	NN	O	O
-to	NN	O	O
-leaks	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Three	NN	O	O
-main	NN	O	O
-causes	NN	O	O
-for	NN	O	O
-failure	NN	O	O
-were	NN	O	O
-identified	NN	O	O
-,	NN	O	O
-namely	NN	O	O
-,	NN	O	O
-fatigue	NN	O	O
-,	NN	O	O
-corrosion	NN	O	O
-and	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-manufacturing	NN	O	O
-defects	NN	O	O
-.	NN	O	O
-
-Human	NN	O	O
-factor	NN	O	O
-induced	NN	O	O
-defects	NN	O	O
-proved	NN	O	O
-to	NN	O	O
-have	NN	O	O
-little	NN	O	O
-impact	NN	O	O
-–	NN	O	O
-less	NN	O	O
-than	NN	O	O
-10	NN	O	O
-%	NN	O	O
-of	NN	O	O
-the	NN	O	O
-cases	NN	O	O
-could	NN	O	O
-be	NN	O	O
-attributed	NN	O	O
-to	NN	O	O
-operation	NN	O	O
-errors	NN	O	O
-.	NN	O	O
-
-Fatigue	NN	O	O
-was	NN	O	O
-found	NN	O	O
-being	NN	O	O
-induced	NN	O	O
-by	NN	O	O
-several	NN	O	O
-factors	NN	O	O
-:	NN	O	O
-excessive	NN	O	O
-vibration	NN	O	O
-,	NN	O	O
-pressure	NN	O	O
-shocks	NN	O	O
-and	NN	O	O
-the	NN	O	O
-thermal	NN	O	O
-regime	NN	O	O
-of	NN	O	O
-operating	NN	O	O
-the	NN	O	O
-pipe	NN	O	B-Material
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-by	NN	O	O
-combinations	NN	O	O
-of	NN	O	O
-these	NN	O	O
-factors	NN	O	O
-.	NN	O	O
-
-Corrosion	NN	O	O
-was	NN	O	O
-induced	NN	O	O
-,	NN	O	O
-in	NN	O	O
-most	NN	O	O
-of	NN	O	O
-the	NN	O	O
-cases	NN	O	O
-,	NN	O	O
-by	NN	O	O
-a	NN	O	O
-non	NN	O	O
--	NN	O	O
-appropriate	NN	O	O
-choice	NN	O	O
-of	NN	O	O
-alloys	NN	O	B-Material
-while	NN	O	O
-not	NN	O	O
-taking	NN	O	O
-into	NN	O	O
-account	NN	O	O
-the	NN	O	O
-chemical	NN	O	O
-parameters	NN	O	O
-of	NN	O	O
-the	NN	O	O
-fluid	NN	O	B-Material
-inside	NN	O	O
-pipes	NN	O	B-Material
-.	NN	O	O
-
-Manufacturing	NN	O	O
-defects	NN	O	O
-mostly	NN	O	O
-dealt	NN	O	O
-with	NN	O	O
-welding	NN	O	O
-related	NN	O	O
-problems	NN	O	O
-and	NN	O	O
-deviation	NN	O	O
-from	NN	O	O
-the	NN	O	O
-design	NN	O	O
-documentation	NN	O	O
-during	NN	O	O
-post	NN	O	O
--	NN	O	O
-weld	NN	O	O
-heat	NN	O	O
-treatment	NN	O	O
-.	NN	O	O
+The	0	3	O
+pipes	4	9	B-Material
+under	10	15	O
+pressure	16	24	O
+in	25	27	O
+the	28	31	O
+RCS	32	35	B-Material
+or	36	38	O
+connected	39	48	O
+to	49	51	O
+RCS	52	55	B-Material
+are	56	59	O
+usually	60	67	O
+made	68	72	O
+of	73	75	O
+austenitic	76	86	B-Material
+or	87	89	I-Material
+austenitic	90	100	I-Material
+&	101	102	I-Material
+ferritic	103	111	I-Material
+stainless	112	121	I-Material
+steel	122	127	I-Material
+.	127	128	O
+
+Most	129	133	O
+connections	134	145	O
+are	146	149	O
+welded	150	156	O
+.	156	157	O
+
+The	158	161	O
+pipes	162	167	B-Material
+may	168	171	O
+be	172	174	O
+exposed	175	182	O
+to	183	185	O
+various	186	193	O
+degradation	194	205	O
+phenomena	206	215	O
+(	216	217	O
+diverse	217	224	O
+hazards	225	232	O
+,	232	233	O
+mechanical	234	244	O
+fatigue	245	252	O
+,	252	253	O
+thermal	254	261	O
+fatigue	262	269	O
+,	269	270	O
+stress	271	277	O
+corrosion	278	287	O
+,	287	288	O
+etc	289	292	O
+.	292	293	O
+)	293	294	O
+.	294	295	O
+
+Event	296	301	B-Task
+screening	302	311	I-Task
+in	312	314	O
+the	315	318	O
+databases	319	328	O
+showed	329	335	O
+a	336	337	O
+total	338	343	O
+of	344	346	O
+116	347	350	O
+events	351	357	O
+(	358	359	O
+33	359	361	O
+related	362	369	O
+to	370	372	O
+cracks	373	379	O
+and	380	383	O
+83	384	386	O
+to	387	389	O
+leaks	390	395	O
+)	395	396	O
+.	396	397	O
+
+Three	398	403	O
+main	404	408	O
+causes	409	415	O
+for	416	419	O
+failure	420	427	O
+were	428	432	O
+identified	433	443	O
+,	443	444	O
+namely	445	451	O
+,	451	452	O
+fatigue	453	460	O
+,	460	461	O
+corrosion	462	471	O
+and	472	475	O
+the	476	479	O
+presence	480	488	O
+of	489	491	O
+manufacturing	492	505	O
+defects	506	513	O
+.	513	514	O
+
+Human	515	520	O
+factor	521	527	O
+induced	528	535	O
+defects	536	543	O
+proved	544	550	O
+to	551	553	O
+have	554	558	O
+little	559	565	O
+impact	566	572	O
+–	573	574	O
+less	575	579	O
+than	580	584	O
+10	585	587	O
+%	587	588	O
+of	589	591	O
+the	592	595	O
+cases	596	601	O
+could	602	607	O
+be	608	610	O
+attributed	611	621	O
+to	622	624	O
+operation	625	634	O
+errors	635	641	O
+.	641	642	O
+
+Fatigue	643	650	O
+was	651	654	O
+found	655	660	O
+being	661	666	O
+induced	667	674	O
+by	675	677	O
+several	678	685	O
+factors	686	693	O
+:	693	694	O
+excessive	695	704	O
+vibration	705	714	O
+,	714	715	O
+pressure	716	724	O
+shocks	725	731	O
+and	732	735	O
+the	736	739	O
+thermal	740	747	O
+regime	748	754	O
+of	755	757	O
+operating	758	767	O
+the	768	771	O
+pipe	772	776	B-Material
+,	776	777	O
+as	778	780	O
+well	781	785	O
+as	786	788	O
+by	789	791	O
+combinations	792	804	O
+of	805	807	O
+these	808	813	O
+factors	814	821	O
+.	821	822	O
+
+Corrosion	823	832	O
+was	833	836	O
+induced	837	844	O
+,	844	845	O
+in	846	848	O
+most	849	853	O
+of	854	856	O
+the	857	860	O
+cases	861	866	O
+,	866	867	O
+by	868	870	O
+a	871	872	O
+non	873	876	O
+-	876	877	O
+appropriate	877	888	O
+choice	889	895	O
+of	896	898	O
+alloys	899	905	B-Material
+while	906	911	O
+not	912	915	O
+taking	916	922	O
+into	923	927	O
+account	928	935	O
+the	936	939	O
+chemical	940	948	O
+parameters	949	959	O
+of	960	962	O
+the	963	966	O
+fluid	967	972	B-Material
+inside	973	979	O
+pipes	980	985	B-Material
+.	985	986	O
+
+Manufacturing	987	1000	O
+defects	1001	1008	O
+mostly	1009	1015	O
+dealt	1016	1021	O
+with	1022	1026	O
+welding	1027	1034	O
+related	1035	1042	O
+problems	1043	1051	O
+and	1052	1055	O
+deviation	1056	1065	O
+from	1066	1070	O
+the	1071	1074	O
+design	1075	1081	O
+documentation	1082	1095	O
+during	1096	1102	O
+post	1103	1107	O
+-	1107	1108	O
+weld	1108	1112	O
+heat	1113	1117	O
+treatment	1118	1127	O
+.	1127	1128	O
 
 
 -DOCSTART- (S0038092X14004824)
 
-Historically	NN	O	O
-,	NN	O	O
-the	NN	O	O
-interest	NN	O	O
-in	NN	O	O
-accurate	NN	O	O
-measurement	NN	O	O
-of	NN	O	O
-DNI	NN	O	O
-started	NN	O	O
-decades	NN	O	O
-ago	NN	O	O
-.	NN	O	O
-
-Early	NN	O	O
-studies	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-Linke	NN	O	O
-,	NN	O	O
-1931	NN	O	O
-;	NN	O	O
-Linke	NN	O	O
-and	NN	O	O
-Ulmitz	NN	O	O
-,	NN	O	O
-1940	NN	O	O
-)	NN	O	O
-identified	NN	O	O
-the	NN	O	O
-difficulty	NN	O	O
-of	NN	O	O
-separating	NN	O	B-Task
-the	NN	O	I-Task
-measurement	NN	O	I-Task
-of	NN	O	I-Task
-DNI	NN	O	I-Task
-from	NN	O	I-Task
-that	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-diffuse	NN	O	I-Task
-irradiance	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-immediate	NN	O	I-Task
-vicinity	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-sun	NN	O	I-Task
-,	NN	O	O
-hereafter	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-circumsolar	NN	O	O
-irradiance	NN	O	O
-.	NN	O	O
-
-Pastiels	NN	O	O
-(	NN	O	O
-1959	NN	O	O
-)	NN	O	O
-conducted	NN	O	O
-a	NN	O	O
-detailed	NN	O	O
-study	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-geometry	NN	O	I-Task
-of	NN	O	I-Task
-pyrheliometers	NN	O	I-Task
-,	NN	O	I-Task
-and	NN	O	I-Task
-how	NN	O	I-Task
-that	NN	O	I-Task
-geometry	NN	O	I-Task
-interacted	NN	O	I-Task
-with	NN	O	I-Task
-circumsolar	NN	O	I-Task
-radiance	NN	O	I-Task
-,	NN	O	O
-using	NN	O	O
-simplified	NN	O	O
-representations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-.	NN	O	O
-
-Various	NN	O	O
-communications	NN	O	O
-were	NN	O	O
-then	NN	O	O
-presented	NN	O	O
-at	NN	O	O
-a	NN	O	O
-WMO	NN	O	O
-Task	NN	O	O
-Group	NN	O	O
-meeting	NN	O	O
-held	NN	O	O
-in	NN	O	O
-Belgium	NN	O	O
-in	NN	O	O
-1966	NN	O	O
-(	NN	O	O
-WMO	NN	O	O
-,	NN	O	O
-1967	NN	O	O
-)	NN	O	O
-to	NN	O	O
-improve	NN	O	B-Task
-the	NN	O	I-Task
-accuracy	NN	O	I-Task
-of	NN	O	I-Task
-pyrheliometric	NN	O	I-Task
-measurements	NN	O	I-Task
-,	NN	O	I-Task
-including	NN	O	I-Task
-estimates	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-circumsolar	NN	O	I-Task
-enhancement	NN	O	I-Task
-.	NN	O	O
-
-Ångström	NN	O	O
-(	NN	O	O
-1961	NN	O	O
-)	NN	O	O
-and	NN	O	O
-Ångström	NN	O	O
-and	NN	O	O
-Rohde	NN	O	O
-(	NN	O	O
-1966	NN	O	O
-)	NN	O	O
-later	NN	O	O
-contributed	NN	O	O
-to	NN	O	O
-the	NN	O	O
-same	NN	O	O
-topic	NN	O	O
-,	NN	O	O
-followed	NN	O	O
-years	NN	O	O
-later	NN	O	O
-by	NN	O	O
-Major	NN	O	O
-(	NN	O	O
-1973	NN	O	O
-,	NN	O	O
-1980	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-whole	NN	O	O
-issue	NN	O	O
-of	NN	O	O
-instrument	NN	O	O
-geometry	NN	O	O
-vs.	NN	O	O
-circumsolar	NN	O	O
-irradiance	NN	O	O
-was	NN	O	O
-complex	NN	O	O
-and	NN	O	O
-confusing	NN	O	O
-at	NN	O	O
-the	NN	O	O
-time	NN	O	O
-because	NN	O	O
-different	NN	O	O
-makes	NN	O	O
-and	NN	O	O
-models	NN	O	O
-of	NN	O	O
-instruments	NN	O	O
-had	NN	O	O
-differing	NN	O	O
-geometries	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-was	NN	O	O
-considerably	NN	O	O
-simplified	NN	O	O
-after	NN	O	O
-WMO	NN	O	O
-issued	NN	O	O
-guidelines	NN	O	O
-about	NN	O	O
-the	NN	O	O
-recommended	NN	O	O
-geometry	NN	O	O
-of	NN	O	O
-pyrheliometers	NN	O	B-Material
-,	NN	O	O
-which	NN	O	O
-led	NN	O	O
-to	NN	O	O
-a	NN	O	O
-relatively	NN	O	O
-“	NN	O	O
-standard	NN	O	O
-”	NN	O	O
-geometry	NN	O	O
-used	NN	O	O
-in	NN	O	O
-all	NN	O	O
-recent	NN	O	O
-instruments	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-experimental	NN	O	O
-issues	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-measurement	NN	O	O
-of	NN	O	O
-DNI	NN	O	O
-are	NN	O	O
-discussed	NN	O	O
-in	NN	O	O
-Section	NN	O	O
-3.2	NN	O	O
-.	NN	O	O
+Historically	0	12	O
+,	12	13	O
+the	14	17	O
+interest	18	26	O
+in	27	29	O
+accurate	30	38	O
+measurement	39	50	O
+of	51	53	O
+DNI	54	57	O
+started	58	65	O
+decades	66	73	O
+ago	74	77	O
+.	77	78	O
+
+Early	79	84	O
+studies	85	92	O
+(	93	94	O
+e.g.	94	98	O
+,	98	99	O
+Linke	100	105	O
+,	105	106	O
+1931	107	111	O
+;	111	112	O
+Linke	113	118	O
+and	119	122	O
+Ulmitz	123	129	O
+,	129	130	O
+1940	131	135	O
+)	135	136	O
+identified	137	147	O
+the	148	151	O
+difficulty	152	162	O
+of	163	165	O
+separating	166	176	B-Task
+the	177	180	I-Task
+measurement	181	192	I-Task
+of	193	195	I-Task
+DNI	196	199	I-Task
+from	200	204	I-Task
+that	205	209	I-Task
+of	210	212	I-Task
+the	213	216	I-Task
+diffuse	217	224	I-Task
+irradiance	225	235	I-Task
+in	236	238	I-Task
+the	239	242	I-Task
+immediate	243	252	I-Task
+vicinity	253	261	I-Task
+of	262	264	I-Task
+the	265	268	I-Task
+sun	269	272	I-Task
+,	272	273	O
+hereafter	274	283	O
+referred	284	292	O
+to	293	295	O
+as	296	298	O
+circumsolar	299	310	O
+irradiance	311	321	O
+.	321	322	O
+
+Pastiels	323	331	O
+(	332	333	O
+1959	333	337	O
+)	337	338	O
+conducted	339	348	O
+a	349	350	O
+detailed	351	359	O
+study	360	365	B-Task
+of	366	368	I-Task
+the	369	372	I-Task
+geometry	373	381	I-Task
+of	382	384	I-Task
+pyrheliometers	385	399	I-Task
+,	399	400	I-Task
+and	401	404	I-Task
+how	405	408	I-Task
+that	409	413	I-Task
+geometry	414	422	I-Task
+interacted	423	433	I-Task
+with	434	438	I-Task
+circumsolar	439	450	I-Task
+radiance	451	459	I-Task
+,	459	460	O
+using	461	466	O
+simplified	467	477	O
+representations	478	493	O
+of	494	496	O
+the	497	500	O
+latter	501	507	O
+.	507	508	O
+
+Various	509	516	O
+communications	517	531	O
+were	532	536	O
+then	537	541	O
+presented	542	551	O
+at	552	554	O
+a	555	556	O
+WMO	557	560	O
+Task	561	565	O
+Group	566	571	O
+meeting	572	579	O
+held	580	584	O
+in	585	587	O
+Belgium	588	595	O
+in	596	598	O
+1966	599	603	O
+(	604	605	O
+WMO	605	608	O
+,	608	609	O
+1967	610	614	O
+)	614	615	O
+to	616	618	O
+improve	619	626	B-Task
+the	627	630	I-Task
+accuracy	631	639	I-Task
+of	640	642	I-Task
+pyrheliometric	643	657	I-Task
+measurements	658	670	I-Task
+,	670	671	I-Task
+including	672	681	I-Task
+estimates	682	691	I-Task
+of	692	694	I-Task
+the	695	698	I-Task
+circumsolar	699	710	I-Task
+enhancement	711	722	I-Task
+.	722	723	O
+
+Ångström	724	732	O
+(	733	734	O
+1961	734	738	O
+)	738	739	O
+and	740	743	O
+Ångström	744	752	O
+and	753	756	O
+Rohde	757	762	O
+(	763	764	O
+1966	764	768	O
+)	768	769	O
+later	770	775	O
+contributed	776	787	O
+to	788	790	O
+the	791	794	O
+same	795	799	O
+topic	800	805	O
+,	805	806	O
+followed	807	815	O
+years	816	821	O
+later	822	827	O
+by	828	830	O
+Major	831	836	O
+(	837	838	O
+1973	838	842	O
+,	842	843	O
+1980	844	848	O
+)	848	849	O
+.	849	850	O
+
+The	851	854	O
+whole	855	860	O
+issue	861	866	O
+of	867	869	O
+instrument	870	880	O
+geometry	881	889	O
+vs.	890	893	O
+circumsolar	894	905	O
+irradiance	906	916	O
+was	917	920	O
+complex	921	928	O
+and	929	932	O
+confusing	933	942	O
+at	943	945	O
+the	946	949	O
+time	950	954	O
+because	955	962	O
+different	963	972	O
+makes	973	978	O
+and	979	982	O
+models	983	989	O
+of	990	992	O
+instruments	993	1004	O
+had	1005	1008	O
+differing	1009	1018	O
+geometries	1019	1029	O
+.	1029	1030	O
+
+This	1031	1035	O
+was	1036	1039	O
+considerably	1040	1052	O
+simplified	1053	1063	O
+after	1064	1069	O
+WMO	1070	1073	O
+issued	1074	1080	O
+guidelines	1081	1091	O
+about	1092	1097	O
+the	1098	1101	O
+recommended	1102	1113	O
+geometry	1114	1122	O
+of	1123	1125	O
+pyrheliometers	1126	1140	B-Material
+,	1140	1141	O
+which	1142	1147	O
+led	1148	1151	O
+to	1152	1154	O
+a	1155	1156	O
+relatively	1157	1167	O
+“	1168	1169	O
+standard	1169	1177	O
+”	1177	1178	O
+geometry	1179	1187	O
+used	1188	1192	O
+in	1193	1195	O
+all	1196	1199	O
+recent	1200	1206	O
+instruments	1207	1218	O
+.	1218	1219	O
+
+The	1220	1223	O
+experimental	1224	1236	O
+issues	1237	1243	O
+related	1244	1251	O
+to	1252	1254	O
+the	1255	1258	O
+measurement	1259	1270	O
+of	1271	1273	O
+DNI	1274	1277	O
+are	1278	1281	O
+discussed	1282	1291	O
+in	1292	1294	O
+Section	1295	1302	O
+3.2	1303	1306	O
+.	1306	1307	O
 
 
 -DOCSTART- (S0038092X15001024)
 
-The	NN	O	O
-wind	NN	O	B-Process
-speed	NN	O	I-Process
-and	NN	O	I-Process
-cloud	NN	O	I-Process
-height	NN	O	I-Process
-Markov	NN	O	I-Process
-chains	NN	O	I-Process
-are	NN	O	O
-produced	NN	O	O
-accounting	NN	O	O
-for	NN	O	O
-seasonal	NN	O	O
-variations	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-Markov	NN	O	B-Process
-chain	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-for	NN	O	O
-each	NN	O	O
-variable	NN	O	O
-representing	NN	O	O
-each	NN	O	O
-of	NN	O	O
-the	NN	O	O
-four	NN	O	O
-seasons	NN	O	O
-,	NN	O	O
-capturing	NN	O	O
-the	NN	O	O
-variability	NN	O	O
-at	NN	O	O
-different	NN	O	O
-times	NN	O	O
-of	NN	O	O
-the	NN	O	O
-year	NN	O	O
-,	NN	O	O
-totalling	NN	O	O
-four	NN	O	O
-chains	NN	O	O
-each	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-okta	NN	O	B-Process
-number	NN	O	I-Process
-Markov	NN	O	I-Process
-chains	NN	O	I-Process
-also	NN	O	O
-consider	NN	O	O
-the	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-season	NN	O	O
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-inclusion	NN	O	O
-of	NN	O	O
-impacts	NN	O	O
-from	NN	O	O
-pressure	NN	O	O
-and	NN	O	O
-diurnal	NN	O	O
-variation	NN	O	O
-.	NN	O	O
-
-Eight	NN	O	O
-okta	NN	O	B-Process
-Markov	NN	O	I-Process
-chains	NN	O	I-Process
-are	NN	O	O
-produced	NN	O	O
-that	NN	O	O
-are	NN	O	O
-split	NN	O	O
-by	NN	O	O
-above	NN	O	O
-and	NN	O	O
-below	NN	O	O
-average	NN	O	O
-pressure	NN	O	O
-for	NN	O	O
-each	NN	O	O
-season	NN	O	O
-,	NN	O	O
-and	NN	O	O
-four	NN	O	O
-additional	NN	O	O
-morning	NN	O	O
-okta	NN	O	B-Process
-Markov	NN	O	I-Process
-chains	NN	O	I-Process
-are	NN	O	O
-produced	NN	O	O
-to	NN	O	O
-capture	NN	O	O
-the	NN	O	O
-diurnal	NN	O	O
-variation	NN	O	O
-for	NN	O	O
-okta	NN	O	O
-transitions	NN	O	O
-between	NN	O	O
-00:00	NN	O	O
-and	NN	O	O
-05:00am	NN	O	O
-for	NN	O	O
-each	NN	O	O
-season	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-intent	NN	O	O
-is	NN	O	O
-to	NN	O	O
-capture	NN	O	B-Task
-the	NN	O	I-Task
-variation	NN	O	I-Task
-in	NN	O	I-Task
-transition	NN	O	I-Task
-probability	NN	O	I-Task
-that	NN	O	O
-occurs	NN	O	O
-as	NN	O	O
-a	NN	O	O
-result	NN	O	O
-of	NN	O	O
-weather	NN	O	O
-changes	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-solar	NN	O	O
-energy	NN	O	O
-.	NN	O	O
-
-5	NN	O	O
-am	NN	O	O
-is	NN	O	O
-considered	NN	O	O
-the	NN	O	O
-cut	NN	O	O
--	NN	O	O
-off	NN	O	O
-because	NN	O	O
-it	NN	O	O
-is	NN	O	O
-a	NN	O	O
-typical	NN	O	O
-sunrise	NN	O	O
-in	NN	O	O
-the	NN	O	O
-summer	NN	O	O
-for	NN	O	O
-the	NN	O	O
-applied	NN	O	O
-study	NN	O	O
-locations	NN	O	O
-.	NN	O	O
-
-5h	NN	O	O
-represents	NN	O	O
-5	NN	O	O
-okta	NN	O	O
-transitions	NN	O	O
-and	NN	O	O
-is	NN	O	O
-considered	NN	O	O
-an	NN	O	O
-appropriate	NN	O	O
-duration	NN	O	O
-for	NN	O	O
-the	NN	O	O
-slight	NN	O	O
-propensity	NN	O	O
-to	NN	O	O
-shift	NN	O	O
-towards	NN	O	O
-an	NN	O	O
-increased	NN	O	O
-okta	NN	O	O
-to	NN	O	O
-be	NN	O	O
-represented	NN	O	O
-,	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-8	NN	O	O
-demonstrates	NN	O	O
-the	NN	O	O
-diurnal	NN	O	O
-transition	NN	O	O
-differences	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-2	NN	O	O
-visually	NN	O	O
-demonstrates	NN	O	O
-the	NN	O	O
-mean	NN	O	O
-okta	NN	O	B-Process
-Markov	NN	O	I-Process
-chain	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-entire	NN	O	O
-year	NN	O	O
-,	NN	O	O
-whilst	NN	O	O
-the	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-season	NN	O	O
-can	NN	O	O
-be	NN	O	O
-seen	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-11	NN	O	O
-.	NN	O	O
+The	0	3	O
+wind	4	8	B-Process
+speed	9	14	I-Process
+and	15	18	I-Process
+cloud	19	24	I-Process
+height	25	31	I-Process
+Markov	32	38	I-Process
+chains	39	45	I-Process
+are	46	49	O
+produced	50	58	O
+accounting	59	69	O
+for	70	73	O
+seasonal	74	82	O
+variations	83	93	O
+.	93	94	O
+
+A	95	96	O
+Markov	97	103	B-Process
+chain	104	109	I-Process
+is	110	112	O
+used	113	117	O
+for	118	121	O
+each	122	126	O
+variable	127	135	O
+representing	136	148	O
+each	149	153	O
+of	154	156	O
+the	157	160	O
+four	161	165	O
+seasons	166	173	O
+,	173	174	O
+capturing	175	184	O
+the	185	188	O
+variability	189	200	O
+at	201	203	O
+different	204	213	O
+times	214	219	O
+of	220	222	O
+the	223	226	O
+year	227	231	O
+,	231	232	O
+totalling	233	242	O
+four	243	247	O
+chains	248	254	O
+each	255	259	O
+.	259	260	O
+
+The	261	264	O
+okta	265	269	B-Process
+number	270	276	I-Process
+Markov	277	283	I-Process
+chains	284	290	I-Process
+also	291	295	O
+consider	296	304	O
+the	305	308	O
+effect	309	315	O
+of	316	318	O
+season	319	325	O
+,	325	326	O
+with	327	331	O
+the	332	335	O
+inclusion	336	345	O
+of	346	348	O
+impacts	349	356	O
+from	357	361	O
+pressure	362	370	O
+and	371	374	O
+diurnal	375	382	O
+variation	383	392	O
+.	392	393	O
+
+Eight	394	399	O
+okta	400	404	B-Process
+Markov	405	411	I-Process
+chains	412	418	I-Process
+are	419	422	O
+produced	423	431	O
+that	432	436	O
+are	437	440	O
+split	441	446	O
+by	447	449	O
+above	450	455	O
+and	456	459	O
+below	460	465	O
+average	466	473	O
+pressure	474	482	O
+for	483	486	O
+each	487	491	O
+season	492	498	O
+,	498	499	O
+and	500	503	O
+four	504	508	O
+additional	509	519	O
+morning	520	527	O
+okta	528	532	B-Process
+Markov	533	539	I-Process
+chains	540	546	I-Process
+are	547	550	O
+produced	551	559	O
+to	560	562	O
+capture	563	570	O
+the	571	574	O
+diurnal	575	582	O
+variation	583	592	O
+for	593	596	O
+okta	597	601	O
+transitions	602	613	O
+between	614	621	O
+00:00	622	627	O
+and	628	631	O
+05:00am	632	639	O
+for	640	643	O
+each	644	648	O
+season	649	655	O
+.	655	656	O
+
+The	657	660	O
+intent	661	667	O
+is	668	670	O
+to	671	673	O
+capture	674	681	B-Task
+the	682	685	I-Task
+variation	686	695	I-Task
+in	696	698	I-Task
+transition	699	709	I-Task
+probability	710	721	I-Task
+that	722	726	O
+occurs	727	733	O
+as	734	736	O
+a	737	738	O
+result	739	745	O
+of	746	748	O
+weather	749	756	O
+changes	757	764	O
+due	765	768	O
+to	769	771	O
+the	772	775	O
+presence	776	784	O
+of	785	787	O
+solar	788	793	O
+energy	794	800	O
+.	800	801	O
+
+5	802	803	O
+am	803	805	O
+is	806	808	O
+considered	809	819	O
+the	820	823	O
+cut	824	827	O
+-	827	828	O
+off	828	831	O
+because	832	839	O
+it	840	842	O
+is	843	845	O
+a	846	847	O
+typical	848	855	O
+sunrise	856	863	O
+in	864	866	O
+the	867	870	O
+summer	871	877	O
+for	878	881	O
+the	882	885	O
+applied	886	893	O
+study	894	899	O
+locations	900	909	O
+.	909	910	O
+
+5h	911	913	O
+represents	914	924	O
+5	925	926	O
+okta	927	931	O
+transitions	932	943	O
+and	944	947	O
+is	948	950	O
+considered	951	961	O
+an	962	964	O
+appropriate	965	976	O
+duration	977	985	O
+for	986	989	O
+the	990	993	O
+slight	994	1000	O
+propensity	1001	1011	O
+to	1012	1014	O
+shift	1015	1020	O
+towards	1021	1028	O
+an	1029	1031	O
+increased	1032	1041	O
+okta	1042	1046	O
+to	1047	1049	O
+be	1050	1052	O
+represented	1053	1064	O
+,	1064	1065	O
+Fig	1066	1069	O
+.	1069	1070	O
+
+8	1071	1072	O
+demonstrates	1073	1085	O
+the	1086	1089	O
+diurnal	1090	1097	O
+transition	1098	1108	O
+differences	1109	1120	O
+.	1120	1121	O
+
+Fig	1122	1125	O
+.	1125	1126	O
+
+2	1127	1128	O
+visually	1129	1137	O
+demonstrates	1138	1150	O
+the	1151	1154	O
+mean	1155	1159	O
+okta	1160	1164	B-Process
+Markov	1165	1171	I-Process
+chain	1172	1177	I-Process
+for	1178	1181	O
+the	1182	1185	O
+entire	1186	1192	O
+year	1193	1197	O
+,	1197	1198	O
+whilst	1199	1205	O
+the	1206	1209	O
+effect	1210	1216	O
+of	1217	1219	O
+season	1220	1226	O
+can	1227	1230	O
+be	1231	1233	O
+seen	1234	1238	O
+in	1239	1241	O
+Fig	1242	1245	O
+.	1245	1246	O
+
+11	1247	1249	O
+.	1249	1250	O
 
 
 -DOCSTART- (S0038092X15003059)
 
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-the	NN	O	O
-prediction	NN	O	B-Task
-of	NN	O	I-Task
-solar	NN	O	I-Task
-cell	NN	O	I-Task
-’s	NN	O	I-Task
-temperature	NN	O	I-Task
-is	NN	O	O
-very	NN	O	O
-important	NN	O	O
-for	NN	O	O
-the	NN	O	O
-electrical	NN	O	O
-characterisation	NN	O	O
-of	NN	O	O
-CPV	NN	O	B-Process
-modules	NN	O	O
-.	NN	O	O
-
-Rodrigo	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2014	NN	O	O
-)	NN	O	O
-reviewed	NN	O	O
-various	NN	O	O
-methods	NN	O	O
-for	NN	O	O
-the	NN	O	O
-calculation	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-cell	NN	O	I-Task
-temperature	NN	O	I-Task
-in	NN	O	O
-High	NN	O	B-Process
-Concentrator	NN	O	I-Process
-PV	NN	O	I-Process
-(	NN	O	O
-HCPV	NN	O	B-Process
-)	NN	O	O
-modules	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-methods	NN	O	O
-were	NN	O	O
-categorised	NN	O	O
-based	NN	O	O
-on	NN	O	O
-:	NN	O	O
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-heat	NN	O	O
-sink	NN	O	O
-temperature	NN	O	O
-,	NN	O	O
-(	NN	O	O
-2	NN	O	O
-)	NN	O	O
-electrical	NN	O	O
-parameters	NN	O	O
-and	NN	O	O
-(	NN	O	O
-3	NN	O	O
-)	NN	O	O
-atmospheric	NN	O	O
-parameters	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-first	NN	O	O
-two	NN	O	O
-categories	NN	O	O
-are	NN	O	O
-based	NN	O	O
-on	NN	O	O
-direct	NN	O	O
-measurements	NN	O	O
-of	NN	O	O
-CPV	NN	O	B-Process
-modules	NN	O	O
-in	NN	O	O
-indoor	NN	O	O
-or	NN	O	O
-outdoor	NN	O	O
-experimental	NN	O	O
-setups	NN	O	O
-and	NN	O	O
-presented	NN	O	O
-the	NN	O	O
-highest	NN	O	O
-degree	NN	O	O
-of	NN	O	O
-accuracy	NN	O	O
-(	NN	O	O
-Root	NN	O	O
-Mean	NN	O	O
-Square	NN	O	O
-Error	NN	O	O
-(	NN	O	O
-RMSE	NN	O	O
-)	NN	O	O
-
-1.7–2.5	NN	O	O
-K	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Most	NN	O	O
-of	NN	O	O
-the	NN	O	O
-methods	NN	O	O
-reviewed	NN	O	O
-by	NN	O	O
-Rodrigo	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2014	NN	O	O
-)	NN	O	O
-calculate	NN	O	B-Task
-the	NN	O	I-Task
-cell	NN	O	I-Task
-temperature	NN	O	I-Task
-at	NN	O	O
-open	NN	O	B-Process
--	NN	O	I-Process
-circuit	NN	O	I-Process
-conditions	NN	O	I-Process
-.	NN	O	O
-
-Methods	NN	O	O
-that	NN	O	O
-predict	NN	O	O
-the	NN	O	O
-cell	NN	O	O
-temperature	NN	O	O
-at	NN	O	O
-maximum	NN	O	B-Process
-power	NN	O	I-Process
-point	NN	O	I-Process
-(	NN	O	O
-MPP	NN	O	B-Process
-)	NN	O	O
-operation	NN	O	O
-offer	NN	O	O
-a	NN	O	O
-more	NN	O	O
-realistic	NN	O	O
-approach	NN	O	O
-since	NN	O	O
-they	NN	O	O
-include	NN	O	O
-the	NN	O	O
-electrical	NN	O	B-Process
-energy	NN	O	I-Process
-generation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-solar	NN	O	B-Material
-cells	NN	O	I-Material
-(	NN	O	O
-i.e.	NN	O	O
-real	NN	O	O
-operating	NN	O	O
-conditions	NN	O	O
-)	NN	O	O
-;	NN	O	O
-Yandt	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-described	NN	O	O
-a	NN	O	O
-method	NN	O	O
-predicting	NN	O	B-Task
-the	NN	O	I-Task
-cell	NN	O	I-Task
-temperature	NN	O	I-Task
-at	NN	O	I-Task
-MPP	NN	O	I-Task
-based	NN	O	O
-on	NN	O	O
-electrical	NN	O	O
-parameters	NN	O	O
-and	NN	O	O
-Fernández	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2014b	NN	O	O
-)	NN	O	O
-based	NN	O	O
-on	NN	O	O
-heat	NN	O	O
-sink	NN	O	O
-temperature	NN	O	O
-with	NN	O	O
-absolute	NN	O	O
-RMSE	NN	O	O
-0.55–1.44K.	NN	O	O
-Fernández	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2014a	NN	O	O
-)	NN	O	O
-also	NN	O	O
-proposed	NN	O	O
-an	NN	O	O
-artificial	NN	O	B-Process
-neural	NN	O	I-Process
-network	NN	O	I-Process
-model	NN	O	I-Process
-to	NN	O	O
-estimate	NN	O	B-Task
-the	NN	O	I-Task
-cell	NN	O	I-Task
-temperature	NN	O	I-Task
-based	NN	O	O
-on	NN	O	O
-atmospheric	NN	O	O
-parameters	NN	O	O
-and	NN	O	O
-an	NN	O	O
-open	NN	O	B-Process
--	NN	O	I-Process
-circuit	NN	O	I-Process
-voltage	NN	O	I-Process
-model	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-electrical	NN	O	O
-parameters	NN	O	O
-(	NN	O	O
-Fernandez	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2013a	NN	O	O
-)	NN	O	O
-offering	NN	O	O
-good	NN	O	O
-accuracy	NN	O	O
-(	NN	O	O
-RMSE	NN	O	O
-3.2	NN	O	O
-K	NN	O	O
-and	NN	O	O
-2.5	NN	O	O
-K	NN	O	O
-respectively	NN	O	O
-(	NN	O	O
-Rodrigo	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2014	NN	O	O
-)	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-main	NN	O	O
-disadvantage	NN	O	O
-of	NN	O	O
-the	NN	O	O
-aforementioned	NN	O	O
-methods	NN	O	O
-is	NN	O	O
-that	NN	O	O
-an	NN	O	O
-experimental	NN	O	O
-setup	NN	O	O
-is	NN	O	O
-required	NN	O	O
-to	NN	O	O
-obtain	NN	O	O
-the	NN	O	O
-parameters	NN	O	O
-used	NN	O	O
-for	NN	O	O
-the	NN	O	O
-cell	NN	O	B-Task
-temperature	NN	O	I-Task
-calculation	NN	O	I-Task
-.	NN	O	O
+In	0	2	O
+addition	3	11	O
+,	11	12	O
+the	13	16	O
+prediction	17	27	B-Task
+of	28	30	I-Task
+solar	31	36	I-Task
+cell	37	41	I-Task
+’s	41	43	I-Task
+temperature	44	55	I-Task
+is	56	58	O
+very	59	63	O
+important	64	73	O
+for	74	77	O
+the	78	81	O
+electrical	82	92	O
+characterisation	93	109	O
+of	110	112	O
+CPV	113	116	B-Process
+modules	117	124	O
+.	124	125	O
+
+Rodrigo	126	133	O
+et	134	136	O
+al	137	139	O
+.	139	140	O
+
+(	141	142	O
+2014	142	146	O
+)	146	147	O
+reviewed	148	156	O
+various	157	164	O
+methods	165	172	O
+for	173	176	O
+the	177	180	O
+calculation	181	192	B-Task
+of	193	195	I-Task
+the	196	199	I-Task
+cell	200	204	I-Task
+temperature	205	216	I-Task
+in	217	219	O
+High	220	224	B-Process
+Concentrator	225	237	I-Process
+PV	238	240	I-Process
+(	241	242	O
+HCPV	242	246	B-Process
+)	246	247	O
+modules	248	255	O
+.	255	256	O
+
+The	257	260	O
+methods	261	268	O
+were	269	273	O
+categorised	274	285	O
+based	286	291	O
+on	292	294	O
+:	294	295	O
+(	296	297	O
+1	297	298	O
+)	298	299	O
+heat	300	304	O
+sink	305	309	O
+temperature	310	321	O
+,	321	322	O
+(	323	324	O
+2	324	325	O
+)	325	326	O
+electrical	327	337	O
+parameters	338	348	O
+and	349	352	O
+(	353	354	O
+3	354	355	O
+)	355	356	O
+atmospheric	357	368	O
+parameters	369	379	O
+.	379	380	O
+
+The	381	384	O
+first	385	390	O
+two	391	394	O
+categories	395	405	O
+are	406	409	O
+based	410	415	O
+on	416	418	O
+direct	419	425	O
+measurements	426	438	O
+of	439	441	O
+CPV	442	445	B-Process
+modules	446	453	O
+in	454	456	O
+indoor	457	463	O
+or	464	466	O
+outdoor	467	474	O
+experimental	475	487	O
+setups	488	494	O
+and	495	498	O
+presented	499	508	O
+the	509	512	O
+highest	513	520	O
+degree	521	527	O
+of	528	530	O
+accuracy	531	539	O
+(	540	541	O
+Root	541	545	O
+Mean	546	550	O
+Square	551	557	O
+Error	558	563	O
+(	564	565	O
+RMSE	565	569	O
+)	569	570	O
+
+1.7–2.5	571	578	O
+K	578	579	O
+)	579	580	O
+.	580	581	O
+
+Most	582	586	O
+of	587	589	O
+the	590	593	O
+methods	594	601	O
+reviewed	602	610	O
+by	611	613	O
+Rodrigo	614	621	O
+et	622	624	O
+al	625	627	O
+.	627	628	O
+
+(	629	630	O
+2014	630	634	O
+)	634	635	O
+calculate	636	645	B-Task
+the	646	649	I-Task
+cell	650	654	I-Task
+temperature	655	666	I-Task
+at	667	669	O
+open	670	674	B-Process
+-	674	675	I-Process
+circuit	675	682	I-Process
+conditions	683	693	I-Process
+.	693	694	O
+
+Methods	695	702	O
+that	703	707	O
+predict	708	715	O
+the	716	719	O
+cell	720	724	O
+temperature	725	736	O
+at	737	739	O
+maximum	740	747	B-Process
+power	748	753	I-Process
+point	754	759	I-Process
+(	760	761	O
+MPP	761	764	B-Process
+)	764	765	O
+operation	766	775	O
+offer	776	781	O
+a	782	783	O
+more	784	788	O
+realistic	789	798	O
+approach	799	807	O
+since	808	813	O
+they	814	818	O
+include	819	826	O
+the	827	830	O
+electrical	831	841	B-Process
+energy	842	848	I-Process
+generation	849	859	I-Process
+of	860	862	O
+the	863	866	O
+solar	867	872	B-Material
+cells	873	878	I-Material
+(	879	880	O
+i.e.	880	884	O
+real	885	889	O
+operating	890	899	O
+conditions	900	910	O
+)	910	911	O
+;	911	912	O
+Yandt	913	918	O
+et	919	921	O
+al	922	924	O
+.	924	925	O
+
+(	926	927	O
+2012	927	931	O
+)	931	932	O
+described	933	942	O
+a	943	944	O
+method	945	951	O
+predicting	952	962	B-Task
+the	963	966	I-Task
+cell	967	971	I-Task
+temperature	972	983	I-Task
+at	984	986	I-Task
+MPP	987	990	I-Task
+based	991	996	O
+on	997	999	O
+electrical	1000	1010	O
+parameters	1011	1021	O
+and	1022	1025	O
+Fernández	1026	1035	O
+et	1036	1038	O
+al	1039	1041	O
+.	1041	1042	O
+
+(	1043	1044	O
+2014b	1044	1049	O
+)	1049	1050	O
+based	1051	1056	O
+on	1057	1059	O
+heat	1060	1064	O
+sink	1065	1069	O
+temperature	1070	1081	O
+with	1082	1086	O
+absolute	1087	1095	O
+RMSE	1096	1100	O
+0.55–1.44K.	1101	1112	O
+Fernández	1113	1122	O
+et	1123	1125	O
+al	1126	1128	O
+.	1128	1129	O
+
+(	1130	1131	O
+2014a	1131	1136	O
+)	1136	1137	O
+also	1138	1142	O
+proposed	1143	1151	O
+an	1152	1154	O
+artificial	1155	1165	B-Process
+neural	1166	1172	I-Process
+network	1173	1180	I-Process
+model	1181	1186	I-Process
+to	1187	1189	O
+estimate	1190	1198	B-Task
+the	1199	1202	I-Task
+cell	1203	1207	I-Task
+temperature	1208	1219	I-Task
+based	1220	1225	O
+on	1226	1228	O
+atmospheric	1229	1240	O
+parameters	1241	1251	O
+and	1252	1255	O
+an	1256	1258	O
+open	1259	1263	B-Process
+-	1263	1264	I-Process
+circuit	1264	1271	I-Process
+voltage	1272	1279	I-Process
+model	1280	1285	I-Process
+based	1286	1291	O
+on	1292	1294	O
+electrical	1295	1305	O
+parameters	1306	1316	O
+(	1317	1318	O
+Fernandez	1318	1327	O
+et	1328	1330	O
+al	1331	1333	O
+.	1333	1334	O
+,	1334	1335	O
+2013a	1336	1341	O
+)	1341	1342	O
+offering	1343	1351	O
+good	1352	1356	O
+accuracy	1357	1365	O
+(	1366	1367	O
+RMSE	1367	1371	O
+3.2	1372	1375	O
+K	1375	1376	O
+and	1377	1380	O
+2.5	1381	1384	O
+K	1384	1385	O
+respectively	1386	1398	O
+(	1399	1400	O
+Rodrigo	1400	1407	O
+et	1408	1410	O
+al	1411	1413	O
+.	1413	1414	O
+,	1414	1415	O
+2014	1416	1420	O
+)	1420	1421	O
+)	1421	1422	O
+.	1422	1423	O
+
+The	1424	1427	O
+main	1428	1432	O
+disadvantage	1433	1445	O
+of	1446	1448	O
+the	1449	1452	O
+aforementioned	1453	1467	O
+methods	1468	1475	O
+is	1476	1478	O
+that	1479	1483	O
+an	1484	1486	O
+experimental	1487	1499	O
+setup	1500	1505	O
+is	1506	1508	O
+required	1509	1517	O
+to	1518	1520	O
+obtain	1521	1527	O
+the	1528	1531	O
+parameters	1532	1542	O
+used	1543	1547	O
+for	1548	1551	O
+the	1552	1555	O
+cell	1556	1560	B-Task
+temperature	1561	1572	I-Task
+calculation	1573	1584	I-Task
+.	1584	1585	O
 
 
 -DOCSTART- (S0045782514001947)
 
-Our	NN	O	O
-procedure	NN	O	O
-does	NN	O	O
-not	NN	O	O
-address	NN	O	O
-the	NN	O	O
-issue	NN	O	O
-of	NN	O	O
-how	NN	O	O
-parameterizations	NN	O	B-Process
-can	NN	O	O
-vary	NN	O	O
-for	NN	O	O
-different	NN	O	O
-flow	NN	O	B-Process
-types	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-Edeling	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-separate	NN	O	O
-calibrations	NN	O	O
-for	NN	O	O
-a	NN	O	O
-set	NN	O	O
-of	NN	O	O
-13	NN	O	O
-boundary	NN	O	B-Process
--	NN	O	I-Process
-layer	NN	O	I-Process
-flows	NN	O	I-Process
-.	NN	O	O
-
-They	NN	O	O
-summarized	NN	O	O
-this	NN	O	O
-information	NN	O	O
-across	NN	O	O
-calibrations	NN	O	O
-by	NN	O	O
-computing	NN	O	O
-Highest	NN	O	B-Process
-Posterior	NN	O	I-Process
--	NN	O	I-Process
-Density	NN	O	I-Process
-(	NN	O	O
-HPD	NN	O	B-Process
-)	NN	O	O
-intervals	NN	O	O
-,	NN	O	O
-and	NN	O	O
-subsequently	NN	O	O
-represent	NN	O	O
-the	NN	O	O
-total	NN	O	O
-solution	NN	O	O
-uncertainty	NN	O	O
-with	NN	O	O
-a	NN	O	O
-probability	NN	O	B-Material
--	NN	O	I-Material
-box	NN	O	I-Material
-(	NN	O	O
-p	NN	O	B-Material
--	NN	O	I-Material
-box	NN	O	I-Material
-)	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-p	NN	O	B-Material
--	NN	O	I-Material
-box	NN	O	I-Material
-represents	NN	O	O
-both	NN	O	O
-parameter	NN	O	O
-variability	NN	O	O
-across	NN	O	O
-flows	NN	O	B-Process
-,	NN	O	O
-and	NN	O	O
-epistemic	NN	O	O
-uncertainty	NN	O	O
-within	NN	O	O
-each	NN	O	O
-calibration	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-prediction	NN	O	O
-of	NN	O	O
-a	NN	O	O
-new	NN	O	O
-boundary	NN	O	B-Process
--	NN	O	I-Process
-layer	NN	O	I-Process
-flow	NN	O	I-Process
-is	NN	O	O
-made	NN	O	O
-with	NN	O	O
-uncertainty	NN	O	O
-bars	NN	O	O
-generated	NN	O	O
-from	NN	O	O
-this	NN	O	O
-uncertainty	NN	O	O
-information	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-resulting	NN	O	O
-error	NN	O	O
-estimate	NN	O	O
-is	NN	O	O
-shown	NN	O	O
-to	NN	O	O
-be	NN	O	O
-consistent	NN	O	O
-with	NN	O	O
-measurement	NN	O	O
-data	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-approach	NN	O	O
-is	NN	O	O
-helpful	NN	O	O
-,	NN	O	O
-but	NN	O	O
-it	NN	O	O
-might	NN	O	O
-be	NN	O	O
-extended	NN	O	O
-further	NN	O	O
-by	NN	O	O
-modelling	NN	O	B-Process
-proximity	NN	O	I-Process
-across	NN	O	I-Process
-flows	NN	O	I-Process
-through	NN	O	O
-a	NN	O	O
-distance	NN	O	O
-that	NN	O	O
-would	NN	O	O
-relate	NN	O	O
-to	NN	O	O
-the	NN	O	O
-flow	NN	O	B-Process
-characteristics	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-borrow	NN	O	O
-strength	NN	O	O
-across	NN	O	O
-calibrations	NN	O	O
-instead	NN	O	O
-of	NN	O	O
-splitting	NN	O	B-Process
-the	NN	O	I-Process
-calibrations	NN	O	I-Process
-and	NN	O	I-Process
-then	NN	O	I-Process
-merging	NN	O	I-Process
-the	NN	O	I-Process
-outcomes	NN	O	I-Process
-afterwards	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-a	NN	O	O
-challenging	NN	O	O
-but	NN	O	O
-attractive	NN	O	O
-venue	NN	O	O
-for	NN	O	O
-future	NN	O	O
-research	NN	O	O
-.	NN	O	O
+Our	0	3	O
+procedure	4	13	O
+does	14	18	O
+not	19	22	O
+address	23	30	O
+the	31	34	O
+issue	35	40	O
+of	41	43	O
+how	44	47	O
+parameterizations	48	65	B-Process
+can	66	69	O
+vary	70	74	O
+for	75	78	O
+different	79	88	O
+flow	89	93	B-Process
+types	94	99	O
+.	99	100	O
+
+However	101	108	O
+,	108	109	O
+Edeling	110	117	O
+et	118	120	O
+al	121	123	O
+.	123	124	O
+
+[	126	127	O
+9	127	128	O
+]	128	129	O
+carried	130	137	O
+out	138	141	O
+separate	142	150	O
+calibrations	151	163	O
+for	164	167	O
+a	168	169	O
+set	170	173	O
+of	174	176	O
+13	177	179	O
+boundary	180	188	B-Process
+-	188	189	I-Process
+layer	189	194	I-Process
+flows	195	200	I-Process
+.	200	201	O
+
+They	202	206	O
+summarized	207	217	O
+this	218	222	O
+information	223	234	O
+across	235	241	O
+calibrations	242	254	O
+by	255	257	O
+computing	258	267	O
+Highest	268	275	B-Process
+Posterior	276	285	I-Process
+-	285	286	I-Process
+Density	286	293	I-Process
+(	294	295	O
+HPD	295	298	B-Process
+)	298	299	O
+intervals	300	309	O
+,	309	310	O
+and	311	314	O
+subsequently	315	327	O
+represent	328	337	O
+the	338	341	O
+total	342	347	O
+solution	348	356	O
+uncertainty	357	368	O
+with	369	373	O
+a	374	375	O
+probability	376	387	B-Material
+-	387	388	I-Material
+box	388	391	I-Material
+(	392	393	O
+p	393	394	B-Material
+-	394	395	I-Material
+box	395	398	I-Material
+)	398	399	O
+.	399	400	O
+
+This	401	405	O
+p	406	407	B-Material
+-	407	408	I-Material
+box	408	411	I-Material
+represents	412	422	O
+both	423	427	O
+parameter	428	437	O
+variability	438	449	O
+across	450	456	O
+flows	457	462	B-Process
+,	462	463	O
+and	464	467	O
+epistemic	468	477	O
+uncertainty	478	489	O
+within	490	496	O
+each	497	501	O
+calibration	502	513	O
+.	513	514	O
+
+A	515	516	O
+prediction	517	527	O
+of	528	530	O
+a	531	532	O
+new	533	536	O
+boundary	537	545	B-Process
+-	545	546	I-Process
+layer	546	551	I-Process
+flow	552	556	I-Process
+is	557	559	O
+made	560	564	O
+with	565	569	O
+uncertainty	570	581	O
+bars	582	586	O
+generated	587	596	O
+from	597	601	O
+this	602	606	O
+uncertainty	607	618	O
+information	619	630	O
+,	630	631	O
+and	632	635	O
+the	636	639	O
+resulting	640	649	O
+error	650	655	O
+estimate	656	664	O
+is	665	667	O
+shown	668	673	O
+to	674	676	O
+be	677	679	O
+consistent	680	690	O
+with	691	695	O
+measurement	696	707	O
+data	708	712	O
+.	712	713	O
+
+This	714	718	O
+approach	719	727	O
+is	728	730	O
+helpful	731	738	O
+,	738	739	O
+but	740	743	O
+it	744	746	O
+might	747	752	O
+be	753	755	O
+extended	756	764	O
+further	765	772	O
+by	773	775	O
+modelling	776	785	B-Process
+proximity	786	795	I-Process
+across	796	802	I-Process
+flows	803	808	I-Process
+through	809	816	O
+a	817	818	O
+distance	819	827	O
+that	828	832	O
+would	833	838	O
+relate	839	845	O
+to	846	848	O
+the	849	852	O
+flow	853	857	B-Process
+characteristics	858	873	O
+in	874	876	O
+order	877	882	O
+to	883	885	O
+borrow	886	892	O
+strength	893	901	O
+across	902	908	O
+calibrations	909	921	O
+instead	922	929	O
+of	930	932	O
+splitting	933	942	B-Process
+the	943	946	I-Process
+calibrations	947	959	I-Process
+and	960	963	I-Process
+then	964	968	I-Process
+merging	969	976	I-Process
+the	977	980	I-Process
+outcomes	981	989	I-Process
+afterwards	990	1000	O
+.	1000	1001	O
+
+This	1002	1006	O
+is	1007	1009	O
+a	1010	1011	O
+challenging	1012	1023	O
+but	1024	1027	O
+attractive	1028	1038	O
+venue	1039	1044	O
+for	1045	1048	O
+future	1049	1055	O
+research	1056	1064	O
+.	1064	1065	O
 
 
 -DOCSTART- (S0045782515001322)
 
-One	NN	O	O
-of	NN	O	O
-the	NN	O	O
-most	NN	O	O
-important	NN	O	O
-outcomes	NN	O	O
-of	NN	O	O
-the	NN	O	O
-comparative	NN	O	B-Task
-analysis	NN	O	I-Task
-is	NN	O	O
-the	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-in	NN	O	O
-all	NN	O	O
-tested	NN	O	O
-cases	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-FM	NN	O	B-Process
-is	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-a	NN	O	O
-dramatic	NN	O	O
-reduction	NN	O	O
-in	NN	O	O
-computational	NN	O	O
-time	NN	O	O
-when	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-FE	NN	O	B-Process
-,	NN	O	O
-generally	NN	O	O
-being	NN	O	O
-in	NN	O	O
-the	NN	O	O
-order	NN	O	O
-of	NN	O	O
-seconds	NN	O	O
-for	NN	O	O
-FM	NN	O	B-Process
-and	NN	O	O
-in	NN	O	O
-the	NN	O	O
-order	NN	O	O
-of	NN	O	O
-hours	NN	O	O
-for	NN	O	O
-FE	NN	O	B-Process
-.	NN	O	O
-
-Table	NN	O	O
-1	NN	O	O
-reports	NN	O	O
-the	NN	O	O
-timings	NN	O	O
-of	NN	O	O
-the	NN	O	O
-simulations	NN	O	O
-for	NN	O	O
-both	NN	O	O
-methods	NN	O	O
-.	NN	O	O
-
-Free	NN	O	O
-expansion	NN	O	O
-is	NN	O	O
-the	NN	O	O
-fastest	NN	O	O
-case	NN	O	O
-,	NN	O	O
-where	NN	O	O
-FM	NN	O	B-Process
-reaches	NN	O	O
-the	NN	O	O
-load	NN	O	O
--	NN	O	O
-free	NN	O	O
-configuration	NN	O	O
-in	NN	O	O
-just	NN	O	O
-2	NN	O	O
-s	NN	O	O
-,	NN	O	O
-while	NN	O	O
-simulations	NN	O	B-Process
-inside	NN	O	O
-the	NN	O	O
-vessels	NN	O	B-Material
-with	NN	O	O
-the	NN	O	O
-diameter	NN	O	O
-of	NN	O	O
-around	NN	O	O
-30	NN	O	O
-mm	NN	O	O
-take	NN	O	O
-approximately	NN	O	O
-30	NN	O	O
-s.	NN	O	O
-
-Most	NN	O	O
-of	NN	O	O
-the	NN	O	O
-execution	NN	O	O
-time	NN	O	O
-of	NN	O	O
-the	NN	O	O
-FM	NN	O	B-Process
-deployment	NN	O	I-Process
-algorithm	NN	O	I-Process
-is	NN	O	O
-dedicated	NN	O	O
-to	NN	O	O
-the	NN	O	O
-contact	NN	O	O
-check	NN	O	O
-and	NN	O	O
-calculations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-implications	NN	O	O
-the	NN	O	O
-vessel	NN	O	B-Material
-wall	NN	O	I-Material
-has	NN	O	O
-on	NN	O	O
-the	NN	O	O
-stent	NN	O	O
-structure	NN	O	O
-.	NN	O	O
-
-Interestingly	NN	O	O
-,	NN	O	O
-in	NN	O	O
-both	NN	O	O
-methods	NN	O	O
-,	NN	O	O
-the	NN	O	O
-highest	NN	O	O
-computational	NN	O	O
-time	NN	O	O
-(	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-curved	NN	O	B-Material
-vessels	NN	O	I-Material
-)	NN	O	O
-is	NN	O	O
-not	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-the	NN	O	O
-most	NN	O	O
-complex	NN	O	O
-geometry	NN	O	O
-(	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-patient	NN	O	O
--	NN	O	O
-specific	NN	O	O
-case	NN	O	O
-of	NN	O	O
-aortic	NN	O	O
-dissection	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Another	NN	O	O
-fact	NN	O	O
-worth	NN	O	O
-mentioning	NN	O	O
-is	NN	O	O
-the	NN	O	O
-relation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-time	NN	O	O
-to	NN	O	O
-the	NN	O	O
-diameter	NN	O	O
-of	NN	O	O
-the	NN	O	O
-vessel	NN	O	B-Material
-in	NN	O	O
-both	NN	O	O
-methods	NN	O	O
-.	NN	O	O
-
-While	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-time	NN	O	O
-of	NN	O	O
-FM	NN	O	B-Process
-appeared	NN	O	O
-to	NN	O	O
-be	NN	O	O
-directly	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-diameter	NN	O	O
-of	NN	O	O
-the	NN	O	O
-vessel	NN	O	B-Material
-,	NN	O	O
-no	NN	O	O
-immediate	NN	O	O
-relation	NN	O	O
-was	NN	O	O
-found	NN	O	O
-for	NN	O	O
-the	NN	O	O
-FE	NN	O	B-Process
-simulations	NN	O	I-Process
-.	NN	O	O
-
-Such	NN	O	O
-outcome	NN	O	O
-is	NN	O	O
-probably	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-simplified	NN	O	B-Process
-contact	NN	O	I-Process
-model	NN	O	I-Process
-used	NN	O	O
-by	NN	O	O
-FM	NN	O	B-Process
-,	NN	O	O
-which	NN	O	O
-makes	NN	O	O
-the	NN	O	O
-stent	NN	O	B-Process
--	NN	O	I-Process
-graft	NN	O	I-Process
-expansion	NN	O	I-Process
-terminate	NN	O	O
-once	NN	O	O
-the	NN	O	O
-nodes	NN	O	B-Material
-come	NN	O	O
-in	NN	O	O
-contact	NN	O	O
-with	NN	O	O
-the	NN	O	O
-vessel	NN	O	B-Material
-wall	NN	O	I-Material
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-contrary	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-well	NN	O	O
-known	NN	O	O
-that	NN	O	O
-the	NN	O	O
-contact	NN	O	B-Process
-algorithm	NN	O	I-Process
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-FE	NN	O	B-Process
-analyses	NN	O	I-Process
-increases	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-cost	NN	O	O
-of	NN	O	O
-the	NN	O	O
-simulations	NN	O	B-Process
-.	NN	O	O
+One	0	3	O
+of	4	6	O
+the	7	10	O
+most	11	15	O
+important	16	25	O
+outcomes	26	34	O
+of	35	37	O
+the	38	41	O
+comparative	42	53	B-Task
+analysis	54	62	I-Task
+is	63	65	O
+the	66	69	O
+fact	70	74	O
+that	75	79	O
+in	80	82	O
+all	83	86	O
+tested	87	93	O
+cases	94	99	O
+the	100	103	O
+use	104	107	O
+of	108	110	O
+FM	111	113	B-Process
+is	114	116	O
+associated	117	127	O
+with	128	132	O
+a	133	134	O
+dramatic	135	143	O
+reduction	144	153	O
+in	154	156	O
+computational	157	170	O
+time	171	175	O
+when	176	180	O
+compared	181	189	O
+with	190	194	O
+FE	195	197	B-Process
+,	197	198	O
+generally	199	208	O
+being	209	214	O
+in	215	217	O
+the	218	221	O
+order	222	227	O
+of	228	230	O
+seconds	231	238	O
+for	239	242	O
+FM	243	245	B-Process
+and	246	249	O
+in	250	252	O
+the	253	256	O
+order	257	262	O
+of	263	265	O
+hours	266	271	O
+for	272	275	O
+FE	276	278	B-Process
+.	278	279	O
+
+Table	280	285	O
+1	286	287	O
+reports	288	295	O
+the	296	299	O
+timings	300	307	O
+of	308	310	O
+the	311	314	O
+simulations	315	326	O
+for	327	330	O
+both	331	335	O
+methods	336	343	O
+.	343	344	O
+
+Free	345	349	O
+expansion	350	359	O
+is	360	362	O
+the	363	366	O
+fastest	367	374	O
+case	375	379	O
+,	379	380	O
+where	381	386	O
+FM	387	389	B-Process
+reaches	390	397	O
+the	398	401	O
+load	402	406	O
+-	406	407	O
+free	407	411	O
+configuration	412	425	O
+in	426	428	O
+just	429	433	O
+2	434	435	O
+s	436	437	O
+,	437	438	O
+while	439	444	O
+simulations	445	456	B-Process
+inside	457	463	O
+the	464	467	O
+vessels	468	475	B-Material
+with	476	480	O
+the	481	484	O
+diameter	485	493	O
+of	494	496	O
+around	497	503	O
+30	504	506	O
+mm	507	509	O
+take	510	514	O
+approximately	515	528	O
+30	529	531	O
+s.	532	534	O
+
+Most	535	539	O
+of	540	542	O
+the	543	546	O
+execution	547	556	O
+time	557	561	O
+of	562	564	O
+the	565	568	O
+FM	569	571	B-Process
+deployment	572	582	I-Process
+algorithm	583	592	I-Process
+is	593	595	O
+dedicated	596	605	O
+to	606	608	O
+the	609	612	O
+contact	613	620	O
+check	621	626	O
+and	627	630	O
+calculations	631	643	O
+of	644	646	O
+the	647	650	O
+implications	651	663	O
+the	664	667	O
+vessel	668	674	B-Material
+wall	675	679	I-Material
+has	680	683	O
+on	684	686	O
+the	687	690	O
+stent	691	696	O
+structure	697	706	O
+.	706	707	O
+
+Interestingly	708	721	O
+,	721	722	O
+in	723	725	O
+both	726	730	O
+methods	731	738	O
+,	738	739	O
+the	740	743	O
+highest	744	751	O
+computational	752	765	O
+time	766	770	O
+(	771	772	O
+i.e.	772	776	O
+,	776	777	O
+curved	778	784	B-Material
+vessels	785	792	I-Material
+)	792	793	O
+is	794	796	O
+not	797	800	O
+associated	801	811	O
+with	812	816	O
+the	817	820	O
+most	821	825	O
+complex	826	833	O
+geometry	834	842	O
+(	843	844	O
+i.e.	844	848	O
+,	848	849	O
+patient	850	857	O
+-	857	858	O
+specific	858	866	O
+case	867	871	O
+of	872	874	O
+aortic	875	881	O
+dissection	882	892	O
+)	892	893	O
+.	893	894	O
+
+Another	895	902	O
+fact	903	907	O
+worth	908	913	O
+mentioning	914	924	O
+is	925	927	O
+the	928	931	O
+relation	932	940	O
+of	941	943	O
+the	944	947	O
+computational	948	961	O
+time	962	966	O
+to	967	969	O
+the	970	973	O
+diameter	974	982	O
+of	983	985	O
+the	986	989	O
+vessel	990	996	B-Material
+in	997	999	O
+both	1000	1004	O
+methods	1005	1012	O
+.	1012	1013	O
+
+While	1014	1019	O
+the	1020	1023	O
+computational	1024	1037	O
+time	1038	1042	O
+of	1043	1045	O
+FM	1046	1048	B-Process
+appeared	1049	1057	O
+to	1058	1060	O
+be	1061	1063	O
+directly	1064	1072	O
+related	1073	1080	O
+to	1081	1083	O
+the	1084	1087	O
+diameter	1088	1096	O
+of	1097	1099	O
+the	1100	1103	O
+vessel	1104	1110	B-Material
+,	1110	1111	O
+no	1112	1114	O
+immediate	1115	1124	O
+relation	1125	1133	O
+was	1134	1137	O
+found	1138	1143	O
+for	1144	1147	O
+the	1148	1151	O
+FE	1152	1154	B-Process
+simulations	1155	1166	I-Process
+.	1166	1167	O
+
+Such	1168	1172	O
+outcome	1173	1180	O
+is	1181	1183	O
+probably	1184	1192	O
+related	1193	1200	O
+to	1201	1203	O
+the	1204	1207	O
+simplified	1208	1218	B-Process
+contact	1219	1226	I-Process
+model	1227	1232	I-Process
+used	1233	1237	O
+by	1238	1240	O
+FM	1241	1243	B-Process
+,	1243	1244	O
+which	1245	1250	O
+makes	1251	1256	O
+the	1257	1260	O
+stent	1261	1266	B-Process
+-	1266	1267	I-Process
+graft	1267	1272	I-Process
+expansion	1273	1282	I-Process
+terminate	1283	1292	O
+once	1293	1297	O
+the	1298	1301	O
+nodes	1302	1307	B-Material
+come	1308	1312	O
+in	1313	1315	O
+contact	1316	1323	O
+with	1324	1328	O
+the	1329	1332	O
+vessel	1333	1339	B-Material
+wall	1340	1344	I-Material
+.	1344	1345	O
+
+On	1346	1348	O
+the	1349	1352	O
+contrary	1353	1361	O
+,	1361	1362	O
+it	1363	1365	O
+is	1366	1368	O
+well	1369	1373	O
+known	1374	1379	O
+that	1380	1384	O
+the	1385	1388	O
+contact	1389	1396	B-Process
+algorithm	1397	1406	I-Process
+used	1407	1411	O
+in	1412	1414	O
+the	1415	1418	O
+FE	1419	1421	B-Process
+analyses	1422	1430	I-Process
+increases	1431	1440	O
+the	1441	1444	O
+computational	1445	1458	O
+cost	1459	1463	O
+of	1464	1466	O
+the	1467	1470	O
+simulations	1471	1482	B-Process
+.	1482	1483	O
 
 
 -DOCSTART- (S0079642514000784)
 
-Gas	NN	O	B-Process
-sorption	NN	O	I-Process
-,	NN	O	I-Process
-storage	NN	O	I-Process
-and	NN	O	I-Process
-separation	NN	O	I-Process
-in	NN	O	O
-carbon	NN	O	B-Material
-materials	NN	O	I-Material
-are	NN	O	O
-mainly	NN	O	O
-based	NN	O	O
-on	NN	O	O
-physisorption	NN	O	B-Process
-on	NN	O	O
-the	NN	O	O
-surfaces	NN	O	O
-and	NN	O	O
-particularly	NN	O	O
-depend	NN	O	O
-on	NN	O	O
-the	NN	O	O
-electrostatic	NN	O	B-Process
-and	NN	O	I-Process
-dispersion	NN	O	I-Process
-(	NN	O	I-Process
-i.e.	NN	O	I-Process
-,	NN	O	I-Process
-vdW	NN	O	I-Process
-)	NN	O	I-Process
-interactions	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-former	NN	O	O
-can	NN	O	O
-be	NN	O	O
-tuned	NN	O	O
-by	NN	O	O
-introducing	NN	O	B-Process
-charge	NN	O	I-Process
-variations	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-material	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-by	NN	O	O
-chemical	NN	O	B-Process
-substitution	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-strength	NN	O	O
-of	NN	O	O
-the	NN	O	O
-interaction	NN	O	O
-is	NN	O	O
-determined	NN	O	O
-by	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-characteristics	NN	O	O
-of	NN	O	O
-the	NN	O	O
-adsorbent	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-targeted	NN	O	O
-adsorbate	NN	O	B-Material
-molecule	NN	O	I-Material
-,	NN	O	O
-including	NN	O	O
-but	NN	O	O
-not	NN	O	O
-limited	NN	O	O
-to	NN	O	O
-the	NN	O	O
-size	NN	O	O
-and	NN	O	O
-shape	NN	O	O
-of	NN	O	O
-the	NN	O	O
-adsorbate	NN	O	B-Material
-molecule	NN	O	I-Material
-along	NN	O	O
-with	NN	O	O
-its	NN	O	O
-polarizability	NN	O	O
-,	NN	O	O
-magnetic	NN	O	O
-susceptibility	NN	O	O
-,	NN	O	O
-permanent	NN	O	O
-dipole	NN	O	O
-moment	NN	O	O
-,	NN	O	O
-and	NN	O	O
-quadrupole	NN	O	O
-moment	NN	O	O
-.	NN	O	O
-
-Li	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-summarise	NN	O	O
-the	NN	O	O
-adsorption	NN	O	O
--	NN	O	O
-related	NN	O	O
-physical	NN	O	O
-parameters	NN	O	O
-of	NN	O	O
-many	NN	O	O
-gas	NN	O	B-Material
-or	NN	O	I-Material
-vapour	NN	O	I-Material
-adsorbates	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-herein	NN	O	O
-Table	NN	O	O
-1	NN	O	O
-
-we	NN	O	O
-show	NN	O	O
-a	NN	O	O
-few	NN	O	O
-of	NN	O	O
-those	NN	O	O
-of	NN	O	O
-interest	NN	O	O
-,	NN	O	O
-H2	NN	O	B-Material
-,	NN	O	O
-N2	NN	O	B-Material
-,	NN	O	O
-CO	NN	O	B-Material
-,	NN	O	O
-CO2	NN	O	B-Material
-,	NN	O	O
-CH4	NN	O	B-Material
-,	NN	O	O
-NH3	NN	O	B-Material
-,	NN	O	O
-SO2	NN	O	B-Material
-and	NN	O	O
-H2S	NN	O	B-Material
-
-[	NN	O	O
-90	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-instance	NN	O	O
-,	NN	O	O
-an	NN	O	O
-adsorbent	NN	O	B-Material
-with	NN	O	O
-a	NN	O	O
-high	NN	O	O
-specific	NN	O	O
-surface	NN	O	O
-area	NN	O	O
-is	NN	O	O
-a	NN	O	O
-good	NN	O	O
-candidate	NN	O	O
-for	NN	O	O
-adsorption	NN	O	O
-of	NN	O	O
-a	NN	O	O
-molecule	NN	O	B-Material
-with	NN	O	O
-high	NN	O	O
-polarizability	NN	O	O
-but	NN	O	O
-no	NN	O	O
-polarity	NN	O	O
-.	NN	O	O
-
-Adsorbents	NN	O	B-Material
-with	NN	O	O
-highly	NN	O	O
-polarised	NN	O	O
-surfaces	NN	O	O
-are	NN	O	O
-good	NN	O	O
-for	NN	O	O
-adsorbate	NN	O	B-Material
-molecules	NN	O	I-Material
-with	NN	O	O
-a	NN	O	O
-high	NN	O	O
-dipole	NN	O	O
-moment	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-adsorbents	NN	O	B-Material
-with	NN	O	O
-high	NN	O	O
-electric	NN	O	O
-field	NN	O	O
-gradient	NN	O	O
-surfaces	NN	O	O
-are	NN	O	O
-found	NN	O	O
-to	NN	O	O
-be	NN	O	O
-ideal	NN	O	O
-for	NN	O	O
-the	NN	O	O
-high	NN	O	B-Material
-quadrupole	NN	O	I-Material
-moment	NN	O	I-Material
-adsorbate	NN	O	I-Material
-molecules	NN	O	I-Material
-[	NN	O	O
-91	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Normally	NN	O	O
-,	NN	O	O
-the	NN	O	O
-binding	NN	O	O
-or	NN	O	O
-adsorption	NN	O	O
-strength	NN	O	O
-with	NN	O	O
-a	NN	O	O
-carbon	NN	O	O
-nanostructure	NN	O	O
-is	NN	O	O
-relatively	NN	O	O
-low	NN	O	O
-for	NN	O	O
-H2	NN	O	B-Material
-and	NN	O	O
-N2	NN	O	B-Material
-;	NN	O	O
-intermediate	NN	O	O
-for	NN	O	O
-CO	NN	O	B-Material
-,	NN	O	O
-CH4	NN	O	B-Material
-and	NN	O	O
-CO2	NN	O	B-Material
-;	NN	O	O
-and	NN	O	O
-relatively	NN	O	O
-high	NN	O	O
-for	NN	O	O
-H2S	NN	O	B-Material
-,	NN	O	O
-NH3	NN	O	B-Material
-and	NN	O	O
-H2O.	NN	O	B-Material
-
-Thus	NN	O	O
-,	NN	O	O
-surface	NN	O	B-Process
-modifications	NN	O	I-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-doping	NN	O	B-Process
-,	NN	O	O
-functionalization	NN	O	B-Process
-and	NN	O	O
-improving	NN	O	B-Process
-the	NN	O	I-Process
-pore	NN	O	I-Process
-structure	NN	O	I-Process
-and	NN	O	I-Process
-specific	NN	O	I-Process
-surface	NN	O	I-Process
-area	NN	O	I-Process
-of	NN	O	I-Process
-nanocarbons	NN	O	I-Process
-,	NN	O	O
-are	NN	O	O
-important	NN	O	O
-to	NN	O	O
-enhance	NN	O	B-Task
-gas	NN	O	I-Task
-adsorption	NN	O	I-Task
-.	NN	O	O
-
-For	NN	O	O
-this	NN	O	O
-purpose	NN	O	O
-,	NN	O	O
-graphene	NN	O	B-Material
-offers	NN	O	O
-a	NN	O	O
-great	NN	O	O
-scope	NN	O	O
-for	NN	O	O
-tailor	NN	O	O
--	NN	O	O
-made	NN	O	O
-carbonaceous	NN	O	B-Material
-adsorbents	NN	O	I-Material
-.	NN	O	O
+Gas	0	3	B-Process
+sorption	4	12	I-Process
+,	12	13	I-Process
+storage	14	21	I-Process
+and	22	25	I-Process
+separation	26	36	I-Process
+in	37	39	O
+carbon	40	46	B-Material
+materials	47	56	I-Material
+are	57	60	O
+mainly	61	67	O
+based	68	73	O
+on	74	76	O
+physisorption	77	90	B-Process
+on	91	93	O
+the	94	97	O
+surfaces	98	106	O
+and	107	110	O
+particularly	111	123	O
+depend	124	130	O
+on	131	133	O
+the	134	137	O
+electrostatic	138	151	B-Process
+and	152	155	I-Process
+dispersion	156	166	I-Process
+(	167	168	I-Process
+i.e.	168	172	I-Process
+,	172	173	I-Process
+vdW	174	177	I-Process
+)	177	178	I-Process
+interactions	179	191	I-Process
+.	191	192	O
+
+The	193	196	O
+former	197	203	O
+can	204	207	O
+be	208	210	O
+tuned	211	216	O
+by	217	219	O
+introducing	220	231	B-Process
+charge	232	238	I-Process
+variations	239	249	I-Process
+in	250	252	I-Process
+the	253	256	I-Process
+material	257	265	I-Process
+,	265	266	O
+and	267	270	O
+the	271	274	O
+latter	275	281	O
+by	282	284	O
+chemical	285	293	B-Process
+substitution	294	306	I-Process
+.	306	307	O
+
+The	308	311	O
+strength	312	320	O
+of	321	323	O
+the	324	327	O
+interaction	328	339	O
+is	340	342	O
+determined	343	353	O
+by	354	356	O
+the	357	360	O
+surface	361	368	O
+characteristics	369	384	O
+of	385	387	O
+the	388	391	O
+adsorbent	392	401	B-Material
+and	402	405	O
+the	406	409	O
+properties	410	420	O
+of	421	423	O
+targeted	424	432	O
+adsorbate	433	442	B-Material
+molecule	443	451	I-Material
+,	451	452	O
+including	453	462	O
+but	463	466	O
+not	467	470	O
+limited	471	478	O
+to	479	481	O
+the	482	485	O
+size	486	490	O
+and	491	494	O
+shape	495	500	O
+of	501	503	O
+the	504	507	O
+adsorbate	508	517	B-Material
+molecule	518	526	I-Material
+along	527	532	O
+with	533	537	O
+its	538	541	O
+polarizability	542	556	O
+,	556	557	O
+magnetic	558	566	O
+susceptibility	567	581	O
+,	581	582	O
+permanent	583	592	O
+dipole	593	599	O
+moment	600	606	O
+,	606	607	O
+and	608	611	O
+quadrupole	612	622	O
+moment	623	629	O
+.	629	630	O
+
+Li	631	633	O
+et	634	636	O
+al	637	639	O
+.	639	640	O
+summarise	641	650	O
+the	651	654	O
+adsorption	655	665	O
+-	665	666	O
+related	666	673	O
+physical	674	682	O
+parameters	683	693	O
+of	694	696	O
+many	697	701	O
+gas	702	705	B-Material
+or	706	708	I-Material
+vapour	709	715	I-Material
+adsorbates	716	726	I-Material
+,	726	727	O
+and	728	731	O
+herein	732	738	O
+Table	739	744	O
+1	745	746	O
+
+we	747	749	O
+show	750	754	O
+a	755	756	O
+few	757	760	O
+of	761	763	O
+those	764	769	O
+of	770	772	O
+interest	773	781	O
+,	781	782	O
+H2	783	785	B-Material
+,	785	786	O
+N2	787	789	B-Material
+,	789	790	O
+CO	791	793	B-Material
+,	793	794	O
+CO2	795	798	B-Material
+,	798	799	O
+CH4	800	803	B-Material
+,	803	804	O
+NH3	805	808	B-Material
+,	808	809	O
+SO2	810	813	B-Material
+and	814	817	O
+H2S	818	821	B-Material
+
+[	822	823	O
+90	823	825	O
+]	825	826	O
+.	826	827	O
+
+For	828	831	O
+instance	832	840	O
+,	840	841	O
+an	842	844	O
+adsorbent	845	854	B-Material
+with	855	859	O
+a	860	861	O
+high	862	866	O
+specific	867	875	O
+surface	876	883	O
+area	884	888	O
+is	889	891	O
+a	892	893	O
+good	894	898	O
+candidate	899	908	O
+for	909	912	O
+adsorption	913	923	O
+of	924	926	O
+a	927	928	O
+molecule	929	937	B-Material
+with	938	942	O
+high	943	947	O
+polarizability	948	962	O
+but	963	966	O
+no	967	969	O
+polarity	970	978	O
+.	978	979	O
+
+Adsorbents	980	990	B-Material
+with	991	995	O
+highly	996	1002	O
+polarised	1003	1012	O
+surfaces	1013	1021	O
+are	1022	1025	O
+good	1026	1030	O
+for	1031	1034	O
+adsorbate	1035	1044	B-Material
+molecules	1045	1054	I-Material
+with	1055	1059	O
+a	1060	1061	O
+high	1062	1066	O
+dipole	1067	1073	O
+moment	1074	1080	O
+.	1080	1081	O
+
+The	1082	1085	O
+adsorbents	1086	1096	B-Material
+with	1097	1101	O
+high	1102	1106	O
+electric	1107	1115	O
+field	1116	1121	O
+gradient	1122	1130	O
+surfaces	1131	1139	O
+are	1140	1143	O
+found	1144	1149	O
+to	1150	1152	O
+be	1153	1155	O
+ideal	1156	1161	O
+for	1162	1165	O
+the	1166	1169	O
+high	1170	1174	B-Material
+quadrupole	1175	1185	I-Material
+moment	1186	1192	I-Material
+adsorbate	1193	1202	I-Material
+molecules	1203	1212	I-Material
+[	1213	1214	O
+91	1214	1216	O
+]	1216	1217	O
+.	1217	1218	O
+
+Normally	1219	1227	O
+,	1227	1228	O
+the	1229	1232	O
+binding	1233	1240	O
+or	1241	1243	O
+adsorption	1244	1254	O
+strength	1255	1263	O
+with	1264	1268	O
+a	1269	1270	O
+carbon	1271	1277	O
+nanostructure	1278	1291	O
+is	1292	1294	O
+relatively	1295	1305	O
+low	1306	1309	O
+for	1310	1313	O
+H2	1314	1316	B-Material
+and	1317	1320	O
+N2	1321	1323	B-Material
+;	1323	1324	O
+intermediate	1325	1337	O
+for	1338	1341	O
+CO	1342	1344	B-Material
+,	1344	1345	O
+CH4	1346	1349	B-Material
+and	1350	1353	O
+CO2	1354	1357	B-Material
+;	1357	1358	O
+and	1359	1362	O
+relatively	1363	1373	O
+high	1374	1378	O
+for	1379	1382	O
+H2S	1383	1386	B-Material
+,	1386	1387	O
+NH3	1388	1391	B-Material
+and	1392	1395	O
+H2O.	1396	1400	B-Material
+
+Thus	1401	1405	O
+,	1405	1406	O
+surface	1407	1414	B-Process
+modifications	1415	1428	I-Process
+,	1428	1429	O
+such	1430	1434	O
+as	1435	1437	O
+doping	1438	1444	B-Process
+,	1444	1445	O
+functionalization	1446	1463	B-Process
+and	1464	1467	O
+improving	1468	1477	B-Process
+the	1478	1481	I-Process
+pore	1482	1486	I-Process
+structure	1487	1496	I-Process
+and	1497	1500	I-Process
+specific	1501	1509	I-Process
+surface	1510	1517	I-Process
+area	1518	1522	I-Process
+of	1523	1525	I-Process
+nanocarbons	1526	1537	I-Process
+,	1537	1538	O
+are	1539	1542	O
+important	1543	1552	O
+to	1553	1555	O
+enhance	1556	1563	B-Task
+gas	1564	1567	I-Task
+adsorption	1568	1578	I-Task
+.	1578	1579	O
+
+For	1580	1583	O
+this	1584	1588	O
+purpose	1589	1596	O
+,	1596	1597	O
+graphene	1598	1606	B-Material
+offers	1607	1613	O
+a	1614	1615	O
+great	1616	1621	O
+scope	1622	1627	O
+for	1628	1631	O
+tailor	1632	1638	O
+-	1638	1639	O
+made	1639	1643	O
+carbonaceous	1644	1656	B-Material
+adsorbents	1657	1667	I-Material
+.	1667	1668	O
 
 
 -DOCSTART- (S0079642515000705)
 
-When	NN	O	O
-dominated	NN	O	O
-by	NN	O	O
-surface	NN	O	B-Process
-shadowing	NN	O	I-Process
-mechanisms	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-aggregation	NN	O	B-Process
-of	NN	O	I-Process
-vapor	NN	O	I-Process
-particles	NN	O	I-Process
-onto	NN	O	I-Process
-a	NN	O	I-Process
-surface	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-complex	NN	O	O
-,	NN	O	O
-non	NN	O	O
--	NN	O	O
-local	NN	O	O
-phenomenon	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-,	NN	O	O
-there	NN	O	O
-have	NN	O	O
-been	NN	O	O
-many	NN	O	O
-attempts	NN	O	O
-to	NN	O	O
-analyze	NN	O	B-Task
-the	NN	O	I-Task
-growth	NN	O	I-Task
-mechanism	NN	O	I-Task
-by	NN	O	O
-means	NN	O	O
-of	NN	O	O
-pure	NN	O	O
-geometrical	NN	O	B-Process
-considerations	NN	O	I-Process
-;	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-by	NN	O	O
-assuming	NN	O	O
-that	NN	O	O
-vapor	NN	O	B-Material
-particles	NN	O	I-Material
-arrive	NN	O	O
-at	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-surface	NN	O	I-Material
-along	NN	O	O
-a	NN	O	O
-single	NN	O	B-Process
-angular	NN	O	I-Process
-direction	NN	O	I-Process
-[	NN	O	O
-38,41	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Continuum	NN	O	B-Process
-approaches	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-the	NN	O	O
-geometrical	NN	O	B-Process
-features	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-(	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-the	NN	O	O
-nanocolumns	NN	O	B-Process
-)	NN	O	O
-are	NN	O	O
-much	NN	O	O
-larger	NN	O	O
-than	NN	O	O
-the	NN	O	O
-typical	NN	O	O
-size	NN	O	O
-of	NN	O	O
-an	NN	O	O
-atom	NN	O	B-Material
-[	NN	O	O
-42,266,267	NN	O	O
-]	NN	O	O
-,	NN	O	O
-have	NN	O	O
-been	NN	O	O
-also	NN	O	O
-explored	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-instance	NN	O	O
-,	NN	O	O
-Poxson	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-228	NN	O	O
-]	NN	O	O
-developed	NN	O	O
-an	NN	O	O
-analytic	NN	O	B-Process
-model	NN	O	I-Process
-that	NN	O	O
-takes	NN	O	O
-into	NN	O	O
-account	NN	O	O
-geometrical	NN	O	B-Process
-factors	NN	O	I-Process
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-surface	NN	O	B-Process
-diffusion	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-model	NN	O	O
-accurately	NN	O	O
-predicted	NN	O	O
-the	NN	O	O
-porosity	NN	O	O
-and	NN	O	O
-deposition	NN	O	O
-rate	NN	O	O
-of	NN	O	O
-thin	NN	O	B-Material
-films	NN	O	I-Material
-using	NN	O	O
-a	NN	O	O
-single	NN	O	O
-input	NN	O	O
-parameter	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-cross	NN	O	O
--	NN	O	O
-sectional	NN	O	O
-area	NN	O	O
-of	NN	O	O
-the	NN	O	O
-nanocolumns	NN	O	B-Material
-,	NN	O	O
-the	NN	O	O
-volume	NN	O	O
-of	NN	O	O
-material	NN	O	O
-and	NN	O	O
-the	NN	O	O
-thickness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-in	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-39	NN	O	O
-]	NN	O	O
-,	NN	O	O
-an	NN	O	O
-analytical	NN	O	B-Process
-semi	NN	O	I-Process
--	NN	O	I-Process
-empirical	NN	O	I-Process
-model	NN	O	I-Process
-was	NN	O	O
-presented	NN	O	O
-to	NN	O	O
-quantitatively	NN	O	B-Task
-describe	NN	O	I-Task
-the	NN	O	I-Task
-aggregation	NN	O	I-Task
-of	NN	O	I-Task
-columnar	NN	O	I-Task
-structures	NN	O	I-Task
-by	NN	O	O
-means	NN	O	O
-of	NN	O	O
-a	NN	O	O
-single	NN	O	O
-parameter	NN	O	O
-dubbed	NN	O	O
-the	NN	O	O
-fan	NN	O	O
-angle	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-material	NN	O	O
--	NN	O	O
-dependent	NN	O	O
-quantity	NN	O	O
-can	NN	O	O
-be	NN	O	O
-experimentally	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-performing	NN	O	O
-deposition	NN	O	O
-at	NN	O	O
-normal	NN	O	O
-incidence	NN	O	O
-on	NN	O	O
-an	NN	O	O
-imprinted	NN	O	O
-groove	NN	O	B-Material
-seeded	NN	O	I-Material
-substrate	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-then	NN	O	O
-measuring	NN	O	O
-the	NN	O	O
-increase	NN	O	O
-in	NN	O	O
-column	NN	O	O
-diameter	NN	O	O
-with	NN	O	O
-film	NN	O	B-Material
-thickness	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-model	NN	O	O
-was	NN	O	O
-tested	NN	O	O
-under	NN	O	O
-various	NN	O	O
-conditions	NN	O	O
-[	NN	O	O
-40	NN	O	O
-]	NN	O	O
-,	NN	O	O
-which	NN	O	O
-returned	NN	O	O
-good	NN	O	O
-results	NN	O	O
-and	NN	O	O
-an	NN	O	O
-accurate	NN	O	O
-prediction	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-relation	NN	O	I-Task
-between	NN	O	I-Task
-the	NN	O	I-Task
-incident	NN	O	I-Task
-angle	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-deposition	NN	O	I-Task
-flux	NN	O	I-Task
-and	NN	O	I-Task
-the	NN	O	I-Task
-tilt	NN	O	I-Task
-angle	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-columns	NN	O	I-Task
-for	NN	O	O
-several	NN	O	O
-materials	NN	O	O
-.	NN	O	O
+When	0	4	O
+dominated	5	14	O
+by	15	17	O
+surface	18	25	B-Process
+shadowing	26	35	I-Process
+mechanisms	36	46	I-Process
+,	46	47	O
+the	48	51	O
+aggregation	52	63	B-Process
+of	64	66	I-Process
+vapor	67	72	I-Process
+particles	73	82	I-Process
+onto	83	87	I-Process
+a	88	89	I-Process
+surface	90	97	I-Process
+is	98	100	O
+a	101	102	O
+complex	103	110	O
+,	110	111	O
+non	112	115	O
+-	115	116	O
+local	116	121	O
+phenomenon	122	132	O
+.	132	133	O
+
+In	134	136	O
+the	137	140	O
+literature	141	151	O
+,	151	152	O
+there	153	158	O
+have	159	163	O
+been	164	168	O
+many	169	173	O
+attempts	174	182	O
+to	183	185	O
+analyze	186	193	B-Task
+the	194	197	I-Task
+growth	198	204	I-Task
+mechanism	205	214	I-Task
+by	215	217	O
+means	218	223	O
+of	224	226	O
+pure	227	231	O
+geometrical	232	243	B-Process
+considerations	244	258	I-Process
+;	258	259	O
+i.e.	260	264	O
+,	264	265	O
+by	266	268	O
+assuming	269	277	O
+that	278	282	O
+vapor	283	288	B-Material
+particles	289	298	I-Material
+arrive	299	305	O
+at	306	308	O
+the	309	312	O
+film	313	317	B-Material
+surface	318	325	I-Material
+along	326	331	O
+a	332	333	O
+single	334	340	B-Process
+angular	341	348	I-Process
+direction	349	358	I-Process
+[	359	360	O
+38,41	360	365	O
+]	365	366	O
+.	366	367	O
+
+Continuum	368	377	B-Process
+approaches	378	388	I-Process
+,	388	389	O
+which	390	395	O
+are	396	399	O
+based	400	405	O
+on	406	408	O
+the	409	412	O
+fact	413	417	O
+that	418	422	O
+the	423	426	O
+geometrical	427	438	B-Process
+features	439	447	I-Process
+of	448	450	O
+the	451	454	O
+film	455	459	B-Material
+(	460	461	O
+i.e.	461	465	O
+,	465	466	O
+the	467	470	O
+nanocolumns	471	482	B-Process
+)	482	483	O
+are	484	487	O
+much	488	492	O
+larger	493	499	O
+than	500	504	O
+the	505	508	O
+typical	509	516	O
+size	517	521	O
+of	522	524	O
+an	525	527	O
+atom	528	532	B-Material
+[	533	534	O
+42,266,267	534	544	O
+]	544	545	O
+,	545	546	O
+have	547	551	O
+been	552	556	O
+also	557	561	O
+explored	562	570	O
+.	570	571	O
+
+For	572	575	O
+instance	576	584	O
+,	584	585	O
+Poxson	586	592	O
+et	593	595	O
+al	596	598	O
+.	598	599	O
+
+[	600	601	O
+228	601	604	O
+]	604	605	O
+developed	606	615	O
+an	616	618	O
+analytic	619	627	B-Process
+model	628	633	I-Process
+that	634	638	O
+takes	639	644	O
+into	645	649	O
+account	650	657	O
+geometrical	658	669	B-Process
+factors	670	677	I-Process
+as	678	680	O
+well	681	685	O
+as	686	688	O
+surface	689	696	B-Process
+diffusion	697	706	I-Process
+.	706	707	O
+
+This	708	712	O
+model	713	718	O
+accurately	719	729	O
+predicted	730	739	O
+the	740	743	O
+porosity	744	752	O
+and	753	756	O
+deposition	757	767	O
+rate	768	772	O
+of	773	775	O
+thin	776	780	B-Material
+films	781	786	I-Material
+using	787	792	O
+a	793	794	O
+single	795	801	O
+input	802	807	O
+parameter	808	817	O
+related	818	825	O
+to	826	828	O
+the	829	832	O
+cross	833	838	O
+-	838	839	O
+sectional	839	848	O
+area	849	853	O
+of	854	856	O
+the	857	860	O
+nanocolumns	861	872	B-Material
+,	872	873	O
+the	874	877	O
+volume	878	884	O
+of	885	887	O
+material	888	896	O
+and	897	900	O
+the	901	904	O
+thickness	905	914	O
+of	915	917	O
+the	918	921	O
+film	922	926	B-Material
+.	926	927	O
+
+Moreover	928	936	O
+,	936	937	O
+in	938	940	O
+Ref	941	944	O
+.	944	945	O
+
+[	946	947	O
+39	947	949	O
+]	949	950	O
+,	950	951	O
+an	952	954	O
+analytical	955	965	B-Process
+semi	966	970	I-Process
+-	970	971	I-Process
+empirical	971	980	I-Process
+model	981	986	I-Process
+was	987	990	O
+presented	991	1000	O
+to	1001	1003	O
+quantitatively	1004	1018	B-Task
+describe	1019	1027	I-Task
+the	1028	1031	I-Task
+aggregation	1032	1043	I-Task
+of	1044	1046	I-Task
+columnar	1047	1055	I-Task
+structures	1056	1066	I-Task
+by	1067	1069	O
+means	1070	1075	O
+of	1076	1078	O
+a	1079	1080	O
+single	1081	1087	O
+parameter	1088	1097	O
+dubbed	1098	1104	O
+the	1105	1108	O
+fan	1109	1112	O
+angle	1113	1118	O
+.	1118	1119	O
+
+This	1120	1124	O
+material	1125	1133	O
+-	1133	1134	O
+dependent	1134	1143	O
+quantity	1144	1152	O
+can	1153	1156	O
+be	1157	1159	O
+experimentally	1160	1174	O
+obtained	1175	1183	O
+by	1184	1186	O
+performing	1187	1197	O
+deposition	1198	1208	O
+at	1209	1211	O
+normal	1212	1218	O
+incidence	1219	1228	O
+on	1229	1231	O
+an	1232	1234	O
+imprinted	1235	1244	O
+groove	1245	1251	B-Material
+seeded	1252	1258	I-Material
+substrate	1259	1268	I-Material
+,	1268	1269	O
+and	1270	1273	O
+then	1274	1278	O
+measuring	1279	1288	O
+the	1289	1292	O
+increase	1293	1301	O
+in	1302	1304	O
+column	1305	1311	O
+diameter	1312	1320	O
+with	1321	1325	O
+film	1326	1330	B-Material
+thickness	1331	1340	O
+.	1340	1341	O
+
+This	1342	1346	O
+model	1347	1352	O
+was	1353	1356	O
+tested	1357	1363	O
+under	1364	1369	O
+various	1370	1377	O
+conditions	1378	1388	O
+[	1389	1390	O
+40	1390	1392	O
+]	1392	1393	O
+,	1393	1394	O
+which	1395	1400	O
+returned	1401	1409	O
+good	1410	1414	O
+results	1415	1422	O
+and	1423	1426	O
+an	1427	1429	O
+accurate	1430	1438	O
+prediction	1439	1449	B-Task
+of	1450	1452	I-Task
+the	1453	1456	I-Task
+relation	1457	1465	I-Task
+between	1466	1473	I-Task
+the	1474	1477	I-Task
+incident	1478	1486	I-Task
+angle	1487	1492	I-Task
+of	1493	1495	I-Task
+the	1496	1499	I-Task
+deposition	1500	1510	I-Task
+flux	1511	1515	I-Task
+and	1516	1519	I-Task
+the	1520	1523	I-Task
+tilt	1524	1528	I-Task
+angle	1529	1534	I-Task
+of	1535	1537	I-Task
+the	1538	1541	I-Task
+columns	1542	1549	I-Task
+for	1550	1553	O
+several	1554	1561	O
+materials	1562	1571	O
+.	1571	1572	O
 
 
 -DOCSTART- (S0167844214000652)
 
-A	NN	O	O
-bond	NN	O	B-Process
-failure	NN	O	I-Process
-is	NN	O	O
-thought	NN	O	O
-of	NN	O	O
-as	NN	O	O
-a	NN	O	O
-micro	NN	O	B-Process
--	NN	O	I-Process
-crack	NN	O	I-Process
-nucleation	NN	O	I-Process
-,	NN	O	O
-specifically	NN	O	O
-as	NN	O	O
-a	NN	O	O
-separation	NN	O	B-Process
-between	NN	O	I-Process
-the	NN	O	I-Process
-adjacent	NN	O	I-Process
-cells	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-cellular	NN	O	I-Process
-structure	NN	O	I-Process
-along	NN	O	I-Process
-their	NN	O	I-Process
-common	NN	O	I-Process
-face	NN	O	I-Process
-.	NN	O	O
-
-Initially	NN	O	O
-,	NN	O	O
-the	NN	O	O
-micro	NN	O	B-Material
--	NN	O	I-Material
-cracks	NN	O	I-Material
-may	NN	O	O
-be	NN	O	O
-dispersed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-model	NN	O	O
-reflecting	NN	O	O
-the	NN	O	O
-random	NN	O	O
-distribution	NN	O	O
-of	NN	O	O
-pore	NN	O	B-Material
-sizes	NN	O	O
-and	NN	O	O
-the	NN	O	O
-low	NN	O	O
-level	NN	O	O
-of	NN	O	O
-interaction	NN	O	O
-due	NN	O	O
-to	NN	O	O
-force	NN	O	O
-redistribution	NN	O	O
-.	NN	O	O
-
-Interaction	NN	O	O
-and	NN	O	O
-coalescence	NN	O	O
-may	NN	O	O
-follow	NN	O	O
-as	NN	O	O
-the	NN	O	O
-population	NN	O	O
-of	NN	O	O
-micro	NN	O	B-Material
--	NN	O	I-Material
-cracks	NN	O	I-Material
-increases	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-situations	NN	O	O
-are	NN	O	O
-illustrated	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-the	NN	O	O
-failed	NN	O	B-Material
-surface	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-represented	NN	O	O
-with	NN	O	O
-a	NN	O	O
-mathematical	NN	O	B-Process
-graph	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-graph	NN	O	O
-nodes	NN	O	O
-represent	NN	O	O
-failed	NN	O	B-Material
-faces	NN	O	I-Material
-and	NN	O	O
-graph	NN	O	O
-edges	NN	O	O
-exist	NN	O	O
-between	NN	O	O
-failed	NN	O	B-Material
-faces	NN	O	I-Material
-with	NN	O	O
-common	NN	O	O
-triple	NN	O	O
-line	NN	O	O
-in	NN	O	O
-the	NN	O	O
-cellular	NN	O	B-Material
-structure	NN	O	I-Material
-,	NN	O	O
-i.e.	NN	O	O
-where	NN	O	O
-two	NN	O	O
-micro	NN	O	B-Material
--	NN	O	I-Material
-cracks	NN	O	I-Material
-formed	NN	O	O
-a	NN	O	O
-continuous	NN	O	O
-larger	NN	O	O
-crack	NN	O	B-Material
-.	NN	O	O
-
-With	NN	O	O
-reference	NN	O	O
-to	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3	NN	O	O
-,	NN	O	O
-each	NN	O	O
-failed	NN	O	B-Material
-face	NN	O	I-Material
-is	NN	O	O
-a	NN	O	O
-graph	NN	O	O
-node	NN	O	O
-and	NN	O	O
-each	NN	O	O
-pair	NN	O	O
-of	NN	O	O
-neighbouring	NN	O	O
-
-failed	NN	O	B-Material
-faces	NN	O	I-Material
-is	NN	O	O
-a	NN	O	O
-graph	NN	O	O
-edge	NN	O	O
-.	NN	O	O
+A	0	1	O
+bond	2	6	B-Process
+failure	7	14	I-Process
+is	15	17	O
+thought	18	25	O
+of	26	28	O
+as	29	31	O
+a	32	33	O
+micro	34	39	B-Process
+-	39	40	I-Process
+crack	40	45	I-Process
+nucleation	46	56	I-Process
+,	56	57	O
+specifically	58	70	O
+as	71	73	O
+a	74	75	O
+separation	76	86	B-Process
+between	87	94	I-Process
+the	95	98	I-Process
+adjacent	99	107	I-Process
+cells	108	113	I-Process
+in	114	116	I-Process
+the	117	120	I-Process
+cellular	121	129	I-Process
+structure	130	139	I-Process
+along	140	145	I-Process
+their	146	151	I-Process
+common	152	158	I-Process
+face	159	163	I-Process
+.	163	164	O
+
+Initially	165	174	O
+,	174	175	O
+the	176	179	O
+micro	180	185	B-Material
+-	185	186	I-Material
+cracks	186	192	I-Material
+may	193	196	O
+be	197	199	O
+dispersed	200	209	O
+in	210	212	O
+the	213	216	O
+model	217	222	O
+reflecting	223	233	O
+the	234	237	O
+random	238	244	O
+distribution	245	257	O
+of	258	260	O
+pore	261	265	B-Material
+sizes	266	271	O
+and	272	275	O
+the	276	279	O
+low	280	283	O
+level	284	289	O
+of	290	292	O
+interaction	293	304	O
+due	305	308	O
+to	309	311	O
+force	312	317	O
+redistribution	318	332	O
+.	332	333	O
+
+Interaction	334	345	O
+and	346	349	O
+coalescence	350	361	O
+may	362	365	O
+follow	366	372	O
+as	373	375	O
+the	376	379	O
+population	380	390	O
+of	391	393	O
+micro	394	399	B-Material
+-	399	400	I-Material
+cracks	400	406	I-Material
+increases	407	416	O
+.	416	417	O
+
+These	418	423	O
+situations	424	434	O
+are	435	438	O
+illustrated	439	450	O
+in	451	453	O
+Fig	454	457	O
+.	457	458	O
+
+3	459	460	O
+.	460	461	O
+
+The	462	465	O
+structure	466	475	O
+of	476	478	O
+the	479	482	O
+failed	483	489	B-Material
+surface	490	497	I-Material
+can	498	501	O
+be	502	504	O
+represented	505	516	O
+with	517	521	O
+a	522	523	O
+mathematical	524	536	B-Process
+graph	537	542	I-Process
+,	542	543	O
+where	544	549	O
+graph	550	555	O
+nodes	556	561	O
+represent	562	571	O
+failed	572	578	B-Material
+faces	579	584	I-Material
+and	585	588	O
+graph	589	594	O
+edges	595	600	O
+exist	601	606	O
+between	607	614	O
+failed	615	621	B-Material
+faces	622	627	I-Material
+with	628	632	O
+common	633	639	O
+triple	640	646	O
+line	647	651	O
+in	652	654	O
+the	655	658	O
+cellular	659	667	B-Material
+structure	668	677	I-Material
+,	677	678	O
+i.e.	679	683	O
+where	684	689	O
+two	690	693	O
+micro	694	699	B-Material
+-	699	700	I-Material
+cracks	700	706	I-Material
+formed	707	713	O
+a	714	715	O
+continuous	716	726	O
+larger	727	733	O
+crack	734	739	B-Material
+.	739	740	O
+
+With	741	745	O
+reference	746	755	O
+to	756	758	O
+Fig	759	762	O
+.	762	763	O
+
+3	764	765	O
+,	765	766	O
+each	767	771	O
+failed	772	778	B-Material
+face	779	783	I-Material
+is	784	786	O
+a	787	788	O
+graph	789	794	O
+node	795	799	O
+and	800	803	O
+each	804	808	O
+pair	809	813	O
+of	814	816	O
+neighbouring	817	829	O
+
+failed	830	836	B-Material
+faces	837	842	I-Material
+is	843	845	O
+a	846	847	O
+graph	848	853	O
+edge	854	858	O
+.	858	859	O
 
 
 -DOCSTART- (S0254058415300766)
 
-Half	NN	O	B-Material
-metallic	NN	O	I-Material
-ferromagnets	NN	O	I-Material
-(	NN	O	O
-HMF	NN	O	B-Material
-)	NN	O	O
-have	NN	O	O
-attracted	NN	O	O
-enormous	NN	O	O
-interest	NN	O	O
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-applications	NN	O	O
-in	NN	O	O
-spintronic	NN	O	B-Task
-devices	NN	O	I-Task
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Dilute	NN	O	B-Material
-magnetic	NN	O	I-Material
-semiconductors	NN	O	I-Material
-(	NN	O	O
-DMSs	NN	O	B-Material
-)	NN	O	O
-are	NN	O	O
-considered	NN	O	O
-to	NN	O	O
-be	NN	O	O
-the	NN	O	O
-best	NN	O	O
-materials	NN	O	B-Material
-to	NN	O	I-Material
-show	NN	O	I-Material
-half	NN	O	I-Material
-metallicity	NN	O	I-Material
-.	NN	O	O
-
-These	NN	O	O
-materials	NN	O	O
-have	NN	O	O
-two	NN	O	O
-components	NN	O	O
-,	NN	O	O
-one	NN	O	O
-being	NN	O	O
-a	NN	O	O
-semiconducting	NN	O	B-Material
-material	NN	O	I-Material
-with	NN	O	O
-diamagnetic	NN	O	O
-properties	NN	O	O
-while	NN	O	O
-the	NN	O	O
-other	NN	O	O
-is	NN	O	O
-a	NN	O	O
-magnetic	NN	O	B-Material
-dopant	NN	O	I-Material
-such	NN	O	O
-as	NN	O	O
-transition	NN	O	B-Material
-metal	NN	O	I-Material
-having	NN	O	O
-un	NN	O	B-Material
--	NN	O	I-Material
-paired	NN	O	I-Material
-d	NN	O	I-Material
-electrons	NN	O	I-Material
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-major	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-these	NN	O	O
-materials	NN	O	O
-is	NN	O	O
-utilization	NN	O	B-Process
-of	NN	O	I-Process
-electron	NN	O	I-Process
-'s	NN	O	I-Process
-spin	NN	O	I-Process
-as	NN	O	I-Process
-information	NN	O	I-Process
-carrier	NN	O	I-Process
-since	NN	O	O
-advanced	NN	O	O
-functionalities	NN	O	O
-in	NN	O	O
-spintronic	NN	O	B-Task
-devices	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-viable	NN	O	O
-by	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-spin	NN	O	O
-degree	NN	O	O
-of	NN	O	O
-freedom	NN	O	O
-along	NN	O	O
-with	NN	O	O
-the	NN	O	O
-charge	NN	O	O
-of	NN	O	O
-electrons	NN	O	B-Material
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-major	NN	O	O
-issue	NN	O	O
-regarding	NN	O	O
-the	NN	O	O
-applicability	NN	O	O
-of	NN	O	O
-these	NN	O	O
-materials	NN	O	O
-is	NN	O	O
-to	NN	O	O
-enhance	NN	O	B-Task
-the	NN	O	I-Task
-Curie	NN	O	I-Task
-temperature	NN	O	I-Task
-above	NN	O	I-Task
-room	NN	O	I-Task
-temperature	NN	O	I-Task
-.	NN	O	O
-
-That	NN	O	O
-'s	NN	O	O
-why	NN	O	O
-the	NN	O	O
-research	NN	O	O
-interest	NN	O	O
-shifted	NN	O	O
-towards	NN	O	O
-large	NN	O	B-Material
-band	NN	O	I-Material
-gap	NN	O	I-Material
-materials	NN	O	I-Material
-.	NN	O	O
-
-A	NN	O	O
-lot	NN	O	O
-of	NN	O	O
-work	NN	O	O
-has	NN	O	O
-been	NN	O	O
-reported	NN	O	O
-on	NN	O	O
-DMSs	NN	O	B-Material
-with	NN	O	O
-different	NN	O	O
-II	NN	O	B-Material
-–	NN	O	I-Material
-VI	NN	O	I-Material
-and	NN	O	I-Material
-III	NN	O	I-Material
-–	NN	O	I-Material
-V	NN	O	I-Material
-semiconductors	NN	O	I-Material
-as	NN	O	O
-host	NN	O	B-Material
-material	NN	O	I-Material
-such	NN	O	O
-as	NN	O	O
-,	NN	O	O
-ZnS	NN	O	B-Material
-,	NN	O	O
-CdS	NN	O	B-Material
-,	NN	O	O
-GaN	NN	O	B-Material
-,	NN	O	O
-ZnO	NN	O	B-Material
-,	NN	O	O
-ZnSe	NN	O	B-Material
-,	NN	O	O
-ZnTe	NN	O	B-Material
-,	NN	O	O
-TiO2	NN	O	B-Material
-,	NN	O	O
-SnO2	NN	O	B-Material
-[	NN	O	O
-4–12	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Half	0	4	B-Material
+metallic	5	13	I-Material
+ferromagnets	14	26	I-Material
+(	27	28	O
+HMF	28	31	B-Material
+)	31	32	O
+have	33	37	O
+attracted	38	47	O
+enormous	48	56	O
+interest	57	65	O
+due	66	69	O
+to	70	72	O
+their	73	78	O
+applications	79	91	O
+in	92	94	O
+spintronic	95	105	B-Task
+devices	106	113	I-Task
+[	114	115	O
+1	115	116	O
+]	116	117	O
+.	117	118	O
+
+Dilute	119	125	B-Material
+magnetic	126	134	I-Material
+semiconductors	135	149	I-Material
+(	150	151	O
+DMSs	151	155	B-Material
+)	155	156	O
+are	157	160	O
+considered	161	171	O
+to	172	174	O
+be	175	177	O
+the	178	181	O
+best	182	186	O
+materials	187	196	B-Material
+to	197	199	I-Material
+show	200	204	I-Material
+half	205	209	I-Material
+metallicity	210	221	I-Material
+.	221	222	O
+
+These	223	228	O
+materials	229	238	O
+have	239	243	O
+two	244	247	O
+components	248	258	O
+,	258	259	O
+one	260	263	O
+being	264	269	O
+a	270	271	O
+semiconducting	272	286	B-Material
+material	287	295	I-Material
+with	296	300	O
+diamagnetic	301	312	O
+properties	313	323	O
+while	324	329	O
+the	330	333	O
+other	334	339	O
+is	340	342	O
+a	343	344	O
+magnetic	345	353	B-Material
+dopant	354	360	I-Material
+such	361	365	O
+as	366	368	O
+transition	369	379	B-Material
+metal	380	385	I-Material
+having	386	392	O
+un	393	395	B-Material
+-	395	396	I-Material
+paired	396	402	I-Material
+d	403	404	I-Material
+electrons	405	414	I-Material
+[	415	416	O
+2	416	417	O
+]	417	418	O
+.	418	419	O
+
+The	420	423	O
+major	424	429	O
+advantage	430	439	O
+of	440	442	O
+these	443	448	O
+materials	449	458	O
+is	459	461	O
+utilization	462	473	B-Process
+of	474	476	I-Process
+electron	477	485	I-Process
+'s	485	487	I-Process
+spin	488	492	I-Process
+as	493	495	I-Process
+information	496	507	I-Process
+carrier	508	515	I-Process
+since	516	521	O
+advanced	522	530	O
+functionalities	531	546	O
+in	547	549	O
+spintronic	550	560	B-Task
+devices	561	568	I-Task
+can	569	572	O
+be	573	575	O
+viable	576	582	O
+by	583	585	O
+the	586	589	O
+use	590	593	O
+of	594	596	O
+spin	597	601	O
+degree	602	608	O
+of	609	611	O
+freedom	612	619	O
+along	620	625	O
+with	626	630	O
+the	631	634	O
+charge	635	641	O
+of	642	644	O
+electrons	645	654	B-Material
+[	655	656	O
+3	656	657	O
+]	657	658	O
+.	658	659	O
+
+The	660	663	O
+major	664	669	O
+issue	670	675	O
+regarding	676	685	O
+the	686	689	O
+applicability	690	703	O
+of	704	706	O
+these	707	712	O
+materials	713	722	O
+is	723	725	O
+to	726	728	O
+enhance	729	736	B-Task
+the	737	740	I-Task
+Curie	741	746	I-Task
+temperature	747	758	I-Task
+above	759	764	I-Task
+room	765	769	I-Task
+temperature	770	781	I-Task
+.	781	782	O
+
+That	783	787	O
+'s	787	789	O
+why	790	793	O
+the	794	797	O
+research	798	806	O
+interest	807	815	O
+shifted	816	823	O
+towards	824	831	O
+large	832	837	B-Material
+band	838	842	I-Material
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+materials	847	856	I-Material
+.	856	857	O
+
+A	858	859	O
+lot	860	863	O
+of	864	866	O
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+has	872	875	O
+been	876	880	O
+reported	881	889	O
+on	890	892	O
+DMSs	893	897	B-Material
+with	898	902	O
+different	903	912	O
+II	913	915	B-Material
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+VI	916	918	I-Material
+and	919	922	I-Material
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+–	926	927	I-Material
+V	927	928	I-Material
+semiconductors	929	943	I-Material
+as	944	946	O
+host	947	951	B-Material
+material	952	960	I-Material
+such	961	965	O
+as	966	968	O
+,	968	969	O
+ZnS	970	973	B-Material
+,	973	974	O
+CdS	975	978	B-Material
+,	978	979	O
+GaN	980	983	B-Material
+,	983	984	O
+ZnO	985	988	B-Material
+,	988	989	O
+ZnSe	990	994	B-Material
+,	994	995	O
+ZnTe	996	1000	B-Material
+,	1000	1001	O
+TiO2	1002	1006	B-Material
+,	1006	1007	O
+SnO2	1008	1012	B-Material
+[	1013	1014	O
+4–12	1014	1018	O
+]	1018	1019	O
+.	1019	1020	O
 
 
 -DOCSTART- (S0301010409001219)
 
-It	NN	O	O
-has	NN	O	O
-been	NN	O	O
-known	NN	O	O
-[	NN	O	O
-9,14,18,22	NN	O	O
-]	NN	O	O
-that	NN	O	O
-the	NN	O	O
-fragmentation	NN	O	B-Process
-processes	NN	O	I-Process
-in	NN	O	O
-polyatomic	NN	O	B-Material
-molecules	NN	O	I-Material
-induced	NN	O	O
-by	NN	O	O
-an	NN	O	O
-intense	NN	O	B-Material
-ultrafast	NN	O	I-Material
-laser	NN	O	I-Material
-field	NN	O	I-Material
-can	NN	O	O
-sometimes	NN	O	O
-exhibit	NN	O	O
-sensitive	NN	O	O
-dependence	NN	O	O
-on	NN	O	O
-the	NN	O	O
-instantaneous	NN	O	O
-phase	NN	O	O
-characteristics	NN	O	O
-of	NN	O	O
-the	NN	O	O
-laser	NN	O	B-Material
-field	NN	O	I-Material
-.	NN	O	O
-
-Depending	NN	O	O
-on	NN	O	O
-the	NN	O	O
-change	NN	O	O
-in	NN	O	O
-sign	NN	O	O
-the	NN	O	O
-chirped	NN	O	B-Material
-laser	NN	O	I-Material
-pulses	NN	O	I-Material
-,	NN	O	O
-fragmentation	NN	O	B-Task
-could	NN	O	O
-be	NN	O	O
-either	NN	O	O
-enhanced	NN	O	O
-or	NN	O	O
-suppressed	NN	O	O
-[	NN	O	O
-14,18,22	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Controlling	NN	O	O
-the	NN	O	O
-outcome	NN	O	O
-of	NN	O	O
-such	NN	O	O
-laser	NN	O	B-Process
-induced	NN	O	I-Process
-molecular	NN	O	I-Process
-fragmentation	NN	O	I-Process
-with	NN	O	O
-chirped	NN	O	B-Material
-femtosecond	NN	O	I-Material
-laser	NN	O	I-Material
-pulses	NN	O	I-Material
-has	NN	O	O
-brought	NN	O	O
-forth	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-experimental	NN	O	O
-and	NN	O	O
-theoretical	NN	O	O
-effects	NN	O	O
-in	NN	O	O
-the	NN	O	O
-recent	NN	O	O
-years	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-efforts	NN	O	O
-are	NN	O	O
-continuing	NN	O	O
-for	NN	O	O
-a	NN	O	O
-specific	NN	O	O
-fragment	NN	O	B-Task
-channel	NN	O	I-Task
-enhancement	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-difficult	NN	O	O
-since	NN	O	O
-it	NN	O	O
-also	NN	O	O
-is	NN	O	O
-a	NN	O	O
-function	NN	O	O
-of	NN	O	O
-the	NN	O	O
-molecular	NN	O	B-Process
-system	NN	O	I-Process
-under	NN	O	O
-study	NN	O	O
-[	NN	O	O
-20,22–24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Here	NN	O	O
-we	NN	O	O
-report	NN	O	O
-the	NN	O	O
-observation	NN	O	B-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-coherently	NN	O	I-Task
-enhanced	NN	O	I-Task
-fragmentation	NN	O	I-Task
-pathway	NN	O	I-Task
-of	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-propyl	NN	O	I-Material
-benzene	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-seems	NN	O	O
-to	NN	O	O
-have	NN	O	O
-such	NN	O	O
-specific	NN	O	O
-fragmentation	NN	O	B-Material
-channel	NN	O	I-Material
-available	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-found	NN	O	O
-that	NN	O	O
-for	NN	O	O
-n	NN	O	B-Material
--	NN	O	I-Material
-propyl	NN	O	I-Material
-benzene	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-relative	NN	O	O
-yield	NN	O	O
-of	NN	O	O
-C3H3	NN	O	B-Material
-+	NN	O	I-Material
-is	NN	O	O
-extremely	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-the	NN	O	O
-phase	NN	O	O
-of	NN	O	O
-the	NN	O	O
-laser	NN	O	B-Material
-pulse	NN	O	I-Material
-as	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-any	NN	O	O
-of	NN	O	O
-the	NN	O	O
-other	NN	O	O
-possible	NN	O	O
-channels	NN	O	B-Material
-.	NN	O	O
-
-In	NN	O	O
-fact	NN	O	O
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-almost	NN	O	O
-an	NN	O	O
-order	NN	O	O
-of	NN	O	O
-magnitude	NN	O	O
-enhancement	NN	O	O
-in	NN	O	O
-the	NN	O	O
-yield	NN	O	O
-of	NN	O	O
-C3H3	NN	O	B-Material
-+	NN	O	I-Material
-when	NN	O	O
-negatively	NN	O	B-Material
-chirped	NN	O	I-Material
-pulses	NN	O	I-Material
-are	NN	O	O
-used	NN	O	O
-,	NN	O	O
-while	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-effect	NN	O	O
-with	NN	O	O
-the	NN	O	O
-positive	NN	O	B-Material
-chirp	NN	O	I-Material
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-the	NN	O	O
-relative	NN	O	O
-yield	NN	O	O
-of	NN	O	O
-all	NN	O	O
-the	NN	O	O
-other	NN	O	O
-heavier	NN	O	B-Material
-fragment	NN	O	I-Material
-ions	NN	O	I-Material
-resulting	NN	O	O
-from	NN	O	O
-interaction	NN	O	O
-of	NN	O	O
-the	NN	O	O
-strong	NN	O	O
-field	NN	O	O
-with	NN	O	O
-the	NN	O	O
-molecule	NN	O	B-Material
-is	NN	O	O
-not	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-the	NN	O	O
-sign	NN	O	O
-of	NN	O	O
-the	NN	O	O
-chirp	NN	O	B-Material
-,	NN	O	O
-within	NN	O	O
-the	NN	O	O
-noise	NN	O	O
-level	NN	O	O
-.	NN	O	O
+It	0	2	O
+has	3	6	O
+been	7	11	O
+known	12	17	O
+[	18	19	O
+9,14,18,22	19	29	O
+]	29	30	O
+that	31	35	O
+the	36	39	O
+fragmentation	40	53	B-Process
+processes	54	63	I-Process
+in	64	66	O
+polyatomic	67	77	B-Material
+molecules	78	87	I-Material
+induced	88	95	O
+by	96	98	O
+an	99	101	O
+intense	102	109	B-Material
+ultrafast	110	119	I-Material
+laser	120	125	I-Material
+field	126	131	I-Material
+can	132	135	O
+sometimes	136	145	O
+exhibit	146	153	O
+sensitive	154	163	O
+dependence	164	174	O
+on	175	177	O
+the	178	181	O
+instantaneous	182	195	O
+phase	196	201	O
+characteristics	202	217	O
+of	218	220	O
+the	221	224	O
+laser	225	230	B-Material
+field	231	236	I-Material
+.	236	237	O
+
+Depending	238	247	O
+on	248	250	O
+the	251	254	O
+change	255	261	O
+in	262	264	O
+sign	265	269	O
+the	270	273	O
+chirped	274	281	B-Material
+laser	282	287	I-Material
+pulses	288	294	I-Material
+,	294	295	O
+fragmentation	296	309	B-Task
+could	310	315	O
+be	316	318	O
+either	319	325	O
+enhanced	326	334	O
+or	335	337	O
+suppressed	338	348	O
+[	349	350	O
+14,18,22	350	358	O
+]	358	359	O
+.	359	360	O
+
+Controlling	361	372	O
+the	373	376	O
+outcome	377	384	O
+of	385	387	O
+such	388	392	O
+laser	393	398	B-Process
+induced	399	406	I-Process
+molecular	407	416	I-Process
+fragmentation	417	430	I-Process
+with	431	435	O
+chirped	436	443	B-Material
+femtosecond	444	455	I-Material
+laser	456	461	I-Material
+pulses	462	468	I-Material
+has	469	472	O
+brought	473	480	O
+forth	481	486	O
+a	487	488	O
+number	489	495	O
+of	496	498	O
+experimental	499	511	O
+and	512	515	O
+theoretical	516	527	O
+effects	528	535	O
+in	536	538	O
+the	539	542	O
+recent	543	549	O
+years	550	555	O
+.	555	556	O
+
+However	557	564	O
+,	564	565	O
+efforts	566	573	O
+are	574	577	O
+continuing	578	588	O
+for	589	592	O
+a	593	594	O
+specific	595	603	O
+fragment	604	612	B-Task
+channel	613	620	I-Task
+enhancement	621	632	I-Task
+,	632	633	O
+which	634	639	O
+is	640	642	O
+difficult	643	652	O
+since	653	658	O
+it	659	661	O
+also	662	666	O
+is	667	669	O
+a	670	671	O
+function	672	680	O
+of	681	683	O
+the	684	687	O
+molecular	688	697	B-Process
+system	698	704	I-Process
+under	705	710	O
+study	711	716	O
+[	717	718	O
+20,22–24	718	726	O
+]	726	727	O
+.	727	728	O
+
+Here	729	733	O
+we	734	736	O
+report	737	743	O
+the	744	747	O
+observation	748	759	B-Task
+of	760	762	I-Task
+a	763	764	I-Task
+coherently	765	775	I-Task
+enhanced	776	784	I-Task
+fragmentation	785	798	I-Task
+pathway	799	806	I-Task
+of	807	809	O
+n	810	811	B-Material
+-	811	812	I-Material
+propyl	812	818	I-Material
+benzene	819	826	I-Material
+,	826	827	O
+which	828	833	O
+seems	834	839	O
+to	840	842	O
+have	843	847	O
+such	848	852	O
+specific	853	861	O
+fragmentation	862	875	B-Material
+channel	876	883	I-Material
+available	884	893	O
+.	893	894	O
+
+We	895	897	O
+found	898	903	O
+that	904	908	O
+for	909	912	O
+n	913	914	B-Material
+-	914	915	I-Material
+propyl	915	921	I-Material
+benzene	922	929	I-Material
+,	929	930	O
+the	931	934	O
+relative	935	943	O
+yield	944	949	O
+of	950	952	O
+C3H3	953	957	B-Material
++	957	958	I-Material
+is	959	961	O
+extremely	962	971	O
+sensitive	972	981	O
+to	982	984	O
+the	985	988	O
+phase	989	994	O
+of	995	997	O
+the	998	1001	O
+laser	1002	1007	B-Material
+pulse	1008	1013	I-Material
+as	1014	1016	O
+compared	1017	1025	O
+to	1026	1028	O
+any	1029	1032	O
+of	1033	1035	O
+the	1036	1039	O
+other	1040	1045	O
+possible	1046	1054	O
+channels	1055	1063	B-Material
+.	1063	1064	O
+
+In	1065	1067	O
+fact	1068	1072	O
+,	1072	1073	O
+there	1074	1079	O
+is	1080	1082	O
+almost	1083	1089	O
+an	1090	1092	O
+order	1093	1098	O
+of	1099	1101	O
+magnitude	1102	1111	O
+enhancement	1112	1123	O
+in	1124	1126	O
+the	1127	1130	O
+yield	1131	1136	O
+of	1137	1139	O
+C3H3	1140	1144	B-Material
++	1144	1145	I-Material
+when	1146	1150	O
+negatively	1151	1161	B-Material
+chirped	1162	1169	I-Material
+pulses	1170	1176	I-Material
+are	1177	1180	O
+used	1181	1185	O
+,	1185	1186	O
+while	1187	1192	O
+there	1193	1198	O
+is	1199	1201	O
+no	1202	1204	O
+effect	1205	1211	O
+with	1212	1216	O
+the	1217	1220	O
+positive	1221	1229	B-Material
+chirp	1230	1235	I-Material
+.	1235	1236	O
+
+Moreover	1237	1245	O
+,	1245	1246	O
+the	1247	1250	O
+relative	1251	1259	O
+yield	1260	1265	O
+of	1266	1268	O
+all	1269	1272	O
+the	1273	1276	O
+other	1277	1282	O
+heavier	1283	1290	B-Material
+fragment	1291	1299	I-Material
+ions	1300	1304	I-Material
+resulting	1305	1314	O
+from	1315	1319	O
+interaction	1320	1331	O
+of	1332	1334	O
+the	1335	1338	O
+strong	1339	1345	O
+field	1346	1351	O
+with	1352	1356	O
+the	1357	1360	O
+molecule	1361	1369	B-Material
+is	1370	1372	O
+not	1373	1376	O
+sensitive	1377	1386	O
+to	1387	1389	O
+the	1390	1393	O
+sign	1394	1398	O
+of	1399	1401	O
+the	1402	1405	O
+chirp	1406	1411	B-Material
+,	1411	1412	O
+within	1413	1419	O
+the	1420	1423	O
+noise	1424	1429	O
+level	1430	1435	O
+.	1435	1436	O
 
 
 -DOCSTART- (S0301010413002139)
 
-The	NN	O	O
-vibrational	NN	O	O
-spectra	NN	O	O
-of	NN	O	O
-l	NN	O	B-Material
--	NN	O	I-Material
-cysteine	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-recorded	NN	O	O
-and	NN	O	O
-assigned	NN	O	O
-in	NN	O	O
-both	NN	O	O
-solution	NN	O	O
-[	NN	O	O
-8,9	NN	O	O
-]	NN	O	O
-and	NN	O	O
-the	NN	O	O
-solid	NN	O	O
-state	NN	O	O
-[	NN	O	O
-10–14	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Spectral	NN	O	B-Process
-assignments	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-made	NN	O	O
-using	NN	O	O
-empirical	NN	O	B-Process
-force	NN	O	I-Process
-fields	NN	O	I-Process
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Hartree	NN	O	B-Process
-–	NN	O	I-Process
-Fock	NN	O	I-Process
-calculations	NN	O	I-Process
-[	NN	O	O
-10,16,17	NN	O	O
-]	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-isolated	NN	O	B-Process
-molecule	NN	O	I-Process
-approximation	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-systems	NN	O	O
-that	NN	O	O
-exhibit	NN	O	O
-strong	NN	O	O
-intermolecular	NN	O	O
-interactions	NN	O	O
-,	NN	O	O
-this	NN	O	O
-approximation	NN	O	O
-often	NN	O	O
-leads	NN	O	O
-to	NN	O	O
-poor	NN	O	O
-agreement	NN	O	O
-between	NN	O	O
-experiment	NN	O	O
-and	NN	O	O
-theory	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-striking	NN	O	O
-example	NN	O	O
-is	NN	O	O
-purine	NN	O	B-Material
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-,	NN	O	O
-where	NN	O	O
-a	NN	O	O
-study	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-solid	NN	O	I-Task
-state	NN	O	I-Task
-vibrational	NN	O	I-Task
-spectra	NN	O	I-Task
-by	NN	O	O
-isolated	NN	O	B-Process
-molecule	NN	O	I-Process
-and	NN	O	I-Process
-periodic	NN	O	I-Process
-calculations	NN	O	I-Process
-,	NN	O	O
-gave	NN	O	O
-almost	NN	O	O
-quantitative	NN	O	O
-agreement	NN	O	O
-between	NN	O	O
-theory	NN	O	O
-and	NN	O	O
-experiment	NN	O	O
-for	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-,	NN	O	O
-whereas	NN	O	O
-the	NN	O	O
-former	NN	O	O
-gave	NN	O	O
-only	NN	O	O
-modest	NN	O	O
-agreement	NN	O	O
-and	NN	O	O
-was	NN	O	O
-unable	NN	O	O
-to	NN	O	O
-distinguish	NN	O	O
-between	NN	O	O
-the	NN	O	O
-tautomers	NN	O	B-Material
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-present	NN	O	O
-case	NN	O	O
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-structure	NN	O	O
-consists	NN	O	O
-of	NN	O	O
-ions	NN	O	B-Material
-linked	NN	O	O
-by	NN	O	O
-hydrogen	NN	O	B-Material
-bonds	NN	O	O
-,	NN	O	O
-periodic	NN	O	B-Process
-calculations	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-complete	NN	O	B-Material
-primitive	NN	O	I-Material
-cell	NN	O	I-Material
-are	NN	O	O
-essential	NN	O	O
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-only	NN	O	O
-work	NN	O	O
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-that	NN	O	O
-includes	NN	O	O
-some	NN	O	O
-solid	NN	O	O
-state	NN	O	O
-effects	NN	O	O
-used	NN	O	O
-molecular	NN	O	B-Process
-dynamics	NN	O	I-Process
-but	NN	O	O
-from	NN	O	O
-which	NN	O	O
-it	NN	O	O
-is	NN	O	O
-difficult	NN	O	O
-to	NN	O	O
-extract	NN	O	O
-assignments	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-aim	NN	O	O
-of	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-is	NN	O	O
-to	NN	O	O
-provide	NN	O	B-Task
-a	NN	O	I-Task
-complete	NN	O	I-Task
-assignment	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-vibrational	NN	O	I-Task
-spectra	NN	O	I-Task
-of	NN	O	I-Task
-l	NN	O	I-Task
--	NN	O	I-Task
-cysteine	NN	O	I-Task
-in	NN	O	O
-both	NN	O	O
-the	NN	O	O
-orthorhombic	NN	O	O
-and	NN	O	O
-monoclinic	NN	O	O
-forms	NN	O	O
-by	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-a	NN	O	O
-combination	NN	O	O
-of	NN	O	O
-computational	NN	O	B-Process
-and	NN	O	I-Process
-experimental	NN	O	I-Process
-methods	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+vibrational	4	15	O
+spectra	16	23	O
+of	24	26	O
+l	27	28	B-Material
+-	28	29	I-Material
+cysteine	29	37	I-Material
+have	38	42	O
+been	43	47	O
+recorded	48	56	O
+and	57	60	O
+assigned	61	69	O
+in	70	72	O
+both	73	77	O
+solution	78	86	O
+[	87	88	O
+8,9	88	91	O
+]	91	92	O
+and	93	96	O
+the	97	100	O
+solid	101	106	O
+state	107	112	O
+[	113	114	O
+10–14	114	119	O
+]	119	120	O
+.	120	121	O
+
+Spectral	122	130	B-Process
+assignments	131	142	I-Process
+have	143	147	O
+been	148	152	O
+made	153	157	O
+using	158	163	O
+empirical	164	173	B-Process
+force	174	179	I-Process
+fields	180	186	I-Process
+[	187	188	O
+15	188	190	O
+]	190	191	O
+,	191	192	O
+Hartree	193	200	B-Process
+–	200	201	I-Process
+Fock	201	205	I-Process
+calculations	206	218	I-Process
+[	219	220	O
+10,16,17	220	228	O
+]	228	229	O
+based	230	235	O
+on	236	238	O
+the	239	242	O
+isolated	243	251	B-Process
+molecule	252	260	I-Process
+approximation	261	274	I-Process
+.	274	275	O
+
+For	276	279	O
+systems	280	287	O
+that	288	292	O
+exhibit	293	300	O
+strong	301	307	O
+intermolecular	308	322	O
+interactions	323	335	O
+,	335	336	O
+this	337	341	O
+approximation	342	355	O
+often	356	361	O
+leads	362	367	O
+to	368	370	O
+poor	371	375	O
+agreement	376	385	O
+between	386	393	O
+experiment	394	404	O
+and	405	408	O
+theory	409	415	O
+.	415	416	O
+
+A	417	418	O
+striking	419	427	O
+example	428	435	O
+is	436	438	O
+purine	439	445	B-Material
+[	446	447	O
+18	447	449	O
+]	449	450	O
+,	450	451	O
+where	452	457	O
+a	458	459	O
+study	460	465	B-Task
+of	466	468	I-Task
+the	469	472	I-Task
+solid	473	478	I-Task
+state	479	484	I-Task
+vibrational	485	496	I-Task
+spectra	497	504	I-Task
+by	505	507	O
+isolated	508	516	B-Process
+molecule	517	525	I-Process
+and	526	529	I-Process
+periodic	530	538	I-Process
+calculations	539	551	I-Process
+,	551	552	O
+gave	553	557	O
+almost	558	564	O
+quantitative	565	577	O
+agreement	578	587	O
+between	588	595	O
+theory	596	602	O
+and	603	606	O
+experiment	607	617	O
+for	618	621	O
+the	622	625	O
+latter	626	632	O
+,	632	633	O
+whereas	634	641	O
+the	642	645	O
+former	646	652	O
+gave	653	657	O
+only	658	662	O
+modest	663	669	O
+agreement	670	679	O
+and	680	683	O
+was	684	687	O
+unable	688	694	O
+to	695	697	O
+distinguish	698	709	O
+between	710	717	O
+the	718	721	O
+tautomers	722	731	B-Material
+.	731	732	O
+
+In	733	735	O
+the	736	739	O
+present	740	747	O
+case	748	752	O
+,	752	753	O
+where	754	759	O
+the	760	763	O
+structure	764	773	O
+consists	774	782	O
+of	783	785	O
+ions	786	790	B-Material
+linked	791	797	O
+by	798	800	O
+hydrogen	801	809	B-Material
+bonds	810	815	O
+,	815	816	O
+periodic	817	825	B-Process
+calculations	826	838	I-Process
+based	839	844	O
+on	845	847	O
+the	848	851	O
+complete	852	860	B-Material
+primitive	861	870	I-Material
+cell	871	875	I-Material
+are	876	879	O
+essential	880	889	O
+[	890	891	O
+19	891	893	O
+]	893	894	O
+.	894	895	O
+
+The	896	899	O
+only	900	904	O
+work	905	909	O
+[	910	911	O
+20	911	913	O
+]	913	914	O
+that	915	919	O
+includes	920	928	O
+some	929	933	O
+solid	934	939	O
+state	940	945	O
+effects	946	953	O
+used	954	958	O
+molecular	959	968	B-Process
+dynamics	969	977	I-Process
+but	978	981	O
+from	982	986	O
+which	987	992	O
+it	993	995	O
+is	996	998	O
+difficult	999	1008	O
+to	1009	1011	O
+extract	1012	1019	O
+assignments	1020	1031	O
+.	1031	1032	O
+
+The	1033	1036	O
+aim	1037	1040	O
+of	1041	1043	O
+this	1044	1048	O
+paper	1049	1054	O
+is	1055	1057	O
+to	1058	1060	O
+provide	1061	1068	B-Task
+a	1069	1070	I-Task
+complete	1071	1079	I-Task
+assignment	1080	1090	I-Task
+of	1091	1093	I-Task
+the	1094	1097	I-Task
+vibrational	1098	1109	I-Task
+spectra	1110	1117	I-Task
+of	1118	1120	I-Task
+l	1121	1122	I-Task
+-	1122	1123	I-Task
+cysteine	1123	1131	I-Task
+in	1132	1134	O
+both	1135	1139	O
+the	1140	1143	O
+orthorhombic	1144	1156	O
+and	1157	1160	O
+monoclinic	1161	1171	O
+forms	1172	1177	O
+by	1178	1180	O
+the	1181	1184	O
+use	1185	1188	O
+of	1189	1191	O
+a	1192	1193	O
+combination	1194	1205	O
+of	1206	1208	O
+computational	1209	1222	B-Process
+and	1223	1226	I-Process
+experimental	1227	1239	I-Process
+methods	1240	1247	I-Process
+.	1247	1248	O
 
 
 -DOCSTART- (S0301010413004096)
 
-It	NN	O	O
-is	NN	O	O
-critical	NN	O	O
-to	NN	O	O
-the	NN	O	O
-success	NN	O	O
-of	NN	O	O
-the	NN	O	O
-NPD	NN	O	B-Process
-technique	NN	O	I-Process
-that	NN	O	O
-the	NN	O	O
-MOF	NN	O	B-Material
-complex	NN	O	I-Material
-adsorbs	NN	O	O
-a	NN	O	O
-significant	NN	O	O
-amount	NN	O	O
-of	NN	O	O
-D2	NN	O	B-Material
-to	NN	O	O
-boost	NN	O	O
-the	NN	O	O
-observed	NN	O	O
-signal	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-technique	NN	O	O
-therefore	NN	O	O
-has	NN	O	O
-disadvantages	NN	O	O
-when	NN	O	O
-studying	NN	O	O
-the	NN	O	O
-binding	NN	O	B-Process
-interaction	NN	O	I-Process
-within	NN	O	O
-MOFs	NN	O	B-Material
-with	NN	O	O
-low	NN	O	O
-uptakes	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-static	NN	O	B-Task
-crystallographic	NN	O	I-Task
-studies	NN	O	I-Task
-can	NN	O	O
-not	NN	O	O
-provide	NN	O	O
-insights	NN	O	O
-into	NN	O	O
-the	NN	O	O
-dynamics	NN	O	O
-of	NN	O	O
-the	NN	O	O
-adsorbed	NN	O	B-Material
-gas	NN	O	I-Material
-molecules	NN	O	I-Material
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-very	NN	O	O
-challenging	NN	O	O
-to	NN	O	O
-probe	NN	O	O
-experimentally	NN	O	O
-the	NN	O	O
-H2	NN	O	B-Process
-binding	NN	O	I-Process
-interactions	NN	O	I-Process
-within	NN	O	O
-a	NN	O	O
-porous	NN	O	O
-host	NN	O	O
-system	NN	O	O
-which	NN	O	O
-has	NN	O	O
-very	NN	O	O
-low	NN	O	O
-gas	NN	O	B-Material
-uptake	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-lack	NN	O	O
-of	NN	O	O
-suitable	NN	O	O
-characterisation	NN	O	B-Process
-techniques	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-report	NN	O	O
-herein	NN	O	O
-the	NN	O	O
-application	NN	O	O
-of	NN	O	O
-the	NN	O	O
-in	NN	O	B-Process
-situ	NN	O	I-Process
-inelastic	NN	O	I-Process
-neutron	NN	O	I-Process
-scattering	NN	O	I-Process
-(	NN	O	O
-INS	NN	O	B-Process
-)	NN	O	O
-technique	NN	O	O
-to	NN	O	O
-permit	NN	O	B-Task
-direct	NN	O	I-Task
-observation	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-dynamics	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-binding	NN	O	I-Task
-interactions	NN	O	I-Task
-between	NN	O	O
-adsorbed	NN	O	B-Material
-H2	NN	O	I-Material
-molecules	NN	O	I-Material
-and	NN	O	O
-an	NN	O	O
-aluminium	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-porous	NN	O	I-Material
-MOF	NN	O	I-Material
-,	NN	O	O
-NOTT-300	NN	O	B-Material
-,	NN	O	O
-exhibiting	NN	O	O
-moderate	NN	O	O
-porosity	NN	O	O
-,	NN	O	O
-narrow	NN	O	O
-pore	NN	O	O
-window	NN	O	O
-and	NN	O	O
-very	NN	O	O
-low	NN	O	O
-uptake	NN	O	O
-of	NN	O	O
-H2	NN	O	B-Material
-.	NN	O	O
-
-This	NN	O	O
-neutron	NN	O	B-Task
-spectroscopy	NN	O	I-Task
-study	NN	O	O
-reveals	NN	O	O
-that	NN	O	O
-adsorbed	NN	O	B-Material
-H2	NN	O	I-Material
-molecules	NN	O	I-Material
-do	NN	O	O
-not	NN	O	O
-interact	NN	O	O
-with	NN	O	O
-the	NN	O	O
-organic	NN	O	B-Material
-ligand	NN	O	I-Material
-within	NN	O	O
-the	NN	O	O
-pore	NN	O	O
-channels	NN	O	O
-,	NN	O	O
-and	NN	O	O
-form	NN	O	O
-very	NN	O	O
-weak	NN	O	O
-interactions	NN	O	O
-with	NN	O	O
-[	NN	O	B-Material
-Al(OH)2O4	NN	O	I-Material
-]	NN	O	I-Material
-moieties	NN	O	I-Material
-via	NN	O	O
-a	NN	O	O
-type	NN	O	O
-of	NN	O	O
-through	NN	O	B-Process
--	NN	O	I-Process
-spacing	NN	O	I-Process
-interaction	NN	O	I-Process
-(	NN	O	O
-Al	NN	O	B-Process
--	NN	O	I-Process
-O⋯H2	NN	O	I-Process
-)	NN	O	O
-.	NN	O	O
-
-Interestingly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-very	NN	O	O
-low	NN	O	O
-H2	NN	O	B-Process
-adsorption	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-successfully	NN	O	O
-characterised	NN	O	O
-as	NN	O	O
-weak	NN	O	B-Process
-binding	NN	O	I-Process
-interactions	NN	O	I-Process
-and	NN	O	O
-,	NN	O	O
-for	NN	O	O
-the	NN	O	O
-first	NN	O	O
-time	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-found	NN	O	O
-that	NN	O	O
-the	NN	O	O
-adsorbed	NN	O	B-Material
-H2	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-pore	NN	O	O
-channel	NN	O	O
-has	NN	O	O
-a	NN	O	O
-liquid	NN	O	B-Material
-type	NN	O	O
-recoil	NN	O	O
-motion	NN	O	O
-at	NN	O	O
-5	NN	O	O
-K	NN	O	O
-(	NN	O	O
-below	NN	O	O
-its	NN	O	O
-melting	NN	O	O
-point	NN	O	O
-)	NN	O	O
-as	NN	O	O
-a	NN	O	O
-direct	NN	O	O
-result	NN	O	O
-of	NN	O	O
-this	NN	O	O
-weak	NN	O	B-Process
-interaction	NN	O	I-Process
-to	NN	O	O
-the	NN	O	O
-MOF	NN	O	B-Material
-host	NN	O	O
-.	NN	O	O
+It	0	2	O
+is	3	5	O
+critical	6	14	O
+to	15	17	O
+the	18	21	O
+success	22	29	O
+of	30	32	O
+the	33	36	O
+NPD	37	40	B-Process
+technique	41	50	I-Process
+that	51	55	O
+the	56	59	O
+MOF	60	63	B-Material
+complex	64	71	I-Material
+adsorbs	72	79	O
+a	80	81	O
+significant	82	93	O
+amount	94	100	O
+of	101	103	O
+D2	104	106	B-Material
+to	107	109	O
+boost	110	115	O
+the	116	119	O
+observed	120	128	O
+signal	129	135	O
+.	135	136	O
+
+This	137	141	O
+technique	142	151	O
+therefore	152	161	O
+has	162	165	O
+disadvantages	166	179	O
+when	180	184	O
+studying	185	193	O
+the	194	197	O
+binding	198	205	B-Process
+interaction	206	217	I-Process
+within	218	224	O
+MOFs	225	229	B-Material
+with	230	234	O
+low	235	238	O
+uptakes	239	246	O
+.	246	247	O
+
+Furthermore	248	259	O
+,	259	260	O
+static	261	267	B-Task
+crystallographic	268	284	I-Task
+studies	285	292	I-Task
+can	293	296	O
+not	296	299	O
+provide	300	307	O
+insights	308	316	O
+into	317	321	O
+the	322	325	O
+dynamics	326	334	O
+of	335	337	O
+the	338	341	O
+adsorbed	342	350	B-Material
+gas	351	354	I-Material
+molecules	355	364	I-Material
+.	364	365	O
+
+Thus	366	370	O
+,	370	371	O
+it	372	374	O
+is	375	377	O
+very	378	382	O
+challenging	383	394	O
+to	395	397	O
+probe	398	403	O
+experimentally	404	418	O
+the	419	422	O
+H2	423	425	B-Process
+binding	426	433	I-Process
+interactions	434	446	I-Process
+within	447	453	O
+a	454	455	O
+porous	456	462	O
+host	463	467	O
+system	468	474	O
+which	475	480	O
+has	481	484	O
+very	485	489	O
+low	490	493	O
+gas	494	497	B-Material
+uptake	498	504	O
+due	505	508	O
+to	509	511	O
+the	512	515	O
+lack	516	520	O
+of	521	523	O
+suitable	524	532	O
+characterisation	533	549	B-Process
+techniques	550	560	I-Process
+.	560	561	O
+
+We	562	564	O
+report	565	571	O
+herein	572	578	O
+the	579	582	O
+application	583	594	O
+of	595	597	O
+the	598	601	O
+in	602	604	B-Process
+situ	605	609	I-Process
+inelastic	610	619	I-Process
+neutron	620	627	I-Process
+scattering	628	638	I-Process
+(	639	640	O
+INS	640	643	B-Process
+)	643	644	O
+technique	645	654	O
+to	655	657	O
+permit	658	664	B-Task
+direct	665	671	I-Task
+observation	672	683	I-Task
+of	684	686	I-Task
+the	687	690	I-Task
+dynamics	691	699	I-Task
+of	700	702	I-Task
+the	703	706	I-Task
+binding	707	714	I-Task
+interactions	715	727	I-Task
+between	728	735	O
+adsorbed	736	744	B-Material
+H2	745	747	I-Material
+molecules	748	757	I-Material
+and	758	761	O
+an	762	764	O
+aluminium	765	774	B-Material
+-	774	775	I-Material
+based	775	780	I-Material
+porous	781	787	I-Material
+MOF	788	791	I-Material
+,	791	792	O
+NOTT-300	793	801	B-Material
+,	801	802	O
+exhibiting	803	813	O
+moderate	814	822	O
+porosity	823	831	O
+,	831	832	O
+narrow	833	839	O
+pore	840	844	O
+window	845	851	O
+and	852	855	O
+very	856	860	O
+low	861	864	O
+uptake	865	871	O
+of	872	874	O
+H2	875	877	B-Material
+.	877	878	O
+
+This	879	883	O
+neutron	884	891	B-Task
+spectroscopy	892	904	I-Task
+study	905	910	O
+reveals	911	918	O
+that	919	923	O
+adsorbed	924	932	B-Material
+H2	933	935	I-Material
+molecules	936	945	I-Material
+do	946	948	O
+not	949	952	O
+interact	953	961	O
+with	962	966	O
+the	967	970	O
+organic	971	978	B-Material
+ligand	979	985	I-Material
+within	986	992	O
+the	993	996	O
+pore	997	1001	O
+channels	1002	1010	O
+,	1010	1011	O
+and	1012	1015	O
+form	1016	1020	O
+very	1021	1025	O
+weak	1026	1030	O
+interactions	1031	1043	O
+with	1044	1048	O
+[	1049	1050	B-Material
+Al(OH)2O4	1050	1059	I-Material
+]	1059	1060	I-Material
+moieties	1061	1069	I-Material
+via	1070	1073	O
+a	1074	1075	O
+type	1076	1080	O
+of	1081	1083	O
+through	1084	1091	B-Process
+-	1091	1092	I-Process
+spacing	1092	1099	I-Process
+interaction	1100	1111	I-Process
+(	1112	1113	O
+Al	1113	1115	B-Process
+-	1115	1116	I-Process
+O⋯H2	1116	1120	I-Process
+)	1120	1121	O
+.	1121	1122	O
+
+Interestingly	1123	1136	O
+,	1136	1137	O
+the	1138	1141	O
+very	1142	1146	O
+low	1147	1150	O
+H2	1151	1153	B-Process
+adsorption	1154	1164	I-Process
+has	1165	1168	O
+been	1169	1173	O
+successfully	1174	1186	O
+characterised	1187	1200	O
+as	1201	1203	O
+weak	1204	1208	B-Process
+binding	1209	1216	I-Process
+interactions	1217	1229	I-Process
+and	1230	1233	O
+,	1233	1234	O
+for	1235	1238	O
+the	1239	1242	O
+first	1243	1248	O
+time	1249	1253	O
+,	1253	1254	O
+we	1255	1257	O
+have	1258	1262	O
+found	1263	1268	O
+that	1269	1273	O
+the	1274	1277	O
+adsorbed	1278	1286	B-Material
+H2	1287	1289	I-Material
+in	1290	1292	O
+the	1293	1296	O
+pore	1297	1301	O
+channel	1302	1309	O
+has	1310	1313	O
+a	1314	1315	O
+liquid	1316	1322	B-Material
+type	1323	1327	O
+recoil	1328	1334	O
+motion	1335	1341	O
+at	1342	1344	O
+5	1345	1346	O
+K	1346	1347	O
+(	1348	1349	O
+below	1349	1354	O
+its	1355	1358	O
+melting	1359	1366	O
+point	1367	1372	O
+)	1372	1373	O
+as	1374	1376	O
+a	1377	1378	O
+direct	1379	1385	O
+result	1386	1392	O
+of	1393	1395	O
+this	1396	1400	O
+weak	1401	1405	B-Process
+interaction	1406	1417	I-Process
+to	1418	1420	O
+the	1421	1424	O
+MOF	1425	1428	B-Material
+host	1429	1433	O
+.	1433	1434	O
 
 
 -DOCSTART- (S0301010415002189)
 
-The	NN	O	O
-sodium	NN	O	B-Material
-trimer	NN	O	I-Material
-has	NN	O	O
-a	NN	O	O
-long	NN	O	O
-history	NN	O	O
-of	NN	O	O
-theoretical	NN	O	O
-and	NN	O	O
-experimental	NN	O	O
-studies	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-pioneering	NN	O	O
-theoretical	NN	O	O
-paper	NN	O	O
-of	NN	O	O
-Martin	NN	O	O
-and	NN	O	O
-Davidson	NN	O	O
-published	NN	O	O
-in	NN	O	O
-1978	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-obtuse	NN	O	B-Process
-isosceles	NN	O	I-Process
-geometry	NN	O	I-Process
-is	NN	O	O
-lower	NN	O	O
-in	NN	O	O
-energy	NN	O	O
-than	NN	O	O
-the	NN	O	O
-linear	NN	O	B-Process
-conformation	NN	O	I-Process
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Several	NN	O	O
-extended	NN	O	O
-PES	NN	O	B-Process
-scans	NN	O	I-Process
-of	NN	O	O
-Na3	NN	O	B-Material
-and	NN	O	O
-other	NN	O	O
-alkali	NN	O	B-Material
-trimers	NN	O	I-Material
-followed	NN	O	O
-this	NN	O	O
-initial	NN	O	O
-study	NN	O	O
-,	NN	O	O
-employing	NN	O	O
-DFT	NN	O	B-Process
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-,	NN	O	O
-complete	NN	O	B-Process
-active	NN	O	I-Process
-space	NN	O	I-Process
-SCF	NN	O	I-Process
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-,	NN	O	O
-or	NN	O	O
-a	NN	O	O
-configuration	NN	O	B-Process
-interaction	NN	O	I-Process
-approach	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-valence	NN	O	B-Process
-bond	NN	O	I-Process
-wave	NN	O	I-Process
-functions	NN	O	I-Process
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Recently	NN	O	O
-,	NN	O	O
-the	NN	O	O
-applicability	NN	O	O
-of	NN	O	O
-density	NN	O	B-Process
-functional	NN	O	I-Process
-theory	NN	O	I-Process
-(	NN	O	O
-DFT	NN	O	B-Process
-)	NN	O	O
-to	NN	O	O
-JT	NN	O	B-Process
--	NN	O	I-Process
-distorted	NN	O	I-Process
-systems	NN	O	I-Process
-has	NN	O	O
-also	NN	O	O
-been	NN	O	O
-tested	NN	O	O
-for	NN	O	O
-Na3	NN	O	B-Material
-
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-B	NN	O	B-Process
--	NN	O	I-Process
-X	NN	O	I-Process
-transition	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-revisited	NN	O	O
-as	NN	O	O
-well	NN	O	O
-,	NN	O	O
-applying	NN	O	O
-state	NN	O	B-Process
--	NN	O	I-Process
-averaged	NN	O	I-Process
-multi	NN	O	I-Process
--	NN	O	I-Process
-reference	NN	O	I-Process
-configuration	NN	O	I-Process
-interaction	NN	O	I-Process
-with	NN	O	O
-a	NN	O	O
-large	NN	O	O
-active	NN	O	O
-space	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-derive	NN	O	B-Task
-more	NN	O	I-Task
-accurate	NN	O	I-Task
-non	NN	O	I-Task
--	NN	O	I-Task
-adiabatic	NN	O	I-Task
-coupling	NN	O	I-Task
-terms	NN	O	I-Task
-for	NN	O	O
-an	NN	O	O
-improved	NN	O	O
-interpretation	NN	O	O
-of	NN	O	O
-photoabsorption	NN	O	B-Material
-spectra	NN	O	I-Material
-[	NN	O	O
-11–13	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+sodium	4	10	B-Material
+trimer	11	17	I-Material
+has	18	21	O
+a	22	23	O
+long	24	28	O
+history	29	36	O
+of	37	39	O
+theoretical	40	51	O
+and	52	55	O
+experimental	56	68	O
+studies	69	76	O
+.	76	77	O
+
+A	78	79	O
+pioneering	80	90	O
+theoretical	91	102	O
+paper	103	108	O
+of	109	111	O
+Martin	112	118	O
+and	119	122	O
+Davidson	123	131	O
+published	132	141	O
+in	142	144	O
+1978	145	149	O
+showed	150	156	O
+that	157	161	O
+the	162	165	O
+obtuse	166	172	B-Process
+isosceles	173	182	I-Process
+geometry	183	191	I-Process
+is	192	194	O
+lower	195	200	O
+in	201	203	O
+energy	204	210	O
+than	211	215	O
+the	216	219	O
+linear	220	226	B-Process
+conformation	227	239	I-Process
+[	240	241	O
+6	241	242	O
+]	242	243	O
+.	243	244	O
+
+Several	245	252	O
+extended	253	261	O
+PES	262	265	B-Process
+scans	266	271	I-Process
+of	272	274	O
+Na3	275	278	B-Material
+and	279	282	O
+other	283	288	O
+alkali	289	295	B-Material
+trimers	296	303	I-Material
+followed	304	312	O
+this	313	317	O
+initial	318	325	O
+study	326	331	O
+,	331	332	O
+employing	333	342	O
+DFT	343	346	B-Process
+[	347	348	O
+7	348	349	O
+]	349	350	O
+,	350	351	O
+complete	352	360	B-Process
+active	361	367	I-Process
+space	368	373	I-Process
+SCF	374	377	I-Process
+[	378	379	O
+8	379	380	O
+]	380	381	O
+,	381	382	O
+or	383	385	O
+a	386	387	O
+configuration	388	401	B-Process
+interaction	402	413	I-Process
+approach	414	422	I-Process
+based	423	428	O
+on	429	431	O
+valence	432	439	B-Process
+bond	440	444	I-Process
+wave	445	449	I-Process
+functions	450	459	I-Process
+[	460	461	O
+9	461	462	O
+]	462	463	O
+.	463	464	O
+
+Recently	465	473	O
+,	473	474	O
+the	475	478	O
+applicability	479	492	O
+of	493	495	O
+density	496	503	B-Process
+functional	504	514	I-Process
+theory	515	521	I-Process
+(	522	523	O
+DFT	523	526	B-Process
+)	526	527	O
+to	528	530	O
+JT	531	533	B-Process
+-	533	534	I-Process
+distorted	534	543	I-Process
+systems	544	551	I-Process
+has	552	555	O
+also	556	560	O
+been	561	565	O
+tested	566	572	O
+for	573	576	O
+Na3	577	580	B-Material
+
+[	581	582	O
+10	582	584	O
+]	584	585	O
+,	585	586	O
+and	587	590	O
+the	591	594	O
+B	595	596	B-Process
+-	596	597	I-Process
+X	597	598	I-Process
+transition	599	609	I-Process
+has	610	613	O
+been	614	618	O
+revisited	619	628	O
+as	629	631	O
+well	632	636	O
+,	636	637	O
+applying	638	646	O
+state	647	652	B-Process
+-	652	653	I-Process
+averaged	653	661	I-Process
+multi	662	667	I-Process
+-	667	668	I-Process
+reference	668	677	I-Process
+configuration	678	691	I-Process
+interaction	692	703	I-Process
+with	704	708	O
+a	709	710	O
+large	711	716	O
+active	717	723	O
+space	724	729	O
+in	730	732	O
+order	733	738	O
+to	739	741	O
+derive	742	748	B-Task
+more	749	753	I-Task
+accurate	754	762	I-Task
+non	763	766	I-Task
+-	766	767	I-Task
+adiabatic	767	776	I-Task
+coupling	777	785	I-Task
+terms	786	791	I-Task
+for	792	795	O
+an	796	798	O
+improved	799	807	O
+interpretation	808	822	O
+of	823	825	O
+photoabsorption	826	841	B-Material
+spectra	842	849	I-Material
+[	850	851	O
+11–13	851	856	O
+]	856	857	O
+.	857	858	O
 
 
 -DOCSTART- (S0301010415300355)
 
-Alternatively	NN	O	O
-to	NN	O	O
-H	NN	O	B-Process
--	NN	O	I-Process
-atom	NN	O	I-Process
-photodetachment	NN	O	I-Process
-from	NN	O	O
-the	NN	O	O
-intermediate	NN	O	B-Material
-radicals	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-may	NN	O	O
-serve	NN	O	O
-as	NN	O	O
-reducing	NN	O	B-Material
-agents	NN	O	I-Material
-.	NN	O	O
-
-Evidence	NN	O	O
-has	NN	O	O
-been	NN	O	O
-reported	NN	O	O
-in	NN	O	O
-recent	NN	O	O
-years	NN	O	O
-that	NN	O	O
-the	NN	O	O
-pyridinyl	NN	O	B-Material
-radical	NN	O	I-Material
-(	NN	O	O
-PyH	NN	O	B-Material
-)	NN	O	O
-is	NN	O	O
-an	NN	O	O
-exceptionally	NN	O	O
-strong	NN	O	O
-reducing	NN	O	B-Material
-agent	NN	O	I-Material
-which	NN	O	O
-can	NN	O	O
-even	NN	O	O
-reduce	NN	O	O
-CO2	NN	O	B-Material
-to	NN	O	O
-formaldehyde	NN	O	B-Material
-,	NN	O	O
-formic	NN	O	B-Material
-acid	NN	O	I-Material
-or	NN	O	O
-methanol	NN	O	B-Material
-with	NN	O	O
-suitable	NN	O	O
-catalyzers	NN	O	B-Material
-
-[	NN	O	O
-27–29	NN	O	O
-]	NN	O	O
-,	NN	O	O
-albeit	NN	O	O
-the	NN	O	O
-mechanisms	NN	O	O
-of	NN	O	O
-these	NN	O	O
-reactions	NN	O	O
-are	NN	O	O
-currently	NN	O	O
-poorly	NN	O	O
-understood	NN	O	O
-[	NN	O	O
-30–32	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-theoretically	NN	O	O
-predicted	NN	O	O
-dissociation	NN	O	O
-thresholds	NN	O	O
-of	NN	O	O
-the	NN	O	O
-AcH	NN	O	B-Material
-,	NN	O	I-Material
-AOH	NN	O	I-Material
-and	NN	O	I-Material
-BAH	NN	O	I-Material
-radicals	NN	O	I-Material
-are	NN	O	O
-about	NN	O	O
-2.7eV	NN	O	O
-,	NN	O	O
-2.5eV	NN	O	O
-and	NN	O	O
-3.0eV	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-(	NN	O	O
-see	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-4	NN	O	O
-)	NN	O	O
-,	NN	O	O
-while	NN	O	O
-the	NN	O	O
-predicted	NN	O	O
-dissociation	NN	O	O
-threshold	NN	O	O
-of	NN	O	O
-the	NN	O	O
-pyridinyl	NN	O	B-Material
-radical	NN	O	I-Material
-is	NN	O	O
-much	NN	O	O
-lower	NN	O	O
-,	NN	O	O
-about	NN	O	O
-1.7eV	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Pyridinyl	NN	O	B-Material
-is	NN	O	O
-thus	NN	O	O
-a	NN	O	O
-significantly	NN	O	O
-stronger	NN	O	O
-reductant	NN	O	B-Material
-than	NN	O	O
-acridinyl	NN	O	B-Material
-and	NN	O	O
-related	NN	O	O
-radicals	NN	O	B-Material
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-therefore	NN	O	O
-not	NN	O	O
-expected	NN	O	O
-that	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-will	NN	O	O
-be	NN	O	O
-able	NN	O	O
-to	NN	O	O
-reduce	NN	O	B-Task
-carbon	NN	O	I-Task
-dioxide	NN	O	I-Task
-in	NN	O	I-Task
-dark	NN	O	I-Task
-reactions	NN	O	I-Task
-.	NN	O	O
+Alternatively	0	13	O
+to	14	16	O
+H	17	18	B-Process
+-	18	19	I-Process
+atom	19	23	I-Process
+photodetachment	24	39	I-Process
+from	40	44	O
+the	45	48	O
+intermediate	49	61	B-Material
+radicals	62	70	I-Material
+,	70	71	O
+the	72	75	O
+latter	76	82	O
+may	83	86	O
+serve	87	92	O
+as	93	95	O
+reducing	96	104	B-Material
+agents	105	111	I-Material
+.	111	112	O
+
+Evidence	113	121	O
+has	122	125	O
+been	126	130	O
+reported	131	139	O
+in	140	142	O
+recent	143	149	O
+years	150	155	O
+that	156	160	O
+the	161	164	O
+pyridinyl	165	174	B-Material
+radical	175	182	I-Material
+(	183	184	O
+PyH	184	187	B-Material
+)	187	188	O
+is	189	191	O
+an	192	194	O
+exceptionally	195	208	O
+strong	209	215	O
+reducing	216	224	B-Material
+agent	225	230	I-Material
+which	231	236	O
+can	237	240	O
+even	241	245	O
+reduce	246	252	O
+CO2	253	256	B-Material
+to	257	259	O
+formaldehyde	260	272	B-Material
+,	272	273	O
+formic	274	280	B-Material
+acid	281	285	I-Material
+or	286	288	O
+methanol	289	297	B-Material
+with	298	302	O
+suitable	303	311	O
+catalyzers	312	322	B-Material
+
+[	323	324	O
+27–29	324	329	O
+]	329	330	O
+,	330	331	O
+albeit	332	338	O
+the	339	342	O
+mechanisms	343	353	O
+of	354	356	O
+these	357	362	O
+reactions	363	372	O
+are	373	376	O
+currently	377	386	O
+poorly	387	393	O
+understood	394	404	O
+[	405	406	O
+30–32	406	411	O
+]	411	412	O
+.	412	413	O
+
+The	414	417	O
+theoretically	418	431	O
+predicted	432	441	O
+dissociation	442	454	O
+thresholds	455	465	O
+of	466	468	O
+the	469	472	O
+AcH	473	476	B-Material
+,	476	477	I-Material
+AOH	478	481	I-Material
+and	482	485	I-Material
+BAH	486	489	I-Material
+radicals	490	498	I-Material
+are	499	502	O
+about	503	508	O
+2.7eV	509	514	O
+,	514	515	O
+2.5eV	516	521	O
+and	522	525	O
+3.0eV	526	531	O
+,	531	532	O
+respectively	533	545	O
+(	546	547	O
+see	547	550	O
+Fig	551	554	O
+.	554	555	O
+
+4	556	557	O
+)	557	558	O
+,	558	559	O
+while	560	565	O
+the	566	569	O
+predicted	570	579	O
+dissociation	580	592	O
+threshold	593	602	O
+of	603	605	O
+the	606	609	O
+pyridinyl	610	619	B-Material
+radical	620	627	I-Material
+is	628	630	O
+much	631	635	O
+lower	636	641	O
+,	641	642	O
+about	643	648	O
+1.7eV	649	654	O
+[	655	656	O
+1	656	657	O
+]	657	658	O
+.	658	659	O
+
+Pyridinyl	660	669	B-Material
+is	670	672	O
+thus	673	677	O
+a	678	679	O
+significantly	680	693	O
+stronger	694	702	O
+reductant	703	712	B-Material
+than	713	717	O
+acridinyl	718	727	B-Material
+and	728	731	O
+related	732	739	O
+radicals	740	748	B-Material
+.	748	749	O
+
+It	750	752	O
+is	753	755	O
+therefore	756	765	O
+not	766	769	O
+expected	770	778	O
+that	779	783	O
+the	784	787	O
+latter	788	794	O
+will	795	799	O
+be	800	802	O
+able	803	807	O
+to	808	810	O
+reduce	811	817	B-Task
+carbon	818	824	I-Task
+dioxide	825	832	I-Task
+in	833	835	I-Task
+dark	836	840	I-Task
+reactions	841	850	I-Task
+.	850	851	O
 
 
 -DOCSTART- (S0301932213000487)
 
-As	NN	O	O
-already	NN	O	O
-discussed	NN	O	O
-,	NN	O	O
-in	NN	O	O
-dilute	NN	O	B-Material
-flows	NN	O	I-Material
-the	NN	O	O
-choice	NN	O	O
-between	NN	O	O
-the	NN	O	O
-hard	NN	O	B-Process
-sphere	NN	O	I-Process
-and	NN	O	I-Process
-soft	NN	O	I-Process
-sphere	NN	O	I-Process
-models	NN	O	I-Process
-largely	NN	O	O
-depends	NN	O	O
-on	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-time	NN	O	O
-spent	NN	O	O
-to	NN	O	O
-solve	NN	O	B-Task
-the	NN	O	I-Task
-particle	NN	O	I-Task
-equation	NN	O	I-Task
-of	NN	O	I-Task
-motion	NN	O	I-Task
-.	NN	O	O
-
-For	NN	O	O
-very	NN	O	O
-dilute	NN	O	B-Material
-flows	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-hard	NN	O	B-Process
-sphere	NN	O	I-Process
-model	NN	O	I-Process
-is	NN	O	O
-the	NN	O	O
-most	NN	O	O
-natural	NN	O	O
-choice	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-when	NN	O	O
-the	NN	O	O
-collisions	NN	O	O
-can	NN	O	O
-no	NN	O	O
-longer	NN	O	O
-be	NN	O	O
-assumed	NN	O	O
-as	NN	O	O
-binary	NN	O	O
-and	NN	O	O
-instantaneous	NN	O	O
-,	NN	O	O
-the	NN	O	O
-soft	NN	O	B-Process
-sphere	NN	O	I-Process
-model	NN	O	I-Process
-is	NN	O	O
-the	NN	O	O
-only	NN	O	O
-realistic	NN	O	O
-option	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-interesting	NN	O	O
-to	NN	O	O
-know	NN	O	O
-whether	NN	O	O
-the	NN	O	O
-choice	NN	O	O
-of	NN	O	O
-the	NN	O	O
-collision	NN	O	B-Process
-model	NN	O	I-Process
-affects	NN	O	O
-the	NN	O	O
-statistics	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-14	NN	O	O
-compares	NN	O	O
-the	NN	O	O
-mean	NN	O	O
-velocity	NN	O	O
-obtained	NN	O	O
-from	NN	O	O
-both	NN	O	O
-models	NN	O	O
-with	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-data	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-same	NN	O	O
-comparison	NN	O	O
-is	NN	O	O
-performed	NN	O	O
-for	NN	O	O
-the	NN	O	O
-smooth	NN	O	B-Material
-walls	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-differences	NN	O	O
-between	NN	O	O
-the	NN	O	O
-hard	NN	O	B-Process
-and	NN	O	I-Process
-soft	NN	O	I-Process
-sphere	NN	O	I-Process
-models	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-smooth	NN	O	B-Material
-walls	NN	O	I-Material
-are	NN	O	O
-almost	NN	O	O
-negligible	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-differences	NN	O	O
-between	NN	O	O
-the	NN	O	O
-hard	NN	O	B-Process
-and	NN	O	I-Process
-soft	NN	O	I-Process
-sphere	NN	O	I-Process
-models	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-rough	NN	O	B-Material
-walls	NN	O	I-Material
-are	NN	O	O
-minor	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-because	NN	O	O
-the	NN	O	O
-rough	NN	O	B-Task
-wall	NN	O	I-Task
-treatment	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-soft	NN	O	B-Process
-sphere	NN	O	I-Process
-implementation	NN	O	I-Process
-adds	NN	O	O
-extra	NN	O	O
-virtual	NN	O	B-Material
-walls	NN	O	I-Material
-during	NN	O	O
-the	NN	O	O
-collision	NN	O	O
-of	NN	O	O
-a	NN	O	O
-particle	NN	O	B-Material
-with	NN	O	O
-a	NN	O	O
-wall	NN	O	B-Material
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-a	NN	O	O
-more	NN	O	O
-realistic	NN	O	O
-representation	NN	O	O
-of	NN	O	O
-a	NN	O	O
-rough	NN	O	B-Material
-wall	NN	O	I-Material
-compared	NN	O	O
-to	NN	O	O
-the	NN	O	O
-hard	NN	O	B-Task
-sphere	NN	O	I-Task
-rough	NN	O	I-Task
-wall	NN	O	I-Task
-treatment	NN	O	I-Task
-where	NN	O	O
-one	NN	O	O
-random	NN	O	B-Material
-wall	NN	O	I-Material
-is	NN	O	O
-considered	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-because	NN	O	O
-,	NN	O	O
-a	NN	O	O
-soft	NN	O	B-Process
-sphere	NN	O	I-Process
-collision	NN	O	I-Process
-is	NN	O	O
-not	NN	O	O
-instantaneous	NN	O	O
-and	NN	O	O
-occurs	NN	O	O
-over	NN	O	O
-a	NN	O	O
-finite	NN	O	O
-amount	NN	O	O
-of	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-Similarly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-same	NN	O	O
-effects	NN	O	O
-are	NN	O	O
-observed	NN	O	O
-on	NN	O	O
-the	NN	O	O
-fluid	NN	O	B-Material
-statistics	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-15	NN	O	O
-,	NN	O	O
-which	NN	O	O
-compares	NN	O	O
-the	NN	O	O
-particle	NN	O	B-Material
-velocity	NN	O	O
-fluctuations	NN	O	O
-,	NN	O	O
-shows	NN	O	O
-that	NN	O	O
-the	NN	O	O
-differences	NN	O	O
-are	NN	O	O
-somewhat	NN	O	O
-larger	NN	O	O
-.	NN	O	O
-
-Additionally	NN	O	O
-,	NN	O	O
-the	NN	O	O
-differences	NN	O	O
-in	NN	O	O
-both	NN	O	O
-particle	NN	O	B-Material
-mean	NN	O	O
-and	NN	O	O
-RMS	NN	O	O
-velocity	NN	O	O
-profiles	NN	O	O
-are	NN	O	O
-because	NN	O	O
-the	NN	O	O
-hard	NN	O	B-Process
-sphere	NN	O	I-Process
-collisions	NN	O	I-Process
-are	NN	O	O
-unfortunately	NN	O	O
-heavily	NN	O	O
-dependent	NN	O	O
-on	NN	O	O
-the	NN	O	O
-tangential	NN	O	O
-coefficient	NN	O	O
-of	NN	O	O
-restitution	NN	O	O
-(	NN	O	O
-ψ	NN	O	O
-)	NN	O	O
-;	NN	O	O
-the	NN	O	O
-effects	NN	O	O
-by	NN	O	O
-varying	NN	O	O
-this	NN	O	O
-quantity	NN	O	O
-are	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Figs	NN	O	O
-.	NN	O	O
-
-16	NN	O	O
-and	NN	O	O
-17	NN	O	O
-.	NN	O	O
+As	0	2	O
+already	3	10	O
+discussed	11	20	O
+,	20	21	O
+in	22	24	O
+dilute	25	31	B-Material
+flows	32	37	I-Material
+the	38	41	O
+choice	42	48	O
+between	49	56	O
+the	57	60	O
+hard	61	65	B-Process
+sphere	66	72	I-Process
+and	73	76	I-Process
+soft	77	81	I-Process
+sphere	82	88	I-Process
+models	89	95	I-Process
+largely	96	103	O
+depends	104	111	O
+on	112	114	O
+the	115	118	O
+computational	119	132	O
+time	133	137	O
+spent	138	143	O
+to	144	146	O
+solve	147	152	B-Task
+the	153	156	I-Task
+particle	157	165	I-Task
+equation	166	174	I-Task
+of	175	177	I-Task
+motion	178	184	I-Task
+.	184	185	O
+
+For	186	189	O
+very	190	194	O
+dilute	195	201	B-Material
+flows	202	207	I-Material
+,	207	208	O
+the	209	212	O
+hard	213	217	B-Process
+sphere	218	224	I-Process
+model	225	230	I-Process
+is	231	233	O
+the	234	237	O
+most	238	242	O
+natural	243	250	O
+choice	251	257	O
+.	257	258	O
+
+However	259	266	O
+,	266	267	O
+when	268	272	O
+the	273	276	O
+collisions	277	287	O
+can	288	291	O
+no	292	294	O
+longer	295	301	O
+be	302	304	O
+assumed	305	312	O
+as	313	315	O
+binary	316	322	O
+and	323	326	O
+instantaneous	327	340	O
+,	340	341	O
+the	342	345	O
+soft	346	350	B-Process
+sphere	351	357	I-Process
+model	358	363	I-Process
+is	364	366	O
+the	367	370	O
+only	371	375	O
+realistic	376	385	O
+option	386	392	O
+.	392	393	O
+
+It	394	396	O
+is	397	399	O
+interesting	400	411	O
+to	412	414	O
+know	415	419	O
+whether	420	427	O
+the	428	431	O
+choice	432	438	O
+of	439	441	O
+the	442	445	O
+collision	446	455	B-Process
+model	456	461	I-Process
+affects	462	469	O
+the	470	473	O
+statistics	474	484	O
+.	484	485	O
+
+Fig	486	489	O
+.	489	490	O
+
+14	491	493	O
+compares	494	502	O
+the	503	506	O
+mean	507	511	O
+velocity	512	520	O
+obtained	521	529	O
+from	530	534	O
+both	535	539	O
+models	540	546	O
+with	547	551	O
+the	552	555	O
+experimental	556	568	O
+data	569	573	O
+.	573	574	O
+
+The	575	578	O
+same	579	583	O
+comparison	584	594	O
+is	595	597	O
+performed	598	607	O
+for	608	611	O
+the	612	615	O
+smooth	616	622	B-Material
+walls	623	628	I-Material
+.	628	629	O
+
+The	630	633	O
+differences	634	645	O
+between	646	653	O
+the	654	657	O
+hard	658	662	B-Process
+and	663	666	I-Process
+soft	667	671	I-Process
+sphere	672	678	I-Process
+models	679	685	I-Process
+for	686	689	O
+the	690	693	O
+smooth	694	700	B-Material
+walls	701	706	I-Material
+are	707	710	O
+almost	711	717	O
+negligible	718	728	O
+.	728	729	O
+
+However	730	737	O
+,	737	738	O
+the	739	742	O
+differences	743	754	O
+between	755	762	O
+the	763	766	O
+hard	767	771	B-Process
+and	772	775	I-Process
+soft	776	780	I-Process
+sphere	781	787	I-Process
+models	788	794	I-Process
+for	795	798	O
+the	799	802	O
+rough	803	808	B-Material
+walls	809	814	I-Material
+are	815	818	O
+minor	819	824	O
+.	824	825	O
+
+This	826	830	O
+is	831	833	O
+because	834	841	O
+the	842	845	O
+rough	846	851	B-Task
+wall	852	856	I-Task
+treatment	857	866	I-Task
+in	867	869	O
+the	870	873	O
+soft	874	878	B-Process
+sphere	879	885	I-Process
+implementation	886	900	I-Process
+adds	901	905	O
+extra	906	911	O
+virtual	912	919	B-Material
+walls	920	925	I-Material
+during	926	932	O
+the	933	936	O
+collision	937	946	O
+of	947	949	O
+a	950	951	O
+particle	952	960	B-Material
+with	961	965	O
+a	966	967	O
+wall	968	972	B-Material
+,	972	973	O
+which	974	979	O
+is	980	982	O
+a	983	984	O
+more	985	989	O
+realistic	990	999	O
+representation	1000	1014	O
+of	1015	1017	O
+a	1018	1019	O
+rough	1020	1025	B-Material
+wall	1026	1030	I-Material
+compared	1031	1039	O
+to	1040	1042	O
+the	1043	1046	O
+hard	1047	1051	B-Task
+sphere	1052	1058	I-Task
+rough	1059	1064	I-Task
+wall	1065	1069	I-Task
+treatment	1070	1079	I-Task
+where	1080	1085	O
+one	1086	1089	O
+random	1090	1096	B-Material
+wall	1097	1101	I-Material
+is	1102	1104	O
+considered	1105	1115	O
+.	1115	1116	O
+
+This	1117	1121	O
+is	1122	1124	O
+because	1125	1132	O
+,	1132	1133	O
+a	1134	1135	O
+soft	1136	1140	B-Process
+sphere	1141	1147	I-Process
+collision	1148	1157	I-Process
+is	1158	1160	O
+not	1161	1164	O
+instantaneous	1165	1178	O
+and	1179	1182	O
+occurs	1183	1189	O
+over	1190	1194	O
+a	1195	1196	O
+finite	1197	1203	O
+amount	1204	1210	O
+of	1211	1213	O
+time	1214	1218	O
+.	1218	1219	O
+
+Similarly	1220	1229	O
+,	1229	1230	O
+the	1231	1234	O
+same	1235	1239	O
+effects	1240	1247	O
+are	1248	1251	O
+observed	1252	1260	O
+on	1261	1263	O
+the	1264	1267	O
+fluid	1268	1273	B-Material
+statistics	1274	1284	O
+.	1284	1285	O
+
+However	1286	1293	O
+,	1293	1294	O
+Fig	1295	1298	O
+.	1298	1299	O
+
+15	1300	1302	O
+,	1302	1303	O
+which	1304	1309	O
+compares	1310	1318	O
+the	1319	1322	O
+particle	1323	1331	B-Material
+velocity	1332	1340	O
+fluctuations	1341	1353	O
+,	1353	1354	O
+shows	1355	1360	O
+that	1361	1365	O
+the	1366	1369	O
+differences	1370	1381	O
+are	1382	1385	O
+somewhat	1386	1394	O
+larger	1395	1401	O
+.	1401	1402	O
+
+Additionally	1403	1415	O
+,	1415	1416	O
+the	1417	1420	O
+differences	1421	1432	O
+in	1433	1435	O
+both	1436	1440	O
+particle	1441	1449	B-Material
+mean	1450	1454	O
+and	1455	1458	O
+RMS	1459	1462	O
+velocity	1463	1471	O
+profiles	1472	1480	O
+are	1481	1484	O
+because	1485	1492	O
+the	1493	1496	O
+hard	1497	1501	B-Process
+sphere	1502	1508	I-Process
+collisions	1509	1519	I-Process
+are	1520	1523	O
+unfortunately	1524	1537	O
+heavily	1538	1545	O
+dependent	1546	1555	O
+on	1556	1558	O
+the	1559	1562	O
+tangential	1563	1573	O
+coefficient	1574	1585	O
+of	1586	1588	O
+restitution	1589	1600	O
+(	1601	1602	O
+ψ	1602	1603	O
+)	1603	1604	O
+;	1604	1605	O
+the	1606	1609	O
+effects	1610	1617	O
+by	1618	1620	O
+varying	1621	1628	O
+this	1629	1633	O
+quantity	1634	1642	O
+are	1643	1646	O
+shown	1647	1652	O
+in	1653	1655	O
+Figs	1656	1660	O
+.	1660	1661	O
+
+16	1662	1664	O
+and	1665	1668	O
+17	1669	1671	O
+.	1671	1672	O
 
 
 -DOCSTART- (S0301932213001985)
 
-In	NN	O	O
-the	NN	O	O
-current	NN	O	O
-CLSVOF	NN	O	B-Process
-method	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-normal	NN	O	O
-vector	NN	O	O
-is	NN	O	O
-calculated	NN	O	O
-directly	NN	O	O
-by	NN	O	O
-discretising	NN	O	O
-the	NN	O	O
-LS	NN	O	B-Process
-gradient	NN	O	O
-using	NN	O	O
-a	NN	O	O
-finite	NN	O	B-Process
-difference	NN	O	I-Process
-scheme	NN	O	I-Process
-.	NN	O	O
-
-By	NN	O	O
-appropriately	NN	O	O
-choosing	NN	O	O
-one	NN	O	O
-of	NN	O	O
-three	NN	O	O
-finite	NN	O	B-Process
-difference	NN	O	I-Process
-schemes	NN	O	I-Process
-(	NN	O	O
-central	NN	O	B-Process
-,	NN	O	I-Process
-forward	NN	O	I-Process
-,	NN	O	I-Process
-or	NN	O	I-Process
-backward	NN	O	I-Process
-differencing	NN	O	I-Process
-)	NN	O	O
-,	NN	O	O
-it	NN	O	O
-has	NN	O	O
-been	NN	O	O
-demonstrated	NN	O	O
-that	NN	O	O
-thin	NN	O	B-Material
-liquid	NN	O	I-Material
-ligaments	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-well	NN	O	O
-resolved	NN	O	O
-see	NN	O	O
-Xiao	NN	O	O
-(	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Although	NN	O	O
-a	NN	O	O
-high	NN	O	B-Process
-order	NN	O	I-Process
-discretisation	NN	O	I-Process
-scheme	NN	O	I-Process
-(	NN	O	O
-e.g.	NN	O	O
-5th	NN	O	B-Process
-order	NN	O	I-Process
-WENO	NN	O	I-Process
-)	NN	O	O
-has	NN	O	O
-been	NN	O	O
-found	NN	O	O
-necessary	NN	O	O
-for	NN	O	O
-LS	NN	O	B-Process
-evolution	NN	O	O
-in	NN	O	O
-pure	NN	O	O
-LS	NN	O	B-Process
-methods	NN	O	I-Process
-to	NN	O	O
-reduce	NN	O	B-Task
-mass	NN	O	I-Task
-error	NN	O	I-Task
-,	NN	O	O
-low	NN	O	B-Process
-order	NN	O	I-Process
-LS	NN	O	I-Process
-discretisation	NN	O	I-Process
-schemes	NN	O	I-Process
-(	NN	O	O
-2nd	NN	O	O
-order	NN	O	O
-is	NN	O	O
-used	NN	O	O
-here	NN	O	O
-)	NN	O	O
-can	NN	O	O
-produce	NN	O	O
-accurate	NN	O	O
-results	NN	O	O
-when	NN	O	O
-the	NN	O	O
-LS	NN	O	B-Process
-equation	NN	O	O
-is	NN	O	O
-solved	NN	O	O
-and	NN	O	O
-constrained	NN	O	O
-as	NN	O	O
-indicated	NN	O	O
-above	NN	O	O
-in	NN	O	O
-a	NN	O	O
-CLSVOF	NN	O	B-Process
-method	NN	O	I-Process
-(	NN	O	O
-see	NN	O	O
-Xiao	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-,	NN	O	O
-since	NN	O	O
-the	NN	O	O
-VOF	NN	O	B-Process
-method	NN	O	I-Process
-maintains	NN	O	O
-2nd	NN	O	O
-order	NN	O	O
-accuracy	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-a	NN	O	O
-further	NN	O	O
-reason	NN	O	O
-to	NN	O	O
-adopt	NN	O	O
-the	NN	O	O
-CLSVOF	NN	O	B-Process
-method	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-has	NN	O	O
-been	NN	O	O
-used	NN	O	O
-for	NN	O	O
-all	NN	O	O
-the	NN	O	O
-following	NN	O	O
-simulations	NN	O	B-Task
-of	NN	O	I-Task
-liquid	NN	O	I-Task
-jet	NN	O	I-Task
-primary	NN	O	I-Task
-breakup	NN	O	I-Task
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+current	7	14	O
+CLSVOF	15	21	B-Process
+method	22	28	I-Process
+,	28	29	O
+the	30	33	O
+normal	34	40	O
+vector	41	47	O
+is	48	50	O
+calculated	51	61	O
+directly	62	70	O
+by	71	73	O
+discretising	74	86	O
+the	87	90	O
+LS	91	93	B-Process
+gradient	94	102	O
+using	103	108	O
+a	109	110	O
+finite	111	117	B-Process
+difference	118	128	I-Process
+scheme	129	135	I-Process
+.	135	136	O
+
+By	137	139	O
+appropriately	140	153	O
+choosing	154	162	O
+one	163	166	O
+of	167	169	O
+three	170	175	O
+finite	176	182	B-Process
+difference	183	193	I-Process
+schemes	194	201	I-Process
+(	202	203	O
+central	203	210	B-Process
+,	210	211	I-Process
+forward	212	219	I-Process
+,	219	220	I-Process
+or	221	223	I-Process
+backward	224	232	I-Process
+differencing	233	245	I-Process
+)	245	246	O
+,	246	247	O
+it	248	250	O
+has	251	254	O
+been	255	259	O
+demonstrated	260	272	O
+that	273	277	O
+thin	278	282	B-Material
+liquid	283	289	I-Material
+ligaments	290	299	I-Material
+can	300	303	O
+be	304	306	O
+well	307	311	O
+resolved	312	320	O
+see	321	324	O
+Xiao	325	329	O
+(	330	331	O
+2012	331	335	O
+)	335	336	O
+.	336	337	O
+
+Although	338	346	O
+a	347	348	O
+high	349	353	B-Process
+order	354	359	I-Process
+discretisation	360	374	I-Process
+scheme	375	381	I-Process
+(	382	383	O
+e.g.	383	387	O
+5th	388	391	B-Process
+order	392	397	I-Process
+WENO	398	402	I-Process
+)	402	403	O
+has	404	407	O
+been	408	412	O
+found	413	418	O
+necessary	419	428	O
+for	429	432	O
+LS	433	435	B-Process
+evolution	436	445	O
+in	446	448	O
+pure	449	453	O
+LS	454	456	B-Process
+methods	457	464	I-Process
+to	465	467	O
+reduce	468	474	B-Task
+mass	475	479	I-Task
+error	480	485	I-Task
+,	485	486	O
+low	487	490	B-Process
+order	491	496	I-Process
+LS	497	499	I-Process
+discretisation	500	514	I-Process
+schemes	515	522	I-Process
+(	523	524	O
+2nd	524	527	O
+order	528	533	O
+is	534	536	O
+used	537	541	O
+here	542	546	O
+)	546	547	O
+can	548	551	O
+produce	552	559	O
+accurate	560	568	O
+results	569	576	O
+when	577	581	O
+the	582	585	O
+LS	586	588	B-Process
+equation	589	597	O
+is	598	600	O
+solved	601	607	O
+and	608	611	O
+constrained	612	623	O
+as	624	626	O
+indicated	627	636	O
+above	637	642	O
+in	643	645	O
+a	646	647	O
+CLSVOF	648	654	B-Process
+method	655	661	I-Process
+(	662	663	O
+see	663	666	O
+Xiao	667	671	O
+,	671	672	O
+2012	673	677	O
+)	677	678	O
+,	678	679	O
+since	680	685	O
+the	686	689	O
+VOF	690	693	B-Process
+method	694	700	I-Process
+maintains	701	710	O
+2nd	711	714	O
+order	715	720	O
+accuracy	721	729	O
+.	729	730	O
+
+This	731	735	O
+is	736	738	O
+a	739	740	O
+further	741	748	O
+reason	749	755	O
+to	756	758	O
+adopt	759	764	O
+the	765	768	O
+CLSVOF	769	775	B-Process
+method	776	782	I-Process
+,	782	783	O
+which	784	789	O
+has	790	793	O
+been	794	798	O
+used	799	803	O
+for	804	807	O
+all	808	811	O
+the	812	815	O
+following	816	825	O
+simulations	826	837	B-Task
+of	838	840	I-Task
+liquid	841	847	I-Task
+jet	848	851	I-Task
+primary	852	859	I-Task
+breakup	860	867	I-Task
+.	867	868	O
 
 
 -DOCSTART- (S0301932214001931)
 
-The	NN	O	O
-aim	NN	O	O
-of	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-is	NN	O	O
-to	NN	O	O
-investigate	NN	O	B-Task
-the	NN	O	I-Task
-influence	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-particle	NN	O	I-Task
-shape	NN	O	I-Task
-on	NN	O	I-Task
-interacting	NN	O	I-Task
-particles	NN	O	I-Task
-flowing	NN	O	I-Task
-in	NN	O	I-Task
-a	NN	O	I-Task
-horizontal	NN	O	I-Task
-turbulent	NN	O	I-Task
-channel	NN	O	I-Task
-flow	NN	O	I-Task
-,	NN	O	O
-for	NN	O	O
-particles	NN	O	B-Material
-with	NN	O	O
-a	NN	O	O
-significant	NN	O	O
-Stokes	NN	O	O
-number	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-achieve	NN	O	O
-this	NN	O	O
-,	NN	O	O
-large	NN	O	B-Process
-eddy	NN	O	I-Process
-simulations	NN	O	I-Process
-(	NN	O	O
-LES	NN	O	B-Process
-)	NN	O	O
-of	NN	O	O
-a	NN	O	O
-horizontal	NN	O	B-Process
-turbulent	NN	O	I-Process
-channel	NN	O	I-Process
-flow	NN	O	I-Process
-laden	NN	O	O
-with	NN	O	O
-five	NN	O	O
-different	NN	O	O
-particle	NN	O	B-Material
-shapes	NN	O	O
-,	NN	O	O
-incorporating	NN	O	O
-the	NN	O	O
-drag	NN	O	B-Process
-,	NN	O	I-Process
-lift	NN	O	I-Process
-and	NN	O	I-Process
-toque	NN	O	I-Process
-model	NN	O	I-Process
-derived	NN	O	O
-in	NN	O	O
-Zastawny	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-,	NN	O	O
-are	NN	O	O
-performed	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-well	NN	O	O
--	NN	O	O
-documented	NN	O	O
-horizontal	NN	O	B-Process
-channel	NN	O	I-Process
-flow	NN	O	I-Process
-case	NN	O	O
-described	NN	O	O
-in	NN	O	O
-Kussin	NN	O	O
-and	NN	O	O
-Sommerfeld	NN	O	O
-(	NN	O	O
-2002	NN	O	O
-)	NN	O	O
-,	NN	O	O
-who	NN	O	O
-study	NN	O	O
-spherical	NN	O	B-Material
-particles	NN	O	I-Material
-,	NN	O	O
-is	NN	O	O
-used	NN	O	O
-as	NN	O	O
-a	NN	O	O
-reference	NN	O	O
-case	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-measurements	NN	O	O
-in	NN	O	O
-their	NN	O	O
-work	NN	O	O
-was	NN	O	O
-done	NN	O	O
-with	NN	O	O
-phase	NN	O	B-Process
-Doppler	NN	O	I-Process
-anemometry	NN	O	I-Process
-(	NN	O	O
-PDA	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-to	NN	O	O
-measure	NN	O	O
-the	NN	O	O
-fluid	NN	O	B-Material
-and	NN	O	O
-particle	NN	O	B-Material
-velocity	NN	O	O
-simultaneously	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-numerical	NN	O	B-Process
-framework	NN	O	I-Process
-applied	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-has	NN	O	O
-been	NN	O	O
-previously	NN	O	O
-validated	NN	O	O
-for	NN	O	O
-spherical	NN	O	B-Material
-particles	NN	O	I-Material
-in	NN	O	O
-Mallouppas	NN	O	O
-and	NN	O	O
-van	NN	O	O
-Wachem	NN	O	O
-(	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-that	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-the	NN	O	O
-comprehensive	NN	O	B-Process
-discrete	NN	O	I-Process
-element	NN	O	I-Process
-model	NN	O	I-Process
-(	NN	O	O
-DEM	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-more	NN	O	O
-accurate	NN	O	O
-in	NN	O	O
-determining	NN	O	B-Task
-the	NN	O	I-Task
-behaviour	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-particles	NN	O	I-Task
-in	NN	O	I-Task
-this	NN	O	I-Task
-horizontal	NN	O	I-Task
-gas	NN	O	I-Task
-–	NN	O	I-Task
-solid	NN	O	I-Task
-channel	NN	O	I-Task
-flow	NN	O	I-Task
-that	NN	O	O
-the	NN	O	O
-hard	NN	O	B-Process
--	NN	O	I-Process
-sphere	NN	O	I-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-fluid	NN	O	B-Material
-mechanics	NN	O	O
-are	NN	O	O
-accurately	NN	O	O
-modelled	NN	O	O
-using	NN	O	O
-the	NN	O	O
-LES	NN	O	B-Process
-framework	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-current	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-this	NN	O	O
-framework	NN	O	O
-is	NN	O	O
-extended	NN	O	O
-to	NN	O	O
-account	NN	O	O
-for	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-spherical	NN	O	I-Material
-particles	NN	O	I-Material
-.	NN	O	O
+The	0	3	O
+aim	4	7	O
+of	8	10	O
+this	11	15	O
+paper	16	21	O
+is	22	24	O
+to	25	27	O
+investigate	28	39	B-Task
+the	40	43	I-Task
+influence	44	53	I-Task
+of	54	56	I-Task
+the	57	60	I-Task
+particle	61	69	I-Task
+shape	70	75	I-Task
+on	76	78	I-Task
+interacting	79	90	I-Task
+particles	91	100	I-Task
+flowing	101	108	I-Task
+in	109	111	I-Task
+a	112	113	I-Task
+horizontal	114	124	I-Task
+turbulent	125	134	I-Task
+channel	135	142	I-Task
+flow	143	147	I-Task
+,	147	148	O
+for	149	152	O
+particles	153	162	B-Material
+with	163	167	O
+a	168	169	O
+significant	170	181	O
+Stokes	182	188	O
+number	189	195	O
+.	195	196	O
+
+To	197	199	O
+achieve	200	207	O
+this	208	212	O
+,	212	213	O
+large	214	219	B-Process
+eddy	220	224	I-Process
+simulations	225	236	I-Process
+(	237	238	O
+LES	238	241	B-Process
+)	241	242	O
+of	243	245	O
+a	246	247	O
+horizontal	248	258	B-Process
+turbulent	259	268	I-Process
+channel	269	276	I-Process
+flow	277	281	I-Process
+laden	282	287	O
+with	288	292	O
+five	293	297	O
+different	298	307	O
+particle	308	316	B-Material
+shapes	317	323	O
+,	323	324	O
+incorporating	325	338	O
+the	339	342	O
+drag	343	347	B-Process
+,	347	348	I-Process
+lift	349	353	I-Process
+and	354	357	I-Process
+toque	358	363	I-Process
+model	364	369	I-Process
+derived	370	377	O
+in	378	380	O
+Zastawny	381	389	O
+et	390	392	O
+al	393	395	O
+.	395	396	O
+
+(	397	398	O
+2012	398	402	O
+)	402	403	O
+,	403	404	O
+are	405	408	O
+performed	409	418	O
+.	418	419	O
+
+The	420	423	O
+well	424	428	O
+-	428	429	O
+documented	429	439	O
+horizontal	440	450	B-Process
+channel	451	458	I-Process
+flow	459	463	I-Process
+case	464	468	O
+described	469	478	O
+in	479	481	O
+Kussin	482	488	O
+and	489	492	O
+Sommerfeld	493	503	O
+(	504	505	O
+2002	505	509	O
+)	509	510	O
+,	510	511	O
+who	512	515	O
+study	516	521	O
+spherical	522	531	B-Material
+particles	532	541	I-Material
+,	541	542	O
+is	543	545	O
+used	546	550	O
+as	551	553	O
+a	554	555	O
+reference	556	565	O
+case	566	570	O
+.	570	571	O
+
+The	572	575	O
+measurements	576	588	O
+in	589	591	O
+their	592	597	O
+work	598	602	O
+was	603	606	O
+done	607	611	O
+with	612	616	O
+phase	617	622	B-Process
+Doppler	623	630	I-Process
+anemometry	631	641	I-Process
+(	642	643	O
+PDA	643	646	B-Process
+)	646	647	O
+,	647	648	O
+to	649	651	O
+measure	652	659	O
+the	660	663	O
+fluid	664	669	B-Material
+and	670	673	O
+particle	674	682	B-Material
+velocity	683	691	O
+simultaneously	692	706	O
+.	706	707	O
+
+The	708	711	O
+numerical	712	721	B-Process
+framework	722	731	I-Process
+applied	732	739	O
+in	740	742	O
+this	743	747	O
+paper	748	753	O
+has	754	757	O
+been	758	762	O
+previously	763	773	O
+validated	774	783	O
+for	784	787	O
+spherical	788	797	B-Material
+particles	798	807	I-Material
+in	808	810	O
+Mallouppas	811	821	O
+and	822	825	O
+van	826	829	O
+Wachem	830	836	O
+(	837	838	O
+2013	838	842	O
+)	842	843	O
+.	843	844	O
+
+In	845	847	O
+that	848	852	O
+paper	853	858	O
+,	858	859	O
+it	860	862	O
+is	863	865	O
+shown	866	871	O
+that	872	876	O
+the	877	880	O
+comprehensive	881	894	B-Process
+discrete	895	903	I-Process
+element	904	911	I-Process
+model	912	917	I-Process
+(	918	919	O
+DEM	919	922	B-Process
+)	922	923	O
+is	924	926	O
+more	927	931	O
+accurate	932	940	O
+in	941	943	O
+determining	944	955	B-Task
+the	956	959	I-Task
+behaviour	960	969	I-Task
+of	970	972	I-Task
+the	973	976	I-Task
+particles	977	986	I-Task
+in	987	989	I-Task
+this	990	994	I-Task
+horizontal	995	1005	I-Task
+gas	1006	1009	I-Task
+–	1009	1010	I-Task
+solid	1010	1015	I-Task
+channel	1016	1023	I-Task
+flow	1024	1028	I-Task
+that	1029	1033	O
+the	1034	1037	O
+hard	1038	1042	B-Process
+-	1042	1043	I-Process
+sphere	1043	1049	I-Process
+model	1050	1055	I-Process
+.	1055	1056	O
+
+Moreover	1057	1065	O
+,	1065	1066	O
+this	1067	1071	O
+paper	1072	1077	O
+showed	1078	1084	O
+that	1085	1089	O
+the	1090	1093	O
+fluid	1094	1099	B-Material
+mechanics	1100	1109	O
+are	1110	1113	O
+accurately	1114	1124	O
+modelled	1125	1133	O
+using	1134	1139	O
+the	1140	1143	O
+LES	1144	1147	B-Process
+framework	1148	1157	I-Process
+.	1157	1158	O
+
+In	1159	1161	O
+the	1162	1165	O
+current	1166	1173	O
+paper	1174	1179	O
+,	1179	1180	O
+this	1181	1185	O
+framework	1186	1195	O
+is	1196	1198	O
+extended	1199	1207	O
+to	1208	1210	O
+account	1211	1218	O
+for	1219	1222	O
+non	1223	1226	B-Material
+-	1226	1227	I-Material
+spherical	1227	1236	I-Material
+particles	1237	1246	I-Material
+.	1246	1247	O
 
 
 -DOCSTART- (S0378381215300297)
 
-The	NN	O	O
-Statistical	NN	O	B-Process
-Associating	NN	O	I-Process
-Fluid	NN	O	I-Process
-Theory	NN	O	I-Process
-(	NN	O	O
-SAFT	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-a	NN	O	O
-well	NN	O	O
--	NN	O	O
-developed	NN	O	O
-perturbation	NN	O	B-Process
-theory	NN	O	I-Process
-used	NN	O	O
-to	NN	O	O
-describe	NN	O	O
-quantitatively	NN	O	O
-the	NN	O	O
-volumetric	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-fluids	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-reader	NN	O	O
-is	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-several	NN	O	O
-reviews	NN	O	O
-on	NN	O	O
-the	NN	O	O
-topic	NN	O	O
-which	NN	O	O
-describe	NN	O	O
-the	NN	O	O
-various	NN	O	O
-stages	NN	O	O
-of	NN	O	O
-its	NN	O	O
-development	NN	O	O
-and	NN	O	O
-the	NN	O	O
-multiple	NN	O	O
-versions	NN	O	O
-available	NN	O	O
-[	NN	O	O
-50–53	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-fundamental	NN	O	O
-difference	NN	O	O
-between	NN	O	O
-the	NN	O	O
-versions	NN	O	O
-is	NN	O	O
-in	NN	O	O
-the	NN	O	O
-underlying	NN	O	O
-intermolecular	NN	O	B-Process
-potential	NN	O	I-Process
-employed	NN	O	O
-to	NN	O	O
-describe	NN	O	O
-the	NN	O	O
-unbounded	NN	O	B-Material
-constituent	NN	O	I-Material
-particles	NN	O	I-Material
-.	NN	O	O
-
-Hard	NN	O	B-Material
-spheres	NN	O	I-Material
-,	NN	O	O
-square	NN	O	B-Material
-well	NN	O	I-Material
-fluids	NN	O	I-Material
-,	NN	O	O
-LJ	NN	O	B-Material
-fluids	NN	O	I-Material
-,	NN	O	O
-argon	NN	O	B-Material
-,	NN	O	O
-alkanes	NN	O	B-Material
-have	NN	O	O
-all	NN	O	O
-been	NN	O	O
-employed	NN	O	O
-as	NN	O	O
-reference	NN	O	B-Material
-fluids	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-different	NN	O	O
-incarnations	NN	O	O
-of	NN	O	O
-SAFT	NN	O	B-Process
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-purpose	NN	O	O
-of	NN	O	O
-this	NN	O	O
-work	NN	O	O
-we	NN	O	O
-will	NN	O	O
-center	NN	O	O
-on	NN	O	O
-a	NN	O	O
-particular	NN	O	O
-version	NN	O	O
-of	NN	O	O
-the	NN	O	O
-SAFT	NN	O	B-Process
-EoS	NN	O	I-Process
-,	NN	O	O
-i.e.	NN	O	O
-the	NN	O	O
-SAFT	NN	O	B-Process
--	NN	O	I-Process
-VR	NN	O	I-Process
-Mie	NN	O	I-Process
-recently	NN	O	O
-proposed	NN	O	O
-by	NN	O	O
-Laffitte	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-54	NN	O	O
-]	NN	O	O
-and	NN	O	O
-expanded	NN	O	O
-into	NN	O	O
-a	NN	O	O
-group	NN	O	B-Process
-contribution	NN	O	I-Process
-approach	NN	O	I-Process
-,	NN	O	O
-SAFT-γ	NN	O	B-Process
-,	NN	O	O
-by	NN	O	O
-Papaioannou	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-55	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-particular	NN	O	O
-version	NN	O	O
-of	NN	O	O
-SAFT	NN	O	B-Process
-provides	NN	O	O
-a	NN	O	O
-closed	NN	O	B-Process
-form	NN	O	I-Process
-EoS	NN	O	I-Process
-that	NN	O	O
-describes	NN	O	O
-the	NN	O	O
-macroscopical	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Mie	NN	O	B-Process
-potential	NN	O	I-Process
-[	NN	O	O
-56	NN	O	O
-]	NN	O	O
-,	NN	O	O
-also	NN	O	O
-known	NN	O	O
-as	NN	O	O
-the	NN	O	O
-(	NN	O	B-Process
-m	NN	O	I-Process
-,	NN	O	I-Process
-n	NN	O	I-Process
-)	NN	O	I-Process
-potential	NN	O	I-Process
-;	NN	O	O
-a	NN	O	O
-generalized	NN	O	O
-form	NN	O	O
-of	NN	O	O
-the	NN	O	O
-LJ	NN	O	B-Process
-potential	NN	O	I-Process
-(	NN	O	O
-albeit	NN	O	O
-predating	NN	O	O
-it	NN	O	O
-by	NN	O	O
-decades	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Mie	NN	O	B-Process
-potential	NN	O	I-Process
-has	NN	O	O
-the	NN	O	O
-form(1)ϕ(r)=Cεσrλr−σrλawhere	NN	O	O
-C	NN	O	O
-is	NN	O	O
-an	NN	O	O
-analytical	NN	O	O
-function	NN	O	O
-of	NN	O	O
-the	NN	O	O
-repulsive	NN	O	O
-and	NN	O	O
-attractive	NN	O	O
-exponents	NN	O	O
-,	NN	O	O
-λa	NN	O	O
-and	NN	O	O
-λr	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-,	NN	O	O
-σ	NN	O	O
-is	NN	O	O
-a	NN	O	O
-parameter	NN	O	O
-that	NN	O	O
-defines	NN	O	O
-the	NN	O	O
-length	NN	O	O
-scale	NN	O	O
-and	NN	O	O
-is	NN	O	O
-loosely	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-average	NN	O	O
-diameter	NN	O	O
-of	NN	O	O
-a	NN	O	O
-Mie	NN	O	O
-bead	NN	O	B-Material
-;	NN	O	O
-ɛ	NN	O	O
-defines	NN	O	O
-the	NN	O	O
-energy	NN	O	O
-scale	NN	O	O
-and	NN	O	O
-corresponds	NN	O	O
-to	NN	O	O
-the	NN	O	O
-minimum	NN	O	O
-potential	NN	O	O
-energy	NN	O	O
-between	NN	O	O
-two	NN	O	O
-isolated	NN	O	O
-beads	NN	O	B-Material
-;	NN	O	O
-expressed	NN	O	O
-here	NN	O	O
-as	NN	O	O
-a	NN	O	O
-ratio	NN	O	O
-to	NN	O	O
-the	NN	O	O
-Boltzmann	NN	O	O
-constant	NN	O	O
-,	NN	O	O
-kB.	NN	O	O
-The	NN	O	O
-Mie	NN	O	O
-function	NN	O	O
-,	NN	O	O
-as	NN	O	O
-written	NN	O	O
-above	NN	O	O
-,	NN	O	O
-deceivingly	NN	O	O
-suggests	NN	O	O
-that	NN	O	O
-four	NN	O	O
-parameters	NN	O	O
-are	NN	O	O
-needed	NN	O	O
-to	NN	O	O
-characterize	NN	O	O
-the	NN	O	O
-behaviour	NN	O	O
-of	NN	O	O
-an	NN	O	O
-isotropic	NN	O	B-Material
-molecule	NN	O	I-Material
-,	NN	O	O
-however	NN	O	O
-the	NN	O	O
-exponents	NN	O	O
-λa	NN	O	O
-and	NN	O	O
-λr	NN	O	O
-are	NN	O	O
-intimately	NN	O	O
-related	NN	O	O
-,	NN	O	O
-and	NN	O	O
-for	NN	O	O
-fluid	NN	O	B-Material
-phase	NN	O	O
-equilibria	NN	O	O
-,	NN	O	O
-one	NN	O	O
-needs	NN	O	O
-not	NN	O	O
-consider	NN	O	O
-them	NN	O	O
-as	NN	O	O
-independent	NN	O	O
-parameters	NN	O	O
-[	NN	O	O
-57	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Accordingly	NN	O	O
-,	NN	O	O
-we	NN	O	O
-choose	NN	O	O
-herein	NN	O	O
-to	NN	O	O
-fix	NN	O	O
-the	NN	O	O
-attractive	NN	O	O
-exponent	NN	O	O
-to	NN	O	O
-λa=6	NN	O	O
-which	NN	O	O
-would	NN	O	O
-be	NN	O	O
-expected	NN	O	O
-to	NN	O	O
-be	NN	O	O
-representative	NN	O	O
-of	NN	O	O
-the	NN	O	O
-dispersion	NN	O	O
-scaling	NN	O	O
-of	NN	O	O
-most	NN	O	O
-simple	NN	O	B-Material
-fluids	NN	O	I-Material
-and	NN	O	O
-refer	NN	O	O
-from	NN	O	O
-here	NN	O	O
-on	NN	O	O
-to	NN	O	O
-the	NN	O	O
-repulsive	NN	O	O
-parameter	NN	O	O
-as	NN	O	O
-λ=λr	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-potential	NN	O	O
-simplifies	NN	O	O
-to(2)ϕ(r)=λλ−6λ66/(λ−6)εσrλ−σr6	NN	O	O
+The	0	3	O
+Statistical	4	15	B-Process
+Associating	16	27	I-Process
+Fluid	28	33	I-Process
+Theory	34	40	I-Process
+(	41	42	O
+SAFT	42	46	B-Process
+)	46	47	O
+is	48	50	O
+a	51	52	O
+well	53	57	O
+-	57	58	O
+developed	58	67	O
+perturbation	68	80	B-Process
+theory	81	87	I-Process
+used	88	92	O
+to	93	95	O
+describe	96	104	O
+quantitatively	105	119	O
+the	120	123	O
+volumetric	124	134	O
+properties	135	145	O
+of	146	148	O
+fluids	149	155	B-Material
+.	155	156	O
+
+The	157	160	O
+reader	161	167	O
+is	168	170	O
+referred	171	179	O
+to	180	182	O
+several	183	190	O
+reviews	191	198	O
+on	199	201	O
+the	202	205	O
+topic	206	211	O
+which	212	217	O
+describe	218	226	O
+the	227	230	O
+various	231	238	O
+stages	239	245	O
+of	246	248	O
+its	249	252	O
+development	253	264	O
+and	265	268	O
+the	269	272	O
+multiple	273	281	O
+versions	282	290	O
+available	291	300	O
+[	301	302	O
+50–53	302	307	O
+]	307	308	O
+.	308	309	O
+
+The	310	313	O
+fundamental	314	325	O
+difference	326	336	O
+between	337	344	O
+the	345	348	O
+versions	349	357	O
+is	358	360	O
+in	361	363	O
+the	364	367	O
+underlying	368	378	O
+intermolecular	379	393	B-Process
+potential	394	403	I-Process
+employed	404	412	O
+to	413	415	O
+describe	416	424	O
+the	425	428	O
+unbounded	429	438	B-Material
+constituent	439	450	I-Material
+particles	451	460	I-Material
+.	460	461	O
+
+Hard	462	466	B-Material
+spheres	467	474	I-Material
+,	474	475	O
+square	476	482	B-Material
+well	483	487	I-Material
+fluids	488	494	I-Material
+,	494	495	O
+LJ	496	498	B-Material
+fluids	499	505	I-Material
+,	505	506	O
+argon	507	512	B-Material
+,	512	513	O
+alkanes	514	521	B-Material
+have	522	526	O
+all	527	530	O
+been	531	535	O
+employed	536	544	O
+as	545	547	O
+reference	548	557	B-Material
+fluids	558	564	I-Material
+in	565	567	O
+the	568	571	O
+different	572	581	O
+incarnations	582	594	O
+of	595	597	O
+SAFT	598	602	B-Process
+.	602	603	O
+
+For	604	607	O
+the	608	611	O
+purpose	612	619	O
+of	620	622	O
+this	623	627	O
+work	628	632	O
+we	633	635	O
+will	636	640	O
+center	641	647	O
+on	648	650	O
+a	651	652	O
+particular	653	663	O
+version	664	671	O
+of	672	674	O
+the	675	678	O
+SAFT	679	683	B-Process
+EoS	684	687	I-Process
+,	687	688	O
+i.e.	689	693	O
+the	694	697	O
+SAFT	698	702	B-Process
+-	702	703	I-Process
+VR	703	705	I-Process
+Mie	706	709	I-Process
+recently	710	718	O
+proposed	719	727	O
+by	728	730	O
+Laffitte	731	739	O
+et	740	742	O
+al	743	745	O
+.	745	746	O
+
+[	747	748	O
+54	748	750	O
+]	750	751	O
+and	752	755	O
+expanded	756	764	O
+into	765	769	O
+a	770	771	O
+group	772	777	B-Process
+contribution	778	790	I-Process
+approach	791	799	I-Process
+,	799	800	O
+SAFT-γ	801	807	B-Process
+,	807	808	O
+by	809	811	O
+Papaioannou	812	823	O
+et	824	826	O
+al	827	829	O
+.	829	830	O
+
+[	831	832	O
+55	832	834	O
+]	834	835	O
+.	835	836	O
+
+This	837	841	O
+particular	842	852	O
+version	853	860	O
+of	861	863	O
+SAFT	864	868	B-Process
+provides	869	877	O
+a	878	879	O
+closed	880	886	B-Process
+form	887	891	I-Process
+EoS	892	895	I-Process
+that	896	900	O
+describes	901	910	O
+the	911	914	O
+macroscopical	915	928	O
+properties	929	939	O
+of	940	942	O
+the	943	946	O
+Mie	947	950	B-Process
+potential	951	960	I-Process
+[	961	962	O
+56	962	964	O
+]	964	965	O
+,	965	966	O
+also	967	971	O
+known	972	977	O
+as	978	980	O
+the	981	984	O
+(	985	986	B-Process
+m	986	987	I-Process
+,	987	988	I-Process
+n	988	989	I-Process
+)	989	990	I-Process
+potential	991	1000	I-Process
+;	1000	1001	O
+a	1002	1003	O
+generalized	1004	1015	O
+form	1016	1020	O
+of	1021	1023	O
+the	1024	1027	O
+LJ	1028	1030	B-Process
+potential	1031	1040	I-Process
+(	1041	1042	O
+albeit	1042	1048	O
+predating	1049	1058	O
+it	1059	1061	O
+by	1062	1064	O
+decades	1065	1072	O
+)	1072	1073	O
+.	1073	1074	O
+
+The	1075	1078	O
+Mie	1079	1082	B-Process
+potential	1083	1092	I-Process
+has	1093	1096	O
+the	1097	1100	O
+form(1)ϕ(r)=Cεσrλr−σrλawhere	1101	1129	O
+C	1130	1131	O
+is	1132	1134	O
+an	1135	1137	O
+analytical	1138	1148	O
+function	1149	1157	O
+of	1158	1160	O
+the	1161	1164	O
+repulsive	1165	1174	O
+and	1175	1178	O
+attractive	1179	1189	O
+exponents	1190	1199	O
+,	1199	1200	O
+λa	1201	1203	O
+and	1204	1207	O
+λr	1208	1210	O
+,	1210	1211	O
+respectively	1212	1224	O
+,	1224	1225	O
+σ	1226	1227	O
+is	1228	1230	O
+a	1231	1232	O
+parameter	1233	1242	O
+that	1243	1247	O
+defines	1248	1255	O
+the	1256	1259	O
+length	1260	1266	O
+scale	1267	1272	O
+and	1273	1276	O
+is	1277	1279	O
+loosely	1280	1287	O
+related	1288	1295	O
+to	1296	1298	O
+the	1299	1302	O
+average	1303	1310	O
+diameter	1311	1319	O
+of	1320	1322	O
+a	1323	1324	O
+Mie	1325	1328	O
+bead	1329	1333	B-Material
+;	1333	1334	O
+ɛ	1335	1336	O
+defines	1337	1344	O
+the	1345	1348	O
+energy	1349	1355	O
+scale	1356	1361	O
+and	1362	1365	O
+corresponds	1366	1377	O
+to	1378	1380	O
+the	1381	1384	O
+minimum	1385	1392	O
+potential	1393	1402	O
+energy	1403	1409	O
+between	1410	1417	O
+two	1418	1421	O
+isolated	1422	1430	O
+beads	1431	1436	B-Material
+;	1436	1437	O
+expressed	1438	1447	O
+here	1448	1452	O
+as	1453	1455	O
+a	1456	1457	O
+ratio	1458	1463	O
+to	1464	1466	O
+the	1467	1470	O
+Boltzmann	1471	1480	O
+constant	1481	1489	O
+,	1489	1490	O
+kB.	1491	1494	O
+The	1495	1498	O
+Mie	1499	1502	O
+function	1503	1511	O
+,	1511	1512	O
+as	1513	1515	O
+written	1516	1523	O
+above	1524	1529	O
+,	1529	1530	O
+deceivingly	1531	1542	O
+suggests	1543	1551	O
+that	1552	1556	O
+four	1557	1561	O
+parameters	1562	1572	O
+are	1573	1576	O
+needed	1577	1583	O
+to	1584	1586	O
+characterize	1587	1599	O
+the	1600	1603	O
+behaviour	1604	1613	O
+of	1614	1616	O
+an	1617	1619	O
+isotropic	1620	1629	B-Material
+molecule	1630	1638	I-Material
+,	1638	1639	O
+however	1640	1647	O
+the	1648	1651	O
+exponents	1652	1661	O
+λa	1662	1664	O
+and	1665	1668	O
+λr	1669	1671	O
+are	1672	1675	O
+intimately	1676	1686	O
+related	1687	1694	O
+,	1694	1695	O
+and	1696	1699	O
+for	1700	1703	O
+fluid	1704	1709	B-Material
+phase	1710	1715	O
+equilibria	1716	1726	O
+,	1726	1727	O
+one	1728	1731	O
+needs	1732	1737	O
+not	1738	1741	O
+consider	1742	1750	O
+them	1751	1755	O
+as	1756	1758	O
+independent	1759	1770	O
+parameters	1771	1781	O
+[	1782	1783	O
+57	1783	1785	O
+]	1785	1786	O
+.	1786	1787	O
+
+Accordingly	1788	1799	O
+,	1799	1800	O
+we	1801	1803	O
+choose	1804	1810	O
+herein	1811	1817	O
+to	1818	1820	O
+fix	1821	1824	O
+the	1825	1828	O
+attractive	1829	1839	O
+exponent	1840	1848	O
+to	1849	1851	O
+λa=6	1852	1856	O
+which	1857	1862	O
+would	1863	1868	O
+be	1869	1871	O
+expected	1872	1880	O
+to	1881	1883	O
+be	1884	1886	O
+representative	1887	1901	O
+of	1902	1904	O
+the	1905	1908	O
+dispersion	1909	1919	O
+scaling	1920	1927	O
+of	1928	1930	O
+most	1931	1935	O
+simple	1936	1942	B-Material
+fluids	1943	1949	I-Material
+and	1950	1953	O
+refer	1954	1959	O
+from	1960	1964	O
+here	1965	1969	O
+on	1970	1972	O
+to	1973	1975	O
+the	1976	1979	O
+repulsive	1980	1989	O
+parameter	1990	1999	O
+as	2000	2002	O
+λ=λr	2003	2007	O
+.	2007	2008	O
+
+The	2009	2012	O
+potential	2013	2022	O
+simplifies	2023	2033	O
+to(2)ϕ(r)=λλ−6λ66/(λ−6)εσrλ−σr6	2034	2065	O
 
 
 -DOCSTART- (S1359028614000989)
 
-The	NN	O	O
-data	NN	O	B-Process
-acquisition	NN	O	I-Process
-strategies	NN	O	I-Process
-must	NN	O	O
-balance	NN	O	O
-the	NN	O	O
-relevant	NN	O	O
-scales	NN	O	O
-and	NN	O	O
-volumes	NN	O	O
-of	NN	O	O
-the	NN	O	O
-datasets	NN	O	O
-to	NN	O	O
-be	NN	O	O
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-physical	NN	O	B-Task
-and	NN	O	I-Task
-statistical	NN	O	I-Task
-modeling	NN	O	I-Task
-.	NN	O	O
-
-Approaches	NN	O	O
-for	NN	O	O
-extraction	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-necessary	NN	O	I-Task
-information	NN	O	I-Task
-must	NN	O	O
-be	NN	O	O
-able	NN	O	O
-to	NN	O	O
-disregard	NN	O	O
-spurious	NN	O	O
-information	NN	O	O
-,	NN	O	O
-so	NN	O	O
-as	NN	O	O
-to	NN	O	O
-develop	NN	O	O
-a	NN	O	O
-working	NN	O	O
-network	NN	O	B-Process
-of	NN	O	I-Process
-models	NN	O	I-Process
-for	NN	O	O
-each	NN	O	O
-active	NN	O	O
-mechanism	NN	O	O
-related	NN	O	O
-to	NN	O	O
-each	NN	O	O
-degradation	NN	O	O
-pathway	NN	O	O
-on	NN	O	O
-the	NN	O	O
-mesoscopic	NN	O	O
-physical	NN	O	O
-level	NN	O	O
-and	NN	O	O
-the	NN	O	O
-data	NN	O	O
--	NN	O	O
-driven	NN	O	O
-statistical	NN	O	B-Process
-model	NN	O	I-Process
-level	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-capture	NN	O	B-Task
-the	NN	O	I-Task
-temporal	NN	O	I-Task
-evolution	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-energy	NN	O	B-Material
-material	NN	O	I-Material
-over	NN	O	O
-long	NN	O	O
-time	NN	O	O
-frames	NN	O	O
-,	NN	O	O
-appropriate	NN	O	B-Process
-informatics	NN	O	I-Process
-methods	NN	O	I-Process
-are	NN	O	O
-needed	NN	O	O
-to	NN	O	O
-balance	NN	O	O
-data	NN	O	O
-volume	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-simple	NN	O	O
-univariate	NN	O	B-Material
-time	NN	O	I-Material
--	NN	O	I-Material
-series	NN	O	I-Material
-data	NN	O	I-Material
-streams	NN	O	I-Material
-with	NN	O	O
-high	NN	O	B-Material
--	NN	O	I-Material
-dimensional	NN	O	I-Material
-volumetric	NN	O	I-Material
-imaging	NN	O	I-Material
-datasets	NN	O	I-Material
-)	NN	O	O
-while	NN	O	O
-considering	NN	O	O
-their	NN	O	O
-respective	NN	O	O
-information	NN	O	O
-contents	NN	O	O
-[	NN	O	O
-68,69	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-raw	NN	O	O
-data	NN	O	O
-and	NN	O	O
-extracted	NN	O	O
-information	NN	O	O
-must	NN	O	O
-be	NN	O	O
-accessible	NN	O	O
-for	NN	O	O
-query	NN	O	B-Task
-and	NN	O	O
-modeling	NN	O	B-Task
-.	NN	O	O
-
-Similarly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-modeling	NN	O	B-Process
-approaches	NN	O	I-Process
-used	NN	O	O
-to	NN	O	O
-understand	NN	O	O
-and	NN	O	O
-parameterize	NN	O	O
-active	NN	O	O
-mechanisms	NN	O	O
-and	NN	O	O
-phenomena	NN	O	O
-over	NN	O	O
-lifetime	NN	O	O
-fall	NN	O	O
-into	NN	O	O
-the	NN	O	O
-broad	NN	O	O
-categories	NN	O	O
-of	NN	O	O
-micro-	NN	O	B-Process
-,	NN	O	I-Process
-meso-	NN	O	I-Process
-and	NN	O	I-Process
-macroscopic	NN	O	I-Process
-approaches	NN	O	I-Process
-.	NN	O	O
-
-Laboratory	NN	O	B-Task
-and	NN	O	I-Task
-real	NN	O	I-Task
--	NN	O	I-Task
-world	NN	O	I-Task
-experimentation	NN	O	I-Task
-,	NN	O	O
-informatics	NN	O	B-Task
-,	NN	O	O
-analytics	NN	O	B-Task
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-development	NN	O	B-Task
-of	NN	O	I-Task
-network	NN	O	I-Task
-models	NN	O	I-Task
-for	NN	O	O
-mesoscopic	NN	O	O
-evolution	NN	O	O
-of	NN	O	O
-energy	NN	O	B-Material
-materials	NN	O	I-Material
-over	NN	O	O
-lifetime	NN	O	O
-together	NN	O	O
-constitute	NN	O	O
-the	NN	O	O
-field	NN	O	O
-of	NN	O	O
-degradation	NN	O	B-Task
-science	NN	O	I-Task
-.	NN	O	O
+The	0	3	O
+data	4	8	B-Process
+acquisition	9	20	I-Process
+strategies	21	31	I-Process
+must	32	36	O
+balance	37	44	O
+the	45	48	O
+relevant	49	57	O
+scales	58	64	O
+and	65	68	O
+volumes	69	76	O
+of	77	79	O
+the	80	83	O
+datasets	84	92	O
+to	93	95	O
+be	96	98	O
+used	99	103	O
+in	104	106	O
+the	107	110	O
+physical	111	119	B-Task
+and	120	123	I-Task
+statistical	124	135	I-Task
+modeling	136	144	I-Task
+.	144	145	O
+
+Approaches	146	156	O
+for	157	160	O
+extraction	161	171	B-Task
+of	172	174	I-Task
+the	175	178	I-Task
+necessary	179	188	I-Task
+information	189	200	I-Task
+must	201	205	O
+be	206	208	O
+able	209	213	O
+to	214	216	O
+disregard	217	226	O
+spurious	227	235	O
+information	236	247	O
+,	247	248	O
+so	249	251	O
+as	252	254	O
+to	255	257	O
+develop	258	265	O
+a	266	267	O
+working	268	275	O
+network	276	283	B-Process
+of	284	286	I-Process
+models	287	293	I-Process
+for	294	297	O
+each	298	302	O
+active	303	309	O
+mechanism	310	319	O
+related	320	327	O
+to	328	330	O
+each	331	335	O
+degradation	336	347	O
+pathway	348	355	O
+on	356	358	O
+the	359	362	O
+mesoscopic	363	373	O
+physical	374	382	O
+level	383	388	O
+and	389	392	O
+the	393	396	O
+data	397	401	O
+-	401	402	O
+driven	402	408	O
+statistical	409	420	B-Process
+model	421	426	I-Process
+level	427	432	O
+.	432	433	O
+
+To	434	436	O
+capture	437	444	B-Task
+the	445	448	I-Task
+temporal	449	457	I-Task
+evolution	458	467	I-Task
+of	468	470	O
+the	471	474	O
+energy	475	481	B-Material
+material	482	490	I-Material
+over	491	495	O
+long	496	500	O
+time	501	505	O
+frames	506	512	O
+,	512	513	O
+appropriate	514	525	B-Process
+informatics	526	537	I-Process
+methods	538	545	I-Process
+are	546	549	O
+needed	550	556	O
+to	557	559	O
+balance	560	567	O
+data	568	572	O
+volume	573	579	O
+(	580	581	O
+e.g.	581	585	O
+,	585	586	O
+simple	587	593	O
+univariate	594	604	B-Material
+time	605	609	I-Material
+-	609	610	I-Material
+series	610	616	I-Material
+data	617	621	I-Material
+streams	622	629	I-Material
+with	630	634	O
+high	635	639	B-Material
+-	639	640	I-Material
+dimensional	640	651	I-Material
+volumetric	652	662	I-Material
+imaging	663	670	I-Material
+datasets	671	679	I-Material
+)	679	680	O
+while	681	686	O
+considering	687	698	O
+their	699	704	O
+respective	705	715	O
+information	716	727	O
+contents	728	736	O
+[	737	738	O
+68,69	738	743	O
+]	743	744	O
+.	744	745	O
+
+The	746	749	O
+raw	750	753	O
+data	754	758	O
+and	759	762	O
+extracted	763	772	O
+information	773	784	O
+must	785	789	O
+be	790	792	O
+accessible	793	803	O
+for	804	807	O
+query	808	813	B-Task
+and	814	817	O
+modeling	818	826	B-Task
+.	826	827	O
+
+Similarly	828	837	O
+,	837	838	O
+the	839	842	O
+modeling	843	851	B-Process
+approaches	852	862	I-Process
+used	863	867	O
+to	868	870	O
+understand	871	881	O
+and	882	885	O
+parameterize	886	898	O
+active	899	905	O
+mechanisms	906	916	O
+and	917	920	O
+phenomena	921	930	O
+over	931	935	O
+lifetime	936	944	O
+fall	945	949	O
+into	950	954	O
+the	955	958	O
+broad	959	964	O
+categories	965	975	O
+of	976	978	O
+micro-	979	985	B-Process
+,	985	986	I-Process
+meso-	987	992	I-Process
+and	993	996	I-Process
+macroscopic	997	1008	I-Process
+approaches	1009	1019	I-Process
+.	1019	1020	O
+
+Laboratory	1021	1031	B-Task
+and	1032	1035	I-Task
+real	1036	1040	I-Task
+-	1040	1041	I-Task
+world	1041	1046	I-Task
+experimentation	1047	1062	I-Task
+,	1062	1063	O
+informatics	1064	1075	B-Task
+,	1075	1076	O
+analytics	1077	1086	B-Task
+,	1086	1087	O
+and	1088	1091	O
+the	1092	1095	O
+development	1096	1107	B-Task
+of	1108	1110	I-Task
+network	1111	1118	I-Task
+models	1119	1125	I-Task
+for	1126	1129	O
+mesoscopic	1130	1140	O
+evolution	1141	1150	O
+of	1151	1153	O
+energy	1154	1160	B-Material
+materials	1161	1170	I-Material
+over	1171	1175	O
+lifetime	1176	1184	O
+together	1185	1193	O
+constitute	1194	1204	O
+the	1205	1208	O
+field	1209	1214	O
+of	1215	1217	O
+degradation	1218	1229	B-Task
+science	1230	1237	I-Task
+.	1237	1238	O
 
 
 -DOCSTART- (S1877750315000575)
 
-There	NN	O	O
-are	NN	O	O
-some	NN	O	O
-relevant	NN	O	O
-studies	NN	O	O
-on	NN	O	O
-information	NN	O	B-Task
-dissemination	NN	O	I-Task
-in	NN	O	I-Task
-transportation	NN	O	I-Task
-systems	NN	O	I-Task
-using	NN	O	O
-simulations	NN	O	B-Process
-.	NN	O	O
-
-One	NN	O	O
-category	NN	O	O
-of	NN	O	O
-studies	NN	O	O
-look	NN	O	O
-at	NN	O	O
-how	NN	O	O
-either	NN	O	O
-local	NN	O	O
-information	NN	O	O
-(	NN	O	O
-only	NN	O	O
-about	NN	O	O
-the	NN	O	O
-neighbours	NN	O	O
-)	NN	O	O
-or	NN	O	O
-global	NN	O	O
-information	NN	O	O
-(	NN	O	O
-about	NN	O	O
-the	NN	O	O
-entire	NN	O	O
-network	NN	O	O
-)	NN	O	O
-affects	NN	O	O
-the	NN	O	O
-global	NN	O	O
-network	NN	O	O
-performance	NN	O	O
-.	NN	O	O
-
-Our	NN	O	O
-approach	NN	O	O
-is	NN	O	O
-different	NN	O	O
-in	NN	O	O
-the	NN	O	O
-sense	NN	O	O
-that	NN	O	O
-we	NN	O	O
-investigate	NN	O	B-Process
-the	NN	O	I-Process
-impact	NN	O	I-Process
-of	NN	O	I-Process
-information	NN	O	I-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-global	NN	O	I-Process
-network	NN	O	I-Process
-performance	NN	O	I-Process
-depending	NN	O	O
-on	NN	O	O
-the	NN	O	O
-fraction	NN	O	O
-of	NN	O	O
-people	NN	O	O
-that	NN	O	O
-receive	NN	O	O
-information	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-analyse	NN	O	B-Task
-what	NN	O	I-Task
-is	NN	O	I-Task
-the	NN	O	I-Task
-effect	NN	O	I-Task
-of	NN	O	I-Task
-real	NN	O	I-Task
-time	NN	O	I-Task
-information	NN	O	I-Task
-dissemination	NN	O	I-Task
-and	NN	O	O
-explain	NN	O	O
-why	NN	O	O
-this	NN	O	O
-effect	NN	O	O
-appears	NN	O	O
-.	NN	O	O
-
-Information	NN	O	O
-is	NN	O	O
-disseminated	NN	O	O
-in	NN	O	O
-real	NN	O	O
-time	NN	O	O
-and	NN	O	O
-contains	NN	O	O
-global	NN	O	O
-details	NN	O	O
-about	NN	O	O
-how	NN	O	O
-congested	NN	O	O
-the	NN	O	O
-roads	NN	O	O
-are	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-approach	NN	O	O
-is	NN	O	O
-important	NN	O	O
-as	NN	O	O
-it	NN	O	O
-gives	NN	O	O
-insights	NN	O	O
-on	NN	O	O
-the	NN	O	O
-impact	NN	O	O
-that	NN	O	O
-massive	NN	O	B-Process
-use	NN	O	I-Process
-of	NN	O	I-Process
-real	NN	O	I-Process
--	NN	O	I-Process
-time	NN	O	I-Process
-information	NN	O	I-Process
-can	NN	O	O
-have	NN	O	O
-on	NN	O	O
-traffic	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-can	NN	O	O
-be	NN	O	O
-useful	NN	O	O
-for	NN	O	O
-building	NN	O	B-Task
-more	NN	O	I-Task
-intelligent	NN	O	I-Task
-traffic	NN	O	I-Task
-control	NN	O	I-Task
-mechanisms	NN	O	I-Task
-where	NN	O	O
-information	NN	O	O
-is	NN	O	O
-a	NN	O	O
-steering	NN	O	O
-tool	NN	O	O
-.	NN	O	O
+There	0	5	O
+are	6	9	O
+some	10	14	O
+relevant	15	23	O
+studies	24	31	O
+on	32	34	O
+information	35	46	B-Task
+dissemination	47	60	I-Task
+in	61	63	I-Task
+transportation	64	78	I-Task
+systems	79	86	I-Task
+using	87	92	O
+simulations	93	104	B-Process
+.	104	105	O
+
+One	106	109	O
+category	110	118	O
+of	119	121	O
+studies	122	129	O
+look	130	134	O
+at	135	137	O
+how	138	141	O
+either	142	148	O
+local	149	154	O
+information	155	166	O
+(	167	168	O
+only	168	172	O
+about	173	178	O
+the	179	182	O
+neighbours	183	193	O
+)	193	194	O
+or	195	197	O
+global	198	204	O
+information	205	216	O
+(	217	218	O
+about	218	223	O
+the	224	227	O
+entire	228	234	O
+network	235	242	O
+)	242	243	O
+affects	244	251	O
+the	252	255	O
+global	256	262	O
+network	263	270	O
+performance	271	282	O
+.	282	283	O
+
+Our	284	287	O
+approach	288	296	O
+is	297	299	O
+different	300	309	O
+in	310	312	O
+the	313	316	O
+sense	317	322	O
+that	323	327	O
+we	328	330	O
+investigate	331	342	B-Process
+the	343	346	I-Process
+impact	347	353	I-Process
+of	354	356	I-Process
+information	357	368	I-Process
+on	369	371	I-Process
+the	372	375	I-Process
+global	376	382	I-Process
+network	383	390	I-Process
+performance	391	402	I-Process
+depending	403	412	O
+on	413	415	O
+the	416	419	O
+fraction	420	428	O
+of	429	431	O
+people	432	438	O
+that	439	443	O
+receive	444	451	O
+information	452	463	O
+.	463	464	O
+
+We	465	467	O
+analyse	468	475	B-Task
+what	476	480	I-Task
+is	481	483	I-Task
+the	484	487	I-Task
+effect	488	494	I-Task
+of	495	497	I-Task
+real	498	502	I-Task
+time	503	507	I-Task
+information	508	519	I-Task
+dissemination	520	533	I-Task
+and	534	537	O
+explain	538	545	O
+why	546	549	O
+this	550	554	O
+effect	555	561	O
+appears	562	569	O
+.	569	570	O
+
+Information	571	582	O
+is	583	585	O
+disseminated	586	598	O
+in	599	601	O
+real	602	606	O
+time	607	611	O
+and	612	615	O
+contains	616	624	O
+global	625	631	O
+details	632	639	O
+about	640	645	O
+how	646	649	O
+congested	650	659	O
+the	660	663	O
+roads	664	669	O
+are	670	673	O
+.	673	674	O
+
+This	675	679	O
+approach	680	688	O
+is	689	691	O
+important	692	701	O
+as	702	704	O
+it	705	707	O
+gives	708	713	O
+insights	714	722	O
+on	723	725	O
+the	726	729	O
+impact	730	736	O
+that	737	741	O
+massive	742	749	B-Process
+use	750	753	I-Process
+of	754	756	I-Process
+real	757	761	I-Process
+-	761	762	I-Process
+time	762	766	I-Process
+information	767	778	I-Process
+can	779	782	O
+have	783	787	O
+on	788	790	O
+traffic	791	798	O
+.	798	799	O
+
+This	800	804	O
+can	805	808	O
+be	809	811	O
+useful	812	818	O
+for	819	822	O
+building	823	831	B-Task
+more	832	836	I-Task
+intelligent	837	848	I-Task
+traffic	849	856	I-Task
+control	857	864	I-Task
+mechanisms	865	875	I-Task
+where	876	881	O
+information	882	893	O
+is	894	896	O
+a	897	898	O
+steering	899	907	O
+tool	908	912	O
+.	912	913	O
 
 
 -DOCSTART- (S1877750315300119)
 
-Generalized	NN	O	B-Process
-polynomial	NN	O	I-Process
-chaos	NN	O	I-Process
-expansions	NN	O	I-Process
-.	NN	O	O
-
-One	NN	O	O
-approach	NN	O	O
-to	NN	O	O
-model	NN	O	B-Task
-densities	NN	O	I-Task
-with	NN	O	O
-stochastically	NN	O	O
-dependent	NN	O	O
-components	NN	O	O
-numerically	NN	O	O
-,	NN	O	O
-is	NN	O	O
-to	NN	O	O
-reformulate	NN	O	O
-the	NN	O	O
-uncertainty	NN	O	B-Task
-problem	NN	O	I-Task
-as	NN	O	O
-a	NN	O	O
-set	NN	O	O
-of	NN	O	O
-independent	NN	O	O
-components	NN	O	O
-through	NN	O	O
-generalised	NN	O	B-Process
-polynomial	NN	O	I-Process
-chaos	NN	O	I-Process
-expansion	NN	O	I-Process
-[	NN	O	O
-34	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-described	NN	O	O
-in	NN	O	O
-detail	NN	O	O
-in	NN	O	O
-Section	NN	O	O
-3.1	NN	O	O
-,	NN	O	O
-a	NN	O	O
-Rosenblatt	NN	O	B-Process
-transformation	NN	O	I-Process
-allows	NN	O	O
-for	NN	O	O
-the	NN	O	O
-mapping	NN	O	O
-between	NN	O	O
-any	NN	O	O
-domain	NN	O	O
-and	NN	O	O
-the	NN	O	O
-unit	NN	O	O
-hypercube	NN	O	O
-[	NN	O	O
-0	NN	O	O
-,	NN	O	O
-1]D.	NN	O	O
-
-With	NN	O	O
-a	NN	O	O
-double	NN	O	O
-transformation	NN	O	O
-we	NN	O	O
-can	NN	O	O
-reformulate	NN	O	O
-the	NN	O	O
-response	NN	O	O
-function	NN	O	O
-f	NN	O	O
-asf(x	NN	O	O
-,	NN	O	O
-t	NN	O	O
-,	NN	O	O
-Q)=f(x	NN	O	O
-,	NN	O	O
-t	NN	O	O
-,	NN	O	O
-TQ−1(TR(R)))≈fˆ(x	NN	O	O
-,	NN	O	O
-t	NN	O	O
-,	NN	O	O
-R)=∑n∈INcn(x	NN	O	O
-,	NN	O	O
-
-t)Φn(R),where	NN	O	O
-R	NN	O	O
-is	NN	O	O
-any	NN	O	O
-random	NN	O	O
-variable	NN	O	O
-drawn	NN	O	O
-from	NN	O	O
-pR	NN	O	O
-,	NN	O	O
-which	NN	O	O
-for	NN	O	O
-simplicity	NN	O	O
-is	NN	O	O
-chosen	NN	O	O
-to	NN	O	O
-consists	NN	O	O
-of	NN	O	O
-independent	NN	O	O
-components	NN	O	O
-.	NN	O	O
-
-Also	NN	O	O
-,	NN	O	O
-{	NN	O	O
-Φn}n∈IN	NN	O	O
-is	NN	O	O
-constructed	NN	O	O
-to	NN	O	O
-be	NN	O	O
-orthogonal	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-LR	NN	O	O
-,	NN	O	O
-not	NN	O	O
-LQ	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-any	NN	O	O
-case	NN	O	O
-,	NN	O	O
-R	NN	O	O
-is	NN	O	O
-either	NN	O	O
-selected	NN	O	O
-from	NN	O	O
-the	NN	O	O
-Askey	NN	O	B-Process
--	NN	O	I-Process
-Wilson	NN	O	I-Process
-scheme	NN	O	I-Process
-,	NN	O	O
-or	NN	O	O
-calculated	NN	O	O
-using	NN	O	O
-the	NN	O	O
-discretized	NN	O	B-Process
-Stieltjes	NN	O	I-Process
-procedure	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-remark	NN	O	O
-that	NN	O	O
-the	NN	O	O
-accuracy	NN	O	O
-of	NN	O	O
-the	NN	O	O
-approximation	NN	O	O
-deteriorate	NN	O	O
-if	NN	O	O
-the	NN	O	O
-transformation	NN	O	O
-composition	NN	O	O
-TQ−1∘TR	NN	O	O
-is	NN	O	O
-not	NN	O	O
-smooth	NN	O	O
-[	NN	O	O
-34	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Dakota	NN	O	O
-,	NN	O	O
-Turns	NN	O	O
-,	NN	O	O
-and	NN	O	O
-Chaospy	NN	O	O
-all	NN	O	O
-support	NN	O	O
-generalized	NN	O	B-Process
-polynomial	NN	O	I-Process
-chaos	NN	O	I-Process
-expansions	NN	O	I-Process
-for	NN	O	O
-independent	NN	O	O
-stochastic	NN	O	O
-variables	NN	O	O
-and	NN	O	O
-the	NN	O	O
-Normal	NN	O	O
-/	NN	O	O
-Nataf	NN	O	O
-copula	NN	O	O
-listed	NN	O	O
-in	NN	O	O
-Table	NN	O	O
-2	NN	O	O
-.	NN	O	O
-
-Since	NN	O	O
-Chaospy	NN	O	O
-has	NN	O	O
-the	NN	O	O
-Rosenblatt	NN	O	B-Process
-transformation	NN	O	I-Process
-underlying	NN	O	O
-the	NN	O	O
-computational	NN	O	B-Material
-framework	NN	O	I-Material
-,	NN	O	O
-generalized	NN	O	B-Process
-polynomial	NN	O	I-Process
-chaos	NN	O	I-Process
-expansions	NN	O	I-Process
-are	NN	O	O
-in	NN	O	O
-fact	NN	O	O
-available	NN	O	O
-for	NN	O	O
-all	NN	O	O
-densities	NN	O	O
-.	NN	O	O
+Generalized	0	11	B-Process
+polynomial	12	22	I-Process
+chaos	23	28	I-Process
+expansions	29	39	I-Process
+.	39	40	O
+
+One	41	44	O
+approach	45	53	O
+to	54	56	O
+model	57	62	B-Task
+densities	63	72	I-Task
+with	73	77	O
+stochastically	78	92	O
+dependent	93	102	O
+components	103	113	O
+numerically	114	125	O
+,	125	126	O
+is	127	129	O
+to	130	132	O
+reformulate	133	144	O
+the	145	148	O
+uncertainty	149	160	B-Task
+problem	161	168	I-Task
+as	169	171	O
+a	172	173	O
+set	174	177	O
+of	178	180	O
+independent	181	192	O
+components	193	203	O
+through	204	211	O
+generalised	212	223	B-Process
+polynomial	224	234	I-Process
+chaos	235	240	I-Process
+expansion	241	250	I-Process
+[	251	252	O
+34	252	254	O
+]	254	255	O
+.	255	256	O
+
+As	257	259	O
+described	260	269	O
+in	270	272	O
+detail	273	279	O
+in	280	282	O
+Section	283	290	O
+3.1	291	294	O
+,	294	295	O
+a	296	297	O
+Rosenblatt	298	308	B-Process
+transformation	309	323	I-Process
+allows	324	330	O
+for	331	334	O
+the	335	338	O
+mapping	339	346	O
+between	347	354	O
+any	355	358	O
+domain	359	365	O
+and	366	369	O
+the	370	373	O
+unit	374	378	O
+hypercube	379	388	O
+[	389	390	O
+0	390	391	O
+,	391	392	O
+1]D.	393	397	O
+
+With	398	402	O
+a	403	404	O
+double	405	411	O
+transformation	412	426	O
+we	427	429	O
+can	430	433	O
+reformulate	434	445	O
+the	446	449	O
+response	450	458	O
+function	459	467	O
+f	468	469	O
+asf(x	470	475	O
+,	475	476	O
+t	476	477	O
+,	477	478	O
+Q)=f(x	478	484	O
+,	484	485	O
+t	485	486	O
+,	486	487	O
+TQ−1(TR(R)))≈fˆ(x	487	504	O
+,	504	505	O
+t	505	506	O
+,	506	507	O
+R)=∑n∈INcn(x	507	519	O
+,	519	520	O
+
+t)Φn(R),where	520	533	O
+R	534	535	O
+is	536	538	O
+any	539	542	O
+random	543	549	O
+variable	550	558	O
+drawn	559	564	O
+from	565	569	O
+pR	570	572	O
+,	572	573	O
+which	574	579	O
+for	580	583	O
+simplicity	584	594	O
+is	595	597	O
+chosen	598	604	O
+to	605	607	O
+consists	608	616	O
+of	617	619	O
+independent	620	631	O
+components	632	642	O
+.	642	643	O
+
+Also	644	648	O
+,	648	649	O
+{	650	651	O
+Φn}n∈IN	651	658	O
+is	659	661	O
+constructed	662	673	O
+to	674	676	O
+be	677	679	O
+orthogonal	680	690	O
+with	691	695	O
+respect	696	703	O
+to	704	706	O
+LR	707	709	O
+,	709	710	O
+not	711	714	O
+LQ	715	717	O
+.	717	718	O
+
+In	719	721	O
+any	722	725	O
+case	726	730	O
+,	730	731	O
+R	732	733	O
+is	734	736	O
+either	737	743	O
+selected	744	752	O
+from	753	757	O
+the	758	761	O
+Askey	762	767	B-Process
+-	767	768	I-Process
+Wilson	768	774	I-Process
+scheme	775	781	I-Process
+,	781	782	O
+or	783	785	O
+calculated	786	796	O
+using	797	802	O
+the	803	806	O
+discretized	807	818	B-Process
+Stieltjes	819	828	I-Process
+procedure	829	838	I-Process
+.	838	839	O
+
+We	840	842	O
+remark	843	849	O
+that	850	854	O
+the	855	858	O
+accuracy	859	867	O
+of	868	870	O
+the	871	874	O
+approximation	875	888	O
+deteriorate	889	900	O
+if	901	903	O
+the	904	907	O
+transformation	908	922	O
+composition	923	934	O
+TQ−1∘TR	935	942	O
+is	943	945	O
+not	946	949	O
+smooth	950	956	O
+[	957	958	O
+34	958	960	O
+]	960	961	O
+.	961	962	O
+
+Dakota	963	969	O
+,	969	970	O
+Turns	971	976	O
+,	976	977	O
+and	978	981	O
+Chaospy	982	989	O
+all	990	993	O
+support	994	1001	O
+generalized	1002	1013	B-Process
+polynomial	1014	1024	I-Process
+chaos	1025	1030	I-Process
+expansions	1031	1041	I-Process
+for	1042	1045	O
+independent	1046	1057	O
+stochastic	1058	1068	O
+variables	1069	1078	O
+and	1079	1082	O
+the	1083	1086	O
+Normal	1087	1093	O
+/	1093	1094	O
+Nataf	1094	1099	O
+copula	1100	1106	O
+listed	1107	1113	O
+in	1114	1116	O
+Table	1117	1122	O
+2	1123	1124	O
+.	1124	1125	O
+
+Since	1126	1131	O
+Chaospy	1132	1139	O
+has	1140	1143	O
+the	1144	1147	O
+Rosenblatt	1148	1158	B-Process
+transformation	1159	1173	I-Process
+underlying	1174	1184	O
+the	1185	1188	O
+computational	1189	1202	B-Material
+framework	1203	1212	I-Material
+,	1212	1213	O
+generalized	1214	1225	B-Process
+polynomial	1226	1236	I-Process
+chaos	1237	1242	I-Process
+expansions	1243	1253	I-Process
+are	1254	1257	O
+in	1258	1260	O
+fact	1261	1265	O
+available	1266	1275	O
+for	1276	1279	O
+all	1280	1283	O
+densities	1284	1293	O
+.	1293	1294	O
 
 
 -DOCSTART- (S2352179115300041)
 
-The	NN	O	O
-main	NN	O	O
-drawback	NN	O	O
-of	NN	O	O
-thermo	NN	O	B-Process
--	NN	O	I-Process
-oxidation	NN	O	I-Process
-in	NN	O	O
-most	NN	O	O
-actual	NN	O	O
-devices	NN	O	O
-and	NN	O	O
-ITER	NN	O	B-Material
-is	NN	O	O
-its	NN	O	O
-limitation	NN	O	O
-to	NN	O	O
-maintenance	NN	O	O
-periods	NN	O	O
-,	NN	O	O
-when	NN	O	O
-the	NN	O	O
-vessel	NN	O	B-Material
-walls	NN	O	O
-can	NN	O	O
-be	NN	O	O
-heated	NN	O	O
-up	NN	O	O
-around	NN	O	O
-300–400	NN	O	O
-°	NN	O	O
-C	NN	O	O
-by	NN	O	O
-hot	NN	O	O
-helium	NN	O	B-Material
-injection	NN	O	O
-through	NN	O	O
-the	NN	O	O
-cooling	NN	O	B-Material
-system	NN	O	I-Material
-[	NN	O	O
-19,20	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-also	NN	O	O
-because	NN	O	O
-of	NN	O	O
-the	NN	O	O
-required	NN	O	O
-reconditioning	NN	O	B-Task
-of	NN	O	O
-the	NN	O	O
-walls	NN	O	O
-before	NN	O	O
-plasma	NN	O	B-Task
-operation	NN	O	I-Task
-to	NN	O	O
-remove	NN	O	O
-the	NN	O	O
-absorbed	NN	O	O
-oxygen	NN	O	B-Material
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-temperature	NN	O	O
-achieved	NN	O	O
-is	NN	O	O
-not	NN	O	O
-homogeneous	NN	O	O
-over	NN	O	O
-the	NN	O	O
-vessel	NN	O	B-Material
-,	NN	O	O
-as	NN	O	O
-it	NN	O	O
-is	NN	O	O
-limited	NN	O	O
-to	NN	O	O
-the	NN	O	O
-distance	NN	O	O
-to	NN	O	O
-the	NN	O	O
-cooling	NN	O	B-Material
-tubes	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-thus	NN	O	O
-to	NN	O	O
-the	NN	O	O
-device	NN	O	O
-design	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-analysis	NN	O	O
-of	NN	O	O
-this	NN	O	O
-study	NN	O	O
-is	NN	O	O
-a	NN	O	O
-continuation	NN	O	O
-of	NN	O	O
-previous	NN	O	O
-works	NN	O	O
-done	NN	O	O
-for	NN	O	O
-the	NN	O	O
-treatment	NN	O	B-Task
-of	NN	O	I-Task
-ITER	NN	O	I-Task
-carbon	NN	O	I-Task
-co	NN	O	I-Task
--	NN	O	I-Task
-deposits	NN	O	I-Task
-[	NN	O	O
-1–3	NN	O	O
-]	NN	O	O
-,	NN	O	O
-so	NN	O	O
-the	NN	O	O
-temperatures	NN	O	O
-studied	NN	O	O
-are	NN	O	O
-in	NN	O	O
-the	NN	O	O
-range	NN	O	O
-of	NN	O	O
-350	NN	O	O
-°	NN	O	O
-C	NN	O	O
-for	NN	O	O
-divertor	NN	O	B-Material
-and	NN	O	O
-200–275	NN	O	O
-°	NN	O	O
-C	NN	O	O
-for	NN	O	O
-main	NN	O	B-Material
-wall	NN	O	I-Material
-and	NN	O	O
-remote	NN	O	B-Material
-parts	NN	O	I-Material
-.	NN	O	O
-
-At	NN	O	O
-present	NN	O	O
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-budget	NN	O	O
-restrains	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-due	NN	O	O
-to	NN	O	O
-tritium	NN	O	B-Material
-trapped	NN	O	O
-in	NN	O	O
-co	NN	O	O
--	NN	O	O
-deposited	NN	O	O
-carbon	NN	O	B-Material
-layers	NN	O	I-Material
-,	NN	O	O
-ITER	NN	O	B-Material
-will	NN	O	O
-not	NN	O	O
-use	NN	O	O
-carbon	NN	O	B-Material
-materials	NN	O	I-Material
-at	NN	O	O
-the	NN	O	O
-divertor	NN	O	B-Material
-strike	NN	O	O
-points	NN	O	O
-in	NN	O	O
-spite	NN	O	O
-of	NN	O	O
-their	NN	O	O
-excellent	NN	O	O
-resilience	NN	O	O
-against	NN	O	O
-large	NN	O	O
-heat	NN	O	O
-loads	NN	O	O
-.	NN	O	O
-
-Nevertheless	NN	O	O
-,	NN	O	O
-many	NN	O	O
-present	NN	O	O
-experimental	NN	O	O
-nuclear	NN	O	B-Material
-fusion	NN	O	I-Material
-devices	NN	O	I-Material
-(	NN	O	O
-DIII	NN	O	B-Material
--	NN	O	I-Material
-D	NN	O	I-Material
-,	NN	O	O
-TCV	NN	O	B-Material
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-)	NN	O	O
-and	NN	O	O
-new	NN	O	O
-ones	NN	O	O
-(	NN	O	O
-JT-60SA	NN	O	B-Material
-,	NN	O	O
-KSTAR	NN	O	B-Material
-,	NN	O	O
-Wenderstein-7X	NN	O	B-Material
-)	NN	O	O
-use	NN	O	O
-carbon	NN	O	B-Material
-elements	NN	O	I-Material
-,	NN	O	O
-so	NN	O	O
-the	NN	O	O
-removal	NN	O	B-Task
-of	NN	O	I-Task
-carbon	NN	O	I-Task
-co	NN	O	I-Task
--	NN	O	I-Task
-deposits	NN	O	I-Task
-is	NN	O	O
-still	NN	O	O
-necessary	NN	O	O
-for	NN	O	O
-a	NN	O	O
-better	NN	O	O
-device	NN	O	O
-operation	NN	O	O
-—	NN	O	O
-plasma	NN	O	B-Task
-density	NN	O	I-Task
-control	NN	O	I-Task
-,	NN	O	O
-dust	NN	O	B-Material
-events	NN	O	O
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-temperatures	NN	O	O
-used	NN	O	O
-in	NN	O	O
-this	NN	O	O
-work	NN	O	O
-are	NN	O	O
-not	NN	O	O
-very	NN	O	O
-different	NN	O	O
-from	NN	O	O
-the	NN	O	O
-ones	NN	O	O
-achievable	NN	O	O
-in	NN	O	O
-present	NN	O	O
-devices	NN	O	O
-,	NN	O	O
-such	NN	O	O
-that	NN	O	O
-the	NN	O	O
-results	NN	O	O
-can	NN	O	O
-be	NN	O	O
-extrapolated	NN	O	O
-to	NN	O	O
-them	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-even	NN	O	O
-for	NN	O	O
-ITER	NN	O	B-Material
-this	NN	O	O
-study	NN	O	O
-could	NN	O	O
-be	NN	O	O
-useful	NN	O	O
-if	NN	O	O
-carbon	NN	O	B-Material
-materials	NN	O	I-Material
-have	NN	O	O
-to	NN	O	O
-be	NN	O	O
-eventually	NN	O	O
-installed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-case	NN	O	O
-that	NN	O	O
-operation	NN	O	O
-with	NN	O	O
-tungsten	NN	O	B-Material
-tiles	NN	O	I-Material
-at	NN	O	O
-the	NN	O	O
-strike	NN	O	O
-points	NN	O	O
-is	NN	O	O
-precluded	NN	O	O
-by	NN	O	O
-unexpected	NN	O	O
-reasons	NN	O	O
-.	NN	O	O
+The	0	3	O
+main	4	8	O
+drawback	9	17	O
+of	18	20	O
+thermo	21	27	B-Process
+-	27	28	I-Process
+oxidation	28	37	I-Process
+in	38	40	O
+most	41	45	O
+actual	46	52	O
+devices	53	60	O
+and	61	64	O
+ITER	65	69	B-Material
+is	70	72	O
+its	73	76	O
+limitation	77	87	O
+to	88	90	O
+maintenance	91	102	O
+periods	103	110	O
+,	110	111	O
+when	112	116	O
+the	117	120	O
+vessel	121	127	B-Material
+walls	128	133	O
+can	134	137	O
+be	138	140	O
+heated	141	147	O
+up	148	150	O
+around	151	157	O
+300–400	158	165	O
+°	166	167	O
+C	167	168	O
+by	169	171	O
+hot	172	175	O
+helium	176	182	B-Material
+injection	183	192	O
+through	193	200	O
+the	201	204	O
+cooling	205	212	B-Material
+system	213	219	I-Material
+[	220	221	O
+19,20	221	226	O
+]	226	227	O
+,	227	228	O
+and	229	232	O
+also	233	237	O
+because	238	245	O
+of	246	248	O
+the	249	252	O
+required	253	261	O
+reconditioning	262	276	B-Task
+of	277	279	O
+the	280	283	O
+walls	284	289	O
+before	290	296	O
+plasma	297	303	B-Task
+operation	304	313	I-Task
+to	314	316	O
+remove	317	323	O
+the	324	327	O
+absorbed	328	336	O
+oxygen	337	343	B-Material
+[	344	345	O
+10	345	347	O
+]	347	348	O
+.	348	349	O
+
+However	350	357	O
+,	357	358	O
+the	359	362	O
+temperature	363	374	O
+achieved	375	383	O
+is	384	386	O
+not	387	390	O
+homogeneous	391	402	O
+over	403	407	O
+the	408	411	O
+vessel	412	418	B-Material
+,	418	419	O
+as	420	422	O
+it	423	425	O
+is	426	428	O
+limited	429	436	O
+to	437	439	O
+the	440	443	O
+distance	444	452	O
+to	453	455	O
+the	456	459	O
+cooling	460	467	B-Material
+tubes	468	473	I-Material
+,	473	474	O
+and	475	478	O
+thus	479	483	O
+to	484	486	O
+the	487	490	O
+device	491	497	O
+design	498	504	O
+.	504	505	O
+
+The	506	509	O
+analysis	510	518	O
+of	519	521	O
+this	522	526	O
+study	527	532	O
+is	533	535	O
+a	536	537	O
+continuation	538	550	O
+of	551	553	O
+previous	554	562	O
+works	563	568	O
+done	569	573	O
+for	574	577	O
+the	578	581	O
+treatment	582	591	B-Task
+of	592	594	I-Task
+ITER	595	599	I-Task
+carbon	600	606	I-Task
+co	607	609	I-Task
+-	609	610	I-Task
+deposits	610	618	I-Task
+[	619	620	O
+1–3	620	623	O
+]	623	624	O
+,	624	625	O
+so	626	628	O
+the	629	632	O
+temperatures	633	645	O
+studied	646	653	O
+are	654	657	O
+in	658	660	O
+the	661	664	O
+range	665	670	O
+of	671	673	O
+350	674	677	O
+°	678	679	O
+C	679	680	O
+for	681	684	O
+divertor	685	693	B-Material
+and	694	697	O
+200–275	698	705	O
+°	706	707	O
+C	707	708	O
+for	709	712	O
+main	713	717	B-Material
+wall	718	722	I-Material
+and	723	726	O
+remote	727	733	B-Material
+parts	734	739	I-Material
+.	739	740	O
+
+At	741	743	O
+present	744	751	O
+,	751	752	O
+due	753	756	O
+to	757	759	O
+budget	760	766	O
+restrains	767	776	O
+as	777	779	O
+well	780	784	O
+as	785	787	O
+due	788	791	O
+to	792	794	O
+tritium	795	802	B-Material
+trapped	803	810	O
+in	811	813	O
+co	814	816	O
+-	816	817	O
+deposited	817	826	O
+carbon	827	833	B-Material
+layers	834	840	I-Material
+,	840	841	O
+ITER	842	846	B-Material
+will	847	851	O
+not	852	855	O
+use	856	859	O
+carbon	860	866	B-Material
+materials	867	876	I-Material
+at	877	879	O
+the	880	883	O
+divertor	884	892	B-Material
+strike	893	899	O
+points	900	906	O
+in	907	909	O
+spite	910	915	O
+of	916	918	O
+their	919	924	O
+excellent	925	934	O
+resilience	935	945	O
+against	946	953	O
+large	954	959	O
+heat	960	964	O
+loads	965	970	O
+.	970	971	O
+
+Nevertheless	972	984	O
+,	984	985	O
+many	986	990	O
+present	991	998	O
+experimental	999	1011	O
+nuclear	1012	1019	B-Material
+fusion	1020	1026	I-Material
+devices	1027	1034	I-Material
+(	1035	1036	O
+DIII	1036	1040	B-Material
+-	1040	1041	I-Material
+D	1041	1042	I-Material
+,	1042	1043	O
+TCV	1044	1047	B-Material
+,	1047	1048	O
+etc	1049	1052	O
+.	1052	1053	O
+)	1053	1054	O
+and	1055	1058	O
+new	1059	1062	O
+ones	1063	1067	O
+(	1068	1069	O
+JT-60SA	1069	1076	B-Material
+,	1076	1077	O
+KSTAR	1078	1083	B-Material
+,	1083	1084	O
+Wenderstein-7X	1085	1099	B-Material
+)	1099	1100	O
+use	1101	1104	O
+carbon	1105	1111	B-Material
+elements	1112	1120	I-Material
+,	1120	1121	O
+so	1122	1124	O
+the	1125	1128	O
+removal	1129	1136	B-Task
+of	1137	1139	I-Task
+carbon	1140	1146	I-Task
+co	1147	1149	I-Task
+-	1149	1150	I-Task
+deposits	1150	1158	I-Task
+is	1159	1161	O
+still	1162	1167	O
+necessary	1168	1177	O
+for	1178	1181	O
+a	1182	1183	O
+better	1184	1190	O
+device	1191	1197	O
+operation	1198	1207	O
+—	1207	1208	O
+plasma	1208	1214	B-Task
+density	1215	1222	I-Task
+control	1223	1230	I-Task
+,	1230	1231	O
+dust	1232	1236	B-Material
+events	1237	1243	O
+,	1243	1244	O
+etc	1245	1248	O
+.	1248	1249	O
+
+The	1250	1253	O
+temperatures	1254	1266	O
+used	1267	1271	O
+in	1272	1274	O
+this	1275	1279	O
+work	1280	1284	O
+are	1285	1288	O
+not	1289	1292	O
+very	1293	1297	O
+different	1298	1307	O
+from	1308	1312	O
+the	1313	1316	O
+ones	1317	1321	O
+achievable	1322	1332	O
+in	1333	1335	O
+present	1336	1343	O
+devices	1344	1351	O
+,	1351	1352	O
+such	1353	1357	O
+that	1358	1362	O
+the	1363	1366	O
+results	1367	1374	O
+can	1375	1378	O
+be	1379	1381	O
+extrapolated	1382	1394	O
+to	1395	1397	O
+them	1398	1402	O
+.	1402	1403	O
+
+Moreover	1404	1412	O
+,	1412	1413	O
+even	1414	1418	O
+for	1419	1422	O
+ITER	1423	1427	B-Material
+this	1428	1432	O
+study	1433	1438	O
+could	1439	1444	O
+be	1445	1447	O
+useful	1448	1454	O
+if	1455	1457	O
+carbon	1458	1464	B-Material
+materials	1465	1474	I-Material
+have	1475	1479	O
+to	1480	1482	O
+be	1483	1485	O
+eventually	1486	1496	O
+installed	1497	1506	O
+in	1507	1509	O
+the	1510	1513	O
+case	1514	1518	O
+that	1519	1523	O
+operation	1524	1533	O
+with	1534	1538	O
+tungsten	1539	1547	B-Material
+tiles	1548	1553	I-Material
+at	1554	1556	O
+the	1557	1560	O
+strike	1561	1567	O
+points	1568	1574	O
+is	1575	1577	O
+precluded	1578	1587	O
+by	1588	1590	O
+unexpected	1591	1601	O
+reasons	1602	1609	O
+.	1609	1610	O
 
 
diff --git a/data/ner/semeval2017/test.txt b/data/ner/semeval2017/test.txt
index aae536b..9c35527 100644
--- a/data/ner/semeval2017/test.txt
+++ b/data/ner/semeval2017/test.txt
@@ -1,23376 +1,23376 @@
 -DOCSTART- (S0010482516301810)
 
-Three	NN	O	B-Process
--	NN	O	I-Process
-dimensional	NN	O	I-Process
-digital	NN	O	I-Process
-subtraction	NN	O	I-Process
-angiographic	NN	O	I-Process
-(	NN	O	O
-3D	NN	O	B-Process
--	NN	O	I-Process
-DSA	NN	O	I-Process
-)	NN	O	O
-images	NN	O	O
-from	NN	O	O
-diagnostic	NN	O	O
-cerebral	NN	O	B-Process
-angiography	NN	O	I-Process
-were	NN	O	O
-obtained	NN	O	O
-at	NN	O	O
-least	NN	O	O
-one	NN	O	O
-day	NN	O	O
-prior	NN	O	O
-to	NN	O	O
-embolization	NN	O	B-Process
-in	NN	O	O
-all	NN	O	O
-patients	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-raw	NN	O	O
-data	NN	O	O
-of	NN	O	O
-3D	NN	O	B-Process
--	NN	O	I-Process
-DSA	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-DICOM	NN	O	B-Material
-file	NN	O	I-Material
-were	NN	O	O
-used	NN	O	O
-for	NN	O	O
-creating	NN	O	B-Task
-a	NN	O	I-Task
-3D	NN	O	I-Task
-model	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-target	NN	O	I-Task
-vessel	NN	O	I-Task
-segment	NN	O	I-Task
-.	NN	O	O
-
-These	NN	O	O
-data	NN	O	O
-were	NN	O	O
-converted	NN	O	O
-to	NN	O	O
-standard	NN	O	B-Process
-triangulation	NN	O	I-Process
-language	NN	O	I-Process
-(	NN	O	O
-STL	NN	O	B-Process
-)	NN	O	O
-surface	NN	O	O
-data	NN	O	O
-as	NN	O	O
-an	NN	O	O
-aggregation	NN	O	O
-of	NN	O	O
-fine	NN	O	O
-triangular	NN	O	B-Material
-meshes	NN	O	I-Material
-using	NN	O	O
-3D	NN	O	B-Material
-visualization	NN	O	I-Material
-and	NN	O	I-Material
-measurement	NN	O	I-Material
-software	NN	O	I-Material
-(	NN	O	O
-Amira	NN	O	B-Material
-version	NN	O	I-Material
-X	NN	O	I-Material
-,	NN	O	O
-FEI	NN	O	O
-,	NN	O	O
-Burlington	NN	O	O
-,	NN	O	O
-MA	NN	O	O
-,	NN	O	O
-USA	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-unstructured	NN	O	O
-computational	NN	O	B-Material
-volumetric	NN	O	I-Material
-mesh	NN	O	I-Material
-was	NN	O	O
-constructed	NN	O	O
-from	NN	O	O
-the	NN	O	O
-triangulated	NN	O	B-Material
-surface	NN	O	I-Material
-.	NN	O	O
-
-Smoothing	NN	O	B-Process
-and	NN	O	O
-remeshing	NN	O	B-Process
-followed	NN	O	O
-as	NN	O	O
-next	NN	O	O
-steps	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-STL	NN	O	B-Material
-file	NN	O	I-Material
-was	NN	O	O
-then	NN	O	O
-transferred	NN	O	O
-to	NN	O	O
-a	NN	O	O
-3D	NN	O	B-Material
-printer	NN	O	I-Material
-(	NN	O	O
-OBJET30	NN	O	B-Material
-Pro	NN	O	I-Material
-;	NN	O	O
-Stratasys	NN	O	O
-Ltd.	NN	O	O
-,	NN	O	O
-Eden	NN	O	O
-Prairie	NN	O	O
-,	NN	O	O
-MN	NN	O	O
-,	NN	O	O
-USA	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resolution	NN	O	O
-of	NN	O	O
-the	NN	O	O
-build	NN	O	O
-layer	NN	O	O
-was	NN	O	O
-0.028	NN	O	O
-mm	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-3D	NN	O	O
-printed	NN	O	O
-vessel	NN	O	O
-model	NN	O	O
-was	NN	O	O
-produced	NN	O	O
-using	NN	O	O
-acrylic	NN	O	B-Material
-resin	NN	O	I-Material
-(	NN	O	O
-Vero	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-Following	NN	O	O
-immersion	NN	O	B-Process
-in	NN	O	I-Process
-water	NN	O	I-Process
-for	NN	O	O
-a	NN	O	O
-few	NN	O	O
-hours	NN	O	O
-,	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-of	NN	O	O
-the	NN	O	O
-3D	NN	O	B-Material
-printed	NN	O	I-Material
-model	NN	O	I-Material
-was	NN	O	O
-smoothed	NN	O	B-Process
-by	NN	O	O
-manually	NN	O	O
-removing	NN	O	B-Process
-spicule	NN	O	I-Process
-.	NN	O	I-Process
+Three	0	5	B-Process
+-	5	6	I-Process
+dimensional	6	17	I-Process
+digital	18	25	I-Process
+subtraction	26	37	I-Process
+angiographic	38	50	I-Process
+(	51	52	O
+3D	52	54	B-Process
+-	54	55	I-Process
+DSA	55	58	I-Process
+)	58	59	O
+images	60	66	O
+from	67	71	O
+diagnostic	72	82	O
+cerebral	83	91	B-Process
+angiography	92	103	I-Process
+were	104	108	O
+obtained	109	117	O
+at	118	120	O
+least	121	126	O
+one	127	130	O
+day	131	134	O
+prior	135	140	O
+to	141	143	O
+embolization	144	156	B-Process
+in	157	159	O
+all	160	163	O
+patients	164	172	O
+.	172	173	O
+
+The	174	177	O
+raw	178	181	O
+data	182	186	O
+of	187	189	O
+3D	190	192	B-Process
+-	192	193	I-Process
+DSA	193	196	I-Process
+in	197	199	O
+a	200	201	O
+DICOM	202	207	B-Material
+file	208	212	I-Material
+were	213	217	O
+used	218	222	O
+for	223	226	O
+creating	227	235	B-Task
+a	236	237	I-Task
+3D	238	240	I-Task
+model	241	246	I-Task
+of	247	249	I-Task
+the	250	253	I-Task
+target	254	260	I-Task
+vessel	261	267	I-Task
+segment	268	275	I-Task
+.	275	276	O
+
+These	277	282	O
+data	283	287	O
+were	288	292	O
+converted	293	302	O
+to	303	305	O
+standard	306	314	B-Process
+triangulation	315	328	I-Process
+language	329	337	I-Process
+(	338	339	O
+STL	339	342	B-Process
+)	342	343	O
+surface	344	351	O
+data	352	356	O
+as	357	359	O
+an	360	362	O
+aggregation	363	374	O
+of	375	377	O
+fine	378	382	O
+triangular	383	393	B-Material
+meshes	394	400	I-Material
+using	401	406	O
+3D	407	409	B-Material
+visualization	410	423	I-Material
+and	424	427	I-Material
+measurement	428	439	I-Material
+software	440	448	I-Material
+(	449	450	O
+Amira	450	455	B-Material
+version	456	463	I-Material
+X	464	465	I-Material
+,	465	466	O
+FEI	467	470	O
+,	470	471	O
+Burlington	472	482	O
+,	482	483	O
+MA	484	486	O
+,	486	487	O
+USA	488	491	O
+)	491	492	O
+.	492	493	O
+
+An	494	496	O
+unstructured	497	509	O
+computational	510	523	B-Material
+volumetric	524	534	I-Material
+mesh	535	539	I-Material
+was	540	543	O
+constructed	544	555	O
+from	556	560	O
+the	561	564	O
+triangulated	565	577	B-Material
+surface	578	585	I-Material
+.	585	586	O
+
+Smoothing	587	596	B-Process
+and	597	600	O
+remeshing	601	610	B-Process
+followed	611	619	O
+as	620	622	O
+next	623	627	O
+steps	628	633	O
+.	633	634	O
+
+The	635	638	O
+STL	639	642	B-Material
+file	643	647	I-Material
+was	648	651	O
+then	652	656	O
+transferred	657	668	O
+to	669	671	O
+a	672	673	O
+3D	674	676	B-Material
+printer	677	684	I-Material
+(	685	686	O
+OBJET30	686	693	B-Material
+Pro	694	697	I-Material
+;	697	698	O
+Stratasys	699	708	O
+Ltd.	709	713	O
+,	713	714	O
+Eden	715	719	O
+Prairie	720	727	O
+,	727	728	O
+MN	729	731	O
+,	731	732	O
+USA	733	736	O
+)	736	737	O
+.	737	738	O
+
+The	739	742	O
+resolution	743	753	O
+of	754	756	O
+the	757	760	O
+build	761	766	O
+layer	767	772	O
+was	773	776	O
+0.028	777	782	O
+mm	782	784	O
+,	784	785	O
+and	786	789	O
+the	790	793	O
+3D	794	796	O
+printed	797	804	O
+vessel	805	811	O
+model	812	817	O
+was	818	821	O
+produced	822	830	O
+using	831	836	O
+acrylic	837	844	B-Material
+resin	845	850	I-Material
+(	851	852	O
+Vero	852	856	B-Material
+)	856	857	O
+.	857	858	O
+
+Following	859	868	O
+immersion	869	878	B-Process
+in	879	881	I-Process
+water	882	887	I-Process
+for	888	891	O
+a	892	893	O
+few	894	897	O
+hours	898	903	O
+,	903	904	O
+the	905	908	O
+surface	909	916	O
+of	917	919	O
+the	920	923	O
+3D	924	926	B-Material
+printed	927	934	I-Material
+model	935	940	I-Material
+was	941	944	O
+smoothed	945	953	B-Process
+by	954	956	O
+manually	957	965	O
+removing	966	974	B-Process
+spicule	975	982	I-Process
+.	982	983	I-Process
 
 
 -DOCSTART- (S0010938X15301268)
 
-Fig	NN	O	O
-.	NN	O	O
-
-9	NN	O	O
-displays	NN	O	O
-the	NN	O	O
-growth	NN	O	O
-of	NN	O	O
-two	NN	O	O
-of	NN	O	O
-the	NN	O	O
-main	NN	O	O
-corrosion	NN	O	B-Material
-products	NN	O	I-Material
-that	NN	O	O
-develop	NN	O	O
-or	NN	O	O
-form	NN	O	O
-on	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-of	NN	O	O
-Cu40Zn	NN	O	B-Material
-with	NN	O	O
-time	NN	O	O
-,	NN	O	O
-hydrozincite	NN	O	B-Material
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-9a	NN	O	O
-)	NN	O	O
-and	NN	O	O
-Cu2O	NN	O	B-Material
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-9b	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-should	NN	O	O
-be	NN	O	O
-remembered	NN	O	O
-that	NN	O	O
-both	NN	O	O
-phases	NN	O	O
-were	NN	O	O
-present	NN	O	O
-already	NN	O	O
-from	NN	O	O
-start	NN	O	O
-of	NN	O	O
-the	NN	O	O
-exposure	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-data	NN	O	O
-is	NN	O	O
-presented	NN	O	O
-in	NN	O	O
-absorbance	NN	O	B-Process
-units	NN	O	I-Process
-and	NN	O	O
-allows	NN	O	O
-comparisons	NN	O	B-Task
-to	NN	O	I-Task
-be	NN	O	I-Task
-made	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-amounts	NN	O	I-Task
-of	NN	O	I-Task
-each	NN	O	I-Task
-species	NN	O	I-Task
-between	NN	O	I-Task
-the	NN	O	I-Task
-two	NN	O	I-Task
-Cu40Zn	NN	O	I-Task
-surfaces	NN	O	I-Task
-investigated	NN	O	I-Task
-,	NN	O	O
-DP	NN	O	B-Material
-and	NN	O	O
-HZ7	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-tendency	NN	O	O
-is	NN	O	O
-very	NN	O	O
-clear	NN	O	O
-that	NN	O	O
-the	NN	O	O
-formation	NN	O	B-Process
-rates	NN	O	I-Process
-of	NN	O	O
-both	NN	O	O
-hydrozincite	NN	O	B-Material
-and	NN	O	O
-cuprite	NN	O	B-Material
-are	NN	O	O
-quite	NN	O	O
-suppressed	NN	O	O
-for	NN	O	O
-Cu40Zn	NN	O	B-Material
-with	NN	O	O
-preformed	NN	O	O
-hydrozincite	NN	O	B-Material
-(	NN	O	O
-HZ7	NN	O	B-Material
-)	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-the	NN	O	O
-diamond	NN	O	B-Material
-polished	NN	O	I-Material
-surface	NN	O	I-Material
-(	NN	O	O
-DP	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-summary	NN	O	O
-,	NN	O	O
-without	NN	O	O
-being	NN	O	O
-able	NN	O	O
-to	NN	O	O
-consider	NN	O	O
-the	NN	O	O
-formation	NN	O	B-Process
-of	NN	O	I-Process
-simonkolleite	NN	O	I-Process
-,	NN	O	O
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-concluded	NN	O	O
-that	NN	O	O
-an	NN	O	O
-increased	NN	O	O
-surface	NN	O	O
-coverage	NN	O	O
-of	NN	O	O
-hydrozincite	NN	O	B-Material
-reduces	NN	O	O
-the	NN	O	O
-initial	NN	O	B-Process
-spreading	NN	O	I-Process
-ability	NN	O	O
-of	NN	O	O
-the	NN	O	O
-NaCl	NN	O	B-Material
--	NN	O	I-Material
-containing	NN	O	I-Material
-droplets	NN	O	I-Material
-and	NN	O	O
-thereby	NN	O	O
-lowers	NN	O	O
-the	NN	O	O
-overall	NN	O	O
-formation	NN	O	B-Process
-rate	NN	O	I-Process
-of	NN	O	O
-hydrozincite	NN	O	B-Material
-and	NN	O	O
-cuprite	NN	O	B-Material
-.	NN	O	O
+Fig	0	3	O
+.	3	4	O
+
+9	5	6	O
+displays	7	15	O
+the	16	19	O
+growth	20	26	O
+of	27	29	O
+two	30	33	O
+of	34	36	O
+the	37	40	O
+main	41	45	O
+corrosion	46	55	B-Material
+products	56	64	I-Material
+that	65	69	O
+develop	70	77	O
+or	78	80	O
+form	81	85	O
+on	86	88	O
+the	89	92	O
+surface	93	100	O
+of	101	103	O
+Cu40Zn	104	110	B-Material
+with	111	115	O
+time	116	120	O
+,	120	121	O
+hydrozincite	122	134	B-Material
+(	135	136	O
+Fig	136	139	O
+.	139	140	O
+
+9a	141	143	O
+)	143	144	O
+and	145	148	O
+Cu2O	149	153	B-Material
+(	154	155	O
+Fig	155	158	O
+.	158	159	O
+
+9b	160	162	O
+)	162	163	O
+.	163	164	O
+
+It	165	167	O
+should	168	174	O
+be	175	177	O
+remembered	178	188	O
+that	189	193	O
+both	194	198	O
+phases	199	205	O
+were	206	210	O
+present	211	218	O
+already	219	226	O
+from	227	231	O
+start	232	237	O
+of	238	240	O
+the	241	244	O
+exposure	245	253	O
+.	253	254	O
+
+The	255	258	O
+data	259	263	O
+is	264	266	O
+presented	267	276	O
+in	277	279	O
+absorbance	280	290	B-Process
+units	291	296	I-Process
+and	297	300	O
+allows	301	307	O
+comparisons	308	319	B-Task
+to	320	322	I-Task
+be	323	325	I-Task
+made	326	330	I-Task
+of	331	333	I-Task
+the	334	337	I-Task
+amounts	338	345	I-Task
+of	346	348	I-Task
+each	349	353	I-Task
+species	354	361	I-Task
+between	362	369	I-Task
+the	370	373	I-Task
+two	374	377	I-Task
+Cu40Zn	378	384	I-Task
+surfaces	385	393	I-Task
+investigated	394	406	I-Task
+,	406	407	O
+DP	408	410	B-Material
+and	411	414	O
+HZ7	415	418	B-Material
+.	418	419	O
+
+The	420	423	O
+tendency	424	432	O
+is	433	435	O
+very	436	440	O
+clear	441	446	O
+that	447	451	O
+the	452	455	O
+formation	456	465	B-Process
+rates	466	471	I-Process
+of	472	474	O
+both	475	479	O
+hydrozincite	480	492	B-Material
+and	493	496	O
+cuprite	497	504	B-Material
+are	505	508	O
+quite	509	514	O
+suppressed	515	525	O
+for	526	529	O
+Cu40Zn	530	536	B-Material
+with	537	541	O
+preformed	542	551	O
+hydrozincite	552	564	B-Material
+(	565	566	O
+HZ7	566	569	B-Material
+)	569	570	O
+compared	571	579	O
+to	580	582	O
+the	583	586	O
+diamond	587	594	B-Material
+polished	595	603	I-Material
+surface	604	611	I-Material
+(	612	613	O
+DP	613	615	B-Material
+)	615	616	O
+.	616	617	O
+
+In	618	620	O
+summary	621	628	O
+,	628	629	O
+without	630	637	O
+being	638	643	O
+able	644	648	O
+to	649	651	O
+consider	652	660	O
+the	661	664	O
+formation	665	674	B-Process
+of	675	677	I-Process
+simonkolleite	678	691	I-Process
+,	691	692	O
+it	693	695	O
+can	696	699	O
+be	700	702	O
+concluded	703	712	O
+that	713	717	O
+an	718	720	O
+increased	721	730	O
+surface	731	738	O
+coverage	739	747	O
+of	748	750	O
+hydrozincite	751	763	B-Material
+reduces	764	771	O
+the	772	775	O
+initial	776	783	B-Process
+spreading	784	793	I-Process
+ability	794	801	O
+of	802	804	O
+the	805	808	O
+NaCl	809	813	B-Material
+-	813	814	I-Material
+containing	814	824	I-Material
+droplets	825	833	I-Material
+and	834	837	O
+thereby	838	845	O
+lowers	846	852	O
+the	853	856	O
+overall	857	864	O
+formation	865	874	B-Process
+rate	875	879	I-Process
+of	880	882	O
+hydrozincite	883	895	B-Material
+and	896	899	O
+cuprite	900	907	B-Material
+.	907	908	O
 
 
 -DOCSTART- (S0010938X15301554)
 
-AA	NN	O	B-Material
-2024-T3	NN	O	I-Material
-aluminium	NN	O	I-Material
-alloy	NN	O	I-Material
-is	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-for	NN	O	O
-aerospace	NN	O	B-Task
-applications	NN	O	I-Task
-due	NN	O	O
-to	NN	O	O
-its	NN	O	O
-high	NN	O	O
-strength	NN	O	O
-to	NN	O	O
-weight	NN	O	O
-ratio	NN	O	O
-and	NN	O	O
-high	NN	O	O
-damage	NN	O	O
-tolerance	NN	O	O
-that	NN	O	O
-result	NN	O	O
-from	NN	O	O
-copper	NN	O	B-Material
-and	NN	O	O
-magnesium	NN	O	B-Material
-as	NN	O	O
-the	NN	O	O
-principal	NN	O	O
-alloying	NN	O	B-Material
-elements	NN	O	I-Material
-and	NN	O	O
-appropriate	NN	O	O
-thermomechanical	NN	O	B-Process
-processing	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-microstructure	NN	O	O
-of	NN	O	O
-the	NN	O	O
-alloy	NN	O	B-Material
-is	NN	O	O
-relatively	NN	O	O
-complex	NN	O	O
-and	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-compositionally	NN	O	B-Process
--	NN	O	I-Process
-distinct	NN	O	I-Process
-phases	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-identified	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Although	NN	O	O
-possessing	NN	O	O
-favourable	NN	O	O
-mechanical	NN	O	O
-properties	NN	O	O
-,	NN	O	O
-the	NN	O	O
-alloy	NN	O	B-Material
-is	NN	O	O
-relatively	NN	O	O
-susceptible	NN	O	O
-to	NN	O	O
-corrosion	NN	O	B-Process
-and	NN	O	O
-generally	NN	O	O
-requires	NN	O	O
-surface	NN	O	B-Process
-treatment	NN	O	I-Process
-in	NN	O	O
-practical	NN	O	O
-applications	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-corrosion	NN	O	B-Process
-behaviour	NN	O	O
-of	NN	O	O
-the	NN	O	O
-alloy	NN	O	B-Material
-is	NN	O	O
-particularly	NN	O	O
-affected	NN	O	O
-by	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-the	NN	O	O
-intermetallic	NN	O	B-Material
-particles	NN	O	I-Material
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-differing	NN	O	O
-potentials	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-the	NN	O	O
-alloy	NN	O	B-Material
-matrix	NN	O	I-Material
-[	NN	O	O
-2–9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Copper	NN	O	B-Material
--	NN	O	I-Material
-containing	NN	O	I-Material
-second	NN	O	I-Material
-phase	NN	O	I-Material
-particles	NN	O	I-Material
-at	NN	O	O
-the	NN	O	O
-alloy	NN	O	B-Material
-surface	NN	O	O
-are	NN	O	O
-particularly	NN	O	O
-detrimental	NN	O	O
-to	NN	O	O
-the	NN	O	O
-corrosion	NN	O	B-Process
-resistance	NN	O	I-Process
-as	NN	O	O
-they	NN	O	O
-provide	NN	O	O
-preferential	NN	O	O
-cathodic	NN	O	O
-sites	NN	O	O
-[	NN	O	O
-2,10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-One	NN	O	O
-of	NN	O	O
-the	NN	O	O
-principle	NN	O	O
-types	NN	O	O
-of	NN	O	O
-second	NN	O	B-Material
-phase	NN	O	I-Material
-particle	NN	O	I-Material
-that	NN	O	O
-is	NN	O	O
-important	NN	O	O
-to	NN	O	O
-the	NN	O	O
-corrosion	NN	O	B-Process
-behaviour	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-alloy	NN	O	O
-is	NN	O	O
-the	NN	O	O
-S	NN	O	B-Material
-phase	NN	O	I-Material
-(	NN	O	O
-Al2CuMg	NN	O	B-Material
-)	NN	O	O
-particle	NN	O	O
-[	NN	O	O
-1,11	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Dealloying	NN	O	O
-of	NN	O	O
-S	NN	O	B-Material
-phase	NN	O	I-Material
-particles	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-may	NN	O	O
-account	NN	O	O
-for	NN	O	O
-∼60	NN	O	O
-%	NN	O	O
-of	NN	O	O
-the	NN	O	O
-constituent	NN	O	B-Material
-particles	NN	O	I-Material
-in	NN	O	O
-
-AA2024	NN	O	B-Material
-alloys	NN	O	I-Material
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-,	NN	O	O
-is	NN	O	O
-commonly	NN	O	O
-observed	NN	O	O
-when	NN	O	O
-the	NN	O	O
-alloy	NN	O	B-Material
-is	NN	O	O
-exposed	NN	O	O
-to	NN	O	O
-an	NN	O	O
-aggressive	NN	O	O
-environment	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-particles	NN	O	B-Material
-are	NN	O	O
-considered	NN	O	O
-as	NN	O	O
-important	NN	O	O
-initiation	NN	O	O
-sites	NN	O	O
-for	NN	O	O
-severe	NN	O	O
-localized	NN	O	O
-corrosion	NN	O	B-Process
-in	NN	O	O
-the	NN	O	O
-alloy	NN	O	B-Material
-[	NN	O	O
-11–22	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-dealloying	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-S	NN	O	B-Material
-phase	NN	O	I-Material
-particles	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-resulting	NN	O	O
-enrichment	NN	O	B-Process
-of	NN	O	O
-copper	NN	O	B-Material
-result	NN	O	O
-in	NN	O	O
-a	NN	O	O
-decrease	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-Volta	NN	O	I-Process
-potential	NN	O	I-Process
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-the	NN	O	O
-matrix	NN	O	O
-and	NN	O	O
-hence	NN	O	O
-the	NN	O	O
-dealloyed	NN	O	B-Material
-particles	NN	O	I-Material
-become	NN	O	O
-active	NN	O	O
-cathodic	NN	O	B-Material
-sites	NN	O	I-Material
-[	NN	O	O
-23–25	NN	O	O
-]	NN	O	O
-.	NN	O	O
+AA	0	2	B-Material
+2024-T3	3	10	I-Material
+aluminium	11	20	I-Material
+alloy	21	26	I-Material
+is	27	29	O
+widely	30	36	O
+used	37	41	O
+for	42	45	O
+aerospace	46	55	B-Task
+applications	56	68	I-Task
+due	69	72	O
+to	73	75	O
+its	76	79	O
+high	80	84	O
+strength	85	93	O
+to	94	96	O
+weight	97	103	O
+ratio	104	109	O
+and	110	113	O
+high	114	118	O
+damage	119	125	O
+tolerance	126	135	O
+that	136	140	O
+result	141	147	O
+from	148	152	O
+copper	153	159	B-Material
+and	160	163	O
+magnesium	164	173	B-Material
+as	174	176	O
+the	177	180	O
+principal	181	190	O
+alloying	191	199	B-Material
+elements	200	208	I-Material
+and	209	212	O
+appropriate	213	224	O
+thermomechanical	225	241	B-Process
+processing	242	252	I-Process
+.	252	253	O
+
+The	254	257	O
+microstructure	258	272	O
+of	273	275	O
+the	276	279	O
+alloy	280	285	B-Material
+is	286	288	O
+relatively	289	299	O
+complex	300	307	O
+and	308	311	O
+a	312	313	O
+number	314	320	O
+of	321	323	O
+compositionally	324	339	B-Process
+-	339	340	I-Process
+distinct	340	348	I-Process
+phases	349	355	I-Process
+have	356	360	O
+been	361	365	O
+identified	366	376	O
+[	377	378	O
+1	378	379	O
+]	379	380	O
+.	380	381	O
+
+Although	382	390	O
+possessing	391	401	O
+favourable	402	412	O
+mechanical	413	423	O
+properties	424	434	O
+,	434	435	O
+the	436	439	O
+alloy	440	445	B-Material
+is	446	448	O
+relatively	449	459	O
+susceptible	460	471	O
+to	472	474	O
+corrosion	475	484	B-Process
+and	485	488	O
+generally	489	498	O
+requires	499	507	O
+surface	508	515	B-Process
+treatment	516	525	I-Process
+in	526	528	O
+practical	529	538	O
+applications	539	551	O
+.	551	552	O
+
+The	553	556	O
+corrosion	557	566	B-Process
+behaviour	567	576	O
+of	577	579	O
+the	580	583	O
+alloy	584	589	B-Material
+is	590	592	O
+particularly	593	605	O
+affected	606	614	O
+by	615	617	O
+the	618	621	O
+presence	622	630	O
+of	631	633	O
+the	634	637	O
+intermetallic	638	651	B-Material
+particles	652	661	I-Material
+due	662	665	O
+to	666	668	O
+their	669	674	O
+differing	675	684	O
+potentials	685	695	O
+with	696	700	O
+respect	701	708	O
+to	709	711	O
+the	712	715	O
+alloy	716	721	B-Material
+matrix	722	728	I-Material
+[	729	730	O
+2–9	730	733	O
+]	733	734	O
+.	734	735	O
+
+Copper	736	742	B-Material
+-	742	743	I-Material
+containing	743	753	I-Material
+second	754	760	I-Material
+phase	761	766	I-Material
+particles	767	776	I-Material
+at	777	779	O
+the	780	783	O
+alloy	784	789	B-Material
+surface	790	797	O
+are	798	801	O
+particularly	802	814	O
+detrimental	815	826	O
+to	827	829	O
+the	830	833	O
+corrosion	834	843	B-Process
+resistance	844	854	I-Process
+as	855	857	O
+they	858	862	O
+provide	863	870	O
+preferential	871	883	O
+cathodic	884	892	O
+sites	893	898	O
+[	899	900	O
+2,10	900	904	O
+]	904	905	O
+.	905	906	O
+
+One	907	910	O
+of	911	913	O
+the	914	917	O
+principle	918	927	O
+types	928	933	O
+of	934	936	O
+second	937	943	B-Material
+phase	944	949	I-Material
+particle	950	958	I-Material
+that	959	963	O
+is	964	966	O
+important	967	976	O
+to	977	979	O
+the	980	983	O
+corrosion	984	993	B-Process
+behaviour	994	1003	I-Process
+of	1004	1006	O
+the	1007	1010	O
+alloy	1011	1016	O
+is	1017	1019	O
+the	1020	1023	O
+S	1024	1025	B-Material
+phase	1026	1031	I-Material
+(	1032	1033	O
+Al2CuMg	1033	1040	B-Material
+)	1040	1041	O
+particle	1042	1050	O
+[	1051	1052	O
+1,11	1052	1056	O
+]	1056	1057	O
+.	1057	1058	O
+
+Dealloying	1059	1069	O
+of	1070	1072	O
+S	1073	1074	B-Material
+phase	1075	1080	I-Material
+particles	1081	1090	I-Material
+,	1090	1091	O
+which	1092	1097	O
+may	1098	1101	O
+account	1102	1109	O
+for	1110	1113	O
+∼60	1114	1117	O
+%	1117	1118	O
+of	1119	1121	O
+the	1122	1125	O
+constituent	1126	1137	B-Material
+particles	1138	1147	I-Material
+in	1148	1150	O
+
+AA2024	1151	1157	B-Material
+alloys	1158	1164	I-Material
+[	1165	1166	O
+11	1166	1168	O
+]	1168	1169	O
+,	1169	1170	O
+is	1171	1173	O
+commonly	1174	1182	O
+observed	1183	1191	O
+when	1192	1196	O
+the	1197	1200	O
+alloy	1201	1206	B-Material
+is	1207	1209	O
+exposed	1210	1217	O
+to	1218	1220	O
+an	1221	1223	O
+aggressive	1224	1234	O
+environment	1235	1246	O
+.	1246	1247	O
+
+The	1248	1251	O
+particles	1252	1261	B-Material
+are	1262	1265	O
+considered	1266	1276	O
+as	1277	1279	O
+important	1280	1289	O
+initiation	1290	1300	O
+sites	1301	1306	O
+for	1307	1310	O
+severe	1311	1317	O
+localized	1318	1327	O
+corrosion	1328	1337	B-Process
+in	1338	1340	O
+the	1341	1344	O
+alloy	1345	1350	B-Material
+[	1351	1352	O
+11–22	1352	1357	O
+]	1357	1358	O
+.	1358	1359	O
+
+The	1360	1363	O
+dealloying	1364	1374	B-Process
+of	1375	1377	O
+the	1378	1381	O
+S	1382	1383	B-Material
+phase	1384	1389	I-Material
+particles	1390	1399	I-Material
+and	1400	1403	O
+the	1404	1407	O
+resulting	1408	1417	O
+enrichment	1418	1428	B-Process
+of	1429	1431	O
+copper	1432	1438	B-Material
+result	1439	1445	O
+in	1446	1448	O
+a	1449	1450	O
+decrease	1451	1459	B-Process
+of	1460	1462	I-Process
+the	1463	1466	I-Process
+Volta	1467	1472	I-Process
+potential	1473	1482	I-Process
+with	1483	1487	O
+respect	1488	1495	O
+to	1496	1498	O
+the	1499	1502	O
+matrix	1503	1509	O
+and	1510	1513	O
+hence	1514	1519	O
+the	1520	1523	O
+dealloyed	1524	1533	B-Material
+particles	1534	1543	I-Material
+become	1544	1550	O
+active	1551	1557	O
+cathodic	1558	1566	B-Material
+sites	1567	1572	I-Material
+[	1573	1574	O
+23–25	1574	1579	O
+]	1579	1580	O
+.	1580	1581	O
 
 
 -DOCSTART- (S0011227514002136)
 
-Measuring	NN	O	B-Task
-and	NN	O	I-Task
-analysing	NN	O	I-Task
-the	NN	O	I-Task
-hold	NN	O	I-Task
-time	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-CPA	NN	O	I-Task
-pill	NN	O	I-Task
-allows	NN	O	O
-the	NN	O	O
-thermal	NN	O	B-Process
-boundary	NN	O	I-Process
-resistance	NN	O	I-Process
-within	NN	O	O
-the	NN	O	O
-pill	NN	O	B-Material
-to	NN	O	O
-be	NN	O	O
-assessed	NN	O	O
-;	NN	O	O
-the	NN	O	O
-thermal	NN	O	B-Process
-boundary	NN	O	I-Process
-dictates	NN	O	O
-the	NN	O	O
-actual	NN	O	O
-temperature	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-CPA	NN	O	B-Material
-crystals	NN	O	I-Material
-in	NN	O	O
-comparison	NN	O	O
-to	NN	O	O
-the	NN	O	O
-temperature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-cold	NN	O	B-Material
-finger	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-maintained	NN	O	O
-at	NN	O	O
-a	NN	O	O
-constant	NN	O	O
-temperature	NN	O	O
-by	NN	O	O
-a	NN	O	O
-servo	NN	O	B-Process
-control	NN	O	I-Process
-program	NN	O	I-Process
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-17	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-temperature	NN	O	O
-profile	NN	O	O
-during	NN	O	O
-the	NN	O	O
-recycling	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-CPA	NN	O	B-Material
-pill	NN	O	I-Material
-and	NN	O	O
-subsequent	NN	O	O
-operation	NN	O	B-Process
-at	NN	O	I-Process
-200mK.	NN	O	I-Process
-
-During	NN	O	O
-the	NN	O	O
-hold	NN	O	O
-time	NN	O	O
-,	NN	O	O
-the	NN	O	O
-servo	NN	O	B-Process
-control	NN	O	I-Process
-program	NN	O	I-Process
-maintained	NN	O	O
-the	NN	O	O
-CPA	NN	O	B-Material
-pill	NN	O	I-Material
-temperature	NN	O	O
-to	NN	O	O
-within	NN	O	O
-a	NN	O	O
-millikelvin	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-expected	NN	O	O
-that	NN	O	O
-microkelvin	NN	O	B-Process
-stability	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-achieved	NN	O	O
-with	NN	O	O
-fast	NN	O	B-Process
-read	NN	O	I-Process
--	NN	O	I-Process
-out	NN	O	I-Process
-thermometry	NN	O	I-Process
-(	NN	O	O
-which	NN	O	O
-was	NN	O	O
-not	NN	O	O
-available	NN	O	O
-at	NN	O	O
-the	NN	O	O
-time	NN	O	O
-of	NN	O	O
-testing	NN	O	O
-but	NN	O	O
-which	NN	O	O
-will	NN	O	O
-be	NN	O	O
-used	NN	O	O
-for	NN	O	O
-the	NN	O	O
-mKCC	NN	O	B-Task
-)	NN	O	O
-,	NN	O	O
-as	NN	O	O
-this	NN	O	O
-would	NN	O	O
-allow	NN	O	O
-for	NN	O	O
-temperature	NN	O	O
-control	NN	O	O
-on	NN	O	O
-much	NN	O	O
-faster	NN	O	O
-(	NN	O	O
-millisecond	NN	O	O
-)	NN	O	O
-timescales	NN	O	O
-than	NN	O	O
-the	NN	O	O
-current	NN	O	O
-(	NN	O	O
-approximately	NN	O	O
-1s	NN	O	O
-)	NN	O	O
-thermometry	NN	O	O
-readout	NN	O	O
-used	NN	O	O
-.	NN	O	O
+Measuring	0	9	B-Task
+and	10	13	I-Task
+analysing	14	23	I-Task
+the	24	27	I-Task
+hold	28	32	I-Task
+time	33	37	I-Task
+of	38	40	I-Task
+the	41	44	I-Task
+CPA	45	48	I-Task
+pill	49	53	I-Task
+allows	54	60	O
+the	61	64	O
+thermal	65	72	B-Process
+boundary	73	81	I-Process
+resistance	82	92	I-Process
+within	93	99	O
+the	100	103	O
+pill	104	108	B-Material
+to	109	111	O
+be	112	114	O
+assessed	115	123	O
+;	123	124	O
+the	125	128	O
+thermal	129	136	B-Process
+boundary	137	145	I-Process
+dictates	146	154	O
+the	155	158	O
+actual	159	165	O
+temperature	166	177	B-Process
+of	178	180	O
+the	181	184	O
+CPA	185	188	B-Material
+crystals	189	197	I-Material
+in	198	200	O
+comparison	201	211	O
+to	212	214	O
+the	215	218	O
+temperature	219	230	O
+of	231	233	O
+the	234	237	O
+cold	238	242	B-Material
+finger	243	249	I-Material
+,	249	250	O
+which	251	256	O
+is	257	259	O
+maintained	260	270	O
+at	271	273	O
+a	274	275	O
+constant	276	284	O
+temperature	285	296	O
+by	297	299	O
+a	300	301	O
+servo	302	307	B-Process
+control	308	315	I-Process
+program	316	323	I-Process
+.	323	324	O
+
+Fig	325	328	O
+.	328	329	O
+
+17	330	332	O
+shows	333	338	O
+the	339	342	O
+temperature	343	354	O
+profile	355	362	O
+during	363	369	O
+the	370	373	O
+recycling	374	383	B-Process
+of	384	386	O
+the	387	390	O
+CPA	391	394	B-Material
+pill	395	399	I-Material
+and	400	403	O
+subsequent	404	414	O
+operation	415	424	B-Process
+at	425	427	I-Process
+200mK.	428	434	I-Process
+
+During	435	441	O
+the	442	445	O
+hold	446	450	O
+time	451	455	O
+,	455	456	O
+the	457	460	O
+servo	461	466	B-Process
+control	467	474	I-Process
+program	475	482	I-Process
+maintained	483	493	O
+the	494	497	O
+CPA	498	501	B-Material
+pill	502	506	I-Material
+temperature	507	518	O
+to	519	521	O
+within	522	528	O
+a	529	530	O
+millikelvin	531	542	O
+.	542	543	O
+
+It	544	546	O
+is	547	549	O
+expected	550	558	O
+that	559	563	O
+microkelvin	564	575	B-Process
+stability	576	585	I-Process
+can	586	589	O
+be	590	592	O
+achieved	593	601	O
+with	602	606	O
+fast	607	611	B-Process
+read	612	616	I-Process
+-	616	617	I-Process
+out	617	620	I-Process
+thermometry	621	632	I-Process
+(	633	634	O
+which	634	639	O
+was	640	643	O
+not	644	647	O
+available	648	657	O
+at	658	660	O
+the	661	664	O
+time	665	669	O
+of	670	672	O
+testing	673	680	O
+but	681	684	O
+which	685	690	O
+will	691	695	O
+be	696	698	O
+used	699	703	O
+for	704	707	O
+the	708	711	O
+mKCC	712	716	B-Task
+)	716	717	O
+,	717	718	O
+as	719	721	O
+this	722	726	O
+would	727	732	O
+allow	733	738	O
+for	739	742	O
+temperature	743	754	O
+control	755	762	O
+on	763	765	O
+much	766	770	O
+faster	771	777	O
+(	778	779	O
+millisecond	779	790	O
+)	790	791	O
+timescales	792	802	O
+than	803	807	O
+the	808	811	O
+current	812	819	O
+(	820	821	O
+approximately	821	834	O
+1s	835	837	O
+)	837	838	O
+thermometry	839	850	O
+readout	851	858	O
+used	859	863	O
+.	863	864	O
 
 
 -DOCSTART- (S0011227515000648)
 
-The	NN	O	O
-product	NN	O	B-Process
-change	NN	O	I-Process
-between	NN	O	O
-batches	NN	O	B-Material
-#	NN	O	I-Material
-1/#2	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-others	NN	O	O
-is	NN	O	O
-the	NN	O	O
-most	NN	O	O
-influential	NN	O	O
-on	NN	O	O
-the	NN	O	O
-test	NN	O	O
-results	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-redesign	NN	O	O
-and	NN	O	O
-upgrade	NN	O	O
-to	NN	O	O
-110-nm	NN	O	B-Process
-process	NN	O	I-Process
-technology	NN	O	I-Process
-reduces	NN	O	O
-the	NN	O	O
-pass	NN	O	O
-rate	NN	O	O
-at	NN	O	O
-LNT	NN	O	B-Material
-by	NN	O	O
-approximately	NN	O	O
-half	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-mainly	NN	O	O
-caused	NN	O	O
-by	NN	O	O
-the	NN	O	O
-increased	NN	O	O
-incidence	NN	O	O
-of	NN	O	O
-erase	NN	O	B-Process
-and	NN	O	I-Process
-program	NN	O	I-Process
-timeouts	NN	O	I-Process
-with	NN	O	O
-some	NN	O	O
-contribution	NN	O	O
-from	NN	O	O
-long	NN	O	B-Process
-erase	NN	O	I-Process
-and	NN	O	O
-program	NN	O	B-Process
-times	NN	O	I-Process
-and	NN	O	O
-bit	NN	O	B-Process
-errors	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-difference	NN	O	O
-in	NN	O	O
-pass	NN	O	B-Process
-rates	NN	O	I-Process
-at	NN	O	O
-88	NN	O	O
-K	NN	O	O
-between	NN	O	O
-batches	NN	O	B-Material
-#	NN	O	I-Material
-3/#4	NN	O	I-Material
-and	NN	O	O
-#	NN	O	B-Material
-5/#6	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-use	NN	O	O
-the	NN	O	O
-same	NN	O	O
-process	NN	O	B-Process
-technology	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-same	NN	O	O
-dimensions	NN	O	O
-,	NN	O	O
-can	NN	O	O
-be	NN	O	O
-explained	NN	O	O
-by	NN	O	O
-the	NN	O	O
-fabrication	NN	O	O
-in	NN	O	O
-different	NN	O	O
-assembly	NN	O	B-Process
-lines	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-other	NN	O	O
-processes	NN	O	O
-or	NN	O	O
-base	NN	O	O
-materials	NN	O	O
-may	NN	O	O
-have	NN	O	O
-been	NN	O	O
-changed	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-means	NN	O	O
-different	NN	O	O
-tolerances	NN	O	B-Process
-in	NN	O	O
-base	NN	O	O
-materials	NN	O	O
-and	NN	O	O
-production	NN	O	O
-process	NN	O	O
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-more	NN	O	O
-pronounced	NN	O	O
-the	NN	O	O
-lower	NN	O	O
-the	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
-
-Some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-differences	NN	O	O
-of	NN	O	O
-technology	NN	O	O
-scale	NN	O	O
-may	NN	O	O
-reflect	NN	O	O
-shifts	NN	O	O
-in	NN	O	O
-transistor	NN	O	B-Process
-parameters	NN	O	I-Process
-such	NN	O	O
-as	NN	O	O
-transconductance	NN	O	B-Process
-/	NN	O	I-Process
-gain	NN	O	I-Process
-,	NN	O	O
-threshold	NN	O	B-Process
-voltage	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-threshold	NN	O	B-Process
-slope	NN	O	I-Process
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+product	4	11	B-Process
+change	12	18	I-Process
+between	19	26	O
+batches	27	34	B-Material
+#	35	36	I-Material
+1/#2	36	40	I-Material
+and	41	44	O
+the	45	48	O
+others	49	55	O
+is	56	58	O
+the	59	62	O
+most	63	67	O
+influential	68	79	O
+on	80	82	O
+the	83	86	O
+test	87	91	O
+results	92	99	O
+.	99	100	O
+
+The	101	104	O
+redesign	105	113	O
+and	114	117	O
+upgrade	118	125	O
+to	126	128	O
+110-nm	129	135	B-Process
+process	136	143	I-Process
+technology	144	154	I-Process
+reduces	155	162	O
+the	163	166	O
+pass	167	171	O
+rate	172	176	O
+at	177	179	O
+LNT	180	183	B-Material
+by	184	186	O
+approximately	187	200	O
+half	201	205	O
+.	205	206	O
+
+This	207	211	O
+is	212	214	O
+mainly	215	221	O
+caused	222	228	O
+by	229	231	O
+the	232	235	O
+increased	236	245	O
+incidence	246	255	O
+of	256	258	O
+erase	259	264	B-Process
+and	265	268	I-Process
+program	269	276	I-Process
+timeouts	277	285	I-Process
+with	286	290	O
+some	291	295	O
+contribution	296	308	O
+from	309	313	O
+long	314	318	B-Process
+erase	319	324	I-Process
+and	325	328	O
+program	329	336	B-Process
+times	337	342	I-Process
+and	343	346	O
+bit	347	350	B-Process
+errors	351	357	I-Process
+.	357	358	O
+
+The	359	362	O
+difference	363	373	O
+in	374	376	O
+pass	377	381	B-Process
+rates	382	387	I-Process
+at	388	390	O
+88	391	393	O
+K	393	394	O
+between	395	402	O
+batches	403	410	B-Material
+#	411	412	I-Material
+3/#4	412	416	I-Material
+and	417	420	O
+#	421	422	B-Material
+5/#6	422	426	I-Material
+,	426	427	O
+which	428	433	O
+use	434	437	O
+the	438	441	O
+same	442	446	O
+process	447	454	B-Process
+technology	455	465	I-Process
+with	466	470	O
+the	471	474	O
+same	475	479	O
+dimensions	480	490	O
+,	490	491	O
+can	492	495	O
+be	496	498	O
+explained	499	508	O
+by	509	511	O
+the	512	515	O
+fabrication	516	527	O
+in	528	530	O
+different	531	540	O
+assembly	541	549	B-Process
+lines	550	555	I-Process
+,	555	556	O
+where	557	562	O
+other	563	568	O
+processes	569	578	O
+or	579	581	O
+base	582	586	O
+materials	587	596	O
+may	597	600	O
+have	601	605	O
+been	606	610	O
+changed	611	618	O
+.	618	619	O
+
+This	620	624	O
+means	625	630	O
+different	631	640	O
+tolerances	641	651	B-Process
+in	652	654	O
+base	655	659	O
+materials	660	669	O
+and	670	673	O
+production	674	684	O
+process	685	692	O
+,	692	693	O
+which	694	699	O
+are	700	703	O
+more	704	708	O
+pronounced	709	719	O
+the	720	723	O
+lower	724	729	O
+the	730	733	O
+temperature	734	745	O
+.	745	746	O
+
+Some	747	751	O
+of	752	754	O
+the	755	758	O
+differences	759	770	O
+of	771	773	O
+technology	774	784	O
+scale	785	790	O
+may	791	794	O
+reflect	795	802	O
+shifts	803	809	O
+in	810	812	O
+transistor	813	823	B-Process
+parameters	824	834	I-Process
+such	835	839	O
+as	840	842	O
+transconductance	843	859	B-Process
+/	859	860	I-Process
+gain	860	864	I-Process
+,	864	865	O
+threshold	866	875	B-Process
+voltage	876	883	I-Process
+,	883	884	O
+and	885	888	O
+threshold	889	898	B-Process
+slope	899	904	I-Process
+[	905	906	O
+7	906	907	O
+]	907	908	O
+.	908	909	O
 
 
 -DOCSTART- (S0011227515001216)
 
-Prior	NN	O	O
-to	NN	O	O
-assembling	NN	O	B-Task
-the	NN	O	I-Task
-miniature	NN	O	I-Task
-ADR	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-mKCC	NN	O	B-Material
-MR	NN	O	I-Material
-heat	NN	O	I-Material
-switch	NN	O	I-Material
-could	NN	O	O
-not	NN	O	O
-be	NN	O	O
-fully	NN	O	O
-thermally	NN	O	B-Process
-characterised	NN	O	I-Process
-due	NN	O	O
-to	NN	O	O
-cryostat	NN	O	B-Material
-constraints	NN	O	I-Material
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-based	NN	O	O
-on	NN	O	O
-experiments	NN	O	O
-and	NN	O	O
-research	NN	O	O
-conducted	NN	O	O
-at	NN	O	O
-MSSL	NN	O	O
-on	NN	O	O
-a	NN	O	O
-range	NN	O	O
-of	NN	O	O
-tungsten	NN	O	B-Material
-heat	NN	O	I-Material
-switches	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-thermal	NN	O	B-Process
-conductivity	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-estimated	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-Hills	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-,	NN	O	O
-an	NN	O	O
-equation	NN	O	O
-is	NN	O	O
-derived	NN	O	O
-which	NN	O	O
-allows	NN	O	O
-the	NN	O	O
-thermal	NN	O	B-Process
-conductivity	NN	O	I-Process
-(	NN	O	O
-κ	NN	O	B-Process
-)	NN	O	O
-below	NN	O	O
-6	NN	O	O
-K	NN	O	O
-to	NN	O	O
-be	NN	O	O
-calculated	NN	O	O
-as	NN	O	O
-a	NN	O	O
-function	NN	O	O
-of	NN	O	O
-magnetic	NN	O	B-Process
-field	NN	O	I-Process
-(	NN	O	O
-B	NN	O	B-Process
-)	NN	O	O
-and	NN	O	O
-temperature	NN	O	O
-(	NN	O	O
-T	NN	O	O
-)	NN	O	O
-(	NN	O	O
-see	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-estimate	NN	O	O
-the	NN	O	O
-performance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-mKCC	NN	O	B-Material
-heat	NN	O	I-Material
-switch	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-parameters	NN	O	O
-in	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-have	NN	O	O
-been	NN	O	O
-taken	NN	O	O
-from	NN	O	O
-the	NN	O	O
-measured	NN	O	O
-thermal	NN	O	B-Process
-conductivity	NN	O	I-Process
-of	NN	O	O
-another	NN	O	O
-MSSL	NN	O	B-Material
-heat	NN	O	I-Material
-switch	NN	O	I-Material
-with	NN	O	O
-the	NN	O	O
-same	NN	O	O
-1.5	NN	O	O
-mm	NN	O	O
-square	NN	O	O
-cross	NN	O	O
-section	NN	O	O
-,	NN	O	O
-a	NN	O	O
-free	NN	O	O
-path	NN	O	O
-length	NN	O	O
-of	NN	O	O
-43	NN	O	O
-cm	NN	O	O
-and	NN	O	O
-a	NN	O	O
-RRR	NN	O	O
-of	NN	O	O
-20,000	NN	O	O
-;	NN	O	O
-it	NN	O	O
-has	NN	O	O
-been	NN	O	O
-observed	NN	O	O
-from	NN	O	O
-experiments	NN	O	O
-conducted	NN	O	O
-at	NN	O	O
-MSSL	NN	O	O
-that	NN	O	O
-there	NN	O	O
-is	NN	O	O
-little	NN	O	O
-change	NN	O	O
-in	NN	O	O
-the	NN	O	O
-thermal	NN	O	B-Process
-performance	NN	O	I-Process
-for	NN	O	O
-tungsten	NN	O	B-Material
-heat	NN	O	I-Material
-switches	NN	O	I-Material
-with	NN	O	O
-a	NN	O	O
-RRR	NN	O	O
-between	NN	O	O
-20,000	NN	O	O
-and	NN	O	O
-32,000	NN	O	O
-(	NN	O	O
-subject	NN	O	O
-of	NN	O	O
-a	NN	O	O
-future	NN	O	O
-publication	NN	O	O
-)	NN	O	O
-and	NN	O	O
-therefore	NN	O	O
-the	NN	O	O
-performance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-20,000	NN	O	B-Material
-RRR	NN	O	I-Material
-heat	NN	O	I-Material
-switch	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-assumed	NN	O	O
-to	NN	O	O
-be	NN	O	O
-a	NN	O	O
-good	NN	O	O
-approximation	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-5	NN	O	O
-gives	NN	O	O
-the	NN	O	O
-calculated	NN	O	O
-thermal	NN	O	B-Process
-conductivity	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-mKCC	NN	O	B-Material
-switch	NN	O	I-Material
-at	NN	O	O
-0	NN	O	O
-,	NN	O	O
-1	NN	O	O
-,	NN	O	O
-2	NN	O	O
-and	NN	O	O
-3	NN	O	O
-T	NN	O	O
-based	NN	O	O
-on	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-constants	NN	O	O
-b0	NN	O	O
-,	NN	O	O
-a1	NN	O	O
-,	NN	O	O
-a2	NN	O	O
-,	NN	O	O
-a3	NN	O	O
-,	NN	O	O
-a4	NN	O	O
-and	NN	O	O
-n	NN	O	O
-have	NN	O	O
-the	NN	O	O
-values	NN	O	O
-0.0328	NN	O	O
-,	NN	O	O
-1.19×10−4	NN	O	O
-,	NN	O	O
-3.57×10−6	NN	O	O
-,	NN	O	O
-1.36	NN	O	O
-,	NN	O	O
-0.000968	NN	O	O
-and	NN	O	O
-1.7	NN	O	O
-respectively	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-should	NN	O	O
-be	NN	O	O
-noted	NN	O	O
-that	NN	O	O
-the	NN	O	O
-calculated	NN	O	O
-thermal	NN	O	B-Process
-conductivity	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-mKCC	NN	O	B-Material
-switch	NN	O	I-Material
-presented	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-5	NN	O	O
-has	NN	O	O
-been	NN	O	O
-validated	NN	O	O
-by	NN	O	O
-comparing	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-results	NN	O	O
-of	NN	O	O
-the	NN	O	O
-miniature	NN	O	B-Material
-ADR	NN	O	I-Material
-with	NN	O	O
-modelled	NN	O	O
-predictions	NN	O	O
-(	NN	O	O
-this	NN	O	O
-is	NN	O	O
-discussed	NN	O	O
-in	NN	O	O
-Section	NN	O	O
-3.3).(1)κ(T)=b0T2	NN	O	O
-+	NN	O	O
-1a1+a2T2T+Bna3T+a4T4	NN	O	O
+Prior	0	5	O
+to	6	8	O
+assembling	9	19	B-Task
+the	20	23	I-Task
+miniature	24	33	I-Task
+ADR	34	37	I-Task
+,	37	38	O
+the	39	42	O
+mKCC	43	47	B-Material
+MR	48	50	I-Material
+heat	51	55	I-Material
+switch	56	62	I-Material
+could	63	68	O
+not	69	72	O
+be	73	75	O
+fully	76	81	O
+thermally	82	91	B-Process
+characterised	92	105	I-Process
+due	106	109	O
+to	110	112	O
+cryostat	113	121	B-Material
+constraints	122	133	I-Material
+.	133	134	O
+
+However	135	142	O
+,	142	143	O
+based	144	149	O
+on	150	152	O
+experiments	153	164	O
+and	165	168	O
+research	169	177	O
+conducted	178	187	O
+at	188	190	O
+MSSL	191	195	O
+on	196	198	O
+a	199	200	O
+range	201	206	O
+of	207	209	O
+tungsten	210	218	B-Material
+heat	219	223	I-Material
+switches	224	232	I-Material
+,	232	233	O
+the	234	237	O
+thermal	238	245	B-Process
+conductivity	246	258	I-Process
+has	259	262	O
+been	263	267	O
+estimated	268	277	O
+.	277	278	O
+
+In	279	281	O
+Hills	282	287	O
+et	288	290	O
+al	291	293	O
+.	293	294	O
+
+[	295	296	O
+8	296	297	O
+]	297	298	O
+,	298	299	O
+an	300	302	O
+equation	303	311	O
+is	312	314	O
+derived	315	322	O
+which	323	328	O
+allows	329	335	O
+the	336	339	O
+thermal	340	347	B-Process
+conductivity	348	360	I-Process
+(	361	362	O
+κ	362	363	B-Process
+)	363	364	O
+below	365	370	O
+6	371	372	O
+K	372	373	O
+to	374	376	O
+be	377	379	O
+calculated	380	390	O
+as	391	393	O
+a	394	395	O
+function	396	404	O
+of	405	407	O
+magnetic	408	416	B-Process
+field	417	422	I-Process
+(	423	424	O
+B	424	425	B-Process
+)	425	426	O
+and	427	430	O
+temperature	431	442	O
+(	443	444	O
+T	444	445	O
+)	445	446	O
+(	447	448	O
+see	448	451	O
+Eq	452	454	O
+.	454	455	O
+
+(	456	457	O
+1	457	458	O
+)	458	459	O
+)	459	460	O
+.	460	461	O
+
+To	462	464	O
+estimate	465	473	O
+the	474	477	O
+performance	478	489	O
+of	490	492	O
+the	493	496	O
+mKCC	497	501	B-Material
+heat	502	506	I-Material
+switch	507	513	I-Material
+,	513	514	O
+the	515	518	O
+parameters	519	529	O
+in	530	532	O
+Eq	533	535	O
+.	535	536	O
+
+(	537	538	O
+1	538	539	O
+)	539	540	O
+have	541	545	O
+been	546	550	O
+taken	551	556	O
+from	557	561	O
+the	562	565	O
+measured	566	574	O
+thermal	575	582	B-Process
+conductivity	583	595	I-Process
+of	596	598	O
+another	599	606	O
+MSSL	607	611	B-Material
+heat	612	616	I-Material
+switch	617	623	I-Material
+with	624	628	O
+the	629	632	O
+same	633	637	O
+1.5	638	641	O
+mm	641	643	O
+square	644	650	O
+cross	651	656	O
+section	657	664	O
+,	664	665	O
+a	666	667	O
+free	668	672	O
+path	673	677	O
+length	678	684	O
+of	685	687	O
+43	688	690	O
+cm	690	692	O
+and	693	696	O
+a	697	698	O
+RRR	699	702	O
+of	703	705	O
+20,000	706	712	O
+;	712	713	O
+it	714	716	O
+has	717	720	O
+been	721	725	O
+observed	726	734	O
+from	735	739	O
+experiments	740	751	O
+conducted	752	761	O
+at	762	764	O
+MSSL	765	769	O
+that	770	774	O
+there	775	780	O
+is	781	783	O
+little	784	790	O
+change	791	797	O
+in	798	800	O
+the	801	804	O
+thermal	805	812	B-Process
+performance	813	824	I-Process
+for	825	828	O
+tungsten	829	837	B-Material
+heat	838	842	I-Material
+switches	843	851	I-Material
+with	852	856	O
+a	857	858	O
+RRR	859	862	O
+between	863	870	O
+20,000	871	877	O
+and	878	881	O
+32,000	882	888	O
+(	889	890	O
+subject	890	897	O
+of	898	900	O
+a	901	902	O
+future	903	909	O
+publication	910	921	O
+)	921	922	O
+and	923	926	O
+therefore	927	936	O
+the	937	940	O
+performance	941	952	O
+of	953	955	O
+the	956	959	O
+20,000	960	966	B-Material
+RRR	967	970	I-Material
+heat	971	975	I-Material
+switch	976	982	I-Material
+has	983	986	O
+been	987	991	O
+assumed	992	999	O
+to	1000	1002	O
+be	1003	1005	O
+a	1006	1007	O
+good	1008	1012	O
+approximation	1013	1026	O
+.	1026	1027	O
+
+Fig	1028	1031	O
+.	1031	1032	O
+
+5	1033	1034	O
+gives	1035	1040	O
+the	1041	1044	O
+calculated	1045	1055	O
+thermal	1056	1063	B-Process
+conductivity	1064	1076	I-Process
+of	1077	1079	O
+the	1080	1083	O
+mKCC	1084	1088	B-Material
+switch	1089	1095	I-Material
+at	1096	1098	O
+0	1099	1100	O
+,	1100	1101	O
+1	1102	1103	O
+,	1103	1104	O
+2	1105	1106	O
+and	1107	1110	O
+3	1111	1112	O
+T	1112	1113	O
+based	1114	1119	O
+on	1120	1122	O
+Eq	1123	1125	O
+.	1125	1126	O
+
+(	1127	1128	O
+1	1128	1129	O
+)	1129	1130	O
+,	1130	1131	O
+where	1132	1137	O
+the	1138	1141	O
+constants	1142	1151	O
+b0	1152	1154	O
+,	1154	1155	O
+a1	1156	1158	O
+,	1158	1159	O
+a2	1160	1162	O
+,	1162	1163	O
+a3	1164	1166	O
+,	1166	1167	O
+a4	1168	1170	O
+and	1171	1174	O
+n	1175	1176	O
+have	1177	1181	O
+the	1182	1185	O
+values	1186	1192	O
+0.0328	1193	1199	O
+,	1199	1200	O
+1.19×10−4	1201	1210	O
+,	1210	1211	O
+3.57×10−6	1212	1221	O
+,	1221	1222	O
+1.36	1223	1227	O
+,	1227	1228	O
+0.000968	1229	1237	O
+and	1238	1241	O
+1.7	1242	1245	O
+respectively	1246	1258	O
+.	1258	1259	O
+
+It	1260	1262	O
+should	1263	1269	O
+be	1270	1272	O
+noted	1273	1278	O
+that	1279	1283	O
+the	1284	1287	O
+calculated	1288	1298	O
+thermal	1299	1306	B-Process
+conductivity	1307	1319	I-Process
+of	1320	1322	O
+the	1323	1326	O
+mKCC	1327	1331	B-Material
+switch	1332	1338	I-Material
+presented	1339	1348	O
+in	1349	1351	O
+Fig	1352	1355	O
+.	1355	1356	O
+5	1357	1358	O
+has	1359	1362	O
+been	1363	1367	O
+validated	1368	1377	O
+by	1378	1380	O
+comparing	1381	1390	O
+the	1391	1394	O
+experimental	1395	1407	O
+results	1408	1415	O
+of	1416	1418	O
+the	1419	1422	O
+miniature	1423	1432	B-Material
+ADR	1433	1436	I-Material
+with	1437	1441	O
+modelled	1442	1450	O
+predictions	1451	1462	O
+(	1463	1464	O
+this	1464	1468	O
+is	1469	1471	O
+discussed	1472	1481	O
+in	1482	1484	O
+Section	1485	1492	O
+3.3).(1)κ(T)=b0T2	1493	1510	O
++	1510	1511	O
+1a1+a2T2T+Bna3T+a4T4	1511	1531	O
 
 
 -DOCSTART- (S002002551630384X)
 
-An	NN	O	O
-early	NN	O	O
-attempt	NN	O	O
-to	NN	O	O
-combine	NN	O	B-Task
-sets	NN	O	I-Task
-and	NN	O	I-Task
-networks	NN	O	I-Task
-in	NN	O	I-Task
-a	NN	O	I-Task
-single	NN	O	I-Task
-visualization	NN	O	I-Task
-relied	NN	O	O
-on	NN	O	O
-first	NN	O	O
-drawing	NN	O	O
-an	NN	O	O
-Euler	NN	O	B-Process
-diagram	NN	O	I-Process
-then	NN	O	O
-placing	NN	O	O
-a	NN	O	O
-graph	NN	O	O
-inside	NN	O	O
-it	NN	O	O
-[	NN	O	O
-30	NN	O	O
-]	NN	O	O
-,	NN	O	O
-however	NN	O	O
-the	NN	O	O
-sets	NN	O	O
-were	NN	O	O
-often	NN	O	O
-visualized	NN	O	O
-with	NN	O	O
-convoluted	NN	O	O
-,	NN	O	O
-difficult	NN	O	O
-to	NN	O	O
-follow	NN	O	O
-curves	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-only	NN	O	O
-limited	NN	O	O
-kinds	NN	O	O
-of	NN	O	O
-set	NN	O	O
-data	NN	O	O
-could	NN	O	O
-be	NN	O	O
-shown	NN	O	O
-as	NN	O	O
-the	NN	O	O
-system	NN	O	O
-was	NN	O	O
-limited	NN	O	O
-to	NN	O	O
-well	NN	O	O
--	NN	O	O
-formed	NN	O	O
-Euler	NN	O	B-Process
-diagrams	NN	O	I-Process
-.	NN	O	O
-
-Compound	NN	O	B-Material
-graphs	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-represent	NN	O	O
-restricted	NN	O	O
-kinds	NN	O	O
-of	NN	O	O
-grouped	NN	O	O
-network	NN	O	B-Material
-data	NN	O	I-Material
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Graph	NN	O	B-Material
-clusters	NN	O	I-Material
-are	NN	O	O
-visualized	NN	O	O
-with	NN	O	O
-transparent	NN	O	B-Process
-hulls	NN	O	I-Process
-by	NN	O	O
-Santamaria	NN	O	O
-and	NN	O	O
-Theron	NN	O	O
-[	NN	O	O
-39	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-technique	NN	O	O
-removes	NN	O	O
-edges	NN	O	O
-from	NN	O	O
-the	NN	O	O
-graph	NN	O	O
-and	NN	O	O
-it	NN	O	O
-is	NN	O	O
-not	NN	O	O
-sufficiently	NN	O	O
-sophisticated	NN	O	O
-for	NN	O	O
-arbitrary	NN	O	O
-overlapping	NN	O	O
-sets	NN	O	O
-.	NN	O	O
-
-Itoh	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-proposed	NN	O	O
-to	NN	O	O
-overlay	NN	O	O
-pie	NN	O	O
--	NN	O	O
-like	NN	O	O
-glyphs	NN	O	B-Material
-over	NN	O	O
-the	NN	O	O
-nodes	NN	O	O
-in	NN	O	O
-a	NN	O	O
-graph	NN	O	O
-to	NN	O	O
-encode	NN	O	O
-multiple	NN	O	O
-categories	NN	O	O
-.	NN	O	O
-
-Each	NN	O	O
-set	NN	O	O
-is	NN	O	O
-hence	NN	O	O
-represented	NN	O	O
-using	NN	O	O
-disconnected	NN	O	O
-regions	NN	O	O
-that	NN	O	O
-are	NN	O	O
-linked	NN	O	O
-by	NN	O	O
-having	NN	O	O
-the	NN	O	O
-same	NN	O	O
-colour	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-causes	NN	O	O
-difficulties	NN	O	O
-with	NN	O	O
-tasks	NN	O	O
-that	NN	O	O
-involve	NN	O	O
-finding	NN	O	B-Task
-relations	NN	O	I-Task
-between	NN	O	I-Task
-sets	NN	O	I-Task
-such	NN	O	O
-as	NN	O	O
-T1	NN	O	B-Process
-,	NN	O	I-Process
-T3	NN	O	I-Process
-and	NN	O	I-Process
-T4	NN	O	I-Process
-in	NN	O	O
-Section	NN	O	O
-5.3	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-related	NN	O	O
-class	NN	O	O
-of	NN	O	O
-techniques	NN	O	O
-visualize	NN	O	B-Process
-grouping	NN	O	I-Process
-information	NN	O	I-Process
-over	NN	O	I-Process
-graphs	NN	O	I-Process
-using	NN	O	O
-convex	NN	O	B-Process
-hulls	NN	O	I-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-Vizster	NN	O	B-Process
-[	NN	O	O
-22	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-they	NN	O	O
-do	NN	O	O
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-support	NN	O	O
-visualizing	NN	O	O
-set	NN	O	O
-overlaps	NN	O	O
-.	NN	O	O
+An	0	2	O
+early	3	8	O
+attempt	9	16	O
+to	17	19	O
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+sets	28	32	I-Task
+and	33	36	I-Task
+networks	37	45	I-Task
+in	46	48	I-Task
+a	49	50	I-Task
+single	51	57	I-Task
+visualization	58	71	I-Task
+relied	72	78	O
+on	79	81	O
+first	82	87	O
+drawing	88	95	O
+an	96	98	O
+Euler	99	104	B-Process
+diagram	105	112	I-Process
+then	113	117	O
+placing	118	125	O
+a	126	127	O
+graph	128	133	O
+inside	134	140	O
+it	141	143	O
+[	144	145	O
+30	145	147	O
+]	147	148	O
+,	148	149	O
+however	150	157	O
+the	158	161	O
+sets	162	166	O
+were	167	171	O
+often	172	177	O
+visualized	178	188	O
+with	189	193	O
+convoluted	194	204	O
+,	204	205	O
+difficult	206	215	O
+to	216	218	O
+follow	219	225	O
+curves	226	232	O
+.	232	233	O
+
+In	234	236	O
+addition	237	245	O
+,	245	246	O
+only	247	251	O
+limited	252	259	O
+kinds	260	265	O
+of	266	268	O
+set	269	272	O
+data	273	277	O
+could	278	283	O
+be	284	286	O
+shown	287	292	O
+as	293	295	O
+the	296	299	O
+system	300	306	O
+was	307	310	O
+limited	311	318	O
+to	319	321	O
+well	322	326	O
+-	326	327	O
+formed	327	333	O
+Euler	334	339	B-Process
+diagrams	340	348	I-Process
+.	348	349	O
+
+Compound	350	358	B-Material
+graphs	359	365	I-Material
+can	366	369	O
+be	370	372	O
+used	373	377	O
+to	378	380	O
+represent	381	390	O
+restricted	391	401	O
+kinds	402	407	O
+of	408	410	O
+grouped	411	418	O
+network	419	426	B-Material
+data	427	431	I-Material
+[	432	433	O
+8	433	434	O
+]	434	435	O
+.	435	436	O
+
+Graph	437	442	B-Material
+clusters	443	451	I-Material
+are	452	455	O
+visualized	456	466	O
+with	467	471	O
+transparent	472	483	B-Process
+hulls	484	489	I-Process
+by	490	492	O
+Santamaria	493	503	O
+and	504	507	O
+Theron	508	514	O
+[	515	516	O
+39	516	518	O
+]	518	519	O
+.	519	520	O
+
+However	521	528	O
+,	528	529	O
+the	530	533	O
+technique	534	543	O
+removes	544	551	O
+edges	552	557	O
+from	558	562	O
+the	563	566	O
+graph	567	572	O
+and	573	576	O
+it	577	579	O
+is	580	582	O
+not	583	586	O
+sufficiently	587	599	O
+sophisticated	600	613	O
+for	614	617	O
+arbitrary	618	627	O
+overlapping	628	639	O
+sets	640	644	O
+.	644	645	O
+
+Itoh	646	650	O
+et	651	653	O
+al	654	656	O
+.	656	657	O
+
+[	658	659	O
+24	659	661	O
+]	661	662	O
+proposed	663	671	O
+to	672	674	O
+overlay	675	682	O
+pie	683	686	O
+-	686	687	O
+like	687	691	O
+glyphs	692	698	B-Material
+over	699	703	O
+the	704	707	O
+nodes	708	713	O
+in	714	716	O
+a	717	718	O
+graph	719	724	O
+to	725	727	O
+encode	728	734	O
+multiple	735	743	O
+categories	744	754	O
+.	754	755	O
+
+Each	756	760	O
+set	761	764	O
+is	765	767	O
+hence	768	773	O
+represented	774	785	O
+using	786	791	O
+disconnected	792	804	O
+regions	805	812	O
+that	813	817	O
+are	818	821	O
+linked	822	828	O
+by	829	831	O
+having	832	838	O
+the	839	842	O
+same	843	847	O
+colour	848	854	O
+.	854	855	O
+
+This	856	860	O
+causes	861	867	O
+difficulties	868	880	O
+with	881	885	O
+tasks	886	891	O
+that	892	896	O
+involve	897	904	O
+finding	905	912	B-Task
+relations	913	922	I-Task
+between	923	930	I-Task
+sets	931	935	I-Task
+such	936	940	O
+as	941	943	O
+T1	944	946	B-Process
+,	946	947	I-Process
+T3	948	950	I-Process
+and	951	954	I-Process
+T4	955	957	I-Process
+in	958	960	O
+Section	961	968	O
+5.3	969	972	O
+.	972	973	O
+
+A	974	975	O
+related	976	983	O
+class	984	989	O
+of	990	992	O
+techniques	993	1003	O
+visualize	1004	1013	B-Process
+grouping	1014	1022	I-Process
+information	1023	1034	I-Process
+over	1035	1039	I-Process
+graphs	1040	1046	I-Process
+using	1047	1052	O
+convex	1053	1059	B-Process
+hulls	1060	1065	I-Process
+,	1065	1066	O
+such	1067	1071	O
+as	1072	1074	O
+Vizster	1075	1082	B-Process
+[	1083	1084	O
+22	1084	1086	O
+]	1086	1087	O
+.	1087	1088	O
+
+However	1089	1096	O
+,	1096	1097	O
+they	1098	1102	O
+do	1103	1105	O
+not	1106	1109	O
+support	1110	1117	O
+visualizing	1118	1129	O
+set	1130	1133	O
+overlaps	1134	1142	O
+.	1142	1143	O
 
 
 -DOCSTART- (S0021961414003255)
 
-Moreover	NN	O	O
-,	NN	O	O
-one	NN	O	O
-observes	NN	O	O
-segregation	NN	O	B-Process
-effects	NN	O	I-Process
-by	NN	O	O
-the	NN	O	O
-XRD	NN	O	B-Task
-analysis	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-probably	NN	O	O
-took	NN	O	O
-place	NN	O	O
-at	NN	O	O
-high	NN	O	O
-temperature	NN	O	O
-,	NN	O	O
-and	NN	O	O
-were	NN	O	O
-partially	NN	O	O
-quenched	NN	O	B-Process
-to	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-phase	NN	O	O
-analysis	NN	O	O
-showed	NN	O	O
-up	NN	O	O
-to	NN	O	O
-three	NN	O	O
-distinct	NN	O	O
-phases	NN	O	O
-,	NN	O	O
-which	NN	O	O
-should	NN	O	O
-have	NN	O	O
-hence	NN	O	O
-a	NN	O	O
-distinct	NN	O	O
-measurable	NN	O	O
-phase	NN	O	O
-transition	NN	O	O
-temperature	NN	O	O
-,	NN	O	O
-if	NN	O	O
-they	NN	O	O
-crystallise	NN	O	B-Process
-from	NN	O	O
-the	NN	O	O
-liquid	NN	O	B-Material
-on	NN	O	O
-the	NN	O	O
-surface	NN	O	B-Material
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-thermograms	NN	O	B-Process
-these	NN	O	O
-effects	NN	O	O
-are	NN	O	O
-not	NN	O	O
-observable	NN	O	O
-as	NN	O	O
-different	NN	O	O
-solidification	NN	O	B-Process
-arrest	NN	O	I-Process
-or	NN	O	O
-clear	NN	O	B-Process
-inflections	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-proportion	NN	O	O
-of	NN	O	O
-new	NN	O	O
-appearing	NN	O	O
-phases	NN	O	O
-is	NN	O	O
-small	NN	O	O
-and	NN	O	O
-therefore	NN	O	O
-the	NN	O	O
-latent	NN	O	B-Process
-heat	NN	O	I-Process
-released	NN	O	O
-by	NN	O	O
-this	NN	O	O
-new	NN	O	O
-phase	NN	O	O
-will	NN	O	O
-be	NN	O	O
-also	NN	O	O
-small	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-reflected	NN	O	B-Process
-light	NN	O	I-Process
-signal	NN	O	I-Process
-technique	NN	O	I-Process
-only	NN	O	O
-showed	NN	O	O
-one	NN	O	O
-phase	NN	O	B-Process
-change	NN	O	I-Process
-during	NN	O	O
-cooling	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-well	NN	O	O
-,	NN	O	O
-the	NN	O	O
-location	NN	O	O
-of	NN	O	O
-this	NN	O	O
-segregation	NN	O	B-Process
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-determined	NN	O	O
-exactly	NN	O	O
-in	NN	O	O
-the	NN	O	O
-molten	NN	O	B-Material
-pool	NN	O	I-Material
-or	NN	O	O
-later	NN	O	O
-in	NN	O	O
-the	NN	O	O
-re	NN	O	B-Material
--	NN	O	I-Material
-solidified	NN	O	I-Material
-material	NN	O	I-Material
-.	NN	O	O
-
-At	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-temperature	NN	O	O
-is	NN	O	O
-measured	NN	O	O
-,	NN	O	O
-the	NN	O	O
-material	NN	O	B-Task
-analysis	NN	O	I-Task
-by	NN	O	I-Task
-Raman	NN	O	I-Task
-spectroscopy	NN	O	I-Task
-has	NN	O	O
-not	NN	O	O
-shown	NN	O	O
-signs	NN	O	O
-of	NN	O	O
-segregation	NN	O	B-Process
-,	NN	O	O
-so	NN	O	O
-that	NN	O	O
-also	NN	O	O
-the	NN	O	O
-uncertainties	NN	O	O
-in	NN	O	O
-composition	NN	O	O
-for	NN	O	O
-the	NN	O	O
-phase	NN	O	B-Process
-transition	NN	O	I-Process
-are	NN	O	O
-taken	NN	O	O
-from	NN	O	O
-the	NN	O	O
-uncertainties	NN	O	O
-from	NN	O	O
-the	NN	O	O
-XRD	NN	O	B-Task
-analysis	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-most	NN	O	O
-abundant	NN	O	O
-phase	NN	O	O
-at	NN	O	O
-each	NN	O	O
-composition	NN	O	O
-in	NN	O	O
-re	NN	O	B-Material
--	NN	O	I-Material
-solidified	NN	O	I-Material
-material	NN	O	I-Material
-.	NN	O	O
+Moreover	0	8	O
+,	8	9	O
+one	10	13	O
+observes	14	22	O
+segregation	23	34	B-Process
+effects	35	42	I-Process
+by	43	45	O
+the	46	49	O
+XRD	50	53	B-Task
+analysis	54	62	I-Task
+,	62	63	O
+which	64	69	O
+probably	70	78	O
+took	79	83	O
+place	84	89	O
+at	90	92	O
+high	93	97	O
+temperature	98	109	O
+,	109	110	O
+and	111	114	O
+were	115	119	O
+partially	120	129	O
+quenched	130	138	B-Process
+to	139	141	O
+room	142	146	O
+temperature	147	158	O
+.	158	159	O
+
+The	160	163	O
+phase	164	169	O
+analysis	170	178	O
+showed	179	185	O
+up	186	188	O
+to	189	191	O
+three	192	197	O
+distinct	198	206	O
+phases	207	213	O
+,	213	214	O
+which	215	220	O
+should	221	227	O
+have	228	232	O
+hence	233	238	O
+a	239	240	O
+distinct	241	249	O
+measurable	250	260	O
+phase	261	266	O
+transition	267	277	O
+temperature	278	289	O
+,	289	290	O
+if	291	293	O
+they	294	298	O
+crystallise	299	310	B-Process
+from	311	315	O
+the	316	319	O
+liquid	320	326	B-Material
+on	327	329	O
+the	330	333	O
+surface	334	341	B-Material
+.	341	342	O
+
+In	343	345	O
+the	346	349	O
+thermograms	350	361	B-Process
+these	362	367	O
+effects	368	375	O
+are	376	379	O
+not	380	383	O
+observable	384	394	O
+as	395	397	O
+different	398	407	O
+solidification	408	422	B-Process
+arrest	423	429	I-Process
+or	430	432	O
+clear	433	438	B-Process
+inflections	439	450	I-Process
+.	450	451	O
+
+The	452	455	O
+proportion	456	466	O
+of	467	469	O
+new	470	473	O
+appearing	474	483	O
+phases	484	490	O
+is	491	493	O
+small	494	499	O
+and	500	503	O
+therefore	504	513	O
+the	514	517	O
+latent	518	524	B-Process
+heat	525	529	I-Process
+released	530	538	O
+by	539	541	O
+this	542	546	O
+new	547	550	O
+phase	551	556	O
+will	557	561	O
+be	562	564	O
+also	565	569	O
+small	570	575	O
+.	575	576	O
+
+The	577	580	O
+reflected	581	590	B-Process
+light	591	596	I-Process
+signal	597	603	I-Process
+technique	604	613	I-Process
+only	614	618	O
+showed	619	625	O
+one	626	629	O
+phase	630	635	B-Process
+change	636	642	I-Process
+during	643	649	O
+cooling	650	657	O
+.	657	658	O
+
+As	659	661	O
+well	662	666	O
+,	666	667	O
+the	668	671	O
+location	672	680	O
+of	681	683	O
+this	684	688	O
+segregation	689	700	B-Process
+can	701	704	O
+not	704	707	O
+be	708	710	O
+determined	711	721	O
+exactly	722	729	O
+in	730	732	O
+the	733	736	O
+molten	737	743	B-Material
+pool	744	748	I-Material
+or	749	751	O
+later	752	757	O
+in	758	760	O
+the	761	764	O
+re	765	767	B-Material
+-	767	768	I-Material
+solidified	768	778	I-Material
+material	779	787	I-Material
+.	787	788	O
+
+At	789	791	O
+the	792	795	O
+surface	796	803	O
+,	803	804	O
+where	805	810	O
+the	811	814	O
+temperature	815	826	O
+is	827	829	O
+measured	830	838	O
+,	838	839	O
+the	840	843	O
+material	844	852	B-Task
+analysis	853	861	I-Task
+by	862	864	I-Task
+Raman	865	870	I-Task
+spectroscopy	871	883	I-Task
+has	884	887	O
+not	888	891	O
+shown	892	897	O
+signs	898	903	O
+of	904	906	O
+segregation	907	918	B-Process
+,	918	919	O
+so	920	922	O
+that	923	927	O
+also	928	932	O
+the	933	936	O
+uncertainties	937	950	O
+in	951	953	O
+composition	954	965	O
+for	966	969	O
+the	970	973	O
+phase	974	979	B-Process
+transition	980	990	I-Process
+are	991	994	O
+taken	995	1000	O
+from	1001	1005	O
+the	1006	1009	O
+uncertainties	1010	1023	O
+from	1024	1028	O
+the	1029	1032	O
+XRD	1033	1036	B-Task
+analysis	1037	1045	I-Task
+for	1046	1049	O
+the	1050	1053	O
+most	1054	1058	O
+abundant	1059	1067	O
+phase	1068	1073	O
+at	1074	1076	O
+each	1077	1081	O
+composition	1082	1093	O
+in	1094	1096	O
+re	1097	1099	B-Material
+-	1099	1100	I-Material
+solidified	1100	1110	I-Material
+material	1111	1119	I-Material
+.	1119	1120	O
 
 
 -DOCSTART- (S002199911200068X)
 
-Myocardial	NN	O	B-Process
-electrical	NN	O	I-Process
-propagation	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-simulated	NN	O	O
-using	NN	O	O
-the	NN	O	O
-monodomain	NN	O	B-Material
-or	NN	O	I-Material
-bidomain	NN	O	I-Material
-PDEs	NN	O	I-Material
-[	NN	O	O
-5,6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Due	NN	O	O
-to	NN	O	O
-its	NN	O	O
-capacity	NN	O	O
-to	NN	O	O
-represent	NN	O	O
-complex	NN	O	O
-geometries	NN	O	B-Material
-with	NN	O	O
-ease	NN	O	O
-,	NN	O	O
-approximations	NN	O	O
-are	NN	O	O
-often	NN	O	O
-obtained	NN	O	O
-using	NN	O	O
-the	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-method	NN	O	I-Process
-(	NN	O	O
-FEM	NN	O	B-Process
-)	NN	O	O
-to	NN	O	O
-discretise	NN	O	O
-the	NN	O	O
-PDEs	NN	O	B-Material
-in	NN	O	O
-space	NN	O	O
-on	NN	O	O
-realistic	NN	O	O
-cardiac	NN	O	B-Material
-geometry	NN	O	I-Material
-meshes	NN	O	I-Material
-;	NN	O	O
-this	NN	O	O
-results	NN	O	O
-in	NN	O	O
-very	NN	O	O
-large	NN	O	O
-(	NN	O	O
-up	NN	O	O
-to	NN	O	O
-forty	NN	O	O
--	NN	O	O
-million	NN	O	O
-degrees	NN	O	O
-of	NN	O	O
-freedom	NN	O	O
-(	NN	O	O
-DOF	NN	O	O
-)	NN	O	O
-for	NN	O	O
-human	NN	O	B-Task
-heart	NN	O	I-Task
-geometries	NN	O	I-Task
-)	NN	O	O
-systems	NN	O	B-Process
-of	NN	O	I-Process
-linear	NN	O	I-Process
-equations	NN	O	I-Process
-which	NN	O	O
-must	NN	O	O
-be	NN	O	O
-solved	NN	O	O
-many	NN	O	O
-thousands	NN	O	O
-of	NN	O	O
-times	NN	O	O
-over	NN	O	O
-the	NN	O	O
-course	NN	O	O
-of	NN	O	O
-even	NN	O	O
-a	NN	O	O
-short	NN	O	O
-simulation	NN	O	B-Process
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-they	NN	O	O
-are	NN	O	O
-extremely	NN	O	O
-computationally	NN	O	O
-demanding	NN	O	O
-,	NN	O	O
-presenting	NN	O	O
-taxing	NN	O	O
-problems	NN	O	O
-even	NN	O	O
-to	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-end	NN	O	I-Process
-supercomputing	NN	O	I-Process
-resources	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-computational	NN	O	O
-demand	NN	O	O
-means	NN	O	O
-that	NN	O	O
-effort	NN	O	O
-has	NN	O	O
-been	NN	O	O
-invested	NN	O	O
-in	NN	O	O
-developing	NN	O	B-Task
-efficient	NN	O	I-Task
-solution	NN	O	I-Task
-techniques	NN	O	I-Task
-,	NN	O	O
-including	NN	O	O
-work	NN	O	O
-on	NN	O	O
-preconditioning	NN	O	B-Task
-,	NN	O	O
-parallelisation	NN	O	B-Task
-and	NN	O	O
-adaptivity	NN	O	B-Task
-in	NN	O	I-Task
-space	NN	O	I-Task
-and	NN	O	I-Task
-time	NN	O	I-Task
-[	NN	O	O
-7–12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-study	NN	O	O
-,	NN	O	O
-we	NN	O	O
-investigate	NN	O	B-Task
-the	NN	O	I-Task
-potential	NN	O	I-Task
-of	NN	O	I-Task
-reducing	NN	O	I-Task
-the	NN	O	I-Task
-number	NN	O	I-Task
-of	NN	O	I-Task
-DOF	NN	O	I-Task
-by	NN	O	O
-using	NN	O	O
-a	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-order	NN	O	I-Process
-polynomial	NN	O	I-Process
-FEM	NN	O	I-Process
-[	NN	O	O
-13–15	NN	O	O
-]	NN	O	O
-to	NN	O	O
-approximate	NN	O	O
-the	NN	O	O
-monodomain	NN	O	B-Material
-PDE	NN	O	I-Material
-in	NN	O	O
-space	NN	O	O
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-goal	NN	O	O
-of	NN	O	O
-significantly	NN	O	B-Task
-improving	NN	O	I-Task
-simulation	NN	O	I-Task
-efficiency	NN	O	I-Task
-over	NN	O	O
-the	NN	O	O
-piecewise	NN	O	B-Process
--	NN	O	I-Process
-linear	NN	O	I-Process
-FEM	NN	O	I-Process
-approach	NN	O	O
-commonly	NN	O	O
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-field	NN	O	O
-[	NN	O	O
-16–19	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-schemes	NN	O	O
-where	NN	O	O
-the	NN	O	O
-polynomial	NN	O	O
-degree	NN	O	O
-p	NN	O	O
-of	NN	O	O
-the	NN	O	O
-elements	NN	O	O
-is	NN	O	O
-adjusted	NN	O	O
-according	NN	O	O
-to	NN	O	O
-the	NN	O	O
-error	NN	O	O
-in	NN	O	O
-the	NN	O	O
-approximation	NN	O	O
-,	NN	O	O
-this	NN	O	O
-is	NN	O	O
-known	NN	O	O
-as	NN	O	O
-the	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-p	NN	O	I-Process
--	NN	O	I-Process
-version	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-work	NN	O	O
-presented	NN	O	O
-here	NN	O	O
-,	NN	O	O
-we	NN	O	O
-work	NN	O	O
-with	NN	O	O
-schemes	NN	O	O
-which	NN	O	O
-keep	NN	O	O
-p	NN	O	O
-fixed	NN	O	O
-.	NN	O	O
+Myocardial	0	10	B-Process
+electrical	11	21	I-Process
+propagation	22	33	I-Process
+can	34	37	O
+be	38	40	O
+simulated	41	50	O
+using	51	56	O
+the	57	60	O
+monodomain	61	71	B-Material
+or	72	74	I-Material
+bidomain	75	83	I-Material
+PDEs	84	88	I-Material
+[	89	90	O
+5,6	90	93	O
+]	93	94	O
+.	94	95	O
+
+Due	96	99	O
+to	100	102	O
+its	103	106	O
+capacity	107	115	O
+to	116	118	O
+represent	119	128	O
+complex	129	136	O
+geometries	137	147	B-Material
+with	148	152	O
+ease	153	157	O
+,	157	158	O
+approximations	159	173	O
+are	174	177	O
+often	178	183	O
+obtained	184	192	O
+using	193	198	O
+the	199	202	O
+finite	203	209	B-Process
+element	210	217	I-Process
+method	218	224	I-Process
+(	225	226	O
+FEM	226	229	B-Process
+)	229	230	O
+to	231	233	O
+discretise	234	244	O
+the	245	248	O
+PDEs	249	253	B-Material
+in	254	256	O
+space	257	262	O
+on	263	265	O
+realistic	266	275	O
+cardiac	276	283	B-Material
+geometry	284	292	I-Material
+meshes	293	299	I-Material
+;	299	300	O
+this	301	305	O
+results	306	313	O
+in	314	316	O
+very	317	321	O
+large	322	327	O
+(	328	329	O
+up	329	331	O
+to	332	334	O
+forty	335	340	O
+-	340	341	O
+million	341	348	O
+degrees	349	356	O
+of	357	359	O
+freedom	360	367	O
+(	368	369	O
+DOF	369	372	O
+)	372	373	O
+for	374	377	O
+human	378	383	B-Task
+heart	384	389	I-Task
+geometries	390	400	I-Task
+)	400	401	O
+systems	402	409	B-Process
+of	410	412	I-Process
+linear	413	419	I-Process
+equations	420	429	I-Process
+which	430	435	O
+must	436	440	O
+be	441	443	O
+solved	444	450	O
+many	451	455	O
+thousands	456	465	O
+of	466	468	O
+times	469	474	O
+over	475	479	O
+the	480	483	O
+course	484	490	O
+of	491	493	O
+even	494	498	O
+a	499	500	O
+short	501	506	O
+simulation	507	517	B-Process
+.	517	518	O
+
+Thus	519	523	O
+,	523	524	O
+they	525	529	O
+are	530	533	O
+extremely	534	543	O
+computationally	544	559	O
+demanding	560	569	O
+,	569	570	O
+presenting	571	581	O
+taxing	582	588	O
+problems	589	597	O
+even	598	602	O
+to	603	605	O
+high	606	610	B-Process
+-	610	611	I-Process
+end	611	614	I-Process
+supercomputing	615	629	I-Process
+resources	630	639	I-Process
+.	639	640	O
+
+This	641	645	O
+computational	646	659	O
+demand	660	666	O
+means	667	672	O
+that	673	677	O
+effort	678	684	O
+has	685	688	O
+been	689	693	O
+invested	694	702	O
+in	703	705	O
+developing	706	716	B-Task
+efficient	717	726	I-Task
+solution	727	735	I-Task
+techniques	736	746	I-Task
+,	746	747	O
+including	748	757	O
+work	758	762	O
+on	763	765	O
+preconditioning	766	781	B-Task
+,	781	782	O
+parallelisation	783	798	B-Task
+and	799	802	O
+adaptivity	803	813	B-Task
+in	814	816	I-Task
+space	817	822	I-Task
+and	823	826	I-Task
+time	827	831	I-Task
+[	832	833	O
+7–12	833	837	O
+]	837	838	O
+.	838	839	O
+
+In	840	842	O
+this	843	847	O
+study	848	853	O
+,	853	854	O
+we	855	857	O
+investigate	858	869	B-Task
+the	870	873	I-Task
+potential	874	883	I-Task
+of	884	886	I-Task
+reducing	887	895	I-Task
+the	896	899	I-Task
+number	900	906	I-Task
+of	907	909	I-Task
+DOF	910	913	I-Task
+by	914	916	O
+using	917	922	O
+a	923	924	O
+high	925	929	B-Process
+-	929	930	I-Process
+order	930	935	I-Process
+polynomial	936	946	I-Process
+FEM	947	950	I-Process
+[	951	952	O
+13–15	952	957	O
+]	957	958	O
+to	959	961	O
+approximate	962	973	O
+the	974	977	O
+monodomain	978	988	B-Material
+PDE	989	992	I-Material
+in	993	995	O
+space	996	1001	O
+,	1001	1002	O
+with	1003	1007	O
+the	1008	1011	O
+goal	1012	1016	O
+of	1017	1019	O
+significantly	1020	1033	B-Task
+improving	1034	1043	I-Task
+simulation	1044	1054	I-Task
+efficiency	1055	1065	I-Task
+over	1066	1070	O
+the	1071	1074	O
+piecewise	1075	1084	B-Process
+-	1084	1085	I-Process
+linear	1085	1091	I-Process
+FEM	1092	1095	I-Process
+approach	1096	1104	O
+commonly	1105	1113	O
+used	1114	1118	O
+in	1119	1121	O
+the	1122	1125	O
+field	1126	1131	O
+[	1132	1133	O
+16–19	1133	1138	O
+]	1138	1139	O
+.	1139	1140	O
+
+For	1141	1144	O
+schemes	1145	1152	O
+where	1153	1158	O
+the	1159	1162	O
+polynomial	1163	1173	O
+degree	1174	1180	O
+p	1181	1182	O
+of	1183	1185	O
+the	1186	1189	O
+elements	1190	1198	O
+is	1199	1201	O
+adjusted	1202	1210	O
+according	1211	1220	O
+to	1221	1223	O
+the	1224	1227	O
+error	1228	1233	O
+in	1234	1236	O
+the	1237	1240	O
+approximation	1241	1254	O
+,	1254	1255	O
+this	1256	1260	O
+is	1261	1263	O
+known	1264	1269	O
+as	1270	1272	O
+the	1273	1276	O
+finite	1277	1283	B-Process
+element	1284	1291	I-Process
+p	1292	1293	I-Process
+-	1293	1294	I-Process
+version	1294	1301	I-Process
+.	1301	1302	O
+
+In	1303	1305	O
+the	1306	1309	O
+work	1310	1314	O
+presented	1315	1324	O
+here	1325	1329	O
+,	1329	1330	O
+we	1331	1333	O
+work	1334	1338	O
+with	1339	1343	O
+schemes	1344	1351	O
+which	1352	1357	O
+keep	1358	1362	O
+p	1363	1364	O
+fixed	1365	1370	O
+.	1370	1371	O
 
 
 -DOCSTART- (S0021999112002847)
 
-In	NN	O	O
-this	NN	O	O
-work	NN	O	O
-we	NN	O	O
-develop	NN	O	B-Task
-a	NN	O	I-Task
-new	NN	O	I-Task
-approach	NN	O	I-Task
-to	NN	O	I-Task
-DEA	NN	O	I-Task
-suitable	NN	O	I-Task
-for	NN	O	I-Task
-modelling	NN	O	I-Task
-three	NN	O	I-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-problems	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-present	NN	O	O
-DEA	NN	O	B-Process
-methods	NN	O	I-Process
-rely	NN	O	O
-on	NN	O	O
-the	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-one	NN	O	O
-can	NN	O	O
-easily	NN	O	O
-parametrise	NN	O	B-Process
-the	NN	O	I-Process
-boundary	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-region	NN	O	I-Process
-being	NN	O	O
-modelled	NN	O	O
-,	NN	O	O
-and	NN	O	O
-then	NN	O	O
-apply	NN	O	O
-an	NN	O	O
-orthonormal	NN	O	B-Process
-basis	NN	O	I-Process
-approximation	NN	O	I-Process
-over	NN	O	O
-the	NN	O	O
-resulting	NN	O	O
-boundary	NN	O	B-Material
-phase	NN	O	I-Material
-space	NN	O	I-Material
-coordinate	NN	O	I-Material
-system	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-two	NN	O	O
-dimensions	NN	O	O
-this	NN	O	O
-is	NN	O	O
-simple	NN	O	O
-as	NN	O	O
-the	NN	O	O
-boundary	NN	O	O
-may	NN	O	O
-be	NN	O	O
-parametrised	NN	O	O
-along	NN	O	O
-its	NN	O	O
-arc	NN	O	B-Material
--	NN	O	I-Material
-length	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-associated	NN	O	O
-momentum	NN	O	B-Material
-(	NN	O	I-Material
-or	NN	O	I-Material
-direction	NN	O	I-Material
-)	NN	O	I-Material
-coordinate	NN	O	I-Material
-taken	NN	O	O
-tangential	NN	O	O
-to	NN	O	O
-the	NN	O	O
-boundary	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-basis	NN	O	O
-can	NN	O	O
-be	NN	O	O
-any	NN	O	O
-suitable	NN	O	O
-(	NN	O	O
-scaled	NN	O	O
-)	NN	O	O
-univariate	NN	O	B-Material
-basis	NN	O	I-Material
-in	NN	O	O
-both	NN	O	O
-position	NN	O	O
-and	NN	O	O
-momentum	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-a	NN	O	O
-Fourier	NN	O	B-Material
-basis	NN	O	I-Material
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-or	NN	O	O
-Chebyshev	NN	O	B-Material
-polynomials	NN	O	I-Material
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Defining	NN	O	O
-a	NN	O	O
-suitable	NN	O	O
-parametrisation	NN	O	O
-for	NN	O	O
-the	NN	O	O
-spatial	NN	O	O
-coordinate	NN	O	O
-in	NN	O	O
-three	NN	O	O
--	NN	O	O
-dimensions	NN	O	O
-becomes	NN	O	O
-much	NN	O	O
-more	NN	O	O
-difficult	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-momentum	NN	O	O
-space	NN	O	O
-spherical	NN	O	B-Process
-polar	NN	O	I-Process
-coordinates	NN	O	I-Process
-may	NN	O	O
-be	NN	O	O
-employed	NN	O	O
-and	NN	O	O
-so	NN	O	O
-these	NN	O	O
-problems	NN	O	O
-do	NN	O	O
-not	NN	O	O
-arise	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+work	8	12	O
+we	13	15	O
+develop	16	23	B-Task
+a	24	25	I-Task
+new	26	29	I-Task
+approach	30	38	I-Task
+to	39	41	I-Task
+DEA	42	45	I-Task
+suitable	46	54	I-Task
+for	55	58	I-Task
+modelling	59	68	I-Task
+three	69	74	I-Task
+-	74	75	I-Task
+dimensional	75	86	I-Task
+problems	87	95	I-Task
+.	95	96	O
+
+The	97	100	O
+present	101	108	O
+DEA	109	112	B-Process
+methods	113	120	I-Process
+rely	121	125	O
+on	126	128	O
+the	129	132	O
+fact	133	137	O
+that	138	142	O
+one	143	146	O
+can	147	150	O
+easily	151	157	O
+parametrise	158	169	B-Process
+the	170	173	I-Process
+boundary	174	182	I-Process
+of	183	185	I-Process
+the	186	189	I-Process
+region	190	196	I-Process
+being	197	202	O
+modelled	203	211	O
+,	211	212	O
+and	213	216	O
+then	217	221	O
+apply	222	227	O
+an	228	230	O
+orthonormal	231	242	B-Process
+basis	243	248	I-Process
+approximation	249	262	I-Process
+over	263	267	O
+the	268	271	O
+resulting	272	281	O
+boundary	282	290	B-Material
+phase	291	296	I-Material
+space	297	302	I-Material
+coordinate	303	313	I-Material
+system	314	320	I-Material
+.	320	321	O
+
+In	322	324	O
+two	325	328	O
+dimensions	329	339	O
+this	340	344	O
+is	345	347	O
+simple	348	354	O
+as	355	357	O
+the	358	361	O
+boundary	362	370	O
+may	371	374	O
+be	375	377	O
+parametrised	378	390	O
+along	391	396	O
+its	397	400	O
+arc	401	404	B-Material
+-	404	405	I-Material
+length	405	411	I-Material
+and	412	415	O
+the	416	419	O
+associated	420	430	O
+momentum	431	439	B-Material
+(	440	441	I-Material
+or	441	443	I-Material
+direction	444	453	I-Material
+)	453	454	I-Material
+coordinate	455	465	I-Material
+taken	466	471	O
+tangential	472	482	O
+to	483	485	O
+the	486	489	O
+boundary	490	498	O
+.	498	499	O
+
+The	500	503	O
+basis	504	509	O
+can	510	513	O
+be	514	516	O
+any	517	520	O
+suitable	521	529	O
+(	530	531	O
+scaled	531	537	O
+)	537	538	O
+univariate	539	549	B-Material
+basis	550	555	I-Material
+in	556	558	O
+both	559	563	O
+position	564	572	O
+and	573	576	O
+momentum	577	585	O
+,	585	586	O
+such	587	591	O
+as	592	594	O
+a	595	596	O
+Fourier	597	604	B-Material
+basis	605	610	I-Material
+[	611	612	O
+8	612	613	O
+]	613	614	O
+or	615	617	O
+Chebyshev	618	627	B-Material
+polynomials	628	639	I-Material
+[	640	641	O
+9	641	642	O
+]	642	643	O
+.	643	644	O
+
+Defining	645	653	O
+a	654	655	O
+suitable	656	664	O
+parametrisation	665	680	O
+for	681	684	O
+the	685	688	O
+spatial	689	696	O
+coordinate	697	707	O
+in	708	710	O
+three	711	716	O
+-	716	717	O
+dimensions	717	727	O
+becomes	728	735	O
+much	736	740	O
+more	741	745	O
+difficult	746	755	O
+.	755	756	O
+
+In	757	759	O
+momentum	760	768	O
+space	769	774	O
+spherical	775	784	B-Process
+polar	785	790	I-Process
+coordinates	791	802	I-Process
+may	803	806	O
+be	807	809	O
+employed	810	818	O
+and	819	822	O
+so	823	825	O
+these	826	831	O
+problems	832	840	O
+do	841	843	O
+not	844	847	O
+arise	848	853	O
+.	853	854	O
 
 
 -DOCSTART- (S0021999112003579)
 
-We	NN	O	O
-order	NN	O	B-Task
-the	NN	O	I-Task
-discrete	NN	O	I-Task
-unknowns	NN	O	I-Task
-so	NN	O	O
-that	NN	O	O
-the	NN	O	O
-vector	NN	O	B-Material
-of	NN	O	I-Material
-unknowns	NN	O	I-Material
-,	NN	O	O
-xPS=[X	NN	O	B-Material
-,	NN	O	I-Material
-L	NN	O	I-Material
-]	NN	O	I-Material
-,	NN	O	O
-contains	NN	O	O
-the	NN	O	O
-nx	NN	O	O
-unknown	NN	O	O
-nodal	NN	O	B-Material
-coordinates	NN	O	I-Material
-,	NN	O	O
-followed	NN	O	O
-by	NN	O	O
-the	NN	O	O
-nb	NN	O	O
-unknown	NN	O	O
-discrete	NN	O	O
-Lagrange	NN	O	B-Material
-multipliers	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-linear	NN	O	O
-systems	NN	O	O
-to	NN	O	O
-be	NN	O	O
-solved	NN	O	O
-in	NN	O	O
-the	NN	O	O
-course	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Newton	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-solution	NN	O	I-Process
-of	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-10	NN	O	O
-)	NN	O	O
-,	NN	O	O
-subject	NN	O	O
-to	NN	O	O
-the	NN	O	O
-displacement	NN	O	B-Material
-constraint	NN	O	I-Material
-(	NN	O	O
-9	NN	O	O
-)	NN	O	O
-,	NN	O	O
-then	NN	O	O
-have	NN	O	O
-saddle	NN	O	B-Process
--	NN	O	I-Process
-point	NN	O	I-Process
-structure,(15)where	NN	O	I-Process
-E	NN	O	O
-is	NN	O	O
-the	NN	O	O
-tangent	NN	O	B-Process
-stiffness	NN	O	I-Process
-matrix	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-unconstrained	NN	O	B-Material
-pseudo	NN	O	I-Material
--	NN	O	I-Material
-solid	NN	O	I-Material
-problem	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-two	NN	O	B-Material
-off	NN	O	I-Material
--	NN	O	I-Material
-diagonal	NN	O	I-Material
-blocks	NN	O	I-Material
-Cxl	NN	O	B-Material
-and	NN	O	O
-Clx	NN	O	B-Material
-=	NN	O	I-Material
-CxlT	NN	O	I-Material
-arise	NN	O	O
-through	NN	O	O
-the	NN	O	O
-imposition	NN	O	O
-of	NN	O	O
-the	NN	O	O
-displacement	NN	O	O
-constraint	NN	O	O
-by	NN	O	O
-the	NN	O	O
-Lagrange	NN	O	B-Material
-multipliers	NN	O	I-Material
-.	NN	O	O
-
-We	NN	O	O
-refer	NN	O	O
-to	NN	O	O
-[	NN	O	O
-34	NN	O	O
-]	NN	O	O
-for	NN	O	O
-the	NN	O	O
-proof	NN	O	O
-of	NN	O	O
-the	NN	O	O
-LBB	NN	O	B-Material
-stability	NN	O	O
-of	NN	O	O
-this	NN	O	O
-discretisation	NN	O	B-Process
-;	NN	O	O
-see	NN	O	O
-also	NN	O	O
-[	NN	O	O
-35,36	NN	O	O
-]	NN	O	O
-for	NN	O	O
-a	NN	O	O
-discussion	NN	O	O
-of	NN	O	O
-the	NN	O	O
-LBB	NN	O	B-Material
-stability	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Lagrange	NN	O	B-Process
--	NN	O	I-Process
-multiplier	NN	O	I-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-imposition	NN	O	I-Process
-of	NN	O	O
-Dirichlet	NN	O	B-Process
-boundary	NN	O	I-Process
-conditions	NN	O	I-Process
-in	NN	O	O
-related	NN	O	O
-problems	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-note	NN	O	O
-that	NN	O	O
-during	NN	O	O
-the	NN	O	O
-first	NN	O	O
-step	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Newton	NN	O	B-Process
-iteration	NN	O	I-Process
-,	NN	O	O
-E	NN	O	O
-is	NN	O	O
-symmetric	NN	O	O
-positive	NN	O	O
-definite	NN	O	O
-since	NN	O	O
-it	NN	O	O
-represents	NN	O	O
-the	NN	O	O
-tangent	NN	O	B-Material
-stiffness	NN	O	I-Material
-matrix	NN	O	I-Material
-relative	NN	O	O
-to	NN	O	O
-the	NN	O	O
-system	NN	O	O
-’s	NN	O	O
-equilibrium	NN	O	B-Process
-configuration	NN	O	I-Process
-.	NN	O	O
+We	0	2	O
+order	3	8	B-Task
+the	9	12	I-Task
+discrete	13	21	I-Task
+unknowns	22	30	I-Task
+so	31	33	O
+that	34	38	O
+the	39	42	O
+vector	43	49	B-Material
+of	50	52	I-Material
+unknowns	53	61	I-Material
+,	61	62	O
+xPS=[X	63	69	B-Material
+,	69	70	I-Material
+L	70	71	I-Material
+]	71	72	I-Material
+,	72	73	O
+contains	74	82	O
+the	83	86	O
+nx	87	89	O
+unknown	90	97	O
+nodal	98	103	B-Material
+coordinates	104	115	I-Material
+,	115	116	O
+followed	117	125	O
+by	126	128	O
+the	129	132	O
+nb	133	135	O
+unknown	136	143	O
+discrete	144	152	O
+Lagrange	153	161	B-Material
+multipliers	162	173	I-Material
+.	173	174	O
+
+The	175	178	O
+linear	179	185	O
+systems	186	193	O
+to	194	196	O
+be	197	199	O
+solved	200	206	O
+in	207	209	O
+the	210	213	O
+course	214	220	O
+of	221	223	O
+the	224	227	O
+Newton	228	234	B-Process
+-	234	235	I-Process
+based	235	240	I-Process
+solution	241	249	I-Process
+of	250	252	O
+Eq	253	255	O
+.	255	256	O
+
+(	257	258	O
+10	258	260	O
+)	260	261	O
+,	261	262	O
+subject	263	270	O
+to	271	273	O
+the	274	277	O
+displacement	278	290	B-Material
+constraint	291	301	I-Material
+(	302	303	O
+9	303	304	O
+)	304	305	O
+,	305	306	O
+then	307	311	O
+have	312	316	O
+saddle	317	323	B-Process
+-	323	324	I-Process
+point	324	329	I-Process
+structure,(15)where	330	349	I-Process
+E	350	351	O
+is	352	354	O
+the	355	358	O
+tangent	359	366	B-Process
+stiffness	367	376	I-Process
+matrix	377	383	I-Process
+of	384	386	O
+the	387	390	O
+unconstrained	391	404	B-Material
+pseudo	405	411	I-Material
+-	411	412	I-Material
+solid	412	417	I-Material
+problem	418	425	I-Material
+,	425	426	O
+and	427	430	O
+the	431	434	O
+two	435	438	B-Material
+off	439	442	I-Material
+-	442	443	I-Material
+diagonal	443	451	I-Material
+blocks	452	458	I-Material
+Cxl	459	462	B-Material
+and	463	466	O
+Clx	467	470	B-Material
+=	470	471	I-Material
+CxlT	471	475	I-Material
+arise	476	481	O
+through	482	489	O
+the	490	493	O
+imposition	494	504	O
+of	505	507	O
+the	508	511	O
+displacement	512	524	O
+constraint	525	535	O
+by	536	538	O
+the	539	542	O
+Lagrange	543	551	B-Material
+multipliers	552	563	I-Material
+.	563	564	O
+
+We	565	567	O
+refer	568	573	O
+to	574	576	O
+[	577	578	O
+34	578	580	O
+]	580	581	O
+for	582	585	O
+the	586	589	O
+proof	590	595	O
+of	596	598	O
+the	599	602	O
+LBB	603	606	B-Material
+stability	607	616	O
+of	617	619	O
+this	620	624	O
+discretisation	625	639	B-Process
+;	639	640	O
+see	641	644	O
+also	645	649	O
+[	650	651	O
+35,36	651	656	O
+]	656	657	O
+for	658	661	O
+a	662	663	O
+discussion	664	674	O
+of	675	677	O
+the	678	681	O
+LBB	682	685	B-Material
+stability	686	695	O
+of	696	698	O
+the	699	702	O
+Lagrange	703	711	B-Process
+-	711	712	I-Process
+multiplier	712	722	I-Process
+-	722	723	I-Process
+based	723	728	I-Process
+imposition	729	739	I-Process
+of	740	742	O
+Dirichlet	743	752	B-Process
+boundary	753	761	I-Process
+conditions	762	772	I-Process
+in	773	775	O
+related	776	783	O
+problems	784	792	O
+.	792	793	O
+
+We	794	796	O
+note	797	801	O
+that	802	806	O
+during	807	813	O
+the	814	817	O
+first	818	823	O
+step	824	828	O
+of	829	831	O
+the	832	835	O
+Newton	836	842	B-Process
+iteration	843	852	I-Process
+,	852	853	O
+E	854	855	O
+is	856	858	O
+symmetric	859	868	O
+positive	869	877	O
+definite	878	886	O
+since	887	892	O
+it	893	895	O
+represents	896	906	O
+the	907	910	O
+tangent	911	918	B-Material
+stiffness	919	928	I-Material
+matrix	929	935	I-Material
+relative	936	944	O
+to	945	947	O
+the	948	951	O
+system	952	958	O
+’s	958	960	O
+equilibrium	961	972	B-Process
+configuration	973	986	I-Process
+.	986	987	O
 
 
 -DOCSTART- (S0021999113002945)
 
-Inequality	NN	O	B-Process
-(	NN	O	O
-22	NN	O	O
-)	NN	O	O
-indicates	NN	O	O
-that	NN	O	O
-the	NN	O	O
-maximum	NN	O	B-Material
--	NN	O	I-Material
-norm	NN	O	I-Material
-is	NN	O	O
-the	NN	O	O
-loosest	NN	O	O
-among	NN	O	O
-all	NN	O	O
-p	NN	O	B-Material
--	NN	O	I-Material
-norms	NN	O	I-Material
-.	NN	O	O
-
-Fortunately	NN	O	O
-,	NN	O	O
-this	NN	O	O
-loosest	NN	O	O
-constraint	NN	O	O
-would	NN	O	O
-not	NN	O	O
-seriously	NN	O	O
-affect	NN	O	O
-the	NN	O	O
-accuracy	NN	O	O
-since	NN	O	O
-the	NN	O	O
-value	NN	O	O
-of	NN	O	O
-||y||∞	NN	O	B-Material
-is	NN	O	O
-comparable	NN	O	O
-to	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-2-norm	NN	O	B-Material
-and	NN	O	O
-1-norm	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-maximum	NN	O	B-Material
--	NN	O	I-Material
-norm	NN	O	I-Material
-provides	NN	O	O
-us	NN	O	O
-with	NN	O	O
-the	NN	O	O
-largest	NN	O	O
-number	NN	O	O
-of	NN	O	O
-possible	NN	O	O
-solutions	NN	O	O
-under	NN	O	O
-a	NN	O	O
-given	NN	O	O
-error	NN	O	O
-limitation	NN	O	O
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-would	NN	O	O
-greatly	NN	O	O
-enhance	NN	O	O
-the	NN	O	O
-possibility	NN	O	O
-of	NN	O	O
-finding	NN	O	O
-a	NN	O	O
-group	NN	O	O
-of	NN	O	O
-optimized	NN	O	B-Material
-coefficients	NN	O	I-Material
-when	NN	O	O
-scanning	NN	O	O
-a	NN	O	O
-vast	NN	O	B-Process
-solution	NN	O	I-Process
-set	NN	O	I-Process
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-checking	NN	O	O
-the	NN	O	O
-maximum	NN	O	B-Material
-deviation	NN	O	I-Material
-sounds	NN	O	O
-more	NN	O	O
-reasonable	NN	O	O
-than	NN	O	O
-checking	NN	O	O
-the	NN	O	O
-“	NN	O	O
-distance	NN	O	O
-”	NN	O	O
-between	NN	O	O
-the	NN	O	O
-accurate	NN	O	O
-and	NN	O	O
-approximated	NN	O	O
-wave	NN	O	O
-numbers	NN	O	O
-since	NN	O	O
-it	NN	O	O
-is	NN	O	O
-not	NN	O	O
-working	NN	O	O
-in	NN	O	O
-the	NN	O	O
-space	NN	O	O
-domain	NN	O	O
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-we	NN	O	O
-chose	NN	O	O
-the	NN	O	O
-maximum	NN	O	B-Material
--	NN	O	I-Material
-norm	NN	O	I-Material
-as	NN	O	O
-our	NN	O	O
-criterion	NN	O	O
-for	NN	O	O
-designing	NN	O	O
-the	NN	O	O
-objective	NN	O	B-Material
-functions	NN	O	I-Material
-to	NN	O	O
-extend	NN	O	B-Task
-the	NN	O	I-Task
-accurate	NN	O	I-Task
-wave	NN	O	I-Task
-number	NN	O	I-Task
-coverage	NN	O	I-Task
-as	NN	O	O
-widely	NN	O	O
-as	NN	O	O
-possible	NN	O	O
-.	NN	O	O
+Inequality	0	10	B-Process
+(	11	12	O
+22	12	14	O
+)	14	15	O
+indicates	16	25	O
+that	26	30	O
+the	31	34	O
+maximum	35	42	B-Material
+-	42	43	I-Material
+norm	43	47	I-Material
+is	48	50	O
+the	51	54	O
+loosest	55	62	O
+among	63	68	O
+all	69	72	O
+p	73	74	B-Material
+-	74	75	I-Material
+norms	75	80	I-Material
+.	80	81	O
+
+Fortunately	82	93	O
+,	93	94	O
+this	95	99	O
+loosest	100	107	O
+constraint	108	118	O
+would	119	124	O
+not	125	128	O
+seriously	129	138	O
+affect	139	145	O
+the	146	149	O
+accuracy	150	158	O
+since	159	164	O
+the	165	168	O
+value	169	174	O
+of	175	177	O
+||y||∞	178	184	B-Material
+is	185	187	O
+comparable	188	198	O
+to	199	201	O
+that	202	206	O
+of	207	209	O
+the	210	213	O
+2-norm	214	220	B-Material
+and	221	224	O
+1-norm	225	231	B-Material
+.	231	232	O
+
+The	233	236	O
+maximum	237	244	B-Material
+-	244	245	I-Material
+norm	245	249	I-Material
+provides	250	258	O
+us	259	261	O
+with	262	266	O
+the	267	270	O
+largest	271	278	O
+number	279	285	O
+of	286	288	O
+possible	289	297	O
+solutions	298	307	O
+under	308	313	O
+a	314	315	O
+given	316	321	O
+error	322	327	O
+limitation	328	338	O
+[	339	340	O
+24	340	342	O
+]	342	343	O
+.	343	344	O
+
+This	345	349	O
+would	350	355	O
+greatly	356	363	O
+enhance	364	371	O
+the	372	375	O
+possibility	376	387	O
+of	388	390	O
+finding	391	398	O
+a	399	400	O
+group	401	406	O
+of	407	409	O
+optimized	410	419	B-Material
+coefficients	420	432	I-Material
+when	433	437	O
+scanning	438	446	O
+a	447	448	O
+vast	449	453	B-Process
+solution	454	462	I-Process
+set	463	466	I-Process
+.	466	467	O
+
+On	468	470	O
+the	471	474	O
+other	475	480	O
+hand	481	485	O
+,	485	486	O
+checking	487	495	O
+the	496	499	O
+maximum	500	507	B-Material
+deviation	508	517	I-Material
+sounds	518	524	O
+more	525	529	O
+reasonable	530	540	O
+than	541	545	O
+checking	546	554	O
+the	555	558	O
+“	559	560	O
+distance	560	568	O
+”	568	569	O
+between	570	577	O
+the	578	581	O
+accurate	582	590	O
+and	591	594	O
+approximated	595	607	O
+wave	608	612	O
+numbers	613	620	O
+since	621	626	O
+it	627	629	O
+is	630	632	O
+not	633	636	O
+working	637	644	O
+in	645	647	O
+the	648	651	O
+space	652	657	O
+domain	658	664	O
+.	664	665	O
+
+Therefore	666	675	O
+,	675	676	O
+we	677	679	O
+chose	680	685	O
+the	686	689	O
+maximum	690	697	B-Material
+-	697	698	I-Material
+norm	698	702	I-Material
+as	703	705	O
+our	706	709	O
+criterion	710	719	O
+for	720	723	O
+designing	724	733	O
+the	734	737	O
+objective	738	747	B-Material
+functions	748	757	I-Material
+to	758	760	O
+extend	761	767	B-Task
+the	768	771	I-Task
+accurate	772	780	I-Task
+wave	781	785	I-Task
+number	786	792	I-Task
+coverage	793	801	I-Task
+as	802	804	O
+widely	805	811	O
+as	812	814	O
+possible	815	823	O
+.	823	824	O
 
 
 -DOCSTART- (S0021999113003422)
 
-Similar	NN	O	O
-numerical	NN	O	B-Material
-oscillations	NN	O	I-Material
-to	NN	O	O
-those	NN	O	O
-described	NN	O	O
-above	NN	O	O
-also	NN	O	O
-emerge	NN	O	O
-in	NN	O	O
-the	NN	O	O
-ISPM	NN	O	B-Material
-when	NN	O	O
-utilising	NN	O	O
-classical	NN	O	O
-IBM	NN	O	B-Process
-kernels	NN	O	I-Process
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-lack	NN	O	O
-of	NN	O	O
-regularity	NN	O	O
-(	NN	O	O
-with	NN	O	O
-discontinuous	NN	O	O
-second	NN	O	O
-derivatives	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-important	NN	O	O
-to	NN	O	O
-remark	NN	O	O
-that	NN	O	O
-the	NN	O	O
-immersed	NN	O	O
-structure	NN	O	O
-stresses	NN	O	O
-are	NN	O	O
-captured	NN	O	O
-in	NN	O	O
-the	NN	O	O
-Lagrangian	NN	O	B-Process
-description	NN	O	I-Process
-and	NN	O	O
-hence	NN	O	O
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-compute	NN	O	O
-them	NN	O	O
-accurately	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-important	NN	O	O
-to	NN	O	O
-ensure	NN	O	O
-that	NN	O	O
-these	NN	O	O
-spurious	NN	O	O
-oscillations	NN	O	B-Material
-are	NN	O	O
-not	NN	O	O
-introduced	NN	O	O
-via	NN	O	O
-the	NN	O	O
-kernel	NN	O	B-Process
-interpolation	NN	O	I-Process
-functions	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-the	NN	O	O
-authors	NN	O	O
-have	NN	O	O
-specifically	NN	O	O
-designed	NN	O	O
-a	NN	O	B-Task
-new	NN	O	I-Task
-family	NN	O	I-Task
-of	NN	O	I-Task
-kernel	NN	O	I-Task
-functions	NN	O	I-Task
-which	NN	O	I-Task
-do	NN	O	I-Task
-not	NN	O	I-Task
-introduce	NN	O	I-Task
-these	NN	O	I-Task
-spurious	NN	O	I-Task
-oscillations	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-kernel	NN	O	B-Process
-functions	NN	O	I-Process
-are	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-taking	NN	O	O
-into	NN	O	O
-account	NN	O	O
-discrete	NN	O	O
-reproducibility	NN	O	O
-conditions	NN	O	O
-as	NN	O	O
-originally	NN	O	O
-introduced	NN	O	O
-by	NN	O	O
-Peskin	NN	O	O
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-(	NN	O	O
-in	NN	O	O
-our	NN	O	O
-case	NN	O	O
-,	NN	O	O
-tailor	NN	O	O
--	NN	O	O
-made	NN	O	O
-for	NN	O	O
-Cartesian	NN	O	B-Process
-staggered	NN	O	I-Process
-grids	NN	O	I-Process
-)	NN	O	O
-and	NN	O	O
-regularity	NN	O	O
-requirements	NN	O	O
-to	NN	O	O
-prevent	NN	O	O
-the	NN	O	O
-appearance	NN	O	O
-of	NN	O	O
-spurious	NN	O	O
-oscillations	NN	O	B-Material
-when	NN	O	O
-computing	NN	O	B-Process
-derivatives	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-Maple	NN	O	B-Task
-computer	NN	O	I-Task
-program	NN	O	I-Task
-has	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-to	NN	O	O
-obtain	NN	O	B-Task
-explicit	NN	O	I-Task
-expressions	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-new	NN	O	I-Task
-kernels	NN	O	I-Task
-.	NN	O	O
+Similar	0	7	O
+numerical	8	17	B-Material
+oscillations	18	30	I-Material
+to	31	33	O
+those	34	39	O
+described	40	49	O
+above	50	55	O
+also	56	60	O
+emerge	61	67	O
+in	68	70	O
+the	71	74	O
+ISPM	75	79	B-Material
+when	80	84	O
+utilising	85	94	O
+classical	95	104	O
+IBM	105	108	B-Process
+kernels	109	116	I-Process
+due	117	120	O
+to	121	123	O
+their	124	129	O
+lack	130	134	O
+of	135	137	O
+regularity	138	148	O
+(	149	150	O
+with	150	154	O
+discontinuous	155	168	O
+second	169	175	O
+derivatives	176	187	O
+)	187	188	O
+.	188	189	O
+
+Furthermore	190	201	O
+,	201	202	O
+it	203	205	O
+is	206	208	O
+important	209	218	O
+to	219	221	O
+remark	222	228	O
+that	229	233	O
+the	234	237	O
+immersed	238	246	O
+structure	247	256	O
+stresses	257	265	O
+are	266	269	O
+captured	270	278	O
+in	279	281	O
+the	282	285	O
+Lagrangian	286	296	B-Process
+description	297	308	I-Process
+and	309	312	O
+hence	313	318	O
+,	318	319	O
+in	320	322	O
+order	323	328	O
+to	329	331	O
+compute	332	339	O
+them	340	344	O
+accurately	345	355	O
+,	355	356	O
+it	357	359	O
+is	360	362	O
+important	363	372	O
+to	373	375	O
+ensure	376	382	O
+that	383	387	O
+these	388	393	O
+spurious	394	402	O
+oscillations	403	415	B-Material
+are	416	419	O
+not	420	423	O
+introduced	424	434	O
+via	435	438	O
+the	439	442	O
+kernel	443	449	B-Process
+interpolation	450	463	I-Process
+functions	464	473	I-Process
+.	473	474	O
+
+In	475	477	O
+this	478	482	O
+paper	483	488	O
+,	488	489	O
+the	490	493	O
+authors	494	501	O
+have	502	506	O
+specifically	507	519	O
+designed	520	528	O
+a	529	530	B-Task
+new	531	534	I-Task
+family	535	541	I-Task
+of	542	544	I-Task
+kernel	545	551	I-Task
+functions	552	561	I-Task
+which	562	567	I-Task
+do	568	570	I-Task
+not	571	574	I-Task
+introduce	575	584	I-Task
+these	585	590	I-Task
+spurious	591	599	I-Task
+oscillations	600	612	I-Task
+.	612	613	O
+
+The	614	617	O
+kernel	618	624	B-Process
+functions	625	634	I-Process
+are	635	638	O
+obtained	639	647	O
+by	648	650	O
+taking	651	657	O
+into	658	662	O
+account	663	670	O
+discrete	671	679	O
+reproducibility	680	695	O
+conditions	696	706	O
+as	707	709	O
+originally	710	720	O
+introduced	721	731	O
+by	732	734	O
+Peskin	735	741	O
+[	742	743	O
+14	743	745	O
+]	745	746	O
+(	747	748	O
+in	748	750	O
+our	751	754	O
+case	755	759	O
+,	759	760	O
+tailor	761	767	O
+-	767	768	O
+made	768	772	O
+for	773	776	O
+Cartesian	777	786	B-Process
+staggered	787	796	I-Process
+grids	797	802	I-Process
+)	802	803	O
+and	804	807	O
+regularity	808	818	O
+requirements	819	831	O
+to	832	834	O
+prevent	835	842	O
+the	843	846	O
+appearance	847	857	O
+of	858	860	O
+spurious	861	869	O
+oscillations	870	882	B-Material
+when	883	887	O
+computing	888	897	B-Process
+derivatives	898	909	I-Process
+.	909	910	O
+
+A	911	912	O
+Maple	913	918	B-Task
+computer	919	927	I-Task
+program	928	935	I-Task
+has	936	939	O
+been	940	944	O
+developed	945	954	O
+to	955	957	O
+obtain	958	964	B-Task
+explicit	965	973	I-Task
+expressions	974	985	I-Task
+for	986	989	I-Task
+the	990	993	I-Task
+new	994	997	I-Task
+kernels	998	1005	I-Task
+.	1005	1006	O
 
 
 -DOCSTART- (S002199911300346X)
 
-Contact	NN	O	B-Process
-methods	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-and	NN	O	O
-used	NN	O	O
-in	NN	O	O
-Lagrangian	NN	O	O
-staggered	NN	O	B-Material
--	NN	O	I-Material
-grid	NN	O	I-Material
-hydrodynamic	NN	O	I-Material
-(	NN	O	O
-SGH	NN	O	B-Material
-)	NN	O	O
-calculations	NN	O	O
-for	NN	O	O
-many	NN	O	O
-years	NN	O	O
-.	NN	O	O
-
-Early	NN	O	O
-examples	NN	O	O
-of	NN	O	O
-contact	NN	O	B-Process
-methods	NN	O	I-Process
-are	NN	O	O
-discussed	NN	O	O
-in	NN	O	O
-Wilkins	NN	O	O
-[	NN	O	O
-37	NN	O	O
-]	NN	O	O
-and	NN	O	O
-Cherry	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Hallquist	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-provides	NN	O	O
-an	NN	O	O
-overview	NN	O	O
-of	NN	O	O
-multiple	NN	O	O
-contact	NN	O	B-Process
-algorithms	NN	O	I-Process
-used	NN	O	O
-in	NN	O	O
-various	NN	O	O
-Lagrangian	NN	O	B-Process
-SGH	NN	O	I-Process
-codes	NN	O	O
-dating	NN	O	O
-back	NN	O	O
-to	NN	O	O
-HEMP	NN	O	B-Process
-[	NN	O	O
-37	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Of	NN	O	O
-particular	NN	O	O
-interest	NN	O	O
-,	NN	O	O
-Hallquist	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-describes	NN	O	O
-the	NN	O	O
-contact	NN	O	B-Process
-surface	NN	O	I-Process
-scheme	NN	O	I-Process
-used	NN	O	O
-in	NN	O	O
-TOODY	NN	O	B-Process
-[	NN	O	O
-31	NN	O	O
-]	NN	O	O
-and	NN	O	O
-later	NN	O	O
-implemented	NN	O	O
-in	NN	O	O
-DYNA2D	NN	O	B-Process
-[	NN	O	O
-36	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-contact	NN	O	B-Process
-method	NN	O	I-Process
-of	NN	O	O
-TOODY	NN	O	B-Process
-uses	NN	O	O
-a	NN	O	O
-master	NN	O	B-Process
-–	NN	O	I-Process
-slave	NN	O	I-Process
-approach	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-goal	NN	O	O
-of	NN	O	O
-this	NN	O	O
-approach	NN	O	O
-is	NN	O	O
-to	NN	O	O
-treat	NN	O	O
-the	NN	O	O
-nodes	NN	O	B-Material
-on	NN	O	O
-the	NN	O	O
-contact	NN	O	B-Material
-surface	NN	O	I-Material
-in	NN	O	O
-a	NN	O	O
-manner	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-an	NN	O	O
-internal	NN	O	B-Material
-node	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-physical	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-the	NN	O	O
-slave	NN	O	B-Material
-surface	NN	O	I-Material
-are	NN	O	O
-interpolated	NN	O	O
-to	NN	O	O
-a	NN	O	O
-ghost	NN	O	B-Material
-mesh	NN	O	I-Material
-(	NN	O	O
-termed	NN	O	O
-phony	NN	O	B-Material
-elements	NN	O	I-Material
-in	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-)	NN	O	O
-that	NN	O	O
-overlays	NN	O	O
-the	NN	O	O
-slave	NN	O	B-Material
-zones	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-physical	NN	O	O
-properties	NN	O	O
-are	NN	O	O
-interpolated	NN	O	O
-from	NN	O	O
-the	NN	O	O
-slave	NN	O	B-Material
-surface	NN	O	I-Material
-to	NN	O	O
-the	NN	O	O
-ghost	NN	O	B-Material
-zones	NN	O	I-Material
-using	NN	O	O
-surface	NN	O	O
-area	NN	O	O
-weights	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-surface	NN	O	O
-area	NN	O	O
-weights	NN	O	O
-are	NN	O	O
-equal	NN	O	O
-to	NN	O	O
-the	NN	O	O
-ratio	NN	O	O
-of	NN	O	O
-the	NN	O	O
-ghost	NN	O	B-Material
-zone	NN	O	I-Material
-surface	NN	O	I-Material
-area	NN	O	I-Material
-to	NN	O	O
-the	NN	O	O
-surface	NN	O	B-Material
-area	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-master	NN	O	B-Material
-surface	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-contact	NN	O	B-Task
-surface	NN	O	I-Task
-method	NN	O	I-Task
-for	NN	O	O
-nodal	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-Lagrangian	NN	O	I-Process
-cell	NN	O	I-Process
--	NN	O	I-Process
-centered	NN	O	I-Process
-hydrodynamics	NN	O	I-Process
-(	NN	O	O
-CCH	NN	O	B-Material
-)	NN	O	O
-presented	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-will	NN	O	O
-use	NN	O	O
-surface	NN	O	O
-area	NN	O	O
-weights	NN	O	O
-similar	NN	O	O
-in	NN	O	O
-concept	NN	O	O
-to	NN	O	O
-those	NN	O	O
-in	NN	O	O
-TOODY	NN	O	B-Process
-.	NN	O	O
-
-Following	NN	O	O
-the	NN	O	O
-area	NN	O	B-Process
-fraction	NN	O	I-Process
-approach	NN	O	I-Process
-of	NN	O	O
-TOODY	NN	O	B-Process
-may	NN	O	O
-seem	NN	O	O
-retrospective	NN	O	O
-;	NN	O	O
-however	NN	O	O
-,	NN	O	O
-using	NN	O	O
-surface	NN	O	O
-area	NN	O	O
-weights	NN	O	O
-naturally	NN	O	O
-extends	NN	O	O
-to	NN	O	O
-the	NN	O	O
-new	NN	O	O
-CCH	NN	O	B-Process
-methods	NN	O	I-Process
-that	NN	O	O
-solve	NN	O	B-Task
-a	NN	O	I-Task
-Riemann	NN	O	I-Task
--	NN	O	I-Task
-like	NN	O	I-Task
-problem	NN	O	I-Task
-at	NN	O	I-Task
-the	NN	O	I-Task
-node	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-zone	NN	O	I-Task
-[	NN	O	O
-10,24,25,3	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Contact	0	7	B-Process
+methods	8	15	I-Process
+have	16	20	O
+been	21	25	O
+developed	26	35	O
+and	36	39	O
+used	40	44	O
+in	45	47	O
+Lagrangian	48	58	O
+staggered	59	68	B-Material
+-	68	69	I-Material
+grid	69	73	I-Material
+hydrodynamic	74	86	I-Material
+(	87	88	O
+SGH	88	91	B-Material
+)	91	92	O
+calculations	93	105	O
+for	106	109	O
+many	110	114	O
+years	115	120	O
+.	120	121	O
+
+Early	122	127	O
+examples	128	136	O
+of	137	139	O
+contact	140	147	B-Process
+methods	148	155	I-Process
+are	156	159	O
+discussed	160	169	O
+in	170	172	O
+Wilkins	173	180	O
+[	181	182	O
+37	182	184	O
+]	184	185	O
+and	186	189	O
+Cherry	190	196	O
+et	197	199	O
+al	200	202	O
+.	202	203	O
+
+[	204	205	O
+7	205	206	O
+]	206	207	O
+.	207	208	O
+
+Hallquist	209	218	O
+et	219	221	O
+al	222	224	O
+.	224	225	O
+
+[	226	227	O
+17	227	229	O
+]	229	230	O
+provides	231	239	O
+an	240	242	O
+overview	243	251	O
+of	252	254	O
+multiple	255	263	O
+contact	264	271	B-Process
+algorithms	272	282	I-Process
+used	283	287	O
+in	288	290	O
+various	291	298	O
+Lagrangian	299	309	B-Process
+SGH	310	313	I-Process
+codes	314	319	O
+dating	320	326	O
+back	327	331	O
+to	332	334	O
+HEMP	335	339	B-Process
+[	340	341	O
+37	341	343	O
+]	343	344	O
+.	344	345	O
+
+Of	346	348	O
+particular	349	359	O
+interest	360	368	O
+,	368	369	O
+Hallquist	370	379	O
+et	380	382	O
+al	383	385	O
+.	385	386	O
+
+[	387	388	O
+17	388	390	O
+]	390	391	O
+describes	392	401	O
+the	402	405	O
+contact	406	413	B-Process
+surface	414	421	I-Process
+scheme	422	428	I-Process
+used	429	433	O
+in	434	436	O
+TOODY	437	442	B-Process
+[	443	444	O
+31	444	446	O
+]	446	447	O
+and	448	451	O
+later	452	457	O
+implemented	458	469	O
+in	470	472	O
+DYNA2D	473	479	B-Process
+[	480	481	O
+36	481	483	O
+]	483	484	O
+.	484	485	O
+
+The	486	489	O
+contact	490	497	B-Process
+method	498	504	I-Process
+of	505	507	O
+TOODY	508	513	B-Process
+uses	514	518	O
+a	519	520	O
+master	521	527	B-Process
+–	527	528	I-Process
+slave	528	533	I-Process
+approach	534	542	I-Process
+.	542	543	O
+
+The	544	547	O
+goal	548	552	O
+of	553	555	O
+this	556	560	O
+approach	561	569	O
+is	570	572	O
+to	573	575	O
+treat	576	581	O
+the	582	585	O
+nodes	586	591	B-Material
+on	592	594	O
+the	595	598	O
+contact	599	606	B-Material
+surface	607	614	I-Material
+in	615	617	O
+a	618	619	O
+manner	620	626	O
+similar	627	634	O
+to	635	637	O
+an	638	640	O
+internal	641	649	B-Material
+node	650	654	I-Material
+.	654	655	O
+
+The	656	659	O
+physical	660	668	O
+properties	669	679	O
+of	680	682	O
+the	683	686	O
+slave	687	692	B-Material
+surface	693	700	I-Material
+are	701	704	O
+interpolated	705	717	O
+to	718	720	O
+a	721	722	O
+ghost	723	728	B-Material
+mesh	729	733	I-Material
+(	734	735	O
+termed	735	741	O
+phony	742	747	B-Material
+elements	748	756	I-Material
+in	757	759	O
+[	760	761	O
+17	761	763	O
+]	763	764	O
+)	764	765	O
+that	766	770	O
+overlays	771	779	O
+the	780	783	O
+slave	784	789	B-Material
+zones	790	795	I-Material
+.	795	796	O
+
+The	797	800	O
+physical	801	809	O
+properties	810	820	O
+are	821	824	O
+interpolated	825	837	O
+from	838	842	O
+the	843	846	O
+slave	847	852	B-Material
+surface	853	860	I-Material
+to	861	863	O
+the	864	867	O
+ghost	868	873	B-Material
+zones	874	879	I-Material
+using	880	885	O
+surface	886	893	O
+area	894	898	O
+weights	899	906	O
+.	906	907	O
+
+The	908	911	O
+surface	912	919	O
+area	920	924	O
+weights	925	932	O
+are	933	936	O
+equal	937	942	O
+to	943	945	O
+the	946	949	O
+ratio	950	955	O
+of	956	958	O
+the	959	962	O
+ghost	963	968	B-Material
+zone	969	973	I-Material
+surface	974	981	I-Material
+area	982	986	I-Material
+to	987	989	O
+the	990	993	O
+surface	994	1001	B-Material
+area	1002	1006	I-Material
+of	1007	1009	O
+the	1010	1013	O
+master	1014	1020	B-Material
+surface	1021	1028	I-Material
+.	1028	1029	O
+
+The	1030	1033	O
+contact	1034	1041	B-Task
+surface	1042	1049	I-Task
+method	1050	1056	I-Task
+for	1057	1060	O
+nodal	1061	1066	B-Process
+-	1066	1067	I-Process
+based	1067	1072	I-Process
+Lagrangian	1073	1083	I-Process
+cell	1084	1088	I-Process
+-	1088	1089	I-Process
+centered	1089	1097	I-Process
+hydrodynamics	1098	1111	I-Process
+(	1112	1113	O
+CCH	1113	1116	B-Material
+)	1116	1117	O
+presented	1118	1127	O
+in	1128	1130	O
+this	1131	1135	O
+paper	1136	1141	O
+will	1142	1146	O
+use	1147	1150	O
+surface	1151	1158	O
+area	1159	1163	O
+weights	1164	1171	O
+similar	1172	1179	O
+in	1180	1182	O
+concept	1183	1190	O
+to	1191	1193	O
+those	1194	1199	O
+in	1200	1202	O
+TOODY	1203	1208	B-Process
+.	1208	1209	O
+
+Following	1210	1219	O
+the	1220	1223	O
+area	1224	1228	B-Process
+fraction	1229	1237	I-Process
+approach	1238	1246	I-Process
+of	1247	1249	O
+TOODY	1250	1255	B-Process
+may	1256	1259	O
+seem	1260	1264	O
+retrospective	1265	1278	O
+;	1278	1279	O
+however	1280	1287	O
+,	1287	1288	O
+using	1289	1294	O
+surface	1295	1302	O
+area	1303	1307	O
+weights	1308	1315	O
+naturally	1316	1325	O
+extends	1326	1333	O
+to	1334	1336	O
+the	1337	1340	O
+new	1341	1344	O
+CCH	1345	1348	B-Process
+methods	1349	1356	I-Process
+that	1357	1361	O
+solve	1362	1367	B-Task
+a	1368	1369	I-Task
+Riemann	1370	1377	I-Task
+-	1377	1378	I-Task
+like	1378	1382	I-Task
+problem	1383	1390	I-Task
+at	1391	1393	I-Task
+the	1394	1397	I-Task
+node	1398	1402	I-Task
+of	1403	1405	I-Task
+a	1406	1407	I-Task
+zone	1408	1412	I-Task
+[	1413	1414	O
+10,24,25,3	1414	1424	O
+]	1424	1425	O
+.	1425	1426	O
 
 
 -DOCSTART- (S0021999113004555)
 
-Three	NN	O	O
-Runge	NN	O	O
-–	NN	O	O
-
-Kutta	NN	O	O
-IMEX	NN	O	O
-schemes	NN	O	O
-were	NN	O	O
-tested	NN	O	O
-by	NN	O	O
-Ullrich	NN	O	O
-and	NN	O	O
-Jablonowski	NN	O	O
-
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-for	NN	O	O
-the	NN	O	O
-HEVI	NN	O	B-Process
-solution	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-equations	NN	O	O
-governing	NN	O	O
-atmospheric	NN	O	B-Process
-motion	NN	O	I-Process
-.	NN	O	O
-
-They	NN	O	O
-tested	NN	O	O
-the	NN	O	O
-ARS(2,3,2	NN	O	B-Process
-)	NN	O	I-Process
-scheme	NN	O	I-Process
-of	NN	O	O
-Ascher	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-and	NN	O	O
-also	NN	O	O
-suggested	NN	O	O
-the	NN	O	O
-less	NN	O	O
-computationally	NN	O	O
-expensive	NN	O	O
-but	NN	O	O
-nearly	NN	O	O
-as	NN	O	O
-accurate	NN	O	O
-Strang	NN	O	B-Process
-carryover	NN	O	I-Process
-scheme	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-involves	NN	O	O
-Strang	NN	O	B-Process
-splitting	NN	O	I-Process
-but	NN	O	O
-the	NN	O	O
-first	NN	O	O
-implicit	NN	O	O
-stage	NN	O	O
-is	NN	O	O
-cleverly	NN	O	O
-re	NN	O	O
--	NN	O	O
-used	NN	O	O
-from	NN	O	O
-the	NN	O	O
-final	NN	O	O
-implicit	NN	O	O
-stage	NN	O	O
-of	NN	O	O
-the	NN	O	O
-previous	NN	O	O
-time	NN	O	O
--	NN	O	O
-step	NN	O	O
-
-and	NN	O	O
-so	NN	O	O
-there	NN	O	O
-is	NN	O	O
-only	NN	O	O
-one	NN	O	O
-implicit	NN	O	O
-solution	NN	O	O
-per	NN	O	O
-time	NN	O	O
--	NN	O	O
-step	NN	O	O
-.	NN	O	O
-
-Another	NN	O	O
-novel	NN	O	O
-approach	NN	O	O
-taken	NN	O	O
-by	NN	O	O
-Ullrich	NN	O	O
-and	NN	O	O
-Jablonowski	NN	O	O
-
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-is	NN	O	O
-to	NN	O	O
-use	NN	O	O
-a	NN	O	O
-Rosenbrock	NN	O	B-Process
-solution	NN	O	I-Process
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-treat	NN	O	O
-all	NN	O	O
-of	NN	O	O
-the	NN	O	O
-vertical	NN	O	O
-terms	NN	O	O
-implicitly	NN	O	O
-rather	NN	O	O
-than	NN	O	O
-just	NN	O	O
-the	NN	O	O
-terms	NN	O	O
-involved	NN	O	O
-in	NN	O	O
-wave	NN	O	B-Process
-propagation	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-Rosenbrock	NN	O	B-Process
-solution	NN	O	I-Process
-is	NN	O	O
-one	NN	O	B-Process
-iteration	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-Newton	NN	O	I-Process
-solver	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-circumvents	NN	O	O
-the	NN	O	O
-time	NN	O	B-Process
--	NN	O	I-Process
-step	NN	O	I-Process
-restriction	NN	O	I-Process
-associated	NN	O	O
-with	NN	O	O
-vertical	NN	O	B-Process
-advection	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-cost	NN	O	O
-of	NN	O	O
-slowing	NN	O	B-Process
-the	NN	O	I-Process
-vertical	NN	O	I-Process
-advection	NN	O	I-Process
-.	NN	O	O
+Three	0	5	O
+Runge	6	11	O
+–	11	12	O
+
+Kutta	12	17	O
+IMEX	18	22	O
+schemes	23	30	O
+were	31	35	O
+tested	36	42	O
+by	43	45	O
+Ullrich	46	53	O
+and	54	57	O
+Jablonowski	58	69	O
+
+[	70	71	O
+23	71	73	O
+]	73	74	O
+for	75	78	O
+the	79	82	O
+HEVI	83	87	B-Process
+solution	88	96	I-Process
+of	97	99	O
+the	100	103	O
+equations	104	113	O
+governing	114	123	O
+atmospheric	124	135	B-Process
+motion	136	142	I-Process
+.	142	143	O
+
+They	144	148	O
+tested	149	155	O
+the	156	159	O
+ARS(2,3,2	160	169	B-Process
+)	169	170	I-Process
+scheme	171	177	I-Process
+of	178	180	O
+Ascher	181	187	O
+et	188	190	O
+al	191	193	O
+.	193	194	O
+
+[	195	196	O
+1	196	197	O
+]	197	198	O
+and	199	202	O
+also	203	207	O
+suggested	208	217	O
+the	218	221	O
+less	222	226	O
+computationally	227	242	O
+expensive	243	252	O
+but	253	256	O
+nearly	257	263	O
+as	264	266	O
+accurate	267	275	O
+Strang	276	282	B-Process
+carryover	283	292	I-Process
+scheme	293	299	I-Process
+.	299	300	O
+
+This	301	305	O
+involves	306	314	O
+Strang	315	321	B-Process
+splitting	322	331	I-Process
+but	332	335	O
+the	336	339	O
+first	340	345	O
+implicit	346	354	O
+stage	355	360	O
+is	361	363	O
+cleverly	364	372	O
+re	373	375	O
+-	375	376	O
+used	376	380	O
+from	381	385	O
+the	386	389	O
+final	390	395	O
+implicit	396	404	O
+stage	405	410	O
+of	411	413	O
+the	414	417	O
+previous	418	426	O
+time	427	431	O
+-	431	432	O
+step	432	436	O
+
+and	437	440	O
+so	441	443	O
+there	444	449	O
+is	450	452	O
+only	453	457	O
+one	458	461	O
+implicit	462	470	O
+solution	471	479	O
+per	480	483	O
+time	484	488	O
+-	488	489	O
+step	489	493	O
+.	493	494	O
+
+Another	495	502	O
+novel	503	508	O
+approach	509	517	O
+taken	518	523	O
+by	524	526	O
+Ullrich	527	534	O
+and	535	538	O
+Jablonowski	539	550	O
+
+[	551	552	O
+23	552	554	O
+]	554	555	O
+is	556	558	O
+to	559	561	O
+use	562	565	O
+a	566	567	O
+Rosenbrock	568	578	B-Process
+solution	579	587	I-Process
+in	588	590	O
+order	591	596	O
+to	597	599	O
+treat	600	605	O
+all	606	609	O
+of	610	612	O
+the	613	616	O
+vertical	617	625	O
+terms	626	631	O
+implicitly	632	642	O
+rather	643	649	O
+than	650	654	O
+just	655	659	O
+the	660	663	O
+terms	664	669	O
+involved	670	678	O
+in	679	681	O
+wave	682	686	B-Process
+propagation	687	698	I-Process
+.	698	699	O
+
+A	700	701	O
+Rosenbrock	702	712	B-Process
+solution	713	721	I-Process
+is	722	724	O
+one	725	728	B-Process
+iteration	729	738	I-Process
+of	739	741	I-Process
+a	742	743	I-Process
+Newton	744	750	I-Process
+solver	751	757	I-Process
+.	757	758	O
+
+This	759	763	O
+circumvents	764	775	O
+the	776	779	O
+time	780	784	B-Process
+-	784	785	I-Process
+step	785	789	I-Process
+restriction	790	801	I-Process
+associated	802	812	O
+with	813	817	O
+vertical	818	826	B-Process
+advection	827	836	I-Process
+at	837	839	O
+the	840	843	O
+cost	844	848	O
+of	849	851	O
+slowing	852	859	B-Process
+the	860	863	I-Process
+vertical	864	872	I-Process
+advection	873	882	I-Process
+.	882	883	O
 
 
 -DOCSTART- (S0021999113005603)
 
-After	NN	O	O
-all	NN	O	O
-micro	NN	O	O
-elements	NN	O	O
-reach	NN	O	O
-a	NN	O	O
-relaxed	NN	O	O
-steady	NN	O	O
--	NN	O	O
-state	NN	O	O
-,	NN	O	O
-measurements	NN	O	O
-are	NN	O	O
-obtained	NN	O	O
-using	NN	O	O
-a	NN	O	O
-cumulative	NN	O	B-Process
-averaging	NN	O	I-Process
-technique	NN	O	I-Process
-to	NN	O	O
-reduce	NN	O	B-Task
-noise	NN	O	I-Task
-.	NN	O	O
-
-Each	NN	O	O
-micro	NN	O	O
-element	NN	O	O
-is	NN	O	O
-divided	NN	O	B-Process
-into	NN	O	I-Process
-spatially	NN	O	I-Process
--	NN	O	I-Process
-oriented	NN	O	I-Process
-bins	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-y	NN	O	O
--	NN	O	O
-direction	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-resolve	NN	O	B-Process
-the	NN	O	I-Process
-velocity	NN	O	I-Process
-and	NN	O	I-Process
-shear	NN	O	I-Process
--	NN	O	I-Process
-stress	NN	O	I-Process
-profiles	NN	O	I-Process
-.	NN	O	O
-
-Velocity	NN	O	O
-in	NN	O	O
-each	NN	O	O
-bin	NN	O	O
-is	NN	O	O
-measured	NN	O	O
-using	NN	O	O
-the	NN	O	O
-Cumulative	NN	O	B-Process
-Averaging	NN	O	I-Process
-Method	NN	O	I-Process
-(	NN	O	O
-CAM	NN	O	B-Process
-)	NN	O	O
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-,	NN	O	O
-while	NN	O	O
-the	NN	O	O
-stress	NN	O	B-Process
-tensor	NN	O	I-Process
-field	NN	O	I-Process
-is	NN	O	O
-measured	NN	O	O
-using	NN	O	O
-the	NN	O	O
-Irving	NN	O	O
-–	NN	O	O
-
-Kirkwood	NN	O	O
-relationship	NN	O	O
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-least	NN	O	B-Process
--	NN	O	I-Process
-squares	NN	O	I-Process
-polynomial	NN	O	I-Process
-fit	NN	O	I-Process
-to	NN	O	O
-the	NN	O	O
-data	NN	O	O
-is	NN	O	O
-performed	NN	O	O
-,	NN	O	O
-which	NN	O	O
-helps	NN	O	O
-reduce	NN	O	B-Task
-noise	NN	O	I-Task
-further	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-fit	NN	O	O
-produces	NN	O	O
-a	NN	O	O
-continuous	NN	O	B-Process
-function	NN	O	I-Process
-that	NN	O	O
-avoids	NN	O	O
-stability	NN	O	B-Process
-issues	NN	O	I-Process
-arising	NN	O	O
-from	NN	O	O
-supplying	NN	O	B-Process
-highly	NN	O	I-Process
-fluctuating	NN	O	I-Process
-data	NN	O	I-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-macro	NN	O	I-Process
-solver	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-least	NN	O	B-Process
--	NN	O	I-Process
-squares	NN	O	I-Process
-fit	NN	O	I-Process
-is	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-an	NN	O	O
-Nth	NN	O	B-Material
-order	NN	O	I-Material
-polynomial	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-velocity	NN	O	O
-profile	NN	O	O
-in	NN	O	O
-the	NN	O	O
-core	NN	O	O
-region	NN	O	O
-,	NN	O	O
-and	NN	O	O
-an	NN	O	O
-Mth	NN	O	B-Material
-order	NN	O	I-Material
-polynomial	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-velocity	NN	O	O
-profile	NN	O	O
-in	NN	O	O
-the	NN	O	O
-constrained	NN	O	O
-region:(16)〈ui	NN	O	O
-,	NN	O	O
-core〉=∑k=1Nbk	NN	O	O
-,	NN	O	O
-iyi′(N−k),for	NN	O	O
-0⩽yi′⩽hcore	NN	O	O
-,	NN	O	O
-and(17)〈ui	NN	O	O
-,	NN	O	O
-cs〉=∑k=1Mck	NN	O	O
-,	NN	O	O
-
-iyi″(M−k),for	NN	O	O
-
-0⩽yi″⩽hcs	NN	O	O
-,	NN	O	O
-where	NN	O	O
-bk	NN	O	O
-,	NN	O	O
-i	NN	O	O
-and	NN	O	O
-ck	NN	O	O
-,	NN	O	O
-i	NN	O	O
-are	NN	O	O
-the	NN	O	O
-coefficients	NN	O	O
-of	NN	O	O
-the	NN	O	O
-polynomials	NN	O	B-Material
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-core	NN	O	O
-micro	NN	O	O
-region	NN	O	O
-and	NN	O	O
-constrained	NN	O	O
-region	NN	O	O
-respectively	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-estimate	NN	O	O
-of	NN	O	O
-the	NN	O	O
-new	NN	O	B-Material
-slip	NN	O	I-Material
-velocity	NN	O	I-Material
-uB	NN	O	O
-for	NN	O	O
-input	NN	O	O
-to	NN	O	O
-the	NN	O	O
-macro	NN	O	B-Material
-solution	NN	O	I-Material
-(	NN	O	O
-6	NN	O	O
-)	NN	O	O
-is	NN	O	O
-taken	NN	O	O
-directly	NN	O	O
-from	NN	O	O
-the	NN	O	O
-compressed	NN	O	B-Material
-wall	NN	O	I-Material
-micro	NN	O	I-Material
--	NN	O	I-Material
-element	NN	O	I-Material
-solution	NN	O	I-Material
-(	NN	O	O
-16	NN	O	O
-)	NN	O	O
-,	NN	O	O
-at	NN	O	O
-yi′=0	NN	O	O
-.	NN	O	O
+After	0	5	O
+all	6	9	O
+micro	10	15	O
+elements	16	24	O
+reach	25	30	O
+a	31	32	O
+relaxed	33	40	O
+steady	41	47	O
+-	47	48	O
+state	48	53	O
+,	53	54	O
+measurements	55	67	O
+are	68	71	O
+obtained	72	80	O
+using	81	86	O
+a	87	88	O
+cumulative	89	99	B-Process
+averaging	100	109	I-Process
+technique	110	119	I-Process
+to	120	122	O
+reduce	123	129	B-Task
+noise	130	135	I-Task
+.	135	136	O
+
+Each	137	141	O
+micro	142	147	O
+element	148	155	O
+is	156	158	O
+divided	159	166	B-Process
+into	167	171	I-Process
+spatially	172	181	I-Process
+-	181	182	I-Process
+oriented	182	190	I-Process
+bins	191	195	I-Process
+in	196	198	O
+the	199	202	O
+y	203	204	O
+-	204	205	O
+direction	205	214	O
+in	215	217	O
+order	218	223	O
+to	224	226	O
+resolve	227	234	B-Process
+the	235	238	I-Process
+velocity	239	247	I-Process
+and	248	251	I-Process
+shear	252	257	I-Process
+-	257	258	I-Process
+stress	258	264	I-Process
+profiles	265	273	I-Process
+.	273	274	O
+
+Velocity	275	283	O
+in	284	286	O
+each	287	291	O
+bin	292	295	O
+is	296	298	O
+measured	299	307	O
+using	308	313	O
+the	314	317	O
+Cumulative	318	328	B-Process
+Averaging	329	338	I-Process
+Method	339	345	I-Process
+(	346	347	O
+CAM	347	350	B-Process
+)	350	351	O
+[	352	353	O
+24	353	355	O
+]	355	356	O
+,	356	357	O
+while	358	363	O
+the	364	367	O
+stress	368	374	B-Process
+tensor	375	381	I-Process
+field	382	387	I-Process
+is	388	390	O
+measured	391	399	O
+using	400	405	O
+the	406	409	O
+Irving	410	416	O
+–	416	417	O
+
+Kirkwood	417	425	O
+relationship	426	438	O
+[	439	440	O
+25	440	442	O
+]	442	443	O
+.	443	444	O
+
+A	445	446	O
+least	447	452	B-Process
+-	452	453	I-Process
+squares	453	460	I-Process
+polynomial	461	471	I-Process
+fit	472	475	I-Process
+to	476	478	O
+the	479	482	O
+data	483	487	O
+is	488	490	O
+performed	491	500	O
+,	500	501	O
+which	502	507	O
+helps	508	513	O
+reduce	514	520	B-Task
+noise	521	526	I-Task
+further	527	534	O
+.	534	535	O
+
+The	536	539	O
+fit	540	543	O
+produces	544	552	O
+a	553	554	O
+continuous	555	565	B-Process
+function	566	574	I-Process
+that	575	579	O
+avoids	580	586	O
+stability	587	596	B-Process
+issues	597	603	I-Process
+arising	604	611	O
+from	612	616	O
+supplying	617	626	B-Process
+highly	627	633	I-Process
+fluctuating	634	645	I-Process
+data	646	650	I-Process
+to	651	653	I-Process
+the	654	657	I-Process
+macro	658	663	I-Process
+solver	664	670	I-Process
+.	670	671	O
+
+A	672	673	O
+least	674	679	B-Process
+-	679	680	I-Process
+squares	680	687	I-Process
+fit	688	691	I-Process
+is	692	694	O
+applied	695	702	O
+to	703	705	O
+an	706	708	O
+Nth	709	712	B-Material
+order	713	718	I-Material
+polynomial	719	729	I-Material
+for	730	733	O
+the	734	737	O
+velocity	738	746	O
+profile	747	754	O
+in	755	757	O
+the	758	761	O
+core	762	766	O
+region	767	773	O
+,	773	774	O
+and	775	778	O
+an	779	781	O
+Mth	782	785	B-Material
+order	786	791	I-Material
+polynomial	792	802	I-Material
+for	803	806	O
+the	807	810	O
+velocity	811	819	O
+profile	820	827	O
+in	828	830	O
+the	831	834	O
+constrained	835	846	O
+region:(16)〈ui	847	861	O
+,	861	862	O
+core〉=∑k=1Nbk	862	875	O
+,	875	876	O
+iyi′(N−k),for	876	889	O
+0⩽yi′⩽hcore	890	901	O
+,	901	902	O
+and(17)〈ui	903	913	O
+,	913	914	O
+cs〉=∑k=1Mck	914	925	O
+,	925	926	O
+
+iyi″(M−k),for	926	939	O
+
+0⩽yi″⩽hcs	940	949	O
+,	949	950	O
+where	951	956	O
+bk	957	959	O
+,	959	960	O
+i	960	961	O
+and	962	965	O
+ck	966	968	O
+,	968	969	O
+i	969	970	O
+are	971	974	O
+the	975	978	O
+coefficients	979	991	O
+of	992	994	O
+the	995	998	O
+polynomials	999	1010	B-Material
+used	1011	1015	O
+in	1016	1018	O
+the	1019	1022	O
+core	1023	1027	O
+micro	1028	1033	O
+region	1034	1040	O
+and	1041	1044	O
+constrained	1045	1056	O
+region	1057	1063	O
+respectively	1064	1076	O
+.	1076	1077	O
+
+An	1078	1080	O
+estimate	1081	1089	O
+of	1090	1092	O
+the	1093	1096	O
+new	1097	1100	B-Material
+slip	1101	1105	I-Material
+velocity	1106	1114	I-Material
+uB	1115	1117	O
+for	1118	1121	O
+input	1122	1127	O
+to	1128	1130	O
+the	1131	1134	O
+macro	1135	1140	B-Material
+solution	1141	1149	I-Material
+(	1150	1151	O
+6	1151	1152	O
+)	1152	1153	O
+is	1154	1156	O
+taken	1157	1162	O
+directly	1163	1171	O
+from	1172	1176	O
+the	1177	1180	O
+compressed	1181	1191	B-Material
+wall	1192	1196	I-Material
+micro	1197	1202	I-Material
+-	1202	1203	I-Material
+element	1203	1210	I-Material
+solution	1211	1219	I-Material
+(	1220	1221	O
+16	1221	1223	O
+)	1223	1224	O
+,	1224	1225	O
+at	1226	1228	O
+yi′=0	1229	1234	O
+.	1234	1235	O
 
 
 -DOCSTART- (S0021999113005652)
 
-It	NN	O	O
-is	NN	O	O
-interesting	NN	O	O
-to	NN	O	O
-quantify	NN	O	B-Task
-the	NN	O	I-Task
-effects	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-Schmidt	NN	O	I-Task
-number	NN	O	I-Task
-and	NN	O	I-Task
-the	NN	O	I-Task
-chemical	NN	O	I-Task
-reaction	NN	O	I-Task
-rate	NN	O	I-Task
-on	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Material
--	NN	O	I-Material
-mean	NN	O	I-Material
-concentration	NN	O	I-Material
-of	NN	O	I-Material
-B	NN	O	I-Material
-in	NN	O	O
-water	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-data	NN	O	O
-could	NN	O	O
-present	NN	O	O
-important	NN	O	O
-information	NN	O	O
-on	NN	O	O
-evaluating	NN	O	O
-the	NN	O	O
-environmental	NN	O	O
-impacts	NN	O	O
-of	NN	O	O
-the	NN	O	O
-degradation	NN	O	B-Material
-product	NN	O	I-Material
-of	NN	O	O
-B	NN	O	O
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-acidification	NN	O	B-Process
-of	NN	O	I-Process
-water	NN	O	I-Process
-by	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-.	NN	O	O
-
-Here	NN	O	O
-,	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Material
--	NN	O	I-Material
-mean	NN	O	I-Material
-concentration	NN	O	I-Material
-of	NN	O	I-Material
-B	NN	O	I-Material
-is	NN	O	O
-defined	NN	O	O
-by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-15	NN	O	O
-depicts	NN	O	O
-the	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Schmidt	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-rate	NN	O	I-Process
-on	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Material
--	NN	O	I-Material
-mean	NN	O	I-Material
-concentration	NN	O	I-Material
-CB⁎¯.	NN	O	I-Material
-
-It	NN	O	O
-is	NN	O	O
-worth	NN	O	O
-to	NN	O	O
-mention	NN	O	O
-here	NN	O	O
-that	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Material
--	NN	O	I-Material
-mean	NN	O	I-Material
-concentration	NN	O	I-Material
-of	NN	O	I-Material
-B	NN	O	I-Material
-reaches	NN	O	O
-approximately	NN	O	O
-0.6	NN	O	O
-as	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-rate	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-Schmidt	NN	O	B-Material
-number	NN	O	I-Material
-increase	NN	O	O
-to	NN	O	O
-infinite	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-concentration	NN	O	O
-is	NN	O	O
-smaller	NN	O	O
-than	NN	O	O
-the	NN	O	O
-equilibrium	NN	O	B-Material
-concentration	NN	O	I-Material
-of	NN	O	I-Material
-A	NN	O	I-Material
-at	NN	O	O
-the	NN	O	O
-interface	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-figure	NN	O	O
-indicates	NN	O	O
-that	NN	O	O
-progress	NN	O	O
-of	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-is	NN	O	O
-somewhat	NN	O	O
-interfered	NN	O	O
-by	NN	O	O
-turbulent	NN	O	B-Process
-mixing	NN	O	I-Process
-in	NN	O	O
-water	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-efficiency	NN	O	O
-of	NN	O	O
-the	NN	O	O
-chemical	NN	O	O
-reaction	NN	O	O
-is	NN	O	O
-up	NN	O	O
-to	NN	O	O
-approximately	NN	O	O
-60	NN	O	O
-%	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-efficiency	NN	O	O
-of	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-in	NN	O	O
-water	NN	O	O
-will	NN	O	O
-be	NN	O	O
-a	NN	O	O
-function	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Reynolds	NN	O	B-Material
-number	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-water	NN	O	O
-flow	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-efficiency	NN	O	O
-could	NN	O	O
-increase	NN	O	O
-as	NN	O	O
-the	NN	O	O
-Reynolds	NN	O	B-Material
-number	NN	O	I-Material
-increases	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-need	NN	O	O
-an	NN	O	O
-extensive	NN	O	O
-investigation	NN	O	O
-on	NN	O	O
-the	NN	O	O
-efficiency	NN	O	O
-of	NN	O	O
-the	NN	O	O
-aquarium	NN	O	B-Process
-chemical	NN	O	I-Process
-reaction	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-near	NN	O	O
-future	NN	O	O
-to	NN	O	O
-extend	NN	O	O
-the	NN	O	O
-results	NN	O	O
-of	NN	O	O
-this	NN	O	O
-study	NN	O	O
-further	NN	O	O
-to	NN	O	O
-establish	NN	O	O
-practical	NN	O	B-Process
-modelling	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Process
-exchange	NN	O	I-Process
-between	NN	O	O
-air	NN	O	O
-and	NN	O	O
-water	NN	O	O
-.	NN	O	O
+It	0	2	O
+is	3	5	O
+interesting	6	17	O
+to	18	20	O
+quantify	21	29	B-Task
+the	30	33	I-Task
+effects	34	41	I-Task
+of	42	44	I-Task
+the	45	48	I-Task
+Schmidt	49	56	I-Task
+number	57	63	I-Task
+and	64	67	I-Task
+the	68	71	I-Task
+chemical	72	80	I-Task
+reaction	81	89	I-Task
+rate	90	94	I-Task
+on	95	97	O
+the	98	101	O
+bulk	102	106	B-Material
+-	106	107	I-Material
+mean	107	111	I-Material
+concentration	112	125	I-Material
+of	126	128	I-Material
+B	129	130	I-Material
+in	131	133	O
+water	134	139	O
+.	139	140	O
+
+The	141	144	O
+data	145	149	O
+could	150	155	O
+present	156	163	O
+important	164	173	O
+information	174	185	O
+on	186	188	O
+evaluating	189	199	O
+the	200	203	O
+environmental	204	217	O
+impacts	218	225	O
+of	226	228	O
+the	229	232	O
+degradation	233	244	B-Material
+product	245	252	I-Material
+of	253	255	O
+B	256	257	O
+,	257	258	O
+as	259	261	O
+well	262	266	O
+as	267	269	O
+acidification	270	283	B-Process
+of	284	286	I-Process
+water	287	292	I-Process
+by	293	295	O
+the	296	299	O
+chemical	300	308	B-Process
+reaction	309	317	I-Process
+.	317	318	O
+
+Here	319	323	O
+,	323	324	O
+the	325	328	O
+bulk	329	333	B-Material
+-	333	334	I-Material
+mean	334	338	I-Material
+concentration	339	352	I-Material
+of	353	355	I-Material
+B	356	357	I-Material
+is	358	360	O
+defined	361	368	O
+by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	369	395	O
+Fig	396	399	O
+.	399	400	O
+
+15	401	403	O
+depicts	404	411	O
+the	412	415	O
+effect	416	422	O
+of	423	425	O
+the	426	429	O
+Schmidt	430	437	B-Material
+and	438	441	O
+the	442	445	O
+chemical	446	454	B-Process
+reaction	455	463	I-Process
+rate	464	468	I-Process
+on	469	471	O
+the	472	475	O
+bulk	476	480	B-Material
+-	480	481	I-Material
+mean	481	485	I-Material
+concentration	486	499	I-Material
+CB⁎¯.	500	505	I-Material
+
+It	506	508	O
+is	509	511	O
+worth	512	517	O
+to	518	520	O
+mention	521	528	O
+here	529	533	O
+that	534	538	O
+the	539	542	O
+bulk	543	547	B-Material
+-	547	548	I-Material
+mean	548	552	I-Material
+concentration	553	566	I-Material
+of	567	569	I-Material
+B	570	571	I-Material
+reaches	572	579	O
+approximately	580	593	O
+0.6	594	597	O
+as	598	600	O
+the	601	604	O
+chemical	605	613	B-Process
+reaction	614	622	I-Process
+rate	623	627	I-Process
+and	628	631	O
+the	632	635	O
+Schmidt	636	643	B-Material
+number	644	650	I-Material
+increase	651	659	O
+to	660	662	O
+infinite	663	671	O
+,	671	672	O
+and	673	676	O
+the	677	680	O
+concentration	681	694	O
+is	695	697	O
+smaller	698	705	O
+than	706	710	O
+the	711	714	O
+equilibrium	715	726	B-Material
+concentration	727	740	I-Material
+of	741	743	I-Material
+A	744	745	I-Material
+at	746	748	O
+the	749	752	O
+interface	753	762	O
+.	762	763	O
+
+This	764	768	O
+figure	769	775	O
+indicates	776	785	O
+that	786	790	O
+progress	791	799	O
+of	800	802	O
+the	803	806	O
+chemical	807	815	B-Process
+reaction	816	824	I-Process
+is	825	827	O
+somewhat	828	836	O
+interfered	837	847	O
+by	848	850	O
+turbulent	851	860	B-Process
+mixing	861	867	I-Process
+in	868	870	O
+water	871	876	O
+,	876	877	O
+and	878	881	O
+the	882	885	O
+efficiency	886	896	O
+of	897	899	O
+the	900	903	O
+chemical	904	912	O
+reaction	913	921	O
+is	922	924	O
+up	925	927	O
+to	928	930	O
+approximately	931	944	O
+60	945	947	O
+%	947	948	O
+.	948	949	O
+
+The	950	953	O
+efficiency	954	964	O
+of	965	967	O
+the	968	971	O
+chemical	972	980	B-Process
+reaction	981	989	I-Process
+in	990	992	O
+water	993	998	O
+will	999	1003	O
+be	1004	1006	O
+a	1007	1008	O
+function	1009	1017	O
+of	1018	1020	O
+the	1021	1024	O
+Reynolds	1025	1033	B-Material
+number	1034	1040	I-Material
+of	1041	1043	O
+the	1044	1047	O
+water	1048	1053	O
+flow	1054	1058	O
+,	1058	1059	O
+and	1060	1063	O
+the	1064	1067	O
+efficiency	1068	1078	O
+could	1079	1084	O
+increase	1085	1093	O
+as	1094	1096	O
+the	1097	1100	O
+Reynolds	1101	1109	B-Material
+number	1110	1116	I-Material
+increases	1117	1126	O
+.	1126	1127	O
+
+We	1128	1130	O
+need	1131	1135	O
+an	1136	1138	O
+extensive	1139	1148	O
+investigation	1149	1162	O
+on	1163	1165	O
+the	1166	1169	O
+efficiency	1170	1180	O
+of	1181	1183	O
+the	1184	1187	O
+aquarium	1188	1196	B-Process
+chemical	1197	1205	I-Process
+reaction	1206	1214	I-Process
+in	1215	1217	O
+the	1218	1221	O
+near	1222	1226	O
+future	1227	1233	O
+to	1234	1236	O
+extend	1237	1243	O
+the	1244	1247	O
+results	1248	1255	O
+of	1256	1258	O
+this	1259	1263	O
+study	1264	1269	O
+further	1270	1277	O
+to	1278	1280	O
+establish	1281	1290	O
+practical	1291	1300	B-Process
+modelling	1301	1310	I-Process
+for	1311	1314	O
+the	1315	1318	O
+gas	1319	1322	B-Process
+exchange	1323	1331	I-Process
+between	1332	1339	O
+air	1340	1343	O
+and	1344	1347	O
+water	1348	1353	O
+.	1353	1354	O
 
 
 -DOCSTART- (S0021999113005718)
 
-Numerical	NN	O	B-Task
-simulation	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Process
-flow	NN	O	I-Process
-through	NN	O	O
-such	NN	O	O
-non	NN	O	O
--	NN	O	O
-trivial	NN	O	O
-internal	NN	O	O
-geometries	NN	O	O
-is	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-extremely	NN	O	O
-challenging	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-because	NN	O	O
-conventional	NN	O	B-Process
-continuum	NN	O	I-Process
-fluid	NN	O	I-Process
-dynamics	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-assumes	NN	O	O
-that	NN	O	O
-locally	NN	O	O
-a	NN	O	O
-gas	NN	O	O
-is	NN	O	O
-close	NN	O	O
-to	NN	O	O
-a	NN	O	O
-state	NN	O	O
-of	NN	O	O
-thermodynamic	NN	O	B-Process
-equilibrium	NN	O	I-Process
-,	NN	O	O
-becomes	NN	O	O
-invalid	NN	O	O
-or	NN	O	O
-inaccurate	NN	O	O
-as	NN	O	O
-the	NN	O	O
-smallest	NN	O	O
-characteristic	NN	O	O
-scale	NN	O	O
-of	NN	O	O
-the	NN	O	O
-geometry	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-the	NN	O	O
-channel	NN	O	B-Material
-height	NN	O	I-Material
-)	NN	O	O
-approaches	NN	O	O
-the	NN	O	O
-mean	NN	O	O
-distance	NN	O	O
-between	NN	O	O
-molecular	NN	O	B-Process
-collisions	NN	O	I-Process
-,	NN	O	O
-λ	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-accurate	NN	O	B-Process
-and	NN	O	I-Process
-flexible	NN	O	I-Process
-modelling	NN	O	I-Process
-alternative	NN	O	I-Process
-for	NN	O	O
-these	NN	O	O
-cases	NN	O	O
-is	NN	O	O
-the	NN	O	O
-direct	NN	O	B-Process
-simulation	NN	O	I-Process
-Monte	NN	O	I-Process
-Carlo	NN	O	I-Process
-method	NN	O	I-Process
-(	NN	O	O
-DSMC	NN	O	B-Process
-)	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-DSMC	NN	O	B-Process
-can	NN	O	O
-be	NN	O	O
-prohibitively	NN	O	O
-expensive	NN	O	O
-for	NN	O	O
-internal	NN	O	B-Process
--	NN	O	I-Process
-flow	NN	O	I-Process
-applications	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-typically	NN	O	O
-have	NN	O	O
-a	NN	O	O
-geometry	NN	O	O
-of	NN	O	O
-high	NN	O	B-Material
--	NN	O	I-Material
-aspect	NN	O	I-Material
-ratio	NN	O	I-Material
-(	NN	O	O
-i.e.	NN	O	O
-are	NN	O	O
-extremely	NN	O	O
-long	NN	O	O
-,	NN	O	O
-relative	NN	O	O
-to	NN	O	O
-their	NN	O	O
-cross	NN	O	O
--	NN	O	O
-section	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-high	NN	O	B-Material
--	NN	O	I-Material
-aspect	NN	O	I-Material
-ratio	NN	O	I-Material
-creates	NN	O	O
-a	NN	O	O
-formidable	NN	O	O
-multiscale	NN	O	B-Task
-problem	NN	O	I-Task
-:	NN	O	O
-processes	NN	O	O
-need	NN	O	O
-to	NN	O	O
-be	NN	O	O
-resolved	NN	O	O
-occurring	NN	O	O
-over	NN	O	O
-the	NN	O	O
-smallest	NN	O	O
-characteristic	NN	O	O
-scale	NN	O	O
-of	NN	O	O
-the	NN	O	O
-geometry	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-a	NN	O	O
-channelʼs	NN	O	O
-height	NN	O	O
-)	NN	O	O
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-over	NN	O	O
-the	NN	O	O
-largest	NN	O	O
-characteristic	NN	O	O
-scale	NN	O	O
-of	NN	O	O
-the	NN	O	O
-geometry	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-the	NN	O	O
-length	NN	O	O
-of	NN	O	O
-a	NN	O	O
-long	NN	O	B-Process
-channel	NN	O	I-Process
-network	NN	O	I-Process
-)	NN	O	O
-,	NN	O	O
-simultaneously	NN	O	O
-.	NN	O	O
+Numerical	0	9	B-Task
+simulation	10	20	I-Task
+of	21	23	O
+the	24	27	O
+gas	28	31	B-Process
+flow	32	36	I-Process
+through	37	44	O
+such	45	49	O
+non	50	53	O
+-	53	54	O
+trivial	54	61	O
+internal	62	70	O
+geometries	71	81	O
+is	82	84	O
+,	84	85	O
+however	86	93	O
+,	93	94	O
+extremely	95	104	O
+challenging	105	116	O
+.	116	117	O
+
+This	118	122	O
+is	123	125	O
+because	126	133	O
+conventional	134	146	B-Process
+continuum	147	156	I-Process
+fluid	157	162	I-Process
+dynamics	163	171	I-Process
+,	171	172	O
+which	173	178	O
+assumes	179	186	O
+that	187	191	O
+locally	192	199	O
+a	200	201	O
+gas	202	205	O
+is	206	208	O
+close	209	214	O
+to	215	217	O
+a	218	219	O
+state	220	225	O
+of	226	228	O
+thermodynamic	229	242	B-Process
+equilibrium	243	254	I-Process
+,	254	255	O
+becomes	256	263	O
+invalid	264	271	O
+or	272	274	O
+inaccurate	275	285	O
+as	286	288	O
+the	289	292	O
+smallest	293	301	O
+characteristic	302	316	O
+scale	317	322	O
+of	323	325	O
+the	326	329	O
+geometry	330	338	O
+(	339	340	O
+e.g.	340	344	O
+the	345	348	O
+channel	349	356	B-Material
+height	357	363	I-Material
+)	363	364	O
+approaches	365	375	O
+the	376	379	O
+mean	380	384	O
+distance	385	393	O
+between	394	401	O
+molecular	402	411	B-Process
+collisions	412	422	I-Process
+,	422	423	O
+λ	424	425	O
+[	426	427	O
+1	427	428	O
+]	428	429	O
+.	429	430	O
+
+An	431	433	O
+accurate	434	442	B-Process
+and	443	446	I-Process
+flexible	447	455	I-Process
+modelling	456	465	I-Process
+alternative	466	477	I-Process
+for	478	481	O
+these	482	487	O
+cases	488	493	O
+is	494	496	O
+the	497	500	O
+direct	501	507	B-Process
+simulation	508	518	I-Process
+Monte	519	524	I-Process
+Carlo	525	530	I-Process
+method	531	537	I-Process
+(	538	539	O
+DSMC	539	543	B-Process
+)	543	544	O
+[	545	546	O
+2	546	547	O
+]	547	548	O
+.	548	549	O
+
+However	550	557	O
+,	557	558	O
+DSMC	559	563	B-Process
+can	564	567	O
+be	568	570	O
+prohibitively	571	584	O
+expensive	585	594	O
+for	595	598	O
+internal	599	607	B-Process
+-	607	608	I-Process
+flow	608	612	I-Process
+applications	613	625	I-Process
+,	625	626	O
+which	627	632	O
+typically	633	642	O
+have	643	647	O
+a	648	649	O
+geometry	650	658	O
+of	659	661	O
+high	662	666	B-Material
+-	666	667	I-Material
+aspect	667	673	I-Material
+ratio	674	679	I-Material
+(	680	681	O
+i.e.	681	685	O
+are	686	689	O
+extremely	690	699	O
+long	700	704	O
+,	704	705	O
+relative	706	714	O
+to	715	717	O
+their	718	723	O
+cross	724	729	O
+-	729	730	O
+section	730	737	O
+)	737	738	O
+.	738	739	O
+
+The	740	743	O
+high	744	748	B-Material
+-	748	749	I-Material
+aspect	749	755	I-Material
+ratio	756	761	I-Material
+creates	762	769	O
+a	770	771	O
+formidable	772	782	O
+multiscale	783	793	B-Task
+problem	794	801	I-Task
+:	801	802	O
+processes	803	812	O
+need	813	817	O
+to	818	820	O
+be	821	823	O
+resolved	824	832	O
+occurring	833	842	O
+over	843	847	O
+the	848	851	O
+smallest	852	860	O
+characteristic	861	875	O
+scale	876	881	O
+of	882	884	O
+the	885	888	O
+geometry	889	897	O
+(	898	899	O
+e.g.	899	903	O
+a	904	905	O
+channelʼs	906	915	O
+height	916	922	O
+)	922	923	O
+,	923	924	O
+as	925	927	O
+well	928	932	O
+as	933	935	O
+over	936	940	O
+the	941	944	O
+largest	945	952	O
+characteristic	953	967	O
+scale	968	973	O
+of	974	976	O
+the	977	980	O
+geometry	981	989	O
+(	990	991	O
+e.g.	991	995	O
+the	996	999	O
+length	1000	1006	O
+of	1007	1009	O
+a	1010	1011	O
+long	1012	1016	B-Process
+channel	1017	1024	I-Process
+network	1025	1032	I-Process
+)	1032	1033	O
+,	1033	1034	O
+simultaneously	1035	1049	O
+.	1049	1050	O
 
 
 -DOCSTART- (S0021999113006955)
 
-The	NN	O	O
-test	NN	O	O
-cases	NN	O	O
-confirm	NN	O	O
-that	NN	O	O
-the	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-order	NN	O	I-Process
-discretisation	NN	O	I-Process
-retains	NN	O	O
-exponential	NN	O	B-Process
-convergence	NN	O	I-Process
-properties	NN	O	I-Process
-with	NN	O	O
-increasing	NN	O	O
-geometric	NN	O	O
-and	NN	O	O
-expansion	NN	O	O
-polynomial	NN	O	O
-order	NN	O	O
-if	NN	O	O
-both	NN	O	O
-the	NN	O	O
-solution	NN	O	B-Material
-and	NN	O	O
-true	NN	O	B-Material
-surface	NN	O	I-Material
-are	NN	O	O
-smooth	NN	O	O
-.	NN	O	O
-
-Errors	NN	O	O
-are	NN	O	O
-found	NN	O	O
-to	NN	O	O
-saturate	NN	O	O
-when	NN	O	O
-the	NN	O	O
-geometric	NN	O	O
-errors	NN	O	O
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-parametrisation	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-surface	NN	O	I-Process
-elements	NN	O	I-Process
-,	NN	O	O
-begin	NN	O	O
-to	NN	O	O
-dominate	NN	O	O
-the	NN	O	O
-temporal	NN	O	O
-and	NN	O	O
-spatial	NN	O	O
-discretisation	NN	O	O
-errors	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-smooth	NN	O	B-Material
-solutions	NN	O	I-Material
-considered	NN	O	O
-as	NN	O	O
-test	NN	O	O
-cases	NN	O	O
-,	NN	O	O
-the	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-this	NN	O	O
-dominance	NN	O	O
-of	NN	O	O
-geometric	NN	O	O
-errors	NN	O	O
-quickly	NN	O	O
-limits	NN	O	O
-the	NN	O	O
-effectiveness	NN	O	O
-of	NN	O	O
-further	NN	O	O
-increases	NN	O	O
-in	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-degrees	NN	O	O
-of	NN	O	O
-freedom	NN	O	O
-,	NN	O	O
-either	NN	O	O
-through	NN	O	O
-mesh	NN	O	B-Process
-refinement	NN	O	I-Process
-or	NN	O	O
-higher	NN	O	B-Process
-solution	NN	O	I-Process
-polynomial	NN	O	I-Process
-orders	NN	O	I-Process
-.	NN	O	O
-
-Increasing	NN	O	O
-the	NN	O	O
-order	NN	O	O
-of	NN	O	O
-the	NN	O	O
-geometry	NN	O	B-Process
-parametrisation	NN	O	I-Process
-reduces	NN	O	O
-the	NN	O	O
-geometric	NN	O	B-Process
-error	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-analytic	NN	O	B-Task
-test	NN	O	I-Task
-cases	NN	O	I-Task
-presented	NN	O	O
-here	NN	O	O
-use	NN	O	O
-a	NN	O	O
-coarse	NN	O	B-Material
-curvilinear	NN	O	I-Material
-mesh	NN	O	I-Material
-;	NN	O	O
-for	NN	O	O
-applications	NN	O	O
-,	NN	O	O
-meshes	NN	O	B-Material
-are	NN	O	O
-typically	NN	O	O
-more	NN	O	O
-refined	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-capture	NN	O	B-Process
-features	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-solution	NN	O	I-Process
-and	NN	O	O
-so	NN	O	O
-will	NN	O	O
-better	NN	O	O
-capture	NN	O	B-Process
-the	NN	O	I-Process
-geometry	NN	O	I-Process
-and	NN	O	O
-consequently	NN	O	O
-reduce	NN	O	B-Process
-this	NN	O	I-Process
-lower	NN	O	I-Process
-bound	NN	O	I-Process
-on	NN	O	O
-the	NN	O	O
-solution	NN	O	B-Material
-error	NN	O	O
-.	NN	O	O
-
-If	NN	O	O
-the	NN	O	O
-solution	NN	O	B-Material
-is	NN	O	O
-not	NN	O	O
-smooth	NN	O	O
-,	NN	O	O
-we	NN	O	O
-do	NN	O	O
-not	NN	O	O
-expect	NN	O	O
-to	NN	O	O
-see	NN	O	O
-rapid	NN	O	O
-convergence	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-that	NN	O	O
-the	NN	O	O
-solution	NN	O	B-Material
-is	NN	O	O
-smooth	NN	O	O
-,	NN	O	O
-but	NN	O	O
-the	NN	O	O
-true	NN	O	B-Material
-surface	NN	O	I-Material
-is	NN	O	O
-not	NN	O	O
-,	NN	O	O
-then	NN	O	O
-exponential	NN	O	B-Process
-convergence	NN	O	I-Process
-with	NN	O	O
-P	NN	O	B-Material
-and	NN	O	O
-Pg	NN	O	B-Material
-can	NN	O	O
-only	NN	O	O
-be	NN	O	O
-achieved	NN	O	O
-if	NN	O	O
-,	NN	O	O
-and	NN	O	O
-only	NN	O	O
-if	NN	O	O
-,	NN	O	O
-the	NN	O	O
-discontinuities	NN	O	B-Process
-are	NN	O	I-Process
-aligned	NN	O	I-Process
-with	NN	O	I-Process
-element	NN	O	I-Process
-boundaries	NN	O	I-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-if	NN	O	O
-discontinuities	NN	O	O
-lie	NN	O	O
-within	NN	O	O
-an	NN	O	O
-element	NN	O	B-Material
-,	NN	O	O
-convergence	NN	O	O
-will	NN	O	O
-be	NN	O	O
-limited	NN	O	O
-by	NN	O	O
-the	NN	O	O
-geometric	NN	O	B-Process
-approximation	NN	O	I-Process
-,	NN	O	O
-since	NN	O	O
-the	NN	O	O
-true	NN	O	B-Material
-surface	NN	O	I-Material
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-captured	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-cardiac	NN	O	B-Task
-problem	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-consider	NN	O	O
-both	NN	O	O
-the	NN	O	O
-true	NN	O	B-Material
-surface	NN	O	I-Material
-and	NN	O	O
-solution	NN	O	B-Material
-to	NN	O	O
-be	NN	O	O
-smooth	NN	O	O
-.	NN	O	O
+The	0	3	O
+test	4	8	O
+cases	9	14	O
+confirm	15	22	O
+that	23	27	O
+the	28	31	O
+high	32	36	B-Process
+-	36	37	I-Process
+order	37	42	I-Process
+discretisation	43	57	I-Process
+retains	58	65	O
+exponential	66	77	B-Process
+convergence	78	89	I-Process
+properties	90	100	I-Process
+with	101	105	O
+increasing	106	116	O
+geometric	117	126	O
+and	127	130	O
+expansion	131	140	O
+polynomial	141	151	O
+order	152	157	O
+if	158	160	O
+both	161	165	O
+the	166	169	O
+solution	170	178	B-Material
+and	179	182	O
+true	183	187	B-Material
+surface	188	195	I-Material
+are	196	199	O
+smooth	200	206	O
+.	206	207	O
+
+Errors	208	214	O
+are	215	218	O
+found	219	224	O
+to	225	227	O
+saturate	228	236	O
+when	237	241	O
+the	242	245	O
+geometric	246	255	O
+errors	256	262	O
+,	262	263	O
+due	264	267	O
+to	268	270	O
+the	271	274	O
+parametrisation	275	290	B-Process
+of	291	293	I-Process
+the	294	297	I-Process
+surface	298	305	I-Process
+elements	306	314	I-Process
+,	314	315	O
+begin	316	321	O
+to	322	324	O
+dominate	325	333	O
+the	334	337	O
+temporal	338	346	O
+and	347	350	O
+spatial	351	358	O
+discretisation	359	373	O
+errors	374	380	O
+.	380	381	O
+
+For	382	385	O
+the	386	389	O
+smooth	390	396	B-Material
+solutions	397	406	I-Material
+considered	407	417	O
+as	418	420	O
+test	421	425	O
+cases	426	431	O
+,	431	432	O
+the	433	436	O
+results	437	444	O
+show	445	449	O
+that	450	454	O
+this	455	459	O
+dominance	460	469	O
+of	470	472	O
+geometric	473	482	O
+errors	483	489	O
+quickly	490	497	O
+limits	498	504	O
+the	505	508	O
+effectiveness	509	522	O
+of	523	525	O
+further	526	533	O
+increases	534	543	O
+in	544	546	O
+the	547	550	O
+number	551	557	O
+of	558	560	O
+degrees	561	568	O
+of	569	571	O
+freedom	572	579	O
+,	579	580	O
+either	581	587	O
+through	588	595	O
+mesh	596	600	B-Process
+refinement	601	611	I-Process
+or	612	614	O
+higher	615	621	B-Process
+solution	622	630	I-Process
+polynomial	631	641	I-Process
+orders	642	648	I-Process
+.	648	649	O
+
+Increasing	650	660	O
+the	661	664	O
+order	665	670	O
+of	671	673	O
+the	674	677	O
+geometry	678	686	B-Process
+parametrisation	687	702	I-Process
+reduces	703	710	O
+the	711	714	O
+geometric	715	724	B-Process
+error	725	730	I-Process
+.	730	731	O
+
+The	732	735	O
+analytic	736	744	B-Task
+test	745	749	I-Task
+cases	750	755	I-Task
+presented	756	765	O
+here	766	770	O
+use	771	774	O
+a	775	776	O
+coarse	777	783	B-Material
+curvilinear	784	795	I-Material
+mesh	796	800	I-Material
+;	800	801	O
+for	802	805	O
+applications	806	818	O
+,	818	819	O
+meshes	820	826	B-Material
+are	827	830	O
+typically	831	840	O
+more	841	845	O
+refined	846	853	O
+in	854	856	O
+order	857	862	O
+to	863	865	O
+capture	866	873	B-Process
+features	874	882	I-Process
+in	883	885	I-Process
+the	886	889	I-Process
+solution	890	898	I-Process
+and	899	902	O
+so	903	905	O
+will	906	910	O
+better	911	917	O
+capture	918	925	B-Process
+the	926	929	I-Process
+geometry	930	938	I-Process
+and	939	942	O
+consequently	943	955	O
+reduce	956	962	B-Process
+this	963	967	I-Process
+lower	968	973	I-Process
+bound	974	979	I-Process
+on	980	982	O
+the	983	986	O
+solution	987	995	B-Material
+error	996	1001	O
+.	1001	1002	O
+
+If	1003	1005	O
+the	1006	1009	O
+solution	1010	1018	B-Material
+is	1019	1021	O
+not	1022	1025	O
+smooth	1026	1032	O
+,	1032	1033	O
+we	1034	1036	O
+do	1037	1039	O
+not	1040	1043	O
+expect	1044	1050	O
+to	1051	1053	O
+see	1054	1057	O
+rapid	1058	1063	O
+convergence	1064	1075	O
+.	1075	1076	O
+
+In	1077	1079	O
+the	1080	1083	O
+case	1084	1088	O
+that	1089	1093	O
+the	1094	1097	O
+solution	1098	1106	B-Material
+is	1107	1109	O
+smooth	1110	1116	O
+,	1116	1117	O
+but	1118	1121	O
+the	1122	1125	O
+true	1126	1130	B-Material
+surface	1131	1138	I-Material
+is	1139	1141	O
+not	1142	1145	O
+,	1145	1146	O
+then	1147	1151	O
+exponential	1152	1163	B-Process
+convergence	1164	1175	I-Process
+with	1176	1180	O
+P	1181	1182	B-Material
+and	1183	1186	O
+Pg	1187	1189	B-Material
+can	1190	1193	O
+only	1194	1198	O
+be	1199	1201	O
+achieved	1202	1210	O
+if	1211	1213	O
+,	1213	1214	O
+and	1215	1218	O
+only	1219	1223	O
+if	1224	1226	O
+,	1226	1227	O
+the	1228	1231	O
+discontinuities	1232	1247	B-Process
+are	1248	1251	I-Process
+aligned	1252	1259	I-Process
+with	1260	1264	I-Process
+element	1265	1272	I-Process
+boundaries	1273	1283	I-Process
+.	1283	1284	O
+
+However	1285	1292	O
+,	1292	1293	O
+if	1294	1296	O
+discontinuities	1297	1312	O
+lie	1313	1316	O
+within	1317	1323	O
+an	1324	1326	O
+element	1327	1334	B-Material
+,	1334	1335	O
+convergence	1336	1347	O
+will	1348	1352	O
+be	1353	1355	O
+limited	1356	1363	O
+by	1364	1366	O
+the	1367	1370	O
+geometric	1371	1380	B-Process
+approximation	1381	1394	I-Process
+,	1394	1395	O
+since	1396	1401	O
+the	1402	1405	O
+true	1406	1410	B-Material
+surface	1411	1418	I-Material
+can	1419	1422	O
+not	1422	1425	O
+be	1426	1428	O
+captured	1429	1437	O
+.	1437	1438	O
+
+In	1439	1441	O
+the	1442	1445	O
+cardiac	1446	1453	B-Task
+problem	1454	1461	I-Task
+,	1461	1462	O
+we	1463	1465	O
+consider	1466	1474	O
+both	1475	1479	O
+the	1480	1483	O
+true	1484	1488	B-Material
+surface	1489	1496	I-Material
+and	1497	1500	O
+solution	1501	1509	B-Material
+to	1510	1512	O
+be	1513	1515	O
+smooth	1516	1522	O
+.	1522	1523	O
 
 
 -DOCSTART- (S0021999116303291)
 
-DPD	NN	O	B-Process
-was	NN	O	O
-first	NN	O	O
-proposed	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-recover	NN	O	O
-the	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-isotropy	NN	O	B-Process
-(	NN	O	O
-and	NN	O	O
-Galilean	NN	O	B-Process
-invariance	NN	O	I-Process
-)	NN	O	O
-that	NN	O	O
-were	NN	O	O
-broken	NN	O	O
-in	NN	O	O
-the	NN	O	O
-so	NN	O	O
--	NN	O	O
-called	NN	O	O
-lattice	NN	O	B-Process
--	NN	O	I-Process
-gas	NN	O	I-Process
-automata	NN	O	I-Process
-method	NN	O	O
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-DPD	NN	O	B-Process
-,	NN	O	O
-each	NN	O	O
-body	NN	O	O
-is	NN	O	O
-regarded	NN	O	O
-as	NN	O	O
-a	NN	O	O
-coarse	NN	O	B-Material
--	NN	O	I-Material
-grained	NN	O	I-Material
-particle	NN	O	I-Material
-.	NN	O	O
-
-These	NN	O	O
-particles	NN	O	B-Material
-interact	NN	O	O
-in	NN	O	O
-a	NN	O	O
-soft	NN	O	O
-(	NN	O	O
-and	NN	O	O
-short	NN	O	O
--	NN	O	O
-ranged	NN	O	O
-)	NN	O	O
-potential	NN	O	O
-,	NN	O	O
-allowing	NN	O	O
-larger	NN	O	O
-integration	NN	O	O
-timesteps	NN	O	O
-than	NN	O	O
-would	NN	O	O
-be	NN	O	O
-possible	NN	O	O
-in	NN	O	O
-MD	NN	O	B-Process
-,	NN	O	O
-while	NN	O	O
-simultaneously	NN	O	O
-decreasing	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-degrees	NN	O	O
-of	NN	O	O
-freedom	NN	O	O
-required	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-in	NN	O	O
-Langevin	NN	O	B-Process
-dynamics	NN	O	I-Process
-,	NN	O	O
-a	NN	O	O
-thermostat	NN	O	B-Process
-consisting	NN	O	O
-of	NN	O	O
-well	NN	O	O
--	NN	O	O
-balanced	NN	O	O
-damping	NN	O	O
-and	NN	O	O
-stochastic	NN	O	O
-terms	NN	O	O
-is	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-each	NN	O	O
-particle	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-unlike	NN	O	O
-in	NN	O	O
-Langevin	NN	O	B-Process
-dynamics	NN	O	I-Process
-,	NN	O	O
-both	NN	O	O
-terms	NN	O	O
-are	NN	O	O
-pairwise	NN	O	O
-and	NN	O	O
-the	NN	O	O
-damping	NN	O	O
-term	NN	O	O
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-relative	NN	O	O
-velocities	NN	O	O
-,	NN	O	O
-leading	NN	O	O
-to	NN	O	O
-the	NN	O	O
-conservation	NN	O	O
-of	NN	O	O
-both	NN	O	O
-the	NN	O	O
-angular	NN	O	B-Process
-momentum	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-linear	NN	O	B-Process
-momentum	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-property	NN	O	O
-of	NN	O	O
-Galilean	NN	O	B-Process
-invariance	NN	O	I-Process
-(	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-the	NN	O	O
-dependence	NN	O	B-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-relative	NN	O	I-Process
-velocity	NN	O	I-Process
-)	NN	O	O
-makes	NN	O	O
-DPD	NN	O	B-Process
-a	NN	O	O
-profile	NN	O	B-Process
--	NN	O	I-Process
-unbiased	NN	O	I-Process
-thermostat	NN	O	I-Process
-(	NN	O	O
-PUT	NN	O	B-Process
-)	NN	O	O
-[	NN	O	O
-6,7	NN	O	O
-]	NN	O	O
-by	NN	O	O
-construction	NN	O	O
-and	NN	O	O
-thus	NN	O	O
-it	NN	O	O
-is	NN	O	O
-an	NN	O	O
-ideal	NN	O	O
-thermostat	NN	O	O
-for	NN	O	O
-nonequilibrium	NN	O	B-Task
-molecular	NN	O	I-Task
-dynamics	NN	O	I-Task
-(	NN	O	I-Task
-NEMD	NN	O	I-Task
-)	NN	O	I-Task
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-momentum	NN	O	O
-is	NN	O	O
-expected	NN	O	O
-to	NN	O	O
-propagate	NN	O	O
-locally	NN	O	O
-(	NN	O	O
-while	NN	O	O
-global	NN	O	O
-momentum	NN	O	O
-is	NN	O	O
-conserved	NN	O	O
-)	NN	O	O
-and	NN	O	O
-thus	NN	O	O
-the	NN	O	O
-correct	NN	O	O
-hydrodynamics	NN	O	O
-is	NN	O	O
-expected	NN	O	O
-in	NN	O	O
-DPD	NN	O	B-Process
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-,	NN	O	O
-as	NN	O	O
-demonstrated	NN	O	O
-previously	NN	O	O
-in	NN	O	O
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-aforementioned	NN	O	O
-properties	NN	O	O
-,	NN	O	O
-DPD	NN	O	B-Process
-has	NN	O	O
-been	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-to	NN	O	O
-recover	NN	O	B-Task
-thermodynamic	NN	O	I-Task
-,	NN	O	I-Task
-dynamical	NN	O	I-Task
-,	NN	O	I-Task
-and	NN	O	I-Task
-rheological	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	O
-complex	NN	O	B-Material
-fluids	NN	O	I-Material
-,	NN	O	O
-with	NN	O	O
-applications	NN	O	O
-in	NN	O	O
-polymer	NN	O	B-Material
-solutions	NN	O	I-Material
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-,	NN	O	O
-colloidal	NN	O	B-Material
-suspensions	NN	O	I-Material
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-,	NN	O	O
-multiphase	NN	O	B-Material
-flows	NN	O	I-Material
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-biological	NN	O	B-Material
-systems	NN	O	I-Material
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-DPD	NN	O	B-Process
-has	NN	O	O
-been	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-Langevin	NN	O	B-Process
-dynamics	NN	O	I-Process
-for	NN	O	O
-out	NN	O	O
--	NN	O	O
-of	NN	O	O
--	NN	O	O
-equilibrium	NN	O	O
-simulations	NN	O	O
-of	NN	O	O
-polymeric	NN	O	B-Process
-systems	NN	O	I-Process
-in	NN	O	O
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-,	NN	O	O
-where	NN	O	O
-as	NN	O	O
-expected	NN	O	O
-the	NN	O	O
-correct	NN	O	O
-dynamic	NN	O	B-Process
-fluctuations	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-polymers	NN	O	B-Material
-were	NN	O	O
-obtained	NN	O	O
-with	NN	O	O
-the	NN	O	O
-former	NN	O	O
-but	NN	O	O
-not	NN	O	O
-with	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-.	NN	O	O
+DPD	0	3	B-Process
+was	4	7	O
+first	8	13	O
+proposed	14	22	O
+in	23	25	O
+order	26	31	O
+to	32	34	O
+recover	35	42	O
+the	43	46	O
+properties	47	57	O
+of	58	60	O
+isotropy	61	69	B-Process
+(	70	71	O
+and	71	74	O
+Galilean	75	83	B-Process
+invariance	84	94	I-Process
+)	94	95	O
+that	96	100	O
+were	101	105	O
+broken	106	112	O
+in	113	115	O
+the	116	119	O
+so	120	122	O
+-	122	123	O
+called	123	129	O
+lattice	130	137	B-Process
+-	137	138	I-Process
+gas	138	141	I-Process
+automata	142	150	I-Process
+method	151	157	O
+[	158	159	O
+5	159	160	O
+]	160	161	O
+.	161	162	O
+
+In	163	165	O
+DPD	166	169	B-Process
+,	169	170	O
+each	171	175	O
+body	176	180	O
+is	181	183	O
+regarded	184	192	O
+as	193	195	O
+a	196	197	O
+coarse	198	204	B-Material
+-	204	205	I-Material
+grained	205	212	I-Material
+particle	213	221	I-Material
+.	221	222	O
+
+These	223	228	O
+particles	229	238	B-Material
+interact	239	247	O
+in	248	250	O
+a	251	252	O
+soft	253	257	O
+(	258	259	O
+and	259	262	O
+short	263	268	O
+-	268	269	O
+ranged	269	275	O
+)	275	276	O
+potential	277	286	O
+,	286	287	O
+allowing	288	296	O
+larger	297	303	O
+integration	304	315	O
+timesteps	316	325	O
+than	326	330	O
+would	331	336	O
+be	337	339	O
+possible	340	348	O
+in	349	351	O
+MD	352	354	B-Process
+,	354	355	O
+while	356	361	O
+simultaneously	362	376	O
+decreasing	377	387	O
+the	388	391	O
+number	392	398	O
+of	399	401	O
+degrees	402	409	O
+of	410	412	O
+freedom	413	420	O
+required	421	429	O
+.	429	430	O
+
+As	431	433	O
+in	434	436	O
+Langevin	437	445	B-Process
+dynamics	446	454	I-Process
+,	454	455	O
+a	456	457	O
+thermostat	458	468	B-Process
+consisting	469	479	O
+of	480	482	O
+well	483	487	O
+-	487	488	O
+balanced	488	496	O
+damping	497	504	O
+and	505	508	O
+stochastic	509	519	O
+terms	520	525	O
+is	526	528	O
+applied	529	536	O
+to	537	539	O
+each	540	544	O
+particle	545	553	O
+.	553	554	O
+
+However	555	562	O
+,	562	563	O
+unlike	564	570	O
+in	571	573	O
+Langevin	574	582	B-Process
+dynamics	583	591	I-Process
+,	591	592	O
+both	593	597	O
+terms	598	603	O
+are	604	607	O
+pairwise	608	616	O
+and	617	620	O
+the	621	624	O
+damping	625	632	O
+term	633	637	O
+is	638	640	O
+based	641	646	O
+on	647	649	O
+relative	650	658	O
+velocities	659	669	O
+,	669	670	O
+leading	671	678	O
+to	679	681	O
+the	682	685	O
+conservation	686	698	O
+of	699	701	O
+both	702	706	O
+the	707	710	O
+angular	711	718	B-Process
+momentum	719	727	I-Process
+and	728	731	O
+the	732	735	O
+linear	736	742	B-Process
+momentum	743	751	I-Process
+.	751	752	O
+
+The	753	756	O
+property	757	765	O
+of	766	768	O
+Galilean	769	777	B-Process
+invariance	778	788	I-Process
+(	789	790	O
+i.e.	790	794	O
+,	794	795	O
+the	796	799	O
+dependence	800	810	B-Process
+on	811	813	I-Process
+the	814	817	I-Process
+relative	818	826	I-Process
+velocity	827	835	I-Process
+)	835	836	O
+makes	837	842	O
+DPD	843	846	B-Process
+a	847	848	O
+profile	849	856	B-Process
+-	856	857	I-Process
+unbiased	857	865	I-Process
+thermostat	866	876	I-Process
+(	877	878	O
+PUT	878	881	B-Process
+)	881	882	O
+[	883	884	O
+6,7	884	887	O
+]	887	888	O
+by	889	891	O
+construction	892	904	O
+and	905	908	O
+thus	909	913	O
+it	914	916	O
+is	917	919	O
+an	920	922	O
+ideal	923	928	O
+thermostat	929	939	O
+for	940	943	O
+nonequilibrium	944	958	B-Task
+molecular	959	968	I-Task
+dynamics	969	977	I-Task
+(	978	979	I-Task
+NEMD	979	983	I-Task
+)	983	984	I-Task
+[	985	986	O
+8	986	987	O
+]	987	988	O
+.	988	989	O
+
+The	990	993	O
+momentum	994	1002	O
+is	1003	1005	O
+expected	1006	1014	O
+to	1015	1017	O
+propagate	1018	1027	O
+locally	1028	1035	O
+(	1036	1037	O
+while	1037	1042	O
+global	1043	1049	O
+momentum	1050	1058	O
+is	1059	1061	O
+conserved	1062	1071	O
+)	1071	1072	O
+and	1073	1076	O
+thus	1077	1081	O
+the	1082	1085	O
+correct	1086	1093	O
+hydrodynamics	1094	1107	O
+is	1108	1110	O
+expected	1111	1119	O
+in	1120	1122	O
+DPD	1123	1126	B-Process
+[	1127	1128	O
+8	1128	1129	O
+]	1129	1130	O
+,	1130	1131	O
+as	1132	1134	O
+demonstrated	1135	1147	O
+previously	1148	1158	O
+in	1159	1161	O
+[	1162	1163	O
+9	1163	1164	O
+]	1164	1165	O
+.	1165	1166	O
+
+Due	1167	1170	O
+to	1171	1173	O
+the	1174	1177	O
+aforementioned	1178	1192	O
+properties	1193	1203	O
+,	1203	1204	O
+DPD	1205	1208	B-Process
+has	1209	1212	O
+been	1213	1217	O
+widely	1218	1224	O
+used	1225	1229	O
+to	1230	1232	O
+recover	1233	1240	B-Task
+thermodynamic	1241	1254	I-Task
+,	1254	1255	I-Task
+dynamical	1256	1265	I-Task
+,	1265	1266	I-Task
+and	1267	1270	I-Task
+rheological	1271	1282	I-Task
+properties	1283	1293	I-Task
+of	1294	1296	O
+complex	1297	1304	B-Material
+fluids	1305	1311	I-Material
+,	1311	1312	O
+with	1313	1317	O
+applications	1318	1330	O
+in	1331	1333	O
+polymer	1334	1341	B-Material
+solutions	1342	1351	I-Material
+[	1352	1353	O
+10	1353	1355	O
+]	1355	1356	O
+,	1356	1357	O
+colloidal	1358	1367	B-Material
+suspensions	1368	1379	I-Material
+[	1380	1381	O
+11	1381	1383	O
+]	1383	1384	O
+,	1384	1385	O
+multiphase	1386	1396	B-Material
+flows	1397	1402	I-Material
+[	1403	1404	O
+12	1404	1406	O
+]	1406	1407	O
+,	1407	1408	O
+and	1409	1412	O
+biological	1413	1423	B-Material
+systems	1424	1431	I-Material
+[	1432	1433	O
+13	1433	1435	O
+]	1435	1436	O
+.	1436	1437	O
+
+DPD	1438	1441	B-Process
+has	1442	1445	O
+been	1446	1450	O
+compared	1451	1459	O
+with	1460	1464	O
+Langevin	1465	1473	B-Process
+dynamics	1474	1482	I-Process
+for	1483	1486	O
+out	1487	1490	O
+-	1490	1491	O
+of	1491	1493	O
+-	1493	1494	O
+equilibrium	1494	1505	O
+simulations	1506	1517	O
+of	1518	1520	O
+polymeric	1521	1530	B-Process
+systems	1531	1538	I-Process
+in	1539	1541	O
+[	1542	1543	O
+14	1543	1545	O
+]	1545	1546	O
+,	1546	1547	O
+where	1548	1553	O
+as	1554	1556	O
+expected	1557	1565	O
+the	1566	1569	O
+correct	1570	1577	O
+dynamic	1578	1585	B-Process
+fluctuations	1586	1598	I-Process
+of	1599	1601	O
+the	1602	1605	O
+polymers	1606	1614	B-Material
+were	1615	1619	O
+obtained	1620	1628	O
+with	1629	1633	O
+the	1634	1637	O
+former	1638	1644	O
+but	1645	1648	O
+not	1649	1652	O
+with	1653	1657	O
+the	1658	1661	O
+latter	1662	1668	O
+.	1668	1669	O
 
 
 -DOCSTART- (S0032386107010518)
 
-Copper	NN	O	B-Material
--	NN	O	I-Material
-catalyzed	NN	O	I-Material
-Huisgen	NN	O	I-Material
-cycloadditions	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-recently	NN	O	O
-extensively	NN	O	O
-studied	NN	O	O
-by	NN	O	O
-polymer	NN	O	O
-chemists	NN	O	O
-for	NN	O	O
-the	NN	O	O
-synthesis	NN	O	B-Task
-of	NN	O	I-Task
-functional	NN	O	I-Task
-polymers	NN	O	I-Task
-(	NN	O	O
-either	NN	O	O
-end	NN	O	O
--	NN	O	O
-functional	NN	O	O
-or	NN	O	O
-side	NN	O	O
--	NN	O	O
-functional	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-post	NN	O	O
--	NN	O	O
-functionalization	NN	O	O
-of	NN	O	O
-synthetic	NN	O	B-Material
-polymers	NN	O	I-Material
-is	NN	O	O
-an	NN	O	O
-important	NN	O	O
-feature	NN	O	O
-of	NN	O	O
-macromolecular	NN	O	B-Task
-engineering	NN	O	I-Task
-as	NN	O	O
-many	NN	O	O
-polymerization	NN	O	B-Process
-mechanisms	NN	O	O
-are	NN	O	O
-rather	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-bulky	NN	O	O
-or	NN	O	O
-functional	NN	O	O
-groups	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-example	NN	O	O
-,	NN	O	O
-a	NN	O	O
-wide	NN	O	O
-variety	NN	O	O
-of	NN	O	O
-telechelic	NN	O	B-Material
-polymers	NN	O	I-Material
-(	NN	O	O
-i.e.	NN	O	O
-polymers	NN	O	B-Material
-with	NN	O	I-Material
-defined	NN	O	I-Material
-chain	NN	O	I-Material
--	NN	O	I-Material
-ends	NN	O	I-Material
-)	NN	O	O
-can	NN	O	O
-be	NN	O	O
-efficiently	NN	O	O
-prepared	NN	O	O
-using	NN	O	O
-a	NN	O	O
-combination	NN	O	O
-of	NN	O	O
-atom	NN	O	B-Process
-transfer	NN	O	I-Process
-radical	NN	O	I-Process
-polymerization	NN	O	I-Process
-(	NN	O	O
-ATRP	NN	O	B-Process
-)	NN	O	O
-and	NN	O	O
-CuAAC	NN	O	B-Process
-.	NN	O	O
-
-This	NN	O	O
-strategy	NN	O	O
-was	NN	O	O
-independently	NN	O	O
-reported	NN	O	O
-in	NN	O	O
-early	NN	O	O
-2005	NN	O	O
-by	NN	O	O
-van	NN	O	O
-Hest	NN	O	O
-and	NN	O	O
-Opsteen	NN	O	O
-
-[	NN	O	O
-31	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Lutz	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-32	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-Matyjaszewski	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-33	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Such	NN	O	O
-step	NN	O	O
-was	NN	O	O
-important	NN	O	O
-since	NN	O	O
-ATRP	NN	O	B-Process
-is	NN	O	O
-a	NN	O	O
-very	NN	O	O
-popular	NN	O	O
-polymerization	NN	O	B-Process
-method	NN	O	O
-in	NN	O	O
-modern	NN	O	O
-materials	NN	O	O
-science	NN	O	O
-[	NN	O	O
-34,35	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Indeed	NN	O	O
-,	NN	O	O
-ATRP	NN	O	B-Process
-is	NN	O	O
-a	NN	O	O
-facile	NN	O	O
-technique	NN	O	O
-,	NN	O	O
-which	NN	O	O
-allows	NN	O	O
-the	NN	O	O
-preparation	NN	O	B-Process
-of	NN	O	I-Process
-well	NN	O	I-Process
--	NN	O	I-Process
-defined	NN	O	I-Process
-polymers	NN	O	I-Process
-with	NN	O	O
-narrow	NN	O	O
-molecular	NN	O	O
-weight	NN	O	O
-distribution	NN	O	O
-,	NN	O	O
-predictable	NN	O	O
-chain	NN	O	O
-length	NN	O	O
-,	NN	O	O
-controlled	NN	O	O
-microstructure	NN	O	O
-,	NN	O	O
-defined	NN	O	O
-chain	NN	O	O
--	NN	O	O
-ends	NN	O	O
-and	NN	O	O
-controlled	NN	O	O
-architecture	NN	O	O
-[	NN	O	O
-36–41	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-range	NN	O	O
-of	NN	O	O
-possibilities	NN	O	O
-of	NN	O	O
-ATRP	NN	O	B-Process
-can	NN	O	O
-be	NN	O	O
-further	NN	O	O
-broadened	NN	O	O
-by	NN	O	O
-CuAAC	NN	O	B-Process
-.	NN	O	O
-
-For	NN	O	O
-instance	NN	O	O
-,	NN	O	O
-the	NN	O	O
-ω-bromine	NN	O	B-Material
-chain	NN	O	I-Material
--	NN	O	I-Material
-ends	NN	O	I-Material
-of	NN	O	I-Material
-polymers	NN	O	I-Material
-prepared	NN	O	O
-by	NN	O	O
-ATRP	NN	O	B-Process
-can	NN	O	O
-be	NN	O	O
-transformed	NN	O	O
-into	NN	O	O
-azides	NN	O	B-Material
-by	NN	O	O
-nucleophilic	NN	O	B-Process
-substitution	NN	O	I-Process
-and	NN	O	O
-subsequently	NN	O	O
-reacted	NN	O	O
-with	NN	O	O
-functional	NN	O	O
-alkynes	NN	O	B-Material
-(	NN	O	O
-Scheme	NN	O	O
-3	NN	O	O
-)	NN	O	O
-[	NN	O	O
-32	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-very	NN	O	O
-high	NN	O	O
-chemoselectivity	NN	O	O
-of	NN	O	O
-CuAAC	NN	O	B-Process
-,	NN	O	O
-this	NN	O	O
-method	NN	O	O
-is	NN	O	O
-highly	NN	O	O
-modular	NN	O	O
-and	NN	O	O
-may	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-synthesize	NN	O	O
-a	NN	O	O
-wide	NN	O	O
-range	NN	O	O
-of	NN	O	O
-ω-functional	NN	O	B-Material
-polymers	NN	O	I-Material
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-the	NN	O	O
-formed	NN	O	O
-triazole	NN	O	B-Material
-rings	NN	O	I-Material
-are	NN	O	O
-not	NN	O	O
-“	NN	O	O
-passive	NN	O	O
-”	NN	O	O
-spacers	NN	O	O
-but	NN	O	O
-interesting	NN	O	O
-functions	NN	O	O
-exhibiting	NN	O	O
-H	NN	O	B-Process
--	NN	O	I-Process
-bonds	NN	O	I-Process
-capability	NN	O	O
-,	NN	O	O
-aromaticity	NN	O	O
-and	NN	O	O
-rigidity	NN	O	O
-.	NN	O	O
+Copper	0	6	B-Material
+-	6	7	I-Material
+catalyzed	7	16	I-Material
+Huisgen	17	24	I-Material
+cycloadditions	25	39	I-Material
+have	40	44	O
+been	45	49	O
+recently	50	58	O
+extensively	59	70	O
+studied	71	78	O
+by	79	81	O
+polymer	82	89	O
+chemists	90	98	O
+for	99	102	O
+the	103	106	O
+synthesis	107	116	B-Task
+of	117	119	I-Task
+functional	120	130	I-Task
+polymers	131	139	I-Task
+(	140	141	O
+either	141	147	O
+end	148	151	O
+-	151	152	O
+functional	152	162	O
+or	163	165	O
+side	166	170	O
+-	170	171	O
+functional	171	181	O
+)	181	182	O
+.	182	183	O
+
+The	184	187	O
+post	188	192	O
+-	192	193	O
+functionalization	193	210	O
+of	211	213	O
+synthetic	214	223	B-Material
+polymers	224	232	I-Material
+is	233	235	O
+an	236	238	O
+important	239	248	O
+feature	249	256	O
+of	257	259	O
+macromolecular	260	274	B-Task
+engineering	275	286	I-Task
+as	287	289	O
+many	290	294	O
+polymerization	295	309	B-Process
+mechanisms	310	320	O
+are	321	324	O
+rather	325	331	O
+sensitive	332	341	O
+to	342	344	O
+the	345	348	O
+presence	349	357	O
+of	358	360	O
+bulky	361	366	O
+or	367	369	O
+functional	370	380	O
+groups	381	387	O
+.	387	388	O
+
+For	389	392	O
+example	393	400	O
+,	400	401	O
+a	402	403	O
+wide	404	408	O
+variety	409	416	O
+of	417	419	O
+telechelic	420	430	B-Material
+polymers	431	439	I-Material
+(	440	441	O
+i.e.	441	445	O
+polymers	446	454	B-Material
+with	455	459	I-Material
+defined	460	467	I-Material
+chain	468	473	I-Material
+-	473	474	I-Material
+ends	474	478	I-Material
+)	478	479	O
+can	480	483	O
+be	484	486	O
+efficiently	487	498	O
+prepared	499	507	O
+using	508	513	O
+a	514	515	O
+combination	516	527	O
+of	528	530	O
+atom	531	535	B-Process
+transfer	536	544	I-Process
+radical	545	552	I-Process
+polymerization	553	567	I-Process
+(	568	569	O
+ATRP	569	573	B-Process
+)	573	574	O
+and	575	578	O
+CuAAC	579	584	B-Process
+.	584	585	O
+
+This	586	590	O
+strategy	591	599	O
+was	600	603	O
+independently	604	617	O
+reported	618	626	O
+in	627	629	O
+early	630	635	O
+2005	636	640	O
+by	641	643	O
+van	644	647	O
+Hest	648	652	O
+and	653	656	O
+Opsteen	657	664	O
+
+[	665	666	O
+31	666	668	O
+]	668	669	O
+,	669	670	O
+Lutz	671	675	O
+et	676	678	O
+al	679	681	O
+.	681	682	O
+
+[	683	684	O
+32	684	686	O
+]	686	687	O
+,	687	688	O
+and	689	692	O
+Matyjaszewski	693	706	O
+et	707	709	O
+al	710	712	O
+.	712	713	O
+
+[	714	715	O
+33	715	717	O
+]	717	718	O
+.	718	719	O
+
+Such	720	724	O
+step	725	729	O
+was	730	733	O
+important	734	743	O
+since	744	749	O
+ATRP	750	754	B-Process
+is	755	757	O
+a	758	759	O
+very	760	764	O
+popular	765	772	O
+polymerization	773	787	B-Process
+method	788	794	O
+in	795	797	O
+modern	798	804	O
+materials	805	814	O
+science	815	822	O
+[	823	824	O
+34,35	824	829	O
+]	829	830	O
+.	830	831	O
+
+Indeed	832	838	O
+,	838	839	O
+ATRP	840	844	B-Process
+is	845	847	O
+a	848	849	O
+facile	850	856	O
+technique	857	866	O
+,	866	867	O
+which	868	873	O
+allows	874	880	O
+the	881	884	O
+preparation	885	896	B-Process
+of	897	899	I-Process
+well	900	904	I-Process
+-	904	905	I-Process
+defined	905	912	I-Process
+polymers	913	921	I-Process
+with	922	926	O
+narrow	927	933	O
+molecular	934	943	O
+weight	944	950	O
+distribution	951	963	O
+,	963	964	O
+predictable	965	976	O
+chain	977	982	O
+length	983	989	O
+,	989	990	O
+controlled	991	1001	O
+microstructure	1002	1016	O
+,	1016	1017	O
+defined	1018	1025	O
+chain	1026	1031	O
+-	1031	1032	O
+ends	1032	1036	O
+and	1037	1040	O
+controlled	1041	1051	O
+architecture	1052	1064	O
+[	1065	1066	O
+36–41	1066	1071	O
+]	1071	1072	O
+.	1072	1073	O
+
+However	1074	1081	O
+,	1081	1082	O
+the	1083	1086	O
+range	1087	1092	O
+of	1093	1095	O
+possibilities	1096	1109	O
+of	1110	1112	O
+ATRP	1113	1117	B-Process
+can	1118	1121	O
+be	1122	1124	O
+further	1125	1132	O
+broadened	1133	1142	O
+by	1143	1145	O
+CuAAC	1146	1151	B-Process
+.	1151	1152	O
+
+For	1153	1156	O
+instance	1157	1165	O
+,	1165	1166	O
+the	1167	1170	O
+ω-bromine	1171	1180	B-Material
+chain	1181	1186	I-Material
+-	1186	1187	I-Material
+ends	1187	1191	I-Material
+of	1192	1194	I-Material
+polymers	1195	1203	I-Material
+prepared	1204	1212	O
+by	1213	1215	O
+ATRP	1216	1220	B-Process
+can	1221	1224	O
+be	1225	1227	O
+transformed	1228	1239	O
+into	1240	1244	O
+azides	1245	1251	B-Material
+by	1252	1254	O
+nucleophilic	1255	1267	B-Process
+substitution	1268	1280	I-Process
+and	1281	1284	O
+subsequently	1285	1297	O
+reacted	1298	1305	O
+with	1306	1310	O
+functional	1311	1321	O
+alkynes	1322	1329	B-Material
+(	1330	1331	O
+Scheme	1331	1337	O
+3	1338	1339	O
+)	1339	1340	O
+[	1341	1342	O
+32	1342	1344	O
+]	1344	1345	O
+.	1345	1346	O
+
+Due	1347	1350	O
+to	1351	1353	O
+the	1354	1357	O
+very	1358	1362	O
+high	1363	1367	O
+chemoselectivity	1368	1384	O
+of	1385	1387	O
+CuAAC	1388	1393	B-Process
+,	1393	1394	O
+this	1395	1399	O
+method	1400	1406	O
+is	1407	1409	O
+highly	1410	1416	O
+modular	1417	1424	O
+and	1425	1428	O
+may	1429	1432	O
+be	1433	1435	O
+used	1436	1440	O
+to	1441	1443	O
+synthesize	1444	1454	O
+a	1455	1456	O
+wide	1457	1461	O
+range	1462	1467	O
+of	1468	1470	O
+ω-functional	1471	1483	B-Material
+polymers	1484	1492	I-Material
+.	1492	1493	O
+
+Moreover	1494	1502	O
+,	1502	1503	O
+the	1504	1507	O
+formed	1508	1514	O
+triazole	1515	1523	B-Material
+rings	1524	1529	I-Material
+are	1530	1533	O
+not	1534	1537	O
+“	1538	1539	O
+passive	1539	1546	O
+”	1546	1547	O
+spacers	1548	1555	O
+but	1556	1559	O
+interesting	1560	1571	O
+functions	1572	1581	O
+exhibiting	1582	1592	O
+H	1593	1594	B-Process
+-	1594	1595	I-Process
+bonds	1595	1600	I-Process
+capability	1601	1611	O
+,	1611	1612	O
+aromaticity	1613	1624	O
+and	1625	1628	O
+rigidity	1629	1637	O
+.	1637	1638	O
 
 
 -DOCSTART- (S0032386108009397)
 
-The	NN	O	O
-viscoelastic	NN	O	B-Process
-behavior	NN	O	I-Process
-of	NN	O	O
-elastomers	NN	O	B-Material
-containing	NN	O	O
-small	NN	O	O
-amounts	NN	O	O
-of	NN	O	O
-unattached	NN	O	O
-chains	NN	O	O
-has	NN	O	O
-been	NN	O	O
-investigated	NN	O	O
-to	NN	O	O
-characterize	NN	O	B-Task
-the	NN	O	I-Task
-dynamics	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-polymer	NN	O	I-Task
-chains	NN	O	I-Task
-trapped	NN	O	O
-in	NN	O	O
-fixed	NN	O	O
-networks	NN	O	O
-[	NN	O	O
-66–68	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Polymer	NN	O	B-Material
-chains	NN	O	I-Material
-trapped	NN	O	O
-in	NN	O	O
-fixed	NN	O	O
-networks	NN	O	O
-constitute	NN	O	O
-a	NN	O	O
-simpler	NN	O	O
-system	NN	O	O
-for	NN	O	O
-the	NN	O	O
-study	NN	O	O
-of	NN	O	O
-the	NN	O	O
-polymer	NN	O	B-Material
-chain	NN	O	I-Material
-dynamics	NN	O	O
-than	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-uncrosslinked	NN	O	O
-polymer	NN	O	B-Material
-melts	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-because	NN	O	O
-the	NN	O	O
-complicated	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-the	NN	O	O
-motion	NN	O	O
-of	NN	O	O
-the	NN	O	O
-surrounding	NN	O	O
-chains	NN	O	O
-on	NN	O	O
-the	NN	O	O
-dynamics	NN	O	O
-of	NN	O	O
-the	NN	O	O
-probe	NN	O	B-Material
-chain	NN	O	I-Material
-–	NN	O	O
-called	NN	O	O
-“	NN	O	O
-constraint	NN	O	B-Process
-release	NN	O	I-Process
-”	NN	O	O
-[	NN	O	O
-69	NN	O	O
-]	NN	O	O
-–	NN	O	O
-is	NN	O	O
-absent	NN	O	O
-in	NN	O	O
-the	NN	O	O
-fixed	NN	O	O
-network	NN	O	O
-systems	NN	O	O
-.	NN	O	O
-
-Most	NN	O	O
-of	NN	O	O
-the	NN	O	O
-earlier	NN	O	O
-studies	NN	O	O
-employed	NN	O	O
-randomly	NN	O	O
-crosslinked	NN	O	B-Material
-elastomers	NN	O	I-Material
-as	NN	O	O
-host	NN	O	O
-networks	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-case	NN	O	O
-,	NN	O	O
-precise	NN	O	O
-control	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-mesh	NN	O	I-Task
-size	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-host	NN	O	O
-networks	NN	O	O
-is	NN	O	O
-not	NN	O	O
-possible	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-mesh	NN	O	B-Material
-size	NN	O	O
-has	NN	O	O
-a	NN	O	O
-broad	NN	O	O
-distribution	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-end	NN	O	O
--	NN	O	O
-linking	NN	O	O
-systems	NN	O	O
-give	NN	O	O
-the	NN	O	O
-host	NN	O	O
-networks	NN	O	O
-a	NN	O	O
-more	NN	O	O
-uniform	NN	O	O
-mesh	NN	O	O
-size	NN	O	O
-,	NN	O	O
-and	NN	O	O
-they	NN	O	O
-can	NN	O	O
-control	NN	O	O
-the	NN	O	O
-mesh	NN	O	B-Material
-size	NN	O	O
-by	NN	O	O
-the	NN	O	O
-size	NN	O	O
-of	NN	O	O
-the	NN	O	O
-precursor	NN	O	B-Material
-chains	NN	O	I-Material
-.	NN	O	O
-
-We	NN	O	O
-investigated	NN	O	O
-the	NN	O	O
-dynamic	NN	O	O
-viscoelasticity	NN	O	O
-of	NN	O	O
-end	NN	O	O
--	NN	O	O
-linked	NN	O	O
-PDMS	NN	O	B-Material
-elastomers	NN	O	I-Material
-containing	NN	O	O
-unattached	NN	O	O
-linear	NN	O	O
-PDMS	NN	O	B-Material
-as	NN	O	O
-functions	NN	O	O
-of	NN	O	O
-the	NN	O	O
-size	NN	O	O
-of	NN	O	O
-the	NN	O	O
-unattached	NN	O	B-Material
-chains	NN	O	I-Material
-(	NN	O	O
-Mg	NN	O	B-Material
-)	NN	O	O
-and	NN	O	O
-the	NN	O	O
-network	NN	O	B-Material
-mesh	NN	O	I-Material
-(	NN	O	O
-Mx	NN	O	B-Material
-)	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-9a	NN	O	O
-)	NN	O	O
-[	NN	O	O
-70	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-employed	NN	O	O
-two	NN	O	O
-types	NN	O	O
-of	NN	O	O
-host	NN	O	O
-networks	NN	O	O
-with	NN	O	O
-Mx	NN	O	O
->	NN	O	O
-
-Me	NN	O	O
-and	NN	O	O
-Mx	NN	O	O
-
-<	NN	O	O
-Me	NN	O	O
-where	NN	O	O
-Me	NN	O	O
-(	NN	O	O
-≈10,000	NN	O	O
-for	NN	O	O
-PDMS	NN	O	B-Material
-)	NN	O	O
-is	NN	O	O
-the	NN	O	O
-molecular	NN	O	O
-mass	NN	O	O
-between	NN	O	O
-adjacent	NN	O	O
-entanglements	NN	O	O
-in	NN	O	O
-the	NN	O	O
-molten	NN	O	O
-state	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Mx	NN	O	O
->	NN	O	O
-
-Me	NN	O	O
-and	NN	O	O
-Mx	NN	O	O
-
-<	NN	O	O
-Me	NN	O	O
-networks	NN	O	O
-(	NN	O	O
-designated	NN	O	O
-as	NN	O	O
-NL	NN	O	B-Process
-and	NN	O	O
-NS	NN	O	B-Process
-,	NN	O	O
-respectively	NN	O	O
-)	NN	O	O
-were	NN	O	O
-designed	NN	O	O
-by	NN	O	O
-end	NN	O	O
--	NN	O	O
-linking	NN	O	O
-the	NN	O	O
-long	NN	O	O
-(	NN	O	O
-Mn=84,000	NN	O	O
-)	NN	O	O
-and	NN	O	O
-short	NN	O	O
-precursor	NN	O	O
-chains	NN	O	O
-(	NN	O	O
-Mn=4,550	NN	O	O
-)	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-mesh	NN	O	B-Material
-of	NN	O	O
-the	NN	O	O
-NL	NN	O	O
-networks	NN	O	O
-is	NN	O	O
-dominated	NN	O	O
-by	NN	O	O
-trapped	NN	O	O
-entanglements	NN	O	O
-,	NN	O	O
-while	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-NS	NN	O	O
-network	NN	O	O
-is	NN	O	O
-governed	NN	O	O
-by	NN	O	O
-chemical	NN	O	B-Material
-cross	NN	O	I-Material
--	NN	O	I-Material
-links	NN	O	I-Material
-.	NN	O	I-Material
+The	0	3	O
+viscoelastic	4	16	B-Process
+behavior	17	25	I-Process
+of	26	28	O
+elastomers	29	39	B-Material
+containing	40	50	O
+small	51	56	O
+amounts	57	64	O
+of	65	67	O
+unattached	68	78	O
+chains	79	85	O
+has	86	89	O
+been	90	94	O
+investigated	95	107	O
+to	108	110	O
+characterize	111	123	B-Task
+the	124	127	I-Task
+dynamics	128	136	I-Task
+of	137	139	I-Task
+the	140	143	I-Task
+polymer	144	151	I-Task
+chains	152	158	I-Task
+trapped	159	166	O
+in	167	169	O
+fixed	170	175	O
+networks	176	184	O
+[	185	186	O
+66–68	186	191	O
+]	191	192	O
+.	192	193	O
+
+Polymer	194	201	B-Material
+chains	202	208	I-Material
+trapped	209	216	O
+in	217	219	O
+fixed	220	225	O
+networks	226	234	O
+constitute	235	245	O
+a	246	247	O
+simpler	248	255	O
+system	256	262	O
+for	263	266	O
+the	267	270	O
+study	271	276	O
+of	277	279	O
+the	280	283	O
+polymer	284	291	B-Material
+chain	292	297	I-Material
+dynamics	298	306	O
+than	307	311	O
+the	312	315	O
+corresponding	316	329	O
+uncrosslinked	330	343	O
+polymer	344	351	B-Material
+melts	352	357	I-Material
+.	357	358	O
+
+This	359	363	O
+is	364	366	O
+because	367	374	O
+the	375	378	O
+complicated	379	390	O
+effect	391	397	O
+of	398	400	O
+the	401	404	O
+motion	405	411	O
+of	412	414	O
+the	415	418	O
+surrounding	419	430	O
+chains	431	437	O
+on	438	440	O
+the	441	444	O
+dynamics	445	453	O
+of	454	456	O
+the	457	460	O
+probe	461	466	B-Material
+chain	467	472	I-Material
+–	473	474	O
+called	475	481	O
+“	482	483	O
+constraint	483	493	B-Process
+release	494	501	I-Process
+”	501	502	O
+[	503	504	O
+69	504	506	O
+]	506	507	O
+–	508	509	O
+is	510	512	O
+absent	513	519	O
+in	520	522	O
+the	523	526	O
+fixed	527	532	O
+network	533	540	O
+systems	541	548	O
+.	548	549	O
+
+Most	550	554	O
+of	555	557	O
+the	558	561	O
+earlier	562	569	O
+studies	570	577	O
+employed	578	586	O
+randomly	587	595	O
+crosslinked	596	607	B-Material
+elastomers	608	618	I-Material
+as	619	621	O
+host	622	626	O
+networks	627	635	O
+.	635	636	O
+
+In	637	639	O
+this	640	644	O
+case	645	649	O
+,	649	650	O
+precise	651	658	O
+control	659	666	B-Task
+of	667	669	I-Task
+the	670	673	I-Task
+mesh	674	678	I-Task
+size	679	683	I-Task
+of	684	686	O
+the	687	690	O
+host	691	695	O
+networks	696	704	O
+is	705	707	O
+not	708	711	O
+possible	712	720	O
+,	720	721	O
+and	722	725	O
+the	726	729	O
+mesh	730	734	B-Material
+size	735	739	O
+has	740	743	O
+a	744	745	O
+broad	746	751	O
+distribution	752	764	O
+.	764	765	O
+
+The	766	769	O
+end	770	773	O
+-	773	774	O
+linking	774	781	O
+systems	782	789	O
+give	790	794	O
+the	795	798	O
+host	799	803	O
+networks	804	812	O
+a	813	814	O
+more	815	819	O
+uniform	820	827	O
+mesh	828	832	O
+size	833	837	O
+,	837	838	O
+and	839	842	O
+they	843	847	O
+can	848	851	O
+control	852	859	O
+the	860	863	O
+mesh	864	868	B-Material
+size	869	873	O
+by	874	876	O
+the	877	880	O
+size	881	885	O
+of	886	888	O
+the	889	892	O
+precursor	893	902	B-Material
+chains	903	909	I-Material
+.	909	910	O
+
+We	911	913	O
+investigated	914	926	O
+the	927	930	O
+dynamic	931	938	O
+viscoelasticity	939	954	O
+of	955	957	O
+end	958	961	O
+-	961	962	O
+linked	962	968	O
+PDMS	969	973	B-Material
+elastomers	974	984	I-Material
+containing	985	995	O
+unattached	996	1006	O
+linear	1007	1013	O
+PDMS	1014	1018	B-Material
+as	1019	1021	O
+functions	1022	1031	O
+of	1032	1034	O
+the	1035	1038	O
+size	1039	1043	O
+of	1044	1046	O
+the	1047	1050	O
+unattached	1051	1061	B-Material
+chains	1062	1068	I-Material
+(	1069	1070	O
+Mg	1070	1072	B-Material
+)	1072	1073	O
+and	1074	1077	O
+the	1078	1081	O
+network	1082	1089	B-Material
+mesh	1090	1094	I-Material
+(	1095	1096	O
+Mx	1096	1098	B-Material
+)	1098	1099	O
+(	1100	1101	O
+Fig	1101	1104	O
+.	1104	1105	O
+
+9a	1106	1108	O
+)	1108	1109	O
+[	1110	1111	O
+70	1111	1113	O
+]	1113	1114	O
+.	1114	1115	O
+
+We	1116	1118	O
+employed	1119	1127	O
+two	1128	1131	O
+types	1132	1137	O
+of	1138	1140	O
+host	1141	1145	O
+networks	1146	1154	O
+with	1155	1159	O
+Mx	1160	1162	O
+>	1162	1163	O
+
+Me	1163	1165	O
+and	1166	1169	O
+Mx	1170	1172	O
+
+<	1172	1173	O
+Me	1173	1175	O
+where	1176	1181	O
+Me	1182	1184	O
+(	1185	1186	O
+≈10,000	1186	1193	O
+for	1194	1197	O
+PDMS	1198	1202	B-Material
+)	1202	1203	O
+is	1204	1206	O
+the	1207	1210	O
+molecular	1211	1220	O
+mass	1221	1225	O
+between	1226	1233	O
+adjacent	1234	1242	O
+entanglements	1243	1256	O
+in	1257	1259	O
+the	1260	1263	O
+molten	1264	1270	O
+state	1271	1276	O
+.	1276	1277	O
+
+The	1278	1281	O
+Mx	1282	1284	O
+>	1284	1285	O
+
+Me	1285	1287	O
+and	1288	1291	O
+Mx	1292	1294	O
+
+<	1294	1295	O
+Me	1295	1297	O
+networks	1298	1306	O
+(	1307	1308	O
+designated	1308	1318	O
+as	1319	1321	O
+NL	1322	1324	B-Process
+and	1325	1328	O
+NS	1329	1331	B-Process
+,	1331	1332	O
+respectively	1333	1345	O
+)	1345	1346	O
+were	1347	1351	O
+designed	1352	1360	O
+by	1361	1363	O
+end	1364	1367	O
+-	1367	1368	O
+linking	1368	1375	O
+the	1376	1379	O
+long	1380	1384	O
+(	1385	1386	O
+Mn=84,000	1386	1395	O
+)	1395	1396	O
+and	1397	1400	O
+short	1401	1406	O
+precursor	1407	1416	O
+chains	1417	1423	O
+(	1424	1425	O
+Mn=4,550	1425	1433	O
+)	1433	1434	O
+,	1434	1435	O
+respectively	1436	1448	O
+.	1448	1449	O
+
+The	1450	1453	O
+mesh	1454	1458	B-Material
+of	1459	1461	O
+the	1462	1465	O
+NL	1466	1468	O
+networks	1469	1477	O
+is	1478	1480	O
+dominated	1481	1490	O
+by	1491	1493	O
+trapped	1494	1501	O
+entanglements	1502	1515	O
+,	1515	1516	O
+while	1517	1522	O
+that	1523	1527	O
+of	1528	1530	O
+the	1531	1534	O
+NS	1535	1537	O
+network	1538	1545	O
+is	1546	1548	O
+governed	1549	1557	O
+by	1558	1560	O
+chemical	1561	1569	B-Material
+cross	1570	1575	I-Material
+-	1575	1576	I-Material
+links	1576	1581	I-Material
+.	1581	1582	I-Material
 
 
 -DOCSTART- (S0032386109001463)
 
-When	NN	O	O
-incompatible	NN	O	O
-three	NN	O	O
-component	NN	O	O
-polymer	NN	O	B-Material
-chains	NN	O	I-Material
-are	NN	O	O
-tethered	NN	O	O
-at	NN	O	O
-a	NN	O	O
-junction	NN	O	O
-point	NN	O	O
-,	NN	O	O
-the	NN	O	O
-resultant	NN	O	O
-star	NN	O	B-Material
-molecules	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-ABC	NN	O	O
-type	NN	O	O
-are	NN	O	O
-in	NN	O	O
-a	NN	O	O
-very	NN	O	O
-frustrated	NN	O	O
-field	NN	O	O
-in	NN	O	O
-bulk	NN	O	O
-.	NN	O	O
-
-That	NN	O	O
-is	NN	O	O
-,	NN	O	O
-their	NN	O	O
-junction	NN	O	O
-points	NN	O	O
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-aligned	NN	O	O
-on	NN	O	O
-two	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-planes	NN	O	O
-but	NN	O	O
-on	NN	O	O
-one	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-lines	NN	O	O
-,	NN	O	O
-as	NN	O	O
-schematically	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-when	NN	O	O
-the	NN	O	O
-chain	NN	O	O
-length	NN	O	O
-difference	NN	O	O
-is	NN	O	O
-not	NN	O	O
-so	NN	O	O
-large	NN	O	O
-,	NN	O	O
-the	NN	O	O
-array	NN	O	O
-of	NN	O	O
-junction	NN	O	O
-points	NN	O	O
-tends	NN	O	O
-to	NN	O	O
-be	NN	O	O
-straight	NN	O	O
-and	NN	O	O
-long	NN	O	O
-one	NN	O	O
-.	NN	O	O
-
-Consequently	NN	O	O
-each	NN	O	O
-domain	NN	O	O
-with	NN	O	O
-mesoscopic	NN	O	O
-sizes	NN	O	O
-becomes	NN	O	O
-cylinders	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-their	NN	O	O
-cross	NN	O	O
-sections	NN	O	O
-could	NN	O	O
-be	NN	O	O
-conformed	NN	O	O
-by	NN	O	O
-polygons	NN	O	B-Material
-[	NN	O	O
-28,29	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-because	NN	O	O
-three	NN	O	B-Material
-interfaces	NN	O	I-Material
-,	NN	O	I-Material
-A	NN	O	I-Material
-/	NN	O	I-Material
-B	NN	O	I-Material
-,	NN	O	I-Material
-B	NN	O	I-Material
-/	NN	O	I-Material
-C	NN	O	I-Material
-and	NN	O	I-Material
-C	NN	O	I-Material
-/	NN	O	I-Material
-A	NN	O	I-Material
-are	NN	O	O
-likely	NN	O	O
-to	NN	O	O
-be	NN	O	O
-flat	NN	O	O
-since	NN	O	O
-there	NN	O	O
-exist	NN	O	O
-no	NN	O	O
-junction	NN	O	O
-points	NN	O	O
-at	NN	O	O
-interfaces	NN	O	O
-and	NN	O	O
-therefore	NN	O	O
-chain	NN	O	B-Process
-entropy	NN	O	I-Process
-contribution	NN	O	O
-to	NN	O	O
-the	NN	O	O
-free	NN	O	O
-energy	NN	O	O
-of	NN	O	O
-structure	NN	O	O
-formation	NN	O	O
-is	NN	O	O
-considerably	NN	O	O
-small	NN	O	O
-comparing	NN	O	O
-with	NN	O	O
-regular	NN	O	O
-block	NN	O	O
-and	NN	O	O
-graft	NN	O	O
-copolymer	NN	O	O
-systems	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-a	NN	O	O
-matter	NN	O	O
-of	NN	O	O
-fact	NN	O	O
-,	NN	O	O
-Dotera	NN	O	O
-predicted	NN	O	O
-several	NN	O	O
-tiling	NN	O	O
-patterns	NN	O	O
-by	NN	O	O
-the	NN	O	O
-diagonal	NN	O	B-Process
-bond	NN	O	I-Process
-method	NN	O	I-Process
-,	NN	O	O
-a	NN	O	O
-new	NN	O	O
-Monte	NN	O	B-Process
-Carlo	NN	O	I-Process
-Simulation	NN	O	I-Process
-[	NN	O	O
-30	NN	O	O
-]	NN	O	O
-,	NN	O	O
-while	NN	O	O
-Gemma	NN	O	O
-and	NN	O	O
-Dotera	NN	O	O
-pointed	NN	O	O
-out	NN	O	O
-that	NN	O	O
-only	NN	O	O
-three	NN	O	O
-regular	NN	O	O
-tilings	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-(	NN	O	O
-6.6.6	NN	O	O
-)	NN	O	O
-,	NN	O	O
-(	NN	O	O
-4.8.8	NN	O	O
-)	NN	O	O
-and	NN	O	O
-(	NN	O	O
-4.6.12	NN	O	O
-)	NN	O	O
-are	NN	O	O
-permitted	NN	O	O
-for	NN	O	O
-three	NN	O	B-Material
--	NN	O	I-Material
-branched	NN	O	I-Material
-molecules	NN	O	I-Material
-proposed	NN	O	O
-as	NN	O	O
-the	NN	O	O
-“	NN	O	O
-even	NN	O	B-Process
-polygon	NN	O	I-Process
-theorem	NN	O	I-Process
-”	NN	O	O
-[	NN	O	O
-31	NN	O	O
-]	NN	O	O
-.	NN	O	O
+When	0	4	O
+incompatible	5	17	O
+three	18	23	O
+component	24	33	O
+polymer	34	41	B-Material
+chains	42	48	I-Material
+are	49	52	O
+tethered	53	61	O
+at	62	64	O
+a	65	66	O
+junction	67	75	O
+point	76	81	O
+,	81	82	O
+the	83	86	O
+resultant	87	96	O
+star	97	101	B-Material
+molecules	102	111	I-Material
+of	112	114	O
+the	115	118	O
+ABC	119	122	O
+type	123	127	O
+are	128	131	O
+in	132	134	O
+a	135	136	O
+very	137	141	O
+frustrated	142	152	O
+field	153	158	O
+in	159	161	O
+bulk	162	166	O
+.	166	167	O
+
+That	168	172	O
+is	173	175	O
+,	175	176	O
+their	177	182	O
+junction	183	191	O
+points	192	198	O
+can	199	202	O
+not	202	205	O
+be	206	208	O
+aligned	209	216	O
+on	217	219	O
+two	220	223	O
+-	223	224	O
+dimensional	224	235	O
+planes	236	242	O
+but	243	246	O
+on	247	249	O
+one	250	253	O
+-	253	254	O
+dimensional	254	265	O
+lines	266	271	O
+,	271	272	O
+as	273	275	O
+schematically	276	289	O
+shown	290	295	O
+in	296	298	O
+Fig	299	302	O
+.	302	303	O
+
+1	304	305	O
+.	305	306	O
+
+Furthermore	307	318	O
+,	318	319	O
+when	320	324	O
+the	325	328	O
+chain	329	334	O
+length	335	341	O
+difference	342	352	O
+is	353	355	O
+not	356	359	O
+so	360	362	O
+large	363	368	O
+,	368	369	O
+the	370	373	O
+array	374	379	O
+of	380	382	O
+junction	383	391	O
+points	392	398	O
+tends	399	404	O
+to	405	407	O
+be	408	410	O
+straight	411	419	O
+and	420	423	O
+long	424	428	O
+one	429	432	O
+.	432	433	O
+
+Consequently	434	446	O
+each	447	451	O
+domain	452	458	O
+with	459	463	O
+mesoscopic	464	474	O
+sizes	475	480	O
+becomes	481	488	O
+cylinders	489	498	B-Material
+,	498	499	O
+and	500	503	O
+their	504	509	O
+cross	510	515	O
+sections	516	524	O
+could	525	530	O
+be	531	533	O
+conformed	534	543	O
+by	544	546	O
+polygons	547	555	B-Material
+[	556	557	O
+28,29	557	562	O
+]	562	563	O
+.	563	564	O
+
+This	565	569	O
+is	570	572	O
+because	573	580	O
+three	581	586	B-Material
+interfaces	587	597	I-Material
+,	597	598	I-Material
+A	599	600	I-Material
+/	600	601	I-Material
+B	601	602	I-Material
+,	602	603	I-Material
+B	604	605	I-Material
+/	605	606	I-Material
+C	606	607	I-Material
+and	608	611	I-Material
+C	612	613	I-Material
+/	613	614	I-Material
+A	614	615	I-Material
+are	616	619	O
+likely	620	626	O
+to	627	629	O
+be	630	632	O
+flat	633	637	O
+since	638	643	O
+there	644	649	O
+exist	650	655	O
+no	656	658	O
+junction	659	667	O
+points	668	674	O
+at	675	677	O
+interfaces	678	688	O
+and	689	692	O
+therefore	693	702	O
+chain	703	708	B-Process
+entropy	709	716	I-Process
+contribution	717	729	O
+to	730	732	O
+the	733	736	O
+free	737	741	O
+energy	742	748	O
+of	749	751	O
+structure	752	761	O
+formation	762	771	O
+is	772	774	O
+considerably	775	787	O
+small	788	793	O
+comparing	794	803	O
+with	804	808	O
+regular	809	816	O
+block	817	822	O
+and	823	826	O
+graft	827	832	O
+copolymer	833	842	O
+systems	843	850	O
+.	850	851	O
+
+As	852	854	O
+a	855	856	O
+matter	857	863	O
+of	864	866	O
+fact	867	871	O
+,	871	872	O
+Dotera	873	879	O
+predicted	880	889	O
+several	890	897	O
+tiling	898	904	O
+patterns	905	913	O
+by	914	916	O
+the	917	920	O
+diagonal	921	929	B-Process
+bond	930	934	I-Process
+method	935	941	I-Process
+,	941	942	O
+a	943	944	O
+new	945	948	O
+Monte	949	954	B-Process
+Carlo	955	960	I-Process
+Simulation	961	971	I-Process
+[	972	973	O
+30	973	975	O
+]	975	976	O
+,	976	977	O
+while	978	983	O
+Gemma	984	989	O
+and	990	993	O
+Dotera	994	1000	O
+pointed	1001	1008	O
+out	1009	1012	O
+that	1013	1017	O
+only	1018	1022	O
+three	1023	1028	O
+regular	1029	1036	O
+tilings	1037	1044	O
+,	1044	1045	O
+i.e.	1046	1050	O
+,	1050	1051	O
+(	1052	1053	O
+6.6.6	1053	1058	O
+)	1058	1059	O
+,	1059	1060	O
+(	1061	1062	O
+4.8.8	1062	1067	O
+)	1067	1068	O
+and	1069	1072	O
+(	1073	1074	O
+4.6.12	1074	1080	O
+)	1080	1081	O
+are	1082	1085	O
+permitted	1086	1095	O
+for	1096	1099	O
+three	1100	1105	B-Material
+-	1105	1106	I-Material
+branched	1106	1114	I-Material
+molecules	1115	1124	I-Material
+proposed	1125	1133	O
+as	1134	1136	O
+the	1137	1140	O
+“	1141	1142	O
+even	1142	1146	B-Process
+polygon	1147	1154	I-Process
+theorem	1155	1162	I-Process
+”	1162	1163	O
+[	1164	1165	O
+31	1165	1167	O
+]	1167	1168	O
+.	1168	1169	O
 
 
 -DOCSTART- (S0032386109003991)
 
-A	NN	O	O
-living	NN	O	O
-polymerization	NN	O	B-Process
-is	NN	O	O
-a	NN	O	O
-reaction	NN	O	B-Process
-without	NN	O	O
-transfer	NN	O	O
-and	NN	O	O
-termination	NN	O	B-Process
-reactions	NN	O	O
-that	NN	O	O
-can	NN	O	O
-proceed	NN	O	O
-up	NN	O	O
-to	NN	O	O
-complete	NN	O	O
-monomer	NN	O	B-Process
-conversion	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-when	NN	O	O
-initiation	NN	O	O
-is	NN	O	O
-quantitative	NN	O	O
-and	NN	O	O
-fast	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-the	NN	O	O
-propagation	NN	O	B-Process
-reaction	NN	O	O
-,	NN	O	O
-polymers	NN	O	B-Material
-with	NN	O	O
-precisely	NN	O	O
-controlled	NN	O	O
-chain	NN	O	O
-length	NN	O	O
-and	NN	O	O
-narrow	NN	O	O
-molar	NN	O	O
-mass	NN	O	O
-distribution	NN	O	O
-can	NN	O	O
-be	NN	O	O
-obtained	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-an	NN	O	O
-industrial	NN	O	B-Task
-styrene	NN	O	I-Task
-polymerization	NN	O	I-Task
-this	NN	O	O
-would	NN	O	O
-permit	NN	O	O
-to	NN	O	O
-avoid	NN	O	O
-any	NN	O	O
-specific	NN	O	O
-washing	NN	O	B-Process
-or	NN	O	O
-degassing	NN	O	B-Process
-steps	NN	O	O
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-necessary	NN	O	O
-in	NN	O	O
-the	NN	O	O
-radical	NN	O	O
-process	NN	O	O
-to	NN	O	O
-remove	NN	O	O
-residual	NN	O	O
-monomer	NN	O	O
-and	NN	O	O
-low	NN	O	B-Material
-molar	NN	O	I-Material
-mass	NN	O	I-Material
-oligomers	NN	O	I-Material
-.	NN	O	O
-
-Since	NN	O	O
-head	NN	O	O
--	NN	O	O
-to	NN	O	O
--	NN	O	O
-head	NN	O	O
-defects	NN	O	O
-along	NN	O	O
-the	NN	O	O
-chains	NN	O	O
-are	NN	O	O
-absent	NN	O	O
-,	NN	O	O
-anionic	NN	O	B-Material
-polystyrene	NN	O	I-Material
-would	NN	O	O
-exhibit	NN	O	O
-also	NN	O	O
-a	NN	O	O
-better	NN	O	O
-thermal	NN	O	O
-stability	NN	O	O
-than	NN	O	O
-radical	NN	O	O
-one	NN	O	O
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-production	NN	O	B-Task
-of	NN	O	I-Task
-anionic	NN	O	I-Task
-polystyrene	NN	O	I-Task
-(	NN	O	I-Task
-PS	NN	O	I-Task
-)	NN	O	I-Task
-would	NN	O	O
-be	NN	O	O
-of	NN	O	O
-interest	NN	O	O
-if	NN	O	O
-the	NN	O	O
-conditions	NN	O	O
-required	NN	O	O
-to	NN	O	O
-control	NN	O	O
-the	NN	O	O
-polymerization	NN	O	B-Process
-could	NN	O	O
-be	NN	O	O
-adapted	NN	O	O
-to	NN	O	O
-the	NN	O	O
-market	NN	O	O
-and	NN	O	O
-be	NN	O	O
-able	NN	O	O
-to	NN	O	O
-compete	NN	O	O
-economically	NN	O	O
-with	NN	O	O
-industrial	NN	O	O
-radical	NN	O	O
-processes	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-use	NN	O	O
-of	NN	O	O
-organic	NN	O	B-Material
-solvents	NN	O	I-Material
-and	NN	O	O
-of	NN	O	O
-expensive	NN	O	O
-alkyllithium	NN	O	B-Process
-initiators	NN	O	I-Process
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-the	NN	O	O
-relatively	NN	O	O
-low	NN	O	O
-reaction	NN	O	O
-temperatures	NN	O	O
-required	NN	O	O
-,	NN	O	O
-was	NN	O	O
-some	NN	O	O
-important	NN	O	O
-limitation	NN	O	O
-to	NN	O	O
-overcome	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-possibilities	NN	O	O
-to	NN	O	O
-achieve	NN	O	O
-a	NN	O	O
-quantitative	NN	O	O
-living	NN	O	O
--	NN	O	O
-like	NN	O	O
-anionic	NN	O	B-Process
-polymerization	NN	O	I-Process
-of	NN	O	I-Process
-styrene	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-absence	NN	O	O
-of	NN	O	O
-solvent	NN	O	B-Material
-and	NN	O	O
-at	NN	O	O
-elevated	NN	O	O
-temperature	NN	O	O
-,	NN	O	O
-using	NN	O	O
-inexpensive	NN	O	O
-initiating	NN	O	O
-systems	NN	O	O
-,	NN	O	O
-were	NN	O	O
-the	NN	O	O
-main	NN	O	O
-targets	NN	O	O
-identified	NN	O	O
-to	NN	O	O
-tremendously	NN	O	O
-decrease	NN	O	O
-the	NN	O	O
-cost	NN	O	O
-of	NN	O	O
-the	NN	O	O
-anionic	NN	O	O
-process	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-implied	NN	O	O
-at	NN	O	O
-first	NN	O	O
-to	NN	O	O
-control	NN	O	O
-the	NN	O	O
-reactivity	NN	O	O
-and	NN	O	O
-stability	NN	O	O
-of	NN	O	O
-initiating	NN	O	O
-and	NN	O	O
-propagating	NN	O	B-Process
-active	NN	O	I-Process
-species	NN	O	I-Process
-in	NN	O	O
-such	NN	O	O
-unusual	NN	O	O
-operating	NN	O	O
-conditions	NN	O	O
-.	NN	O	O
+A	0	1	O
+living	2	8	O
+polymerization	9	23	B-Process
+is	24	26	O
+a	27	28	O
+reaction	29	37	B-Process
+without	38	45	O
+transfer	46	54	O
+and	55	58	O
+termination	59	70	B-Process
+reactions	71	80	O
+that	81	85	O
+can	86	89	O
+proceed	90	97	O
+up	98	100	O
+to	101	103	O
+complete	104	112	O
+monomer	113	120	B-Process
+conversion	121	131	I-Process
+.	131	132	O
+
+In	133	135	O
+addition	136	144	O
+,	144	145	O
+when	146	150	O
+initiation	151	161	O
+is	162	164	O
+quantitative	165	177	O
+and	178	181	O
+fast	182	186	O
+compared	187	195	O
+to	196	198	O
+the	199	202	O
+propagation	203	214	B-Process
+reaction	215	223	O
+,	223	224	O
+polymers	225	233	B-Material
+with	234	238	O
+precisely	239	248	O
+controlled	249	259	O
+chain	260	265	O
+length	266	272	O
+and	273	276	O
+narrow	277	283	O
+molar	284	289	O
+mass	290	294	O
+distribution	295	307	O
+can	308	311	O
+be	312	314	O
+obtained	315	323	O
+.	323	324	O
+
+In	325	327	O
+the	328	331	O
+case	332	336	O
+of	337	339	O
+an	340	342	O
+industrial	343	353	B-Task
+styrene	354	361	I-Task
+polymerization	362	376	I-Task
+this	377	381	O
+would	382	387	O
+permit	388	394	O
+to	395	397	O
+avoid	398	403	O
+any	404	407	O
+specific	408	416	O
+washing	417	424	B-Process
+or	425	427	O
+degassing	428	437	B-Process
+steps	438	443	O
+,	443	444	O
+which	445	450	O
+are	451	454	O
+necessary	455	464	O
+in	465	467	O
+the	468	471	O
+radical	472	479	O
+process	480	487	O
+to	488	490	O
+remove	491	497	O
+residual	498	506	O
+monomer	507	514	O
+and	515	518	O
+low	519	522	B-Material
+molar	523	528	I-Material
+mass	529	533	I-Material
+oligomers	534	543	I-Material
+.	543	544	O
+
+Since	545	550	O
+head	551	555	O
+-	555	556	O
+to	556	558	O
+-	558	559	O
+head	559	563	O
+defects	564	571	O
+along	572	577	O
+the	578	581	O
+chains	582	588	O
+are	589	592	O
+absent	593	599	O
+,	599	600	O
+anionic	601	608	B-Material
+polystyrene	609	620	I-Material
+would	621	626	O
+exhibit	627	634	O
+also	635	639	O
+a	640	641	O
+better	642	648	O
+thermal	649	656	O
+stability	657	666	O
+than	667	671	O
+radical	672	679	O
+one	680	683	O
+.	683	684	O
+
+Therefore	685	694	O
+,	694	695	O
+production	696	706	B-Task
+of	707	709	I-Task
+anionic	710	717	I-Task
+polystyrene	718	729	I-Task
+(	730	731	I-Task
+PS	731	733	I-Task
+)	733	734	I-Task
+would	735	740	O
+be	741	743	O
+of	744	746	O
+interest	747	755	O
+if	756	758	O
+the	759	762	O
+conditions	763	773	O
+required	774	782	O
+to	783	785	O
+control	786	793	O
+the	794	797	O
+polymerization	798	812	B-Process
+could	813	818	O
+be	819	821	O
+adapted	822	829	O
+to	830	832	O
+the	833	836	O
+market	837	843	O
+and	844	847	O
+be	848	850	O
+able	851	855	O
+to	856	858	O
+compete	859	866	O
+economically	867	879	O
+with	880	884	O
+industrial	885	895	O
+radical	896	903	O
+processes	904	913	O
+.	913	914	O
+
+The	915	918	O
+use	919	922	O
+of	923	925	O
+organic	926	933	B-Material
+solvents	934	942	I-Material
+and	943	946	O
+of	947	949	O
+expensive	950	959	O
+alkyllithium	960	972	B-Process
+initiators	973	983	I-Process
+,	983	984	O
+as	985	987	O
+well	988	992	O
+as	993	995	O
+the	996	999	O
+relatively	1000	1010	O
+low	1011	1014	O
+reaction	1015	1023	O
+temperatures	1024	1036	O
+required	1037	1045	O
+,	1045	1046	O
+was	1047	1050	O
+some	1051	1055	O
+important	1056	1065	O
+limitation	1066	1076	O
+to	1077	1079	O
+overcome	1080	1088	O
+.	1088	1089	O
+
+The	1090	1093	O
+possibilities	1094	1107	O
+to	1108	1110	O
+achieve	1111	1118	O
+a	1119	1120	O
+quantitative	1121	1133	O
+living	1134	1140	O
+-	1140	1141	O
+like	1141	1145	O
+anionic	1146	1153	B-Process
+polymerization	1154	1168	I-Process
+of	1169	1171	I-Process
+styrene	1172	1179	I-Process
+in	1180	1182	O
+the	1183	1186	O
+absence	1187	1194	O
+of	1195	1197	O
+solvent	1198	1205	B-Material
+and	1206	1209	O
+at	1210	1212	O
+elevated	1213	1221	O
+temperature	1222	1233	O
+,	1233	1234	O
+using	1235	1240	O
+inexpensive	1241	1252	O
+initiating	1253	1263	O
+systems	1264	1271	O
+,	1271	1272	O
+were	1273	1277	O
+the	1278	1281	O
+main	1282	1286	O
+targets	1287	1294	O
+identified	1295	1305	O
+to	1306	1308	O
+tremendously	1309	1321	O
+decrease	1322	1330	O
+the	1331	1334	O
+cost	1335	1339	O
+of	1340	1342	O
+the	1343	1346	O
+anionic	1347	1354	O
+process	1355	1362	O
+.	1362	1363	O
+
+This	1364	1368	O
+implied	1369	1376	O
+at	1377	1379	O
+first	1380	1385	O
+to	1386	1388	O
+control	1389	1396	O
+the	1397	1400	O
+reactivity	1401	1411	O
+and	1412	1415	O
+stability	1416	1425	O
+of	1426	1428	O
+initiating	1429	1439	O
+and	1440	1443	O
+propagating	1444	1455	B-Process
+active	1456	1462	I-Process
+species	1463	1470	I-Process
+in	1471	1473	O
+such	1474	1478	O
+unusual	1479	1486	O
+operating	1487	1496	O
+conditions	1497	1507	O
+.	1507	1508	O
 
 
 -DOCSTART- (S0032386109005357)
 
-A	NN	O	O
-hydroxyl	NN	O	O
--	NN	O	O
-functionalized	NN	O	O
-poly(butylene	NN	O	O
-succinate	NN	O	O
-)	NN	O	O
-based	NN	O	O
-polyester	NN	O	B-Material
-was	NN	O	O
-prepared	NN	O	O
-by	NN	O	O
-conventional	NN	O	O
-polycondensation	NN	O	B-Process
-of	NN	O	O
-benzyl	NN	O	O
--	NN	O	O
-protected	NN	O	O
-dimethyl	NN	O	B-Material
-malonate	NN	O	I-Material
-and	NN	O	O
-1,4-butanediol	NN	O	B-Material
-
-(	NN	O	O
-Scheme	NN	O	O
-2(a	NN	O	O
-)	NN	O	O
-)	NN	O	O
-
-[	NN	O	O
-24a	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Yao	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-reported	NN	O	O
-on	NN	O	O
-the	NN	O	O
-direct	NN	O	O
-polycondensation	NN	O	B-Process
-of	NN	O	O
-l	NN	O	B-Material
--	NN	O	I-Material
-lactic	NN	O	I-Material
-acid	NN	O	I-Material
-and	NN	O	O
-citric	NN	O	B-Material
-acid	NN	O	I-Material
-with	NN	O	O
-the	NN	O	O
-formation	NN	O	O
-of	NN	O	O
-poly[(l	NN	O	B-Material
--	NN	O	I-Material
-lactic	NN	O	I-Material
-acid)-co-(citric	NN	O	I-Material
-acid	NN	O	I-Material
-)	NN	O	I-Material
-]	NN	O	I-Material
-,	NN	O	O
-obtaining	NN	O	O
-a	NN	O	O
-polyester	NN	O	B-Material
-oligomer	NN	O	I-Material
-with	NN	O	O
-both	NN	O	O
-pendant	NN	O	O
-carboxylic	NN	O	O
-and	NN	O	O
-hydroxyl	NN	O	O
-groups	NN	O	O
-[	NN	O	O
-24b	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-PLCA	NN	O	B-Material
-oligomer	NN	O	I-Material
-was	NN	O	O
-reacted	NN	O	O
-with	NN	O	O
-dihydroxylated	NN	O	B-Material
-PLLA	NN	O	I-Material
-as	NN	O	O
-a	NN	O	O
-macromonomer	NN	O	O
-,	NN	O	O
-yielding	NN	O	O
-a	NN	O	O
-PLCA	NN	O	O
-–	NN	O	O
-
-PLLA	NN	O	O
-multiblock	NN	O	O
-copolymer	NN	O	O
-as	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Scheme	NN	O	O
-2(b	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-While	NN	O	O
-lipases	NN	O	B-Material
-have	NN	O	O
-been	NN	O	O
-investigated	NN	O	O
-for	NN	O	O
-the	NN	O	O
-ring	NN	O	B-Process
--	NN	O	I-Process
-opening	NN	O	I-Process
-polymerization	NN	O	I-Process
-(	NN	O	O
-ROP	NN	O	B-Process
-)	NN	O	O
-of	NN	O	O
-cyclic	NN	O	B-Material
-ester	NN	O	I-Material
-monomers	NN	O	I-Material
-[	NN	O	O
-25,26	NN	O	O
-]	NN	O	O
-,	NN	O	O
-they	NN	O	O
-have	NN	O	O
-also	NN	O	O
-been	NN	O	O
-used	NN	O	O
-for	NN	O	O
-the	NN	O	O
-preparation	NN	O	O
-of	NN	O	O
-polyesters	NN	O	B-Material
-by	NN	O	O
-polycondensation	NN	O	B-Process
-reactions	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-this	NN	O	O
-technique	NN	O	O
-is	NN	O	O
-that	NN	O	O
-these	NN	O	O
-enzyme	NN	O	B-Process
--	NN	O	I-Process
-catalyzed	NN	O	I-Process
-reactions	NN	O	O
-proceed	NN	O	O
-without	NN	O	O
-protection	NN	O	O
-of	NN	O	O
-the	NN	O	O
-pendant	NN	O	O
-functional	NN	O	O
-groups	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-field	NN	O	O
-,	NN	O	O
-hydroxyl	NN	O	B-Material
--	NN	O	I-Material
-bearing	NN	O	I-Material
-polyesters	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-synthesized	NN	O	O
-by	NN	O	O
-the	NN	O	O
-copolymerization	NN	O	B-Process
-of	NN	O	O
-divinyl	NN	O	B-Material
-adipate	NN	O	I-Material
-with	NN	O	O
-various	NN	O	O
-triols	NN	O	B-Material
-(	NN	O	O
-e.g.	NN	O	O
-glycerol	NN	O	B-Material
-,	NN	O	O
-1,2,4-butanetriol	NN	O	B-Material
-)	NN	O	O
-as	NN	O	O
-represented	NN	O	O
-in	NN	O	O
-Scheme	NN	O	O
-2(c	NN	O	O
-)	NN	O	O
-
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-and	NN	O	O
-by	NN	O	O
-copolymerizations	NN	O	B-Process
-of	NN	O	O
-1,8-octanediol	NN	O	B-Material
-with	NN	O	O
-adipic	NN	O	B-Material
-acid	NN	O	I-Material
-and	NN	O	O
-several	NN	O	O
-alditols	NN	O	B-Material
-[	NN	O	O
-28	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Very	NN	O	O
-recently	NN	O	O
-,	NN	O	O
-several	NN	O	O
-α-hydroxy	NN	O	B-Material
-acids	NN	O	I-Material
-derived	NN	O	O
-from	NN	O	O
-amino	NN	O	B-Material
-acids	NN	O	I-Material
-were	NN	O	O
-homo-	NN	O	O
-and	NN	O	O
-copolymerized	NN	O	O
-with	NN	O	O
-lactic	NN	O	B-Material
-acid	NN	O	I-Material
-by	NN	O	O
-polycondensation	NN	O	B-Process
-in	NN	O	O
-bulk	NN	O	O
-without	NN	O	O
-protected	NN	O	O
-monomers	NN	O	B-Material
-(	NN	O	O
-Scheme	NN	O	O
-2(d	NN	O	O
-)	NN	O	O
-)	NN	O	O
-
-[	NN	O	O
-29	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Biodegradable	NN	O	B-Material
-polyesters	NN	O	I-Material
-with	NN	O	O
-various	NN	O	O
-pendant	NN	O	O
-groups	NN	O	O
-were	NN	O	O
-obtained	NN	O	O
-,	NN	O	O
-although	NN	O	O
-the	NN	O	O
-molecular	NN	O	O
-weights	NN	O	O
-remained	NN	O	O
-low	NN	O	O
-(	NN	O	O
-1000–3000gmol−1	NN	O	O
-)	NN	O	O
-.	NN	O	O
+A	0	1	O
+hydroxyl	2	10	O
+-	10	11	O
+functionalized	11	25	O
+poly(butylene	26	39	O
+succinate	40	49	O
+)	49	50	O
+based	51	56	O
+polyester	57	66	B-Material
+was	67	70	O
+prepared	71	79	O
+by	80	82	O
+conventional	83	95	O
+polycondensation	96	112	B-Process
+of	113	115	O
+benzyl	116	122	O
+-	122	123	O
+protected	123	132	O
+dimethyl	133	141	B-Material
+malonate	142	150	I-Material
+and	151	154	O
+1,4-butanediol	155	169	B-Material
+
+(	170	171	O
+Scheme	171	177	O
+2(a	178	181	O
+)	181	182	O
+)	182	183	O
+
+[	184	185	O
+24a	185	188	O
+]	188	189	O
+.	189	190	O
+
+Yao	191	194	O
+et	195	197	O
+al	198	200	O
+.	200	201	O
+reported	202	210	O
+on	211	213	O
+the	214	217	O
+direct	218	224	O
+polycondensation	225	241	B-Process
+of	242	244	O
+l	245	246	B-Material
+-	246	247	I-Material
+lactic	247	253	I-Material
+acid	254	258	I-Material
+and	259	262	O
+citric	263	269	B-Material
+acid	270	274	I-Material
+with	275	279	O
+the	280	283	O
+formation	284	293	O
+of	294	296	O
+poly[(l	297	304	B-Material
+-	304	305	I-Material
+lactic	305	311	I-Material
+acid)-co-(citric	312	328	I-Material
+acid	329	333	I-Material
+)	333	334	I-Material
+]	334	335	I-Material
+,	335	336	O
+obtaining	337	346	O
+a	347	348	O
+polyester	349	358	B-Material
+oligomer	359	367	I-Material
+with	368	372	O
+both	373	377	O
+pendant	378	385	O
+carboxylic	386	396	O
+and	397	400	O
+hydroxyl	401	409	O
+groups	410	416	O
+[	417	418	O
+24b	418	421	O
+]	421	422	O
+.	422	423	O
+
+This	424	428	O
+PLCA	429	433	B-Material
+oligomer	434	442	I-Material
+was	443	446	O
+reacted	447	454	O
+with	455	459	O
+dihydroxylated	460	474	B-Material
+PLLA	475	479	I-Material
+as	480	482	O
+a	483	484	O
+macromonomer	485	497	O
+,	497	498	O
+yielding	499	507	O
+a	508	509	O
+PLCA	510	514	O
+–	514	515	O
+
+PLLA	515	519	O
+multiblock	520	530	O
+copolymer	531	540	O
+as	541	543	O
+shown	544	549	O
+in	550	552	O
+Scheme	553	559	O
+2(b	560	563	O
+)	563	564	O
+.	564	565	O
+
+While	566	571	O
+lipases	572	579	B-Material
+have	580	584	O
+been	585	589	O
+investigated	590	602	O
+for	603	606	O
+the	607	610	O
+ring	611	615	B-Process
+-	615	616	I-Process
+opening	616	623	I-Process
+polymerization	624	638	I-Process
+(	639	640	O
+ROP	640	643	B-Process
+)	643	644	O
+of	645	647	O
+cyclic	648	654	B-Material
+ester	655	660	I-Material
+monomers	661	669	I-Material
+[	670	671	O
+25,26	671	676	O
+]	676	677	O
+,	677	678	O
+they	679	683	O
+have	684	688	O
+also	689	693	O
+been	694	698	O
+used	699	703	O
+for	704	707	O
+the	708	711	O
+preparation	712	723	O
+of	724	726	O
+polyesters	727	737	B-Material
+by	738	740	O
+polycondensation	741	757	B-Process
+reactions	758	767	O
+.	767	768	O
+
+The	769	772	O
+advantage	773	782	O
+of	783	785	O
+this	786	790	O
+technique	791	800	O
+is	801	803	O
+that	804	808	O
+these	809	814	O
+enzyme	815	821	B-Process
+-	821	822	I-Process
+catalyzed	822	831	I-Process
+reactions	832	841	O
+proceed	842	849	O
+without	850	857	O
+protection	858	868	O
+of	869	871	O
+the	872	875	O
+pendant	876	883	O
+functional	884	894	O
+groups	895	901	O
+.	901	902	O
+
+In	903	905	O
+this	906	910	O
+field	911	916	O
+,	916	917	O
+hydroxyl	918	926	B-Material
+-	926	927	I-Material
+bearing	927	934	I-Material
+polyesters	935	945	I-Material
+have	946	950	O
+been	951	955	O
+synthesized	956	967	O
+by	968	970	O
+the	971	974	O
+copolymerization	975	991	B-Process
+of	992	994	O
+divinyl	995	1002	B-Material
+adipate	1003	1010	I-Material
+with	1011	1015	O
+various	1016	1023	O
+triols	1024	1030	B-Material
+(	1031	1032	O
+e.g.	1032	1036	O
+glycerol	1037	1045	B-Material
+,	1045	1046	O
+1,2,4-butanetriol	1047	1064	B-Material
+)	1064	1065	O
+as	1066	1068	O
+represented	1069	1080	O
+in	1081	1083	O
+Scheme	1084	1090	O
+2(c	1091	1094	O
+)	1094	1095	O
+
+[	1096	1097	O
+27	1097	1099	O
+]	1099	1100	O
+and	1101	1104	O
+by	1105	1107	O
+copolymerizations	1108	1125	B-Process
+of	1126	1128	O
+1,8-octanediol	1129	1143	B-Material
+with	1144	1148	O
+adipic	1149	1155	B-Material
+acid	1156	1160	I-Material
+and	1161	1164	O
+several	1165	1172	O
+alditols	1173	1181	B-Material
+[	1182	1183	O
+28	1183	1185	O
+]	1185	1186	O
+.	1186	1187	O
+
+Very	1188	1192	O
+recently	1193	1201	O
+,	1201	1202	O
+several	1203	1210	O
+α-hydroxy	1211	1220	B-Material
+acids	1221	1226	I-Material
+derived	1227	1234	O
+from	1235	1239	O
+amino	1240	1245	B-Material
+acids	1246	1251	I-Material
+were	1252	1256	O
+homo-	1257	1262	O
+and	1263	1266	O
+copolymerized	1267	1280	O
+with	1281	1285	O
+lactic	1286	1292	B-Material
+acid	1293	1297	I-Material
+by	1298	1300	O
+polycondensation	1301	1317	B-Process
+in	1318	1320	O
+bulk	1321	1325	O
+without	1326	1333	O
+protected	1334	1343	O
+monomers	1344	1352	B-Material
+(	1353	1354	O
+Scheme	1354	1360	O
+2(d	1361	1364	O
+)	1364	1365	O
+)	1365	1366	O
+
+[	1367	1368	O
+29	1368	1370	O
+]	1370	1371	O
+.	1371	1372	O
+
+Biodegradable	1373	1386	B-Material
+polyesters	1387	1397	I-Material
+with	1398	1402	O
+various	1403	1410	O
+pendant	1411	1418	O
+groups	1419	1425	O
+were	1426	1430	O
+obtained	1431	1439	O
+,	1439	1440	O
+although	1441	1449	O
+the	1450	1453	O
+molecular	1454	1463	O
+weights	1464	1471	O
+remained	1472	1480	O
+low	1481	1484	O
+(	1485	1486	O
+1000–3000gmol−1	1486	1501	O
+)	1501	1502	O
+.	1502	1503	O
 
 
 -DOCSTART- (S0032386110001254)
 
-Despite	NN	O	O
-the	NN	O	O
-loss	NN	O	O
-of	NN	O	O
-directed	NN	O	O
-,	NN	O	O
-self	NN	O	O
--	NN	O	O
-complementary	NN	O	O
-hydrogen	NN	O	B-Process
-bonding	NN	O	I-Process
-through	NN	O	O
-alkylation	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-imidazole	NN	O	O
-ring	NN	O	O
-,	NN	O	O
-electrostatic	NN	O	B-Process
-aggregation	NN	O	I-Process
-of	NN	O	O
-imidazolium	NN	O	B-Material
-salts	NN	O	I-Material
-is	NN	O	O
-a	NN	O	O
-tunable	NN	O	O
-,	NN	O	O
-self	NN	O	O
--	NN	O	O
-assembly	NN	O	O
-process	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-instrumental	NN	O	O
-to	NN	O	O
-several	NN	O	O
-applications	NN	O	O
-.	NN	O	O
-
-Imidazolium	NN	O	B-Material
-salts	NN	O	I-Material
-are	NN	O	O
-used	NN	O	O
-to	NN	O	O
-extract	NN	O	O
-metal	NN	O	B-Material
-ions	NN	O	I-Material
-from	NN	O	O
-aqueous	NN	O	B-Material
-solutions	NN	O	I-Material
-and	NN	O	O
-coat	NN	O	O
-metal	NN	O	B-Material
-nanoparticles	NN	O	I-Material
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-,	NN	O	O
-dissolve	NN	O	O
-carbohydrates	NN	O	B-Material
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-create	NN	O	O
-polyelectrolyte	NN	O	B-Process
-brushes	NN	O	I-Process
-on	NN	O	O
-surfaces	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-example	NN	O	O
-,	NN	O	O
-atom	NN	O	B-Process
-transfer	NN	O	I-Process
-radical	NN	O	I-Process
-polymerization	NN	O	I-Process
-(	NN	O	O
-ATRP	NN	O	B-Process
-)	NN	O	O
-was	NN	O	O
-used	NN	O	O
-to	NN	O	O
-graft	NN	O	O
-poly(1-ethyl	NN	O	B-Material
-3-(2-methacryloyloxy	NN	O	I-Material
-ethyl	NN	O	I-Material
-)	NN	O	I-Material
-imidazolium	NN	O	I-Material
-chloride	NN	O	I-Material
-)	NN	O	O
-brushes	NN	O	O
-onto	NN	O	O
-gold	NN	O	B-Material
-surfaces	NN	O	I-Material
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-One	NN	O	O
-of	NN	O	O
-the	NN	O	O
-imidazolium	NN	O	B-Material
-salt	NN	O	I-Material
-’s	NN	O	O
-most	NN	O	O
-promising	NN	O	O
-attributes	NN	O	O
-is	NN	O	O
-its	NN	O	O
-antimicrobial	NN	O	B-Process
-action	NN	O	I-Process
-[	NN	O	O
-12,18	NN	O	O
-]	NN	O	O
-and	NN	O	O
-molecular	NN	O	O
-self	NN	O	O
--	NN	O	O
-assembly	NN	O	O
-into	NN	O	O
-liquid	NN	O	B-Material
-crystals	NN	O	I-Material
-[	NN	O	O
-19,20	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-1-Alkyl-3-methylimidazolium	NN	O	B-Material
-chlorides	NN	O	I-Material
-and	NN	O	O
-bromides	NN	O	B-Material
-,	NN	O	O
-1-alkyl-2-methyl-3-hydroxyethylimidazolium	NN	O	B-Material
-chlorides	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-N	NN	O	B-Material
--	NN	O	I-Material
-alkyl	NN	O	I-Material
--	NN	O	I-Material
-N	NN	O	I-Material
--	NN	O	I-Material
-hydroxyethylpyrrolidinonium	NN	O	I-Material
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-,	NN	O	O
-all	NN	O	O
-exhibit	NN	O	O
-strong	NN	O	O
-biocidal	NN	O	B-Process
-activity	NN	O	I-Process
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Hydrogels	NN	O	B-Material
-form	NN	O	I-Material
-from	NN	O	O
-polymerized	NN	O	B-Material
-methylimidazolium	NN	O	I-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-ionic	NN	O	I-Material
-liquids	NN	O	I-Material
-with	NN	O	O
-acryloyl	NN	O	B-Material
-groups	NN	O	I-Material
-;	NN	O	O
-the	NN	O	O
-polymer	NN	O	B-Material
-self	NN	O	O
--	NN	O	O
-assembles	NN	O	O
-into	NN	O	O
-organized	NN	O	B-Material
-lamellae	NN	O	I-Material
-with	NN	O	O
-unique	NN	O	O
-swelling	NN	O	O
-properties	NN	O	O
-,	NN	O	O
-leading	NN	O	O
-to	NN	O	O
-bioactive	NN	O	B-Task
-applications	NN	O	I-Task
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Other	NN	O	O
-bioactive	NN	O	B-Task
-applications	NN	O	I-Task
-for	NN	O	O
-imidazolium	NN	O	B-Material
-salts	NN	O	I-Material
-include	NN	O	O
-antiarrhythmics	NN	O	B-Material
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-,	NN	O	O
-anti	NN	O	B-Material
--	NN	O	I-Material
-metastic	NN	O	I-Material
-agents	NN	O	I-Material
-[	NN	O	O
-22,23	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-imidazolium	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-steroids	NN	O	I-Material
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Separation	NN	O	B-Process
-applications	NN	O	I-Process
-include	NN	O	O
-efficient	NN	O	B-Process
-absorption	NN	O	I-Process
-of	NN	O	I-Process
-CO2	NN	O	I-Process
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Imidazolium	NN	O	B-Material
-salts	NN	O	I-Material
-enhance	NN	O	O
-vesicle	NN	O	B-Process
-formation	NN	O	I-Process
-as	NN	O	O
-imidazolium	NN	O	B-Material
-surfactants	NN	O	I-Material
-[	NN	O	O
-26	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-they	NN	O	O
-also	NN	O	O
-find	NN	O	O
-application	NN	O	O
-in	NN	O	O
-polymeric	NN	O	B-Process
-actuators	NN	O	I-Process
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Despite	0	7	O
+the	8	11	O
+loss	12	16	O
+of	17	19	O
+directed	20	28	O
+,	28	29	O
+self	30	34	O
+-	34	35	O
+complementary	35	48	O
+hydrogen	49	57	B-Process
+bonding	58	65	I-Process
+through	66	73	O
+alkylation	74	84	B-Process
+of	85	87	O
+the	88	91	O
+imidazole	92	101	O
+ring	102	106	O
+,	106	107	O
+electrostatic	108	121	B-Process
+aggregation	122	133	I-Process
+of	134	136	O
+imidazolium	137	148	B-Material
+salts	149	154	I-Material
+is	155	157	O
+a	158	159	O
+tunable	160	167	O
+,	167	168	O
+self	169	173	O
+-	173	174	O
+assembly	174	182	O
+process	183	190	O
+,	190	191	O
+which	192	197	O
+is	198	200	O
+instrumental	201	213	O
+to	214	216	O
+several	217	224	O
+applications	225	237	O
+.	237	238	O
+
+Imidazolium	239	250	B-Material
+salts	251	256	I-Material
+are	257	260	O
+used	261	265	O
+to	266	268	O
+extract	269	276	O
+metal	277	282	B-Material
+ions	283	287	I-Material
+from	288	292	O
+aqueous	293	300	B-Material
+solutions	301	310	I-Material
+and	311	314	O
+coat	315	319	O
+metal	320	325	B-Material
+nanoparticles	326	339	I-Material
+[	340	341	O
+15	341	343	O
+]	343	344	O
+,	344	345	O
+dissolve	346	354	O
+carbohydrates	355	368	B-Material
+[	369	370	O
+16	370	372	O
+]	372	373	O
+,	373	374	O
+and	375	378	O
+create	379	385	O
+polyelectrolyte	386	401	B-Process
+brushes	402	409	I-Process
+on	410	412	O
+surfaces	413	421	O
+[	422	423	O
+17	423	425	O
+]	425	426	O
+.	426	427	O
+
+For	428	431	O
+example	432	439	O
+,	439	440	O
+atom	441	445	B-Process
+transfer	446	454	I-Process
+radical	455	462	I-Process
+polymerization	463	477	I-Process
+(	478	479	O
+ATRP	479	483	B-Process
+)	483	484	O
+was	485	488	O
+used	489	493	O
+to	494	496	O
+graft	497	502	O
+poly(1-ethyl	503	515	B-Material
+3-(2-methacryloyloxy	516	536	I-Material
+ethyl	537	542	I-Material
+)	542	543	I-Material
+imidazolium	544	555	I-Material
+chloride	556	564	I-Material
+)	564	565	O
+brushes	566	573	O
+onto	574	578	O
+gold	579	583	B-Material
+surfaces	584	592	I-Material
+[	593	594	O
+17	594	596	O
+]	596	597	O
+.	597	598	O
+
+One	599	602	O
+of	603	605	O
+the	606	609	O
+imidazolium	610	621	B-Material
+salt	622	626	I-Material
+’s	626	628	O
+most	629	633	O
+promising	634	643	O
+attributes	644	654	O
+is	655	657	O
+its	658	661	O
+antimicrobial	662	675	B-Process
+action	676	682	I-Process
+[	683	684	O
+12,18	684	689	O
+]	689	690	O
+and	691	694	O
+molecular	695	704	O
+self	705	709	O
+-	709	710	O
+assembly	710	718	O
+into	719	723	O
+liquid	724	730	B-Material
+crystals	731	739	I-Material
+[	740	741	O
+19,20	741	746	O
+]	746	747	O
+.	747	748	O
+
+1-Alkyl-3-methylimidazolium	749	776	B-Material
+chlorides	777	786	I-Material
+and	787	790	O
+bromides	791	799	B-Material
+,	799	800	O
+1-alkyl-2-methyl-3-hydroxyethylimidazolium	801	843	B-Material
+chlorides	844	853	I-Material
+,	853	854	O
+and	855	858	O
+N	859	860	B-Material
+-	860	861	I-Material
+alkyl	861	866	I-Material
+-	866	867	I-Material
+N	867	868	I-Material
+-	868	869	I-Material
+hydroxyethylpyrrolidinonium	869	896	I-Material
+,	896	897	O
+for	898	901	O
+example	902	909	O
+,	909	910	O
+all	911	914	O
+exhibit	915	922	O
+strong	923	929	O
+biocidal	930	938	B-Process
+activity	939	947	I-Process
+[	948	949	O
+18	949	951	O
+]	951	952	O
+.	952	953	O
+
+Hydrogels	954	963	B-Material
+form	964	968	I-Material
+from	969	973	O
+polymerized	974	985	B-Material
+methylimidazolium	986	1003	I-Material
+-	1003	1004	I-Material
+based	1004	1009	I-Material
+ionic	1010	1015	I-Material
+liquids	1016	1023	I-Material
+with	1024	1028	O
+acryloyl	1029	1037	B-Material
+groups	1038	1044	I-Material
+;	1044	1045	O
+the	1046	1049	O
+polymer	1050	1057	B-Material
+self	1058	1062	O
+-	1062	1063	O
+assembles	1063	1072	O
+into	1073	1077	O
+organized	1078	1087	B-Material
+lamellae	1088	1096	I-Material
+with	1097	1101	O
+unique	1102	1108	O
+swelling	1109	1117	O
+properties	1118	1128	O
+,	1128	1129	O
+leading	1130	1137	O
+to	1138	1140	O
+bioactive	1141	1150	B-Task
+applications	1151	1163	I-Task
+[	1164	1165	O
+19	1165	1167	O
+]	1167	1168	O
+.	1168	1169	O
+
+Other	1170	1175	O
+bioactive	1176	1185	B-Task
+applications	1186	1198	I-Task
+for	1199	1202	O
+imidazolium	1203	1214	B-Material
+salts	1215	1220	I-Material
+include	1221	1228	O
+antiarrhythmics	1229	1244	B-Material
+[	1245	1246	O
+21	1246	1248	O
+]	1248	1249	O
+,	1249	1250	O
+anti	1251	1255	B-Material
+-	1255	1256	I-Material
+metastic	1256	1264	I-Material
+agents	1265	1271	I-Material
+[	1272	1273	O
+22,23	1273	1278	O
+]	1278	1279	O
+,	1279	1280	O
+and	1281	1284	O
+imidazolium	1285	1296	B-Material
+-	1296	1297	I-Material
+based	1297	1302	I-Material
+steroids	1303	1311	I-Material
+[	1312	1313	O
+24	1313	1315	O
+]	1315	1316	O
+.	1316	1317	O
+
+Separation	1318	1328	B-Process
+applications	1329	1341	I-Process
+include	1342	1349	O
+efficient	1350	1359	B-Process
+absorption	1360	1370	I-Process
+of	1371	1373	I-Process
+CO2	1374	1377	I-Process
+[	1378	1379	O
+25	1379	1381	O
+]	1381	1382	O
+.	1382	1383	O
+
+Imidazolium	1384	1395	B-Material
+salts	1396	1401	I-Material
+enhance	1402	1409	O
+vesicle	1410	1417	B-Process
+formation	1418	1427	I-Process
+as	1428	1430	O
+imidazolium	1431	1442	B-Material
+surfactants	1443	1454	I-Material
+[	1455	1456	O
+26	1456	1458	O
+]	1458	1459	O
+,	1459	1460	O
+and	1461	1464	O
+they	1465	1469	O
+also	1470	1474	O
+find	1475	1479	O
+application	1480	1491	O
+in	1492	1494	O
+polymeric	1495	1504	B-Process
+actuators	1505	1514	I-Process
+[	1515	1516	O
+27	1516	1518	O
+]	1518	1519	O
+.	1519	1520	O
 
 
 -DOCSTART- (S0039602899010493)
 
-Although	NN	O	O
-the	NN	O	O
-basic	NN	O	O
-mechanisms	NN	O	O
-of	NN	O	O
-the	NN	O	O
-AD	NN	O	B-Process
-process	NN	O	O
-are	NN	O	O
-reasonably	NN	O	O
-well	NN	O	O
-understood	NN	O	O
-,	NN	O	O
-it	NN	O	O
-has	NN	O	O
-not	NN	O	O
-proved	NN	O	O
-simple	NN	O	O
-to	NN	O	O
-apply	NN	O	O
-existing	NN	O	O
-theories	NN	O	O
-to	NN	O	O
-the	NN	O	O
-interpretation	NN	O	O
-of	NN	O	O
-experimental	NN	O	O
-data	NN	O	O
-.	NN	O	O
-
-What	NN	O	O
-is	NN	O	O
-needed	NN	O	O
-is	NN	O	O
-a	NN	O	O
-combination	NN	O	O
-of	NN	O	O
-the	NN	O	O
-AD	NN	O	B-Process
-theory	NN	O	O
-and	NN	O	O
-the	NN	O	O
-electronic	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-realistic	NN	O	O
-systems	NN	O	O
-,	NN	O	O
-including	NN	O	O
-surface	NN	O	B-Material
-defects	NN	O	I-Material
-and	NN	O	O
-adsorbed	NN	O	B-Material
-species	NN	O	I-Material
-.	NN	O	O
-
-Such	NN	O	O
-electronic	NN	O	O
-structure	NN	O	O
-calculations	NN	O	O
-are	NN	O	O
-still	NN	O	O
-complex	NN	O	O
-and	NN	O	O
-time	NN	O	O
--	NN	O	O
-consuming	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-many	NN	O	O
-cases	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-for	NN	O	O
-insulating	NN	O	O
-surfaces	NN	O	O
-,	NN	O	O
-attempts	NN	O	O
-to	NN	O	O
-model	NN	O	O
-MIES	NN	O	B-Material
-spectra	NN	O	I-Material
-use	NN	O	O
-simple	NN	O	O
-or	NN	O	O
-intuitive	NN	O	O
-models	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-Refs	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-4,6,23	NN	O	O
-]	NN	O	O
-it	NN	O	O
-is	NN	O	O
-assumed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-main	NN	O	O
-transition	NN	O	O
-mechanism	NN	O	O
-is	NN	O	O
-Auger	NN	O	B-Process
-de	NN	O	I-Process
--	NN	O	I-Process
-excitation	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-MIES	NN	O	B-Material
-spectra	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-simulated	NN	O	O
-by	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-density	NN	O	B-Process
-of	NN	O	I-Process
-states	NN	O	I-Process
-(	NN	O	O
-DOS	NN	O	B-Process
-)	NN	O	O
-projected	NN	O	O
-on	NN	O	O
-the	NN	O	O
-surface	NN	O	B-Material
-oxygen	NN	O	I-Material
-ions	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-uppermost	NN	O	O
-surface	NN	O	O
-layer	NN	O	O
-using	NN	O	O
-a	NN	O	O
-Hartree	NN	O	B-Process
-–	NN	O	I-Process
-Fock	NN	O	I-Process
-method	NN	O	I-Process
-(	NN	O	O
-the	NN	O	O
-crystal	NN	O	B-Process
-code	NN	O	I-Process
-[	NN	O	O
-24,25	NN	O	O
-]	NN	O	O
-)	NN	O	O
-and	NN	O	O
-a	NN	O	O
-density	NN	O	B-Process
-functional	NN	O	I-Process
-theory	NN	O	I-Process
-(	NN	O	O
-DFT	NN	O	B-Process
-)	NN	O	O
-method	NN	O	O
-(	NN	O	O
-the	NN	O	O
-cetep	NN	O	B-Process
-code	NN	O	I-Process
-[	NN	O	O
-26	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-the	NN	O	O
-overlap	NN	O	O
-between	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-and	NN	O	O
-He(1s	NN	O	O
-)	NN	O	O
-wavefunctions	NN	O	O
-was	NN	O	O
-taken	NN	O	O
-into	NN	O	O
-account	NN	O	O
-only	NN	O	O
-approximately	NN	O	O
-by	NN	O	O
-applying	NN	O	O
-an	NN	O	O
-additional	NN	O	O
-z	NN	O	O
--	NN	O	O
-dependent	NN	O	O
-exponential	NN	O	O
-factor	NN	O	O
-to	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-DOS	NN	O	B-Process
-.	NN	O	O
-
-Other	NN	O	O
-workers	NN	O	O
-[	NN	O	O
-5,6	NN	O	O
-]	NN	O	O
-estimated	NN	O	O
-the	NN	O	O
-AD	NN	O	B-Process
-transition	NN	O	I-Process
-probability	NN	O	O
-using	NN	O	O
-a	NN	O	O
-DOS	NN	O	B-Process
-projected	NN	O	O
-on	NN	O	O
-to	NN	O	O
-the	NN	O	O
-projectile	NN	O	O
-1s	NN	O	O
-atomic	NN	O	O
-orbital	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-they	NN	O	O
-were	NN	O	O
-not	NN	O	O
-able	NN	O	O
-to	NN	O	O
-use	NN	O	O
-state	NN	O	O
--	NN	O	O
-of	NN	O	O
--	NN	O	O
-the	NN	O	O
--	NN	O	O
-art	NN	O	O
-methods	NN	O	O
-for	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-electronic	NN	O	O
-structure	NN	O	O
-.	NN	O	O
-
-Yet	NN	O	O
-the	NN	O	O
-success	NN	O	O
-of	NN	O	O
-the	NN	O	O
-simplified	NN	O	O
-treatments	NN	O	O
-[	NN	O	O
-4–6	NN	O	O
-]	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-for	NN	O	O
-MIES	NN	O	B-Material
-features	NN	O	O
-such	NN	O	O
-as	NN	O	O
-relative	NN	O	O
-energies	NN	O	O
-of	NN	O	O
-the	NN	O	O
-different	NN	O	O
-peaks	NN	O	O
-,	NN	O	O
-suggests	NN	O	O
-that	NN	O	O
-real	NN	O	O
-spectra	NN	O	O
-are	NN	O	O
-indeed	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-projection	NN	O	O
-of	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-DOS	NN	O	B-Process
-on	NN	O	O
-to	NN	O	O
-the	NN	O	O
-projectile	NN	O	O
-orbital	NN	O	O
-.	NN	O	O
+Although	0	8	O
+the	9	12	O
+basic	13	18	O
+mechanisms	19	29	O
+of	30	32	O
+the	33	36	O
+AD	37	39	B-Process
+process	40	47	O
+are	48	51	O
+reasonably	52	62	O
+well	63	67	O
+understood	68	78	O
+,	78	79	O
+it	80	82	O
+has	83	86	O
+not	87	90	O
+proved	91	97	O
+simple	98	104	O
+to	105	107	O
+apply	108	113	O
+existing	114	122	O
+theories	123	131	O
+to	132	134	O
+the	135	138	O
+interpretation	139	153	O
+of	154	156	O
+experimental	157	169	O
+data	170	174	O
+.	174	175	O
+
+What	176	180	O
+is	181	183	O
+needed	184	190	O
+is	191	193	O
+a	194	195	O
+combination	196	207	O
+of	208	210	O
+the	211	214	O
+AD	215	217	B-Process
+theory	218	224	O
+and	225	228	O
+the	229	232	O
+electronic	233	243	O
+structure	244	253	O
+of	254	256	O
+realistic	257	266	O
+systems	267	274	O
+,	274	275	O
+including	276	285	O
+surface	286	293	B-Material
+defects	294	301	I-Material
+and	302	305	O
+adsorbed	306	314	B-Material
+species	315	322	I-Material
+.	322	323	O
+
+Such	324	328	O
+electronic	329	339	O
+structure	340	349	O
+calculations	350	362	O
+are	363	366	O
+still	367	372	O
+complex	373	380	O
+and	381	384	O
+time	385	389	O
+-	389	390	O
+consuming	390	399	O
+.	399	400	O
+
+In	401	403	O
+many	404	408	O
+cases	409	414	O
+,	414	415	O
+especially	416	426	O
+for	427	430	O
+insulating	431	441	O
+surfaces	442	450	O
+,	450	451	O
+attempts	452	460	O
+to	461	463	O
+model	464	469	O
+MIES	470	474	B-Material
+spectra	475	482	I-Material
+use	483	486	O
+simple	487	493	O
+or	494	496	O
+intuitive	497	506	O
+models	507	513	O
+.	513	514	O
+
+In	515	517	O
+Refs	518	522	O
+.	522	523	O
+
+[	524	525	O
+4,6,23	525	531	O
+]	531	532	O
+it	533	535	O
+is	536	538	O
+assumed	539	546	O
+that	547	551	O
+the	552	555	O
+main	556	560	O
+transition	561	571	O
+mechanism	572	581	O
+is	582	584	O
+Auger	585	590	B-Process
+de	591	593	I-Process
+-	593	594	I-Process
+excitation	594	604	I-Process
+,	604	605	O
+and	606	609	O
+the	610	613	O
+MIES	614	618	B-Material
+spectra	619	626	I-Material
+have	627	631	O
+been	632	636	O
+simulated	637	646	O
+by	647	649	O
+the	650	653	O
+surface	654	661	O
+density	662	669	B-Process
+of	670	672	I-Process
+states	673	679	I-Process
+(	680	681	O
+DOS	681	684	B-Process
+)	684	685	O
+projected	686	695	O
+on	696	698	O
+the	699	702	O
+surface	703	710	B-Material
+oxygen	711	717	I-Material
+ions	718	722	I-Material
+of	723	725	O
+the	726	729	O
+uppermost	730	739	O
+surface	740	747	O
+layer	748	753	O
+using	754	759	O
+a	760	761	O
+Hartree	762	769	B-Process
+–	769	770	I-Process
+Fock	770	774	I-Process
+method	775	781	I-Process
+(	782	783	O
+the	783	786	O
+crystal	787	794	B-Process
+code	795	799	I-Process
+[	800	801	O
+24,25	801	806	O
+]	806	807	O
+)	807	808	O
+and	809	812	O
+a	813	814	O
+density	815	822	B-Process
+functional	823	833	I-Process
+theory	834	840	I-Process
+(	841	842	O
+DFT	842	845	B-Process
+)	845	846	O
+method	847	853	O
+(	854	855	O
+the	855	858	O
+cetep	859	864	B-Process
+code	865	869	I-Process
+[	870	871	O
+26	871	873	O
+]	873	874	O
+)	874	875	O
+.	875	876	O
+
+The	877	880	O
+effect	881	887	O
+of	888	890	O
+the	891	894	O
+overlap	895	902	O
+between	903	910	O
+the	911	914	O
+surface	915	922	O
+and	923	926	O
+He(1s	927	932	O
+)	932	933	O
+wavefunctions	934	947	O
+was	948	951	O
+taken	952	957	O
+into	958	962	O
+account	963	970	O
+only	971	975	O
+approximately	976	989	O
+by	990	992	O
+applying	993	1001	O
+an	1002	1004	O
+additional	1005	1015	O
+z	1016	1017	O
+-	1017	1018	O
+dependent	1018	1027	O
+exponential	1028	1039	O
+factor	1040	1046	O
+to	1047	1049	O
+the	1050	1053	O
+surface	1054	1061	O
+DOS	1062	1065	B-Process
+.	1065	1066	O
+
+Other	1067	1072	O
+workers	1073	1080	O
+[	1081	1082	O
+5,6	1082	1085	O
+]	1085	1086	O
+estimated	1087	1096	O
+the	1097	1100	O
+AD	1101	1103	B-Process
+transition	1104	1114	I-Process
+probability	1115	1126	O
+using	1127	1132	O
+a	1133	1134	O
+DOS	1135	1138	B-Process
+projected	1139	1148	O
+on	1149	1151	O
+to	1152	1154	O
+the	1155	1158	O
+projectile	1159	1169	O
+1s	1170	1172	O
+atomic	1173	1179	O
+orbital	1180	1187	O
+.	1187	1188	O
+
+However	1189	1196	O
+,	1196	1197	O
+they	1198	1202	O
+were	1203	1207	O
+not	1208	1211	O
+able	1212	1216	O
+to	1217	1219	O
+use	1220	1223	O
+state	1224	1229	O
+-	1229	1230	O
+of	1230	1232	O
+-	1232	1233	O
+the	1233	1236	O
+-	1236	1237	O
+art	1237	1240	O
+methods	1241	1248	O
+for	1249	1252	O
+the	1253	1256	O
+surface	1257	1264	O
+electronic	1265	1275	O
+structure	1276	1285	O
+.	1285	1286	O
+
+Yet	1287	1290	O
+the	1291	1294	O
+success	1295	1302	O
+of	1303	1305	O
+the	1306	1309	O
+simplified	1310	1320	O
+treatments	1321	1331	O
+[	1332	1333	O
+4–6	1333	1336	O
+]	1336	1337	O
+,	1337	1338	O
+especially	1339	1349	O
+for	1350	1353	O
+MIES	1354	1358	B-Material
+features	1359	1367	O
+such	1368	1372	O
+as	1373	1375	O
+relative	1376	1384	O
+energies	1385	1393	O
+of	1394	1396	O
+the	1397	1400	O
+different	1401	1410	O
+peaks	1411	1416	O
+,	1416	1417	O
+suggests	1418	1426	O
+that	1427	1431	O
+real	1432	1436	O
+spectra	1437	1444	O
+are	1445	1448	O
+indeed	1449	1455	O
+related	1456	1463	O
+to	1464	1466	O
+the	1467	1470	O
+projection	1471	1481	O
+of	1482	1484	O
+the	1485	1488	O
+surface	1489	1496	O
+DOS	1497	1500	B-Process
+on	1501	1503	O
+to	1504	1506	O
+the	1507	1510	O
+projectile	1511	1521	O
+orbital	1522	1529	O
+.	1529	1530	O
 
 
 -DOCSTART- (S0098300413002124)
 
-In	NN	O	O
-this	NN	O	O
-section	NN	O	O
-,	NN	O	O
-we	NN	O	O
-use	NN	O	O
-the	NN	O	O
-terrain	NN	O	B-Process
-data	NN	O	I-Process
-processing	NN	O	I-Process
-as	NN	O	O
-an	NN	O	O
-example	NN	O	O
-to	NN	O	O
-describe	NN	O	B-Task
-the	NN	O	I-Task
-geodetic	NN	O	I-Task
-data	NN	O	I-Task
-transformation	NN	O	I-Task
-method	NN	O	I-Task
-.	NN	O	O
-
-Since	NN	O	O
-Google	NN	O	O
-Maps	NN	O	O
-/	NN	O	O
-Earth	NN	O	O
-server	NN	O	O
-only	NN	O	O
-gives	NN	O	O
-the	NN	O	O
-terrain	NN	O	O
-data	NN	O	O
-in	NN	O	O
-graphical	NN	O	O
-display	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-to	NN	O	O
-get	NN	O	O
-terrain	NN	O	B-Material
-digital	NN	O	I-Material
-data	NN	O	I-Material
-from	NN	O	O
-other	NN	O	O
-sources	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-fine	NN	O	B-Process
--	NN	O	I-Process
-resolution	NN	O	I-Process
-(	NN	O	I-Process
-3″	NN	O	I-Process
-or	NN	O	I-Process
-finer	NN	O	I-Process
-)	NN	O	I-Process
-terrain	NN	O	I-Process
-data	NN	O	I-Process
-bases	NN	O	I-Process
-such	NN	O	O
-as	NN	O	O
-SRTM	NN	O	B-Process
-(	NN	O	O
-Shuttle	NN	O	B-Process
-Radar	NN	O	I-Process
-Topographical	NN	O	I-Process
-Mission	NN	O	I-Process
-)	NN	O	O
-or	NN	O	O
-USGS	NN	O	O
-'s	NN	O	O
-DEM	NN	O	B-Process
-(	NN	O	O
-Digital	NN	O	B-Process
-Elevation	NN	O	I-Process
-Model	NN	O	I-Process
-)	NN	O	O
-data	NN	O	O
-are	NN	O	O
-necessary	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-since	NN	O	O
-3DWF	NN	O	O
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-model	NN	O	O
-the	NN	O	O
-fine	NN	O	B-Process
--	NN	O	I-Process
-scale	NN	O	I-Process
-(	NN	O	I-Process
-meters	NN	O	I-Process
-up	NN	O	I-Process
-to	NN	O	I-Process
-100	NN	O	I-Process
-m	NN	O	I-Process
-)	NN	O	I-Process
-atmospheric	NN	O	I-Process
-flow	NN	O	I-Process
-,	NN	O	O
-it	NN	O	O
-needs	NN	O	O
-fine	NN	O	O
-resolution	NN	O	O
-terrain	NN	O	O
-data	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-project	NN	O	O
-,	NN	O	O
-we	NN	O	O
-use	NN	O	O
-the	NN	O	O
-terrain	NN	O	O
-elevation	NN	O	O
-data	NN	O	O
-set	NN	O	O
-from	NN	O	O
-SRTM	NN	O	B-Process
-(	NN	O	O
-Farr	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-2007	NN	O	O
-)	NN	O	O
-with	NN	O	O
-3-arcsecond	NN	O	O
-(	NN	O	O
-~90	NN	O	O
-m	NN	O	O
-resolution	NN	O	O
-at	NN	O	O
-the	NN	O	O
-equator	NN	O	O
-)	NN	O	O
-resolution	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-data	NN	O	O
-covers	NN	O	O
-the	NN	O	O
-land	NN	O	O
-area	NN	O	O
-,	NN	O	O
-nearly	NN	O	O
-global	NN	O	O
-from	NN	O	O
-56S	NN	O	O
-to	NN	O	O
-60N	NN	O	O
-latitudes	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-use	NN	O	O
-the	NN	O	O
-processed	NN	O	O
-version	NN	O	O
-4	NN	O	O
-SRTM	NN	O	B-Process
-data	NN	O	O
-set	NN	O	O
-as	NN	O	O
-described	NN	O	O
-in	NN	O	O
-Gamache	NN	O	O
-(	NN	O	O
-2005	NN	O	O
-)	NN	O	O
-in	NN	O	O
-which	NN	O	O
-some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-missing	NN	O	O
-data	NN	O	O
-holes	NN	O	O
-were	NN	O	O
-filled	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-original	NN	O	O
-data	NN	O	O
-is	NN	O	O
-organized	NN	O	O
-in	NN	O	O
-WGS84	NN	O	B-Material
-(	NN	O	O
-World	NN	O	B-Material
-Geodetic	NN	O	I-Material
-System	NN	O	I-Material
-84	NN	O	I-Material
-)	NN	O	O
-
-geodetic	NN	O	O
-coordinate	NN	O	O
-system	NN	O	O
-.	NN	O	O
-
-When	NN	O	O
-the	NN	O	O
-data	NN	O	O
-are	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-the	NN	O	O
-3DWF	NN	O	B-Process
-model	NN	O	O
-,	NN	O	O
-they	NN	O	O
-are	NN	O	O
-transformed	NN	O	O
-to	NN	O	O
-the	NN	O	O
-local	NN	O	O
-East	NN	O	B-Material
-,	NN	O	I-Material
-North	NN	O	I-Material
-and	NN	O	I-Material
-Up	NN	O	I-Material
-(	NN	O	O
-ENU	NN	O	B-Material
-)	NN	O	O
-coordinate	NN	O	O
-(	NN	O	O
-see	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Since	NN	O	O
-the	NN	O	O
-3DWF	NN	O	B-Process
-is	NN	O	O
-a	NN	O	O
-fine	NN	O	O
-scale	NN	O	O
-wind	NN	O	O
-model	NN	O	O
-and	NN	O	O
-its	NN	O	O
-entire	NN	O	O
-model	NN	O	O
-domain	NN	O	O
-is	NN	O	O
-not	NN	O	O
-intended	NN	O	O
-to	NN	O	O
-be	NN	O	O
-larger	NN	O	O
-than	NN	O	O
-20×20	NN	O	O
-km	NN	O	O
-,	NN	O	O
-this	NN	O	O
-Cartesian	NN	O	B-Material
-coordinate	NN	O	I-Material
-system	NN	O	I-Material
-is	NN	O	O
-a	NN	O	O
-good	NN	O	O
-choice	NN	O	O
-with	NN	O	O
-very	NN	O	O
-little	NN	O	O
-distortion	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-curvature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Earth	NN	O	O
-'s	NN	O	O
-surface	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-transformation	NN	O	O
-from	NN	O	O
-the	NN	O	O
-WGS84	NN	O	O
-data	NN	O	O
-to	NN	O	O
-the	NN	O	O
-ENU	NN	O	O
-coordinate	NN	O	O
-is	NN	O	O
-performed	NN	O	O
-as	NN	O	O
-follows	NN	O	O
-(	NN	O	O
-Fukushima	NN	O	O
-,	NN	O	O
-2006	NN	O	O
-;	NN	O	O
-Featherstone	NN	O	O
-and	NN	O	O
-Claessens	NN	O	O
-,	NN	O	O
-2008	NN	O	O
-)	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+section	8	15	O
+,	15	16	O
+we	17	19	O
+use	20	23	O
+the	24	27	O
+terrain	28	35	B-Process
+data	36	40	I-Process
+processing	41	51	I-Process
+as	52	54	O
+an	55	57	O
+example	58	65	O
+to	66	68	O
+describe	69	77	B-Task
+the	78	81	I-Task
+geodetic	82	90	I-Task
+data	91	95	I-Task
+transformation	96	110	I-Task
+method	111	117	I-Task
+.	117	118	O
+
+Since	119	124	O
+Google	125	131	O
+Maps	132	136	O
+/	136	137	O
+Earth	137	142	O
+server	143	149	O
+only	150	154	O
+gives	155	160	O
+the	161	164	O
+terrain	165	172	O
+data	173	177	O
+in	178	180	O
+graphical	181	190	O
+display	191	198	O
+,	198	199	O
+we	200	202	O
+have	203	207	O
+to	208	210	O
+get	211	214	O
+terrain	215	222	B-Material
+digital	223	230	I-Material
+data	231	235	I-Material
+from	236	240	O
+other	241	246	O
+sources	247	254	O
+.	254	255	O
+
+The	256	259	O
+fine	260	264	B-Process
+-	264	265	I-Process
+resolution	265	275	I-Process
+(	276	277	I-Process
+3″	277	279	I-Process
+or	280	282	I-Process
+finer	283	288	I-Process
+)	288	289	I-Process
+terrain	290	297	I-Process
+data	298	302	I-Process
+bases	303	308	I-Process
+such	309	313	O
+as	314	316	O
+SRTM	317	321	B-Process
+(	322	323	O
+Shuttle	323	330	B-Process
+Radar	331	336	I-Process
+Topographical	337	350	I-Process
+Mission	351	358	I-Process
+)	358	359	O
+or	360	362	O
+USGS	363	367	O
+'s	367	369	O
+DEM	370	373	B-Process
+(	374	375	O
+Digital	375	382	B-Process
+Elevation	383	392	I-Process
+Model	393	398	I-Process
+)	398	399	O
+data	400	404	O
+are	405	408	O
+necessary	409	418	O
+.	418	419	O
+
+Moreover	420	428	O
+,	428	429	O
+since	430	435	O
+3DWF	436	440	O
+is	441	443	O
+used	444	448	O
+to	449	451	O
+model	452	457	O
+the	458	461	O
+fine	462	466	B-Process
+-	466	467	I-Process
+scale	467	472	I-Process
+(	473	474	I-Process
+meters	474	480	I-Process
+up	481	483	I-Process
+to	484	486	I-Process
+100	487	490	I-Process
+m	490	491	I-Process
+)	491	492	I-Process
+atmospheric	493	504	I-Process
+flow	505	509	I-Process
+,	509	510	O
+it	511	513	O
+needs	514	519	O
+fine	520	524	O
+resolution	525	535	O
+terrain	536	543	O
+data	544	548	O
+.	548	549	O
+
+In	550	552	O
+this	553	557	O
+project	558	565	O
+,	565	566	O
+we	567	569	O
+use	570	573	O
+the	574	577	O
+terrain	578	585	O
+elevation	586	595	O
+data	596	600	O
+set	601	604	O
+from	605	609	O
+SRTM	610	614	B-Process
+(	615	616	O
+Farr	616	620	O
+et	621	623	O
+al	624	626	O
+.	626	627	O
+
+2007	628	632	O
+)	632	633	O
+with	634	638	O
+3-arcsecond	639	650	O
+(	651	652	O
+~90	652	655	O
+m	655	656	O
+resolution	657	667	O
+at	668	670	O
+the	671	674	O
+equator	675	682	O
+)	682	683	O
+resolution	684	694	O
+.	694	695	O
+
+The	696	699	O
+data	700	704	O
+covers	705	711	O
+the	712	715	O
+land	716	720	O
+area	721	725	O
+,	725	726	O
+nearly	727	733	O
+global	734	740	O
+from	741	745	O
+56S	746	749	O
+to	750	752	O
+60N	753	756	O
+latitudes	757	766	O
+.	766	767	O
+
+We	768	770	O
+use	771	774	O
+the	775	778	O
+processed	779	788	O
+version	789	796	O
+4	797	798	O
+SRTM	799	803	B-Process
+data	804	808	O
+set	809	812	O
+as	813	815	O
+described	816	825	O
+in	826	828	O
+Gamache	829	836	O
+(	837	838	O
+2005	838	842	O
+)	842	843	O
+in	844	846	O
+which	847	852	O
+some	853	857	O
+of	858	860	O
+the	861	864	O
+missing	865	872	O
+data	873	877	O
+holes	878	883	O
+were	884	888	O
+filled	889	895	O
+.	895	896	O
+
+The	897	900	O
+original	901	909	O
+data	910	914	O
+is	915	917	O
+organized	918	927	O
+in	928	930	O
+WGS84	931	936	B-Material
+(	937	938	O
+World	938	943	B-Material
+Geodetic	944	952	I-Material
+System	953	959	I-Material
+84	960	962	I-Material
+)	962	963	O
+
+geodetic	964	972	O
+coordinate	973	983	O
+system	984	990	O
+.	990	991	O
+
+When	992	996	O
+the	997	1000	O
+data	1001	1005	O
+are	1006	1009	O
+applied	1010	1017	O
+to	1018	1020	O
+the	1021	1024	O
+3DWF	1025	1029	B-Process
+model	1030	1035	O
+,	1035	1036	O
+they	1037	1041	O
+are	1042	1045	O
+transformed	1046	1057	O
+to	1058	1060	O
+the	1061	1064	O
+local	1065	1070	O
+East	1071	1075	B-Material
+,	1075	1076	I-Material
+North	1077	1082	I-Material
+and	1083	1086	I-Material
+Up	1087	1089	I-Material
+(	1090	1091	O
+ENU	1091	1094	B-Material
+)	1094	1095	O
+coordinate	1096	1106	O
+(	1107	1108	O
+see	1108	1111	O
+Fig	1112	1115	O
+.	1115	1116	O
+
+3	1117	1118	O
+)	1118	1119	O
+.	1119	1120	O
+
+Since	1121	1126	O
+the	1127	1130	O
+3DWF	1131	1135	B-Process
+is	1136	1138	O
+a	1139	1140	O
+fine	1141	1145	O
+scale	1146	1151	O
+wind	1152	1156	O
+model	1157	1162	O
+and	1163	1166	O
+its	1167	1170	O
+entire	1171	1177	O
+model	1178	1183	O
+domain	1184	1190	O
+is	1191	1193	O
+not	1194	1197	O
+intended	1198	1206	O
+to	1207	1209	O
+be	1210	1212	O
+larger	1213	1219	O
+than	1220	1224	O
+20×20	1225	1230	O
+km	1230	1232	O
+,	1232	1233	O
+this	1234	1238	O
+Cartesian	1239	1248	B-Material
+coordinate	1249	1259	I-Material
+system	1260	1266	I-Material
+is	1267	1269	O
+a	1270	1271	O
+good	1272	1276	O
+choice	1277	1283	O
+with	1284	1288	O
+very	1289	1293	O
+little	1294	1300	O
+distortion	1301	1311	O
+due	1312	1315	O
+to	1316	1318	O
+the	1319	1322	O
+curvature	1323	1332	O
+of	1333	1335	O
+the	1336	1339	O
+Earth	1340	1345	O
+'s	1345	1347	O
+surface	1348	1355	O
+.	1355	1356	O
+
+The	1357	1360	O
+transformation	1361	1375	O
+from	1376	1380	O
+the	1381	1384	O
+WGS84	1385	1390	O
+data	1391	1395	O
+to	1396	1398	O
+the	1399	1402	O
+ENU	1403	1406	O
+coordinate	1407	1417	O
+is	1418	1420	O
+performed	1421	1430	O
+as	1431	1433	O
+follows	1434	1441	O
+(	1442	1443	O
+Fukushima	1443	1452	O
+,	1452	1453	O
+2006	1454	1458	O
+;	1458	1459	O
+Featherstone	1460	1472	O
+and	1473	1476	O
+Claessens	1477	1486	O
+,	1486	1487	O
+2008	1488	1492	O
+)	1492	1493	O
+.	1493	1494	O
 
 
 -DOCSTART- (S0098300414000259)
 
-Apache	NN	O	B-Process
-Pig	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-platform	NN	O	O
-for	NN	O	O
-creating	NN	O	O
-MapReduce	NN	O	B-Process
-workflows	NN	O	I-Process
-with	NN	O	O
-Hadoop	NN	O	B-Material
-.	NN	O	O
-
-These	NN	O	O
-workflows	NN	O	O
-are	NN	O	O
-expressed	NN	O	O
-as	NN	O	O
-directed	NN	O	B-Material
-acyclic	NN	O	I-Material
-graphs	NN	O	I-Material
-(	NN	O	O
-DAGs	NN	O	B-Material
-)	NN	O	O
-of	NN	O	O
-tasks	NN	O	O
-that	NN	O	O
-exist	NN	O	O
-at	NN	O	O
-a	NN	O	O
-conceptually	NN	O	O
-higher	NN	O	O
-level	NN	O	O
-than	NN	O	O
-their	NN	O	O
-implementations	NN	O	O
-as	NN	O	O
-series	NN	O	O
-of	NN	O	O
-MapReduce	NN	O	B-Process
-jobs	NN	O	O
-.	NN	O	O
-
-Pig	NN	O	B-Process
-Latin	NN	O	I-Process
-is	NN	O	O
-the	NN	O	O
-procedural	NN	O	O
-language	NN	O	O
-used	NN	O	O
-for	NN	O	O
-building	NN	O	O
-these	NN	O	O
-workflows	NN	O	O
-,	NN	O	O
-providing	NN	O	O
-syntax	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-the	NN	O	O
-declarative	NN	O	O
-SQL	NN	O	B-Process
-commonly	NN	O	O
-used	NN	O	O
-for	NN	O	O
-relational	NN	O	O
-database	NN	O	O
-systems	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-to	NN	O	O
-standard	NN	O	O
-SQL	NN	O	B-Process
-operations	NN	O	I-Process
-,	NN	O	O
-Pig	NN	O	B-Process
-can	NN	O	O
-be	NN	O	O
-extended	NN	O	O
-with	NN	O	O
-user	NN	O	B-Process
--	NN	O	I-Process
-defined	NN	O	I-Process
-functions	NN	O	I-Process
-(	NN	O	O
-UDFs	NN	O	B-Process
-)	NN	O	O
-commonly	NN	O	O
-written	NN	O	O
-in	NN	O	O
-Java	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-adopted	NN	O	O
-Pig	NN	O	B-Process
-for	NN	O	O
-our	NN	O	O
-implementation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-correlator	NN	O	O
-to	NN	O	O
-speed	NN	O	O
-up	NN	O	O
-development	NN	O	O
-time	NN	O	O
-,	NN	O	O
-allow	NN	O	O
-for	NN	O	O
-ad	NN	O	O
-hoc	NN	O	O
-workflow	NN	O	O
-changes	NN	O	O
-,	NN	O	O
-and	NN	O	O
-to	NN	O	O
-embrace	NN	O	O
-the	NN	O	O
-Hadoop	NN	O	B-Material
-community׳s	NN	O	O
-migration	NN	O	O
-away	NN	O	O
-from	NN	O	O
-MapReduce	NN	O	B-Process
-towards	NN	O	O
-more	NN	O	O
-generalized	NN	O	O
-DAG	NN	O	B-Task
-processing	NN	O	I-Task
-(	NN	O	O
-Mayer	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Specifically	NN	O	O
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-event	NN	O	O
-that	NN	O	O
-future	NN	O	O
-versions	NN	O	O
-of	NN	O	O
-Hadoop	NN	O	B-Material
-are	NN	O	O
-optimized	NN	O	O
-to	NN	O	O
-support	NN	O	O
-paradigms	NN	O	O
-other	NN	O	O
-than	NN	O	O
-MapReduce	NN	O	B-Process
-,	NN	O	O
-Pig	NN	O	B-Material
-scripts	NN	O	I-Material
-could	NN	O	O
-take	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-these	NN	O	O
-advances	NN	O	O
-without	NN	O	O
-recoding	NN	O	O
-,	NN	O	O
-whereas	NN	O	O
-explicit	NN	O	O
-Java	NN	O	B-Process
-MapReduce	NN	O	I-Process
-jobs	NN	O	O
-would	NN	O	O
-need	NN	O	O
-to	NN	O	O
-be	NN	O	O
-rewritten	NN	O	O
-.	NN	O	O
+Apache	0	6	B-Process
+Pig	7	10	I-Process
+is	11	13	O
+a	14	15	O
+platform	16	24	O
+for	25	28	O
+creating	29	37	O
+MapReduce	38	47	B-Process
+workflows	48	57	I-Process
+with	58	62	O
+Hadoop	63	69	B-Material
+.	69	70	O
+
+These	71	76	O
+workflows	77	86	O
+are	87	90	O
+expressed	91	100	O
+as	101	103	O
+directed	104	112	B-Material
+acyclic	113	120	I-Material
+graphs	121	127	I-Material
+(	128	129	O
+DAGs	129	133	B-Material
+)	133	134	O
+of	135	137	O
+tasks	138	143	O
+that	144	148	O
+exist	149	154	O
+at	155	157	O
+a	158	159	O
+conceptually	160	172	O
+higher	173	179	O
+level	180	185	O
+than	186	190	O
+their	191	196	O
+implementations	197	212	O
+as	213	215	O
+series	216	222	O
+of	223	225	O
+MapReduce	226	235	B-Process
+jobs	236	240	O
+.	240	241	O
+
+Pig	242	245	B-Process
+Latin	246	251	I-Process
+is	252	254	O
+the	255	258	O
+procedural	259	269	O
+language	270	278	O
+used	279	283	O
+for	284	287	O
+building	288	296	O
+these	297	302	O
+workflows	303	312	O
+,	312	313	O
+providing	314	323	O
+syntax	324	330	O
+similar	331	338	O
+to	339	341	O
+the	342	345	O
+declarative	346	357	O
+SQL	358	361	B-Process
+commonly	362	370	O
+used	371	375	O
+for	376	379	O
+relational	380	390	O
+database	391	399	O
+systems	400	407	O
+.	407	408	O
+
+In	409	411	O
+addition	412	420	O
+to	421	423	O
+standard	424	432	O
+SQL	433	436	B-Process
+operations	437	447	I-Process
+,	447	448	O
+Pig	449	452	B-Process
+can	453	456	O
+be	457	459	O
+extended	460	468	O
+with	469	473	O
+user	474	478	B-Process
+-	478	479	I-Process
+defined	479	486	I-Process
+functions	487	496	I-Process
+(	497	498	O
+UDFs	498	502	B-Process
+)	502	503	O
+commonly	504	512	O
+written	513	520	O
+in	521	523	O
+Java	524	528	O
+.	528	529	O
+
+We	530	532	O
+adopted	533	540	O
+Pig	541	544	B-Process
+for	545	548	O
+our	549	552	O
+implementation	553	567	O
+of	568	570	O
+the	571	574	O
+correlator	575	585	O
+to	586	588	O
+speed	589	594	O
+up	595	597	O
+development	598	609	O
+time	610	614	O
+,	614	615	O
+allow	616	621	O
+for	622	625	O
+ad	626	628	O
+hoc	629	632	O
+workflow	633	641	O
+changes	642	649	O
+,	649	650	O
+and	651	654	O
+to	655	657	O
+embrace	658	665	O
+the	666	669	O
+Hadoop	670	676	B-Material
+community׳s	677	688	O
+migration	689	698	O
+away	699	703	O
+from	704	708	O
+MapReduce	709	718	B-Process
+towards	719	726	O
+more	727	731	O
+generalized	732	743	O
+DAG	744	747	B-Task
+processing	748	758	I-Task
+(	759	760	O
+Mayer	760	765	O
+,	765	766	O
+2013	767	771	O
+)	771	772	O
+.	772	773	O
+
+Specifically	774	786	O
+,	786	787	O
+in	788	790	O
+the	791	794	O
+event	795	800	O
+that	801	805	O
+future	806	812	O
+versions	813	821	O
+of	822	824	O
+Hadoop	825	831	B-Material
+are	832	835	O
+optimized	836	845	O
+to	846	848	O
+support	849	856	O
+paradigms	857	866	O
+other	867	872	O
+than	873	877	O
+MapReduce	878	887	B-Process
+,	887	888	O
+Pig	889	892	B-Material
+scripts	893	900	I-Material
+could	901	906	O
+take	907	911	O
+advantage	912	921	O
+of	922	924	O
+these	925	930	O
+advances	931	939	O
+without	940	947	O
+recoding	948	956	O
+,	956	957	O
+whereas	958	965	O
+explicit	966	974	O
+Java	975	979	B-Process
+MapReduce	980	989	I-Process
+jobs	990	994	O
+would	995	1000	O
+need	1001	1005	O
+to	1006	1008	O
+be	1009	1011	O
+rewritten	1012	1021	O
+.	1021	1022	O
 
 
 -DOCSTART- (S0098300414002532)
 
-The	NN	O	B-Task
-threshold	NN	O	I-Task
-values	NN	O	I-Task
-for	NN	O	I-Task
-removing	NN	O	I-Task
-large	NN	O	I-Task
-caters	NN	O	I-Task
-were	NN	O	I-Task
-determined	NN	O	I-Task
-by	NN	O	O
-examining	NN	O	O
-the	NN	O	O
-craters	NN	O	O
-within	NN	O	O
-the	NN	O	O
-study	NN	O	O
-area	NN	O	O
-,	NN	O	O
-referencing	NN	O	O
-previous	NN	O	O
-studies	NN	O	O
-(	NN	O	O
-Molloy	NN	O	O
-and	NN	O	O
-Stepinski	NN	O	O
-,	NN	O	O
-2007	NN	O	O
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-some	NN	O	O
-trial	NN	O	O
-and	NN	O	O
-error	NN	O	O
-.	NN	O	O
-
-After	NN	O	O
-the	NN	O	O
-parameter	NN	O	O
-values	NN	O	O
-are	NN	O	O
-determined	NN	O	O
-,	NN	O	O
-the	NN	O	O
-rest	NN	O	O
-of	NN	O	O
-the	NN	O	O
-process	NN	O	O
-is	NN	O	O
-automated	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-we	NN	O	O
-do	NN	O	O
-anticipate	NN	O	O
-some	NN	O	O
-minimum	NN	O	O
-manual	NN	O	B-Process
-editing	NN	O	I-Process
-may	NN	O	O
-be	NN	O	O
-needed	NN	O	O
-in	NN	O	O
-some	NN	O	O
-complicated	NN	O	O
-terrains	NN	O	O
-when	NN	O	O
-apply	NN	O	O
-it	NN	O	O
-to	NN	O	O
-all	NN	O	O
-of	NN	O	O
-Mars	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-minimize	NN	O	O
-the	NN	O	O
-distortion	NN	O	O
-resulted	NN	O	O
-from	NN	O	O
-map	NN	O	O
-projection	NN	O	O
-on	NN	O	O
-global	NN	O	O
-datasets	NN	O	O
-,	NN	O	O
-we	NN	O	O
-will	NN	O	O
-choose	NN	O	O
-an	NN	O	O
-equal	NN	O	O
-area	NN	O	O
-projection	NN	O	O
-by	NN	O	O
-evaluating	NN	O	O
-the	NN	O	O
-options	NN	O	O
-suggested	NN	O	O
-in	NN	O	O
-Steinwand	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-1995	NN	O	O
-)	NN	O	O
-or	NN	O	O
-conduct	NN	O	O
-geodesic	NN	O	O
-area	NN	O	O
-calculation	NN	O	O
-using	NN	O	O
-software	NN	O	O
-such	NN	O	O
-as	NN	O	O
-“	NN	O	O
-Tools	NN	O	B-Process
-for	NN	O	I-Process
-Graphics	NN	O	I-Process
-and	NN	O	I-Process
-Shapes	NN	O	I-Process
-
-”	NN	O	O
-(	NN	O	O
-http://www.jennessent.com/arcgis/shapes_graphics.htm)Although	NN	O	O
-post	NN	O	O
--	NN	O	O
-formational	NN	O	O
-modification	NN	O	O
-to	NN	O	O
-the	NN	O	O
-valleys	NN	O	O
-may	NN	O	O
-be	NN	O	O
-minimum	NN	O	O
-(	NN	O	O
-Williams	NN	O	O
-and	NN	O	O
-Phillips	NN	O	O
-,	NN	O	O
-2001	NN	O	O
-)	NN	O	O
-,	NN	O	O
-there	NN	O	O
-may	NN	O	O
-nonetheless	NN	O	O
-be	NN	O	O
-modifications	NN	O	O
-such	NN	O	O
-as	NN	O	O
-eolian	NN	O	O
-fill	NN	O	O
-and	NN	O	O
-mass	NN	O	O
-wasting	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-Grant	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2008	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-the	NN	O	O
-volume	NN	O	O
-estimates	NN	O	O
-derived	NN	O	O
-with	NN	O	O
-PBTH	NN	O	B-Process
-method	NN	O	I-Process
-represents	NN	O	O
-a	NN	O	O
-lower	NN	O	O
-bound	NN	O	O
-.	NN	O	O
-
-Comparing	NN	O	O
-the	NN	O	O
-estimates	NN	O	O
-from	NN	O	O
-MOLA	NN	O	B-Material
-and	NN	O	O
-HRSC	NN	O	B-Material
-data	NN	O	O
-reveals	NN	O	O
-that	NN	O	O
-MOLA	NN	O	B-Material
-estimate	NN	O	O
-is	NN	O	O
-about	NN	O	O
-91	NN	O	O
-%	NN	O	O
-of	NN	O	O
-HRSC	NN	O	B-Material
-value	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-MOLA	NN	O	B-Material
-has	NN	O	O
-global	NN	O	O
-coverage	NN	O	O
-whereas	NN	O	O
-HRSC	NN	O	B-Material
-does	NN	O	O
-not	NN	O	O
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-for	NN	O	O
-areas	NN	O	O
-where	NN	O	O
-there	NN	O	O
-is	NN	O	O
-only	NN	O	O
-MOLA	NN	O	B-Material
-coverage	NN	O	O
-,	NN	O	O
-the	NN	O	O
-estimate	NN	O	O
-may	NN	O	O
-be	NN	O	O
-scaled	NN	O	O
-upward	NN	O	O
-by	NN	O	O
-1.1	NN	O	O
-times	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-algorithm	NN	O	O
-has	NN	O	O
-been	NN	O	O
-tested	NN	O	O
-on	NN	O	O
-DEMs	NN	O	B-Material
-with	NN	O	O
-various	NN	O	O
-resolutions	NN	O	O
-(	NN	O	O
-2	NN	O	O
-m	NN	O	O
-for	NN	O	O
-simulated	NN	O	O
-DEM	NN	O	B-Material
-,	NN	O	O
-75	NN	O	O
-m	NN	O	O
-for	NN	O	O
-HRSC	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-463	NN	O	O
-m	NN	O	O
-for	NN	O	O
-MOLA	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-can	NN	O	O
-certainly	NN	O	O
-be	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-higher	NN	O	O
-resolution	NN	O	O
-DEMs	NN	O	B-Material
-for	NN	O	O
-Mars	NN	O	O
-when	NN	O	O
-they	NN	O	O
-become	NN	O	O
-available	NN	O	O
-,	NN	O	O
-but	NN	O	O
-the	NN	O	O
-threshold	NN	O	O
-values	NN	O	O
-will	NN	O	O
-need	NN	O	O
-to	NN	O	O
-be	NN	O	O
-adjusted	NN	O	O
-.	NN	O	O
+The	0	3	B-Task
+threshold	4	13	I-Task
+values	14	20	I-Task
+for	21	24	I-Task
+removing	25	33	I-Task
+large	34	39	I-Task
+caters	40	46	I-Task
+were	47	51	I-Task
+determined	52	62	I-Task
+by	63	65	O
+examining	66	75	O
+the	76	79	O
+craters	80	87	O
+within	88	94	O
+the	95	98	O
+study	99	104	O
+area	105	109	O
+,	109	110	O
+referencing	111	122	O
+previous	123	131	O
+studies	132	139	O
+(	140	141	O
+Molloy	141	147	O
+and	148	151	O
+Stepinski	152	161	O
+,	161	162	O
+2007	163	167	O
+)	167	168	O
+,	168	169	O
+and	170	173	O
+some	174	178	O
+trial	179	184	O
+and	185	188	O
+error	189	194	O
+.	194	195	O
+
+After	196	201	O
+the	202	205	O
+parameter	206	215	O
+values	216	222	O
+are	223	226	O
+determined	227	237	O
+,	237	238	O
+the	239	242	O
+rest	243	247	O
+of	248	250	O
+the	251	254	O
+process	255	262	O
+is	263	265	O
+automated	266	275	O
+.	275	276	O
+
+However	277	284	O
+,	284	285	O
+we	286	288	O
+do	289	291	O
+anticipate	292	302	O
+some	303	307	O
+minimum	308	315	O
+manual	316	322	B-Process
+editing	323	330	I-Process
+may	331	334	O
+be	335	337	O
+needed	338	344	O
+in	345	347	O
+some	348	352	O
+complicated	353	364	O
+terrains	365	373	O
+when	374	378	O
+apply	379	384	O
+it	385	387	O
+to	388	390	O
+all	391	394	O
+of	395	397	O
+Mars	398	402	O
+.	402	403	O
+
+To	404	406	O
+minimize	407	415	O
+the	416	419	O
+distortion	420	430	O
+resulted	431	439	O
+from	440	444	O
+map	445	448	O
+projection	449	459	O
+on	460	462	O
+global	463	469	O
+datasets	470	478	O
+,	478	479	O
+we	480	482	O
+will	483	487	O
+choose	488	494	O
+an	495	497	O
+equal	498	503	O
+area	504	508	O
+projection	509	519	O
+by	520	522	O
+evaluating	523	533	O
+the	534	537	O
+options	538	545	O
+suggested	546	555	O
+in	556	558	O
+Steinwand	559	568	O
+et	569	571	O
+al	572	574	O
+.	574	575	O
+
+(	576	577	O
+1995	577	581	O
+)	581	582	O
+or	583	585	O
+conduct	586	593	O
+geodesic	594	602	O
+area	603	607	O
+calculation	608	619	O
+using	620	625	O
+software	626	634	O
+such	635	639	O
+as	640	642	O
+“	643	644	O
+Tools	644	649	B-Process
+for	650	653	I-Process
+Graphics	654	662	I-Process
+and	663	666	I-Process
+Shapes	667	673	I-Process
+
+”	673	674	O
+(	675	676	O
+http://www.jennessent.com/arcgis/shapes_graphics.htm)Although	676	737	O
+post	738	742	O
+-	742	743	O
+formational	743	754	O
+modification	755	767	O
+to	768	770	O
+the	771	774	O
+valleys	775	782	O
+may	783	786	O
+be	787	789	O
+minimum	790	797	O
+(	798	799	O
+Williams	799	807	O
+and	808	811	O
+Phillips	812	820	O
+,	820	821	O
+2001	822	826	O
+)	826	827	O
+,	827	828	O
+there	829	834	O
+may	835	838	O
+nonetheless	839	850	O
+be	851	853	O
+modifications	854	867	O
+such	868	872	O
+as	873	875	O
+eolian	876	882	O
+fill	883	887	O
+and	888	891	O
+mass	892	896	O
+wasting	897	904	O
+(	905	906	O
+e.g.	906	910	O
+,	910	911	O
+Grant	912	917	O
+et	918	920	O
+al	921	923	O
+.	923	924	O
+,	924	925	O
+2008	926	930	O
+)	930	931	O
+.	931	932	O
+
+Thus	933	937	O
+the	938	941	O
+volume	942	948	O
+estimates	949	958	O
+derived	959	966	O
+with	967	971	O
+PBTH	972	976	B-Process
+method	977	983	I-Process
+represents	984	994	O
+a	995	996	O
+lower	997	1002	O
+bound	1003	1008	O
+.	1008	1009	O
+
+Comparing	1010	1019	O
+the	1020	1023	O
+estimates	1024	1033	O
+from	1034	1038	O
+MOLA	1039	1043	B-Material
+and	1044	1047	O
+HRSC	1048	1052	B-Material
+data	1053	1057	O
+reveals	1058	1065	O
+that	1066	1070	O
+MOLA	1071	1075	B-Material
+estimate	1076	1084	O
+is	1085	1087	O
+about	1088	1093	O
+91	1094	1096	O
+%	1096	1097	O
+of	1098	1100	O
+HRSC	1101	1105	B-Material
+value	1106	1111	O
+.	1111	1112	O
+
+However	1113	1120	O
+,	1120	1121	O
+MOLA	1122	1126	B-Material
+has	1127	1130	O
+global	1131	1137	O
+coverage	1138	1146	O
+whereas	1147	1154	O
+HRSC	1155	1159	B-Material
+does	1160	1164	O
+not	1165	1168	O
+.	1168	1169	O
+
+Therefore	1170	1179	O
+,	1179	1180	O
+for	1181	1184	O
+areas	1185	1190	O
+where	1191	1196	O
+there	1197	1202	O
+is	1203	1205	O
+only	1206	1210	O
+MOLA	1211	1215	B-Material
+coverage	1216	1224	O
+,	1224	1225	O
+the	1226	1229	O
+estimate	1230	1238	O
+may	1239	1242	O
+be	1243	1245	O
+scaled	1246	1252	O
+upward	1253	1259	O
+by	1260	1262	O
+1.1	1263	1266	O
+times	1267	1272	O
+.	1272	1273	O
+
+The	1274	1277	O
+algorithm	1278	1287	O
+has	1288	1291	O
+been	1292	1296	O
+tested	1297	1303	O
+on	1304	1306	O
+DEMs	1307	1311	B-Material
+with	1312	1316	O
+various	1317	1324	O
+resolutions	1325	1336	O
+(	1337	1338	O
+2	1338	1339	O
+m	1340	1341	O
+for	1342	1345	O
+simulated	1346	1355	O
+DEM	1356	1359	B-Material
+,	1359	1360	O
+75	1361	1363	O
+m	1363	1364	O
+for	1365	1368	O
+HRSC	1369	1373	B-Material
+,	1373	1374	O
+and	1375	1378	O
+463	1379	1382	O
+m	1382	1383	O
+for	1384	1387	O
+MOLA	1388	1392	B-Material
+)	1392	1393	O
+.	1393	1394	O
+
+It	1395	1397	O
+can	1398	1401	O
+certainly	1402	1411	O
+be	1412	1414	O
+applied	1415	1422	O
+to	1423	1425	O
+higher	1426	1432	O
+resolution	1433	1443	O
+DEMs	1444	1448	B-Material
+for	1449	1452	O
+Mars	1453	1457	O
+when	1458	1462	O
+they	1463	1467	O
+become	1468	1474	O
+available	1475	1484	O
+,	1484	1485	O
+but	1486	1489	O
+the	1490	1493	O
+threshold	1494	1503	O
+values	1504	1510	O
+will	1511	1515	O
+need	1516	1520	O
+to	1521	1523	O
+be	1524	1526	O
+adjusted	1527	1535	O
+.	1535	1536	O
 
 
 -DOCSTART- (S0166361516300926)
 
-This	NN	O	O
-research	NN	O	O
-traces	NN	O	O
-the	NN	O	O
-implementation	NN	O	O
-of	NN	O	O
-an	NN	O	O
-information	NN	O	O
-system	NN	O	O
-in	NN	O	O
-the	NN	O	O
-form	NN	O	O
-of	NN	O	O
-ERP	NN	O	B-Material
-modules	NN	O	I-Material
-covering	NN	O	O
-tenant	NN	O	O
-and	NN	O	O
-contract	NN	O	O
-management	NN	O	O
-in	NN	O	O
-a	NN	O	O
-Chinese	NN	O	O
-service	NN	O	O
-company	NN	O	O
-.	NN	O	O
-
-Misalignments	NN	O	O
-between	NN	O	O
-the	NN	O	O
-ERP	NN	O	B-Process
-system	NN	O	I-Process
-specification	NN	O	O
-and	NN	O	O
-user	NN	O	O
-needs	NN	O	O
-led	NN	O	O
-to	NN	O	O
-the	NN	O	O
-adoption	NN	O	O
-of	NN	O	O
-informal	NN	O	O
-processes	NN	O	O
-within	NN	O	O
-the	NN	O	O
-organisation	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-processes	NN	O	O
-are	NN	O	O
-facilitated	NN	O	O
-within	NN	O	O
-an	NN	O	O
-informal	NN	O	O
-organisational	NN	O	O
-structure	NN	O	O
-and	NN	O	O
-are	NN	O	O
-based	NN	O	O
-on	NN	O	O
-human	NN	O	O
-interactions	NN	O	O
-undertaken	NN	O	O
-within	NN	O	O
-the	NN	O	O
-formal	NN	O	O
-organisation	NN	O	O
-.	NN	O	O
-
-Rather	NN	O	O
-than	NN	O	O
-to	NN	O	O
-attempt	NN	O	O
-to	NN	O	O
-suppress	NN	O	O
-the	NN	O	O
-emergence	NN	O	O
-of	NN	O	O
-the	NN	O	O
-informal	NN	O	O
-organisation	NN	O	O
-the	NN	O	O
-company	NN	O	O
-decided	NN	O	O
-to	NN	O	O
-channel	NN	O	O
-the	NN	O	O
-energies	NN	O	O
-of	NN	O	O
-staff	NN	O	O
-involved	NN	O	O
-in	NN	O	O
-informal	NN	O	O
-processes	NN	O	O
-towards	NN	O	O
-organisational	NN	O	O
-goals	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-company	NN	O	O
-achieved	NN	O	O
-this	NN	O	O
-by	NN	O	O
-harnessing	NN	O	O
-the	NN	O	O
-capabilities	NN	O	O
-of	NN	O	O
-what	NN	O	O
-we	NN	O	O
-term	NN	O	O
-a	NN	O	O
-hybrid	NN	O	B-Process
-ERP	NN	O	I-Process
-system	NN	O	I-Process
-,	NN	O	O
-combining	NN	O	O
-the	NN	O	O
-functionality	NN	O	O
-of	NN	O	O
-a	NN	O	O
-traditional	NN	O	O
-(	NN	O	O
-formal	NN	O	O
-)	NN	O	O
-ERP	NN	O	B-Process
-installation	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-capabilities	NN	O	O
-of	NN	O	O
-Enterprise	NN	O	B-Process
-Social	NN	O	I-Process
-Software	NN	O	I-Process
-(	NN	O	O
-ESS	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-the	NN	O	O
-company	NN	O	O
-recognised	NN	O	O
-that	NN	O	O
-the	NN	O	O
-successful	NN	O	O
-operation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-hybrid	NN	O	O
-ERP	NN	O	B-Process
-system	NN	O	I-Process
-would	NN	O	O
-require	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-changes	NN	O	O
-in	NN	O	O
-organisational	NN	O	O
-design	NN	O	O
-in	NN	O	O
-areas	NN	O	O
-such	NN	O	O
-as	NN	O	O
-reporting	NN	O	O
-structures	NN	O	O
-and	NN	O	O
-communication	NN	O	O
-channels	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-narrative	NN	O	O
-provided	NN	O	O
-by	NN	O	O
-interviews	NN	O	O
-with	NN	O	O
-company	NN	O	O
-personnel	NN	O	O
-is	NN	O	O
-thematised	NN	O	O
-around	NN	O	O
-the	NN	O	O
-formal	NN	O	O
-and	NN	O	O
-informal	NN	O	O
-characteristics	NN	O	O
-of	NN	O	O
-the	NN	O	O
-organisation	NN	O	O
-as	NN	O	O
-defined	NN	O	O
-in	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-leads	NN	O	O
-to	NN	O	O
-a	NN	O	O
-definition	NN	O	O
-of	NN	O	O
-the	NN	O	O
-characteristics	NN	O	O
-of	NN	O	O
-the	NN	O	O
-hybrid	NN	O	O
-organisation	NN	O	O
-and	NN	O	O
-strategies	NN	O	O
-for	NN	O	O
-enabling	NN	O	O
-a	NN	O	O
-hybrid	NN	O	O
-organisation	NN	O	O
-,	NN	O	O
-facilitated	NN	O	O
-by	NN	O	O
-a	NN	O	O
-hybrid	NN	O	B-Process
-ERP	NN	O	I-Process
-system	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-directs	NN	O	O
-formal	NN	O	O
-and	NN	O	O
-informal	NN	O	O
-behaviour	NN	O	O
-towards	NN	O	O
-organisational	NN	O	O
-goals	NN	O	O
-and	NN	O	O
-provides	NN	O	O
-a	NN	O	O
-template	NN	O	O
-for	NN	O	O
-future	NN	O	O
-hybrid	NN	O	O
-implementations	NN	O	O
-.	NN	O	O
+This	0	4	O
+research	5	13	O
+traces	14	20	O
+the	21	24	O
+implementation	25	39	O
+of	40	42	O
+an	43	45	O
+information	46	57	O
+system	58	64	O
+in	65	67	O
+the	68	71	O
+form	72	76	O
+of	77	79	O
+ERP	80	83	B-Material
+modules	84	91	I-Material
+covering	92	100	O
+tenant	101	107	O
+and	108	111	O
+contract	112	120	O
+management	121	131	O
+in	132	134	O
+a	135	136	O
+Chinese	137	144	O
+service	145	152	O
+company	153	160	O
+.	160	161	O
+
+Misalignments	162	175	O
+between	176	183	O
+the	184	187	O
+ERP	188	191	B-Process
+system	192	198	I-Process
+specification	199	212	O
+and	213	216	O
+user	217	221	O
+needs	222	227	O
+led	228	231	O
+to	232	234	O
+the	235	238	O
+adoption	239	247	O
+of	248	250	O
+informal	251	259	O
+processes	260	269	O
+within	270	276	O
+the	277	280	O
+organisation	281	293	O
+.	293	294	O
+
+These	295	300	O
+processes	301	310	O
+are	311	314	O
+facilitated	315	326	O
+within	327	333	O
+an	334	336	O
+informal	337	345	O
+organisational	346	360	O
+structure	361	370	O
+and	371	374	O
+are	375	378	O
+based	379	384	O
+on	385	387	O
+human	388	393	O
+interactions	394	406	O
+undertaken	407	417	O
+within	418	424	O
+the	425	428	O
+formal	429	435	O
+organisation	436	448	O
+.	448	449	O
+
+Rather	450	456	O
+than	457	461	O
+to	462	464	O
+attempt	465	472	O
+to	473	475	O
+suppress	476	484	O
+the	485	488	O
+emergence	489	498	O
+of	499	501	O
+the	502	505	O
+informal	506	514	O
+organisation	515	527	O
+the	528	531	O
+company	532	539	O
+decided	540	547	O
+to	548	550	O
+channel	551	558	O
+the	559	562	O
+energies	563	571	O
+of	572	574	O
+staff	575	580	O
+involved	581	589	O
+in	590	592	O
+informal	593	601	O
+processes	602	611	O
+towards	612	619	O
+organisational	620	634	O
+goals	635	640	O
+.	640	641	O
+
+The	642	645	O
+company	646	653	O
+achieved	654	662	O
+this	663	667	O
+by	668	670	O
+harnessing	671	681	O
+the	682	685	O
+capabilities	686	698	O
+of	699	701	O
+what	702	706	O
+we	707	709	O
+term	710	714	O
+a	715	716	O
+hybrid	717	723	B-Process
+ERP	724	727	I-Process
+system	728	734	I-Process
+,	734	735	O
+combining	736	745	O
+the	746	749	O
+functionality	750	763	O
+of	764	766	O
+a	767	768	O
+traditional	769	780	O
+(	781	782	O
+formal	782	788	O
+)	788	789	O
+ERP	790	793	B-Process
+installation	794	806	I-Process
+with	807	811	O
+the	812	815	O
+capabilities	816	828	O
+of	829	831	O
+Enterprise	832	842	B-Process
+Social	843	849	I-Process
+Software	850	858	I-Process
+(	859	860	O
+ESS	860	863	B-Process
+)	863	864	O
+.	864	865	O
+
+However	866	873	O
+the	874	877	O
+company	878	885	O
+recognised	886	896	O
+that	897	901	O
+the	902	905	O
+successful	906	916	O
+operation	917	926	O
+of	927	929	O
+the	930	933	O
+hybrid	934	940	O
+ERP	941	944	B-Process
+system	945	951	I-Process
+would	952	957	O
+require	958	965	O
+a	966	967	O
+number	968	974	O
+of	975	977	O
+changes	978	985	O
+in	986	988	O
+organisational	989	1003	O
+design	1004	1010	O
+in	1011	1013	O
+areas	1014	1019	O
+such	1020	1024	O
+as	1025	1027	O
+reporting	1028	1037	O
+structures	1038	1048	O
+and	1049	1052	O
+communication	1053	1066	O
+channels	1067	1075	O
+.	1075	1076	O
+
+A	1077	1078	O
+narrative	1079	1088	O
+provided	1089	1097	O
+by	1098	1100	O
+interviews	1101	1111	O
+with	1112	1116	O
+company	1117	1124	O
+personnel	1125	1134	O
+is	1135	1137	O
+thematised	1138	1148	O
+around	1149	1155	O
+the	1156	1159	O
+formal	1160	1166	O
+and	1167	1170	O
+informal	1171	1179	O
+characteristics	1180	1195	O
+of	1196	1198	O
+the	1199	1202	O
+organisation	1203	1215	O
+as	1216	1218	O
+defined	1219	1226	O
+in	1227	1229	O
+the	1230	1233	O
+literature	1234	1244	O
+.	1244	1245	O
+
+This	1246	1250	O
+leads	1251	1256	O
+to	1257	1259	O
+a	1260	1261	O
+definition	1262	1272	O
+of	1273	1275	O
+the	1276	1279	O
+characteristics	1280	1295	O
+of	1296	1298	O
+the	1299	1302	O
+hybrid	1303	1309	O
+organisation	1310	1322	O
+and	1323	1326	O
+strategies	1327	1337	O
+for	1338	1341	O
+enabling	1342	1350	O
+a	1351	1352	O
+hybrid	1353	1359	O
+organisation	1360	1372	O
+,	1372	1373	O
+facilitated	1374	1385	O
+by	1386	1388	O
+a	1389	1390	O
+hybrid	1391	1397	B-Process
+ERP	1398	1401	I-Process
+system	1402	1408	I-Process
+,	1408	1409	O
+which	1410	1415	O
+directs	1416	1423	O
+formal	1424	1430	O
+and	1431	1434	O
+informal	1435	1443	O
+behaviour	1444	1453	O
+towards	1454	1461	O
+organisational	1462	1476	O
+goals	1477	1482	O
+and	1483	1486	O
+provides	1487	1495	O
+a	1496	1497	O
+template	1498	1506	O
+for	1507	1510	O
+future	1511	1517	O
+hybrid	1518	1524	O
+implementations	1525	1540	O
+.	1540	1541	O
 
 
 -DOCSTART- (S0168365912007560)
 
-We	NN	O	O
-addressed	NN	O	O
-the	NN	O	O
-question	NN	O	O
-whether	NN	O	B-Task
-carbohydrate	NN	O	I-Task
-coupling	NN	O	I-Task
-increased	NN	O	I-Task
-antigen	NN	O	I-Task
-uptake	NN	O	I-Task
-by	NN	O	O
-DCs	NN	O	O
-via	NN	O	O
-C	NN	O	B-Process
--	NN	O	I-Process
-type	NN	O	I-Process
-lectin	NN	O	I-Process
-receptor	NN	O	I-Process
-targeting	NN	O	I-Process
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-the	NN	O	O
-antigens	NN	O	B-Material
-were	NN	O	O
-labeled	NN	O	O
-with	NN	O	O
-pHrodo	NN	O	B-Material
-Red	NN	O	I-Material
-dye	NN	O	I-Material
-(	NN	O	O
-Invitrogen	NN	O	B-Material
-)	NN	O	O
-,	NN	O	O
-a	NN	O	O
-dye	NN	O	O
-that	NN	O	O
-specifically	NN	O	O
-fluoresces	NN	O	B-Process
-as	NN	O	O
-pH	NN	O	O
-decreases	NN	O	O
-from	NN	O	O
-neutral	NN	O	O
-to	NN	O	O
-acidic	NN	O	O
-,	NN	O	O
-as	NN	O	O
-provided	NN	O	O
-in	NN	O	O
-endosomes	NN	O	B-Material
-/	NN	O	O
-lysosomes	NN	O	B-Material
-of	NN	O	O
-cells	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-vitro	NN	O	O
-characterization	NN	O	O
-of	NN	O	O
-the	NN	O	O
-cellular	NN	O	O
-uptake	NN	O	O
-of	NN	O	O
-neoglycocomplexes	NN	O	B-Material
-using	NN	O	O
-bone	NN	O	B-Material
-marrow	NN	O	I-Material
-derived	NN	O	I-Material
-dendritic	NN	O	I-Material
-cells	NN	O	I-Material
-(	NN	O	O
-BMDCs	NN	O	B-Material
-)	NN	O	O
-demonstrated	NN	O	O
-superior	NN	O	O
-ingestion	NN	O	B-Process
-of	NN	O	O
-mannan	NN	O	O
--	NN	O	O
-conjugates	NN	O	O
-MN	NN	O	O
-–	NN	O	O
-Ova	NN	O	O
-and	NN	O	O
-MN	NN	O	O
-
-–	NN	O	O
-Pap	NN	O	O
-(	NN	O	O
-Supplementary	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-S4A	NN	O	O
--	NN	O	O
-D	NN	O	O
-,	NN	O	O
-F	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-was	NN	O	O
-confirmed	NN	O	O
-in	NN	O	O
-vivo	NN	O	O
-by	NN	O	O
-intradermal	NN	O	B-Task
-needle	NN	O	I-Task
--	NN	O	I-Task
-injection	NN	O	I-Task
-of	NN	O	O
-labeled	NN	O	O
-antigen	NN	O	O
-into	NN	O	O
-the	NN	O	O
-ear	NN	O	O
-pinnae	NN	O	O
-of	NN	O	O
-mice	NN	O	O
-.	NN	O	O
-
-Antigen	NN	O	B-Material
-uptake	NN	O	O
-and	NN	O	O
-transport	NN	O	O
-to	NN	O	O
-the	NN	O	O
-ear	NN	O	O
-
-dLNs	NN	O	O
-were	NN	O	O
-measured	NN	O	O
-after	NN	O	O
-24h	NN	O	O
-by	NN	O	O
-FACS	NN	O	B-Process
-analysis	NN	O	I-Process
-.	NN	O	O
-
-DCs	NN	O	O
-in	NN	O	O
-cervical	NN	O	O
-LNs	NN	O	O
-were	NN	O	O
-identified	NN	O	O
-according	NN	O	O
-to	NN	O	O
-their	NN	O	O
-high	NN	O	O
-expression	NN	O	O
-of	NN	O	O
-MHC	NN	O	O
-class	NN	O	O
-II	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3A	NN	O	O
-)	NN	O	O
-and	NN	O	O
-additionally	NN	O	O
-characterized	NN	O	O
-by	NN	O	O
-CD8α	NN	O	B-Material
-,	NN	O	O
-CD11b	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-CD11c	NN	O	B-Material
-expression	NN	O	O
-and	NN	O	O
-uptake	NN	O	O
-of	NN	O	O
-pHrodo	NN	O	B-Material
--	NN	O	I-Material
-labeled	NN	O	I-Material
-antigen	NN	O	I-Material
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3B	NN	O	O
-,	NN	O	O
-D	NN	O	O
-–	NN	O	O
-F	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-showed	NN	O	O
-significantly	NN	O	O
-elevated	NN	O	O
-numbers	NN	O	O
-of	NN	O	O
-pHrodo+MHCIIhigh	NN	O	B-Material
-DCs	NN	O	I-Material
-for	NN	O	O
-mannan	NN	O	O
-conjugates	NN	O	O
-MN	NN	O	B-Material
-–	NN	O	I-Material
-Ova	NN	O	I-Material
-and	NN	O	O
-MN	NN	O	B-Material
-–	NN	O	I-Material
-Pap	NN	O	I-Material
-(	NN	O	O
-and	NN	O	O
-to	NN	O	O
-a	NN	O	O
-lesser	NN	O	O
-degree	NN	O	O
-for	NN	O	O
-MD	NN	O	B-Material
-–	NN	O	I-Material
-Pap	NN	O	I-Material
-)	NN	O	O
-in	NN	O	O
-comparison	NN	O	O
-to	NN	O	O
-the	NN	O	O
-unmodified	NN	O	O
-antigens	NN	O	B-Material
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3C	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Both	NN	O	O
-carbohydrates	NN	O	B-Material
-targeted	NN	O	O
-antigen	NN	O	B-Material
-preferentially	NN	O	O
-to	NN	O	O
-CD8α−	NN	O	B-Material
-DCs	NN	O	I-Material
-,	NN	O	O
-as	NN	O	O
-indicated	NN	O	O
-by	NN	O	O
-an	NN	O	O
-increase	NN	O	O
-in	NN	O	O
-CD8α−/pHrodo+	NN	O	B-Material
-DCs	NN	O	I-Material
-compared	NN	O	O
-to	NN	O	O
-unmodified	NN	O	O
-antigens	NN	O	B-Material
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3E	NN	O	O
-and	NN	O	O
-F	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Nevertheless	NN	O	O
-,	NN	O	O
-whether	NN	O	O
-the	NN	O	O
-antigens	NN	O	B-Material
-were	NN	O	O
-taken	NN	O	O
-up	NN	O	O
-in	NN	O	O
-situ	NN	O	O
-by	NN	O	O
-dermal	NN	O	O
-DCs	NN	O	O
-or	NN	O	O
-by	NN	O	O
-LN	NN	O	O
-resident	NN	O	O
-APCs	NN	O	O
-via	NN	O	O
-the	NN	O	O
-afferent	NN	O	O
-lymphatics	NN	O	O
-could	NN	O	O
-not	NN	O	O
-be	NN	O	O
-fully	NN	O	O
-elucidated	NN	O	O
-.	NN	O	O
-
-Histology	NN	O	O
-revealed	NN	O	O
-that	NN	O	O
-antigen	NN	O	B-Material
--	NN	O	I-Material
-loaded	NN	O	I-Material
-cells	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-dLNs	NN	O	O
-were	NN	O	O
-already	NN	O	O
-present	NN	O	O
-30min	NN	O	O
-after	NN	O	O
-intradermal	NN	O	B-Process
-injection	NN	O	I-Process
-(	NN	O	O
-Supplementary	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-S4	NN	O	O
-G	NN	O	O
-)	NN	O	O
-,	NN	O	O
-suggesting	NN	O	O
-both	NN	O	O
-mechanisms	NN	O	O
-.	NN	O	O
+We	0	2	O
+addressed	3	12	O
+the	13	16	O
+question	17	25	O
+whether	26	33	B-Task
+carbohydrate	34	46	I-Task
+coupling	47	55	I-Task
+increased	56	65	I-Task
+antigen	66	73	I-Task
+uptake	74	80	I-Task
+by	81	83	O
+DCs	84	87	O
+via	88	91	O
+C	92	93	B-Process
+-	93	94	I-Process
+type	94	98	I-Process
+lectin	99	105	I-Process
+receptor	106	114	I-Process
+targeting	115	124	I-Process
+.	124	125	O
+
+Therefore	126	135	O
+,	135	136	O
+the	137	140	O
+antigens	141	149	B-Material
+were	150	154	O
+labeled	155	162	O
+with	163	167	O
+pHrodo	168	174	B-Material
+Red	175	178	I-Material
+dye	179	182	I-Material
+(	183	184	O
+Invitrogen	184	194	B-Material
+)	194	195	O
+,	195	196	O
+a	197	198	O
+dye	199	202	O
+that	203	207	O
+specifically	208	220	O
+fluoresces	221	231	B-Process
+as	232	234	O
+pH	235	237	O
+decreases	238	247	O
+from	248	252	O
+neutral	253	260	O
+to	261	263	O
+acidic	264	270	O
+,	270	271	O
+as	272	274	O
+provided	275	283	O
+in	284	286	O
+endosomes	287	296	B-Material
+/	296	297	O
+lysosomes	297	306	B-Material
+of	307	309	O
+cells	310	315	O
+.	315	316	O
+
+In	317	319	O
+vitro	320	325	O
+characterization	326	342	O
+of	343	345	O
+the	346	349	O
+cellular	350	358	O
+uptake	359	365	O
+of	366	368	O
+neoglycocomplexes	369	386	B-Material
+using	387	392	O
+bone	393	397	B-Material
+marrow	398	404	I-Material
+derived	405	412	I-Material
+dendritic	413	422	I-Material
+cells	423	428	I-Material
+(	429	430	O
+BMDCs	430	435	B-Material
+)	435	436	O
+demonstrated	437	449	O
+superior	450	458	O
+ingestion	459	468	B-Process
+of	469	471	O
+mannan	472	478	O
+-	478	479	O
+conjugates	479	489	O
+MN	490	492	O
+–	492	493	O
+Ova	493	496	O
+and	497	500	O
+MN	501	503	O
+
+–	503	504	O
+Pap	504	507	O
+(	508	509	O
+Supplementary	509	522	O
+Fig	523	526	O
+.	526	527	O
+
+S4A	528	531	O
+-	531	532	O
+D	532	533	O
+,	533	534	O
+F	534	535	O
+)	535	536	O
+.	536	537	O
+
+This	538	542	O
+was	543	546	O
+confirmed	547	556	O
+in	557	559	O
+vivo	560	564	O
+by	565	567	O
+intradermal	568	579	B-Task
+needle	580	586	I-Task
+-	586	587	I-Task
+injection	587	596	I-Task
+of	597	599	O
+labeled	600	607	O
+antigen	608	615	O
+into	616	620	O
+the	621	624	O
+ear	625	628	O
+pinnae	629	635	O
+of	636	638	O
+mice	639	643	O
+.	643	644	O
+
+Antigen	645	652	B-Material
+uptake	653	659	O
+and	660	663	O
+transport	664	673	O
+to	674	676	O
+the	677	680	O
+ear	681	684	O
+
+dLNs	685	689	O
+were	690	694	O
+measured	695	703	O
+after	704	709	O
+24h	710	713	O
+by	714	716	O
+FACS	717	721	B-Process
+analysis	722	730	I-Process
+.	730	731	O
+
+DCs	732	735	O
+in	736	738	O
+cervical	739	747	O
+LNs	748	751	O
+were	752	756	O
+identified	757	767	O
+according	768	777	O
+to	778	780	O
+their	781	786	O
+high	787	791	O
+expression	792	802	O
+of	803	805	O
+MHC	806	809	O
+class	810	815	O
+II	816	818	O
+(	819	820	O
+Fig	820	823	O
+.	823	824	O
+
+3A	825	827	O
+)	827	828	O
+and	829	832	O
+additionally	833	845	O
+characterized	846	859	O
+by	860	862	O
+CD8α	863	867	B-Material
+,	867	868	O
+CD11b	869	874	B-Material
+,	874	875	O
+and	876	879	O
+CD11c	880	885	B-Material
+expression	886	896	O
+and	897	900	O
+uptake	901	907	O
+of	908	910	O
+pHrodo	911	917	B-Material
+-	917	918	I-Material
+labeled	918	925	I-Material
+antigen	926	933	I-Material
+(	934	935	O
+Fig	935	938	O
+.	938	939	O
+
+3B	940	942	O
+,	942	943	O
+D	944	945	O
+–	945	946	O
+F	946	947	O
+)	947	948	O
+.	948	949	O
+
+The	950	953	O
+results	954	961	O
+showed	962	968	O
+significantly	969	982	O
+elevated	983	991	O
+numbers	992	999	O
+of	1000	1002	O
+pHrodo+MHCIIhigh	1003	1019	B-Material
+DCs	1020	1023	I-Material
+for	1024	1027	O
+mannan	1028	1034	O
+conjugates	1035	1045	O
+MN	1046	1048	B-Material
+–	1048	1049	I-Material
+Ova	1049	1052	I-Material
+and	1053	1056	O
+MN	1057	1059	B-Material
+–	1059	1060	I-Material
+Pap	1060	1063	I-Material
+(	1064	1065	O
+and	1065	1068	O
+to	1069	1071	O
+a	1072	1073	O
+lesser	1074	1080	O
+degree	1081	1087	O
+for	1088	1091	O
+MD	1092	1094	B-Material
+–	1094	1095	I-Material
+Pap	1095	1098	I-Material
+)	1098	1099	O
+in	1100	1102	O
+comparison	1103	1113	O
+to	1114	1116	O
+the	1117	1120	O
+unmodified	1121	1131	O
+antigens	1132	1140	B-Material
+(	1141	1142	O
+Fig	1142	1145	O
+.	1145	1146	O
+
+3C	1147	1149	O
+)	1149	1150	O
+.	1150	1151	O
+
+Both	1152	1156	O
+carbohydrates	1157	1170	B-Material
+targeted	1171	1179	O
+antigen	1180	1187	B-Material
+preferentially	1188	1202	O
+to	1203	1205	O
+CD8α−	1206	1211	B-Material
+DCs	1212	1215	I-Material
+,	1215	1216	O
+as	1217	1219	O
+indicated	1220	1229	O
+by	1230	1232	O
+an	1233	1235	O
+increase	1236	1244	O
+in	1245	1247	O
+CD8α−/pHrodo+	1248	1261	B-Material
+DCs	1262	1265	I-Material
+compared	1266	1274	O
+to	1275	1277	O
+unmodified	1278	1288	O
+antigens	1289	1297	B-Material
+(	1298	1299	O
+Fig	1299	1302	O
+.	1302	1303	O
+
+3E	1304	1306	O
+and	1307	1310	O
+F	1311	1312	O
+)	1312	1313	O
+.	1313	1314	O
+
+Nevertheless	1315	1327	O
+,	1327	1328	O
+whether	1329	1336	O
+the	1337	1340	O
+antigens	1341	1349	B-Material
+were	1350	1354	O
+taken	1355	1360	O
+up	1361	1363	O
+in	1364	1366	O
+situ	1367	1371	O
+by	1372	1374	O
+dermal	1375	1381	O
+DCs	1382	1385	O
+or	1386	1388	O
+by	1389	1391	O
+LN	1392	1394	O
+resident	1395	1403	O
+APCs	1404	1408	O
+via	1409	1412	O
+the	1413	1416	O
+afferent	1417	1425	O
+lymphatics	1426	1436	O
+could	1437	1442	O
+not	1443	1446	O
+be	1447	1449	O
+fully	1450	1455	O
+elucidated	1456	1466	O
+.	1466	1467	O
+
+Histology	1468	1477	O
+revealed	1478	1486	O
+that	1487	1491	O
+antigen	1492	1499	B-Material
+-	1499	1500	I-Material
+loaded	1500	1506	I-Material
+cells	1507	1512	I-Material
+in	1513	1515	O
+the	1516	1519	O
+dLNs	1520	1524	O
+were	1525	1529	O
+already	1530	1537	O
+present	1538	1545	O
+30min	1546	1551	O
+after	1552	1557	O
+intradermal	1558	1569	B-Process
+injection	1570	1579	I-Process
+(	1580	1581	O
+Supplementary	1581	1594	O
+Fig	1595	1598	O
+.	1598	1599	O
+
+S4	1600	1602	O
+G	1602	1603	O
+)	1603	1604	O
+,	1604	1605	O
+suggesting	1606	1616	O
+both	1617	1621	O
+mechanisms	1622	1632	O
+.	1632	1633	O
 
 
 -DOCSTART- (S0168365913001521)
 
-The	NN	O	O
-mesoporous	NN	O	B-Material
-silica	NN	O	I-Material
-particles	NN	O	O
-were	NN	O	O
-prepared	NN	O	O
-by	NN	O	O
-the	NN	O	O
-surfactant	NN	O	B-Process
-self	NN	O	I-Process
--	NN	O	I-Process
-assembly	NN	O	I-Process
-method	NN	O	O
-described	NN	O	O
-previously	NN	O	O
-[	NN	O	O
-18,24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Briefly	NN	O	O
-,	NN	O	O
-a	NN	O	O
-homogeneous	NN	O	B-Material
-solution	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-soluble	NN	O	B-Material
-silica	NN	O	I-Material
-precursor	NN	O	I-Material
-,	NN	O	O
-tetraethylorthosilicate	NN	O	B-Material
-(	NN	O	O
-TEOS	NN	O	B-Material
-;	NN	O	O
-Sigma	NN	O	O
--	NN	O	O
-Aldrich	NN	O	O
-Corp.	NN	O	O
-,	NN	O	O
-St.	NN	O	O
-Louis	NN	O	O
-,	NN	O	O
-MO	NN	O	O
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-hydrochloric	NN	O	B-Material
-acid	NN	O	I-Material
-was	NN	O	O
-mixed	NN	O	O
-in	NN	O	O
-ethanol	NN	O	B-Material
-and	NN	O	O
-water	NN	O	B-Material
-.	NN	O	I-Material
-
-A	NN	O	O
-surfactant	NN	O	B-Material
-,	NN	O	O
-cetyltrimethylammonium	NN	O	B-Material
-bromide	NN	O	I-Material
-(	NN	O	O
-CTAB	NN	O	B-Material
-;	NN	O	O
-Sigma	NN	O	O
--	NN	O	O
-Aldrich	NN	O	O
-Corp.	NN	O	O
-,	NN	O	O
-St.	NN	O	O
-Louis	NN	O	O
-,	NN	O	O
-MO	NN	O	O
-)	NN	O	O
-,	NN	O	O
-with	NN	O	O
-an	NN	O	O
-initial	NN	O	O
-concentration	NN	O	O
-much	NN	O	O
-less	NN	O	O
-than	NN	O	O
-the	NN	O	O
-critical	NN	O	O
-micelle	NN	O	O
-concentration	NN	O	O
-was	NN	O	O
-added	NN	O	O
-to	NN	O	O
-lower	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-tension	NN	O	O
-of	NN	O	O
-the	NN	O	O
-liquid	NN	O	O
-mixture	NN	O	O
-and	NN	O	O
-act	NN	O	O
-as	NN	O	O
-the	NN	O	O
-mesoporous	NN	O	B-Material
-structure	NN	O	I-Material
--	NN	O	I-Material
-directing	NN	O	I-Material
-template	NN	O	I-Material
-.	NN	O	O
-
-Aerosol	NN	O	B-Material
-solutions	NN	O	I-Material
-of	NN	O	O
-soluble	NN	O	B-Material
-silica	NN	O	I-Material
-plus	NN	O	O
-surfactant	NN	O	B-Material
-were	NN	O	O
-then	NN	O	O
-generated	NN	O	O
-with	NN	O	O
-nitrogen	NN	O	B-Process
-as	NN	O	O
-a	NN	O	O
-carrier	NN	O	O
-atomizing	NN	O	B-Material
-gas	NN	O	I-Material
-using	NN	O	O
-a	NN	O	O
-commercially	NN	O	O
-available	NN	O	O
-atomizer	NN	O	B-Process
-(	NN	O	O
-Model	NN	O	O
-9392A	NN	O	O
-,	NN	O	O
-TSI	NN	O	O
-,	NN	O	O
-Inc.	NN	O	O
-,	NN	O	O
-St.	NN	O	O
-Paul	NN	O	O
-,	NN	O	O
-MN	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-aerosol	NN	O	B-Material
-droplets	NN	O	I-Material
-were	NN	O	O
-solidified	NN	O	O
-in	NN	O	O
-a	NN	O	O
-tube	NN	O	B-Process
-furnace	NN	O	I-Process
-at	NN	O	O
-400	NN	O	O
-°	NN	O	O
-C	NN	O	O
-until	NN	O	O
-dry	NN	O	O
-.	NN	O	O
-
-Once	NN	O	O
-dried	NN	O	O
-,	NN	O	O
-a	NN	O	O
-durapore	NN	O	B-Material
-membrane	NN	O	I-Material
-filter	NN	O	I-Material
-,	NN	O	O
-kept	NN	O	O
-at	NN	O	O
-80	NN	O	O
-°	NN	O	O
-C	NN	O	O
-,	NN	O	O
-was	NN	O	O
-used	NN	O	O
-to	NN	O	O
-collect	NN	O	O
-the	NN	O	O
-particles	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-a	NN	O	O
-final	NN	O	O
-step	NN	O	O
-,	NN	O	O
-the	NN	O	O
-surfactant	NN	O	B-Material
-was	NN	O	O
-removed	NN	O	O
-at	NN	O	O
-400	NN	O	O
-°	NN	O	O
-C	NN	O	O
-for	NN	O	O
-5h	NN	O	O
-via	NN	O	O
-calcination	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-surface	NN	O	O
-of	NN	O	O
-the	NN	O	O
-mesoporous	NN	O	B-Material
-silica	NN	O	I-Material
-core	NN	O	I-Material
-in	NN	O	O
-these	NN	O	O
-studies	NN	O	O
-was	NN	O	O
-chemically	NN	O	O
-modified	NN	O	O
-with	NN	O	O
-10wt.%	NN	O	O
-or	NN	O	O
-15wt.%	NN	O	O
-by	NN	O	O
-aminopropyltriethoxysilane	NN	O	B-Material
-(	NN	O	O
-APTES	NN	O	B-Material
-;	NN	O	O
-Sigma	NN	O	O
--	NN	O	O
-Aldrich	NN	O	O
-Corp.	NN	O	O
-,	NN	O	O
-St.	NN	O	O
-Louis	NN	O	O
-,	NN	O	O
-MO	NN	O	O
-)	NN	O	O
-conducted	NN	O	O
-identically	NN	O	O
-as	NN	O	O
-previously	NN	O	O
-described	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-to	NN	O	O
-create	NN	O	O
-a	NN	O	O
-positive	NN	O	O
-surface	NN	O	O
-charge	NN	O	O
-to	NN	O	O
-increase	NN	O	O
-loading	NN	O	O
-efficiency	NN	O	O
-of	NN	O	O
-negatively	NN	O	O
-charged	NN	O	O
-cargo	NN	O	O
-.	NN	O	O
-
-Further	NN	O	O
-,	NN	O	O
-Liu	NN	O	O
-and	NN	O	O
-colleagues	NN	O	O
-report	NN	O	O
-the	NN	O	O
-colloidal	NN	O	O
-stability	NN	O	O
-of	NN	O	O
-these	NN	O	O
-protocells	NN	O	B-Material
-with	NN	O	O
-lipid	NN	O	O
-bilayers	NN	O	O
-,	NN	O	O
-excess	NN	O	O
-amount	NN	O	O
-of	NN	O	O
-liposomes	NN	O	B-Material
-(	NN	O	O
-50μg	NN	O	O
-liposomes	NN	O	O
-per	NN	O	O
-0.5	NN	O	O
-mg	NN	O	O
-silica	NN	O	O
-were	NN	O	O
-used	NN	O	O
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
+The	0	3	O
+mesoporous	4	14	B-Material
+silica	15	21	I-Material
+particles	22	31	O
+were	32	36	O
+prepared	37	45	O
+by	46	48	O
+the	49	52	O
+surfactant	53	63	B-Process
+self	64	68	I-Process
+-	68	69	I-Process
+assembly	69	77	I-Process
+method	78	84	O
+described	85	94	O
+previously	95	105	O
+[	106	107	O
+18,24	107	112	O
+]	112	113	O
+.	113	114	O
+
+Briefly	115	122	O
+,	122	123	O
+a	124	125	O
+homogeneous	126	137	B-Material
+solution	138	146	I-Material
+of	147	149	O
+the	150	153	O
+soluble	154	161	B-Material
+silica	162	168	I-Material
+precursor	169	178	I-Material
+,	178	179	O
+tetraethylorthosilicate	180	203	B-Material
+(	204	205	O
+TEOS	205	209	B-Material
+;	209	210	O
+Sigma	211	216	O
+-	216	217	O
+Aldrich	217	224	O
+Corp.	225	230	O
+,	230	231	O
+St.	232	235	O
+Louis	236	241	O
+,	241	242	O
+MO	243	245	O
+)	245	246	O
+,	246	247	O
+and	248	251	O
+hydrochloric	252	264	B-Material
+acid	265	269	I-Material
+was	270	273	O
+mixed	274	279	O
+in	280	282	O
+ethanol	283	290	B-Material
+and	291	294	O
+water	295	300	B-Material
+.	300	301	I-Material
+
+A	302	303	O
+surfactant	304	314	B-Material
+,	314	315	O
+cetyltrimethylammonium	316	338	B-Material
+bromide	339	346	I-Material
+(	347	348	O
+CTAB	348	352	B-Material
+;	352	353	O
+Sigma	354	359	O
+-	359	360	O
+Aldrich	360	367	O
+Corp.	368	373	O
+,	373	374	O
+St.	375	378	O
+Louis	379	384	O
+,	384	385	O
+MO	386	388	O
+)	388	389	O
+,	389	390	O
+with	391	395	O
+an	396	398	O
+initial	399	406	O
+concentration	407	420	O
+much	421	425	O
+less	426	430	O
+than	431	435	O
+the	436	439	O
+critical	440	448	O
+micelle	449	456	O
+concentration	457	470	O
+was	471	474	O
+added	475	480	O
+to	481	483	O
+lower	484	489	O
+the	490	493	O
+surface	494	501	O
+tension	502	509	O
+of	510	512	O
+the	513	516	O
+liquid	517	523	O
+mixture	524	531	O
+and	532	535	O
+act	536	539	O
+as	540	542	O
+the	543	546	O
+mesoporous	547	557	B-Material
+structure	558	567	I-Material
+-	567	568	I-Material
+directing	568	577	I-Material
+template	578	586	I-Material
+.	586	587	O
+
+Aerosol	588	595	B-Material
+solutions	596	605	I-Material
+of	606	608	O
+soluble	609	616	B-Material
+silica	617	623	I-Material
+plus	624	628	O
+surfactant	629	639	B-Material
+were	640	644	O
+then	645	649	O
+generated	650	659	O
+with	660	664	O
+nitrogen	665	673	B-Process
+as	674	676	O
+a	677	678	O
+carrier	679	686	O
+atomizing	687	696	B-Material
+gas	697	700	I-Material
+using	701	706	O
+a	707	708	O
+commercially	709	721	O
+available	722	731	O
+atomizer	732	740	B-Process
+(	741	742	O
+Model	742	747	O
+9392A	748	753	O
+,	753	754	O
+TSI	755	758	O
+,	758	759	O
+Inc.	760	764	O
+,	764	765	O
+St.	766	769	O
+Paul	770	774	O
+,	774	775	O
+MN	776	778	O
+)	778	779	O
+.	779	780	O
+
+The	781	784	O
+aerosol	785	792	B-Material
+droplets	793	801	I-Material
+were	802	806	O
+solidified	807	817	O
+in	818	820	O
+a	821	822	O
+tube	823	827	B-Process
+furnace	828	835	I-Process
+at	836	838	O
+400	839	842	O
+°	842	843	O
+C	843	844	O
+until	845	850	O
+dry	851	854	O
+.	854	855	O
+
+Once	856	860	O
+dried	861	866	O
+,	866	867	O
+a	868	869	O
+durapore	870	878	B-Material
+membrane	879	887	I-Material
+filter	888	894	I-Material
+,	894	895	O
+kept	896	900	O
+at	901	903	O
+80	904	906	O
+°	906	907	O
+C	907	908	O
+,	908	909	O
+was	910	913	O
+used	914	918	O
+to	919	921	O
+collect	922	929	O
+the	930	933	O
+particles	934	943	O
+.	943	944	O
+
+As	945	947	O
+a	948	949	O
+final	950	955	O
+step	956	960	O
+,	960	961	O
+the	962	965	O
+surfactant	966	976	B-Material
+was	977	980	O
+removed	981	988	O
+at	989	991	O
+400	992	995	O
+°	995	996	O
+C	996	997	O
+for	998	1001	O
+5h	1002	1004	O
+via	1005	1008	O
+calcination	1009	1020	B-Process
+.	1020	1021	O
+
+The	1022	1025	O
+surface	1026	1033	O
+of	1034	1036	O
+the	1037	1040	O
+mesoporous	1041	1051	B-Material
+silica	1052	1058	I-Material
+core	1059	1063	I-Material
+in	1064	1066	O
+these	1067	1072	O
+studies	1073	1080	O
+was	1081	1084	O
+chemically	1085	1095	O
+modified	1096	1104	O
+with	1105	1109	O
+10wt.%	1110	1116	O
+or	1117	1119	O
+15wt.%	1120	1126	O
+by	1127	1129	O
+aminopropyltriethoxysilane	1130	1156	B-Material
+(	1157	1158	O
+APTES	1158	1163	B-Material
+;	1163	1164	O
+Sigma	1165	1170	O
+-	1170	1171	O
+Aldrich	1171	1178	O
+Corp.	1179	1184	O
+,	1184	1185	O
+St.	1186	1189	O
+Louis	1190	1195	O
+,	1195	1196	O
+MO	1197	1199	O
+)	1199	1200	O
+conducted	1201	1210	O
+identically	1211	1222	O
+as	1223	1225	O
+previously	1226	1236	O
+described	1237	1246	O
+[	1247	1248	O
+17	1248	1250	O
+]	1250	1251	O
+to	1252	1254	O
+create	1255	1261	O
+a	1262	1263	O
+positive	1264	1272	O
+surface	1273	1280	O
+charge	1281	1287	O
+to	1288	1290	O
+increase	1291	1299	O
+loading	1300	1307	O
+efficiency	1308	1318	O
+of	1319	1321	O
+negatively	1322	1332	O
+charged	1333	1340	O
+cargo	1341	1346	O
+.	1346	1347	O
+
+Further	1348	1355	O
+,	1355	1356	O
+Liu	1357	1360	O
+and	1361	1364	O
+colleagues	1365	1375	O
+report	1376	1382	O
+the	1383	1386	O
+colloidal	1387	1396	O
+stability	1397	1406	O
+of	1407	1409	O
+these	1410	1415	O
+protocells	1416	1426	B-Material
+with	1427	1431	O
+lipid	1432	1437	O
+bilayers	1438	1446	O
+,	1446	1447	O
+excess	1448	1454	O
+amount	1455	1461	O
+of	1462	1464	O
+liposomes	1465	1474	B-Material
+(	1475	1476	O
+50μg	1476	1480	O
+liposomes	1481	1490	O
+per	1491	1494	O
+0.5	1495	1498	O
+mg	1498	1500	O
+silica	1501	1507	O
+were	1508	1512	O
+used	1513	1517	O
+[	1518	1519	O
+18	1519	1521	O
+]	1521	1522	O
+)	1522	1523	O
+.	1523	1524	O
 
 
 -DOCSTART- (S0168365913009589)
 
-Ultrasound	NN	O	B-Process
-(	NN	O	O
-US	NN	O	B-Process
-)	NN	O	O
-can	NN	O	O
-initiate	NN	O	O
-the	NN	O	O
-release	NN	O	O
-of	NN	O	O
-drugs	NN	O	O
-from	NN	O	O
-liposomes	NN	O	B-Material
-via	NN	O	O
-an	NN	O	O
-event	NN	O	O
-called	NN	O	O
-inertial	NN	O	B-Task
-cavitation	NN	O	I-Task
-,	NN	O	O
-whereby	NN	O	O
-the	NN	O	O
-rarefactional	NN	O	O
-phase	NN	O	O
-of	NN	O	O
-an	NN	O	O
-ultrasound	NN	O	O
-wave	NN	O	O
-causes	NN	O	O
-the	NN	O	O
-expansion	NN	O	O
-of	NN	O	O
-a	NN	O	O
-gas	NN	O	B-Material
-bubble	NN	O	I-Material
-followed	NN	O	O
-by	NN	O	O
-a	NN	O	O
-violent	NN	O	O
-collapse	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-inertia	NN	O	O
-of	NN	O	O
-the	NN	O	O
-surrounding	NN	O	O
-media	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-collapse	NN	O	O
-creates	NN	O	O
-shock	NN	O	O
-waves	NN	O	O
-which	NN	O	O
-can	NN	O	O
-disrupt	NN	O	O
-the	NN	O	O
-stability	NN	O	O
-of	NN	O	O
-co	NN	O	O
--	NN	O	O
-localised	NN	O	O
-liposomal	NN	O	O
-drug	NN	O	O
-carriers	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-date	NN	O	O
-,	NN	O	O
-studies	NN	O	O
-have	NN	O	O
-concentrated	NN	O	O
-on	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-low	NN	O	O
-frequency	NN	O	O
-or	NN	O	O
-high	NN	O	O
-intensity	NN	O	O
-US	NN	O	B-Process
-to	NN	O	O
-generate	NN	O	O
-gas	NN	O	B-Material
-bubbles	NN	O	I-Material
-in	NN	O	O
-situ	NN	O	O
-,	NN	O	O
-and	NN	O	O
-most	NN	O	O
-recently	NN	O	O
-such	NN	O	O
-parameters	NN	O	O
-have	NN	O	O
-been	NN	O	O
-used	NN	O	O
-to	NN	O	O
-achieve	NN	O	O
-a	NN	O	O
-variable	NN	O	O
-level	NN	O	O
-of	NN	O	O
-triggered	NN	O	O
-drug	NN	O	O
-release	NN	O	O
-following	NN	O	O
-an	NN	O	O
-intratumoral	NN	O	B-Process
-injection	NN	O	I-Process
-of	NN	O	O
-liposomes	NN	O	O
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-concerns	NN	O	O
-persist	NN	O	O
-over	NN	O	O
-the	NN	O	O
-damage	NN	O	O
-to	NN	O	O
-non	NN	O	O
--	NN	O	O
-target	NN	O	O
-tissue	NN	O	O
-that	NN	O	O
-such	NN	O	O
-US	NN	O	B-Process
-exposure	NN	O	O
-parameters	NN	O	O
-may	NN	O	O
-cause	NN	O	O
-and	NN	O	O
-whether	NN	O	O
-ultimately	NN	O	O
-they	NN	O	O
-will	NN	O	O
-be	NN	O	O
-widely	NN	O	O
-clinically	NN	O	O
-applicable	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-alternative	NN	O	O
-strategy	NN	O	O
-is	NN	O	O
-to	NN	O	O
-utilise	NN	O	O
-high	NN	O	O
--	NN	O	O
-frequency	NN	O	O
-US	NN	O	B-Process
-pulses	NN	O	O
-at	NN	O	O
-pressures	NN	O	O
-in	NN	O	O
-the	NN	O	O
-diagnostic	NN	O	O
-range	NN	O	O
-in	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-pre	NN	O	O
--	NN	O	O
-existing	NN	O	O
-gas	NN	O	O
-bubbles	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-provides	NN	O	O
-an	NN	O	O
-inertial	NN	O	B-Task
-cavitation	NN	O	I-Task
-stimulus	NN	O	O
-for	NN	O	O
-drug	NN	O	O
-release	NN	O	O
-using	NN	O	O
-safe	NN	O	O
-,	NN	O	O
-clinically	NN	O	O
-achievable	NN	O	O
-US	NN	O	B-Process
-exposure	NN	O	O
-conditions	NN	O	O
-and	NN	O	O
-approved	NN	O	O
-US	NN	O	B-Material
-contrast	NN	O	I-Material
-agents	NN	O	I-Material
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Indeed	NN	O	O
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-improving	NN	O	O
-the	NN	O	O
-delivery	NN	O	O
-of	NN	O	O
-therapeutics	NN	O	O
-such	NN	O	O
-as	NN	O	O
-oncolytic	NN	O	B-Material
-viruses	NN	O	I-Material
-,	NN	O	O
-this	NN	O	O
-approach	NN	O	O
-has	NN	O	O
-already	NN	O	O
-shown	NN	O	O
-great	NN	O	O
-promise	NN	O	O
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-further	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-this	NN	O	O
-approach	NN	O	O
-is	NN	O	O
-that	NN	O	O
-US	NN	O	B-Process
--	NN	O	I-Process
-induced	NN	O	I-Process
-cavitation	NN	O	I-Process
-events	NN	O	O
-produce	NN	O	O
-distinct	NN	O	O
-acoustic	NN	O	O
-emissions	NN	O	O
-that	NN	O	O
-can	NN	O	O
-be	NN	O	O
-recorded	NN	O	O
-and	NN	O	O
-characterised	NN	O	O
-providing	NN	O	O
-non	NN	O	O
--	NN	O	O
-invasive	NN	O	O
-feedback	NN	O	O
-,	NN	O	O
-a	NN	O	O
-feature	NN	O	O
-which	NN	O	O
-has	NN	O	O
-proven	NN	O	O
-useful	NN	O	O
-in	NN	O	O
-ablative	NN	O	O
-US	NN	O	B-Process
-applications	NN	O	O
-[	NN	O	O
-17–19	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Ultrasound	0	10	B-Process
+(	11	12	O
+US	12	14	B-Process
+)	14	15	O
+can	16	19	O
+initiate	20	28	O
+the	29	32	O
+release	33	40	O
+of	41	43	O
+drugs	44	49	O
+from	50	54	O
+liposomes	55	64	B-Material
+via	65	68	O
+an	69	71	O
+event	72	77	O
+called	78	84	O
+inertial	85	93	B-Task
+cavitation	94	104	I-Task
+,	104	105	O
+whereby	106	113	O
+the	114	117	O
+rarefactional	118	131	O
+phase	132	137	O
+of	138	140	O
+an	141	143	O
+ultrasound	144	154	O
+wave	155	159	O
+causes	160	166	O
+the	167	170	O
+expansion	171	180	O
+of	181	183	O
+a	184	185	O
+gas	186	189	B-Material
+bubble	190	196	I-Material
+followed	197	205	O
+by	206	208	O
+a	209	210	O
+violent	211	218	O
+collapse	219	227	O
+due	228	231	O
+to	232	234	O
+the	235	238	O
+inertia	239	246	O
+of	247	249	O
+the	250	253	O
+surrounding	254	265	O
+media	266	271	O
+.	271	272	O
+
+This	273	277	O
+collapse	278	286	O
+creates	287	294	O
+shock	295	300	O
+waves	301	306	O
+which	307	312	O
+can	313	316	O
+disrupt	317	324	O
+the	325	328	O
+stability	329	338	O
+of	339	341	O
+co	342	344	O
+-	344	345	O
+localised	345	354	O
+liposomal	355	364	O
+drug	365	369	O
+carriers	370	378	O
+.	378	379	O
+
+To	380	382	O
+date	383	387	O
+,	387	388	O
+studies	389	396	O
+have	397	401	O
+concentrated	402	414	O
+on	415	417	O
+the	418	421	O
+use	422	425	O
+of	426	428	O
+low	429	432	O
+frequency	433	442	O
+or	443	445	O
+high	446	450	O
+intensity	451	460	O
+US	461	463	B-Process
+to	464	466	O
+generate	467	475	O
+gas	476	479	B-Material
+bubbles	480	487	I-Material
+in	488	490	O
+situ	491	495	O
+,	495	496	O
+and	497	500	O
+most	501	505	O
+recently	506	514	O
+such	515	519	O
+parameters	520	530	O
+have	531	535	O
+been	536	540	O
+used	541	545	O
+to	546	548	O
+achieve	549	556	O
+a	557	558	O
+variable	559	567	O
+level	568	573	O
+of	574	576	O
+triggered	577	586	O
+drug	587	591	O
+release	592	599	O
+following	600	609	O
+an	610	612	O
+intratumoral	613	625	B-Process
+injection	626	635	I-Process
+of	636	638	O
+liposomes	639	648	O
+[	649	650	O
+14	650	652	O
+]	652	653	O
+.	653	654	O
+
+However	655	662	O
+,	662	663	O
+concerns	664	672	O
+persist	673	680	O
+over	681	685	O
+the	686	689	O
+damage	690	696	O
+to	697	699	O
+non	700	703	O
+-	703	704	O
+target	704	710	O
+tissue	711	717	O
+that	718	722	O
+such	723	727	O
+US	728	730	B-Process
+exposure	731	739	O
+parameters	740	750	O
+may	751	754	O
+cause	755	760	O
+and	761	764	O
+whether	765	772	O
+ultimately	773	783	O
+they	784	788	O
+will	789	793	O
+be	794	796	O
+widely	797	803	O
+clinically	804	814	O
+applicable	815	825	O
+.	825	826	O
+
+An	827	829	O
+alternative	830	841	O
+strategy	842	850	O
+is	851	853	O
+to	854	856	O
+utilise	857	864	O
+high	865	869	O
+-	869	870	O
+frequency	870	879	O
+US	880	882	B-Process
+pulses	883	889	O
+at	890	892	O
+pressures	893	902	O
+in	903	905	O
+the	906	909	O
+diagnostic	910	920	O
+range	921	926	O
+in	927	929	O
+the	930	933	O
+presence	934	942	O
+of	943	945	O
+pre	946	949	O
+-	949	950	O
+existing	950	958	O
+gas	959	962	O
+bubbles	963	970	O
+.	970	971	O
+
+This	972	976	O
+provides	977	985	O
+an	986	988	O
+inertial	989	997	B-Task
+cavitation	998	1008	I-Task
+stimulus	1009	1017	O
+for	1018	1021	O
+drug	1022	1026	O
+release	1027	1034	O
+using	1035	1040	O
+safe	1041	1045	O
+,	1045	1046	O
+clinically	1047	1057	O
+achievable	1058	1068	O
+US	1069	1071	B-Process
+exposure	1072	1080	O
+conditions	1081	1091	O
+and	1092	1095	O
+approved	1096	1104	O
+US	1105	1107	B-Material
+contrast	1108	1116	I-Material
+agents	1117	1123	I-Material
+[	1124	1125	O
+15	1125	1127	O
+]	1127	1128	O
+.	1128	1129	O
+
+Indeed	1130	1136	O
+,	1136	1137	O
+in	1138	1140	O
+the	1141	1144	O
+context	1145	1152	O
+of	1153	1155	O
+improving	1156	1165	O
+the	1166	1169	O
+delivery	1170	1178	O
+of	1179	1181	O
+therapeutics	1182	1194	O
+such	1195	1199	O
+as	1200	1202	O
+oncolytic	1203	1212	B-Material
+viruses	1213	1220	I-Material
+,	1220	1221	O
+this	1222	1226	O
+approach	1227	1235	O
+has	1236	1239	O
+already	1240	1247	O
+shown	1248	1253	O
+great	1254	1259	O
+promise	1260	1267	O
+[	1268	1269	O
+16	1269	1271	O
+]	1271	1272	O
+.	1272	1273	O
+
+A	1274	1275	O
+further	1276	1283	O
+advantage	1284	1293	O
+of	1294	1296	O
+this	1297	1301	O
+approach	1302	1310	O
+is	1311	1313	O
+that	1314	1318	O
+US	1319	1321	B-Process
+-	1321	1322	I-Process
+induced	1322	1329	I-Process
+cavitation	1330	1340	I-Process
+events	1341	1347	O
+produce	1348	1355	O
+distinct	1356	1364	O
+acoustic	1365	1373	O
+emissions	1374	1383	O
+that	1384	1388	O
+can	1389	1392	O
+be	1393	1395	O
+recorded	1396	1404	O
+and	1405	1408	O
+characterised	1409	1422	O
+providing	1423	1432	O
+non	1433	1436	O
+-	1436	1437	O
+invasive	1437	1445	O
+feedback	1446	1454	O
+,	1454	1455	O
+a	1456	1457	O
+feature	1458	1465	O
+which	1466	1471	O
+has	1472	1475	O
+proven	1476	1482	O
+useful	1483	1489	O
+in	1490	1492	O
+ablative	1493	1501	O
+US	1502	1504	B-Process
+applications	1505	1517	O
+[	1518	1519	O
+17–19	1519	1524	O
+]	1524	1525	O
+.	1525	1526	O
 
 
 -DOCSTART- (S0168583X14003929)
 
-The	NN	O	O
-most	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-ion	NN	O	O
-source	NN	O	O
-in	NN	O	O
-FIB	NN	O	B-Process
-instruments	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-gallium	NN	O	B-Material
-(	NN	O	O
-Ga	NN	O	B-Material
-)	NN	O	O
-liquid	NN	O	O
-metal	NN	O	O
-ion	NN	O	O
-source	NN	O	O
-(	NN	O	O
-LMIS	NN	O	O
-)	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Gallium	NN	O	B-Material
-is	NN	O	O
-attractive	NN	O	O
-as	NN	O	O
-an	NN	O	O
-ion	NN	O	O
-source	NN	O	O
-because	NN	O	O
-of	NN	O	O
-its	NN	O	O
-low	NN	O	O
-melting	NN	O	O
-temperature	NN	O	O
-(	NN	O	O
-29.8	NN	O	O
-°	NN	O	O
-C	NN	O	O
-at	NN	O	O
-standard	NN	O	O
-atmospheric	NN	O	O
-pressure	NN	O	O
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-)	NN	O	O
-and	NN	O	O
-its	NN	O	O
-low	NN	O	O
-volatility	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-some	NN	O	O
-materials	NN	O	O
-show	NN	O	O
-sensitivity	NN	O	O
-to	NN	O	O
-the	NN	O	O
-Ga	NN	O	B-Process
-ion	NN	O	I-Process
-beam	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-sensitivity	NN	O	O
-is	NN	O	O
-manifested	NN	O	O
-as	NN	O	O
-changes	NN	O	O
-in	NN	O	O
-the	NN	O	O
-structure	NN	O	O
-and	NN	O	O
-chemical	NN	O	O
-composition	NN	O	O
-of	NN	O	O
-the	NN	O	O
-starting	NN	O	O
-material	NN	O	O
-upon	NN	O	O
-exposure	NN	O	O
-to	NN	O	O
-the	NN	O	O
-Ga	NN	O	B-Process
-ion	NN	O	I-Process
-beam	NN	O	I-Process
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Group	NN	O	O
-III	NN	O	O
-–	NN	O	O
-V	NN	O	O
-compound	NN	O	O
-semiconductors	NN	O	B-Process
-are	NN	O	O
-one	NN	O	O
-class	NN	O	O
-of	NN	O	O
-materials	NN	O	O
-that	NN	O	O
-show	NN	O	O
-such	NN	O	O
-sensitivity	NN	O	O
-.	NN	O	O
-
-Cryo	NN	O	B-Task
--	NN	O	I-Task
-FIB	NN	O	I-Task
-milling	NN	O	I-Task
-has	NN	O	O
-recently	NN	O	O
-been	NN	O	O
-reported	NN	O	O
-to	NN	O	O
-suppress	NN	O	O
-the	NN	O	O
-reactions	NN	O	O
-between	NN	O	O
-the	NN	O	O
-Ga	NN	O	B-Process
-ion	NN	O	I-Process
-beam	NN	O	I-Process
-and	NN	O	O
-III	NN	O	B-Material
-–	NN	O	I-Material
-V	NN	O	I-Material
-materials	NN	O	I-Material
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-suggested	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-cryo	NN	O	B-Task
--	NN	O	I-Task
-FIB	NN	O	I-Task
-milling	NN	O	I-Task
-over	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-milling	NN	O	O
-of	NN	O	O
-Group	NN	O	B-Material
-III	NN	O	I-Material
-–	NN	O	I-Material
-V	NN	O	I-Material
-materials	NN	O	I-Material
-is	NN	O	O
-appealing	NN	O	O
-,	NN	O	O
-given	NN	O	O
-the	NN	O	O
-variety	NN	O	O
-of	NN	O	O
-present	NN	O	O
-and	NN	O	O
-potential	NN	O	O
-future	NN	O	O
-applications	NN	O	O
-for	NN	O	O
-these	NN	O	O
-materials	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-as	NN	O	O
-electronic	NN	O	B-Process
-or	NN	O	I-Process
-photonic	NN	O	I-Process
-devices	NN	O	I-Process
-given	NN	O	O
-the	NN	O	O
-favorable	NN	O	O
-electron	NN	O	O
-transport	NN	O	O
-and	NN	O	O
-direct	NN	O	O
-band	NN	O	O
-gap	NN	O	O
-properties	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-several	NN	O	O
-III	NN	O	O
-–	NN	O	O
-V	NN	O	O
-semiconductor	NN	O	B-Process
-systems	NN	O	O
-)	NN	O	O
-.	NN	O	O
+The	0	3	O
+most	4	8	O
+widely	9	15	O
+used	16	20	O
+ion	21	24	O
+source	25	31	O
+in	32	34	O
+FIB	35	38	B-Process
+instruments	39	50	I-Process
+is	51	53	O
+a	54	55	O
+gallium	56	63	B-Material
+(	64	65	O
+Ga	65	67	B-Material
+)	67	68	O
+liquid	69	75	O
+metal	76	81	O
+ion	82	85	O
+source	86	92	O
+(	93	94	O
+LMIS	94	98	O
+)	98	99	O
+[	100	101	O
+1	101	102	O
+]	102	103	O
+.	103	104	O
+
+Gallium	105	112	B-Material
+is	113	115	O
+attractive	116	126	O
+as	127	129	O
+an	130	132	O
+ion	133	136	O
+source	137	143	O
+because	144	151	O
+of	152	154	O
+its	155	158	O
+low	159	162	O
+melting	163	170	O
+temperature	171	182	O
+(	183	184	O
+29.8	184	188	O
+°	188	189	O
+C	189	190	O
+at	191	193	O
+standard	194	202	O
+atmospheric	203	214	O
+pressure	215	223	O
+[	224	225	O
+4	225	226	O
+]	226	227	O
+)	227	228	O
+and	229	232	O
+its	233	236	O
+low	237	240	O
+volatility	241	251	O
+[	252	253	O
+1	253	254	O
+]	254	255	O
+.	255	256	O
+
+However	257	264	O
+,	264	265	O
+some	266	270	O
+materials	271	280	O
+show	281	285	O
+sensitivity	286	297	O
+to	298	300	O
+the	301	304	O
+Ga	305	307	B-Process
+ion	308	311	I-Process
+beam	312	316	I-Process
+.	316	317	O
+
+This	318	322	O
+sensitivity	323	334	O
+is	335	337	O
+manifested	338	348	O
+as	349	351	O
+changes	352	359	O
+in	360	362	O
+the	363	366	O
+structure	367	376	O
+and	377	380	O
+chemical	381	389	O
+composition	390	401	O
+of	402	404	O
+the	405	408	O
+starting	409	417	O
+material	418	426	O
+upon	427	431	O
+exposure	432	440	O
+to	441	443	O
+the	444	447	O
+Ga	448	450	B-Process
+ion	451	454	I-Process
+beam	455	459	I-Process
+[	460	461	O
+5	461	462	O
+]	462	463	O
+.	463	464	O
+
+Group	465	470	O
+III	471	474	O
+–	474	475	O
+V	475	476	O
+compound	477	485	O
+semiconductors	486	500	B-Process
+are	501	504	O
+one	505	508	O
+class	509	514	O
+of	515	517	O
+materials	518	527	O
+that	528	532	O
+show	533	537	O
+such	538	542	O
+sensitivity	543	554	O
+.	554	555	O
+
+Cryo	556	560	B-Task
+-	560	561	I-Task
+FIB	561	564	I-Task
+milling	565	572	I-Task
+has	573	576	O
+recently	577	585	O
+been	586	590	O
+reported	591	599	O
+to	600	602	O
+suppress	603	611	O
+the	612	615	O
+reactions	616	625	O
+between	626	633	O
+the	634	637	O
+Ga	638	640	B-Process
+ion	641	644	I-Process
+beam	645	649	I-Process
+and	650	653	O
+III	654	657	B-Material
+–	657	658	I-Material
+V	658	659	I-Material
+materials	660	669	I-Material
+[	670	671	O
+6	671	672	O
+]	672	673	O
+.	673	674	O
+
+The	675	678	O
+suggested	679	688	O
+advantage	689	698	O
+of	699	701	O
+cryo	702	706	B-Task
+-	706	707	I-Task
+FIB	707	710	I-Task
+milling	711	718	I-Task
+over	719	723	O
+room	724	728	O
+temperature	729	740	O
+milling	741	748	O
+of	749	751	O
+Group	752	757	B-Material
+III	758	761	I-Material
+–	761	762	I-Material
+V	762	763	I-Material
+materials	764	773	I-Material
+is	774	776	O
+appealing	777	786	O
+,	786	787	O
+given	788	793	O
+the	794	797	O
+variety	798	805	O
+of	806	808	O
+present	809	816	O
+and	817	820	O
+potential	821	830	O
+future	831	837	O
+applications	838	850	O
+for	851	854	O
+these	855	860	O
+materials	861	870	O
+(	871	872	O
+e.g.	872	876	O
+,	876	877	O
+as	878	880	O
+electronic	881	891	B-Process
+or	892	894	I-Process
+photonic	895	903	I-Process
+devices	904	911	I-Process
+given	912	917	O
+the	918	921	O
+favorable	922	931	O
+electron	932	940	O
+transport	941	950	O
+and	951	954	O
+direct	955	961	O
+band	962	966	O
+gap	967	970	O
+properties	971	981	O
+associated	982	992	O
+with	993	997	O
+several	998	1005	O
+III	1006	1009	O
+–	1009	1010	O
+V	1010	1011	O
+semiconductor	1012	1025	B-Process
+systems	1026	1033	O
+)	1033	1034	O
+.	1034	1035	O
 
 
 -DOCSTART- (S0257897213003563)
 
-According	NN	O	O
-to	NN	O	O
-the	NN	O	O
-ellipsometric	NN	O	B-Process
-spectra	NN	O	I-Process
-,	NN	O	O
-optical	NN	O	B-Process
-constants	NN	O	I-Process
-and	NN	O	O
-other	NN	O	O
-physical	NN	O	O
-parameters	NN	O	O
-can	NN	O	O
-be	NN	O	O
-extracted	NN	O	O
-by	NN	O	O
-an	NN	O	O
-appropriate	NN	O	O
-fitting	NN	O	O
-model	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-estimate	NN	O	O
-the	NN	O	O
-optical	NN	O	B-Process
-constants	NN	O	I-Process
-/	NN	O	I-Process
-dielectric	NN	O	I-Process
-functions	NN	O	O
-of	NN	O	O
-Ni	NN	O	B-Material
--	NN	O	I-Material
-doped	NN	O	I-Material
-TiO2	NN	O	I-Material
-films	NN	O	I-Material
-,	NN	O	O
-a	NN	O	O
-three	NN	O	B-Process
--	NN	O	I-Process
-phase	NN	O	I-Process
-layered	NN	O	I-Process
-system	NN	O	I-Process
-(	NN	O	O
-air	NN	O	B-Process
-/	NN	O	I-Process
-film	NN	O	I-Process
-/	NN	O	I-Process
-substrate	NN	O	I-Process
-)	NN	O	O
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-was	NN	O	O
-utilized	NN	O	O
-to	NN	O	O
-study	NN	O	O
-the	NN	O	O
-ellipsometric	NN	O	O
-spectra	NN	O	O
-.	NN	O	O
-
-TiO2	NN	O	O
-belongs	NN	O	O
-to	NN	O	O
-the	NN	O	O
-wide	NN	O	O
-band	NN	O	O
-gap	NN	O	O
-semiconductors	NN	O	B-Process
-.	NN	O	O
-
-Considering	NN	O	O
-the	NN	O	O
-contribution	NN	O	O
-of	NN	O	O
-the	NN	O	O
-M0	NN	O	O
-type	NN	O	O
-critical	NN	O	O
-point	NN	O	O
-with	NN	O	O
-the	NN	O	O
-lowest	NN	O	O
-three	NN	O	O
-dimensions	NN	O	O
-,	NN	O	O
-its	NN	O	O
-dielectric	NN	O	O
-function	NN	O	O
-can	NN	O	O
-be	NN	O	O
-calculated	NN	O	O
-by	NN	O	O
-Adachi	NN	O	B-Process
-'s	NN	O	I-Process
-model	NN	O	I-Process
-[	NN	O	O
-15,22,23	NN	O	O
-]	NN	O	O
-:	NN	O	O
-ε(Ε)=ε∞+{A0[2−(1+χ0)1/2−(1−χ0)1/2]}/(EOBG2/3χ02	NN	O	B-Process
-)	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-model	NN	O	O
-,	NN	O	O
-E	NN	O	B-Process
-is	NN	O	O
-the	NN	O	O
-incident	NN	O	B-Process
-photon	NN	O	I-Process
-energy	NN	O	I-Process
-,	NN	O	O
-ε∞	NN	O	B-Process
-is	NN	O	O
-the	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-frequency	NN	O	I-Process
-dielectric	NN	O	I-Process
-constant	NN	O	I-Process
-,	NN	O	O
-χ0=(E+iΓ	NN	O	B-Process
-)	NN	O	I-Process
-,	NN	O	O
-EOBG	NN	O	B-Process
-is	NN	O	O
-the	NN	O	O
-optical	NN	O	O
-gap	NN	O	O
-energy	NN	O	O
-,	NN	O	O
-and	NN	O	O
-A0	NN	O	B-Process
-and	NN	O	I-Process
-Γ	NN	O	I-Process
-are	NN	O	O
-the	NN	O	O
-strength	NN	O	B-Process
-and	NN	O	I-Process
-broadening	NN	O	I-Process
-parameters	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-EOBG	NN	O	B-Process
-transition	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-an	NN	O	O
-example	NN	O	O
-,	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-SE	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-film	NN	O	O
-TN1	NN	O	O
-at	NN	O	O
-an	NN	O	O
-incident	NN	O	O
-angle	NN	O	O
-70	NN	O	O
-°	NN	O	O
-by	NN	O	O
-dot	NN	O	O
-scatter	NN	O	O
-is	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-4	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Fabry	NN	O	B-Material
-–	NN	O	I-Material
-Pérot	NN	O	I-Material
-interference	NN	O	I-Material
-oscillations	NN	O	O
-due	NN	O	O
-to	NN	O	O
-multiple	NN	O	O
-reflections	NN	O	O
-within	NN	O	O
-the	NN	O	O
-film	NN	O	O
-have	NN	O	O
-been	NN	O	O
-found	NN	O	O
-in	NN	O	O
-the	NN	O	O
-photon	NN	O	O
-energy	NN	O	O
-from	NN	O	O
-1.5eV	NN	O	O
-to	NN	O	O
-3.5eV	NN	O	O
-(	NN	O	O
-354nm–826	NN	O	O
-nm	NN	O	O
-)	NN	O	O
-,	NN	O	O
-which	NN	O	O
-indicates	NN	O	O
-that	NN	O	O
-the	NN	O	O
-films	NN	O	O
-are	NN	O	O
-transparent	NN	O	O
-in	NN	O	O
-this	NN	O	O
-region	NN	O	O
-.	NN	O	O
-
-Note	NN	O	O
-that	NN	O	O
-a	NN	O	O
-good	NN	O	O
-agreement	NN	O	O
-of	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-and	NN	O	O
-calculated	NN	O	O
-spectra	NN	O	O
-is	NN	O	O
-attained	NN	O	O
-in	NN	O	O
-the	NN	O	O
-whole	NN	O	O
-measured	NN	O	O
-photon	NN	O	O
-energy	NN	O	O
-range	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-fitting	NN	O	O
-thickness	NN	O	O
-for	NN	O	O
-film	NN	O	O
-TN2	NN	O	O
-is	NN	O	O
-159	NN	O	O
-nm	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-very	NN	O	O
-near	NN	O	O
-to	NN	O	O
-the	NN	O	O
-value	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-SEM	NN	O	B-Process
-(	NN	O	O
-see	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1(b	NN	O	O
-)	NN	O	O
-)	NN	O	O
-.	NN	O	O
+According	0	9	O
+to	10	12	O
+the	13	16	O
+ellipsometric	17	30	B-Process
+spectra	31	38	I-Process
+,	38	39	O
+optical	40	47	B-Process
+constants	48	57	I-Process
+and	58	61	O
+other	62	67	O
+physical	68	76	O
+parameters	77	87	O
+can	88	91	O
+be	92	94	O
+extracted	95	104	O
+by	105	107	O
+an	108	110	O
+appropriate	111	122	O
+fitting	123	130	O
+model	131	136	O
+.	136	137	O
+
+In	138	140	O
+order	141	146	O
+to	147	149	O
+estimate	150	158	O
+the	159	162	O
+optical	163	170	B-Process
+constants	171	180	I-Process
+/	180	181	I-Process
+dielectric	181	191	I-Process
+functions	192	201	O
+of	202	204	O
+Ni	205	207	B-Material
+-	207	208	I-Material
+doped	208	213	I-Material
+TiO2	214	218	I-Material
+films	219	224	I-Material
+,	224	225	O
+a	226	227	O
+three	228	233	B-Process
+-	233	234	I-Process
+phase	234	239	I-Process
+layered	240	247	I-Process
+system	248	254	I-Process
+(	255	256	O
+air	256	259	B-Process
+/	259	260	I-Process
+film	260	264	I-Process
+/	264	265	I-Process
+substrate	265	274	I-Process
+)	274	275	O
+[	276	277	O
+15	277	279	O
+]	279	280	O
+was	281	284	O
+utilized	285	293	O
+to	294	296	O
+study	297	302	O
+the	303	306	O
+ellipsometric	307	320	O
+spectra	321	328	O
+.	328	329	O
+
+TiO2	330	334	O
+belongs	335	342	O
+to	343	345	O
+the	346	349	O
+wide	350	354	O
+band	355	359	O
+gap	360	363	O
+semiconductors	364	378	B-Process
+.	378	379	O
+
+Considering	380	391	O
+the	392	395	O
+contribution	396	408	O
+of	409	411	O
+the	412	415	O
+M0	416	418	O
+type	419	423	O
+critical	424	432	O
+point	433	438	O
+with	439	443	O
+the	444	447	O
+lowest	448	454	O
+three	455	460	O
+dimensions	461	471	O
+,	471	472	O
+its	473	476	O
+dielectric	477	487	O
+function	488	496	O
+can	497	500	O
+be	501	503	O
+calculated	504	514	O
+by	515	517	O
+Adachi	518	524	B-Process
+'s	524	526	I-Process
+model	527	532	I-Process
+[	533	534	O
+15,22,23	534	542	O
+]	542	543	O
+:	543	544	O
+ε(Ε)=ε∞+{A0[2−(1+χ0)1/2−(1−χ0)1/2]}/(EOBG2/3χ02	545	592	B-Process
+)	592	593	I-Process
+.	593	594	O
+
+In	595	597	O
+the	598	601	O
+model	602	607	O
+,	607	608	O
+E	609	610	B-Process
+is	611	613	O
+the	614	617	O
+incident	618	626	B-Process
+photon	627	633	I-Process
+energy	634	640	I-Process
+,	640	641	O
+ε∞	642	644	B-Process
+is	645	647	O
+the	648	651	O
+high	652	656	B-Process
+-	656	657	I-Process
+frequency	657	666	I-Process
+dielectric	667	677	I-Process
+constant	678	686	I-Process
+,	686	687	O
+χ0=(E+iΓ	688	696	B-Process
+)	696	697	I-Process
+,	697	698	O
+EOBG	699	703	B-Process
+is	704	706	O
+the	707	710	O
+optical	711	718	O
+gap	719	722	O
+energy	723	729	O
+,	729	730	O
+and	731	734	O
+A0	735	737	B-Process
+and	738	741	I-Process
+Γ	742	743	I-Process
+are	744	747	O
+the	748	751	O
+strength	752	760	B-Process
+and	761	764	I-Process
+broadening	765	775	I-Process
+parameters	776	786	I-Process
+of	787	789	O
+the	790	793	O
+EOBG	794	798	B-Process
+transition	799	809	O
+,	809	810	O
+respectively	811	823	O
+.	823	824	O
+
+As	825	827	O
+an	828	830	O
+example	831	838	O
+,	838	839	O
+the	840	843	O
+experimental	844	856	O
+SE	857	859	B-Process
+of	860	862	O
+the	863	866	O
+film	867	871	O
+TN1	872	875	O
+at	876	878	O
+an	879	881	O
+incident	882	890	O
+angle	891	896	O
+70	897	899	O
+°	899	900	O
+by	901	903	O
+dot	904	907	O
+scatter	908	915	O
+is	916	918	O
+shown	919	924	O
+in	925	927	O
+Fig	928	931	O
+.	931	932	O
+
+4	933	934	O
+.	934	935	O
+
+The	936	939	O
+Fabry	940	945	B-Material
+–	945	946	I-Material
+Pérot	946	951	I-Material
+interference	952	964	I-Material
+oscillations	965	977	O
+due	978	981	O
+to	982	984	O
+multiple	985	993	O
+reflections	994	1005	O
+within	1006	1012	O
+the	1013	1016	O
+film	1017	1021	O
+have	1022	1026	O
+been	1027	1031	O
+found	1032	1037	O
+in	1038	1040	O
+the	1041	1044	O
+photon	1045	1051	O
+energy	1052	1058	O
+from	1059	1063	O
+1.5eV	1064	1069	O
+to	1070	1072	O
+3.5eV	1073	1078	O
+(	1079	1080	O
+354nm–826	1080	1089	O
+nm	1089	1091	O
+)	1091	1092	O
+,	1092	1093	O
+which	1094	1099	O
+indicates	1100	1109	O
+that	1110	1114	O
+the	1115	1118	O
+films	1119	1124	O
+are	1125	1128	O
+transparent	1129	1140	O
+in	1141	1143	O
+this	1144	1148	O
+region	1149	1155	O
+.	1155	1156	O
+
+Note	1157	1161	O
+that	1162	1166	O
+a	1167	1168	O
+good	1169	1173	O
+agreement	1174	1183	O
+of	1184	1186	O
+the	1187	1190	O
+experimental	1191	1203	O
+and	1204	1207	O
+calculated	1208	1218	O
+spectra	1219	1226	O
+is	1227	1229	O
+attained	1230	1238	O
+in	1239	1241	O
+the	1242	1245	O
+whole	1246	1251	O
+measured	1252	1260	O
+photon	1261	1267	O
+energy	1268	1274	O
+range	1275	1280	O
+.	1280	1281	O
+
+The	1282	1285	O
+fitting	1286	1293	O
+thickness	1294	1303	O
+for	1304	1307	O
+film	1308	1312	O
+TN2	1313	1316	O
+is	1317	1319	O
+159	1320	1323	O
+nm	1323	1325	O
+,	1325	1326	O
+which	1327	1332	O
+is	1333	1335	O
+very	1336	1340	O
+near	1341	1345	O
+to	1346	1348	O
+the	1349	1352	O
+value	1353	1358	O
+obtained	1359	1367	O
+by	1368	1370	O
+SEM	1371	1374	B-Process
+(	1375	1376	O
+see	1376	1379	O
+Fig	1380	1383	O
+.	1383	1384	O
+
+1(b	1385	1388	O
+)	1388	1389	O
+)	1389	1390	O
+.	1390	1391	O
 
 
 -DOCSTART- (S0257897213004131)
 
-Fig	NN	O	O
-.	NN	O	O
-
-7	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-relationship	NN	O	O
-between	NN	O	O
-the	NN	O	O
-testing	NN	O	B-Process
-time	NN	O	I-Process
-and	NN	O	O
-friction	NN	O	B-Process
-coefficients	NN	O	I-Process
-of	NN	O	O
-various	NN	O	O
-samples	NN	O	O
-under	NN	O	O
-dry	NN	O	O
-conditions	NN	O	O
-.	NN	O	O
-
-There	NN	O	O
-exist	NN	O	O
-running	NN	O	O
-in	NN	O	O
-and	NN	O	O
-steady	NN	O	O
-wear	NN	O	O
-period	NN	O	O
-in	NN	O	O
-the	NN	O	O
-wear	NN	O	B-Process
-process	NN	O	I-Process
-of	NN	O	O
-uncoated	NN	O	B-Material
-AZ31	NN	O	I-Material
-and	NN	O	O
-anodizing	NN	O	B-Material
-coating	NN	O	I-Material
-without	NN	O	I-Material
-Al2O3	NN	O	I-Material
-nanoparticles	NN	O	I-Material
-while	NN	O	O
-there	NN	O	O
-has	NN	O	O
-a	NN	O	O
-steady	NN	O	O
-wear	NN	O	O
-period	NN	O	O
-only	NN	O	O
-in	NN	O	O
-the	NN	O	O
-wear	NN	O	B-Process
-process	NN	O	I-Process
-of	NN	O	O
-composite	NN	O	B-Material
-anodizing	NN	O	I-Material
-coating	NN	O	I-Material
-with	NN	O	O
-Al2O3	NN	O	B-Material
-nanoparticles	NN	O	I-Material
-.	NN	O	O
-
-At	NN	O	O
-the	NN	O	O
-same	NN	O	O
-time	NN	O	O
-,	NN	O	O
-the	NN	O	O
-addition	NN	O	O
-of	NN	O	O
-nano	NN	O	B-Material
--	NN	O	I-Material
-particles	NN	O	I-Material
-to	NN	O	O
-electrolyte	NN	O	B-Material
-led	NN	O	O
-to	NN	O	O
-reduction	NN	O	B-Process
-of	NN	O	I-Process
-friction	NN	O	I-Process
-coefficient	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-friction	NN	O	O
-coefficient	NN	O	O
-of	NN	O	O
-composite	NN	O	B-Process
-coating	NN	O	I-Process
-is	NN	O	O
-relatively	NN	O	O
-lower	NN	O	O
-and	NN	O	O
-more	NN	O	O
-stable	NN	O	O
-than	NN	O	O
-what	NN	O	O
-has	NN	O	O
-been	NN	O	O
-reported	NN	O	O
-in	NN	O	O
-literature	NN	O	O
-[	NN	O	O
-24,25	NN	O	O
-]	NN	O	O
-for	NN	O	O
-anodizing	NN	O	B-Material
-coatings	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-may	NN	O	O
-be	NN	O	O
-caused	NN	O	O
-by	NN	O	O
-“	NN	O	B-Process
-rolling	NN	O	I-Process
-effect	NN	O	I-Process
-”	NN	O	I-Process
-made	NN	O	O
-by	NN	O	O
-Al2O3	NN	O	B-Material
-nanoparticles	NN	O	I-Material
-on	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-of	NN	O	O
-oxide	NN	O	O
-coating	NN	O	O
-.	NN	O	O
-
-Spherical	NN	O	B-Material
-nanoparticles	NN	O	I-Material
-change	NN	O	O
-sliding	NN	O	O
-into	NN	O	O
-rolling	NN	O	O
-,	NN	O	O
-which	NN	O	O
-reduce	NN	O	B-Process
-friction	NN	O	I-Process
-,	NN	O	O
-making	NN	O	O
-the	NN	O	O
-friction	NN	O	B-Process
-coefficient	NN	O	I-Process
-becomes	NN	O	O
-more	NN	O	O
-stable	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-friction	NN	O	O
-coefficient	NN	O	O
-of	NN	O	O
-anodizing	NN	O	B-Material
-coating	NN	O	I-Material
-without	NN	O	I-Material
-Al2O3	NN	O	I-Material
-nanoparticles	NN	O	I-Material
-has	NN	O	O
-large	NN	O	O
-fluctuation	NN	O	O
-maybe	NN	O	O
-for	NN	O	O
-the	NN	O	O
-damage	NN	O	O
-of	NN	O	O
-coating	NN	O	B-Process
-.	NN	O	O
-
-In	NN	O	O
-contrast	NN	O	O
-to	NN	O	O
-the	NN	O	O
-uncoated	NN	O	B-Material
-AZ31	NN	O	I-Material
-magnesium	NN	O	I-Material
-alloy	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-anodizing	NN	O	B-Material
-coatings	NN	O	I-Material
-show	NN	O	O
-slightly	NN	O	O
-lower	NN	O	O
-friction	NN	O	B-Process
-coefficient	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-can	NN	O	O
-be	NN	O	O
-attributed	NN	O	O
-to	NN	O	O
-their	NN	O	O
-higher	NN	O	O
-load	NN	O	O
--	NN	O	O
-bearing	NN	O	O
-capacity	NN	O	O
-for	NN	O	O
-high	NN	O	O
-hardness	NN	O	O
-.	NN	O	O
+Fig	0	3	O
+.	3	4	O
+
+7	5	6	O
+shows	7	12	O
+the	13	16	O
+relationship	17	29	O
+between	30	37	O
+the	38	41	O
+testing	42	49	B-Process
+time	50	54	I-Process
+and	55	58	O
+friction	59	67	B-Process
+coefficients	68	80	I-Process
+of	81	83	O
+various	84	91	O
+samples	92	99	O
+under	100	105	O
+dry	106	109	O
+conditions	110	120	O
+.	120	121	O
+
+There	122	127	O
+exist	128	133	O
+running	134	141	O
+in	142	144	O
+and	145	148	O
+steady	149	155	O
+wear	156	160	O
+period	161	167	O
+in	168	170	O
+the	171	174	O
+wear	175	179	B-Process
+process	180	187	I-Process
+of	188	190	O
+uncoated	191	199	B-Material
+AZ31	200	204	I-Material
+and	205	208	O
+anodizing	209	218	B-Material
+coating	219	226	I-Material
+without	227	234	I-Material
+Al2O3	235	240	I-Material
+nanoparticles	241	254	I-Material
+while	255	260	O
+there	261	266	O
+has	267	270	O
+a	271	272	O
+steady	273	279	O
+wear	280	284	O
+period	285	291	O
+only	292	296	O
+in	297	299	O
+the	300	303	O
+wear	304	308	B-Process
+process	309	316	I-Process
+of	317	319	O
+composite	320	329	B-Material
+anodizing	330	339	I-Material
+coating	340	347	I-Material
+with	348	352	O
+Al2O3	353	358	B-Material
+nanoparticles	359	372	I-Material
+.	372	373	O
+
+At	374	376	O
+the	377	380	O
+same	381	385	O
+time	386	390	O
+,	390	391	O
+the	392	395	O
+addition	396	404	O
+of	405	407	O
+nano	408	412	B-Material
+-	412	413	I-Material
+particles	413	422	I-Material
+to	423	425	O
+electrolyte	426	437	B-Material
+led	438	441	O
+to	442	444	O
+reduction	445	454	B-Process
+of	455	457	I-Process
+friction	458	466	I-Process
+coefficient	467	478	I-Process
+.	478	479	O
+
+The	480	483	O
+friction	484	492	O
+coefficient	493	504	O
+of	505	507	O
+composite	508	517	B-Process
+coating	518	525	I-Process
+is	526	528	O
+relatively	529	539	O
+lower	540	545	O
+and	546	549	O
+more	550	554	O
+stable	555	561	O
+than	562	566	O
+what	567	571	O
+has	572	575	O
+been	576	580	O
+reported	581	589	O
+in	590	592	O
+literature	593	603	O
+[	604	605	O
+24,25	605	610	O
+]	610	611	O
+for	612	615	O
+anodizing	616	625	B-Material
+coatings	626	634	I-Material
+.	634	635	O
+
+This	636	640	O
+may	641	644	O
+be	645	647	O
+caused	648	654	O
+by	655	657	O
+“	658	659	B-Process
+rolling	659	666	I-Process
+effect	667	673	I-Process
+”	673	674	I-Process
+made	675	679	O
+by	680	682	O
+Al2O3	683	688	B-Material
+nanoparticles	689	702	I-Material
+on	703	705	O
+the	706	709	O
+surface	710	717	O
+of	718	720	O
+oxide	721	726	O
+coating	727	734	O
+.	734	735	O
+
+Spherical	736	745	B-Material
+nanoparticles	746	759	I-Material
+change	760	766	O
+sliding	767	774	O
+into	775	779	O
+rolling	780	787	O
+,	787	788	O
+which	789	794	O
+reduce	795	801	B-Process
+friction	802	810	I-Process
+,	810	811	O
+making	812	818	O
+the	819	822	O
+friction	823	831	B-Process
+coefficient	832	843	I-Process
+becomes	844	851	O
+more	852	856	O
+stable	857	863	O
+.	863	864	O
+
+The	865	868	O
+friction	869	877	O
+coefficient	878	889	O
+of	890	892	O
+anodizing	893	902	B-Material
+coating	903	910	I-Material
+without	911	918	I-Material
+Al2O3	919	924	I-Material
+nanoparticles	925	938	I-Material
+has	939	942	O
+large	943	948	O
+fluctuation	949	960	O
+maybe	961	966	O
+for	967	970	O
+the	971	974	O
+damage	975	981	O
+of	982	984	O
+coating	985	992	B-Process
+.	992	993	O
+
+In	994	996	O
+contrast	997	1005	O
+to	1006	1008	O
+the	1009	1012	O
+uncoated	1013	1021	B-Material
+AZ31	1022	1026	I-Material
+magnesium	1027	1036	I-Material
+alloy	1037	1042	I-Material
+,	1042	1043	O
+the	1044	1047	O
+anodizing	1048	1057	B-Material
+coatings	1058	1066	I-Material
+show	1067	1071	O
+slightly	1072	1080	O
+lower	1081	1086	O
+friction	1087	1095	B-Process
+coefficient	1096	1107	I-Process
+.	1107	1108	O
+
+This	1109	1113	O
+can	1114	1117	O
+be	1118	1120	O
+attributed	1121	1131	O
+to	1132	1134	O
+their	1135	1140	O
+higher	1141	1147	O
+load	1148	1152	O
+-	1152	1153	O
+bearing	1153	1160	O
+capacity	1161	1169	O
+for	1170	1173	O
+high	1174	1178	O
+hardness	1179	1187	O
+.	1187	1188	O
 
 
 -DOCSTART- (S0263822312000657)
 
-Functionally	NN	O	B-Material
-Graded	NN	O	I-Material
-Materials	NN	O	I-Material
-(	NN	O	O
-FGMs	NN	O	B-Material
-)	NN	O	O
-,	NN	O	O
-described	NN	O	O
-in	NN	O	O
-detail	NN	O	O
-by	NN	O	O
-Suresh	NN	O	O
-and	NN	O	O
-Mortensen	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-,	NN	O	O
-are	NN	O	O
-a	NN	O	O
-type	NN	O	O
-of	NN	O	O
-heterogeneous	NN	O	B-Material
-composite	NN	O	I-Material
-materials	NN	O	I-Material
-exhibiting	NN	O	O
-gradual	NN	O	O
-variation	NN	O	O
-in	NN	O	O
-volume	NN	O	O
-fraction	NN	O	O
-of	NN	O	O
-their	NN	O	O
-constituents	NN	O	O
-from	NN	O	O
-one	NN	O	O
-surface	NN	O	O
-of	NN	O	O
-the	NN	O	O
-material	NN	O	O
-to	NN	O	O
-the	NN	O	O
-other	NN	O	O
-,	NN	O	O
-resulting	NN	O	O
-in	NN	O	O
-properties	NN	O	O
-which	NN	O	O
-vary	NN	O	O
-continuously	NN	O	O
-across	NN	O	O
-the	NN	O	O
-material	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-idea	NN	O	O
-of	NN	O	O
-a	NN	O	O
-Functionally	NN	O	B-Material
-Graded	NN	O	I-Material
-Material	NN	O	I-Material
-is	NN	O	O
-not	NN	O	O
-a	NN	O	O
-new	NN	O	O
-one	NN	O	O
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-in	NN	O	O
-fact	NN	O	O
-many	NN	O	O
-natural	NN	O	O
-materials	NN	O	O
-which	NN	O	O
-exhibit	NN	O	O
-this	NN	O	O
-property	NN	O	O
-.	NN	O	O
-
-Study	NN	O	B-Task
-of	NN	O	I-Task
-bone	NN	O	I-Task
-,	NN	O	I-Task
-shell	NN	O	I-Task
-,	NN	O	I-Task
-balsawood	NN	O	I-Task
-and	NN	O	I-Task
-bamboo	NN	O	I-Task
-shows	NN	O	O
-that	NN	O	O
-they	NN	O	O
-are	NN	O	O
-all	NN	O	O
-graded	NN	O	O
-with	NN	O	O
-their	NN	O	O
-greatest	NN	O	O
-strength	NN	O	O
-on	NN	O	O
-the	NN	O	O
-outside	NN	O	O
-,	NN	O	O
-in	NN	O	O
-areas	NN	O	O
-where	NN	O	O
-the	NN	O	O
-greatest	NN	O	O
-protection	NN	O	O
-is	NN	O	O
-required	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-it	NN	O	O
-was	NN	O	O
-not	NN	O	O
-until	NN	O	O
-the	NN	O	O
-1980s	NN	O	O
-in	NN	O	O
-Japan	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-that	NN	O	O
-the	NN	O	O
-idea	NN	O	O
-of	NN	O	O
-a	NN	O	O
-Functionally	NN	O	B-Material
-Graded	NN	O	I-Material
-Material	NN	O	I-Material
-was	NN	O	O
-actively	NN	O	O
-researched	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-gain	NN	O	O
-advances	NN	O	O
-in	NN	O	O
-heat	NN	O	B-Material
-resistant	NN	O	I-Material
-materials	NN	O	I-Material
-for	NN	O	O
-use	NN	O	O
-in	NN	O	O
-aerospace	NN	O	B-Task
-and	NN	O	O
-nuclear	NN	O	B-Task
-fission	NN	O	I-Task
-reactors	NN	O	I-Task
-.	NN	O	O
+Functionally	0	12	B-Material
+Graded	13	19	I-Material
+Materials	20	29	I-Material
+(	30	31	O
+FGMs	31	35	B-Material
+)	35	36	O
+,	36	37	O
+described	38	47	O
+in	48	50	O
+detail	51	57	O
+by	58	60	O
+Suresh	61	67	O
+and	68	71	O
+Mortensen	72	81	O
+[	82	83	O
+1	83	84	O
+]	84	85	O
+,	85	86	O
+are	87	90	O
+a	91	92	O
+type	93	97	O
+of	98	100	O
+heterogeneous	101	114	B-Material
+composite	115	124	I-Material
+materials	125	134	I-Material
+exhibiting	135	145	O
+gradual	146	153	O
+variation	154	163	O
+in	164	166	O
+volume	167	173	O
+fraction	174	182	O
+of	183	185	O
+their	186	191	O
+constituents	192	204	O
+from	205	209	O
+one	210	213	O
+surface	214	221	O
+of	222	224	O
+the	225	228	O
+material	229	237	O
+to	238	240	O
+the	241	244	O
+other	245	250	O
+,	250	251	O
+resulting	252	261	O
+in	262	264	O
+properties	265	275	O
+which	276	281	O
+vary	282	286	O
+continuously	287	299	O
+across	300	306	O
+the	307	310	O
+material	311	319	O
+.	319	320	O
+
+The	321	324	O
+idea	325	329	O
+of	330	332	O
+a	333	334	O
+Functionally	335	347	B-Material
+Graded	348	354	I-Material
+Material	355	363	I-Material
+is	364	366	O
+not	367	370	O
+a	371	372	O
+new	373	376	O
+one	377	380	O
+,	380	381	O
+there	382	387	O
+are	388	391	O
+in	392	394	O
+fact	395	399	O
+many	400	404	O
+natural	405	412	O
+materials	413	422	O
+which	423	428	O
+exhibit	429	436	O
+this	437	441	O
+property	442	450	O
+.	450	451	O
+
+Study	452	457	B-Task
+of	458	460	I-Task
+bone	461	465	I-Task
+,	465	466	I-Task
+shell	467	472	I-Task
+,	472	473	I-Task
+balsawood	474	483	I-Task
+and	484	487	I-Task
+bamboo	488	494	I-Task
+shows	495	500	O
+that	501	505	O
+they	506	510	O
+are	511	514	O
+all	515	518	O
+graded	519	525	O
+with	526	530	O
+their	531	536	O
+greatest	537	545	O
+strength	546	554	O
+on	555	557	O
+the	558	561	O
+outside	562	569	O
+,	569	570	O
+in	571	573	O
+areas	574	579	O
+where	580	585	O
+the	586	589	O
+greatest	590	598	O
+protection	599	609	O
+is	610	612	O
+required	613	621	O
+.	621	622	O
+
+However	623	630	O
+it	631	633	O
+was	634	637	O
+not	638	641	O
+until	642	647	O
+the	648	651	O
+1980s	652	657	O
+in	658	660	O
+Japan	661	666	O
+[	667	668	O
+2	668	669	O
+]	669	670	O
+that	671	675	O
+the	676	679	O
+idea	680	684	O
+of	685	687	O
+a	688	689	O
+Functionally	690	702	B-Material
+Graded	703	709	I-Material
+Material	710	718	I-Material
+was	719	722	O
+actively	723	731	O
+researched	732	742	O
+in	743	745	O
+order	746	751	O
+to	752	754	O
+gain	755	759	O
+advances	760	768	O
+in	769	771	O
+heat	772	776	B-Material
+resistant	777	786	I-Material
+materials	787	796	I-Material
+for	797	800	O
+use	801	804	O
+in	805	807	O
+aerospace	808	817	B-Task
+and	818	821	O
+nuclear	822	829	B-Task
+fission	830	837	I-Task
+reactors	838	846	I-Task
+.	846	847	O
 
 
 -DOCSTART- (S0263822312001468)
 
-Recently	NN	O	O
-together	NN	O	O
-with	NN	O	O
-structural	NN	O	B-Process
-efficiency	NN	O	I-Process
-,	NN	O	O
-passenger	NN	O	B-Task
-safety	NN	O	I-Task
-is	NN	O	O
-also	NN	O	O
-an	NN	O	O
-important	NN	O	O
-issue	NN	O	O
-in	NN	O	O
-application	NN	O	O
-of	NN	O	O
-material	NN	O	O
-to	NN	O	O
-transportation	NN	O	B-Process
-industries	NN	O	I-Process
-.	NN	O	O
-
-Hence	NN	O	O
-,	NN	O	O
-the	NN	O	O
-crashworthiness	NN	O	B-Material
-parameters	NN	O	I-Material
-are	NN	O	O
-introducing	NN	O	O
-to	NN	O	O
-predict	NN	O	O
-the	NN	O	O
-capability	NN	O	O
-of	NN	O	O
-structure	NN	O	O
-to	NN	O	O
-prevent	NN	O	B-Task
-the	NN	O	I-Task
-massive	NN	O	I-Task
-damage	NN	O	I-Task
-and	NN	O	O
-protect	NN	O	B-Task
-the	NN	O	I-Task
-passenger	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-event	NN	O	O
-of	NN	O	O
-a	NN	O	O
-crash	NN	O	O
-.	NN	O	O
-
-Crashworthiness	NN	O	B-Task
-parameters	NN	O	I-Task
-for	NN	O	O
-various	NN	O	O
-thin	NN	O	O
--	NN	O	O
-walled	NN	O	O
-tubes	NN	O	O
-made	NN	O	O
-from	NN	O	O
-metal	NN	O	B-Material
-or	NN	O	O
-fibre	NN	O	B-Material
-/	NN	O	I-Material
-resin	NN	O	I-Material
-composites	NN	O	I-Material
-in	NN	O	O
-different	NN	O	O
-geometries	NN	O	O
-have	NN	O	O
-been	NN	O	O
-studied	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-critical	NN	O	O
-difference	NN	O	O
-of	NN	O	O
-tubular	NN	O	B-Process
-composites	NN	O	I-Process
-failure	NN	O	I-Process
-modes	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-metallic	NN	O	O
-is	NN	O	O
-the	NN	O	O
-brittle	NN	O	B-Process
-collapse	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-in	NN	O	O
-composites	NN	O	B-Material
-,	NN	O	O
-tubular	NN	O	B-Material
-failure	NN	O	I-Material
-modes	NN	O	I-Material
-are	NN	O	O
-involved	NN	O	O
-with	NN	O	O
-micro	NN	O	B-Process
--	NN	O	I-Process
-cracking	NN	O	I-Process
-development	NN	O	I-Process
-,	NN	O	O
-delamination	NN	O	B-Process
-,	NN	O	O
-fibre	NN	O	B-Process
-breakage	NN	O	I-Process
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-,	NN	O	O
-instead	NN	O	O
-of	NN	O	O
-plastic	NN	O	B-Process
-deformation	NN	O	I-Process
-.	NN	O	O
-
-Implementation	NN	O	B-Task
-of	NN	O	I-Task
-composite	NN	O	I-Task
-materials	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-field	NN	O	O
-of	NN	O	O
-crashworthiness	NN	O	O
-is	NN	O	O
-attributed	NN	O	O
-to	NN	O	O
-Hull	NN	O	O
-,	NN	O	O
-who	NN	O	O
-in	NN	O	O
-80s	NN	O	O
-and	NN	O	O
-90s	NN	O	O
-of	NN	O	O
-the	NN	O	O
-last	NN	O	O
-century	NN	O	O
-studied	NN	O	O
-extensively	NN	O	O
-the	NN	O	O
-crushing	NN	O	B-Process
-behaviour	NN	O	I-Process
-of	NN	O	O
-fibre	NN	O	B-Material
-reinforced	NN	O	I-Material
-composite	NN	O	I-Material
-material	NN	O	I-Material
-.	NN	O	O
-
-He	NN	O	O
-found	NN	O	O
-that	NN	O	O
-the	NN	O	O
-composite	NN	O	B-Material
-materials	NN	O	I-Material
-absorbed	NN	O	O
-high	NN	O	O
-energy	NN	O	O
-in	NN	O	O
-the	NN	O	O
-face	NN	O	O
-of	NN	O	O
-the	NN	O	O
-fracture	NN	O	B-Process
-surface	NN	O	I-Process
-energy	NN	O	I-Process
-mechanism	NN	O	O
-rather	NN	O	O
-than	NN	O	O
-plastic	NN	O	B-Process
-deformation	NN	O	I-Process
-as	NN	O	O
-observed	NN	O	O
-for	NN	O	O
-metals	NN	O	B-Material
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-observation	NN	O	O
-has	NN	O	O
-inspired	NN	O	O
-others	NN	O	O
-to	NN	O	O
-further	NN	O	O
-investigation	NN	O	O
-about	NN	O	O
-crashworthiness	NN	O	B-Process
-characteristics	NN	O	I-Process
-of	NN	O	O
-composite	NN	O	B-Material
-materials	NN	O	I-Material
-.	NN	O	O
-
-Studies	NN	O	O
-have	NN	O	O
-examined	NN	O	O
-the	NN	O	O
-axial	NN	O	B-Process
-crushing	NN	O	I-Process
-behaviour	NN	O	I-Process
-of	NN	O	O
-fibre	NN	O	B-Material
--	NN	O	I-Material
-reinforced	NN	O	I-Material
-tubes	NN	O	I-Material
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-,	NN	O	O
-fibreglass	NN	O	B-Material
-tubes	NN	O	I-Material
-[	NN	O	O
-3,4	NN	O	O
-]	NN	O	O
-,	NN	O	O
-PVC	NN	O	B-Material
-tubes	NN	O	I-Material
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-and	NN	O	O
-carbon	NN	O	B-Material
-fibre	NN	O	I-Material
-reinforced	NN	O	I-Material
-plastic	NN	O	I-Material
-(	NN	O	I-Material
-CFRP	NN	O	I-Material
-)	NN	O	I-Material
-tubes	NN	O	I-Material
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Recently	0	8	O
+together	9	17	O
+with	18	22	O
+structural	23	33	B-Process
+efficiency	34	44	I-Process
+,	44	45	O
+passenger	46	55	B-Task
+safety	56	62	I-Task
+is	63	65	O
+also	66	70	O
+an	71	73	O
+important	74	83	O
+issue	84	89	O
+in	90	92	O
+application	93	104	O
+of	105	107	O
+material	108	116	O
+to	117	119	O
+transportation	120	134	B-Process
+industries	135	145	I-Process
+.	145	146	O
+
+Hence	147	152	O
+,	152	153	O
+the	154	157	O
+crashworthiness	158	173	B-Material
+parameters	174	184	I-Material
+are	185	188	O
+introducing	189	200	O
+to	201	203	O
+predict	204	211	O
+the	212	215	O
+capability	216	226	O
+of	227	229	O
+structure	230	239	O
+to	240	242	O
+prevent	243	250	B-Task
+the	251	254	I-Task
+massive	255	262	I-Task
+damage	263	269	I-Task
+and	270	273	O
+protect	274	281	B-Task
+the	282	285	I-Task
+passenger	286	295	I-Task
+in	296	298	O
+the	299	302	O
+event	303	308	O
+of	309	311	O
+a	312	313	O
+crash	314	319	O
+.	319	320	O
+
+Crashworthiness	321	336	B-Task
+parameters	337	347	I-Task
+for	348	351	O
+various	352	359	O
+thin	360	364	O
+-	364	365	O
+walled	365	371	O
+tubes	372	377	O
+made	378	382	O
+from	383	387	O
+metal	388	393	B-Material
+or	394	396	O
+fibre	397	402	B-Material
+/	402	403	I-Material
+resin	403	408	I-Material
+composites	409	419	I-Material
+in	420	422	O
+different	423	432	O
+geometries	433	443	O
+have	444	448	O
+been	449	453	O
+studied	454	461	O
+.	461	462	O
+
+A	463	464	O
+critical	465	473	O
+difference	474	484	O
+of	485	487	O
+tubular	488	495	B-Process
+composites	496	506	I-Process
+failure	507	514	I-Process
+modes	515	520	O
+compared	521	529	O
+with	530	534	O
+metallic	535	543	O
+is	544	546	O
+the	547	550	O
+brittle	551	558	B-Process
+collapse	559	567	I-Process
+.	567	568	O
+
+In	569	571	O
+addition	572	580	O
+,	580	581	O
+in	582	584	O
+composites	585	595	B-Material
+,	595	596	O
+tubular	597	604	B-Material
+failure	605	612	I-Material
+modes	613	618	I-Material
+are	619	622	O
+involved	623	631	O
+with	632	636	O
+micro	637	642	B-Process
+-	642	643	I-Process
+cracking	643	651	I-Process
+development	652	663	I-Process
+,	663	664	O
+delamination	665	677	B-Process
+,	677	678	O
+fibre	679	684	B-Process
+breakage	685	693	I-Process
+,	693	694	O
+etc	695	698	O
+.	698	699	O
+,	699	700	O
+instead	701	708	O
+of	709	711	O
+plastic	712	719	B-Process
+deformation	720	731	I-Process
+.	731	732	O
+
+Implementation	733	747	B-Task
+of	748	750	I-Task
+composite	751	760	I-Task
+materials	761	770	I-Task
+in	771	773	O
+the	774	777	O
+field	778	783	O
+of	784	786	O
+crashworthiness	787	802	O
+is	803	805	O
+attributed	806	816	O
+to	817	819	O
+Hull	820	824	O
+,	824	825	O
+who	826	829	O
+in	830	832	O
+80s	833	836	O
+and	837	840	O
+90s	841	844	O
+of	845	847	O
+the	848	851	O
+last	852	856	O
+century	857	864	O
+studied	865	872	O
+extensively	873	884	O
+the	885	888	O
+crushing	889	897	B-Process
+behaviour	898	907	I-Process
+of	908	910	O
+fibre	911	916	B-Material
+reinforced	917	927	I-Material
+composite	928	937	I-Material
+material	938	946	I-Material
+.	946	947	O
+
+He	948	950	O
+found	951	956	O
+that	957	961	O
+the	962	965	O
+composite	966	975	B-Material
+materials	976	985	I-Material
+absorbed	986	994	O
+high	995	999	O
+energy	1000	1006	O
+in	1007	1009	O
+the	1010	1013	O
+face	1014	1018	O
+of	1019	1021	O
+the	1022	1025	O
+fracture	1026	1034	B-Process
+surface	1035	1042	I-Process
+energy	1043	1049	I-Process
+mechanism	1050	1059	O
+rather	1060	1066	O
+than	1067	1071	O
+plastic	1072	1079	B-Process
+deformation	1080	1091	I-Process
+as	1092	1094	O
+observed	1095	1103	O
+for	1104	1107	O
+metals	1108	1114	B-Material
+[	1115	1116	O
+1	1116	1117	O
+]	1117	1118	O
+.	1118	1119	O
+
+This	1120	1124	O
+observation	1125	1136	O
+has	1137	1140	O
+inspired	1141	1149	O
+others	1150	1156	O
+to	1157	1159	O
+further	1160	1167	O
+investigation	1168	1181	O
+about	1182	1187	O
+crashworthiness	1188	1203	B-Process
+characteristics	1204	1219	I-Process
+of	1220	1222	O
+composite	1223	1232	B-Material
+materials	1233	1242	I-Material
+.	1242	1243	O
+
+Studies	1244	1251	O
+have	1252	1256	O
+examined	1257	1265	O
+the	1266	1269	O
+axial	1270	1275	B-Process
+crushing	1276	1284	I-Process
+behaviour	1285	1294	I-Process
+of	1295	1297	O
+fibre	1298	1303	B-Material
+-	1303	1304	I-Material
+reinforced	1304	1314	I-Material
+tubes	1315	1320	I-Material
+[	1321	1322	O
+2	1322	1323	O
+]	1323	1324	O
+,	1324	1325	O
+fibreglass	1326	1336	B-Material
+tubes	1337	1342	I-Material
+[	1343	1344	O
+3,4	1344	1347	O
+]	1347	1348	O
+,	1348	1349	O
+PVC	1350	1353	B-Material
+tubes	1354	1359	I-Material
+[	1360	1361	O
+5	1361	1362	O
+]	1362	1363	O
+and	1364	1367	O
+carbon	1368	1374	B-Material
+fibre	1375	1380	I-Material
+reinforced	1381	1391	I-Material
+plastic	1392	1399	I-Material
+(	1400	1401	I-Material
+CFRP	1401	1405	I-Material
+)	1405	1406	I-Material
+tubes	1407	1412	I-Material
+[	1413	1414	O
+6	1414	1415	O
+]	1415	1416	O
+.	1416	1417	O
 
 
 -DOCSTART- (S0301679X13003289)
 
-Nanoparticle	NN	O	B-Process
-Tracking	NN	O	I-Process
-Analysis	NN	O	I-Process
-(	NN	O	O
-NTA	NN	O	B-Process
-)	NN	O	O
-has	NN	O	O
-been	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-characterising	NN	O	O
-soot	NN	O	B-Material
-agglomerates	NN	O	I-Material
-of	NN	O	O
-particles	NN	O	O
-and	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-Transmission	NN	O	B-Process
-Electron	NN	O	I-Process
-Microscoscopy	NN	O	I-Process
-(	NN	O	O
-TEM	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
-
-Soot	NN	O	B-Material
-nanoparticles	NN	O	I-Material
-were	NN	O	O
-extracted	NN	O	O
-from	NN	O	O
-used	NN	O	O
-oil	NN	O	O
-drawn	NN	O	O
-from	NN	O	O
-the	NN	O	O
-sump	NN	O	O
-of	NN	O	O
-a	NN	O	O
-light	NN	O	O
-duty	NN	O	O
-automotive	NN	O	O
-diesel	NN	O	O
-engine	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-samples	NN	O	O
-were	NN	O	O
-prepared	NN	O	O
-for	NN	O	O
-analysis	NN	O	O
-by	NN	O	O
-diluting	NN	O	O
-with	NN	O	O
-heptane	NN	O	B-Material
-.	NN	O	O
-
-Individual	NN	O	O
-tracking	NN	O	O
-of	NN	O	O
-soot	NN	O	B-Material
-agglomerates	NN	O	I-Material
-allows	NN	O	O
-for	NN	O	O
-size	NN	O	B-Process
-distribution	NN	O	I-Process
-analysis	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-size	NN	O	O
-of	NN	O	O
-soot	NN	O	O
-was	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-length	NN	O	O
-measurements	NN	O	O
-of	NN	O	O
-projected	NN	O	O
-two	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-TEM	NN	O	B-Process
-images	NN	O	O
-of	NN	O	O
-agglomerates	NN	O	B-Material
-.	NN	O	O
-
-Both	NN	O	O
-the	NN	O	O
-techniques	NN	O	O
-show	NN	O	O
-that	NN	O	O
-soot	NN	O	O
--	NN	O	O
-in	NN	O	O
--	NN	O	O
-oil	NN	O	O
-exists	NN	O	O
-as	NN	O	O
-agglomerates	NN	O	B-Material
-with	NN	O	O
-average	NN	O	O
-size	NN	O	O
-of	NN	O	O
-120	NN	O	O
-nm	NN	O	O
-.	NN	O	O
-
-NTA	NN	O	B-Process
-is	NN	O	O
-able	NN	O	O
-to	NN	O	O
-measure	NN	O	O
-particles	NN	O	O
-in	NN	O	O
-polydisperse	NN	O	B-Material
-solutions	NN	O	I-Material
-and	NN	O	O
-reports	NN	O	O
-the	NN	O	O
-size	NN	O	O
-and	NN	O	O
-volume	NN	O	O
-distribution	NN	O	O
-of	NN	O	O
-soot	NN	O	B-Material
--	NN	O	I-Material
-in	NN	O	I-Material
--	NN	O	I-Material
-oil	NN	O	I-Material
-aggregates	NN	O	I-Material
-;	NN	O	O
-it	NN	O	O
-has	NN	O	O
-the	NN	O	O
-advantages	NN	O	O
-of	NN	O	O
-being	NN	O	O
-fast	NN	O	O
-and	NN	O	O
-relatively	NN	O	O
-low	NN	O	O
-cost	NN	O	O
-if	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-TEM.Nanoparticle	NN	O	B-Process
-Tracking	NN	O	I-Process
-Analysis	NN	O	I-Process
-(	NN	O	O
-NTA	NN	O	B-Process
-)	NN	O	O
-has	NN	O	O
-been	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-characterising	NN	O	O
-soot	NN	O	O
-agglomerates	NN	O	O
-of	NN	O	O
-particles	NN	O	O
-and	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-Transmission	NN	O	B-Process
-Electron	NN	O	I-Process
-Microscoscopy	NN	O	I-Process
-(	NN	O	O
-TEM	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
-
-Soot	NN	O	O
-nanoparticles	NN	O	O
-were	NN	O	O
-extracted	NN	O	O
-from	NN	O	O
-used	NN	O	O
-oil	NN	O	O
-drawn	NN	O	O
-from	NN	O	O
-the	NN	O	O
-sump	NN	O	O
-of	NN	O	O
-a	NN	O	O
-light	NN	O	O
-duty	NN	O	O
-automotive	NN	O	O
-diesel	NN	O	O
-engine	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-samples	NN	O	O
-were	NN	O	O
-prepared	NN	O	O
-for	NN	O	O
-analysis	NN	O	O
-by	NN	O	O
-diluting	NN	O	O
-with	NN	O	O
-heptane	NN	O	B-Material
-.	NN	O	O
-
-Individual	NN	O	O
-tracking	NN	O	O
-of	NN	O	O
-soot	NN	O	B-Material
-agglomerates	NN	O	I-Material
-allows	NN	O	O
-for	NN	O	O
-size	NN	O	B-Process
-distribution	NN	O	I-Process
-analysis	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-size	NN	O	O
-of	NN	O	O
-soot	NN	O	O
-was	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-length	NN	O	O
-measurements	NN	O	O
-of	NN	O	O
-projected	NN	O	O
-two	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-TEM	NN	O	B-Process
-images	NN	O	O
-of	NN	O	O
-agglomerates	NN	O	B-Material
-.	NN	O	O
-
-Both	NN	O	O
-the	NN	O	O
-techniques	NN	O	O
-show	NN	O	O
-that	NN	O	O
-soot	NN	O	O
--	NN	O	O
-in	NN	O	O
--	NN	O	O
-oil	NN	O	O
-exists	NN	O	O
-as	NN	O	O
-agglomerates	NN	O	B-Material
-with	NN	O	O
-average	NN	O	O
-size	NN	O	O
-of	NN	O	O
-120	NN	O	O
-nm	NN	O	O
-.	NN	O	O
-
-NTA	NN	O	B-Process
-is	NN	O	O
-able	NN	O	O
-to	NN	O	O
-measure	NN	O	O
-particles	NN	O	O
-in	NN	O	O
-polydisperse	NN	O	B-Material
-solutions	NN	O	I-Material
-and	NN	O	O
-reports	NN	O	O
-the	NN	O	O
-size	NN	O	O
-and	NN	O	O
-volume	NN	O	O
-distribution	NN	O	O
-of	NN	O	O
-soot	NN	O	B-Material
--	NN	O	I-Material
-in	NN	O	I-Material
--	NN	O	I-Material
-oil	NN	O	I-Material
-aggregates	NN	O	I-Material
-;	NN	O	O
-it	NN	O	O
-has	NN	O	O
-the	NN	O	O
-advantages	NN	O	O
-of	NN	O	O
-being	NN	O	O
-fast	NN	O	O
-and	NN	O	O
-relatively	NN	O	O
-low	NN	O	O
-cost	NN	O	O
-if	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-TEM	NN	O	B-Process
-.	NN	O	O
+Nanoparticle	0	12	B-Process
+Tracking	13	21	I-Process
+Analysis	22	30	I-Process
+(	31	32	O
+NTA	32	35	B-Process
+)	35	36	O
+has	37	40	O
+been	41	45	O
+applied	46	53	O
+to	54	56	O
+characterising	57	71	O
+soot	72	76	B-Material
+agglomerates	77	89	I-Material
+of	90	92	O
+particles	93	102	O
+and	103	106	O
+compared	107	115	O
+with	116	120	O
+Transmission	121	133	B-Process
+Electron	134	142	I-Process
+Microscoscopy	143	156	I-Process
+(	157	158	O
+TEM	158	161	B-Process
+)	161	162	O
+.	162	163	O
+
+Soot	164	168	B-Material
+nanoparticles	169	182	I-Material
+were	183	187	O
+extracted	188	197	O
+from	198	202	O
+used	203	207	O
+oil	208	211	O
+drawn	212	217	O
+from	218	222	O
+the	223	226	O
+sump	227	231	O
+of	232	234	O
+a	235	236	O
+light	237	242	O
+duty	243	247	O
+automotive	248	258	O
+diesel	259	265	O
+engine	266	272	O
+.	272	273	O
+
+The	274	277	O
+samples	278	285	O
+were	286	290	O
+prepared	291	299	O
+for	300	303	O
+analysis	304	312	O
+by	313	315	O
+diluting	316	324	O
+with	325	329	O
+heptane	330	337	B-Material
+.	337	338	O
+
+Individual	339	349	O
+tracking	350	358	O
+of	359	361	O
+soot	362	366	B-Material
+agglomerates	367	379	I-Material
+allows	380	386	O
+for	387	390	O
+size	391	395	B-Process
+distribution	396	408	I-Process
+analysis	409	417	I-Process
+.	417	418	O
+
+The	419	422	O
+size	423	427	O
+of	428	430	O
+soot	431	435	O
+was	436	439	O
+compared	440	448	O
+with	449	453	O
+length	454	460	O
+measurements	461	473	O
+of	474	476	O
+projected	477	486	O
+two	487	490	O
+-	490	491	O
+dimensional	491	502	O
+TEM	503	506	B-Process
+images	507	513	O
+of	514	516	O
+agglomerates	517	529	B-Material
+.	529	530	O
+
+Both	531	535	O
+the	536	539	O
+techniques	540	550	O
+show	551	555	O
+that	556	560	O
+soot	561	565	O
+-	565	566	O
+in	566	568	O
+-	568	569	O
+oil	569	572	O
+exists	573	579	O
+as	580	582	O
+agglomerates	583	595	B-Material
+with	596	600	O
+average	601	608	O
+size	609	613	O
+of	614	616	O
+120	617	620	O
+nm	620	622	O
+.	622	623	O
+
+NTA	624	627	B-Process
+is	628	630	O
+able	631	635	O
+to	636	638	O
+measure	639	646	O
+particles	647	656	O
+in	657	659	O
+polydisperse	660	672	B-Material
+solutions	673	682	I-Material
+and	683	686	O
+reports	687	694	O
+the	695	698	O
+size	699	703	O
+and	704	707	O
+volume	708	714	O
+distribution	715	727	O
+of	728	730	O
+soot	731	735	B-Material
+-	735	736	I-Material
+in	736	738	I-Material
+-	738	739	I-Material
+oil	739	742	I-Material
+aggregates	743	753	I-Material
+;	753	754	O
+it	755	757	O
+has	758	761	O
+the	762	765	O
+advantages	766	776	O
+of	777	779	O
+being	780	785	O
+fast	786	790	O
+and	791	794	O
+relatively	795	805	O
+low	806	809	O
+cost	810	814	O
+if	815	817	O
+compared	818	826	O
+with	827	831	O
+TEM.Nanoparticle	832	848	B-Process
+Tracking	849	857	I-Process
+Analysis	858	866	I-Process
+(	867	868	O
+NTA	868	871	B-Process
+)	871	872	O
+has	873	876	O
+been	877	881	O
+applied	882	889	O
+to	890	892	O
+characterising	893	907	O
+soot	908	912	O
+agglomerates	913	925	O
+of	926	928	O
+particles	929	938	O
+and	939	942	O
+compared	943	951	O
+with	952	956	O
+Transmission	957	969	B-Process
+Electron	970	978	I-Process
+Microscoscopy	979	992	I-Process
+(	993	994	O
+TEM	994	997	B-Process
+)	997	998	O
+.	998	999	O
+
+Soot	1000	1004	O
+nanoparticles	1005	1018	O
+were	1019	1023	O
+extracted	1024	1033	O
+from	1034	1038	O
+used	1039	1043	O
+oil	1044	1047	O
+drawn	1048	1053	O
+from	1054	1058	O
+the	1059	1062	O
+sump	1063	1067	O
+of	1068	1070	O
+a	1071	1072	O
+light	1073	1078	O
+duty	1079	1083	O
+automotive	1084	1094	O
+diesel	1095	1101	O
+engine	1102	1108	O
+.	1108	1109	O
+
+The	1110	1113	O
+samples	1114	1121	O
+were	1122	1126	O
+prepared	1127	1135	O
+for	1136	1139	O
+analysis	1140	1148	O
+by	1149	1151	O
+diluting	1152	1160	O
+with	1161	1165	O
+heptane	1166	1173	B-Material
+.	1173	1174	O
+
+Individual	1175	1185	O
+tracking	1186	1194	O
+of	1195	1197	O
+soot	1198	1202	B-Material
+agglomerates	1203	1215	I-Material
+allows	1216	1222	O
+for	1223	1226	O
+size	1227	1231	B-Process
+distribution	1232	1244	I-Process
+analysis	1245	1253	I-Process
+.	1253	1254	O
+
+The	1255	1258	O
+size	1259	1263	O
+of	1264	1266	O
+soot	1267	1271	O
+was	1272	1275	O
+compared	1276	1284	O
+with	1285	1289	O
+length	1290	1296	O
+measurements	1297	1309	O
+of	1310	1312	O
+projected	1313	1322	O
+two	1323	1326	O
+-	1326	1327	O
+dimensional	1327	1338	O
+TEM	1339	1342	B-Process
+images	1343	1349	O
+of	1350	1352	O
+agglomerates	1353	1365	B-Material
+.	1365	1366	O
+
+Both	1367	1371	O
+the	1372	1375	O
+techniques	1376	1386	O
+show	1387	1391	O
+that	1392	1396	O
+soot	1397	1401	O
+-	1401	1402	O
+in	1402	1404	O
+-	1404	1405	O
+oil	1405	1408	O
+exists	1409	1415	O
+as	1416	1418	O
+agglomerates	1419	1431	B-Material
+with	1432	1436	O
+average	1437	1444	O
+size	1445	1449	O
+of	1450	1452	O
+120	1453	1456	O
+nm	1456	1458	O
+.	1458	1459	O
+
+NTA	1460	1463	B-Process
+is	1464	1466	O
+able	1467	1471	O
+to	1472	1474	O
+measure	1475	1482	O
+particles	1483	1492	O
+in	1493	1495	O
+polydisperse	1496	1508	B-Material
+solutions	1509	1518	I-Material
+and	1519	1522	O
+reports	1523	1530	O
+the	1531	1534	O
+size	1535	1539	O
+and	1540	1543	O
+volume	1544	1550	O
+distribution	1551	1563	O
+of	1564	1566	O
+soot	1567	1571	B-Material
+-	1571	1572	I-Material
+in	1572	1574	I-Material
+-	1574	1575	I-Material
+oil	1575	1578	I-Material
+aggregates	1579	1589	I-Material
+;	1589	1590	O
+it	1591	1593	O
+has	1594	1597	O
+the	1598	1601	O
+advantages	1602	1612	O
+of	1613	1615	O
+being	1616	1621	O
+fast	1622	1626	O
+and	1627	1630	O
+relatively	1631	1641	O
+low	1642	1645	O
+cost	1646	1650	O
+if	1651	1653	O
+compared	1654	1662	O
+with	1663	1667	O
+TEM	1668	1671	B-Process
+.	1671	1672	O
 
 
 -DOCSTART- (S0301679X14000449)
 
-Fig	NN	O	O
-.	NN	O	O
-
-11	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-wear	NN	O	B-Material
--	NN	O	I-Material
-mode	NN	O	I-Material
-map	NN	O	I-Material
-of	NN	O	O
-RH	NN	O	O
-ceramics	NN	O	O
-,	NN	O	O
-in	NN	O	O
-which	NN	O	O
-the	NN	O	O
-early	NN	O	O
--	NN	O	O
-stage	NN	O	O
-friction	NN	O	O
-coefficients	NN	O	O
-and	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-roughness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-pure	NN	O	O
-surface	NN	O	O
-were	NN	O	O
-chosen	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-value	NN	O	O
-of	NN	O	O
-the	NN	O	O
-fracture	NN	O	O
-toughness	NN	O	O
-of	NN	O	O
-RH	NN	O	O
-ceramics	NN	O	O
-was	NN	O	O
-calculated	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-reference	NN	O	O
-data	NN	O	O
-in	NN	O	O
-other	NN	O	O
-literature	NN	O	O
-[	NN	O	O
-22	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Sc	NN	O	O
-of	NN	O	O
-RH	NN	O	O
-ceramics	NN	O	O
-was	NN	O	O
-smaller	NN	O	O
-than	NN	O	O
-Sc	NN	O	O
-,	NN	O	O
-critical	NN	O	O
-under	NN	O	O
-all	NN	O	O
-tested	NN	O	O
-conditions	NN	O	O
-during	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-stage	NN	O	O
-of	NN	O	O
-friction	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-wear	NN	O	O
-mode	NN	O	O
-of	NN	O	O
-RH	NN	O	O
-ceramics	NN	O	O
-was	NN	O	O
-powder	NN	O	B-Process
-formation	NN	O	I-Process
-or	NN	O	O
-plowing	NN	O	B-Process
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-powder	NN	O	B-Process
-formation	NN	O	I-Process
-and	NN	O	O
-plowing	NN	O	B-Process
-can	NN	O	O
-be	NN	O	O
-distinguished	NN	O	O
-using	NN	O	O
-a	NN	O	O
-dimensionless	NN	O	B-Material
-parameter	NN	O	I-Material
-(	NN	O	O
-Sc⁎	NN	O	B-Material
-)	NN	O	O
-and	NN	O	O
-a	NN	O	O
-critical	NN	O	B-Material
-parameter	NN	O	I-Material
-(	NN	O	O
-Sc	NN	O	B-Material
-,	NN	O	I-Material
-critical⁎).(3)Sc⁎=HvRmaxKIc(4)Sc	NN	O	I-Material
-,	NN	O	I-Process
-critical⁎=51	NN	O	I-Process
-+	NN	O	I-Process
-10μwhere	NN	O	I-Process
-
-Hv	NN	O	O
-is	NN	O	O
-the	NN	O	O
-Vickers	NN	O	B-Process
-hardness	NN	O	I-Process
-of	NN	O	O
-RH	NN	O	O
-ceramics	NN	O	O
-
-[	NN	O	O
-Pa	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-initial	NN	O	O
-wear	NN	O	O
-mode	NN	O	O
-of	NN	O	O
-RH	NN	O	O
-ceramics	NN	O	O
-was	NN	O	O
-determined	NN	O	O
-as	NN	O	O
-powder	NN	O	B-Process
-formation	NN	O	I-Process
-under	NN	O	O
-all	NN	O	O
-tested	NN	O	O
-conditions	NN	O	O
-,	NN	O	O
-as	NN	O	O
-demonstrated	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-12(a	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-the	NN	O	O
-wear	NN	O	O
--	NN	O	O
-mode	NN	O	O
-map	NN	O	O
-at	NN	O	O
-2×104	NN	O	O
-cycles	NN	O	O
-was	NN	O	O
-constructed	NN	O	O
-,	NN	O	O
-as	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-12(b	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-map	NN	O	O
-,	NN	O	O
-all	NN	O	O
-plots	NN	O	O
-moved	NN	O	O
-near	NN	O	O
-the	NN	O	O
-transition	NN	O	O
-curve	NN	O	O
-to	NN	O	O
-plowing	NN	O	B-Process
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-the	NN	O	O
-plots	NN	O	O
-for	NN	O	O
-RH	NN	O	O
-ceramics	NN	O	O
-sliding	NN	O	O
-against	NN	O	O
-stainless	NN	O	B-Material
-steel	NN	O	I-Material
-or	NN	O	O
-Al2O3	NN	O	B-Material
-balls	NN	O	I-Material
-were	NN	O	O
-nearer	NN	O	O
-than	NN	O	O
-SiC	NN	O	B-Material
-or	NN	O	I-Material
-Si3N4	NN	O	I-Material
-balls	NN	O	I-Material
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-RH	NN	O	O
-ceramics	NN	O	O
-sliding	NN	O	O
-against	NN	O	O
-SiC	NN	O	B-Material
-and	NN	O	I-Material
-Si3N4	NN	O	I-Material
-balls	NN	O	I-Material
-showed	NN	O	O
-relatively	NN	O	O
-higher	NN	O	O
-wear	NN	O	O
-than	NN	O	O
-the	NN	O	O
-other	NN	O	O
-counterpart	NN	O	O
-materials	NN	O	O
-.	NN	O	O
-
-Nevertheless	NN	O	O
-,	NN	O	O
-these	NN	O	O
-results	NN	O	O
-from	NN	O	O
-the	NN	O	O
-wear	NN	O	B-Material
--	NN	O	I-Material
-mode	NN	O	I-Material
-maps	NN	O	I-Material
-indicated	NN	O	O
-that	NN	O	O
-the	NN	O	O
-wear	NN	O	O
-mode	NN	O	O
-of	NN	O	O
-RH	NN	O	O
-ceramics	NN	O	O
-was	NN	O	O
-powder	NN	O	B-Process
-formation	NN	O	I-Process
-accompanied	NN	O	O
-with	NN	O	O
-microcracks	NN	O	O
-under	NN	O	O
-all	NN	O	O
-tested	NN	O	O
-conditions	NN	O	O
-in	NN	O	O
-this	NN	O	O
-study	NN	O	O
-,	NN	O	O
-resulting	NN	O	O
-in	NN	O	O
-low	NN	O	O
-wear	NN	O	O
-(	NN	O	O
-<	NN	O	O
-5×10−9mm2/N	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Indeed	NN	O	O
-,	NN	O	O
-the	NN	O	O
-observation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-worn	NN	O	O
-surfaces	NN	O	O
-revealed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-catastrophic	NN	O	O
-wear	NN	O	O
-of	NN	O	O
-RH	NN	O	O
-ceramics	NN	O	O
-accompanied	NN	O	O
-by	NN	O	O
-large	NN	O	O
-brittle	NN	O	O
-fracture	NN	O	O
-was	NN	O	O
-prevented	NN	O	O
-overall	NN	O	O
-,	NN	O	O
-as	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-13	NN	O	O
-.	NN	O	O
+Fig	0	3	O
+.	3	4	O
+
+11	5	7	O
+shows	8	13	O
+the	14	17	O
+wear	18	22	B-Material
+-	22	23	I-Material
+mode	23	27	I-Material
+map	28	31	I-Material
+of	32	34	O
+RH	35	37	O
+ceramics	38	46	O
+,	46	47	O
+in	48	50	O
+which	51	56	O
+the	57	60	O
+early	61	66	O
+-	66	67	O
+stage	67	72	O
+friction	73	81	O
+coefficients	82	94	O
+and	95	98	O
+the	99	102	O
+surface	103	110	O
+roughness	111	120	O
+of	121	123	O
+the	124	127	O
+pure	128	132	O
+surface	133	140	O
+were	141	145	O
+chosen	146	152	O
+.	152	153	O
+
+The	154	157	O
+value	158	163	O
+of	164	166	O
+the	167	170	O
+fracture	171	179	O
+toughness	180	189	O
+of	190	192	O
+RH	193	195	O
+ceramics	196	204	O
+was	205	208	O
+calculated	209	219	O
+based	220	225	O
+on	226	228	O
+the	229	232	O
+reference	233	242	O
+data	243	247	O
+in	248	250	O
+other	251	256	O
+literature	257	267	O
+[	268	269	O
+22	269	271	O
+]	271	272	O
+.	272	273	O
+
+The	274	277	O
+Sc	278	280	O
+of	281	283	O
+RH	284	286	O
+ceramics	287	295	O
+was	296	299	O
+smaller	300	307	O
+than	308	312	O
+Sc	313	315	O
+,	315	316	O
+critical	316	324	O
+under	325	330	O
+all	331	334	O
+tested	335	341	O
+conditions	342	352	O
+during	353	359	O
+the	360	363	O
+initial	364	371	O
+stage	372	377	O
+of	378	380	O
+friction	381	389	O
+.	389	390	O
+
+Thus	391	395	O
+,	395	396	O
+the	397	400	O
+initial	401	408	O
+wear	409	413	O
+mode	414	418	O
+of	419	421	O
+RH	422	424	O
+ceramics	425	433	O
+was	434	437	O
+powder	438	444	B-Process
+formation	445	454	I-Process
+or	455	457	O
+plowing	458	465	B-Process
+.	465	466	O
+
+In	467	469	O
+addition	470	478	O
+,	478	479	O
+powder	480	486	B-Process
+formation	487	496	I-Process
+and	497	500	O
+plowing	501	508	B-Process
+can	509	512	O
+be	513	515	O
+distinguished	516	529	O
+using	530	535	O
+a	536	537	O
+dimensionless	538	551	B-Material
+parameter	552	561	I-Material
+(	562	563	O
+Sc⁎	563	566	B-Material
+)	566	567	O
+and	568	571	O
+a	572	573	O
+critical	574	582	B-Material
+parameter	583	592	I-Material
+(	593	594	O
+Sc	594	596	B-Material
+,	596	597	I-Material
+critical⁎).(3)Sc⁎=HvRmaxKIc(4)Sc	597	629	I-Material
+,	629	630	I-Process
+critical⁎=51	630	642	I-Process
++	642	643	I-Process
+10μwhere	643	651	I-Process
+
+Hv	652	654	O
+is	655	657	O
+the	658	661	O
+Vickers	662	669	B-Process
+hardness	670	678	I-Process
+of	679	681	O
+RH	682	684	O
+ceramics	685	693	O
+
+[	694	695	O
+Pa	695	697	O
+]	697	698	O
+.	698	699	O
+
+The	700	703	O
+initial	704	711	O
+wear	712	716	O
+mode	717	721	O
+of	722	724	O
+RH	725	727	O
+ceramics	728	736	O
+was	737	740	O
+determined	741	751	O
+as	752	754	O
+powder	755	761	B-Process
+formation	762	771	I-Process
+under	772	777	O
+all	778	781	O
+tested	782	788	O
+conditions	789	799	O
+,	799	800	O
+as	801	803	O
+demonstrated	804	816	O
+in	817	819	O
+Fig	820	823	O
+.	823	824	O
+
+12(a	825	829	O
+)	829	830	O
+.	830	831	O
+
+Furthermore	832	843	O
+,	843	844	O
+the	845	848	O
+wear	849	853	O
+-	853	854	O
+mode	854	858	O
+map	859	862	O
+at	863	865	O
+2×104	866	871	O
+cycles	872	878	O
+was	879	882	O
+constructed	883	894	O
+,	894	895	O
+as	896	898	O
+shown	899	904	O
+in	905	907	O
+Fig	908	911	O
+.	911	912	O
+
+12(b	913	917	O
+)	917	918	O
+.	918	919	O
+
+In	920	922	O
+the	923	926	O
+map	927	930	O
+,	930	931	O
+all	932	935	O
+plots	936	941	O
+moved	942	947	O
+near	948	952	O
+the	953	956	O
+transition	957	967	O
+curve	968	973	O
+to	974	976	O
+plowing	977	984	B-Process
+.	984	985	O
+
+In	986	988	O
+particular	989	999	O
+,	999	1000	O
+the	1001	1004	O
+plots	1005	1010	O
+for	1011	1014	O
+RH	1015	1017	O
+ceramics	1018	1026	O
+sliding	1027	1034	O
+against	1035	1042	O
+stainless	1043	1052	B-Material
+steel	1053	1058	I-Material
+or	1059	1061	O
+Al2O3	1062	1067	B-Material
+balls	1068	1073	I-Material
+were	1074	1078	O
+nearer	1079	1085	O
+than	1086	1090	O
+SiC	1091	1094	B-Material
+or	1095	1097	I-Material
+Si3N4	1098	1103	I-Material
+balls	1104	1109	I-Material
+.	1109	1110	O
+
+Therefore	1111	1120	O
+,	1120	1121	O
+RH	1122	1124	O
+ceramics	1125	1133	O
+sliding	1134	1141	O
+against	1142	1149	O
+SiC	1150	1153	B-Material
+and	1154	1157	I-Material
+Si3N4	1158	1163	I-Material
+balls	1164	1169	I-Material
+showed	1170	1176	O
+relatively	1177	1187	O
+higher	1188	1194	O
+wear	1195	1199	O
+than	1200	1204	O
+the	1205	1208	O
+other	1209	1214	O
+counterpart	1215	1226	O
+materials	1227	1236	O
+.	1236	1237	O
+
+Nevertheless	1238	1250	O
+,	1250	1251	O
+these	1252	1257	O
+results	1258	1265	O
+from	1266	1270	O
+the	1271	1274	O
+wear	1275	1279	B-Material
+-	1279	1280	I-Material
+mode	1280	1284	I-Material
+maps	1285	1289	I-Material
+indicated	1290	1299	O
+that	1300	1304	O
+the	1305	1308	O
+wear	1309	1313	O
+mode	1314	1318	O
+of	1319	1321	O
+RH	1322	1324	O
+ceramics	1325	1333	O
+was	1334	1337	O
+powder	1338	1344	B-Process
+formation	1345	1354	I-Process
+accompanied	1355	1366	O
+with	1367	1371	O
+microcracks	1372	1383	O
+under	1384	1389	O
+all	1390	1393	O
+tested	1394	1400	O
+conditions	1401	1411	O
+in	1412	1414	O
+this	1415	1419	O
+study	1420	1425	O
+,	1425	1426	O
+resulting	1427	1436	O
+in	1437	1439	O
+low	1440	1443	O
+wear	1444	1448	O
+(	1449	1450	O
+<	1450	1451	O
+5×10−9mm2/N	1451	1462	O
+)	1462	1463	O
+.	1463	1464	O
+
+Indeed	1465	1471	O
+,	1471	1472	O
+the	1473	1476	O
+observation	1477	1488	O
+of	1489	1491	O
+the	1492	1495	O
+worn	1496	1500	O
+surfaces	1501	1509	O
+revealed	1510	1518	O
+that	1519	1523	O
+the	1524	1527	O
+catastrophic	1528	1540	O
+wear	1541	1545	O
+of	1546	1548	O
+RH	1549	1551	O
+ceramics	1552	1560	O
+accompanied	1561	1572	O
+by	1573	1575	O
+large	1576	1581	O
+brittle	1582	1589	O
+fracture	1590	1598	O
+was	1599	1602	O
+prevented	1603	1612	O
+overall	1613	1620	O
+,	1620	1621	O
+as	1622	1624	O
+shown	1625	1630	O
+in	1631	1633	O
+Fig	1634	1637	O
+.	1637	1638	O
+
+13	1639	1641	O
+.	1641	1642	O
 
 
 -DOCSTART- (S0301679X14003272)
 
-The	NN	O	O
-lateral	NN	O	B-Task
-force	NN	O	I-Task
-,	NN	O	I-Task
-Q	NN	O	I-Task
-,	NN	O	I-Task
-is	NN	O	I-Task
-measured	NN	O	I-Task
-and	NN	O	I-Task
-recorded	NN	O	I-Task
-throughout	NN	O	O
-the	NN	O	O
-entire	NN	O	O
-test	NN	O	O
-by	NN	O	O
-a	NN	O	O
-piezoelectric	NN	O	B-Process
-load	NN	O	I-Process
-cell	NN	O	I-Process
-which	NN	O	O
-is	NN	O	O
-connected	NN	O	O
-to	NN	O	O
-the	NN	O	O
-quasi	NN	O	O
--	NN	O	O
-stationary	NN	O	O
-LSMB	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-LSMB	NN	O	B-Process
-is	NN	O	O
-mounted	NN	O	O
-on	NN	O	O
-flexures	NN	O	B-Material
-which	NN	O	O
-provide	NN	O	O
-flexibility	NN	O	O
-in	NN	O	O
-the	NN	O	O
-horizontal	NN	O	O
-direction	NN	O	O
-so	NN	O	O
-that	NN	O	O
-the	NN	O	O
-majority	NN	O	O
-of	NN	O	O
-the	NN	O	O
-lateral	NN	O	O
-force	NN	O	O
-is	NN	O	O
-transmitted	NN	O	O
-though	NN	O	O
-the	NN	O	O
-much	NN	O	O
-stiffer	NN	O	O
-load	NN	O	O
-path	NN	O	O
-which	NN	O	O
-contains	NN	O	O
-the	NN	O	O
-load	NN	O	B-Process
-cell	NN	O	I-Process
-as	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-2	NN	O	O
-.	NN	O	O
-
-Both	NN	O	O
-displacement	NN	O	B-Process
-and	NN	O	I-Process
-load	NN	O	I-Process
-sensors	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-calibrated	NN	O	O
-(	NN	O	O
-both	NN	O	O
-externally	NN	O	O
-and	NN	O	O
-in	NN	O	O
--	NN	O	O
-situ	NN	O	O
-)	NN	O	O
-in	NN	O	O
-static	NN	O	O
-conditions	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-load	NN	O	O
-and	NN	O	O
-displacement	NN	O	O
-signals	NN	O	O
-are	NN	O	O
-sampled	NN	O	O
-at	NN	O	O
-a	NN	O	O
-rate	NN	O	O
-of	NN	O	O
-two	NN	O	O
-hundred	NN	O	O
-measurements	NN	O	O
-per	NN	O	O
-fretting	NN	O	O
-cycle	NN	O	O
-at	NN	O	O
-all	NN	O	O
-fretting	NN	O	O
-frequencies	NN	O	O
-,	NN	O	O
-with	NN	O	O
-these	NN	O	O
-data	NN	O	O
-being	NN	O	O
-used	NN	O	O
-to	NN	O	O
-generate	NN	O	O
-fretting	NN	O	B-Material
-loops	NN	O	I-Material
-.	NN	O	I-Material
-
-The	NN	O	O
-loops	NN	O	O
-were	NN	O	O
-used	NN	O	O
-to	NN	O	O
-derive	NN	O	O
-the	NN	O	O
-contact	NN	O	O
-slip	NN	O	O
-amplitude	NN	O	O
-and	NN	O	O
-the	NN	O	O
-energy	NN	O	O
-coefficient	NN	O	O
-of	NN	O	O
-friction	NN	O	O
-in	NN	O	O
-each	NN	O	O
-cycle	NN	O	O
-according	NN	O	O
-to	NN	O	O
-the	NN	O	O
-method	NN	O	O
-suggested	NN	O	O
-by	NN	O	O
-Fouvry	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Average	NN	O	O
-values	NN	O	O
-for	NN	O	O
-these	NN	O	O
-were	NN	O	O
-calculated	NN	O	O
-for	NN	O	O
-each	NN	O	O
-test	NN	O	O
-(	NN	O	O
-the	NN	O	O
-average	NN	O	O
-coefficient	NN	O	O
-of	NN	O	O
-friction	NN	O	O
-included	NN	O	O
-values	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-transients	NN	O	O
-in	NN	O	O
-the	NN	O	O
-tests	NN	O	O
-as	NN	O	O
-suggested	NN	O	O
-by	NN	O	O
-Hirsch	NN	O	O
-and	NN	O	O
-Neu	NN	O	O
-
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
+The	0	3	O
+lateral	4	11	B-Task
+force	12	17	I-Task
+,	17	18	I-Task
+Q	19	20	I-Task
+,	20	21	I-Task
+is	22	24	I-Task
+measured	25	33	I-Task
+and	34	37	I-Task
+recorded	38	46	I-Task
+throughout	47	57	O
+the	58	61	O
+entire	62	68	O
+test	69	73	O
+by	74	76	O
+a	77	78	O
+piezoelectric	79	92	B-Process
+load	93	97	I-Process
+cell	98	102	I-Process
+which	103	108	O
+is	109	111	O
+connected	112	121	O
+to	122	124	O
+the	125	128	O
+quasi	129	134	O
+-	134	135	O
+stationary	135	145	O
+LSMB	146	150	B-Process
+.	150	151	O
+
+The	152	155	O
+LSMB	156	160	B-Process
+is	161	163	O
+mounted	164	171	O
+on	172	174	O
+flexures	175	183	B-Material
+which	184	189	O
+provide	190	197	O
+flexibility	198	209	O
+in	210	212	O
+the	213	216	O
+horizontal	217	227	O
+direction	228	237	O
+so	238	240	O
+that	241	245	O
+the	246	249	O
+majority	250	258	O
+of	259	261	O
+the	262	265	O
+lateral	266	273	O
+force	274	279	O
+is	280	282	O
+transmitted	283	294	O
+though	295	301	O
+the	302	305	O
+much	306	310	O
+stiffer	311	318	O
+load	319	323	O
+path	324	328	O
+which	329	334	O
+contains	335	343	O
+the	344	347	O
+load	348	352	B-Process
+cell	353	357	I-Process
+as	358	360	O
+shown	361	366	O
+in	367	369	O
+Fig	370	373	O
+.	373	374	O
+
+2	375	376	O
+.	376	377	O
+
+Both	378	382	O
+displacement	383	395	B-Process
+and	396	399	I-Process
+load	400	404	I-Process
+sensors	405	412	I-Process
+have	413	417	O
+been	418	422	O
+calibrated	423	433	O
+(	434	435	O
+both	435	439	O
+externally	440	450	O
+and	451	454	O
+in	455	457	O
+-	457	458	O
+situ	458	462	O
+)	462	463	O
+in	464	466	O
+static	467	473	O
+conditions	474	484	O
+.	484	485	O
+
+The	486	489	O
+load	490	494	O
+and	495	498	O
+displacement	499	511	O
+signals	512	519	O
+are	520	523	O
+sampled	524	531	O
+at	532	534	O
+a	535	536	O
+rate	537	541	O
+of	542	544	O
+two	545	548	O
+hundred	549	556	O
+measurements	557	569	O
+per	570	573	O
+fretting	574	582	O
+cycle	583	588	O
+at	589	591	O
+all	592	595	O
+fretting	596	604	O
+frequencies	605	616	O
+,	616	617	O
+with	618	622	O
+these	623	628	O
+data	629	633	O
+being	634	639	O
+used	640	644	O
+to	645	647	O
+generate	648	656	O
+fretting	657	665	B-Material
+loops	666	671	I-Material
+.	671	672	I-Material
+
+The	673	676	O
+loops	677	682	O
+were	683	687	O
+used	688	692	O
+to	693	695	O
+derive	696	702	O
+the	703	706	O
+contact	707	714	O
+slip	715	719	O
+amplitude	720	729	O
+and	730	733	O
+the	734	737	O
+energy	738	744	O
+coefficient	745	756	O
+of	757	759	O
+friction	760	768	O
+in	769	771	O
+each	772	776	O
+cycle	777	782	O
+according	783	792	O
+to	793	795	O
+the	796	799	O
+method	800	806	O
+suggested	807	816	O
+by	817	819	O
+Fouvry	820	826	O
+et	827	829	O
+al	830	832	O
+.	832	833	O
+
+[	834	835	O
+17	835	837	O
+]	837	838	O
+.	838	839	O
+
+Average	840	847	O
+values	848	854	O
+for	855	858	O
+these	859	864	O
+were	865	869	O
+calculated	870	880	O
+for	881	884	O
+each	885	889	O
+test	890	894	O
+(	895	896	O
+the	896	899	O
+average	900	907	O
+coefficient	908	919	O
+of	920	922	O
+friction	923	931	O
+included	932	940	O
+values	941	947	O
+associated	948	958	O
+with	959	963	O
+the	964	967	O
+initial	968	975	O
+transients	976	986	O
+in	987	989	O
+the	990	993	O
+tests	994	999	O
+as	1000	1002	O
+suggested	1003	1012	O
+by	1013	1015	O
+Hirsch	1016	1022	O
+and	1023	1026	O
+Neu	1027	1030	O
+
+[	1031	1032	O
+18	1032	1034	O
+]	1034	1035	O
+)	1035	1036	O
+.	1036	1037	O
 
 
 -DOCSTART- (S0304399111001811)
 
-We	NN	O	O
-have	NN	O	O
-developed	NN	O	O
-the	NN	O	O
-theory	NN	O	O
-of	NN	O	O
-electrons	NN	O	B-Process
-carrying	NN	O	I-Process
-quantized	NN	O	I-Process
-orbital	NN	O	I-Process
-angular	NN	O	I-Process
-momentum	NN	O	I-Process
-.	NN	O	I-Process
-
-To	NN	O	O
-make	NN	O	O
-connection	NN	O	O
-to	NN	O	O
-realistic	NN	O	O
-situations	NN	O	O
-,	NN	O	O
-we	NN	O	O
-considered	NN	O	O
-a	NN	O	O
-plane	NN	O	B-Material
-wave	NN	O	I-Material
-moving	NN	O	O
-along	NN	O	O
-the	NN	O	O
-optic	NN	O	O
-axis	NN	O	O
-of	NN	O	O
-a	NN	O	O
-lens	NN	O	B-Material
-system	NN	O	I-Material
-,	NN	O	O
-intercepted	NN	O	O
-by	NN	O	O
-a	NN	O	O
-round	NN	O	B-Material
-,	NN	O	I-Material
-centered	NN	O	I-Material
-aperture.88In	NN	O	I-Material
-the	NN	O	O
-experiment	NN	O	O
-,	NN	O	O
-this	NN	O	O
-aperture	NN	O	B-Material
-carries	NN	O	O
-the	NN	O	O
-holographic	NN	O	B-Material
-mask	NN	O	I-Material
-.	NN	O	O
-
-It	NN	O	O
-turns	NN	O	O
-out	NN	O	O
-that	NN	O	O
-the	NN	O	O
-movement	NN	O	O
-along	NN	O	O
-the	NN	O	O
-optic	NN	O	O
-axis	NN	O	O
-can	NN	O	O
-be	NN	O	O
-separated	NN	O	O
-off	NN	O	O
-;	NN	O	O
-the	NN	O	O
-reduced	NN	O	B-Process
-Schrödinger	NN	O	I-Process
-equation	NN	O	I-Process
-operating	NN	O	O
-in	NN	O	O
-the	NN	O	O
-plane	NN	O	B-Material
-of	NN	O	O
-the	NN	O	O
-aperture	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-mapped	NN	O	O
-onto	NN	O	O
-Bessel	NN	O	O
-'s	NN	O	O
-differential	NN	O	O
-equation	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-ensuing	NN	O	O
-eigenfunctions	NN	O	O
-fall	NN	O	O
-into	NN	O	O
-families	NN	O	O
-with	NN	O	O
-discrete	NN	O	O
-orbital	NN	O	O
-angular	NN	O	O
-momentum	NN	O	O
-ℏm	NN	O	O
-along	NN	O	O
-the	NN	O	O
-optic	NN	O	O
-axis	NN	O	O
-where	NN	O	O
-m	NN	O	O
-is	NN	O	O
-a	NN	O	O
-magnetic	NN	O	O
-quantum	NN	O	O
-number	NN	O	O
-.	NN	O	O
-
-Those	NN	O	O
-vortices	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-produced	NN	O	O
-by	NN	O	O
-matching	NN	O	O
-a	NN	O	O
-plane	NN	O	B-Material
-wave	NN	O	I-Material
-after	NN	O	O
-passage	NN	O	O
-through	NN	O	O
-a	NN	O	O
-holographic	NN	O	B-Material
-mask	NN	O	I-Material
-with	NN	O	O
-a	NN	O	O
-fork	NN	O	O
-dislocation	NN	O	O
-to	NN	O	O
-the	NN	O	O
-eigenfunctions	NN	O	O
-of	NN	O	O
-the	NN	O	O
-cylindrical	NN	O	O
-problem	NN	O	O
-.	NN	O	O
-
-Vortices	NN	O	O
-can	NN	O	O
-be	NN	O	O
-focussed	NN	O	O
-by	NN	O	O
-magnetic	NN	O	B-Material
-lenses	NN	O	I-Material
-into	NN	O	O
-volcano	NN	O	O
--	NN	O	O
-like	NN	O	O
-charge	NN	O	O
-distributions	NN	O	O
-with	NN	O	O
-very	NN	O	O
-narrow	NN	O	O
-angular	NN	O	B-Process
-divergence	NN	O	I-Process
-,	NN	O	O
-resembling	NN	O	O
-loop	NN	O	O
-currents	NN	O	O
-in	NN	O	O
-the	NN	O	O
-diffraction	NN	O	O
-plane	NN	O	O
-.	NN	O	O
-
-Inclusion	NN	O	B-Process
-of	NN	O	I-Process
-spherical	NN	O	I-Process
-aberration	NN	O	I-Process
-changes	NN	O	O
-the	NN	O	O
-ringlike	NN	O	O
-shape	NN	O	O
-but	NN	O	O
-does	NN	O	O
-not	NN	O	O
-destroy	NN	O	O
-the	NN	O	O
-central	NN	O	O
-zero	NN	O	O
-intensity	NN	O	O
-of	NN	O	O
-vortices	NN	O	O
-with	NN	O	O
-m≠0	NN	O	O
-.	NN	O	O
-
-Partial	NN	O	B-Process
-coherence	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-incident	NN	O	B-Material
-wave	NN	O	I-Material
-leads	NN	O	O
-to	NN	O	O
-a	NN	O	O
-rise	NN	O	O
-of	NN	O	O
-the	NN	O	O
-central	NN	O	O
-intensity	NN	O	O
-minimum	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-a	NN	O	O
-very	NN	O	O
-small	NN	O	O
-source	NN	O	O
-angle	NN	O	O
-(	NN	O	O
-i.e.	NN	O	O
-a	NN	O	O
-very	NN	O	O
-high	NN	O	O
-coherence	NN	O	O
-)	NN	O	O
-is	NN	O	O
-necessary	NN	O	O
-so	NN	O	O
-as	NN	O	O
-to	NN	O	O
-keep	NN	O	O
-the	NN	O	O
-volcano	NN	O	O
-structure	NN	O	O
-intact	NN	O	O
-.	NN	O	O
-
-Their	NN	O	O
-small	NN	O	O
-angular	NN	O	O
-width	NN	O	O
-in	NN	O	O
-the	NN	O	O
-far	NN	O	O
-field	NN	O	O
-may	NN	O	O
-allow	NN	O	O
-the	NN	O	O
-creation	NN	O	B-Process
-of	NN	O	I-Process
-nm	NN	O	I-Process
--	NN	O	I-Process
-sized	NN	O	I-Process
-or	NN	O	I-Process
-smaller	NN	O	I-Process
-electron	NN	O	I-Process
-vortices	NN	O	I-Process
-but	NN	O	O
-the	NN	O	O
-demand	NN	O	O
-for	NN	O	O
-extremely	NN	O	O
-high	NN	O	O
-coherence	NN	O	O
-of	NN	O	O
-the	NN	O	O
-source	NN	O	O
-poses	NN	O	O
-a	NN	O	O
-serious	NN	O	O
-difficulty	NN	O	O
-.	NN	O	O
+We	0	2	O
+have	3	7	O
+developed	8	17	O
+the	18	21	O
+theory	22	28	O
+of	29	31	O
+electrons	32	41	B-Process
+carrying	42	50	I-Process
+quantized	51	60	I-Process
+orbital	61	68	I-Process
+angular	69	76	I-Process
+momentum	77	85	I-Process
+.	85	86	I-Process
+
+To	87	89	O
+make	90	94	O
+connection	95	105	O
+to	106	108	O
+realistic	109	118	O
+situations	119	129	O
+,	129	130	O
+we	131	133	O
+considered	134	144	O
+a	145	146	O
+plane	147	152	B-Material
+wave	153	157	I-Material
+moving	158	164	O
+along	165	170	O
+the	171	174	O
+optic	175	180	O
+axis	181	185	O
+of	186	188	O
+a	189	190	O
+lens	191	195	B-Material
+system	196	202	I-Material
+,	202	203	O
+intercepted	204	215	O
+by	216	218	O
+a	219	220	O
+round	221	226	B-Material
+,	226	227	I-Material
+centered	228	236	I-Material
+aperture.88In	237	250	I-Material
+the	251	254	O
+experiment	255	265	O
+,	265	266	O
+this	267	271	O
+aperture	272	280	B-Material
+carries	281	288	O
+the	289	292	O
+holographic	293	304	B-Material
+mask	305	309	I-Material
+.	309	310	O
+
+It	311	313	O
+turns	314	319	O
+out	320	323	O
+that	324	328	O
+the	329	332	O
+movement	333	341	O
+along	342	347	O
+the	348	351	O
+optic	352	357	O
+axis	358	362	O
+can	363	366	O
+be	367	369	O
+separated	370	379	O
+off	380	383	O
+;	383	384	O
+the	385	388	O
+reduced	389	396	B-Process
+Schrödinger	397	408	I-Process
+equation	409	417	I-Process
+operating	418	427	O
+in	428	430	O
+the	431	434	O
+plane	435	440	B-Material
+of	441	443	O
+the	444	447	O
+aperture	448	456	B-Material
+can	457	460	O
+be	461	463	O
+mapped	464	470	O
+onto	471	475	O
+Bessel	476	482	O
+'s	482	484	O
+differential	485	497	O
+equation	498	506	O
+.	506	507	O
+
+The	508	511	O
+ensuing	512	519	O
+eigenfunctions	520	534	O
+fall	535	539	O
+into	540	544	O
+families	545	553	O
+with	554	558	O
+discrete	559	567	O
+orbital	568	575	O
+angular	576	583	O
+momentum	584	592	O
+ℏm	593	595	O
+along	596	601	O
+the	602	605	O
+optic	606	611	O
+axis	612	616	O
+where	617	622	O
+m	623	624	O
+is	625	627	O
+a	628	629	O
+magnetic	630	638	O
+quantum	639	646	O
+number	647	653	O
+.	653	654	O
+
+Those	655	660	O
+vortices	661	669	B-Material
+can	670	673	O
+be	674	676	O
+produced	677	685	O
+by	686	688	O
+matching	689	697	O
+a	698	699	O
+plane	700	705	B-Material
+wave	706	710	I-Material
+after	711	716	O
+passage	717	724	O
+through	725	732	O
+a	733	734	O
+holographic	735	746	B-Material
+mask	747	751	I-Material
+with	752	756	O
+a	757	758	O
+fork	759	763	O
+dislocation	764	775	O
+to	776	778	O
+the	779	782	O
+eigenfunctions	783	797	O
+of	798	800	O
+the	801	804	O
+cylindrical	805	816	O
+problem	817	824	O
+.	824	825	O
+
+Vortices	826	834	O
+can	835	838	O
+be	839	841	O
+focussed	842	850	O
+by	851	853	O
+magnetic	854	862	B-Material
+lenses	863	869	I-Material
+into	870	874	O
+volcano	875	882	O
+-	882	883	O
+like	883	887	O
+charge	888	894	O
+distributions	895	908	O
+with	909	913	O
+very	914	918	O
+narrow	919	925	O
+angular	926	933	B-Process
+divergence	934	944	I-Process
+,	944	945	O
+resembling	946	956	O
+loop	957	961	O
+currents	962	970	O
+in	971	973	O
+the	974	977	O
+diffraction	978	989	O
+plane	990	995	O
+.	995	996	O
+
+Inclusion	997	1006	B-Process
+of	1007	1009	I-Process
+spherical	1010	1019	I-Process
+aberration	1020	1030	I-Process
+changes	1031	1038	O
+the	1039	1042	O
+ringlike	1043	1051	O
+shape	1052	1057	O
+but	1058	1061	O
+does	1062	1066	O
+not	1067	1070	O
+destroy	1071	1078	O
+the	1079	1082	O
+central	1083	1090	O
+zero	1091	1095	O
+intensity	1096	1105	O
+of	1106	1108	O
+vortices	1109	1117	O
+with	1118	1122	O
+m≠0	1123	1126	O
+.	1126	1127	O
+
+Partial	1128	1135	B-Process
+coherence	1136	1145	I-Process
+of	1146	1148	O
+the	1149	1152	O
+incident	1153	1161	B-Material
+wave	1162	1166	I-Material
+leads	1167	1172	O
+to	1173	1175	O
+a	1176	1177	O
+rise	1178	1182	O
+of	1183	1185	O
+the	1186	1189	O
+central	1190	1197	O
+intensity	1198	1207	O
+minimum	1208	1215	O
+.	1215	1216	O
+
+It	1217	1219	O
+is	1220	1222	O
+shown	1223	1228	O
+that	1229	1233	O
+a	1234	1235	O
+very	1236	1240	O
+small	1241	1246	O
+source	1247	1253	O
+angle	1254	1259	O
+(	1260	1261	O
+i.e.	1261	1265	O
+a	1266	1267	O
+very	1268	1272	O
+high	1273	1277	O
+coherence	1278	1287	O
+)	1287	1288	O
+is	1289	1291	O
+necessary	1292	1301	O
+so	1302	1304	O
+as	1305	1307	O
+to	1308	1310	O
+keep	1311	1315	O
+the	1316	1319	O
+volcano	1320	1327	O
+structure	1328	1337	O
+intact	1338	1344	O
+.	1344	1345	O
+
+Their	1346	1351	O
+small	1352	1357	O
+angular	1358	1365	O
+width	1366	1371	O
+in	1372	1374	O
+the	1375	1378	O
+far	1379	1382	O
+field	1383	1388	O
+may	1389	1392	O
+allow	1393	1398	O
+the	1399	1402	O
+creation	1403	1411	B-Process
+of	1412	1414	I-Process
+nm	1415	1417	I-Process
+-	1417	1418	I-Process
+sized	1418	1423	I-Process
+or	1424	1426	I-Process
+smaller	1427	1434	I-Process
+electron	1435	1443	I-Process
+vortices	1444	1452	I-Process
+but	1453	1456	O
+the	1457	1460	O
+demand	1461	1467	O
+for	1468	1471	O
+extremely	1472	1481	O
+high	1482	1486	O
+coherence	1487	1496	O
+of	1497	1499	O
+the	1500	1503	O
+source	1504	1510	O
+poses	1511	1516	O
+a	1517	1518	O
+serious	1519	1526	O
+difficulty	1527	1537	O
+.	1537	1538	O
 
 
 -DOCSTART- (S030439911200040X)
 
-Some	NN	O	O
-methods	NN	O	O
-use	NN	O	O
-1D	NN	O	B-Material
-radial	NN	O	I-Material
-profiles	NN	O	I-Material
-obtained	NN	O	O
-from	NN	O	O
-circular	NN	O	B-Process
-averaging	NN	O	I-Process
-of	NN	O	O
-2D	NN	O	B-Process
-experimental	NN	O	I-Process
-PSD	NN	O	I-Process
-[	NN	O	O
-4,8,11	NN	O	O
-]	NN	O	O
-or	NN	O	O
-by	NN	O	O
-elliptical	NN	O	B-Process
-averaging	NN	O	I-Process
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-inadequacy	NN	O	O
-of	NN	O	O
-circular	NN	O	B-Process
-averaging	NN	O	I-Process
-is	NN	O	O
-that	NN	O	O
-it	NN	O	O
-neglects	NN	O	O
-astigmatism	NN	O	B-Process
-.	NN	O	O
-
-Astigmatism	NN	O	B-Process
-distorts	NN	O	O
-the	NN	O	O
-circular	NN	O	O
-shape	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Thon	NN	O	B-Material
-rings	NN	O	I-Material
-and	NN	O	O
-thus	NN	O	O
-decreases	NN	O	O
-their	NN	O	O
-modulation	NN	O	O
-depth	NN	O	O
-in	NN	O	O
-the	NN	O	O
-obtained	NN	O	O
-1D	NN	O	B-Material
-profile	NN	O	I-Material
-.	NN	O	O
-
-A	NN	O	O
-few	NN	O	O
-algorithms	NN	O	O
-that	NN	O	O
-consider	NN	O	O
-astigmatism	NN	O	O
-involve	NN	O	O
-concepts	NN	O	O
-such	NN	O	O
-as	NN	O	O
-dividing	NN	O	O
-the	NN	O	O
-PSD	NN	O	B-Process
-into	NN	O	O
-sectors	NN	O	O
-where	NN	O	O
-Thon	NN	O	B-Material
-rings	NN	O	I-Material
-are	NN	O	O
-approximated	NN	O	O
-by	NN	O	O
-circular	NN	O	O
-arcs	NN	O	O
-[	NN	O	O
-15,21	NN	O	O
-]	NN	O	O
-,	NN	O	O
-applying	NN	O	O
-Canny	NN	O	B-Process
-edge	NN	O	I-Process
-detection	NN	O	I-Process
-to	NN	O	O
-find	NN	O	O
-the	NN	O	O
-rings	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-prior	NN	O	O
-to	NN	O	O
-elliptical	NN	O	B-Process
-averaging	NN	O	I-Process
-,	NN	O	O
-determining	NN	O	O
-the	NN	O	O
-relationship	NN	O	O
-between	NN	O	O
-the	NN	O	O
-1D	NN	O	O
-circular	NN	O	O
-averages	NN	O	O
-with	NN	O	O
-and	NN	O	O
-without	NN	O	O
-astigmatism	NN	O	B-Process
-[	NN	O	O
-22	NN	O	O
-]	NN	O	O
-,	NN	O	O
-or	NN	O	O
-using	NN	O	O
-a	NN	O	O
-brute	NN	O	O
--	NN	O	O
-force	NN	O	O
-scan	NN	O	O
-of	NN	O	O
-a	NN	O	O
-database	NN	O	O
-containing	NN	O	O
-precalculated	NN	O	O
-patterns	NN	O	O
-as	NN	O	O
-in	NN	O	O
-ATLAS	NN	O	B-Process
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Some	NN	O	O
-other	NN	O	O
-approaches	NN	O	O
-for	NN	O	O
-estimating	NN	O	O
-CTF	NN	O	B-Process
-parameters	NN	O	O
-do	NN	O	O
-a	NN	O	O
-fully	NN	O	O
-2D	NN	O	B-Process
-PSD	NN	O	I-Process
-optimization	NN	O	I-Process
-[	NN	O	O
-12,14,18,20	NN	O	O
-]	NN	O	O
-but	NN	O	O
-they	NN	O	O
-usually	NN	O	O
-regulate	NN	O	O
-and	NN	O	O
-fit	NN	O	O
-numerous	NN	O	O
-parameters	NN	O	O
-by	NN	O	O
-an	NN	O	O
-extensive	NN	O	O
-search	NN	O	O
-that	NN	O	O
-does	NN	O	O
-not	NN	O	O
-guarantee	NN	O	O
-convergence	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-only	NN	O	O
-a	NN	O	O
-few	NN	O	O
-schemes	NN	O	O
-that	NN	O	O
-were	NN	O	O
-developed	NN	O	O
-for	NN	O	O
-defocus	NN	O	O
-estimation	NN	O	O
-provide	NN	O	O
-an	NN	O	O
-error	NN	O	O
-analysis	NN	O	O
-[	NN	O	O
-23,24	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Some	0	4	O
+methods	5	12	O
+use	13	16	O
+1D	17	19	B-Material
+radial	20	26	I-Material
+profiles	27	35	I-Material
+obtained	36	44	O
+from	45	49	O
+circular	50	58	B-Process
+averaging	59	68	I-Process
+of	69	71	O
+2D	72	74	B-Process
+experimental	75	87	I-Process
+PSD	88	91	I-Process
+[	92	93	O
+4,8,11	93	99	O
+]	99	100	O
+or	101	103	O
+by	104	106	O
+elliptical	107	117	B-Process
+averaging	118	127	I-Process
+[	128	129	O
+17	129	131	O
+]	131	132	O
+.	132	133	O
+
+An	134	136	O
+inadequacy	137	147	O
+of	148	150	O
+circular	151	159	B-Process
+averaging	160	169	I-Process
+is	170	172	O
+that	173	177	O
+it	178	180	O
+neglects	181	189	O
+astigmatism	190	201	B-Process
+.	201	202	O
+
+Astigmatism	203	214	B-Process
+distorts	215	223	O
+the	224	227	O
+circular	228	236	O
+shape	237	242	O
+of	243	245	O
+the	246	249	O
+Thon	250	254	B-Material
+rings	255	260	I-Material
+and	261	264	O
+thus	265	269	O
+decreases	270	279	O
+their	280	285	O
+modulation	286	296	O
+depth	297	302	O
+in	303	305	O
+the	306	309	O
+obtained	310	318	O
+1D	319	321	B-Material
+profile	322	329	I-Material
+.	329	330	O
+
+A	331	332	O
+few	333	336	O
+algorithms	337	347	O
+that	348	352	O
+consider	353	361	O
+astigmatism	362	373	O
+involve	374	381	O
+concepts	382	390	O
+such	391	395	O
+as	396	398	O
+dividing	399	407	O
+the	408	411	O
+PSD	412	415	B-Process
+into	416	420	O
+sectors	421	428	O
+where	429	434	O
+Thon	435	439	B-Material
+rings	440	445	I-Material
+are	446	449	O
+approximated	450	462	O
+by	463	465	O
+circular	466	474	O
+arcs	475	479	O
+[	480	481	O
+15,21	481	486	O
+]	486	487	O
+,	487	488	O
+applying	489	497	O
+Canny	498	503	B-Process
+edge	504	508	I-Process
+detection	509	518	I-Process
+to	519	521	O
+find	522	526	O
+the	527	530	O
+rings	531	536	O
+[	537	538	O
+17	538	540	O
+]	540	541	O
+prior	542	547	O
+to	548	550	O
+elliptical	551	561	B-Process
+averaging	562	571	I-Process
+,	571	572	O
+determining	573	584	O
+the	585	588	O
+relationship	589	601	O
+between	602	609	O
+the	610	613	O
+1D	614	616	O
+circular	617	625	O
+averages	626	634	O
+with	635	639	O
+and	640	643	O
+without	644	651	O
+astigmatism	652	663	B-Process
+[	664	665	O
+22	665	667	O
+]	667	668	O
+,	668	669	O
+or	670	672	O
+using	673	678	O
+a	679	680	O
+brute	681	686	O
+-	686	687	O
+force	687	692	O
+scan	693	697	O
+of	698	700	O
+a	701	702	O
+database	703	711	O
+containing	712	722	O
+precalculated	723	736	O
+patterns	737	745	O
+as	746	748	O
+in	749	751	O
+ATLAS	752	757	B-Process
+[	758	759	O
+23	759	761	O
+]	761	762	O
+.	762	763	O
+
+Some	764	768	O
+other	769	774	O
+approaches	775	785	O
+for	786	789	O
+estimating	790	800	O
+CTF	801	804	B-Process
+parameters	805	815	O
+do	816	818	O
+a	819	820	O
+fully	821	826	O
+2D	827	829	B-Process
+PSD	830	833	I-Process
+optimization	834	846	I-Process
+[	847	848	O
+12,14,18,20	848	859	O
+]	859	860	O
+but	861	864	O
+they	865	869	O
+usually	870	877	O
+regulate	878	886	O
+and	887	890	O
+fit	891	894	O
+numerous	895	903	O
+parameters	904	914	O
+by	915	917	O
+an	918	920	O
+extensive	921	930	O
+search	931	937	O
+that	938	942	O
+does	943	947	O
+not	948	951	O
+guarantee	952	961	O
+convergence	962	973	O
+.	973	974	O
+
+Furthermore	975	986	O
+,	986	987	O
+only	988	992	O
+a	993	994	O
+few	995	998	O
+schemes	999	1006	O
+that	1007	1011	O
+were	1012	1016	O
+developed	1017	1026	O
+for	1027	1030	O
+defocus	1031	1038	O
+estimation	1039	1049	O
+provide	1050	1057	O
+an	1058	1060	O
+error	1061	1066	O
+analysis	1067	1075	O
+[	1076	1077	O
+23,24	1077	1082	O
+]	1082	1083	O
+.	1083	1084	O
 
 
 -DOCSTART- (S0305440314001927)
 
-Traditionally	NN	O	O
-,	NN	O	O
-archaeologists	NN	O	O
-have	NN	O	O
-recorded	NN	O	B-Task
-sites	NN	O	I-Task
-and	NN	O	I-Task
-artefacts	NN	O	I-Task
-via	NN	O	O
-a	NN	O	O
-combination	NN	O	O
-of	NN	O	O
-ordinary	NN	O	B-Material
-still	NN	O	I-Material
-photographs	NN	O	I-Material
-,	NN	O	O
-2D	NN	O	B-Material
-line	NN	O	I-Material
-drawings	NN	O	I-Material
-and	NN	O	O
-occasional	NN	O	B-Material
-cross	NN	O	I-Material
--	NN	O	I-Material
-sections	NN	O	I-Material
-.	NN	O	O
-
-Given	NN	O	O
-these	NN	O	O
-constraints	NN	O	O
-,	NN	O	O
-the	NN	O	O
-attractions	NN	O	O
-of	NN	O	O
-3D	NN	O	B-Process
-models	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-obvious	NN	O	O
-for	NN	O	O
-some	NN	O	O
-time	NN	O	O
-,	NN	O	O
-with	NN	O	O
-digital	NN	O	B-Process
-photogrammetry	NN	O	I-Process
-and	NN	O	O
-laser	NN	O	B-Process
-scanners	NN	O	I-Process
-offering	NN	O	O
-two	NN	O	O
-well	NN	O	O
--	NN	O	O
-known	NN	O	O
-methods	NN	O	O
-for	NN	O	O
-data	NN	O	B-Task
-capture	NN	O	I-Task
-at	NN	O	I-Task
-close	NN	O	I-Task
-range	NN	O	I-Task
-(	NN	O	O
-e.g.	NN	O	O
-Bates	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-,	NN	O	O
-2010	NN	O	O
-;	NN	O	O
-Hess	NN	O	O
-and	NN	O	O
-Robson	NN	O	O
-,	NN	O	O
-2010	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-highest	NN	O	O
-specification	NN	O	O
-laser	NN	O	B-Process
-scanners	NN	O	I-Process
-still	NN	O	O
-boast	NN	O	O
-better	NN	O	O
-positional	NN	O	O
-accuracy	NN	O	O
-and	NN	O	O
-greater	NN	O	O
-true	NN	O	O
-colour	NN	O	O
-fidelity	NN	O	O
-than	NN	O	O
-SfM	NN	O	O
-–	NN	O	O
-
-MVS	NN	O	O
-methods	NN	O	O
-(	NN	O	O
-James	NN	O	O
-and	NN	O	O
-Robson	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-,	NN	O	O
-but	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-produce	NN	O	O
-very	NN	O	O
-good	NN	O	O
-quality	NN	O	O
-models	NN	O	O
-nonetheless	NN	O	O
-and	NN	O	O
-have	NN	O	O
-many	NN	O	O
-unique	NN	O	O
-selling	NN	O	O
-points	NN	O	O
-.	NN	O	O
-
-Unlike	NN	O	O
-traditional	NN	O	B-Process
-digital	NN	O	I-Process
-photogrammetry	NN	O	I-Process
-,	NN	O	O
-little	NN	O	O
-or	NN	O	O
-no	NN	O	O
-prior	NN	O	O
-control	NN	O	B-Process
-of	NN	O	I-Process
-camera	NN	O	I-Process
-position	NN	O	I-Process
-is	NN	O	O
-necessary	NN	O	O
-,	NN	O	O
-and	NN	O	O
-unlike	NN	O	O
-laser	NN	O	B-Process
-scanning	NN	O	I-Process
-,	NN	O	O
-no	NN	O	O
-major	NN	O	O
-equipment	NN	O	O
-costs	NN	O	O
-or	NN	O	O
-setup	NN	O	O
-are	NN	O	O
-involved	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-key	NN	O	O
-attraction	NN	O	O
-of	NN	O	O
-SfM	NN	O	O
-–	NN	O	O
-
-MVS	NN	O	O
-is	NN	O	O
-that	NN	O	O
-the	NN	O	O
-required	NN	O	O
-input	NN	O	O
-can	NN	O	O
-be	NN	O	O
-taken	NN	O	O
-by	NN	O	O
-anyone	NN	O	O
-with	NN	O	O
-a	NN	O	O
-digital	NN	O	B-Material
-camera	NN	O	I-Material
-and	NN	O	O
-modest	NN	O	O
-prior	NN	O	B-Process
-training	NN	O	I-Process
-about	NN	O	I-Process
-the	NN	O	I-Process
-required	NN	O	I-Process
-number	NN	O	I-Process
-and	NN	O	I-Process
-overlap	NN	O	I-Process
-of	NN	O	I-Process
-photographs	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-whole	NN	O	O
-series	NN	O	O
-of	NN	O	O
-traditional	NN	O	O
-bottlenecks	NN	O	O
-are	NN	O	O
-thereby	NN	O	O
-removed	NN	O	O
-from	NN	O	O
-the	NN	O	O
-recording	NN	O	B-Process
-process	NN	O	I-Process
-and	NN	O	O
-large	NN	O	O
-numbers	NN	O	O
-of	NN	O	O
-archaeological	NN	O	B-Task
-landscapes	NN	O	I-Task
-,	NN	O	O
-sites	NN	O	B-Task
-or	NN	O	O
-artefacts	NN	O	B-Task
-can	NN	O	O
-now	NN	O	O
-be	NN	O	O
-captured	NN	O	O
-rapidly	NN	O	O
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-field	NN	O	O
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-laboratory	NN	O	O
-or	NN	O	O
-in	NN	O	O
-the	NN	O	O
-museum	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-2a	NN	O	O
-
-–	NN	O	O
-c	NN	O	O
-shows	NN	O	O
-examples	NN	O	O
-of	NN	O	O
-terracotta	NN	O	B-Process
-warrior	NN	O	I-Process
-models	NN	O	I-Process
-for	NN	O	O
-which	NN	O	O
-the	NN	O	O
-level	NN	O	O
-of	NN	O	O
-surface	NN	O	O
-detail	NN	O	O
-is	NN	O	O
-considerable	NN	O	O
-.	NN	O	O
+Traditionally	0	13	O
+,	13	14	O
+archaeologists	15	29	O
+have	30	34	O
+recorded	35	43	B-Task
+sites	44	49	I-Task
+and	50	53	I-Task
+artefacts	54	63	I-Task
+via	64	67	O
+a	68	69	O
+combination	70	81	O
+of	82	84	O
+ordinary	85	93	B-Material
+still	94	99	I-Material
+photographs	100	111	I-Material
+,	111	112	O
+2D	113	115	B-Material
+line	116	120	I-Material
+drawings	121	129	I-Material
+and	130	133	O
+occasional	134	144	B-Material
+cross	145	150	I-Material
+-	150	151	I-Material
+sections	151	159	I-Material
+.	159	160	O
+
+Given	161	166	O
+these	167	172	O
+constraints	173	184	O
+,	184	185	O
+the	186	189	O
+attractions	190	201	O
+of	202	204	O
+3D	205	207	B-Process
+models	208	214	I-Process
+have	215	219	O
+been	220	224	O
+obvious	225	232	O
+for	233	236	O
+some	237	241	O
+time	242	246	O
+,	246	247	O
+with	248	252	O
+digital	253	260	B-Process
+photogrammetry	261	275	I-Process
+and	276	279	O
+laser	280	285	B-Process
+scanners	286	294	I-Process
+offering	295	303	O
+two	304	307	O
+well	308	312	O
+-	312	313	O
+known	313	318	O
+methods	319	326	O
+for	327	330	O
+data	331	335	B-Task
+capture	336	343	I-Task
+at	344	346	I-Task
+close	347	352	I-Task
+range	353	358	I-Task
+(	359	360	O
+e.g.	360	364	O
+Bates	365	370	O
+et	371	373	O
+al	374	376	O
+.	376	377	O
+
+,	377	378	O
+2010	379	383	O
+;	383	384	O
+Hess	385	389	O
+and	390	393	O
+Robson	394	400	O
+,	400	401	O
+2010	402	406	O
+)	406	407	O
+.	407	408	O
+
+The	409	412	O
+highest	413	420	O
+specification	421	434	O
+laser	435	440	B-Process
+scanners	441	449	I-Process
+still	450	455	O
+boast	456	461	O
+better	462	468	O
+positional	469	479	O
+accuracy	480	488	O
+and	489	492	O
+greater	493	500	O
+true	501	505	O
+colour	506	512	O
+fidelity	513	521	O
+than	522	526	O
+SfM	527	530	O
+–	530	531	O
+
+MVS	531	534	O
+methods	535	542	O
+(	543	544	O
+James	544	549	O
+and	550	553	O
+Robson	554	560	O
+,	560	561	O
+2012	562	566	O
+)	566	567	O
+,	567	568	O
+but	569	572	O
+the	573	576	O
+latter	577	583	O
+produce	584	591	O
+very	592	596	O
+good	597	601	O
+quality	602	609	O
+models	610	616	O
+nonetheless	617	628	O
+and	629	632	O
+have	633	637	O
+many	638	642	O
+unique	643	649	O
+selling	650	657	O
+points	658	664	O
+.	664	665	O
+
+Unlike	666	672	O
+traditional	673	684	B-Process
+digital	685	692	I-Process
+photogrammetry	693	707	I-Process
+,	707	708	O
+little	709	715	O
+or	716	718	O
+no	719	721	O
+prior	722	727	O
+control	728	735	B-Process
+of	736	738	I-Process
+camera	739	745	I-Process
+position	746	754	I-Process
+is	755	757	O
+necessary	758	767	O
+,	767	768	O
+and	769	772	O
+unlike	773	779	O
+laser	780	785	B-Process
+scanning	786	794	I-Process
+,	794	795	O
+no	796	798	O
+major	799	804	O
+equipment	805	814	O
+costs	815	820	O
+or	821	823	O
+setup	824	829	O
+are	830	833	O
+involved	834	842	O
+.	842	843	O
+
+However	844	851	O
+,	851	852	O
+the	853	856	O
+key	857	860	O
+attraction	861	871	O
+of	872	874	O
+SfM	875	878	O
+–	878	879	O
+
+MVS	879	882	O
+is	883	885	O
+that	886	890	O
+the	891	894	O
+required	895	903	O
+input	904	909	O
+can	910	913	O
+be	914	916	O
+taken	917	922	O
+by	923	925	O
+anyone	926	932	O
+with	933	937	O
+a	938	939	O
+digital	940	947	B-Material
+camera	948	954	I-Material
+and	955	958	O
+modest	959	965	O
+prior	966	971	B-Process
+training	972	980	I-Process
+about	981	986	I-Process
+the	987	990	I-Process
+required	991	999	I-Process
+number	1000	1006	I-Process
+and	1007	1010	I-Process
+overlap	1011	1018	I-Process
+of	1019	1021	I-Process
+photographs	1022	1033	I-Process
+.	1033	1034	O
+
+A	1035	1036	O
+whole	1037	1042	O
+series	1043	1049	O
+of	1050	1052	O
+traditional	1053	1064	O
+bottlenecks	1065	1076	O
+are	1077	1080	O
+thereby	1081	1088	O
+removed	1089	1096	O
+from	1097	1101	O
+the	1102	1105	O
+recording	1106	1115	B-Process
+process	1116	1123	I-Process
+and	1124	1127	O
+large	1128	1133	O
+numbers	1134	1141	O
+of	1142	1144	O
+archaeological	1145	1159	B-Task
+landscapes	1160	1170	I-Task
+,	1170	1171	O
+sites	1172	1177	B-Task
+or	1178	1180	O
+artefacts	1181	1190	B-Task
+can	1191	1194	O
+now	1195	1198	O
+be	1199	1201	O
+captured	1202	1210	O
+rapidly	1211	1218	O
+,	1218	1219	O
+in	1220	1222	O
+the	1223	1226	O
+field	1227	1232	O
+,	1232	1233	O
+in	1234	1236	O
+the	1237	1240	O
+laboratory	1241	1251	O
+or	1252	1254	O
+in	1255	1257	O
+the	1258	1261	O
+museum	1262	1268	O
+.	1268	1269	O
+
+Fig	1270	1273	O
+.	1273	1274	O
+
+2a	1275	1277	O
+
+–	1277	1278	O
+c	1278	1279	O
+shows	1280	1285	O
+examples	1286	1294	O
+of	1295	1297	O
+terracotta	1298	1308	B-Process
+warrior	1309	1316	I-Process
+models	1317	1323	I-Process
+for	1324	1327	O
+which	1328	1333	O
+the	1334	1337	O
+level	1338	1343	O
+of	1344	1346	O
+surface	1347	1354	O
+detail	1355	1361	O
+is	1362	1364	O
+considerable	1365	1377	O
+.	1377	1378	O
 
 
 -DOCSTART- (S0370269301015222)
 
-Recent	NN	O	O
-astronomical	NN	O	B-Task
-observations	NN	O	I-Task
-of	NN	O	O
-high	NN	O	B-Material
-redshift	NN	O	I-Material
-type	NN	O	I-Material
-Ia	NN	O	I-Material
-supernovae	NN	O	I-Material
-performed	NN	O	O
-by	NN	O	O
-two	NN	O	O
-groups	NN	O	O
-[	NN	O	O
-1–3	NN	O	O
-]	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-the	NN	O	O
-power	NN	O	B-Task
-spectrum	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-cosmic	NN	O	I-Task
-microwave	NN	O	I-Task
-background	NN	O	I-Task
-radiation	NN	O	I-Task
-obtained	NN	O	O
-by	NN	O	O
-the	NN	O	O
-BOOMERANG	NN	O	B-Process
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-and	NN	O	O
-MAXIMA-1	NN	O	B-Process
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-experiments	NN	O	O
-seem	NN	O	O
-to	NN	O	O
-indicate	NN	O	O
-that	NN	O	O
-at	NN	O	O
-present	NN	O	O
-the	NN	O	O
-Universe	NN	O	O
-is	NN	O	O
-in	NN	O	O
-a	NN	O	O
-state	NN	O	O
-of	NN	O	O
-accelerated	NN	O	O
-expansion	NN	O	O
-.	NN	O	O
-
-If	NN	O	O
-one	NN	O	O
-analyzes	NN	O	O
-these	NN	O	O
-data	NN	O	O
-within	NN	O	O
-the	NN	O	O
-Friedmann	NN	O	B-Process
-–	NN	O	I-Process
-Robertson	NN	O	I-Process
-–	NN	O	I-Process
-Walker	NN	O	I-Process
-(	NN	O	I-Process
-FRW	NN	O	I-Process
-)	NN	O	I-Process
-standard	NN	O	I-Process
-model	NN	O	I-Process
-of	NN	O	O
-cosmology	NN	O	B-Task
-their	NN	O	O
-most	NN	O	O
-natural	NN	O	O
-interpretation	NN	O	O
-is	NN	O	O
-that	NN	O	O
-the	NN	O	O
-Universe	NN	O	O
-is	NN	O	O
-spatially	NN	O	O
-flat	NN	O	O
-and	NN	O	O
-that	NN	O	O
-the	NN	O	O
-(	NN	O	O
-baryonic	NN	O	O
-plus	NN	O	O
-dark	NN	O	O
-)	NN	O	O
-matter	NN	O	B-Process
-density	NN	O	I-Process
-ρ	NN	O	B-Process
-is	NN	O	O
-about	NN	O	O
-one	NN	O	O
-third	NN	O	O
-of	NN	O	O
-the	NN	O	O
-critical	NN	O	B-Process
-density	NN	O	I-Process
-ρcrit	NN	O	B-Process
-.	NN	O	O
-
-Most	NN	O	O
-interestingly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-dominant	NN	O	O
-contribution	NN	O	O
-to	NN	O	O
-the	NN	O	O
-energy	NN	O	O
-density	NN	O	O
-is	NN	O	O
-provided	NN	O	O
-by	NN	O	O
-the	NN	O	O
-cosmological	NN	O	B-Material
-constant	NN	O	I-Material
-Λ.	NN	O	B-Material
-The	NN	O	O
-vacuum	NN	O	B-Process
-energy	NN	O	I-Process
-density	NN	O	I-Process
-(	NN	O	O
-1.1)ρΛ≡Λ/(8πG	NN	O	B-Process
-)	NN	O	I-Process
-is	NN	O	O
-about	NN	O	O
-twice	NN	O	O
-as	NN	O	O
-large	NN	O	O
-as	NN	O	O
-ρ	NN	O	B-Process
-,	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-about	NN	O	O
-two	NN	O	O
-thirds	NN	O	O
-of	NN	O	O
-the	NN	O	O
-critical	NN	O	B-Process
-density	NN	O	I-Process
-.	NN	O	O
-
-With	NN	O	O
-ΩM≡ρ/ρcrit	NN	O	O
-,	NN	O	O
-ΩΛ≡ρΛ/ρcrit	NN	O	O
-and	NN	O	O
-Ωtot≡ΩM+ΩΛ	NN	O	O
-:	NN	O	O
-(	NN	O	O
-1.2)ΩM≈1/3,ΩΛ≈2/3,Ωtot≈1	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-implies	NN	O	O
-that	NN	O	O
-the	NN	O	O
-deceleration	NN	O	B-Process
-parameter	NN	O	I-Process
-q	NN	O	B-Process
-is	NN	O	O
-approximately	NN	O	O
-−1/2	NN	O	O
-.	NN	O	O
-
-While	NN	O	O
-originally	NN	O	O
-the	NN	O	O
-cosmological	NN	O	B-Task
-constant	NN	O	I-Task
-problem	NN	O	I-Task
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-was	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-question	NN	O	B-Task
-why	NN	O	I-Task
-Λ	NN	O	I-Task
-is	NN	O	I-Task
-so	NN	O	I-Task
-unnaturally	NN	O	I-Task
-small	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-discovery	NN	O	O
-of	NN	O	O
-the	NN	O	O
-important	NN	O	O
-role	NN	O	O
-played	NN	O	O
-by	NN	O	O
-ρΛ	NN	O	B-Material
-has	NN	O	O
-shifted	NN	O	O
-the	NN	O	O
-emphasis	NN	O	O
-toward	NN	O	O
-the	NN	O	O
-“	NN	O	O
-coincidence	NN	O	B-Task
-problem	NN	O	I-Task
-”	NN	O	O
-,	NN	O	O
-the	NN	O	O
-question	NN	O	O
-why	NN	O	B-Task
-ρ	NN	O	I-Task
-and	NN	O	I-Task
-ρΛ	NN	O	I-Task
-happen	NN	O	I-Task
-to	NN	O	I-Task
-be	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-same	NN	O	I-Task
-order	NN	O	I-Task
-of	NN	O	I-Task
-magnitude	NN	O	I-Task
-precisely	NN	O	I-Task
-at	NN	O	I-Task
-this	NN	O	I-Task
-very	NN	O	I-Task
-moment	NN	O	I-Task
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Recent	0	6	O
+astronomical	7	19	B-Task
+observations	20	32	I-Task
+of	33	35	O
+high	36	40	B-Material
+redshift	41	49	I-Material
+type	50	54	I-Material
+Ia	55	57	I-Material
+supernovae	58	68	I-Material
+performed	69	78	O
+by	79	81	O
+two	82	85	O
+groups	86	92	O
+[	93	94	O
+1–3	94	97	O
+]	97	98	O
+as	99	101	O
+well	102	106	O
+as	107	109	O
+the	110	113	O
+power	114	119	B-Task
+spectrum	120	128	I-Task
+of	129	131	I-Task
+the	132	135	I-Task
+cosmic	136	142	I-Task
+microwave	143	152	I-Task
+background	153	163	I-Task
+radiation	164	173	I-Task
+obtained	174	182	O
+by	183	185	O
+the	186	189	O
+BOOMERANG	190	199	B-Process
+[	200	201	O
+4	201	202	O
+]	202	203	O
+and	204	207	O
+MAXIMA-1	208	216	B-Process
+[	217	218	O
+5	218	219	O
+]	219	220	O
+experiments	221	232	O
+seem	233	237	O
+to	238	240	O
+indicate	241	249	O
+that	250	254	O
+at	255	257	O
+present	258	265	O
+the	266	269	O
+Universe	270	278	O
+is	279	281	O
+in	282	284	O
+a	285	286	O
+state	287	292	O
+of	293	295	O
+accelerated	296	307	O
+expansion	308	317	O
+.	317	318	O
+
+If	319	321	O
+one	322	325	O
+analyzes	326	334	O
+these	335	340	O
+data	341	345	O
+within	346	352	O
+the	353	356	O
+Friedmann	357	366	B-Process
+–	366	367	I-Process
+Robertson	367	376	I-Process
+–	376	377	I-Process
+Walker	377	383	I-Process
+(	384	385	I-Process
+FRW	385	388	I-Process
+)	388	389	I-Process
+standard	390	398	I-Process
+model	399	404	I-Process
+of	405	407	O
+cosmology	408	417	B-Task
+their	418	423	O
+most	424	428	O
+natural	429	436	O
+interpretation	437	451	O
+is	452	454	O
+that	455	459	O
+the	460	463	O
+Universe	464	472	O
+is	473	475	O
+spatially	476	485	O
+flat	486	490	O
+and	491	494	O
+that	495	499	O
+the	500	503	O
+(	504	505	O
+baryonic	505	513	O
+plus	514	518	O
+dark	519	523	O
+)	523	524	O
+matter	525	531	B-Process
+density	532	539	I-Process
+ρ	540	541	B-Process
+is	542	544	O
+about	545	550	O
+one	551	554	O
+third	555	560	O
+of	561	563	O
+the	564	567	O
+critical	568	576	B-Process
+density	577	584	I-Process
+ρcrit	585	590	B-Process
+.	590	591	O
+
+Most	592	596	O
+interestingly	597	610	O
+,	610	611	O
+the	612	615	O
+dominant	616	624	O
+contribution	625	637	O
+to	638	640	O
+the	641	644	O
+energy	645	651	O
+density	652	659	O
+is	660	662	O
+provided	663	671	O
+by	672	674	O
+the	675	678	O
+cosmological	679	691	B-Material
+constant	692	700	I-Material
+Λ.	701	703	B-Material
+The	704	707	O
+vacuum	708	714	B-Process
+energy	715	721	I-Process
+density	722	729	I-Process
+(	730	731	O
+1.1)ρΛ≡Λ/(8πG	731	744	B-Process
+)	744	745	I-Process
+is	746	748	O
+about	749	754	O
+twice	755	760	O
+as	761	763	O
+large	764	769	O
+as	770	772	O
+ρ	773	774	B-Process
+,	774	775	O
+i.e.	776	780	O
+,	780	781	O
+about	782	787	O
+two	788	791	O
+thirds	792	798	O
+of	799	801	O
+the	802	805	O
+critical	806	814	B-Process
+density	815	822	I-Process
+.	822	823	O
+
+With	824	828	O
+ΩM≡ρ/ρcrit	829	839	O
+,	839	840	O
+ΩΛ≡ρΛ/ρcrit	841	852	O
+and	853	856	O
+Ωtot≡ΩM+ΩΛ	857	867	O
+:	867	868	O
+(	869	870	O
+1.2)ΩM≈1/3,ΩΛ≈2/3,Ωtot≈1	870	894	O
+.	894	895	O
+
+This	896	900	O
+implies	901	908	O
+that	909	913	O
+the	914	917	O
+deceleration	918	930	B-Process
+parameter	931	940	I-Process
+q	941	942	B-Process
+is	943	945	O
+approximately	946	959	O
+−1/2	960	964	O
+.	964	965	O
+
+While	966	971	O
+originally	972	982	O
+the	983	986	O
+cosmological	987	999	B-Task
+constant	1000	1008	I-Task
+problem	1009	1016	I-Task
+[	1017	1018	O
+6	1018	1019	O
+]	1019	1020	O
+was	1021	1024	O
+related	1025	1032	O
+to	1033	1035	O
+the	1036	1039	O
+question	1040	1048	B-Task
+why	1049	1052	I-Task
+Λ	1053	1054	I-Task
+is	1055	1057	I-Task
+so	1058	1060	I-Task
+unnaturally	1061	1072	I-Task
+small	1073	1078	I-Task
+,	1078	1079	O
+the	1080	1083	O
+discovery	1084	1093	O
+of	1094	1096	O
+the	1097	1100	O
+important	1101	1110	O
+role	1111	1115	O
+played	1116	1122	O
+by	1123	1125	O
+ρΛ	1126	1128	B-Material
+has	1129	1132	O
+shifted	1133	1140	O
+the	1141	1144	O
+emphasis	1145	1153	O
+toward	1154	1160	O
+the	1161	1164	O
+“	1165	1166	O
+coincidence	1166	1177	B-Task
+problem	1178	1185	I-Task
+”	1185	1186	O
+,	1186	1187	O
+the	1188	1191	O
+question	1192	1200	O
+why	1201	1204	B-Task
+ρ	1205	1206	I-Task
+and	1207	1210	I-Task
+ρΛ	1211	1213	I-Task
+happen	1214	1220	I-Task
+to	1221	1223	I-Task
+be	1224	1226	I-Task
+of	1227	1229	I-Task
+the	1230	1233	I-Task
+same	1234	1238	I-Task
+order	1239	1244	I-Task
+of	1245	1247	I-Task
+magnitude	1248	1257	I-Task
+precisely	1258	1267	I-Task
+at	1268	1270	I-Task
+this	1271	1275	I-Task
+very	1276	1280	I-Task
+moment	1281	1287	I-Task
+[	1288	1289	O
+7	1289	1290	O
+]	1290	1291	O
+.	1291	1292	O
 
 
 -DOCSTART- (S0370269302011838)
 
-First	NN	O	O
-results	NN	O	O
-from	NN	O	O
-RHIC	NN	O	O
-on	NN	O	O
-charged	NN	O	B-Task
-multiplicities	NN	O	I-Task
-,	NN	O	O
-evolution	NN	O	B-Task
-of	NN	O	I-Task
-multiplicities	NN	O	I-Task
-with	NN	O	I-Task
-centrality	NN	O	I-Task
-,	NN	O	O
-particle	NN	O	B-Task
-ratios	NN	O	I-Task
-and	NN	O	O
-transverse	NN	O	B-Task
-momentum	NN	O	I-Task
-distributions	NN	O	I-Task
-in	NN	O	O
-central	NN	O	O
-and	NN	O	O
-minimum	NN	O	O
-bias	NN	O	O
-collisions	NN	O	O
-,	NN	O	O
-are	NN	O	O
-analyzed	NN	O	O
-in	NN	O	O
-a	NN	O	O
-string	NN	O	B-Process
-model	NN	O	I-Process
-which	NN	O	O
-includes	NN	O	O
-hard	NN	O	B-Material
-collisions	NN	O	I-Material
-,	NN	O	O
-collectivity	NN	O	B-Material
-in	NN	O	I-Material
-the	NN	O	I-Material
-initial	NN	O	I-Material
-state	NN	O	I-Material
-considered	NN	O	O
-as	NN	O	O
-string	NN	O	O
-fusion	NN	O	O
-,	NN	O	O
-and	NN	O	O
-rescattering	NN	O	B-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-produced	NN	O	I-Material
-secondaries	NN	O	I-Material
-.	NN	O	O
-
-Multiplicities	NN	O	B-Task
-and	NN	O	O
-their	NN	O	B-Task
-evolution	NN	O	I-Task
-with	NN	O	O
-centrality	NN	O	O
-are	NN	O	O
-successfully	NN	O	O
-reproduced	NN	O	O
-.	NN	O	O
-
-Transverse	NN	O	B-Process
-momentum	NN	O	I-Process
-distributions	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-model	NN	O	O
-show	NN	O	O
-a	NN	O	O
-larger	NN	O	O
-pT	NN	O	O
--	NN	O	O
-tail	NN	O	O
-than	NN	O	O
-experimental	NN	O	O
-data	NN	O	O
-,	NN	O	O
-disagreement	NN	O	O
-which	NN	O	O
-grows	NN	O	O
-with	NN	O	O
-increasing	NN	O	O
-centrality	NN	O	O
-.	NN	O	O
-
-Discrepancies	NN	O	B-Process
-with	NN	O	I-Process
-particle	NN	O	I-Process
-ratios	NN	O	I-Process
-appear	NN	O	O
-and	NN	O	O
-are	NN	O	O
-examined	NN	O	O
-comparing	NN	O	O
-with	NN	O	O
-previous	NN	O	O
-features	NN	O	O
-of	NN	O	O
-the	NN	O	O
-model	NN	O	O
-at	NN	O	O
-SPS	NN	O	O
-.	NN	O	O
+First	0	5	O
+results	6	13	O
+from	14	18	O
+RHIC	19	23	O
+on	24	26	O
+charged	27	34	B-Task
+multiplicities	35	49	I-Task
+,	49	50	O
+evolution	51	60	B-Task
+of	61	63	I-Task
+multiplicities	64	78	I-Task
+with	79	83	I-Task
+centrality	84	94	I-Task
+,	94	95	O
+particle	96	104	B-Task
+ratios	105	111	I-Task
+and	112	115	O
+transverse	116	126	B-Task
+momentum	127	135	I-Task
+distributions	136	149	I-Task
+in	150	152	O
+central	153	160	O
+and	161	164	O
+minimum	165	172	O
+bias	173	177	O
+collisions	178	188	O
+,	188	189	O
+are	190	193	O
+analyzed	194	202	O
+in	203	205	O
+a	206	207	O
+string	208	214	B-Process
+model	215	220	I-Process
+which	221	226	O
+includes	227	235	O
+hard	236	240	B-Material
+collisions	241	251	I-Material
+,	251	252	O
+collectivity	253	265	B-Material
+in	266	268	I-Material
+the	269	272	I-Material
+initial	273	280	I-Material
+state	281	286	I-Material
+considered	287	297	O
+as	298	300	O
+string	301	307	O
+fusion	308	314	O
+,	314	315	O
+and	316	319	O
+rescattering	320	332	B-Material
+of	333	335	I-Material
+the	336	339	I-Material
+produced	340	348	I-Material
+secondaries	349	360	I-Material
+.	360	361	O
+
+Multiplicities	362	376	B-Task
+and	377	380	O
+their	381	386	B-Task
+evolution	387	396	I-Task
+with	397	401	O
+centrality	402	412	O
+are	413	416	O
+successfully	417	429	O
+reproduced	430	440	O
+.	440	441	O
+
+Transverse	442	452	B-Process
+momentum	453	461	I-Process
+distributions	462	475	I-Process
+in	476	478	O
+the	479	482	O
+model	483	488	O
+show	489	493	O
+a	494	495	O
+larger	496	502	O
+pT	503	505	O
+-	505	506	O
+tail	506	510	O
+than	511	515	O
+experimental	516	528	O
+data	529	533	O
+,	533	534	O
+disagreement	535	547	O
+which	548	553	O
+grows	554	559	O
+with	560	564	O
+increasing	565	575	O
+centrality	576	586	O
+.	586	587	O
+
+Discrepancies	588	601	B-Process
+with	602	606	I-Process
+particle	607	615	I-Process
+ratios	616	622	I-Process
+appear	623	629	O
+and	630	633	O
+are	634	637	O
+examined	638	646	O
+comparing	647	656	O
+with	657	661	O
+previous	662	670	O
+features	671	679	O
+of	680	682	O
+the	683	686	O
+model	687	692	O
+at	693	695	O
+SPS	696	699	O
+.	699	700	O
 
 
 -DOCSTART- (S0370269302012492)
 
-In	NN	O	O
-this	NN	O	O
-section	NN	O	O
-we	NN	O	O
-wish	NN	O	O
-to	NN	O	O
-calculate	NN	O	B-Task
-the	NN	O	I-Task
-cross	NN	O	I-Task
-section	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-absorption	NN	O	I-Task
-of	NN	O	I-Task
-massless	NN	O	I-Task
-scalars	NN	O	I-Task
-by	NN	O	O
-the	NN	O	O
-self	NN	O	B-Process
--	NN	O	I-Process
-dual	NN	O	I-Process
-string	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-world	NN	O	O
-volume	NN	O	O
-of	NN	O	O
-the	NN	O	O
-M	NN	O	B-Material
--	NN	O	I-Material
-theory	NN	O	I-Material
-five	NN	O	I-Material
--	NN	O	I-Material
-brane	NN	O	I-Material
-.	NN	O	O
-
-We	NN	O	O
-will	NN	O	O
-adopt	NN	O	O
-an	NN	O	O
-entirely	NN	O	B-Process
-world	NN	O	I-Process
-volume	NN	O	I-Process
-approach	NN	O	I-Process
-similar	NN	O	O
-to	NN	O	O
-that	NN	O	O
-of	NN	O	O
-[	NN	O	O
-21–23	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-begin	NN	O	O
-by	NN	O	O
-writing	NN	O	O
-the	NN	O	O
-equation	NN	O	O
-satisfied	NN	O	O
-by	NN	O	O
-the	NN	O	O
-s	NN	O	B-Material
--	NN	O	I-Material
-wave	NN	O	I-Material
-with	NN	O	O
-energy	NN	O	O
-ω	NN	O	O
-,	NN	O	O
-φ(r	NN	O	O
-,	NN	O	O
-t)=φ(r)eiωt	NN	O	O
-,	NN	O	O
-of	NN	O	O
-the	NN	O	O
-linear	NN	O	B-Process
-fluctuations	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-four	NN	O	O
-overall	NN	O	O
-transverse	NN	O	O
-scalars	NN	O	O
-about	NN	O	O
-the	NN	O	O
-self	NN	O	O
--	NN	O	O
-dual	NN	O	O
-string	NN	O	O
-,	NN	O	O
-(	NN	O	O
-it	NN	O	O
-is	NN	O	O
-known	NN	O	O
-that	NN	O	O
-there	NN	O	O
-are	NN	O	O
-problems	NN	O	O
-when	NN	O	O
-one	NN	O	O
-considers	NN	O	O
-higher	NN	O	B-Process
-angular	NN	O	I-Process
-momentum	NN	O	I-Process
-modes	NN	O	I-Process
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-,	NN	O	O
-one	NN	O	O
-must	NN	O	O
-take	NN	O	O
-care	NN	O	O
-with	NN	O	O
-the	NN	O	O
-validity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-linearized	NN	O	B-Process
-approximation	NN	O	I-Process
-,	NN	O	O
-this	NN	O	O
-is	NN	O	O
-discussed	NN	O	O
-in	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-)	NN	O	O
-:	NN	O	O
-(	NN	O	O
-15)ρ−3ddρρ3ddρ+1+R6ω6ρ6φ(ρ)=0	NN	O	O
-,	NN	O	O
-where	NN	O	O
-ρ=rω	NN	O	O
-,	NN	O	O
-R	NN	O	O
-=	NN	O	O
-Q1/3ℓp	NN	O	O
-.	NN	O	O
-
-Note	NN	O	O
-,	NN	O	O
-as	NN	O	O
-pointed	NN	O	O
-out	NN	O	O
-by	NN	O	O
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-world	NN	O	B-Process
-volume	NN	O	I-Process
-solitons	NN	O	I-Process
-have	NN	O	O
-a	NN	O	O
-much	NN	O	O
-sharper	NN	O	O
-potential	NN	O	O
-than	NN	O	O
-the	NN	O	O
-Coulomb	NN	O	O
-type	NN	O	O
-potential	NN	O	O
-typical	NN	O	O
-of	NN	O	O
-brane	NN	O	B-Process
-solutions	NN	O	I-Process
-in	NN	O	O
-supergravity	NN	O	O
-;	NN	O	O
-thus	NN	O	O
-this	NN	O	O
-scattering	NN	O	O
-is	NN	O	O
-different	NN	O	O
-to	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-string	NN	O	O
-in	NN	O	O
-six	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-supergravity	NN	O	O
-.	NN	O	O
-
-Nevertheless	NN	O	O
-,	NN	O	O
-for	NN	O	O
-small	NN	O	B-Task
-ωR	NN	O	I-Task
-one	NN	O	O
-may	NN	O	O
-solve	NN	O	O
-this	NN	O	O
-problem	NN	O	O
-by	NN	O	O
-matching	NN	O	O
-an	NN	O	O
-approximate	NN	O	B-Process
-solution	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-inner	NN	O	O
-region	NN	O	O
-to	NN	O	O
-an	NN	O	O
-approximate	NN	O	B-Process
-solution	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-outer	NN	O	O
-region	NN	O	O
-;	NN	O	O
-this	NN	O	O
-follows	NN	O	O
-closely	NN	O	O
-the	NN	O	O
-supergravity	NN	O	B-Process
-calculation	NN	O	I-Process
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+section	8	15	O
+we	16	18	O
+wish	19	23	O
+to	24	26	O
+calculate	27	36	B-Task
+the	37	40	I-Task
+cross	41	46	I-Task
+section	47	54	I-Task
+for	55	58	I-Task
+the	59	62	I-Task
+absorption	63	73	I-Task
+of	74	76	I-Task
+massless	77	85	I-Task
+scalars	86	93	I-Task
+by	94	96	O
+the	97	100	O
+self	101	105	B-Process
+-	105	106	I-Process
+dual	106	110	I-Process
+string	111	117	I-Process
+in	118	120	O
+the	121	124	O
+world	125	130	O
+volume	131	137	O
+of	138	140	O
+the	141	144	O
+M	145	146	B-Material
+-	146	147	I-Material
+theory	147	153	I-Material
+five	154	158	I-Material
+-	158	159	I-Material
+brane	159	164	I-Material
+.	164	165	O
+
+We	166	168	O
+will	169	173	O
+adopt	174	179	O
+an	180	182	O
+entirely	183	191	B-Process
+world	192	197	I-Process
+volume	198	204	I-Process
+approach	205	213	I-Process
+similar	214	221	O
+to	222	224	O
+that	225	229	O
+of	230	232	O
+[	233	234	O
+21–23	234	239	O
+]	239	240	O
+.	240	241	O
+
+We	242	244	O
+begin	245	250	O
+by	251	253	O
+writing	254	261	O
+the	262	265	O
+equation	266	274	O
+satisfied	275	284	O
+by	285	287	O
+the	288	291	O
+s	292	293	B-Material
+-	293	294	I-Material
+wave	294	298	I-Material
+with	299	303	O
+energy	304	310	O
+ω	311	312	O
+,	312	313	O
+φ(r	314	317	O
+,	317	318	O
+t)=φ(r)eiωt	318	329	O
+,	329	330	O
+of	331	333	O
+the	334	337	O
+linear	338	344	B-Process
+fluctuations	345	357	I-Process
+of	358	360	O
+the	361	364	O
+four	365	369	O
+overall	370	377	O
+transverse	378	388	O
+scalars	389	396	O
+about	397	402	O
+the	403	406	O
+self	407	411	O
+-	411	412	O
+dual	412	416	O
+string	417	423	O
+,	423	424	O
+(	425	426	O
+it	426	428	O
+is	429	431	O
+known	432	437	O
+that	438	442	O
+there	443	448	O
+are	449	452	O
+problems	453	461	O
+when	462	466	O
+one	467	470	O
+considers	471	480	O
+higher	481	487	B-Process
+angular	488	495	I-Process
+momentum	496	504	I-Process
+modes	505	510	I-Process
+[	511	512	O
+23	512	514	O
+]	514	515	O
+,	515	516	O
+one	517	520	O
+must	521	525	O
+take	526	530	O
+care	531	535	O
+with	536	540	O
+the	541	544	O
+validity	545	553	O
+of	554	556	O
+the	557	560	O
+linearized	561	571	B-Process
+approximation	572	585	I-Process
+,	585	586	O
+this	587	591	O
+is	592	594	O
+discussed	595	604	O
+in	605	607	O
+[	608	609	O
+13	609	611	O
+]	611	612	O
+)	612	613	O
+:	613	614	O
+(	615	616	O
+15)ρ−3ddρρ3ddρ+1+R6ω6ρ6φ(ρ)=0	616	645	O
+,	645	646	O
+where	647	652	O
+ρ=rω	653	657	O
+,	657	658	O
+R	659	660	O
+=	660	661	O
+Q1/3ℓp	661	667	O
+.	667	668	O
+
+Note	669	673	O
+,	673	674	O
+as	675	677	O
+pointed	678	685	O
+out	686	689	O
+by	690	692	O
+[	693	694	O
+11	694	696	O
+]	696	697	O
+world	698	703	B-Process
+volume	704	710	I-Process
+solitons	711	719	I-Process
+have	720	724	O
+a	725	726	O
+much	727	731	O
+sharper	732	739	O
+potential	740	749	O
+than	750	754	O
+the	755	758	O
+Coulomb	759	766	O
+type	767	771	O
+potential	772	781	O
+typical	782	789	O
+of	790	792	O
+brane	793	798	B-Process
+solutions	799	808	I-Process
+in	809	811	O
+supergravity	812	824	O
+;	824	825	O
+thus	826	830	O
+this	831	835	O
+scattering	836	846	O
+is	847	849	O
+different	850	859	O
+to	860	862	O
+that	863	867	O
+of	868	870	O
+the	871	874	O
+string	875	881	O
+in	882	884	O
+six	885	888	O
+-	888	889	O
+dimensional	889	900	O
+supergravity	901	913	O
+.	913	914	O
+
+Nevertheless	915	927	O
+,	927	928	O
+for	929	932	O
+small	933	938	B-Task
+ωR	939	941	I-Task
+one	942	945	O
+may	946	949	O
+solve	950	955	O
+this	956	960	O
+problem	961	968	O
+by	969	971	O
+matching	972	980	O
+an	981	983	O
+approximate	984	995	B-Process
+solution	996	1004	I-Process
+in	1005	1007	O
+the	1008	1011	O
+inner	1012	1017	O
+region	1018	1024	O
+to	1025	1027	O
+an	1028	1030	O
+approximate	1031	1042	B-Process
+solution	1043	1051	I-Process
+in	1052	1054	O
+the	1055	1058	O
+outer	1059	1064	O
+region	1065	1071	O
+;	1071	1072	O
+this	1073	1077	O
+follows	1078	1085	O
+closely	1086	1093	O
+the	1094	1097	O
+supergravity	1098	1110	B-Process
+calculation	1111	1122	I-Process
+[	1123	1124	O
+24	1124	1126	O
+]	1126	1127	O
+.	1127	1128	O
 
 
 -DOCSTART- (S0370269302013412)
 
-We	NN	O	O
-consider	NN	O	B-Task
-cosmological	NN	O	I-Task
-consequences	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-conformal	NN	O	I-Task
--	NN	O	I-Task
-invariant	NN	O	I-Task
-formulation	NN	O	I-Task
-of	NN	O	I-Task
-Einstein	NN	O	I-Task
-'s	NN	O	I-Task
-General	NN	O	I-Task
-Relativity	NN	O	I-Task
-where	NN	O	O
-instead	NN	O	O
-of	NN	O	O
-the	NN	O	O
-scale	NN	O	B-Material
-factor	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-spatial	NN	O	O
-metrics	NN	O	O
-in	NN	O	O
-the	NN	O	O
-action	NN	O	O
-functional	NN	O	O
-a	NN	O	O
-massless	NN	O	B-Material
-scalar	NN	O	I-Material
-(	NN	O	I-Material
-dilaton	NN	O	I-Material
-)	NN	O	I-Material
-field	NN	O	I-Material
-occurs	NN	O	O
-which	NN	O	O
-scales	NN	O	O
-all	NN	O	O
-masses	NN	O	B-Material
-including	NN	O	O
-the	NN	O	O
-Planck	NN	O	B-Material
-mass	NN	O	I-Material
-.	NN	O	O
-
-Instead	NN	O	O
-of	NN	O	O
-the	NN	O	O
-expansion	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-universe	NN	O	I-Process
-we	NN	O	O
-obtain	NN	O	O
-the	NN	O	O
-Hoyle	NN	O	B-Process
-–	NN	O	I-Process
-Narlikar	NN	O	I-Process
-type	NN	O	I-Process
-of	NN	O	I-Process
-mass	NN	O	I-Process
-evolution	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-temperature	NN	O	B-Process
-history	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-universe	NN	O	I-Process
-is	NN	O	O
-replaced	NN	O	O
-by	NN	O	O
-the	NN	O	O
-mass	NN	O	B-Process
-history	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-show	NN	O	O
-that	NN	O	O
-this	NN	O	O
-conformal	NN	O	B-Process
--	NN	O	I-Process
-invariant	NN	O	I-Process
-cosmological	NN	O	I-Process
-model	NN	O	I-Process
-gives	NN	O	O
-a	NN	O	O
-satisfactory	NN	O	O
-description	NN	O	O
-of	NN	O	O
-the	NN	O	O
-new	NN	O	O
-supernova	NN	O	B-Material
-Ia	NN	O	I-Material
-data	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-effective	NN	O	B-Process
-magnitude	NN	O	I-Process
-–	NN	O	I-Process
-redshift	NN	O	I-Process
-relation	NN	O	I-Process
-without	NN	O	O
-a	NN	O	O
-cosmological	NN	O	B-Material
-constant	NN	O	I-Material
-and	NN	O	O
-make	NN	O	O
-a	NN	O	O
-prediction	NN	O	O
-for	NN	O	O
-the	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-redshift	NN	O	I-Process
-behavior	NN	O	I-Process
-which	NN	O	O
-deviates	NN	O	O
-from	NN	O	O
-that	NN	O	O
-of	NN	O	O
-standard	NN	O	B-Task
-cosmology	NN	O	I-Task
-for	NN	O	O
-z>1.7	NN	O	O
-.	NN	O	O
+We	0	2	O
+consider	3	11	B-Task
+cosmological	12	24	I-Task
+consequences	25	37	I-Task
+of	38	40	I-Task
+a	41	42	I-Task
+conformal	43	52	I-Task
+-	52	53	I-Task
+invariant	53	62	I-Task
+formulation	63	74	I-Task
+of	75	77	I-Task
+Einstein	78	86	I-Task
+'s	86	88	I-Task
+General	89	96	I-Task
+Relativity	97	107	I-Task
+where	108	113	O
+instead	114	121	O
+of	122	124	O
+the	125	128	O
+scale	129	134	B-Material
+factor	135	141	I-Material
+of	142	144	O
+the	145	148	O
+spatial	149	156	O
+metrics	157	164	O
+in	165	167	O
+the	168	171	O
+action	172	178	O
+functional	179	189	O
+a	190	191	O
+massless	192	200	B-Material
+scalar	201	207	I-Material
+(	208	209	I-Material
+dilaton	209	216	I-Material
+)	216	217	I-Material
+field	218	223	I-Material
+occurs	224	230	O
+which	231	236	O
+scales	237	243	O
+all	244	247	O
+masses	248	254	B-Material
+including	255	264	O
+the	265	268	O
+Planck	269	275	B-Material
+mass	276	280	I-Material
+.	280	281	O
+
+Instead	282	289	O
+of	290	292	O
+the	293	296	O
+expansion	297	306	B-Process
+of	307	309	I-Process
+the	310	313	I-Process
+universe	314	322	I-Process
+we	323	325	O
+obtain	326	332	O
+the	333	336	O
+Hoyle	337	342	B-Process
+–	342	343	I-Process
+Narlikar	343	351	I-Process
+type	352	356	I-Process
+of	357	359	I-Process
+mass	360	364	I-Process
+evolution	365	374	I-Process
+,	374	375	O
+where	376	381	O
+the	382	385	O
+temperature	386	397	B-Process
+history	398	405	I-Process
+of	406	408	I-Process
+the	409	412	I-Process
+universe	413	421	I-Process
+is	422	424	O
+replaced	425	433	O
+by	434	436	O
+the	437	440	O
+mass	441	445	B-Process
+history	446	453	I-Process
+.	453	454	O
+
+We	455	457	O
+show	458	462	O
+that	463	467	O
+this	468	472	O
+conformal	473	482	B-Process
+-	482	483	I-Process
+invariant	483	492	I-Process
+cosmological	493	505	I-Process
+model	506	511	I-Process
+gives	512	517	O
+a	518	519	O
+satisfactory	520	532	O
+description	533	544	O
+of	545	547	O
+the	548	551	O
+new	552	555	O
+supernova	556	565	B-Material
+Ia	566	568	I-Material
+data	569	573	I-Material
+for	574	577	O
+the	578	581	O
+effective	582	591	B-Process
+magnitude	592	601	I-Process
+–	601	602	I-Process
+redshift	602	610	I-Process
+relation	611	619	I-Process
+without	620	627	O
+a	628	629	O
+cosmological	630	642	B-Material
+constant	643	651	I-Material
+and	652	655	O
+make	656	660	O
+a	661	662	O
+prediction	663	673	O
+for	674	677	O
+the	678	681	O
+high	682	686	B-Process
+-	686	687	I-Process
+redshift	687	695	I-Process
+behavior	696	704	I-Process
+which	705	710	O
+deviates	711	719	O
+from	720	724	O
+that	725	729	O
+of	730	732	O
+standard	733	741	B-Task
+cosmology	742	751	I-Task
+for	752	755	O
+z>1.7	756	761	O
+.	761	762	O
 
 
 -DOCSTART- (S0370269302014880)
 
-Production	NN	O	B-Task
-of	NN	O	I-Task
-charmonium	NN	O	I-Task
-states	NN	O	I-Task
-J/ψ	NN	O	I-Task
-and	NN	O	I-Task
-ψ′	NN	O	I-Task
-in	NN	O	I-Task
-nucleus	NN	O	I-Task
-–	NN	O	I-Task
-nucleus	NN	O	I-Task
-collisions	NN	O	I-Task
-has	NN	O	O
-been	NN	O	O
-studied	NN	O	O
-at	NN	O	O
-CERN	NN	O	O
-SPS	NN	O	O
-over	NN	O	O
-the	NN	O	O
-previous	NN	O	O
-15	NN	O	O
-years	NN	O	O
-by	NN	O	O
-the	NN	O	O
-NA38	NN	O	O
-and	NN	O	O
-NA50	NN	O	O
-Collaborations	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-experimental	NN	O	B-Task
-program	NN	O	I-Task
-was	NN	O	O
-mainly	NN	O	O
-motivated	NN	O	O
-by	NN	O	O
-the	NN	O	O
-suggestion	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-to	NN	O	O
-use	NN	O	B-Task
-the	NN	O	I-Task
-J/ψ	NN	O	I-Task
-as	NN	O	I-Task
-a	NN	O	I-Task
-probe	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-state	NN	O	I-Task
-of	NN	O	I-Task
-matter	NN	O	I-Task
-created	NN	O	I-Task
-at	NN	O	I-Task
-the	NN	O	I-Task
-early	NN	O	I-Task
-stage	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-collision	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-original	NN	O	B-Material
-picture	NN	O	I-Material
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-(	NN	O	O
-see	NN	O	O
-also	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-for	NN	O	O
-a	NN	O	O
-modern	NN	O	O
-review	NN	O	O
-)	NN	O	O
-assumes	NN	O	O
-that	NN	O	O
-charmonia	NN	O	B-Material
-are	NN	O	O
-created	NN	O	O
-exclusively	NN	O	O
-at	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-stage	NN	O	O
-of	NN	O	O
-the	NN	O	O
-reaction	NN	O	O
-in	NN	O	O
-primary	NN	O	B-Process
-nucleon	NN	O	I-Process
-–	NN	O	I-Process
-nucleon	NN	O	I-Process
-collisions	NN	O	I-Process
-.	NN	O	O
-
-During	NN	O	O
-the	NN	O	O
-subsequent	NN	O	B-Process
-evolution	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-system	NN	O	I-Process
-,	NN	O	I-Process
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-hidden	NN	O	B-Material
-charm	NN	O	I-Material
-mesons	NN	O	I-Material
-is	NN	O	O
-reduced	NN	O	O
-because	NN	O	O
-of	NN	O	O
-:	NN	O	O
-(	NN	O	O
-a	NN	O	O
-)	NN	O	O
-absorption	NN	O	B-Process
-of	NN	O	I-Process
-pre	NN	O	I-Process
--	NN	O	I-Process
-resonance	NN	O	I-Process
-charmonium	NN	O	I-Process
-states	NN	O	I-Process
-by	NN	O	I-Process
-nuclear	NN	O	I-Process
-nucleons	NN	O	I-Process
-(	NN	O	O
-normal	NN	O	B-Process
-nuclear	NN	O	I-Process
-suppression	NN	O	I-Process
-)	NN	O	O
-,	NN	O	O
-(	NN	O	O
-b	NN	O	O
-)	NN	O	O
-interactions	NN	O	B-Process
-of	NN	O	I-Process
-charmonia	NN	O	I-Process
-with	NN	O	I-Process
-secondary	NN	O	I-Process
-hadrons	NN	O	I-Process
-(	NN	O	O
-comovers	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-(	NN	O	O
-c	NN	O	O
-)	NN	O	O
-dissociation	NN	O	B-Process
-of	NN	O	I-Process
-cc̄	NN	O	I-Process
-bound	NN	O	I-Process
-states	NN	O	I-Process
-in	NN	O	I-Process
-deconfined	NN	O	I-Process
-medium	NN	O	I-Process
-(	NN	O	O
-anomalous	NN	O	B-Process
-suppression	NN	O	I-Process
-)	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-was	NN	O	O
-found	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-that	NN	O	O
-J/ψ	NN	O	B-Process
-suppression	NN	O	I-Process
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-Drell	NN	O	B-Material
-–	NN	O	I-Material
-Yan	NN	O	I-Material
-muon	NN	O	I-Material
-pairs	NN	O	I-Material
-measured	NN	O	O
-in	NN	O	O
-proton	NN	O	B-Material
-–	NN	O	I-Material
-nucleus	NN	O	I-Material
-and	NN	O	O
-nucleus	NN	O	O
-–	NN	O	O
-
-nucleus	NN	O	O
-collisions	NN	O	O
-with	NN	O	O
-light	NN	O	B-Material
-projectiles	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-explained	NN	O	O
-by	NN	O	O
-the	NN	O	O
-so	NN	O	O
--	NN	O	O
-called	NN	O	O
-“	NN	O	O
-normal	NN	O	O
-”	NN	O	O
-(	NN	O	O
-due	NN	O	O
-to	NN	O	O
-sweeping	NN	O	B-Material
-nucleons	NN	O	I-Material
-)	NN	O	O
-nuclear	NN	O	B-Process
-suppression	NN	O	I-Process
-alone	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-contrast	NN	O	O
-,	NN	O	O
-the	NN	O	O
-NA50	NN	O	B-Task
-experiment	NN	O	I-Task
-with	NN	O	O
-a	NN	O	O
-heavy	NN	O	B-Material
-projectile	NN	O	I-Material
-and	NN	O	I-Material
-target	NN	O	I-Material
-(	NN	O	O
-Pb+Pb	NN	O	B-Material
-)	NN	O	O
-revealed	NN	O	O
-essentially	NN	O	O
-stronger	NN	O	O
-J/ψ	NN	O	B-Process
-suppression	NN	O	I-Process
-for	NN	O	O
-central	NN	O	B-Process
-collisions	NN	O	I-Process
-[	NN	O	O
-4–7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-anomalous	NN	O	O
-J/ψ	NN	O	B-Process
-suppression	NN	O	I-Process
-was	NN	O	O
-attributed	NN	O	O
-to	NN	O	O
-formation	NN	O	B-Process
-of	NN	O	I-Process
-quark	NN	O	I-Process
-–	NN	O	I-Process
-gluon	NN	O	I-Process
-plasma	NN	O	I-Process
-(	NN	O	O
-QGP	NN	O	B-Material
-)	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-,	NN	O	O
-but	NN	O	O
-a	NN	O	O
-comover	NN	O	B-Process
-scenario	NN	O	I-Process
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-excluded	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Production	0	10	B-Task
+of	11	13	I-Task
+charmonium	14	24	I-Task
+states	25	31	I-Task
+J/ψ	32	35	I-Task
+and	36	39	I-Task
+ψ′	40	42	I-Task
+in	43	45	I-Task
+nucleus	46	53	I-Task
+–	53	54	I-Task
+nucleus	54	61	I-Task
+collisions	62	72	I-Task
+has	73	76	O
+been	77	81	O
+studied	82	89	O
+at	90	92	O
+CERN	93	97	O
+SPS	98	101	O
+over	102	106	O
+the	107	110	O
+previous	111	119	O
+15	120	122	O
+years	123	128	O
+by	129	131	O
+the	132	135	O
+NA38	136	140	O
+and	141	144	O
+NA50	145	149	O
+Collaborations	150	164	O
+.	164	165	O
+
+This	166	170	O
+experimental	171	183	B-Task
+program	184	191	I-Task
+was	192	195	O
+mainly	196	202	O
+motivated	203	212	O
+by	213	215	O
+the	216	219	O
+suggestion	220	230	O
+[	231	232	O
+1	232	233	O
+]	233	234	O
+to	235	237	O
+use	238	241	B-Task
+the	242	245	I-Task
+J/ψ	246	249	I-Task
+as	250	252	I-Task
+a	253	254	I-Task
+probe	255	260	I-Task
+of	261	263	I-Task
+the	264	267	I-Task
+state	268	273	I-Task
+of	274	276	I-Task
+matter	277	283	I-Task
+created	284	291	I-Task
+at	292	294	I-Task
+the	295	298	I-Task
+early	299	304	I-Task
+stage	305	310	I-Task
+of	311	313	I-Task
+the	314	317	I-Task
+collision	318	327	I-Task
+.	327	328	O
+
+The	329	332	O
+original	333	341	B-Material
+picture	342	349	I-Material
+[	350	351	O
+1	351	352	O
+]	352	353	O
+(	354	355	O
+see	355	358	O
+also	359	363	O
+[	364	365	O
+2	365	366	O
+]	366	367	O
+for	368	371	O
+a	372	373	O
+modern	374	380	O
+review	381	387	O
+)	387	388	O
+assumes	389	396	O
+that	397	401	O
+charmonia	402	411	B-Material
+are	412	415	O
+created	416	423	O
+exclusively	424	435	O
+at	436	438	O
+the	439	442	O
+initial	443	450	O
+stage	451	456	O
+of	457	459	O
+the	460	463	O
+reaction	464	472	O
+in	473	475	O
+primary	476	483	B-Process
+nucleon	484	491	I-Process
+–	491	492	I-Process
+nucleon	492	499	I-Process
+collisions	500	510	I-Process
+.	510	511	O
+
+During	512	518	O
+the	519	522	O
+subsequent	523	533	B-Process
+evolution	534	543	I-Process
+of	544	546	I-Process
+the	547	550	I-Process
+system	551	557	I-Process
+,	557	558	I-Process
+the	559	562	O
+number	563	569	O
+of	570	572	O
+hidden	573	579	B-Material
+charm	580	585	I-Material
+mesons	586	592	I-Material
+is	593	595	O
+reduced	596	603	O
+because	604	611	O
+of	612	614	O
+:	614	615	O
+(	616	617	O
+a	617	618	O
+)	618	619	O
+absorption	620	630	B-Process
+of	631	633	I-Process
+pre	634	637	I-Process
+-	637	638	I-Process
+resonance	638	647	I-Process
+charmonium	648	658	I-Process
+states	659	665	I-Process
+by	666	668	I-Process
+nuclear	669	676	I-Process
+nucleons	677	685	I-Process
+(	686	687	O
+normal	687	693	B-Process
+nuclear	694	701	I-Process
+suppression	702	713	I-Process
+)	713	714	O
+,	714	715	O
+(	716	717	O
+b	717	718	O
+)	718	719	O
+interactions	720	732	B-Process
+of	733	735	I-Process
+charmonia	736	745	I-Process
+with	746	750	I-Process
+secondary	751	760	I-Process
+hadrons	761	768	I-Process
+(	769	770	O
+comovers	770	778	B-Process
+)	778	779	O
+,	779	780	O
+(	781	782	O
+c	782	783	O
+)	783	784	O
+dissociation	785	797	B-Process
+of	798	800	I-Process
+cc̄	801	804	I-Process
+bound	805	810	I-Process
+states	811	817	I-Process
+in	818	820	I-Process
+deconfined	821	831	I-Process
+medium	832	838	I-Process
+(	839	840	O
+anomalous	840	849	B-Process
+suppression	850	861	I-Process
+)	861	862	O
+.	862	863	O
+
+It	864	866	O
+was	867	870	O
+found	871	876	O
+[	877	878	O
+3	878	879	O
+]	879	880	O
+that	881	885	O
+J/ψ	886	889	B-Process
+suppression	890	901	I-Process
+with	902	906	O
+respect	907	914	O
+to	915	917	O
+Drell	918	923	B-Material
+–	923	924	I-Material
+Yan	924	927	I-Material
+muon	928	932	I-Material
+pairs	933	938	I-Material
+measured	939	947	O
+in	948	950	O
+proton	951	957	B-Material
+–	957	958	I-Material
+nucleus	958	965	I-Material
+and	966	969	O
+nucleus	970	977	O
+–	977	978	O
+
+nucleus	978	985	O
+collisions	986	996	O
+with	997	1001	O
+light	1002	1007	B-Material
+projectiles	1008	1019	I-Material
+can	1020	1023	O
+be	1024	1026	O
+explained	1027	1036	O
+by	1037	1039	O
+the	1040	1043	O
+so	1044	1046	O
+-	1046	1047	O
+called	1047	1053	O
+“	1054	1055	O
+normal	1055	1061	O
+”	1061	1062	O
+(	1063	1064	O
+due	1064	1067	O
+to	1068	1070	O
+sweeping	1071	1079	B-Material
+nucleons	1080	1088	I-Material
+)	1088	1089	O
+nuclear	1090	1097	B-Process
+suppression	1098	1109	I-Process
+alone	1110	1115	O
+.	1115	1116	O
+
+In	1117	1119	O
+contrast	1120	1128	O
+,	1128	1129	O
+the	1130	1133	O
+NA50	1134	1138	B-Task
+experiment	1139	1149	I-Task
+with	1150	1154	O
+a	1155	1156	O
+heavy	1157	1162	B-Material
+projectile	1163	1173	I-Material
+and	1174	1177	I-Material
+target	1178	1184	I-Material
+(	1185	1186	O
+Pb+Pb	1186	1191	B-Material
+)	1191	1192	O
+revealed	1193	1201	O
+essentially	1202	1213	O
+stronger	1214	1222	O
+J/ψ	1223	1226	B-Process
+suppression	1227	1238	I-Process
+for	1239	1242	O
+central	1243	1250	B-Process
+collisions	1251	1261	I-Process
+[	1262	1263	O
+4–7	1263	1266	O
+]	1266	1267	O
+.	1267	1268	O
+
+This	1269	1273	O
+anomalous	1274	1283	O
+J/ψ	1284	1287	B-Process
+suppression	1288	1299	I-Process
+was	1300	1303	O
+attributed	1304	1314	O
+to	1315	1317	O
+formation	1318	1327	B-Process
+of	1328	1330	I-Process
+quark	1331	1336	I-Process
+–	1336	1337	I-Process
+gluon	1337	1342	I-Process
+plasma	1343	1349	I-Process
+(	1350	1351	O
+QGP	1351	1354	B-Material
+)	1354	1355	O
+[	1356	1357	O
+7	1357	1358	O
+]	1358	1359	O
+,	1359	1360	O
+but	1361	1364	O
+a	1365	1366	O
+comover	1367	1374	B-Process
+scenario	1375	1383	I-Process
+can	1384	1387	O
+not	1387	1390	O
+be	1391	1393	O
+excluded	1394	1402	O
+[	1403	1404	O
+8	1404	1405	O
+]	1405	1406	O
+.	1406	1407	O
 
 
 -DOCSTART- (S0370269302014892)
 
-Brodsky	NN	O	O
-and	NN	O	O
-Lepage	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-have	NN	O	O
-proposed	NN	O	O
-a	NN	O	O
-formula	NN	O	B-Task
-for	NN	O	I-Task
-meson	NN	O	I-Task
-pair	NN	O	I-Task
-production	NN	O	I-Task
-which	NN	O	O
-looks	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-(	NN	O	O
-25	NN	O	O
-)	NN	O	O
-,	NN	O	O
-except	NN	O	O
-for	NN	O	O
-a	NN	O	O
-different	NN	O	O
-charge	NN	O	O
-factor	NN	O	O
-and	NN	O	O
-the	NN	O	O
-appearance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-timelike	NN	O	O
-electromagnetic	NN	O	B-Material
-meson	NN	O	I-Material
-form	NN	O	O
-factor	NN	O	O
-instead	NN	O	O
-of	NN	O	O
-the	NN	O	O
-annihilation	NN	O	O
-form	NN	O	O
-factor	NN	O	O
-R(s	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-formula	NN	O	B-Task
-was	NN	O	O
-obtained	NN	O	O
-from	NN	O	O
-the	NN	O	O
-leading	NN	O	O
--	NN	O	O
-twist	NN	O	O
-result	NN	O	O
-by	NN	O	O
-neglecting	NN	O	B-Process
-part	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-amplitudes	NN	O	I-Process
-with	NN	O	I-Process
-opposite	NN	O	I-Process
-photon	NN	O	I-Process
-helicities	NN	O	I-Process
-.	NN	O	O
-
-As	NN	O	O
-has	NN	O	O
-been	NN	O	O
-pointed	NN	O	O
-out	NN	O	O
-in	NN	O	O
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-,	NN	O	O
-this	NN	O	O
-part	NN	O	O
-is	NN	O	O
-however	NN	O	O
-not	NN	O	O
-approximately	NN	O	O
-independent	NN	O	O
-of	NN	O	O
-the	NN	O	O
-pion	NN	O	O
-distribution	NN	O	O
-amplitude	NN	O	O
-and	NN	O	O
-not	NN	O	O
-generically	NN	O	O
-small	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-also	NN	O	O
-remark	NN	O	O
-that	NN	O	O
-the	NN	O	O
-appearance	NN	O	O
-of	NN	O	O
-Fπ(s	NN	O	O
-)	NN	O	O
-in	NN	O	O
-the	NN	O	O
-γγ→π+π−	NN	O	O
-amplitude	NN	O	O
-is	NN	O	O
-no	NN	O	O
-longer	NN	O	O
-observed	NN	O	O
-if	NN	O	O
-corrections	NN	O	O
-from	NN	O	O
-partonic	NN	O	B-Process
-transverse	NN	O	I-Process
-momentum	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-hard	NN	O	B-Process
-scattering	NN	O	I-Process
-process	NN	O	I-Process
-are	NN	O	O
-taken	NN	O	O
-into	NN	O	O
-account	NN	O	O
-,	NN	O	O
-and	NN	O	O
-that	NN	O	O
-these	NN	O	O
-corrections	NN	O	O
-are	NN	O	O
-not	NN	O	O
-numerically	NN	O	O
-small	NN	O	O
-for	NN	O	O
-the	NN	O	O
-values	NN	O	O
-of	NN	O	O
-s	NN	O	O
-we	NN	O	O
-are	NN	O	O
-dealing	NN	O	O
-with	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Notice	NN	O	O
-further	NN	O	O
-that	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-photon	NN	O	I-Process
-annihilation	NN	O	I-Process
-produces	NN	O	O
-two	NN	O	O
-pions	NN	O	B-Material
-in	NN	O	O
-a	NN	O	O
-C	NN	O	O
--	NN	O	O
-even	NN	O	O
-state	NN	O	O
-,	NN	O	O
-whereas	NN	O	O
-the	NN	O	O
-electromagnetic	NN	O	B-Process
-form	NN	O	I-Process
-factor	NN	O	I-Process
-projects	NN	O	O
-on	NN	O	O
-the	NN	O	O
-C	NN	O	O
--	NN	O	O
-odd	NN	O	O
-state	NN	O	O
-of	NN	O	O
-a	NN	O	O
-pion	NN	O	B-Material
-pair	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-contrast	NN	O	O
-,	NN	O	O
-our	NN	O	O
-annihilation	NN	O	B-Material
-form	NN	O	I-Material
-factor	NN	O	I-Material
-R2π(s	NN	O	B-Material
-)	NN	O	I-Material
-is	NN	O	O
-C	NN	O	O
--	NN	O	O
-even	NN	O	O
-as	NN	O	O
-discussed	NN	O	O
-after	NN	O	O
-(	NN	O	O
-24	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Finally	NN	O	O
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-a	NN	O	O
-particular	NN	O	O
-charge	NN	O	O
-factor	NN	O	O
-,	NN	O	O
-the	NN	O	O
-Brodsky	NN	O	B-Task
-–	NN	O	I-Task
-Lepage	NN	O	I-Task
-formula	NN	O	I-Task
-leads	NN	O	O
-to	NN	O	O
-a	NN	O	O
-vanishing	NN	O	B-Process
-cross	NN	O	I-Process
-section	NN	O	I-Process
-for	NN	O	I-Process
-γγ	NN	O	I-Process
-annihilation	NN	O	I-Process
-into	NN	O	O
-pairs	NN	O	O
-of	NN	O	O
-neutral	NN	O	B-Material
-pseudoscalars	NN	O	I-Material
-.	NN	O	O
+Brodsky	0	7	O
+and	8	11	O
+Lepage	12	18	O
+[	19	20	O
+8	20	21	O
+]	21	22	O
+have	23	27	O
+proposed	28	36	O
+a	37	38	O
+formula	39	46	B-Task
+for	47	50	I-Task
+meson	51	56	I-Task
+pair	57	61	I-Task
+production	62	72	I-Task
+which	73	78	O
+looks	79	84	O
+similar	85	92	O
+to	93	95	O
+(	96	97	O
+25	97	99	O
+)	99	100	O
+,	100	101	O
+except	102	108	O
+for	109	112	O
+a	113	114	O
+different	115	124	O
+charge	125	131	O
+factor	132	138	O
+and	139	142	O
+the	143	146	O
+appearance	147	157	O
+of	158	160	O
+the	161	164	O
+timelike	165	173	O
+electromagnetic	174	189	B-Material
+meson	190	195	I-Material
+form	196	200	O
+factor	201	207	O
+instead	208	215	O
+of	216	218	O
+the	219	222	O
+annihilation	223	235	O
+form	236	240	O
+factor	241	247	O
+R(s	248	251	O
+)	251	252	O
+.	252	253	O
+
+This	254	258	O
+formula	259	266	B-Task
+was	267	270	O
+obtained	271	279	O
+from	280	284	O
+the	285	288	O
+leading	289	296	O
+-	296	297	O
+twist	297	302	O
+result	303	309	O
+by	310	312	O
+neglecting	313	323	B-Process
+part	324	328	I-Process
+of	329	331	I-Process
+the	332	335	I-Process
+amplitudes	336	346	I-Process
+with	347	351	I-Process
+opposite	352	360	I-Process
+photon	361	367	I-Process
+helicities	368	378	I-Process
+.	378	379	O
+
+As	380	382	O
+has	383	386	O
+been	387	391	O
+pointed	392	399	O
+out	400	403	O
+in	404	406	O
+[	407	408	O
+9	408	409	O
+]	409	410	O
+,	410	411	O
+this	412	416	O
+part	417	421	O
+is	422	424	O
+however	425	432	O
+not	433	436	O
+approximately	437	450	O
+independent	451	462	O
+of	463	465	O
+the	466	469	O
+pion	470	474	O
+distribution	475	487	O
+amplitude	488	497	O
+and	498	501	O
+not	502	505	O
+generically	506	517	O
+small	518	523	O
+.	523	524	O
+
+We	525	527	O
+also	528	532	O
+remark	533	539	O
+that	540	544	O
+the	545	548	O
+appearance	549	559	O
+of	560	562	O
+Fπ(s	563	567	O
+)	567	568	O
+in	569	571	O
+the	572	575	O
+γγ→π+π−	576	583	O
+amplitude	584	593	O
+is	594	596	O
+no	597	599	O
+longer	600	606	O
+observed	607	615	O
+if	616	618	O
+corrections	619	630	O
+from	631	635	O
+partonic	636	644	B-Process
+transverse	645	655	I-Process
+momentum	656	664	I-Process
+in	665	667	O
+the	668	671	O
+hard	672	676	B-Process
+scattering	677	687	I-Process
+process	688	695	I-Process
+are	696	699	O
+taken	700	705	O
+into	706	710	O
+account	711	718	O
+,	718	719	O
+and	720	723	O
+that	724	728	O
+these	729	734	O
+corrections	735	746	O
+are	747	750	O
+not	751	754	O
+numerically	755	766	O
+small	767	772	O
+for	773	776	O
+the	777	780	O
+values	781	787	O
+of	788	790	O
+s	791	792	O
+we	793	795	O
+are	796	799	O
+dealing	800	807	O
+with	808	812	O
+[	813	814	O
+13	814	816	O
+]	816	817	O
+.	817	818	O
+
+Notice	819	825	O
+further	826	833	O
+that	834	838	O
+two	839	842	B-Process
+-	842	843	I-Process
+photon	843	849	I-Process
+annihilation	850	862	I-Process
+produces	863	871	O
+two	872	875	O
+pions	876	881	B-Material
+in	882	884	O
+a	885	886	O
+C	887	888	O
+-	888	889	O
+even	889	893	O
+state	894	899	O
+,	899	900	O
+whereas	901	908	O
+the	909	912	O
+electromagnetic	913	928	B-Process
+form	929	933	I-Process
+factor	934	940	I-Process
+projects	941	949	O
+on	950	952	O
+the	953	956	O
+C	957	958	O
+-	958	959	O
+odd	959	962	O
+state	963	968	O
+of	969	971	O
+a	972	973	O
+pion	974	978	B-Material
+pair	979	983	I-Material
+.	983	984	O
+
+In	985	987	O
+contrast	988	996	O
+,	996	997	O
+our	998	1001	O
+annihilation	1002	1014	B-Material
+form	1015	1019	I-Material
+factor	1020	1026	I-Material
+R2π(s	1027	1032	B-Material
+)	1032	1033	I-Material
+is	1034	1036	O
+C	1037	1038	O
+-	1038	1039	O
+even	1039	1043	O
+as	1044	1046	O
+discussed	1047	1056	O
+after	1057	1062	O
+(	1063	1064	O
+24	1064	1066	O
+)	1066	1067	O
+.	1067	1068	O
+
+Finally	1069	1076	O
+,	1076	1077	O
+due	1078	1081	O
+to	1082	1084	O
+a	1085	1086	O
+particular	1087	1097	O
+charge	1098	1104	O
+factor	1105	1111	O
+,	1111	1112	O
+the	1113	1116	O
+Brodsky	1117	1124	B-Task
+–	1124	1125	I-Task
+Lepage	1125	1131	I-Task
+formula	1132	1139	I-Task
+leads	1140	1145	O
+to	1146	1148	O
+a	1149	1150	O
+vanishing	1151	1160	B-Process
+cross	1161	1166	I-Process
+section	1167	1174	I-Process
+for	1175	1178	I-Process
+γγ	1179	1181	I-Process
+annihilation	1182	1194	I-Process
+into	1195	1199	O
+pairs	1200	1205	O
+of	1206	1208	O
+neutral	1209	1216	B-Material
+pseudoscalars	1217	1230	I-Material
+.	1230	1231	O
 
 
 -DOCSTART- (S0370269303015478)
 
-Since	NN	O	O
-perturbative	NN	O	B-Process
-expansion	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-impossible	NN	O	O
-to	NN	O	O
-find	NN	O	O
-the	NN	O	O
-exact	NN	O	B-Process
-bounds	NN	O	I-Process
-;	NN	O	O
-instead	NN	O	O
-,	NN	O	O
-one	NN	O	O
-can	NN	O	O
-derive	NN	O	O
-tree	NN	O	B-Process
--	NN	O	I-Process
-level	NN	O	I-Process
-unitarity	NN	O	I-Process
-bounds	NN	O	I-Process
-or	NN	O	O
-loop	NN	O	B-Process
--	NN	O	I-Process
-improved	NN	O	I-Process
-unitarity	NN	O	I-Process
-bounds	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-study	NN	O	O
-,	NN	O	O
-we	NN	O	O
-will	NN	O	O
-use	NN	O	O
-unitarity	NN	O	B-Process
-bounds	NN	O	I-Process
-coming	NN	O	O
-from	NN	O	O
-a	NN	O	O
-tree	NN	O	B-Task
--	NN	O	I-Task
-level	NN	O	I-Task
-analysis	NN	O	I-Task
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-tree	NN	O	B-Task
-level	NN	O	I-Task
-analysis	NN	O	I-Task
-is	NN	O	O
-derived	NN	O	O
-with	NN	O	O
-the	NN	O	O
-help	NN	O	O
-of	NN	O	O
-the	NN	O	O
-equivalence	NN	O	B-Process
-theorem	NN	O	I-Process
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-,	NN	O	O
-which	NN	O	O
-itself	NN	O	O
-is	NN	O	O
-a	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-energy	NN	O	I-Process
-approximation	NN	O	I-Process
-where	NN	O	O
-it	NN	O	O
-is	NN	O	O
-assumed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-energy	NN	O	O
-scale	NN	O	O
-is	NN	O	O
-much	NN	O	O
-larger	NN	O	O
-than	NN	O	O
-the	NN	O	O
-Z0	NN	O	O
-and	NN	O	O
-W±	NN	O	O
-gauge	NN	O	B-Material
--	NN	O	I-Material
-boson	NN	O	I-Material
-masses	NN	O	I-Material
-.	NN	O	O
-
-We	NN	O	O
-will	NN	O	O
-consider	NN	O	O
-here	NN	O	O
-this	NN	O	O
-“	NN	O	O
-high	NN	O	O
--	NN	O	O
-energy	NN	O	O
-”	NN	O	O
-hypothesis	NN	O	O
-that	NN	O	O
-both	NN	O	O
-the	NN	O	O
-equivalence	NN	O	B-Process
-theorem	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-decoupling	NN	O	B-Process
-regime	NN	O	I-Process
-are	NN	O	O
-well	NN	O	O
-settled	NN	O	O
-,	NN	O	O
-but	NN	O	O
-in	NN	O	O
-such	NN	O	O
-a	NN	O	O
-way	NN	O	O
-that	NN	O	O
-the	NN	O	O
-unitarity	NN	O	B-Process
-constraint	NN	O	I-Process
-is	NN	O	O
-also	NN	O	O
-fulfilled	NN	O	O
-.	NN	O	O
-
-Our	NN	O	O
-purpose	NN	O	O
-is	NN	O	O
-to	NN	O	O
-investigate	NN	O	B-Task
-the	NN	O	I-Task
-quantum	NN	O	I-Task
-effects	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-decays	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-light	NN	O	I-Task
-CP	NN	O	I-Task
--	NN	O	I-Task
-even	NN	O	I-Task
-Higgs	NN	O	I-Task
-boson	NN	O	I-Task
-h0	NN	O	I-Task
-,	NN	O	O
-especially	NN	O	O
-looking	NN	O	B-Task
-for	NN	O	I-Task
-sizeable	NN	O	I-Task
-differences	NN	O	I-Task
-with	NN	O	I-Task
-respect	NN	O	I-Task
-to	NN	O	I-Task
-the	NN	O	I-Task
-SM	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-decoupling	NN	O	I-Task
-regime	NN	O	I-Task
-.	NN	O	O
+Since	0	5	O
+perturbative	6	18	B-Process
+expansion	19	28	I-Process
+is	29	31	O
+used	32	36	O
+,	36	37	O
+it	38	40	O
+is	41	43	O
+impossible	44	54	O
+to	55	57	O
+find	58	62	O
+the	63	66	O
+exact	67	72	B-Process
+bounds	73	79	I-Process
+;	79	80	O
+instead	81	88	O
+,	88	89	O
+one	90	93	O
+can	94	97	O
+derive	98	104	O
+tree	105	109	B-Process
+-	109	110	I-Process
+level	110	115	I-Process
+unitarity	116	125	I-Process
+bounds	126	132	I-Process
+or	133	135	O
+loop	136	140	B-Process
+-	140	141	I-Process
+improved	141	149	I-Process
+unitarity	150	159	I-Process
+bounds	160	166	I-Process
+.	166	167	O
+
+In	168	170	O
+this	171	175	O
+study	176	181	O
+,	181	182	O
+we	183	185	O
+will	186	190	O
+use	191	194	O
+unitarity	195	204	B-Process
+bounds	205	211	I-Process
+coming	212	218	O
+from	219	223	O
+a	224	225	O
+tree	226	230	B-Task
+-	230	231	I-Task
+level	231	236	I-Task
+analysis	237	245	I-Task
+[	246	247	O
+20	247	249	O
+]	249	250	O
+.	250	251	O
+
+This	252	256	O
+tree	257	261	B-Task
+level	262	267	I-Task
+analysis	268	276	I-Task
+is	277	279	O
+derived	280	287	O
+with	288	292	O
+the	293	296	O
+help	297	301	O
+of	302	304	O
+the	305	308	O
+equivalence	309	320	B-Process
+theorem	321	328	I-Process
+[	329	330	O
+21	330	332	O
+]	332	333	O
+,	333	334	O
+which	335	340	O
+itself	341	347	O
+is	348	350	O
+a	351	352	O
+high	353	357	B-Process
+-	357	358	I-Process
+energy	358	364	I-Process
+approximation	365	378	I-Process
+where	379	384	O
+it	385	387	O
+is	388	390	O
+assumed	391	398	O
+that	399	403	O
+the	404	407	O
+energy	408	414	O
+scale	415	420	O
+is	421	423	O
+much	424	428	O
+larger	429	435	O
+than	436	440	O
+the	441	444	O
+Z0	445	447	O
+and	448	451	O
+W±	452	454	O
+gauge	455	460	B-Material
+-	460	461	I-Material
+boson	461	466	I-Material
+masses	467	473	I-Material
+.	473	474	O
+
+We	475	477	O
+will	478	482	O
+consider	483	491	O
+here	492	496	O
+this	497	501	O
+“	502	503	O
+high	503	507	O
+-	507	508	O
+energy	508	514	O
+”	514	515	O
+hypothesis	516	526	O
+that	527	531	O
+both	532	536	O
+the	537	540	O
+equivalence	541	552	B-Process
+theorem	553	560	I-Process
+and	561	564	O
+the	565	568	O
+decoupling	569	579	B-Process
+regime	580	586	I-Process
+are	587	590	O
+well	591	595	O
+settled	596	603	O
+,	603	604	O
+but	605	608	O
+in	609	611	O
+such	612	616	O
+a	617	618	O
+way	619	622	O
+that	623	627	O
+the	628	631	O
+unitarity	632	641	B-Process
+constraint	642	652	I-Process
+is	653	655	O
+also	656	660	O
+fulfilled	661	670	O
+.	670	671	O
+
+Our	672	675	O
+purpose	676	683	O
+is	684	686	O
+to	687	689	O
+investigate	690	701	B-Task
+the	702	705	I-Task
+quantum	706	713	I-Task
+effects	714	721	I-Task
+in	722	724	I-Task
+the	725	728	I-Task
+decays	729	735	I-Task
+of	736	738	I-Task
+the	739	742	I-Task
+light	743	748	I-Task
+CP	749	751	I-Task
+-	751	752	I-Task
+even	752	756	I-Task
+Higgs	757	762	I-Task
+boson	763	768	I-Task
+h0	769	771	I-Task
+,	771	772	O
+especially	773	783	O
+looking	784	791	B-Task
+for	792	795	I-Task
+sizeable	796	804	I-Task
+differences	805	816	I-Task
+with	817	821	I-Task
+respect	822	829	I-Task
+to	830	832	I-Task
+the	833	836	I-Task
+SM	837	839	I-Task
+in	840	842	I-Task
+the	843	846	I-Task
+decoupling	847	857	I-Task
+regime	858	864	I-Task
+.	864	865	O
 
 
 -DOCSTART- (S0370269303017222)
 
-In	NN	O	O
-the	NN	O	O
-bag	NN	O	B-Process
-model	NN	O	I-Process
-and	NN	O	O
-in	NN	O	O
-linear	NN	O	O
-or	NN	O	O
-harmonic	NN	O	O
-oscillator	NN	O	B-Process
-confining	NN	O	I-Process
-potentials	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-first	NN	O	O
-excited	NN	O	O
-S	NN	O	O
--	NN	O	O
-state	NN	O	O
-lies	NN	O	O
-above	NN	O	O
-the	NN	O	O
-lowest	NN	O	O
-P	NN	O	O
--	NN	O	O
-state	NN	O	O
-,	NN	O	O
-making	NN	O	O
-the	NN	O	O
-predicted	NN	O	O
-Roper	NN	O	O
-mass	NN	O	O
-heavier	NN	O	O
-than	NN	O	O
-the	NN	O	O
-lightest	NN	O	O
-negative	NN	O	O
-parity	NN	O	O
-baryon	NN	O	O
-mass	NN	O	O
-.	NN	O	O
-
-Pairwise	NN	O	B-Process
-spin	NN	O	I-Process
--	NN	O	I-Process
-dependent	NN	O	I-Process
-interactions	NN	O	I-Process
-must	NN	O	O
-reverse	NN	O	O
-the	NN	O	O
-level	NN	O	B-Process
-ordering	NN	O	I-Process
-.	NN	O	O
-
-As	NN	O	O
-mentioned	NN	O	O
-earlier	NN	O	O
-,	NN	O	O
-color	NN	O	B-Process
--	NN	O	I-Process
-spin	NN	O	I-Process
-interactions	NN	O	I-Process
-fail	NN	O	O
-in	NN	O	O
-this	NN	O	O
-regard	NN	O	O
-[	NN	O	O
-29	NN	O	O
-]	NN	O	O
-,	NN	O	O
-while	NN	O	O
-flavor	NN	O	B-Process
--	NN	O	I-Process
-spin	NN	O	I-Process
-interactions	NN	O	I-Process
-produce	NN	O	O
-the	NN	O	O
-desired	NN	O	O
-effect	NN	O	O
-.	NN	O	O
-
-Since	NN	O	O
-the	NN	O	O
-q3	NN	O	B-Process
-color	NN	O	I-Process
-wave	NN	O	I-Process
-function	NN	O	I-Process
-is	NN	O	O
-antisymmetric	NN	O	O
-,	NN	O	O
-the	NN	O	O
-flavor	NN	O	B-Process
--	NN	O	I-Process
-spin	NN	O	I-Process
--	NN	O	I-Process
-orbital	NN	O	I-Process
-wave	NN	O	I-Process
-function	NN	O	I-Process
-is	NN	O	O
-totally	NN	O	O
-symmetric	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-all	NN	O	O
-quarks	NN	O	B-Material
-in	NN	O	O
-an	NN	O	O
-S	NN	O	O
--	NN	O	O
-state	NN	O	O
-,	NN	O	O
-the	NN	O	O
-flavor	NN	O	B-Process
--	NN	O	I-Process
-spin	NN	O	I-Process
-wave	NN	O	I-Process
-function	NN	O	I-Process
-is	NN	O	O
-totally	NN	O	O
-symmetric	NN	O	O
-all	NN	O	O
-by	NN	O	O
-itself	NN	O	O
-and	NN	O	O
-leads	NN	O	O
-to	NN	O	O
-the	NN	O	O
-most	NN	O	O
-attractive	NN	O	O
-flavor	NN	O	B-Process
--	NN	O	I-Process
-spin	NN	O	I-Process
-interaction	NN	O	I-Process
-.	NN	O	O
-
-If	NN	O	O
-one	NN	O	O
-quark	NN	O	B-Material
-is	NN	O	O
-in	NN	O	O
-a	NN	O	O
-P	NN	O	O
--	NN	O	O
-state	NN	O	O
-,	NN	O	O
-the	NN	O	O
-orbital	NN	O	B-Process
-wave	NN	O	I-Process
-function	NN	O	I-Process
-is	NN	O	O
-mixed	NN	O	O
-symmetry	NN	O	O
-and	NN	O	O
-so	NN	O	O
-is	NN	O	O
-the	NN	O	O
-flavor	NN	O	B-Process
--	NN	O	I-Process
-spin	NN	O	I-Process
-wave	NN	O	I-Process
-function	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-flavor	NN	O	B-Process
--	NN	O	I-Process
-spin	NN	O	I-Process
-interaction	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-less	NN	O	O
-attractive	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-SU(3)F	NN	O	O
-symmetric	NN	O	O
-case	NN	O	O
-,	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-,	NN	O	O
-one	NN	O	O
-obtains	NN	O	O
-mass	NN	O	B-Process
-splittings	NN	O	I-Process
-(	NN	O	O
-2)ΔMχ=−14Cχ,N(939),N∗(1440),−4Cχ,Δ(1232),−2Cχ,N∗(1535	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Here	NN	O	O
-we	NN	O	O
-have	NN	O	O
-approximated	NN	O	O
-the	NN	O	O
-N∗(1535	NN	O	O
-)	NN	O	O
-as	NN	O	O
-a	NN	O	O
-state	NN	O	O
-with	NN	O	O
-total	NN	O	O
-quark	NN	O	B-Process
-spin-1/2	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+bag	7	10	B-Process
+model	11	16	I-Process
+and	17	20	O
+in	21	23	O
+linear	24	30	O
+or	31	33	O
+harmonic	34	42	O
+oscillator	43	53	B-Process
+confining	54	63	I-Process
+potentials	64	74	I-Process
+,	74	75	O
+the	76	79	O
+first	80	85	O
+excited	86	93	O
+S	94	95	O
+-	95	96	O
+state	96	101	O
+lies	102	106	O
+above	107	112	O
+the	113	116	O
+lowest	117	123	O
+P	124	125	O
+-	125	126	O
+state	126	131	O
+,	131	132	O
+making	133	139	O
+the	140	143	O
+predicted	144	153	O
+Roper	154	159	O
+mass	160	164	O
+heavier	165	172	O
+than	173	177	O
+the	178	181	O
+lightest	182	190	O
+negative	191	199	O
+parity	200	206	O
+baryon	207	213	O
+mass	214	218	O
+.	218	219	O
+
+Pairwise	220	228	B-Process
+spin	229	233	I-Process
+-	233	234	I-Process
+dependent	234	243	I-Process
+interactions	244	256	I-Process
+must	257	261	O
+reverse	262	269	O
+the	270	273	O
+level	274	279	B-Process
+ordering	280	288	I-Process
+.	288	289	O
+
+As	290	292	O
+mentioned	293	302	O
+earlier	303	310	O
+,	310	311	O
+color	312	317	B-Process
+-	317	318	I-Process
+spin	318	322	I-Process
+interactions	323	335	I-Process
+fail	336	340	O
+in	341	343	O
+this	344	348	O
+regard	349	355	O
+[	356	357	O
+29	357	359	O
+]	359	360	O
+,	360	361	O
+while	362	367	O
+flavor	368	374	B-Process
+-	374	375	I-Process
+spin	375	379	I-Process
+interactions	380	392	I-Process
+produce	393	400	O
+the	401	404	O
+desired	405	412	O
+effect	413	419	O
+.	419	420	O
+
+Since	421	426	O
+the	427	430	O
+q3	431	433	B-Process
+color	434	439	I-Process
+wave	440	444	I-Process
+function	445	453	I-Process
+is	454	456	O
+antisymmetric	457	470	O
+,	470	471	O
+the	472	475	O
+flavor	476	482	B-Process
+-	482	483	I-Process
+spin	483	487	I-Process
+-	487	488	I-Process
+orbital	488	495	I-Process
+wave	496	500	I-Process
+function	501	509	I-Process
+is	510	512	O
+totally	513	520	O
+symmetric	521	530	O
+.	530	531	O
+
+For	532	535	O
+all	536	539	O
+quarks	540	546	B-Material
+in	547	549	O
+an	550	552	O
+S	553	554	O
+-	554	555	O
+state	555	560	O
+,	560	561	O
+the	562	565	O
+flavor	566	572	B-Process
+-	572	573	I-Process
+spin	573	577	I-Process
+wave	578	582	I-Process
+function	583	591	I-Process
+is	592	594	O
+totally	595	602	O
+symmetric	603	612	O
+all	613	616	O
+by	617	619	O
+itself	620	626	O
+and	627	630	O
+leads	631	636	O
+to	637	639	O
+the	640	643	O
+most	644	648	O
+attractive	649	659	O
+flavor	660	666	B-Process
+-	666	667	I-Process
+spin	667	671	I-Process
+interaction	672	683	I-Process
+.	683	684	O
+
+If	685	687	O
+one	688	691	O
+quark	692	697	B-Material
+is	698	700	O
+in	701	703	O
+a	704	705	O
+P	706	707	O
+-	707	708	O
+state	708	713	O
+,	713	714	O
+the	715	718	O
+orbital	719	726	B-Process
+wave	727	731	I-Process
+function	732	740	I-Process
+is	741	743	O
+mixed	744	749	O
+symmetry	750	758	O
+and	759	762	O
+so	763	765	O
+is	766	768	O
+the	769	772	O
+flavor	773	779	B-Process
+-	779	780	I-Process
+spin	780	784	I-Process
+wave	785	789	I-Process
+function	790	798	I-Process
+,	798	799	O
+and	800	803	O
+the	804	807	O
+flavor	808	814	B-Process
+-	814	815	I-Process
+spin	815	819	I-Process
+interaction	820	831	I-Process
+is	832	834	O
+a	835	836	O
+less	837	841	O
+attractive	842	852	O
+.	852	853	O
+
+In	854	856	O
+the	857	860	O
+SU(3)F	861	867	O
+symmetric	868	877	O
+case	878	882	O
+,	882	883	O
+Eq	884	886	O
+.	886	887	O
+
+(	888	889	O
+1	889	890	O
+)	890	891	O
+,	891	892	O
+one	893	896	O
+obtains	897	904	O
+mass	905	909	B-Process
+splittings	910	920	I-Process
+(	921	922	O
+2)ΔMχ=−14Cχ,N(939),N∗(1440),−4Cχ,Δ(1232),−2Cχ,N∗(1535	922	975	O
+)	975	976	O
+.	976	977	O
+
+Here	978	982	O
+we	983	985	O
+have	986	990	O
+approximated	991	1003	O
+the	1004	1007	O
+N∗(1535	1008	1015	O
+)	1015	1016	O
+as	1017	1019	O
+a	1020	1021	O
+state	1022	1027	O
+with	1028	1032	O
+total	1033	1038	O
+quark	1039	1044	B-Process
+spin-1/2	1045	1053	I-Process
+.	1053	1054	O
 
 
 -DOCSTART- (S037026930301801X)
 
-The	NN	O	O
-measurements	NN	O	O
-presented	NN	O	O
-here	NN	O	O
-provide	NN	O	O
-evidence	NN	O	O
-for	NN	O	O
-the	NN	O	O
-existence	NN	O	O
-of	NN	O	O
-di	NN	O	B-Material
--	NN	O	I-Material
-cluster	NN	O	I-Material
-structures	NN	O	I-Material
-in	NN	O	O
-10–12,14Be	NN	O	O
-.	NN	O	O
-
-Certainly	NN	O	O
-,	NN	O	O
-if	NN	O	O
-the	NN	O	O
-breakup	NN	O	B-Process
-process	NN	O	I-Process
-samples	NN	O	O
-the	NN	O	O
-overlap	NN	O	O
-between	NN	O	O
-the	NN	O	O
-wavefunctions	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-ground	NN	O	I-Process
-state	NN	O	I-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-excited	NN	O	I-Process
-states	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-first	NN	O	B-Process
--	NN	O	I-Process
-chance	NN	O	I-Process
-cluster	NN	O	I-Process
-breakup	NN	O	I-Process
-cross	NN	O	I-Process
--	NN	O	I-Process
-sections	NN	O	I-Process
-,	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-4(a	NN	O	O
-)	NN	O	O
-,	NN	O	O
-indicate	NN	O	O
-that	NN	O	O
-the	NN	O	O
-xHe+A−xHe	NN	O	B-Material
-cluster	NN	O	I-Material
-structure	NN	O	I-Material
-does	NN	O	O
-not	NN	O	O
-decrease	NN	O	O
-over	NN	O	O
-the	NN	O	O
-mass	NN	O	O
-range	NN	O	O
-A=10	NN	O	O
-,	NN	O	O
-12	NN	O	O
-and	NN	O	O
-14	NN	O	O
-.	NN	O	O
-
-Given	NN	O	O
-also	NN	O	O
-that	NN	O	O
-the	NN	O	O
-decay	NN	O	B-Process
-energy	NN	O	I-Process
-threshold	NN	O	O
-increases	NN	O	O
-with	NN	O	O
-mass	NN	O	O
-number	NN	O	O
-,	NN	O	O
-the	NN	O	O
-present	NN	O	O
-data	NN	O	O
-may	NN	O	O
-even	NN	O	O
-indicate	NN	O	O
-a	NN	O	O
-slight	NN	O	O
-increase	NN	O	O
-in	NN	O	O
-clustering	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-breakup	NN	O	B-Process
-cross	NN	O	I-Process
--	NN	O	I-Process
-sections	NN	O	I-Process
-also	NN	O	O
-appear	NN	O	O
-to	NN	O	O
-demonstrate	NN	O	O
-that	NN	O	O
-these	NN	O	O
-nuclei	NN	O	B-Material
-possess	NN	O	O
-a	NN	O	O
-stronger	NN	O	O
-structural	NN	O	O
-overlap	NN	O	O
-with	NN	O	O
-an	NN	O	O
-α–Xn–α	NN	O	O
-configuration	NN	O	O
-,	NN	O	O
-although	NN	O	O
-the	NN	O	O
-reaction	NN	O	B-Process
-mechanics	NN	O	I-Process
-by	NN	O	O
-which	NN	O	O
-this	NN	O	O
-final	NN	O	O
-state	NN	O	O
-is	NN	O	O
-reached	NN	O	O
-may	NN	O	O
-be	NN	O	O
-complex	NN	O	O
-.	NN	O	O
-
-That	NN	O	O
-is	NN	O	O
-to	NN	O	O
-say	NN	O	O
-that	NN	O	O
-the	NN	O	O
-dominant	NN	O	B-Process
-structural	NN	O	I-Process
-mode	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-neutron	NN	O	B-Material
-rich	NN	O	I-Material
-isotopes	NN	O	I-Material
-may	NN	O	O
-be	NN	O	O
-identified	NN	O	O
-with	NN	O	O
-two	NN	O	O
-alpha	NN	O	B-Material
--	NN	O	I-Material
-particles	NN	O	I-Material
-plus	NN	O	O
-valence	NN	O	B-Material
-neutrons	NN	O	I-Material
-.	NN	O	O
-
-These	NN	O	O
-comprehensive	NN	O	B-Task
-measurements	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-neutron	NN	O	I-Task
--	NN	O	I-Task
-removal	NN	O	I-Task
-and	NN	O	I-Task
-cluster	NN	O	I-Task
-breakup	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-first	NN	O	O
-time	NN	O	O
-provide	NN	O	O
-experimental	NN	O	O
-data	NN	O	O
-whereby	NN	O	O
-the	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-the	NN	O	O
-most	NN	O	O
-neutron	NN	O	B-Material
--	NN	O	I-Material
-rich	NN	O	I-Material
-Be	NN	O	I-Material
-isotopes	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-modeled	NN	O	O
-via	NN	O	O
-their	NN	O	O
-reactions	NN	O	O
-.	NN	O	O
+The	0	3	O
+measurements	4	16	O
+presented	17	26	O
+here	27	31	O
+provide	32	39	O
+evidence	40	48	O
+for	49	52	O
+the	53	56	O
+existence	57	66	O
+of	67	69	O
+di	70	72	B-Material
+-	72	73	I-Material
+cluster	73	80	I-Material
+structures	81	91	I-Material
+in	92	94	O
+10–12,14Be	95	105	O
+.	105	106	O
+
+Certainly	107	116	O
+,	116	117	O
+if	118	120	O
+the	121	124	O
+breakup	125	132	B-Process
+process	133	140	I-Process
+samples	141	148	O
+the	149	152	O
+overlap	153	160	O
+between	161	168	O
+the	169	172	O
+wavefunctions	173	186	B-Process
+of	187	189	I-Process
+the	190	193	I-Process
+ground	194	200	I-Process
+state	201	206	I-Process
+and	207	210	I-Process
+the	211	214	I-Process
+excited	215	222	I-Process
+states	223	229	I-Process
+,	229	230	O
+the	231	234	O
+first	235	240	B-Process
+-	240	241	I-Process
+chance	241	247	I-Process
+cluster	248	255	I-Process
+breakup	256	263	I-Process
+cross	264	269	I-Process
+-	269	270	I-Process
+sections	270	278	I-Process
+,	278	279	O
+shown	280	285	O
+in	286	288	O
+Fig	289	292	O
+.	292	293	O
+
+4(a	294	297	O
+)	297	298	O
+,	298	299	O
+indicate	300	308	O
+that	309	313	O
+the	314	317	O
+xHe+A−xHe	318	327	B-Material
+cluster	328	335	I-Material
+structure	336	345	I-Material
+does	346	350	O
+not	351	354	O
+decrease	355	363	O
+over	364	368	O
+the	369	372	O
+mass	373	377	O
+range	378	383	O
+A=10	384	388	O
+,	388	389	O
+12	390	392	O
+and	393	396	O
+14	397	399	O
+.	399	400	O
+
+Given	401	406	O
+also	407	411	O
+that	412	416	O
+the	417	420	O
+decay	421	426	B-Process
+energy	427	433	I-Process
+threshold	434	443	O
+increases	444	453	O
+with	454	458	O
+mass	459	463	O
+number	464	470	O
+,	470	471	O
+the	472	475	O
+present	476	483	O
+data	484	488	O
+may	489	492	O
+even	493	497	O
+indicate	498	506	O
+a	507	508	O
+slight	509	515	O
+increase	516	524	O
+in	525	527	O
+clustering	528	538	O
+.	538	539	O
+
+The	540	543	O
+breakup	544	551	B-Process
+cross	552	557	I-Process
+-	557	558	I-Process
+sections	558	566	I-Process
+also	567	571	O
+appear	572	578	O
+to	579	581	O
+demonstrate	582	593	O
+that	594	598	O
+these	599	604	O
+nuclei	605	611	B-Material
+possess	612	619	O
+a	620	621	O
+stronger	622	630	O
+structural	631	641	O
+overlap	642	649	O
+with	650	654	O
+an	655	657	O
+α–Xn–α	658	664	O
+configuration	665	678	O
+,	678	679	O
+although	680	688	O
+the	689	692	O
+reaction	693	701	B-Process
+mechanics	702	711	I-Process
+by	712	714	O
+which	715	720	O
+this	721	725	O
+final	726	731	O
+state	732	737	O
+is	738	740	O
+reached	741	748	O
+may	749	752	O
+be	753	755	O
+complex	756	763	O
+.	763	764	O
+
+That	765	769	O
+is	770	772	O
+to	773	775	O
+say	776	779	O
+that	780	784	O
+the	785	788	O
+dominant	789	797	B-Process
+structural	798	808	I-Process
+mode	809	813	I-Process
+of	814	816	O
+the	817	820	O
+neutron	821	828	B-Material
+rich	829	833	I-Material
+isotopes	834	842	I-Material
+may	843	846	O
+be	847	849	O
+identified	850	860	O
+with	861	865	O
+two	866	869	O
+alpha	870	875	B-Material
+-	875	876	I-Material
+particles	876	885	I-Material
+plus	886	890	O
+valence	891	898	B-Material
+neutrons	899	907	I-Material
+.	907	908	O
+
+These	909	914	O
+comprehensive	915	928	B-Task
+measurements	929	941	I-Task
+of	942	944	I-Task
+the	945	948	I-Task
+neutron	949	956	I-Task
+-	956	957	I-Task
+removal	957	964	I-Task
+and	965	968	I-Task
+cluster	969	976	I-Task
+breakup	977	984	I-Task
+for	985	988	O
+the	989	992	O
+first	993	998	O
+time	999	1003	O
+provide	1004	1011	O
+experimental	1012	1024	O
+data	1025	1029	O
+whereby	1030	1037	O
+the	1038	1041	O
+structure	1042	1051	O
+of	1052	1054	O
+the	1055	1058	O
+most	1059	1063	O
+neutron	1064	1071	B-Material
+-	1071	1072	I-Material
+rich	1072	1076	I-Material
+Be	1077	1079	I-Material
+isotopes	1080	1088	I-Material
+can	1089	1092	O
+be	1093	1095	O
+modeled	1096	1103	O
+via	1104	1107	O
+their	1108	1113	O
+reactions	1114	1123	O
+.	1123	1124	O
 
 
 -DOCSTART- (S0370269304005829)
 
-Let	NN	O	O
-us	NN	O	O
-now	NN	O	O
-consider	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-a	NN	O	O
-beta	NN	O	B-Material
--	NN	O	I-Material
-beam	NN	O	I-Material
-source	NN	O	I-Material
-.	NN	O	O
-
-Similarly	NN	O	O
-to	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-a	NN	O	O
-static	NN	O	B-Material
-tritium	NN	O	I-Material
-source	NN	O	I-Material
-,	NN	O	O
-an	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-the	NN	O	O
-beta	NN	O	B-Process
--	NN	O	I-Process
-beams	NN	O	I-Process
-is	NN	O	O
-that	NN	O	O
-the	NN	O	O
-neutrino	NN	O	B-Process
-fluxes	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-very	NN	O	O
-accurately	NN	O	O
-calculated	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-3	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-electron	NN	O	B-Process
-–	NN	O	I-Process
-neutrino	NN	O	I-Process
-scattering	NN	O	I-Process
-events	NN	O	O
-in	NN	O	O
-the	NN	O	O
-range	NN	O	O
-of	NN	O	O
-0.1	NN	O	O
-MeV	NN	O	O
-to	NN	O	O
-1	NN	O	O
-MeV	NN	O	O
-and	NN	O	O
-1	NN	O	O
-keV	NN	O	O
-to	NN	O	O
-10	NN	O	O
-keV	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-In	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3(b	NN	O	O
-)	NN	O	O
-
-we	NN	O	O
-have	NN	O	O
-rounded	NN	O	O
-to	NN	O	O
-the	NN	O	O
-nearest	NN	O	O
-integer	NN	O	O
-number	NN	O	O
-of	NN	O	O
-counts	NN	O	O
-.	NN	O	O
-)	NN	O	O
-
-The	NN	O	O
-shape	NN	O	O
-of	NN	O	O
-the	NN	O	O
-flux	NN	O	O
--	NN	O	O
-averaged	NN	O	O
-cross	NN	O	O
-sections	NN	O	O
-is	NN	O	O
-very	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-the	NN	O	O
-reactor	NN	O	B-Material
-case	NN	O	I-Material
-as	NN	O	O
-reflected	NN	O	O
-in	NN	O	O
-the	NN	O	O
-event	NN	O	O
-rates	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-the	NN	O	O
-figures	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-can	NN	O	O
-be	NN	O	O
-seen	NN	O	O
-,	NN	O	O
-by	NN	O	O
-measuring	NN	O	O
-electron	NN	O	B-Material
-recoils	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-keV	NN	O	O
-range	NN	O	O
-with	NN	O	O
-a	NN	O	O
-beta	NN	O	B-Material
--	NN	O	I-Material
-beam	NN	O	I-Material
-source	NN	O	I-Material
-one	NN	O	O
-could	NN	O	O
-,	NN	O	O
-with	NN	O	O
-a	NN	O	O
-sufficiently	NN	O	O
-strong	NN	O	O
-source	NN	O	O
-,	NN	O	O
-have	NN	O	O
-a	NN	O	O
-very	NN	O	O
-clear	NN	O	O
-signature	NN	O	O
-for	NN	O	O
-a	NN	O	O
-neutrino	NN	O	B-Process
-magnetic	NN	O	I-Process
-moment	NN	O	I-Process
-of	NN	O	O
-5×10−11μB.	NN	O	O
-
-These	NN	O	O
-figures	NN	O	O
-are	NN	O	O
-for	NN	O	O
-Helium-6	NN	O	B-Material
-ions	NN	O	I-Material
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-similar	NN	O	O
-results	NN	O	O
-can	NN	O	O
-be	NN	O	O
-obtained	NN	O	O
-using	NN	O	O
-neutrinos	NN	O	B-Material
-from	NN	O	O
-18Ne	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-shown	NN	O	O
-are	NN	O	O
-obtained	NN	O	O
-for	NN	O	O
-an	NN	O	O
-intensity	NN	O	O
-of	NN	O	O
-1015	NN	O	O
-ν/s	NN	O	O
-(	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-1015	NN	O	O
-ions	NN	O	O
-/	NN	O	O
-s	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-If	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-magnetic	NN	O	O
-moment	NN	O	O
-,	NN	O	O
-this	NN	O	O
-intensity	NN	O	O
-will	NN	O	O
-produce	NN	O	O
-about	NN	O	O
-170	NN	O	O
-events	NN	O	O
-in	NN	O	O
-the	NN	O	O
-0.1	NN	O	O
-MeV	NN	O	O
-to	NN	O	O
-1	NN	O	O
-MeV	NN	O	O
-range	NN	O	O
-per	NN	O	O
-year	NN	O	O
-and	NN	O	O
-3	NN	O	O
-events	NN	O	O
-in	NN	O	O
-the	NN	O	O
-1	NN	O	O
-keV	NN	O	O
-to	NN	O	O
-10	NN	O	O
-keV	NN	O	O
-range	NN	O	O
-per	NN	O	O
-year	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-numbers	NN	O	O
-increase	NN	O	O
-to	NN	O	O
-210	NN	O	O
-and	NN	O	O
-55	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-a	NN	O	O
-magnetic	NN	O	O
-moment	NN	O	O
-of	NN	O	O
-5×10−11μB.	NN	O	O
+Let	0	3	O
+us	4	6	O
+now	7	10	O
+consider	11	19	O
+the	20	23	O
+case	24	28	O
+of	29	31	O
+a	32	33	O
+beta	34	38	B-Material
+-	38	39	I-Material
+beam	39	43	I-Material
+source	44	50	I-Material
+.	50	51	O
+
+Similarly	52	61	O
+to	62	64	O
+the	65	68	O
+case	69	73	O
+of	74	76	O
+a	77	78	O
+static	79	85	B-Material
+tritium	86	93	I-Material
+source	94	100	I-Material
+,	100	101	O
+an	102	104	O
+advantage	105	114	O
+of	115	117	O
+the	118	121	O
+beta	122	126	B-Process
+-	126	127	I-Process
+beams	127	132	I-Process
+is	133	135	O
+that	136	140	O
+the	141	144	O
+neutrino	145	153	B-Process
+fluxes	154	160	I-Process
+can	161	164	O
+be	165	167	O
+very	168	172	O
+accurately	173	183	O
+calculated	184	194	O
+.	194	195	O
+
+Fig	196	199	O
+.	199	200	O
+
+3	201	202	O
+shows	203	208	O
+the	209	212	O
+electron	213	221	B-Process
+–	221	222	I-Process
+neutrino	222	230	I-Process
+scattering	231	241	I-Process
+events	242	248	O
+in	249	251	O
+the	252	255	O
+range	256	261	O
+of	262	264	O
+0.1	265	268	O
+MeV	269	272	O
+to	273	275	O
+1	276	277	O
+MeV	278	281	O
+and	282	285	O
+1	286	287	O
+keV	288	291	O
+to	292	294	O
+10	295	297	O
+keV	298	301	O
+,	301	302	O
+respectively	303	315	O
+.	315	316	O
+
+(	317	318	O
+In	318	320	O
+Fig	321	324	O
+.	324	325	O
+
+3(b	326	329	O
+)	329	330	O
+
+we	331	333	O
+have	334	338	O
+rounded	339	346	O
+to	347	349	O
+the	350	353	O
+nearest	354	361	O
+integer	362	369	O
+number	370	376	O
+of	377	379	O
+counts	380	386	O
+.	386	387	O
+)	387	388	O
+
+The	389	392	O
+shape	393	398	O
+of	399	401	O
+the	402	405	O
+flux	406	410	O
+-	410	411	O
+averaged	411	419	O
+cross	420	425	O
+sections	426	434	O
+is	435	437	O
+very	438	442	O
+similar	443	450	O
+to	451	453	O
+the	454	457	O
+reactor	458	465	B-Material
+case	466	470	I-Material
+as	471	473	O
+reflected	474	483	O
+in	484	486	O
+the	487	490	O
+event	491	496	O
+rates	497	502	O
+shown	503	508	O
+in	509	511	O
+the	512	515	O
+figures	516	523	O
+.	523	524	O
+
+As	525	527	O
+can	528	531	O
+be	532	534	O
+seen	535	539	O
+,	539	540	O
+by	541	543	O
+measuring	544	553	O
+electron	554	562	B-Material
+recoils	563	570	I-Material
+in	571	573	O
+the	574	577	O
+keV	578	581	O
+range	582	587	O
+with	588	592	O
+a	593	594	O
+beta	595	599	B-Material
+-	599	600	I-Material
+beam	600	604	I-Material
+source	605	611	I-Material
+one	612	615	O
+could	616	621	O
+,	621	622	O
+with	623	627	O
+a	628	629	O
+sufficiently	630	642	O
+strong	643	649	O
+source	650	656	O
+,	656	657	O
+have	658	662	O
+a	663	664	O
+very	665	669	O
+clear	670	675	O
+signature	676	685	O
+for	686	689	O
+a	690	691	O
+neutrino	692	700	B-Process
+magnetic	701	709	I-Process
+moment	710	716	I-Process
+of	717	719	O
+5×10−11μB.	720	730	O
+
+These	731	736	O
+figures	737	744	O
+are	745	748	O
+for	749	752	O
+Helium-6	753	761	B-Material
+ions	762	766	I-Material
+,	766	767	O
+however	768	775	O
+,	775	776	O
+similar	777	784	O
+results	785	792	O
+can	793	796	O
+be	797	799	O
+obtained	800	808	O
+using	809	814	O
+neutrinos	815	824	B-Material
+from	825	829	O
+18Ne	830	834	O
+.	834	835	O
+
+The	836	839	O
+results	840	847	O
+shown	848	853	O
+are	854	857	O
+obtained	858	866	O
+for	867	870	O
+an	871	873	O
+intensity	874	883	O
+of	884	886	O
+1015	887	891	O
+ν/s	892	895	O
+(	896	897	O
+i.e.	897	901	O
+,	901	902	O
+1015	903	907	O
+ions	909	913	O
+/	913	914	O
+s	914	915	O
+)	915	916	O
+.	916	917	O
+
+If	918	920	O
+there	921	926	O
+is	927	929	O
+no	930	932	O
+magnetic	933	941	O
+moment	942	948	O
+,	948	949	O
+this	950	954	O
+intensity	955	964	O
+will	965	969	O
+produce	970	977	O
+about	978	983	O
+170	984	987	O
+events	988	994	O
+in	995	997	O
+the	998	1001	O
+0.1	1002	1005	O
+MeV	1006	1009	O
+to	1010	1012	O
+1	1013	1014	O
+MeV	1015	1018	O
+range	1019	1024	O
+per	1025	1028	O
+year	1029	1033	O
+and	1034	1037	O
+3	1038	1039	O
+events	1040	1046	O
+in	1047	1049	O
+the	1050	1053	O
+1	1054	1055	O
+keV	1056	1059	O
+to	1060	1062	O
+10	1063	1065	O
+keV	1066	1069	O
+range	1070	1075	O
+per	1076	1079	O
+year	1080	1084	O
+.	1084	1085	O
+
+These	1086	1091	O
+numbers	1092	1099	O
+increase	1100	1108	O
+to	1109	1111	O
+210	1112	1115	O
+and	1116	1119	O
+55	1120	1122	O
+,	1122	1123	O
+respectively	1124	1136	O
+,	1136	1137	O
+in	1138	1140	O
+the	1141	1144	O
+case	1145	1149	O
+of	1150	1152	O
+a	1153	1154	O
+magnetic	1155	1163	O
+moment	1164	1170	O
+of	1171	1173	O
+5×10−11μB.	1174	1184	O
 
 
 -DOCSTART- (S0370269304007567)
 
-Each	NN	O	O
-hit	NN	O	O
-position	NN	O	O
-inside	NN	O	O
-the	NN	O	O
-drift	NN	O	B-Material
-chambers	NN	O	I-Material
-was	NN	O	O
-calculated	NN	O	O
-from	NN	O	O
-the	NN	O	O
-drift	NN	O	O
-time	NN	O	O
-digitized	NN	O	O
-by	NN	O	O
-a	NN	O	O
-flash	NN	O	B-Material
-analog	NN	O	I-Material
--	NN	O	I-Material
-to	NN	O	I-Material
--	NN	O	I-Material
-digital	NN	O	I-Material
-converter	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-calculation	NN	O	O
-was	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-based	NN	O	O
-on	NN	O	O
-a	NN	O	O
-relation	NN	O	B-Process
-between	NN	O	I-Process
-the	NN	O	I-Process
-hit	NN	O	I-Process
-position	NN	O	I-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-drift	NN	O	I-Process
-time	NN	O	I-Process
-(	NN	O	O
-x	NN	O	B-Process
-–	NN	O	I-Process
-t	NN	O	I-Process
-relation	NN	O	I-Process
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-x	NN	O	B-Process
-–	NN	O	I-Process
-t	NN	O	I-Process
-relation	NN	O	I-Process
-was	NN	O	O
-precisely	NN	O	O
-calculated	NN	O	O
-by	NN	O	O
-a	NN	O	O
-drift	NN	O	B-Material
-chamber	NN	O	I-Material
-simulation	NN	O	I-Material
-package	NN	O	I-Material
-,	NN	O	O
-GARFIELD	NN	O	B-Material
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-a	NN	O	O
-gas	NN	O	B-Material
-property	NN	O	I-Material
-simulation	NN	O	I-Material
-package	NN	O	I-Material
-,	NN	O	O
-MAGBOLTZ	NN	O	B-Material
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Although	NN	O	O
-the	NN	O	O
-chambers	NN	O	B-Material
-were	NN	O	O
-constructed	NN	O	O
-carefully	NN	O	O
-with	NN	O	O
-a	NN	O	O
-tolerance	NN	O	O
-of	NN	O	O
-100	NN	O	O
-μm	NN	O	O
-,	NN	O	O
-there	NN	O	O
-was	NN	O	O
-a	NN	O	O
-small	NN	O	O
-position	NN	O	O
-deviation	NN	O	O
-of	NN	O	O
-wires	NN	O	O
-and	NN	O	O
-field	NN	O	O
--	NN	O	O
-shaping	NN	O	O
-patterns	NN	O	O
-,	NN	O	O
-which	NN	O	O
-could	NN	O	O
-locally	NN	O	O
-modify	NN	O	O
-the	NN	O	O
-electric	NN	O	O
-field	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-take	NN	O	O
-account	NN	O	O
-of	NN	O	O
-the	NN	O	O
-limited	NN	O	O
-accuracy	NN	O	O
-in	NN	O	O
-the	NN	O	O
-chamber	NN	O	O
-manufacturing	NN	O	O
-,	NN	O	O
-a	NN	O	O
-correction	NN	O	O
-was	NN	O	O
-commonly	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-the	NN	O	O
-calculated	NN	O	O
-x	NN	O	B-Process
-–	NN	O	I-Process
-t	NN	O	I-Process
-relation	NN	O	I-Process
-throughout	NN	O	O
-the	NN	O	O
-experiments	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-correction	NN	O	O
-was	NN	O	O
-obtained	NN	O	O
-to	NN	O	O
-minimize	NN	O	O
-the	NN	O	O
-χ2	NN	O	O
-in	NN	O	O
-the	NN	O	O
-fitting	NN	O	O
-of	NN	O	O
-straight	NN	O	O
-tracks	NN	O	O
-of	NN	O	O
-clean	NN	O	O
-muon	NN	O	O
-events	NN	O	O
-observed	NN	O	O
-on	NN	O	O
-the	NN	O	O
-ground	NN	O	O
-without	NN	O	O
-magnetic	NN	O	B-Process
-field	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-correction	NN	O	O
-was	NN	O	O
-as	NN	O	O
-small	NN	O	O
-as	NN	O	O
-expected	NN	O	O
-from	NN	O	O
-the	NN	O	O
-accuracy	NN	O	O
-in	NN	O	O
-the	NN	O	O
-chamber	NN	O	B-Process
-manufacturing	NN	O	I-Process
-.	NN	O	O
-
-During	NN	O	O
-the	NN	O	O
-observations	NN	O	O
-,	NN	O	O
-the	NN	O	O
-x	NN	O	B-Process
-–	NN	O	I-Process
-t	NN	O	I-Process
-relation	NN	O	I-Process
-was	NN	O	O
-affected	NN	O	O
-by	NN	O	O
-the	NN	O	O
-variation	NN	O	O
-in	NN	O	O
-the	NN	O	O
-pressure	NN	O	O
-and	NN	O	O
-temperature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-chamber	NN	O	B-Material
-gas	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-take	NN	O	O
-account	NN	O	O
-of	NN	O	O
-these	NN	O	O
-time	NN	O	O
--	NN	O	O
-dependent	NN	O	O
-variations	NN	O	O
-,	NN	O	O
-the	NN	O	O
-x	NN	O	B-Process
-–	NN	O	I-Process
-t	NN	O	I-Process
-relation	NN	O	I-Process
-was	NN	O	O
-calibrated	NN	O	O
-for	NN	O	O
-each	NN	O	O
-data	NN	O	O
--	NN	O	O
-taking	NN	O	O
-run	NN	O	O
-.	NN	O	O
-
-Especially	NN	O	O
-in	NN	O	O
-calibrating	NN	O	O
-the	NN	O	O
-x	NN	O	B-Process
-–	NN	O	I-Process
-t	NN	O	I-Process
-relation	NN	O	I-Process
-of	NN	O	O
-ODCs	NN	O	B-Material
-,	NN	O	O
-an	NN	O	O
-absolute	NN	O	O
-reference	NN	O	O
-positions	NN	O	O
-were	NN	O	O
-provided	NN	O	O
-by	NN	O	O
-SciFi	NN	O	O
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-not	NN	O	O
-affected	NN	O	O
-by	NN	O	O
-the	NN	O	O
-variation	NN	O	O
-in	NN	O	O
-the	NN	O	O
-pressure	NN	O	O
-nor	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
+Each	0	4	O
+hit	5	8	O
+position	9	17	O
+inside	18	24	O
+the	25	28	O
+drift	29	34	B-Material
+chambers	35	43	I-Material
+was	44	47	O
+calculated	48	58	O
+from	59	63	O
+the	64	67	O
+drift	68	73	O
+time	74	78	O
+digitized	79	88	O
+by	89	91	O
+a	92	93	O
+flash	94	99	B-Material
+analog	100	106	I-Material
+-	106	107	I-Material
+to	107	109	I-Material
+-	109	110	I-Material
+digital	110	117	I-Material
+converter	118	127	I-Material
+.	127	128	O
+
+The	129	132	O
+calculation	133	144	O
+was	145	148	O
+carried	149	156	O
+out	157	160	O
+based	161	166	O
+on	167	169	O
+a	170	171	O
+relation	172	180	B-Process
+between	181	188	I-Process
+the	189	192	I-Process
+hit	193	196	I-Process
+position	197	205	I-Process
+and	206	209	I-Process
+the	210	213	I-Process
+drift	214	219	I-Process
+time	220	224	I-Process
+(	225	226	O
+x	226	227	B-Process
+–	227	228	I-Process
+t	228	229	I-Process
+relation	230	238	I-Process
+)	238	239	O
+.	239	240	O
+
+The	241	244	O
+x	245	246	B-Process
+–	246	247	I-Process
+t	247	248	I-Process
+relation	249	257	I-Process
+was	258	261	O
+precisely	262	271	O
+calculated	272	282	O
+by	283	285	O
+a	286	287	O
+drift	288	293	B-Material
+chamber	294	301	I-Material
+simulation	302	312	I-Material
+package	313	320	I-Material
+,	320	321	O
+GARFIELD	322	330	B-Material
+[	331	332	O
+20	332	334	O
+]	334	335	O
+,	335	336	O
+and	337	340	O
+a	341	342	O
+gas	343	346	B-Material
+property	347	355	I-Material
+simulation	356	366	I-Material
+package	367	374	I-Material
+,	374	375	O
+MAGBOLTZ	376	384	B-Material
+[	385	386	O
+21	386	388	O
+]	388	389	O
+.	389	390	O
+
+Although	391	399	O
+the	400	403	O
+chambers	404	412	B-Material
+were	413	417	O
+constructed	418	429	O
+carefully	430	439	O
+with	440	444	O
+a	445	446	O
+tolerance	447	456	O
+of	457	459	O
+100	460	463	O
+μm	464	466	O
+,	466	467	O
+there	468	473	O
+was	474	477	O
+a	478	479	O
+small	480	485	O
+position	486	494	O
+deviation	495	504	O
+of	505	507	O
+wires	508	513	O
+and	514	517	O
+field	518	523	O
+-	523	524	O
+shaping	524	531	O
+patterns	532	540	O
+,	540	541	O
+which	542	547	O
+could	548	553	O
+locally	554	561	O
+modify	562	568	O
+the	569	572	O
+electric	573	581	O
+field	582	587	O
+.	587	588	O
+
+In	589	591	O
+order	592	597	O
+to	598	600	O
+take	601	605	O
+account	606	613	O
+of	614	616	O
+the	617	620	O
+limited	621	628	O
+accuracy	629	637	O
+in	638	640	O
+the	641	644	O
+chamber	645	652	O
+manufacturing	653	666	O
+,	666	667	O
+a	668	669	O
+correction	670	680	O
+was	681	684	O
+commonly	685	693	O
+applied	694	701	O
+to	702	704	O
+the	705	708	O
+calculated	709	719	O
+x	720	721	B-Process
+–	721	722	I-Process
+t	722	723	I-Process
+relation	724	732	I-Process
+throughout	733	743	O
+the	744	747	O
+experiments	748	759	O
+.	759	760	O
+
+The	761	764	O
+correction	765	775	O
+was	776	779	O
+obtained	780	788	O
+to	789	791	O
+minimize	792	800	O
+the	801	804	O
+χ2	805	807	O
+in	808	810	O
+the	811	814	O
+fitting	815	822	O
+of	823	825	O
+straight	826	834	O
+tracks	835	841	O
+of	842	844	O
+clean	845	850	O
+muon	851	855	O
+events	856	862	O
+observed	863	871	O
+on	872	874	O
+the	875	878	O
+ground	879	885	O
+without	886	893	O
+magnetic	894	902	B-Process
+field	903	908	I-Process
+.	908	909	O
+
+The	910	913	O
+correction	914	924	O
+was	925	928	O
+as	929	931	O
+small	932	937	O
+as	938	940	O
+expected	941	949	O
+from	950	954	O
+the	955	958	O
+accuracy	959	967	O
+in	968	970	O
+the	971	974	O
+chamber	975	982	B-Process
+manufacturing	983	996	I-Process
+.	996	997	O
+
+During	998	1004	O
+the	1005	1008	O
+observations	1009	1021	O
+,	1021	1022	O
+the	1023	1026	O
+x	1027	1028	B-Process
+–	1028	1029	I-Process
+t	1029	1030	I-Process
+relation	1031	1039	I-Process
+was	1040	1043	O
+affected	1044	1052	O
+by	1053	1055	O
+the	1056	1059	O
+variation	1060	1069	O
+in	1070	1072	O
+the	1073	1076	O
+pressure	1077	1085	O
+and	1086	1089	O
+temperature	1090	1101	O
+of	1102	1104	O
+the	1105	1108	O
+chamber	1109	1116	B-Material
+gas	1117	1120	I-Material
+.	1120	1121	O
+
+In	1122	1124	O
+order	1125	1130	O
+to	1131	1133	O
+take	1134	1138	O
+account	1139	1146	O
+of	1147	1149	O
+these	1150	1155	O
+time	1156	1160	O
+-	1160	1161	O
+dependent	1161	1170	O
+variations	1171	1181	O
+,	1181	1182	O
+the	1183	1186	O
+x	1187	1188	B-Process
+–	1188	1189	I-Process
+t	1189	1190	I-Process
+relation	1191	1199	I-Process
+was	1200	1203	O
+calibrated	1204	1214	O
+for	1215	1218	O
+each	1219	1223	O
+data	1224	1228	O
+-	1228	1229	O
+taking	1229	1235	O
+run	1236	1239	O
+.	1239	1240	O
+
+Especially	1241	1251	O
+in	1252	1254	O
+calibrating	1255	1266	O
+the	1267	1270	O
+x	1271	1272	B-Process
+–	1272	1273	I-Process
+t	1273	1274	I-Process
+relation	1275	1283	I-Process
+of	1284	1286	O
+ODCs	1287	1291	B-Material
+,	1291	1292	O
+an	1293	1295	O
+absolute	1296	1304	O
+reference	1305	1314	O
+positions	1315	1324	O
+were	1325	1329	O
+provided	1330	1338	O
+by	1339	1341	O
+SciFi	1342	1347	O
+,	1347	1348	O
+which	1349	1354	O
+are	1355	1358	O
+not	1359	1362	O
+affected	1363	1371	O
+by	1372	1374	O
+the	1375	1378	O
+variation	1379	1388	O
+in	1389	1391	O
+the	1392	1395	O
+pressure	1396	1404	O
+nor	1405	1408	O
+temperature	1409	1420	O
+.	1420	1421	O
 
 
 -DOCSTART- (S0370269304007816)
 
-We	NN	O	O
-define	NN	O	B-Task
-a	NN	O	I-Task
-new	NN	O	I-Task
-multispecies	NN	O	I-Task
-model	NN	O	I-Task
-of	NN	O	I-Task
-Calogero	NN	O	I-Task
-type	NN	O	I-Task
-in	NN	O	I-Task
-D	NN	O	I-Task
-dimensions	NN	O	I-Task
-with	NN	O	O
-harmonic	NN	O	B-Process
-,	NN	O	I-Process
-two	NN	O	I-Process
--	NN	O	I-Process
-body	NN	O	I-Process
-and	NN	O	I-Process
-three	NN	O	I-Process
--	NN	O	I-Process
-body	NN	O	I-Process
-interactions	NN	O	I-Process
-.	NN	O	O
-
-Using	NN	O	O
-the	NN	O	O
-underlying	NN	O	O
-conformal	NN	O	B-Process
-SU(1,1	NN	O	I-Process
-)	NN	O	I-Process
-algebra	NN	O	I-Process
-,	NN	O	O
-we	NN	O	O
-indicate	NN	O	O
-how	NN	O	O
-to	NN	O	O
-find	NN	O	O
-the	NN	O	O
-complete	NN	O	O
-set	NN	O	O
-of	NN	O	O
-the	NN	O	O
-states	NN	O	O
-in	NN	O	O
-Bargmann	NN	O	O
-–	NN	O	O
-Fock	NN	O	O
-space	NN	O	O
-.	NN	O	O
-
-There	NN	O	O
-are	NN	O	O
-towers	NN	O	O
-of	NN	O	O
-states	NN	O	O
-,	NN	O	O
-with	NN	O	O
-equidistant	NN	O	B-Process
-energy	NN	O	I-Process
-spectra	NN	O	I-Process
-in	NN	O	O
-each	NN	O	O
-tower	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-explicitely	NN	O	O
-construct	NN	O	B-Process
-all	NN	O	I-Process
-polynomial	NN	O	I-Process
-eigenstates	NN	O	I-Process
-,	NN	O	O
-namely	NN	O	O
-the	NN	O	O
-center	NN	O	O
--	NN	O	O
-of	NN	O	O
--	NN	O	O
-mass	NN	O	O
-states	NN	O	O
-and	NN	O	O
-global	NN	O	O
-dilatation	NN	O	O
-modes	NN	O	O
-,	NN	O	O
-and	NN	O	O
-find	NN	O	B-Process
-their	NN	O	I-Process
-corresponding	NN	O	I-Process
-eigenenergies	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-also	NN	O	O
-construct	NN	O	B-Process
-ladder	NN	O	I-Process
-operators	NN	O	I-Process
-for	NN	O	O
-these	NN	O	O
-global	NN	O	O
-collective	NN	O	O
-states	NN	O	O
-.	NN	O	O
-
-Analysing	NN	O	B-Task
-corresponding	NN	O	I-Task
-Fock	NN	O	I-Task
-space	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-detect	NN	O	O
-the	NN	O	O
-universal	NN	O	O
-critical	NN	O	O
-point	NN	O	O
-at	NN	O	O
-which	NN	O	O
-the	NN	O	O
-model	NN	O	O
-exhibits	NN	O	O
-singular	NN	O	O
-behavior	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-above	NN	O	O
-results	NN	O	O
-are	NN	O	O
-universal	NN	O	O
-for	NN	O	O
-all	NN	O	O
-systems	NN	O	O
-with	NN	O	O
-underlying	NN	O	O
-conformal	NN	O	O
-SU(1,1	NN	O	O
-)	NN	O	O
-symmetry	NN	O	O
-.	NN	O	O
+We	0	2	O
+define	3	9	B-Task
+a	10	11	I-Task
+new	12	15	I-Task
+multispecies	16	28	I-Task
+model	29	34	I-Task
+of	35	37	I-Task
+Calogero	38	46	I-Task
+type	47	51	I-Task
+in	52	54	I-Task
+D	55	56	I-Task
+dimensions	57	67	I-Task
+with	68	72	O
+harmonic	73	81	B-Process
+,	81	82	I-Process
+two	83	86	I-Process
+-	86	87	I-Process
+body	87	91	I-Process
+and	92	95	I-Process
+three	96	101	I-Process
+-	101	102	I-Process
+body	102	106	I-Process
+interactions	107	119	I-Process
+.	119	120	O
+
+Using	121	126	O
+the	127	130	O
+underlying	131	141	O
+conformal	142	151	B-Process
+SU(1,1	152	158	I-Process
+)	158	159	I-Process
+algebra	160	167	I-Process
+,	167	168	O
+we	169	171	O
+indicate	172	180	O
+how	181	184	O
+to	185	187	O
+find	188	192	O
+the	193	196	O
+complete	197	205	O
+set	206	209	O
+of	210	212	O
+the	213	216	O
+states	217	223	O
+in	224	226	O
+Bargmann	227	235	O
+–	235	236	O
+Fock	236	240	O
+space	241	246	O
+.	246	247	O
+
+There	248	253	O
+are	254	257	O
+towers	258	264	O
+of	265	267	O
+states	268	274	O
+,	274	275	O
+with	276	280	O
+equidistant	281	292	B-Process
+energy	293	299	I-Process
+spectra	300	307	I-Process
+in	308	310	O
+each	311	315	O
+tower	316	321	O
+.	321	322	O
+
+We	323	325	O
+explicitely	326	337	O
+construct	338	347	B-Process
+all	348	351	I-Process
+polynomial	352	362	I-Process
+eigenstates	363	374	I-Process
+,	374	375	O
+namely	376	382	O
+the	383	386	O
+center	387	393	O
+-	393	394	O
+of	394	396	O
+-	396	397	O
+mass	397	401	O
+states	402	408	O
+and	409	412	O
+global	413	419	O
+dilatation	420	430	O
+modes	431	436	O
+,	436	437	O
+and	438	441	O
+find	442	446	B-Process
+their	447	452	I-Process
+corresponding	453	466	I-Process
+eigenenergies	467	480	I-Process
+.	480	481	O
+
+We	482	484	O
+also	485	489	O
+construct	490	499	B-Process
+ladder	500	506	I-Process
+operators	507	516	I-Process
+for	517	520	O
+these	521	526	O
+global	527	533	O
+collective	534	544	O
+states	545	551	O
+.	551	552	O
+
+Analysing	553	562	B-Task
+corresponding	563	576	I-Task
+Fock	577	581	I-Task
+space	582	587	I-Task
+,	587	588	O
+we	589	591	O
+detect	592	598	O
+the	599	602	O
+universal	603	612	O
+critical	613	621	O
+point	622	627	O
+at	628	630	O
+which	631	636	O
+the	637	640	O
+model	641	646	O
+exhibits	647	655	O
+singular	656	664	O
+behavior	665	673	O
+.	673	674	O
+
+The	675	678	O
+above	679	684	O
+results	685	692	O
+are	693	696	O
+universal	697	706	O
+for	707	710	O
+all	711	714	O
+systems	715	722	O
+with	723	727	O
+underlying	728	738	O
+conformal	739	748	O
+SU(1,1	749	755	O
+)	755	756	O
+symmetry	757	765	O
+.	765	766	O
 
 
 -DOCSTART- (S0370269304008421)
 
-The	NN	O	O
-expression	NN	O	O
-for	NN	O	O
-Pc	NN	O	B-Material
-is	NN	O	O
-also	NN	O	O
-easily	NN	O	O
-found	NN	O	O
-in	NN	O	O
-the	NN	O	O
-same	NN	O	O
-basis	NN	O	O
-,	NN	O	O
-where	NN	O	O
-it	NN	O	O
-becomes	NN	O	O
-apparent	NN	O	O
-that	NN	O	O
-the	NN	O	O
-dynamics	NN	O	O
-of	NN	O	O
-conversion	NN	O	B-Process
-in	NN	O	I-Process
-matter	NN	O	I-Process
-depends	NN	O	O
-only	NN	O	O
-on	NN	O	O
-the	NN	O	O
-relative	NN	O	B-Process
-orientation	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-eigenstates	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-vacuum	NN	O	B-Process
-and	NN	O	O
-matter	NN	O	B-Process
-Hamiltonians	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-allows	NN	O	O
-to	NN	O	O
-directly	NN	O	O
-apply	NN	O	O
-the	NN	O	O
-known	NN	O	O
-analytical	NN	O	B-Process
-solutions	NN	O	I-Process
-for	NN	O	I-Process
-Pc	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-,	NN	O	O
-upon	NN	O	O
-rotating	NN	O	O
-back	NN	O	O
-,	NN	O	O
-obtain	NN	O	O
-a	NN	O	O
-generalization	NN	O	B-Process
-of	NN	O	I-Process
-these	NN	O	I-Process
-results	NN	O	I-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-NSI	NN	O	I-Process
-case	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-example	NN	O	O
-,	NN	O	O
-the	NN	O	O
-answer	NN	O	O
-for	NN	O	O
-the	NN	O	O
-infinite	NN	O	O
-exponential	NN	O	O
-profile	NN	O	O
-[	NN	O	O
-18,19	NN	O	O
-]	NN	O	O
-A∝exp(−r	NN	O	O
-/	NN	O	O
-r0	NN	O	O
-)	NN	O	O
-becomes	NN	O	O
-Pc	NN	O	O
-=	NN	O	O
-exp[γ(1−cos2θrel)/2]−1exp(γ)−1	NN	O	O
-,	NN	O	O
-where	NN	O	O
-γ≡4πr0Δ=πr0Δm2/Eν.	NN	O	O
-We	NN	O	O
-further	NN	O	O
-observe	NN	O	O
-that	NN	O	O
-since	NN	O	O
-γ⪢1	NN	O	O
-the	NN	O	O
-adiabaticity	NN	O	B-Process
-violation	NN	O	I-Process
-occurs	NN	O	O
-only	NN	O	O
-when	NN	O	O
-|θ−α|⪡1	NN	O	O
-and	NN	O	O
-φ≃π/2	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-the	NN	O	O
-analogue	NN	O	O
-of	NN	O	O
-the	NN	O	O
-small	NN	O	O
--	NN	O	O
-angle	NN	O	O
-MSW	NN	O	O
-[	NN	O	O
-10,20	NN	O	O
-]	NN	O	O
-effect	NN	O	O
-in	NN	O	O
-the	NN	O	O
-rotated	NN	O	O
-basis	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-“	NN	O	O
-resonant	NN	O	O
-”	NN	O	O
-region	NN	O	O
-in	NN	O	O
-the	NN	O	O
-Sun	NN	O	O
-where	NN	O	O
-level	NN	O	O
-jumping	NN	O	O
-can	NN	O	O
-take	NN	O	O
-place	NN	O	O
-is	NN	O	O
-narrow	NN	O	O
-,	NN	O	O
-defined	NN	O	O
-by	NN	O	O
-A≃Δ	NN	O	O
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-neutrino	NN	O	B-Material
-produced	NN	O	O
-at	NN	O	O
-a	NN	O	O
-lower	NN	O	O
-density	NN	O	O
-evolves	NN	O	O
-adiabatically	NN	O	O
-,	NN	O	O
-while	NN	O	O
-a	NN	O	O
-neutrino	NN	O	B-Material
-produced	NN	O	O
-at	NN	O	O
-a	NN	O	O
-higher	NN	O	O
-density	NN	O	O
-may	NN	O	O
-undergo	NN	O	O
-level	NN	O	O
-crossing	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-probability	NN	O	O
-Pc	NN	O	B-Material
-in	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-case	NN	O	O
-is	NN	O	O
-given	NN	O	O
-to	NN	O	O
-a	NN	O	O
-very	NN	O	O
-good	NN	O	O
-accuracy	NN	O	O
-by	NN	O	O
-the	NN	O	O
-formula	NN	O	O
-for	NN	O	O
-the	NN	O	O
-linear	NN	O	O
-profile	NN	O	O
-,	NN	O	O
-with	NN	O	O
-an	NN	O	O
-appropriate	NN	O	O
-gradient	NN	O	O
-taken	NN	O	O
-along	NN	O	O
-the	NN	O	O
-neutrino	NN	O	B-Material
-trajectory	NN	O	O
-,	NN	O	O
-(	NN	O	O
-12)Pc≃Θ(A−Δ)e−γ(cos2θrel+1)/2	NN	O	O
-,	NN	O	O
-where	NN	O	O
-Θ(x	NN	O	O
-)	NN	O	O
-is	NN	O	O
-the	NN	O	O
-step	NN	O	O
-function	NN	O	O
-,	NN	O	O
-Θ(x)=1	NN	O	O
-for	NN	O	O
-x>0	NN	O	O
-and	NN	O	O
-Θ(x)=0	NN	O	O
-otherwise	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-emphasize	NN	O	O
-that	NN	O	O
-our	NN	O	O
-results	NN	O	O
-differ	NN	O	O
-from	NN	O	O
-the	NN	O	O
-similar	NN	O	O
-ones	NN	O	O
-given	NN	O	O
-in	NN	O	O
-[	NN	O	O
-5,22	NN	O	O
-]	NN	O	O
-in	NN	O	O
-three	NN	O	O
-important	NN	O	O
-respects	NN	O	O
-:	NN	O	O
-(	NN	O	O
-i	NN	O	O
-)	NN	O	O
-they	NN	O	O
-are	NN	O	O
-valid	NN	O	O
-for	NN	O	O
-all	NN	O	O
-,	NN	O	O
-not	NN	O	O
-just	NN	O	O
-small	NN	O	O
-values	NN	O	O
-of	NN	O	O
-α	NN	O	O
-(	NN	O	O
-which	NN	O	O
-is	NN	O	O
-essential	NN	O	O
-for	NN	O	O
-our	NN	O	O
-application	NN	O	O
-)	NN	O	O
-,	NN	O	O
-(	NN	O	O
-ii	NN	O	O
-)	NN	O	O
-they	NN	O	O
-include	NN	O	O
-the	NN	O	O
-angle	NN	O	O
-φ	NN	O	O
-,	NN	O	O
-and	NN	O	O
-(	NN	O	O
-iii	NN	O	O
-)	NN	O	O
-the	NN	O	O
-argument	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Θ	NN	O	O
-function	NN	O	O
-does	NN	O	O
-not	NN	O	O
-contain	NN	O	O
-cos2θ	NN	O	O
-,	NN	O	O
-as	NN	O	O
-follows	NN	O	O
-from	NN	O	O
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-stress	NN	O	O
-that	NN	O	O
-for	NN	O	O
-large	NN	O	O
-values	NN	O	O
-of	NN	O	O
-α	NN	O	O
-and	NN	O	O
-φ≃π/2	NN	O	O
-
-adiabaticity	NN	O	O
-is	NN	O	O
-violated	NN	O	O
-for	NN	O	O
-large	NN	O	O
-values	NN	O	O
-of	NN	O	O
-θ.	NN	O	O
+The	0	3	O
+expression	4	14	O
+for	15	18	O
+Pc	19	21	B-Material
+is	22	24	O
+also	25	29	O
+easily	30	36	O
+found	37	42	O
+in	43	45	O
+the	46	49	O
+same	50	54	O
+basis	55	60	O
+,	60	61	O
+where	62	67	O
+it	68	70	O
+becomes	71	78	O
+apparent	79	87	O
+that	88	92	O
+the	93	96	O
+dynamics	97	105	O
+of	106	108	O
+conversion	109	119	B-Process
+in	120	122	I-Process
+matter	123	129	I-Process
+depends	130	137	O
+only	138	142	O
+on	143	145	O
+the	146	149	O
+relative	150	158	B-Process
+orientation	159	170	I-Process
+of	171	173	I-Process
+the	174	177	I-Process
+eigenstates	178	189	I-Process
+of	190	192	O
+the	193	196	O
+vacuum	197	203	B-Process
+and	204	207	O
+matter	208	214	B-Process
+Hamiltonians	215	227	I-Process
+.	227	228	O
+
+This	229	233	O
+allows	234	240	O
+to	241	243	O
+directly	244	252	O
+apply	253	258	O
+the	259	262	O
+known	263	268	O
+analytical	269	279	B-Process
+solutions	280	289	I-Process
+for	290	293	I-Process
+Pc	294	296	I-Process
+,	296	297	O
+and	298	301	O
+,	301	302	O
+upon	303	307	O
+rotating	308	316	O
+back	317	321	O
+,	321	322	O
+obtain	323	329	O
+a	330	331	O
+generalization	332	346	B-Process
+of	347	349	I-Process
+these	350	355	I-Process
+results	356	363	I-Process
+to	364	366	I-Process
+the	367	370	I-Process
+NSI	371	374	I-Process
+case	375	379	I-Process
+.	379	380	O
+
+For	381	384	O
+example	385	392	O
+,	392	393	O
+the	394	397	O
+answer	398	404	O
+for	405	408	O
+the	409	412	O
+infinite	413	421	O
+exponential	422	433	O
+profile	434	441	O
+[	442	443	O
+18,19	443	448	O
+]	448	449	O
+A∝exp(−r	450	458	O
+/	458	459	O
+r0	459	461	O
+)	461	462	O
+becomes	463	470	O
+Pc	471	473	O
+=	473	474	O
+exp[γ(1−cos2θrel)/2]−1exp(γ)−1	474	504	O
+,	504	505	O
+where	506	511	O
+γ≡4πr0Δ=πr0Δm2/Eν.	512	530	O
+We	531	533	O
+further	534	541	O
+observe	542	549	O
+that	550	554	O
+since	555	560	O
+γ⪢1	561	564	O
+the	565	568	O
+adiabaticity	569	581	B-Process
+violation	582	591	I-Process
+occurs	592	598	O
+only	599	603	O
+when	604	608	O
+|θ−α|⪡1	609	616	O
+and	617	620	O
+φ≃π/2	621	626	O
+,	626	627	O
+which	628	633	O
+is	634	636	O
+the	637	640	O
+analogue	641	649	O
+of	650	652	O
+the	653	656	O
+small	657	662	O
+-	662	663	O
+angle	663	668	O
+MSW	669	672	O
+[	673	674	O
+10,20	674	679	O
+]	679	680	O
+effect	681	687	O
+in	688	690	O
+the	691	694	O
+rotated	695	702	O
+basis	703	708	O
+.	708	709	O
+
+The	710	713	O
+“	714	715	O
+resonant	715	723	O
+”	723	724	O
+region	725	731	O
+in	732	734	O
+the	735	738	O
+Sun	739	742	O
+where	743	748	O
+level	749	754	O
+jumping	755	762	O
+can	763	766	O
+take	767	771	O
+place	772	777	O
+is	778	780	O
+narrow	781	787	O
+,	787	788	O
+defined	789	796	O
+by	797	799	O
+A≃Δ	800	803	O
+[	804	805	O
+21	805	807	O
+]	807	808	O
+.	808	809	O
+
+A	810	811	O
+neutrino	812	820	B-Material
+produced	821	829	O
+at	830	832	O
+a	833	834	O
+lower	835	840	O
+density	841	848	O
+evolves	849	856	O
+adiabatically	857	870	O
+,	870	871	O
+while	872	877	O
+a	878	879	O
+neutrino	880	888	B-Material
+produced	889	897	O
+at	898	900	O
+a	901	902	O
+higher	903	909	O
+density	910	917	O
+may	918	921	O
+undergo	922	929	O
+level	930	935	O
+crossing	936	944	O
+.	944	945	O
+
+The	946	949	O
+probability	950	961	O
+Pc	962	964	B-Material
+in	965	967	O
+the	968	971	O
+latter	972	978	O
+case	979	983	O
+is	984	986	O
+given	987	992	O
+to	993	995	O
+a	996	997	O
+very	998	1002	O
+good	1003	1007	O
+accuracy	1008	1016	O
+by	1017	1019	O
+the	1020	1023	O
+formula	1024	1031	O
+for	1032	1035	O
+the	1036	1039	O
+linear	1040	1046	O
+profile	1047	1054	O
+,	1054	1055	O
+with	1056	1060	O
+an	1061	1063	O
+appropriate	1064	1075	O
+gradient	1076	1084	O
+taken	1085	1090	O
+along	1091	1096	O
+the	1097	1100	O
+neutrino	1101	1109	B-Material
+trajectory	1110	1120	O
+,	1120	1121	O
+(	1122	1123	O
+12)Pc≃Θ(A−Δ)e−γ(cos2θrel+1)/2	1123	1152	O
+,	1152	1153	O
+where	1154	1159	O
+Θ(x	1160	1163	O
+)	1163	1164	O
+is	1165	1167	O
+the	1168	1171	O
+step	1172	1176	O
+function	1177	1185	O
+,	1185	1186	O
+Θ(x)=1	1187	1193	O
+for	1194	1197	O
+x>0	1198	1201	O
+and	1202	1205	O
+Θ(x)=0	1206	1212	O
+otherwise	1213	1222	O
+.	1222	1223	O
+
+We	1224	1226	O
+emphasize	1227	1236	O
+that	1237	1241	O
+our	1242	1245	O
+results	1246	1253	O
+differ	1254	1260	O
+from	1261	1265	O
+the	1266	1269	O
+similar	1270	1277	O
+ones	1278	1282	O
+given	1283	1288	O
+in	1289	1291	O
+[	1292	1293	O
+5,22	1293	1297	O
+]	1297	1298	O
+in	1299	1301	O
+three	1302	1307	O
+important	1308	1317	O
+respects	1318	1326	O
+:	1326	1327	O
+(	1328	1329	O
+i	1329	1330	O
+)	1330	1331	O
+they	1332	1336	O
+are	1337	1340	O
+valid	1341	1346	O
+for	1347	1350	O
+all	1351	1354	O
+,	1354	1355	O
+not	1356	1359	O
+just	1360	1364	O
+small	1365	1370	O
+values	1371	1377	O
+of	1378	1380	O
+α	1381	1382	O
+(	1383	1384	O
+which	1384	1389	O
+is	1390	1392	O
+essential	1393	1402	O
+for	1403	1406	O
+our	1407	1410	O
+application	1411	1422	O
+)	1422	1423	O
+,	1423	1424	O
+(	1425	1426	O
+ii	1426	1428	O
+)	1428	1429	O
+they	1430	1434	O
+include	1435	1442	O
+the	1443	1446	O
+angle	1447	1452	O
+φ	1453	1454	O
+,	1454	1455	O
+and	1456	1459	O
+(	1460	1461	O
+iii	1461	1464	O
+)	1464	1465	O
+the	1466	1469	O
+argument	1470	1478	O
+of	1479	1481	O
+the	1482	1485	O
+Θ	1486	1487	O
+function	1488	1496	O
+does	1497	1501	O
+not	1502	1505	O
+contain	1506	1513	O
+cos2θ	1514	1519	O
+,	1519	1520	O
+as	1521	1523	O
+follows	1524	1531	O
+from	1532	1536	O
+[	1537	1538	O
+21	1538	1540	O
+]	1540	1541	O
+.	1541	1542	O
+
+We	1543	1545	O
+stress	1546	1552	O
+that	1553	1557	O
+for	1558	1561	O
+large	1562	1567	O
+values	1568	1574	O
+of	1575	1577	O
+α	1578	1579	O
+and	1580	1583	O
+φ≃π/2	1584	1589	O
+
+adiabaticity	1590	1602	O
+is	1603	1605	O
+violated	1606	1614	O
+for	1615	1618	O
+large	1619	1624	O
+values	1625	1631	O
+of	1632	1634	O
+θ.	1635	1637	O
 
 
 -DOCSTART- (S0370269304008494)
 
-One	NN	O	O
-major	NN	O	O
-goal	NN	O	O
-of	NN	O	O
-current	NN	O	O
-nuclear	NN	O	B-Task
-physics	NN	O	I-Task
-is	NN	O	O
-the	NN	O	O
-observation	NN	O	B-Task
-of	NN	O	I-Task
-at	NN	O	I-Task
-least	NN	O	I-Task
-partial	NN	O	I-Task
-restoration	NN	O	I-Task
-of	NN	O	I-Task
-chiral	NN	O	I-Task
-symmetry	NN	O	I-Task
-.	NN	O	O
-
-Since	NN	O	O
-the	NN	O	O
-chiral	NN	O	B-Material
-order	NN	O	I-Material
-parameter	NN	O	I-Material
-〈	NN	O	O
-q̄q	NN	O	B-Material
-〉	NN	O	O
-is	NN	O	O
-expected	NN	O	O
-to	NN	O	O
-decrease	NN	O	O
-by	NN	O	O
-about	NN	O	O
-30	NN	O	O
-%	NN	O	O
-already	NN	O	O
-at	NN	O	O
-normal	NN	O	O
-nuclear	NN	O	B-Material
-matter	NN	O	I-Material
-density	NN	O	O
-[	NN	O	O
-1–4	NN	O	O
-]	NN	O	O
-,	NN	O	O
-any	NN	O	O
-in	NN	O	O
--	NN	O	O
-medium	NN	O	O
-change	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-dropping	NN	O	O
-quark	NN	O	B-Material
-condensate	NN	O	I-Material
-should	NN	O	O
-in	NN	O	O
-principle	NN	O	O
-be	NN	O	O
-observable	NN	O	O
-in	NN	O	O
-photonuclear	NN	O	B-Process
-reactions	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-conjecture	NN	O	O
-that	NN	O	O
-such	NN	O	O
-a	NN	O	O
-partial	NN	O	B-Process
-restoration	NN	O	I-Process
-of	NN	O	I-Process
-chiral	NN	O	I-Process
-symmetry	NN	O	I-Process
-causes	NN	O	O
-a	NN	O	O
-softening	NN	O	O
-and	NN	O	O
-narrowing	NN	O	O
-of	NN	O	O
-the	NN	O	O
-σ	NN	O	B-Material
-meson	NN	O	I-Material
-as	NN	O	O
-the	NN	O	O
-chiral	NN	O	B-Material
-partner	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-pion	NN	O	B-Material
-in	NN	O	O
-the	NN	O	O
-nuclear	NN	O	B-Material
-medium	NN	O	I-Material
-[	NN	O	O
-5,6	NN	O	O
-]	NN	O	O
-has	NN	O	O
-led	NN	O	O
-to	NN	O	O
-the	NN	O	O
-idea	NN	O	O
-of	NN	O	O
-measuring	NN	O	B-Process
-the	NN	O	I-Process
-π0π0	NN	O	I-Process
-invariant	NN	O	I-Process
-mass	NN	O	I-Process
-distribution	NN	O	I-Process
-near	NN	O	O
-the	NN	O	O
-2π	NN	O	O
-threshold	NN	O	O
-in	NN	O	O
-photon	NN	O	B-Process
-induced	NN	O	I-Process
-reactions	NN	O	I-Process
-on	NN	O	O
-nuclei	NN	O	B-Material
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-contrast	NN	O	O
-to	NN	O	O
-its	NN	O	O
-questionable	NN	O	O
-nature	NN	O	O
-as	NN	O	O
-a	NN	O	O
-proper	NN	O	O
-quasiparticle	NN	O	B-Material
-in	NN	O	O
-vacuum	NN	O	O
-,	NN	O	O
-the	NN	O	O
-σ	NN	O	B-Material
-meson	NN	O	I-Material
-might	NN	O	O
-develop	NN	O	O
-a	NN	O	O
-much	NN	O	O
-narrower	NN	O	O
-peak	NN	O	O
-at	NN	O	O
-finite	NN	O	O
-baryon	NN	O	O
-density	NN	O	O
-due	NN	O	O
-to	NN	O	O
-phase	NN	O	O
--	NN	O	O
-space	NN	O	O
-suppression	NN	O	O
-for	NN	O	O
-the	NN	O	O
-σ→ππ	NN	O	B-Process
-decay	NN	O	I-Process
-,	NN	O	O
-hence	NN	O	O
-making	NN	O	O
-it	NN	O	O
-possible	NN	O	O
-to	NN	O	O
-explore	NN	O	O
-its	NN	O	O
-properties	NN	O	O
-when	NN	O	O
-embedded	NN	O	O
-in	NN	O	O
-a	NN	O	O
-nuclear	NN	O	B-Process
-many	NN	O	I-Process
--	NN	O	I-Process
-body	NN	O	I-Process
-system	NN	O	I-Process
-[	NN	O	O
-8–11	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Measuring	NN	O	B-Process
-a	NN	O	I-Process
-threshold	NN	O	I-Process
-enhancement	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-π0π0	NN	O	I-Process
-invariant	NN	O	I-Process
-mass	NN	O	I-Process
-spectrum	NN	O	I-Process
-might	NN	O	O
-serve	NN	O	O
-as	NN	O	O
-a	NN	O	O
-signal	NN	O	O
-for	NN	O	O
-the	NN	O	O
-partial	NN	O	B-Task
-restoration	NN	O	I-Task
-of	NN	O	I-Task
-chiral	NN	O	I-Task
-symmetry	NN	O	I-Task
-inside	NN	O	O
-nuclei	NN	O	B-Material
-and	NN	O	O
-,	NN	O	O
-therefore	NN	O	O
-,	NN	O	O
-give	NN	O	O
-information	NN	O	O
-about	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-most	NN	O	O
-fundamental	NN	O	O
-features	NN	O	O
-of	NN	O	O
-QCD	NN	O	B-Material
-.	NN	O	O
+One	0	3	O
+major	4	9	O
+goal	10	14	O
+of	15	17	O
+current	18	25	O
+nuclear	26	33	B-Task
+physics	34	41	I-Task
+is	42	44	O
+the	45	48	O
+observation	49	60	B-Task
+of	61	63	I-Task
+at	64	66	I-Task
+least	67	72	I-Task
+partial	73	80	I-Task
+restoration	81	92	I-Task
+of	93	95	I-Task
+chiral	96	102	I-Task
+symmetry	103	111	I-Task
+.	111	112	O
+
+Since	113	118	O
+the	119	122	O
+chiral	123	129	B-Material
+order	130	135	I-Material
+parameter	136	145	I-Material
+〈	146	147	O
+q̄q	147	150	B-Material
+〉	150	151	O
+is	152	154	O
+expected	155	163	O
+to	164	166	O
+decrease	167	175	O
+by	176	178	O
+about	179	184	O
+30	185	187	O
+%	187	188	O
+already	189	196	O
+at	197	199	O
+normal	200	206	O
+nuclear	207	214	B-Material
+matter	215	221	I-Material
+density	222	229	O
+[	230	231	O
+1–4	231	234	O
+]	234	235	O
+,	235	236	O
+any	237	240	O
+in	241	243	O
+-	243	244	O
+medium	244	250	O
+change	251	257	O
+due	258	261	O
+to	262	264	O
+the	265	268	O
+dropping	269	277	O
+quark	278	283	B-Material
+condensate	284	294	I-Material
+should	295	301	O
+in	302	304	O
+principle	305	314	O
+be	315	317	O
+observable	318	328	O
+in	329	331	O
+photonuclear	332	344	B-Process
+reactions	345	354	I-Process
+.	354	355	O
+
+The	356	359	O
+conjecture	360	370	O
+that	371	375	O
+such	376	380	O
+a	381	382	O
+partial	383	390	B-Process
+restoration	391	402	I-Process
+of	403	405	I-Process
+chiral	406	412	I-Process
+symmetry	413	421	I-Process
+causes	422	428	O
+a	429	430	O
+softening	431	440	O
+and	441	444	O
+narrowing	445	454	O
+of	455	457	O
+the	458	461	O
+σ	462	463	B-Material
+meson	464	469	I-Material
+as	470	472	O
+the	473	476	O
+chiral	477	483	B-Material
+partner	484	491	I-Material
+of	492	494	O
+the	495	498	O
+pion	499	503	B-Material
+in	504	506	O
+the	507	510	O
+nuclear	511	518	B-Material
+medium	519	525	I-Material
+[	526	527	O
+5,6	527	530	O
+]	530	531	O
+has	532	535	O
+led	536	539	O
+to	540	542	O
+the	543	546	O
+idea	547	551	O
+of	552	554	O
+measuring	555	564	B-Process
+the	565	568	I-Process
+π0π0	569	573	I-Process
+invariant	574	583	I-Process
+mass	584	588	I-Process
+distribution	589	601	I-Process
+near	602	606	O
+the	607	610	O
+2π	611	613	O
+threshold	614	623	O
+in	624	626	O
+photon	627	633	B-Process
+induced	634	641	I-Process
+reactions	642	651	I-Process
+on	652	654	O
+nuclei	655	661	B-Material
+[	662	663	O
+7	663	664	O
+]	664	665	O
+.	665	666	O
+
+In	667	669	O
+contrast	670	678	O
+to	679	681	O
+its	682	685	O
+questionable	686	698	O
+nature	699	705	O
+as	706	708	O
+a	709	710	O
+proper	711	717	O
+quasiparticle	718	731	B-Material
+in	732	734	O
+vacuum	735	741	O
+,	741	742	O
+the	743	746	O
+σ	747	748	B-Material
+meson	749	754	I-Material
+might	755	760	O
+develop	761	768	O
+a	769	770	O
+much	771	775	O
+narrower	776	784	O
+peak	785	789	O
+at	790	792	O
+finite	793	799	O
+baryon	800	806	O
+density	807	814	O
+due	815	818	O
+to	819	821	O
+phase	822	827	O
+-	827	828	O
+space	828	833	O
+suppression	834	845	O
+for	846	849	O
+the	850	853	O
+σ→ππ	854	858	B-Process
+decay	859	864	I-Process
+,	864	865	O
+hence	866	871	O
+making	872	878	O
+it	879	881	O
+possible	882	890	O
+to	891	893	O
+explore	894	901	O
+its	902	905	O
+properties	906	916	O
+when	917	921	O
+embedded	922	930	O
+in	931	933	O
+a	934	935	O
+nuclear	936	943	B-Process
+many	944	948	I-Process
+-	948	949	I-Process
+body	949	953	I-Process
+system	954	960	I-Process
+[	961	962	O
+8–11	962	966	O
+]	966	967	O
+.	967	968	O
+
+Measuring	969	978	B-Process
+a	979	980	I-Process
+threshold	981	990	I-Process
+enhancement	991	1002	I-Process
+of	1003	1005	I-Process
+the	1006	1009	I-Process
+π0π0	1010	1014	I-Process
+invariant	1015	1024	I-Process
+mass	1025	1029	I-Process
+spectrum	1030	1038	I-Process
+might	1039	1044	O
+serve	1045	1050	O
+as	1051	1053	O
+a	1054	1055	O
+signal	1056	1062	O
+for	1063	1066	O
+the	1067	1070	O
+partial	1071	1078	B-Task
+restoration	1079	1090	I-Task
+of	1091	1093	I-Task
+chiral	1094	1100	I-Task
+symmetry	1101	1109	I-Task
+inside	1110	1116	O
+nuclei	1117	1123	B-Material
+and	1124	1127	O
+,	1127	1128	O
+therefore	1129	1138	O
+,	1138	1139	O
+give	1140	1144	O
+information	1145	1156	O
+about	1157	1162	O
+one	1163	1166	O
+of	1167	1169	O
+the	1170	1173	O
+most	1174	1178	O
+fundamental	1179	1190	O
+features	1191	1199	O
+of	1200	1202	O
+QCD	1203	1206	B-Material
+.	1206	1207	O
 
 
 -DOCSTART- (S0370269304009293)
 
-An	NN	O	O
-OPE	NN	O	B-Material
-of	NN	O	O
-VQCD(r	NN	O	B-Material
-)	NN	O	I-Material
-was	NN	O	O
-developed	NN	O	O
-in	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-and	NN	O	O
-the	NN	O	O
-next	NN	O	O
-paragraph	NN	O	O
-,	NN	O	O
-we	NN	O	O
-review	NN	O	O
-the	NN	O	O
-content	NN	O	O
-of	NN	O	O
-that	NN	O	O
-paper	NN	O	O
-relevant	NN	O	O
-to	NN	O	O
-our	NN	O	O
-analysis	NN	O	O
-.	NN	O	O
-
-Within	NN	O	O
-this	NN	O	O
-framework	NN	O	O
-,	NN	O	O
-short	NN	O	O
--	NN	O	O
-distance	NN	O	O
-contributions	NN	O	O
-are	NN	O	O
-contained	NN	O	O
-in	NN	O	O
-the	NN	O	O
-potentials	NN	O	O
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-in	NN	O	O
-fact	NN	O	O
-the	NN	O	O
-Wilson	NN	O	O
-coefficients	NN	O	O
-,	NN	O	O
-while	NN	O	O
-non	NN	O	O
--	NN	O	O
-perturbative	NN	O	O
-contributions	NN	O	O
-are	NN	O	O
-contained	NN	O	O
-in	NN	O	O
-the	NN	O	O
-matrix	NN	O	O
-elements	NN	O	O
-that	NN	O	O
-are	NN	O	O
-organized	NN	O	O
-in	NN	O	O
-multipole	NN	O	B-Process
-expansion	NN	O	I-Process
-in	NN	O	O
-r→	NN	O	O
-at	NN	O	O
-r≪ΛQCD−1	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-following	NN	O	O
-relation	NN	O	O
-was	NN	O	O
-derived	NN	O	O
-:	NN	O	O
-(	NN	O	O
-16)VQCD(r)=VS(r)+δEUS(r),(17)δEUS=−ig2TFNC∫0∞dte−iΔV(r)t×〈r→⋅E→a(t)φadj(t,0)abr→⋅E→b(0)〉+O(r3	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-VS(r	NN	O	O
-)	NN	O	O
-denotes	NN	O	O
-the	NN	O	O
-singlet	NN	O	O
-potential	NN	O	O
-.	NN	O	O
-
-δEUS(r	NN	O	O
-)	NN	O	O
-denotes	NN	O	O
-the	NN	O	O
-non	NN	O	O
--	NN	O	O
-perturbative	NN	O	O
-contribution	NN	O	O
-to	NN	O	O
-the	NN	O	O
-QCD	NN	O	B-Material
-potential	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-starts	NN	O	O
-at	NN	O	O
-O(ΛQCD3r2	NN	O	O
-)	NN	O	O
-in	NN	O	O
-the	NN	O	O
-multipole	NN	O	B-Process
-expansion	NN	O	I-Process
-.	NN	O	O
-
-ΔV(r)=VO(r)−VS(r	NN	O	O
-)	NN	O	O
-denotes	NN	O	O
-the	NN	O	O
-difference	NN	O	O
-between	NN	O	O
-the	NN	O	O
-octet	NN	O	O
-and	NN	O	O
-singlet	NN	O	O
-potentials	NN	O	O
-;	NN	O	O
-see	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-for	NN	O	O
-details	NN	O	O
-.	NN	O	O
-
-Intuitively	NN	O	O
-VS(r	NN	O	O
-)	NN	O	O
-corresponds	NN	O	O
-to	NN	O	O
-VUV(r;μf	NN	O	O
-)	NN	O	O
-and	NN	O	O
-δEUS(r	NN	O	O
-)	NN	O	O
-to	NN	O	O
-VIR(r;μf	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-adopt	NN	O	O
-dimensional	NN	O	B-Process
-regularization	NN	O	I-Process
-in	NN	O	O
-our	NN	O	O
-analysis	NN	O	O
-;	NN	O	O
-we	NN	O	O
-also	NN	O	O
-refer	NN	O	O
-to	NN	O	O
-hard	NN	O	B-Process
-cutoff	NN	O	I-Process
-schemes	NN	O	I-Process
-when	NN	O	O
-discussing	NN	O	O
-conceptual	NN	O	O
-aspects	NN	O	O
-.	NN	O	O
+An	0	2	O
+OPE	3	6	B-Material
+of	7	9	O
+VQCD(r	10	16	B-Material
+)	16	17	I-Material
+was	18	21	O
+developed	22	31	O
+in	32	34	O
+[	35	36	O
+3	36	37	O
+]	37	38	O
+.	38	39	O
+
+In	40	42	O
+this	43	47	O
+and	48	51	O
+the	52	55	O
+next	56	60	O
+paragraph	61	70	O
+,	70	71	O
+we	72	74	O
+review	75	81	O
+the	82	85	O
+content	86	93	O
+of	94	96	O
+that	97	101	O
+paper	102	107	O
+relevant	108	116	O
+to	117	119	O
+our	120	123	O
+analysis	124	132	O
+.	132	133	O
+
+Within	134	140	O
+this	141	145	O
+framework	146	155	O
+,	155	156	O
+short	157	162	O
+-	162	163	O
+distance	163	171	O
+contributions	172	185	O
+are	186	189	O
+contained	190	199	O
+in	200	202	O
+the	203	206	O
+potentials	207	217	O
+,	217	218	O
+which	219	224	O
+are	225	228	O
+in	229	231	O
+fact	232	236	O
+the	237	240	O
+Wilson	241	247	O
+coefficients	248	260	O
+,	260	261	O
+while	262	267	O
+non	268	271	O
+-	271	272	O
+perturbative	272	284	O
+contributions	285	298	O
+are	299	302	O
+contained	303	312	O
+in	313	315	O
+the	316	319	O
+matrix	320	326	O
+elements	327	335	O
+that	336	340	O
+are	341	344	O
+organized	345	354	O
+in	355	357	O
+multipole	358	367	B-Process
+expansion	368	377	I-Process
+in	378	380	O
+r→	381	383	O
+at	384	386	O
+r≪ΛQCD−1	387	395	O
+.	395	396	O
+
+The	397	400	O
+following	401	410	O
+relation	411	419	O
+was	420	423	O
+derived	424	431	O
+:	431	432	O
+(	433	434	O
+16)VQCD(r)=VS(r)+δEUS(r),(17)δEUS=−ig2TFNC∫0∞dte−iΔV(r)t×〈r→⋅E→a(t)φadj(t,0)abr→⋅E→b(0)〉+O(r3	434	527	O
+)	527	528	O
+.	528	529	O
+
+VS(r	530	534	O
+)	534	535	O
+denotes	536	543	O
+the	544	547	O
+singlet	548	555	O
+potential	556	565	O
+.	565	566	O
+
+δEUS(r	567	573	O
+)	573	574	O
+denotes	575	582	O
+the	583	586	O
+non	587	590	O
+-	590	591	O
+perturbative	591	603	O
+contribution	604	616	O
+to	617	619	O
+the	620	623	O
+QCD	624	627	B-Material
+potential	628	637	I-Material
+,	637	638	O
+which	639	644	O
+starts	645	651	O
+at	652	654	O
+O(ΛQCD3r2	655	664	O
+)	664	665	O
+in	666	668	O
+the	669	672	O
+multipole	673	682	B-Process
+expansion	683	692	I-Process
+.	692	693	O
+
+ΔV(r)=VO(r)−VS(r	694	710	O
+)	710	711	O
+denotes	712	719	O
+the	720	723	O
+difference	724	734	O
+between	735	742	O
+the	743	746	O
+octet	747	752	O
+and	753	756	O
+singlet	757	764	O
+potentials	765	775	O
+;	775	776	O
+see	777	780	O
+[	781	782	O
+3	782	783	O
+]	783	784	O
+for	785	788	O
+details	789	796	O
+.	796	797	O
+
+Intuitively	798	809	O
+VS(r	810	814	O
+)	814	815	O
+corresponds	816	827	O
+to	828	830	O
+VUV(r;μf	831	839	O
+)	839	840	O
+and	841	844	O
+δEUS(r	845	851	O
+)	851	852	O
+to	853	855	O
+VIR(r;μf	856	864	O
+)	864	865	O
+.	865	866	O
+
+We	867	869	O
+adopt	870	875	O
+dimensional	876	887	B-Process
+regularization	888	902	I-Process
+in	903	905	O
+our	906	909	O
+analysis	910	918	O
+;	918	919	O
+we	920	922	O
+also	923	927	O
+refer	928	933	O
+to	934	936	O
+hard	937	941	B-Process
+cutoff	942	948	I-Process
+schemes	949	956	I-Process
+when	957	961	O
+discussing	962	972	O
+conceptual	973	983	O
+aspects	984	991	O
+.	991	992	O
 
 
 -DOCSTART- (S0370269304012638)
 
-It	NN	O	O
-has	NN	O	O
-recently	NN	O	O
-been	NN	O	O
-demonstrated	NN	O	O
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-(	NN	O	O
-see	NN	O	O
-also	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-and	NN	O	O
-references	NN	O	O
-therein	NN	O	O
-)	NN	O	O
-that	NN	O	O
-for	NN	O	O
-a	NN	O	O
-self	NN	O	O
--	NN	O	O
-dual	NN	O	O
-background	NN	O	O
-the	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-loop	NN	O	I-Process
-QED	NN	O	I-Process
-effective	NN	O	I-Process
-action	NN	O	I-Process
-takes	NN	O	O
-a	NN	O	O
-remarkably	NN	O	O
-simple	NN	O	O
-form	NN	O	O
-that	NN	O	O
-is	NN	O	O
-very	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-the	NN	O	O
-one	NN	O	B-Process
--	NN	O	I-Process
-loop	NN	O	I-Process
-action	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-same	NN	O	O
-background	NN	O	O
-.	NN	O	O
-
-There	NN	O	O
-are	NN	O	O
-expectations	NN	O	O
-that	NN	O	O
-this	NN	O	O
-similarity	NN	O	O
-persists	NN	O	O
-at	NN	O	O
-higher	NN	O	B-Process
-loops	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-therefore	NN	O	O
-there	NN	O	O
-should	NN	O	O
-be	NN	O	O
-some	NN	O	O
-remarkable	NN	O	O
-structure	NN	O	O
-encoded	NN	O	O
-in	NN	O	O
-the	NN	O	O
-all	NN	O	B-Process
--	NN	O	I-Process
-loop	NN	O	I-Process
-effective	NN	O	I-Process
-action	NN	O	I-Process
-for	NN	O	O
-gauge	NN	O	O
-theories	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-supersymmetric	NN	O	O
-case	NN	O	O
-,	NN	O	O
-one	NN	O	O
-has	NN	O	O
-to	NN	O	O
-replace	NN	O	O
-the	NN	O	O
-requirement	NN	O	O
-of	NN	O	O
-self	NN	O	O
--	NN	O	O
-duality	NN	O	O
-by	NN	O	O
-that	NN	O	O
-of	NN	O	O
-relaxed	NN	O	O
-super	NN	O	O
-self	NN	O	O
--	NN	O	O
-duality	NN	O	O
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-arrive	NN	O	O
-at	NN	O	O
-conclusions	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-those	NN	O	O
-given	NN	O	O
-in	NN	O	O
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Further	NN	O	O
-progress	NN	O	O
-in	NN	O	O
-this	NN	O	O
-direction	NN	O	O
-may	NN	O	O
-be	NN	O	O
-achieved	NN	O	O
-through	NN	O	O
-the	NN	O	O
-analysis	NN	O	B-Task
-of	NN	O	I-Task
-N=2	NN	O	I-Task
-covariant	NN	O	I-Task
-supergraphs	NN	O	I-Task
-.	NN	O	O
-
-Finally	NN	O	O
-,	NN	O	O
-we	NN	O	O
-believe	NN	O	O
-that	NN	O	O
-the	NN	O	O
-results	NN	O	O
-of	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-may	NN	O	O
-be	NN	O	O
-helpful	NN	O	O
-in	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-the	NN	O	O
-conjectured	NN	O	O
-correspondence	NN	O	O
-[	NN	O	O
-17–19	NN	O	O
-]	NN	O	O
-between	NN	O	O
-the	NN	O	O
-D3-brane	NN	O	B-Process
-action	NN	O	I-Process
-in	NN	O	O
-AdS5×S5	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-low	NN	O	O
--	NN	O	O
-energy	NN	O	O
-action	NN	O	O
-for	NN	O	O
-N=4	NN	O	O
-SU(N	NN	O	O
-
-)	NN	O	O
-SYM	NN	O	O
-on	NN	O	O
-its	NN	O	O
-Coulomb	NN	O	B-Material
-branch	NN	O	I-Material
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-gauge	NN	O	B-Material
-group	NN	O	I-Material
-SU(N	NN	O	B-Material
-)	NN	O	I-Material
-spontaneously	NN	O	O
-broken	NN	O	O
-to	NN	O	O
-SU(N−1)×U(1	NN	O	B-Material
-)	NN	O	I-Material
-.	NN	O	O
-
-There	NN	O	O
-have	NN	O	O
-appeared	NN	O	O
-two	NN	O	O
-independent	NN	O	O
-F6	NN	O	B-Task
-tests	NN	O	I-Task
-of	NN	O	I-Task
-this	NN	O	I-Task
-conjecture	NN	O	I-Task
-[	NN	O	O
-19,20	NN	O	O
-]	NN	O	O
-,	NN	O	O
-with	NN	O	O
-conflicting	NN	O	O
-conclusions	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-approach	NN	O	O
-advocated	NN	O	O
-here	NN	O	O
-provides	NN	O	O
-the	NN	O	O
-opportunity	NN	O	O
-for	NN	O	O
-a	NN	O	O
-further	NN	O	O
-test	NN	O	O
-.	NN	O	O
+It	0	2	O
+has	3	6	O
+recently	7	15	O
+been	16	20	O
+demonstrated	21	33	O
+[	34	35	O
+15	35	37	O
+]	37	38	O
+(	39	40	O
+see	40	43	O
+also	44	48	O
+[	49	50	O
+13	50	52	O
+]	52	53	O
+and	54	57	O
+references	58	68	O
+therein	69	76	O
+)	76	77	O
+that	78	82	O
+for	83	86	O
+a	87	88	O
+self	89	93	O
+-	93	94	O
+dual	94	98	O
+background	99	109	O
+the	110	113	O
+two	114	117	B-Process
+-	117	118	I-Process
+loop	118	122	I-Process
+QED	123	126	I-Process
+effective	127	136	I-Process
+action	137	143	I-Process
+takes	144	149	O
+a	150	151	O
+remarkably	152	162	O
+simple	163	169	O
+form	170	174	O
+that	175	179	O
+is	180	182	O
+very	183	187	O
+similar	188	195	O
+to	196	198	O
+the	199	202	O
+one	203	206	B-Process
+-	206	207	I-Process
+loop	207	211	I-Process
+action	212	218	I-Process
+in	219	221	O
+the	222	225	O
+same	226	230	O
+background	231	241	O
+.	241	242	O
+
+There	243	248	O
+are	249	252	O
+expectations	253	265	O
+that	266	270	O
+this	271	275	O
+similarity	276	286	O
+persists	287	295	O
+at	296	298	O
+higher	299	305	B-Process
+loops	306	311	I-Process
+,	311	312	O
+and	313	316	O
+therefore	317	326	O
+there	327	332	O
+should	333	339	O
+be	340	342	O
+some	343	347	O
+remarkable	348	358	O
+structure	359	368	O
+encoded	369	376	O
+in	377	379	O
+the	380	383	O
+all	384	387	B-Process
+-	387	388	I-Process
+loop	388	392	I-Process
+effective	393	402	I-Process
+action	403	409	I-Process
+for	410	413	O
+gauge	414	419	O
+theories	420	428	O
+.	428	429	O
+
+In	430	432	O
+the	433	436	O
+supersymmetric	437	451	O
+case	452	456	O
+,	456	457	O
+one	458	461	O
+has	462	465	O
+to	466	468	O
+replace	469	476	O
+the	477	480	O
+requirement	481	492	O
+of	493	495	O
+self	496	500	O
+-	500	501	O
+duality	501	508	O
+by	509	511	O
+that	512	516	O
+of	517	519	O
+relaxed	520	527	O
+super	528	533	O
+self	534	538	O
+-	538	539	O
+duality	539	546	O
+[	547	548	O
+16	548	550	O
+]	550	551	O
+in	552	554	O
+order	555	560	O
+to	561	563	O
+arrive	564	570	O
+at	571	573	O
+conclusions	574	585	O
+similar	586	593	O
+to	594	596	O
+those	597	602	O
+given	603	608	O
+in	609	611	O
+[	612	613	O
+15	613	615	O
+]	615	616	O
+.	616	617	O
+
+Further	618	625	O
+progress	626	634	O
+in	635	637	O
+this	638	642	O
+direction	643	652	O
+may	653	656	O
+be	657	659	O
+achieved	660	668	O
+through	669	676	O
+the	677	680	O
+analysis	681	689	B-Task
+of	690	692	I-Task
+N=2	693	696	I-Task
+covariant	697	706	I-Task
+supergraphs	707	718	I-Task
+.	718	719	O
+
+Finally	720	727	O
+,	727	728	O
+we	729	731	O
+believe	732	739	O
+that	740	744	O
+the	745	748	O
+results	749	756	O
+of	757	759	O
+this	760	764	O
+Letter	765	771	O
+may	772	775	O
+be	776	778	O
+helpful	779	786	O
+in	787	789	O
+the	790	793	O
+context	794	801	O
+of	802	804	O
+the	805	808	O
+conjectured	809	820	O
+correspondence	821	835	O
+[	836	837	O
+17–19	837	842	O
+]	842	843	O
+between	844	851	O
+the	852	855	O
+D3-brane	856	864	B-Process
+action	865	871	I-Process
+in	872	874	O
+AdS5×S5	875	882	B-Material
+and	883	886	O
+the	887	890	O
+low	891	894	O
+-	894	895	O
+energy	895	901	O
+action	902	908	O
+for	909	912	O
+N=4	913	916	O
+SU(N	917	921	O
+
+)	921	922	O
+SYM	923	926	O
+on	927	929	O
+its	930	933	O
+Coulomb	934	941	B-Material
+branch	942	948	I-Material
+,	948	949	O
+with	950	954	O
+the	955	958	O
+gauge	959	964	B-Material
+group	965	970	I-Material
+SU(N	971	975	B-Material
+)	975	976	I-Material
+spontaneously	977	990	O
+broken	991	997	O
+to	998	1000	O
+SU(N−1)×U(1	1001	1012	B-Material
+)	1012	1013	I-Material
+.	1013	1014	O
+
+There	1015	1020	O
+have	1021	1025	O
+appeared	1026	1034	O
+two	1035	1038	O
+independent	1039	1050	O
+F6	1051	1053	B-Task
+tests	1054	1059	I-Task
+of	1060	1062	I-Task
+this	1063	1067	I-Task
+conjecture	1068	1078	I-Task
+[	1079	1080	O
+19,20	1080	1085	O
+]	1085	1086	O
+,	1086	1087	O
+with	1088	1092	O
+conflicting	1093	1104	O
+conclusions	1105	1116	O
+.	1116	1117	O
+
+The	1118	1121	O
+approach	1122	1130	O
+advocated	1131	1140	O
+here	1141	1145	O
+provides	1146	1154	O
+the	1155	1158	O
+opportunity	1159	1170	O
+for	1171	1174	O
+a	1175	1176	O
+further	1177	1184	O
+test	1185	1189	O
+.	1189	1190	O
 
 
 -DOCSTART- (S037877531001949X)
 
-The	NN	O	O
-Substrate	NN	O	B-Task
-Induced	NN	O	I-Task
-Coagulation	NN	O	I-Task
-(	NN	O	O
-SIC	NN	O	B-Task
-)	NN	O	O
-coating	NN	O	B-Process
-process	NN	O	O
-provides	NN	O	O
-a	NN	O	O
-self	NN	O	O
-assembled	NN	O	O
-and	NN	O	O
-almost	NN	O	O
-binder	NN	O	O
-free	NN	O	O
-coating	NN	O	B-Process
-with	NN	O	O
-small	NN	O	O
-particles	NN	O	O
-.	NN	O	O
-
-Most	NN	O	O
-research	NN	O	O
-so	NN	O	O
-far	NN	O	O
-has	NN	O	O
-been	NN	O	O
-used	NN	O	O
-to	NN	O	O
-coat	NN	O	O
-a	NN	O	O
-variety	NN	O	O
-of	NN	O	O
-surfaces	NN	O	O
-with	NN	O	O
-highly	NN	O	O
-conductive	NN	O	O
-carbon	NN	O	B-Material
-blacks	NN	O	I-Material
-[	NN	O	O
-34,35,36	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Layers	NN	O	O
-deposited	NN	O	O
-by	NN	O	O
-this	NN	O	O
-technique	NN	O	O
-have	NN	O	O
-been	NN	O	O
-used	NN	O	O
-in	NN	O	O
-electromagnetic	NN	O	B-Process
-wave	NN	O	I-Process
-shielding	NN	O	I-Process
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-metallization	NN	O	B-Process
-process	NN	O	O
-of	NN	O	O
-through	NN	O	O
--	NN	O	O
-holes	NN	O	O
-in	NN	O	O
-printed	NN	O	B-Material
-wiring	NN	O	I-Material
-boards	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-in	NN	O	O
-the	NN	O	O
-manufacture	NN	O	O
-of	NN	O	O
-conducting	NN	O	B-Material
-polymers	NN	O	I-Material
-(	NN	O	O
-such	NN	O	O
-as	NN	O	O
-Teflon	NN	O	B-Material
-)	NN	O	O
-[	NN	O	O
-37,38,39	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-this	NN	O	O
-dip	NN	O	B-Process
--	NN	O	I-Process
-coating	NN	O	I-Process
-process	NN	O	O
-is	NN	O	O
-that	NN	O	O
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-for	NN	O	O
-any	NN	O	O
-kind	NN	O	O
-of	NN	O	O
-surface	NN	O	O
-,	NN	O	O
-provided	NN	O	O
-the	NN	O	O
-substrate	NN	O	O
-is	NN	O	O
-stable	NN	O	O
-in	NN	O	O
-water	NN	O	O
-and	NN	O	O
-that	NN	O	O
-the	NN	O	O
-particles	NN	O	O
-used	NN	O	O
-for	NN	O	O
-the	NN	O	O
-coating	NN	O	O
-form	NN	O	O
-a	NN	O	O
-meta	NN	O	B-Process
--	NN	O	I-Process
-stable	NN	O	I-Process
-dispersion	NN	O	I-Process
-.	NN	O	O
-
-Recently	NN	O	O
-,	NN	O	O
-a	NN	O	O
-non	NN	O	O
--	NN	O	O
-aqueous	NN	O	O
-SIC	NN	O	B-Process
-coating	NN	O	I-Process
-process	NN	O	O
-of	NN	O	O
-carbon	NN	O	B-Material
-black	NN	O	I-Material
-was	NN	O	O
-developed	NN	O	O
-by	NN	O	O
-investigating	NN	O	O
-the	NN	O	O
-stabilities	NN	O	O
-of	NN	O	O
-non	NN	O	O
--	NN	O	O
-aqueous	NN	O	O
-dispersions	NN	O	O
-[	NN	O	O
-36	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-dispersions	NN	O	O
-were	NN	O	O
-used	NN	O	O
-to	NN	O	O
-prepare	NN	O	O
-LiCoO2-composite	NN	O	B-Process
-electrodes	NN	O	I-Process
-for	NN	O	O
-Li	NN	O	B-Process
--	NN	O	I-Process
-ion	NN	O	I-Process
-batteries	NN	O	I-Process
-with	NN	O	O
-an	NN	O	O
-improved	NN	O	O
-conductivity	NN	O	O
-while	NN	O	O
-keeping	NN	O	O
-the	NN	O	O
-content	NN	O	O
-of	NN	O	O
-active	NN	O	O
-battery	NN	O	O
-material	NN	O	O
-high	NN	O	O
-[	NN	O	O
-35	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+Substrate	4	13	B-Task
+Induced	14	21	I-Task
+Coagulation	22	33	I-Task
+(	34	35	O
+SIC	35	38	B-Task
+)	38	39	O
+coating	40	47	B-Process
+process	48	55	O
+provides	56	64	O
+a	65	66	O
+self	67	71	O
+assembled	72	81	O
+and	82	85	O
+almost	86	92	O
+binder	93	99	O
+free	100	104	O
+coating	105	112	B-Process
+with	113	117	O
+small	118	123	O
+particles	124	133	O
+.	133	134	O
+
+Most	135	139	O
+research	140	148	O
+so	149	151	O
+far	152	155	O
+has	156	159	O
+been	160	164	O
+used	165	169	O
+to	170	172	O
+coat	173	177	O
+a	178	179	O
+variety	180	187	O
+of	188	190	O
+surfaces	191	199	O
+with	200	204	O
+highly	205	211	O
+conductive	212	222	O
+carbon	223	229	B-Material
+blacks	230	236	I-Material
+[	237	238	O
+34,35,36	238	246	O
+]	246	247	O
+.	247	248	O
+
+Layers	249	255	O
+deposited	256	265	O
+by	266	268	O
+this	269	273	O
+technique	274	283	O
+have	284	288	O
+been	289	293	O
+used	294	298	O
+in	299	301	O
+electromagnetic	302	317	B-Process
+wave	318	322	I-Process
+shielding	323	332	I-Process
+,	332	333	O
+in	334	336	O
+the	337	340	O
+metallization	341	354	B-Process
+process	355	362	O
+of	363	365	O
+through	366	373	O
+-	373	374	O
+holes	374	379	O
+in	380	382	O
+printed	383	390	B-Material
+wiring	391	397	I-Material
+boards	398	404	I-Material
+,	404	405	O
+and	406	409	O
+in	410	412	O
+the	413	416	O
+manufacture	417	428	O
+of	429	431	O
+conducting	432	442	B-Material
+polymers	443	451	I-Material
+(	452	453	O
+such	453	457	O
+as	458	460	O
+Teflon	461	467	B-Material
+)	467	468	O
+[	469	470	O
+37,38,39	470	478	O
+]	478	479	O
+.	479	480	O
+
+An	481	483	O
+advantage	484	493	O
+of	494	496	O
+this	497	501	O
+dip	502	505	B-Process
+-	505	506	I-Process
+coating	506	513	I-Process
+process	514	521	O
+is	522	524	O
+that	525	529	O
+it	530	532	O
+can	533	536	O
+be	537	539	O
+used	540	544	O
+for	545	548	O
+any	549	552	O
+kind	553	557	O
+of	558	560	O
+surface	561	568	O
+,	568	569	O
+provided	570	578	O
+the	579	582	O
+substrate	583	592	O
+is	593	595	O
+stable	596	602	O
+in	603	605	O
+water	606	611	O
+and	612	615	O
+that	616	620	O
+the	621	624	O
+particles	625	634	O
+used	635	639	O
+for	640	643	O
+the	644	647	O
+coating	648	655	O
+form	656	660	O
+a	661	662	O
+meta	663	667	B-Process
+-	667	668	I-Process
+stable	668	674	I-Process
+dispersion	675	685	I-Process
+.	685	686	O
+
+Recently	687	695	O
+,	695	696	O
+a	697	698	O
+non	699	702	O
+-	702	703	O
+aqueous	703	710	O
+SIC	711	714	B-Process
+coating	715	722	I-Process
+process	723	730	O
+of	731	733	O
+carbon	734	740	B-Material
+black	741	746	I-Material
+was	747	750	O
+developed	751	760	O
+by	761	763	O
+investigating	764	777	O
+the	778	781	O
+stabilities	782	793	O
+of	794	796	O
+non	797	800	O
+-	800	801	O
+aqueous	801	808	O
+dispersions	809	820	O
+[	821	822	O
+36	822	824	O
+]	824	825	O
+.	825	826	O
+
+These	827	832	O
+dispersions	833	844	O
+were	845	849	O
+used	850	854	O
+to	855	857	O
+prepare	858	865	O
+LiCoO2-composite	866	882	B-Process
+electrodes	883	893	I-Process
+for	894	897	O
+Li	898	900	B-Process
+-	900	901	I-Process
+ion	901	904	I-Process
+batteries	905	914	I-Process
+with	915	919	O
+an	920	922	O
+improved	923	931	O
+conductivity	932	944	O
+while	945	950	O
+keeping	951	958	O
+the	959	962	O
+content	963	970	O
+of	971	973	O
+active	974	980	O
+battery	981	988	O
+material	989	997	O
+high	998	1002	O
+[	1003	1004	O
+35	1004	1006	O
+]	1006	1007	O
+.	1007	1008	O
 
 
 -DOCSTART- (S0885230816301759)
 
-This	NN	O	O
-paper	NN	O	O
-proposes	NN	O	O
-a	NN	O	O
-sentence	NN	O	B-Process
-stress	NN	O	I-Process
-feedback	NN	O	I-Process
-system	NN	O	I-Process
-in	NN	O	O
-which	NN	O	O
-sentence	NN	O	O
-stress	NN	O	O
-prediction	NN	O	O
-,	NN	O	O
-detection	NN	O	O
-,	NN	O	O
-and	NN	O	O
-feedback	NN	O	O
-provision	NN	O	O
-models	NN	O	O
-are	NN	O	O
-combined	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-system	NN	O	O
-provides	NN	O	B-Task
-non	NN	O	I-Task
--	NN	O	I-Task
-native	NN	O	I-Task
-learners	NN	O	I-Task
-with	NN	O	I-Task
-feedback	NN	O	I-Task
-on	NN	O	I-Task
-sentence	NN	O	I-Task
-stress	NN	O	I-Task
-errors	NN	O	I-Task
-so	NN	O	O
-that	NN	O	O
-they	NN	O	O
-can	NN	O	O
-improve	NN	O	O
-their	NN	O	O
-English	NN	O	O
-rhythm	NN	O	O
-and	NN	O	O
-fluency	NN	O	O
-in	NN	O	O
-a	NN	O	O
-self	NN	O	O
--	NN	O	O
-study	NN	O	O
-setting	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-sentence	NN	O	O
-stress	NN	O	O
-feedback	NN	O	O
-system	NN	O	O
-was	NN	O	O
-devised	NN	O	O
-to	NN	O	O
-predict	NN	O	B-Task
-and	NN	O	I-Task
-detect	NN	O	I-Task
-the	NN	O	I-Task
-sentence	NN	O	I-Task
-stress	NN	O	I-Task
-of	NN	O	O
-any	NN	O	O
-practice	NN	O	O
-sentence	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-accuracy	NN	O	O
-of	NN	O	O
-the	NN	O	O
-prediction	NN	O	B-Process
-and	NN	O	I-Process
-detection	NN	O	I-Process
-models	NN	O	I-Process
-was	NN	O	O
-96.6	NN	O	O
-%	NN	O	O
-and	NN	O	O
-84.1	NN	O	O
-%	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-stress	NN	O	B-Process
-feedback	NN	O	I-Process
-provision	NN	O	I-Process
-model	NN	O	I-Process
-offers	NN	O	O
-positive	NN	O	O
-or	NN	O	O
-negative	NN	O	O
-stress	NN	O	O
-feedback	NN	O	O
-for	NN	O	O
-each	NN	O	O
-spoken	NN	O	O
-word	NN	O	O
-by	NN	O	O
-comparing	NN	O	O
-the	NN	O	O
-probability	NN	O	O
-of	NN	O	O
-the	NN	O	O
-predicted	NN	O	O
-stress	NN	O	O
-pattern	NN	O	O
-with	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-detected	NN	O	O
-stress	NN	O	O
-pattern	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-an	NN	O	O
-experiment	NN	O	O
-that	NN	O	O
-evaluated	NN	O	O
-the	NN	O	O
-educational	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-the	NN	O	O
-proposed	NN	O	O
-system	NN	O	O
-incorporated	NN	O	O
-in	NN	O	O
-our	NN	O	O
-CALL	NN	O	B-Material
-system	NN	O	I-Material
-,	NN	O	O
-significant	NN	O	O
-improvements	NN	O	O
-in	NN	O	O
-accentedness	NN	O	O
-and	NN	O	O
-rhythm	NN	O	O
-were	NN	O	O
-seen	NN	O	O
-with	NN	O	O
-the	NN	O	O
-students	NN	O	O
-who	NN	O	O
-trained	NN	O	O
-with	NN	O	O
-our	NN	O	O
-system	NN	O	O
-but	NN	O	O
-not	NN	O	O
-with	NN	O	O
-those	NN	O	O
-in	NN	O	O
-the	NN	O	O
-control	NN	O	O
-group	NN	O	O
-.	NN	O	O
+This	0	4	O
+paper	5	10	O
+proposes	11	19	O
+a	20	21	O
+sentence	22	30	B-Process
+stress	31	37	I-Process
+feedback	38	46	I-Process
+system	47	53	I-Process
+in	54	56	O
+which	57	62	O
+sentence	63	71	O
+stress	72	78	O
+prediction	79	89	O
+,	89	90	O
+detection	91	100	O
+,	100	101	O
+and	102	105	O
+feedback	106	114	O
+provision	115	124	O
+models	125	131	O
+are	132	135	O
+combined	136	144	O
+.	144	145	O
+
+This	146	150	O
+system	151	157	O
+provides	158	166	B-Task
+non	167	170	I-Task
+-	170	171	I-Task
+native	171	177	I-Task
+learners	178	186	I-Task
+with	187	191	I-Task
+feedback	192	200	I-Task
+on	201	203	I-Task
+sentence	204	212	I-Task
+stress	213	219	I-Task
+errors	220	226	I-Task
+so	227	229	O
+that	230	234	O
+they	235	239	O
+can	240	243	O
+improve	244	251	O
+their	252	257	O
+English	258	265	O
+rhythm	266	272	O
+and	273	276	O
+fluency	277	284	O
+in	285	287	O
+a	288	289	O
+self	290	294	O
+-	294	295	O
+study	295	300	O
+setting	301	308	O
+.	308	309	O
+
+The	310	313	O
+sentence	314	322	O
+stress	323	329	O
+feedback	330	338	O
+system	339	345	O
+was	346	349	O
+devised	350	357	O
+to	358	360	O
+predict	361	368	B-Task
+and	369	372	I-Task
+detect	373	379	I-Task
+the	380	383	I-Task
+sentence	384	392	I-Task
+stress	393	399	I-Task
+of	400	402	O
+any	403	406	O
+practice	407	415	O
+sentence	416	424	O
+.	424	425	O
+
+The	426	429	O
+accuracy	430	438	O
+of	439	441	O
+the	442	445	O
+prediction	446	456	B-Process
+and	457	460	I-Process
+detection	461	470	I-Process
+models	471	477	I-Process
+was	478	481	O
+96.6	482	486	O
+%	486	487	O
+and	488	491	O
+84.1	492	496	O
+%	496	497	O
+,	497	498	O
+respectively	499	511	O
+.	511	512	O
+
+The	513	516	O
+stress	517	523	B-Process
+feedback	524	532	I-Process
+provision	533	542	I-Process
+model	543	548	I-Process
+offers	549	555	O
+positive	556	564	O
+or	565	567	O
+negative	568	576	O
+stress	577	583	O
+feedback	584	592	O
+for	593	596	O
+each	597	601	O
+spoken	602	608	O
+word	609	613	O
+by	614	616	O
+comparing	617	626	O
+the	627	630	O
+probability	631	642	O
+of	643	645	O
+the	646	649	O
+predicted	650	659	O
+stress	660	666	O
+pattern	667	674	O
+with	675	679	O
+that	680	684	O
+of	685	687	O
+the	688	691	O
+detected	692	700	O
+stress	701	707	O
+pattern	708	715	O
+.	715	716	O
+
+In	717	719	O
+an	720	722	O
+experiment	723	733	O
+that	734	738	O
+evaluated	739	748	O
+the	749	752	O
+educational	753	764	O
+effect	765	771	O
+of	772	774	O
+the	775	778	O
+proposed	779	787	O
+system	788	794	O
+incorporated	795	807	O
+in	808	810	O
+our	811	814	O
+CALL	815	819	B-Material
+system	820	826	I-Material
+,	826	827	O
+significant	828	839	O
+improvements	840	852	O
+in	853	855	O
+accentedness	856	868	O
+and	869	872	O
+rhythm	873	879	O
+were	880	884	O
+seen	885	889	O
+with	890	894	O
+the	895	898	O
+students	899	907	O
+who	908	911	O
+trained	912	919	O
+with	920	924	O
+our	925	928	O
+system	929	935	O
+but	936	939	O
+not	940	943	O
+with	944	948	O
+those	949	954	O
+in	955	957	O
+the	958	961	O
+control	962	969	O
+group	970	975	O
+.	975	976	O
 
 
 -DOCSTART- (S092583881302834X)
 
-Plastically	NN	O	O
-deformed	NN	O	O
-MGs	NN	O	B-Material
-develop	NN	O	O
-inhomogeneity	NN	O	O
-and	NN	O	O
-show	NN	O	O
-harder	NN	O	O
-and	NN	O	O
-softer	NN	O	O
-regions	NN	O	O
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-While	NN	O	O
-this	NN	O	O
-could	NN	O	O
-in	NN	O	O
-principle	NN	O	O
-be	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-a	NN	O	O
-BE	NN	O	O
-according	NN	O	O
-to	NN	O	O
-the	NN	O	O
-composite	NN	O	O
-model	NN	O	O
-,	NN	O	O
-a	NN	O	O
-MG	NN	O	B-Material
-provides	NN	O	O
-no	NN	O	O
-basis	NN	O	O
-for	NN	O	O
-a	NN	O	O
-dislocation	NN	O	O
--	NN	O	O
-based	NN	O	O
-theory	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-search	NN	O	B-Task
-for	NN	O	I-Task
-a	NN	O	I-Task
-BE	NN	O	I-Task
-in	NN	O	I-Task
-plastic	NN	O	I-Task
-flow	NN	O	I-Task
-is	NN	O	O
-hindered	NN	O	O
-by	NN	O	O
-the	NN	O	O
-softening	NN	O	O
-of	NN	O	O
-MGs	NN	O	B-Material
-associated	NN	O	O
-with	NN	O	O
-shear	NN	O	B-Process
--	NN	O	I-Process
-banding	NN	O	I-Process
-(	NN	O	O
-in	NN	O	O
-contrast	NN	O	O
-to	NN	O	O
-the	NN	O	O
-work	NN	O	O
--	NN	O	O
-hardening	NN	O	O
-familiar	NN	O	O
-in	NN	O	O
-conventional	NN	O	O
-alloys	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Anelastic	NN	O	B-Process
-deformation	NN	O	I-Process
-is	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-of	NN	O	O
-interest	NN	O	O
-as	NN	O	O
-its	NN	O	O
-time	NN	O	O
--	NN	O	O
-dependence	NN	O	O
-must	NN	O	O
-relate	NN	O	O
-to	NN	O	O
-relaxation	NN	O	O
-processes	NN	O	O
-in	NN	O	O
-the	NN	O	O
-MG	NN	O	O
-structure	NN	O	O
-that	NN	O	O
-in	NN	O	O
-turn	NN	O	O
-should	NN	O	O
-be	NN	O	O
-connected	NN	O	O
-to	NN	O	O
-the	NN	O	O
-onset	NN	O	O
-of	NN	O	O
-plasticity	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-anelasticity	NN	O	O
-may	NN	O	O
-offer	NN	O	O
-a	NN	O	O
-way	NN	O	O
-to	NN	O	O
-study	NN	O	O
-the	NN	O	O
-operation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-shear	NN	O	B-Process
-transformation	NN	O	I-Process
-zones	NN	O	I-Process
-(	NN	O	O
-STZs	NN	O	B-Process
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-)	NN	O	O
-often	NN	O	O
-used	NN	O	O
-to	NN	O	O
-interpret	NN	O	O
-the	NN	O	O
-deformation	NN	O	O
-of	NN	O	O
-MGs	NN	O	B-Material
-.	NN	O	O
-
-Fujita	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-have	NN	O	O
-used	NN	O	O
-torsion	NN	O	O
-tests	NN	O	O
-to	NN	O	O
-observe	NN	O	B-Task
-anelasticity	NN	O	I-Task
-in	NN	O	I-Task
-MGs	NN	O	I-Task
-loaded	NN	O	O
-(	NN	O	O
-at	NN	O	O
-maximum	NN	O	O
-,	NN	O	O
-on	NN	O	O
-the	NN	O	O
-cylindrical	NN	O	O
-sample	NN	O	O
-surface	NN	O	O
-)	NN	O	O
-to	NN	O	O
-30	NN	O	O
-%	NN	O	O
-,	NN	O	O
-16	NN	O	O
-%	NN	O	O
-and	NN	O	O
-just	NN	O	O
-4	NN	O	O
-%	NN	O	O
-of	NN	O	O
-the	NN	O	O
-shear	NN	O	O
-yield	NN	O	O
-
-stress	NN	O	O
-τy	NN	O	O
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-present	NN	O	O
-work	NN	O	O
-we	NN	O	O
-apply	NN	O	O
-torsion	NN	O	O
-to	NN	O	O
-MG	NN	O	B-Material
-samples	NN	O	O
-to	NN	O	O
-reach	NN	O	O
-stresses	NN	O	O
-up	NN	O	O
-to	NN	O	O
-24	NN	O	O
-%	NN	O	O
-of	NN	O	O
-τy	NN	O	O
-,	NN	O	O
-and	NN	O	O
-for	NN	O	O
-the	NN	O	O
-first	NN	O	O
-time	NN	O	O
-in	NN	O	O
-the	NN	O	O
-elastic	NN	O	O
-regime	NN	O	O
-investigate	NN	O	B-Task
-the	NN	O	I-Task
-effects	NN	O	I-Task
-of	NN	O	I-Task
-torque	NN	O	I-Task
-reversal	NN	O	I-Task
-.	NN	O	I-Task
+Plastically	0	11	O
+deformed	12	20	O
+MGs	21	24	B-Material
+develop	25	32	O
+inhomogeneity	33	46	O
+and	47	50	O
+show	51	55	O
+harder	56	62	O
+and	63	66	O
+softer	67	73	O
+regions	74	81	O
+[	82	83	O
+16	83	85	O
+]	85	86	O
+.	86	87	O
+
+While	88	93	O
+this	94	98	O
+could	99	104	O
+in	105	107	O
+principle	108	117	O
+be	118	120	O
+associated	121	131	O
+with	132	136	O
+a	137	138	O
+BE	139	141	O
+according	142	151	O
+to	152	154	O
+the	155	158	O
+composite	159	168	O
+model	169	174	O
+,	174	175	O
+a	176	177	O
+MG	178	180	B-Material
+provides	181	189	O
+no	190	192	O
+basis	193	198	O
+for	199	202	O
+a	203	204	O
+dislocation	205	216	O
+-	216	217	O
+based	217	222	O
+theory	223	229	O
+.	229	230	O
+
+The	231	234	O
+search	235	241	B-Task
+for	242	245	I-Task
+a	246	247	I-Task
+BE	248	250	I-Task
+in	251	253	I-Task
+plastic	254	261	I-Task
+flow	262	266	I-Task
+is	267	269	O
+hindered	270	278	O
+by	279	281	O
+the	282	285	O
+softening	286	295	O
+of	296	298	O
+MGs	299	302	B-Material
+associated	303	313	O
+with	314	318	O
+shear	319	324	B-Process
+-	324	325	I-Process
+banding	325	332	I-Process
+(	333	334	O
+in	334	336	O
+contrast	337	345	O
+to	346	348	O
+the	349	352	O
+work	353	357	O
+-	357	358	O
+hardening	358	367	O
+familiar	368	376	O
+in	377	379	O
+conventional	380	392	O
+alloys	393	399	O
+)	399	400	O
+.	400	401	O
+
+Anelastic	402	411	B-Process
+deformation	412	423	I-Process
+is	424	426	O
+,	426	427	O
+however	428	435	O
+,	435	436	O
+of	437	439	O
+interest	440	448	O
+as	449	451	O
+its	452	455	O
+time	456	460	O
+-	460	461	O
+dependence	461	471	O
+must	472	476	O
+relate	477	483	O
+to	484	486	O
+relaxation	487	497	O
+processes	498	507	O
+in	508	510	O
+the	511	514	O
+MG	515	517	O
+structure	518	527	O
+that	528	532	O
+in	533	535	O
+turn	536	540	O
+should	541	547	O
+be	548	550	O
+connected	551	560	O
+to	561	563	O
+the	564	567	O
+onset	568	573	O
+of	574	576	O
+plasticity	577	587	O
+.	587	588	O
+
+In	589	591	O
+particular	592	602	O
+,	602	603	O
+anelasticity	604	616	O
+may	617	620	O
+offer	621	626	O
+a	627	628	O
+way	629	632	O
+to	633	635	O
+study	636	641	O
+the	642	645	O
+operation	646	655	O
+of	656	658	O
+the	659	662	O
+shear	663	668	B-Process
+transformation	669	683	I-Process
+zones	684	689	I-Process
+(	690	691	O
+STZs	691	695	B-Process
+[	696	697	O
+17	697	699	O
+]	699	700	O
+)	700	701	O
+often	702	707	O
+used	708	712	O
+to	713	715	O
+interpret	716	725	O
+the	726	729	O
+deformation	730	741	O
+of	742	744	O
+MGs	745	748	B-Material
+.	748	749	O
+
+Fujita	750	756	O
+et	757	759	O
+al	760	762	O
+.	762	763	O
+
+have	764	768	O
+used	769	773	O
+torsion	774	781	O
+tests	782	787	O
+to	788	790	O
+observe	791	798	B-Task
+anelasticity	799	811	I-Task
+in	812	814	I-Task
+MGs	815	818	I-Task
+loaded	819	825	O
+(	826	827	O
+at	827	829	O
+maximum	830	837	O
+,	837	838	O
+on	839	841	O
+the	842	845	O
+cylindrical	846	857	O
+sample	858	864	O
+surface	865	872	O
+)	872	873	O
+to	874	876	O
+30	877	879	O
+%	879	880	O
+,	880	881	O
+16	882	884	O
+%	884	885	O
+and	886	889	O
+just	890	894	O
+4	895	896	O
+%	896	897	O
+of	898	900	O
+the	901	904	O
+shear	905	910	O
+yield	911	916	O
+
+stress	917	923	O
+τy	924	926	O
+[	927	928	O
+18	928	930	O
+]	930	931	O
+.	931	932	O
+
+In	933	935	O
+the	936	939	O
+present	940	947	O
+work	948	952	O
+we	953	955	O
+apply	956	961	O
+torsion	962	969	O
+to	970	972	O
+MG	973	975	B-Material
+samples	976	983	O
+to	984	986	O
+reach	987	992	O
+stresses	993	1001	O
+up	1002	1004	O
+to	1005	1007	O
+24	1008	1010	O
+%	1010	1011	O
+of	1012	1014	O
+τy	1015	1017	O
+,	1017	1018	O
+and	1019	1022	O
+for	1023	1026	O
+the	1027	1030	O
+first	1031	1036	O
+time	1037	1041	O
+in	1042	1044	O
+the	1045	1048	O
+elastic	1049	1056	O
+regime	1057	1063	O
+investigate	1064	1075	B-Task
+the	1076	1079	I-Task
+effects	1080	1087	I-Task
+of	1088	1090	I-Task
+torque	1091	1097	I-Task
+reversal	1098	1106	I-Task
+.	1106	1107	I-Task
 
 
 -DOCSTART- (S0925838814009669)
 
-SPS	NN	O	B-Material
-has	NN	O	O
-been	NN	O	O
-utilized	NN	O	O
-in	NN	O	O
-several	NN	O	O
-studies	NN	O	O
-to	NN	O	O
-retain	NN	O	B-Process
-the	NN	O	I-Process
-nanostructure	NN	O	I-Process
-of	NN	O	I-Process
-aluminum	NN	O	I-Process
-alloy	NN	O	I-Process
-powders	NN	O	I-Process
-during	NN	O	I-Process
-consolidation	NN	O	I-Process
-.	NN	O	O
-
-Ye	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-investigated	NN	O	B-Task
-the	NN	O	I-Task
-effect	NN	O	I-Task
-of	NN	O	I-Task
-processing	NN	O	I-Task
-of	NN	O	I-Task
-cryomilled	NN	O	I-Task
-Al	NN	O	I-Task
-5083	NN	O	I-Task
-powder	NN	O	I-Task
-via	NN	O	O
-SPS	NN	O	B-Process
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-X	NN	O	B-Process
--	NN	O	I-Process
-ray	NN	O	I-Process
-Diffraction	NN	O	I-Process
-(	NN	O	I-Process
-XRD	NN	O	I-Process
-)	NN	O	I-Process
-grain	NN	O	I-Process
-size	NN	O	I-Process
-calculations	NN	O	I-Process
-before	NN	O	O
-and	NN	O	O
-after	NN	O	O
-SPS	NN	O	B-Process
-showed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-average	NN	O	O
-grain	NN	O	O
-size	NN	O	O
-of	NN	O	O
-the	NN	O	O
-alloy	NN	O	B-Material
-only	NN	O	O
-increased	NN	O	O
-from	NN	O	O
-25	NN	O	O
-nm	NN	O	O
-to	NN	O	O
-50	NN	O	O
-nm	NN	O	O
-(	NN	O	O
-from	NN	O	O
-powder	NN	O	O
-to	NN	O	O
-bulk	NN	O	O
-state	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Subsequently	NN	O	O
-,	NN	O	O
-the	NN	O	O
-hardness	NN	O	O
-values	NN	O	O
-obtained	NN	O	O
-through	NN	O	O
-nanoindentation	NN	O	B-Process
-for	NN	O	O
-specimens	NN	O	O
-of	NN	O	O
-AA5083	NN	O	B-Material
-produced	NN	O	O
-via	NN	O	O
-SPS	NN	O	B-Material
-were	NN	O	O
-highly	NN	O	O
-improved	NN	O	O
-in	NN	O	O
-comparison	NN	O	O
-to	NN	O	O
-conventional	NN	O	O
-sintering	NN	O	O
-methods	NN	O	O
-were	NN	O	O
-grain	NN	O	O
-coarsening	NN	O	O
-takes	NN	O	O
-place	NN	O	O
-on	NN	O	O
-a	NN	O	O
-larger	NN	O	O
-scale	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-another	NN	O	O
-study	NN	O	O
-the	NN	O	O
-combination	NN	O	B-Process
-of	NN	O	I-Process
-cryomilling	NN	O	I-Process
-and	NN	O	I-Process
-SPS	NN	O	I-Process
-of	NN	O	I-Process
-AA-5356/B4C	NN	O	I-Process
-nanocomposites	NN	O	I-Process
-powder	NN	O	I-Process
-was	NN	O	O
-found	NN	O	O
-to	NN	O	O
-largely	NN	O	O
-improve	NN	O	O
-the	NN	O	O
-microhardness	NN	O	O
-and	NN	O	O
-flexural	NN	O	O
-strengths	NN	O	O
-of	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Material
-nanocomposite	NN	O	I-Material
-.	NN	O	O
-
-Rana	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-investigated	NN	O	O
-the	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-SPS	NN	O	O
-on	NN	O	O
-mechanically	NN	O	O
-milled	NN	O	O
-AA6061	NN	O	O
-
-(	NN	O	O
-Al	NN	O	O
-–	NN	O	O
-
-Mg	NN	O	O
-–	NN	O	O
-Si	NN	O	O
-)	NN	O	O
-micro	NN	O	O
--	NN	O	O
-alloy	NN	O	O
-powder	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-average	NN	O	O
-grain	NN	O	O
-size	NN	O	O
-after	NN	O	O
-20h	NN	O	O
-of	NN	O	O
-milling	NN	O	O
-was	NN	O	O
-∼35	NN	O	O
-nm	NN	O	O
-and	NN	O	O
-increased	NN	O	O
-to	NN	O	O
-only	NN	O	O
-∼85	NN	O	O
-nm	NN	O	O
-after	NN	O	O
-processing	NN	O	O
-with	NN	O	O
-SPS	NN	O	B-Material
-at	NN	O	O
-500	NN	O	O
-°	NN	O	O
-C	NN	O	O
-.	NN	O	O
-
-Microhardness	NN	O	O
-and	NN	O	O
-compressive	NN	O	O
-tests	NN	O	O
-were	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-on	NN	O	O
-the	NN	O	O
-consolidated	NN	O	O
-near	NN	O	O
-full	NN	O	O
-density	NN	O	O
-specimens	NN	O	O
-of	NN	O	O
-both	NN	O	O
-unmilled	NN	O	B-Material
-and	NN	O	I-Material
-milled	NN	O	I-Material
-powders	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-results	NN	O	O
-showed	NN	O	O
-significant	NN	O	O
-increase	NN	O	O
-in	NN	O	O
-both	NN	O	O
-hardness	NN	O	O
-and	NN	O	O
-compressive	NN	O	O
-strengths	NN	O	O
-for	NN	O	O
-the	NN	O	O
-milled	NN	O	B-Material
-nanocrystalline	NN	O	I-Material
-powders	NN	O	I-Material
-as	NN	O	O
-a	NN	O	O
-result	NN	O	O
-of	NN	O	O
-the	NN	O	O
-very	NN	O	O
-fine	NN	O	O
-grain	NN	O	O
-size	NN	O	O
-.	NN	O	O
+SPS	0	3	B-Material
+has	4	7	O
+been	8	12	O
+utilized	13	21	O
+in	22	24	O
+several	25	32	O
+studies	33	40	O
+to	41	43	O
+retain	44	50	B-Process
+the	51	54	I-Process
+nanostructure	55	68	I-Process
+of	69	71	I-Process
+aluminum	72	80	I-Process
+alloy	81	86	I-Process
+powders	87	94	I-Process
+during	95	101	I-Process
+consolidation	102	115	I-Process
+.	115	116	O
+
+Ye	117	119	O
+et	120	122	O
+al	123	125	O
+.	125	126	O
+investigated	127	139	B-Task
+the	140	143	I-Task
+effect	144	150	I-Task
+of	151	153	I-Task
+processing	154	164	I-Task
+of	165	167	I-Task
+cryomilled	168	178	I-Task
+Al	179	181	I-Task
+5083	182	186	I-Task
+powder	187	193	I-Task
+via	194	197	O
+SPS	198	201	B-Process
+[	202	203	O
+13	203	205	O
+]	205	206	O
+.	206	207	O
+
+X	208	209	B-Process
+-	209	210	I-Process
+ray	210	213	I-Process
+Diffraction	214	225	I-Process
+(	226	227	I-Process
+XRD	227	230	I-Process
+)	230	231	I-Process
+grain	232	237	I-Process
+size	238	242	I-Process
+calculations	243	255	I-Process
+before	256	262	O
+and	263	266	O
+after	267	272	O
+SPS	273	276	B-Process
+showed	277	283	O
+that	284	288	O
+the	289	292	O
+average	293	300	O
+grain	301	306	O
+size	307	311	O
+of	312	314	O
+the	315	318	O
+alloy	319	324	B-Material
+only	325	329	O
+increased	330	339	O
+from	340	344	O
+25	345	347	O
+nm	347	349	O
+to	350	352	O
+50	353	355	O
+nm	355	357	O
+(	358	359	O
+from	359	363	O
+powder	364	370	O
+to	371	373	O
+bulk	374	378	O
+state	379	384	O
+)	384	385	O
+.	385	386	O
+
+Subsequently	387	399	O
+,	399	400	O
+the	401	404	O
+hardness	405	413	O
+values	414	420	O
+obtained	421	429	O
+through	430	437	O
+nanoindentation	438	453	B-Process
+for	454	457	O
+specimens	458	467	O
+of	468	470	O
+AA5083	471	477	B-Material
+produced	478	486	O
+via	487	490	O
+SPS	491	494	B-Material
+were	495	499	O
+highly	500	506	O
+improved	507	515	O
+in	516	518	O
+comparison	519	529	O
+to	530	532	O
+conventional	533	545	O
+sintering	546	555	O
+methods	556	563	O
+were	564	568	O
+grain	569	574	O
+coarsening	575	585	O
+takes	586	591	O
+place	592	597	O
+on	598	600	O
+a	601	602	O
+larger	603	609	O
+scale	610	615	O
+.	615	616	O
+
+In	617	619	O
+another	620	627	O
+study	628	633	O
+the	634	637	O
+combination	638	649	B-Process
+of	650	652	I-Process
+cryomilling	653	664	I-Process
+and	665	668	I-Process
+SPS	669	672	I-Process
+of	673	675	I-Process
+AA-5356/B4C	676	687	I-Process
+nanocomposites	688	702	I-Process
+powder	703	709	I-Process
+was	710	713	O
+found	714	719	O
+to	720	722	O
+largely	723	730	O
+improve	731	738	O
+the	739	742	O
+microhardness	743	756	O
+and	757	760	O
+flexural	761	769	O
+strengths	770	779	O
+of	780	782	O
+the	783	786	O
+bulk	787	791	B-Material
+nanocomposite	792	805	I-Material
+.	805	806	O
+
+Rana	807	811	O
+et	812	814	O
+al	815	817	O
+.	817	818	O
+
+[	819	820	O
+14	820	822	O
+]	822	823	O
+investigated	824	836	O
+the	837	840	O
+effect	841	847	O
+of	848	850	O
+SPS	851	854	O
+on	855	857	O
+mechanically	858	870	O
+milled	871	877	O
+AA6061	878	884	O
+
+(	885	886	O
+Al	886	888	O
+–	888	889	O
+
+Mg	889	891	O
+–	891	892	O
+Si	892	894	O
+)	894	895	O
+micro	896	901	O
+-	901	902	O
+alloy	902	907	O
+powder	908	914	O
+.	914	915	O
+
+The	916	919	O
+average	920	927	O
+grain	928	933	O
+size	934	938	O
+after	939	944	O
+20h	945	948	O
+of	949	951	O
+milling	952	959	O
+was	960	963	O
+∼35	964	967	O
+nm	967	969	O
+and	970	973	O
+increased	974	983	O
+to	984	986	O
+only	987	991	O
+∼85	992	995	O
+nm	995	997	O
+after	998	1003	O
+processing	1004	1014	O
+with	1015	1019	O
+SPS	1020	1023	B-Material
+at	1024	1026	O
+500	1027	1030	O
+°	1030	1031	O
+C	1031	1032	O
+.	1032	1033	O
+
+Microhardness	1034	1047	O
+and	1048	1051	O
+compressive	1052	1063	O
+tests	1064	1069	O
+were	1070	1074	O
+carried	1075	1082	O
+out	1083	1086	O
+on	1087	1089	O
+the	1090	1093	O
+consolidated	1094	1106	O
+near	1107	1111	O
+full	1112	1116	O
+density	1117	1124	O
+specimens	1125	1134	O
+of	1135	1137	O
+both	1138	1142	O
+unmilled	1143	1151	B-Material
+and	1152	1155	I-Material
+milled	1156	1162	I-Material
+powders	1163	1170	I-Material
+and	1171	1174	O
+the	1175	1178	O
+results	1179	1186	O
+showed	1187	1193	O
+significant	1194	1205	O
+increase	1206	1214	O
+in	1215	1217	O
+both	1218	1222	O
+hardness	1223	1231	O
+and	1232	1235	O
+compressive	1236	1247	O
+strengths	1248	1257	O
+for	1258	1261	O
+the	1262	1265	O
+milled	1266	1272	B-Material
+nanocrystalline	1273	1288	I-Material
+powders	1289	1296	I-Material
+as	1297	1299	O
+a	1300	1301	O
+result	1302	1308	O
+of	1309	1311	O
+the	1312	1315	O
+very	1316	1320	O
+fine	1321	1325	O
+grain	1326	1331	O
+size	1332	1336	O
+.	1336	1337	O
 
 
 -DOCSTART- (S0927025614003322)
 
-A	NN	O	O
-principle	NN	O	O
-of	NN	O	O
-high	NN	O	B-Task
--	NN	O	I-Task
-throughput	NN	O	I-Task
-materials	NN	O	I-Task
-science	NN	O	I-Task
-is	NN	O	O
-that	NN	O	O
-one	NN	O	O
-does	NN	O	O
-not	NN	O	O
-know	NN	O	O
-a	NN	O	O
-priori	NN	O	O
-where	NN	O	O
-the	NN	O	O
-value	NN	O	O
-of	NN	O	O
-the	NN	O	O
-data	NN	O	O
-lies	NN	O	O
-for	NN	O	O
-any	NN	O	O
-specific	NN	O	O
-application	NN	O	O
-.	NN	O	O
-
-Trends	NN	O	O
-and	NN	O	O
-insights	NN	O	O
-are	NN	O	O
-deduced	NN	O	O
-a	NN	O	O
-posteriori	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-requires	NN	O	O
-efficient	NN	O	B-Task
-interfaces	NN	O	I-Task
-to	NN	O	I-Task
-interrogate	NN	O	I-Task
-available	NN	O	I-Task
-data	NN	O	I-Task
-on	NN	O	I-Task
-various	NN	O	I-Task
-levels	NN	O	I-Task
-.	NN	O	O
-
-We	NN	O	O
-have	NN	O	O
-developed	NN	O	O
-a	NN	O	O
-simple	NN	O	O
-WEB	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-API	NN	O	I-Process
-to	NN	O	O
-greatly	NN	O	O
-improve	NN	O	B-Task
-the	NN	O	I-Task
-accessibility	NN	O	I-Task
-and	NN	O	I-Task
-utility	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-AFLOWLIB	NN	O	I-Task
-database	NN	O	I-Task
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-to	NN	O	O
-the	NN	O	O
-scientific	NN	O	O
-community	NN	O	O
-.	NN	O	O
-
-Through	NN	O	O
-it	NN	O	O
-,	NN	O	O
-the	NN	O	O
-client	NN	O	O
-can	NN	O	O
-access	NN	O	O
-calculated	NN	O	O
-physical	NN	O	B-Material
-properties	NN	O	I-Material
-(	NN	O	O
-thermodynamic	NN	O	B-Material
-,	NN	O	I-Material
-crystallographic	NN	O	I-Material
-,	NN	O	I-Material
-or	NN	O	I-Material
-mechanical	NN	O	I-Material
-properties	NN	O	I-Material
-)	NN	O	O
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-simulation	NN	O	B-Material
-provenance	NN	O	I-Material
-and	NN	O	O
-runtime	NN	O	B-Material
-properties	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-included	NN	O	O
-systems	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-data	NN	O	O
-may	NN	O	O
-be	NN	O	O
-used	NN	O	O
-directly	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-to	NN	O	O
-browse	NN	O	B-Process
-a	NN	O	I-Process
-class	NN	O	I-Process
-of	NN	O	I-Process
-materials	NN	O	I-Process
-with	NN	O	I-Process
-a	NN	O	I-Process
-desired	NN	O	I-Process
-property	NN	O	I-Process
-)	NN	O	O
-or	NN	O	O
-integrated	NN	O	O
-into	NN	O	O
-higher	NN	O	B-Process
-level	NN	O	I-Process
-work	NN	O	I-Process
--	NN	O	I-Process
-flows	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-interface	NN	O	B-Process
-also	NN	O	O
-allows	NN	O	O
-for	NN	O	O
-the	NN	O	O
-sharing	NN	O	B-Process
-of	NN	O	I-Process
-updates	NN	O	I-Process
-of	NN	O	I-Process
-data	NN	O	I-Process
-used	NN	O	O
-in	NN	O	O
-previous	NN	O	O
-published	NN	O	O
-works	NN	O	O
-,	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-previously	NN	O	O
-calculated	NN	O	O
-alloy	NN	O	B-Material
-phase	NN	O	I-Material
-diagrams	NN	O	I-Material
-[	NN	O	O
-19–31	NN	O	O
-]	NN	O	O
-,	NN	O	O
-thus	NN	O	O
-the	NN	O	O
-database	NN	O	O
-can	NN	O	O
-be	NN	O	O
-expanded	NN	O	O
-systematically	NN	O	O
-.	NN	O	O
+A	0	1	O
+principle	2	11	O
+of	12	14	O
+high	15	19	B-Task
+-	19	20	I-Task
+throughput	20	30	I-Task
+materials	31	40	I-Task
+science	41	48	I-Task
+is	49	51	O
+that	52	56	O
+one	57	60	O
+does	61	65	O
+not	66	69	O
+know	70	74	O
+a	75	76	O
+priori	77	83	O
+where	84	89	O
+the	90	93	O
+value	94	99	O
+of	100	102	O
+the	103	106	O
+data	107	111	O
+lies	112	116	O
+for	117	120	O
+any	121	124	O
+specific	125	133	O
+application	134	145	O
+.	145	146	O
+
+Trends	147	153	O
+and	154	157	O
+insights	158	166	O
+are	167	170	O
+deduced	171	178	O
+a	179	180	O
+posteriori	181	191	O
+.	191	192	O
+
+This	193	197	O
+requires	198	206	O
+efficient	207	216	B-Task
+interfaces	217	227	I-Task
+to	228	230	I-Task
+interrogate	231	242	I-Task
+available	243	252	I-Task
+data	253	257	I-Task
+on	258	260	I-Task
+various	261	268	I-Task
+levels	269	275	I-Task
+.	275	276	O
+
+We	277	279	O
+have	280	284	O
+developed	285	294	O
+a	295	296	O
+simple	297	303	O
+WEB	304	307	B-Process
+-	307	308	I-Process
+based	308	313	I-Process
+API	314	317	I-Process
+to	318	320	O
+greatly	321	328	O
+improve	329	336	B-Task
+the	337	340	I-Task
+accessibility	341	354	I-Task
+and	355	358	I-Task
+utility	359	366	I-Task
+of	367	369	I-Task
+the	370	373	I-Task
+AFLOWLIB	374	382	I-Task
+database	383	391	I-Task
+[	392	393	O
+14	393	395	O
+]	395	396	O
+to	397	399	O
+the	400	403	O
+scientific	404	414	O
+community	415	424	O
+.	424	425	O
+
+Through	426	433	O
+it	434	436	O
+,	436	437	O
+the	438	441	O
+client	442	448	O
+can	449	452	O
+access	453	459	O
+calculated	460	470	O
+physical	471	479	B-Material
+properties	480	490	I-Material
+(	491	492	O
+thermodynamic	492	505	B-Material
+,	505	506	I-Material
+crystallographic	507	523	I-Material
+,	523	524	I-Material
+or	525	527	I-Material
+mechanical	528	538	I-Material
+properties	539	549	I-Material
+)	549	550	O
+,	550	551	O
+as	552	554	O
+well	555	559	O
+as	560	562	O
+simulation	563	573	B-Material
+provenance	574	584	I-Material
+and	585	588	O
+runtime	589	596	B-Material
+properties	597	607	I-Material
+of	608	610	O
+the	611	614	O
+included	615	623	O
+systems	624	631	O
+.	631	632	O
+
+The	633	636	O
+data	637	641	O
+may	642	645	O
+be	646	648	O
+used	649	653	O
+directly	654	662	O
+(	663	664	O
+e.g.	664	668	O
+,	668	669	O
+to	670	672	O
+browse	673	679	B-Process
+a	680	681	I-Process
+class	682	687	I-Process
+of	688	690	I-Process
+materials	691	700	I-Process
+with	701	705	I-Process
+a	706	707	I-Process
+desired	708	715	I-Process
+property	716	724	I-Process
+)	724	725	O
+or	726	728	O
+integrated	729	739	O
+into	740	744	O
+higher	745	751	B-Process
+level	752	757	I-Process
+work	758	762	I-Process
+-	762	763	I-Process
+flows	763	768	I-Process
+.	768	769	O
+
+The	770	773	O
+interface	774	783	B-Process
+also	784	788	O
+allows	789	795	O
+for	796	799	O
+the	800	803	O
+sharing	804	811	B-Process
+of	812	814	I-Process
+updates	815	822	I-Process
+of	823	825	I-Process
+data	826	830	I-Process
+used	831	835	O
+in	836	838	O
+previous	839	847	O
+published	848	857	O
+works	858	863	O
+,	863	864	O
+e.g.	865	869	O
+,	869	870	O
+previously	871	881	O
+calculated	882	892	O
+alloy	893	898	B-Material
+phase	899	904	I-Material
+diagrams	905	913	I-Material
+[	914	915	O
+19–31	915	920	O
+]	920	921	O
+,	921	922	O
+thus	923	927	O
+the	928	931	O
+database	932	940	O
+can	941	944	O
+be	945	947	O
+expanded	948	956	O
+systematically	957	971	O
+.	971	972	O
 
 
 -DOCSTART- (S0927025614006181)
 
-The	NN	O	O
-Discrete	NN	O	B-Process
-Element	NN	O	I-Process
-Method	NN	O	I-Process
-applied	NN	O	O
-to	NN	O	O
-spheres	NN	O	B-Material
-is	NN	O	O
-well	NN	O	O
-established	NN	O	O
-as	NN	O	O
-a	NN	O	O
-reasonably	NN	O	O
-realistic	NN	O	O
-tool	NN	O	O
-,	NN	O	O
-in	NN	O	O
-a	NN	O	O
-wide	NN	O	O
-range	NN	O	O
-of	NN	O	O
-engineering	NN	O	O
-disciplines	NN	O	O
-,	NN	O	O
-for	NN	O	O
-modelling	NN	O	B-Task
-packing	NN	O	I-Task
-and	NN	O	I-Task
-flow	NN	O	I-Task
-of	NN	O	I-Task
-granular	NN	O	I-Task
-materials	NN	O	I-Task
-;	NN	O	O
-Asmar	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-describes	NN	O	O
-the	NN	O	O
-fundamentals	NN	O	O
-of	NN	O	O
-this	NN	O	O
-method	NN	O	O
-as	NN	O	O
-applied	NN	O	O
-by	NN	O	O
-code	NN	O	O
-developed	NN	O	O
-in	NN	O	O
--	NN	O	O
-house	NN	O	O
-at	NN	O	O
-Nottingham	NN	O	O
-;	NN	O	O
-since	NN	O	O
-these	NN	O	O
-are	NN	O	O
-widely	NN	O	O
-documented	NN	O	O
-the	NN	O	O
-details	NN	O	O
-are	NN	O	O
-not	NN	O	O
-reproduced	NN	O	O
-here	NN	O	O
-,	NN	O	O
-simply	NN	O	O
-a	NN	O	O
-summary	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-applies	NN	O	O
-an	NN	O	O
-explicit	NN	O	B-Process
-time	NN	O	I-Process
-stepping	NN	O	I-Process
-approach	NN	O	I-Process
-to	NN	O	O
-numerically	NN	O	B-Process
-integrate	NN	O	I-Process
-the	NN	O	O
-translational	NN	O	B-Process
-and	NN	O	I-Process
-rotational	NN	O	I-Process
-motion	NN	O	I-Process
-of	NN	O	O
-each	NN	O	O
-particle	NN	O	O
-from	NN	O	O
-the	NN	O	O
-resulting	NN	O	O
-forces	NN	O	B-Process
-and	NN	O	O
-moments	NN	O	B-Process
-acting	NN	O	O
-on	NN	O	O
-them	NN	O	O
-at	NN	O	O
-each	NN	O	O
-timestep	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-inter	NN	O	B-Material
--	NN	O	I-Material
-particle	NN	O	I-Material
-and	NN	O	I-Material
-particle	NN	O	I-Material
-wall	NN	O	I-Material
-contacts	NN	O	I-Material
-are	NN	O	O
-modelled	NN	O	O
-using	NN	O	O
-the	NN	O	O
-linear	NN	O	B-Process
-spring	NN	O	I-Process
-–	NN	O	I-Process
-dashpot	NN	O	I-Process
-–	NN	O	I-Process
-slider	NN	O	I-Process
-analogy	NN	O	I-Process
-.	NN	O	O
-
-Contact	NN	O	B-Process
-forces	NN	O	I-Process
-are	NN	O	O
-modelled	NN	O	O
-in	NN	O	O
-the	NN	O	O
-normal	NN	O	O
-and	NN	O	O
-tangential	NN	O	O
-directions	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-the	NN	O	O
-line	NN	O	O
-connecting	NN	O	O
-the	NN	O	O
-particles	NN	O	B-Material
-centres	NN	O	I-Material
-.	NN	O	O
-
-Particle	NN	O	B-Process
-elastic	NN	O	I-Process
-stiffness	NN	O	I-Process
-is	NN	O	O
-set	NN	O	O
-so	NN	O	O
-sphere	NN	O	B-Process
-“	NN	O	I-Process
-overlap	NN	O	I-Process
-”	NN	O	I-Process
-is	NN	O	O
-not	NN	O	O
-significant	NN	O	O
-and	NN	O	O
-moderate	NN	O	O
-contact	NN	O	B-Process
-damping	NN	O	I-Process
-is	NN	O	O
-applied	NN	O	O
-.	NN	O	O
-
-Particle	NN	O	B-Process
-cohesion	NN	O	I-Process
-can	NN	O	O
-also	NN	O	O
-be	NN	O	O
-modelled	NN	O	O
-but	NN	O	O
-is	NN	O	O
-assumed	NN	O	O
-to	NN	O	O
-be	NN	O	O
-negligible	NN	O	O
-in	NN	O	O
-the	NN	O	O
-current	NN	O	O
-study	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-translational	NN	O	B-Process
-and	NN	O	I-Process
-rotational	NN	O	I-Process
-motion	NN	O	I-Process
-of	NN	O	O
-each	NN	O	O
-particle	NN	O	B-Material
-is	NN	O	O
-modelled	NN	O	O
-using	NN	O	O
-a	NN	O	O
-half	NN	O	B-Process
-step	NN	O	I-Process
-leap	NN	O	I-Process
--	NN	O	I-Process
-frog	NN	O	I-Process
-Verlet	NN	O	I-Process
-numerical	NN	O	I-Process
-integration	NN	O	I-Process
-scheme	NN	O	I-Process
-to	NN	O	O
-update	NN	O	O
-particle	NN	O	B-Material
-positions	NN	O	I-Material
-and	NN	O	O
-velocities	NN	O	B-Material
-.	NN	O	O
-
-Near	NN	O	B-Process
--	NN	O	I-Process
-neighbour	NN	O	I-Process
-lists	NN	O	I-Process
-are	NN	O	O
-used	NN	O	O
-to	NN	O	O
-increase	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-efficiency	NN	O	O
-of	NN	O	O
-determining	NN	O	O
-particle	NN	O	B-Material
-contacts	NN	O	I-Material
-and	NN	O	O
-a	NN	O	O
-zoning	NN	O	B-Process
-method	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-each	NN	O	O
-time	NN	O	O
-the	NN	O	O
-list	NN	O	O
-is	NN	O	O
-composed	NN	O	O
-;	NN	O	O
-that	NN	O	O
-is	NN	O	O
-the	NN	O	O
-system	NN	O	O
-is	NN	O	O
-divided	NN	O	O
-into	NN	O	O
-cubic	NN	O	O
-regions	NN	O	O
-,	NN	O	O
-each	NN	O	O
-particle	NN	O	B-Material
-centre	NN	O	I-Material
-is	NN	O	O
-within	NN	O	O
-one	NN	O	O
-zone	NN	O	O
-,	NN	O	O
-and	NN	O	O
-potential	NN	O	O
-contacting	NN	O	B-Material
-particles	NN	O	I-Material
-are	NN	O	O
-within	NN	O	O
-the	NN	O	O
-same	NN	O	O
-or	NN	O	O
-next	NN	O	O
--	NN	O	O
-door	NN	O	O
-neighbour	NN	O	O
-zones	NN	O	O
-.	NN	O	O
-
-Full	NN	O	O
-details	NN	O	O
-are	NN	O	O
-given	NN	O	O
-in	NN	O	O
-Asmar	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+Discrete	4	12	B-Process
+Element	13	20	I-Process
+Method	21	27	I-Process
+applied	28	35	O
+to	36	38	O
+spheres	39	46	B-Material
+is	47	49	O
+well	50	54	O
+established	55	66	O
+as	67	69	O
+a	70	71	O
+reasonably	72	82	O
+realistic	83	92	O
+tool	93	97	O
+,	97	98	O
+in	99	101	O
+a	102	103	O
+wide	104	108	O
+range	109	114	O
+of	115	117	O
+engineering	118	129	O
+disciplines	130	141	O
+,	141	142	O
+for	143	146	O
+modelling	147	156	B-Task
+packing	157	164	I-Task
+and	165	168	I-Task
+flow	169	173	I-Task
+of	174	176	I-Task
+granular	177	185	I-Task
+materials	186	195	I-Task
+;	195	196	O
+Asmar	197	202	O
+et	203	205	O
+al	206	208	O
+.	208	209	O
+
+[	210	211	O
+8	211	212	O
+]	212	213	O
+describes	214	223	O
+the	224	227	O
+fundamentals	228	240	O
+of	241	243	O
+this	244	248	O
+method	249	255	O
+as	256	258	O
+applied	259	266	O
+by	267	269	O
+code	270	274	O
+developed	275	284	O
+in	285	287	O
+-	287	288	O
+house	288	293	O
+at	294	296	O
+Nottingham	297	307	O
+;	307	308	O
+since	309	314	O
+these	315	320	O
+are	321	324	O
+widely	325	331	O
+documented	332	342	O
+the	343	346	O
+details	347	354	O
+are	355	358	O
+not	359	362	O
+reproduced	363	373	O
+here	374	378	O
+,	378	379	O
+simply	380	386	O
+a	387	388	O
+summary	389	396	O
+.	396	397	O
+
+It	398	400	O
+applies	401	408	O
+an	409	411	O
+explicit	412	420	B-Process
+time	421	425	I-Process
+stepping	426	434	I-Process
+approach	435	443	I-Process
+to	444	446	O
+numerically	447	458	B-Process
+integrate	459	468	I-Process
+the	469	472	O
+translational	473	486	B-Process
+and	487	490	I-Process
+rotational	491	501	I-Process
+motion	502	508	I-Process
+of	509	511	O
+each	512	516	O
+particle	517	525	O
+from	526	530	O
+the	531	534	O
+resulting	535	544	O
+forces	545	551	B-Process
+and	552	555	O
+moments	556	563	B-Process
+acting	564	570	O
+on	571	573	O
+them	574	578	O
+at	579	581	O
+each	582	586	O
+timestep	587	595	O
+.	595	596	O
+
+The	597	600	O
+inter	601	606	B-Material
+-	606	607	I-Material
+particle	607	615	I-Material
+and	616	619	I-Material
+particle	620	628	I-Material
+wall	629	633	I-Material
+contacts	634	642	I-Material
+are	643	646	O
+modelled	647	655	O
+using	656	661	O
+the	662	665	O
+linear	666	672	B-Process
+spring	673	679	I-Process
+–	679	680	I-Process
+dashpot	680	687	I-Process
+–	687	688	I-Process
+slider	688	694	I-Process
+analogy	695	702	I-Process
+.	702	703	O
+
+Contact	704	711	B-Process
+forces	712	718	I-Process
+are	719	722	O
+modelled	723	731	O
+in	732	734	O
+the	735	738	O
+normal	739	745	O
+and	746	749	O
+tangential	750	760	O
+directions	761	771	O
+with	772	776	O
+respect	777	784	O
+to	785	787	O
+the	788	791	O
+line	792	796	O
+connecting	797	807	O
+the	808	811	O
+particles	812	821	B-Material
+centres	822	829	I-Material
+.	829	830	O
+
+Particle	831	839	B-Process
+elastic	840	847	I-Process
+stiffness	848	857	I-Process
+is	858	860	O
+set	861	864	O
+so	865	867	O
+sphere	868	874	B-Process
+“	875	876	I-Process
+overlap	876	883	I-Process
+”	883	884	I-Process
+is	885	887	O
+not	888	891	O
+significant	892	903	O
+and	904	907	O
+moderate	908	916	O
+contact	917	924	B-Process
+damping	925	932	I-Process
+is	933	935	O
+applied	936	943	O
+.	943	944	O
+
+Particle	945	953	B-Process
+cohesion	954	962	I-Process
+can	963	966	O
+also	967	971	O
+be	972	974	O
+modelled	975	983	O
+but	984	987	O
+is	988	990	O
+assumed	991	998	O
+to	999	1001	O
+be	1002	1004	O
+negligible	1005	1015	O
+in	1016	1018	O
+the	1019	1022	O
+current	1023	1030	O
+study	1031	1036	O
+.	1036	1037	O
+
+The	1038	1041	O
+translational	1042	1055	B-Process
+and	1056	1059	I-Process
+rotational	1060	1070	I-Process
+motion	1071	1077	I-Process
+of	1078	1080	O
+each	1081	1085	O
+particle	1086	1094	B-Material
+is	1095	1097	O
+modelled	1098	1106	O
+using	1107	1112	O
+a	1113	1114	O
+half	1115	1119	B-Process
+step	1120	1124	I-Process
+leap	1125	1129	I-Process
+-	1129	1130	I-Process
+frog	1130	1134	I-Process
+Verlet	1135	1141	I-Process
+numerical	1142	1151	I-Process
+integration	1152	1163	I-Process
+scheme	1164	1170	I-Process
+to	1171	1173	O
+update	1174	1180	O
+particle	1181	1189	B-Material
+positions	1190	1199	I-Material
+and	1200	1203	O
+velocities	1204	1214	B-Material
+.	1214	1215	O
+
+Near	1216	1220	B-Process
+-	1220	1221	I-Process
+neighbour	1221	1230	I-Process
+lists	1231	1236	I-Process
+are	1237	1240	O
+used	1241	1245	O
+to	1246	1248	O
+increase	1249	1257	O
+the	1258	1261	O
+computational	1262	1275	O
+efficiency	1276	1286	O
+of	1287	1289	O
+determining	1290	1301	O
+particle	1302	1310	B-Material
+contacts	1311	1319	I-Material
+and	1320	1323	O
+a	1324	1325	O
+zoning	1326	1332	B-Process
+method	1333	1339	I-Process
+is	1340	1342	O
+used	1343	1347	O
+each	1348	1352	O
+time	1353	1357	O
+the	1358	1361	O
+list	1362	1366	O
+is	1367	1369	O
+composed	1370	1378	O
+;	1378	1379	O
+that	1380	1384	O
+is	1385	1387	O
+the	1388	1391	O
+system	1392	1398	O
+is	1399	1401	O
+divided	1402	1409	O
+into	1410	1414	O
+cubic	1415	1420	O
+regions	1421	1428	O
+,	1428	1429	O
+each	1430	1434	O
+particle	1435	1443	B-Material
+centre	1444	1450	I-Material
+is	1451	1453	O
+within	1454	1460	O
+one	1461	1464	O
+zone	1465	1469	O
+,	1469	1470	O
+and	1471	1474	O
+potential	1475	1484	O
+contacting	1485	1495	B-Material
+particles	1496	1505	I-Material
+are	1506	1509	O
+within	1510	1516	O
+the	1517	1520	O
+same	1521	1525	O
+or	1526	1528	O
+next	1529	1533	O
+-	1533	1534	O
+door	1534	1538	O
+neighbour	1539	1548	O
+zones	1549	1554	O
+.	1554	1555	O
+
+Full	1556	1560	O
+details	1561	1568	O
+are	1569	1572	O
+given	1573	1578	O
+in	1579	1581	O
+Asmar	1582	1587	O
+et	1588	1590	O
+al	1591	1593	O
+.	1593	1594	O
+
+[	1595	1596	O
+8	1596	1597	O
+]	1597	1598	O
+.	1598	1599	O
 
 
 -DOCSTART- (S0927025615006357)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-crystal	NN	O	B-Process
-plasticity	NN	O	I-Process
-model	NN	O	I-Process
-,	NN	O	O
-in	NN	O	O
-combination	NN	O	O
-with	NN	O	O
-XFEM	NN	O	B-Process
-,	NN	O	O
-has	NN	O	O
-been	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-study	NN	O	B-Task
-cyclic	NN	O	I-Task
-deformation	NN	O	I-Task
-and	NN	O	I-Task
-fatigue	NN	O	I-Task
-crack	NN	O	I-Task
-growth	NN	O	I-Task
-in	NN	O	O
-a	NN	O	O
-nickel	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-superalloy	NN	O	I-Material
-LSHR	NN	O	I-Material
-(	NN	O	O
-Low	NN	O	B-Material
-Solvus	NN	O	I-Material
-High	NN	O	I-Material
-Refractory	NN	O	I-Material
-)	NN	O	O
-at	NN	O	O
-high	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-first	NN	O	O
-objective	NN	O	O
-of	NN	O	O
-this	NN	O	O
-research	NN	O	O
-was	NN	O	O
-to	NN	O	O
-develop	NN	O	B-Task
-and	NN	O	I-Task
-evaluate	NN	O	I-Task
-a	NN	O	I-Task
-RVE	NN	O	I-Task
--	NN	O	I-Task
-based	NN	O	I-Task
-finite	NN	O	I-Task
-element	NN	O	I-Task
-model	NN	O	I-Task
-with	NN	O	O
-the	NN	O	O
-incorporation	NN	O	O
-of	NN	O	O
-a	NN	O	O
-realistic	NN	O	O
-material	NN	O	O
-microstructure	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-second	NN	O	O
-objective	NN	O	O
-of	NN	O	O
-this	NN	O	O
-work	NN	O	O
-was	NN	O	O
-to	NN	O	O
-determine	NN	O	B-Task
-the	NN	O	I-Task
-parameters	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-crystal	NN	O	I-Task
-plasticity	NN	O	I-Task
-constitutive	NN	O	I-Task
-model	NN	O	I-Task
-to	NN	O	O
-describe	NN	O	O
-the	NN	O	O
-cyclic	NN	O	B-Process
-deformation	NN	O	I-Process
-behaviour	NN	O	O
-of	NN	O	O
-the	NN	O	O
-material	NN	O	O
-by	NN	O	O
-using	NN	O	O
-a	NN	O	O
-user	NN	O	B-Material
--	NN	O	I-Material
-defined	NN	O	I-Material
-material	NN	O	I-Material
-subroutine	NN	O	I-Material
-(	NN	O	O
-UMAT	NN	O	B-Material
-)	NN	O	O
-interfaced	NN	O	O
-with	NN	O	O
-the	NN	O	O
-finite	NN	O	O
-element	NN	O	O
-package	NN	O	O
-ABAQUS	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-model	NN	O	O
-parameters	NN	O	O
-were	NN	O	O
-calibrated	NN	O	O
-from	NN	O	O
-extensive	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-analyses	NN	O	I-Process
-to	NN	O	O
-fit	NN	O	O
-the	NN	O	O
-monotonic	NN	O	B-Material
-,	NN	O	I-Material
-stress	NN	O	I-Material
-relaxation	NN	O	I-Material
-and	NN	O	I-Material
-cyclic	NN	O	I-Material
-test	NN	O	I-Material
-data	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-third	NN	O	O
-objective	NN	O	O
-was	NN	O	O
-to	NN	O	O
-predict	NN	O	B-Task
-crack	NN	O	I-Task
-growth	NN	O	I-Task
-by	NN	O	O
-combining	NN	O	O
-the	NN	O	O
-XFEM	NN	O	B-Process
-technique	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-calibrated	NN	O	B-Process
-crystal	NN	O	I-Process
-plasticity	NN	O	I-Process
-UMAT	NN	O	I-Process
-,	NN	O	O
-for	NN	O	O
-which	NN	O	O
-accumulated	NN	O	O
-plastic	NN	O	B-Process
-strain	NN	O	I-Process
-was	NN	O	O
-used	NN	O	O
-as	NN	O	O
-the	NN	O	O
-fracture	NN	O	B-Process
-criterion	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+crystal	15	22	B-Process
+plasticity	23	33	I-Process
+model	34	39	I-Process
+,	39	40	O
+in	41	43	O
+combination	44	55	O
+with	56	60	O
+XFEM	61	65	B-Process
+,	65	66	O
+has	67	70	O
+been	71	75	O
+applied	76	83	O
+to	84	86	O
+study	87	92	B-Task
+cyclic	93	99	I-Task
+deformation	100	111	I-Task
+and	112	115	I-Task
+fatigue	116	123	I-Task
+crack	124	129	I-Task
+growth	130	136	I-Task
+in	137	139	O
+a	140	141	O
+nickel	142	148	B-Material
+-	148	149	I-Material
+based	149	154	I-Material
+superalloy	155	165	I-Material
+LSHR	166	170	I-Material
+(	171	172	O
+Low	172	175	B-Material
+Solvus	176	182	I-Material
+High	183	187	I-Material
+Refractory	188	198	I-Material
+)	198	199	O
+at	200	202	O
+high	203	207	O
+temperature	208	219	O
+.	219	220	O
+
+The	221	224	O
+first	225	230	O
+objective	231	240	O
+of	241	243	O
+this	244	248	O
+research	249	257	O
+was	258	261	O
+to	262	264	O
+develop	265	272	B-Task
+and	273	276	I-Task
+evaluate	277	285	I-Task
+a	286	287	I-Task
+RVE	288	291	I-Task
+-	291	292	I-Task
+based	292	297	I-Task
+finite	298	304	I-Task
+element	305	312	I-Task
+model	313	318	I-Task
+with	319	323	O
+the	324	327	O
+incorporation	328	341	O
+of	342	344	O
+a	345	346	O
+realistic	347	356	O
+material	357	365	O
+microstructure	366	380	O
+.	380	381	O
+
+The	382	385	O
+second	386	392	O
+objective	393	402	O
+of	403	405	O
+this	406	410	O
+work	411	415	O
+was	416	419	O
+to	420	422	O
+determine	423	432	B-Task
+the	433	436	I-Task
+parameters	437	447	I-Task
+of	448	450	I-Task
+a	451	452	I-Task
+crystal	453	460	I-Task
+plasticity	461	471	I-Task
+constitutive	472	484	I-Task
+model	485	490	I-Task
+to	491	493	O
+describe	494	502	O
+the	503	506	O
+cyclic	507	513	B-Process
+deformation	514	525	I-Process
+behaviour	526	535	O
+of	536	538	O
+the	539	542	O
+material	543	551	O
+by	552	554	O
+using	555	560	O
+a	561	562	O
+user	563	567	B-Material
+-	567	568	I-Material
+defined	568	575	I-Material
+material	576	584	I-Material
+subroutine	585	595	I-Material
+(	596	597	O
+UMAT	597	601	B-Material
+)	601	602	O
+interfaced	603	613	O
+with	614	618	O
+the	619	622	O
+finite	623	629	O
+element	630	637	O
+package	638	645	O
+ABAQUS	646	652	B-Material
+.	652	653	O
+
+The	654	657	O
+model	658	663	O
+parameters	664	674	O
+were	675	679	O
+calibrated	680	690	O
+from	691	695	O
+extensive	696	705	O
+finite	706	712	B-Process
+element	713	720	I-Process
+analyses	721	729	I-Process
+to	730	732	O
+fit	733	736	O
+the	737	740	O
+monotonic	741	750	B-Material
+,	750	751	I-Material
+stress	752	758	I-Material
+relaxation	759	769	I-Material
+and	770	773	I-Material
+cyclic	774	780	I-Material
+test	781	785	I-Material
+data	786	790	I-Material
+.	790	791	O
+
+The	792	795	O
+third	796	801	O
+objective	802	811	O
+was	812	815	O
+to	816	818	O
+predict	819	826	B-Task
+crack	827	832	I-Task
+growth	833	839	I-Task
+by	840	842	O
+combining	843	852	O
+the	853	856	O
+XFEM	857	861	B-Process
+technique	862	871	I-Process
+and	872	875	O
+the	876	879	O
+calibrated	880	890	B-Process
+crystal	891	898	I-Process
+plasticity	899	909	I-Process
+UMAT	910	914	I-Process
+,	914	915	O
+for	916	919	O
+which	920	925	O
+accumulated	926	937	O
+plastic	938	945	B-Process
+strain	946	952	I-Process
+was	953	956	O
+used	957	961	O
+as	962	964	O
+the	965	968	O
+fracture	969	977	B-Process
+criterion	978	987	I-Process
+.	987	988	O
 
 
 -DOCSTART- (S096386951400070X)
 
-This	NN	O	O
-paper	NN	O	O
-has	NN	O	O
-highlighted	NN	O	B-Task
-a	NN	O	I-Task
-band	NN	O	I-Task
-of	NN	O	I-Task
-frequencies	NN	O	I-Task
-,	NN	O	O
-outside	NN	O	O
-the	NN	O	O
-conventional	NN	O	O
-operation	NN	O	O
-range	NN	O	O
-,	NN	O	O
-and	NN	O	O
-close	NN	O	O
-to	NN	O	O
-electrical	NN	O	B-Process
-resonance	NN	O	I-Process
-of	NN	O	I-Process
-an	NN	O	I-Process
-eddy	NN	O	I-Process
-current	NN	O	I-Process
-probe	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-magnitude	NN	O	O
-of	NN	O	O
-impedance	NN	O	B-Material
-SNR	NN	O	I-Material
-reaches	NN	O	O
-a	NN	O	O
-peak	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-SNR	NN	O	B-Material
-of	NN	O	O
-scans	NN	O	O
-of	NN	O	O
-three	NN	O	O
-slots	NN	O	O
-of	NN	O	O
-varying	NN	O	O
-depth	NN	O	O
-were	NN	O	O
-enhanced	NN	O	O
-by	NN	O	O
-a	NN	O	O
-factor	NN	O	O
-of	NN	O	O
-up	NN	O	O
-to	NN	O	O
-3.7	NN	O	O
-,	NN	O	O
-from	NN	O	O
-the	NN	O	O
-SNR	NN	O	B-Material
-measured	NN	O	O
-at	NN	O	O
-1MHz	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-a	NN	O	O
-result	NN	O	O
-of	NN	O	O
-a	NN	O	O
-defect	NN	O	B-Process
--	NN	O	I-Process
-decoupling	NN	O	I-Process
-resonance	NN	O	I-Process
--	NN	O	I-Process
-shift	NN	O	I-Process
-effect	NN	O	I-Process
-and	NN	O	O
-is	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-the	NN	O	O
-near	NN	O	B-Process
-electrical	NN	O	I-Process
-resonance	NN	O	I-Process
-signal	NN	O	I-Process
-enhancement	NN	O	I-Process
-(	NN	O	O
-NERSE	NN	O	B-Process
-)	NN	O	O
-phenomenon	NN	O	O
-.	NN	O	O
-
-NERSE	NN	O	B-Process
-frequency	NN	O	O
-operation	NN	O	O
-has	NN	O	O
-significant	NN	O	O
-potential	NN	O	O
-for	NN	O	O
-ECT	NN	O	B-Process
-inspection	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-opens	NN	O	O
-up	NN	O	O
-a	NN	O	O
-range	NN	O	O
-of	NN	O	O
-investigative	NN	O	O
-possibilities	NN	O	O
-.	NN	O	O
-
-Within	NN	O	O
-this	NN	O	O
-investigation	NN	O	O
-,	NN	O	O
-only	NN	O	O
-the	NN	O	O
-magnitude	NN	O	O
-of	NN	O	O
-the	NN	O	O
-electrical	NN	O	B-Material
-impedance	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-analyzed	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-immediate	NN	O	O
-extension	NN	O	O
-of	NN	O	O
-this	NN	O	O
-investigation	NN	O	O
-will	NN	O	O
-be	NN	O	O
-to	NN	O	O
-consider	NN	O	O
-phase	NN	O	O
-information	NN	O	O
-,	NN	O	O
-and	NN	O	O
-determine	NN	O	O
-whether	NN	O	O
-a	NN	O	O
-similar	NN	O	O
-exploitable	NN	O	O
-NERSE	NN	O	B-Process
-effect	NN	O	O
-exists	NN	O	O
-.	NN	O	O
+This	0	4	O
+paper	5	10	O
+has	11	14	O
+highlighted	15	26	B-Task
+a	27	28	I-Task
+band	29	33	I-Task
+of	34	36	I-Task
+frequencies	37	48	I-Task
+,	48	49	O
+outside	50	57	O
+the	58	61	O
+conventional	62	74	O
+operation	75	84	O
+range	85	90	O
+,	90	91	O
+and	92	95	O
+close	96	101	O
+to	102	104	O
+electrical	105	115	B-Process
+resonance	116	125	I-Process
+of	126	128	I-Process
+an	129	131	I-Process
+eddy	132	136	I-Process
+current	137	144	I-Process
+probe	145	150	I-Process
+,	150	151	O
+where	152	157	O
+the	158	161	O
+magnitude	162	171	O
+of	172	174	O
+impedance	175	184	B-Material
+SNR	185	188	I-Material
+reaches	189	196	O
+a	197	198	O
+peak	199	203	O
+.	203	204	O
+
+The	205	208	O
+SNR	209	212	B-Material
+of	213	215	O
+scans	216	221	O
+of	222	224	O
+three	225	230	O
+slots	231	236	O
+of	237	239	O
+varying	240	247	O
+depth	248	253	O
+were	254	258	O
+enhanced	259	267	O
+by	268	270	O
+a	271	272	O
+factor	273	279	O
+of	280	282	O
+up	283	285	O
+to	286	288	O
+3.7	289	292	O
+,	292	293	O
+from	294	298	O
+the	299	302	O
+SNR	303	306	B-Material
+measured	307	315	O
+at	316	318	O
+1MHz	319	323	O
+.	323	324	O
+
+This	325	329	O
+is	330	332	O
+a	333	334	O
+result	335	341	O
+of	342	344	O
+a	345	346	O
+defect	347	353	B-Process
+-	353	354	I-Process
+decoupling	354	364	I-Process
+resonance	365	374	I-Process
+-	374	375	I-Process
+shift	375	380	I-Process
+effect	381	387	I-Process
+and	388	391	O
+is	392	394	O
+referred	395	403	O
+to	404	406	O
+as	407	409	O
+the	410	413	O
+near	414	418	B-Process
+electrical	419	429	I-Process
+resonance	430	439	I-Process
+signal	440	446	I-Process
+enhancement	447	458	I-Process
+(	459	460	O
+NERSE	460	465	B-Process
+)	465	466	O
+phenomenon	467	477	O
+.	477	478	O
+
+NERSE	479	484	B-Process
+frequency	485	494	O
+operation	495	504	O
+has	505	508	O
+significant	509	520	O
+potential	521	530	O
+for	531	534	O
+ECT	535	538	B-Process
+inspection	539	549	I-Process
+,	549	550	O
+and	551	554	O
+opens	555	560	O
+up	561	563	O
+a	564	565	O
+range	566	571	O
+of	572	574	O
+investigative	575	588	O
+possibilities	589	602	O
+.	602	603	O
+
+Within	604	610	O
+this	611	615	O
+investigation	616	629	O
+,	629	630	O
+only	631	635	O
+the	636	639	O
+magnitude	640	649	O
+of	650	652	O
+the	653	656	O
+electrical	657	667	B-Material
+impedance	668	677	I-Material
+has	678	681	O
+been	682	686	O
+analyzed	687	695	O
+.	695	696	O
+
+An	697	699	O
+immediate	700	709	O
+extension	710	719	O
+of	720	722	O
+this	723	727	O
+investigation	728	741	O
+will	742	746	O
+be	747	749	O
+to	750	752	O
+consider	753	761	O
+phase	762	767	O
+information	768	779	O
+,	779	780	O
+and	781	784	O
+determine	785	794	O
+whether	795	802	O
+a	803	804	O
+similar	805	812	O
+exploitable	813	824	O
+NERSE	825	830	B-Process
+effect	831	837	O
+exists	838	844	O
+.	844	845	O
 
 
 -DOCSTART- (S0963869514000875)
 
-There	NN	O	O
-are	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-avenues	NN	O	O
-to	NN	O	O
-explore	NN	O	O
-for	NN	O	O
-future	NN	O	O
-work	NN	O	O
-,	NN	O	O
-in	NN	O	O
-particular	NN	O	O
-the	NN	O	O
-use	NN	O	B-Task
-of	NN	O	I-Task
-other	NN	O	I-Task
-time	NN	O	I-Task
-–	NN	O	I-Task
-frequency	NN	O	I-Task
-analysis	NN	O	I-Task
-methods	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-STFT	NN	O	B-Process
-spectrogram	NN	O	I-Process
-was	NN	O	O
-utilised	NN	O	O
-here	NN	O	O
-,	NN	O	O
-as	NN	O	O
-it	NN	O	O
-is	NN	O	O
-the	NN	O	O
-simplest	NN	O	O
-to	NN	O	O
-implement	NN	O	O
-.	NN	O	O
-
-Whilst	NN	O	O
-all	NN	O	O
-of	NN	O	O
-the	NN	O	O
-echoes	NN	O	O
-could	NN	O	O
-be	NN	O	O
-clearly	NN	O	O
-resolved	NN	O	O
-in	NN	O	O
-both	NN	O	O
-time	NN	O	O
-and	NN	O	O
-frequency	NN	O	O
-,	NN	O	O
-the	NN	O	O
-spectrogram	NN	O	B-Process
-suffers	NN	O	O
-from	NN	O	O
-a	NN	O	O
-fixed	NN	O	B-Material
-resolution	NN	O	I-Material
-,	NN	O	O
-i.e.	NN	O	O
-an	NN	O	O
-increase	NN	O	O
-of	NN	O	O
-time	NN	O	B-Material
-resolution	NN	O	I-Material
-necessarily	NN	O	O
-leads	NN	O	O
-to	NN	O	O
-a	NN	O	O
-decrease	NN	O	O
-in	NN	O	O
-frequency	NN	O	B-Material
-resolution	NN	O	I-Material
-.	NN	O	O
-
-Other	NN	O	O
-methods	NN	O	O
-of	NN	O	O
-time	NN	O	B-Process
-–	NN	O	I-Process
-frequency	NN	O	I-Process
-analysis	NN	O	I-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-discrete	NN	O	B-Process
-wavelet	NN	O	I-Process
-analysis	NN	O	I-Process
-,	NN	O	O
-benefit	NN	O	O
-from	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-multi	NN	O	B-Process
--	NN	O	I-Process
-resolution	NN	O	I-Process
-analysis	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-offers	NN	O	O
-improved	NN	O	O
-temporal	NN	O	B-Material
-resolution	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-high	NN	O	O
-frequency	NN	O	O
-components	NN	O	O
-,	NN	O	O
-and	NN	O	O
-frequency	NN	O	B-Material
-resolution	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-low	NN	O	B-Material
-frequency	NN	O	I-Material
-components	NN	O	I-Material
-[	NN	O	O
-25,18,19	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Also	NN	O	O
-,	NN	O	O
-whilst	NN	O	O
-the	NN	O	O
-current	NN	O	O
-work	NN	O	O
-has	NN	O	O
-utilised	NN	O	O
-SH	NN	O	B-Material
-waves	NN	O	I-Material
-that	NN	O	O
-are	NN	O	O
-generated	NN	O	O
-by	NN	O	O
-EMATs	NN	O	B-Process
-,	NN	O	O
-the	NN	O	O
-physics	NN	O	O
-that	NN	O	O
-describes	NN	O	O
-the	NN	O	O
-pulsed	NN	O	B-Material
-array	NN	O	I-Material
-system	NN	O	I-Material
-is	NN	O	O
-universal	NN	O	O
-to	NN	O	O
-other	NN	O	O
-types	NN	O	O
-of	NN	O	O
-waves	NN	O	O
-.	NN	O	O
-
-Future	NN	O	O
-work	NN	O	O
-will	NN	O	O
-include	NN	O	O
-demonstrating	NN	O	B-Task
-this	NN	O	I-Task
-phenomenon	NN	O	I-Task
-with	NN	O	I-Task
-a	NN	O	I-Task
-number	NN	O	I-Task
-of	NN	O	I-Task
-other	NN	O	I-Task
-systems	NN	O	I-Task
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-using	NN	O	O
-longitudinal	NN	O	B-Material
-ultrasonic	NN	O	I-Material
-waves	NN	O	I-Material
-or	NN	O	O
-electromagnetic	NN	O	B-Material
-waves	NN	O	I-Material
-.	NN	O	O
+There	0	5	O
+are	6	9	O
+a	10	11	O
+number	12	18	O
+of	19	21	O
+avenues	22	29	O
+to	30	32	O
+explore	33	40	O
+for	41	44	O
+future	45	51	O
+work	52	56	O
+,	56	57	O
+in	58	60	O
+particular	61	71	O
+the	72	75	O
+use	76	79	B-Task
+of	80	82	I-Task
+other	83	88	I-Task
+time	89	93	I-Task
+–	93	94	I-Task
+frequency	94	103	I-Task
+analysis	104	112	I-Task
+methods	113	120	I-Task
+.	120	121	O
+
+The	122	125	O
+STFT	126	130	B-Process
+spectrogram	131	142	I-Process
+was	143	146	O
+utilised	147	155	O
+here	156	160	O
+,	160	161	O
+as	162	164	O
+it	165	167	O
+is	168	170	O
+the	171	174	O
+simplest	175	183	O
+to	184	186	O
+implement	187	196	O
+.	196	197	O
+
+Whilst	198	204	O
+all	205	208	O
+of	209	211	O
+the	212	215	O
+echoes	216	222	O
+could	223	228	O
+be	229	231	O
+clearly	232	239	O
+resolved	240	248	O
+in	249	251	O
+both	252	256	O
+time	257	261	O
+and	262	265	O
+frequency	266	275	O
+,	275	276	O
+the	277	280	O
+spectrogram	281	292	B-Process
+suffers	293	300	O
+from	301	305	O
+a	306	307	O
+fixed	308	313	B-Material
+resolution	314	324	I-Material
+,	324	325	O
+i.e.	326	330	O
+an	331	333	O
+increase	334	342	O
+of	343	345	O
+time	346	350	B-Material
+resolution	351	361	I-Material
+necessarily	362	373	O
+leads	374	379	O
+to	380	382	O
+a	383	384	O
+decrease	385	393	O
+in	394	396	O
+frequency	397	406	B-Material
+resolution	407	417	I-Material
+.	417	418	O
+
+Other	419	424	O
+methods	425	432	O
+of	433	435	O
+time	436	440	B-Process
+–	440	441	I-Process
+frequency	441	450	I-Process
+analysis	451	459	I-Process
+,	459	460	O
+such	461	465	O
+as	466	468	O
+discrete	469	477	B-Process
+wavelet	478	485	I-Process
+analysis	486	494	I-Process
+,	494	495	O
+benefit	496	503	O
+from	504	508	O
+advantage	509	518	O
+of	519	521	O
+multi	522	527	B-Process
+-	527	528	I-Process
+resolution	528	538	I-Process
+analysis	539	547	I-Process
+,	547	548	O
+which	549	554	O
+offers	555	561	O
+improved	562	570	O
+temporal	571	579	B-Material
+resolution	580	590	I-Material
+of	591	593	O
+the	594	597	O
+high	598	602	O
+frequency	603	612	O
+components	613	623	O
+,	623	624	O
+and	625	628	O
+frequency	629	638	B-Material
+resolution	639	649	I-Material
+of	650	652	O
+the	653	656	O
+low	657	660	B-Material
+frequency	661	670	I-Material
+components	671	681	I-Material
+[	682	683	O
+25,18,19	683	691	O
+]	691	692	O
+.	692	693	O
+
+Also	694	698	O
+,	698	699	O
+whilst	700	706	O
+the	707	710	O
+current	711	718	O
+work	719	723	O
+has	724	727	O
+utilised	728	736	O
+SH	737	739	B-Material
+waves	740	745	I-Material
+that	746	750	O
+are	751	754	O
+generated	755	764	O
+by	765	767	O
+EMATs	768	773	B-Process
+,	773	774	O
+the	775	778	O
+physics	779	786	O
+that	787	791	O
+describes	792	801	O
+the	802	805	O
+pulsed	806	812	B-Material
+array	813	818	I-Material
+system	819	825	I-Material
+is	826	828	O
+universal	829	838	O
+to	839	841	O
+other	842	847	O
+types	848	853	O
+of	854	856	O
+waves	857	862	O
+.	862	863	O
+
+Future	864	870	O
+work	871	875	O
+will	876	880	O
+include	881	888	O
+demonstrating	889	902	B-Task
+this	903	907	I-Task
+phenomenon	908	918	I-Task
+with	919	923	I-Task
+a	924	925	I-Task
+number	926	932	I-Task
+of	933	935	I-Task
+other	936	941	I-Task
+systems	942	949	I-Task
+,	949	950	O
+for	951	954	O
+example	955	962	O
+using	963	968	O
+longitudinal	969	981	B-Material
+ultrasonic	982	992	I-Material
+waves	993	998	I-Material
+or	999	1001	O
+electromagnetic	1002	1017	B-Material
+waves	1018	1023	I-Material
+.	1023	1024	O
 
 
 -DOCSTART- (S0963869514000954)
 
-Global	NN	O	B-Process
-optimisation	NN	O	I-Process
-algorithms	NN	O	I-Process
-are	NN	O	O
-used	NN	O	O
-in	NN	O	O
-this	NN	O	O
-study	NN	O	O
-to	NN	O	O
-solve	NN	O	B-Task
-the	NN	O	I-Task
-optimisation	NN	O	I-Task
-problem	NN	O	I-Task
-as	NN	O	O
-they	NN	O	O
-are	NN	O	O
-known	NN	O	O
-to	NN	O	O
-be	NN	O	O
-efficient	NN	O	O
-in	NN	O	O
-incorporating	NN	O	B-Process
-statistical	NN	O	I-Process
-information	NN	O	I-Process
-and	NN	O	O
-dealing	NN	O	O
-with	NN	O	O
-complicated	NN	O	O
-objective	NN	O	B-Process
-functions	NN	O	I-Process
-that	NN	O	O
-have	NN	O	O
-multiple	NN	O	O
-local	NN	O	B-Material
-minima	NN	O	I-Material
-/	NN	O	I-Material
-maxima	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-genetic	NN	O	B-Process
-algorithm	NN	O	I-Process
-(	NN	O	O
-GA	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-such	NN	O	O
-a	NN	O	O
-global	NN	O	B-Process
-optimisation	NN	O	I-Process
-technique	NN	O	I-Process
-that	NN	O	O
-mimics	NN	O	B-Process
-biological	NN	O	I-Process
-evolution	NN	O	I-Process
-processes	NN	O	I-Process
-and	NN	O	O
-is	NN	O	O
-used	NN	O	O
-in	NN	O	O
-this	NN	O	O
-particular	NN	O	O
-study	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-algorithm	NN	O	O
-starts	NN	O	O
-with	NN	O	O
-a	NN	O	O
-random	NN	O	B-Process
-selection	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-population	NN	O	I-Process
-from	NN	O	O
-the	NN	O	O
-decision	NN	O	B-Material
-variable	NN	O	I-Material
-domain	NN	O	I-Material
-(	NN	O	O
-X	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-genetic	NN	O	B-Process
-algorithm	NN	O	I-Process
-repeatedly	NN	O	O
-modifies	NN	O	O
-this	NN	O	O
-population	NN	O	O
-.	NN	O	O
-
-At	NN	O	O
-each	NN	O	O
-step	NN	O	O
-,	NN	O	O
-the	NN	O	O
-algorithm	NN	O	O
-selects	NN	O	B-Process
-a	NN	O	I-Process
-group	NN	O	I-Process
-of	NN	O	I-Process
-individual	NN	O	I-Process
-values	NN	O	I-Process
-from	NN	O	O
-the	NN	O	O
-population	NN	O	B-Material
-(	NN	O	O
-parent	NN	O	B-Material
-)	NN	O	O
-which	NN	O	O
-are	NN	O	O
-evolved	NN	O	O
-through	NN	O	O
-crossover	NN	O	B-Process
-or	NN	O	O
-mutation	NN	O	B-Process
-to	NN	O	O
-produce	NN	O	O
-members	NN	O	O
-of	NN	O	O
-the	NN	O	O
-next	NN	O	O
-generation	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-process	NN	O	O
-is	NN	O	O
-repeated	NN	O	O
-for	NN	O	O
-several	NN	O	O
-generations	NN	O	O
-until	NN	O	O
-an	NN	O	O
-optimum	NN	O	O
-solution	NN	O	O
-is	NN	O	O
-reached	NN	O	O
-.	NN	O	O
-
-See	NN	O	O
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-for	NN	O	O
-a	NN	O	O
-fuller	NN	O	O
-description	NN	O	O
-of	NN	O	O
-the	NN	O	O
-GA	NN	O	B-Process
-.	NN	O	O
+Global	0	6	B-Process
+optimisation	7	19	I-Process
+algorithms	20	30	I-Process
+are	31	34	O
+used	35	39	O
+in	40	42	O
+this	43	47	O
+study	48	53	O
+to	54	56	O
+solve	57	62	B-Task
+the	63	66	I-Task
+optimisation	67	79	I-Task
+problem	80	87	I-Task
+as	88	90	O
+they	91	95	O
+are	96	99	O
+known	100	105	O
+to	106	108	O
+be	109	111	O
+efficient	112	121	O
+in	122	124	O
+incorporating	125	138	B-Process
+statistical	139	150	I-Process
+information	151	162	I-Process
+and	163	166	O
+dealing	167	174	O
+with	175	179	O
+complicated	180	191	O
+objective	192	201	B-Process
+functions	202	211	I-Process
+that	212	216	O
+have	217	221	O
+multiple	222	230	O
+local	231	236	B-Material
+minima	237	243	I-Material
+/	243	244	I-Material
+maxima	244	250	I-Material
+.	250	251	O
+
+The	252	255	O
+genetic	256	263	B-Process
+algorithm	264	273	I-Process
+(	274	275	O
+GA	275	277	B-Process
+)	277	278	O
+is	279	281	O
+such	282	286	O
+a	287	288	O
+global	289	295	B-Process
+optimisation	296	308	I-Process
+technique	309	318	I-Process
+that	319	323	O
+mimics	324	330	B-Process
+biological	331	341	I-Process
+evolution	342	351	I-Process
+processes	352	361	I-Process
+and	362	365	O
+is	366	368	O
+used	369	373	O
+in	374	376	O
+this	377	381	O
+particular	382	392	O
+study	393	398	O
+.	398	399	O
+
+The	400	403	O
+algorithm	404	413	O
+starts	414	420	O
+with	421	425	O
+a	426	427	O
+random	428	434	B-Process
+selection	435	444	I-Process
+of	445	447	I-Process
+a	448	449	I-Process
+population	450	460	I-Process
+from	461	465	O
+the	466	469	O
+decision	470	478	B-Material
+variable	479	487	I-Material
+domain	488	494	I-Material
+(	495	496	O
+X	496	497	B-Material
+)	497	498	O
+.	498	499	O
+
+The	500	503	O
+genetic	504	511	B-Process
+algorithm	512	521	I-Process
+repeatedly	522	532	O
+modifies	533	541	O
+this	542	546	O
+population	547	557	O
+.	557	558	O
+
+At	559	561	O
+each	562	566	O
+step	567	571	O
+,	571	572	O
+the	573	576	O
+algorithm	577	586	O
+selects	587	594	B-Process
+a	595	596	I-Process
+group	597	602	I-Process
+of	603	605	I-Process
+individual	606	616	I-Process
+values	617	623	I-Process
+from	624	628	O
+the	629	632	O
+population	633	643	B-Material
+(	644	645	O
+parent	645	651	B-Material
+)	651	652	O
+which	653	658	O
+are	659	662	O
+evolved	663	670	O
+through	671	678	O
+crossover	679	688	B-Process
+or	689	691	O
+mutation	692	700	B-Process
+to	701	703	O
+produce	704	711	O
+members	712	719	O
+of	720	722	O
+the	723	726	O
+next	727	731	O
+generation	732	742	O
+.	742	743	O
+
+This	744	748	O
+process	749	756	O
+is	757	759	O
+repeated	760	768	O
+for	769	772	O
+several	773	780	O
+generations	781	792	O
+until	793	798	O
+an	799	801	O
+optimum	802	809	O
+solution	810	818	O
+is	819	821	O
+reached	822	829	O
+.	829	830	O
+
+See	831	834	O
+[	835	836	O
+19	836	838	O
+]	838	839	O
+for	840	843	O
+a	844	845	O
+fuller	846	852	O
+description	853	864	O
+of	865	867	O
+the	868	871	O
+GA	872	874	B-Process
+.	874	875	O
 
 
 -DOCSTART- (S0963869514001066)
 
-In	NN	O	O
-the	NN	O	O
-Total	NN	O	B-Process
-Focusing	NN	O	I-Process
-Method	NN	O	I-Process
-(	NN	O	O
-TFM	NN	O	B-Process
-)	NN	O	O
-the	NN	O	O
-beam	NN	O	O
-is	NN	O	O
-synthetically	NN	O	O
-focused	NN	O	O
-at	NN	O	O
-every	NN	O	O
-point	NN	O	O
-in	NN	O	O
-the	NN	O	O
-target	NN	O	O
-region	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-as	NN	O	O
-follows	NN	O	O
-.	NN	O	O
-
-After	NN	O	O
-obtaining	NN	O	O
-the	NN	O	O
-FMC	NN	O	B-Material
-data	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-target	NN	O	O
-region	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-in	NN	O	O
-the	NN	O	O
-x	NN	O	B-Material
-–	NN	O	I-Material
-z	NN	O	I-Material
-plane	NN	O	I-Material
-in	NN	O	O
-2D	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-)	NN	O	O
-,	NN	O	O
-is	NN	O	O
-discretized	NN	O	B-Process
-into	NN	O	I-Process
-a	NN	O	I-Process
-grid	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-signals	NN	O	O
-from	NN	O	O
-all	NN	O	O
-elements	NN	O	O
-in	NN	O	O
-the	NN	O	O
-array	NN	O	O
-are	NN	O	O
-then	NN	O	O
-summed	NN	O	B-Process
-to	NN	O	O
-synthesize	NN	O	B-Process
-a	NN	O	I-Process
-focus	NN	O	I-Process
-at	NN	O	I-Process
-every	NN	O	I-Process
-point	NN	O	I-Process
-in	NN	O	I-Process
-this	NN	O	I-Process
-grid	NN	O	I-Process
-.	NN	O	O
-
-Linear	NN	O	B-Process
-interpolation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-time	NN	O	O
-domain	NN	O	O
-signals	NN	O	O
-is	NN	O	O
-necessary	NN	O	O
-since	NN	O	O
-they	NN	O	O
-are	NN	O	O
-discretely	NN	O	B-Process
-sampled	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-intensity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-TFM	NN	O	B-Process
-image	NN	O	I-Process
-ITFM	NN	O	I-Process
-at	NN	O	O
-any	NN	O	O
-point	NN	O	O
-(	NN	O	O
-x	NN	O	O
-,	NN	O	O
-z	NN	O	O
-)	NN	O	O
-is	NN	O	O
-given	NN	O	O
-by:(10)ITFM(x	NN	O	O
-,	NN	O	O
-z)=|∑HTR(1c((xT−x)2+z2+(xR−x)2+z2))|forallT	NN	O	O
-,	NN	O	O
-Rwhere	NN	O	O
-HTR(t	NN	O	O
-)	NN	O	O
-is	NN	O	O
-the	NN	O	O
-Hilbert	NN	O	B-Process
-transform	NN	O	I-Process
-of	NN	O	O
-a	NN	O	O
-signal	NN	O	O
-uTR(t	NN	O	O
-)	NN	O	O
-in	NN	O	O
-the	NN	O	O
-FMC	NN	O	B-Material
-data	NN	O	I-Material
-,	NN	O	O
-xT	NN	O	O
-is	NN	O	O
-the	NN	O	O
-x	NN	O	O
--	NN	O	O
-position	NN	O	O
-of	NN	O	O
-the	NN	O	O
-transmitting	NN	O	B-Material
-element	NN	O	I-Material
-(	NN	O	O
-T	NN	O	B-Material
-)	NN	O	O
-and	NN	O	O
-xR	NN	O	O
-is	NN	O	O
-the	NN	O	O
-x	NN	O	O
--	NN	O	O
-position	NN	O	O
-of	NN	O	O
-the	NN	O	O
-receiving	NN	O	B-Material
-element	NN	O	I-Material
-(	NN	O	O
-R	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-Note	NN	O	O
-that	NN	O	O
-the	NN	O	O
-z	NN	O	O
--	NN	O	O
-position	NN	O	O
-of	NN	O	O
-all	NN	O	O
-elements	NN	O	O
-is	NN	O	O
-zero	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3a	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-summation	NN	O	B-Process
-is	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-for	NN	O	O
-all	NN	O	O
-possible	NN	O	O
-transmitter	NN	O	B-Material
-–	NN	O	I-Material
-receiver	NN	O	I-Material
-pairs	NN	O	I-Material
-and	NN	O	O
-therefore	NN	O	O
-uses	NN	O	O
-all	NN	O	O
-the	NN	O	O
-information	NN	O	O
-captured	NN	O	O
-with	NN	O	O
-FMC	NN	O	B-Material
-.	NN	O	O
-
-This	NN	O	O
-algorithm	NN	O	O
-is	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-‘	NN	O	O
-conventional	NN	O	B-Process
-TFM’	NN	O	I-Process
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+Total	7	12	B-Process
+Focusing	13	21	I-Process
+Method	22	28	I-Process
+(	29	30	O
+TFM	30	33	B-Process
+)	33	34	O
+the	35	38	O
+beam	39	43	O
+is	44	46	O
+synthetically	47	60	O
+focused	61	68	O
+at	69	71	O
+every	72	77	O
+point	78	83	O
+in	84	86	O
+the	87	90	O
+target	91	97	O
+region	98	104	O
+[	105	106	O
+7	106	107	O
+]	107	108	O
+as	109	111	O
+follows	112	119	O
+.	119	120	O
+
+After	121	126	O
+obtaining	127	136	O
+the	137	140	O
+FMC	141	144	B-Material
+data	145	149	I-Material
+,	149	150	O
+the	151	154	O
+target	155	161	O
+region	162	168	O
+,	168	169	O
+which	170	175	O
+is	176	178	O
+in	179	181	O
+the	182	185	O
+x	186	187	B-Material
+–	187	188	I-Material
+z	188	189	I-Material
+plane	190	195	I-Material
+in	196	198	O
+2D	199	201	O
+(	202	203	O
+Fig	203	206	O
+.	206	207	O
+
+1	208	209	O
+)	209	210	O
+,	210	211	O
+is	212	214	O
+discretized	215	226	B-Process
+into	227	231	I-Process
+a	232	233	I-Process
+grid	234	238	I-Process
+.	238	239	O
+
+The	240	243	O
+signals	244	251	O
+from	252	256	O
+all	257	260	O
+elements	261	269	O
+in	270	272	O
+the	273	276	O
+array	277	282	O
+are	283	286	O
+then	287	291	O
+summed	292	298	B-Process
+to	299	301	O
+synthesize	302	312	B-Process
+a	313	314	I-Process
+focus	315	320	I-Process
+at	321	323	I-Process
+every	324	329	I-Process
+point	330	335	I-Process
+in	336	338	I-Process
+this	339	343	I-Process
+grid	344	348	I-Process
+.	348	349	O
+
+Linear	350	356	B-Process
+interpolation	357	370	I-Process
+of	371	373	O
+the	374	377	O
+time	378	382	O
+domain	383	389	O
+signals	390	397	O
+is	398	400	O
+necessary	401	410	O
+since	411	416	O
+they	417	421	O
+are	422	425	O
+discretely	426	436	B-Process
+sampled	437	444	I-Process
+.	444	445	O
+
+The	446	449	O
+intensity	450	459	O
+of	460	462	O
+the	463	466	O
+TFM	467	470	B-Process
+image	471	476	I-Process
+ITFM	477	481	I-Process
+at	482	484	O
+any	485	488	O
+point	489	494	O
+(	495	496	O
+x	496	497	O
+,	497	498	O
+z	498	499	O
+)	499	500	O
+is	501	503	O
+given	504	509	O
+by:(10)ITFM(x	510	523	O
+,	523	524	O
+z)=|∑HTR(1c((xT−x)2+z2+(xR−x)2+z2))|forallT	524	567	O
+,	567	568	O
+Rwhere	568	574	O
+HTR(t	575	580	O
+)	580	581	O
+is	582	584	O
+the	585	588	O
+Hilbert	589	596	B-Process
+transform	597	606	I-Process
+of	607	609	O
+a	610	611	O
+signal	612	618	O
+uTR(t	619	624	O
+)	624	625	O
+in	626	628	O
+the	629	632	O
+FMC	633	636	B-Material
+data	637	641	I-Material
+,	641	642	O
+xT	643	645	O
+is	646	648	O
+the	649	652	O
+x	653	654	O
+-	654	655	O
+position	655	663	O
+of	664	666	O
+the	667	670	O
+transmitting	671	683	B-Material
+element	684	691	I-Material
+(	692	693	O
+T	693	694	B-Material
+)	694	695	O
+and	696	699	O
+xR	700	702	O
+is	703	705	O
+the	706	709	O
+x	710	711	O
+-	711	712	O
+position	712	720	O
+of	721	723	O
+the	724	727	O
+receiving	728	737	B-Material
+element	738	745	I-Material
+(	746	747	O
+R	747	748	B-Material
+)	748	749	O
+.	749	750	O
+
+Note	751	755	O
+that	756	760	O
+the	761	764	O
+z	765	766	O
+-	766	767	O
+position	767	775	O
+of	776	778	O
+all	779	782	O
+elements	783	791	O
+is	792	794	O
+zero	795	799	O
+(	800	801	O
+Fig	801	804	O
+.	804	805	O
+
+3a	806	808	O
+)	808	809	O
+.	809	810	O
+
+The	811	814	O
+summation	815	824	B-Process
+is	825	827	O
+carried	828	835	O
+out	836	839	O
+for	840	843	O
+all	844	847	O
+possible	848	856	O
+transmitter	857	868	B-Material
+–	868	869	I-Material
+receiver	869	877	I-Material
+pairs	878	883	I-Material
+and	884	887	O
+therefore	888	897	O
+uses	898	902	O
+all	903	906	O
+the	907	910	O
+information	911	922	O
+captured	923	931	O
+with	932	936	O
+FMC	937	940	B-Material
+.	940	941	O
+
+This	942	946	O
+algorithm	947	956	O
+is	957	959	O
+referred	960	968	O
+to	969	971	O
+as	972	974	O
+‘	975	976	O
+conventional	976	988	B-Process
+TFM’	989	993	I-Process
+in	994	996	O
+this	997	1001	O
+paper	1002	1007	O
+.	1007	1008	O
 
 
 -DOCSTART- (S0963869514001078)
 
-It	NN	O	O
-is	NN	O	O
-known	NN	O	O
-that	NN	O	O
-as	NN	O	O
-the	NN	O	O
-temperature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-rises	NN	O	O
-,	NN	O	O
-the	NN	O	O
-Lorentz	NN	O	B-Process
-mechanism	NN	O	I-Process
-remains	NN	O	O
-dominant	NN	O	O
-until	NN	O	O
-Tc	NN	O	O
-of	NN	O	O
-steel	NN	O	B-Material
-is	NN	O	O
-reached	NN	O	O
-(	NN	O	O
-770	NN	O	O
-°	NN	O	O
-C	NN	O	O
-for	NN	O	O
-a	NN	O	O
-low	NN	O	B-Material
-carbon	NN	O	I-Material
-steel	NN	O	I-Material
-)	NN	O	O
-,	NN	O	O
-when	NN	O	O
-the	NN	O	O
-magnetostrictive	NN	O	B-Process
-mechanism	NN	O	I-Process
-becomes	NN	O	O
-more	NN	O	O
-efficient	NN	O	O
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Previously	NN	O	O
-this	NN	O	O
-has	NN	O	O
-been	NN	O	O
-thought	NN	O	O
-due	NN	O	O
-to	NN	O	O
-a	NN	O	O
-thin	NN	O	O
-ferromagnetic	NN	O	B-Material
-oxide	NN	O	I-Material
-layer	NN	O	O
-on	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-surface	NN	O	O
-,	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-being	NN	O	O
-cooler	NN	O	O
-than	NN	O	O
-the	NN	O	O
-bulk	NN	O	O
-of	NN	O	O
-the	NN	O	O
-material	NN	O	O
-[	NN	O	O
-16,17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-layer	NN	O	O
-concentrates	NN	O	O
-the	NN	O	O
-magnetic	NN	O	B-Material
-field	NN	O	I-Material
-,	NN	O	O
-increasing	NN	O	O
-generation	NN	O	B-Process
-efficiency	NN	O	I-Process
-.	NN	O	O
-
-Recent	NN	O	O
-studies	NN	O	O
-also	NN	O	O
-show	NN	O	O
-that	NN	O	O
-rearrangement	NN	O	O
-of	NN	O	O
-the	NN	O	O
-magnetic	NN	O	O
-moments	NN	O	O
-from	NN	O	O
-ordered	NN	O	O
-domains	NN	O	O
-to	NN	O	O
-a	NN	O	O
-disordered	NN	O	O
-state	NN	O	O
-at	NN	O	O
-a	NN	O	O
-magnetic	NN	O	B-Process
-phase	NN	O	I-Process
-transition	NN	O	I-Process
-lowers	NN	O	O
-the	NN	O	O
-magnetostrictive	NN	O	O
-constant	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-ferromagnetic	NN	O	B-Process
-to	NN	O	I-Process
-paramagnetic	NN	O	I-Process
-transition	NN	O	I-Process
-is	NN	O	O
-accompanied	NN	O	O
-by	NN	O	O
-large	NN	O	O
-changes	NN	O	O
-in	NN	O	O
-the	NN	O	O
-efficiency	NN	O	O
-of	NN	O	O
-electromagnetic	NN	O	B-Process
-ultrasound	NN	O	I-Process
-generation	NN	O	I-Process
-leading	NN	O	O
-to	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-EMATs	NN	O	B-Material
-as	NN	O	O
-a	NN	O	O
-method	NN	O	O
-of	NN	O	O
-studying	NN	O	B-Task
-phase	NN	O	I-Task
-transitions	NN	O	I-Task
-in	NN	O	O
-magnetic	NN	O	B-Material
-alloys	NN	O	I-Material
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
+It	0	2	O
+is	3	5	O
+known	6	11	O
+that	12	16	O
+as	17	19	O
+the	20	23	O
+temperature	24	35	O
+of	36	38	O
+the	39	42	O
+sample	43	49	O
+rises	50	55	O
+,	55	56	O
+the	57	60	O
+Lorentz	61	68	B-Process
+mechanism	69	78	I-Process
+remains	79	86	O
+dominant	87	95	O
+until	96	101	O
+Tc	102	104	O
+of	105	107	O
+steel	108	113	B-Material
+is	114	116	O
+reached	117	124	O
+(	125	126	O
+770	126	129	O
+°	129	130	O
+C	130	131	O
+for	132	135	O
+a	136	137	O
+low	138	141	B-Material
+carbon	142	148	I-Material
+steel	149	154	I-Material
+)	154	155	O
+,	155	156	O
+when	157	161	O
+the	162	165	O
+magnetostrictive	166	182	B-Process
+mechanism	183	192	I-Process
+becomes	193	200	O
+more	201	205	O
+efficient	206	215	O
+[	216	217	O
+15	217	219	O
+]	219	220	O
+.	220	221	O
+
+Previously	222	232	O
+this	233	237	O
+has	238	241	O
+been	242	246	O
+thought	247	254	O
+due	255	258	O
+to	259	261	O
+a	262	263	O
+thin	264	268	O
+ferromagnetic	269	282	B-Material
+oxide	283	288	I-Material
+layer	289	294	O
+on	295	297	O
+the	298	301	O
+sample	302	308	O
+surface	309	316	O
+,	316	317	O
+the	318	321	O
+surface	322	329	O
+being	330	335	O
+cooler	336	342	O
+than	343	347	O
+the	348	351	O
+bulk	352	356	O
+of	357	359	O
+the	360	363	O
+material	364	372	O
+[	373	374	O
+16,17	374	379	O
+]	379	380	O
+.	380	381	O
+
+This	382	386	O
+layer	387	392	O
+concentrates	393	405	O
+the	406	409	O
+magnetic	410	418	B-Material
+field	419	424	I-Material
+,	424	425	O
+increasing	426	436	O
+generation	437	447	B-Process
+efficiency	448	458	I-Process
+.	458	459	O
+
+Recent	460	466	O
+studies	467	474	O
+also	475	479	O
+show	480	484	O
+that	485	489	O
+rearrangement	490	503	O
+of	504	506	O
+the	507	510	O
+magnetic	511	519	O
+moments	520	527	O
+from	528	532	O
+ordered	533	540	O
+domains	541	548	O
+to	549	551	O
+a	552	553	O
+disordered	554	564	O
+state	565	570	O
+at	571	573	O
+a	574	575	O
+magnetic	576	584	B-Process
+phase	585	590	I-Process
+transition	591	601	I-Process
+lowers	602	608	O
+the	609	612	O
+magnetostrictive	613	629	O
+constant	630	638	O
+.	638	639	O
+
+This	640	644	O
+ferromagnetic	645	658	B-Process
+to	659	661	I-Process
+paramagnetic	662	674	I-Process
+transition	675	685	I-Process
+is	686	688	O
+accompanied	689	700	O
+by	701	703	O
+large	704	709	O
+changes	710	717	O
+in	718	720	O
+the	721	724	O
+efficiency	725	735	O
+of	736	738	O
+electromagnetic	739	754	B-Process
+ultrasound	755	765	I-Process
+generation	766	776	I-Process
+leading	777	784	O
+to	785	787	O
+the	788	791	O
+use	792	795	O
+of	796	798	O
+EMATs	799	804	B-Material
+as	805	807	O
+a	808	809	O
+method	810	816	O
+of	817	819	O
+studying	820	828	B-Task
+phase	829	834	I-Task
+transitions	835	846	I-Task
+in	847	849	O
+magnetic	850	858	B-Material
+alloys	859	865	I-Material
+[	866	867	O
+18	867	869	O
+]	869	870	O
+.	870	871	O
 
 
 -DOCSTART- (S0963869515000572)
 
-Shear	NN	O	B-Material
-horizontal	NN	O	I-Material
-(	NN	O	I-Material
-SH	NN	O	I-Material
-)	NN	O	I-Material
-ultrasound	NN	O	I-Material
-waves	NN	O	I-Material
-are	NN	O	O
-guided	NN	O	B-Material
-waves	NN	O	I-Material
-(	NN	O	O
-they	NN	O	O
-have	NN	O	O
-propagation	NN	O	O
-properties	NN	O	O
-affected	NN	O	O
-by	NN	O	O
-the	NN	O	O
-geometry	NN	O	O
-of	NN	O	O
-the	NN	O	O
-propagation	NN	O	B-Process
-medium	NN	O	O
-)	NN	O	O
-,	NN	O	O
-with	NN	O	O
-symmetric	NN	O	O
-and	NN	O	O
-anti	NN	O	O
--	NN	O	O
-symmetric	NN	O	O
-modes	NN	O	O
-;	NN	O	O
-phase	NN	O	O
-and	NN	O	O
-group	NN	O	O
-speeds	NN	O	O
-are	NN	O	O
-dependent	NN	O	O
-on	NN	O	O
-frequency	NN	O	O
-,	NN	O	O
-sample	NN	O	O
-thickness	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Process
-shear	NN	O	I-Process
-wave	NN	O	I-Process
-speed	NN	O	I-Process
-[	NN	O	O
-11,12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-the	NN	O	O
-different	NN	O	O
-modes	NN	O	O
-can	NN	O	O
-be	NN	O	O
-very	NN	O	O
-useful	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-in	NN	O	O
-thickness	NN	O	O
-measurement	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-,	NN	O	O
-but	NN	O	O
-in	NN	O	O
-this	NN	O	O
-case	NN	O	O
-they	NN	O	O
-are	NN	O	O
-a	NN	O	O
-complication	NN	O	O
-.	NN	O	O
-
-SH0	NN	O	B-Material
-has	NN	O	O
-a	NN	O	O
-thickness	NN	O	O
-independent	NN	O	O
-speed	NN	O	O
-,	NN	O	O
-equal	NN	O	O
-to	NN	O	O
-the	NN	O	O
-shear	NN	O	B-Process
-wave	NN	O	I-Process
-speed	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-is	NN	O	O
-non	NN	O	O
--	NN	O	O
-dispersive	NN	O	O
-(	NN	O	O
-the	NN	O	O
-phase	NN	O	B-Process
-and	NN	O	I-Process
-group	NN	O	I-Process
-speed	NN	O	I-Process
-are	NN	O	O
-equal	NN	O	O
-to	NN	O	O
-the	NN	O	O
-shear	NN	O	B-Process
-wave	NN	O	I-Process
-speed	NN	O	I-Process
-for	NN	O	O
-all	NN	O	O
-frequencies	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-oscillation	NN	O	B-Process
-direction	NN	O	O
-of	NN	O	O
-SH	NN	O	B-Process
-ultrasound	NN	O	I-Process
-is	NN	O	O
-in	NN	O	O
-the	NN	O	O
-plane	NN	O	O
-of	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-where	NN	O	O
-the	NN	O	O
-wave	NN	O	B-Material
-was	NN	O	O
-generated	NN	O	O
-,	NN	O	O
-and	NN	O	O
-perpendicular	NN	O	O
-to	NN	O	O
-the	NN	O	O
-propagation	NN	O	B-Process
-direction	NN	O	O
-,	NN	O	O
-as	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-,	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-a	NN	O	O
-reference	NN	O	O
-interface	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-typically	NN	O	O
-a	NN	O	O
-sample	NN	O	O
-surface	NN	O	O
-.	NN	O	O
-
-Under	NN	O	O
-certain	NN	O	O
-conditions	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-over	NN	O	O
-short	NN	O	O
-propagation	NN	O	B-Process
-distances	NN	O	O
-,	NN	O	O
-SH	NN	O	B-Material
-waves	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-treated	NN	O	O
-as	NN	O	O
-bulk	NN	O	B-Material
-waves	NN	O	I-Material
-.	NN	O	O
+Shear	0	5	B-Material
+horizontal	6	16	I-Material
+(	17	18	I-Material
+SH	18	20	I-Material
+)	20	21	I-Material
+ultrasound	22	32	I-Material
+waves	33	38	I-Material
+are	39	42	O
+guided	43	49	B-Material
+waves	50	55	I-Material
+(	56	57	O
+they	57	61	O
+have	62	66	O
+propagation	67	78	O
+properties	79	89	O
+affected	90	98	O
+by	99	101	O
+the	102	105	O
+geometry	106	114	O
+of	115	117	O
+the	118	121	O
+propagation	122	133	B-Process
+medium	134	140	O
+)	140	141	O
+,	141	142	O
+with	143	147	O
+symmetric	148	157	O
+and	158	161	O
+anti	162	166	O
+-	166	167	O
+symmetric	167	176	O
+modes	177	182	O
+;	182	183	O
+phase	184	189	O
+and	190	193	O
+group	194	199	O
+speeds	200	206	O
+are	207	210	O
+dependent	211	220	O
+on	221	223	O
+frequency	224	233	O
+,	233	234	O
+sample	235	241	O
+thickness	242	251	O
+,	251	252	O
+and	253	256	O
+the	257	260	O
+bulk	261	265	B-Process
+shear	266	271	I-Process
+wave	272	276	I-Process
+speed	277	282	I-Process
+[	283	284	O
+11,12	284	289	O
+]	289	290	O
+.	290	291	O
+
+The	292	295	O
+properties	296	306	O
+of	307	309	O
+the	310	313	O
+different	314	323	O
+modes	324	329	O
+can	330	333	O
+be	334	336	O
+very	337	341	O
+useful	342	348	O
+,	348	349	O
+such	350	354	O
+as	355	357	O
+in	358	360	O
+thickness	361	370	O
+measurement	371	382	O
+[	383	384	O
+13	384	386	O
+]	386	387	O
+,	387	388	O
+but	389	392	O
+in	393	395	O
+this	396	400	O
+case	401	405	O
+they	406	410	O
+are	411	414	O
+a	415	416	O
+complication	417	429	O
+.	429	430	O
+
+SH0	431	434	B-Material
+has	435	438	O
+a	439	440	O
+thickness	441	450	O
+independent	451	462	O
+speed	463	468	O
+,	468	469	O
+equal	470	475	O
+to	476	478	O
+the	479	482	O
+shear	483	488	B-Process
+wave	489	493	I-Process
+speed	494	499	I-Process
+,	499	500	O
+and	501	504	O
+is	505	507	O
+non	508	511	O
+-	511	512	O
+dispersive	512	522	O
+(	523	524	O
+the	524	527	O
+phase	528	533	B-Process
+and	534	537	I-Process
+group	538	543	I-Process
+speed	544	549	I-Process
+are	550	553	O
+equal	554	559	O
+to	560	562	O
+the	563	566	O
+shear	567	572	B-Process
+wave	573	577	I-Process
+speed	578	583	I-Process
+for	584	587	O
+all	588	591	O
+frequencies	592	603	O
+)	603	604	O
+.	604	605	O
+
+The	606	609	O
+oscillation	610	621	B-Process
+direction	622	631	O
+of	632	634	O
+SH	635	637	B-Process
+ultrasound	638	648	I-Process
+is	649	651	O
+in	652	654	O
+the	655	658	O
+plane	659	664	O
+of	665	667	O
+the	668	671	O
+surface	672	679	O
+where	680	685	O
+the	686	689	O
+wave	690	694	B-Material
+was	695	698	O
+generated	699	708	O
+,	708	709	O
+and	710	713	O
+perpendicular	714	727	O
+to	728	730	O
+the	731	734	O
+propagation	735	746	B-Process
+direction	747	756	O
+,	756	757	O
+as	758	760	O
+shown	761	766	O
+in	767	769	O
+Fig	770	773	O
+.	773	774	O
+
+1	775	776	O
+,	776	777	O
+with	778	782	O
+respect	783	790	O
+to	791	793	O
+a	794	795	O
+reference	796	805	O
+interface	806	815	O
+,	815	816	O
+which	817	822	O
+is	823	825	O
+typically	826	835	O
+a	836	837	O
+sample	838	844	O
+surface	845	852	O
+.	852	853	O
+
+Under	854	859	O
+certain	860	867	O
+conditions	868	878	O
+,	878	879	O
+such	880	884	O
+as	885	887	O
+over	888	892	O
+short	893	898	O
+propagation	899	910	B-Process
+distances	911	920	O
+,	920	921	O
+SH	922	924	B-Material
+waves	925	930	I-Material
+can	931	934	O
+be	935	937	O
+treated	938	945	O
+as	946	948	O
+bulk	949	953	B-Material
+waves	954	959	I-Material
+.	959	960	O
 
 
 -DOCSTART- (S0968432814000250)
 
-Volume	NN	O	B-Task
-EM	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-performed	NN	O	O
-using	NN	O	O
-transmission	NN	O	B-Process
-or	NN	O	O
-scanning	NN	O	B-Material
-electron	NN	O	I-Material
-microscopes	NN	O	I-Material
-.	NN	O	O
-
-Each	NN	O	O
-approach	NN	O	O
-has	NN	O	O
-its	NN	O	O
-own	NN	O	O
-strengths	NN	O	O
-and	NN	O	O
-weaknesses	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-choice	NN	O	O
-is	NN	O	O
-dependant	NN	O	O
-on	NN	O	O
-the	NN	O	O
-required	NN	O	O
-lateral	NN	O	O
-(	NN	O	O
-x	NN	O	O
-,	NN	O	O
-y	NN	O	O
-)	NN	O	O
-and	NN	O	O
-axial	NN	O	O
-(	NN	O	O
-z	NN	O	O
-)	NN	O	O
-resolution	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-size	NN	O	O
-of	NN	O	O
-the	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-interest	NN	O	O
-.	NN	O	O
-
-Historically	NN	O	O
-,	NN	O	O
-transmission	NN	O	B-Material
-electron	NN	O	I-Material
-microscopy	NN	O	I-Material
-(	NN	O	O
-TEM	NN	O	B-Material
-)	NN	O	O
-was	NN	O	O
-the	NN	O	O
-tool	NN	O	O
-of	NN	O	O
-choice	NN	O	O
-for	NN	O	O
-ultrastructural	NN	O	B-Task
-examination	NN	O	I-Task
-of	NN	O	I-Task
-biomedical	NN	O	I-Task
-specimens	NN	O	I-Task
-at	NN	O	O
-sub	NN	O	O
--	NN	O	O
-nanometer	NN	O	O
-resolution	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-for	NN	O	O
-many	NN	O	O
-cell	NN	O	B-Task
-biology	NN	O	I-Task
-studies	NN	O	I-Task
-structural	NN	O	O
-resolution	NN	O	O
-is	NN	O	O
-actually	NN	O	O
-limited	NN	O	O
-by	NN	O	O
-the	NN	O	O
-deposition	NN	O	B-Process
-of	NN	O	I-Process
-heavy	NN	O	I-Process
-metals	NN	O	I-Process
-onto	NN	O	O
-membranes	NN	O	O
-during	NN	O	O
-sample	NN	O	O
-preparation	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-voxel	NN	O	O
-dimensions	NN	O	O
-may	NN	O	O
-only	NN	O	O
-need	NN	O	O
-to	NN	O	O
-be	NN	O	O
-half	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-smallest	NN	O	O
-expected	NN	O	O
-feature	NN	O	O
-of	NN	O	O
-interest	NN	O	O
-(	NN	O	O
-Briggman	NN	O	O
-and	NN	O	O
-Bock	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Advances	NN	O	O
-in	NN	O	O
-scanning	NN	O	B-Process
-electron	NN	O	I-Process
-microscopy	NN	O	I-Process
-(	NN	O	I-Process
-SEM	NN	O	I-Process
-)	NN	O	I-Process
-technology	NN	O	I-Process
-are	NN	O	O
-now	NN	O	O
-driving	NN	O	O
-a	NN	O	O
-paradigm	NN	O	O
-shift	NN	O	O
-in	NN	O	O
-electron	NN	O	B-Task
-imaging	NN	O	I-Task
-.	NN	O	O
-
-SEMs	NN	O	B-Process
-with	NN	O	O
-field	NN	O	B-Material
-emission	NN	O	I-Material
-electron	NN	O	I-Material
-sources	NN	O	I-Material
-and	NN	O	O
-high	NN	O	B-Material
-efficiency	NN	O	I-Material
-electron	NN	O	I-Material
-detectors	NN	O	I-Material
-can	NN	O	O
-achieve	NN	O	O
-lateral	NN	O	O
-resolutions	NN	O	O
-in	NN	O	O
-the	NN	O	O
-order	NN	O	O
-of	NN	O	O
-3	NN	O	O
-nm	NN	O	O
-,	NN	O	O
-allowing	NN	O	O
-visualisation	NN	O	B-Task
-of	NN	O	I-Task
-structures	NN	O	I-Task
-such	NN	O	O
-as	NN	O	O
-synaptic	NN	O	B-Material
-vesicles	NN	O	I-Material
-and	NN	O	O
-membranes	NN	O	B-Material
-(	NN	O	O
-De	NN	O	O
-Winter	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-,	NN	O	O
-2009	NN	O	O
-;	NN	O	O
-Knott	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2008	NN	O	O
-;	NN	O	O
-Vihinen	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-;	NN	O	O
-Villinger	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-,	NN	O	O
-though	NN	O	O
-resolving	NN	O	B-Task
-individual	NN	O	I-Task
-leaflets	NN	O	I-Task
-of	NN	O	I-Task
-membrane	NN	O	I-Task
-bilayers	NN	O	I-Task
-remains	NN	O	O
-a	NN	O	O
-challenge	NN	O	O
-(	NN	O	O
-Vihinen	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-use	NN	O	O
-of	NN	O	O
-low	NN	O	B-Material
-beam	NN	O	I-Material
-energies	NN	O	I-Material
-also	NN	O	O
-limits	NN	O	O
-the	NN	O	O
-interaction	NN	O	B-Process
-volume	NN	O	I-Process
-,	NN	O	O
-enhancing	NN	O	B-Process
-axial	NN	O	I-Process
-resolution	NN	O	I-Process
-(	NN	O	O
-Hennig	NN	O	O
-and	NN	O	O
-Denk	NN	O	O
-,	NN	O	O
-2007	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-review	NN	O	O
-,	NN	O	O
-volume	NN	O	B-Task
-imaging	NN	O	I-Task
-in	NN	O	O
-both	NN	O	O
-transmission	NN	O	B-Process
-and	NN	O	I-Process
-scanning	NN	O	I-Process
-EMs	NN	O	I-Process
-will	NN	O	O
-be	NN	O	O
-explored	NN	O	O
-,	NN	O	O
-moving	NN	O	O
-from	NN	O	O
-traditional	NN	O	B-Process
-manual	NN	O	I-Process
-techniques	NN	O	I-Process
-,	NN	O	O
-through	NN	O	O
-to	NN	O	O
-the	NN	O	O
-latest	NN	O	B-Process
-systems	NN	O	I-Process
-where	NN	O	O
-aspects	NN	O	O
-of	NN	O	O
-both	NN	O	O
-sample	NN	O	B-Task
-preparation	NN	O	I-Task
-and	NN	O	O
-imaging	NN	O	B-Task
-have	NN	O	O
-been	NN	O	O
-automated	NN	O	O
-.	NN	O	O
+Volume	0	6	B-Task
+EM	7	9	I-Task
+can	10	13	O
+be	14	16	O
+performed	17	26	O
+using	27	32	O
+transmission	33	45	B-Process
+or	46	48	O
+scanning	49	57	B-Material
+electron	58	66	I-Material
+microscopes	67	78	I-Material
+.	78	79	O
+
+Each	80	84	O
+approach	85	93	O
+has	94	97	O
+its	98	101	O
+own	102	105	O
+strengths	106	115	O
+and	116	119	O
+weaknesses	120	130	O
+,	130	131	O
+and	132	135	O
+the	136	139	O
+choice	140	146	O
+is	147	149	O
+dependant	150	159	O
+on	160	162	O
+the	163	166	O
+required	167	175	O
+lateral	176	183	O
+(	184	185	O
+x	185	186	O
+,	186	187	O
+y	188	189	O
+)	189	190	O
+and	191	194	O
+axial	195	200	O
+(	201	202	O
+z	202	203	O
+)	203	204	O
+resolution	205	215	O
+,	215	216	O
+and	217	220	O
+the	221	224	O
+size	225	229	O
+of	230	232	O
+the	233	236	O
+structure	237	246	O
+of	247	249	O
+interest	250	258	O
+.	258	259	O
+
+Historically	260	272	O
+,	272	273	O
+transmission	274	286	B-Material
+electron	287	295	I-Material
+microscopy	296	306	I-Material
+(	307	308	O
+TEM	308	311	B-Material
+)	311	312	O
+was	313	316	O
+the	317	320	O
+tool	321	325	O
+of	326	328	O
+choice	329	335	O
+for	336	339	O
+ultrastructural	340	355	B-Task
+examination	356	367	I-Task
+of	368	370	I-Task
+biomedical	371	381	I-Task
+specimens	382	391	I-Task
+at	392	394	O
+sub	395	398	O
+-	398	399	O
+nanometer	399	408	O
+resolution	409	419	O
+.	419	420	O
+
+However	421	428	O
+,	428	429	O
+for	430	433	O
+many	434	438	O
+cell	439	443	B-Task
+biology	444	451	I-Task
+studies	452	459	I-Task
+structural	460	470	O
+resolution	471	481	O
+is	482	484	O
+actually	485	493	O
+limited	494	501	O
+by	502	504	O
+the	505	508	O
+deposition	509	519	B-Process
+of	520	522	I-Process
+heavy	523	528	I-Process
+metals	529	535	I-Process
+onto	536	540	O
+membranes	541	550	O
+during	551	557	O
+sample	558	564	O
+preparation	565	576	O
+.	576	577	O
+
+In	578	580	O
+addition	581	589	O
+,	589	590	O
+voxel	591	596	O
+dimensions	597	607	O
+may	608	611	O
+only	612	616	O
+need	617	621	O
+to	622	624	O
+be	625	627	O
+half	628	632	O
+that	633	637	O
+of	638	640	O
+the	641	644	O
+smallest	645	653	O
+expected	654	662	O
+feature	663	670	O
+of	671	673	O
+interest	674	682	O
+(	683	684	O
+Briggman	684	692	O
+and	693	696	O
+Bock	697	701	O
+,	701	702	O
+2012	703	707	O
+)	707	708	O
+.	708	709	O
+
+Advances	710	718	O
+in	719	721	O
+scanning	722	730	B-Process
+electron	731	739	I-Process
+microscopy	740	750	I-Process
+(	751	752	I-Process
+SEM	752	755	I-Process
+)	755	756	I-Process
+technology	757	767	I-Process
+are	768	771	O
+now	772	775	O
+driving	776	783	O
+a	784	785	O
+paradigm	786	794	O
+shift	795	800	O
+in	801	803	O
+electron	804	812	B-Task
+imaging	813	820	I-Task
+.	820	821	O
+
+SEMs	822	826	B-Process
+with	827	831	O
+field	832	837	B-Material
+emission	838	846	I-Material
+electron	847	855	I-Material
+sources	856	863	I-Material
+and	864	867	O
+high	868	872	B-Material
+efficiency	873	883	I-Material
+electron	884	892	I-Material
+detectors	893	902	I-Material
+can	903	906	O
+achieve	907	914	O
+lateral	915	922	O
+resolutions	923	934	O
+in	935	937	O
+the	938	941	O
+order	942	947	O
+of	948	950	O
+3	951	952	O
+nm	952	954	O
+,	954	955	O
+allowing	956	964	O
+visualisation	965	978	B-Task
+of	979	981	I-Task
+structures	982	992	I-Task
+such	993	997	O
+as	998	1000	O
+synaptic	1001	1009	B-Material
+vesicles	1010	1018	I-Material
+and	1019	1022	O
+membranes	1023	1032	B-Material
+(	1033	1034	O
+De	1034	1036	O
+Winter	1037	1043	O
+et	1044	1046	O
+al	1047	1049	O
+.	1049	1050	O
+
+,	1050	1051	O
+2009	1052	1056	O
+;	1056	1057	O
+Knott	1058	1063	O
+et	1064	1066	O
+al	1067	1069	O
+.	1069	1070	O
+,	1070	1071	O
+2008	1072	1076	O
+;	1076	1077	O
+Vihinen	1078	1085	O
+et	1086	1088	O
+al	1089	1091	O
+.	1091	1092	O
+,	1092	1093	O
+2013	1094	1098	O
+;	1098	1099	O
+Villinger	1100	1109	O
+et	1110	1112	O
+al	1113	1115	O
+.	1115	1116	O
+,	1116	1117	O
+2012	1118	1122	O
+)	1122	1123	O
+,	1123	1124	O
+though	1125	1131	O
+resolving	1132	1141	B-Task
+individual	1142	1152	I-Task
+leaflets	1153	1161	I-Task
+of	1162	1164	I-Task
+membrane	1165	1173	I-Task
+bilayers	1174	1182	I-Task
+remains	1183	1190	O
+a	1191	1192	O
+challenge	1193	1202	O
+(	1203	1204	O
+Vihinen	1204	1211	O
+et	1212	1214	O
+al	1215	1217	O
+.	1217	1218	O
+,	1218	1219	O
+2013	1220	1224	O
+)	1224	1225	O
+.	1225	1226	O
+
+The	1227	1230	O
+use	1231	1234	O
+of	1235	1237	O
+low	1238	1241	B-Material
+beam	1242	1246	I-Material
+energies	1247	1255	I-Material
+also	1256	1260	O
+limits	1261	1267	O
+the	1268	1271	O
+interaction	1272	1283	B-Process
+volume	1284	1290	I-Process
+,	1290	1291	O
+enhancing	1292	1301	B-Process
+axial	1302	1307	I-Process
+resolution	1308	1318	I-Process
+(	1319	1320	O
+Hennig	1320	1326	O
+and	1327	1330	O
+Denk	1331	1335	O
+,	1335	1336	O
+2007	1337	1341	O
+)	1341	1342	O
+.	1342	1343	O
+
+In	1344	1346	O
+this	1347	1351	O
+review	1352	1358	O
+,	1358	1359	O
+volume	1360	1366	B-Task
+imaging	1367	1374	I-Task
+in	1375	1377	O
+both	1378	1382	O
+transmission	1383	1395	B-Process
+and	1396	1399	I-Process
+scanning	1400	1408	I-Process
+EMs	1409	1412	I-Process
+will	1413	1417	O
+be	1418	1420	O
+explored	1421	1429	O
+,	1429	1430	O
+moving	1431	1437	O
+from	1438	1442	O
+traditional	1443	1454	B-Process
+manual	1455	1461	I-Process
+techniques	1462	1472	I-Process
+,	1472	1473	O
+through	1474	1481	O
+to	1482	1484	O
+the	1485	1488	O
+latest	1489	1495	B-Process
+systems	1496	1503	I-Process
+where	1504	1509	O
+aspects	1510	1517	O
+of	1518	1520	O
+both	1521	1525	O
+sample	1526	1532	B-Task
+preparation	1533	1544	I-Task
+and	1545	1548	O
+imaging	1549	1556	B-Task
+have	1557	1561	O
+been	1562	1566	O
+automated	1567	1576	O
+.	1576	1577	O
 
 
 -DOCSTART- (S1010603009002676)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-present	NN	O	O
-our	NN	O	O
-experimental	NN	O	O
-observations	NN	O	O
-on	NN	O	O
-how	NN	O	O
-solvents	NN	O	O
-can	NN	O	O
-vary	NN	O	O
-the	NN	O	O
-TPA	NN	O	O
-and	NN	O	O
-TPF	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-fluorescent	NN	O	O
-rhodamine	NN	O	O
-
-(	NN	O	O
-Rh	NN	O	O
-)	NN	O	O
-dyes	NN	O	O
-Rh6	NN	O	B-Material
-G	NN	O	I-Material
-,	NN	O	O
-RhB	NN	O	B-Material
-and	NN	O	O
-Rh101	NN	O	B-Material
-.	NN	O	O
-
-Rhodamines	NN	O	B-Material
-are	NN	O	O
-well	NN	O	O
--	NN	O	O
-known	NN	O	O
-xanthenes	NN	O	B-Material
-dyes	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-have	NN	O	O
-been	NN	O	O
-extensively	NN	O	O
-used	NN	O	O
-for	NN	O	O
-many	NN	O	O
-widespread	NN	O	O
-applications	NN	O	O
-in	NN	O	O
-single	NN	O	B-Process
--	NN	O	I-Process
-molecule	NN	O	I-Process
-detection	NN	O	I-Process
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-,	NN	O	O
-DNA	NN	O	B-Process
--	NN	O	I-Process
-sequence	NN	O	I-Process
-determination	NN	O	I-Process
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-,	NN	O	O
-fluorescence	NN	O	B-Process
-labelling	NN	O	I-Process
-[	NN	O	O
-26	NN	O	O
-]	NN	O	O
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-strong	NN	O	O
-fluorescence	NN	O	B-Process
-over	NN	O	O
-the	NN	O	O
-visible	NN	O	O
-spectral	NN	O	O
-region	NN	O	O
-.	NN	O	O
-
-Molecular	NN	O	O
-geometries	NN	O	O
-of	NN	O	O
-rhodamine	NN	O	B-Material
-dyes	NN	O	I-Material
-are	NN	O	O
-well	NN	O	O
--	NN	O	O
-known	NN	O	O
-[	NN	O	O
-27,28	NN	O	O
-]	NN	O	O
-and	NN	O	O
-indicate	NN	O	O
-that	NN	O	O
-all	NN	O	O
-the	NN	O	O
-structures	NN	O	O
-are	NN	O	O
-non	NN	O	O
--	NN	O	O
-centrosymmetric	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-general	NN	O	O
-,	NN	O	O
-for	NN	O	O
-centrosymmetric	NN	O	B-Material
-molecules	NN	O	I-Material
-,	NN	O	O
-TPA	NN	O	B-Process
-is	NN	O	O
-forbidden	NN	O	O
-when	NN	O	O
-tuned	NN	O	O
-to	NN	O	O
-the	NN	O	O
-transitions	NN	O	O
-at	NN	O	O
-one	NN	O	O
--	NN	O	O
-half	NN	O	O
-of	NN	O	O
-the	NN	O	O
-excitation	NN	O	O
-frequencies	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-for	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-centrosymmetric	NN	O	I-Material
-molecules	NN	O	I-Material
-due	NN	O	O
-to	NN	O	O
-symmetry	NN	O	B-Process
-relaxations	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-single	NN	O	B-Process
--	NN	O	I-Process
-photon	NN	O	I-Process
-absorption	NN	O	I-Process
-(	NN	O	I-Process
-SPA	NN	O	I-Process
-)	NN	O	I-Process
-peaks	NN	O	I-Process
-and	NN	O	O
-TPA	NN	O	B-Process
-peaks	NN	O	I-Process
-may	NN	O	O
-coincide	NN	O	O
-.	NN	O	O
-
-So	NN	O	O
-we	NN	O	O
-set	NN	O	O
-our	NN	O	O
-primary	NN	O	O
-aim	NN	O	O
-to	NN	O	O
-find	NN	O	O
-the	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-solvent	NN	O	O
-polarity	NN	O	O
-on	NN	O	O
-the	NN	O	O
-correlation	NN	O	O
-of	NN	O	O
-SPA	NN	O	B-Process
-and	NN	O	O
-TPA	NN	O	B-Process
-peaks	NN	O	O
-for	NN	O	O
-all	NN	O	O
-the	NN	O	O
-dyes	NN	O	B-Material
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+we	15	17	O
+present	18	25	O
+our	26	29	O
+experimental	30	42	O
+observations	43	55	O
+on	56	58	O
+how	59	62	O
+solvents	63	71	O
+can	72	75	O
+vary	76	80	O
+the	81	84	O
+TPA	85	88	O
+and	89	92	O
+TPF	93	96	O
+properties	97	107	O
+of	108	110	O
+fluorescent	111	122	O
+rhodamine	123	132	O
+
+(	133	134	O
+Rh	134	136	O
+)	136	137	O
+dyes	138	142	O
+Rh6	143	146	B-Material
+G	146	147	I-Material
+,	147	148	O
+RhB	149	152	B-Material
+and	153	156	O
+Rh101	157	162	B-Material
+.	162	163	O
+
+Rhodamines	164	174	B-Material
+are	175	178	O
+well	179	183	O
+-	183	184	O
+known	184	189	O
+xanthenes	190	199	B-Material
+dyes	200	204	I-Material
+,	204	205	O
+which	206	211	O
+have	212	216	O
+been	217	221	O
+extensively	222	233	O
+used	234	238	O
+for	239	242	O
+many	243	247	O
+widespread	248	258	O
+applications	259	271	O
+in	272	274	O
+single	275	281	B-Process
+-	281	282	I-Process
+molecule	282	290	I-Process
+detection	291	300	I-Process
+[	301	302	O
+24	302	304	O
+]	304	305	O
+,	305	306	O
+DNA	307	310	B-Process
+-	310	311	I-Process
+sequence	311	319	I-Process
+determination	320	333	I-Process
+[	334	335	O
+25	335	337	O
+]	337	338	O
+,	338	339	O
+fluorescence	340	352	B-Process
+labelling	353	362	I-Process
+[	363	364	O
+26	364	366	O
+]	366	367	O
+,	367	368	O
+etc	369	372	O
+.	372	373	O
+due	374	377	O
+to	378	380	O
+their	381	386	O
+strong	387	393	O
+fluorescence	394	406	B-Process
+over	407	411	O
+the	412	415	O
+visible	416	423	O
+spectral	424	432	O
+region	433	439	O
+.	439	440	O
+
+Molecular	441	450	O
+geometries	451	461	O
+of	462	464	O
+rhodamine	465	474	B-Material
+dyes	475	479	I-Material
+are	480	483	O
+well	484	488	O
+-	488	489	O
+known	489	494	O
+[	495	496	O
+27,28	496	501	O
+]	501	502	O
+and	503	506	O
+indicate	507	515	O
+that	516	520	O
+all	521	524	O
+the	525	528	O
+structures	529	539	O
+are	540	543	O
+non	544	547	O
+-	547	548	O
+centrosymmetric	548	563	O
+.	563	564	O
+
+In	565	567	O
+general	568	575	O
+,	575	576	O
+for	577	580	O
+centrosymmetric	581	596	B-Material
+molecules	597	606	I-Material
+,	606	607	O
+TPA	608	611	B-Process
+is	612	614	O
+forbidden	615	624	O
+when	625	629	O
+tuned	630	635	O
+to	636	638	O
+the	639	642	O
+transitions	643	654	O
+at	655	657	O
+one	658	661	O
+-	661	662	O
+half	662	666	O
+of	667	669	O
+the	670	673	O
+excitation	674	684	O
+frequencies	685	696	O
+.	696	697	O
+
+However	698	705	O
+,	705	706	O
+for	707	710	O
+non	711	714	B-Material
+-	714	715	I-Material
+centrosymmetric	715	730	I-Material
+molecules	731	740	I-Material
+due	741	744	O
+to	745	747	O
+symmetry	748	756	B-Process
+relaxations	757	768	I-Process
+,	768	769	O
+the	770	773	O
+single	774	780	B-Process
+-	780	781	I-Process
+photon	781	787	I-Process
+absorption	788	798	I-Process
+(	799	800	I-Process
+SPA	800	803	I-Process
+)	803	804	I-Process
+peaks	805	810	I-Process
+and	811	814	O
+TPA	815	818	B-Process
+peaks	819	824	I-Process
+may	825	828	O
+coincide	829	837	O
+.	837	838	O
+
+So	839	841	O
+we	842	844	O
+set	845	848	O
+our	849	852	O
+primary	853	860	O
+aim	861	864	O
+to	865	867	O
+find	868	872	O
+the	873	876	O
+effect	877	883	O
+of	884	886	O
+solvent	887	894	O
+polarity	895	903	O
+on	904	906	O
+the	907	910	O
+correlation	911	922	O
+of	923	925	O
+SPA	926	929	B-Process
+and	930	933	O
+TPA	934	937	B-Process
+peaks	938	943	O
+for	944	947	O
+all	948	951	O
+the	952	955	O
+dyes	956	960	B-Material
+.	960	961	O
 
 
 -DOCSTART- (S1010603013001809)
 
-The	NN	O	O
-other	NN	O	O
-methods	NN	O	O
-for	NN	O	O
-enhancement	NN	O	B-Task
-of	NN	O	I-Task
-photocatalytic	NN	O	I-Task
-activity	NN	O	I-Task
-are	NN	O	O
-grafting	NN	O	O
-co	NN	O	B-Material
--	NN	O	I-Material
-catalysts	NN	O	I-Material
-.	NN	O	O
-
-There	NN	O	O
-are	NN	O	O
-two	NN	O	O
-kinds	NN	O	O
-of	NN	O	O
-co	NN	O	B-Material
--	NN	O	I-Material
-catalysts	NN	O	I-Material
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-its	NN	O	O
-function	NN	O	O
-:	NN	O	O
-one	NN	O	O
-is	NN	O	O
-for	NN	O	O
-separation	NN	O	B-Process
-of	NN	O	I-Process
-electrons	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-other	NN	O	O
-is	NN	O	O
-for	NN	O	O
-separation	NN	O	B-Process
-of	NN	O	I-Process
-holes	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-former	NN	O	O
-representative	NN	O	O
-co	NN	O	B-Material
--	NN	O	I-Material
-catalysts	NN	O	I-Material
-are	NN	O	O
-Pt	NN	O	B-Material
-,	NN	O	O
-Fe3	NN	O	B-Material
-+	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-Cu2	NN	O	B-Material
-+	NN	O	I-Material
-[	NN	O	O
-9–12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-was	NN	O	O
-reported	NN	O	O
-that	NN	O	O
-Fe3	NN	O	B-Material
-+	NN	O	I-Material
-and	NN	O	O
-Cu2	NN	O	O
-
-+	NN	O	O
-were	NN	O	O
-grafted	NN	O	O
-as	NN	O	O
-amorphous	NN	O	B-Material
-oxide	NN	O	I-Material
-cluster	NN	O	I-Material
-[	NN	O	O
-9,10	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-reduced	NN	O	O
-into	NN	O	O
-Fe2	NN	O	B-Material
-+	NN	O	I-Material
-and	NN	O	O
-Cu+	NN	O	B-Material
-by	NN	O	O
-receiving	NN	O	O
-one	NN	O	O
-electron	NN	O	B-Material
-,	NN	O	O
-respectively	NN	O	O
-[	NN	O	O
-11,12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-reduced	NN	O	B-Material
-metal	NN	O	I-Material
-oxide	NN	O	I-Material
-cluster	NN	O	I-Material
-with	NN	O	O
-reduced	NN	O	B-Material
-ions	NN	O	I-Material
-could	NN	O	O
-return	NN	O	O
-into	NN	O	O
-the	NN	O	O
-original	NN	O	O
-state	NN	O	O
-by	NN	O	O
-giving	NN	O	O
-more	NN	O	O
-than	NN	O	O
-one	NN	O	O
-electron	NN	O	B-Material
-to	NN	O	O
-molecular	NN	O	O
-oxygen	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-latter	NN	O	O
-ones	NN	O	O
-are	NN	O	O
-CoOx	NN	O	B-Material
-,	NN	O	O
-CoPi	NN	O	B-Material
-(	NN	O	O
-CoPOx	NN	O	B-Material
-)	NN	O	O
-,	NN	O	O
-IrOx	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-RuOx	NN	O	B-Material
-which	NN	O	O
-are	NN	O	O
-used	NN	O	O
-for	NN	O	O
-water	NN	O	B-Process
-oxidation	NN	O	I-Process
-,	NN	O	O
-among	NN	O	O
-which	NN	O	O
-CoPi	NN	O	B-Material
-is	NN	O	O
-reported	NN	O	O
-to	NN	O	O
-be	NN	O	O
-the	NN	O	O
-most	NN	O	O
-effective	NN	O	O
-co	NN	O	B-Material
--	NN	O	I-Material
-catalyst	NN	O	I-Material
-for	NN	O	O
-water	NN	O	B-Process
-oxidation	NN	O	I-Process
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-there	NN	O	O
-were	NN	O	O
-few	NN	O	O
-reports	NN	O	O
-concerning	NN	O	O
-co	NN	O	B-Process
--	NN	O	I-Process
-grafting	NN	O	I-Process
-effects	NN	O	O
-on	NN	O	O
-photocatalytic	NN	O	B-Process
-activity	NN	O	I-Process
-especially	NN	O	O
-in	NN	O	O
-gaseous	NN	O	B-Process
-phase	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-expected	NN	O	O
-that	NN	O	O
-by	NN	O	O
-co	NN	O	B-Process
--	NN	O	I-Process
-grafting	NN	O	I-Process
-of	NN	O	O
-both	NN	O	O
-co	NN	O	B-Material
--	NN	O	I-Material
-catalysts	NN	O	I-Material
-for	NN	O	O
-separations	NN	O	O
-of	NN	O	O
-electrons	NN	O	B-Material
-and	NN	O	O
-holes	NN	O	B-Material
-,	NN	O	O
-photocatalytic	NN	O	B-Process
-activity	NN	O	I-Process
-in	NN	O	O
-gaseous	NN	O	B-Process
-phase	NN	O	I-Process
-would	NN	O	O
-be	NN	O	O
-further	NN	O	O
-enhanced	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-complex	NN	O	O
-of	NN	O	O
-BiVO4	NN	O	B-Material
-with	NN	O	O
-the	NN	O	O
-other	NN	O	O
-materials	NN	O	O
-of	NN	O	O
-p	NN	O	B-Material
--	NN	O	I-Material
-type	NN	O	I-Material
-semiconductor	NN	O	I-Material
-is	NN	O	O
-also	NN	O	O
-effective	NN	O	O
-for	NN	O	O
-enhancing	NN	O	O
-photocatalytic	NN	O	B-Process
-activity	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+other	4	9	O
+methods	10	17	O
+for	18	21	O
+enhancement	22	33	B-Task
+of	34	36	I-Task
+photocatalytic	37	51	I-Task
+activity	52	60	I-Task
+are	61	64	O
+grafting	65	73	O
+co	74	76	B-Material
+-	76	77	I-Material
+catalysts	77	86	I-Material
+.	86	87	O
+
+There	88	93	O
+are	94	97	O
+two	98	101	O
+kinds	102	107	O
+of	108	110	O
+co	111	113	B-Material
+-	113	114	I-Material
+catalysts	114	123	I-Material
+in	124	126	O
+terms	127	132	O
+of	133	135	O
+its	136	139	O
+function	140	148	O
+:	148	149	O
+one	150	153	O
+is	154	156	O
+for	157	160	O
+separation	161	171	B-Process
+of	172	174	I-Process
+electrons	175	184	I-Process
+and	185	188	O
+the	189	192	O
+other	193	198	O
+is	199	201	O
+for	202	205	O
+separation	206	216	B-Process
+of	217	219	I-Process
+holes	220	225	I-Process
+.	225	226	O
+
+The	227	230	O
+former	231	237	O
+representative	238	252	O
+co	253	255	B-Material
+-	255	256	I-Material
+catalysts	256	265	I-Material
+are	266	269	O
+Pt	270	272	B-Material
+,	272	273	O
+Fe3	274	277	B-Material
++	277	278	I-Material
+,	278	279	O
+and	280	283	O
+Cu2	284	287	B-Material
++	287	288	I-Material
+[	289	290	O
+9–12	290	294	O
+]	294	295	O
+.	295	296	O
+
+It	297	299	O
+was	300	303	O
+reported	304	312	O
+that	313	317	O
+Fe3	318	321	B-Material
++	321	322	I-Material
+and	323	326	O
+Cu2	327	330	O
+
++	330	331	O
+were	332	336	O
+grafted	337	344	O
+as	345	347	O
+amorphous	348	357	B-Material
+oxide	358	363	I-Material
+cluster	364	371	I-Material
+[	372	373	O
+9,10	373	377	O
+]	377	378	O
+,	378	379	O
+and	380	383	O
+reduced	384	391	O
+into	392	396	O
+Fe2	397	400	B-Material
++	400	401	I-Material
+and	402	405	O
+Cu+	406	409	B-Material
+by	410	412	O
+receiving	413	422	O
+one	423	426	O
+electron	427	435	B-Material
+,	435	436	O
+respectively	437	449	O
+[	450	451	O
+11,12	451	456	O
+]	456	457	O
+.	457	458	O
+
+The	459	462	O
+reduced	463	470	B-Material
+metal	471	476	I-Material
+oxide	477	482	I-Material
+cluster	483	490	I-Material
+with	491	495	O
+reduced	496	503	B-Material
+ions	504	508	I-Material
+could	509	514	O
+return	515	521	O
+into	522	526	O
+the	527	530	O
+original	531	539	O
+state	540	545	O
+by	546	548	O
+giving	549	555	O
+more	556	560	O
+than	561	565	O
+one	566	569	O
+electron	570	578	B-Material
+to	579	581	O
+molecular	582	591	O
+oxygen	592	598	B-Material
+.	598	599	O
+
+The	600	603	O
+latter	604	610	O
+ones	611	615	O
+are	616	619	O
+CoOx	620	624	B-Material
+,	624	625	O
+CoPi	626	630	B-Material
+(	631	632	O
+CoPOx	632	637	B-Material
+)	637	638	O
+,	638	639	O
+IrOx	640	644	B-Material
+,	644	645	O
+and	646	649	O
+RuOx	650	654	B-Material
+which	655	660	O
+are	661	664	O
+used	665	669	O
+for	670	673	O
+water	674	679	B-Process
+oxidation	680	689	I-Process
+,	689	690	O
+among	691	696	O
+which	697	702	O
+CoPi	703	707	B-Material
+is	708	710	O
+reported	711	719	O
+to	720	722	O
+be	723	725	O
+the	726	729	O
+most	730	734	O
+effective	735	744	O
+co	745	747	B-Material
+-	747	748	I-Material
+catalyst	748	756	I-Material
+for	757	760	O
+water	761	766	B-Process
+oxidation	767	776	I-Process
+[	777	778	O
+13	778	780	O
+]	780	781	O
+.	781	782	O
+
+However	783	790	O
+,	790	791	O
+there	792	797	O
+were	798	802	O
+few	803	806	O
+reports	807	814	O
+concerning	815	825	O
+co	826	828	B-Process
+-	828	829	I-Process
+grafting	829	837	I-Process
+effects	838	845	O
+on	846	848	O
+photocatalytic	849	863	B-Process
+activity	864	872	I-Process
+especially	873	883	O
+in	884	886	O
+gaseous	887	894	B-Process
+phase	895	900	I-Process
+.	900	901	O
+
+We	902	904	O
+expected	905	913	O
+that	914	918	O
+by	919	921	O
+co	922	924	B-Process
+-	924	925	I-Process
+grafting	925	933	I-Process
+of	934	936	O
+both	937	941	O
+co	942	944	B-Material
+-	944	945	I-Material
+catalysts	945	954	I-Material
+for	955	958	O
+separations	959	970	O
+of	971	973	O
+electrons	974	983	B-Material
+and	984	987	O
+holes	988	993	B-Material
+,	993	994	O
+photocatalytic	995	1009	B-Process
+activity	1010	1018	I-Process
+in	1019	1021	O
+gaseous	1022	1029	B-Process
+phase	1030	1035	I-Process
+would	1036	1041	O
+be	1042	1044	O
+further	1045	1052	O
+enhanced	1053	1061	O
+.	1061	1062	O
+
+Moreover	1063	1071	O
+,	1071	1072	O
+complex	1073	1080	O
+of	1081	1083	O
+BiVO4	1084	1089	B-Material
+with	1090	1094	O
+the	1095	1098	O
+other	1099	1104	O
+materials	1105	1114	O
+of	1115	1117	O
+p	1118	1119	B-Material
+-	1119	1120	I-Material
+type	1120	1124	I-Material
+semiconductor	1125	1138	I-Material
+is	1139	1141	O
+also	1142	1146	O
+effective	1147	1156	O
+for	1157	1160	O
+enhancing	1161	1170	O
+photocatalytic	1171	1185	B-Process
+activity	1186	1194	I-Process
+.	1194	1195	O
 
 
 -DOCSTART- (S107158191630074X)
 
-An	NN	O	O
-obvious	NN	O	O
-metric	NN	O	O
-to	NN	O	O
-measure	NN	O	O
-the	NN	O	O
-monitoring	NN	O	O
-performance	NN	O	O
-between	NN	O	O
-the	NN	O	O
-different	NN	O	O
-conditions	NN	O	O
-would	NN	O	O
-be	NN	O	O
-to	NN	O	O
-compare	NN	O	B-Task
-how	NN	O	I-Task
-many	NN	O	I-Task
-clicks	NN	O	I-Task
-the	NN	O	I-Task
-users	NN	O	I-Task
-made	NN	O	I-Task
-in	NN	O	I-Task
-average	NN	O	I-Task
-for	NN	O	I-Task
-each	NN	O	I-Task
-condition	NN	O	I-Task
-.	NN	O	O
-
-Furthermore	NN	O	O
-of	NN	O	O
-interest	NN	O	O
-are	NN	O	O
-the	NN	O	O
-buffer	NN	O	B-Material
-values	NN	O	O
-of	NN	O	O
-the	NN	O	O
-respective	NN	O	O
-buffers	NN	O	B-Material
-at	NN	O	O
-the	NN	O	O
-time	NN	O	O
-of	NN	O	O
-the	NN	O	O
-user	NN	O	O
-'s	NN	O	O
-interaction	NN	O	O
-with	NN	O	O
-the	NN	O	O
-simulation	NN	O	B-Process
-(	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-the	NN	O	O
-input	NN	O	B-Material
-buffer	NN	O	I-Material
-of	NN	O	O
-a	NN	O	O
-certain	NN	O	O
-machine	NN	O	O
-at	NN	O	O
-the	NN	O	O
-time	NN	O	O
-of	NN	O	O
-refilling	NN	O	O
-it	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-relatively	NN	O	O
-high	NN	O	O
-average	NN	O	O
-buffer	NN	O	O
-value	NN	O	O
-can	NN	O	O
-e.g.	NN	O	O
-signify	NN	O	O
-that	NN	O	O
-the	NN	O	O
-users	NN	O	O
-do	NN	O	O
-not	NN	O	O
-trust	NN	O	O
-that	NN	O	O
-the	NN	O	O
-respective	NN	O	O
-mode	NN	O	O
-of	NN	O	O
-process	NN	O	O
-monitoring	NN	O	O
-conveys	NN	O	O
-the	NN	O	O
-need	NN	O	O
-for	NN	O	O
-interaction	NN	O	O
-in	NN	O	O
-time	NN	O	O
-,	NN	O	O
-leading	NN	O	O
-the	NN	O	O
-users	NN	O	O
-to	NN	O	O
-switching	NN	O	O
-their	NN	O	O
-attention	NN	O	O
-to	NN	O	O
-the	NN	O	O
-process	NN	O	O
-simulation	NN	O	O
-in	NN	O	O
-regular	NN	O	O
-intervals	NN	O	O
-,	NN	O	O
-and	NN	O	O
-performing	NN	O	O
-interactions	NN	O	O
-just	NN	O	O
-in	NN	O	O
-case	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-low	NN	O	O
-average	NN	O	O
-buffer	NN	O	B-Material
-can	NN	O	O
-,	NN	O	O
-on	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-signify	NN	O	O
-that	NN	O	O
-the	NN	O	O
-users	NN	O	O
-rely	NN	O	O
-on	NN	O	O
-the	NN	O	O
-respective	NN	O	O
-conditions’	NN	O	O
-ability	NN	O	O
-to	NN	O	O
-signal	NN	O	O
-interaction	NN	O	O
-needs	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-if	NN	O	O
-e.g.	NN	O	O
-an	NN	O	O
-input	NN	O	O
-buffer	NN	O	B-Material
-had	NN	O	O
-already	NN	O	O
-been	NN	O	O
-completely	NN	O	O
-depleted	NN	O	O
-at	NN	O	O
-the	NN	O	O
-time	NN	O	O
-of	NN	O	O
-intervention	NN	O	O
-,	NN	O	O
-this	NN	O	O
-may	NN	O	O
-signify	NN	O	O
-that	NN	O	O
-the	NN	O	O
-respective	NN	O	O
-condition	NN	O	O
-has	NN	O	O
-failed	NN	O	O
-to	NN	O	O
-inform	NN	O	O
-the	NN	O	O
-users	NN	O	O
-in	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-many	NN	O	O
-cases	NN	O	O
-,	NN	O	O
-participants	NN	O	O
-used	NN	O	O
-double	NN	O	O
-clicks	NN	O	O
-for	NN	O	O
-their	NN	O	O
-interactions	NN	O	O
-,	NN	O	O
-while	NN	O	O
-a	NN	O	O
-single	NN	O	O
-click	NN	O	O
-would	NN	O	O
-have	NN	O	O
-been	NN	O	O
-sufficient	NN	O	O
-,	NN	O	O
-a	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-was	NN	O	O
-perhaps	NN	O	O
-not	NN	O	O
-communicated	NN	O	O
-clearly	NN	O	O
-enough	NN	O	O
-to	NN	O	O
-the	NN	O	O
-participants	NN	O	O
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-if	NN	O	O
-several	NN	O	O
-clicks	NN	O	O
-were	NN	O	O
-performed	NN	O	O
-directly	NN	O	O
-one	NN	O	O
-after	NN	O	O
-another	NN	O	O
-,	NN	O	O
-only	NN	O	O
-the	NN	O	O
-first	NN	O	O
-click	NN	O	O
-was	NN	O	O
-taken	NN	O	O
-into	NN	O	O
-account	NN	O	O
-.	NN	O	O
+An	0	2	O
+obvious	3	10	O
+metric	11	17	O
+to	18	20	O
+measure	21	28	O
+the	29	32	O
+monitoring	33	43	O
+performance	44	55	O
+between	56	63	O
+the	64	67	O
+different	68	77	O
+conditions	78	88	O
+would	89	94	O
+be	95	97	O
+to	98	100	O
+compare	101	108	B-Task
+how	109	112	I-Task
+many	113	117	I-Task
+clicks	118	124	I-Task
+the	125	128	I-Task
+users	129	134	I-Task
+made	135	139	I-Task
+in	140	142	I-Task
+average	143	150	I-Task
+for	151	154	I-Task
+each	155	159	I-Task
+condition	160	169	I-Task
+.	169	170	O
+
+Furthermore	171	182	O
+of	183	185	O
+interest	186	194	O
+are	195	198	O
+the	199	202	O
+buffer	203	209	B-Material
+values	210	216	O
+of	217	219	O
+the	220	223	O
+respective	224	234	O
+buffers	235	242	B-Material
+at	243	245	O
+the	246	249	O
+time	250	254	O
+of	255	257	O
+the	258	261	O
+user	262	266	O
+'s	266	268	O
+interaction	269	280	O
+with	281	285	O
+the	286	289	O
+simulation	290	300	B-Process
+(	301	302	O
+e.g.	302	306	O
+,	306	307	O
+the	308	311	O
+input	312	317	B-Material
+buffer	318	324	I-Material
+of	325	327	O
+a	328	329	O
+certain	330	337	O
+machine	338	345	O
+at	346	348	O
+the	349	352	O
+time	353	357	O
+of	358	360	O
+refilling	361	370	O
+it	371	373	O
+)	373	374	O
+.	374	375	O
+
+A	376	377	O
+relatively	378	388	O
+high	389	393	O
+average	394	401	O
+buffer	402	408	O
+value	409	414	O
+can	415	418	O
+e.g.	419	423	O
+signify	424	431	O
+that	432	436	O
+the	437	440	O
+users	441	446	O
+do	447	449	O
+not	450	453	O
+trust	454	459	O
+that	460	464	O
+the	465	468	O
+respective	469	479	O
+mode	480	484	O
+of	485	487	O
+process	488	495	O
+monitoring	496	506	O
+conveys	507	514	O
+the	515	518	O
+need	519	523	O
+for	524	527	O
+interaction	528	539	O
+in	540	542	O
+time	543	547	O
+,	547	548	O
+leading	549	556	O
+the	557	560	O
+users	561	566	O
+to	567	569	O
+switching	570	579	O
+their	580	585	O
+attention	586	595	O
+to	596	598	O
+the	599	602	O
+process	603	610	O
+simulation	611	621	O
+in	622	624	O
+regular	625	632	O
+intervals	633	642	O
+,	642	643	O
+and	644	647	O
+performing	648	658	O
+interactions	659	671	O
+just	672	676	O
+in	677	679	O
+case	680	684	O
+.	684	685	O
+
+A	686	687	O
+low	688	691	O
+average	692	699	O
+buffer	700	706	B-Material
+can	707	710	O
+,	710	711	O
+on	712	714	O
+the	715	718	O
+other	719	724	O
+hand	725	729	O
+,	729	730	O
+signify	731	738	O
+that	739	743	O
+the	744	747	O
+users	748	753	O
+rely	754	758	O
+on	759	761	O
+the	762	765	O
+respective	766	776	O
+conditions’	777	788	O
+ability	789	796	O
+to	797	799	O
+signal	800	806	O
+interaction	807	818	O
+needs	819	824	O
+.	824	825	O
+
+On	826	828	O
+the	829	832	O
+other	833	838	O
+hand	839	843	O
+,	843	844	O
+if	845	847	O
+e.g.	848	852	O
+an	853	855	O
+input	856	861	O
+buffer	862	868	B-Material
+had	869	872	O
+already	873	880	O
+been	881	885	O
+completely	886	896	O
+depleted	897	905	O
+at	906	908	O
+the	909	912	O
+time	913	917	O
+of	918	920	O
+intervention	921	933	O
+,	933	934	O
+this	935	939	O
+may	940	943	O
+signify	944	951	O
+that	952	956	O
+the	957	960	O
+respective	961	971	O
+condition	972	981	O
+has	982	985	O
+failed	986	992	O
+to	993	995	O
+inform	996	1002	O
+the	1003	1006	O
+users	1007	1012	O
+in	1013	1015	O
+time	1016	1020	O
+.	1020	1021	O
+
+In	1022	1024	O
+many	1025	1029	O
+cases	1030	1035	O
+,	1035	1036	O
+participants	1037	1049	O
+used	1050	1054	O
+double	1055	1061	O
+clicks	1062	1068	O
+for	1069	1072	O
+their	1073	1078	O
+interactions	1079	1091	O
+,	1091	1092	O
+while	1093	1098	O
+a	1099	1100	O
+single	1101	1107	O
+click	1108	1113	O
+would	1114	1119	O
+have	1120	1124	O
+been	1125	1129	O
+sufficient	1130	1140	O
+,	1140	1141	O
+a	1142	1143	O
+fact	1144	1148	O
+that	1149	1153	O
+was	1154	1157	O
+perhaps	1158	1165	O
+not	1166	1169	O
+communicated	1170	1182	O
+clearly	1183	1190	O
+enough	1191	1197	O
+to	1198	1200	O
+the	1201	1204	O
+participants	1205	1217	O
+.	1217	1218	O
+
+Therefore	1219	1228	O
+,	1228	1229	O
+if	1230	1232	O
+several	1233	1240	O
+clicks	1241	1247	O
+were	1248	1252	O
+performed	1253	1262	O
+directly	1263	1271	O
+one	1272	1275	O
+after	1276	1281	O
+another	1282	1289	O
+,	1289	1290	O
+only	1291	1295	O
+the	1296	1299	O
+first	1300	1305	O
+click	1306	1311	O
+was	1312	1315	O
+taken	1316	1321	O
+into	1322	1326	O
+account	1327	1334	O
+.	1334	1335	O
 
 
 -DOCSTART- (S1359646214000165)
 
-The	NN	O	O
-first	NN	O	B-Task
--	NN	O	I-Task
-principles	NN	O	I-Task
-calculations	NN	O	I-Task
-are	NN	O	O
-performed	NN	O	O
-using	NN	O	O
-the	NN	O	O
-Cambridge	NN	O	B-Material
-Serial	NN	O	I-Material
-Total	NN	O	I-Material
-Energy	NN	O	I-Material
-Package	NN	O	I-Material
-(	NN	O	O
-CASTEP	NN	O	B-Material
-)	NN	O	O
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-which	NN	O	O
-implements	NN	O	O
-the	NN	O	O
-plane	NN	O	B-Process
--	NN	O	I-Process
-wave	NN	O	I-Process
-pseudopotential	NN	O	I-Process
-DFT	NN	O	I-Process
-method	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-exchange	NN	O	B-Process
-correlation	NN	O	I-Process
-functional	NN	O	I-Process
-is	NN	O	O
-approximated	NN	O	O
-using	NN	O	O
-the	NN	O	O
-generalized	NN	O	B-Process
-gradient	NN	O	I-Process
-approximation	NN	O	I-Process
-(	NN	O	O
-PBE	NN	O	B-Process
--	NN	O	I-Process
-GGA	NN	O	I-Process
-)	NN	O	O
-
-[	NN	O	O
-22	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-electron	NN	O	B-Process
-–	NN	O	I-Process
-ion	NN	O	I-Process
-interactions	NN	O	I-Process
-are	NN	O	O
-described	NN	O	O
-by	NN	O	O
-Vanderbilt	NN	O	B-Process
--	NN	O	I-Process
-type	NN	O	I-Process
-ultrasoft	NN	O	I-Process
-pseudopotentials	NN	O	I-Process
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-plane	NN	O	B-Material
-wave	NN	O	I-Material
-basis	NN	O	O
-set	NN	O	O
-is	NN	O	O
-truncated	NN	O	O
-at	NN	O	O
-a	NN	O	O
-cutoff	NN	O	O
-of	NN	O	O
-400eV	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-Brillouin	NN	O	B-Process
--	NN	O	I-Process
-zone	NN	O	I-Process
-sampling	NN	O	I-Process
-was	NN	O	O
-performed	NN	O	O
-using	NN	O	O
-the	NN	O	O
-Monkhorst	NN	O	B-Process
--	NN	O	I-Process
-Pack	NN	O	I-Process
-scheme	NN	O	I-Process
-with	NN	O	O
-a	NN	O	O
-k	NN	O	B-Process
--	NN	O	I-Process
-point	NN	O	I-Process
-spacing	NN	O	I-Process
-in	NN	O	O
-reciprocal	NN	O	O
-space	NN	O	O
-of	NN	O	O
-0.04Å−1	NN	O	O
-.	NN	O	O
-
-Tests	NN	O	O
-show	NN	O	O
-that	NN	O	O
-these	NN	O	O
-computational	NN	O	O
-parameters	NN	O	O
-give	NN	O	O
-results	NN	O	O
-that	NN	O	O
-are	NN	O	O
-sufficiently	NN	O	O
-accurate	NN	O	O
-for	NN	O	O
-present	NN	O	O
-purposes	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-ferromagnetism	NN	O	B-Process
-of	NN	O	O
-nickel	NN	O	B-Material
-is	NN	O	O
-accounted	NN	O	O
-for	NN	O	O
-by	NN	O	O
-performing	NN	O	O
-all	NN	O	O
-calculations	NN	O	O
-using	NN	O	O
-spin	NN	O	B-Process
-polarization	NN	O	I-Process
-,	NN	O	O
-starting	NN	O	O
-at	NN	O	O
-a	NN	O	O
-ferromagnetic	NN	O	O
-initial	NN	O	O
-configuration	NN	O	O
-and	NN	O	O
-relaxing	NN	O	O
-towards	NN	O	O
-its	NN	O	O
-ground	NN	O	O
-state	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-for	NN	O	O
-all	NN	O	O
-compositions	NN	O	O
-considered	NN	O	O
-,	NN	O	O
-the	NN	O	O
-ground	NN	O	O
-state	NN	O	O
-electronic	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-each	NN	O	O
-alloy	NN	O	B-Material
-is	NN	O	O
-found	NN	O	O
-to	NN	O	O
-exhibit	NN	O	O
-only	NN	O	O
-very	NN	O	O
-weak	NN	O	O
-ferromagnetism	NN	O	B-Process
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-effect	NN	O	O
-is	NN	O	O
-not	NN	O	O
-thought	NN	O	O
-to	NN	O	O
-influence	NN	O	O
-their	NN	O	O
-phase	NN	O	O
-stability	NN	O	O
-.	NN	O	O
-
-Table	NN	O	O
-1	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-calculated	NN	O	O
-equilibrium	NN	O	O
-lattice	NN	O	O
-constants	NN	O	O
-of	NN	O	O
-the	NN	O	O
-η	NN	O	O
-phase	NN	O	O
-at	NN	O	O
-various	NN	O	O
-Ti	NN	O	B-Material
-concentrations	NN	O	O
-,	NN	O	O
-using	NN	O	O
-partially	NN	O	O
-ordered	NN	O	O
-ηP	NN	O	B-Material
-structures	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-change	NN	O	O
-in	NN	O	O
-lattice	NN	O	O
-constant	NN	O	O
-upon	NN	O	O
-Ti	NN	O	B-Process
-alloying	NN	O	I-Process
-is	NN	O	O
-relatively	NN	O	O
-small	NN	O	O
-,	NN	O	O
-but	NN	O	O
-can	NN	O	O
-be	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-∼10	NN	O	O
-%	NN	O	O
-larger	NN	O	O
-covalent	NN	O	O
-radius	NN	O	O
-of	NN	O	O
-Ti	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-calculated	NN	O	O
-lattice	NN	O	O
-constants	NN	O	O
-are	NN	O	O
-in	NN	O	O
-good	NN	O	O
-agreement	NN	O	O
-with	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-values	NN	O	O
-,	NN	O	O
-which	NN	O	O
-relate	NN	O	O
-to	NN	O	O
-an	NN	O	O
-alloy	NN	O	B-Material
-with	NN	O	O
-a	NN	O	O
-Al	NN	O	B-Material
-/	NN	O	O
-Ti	NN	O	B-Material
-ratio	NN	O	O
-of	NN	O	O
-∼2.75	NN	O	O
-.	NN	O	O
+The	0	3	O
+first	4	9	B-Task
+-	9	10	I-Task
+principles	10	20	I-Task
+calculations	21	33	I-Task
+are	34	37	O
+performed	38	47	O
+using	48	53	O
+the	54	57	O
+Cambridge	58	67	B-Material
+Serial	68	74	I-Material
+Total	75	80	I-Material
+Energy	81	87	I-Material
+Package	88	95	I-Material
+(	96	97	O
+CASTEP	97	103	B-Material
+)	103	104	O
+[	105	106	O
+21	106	108	O
+]	108	109	O
+which	110	115	O
+implements	116	126	O
+the	127	130	O
+plane	131	136	B-Process
+-	136	137	I-Process
+wave	137	141	I-Process
+pseudopotential	142	157	I-Process
+DFT	158	161	I-Process
+method	162	168	I-Process
+.	168	169	O
+
+The	170	173	O
+exchange	174	182	B-Process
+correlation	183	194	I-Process
+functional	195	205	I-Process
+is	206	208	O
+approximated	209	221	O
+using	222	227	O
+the	228	231	O
+generalized	232	243	B-Process
+gradient	244	252	I-Process
+approximation	253	266	I-Process
+(	267	268	O
+PBE	268	271	B-Process
+-	271	272	I-Process
+GGA	272	275	I-Process
+)	275	276	O
+
+[	277	278	O
+22	278	280	O
+]	280	281	O
+,	281	282	O
+and	283	286	O
+the	287	290	O
+electron	291	299	B-Process
+–	299	300	I-Process
+ion	300	303	I-Process
+interactions	304	316	I-Process
+are	317	320	O
+described	321	330	O
+by	331	333	O
+Vanderbilt	334	344	B-Process
+-	344	345	I-Process
+type	345	349	I-Process
+ultrasoft	350	359	I-Process
+pseudopotentials	360	376	I-Process
+[	377	378	O
+23	378	380	O
+]	380	381	O
+.	381	382	O
+
+The	383	386	O
+plane	387	392	B-Material
+wave	393	397	I-Material
+basis	398	403	O
+set	404	407	O
+is	408	410	O
+truncated	411	420	O
+at	421	423	O
+a	424	425	O
+cutoff	426	432	O
+of	433	435	O
+400eV	436	441	O
+,	441	442	O
+and	443	446	O
+the	447	450	O
+Brillouin	451	460	B-Process
+-	460	461	I-Process
+zone	461	465	I-Process
+sampling	466	474	I-Process
+was	475	478	O
+performed	479	488	O
+using	489	494	O
+the	495	498	O
+Monkhorst	499	508	B-Process
+-	508	509	I-Process
+Pack	509	513	I-Process
+scheme	514	520	I-Process
+with	521	525	O
+a	526	527	O
+k	528	529	B-Process
+-	529	530	I-Process
+point	530	535	I-Process
+spacing	536	543	I-Process
+in	544	546	O
+reciprocal	547	557	O
+space	558	563	O
+of	564	566	O
+0.04Å−1	567	574	O
+.	574	575	O
+
+Tests	576	581	O
+show	582	586	O
+that	587	591	O
+these	592	597	O
+computational	598	611	O
+parameters	612	622	O
+give	623	627	O
+results	628	635	O
+that	636	640	O
+are	641	644	O
+sufficiently	645	657	O
+accurate	658	666	O
+for	667	670	O
+present	671	678	O
+purposes	679	687	O
+.	687	688	O
+
+The	689	692	O
+ferromagnetism	693	707	B-Process
+of	708	710	O
+nickel	711	717	B-Material
+is	718	720	O
+accounted	721	730	O
+for	731	734	O
+by	735	737	O
+performing	738	748	O
+all	749	752	O
+calculations	753	765	O
+using	766	771	O
+spin	772	776	B-Process
+polarization	777	789	I-Process
+,	789	790	O
+starting	791	799	O
+at	800	802	O
+a	803	804	O
+ferromagnetic	805	818	O
+initial	819	826	O
+configuration	827	840	O
+and	841	844	O
+relaxing	845	853	O
+towards	854	861	O
+its	862	865	O
+ground	866	872	O
+state	873	878	O
+.	878	879	O
+
+However	880	887	O
+,	887	888	O
+for	889	892	O
+all	893	896	O
+compositions	897	909	O
+considered	910	920	O
+,	920	921	O
+the	922	925	O
+ground	926	932	O
+state	933	938	O
+electronic	939	949	O
+structure	950	959	O
+of	960	962	O
+each	963	967	O
+alloy	968	973	B-Material
+is	974	976	O
+found	977	982	O
+to	983	985	O
+exhibit	986	993	O
+only	994	998	O
+very	999	1003	O
+weak	1004	1008	O
+ferromagnetism	1009	1023	B-Process
+,	1023	1024	O
+and	1025	1028	O
+the	1029	1032	O
+effect	1033	1039	O
+is	1040	1042	O
+not	1043	1046	O
+thought	1047	1054	O
+to	1055	1057	O
+influence	1058	1067	O
+their	1068	1073	O
+phase	1074	1079	O
+stability	1080	1089	O
+.	1089	1090	O
+
+Table	1091	1096	O
+1	1097	1098	O
+shows	1099	1104	O
+the	1105	1108	O
+calculated	1109	1119	O
+equilibrium	1120	1131	O
+lattice	1132	1139	O
+constants	1140	1149	O
+of	1150	1152	O
+the	1153	1156	O
+η	1157	1158	O
+phase	1159	1164	O
+at	1165	1167	O
+various	1168	1175	O
+Ti	1176	1178	B-Material
+concentrations	1179	1193	O
+,	1193	1194	O
+using	1195	1200	O
+partially	1201	1210	O
+ordered	1211	1218	O
+ηP	1219	1221	B-Material
+structures	1222	1232	I-Material
+.	1232	1233	O
+
+The	1234	1237	O
+change	1238	1244	O
+in	1245	1247	O
+lattice	1248	1255	O
+constant	1256	1264	O
+upon	1265	1269	O
+Ti	1270	1272	B-Process
+alloying	1273	1281	I-Process
+is	1282	1284	O
+relatively	1285	1295	O
+small	1296	1301	O
+,	1301	1302	O
+but	1303	1306	O
+can	1307	1310	O
+be	1311	1313	O
+related	1314	1321	O
+to	1322	1324	O
+the	1325	1328	O
+∼10	1329	1332	O
+%	1332	1333	O
+larger	1334	1340	O
+covalent	1341	1349	O
+radius	1350	1356	O
+of	1357	1359	O
+Ti	1360	1362	B-Material
+.	1362	1363	O
+
+The	1364	1367	O
+calculated	1368	1378	O
+lattice	1379	1386	O
+constants	1387	1396	O
+are	1397	1400	O
+in	1401	1403	O
+good	1404	1408	O
+agreement	1409	1418	O
+with	1419	1423	O
+the	1424	1427	O
+experimental	1428	1440	O
+values	1441	1447	O
+,	1447	1448	O
+which	1449	1454	O
+relate	1455	1461	O
+to	1462	1464	O
+an	1465	1467	O
+alloy	1468	1473	B-Material
+with	1474	1478	O
+a	1479	1480	O
+Al	1481	1483	B-Material
+/	1483	1484	O
+Ti	1484	1486	B-Material
+ratio	1487	1492	O
+of	1493	1495	O
+∼2.75	1496	1501	O
+.	1501	1502	O
 
 
 -DOCSTART- (S1364815216302122)
 
-When	NN	O	O
-we	NN	O	O
-formulate	NN	O	O
-the	NN	O	O
-downscaling	NN	O	O
-problem	NN	O	O
-as	NN	O	O
-a	NN	O	O
-multi	NN	O	B-Process
--	NN	O	I-Process
-objective	NN	O	I-Process
-optimization	NN	O	I-Process
-problem	NN	O	O
-,	NN	O	O
-we	NN	O	O
-face	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-the	NN	O	O
-following	NN	O	O
-problems	NN	O	O
-.	NN	O	O
-
-Minimizing	NN	O	O
-the	NN	O	O
-sum	NN	O	O
-of	NN	O	O
-different	NN	O	O
-objectives	NN	O	O
-is	NN	O	O
-problematic	NN	O	O
-,	NN	O	O
-since	NN	O	O
-they	NN	O	O
-may	NN	O	O
-have	NN	O	O
-different	NN	O	O
-units	NN	O	O
-and	NN	O	O
-ranges	NN	O	O
-.	NN	O	O
-
-Even	NN	O	O
-with	NN	O	O
-an	NN	O	O
-appropriate	NN	O	O
-scaling	NN	O	B-Process
-procedure	NN	O	I-Process
-there	NN	O	O
-is	NN	O	O
-a	NN	O	O
-risk	NN	O	O
-of	NN	O	O
-treating	NN	O	O
-the	NN	O	O
-objectives	NN	O	O
-unequally	NN	O	O
-or	NN	O	O
-getting	NN	O	O
-trapped	NN	O	O
-in	NN	O	O
-a	NN	O	O
-local	NN	O	O
-minimum	NN	O	O
-.	NN	O	O
-
-Firstly	NN	O	O
-,	NN	O	O
-we	NN	O	O
-can	NN	O	O
-never	NN	O	O
-know	NN	O	O
-,	NN	O	O
-what	NN	O	O
-is	NN	O	O
-the	NN	O	O
-minimum	NN	O	O
-value	NN	O	O
-of	NN	O	O
-each	NN	O	O
-objective	NN	O	O
-that	NN	O	O
-can	NN	O	O
-be	NN	O	O
-achieved	NN	O	O
-by	NN	O	O
-the	NN	O	O
-regression	NN	O	B-Process
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-designing	NN	O	O
-an	NN	O	O
-appropriate	NN	O	O
-scaling	NN	O	B-Process
-procedure	NN	O	I-Process
-is	NN	O	O
-difficult	NN	O	O
-and	NN	O	O
-one	NN	O	O
-would	NN	O	O
-need	NN	O	O
-to	NN	O	O
-decide	NN	O	O
-on	NN	O	O
-the	NN	O	O
-relative	NN	O	O
-importance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-different	NN	O	O
-objectives	NN	O	O
-in	NN	O	O
-advance	NN	O	O
-.	NN	O	O
-
-Secondly	NN	O	O
-,	NN	O	O
-adding	NN	O	O
-multiple	NN	O	O
-,	NN	O	O
-conflicting	NN	O	O
-objectives	NN	O	O
-very	NN	O	O
-likely	NN	O	O
-results	NN	O	O
-in	NN	O	O
-a	NN	O	O
-fitness	NN	O	O
-function	NN	O	O
-with	NN	O	O
-multiple	NN	O	O
-local	NN	O	O
-minima	NN	O	O
-,	NN	O	O
-which	NN	O	O
-makes	NN	O	O
-optimization	NN	O	B-Process
-more	NN	O	O
-difficult	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-avoid	NN	O	O
-these	NN	O	O
-problems	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-implemented	NN	O	O
-fitness	NN	O	O
-calculation	NN	O	O
-according	NN	O	O
-to	NN	O	O
-the	NN	O	O
-Strength	NN	O	B-Process
-Pareto	NN	O	I-Process
-Evolutionary	NN	O	I-Process
-Algorithm	NN	O	I-Process
-(	NN	O	O
-SPEA	NN	O	B-Process
-)	NN	O	O
-by	NN	O	O
-Zitzler	NN	O	O
-and	NN	O	O
-Thiele	NN	O	O
-(	NN	O	O
-1999	NN	O	O
-)	NN	O	O
-,	NN	O	O
-instead	NN	O	O
-of	NN	O	O
-using	NN	O	B-Process
-a	NN	O	I-Process
-single	NN	O	I-Process
-(	NN	O	I-Process
-weighted	NN	O	I-Process
-)	NN	O	I-Process
-fitness	NN	O	I-Process
-or	NN	O	I-Process
-cost	NN	O	I-Process
-function	NN	O	I-Process
-.	NN	O	O
-
-Approaches	NN	O	O
-for	NN	O	O
-multi	NN	O	B-Process
--	NN	O	I-Process
-objective	NN	O	I-Process
-optimization	NN	O	I-Process
-like	NN	O	O
-SPEA	NN	O	B-Process
-are	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-in	NN	O	O
-evolutionary	NN	O	B-Task
-computation	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-SPEA	NN	O	B-Process
-the	NN	O	O
-fitness	NN	O	B-Process
-calculation	NN	O	I-Process
-during	NN	O	O
-the	NN	O	O
-fitting	NN	O	O
-procedure	NN	O	O
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-an	NN	O	O
-intercomparison	NN	O	O
-of	NN	O	O
-the	NN	O	O
-different	NN	O	O
-models	NN	O	O
-.	NN	O	O
-
-Further	NN	O	O
-,	NN	O	O
-a	NN	O	O
-finite	NN	O	O
-set	NN	O	O
-of	NN	O	O
-so	NN	O	O
-called	NN	O	O
-Pareto	NN	O	B-Process
-optimal	NN	O	I-Process
-models	NN	O	I-Process
-(	NN	O	O
-downscaling	NN	O	B-Process
-rules	NN	O	I-Process
-)	NN	O	O
-is	NN	O	O
-returned	NN	O	O
-.	NN	O	O
+When	0	4	O
+we	5	7	O
+formulate	8	17	O
+the	18	21	O
+downscaling	22	33	O
+problem	34	41	O
+as	42	44	O
+a	45	46	O
+multi	47	52	B-Process
+-	52	53	I-Process
+objective	53	62	I-Process
+optimization	63	75	I-Process
+problem	76	83	O
+,	83	84	O
+we	85	87	O
+face	88	92	O
+,	92	93	O
+however	94	101	O
+,	101	102	O
+the	103	106	O
+following	107	116	O
+problems	117	125	O
+.	125	126	O
+
+Minimizing	127	137	O
+the	138	141	O
+sum	142	145	O
+of	146	148	O
+different	149	158	O
+objectives	159	169	O
+is	170	172	O
+problematic	173	184	O
+,	184	185	O
+since	186	191	O
+they	192	196	O
+may	197	200	O
+have	201	205	O
+different	206	215	O
+units	216	221	O
+and	222	225	O
+ranges	226	232	O
+.	232	233	O
+
+Even	234	238	O
+with	239	243	O
+an	244	246	O
+appropriate	247	258	O
+scaling	259	266	B-Process
+procedure	267	276	I-Process
+there	277	282	O
+is	283	285	O
+a	286	287	O
+risk	288	292	O
+of	293	295	O
+treating	296	304	O
+the	305	308	O
+objectives	309	319	O
+unequally	320	329	O
+or	330	332	O
+getting	333	340	O
+trapped	341	348	O
+in	349	351	O
+a	352	353	O
+local	354	359	O
+minimum	360	367	O
+.	367	368	O
+
+Firstly	369	376	O
+,	376	377	O
+we	378	380	O
+can	381	384	O
+never	385	390	O
+know	391	395	O
+,	395	396	O
+what	397	401	O
+is	402	404	O
+the	405	408	O
+minimum	409	416	O
+value	417	422	O
+of	423	425	O
+each	426	430	O
+objective	431	440	O
+that	441	445	O
+can	446	449	O
+be	450	452	O
+achieved	453	461	O
+by	462	464	O
+the	465	468	O
+regression	469	479	B-Process
+.	479	480	O
+
+Thus	481	485	O
+,	485	486	O
+designing	487	496	O
+an	497	499	O
+appropriate	500	511	O
+scaling	512	519	B-Process
+procedure	520	529	I-Process
+is	530	532	O
+difficult	533	542	O
+and	543	546	O
+one	547	550	O
+would	551	556	O
+need	557	561	O
+to	562	564	O
+decide	565	571	O
+on	572	574	O
+the	575	578	O
+relative	579	587	O
+importance	588	598	O
+of	599	601	O
+the	602	605	O
+different	606	615	O
+objectives	616	626	O
+in	627	629	O
+advance	630	637	O
+.	637	638	O
+
+Secondly	639	647	O
+,	647	648	O
+adding	649	655	O
+multiple	656	664	O
+,	664	665	O
+conflicting	666	677	O
+objectives	678	688	O
+very	689	693	O
+likely	694	700	O
+results	701	708	O
+in	709	711	O
+a	712	713	O
+fitness	714	721	O
+function	722	730	O
+with	731	735	O
+multiple	736	744	O
+local	745	750	O
+minima	751	757	O
+,	757	758	O
+which	759	764	O
+makes	765	770	O
+optimization	771	783	B-Process
+more	784	788	O
+difficult	789	798	O
+.	798	799	O
+
+To	800	802	O
+avoid	803	808	O
+these	809	814	O
+problems	815	823	O
+,	823	824	O
+we	825	827	O
+have	828	832	O
+implemented	833	844	O
+fitness	845	852	O
+calculation	853	864	O
+according	865	874	O
+to	875	877	O
+the	878	881	O
+Strength	882	890	B-Process
+Pareto	891	897	I-Process
+Evolutionary	898	910	I-Process
+Algorithm	911	920	I-Process
+(	921	922	O
+SPEA	922	926	B-Process
+)	926	927	O
+by	928	930	O
+Zitzler	931	938	O
+and	939	942	O
+Thiele	943	949	O
+(	950	951	O
+1999	951	955	O
+)	955	956	O
+,	956	957	O
+instead	958	965	O
+of	966	968	O
+using	969	974	B-Process
+a	975	976	I-Process
+single	977	983	I-Process
+(	984	985	I-Process
+weighted	985	993	I-Process
+)	993	994	I-Process
+fitness	995	1002	I-Process
+or	1003	1005	I-Process
+cost	1006	1010	I-Process
+function	1011	1019	I-Process
+.	1019	1020	O
+
+Approaches	1021	1031	O
+for	1032	1035	O
+multi	1036	1041	B-Process
+-	1041	1042	I-Process
+objective	1042	1051	I-Process
+optimization	1052	1064	I-Process
+like	1065	1069	O
+SPEA	1070	1074	B-Process
+are	1075	1078	O
+widely	1079	1085	O
+used	1086	1090	O
+in	1091	1093	O
+evolutionary	1094	1106	B-Task
+computation	1107	1118	I-Task
+.	1118	1119	O
+
+In	1120	1122	O
+SPEA	1123	1127	B-Process
+the	1128	1131	O
+fitness	1132	1139	B-Process
+calculation	1140	1151	I-Process
+during	1152	1158	O
+the	1159	1162	O
+fitting	1163	1170	O
+procedure	1171	1180	O
+is	1181	1183	O
+based	1184	1189	O
+on	1190	1192	O
+an	1193	1195	O
+intercomparison	1196	1211	O
+of	1212	1214	O
+the	1215	1218	O
+different	1219	1228	O
+models	1229	1235	O
+.	1235	1236	O
+
+Further	1237	1244	O
+,	1244	1245	O
+a	1246	1247	O
+finite	1248	1254	O
+set	1255	1258	O
+of	1259	1261	O
+so	1262	1264	O
+called	1265	1271	O
+Pareto	1272	1278	B-Process
+optimal	1279	1286	I-Process
+models	1287	1293	I-Process
+(	1294	1295	O
+downscaling	1295	1306	B-Process
+rules	1307	1312	I-Process
+)	1312	1313	O
+is	1314	1316	O
+returned	1317	1325	O
+.	1325	1326	O
 
 
 -DOCSTART- (S1364815216302705)
 
-The	NN	O	O
-main	NN	O	O
-objective	NN	O	O
-of	NN	O	O
-this	NN	O	O
-manuscript	NN	O	O
-is	NN	O	O
-to	NN	O	O
-present	NN	O	B-Task
-and	NN	O	I-Task
-discuss	NN	O	I-Task
-the	NN	O	I-Task
-application	NN	O	I-Task
-of	NN	O	I-Task
-SLAMM	NN	O	I-Task
-to	NN	O	I-Task
-the	NN	O	I-Task
-New	NN	O	I-Task
-York	NN	O	I-Task
-coast	NN	O	I-Task
-.	NN	O	O
-
-Although	NN	O	O
-the	NN	O	O
-base	NN	O	O
-analysis	NN	O	O
-considers	NN	O	O
-a	NN	O	O
-range	NN	O	O
-of	NN	O	O
-different	NN	O	O
-possible	NN	O	O
-SLR	NN	O	B-Process
-scenarios	NN	O	O
-,	NN	O	O
-the	NN	O	O
-effects	NN	O	O
-of	NN	O	O
-various	NN	O	O
-sources	NN	O	O
-of	NN	O	O
-uncertainties	NN	O	O
-such	NN	O	O
-as	NN	O	O
-input	NN	O	O
-parameters	NN	O	O
-and	NN	O	O
-driving	NN	O	O
-data	NN	O	O
-are	NN	O	O
-not	NN	O	O
-accounted	NN	O	O
-for	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-refined	NN	O	O
-and	NN	O	O
-site	NN	O	O
--	NN	O	O
-specific	NN	O	O
-data	NN	O	O
-are	NN	O	O
-often	NN	O	O
-not	NN	O	O
-available	NN	O	O
-requiring	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-regional	NN	O	O
-data	NN	O	O
-collected	NN	O	O
-from	NN	O	O
-literature	NN	O	O
-and	NN	O	O
-professional	NN	O	O
-judgement	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-run	NN	O	O
-the	NN	O	O
-model	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-ignore	NN	O	O
-the	NN	O	O
-effects	NN	O	O
-of	NN	O	O
-these	NN	O	O
-uncertainties	NN	O	O
-on	NN	O	O
-predictions	NN	O	O
-may	NN	O	O
-make	NN	O	O
-interpretation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-results	NN	O	O
-and	NN	O	O
-subsequent	NN	O	O
-decision	NN	O	O
-making	NN	O	O
-misleading	NN	O	O
-since	NN	O	O
-the	NN	O	O
-likelihood	NN	O	O
-and	NN	O	O
-probabilities	NN	O	O
-of	NN	O	O
-predicted	NN	O	O
-outcomes	NN	O	O
-would	NN	O	O
-be	NN	O	O
-unknown	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-unique	NN	O	O
-capability	NN	O	O
-of	NN	O	O
-the	NN	O	O
-current	NN	O	O
-version	NN	O	O
-of	NN	O	O
-SLAMM	NN	O	B-Process
-is	NN	O	O
-the	NN	O	O
-ability	NN	O	O
-to	NN	O	O
-aggregate	NN	O	O
-multiple	NN	O	O
-types	NN	O	O
-of	NN	O	O
-input	NN	O	O
--	NN	O	O
-data	NN	O	O
-uncertainty	NN	O	O
-to	NN	O	O
-create	NN	O	O
-outputs	NN	O	O
-accompanied	NN	O	O
-by	NN	O	O
-probability	NN	O	O
-statements	NN	O	O
-and	NN	O	O
-confidence	NN	O	O
-intervals	NN	O	O
-.	NN	O	O
-
-Uncertainty	NN	O	O
-in	NN	O	O
-elevation	NN	O	O
-data	NN	O	O
-layers	NN	O	O
-have	NN	O	O
-been	NN	O	O
-considered	NN	O	O
-by	NN	O	O
-several	NN	O	O
-modeling	NN	O	O
-groups	NN	O	O
-to	NN	O	O
-various	NN	O	O
-extents	NN	O	O
-(	NN	O	O
-Gesch	NN	O	O
-,	NN	O	O
-2009	NN	O	O
-;	NN	O	O
-Gilmer	NN	O	O
-and	NN	O	O
-Ferdaña	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-;	NN	O	O
-
-Schmid	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2014	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-to	NN	O	O
-the	NN	O	O
-best	NN	O	O
-of	NN	O	O
-our	NN	O	O
-knowledge	NN	O	O
-,	NN	O	O
-no	NN	O	O
-other	NN	O	O
-marsh	NN	O	B-Material
-migration	NN	O	I-Material
-model	NN	O	I-Material
-simultaneously	NN	O	O
-accounts	NN	O	O
-for	NN	O	O
-the	NN	O	O
-combined	NN	O	O
-effects	NN	O	O
-of	NN	O	O
-uncertainty	NN	O	O
-in	NN	O	O
-spatial	NN	O	B-Process
-inputs	NN	O	I-Process
-(	NN	O	O
-DEM	NN	O	B-Process
-,	NN	O	O
-VDATUM	NN	O	B-Process
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-)	NN	O	O
-
-and	NN	O	O
-parameter	NN	O	B-Process
-choices	NN	O	I-Process
-(	NN	O	O
-accretion	NN	O	B-Process
-rates	NN	O	I-Process
-,	NN	O	O
-tide	NN	O	B-Process
-ranges	NN	O	I-Process
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-)	NN	O	O
-
-on	NN	O	O
-landcover	NN	O	B-Process
-projections	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-added	NN	O	O
-feature	NN	O	O
-of	NN	O	O
-SLAMM	NN	O	B-Process
-allows	NN	O	O
-results	NN	O	O
-to	NN	O	O
-be	NN	O	O
-evaluated	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-their	NN	O	O
-likelihood	NN	O	O
-of	NN	O	O
-occurrence	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-input	NN	O	O
--	NN	O	O
-data	NN	O	O
-and	NN	O	O
-parameter	NN	O	O
-uncertainties	NN	O	O
-.	NN	O	O
-
-Further	NN	O	O
-,	NN	O	O
-by	NN	O	O
-assigning	NN	O	O
-wide	NN	O	O
-ranges	NN	O	O
-of	NN	O	O
-uncertainty	NN	O	O
-when	NN	O	O
-appropriate	NN	O	O
-,	NN	O	O
-it	NN	O	O
-permits	NN	O	O
-the	NN	O	O
-production	NN	O	O
-of	NN	O	O
-meaningful	NN	O	O
-projections	NN	O	O
-in	NN	O	O
-areas	NN	O	O
-where	NN	O	O
-high	NN	O	B-Material
--	NN	O	I-Material
-quality	NN	O	I-Material
-local	NN	O	I-Material
-data	NN	O	I-Material
-are	NN	O	O
-not	NN	O	O
-available	NN	O	O
-.	NN	O	O
+The	0	3	O
+main	4	8	O
+objective	9	18	O
+of	19	21	O
+this	22	26	O
+manuscript	27	37	O
+is	38	40	O
+to	41	43	O
+present	44	51	B-Task
+and	52	55	I-Task
+discuss	56	63	I-Task
+the	64	67	I-Task
+application	68	79	I-Task
+of	80	82	I-Task
+SLAMM	83	88	I-Task
+to	89	91	I-Task
+the	92	95	I-Task
+New	96	99	I-Task
+York	100	104	I-Task
+coast	105	110	I-Task
+.	110	111	O
+
+Although	112	120	O
+the	121	124	O
+base	125	129	O
+analysis	130	138	O
+considers	139	148	O
+a	149	150	O
+range	151	156	O
+of	157	159	O
+different	160	169	O
+possible	170	178	O
+SLR	179	182	B-Process
+scenarios	183	192	O
+,	192	193	O
+the	194	197	O
+effects	198	205	O
+of	206	208	O
+various	209	216	O
+sources	217	224	O
+of	225	227	O
+uncertainties	228	241	O
+such	242	246	O
+as	247	249	O
+input	250	255	O
+parameters	256	266	O
+and	267	270	O
+driving	271	278	O
+data	279	283	O
+are	284	287	O
+not	288	291	O
+accounted	292	301	O
+for	302	305	O
+.	305	306	O
+
+In	307	309	O
+addition	310	318	O
+,	318	319	O
+refined	320	327	O
+and	328	331	O
+site	332	336	O
+-	336	337	O
+specific	337	345	O
+data	346	350	O
+are	351	354	O
+often	355	360	O
+not	361	364	O
+available	365	374	O
+requiring	375	384	O
+the	385	388	O
+use	389	392	O
+of	393	395	O
+regional	396	404	O
+data	405	409	O
+collected	410	419	O
+from	420	424	O
+literature	425	435	O
+and	436	439	O
+professional	440	452	O
+judgement	453	462	O
+in	463	465	O
+order	466	471	O
+to	472	474	O
+run	475	478	O
+the	479	482	O
+model	483	488	O
+.	488	489	O
+
+To	490	492	O
+ignore	493	499	O
+the	500	503	O
+effects	504	511	O
+of	512	514	O
+these	515	520	O
+uncertainties	521	534	O
+on	535	537	O
+predictions	538	549	O
+may	550	553	O
+make	554	558	O
+interpretation	559	573	O
+of	574	576	O
+the	577	580	O
+results	581	588	O
+and	589	592	O
+subsequent	593	603	O
+decision	604	612	O
+making	613	619	O
+misleading	620	630	O
+since	631	636	O
+the	637	640	O
+likelihood	641	651	O
+and	652	655	O
+probabilities	656	669	O
+of	670	672	O
+predicted	673	682	O
+outcomes	683	691	O
+would	692	697	O
+be	698	700	O
+unknown	701	708	O
+.	708	709	O
+
+A	710	711	O
+unique	712	718	O
+capability	719	729	O
+of	730	732	O
+the	733	736	O
+current	737	744	O
+version	745	752	O
+of	753	755	O
+SLAMM	756	761	B-Process
+is	762	764	O
+the	765	768	O
+ability	769	776	O
+to	777	779	O
+aggregate	780	789	O
+multiple	790	798	O
+types	799	804	O
+of	805	807	O
+input	808	813	O
+-	813	814	O
+data	814	818	O
+uncertainty	819	830	O
+to	831	833	O
+create	834	840	O
+outputs	841	848	O
+accompanied	849	860	O
+by	861	863	O
+probability	864	875	O
+statements	876	886	O
+and	887	890	O
+confidence	891	901	O
+intervals	902	911	O
+.	911	912	O
+
+Uncertainty	913	924	O
+in	925	927	O
+elevation	928	937	O
+data	938	942	O
+layers	943	949	O
+have	950	954	O
+been	955	959	O
+considered	960	970	O
+by	971	973	O
+several	974	981	O
+modeling	982	990	O
+groups	991	997	O
+to	998	1000	O
+various	1001	1008	O
+extents	1009	1016	O
+(	1017	1018	O
+Gesch	1018	1023	O
+,	1023	1024	O
+2009	1025	1029	O
+;	1029	1030	O
+Gilmer	1031	1037	O
+and	1038	1041	O
+Ferdaña	1042	1049	O
+,	1049	1050	O
+2012	1051	1055	O
+;	1055	1056	O
+
+Schmid	1057	1063	O
+et	1064	1066	O
+al	1067	1069	O
+.	1069	1070	O
+,	1070	1071	O
+2014	1072	1076	O
+)	1076	1077	O
+.	1077	1078	O
+
+However	1079	1086	O
+,	1086	1087	O
+to	1088	1090	O
+the	1091	1094	O
+best	1095	1099	O
+of	1100	1102	O
+our	1103	1106	O
+knowledge	1107	1116	O
+,	1116	1117	O
+no	1118	1120	O
+other	1121	1126	O
+marsh	1127	1132	B-Material
+migration	1133	1142	I-Material
+model	1143	1148	I-Material
+simultaneously	1149	1163	O
+accounts	1164	1172	O
+for	1173	1176	O
+the	1177	1180	O
+combined	1181	1189	O
+effects	1190	1197	O
+of	1198	1200	O
+uncertainty	1201	1212	O
+in	1213	1215	O
+spatial	1216	1223	B-Process
+inputs	1224	1230	I-Process
+(	1231	1232	O
+DEM	1232	1235	B-Process
+,	1235	1236	O
+VDATUM	1237	1243	B-Process
+,	1243	1244	O
+etc	1245	1248	O
+.	1248	1249	O
+)	1249	1250	O
+
+and	1251	1254	O
+parameter	1255	1264	B-Process
+choices	1265	1272	I-Process
+(	1273	1274	O
+accretion	1274	1283	B-Process
+rates	1284	1289	I-Process
+,	1289	1290	O
+tide	1291	1295	B-Process
+ranges	1296	1302	I-Process
+,	1302	1303	O
+etc	1304	1307	O
+.	1307	1308	O
+)	1308	1309	O
+
+on	1310	1312	O
+landcover	1313	1322	B-Process
+projections	1323	1334	I-Process
+.	1334	1335	O
+
+This	1336	1340	O
+added	1341	1346	O
+feature	1347	1354	O
+of	1355	1357	O
+SLAMM	1358	1363	B-Process
+allows	1364	1370	O
+results	1371	1378	O
+to	1379	1381	O
+be	1382	1384	O
+evaluated	1385	1394	O
+in	1395	1397	O
+terms	1398	1403	O
+of	1404	1406	O
+their	1407	1412	O
+likelihood	1413	1423	O
+of	1424	1426	O
+occurrence	1427	1437	O
+with	1438	1442	O
+respect	1443	1450	O
+to	1451	1453	O
+input	1454	1459	O
+-	1459	1460	O
+data	1460	1464	O
+and	1465	1468	O
+parameter	1469	1478	O
+uncertainties	1479	1492	O
+.	1492	1493	O
+
+Further	1494	1501	O
+,	1501	1502	O
+by	1503	1505	O
+assigning	1506	1515	O
+wide	1516	1520	O
+ranges	1521	1527	O
+of	1528	1530	O
+uncertainty	1531	1542	O
+when	1543	1547	O
+appropriate	1548	1559	O
+,	1559	1560	O
+it	1561	1563	O
+permits	1564	1571	O
+the	1572	1575	O
+production	1576	1586	O
+of	1587	1589	O
+meaningful	1590	1600	O
+projections	1601	1612	O
+in	1613	1615	O
+areas	1616	1621	O
+where	1622	1627	O
+high	1628	1632	B-Material
+-	1632	1633	I-Material
+quality	1633	1640	I-Material
+local	1641	1646	I-Material
+data	1647	1651	I-Material
+are	1652	1655	O
+not	1656	1659	O
+available	1660	1669	O
+.	1669	1670	O
 
 
 -DOCSTART- (S136481521630305X)
 
-Using	NN	O	O
-measured	NN	O	O
-data	NN	O	O
-from	NN	O	O
-two	NN	O	O
-arable	NN	O	O
-sites	NN	O	O
-in	NN	O	O
-the	NN	O	O
-UK	NN	O	O
-we	NN	O	O
-have	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-lags	NN	O	O
-can	NN	O	O
-have	NN	O	O
-significant	NN	O	O
-impact	NN	O	O
-on	NN	O	O
-model	NN	O	B-Task
-evaluation	NN	O	I-Task
-and	NN	O	O
-can	NN	O	O
-affect	NN	O	O
-both	NN	O	O
-the	NN	O	O
-level	NN	O	O
-of	NN	O	O
-correlation	NN	O	O
-between	NN	O	O
-measured	NN	O	O
-and	NN	O	O
-simulated	NN	O	O
-data	NN	O	O
-and	NN	O	O
-the	NN	O	O
-magnitude	NN	O	O
-of	NN	O	O
-the	NN	O	O
-sums	NN	O	O
-of	NN	O	O
-the	NN	O	O
-residuals	NN	O	O
-.	NN	O	O
-
-Also	NN	O	O
-,	NN	O	O
-we	NN	O	O
-used	NN	O	O
-the	NN	O	O
-division	NN	O	O
-of	NN	O	O
-MSE	NN	O	B-Process
-to	NN	O	O
-three	NN	O	O
-constituent	NN	O	B-Process
-statistics	NN	O	I-Process
-(	NN	O	O
-SB	NN	O	B-Process
-,	NN	O	O
-SDSD	NN	O	B-Process
-and	NN	O	O
-LCS	NN	O	B-Process
-)	NN	O	O
-to	NN	O	O
-show	NN	O	O
-how	NN	O	O
-the	NN	O	O
-level	NN	O	O
-of	NN	O	O
-correlation	NN	O	O
-can	NN	O	O
-affect	NN	O	O
-the	NN	O	O
-sum	NN	O	O
-of	NN	O	O
-residuals	NN	O	O
-.	NN	O	O
-
-By	NN	O	O
-dividing	NN	O	O
-the	NN	O	O
-algorithm	NN	O	O
--	NN	O	O
-predicted	NN	O	O
-series	NN	O	O
-of	NN	O	O
-lag	NN	O	O
-values	NN	O	O
-into	NN	O	O
-monthly	NN	O	O
-sets	NN	O	O
-and	NN	O	O
-examining	NN	O	O
-the	NN	O	O
-frequency	NN	O	O
-distribution	NN	O	O
-of	NN	O	O
-the	NN	O	O
-lags	NN	O	O
-,	NN	O	O
-certain	NN	O	O
-patterns	NN	O	O
-in	NN	O	O
-these	NN	O	O
-temporally	NN	O	O
-patchy	NN	O	O
-series	NN	O	O
-have	NN	O	O
-been	NN	O	O
-identified	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-challenging	NN	O	O
-task	NN	O	O
-in	NN	O	O
-relation	NN	O	O
-to	NN	O	O
-time	NN	O	O
-lags	NN	O	O
-between	NN	O	O
-observed	NN	O	O
-and	NN	O	O
-simulated	NN	O	O
-daily	NN	O	O
-data	NN	O	O
-,	NN	O	O
-is	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-their	NN	O	O
-cause	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-task	NN	O	O
-becomes	NN	O	O
-more	NN	O	O
-difficult	NN	O	O
-for	NN	O	O
-model	NN	O	O
-outputs	NN	O	O
-such	NN	O	O
-as	NN	O	O
-soil	NN	O	O
-N2O	NN	O	B-Material
-emissions	NN	O	I-Material
-that	NN	O	O
-are	NN	O	O
-driven	NN	O	O
-by	NN	O	O
-various	NN	O	O
-interacting	NN	O	O
-variables	NN	O	O
-.	NN	O	O
-
-Even	NN	O	O
-more	NN	O	O
-so	NN	O	O
-,	NN	O	O
-because	NN	O	O
-the	NN	O	O
-measured	NN	O	O
-N2O	NN	O	B-Material
-datasets	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-measured	NN	O	O
-datasets	NN	O	O
-of	NN	O	O
-their	NN	O	O
-drivers	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-soil	NN	O	O
-moisture	NN	O	O
-,	NN	O	O
-soil	NN	O	O
-N	NN	O	O
-content	NN	O	O
-)	NN	O	O
-cover	NN	O	O
-small	NN	O	O
-time	NN	O	O
-periods	NN	O	O
-,	NN	O	O
-they	NN	O	O
-are	NN	O	O
-not	NN	O	O
-continuous	NN	O	O
-and	NN	O	O
-can	NN	O	O
-vary	NN	O	O
-widely	NN	O	O
-in	NN	O	O
-size	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-study	NN	O	O
-we	NN	O	O
-implemented	NN	O	O
-the	NN	O	O
-algorithm	NN	O	O
-using	NN	O	O
-measured	NN	O	B-Material
-and	NN	O	I-Material
-simulated	NN	O	I-Material
-data	NN	O	I-Material
-for	NN	O	I-Material
-soil	NN	O	I-Material
-moisture	NN	O	I-Material
-(	NN	O	O
-first	NN	O	O
-and	NN	O	O
-second	NN	O	O
-example	NN	O	O
-)	NN	O	O
-and	NN	O	O
-soil	NN	O	B-Material
-mineral	NN	O	I-Material
-N	NN	O	I-Material
-(	NN	O	O
-second	NN	O	O
-example	NN	O	O
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-compared	NN	O	O
-its	NN	O	O
-results	NN	O	O
-with	NN	O	O
-the	NN	O	O
-respective	NN	O	O
-results	NN	O	O
-for	NN	O	O
-N2O.	NN	O	B-Material
-
-In	NN	O	O
-our	NN	O	O
-first	NN	O	O
-example	NN	O	O
-,	NN	O	O
-we	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-estimated	NN	O	O
-lags	NN	O	O
-in	NN	O	O
-N2O	NN	O	B-Task
-prediction	NN	O	I-Task
-are	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-lags	NN	O	O
-in	NN	O	O
-soil	NN	O	B-Task
-moisture	NN	O	I-Task
-prediction	NN	O	I-Task
-in	NN	O	O
-a	NN	O	O
-way	NN	O	O
-that	NN	O	O
-changes	NN	O	O
-gradually	NN	O	O
-through	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-our	NN	O	O
-second	NN	O	O
-example	NN	O	O
-,	NN	O	O
-the	NN	O	O
-lags	NN	O	O
-in	NN	O	O
-N2O	NN	O	B-Task
-prediction	NN	O	I-Task
-were	NN	O	O
-explained	NN	O	O
-by	NN	O	O
-the	NN	O	O
-lags	NN	O	O
-in	NN	O	O
-soil	NN	O	B-Material
-moisture	NN	O	I-Material
-and	NN	O	O
-soil	NN	O	B-Task
-mineral	NN	O	I-Task
-N	NN	O	I-Task
-prediction	NN	O	I-Task
-,	NN	O	O
-with	NN	O	O
-which	NN	O	O
-they	NN	O	O
-had	NN	O	O
-a	NN	O	O
-positive	NN	O	O
-relationship	NN	O	O
-.	NN	O	O
+Using	0	5	O
+measured	6	14	O
+data	15	19	O
+from	20	24	O
+two	25	28	O
+arable	29	35	O
+sites	36	41	O
+in	42	44	O
+the	45	48	O
+UK	49	51	O
+we	52	54	O
+have	55	59	O
+shown	60	65	O
+that	66	70	O
+lags	71	75	O
+can	76	79	O
+have	80	84	O
+significant	85	96	O
+impact	97	103	O
+on	104	106	O
+model	107	112	B-Task
+evaluation	113	123	I-Task
+and	124	127	O
+can	128	131	O
+affect	132	138	O
+both	139	143	O
+the	144	147	O
+level	148	153	O
+of	154	156	O
+correlation	157	168	O
+between	169	176	O
+measured	177	185	O
+and	186	189	O
+simulated	190	199	O
+data	200	204	O
+and	205	208	O
+the	209	212	O
+magnitude	213	222	O
+of	223	225	O
+the	226	229	O
+sums	230	234	O
+of	235	237	O
+the	238	241	O
+residuals	242	251	O
+.	251	252	O
+
+Also	253	257	O
+,	257	258	O
+we	259	261	O
+used	262	266	O
+the	267	270	O
+division	271	279	O
+of	280	282	O
+MSE	283	286	B-Process
+to	287	289	O
+three	290	295	O
+constituent	296	307	B-Process
+statistics	308	318	I-Process
+(	319	320	O
+SB	320	322	B-Process
+,	322	323	O
+SDSD	324	328	B-Process
+and	329	332	O
+LCS	333	336	B-Process
+)	336	337	O
+to	338	340	O
+show	341	345	O
+how	346	349	O
+the	350	353	O
+level	354	359	O
+of	360	362	O
+correlation	363	374	O
+can	375	378	O
+affect	379	385	O
+the	386	389	O
+sum	390	393	O
+of	394	396	O
+residuals	397	406	O
+.	406	407	O
+
+By	408	410	O
+dividing	411	419	O
+the	420	423	O
+algorithm	424	433	O
+-	433	434	O
+predicted	434	443	O
+series	444	450	O
+of	451	453	O
+lag	454	457	O
+values	458	464	O
+into	465	469	O
+monthly	470	477	O
+sets	478	482	O
+and	483	486	O
+examining	487	496	O
+the	497	500	O
+frequency	501	510	O
+distribution	511	523	O
+of	524	526	O
+the	527	530	O
+lags	531	535	O
+,	535	536	O
+certain	537	544	O
+patterns	545	553	O
+in	554	556	O
+these	557	562	O
+temporally	563	573	O
+patchy	574	580	O
+series	581	587	O
+have	588	592	O
+been	593	597	O
+identified	598	608	O
+.	608	609	O
+
+A	610	611	O
+challenging	612	623	O
+task	624	628	O
+in	629	631	O
+relation	632	640	O
+to	641	643	O
+time	644	648	O
+lags	649	653	O
+between	654	661	O
+observed	662	670	O
+and	671	674	O
+simulated	675	684	O
+daily	685	690	O
+data	691	695	O
+,	695	696	O
+is	697	699	O
+to	700	702	O
+determine	703	712	O
+their	713	718	O
+cause	719	724	O
+.	724	725	O
+
+This	726	730	O
+task	731	735	O
+becomes	736	743	O
+more	744	748	O
+difficult	749	758	O
+for	759	762	O
+model	763	768	O
+outputs	769	776	O
+such	777	781	O
+as	782	784	O
+soil	785	789	O
+N2O	790	793	B-Material
+emissions	794	803	I-Material
+that	804	808	O
+are	809	812	O
+driven	813	819	O
+by	820	822	O
+various	823	830	O
+interacting	831	842	O
+variables	843	852	O
+.	852	853	O
+
+Even	854	858	O
+more	859	863	O
+so	864	866	O
+,	866	867	O
+because	868	875	O
+the	876	879	O
+measured	880	888	O
+N2O	889	892	B-Material
+datasets	893	901	I-Material
+and	902	905	O
+the	906	909	O
+measured	910	918	O
+datasets	919	927	O
+of	928	930	O
+their	931	936	O
+drivers	937	944	O
+(	945	946	O
+e.g.	946	950	O
+soil	951	955	O
+moisture	956	964	O
+,	964	965	O
+soil	966	970	O
+N	971	972	O
+content	973	980	O
+)	980	981	O
+cover	982	987	O
+small	988	993	O
+time	994	998	O
+periods	999	1006	O
+,	1006	1007	O
+they	1008	1012	O
+are	1013	1016	O
+not	1017	1020	O
+continuous	1021	1031	O
+and	1032	1035	O
+can	1036	1039	O
+vary	1040	1044	O
+widely	1045	1051	O
+in	1052	1054	O
+size	1055	1059	O
+.	1059	1060	O
+
+In	1061	1063	O
+this	1064	1068	O
+study	1069	1074	O
+we	1075	1077	O
+implemented	1078	1089	O
+the	1090	1093	O
+algorithm	1094	1103	O
+using	1104	1109	O
+measured	1110	1118	B-Material
+and	1119	1122	I-Material
+simulated	1123	1132	I-Material
+data	1133	1137	I-Material
+for	1138	1141	I-Material
+soil	1142	1146	I-Material
+moisture	1147	1155	I-Material
+(	1156	1157	O
+first	1157	1162	O
+and	1163	1166	O
+second	1167	1173	O
+example	1174	1181	O
+)	1181	1182	O
+and	1183	1186	O
+soil	1187	1191	B-Material
+mineral	1192	1199	I-Material
+N	1200	1201	I-Material
+(	1202	1203	O
+second	1203	1209	O
+example	1210	1217	O
+)	1217	1218	O
+,	1218	1219	O
+and	1220	1223	O
+compared	1224	1232	O
+its	1233	1236	O
+results	1237	1244	O
+with	1245	1249	O
+the	1250	1253	O
+respective	1254	1264	O
+results	1265	1272	O
+for	1273	1276	O
+N2O.	1277	1281	B-Material
+
+In	1282	1284	O
+our	1285	1288	O
+first	1289	1294	O
+example	1295	1302	O
+,	1302	1303	O
+we	1304	1306	O
+showed	1307	1313	O
+that	1314	1318	O
+the	1319	1322	O
+estimated	1323	1332	O
+lags	1333	1337	O
+in	1338	1340	O
+N2O	1341	1344	B-Task
+prediction	1345	1355	I-Task
+are	1356	1359	O
+related	1360	1367	O
+to	1368	1370	O
+the	1371	1374	O
+lags	1375	1379	O
+in	1380	1382	O
+soil	1383	1387	B-Task
+moisture	1388	1396	I-Task
+prediction	1397	1407	I-Task
+in	1408	1410	O
+a	1411	1412	O
+way	1413	1416	O
+that	1417	1421	O
+changes	1422	1429	O
+gradually	1430	1439	O
+through	1440	1447	O
+time	1448	1452	O
+.	1452	1453	O
+
+In	1454	1456	O
+our	1457	1460	O
+second	1461	1467	O
+example	1468	1475	O
+,	1475	1476	O
+the	1477	1480	O
+lags	1481	1485	O
+in	1486	1488	O
+N2O	1489	1492	B-Task
+prediction	1493	1503	I-Task
+were	1504	1508	O
+explained	1509	1518	O
+by	1519	1521	O
+the	1522	1525	O
+lags	1526	1530	O
+in	1531	1533	O
+soil	1534	1538	B-Material
+moisture	1539	1547	I-Material
+and	1548	1551	O
+soil	1552	1556	B-Task
+mineral	1557	1564	I-Task
+N	1565	1566	I-Task
+prediction	1567	1577	I-Task
+,	1577	1578	O
+with	1579	1583	O
+which	1584	1589	O
+they	1590	1594	O
+had	1595	1598	O
+a	1599	1600	O
+positive	1601	1609	O
+relationship	1610	1622	O
+.	1622	1623	O
 
 
 -DOCSTART- (S1364815216303061)
 
-In	NN	O	O
-representing	NN	O	B-Task
-wetland	NN	O	I-Task
--	NN	O	I-Task
-river	NN	O	I-Task
-interactions	NN	O	I-Task
-involving	NN	O	I-Task
-GIWs	NN	O	I-Task
-,	NN	O	O
-many	NN	O	O
-models	NN	O	O
-assume	NN	O	O
-that	NN	O	O
-the	NN	O	O
-wetland	NN	O	O
-can	NN	O	O
-discharge	NN	O	O
-into	NN	O	O
-a	NN	O	O
-river	NN	O	O
-but	NN	O	O
-can	NN	O	O
-not	NN	O	O
-receive	NN	O	O
-overbank	NN	O	O
-flows	NN	O	O
-from	NN	O	O
-it	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-such	NN	O	O
-models	NN	O	O
-,	NN	O	O
-the	NN	O	O
-volume	NN	O	O
-of	NN	O	O
-water	NN	O	O
-(	NN	O	O
-or	NN	O	O
-water	NN	O	O
-level	NN	O	O
-elevation	NN	O	O
-)	NN	O	O
-in	NN	O	O
-a	NN	O	O
-wetland	NN	O	O
-and	NN	O	O
-its	NN	O	O
-corresponding	NN	O	O
-threshold	NN	O	O
-value	NN	O	O
-(	NN	O	O
-predominantly	NN	O	O
-controlled	NN	O	O
-by	NN	O	O
-outlet	NN	O	B-Process
-elevation	NN	O	I-Process
-)	NN	O	O
-are	NN	O	O
-the	NN	O	O
-prime	NN	O	O
-determinants	NN	O	O
-of	NN	O	O
-wetland	NN	O	O
-outflow	NN	O	O
-(	NN	O	O
-Feng	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-;	NN	O	O
-Hammer	NN	O	O
-and	NN	O	O
-Kadlec	NN	O	O
-,	NN	O	O
-1986	NN	O	O
-;	NN	O	O
-Johnson	NN	O	O
-et	NN	O	O
-al	NN	O	O
-
-.	NN	O	O
-,	NN	O	O
-2010	NN	O	O
-;	NN	O	O
-
-Kadlec	NN	O	O
-and	NN	O	O
-Wallace	NN	O	O
-,	NN	O	O
-2009	NN	O	O
-;	NN	O	O
-Powell	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2008	NN	O	O
-;	NN	O	O
-Voldseth	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2007	NN	O	O
-;	NN	O	O
-Wen	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-;	NN	O	O
-Zhang	NN	O	O
-and	NN	O	O
-Mitsch	NN	O	O
-,	NN	O	O
-2005	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-in	NN	O	O
-regions	NN	O	O
-characterised	NN	O	O
-by	NN	O	O
-widespread	NN	O	O
-riparian	NN	O	O
-wetlands	NN	O	O
-that	NN	O	O
-are	NN	O	O
-hydraulically	NN	O	O
-connected	NN	O	O
-with	NN	O	O
-adjacent	NN	O	O
-rivers	NN	O	O
-,	NN	O	O
-wetland	NN	O	O
--	NN	O	O
-river	NN	O	O
-interaction	NN	O	O
-is	NN	O	O
-likely	NN	O	O
-to	NN	O	O
-be	NN	O	O
-bidirectional	NN	O	O
-.	NN	O	O
-
-Such	NN	O	O
-interactions	NN	O	B-Task
-should	NN	O	I-Task
-be	NN	O	I-Task
-quantified	NN	O	I-Task
-according	NN	O	I-Task
-to	NN	O	I-Task
-hydraulic	NN	O	I-Task
-principles	NN	O	I-Task
-involving	NN	O	O
-relative	NN	O	B-Material
-river	NN	O	I-Material
-and	NN	O	I-Material
-wetland	NN	O	I-Material
-water	NN	O	I-Material
-level	NN	O	I-Material
-elevations	NN	O	I-Material
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-the	NN	O	O
-properties	NN	O	B-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-connection	NN	O	I-Material
-between	NN	O	I-Material
-the	NN	O	I-Material
-two	NN	O	I-Material
-(	NN	O	O
-Kouwen	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-;	NN	O	O
-Liu	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-,	NN	O	O
-2008	NN	O	O
-;	NN	O	O
-Min	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2010	NN	O	O
-;	NN	O	O
-Nyarko	NN	O	O
-,	NN	O	O
-2007	NN	O	O
-;	NN	O	O
-Restrepo	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-1998	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-WATFLOOD	NN	O	B-Process
-model	NN	O	O
-,	NN	O	O
-for	NN	O	O
-instance	NN	O	O
-,	NN	O	O
-riparian	NN	O	B-Task
-wetland	NN	O	I-Task
--	NN	O	I-Task
-river	NN	O	I-Task
-interaction	NN	O	I-Task
-is	NN	O	I-Task
-modelled	NN	O	I-Task
-using	NN	O	O
-the	NN	O	O
-principle	NN	O	B-Material
-of	NN	O	I-Material
-Dupuit	NN	O	I-Material
--	NN	O	I-Material
-Forchheimer	NN	O	I-Material
-lateral	NN	O	I-Material
-/	NN	O	I-Material
-radial	NN	O	I-Material
-groundwater	NN	O	I-Material
-flow	NN	O	I-Material
-(	NN	O	O
-Kouwen	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Since	NN	O	O
-exchange	NN	O	O
-between	NN	O	O
-riparian	NN	O	O
-wetlands	NN	O	O
-and	NN	O	O
-rivers	NN	O	O
-can	NN	O	O
-occur	NN	O	O
-over	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-and/or	NN	O	O
-through	NN	O	O
-the	NN	O	O
-subsurface	NN	O	O
-,	NN	O	O
-Restrepo	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-1998	NN	O	O
-)	NN	O	O
-incorporated	NN	O	O
-an	NN	O	O
-equivalent	NN	O	B-Process
-transmissivity	NN	O	I-Process
-expression	NN	O	I-Process
-,	NN	O	O
-obtained	NN	O	O
-for	NN	O	O
-wetland	NN	O	B-Material
-vegetation	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-subsurface	NN	O	B-Material
-soil	NN	O	I-Material
-,	NN	O	O
-into	NN	O	O
-the	NN	O	O
-Darcy	NN	O	B-Process
-flow	NN	O	I-Process
-equation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-MODFLOW	NN	O	B-Process
-model	NN	O	O
-.	NN	O	O
+In	0	2	O
+representing	3	15	B-Task
+wetland	16	23	I-Task
+-	23	24	I-Task
+river	24	29	I-Task
+interactions	30	42	I-Task
+involving	43	52	I-Task
+GIWs	53	57	I-Task
+,	57	58	O
+many	59	63	O
+models	64	70	O
+assume	71	77	O
+that	78	82	O
+the	83	86	O
+wetland	87	94	O
+can	95	98	O
+discharge	99	108	O
+into	109	113	O
+a	114	115	O
+river	116	121	O
+but	122	125	O
+can	126	129	O
+not	129	132	O
+receive	133	140	O
+overbank	141	149	O
+flows	150	155	O
+from	156	160	O
+it	161	163	O
+.	163	164	O
+
+In	165	167	O
+such	168	172	O
+models	173	179	O
+,	179	180	O
+the	181	184	O
+volume	185	191	O
+of	192	194	O
+water	195	200	O
+(	201	202	O
+or	202	204	O
+water	205	210	O
+level	211	216	O
+elevation	217	226	O
+)	226	227	O
+in	228	230	O
+a	231	232	O
+wetland	233	240	O
+and	241	244	O
+its	245	248	O
+corresponding	249	262	O
+threshold	263	272	O
+value	273	278	O
+(	279	280	O
+predominantly	280	293	O
+controlled	294	304	O
+by	305	307	O
+outlet	308	314	B-Process
+elevation	315	324	I-Process
+)	324	325	O
+are	326	329	O
+the	330	333	O
+prime	334	339	O
+determinants	340	352	O
+of	353	355	O
+wetland	356	363	O
+outflow	364	371	O
+(	372	373	O
+Feng	373	377	O
+et	378	380	O
+al	381	383	O
+.	383	384	O
+,	384	385	O
+2012	386	390	O
+;	390	391	O
+Hammer	392	398	O
+and	399	402	O
+Kadlec	403	409	O
+,	409	410	O
+1986	411	415	O
+;	415	416	O
+Johnson	417	424	O
+et	425	427	O
+al	428	430	O
+
+.	430	431	O
+,	431	432	O
+2010	433	437	O
+;	437	438	O
+
+Kadlec	439	445	O
+and	446	449	O
+Wallace	450	457	O
+,	457	458	O
+2009	459	463	O
+;	463	464	O
+Powell	465	471	O
+et	472	474	O
+al	475	477	O
+.	477	478	O
+,	478	479	O
+2008	480	484	O
+;	484	485	O
+Voldseth	486	494	O
+et	495	497	O
+al	498	500	O
+.	500	501	O
+,	501	502	O
+2007	503	507	O
+;	507	508	O
+Wen	509	512	O
+et	513	515	O
+al	516	518	O
+.	518	519	O
+,	519	520	O
+2013	521	525	O
+;	525	526	O
+Zhang	527	532	O
+and	533	536	O
+Mitsch	537	543	O
+,	543	544	O
+2005	545	549	O
+)	549	550	O
+.	550	551	O
+
+However	552	559	O
+,	559	560	O
+in	561	563	O
+regions	564	571	O
+characterised	572	585	O
+by	586	588	O
+widespread	589	599	O
+riparian	600	608	O
+wetlands	609	617	O
+that	618	622	O
+are	623	626	O
+hydraulically	627	640	O
+connected	641	650	O
+with	651	655	O
+adjacent	656	664	O
+rivers	665	671	O
+,	671	672	O
+wetland	673	680	O
+-	680	681	O
+river	681	686	O
+interaction	687	698	O
+is	699	701	O
+likely	702	708	O
+to	709	711	O
+be	712	714	O
+bidirectional	715	728	O
+.	728	729	O
+
+Such	730	734	O
+interactions	735	747	B-Task
+should	748	754	I-Task
+be	755	757	I-Task
+quantified	758	768	I-Task
+according	769	778	I-Task
+to	779	781	I-Task
+hydraulic	782	791	I-Task
+principles	792	802	I-Task
+involving	803	812	O
+relative	813	821	B-Material
+river	822	827	I-Material
+and	828	831	I-Material
+wetland	832	839	I-Material
+water	840	845	I-Material
+level	846	851	I-Material
+elevations	852	862	I-Material
+as	863	865	O
+well	866	870	O
+as	871	873	O
+the	874	877	O
+properties	878	888	B-Material
+of	889	891	I-Material
+the	892	895	I-Material
+connection	896	906	I-Material
+between	907	914	I-Material
+the	915	918	I-Material
+two	919	922	I-Material
+(	923	924	O
+Kouwen	924	930	O
+,	930	931	O
+2013	932	936	O
+;	936	937	O
+Liu	938	941	O
+et	942	944	O
+al	945	947	O
+.	947	948	O
+
+,	948	949	O
+2008	950	954	O
+;	954	955	O
+Min	956	959	O
+et	960	962	O
+al	963	965	O
+.	965	966	O
+,	966	967	O
+2010	968	972	O
+;	972	973	O
+Nyarko	974	980	O
+,	980	981	O
+2007	982	986	O
+;	986	987	O
+Restrepo	988	996	O
+et	997	999	O
+al	1000	1002	O
+.	1002	1003	O
+,	1003	1004	O
+1998	1005	1009	O
+)	1009	1010	O
+.	1010	1011	O
+
+In	1012	1014	O
+the	1015	1018	O
+WATFLOOD	1019	1027	B-Process
+model	1028	1033	O
+,	1033	1034	O
+for	1035	1038	O
+instance	1039	1047	O
+,	1047	1048	O
+riparian	1049	1057	B-Task
+wetland	1058	1065	I-Task
+-	1065	1066	I-Task
+river	1066	1071	I-Task
+interaction	1072	1083	I-Task
+is	1084	1086	I-Task
+modelled	1087	1095	I-Task
+using	1096	1101	O
+the	1102	1105	O
+principle	1106	1115	B-Material
+of	1116	1118	I-Material
+Dupuit	1119	1125	I-Material
+-	1125	1126	I-Material
+Forchheimer	1126	1137	I-Material
+lateral	1138	1145	I-Material
+/	1145	1146	I-Material
+radial	1146	1152	I-Material
+groundwater	1153	1164	I-Material
+flow	1165	1169	I-Material
+(	1170	1171	O
+Kouwen	1171	1177	O
+,	1177	1178	O
+2013	1179	1183	O
+)	1183	1184	O
+.	1184	1185	O
+
+Since	1186	1191	O
+exchange	1192	1200	O
+between	1201	1208	O
+riparian	1209	1217	O
+wetlands	1218	1226	O
+and	1227	1230	O
+rivers	1231	1237	O
+can	1238	1241	O
+occur	1242	1247	O
+over	1248	1252	O
+the	1253	1256	O
+surface	1257	1264	O
+and/or	1265	1271	O
+through	1272	1279	O
+the	1280	1283	O
+subsurface	1284	1294	O
+,	1294	1295	O
+Restrepo	1296	1304	O
+et	1305	1307	O
+al	1308	1310	O
+.	1310	1311	O
+
+(	1312	1313	O
+1998	1313	1317	O
+)	1317	1318	O
+incorporated	1319	1331	O
+an	1332	1334	O
+equivalent	1335	1345	B-Process
+transmissivity	1346	1360	I-Process
+expression	1361	1371	I-Process
+,	1371	1372	O
+obtained	1373	1381	O
+for	1382	1385	O
+wetland	1386	1393	B-Material
+vegetation	1394	1404	I-Material
+and	1405	1408	O
+the	1409	1412	O
+subsurface	1413	1423	B-Material
+soil	1424	1428	I-Material
+,	1428	1429	O
+into	1430	1434	O
+the	1435	1438	O
+Darcy	1439	1444	B-Process
+flow	1445	1449	I-Process
+equation	1450	1458	I-Process
+of	1459	1461	O
+the	1462	1465	O
+MODFLOW	1466	1473	B-Process
+model	1474	1479	O
+.	1479	1480	O
 
 
 -DOCSTART- (S1364815216303243)
 
-Typical	NN	O	O
-physically	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-2D	NN	O	I-Process
-flood	NN	O	I-Process
-models	NN	O	I-Process
-solve	NN	O	B-Task
-the	NN	O	I-Task
-Shallow	NN	O	I-Task
-Water	NN	O	I-Task
-Equations	NN	O	I-Task
-(	NN	O	I-Task
-SWEs	NN	O	I-Task
-)	NN	O	I-Task
-,	NN	O	O
-requiring	NN	O	O
-high	NN	O	O
-computational	NN	O	O
-resources	NN	O	O
-.	NN	O	O
-
-Many	NN	O	O
-of	NN	O	O
-these	NN	O	O
-models	NN	O	O
-have	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-to	NN	O	O
-obtain	NN	O	O
-better	NN	O	O
-performance	NN	O	O
-,	NN	O	O
-while	NN	O	O
-maintaining	NN	O	O
-the	NN	O	O
-required	NN	O	O
-accuracy	NN	O	O
-,	NN	O	O
-by	NN	O	O
-reducing	NN	O	B-Process
-the	NN	O	I-Process
-complexity	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-SWEs	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-reduction	NN	O	O
-is	NN	O	O
-usually	NN	O	O
-achieved	NN	O	O
-by	NN	O	O
-approximating	NN	O	O
-or	NN	O	O
-neglecting	NN	O	O
-less	NN	O	O
-significant	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-the	NN	O	O
-equations	NN	O	O
-(	NN	O	O
-Hunter	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-,	NN	O	O
-2007	NN	O	O
-;	NN	O	O
-Yen	NN	O	O
-and	NN	O	O
-Tsai	NN	O	O
-,	NN	O	O
-2001	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-JFLOW	NN	O	B-Process
-model	NN	O	O
-(	NN	O	O
-Bradbrook	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2004	NN	O	O
-)	NN	O	O
-,	NN	O	O
-Urban	NN	O	B-Process
-Inundation	NN	O	I-Process
-Model	NN	O	I-Process
-(	NN	O	O
-UIM	NN	O	B-Process
-)	NN	O	O
-
-(	NN	O	O
-Chen	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2007	NN	O	O
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-diffusive	NN	O	O
-version	NN	O	O
-of	NN	O	O
-LISFLOOD	NN	O	B-Process
--	NN	O	I-Process
-FP	NN	O	I-Process
-(	NN	O	O
-Hunter	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2005	NN	O	O
-)	NN	O	O
-solve	NN	O	O
-the	NN	O	O
-2D	NN	O	B-Process
-diffusion	NN	O	I-Process
-wave	NN	O	I-Process
-equations	NN	O	I-Process
-that	NN	O	O
-neglect	NN	O	O
-the	NN	O	O
-inertial	NN	O	O
-(	NN	O	O
-local	NN	O	O
-acceleration	NN	O	O
-)	NN	O	O
-and	NN	O	O
-advection	NN	O	O
-(	NN	O	O
-convective	NN	O	O
-acceleration	NN	O	O
-)	NN	O	O
-terms	NN	O	O
-(	NN	O	O
-Yen	NN	O	O
-and	NN	O	O
-Tsai	NN	O	O
-,	NN	O	O
-2001	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-inertial	NN	O	O
-version	NN	O	O
-of	NN	O	O
-LISFLOOD	NN	O	B-Process
--	NN	O	I-Process
-FP	NN	O	I-Process
-(	NN	O	O
-Bates	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2010	NN	O	O
-)	NN	O	O
-solves	NN	O	O
-the	NN	O	O
-SWEs	NN	O	B-Process
-without	NN	O	O
-the	NN	O	O
-advection	NN	O	O
-term	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-either	NN	O	O
-version	NN	O	O
-of	NN	O	O
-LISFLOOD	NN	O	B-Process
--	NN	O	I-Process
-FP	NN	O	I-Process
-the	NN	O	O
-flow	NN	O	O
-is	NN	O	O
-decoupled	NN	O	O
-in	NN	O	O
-the	NN	O	O
-Cartesian	NN	O	B-Process
-directions	NN	O	I-Process
-.	NN	O	O
-
-Other	NN	O	O
-models	NN	O	O
-use	NN	O	O
-the	NN	O	O
-full	NN	O	O
-SWEs	NN	O	B-Process
-but	NN	O	O
-focus	NN	O	O
-on	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-multi	NN	O	B-Material
-resolution	NN	O	I-Material
-grids	NN	O	I-Material
-or	NN	O	I-Material
-irregular	NN	O	I-Material
-mesh	NN	O	I-Material
-,	NN	O	O
-like	NN	O	O
-InfoWorks	NN	O	B-Material
-ICM	NN	O	I-Material
-(	NN	O	O
-Innovyze	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-and	NN	O	O
-MIKE	NN	O	B-Material
-FLOOD	NN	O	I-Material
-(	NN	O	O
-DHI	NN	O	O
-Software	NN	O	O
-,	NN	O	O
-2014	NN	O	O
-;	NN	O	O
-Hénonin	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-last	NN	O	O
-two	NN	O	O
-models	NN	O	O
-are	NN	O	O
-commercial	NN	O	O
-packages	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-code	NN	O	O
-applied	NN	O	O
-in	NN	O	O
-the	NN	O	O
-optimisation	NN	O	O
-techniques	NN	O	O
-is	NN	O	O
-not	NN	O	O
-in	NN	O	O
-the	NN	O	O
-public	NN	O	O
-domain	NN	O	O
-.	NN	O	O
+Typical	0	7	O
+physically	8	18	B-Process
+-	18	19	I-Process
+based	19	24	I-Process
+2D	25	27	I-Process
+flood	28	33	I-Process
+models	34	40	I-Process
+solve	41	46	B-Task
+the	47	50	I-Task
+Shallow	51	58	I-Task
+Water	59	64	I-Task
+Equations	65	74	I-Task
+(	75	76	I-Task
+SWEs	76	80	I-Task
+)	80	81	I-Task
+,	81	82	O
+requiring	83	92	O
+high	93	97	O
+computational	98	111	O
+resources	112	121	O
+.	121	122	O
+
+Many	123	127	O
+of	128	130	O
+these	131	136	O
+models	137	143	O
+have	144	148	O
+been	149	153	O
+developed	154	163	O
+to	164	166	O
+obtain	167	173	O
+better	174	180	O
+performance	181	192	O
+,	192	193	O
+while	194	199	O
+maintaining	200	211	O
+the	212	215	O
+required	216	224	O
+accuracy	225	233	O
+,	233	234	O
+by	235	237	O
+reducing	238	246	B-Process
+the	247	250	I-Process
+complexity	251	261	I-Process
+of	262	264	I-Process
+the	265	268	I-Process
+SWEs	269	273	I-Process
+.	273	274	O
+
+This	275	279	O
+reduction	280	289	O
+is	290	292	O
+usually	293	300	O
+achieved	301	309	O
+by	310	312	O
+approximating	313	326	O
+or	327	329	O
+neglecting	330	340	O
+less	341	345	O
+significant	346	357	O
+terms	358	363	O
+of	364	366	O
+the	367	370	O
+equations	371	380	O
+(	381	382	O
+Hunter	382	388	O
+et	389	391	O
+al	392	394	O
+.	394	395	O
+
+,	395	396	O
+2007	397	401	O
+;	401	402	O
+Yen	403	406	O
+and	407	410	O
+Tsai	411	415	O
+,	415	416	O
+2001	417	421	O
+)	421	422	O
+.	422	423	O
+
+The	424	427	O
+JFLOW	428	433	B-Process
+model	434	439	O
+(	440	441	O
+Bradbrook	441	450	O
+et	451	453	O
+al	454	456	O
+.	456	457	O
+,	457	458	O
+2004	459	463	O
+)	463	464	O
+,	464	465	O
+Urban	466	471	B-Process
+Inundation	472	482	I-Process
+Model	483	488	I-Process
+(	489	490	O
+UIM	490	493	B-Process
+)	493	494	O
+
+(	495	496	O
+Chen	496	500	O
+et	501	503	O
+al	504	506	O
+.	506	507	O
+,	507	508	O
+2007	509	513	O
+)	513	514	O
+,	514	515	O
+and	516	519	O
+the	520	523	O
+diffusive	524	533	O
+version	534	541	O
+of	542	544	O
+LISFLOOD	545	553	B-Process
+-	553	554	I-Process
+FP	554	556	I-Process
+(	557	558	O
+Hunter	558	564	O
+et	565	567	O
+al	568	570	O
+.	570	571	O
+,	571	572	O
+2005	573	577	O
+)	577	578	O
+solve	579	584	O
+the	585	588	O
+2D	589	591	B-Process
+diffusion	592	601	I-Process
+wave	602	606	I-Process
+equations	607	616	I-Process
+that	617	621	O
+neglect	622	629	O
+the	630	633	O
+inertial	634	642	O
+(	643	644	O
+local	644	649	O
+acceleration	650	662	O
+)	662	663	O
+and	664	667	O
+advection	668	677	O
+(	678	679	O
+convective	679	689	O
+acceleration	690	702	O
+)	702	703	O
+terms	704	709	O
+(	710	711	O
+Yen	711	714	O
+and	715	718	O
+Tsai	719	723	O
+,	723	724	O
+2001	725	729	O
+)	729	730	O
+.	730	731	O
+
+The	732	735	O
+inertial	736	744	O
+version	745	752	O
+of	753	755	O
+LISFLOOD	756	764	B-Process
+-	764	765	I-Process
+FP	765	767	I-Process
+(	768	769	O
+Bates	769	774	O
+et	775	777	O
+al	778	780	O
+.	780	781	O
+,	781	782	O
+2010	783	787	O
+)	787	788	O
+solves	789	795	O
+the	796	799	O
+SWEs	800	804	B-Process
+without	805	812	O
+the	813	816	O
+advection	817	826	O
+term	827	831	O
+.	831	832	O
+
+In	833	835	O
+either	836	842	O
+version	843	850	O
+of	851	853	O
+LISFLOOD	854	862	B-Process
+-	862	863	I-Process
+FP	863	865	I-Process
+the	866	869	O
+flow	870	874	O
+is	875	877	O
+decoupled	878	887	O
+in	888	890	O
+the	891	894	O
+Cartesian	895	904	B-Process
+directions	905	915	I-Process
+.	915	916	O
+
+Other	917	922	O
+models	923	929	O
+use	930	933	O
+the	934	937	O
+full	938	942	O
+SWEs	943	947	B-Process
+but	948	951	O
+focus	952	957	O
+on	958	960	O
+the	961	964	O
+use	965	968	O
+of	969	971	O
+multi	972	977	B-Material
+resolution	978	988	I-Material
+grids	989	994	I-Material
+or	995	997	I-Material
+irregular	998	1007	I-Material
+mesh	1008	1012	I-Material
+,	1012	1013	O
+like	1014	1018	O
+InfoWorks	1019	1028	B-Material
+ICM	1029	1032	I-Material
+(	1033	1034	O
+Innovyze	1034	1042	O
+,	1042	1043	O
+2012	1044	1048	O
+)	1048	1049	O
+and	1050	1053	O
+MIKE	1054	1058	B-Material
+FLOOD	1059	1064	I-Material
+(	1065	1066	O
+DHI	1066	1069	O
+Software	1070	1078	O
+,	1078	1079	O
+2014	1080	1084	O
+;	1084	1085	O
+Hénonin	1086	1093	O
+et	1094	1096	O
+al	1097	1099	O
+.	1099	1100	O
+,	1100	1101	O
+2013	1102	1106	O
+)	1106	1107	O
+.	1107	1108	O
+
+These	1109	1114	O
+last	1115	1119	O
+two	1120	1123	O
+models	1124	1130	O
+are	1131	1134	O
+commercial	1135	1145	O
+packages	1146	1154	O
+,	1154	1155	O
+and	1156	1159	O
+the	1160	1163	O
+code	1164	1168	O
+applied	1169	1176	O
+in	1177	1179	O
+the	1180	1183	O
+optimisation	1184	1196	O
+techniques	1197	1207	O
+is	1208	1210	O
+not	1211	1214	O
+in	1215	1217	O
+the	1218	1221	O
+public	1222	1228	O
+domain	1229	1235	O
+.	1235	1236	O
 
 
 -DOCSTART- (S1386505616301769)
 
-The	NN	O	O
-purported	NN	O	O
-advantages	NN	O	O
-of	NN	O	O
-EMR	NN	O	B-Task
-implementation	NN	O	I-Task
-in	NN	O	O
-urban	NN	O	O
-slums	NN	O	O
-are	NN	O	O
-widely	NN	O	O
-promoted	NN	O	O
-.	NN	O	O
-
-Increasingly	NN	O	O
-capable	NN	O	O
-health	NN	O	B-Task
-information	NN	O	I-Task
-systems	NN	O	I-Task
-could	NN	O	O
-facilitate	NN	O	O
-communication	NN	O	O
-,	NN	O	O
-help	NN	O	O
-coordinate	NN	O	O
-care	NN	O	O
-,	NN	O	O
-and	NN	O	O
-improve	NN	O	O
-the	NN	O	O
-continuity	NN	O	O
-of	NN	O	O
-care	NN	O	O
-in	NN	O	O
-disadvantaged	NN	O	O
-communities	NN	O	O
-like	NN	O	O
-Kibera	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-available	NN	O	O
-systems	NN	O	O
-may	NN	O	O
-not	NN	O	O
-have	NN	O	O
-the	NN	O	O
-ability	NN	O	O
-to	NN	O	O
-simplify	NN	O	O
-care	NN	O	O
-or	NN	O	O
-improve	NN	O	O
-efficiency	NN	O	O
-where	NN	O	O
-funding	NN	O	O
-and	NN	O	O
-human	NN	O	O
-resources	NN	O	O
-are	NN	O	O
-scarce	NN	O	O
-,	NN	O	O
-infrastructure	NN	O	O
-is	NN	O	O
-unreliable	NN	O	O
-and	NN	O	O
-health	NN	O	O
-data	NN	O	O
-demands	NN	O	O
-are	NN	O	O
-opportunistic	NN	O	O
-,	NN	O	O
-not	NN	O	O
-strategic	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-study	NN	O	O
-described	NN	O	O
-perceptions	NN	O	O
-of	NN	O	O
-local	NN	O	O
-EMR	NN	O	B-Process
-stakeholders	NN	O	O
-in	NN	O	O
-two	NN	O	O
-urban	NN	O	O
-slum	NN	O	O
-clinics	NN	O	O
-.	NN	O	O
-
-They	NN	O	O
-shared	NN	O	O
-many	NN	O	O
-observations	NN	O	O
-that	NN	O	O
-may	NN	O	O
-be	NN	O	O
-important	NN	O	O
-for	NN	O	O
-other	NN	O	O
-EMR	NN	O	B-Process
-initiatives	NN	O	O
-to	NN	O	O
-heed	NN	O	O
-,	NN	O	O
-and	NN	O	O
-worried	NN	O	O
-most	NN	O	O
-about	NN	O	O
-the	NN	O	O
-sustainability	NN	O	O
-of	NN	O	O
-EMR	NN	O	B-Process
-initiatives	NN	O	O
-in	NN	O	O
-like	NN	O	O
-communities	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-future	NN	O	O
-for	NN	O	O
-EMR	NN	O	B-Process
-use	NN	O	O
-in	NN	O	O
-urban	NN	O	O
-slums	NN	O	O
-is	NN	O	O
-promising	NN	O	O
-.	NN	O	O
-
-Innovative	NN	O	O
-new	NN	O	O
-technologies	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-mobile	NN	O	B-Material
-applications	NN	O	I-Material
-and	NN	O	O
-point	NN	O	O
--	NN	O	O
-of	NN	O	O
--	NN	O	O
-care	NN	O	O
-laboratory	NN	O	O
-tests	NN	O	O
-,	NN	O	O
-could	NN	O	O
-extend	NN	O	O
-the	NN	O	O
-reach	NN	O	O
-of	NN	O	O
-EMRs	NN	O	B-Process
-where	NN	O	O
-infrastructure	NN	O	O
-is	NN	O	O
-wanting	NN	O	O
-.	NN	O	O
-
-New	NN	O	O
-cloud	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-EMR	NN	O	I-Process
-ecosystems	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-data	NN	O	O
-is	NN	O	O
-collected	NN	O	O
-and	NN	O	O
-stored	NN	O	O
-centrally	NN	O	O
-could	NN	O	O
-leverage	NN	O	O
-cell	NN	O	O
-phone	NN	O	O
-networks	NN	O	O
-to	NN	O	O
-promote	NN	O	O
-more	NN	O	O
-health	NN	O	O
-information	NN	O	O
-sharing	NN	O	O
-,	NN	O	O
-coordination	NN	O	O
-of	NN	O	O
-care	NN	O	O
-and	NN	O	O
-ultimately	NN	O	O
-better	NN	O	O
-outcomes	NN	O	O
-for	NN	O	O
-vulnerable	NN	O	O
-populations	NN	O	O
-.	NN	O	O
-
-Summary	NN	O	O
-pointsWhat	NN	O	O
-was	NN	O	O
-already	NN	O	O
-known	NN	O	O
-on	NN	O	O
-the	NN	O	O
-topic?•Rapid	NN	O	O
-urbanization	NN	O	O
-is	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-growth	NN	O	O
-in	NN	O	O
-the	NN	O	O
-number	NN	O	O
-and	NN	O	O
-size	NN	O	O
-of	NN	O	O
-urban	NN	O	O
-slums	NN	O	O
-and	NN	O	O
-an	NN	O	O
-associated	NN	O	O
-rise	NN	O	O
-in	NN	O	O
-the	NN	O	O
-burden	NN	O	O
-of	NN	O	O
-disease	NN	O	O
-,	NN	O	O
-further	NN	O	O
-worsening	NN	O	O
-an	NN	O	O
-already	NN	O	O
-fragmented	NN	O	O
-and	NN	O	O
-inefficient	NN	O	O
-health	NN	O	O
-care	NN	O	O
-system	NN	O	O
-.	NN	O	O
+The	0	3	O
+purported	4	13	O
+advantages	14	24	O
+of	25	27	O
+EMR	28	31	B-Task
+implementation	32	46	I-Task
+in	47	49	O
+urban	50	55	O
+slums	56	61	O
+are	62	65	O
+widely	66	72	O
+promoted	73	81	O
+.	81	82	O
+
+Increasingly	83	95	O
+capable	96	103	O
+health	104	110	B-Task
+information	111	122	I-Task
+systems	123	130	I-Task
+could	131	136	O
+facilitate	137	147	O
+communication	148	161	O
+,	161	162	O
+help	163	167	O
+coordinate	168	178	O
+care	179	183	O
+,	183	184	O
+and	185	188	O
+improve	189	196	O
+the	197	200	O
+continuity	201	211	O
+of	212	214	O
+care	215	219	O
+in	220	222	O
+disadvantaged	223	236	O
+communities	237	248	O
+like	249	253	O
+Kibera	254	260	O
+.	260	261	O
+
+However	262	269	O
+,	269	270	O
+available	271	280	O
+systems	281	288	O
+may	289	292	O
+not	293	296	O
+have	297	301	O
+the	302	305	O
+ability	306	313	O
+to	314	316	O
+simplify	317	325	O
+care	326	330	O
+or	331	333	O
+improve	334	341	O
+efficiency	342	352	O
+where	353	358	O
+funding	359	366	O
+and	367	370	O
+human	371	376	O
+resources	377	386	O
+are	387	390	O
+scarce	391	397	O
+,	397	398	O
+infrastructure	399	413	O
+is	414	416	O
+unreliable	417	427	O
+and	428	431	O
+health	432	438	O
+data	439	443	O
+demands	444	451	O
+are	452	455	O
+opportunistic	456	469	O
+,	469	470	O
+not	471	474	O
+strategic	475	484	O
+.	484	485	O
+
+This	486	490	O
+study	491	496	O
+described	497	506	O
+perceptions	507	518	O
+of	519	521	O
+local	522	527	O
+EMR	528	531	B-Process
+stakeholders	532	544	O
+in	545	547	O
+two	548	551	O
+urban	552	557	O
+slum	558	562	O
+clinics	563	570	O
+.	570	571	O
+
+They	572	576	O
+shared	577	583	O
+many	584	588	O
+observations	589	601	O
+that	602	606	O
+may	607	610	O
+be	611	613	O
+important	614	623	O
+for	624	627	O
+other	628	633	O
+EMR	634	637	B-Process
+initiatives	638	649	O
+to	650	652	O
+heed	653	657	O
+,	657	658	O
+and	659	662	O
+worried	663	670	O
+most	671	675	O
+about	676	681	O
+the	682	685	O
+sustainability	686	700	O
+of	701	703	O
+EMR	704	707	B-Process
+initiatives	708	719	O
+in	720	722	O
+like	723	727	O
+communities	728	739	O
+.	739	740	O
+
+The	741	744	O
+future	745	751	O
+for	752	755	O
+EMR	756	759	B-Process
+use	760	763	O
+in	764	766	O
+urban	767	772	O
+slums	773	778	O
+is	779	781	O
+promising	782	791	O
+.	791	792	O
+
+Innovative	793	803	O
+new	804	807	O
+technologies	808	820	O
+,	820	821	O
+such	822	826	O
+as	827	829	O
+mobile	830	836	B-Material
+applications	837	849	I-Material
+and	850	853	O
+point	854	859	O
+-	859	860	O
+of	860	862	O
+-	862	863	O
+care	863	867	O
+laboratory	868	878	O
+tests	879	884	O
+,	884	885	O
+could	886	891	O
+extend	892	898	O
+the	899	902	O
+reach	903	908	O
+of	909	911	O
+EMRs	912	916	B-Process
+where	917	922	O
+infrastructure	923	937	O
+is	938	940	O
+wanting	941	948	O
+.	948	949	O
+
+New	950	953	O
+cloud	954	959	B-Process
+-	959	960	I-Process
+based	960	965	I-Process
+EMR	966	969	I-Process
+ecosystems	970	980	I-Process
+,	980	981	O
+where	982	987	O
+data	988	992	O
+is	993	995	O
+collected	996	1005	O
+and	1006	1009	O
+stored	1010	1016	O
+centrally	1017	1026	O
+could	1027	1032	O
+leverage	1033	1041	O
+cell	1042	1046	O
+phone	1047	1052	O
+networks	1053	1061	O
+to	1062	1064	O
+promote	1065	1072	O
+more	1073	1077	O
+health	1078	1084	O
+information	1085	1096	O
+sharing	1097	1104	O
+,	1104	1105	O
+coordination	1106	1118	O
+of	1119	1121	O
+care	1122	1126	O
+and	1127	1130	O
+ultimately	1131	1141	O
+better	1142	1148	O
+outcomes	1149	1157	O
+for	1158	1161	O
+vulnerable	1162	1172	O
+populations	1173	1184	O
+.	1184	1185	O
+
+Summary	1185	1192	O
+pointsWhat	1193	1203	O
+was	1204	1207	O
+already	1208	1215	O
+known	1216	1221	O
+on	1222	1224	O
+the	1225	1228	O
+topic?•Rapid	1229	1241	O
+urbanization	1242	1254	O
+is	1255	1257	O
+associated	1258	1268	O
+with	1269	1273	O
+growth	1274	1280	O
+in	1281	1283	O
+the	1284	1287	O
+number	1288	1294	O
+and	1295	1298	O
+size	1299	1303	O
+of	1304	1306	O
+urban	1307	1312	O
+slums	1313	1318	O
+and	1319	1322	O
+an	1323	1325	O
+associated	1326	1336	O
+rise	1337	1341	O
+in	1342	1344	O
+the	1345	1348	O
+burden	1349	1355	O
+of	1356	1358	O
+disease	1359	1366	O
+,	1366	1367	O
+further	1368	1375	O
+worsening	1376	1385	O
+an	1386	1388	O
+already	1389	1396	O
+fragmented	1397	1407	O
+and	1408	1411	O
+inefficient	1412	1423	O
+health	1424	1430	O
+care	1431	1435	O
+system	1436	1442	O
+.	1442	1443	O
 
 
 -DOCSTART- (S1574119211001544)
 
-As	NN	O	O
-future	NN	O	O
-work	NN	O	O
-on	NN	O	O
-the	NN	O	O
-protocol	NN	O	B-Task
-,	NN	O	O
-we	NN	O	O
-would	NN	O	O
-promote	NN	O	O
-two	NN	O	O
-items	NN	O	O
-.	NN	O	O
-
-Firstly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-two	NN	O	O
-mobility	NN	O	B-Process
-models	NN	O	I-Process
-that	NN	O	O
-we	NN	O	O
-have	NN	O	O
-considered	NN	O	O
-in	NN	O	O
-this	NN	O	O
-work	NN	O	O
-propose	NN	O	O
-possible	NN	O	O
-way	NN	O	O
-to	NN	O	O
-capture	NN	O	O
-social	NN	O	O
-context	NN	O	O
-in	NN	O	O
-the	NN	O	O
-way	NN	O	O
-nodes	NN	O	B-Material
-move	NN	O	O
-in	NN	O	O
-the	NN	O	O
-physical	NN	O	B-Material
-space	NN	O	I-Material
-,	NN	O	O
-yet	NN	O	O
-still	NN	O	O
-potentially	NN	O	O
-allowing	NN	O	O
-nodes	NN	O	B-Material
-to	NN	O	O
-explore	NN	O	O
-the	NN	O	O
-geographical	NN	O	B-Material
-regions	NN	O	I-Material
-considered	NN	O	O
-in	NN	O	O
-its	NN	O	O
-entirety	NN	O	O
-.	NN	O	O
-
-Further	NN	O	O
-insights	NN	O	O
-to	NN	O	O
-the	NN	O	O
-performance	NN	O	B-Material
-potential	NN	O	I-Material
-could	NN	O	O
-be	NN	O	O
-given	NN	O	O
-through	NN	O	O
-the	NN	O	O
-assessment	NN	O	O
-of	NN	O	O
-the	NN	O	O
-protocol	NN	O	O
-with	NN	O	O
-other	NN	O	O
-mobilities	NN	O	O
-that	NN	O	O
-can	NN	O	O
-extend	NN	O	B-Process
-the	NN	O	I-Process
-physical	NN	O	I-Process
-region	NN	O	I-Process
-of	NN	O	I-Process
-movement	NN	O	I-Process
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-impose	NN	O	B-Process
-potential	NN	O	I-Process
-restrictions	NN	O	I-Process
-on	NN	O	O
-the	NN	O	O
-nodes	NN	O	B-Process
-mobility	NN	O	I-Process
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-by	NN	O	O
-forcing	NN	O	B-Process
-similar	NN	O	I-Process
-nodes	NN	O	I-Process
-to	NN	O	I-Process
-move	NN	O	I-Process
-within	NN	O	I-Process
-specifically	NN	O	I-Process
-defined	NN	O	I-Process
-areas	NN	O	I-Process
-.	NN	O	O
-
-Secondly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-different	NN	O	O
-forwarding	NN	O	B-Process
-modes	NN	O	I-Process
-introduced	NN	O	O
-in	NN	O	O
-Section	NN	O	O
-3.3	NN	O	O
-express	NN	O	O
-different	NN	O	O
-levels	NN	O	O
-of	NN	O	O
-cooperation	NN	O	O
-across	NN	O	O
-the	NN	O	O
-network	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-push	NN	O	B-Process
--	NN	O	I-Process
-community	NN	O	I-Process
-mode	NN	O	I-Process
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-,	NN	O	O
-is	NN	O	O
-a	NN	O	O
-form	NN	O	O
-of	NN	O	O
-interest	NN	O	O
--	NN	O	O
-community	NN	O	O
-selfishness	NN	O	O
-and	NN	O	O
-assumes	NN	O	O
-reciprocation	NN	O	O
-in	NN	O	O
-the	NN	O	O
-nodes’	NN	O	B-Material
-behaviour	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-vulnerability	NN	O	O
-(	NN	O	O
-resp	NN	O	O
-.	NN	O	O
-resilience	NN	O	O
-)	NN	O	O
-of	NN	O	O
-the	NN	O	O
-protocol	NN	O	O
-to	NN	O	O
-different	NN	O	O
-instances	NN	O	O
-of	NN	O	O
-node	NN	O	B-Material
-misbehaviours	NN	O	O
-is	NN	O	O
-a	NN	O	O
-research	NN	O	O
-item	NN	O	O
-worth	NN	O	O
-exploring	NN	O	O
-.	NN	O	O
+As	0	2	O
+future	3	9	O
+work	10	14	O
+on	15	17	O
+the	18	21	O
+protocol	22	30	B-Task
+,	30	31	O
+we	32	34	O
+would	35	40	O
+promote	41	48	O
+two	49	52	O
+items	53	58	O
+.	58	59	O
+
+Firstly	60	67	O
+,	67	68	O
+the	69	72	O
+two	73	76	O
+mobility	77	85	B-Process
+models	86	92	I-Process
+that	93	97	O
+we	98	100	O
+have	101	105	O
+considered	106	116	O
+in	117	119	O
+this	120	124	O
+work	125	129	O
+propose	130	137	O
+possible	138	146	O
+way	147	150	O
+to	151	153	O
+capture	154	161	O
+social	162	168	O
+context	169	176	O
+in	177	179	O
+the	180	183	O
+way	184	187	O
+nodes	188	193	B-Material
+move	194	198	O
+in	199	201	O
+the	202	205	O
+physical	206	214	B-Material
+space	215	220	I-Material
+,	220	221	O
+yet	222	225	O
+still	226	231	O
+potentially	232	243	O
+allowing	244	252	O
+nodes	253	258	B-Material
+to	259	261	O
+explore	262	269	O
+the	270	273	O
+geographical	274	286	B-Material
+regions	287	294	I-Material
+considered	295	305	O
+in	306	308	O
+its	309	312	O
+entirety	313	321	O
+.	321	322	O
+
+Further	323	330	O
+insights	331	339	O
+to	340	342	O
+the	343	346	O
+performance	347	358	B-Material
+potential	359	368	I-Material
+could	369	374	O
+be	375	377	O
+given	378	383	O
+through	384	391	O
+the	392	395	O
+assessment	396	406	O
+of	407	409	O
+the	410	413	O
+protocol	414	422	O
+with	423	427	O
+other	428	433	O
+mobilities	434	444	O
+that	445	449	O
+can	450	453	O
+extend	454	460	B-Process
+the	461	464	I-Process
+physical	465	473	I-Process
+region	474	480	I-Process
+of	481	483	I-Process
+movement	484	492	I-Process
+as	493	495	O
+well	496	500	O
+as	501	503	O
+impose	504	510	B-Process
+potential	511	520	I-Process
+restrictions	521	533	I-Process
+on	534	536	O
+the	537	540	O
+nodes	541	546	B-Process
+mobility	547	555	I-Process
+,	555	556	O
+for	557	560	O
+example	561	568	O
+by	569	571	O
+forcing	572	579	B-Process
+similar	580	587	I-Process
+nodes	588	593	I-Process
+to	594	596	I-Process
+move	597	601	I-Process
+within	602	608	I-Process
+specifically	609	621	I-Process
+defined	622	629	I-Process
+areas	630	635	I-Process
+.	635	636	O
+
+Secondly	637	645	O
+,	645	646	O
+the	647	650	O
+different	651	660	O
+forwarding	661	671	B-Process
+modes	672	677	I-Process
+introduced	678	688	O
+in	689	691	O
+Section	692	699	O
+3.3	701	704	O
+express	705	712	O
+different	713	722	O
+levels	723	729	O
+of	730	732	O
+cooperation	733	744	O
+across	745	751	O
+the	752	755	O
+network	756	763	B-Process
+.	763	764	O
+
+The	765	768	O
+push	769	773	B-Process
+-	773	774	I-Process
+community	774	783	I-Process
+mode	784	788	I-Process
+,	788	789	O
+for	790	793	O
+example	794	801	O
+,	801	802	O
+is	803	805	O
+a	806	807	O
+form	808	812	O
+of	813	815	O
+interest	816	824	O
+-	824	825	O
+community	825	834	O
+selfishness	835	846	O
+and	847	850	O
+assumes	851	858	O
+reciprocation	859	872	O
+in	873	875	O
+the	876	879	O
+nodes’	880	886	B-Material
+behaviour	887	896	O
+.	896	897	O
+
+The	898	901	O
+vulnerability	902	915	O
+(	916	917	O
+resp	917	921	O
+.	921	922	O
+resilience	923	933	O
+)	933	934	O
+of	935	937	O
+the	938	941	O
+protocol	942	950	O
+to	951	953	O
+different	954	963	O
+instances	964	973	O
+of	974	976	O
+node	977	981	B-Material
+misbehaviours	982	995	O
+is	996	998	O
+a	999	1000	O
+research	1001	1009	O
+item	1010	1014	O
+worth	1015	1020	O
+exploring	1021	1030	O
+.	1030	1031	O
 
 
 -DOCSTART- (S1574119215000796)
 
-The	NN	O	O
-proposed	NN	O	O
-multihop	NN	O	B-Task
-routing	NN	O	I-Task
-protocol	NN	O	I-Task
-,	NN	O	O
-PHASeR	NN	O	B-Process
-,	NN	O	O
-applies	NN	O	O
-the	NN	O	O
-technique	NN	O	O
-of	NN	O	O
-blind	NN	O	O
-forwarding	NN	O	O
-in	NN	O	O
-a	NN	O	O
-MWSN	NN	O	B-Material
-,	NN	O	O
-which	NN	O	O
-increases	NN	O	O
-the	NN	O	O
-reliability	NN	O	O
-of	NN	O	O
-data	NN	O	O
-delivery	NN	O	O
-through	NN	O	O
-its	NN	O	O
-inherent	NN	O	O
-use	NN	O	O
-of	NN	O	O
-multiple	NN	O	O
-routes	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-approach	NN	O	O
-requires	NN	O	O
-a	NN	O	O
-gradient	NN	O	B-Process
-metric	NN	O	I-Process
-to	NN	O	O
-be	NN	O	O
-continuously	NN	O	O
-maintained	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-problematic	NN	O	O
-in	NN	O	O
-a	NN	O	O
-dynamic	NN	O	O
-topology	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-literature	NN	O	O
-commonly	NN	O	O
-uses	NN	O	O
-either	NN	O	O
-flooding	NN	O	O
-or	NN	O	O
-location	NN	O	O
-awareness	NN	O	O
-,	NN	O	O
-however	NN	O	O
-flooding	NN	O	O
-creates	NN	O	O
-large	NN	O	O
-amounts	NN	O	O
-of	NN	O	O
-overhead	NN	O	O
-and	NN	O	O
-location	NN	O	O
-determination	NN	O	O
-schemes	NN	O	O
-can	NN	O	O
-often	NN	O	O
-be	NN	O	O
-inaccurate	NN	O	O
-,	NN	O	O
-power	NN	O	O
-hungry	NN	O	O
-and	NN	O	O
-create	NN	O	O
-the	NN	O	O
-issue	NN	O	O
-of	NN	O	O
-the	NN	O	O
-dead	NN	O	O
-end	NN	O	O
-problem	NN	O	O
-.	NN	O	O
-
-PHASeR	NN	O	B-Process
-uses	NN	O	O
-a	NN	O	O
-novel	NN	O	O
-method	NN	O	O
-of	NN	O	O
-gradient	NN	O	B-Process
-maintenance	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-mobile	NN	O	B-Material
-network	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-requires	NN	O	O
-the	NN	O	O
-proactive	NN	O	O
-sharing	NN	O	O
-of	NN	O	O
-only	NN	O	O
-local	NN	O	O
-topology	NN	O	O
-information	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-facilitated	NN	O	O
-by	NN	O	O
-a	NN	O	O
-global	NN	O	O
-TDMA	NN	O	B-Process
-(	NN	O	O
-time	NN	O	B-Process
-division	NN	O	I-Process
-multiple	NN	O	I-Process
-access	NN	O	I-Process
-)	NN	O	O
-MAC	NN	O	B-Process
-(	NN	O	O
-medium	NN	O	B-Process
-access	NN	O	I-Process
-control	NN	O	I-Process
-)	NN	O	O
-layer	NN	O	O
-and	NN	O	O
-further	NN	O	O
-reduces	NN	O	O
-the	NN	O	O
-amount	NN	O	O
-of	NN	O	O
-overhead	NN	O	O
-,	NN	O	O
-which	NN	O	O
-in	NN	O	O
-turn	NN	O	O
-will	NN	O	O
-decrease	NN	O	O
-packet	NN	O	B-Material
-latency	NN	O	I-Material
-.	NN	O	O
-
-PHASeR	NN	O	B-Process
-is	NN	O	O
-also	NN	O	O
-set	NN	O	O
-apart	NN	O	O
-by	NN	O	O
-its	NN	O	O
-use	NN	O	O
-of	NN	O	O
-encapsulation	NN	O	B-Process
-,	NN	O	O
-which	NN	O	O
-allows	NN	O	O
-data	NN	O	O
-from	NN	O	O
-multiple	NN	O	O
-nodes	NN	O	B-Material
-to	NN	O	O
-be	NN	O	O
-transmitted	NN	O	O
-in	NN	O	O
-the	NN	O	O
-same	NN	O	O
-packet	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-handle	NN	O	O
-high	NN	O	O
-volumes	NN	O	O
-of	NN	O	O
-traffic	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-utilises	NN	O	O
-node	NN	O	B-Process
-cooperation	NN	O	I-Process
-to	NN	O	O
-create	NN	O	O
-a	NN	O	O
-robust	NN	O	O
-multipath	NN	O	O
-routing	NN	O	O
-solution	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-such	NN	O	O
-,	NN	O	O
-the	NN	O	O
-contribution	NN	O	O
-of	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-is	NN	O	O
-a	NN	O	O
-cross	NN	O	B-Task
--	NN	O	I-Task
-layer	NN	O	I-Task
-routing	NN	O	I-Task
-protocol	NN	O	I-Task
-for	NN	O	I-Task
-MWSNs	NN	O	I-Task
-that	NN	O	O
-can	NN	O	O
-handle	NN	O	O
-the	NN	O	O
-constant	NN	O	O
-flow	NN	O	O
-of	NN	O	O
-data	NN	O	O
-from	NN	O	O
-sensors	NN	O	B-Material
-in	NN	O	O
-highly	NN	O	O
-mobile	NN	O	O
-situations	NN	O	O
-.	NN	O	O
+The	0	3	O
+proposed	4	12	O
+multihop	13	21	B-Process
+routing	22	29	I-Process
+protocol	30	38	I-Process
+,	38	39	O
+PHASeR	40	46	B-Process
+,	46	47	O
+applies	48	55	O
+the	56	59	O
+technique	60	69	O
+of	70	72	O
+blind	73	78	O
+forwarding	79	89	O
+in	90	92	O
+a	93	94	O
+MWSN	95	99	B-Material
+,	99	100	O
+which	101	106	O
+increases	107	116	O
+the	117	120	O
+reliability	121	132	O
+of	133	135	O
+data	136	140	O
+delivery	141	149	O
+through	150	157	O
+its	158	161	O
+inherent	162	170	O
+use	171	174	O
+of	175	177	O
+multiple	178	186	O
+routes	187	193	O
+.	193	194	O
+
+This	195	199	O
+approach	200	208	O
+requires	209	217	O
+a	218	219	O
+gradient	220	228	B-Process
+metric	229	235	I-Process
+to	236	238	O
+be	239	241	O
+continuously	242	254	O
+maintained	255	265	O
+,	265	266	O
+which	267	272	O
+is	273	275	O
+problematic	276	287	O
+in	288	290	O
+a	291	292	O
+dynamic	293	300	O
+topology	301	309	O
+.	309	310	O
+
+The	311	314	O
+literature	315	325	O
+commonly	326	334	O
+uses	335	339	O
+either	340	346	O
+flooding	347	355	O
+or	356	358	O
+location	359	367	O
+awareness	368	377	O
+,	377	378	O
+however	379	386	O
+flooding	387	395	O
+creates	396	403	O
+large	404	409	O
+amounts	410	417	O
+of	418	420	O
+overhead	421	429	O
+and	430	433	O
+location	434	442	O
+determination	443	456	O
+schemes	457	464	O
+can	465	468	O
+often	469	474	O
+be	475	477	O
+inaccurate	478	488	O
+,	488	489	O
+power	490	495	O
+hungry	496	502	O
+and	503	506	O
+create	507	513	O
+the	514	517	O
+issue	518	523	O
+of	524	526	O
+the	527	530	O
+dead	531	535	O
+end	536	539	O
+problem	540	547	O
+.	547	548	O
+
+PHASeR	549	555	B-Process
+uses	556	560	O
+a	561	562	O
+novel	563	568	O
+method	569	575	O
+of	576	578	O
+gradient	579	587	B-Process
+maintenance	588	599	I-Process
+in	600	602	O
+a	603	604	O
+mobile	605	611	B-Material
+network	612	619	I-Material
+,	619	620	O
+which	621	626	O
+requires	627	635	O
+the	636	639	O
+proactive	640	649	O
+sharing	650	657	O
+of	658	660	O
+only	661	665	O
+local	666	671	O
+topology	672	680	O
+information	681	692	O
+.	692	693	O
+
+This	694	698	O
+is	699	701	O
+facilitated	702	713	O
+by	714	716	O
+a	717	718	O
+global	719	725	O
+TDMA	726	730	B-Process
+(	731	732	O
+time	732	736	B-Process
+division	737	745	I-Process
+multiple	746	754	I-Process
+access	755	761	I-Process
+)	761	762	O
+MAC	763	766	B-Process
+(	767	768	O
+medium	768	774	B-Process
+access	775	781	I-Process
+control	782	789	I-Process
+)	789	790	O
+layer	791	796	O
+and	797	800	O
+further	801	808	O
+reduces	809	816	O
+the	817	820	O
+amount	821	827	O
+of	828	830	O
+overhead	831	839	O
+,	839	840	O
+which	841	846	O
+in	847	849	O
+turn	850	854	O
+will	855	859	O
+decrease	860	868	O
+packet	869	875	B-Material
+latency	876	883	I-Material
+.	883	884	O
+
+PHASeR	885	891	B-Process
+is	892	894	O
+also	895	899	O
+set	900	903	O
+apart	904	909	O
+by	910	912	O
+its	913	916	O
+use	917	920	O
+of	921	923	O
+encapsulation	924	937	B-Process
+,	937	938	O
+which	939	944	O
+allows	945	951	O
+data	952	956	O
+from	957	961	O
+multiple	962	970	O
+nodes	971	976	B-Material
+to	977	979	O
+be	980	982	O
+transmitted	983	994	O
+in	995	997	O
+the	998	1001	O
+same	1002	1006	O
+packet	1007	1013	O
+in	1014	1016	O
+order	1017	1022	O
+to	1023	1025	O
+handle	1026	1032	O
+high	1033	1037	O
+volumes	1038	1045	O
+of	1046	1048	O
+traffic	1049	1056	O
+.	1056	1057	O
+
+It	1058	1060	O
+utilises	1061	1069	O
+node	1070	1074	B-Process
+cooperation	1075	1086	I-Process
+to	1087	1089	O
+create	1090	1096	O
+a	1097	1098	O
+robust	1099	1105	O
+multipath	1106	1115	O
+routing	1116	1123	O
+solution	1124	1132	O
+.	1132	1133	O
+
+As	1134	1136	O
+such	1137	1141	O
+,	1141	1142	O
+the	1143	1146	O
+contribution	1147	1159	O
+of	1160	1162	O
+this	1163	1167	O
+paper	1168	1173	O
+is	1174	1176	O
+a	1177	1178	O
+cross	1179	1184	B-Task
+-	1184	1185	I-Task
+layer	1185	1190	I-Task
+routing	1191	1198	I-Task
+protocol	1199	1207	I-Task
+for	1208	1211	I-Task
+MWSNs	1212	1217	I-Task
+that	1218	1222	O
+can	1223	1226	O
+handle	1227	1233	O
+the	1234	1237	O
+constant	1238	1246	O
+flow	1247	1251	O
+of	1252	1254	O
+data	1255	1259	O
+from	1260	1264	O
+sensors	1265	1272	B-Material
+in	1273	1275	O
+highly	1276	1282	O
+mobile	1283	1289	O
+situations	1290	1300	O
+.	1300	1301	O
 
 
 -DOCSTART- (S1631070514000954)
 
-Superconductivity	NN	O	B-Task
-in	NN	O	I-Task
-actinides	NN	O	I-Task
-was	NN	O	O
-first	NN	O	O
-observed	NN	O	O
-in	NN	O	O
-thorium	NN	O	B-Material
-metal	NN	O	I-Material
-in	NN	O	O
-1929	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-,	NN	O	O
-then	NN	O	O
-in	NN	O	O
-elemental	NN	O	O
-uranium	NN	O	B-Material
-in	NN	O	O
-1942	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-in	NN	O	O
-uranium	NN	O	B-Material
-compounds	NN	O	I-Material
-in	NN	O	O
-1958	NN	O	O
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-new	NN	O	O
-class	NN	O	O
-of	NN	O	O
-uranium	NN	O	B-Material
-superconductors	NN	O	I-Material
-emerged	NN	O	O
-in	NN	O	O
-the	NN	O	O
-1980	NN	O	O
-'s	NN	O	O
-with	NN	O	O
-the	NN	O	O
-discovery	NN	O	O
-of	NN	O	O
-uranium	NN	O	B-Material
-heavy	NN	O	I-Material
-fermion	NN	O	I-Material
-superconductors	NN	O	I-Material
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Further	NN	O	O
-surprises	NN	O	O
-came	NN	O	O
-at	NN	O	O
-the	NN	O	O
-beginning	NN	O	O
-of	NN	O	O
-the	NN	O	O
-century	NN	O	O
-with	NN	O	O
-the	NN	O	O
-discovery	NN	O	O
-of	NN	O	O
-ferromagnetic	NN	O	B-Material
-superconductors	NN	O	I-Material
-in	NN	O	O
-uranium	NN	O	B-Material
-systems	NN	O	O
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-and	NN	O	O
-the	NN	O	O
-first	NN	O	O
-observation	NN	O	O
-of	NN	O	O
-superconductivity	NN	O	B-Process
-in	NN	O	O
-plutonium	NN	O	B-Material
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-and	NN	O	O
-neptunium	NN	O	B-Material
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-compounds	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-actinides	NN	O	B-Material
-(	NN	O	O
-or	NN	O	O
-actinoids	NN	O	B-Material
-)	NN	O	O
-are	NN	O	O
-located	NN	O	O
-at	NN	O	O
-the	NN	O	O
-end	NN	O	O
-of	NN	O	O
-the	NN	O	O
-periodic	NN	O	B-Process
-table	NN	O	I-Process
-(	NN	O	O
-N=89	NN	O	O
-(	NN	O	O
-Ac	NN	O	B-Material
-)	NN	O	O
-or	NN	O	O
-90	NN	O	O
-(	NN	O	O
-Th	NN	O	B-Material
-)	NN	O	O
-to	NN	O	O
-103	NN	O	O
-(	NN	O	O
-Lr	NN	O	B-Material
-)	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Transuranium	NN	O	B-Material
-elements	NN	O	I-Material
-(	NN	O	O
-or	NN	O	O
-transuranics	NN	O	B-Material
-)	NN	O	O
-are	NN	O	O
-the	NN	O	O
-chemical	NN	O	O
-elements	NN	O	O
-with	NN	O	O
-atomic	NN	O	O
-number	NN	O	O
-(	NN	O	O
-Z	NN	O	O
-)	NN	O	O
-greater	NN	O	O
-than	NN	O	O
-92	NN	O	O
-(	NN	O	O
-uranium	NN	O	B-Material
-)	NN	O	O
-and	NN	O	O
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-short	NN	O	O
-half	NN	O	O
--	NN	O	O
-life	NN	O	O
-on	NN	O	O
-a	NN	O	O
-geological	NN	O	O
-timescale	NN	O	O
-,	NN	O	O
-they	NN	O	O
-are	NN	O	O
-essentially	NN	O	O
-synthetic	NN	O	B-Material
-elements	NN	O	I-Material
-.	NN	O	O
-
-Above	NN	O	O
-Z=103	NN	O	O
-(	NN	O	O
-Lr	NN	O	B-Material
-)	NN	O	O
-,	NN	O	O
-one	NN	O	O
-talks	NN	O	O
-about	NN	O	O
-transactinides	NN	O	B-Material
-(	NN	O	O
-or	NN	O	O
-superactinides	NN	O	B-Material
-)	NN	O	O
-elements	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-latter	NN	O	O
-elements	NN	O	O
-have	NN	O	O
-extremely	NN	O	O
-short	NN	O	O
-half	NN	O	O
--	NN	O	O
-lives	NN	O	O
-and	NN	O	O
-no	NN	O	O
-macroscopic	NN	O	O
-quantity	NN	O	O
-is	NN	O	O
-available	NN	O	O
-for	NN	O	O
-the	NN	O	O
-study	NN	O	B-Task
-of	NN	O	I-Task
-condensed	NN	O	I-Task
--	NN	O	I-Task
-matter	NN	O	I-Task
-properties	NN	O	I-Task
-.	NN	O	O
+Superconductivity	0	17	B-Task
+in	18	20	I-Task
+actinides	21	30	I-Task
+was	31	34	O
+first	35	40	O
+observed	41	49	O
+in	50	52	O
+thorium	53	60	B-Material
+metal	61	66	I-Material
+in	67	69	O
+1929	70	74	O
+[	75	76	O
+7	76	77	O
+]	77	78	O
+,	78	79	O
+then	80	84	O
+in	85	87	O
+elemental	88	97	O
+uranium	98	105	B-Material
+in	106	108	O
+1942	109	113	O
+[	114	115	O
+8	115	116	O
+]	116	117	O
+,	117	118	O
+and	119	122	O
+in	123	125	O
+uranium	126	133	B-Material
+compounds	134	143	I-Material
+in	144	146	O
+1958	147	151	O
+[	152	153	O
+9	153	154	O
+]	154	155	O
+.	155	156	O
+
+A	157	158	O
+new	159	162	O
+class	163	168	O
+of	169	171	O
+uranium	172	179	B-Material
+superconductors	180	195	I-Material
+emerged	196	203	O
+in	204	206	O
+the	207	210	O
+1980	211	215	O
+'s	215	217	O
+with	218	222	O
+the	223	226	O
+discovery	227	236	O
+of	237	239	O
+uranium	240	247	B-Material
+heavy	248	253	I-Material
+fermion	254	261	I-Material
+superconductors	262	277	I-Material
+[	278	279	O
+10	279	281	O
+]	281	282	O
+.	282	283	O
+
+Further	284	291	O
+surprises	292	301	O
+came	302	306	O
+at	307	309	O
+the	310	313	O
+beginning	314	323	O
+of	324	326	O
+the	327	330	O
+century	331	338	O
+with	339	343	O
+the	344	347	O
+discovery	348	357	O
+of	358	360	O
+ferromagnetic	361	374	B-Material
+superconductors	375	390	I-Material
+in	391	393	O
+uranium	394	401	B-Material
+systems	402	409	O
+[	410	411	O
+11	411	413	O
+]	413	414	O
+and	415	418	O
+the	419	422	O
+first	423	428	O
+observation	429	440	O
+of	441	443	O
+superconductivity	444	461	B-Process
+in	462	464	O
+plutonium	465	474	B-Material
+[	475	476	O
+12	476	478	O
+]	478	479	O
+and	480	483	O
+neptunium	484	493	B-Material
+[	494	495	O
+13	495	497	O
+]	497	498	O
+compounds	499	508	O
+.	508	509	O
+
+The	510	513	O
+actinides	514	523	B-Material
+(	524	525	O
+or	525	527	O
+actinoids	528	537	B-Material
+)	537	538	O
+are	539	542	O
+located	543	550	O
+at	551	553	O
+the	554	557	O
+end	558	561	O
+of	562	564	O
+the	565	568	O
+periodic	569	577	B-Process
+table	578	583	I-Process
+(	584	585	O
+N=89	585	589	O
+(	590	591	O
+Ac	591	593	B-Material
+)	593	594	O
+or	595	597	O
+90	598	600	O
+(	601	602	O
+Th	602	604	B-Material
+)	604	605	O
+to	606	608	O
+103	609	612	O
+(	613	614	O
+Lr	614	616	B-Material
+)	616	617	O
+)	617	618	O
+.	618	619	O
+
+Transuranium	620	632	B-Material
+elements	633	641	I-Material
+(	642	643	O
+or	643	645	O
+transuranics	646	658	B-Material
+)	658	659	O
+are	660	663	O
+the	664	667	O
+chemical	668	676	O
+elements	677	685	O
+with	686	690	O
+atomic	691	697	O
+number	698	704	O
+(	705	706	O
+Z	706	707	O
+)	707	708	O
+greater	709	716	O
+than	717	721	O
+92	722	724	O
+(	725	726	O
+uranium	726	733	B-Material
+)	733	734	O
+and	735	738	O
+due	739	742	O
+to	743	745	O
+their	746	751	O
+short	752	757	O
+half	758	762	O
+-	762	763	O
+life	763	767	O
+on	768	770	O
+a	771	772	O
+geological	773	783	O
+timescale	784	793	O
+,	793	794	O
+they	795	799	O
+are	800	803	O
+essentially	804	815	O
+synthetic	816	825	B-Material
+elements	826	834	I-Material
+.	834	835	O
+
+Above	836	841	O
+Z=103	842	847	O
+(	848	849	O
+Lr	849	851	B-Material
+)	851	852	O
+,	852	853	O
+one	854	857	O
+talks	858	863	O
+about	864	869	O
+transactinides	870	884	B-Material
+(	885	886	O
+or	886	888	O
+superactinides	889	903	B-Material
+)	903	904	O
+elements	905	913	O
+.	913	914	O
+
+These	915	920	O
+latter	921	927	O
+elements	928	936	O
+have	937	941	O
+extremely	942	951	O
+short	952	957	O
+half	958	962	O
+-	962	963	O
+lives	963	968	O
+and	969	972	O
+no	973	975	O
+macroscopic	976	987	O
+quantity	988	996	O
+is	997	999	O
+available	1000	1009	O
+for	1010	1013	O
+the	1014	1017	O
+study	1018	1023	B-Task
+of	1024	1026	I-Task
+condensed	1027	1036	I-Task
+-	1036	1037	I-Task
+matter	1037	1043	I-Task
+properties	1044	1054	I-Task
+.	1054	1055	O
 
 
 -DOCSTART- (S167420011300196X)
 
-PV	NN	O	B-Task
-cells	NN	O	I-Task
-are	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-most	NN	O	O
-promising	NN	O	O
-technologies	NN	O	O
-for	NN	O	O
-conversion	NN	O	B-Process
-of	NN	O	I-Process
-incident	NN	O	I-Process
-solar	NN	O	I-Process
-radiation	NN	O	I-Process
-into	NN	O	I-Process
-electric	NN	O	I-Process
-power	NN	O	I-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-this	NN	O	O
-technology	NN	O	O
-is	NN	O	O
-still	NN	O	O
-far	NN	O	O
-from	NN	O	O
-being	NN	O	O
-able	NN	O	O
-to	NN	O	O
-compete	NN	O	O
-with	NN	O	O
-fossil	NN	O	B-Process
-fuel	NN	O	I-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-energy	NN	O	I-Process
-conversion	NN	O	I-Process
-technologies	NN	O	O
-because	NN	O	O
-of	NN	O	O
-its	NN	O	O
-relatively	NN	O	O
-low	NN	O	O
-efficiency	NN	O	O
-and	NN	O	O
-energy	NN	O	O
-density	NN	O	O
-.	NN	O	O
-
-Theoretically	NN	O	O
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-three	NN	O	O
-unavoidable	NN	O	O
-losses	NN	O	O
-that	NN	O	O
-limit	NN	O	O
-the	NN	O	O
-solar	NN	O	B-Process
-conversion	NN	O	I-Process
-efficiency	NN	O	O
-of	NN	O	O
-a	NN	O	O
-device	NN	O	O
-with	NN	O	O
-a	NN	O	O
-single	NN	O	O
-absorption	NN	O	B-Process
-threshold	NN	O	O
-or	NN	O	O
-band	NN	O	O
-gap	NN	O	O
-
-Eg	NN	O	O
-:	NN	O	O
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-incomplete	NN	O	B-Process
-absorption	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-photons	NN	O	B-Material
-with	NN	O	O
-energies	NN	O	O
-below	NN	O	O
-Eg	NN	O	O
-are	NN	O	O
-not	NN	O	O
-absorbed	NN	O	O
-;	NN	O	O
-(	NN	O	O
-2	NN	O	O
-)	NN	O	O
-thermalization	NN	O	B-Process
-or	NN	O	O
-carrier	NN	O	B-Process
-cooling	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-solar	NN	O	B-Material
-photons	NN	O	I-Material
-with	NN	O	O
-sufficient	NN	O	O
-energy	NN	O	O
-generate	NN	O	O
-electron	NN	O	B-Material
--	NN	O	I-Material
-hole	NN	O	I-Material
-pairs	NN	O	I-Material
-and	NN	O	O
-then	NN	O	O
-immediately	NN	O	O
-lose	NN	O	O
-almost	NN	O	O
-all	NN	O	O
-energy	NN	O	O
-in	NN	O	O
-excess	NN	O	O
-of	NN	O	O
-Eg	NN	O	O
-in	NN	O	O
-the	NN	O	O
-form	NN	O	O
-of	NN	O	O
-heat	NN	O	O
-;	NN	O	O
-and	NN	O	O
-(	NN	O	O
-3	NN	O	O
-)	NN	O	O
-radiative	NN	O	B-Process
-recombination	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-a	NN	O	O
-small	NN	O	O
-fraction	NN	O	O
-of	NN	O	O
-the	NN	O	O
-excited	NN	O	O
-states	NN	O	O
-radioactively	NN	O	O
-recombine	NN	O	O
-with	NN	O	O
-the	NN	O	O
-ground	NN	O	O
-state	NN	O	O
-at	NN	O	O
-the	NN	O	O
-maximum	NN	O	O
-power	NN	O	O
-output	NN	O	O
-(	NN	O	O
-Hanna	NN	O	O
-&	NN	O	O
-Nozik	NN	O	O
-,	NN	O	O
-2006	NN	O	O
-;	NN	O	O
-Henry	NN	O	O
-,	NN	O	O
-1980	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Taking	NN	O	O
-an	NN	O	O
-air	NN	O	O
-mass	NN	O	O
-of	NN	O	O
-1.5	NN	O	O
-as	NN	O	O
-an	NN	O	O
-example	NN	O	O
-,	NN	O	O
-for	NN	O	O
-different	NN	O	O
-band	NN	O	O
-gap	NN	O	O
-
-Eg	NN	O	O
-these	NN	O	O
-three	NN	O	O
-losses	NN	O	O
-can	NN	O	O
-be	NN	O	O
-calculated	NN	O	O
-and	NN	O	O
-the	NN	O	O
-results	NN	O	O
-are	NN	O	O
-indicated	NN	O	O
-by	NN	O	O
-areas	NN	O	O
-S1	NN	O	O
-,	NN	O	O
-S2	NN	O	O
-,	NN	O	O
-and	NN	O	O
-S3	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-.	NN	O	O
-
-Note	NN	O	O
-that	NN	O	O
-the	NN	O	O
-area	NN	O	O
-under	NN	O	O
-the	NN	O	O
-outer	NN	O	O
-curve	NN	O	O
-is	NN	O	O
-the	NN	O	O
-solar	NN	O	B-Process
-power	NN	O	I-Process
-per	NN	O	O
-unit	NN	O	O
-area	NN	O	O
-,	NN	O	O
-and	NN	O	O
-that	NN	O	O
-only	NN	O	O
-S4	NN	O	O
-can	NN	O	O
-be	NN	O	O
-delivered	NN	O	O
-to	NN	O	O
-the	NN	O	O
-load	NN	O	O
-.	NN	O	O
+PV	0	2	B-Task
+cells	3	8	I-Task
+are	9	12	O
+one	13	16	O
+of	17	19	O
+the	20	23	O
+most	24	28	O
+promising	29	38	O
+technologies	39	51	O
+for	52	55	O
+conversion	56	66	B-Process
+of	67	69	I-Process
+incident	70	78	I-Process
+solar	79	84	I-Process
+radiation	85	94	I-Process
+into	95	99	I-Process
+electric	100	108	I-Process
+power	109	114	I-Process
+.	114	115	O
+
+However	116	123	O
+,	123	124	O
+this	125	129	O
+technology	130	140	O
+is	141	143	O
+still	144	149	O
+far	150	153	O
+from	154	158	O
+being	159	164	O
+able	165	169	O
+to	170	172	O
+compete	173	180	O
+with	181	185	O
+fossil	186	192	B-Process
+fuel	193	197	I-Process
+-	197	198	I-Process
+based	198	203	I-Process
+energy	204	210	I-Process
+conversion	211	221	I-Process
+technologies	222	234	O
+because	235	242	O
+of	243	245	O
+its	246	249	O
+relatively	250	260	O
+low	261	264	O
+efficiency	265	275	O
+and	276	279	O
+energy	280	286	O
+density	287	294	O
+.	294	295	O
+
+Theoretically	296	309	O
+,	309	310	O
+there	311	316	O
+are	317	320	O
+three	321	326	O
+unavoidable	327	338	O
+losses	339	345	O
+that	346	350	O
+limit	351	356	O
+the	357	360	O
+solar	361	366	B-Process
+conversion	367	377	I-Process
+efficiency	378	388	O
+of	389	391	O
+a	392	393	O
+device	394	400	O
+with	401	405	O
+a	406	407	O
+single	408	414	O
+absorption	415	425	B-Process
+threshold	426	435	O
+or	436	438	O
+band	439	443	O
+gap	444	447	O
+
+Eg	448	450	O
+:	450	451	O
+(	452	453	O
+1	453	454	O
+)	454	455	O
+incomplete	456	466	B-Process
+absorption	467	477	I-Process
+,	477	478	O
+where	479	484	O
+photons	485	492	B-Material
+with	493	497	O
+energies	498	506	O
+below	507	512	O
+Eg	513	515	O
+are	516	519	O
+not	520	523	O
+absorbed	524	532	O
+;	532	533	O
+(	534	535	O
+2	535	536	O
+)	536	537	O
+thermalization	538	552	B-Process
+or	553	555	O
+carrier	556	563	B-Process
+cooling	564	571	I-Process
+,	571	572	O
+where	573	578	O
+solar	579	584	B-Material
+photons	585	592	I-Material
+with	593	597	O
+sufficient	598	608	O
+energy	609	615	O
+generate	616	624	O
+electron	625	633	B-Material
+-	633	634	I-Material
+hole	634	638	I-Material
+pairs	639	644	I-Material
+and	645	648	O
+then	649	653	O
+immediately	654	665	O
+lose	666	670	O
+almost	671	677	O
+all	678	681	O
+energy	682	688	O
+in	689	691	O
+excess	692	698	O
+of	699	701	O
+Eg	702	704	O
+in	705	707	O
+the	708	711	O
+form	712	716	O
+of	717	719	O
+heat	720	724	O
+;	724	725	O
+and	726	729	O
+(	730	731	O
+3	731	732	O
+)	732	733	O
+radiative	734	743	B-Process
+recombination	744	757	I-Process
+,	757	758	O
+where	759	764	O
+a	765	766	O
+small	767	772	O
+fraction	773	781	O
+of	782	784	O
+the	785	788	O
+excited	789	796	O
+states	797	803	O
+radioactively	804	817	O
+recombine	818	827	O
+with	828	832	O
+the	833	836	O
+ground	837	843	O
+state	844	849	O
+at	850	852	O
+the	853	856	O
+maximum	857	864	O
+power	865	870	O
+output	871	877	O
+(	878	879	O
+Hanna	879	884	O
+&	885	886	O
+Nozik	887	892	O
+,	892	893	O
+2006	894	898	O
+;	898	899	O
+Henry	900	905	O
+,	905	906	O
+1980	907	911	O
+)	911	912	O
+.	912	913	O
+
+Taking	914	920	O
+an	921	923	O
+air	924	927	O
+mass	928	932	O
+of	933	935	O
+1.5	936	939	O
+as	940	942	O
+an	943	945	O
+example	946	953	O
+,	953	954	O
+for	955	958	O
+different	959	968	O
+band	969	973	O
+gap	974	977	O
+
+Eg	978	980	O
+these	981	986	O
+three	987	992	O
+losses	993	999	O
+can	1000	1003	O
+be	1004	1006	O
+calculated	1007	1017	O
+and	1018	1021	O
+the	1022	1025	O
+results	1026	1033	O
+are	1034	1037	O
+indicated	1038	1047	O
+by	1048	1050	O
+areas	1051	1056	O
+S1	1057	1059	O
+,	1059	1060	O
+S2	1061	1063	O
+,	1063	1064	O
+and	1065	1068	O
+S3	1069	1071	O
+in	1072	1074	O
+Fig	1075	1078	O
+.	1078	1079	O
+
+1	1080	1081	O
+.	1081	1082	O
+
+Note	1083	1087	O
+that	1088	1092	O
+the	1093	1096	O
+area	1097	1101	O
+under	1102	1107	O
+the	1108	1111	O
+outer	1112	1117	O
+curve	1118	1123	O
+is	1124	1126	O
+the	1127	1130	O
+solar	1131	1136	B-Process
+power	1137	1142	I-Process
+per	1143	1146	O
+unit	1147	1151	O
+area	1152	1156	O
+,	1156	1157	O
+and	1158	1161	O
+that	1162	1166	O
+only	1167	1171	O
+S4	1172	1174	O
+can	1175	1178	O
+be	1179	1181	O
+delivered	1182	1191	O
+to	1192	1194	O
+the	1195	1198	O
+load	1199	1203	O
+.	1203	1204	O
 
 
 -DOCSTART- (S1687850714000405)
 
-Xylanases	NN	O	B-Material
-have	NN	O	O
-potential	NN	O	O
-applications	NN	O	O
-in	NN	O	O
-various	NN	O	O
-fields	NN	O	O
-.	NN	O	O
-
-Some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-important	NN	O	O
-applications	NN	O	O
-are	NN	O	O
-as	NN	O	O
-fallows	NN	O	O
-.	NN	O	O
-
-Xylanases	NN	O	B-Material
-are	NN	O	O
-used	NN	O	O
-as	NN	O	O
-bleaching	NN	O	B-Material
-agent	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-pulp	NN	O	B-Task
-and	NN	O	I-Task
-paper	NN	O	I-Task
-industry	NN	O	I-Task
-.	NN	O	O
-
-Mostly	NN	O	O
-they	NN	O	O
-are	NN	O	O
-used	NN	O	O
-to	NN	O	O
-hydrolyzed	NN	O	B-Process
-the	NN	O	I-Process
-xylan	NN	O	I-Process
-component	NN	O	I-Process
-from	NN	O	O
-wood	NN	O	B-Material
-which	NN	O	O
-facilitate	NN	O	O
-in	NN	O	O
-removal	NN	O	B-Process
-of	NN	O	I-Process
-lignin	NN	O	I-Process
-(	NN	O	O
-Viikari	NN	O	O
-,	NN	O	O
-Kantelinen	NN	O	O
-,	NN	O	O
-Buchert	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Puls	NN	O	O
-,	NN	O	O
-1994	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-also	NN	O	O
-helps	NN	O	O
-in	NN	O	O
-brightening	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-pulp	NN	O	I-Process
-to	NN	O	O
-avoid	NN	O	O
-the	NN	O	O
-chlorine	NN	O	B-Process
-free	NN	O	I-Process
-bleaching	NN	O	I-Process
-operations	NN	O	I-Process
-(	NN	O	O
-Paice	NN	O	O
-,	NN	O	O
-Jurasek	NN	O	O
-,	NN	O	O
-Ho	NN	O	O
-,	NN	O	O
-Bourbonnais	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Archibald	NN	O	O
-,	NN	O	O
-1989	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-bakeries	NN	O	O
-the	NN	O	O
-xylanase	NN	O	B-Material
-act	NN	O	O
-on	NN	O	O
-the	NN	O	O
-gluten	NN	O	O
-fraction	NN	O	O
-of	NN	O	O
-the	NN	O	O
-dough	NN	O	O
-and	NN	O	O
-help	NN	O	O
-in	NN	O	O
-the	NN	O	O
-even	NN	O	B-Process
-redistribution	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-water	NN	O	I-Process
-content	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-bread	NN	O	I-Process
-(	NN	O	O
-Wong	NN	O	O
-&	NN	O	O
-Saddler	NN	O	O
-,	NN	O	O
-1992	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Xylanases	NN	O	B-Material
-also	NN	O	O
-have	NN	O	O
-potential	NN	O	O
-application	NN	O	O
-in	NN	O	O
-animal	NN	O	B-Task
-feed	NN	O	I-Task
-industry	NN	O	I-Task
-.	NN	O	O
-
-They	NN	O	O
-are	NN	O	O
-used	NN	O	O
-for	NN	O	O
-the	NN	O	O
-hydrolysis	NN	O	B-Task
-of	NN	O	I-Task
-non	NN	O	I-Task
--	NN	O	I-Task
-starchy	NN	O	I-Task
-polysaccharides	NN	O	I-Task
-such	NN	O	O
-as	NN	O	O
-arabinoxylan	NN	O	B-Material
-in	NN	O	O
-monogastric	NN	O	O
-diets	NN	O	O
-(	NN	O	O
-Walsh	NN	O	O
-,	NN	O	O
-Power	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Headon	NN	O	O
-,	NN	O	O
-1993	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Xylanases	NN	O	B-Material
-also	NN	O	O
-play	NN	O	O
-a	NN	O	O
-key	NN	O	O
-role	NN	O	O
-in	NN	O	O
-the	NN	O	O
-maceration	NN	O	B-Task
-of	NN	O	I-Task
-vegetable	NN	O	I-Task
-matter	NN	O	I-Task
-(	NN	O	O
-Beck	NN	O	O
-&	NN	O	O
-Scoot	NN	O	O
-,	NN	O	O
-1974	NN	O	O
-)	NN	O	O
-,	NN	O	O
-protoplastation	NN	O	B-Task
-of	NN	O	I-Task
-plant	NN	O	I-Task
-cells	NN	O	I-Task
-,	NN	O	O
-clarification	NN	O	B-Task
-of	NN	O	I-Task
-juices	NN	O	I-Task
-and	NN	O	I-Task
-wine	NN	O	I-Task
-(	NN	O	O
-Biely	NN	O	O
-,	NN	O	O
-1985	NN	O	O
-)	NN	O	O
-liquefaction	NN	O	B-Task
-of	NN	O	I-Task
-coffee	NN	O	I-Task
-mucilage	NN	O	I-Task
-for	NN	O	O
-making	NN	O	B-Task
-liquid	NN	O	I-Task
-coffee	NN	O	I-Task
-,	NN	O	O
-recovery	NN	O	B-Task
-of	NN	O	I-Task
-oil	NN	O	I-Task
-from	NN	O	I-Task
-subterranian	NN	O	I-Task
-mines	NN	O	I-Task
-,	NN	O	O
-extraction	NN	O	B-Task
-of	NN	O	I-Task
-flavors	NN	O	I-Task
-and	NN	O	I-Task
-pigments	NN	O	I-Task
-,	NN	O	I-Task
-plant	NN	O	I-Task
-oils	NN	O	I-Task
-and	NN	O	I-Task
-starch	NN	O	I-Task
-(	NN	O	O
-McCleary	NN	O	O
-,	NN	O	O
-1986	NN	O	O
-)	NN	O	O
-and	NN	O	O
-to	NN	O	O
-improve	NN	O	O
-the	NN	O	O
-efficiency	NN	O	B-Task
-of	NN	O	I-Task
-agricultural	NN	O	I-Task
-silage	NN	O	I-Task
-production	NN	O	I-Task
-(	NN	O	O
-Wong	NN	O	O
-&	NN	O	O
-Saddler	NN	O	O
-,	NN	O	O
-1992	NN	O	O
-)	NN	O	O
-.	NN	O	O
+Xylanases	0	9	B-Material
+have	10	14	O
+potential	15	24	O
+applications	25	37	O
+in	38	40	O
+various	41	48	O
+fields	49	55	O
+.	55	56	O
+
+Some	57	61	O
+of	62	64	O
+the	65	68	O
+important	69	78	O
+applications	79	91	O
+are	92	95	O
+as	96	98	O
+fallows	99	106	O
+.	106	107	O
+
+Xylanases	108	117	B-Material
+are	118	121	O
+used	122	126	O
+as	127	129	O
+bleaching	130	139	B-Material
+agent	140	145	I-Material
+in	146	148	O
+the	149	152	O
+pulp	153	157	B-Task
+and	158	161	I-Task
+paper	162	167	I-Task
+industry	168	176	I-Task
+.	176	177	O
+
+Mostly	178	184	O
+they	185	189	O
+are	190	193	O
+used	194	198	O
+to	199	201	O
+hydrolyzed	202	212	B-Process
+the	213	216	I-Process
+xylan	217	222	I-Process
+component	223	232	I-Process
+from	233	237	O
+wood	238	242	B-Material
+which	243	248	O
+facilitate	249	259	O
+in	260	262	O
+removal	263	270	B-Process
+of	271	273	I-Process
+lignin	274	280	I-Process
+(	281	282	O
+Viikari	282	289	O
+,	289	290	O
+Kantelinen	291	301	O
+,	301	302	O
+Buchert	303	310	O
+,	310	311	O
+&	312	313	O
+Puls	314	318	O
+,	318	319	O
+1994	320	324	O
+)	324	325	O
+.	325	326	O
+
+It	327	329	O
+also	330	334	O
+helps	335	340	O
+in	341	343	O
+brightening	344	355	B-Process
+of	356	358	I-Process
+the	359	362	I-Process
+pulp	363	367	I-Process
+to	368	370	O
+avoid	371	376	O
+the	377	380	O
+chlorine	381	389	B-Process
+free	390	394	I-Process
+bleaching	395	404	I-Process
+operations	405	415	I-Process
+(	416	417	O
+Paice	417	422	O
+,	422	423	O
+Jurasek	424	431	O
+,	431	432	O
+Ho	433	435	O
+,	435	436	O
+Bourbonnais	437	448	O
+,	448	449	O
+&	450	451	O
+Archibald	452	461	O
+,	461	462	O
+1989	463	467	O
+)	467	468	O
+.	468	469	O
+
+In	470	472	O
+bakeries	473	481	O
+the	482	485	O
+xylanase	486	494	B-Material
+act	495	498	O
+on	499	501	O
+the	502	505	O
+gluten	506	512	O
+fraction	513	521	O
+of	522	524	O
+the	525	528	O
+dough	529	534	O
+and	535	538	O
+help	539	543	O
+in	544	546	O
+the	547	550	O
+even	551	555	B-Process
+redistribution	556	570	I-Process
+of	571	573	I-Process
+the	574	577	I-Process
+water	578	583	I-Process
+content	584	591	I-Process
+of	592	594	I-Process
+the	595	598	I-Process
+bread	599	604	I-Process
+(	605	606	O
+Wong	606	610	O
+&	611	612	O
+Saddler	613	620	O
+,	620	621	O
+1992	622	626	O
+)	626	627	O
+.	627	628	O
+
+Xylanases	629	638	B-Material
+also	639	643	O
+have	644	648	O
+potential	649	658	O
+application	659	670	O
+in	671	673	O
+animal	674	680	B-Task
+feed	681	685	I-Task
+industry	686	694	I-Task
+.	694	695	O
+
+They	696	700	O
+are	701	704	O
+used	705	709	O
+for	710	713	O
+the	714	717	O
+hydrolysis	718	728	B-Task
+of	729	731	I-Task
+non	732	735	I-Task
+-	735	736	I-Task
+starchy	736	743	I-Task
+polysaccharides	744	759	I-Task
+such	760	764	O
+as	765	767	O
+arabinoxylan	768	780	B-Material
+in	781	783	O
+monogastric	784	795	O
+diets	796	801	O
+(	802	803	O
+Walsh	803	808	O
+,	808	809	O
+Power	810	815	O
+,	815	816	O
+&	817	818	O
+Headon	819	825	O
+,	825	826	O
+1993	827	831	O
+)	831	832	O
+.	832	833	O
+
+Xylanases	834	843	B-Material
+also	844	848	O
+play	849	853	O
+a	854	855	O
+key	856	859	O
+role	860	864	O
+in	865	867	O
+the	868	871	O
+maceration	872	882	B-Task
+of	883	885	I-Task
+vegetable	886	895	I-Task
+matter	896	902	I-Task
+(	903	904	O
+Beck	904	908	O
+&	909	910	O
+Scoot	911	916	O
+,	916	917	O
+1974	918	922	O
+)	922	923	O
+,	923	924	O
+protoplastation	925	940	B-Task
+of	941	943	I-Task
+plant	944	949	I-Task
+cells	950	955	I-Task
+,	955	956	O
+clarification	957	970	B-Task
+of	971	973	I-Task
+juices	974	980	I-Task
+and	981	984	I-Task
+wine	985	989	I-Task
+(	990	991	O
+Biely	991	996	O
+,	996	997	O
+1985	998	1002	O
+)	1002	1003	O
+liquefaction	1004	1016	B-Task
+of	1017	1019	I-Task
+coffee	1020	1026	I-Task
+mucilage	1027	1035	I-Task
+for	1036	1039	O
+making	1040	1046	B-Task
+liquid	1047	1053	I-Task
+coffee	1054	1060	I-Task
+,	1060	1061	O
+recovery	1062	1070	B-Task
+of	1071	1073	I-Task
+oil	1074	1077	I-Task
+from	1078	1082	I-Task
+subterranian	1083	1095	I-Task
+mines	1096	1101	I-Task
+,	1101	1102	O
+extraction	1103	1113	B-Task
+of	1114	1116	I-Task
+flavors	1117	1124	I-Task
+and	1125	1128	I-Task
+pigments	1129	1137	I-Task
+,	1137	1138	I-Task
+plant	1139	1144	I-Task
+oils	1145	1149	I-Task
+and	1150	1153	I-Task
+starch	1154	1160	I-Task
+(	1161	1162	O
+McCleary	1162	1170	O
+,	1170	1171	O
+1986	1172	1176	O
+)	1176	1177	O
+and	1178	1181	O
+to	1182	1184	O
+improve	1185	1192	O
+the	1193	1196	O
+efficiency	1197	1207	B-Task
+of	1208	1210	I-Task
+agricultural	1211	1223	I-Task
+silage	1224	1230	I-Task
+production	1231	1241	I-Task
+(	1242	1243	O
+Wong	1243	1247	O
+&	1248	1249	O
+Saddler	1250	1257	O
+,	1257	1258	O
+1992	1259	1263	O
+)	1263	1264	O
+.	1264	1265	O
 
 
 -DOCSTART- (S1746809416300933)
 
-ObjectiveElectrically	NN	O	B-Material
-evoked	NN	O	I-Material
-auditory	NN	O	I-Material
-steady	NN	O	I-Material
--	NN	O	I-Material
-state	NN	O	I-Material
-responses	NN	O	I-Material
-(	NN	O	O
-EASSRs	NN	O	B-Material
-)	NN	O	O
-are	NN	O	O
-neural	NN	O	B-Material
-potentials	NN	O	I-Material
-measured	NN	O	O
-in	NN	O	O
-the	NN	O	O
-electroencephalogram	NN	O	B-Process
-(	NN	O	O
-EEG	NN	O	B-Process
-)	NN	O	O
-in	NN	O	O
-response	NN	O	O
-to	NN	O	O
-periodic	NN	O	O
-pulse	NN	O	O
-trains	NN	O	O
-presented	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-,	NN	O	O
-through	NN	O	O
-a	NN	O	O
-cochlear	NN	O	B-Process
-implant	NN	O	I-Process
-(	NN	O	O
-CI	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
-
-EASSRs	NN	O	B-Material
-could	NN	O	O
-potentially	NN	O	O
-be	NN	O	O
-used	NN	O	O
-for	NN	O	O
-objective	NN	O	O
-CI	NN	O	B-Process
-fitting	NN	O	I-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-EEG	NN	O	B-Process
-signals	NN	O	I-Process
-are	NN	O	O
-contaminated	NN	O	O
-with	NN	O	O
-electrical	NN	O	O
-CI	NN	O	B-Process
-artifacts	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-characterized	NN	O	B-Task
-the	NN	O	I-Task
-CI	NN	O	I-Task
-artifacts	NN	O	I-Task
-for	NN	O	I-Task
-monopolar	NN	O	I-Task
-mode	NN	O	I-Task
-stimulation	NN	O	I-Task
-and	NN	O	O
-evaluated	NN	O	O
-at	NN	O	O
-which	NN	O	O
-pulse	NN	O	O
-rate	NN	O	O
-,	NN	O	O
-linear	NN	O	B-Task
-interpolation	NN	O	I-Task
-over	NN	O	O
-the	NN	O	O
-signal	NN	O	O
-part	NN	O	O
-contaminated	NN	O	O
-with	NN	O	O
-CI	NN	O	B-Process
-artifact	NN	O	I-Process
-is	NN	O	O
-successful	NN	O	O
-.	NN	O	O
-
-MethodsCI	NN	O	O
-artifacts	NN	O	O
-were	NN	O	O
-characterized	NN	O	O
-by	NN	O	O
-means	NN	O	O
-of	NN	O	O
-their	NN	O	O
-amplitude	NN	O	O
-growth	NN	O	O
-functions	NN	O	O
-and	NN	O	O
-duration	NN	O	O
-.	NN	O	O
-
-ResultsCI	NN	O	B-Process
-artifact	NN	O	I-Process
-durations	NN	O	O
-were	NN	O	O
-between	NN	O	O
-0.7	NN	O	O
-and	NN	O	O
-1.7ms	NN	O	O
-,	NN	O	O
-at	NN	O	O
-contralateral	NN	O	B-Process
-recording	NN	O	I-Process
-electrodes	NN	O	I-Process
-.	NN	O	O
-
-At	NN	O	O
-ipsilateral	NN	O	B-Process
-recording	NN	O	I-Process
-electrodes	NN	O	I-Process
-,	NN	O	O
-CI	NN	O	B-Process
-artifact	NN	O	I-Process
-durations	NN	O	O
-are	NN	O	O
-range	NN	O	O
-from	NN	O	O
-0.7	NN	O	O
-to	NN	O	O
-larger	NN	O	O
-than	NN	O	O
-2ms	NN	O	O
-.	NN	O	O
-
-ConclusionAt	NN	O	O
-contralateral	NN	O	B-Process
-recording	NN	O	I-Process
-electrodes	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-artifact	NN	O	O
-was	NN	O	O
-shorter	NN	O	O
-than	NN	O	O
-the	NN	O	O
-interpulse	NN	O	O
-interval	NN	O	O
-across	NN	O	O
-subjects	NN	O	O
-for	NN	O	O
-500pps	NN	O	O
-,	NN	O	O
-which	NN	O	O
-was	NN	O	O
-not	NN	O	O
-always	NN	O	O
-the	NN	O	O
-case	NN	O	O
-for	NN	O	O
-900pps	NN	O	O
-.	NN	O	O
-
-SignificanceCI	NN	O	B-Process
-artifact	NN	O	I-Process
--	NN	O	O
-free	NN	O	O
-EASSRs	NN	O	B-Material
-are	NN	O	O
-crucial	NN	O	O
-for	NN	O	O
-reliable	NN	O	O
-CI	NN	O	B-Process
-fitting	NN	O	I-Process
-and	NN	O	O
-neuroscience	NN	O	B-Task
-research	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-CI	NN	O	B-Process
-artifact	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-characterized	NN	O	O
-and	NN	O	O
-linear	NN	O	B-Task
-interpolation	NN	O	I-Task
-allows	NN	O	O
-to	NN	O	O
-remove	NN	O	O
-it	NN	O	O
-at	NN	O	O
-contralateral	NN	O	B-Process
-recording	NN	O	I-Process
-electrodes	NN	O	I-Process
-for	NN	O	O
-stimulation	NN	O	O
-at	NN	O	O
-500pps	NN	O	O
-.	NN	O	O
+ObjectiveElectrically	0	21	B-Material
+evoked	22	28	I-Material
+auditory	29	37	I-Material
+steady	38	44	I-Material
+-	44	45	I-Material
+state	45	50	I-Material
+responses	51	60	I-Material
+(	61	62	O
+EASSRs	62	68	B-Material
+)	68	69	O
+are	70	73	O
+neural	74	80	B-Material
+potentials	81	91	I-Material
+measured	92	100	O
+in	101	103	O
+the	104	107	O
+electroencephalogram	108	128	B-Process
+(	129	130	O
+EEG	130	133	B-Process
+)	133	134	O
+in	135	137	O
+response	138	146	O
+to	147	149	O
+periodic	150	158	O
+pulse	159	164	O
+trains	165	171	O
+presented	172	181	O
+,	181	182	O
+for	183	186	O
+example	187	194	O
+,	194	195	O
+through	196	203	O
+a	204	205	O
+cochlear	206	214	B-Process
+implant	215	222	I-Process
+(	223	224	O
+CI	224	226	B-Process
+)	226	227	O
+.	227	228	O
+
+EASSRs	229	235	B-Material
+could	236	241	O
+potentially	242	253	O
+be	254	256	O
+used	257	261	O
+for	262	265	O
+objective	266	275	O
+CI	276	278	B-Process
+fitting	279	286	I-Process
+.	286	287	O
+
+However	288	295	O
+,	295	296	O
+EEG	297	300	B-Process
+signals	301	308	I-Process
+are	309	312	O
+contaminated	313	325	O
+with	326	330	O
+electrical	331	341	O
+CI	342	344	B-Process
+artifacts	345	354	I-Process
+.	354	355	O
+
+In	356	358	O
+this	359	363	O
+paper	364	369	O
+,	369	370	O
+we	371	373	O
+characterized	374	387	B-Task
+the	388	391	I-Task
+CI	392	394	I-Task
+artifacts	395	404	I-Task
+for	405	408	I-Task
+monopolar	409	418	I-Task
+mode	419	423	I-Task
+stimulation	424	435	I-Task
+and	436	439	O
+evaluated	440	449	O
+at	450	452	O
+which	453	458	O
+pulse	459	464	O
+rate	465	469	O
+,	469	470	O
+linear	471	477	B-Task
+interpolation	478	491	I-Task
+over	492	496	O
+the	497	500	O
+signal	501	507	O
+part	508	512	O
+contaminated	513	525	O
+with	526	530	O
+CI	531	533	B-Process
+artifact	534	542	I-Process
+is	543	545	O
+successful	546	556	O
+.	556	557	O
+
+MethodsCI	557	566	O
+artifacts	567	576	O
+were	577	581	O
+characterized	582	595	O
+by	596	598	O
+means	599	604	O
+of	605	607	O
+their	608	613	O
+amplitude	614	623	O
+growth	624	630	O
+functions	631	640	O
+and	641	644	O
+duration	645	653	O
+.	653	654	O
+
+ResultsCI	654	663	B-Process
+artifact	664	672	I-Process
+durations	673	682	O
+were	683	687	O
+between	688	695	O
+0.7	696	699	O
+and	700	703	O
+1.7ms	704	709	O
+,	709	710	O
+at	711	713	O
+contralateral	714	727	B-Process
+recording	728	737	I-Process
+electrodes	738	748	I-Process
+.	748	749	O
+
+At	750	752	O
+ipsilateral	753	764	B-Process
+recording	765	774	I-Process
+electrodes	775	785	I-Process
+,	785	786	O
+CI	787	789	B-Process
+artifact	790	798	I-Process
+durations	799	808	O
+are	809	812	O
+range	813	818	O
+from	819	823	O
+0.7	824	827	O
+to	828	830	O
+larger	831	837	O
+than	838	842	O
+2ms	843	846	O
+.	846	847	O
+
+ConclusionAt	847	859	O
+contralateral	860	873	B-Process
+recording	874	883	I-Process
+electrodes	884	894	I-Process
+,	894	895	O
+the	896	899	O
+artifact	900	908	O
+was	909	912	O
+shorter	913	920	O
+than	921	925	O
+the	926	929	O
+interpulse	930	940	O
+interval	941	949	O
+across	950	956	O
+subjects	957	965	O
+for	966	969	O
+500pps	970	976	O
+,	976	977	O
+which	978	983	O
+was	984	987	O
+not	988	991	O
+always	992	998	O
+the	999	1002	O
+case	1003	1007	O
+for	1008	1011	O
+900pps	1012	1018	O
+.	1018	1019	O
+
+SignificanceCI	1019	1033	B-Process
+artifact	1034	1042	I-Process
+-	1042	1043	O
+free	1043	1047	O
+EASSRs	1048	1054	B-Material
+are	1055	1058	O
+crucial	1059	1066	O
+for	1067	1070	O
+reliable	1071	1079	O
+CI	1080	1082	B-Process
+fitting	1083	1090	I-Process
+and	1091	1094	O
+neuroscience	1095	1107	B-Task
+research	1108	1116	I-Task
+.	1116	1117	O
+
+The	1118	1121	O
+CI	1122	1124	B-Process
+artifact	1125	1133	I-Process
+has	1134	1137	O
+been	1138	1142	O
+characterized	1143	1156	O
+and	1157	1160	O
+linear	1161	1167	B-Task
+interpolation	1168	1181	I-Task
+allows	1182	1188	O
+to	1189	1191	O
+remove	1192	1198	O
+it	1199	1201	O
+at	1202	1204	O
+contralateral	1205	1218	B-Process
+recording	1219	1228	I-Process
+electrodes	1229	1239	I-Process
+for	1240	1243	O
+stimulation	1244	1255	O
+at	1256	1258	O
+500pps	1259	1265	O
+.	1265	1266	O
 
 
 -DOCSTART- (S1877750311000676)
 
-One	NN	O	O
-way	NN	O	O
-to	NN	O	O
-enforce	NN	O	O
-this	NN	O	O
-ratio	NN	O	O
-is	NN	O	O
-to	NN	O	O
-use	NN	O	O
-a	NN	O	O
-probabilistic	NN	O	B-Process
-,	NN	O	I-Process
-‘	NN	O	I-Process
-roulette	NN	O	I-Process
-wheel’	NN	O	I-Process
-style	NN	O	I-Process
-lane	NN	O	B-Task
-selection	NN	O	I-Task
-policy	NN	O	I-Task
-.	NN	O	O
-
-VISSIM	NN	O	B-Process
-,	NN	O	O
-along	NN	O	O
-with	NN	O	O
-most	NN	O	O
-simulation	NN	O	B-Process
-toolkits	NN	O	I-Process
-,	NN	O	O
-offers	NN	O	O
-methods	NN	O	O
-to	NN	O	O
-specify	NN	O	O
-probabilistic	NN	O	B-Process
-routing	NN	O	I-Process
-whereby	NN	O	O
-a	NN	O	O
-defined	NN	O	O
-percentage	NN	O	O
-of	NN	O	O
-vehicles	NN	O	O
-are	NN	O	O
-sent	NN	O	O
-down	NN	O	O
-unique	NN	O	O
-routes	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-a	NN	O	O
-piecewise	NN	O	B-Process
-technique	NN	O	I-Process
-that	NN	O	O
-can	NN	O	O
-be	NN	O	O
-reapplied	NN	O	O
-at	NN	O	O
-various	NN	O	O
-locations	NN	O	O
-around	NN	O	O
-a	NN	O	O
-simulation	NN	O	B-Process
-.	NN	O	O
-
-While	NN	O	O
-these	NN	O	O
-methods	NN	O	O
-are	NN	O	O
-attractive	NN	O	O
-from	NN	O	O
-a	NN	O	O
-calibration	NN	O	O
-perspective	NN	O	O
-as	NN	O	O
-exact	NN	O	O
-representations	NN	O	O
-of	NN	O	O
-existing	NN	O	O
-statistics	NN	O	O
-can	NN	O	O
-be	NN	O	O
-ensured	NN	O	O
-,	NN	O	O
-the	NN	O	O
-process	NN	O	O
-is	NN	O	O
-an	NN	O	O
-unrealistic	NN	O	O
-one	NN	O	O
-as	NN	O	O
-it	NN	O	O
-assumes	NN	O	O
-that	NN	O	O
-drivers	NN	O	B-Material
-make	NN	O	O
-probabilistic	NN	O	O
-decisions	NN	O	O
-at	NN	O	O
-precise	NN	O	O
-locations	NN	O	O
-.	NN	O	O
-
-So	NN	O	O
-in	NN	O	O
-this	NN	O	O
-case	NN	O	O
-when	NN	O	O
-a	NN	O	O
-vehicle	NN	O	B-Material
-arrives	NN	O	O
-at	NN	O	O
-a	NN	O	O
-point	NN	O	O
-prior	NN	O	O
-to	NN	O	O
-the	NN	O	O
-weighbridges	NN	O	B-Material
-it	NN	O	O
-is	NN	O	O
-allocated	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-lanes	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-respective	NN	O	O
-probabilities	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-turns	NN	O	O
-out	NN	O	O
-that	NN	O	O
-this	NN	O	O
-method	NN	O	O
-leads	NN	O	O
-to	NN	O	O
-significant	NN	O	O
-variations	NN	O	O
-in	NN	O	O
-trip	NN	O	O
-times	NN	O	O
-depending	NN	O	O
-on	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-random	NN	O	O
-number	NN	O	O
-seed	NN	O	O
-,	NN	O	O
-this	NN	O	O
-can	NN	O	O
-be	NN	O	O
-seen	NN	O	O
-in	NN	O	O
-a	NN	O	O
-graphic	NN	O	O
-of	NN	O	O
-the	NN	O	O
-key	NN	O	O
-areas	NN	O	O
-of	NN	O	O
-the	NN	O	O
-simulation	NN	O	O
-for	NN	O	O
-the	NN	O	O
-2	NN	O	O
-different	NN	O	O
-runs	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-7	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-One	NN	O	O
-of	NN	O	O
-the	NN	O	O
-benefits	NN	O	O
-of	NN	O	O
-graphical	NN	O	B-Process
-microsimulation	NN	O	I-Process
-is	NN	O	O
-that	NN	O	O
-the	NN	O	O
-2D	NN	O	B-Process
-and	NN	O	I-Process
-3D	NN	O	I-Process
-simulations	NN	O	I-Process
-help	NN	O	O
-the	NN	O	O
-researcher	NN	O	O
-to	NN	O	O
-visualise	NN	O	O
-a	NN	O	O
-new	NN	O	O
-scheme	NN	O	O
-and	NN	O	O
-its	NN	O	O
-potential	NN	O	O
-benefits	NN	O	O
-but	NN	O	O
-also	NN	O	O
-to	NN	O	O
-highlight	NN	O	O
-unrealistic	NN	O	O
-behaviour	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-7	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-congestion	NN	O	O
-at	NN	O	O
-the	NN	O	O
-decision	NN	O	O
-point	NN	O	O
-for	NN	O	O
-2	NN	O	O
-different	NN	O	O
-runs	NN	O	O
-.	NN	O	O
-
-Using	NN	O	O
-probabilistic	NN	O	B-Process
-routing	NN	O	I-Process
-to	NN	O	O
-enforce	NN	O	O
-correct	NN	O	O
-routing	NN	O	O
-percentages	NN	O	O
-is	NN	O	O
-a	NN	O	O
-clear	NN	O	O
-case	NN	O	O
-of	NN	O	O
-overcalibration	NN	O	O
-affecting	NN	O	O
-simulation	NN	O	B-Process
-brittleness	NN	O	O
-.	NN	O	O
+One	0	3	O
+way	4	7	O
+to	8	10	O
+enforce	11	18	O
+this	19	23	O
+ratio	24	29	O
+is	30	32	O
+to	33	35	O
+use	36	39	O
+a	40	41	O
+probabilistic	42	55	B-Process
+,	55	56	I-Process
+‘	57	58	I-Process
+roulette	58	66	I-Process
+wheel’	67	73	I-Process
+style	74	79	I-Process
+lane	80	84	B-Task
+selection	85	94	I-Task
+policy	95	101	I-Task
+.	101	102	O
+
+VISSIM	103	109	B-Process
+,	109	110	O
+along	111	116	O
+with	117	121	O
+most	122	126	O
+simulation	127	137	B-Process
+toolkits	138	146	I-Process
+,	146	147	O
+offers	148	154	O
+methods	155	162	O
+to	163	165	O
+specify	166	173	O
+probabilistic	174	187	B-Process
+routing	188	195	I-Process
+whereby	196	203	O
+a	204	205	O
+defined	206	213	O
+percentage	214	224	O
+of	225	227	O
+vehicles	228	236	O
+are	237	240	O
+sent	241	245	O
+down	246	250	O
+unique	251	257	O
+routes	258	264	O
+.	264	265	O
+
+This	266	270	O
+is	271	273	O
+a	274	275	O
+piecewise	276	285	B-Process
+technique	286	295	I-Process
+that	296	300	O
+can	301	304	O
+be	305	307	O
+reapplied	308	317	O
+at	318	320	O
+various	321	328	O
+locations	329	338	O
+around	339	345	O
+a	346	347	O
+simulation	348	358	B-Process
+.	358	359	O
+
+While	360	365	O
+these	366	371	O
+methods	372	379	O
+are	380	383	O
+attractive	384	394	O
+from	395	399	O
+a	400	401	O
+calibration	402	413	O
+perspective	414	425	O
+as	426	428	O
+exact	429	434	O
+representations	435	450	O
+of	451	453	O
+existing	454	462	O
+statistics	463	473	O
+can	474	477	O
+be	478	480	O
+ensured	481	488	O
+,	488	489	O
+the	490	493	O
+process	494	501	O
+is	502	504	O
+an	505	507	O
+unrealistic	508	519	O
+one	520	523	O
+as	524	526	O
+it	527	529	O
+assumes	530	537	O
+that	538	542	O
+drivers	543	550	B-Material
+make	551	555	O
+probabilistic	556	569	O
+decisions	570	579	O
+at	580	582	O
+precise	583	590	O
+locations	591	600	O
+.	600	601	O
+
+So	602	604	O
+in	605	607	O
+this	608	612	O
+case	613	617	O
+when	618	622	O
+a	623	624	O
+vehicle	625	632	B-Material
+arrives	633	640	O
+at	641	643	O
+a	644	645	O
+point	646	651	O
+prior	652	657	O
+to	658	660	O
+the	661	664	O
+weighbridges	665	677	B-Material
+it	678	680	O
+is	681	683	O
+allocated	684	693	O
+one	694	697	O
+of	698	700	O
+the	701	704	O
+lanes	705	710	O
+based	711	716	O
+on	717	719	O
+the	720	723	O
+respective	724	734	O
+probabilities	735	748	O
+.	748	749	O
+
+It	750	752	O
+turns	753	758	O
+out	759	762	O
+that	763	767	O
+this	768	772	O
+method	773	779	O
+leads	780	785	O
+to	786	788	O
+significant	789	800	O
+variations	801	811	O
+in	812	814	O
+trip	815	819	O
+times	820	825	O
+depending	826	835	O
+on	836	838	O
+the	839	842	O
+initial	843	850	O
+random	851	857	O
+number	858	864	O
+seed	865	869	O
+,	869	870	O
+this	871	875	O
+can	876	879	O
+be	880	882	O
+seen	883	887	O
+in	888	890	O
+a	891	892	O
+graphic	893	900	O
+of	901	903	O
+the	904	907	O
+key	908	911	O
+areas	912	917	O
+of	918	920	O
+the	921	924	O
+simulation	925	935	O
+for	936	939	O
+the	940	943	O
+2	944	945	O
+different	946	955	O
+runs	956	960	O
+(	961	962	O
+Fig	962	965	O
+.	965	966	O
+
+7	967	968	O
+)	968	969	O
+.	969	970	O
+
+One	971	974	O
+of	975	977	O
+the	978	981	O
+benefits	982	990	O
+of	991	993	O
+graphical	994	1003	B-Process
+microsimulation	1004	1019	I-Process
+is	1020	1022	O
+that	1023	1027	O
+the	1028	1031	O
+2D	1032	1034	B-Process
+and	1035	1038	I-Process
+3D	1039	1041	I-Process
+simulations	1042	1053	I-Process
+help	1054	1058	O
+the	1059	1062	O
+researcher	1063	1073	O
+to	1074	1076	O
+visualise	1077	1086	O
+a	1087	1088	O
+new	1089	1092	O
+scheme	1093	1099	O
+and	1100	1103	O
+its	1104	1107	O
+potential	1108	1117	O
+benefits	1118	1126	O
+but	1127	1130	O
+also	1131	1135	O
+to	1136	1138	O
+highlight	1139	1148	O
+unrealistic	1149	1160	O
+behaviour	1161	1170	O
+.	1170	1171	O
+
+Fig	1172	1175	O
+.	1175	1176	O
+
+7	1177	1178	O
+shows	1179	1184	O
+the	1185	1188	O
+congestion	1189	1199	O
+at	1200	1202	O
+the	1203	1206	O
+decision	1207	1215	O
+point	1216	1221	O
+for	1222	1225	O
+2	1226	1227	O
+different	1228	1237	O
+runs	1238	1242	O
+.	1242	1243	O
+
+Using	1244	1249	O
+probabilistic	1250	1263	B-Process
+routing	1264	1271	I-Process
+to	1272	1274	O
+enforce	1275	1282	O
+correct	1283	1290	O
+routing	1291	1298	O
+percentages	1299	1310	O
+is	1311	1313	O
+a	1314	1315	O
+clear	1316	1321	O
+case	1322	1326	O
+of	1327	1329	O
+overcalibration	1330	1345	O
+affecting	1346	1355	O
+simulation	1356	1366	B-Process
+brittleness	1367	1378	O
+.	1378	1379	O
 
 
 -DOCSTART- (S1877750313000240)
 
-A	NN	O	O
-few	NN	O	O
-studies	NN	O	O
-within	NN	O	O
-the	NN	O	O
-physiological	NN	O	O
-domain	NN	O	O
-are	NN	O	O
-of	NN	O	O
-special	NN	O	O
-relevance	NN	O	O
-to	NN	O	O
-this	NN	O	O
-work	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-include	NN	O	O
-a	NN	O	O
-performance	NN	O	O
-analysis	NN	O	O
-of	NN	O	O
-a	NN	O	O
-blood	NN	O	B-Process
--	NN	O	I-Process
-flow	NN	O	I-Process
-LB	NN	O	I-Process
-solver	NN	O	I-Process
-using	NN	O	O
-a	NN	O	O
-range	NN	O	O
-of	NN	O	O
-sparse	NN	O	O
-and	NN	O	O
-non	NN	O	O
--	NN	O	O
-sparse	NN	O	O
-geometries	NN	O	O
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-and	NN	O	O
-a	NN	O	O
-performance	NN	O	B-Process
-prediction	NN	O	I-Process
-model	NN	O	I-Process
-for	NN	O	O
-lattice	NN	O	B-Process
--	NN	O	I-Process
-Boltzmann	NN	O	I-Process
-solvers	NN	O	I-Process
-[	NN	O	O
-22,23	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-performance	NN	O	B-Process
-prediction	NN	O	I-Process
-model	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-applied	NN	O	O
-largely	NN	O	O
-to	NN	O	O
-our	NN	O	O
-HemeLB	NN	O	B-Process
-application	NN	O	I-Process
-,	NN	O	O
-although	NN	O	O
-HemeLB	NN	O	B-Process
-uses	NN	O	O
-a	NN	O	O
-different	NN	O	O
-decomposition	NN	O	O
-technique	NN	O	O
-and	NN	O	O
-performs	NN	O	O
-real	NN	O	O
--	NN	O	O
-time	NN	O	O
-rendering	NN	O	O
-and	NN	O	O
-visualisation	NN	O	O
-tasks	NN	O	O
-during	NN	O	O
-the	NN	O	O
-LB	NN	O	B-Process
-simulations	NN	O	I-Process
-.	NN	O	O
-
-Mazzeo	NN	O	O
-and	NN	O	O
-Coveney	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-studied	NN	O	O
-the	NN	O	O
-scalability	NN	O	O
-of	NN	O	O
-an	NN	O	O
-earlier	NN	O	O
-version	NN	O	O
-of	NN	O	O
-HemeLB	NN	O	B-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-current	NN	O	O
-performance	NN	O	O
-characteristics	NN	O	O
-of	NN	O	O
-HemeLB	NN	O	B-Process
-are	NN	O	O
-substantially	NN	O	O
-enhanced	NN	O	O
-due	NN	O	O
-to	NN	O	O
-numerous	NN	O	O
-subsequent	NN	O	O
-advances	NN	O	O
-in	NN	O	O
-the	NN	O	O
-code	NN	O	O
-,	NN	O	O
-amongst	NN	O	O
-others	NN	O	O
-:	NN	O	O
-an	NN	O	O
-improved	NN	O	O
-hierarchical	NN	O	O
-,	NN	O	O
-compressed	NN	O	O
-file	NN	O	O
-format	NN	O	O
-;	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-ParMETIS	NN	O	B-Material
-to	NN	O	O
-ensure	NN	O	O
-good	NN	O	O
-load	NN	O	O
--	NN	O	O
-balance	NN	O	O
-;	NN	O	O
-the	NN	O	O
-coalesced	NN	O	B-Process
-communication	NN	O	I-Process
-patterns	NN	O	I-Process
-to	NN	O	O
-reduce	NN	O	O
-the	NN	O	O
-overhead	NN	O	O
-of	NN	O	O
-rendering	NN	O	B-Process
-;	NN	O	O
-use	NN	O	O
-of	NN	O	O
-compile	NN	O	B-Process
--	NN	O	I-Process
-time	NN	O	I-Process
-polymorphism	NN	O	I-Process
-to	NN	O	O
-avoid	NN	O	O
-virtual	NN	O	O
-function	NN	O	O
-calls	NN	O	O
-in	NN	O	O
-inner	NN	O	O
-loops	NN	O	O
-.	NN	O	O
+A	0	1	O
+few	2	5	O
+studies	6	13	O
+within	14	20	O
+the	21	24	O
+physiological	25	38	O
+domain	39	45	O
+are	46	49	O
+of	50	52	O
+special	53	60	O
+relevance	61	70	O
+to	71	73	O
+this	74	78	O
+work	79	83	O
+.	83	84	O
+
+These	85	90	O
+include	91	98	O
+a	99	100	O
+performance	101	112	O
+analysis	113	121	O
+of	122	124	O
+a	125	126	O
+blood	127	132	B-Process
+-	132	133	I-Process
+flow	133	137	I-Process
+LB	138	140	I-Process
+solver	141	147	I-Process
+using	148	153	O
+a	154	155	O
+range	156	161	O
+of	162	164	O
+sparse	165	171	O
+and	172	175	O
+non	176	179	O
+-	179	180	O
+sparse	180	186	O
+geometries	187	197	O
+[	198	199	O
+21	199	201	O
+]	201	202	O
+and	203	206	O
+a	207	208	O
+performance	209	220	B-Process
+prediction	221	231	I-Process
+model	232	237	I-Process
+for	238	241	O
+lattice	242	249	B-Process
+-	249	250	I-Process
+Boltzmann	250	259	I-Process
+solvers	260	267	I-Process
+[	268	269	O
+22,23	269	274	O
+]	274	275	O
+.	275	276	O
+
+This	277	281	O
+performance	282	293	B-Process
+prediction	294	304	I-Process
+model	305	310	I-Process
+can	311	314	O
+be	315	317	O
+applied	318	325	O
+largely	326	333	O
+to	334	336	O
+our	337	340	O
+HemeLB	341	347	B-Process
+application	348	359	I-Process
+,	359	360	O
+although	361	369	O
+HemeLB	370	376	B-Process
+uses	377	381	O
+a	382	383	O
+different	384	393	O
+decomposition	394	407	O
+technique	408	417	O
+and	418	421	O
+performs	422	430	O
+real	431	435	O
+-	435	436	O
+time	436	440	O
+rendering	441	450	O
+and	451	454	O
+visualisation	455	468	O
+tasks	469	474	O
+during	475	481	O
+the	482	485	O
+LB	486	488	B-Process
+simulations	489	500	I-Process
+.	500	501	O
+
+Mazzeo	502	508	O
+and	509	512	O
+Coveney	513	520	O
+[	521	522	O
+1	522	523	O
+]	523	524	O
+studied	525	532	O
+the	533	536	O
+scalability	537	548	O
+of	549	551	O
+an	552	554	O
+earlier	555	562	O
+version	563	570	O
+of	571	573	O
+HemeLB	574	580	B-Process
+.	580	581	O
+
+However	582	589	O
+,	589	590	O
+the	591	594	O
+current	595	602	O
+performance	603	614	O
+characteristics	615	630	O
+of	631	633	O
+HemeLB	634	640	B-Process
+are	641	644	O
+substantially	645	658	O
+enhanced	659	667	O
+due	668	671	O
+to	672	674	O
+numerous	675	683	O
+subsequent	684	694	O
+advances	695	703	O
+in	704	706	O
+the	707	710	O
+code	711	715	O
+,	715	716	O
+amongst	717	724	O
+others	725	731	O
+:	731	732	O
+an	733	735	O
+improved	736	744	O
+hierarchical	745	757	O
+,	757	758	O
+compressed	759	769	O
+file	770	774	O
+format	775	781	O
+;	781	782	O
+the	783	786	O
+use	787	790	O
+of	791	793	O
+ParMETIS	794	802	B-Material
+to	803	805	O
+ensure	806	812	O
+good	813	817	O
+load	818	822	O
+-	822	823	O
+balance	823	830	O
+;	830	831	O
+the	832	835	O
+coalesced	836	845	B-Process
+communication	846	859	I-Process
+patterns	860	868	I-Process
+to	869	871	O
+reduce	872	878	O
+the	879	882	O
+overhead	883	891	O
+of	892	894	O
+rendering	895	904	B-Process
+;	904	905	O
+use	906	909	O
+of	910	912	O
+compile	913	920	B-Process
+-	920	921	I-Process
+time	921	925	I-Process
+polymorphism	926	938	I-Process
+to	939	941	O
+avoid	942	947	O
+virtual	948	955	O
+function	956	964	O
+calls	965	970	O
+in	971	973	O
+inner	974	979	O
+loops	980	985	O
+.	985	986	O
 
 
 -DOCSTART- (S187775031300077X)
 
-Although	NN	O	O
-mean	NN	O	B-Process
--	NN	O	I-Process
-field	NN	O	I-Process
-models	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-used	NN	O	O
-in	NN	O	O
-all	NN	O	O
-these	NN	O	O
-settings	NN	O	O
-,	NN	O	O
-little	NN	O	O
-analysis	NN	O	O
-has	NN	O	O
-been	NN	O	O
-done	NN	O	O
-on	NN	O	O
-their	NN	O	O
-behaviour	NN	O	O
-as	NN	O	O
-spatially	NN	O	B-Task
-extended	NN	O	I-Task
-dynamical	NN	O	I-Task
-systems	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-part	NN	O	O
-,	NN	O	O
-this	NN	O	O
-is	NN	O	O
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-staggering	NN	O	O
-complexity	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Liley	NN	O	B-Process
-model	NN	O	I-Process
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-considered	NN	O	O
-here	NN	O	O
-,	NN	O	O
-for	NN	O	O
-instance	NN	O	O
-,	NN	O	O
-consists	NN	O	O
-of	NN	O	O
-fourteen	NN	O	O
-coupled	NN	O	O
-Partial	NN	O	B-Material
-Differential	NN	O	I-Material
-Equations	NN	O	I-Material
-(	NN	O	O
-PDEs	NN	O	B-Material
-)	NN	O	O
-with	NN	O	O
-strong	NN	O	O
-nonlinearities	NN	O	O
-,	NN	O	O
-imposed	NN	O	O
-by	NN	O	O
-coupling	NN	O	O
-between	NN	O	O
-the	NN	O	O
-mean	NN	O	O
-membrane	NN	O	B-Material
-potentials	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-mean	NN	O	O
-synaptic	NN	O	B-Material
-inputs	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-model	NN	O	O
-can	NN	O	O
-be	NN	O	O
-reduced	NN	O	O
-to	NN	O	O
-a	NN	O	O
-system	NN	O	O
-of	NN	O	O
-Ordinary	NN	O	B-Material
-Differential	NN	O	I-Material
-Equations	NN	O	I-Material
-(	NN	O	O
-ODEs	NN	O	B-Material
-)	NN	O	O
-by	NN	O	O
-considering	NN	O	O
-only	NN	O	O
-spatially	NN	O	O
-homogeneous	NN	O	O
-solutions	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-resulting	NN	O	O
-system	NN	O	O
-has	NN	O	O
-been	NN	O	O
-examined	NN	O	O
-in	NN	O	O
-detail	NN	O	O
-using	NN	O	O
-numerical	NN	O	B-Process
-bifurcation	NN	O	I-Process
-analysis	NN	O	I-Process
-(	NN	O	O
-see	NN	O	O
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-and	NN	O	O
-references	NN	O	O
-therein	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-compute	NN	O	O
-equilibria	NN	O	O
-,	NN	O	O
-periodic	NN	O	O
-orbits	NN	O	O
-and	NN	O	O
-such	NN	O	O
-objects	NN	O	O
-for	NN	O	O
-the	NN	O	O
-PDE	NN	O	B-Material
-model	NN	O	I-Material
-,	NN	O	O
-we	NN	O	O
-need	NN	O	O
-a	NN	O	O
-flexible	NN	O	O
-,	NN	O	O
-stable	NN	O	O
-simulation	NN	O	O
-code	NN	O	O
-for	NN	O	O
-the	NN	O	O
-model	NN	O	O
-and	NN	O	O
-its	NN	O	O
-linearization	NN	O	O
-that	NN	O	O
-can	NN	O	O
-run	NN	O	O
-in	NN	O	O
-parallel	NN	O	O
-to	NN	O	O
-scale	NN	O	O
-up	NN	O	O
-to	NN	O	O
-a	NN	O	O
-domain	NN	O	O
-size	NN	O	O
-of	NN	O	O
-about	NN	O	O
-2500cm2	NN	O	O
-,	NN	O	O
-the	NN	O	O
-size	NN	O	O
-of	NN	O	O
-a	NN	O	O
-full	NN	O	O
--	NN	O	O
-grown	NN	O	O
-human	NN	O	O
-cortex	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-also	NN	O	O
-need	NN	O	O
-efficient	NN	O	B-Task
-,	NN	O	I-Task
-iterative	NN	O	I-Task
-solvers	NN	O	I-Task
-for	NN	O	I-Task
-linear	NN	O	I-Task
-problems	NN	O	I-Task
-with	NN	O	I-Task
-large	NN	O	I-Task
-,	NN	O	I-Task
-sparse	NN	O	I-Task
-matrices	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-will	NN	O	O
-show	NN	O	O
-that	NN	O	O
-all	NN	O	O
-this	NN	O	O
-can	NN	O	O
-be	NN	O	O
-accomplished	NN	O	O
-in	NN	O	O
-the	NN	O	O
-open	NN	O	O
--	NN	O	O
-source	NN	O	O
-software	NN	O	O
-package	NN	O	O
-PETSc	NN	O	B-Material
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Our	NN	O	O
-implementation	NN	O	O
-consists	NN	O	O
-of	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-functions	NN	O	O
-in	NN	O	O
-C	NN	O	O
-that	NN	O	O
-are	NN	O	O
-available	NN	O	O
-publicly	NN	O	O
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Although	0	8	O
+mean	9	13	B-Process
+-	13	14	I-Process
+field	14	19	I-Process
+models	20	26	I-Process
+have	27	31	O
+been	32	36	O
+used	37	41	O
+in	42	44	O
+all	45	48	O
+these	49	54	O
+settings	55	63	O
+,	63	64	O
+little	65	71	O
+analysis	72	80	O
+has	81	84	O
+been	85	89	O
+done	90	94	O
+on	95	97	O
+their	98	103	O
+behaviour	104	113	O
+as	114	116	O
+spatially	117	126	B-Task
+extended	127	135	I-Task
+dynamical	136	145	I-Task
+systems	146	153	I-Task
+.	153	154	O
+
+In	155	157	O
+part	158	162	O
+,	162	163	O
+this	164	168	O
+is	169	171	O
+due	172	175	O
+to	176	178	O
+their	179	184	O
+staggering	185	195	O
+complexity	196	206	O
+.	206	207	O
+
+The	208	211	O
+Liley	212	217	B-Process
+model	218	223	I-Process
+[	224	225	O
+15	225	227	O
+]	227	228	O
+considered	229	239	O
+here	240	244	O
+,	244	245	O
+for	246	249	O
+instance	250	258	O
+,	258	259	O
+consists	260	268	O
+of	269	271	O
+fourteen	272	280	O
+coupled	281	288	O
+Partial	289	296	B-Material
+Differential	297	309	I-Material
+Equations	310	319	I-Material
+(	320	321	O
+PDEs	321	325	B-Material
+)	325	326	O
+with	327	331	O
+strong	332	338	O
+nonlinearities	339	353	O
+,	353	354	O
+imposed	355	362	O
+by	363	365	O
+coupling	366	374	O
+between	375	382	O
+the	383	386	O
+mean	387	391	O
+membrane	392	400	B-Material
+potentials	401	411	I-Material
+and	412	415	O
+the	416	419	O
+mean	420	424	O
+synaptic	425	433	B-Material
+inputs	434	440	I-Material
+.	440	441	O
+
+The	442	445	O
+model	446	451	O
+can	452	455	O
+be	456	458	O
+reduced	459	466	O
+to	467	469	O
+a	470	471	O
+system	472	478	O
+of	479	481	O
+Ordinary	482	490	B-Material
+Differential	491	503	I-Material
+Equations	504	513	I-Material
+(	514	515	O
+ODEs	515	519	B-Material
+)	519	520	O
+by	521	523	O
+considering	524	535	O
+only	536	540	O
+spatially	541	550	O
+homogeneous	551	562	O
+solutions	563	572	O
+,	572	573	O
+and	574	577	O
+the	578	581	O
+resulting	582	591	O
+system	592	598	O
+has	599	602	O
+been	603	607	O
+examined	608	616	O
+in	617	619	O
+detail	620	626	O
+using	627	632	O
+numerical	633	642	B-Process
+bifurcation	643	654	I-Process
+analysis	655	663	I-Process
+(	664	665	O
+see	665	668	O
+[	669	670	O
+16	670	672	O
+]	672	673	O
+and	674	677	O
+references	678	688	O
+therein	689	696	O
+)	696	697	O
+.	697	698	O
+
+In	699	701	O
+order	702	707	O
+to	708	710	O
+compute	711	718	O
+equilibria	719	729	O
+,	729	730	O
+periodic	731	739	O
+orbits	740	746	O
+and	747	750	O
+such	751	755	O
+objects	756	763	O
+for	764	767	O
+the	768	771	O
+PDE	772	775	B-Material
+model	776	781	I-Material
+,	781	782	O
+we	783	785	O
+need	786	790	O
+a	791	792	O
+flexible	793	801	O
+,	801	802	O
+stable	803	809	O
+simulation	810	820	O
+code	821	825	O
+for	826	829	O
+the	830	833	O
+model	834	839	O
+and	840	843	O
+its	844	847	O
+linearization	848	861	O
+that	862	866	O
+can	867	870	O
+run	871	874	O
+in	875	877	O
+parallel	878	886	O
+to	887	889	O
+scale	890	895	O
+up	896	898	O
+to	899	901	O
+a	902	903	O
+domain	904	910	O
+size	911	915	O
+of	916	918	O
+about	919	924	O
+2500cm2	925	932	O
+,	932	933	O
+the	934	937	O
+size	938	942	O
+of	943	945	O
+a	946	947	O
+full	948	952	O
+-	952	953	O
+grown	953	958	O
+human	959	964	O
+cortex	965	971	O
+.	971	972	O
+
+We	973	975	O
+also	976	980	O
+need	981	985	O
+efficient	986	995	B-Task
+,	995	996	I-Task
+iterative	997	1006	I-Task
+solvers	1007	1014	I-Task
+for	1015	1018	I-Task
+linear	1019	1025	I-Task
+problems	1026	1034	I-Task
+with	1035	1039	I-Task
+large	1040	1045	I-Task
+,	1045	1046	I-Task
+sparse	1047	1053	I-Task
+matrices	1054	1062	I-Task
+.	1062	1063	O
+
+In	1064	1066	O
+this	1067	1071	O
+paper	1072	1077	O
+,	1077	1078	O
+we	1079	1081	O
+will	1082	1086	O
+show	1087	1091	O
+that	1092	1096	O
+all	1097	1100	O
+this	1101	1105	O
+can	1106	1109	O
+be	1110	1112	O
+accomplished	1113	1125	O
+in	1126	1128	O
+the	1129	1132	O
+open	1133	1137	O
+-	1137	1138	O
+source	1138	1144	O
+software	1145	1153	O
+package	1154	1161	O
+PETSc	1162	1167	B-Material
+[	1168	1169	O
+17	1169	1171	O
+]	1171	1172	O
+.	1172	1173	O
+
+Our	1174	1177	O
+implementation	1178	1192	O
+consists	1193	1201	O
+of	1202	1204	O
+a	1205	1206	O
+number	1207	1213	O
+of	1214	1216	O
+functions	1217	1226	O
+in	1227	1229	O
+C	1230	1231	O
+that	1232	1236	O
+are	1237	1240	O
+available	1241	1250	O
+publicly	1251	1259	O
+[	1260	1261	O
+18	1261	1263	O
+]	1263	1264	O
+.	1264	1265	O
 
 
 -DOCSTART- (S1877750313001269)
 
-While	NN	O	O
-virtualization	NN	O	B-Process
-technologies	NN	O	I-Process
-certainly	NN	O	O
-reduce	NN	O	O
-the	NN	O	O
-complexity	NN	O	O
-of	NN	O	O
-using	NN	O	O
-a	NN	O	O
-system	NN	O	O
-,	NN	O	O
-and	NN	O	O
-especially	NN	O	O
-when	NN	O	O
-working	NN	O	O
-across	NN	O	O
-multiple	NN	O	O
-heterogeneous	NN	O	O
-computing	NN	O	O
-environments	NN	O	O
-,	NN	O	O
-they	NN	O	O
-are	NN	O	O
-not	NN	O	O
-widely	NN	O	O
-deployed	NN	O	O
-in	NN	O	O
-high	NN	O	B-Task
-performance	NN	O	I-Task
-computing	NN	O	I-Task
-scenarios	NN	O	I-Task
-.	NN	O	O
-
-As	NN	O	O
-its	NN	O	O
-name	NN	O	O
-suggest	NN	O	O
-,	NN	O	O
-HPC	NN	O	B-Process
-seeks	NN	O	O
-to	NN	O	O
-obtain	NN	O	O
-maximum	NN	O	O
-performance	NN	O	O
-from	NN	O	O
-computing	NN	O	O
-platforms	NN	O	O
-.	NN	O	O
-
-Extra	NN	O	O
-software	NN	O	O
-layers	NN	O	O
-impact	NN	O	O
-detrimentally	NN	O	O
-on	NN	O	O
-performance	NN	O	O
-,	NN	O	O
-meaning	NN	O	O
-that	NN	O	O
-in	NN	O	O
-HPC	NN	O	B-Process
-scenarios	NN	O	O
-users	NN	O	O
-typically	NN	O	O
-run	NN	O	O
-the	NN	O	O
-applications	NN	O	B-Material
-as	NN	O	O
-close	NN	O	O
-to	NN	O	O
-the	NN	O	O
-‘	NN	O	O
-bare	NN	O	O
-metal’	NN	O	O
-as	NN	O	O
-possible	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-to	NN	O	O
-the	NN	O	O
-performance	NN	O	O
-degradation	NN	O	O
-introduced	NN	O	O
-by	NN	O	O
-virtualization	NN	O	B-Process
-technologies	NN	O	I-Process
-,	NN	O	O
-choosing	NN	O	O
-what	NN	O	O
-details	NN	O	O
-to	NN	O	O
-abstract	NN	O	O
-in	NN	O	O
-a	NN	O	O
-virtualized	NN	O	B-Material
-interface	NN	O	I-Material
-is	NN	O	O
-itself	NN	O	O
-very	NN	O	O
-important	NN	O	O
-.	NN	O	O
-
-Grid	NN	O	B-Process
-and	NN	O	I-Process
-cloud	NN	O	I-Process
-computing	NN	O	I-Process
-support	NN	O	O
-different	NN	O	O
-interaction	NN	O	B-Process
-models	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-grid	NN	O	B-Process
-computing	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-user	NN	O	O
-interacts	NN	O	O
-with	NN	O	O
-an	NN	O	O
-individual	NN	O	O
-resource	NN	O	O
-(	NN	O	O
-or	NN	O	O
-sometimes	NN	O	O
-a	NN	O	O
-broker	NN	O	B-Material
-)	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-launch	NN	O	O
-jobs	NN	O	O
-into	NN	O	O
-a	NN	O	O
-queuing	NN	O	B-Process
-system	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-cloud	NN	O	B-Process
-computing	NN	O	I-Process
-,	NN	O	O
-users	NN	O	O
-interact	NN	O	O
-with	NN	O	O
-a	NN	O	O
-virtual	NN	O	B-Material
-server	NN	O	I-Material
-,	NN	O	O
-in	NN	O	O
-effect	NN	O	O
-putting	NN	O	O
-them	NN	O	O
-in	NN	O	O
-control	NN	O	O
-of	NN	O	O
-their	NN	O	O
-own	NN	O	O
-complete	NN	O	O
-operating	NN	O	O
-system	NN	O	O
-.	NN	O	O
-
-Both	NN	O	O
-of	NN	O	O
-these	NN	O	O
-interaction	NN	O	B-Process
-models	NN	O	I-Process
-put	NN	O	O
-the	NN	O	O
-onus	NN	O	O
-on	NN	O	O
-the	NN	O	O
-user	NN	O	O
-to	NN	O	O
-understand	NN	O	O
-very	NN	O	O
-specific	NN	O	O
-details	NN	O	O
-of	NN	O	O
-the	NN	O	O
-system	NN	O	O
-that	NN	O	O
-they	NN	O	O
-are	NN	O	O
-dealing	NN	O	O
-with	NN	O	O
-,	NN	O	O
-making	NN	O	O
-life	NN	O	O
-difficult	NN	O	O
-for	NN	O	O
-the	NN	O	O
-end	NN	O	O
-user	NN	O	O
-,	NN	O	O
-typically	NN	O	O
-a	NN	O	O
-scientist	NN	O	O
-who	NN	O	O
-wants	NN	O	O
-to	NN	O	O
-progress	NN	O	O
-his	NN	O	O
-or	NN	O	O
-her	NN	O	O
-scientific	NN	O	O
-investigations	NN	O	O
-without	NN	O	O
-any	NN	O	O
-specific	NN	O	O
-usability	NN	O	O
-hurdles	NN	O	O
-obstructing	NN	O	O
-the	NN	O	O
-pathway	NN	O	O
-.	NN	O	O
+While	0	5	O
+virtualization	6	20	B-Process
+technologies	21	33	I-Process
+certainly	34	43	O
+reduce	44	50	O
+the	51	54	O
+complexity	55	65	O
+of	66	68	O
+using	69	74	O
+a	75	76	O
+system	77	83	O
+,	83	84	O
+and	85	88	O
+especially	89	99	O
+when	100	104	O
+working	105	112	O
+across	113	119	O
+multiple	120	128	O
+heterogeneous	129	142	O
+computing	143	152	O
+environments	153	165	O
+,	165	166	O
+they	167	171	O
+are	172	175	O
+not	176	179	O
+widely	180	186	O
+deployed	187	195	O
+in	196	198	O
+high	199	203	B-Task
+performance	204	215	I-Task
+computing	216	225	I-Task
+scenarios	226	235	I-Task
+.	235	236	O
+
+As	237	239	O
+its	240	243	O
+name	244	248	O
+suggest	249	256	O
+,	256	257	O
+HPC	258	261	B-Process
+seeks	262	267	O
+to	268	270	O
+obtain	271	277	O
+maximum	278	285	O
+performance	286	297	O
+from	298	302	O
+computing	303	312	O
+platforms	313	322	O
+.	322	323	O
+
+Extra	324	329	O
+software	330	338	O
+layers	339	345	O
+impact	346	352	O
+detrimentally	353	366	O
+on	367	369	O
+performance	370	381	O
+,	381	382	O
+meaning	383	390	O
+that	391	395	O
+in	396	398	O
+HPC	399	402	B-Process
+scenarios	403	412	O
+users	413	418	O
+typically	419	428	O
+run	429	432	O
+the	433	436	O
+applications	437	449	B-Material
+as	450	452	O
+close	453	458	O
+to	459	461	O
+the	462	465	O
+‘	466	467	O
+bare	467	471	O
+metal’	472	478	O
+as	479	481	O
+possible	482	490	O
+.	490	491	O
+
+In	492	494	O
+addition	495	503	O
+to	504	506	O
+the	507	510	O
+performance	511	522	O
+degradation	523	534	O
+introduced	535	545	O
+by	546	548	O
+virtualization	549	563	B-Process
+technologies	564	576	I-Process
+,	576	577	O
+choosing	578	586	O
+what	587	591	O
+details	592	599	O
+to	600	602	O
+abstract	603	611	O
+in	612	614	O
+a	615	616	O
+virtualized	617	628	B-Material
+interface	629	638	I-Material
+is	639	641	O
+itself	642	648	O
+very	649	653	O
+important	654	663	O
+.	663	664	O
+
+Grid	665	669	B-Process
+and	670	673	I-Process
+cloud	674	679	I-Process
+computing	680	689	I-Process
+support	690	697	O
+different	698	707	O
+interaction	708	719	B-Process
+models	720	726	I-Process
+.	726	727	O
+
+In	728	730	O
+grid	731	735	B-Process
+computing	736	745	I-Process
+,	745	746	O
+the	747	750	O
+user	751	755	O
+interacts	756	765	O
+with	766	770	O
+an	771	773	O
+individual	774	784	O
+resource	785	793	O
+(	794	795	O
+or	795	797	O
+sometimes	798	807	O
+a	808	809	O
+broker	810	816	B-Material
+)	816	817	O
+in	818	820	O
+order	821	826	O
+to	827	829	O
+launch	830	836	O
+jobs	837	841	O
+into	842	846	O
+a	847	848	O
+queuing	849	856	B-Process
+system	857	863	I-Process
+.	863	864	O
+
+In	865	867	O
+cloud	868	873	B-Process
+computing	874	883	I-Process
+,	883	884	O
+users	885	890	O
+interact	891	899	O
+with	900	904	O
+a	905	906	O
+virtual	907	914	B-Material
+server	915	921	I-Material
+,	921	922	O
+in	923	925	O
+effect	926	932	O
+putting	933	940	O
+them	941	945	O
+in	946	948	O
+control	949	956	O
+of	957	959	O
+their	960	965	O
+own	966	969	O
+complete	970	978	O
+operating	979	988	O
+system	989	995	O
+.	995	996	O
+
+Both	997	1001	O
+of	1002	1004	O
+these	1005	1010	O
+interaction	1011	1022	B-Process
+models	1023	1029	I-Process
+put	1030	1033	O
+the	1034	1037	O
+onus	1038	1042	O
+on	1043	1045	O
+the	1046	1049	O
+user	1050	1054	O
+to	1055	1057	O
+understand	1058	1068	O
+very	1069	1073	O
+specific	1074	1082	O
+details	1083	1090	O
+of	1091	1093	O
+the	1094	1097	O
+system	1098	1104	O
+that	1105	1109	O
+they	1110	1114	O
+are	1115	1118	O
+dealing	1119	1126	O
+with	1127	1131	O
+,	1131	1132	O
+making	1133	1139	O
+life	1140	1144	O
+difficult	1145	1154	O
+for	1155	1158	O
+the	1159	1162	O
+end	1163	1166	O
+user	1167	1171	O
+,	1171	1172	O
+typically	1173	1182	O
+a	1183	1184	O
+scientist	1185	1194	O
+who	1195	1198	O
+wants	1199	1204	O
+to	1205	1207	O
+progress	1208	1216	O
+his	1217	1220	O
+or	1221	1223	O
+her	1224	1227	O
+scientific	1228	1238	O
+investigations	1239	1253	O
+without	1254	1261	O
+any	1262	1265	O
+specific	1266	1274	O
+usability	1275	1284	O
+hurdles	1285	1292	O
+obstructing	1293	1304	O
+the	1305	1308	O
+pathway	1309	1316	O
+.	1316	1317	O
 
 
 -DOCSTART- (S1877750315000460)
 
-FabHemeLB	NN	O	B-Material
-is	NN	O	O
-a	NN	O	O
-Python	NN	O	B-Material
-tool	NN	O	I-Material
-which	NN	O	O
-helps	NN	O	O
-automate	NN	O	B-Task
-the	NN	O	I-Task
-construction	NN	O	I-Task
-and	NN	O	I-Task
-management	NN	O	I-Task
-of	NN	O	I-Task
-ensemble	NN	O	I-Task
-simulation	NN	O	I-Task
-workflows	NN	O	I-Task
-.	NN	O	O
-
-FabHemeLB	NN	O	B-Material
-is	NN	O	O
-an	NN	O	O
-extended	NN	O	O
-version	NN	O	O
-of	NN	O	O
-FabSim	NN	O	B-Material
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-configured	NN	O	O
-to	NN	O	O
-handle	NN	O	O
-HemeLB	NN	O	B-Material
-operations	NN	O	O
-.	NN	O	O
-
-Both	NN	O	O
-FabSim	NN	O	B-Material
-and	NN	O	O
-FabHemeLB	NN	O	B-Material
-help	NN	O	O
-to	NN	O	O
-automate	NN	O	B-Task
-application	NN	O	I-Task
-deployment	NN	O	I-Task
-,	NN	O	I-Task
-execution	NN	O	I-Task
-and	NN	O	I-Task
-data	NN	O	I-Task
-analysis	NN	O	I-Task
-on	NN	O	I-Task
-remote	NN	O	I-Task
-resources	NN	O	I-Task
-.	NN	O	O
-
-FabHemeLB	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-compile	NN	O	O
-and	NN	O	O
-build	NN	O	O
-HemeLB	NN	O	B-Material
-on	NN	O	O
-any	NN	O	O
-remote	NN	O	O
-resource	NN	O	O
-,	NN	O	O
-to	NN	O	O
-reuse	NN	O	O
-machine	NN	O	O
--	NN	O	O
-specific	NN	O	O
-configurations	NN	O	O
-,	NN	O	O
-and	NN	O	O
-to	NN	O	O
-organize	NN	O	B-Process
-and	NN	O	I-Process
-curate	NN	O	I-Process
-simulation	NN	O	I-Process
-data	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-can	NN	O	O
-also	NN	O	O
-submit	NN	O	O
-HemeLB	NN	O	B-Material
-jobs	NN	O	O
-to	NN	O	O
-a	NN	O	O
-remote	NN	O	O
-resource	NN	O	O
-specifying	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-cores	NN	O	O
-and	NN	O	O
-the	NN	O	O
-wall	NN	O	O
-clock	NN	O	O
-time	NN	O	O
-limit	NN	O	O
-for	NN	O	O
-completing	NN	O	O
-a	NN	O	O
-simulation	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-tool	NN	O	O
-is	NN	O	O
-also	NN	O	O
-able	NN	O	O
-to	NN	O	O
-monitor	NN	O	B-Process
-the	NN	O	I-Process
-queue	NN	O	I-Process
-status	NN	O	I-Process
-on	NN	O	I-Process
-remote	NN	O	I-Process
-resources	NN	O	I-Process
-,	NN	O	O
-fetch	NN	O	B-Process
-results	NN	O	I-Process
-of	NN	O	I-Process
-completed	NN	O	I-Process
-jobs	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-can	NN	O	O
-conveniently	NN	O	O
-combine	NN	O	B-Process
-functionalities	NN	O	I-Process
-into	NN	O	I-Process
-single	NN	O	I-Process
-one	NN	O	I-Process
--	NN	O	I-Process
-line	NN	O	I-Process
-commands	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-general	NN	O	O
-,	NN	O	O
-the	NN	O	O
-FabHemeLB	NN	O	B-Material
-commands	NN	O	O
-have	NN	O	O
-the	NN	O	O
-following	NN	O	O
-structure	NN	O	O
-:	NN	O	O
+FabHemeLB	0	9	B-Material
+is	10	12	O
+a	13	14	O
+Python	15	21	B-Material
+tool	22	26	I-Material
+which	27	32	O
+helps	33	38	O
+automate	39	47	B-Task
+the	48	51	I-Task
+construction	52	64	I-Task
+and	65	68	I-Task
+management	69	79	I-Task
+of	80	82	I-Task
+ensemble	83	91	I-Task
+simulation	92	102	I-Task
+workflows	103	112	I-Task
+.	112	113	O
+
+FabHemeLB	114	123	B-Material
+is	124	126	O
+an	127	129	O
+extended	130	138	O
+version	139	146	O
+of	147	149	O
+FabSim	150	156	B-Material
+[	157	158	O
+27	158	160	O
+]	160	161	O
+configured	162	172	O
+to	173	175	O
+handle	176	182	O
+HemeLB	183	189	B-Material
+operations	190	200	O
+.	200	201	O
+
+Both	202	206	O
+FabSim	207	213	B-Material
+and	214	217	O
+FabHemeLB	218	227	B-Material
+help	228	232	O
+to	233	235	O
+automate	236	244	B-Task
+application	245	256	I-Task
+deployment	257	267	I-Task
+,	267	268	I-Task
+execution	269	278	I-Task
+and	279	282	I-Task
+data	283	287	I-Task
+analysis	288	296	I-Task
+on	297	299	I-Task
+remote	300	306	I-Task
+resources	307	316	I-Task
+.	316	317	O
+
+FabHemeLB	318	327	B-Material
+can	328	331	O
+be	332	334	O
+used	335	339	O
+to	340	342	O
+compile	343	350	O
+and	351	354	O
+build	355	360	O
+HemeLB	361	367	B-Material
+on	368	370	O
+any	371	374	O
+remote	375	381	O
+resource	382	390	O
+,	390	391	O
+to	392	394	O
+reuse	395	400	O
+machine	401	408	O
+-	408	409	O
+specific	409	417	O
+configurations	418	432	O
+,	432	433	O
+and	434	437	O
+to	438	440	O
+organize	441	449	B-Process
+and	450	453	I-Process
+curate	454	460	I-Process
+simulation	461	471	I-Process
+data	472	476	I-Process
+.	476	477	O
+
+It	478	480	O
+can	481	484	O
+also	485	489	O
+submit	490	496	O
+HemeLB	497	503	B-Material
+jobs	504	508	O
+to	509	511	O
+a	512	513	O
+remote	514	520	O
+resource	521	529	O
+specifying	530	540	O
+the	541	544	O
+number	545	551	O
+of	552	554	O
+cores	555	560	O
+and	561	564	O
+the	565	568	O
+wall	569	573	O
+clock	574	579	O
+time	580	584	O
+limit	585	590	O
+for	591	594	O
+completing	595	605	O
+a	606	607	O
+simulation	608	618	B-Process
+.	618	619	O
+
+The	620	623	O
+tool	624	628	O
+is	629	631	O
+also	632	636	O
+able	637	641	O
+to	642	644	O
+monitor	645	652	B-Process
+the	653	656	I-Process
+queue	657	662	I-Process
+status	663	669	I-Process
+on	670	672	I-Process
+remote	673	679	I-Process
+resources	680	689	I-Process
+,	689	690	O
+fetch	691	696	B-Process
+results	697	704	I-Process
+of	705	707	I-Process
+completed	708	717	I-Process
+jobs	718	722	I-Process
+,	722	723	O
+and	724	727	O
+can	728	731	O
+conveniently	732	744	O
+combine	745	752	B-Process
+functionalities	753	768	I-Process
+into	769	773	I-Process
+single	774	780	I-Process
+one	781	784	I-Process
+-	784	785	I-Process
+line	785	789	I-Process
+commands	790	798	I-Process
+.	798	799	O
+
+In	800	802	O
+general	803	810	O
+,	810	811	O
+the	812	815	O
+FabHemeLB	816	825	B-Material
+commands	826	834	O
+have	835	839	O
+the	840	843	O
+following	844	853	O
+structure	854	863	O
+:	863	864	O
 
 
 -DOCSTART- (S2212671612000431)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-an	NN	O	O
-implementation	NN	O	O
-of	NN	O	O
-a	NN	O	O
-LBP	NN	O	B-Material
-(	NN	O	O
-local	NN	O	B-Material
-binary	NN	O	I-Material
-pattern	NN	O	I-Material
-)	NN	O	O
-based	NN	O	O
-fast	NN	O	O
-face	NN	O	B-Material
-recognition	NN	O	I-Material
-system	NN	O	I-Material
-on	NN	O	O
-symbian	NN	O	B-Material
-platform	NN	O	I-Material
-is	NN	O	O
-presented	NN	O	O
-.	NN	O	O
-
-First	NN	O	O
-,	NN	O	O
-face	NN	O	O
-in	NN	O	O
-picture	NN	O	O
-taken	NN	O	O
-from	NN	O	O
-camera	NN	O	O
-is	NN	O	O
-detected	NN	O	O
-using	NN	O	O
-AdaBoost	NN	O	B-Process
-algorithm	NN	O	I-Process
-.	NN	O	O
-
-Second	NN	O	O
-,	NN	O	O
-the	NN	O	O
-pre	NN	O	O
--	NN	O	O
-processing	NN	O	O
-of	NN	O	O
-the	NN	O	O
-face	NN	O	O
-is	NN	O	O
-done	NN	O	O
-,	NN	O	O
-including	NN	O	O
-eye	NN	O	B-Task
-location	NN	O	I-Task
-,	NN	O	I-Task
-geometric	NN	O	I-Task
-normalization	NN	O	I-Task
-,	NN	O	I-Task
-illumination	NN	O	I-Task
-normalization	NN	O	I-Task
-.	NN	O	O
-
-During	NN	O	O
-the	NN	O	O
-face	NN	O	B-Task
-preprocessing	NN	O	I-Task
-,	NN	O	O
-a	NN	O	O
-rapid	NN	O	O
-eye	NN	O	B-Process
-location	NN	O	I-Process
-method	NN	O	I-Process
-named	NN	O	O
-ER	NN	O	B-Process
-(	NN	O	O
-Eyeball	NN	O	B-Process
-Search	NN	O	I-Process
-)	NN	O	O
-is	NN	O	O
-proposed	NN	O	O
-and	NN	O	O
-implemented	NN	O	O
-.	NN	O	O
-
-Last	NN	O	O
-,	NN	O	O
-the	NN	O	O
-improved	NN	O	O
-LBP	NN	O	B-Material
-is	NN	O	O
-adopted	NN	O	O
-for	NN	O	O
-recognition	NN	O	B-Task
-.	NN	O	O
-
-Although	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-capability	NN	O	O
-of	NN	O	O
-the	NN	O	O
-symbian	NN	O	B-Material
-platform	NN	O	I-Material
-is	NN	O	O
-limited	NN	O	O
-,	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-results	NN	O	O
-show	NN	O	O
-good	NN	O	O
-performance	NN	O	O
-for	NN	O	O
-recognition	NN	O	O
-rate	NN	O	O
-and	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-in	NN	O	O
-pressIn	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-an	NN	O	O
-implementation	NN	O	O
-of	NN	O	O
-a	NN	O	O
-LBP	NN	O	B-Material
-(	NN	O	O
-local	NN	O	B-Material
-binary	NN	O	I-Material
-pattern	NN	O	I-Material
-)	NN	O	O
-based	NN	O	O
-fast	NN	O	O
-face	NN	O	O
-recognition	NN	O	O
-system	NN	O	O
-on	NN	O	O
-symbian	NN	O	B-Material
-platform	NN	O	I-Material
-is	NN	O	O
-presented	NN	O	O
-.	NN	O	O
-
-First	NN	O	O
-,	NN	O	O
-face	NN	O	O
-in	NN	O	O
-picture	NN	O	O
-taken	NN	O	O
-from	NN	O	O
-camera	NN	O	O
-is	NN	O	O
-detected	NN	O	O
-using	NN	O	O
-AdaBoost	NN	O	B-Process
-algorithm	NN	O	I-Process
-.	NN	O	O
-
-Second	NN	O	O
-,	NN	O	O
-the	NN	O	O
-pre	NN	O	B-Task
--	NN	O	I-Task
-processing	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-face	NN	O	I-Task
-is	NN	O	O
-done	NN	O	O
-,	NN	O	O
-including	NN	O	O
-eye	NN	O	B-Task
-location	NN	O	I-Task
-,	NN	O	O
-geometric	NN	O	B-Task
-normalization	NN	O	I-Task
-,	NN	O	O
-illumination	NN	O	B-Task
-normalization	NN	O	I-Task
-.	NN	O	O
-
-During	NN	O	O
-the	NN	O	O
-face	NN	O	O
-preprocessing	NN	O	B-Process
-,	NN	O	O
-a	NN	O	O
-rapid	NN	O	O
-eye	NN	O	B-Process
-location	NN	O	I-Process
-method	NN	O	I-Process
-named	NN	O	O
-ER	NN	O	B-Process
-(	NN	O	O
-Eyeball	NN	O	B-Process
-Search	NN	O	I-Process
-)	NN	O	O
-is	NN	O	O
-proposed	NN	O	O
-and	NN	O	O
-implemented	NN	O	O
-.	NN	O	O
-
-Last	NN	O	O
-,	NN	O	O
-the	NN	O	O
-improved	NN	O	O
-LBP	NN	O	B-Material
-is	NN	O	O
-adopted	NN	O	O
-for	NN	O	O
-recognition	NN	O	B-Process
-.	NN	O	O
-
-Although	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-capability	NN	O	O
-of	NN	O	O
-the	NN	O	O
-symbian	NN	O	B-Material
-platform	NN	O	I-Material
-is	NN	O	O
-limited	NN	O	O
-,	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-results	NN	O	O
-show	NN	O	O
-good	NN	O	O
-performance	NN	O	O
-for	NN	O	O
-recognition	NN	O	B-Task
-rate	NN	O	O
-and	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-in	NN	O	O
-press	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+an	15	17	O
+implementation	18	32	O
+of	33	35	O
+a	36	37	O
+LBP	38	41	B-Material
+(	42	43	O
+local	43	48	B-Material
+binary	49	55	I-Material
+pattern	56	63	I-Material
+)	63	64	O
+based	65	70	O
+fast	71	75	O
+face	76	80	B-Material
+recognition	81	92	I-Material
+system	93	99	I-Material
+on	100	102	O
+symbian	103	110	B-Material
+platform	111	119	I-Material
+is	120	122	O
+presented	123	132	O
+.	132	133	O
+
+First	134	139	O
+,	139	140	O
+face	141	145	O
+in	146	148	O
+picture	149	156	O
+taken	157	162	O
+from	163	167	O
+camera	168	174	O
+is	175	177	O
+detected	178	186	O
+using	187	192	O
+AdaBoost	193	201	B-Process
+algorithm	202	211	I-Process
+.	211	212	O
+
+Second	213	219	O
+,	219	220	O
+the	221	224	O
+pre	225	228	O
+-	228	229	O
+processing	229	239	O
+of	240	242	O
+the	243	246	O
+face	247	251	O
+is	252	254	O
+done	255	259	O
+,	259	260	O
+including	261	270	O
+eye	271	274	B-Task
+location	275	283	I-Task
+,	283	284	I-Task
+geometric	285	294	I-Task
+normalization	295	308	I-Task
+,	308	309	I-Task
+illumination	310	322	I-Task
+normalization	323	336	I-Task
+.	336	337	O
+
+During	338	344	O
+the	345	348	O
+face	349	353	B-Task
+preprocessing	354	367	I-Task
+,	367	368	O
+a	369	370	O
+rapid	371	376	O
+eye	377	380	B-Process
+location	381	389	I-Process
+method	390	396	I-Process
+named	397	402	O
+ER	403	405	B-Process
+(	406	407	O
+Eyeball	407	414	B-Process
+Search	415	421	I-Process
+)	421	422	O
+is	423	425	O
+proposed	426	434	O
+and	435	438	O
+implemented	439	450	O
+.	450	451	O
+
+Last	452	456	O
+,	456	457	O
+the	458	461	O
+improved	462	470	O
+LBP	471	474	B-Material
+is	475	477	O
+adopted	478	485	O
+for	486	489	O
+recognition	490	501	B-Task
+.	501	502	O
+
+Although	503	511	O
+the	512	515	O
+computational	516	529	O
+capability	530	540	O
+of	541	543	O
+the	544	547	O
+symbian	548	555	B-Material
+platform	556	564	I-Material
+is	565	567	O
+limited	568	575	O
+,	575	576	O
+the	577	580	O
+experimental	581	593	O
+results	594	601	O
+show	602	606	O
+good	607	611	O
+performance	612	623	O
+for	624	627	O
+recognition	628	639	O
+rate	640	644	O
+and	645	648	O
+time	649	653	O
+.	653	654	O
+
+in	655	657	O
+pressIn	658	665	O
+this	666	670	O
+paper	671	676	O
+,	676	677	O
+an	678	680	O
+implementation	681	695	O
+of	696	698	O
+a	699	700	O
+LBP	701	704	B-Material
+(	705	706	O
+local	706	711	B-Material
+binary	712	718	I-Material
+pattern	719	726	I-Material
+)	726	727	O
+based	728	733	O
+fast	734	738	O
+face	739	743	O
+recognition	744	755	O
+system	756	762	O
+on	763	765	O
+symbian	766	773	B-Material
+platform	774	782	I-Material
+is	783	785	O
+presented	786	795	O
+.	795	796	O
+
+First	797	802	O
+,	802	803	O
+face	804	808	O
+in	809	811	O
+picture	812	819	O
+taken	820	825	O
+from	826	830	O
+camera	831	837	O
+is	838	840	O
+detected	841	849	O
+using	850	855	O
+AdaBoost	856	864	B-Process
+algorithm	865	874	I-Process
+.	874	875	O
+
+Second	876	882	O
+,	882	883	O
+the	884	887	O
+pre	888	891	B-Task
+-	891	892	I-Task
+processing	892	902	I-Task
+of	903	905	I-Task
+the	906	909	I-Task
+face	910	914	I-Task
+is	915	917	O
+done	918	922	O
+,	922	923	O
+including	924	933	O
+eye	934	937	B-Task
+location	938	946	I-Task
+,	946	947	O
+geometric	948	957	B-Task
+normalization	958	971	I-Task
+,	971	972	O
+illumination	973	985	B-Task
+normalization	986	999	I-Task
+.	999	1000	O
+
+During	1001	1007	O
+the	1008	1011	O
+face	1012	1016	O
+preprocessing	1017	1030	B-Process
+,	1030	1031	O
+a	1032	1033	O
+rapid	1034	1039	O
+eye	1040	1043	B-Process
+location	1044	1052	I-Process
+method	1053	1059	I-Process
+named	1060	1065	O
+ER	1066	1068	B-Process
+(	1069	1070	O
+Eyeball	1070	1077	B-Process
+Search	1078	1084	I-Process
+)	1084	1085	O
+is	1086	1088	O
+proposed	1089	1097	O
+and	1098	1101	O
+implemented	1102	1113	O
+.	1113	1114	O
+
+Last	1115	1119	O
+,	1119	1120	O
+the	1121	1124	O
+improved	1125	1133	O
+LBP	1134	1137	B-Material
+is	1138	1140	O
+adopted	1141	1148	O
+for	1149	1152	O
+recognition	1153	1164	B-Process
+.	1164	1165	O
+
+Although	1166	1174	O
+the	1175	1178	O
+computational	1179	1192	O
+capability	1193	1203	O
+of	1204	1206	O
+the	1207	1210	O
+symbian	1211	1218	B-Material
+platform	1219	1227	I-Material
+is	1228	1230	O
+limited	1231	1238	O
+,	1238	1239	O
+the	1240	1243	O
+experimental	1244	1256	O
+results	1257	1264	O
+show	1265	1269	O
+good	1270	1274	O
+performance	1275	1286	O
+for	1287	1290	O
+recognition	1291	1302	B-Task
+rate	1303	1307	O
+and	1308	1311	O
+time	1312	1316	O
+.	1316	1317	O
+
+in	1318	1320	O
+press	1321	1326	O
 
 
 -DOCSTART- (S2212671612000741)
 
-A	NN	O	O
-sentence	NN	O	B-Task
-alignment	NN	O	I-Task
-model	NN	O	O
-based	NN	O	O
-on	NN	O	O
-combined	NN	O	O
-clues	NN	O	O
-and	NN	O	O
-Kernel	NN	O	B-Process
-Extensional	NN	O	I-Process
-Matrix	NN	O	I-Process
-Matching	NN	O	I-Process
-(	NN	O	O
-KEMM	NN	O	B-Process
-)	NN	O	O
-method	NN	O	O
-is	NN	O	O
-proposed	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-model	NN	O	O
-,	NN	O	O
-a	NN	O	O
-similarity	NN	O	B-Material
-matrix	NN	O	I-Material
-for	NN	O	O
-sentence	NN	O	B-Task
-aligning	NN	O	I-Task
-is	NN	O	O
-formed	NN	O	O
-by	NN	O	O
-the	NN	O	O
-similarities	NN	O	O
-of	NN	O	O
-bilingual	NN	O	O
-sentences	NN	O	O
-calculated	NN	O	O
-by	NN	O	O
-the	NN	O	O
-combined	NN	O	O
-clues	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-lexicon	NN	O	O
-,	NN	O	O
-morphology	NN	O	O
-,	NN	O	O
-length	NN	O	O
-and	NN	O	O
-special	NN	O	O
-symbols	NN	O	O
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-;	NN	O	O
-then	NN	O	O
-this	NN	O	O
-similarity	NN	O	B-Material
-matrix	NN	O	I-Material
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-construct	NN	O	B-Process
-a	NN	O	I-Process
-select	NN	O	I-Process
-matrix	NN	O	I-Process
-for	NN	O	O
-sentence	NN	O	B-Task
-aligning	NN	O	I-Task
-;	NN	O	O
-finally	NN	O	O
-,	NN	O	O
-obtains	NN	O	O
-the	NN	O	O
-sentence	NN	O	O
-alignments	NN	O	O
-by	NN	O	O
-KEMM	NN	O	B-Process
-.	NN	O	O
-
-Experimental	NN	O	O
-results	NN	O	O
-illustrated	NN	O	O
-that	NN	O	O
-our	NN	O	O
-model	NN	O	O
-outperforms	NN	O	O
-over	NN	O	O
-the	NN	O	O
-Gale	NN	O	B-Process
-'s	NN	O	I-Process
-system	NN	O	I-Process
-on	NN	O	O
-handling	NN	O	O
-any	NN	O	O
-types	NN	O	O
-of	NN	O	O
-sentence	NN	O	O
-alignments	NN	O	O
-,	NN	O	O
-with	NN	O	O
-30	NN	O	O
-%	NN	O	O
-total	NN	O	O
-sentence	NN	O	B-Task
-alignment	NN	O	I-Task
-error	NN	O	O
-rate	NN	O	O
-decreasing	NN	O	O
-.	NN	O	O
+A	0	1	O
+sentence	2	10	B-Task
+alignment	11	20	I-Task
+model	21	26	O
+based	27	32	O
+on	33	35	O
+combined	36	44	O
+clues	45	50	O
+and	51	54	O
+Kernel	55	61	B-Process
+Extensional	62	73	I-Process
+Matrix	74	80	I-Process
+Matching	81	89	I-Process
+(	90	91	O
+KEMM	91	95	B-Process
+)	95	96	O
+method	97	103	O
+is	104	106	O
+proposed	107	115	O
+.	115	116	O
+
+In	117	119	O
+this	120	124	O
+model	125	130	O
+,	130	131	O
+a	132	133	O
+similarity	134	144	B-Material
+matrix	145	151	I-Material
+for	152	155	O
+sentence	156	164	B-Task
+aligning	165	173	I-Task
+is	174	176	O
+formed	177	183	O
+by	184	186	O
+the	187	190	O
+similarities	191	203	O
+of	204	206	O
+bilingual	207	216	O
+sentences	217	226	O
+calculated	227	237	O
+by	238	240	O
+the	241	244	O
+combined	245	253	O
+clues	254	259	O
+,	259	260	O
+such	261	265	O
+as	266	268	O
+lexicon	269	276	O
+,	276	277	O
+morphology	278	288	O
+,	288	289	O
+length	290	296	O
+and	297	300	O
+special	301	308	O
+symbols	309	316	O
+,	316	317	O
+etc	318	321	O
+.	321	322	O
+;	322	323	O
+then	324	328	O
+this	329	333	O
+similarity	334	344	B-Material
+matrix	345	351	I-Material
+is	352	354	O
+used	355	359	O
+to	360	362	O
+construct	363	372	B-Process
+a	373	374	I-Process
+select	375	381	I-Process
+matrix	382	388	I-Process
+for	389	392	O
+sentence	393	401	B-Task
+aligning	402	410	I-Task
+;	410	411	O
+finally	412	419	O
+,	419	420	O
+obtains	421	428	O
+the	429	432	O
+sentence	433	441	O
+alignments	442	452	O
+by	453	455	O
+KEMM	456	460	B-Process
+.	460	461	O
+
+Experimental	462	474	O
+results	475	482	O
+illustrated	483	494	O
+that	495	499	O
+our	500	503	O
+model	504	509	O
+outperforms	510	521	O
+over	522	526	O
+the	527	530	O
+Gale	531	535	B-Process
+'s	535	537	I-Process
+system	538	544	I-Process
+on	545	547	O
+handling	548	556	O
+any	557	560	O
+types	561	566	O
+of	567	569	O
+sentence	570	578	O
+alignments	579	589	O
+,	589	590	O
+with	591	595	O
+30	596	598	O
+%	598	599	O
+total	600	605	O
+sentence	606	614	B-Task
+alignment	615	624	I-Task
+error	625	630	O
+rate	631	635	O
+decreasing	636	646	O
+.	646	647	O
 
 
 -DOCSTART- (S221267161400105X)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-a	NN	O	O
-comparison	NN	O	B-Task
-between	NN	O	I-Task
-two	NN	O	I-Task
-popular	NN	O	I-Task
-feature	NN	O	I-Task
-extraction	NN	O	I-Task
-methods	NN	O	I-Task
-is	NN	O	O
-presented	NN	O	O
-.	NN	O	O
-
-Scale	NN	O	B-Process
--	NN	O	I-Process
-invariant	NN	O	I-Process
-feature	NN	O	I-Process
-transform	NN	O	I-Process
-(	NN	O	O
-or	NN	O	O
-SIFT	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-the	NN	O	O
-first	NN	O	O
-method	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Speeded	NN	O	B-Process
-up	NN	O	I-Process
-robust	NN	O	I-Process
-features	NN	O	I-Process
-(	NN	O	O
-or	NN	O	O
-SURF	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-presented	NN	O	O
-as	NN	O	O
-second	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-two	NN	O	O
-methods	NN	O	O
-are	NN	O	O
-tested	NN	O	O
-on	NN	O	O
-set	NN	O	O
-of	NN	O	O
-depth	NN	O	B-Material
-maps	NN	O	I-Material
-.	NN	O	O
-
-Ten	NN	O	O
-defined	NN	O	O
-gestures	NN	O	O
-of	NN	O	O
-left	NN	O	O
-hand	NN	O	O
-are	NN	O	O
-in	NN	O	O
-these	NN	O	O
-depth	NN	O	O
-maps	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Microsoft	NN	O	B-Process
-Kinect	NN	O	I-Process
-camera	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-for	NN	O	O
-capturing	NN	O	O
-the	NN	O	O
-images	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Support	NN	O	B-Process
-vector	NN	O	I-Process
-machine	NN	O	I-Process
-(	NN	O	O
-or	NN	O	O
-SVM	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-used	NN	O	O
-as	NN	O	O
-classification	NN	O	B-Process
-method	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-are	NN	O	O
-accuracy	NN	O	O
-of	NN	O	O
-SVM	NN	O	B-Process
-prediction	NN	O	O
-on	NN	O	O
-selected	NN	O	O
-images	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+a	14	15	O
+comparison	16	26	B-Task
+between	27	34	I-Task
+two	35	38	I-Task
+popular	39	46	I-Task
+feature	47	54	I-Task
+extraction	55	65	I-Task
+methods	66	73	I-Task
+is	74	76	O
+presented	77	86	O
+.	86	87	O
+
+Scale	88	93	B-Process
+-	93	94	I-Process
+invariant	94	103	I-Process
+feature	104	111	I-Process
+transform	112	121	I-Process
+(	122	123	O
+or	123	125	O
+SIFT	126	130	B-Process
+)	130	131	O
+is	132	134	O
+the	135	138	O
+first	139	144	O
+method	145	151	O
+.	151	152	O
+
+The	153	156	O
+Speeded	157	164	B-Process
+up	165	167	I-Process
+robust	168	174	I-Process
+features	175	183	I-Process
+(	184	185	O
+or	185	187	O
+SURF	188	192	B-Process
+)	192	193	O
+is	194	196	O
+presented	197	206	O
+as	207	209	O
+second	210	216	O
+.	216	217	O
+
+These	218	223	O
+two	224	227	O
+methods	228	235	O
+are	236	239	O
+tested	240	246	O
+on	247	249	O
+set	250	253	O
+of	254	256	O
+depth	257	262	B-Material
+maps	263	267	I-Material
+.	267	268	O
+
+Ten	269	272	O
+defined	273	280	O
+gestures	281	289	O
+of	290	292	O
+left	293	297	O
+hand	298	302	O
+are	303	306	O
+in	307	309	O
+these	310	315	O
+depth	316	321	O
+maps	322	326	O
+.	326	327	O
+
+The	328	331	O
+Microsoft	332	341	B-Process
+Kinect	342	348	I-Process
+camera	349	355	I-Process
+is	356	358	O
+used	359	363	O
+for	364	367	O
+capturing	368	377	O
+the	378	381	O
+images	382	388	O
+[	389	390	O
+1	390	391	O
+]	391	392	O
+.	392	393	O
+
+The	394	397	O
+Support	398	405	B-Process
+vector	406	412	I-Process
+machine	413	420	I-Process
+(	421	422	O
+or	422	424	O
+SVM	425	428	B-Process
+)	428	429	O
+is	430	432	O
+used	433	437	O
+as	438	440	O
+classification	441	455	B-Process
+method	456	462	I-Process
+.	462	463	O
+
+The	464	467	O
+results	468	475	O
+are	476	479	O
+accuracy	480	488	O
+of	489	491	O
+SVM	492	495	B-Process
+prediction	496	506	O
+on	507	509	O
+selected	510	518	O
+images	519	525	O
+.	525	526	O
 
 
 -DOCSTART- (S221450951400014X)
 
-This	NN	O	O
-figure	NN	O	O
-demonstrates	NN	O	O
-that	NN	O	O
-changes	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-measure	NN	O	I-Process
-of	NN	O	I-Process
-bitumen	NN	O	I-Process
-content	NN	O	I-Process
-create	NN	O	O
-sizable	NN	O	O
-differences	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-stiffness	NN	O	I-Process
-modulus	NN	O	I-Process
-of	NN	O	I-Process
-asphaltic	NN	O	I-Process
-samples	NN	O	I-Process
-that	NN	O	O
-include	NN	O	O
-waste	NN	O	B-Material
-glass	NN	O	I-Material
-cullet	NN	O	I-Material
-.	NN	O	O
-
-As	NN	O	O
-the	NN	O	O
-percentage	NN	O	O
-of	NN	O	O
-glass	NN	O	B-Material
-increases	NN	O	O
-,	NN	O	O
-the	NN	O	O
-measure	NN	O	O
-of	NN	O	O
-the	NN	O	O
-stiffness	NN	O	B-Process
-modulus	NN	O	I-Process
-of	NN	O	O
-modified	NN	O	B-Material
-asphalt	NN	O	I-Material
-increases	NN	O	O
-too	NN	O	O
-.	NN	O	O
-
-But	NN	O	O
-with	NN	O	O
-pass	NN	O	O
-of	NN	O	O
-optimum	NN	O	O
-measure	NN	O	O
-of	NN	O	O
-glass	NN	O	B-Material
-the	NN	O	O
-stiffness	NN	O	B-Process
-modulus	NN	O	I-Process
-of	NN	O	O
-asphaltic	NN	O	B-Material
-samples	NN	O	I-Material
-decrease	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-trend	NN	O	O
-in	NN	O	O
-total	NN	O	O
-of	NN	O	O
-percentages	NN	O	O
-of	NN	O	O
-bitumen	NN	O	B-Material
-content	NN	O	O
-is	NN	O	O
-existing	NN	O	O
-.	NN	O	O
-
-Due	NN	O	O
-to	NN	O	O
-that	NN	O	O
-waste	NN	O	B-Material
-glass	NN	O	I-Material
-cullet	NN	O	I-Material
-has	NN	O	O
-no	NN	O	O
-suction	NN	O	O
-;	NN	O	O
-the	NN	O	O
-trend	NN	O	O
-does	NN	O	O
-not	NN	O	O
-extend	NN	O	O
-to	NN	O	O
-measuring	NN	O	O
-the	NN	O	O
-stiffness	NN	O	B-Process
-modulus	NN	O	I-Process
-of	NN	O	O
-asphaltic	NN	O	B-Material
-samples	NN	O	I-Material
-including	NN	O	O
-waste	NN	O	B-Material
-glass	NN	O	I-Material
-cullet	NN	O	I-Material
-with	NN	O	O
-different	NN	O	O
-percentage	NN	O	O
-of	NN	O	O
-bitumen	NN	O	B-Material
-content	NN	O	O
-.	NN	O	O
-
-Glass	NN	O	B-Material
-particles	NN	O	I-Material
-do	NN	O	O
-not	NN	O	O
-absorb	NN	O	O
-any	NN	O	O
-bituminous	NN	O	B-Material
-material	NN	O	I-Material
-,	NN	O	O
-so	NN	O	O
-it	NN	O	O
-is	NN	O	O
-necessary	NN	O	O
-to	NN	O	O
-decrease	NN	O	O
-the	NN	O	O
-bitumen	NN	O	B-Material
-content	NN	O	O
-with	NN	O	O
-the	NN	O	O
-addition	NN	O	O
-of	NN	O	O
-glass	NN	O	B-Material
-cullet	NN	O	I-Material
-.	NN	O	O
-
-According	NN	O	O
-to	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-2	NN	O	O
-and	NN	O	O
-the	NN	O	O
-results	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Marshall	NN	O	B-Process
-tests	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-optimum	NN	O	O
-bitumen	NN	O	B-Material
-measures	NN	O	O
-decrease	NN	O	O
-significantly	NN	O	O
-in	NN	O	O
-samples	NN	O	O
-that	NN	O	O
-include	NN	O	O
-higher	NN	O	O
-percentages	NN	O	O
-of	NN	O	O
-waste	NN	O	B-Material
-glass	NN	O	I-Material
-cullet	NN	O	I-Material
-.	NN	O	O
-
-As	NN	O	O
-the	NN	O	O
-percentage	NN	O	O
-of	NN	O	O
-optimum	NN	O	O
-bitumen	NN	O	B-Material
-content	NN	O	O
-is	NN	O	O
-1	NN	O	O
-%	NN	O	O
-more	NN	O	O
-in	NN	O	O
-samples	NN	O	O
-without	NN	O	O
-waste	NN	O	B-Material
-glass	NN	O	I-Material
-cullet	NN	O	I-Material
-in	NN	O	O
-comparison	NN	O	O
-with	NN	O	O
-saphaltic	NN	O	B-Material
-samples	NN	O	I-Material
-that	NN	O	O
-include	NN	O	O
-20	NN	O	O
-%	NN	O	O
-waste	NN	O	B-Material
-glass	NN	O	I-Material
-cullet	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-stiffness	NN	O	B-Process
-modulus	NN	O	I-Process
-of	NN	O	O
-asphaltic	NN	O	B-Material
-samples	NN	O	I-Material
-that	NN	O	O
-include	NN	O	O
-waste	NN	O	B-Material
-glass	NN	O	I-Material
-cullet	NN	O	I-Material
-increased	NN	O	O
-due	NN	O	O
-to	NN	O	O
-additional	NN	O	O
-interlocking	NN	O	B-Process
-between	NN	O	O
-the	NN	O	O
-aggregate	NN	O	O
-and	NN	O	O
-the	NN	O	O
-angularity	NN	O	O
-of	NN	O	O
-particles	NN	O	O
-of	NN	O	O
-glass	NN	O	B-Material
-cullet	NN	O	I-Material
-content	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-increase	NN	O	O
-in	NN	O	O
-the	NN	O	O
-intrusive	NN	O	O
-friction	NN	O	O
-angle	NN	O	O
-because	NN	O	O
-of	NN	O	O
-the	NN	O	O
-glass	NN	O	B-Material
-particles’	NN	O	I-Material
-increased	NN	O	O
-angularity	NN	O	O
-is	NN	O	O
-the	NN	O	O
-main	NN	O	O
-reason	NN	O	O
-for	NN	O	O
-the	NN	O	O
-addition	NN	O	O
-of	NN	O	O
-the	NN	O	O
-stiffness	NN	O	B-Process
-modulus	NN	O	I-Process
-of	NN	O	O
-asphaltic	NN	O	B-Material
-samples	NN	O	I-Material
-that	NN	O	O
-include	NN	O	O
-waste	NN	O	B-Material
-glass	NN	O	I-Material
-cullet	NN	O	I-Material
-.	NN	O	O
-
-But	NN	O	O
-as	NN	O	O
-the	NN	O	O
-percentage	NN	O	O
-of	NN	O	O
-glass	NN	O	B-Material
-content	NN	O	O
-reaches	NN	O	O
-greater	NN	O	O
-than	NN	O	O
-15	NN	O	O
-%	NN	O	O
-,	NN	O	O
-the	NN	O	O
-particles’	NN	O	B-Material
-abundance	NN	O	O
-cause	NN	O	O
-slip	NN	O	O
-these	NN	O	O
-particles	NN	O	O
-on	NN	O	O
-together	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-stiffness	NN	O	B-Process
-modulus	NN	O	I-Process
-of	NN	O	O
-samples	NN	O	O
-decreases	NN	O	O
-as	NN	O	O
-the	NN	O	O
-percentage	NN	O	O
-of	NN	O	O
-glass	NN	O	B-Material
-cullet	NN	O	I-Material
-increases	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-variations	NN	O	O
-in	NN	O	O
-the	NN	O	O
-stiffness	NN	O	B-Process
-modulus	NN	O	I-Process
-of	NN	O	O
-asphaltic	NN	O	B-Material
-samples	NN	O	I-Material
-that	NN	O	O
-include	NN	O	O
-different	NN	O	O
-percentages	NN	O	O
-of	NN	O	O
-waste	NN	O	B-Material
-glass	NN	O	I-Material
-cullet	NN	O	I-Material
-at	NN	O	O
-different	NN	O	O
-temperature	NN	O	O
-are	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3	NN	O	O
-.	NN	O	O
+This	0	4	O
+figure	5	11	O
+demonstrates	12	24	O
+that	25	29	O
+changes	30	37	B-Process
+in	38	40	I-Process
+the	41	44	I-Process
+measure	45	52	I-Process
+of	53	55	I-Process
+bitumen	56	63	I-Process
+content	64	71	I-Process
+create	72	78	O
+sizable	79	86	O
+differences	87	98	B-Process
+in	99	101	I-Process
+the	102	105	I-Process
+stiffness	106	115	I-Process
+modulus	116	123	I-Process
+of	124	126	I-Process
+asphaltic	127	136	I-Process
+samples	137	144	I-Process
+that	145	149	O
+include	150	157	O
+waste	158	163	B-Material
+glass	164	169	I-Material
+cullet	170	176	I-Material
+.	176	177	O
+
+As	178	180	O
+the	181	184	O
+percentage	185	195	O
+of	196	198	O
+glass	199	204	B-Material
+increases	205	214	O
+,	214	215	O
+the	216	219	O
+measure	220	227	O
+of	228	230	O
+the	231	234	O
+stiffness	235	244	B-Process
+modulus	245	252	I-Process
+of	253	255	O
+modified	256	264	B-Material
+asphalt	265	272	I-Material
+increases	273	282	O
+too	283	286	O
+.	286	287	O
+
+But	288	291	O
+with	292	296	O
+pass	297	301	O
+of	302	304	O
+optimum	305	312	O
+measure	313	320	O
+of	321	323	O
+glass	324	329	B-Material
+the	330	333	O
+stiffness	334	343	B-Process
+modulus	344	351	I-Process
+of	352	354	O
+asphaltic	355	364	B-Material
+samples	365	372	I-Material
+decrease	373	381	O
+.	381	382	O
+
+This	383	387	O
+trend	388	393	O
+in	394	396	O
+total	397	402	O
+of	403	405	O
+percentages	406	417	O
+of	418	420	O
+bitumen	421	428	B-Material
+content	429	436	O
+is	437	439	O
+existing	440	448	O
+.	448	449	O
+
+Due	450	453	O
+to	454	456	O
+that	457	461	O
+waste	462	467	B-Material
+glass	468	473	I-Material
+cullet	474	480	I-Material
+has	481	484	O
+no	485	487	O
+suction	488	495	O
+;	495	496	O
+the	497	500	O
+trend	501	506	O
+does	507	511	O
+not	512	515	O
+extend	516	522	O
+to	523	525	O
+measuring	526	535	O
+the	536	539	O
+stiffness	540	549	B-Process
+modulus	550	557	I-Process
+of	558	560	O
+asphaltic	561	570	B-Material
+samples	571	578	I-Material
+including	579	588	O
+waste	589	594	B-Material
+glass	595	600	I-Material
+cullet	601	607	I-Material
+with	608	612	O
+different	613	622	O
+percentage	623	633	O
+of	634	636	O
+bitumen	637	644	B-Material
+content	645	652	O
+.	652	653	O
+
+Glass	654	659	B-Material
+particles	660	669	I-Material
+do	670	672	O
+not	673	676	O
+absorb	677	683	O
+any	684	687	O
+bituminous	688	698	B-Material
+material	699	707	I-Material
+,	707	708	O
+so	709	711	O
+it	712	714	O
+is	715	717	O
+necessary	718	727	O
+to	728	730	O
+decrease	731	739	O
+the	740	743	O
+bitumen	744	751	B-Material
+content	752	759	O
+with	760	764	O
+the	765	768	O
+addition	769	777	O
+of	778	780	O
+glass	781	786	B-Material
+cullet	787	793	I-Material
+.	793	794	O
+
+According	795	804	O
+to	805	807	O
+Fig	808	811	O
+.	811	812	O
+
+2	813	814	O
+and	815	818	O
+the	819	822	O
+results	823	830	O
+of	831	833	O
+the	834	837	O
+Marshall	838	846	B-Process
+tests	847	852	I-Process
+,	852	853	O
+the	854	857	O
+optimum	858	865	O
+bitumen	866	873	B-Material
+measures	874	882	O
+decrease	883	891	O
+significantly	892	905	O
+in	906	908	O
+samples	909	916	O
+that	917	921	O
+include	922	929	O
+higher	930	936	O
+percentages	937	948	O
+of	949	951	O
+waste	952	957	B-Material
+glass	958	963	I-Material
+cullet	964	970	I-Material
+.	970	971	O
+
+As	972	974	O
+the	975	978	O
+percentage	979	989	O
+of	990	992	O
+optimum	993	1000	O
+bitumen	1001	1008	B-Material
+content	1009	1016	O
+is	1017	1019	O
+1	1020	1021	O
+%	1021	1022	O
+more	1023	1027	O
+in	1028	1030	O
+samples	1031	1038	O
+without	1039	1046	O
+waste	1047	1052	B-Material
+glass	1053	1058	I-Material
+cullet	1059	1065	I-Material
+in	1066	1068	O
+comparison	1069	1079	O
+with	1080	1084	O
+saphaltic	1085	1094	B-Material
+samples	1095	1102	I-Material
+that	1103	1107	O
+include	1108	1115	O
+20	1116	1118	O
+%	1118	1119	O
+waste	1120	1125	B-Material
+glass	1126	1131	I-Material
+cullet	1132	1138	I-Material
+.	1138	1139	O
+
+The	1140	1143	O
+stiffness	1144	1153	B-Process
+modulus	1154	1161	I-Process
+of	1162	1164	O
+asphaltic	1165	1174	B-Material
+samples	1175	1182	I-Material
+that	1183	1187	O
+include	1188	1195	O
+waste	1196	1201	B-Material
+glass	1202	1207	I-Material
+cullet	1208	1214	I-Material
+increased	1215	1224	O
+due	1225	1228	O
+to	1229	1231	O
+additional	1232	1242	O
+interlocking	1243	1255	B-Process
+between	1256	1263	O
+the	1264	1267	O
+aggregate	1268	1277	O
+and	1278	1281	O
+the	1282	1285	O
+angularity	1286	1296	O
+of	1297	1299	O
+particles	1300	1309	O
+of	1310	1312	O
+glass	1313	1318	B-Material
+cullet	1319	1325	I-Material
+content	1326	1333	O
+.	1333	1334	O
+
+The	1335	1338	O
+increase	1339	1347	O
+in	1348	1350	O
+the	1351	1354	O
+intrusive	1355	1364	O
+friction	1365	1373	O
+angle	1374	1379	O
+because	1380	1387	O
+of	1388	1390	O
+the	1391	1394	O
+glass	1395	1400	B-Material
+particles’	1401	1411	I-Material
+increased	1412	1421	O
+angularity	1422	1432	O
+is	1433	1435	O
+the	1436	1439	O
+main	1440	1444	O
+reason	1445	1451	O
+for	1452	1455	O
+the	1456	1459	O
+addition	1460	1468	O
+of	1469	1471	O
+the	1472	1475	O
+stiffness	1476	1485	B-Process
+modulus	1486	1493	I-Process
+of	1494	1496	O
+asphaltic	1497	1506	B-Material
+samples	1507	1514	I-Material
+that	1515	1519	O
+include	1520	1527	O
+waste	1528	1533	B-Material
+glass	1534	1539	I-Material
+cullet	1540	1546	I-Material
+.	1546	1547	O
+
+But	1548	1551	O
+as	1552	1554	O
+the	1555	1558	O
+percentage	1559	1569	O
+of	1570	1572	O
+glass	1573	1578	B-Material
+content	1579	1586	O
+reaches	1587	1594	O
+greater	1595	1602	O
+than	1603	1607	O
+15	1608	1610	O
+%	1610	1611	O
+,	1611	1612	O
+the	1613	1616	O
+particles’	1617	1627	B-Material
+abundance	1628	1637	O
+cause	1638	1643	O
+slip	1644	1648	O
+these	1649	1654	O
+particles	1655	1664	O
+on	1665	1667	O
+together	1668	1676	O
+.	1676	1677	O
+
+The	1678	1681	O
+stiffness	1682	1691	B-Process
+modulus	1692	1699	I-Process
+of	1700	1702	O
+samples	1703	1710	O
+decreases	1711	1720	O
+as	1721	1723	O
+the	1724	1727	O
+percentage	1728	1738	O
+of	1739	1741	O
+glass	1742	1747	B-Material
+cullet	1748	1754	I-Material
+increases	1755	1764	O
+.	1764	1765	O
+
+The	1766	1769	O
+variations	1770	1780	O
+in	1781	1783	O
+the	1784	1787	O
+stiffness	1788	1797	B-Process
+modulus	1798	1805	I-Process
+of	1806	1808	O
+asphaltic	1809	1818	B-Material
+samples	1819	1826	I-Material
+that	1827	1831	O
+include	1832	1839	O
+different	1840	1849	O
+percentages	1850	1861	O
+of	1862	1864	O
+waste	1865	1870	B-Material
+glass	1871	1876	I-Material
+cullet	1877	1883	I-Material
+at	1884	1886	O
+different	1887	1896	O
+temperature	1897	1908	O
+are	1909	1912	O
+shown	1913	1918	O
+in	1919	1921	O
+Fig	1922	1925	O
+.	1925	1926	O
+
+3	1927	1928	O
+.	1928	1929	O
 
 
diff --git a/data/ner/semeval2017/train.txt b/data/ner/semeval2017/train.txt
index 011f252..bcff86e 100644
--- a/data/ner/semeval2017/train.txt
+++ b/data/ner/semeval2017/train.txt
@@ -1,69550 +1,69550 @@
 -DOCSTART- (S0003491615000433)
 
-Nuclear	NN	O	B-Task
-theory	NN	O	I-Task
-devoted	NN	O	O
-major	NN	O	O
-efforts	NN	O	O
-since	NN	O	O
-4	NN	O	O
-decades	NN	O	O
-to	NN	O	O
-describe	NN	O	O
-thermalization	NN	O	B-Task
-in	NN	O	O
-nuclear	NN	O	B-Process
-reactions	NN	O	I-Process
-,	NN	O	O
-predominantly	NN	O	O
-using	NN	O	O
-semi	NN	O	B-Process
--	NN	O	I-Process
-classical	NN	O	I-Process
-methods	NN	O	I-Process
-[	NN	O	O
-13,14,10	NN	O	O
-]	NN	O	O
-,	NN	O	O
-in	NN	O	O
-line	NN	O	O
-with	NN	O	O
-similar	NN	O	O
-problems	NN	O	O
-in	NN	O	O
-quantum	NN	O	B-Material
-liquids	NN	O	I-Material
-[	NN	O	O
-15,16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-There	NN	O	O
-were	NN	O	O
-attempts	NN	O	O
-to	NN	O	O
-develop	NN	O	O
-improved	NN	O	B-Process
-molecular	NN	O	I-Process
-dynamics	NN	O	I-Process
-methods	NN	O	I-Process
-combining	NN	O	B-Task
-quantum	NN	O	I-Task
-features	NN	O	I-Task
-with	NN	O	O
-a	NN	O	O
-semi	NN	O	B-Process
-classical	NN	O	I-Process
-treatment	NN	O	I-Process
-of	NN	O	I-Process
-dynamical	NN	O	I-Process
-correlations	NN	O	I-Process
-[	NN	O	O
-17,18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Still	NN	O	O
-,	NN	O	O
-no	NN	O	O
-clear	NN	O	O
--	NN	O	O
-cut	NN	O	O
-quantum	NN	O	B-Process
-approach	NN	O	I-Process
-is	NN	O	O
-readily	NN	O	O
-available	NN	O	O
-yet	NN	O	O
-,	NN	O	O
-in	NN	O	O
-spite	NN	O	O
-of	NN	O	O
-numerous	NN	O	O
-formal	NN	O	O
-attempts	NN	O	O
-[	NN	O	O
-19,20,10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-field	NN	O	B-Task
-of	NN	O	I-Task
-clusters	NN	O	I-Task
-and	NN	O	I-Task
-nano	NN	O	I-Task
-structures	NN	O	I-Task
-is	NN	O	O
-far	NN	O	O
-younger	NN	O	O
-but	NN	O	O
-fast	NN	O	O
-developing	NN	O	O
-in	NN	O	O
-relation	NN	O	O
-to	NN	O	O
-the	NN	O	O
-ongoing	NN	O	O
-developments	NN	O	O
-of	NN	O	O
-lasers	NN	O	B-Process
-and	NN	O	O
-imaging	NN	O	B-Process
-techniques	NN	O	I-Process
-.	NN	O	O
-
-Semiclassical	NN	O	O
-approaches	NN	O	O
-were	NN	O	O
-also	NN	O	O
-considered	NN	O	O
-in	NN	O	O
-the	NN	O	O
-field	NN	O	O
-to	NN	O	O
-include	NN	O	O
-some	NN	O	O
-dynamical	NN	O	O
-corrections	NN	O	O
-[	NN	O	O
-21,22	NN	O	O
-]	NN	O	O
-and	NN	O	O
-could	NN	O	O
-qualitatively	NN	O	B-Process
-describe	NN	O	I-Process
-dynamical	NN	O	I-Process
-processes	NN	O	I-Process
-.	NN	O	I-Process
-
-But	NN	O	O
-such	NN	O	O
-approaches	NN	O	O
-are	NN	O	O
-bound	NN	O	O
-to	NN	O	O
-simple	NN	O	B-Material
-metals	NN	O	I-Material
-with	NN	O	I-Material
-sufficiently	NN	O	I-Material
-delocalized	NN	O	I-Material
-wave	NN	O	I-Material
-functions	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-thus	NN	O	O
-smooth	NN	O	O
-potentials	NN	O	O
-justifying	NN	O	O
-semiclassical	NN	O	O
-approximations	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-case	NN	O	O
-of	NN	O	O
-organic	NN	O	B-Task
-systems	NN	O	I-Task
-,	NN	O	O
-in	NN	O	O
-particular	NN	O	O
-the	NN	O	O
-much	NN	O	O
-celebrated	NN	O	O
-C60	NN	O	B-Material
-
-[	NN	O	O
-4,23	NN	O	O
-]	NN	O	O
-,	NN	O	O
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-treated	NN	O	O
-this	NN	O	O
-way	NN	O	O
-.	NN	O	O
-
-Semi	NN	O	O
-classical	NN	O	O
-,	NN	O	O
-and	NN	O	O
-even	NN	O	O
-classical	NN	O	O
-approaches	NN	O	O
-,	NN	O	O
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-at	NN	O	O
-very	NN	O	O
-high	NN	O	O
-excitations	NN	O	O
-such	NN	O	O
-as	NN	O	O
-delivered	NN	O	O
-by	NN	O	O
-very	NN	O	B-Process
-intense	NN	O	I-Process
-laser	NN	O	I-Process
-pulses	NN	O	I-Process
-
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-such	NN	O	O
-cases	NN	O	O
-the	NN	O	O
-system	NN	O	O
-is	NN	O	O
-blown	NN	O	O
-up	NN	O	O
-and	NN	O	O
-details	NN	O	O
-of	NN	O	O
-its	NN	O	O
-quantum	NN	O	B-Task
-mechanical	NN	O	I-Task
-features	NN	O	I-Task
-do	NN	O	O
-not	NN	O	O
-matter	NN	O	O
-anymore	NN	O	O
-.	NN	O	O
-
-But	NN	O	O
-for	NN	O	O
-less	NN	O	O
-violent	NN	O	O
-scenarios	NN	O	O
-,	NN	O	O
-quantum	NN	O	B-Process
-shell	NN	O	I-Process
-effects	NN	O	I-Process
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-ignored	NN	O	O
-.	NN	O	O
+Nuclear	0	7	B-Task
+theory	8	14	I-Task
+devoted	15	22	O
+major	23	28	O
+efforts	29	36	O
+since	37	42	O
+4	43	44	O
+decades	45	52	O
+to	53	55	O
+describe	56	64	O
+thermalization	65	79	B-Task
+in	80	82	O
+nuclear	83	90	B-Process
+reactions	91	100	I-Process
+,	100	101	O
+predominantly	102	115	O
+using	116	121	O
+semi	122	126	B-Process
+-	126	127	I-Process
+classical	127	136	I-Process
+methods	137	144	I-Process
+[	146	147	O
+13,14,10	147	155	O
+]	155	156	O
+,	156	157	O
+in	158	160	O
+line	161	165	O
+with	166	170	O
+similar	171	178	O
+problems	179	187	O
+in	188	190	O
+quantum	191	198	B-Material
+liquids	199	206	I-Material
+[	208	209	O
+15,16	209	214	O
+]	214	215	O
+.	215	216	O
+
+There	217	222	O
+were	223	227	O
+attempts	228	236	O
+to	237	239	O
+develop	240	247	O
+improved	248	256	B-Process
+molecular	257	266	I-Process
+dynamics	267	275	I-Process
+methods	276	283	I-Process
+combining	284	293	B-Task
+quantum	294	301	I-Task
+features	302	310	I-Task
+with	311	315	O
+a	316	317	O
+semi	318	322	B-Process
+classical	323	332	I-Process
+treatment	333	342	I-Process
+of	343	345	I-Process
+dynamical	346	355	I-Process
+correlations	356	368	I-Process
+[	370	371	O
+17,18	371	376	O
+]	376	377	O
+.	377	378	O
+
+Still	379	384	O
+,	384	385	O
+no	386	388	O
+clear	389	394	O
+-	394	395	O
+cut	395	398	O
+quantum	399	406	B-Process
+approach	407	415	I-Process
+is	416	418	O
+readily	419	426	O
+available	427	436	O
+yet	437	440	O
+,	440	441	O
+in	442	444	O
+spite	445	450	O
+of	451	453	O
+numerous	454	462	O
+formal	463	469	O
+attempts	470	478	O
+[	479	480	O
+19,20,10	480	488	O
+]	488	489	O
+.	489	490	O
+
+The	491	494	O
+field	495	500	B-Task
+of	501	503	I-Task
+clusters	504	512	I-Task
+and	513	516	I-Task
+nano	517	521	I-Task
+structures	522	532	I-Task
+is	533	535	O
+far	536	539	O
+younger	540	547	O
+but	548	551	O
+fast	552	556	O
+developing	557	567	O
+in	568	570	O
+relation	571	579	O
+to	580	582	O
+the	583	586	O
+ongoing	587	594	O
+developments	595	607	O
+of	608	610	O
+lasers	611	617	B-Process
+and	618	621	O
+imaging	622	629	B-Process
+techniques	630	640	I-Process
+.	640	641	O
+
+Semiclassical	642	655	O
+approaches	656	666	O
+were	667	671	O
+also	672	676	O
+considered	677	687	O
+in	688	690	O
+the	691	694	O
+field	695	700	O
+to	701	703	O
+include	704	711	O
+some	712	716	O
+dynamical	717	726	O
+corrections	727	738	O
+[	740	741	O
+21,22	741	746	O
+]	746	747	O
+and	748	751	O
+could	752	757	O
+qualitatively	758	771	B-Process
+describe	772	780	I-Process
+dynamical	781	790	I-Process
+processes	791	800	I-Process
+.	800	801	I-Process
+
+But	802	805	O
+such	806	810	O
+approaches	811	821	O
+are	822	825	O
+bound	826	831	O
+to	832	834	O
+simple	835	841	B-Material
+metals	842	848	I-Material
+with	849	853	I-Material
+sufficiently	854	866	I-Material
+delocalized	867	878	I-Material
+wave	879	883	I-Material
+functions	884	893	I-Material
+,	893	894	O
+and	895	898	O
+thus	899	903	O
+smooth	904	910	O
+potentials	911	921	O
+justifying	922	932	O
+semiclassical	933	946	O
+approximations	947	961	O
+.	961	962	O
+
+The	963	966	O
+case	967	971	O
+of	972	974	O
+organic	975	982	B-Task
+systems	983	990	I-Task
+,	990	991	O
+in	992	994	O
+particular	995	1005	O
+the	1006	1009	O
+much	1010	1014	O
+celebrated	1015	1025	O
+C60	1026	1029	B-Material
+
+[	1032	1033	O
+4,23	1033	1037	O
+]	1037	1038	O
+,	1038	1039	O
+can	1040	1043	O
+not	1043	1046	O
+be	1047	1049	O
+treated	1050	1057	O
+this	1058	1062	O
+way	1063	1066	O
+.	1066	1067	O
+
+Semi	1068	1072	O
+classical	1073	1082	O
+,	1082	1083	O
+and	1084	1087	O
+even	1088	1092	O
+classical	1093	1102	O
+approaches	1103	1113	O
+,	1113	1114	O
+can	1115	1118	O
+be	1119	1121	O
+used	1122	1126	O
+at	1127	1129	O
+very	1130	1134	O
+high	1135	1139	O
+excitations	1140	1151	O
+such	1152	1156	O
+as	1157	1159	O
+delivered	1160	1169	O
+by	1170	1172	O
+very	1173	1177	B-Process
+intense	1178	1185	I-Process
+laser	1186	1191	I-Process
+pulses	1192	1198	I-Process
+
+[	1200	1201	O
+2	1201	1202	O
+]	1202	1203	O
+.	1203	1204	O
+
+In	1205	1207	O
+such	1208	1212	O
+cases	1213	1218	O
+the	1219	1222	O
+system	1223	1229	O
+is	1230	1232	O
+blown	1233	1238	O
+up	1239	1241	O
+and	1242	1245	O
+details	1246	1253	O
+of	1254	1256	O
+its	1257	1260	O
+quantum	1261	1268	B-Task
+mechanical	1269	1279	I-Task
+features	1280	1288	I-Task
+do	1289	1291	O
+not	1292	1295	O
+matter	1296	1302	O
+anymore	1303	1310	O
+.	1310	1311	O
+
+But	1312	1315	O
+for	1316	1319	O
+less	1320	1324	O
+violent	1325	1332	O
+scenarios	1333	1342	O
+,	1342	1343	O
+quantum	1344	1351	B-Process
+shell	1352	1357	I-Process
+effects	1358	1365	I-Process
+can	1366	1369	O
+not	1369	1372	O
+be	1373	1375	O
+ignored	1376	1383	O
+.	1383	1384	O
 
 
 -DOCSTART- (S0003491615001505)
 
-The	NN	O	O
-next	NN	O	O
-important	NN	O	O
-step	NN	O	O
-might	NN	O	O
-be	NN	O	O
-the	NN	O	O
-derivation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Dirac	NN	O	B-Process
-equation	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	B-Process
-Creutz	NN	O	I-Process
-model	NN	O	I-Process
-[	NN	O	O
-32	NN	O	O
-]	NN	O	O
-suggests	NN	O	O
-that	NN	O	O
-we	NN	O	O
-should	NN	O	O
-consider	NN	O	O
-incorporating	NN	O	O
-into	NN	O	O
-the	NN	O	O
-logical	NN	O	O
-inference	NN	O	O
-treatment	NN	O	O
-,	NN	O	O
-the	NN	O	O
-additional	NN	O	O
-knowledge	NN	O	O
-that	NN	O	O
-one	NN	O	O
-has	NN	O	O
-objects	NN	O	B-Process
-hopping	NN	O	I-Process
-on	NN	O	I-Process
-a	NN	O	I-Process
-lattice	NN	O	I-Process
-instead	NN	O	I-Process
-of	NN	O	I-Process
-particles	NN	O	I-Process
-moving	NN	O	O
-in	NN	O	O
-a	NN	O	O
-space	NN	O	O
--	NN	O	O
-time	NN	O	O
-continuum	NN	O	O
-.	NN	O	O
-
-Recall	NN	O	O
-that	NN	O	O
-up	NN	O	O
-to	NN	O	O
-Section	NN	O	O
-2.4	NN	O	O
-,	NN	O	O
-the	NN	O	O
-description	NN	O	O
-of	NN	O	O
-the	NN	O	O
-measurement	NN	O	B-Task
-scenario	NN	O	I-Task
-,	NN	O	O
-robustness	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-is	NN	O	O
-explicitly	NN	O	O
-discrete	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-Section	NN	O	O
-2.4	NN	O	O
-,	NN	O	O
-the	NN	O	O
-continuum	NN	O	O
-limit	NN	O	O
-was	NN	O	O
-taken	NN	O	O
-only	NN	O	O
-because	NN	O	O
-our	NN	O	O
-aim	NN	O	O
-was	NN	O	O
-to	NN	O	O
-derive	NN	O	O
-the	NN	O	O
-Pauli	NN	O	B-Process
-equation	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-formulated	NN	O	O
-in	NN	O	O
-continuum	NN	O	B-Material
-space	NN	O	I-Material
--	NN	O	I-Material
-time	NN	O	I-Material
-.	NN	O	O
-
-Of	NN	O	O
-course	NN	O	O
-,	NN	O	O
-the	NN	O	O
-description	NN	O	O
-of	NN	O	O
-the	NN	O	O
-motion	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-particle	NN	O	I-Task
-in	NN	O	O
-Section	NN	O	O
-2.6	NN	O	O
-is	NN	O	O
-entirely	NN	O	O
-within	NN	O	O
-a	NN	O	O
-continuum	NN	O	O
-description	NN	O	O
-but	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-fundamental	NN	O	O
-obstacle	NN	O	O
-to	NN	O	O
-replace	NN	O	O
-this	NN	O	O
-treatment	NN	O	O
-by	NN	O	O
-a	NN	O	O
-proper	NN	O	O
-treatment	NN	O	O
-of	NN	O	O
-objects	NN	O	B-Material
-hopping	NN	O	O
-on	NN	O	O
-a	NN	O	O
-lattice	NN	O	B-Material
-.	NN	O	O
-
-Therefore	NN	O	O
-it	NN	O	O
-seems	NN	O	O
-plausible	NN	O	O
-that	NN	O	O
-the	NN	O	O
-logical	NN	O	O
-inference	NN	O	O
-approach	NN	O	O
-can	NN	O	O
-be	NN	O	O
-extended	NN	O	O
-to	NN	O	O
-describe	NN	O	O
-massless	NN	O	B-Material
-spin-1/2	NN	O	I-Material
-particles	NN	O	I-Material
-moving	NN	O	O
-in	NN	O	O
-continuum	NN	O	O
-space	NN	O	O
--	NN	O	O
-time	NN	O	O
-by	NN	O	O
-considering	NN	O	O
-the	NN	O	O
-continuum	NN	O	O
-limit	NN	O	O
-of	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-lattice	NN	O	B-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-An	NN	O	O
-in	NN	O	O
--	NN	O	O
-depth	NN	O	O
-,	NN	O	O
-general	NN	O	O
-treatment	NN	O	O
-of	NN	O	O
-this	NN	O	O
-problem	NN	O	O
-is	NN	O	O
-beyond	NN	O	O
-the	NN	O	O
-scope	NN	O	O
-of	NN	O	O
-the	NN	O	O
-present	NN	O	O
-paper	NN	O	O
-and	NN	O	O
-we	NN	O	O
-therefore	NN	O	O
-leave	NN	O	O
-this	NN	O	O
-interesting	NN	O	O
-problem	NN	O	O
-for	NN	O	O
-future	NN	O	B-Task
-research	NN	O	I-Task
-.	NN	O	O
+The	0	3	O
+next	4	8	O
+important	9	18	O
+step	19	23	O
+might	24	29	O
+be	30	32	O
+the	33	36	O
+derivation	37	47	O
+of	48	50	O
+the	51	54	O
+Dirac	55	60	B-Process
+equation	61	69	I-Process
+.	69	70	O
+
+The	71	74	B-Process
+Creutz	75	81	I-Process
+model	82	87	I-Process
+[	89	90	O
+32	90	92	O
+]	92	93	O
+suggests	94	102	O
+that	103	107	O
+we	108	110	O
+should	111	117	O
+consider	118	126	O
+incorporating	127	140	O
+into	141	145	O
+the	146	149	O
+logical	150	157	O
+inference	158	167	O
+treatment	168	177	O
+,	177	178	O
+the	179	182	O
+additional	183	193	O
+knowledge	194	203	O
+that	204	208	O
+one	209	212	O
+has	213	216	O
+objects	217	224	B-Process
+hopping	225	232	I-Process
+on	233	235	I-Process
+a	236	237	I-Process
+lattice	238	245	I-Process
+instead	246	253	I-Process
+of	254	256	I-Process
+particles	257	266	I-Process
+moving	267	273	O
+in	274	276	O
+a	277	278	O
+space	279	284	O
+-	284	285	O
+time	285	289	O
+continuum	290	299	O
+.	299	300	O
+
+Recall	301	307	O
+that	308	312	O
+up	313	315	O
+to	316	318	O
+Section	319	326	O
+2.4	328	331	O
+,	331	332	O
+the	333	336	O
+description	337	348	O
+of	349	351	O
+the	352	355	O
+measurement	356	367	B-Task
+scenario	368	376	I-Task
+,	376	377	O
+robustness	378	388	O
+etc	389	392	O
+.	392	393	O
+is	394	396	O
+explicitly	397	407	O
+discrete	408	416	O
+.	416	417	O
+
+In	418	420	O
+Section	421	428	O
+2.4	430	433	O
+,	433	434	O
+the	435	438	O
+continuum	439	448	O
+limit	449	454	O
+was	455	458	O
+taken	459	464	O
+only	465	469	O
+because	470	477	O
+our	478	481	O
+aim	482	485	O
+was	486	489	O
+to	490	492	O
+derive	493	499	O
+the	500	503	O
+Pauli	504	509	B-Process
+equation	510	518	I-Process
+,	518	519	O
+which	520	525	O
+is	526	528	O
+formulated	529	539	O
+in	540	542	O
+continuum	543	552	B-Material
+space	553	558	I-Material
+-	558	559	I-Material
+time	559	563	I-Material
+.	563	564	O
+
+Of	565	567	O
+course	568	574	O
+,	574	575	O
+the	576	579	O
+description	580	591	O
+of	592	594	O
+the	595	598	O
+motion	599	605	B-Task
+of	606	608	I-Task
+the	609	612	I-Task
+particle	613	621	I-Task
+in	622	624	O
+Section	625	632	O
+2.6	634	637	O
+is	638	640	O
+entirely	641	649	O
+within	650	656	O
+a	657	658	O
+continuum	659	668	O
+description	669	680	O
+but	681	684	O
+there	685	690	O
+is	691	693	O
+no	694	696	O
+fundamental	697	708	O
+obstacle	709	717	O
+to	718	720	O
+replace	721	728	O
+this	729	733	O
+treatment	734	743	O
+by	744	746	O
+a	747	748	O
+proper	749	755	O
+treatment	756	765	O
+of	766	768	O
+objects	769	776	B-Material
+hopping	777	784	O
+on	785	787	O
+a	788	789	O
+lattice	790	797	B-Material
+.	797	798	O
+
+Therefore	799	808	O
+it	809	811	O
+seems	812	817	O
+plausible	818	827	O
+that	828	832	O
+the	833	836	O
+logical	837	844	O
+inference	845	854	O
+approach	855	863	O
+can	864	867	O
+be	868	870	O
+extended	871	879	O
+to	880	882	O
+describe	883	891	O
+massless	892	900	B-Material
+spin-1/2	901	909	I-Material
+particles	910	919	I-Material
+moving	920	926	O
+in	927	929	O
+continuum	930	939	O
+space	940	945	O
+-	945	946	O
+time	946	950	O
+by	951	953	O
+considering	954	965	O
+the	966	969	O
+continuum	970	979	O
+limit	980	985	O
+of	986	988	O
+the	989	992	O
+corresponding	993	1006	O
+lattice	1007	1014	B-Process
+model	1015	1020	I-Process
+.	1020	1021	O
+
+An	1022	1024	O
+in	1025	1027	O
+-	1027	1028	O
+depth	1028	1033	O
+,	1033	1034	O
+general	1035	1042	O
+treatment	1043	1052	O
+of	1053	1055	O
+this	1056	1060	O
+problem	1061	1068	O
+is	1069	1071	O
+beyond	1072	1078	O
+the	1079	1082	O
+scope	1083	1088	O
+of	1089	1091	O
+the	1092	1095	O
+present	1096	1103	O
+paper	1104	1109	O
+and	1110	1113	O
+we	1114	1116	O
+therefore	1117	1126	O
+leave	1127	1132	O
+this	1133	1137	O
+interesting	1138	1149	O
+problem	1150	1157	O
+for	1158	1161	O
+future	1162	1168	B-Task
+research	1169	1177	I-Task
+.	1177	1178	O
 
 
 -DOCSTART- (S0003491615001955)
 
-A	NN	O	O
-fluctuating	NN	O	B-Material
-vacuum	NN	O	I-Material
-is	NN	O	O
-a	NN	O	O
-general	NN	O	O
-feature	NN	O	O
-of	NN	O	O
-quantum	NN	O	B-Task
-fields	NN	O	I-Task
-,	NN	O	O
-of	NN	O	O
-which	NN	O	O
-the	NN	O	O
-free	NN	O	B-Process
-Maxwell	NN	O	I-Process
-field	NN	O	I-Process
-considered	NN	O	O
-in	NN	O	O
-[	NN	O	O
-1–12	NN	O	O
-]	NN	O	O
-is	NN	O	O
-but	NN	O	O
-one	NN	O	O
-example	NN	O	O
-.	NN	O	O
-
-Fermionic	NN	O	B-Process
-fields	NN	O	I-Process
-such	NN	O	O
-as	NN	O	O
-that	NN	O	O
-describing	NN	O	O
-the	NN	O	O
-electron	NN	O	O
-,	NN	O	O
-also	NN	O	O
-undergo	NN	O	B-Process
-vacuum	NN	O	I-Process
-fluctuations	NN	O	I-Process
-,	NN	O	O
-consequently	NN	O	O
-one	NN	O	O
-expects	NN	O	O
-to	NN	O	O
-find	NN	O	O
-Casimir	NN	O	B-Process
-effects	NN	O	I-Process
-associated	NN	O	O
-with	NN	O	O
-such	NN	O	B-Process
-fields	NN	O	I-Process
-whenever	NN	O	O
-they	NN	O	O
-are	NN	O	O
-confined	NN	O	O
-in	NN	O	O
-some	NN	O	O
-way	NN	O	O
-.	NN	O	O
-
-Such	NN	O	O
-effects	NN	O	O
-were	NN	O	O
-first	NN	O	O
-investigated	NN	O	O
-in	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-nuclear	NN	O	B-Task
-physics	NN	O	I-Task
-,	NN	O	O
-within	NN	O	O
-the	NN	O	O
-so	NN	O	O
--	NN	O	O
-called	NN	O	O
-“	NN	O	B-Task
-MIT	NN	O	I-Task
-bag	NN	O	I-Task
-model	NN	O	I-Task
-”	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-nucleon	NN	O	I-Task
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-bag	NN	O	O
--	NN	O	O
-model	NN	O	O
-one	NN	O	O
-envisages	NN	O	O
-the	NN	O	O
-nucleon	NN	O	B-Material
-as	NN	O	O
-a	NN	O	B-Task
-collection	NN	O	I-Task
-of	NN	O	I-Task
-fermionic	NN	O	I-Task
-fields	NN	O	I-Task
-describing	NN	O	I-Task
-confined	NN	O	I-Task
-quarks	NN	O	I-Task
-.	NN	O	O
-
-These	NN	O	O
-quarks	NN	O	O
-are	NN	O	O
-subject	NN	O	O
-to	NN	O	O
-a	NN	O	O
-boundary	NN	O	O
-condition	NN	O	O
-at	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-of	NN	O	O
-the	NN	O	O
-‘	NN	O	O
-bag’	NN	O	O
-that	NN	O	O
-represents	NN	O	O
-the	NN	O	O
-nucleon	NN	O	O
-’s	NN	O	O
-surface	NN	O	O
-.	NN	O	O
-
-Just	NN	O	O
-as	NN	O	O
-in	NN	O	O
-the	NN	O	O
-electromagnetic	NN	O	O
-case	NN	O	O
-,	NN	O	O
-the	NN	O	B-Process
-bag	NN	O	I-Process
-boundary	NN	O	I-Process
-condition	NN	O	I-Process
-modifies	NN	O	I-Process
-the	NN	O	I-Process
-vacuum	NN	O	I-Process
-fluctuations	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-field	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-results	NN	O	O
-in	NN	O	O
-the	NN	O	O
-appearance	NN	O	O
-of	NN	O	O
-a	NN	O	O
-Casimir	NN	O	B-Task
-force	NN	O	I-Task
-
-[	NN	O	O
-14–18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-force	NN	O	O
-,	NN	O	O
-although	NN	O	O
-very	NN	O	O
-weak	NN	O	O
-at	NN	O	O
-a	NN	O	O
-macroscopic	NN	O	O
-scale	NN	O	O
-,	NN	O	O
-can	NN	O	O
-be	NN	O	O
-significant	NN	O	O
-on	NN	O	O
-the	NN	O	O
-small	NN	O	O
-length	NN	O	O
-scales	NN	O	O
-encountered	NN	O	O
-in	NN	O	O
-nuclear	NN	O	B-Task
-physics	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-therefore	NN	O	O
-has	NN	O	O
-important	NN	O	O
-consequences	NN	O	O
-for	NN	O	O
-the	NN	O	O
-physics	NN	O	O
-of	NN	O	O
-the	NN	O	O
-bag	NN	O	B-Material
--	NN	O	I-Material
-model	NN	O	I-Material
-nucleon	NN	O	I-Material
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-.	NN	O	O
+A	0	1	O
+fluctuating	2	13	B-Material
+vacuum	14	20	I-Material
+is	21	23	O
+a	24	25	O
+general	26	33	O
+feature	34	41	O
+of	42	44	O
+quantum	45	52	B-Task
+fields	53	59	I-Task
+,	59	60	O
+of	61	63	O
+which	64	69	O
+the	70	73	O
+free	74	78	B-Process
+Maxwell	79	86	I-Process
+field	87	92	I-Process
+considered	93	103	O
+in	104	106	O
+[	108	109	O
+1–12	109	113	O
+]	113	114	O
+is	115	117	O
+but	118	121	O
+one	122	125	O
+example	126	133	O
+.	133	134	O
+
+Fermionic	135	144	B-Process
+fields	145	151	I-Process
+such	152	156	O
+as	157	159	O
+that	160	164	O
+describing	165	175	O
+the	176	179	O
+electron	180	188	O
+,	188	189	O
+also	190	194	O
+undergo	195	202	B-Process
+vacuum	203	209	I-Process
+fluctuations	210	222	I-Process
+,	222	223	O
+consequently	224	236	O
+one	237	240	O
+expects	241	248	O
+to	249	251	O
+find	252	256	O
+Casimir	257	264	B-Process
+effects	265	272	I-Process
+associated	273	283	O
+with	284	288	O
+such	289	293	B-Process
+fields	294	300	I-Process
+whenever	301	309	O
+they	310	314	O
+are	315	318	O
+confined	319	327	O
+in	328	330	O
+some	331	335	O
+way	336	339	O
+.	339	340	O
+
+Such	341	345	O
+effects	346	353	O
+were	354	358	O
+first	359	364	O
+investigated	365	377	O
+in	378	380	O
+the	381	384	O
+context	385	392	O
+of	393	395	O
+nuclear	396	403	B-Task
+physics	404	411	I-Task
+,	411	412	O
+within	413	419	O
+the	420	423	O
+so	424	426	O
+-	426	427	O
+called	427	433	O
+“	434	435	B-Task
+MIT	435	438	I-Task
+bag	439	442	I-Task
+model	443	448	I-Task
+”	448	449	I-Task
+of	450	452	I-Task
+the	453	456	I-Task
+nucleon	457	464	I-Task
+[	466	467	O
+13	467	469	O
+]	469	470	O
+.	470	471	O
+
+In	472	474	O
+the	475	478	O
+bag	479	482	O
+-	482	483	O
+model	483	488	O
+one	489	492	O
+envisages	493	502	O
+the	503	506	O
+nucleon	507	514	B-Material
+as	515	517	O
+a	518	519	B-Task
+collection	520	530	I-Task
+of	531	533	I-Task
+fermionic	534	543	I-Task
+fields	544	550	I-Task
+describing	551	561	I-Task
+confined	562	570	I-Task
+quarks	571	577	I-Task
+.	577	578	O
+
+These	579	584	O
+quarks	585	591	O
+are	592	595	O
+subject	596	603	O
+to	604	606	O
+a	607	608	O
+boundary	609	617	O
+condition	618	627	O
+at	628	630	O
+the	631	634	O
+surface	635	642	O
+of	643	645	O
+the	646	649	O
+‘	650	651	O
+bag’	651	655	O
+that	656	660	O
+represents	661	671	O
+the	672	675	O
+nucleon	676	683	O
+’s	683	685	O
+surface	686	693	O
+.	693	694	O
+
+Just	695	699	O
+as	700	702	O
+in	703	705	O
+the	706	709	O
+electromagnetic	710	725	O
+case	726	730	O
+,	730	731	O
+the	732	735	B-Process
+bag	736	739	I-Process
+boundary	740	748	I-Process
+condition	749	758	I-Process
+modifies	759	767	I-Process
+the	768	771	I-Process
+vacuum	772	778	I-Process
+fluctuations	779	791	I-Process
+of	792	794	I-Process
+the	795	798	I-Process
+field	799	804	I-Process
+,	804	805	O
+which	806	811	O
+results	812	819	O
+in	820	822	O
+the	823	826	O
+appearance	827	837	O
+of	838	840	O
+a	841	842	O
+Casimir	843	850	B-Task
+force	851	856	I-Task
+
+[	858	859	O
+14–18	859	864	O
+]	864	865	O
+.	865	866	O
+
+This	867	871	O
+force	872	877	O
+,	877	878	O
+although	879	887	O
+very	888	892	O
+weak	893	897	O
+at	898	900	O
+a	901	902	O
+macroscopic	903	914	O
+scale	915	920	O
+,	920	921	O
+can	922	925	O
+be	926	928	O
+significant	929	940	O
+on	941	943	O
+the	944	947	O
+small	948	953	O
+length	954	960	O
+scales	961	967	O
+encountered	968	979	O
+in	980	982	O
+nuclear	983	990	B-Task
+physics	991	998	I-Task
+.	998	999	O
+
+It	1000	1002	O
+therefore	1003	1012	O
+has	1013	1016	O
+important	1017	1026	O
+consequences	1027	1039	O
+for	1040	1043	O
+the	1044	1047	O
+physics	1048	1055	O
+of	1056	1058	O
+the	1059	1062	O
+bag	1063	1066	B-Material
+-	1066	1067	I-Material
+model	1067	1072	I-Material
+nucleon	1073	1080	I-Material
+[	1082	1083	O
+19	1083	1085	O
+]	1085	1086	O
+.	1086	1087	O
 
 
 -DOCSTART- (S0009261409006666)
 
-We	NN	O	O
-have	NN	O	O
-presented	NN	O	O
-spectrally	NN	O	B-Material
-resolved	NN	O	I-Material
-femtosecond	NN	O	I-Material
-three	NN	O	I-Material
--	NN	O	I-Material
-pulse	NN	O	I-Material
-photon	NN	O	I-Material
-echo	NN	O	I-Material
-measurements	NN	O	I-Material
-on	NN	O	O
-Zn(II)–OEP	NN	O	B-Material
-,	NN	O	O
-Ni(II)–OEP	NN	O	B-Material
-and	NN	O	O
-Co(II)–OEP	NN	O	B-Material
-.	NN	O	O
-
-Increased	NN	O	B-Task
-degree	NN	O	I-Task
-of	NN	O	I-Task
-freedom	NN	O	I-Task
-in	NN	O	O
-scans	NN	O	O
-of	NN	O	O
-time	NN	O	O
-delays	NN	O	O
-allows	NN	O	O
-one	NN	O	O
-to	NN	O	O
-separate	NN	O	B-Process
-and	NN	O	I-Process
-extract	NN	O	I-Process
-specific	NN	O	I-Process
-type	NN	O	I-Process
-of	NN	O	I-Process
-spectroscopic	NN	O	I-Process
-information	NN	O	I-Process
-in	NN	O	O
-complex	NN	O	B-Material
-molecules	NN	O	I-Material
-by	NN	O	O
-studying	NN	O	O
-spectral	NN	O	B-Process
-and	NN	O	I-Process
-temporal	NN	O	I-Process
-evolution	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-photon	NN	O	I-Process
-echo	NN	O	I-Process
-signals	NN	O	I-Process
-.	NN	O	O
-
-By	NN	O	O
-varying	NN	O	B-Process
-the	NN	O	I-Process
-population	NN	O	I-Process
-times	NN	O	I-Process
-,	NN	O	O
-population	NN	O	B-Task
-relaxation	NN	O	I-Task
-dynamics	NN	O	I-Task
-and	NN	O	O
-inhomogeneous	NN	O	B-Process
-broadening	NN	O	I-Process
-is	NN	O	O
-revealed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-photon	NN	O	B-Material
-echo	NN	O	I-Material
-spectra	NN	O	I-Material
-.	NN	O	O
-
-Time	NN	O	B-Material
--	NN	O	I-Material
-integrated	NN	O	I-Material
-photon	NN	O	I-Material
-echo	NN	O	I-Material
-signals	NN	O	I-Material
-show	NN	O	O
-two	NN	O	O
-different	NN	O	O
-timescales	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-electronic	NN	O	B-Material
-relaxation	NN	O	I-Material
-timescale	NN	O	I-Material
-is	NN	O	O
-found	NN	O	O
-to	NN	O	O
-be	NN	O	O
-sub	NN	O	B-Material
-50fs	NN	O	I-Material
-whereas	NN	O	O
-the	NN	O	O
-timescale	NN	O	B-Material
-for	NN	O	O
-intramolecular	NN	O	B-Process
-vibrational	NN	O	I-Process
-relaxation	NN	O	I-Process
-,	NN	O	O
-occurring	NN	O	O
-in	NN	O	O
-Q00	NN	O	B-Material
-band	NN	O	I-Material
-,	NN	O	O
-was	NN	O	O
-found	NN	O	O
-to	NN	O	O
-be	NN	O	O
-over	NN	O	O
-a	NN	O	O
-picosecond	NN	O	O
-for	NN	O	O
-Co(II)–OEP	NN	O	B-Material
-and	NN	O	O
-Ni(II)–OEP	NN	O	B-Material
-and	NN	O	O
-within	NN	O	B-Material
-a	NN	O	I-Material
-picosecond	NN	O	I-Material
-for	NN	O	I-Material
-Zn(II)–OEP	NN	O	I-Material
-.	NN	O	O
+We	0	2	O
+have	3	7	O
+presented	8	17	O
+spectrally	18	28	B-Process
+resolved	29	37	I-Process
+femtosecond	38	49	I-Process
+three	50	55	I-Process
+-	55	56	I-Process
+pulse	56	61	I-Process
+photon	62	68	I-Process
+echo	69	73	I-Process
+measurements	74	86	I-Process
+on	87	89	O
+Zn(II)–OEP	90	100	B-Material
+,	100	101	O
+Ni(II)–OEP	102	112	B-Material
+and	113	116	O
+Co(II)–OEP	117	127	B-Material
+.	127	128	O
+
+Increased	129	138	B-Task
+degree	139	145	I-Task
+of	146	148	I-Task
+freedom	149	156	I-Task
+in	157	159	O
+scans	160	165	O
+of	166	168	O
+time	169	173	O
+delays	174	180	O
+allows	181	187	O
+one	188	191	O
+to	192	194	O
+separate	195	203	B-Process
+and	204	207	I-Process
+extract	208	215	I-Process
+specific	216	224	I-Process
+type	225	229	I-Process
+of	230	232	I-Process
+spectroscopic	233	246	I-Process
+information	247	258	I-Process
+in	259	261	O
+complex	262	269	B-Material
+molecules	270	279	I-Material
+by	280	282	O
+studying	283	291	O
+spectral	292	300	B-Process
+and	301	304	I-Process
+temporal	305	313	I-Process
+evolution	314	323	I-Process
+of	324	326	I-Process
+the	327	330	I-Process
+photon	331	337	I-Process
+echo	338	342	I-Process
+signals	343	350	I-Process
+.	350	351	O
+
+By	352	354	O
+varying	355	362	B-Process
+the	363	366	I-Process
+population	367	377	I-Process
+times	378	383	I-Process
+,	383	384	O
+population	385	395	B-Task
+relaxation	396	406	I-Task
+dynamics	407	415	I-Task
+and	416	419	O
+inhomogeneous	420	433	B-Process
+broadening	434	444	I-Process
+is	445	447	O
+revealed	448	456	O
+in	457	459	O
+the	460	463	O
+photon	464	470	B-Material
+echo	471	475	I-Material
+spectra	476	483	I-Material
+.	483	484	O
+
+Time	485	489	B-Material
+-	489	490	I-Material
+integrated	490	500	I-Material
+photon	501	507	I-Material
+echo	508	512	I-Material
+signals	513	520	I-Material
+show	521	525	O
+two	526	529	O
+different	530	539	O
+timescales	540	550	B-Material
+.	550	551	O
+
+The	552	555	O
+electronic	556	566	B-Material
+relaxation	567	577	I-Material
+timescale	578	587	I-Material
+is	588	590	O
+found	591	596	O
+to	597	599	O
+be	600	602	O
+sub	603	606	B-Material
+50fs	607	611	I-Material
+whereas	612	619	O
+the	620	623	O
+timescale	624	633	B-Material
+for	634	637	O
+intramolecular	638	652	B-Process
+vibrational	653	664	I-Process
+relaxation	665	675	I-Process
+,	675	676	O
+occurring	677	686	O
+in	687	689	O
+Q00	690	693	B-Material
+band	694	698	I-Material
+,	698	699	O
+was	700	703	O
+found	704	709	O
+to	710	712	O
+be	713	715	O
+over	716	720	O
+a	721	722	O
+picosecond	723	733	O
+for	734	737	O
+Co(II)–OEP	738	748	B-Material
+and	749	752	O
+Ni(II)–OEP	753	763	B-Material
+and	764	767	O
+within	768	774	B-Material
+a	775	776	I-Material
+picosecond	777	787	I-Material
+for	788	791	I-Material
+Zn(II)–OEP	792	802	I-Material
+.	802	803	O
 
 
 -DOCSTART- (S0009261412006513)
 
-Water	NN	O	B-Material
-is	NN	O	O
-the	NN	O	O
-most	NN	O	O
-important	NN	O	O
-liquid	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-its	NN	O	O
-structure	NN	O	O
-remains	NN	O	O
-a	NN	O	O
-topic	NN	O	O
-of	NN	O	O
-keen	NN	O	O
-debate	NN	O	O
-and	NN	O	O
-an	NN	O	O
-active	NN	O	O
-area	NN	O	O
-of	NN	O	O
-research	NN	O	O
-[	NN	O	O
-1–9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Much	NN	O	O
-of	NN	O	O
-this	NN	O	O
-debate	NN	O	O
-centers	NN	O	O
-around	NN	O	O
-whether	NN	O	O
-water	NN	O	B-Material
-has	NN	O	O
-a	NN	O	O
-mainly	NN	O	O
-tetrahedral	NN	O	O
-structure	NN	O	O
-with	NN	O	O
-a	NN	O	O
-continuum	NN	O	O
-of	NN	O	O
-distorted	NN	O	B-Material
-hydrogen	NN	O	I-Material
-bonds	NN	O	I-Material
-,	NN	O	O
-or	NN	O	O
-if	NN	O	O
-it	NN	O	O
-contains	NN	O	O
-a	NN	O	O
-mixture	NN	O	O
-of	NN	O	O
-two	NN	O	O
-distinct	NN	O	O
-components	NN	O	O
-.	NN	O	O
-
-One	NN	O	O
-major	NN	O	O
-development	NN	O	O
-in	NN	O	O
-recent	NN	O	O
-years	NN	O	O
-is	NN	O	O
-the	NN	O	O
-application	NN	O	O
-of	NN	O	O
-inner	NN	O	B-Process
--	NN	O	I-Process
-shell	NN	O	I-Process
-spectroscopic	NN	O	I-Process
-techniques	NN	O	I-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-X	NN	O	B-Process
--	NN	O	I-Process
-ray	NN	O	I-Process
-absorption	NN	O	I-Process
-spectroscopy	NN	O	I-Process
-(	NN	O	O
-XAS	NN	O	B-Process
-)	NN	O	O
-and	NN	O	O
-X	NN	O	B-Process
--	NN	O	I-Process
-ray	NN	O	I-Process
-emission	NN	O	I-Process
-spectroscopy	NN	O	I-Process
-(	NN	O	O
-XES	NN	O	B-Process
-)	NN	O	O
-at	NN	O	O
-the	NN	O	O
-oxygen	NN	O	B-Material
-K	NN	O	I-Material
--	NN	O	I-Material
-edge	NN	O	I-Material
-to	NN	O	O
-investigate	NN	O	O
-the	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-water	NN	O	B-Material
-[	NN	O	O
-2,10–12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-methods	NN	O	O
-can	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-direct	NN	O	B-Process
-structural	NN	O	I-Process
-probe	NN	O	I-Process
-of	NN	O	I-Process
-water	NN	O	I-Process
-,	NN	O	O
-providing	NN	O	O
-insight	NN	O	O
-into	NN	O	O
-the	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-its	NN	O	O
-hydrogen	NN	O	B-Task
-bonding	NN	O	I-Task
-network	NN	O	I-Task
-.	NN	O	O
-
-Theoretical	NN	O	O
-studies	NN	O	O
-play	NN	O	O
-a	NN	O	O
-critical	NN	O	O
-role	NN	O	O
-in	NN	O	O
-these	NN	O	O
-studies	NN	O	O
-,	NN	O	O
-since	NN	O	O
-the	NN	O	O
-analysis	NN	O	O
-of	NN	O	O
-the	NN	O	O
-experimental	NN	O	B-Material
-data	NN	O	I-Material
-requires	NN	O	O
-calculations	NN	O	B-Material
-to	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-link	NN	O	O
-between	NN	O	O
-the	NN	O	O
-observed	NN	O	B-Process
-spectral	NN	O	I-Process
-features	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-underlying	NN	O	B-Task
-structure	NN	O	I-Task
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-simulation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-XAS	NN	O	B-Process
-or	NN	O	O
-XES	NN	O	B-Process
-for	NN	O	O
-liquid	NN	O	B-Material
-water	NN	O	I-Material
-presents	NN	O	O
-a	NN	O	O
-difficult	NN	O	O
-challenge	NN	O	O
-because	NN	O	O
-it	NN	O	O
-requires	NN	O	O
-accurate	NN	O	B-Process
-molecular	NN	O	I-Process
-dynamics	NN	O	I-Process
-simulations	NN	O	I-Process
-to	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-correct	NN	O	O
-description	NN	O	O
-of	NN	O	O
-the	NN	O	O
-molecular	NN	O	B-Task
-structure	NN	O	I-Task
-coupled	NN	O	O
-with	NN	O	O
-accurate	NN	O	O
-calculations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-spectral	NN	O	B-Task
-properties	NN	O	I-Task
-,	NN	O	O
-i.e.	NN	O	O
-excitation	NN	O	B-Task
-energies	NN	O	I-Task
-and	NN	O	O
-line	NN	O	B-Task
-intensities	NN	O	I-Task
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-adequate	NN	O	B-Material
-sampling	NN	O	I-Material
-over	NN	O	O
-molecular	NN	O	B-Process
-configurations	NN	O	I-Process
-also	NN	O	O
-needs	NN	O	O
-to	NN	O	O
-be	NN	O	O
-accounted	NN	O	O
-for	NN	O	O
-.	NN	O	O
+Water	0	5	B-Material
+is	6	8	O
+the	9	12	O
+most	13	17	O
+important	18	27	O
+liquid	28	34	B-Material
+,	34	35	O
+and	36	39	O
+the	40	43	O
+nature	44	50	O
+of	51	53	O
+its	54	57	O
+structure	58	67	O
+remains	68	75	O
+a	76	77	O
+topic	78	83	O
+of	84	86	O
+keen	87	91	O
+debate	92	98	O
+and	99	102	O
+an	103	105	O
+active	106	112	O
+area	113	117	O
+of	118	120	O
+research	121	129	O
+[	130	131	O
+1–9	131	134	O
+]	134	135	O
+.	135	136	O
+
+Much	137	141	O
+of	142	144	O
+this	145	149	O
+debate	150	156	O
+centers	157	164	O
+around	165	171	O
+whether	172	179	O
+water	180	185	B-Material
+has	186	189	O
+a	190	191	O
+mainly	192	198	O
+tetrahedral	199	210	O
+structure	211	220	O
+with	221	225	O
+a	226	227	O
+continuum	228	237	O
+of	238	240	O
+distorted	241	250	B-Material
+hydrogen	251	259	I-Material
+bonds	260	265	I-Material
+,	265	266	O
+or	267	269	O
+if	270	272	O
+it	273	275	O
+contains	276	284	O
+a	285	286	O
+mixture	287	294	O
+of	295	297	O
+two	298	301	O
+distinct	302	310	O
+components	311	321	O
+.	321	322	O
+
+One	323	326	O
+major	327	332	O
+development	333	344	O
+in	345	347	O
+recent	348	354	O
+years	355	360	O
+is	361	363	O
+the	364	367	O
+application	368	379	O
+of	380	382	O
+inner	383	388	B-Process
+-	388	389	I-Process
+shell	389	394	I-Process
+spectroscopic	395	408	I-Process
+techniques	409	419	I-Process
+,	419	420	O
+such	421	425	O
+as	426	428	O
+X	429	430	B-Process
+-	430	431	I-Process
+ray	431	434	I-Process
+absorption	435	445	I-Process
+spectroscopy	446	458	I-Process
+(	459	460	O
+XAS	460	463	B-Process
+)	463	464	O
+and	465	468	O
+X	469	470	B-Process
+-	470	471	I-Process
+ray	471	474	I-Process
+emission	475	483	I-Process
+spectroscopy	484	496	I-Process
+(	497	498	O
+XES	498	501	B-Process
+)	501	502	O
+at	503	505	O
+the	506	509	O
+oxygen	510	516	B-Material
+K	517	518	I-Material
+-	518	519	I-Material
+edge	519	523	I-Material
+to	524	526	O
+investigate	527	538	O
+the	539	542	O
+structure	543	552	O
+of	553	555	O
+water	556	561	B-Material
+[	562	563	O
+2,10–12	563	570	O
+]	570	571	O
+.	571	572	O
+
+These	573	578	O
+methods	579	586	O
+can	587	590	O
+provide	591	598	O
+a	599	600	O
+direct	601	607	B-Process
+structural	608	618	I-Process
+probe	619	624	I-Process
+of	625	627	I-Process
+water	628	633	I-Process
+,	633	634	O
+providing	635	644	O
+insight	645	652	O
+into	653	657	O
+the	658	661	O
+nature	662	668	O
+of	669	671	O
+its	672	675	O
+hydrogen	676	684	B-Task
+bonding	685	692	I-Task
+network	693	700	I-Task
+.	700	701	O
+
+Theoretical	702	713	O
+studies	714	721	O
+play	722	726	O
+a	727	728	O
+critical	729	737	O
+role	738	742	O
+in	743	745	O
+these	746	751	O
+studies	752	759	O
+,	759	760	O
+since	761	766	O
+the	767	770	O
+analysis	771	779	O
+of	780	782	O
+the	783	786	O
+experimental	787	799	B-Material
+data	800	804	I-Material
+requires	805	813	O
+calculations	814	826	B-Material
+to	827	829	O
+provide	830	837	O
+a	838	839	O
+link	840	844	O
+between	845	852	O
+the	853	856	O
+observed	857	865	B-Process
+spectral	866	874	I-Process
+features	875	883	I-Process
+and	884	887	O
+the	888	891	O
+underlying	892	902	B-Task
+structure	903	912	I-Task
+.	912	913	O
+
+However	914	921	O
+,	921	922	O
+the	923	926	O
+simulation	927	937	O
+of	938	940	O
+the	941	944	O
+XAS	945	948	B-Process
+or	949	951	O
+XES	952	955	B-Process
+for	956	959	O
+liquid	960	966	B-Material
+water	967	972	I-Material
+presents	973	981	O
+a	982	983	O
+difficult	984	993	O
+challenge	994	1003	O
+because	1004	1011	O
+it	1012	1014	O
+requires	1015	1023	O
+accurate	1024	1032	B-Process
+molecular	1033	1042	I-Process
+dynamics	1043	1051	I-Process
+simulations	1052	1063	I-Process
+to	1064	1066	O
+provide	1067	1074	O
+a	1075	1076	O
+correct	1077	1084	O
+description	1085	1096	O
+of	1097	1099	O
+the	1100	1103	O
+molecular	1104	1113	B-Task
+structure	1114	1123	I-Task
+coupled	1124	1131	O
+with	1132	1136	O
+accurate	1137	1145	O
+calculations	1146	1158	O
+of	1159	1161	O
+the	1162	1165	O
+spectral	1166	1174	B-Task
+properties	1175	1185	I-Task
+,	1185	1186	O
+i.e.	1187	1191	O
+excitation	1192	1202	B-Task
+energies	1203	1211	I-Task
+and	1212	1215	O
+line	1216	1220	B-Task
+intensities	1221	1232	I-Task
+.	1232	1233	O
+
+Furthermore	1234	1245	O
+,	1245	1246	O
+adequate	1247	1255	B-Material
+sampling	1256	1264	I-Material
+over	1265	1269	O
+molecular	1270	1279	B-Process
+configurations	1280	1294	I-Process
+also	1295	1299	O
+needs	1300	1305	O
+to	1306	1308	O
+be	1309	1311	O
+accounted	1312	1321	O
+for	1322	1325	O
+.	1325	1326	O
 
 
 -DOCSTART- (S0009261412012365)
 
-Under	NN	O	O
-these	NN	O	O
-experimental	NN	O	O
-conditions	NN	O	O
-,	NN	O	O
-the	NN	O	O
-observed	NN	O	B-Process
-dynamics	NN	O	I-Process
-has	NN	O	O
-to	NN	O	O
-occur	NN	O	O
-where	NN	O	O
-the	NN	O	O
-probe	NN	O	B-Process
-laser	NN	O	I-Process
-induces	NN	O	O
-the	NN	O	O
-reactions	NN	O	B-Task
-resulting	NN	O	O
-in	NN	O	O
-further	NN	O	B-Process
-ionization	NN	O	I-Process
-[	NN	O	O
-30	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-step	NN	O	I-Process
-decay	NN	O	I-Process
-model	NN	O	I-Process
-[	NN	O	O
-26	NN	O	O
-]	NN	O	O
-was	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-explain	NN	O	O
-the	NN	O	O
-above	NN	O	O
--	NN	O	O
-mentioned	NN	O	O
-fragmentation	NN	O	B-Process
-of	NN	O	I-Process
-DCPD	NN	O	I-Process
-to	NN	O	I-Process
-CPD	NN	O	I-Process
-,	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Figure	NN	O	O
-8a	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-fitting	NN	O	O
-of	NN	O	O
-the	NN	O	O
-rise	NN	O	B-Material
-and	NN	O	I-Material
-decay	NN	O	I-Material
-components	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-transients	NN	O	B-Material
-were	NN	O	O
-done	NN	O	O
-by	NN	O	O
-Matlab	NN	O	B-Process
-®	NN	O	I-Process
-programming	NN	O	I-Process
-using	NN	O	O
-the	NN	O	O
-curve	NN	O	B-Process
-fitting	NN	O	I-Process
-Levenberg	NN	O	I-Process
-–	NN	O	I-Process
-Marquardt	NN	O	I-Process
-algorithm	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-best	NN	O	B-Process
-fit	NN	O	I-Process
-decay	NN	O	I-Process
-constants	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-biexponential	NN	O	B-Material
-decay	NN	O	I-Material
-components	NN	O	I-Material
-of	NN	O	O
-C10H12	NN	O	B-Material
-+	NN	O	I-Material
-ion	NN	O	I-Material
-signal	NN	O	I-Material
-is	NN	O	O
-τ1=35fs	NN	O	B-Process
-and	NN	O	O
-τ2=240fs	NN	O	B-Process
-,	NN	O	O
-while	NN	O	O
-that	NN	O	O
-for	NN	O	O
-C5H6	NN	O	B-Material
-+	NN	O	I-Material
-ion	NN	O	I-Material
-signal	NN	O	I-Material
-is	NN	O	O
-τ1=36fs	NN	O	B-Process
-and	NN	O	O
-τ2=280fs	NN	O	B-Process
-,	NN	O	O
-respectively	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-decay	NN	O	B-Task
-constants	NN	O	I-Task
-conform	NN	O	O
-to	NN	O	O
-the	NN	O	O
-previously	NN	O	O
-reported	NN	O	O
-time	NN	O	O
-constants	NN	O	O
-of	NN	O	O
-norbornene	NN	O	B-Material
-and	NN	O	O
-norbornadiene	NN	O	B-Material
-[	NN	O	O
-22,23	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-transients	NN	O	O
-of	NN	O	O
-the	NN	O	O
-reaction	NN	O	O
-fragment	NN	O	O
-C5H6	NN	O	O
-+	NN	O	O
-are	NN	O	O
-sufficiently	NN	O	O
-different	NN	O	O
-from	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-parent	NN	O	B-Material
-ion	NN	O	I-Material
-C10H12	NN	O	B-Material
-+	NN	O	I-Material
-indicating	NN	O	O
-that	NN	O	O
-we	NN	O	O
-are	NN	O	O
-studying	NN	O	O
-the	NN	O	O
-distinct	NN	O	B-Task
-dynamics	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-neutrals	NN	O	I-Task
-and	NN	O	O
-not	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-parent	NN	O	B-Process
-ion	NN	O	I-Process
-fragmentation	NN	O	I-Process
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Applying	NN	O	B-Process
-laser	NN	O	I-Process
-control	NN	O	I-Process
-principles	NN	O	I-Process
-under	NN	O	O
-such	NN	O	O
-experimental	NN	O	O
-circumstances	NN	O	O
-also	NN	O	O
-confirms	NN	O	O
-that	NN	O	O
-we	NN	O	O
-are	NN	O	O
-controlling	NN	O	B-Process
-the	NN	O	I-Process
-product	NN	O	I-Process
-yield	NN	O	I-Process
-of	NN	O	I-Process
-C5H6	NN	O	I-Process
-+	NN	O	I-Process
-,	NN	O	O
-resulting	NN	O	O
-from	NN	O	O
-the	NN	O	O
-photochemical	NN	O	B-Process
-reaction	NN	O	I-Process
-of	NN	O	I-Process
-DCPD	NN	O	I-Process
-.	NN	O	O
+Under	0	5	O
+these	6	11	O
+experimental	12	24	O
+conditions	25	35	O
+,	35	36	O
+the	37	40	O
+observed	41	49	B-Process
+dynamics	50	58	I-Process
+has	59	62	O
+to	63	65	O
+occur	66	71	O
+where	72	77	O
+the	78	81	O
+probe	82	87	B-Process
+laser	88	93	I-Process
+induces	94	101	O
+the	102	105	O
+reactions	106	115	B-Task
+resulting	116	125	O
+in	126	128	O
+further	129	136	B-Process
+ionization	137	147	I-Process
+[	148	149	O
+30	149	151	O
+]	151	152	O
+.	152	153	O
+
+The	154	157	O
+two	158	161	B-Process
+-	161	162	I-Process
+step	162	166	I-Process
+decay	167	172	I-Process
+model	173	178	I-Process
+[	179	180	O
+26	180	182	O
+]	182	183	O
+was	184	187	O
+applied	188	195	O
+to	196	198	O
+explain	199	206	O
+the	207	210	O
+above	211	216	O
+-	216	217	O
+mentioned	217	226	O
+fragmentation	227	240	B-Process
+of	241	243	I-Process
+DCPD	244	248	I-Process
+to	249	251	I-Process
+CPD	252	255	I-Process
+,	255	256	O
+shown	257	262	O
+in	263	265	O
+Figure	266	272	O
+8a	273	275	O
+.	275	276	O
+
+The	277	280	O
+fitting	281	288	O
+of	289	291	O
+the	292	295	O
+rise	296	300	B-Material
+and	301	304	I-Material
+decay	305	310	I-Material
+components	311	321	I-Material
+of	322	324	O
+the	325	328	O
+transients	329	339	B-Material
+were	340	344	O
+done	345	349	O
+by	350	352	O
+Matlab	353	359	B-Process
+®	359	360	I-Process
+programming	361	372	I-Process
+using	373	378	O
+the	379	382	O
+curve	383	388	B-Process
+fitting	389	396	I-Process
+Levenberg	397	406	I-Process
+–	406	407	I-Process
+Marquardt	407	416	I-Process
+algorithm	417	426	I-Process
+.	426	427	O
+
+The	428	431	O
+best	432	436	B-Process
+fit	437	440	I-Process
+decay	441	446	I-Process
+constants	447	456	I-Process
+for	457	460	O
+the	461	464	O
+biexponential	465	478	B-Material
+decay	479	484	I-Material
+components	485	495	I-Material
+of	496	498	O
+C10H12	499	505	B-Material
++	505	506	I-Material
+ion	507	510	I-Material
+signal	511	517	I-Material
+is	518	520	O
+τ1=35fs	521	528	B-Process
+and	529	532	O
+τ2=240fs	533	541	B-Process
+,	541	542	O
+while	543	548	O
+that	549	553	O
+for	554	557	O
+C5H6	558	562	B-Material
++	562	563	I-Material
+ion	564	567	I-Material
+signal	568	574	I-Material
+is	575	577	O
+τ1=36fs	578	585	B-Process
+and	586	589	O
+τ2=280fs	590	598	B-Process
+,	598	599	O
+respectively	600	612	O
+.	612	613	O
+
+These	614	619	O
+decay	620	625	B-Task
+constants	626	635	I-Task
+conform	636	643	O
+to	644	646	O
+the	647	650	O
+previously	651	661	O
+reported	662	670	O
+time	671	675	O
+constants	676	685	O
+of	686	688	O
+norbornene	689	699	B-Material
+and	700	703	O
+norbornadiene	704	717	B-Material
+[	718	719	O
+22,23	719	724	O
+]	724	725	O
+.	725	726	O
+
+The	727	730	O
+transients	731	741	O
+of	742	744	O
+the	745	748	O
+reaction	749	757	O
+fragment	758	766	O
+C5H6	767	771	O
++	771	772	O
+are	773	776	O
+sufficiently	777	789	O
+different	790	799	O
+from	800	804	O
+that	805	809	O
+of	810	812	O
+the	813	816	O
+parent	817	823	B-Material
+ion	824	827	I-Material
+C10H12	828	834	B-Material
++	834	835	I-Material
+indicating	836	846	O
+that	847	851	O
+we	852	854	O
+are	855	858	O
+studying	859	867	O
+the	868	871	O
+distinct	872	880	B-Task
+dynamics	881	889	I-Task
+of	890	892	I-Task
+the	893	896	I-Task
+neutrals	897	905	I-Task
+and	906	909	O
+not	910	913	O
+that	914	918	O
+of	919	921	O
+the	922	925	O
+parent	926	932	B-Process
+ion	933	936	I-Process
+fragmentation	937	950	I-Process
+[	951	952	O
+24	952	954	O
+]	954	955	O
+.	955	956	O
+
+Applying	957	965	B-Process
+laser	966	971	I-Process
+control	972	979	I-Process
+principles	980	990	I-Process
+under	991	996	O
+such	997	1001	O
+experimental	1002	1014	O
+circumstances	1015	1028	O
+also	1029	1033	O
+confirms	1034	1042	O
+that	1043	1047	O
+we	1048	1050	O
+are	1051	1054	O
+controlling	1055	1066	B-Process
+the	1067	1070	I-Process
+product	1071	1078	I-Process
+yield	1079	1084	I-Process
+of	1085	1087	I-Process
+C5H6	1088	1092	I-Process
++	1092	1093	I-Process
+,	1093	1094	O
+resulting	1095	1104	O
+from	1105	1109	O
+the	1110	1113	O
+photochemical	1114	1127	B-Process
+reaction	1128	1136	I-Process
+of	1137	1139	I-Process
+DCPD	1140	1144	I-Process
+.	1144	1145	O
 
 
 -DOCSTART- (S0009261412013838)
 
-Experimental	NN	O	O
-studies	NN	O	O
-of	NN	O	O
-the	NN	O	O
-dynamics	NN	O	O
-of	NN	O	O
-individual	NN	O	O
-carbon	NN	O	B-Material
-atoms	NN	O	I-Material
-in	NN	O	O
-graphene	NN	O	B-Material
-have	NN	O	O
-been	NN	O	O
-empowered	NN	O	O
-by	NN	O	O
-the	NN	O	O
-recent	NN	O	O
-progress	NN	O	O
-in	NN	O	O
-aberration	NN	O	B-Process
--	NN	O	I-Process
-corrected	NN	O	I-Process
-transmission	NN	O	I-Process
-electron	NN	O	I-Process
-microscopy	NN	O	I-Process
-(	NN	O	O
-AC	NN	O	B-Process
--	NN	O	I-Process
-TEM	NN	O	I-Process
-)	NN	O	O
-capable	NN	O	O
-of	NN	O	O
-sub	NN	O	B-Process
--	NN	O	I-Process
-Ångstrom	NN	O	I-Process
-resolution	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-examples	NN	O	O
-include	NN	O	O
-AC	NN	O	B-Process
--	NN	O	I-Process
-TEM	NN	O	I-Process
-observations	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-formation	NN	O	I-Process
-and	NN	O	I-Process
-annealing	NN	O	I-Process
-of	NN	O	I-Process
-Stone	NN	O	I-Process
-–	NN	O	I-Process
-Wales	NN	O	I-Process
-defects	NN	O	I-Process
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-,	NN	O	O
-edge	NN	O	B-Process
-reconstruction	NN	O	I-Process
-[	NN	O	O
-2,3	NN	O	O
-]	NN	O	O
-and	NN	O	O
-formation	NN	O	B-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-large	NN	O	I-Process
-hole	NN	O	I-Process
-in	NN	O	I-Process
-graphene	NN	O	I-Process
-sheet	NN	O	I-Process
-from	NN	O	I-Process
-a	NN	O	I-Process
-single	NN	O	I-Process
-vacancy	NN	O	I-Process
-defect	NN	O	I-Process
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-AC	NN	O	O
--	NN	O	O
-TEM	NN	O	O
-has	NN	O	O
-been	NN	O	O
-also	NN	O	O
-exploited	NN	O	O
-in	NN	O	O
-visualization	NN	O	O
-in	NN	O	O
-real	NN	O	O
-time	NN	O	O
-of	NN	O	O
-the	NN	O	O
-process	NN	O	B-Process
-of	NN	O	I-Process
-self	NN	O	I-Process
--	NN	O	I-Process
-assembly	NN	O	I-Process
-of	NN	O	I-Process
-graphene	NN	O	I-Process
-nanoribbons	NN	O	I-Process
-from	NN	O	O
-molecular	NN	O	B-Material
-precursors	NN	O	I-Material
-
-[	NN	O	O
-4,5	NN	O	O
-]	NN	O	O
-and	NN	O	O
-formation	NN	O	B-Process
-of	NN	O	I-Process
-nanometre	NN	O	I-Process
-size	NN	O	I-Process
-hollow	NN	O	I-Process
-protrusion	NN	O	I-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-nanotube	NN	O	I-Process
-sidewall	NN	O	I-Process
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Based	NN	O	O
-on	NN	O	O
-AC	NN	O	B-Process
--	NN	O	I-Process
-TEM	NN	O	I-Process
-observations	NN	O	I-Process
-of	NN	O	O
-transformation	NN	O	O
-of	NN	O	O
-small	NN	O	B-Material
-finite	NN	O	I-Material
-graphene	NN	O	I-Material
-flake	NN	O	I-Material
-into	NN	O	O
-fullerene	NN	O	B-Material
-,	NN	O	O
-a	NN	O	O
-new	NN	O	O
-‘	NN	O	B-Task
-top	NN	O	I-Task
--	NN	O	I-Task
-down’	NN	O	I-Task
-mechanism	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-formation	NN	O	I-Task
-of	NN	O	I-Task
-fullerene	NN	O	I-Task
-under	NN	O	O
-the	NN	O	O
-electron	NN	O	O
-beam	NN	O	O
-radiation	NN	O	O
-has	NN	O	O
-been	NN	O	O
-proposed	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-critical	NN	O	O
-step	NN	O	O
-in	NN	O	O
-the	NN	O	O
-proposed	NN	O	B-Task
-‘	NN	O	I-Task
-top	NN	O	I-Task
--	NN	O	I-Task
-down’	NN	O	I-Task
-mechanism	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-fullerene	NN	O	I-Task
-formation	NN	O	I-Task
-is	NN	O	O
-creation	NN	O	B-Process
-of	NN	O	I-Process
-vacancies	NN	O	I-Process
-in	NN	O	I-Process
-small	NN	O	I-Process
-graphene	NN	O	I-Process
-flake	NN	O	I-Process
-as	NN	O	O
-a	NN	O	O
-result	NN	O	O
-of	NN	O	O
-knock	NN	O	B-Process
--	NN	O	I-Process
-on	NN	O	I-Process
-damage	NN	O	I-Process
-by	NN	O	I-Process
-electrons	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-imaging	NN	O	I-Process
-electron	NN	O	I-Process
-beam	NN	O	I-Process
-(	NN	O	I-Process
-e	NN	O	I-Process
--	NN	O	I-Process
-beam	NN	O	I-Process
-)	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-subsequent	NN	O	B-Task
-formation	NN	O	I-Task
-of	NN	O	I-Task
-pentagons	NN	O	I-Task
-at	NN	O	O
-the	NN	O	O
-vacancy	NN	O	O
-sites	NN	O	O
-near	NN	O	O
-the	NN	O	O
-edge	NN	O	O
-reduces	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-dangling	NN	O	O
-bonds	NN	O	O
-and	NN	O	O
-triggers	NN	O	O
-the	NN	O	O
-curving	NN	O	O
-process	NN	O	O
-of	NN	O	O
-graphene	NN	O	O
-flake	NN	O	O
-into	NN	O	O
-a	NN	O	O
-closed	NN	O	O
-fullerene	NN	O	O
-structure	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-dynamic	NN	O	O
-behaviour	NN	O	O
-of	NN	O	O
-vacancies	NN	O	O
-near	NN	O	O
-graphene	NN	O	O
-edge	NN	O	O
-plays	NN	O	O
-a	NN	O	O
-crucial	NN	O	O
-role	NN	O	O
-in	NN	O	O
-explaining	NN	O	O
-mechanisms	NN	O	O
-of	NN	O	O
-the	NN	O	O
-e	NN	O	B-Task
--	NN	O	I-Task
-beam	NN	O	I-Task
-assisted	NN	O	I-Task
-self	NN	O	I-Task
--	NN	O	I-Task
-assembly	NN	O	I-Task
-and	NN	O	O
-structural	NN	O	B-Task
-transformations	NN	O	I-Task
-in	NN	O	I-Task
-graphene	NN	O	I-Task
--	NN	O	I-Task
-like	NN	O	I-Task
-structures	NN	O	I-Task
-.	NN	O	O
+Experimental	0	12	O
+studies	13	20	O
+of	21	23	O
+the	24	27	O
+dynamics	28	36	O
+of	37	39	O
+individual	40	50	O
+carbon	51	57	B-Material
+atoms	58	63	I-Material
+in	64	66	O
+graphene	67	75	B-Material
+have	76	80	O
+been	81	85	O
+empowered	86	95	O
+by	96	98	O
+the	99	102	O
+recent	103	109	O
+progress	110	118	O
+in	119	121	O
+aberration	122	132	B-Process
+-	132	133	I-Process
+corrected	133	142	I-Process
+transmission	143	155	I-Process
+electron	156	164	I-Process
+microscopy	165	175	I-Process
+(	176	177	O
+AC	177	179	B-Process
+-	179	180	I-Process
+TEM	180	183	I-Process
+)	183	184	O
+capable	185	192	O
+of	193	195	O
+sub	196	199	B-Process
+-	199	200	I-Process
+Ångstrom	200	208	I-Process
+resolution	209	219	I-Process
+.	219	220	O
+
+The	221	224	O
+examples	225	233	O
+include	234	241	O
+AC	242	244	B-Process
+-	244	245	I-Process
+TEM	245	248	I-Process
+observations	249	261	I-Process
+of	262	264	I-Process
+the	265	268	I-Process
+formation	269	278	I-Process
+and	279	282	I-Process
+annealing	283	292	I-Process
+of	293	295	I-Process
+Stone	296	301	I-Process
+–	301	302	I-Process
+Wales	302	307	I-Process
+defects	308	315	I-Process
+[	316	317	O
+1	317	318	O
+]	318	319	O
+,	319	320	O
+edge	321	325	B-Process
+reconstruction	326	340	I-Process
+[	341	342	O
+2,3	342	345	O
+]	345	346	O
+and	347	350	O
+formation	351	360	B-Process
+of	361	363	I-Process
+a	364	365	I-Process
+large	366	371	I-Process
+hole	372	376	I-Process
+in	377	379	I-Process
+graphene	380	388	I-Process
+sheet	389	394	I-Process
+from	395	399	I-Process
+a	400	401	I-Process
+single	402	408	I-Process
+vacancy	409	416	I-Process
+defect	417	423	I-Process
+[	424	425	O
+3	425	426	O
+]	426	427	O
+.	427	428	O
+
+The	429	432	O
+AC	433	435	O
+-	435	436	O
+TEM	436	439	O
+has	440	443	O
+been	444	448	O
+also	449	453	O
+exploited	454	463	O
+in	464	466	O
+visualization	467	480	O
+in	481	483	O
+real	484	488	O
+time	489	493	O
+of	494	496	O
+the	497	500	O
+process	501	508	B-Process
+of	509	511	I-Process
+self	512	516	I-Process
+-	516	517	I-Process
+assembly	517	525	I-Process
+of	526	528	I-Process
+graphene	529	537	I-Process
+nanoribbons	538	549	I-Process
+from	550	554	O
+molecular	555	564	B-Material
+precursors	565	575	I-Material
+
+[	576	577	O
+4,5	577	580	O
+]	580	581	O
+and	582	585	O
+formation	586	595	B-Process
+of	596	598	I-Process
+nanometre	599	608	I-Process
+size	609	613	I-Process
+hollow	614	620	I-Process
+protrusion	621	631	I-Process
+on	632	634	I-Process
+the	635	638	I-Process
+nanotube	639	647	I-Process
+sidewall	648	656	I-Process
+[	657	658	O
+6	658	659	O
+]	659	660	O
+.	660	661	O
+
+Based	662	667	O
+on	668	670	O
+AC	671	673	B-Process
+-	673	674	I-Process
+TEM	674	677	I-Process
+observations	678	690	I-Process
+of	691	693	O
+transformation	694	708	O
+of	709	711	O
+small	712	717	B-Material
+finite	718	724	I-Material
+graphene	725	733	I-Material
+flake	734	739	I-Material
+into	740	744	O
+fullerene	745	754	B-Material
+,	754	755	O
+a	756	757	O
+new	758	761	O
+‘	762	763	B-Task
+top	763	766	I-Task
+-	766	767	I-Task
+down’	767	772	I-Task
+mechanism	773	782	I-Task
+for	783	786	I-Task
+the	787	790	I-Task
+formation	791	800	I-Task
+of	801	803	I-Task
+fullerene	804	813	I-Task
+under	814	819	O
+the	820	823	O
+electron	824	832	O
+beam	833	837	O
+radiation	838	847	O
+has	848	851	O
+been	852	856	O
+proposed	857	865	O
+[	866	867	O
+7	867	868	O
+]	868	869	O
+.	869	870	O
+
+The	871	874	O
+critical	875	883	O
+step	884	888	O
+in	889	891	O
+the	892	895	O
+proposed	896	904	B-Task
+‘	905	906	I-Task
+top	906	909	I-Task
+-	909	910	I-Task
+down’	910	915	I-Task
+mechanism	916	925	I-Task
+of	926	928	I-Task
+the	929	932	I-Task
+fullerene	933	942	I-Task
+formation	943	952	I-Task
+is	953	955	O
+creation	956	964	B-Process
+of	965	967	I-Process
+vacancies	968	977	I-Process
+in	978	980	I-Process
+small	981	986	I-Process
+graphene	987	995	I-Process
+flake	996	1001	I-Process
+as	1002	1004	O
+a	1005	1006	O
+result	1007	1013	O
+of	1014	1016	O
+knock	1017	1022	B-Process
+-	1022	1023	I-Process
+on	1023	1025	I-Process
+damage	1026	1032	I-Process
+by	1033	1035	I-Process
+electrons	1036	1045	I-Process
+of	1046	1048	I-Process
+the	1049	1052	I-Process
+imaging	1053	1060	I-Process
+electron	1061	1069	I-Process
+beam	1070	1074	I-Process
+(	1075	1076	I-Process
+e	1076	1077	I-Process
+-	1077	1078	I-Process
+beam	1078	1082	I-Process
+)	1082	1083	I-Process
+.	1083	1084	O
+
+The	1085	1088	O
+subsequent	1089	1099	B-Task
+formation	1100	1109	I-Task
+of	1110	1112	I-Task
+pentagons	1113	1122	I-Task
+at	1123	1125	O
+the	1126	1129	O
+vacancy	1130	1137	O
+sites	1138	1143	O
+near	1144	1148	O
+the	1149	1152	O
+edge	1153	1157	O
+reduces	1158	1165	O
+the	1166	1169	O
+number	1170	1176	O
+of	1177	1179	O
+dangling	1180	1188	O
+bonds	1189	1194	O
+and	1195	1198	O
+triggers	1199	1207	O
+the	1208	1211	O
+curving	1212	1219	O
+process	1220	1227	O
+of	1228	1230	O
+graphene	1231	1239	O
+flake	1240	1245	O
+into	1246	1250	O
+a	1251	1252	O
+closed	1253	1259	O
+fullerene	1260	1269	O
+structure	1270	1279	O
+[	1280	1281	O
+7	1281	1282	O
+]	1282	1283	O
+.	1283	1284	O
+
+Thus	1285	1289	O
+,	1289	1290	O
+dynamic	1291	1298	O
+behaviour	1299	1308	O
+of	1309	1311	O
+vacancies	1312	1321	O
+near	1322	1326	O
+graphene	1327	1335	O
+edge	1336	1340	O
+plays	1341	1346	O
+a	1347	1348	O
+crucial	1349	1356	O
+role	1357	1361	O
+in	1362	1364	O
+explaining	1365	1375	O
+mechanisms	1376	1386	O
+of	1387	1389	O
+the	1390	1393	O
+e	1394	1395	B-Task
+-	1395	1396	I-Task
+beam	1396	1400	I-Task
+assisted	1401	1409	I-Task
+self	1410	1414	I-Task
+-	1414	1415	I-Task
+assembly	1415	1423	I-Task
+and	1424	1427	O
+structural	1428	1438	B-Task
+transformations	1439	1454	I-Task
+in	1455	1457	I-Task
+graphene	1458	1466	I-Task
+-	1466	1467	I-Task
+like	1467	1471	I-Task
+structures	1472	1482	I-Task
+.	1482	1483	O
 
 
 -DOCSTART- (S0009261413006738)
 
-The	NN	O	O
-PESs	NN	O	O
-here	NN	O	O
-employed	NN	O	O
-have	NN	O	O
-already	NN	O	O
-been	NN	O	O
-tested	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-verify	NN	O	B-Process
-their	NN	O	I-Process
-validity	NN	O	I-Process
-for	NN	O	I-Process
-dynamical	NN	O	I-Process
-purposes	NN	O	I-Process
-.	NN	O	O
-
-Such	NN	O	O
-tests	NN	O	O
-include	NN	O	O
-studies	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-nitrogen	NN	O	I-Task
-exchange	NN	O	I-Task
-reaction	NN	O	I-Task
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-both	NN	O	O
-adiabatic	NN	O	O
-by	NN	O	O
-running	NN	O	O
-trajectories	NN	O	O
-on	NN	O	O
-the	NN	O	O
-lowest	NN	O	O
-surfaces	NN	O	O
-and	NN	O	O
-non	NN	O	O
--	NN	O	O
-adiabatic	NN	O	O
-by	NN	O	O
-using	NN	O	O
-the	NN	O	O
-trajectory	NN	O	B-Process
-surface	NN	O	I-Process
-hoping	NN	O	I-Process
-(	NN	O	I-Process
-TSH	NN	O	I-Process
-)	NN	O	I-Process
-method	NN	O	I-Process
-[	NN	O	O
-22,23	NN	O	O
-]	NN	O	O
-for	NN	O	O
-transitions	NN	O	O
-to	NN	O	O
-the	NN	O	O
-excited	NN	O	O
-state	NN	O	O
-of	NN	O	O
-same	NN	O	O
-symmetry	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-was	NN	O	O
-concluded	NN	O	O
-that	NN	O	O
-nonadiabatic	NN	O	O
-transitions	NN	O	O
-could	NN	O	O
-not	NN	O	O
-make	NN	O	O
-a	NN	O	O
-significant	NN	O	O
-impact	NN	O	O
-on	NN	O	O
-the	NN	O	O
-rate	NN	O	B-Material
-coefficients	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-therefore	NN	O	O
-all	NN	O	O
-trajectories	NN	O	O
-here	NN	O	O
-reported	NN	O	O
-are	NN	O	O
-independently	NN	O	B-Process
-integrated	NN	O	I-Process
-for	NN	O	I-Process
-each	NN	O	I-Process
-symmetry	NN	O	I-Process
-on	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-lowest	NN	O	O
-adiabatic	NN	O	O
-PES	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-fact	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-tested	NN	O	O
-the	NN	O	O
-impact	NN	O	O
-of	NN	O	O
-running	NN	O	O
-the	NN	O	O
-trajectories	NN	O	O
-starting	NN	O	O
-on	NN	O	O
-the	NN	O	O
-upper	NN	O	O
-sheets	NN	O	O
-,	NN	O	O
-and	NN	O	O
-found	NN	O	O
-no	NN	O	O
-vibrational	NN	O	B-Process
-transition	NN	O	I-Process
-to	NN	O	O
-take	NN	O	O
-place	NN	O	O
-,	NN	O	O
-only	NN	O	O
-small	NN	O	O
-amounts	NN	O	O
-of	NN	O	O
-rotational	NN	O	B-Task
-energy	NN	O	I-Task
-is	NN	O	O
-exchanged	NN	O	O
-in	NN	O	O
-this	NN	O	O
-case	NN	O	O
-.	NN	O	O
-
-Also	NN	O	O
-neglected	NN	O	O
-are	NN	O	O
-electronic	NN	O	B-Process
-transitions	NN	O	I-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-quartet	NN	O	I-Process
-state	NN	O	I-Process
-which	NN	O	O
-are	NN	O	O
-believed	NN	O	O
-to	NN	O	O
-be	NN	O	O
-far	NN	O	O
-less	NN	O	O
-probable	NN	O	O
-than	NN	O	O
-the	NN	O	O
-simple	NN	O	O
-vibrational	NN	O	O
-energy	NN	O	O
-transfer	NN	O	O
-here	NN	O	O
-studied	NN	O	O
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-spin	NN	O	O
--	NN	O	O
-forbidden	NN	O	O
-character	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-should	NN	O	O
-also	NN	O	O
-be	NN	O	O
-noted	NN	O	O
-that	NN	O	O
-the	NN	O	O
-use	NN	O	B-Process
-of	NN	O	I-Process
-quasiclassical	NN	O	I-Process
-trajectories	NN	O	I-Process
-is	NN	O	O
-justified	NN	O	O
-by	NN	O	O
-the	NN	O	O
-large	NN	O	O
-masses	NN	O	O
-of	NN	O	O
-the	NN	O	O
-atoms	NN	O	B-Material
-involved	NN	O	O
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+PESs	4	8	O
+here	9	13	O
+employed	14	22	O
+have	23	27	O
+already	28	35	O
+been	36	40	O
+tested	41	47	O
+in	48	50	O
+order	51	56	O
+to	57	59	O
+verify	60	66	B-Process
+their	67	72	I-Process
+validity	73	81	I-Process
+for	82	85	I-Process
+dynamical	86	95	I-Process
+purposes	96	104	I-Process
+.	104	105	O
+
+Such	106	110	O
+tests	111	116	O
+include	117	124	O
+studies	125	132	B-Task
+of	133	135	I-Task
+the	136	139	I-Task
+nitrogen	140	148	I-Task
+exchange	149	157	I-Task
+reaction	158	166	I-Task
+[	167	168	O
+14	168	170	O
+]	170	171	O
+both	172	176	O
+adiabatic	177	186	O
+by	187	189	O
+running	190	197	O
+trajectories	198	210	O
+on	211	213	O
+the	214	217	O
+lowest	218	224	O
+surfaces	225	233	O
+and	234	237	O
+non	238	241	O
+-	241	242	O
+adiabatic	242	251	O
+by	252	254	O
+using	255	260	O
+the	261	264	O
+trajectory	265	275	B-Process
+surface	276	283	I-Process
+hoping	284	290	I-Process
+(	291	292	I-Process
+TSH	292	295	I-Process
+)	295	296	I-Process
+method	297	303	I-Process
+[	304	305	O
+22,23	305	310	O
+]	310	311	O
+for	312	315	O
+transitions	316	327	O
+to	328	330	O
+the	331	334	O
+excited	335	342	O
+state	343	348	O
+of	349	351	O
+same	352	356	O
+symmetry	357	365	O
+.	365	366	O
+
+It	367	369	O
+was	370	373	O
+concluded	374	383	O
+that	384	388	O
+nonadiabatic	389	401	O
+transitions	402	413	O
+could	414	419	O
+not	420	423	O
+make	424	428	O
+a	429	430	O
+significant	431	442	O
+impact	443	449	O
+on	450	452	O
+the	453	456	O
+rate	457	461	B-Material
+coefficients	462	474	I-Material
+,	474	475	O
+and	476	479	O
+therefore	480	489	O
+all	490	493	O
+trajectories	494	506	O
+here	507	511	O
+reported	512	520	O
+are	521	524	O
+independently	525	538	B-Process
+integrated	539	549	I-Process
+for	550	553	I-Process
+each	554	558	I-Process
+symmetry	559	567	I-Process
+on	568	570	O
+the	571	574	O
+corresponding	575	588	O
+lowest	589	595	O
+adiabatic	596	605	O
+PES	606	609	O
+.	609	610	O
+
+In	611	613	O
+fact	614	618	O
+,	618	619	O
+we	620	622	O
+have	623	627	O
+tested	628	634	O
+the	635	638	O
+impact	639	645	O
+of	646	648	O
+running	649	656	O
+the	657	660	O
+trajectories	661	673	O
+starting	674	682	O
+on	683	685	O
+the	686	689	O
+upper	690	695	O
+sheets	696	702	O
+,	702	703	O
+and	704	707	O
+found	708	713	O
+no	714	716	O
+vibrational	717	728	B-Process
+transition	729	739	I-Process
+to	740	742	O
+take	743	747	O
+place	748	753	O
+,	753	754	O
+only	755	759	O
+small	760	765	O
+amounts	766	773	O
+of	774	776	O
+rotational	777	787	B-Task
+energy	788	794	I-Task
+is	795	797	O
+exchanged	798	807	O
+in	808	810	O
+this	811	815	O
+case	816	820	O
+.	820	821	O
+
+Also	822	826	O
+neglected	827	836	O
+are	837	840	O
+electronic	841	851	B-Process
+transitions	852	863	I-Process
+to	864	866	I-Process
+the	867	870	I-Process
+quartet	871	878	I-Process
+state	879	884	I-Process
+which	885	890	O
+are	891	894	O
+believed	895	903	O
+to	904	906	O
+be	907	909	O
+far	910	913	O
+less	914	918	O
+probable	919	927	O
+than	928	932	O
+the	933	936	O
+simple	937	943	O
+vibrational	944	955	O
+energy	956	962	O
+transfer	963	971	O
+here	972	976	O
+studied	977	984	O
+due	985	988	O
+to	989	991	O
+their	992	997	O
+spin	998	1002	O
+-	1002	1003	O
+forbidden	1003	1012	O
+character	1013	1022	O
+.	1022	1023	O
+
+It	1024	1026	O
+should	1027	1033	O
+also	1034	1038	O
+be	1039	1041	O
+noted	1042	1047	O
+that	1048	1052	O
+the	1053	1056	O
+use	1057	1060	B-Process
+of	1061	1063	I-Process
+quasiclassical	1064	1078	I-Process
+trajectories	1079	1091	I-Process
+is	1092	1094	O
+justified	1095	1104	O
+by	1105	1107	O
+the	1108	1111	O
+large	1112	1117	O
+masses	1118	1124	O
+of	1125	1127	O
+the	1128	1131	O
+atoms	1132	1137	B-Material
+involved	1138	1146	O
+[	1147	1148	O
+24	1148	1150	O
+]	1150	1151	O
+.	1151	1152	O
 
 
 -DOCSTART- (S0009261413011111)
 
-The	NN	O	O
-optical	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-charged	NN	O	O
-excitations	NN	O	O
-are	NN	O	O
-important	NN	O	O
-for	NN	O	O
-understanding	NN	O	O
-organic	NN	O	B-Task
-semiconductor	NN	O	I-Task
-photophysics	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-injection	NN	O	O
-of	NN	O	O
-electric	NN	O	B-Material
-charge	NN	O	I-Material
-into	NN	O	O
-organic	NN	O	B-Material
-materials	NN	O	I-Material
-polarizes	NN	O	O
-the	NN	O	O
-surroundings	NN	O	O
-and	NN	O	O
-changes	NN	O	O
-the	NN	O	O
-bond	NN	O	O
-lengths	NN	O	O
-around	NN	O	O
-it	NN	O	O
-,	NN	O	O
-such	NN	O	O
-an	NN	O	O
-excitation	NN	O	O
-is	NN	O	O
-defined	NN	O	O
-as	NN	O	O
-a	NN	O	O
-charged	NN	O	B-Material
-polaron	NN	O	I-Material
-.	NN	O	O
-
-Absorption	NN	O	O
-of	NN	O	O
-light	NN	O	O
-and	NN	O	O
-fluorescence	NN	O	O
-quenching	NN	O	O
-by	NN	O	O
-polarons	NN	O	O
-are	NN	O	O
-important	NN	O	O
-issues	NN	O	O
-in	NN	O	O
-the	NN	O	O
-operation	NN	O	B-Task
-of	NN	O	I-Task
-organic	NN	O	I-Task
-optoelectronic	NN	O	I-Task
-devices	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-particularly	NN	O	O
-relevant	NN	O	O
-to	NN	O	O
-the	NN	O	O
-development	NN	O	B-Task
-of	NN	O	I-Task
-electrically	NN	O	I-Task
-pumped	NN	O	I-Task
-lasers	NN	O	I-Task
-.	NN	O	O
-
-With	NN	O	O
-recent	NN	O	O
-advances	NN	O	O
-in	NN	O	O
-materials	NN	O	O
-properties	NN	O	O
-and	NN	O	O
-optical	NN	O	O
-design	NN	O	O
-the	NN	O	O
-lasing	NN	O	B-Task
-threshold	NN	O	I-Task
-of	NN	O	I-Task
-organic	NN	O	I-Task
-structures	NN	O	I-Task
-under	NN	O	I-Task
-optical	NN	O	I-Task
-pumping	NN	O	I-Task
-is	NN	O	O
-now	NN	O	O
-low	NN	O	O
-enough	NN	O	O
-to	NN	O	O
-enable	NN	O	O
-pumping	NN	O	O
-by	NN	O	O
-inorganic	NN	O	B-Material
-laser	NN	O	I-Material
-diodes	NN	O	I-Material
-
-[	NN	O	O
-1–3	NN	O	O
-]	NN	O	O
-and	NN	O	O
-LEDs	NN	O	O
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-which	NN	O	O
-is	NN	O	O
-promising	NN	O	O
-for	NN	O	O
-fabrication	NN	O	O
-of	NN	O	O
-very	NN	O	B-Material
-sensitive	NN	O	I-Material
-low	NN	O	I-Material
--	NN	O	I-Material
-cost	NN	O	I-Material
-devices	NN	O	I-Material
-for	NN	O	O
-biosensing	NN	O	B-Process
-and	NN	O	O
-chemosensing	NN	O	B-Process
-[	NN	O	O
-5,6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-light	NN	O	B-Process
-absorption	NN	O	I-Process
-by	NN	O	O
-injected	NN	O	O
-charges	NN	O	O
-has	NN	O	O
-been	NN	O	O
-reported	NN	O	O
-to	NN	O	O
-be	NN	O	O
-the	NN	O	O
-major	NN	O	O
-obstacle	NN	O	O
-to	NN	O	O
-electrically	NN	O	B-Process
-pumped	NN	O	I-Process
-lasing	NN	O	I-Process
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Injected	NN	O	O
-charges	NN	O	O
-can	NN	O	O
-also	NN	O	O
-quench	NN	O	O
-luminescence	NN	O	O
-as	NN	O	O
-they	NN	O	O
-accept	NN	O	B-Process
-energy	NN	O	I-Process
-from	NN	O	I-Process
-excitons	NN	O	I-Process
-by	NN	O	O
-resonant	NN	O	B-Task
-dipole	NN	O	I-Task
-–	NN	O	I-Task
-dipole	NN	O	I-Task
-interactions	NN	O	I-Task
-and	NN	O	O
-this	NN	O	O
-is	NN	O	O
-an	NN	O	O
-important	NN	O	O
-loss	NN	O	O
-mechanism	NN	O	O
-in	NN	O	O
-organic	NN	O	B-Material
-LEDs	NN	O	I-Material
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-in	NN	O	O
-lasers	NN	O	B-Material
-.	NN	O	O
-
-Absorption	NN	O	O
-cross	NN	O	O
--	NN	O	O
-sections	NN	O	O
-of	NN	O	O
-polarons	NN	O	O
-are	NN	O	O
-not	NN	O	O
-known	NN	O	O
-to	NN	O	O
-the	NN	O	O
-desired	NN	O	O
-accuracy	NN	O	O
-because	NN	O	O
-of	NN	O	O
-the	NN	O	O
-difficulty	NN	O	O
-of	NN	O	O
-quantifying	NN	O	O
-the	NN	O	O
-charge	NN	O	B-Process
-density	NN	O	I-Process
-injected	NN	O	O
-into	NN	O	O
-the	NN	O	O
-film	NN	O	O
-.	NN	O	O
-
-Previous	NN	O	O
-studies	NN	O	O
-used	NN	O	O
-controlled	NN	O	B-Process
-electrical	NN	O	I-Process
-injection	NN	O	I-Process
-of	NN	O	I-Process
-charges	NN	O	I-Process
-in	NN	O	O
-unipolar	NN	O	B-Material
-devices	NN	O	I-Material
-through	NN	O	O
-contacting	NN	O	B-Material
-electrodes	NN	O	I-Material
-and	NN	O	O
-field	NN	O	B-Material
--	NN	O	I-Material
-dependent	NN	O	I-Material
-charge	NN	O	I-Material
-mobility	NN	O	I-Material
-measurements	NN	O	I-Material
-to	NN	O	O
-estimate	NN	O	O
-the	NN	O	O
-charge	NN	O	O
-densities	NN	O	O
-which	NN	O	O
-were	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-the	NN	O	O
-values	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-capacitance	NN	O	B-Process
-–	NN	O	I-Process
-voltage	NN	O	I-Process
-analysis	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-two	NN	O	O
-results	NN	O	O
-differed	NN	O	O
-by	NN	O	O
-a	NN	O	O
-factor	NN	O	O
-of	NN	O	O
-three	NN	O	O
-[	NN	O	O
-8,9	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+optical	4	11	O
+properties	12	22	O
+of	23	25	O
+charged	26	33	O
+excitations	34	45	O
+are	46	49	O
+important	50	59	O
+for	60	63	O
+understanding	64	77	O
+organic	78	85	B-Task
+semiconductor	86	99	I-Task
+photophysics	100	112	I-Task
+.	112	113	O
+
+The	114	117	O
+injection	118	127	O
+of	128	130	O
+electric	131	139	B-Material
+charge	140	146	I-Material
+into	147	151	O
+organic	152	159	B-Material
+materials	160	169	I-Material
+polarizes	170	179	O
+the	180	183	O
+surroundings	184	196	O
+and	197	200	O
+changes	201	208	O
+the	209	212	O
+bond	213	217	O
+lengths	218	225	O
+around	226	232	O
+it	233	235	O
+,	235	236	O
+such	237	241	O
+an	242	244	O
+excitation	245	255	O
+is	256	258	O
+defined	259	266	O
+as	267	269	O
+a	270	271	O
+charged	272	279	B-Material
+polaron	280	287	I-Material
+.	287	288	O
+
+Absorption	289	299	O
+of	300	302	O
+light	303	308	O
+and	309	312	O
+fluorescence	313	325	O
+quenching	326	335	O
+by	336	338	O
+polarons	339	347	O
+are	348	351	O
+important	352	361	O
+issues	362	368	O
+in	369	371	O
+the	372	375	O
+operation	376	385	B-Task
+of	386	388	I-Task
+organic	389	396	I-Task
+optoelectronic	397	411	I-Task
+devices	412	419	I-Task
+.	419	420	O
+
+It	421	423	O
+is	424	426	O
+particularly	427	439	O
+relevant	440	448	O
+to	449	451	O
+the	452	455	O
+development	456	467	B-Task
+of	468	470	I-Task
+electrically	471	483	I-Task
+pumped	484	490	I-Task
+lasers	491	497	I-Task
+.	497	498	O
+
+With	499	503	O
+recent	504	510	O
+advances	511	519	O
+in	520	522	O
+materials	523	532	O
+properties	533	543	O
+and	544	547	O
+optical	548	555	O
+design	556	562	O
+the	563	566	O
+lasing	567	573	B-Task
+threshold	574	583	I-Task
+of	584	586	I-Task
+organic	587	594	I-Task
+structures	595	605	I-Task
+under	606	611	I-Task
+optical	612	619	I-Task
+pumping	620	627	I-Task
+is	628	630	O
+now	631	634	O
+low	635	638	O
+enough	639	645	O
+to	646	648	O
+enable	649	655	O
+pumping	656	663	O
+by	664	666	O
+inorganic	667	676	B-Material
+laser	677	682	I-Material
+diodes	683	689	I-Material
+
+[	690	691	O
+1–3	691	694	O
+]	694	695	O
+and	696	699	O
+LEDs	700	704	O
+[	705	706	O
+4	706	707	O
+]	707	708	O
+which	709	714	O
+is	715	717	O
+promising	718	727	O
+for	728	731	O
+fabrication	732	743	O
+of	744	746	O
+very	747	751	B-Material
+sensitive	752	761	I-Material
+low	762	765	I-Material
+-	765	766	I-Material
+cost	766	770	I-Material
+devices	771	778	I-Material
+for	779	782	O
+biosensing	783	793	B-Process
+and	794	797	O
+chemosensing	798	810	B-Process
+[	811	812	O
+5,6	812	815	O
+]	815	816	O
+.	816	817	O
+
+However	818	825	O
+,	825	826	O
+light	827	832	B-Process
+absorption	833	843	I-Process
+by	844	846	O
+injected	847	855	O
+charges	856	863	O
+has	864	867	O
+been	868	872	O
+reported	873	881	O
+to	882	884	O
+be	885	887	O
+the	888	891	O
+major	892	897	O
+obstacle	898	906	O
+to	907	909	O
+electrically	910	922	B-Process
+pumped	923	929	I-Process
+lasing	930	936	I-Process
+[	937	938	O
+7	938	939	O
+]	939	940	O
+.	940	941	O
+
+Injected	942	950	O
+charges	951	958	O
+can	959	962	O
+also	963	967	O
+quench	968	974	O
+luminescence	975	987	O
+as	988	990	O
+they	991	995	O
+accept	996	1002	B-Process
+energy	1003	1009	I-Process
+from	1010	1014	I-Process
+excitons	1015	1023	I-Process
+by	1024	1026	O
+resonant	1027	1035	B-Task
+dipole	1036	1042	I-Task
+–	1042	1043	I-Task
+dipole	1043	1049	I-Task
+interactions	1050	1062	I-Task
+and	1063	1066	O
+this	1067	1071	O
+is	1072	1074	O
+an	1075	1077	O
+important	1078	1087	O
+loss	1088	1092	O
+mechanism	1093	1102	O
+in	1103	1105	O
+organic	1106	1113	B-Material
+LEDs	1114	1118	I-Material
+as	1119	1121	O
+well	1122	1126	O
+as	1127	1129	O
+in	1130	1132	O
+lasers	1133	1139	B-Material
+.	1139	1140	O
+
+Absorption	1141	1151	O
+cross	1152	1157	O
+-	1157	1158	O
+sections	1158	1166	O
+of	1167	1169	O
+polarons	1170	1178	O
+are	1179	1182	O
+not	1183	1186	O
+known	1187	1192	O
+to	1193	1195	O
+the	1196	1199	O
+desired	1200	1207	O
+accuracy	1208	1216	O
+because	1217	1224	O
+of	1225	1227	O
+the	1228	1231	O
+difficulty	1232	1242	O
+of	1243	1245	O
+quantifying	1246	1257	O
+the	1258	1261	O
+charge	1262	1268	B-Process
+density	1269	1276	I-Process
+injected	1277	1285	O
+into	1286	1290	O
+the	1291	1294	O
+film	1295	1299	O
+.	1299	1300	O
+
+Previous	1301	1309	O
+studies	1310	1317	O
+used	1318	1322	O
+controlled	1323	1333	B-Process
+electrical	1334	1344	I-Process
+injection	1345	1354	I-Process
+of	1355	1357	I-Process
+charges	1358	1365	I-Process
+in	1366	1368	O
+unipolar	1369	1377	B-Material
+devices	1378	1385	I-Material
+through	1386	1393	O
+contacting	1394	1404	B-Material
+electrodes	1405	1415	I-Material
+and	1416	1419	O
+field	1420	1425	B-Material
+-	1425	1426	I-Material
+dependent	1426	1435	I-Material
+charge	1436	1442	I-Material
+mobility	1443	1451	I-Material
+measurements	1452	1464	I-Material
+to	1465	1467	O
+estimate	1468	1476	O
+the	1477	1480	O
+charge	1481	1487	O
+densities	1488	1497	O
+which	1498	1503	O
+were	1504	1508	O
+compared	1509	1517	O
+with	1518	1522	O
+the	1523	1526	O
+values	1527	1533	O
+obtained	1534	1542	O
+by	1543	1545	O
+capacitance	1546	1557	B-Process
+–	1557	1558	I-Process
+voltage	1558	1565	I-Process
+analysis	1566	1574	I-Process
+and	1575	1578	O
+the	1579	1582	O
+two	1583	1586	O
+results	1587	1594	O
+differed	1595	1603	O
+by	1604	1606	O
+a	1607	1608	O
+factor	1609	1615	O
+of	1616	1618	O
+three	1619	1624	O
+[	1625	1626	O
+8,9	1626	1629	O
+]	1629	1630	O
+.	1630	1631	O
 
 
 -DOCSTART- (S000926141301539X)
 
-In	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-we	NN	O	O
-revisit	NN	O	O
-the	NN	O	O
-Chesnavich	NN	O	B-Process
-model	NN	O	I-Process
-Hamiltonian	NN	O	I-Process
-[	NN	O	O
-37	NN	O	O
-]	NN	O	O
-in	NN	O	O
-the	NN	O	O
-light	NN	O	O
-of	NN	O	O
-recent	NN	O	O
-developments	NN	O	O
-in	NN	O	O
-TST	NN	O	B-Material
-.	NN	O	O
-
-For	NN	O	O
-barrierless	NN	O	O
-systems	NN	O	O
-such	NN	O	O
-as	NN	O	O
-ion	NN	O	B-Process
-–	NN	O	I-Process
-molecule	NN	O	I-Process
-reactions	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-concepts	NN	O	O
-of	NN	O	O
-OTS	NN	O	B-Material
-and	NN	O	O
-TTS	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-clearly	NN	O	O
-formulated	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-well	NN	O	O
-defined	NN	O	O
-phase	NN	O	O
-space	NN	O	B-Material
-geometrical	NN	O	I-Material
-objects	NN	O	I-Material
-.	NN	O	O
-
-(	NN	O	O
-For	NN	O	O
-work	NN	O	O
-on	NN	O	O
-the	NN	O	O
-phase	NN	O	O
-space	NN	O	O
-description	NN	O	O
-of	NN	O	O
-OTS	NN	O	B-Material
-,	NN	O	O
-see	NN	O	O
-Refs	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-38–40	NN	O	O
-]	NN	O	O
-.	NN	O	O
-)	NN	O	O
-
-The	NN	O	O
-first	NN	O	O
-goal	NN	O	O
-of	NN	O	O
-the	NN	O	O
-present	NN	O	O
-article	NN	O	O
-is	NN	O	O
-the	NN	O	O
-identification	NN	O	B-Process
-of	NN	O	O
-these	NN	O	O
-notions	NN	O	O
-with	NN	O	O
-well	NN	O	B-Material
-defined	NN	O	I-Material
-phase	NN	O	I-Material
-space	NN	O	I-Material
-dividing	NN	O	I-Material
-surfaces	NN	O	I-Material
-attached	NN	O	I-Material
-to	NN	O	I-Material
-NHIMs	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-second	NN	O	O
-and	NN	O	O
-main	NN	O	O
-goal	NN	O	O
-is	NN	O	O
-an	NN	O	O
-elucidation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-roaming	NN	O	O
-phenomenon	NN	O	O
-in	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Chesnavich	NN	O	B-Process
-model	NN	O	I-Process
-Hamiltonian	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-associated	NN	O	B-Process
-potential	NN	O	I-Process
-function	NN	O	I-Process
-,	NN	O	O
-possessing	NN	O	O
-many	NN	O	O
-features	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-a	NN	O	O
-realistic	NN	O	O
-molecular	NN	O	O
-PES	NN	O	O
-,	NN	O	O
-leads	NN	O	O
-to	NN	O	O
-dynamics	NN	O	B-Task
-which	NN	O	I-Task
-clearly	NN	O	I-Task
-reveal	NN	O	I-Task
-the	NN	O	I-Task
-origins	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-roaming	NN	O	I-Task
-effect	NN	O	I-Task
-.	NN	O	O
-
-Based	NN	O	O
-on	NN	O	O
-our	NN	O	O
-trajectory	NN	O	B-Material
-simulations	NN	O	I-Material
-,	NN	O	O
-we	NN	O	O
-show	NN	O	O
-how	NN	O	O
-the	NN	O	O
-identification	NN	O	O
-of	NN	O	O
-the	NN	O	O
-TTS	NN	O	O
-and	NN	O	O
-OTS	NN	O	O
-DSs	NN	O	O
-with	NN	O	O
-periodic	NN	O	B-Material
-orbit	NN	O	I-Material
-dividing	NN	O	I-Material
-surfaces	NN	O	I-Material
-(	NN	O	O
-PODS	NN	O	B-Material
-)	NN	O	O
-provides	NN	O	O
-the	NN	O	O
-natural	NN	O	O
-framework	NN	O	O
-for	NN	O	O
-analysis	NN	O	O
-of	NN	O	O
-the	NN	O	O
-roaming	NN	O	O
-mechanism	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+Letter	8	14	O
+we	15	17	O
+revisit	18	25	O
+the	26	29	O
+Chesnavich	30	40	B-Process
+model	41	46	I-Process
+Hamiltonian	47	58	I-Process
+[	59	60	O
+37	60	62	O
+]	62	63	O
+in	64	66	O
+the	67	70	O
+light	71	76	O
+of	77	79	O
+recent	80	86	O
+developments	87	99	O
+in	100	102	O
+TST	103	106	B-Material
+.	106	107	O
+
+For	108	111	O
+barrierless	112	123	O
+systems	124	131	O
+such	132	136	O
+as	137	139	O
+ion	140	143	B-Process
+–	143	144	I-Process
+molecule	144	152	I-Process
+reactions	153	162	I-Process
+,	162	163	O
+the	164	167	O
+concepts	168	176	O
+of	177	179	O
+OTS	180	183	B-Material
+and	184	187	O
+TTS	188	191	B-Material
+can	192	195	O
+be	196	198	O
+clearly	199	206	O
+formulated	207	217	O
+in	218	220	O
+terms	221	226	O
+of	227	229	O
+well	230	234	O
+defined	235	242	O
+phase	243	248	O
+space	249	254	B-Material
+geometrical	255	266	I-Material
+objects	267	274	I-Material
+.	274	275	O
+
+(	276	277	O
+For	277	280	O
+work	281	285	O
+on	286	288	O
+the	289	292	O
+phase	293	298	O
+space	299	304	O
+description	305	316	O
+of	317	319	O
+OTS	320	323	B-Material
+,	323	324	O
+see	325	328	O
+Refs	329	333	O
+.	333	334	O
+
+[	335	336	O
+38–40	336	341	O
+]	341	342	O
+.	342	343	O
+)	343	344	O
+
+The	345	348	O
+first	349	354	O
+goal	355	359	O
+of	360	362	O
+the	363	366	O
+present	367	374	O
+article	375	382	O
+is	383	385	O
+the	386	389	O
+identification	390	404	B-Process
+of	405	407	O
+these	408	413	O
+notions	414	421	O
+with	422	426	O
+well	427	431	B-Material
+defined	432	439	I-Material
+phase	440	445	I-Material
+space	446	451	I-Material
+dividing	452	460	I-Material
+surfaces	461	469	I-Material
+attached	470	478	I-Material
+to	479	481	I-Material
+NHIMs	482	487	I-Material
+.	487	488	O
+
+The	489	492	O
+second	493	499	O
+and	500	503	O
+main	504	508	O
+goal	509	513	O
+is	514	516	O
+an	517	519	O
+elucidation	520	531	O
+of	532	534	O
+the	535	538	O
+roaming	539	546	O
+phenomenon	547	557	O
+in	558	560	O
+the	561	564	O
+context	565	572	O
+of	573	575	O
+the	576	579	O
+Chesnavich	580	590	B-Process
+model	591	596	I-Process
+Hamiltonian	597	608	I-Process
+.	608	609	O
+
+The	610	613	O
+associated	614	624	B-Process
+potential	625	634	I-Process
+function	635	643	I-Process
+,	643	644	O
+possessing	645	655	O
+many	656	660	O
+features	661	669	O
+associated	670	680	O
+with	681	685	O
+a	686	687	O
+realistic	688	697	O
+molecular	698	707	O
+PES	708	711	O
+,	711	712	O
+leads	713	718	O
+to	719	721	O
+dynamics	722	730	B-Task
+which	731	736	I-Task
+clearly	737	744	I-Task
+reveal	745	751	I-Task
+the	752	755	I-Task
+origins	756	763	I-Task
+of	764	766	I-Task
+the	767	770	I-Task
+roaming	771	778	I-Task
+effect	779	785	I-Task
+.	785	786	O
+
+Based	787	792	O
+on	793	795	O
+our	796	799	O
+trajectory	800	810	B-Material
+simulations	811	822	I-Material
+,	822	823	O
+we	824	826	O
+show	827	831	O
+how	832	835	O
+the	836	839	O
+identification	840	854	O
+of	855	857	O
+the	858	861	O
+TTS	862	865	O
+and	866	869	O
+OTS	870	873	O
+DSs	874	877	O
+with	878	882	O
+periodic	883	891	B-Material
+orbit	892	897	I-Material
+dividing	898	906	I-Material
+surfaces	907	915	I-Material
+(	916	917	O
+PODS	917	921	B-Material
+)	921	922	O
+provides	923	931	O
+the	932	935	O
+natural	936	943	O
+framework	944	953	O
+for	954	957	O
+analysis	958	966	O
+of	967	969	O
+the	970	973	O
+roaming	974	981	O
+mechanism	982	991	O
+.	991	992	O
 
 
 -DOCSTART- (S0009261415000974)
 
-Within	NN	O	O
-the	NN	O	O
-range	NN	O	B-Material
-of	NN	O	I-Material
-temperatures	NN	O	I-Material
-chosen	NN	O	I-Material
-,	NN	O	O
-alanine	NN	O	B-Material
-dipeptide	NN	O	I-Material
-exhibits	NN	O	O
-very	NN	O	O
-simple	NN	O	O
-behaviour	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-result	NN	O	O
-is	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-relatively	NN	O	O
-small	NN	O	O
-number	NN	O	O
-of	NN	O	O
-physically	NN	O	B-Process
-relevant	NN	O	I-Process
-minima	NN	O	I-Process
-(	NN	O	O
-seven	NN	O	O
-were	NN	O	O
-characterised	NN	O	O
-using	NN	O	O
-this	NN	O	O
-force	NN	O	B-Process
-field	NN	O	I-Process
-and	NN	O	I-Process
-solvent	NN	O	I-Process
-model	NN	O	I-Process
-)	NN	O	O
-and	NN	O	O
-the	NN	O	O
-larger	NN	O	B-Material
-potential	NN	O	I-Material
-energy	NN	O	I-Material
-spacing	NN	O	I-Material
-between	NN	O	O
-the	NN	O	O
-global	NN	O	O
-minimum	NN	O	O
-and	NN	O	O
-higher	NN	O	O
-energy	NN	O	O
-minima	NN	O	O
-.	NN	O	O
-
-Indeed	NN	O	O
-,	NN	O	O
-cross	NN	O	B-Process
--	NN	O	I-Process
-overs	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-approximate	NN	O	I-Process
-global	NN	O	I-Process
-free	NN	O	I-Process
-energy	NN	O	I-Process
-minimum	NN	O	O
-for	NN	O	O
-this	NN	O	O
-system	NN	O	O
-(	NN	O	O
-where	NN	O	O
-the	NN	O	O
-free	NN	O	O
-energy	NN	O	O
-of	NN	O	O
-the	NN	O	O
-second	NN	O	O
--	NN	O	O
-lowest	NN	O	O
-potential	NN	O	O
-energy	NN	O	O
-minimum	NN	O	O
-becomes	NN	O	O
-lower	NN	O	O
-than	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-global	NN	O	O
-potential	NN	O	O
-energy	NN	O	O
-minimum	NN	O	O
-)	NN	O	O
-in	NN	O	O
-the	NN	O	O
-harmonic	NN	O	O
-approximation	NN	O	O
-would	NN	O	O
-occur	NN	O	O
-at	NN	O	O
-1170K.	NN	O	O
-
-In	NN	O	O
-general	NN	O	O
-,	NN	O	O
-the	NN	O	O
-harmonic	NN	O	O
-prediction	NN	O	O
-for	NN	O	O
-the	NN	O	O
-crossover	NN	O	O
-temperature	NN	O	O
-between	NN	O	O
-two	NN	O	O
-minima	NN	O	O
-is(4)kBTxo	NN	O	O
-=	NN	O	O
-V1−V2ln((o2ν¯2κ)/(o1ν¯1κ)),from	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-3	NN	O	O
-)	NN	O	O
-,	NN	O	O
-which	NN	O	O
-clearly	NN	O	O
-illustrates	NN	O	O
-the	NN	O	O
-balance	NN	O	B-Task
-between	NN	O	I-Task
-potential	NN	O	I-Task
-energy	NN	O	I-Task
-and	NN	O	I-Task
-well	NN	O	I-Task
-entropy	NN	O	I-Task
-.	NN	O	O
+Within	0	6	O
+the	7	10	O
+range	11	16	B-Material
+of	17	19	I-Material
+temperatures	20	32	I-Material
+chosen	33	39	I-Material
+,	39	40	O
+alanine	41	48	B-Material
+dipeptide	49	58	I-Material
+exhibits	59	67	O
+very	68	72	O
+simple	73	79	O
+behaviour	80	89	O
+.	89	90	O
+
+This	91	95	O
+result	96	102	O
+is	103	105	O
+due	106	109	O
+to	110	112	O
+the	113	116	O
+relatively	117	127	O
+small	128	133	O
+number	134	140	O
+of	141	143	O
+physically	144	154	B-Process
+relevant	155	163	I-Process
+minima	164	170	I-Process
+(	171	172	O
+seven	172	177	O
+were	178	182	O
+characterised	183	196	O
+using	197	202	O
+this	203	207	O
+force	208	213	B-Process
+field	214	219	I-Process
+and	220	223	I-Process
+solvent	224	231	I-Process
+model	232	237	I-Process
+)	237	238	O
+and	239	242	O
+the	243	246	O
+larger	247	253	B-Material
+potential	254	263	I-Material
+energy	264	270	I-Material
+spacing	271	278	I-Material
+between	279	286	O
+the	287	290	O
+global	291	297	O
+minimum	298	305	O
+and	306	309	O
+higher	310	316	O
+energy	317	323	O
+minima	324	330	O
+.	330	331	O
+
+Indeed	332	338	O
+,	338	339	O
+cross	340	345	B-Process
+-	345	346	I-Process
+overs	346	351	I-Process
+in	352	354	I-Process
+the	355	358	I-Process
+approximate	359	370	I-Process
+global	371	377	I-Process
+free	378	382	I-Process
+energy	383	389	I-Process
+minimum	390	397	O
+for	398	401	O
+this	402	406	O
+system	407	413	O
+(	414	415	O
+where	415	420	O
+the	421	424	O
+free	425	429	O
+energy	430	436	O
+of	437	439	O
+the	440	443	O
+second	444	450	O
+-	450	451	O
+lowest	451	457	O
+potential	458	467	O
+energy	468	474	O
+minimum	475	482	O
+becomes	483	490	O
+lower	491	496	O
+than	497	501	O
+that	502	506	O
+of	507	509	O
+the	510	513	O
+global	514	520	O
+potential	521	530	O
+energy	531	537	O
+minimum	538	545	O
+)	545	546	O
+in	547	549	O
+the	550	553	O
+harmonic	554	562	O
+approximation	563	576	O
+would	577	582	O
+occur	583	588	O
+at	589	591	O
+1170K.	592	598	O
+
+In	599	601	O
+general	602	609	O
+,	609	610	O
+the	611	614	O
+harmonic	615	623	O
+prediction	624	634	O
+for	635	638	O
+the	639	642	O
+crossover	643	652	O
+temperature	653	664	O
+between	665	672	O
+two	673	676	O
+minima	677	683	O
+is(4)kBTxo	684	694	O
+=	694	695	O
+V1−V2ln((o2ν¯2κ)/(o1ν¯1κ)),from	695	726	O
+Eq	727	729	O
+.	729	730	O
+
+(	731	732	O
+3	732	733	O
+)	733	734	O
+,	734	735	O
+which	736	741	O
+clearly	742	749	O
+illustrates	750	761	O
+the	762	765	O
+balance	766	773	B-Task
+between	774	781	I-Task
+potential	782	791	I-Task
+energy	792	798	I-Task
+and	799	802	I-Task
+well	803	807	I-Task
+entropy	808	815	I-Task
+.	815	816	O
 
 
 -DOCSTART- (S0009261415002730)
 
-Both	NN	O	O
-methods	NN	O	O
-of	NN	O	O
-structure	NN	O	B-Process
-solution	NN	O	I-Process
-reveal	NN	O	O
-a	NN	O	O
-bent	NN	O	B-Process
-conformation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-central	NN	O	B-Material
-terthiophene	NN	O	I-Material
-units	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-DOTT	NN	O	B-Material
-molecule	NN	O	I-Material
-as	NN	O	O
-is	NN	O	O
-clearly	NN	O	O
-visible	NN	O	O
-in	NN	O	O
-all	NN	O	O
-three	NN	O	O
-cases	NN	O	O
-in	NN	O	O
-Figure	NN	O	O
-5	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-a	NN	O	O
-fundamental	NN	O	O
-difference	NN	O	O
-in	NN	O	O
-the	NN	O	O
-conformation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-octyl	NN	O	B-Material
-side	NN	O	I-Material
-chains	NN	O	I-Material
-.	NN	O	O
-
-Whilst	NN	O	O
-for	NN	O	O
-the	NN	O	O
-single	NN	O	O
-crystal	NN	O	O
-phase	NN	O	O
-at	NN	O	O
-T=100	NN	O	O
-K	NN	O	O
-linearly	NN	O	B-Material
-extended	NN	O	I-Material
-chains	NN	O	I-Material
-are	NN	O	O
-observed	NN	O	O
-(	NN	O	O
-Figure	NN	O	O
-5B	NN	O	O
-)	NN	O	O
-,	NN	O	O
-a	NN	O	O
-defined	NN	O	B-Process
-rotation	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-octyl	NN	O	I-Process
-chains	NN	O	I-Process
-relative	NN	O	O
-to	NN	O	O
-the	NN	O	O
-terthiophene	NN	O	B-Material
-unit	NN	O	I-Material
-is	NN	O	O
-found	NN	O	O
-for	NN	O	O
-the	NN	O	O
-three	NN	O	O
-thin	NN	O	B-Material
-film	NN	O	I-Material
-phases	NN	O	O
-(	NN	O	O
-Figure	NN	O	O
-5A	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-rotation	NN	O	O
-angle	NN	O	O
-of	NN	O	O
-about	NN	O	O
-±70	NN	O	O
-°	NN	O	O
-results	NN	O	O
-from	NN	O	O
-a	NN	O	O
-twist	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-first	NN	O	I-Process
-CC	NN	O	I-Process
-single	NN	O	I-Process
-bond	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-link	NN	O	O
-between	NN	O	O
-the	NN	O	O
-terthiophene	NN	O	B-Material
-unit	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-octyl	NN	O	B-Material
-chain	NN	O	I-Material
-(	NN	O	O
-see	NN	O	O
-arrows	NN	O	O
-Figure	NN	O	O
-5A	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Two	NN	O	O
-features	NN	O	O
-of	NN	O	O
-this	NN	O	O
-rotated	NN	O	O
-conformation	NN	O	O
-are	NN	O	O
-interesting	NN	O	O
-.	NN	O	O
-
-First	NN	O	O
-,	NN	O	O
-a	NN	O	O
-molecule	NN	O	O
-with	NN	O	O
-rotated	NN	O	B-Material
-side	NN	O	I-Material
-chains	NN	O	I-Material
-represents	NN	O	O
-the	NN	O	O
-equilibrium	NN	O	O
-state	NN	O	O
-of	NN	O	O
-an	NN	O	O
-isolated	NN	O	O
-single	NN	O	O
-DOTT	NN	O	B-Material
-molecule	NN	O	I-Material
-as	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-combined	NN	O	B-Process
-MD	NN	O	I-Process
-and	NN	O	I-Process
-VASP	NN	O	I-Process
-calculations	NN	O	I-Process
-
-[	NN	O	O
-33	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Second	NN	O	O
-,	NN	O	O
-the	NN	O	O
-rotated	NN	O	O
-conformation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-octyl	NN	O	B-Material
-chains	NN	O	I-Material
-allows	NN	O	O
-a	NN	O	O
-dense	NN	O	B-Process
-packing	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-octyl	NN	O	B-Material
-side	NN	O	I-Material
-chains	NN	O	I-Material
-for	NN	O	O
-both	NN	O	O
-molecules	NN	O	O
-.	NN	O	O
-
-Interestingly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-single	NN	O	O
-crystal	NN	O	B-Material
-structure	NN	O	I-Material
-at	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-twisted	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-the	NN	O	O
-linear	NN	O	O
-conformation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-octyl	NN	O	B-Material
-side	NN	O	I-Material
-chains	NN	O	I-Material
-within	NN	O	O
-one	NN	O	O
-molecule	NN	O	O
-(	NN	O	O
-Figure	NN	O	O
-5C	NN	O	O
-)	NN	O	O
-.	NN	O	O
+Both	0	4	O
+methods	5	12	O
+of	13	15	O
+structure	16	25	B-Process
+solution	26	34	I-Process
+reveal	35	41	O
+a	42	43	O
+bent	44	48	B-Process
+conformation	49	61	I-Process
+of	62	64	O
+the	65	68	O
+central	69	76	B-Material
+terthiophene	77	89	I-Material
+units	90	95	I-Material
+of	96	98	O
+the	99	102	O
+DOTT	103	107	B-Material
+molecule	108	116	I-Material
+as	117	119	O
+is	120	122	O
+clearly	123	130	O
+visible	131	138	O
+in	139	141	O
+all	142	145	O
+three	146	151	O
+cases	152	157	O
+in	158	160	O
+Figure	161	167	O
+5	168	169	O
+.	169	170	O
+
+However	171	178	O
+,	178	179	O
+there	180	185	O
+is	186	188	O
+a	189	190	O
+fundamental	191	202	O
+difference	203	213	O
+in	214	216	O
+the	217	220	O
+conformation	221	233	O
+of	234	236	O
+the	237	240	O
+octyl	241	246	B-Material
+side	247	251	I-Material
+chains	252	258	I-Material
+.	258	259	O
+
+Whilst	260	266	O
+for	267	270	O
+the	271	274	O
+single	275	281	O
+crystal	282	289	O
+phase	290	295	O
+at	296	298	O
+T=100	299	304	O
+K	304	305	O
+linearly	306	314	B-Material
+extended	315	323	I-Material
+chains	324	330	I-Material
+are	331	334	O
+observed	335	343	O
+(	344	345	O
+Figure	345	351	O
+5B	352	354	O
+)	354	355	O
+,	355	356	O
+a	357	358	O
+defined	359	366	B-Process
+rotation	367	375	I-Process
+of	376	378	I-Process
+the	379	382	I-Process
+octyl	383	388	I-Process
+chains	389	395	I-Process
+relative	396	404	O
+to	405	407	O
+the	408	411	O
+terthiophene	412	424	B-Material
+unit	425	429	I-Material
+is	430	432	O
+found	433	438	O
+for	439	442	O
+the	443	446	O
+three	447	452	O
+thin	453	457	B-Material
+film	458	462	I-Material
+phases	463	469	O
+(	470	471	O
+Figure	471	477	O
+5A	478	480	O
+)	480	481	O
+.	481	482	O
+
+The	483	486	O
+rotation	487	495	O
+angle	496	501	O
+of	502	504	O
+about	505	510	O
+±70	511	514	O
+°	514	515	O
+results	516	523	O
+from	524	528	O
+a	529	530	O
+twist	531	536	B-Process
+of	537	539	I-Process
+the	540	543	I-Process
+first	544	549	I-Process
+CC	550	552	I-Process
+single	553	559	I-Process
+bond	560	564	I-Process
+at	565	567	O
+the	568	571	O
+link	572	576	O
+between	577	584	O
+the	585	588	O
+terthiophene	589	601	B-Material
+unit	602	606	I-Material
+and	607	610	O
+the	611	614	O
+octyl	615	620	B-Material
+chain	621	626	I-Material
+(	627	628	O
+see	628	631	O
+arrows	632	638	O
+Figure	639	645	O
+5A	646	648	O
+)	648	649	O
+.	649	650	O
+
+Two	651	654	O
+features	655	663	O
+of	664	666	O
+this	667	671	O
+rotated	672	679	O
+conformation	680	692	O
+are	693	696	O
+interesting	697	708	O
+.	708	709	O
+
+First	710	715	O
+,	715	716	O
+a	717	718	O
+molecule	719	727	O
+with	728	732	O
+rotated	733	740	B-Material
+side	741	745	I-Material
+chains	746	752	I-Material
+represents	753	763	O
+the	764	767	O
+equilibrium	768	779	O
+state	780	785	O
+of	786	788	O
+an	789	791	O
+isolated	792	800	O
+single	801	807	O
+DOTT	808	812	B-Material
+molecule	813	821	I-Material
+as	822	824	O
+obtained	825	833	O
+by	834	836	O
+combined	837	845	B-Process
+MD	846	848	I-Process
+and	849	852	I-Process
+VASP	853	857	I-Process
+calculations	858	870	I-Process
+
+[	871	872	O
+33	872	874	O
+]	874	875	O
+.	875	876	O
+
+Second	877	883	O
+,	883	884	O
+the	885	888	O
+rotated	889	896	O
+conformation	897	909	O
+of	910	912	O
+the	913	916	O
+octyl	917	922	B-Material
+chains	923	929	I-Material
+allows	930	936	O
+a	937	938	O
+dense	939	944	B-Process
+packing	945	952	I-Process
+of	953	955	O
+the	956	959	O
+octyl	960	965	B-Material
+side	966	970	I-Material
+chains	971	977	I-Material
+for	978	981	O
+both	982	986	O
+molecules	987	996	O
+.	996	997	O
+
+Interestingly	998	1011	O
+,	1011	1012	O
+the	1013	1016	O
+single	1017	1023	O
+crystal	1024	1031	B-Material
+structure	1032	1041	I-Material
+at	1042	1044	O
+room	1045	1049	O
+temperature	1050	1061	O
+shows	1062	1067	O
+the	1068	1071	O
+twisted	1072	1079	O
+as	1080	1082	O
+well	1083	1087	O
+as	1088	1090	O
+the	1091	1094	O
+linear	1095	1101	O
+conformation	1102	1114	O
+of	1115	1117	O
+the	1118	1121	O
+octyl	1122	1127	B-Material
+side	1128	1132	I-Material
+chains	1133	1139	I-Material
+within	1140	1146	O
+one	1147	1150	O
+molecule	1151	1159	O
+(	1160	1161	O
+Figure	1161	1167	O
+5C	1168	1170	O
+)	1170	1171	O
+.	1171	1172	O
 
 
 -DOCSTART- (S000926141500651X)
 
-Previous	NN	O	O
-studies	NN	O	O
-have	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-there	NN	O	O
-are	NN	O	O
-two	NN	O	O
-main	NN	O	O
-mechanisms	NN	O	O
-for	NN	O	O
-the	NN	O	O
-development	NN	O	B-Process
-of	NN	O	I-Process
-radiation	NN	O	I-Process
--	NN	O	I-Process
-induced	NN	O	I-Process
-DSBs	NN	O	I-Process
-[	NN	O	O
-16,17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-γ-ray	NN	O	B-Process
-radiation	NN	O	I-Process
-,	NN	O	O
-single	NN	O	B-Process
-step	NN	O	I-Process
-is	NN	O	O
-the	NN	O	O
-main	NN	O	O
-process	NN	O	O
-to	NN	O	O
-cause	NN	O	O
-DSBs	NN	O	B-Process
-(	NN	O	O
-see	NN	O	O
-Figure	NN	O	O
-3b	NN	O	O
-)	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-attributed	NN	O	O
-to	NN	O	O
-the	NN	O	O
-generation	NN	O	B-Process
-of	NN	O	I-Process
-number	NN	O	I-Process
-of	NN	O	I-Process
-ROS	NN	O	I-Process
-upon	NN	O	O
-the	NN	O	O
-incident	NN	O	O
-of	NN	O	O
-individual	NN	O	O
-photon	NN	O	B-Material
-of	NN	O	I-Material
-γ-ray	NN	O	I-Material
-.	NN	O	O
-
-Whereas	NN	O	O
-photo	NN	O	B-Process
--	NN	O	I-Process
-radiation	NN	O	I-Process
-causes	NN	O	O
-DSBs	NN	O	B-Process
-through	NN	O	O
-two	NN	O	B-Process
-step	NN	O	I-Process
-mechanism	NN	O	I-Process
-(	NN	O	O
-Figure	NN	O	O
-3a	NN	O	O
-)	NN	O	O
-by	NN	O	O
-reflecting	NN	O	O
-that	NN	O	O
-each	NN	O	O
-single	NN	O	O
-photon	NN	O	B-Material
-causes	NN	O	O
-mostly	NN	O	O
-single	NN	O	O
-ROS	NN	O	B-Material
-and	NN	O	O
-thus	NN	O	O
-induces	NN	O	O
-only	NN	O	O
-single	NN	O	B-Process
-strand	NN	O	I-Process
-break	NN	O	I-Process
-.	NN	O	O
-
-Then	NN	O	O
-,	NN	O	O
-when	NN	O	O
-a	NN	O	O
-second	NN	O	O
-single	NN	O	B-Process
-strand	NN	O	I-Process
-break	NN	O	I-Process
-occurs	NN	O	O
-where	NN	O	O
-near	NN	O	O
-the	NN	O	O
-existing	NN	O	O
-single	NN	O	B-Process
-strand	NN	O	I-Process
-break	NN	O	I-Process
-,	NN	O	O
-DBS	NN	O	B-Process
-is	NN	O	O
-caused	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-the	NN	O	O
-two	NN	O	B-Process
-step	NN	O	I-Process
-mechanism	NN	O	I-Process
-.	NN	O	O
-
-Summarizing	NN	O	O
-the	NN	O	O
-results	NN	O	O
-and	NN	O	O
-discussion	NN	O	O
-we	NN	O	O
-may	NN	O	O
-conclude	NN	O	O
-as	NN	O	O
-that	NN	O	O
-:	NN	O	O
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-The	NN	O	O
-significant	NN	O	O
-protective	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-AA	NN	O	B-Material
-against	NN	O	O
-photo	NN	O	B-Process
--	NN	O	I-Process
-induced	NN	O	I-Process
-damage	NN	O	I-Process
-may	NN	O	O
-reflect	NN	O	O
-the	NN	O	O
-effective	NN	O	O
-diminish	NN	O	O
-of	NN	O	O
-ROS	NN	O	B-Material
-by	NN	O	O
-AA	NN	O	B-Material
-.	NN	O	O
-
-(	NN	O	O
-2	NN	O	O
-)	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-γ-ray	NN	O	B-Material
-induced	NN	O	I-Material
-DSB	NN	O	I-Material
-,	NN	O	O
-
-the	NN	O	O
-protective	NN	O	O
-effect	NN	O	O
-by	NN	O	O
-AA	NN	O	B-Material
-is	NN	O	O
-a	NN	O	O
-little	NN	O	O
-bit	NN	O	O
-weaker	NN	O	O
-than	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-photo	NN	O	B-Process
-irradiation	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-may	NN	O	O
-be	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-generation	NN	O	O
-of	NN	O	O
-numbers	NN	O	O
-of	NN	O	O
-ROS	NN	O	B-Material
-by	NN	O	O
-single	NN	O	B-Material
-photon	NN	O	I-Material
-of	NN	O	I-Material
-γ-ray	NN	O	I-Material
-.	NN	O	O
-
-Surviving	NN	O	O
-oxygen	NN	O	O
-species	NN	O	O
-against	NN	O	O
-the	NN	O	O
-diminishment	NN	O	O
-effect	NN	O	O
-by	NN	O	O
-AA	NN	O	B-Material
-may	NN	O	O
-cause	NN	O	O
-DSBs	NN	O	B-Material
-.	NN	O	O
-
-(	NN	O	O
-3	NN	O	O
-)	NN	O	O
-
-As	NN	O	O
-for	NN	O	O
-the	NN	O	O
-DSBs	NN	O	B-Material
-by	NN	O	O
-ultrasound	NN	O	B-Process
-,	NN	O	O
-damage	NN	O	O
-is	NN	O	O
-caused	NN	O	O
-by	NN	O	O
-the	NN	O	O
-shockwave	NN	O	B-Process
-through	NN	O	O
-the	NN	O	O
-generation	NN	O	O
-of	NN	O	O
-cavitations	NN	O	B-Material
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-the	NN	O	O
-chemical	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-AA	NN	O	B-Material
-to	NN	O	O
-diminish	NN	O	B-Process
-ROS	NN	O	I-Process
-is	NN	O	O
-considered	NN	O	O
-to	NN	O	O
-be	NN	O	O
-negligibly	NN	O	O
-small	NN	O	O
-for	NN	O	O
-the	NN	O	O
-protection	NN	O	O
-of	NN	O	O
-DSBs	NN	O	B-Material
-.	NN	O	O
+Previous	0	8	O
+studies	9	16	O
+have	17	21	O
+shown	22	27	O
+that	28	32	O
+there	33	38	O
+are	39	42	O
+two	43	46	O
+main	47	51	O
+mechanisms	52	62	O
+for	63	66	O
+the	67	70	O
+development	71	82	B-Process
+of	83	85	I-Process
+radiation	86	95	I-Process
+-	95	96	I-Process
+induced	96	103	I-Process
+DSBs	104	108	I-Process
+[	109	110	O
+16,17	110	115	O
+]	115	116	O
+.	116	117	O
+
+For	118	121	O
+γ-ray	122	127	B-Process
+radiation	128	137	I-Process
+,	137	138	O
+single	139	145	B-Process
+step	146	150	I-Process
+is	151	153	O
+the	154	157	O
+main	158	162	O
+process	163	170	O
+to	171	173	O
+cause	174	179	O
+DSBs	180	184	B-Process
+(	185	186	O
+see	186	189	O
+Figure	190	196	O
+3b	197	199	O
+)	199	200	O
+,	200	201	O
+which	202	207	O
+is	208	210	O
+attributed	211	221	O
+to	222	224	O
+the	225	228	O
+generation	229	239	B-Process
+of	240	242	I-Process
+number	243	249	I-Process
+of	250	252	I-Process
+ROS	253	256	I-Process
+upon	257	261	O
+the	262	265	O
+incident	266	274	O
+of	275	277	O
+individual	278	288	O
+photon	289	295	B-Material
+of	296	298	I-Material
+γ-ray	299	304	I-Material
+.	304	305	O
+
+Whereas	306	313	O
+photo	314	319	B-Process
+-	319	320	I-Process
+radiation	320	329	I-Process
+causes	330	336	O
+DSBs	337	341	B-Process
+through	342	349	O
+two	350	353	B-Process
+step	354	358	I-Process
+mechanism	359	368	I-Process
+(	369	370	O
+Figure	370	376	O
+3a	377	379	O
+)	379	380	O
+by	381	383	O
+reflecting	384	394	O
+that	395	399	O
+each	400	404	O
+single	405	411	O
+photon	412	418	B-Material
+causes	419	425	O
+mostly	426	432	O
+single	433	439	O
+ROS	440	443	B-Material
+and	444	447	O
+thus	448	452	O
+induces	453	460	O
+only	461	465	O
+single	466	472	B-Process
+strand	473	479	I-Process
+break	480	485	I-Process
+.	485	486	O
+
+Then	487	491	O
+,	491	492	O
+when	493	497	O
+a	498	499	O
+second	500	506	O
+single	507	513	B-Process
+strand	514	520	I-Process
+break	521	526	I-Process
+occurs	527	533	O
+where	534	539	O
+near	540	544	O
+the	545	548	O
+existing	549	557	O
+single	558	564	B-Process
+strand	565	571	I-Process
+break	572	577	I-Process
+,	577	578	O
+DBS	579	582	B-Process
+is	583	585	O
+caused	586	592	O
+,	592	593	O
+i.e.	594	598	O
+,	598	599	O
+the	600	603	O
+two	604	607	B-Process
+step	608	612	I-Process
+mechanism	613	622	I-Process
+.	622	623	O
+
+Summarizing	624	635	O
+the	636	639	O
+results	640	647	O
+and	648	651	O
+discussion	652	662	O
+we	663	665	O
+may	666	669	O
+conclude	670	678	O
+as	679	681	O
+that	682	686	O
+:	686	687	O
+(	688	689	O
+1	689	690	O
+)	690	691	O
+The	692	695	O
+significant	696	707	O
+protective	708	718	O
+effect	719	725	O
+of	726	728	O
+AA	729	731	B-Material
+against	732	739	O
+photo	740	745	B-Process
+-	745	746	I-Process
+induced	746	753	I-Process
+damage	754	760	I-Process
+may	761	764	O
+reflect	765	772	O
+the	773	776	O
+effective	777	786	O
+diminish	787	795	O
+of	796	798	O
+ROS	799	802	B-Material
+by	803	805	O
+AA	806	808	B-Material
+.	808	809	O
+
+(	810	811	O
+2	811	812	O
+)	812	813	O
+
+For	814	817	O
+the	818	821	O
+γ-ray	822	827	B-Material
+induced	828	835	I-Material
+DSB	836	839	I-Material
+,	839	840	O
+
+the	841	844	O
+protective	845	855	O
+effect	856	862	O
+by	863	865	O
+AA	866	868	B-Material
+is	869	871	O
+a	872	873	O
+little	874	880	O
+bit	881	884	O
+weaker	885	891	O
+than	892	896	O
+the	897	900	O
+case	901	905	O
+of	906	908	O
+photo	909	914	B-Process
+irradiation	915	926	I-Process
+.	926	927	O
+
+This	928	932	O
+may	933	936	O
+be	937	939	O
+due	940	943	O
+to	944	946	O
+the	947	950	O
+generation	951	961	O
+of	962	964	O
+numbers	965	972	O
+of	973	975	O
+ROS	976	979	B-Material
+by	980	982	O
+single	983	989	B-Material
+photon	990	996	I-Material
+of	997	999	I-Material
+γ-ray	1000	1005	I-Material
+.	1005	1006	O
+
+Surviving	1007	1016	O
+oxygen	1017	1023	O
+species	1024	1031	O
+against	1032	1039	O
+the	1040	1043	O
+diminishment	1044	1056	O
+effect	1057	1063	O
+by	1064	1066	O
+AA	1067	1069	B-Material
+may	1070	1073	O
+cause	1074	1079	O
+DSBs	1080	1084	B-Material
+.	1084	1085	O
+
+(	1086	1087	O
+3	1087	1088	O
+)	1088	1089	O
+
+As	1090	1092	O
+for	1093	1096	O
+the	1097	1100	O
+DSBs	1101	1105	B-Material
+by	1106	1108	O
+ultrasound	1109	1119	B-Process
+,	1119	1120	O
+damage	1121	1127	O
+is	1128	1130	O
+caused	1131	1137	O
+by	1138	1140	O
+the	1141	1144	O
+shockwave	1145	1154	B-Process
+through	1155	1162	O
+the	1163	1166	O
+generation	1167	1177	O
+of	1178	1180	O
+cavitations	1181	1192	B-Material
+[	1193	1194	O
+18	1194	1196	O
+]	1196	1197	O
+.	1197	1198	O
+
+Thus	1199	1203	O
+,	1203	1204	O
+the	1205	1208	O
+chemical	1209	1217	O
+effect	1218	1224	O
+of	1225	1227	O
+AA	1228	1230	B-Material
+to	1231	1233	O
+diminish	1234	1242	B-Process
+ROS	1243	1246	I-Process
+is	1247	1249	O
+considered	1250	1260	O
+to	1261	1263	O
+be	1264	1266	O
+negligibly	1267	1277	O
+small	1278	1283	O
+for	1284	1287	O
+the	1288	1291	O
+protection	1292	1302	O
+of	1303	1305	O
+DSBs	1306	1310	B-Material
+.	1310	1311	O
 
 
 -DOCSTART- (S0010938X12001163)
 
-In	NN	O	B-Process
-situ	NN	O	I-Process
-oxidation	NN	O	I-Process
-,	NN	O	O
-experiments	NN	O	O
-were	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-using	NN	O	O
-3	NN	O	B-Material
-mm	NN	O	I-Material
-diameter	NN	O	I-Material
-discs	NN	O	I-Material
-with	NN	O	O
-one	NN	O	O
-surface	NN	O	O
-ground	NN	O	B-Process
-and	NN	O	I-Process
-polished	NN	O	I-Process
-to	NN	O	O
-a	NN	O	O
-1μm	NN	O	O
-diamond	NN	O	O
-finish	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-3	NN	O	O
-mm	NN	O	O
-discs	NN	O	O
-were	NN	O	O
-then	NN	O	O
-oxidised	NN	O	B-Process
-in	NN	O	O
-a	NN	O	O
-Philips	NN	O	O
-XL-30	NN	O	O
-
-FEG	NN	O	O
-ESEM	NN	O	O
-with	NN	O	O
-a	NN	O	O
-hot	NN	O	B-Material
-stage	NN	O	I-Material
-attachment	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-oxidising	NN	O	O
-atmosphere	NN	O	O
-used	NN	O	O
-was	NN	O	O
-laboratory	NN	O	O
-air	NN	O	O
-at	NN	O	O
-a	NN	O	O
-pressure	NN	O	O
-of	NN	O	O
-266	NN	O	O
-Pa	NN	O	O
-.	NN	O	O
-
-During	NN	O	O
-the	NN	O	O
-experiment	NN	O	O
-,	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-was	NN	O	O
-observed	NN	O	O
-and	NN	O	O
-imaged	NN	O	O
-using	NN	O	O
-a	NN	O	O
-primary	NN	O	O
-beam	NN	O	O
-energy	NN	O	O
-of	NN	O	O
-20kV	NN	O	O
-and	NN	O	O
-an	NN	O	O
-Everhart	NN	O	O
-–	NN	O	O
-Thornley	NN	O	O
-secondary	NN	O	O
-electron	NN	O	O
-detector	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-sample	NN	O	O
-was	NN	O	O
-heated	NN	O	B-Process
-at	NN	O	O
-a	NN	O	O
-rate	NN	O	O
-of	NN	O	O
-100	NN	O	O
-°	NN	O	O
-C	NN	O	O
-/	NN	O	O
-min	NN	O	O
-to	NN	O	O
-a	NN	O	O
-temperature	NN	O	O
-of	NN	O	O
-700	NN	O	O
-°	NN	O	O
-C	NN	O	O
-and	NN	O	O
-held	NN	O	O
-at	NN	O	O
-this	NN	O	O
-temperature	NN	O	O
-for	NN	O	O
-8min	NN	O	O
-to	NN	O	O
-stabilise	NN	O	B-Process
-the	NN	O	I-Process
-stage	NN	O	I-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-microscope	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-sample	NN	O	O
-was	NN	O	O
-then	NN	O	O
-heated	NN	O	B-Process
-to	NN	O	I-Process
-a	NN	O	I-Process
-final	NN	O	I-Process
-temperature	NN	O	I-Process
-of	NN	O	I-Process
-900	NN	O	I-Process
-°	NN	O	I-Process
-C	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-same	NN	O	O
-heating	NN	O	O
-rate	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-total	NN	O	O
-time	NN	O	O
-of	NN	O	O
-exposure	NN	O	O
-of	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-was	NN	O	O
-120min	NN	O	O
-before	NN	O	O
-cooling	NN	O	O
-to	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-by	NN	O	O
-turning	NN	O	O
-off	NN	O	O
-the	NN	O	O
-heating	NN	O	B-Material
-coils	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-samples	NN	O	O
-were	NN	O	O
-then	NN	O	O
-examined	NN	O	O
-in	NN	O	O
-the	NN	O	O
-LEO	NN	O	B-Material
-1530VP	NN	O	I-Material
-FEGSEM	NN	O	I-Material
-with	NN	O	O
-chemical	NN	O	O
-information	NN	O	O
-gathered	NN	O	O
-using	NN	O	O
-EDS	NN	O	B-Material
-.	NN	O	O
-
-Cross	NN	O	O
--	NN	O	O
-sections	NN	O	O
-and	NN	O	O
-Transmission	NN	O	B-Material
-Electron	NN	O	I-Material
-Microscope	NN	O	I-Material
-(	NN	O	O
-TEM	NN	O	B-Material
-)	NN	O	O
-samples	NN	O	O
-were	NN	O	O
-produced	NN	O	O
-using	NN	O	O
-a	NN	O	O
-dual	NN	O	B-Material
-beam	NN	O	I-Material
-FEI	NN	O	I-Material
-Nova	NN	O	I-Material
-Nanolab	NN	O	I-Material
-600	NN	O	I-Material
-for	NN	O	O
-Focused	NN	O	B-Material
-Ion	NN	O	I-Material
-Beam	NN	O	I-Material
-(	NN	O	O
-FIB	NN	O	B-Material
-)	NN	O	O
-milling	NN	O	O
-perpendicular	NN	O	O
-to	NN	O	O
-the	NN	O	O
-phase	NN	O	O
-boundaries	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-their	NN	O	O
-influence	NN	O	O
-on	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Process
-development	NN	O	I-Process
-and	NN	O	O
-imaged	NN	O	O
-using	NN	O	O
-a	NN	O	O
-Jeol	NN	O	B-Material
-2000FX	NN	O	I-Material
-W	NN	O	I-Material
--	NN	O	I-Material
-filament	NN	O	I-Material
-TEM	NN	O	I-Material
-.	NN	O	O
-
-EDS	NN	O	B-Material
-maps	NN	O	O
-of	NN	O	O
-the	NN	O	O
-TEM	NN	O	B-Material
-samples	NN	O	I-Material
-were	NN	O	O
-collected	NN	O	O
-using	NN	O	O
-the	NN	O	O
-Nanolab	NN	O	B-Material
-600	NN	O	I-Material
-with	NN	O	O
-a	NN	O	O
-Scanning	NN	O	B-Material
-TEM	NN	O	I-Material
-(	NN	O	I-Material
-STEM	NN	O	I-Material
-)	NN	O	I-Material
-detector	NN	O	I-Material
-and	NN	O	O
-an	NN	O	O
-EDAX	NN	O	B-Material
-Genesis	NN	O	I-Material
-EDS	NN	O	I-Material
-system	NN	O	I-Material
-at	NN	O	O
-an	NN	O	O
-accelerating	NN	O	B-Process
-voltage	NN	O	I-Process
-of	NN	O	I-Process
-30kV.	NN	O	I-Process
+In	0	2	B-Process
+situ	3	7	I-Process
+oxidation	8	17	I-Process
+,	17	18	O
+experiments	19	30	O
+were	31	35	O
+carried	36	43	O
+out	44	47	O
+using	48	53	O
+3	54	55	B-Material
+mm	55	57	I-Material
+diameter	58	66	I-Material
+discs	67	72	I-Material
+with	73	77	O
+one	78	81	O
+surface	82	89	O
+ground	90	96	B-Process
+and	97	100	I-Process
+polished	101	109	I-Process
+to	110	112	O
+a	113	114	O
+1μm	115	118	O
+diamond	119	126	O
+finish	127	133	O
+.	133	134	O
+
+The	135	138	O
+3	139	140	O
+mm	140	142	O
+discs	143	148	O
+were	149	153	O
+then	154	158	O
+oxidised	159	167	B-Process
+in	168	170	O
+a	171	172	O
+Philips	173	180	O
+XL-30	181	186	O
+
+FEG	187	190	O
+ESEM	191	195	O
+with	196	200	O
+a	201	202	O
+hot	203	206	B-Material
+stage	207	212	I-Material
+attachment	213	223	I-Material
+.	223	224	O
+
+The	225	228	O
+oxidising	229	238	O
+atmosphere	239	249	O
+used	250	254	O
+was	255	258	O
+laboratory	259	269	O
+air	270	273	O
+at	274	276	O
+a	277	278	O
+pressure	279	287	O
+of	288	290	O
+266	291	294	O
+Pa	294	296	O
+.	296	297	O
+
+During	298	304	O
+the	305	308	O
+experiment	309	319	O
+,	319	320	O
+the	321	324	O
+sample	325	331	O
+was	332	335	O
+observed	336	344	O
+and	345	348	O
+imaged	349	355	O
+using	356	361	O
+a	362	363	O
+primary	364	371	O
+beam	372	376	O
+energy	377	383	O
+of	384	386	O
+20kV	387	391	O
+and	392	395	O
+an	396	398	O
+Everhart	399	407	O
+–	407	408	O
+Thornley	408	416	O
+secondary	417	426	O
+electron	427	435	O
+detector	436	444	O
+.	444	445	O
+
+The	446	449	O
+sample	450	456	O
+was	457	460	O
+heated	461	467	B-Process
+at	468	470	O
+a	471	472	O
+rate	473	477	O
+of	478	480	O
+100	481	484	O
+°	484	485	O
+C	485	486	O
+/	486	487	O
+min	487	490	O
+to	491	493	O
+a	494	495	O
+temperature	496	507	O
+of	508	510	O
+700	511	514	O
+°	514	515	O
+C	515	516	O
+and	517	520	O
+held	521	525	O
+at	526	528	O
+this	529	533	O
+temperature	534	545	O
+for	546	549	O
+8min	550	554	O
+to	555	557	O
+stabilise	558	567	B-Process
+the	568	571	I-Process
+stage	572	577	I-Process
+and	578	581	I-Process
+the	582	585	I-Process
+microscope	586	596	I-Process
+.	596	597	O
+
+The	598	601	O
+sample	602	608	O
+was	609	612	O
+then	613	617	O
+heated	618	624	B-Process
+to	625	627	I-Process
+a	628	629	I-Process
+final	630	635	I-Process
+temperature	636	647	I-Process
+of	648	650	I-Process
+900	651	654	I-Process
+°	654	655	I-Process
+C	655	656	I-Process
+at	657	659	O
+the	660	663	O
+same	664	668	O
+heating	669	676	O
+rate	677	681	O
+.	681	682	O
+
+The	683	686	O
+total	687	692	O
+time	693	697	O
+of	698	700	O
+exposure	701	709	O
+of	710	712	O
+the	713	716	O
+sample	717	723	O
+was	724	727	O
+120min	728	734	O
+before	735	741	O
+cooling	742	749	O
+to	750	752	O
+room	753	757	O
+temperature	758	769	O
+by	770	772	O
+turning	773	780	O
+off	781	784	O
+the	785	788	O
+heating	789	796	B-Material
+coils	797	802	I-Material
+.	802	803	O
+
+The	804	807	O
+samples	808	815	O
+were	816	820	O
+then	821	825	O
+examined	826	834	O
+in	835	837	O
+the	838	841	O
+LEO	842	845	B-Material
+1530VP	846	852	I-Material
+FEGSEM	853	859	I-Material
+with	860	864	O
+chemical	865	873	O
+information	874	885	O
+gathered	886	894	O
+using	895	900	O
+EDS	901	904	B-Material
+.	904	905	O
+
+Cross	906	911	O
+-	911	912	O
+sections	912	920	O
+and	921	924	O
+Transmission	925	937	B-Material
+Electron	938	946	I-Material
+Microscope	947	957	I-Material
+(	958	959	O
+TEM	959	962	B-Material
+)	962	963	O
+samples	964	971	O
+were	972	976	O
+produced	977	985	O
+using	986	991	O
+a	992	993	O
+dual	994	998	B-Material
+beam	999	1003	I-Material
+FEI	1004	1007	I-Material
+Nova	1008	1012	I-Material
+Nanolab	1013	1020	I-Material
+600	1021	1024	I-Material
+for	1025	1028	O
+Focused	1029	1036	B-Material
+Ion	1037	1040	I-Material
+Beam	1041	1045	I-Material
+(	1046	1047	O
+FIB	1047	1050	B-Material
+)	1050	1051	O
+milling	1052	1059	O
+perpendicular	1060	1073	O
+to	1074	1076	O
+the	1077	1080	O
+phase	1081	1086	O
+boundaries	1087	1097	O
+to	1098	1100	O
+determine	1101	1110	O
+their	1111	1116	O
+influence	1117	1126	O
+on	1127	1129	O
+the	1130	1133	O
+oxide	1134	1139	B-Process
+development	1140	1151	I-Process
+and	1152	1155	O
+imaged	1156	1162	O
+using	1163	1168	O
+a	1169	1170	O
+Jeol	1171	1175	B-Material
+2000FX	1176	1182	I-Material
+W	1183	1184	I-Material
+-	1184	1185	I-Material
+filament	1185	1193	I-Material
+TEM	1194	1197	I-Material
+.	1197	1198	O
+
+EDS	1199	1202	B-Material
+maps	1203	1207	O
+of	1208	1210	O
+the	1211	1214	O
+TEM	1215	1218	B-Material
+samples	1219	1226	I-Material
+were	1227	1231	O
+collected	1232	1241	O
+using	1242	1247	O
+the	1248	1251	O
+Nanolab	1252	1259	B-Material
+600	1260	1263	I-Material
+with	1264	1268	O
+a	1269	1270	O
+Scanning	1271	1279	B-Material
+TEM	1280	1283	I-Material
+(	1284	1285	I-Material
+STEM	1285	1289	I-Material
+)	1289	1290	I-Material
+detector	1291	1299	I-Material
+and	1300	1303	O
+an	1304	1306	O
+EDAX	1307	1311	B-Material
+Genesis	1312	1319	I-Material
+EDS	1320	1323	I-Material
+system	1324	1330	I-Material
+at	1331	1333	O
+an	1334	1336	O
+accelerating	1337	1349	B-Process
+voltage	1350	1357	I-Process
+of	1358	1360	I-Process
+30kV.	1361	1366	I-Process
 
 
 -DOCSTART- (S0010938X12002508)
 
-The	NN	O	O
-study	NN	O	O
-outlines	NN	O	O
-a	NN	O	O
-trial	NN	O	O
-of	NN	O	O
-transient	NN	O	B-Task
-response	NN	O	I-Task
-analysis	NN	O	I-Task
-on	NN	O	O
-full	NN	O	O
--	NN	O	O
-scale	NN	O	O
-motorway	NN	O	B-Material
-bridge	NN	O	I-Material
-structures	NN	O	I-Material
-to	NN	O	O
-obtain	NN	O	O
-information	NN	O	O
-concerning	NN	O	O
-the	NN	O	O
-steel	NN	O	B-Task
-–	NN	O	I-Task
-concrete	NN	O	I-Task
-interface	NN	O	I-Task
-and	NN	O	O
-is	NN	O	O
-part	NN	O	O
-of	NN	O	O
-a	NN	O	O
-larger	NN	O	O
-study	NN	O	O
-to	NN	O	O
-assess	NN	O	O
-the	NN	O	O
-long	NN	O	B-Process
--	NN	O	I-Process
-term	NN	O	I-Process
-sustained	NN	O	I-Process
-benefits	NN	O	I-Process
-offered	NN	O	O
-by	NN	O	O
-Impressed	NN	O	B-Process
-Current	NN	O	I-Process
-Cathodic	NN	O	I-Process
-Protection	NN	O	I-Process
-(	NN	O	O
-ICCP	NN	O	B-Process
-)	NN	O	O
-after	NN	O	O
-the	NN	O	O
-interruption	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-protective	NN	O	I-Process
-current	NN	O	I-Process
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-structures	NN	O	O
-had	NN	O	O
-previously	NN	O	O
-been	NN	O	O
-protected	NN	O	O
-for	NN	O	O
-5–16years	NN	O	O
-by	NN	O	O
-an	NN	O	O
-ICCP	NN	O	B-Process
-system	NN	O	I-Process
-prior	NN	O	O
-to	NN	O	O
-the	NN	O	O
-start	NN	O	O
-of	NN	O	O
-the	NN	O	O
-study	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-protective	NN	O	B-Process
-current	NN	O	I-Process
-was	NN	O	I-Process
-interrupted	NN	O	I-Process
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-assess	NN	O	B-Process
-the	NN	O	I-Process
-long	NN	O	I-Process
--	NN	O	I-Process
-term	NN	O	I-Process
-benefits	NN	O	I-Process
-provided	NN	O	O
-by	NN	O	O
-ICCP	NN	O	B-Process
-after	NN	O	O
-it	NN	O	O
-has	NN	O	O
-been	NN	O	O
-turned	NN	O	O
-off	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-develops	NN	O	B-Task
-and	NN	O	I-Task
-examines	NN	O	I-Task
-a	NN	O	I-Task
-simplified	NN	O	I-Task
-approach	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-on	NN	O	O
--	NN	O	O
-site	NN	O	O
-use	NN	O	O
-of	NN	O	O
-transient	NN	O	B-Process
-response	NN	O	I-Process
-analysis	NN	O	I-Process
-and	NN	O	O
-discusses	NN	O	B-Process
-the	NN	O	I-Process
-potential	NN	O	I-Process
-advantages	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-technique	NN	O	O
-as	NN	O	O
-a	NN	O	O
-tool	NN	O	O
-for	NN	O	O
-the	NN	O	O
-assessment	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-corrosion	NN	O	I-Task
-condition	NN	O	I-Task
-of	NN	O	O
-steel	NN	O	B-Material
-in	NN	O	O
-reinforced	NN	O	B-Material
-concrete	NN	O	I-Material
-structures	NN	O	I-Material
-.	NN	O	O
+The	0	3	O
+study	4	9	O
+outlines	10	18	O
+a	19	20	O
+trial	21	26	O
+of	27	29	O
+transient	30	39	B-Task
+response	40	48	I-Task
+analysis	49	57	I-Task
+on	58	60	O
+full	61	65	O
+-	65	66	O
+scale	66	71	O
+motorway	72	80	B-Material
+bridge	81	87	I-Material
+structures	88	98	I-Material
+to	99	101	O
+obtain	102	108	O
+information	109	120	O
+concerning	121	131	O
+the	132	135	O
+steel	136	141	B-Task
+–	141	142	I-Task
+concrete	142	150	I-Task
+interface	151	160	I-Task
+and	161	164	O
+is	165	167	O
+part	168	172	O
+of	173	175	O
+a	176	177	O
+larger	178	184	O
+study	185	190	O
+to	191	193	O
+assess	194	200	O
+the	201	204	O
+long	205	209	B-Process
+-	209	210	I-Process
+term	210	214	I-Process
+sustained	215	224	I-Process
+benefits	225	233	I-Process
+offered	234	241	O
+by	242	244	O
+Impressed	245	254	B-Process
+Current	255	262	I-Process
+Cathodic	263	271	I-Process
+Protection	272	282	I-Process
+(	283	284	O
+ICCP	284	288	B-Process
+)	288	289	O
+after	290	295	O
+the	296	299	O
+interruption	300	312	B-Process
+of	313	315	I-Process
+the	316	319	I-Process
+protective	320	330	I-Process
+current	331	338	I-Process
+[	339	340	O
+1	340	341	O
+]	341	342	O
+.	342	343	O
+
+These	344	349	O
+structures	350	360	O
+had	361	364	O
+previously	365	375	O
+been	376	380	O
+protected	381	390	O
+for	391	394	O
+5–16years	395	404	O
+by	405	407	O
+an	408	410	O
+ICCP	411	415	B-Process
+system	416	422	I-Process
+prior	423	428	O
+to	429	431	O
+the	432	435	O
+start	436	441	O
+of	442	444	O
+the	445	448	O
+study	449	454	O
+.	454	455	O
+
+The	456	459	O
+protective	460	470	B-Process
+current	471	478	I-Process
+was	479	482	I-Process
+interrupted	483	494	I-Process
+,	494	495	O
+in	496	498	O
+order	499	504	O
+to	505	507	O
+assess	508	514	B-Process
+the	515	518	I-Process
+long	519	523	I-Process
+-	523	524	I-Process
+term	524	528	I-Process
+benefits	529	537	I-Process
+provided	538	546	O
+by	547	549	O
+ICCP	550	554	B-Process
+after	555	560	O
+it	561	563	O
+has	564	567	O
+been	568	572	O
+turned	573	579	O
+off	580	583	O
+.	583	584	O
+
+This	585	589	O
+paper	590	595	O
+develops	596	604	B-Task
+and	605	608	I-Task
+examines	609	617	I-Task
+a	618	619	I-Task
+simplified	620	630	I-Task
+approach	631	639	I-Task
+for	640	643	O
+the	644	647	O
+on	648	650	O
+-	650	651	O
+site	651	655	O
+use	656	659	O
+of	660	662	O
+transient	663	672	B-Process
+response	673	681	I-Process
+analysis	682	690	I-Process
+and	691	694	O
+discusses	695	704	B-Process
+the	705	708	I-Process
+potential	709	718	I-Process
+advantages	719	729	I-Process
+of	730	732	O
+the	733	736	O
+technique	737	746	O
+as	747	749	O
+a	750	751	O
+tool	752	756	O
+for	757	760	O
+the	761	764	O
+assessment	765	775	B-Task
+of	776	778	I-Task
+the	779	782	I-Task
+corrosion	783	792	I-Task
+condition	793	802	I-Task
+of	803	805	O
+steel	806	811	B-Material
+in	812	814	O
+reinforced	815	825	B-Material
+concrete	826	834	I-Material
+structures	835	845	I-Material
+.	845	846	O
 
 
 -DOCSTART- (S0010938X13002187)
 
-The	NN	O	O
-results	NN	O	O
-from	NN	O	O
-two	NN	O	O
-types	NN	O	O
-of	NN	O	O
-oxidation	NN	O	B-Process
-test	NN	O	I-Process
-are	NN	O	O
-combined	NN	O	O
-in	NN	O	O
-this	NN	O	O
-study	NN	O	O
-.	NN	O	O
-
-Table	NN	O	O
-1	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-test	NN	O	B-Material
-matrix	NN	O	I-Material
-with	NN	O	O
-the	NN	O	O
-two	NN	O	O
-approaches	NN	O	O
-included	NN	O	O
-.	NN	O	O
-
-All	NN	O	O
-the	NN	O	O
-100h	NN	O	O
-tests	NN	O	O
-and	NN	O	O
-the	NN	O	O
-test	NN	O	O
-conducted	NN	O	O
-at	NN	O	O
-650	NN	O	O
-°	NN	O	O
-C	NN	O	O
-were	NN	O	O
-performed	NN	O	O
-using	NN	O	O
-a	NN	O	O
-thermogravimetric	NN	O	B-Process
-balance	NN	O	I-Process
-(	NN	O	O
-TGA	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-weight	NN	O	B-Material
-change	NN	O	I-Material
-during	NN	O	I-Material
-these	NN	O	I-Material
-tests	NN	O	I-Material
-was	NN	O	I-Material
-monitored	NN	O	I-Material
-continually	NN	O	I-Material
-and	NN	O	O
-adjusted	NN	O	B-Process
-to	NN	O	I-Process
-accommodate	NN	O	I-Process
-buoyancy	NN	O	I-Process
-effects	NN	O	I-Process
-.	NN	O	O
-
-All	NN	O	O
-other	NN	O	O
-tests	NN	O	O
-were	NN	O	O
-conducted	NN	O	O
-in	NN	O	O
-horizontal	NN	O	B-Material
-tube	NN	O	I-Material
-furnaces	NN	O	I-Material
-.	NN	O	O
-
-For	NN	O	O
-these	NN	O	O
-latter	NN	O	O
-tests	NN	O	O
-,	NN	O	O
-batches	NN	O	O
-of	NN	O	O
-specimens	NN	O	O
-were	NN	O	O
-placed	NN	O	O
-in	NN	O	O
-alumina	NN	O	B-Material
-boats	NN	O	I-Material
-and	NN	O	O
-inserted	NN	O	O
-into	NN	O	O
-the	NN	O	O
-furnaces	NN	O	B-Material
-at	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
-
-Intermittent	NN	O	O
-weighing	NN	O	O
-at	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-was	NN	O	O
-used	NN	O	O
-to	NN	O	O
-determine	NN	O	B-Task
-the	NN	O	I-Task
-oxidation	NN	O	I-Task
-kinetics	NN	O	I-Task
-.	NN	O	O
-
-At	NN	O	O
-selected	NN	O	O
-time	NN	O	O
-intervals	NN	O	O
-,	NN	O	O
-a	NN	O	O
-specimen	NN	O	O
-was	NN	O	O
-removed	NN	O	O
-from	NN	O	O
-the	NN	O	O
-batch	NN	O	O
-for	NN	O	O
-examination	NN	O	O
-before	NN	O	O
-the	NN	O	O
-high	NN	O	O
-temperature	NN	O	O
-exposure	NN	O	O
-continued	NN	O	O
-for	NN	O	O
-the	NN	O	O
-remainder	NN	O	O
-of	NN	O	O
-the	NN	O	O
-batch	NN	O	O
-.	NN	O	O
-
-Table	NN	O	B-Material
-1	NN	O	I-Material
-shows	NN	O	I-Material
-the	NN	O	I-Material
-time	NN	O	I-Material
-intervals	NN	O	I-Material
-chosen	NN	O	I-Material
-for	NN	O	I-Material
-examination	NN	O	I-Material
-.	NN	O	O
-
-At	NN	O	O
-600	NN	O	O
-°	NN	O	O
-C	NN	O	O
-one	NN	O	O
-isothermal	NN	O	O
-test	NN	O	O
-,	NN	O	O
-having	NN	O	O
-an	NN	O	O
-exposure	NN	O	O
-time	NN	O	O
-of	NN	O	O
-1000h	NN	O	O
-,	NN	O	O
-has	NN	O	O
-been	NN	O	O
-performed	NN	O	O
-to	NN	O	O
-date	NN	O	O
-.	NN	O	O
+The	0	3	O
+results	4	11	O
+from	12	16	O
+two	17	20	O
+types	21	26	O
+of	27	29	O
+oxidation	30	39	B-Process
+test	40	44	I-Process
+are	45	48	O
+combined	49	57	O
+in	58	60	O
+this	61	65	O
+study	66	71	O
+.	71	72	O
+
+Table	73	78	O
+1	79	80	O
+shows	81	86	O
+the	87	90	O
+test	91	95	B-Material
+matrix	96	102	I-Material
+with	103	107	O
+the	108	111	O
+two	112	115	O
+approaches	116	126	O
+included	127	135	O
+.	135	136	O
+
+All	137	140	O
+the	141	144	O
+100h	145	149	O
+tests	150	155	O
+and	156	159	O
+the	160	163	O
+test	164	168	O
+conducted	169	178	O
+at	179	181	O
+650	182	185	O
+°	185	186	O
+C	186	187	O
+were	188	192	O
+performed	193	202	O
+using	203	208	O
+a	209	210	O
+thermogravimetric	211	228	B-Process
+balance	229	236	I-Process
+(	237	238	O
+TGA	238	241	B-Process
+)	241	242	O
+.	242	243	O
+
+The	244	247	O
+weight	248	254	B-Material
+change	255	261	I-Material
+during	262	268	I-Material
+these	269	274	I-Material
+tests	275	280	I-Material
+was	281	284	I-Material
+monitored	285	294	I-Material
+continually	295	306	I-Material
+and	307	310	O
+adjusted	311	319	B-Process
+to	320	322	I-Process
+accommodate	323	334	I-Process
+buoyancy	335	343	I-Process
+effects	344	351	I-Process
+.	351	352	O
+
+All	353	356	O
+other	357	362	O
+tests	363	368	O
+were	369	373	O
+conducted	374	383	O
+in	384	386	O
+horizontal	387	397	B-Material
+tube	398	402	I-Material
+furnaces	403	411	I-Material
+.	411	412	O
+
+For	413	416	O
+these	417	422	O
+latter	423	429	O
+tests	430	435	O
+,	435	436	O
+batches	437	444	O
+of	445	447	O
+specimens	448	457	O
+were	458	462	O
+placed	463	469	O
+in	470	472	O
+alumina	473	480	B-Material
+boats	481	486	I-Material
+and	487	490	O
+inserted	491	499	O
+into	500	504	O
+the	505	508	O
+furnaces	509	517	B-Material
+at	518	520	O
+temperature	521	532	O
+.	532	533	O
+
+Intermittent	534	546	O
+weighing	547	555	O
+at	556	558	O
+room	559	563	O
+temperature	564	575	O
+was	576	579	O
+used	580	584	O
+to	585	587	O
+determine	588	597	B-Task
+the	598	601	I-Task
+oxidation	602	611	I-Task
+kinetics	612	620	I-Task
+.	620	621	O
+
+At	622	624	O
+selected	625	633	O
+time	634	638	O
+intervals	639	648	O
+,	648	649	O
+a	650	651	O
+specimen	652	660	O
+was	661	664	O
+removed	665	672	O
+from	673	677	O
+the	678	681	O
+batch	682	687	O
+for	688	691	O
+examination	692	703	O
+before	704	710	O
+the	711	714	O
+high	715	719	O
+temperature	720	731	O
+exposure	732	740	O
+continued	741	750	O
+for	751	754	O
+the	755	758	O
+remainder	759	768	O
+of	769	771	O
+the	772	775	O
+batch	776	781	O
+.	781	782	O
+
+Table	783	788	B-Material
+1	789	790	I-Material
+shows	791	796	I-Material
+the	797	800	I-Material
+time	801	805	I-Material
+intervals	806	815	I-Material
+chosen	816	822	I-Material
+for	823	826	I-Material
+examination	827	838	I-Material
+.	838	839	O
+
+At	840	842	O
+600	843	846	O
+°	846	847	O
+C	847	848	O
+one	849	852	O
+isothermal	853	863	O
+test	864	868	O
+,	868	869	O
+having	870	876	O
+an	877	879	O
+exposure	880	888	O
+time	889	893	O
+of	894	896	O
+1000h	897	902	O
+,	902	903	O
+has	904	907	O
+been	908	912	O
+performed	913	922	O
+to	923	925	O
+date	926	930	O
+.	930	931	O
 
 
 -DOCSTART- (S0010938X13005945)
 
-The	NN	O	O
-adhesion	NN	O	B-Task
-/	NN	O	I-Task
-cohesion	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-coating	NN	O	I-Task
-was	NN	O	O
-evaluated	NN	O	O
-by	NN	O	O
-the	NN	O	O
-scratch	NN	O	B-Process
-test	NN	O	I-Process
-method	NN	O	I-Process
-,	NN	O	O
-using	NN	O	O
-a	NN	O	O
-Revetest	NN	O	B-Material
-system	NN	O	I-Material
-(	NN	O	I-Material
-CSM	NN	O	I-Material
-Instruments	NN	O	I-Material
-SA	NN	O	I-Material
-,	NN	O	I-Material
-Switzerland	NN	O	I-Material
-)	NN	O	I-Material
-equipped	NN	O	I-Material
-with	NN	O	I-Material
-a	NN	O	I-Material
-H-270	NN	O	I-Material
-diamond	NN	O	I-Material
-indentor	NN	O	I-Material
-(	NN	O	I-Material
-200μm	NN	O	I-Material
-diameter	NN	O	I-Material
-)	NN	O	I-Material
-.	NN	O	O
-
-Six	NN	O	O
-scratch	NN	O	B-Process
-indentations	NN	O	I-Process
-were	NN	O	I-Process
-carried	NN	O	I-Process
-out	NN	O	I-Process
-under	NN	O	O
-previously	NN	O	O
-optimized	NN	O	O
-conditions	NN	O	O
-(	NN	O	O
-linear	NN	O	O
-progressive	NN	O	O
-load	NN	O	O
-mode	NN	O	O
-1–4N	NN	O	O
-,	NN	O	O
-4Nmin−1	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-aid	NN	O	O
-in	NN	O	O
-determination	NN	O	B-Task
-of	NN	O	I-Task
-location	NN	O	I-Task
-of	NN	O	I-Task
-spallation	NN	O	I-Task
-/	NN	O	I-Task
-delamination	NN	O	I-Task
-,	NN	O	O
-an	NN	O	O
-extended	NN	O	O
-scratch	NN	O	O
-length	NN	O	O
-of	NN	O	O
-6	NN	O	O
-mm	NN	O	O
-was	NN	O	O
-employed	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-scratch	NN	O	O
-tracks	NN	O	O
-were	NN	O	O
-subsequently	NN	O	O
-observed	NN	O	O
-by	NN	O	O
-SEM	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-the	NN	O	O
-locations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-first	NN	O	O
-coating	NN	O	O
-failure	NN	O	O
-and	NN	O	O
-to	NN	O	O
-understand	NN	O	B-Task
-the	NN	O	I-Task
-nature	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-coating	NN	O	I-Task
-failure	NN	O	I-Task
-.	NN	O	O
-
-During	NN	O	O
-the	NN	O	O
-scratch	NN	O	O
-tests	NN	O	O
-,	NN	O	O
-the	NN	O	O
-loading	NN	O	B-Process
-force	NN	O	I-Process
-and	NN	O	I-Process
-penetration	NN	O	I-Process
-depth	NN	O	I-Process
-were	NN	O	I-Process
-recorded	NN	O	I-Process
-and	NN	O	I-Process
-their	NN	O	I-Process
-respective	NN	O	I-Process
-values	NN	O	I-Process
-were	NN	O	I-Process
-correlated	NN	O	I-Process
-with	NN	O	I-Process
-the	NN	O	I-Process
-observed	NN	O	I-Process
-failure	NN	O	I-Process
-locations	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-surface	NN	O	B-Task
-roughness	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-coating	NN	O	I-Task
-was	NN	O	I-Task
-evaluated	NN	O	I-Task
-using	NN	O	O
-a	NN	O	O
-surface	NN	O	B-Material
-roughness	NN	O	I-Material
-tester	NN	O	I-Material
-(	NN	O	O
-TR200	NN	O	O
-,	NN	O	O
-Timegroup	NN	O	O
-Inc.	NN	O	O
-)	NN	O	O
-according	NN	O	O
-to	NN	O	O
-ISO	NN	O	O
-standard	NN	O	O
-[	NN	O	O
-29	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-the	NN	O	O
-open	NN	O	O
-porosity	NN	O	O
-in	NN	O	O
-the	NN	O	O
-outer	NN	O	B-Material
-layer	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-coating	NN	O	B-Process
-,	NN	O	O
-a	NN	O	O
-measurement	NN	O	O
-length	NN	O	O
-for	NN	O	O
-determination	NN	O	O
-of	NN	O	O
-the	NN	O	O
-roughness	NN	O	B-Process
-(	NN	O	O
-Ra	NN	O	B-Process
-)	NN	O	O
-of	NN	O	O
-0.8	NN	O	O
-mm	NN	O	O
-was	NN	O	O
-used	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-total	NN	O	O
-,	NN	O	O
-eight	NN	O	B-Material
-measurements	NN	O	I-Material
-were	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-in	NN	O	O
-different	NN	O	O
-directions	NN	O	O
-.	NN	O	O
+The	0	3	O
+adhesion	4	12	B-Task
+/	12	13	I-Task
+cohesion	13	21	I-Task
+of	22	24	I-Task
+the	25	28	I-Task
+coating	29	36	I-Task
+was	37	40	O
+evaluated	41	50	O
+by	51	53	O
+the	54	57	O
+scratch	58	65	B-Process
+test	66	70	I-Process
+method	71	77	I-Process
+,	77	78	O
+using	79	84	O
+a	85	86	O
+Revetest	87	95	B-Material
+system	96	102	I-Material
+(	103	104	I-Material
+CSM	104	107	I-Material
+Instruments	108	119	I-Material
+SA	120	122	I-Material
+,	122	123	I-Material
+Switzerland	124	135	I-Material
+)	135	136	I-Material
+equipped	137	145	I-Material
+with	146	150	I-Material
+a	151	152	I-Material
+H-270	153	158	I-Material
+diamond	159	166	I-Material
+indentor	167	175	I-Material
+(	176	177	I-Material
+200μm	177	182	I-Material
+diameter	183	191	I-Material
+)	191	192	I-Material
+.	192	193	O
+
+Six	194	197	O
+scratch	198	205	B-Process
+indentations	206	218	I-Process
+were	219	223	I-Process
+carried	224	231	I-Process
+out	232	235	I-Process
+under	236	241	O
+previously	242	252	O
+optimized	253	262	O
+conditions	263	273	O
+(	274	275	O
+linear	275	281	O
+progressive	282	293	O
+load	294	298	O
+mode	299	303	O
+1–4N	304	308	O
+,	308	309	O
+4Nmin−1	310	317	O
+)	317	318	O
+.	318	319	O
+
+In	320	322	O
+order	323	328	O
+to	329	331	O
+aid	332	335	O
+in	336	338	O
+determination	339	352	B-Task
+of	353	355	I-Task
+location	356	364	I-Task
+of	365	367	I-Task
+spallation	368	378	I-Task
+/	378	379	I-Task
+delamination	379	391	I-Task
+,	391	392	O
+an	393	395	O
+extended	396	404	O
+scratch	405	412	O
+length	413	419	O
+of	420	422	O
+6	423	424	O
+mm	424	426	O
+was	427	430	O
+employed	431	439	O
+.	439	440	O
+
+The	441	444	O
+scratch	445	452	O
+tracks	453	459	O
+were	460	464	O
+subsequently	465	477	O
+observed	478	486	O
+by	487	489	O
+SEM	490	493	O
+to	494	496	O
+determine	497	506	O
+the	507	510	O
+locations	511	520	O
+of	521	523	O
+the	524	527	O
+first	528	533	O
+coating	534	541	O
+failure	542	549	O
+and	550	553	O
+to	554	556	O
+understand	557	567	B-Task
+the	568	571	I-Task
+nature	572	578	I-Task
+of	579	581	I-Task
+the	582	585	I-Task
+coating	586	593	I-Task
+failure	594	601	I-Task
+.	601	602	O
+
+During	603	609	O
+the	610	613	O
+scratch	614	621	O
+tests	622	627	O
+,	627	628	O
+the	629	632	O
+loading	633	640	B-Process
+force	641	646	I-Process
+and	647	650	I-Process
+penetration	651	662	I-Process
+depth	663	668	I-Process
+were	669	673	I-Process
+recorded	674	682	I-Process
+and	683	686	I-Process
+their	687	692	I-Process
+respective	693	703	I-Process
+values	704	710	I-Process
+were	711	715	I-Process
+correlated	716	726	I-Process
+with	727	731	I-Process
+the	732	735	I-Process
+observed	736	744	I-Process
+failure	745	752	I-Process
+locations	753	762	I-Process
+.	762	763	O
+
+The	764	767	O
+surface	768	775	B-Task
+roughness	776	785	I-Task
+of	786	788	I-Task
+the	789	792	I-Task
+coating	793	800	I-Task
+was	801	804	I-Task
+evaluated	805	814	I-Task
+using	815	820	O
+a	821	822	O
+surface	823	830	B-Material
+roughness	831	840	I-Material
+tester	841	847	I-Material
+(	848	849	O
+TR200	849	854	O
+,	854	855	O
+Timegroup	856	865	O
+Inc.	866	870	O
+)	870	871	O
+according	872	881	O
+to	882	884	O
+ISO	885	888	O
+standard	889	897	O
+[	898	899	O
+29	899	901	O
+]	901	902	O
+.	902	903	O
+
+Due	904	907	O
+to	908	910	O
+the	911	914	O
+presence	915	923	O
+of	924	926	O
+the	927	930	O
+open	931	935	O
+porosity	936	944	O
+in	945	947	O
+the	948	951	O
+outer	952	957	B-Material
+layer	958	963	I-Material
+of	964	966	O
+the	967	970	O
+coating	971	978	B-Process
+,	978	979	O
+a	980	981	O
+measurement	982	993	O
+length	994	1000	O
+for	1001	1004	O
+determination	1005	1018	O
+of	1019	1021	O
+the	1022	1025	O
+roughness	1026	1035	B-Process
+(	1036	1037	O
+Ra	1037	1039	B-Process
+)	1039	1040	O
+of	1041	1043	O
+0.8	1044	1047	O
+mm	1047	1049	O
+was	1050	1053	O
+used	1054	1058	O
+.	1058	1059	O
+
+In	1060	1062	O
+total	1063	1068	O
+,	1068	1069	O
+eight	1070	1075	B-Material
+measurements	1076	1088	I-Material
+were	1089	1093	O
+carried	1094	1101	O
+out	1102	1105	O
+in	1106	1108	O
+different	1109	1118	O
+directions	1119	1129	O
+.	1129	1130	O
 
 
 -DOCSTART- (S0010938X14000420)
 
-One	NN	O	O
-surface	NN	O	O
-was	NN	O	O
-then	NN	O	O
-polished	NN	O	O
-and	NN	O	O
-cleaned	NN	O	O
-using	NN	O	O
-a	NN	O	O
-protocol	NN	O	O
-designed	NN	O	O
-to	NN	O	O
-eliminate	NN	O	O
-as	NN	O	O
-much	NN	O	O
-preparation	NN	O	O
--	NN	O	O
-related	NN	O	O
-contamination	NN	O	O
-as	NN	O	O
-possible	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-as	NN	O	O
-follows	NN	O	O
-:	NN	O	O
-
-The	NN	O	O
-lead	NN	O	O
-surface	NN	O	O
-was	NN	O	O
-polished	NN	O	O
-by	NN	O	O
-hand	NN	O	O
-using	NN	O	O
-a	NN	O	O
-damp	NN	O	B-Material
-abrasive	NN	O	I-Material
-disc	NN	O	I-Material
-(	NN	O	O
-BuehlerMet	NN	O	O
-II	NN	O	O
-®	NN	O	O
-)	NN	O	O
-to	NN	O	O
-remove	NN	O	O
-visible	NN	O	O
-surface	NN	O	B-Material
-defects	NN	O	O
-and	NN	O	O
-to	NN	O	O
-expose	NN	O	O
-a	NN	O	O
-fresh	NN	O	O
-metal	NN	O	B-Material
-surface	NN	O	I-Material
-.	NN	O	O
-
-Coupons	NN	O	O
-were	NN	O	O
-then	NN	O	O
-polished	NN	O	O
-using	NN	O	O
-a	NN	O	O
-sequence	NN	O	O
-of	NN	O	O
-diamond	NN	O	B-Material
-polishes	NN	O	I-Material
-with	NN	O	O
-decreasing	NN	O	O
-particle	NN	O	O
-sizes	NN	O	O
-(	NN	O	O
-6μm	NN	O	O
-,	NN	O	O
-3μm	NN	O	O
-,	NN	O	O
-1μm	NN	O	O
-Buehler	NN	O	O
-MetaDi	NN	O	O
-®	NN	O	O
-polycrystalline	NN	O	B-Material
-diamond	NN	O	I-Material
-suspension	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-polishing	NN	O	B-Material
-cloth	NN	O	I-Material
-(	NN	O	O
-Buehler	NN	O	O
-MicroCloth	NN	O	O
-®	NN	O	O
-)	NN	O	O
-was	NN	O	O
-saturated	NN	O	O
-with	NN	O	O
-the	NN	O	O
-appropriate	NN	O	O
-diamond	NN	O	B-Material
-suspension	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-custom	NN	O	B-Material
--	NN	O	I-Material
-made	NN	O	I-Material
-jig	NN	O	I-Material
-fitted	NN	O	O
-to	NN	O	O
-an	NN	O	O
-automatic	NN	O	O
-polisher	NN	O	B-Material
-(	NN	O	O
-Buehler	NN	O	O
-Minimet	NN	O	O
-®	NN	O	O
-1000	NN	O	O
-)	NN	O	O
-was	NN	O	O
-used	NN	O	O
-to	NN	O	O
-hold	NN	O	O
-the	NN	O	O
-coupons	NN	O	B-Material
-in	NN	O	O
-place	NN	O	O
-during	NN	O	O
-automated	NN	O	B-Process
-polishing	NN	O	I-Process
-.	NN	O	O
-
-Coupons	NN	O	B-Material
-were	NN	O	O
-polished	NN	O	B-Process
-for	NN	O	O
-15min	NN	O	O
-using	NN	O	O
-each	NN	O	O
-diamond	NN	O	B-Process
-suspension	NN	O	I-Process
-followed	NN	O	O
-by	NN	O	O
-rinsing	NN	O	O
-with	NN	O	O
-2-propanol	NN	O	B-Material
-(	NN	O	O
-99.5	NN	O	O
-%	NN	O	O
-,	NN	O	O
-reagent	NN	O	O
-grade	NN	O	O
-)	NN	O	O
-and	NN	O	O
-cleaning	NN	O	O
-in	NN	O	O
-2-propanol	NN	O	B-Material
-for	NN	O	O
-5min	NN	O	O
-in	NN	O	O
-an	NN	O	O
-ultrasonic	NN	O	B-Material
-bath	NN	O	I-Material
-.	NN	O	O
-
-After	NN	O	O
-polishing	NN	O	B-Process
-with	NN	O	O
-the	NN	O	O
-1μm	NN	O	O
-diamond	NN	O	B-Material
-suspension	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-coupons	NN	O	B-Material
-were	NN	O	O
-ultrasonically	NN	O	O
-cleaned	NN	O	O
-in	NN	O	O
-2-propanol	NN	O	B-Material
-for	NN	O	O
-3×5min	NN	O	O
-,	NN	O	O
-with	NN	O	O
-fresh	NN	O	O
-propanol	NN	O	B-Material
-for	NN	O	O
-each	NN	O	O
-cleaning	NN	O	B-Process
-cycle	NN	O	O
-.	NN	O	O
-
-Polished	NN	O	O
-coupons	NN	O	B-Material
-were	NN	O	O
-stored	NN	O	O
-in	NN	O	O
-2-propanol	NN	O	B-Material
-until	NN	O	O
-required	NN	O	O
-.	NN	O	O
+One	0	3	O
+surface	4	11	O
+was	12	15	O
+then	16	20	O
+polished	21	29	O
+and	30	33	O
+cleaned	34	41	O
+using	42	47	O
+a	48	49	O
+protocol	50	58	O
+designed	59	67	O
+to	68	70	O
+eliminate	71	80	O
+as	81	83	O
+much	84	88	O
+preparation	89	100	O
+-	100	101	O
+related	101	108	O
+contamination	109	122	O
+as	123	125	O
+possible	126	134	O
+.	134	135	O
+
+This	136	140	O
+is	141	143	O
+as	144	146	O
+follows	147	154	O
+:	154	155	O
+
+The	156	159	O
+lead	160	164	O
+surface	165	172	O
+was	173	176	O
+polished	177	185	O
+by	186	188	O
+hand	189	193	O
+using	194	199	O
+a	200	201	O
+damp	202	206	B-Material
+abrasive	207	215	I-Material
+disc	216	220	I-Material
+(	221	222	O
+BuehlerMet	222	232	O
+II	233	235	O
+®	236	237	O
+)	237	238	O
+to	239	241	O
+remove	242	248	O
+visible	249	256	O
+surface	257	264	B-Material
+defects	265	272	O
+and	273	276	O
+to	277	279	O
+expose	280	286	O
+a	287	288	O
+fresh	289	294	O
+metal	295	300	B-Material
+surface	301	308	I-Material
+.	308	309	O
+
+Coupons	310	317	O
+were	318	322	O
+then	323	327	O
+polished	328	336	O
+using	337	342	O
+a	343	344	O
+sequence	345	353	O
+of	354	356	O
+diamond	357	364	B-Material
+polishes	365	373	I-Material
+with	374	378	O
+decreasing	379	389	O
+particle	390	398	O
+sizes	399	404	O
+(	405	406	O
+6μm	406	409	O
+,	409	410	O
+3μm	411	414	O
+,	414	415	O
+1μm	416	419	O
+Buehler	420	427	O
+MetaDi	428	434	O
+®	435	436	O
+polycrystalline	437	452	B-Material
+diamond	453	460	I-Material
+suspension	461	471	O
+)	471	472	O
+.	472	473	O
+
+A	474	475	O
+polishing	476	485	B-Material
+cloth	486	491	I-Material
+(	492	493	O
+Buehler	493	500	O
+MicroCloth	501	511	O
+®	512	513	O
+)	513	514	O
+was	515	518	O
+saturated	519	528	O
+with	529	533	O
+the	534	537	O
+appropriate	538	549	O
+diamond	550	557	B-Material
+suspension	558	568	O
+.	568	569	O
+
+A	570	571	O
+custom	572	578	B-Material
+-	578	579	I-Material
+made	579	583	I-Material
+jig	584	587	I-Material
+fitted	588	594	O
+to	595	597	O
+an	598	600	O
+automatic	601	610	O
+polisher	611	619	B-Material
+(	620	621	O
+Buehler	621	628	O
+Minimet	629	636	O
+®	637	638	O
+1000	639	643	O
+)	643	644	O
+was	645	648	O
+used	649	653	O
+to	654	656	O
+hold	657	661	O
+the	662	665	O
+coupons	666	673	B-Material
+in	674	676	O
+place	677	682	O
+during	683	689	O
+automated	690	699	B-Process
+polishing	700	709	I-Process
+.	709	710	O
+
+Coupons	711	718	B-Material
+were	719	723	O
+polished	724	732	B-Process
+for	733	736	O
+15min	737	742	O
+using	743	748	O
+each	749	753	O
+diamond	754	761	B-Process
+suspension	762	772	I-Process
+followed	773	781	O
+by	782	784	O
+rinsing	785	792	O
+with	793	797	O
+2-propanol	798	808	B-Material
+(	809	810	O
+99.5	810	814	O
+%	814	815	O
+,	815	816	O
+reagent	817	824	O
+grade	825	830	O
+)	830	831	O
+and	832	835	O
+cleaning	836	844	O
+in	845	847	O
+2-propanol	848	858	B-Material
+for	859	862	O
+5min	863	867	O
+in	868	870	O
+an	871	873	O
+ultrasonic	874	884	B-Material
+bath	885	889	I-Material
+.	889	890	O
+
+After	891	896	O
+polishing	897	906	B-Process
+with	907	911	O
+the	912	915	O
+1μm	916	919	O
+diamond	920	927	B-Material
+suspension	928	938	I-Material
+,	938	939	O
+the	940	943	O
+coupons	944	951	B-Material
+were	952	956	O
+ultrasonically	957	971	O
+cleaned	972	979	O
+in	980	982	O
+2-propanol	983	993	B-Material
+for	994	997	O
+3×5min	998	1004	O
+,	1004	1005	O
+with	1006	1010	O
+fresh	1011	1016	O
+propanol	1017	1025	B-Material
+for	1026	1029	O
+each	1030	1034	O
+cleaning	1035	1043	B-Process
+cycle	1044	1049	O
+.	1049	1050	O
+
+Polished	1051	1059	O
+coupons	1060	1067	B-Material
+were	1068	1072	O
+stored	1073	1079	O
+in	1080	1082	O
+2-propanol	1083	1093	B-Material
+until	1094	1099	O
+required	1100	1108	O
+.	1108	1109	O
 
 
 -DOCSTART- (S0010938X1500195X)
 
-Poor	NN	O	O
-oxidation	NN	O	B-Process
-behavior	NN	O	O
-is	NN	O	O
-the	NN	O	O
-major	NN	O	O
-barrier	NN	O	O
-to	NN	O	O
-the	NN	O	O
-increased	NN	O	O
-use	NN	O	O
-of	NN	O	O
-Ti	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-alloys	NN	O	I-Material
-in	NN	O	O
-high	NN	O	O
--	NN	O	O
-temperature	NN	O	O
-structural	NN	O	O
-applications	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-demand	NN	O	O
-to	NN	O	O
-increase	NN	O	O
-the	NN	O	O
-service	NN	O	O
-temperature	NN	O	O
-of	NN	O	O
-these	NN	O	O
-alloys	NN	O	B-Material
-beyond	NN	O	O
-550	NN	O	O
-°	NN	O	O
-C	NN	O	O
-(	NN	O	O
-the	NN	O	O
-typical	NN	O	O
-temperature	NN	O	O
-limit	NN	O	O
-)	NN	O	O
-requires	NN	O	O
-careful	NN	O	O
-study	NN	O	O
-to	NN	O	O
-understand	NN	O	B-Task
-the	NN	O	I-Task
-role	NN	O	I-Task
-that	NN	O	I-Task
-composition	NN	O	I-Task
-has	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-oxidation	NN	O	I-Task
-behavior	NN	O	I-Task
-of	NN	O	I-Task
-Ti	NN	O	I-Task
--	NN	O	I-Task
-based	NN	O	I-Task
-alloys	NN	O	I-Task
-[	NN	O	O
-1–3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-attempt	NN	O	O
-to	NN	O	O
-overcome	NN	O	O
-this	NN	O	O
-limitation	NN	O	O
-in	NN	O	O
-Ti	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-alloys	NN	O	I-Material
-has	NN	O	O
-led	NN	O	O
-to	NN	O	O
-the	NN	O	O
-production	NN	O	O
-of	NN	O	O
-alloys	NN	O	B-Material
-with	NN	O	I-Material
-substantially	NN	O	I-Material
-improved	NN	O	I-Material
-oxidation	NN	O	I-Material
-resistance	NN	O	I-Material
-such	NN	O	O
-as	NN	O	O
-β-21S	NN	O	B-Material
-and	NN	O	O
-also	NN	O	O
-development	NN	O	B-Task
-of	NN	O	I-Task
-coatings	NN	O	I-Task
-and	NN	O	I-Task
-pre	NN	O	I-Task
--	NN	O	I-Task
-oxidation	NN	O	I-Task
-techniques	NN	O	I-Task
-[	NN	O	O
-1,4–6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-While	NN	O	O
-it	NN	O	O
-is	NN	O	O
-tempting	NN	O	O
-to	NN	O	O
-extrapolate	NN	O	O
-the	NN	O	O
-oxidation	NN	O	B-Process
-behavior	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-oxidation	NN	O	O
-rate	NN	O	O
-law	NN	O	O
-,	NN	O	O
-depth	NN	O	O
-of	NN	O	O
-oxygen	NN	O	B-Material
-ingress	NN	O	O
-and	NN	O	O
-scale	NN	O	O
-thickness	NN	O	O
-)	NN	O	O
-observed	NN	O	O
-for	NN	O	O
-a	NN	O	O
-limited	NN	O	O
-number	NN	O	O
-of	NN	O	O
-compositions	NN	O	O
-under	NN	O	O
-a	NN	O	O
-certain	NN	O	O
-oxidation	NN	O	B-Process
-condition	NN	O	O
-to	NN	O	O
-a	NN	O	O
-broader	NN	O	O
-compositional	NN	O	O
-range	NN	O	O
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-numerous	NN	O	O
-examples	NN	O	O
-in	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-where	NN	O	O
-deviations	NN	O	O
-from	NN	O	O
-the	NN	O	O
-expected	NN	O	O
-relations	NN	O	O
-are	NN	O	O
-observed	NN	O	O
-[	NN	O	O
-7,8	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Poor	0	4	O
+oxidation	5	14	B-Process
+behavior	15	23	O
+is	24	26	O
+the	27	30	O
+major	31	36	O
+barrier	37	44	O
+to	45	47	O
+the	48	51	O
+increased	52	61	O
+use	62	65	O
+of	66	68	O
+Ti	69	71	B-Material
+-	71	72	I-Material
+based	72	77	I-Material
+alloys	78	84	I-Material
+in	85	87	O
+high	88	92	O
+-	92	93	O
+temperature	93	104	O
+structural	105	115	O
+applications	116	128	O
+.	128	129	O
+
+The	130	133	O
+demand	134	140	O
+to	141	143	O
+increase	144	152	O
+the	153	156	O
+service	157	164	O
+temperature	165	176	O
+of	177	179	O
+these	180	185	O
+alloys	186	192	B-Material
+beyond	193	199	O
+550	200	203	O
+°	203	204	O
+C	204	205	O
+(	206	207	O
+the	207	210	O
+typical	211	218	O
+temperature	219	230	O
+limit	231	236	O
+)	236	237	O
+requires	238	246	O
+careful	247	254	O
+study	255	260	O
+to	261	263	O
+understand	264	274	B-Task
+the	275	278	I-Task
+role	279	283	I-Task
+that	284	288	I-Task
+composition	289	300	I-Task
+has	301	304	I-Task
+on	305	307	I-Task
+the	308	311	I-Task
+oxidation	312	321	I-Task
+behavior	322	330	I-Task
+of	331	333	I-Task
+Ti	334	336	I-Task
+-	336	337	I-Task
+based	337	342	I-Task
+alloys	343	349	I-Task
+[	350	351	O
+1–3	351	354	O
+]	354	355	O
+.	355	356	O
+
+The	357	360	O
+attempt	361	368	O
+to	369	371	O
+overcome	372	380	O
+this	381	385	O
+limitation	386	396	O
+in	397	399	O
+Ti	400	402	B-Material
+-	402	403	I-Material
+based	403	408	I-Material
+alloys	409	415	I-Material
+has	416	419	O
+led	420	423	O
+to	424	426	O
+the	427	430	O
+production	431	441	O
+of	442	444	O
+alloys	445	451	B-Material
+with	452	456	I-Material
+substantially	457	470	I-Material
+improved	471	479	I-Material
+oxidation	480	489	I-Material
+resistance	490	500	I-Material
+such	501	505	O
+as	506	508	O
+β-21S	509	514	B-Material
+and	515	518	O
+also	519	523	O
+development	524	535	B-Task
+of	536	538	I-Task
+coatings	539	547	I-Task
+and	548	551	I-Task
+pre	552	555	I-Task
+-	555	556	I-Task
+oxidation	556	565	I-Task
+techniques	566	576	I-Task
+[	577	578	O
+1,4–6	578	583	O
+]	583	584	O
+.	584	585	O
+
+While	586	591	O
+it	592	594	O
+is	595	597	O
+tempting	598	606	O
+to	607	609	O
+extrapolate	610	621	O
+the	622	625	O
+oxidation	626	635	B-Process
+behavior	636	644	O
+(	645	646	O
+e.g.	646	650	O
+oxidation	651	660	O
+rate	661	665	O
+law	666	669	O
+,	669	670	O
+depth	671	676	O
+of	677	679	O
+oxygen	680	686	B-Material
+ingress	687	694	O
+and	695	698	O
+scale	699	704	O
+thickness	705	714	O
+)	714	715	O
+observed	716	724	O
+for	725	728	O
+a	729	730	O
+limited	731	738	O
+number	739	745	O
+of	746	748	O
+compositions	749	761	O
+under	762	767	O
+a	768	769	O
+certain	770	777	O
+oxidation	778	787	B-Process
+condition	788	797	O
+to	798	800	O
+a	801	802	O
+broader	803	810	O
+compositional	811	824	O
+range	825	830	O
+,	830	831	O
+there	832	837	O
+are	838	841	O
+numerous	842	850	O
+examples	851	859	O
+in	860	862	O
+the	863	866	O
+literature	867	877	O
+where	878	883	O
+deviations	884	894	O
+from	895	899	O
+the	900	903	O
+expected	904	912	O
+relations	913	922	O
+are	923	926	O
+observed	927	935	O
+[	936	937	O
+7,8	937	940	O
+]	940	941	O
+.	941	942	O
 
 
 -DOCSTART- (S0010938X15002085)
 
-The	NN	O	O
-oxide	NN	O	B-Process
-thickness	NN	O	O
-is	NN	O	O
-calculated	NN	O	O
-using	NN	O	O
-the	NN	O	O
-weight	NN	O	O
-gain	NN	O	O
-and	NN	O	O
-surface	NN	O	O
-area	NN	O	O
-.	NN	O	O
-
-Artificially	NN	O	O
-changing	NN	O	O
-the	NN	O	O
-surface	NN	O	B-Material
-profile	NN	O	O
-will	NN	O	O
-modify	NN	O	O
-the	NN	O	O
-surface	NN	O	B-Material
-area	NN	O	I-Material
-and	NN	O	O
-calculated	NN	O	O
-oxide	NN	O	B-Material
-thickness	NN	O	O
-.	NN	O	O
-
-SEM	NN	O	B-Material
-images	NN	O	I-Material
-of	NN	O	O
-samples	NN	O	O
-removed	NN	O	O
-after	NN	O	O
-111	NN	O	O
-days	NN	O	O
-oxidation	NN	O	B-Process
-were	NN	O	O
-used	NN	O	O
-to	NN	O	O
-define	NN	O	O
-the	NN	O	O
-change	NN	O	O
-in	NN	O	O
-surface	NN	O	B-Material
-profile	NN	O	I-Material
-length	NN	O	O
-with	NN	O	O
-variation	NN	O	O
-in	NN	O	O
-applied	NN	O	O
-roughness	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-profile	NN	O	B-Material
-lengths	NN	O	O
-extracted	NN	O	O
-from	NN	O	O
-the	NN	O	O
-images	NN	O	B-Material
-were	NN	O	O
-then	NN	O	O
-used	NN	O	O
-to	NN	O	O
-modify	NN	O	O
-the	NN	O	O
-length	NN	O	O
-of	NN	O	O
-the	NN	O	O
-sample	NN	O	B-Material
-and	NN	O	O
-therefore	NN	O	O
-the	NN	O	O
-surface	NN	O	B-Material
-area	NN	O	I-Material
-.	NN	O	O
-
-Table	NN	O	O
-1	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-original	NN	O	O
-oxide	NN	O	B-Material
-thicknesses	NN	O	O
-after	NN	O	O
-111	NN	O	O
-days	NN	O	O
-oxidation	NN	O	O
-,	NN	O	O
-the	NN	O	O
-modified	NN	O	O
-oxide	NN	O	B-Material
-thicknesses	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-profile	NN	O	O
-length	NN	O	O
-and	NN	O	O
-the	NN	O	O
-percentage	NN	O	O
-difference	NN	O	O
-.	NN	O	O
-
-Results	NN	O	O
-show	NN	O	O
-a	NN	O	O
-maximum	NN	O	O
-decrease	NN	O	O
-in	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-thickness	NN	O	O
-of	NN	O	O
-4	NN	O	O
-%	NN	O	O
-when	NN	O	O
-using	NN	O	O
-a	NN	O	O
-surface	NN	O	B-Material
-which	NN	O	O
-accounts	NN	O	O
-for	NN	O	O
-roughness	NN	O	O
-.	NN	O	O
-
-Comparing	NN	O	O
-the	NN	O	O
-change	NN	O	O
-in	NN	O	O
-oxide	NN	O	B-Material
-thickness	NN	O	O
-between	NN	O	O
-different	NN	O	O
-surface	NN	O	B-Material
-finishes	NN	O	O
-indicates	NN	O	O
-a	NN	O	O
-variation	NN	O	O
-of	NN	O	O
-less	NN	O	O
-than	NN	O	O
-1	NN	O	O
-%	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-such	NN	O	O
-,	NN	O	O
-the	NN	O	O
-impact	NN	O	O
-of	NN	O	O
-the	NN	O	O
-variation	NN	O	O
-in	NN	O	O
-the	NN	O	O
-profile	NN	O	O
-length	NN	O	O
-on	NN	O	O
-the	NN	O	O
-calculated	NN	O	O
-oxide	NN	O	B-Material
-thickness	NN	O	O
-is	NN	O	O
-considered	NN	O	O
-to	NN	O	O
-be	NN	O	O
-insignificant	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-if	NN	O	O
-the	NN	O	O
-differences	NN	O	O
-in	NN	O	O
-weight	NN	O	O
-gain	NN	O	O
-were	NN	O	O
-only	NN	O	O
-due	NN	O	O
-to	NN	O	O
-differences	NN	O	O
-in	NN	O	O
-surface	NN	O	B-Material
-area	NN	O	I-Material
-,	NN	O	O
-rougher	NN	O	O
-samples	NN	O	B-Material
-would	NN	O	O
-be	NN	O	O
-expected	NN	O	O
-to	NN	O	O
-demonstrate	NN	O	O
-thicker	NN	O	O
-oxides	NN	O	B-Material
-at	NN	O	O
-the	NN	O	O
-earliest	NN	O	O
-stages	NN	O	O
-of	NN	O	O
-oxidation	NN	O	B-Process
-.	NN	O	O
+The	0	3	O
+oxide	4	9	B-Process
+thickness	10	19	O
+is	20	22	O
+calculated	23	33	O
+using	34	39	O
+the	40	43	O
+weight	44	50	O
+gain	51	55	O
+and	56	59	O
+surface	60	67	O
+area	68	72	O
+.	72	73	O
+
+Artificially	74	86	O
+changing	87	95	O
+the	96	99	O
+surface	100	107	B-Material
+profile	108	115	O
+will	116	120	O
+modify	121	127	O
+the	128	131	O
+surface	132	139	B-Material
+area	140	144	I-Material
+and	145	148	O
+calculated	149	159	O
+oxide	160	165	B-Material
+thickness	166	175	O
+.	175	176	O
+
+SEM	177	180	B-Material
+images	181	187	I-Material
+of	188	190	O
+samples	191	198	O
+removed	199	206	O
+after	207	212	O
+111	213	216	O
+days	217	221	O
+oxidation	222	231	B-Process
+were	232	236	O
+used	237	241	O
+to	242	244	O
+define	245	251	O
+the	252	255	O
+change	256	262	O
+in	263	265	O
+surface	266	273	B-Material
+profile	274	281	I-Material
+length	282	288	O
+with	289	293	O
+variation	294	303	O
+in	304	306	O
+applied	307	314	O
+roughness	315	324	O
+.	324	325	O
+
+The	326	329	O
+profile	330	337	B-Material
+lengths	338	345	O
+extracted	346	355	O
+from	356	360	O
+the	361	364	O
+images	365	371	B-Material
+were	372	376	O
+then	377	381	O
+used	382	386	O
+to	387	389	O
+modify	390	396	O
+the	397	400	O
+length	401	407	O
+of	408	410	O
+the	411	414	O
+sample	415	421	B-Material
+and	422	425	O
+therefore	426	435	O
+the	436	439	O
+surface	440	447	B-Material
+area	448	452	I-Material
+.	452	453	O
+
+Table	454	459	O
+1	460	461	O
+shows	462	467	O
+the	468	471	O
+original	472	480	O
+oxide	481	486	B-Material
+thicknesses	487	498	O
+after	499	504	O
+111	505	508	O
+days	509	513	O
+oxidation	514	523	O
+,	523	524	O
+the	525	528	O
+modified	529	537	O
+oxide	538	543	B-Material
+thicknesses	544	555	O
+based	556	561	O
+on	562	564	O
+the	565	568	O
+surface	569	576	O
+profile	577	584	O
+length	585	591	O
+and	592	595	O
+the	596	599	O
+percentage	600	610	O
+difference	611	621	O
+.	621	622	O
+
+Results	623	630	O
+show	631	635	O
+a	636	637	O
+maximum	638	645	O
+decrease	646	654	O
+in	655	657	O
+the	658	661	O
+oxide	662	667	B-Material
+thickness	668	677	O
+of	678	680	O
+4	681	682	O
+%	682	683	O
+when	684	688	O
+using	689	694	O
+a	695	696	O
+surface	697	704	B-Material
+which	705	710	O
+accounts	711	719	O
+for	720	723	O
+roughness	724	733	O
+.	733	734	O
+
+Comparing	735	744	O
+the	745	748	O
+change	749	755	O
+in	756	758	O
+oxide	759	764	B-Material
+thickness	765	774	O
+between	775	782	O
+different	783	792	O
+surface	793	800	B-Material
+finishes	801	809	O
+indicates	810	819	O
+a	820	821	O
+variation	822	831	O
+of	832	834	O
+less	835	839	O
+than	840	844	O
+1	845	846	O
+%	846	847	O
+.	847	848	O
+
+As	849	851	O
+such	852	856	O
+,	856	857	O
+the	858	861	O
+impact	862	868	O
+of	869	871	O
+the	872	875	O
+variation	876	885	O
+in	886	888	O
+the	889	892	O
+profile	893	900	O
+length	901	907	O
+on	908	910	O
+the	911	914	O
+calculated	915	925	O
+oxide	926	931	B-Material
+thickness	932	941	O
+is	942	944	O
+considered	945	955	O
+to	956	958	O
+be	959	961	O
+insignificant	962	975	O
+.	975	976	O
+
+In	977	979	O
+addition	980	988	O
+,	988	989	O
+if	990	992	O
+the	993	996	O
+differences	997	1008	O
+in	1009	1011	O
+weight	1012	1018	O
+gain	1019	1023	O
+were	1024	1028	O
+only	1029	1033	O
+due	1034	1037	O
+to	1038	1040	O
+differences	1041	1052	O
+in	1053	1055	O
+surface	1056	1063	B-Material
+area	1064	1068	I-Material
+,	1068	1069	O
+rougher	1070	1077	O
+samples	1078	1085	B-Material
+would	1086	1091	O
+be	1092	1094	O
+expected	1095	1103	O
+to	1104	1106	O
+demonstrate	1107	1118	O
+thicker	1119	1126	O
+oxides	1127	1133	B-Material
+at	1134	1136	O
+the	1137	1140	O
+earliest	1141	1149	O
+stages	1150	1156	O
+of	1157	1159	O
+oxidation	1160	1169	B-Process
+.	1169	1170	O
 
 
 -DOCSTART- (S0010938X15002954)
 
-There	NN	O	O
-have	NN	O	O
-been	NN	O	O
-relatively	NN	O	O
-few	NN	O	O
-attempts	NN	O	O
-to	NN	O	O
-observe	NN	O	O
-and	NN	O	O
-in	NN	O	O
-some	NN	O	O
-cases	NN	O	O
-extract	NN	O	O
-the	NN	O	O
-average	NN	O	O
-current	NN	O	O
-density	NN	O	O
-from	NN	O	O
-video	NN	O	B-Material
-images	NN	O	I-Material
-taken	NN	O	O
-of	NN	O	O
-growing	NN	O	O
-2D	NN	O	B-Material
-pits	NN	O	I-Material
-.	NN	O	O
-
-Frankel	NN	O	O
-presented	NN	O	O
-a	NN	O	O
-method	NN	O	O
-to	NN	O	O
-directly	NN	O	O
-measure	NN	O	O
-the	NN	O	O
-average	NN	O	O
-anodic	NN	O	B-Material
-current	NN	O	I-Material
-density	NN	O	O
-from	NN	O	O
-the	NN	O	O
-growing	NN	O	O
-pit	NN	O	B-Material
-boundary	NN	O	O
-velocity	NN	O	O
-in	NN	O	O
-Al	NN	O	B-Material
-[	NN	O	O
-33	NN	O	O
-]	NN	O	O
-,	NN	O	O
-an	NN	O	O
-Al	NN	O	B-Material
-alloy	NN	O	I-Material
-[	NN	O	O
-34	NN	O	O
-]	NN	O	O
-and	NN	O	O
-
-Ni	NN	O	B-Material
-–	NN	O	I-Material
-Fe	NN	O	I-Material
-[	NN	O	I-Material
-35	NN	O	I-Material
-]	NN	O	I-Material
-thin	NN	O	I-Material
-films	NN	O	I-Material
-.	NN	O	O
-
-Subsequently	NN	O	O
-,	NN	O	O
-Ryan	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-27,36	NN	O	O
-]	NN	O	O
-determined	NN	O	O
-the	NN	O	O
-anodic	NN	O	O
-current	NN	O	O
-density	NN	O	O
-in	NN	O	O
-pits	NN	O	B-Material
-propagating	NN	O	O
-as	NN	O	O
-2D	NN	O	B-Material
-disks	NN	O	I-Material
-in	NN	O	O
-stainless	NN	O	B-Material
-steel	NN	O	I-Material
-thin	NN	O	I-Material
-films	NN	O	I-Material
-by	NN	O	O
-measuring	NN	O	O
-the	NN	O	O
-pit	NN	O	B-Material
-edge	NN	O	I-Material
-movement	NN	O	O
-velocity	NN	O	O
-.	NN	O	O
-
-Ernst	NN	O	O
-and	NN	O	O
-Newman	NN	O	O
-[	NN	O	O
-11,12,37	NN	O	O
-]	NN	O	O
-studied	NN	O	O
-stability	NN	O	O
-of	NN	O	O
-pit	NN	O	B-Process
-growth	NN	O	I-Process
-in	NN	O	O
-detail	NN	O	O
-and	NN	O	O
-measured	NN	O	B-Process
-the	NN	O	I-Process
-kinetics	NN	O	I-Process
-of	NN	O	I-Process
-2D	NN	O	I-Process
-pit	NN	O	I-Process
-propagation	NN	O	I-Process
-in	NN	O	O
-depth	NN	O	O
-and	NN	O	O
-width	NN	O	O
-and	NN	O	O
-compared	NN	O	O
-the	NN	O	O
-results	NN	O	O
-with	NN	O	O
-kinetics	NN	O	O
-in	NN	O	O
-1D	NN	O	B-Material
-pencil	NN	O	I-Material
-electrodes	NN	O	I-Material
-.	NN	O	O
-
-They	NN	O	O
-developed	NN	O	O
-a	NN	O	O
-semi	NN	O	B-Process
--	NN	O	I-Process
-quantitative	NN	O	I-Process
-model	NN	O	I-Process
-for	NN	O	O
-pit	NN	O	B-Task
-propagation	NN	O	I-Task
-which	NN	O	O
-explained	NN	O	O
-the	NN	O	O
-lacy	NN	O	B-Process
-pit	NN	O	I-Process
-cover	NN	O	I-Process
-formation	NN	O	I-Process
-during	NN	O	O
-the	NN	O	O
-pit	NN	O	B-Process
-growth	NN	O	I-Process
-,	NN	O	O
-although	NN	O	O
-they	NN	O	O
-did	NN	O	O
-not	NN	O	O
-measure	NN	O	O
-current	NN	O	O
-density	NN	O	O
-within	NN	O	O
-the	NN	O	O
-pit	NN	O	B-Material
-.	NN	O	O
-
-More	NN	O	O
-recently	NN	O	O
-,	NN	O	O
-Tang	NN	O	O
-and	NN	O	O
-Davenport	NN	O	O
-[	NN	O	O
-38	NN	O	O
-]	NN	O	O
-tracked	NN	O	O
-the	NN	O	O
-pit	NN	O	B-Material
-boundary	NN	O	O
-movement	NN	O	O
-and	NN	O	O
-computed	NN	O	O
-the	NN	O	O
-instantaneous	NN	O	O
-but	NN	O	O
-average	NN	O	O
-current	NN	O	O
-density	NN	O	O
-in	NN	O	O
-Fe	NN	O	B-Material
--	NN	O	I-Material
-Co	NN	O	I-Material
-thin	NN	O	I-Material
-films	NN	O	I-Material
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-there	NN	O	O
-have	NN	O	O
-been	NN	O	O
-no	NN	O	O
-previous	NN	O	O
-attempts	NN	O	O
-to	NN	O	O
-quantify	NN	O	O
-the	NN	O	O
-local	NN	O	O
-current	NN	O	O
-density	NN	O	O
-during	NN	O	O
-inhomogeneous	NN	O	O
-growth	NN	O	O
-of	NN	O	O
-pits	NN	O	B-Material
-,	NN	O	O
-although	NN	O	O
-such	NN	O	O
-local	NN	O	O
-variation	NN	O	O
-in	NN	O	O
-current	NN	O	B-Process
-density	NN	O	O
-has	NN	O	O
-long	NN	O	O
-been	NN	O	O
-recognised	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
+There	0	5	O
+have	6	10	O
+been	11	15	O
+relatively	16	26	O
+few	27	30	O
+attempts	31	39	O
+to	40	42	O
+observe	43	50	O
+and	51	54	O
+in	55	57	O
+some	58	62	O
+cases	63	68	O
+extract	69	76	O
+the	77	80	O
+average	81	88	O
+current	89	96	O
+density	97	104	O
+from	105	109	O
+video	110	115	B-Material
+images	116	122	I-Material
+taken	123	128	O
+of	129	131	O
+growing	132	139	O
+2D	140	142	B-Material
+pits	143	147	I-Material
+.	147	148	O
+
+Frankel	149	156	O
+presented	157	166	O
+a	167	168	O
+method	169	175	O
+to	176	178	O
+directly	179	187	O
+measure	188	195	O
+the	196	199	O
+average	200	207	O
+anodic	208	214	B-Material
+current	215	222	I-Material
+density	223	230	O
+from	231	235	O
+the	236	239	O
+growing	240	247	O
+pit	248	251	B-Material
+boundary	252	260	O
+velocity	261	269	O
+in	270	272	O
+Al	273	275	B-Material
+[	276	277	O
+33	277	279	O
+]	279	280	O
+,	280	281	O
+an	282	284	O
+Al	285	287	B-Material
+alloy	288	293	I-Material
+[	294	295	O
+34	295	297	O
+]	297	298	O
+and	299	302	O
+
+Ni	303	305	B-Material
+–	305	306	I-Material
+Fe	306	308	I-Material
+[	309	310	I-Material
+35	310	312	I-Material
+]	312	313	I-Material
+thin	314	318	I-Material
+films	319	324	I-Material
+.	324	325	O
+
+Subsequently	326	338	O
+,	338	339	O
+Ryan	340	344	O
+et	345	347	O
+al	348	350	O
+.	350	351	O
+
+[	352	353	O
+27,36	353	358	O
+]	358	359	O
+determined	360	370	O
+the	371	374	O
+anodic	375	381	O
+current	382	389	O
+density	390	397	O
+in	398	400	O
+pits	401	405	B-Material
+propagating	406	417	O
+as	418	420	O
+2D	421	423	B-Material
+disks	424	429	I-Material
+in	430	432	O
+stainless	433	442	B-Material
+steel	443	448	I-Material
+thin	449	453	I-Material
+films	454	459	I-Material
+by	460	462	O
+measuring	463	472	O
+the	473	476	O
+pit	477	480	B-Material
+edge	481	485	I-Material
+movement	486	494	O
+velocity	495	503	O
+.	503	504	O
+
+Ernst	505	510	O
+and	511	514	O
+Newman	515	521	O
+[	522	523	O
+11,12,37	523	531	O
+]	531	532	O
+studied	533	540	O
+stability	541	550	O
+of	551	553	O
+pit	554	557	B-Process
+growth	558	564	I-Process
+in	565	567	O
+detail	568	574	O
+and	575	578	O
+measured	579	587	B-Process
+the	588	591	I-Process
+kinetics	592	600	I-Process
+of	601	603	I-Process
+2D	604	606	I-Process
+pit	607	610	I-Process
+propagation	611	622	I-Process
+in	623	625	O
+depth	626	631	O
+and	632	635	O
+width	636	641	O
+and	642	645	O
+compared	646	654	O
+the	655	658	O
+results	659	666	O
+with	667	671	O
+kinetics	672	680	O
+in	681	683	O
+1D	684	686	B-Material
+pencil	687	693	I-Material
+electrodes	694	704	I-Material
+.	704	705	O
+
+They	706	710	O
+developed	711	720	O
+a	721	722	O
+semi	723	727	B-Process
+-	727	728	I-Process
+quantitative	728	740	I-Process
+model	741	746	I-Process
+for	747	750	O
+pit	751	754	B-Task
+propagation	755	766	I-Task
+which	767	772	O
+explained	773	782	O
+the	783	786	O
+lacy	787	791	B-Process
+pit	792	795	I-Process
+cover	796	801	I-Process
+formation	802	811	I-Process
+during	812	818	O
+the	819	822	O
+pit	823	826	B-Process
+growth	827	833	I-Process
+,	833	834	O
+although	835	843	O
+they	844	848	O
+did	849	852	O
+not	853	856	O
+measure	857	864	O
+current	865	872	O
+density	873	880	O
+within	881	887	O
+the	888	891	O
+pit	892	895	B-Material
+.	895	896	O
+
+More	897	901	O
+recently	902	910	O
+,	910	911	O
+Tang	912	916	O
+and	917	920	O
+Davenport	921	930	O
+[	931	932	O
+38	932	934	O
+]	934	935	O
+tracked	936	943	O
+the	944	947	O
+pit	948	951	B-Material
+boundary	952	960	O
+movement	961	969	O
+and	970	973	O
+computed	974	982	O
+the	983	986	O
+instantaneous	987	1000	O
+but	1001	1004	O
+average	1005	1012	O
+current	1013	1020	O
+density	1021	1028	O
+in	1029	1031	O
+Fe	1032	1034	B-Material
+-	1034	1035	I-Material
+Co	1035	1037	I-Material
+thin	1038	1042	I-Material
+films	1043	1048	I-Material
+.	1048	1049	O
+
+However	1050	1057	O
+,	1057	1058	O
+there	1059	1064	O
+have	1065	1069	O
+been	1070	1074	O
+no	1075	1077	O
+previous	1078	1086	O
+attempts	1087	1095	O
+to	1096	1098	O
+quantify	1099	1107	O
+the	1108	1111	O
+local	1112	1117	O
+current	1118	1125	O
+density	1126	1133	O
+during	1134	1140	O
+inhomogeneous	1141	1154	O
+growth	1155	1161	O
+of	1162	1164	O
+pits	1165	1169	B-Material
+,	1169	1170	O
+although	1171	1179	O
+such	1180	1184	O
+local	1185	1190	O
+variation	1191	1200	O
+in	1201	1203	O
+current	1204	1211	B-Process
+density	1212	1219	O
+has	1220	1223	O
+long	1224	1228	O
+been	1229	1233	O
+recognised	1234	1244	O
+[	1245	1246	O
+7	1246	1247	O
+]	1247	1248	O
+.	1248	1249	O
 
 
 -DOCSTART- (S0010938X15300512)
 
-Anodizing	NN	O	B-Process
-processes	NN	O	I-Process
-are	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-for	NN	O	O
-protecting	NN	O	B-Task
-aluminium	NN	O	I-Task
-alloys	NN	O	I-Task
-against	NN	O	O
-corrosion	NN	O	B-Process
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resultant	NN	O	B-Material
-films	NN	O	I-Material
-are	NN	O	O
-composed	NN	O	O
-of	NN	O	O
-amorphous	NN	O	B-Material
-alumina	NN	O	I-Material
-and	NN	O	O
-consist	NN	O	O
-of	NN	O	O
-a	NN	O	O
-relatively	NN	O	O
-thick	NN	O	O
-,	NN	O	O
-porous	NN	O	O
-,	NN	O	O
-outer	NN	O	O
-region	NN	O	O
-and	NN	O	O
-a	NN	O	O
-thinner	NN	O	O
-,	NN	O	O
-non	NN	O	O
--	NN	O	O
-porous	NN	O	O
-,	NN	O	O
-inner	NN	O	O
-region	NN	O	O
-[	NN	O	O
-2,3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-porous	NN	O	O
-region	NN	O	O
-contains	NN	O	O
-the	NN	O	O
-major	NN	O	B-Material
-pores	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-,	NN	O	O
-which	NN	O	O
-extend	NN	O	B-Process
-from	NN	O	I-Process
-the	NN	O	I-Process
-film	NN	O	I-Process
-surface	NN	O	I-Process
-to	NN	O	O
-the	NN	O	O
-barrier	NN	O	B-Material
-layer	NN	O	I-Material
-.	NN	O	O
-
-Near	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-surface	NN	O	I-Material
-,	NN	O	O
-shorter	NN	O	O
-,	NN	O	O
-incipient	NN	O	B-Material
-pores	NN	O	I-Material
-are	NN	O	O
-also	NN	O	O
-present	NN	O	O
-,	NN	O	O
-whose	NN	O	O
-growth	NN	O	B-Process
-stopped	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-early	NN	O	I-Process
-stages	NN	O	I-Process
-of	NN	O	I-Process
-anodizing	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-diameter	NN	O	O
-of	NN	O	O
-the	NN	O	O
-major	NN	O	B-Material
-pores	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-thickness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-inner	NN	O	O
-,	NN	O	O
-barrier	NN	O	O
-region	NN	O	O
-are	NN	O	O
-dependent	NN	O	O
-on	NN	O	O
-the	NN	O	O
-potential	NN	O	O
-applied	NN	O	O
-during	NN	O	O
-anodizing	NN	O	B-Process
-,	NN	O	O
-with	NN	O	O
-typical	NN	O	O
-proportionalities	NN	O	O
-of	NN	O	O
-∼1nmV−1	NN	O	O
-[	NN	O	O
-3,4	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Studies	NN	O	O
-of	NN	O	O
-ionic	NN	O	B-Task
-migration	NN	O	I-Task
-in	NN	O	O
-barrier	NN	O	O
--	NN	O	O
-type	NN	O	O
-and	NN	O	O
-porous	NN	O	O
-anodic	NN	O	B-Material
-alumina	NN	O	I-Material
-films	NN	O	I-Material
-have	NN	O	O
-usually	NN	O	O
-found	NN	O	O
-a	NN	O	O
-transport	NN	O	O
-number	NN	O	O
-of	NN	O	O
-O2−	NN	O	B-Material
-ions	NN	O	I-Material
-of	NN	O	O
-∼0.6	NN	O	O
-[	NN	O	O
-5,6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-During	NN	O	O
-the	NN	O	O
-formation	NN	O	O
-of	NN	O	O
-porous	NN	O	B-Material
-films	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-outward	NN	O	B-Material
-migrating	NN	O	I-Material
-Al3	NN	O	I-Material
-+	NN	O	I-Material
-ions	NN	O	I-Material
-,	NN	O	O
-constituting	NN	O	O
-the	NN	O	O
-remainder	NN	O	O
-of	NN	O	O
-the	NN	O	O
-ionic	NN	O	B-Material
-current	NN	O	I-Material
-,	NN	O	O
-are	NN	O	O
-ejected	NN	O	B-Process
-to	NN	O	O
-the	NN	O	O
-electrolyte	NN	O	B-Material
-at	NN	O	O
-the	NN	O	O
-pore	NN	O	B-Material
-bases	NN	O	I-Material
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-electronic	NN	O	O
-current	NN	O	O
-in	NN	O	O
-the	NN	O	O
-barrier	NN	O	O
-region	NN	O	O
-is	NN	O	O
-generally	NN	O	O
-considered	NN	O	O
-to	NN	O	O
-be	NN	O	O
-negligible	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-thickness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-barrier	NN	O	B-Material
-region	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-relatively	NN	O	O
-constant	NN	O	O
-during	NN	O	O
-the	NN	O	O
-growth	NN	O	O
-of	NN	O	O
-a	NN	O	O
-film	NN	O	B-Material
-under	NN	O	O
-either	NN	O	O
-a	NN	O	O
-constant	NN	O	O
-potential	NN	O	O
-or	NN	O	O
-constant	NN	O	O
-current	NN	O	O
-density	NN	O	O
-,	NN	O	O
-is	NN	O	O
-maintained	NN	O	O
-by	NN	O	O
-a	NN	O	O
-balance	NN	O	O
-between	NN	O	O
-growth	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-barrier	NN	O	I-Process
-layer	NN	O	I-Process
-by	NN	O	I-Process
-continued	NN	O	I-Process
-oxidation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-aluminium	NN	O	B-Material
-substrate	NN	O	I-Material
-and	NN	O	O
-thinning	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-barrier	NN	O	I-Process
-layer	NN	O	I-Process
-by	NN	O	I-Process
-either	NN	O	I-Process
-field	NN	O	I-Process
--	NN	O	I-Process
-assisted	NN	O	I-Process
-dissolution	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-alumina	NN	O	B-Material
-at	NN	O	O
-the	NN	O	O
-pore	NN	O	B-Material
-bases	NN	O	I-Material
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-or	NN	O	O
-field	NN	O	B-Process
--	NN	O	I-Process
-assisted	NN	O	I-Process
-flow	NN	O	I-Process
-of	NN	O	I-Process
-alumina	NN	O	I-Process
-from	NN	O	O
-the	NN	O	O
-barrier	NN	O	B-Material
-layer	NN	O	I-Material
-to	NN	O	O
-the	NN	O	O
-pore	NN	O	B-Material
-walls	NN	O	I-Material
-[	NN	O	O
-9–13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-pores	NN	O	B-Material
-may	NN	O	O
-be	NN	O	O
-widened	NN	O	O
-toward	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-surface	NN	O	I-Material
-by	NN	O	O
-chemical	NN	O	B-Process
-dissolution	NN	O	I-Process
-to	NN	O	O
-an	NN	O	O
-extent	NN	O	O
-dependent	NN	O	O
-on	NN	O	O
-the	NN	O	O
-anodizing	NN	O	O
-conditions	NN	O	O
-.	NN	O	O
+Anodizing	0	9	B-Process
+processes	10	19	I-Process
+are	20	23	O
+widely	24	30	O
+used	31	35	O
+for	36	39	O
+protecting	40	50	B-Task
+aluminium	51	60	I-Task
+alloys	61	67	I-Task
+against	68	75	O
+corrosion	76	85	B-Process
+[	86	87	O
+1	87	88	O
+]	88	89	O
+.	89	90	O
+
+The	91	94	O
+resultant	95	104	B-Material
+films	105	110	I-Material
+are	111	114	O
+composed	115	123	O
+of	124	126	O
+amorphous	127	136	B-Material
+alumina	137	144	I-Material
+and	145	148	O
+consist	149	156	O
+of	157	159	O
+a	160	161	O
+relatively	162	172	O
+thick	173	178	O
+,	178	179	O
+porous	180	186	O
+,	186	187	O
+outer	188	193	O
+region	194	200	O
+and	201	204	O
+a	205	206	O
+thinner	207	214	O
+,	214	215	O
+non	216	219	O
+-	219	220	O
+porous	220	226	O
+,	226	227	O
+inner	228	233	O
+region	234	240	O
+[	241	242	O
+2,3	242	245	O
+]	245	246	O
+.	246	247	O
+
+The	248	251	O
+porous	252	258	O
+region	259	265	O
+contains	266	274	O
+the	275	278	O
+major	279	284	B-Material
+pores	285	290	I-Material
+of	291	293	O
+the	294	297	O
+film	298	302	B-Material
+,	302	303	O
+which	304	309	O
+extend	310	316	B-Process
+from	317	321	I-Process
+the	322	325	I-Process
+film	326	330	I-Process
+surface	331	338	I-Process
+to	339	341	O
+the	342	345	O
+barrier	346	353	B-Material
+layer	354	359	I-Material
+.	359	360	O
+
+Near	361	365	O
+the	366	369	O
+film	370	374	B-Material
+surface	375	382	I-Material
+,	382	383	O
+shorter	384	391	O
+,	391	392	O
+incipient	393	402	B-Material
+pores	403	408	I-Material
+are	409	412	O
+also	413	417	O
+present	418	425	O
+,	425	426	O
+whose	427	432	O
+growth	433	439	B-Process
+stopped	440	447	I-Process
+in	448	450	I-Process
+the	451	454	I-Process
+early	455	460	I-Process
+stages	461	467	I-Process
+of	468	470	I-Process
+anodizing	471	480	I-Process
+.	480	481	O
+
+The	482	485	O
+diameter	486	494	O
+of	495	497	O
+the	498	501	O
+major	502	507	B-Material
+pores	508	513	I-Material
+and	514	517	O
+the	518	521	O
+thickness	522	531	O
+of	532	534	O
+the	535	538	O
+inner	539	544	O
+,	544	545	O
+barrier	546	553	O
+region	554	560	O
+are	561	564	O
+dependent	565	574	O
+on	575	577	O
+the	578	581	O
+potential	582	591	O
+applied	592	599	O
+during	600	606	O
+anodizing	607	616	B-Process
+,	616	617	O
+with	618	622	O
+typical	623	630	O
+proportionalities	631	648	O
+of	649	651	O
+∼1nmV−1	652	659	O
+[	660	661	O
+3,4	661	664	O
+]	664	665	O
+.	665	666	O
+
+Studies	667	674	O
+of	675	677	O
+ionic	678	683	B-Task
+migration	684	693	I-Task
+in	694	696	O
+barrier	697	704	O
+-	704	705	O
+type	705	709	O
+and	710	713	O
+porous	714	720	O
+anodic	721	727	B-Material
+alumina	728	735	I-Material
+films	736	741	I-Material
+have	742	746	O
+usually	747	754	O
+found	755	760	O
+a	761	762	O
+transport	763	772	O
+number	773	779	O
+of	780	782	O
+O2−	783	786	B-Material
+ions	787	791	I-Material
+of	792	794	O
+∼0.6	795	799	O
+[	800	801	O
+5,6	801	804	O
+]	804	805	O
+.	805	806	O
+
+During	807	813	O
+the	814	817	O
+formation	818	827	O
+of	828	830	O
+porous	831	837	B-Material
+films	838	843	I-Material
+,	843	844	O
+the	845	848	O
+outward	849	856	B-Material
+migrating	857	866	I-Material
+Al3	867	870	I-Material
++	870	871	I-Material
+ions	872	876	I-Material
+,	876	877	O
+constituting	878	890	O
+the	891	894	O
+remainder	895	904	O
+of	905	907	O
+the	908	911	O
+ionic	912	917	B-Material
+current	918	925	I-Material
+,	925	926	O
+are	927	930	O
+ejected	931	938	B-Process
+to	939	941	O
+the	942	945	O
+electrolyte	946	957	B-Material
+at	958	960	O
+the	961	964	O
+pore	965	969	B-Material
+bases	970	975	I-Material
+[	976	977	O
+7	977	978	O
+]	978	979	O
+.	979	980	O
+
+The	981	984	O
+electronic	985	995	O
+current	996	1003	O
+in	1004	1006	O
+the	1007	1010	O
+barrier	1011	1018	O
+region	1019	1025	O
+is	1026	1028	O
+generally	1029	1038	O
+considered	1039	1049	O
+to	1050	1052	O
+be	1053	1055	O
+negligible	1056	1066	O
+.	1066	1067	O
+
+The	1068	1071	O
+thickness	1072	1081	O
+of	1082	1084	O
+the	1085	1088	O
+barrier	1089	1096	B-Material
+region	1097	1103	I-Material
+,	1103	1104	O
+which	1105	1110	O
+is	1111	1113	O
+relatively	1114	1124	O
+constant	1125	1133	O
+during	1134	1140	O
+the	1141	1144	O
+growth	1145	1151	O
+of	1152	1154	O
+a	1155	1156	O
+film	1157	1161	B-Material
+under	1162	1167	O
+either	1168	1174	O
+a	1175	1176	O
+constant	1177	1185	O
+potential	1186	1195	O
+or	1196	1198	O
+constant	1199	1207	O
+current	1208	1215	O
+density	1216	1223	O
+,	1223	1224	O
+is	1225	1227	O
+maintained	1228	1238	O
+by	1239	1241	O
+a	1242	1243	O
+balance	1244	1251	O
+between	1252	1259	O
+growth	1260	1266	B-Process
+of	1267	1269	I-Process
+the	1270	1273	I-Process
+barrier	1274	1281	I-Process
+layer	1282	1287	I-Process
+by	1288	1290	I-Process
+continued	1291	1300	I-Process
+oxidation	1301	1310	I-Process
+of	1311	1313	O
+the	1314	1317	O
+aluminium	1318	1327	B-Material
+substrate	1328	1337	I-Material
+and	1338	1341	O
+thinning	1342	1350	B-Process
+of	1351	1353	I-Process
+the	1354	1357	I-Process
+barrier	1358	1365	I-Process
+layer	1366	1371	I-Process
+by	1372	1374	I-Process
+either	1375	1381	I-Process
+field	1382	1387	I-Process
+-	1387	1388	I-Process
+assisted	1388	1396	I-Process
+dissolution	1397	1408	I-Process
+of	1409	1411	O
+the	1412	1415	O
+alumina	1416	1423	B-Material
+at	1424	1426	O
+the	1427	1430	O
+pore	1431	1435	B-Material
+bases	1436	1441	I-Material
+[	1442	1443	O
+8	1443	1444	O
+]	1444	1445	O
+or	1446	1448	O
+field	1449	1454	B-Process
+-	1454	1455	I-Process
+assisted	1455	1463	I-Process
+flow	1464	1468	I-Process
+of	1469	1471	I-Process
+alumina	1472	1479	I-Process
+from	1480	1484	O
+the	1485	1488	O
+barrier	1489	1496	B-Material
+layer	1497	1502	I-Material
+to	1503	1505	O
+the	1506	1509	O
+pore	1510	1514	B-Material
+walls	1515	1520	I-Material
+[	1521	1522	O
+9–13	1522	1526	O
+]	1526	1527	O
+.	1527	1528	O
+
+The	1529	1532	O
+pores	1533	1538	B-Material
+may	1539	1542	O
+be	1543	1545	O
+widened	1546	1553	O
+toward	1554	1560	O
+the	1561	1564	O
+film	1565	1569	B-Material
+surface	1570	1577	I-Material
+by	1578	1580	O
+chemical	1581	1589	B-Process
+dissolution	1590	1601	I-Process
+to	1602	1604	O
+an	1605	1607	O
+extent	1608	1614	O
+dependent	1615	1624	O
+on	1625	1627	O
+the	1628	1631	O
+anodizing	1632	1641	O
+conditions	1642	1652	O
+.	1652	1653	O
 
 
 -DOCSTART- (S0010938X15301189)
 
-Failure	NN	O	B-Process
-of	NN	O	I-Process
-structural	NN	O	I-Process
-components	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-major	NN	O	O
-concern	NN	O	O
-in	NN	O	O
-the	NN	O	O
-nuclear	NN	O	O
-power	NN	O	O
-industry	NN	O	O
-and	NN	O	O
-represents	NN	O	O
-not	NN	O	O
-only	NN	O	O
-a	NN	O	O
-safety	NN	O	O
-issue	NN	O	O
-,	NN	O	O
-but	NN	O	O
-also	NN	O	O
-a	NN	O	O
-hazard	NN	O	O
-to	NN	O	O
-economic	NN	O	O
-performance	NN	O	O
-.	NN	O	O
-
-Stress	NN	O	B-Process
-corrosion	NN	O	I-Process
-cracking	NN	O	I-Process
-(	NN	O	O
-SCC	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-especially	NN	O	O
-intergranular	NN	O	B-Process
-stress	NN	O	I-Process
-corrosion	NN	O	I-Process
-cracking	NN	O	I-Process
-(	NN	O	O
-IGSCC	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-have	NN	O	O
-proved	NN	O	O
-to	NN	O	O
-be	NN	O	O
-a	NN	O	O
-significant	NN	O	O
-potential	NN	O	O
-cause	NN	O	O
-of	NN	O	O
-failures	NN	O	O
-in	NN	O	O
-the	NN	O	O
-nuclear	NN	O	O
-industry	NN	O	O
-in	NN	O	O
-materials	NN	O	O
-such	NN	O	O
-as	NN	O	O
-Alloy	NN	O	B-Material
-600	NN	O	I-Material
-(	NN	O	O
-74	NN	O	B-Material
-%	NN	O	I-Material
-Ni	NN	O	I-Material
-,	NN	O	I-Material
-16	NN	O	I-Material
-%	NN	O	I-Material
-Cr	NN	O	I-Material
-and	NN	O	I-Material
-8	NN	O	I-Material
-%	NN	O	I-Material
-Fe	NN	O	I-Material
-)	NN	O	O
-and	NN	O	O
-stainless	NN	O	B-Material
-steels	NN	O	I-Material
-,	NN	O	O
-especially	NN	O	O
-in	NN	O	O
-Pressurised	NN	O	B-Material
-Water	NN	O	I-Material
-Reactors	NN	O	I-Material
-(	NN	O	O
-PWR	NN	O	B-Material
-)	NN	O	O
-[	NN	O	O
-1–5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Stress	NN	O	B-Process
-corrosion	NN	O	I-Process
-cracking	NN	O	I-Process
-in	NN	O	O
-pressurized	NN	O	B-Material
-water	NN	O	I-Material
-reactors	NN	O	I-Material
-(	NN	O	O
-PWSCC	NN	O	B-Material
-)	NN	O	O
-occurs	NN	O	O
-in	NN	O	O
-Alloy	NN	O	B-Material
-600	NN	O	I-Material
-in	NN	O	O
-safety	NN	O	B-Material
-critical	NN	O	I-Material
-components	NN	O	I-Material
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-steam	NN	O	B-Material
-generator	NN	O	I-Material
-tubes	NN	O	I-Material
-,	NN	O	O
-heater	NN	O	B-Material
-sleeves	NN	O	I-Material
-,	NN	O	O
-pressurized	NN	O	B-Material
-instrument	NN	O	I-Material
-penetrations	NN	O	I-Material
-and	NN	O	O
-control	NN	O	B-Material
-rod	NN	O	I-Material
-drive	NN	O	I-Material
-mechanisms	NN	O	I-Material
-[	NN	O	O
-2,6,7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Understanding	NN	O	O
-the	NN	O	O
-mechanisms	NN	O	O
-that	NN	O	O
-control	NN	O	O
-SCC	NN	O	B-Material
-in	NN	O	O
-this	NN	O	O
-alloy	NN	O	B-Material
-will	NN	O	O
-allow	NN	O	O
-for	NN	O	O
-continued	NN	O	O
-extensions	NN	O	O
-of	NN	O	O
-life	NN	O	O
-in	NN	O	O
-current	NN	O	O
-plant	NN	O	B-Material
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-safer	NN	O	B-Task
-designs	NN	O	I-Task
-of	NN	O	I-Task
-future	NN	O	I-Task
-nuclear	NN	O	I-Task
-reactors	NN	O	I-Task
-.	NN	O	O
+Failure	0	7	B-Process
+of	8	10	I-Process
+structural	11	21	I-Process
+components	22	32	I-Process
+is	33	35	O
+a	36	37	O
+major	38	43	O
+concern	44	51	O
+in	52	54	O
+the	55	58	O
+nuclear	59	66	O
+power	67	72	O
+industry	73	81	O
+and	82	85	O
+represents	86	96	O
+not	97	100	O
+only	101	105	O
+a	106	107	O
+safety	108	114	O
+issue	115	120	O
+,	120	121	O
+but	122	125	O
+also	126	130	O
+a	131	132	O
+hazard	133	139	O
+to	140	142	O
+economic	143	151	O
+performance	152	163	O
+.	163	164	O
+
+Stress	165	171	B-Process
+corrosion	172	181	I-Process
+cracking	182	190	I-Process
+(	191	192	O
+SCC	192	195	B-Process
+)	195	196	O
+,	196	197	O
+and	198	201	O
+especially	202	212	O
+intergranular	213	226	B-Process
+stress	227	233	I-Process
+corrosion	234	243	I-Process
+cracking	244	252	I-Process
+(	253	254	O
+IGSCC	254	259	B-Process
+)	259	260	O
+,	260	261	O
+have	262	266	O
+proved	267	273	O
+to	274	276	O
+be	277	279	O
+a	280	281	O
+significant	282	293	O
+potential	294	303	O
+cause	304	309	O
+of	310	312	O
+failures	313	321	O
+in	322	324	O
+the	325	328	O
+nuclear	329	336	O
+industry	337	345	O
+in	346	348	O
+materials	349	358	O
+such	359	363	O
+as	364	366	O
+Alloy	367	372	B-Material
+600	373	376	I-Material
+(	377	378	O
+74	378	380	B-Material
+%	380	381	I-Material
+Ni	382	384	I-Material
+,	384	385	I-Material
+16	386	388	I-Material
+%	388	389	I-Material
+Cr	390	392	I-Material
+and	393	396	I-Material
+8	397	398	I-Material
+%	398	399	I-Material
+Fe	400	402	I-Material
+)	402	403	O
+and	404	407	O
+stainless	408	417	B-Material
+steels	418	424	I-Material
+,	424	425	O
+especially	426	436	O
+in	437	439	O
+Pressurised	440	451	B-Material
+Water	452	457	I-Material
+Reactors	458	466	I-Material
+(	467	468	O
+PWR	468	471	B-Material
+)	471	472	O
+[	473	474	O
+1–5	474	477	O
+]	477	478	O
+.	478	479	O
+
+Stress	480	486	B-Process
+corrosion	487	496	I-Process
+cracking	497	505	I-Process
+in	506	508	O
+pressurized	509	520	B-Material
+water	521	526	I-Material
+reactors	527	535	I-Material
+(	536	537	O
+PWSCC	537	542	B-Material
+)	542	543	O
+occurs	544	550	O
+in	551	553	O
+Alloy	554	559	B-Material
+600	560	563	I-Material
+in	564	566	O
+safety	567	573	B-Material
+critical	574	582	I-Material
+components	583	593	I-Material
+,	593	594	O
+such	595	599	O
+as	600	602	O
+steam	603	608	B-Material
+generator	609	618	I-Material
+tubes	619	624	I-Material
+,	624	625	O
+heater	626	632	B-Material
+sleeves	633	640	I-Material
+,	640	641	O
+pressurized	642	653	B-Material
+instrument	654	664	I-Material
+penetrations	665	677	I-Material
+and	678	681	O
+control	682	689	B-Material
+rod	690	693	I-Material
+drive	694	699	I-Material
+mechanisms	700	710	I-Material
+[	711	712	O
+2,6,7	712	717	O
+]	717	718	O
+.	718	719	O
+
+Understanding	720	733	O
+the	734	737	O
+mechanisms	738	748	O
+that	749	753	O
+control	754	761	O
+SCC	762	765	B-Material
+in	766	768	O
+this	769	773	O
+alloy	774	779	B-Material
+will	780	784	O
+allow	785	790	O
+for	791	794	O
+continued	795	804	O
+extensions	805	815	O
+of	816	818	O
+life	819	823	O
+in	824	826	O
+current	827	834	O
+plant	835	840	B-Material
+as	841	843	O
+well	844	848	O
+as	849	851	O
+safer	852	857	B-Task
+designs	858	865	I-Task
+of	866	868	I-Task
+future	869	875	I-Task
+nuclear	876	883	I-Task
+reactors	884	892	I-Task
+.	892	893	O
 
 
 -DOCSTART- (S0010938X1530161X)
 
-A	NN	O	O
-key	NN	O	O
-part	NN	O	O
-of	NN	O	O
-this	NN	O	O
-problem	NN	O	O
-is	NN	O	O
-that	NN	O	O
-an	NN	O	O
-inspector	NN	O	O
-only	NN	O	O
-has	NN	O	O
-access	NN	O	O
-to	NN	O	O
-data	NN	O	O
-from	NN	O	O
-a	NN	O	O
-small	NN	O	O
-inspected	NN	O	O
-area	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-area	NN	O	O
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-only	NN	O	O
-one	NN	O	O
-minimum	NN	O	O
-thickness	NN	O	O
-,	NN	O	O
-which	NN	O	O
-does	NN	O	O
-not	NN	O	O
-provide	NN	O	O
-enough	NN	O	O
-information	NN	O	O
-to	NN	O	O
-build	NN	O	B-Task
-a	NN	O	I-Task
-model	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-smallest	NN	O	I-Task
-thicknesses	NN	O	I-Task
-.	NN	O	O
-
-An	NN	O	O
-inspector	NN	O	O
-can	NN	O	O
-generate	NN	O	O
-a	NN	O	O
-sample	NN	O	B-Material
-of	NN	O	O
-the	NN	O	O
-smallest	NN	O	O
-thickness	NN	O	O
-measurements	NN	O	O
-by	NN	O	O
-partitioning	NN	O	B-Process
-the	NN	O	I-Process
-inspection	NN	O	I-Process
-data	NN	O	I-Process
-into	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-equally	NN	O	B-Material
-sized	NN	O	I-Material
-blocks	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-each	NN	O	O
-block	NN	O	B-Material
-the	NN	O	O
-minimum	NN	O	O
-thickness	NN	O	O
-is	NN	O	O
-recorded	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-set	NN	O	O
-forms	NN	O	O
-a	NN	O	O
-sample	NN	O	B-Material
-of	NN	O	O
-the	NN	O	O
-smallest	NN	O	O
-thickness	NN	O	O
-measurements	NN	O	O
-.	NN	O	O
-
-From	NN	O	O
-this	NN	O	O
-sample	NN	O	O
-,	NN	O	O
-one	NN	O	O
-can	NN	O	O
-build	NN	O	O
-a	NN	O	O
-model	NN	O	B-Process
-which	NN	O	I-Process
-takes	NN	O	I-Process
-into	NN	O	I-Process
-account	NN	O	I-Process
-the	NN	O	I-Process
-variations	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-smallest	NN	O	I-Process
-thickness	NN	O	I-Process
-measurements	NN	O	I-Process
-.	NN	O	O
-
-Extreme	NN	O	B-Process
-value	NN	O	I-Process
-analysis	NN	O	I-Process
-(	NN	O	O
-EVA	NN	O	B-Process
-)	NN	O	O
-provides	NN	O	O
-a	NN	O	O
-limiting	NN	O	O
-form	NN	O	O
-for	NN	O	O
-this	NN	O	O
-model	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-states	NN	O	O
-that	NN	O	O
-,	NN	O	O
-if	NN	O	O
-the	NN	O	O
-underlying	NN	O	O
-thickness	NN	O	O
-measurements	NN	O	O
-in	NN	O	O
-each	NN	O	O
-block	NN	O	O
-are	NN	O	O
-taken	NN	O	O
-from	NN	O	O
-independent	NN	O	O
-and	NN	O	O
-identical	NN	O	O
-distributions	NN	O	O
-,	NN	O	O
-then	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-of	NN	O	O
-minimum	NN	O	O
-thickness	NN	O	O
-measurements	NN	O	O
-will	NN	O	O
-follow	NN	O	O
-a	NN	O	O
-generalized	NN	O	B-Process
-extreme	NN	O	I-Process
-value	NN	O	I-Process
-distribution	NN	O	I-Process
-(	NN	O	O
-GEVD	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
+A	0	1	O
+key	2	5	O
+part	6	10	O
+of	11	13	O
+this	14	18	O
+problem	19	26	O
+is	27	29	O
+that	30	34	O
+an	35	37	O
+inspector	38	47	O
+only	48	52	O
+has	53	56	O
+access	57	63	O
+to	64	66	O
+data	67	71	O
+from	72	76	O
+a	77	78	O
+small	79	84	O
+inspected	85	94	O
+area	95	99	O
+.	99	100	O
+
+In	101	103	O
+this	104	108	O
+area	109	113	O
+,	113	114	O
+there	115	120	O
+is	121	123	O
+only	124	128	O
+one	129	132	O
+minimum	133	140	O
+thickness	141	150	O
+,	150	151	O
+which	152	157	O
+does	158	162	O
+not	163	166	O
+provide	167	174	O
+enough	175	181	O
+information	182	193	O
+to	194	196	O
+build	197	202	B-Task
+a	203	204	I-Task
+model	205	210	I-Task
+of	211	213	I-Task
+the	214	217	I-Task
+smallest	218	226	I-Task
+thicknesses	227	238	I-Task
+.	238	239	O
+
+An	240	242	O
+inspector	243	252	O
+can	253	256	O
+generate	257	265	O
+a	266	267	O
+sample	268	274	B-Material
+of	275	277	O
+the	278	281	O
+smallest	282	290	O
+thickness	291	300	O
+measurements	301	313	O
+by	314	316	O
+partitioning	317	329	B-Process
+the	330	333	I-Process
+inspection	334	344	I-Process
+data	345	349	I-Process
+into	350	354	O
+a	355	356	O
+number	357	363	O
+of	364	366	O
+equally	367	374	B-Material
+sized	375	380	I-Material
+blocks	381	387	I-Material
+.	387	388	O
+
+In	389	391	O
+each	392	396	O
+block	397	402	B-Material
+the	403	406	O
+minimum	407	414	O
+thickness	415	424	O
+is	425	427	O
+recorded	428	436	O
+.	436	437	O
+
+This	438	442	O
+set	443	446	O
+forms	447	452	O
+a	453	454	O
+sample	455	461	B-Material
+of	462	464	O
+the	465	468	O
+smallest	469	477	O
+thickness	478	487	O
+measurements	488	500	O
+.	500	501	O
+
+From	502	506	O
+this	507	511	O
+sample	512	518	O
+,	518	519	O
+one	520	523	O
+can	524	527	O
+build	528	533	O
+a	534	535	O
+model	536	541	B-Process
+which	542	547	I-Process
+takes	548	553	I-Process
+into	554	558	I-Process
+account	559	566	I-Process
+the	567	570	I-Process
+variations	571	581	I-Process
+of	582	584	I-Process
+the	585	588	I-Process
+smallest	589	597	I-Process
+thickness	598	607	I-Process
+measurements	608	620	I-Process
+.	620	621	O
+
+Extreme	622	629	B-Process
+value	630	635	I-Process
+analysis	636	644	I-Process
+(	645	646	O
+EVA	646	649	B-Process
+)	649	650	O
+provides	651	659	O
+a	660	661	O
+limiting	662	670	O
+form	671	675	O
+for	676	679	O
+this	680	684	O
+model	685	690	O
+.	690	691	O
+
+It	692	694	O
+states	695	701	O
+that	702	706	O
+,	706	707	O
+if	708	710	O
+the	711	714	O
+underlying	715	725	O
+thickness	726	735	O
+measurements	736	748	O
+in	749	751	O
+each	752	756	O
+block	757	762	O
+are	763	766	O
+taken	767	772	O
+from	773	777	O
+independent	778	789	O
+and	790	793	O
+identical	794	803	O
+distributions	804	817	O
+,	817	818	O
+then	819	823	O
+the	824	827	O
+sample	828	834	O
+of	835	837	O
+minimum	838	845	O
+thickness	846	855	O
+measurements	856	868	O
+will	869	873	O
+follow	874	880	O
+a	881	882	O
+generalized	883	894	B-Process
+extreme	895	902	I-Process
+value	903	908	I-Process
+distribution	909	921	I-Process
+(	922	923	O
+GEVD	923	927	B-Process
+)	927	928	O
+.	928	929	O
 
 
 -DOCSTART- (S0021961413004321)
 
-The	NN	O	O
-thermodynamics	NN	O	B-Task
-of	NN	O	I-Task
-copper	NN	O	I-Task
--	NN	O	I-Task
-zinc	NN	O	I-Task
-alloys	NN	O	I-Task
-(	NN	O	I-Task
-brass	NN	O	I-Task
-)	NN	O	I-Task
-was	NN	O	O
-subject	NN	O	O
-of	NN	O	O
-numerous	NN	O	O
-investigations	NN	O	O
-.	NN	O	O
-
-Brass	NN	O	B-Material
-is	NN	O	O
-characterised	NN	O	O
-by	NN	O	O
-an	NN	O	O
-excess	NN	O	B-Process
-enthalpy	NN	O	I-Process
-and	NN	O	I-Process
-excess	NN	O	I-Process
-entropy	NN	O	I-Process
-of	NN	O	I-Process
-mixing	NN	O	I-Process
-,	NN	O	O
-both	NN	O	O
-of	NN	O	O
-which	NN	O	O
-are	NN	O	O
-negative	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-enthalpic	NN	O	B-Material
-data	NN	O	I-Material
-were	NN	O	O
-measured	NN	O	O
-by	NN	O	O
-solution	NN	O	B-Process
-calorimetry	NN	O	I-Process
-e.g.	NN	O	O
-,	NN	O	O
-[	NN	O	O
-1–3	NN	O	O
-]	NN	O	O
-and	NN	O	O
-based	NN	O	O
-on	NN	O	O
-chemical	NN	O	B-Material
-potential	NN	O	I-Material
-data	NN	O	I-Material
-calculated	NN	O	O
-from	NN	O	O
-phase	NN	O	B-Process
-equilibrium	NN	O	I-Process
-experiments	NN	O	I-Process
-e.g.	NN	O	O
-,	NN	O	O
-[	NN	O	O
-4–6	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-excess	NN	O	B-Task
-entropy	NN	O	I-Task
-of	NN	O	I-Task
-mixing	NN	O	I-Task
-could	NN	O	O
-be	NN	O	O
-evaluated	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-[	NN	O	O
-7–9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-excess	NN	O	O
-entropy	NN	O	O
-contains	NN	O	O
-both	NN	O	O
-,	NN	O	O
-the	NN	O	O
-vibrational	NN	O	B-Task
-and	NN	O	I-Task
-the	NN	O	I-Task
-configurational	NN	O	I-Task
-parts	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-excess	NN	O	O
-vibrational	NN	O	O
-entropy	NN	O	O
-,	NN	O	O
-defined	NN	O	O
-as	NN	O	O
-the	NN	O	O
-deviation	NN	O	O
-from	NN	O	O
-the	NN	O	O
-entropy	NN	O	O
-of	NN	O	O
-a	NN	O	O
-mechanical	NN	O	O
-mixture	NN	O	O
-of	NN	O	O
-the	NN	O	O
-end	NN	O	O
-members	NN	O	O
-A	NN	O	O
-and	NN	O	O
-B	NN	O	O
-(	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-Smmechmix	NN	O	O
-=	NN	O	O
-
-XASmA+XBSmB	NN	O	O
-
-)	NN	O	O
-,	NN	O	O
-can	NN	O	O
-be	NN	O	O
-determined	NN	O	O
-by	NN	O	O
-measuring	NN	O	B-Process
-the	NN	O	I-Process
-low	NN	O	I-Process
-temperature	NN	O	I-Process
-heat	NN	O	I-Process
-capacity	NN	O	I-Process
-(	NN	O	I-Process
-5	NN	O	I-Process
-to	NN	O	I-Process
-300	NN	O	I-Process
-K	NN	O	I-Process
-)	NN	O	I-Process
-versus	NN	O	I-Process
-composition	NN	O	I-Process
-behaviour	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-determination	NN	O	O
-of	NN	O	O
-the	NN	O	O
-excess	NN	O	B-Task
-configurational	NN	O	I-Task
-entropy	NN	O	I-Task
-,	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-the	NN	O	O
-excess	NN	O	O
-entropy	NN	O	O
-coming	NN	O	O
-from	NN	O	O
-non	NN	O	O
--	NN	O	O
-random	NN	O	O
-atomic	NN	O	O
-distributions	NN	O	O
-and	NN	O	O
-defects	NN	O	O
-,	NN	O	O
-is	NN	O	O
-much	NN	O	O
-more	NN	O	O
-difficult	NN	O	O
-.	NN	O	O
-
-Here	NN	O	O
-,	NN	O	O
-neutron	NN	O	B-Process
-scattering	NN	O	I-Process
-investigations	NN	O	I-Process
-together	NN	O	O
-with	NN	O	O
-computer	NN	O	B-Process
-simulations	NN	O	I-Process
-are	NN	O	O
-normally	NN	O	O
-used	NN	O	O
-.	NN	O	O
-
-If	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-reliable	NN	O	B-Material
-data	NN	O	I-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-total	NN	O	I-Material
-excess	NN	O	I-Material
-entropy	NN	O	I-Material
-(	NN	O	O
-from	NN	O	O
-enthalpic	NN	O	B-Material
-and	NN	O	I-Material
-chemical	NN	O	I-Material
-potential	NN	O	I-Material
-data	NN	O	I-Material
-)	NN	O	O
-are	NN	O	O
-available	NN	O	O
-,	NN	O	O
-the	NN	O	O
-measurement	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-excess	NN	O	I-Process
-vibrational	NN	O	I-Process
-entropy	NN	O	I-Process
-enables	NN	O	O
-the	NN	O	O
-determination	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-excess	NN	O	I-Process
-configurational	NN	O	I-Process
-entropy	NN	O	I-Process
-simply	NN	O	O
-by	NN	O	O
-subtraction	NN	O	B-Process
-.	NN	O	O
-
-Since	NN	O	O
-configurational	NN	O	O
-and	NN	O	O
-vibrational	NN	O	O
-entropies	NN	O	O
-may	NN	O	O
-have	NN	O	O
-different	NN	O	O
-temperature	NN	O	O
-dependencies	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-worthwhile	NN	O	O
-to	NN	O	O
-separate	NN	O	B-Task
-the	NN	O	I-Task
-entropic	NN	O	I-Task
-effects	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-one	NN	O	O
-aim	NN	O	O
-of	NN	O	O
-this	NN	O	O
-study	NN	O	O
-.	NN	O	O
-
-Another	NN	O	O
-aim	NN	O	O
-is	NN	O	O
-to	NN	O	O
-deliver	NN	O	B-Task
-experimental	NN	O	I-Task
-data	NN	O	I-Task
-so	NN	O	O
-that	NN	O	O
-first	NN	O	O
-principles	NN	O	O
-studies	NN	O	O
-can	NN	O	O
-test	NN	O	O
-their	NN	O	O
-models	NN	O	O
-on	NN	O	O
-a	NN	O	O
-disordered	NN	O	B-Material
-alloy	NN	O	I-Material
-,	NN	O	O
-whose	NN	O	O
-structural	NN	O	O
-details	NN	O	O
-(	NN	O	O
-short	NN	O	O
--	NN	O	O
-range	NN	O	O
-order	NN	O	O
-)	NN	O	O
-depend	NN	O	O
-on	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
+The	0	3	O
+thermodynamics	4	18	B-Task
+of	19	21	I-Task
+copper	22	28	I-Task
+-	28	29	I-Task
+zinc	29	33	I-Task
+alloys	34	40	I-Task
+(	41	42	I-Task
+brass	42	47	I-Task
+)	47	48	I-Task
+was	49	52	O
+subject	53	60	O
+of	61	63	O
+numerous	64	72	O
+investigations	73	87	O
+.	87	88	O
+
+Brass	89	94	B-Material
+is	95	97	O
+characterised	98	111	O
+by	112	114	O
+an	115	117	O
+excess	118	124	B-Process
+enthalpy	125	133	I-Process
+and	134	137	I-Process
+excess	138	144	I-Process
+entropy	145	152	I-Process
+of	153	155	I-Process
+mixing	156	162	I-Process
+,	162	163	O
+both	164	168	O
+of	169	171	O
+which	172	177	O
+are	178	181	O
+negative	182	190	O
+.	190	191	O
+
+The	192	195	O
+enthalpic	196	205	B-Material
+data	206	210	I-Material
+were	211	215	O
+measured	216	224	O
+by	225	227	O
+solution	228	236	B-Process
+calorimetry	237	248	I-Process
+e.g.	249	253	O
+,	253	254	O
+[	255	256	O
+1–3	256	259	O
+]	259	260	O
+and	261	264	O
+based	265	270	O
+on	271	273	O
+chemical	274	282	B-Material
+potential	283	292	I-Material
+data	293	297	I-Material
+calculated	298	308	O
+from	309	313	O
+phase	314	319	B-Process
+equilibrium	320	331	I-Process
+experiments	332	343	I-Process
+e.g.	344	348	O
+,	348	349	O
+[	350	351	O
+4–6	351	354	O
+]	354	355	O
+,	355	356	O
+the	357	360	O
+excess	361	367	B-Task
+entropy	368	375	I-Task
+of	376	378	I-Task
+mixing	379	385	I-Task
+could	386	391	O
+be	392	394	O
+evaluated	395	404	O
+e.g.	405	409	O
+,	409	410	O
+[	411	412	O
+7–9	412	415	O
+]	415	416	O
+.	416	417	O
+
+This	418	422	O
+excess	423	429	O
+entropy	430	437	O
+contains	438	446	O
+both	447	451	O
+,	451	452	O
+the	453	456	O
+vibrational	457	468	B-Task
+and	469	472	I-Task
+the	473	476	I-Task
+configurational	477	492	I-Task
+parts	493	498	I-Task
+.	498	499	O
+
+The	500	503	O
+excess	504	510	O
+vibrational	511	522	O
+entropy	523	530	O
+,	530	531	O
+defined	532	539	O
+as	540	542	O
+the	543	546	O
+deviation	547	556	O
+from	557	561	O
+the	562	565	O
+entropy	566	573	O
+of	574	576	O
+a	577	578	O
+mechanical	579	589	O
+mixture	590	597	O
+of	598	600	O
+the	601	604	O
+end	605	608	O
+members	609	616	O
+A	617	618	O
+and	619	622	O
+B	623	624	O
+(	625	626	O
+i.e.	626	630	O
+,	630	631	O
+Smmechmix	632	641	O
+=	641	642	O
+
+XASmA+XBSmB	642	653	O
+
+)	653	654	O
+,	654	655	O
+can	656	659	O
+be	660	662	O
+determined	663	673	O
+by	674	676	O
+measuring	677	686	B-Process
+the	687	690	I-Process
+low	691	694	I-Process
+temperature	695	706	I-Process
+heat	707	711	I-Process
+capacity	712	720	I-Process
+(	721	722	I-Process
+5	722	723	I-Process
+to	724	726	I-Process
+300	727	730	I-Process
+K	730	731	I-Process
+)	731	732	I-Process
+versus	733	739	I-Process
+composition	740	751	I-Process
+behaviour	752	761	I-Process
+.	761	762	O
+
+The	763	766	O
+determination	767	780	O
+of	781	783	O
+the	784	787	O
+excess	788	794	B-Task
+configurational	795	810	I-Task
+entropy	811	818	I-Task
+,	818	819	O
+i.e.	820	824	O
+,	824	825	O
+the	826	829	O
+excess	830	836	O
+entropy	837	844	O
+coming	845	851	O
+from	852	856	O
+non	857	860	O
+-	860	861	O
+random	861	867	O
+atomic	868	874	O
+distributions	875	888	O
+and	889	892	O
+defects	893	900	O
+,	900	901	O
+is	902	904	O
+much	905	909	O
+more	910	914	O
+difficult	915	924	O
+.	924	925	O
+
+Here	926	930	O
+,	930	931	O
+neutron	932	939	B-Process
+scattering	940	950	I-Process
+investigations	951	965	I-Process
+together	966	974	O
+with	975	979	O
+computer	980	988	B-Process
+simulations	989	1000	I-Process
+are	1001	1004	O
+normally	1005	1013	O
+used	1014	1018	O
+.	1018	1019	O
+
+If	1020	1022	O
+,	1022	1023	O
+however	1024	1031	O
+,	1031	1032	O
+reliable	1033	1041	B-Material
+data	1042	1046	I-Material
+of	1047	1049	I-Material
+the	1050	1053	I-Material
+total	1054	1059	I-Material
+excess	1060	1066	I-Material
+entropy	1067	1074	I-Material
+(	1075	1076	O
+from	1076	1080	O
+enthalpic	1081	1090	B-Material
+and	1091	1094	I-Material
+chemical	1095	1103	I-Material
+potential	1104	1113	I-Material
+data	1114	1118	I-Material
+)	1118	1119	O
+are	1120	1123	O
+available	1124	1133	O
+,	1133	1134	O
+the	1135	1138	O
+measurement	1139	1150	B-Process
+of	1151	1153	I-Process
+the	1154	1157	I-Process
+excess	1158	1164	I-Process
+vibrational	1165	1176	I-Process
+entropy	1177	1184	I-Process
+enables	1185	1192	O
+the	1193	1196	O
+determination	1197	1210	B-Process
+of	1211	1213	I-Process
+the	1214	1217	I-Process
+excess	1218	1224	I-Process
+configurational	1225	1240	I-Process
+entropy	1241	1248	I-Process
+simply	1249	1255	O
+by	1256	1258	O
+subtraction	1259	1270	B-Process
+.	1270	1271	O
+
+Since	1272	1277	O
+configurational	1278	1293	O
+and	1294	1297	O
+vibrational	1298	1309	O
+entropies	1310	1319	O
+may	1320	1323	O
+have	1324	1328	O
+different	1329	1338	O
+temperature	1339	1350	O
+dependencies	1351	1363	O
+,	1363	1364	O
+it	1365	1367	O
+is	1368	1370	O
+worthwhile	1371	1381	O
+to	1382	1384	O
+separate	1385	1393	B-Task
+the	1394	1397	I-Task
+entropic	1398	1406	I-Task
+effects	1407	1414	I-Task
+.	1414	1415	O
+
+This	1416	1420	O
+is	1421	1423	O
+one	1424	1427	O
+aim	1428	1431	O
+of	1432	1434	O
+this	1435	1439	O
+study	1440	1445	O
+.	1445	1446	O
+
+Another	1447	1454	O
+aim	1455	1458	O
+is	1459	1461	O
+to	1462	1464	O
+deliver	1465	1472	B-Task
+experimental	1473	1485	I-Task
+data	1486	1490	I-Task
+so	1491	1493	O
+that	1494	1498	O
+first	1499	1504	O
+principles	1505	1515	O
+studies	1516	1523	O
+can	1524	1527	O
+test	1528	1532	O
+their	1533	1538	O
+models	1539	1545	O
+on	1546	1548	O
+a	1549	1550	O
+disordered	1551	1561	B-Material
+alloy	1562	1567	I-Material
+,	1567	1568	O
+whose	1569	1574	O
+structural	1575	1585	O
+details	1586	1593	O
+(	1594	1595	O
+short	1595	1600	O
+-	1600	1601	O
+range	1601	1606	O
+order	1607	1612	O
+)	1612	1613	O
+depend	1614	1620	O
+on	1621	1623	O
+temperature	1624	1635	O
+.	1635	1636	O
 
 
 -DOCSTART- (S0021999113002362)
 
-The	NN	O	O
-algorithm	NN	O	O
-allows	NN	O	O
-the	NN	O	O
-modelling	NN	O	B-Task
-of	NN	O	I-Task
-plasmas	NN	O	I-Task
-of	NN	O	I-Task
-arbitrary	NN	O	I-Task
-degeneracy	NN	O	I-Task
-under	NN	O	O
-the	NN	O	O
-binary	NN	O	B-Process
-collision	NN	O	I-Process
-approximation	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-uses	NN	O	O
-a	NN	O	O
-numerical	NN	O	B-Process
-interpolation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-inverse	NN	O	O
-cumulative	NN	O	O
-density	NN	O	O
-function	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Fermi	NN	O	B-Process
-–	NN	O	I-Process
-Dirac	NN	O	I-Process
-distribution	NN	O	I-Process
-to	NN	O	O
-initialise	NN	O	O
-simulation	NN	O	B-Material
-particles	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-collisions	NN	O	B-Process
-are	NN	O	O
-subject	NN	O	O
-to	NN	O	O
-Pauli	NN	O	B-Process
-blocking	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-not	NN	O	O
-appropriate	NN	O	O
-in	NN	O	O
-the	NN	O	O
-limit	NN	O	O
-of	NN	O	O
-very	NN	O	O
-strong	NN	O	O
-coupling	NN	O	B-Process
-because	NN	O	O
-the	NN	O	O
-plasma	NN	O	B-Task
-theory	NN	O	I-Task
-which	NN	O	O
-the	NN	O	O
-Monte	NN	O	B-Process
-Carlo	NN	O	I-Process
-code	NN	O	I-Process
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-breaks	NN	O	O
-down	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-strong	NN	O	B-Task
-coupling	NN	O	I-Task
-limit	NN	O	I-Task
-corresponds	NN	O	O
-to	NN	O	O
-lnΛ≲3	NN	O	O
-,	NN	O	O
-with	NN	O	O
-lnΛ	NN	O	O
-the	NN	O	O
-Coulomb	NN	O	B-Process
-logarithm	NN	O	I-Process
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-code	NN	O	O
-is	NN	O	O
-designed	NN	O	O
-for	NN	O	O
-lnΛ>3	NN	O	O
-in	NN	O	O
-collisional	NN	O	B-Material
-plasmas	NN	O	I-Material
-with	NN	O	O
-a	NN	O	O
-non	NN	O	O
--	NN	O	O
-negligible	NN	O	O
-level	NN	O	O
-of	NN	O	O
-degeneracy	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-noted	NN	O	O
-that	NN	O	O
-Monte	NN	O	B-Process
-Carlo	NN	O	I-Process
-techniques	NN	O	I-Process
-with	NN	O	O
-degenerate	NN	O	O
-capabilities	NN	O	O
-have	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-for	NN	O	O
-studying	NN	O	O
-transport	NN	O	B-Task
-in	NN	O	I-Task
-semi	NN	O	I-Task
--	NN	O	I-Task
-conductors	NN	O	I-Task
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-but	NN	O	O
-no	NN	O	O
-such	NN	O	O
-method	NN	O	O
-exists	NN	O	O
-for	NN	O	O
-fully	NN	O	B-Material
--	NN	O	I-Material
-ionised	NN	O	I-Material
-plasmas	NN	O	I-Material
-.	NN	O	O
-
-Some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-techniques	NN	O	O
-described	NN	O	O
-are	NN	O	O
-potentially	NN	O	O
-applicable	NN	O	O
-to	NN	O	O
-other	NN	O	O
-types	NN	O	O
-of	NN	O	O
-codes	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-,	NN	O	O
-Particle	NN	O	O
--	NN	O	O
-In	NN	O	O
--	NN	O	O
-Cell	NN	O	O
-(	NN	O	O
-PIC	NN	O	O
-)	NN	O	O
-codes	NN	O	O
-.	NN	O	O
+The	0	3	O
+algorithm	4	13	O
+allows	14	20	O
+the	21	24	O
+modelling	25	34	B-Task
+of	35	37	I-Task
+plasmas	38	45	I-Task
+of	46	48	I-Task
+arbitrary	49	58	I-Task
+degeneracy	59	69	I-Task
+under	70	75	O
+the	76	79	O
+binary	80	86	B-Process
+collision	87	96	I-Process
+approximation	97	110	I-Process
+.	110	111	O
+
+It	112	114	O
+uses	115	119	O
+a	120	121	O
+numerical	122	131	B-Process
+interpolation	132	145	I-Process
+of	146	148	O
+the	149	152	O
+inverse	153	160	O
+cumulative	161	171	O
+density	172	179	O
+function	180	188	O
+of	189	191	O
+the	192	195	O
+Fermi	196	201	B-Process
+–	201	202	I-Process
+Dirac	202	207	I-Process
+distribution	208	220	I-Process
+to	221	223	O
+initialise	224	234	O
+simulation	235	245	B-Material
+particles	246	255	I-Material
+,	255	256	O
+and	257	260	O
+collisions	261	271	B-Process
+are	272	275	O
+subject	276	283	O
+to	284	286	O
+Pauli	287	292	B-Process
+blocking	293	301	I-Process
+.	301	302	O
+
+It	303	305	O
+is	306	308	O
+not	309	312	O
+appropriate	313	324	O
+in	325	327	O
+the	328	331	O
+limit	332	337	O
+of	338	340	O
+very	341	345	O
+strong	346	352	O
+coupling	353	361	B-Process
+because	362	369	O
+the	370	373	O
+plasma	374	380	B-Task
+theory	381	387	I-Task
+which	388	393	O
+the	394	397	O
+Monte	398	403	B-Process
+Carlo	404	409	I-Process
+code	410	414	I-Process
+is	415	417	O
+based	418	423	O
+on	424	426	O
+breaks	427	433	O
+down	434	438	O
+.	438	439	O
+
+The	440	443	O
+strong	444	450	B-Task
+coupling	451	459	I-Task
+limit	460	465	I-Task
+corresponds	466	477	O
+to	478	480	O
+lnΛ≲3	481	486	O
+,	486	487	O
+with	488	492	O
+lnΛ	493	496	O
+the	497	500	O
+Coulomb	501	508	B-Process
+logarithm	509	518	I-Process
+[	519	520	O
+10	520	522	O
+]	522	523	O
+.	523	524	O
+
+The	525	528	O
+code	529	533	O
+is	534	536	O
+designed	537	545	O
+for	546	549	O
+lnΛ>3	550	555	O
+in	556	558	O
+collisional	559	570	B-Material
+plasmas	571	578	I-Material
+with	579	583	O
+a	584	585	O
+non	586	589	O
+-	589	590	O
+negligible	590	600	O
+level	601	606	O
+of	607	609	O
+degeneracy	610	620	O
+.	620	621	O
+
+It	622	624	O
+is	625	627	O
+noted	628	633	O
+that	634	638	O
+Monte	639	644	B-Process
+Carlo	645	650	I-Process
+techniques	651	661	I-Process
+with	662	666	O
+degenerate	667	677	O
+capabilities	678	690	O
+have	691	695	O
+been	696	700	O
+developed	701	710	O
+for	711	714	O
+studying	715	723	O
+transport	724	733	B-Task
+in	734	736	I-Task
+semi	737	741	I-Task
+-	741	742	I-Task
+conductors	742	752	I-Task
+[	753	754	O
+11	754	756	O
+]	756	757	O
+but	758	761	O
+no	762	764	O
+such	765	769	O
+method	770	776	O
+exists	777	783	O
+for	784	787	O
+fully	788	793	B-Material
+-	793	794	I-Material
+ionised	794	801	I-Material
+plasmas	802	809	I-Material
+.	809	810	O
+
+Some	811	815	O
+of	816	818	O
+the	819	822	O
+techniques	823	833	O
+described	834	843	O
+are	844	847	O
+potentially	848	859	O
+applicable	860	870	O
+to	871	873	O
+other	874	879	O
+types	880	885	O
+of	886	888	O
+codes	889	894	O
+,	894	895	O
+for	896	899	O
+example	900	907	O
+,	907	908	O
+Particle	909	917	O
+-	917	918	O
+In	918	920	O
+-	920	921	O
+Cell	921	925	O
+(	926	927	O
+PIC	927	930	O
+)	930	931	O
+codes	932	937	O
+.	937	938	O
 
 
 -DOCSTART- (S0021999113003422)
 
-Similar	NN	O	O
-numerical	NN	O	B-Process
-oscillations	NN	O	I-Process
-to	NN	O	O
-those	NN	O	O
-described	NN	O	O
-above	NN	O	O
-also	NN	O	O
-emerge	NN	O	O
-in	NN	O	O
-the	NN	O	O
-ISPM	NN	O	B-Process
-when	NN	O	O
-utilising	NN	O	O
-classical	NN	O	B-Process
-IBM	NN	O	I-Process
-kernels	NN	O	I-Process
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-lack	NN	O	O
-of	NN	O	O
-regularity	NN	O	O
-(	NN	O	O
-with	NN	O	O
-discontinuous	NN	O	O
-second	NN	O	O
-derivatives	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-important	NN	O	O
-to	NN	O	O
-remark	NN	O	O
-that	NN	O	O
-the	NN	O	O
-immersed	NN	O	O
-structure	NN	O	O
-stresses	NN	O	O
-are	NN	O	O
-captured	NN	O	O
-in	NN	O	O
-the	NN	O	O
-Lagrangian	NN	O	B-Process
-description	NN	O	I-Process
-and	NN	O	O
-hence	NN	O	O
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-compute	NN	O	O
-them	NN	O	O
-accurately	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-important	NN	O	O
-to	NN	O	O
-ensure	NN	O	O
-that	NN	O	O
-these	NN	O	O
-spurious	NN	O	O
-oscillations	NN	O	B-Material
-are	NN	O	O
-not	NN	O	O
-introduced	NN	O	O
-via	NN	O	O
-the	NN	O	O
-kernel	NN	O	B-Process
-interpolation	NN	O	I-Process
-functions	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-the	NN	O	O
-authors	NN	O	O
-have	NN	O	O
-specifically	NN	O	O
-designed	NN	O	O
-a	NN	O	O
-new	NN	O	B-Task
-family	NN	O	I-Task
-of	NN	O	I-Task
-kernel	NN	O	I-Task
-functions	NN	O	I-Task
-which	NN	O	O
-do	NN	O	B-Task
-not	NN	O	I-Task
-introduce	NN	O	I-Task
-these	NN	O	I-Task
-spurious	NN	O	I-Task
-oscillations	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-kernel	NN	O	B-Process
-functions	NN	O	I-Process
-are	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-taking	NN	O	O
-into	NN	O	O
-account	NN	O	O
-discrete	NN	O	O
-reproducibility	NN	O	O
-conditions	NN	O	O
-as	NN	O	O
-originally	NN	O	O
-introduced	NN	O	O
-by	NN	O	O
-Peskin	NN	O	O
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-(	NN	O	O
-in	NN	O	O
-our	NN	O	O
-case	NN	O	O
-,	NN	O	O
-tailor	NN	O	O
--	NN	O	O
-made	NN	O	O
-for	NN	O	O
-Cartesian	NN	O	B-Process
-staggered	NN	O	I-Process
-grids	NN	O	I-Process
-)	NN	O	O
-and	NN	O	O
-regularity	NN	O	O
-requirements	NN	O	O
-to	NN	O	O
-prevent	NN	O	O
-the	NN	O	O
-appearance	NN	O	O
-of	NN	O	O
-spurious	NN	O	O
-oscillations	NN	O	B-Material
-when	NN	O	O
-computing	NN	O	O
-derivatives	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-Maple	NN	O	B-Material
-computer	NN	O	I-Material
-program	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-to	NN	O	O
-obtain	NN	O	B-Task
-explicit	NN	O	I-Task
-expressions	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-new	NN	O	I-Task
-kernels	NN	O	I-Task
-.	NN	O	O
+Similar	0	7	O
+numerical	8	17	B-Process
+oscillations	18	30	I-Process
+to	31	33	O
+those	34	39	O
+described	40	49	O
+above	50	55	O
+also	56	60	O
+emerge	61	67	O
+in	68	70	O
+the	71	74	O
+ISPM	75	79	B-Process
+when	80	84	O
+utilising	85	94	O
+classical	95	104	B-Process
+IBM	105	108	I-Process
+kernels	109	116	I-Process
+due	117	120	O
+to	121	123	O
+their	124	129	O
+lack	130	134	O
+of	135	137	O
+regularity	138	148	O
+(	149	150	O
+with	150	154	O
+discontinuous	155	168	O
+second	169	175	O
+derivatives	176	187	O
+)	187	188	O
+.	188	189	O
+
+Furthermore	190	201	O
+,	201	202	O
+it	203	205	O
+is	206	208	O
+important	209	218	O
+to	219	221	O
+remark	222	228	O
+that	229	233	O
+the	234	237	O
+immersed	238	246	O
+structure	247	256	O
+stresses	257	265	O
+are	266	269	O
+captured	270	278	O
+in	279	281	O
+the	282	285	O
+Lagrangian	286	296	B-Process
+description	297	308	I-Process
+and	309	312	O
+hence	313	318	O
+,	318	319	O
+in	320	322	O
+order	323	328	O
+to	329	331	O
+compute	332	339	O
+them	340	344	O
+accurately	345	355	O
+,	355	356	O
+it	357	359	O
+is	360	362	O
+important	363	372	O
+to	373	375	O
+ensure	376	382	O
+that	383	387	O
+these	388	393	O
+spurious	394	402	O
+oscillations	403	415	B-Material
+are	416	419	O
+not	420	423	O
+introduced	424	434	O
+via	435	438	O
+the	439	442	O
+kernel	443	449	B-Process
+interpolation	450	463	I-Process
+functions	464	473	I-Process
+.	473	474	O
+
+In	475	477	O
+this	478	482	O
+paper	483	488	O
+,	488	489	O
+the	490	493	O
+authors	494	501	O
+have	502	506	O
+specifically	507	519	O
+designed	520	528	O
+a	529	530	O
+new	531	534	B-Task
+family	535	541	I-Task
+of	542	544	I-Task
+kernel	545	551	I-Task
+functions	552	561	I-Task
+which	562	567	O
+do	568	570	B-Task
+not	571	574	I-Task
+introduce	575	584	I-Task
+these	585	590	I-Task
+spurious	591	599	I-Task
+oscillations	600	612	I-Task
+.	612	613	O
+
+The	614	617	O
+kernel	618	624	B-Process
+functions	625	634	I-Process
+are	635	638	O
+obtained	639	647	O
+by	648	650	O
+taking	651	657	O
+into	658	662	O
+account	663	670	O
+discrete	671	679	O
+reproducibility	680	695	O
+conditions	696	706	O
+as	707	709	O
+originally	710	720	O
+introduced	721	731	O
+by	732	734	O
+Peskin	735	741	O
+[	742	743	O
+14	743	745	O
+]	745	746	O
+(	747	748	O
+in	748	750	O
+our	751	754	O
+case	755	759	O
+,	759	760	O
+tailor	761	767	O
+-	767	768	O
+made	768	772	O
+for	773	776	O
+Cartesian	777	786	B-Process
+staggered	787	796	I-Process
+grids	797	802	I-Process
+)	802	803	O
+and	804	807	O
+regularity	808	818	O
+requirements	819	831	O
+to	832	834	O
+prevent	835	842	O
+the	843	846	O
+appearance	847	857	O
+of	858	860	O
+spurious	861	869	O
+oscillations	870	882	B-Material
+when	883	887	O
+computing	888	897	O
+derivatives	898	909	O
+.	909	910	O
+
+A	911	912	O
+Maple	913	918	B-Material
+computer	919	927	I-Material
+program	928	935	I-Material
+has	936	939	O
+been	940	944	O
+developed	945	954	O
+to	955	957	O
+obtain	958	964	B-Task
+explicit	965	973	I-Task
+expressions	974	985	I-Task
+for	986	989	I-Task
+the	990	993	I-Task
+new	994	997	I-Task
+kernels	998	1005	I-Task
+.	1005	1006	O
 
 
 -DOCSTART- (S0021999113005603)
 
-After	NN	O	O
-all	NN	O	O
-micro	NN	O	O
-elements	NN	O	O
-reach	NN	O	O
-a	NN	O	O
-relaxed	NN	O	O
-steady	NN	O	O
--	NN	O	O
-state	NN	O	O
-,	NN	O	O
-measurements	NN	O	O
-are	NN	O	O
-obtained	NN	O	O
-using	NN	O	O
-a	NN	O	O
-cumulative	NN	O	B-Process
-averaging	NN	O	I-Process
-technique	NN	O	I-Process
-to	NN	O	O
-reduce	NN	O	B-Task
-noise	NN	O	I-Task
-.	NN	O	O
-
-Each	NN	O	O
-micro	NN	O	B-Material
-element	NN	O	I-Material
-is	NN	O	O
-divided	NN	O	O
-into	NN	O	O
-spatially	NN	O	B-Material
--	NN	O	I-Material
-oriented	NN	O	I-Material
-bins	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-y	NN	O	O
--	NN	O	O
-direction	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-resolve	NN	O	B-Task
-the	NN	O	I-Task
-velocity	NN	O	I-Task
-and	NN	O	I-Task
-shear	NN	O	I-Task
--	NN	O	I-Task
-stress	NN	O	I-Task
-profiles	NN	O	I-Task
-.	NN	O	O
-
-Velocity	NN	O	O
-in	NN	O	O
-each	NN	O	O
-bin	NN	O	B-Material
-is	NN	O	O
-measured	NN	O	O
-using	NN	O	O
-the	NN	O	O
-Cumulative	NN	O	B-Process
-Averaging	NN	O	I-Process
-Method	NN	O	I-Process
-(	NN	O	O
-CAM	NN	O	B-Process
-)	NN	O	O
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-,	NN	O	O
-while	NN	O	O
-the	NN	O	O
-stress	NN	O	B-Process
-tensor	NN	O	I-Process
-field	NN	O	I-Process
-is	NN	O	O
-measured	NN	O	O
-using	NN	O	O
-the	NN	O	O
-Irving	NN	O	O
-–	NN	O	O
-
-Kirkwood	NN	O	O
-relationship	NN	O	O
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-least	NN	O	B-Process
--	NN	O	I-Process
-squares	NN	O	I-Process
-polynomial	NN	O	I-Process
-fit	NN	O	I-Process
-to	NN	O	O
-the	NN	O	O
-data	NN	O	O
-is	NN	O	O
-performed	NN	O	O
-,	NN	O	O
-which	NN	O	O
-helps	NN	O	O
-reduce	NN	O	B-Process
-noise	NN	O	I-Process
-further	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-fit	NN	O	O
-produces	NN	O	O
-a	NN	O	O
-continuous	NN	O	B-Process
-function	NN	O	I-Process
-that	NN	O	O
-avoids	NN	O	B-Process
-stability	NN	O	I-Process
-issues	NN	O	I-Process
-arising	NN	O	O
-from	NN	O	O
-supplying	NN	O	O
-highly	NN	O	B-Material
-fluctuating	NN	O	I-Material
-data	NN	O	I-Material
-to	NN	O	O
-the	NN	O	O
-macro	NN	O	B-Material
-solver	NN	O	I-Material
-.	NN	O	O
-
-A	NN	O	O
-least	NN	O	B-Process
--	NN	O	I-Process
-squares	NN	O	I-Process
-fit	NN	O	I-Process
-is	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-an	NN	O	O
-Nth	NN	O	B-Material
-order	NN	O	I-Material
-polynomial	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-velocity	NN	O	O
-profile	NN	O	O
-in	NN	O	O
-the	NN	O	O
-core	NN	O	B-Material
-region	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-an	NN	O	O
-Mth	NN	O	B-Material
-order	NN	O	I-Material
-polynomial	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-velocity	NN	O	O
-profile	NN	O	O
-in	NN	O	O
-the	NN	O	O
-constrained	NN	O	O
-region:(16)〈ui	NN	O	O
-,	NN	O	O
-core〉=∑k=1Nbk	NN	O	O
-,	NN	O	O
-iyi′(N−k),for	NN	O	O
-0⩽yi′⩽hcore	NN	O	O
-,	NN	O	O
-and(17)〈ui	NN	O	O
-,	NN	O	O
-cs〉=∑k=1Mck	NN	O	O
-,	NN	O	O
-
-iyi″(M−k),for	NN	O	O
-
-0⩽yi″⩽hcs	NN	O	O
-,	NN	O	O
-where	NN	O	O
-bk	NN	O	O
-,	NN	O	O
-i	NN	O	O
-and	NN	O	O
-ck	NN	O	O
-,	NN	O	O
-i	NN	O	O
-are	NN	O	O
-the	NN	O	O
-coefficients	NN	O	B-Material
-of	NN	O	O
-the	NN	O	O
-polynomials	NN	O	B-Material
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-core	NN	O	B-Material
-micro	NN	O	I-Material
-region	NN	O	I-Material
-and	NN	O	O
-constrained	NN	O	B-Material
-region	NN	O	I-Material
-respectively	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-estimate	NN	O	O
-of	NN	O	O
-the	NN	O	O
-new	NN	O	O
-slip	NN	O	O
-velocity	NN	O	O
-uB	NN	O	O
-for	NN	O	O
-input	NN	O	O
-to	NN	O	O
-the	NN	O	O
-macro	NN	O	B-Material
-solution	NN	O	I-Material
-(	NN	O	O
-6	NN	O	O
-)	NN	O	O
-is	NN	O	O
-taken	NN	O	O
-directly	NN	O	O
-from	NN	O	O
-the	NN	O	O
-compressed	NN	O	B-Material
-wall	NN	O	I-Material
-micro	NN	O	I-Material
--	NN	O	I-Material
-element	NN	O	I-Material
-solution	NN	O	I-Material
-(	NN	O	O
-16	NN	O	O
-)	NN	O	O
-,	NN	O	O
-at	NN	O	O
-yi′=0	NN	O	O
-.	NN	O	O
+After	0	5	O
+all	6	9	O
+micro	10	15	O
+elements	16	24	O
+reach	25	30	O
+a	31	32	O
+relaxed	33	40	O
+steady	41	47	O
+-	47	48	O
+state	48	53	O
+,	53	54	O
+measurements	55	67	O
+are	68	71	O
+obtained	72	80	O
+using	81	86	O
+a	87	88	O
+cumulative	89	99	B-Process
+averaging	100	109	I-Process
+technique	110	119	I-Process
+to	120	122	O
+reduce	123	129	B-Task
+noise	130	135	I-Task
+.	135	136	O
+
+Each	137	141	O
+micro	142	147	B-Material
+element	148	155	I-Material
+is	156	158	O
+divided	159	166	O
+into	167	171	O
+spatially	172	181	B-Material
+-	181	182	I-Material
+oriented	182	190	I-Material
+bins	191	195	I-Material
+in	196	198	O
+the	199	202	O
+y	203	204	O
+-	204	205	O
+direction	205	214	O
+in	215	217	O
+order	218	223	O
+to	224	226	O
+resolve	227	234	B-Task
+the	235	238	I-Task
+velocity	239	247	I-Task
+and	248	251	I-Task
+shear	252	257	I-Task
+-	257	258	I-Task
+stress	258	264	I-Task
+profiles	265	273	I-Task
+.	273	274	O
+
+Velocity	275	283	O
+in	284	286	O
+each	287	291	O
+bin	292	295	B-Material
+is	296	298	O
+measured	299	307	O
+using	308	313	O
+the	314	317	O
+Cumulative	318	328	B-Process
+Averaging	329	338	I-Process
+Method	339	345	I-Process
+(	346	347	O
+CAM	347	350	B-Process
+)	350	351	O
+[	352	353	O
+24	353	355	O
+]	355	356	O
+,	356	357	O
+while	358	363	O
+the	364	367	O
+stress	368	374	B-Process
+tensor	375	381	I-Process
+field	382	387	I-Process
+is	388	390	O
+measured	391	399	O
+using	400	405	O
+the	406	409	O
+Irving	410	416	O
+–	416	417	O
+
+Kirkwood	417	425	O
+relationship	426	438	O
+[	439	440	O
+25	440	442	O
+]	442	443	O
+.	443	444	O
+
+A	445	446	O
+least	447	452	B-Process
+-	452	453	I-Process
+squares	453	460	I-Process
+polynomial	461	471	I-Process
+fit	472	475	I-Process
+to	476	478	O
+the	479	482	O
+data	483	487	O
+is	488	490	O
+performed	491	500	O
+,	500	501	O
+which	502	507	O
+helps	508	513	O
+reduce	514	520	B-Process
+noise	521	526	I-Process
+further	527	534	O
+.	534	535	O
+
+The	536	539	O
+fit	540	543	O
+produces	544	552	O
+a	553	554	O
+continuous	555	565	B-Process
+function	566	574	I-Process
+that	575	579	O
+avoids	580	586	B-Process
+stability	587	596	I-Process
+issues	597	603	I-Process
+arising	604	611	O
+from	612	616	O
+supplying	617	626	O
+highly	627	633	B-Material
+fluctuating	634	645	I-Material
+data	646	650	I-Material
+to	651	653	O
+the	654	657	O
+macro	658	663	B-Material
+solver	664	670	I-Material
+.	670	671	O
+
+A	672	673	O
+least	674	679	B-Process
+-	679	680	I-Process
+squares	680	687	I-Process
+fit	688	691	I-Process
+is	692	694	O
+applied	695	702	O
+to	703	705	O
+an	706	708	O
+Nth	709	712	B-Material
+order	713	718	I-Material
+polynomial	719	729	I-Material
+for	730	733	O
+the	734	737	O
+velocity	738	746	O
+profile	747	754	O
+in	755	757	O
+the	758	761	O
+core	762	766	B-Material
+region	767	773	I-Material
+,	773	774	O
+and	775	778	O
+an	779	781	O
+Mth	782	785	B-Material
+order	786	791	I-Material
+polynomial	792	802	I-Material
+for	803	806	O
+the	807	810	O
+velocity	811	819	O
+profile	820	827	O
+in	828	830	O
+the	831	834	O
+constrained	835	846	O
+region:(16)〈ui	847	861	O
+,	861	862	O
+core〉=∑k=1Nbk	862	875	O
+,	875	876	O
+iyi′(N−k),for	876	889	O
+0⩽yi′⩽hcore	890	901	O
+,	901	902	O
+and(17)〈ui	903	913	O
+,	913	914	O
+cs〉=∑k=1Mck	914	925	O
+,	925	926	O
+
+iyi″(M−k),for	926	939	O
+
+0⩽yi″⩽hcs	940	949	O
+,	949	950	O
+where	951	956	O
+bk	957	959	O
+,	959	960	O
+i	960	961	O
+and	962	965	O
+ck	966	968	O
+,	968	969	O
+i	969	970	O
+are	971	974	O
+the	975	978	O
+coefficients	979	991	B-Material
+of	992	994	O
+the	995	998	O
+polynomials	999	1010	B-Material
+used	1011	1015	O
+in	1016	1018	O
+the	1019	1022	O
+core	1023	1027	B-Material
+micro	1028	1033	I-Material
+region	1034	1040	I-Material
+and	1041	1044	O
+constrained	1045	1056	B-Material
+region	1057	1063	I-Material
+respectively	1064	1076	O
+.	1076	1077	O
+
+An	1078	1080	O
+estimate	1081	1089	O
+of	1090	1092	O
+the	1093	1096	O
+new	1097	1100	O
+slip	1101	1105	O
+velocity	1106	1114	O
+uB	1115	1117	O
+for	1118	1121	O
+input	1122	1127	O
+to	1128	1130	O
+the	1131	1134	O
+macro	1135	1140	B-Material
+solution	1141	1149	I-Material
+(	1150	1151	O
+6	1151	1152	O
+)	1152	1153	O
+is	1154	1156	O
+taken	1157	1162	O
+directly	1163	1171	O
+from	1172	1176	O
+the	1177	1180	O
+compressed	1181	1191	B-Material
+wall	1192	1196	I-Material
+micro	1197	1202	I-Material
+-	1202	1203	I-Material
+element	1203	1210	I-Material
+solution	1211	1219	I-Material
+(	1220	1221	O
+16	1221	1223	O
+)	1223	1224	O
+,	1224	1225	O
+at	1226	1228	O
+yi′=0	1229	1234	O
+.	1234	1235	O
 
 
 -DOCSTART- (S0021999113005652)
 
-It	NN	O	O
-is	NN	O	O
-interesting	NN	O	O
-to	NN	O	O
-quantify	NN	O	O
-the	NN	O	O
-effects	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Schmidt	NN	O	O
-number	NN	O	O
-and	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-rate	NN	O	O
-on	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Process
--	NN	O	I-Process
-mean	NN	O	I-Process
-concentration	NN	O	I-Process
-of	NN	O	O
-B	NN	O	B-Material
-in	NN	O	O
-water	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-data	NN	O	O
-could	NN	O	O
-present	NN	O	O
-important	NN	O	O
-information	NN	O	O
-on	NN	O	O
-evaluating	NN	O	O
-the	NN	O	O
-environmental	NN	O	O
-impacts	NN	O	O
-of	NN	O	O
-the	NN	O	O
-degradation	NN	O	B-Process
-product	NN	O	O
-of	NN	O	O
-B	NN	O	B-Material
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-acidification	NN	O	B-Process
-of	NN	O	O
-water	NN	O	B-Material
-by	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-.	NN	O	O
-
-Here	NN	O	O
-,	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Material
--	NN	O	I-Material
-mean	NN	O	I-Material
-concentration	NN	O	I-Material
-of	NN	O	O
-B	NN	O	B-Material
-is	NN	O	O
-defined	NN	O	O
-by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-15	NN	O	O
-depicts	NN	O	O
-the	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Schmidt	NN	O	O
-and	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-rate	NN	O	O
-on	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Material
--	NN	O	I-Material
-mean	NN	O	I-Material
-concentration	NN	O	I-Material
-CB⁎¯.	NN	O	B-Material
-
-It	NN	O	O
-is	NN	O	O
-worth	NN	O	O
-to	NN	O	O
-mention	NN	O	O
-here	NN	O	O
-that	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Process
--	NN	O	I-Process
-mean	NN	O	I-Process
-concentration	NN	O	I-Process
-of	NN	O	O
-B	NN	O	B-Material
-reaches	NN	O	O
-approximately	NN	O	O
-0.6	NN	O	O
-as	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-rate	NN	O	O
-and	NN	O	O
-the	NN	O	O
-Schmidt	NN	O	O
-number	NN	O	O
-increase	NN	O	O
-to	NN	O	O
-infinite	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-concentration	NN	O	O
-is	NN	O	O
-smaller	NN	O	O
-than	NN	O	O
-the	NN	O	O
-equilibrium	NN	O	O
-concentration	NN	O	O
-of	NN	O	O
-A	NN	O	B-Material
-at	NN	O	O
-the	NN	O	O
-interface	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-figure	NN	O	O
-indicates	NN	O	O
-that	NN	O	O
-progress	NN	O	O
-of	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-is	NN	O	O
-somewhat	NN	O	O
-interfered	NN	O	O
-by	NN	O	O
-turbulent	NN	O	B-Process
-mixing	NN	O	I-Process
-in	NN	O	O
-water	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-efficiency	NN	O	O
-of	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-is	NN	O	O
-up	NN	O	O
-to	NN	O	O
-approximately	NN	O	O
-60	NN	O	O
-%	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-efficiency	NN	O	O
-of	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-reaction	NN	O	I-Process
-in	NN	O	O
-water	NN	O	B-Material
-will	NN	O	O
-be	NN	O	O
-a	NN	O	O
-function	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Reynolds	NN	O	O
-number	NN	O	O
-of	NN	O	O
-the	NN	O	O
-water	NN	O	B-Process
-flow	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-efficiency	NN	O	O
-could	NN	O	O
-increase	NN	O	O
-as	NN	O	O
-the	NN	O	O
-Reynolds	NN	O	O
-number	NN	O	O
-increases	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-need	NN	O	O
-an	NN	O	O
-extensive	NN	O	B-Task
-investigation	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-efficiency	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-aquarium	NN	O	I-Task
-chemical	NN	O	I-Task
-reaction	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-near	NN	O	O
-future	NN	O	O
-to	NN	O	O
-extend	NN	O	O
-the	NN	O	O
-results	NN	O	O
-of	NN	O	O
-this	NN	O	O
-study	NN	O	O
-further	NN	O	O
-to	NN	O	O
-establish	NN	O	B-Task
-practical	NN	O	I-Task
-modelling	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-gas	NN	O	I-Task
-exchange	NN	O	I-Task
-between	NN	O	I-Task
-air	NN	O	I-Task
-and	NN	O	I-Task
-water	NN	O	I-Task
-.	NN	O	O
+It	0	2	O
+is	3	5	O
+interesting	6	17	O
+to	18	20	O
+quantify	21	29	O
+the	30	33	O
+effects	34	41	O
+of	42	44	O
+the	45	48	O
+Schmidt	49	56	O
+number	57	63	O
+and	64	67	O
+the	68	71	O
+chemical	72	80	B-Process
+reaction	81	89	I-Process
+rate	90	94	O
+on	95	97	O
+the	98	101	O
+bulk	102	106	B-Process
+-	106	107	I-Process
+mean	107	111	I-Process
+concentration	112	125	I-Process
+of	126	128	O
+B	129	130	B-Material
+in	131	133	O
+water	134	139	B-Material
+.	139	140	O
+
+The	141	144	O
+data	145	149	O
+could	150	155	O
+present	156	163	O
+important	164	173	O
+information	174	185	O
+on	186	188	O
+evaluating	189	199	O
+the	200	203	O
+environmental	204	217	O
+impacts	218	225	O
+of	226	228	O
+the	229	232	O
+degradation	233	244	B-Process
+product	245	252	O
+of	253	255	O
+B	256	257	B-Material
+,	257	258	O
+as	259	261	O
+well	262	266	O
+as	267	269	O
+acidification	270	283	B-Process
+of	284	286	O
+water	287	292	B-Material
+by	293	295	O
+the	296	299	O
+chemical	300	308	B-Process
+reaction	309	317	I-Process
+.	317	318	O
+
+Here	319	323	O
+,	323	324	O
+the	325	328	O
+bulk	329	333	B-Material
+-	333	334	I-Material
+mean	334	338	I-Material
+concentration	339	352	I-Material
+of	353	355	O
+B	356	357	B-Material
+is	358	360	O
+defined	361	368	O
+by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	369	395	O
+Fig	396	399	O
+.	399	400	O
+
+15	401	403	O
+depicts	404	411	O
+the	412	415	O
+effect	416	422	O
+of	423	425	O
+the	426	429	O
+Schmidt	430	437	O
+and	438	441	O
+the	442	445	O
+chemical	446	454	B-Process
+reaction	455	463	I-Process
+rate	464	468	O
+on	469	471	O
+the	472	475	O
+bulk	476	480	B-Material
+-	480	481	I-Material
+mean	481	485	I-Material
+concentration	486	499	I-Material
+CB⁎¯.	500	505	B-Material
+
+It	506	508	O
+is	509	511	O
+worth	512	517	O
+to	518	520	O
+mention	521	528	O
+here	529	533	O
+that	534	538	O
+the	539	542	O
+bulk	543	547	B-Process
+-	547	548	I-Process
+mean	548	552	I-Process
+concentration	553	566	I-Process
+of	567	569	O
+B	570	571	B-Material
+reaches	572	579	O
+approximately	580	593	O
+0.6	594	597	O
+as	598	600	O
+the	601	604	O
+chemical	605	613	B-Process
+reaction	614	622	I-Process
+rate	623	627	O
+and	628	631	O
+the	632	635	O
+Schmidt	636	643	O
+number	644	650	O
+increase	651	659	O
+to	660	662	O
+infinite	663	671	O
+,	671	672	O
+and	673	676	O
+the	677	680	O
+concentration	681	694	O
+is	695	697	O
+smaller	698	705	O
+than	706	710	O
+the	711	714	O
+equilibrium	715	726	O
+concentration	727	740	O
+of	741	743	O
+A	744	745	B-Material
+at	746	748	O
+the	749	752	O
+interface	753	762	O
+.	762	763	O
+
+This	764	768	O
+figure	769	775	O
+indicates	776	785	O
+that	786	790	O
+progress	791	799	O
+of	800	802	O
+the	803	806	O
+chemical	807	815	B-Process
+reaction	816	824	I-Process
+is	825	827	O
+somewhat	828	836	O
+interfered	837	847	O
+by	848	850	O
+turbulent	851	860	B-Process
+mixing	861	867	I-Process
+in	868	870	O
+water	871	876	B-Material
+,	876	877	O
+and	878	881	O
+the	882	885	O
+efficiency	886	896	O
+of	897	899	O
+the	900	903	O
+chemical	904	912	B-Process
+reaction	913	921	I-Process
+is	922	924	O
+up	925	927	O
+to	928	930	O
+approximately	931	944	O
+60	945	947	O
+%	947	948	O
+.	948	949	O
+
+The	950	953	O
+efficiency	954	964	O
+of	965	967	O
+the	968	971	O
+chemical	972	980	B-Process
+reaction	981	989	I-Process
+in	990	992	O
+water	993	998	B-Material
+will	999	1003	O
+be	1004	1006	O
+a	1007	1008	O
+function	1009	1017	O
+of	1018	1020	O
+the	1021	1024	O
+Reynolds	1025	1033	O
+number	1034	1040	O
+of	1041	1043	O
+the	1044	1047	O
+water	1048	1053	B-Process
+flow	1054	1058	I-Process
+,	1058	1059	O
+and	1060	1063	O
+the	1064	1067	O
+efficiency	1068	1078	O
+could	1079	1084	O
+increase	1085	1093	O
+as	1094	1096	O
+the	1097	1100	O
+Reynolds	1101	1109	O
+number	1110	1116	O
+increases	1117	1126	O
+.	1126	1127	O
+
+We	1128	1130	O
+need	1131	1135	O
+an	1136	1138	O
+extensive	1139	1148	B-Task
+investigation	1149	1162	I-Task
+on	1163	1165	I-Task
+the	1166	1169	I-Task
+efficiency	1170	1180	I-Task
+of	1181	1183	I-Task
+the	1184	1187	I-Task
+aquarium	1188	1196	I-Task
+chemical	1197	1205	I-Task
+reaction	1206	1214	I-Task
+in	1215	1217	O
+the	1218	1221	O
+near	1222	1226	O
+future	1227	1233	O
+to	1234	1236	O
+extend	1237	1243	O
+the	1244	1247	O
+results	1248	1255	O
+of	1256	1258	O
+this	1259	1263	O
+study	1264	1269	O
+further	1270	1277	O
+to	1278	1280	O
+establish	1281	1290	B-Task
+practical	1291	1300	I-Task
+modelling	1301	1310	I-Task
+for	1311	1314	I-Task
+the	1315	1318	I-Task
+gas	1319	1322	I-Task
+exchange	1323	1331	I-Task
+between	1332	1339	I-Task
+air	1340	1343	I-Task
+and	1344	1347	I-Task
+water	1348	1353	I-Task
+.	1353	1354	O
 
 
 -DOCSTART- (S0021999113005718)
 
-Numerical	NN	O	B-Process
-simulation	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-gas	NN	O	I-Process
-flow	NN	O	I-Process
-through	NN	O	O
-such	NN	O	O
-non	NN	O	O
--	NN	O	O
-trivial	NN	O	O
-internal	NN	O	O
-geometries	NN	O	O
-is	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-extremely	NN	O	O
-challenging	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-because	NN	O	O
-conventional	NN	O	B-Task
-continuum	NN	O	I-Task
-fluid	NN	O	I-Task
-dynamics	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-assumes	NN	O	O
-that	NN	O	O
-locally	NN	O	O
-a	NN	O	O
-gas	NN	O	B-Material
-is	NN	O	O
-close	NN	O	O
-to	NN	O	O
-a	NN	O	O
-state	NN	O	O
-of	NN	O	O
-thermodynamic	NN	O	B-Task
-equilibrium	NN	O	I-Task
-,	NN	O	O
-becomes	NN	O	O
-invalid	NN	O	O
-or	NN	O	O
-inaccurate	NN	O	O
-as	NN	O	O
-the	NN	O	O
-smallest	NN	O	O
-characteristic	NN	O	O
-scale	NN	O	O
-of	NN	O	O
-the	NN	O	O
-geometry	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-the	NN	O	O
-channel	NN	O	B-Material
-height	NN	O	I-Material
-)	NN	O	O
-approaches	NN	O	O
-the	NN	O	O
-mean	NN	O	O
-distance	NN	O	O
-between	NN	O	O
-molecular	NN	O	B-Process
-collisions	NN	O	I-Process
-,	NN	O	O
-λ	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-accurate	NN	O	O
-and	NN	O	O
-flexible	NN	O	O
-modelling	NN	O	O
-alternative	NN	O	O
-for	NN	O	O
-these	NN	O	O
-cases	NN	O	O
-is	NN	O	O
-the	NN	O	O
-direct	NN	O	B-Process
-simulation	NN	O	I-Process
-Monte	NN	O	I-Process
-Carlo	NN	O	I-Process
-method	NN	O	I-Process
-(	NN	O	O
-DSMC	NN	O	B-Process
-)	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-DSMC	NN	O	B-Process
-can	NN	O	O
-be	NN	O	O
-prohibitively	NN	O	O
-expensive	NN	O	O
-for	NN	O	O
-internal	NN	O	B-Task
--	NN	O	I-Task
-flow	NN	O	I-Task
-applications	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-typically	NN	O	O
-have	NN	O	O
-a	NN	O	O
-geometry	NN	O	O
-of	NN	O	O
-high	NN	O	O
--	NN	O	O
-aspect	NN	O	O
-ratio	NN	O	O
-(	NN	O	O
-i.e.	NN	O	O
-are	NN	O	O
-extremely	NN	O	O
-long	NN	O	O
-,	NN	O	O
-relative	NN	O	O
-to	NN	O	O
-their	NN	O	O
-cross	NN	O	O
--	NN	O	O
-section	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-aspect	NN	O	I-Process
-ratio	NN	O	I-Process
-creates	NN	O	O
-a	NN	O	O
-formidable	NN	O	B-Task
-multiscale	NN	O	I-Task
-problem	NN	O	I-Task
-:	NN	O	O
-processes	NN	O	O
-need	NN	O	O
-to	NN	O	O
-be	NN	O	O
-resolved	NN	O	O
-occurring	NN	O	O
-over	NN	O	O
-the	NN	O	O
-smallest	NN	O	O
-characteristic	NN	O	O
-scale	NN	O	O
-of	NN	O	O
-the	NN	O	O
-geometry	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-a	NN	O	O
-channelʼs	NN	O	O
-height	NN	O	O
-)	NN	O	O
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-over	NN	O	O
-the	NN	O	O
-largest	NN	O	O
-characteristic	NN	O	O
-scale	NN	O	O
-of	NN	O	O
-the	NN	O	O
-geometry	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-the	NN	O	O
-length	NN	O	O
-of	NN	O	O
-a	NN	O	O
-long	NN	O	O
-channel	NN	O	O
-network	NN	O	O
-)	NN	O	O
-,	NN	O	O
-simultaneously	NN	O	O
-.	NN	O	O
+Numerical	0	9	B-Process
+simulation	10	20	I-Process
+of	21	23	I-Process
+the	24	27	I-Process
+gas	28	31	I-Process
+flow	32	36	I-Process
+through	37	44	O
+such	45	49	O
+non	50	53	O
+-	53	54	O
+trivial	54	61	O
+internal	62	70	O
+geometries	71	81	O
+is	82	84	O
+,	84	85	O
+however	86	93	O
+,	93	94	O
+extremely	95	104	O
+challenging	105	116	O
+.	116	117	O
+
+This	118	122	O
+is	123	125	O
+because	126	133	O
+conventional	134	146	B-Task
+continuum	147	156	I-Task
+fluid	157	162	I-Task
+dynamics	163	171	I-Task
+,	171	172	O
+which	173	178	O
+assumes	179	186	O
+that	187	191	O
+locally	192	199	O
+a	200	201	O
+gas	202	205	B-Material
+is	206	208	O
+close	209	214	O
+to	215	217	O
+a	218	219	O
+state	220	225	O
+of	226	228	O
+thermodynamic	229	242	B-Task
+equilibrium	243	254	I-Task
+,	254	255	O
+becomes	256	263	O
+invalid	264	271	O
+or	272	274	O
+inaccurate	275	285	O
+as	286	288	O
+the	289	292	O
+smallest	293	301	O
+characteristic	302	316	O
+scale	317	322	O
+of	323	325	O
+the	326	329	O
+geometry	330	338	O
+(	339	340	O
+e.g.	340	344	O
+the	345	348	O
+channel	349	356	B-Material
+height	357	363	I-Material
+)	363	364	O
+approaches	365	375	O
+the	376	379	O
+mean	380	384	O
+distance	385	393	O
+between	394	401	O
+molecular	402	411	B-Process
+collisions	412	422	I-Process
+,	422	423	O
+λ	424	425	O
+[	426	427	O
+1	427	428	O
+]	428	429	O
+.	429	430	O
+
+An	431	433	O
+accurate	434	442	O
+and	443	446	O
+flexible	447	455	O
+modelling	456	465	O
+alternative	466	477	O
+for	478	481	O
+these	482	487	O
+cases	488	493	O
+is	494	496	O
+the	497	500	O
+direct	501	507	B-Process
+simulation	508	518	I-Process
+Monte	519	524	I-Process
+Carlo	525	530	I-Process
+method	531	537	I-Process
+(	538	539	O
+DSMC	539	543	B-Process
+)	543	544	O
+[	545	546	O
+2	546	547	O
+]	547	548	O
+.	548	549	O
+
+However	550	557	O
+,	557	558	O
+DSMC	559	563	B-Process
+can	564	567	O
+be	568	570	O
+prohibitively	571	584	O
+expensive	585	594	O
+for	595	598	O
+internal	599	607	B-Task
+-	607	608	I-Task
+flow	608	612	I-Task
+applications	613	625	I-Task
+,	625	626	O
+which	627	632	O
+typically	633	642	O
+have	643	647	O
+a	648	649	O
+geometry	650	658	O
+of	659	661	O
+high	662	666	O
+-	666	667	O
+aspect	667	673	O
+ratio	674	679	O
+(	680	681	O
+i.e.	681	685	O
+are	686	689	O
+extremely	690	699	O
+long	700	704	O
+,	704	705	O
+relative	706	714	O
+to	715	717	O
+their	718	723	O
+cross	724	729	O
+-	729	730	O
+section	730	737	O
+)	737	738	O
+.	738	739	O
+
+The	740	743	O
+high	744	748	B-Process
+-	748	749	I-Process
+aspect	749	755	I-Process
+ratio	756	761	I-Process
+creates	762	769	O
+a	770	771	O
+formidable	772	782	B-Task
+multiscale	783	793	I-Task
+problem	794	801	I-Task
+:	801	802	O
+processes	803	812	O
+need	813	817	O
+to	818	820	O
+be	821	823	O
+resolved	824	832	O
+occurring	833	842	O
+over	843	847	O
+the	848	851	O
+smallest	852	860	O
+characteristic	861	875	O
+scale	876	881	O
+of	882	884	O
+the	885	888	O
+geometry	889	897	O
+(	898	899	O
+e.g.	899	903	O
+a	904	905	O
+channelʼs	906	915	O
+height	916	922	O
+)	922	923	O
+,	923	924	O
+as	925	927	O
+well	928	932	O
+as	933	935	O
+over	936	940	O
+the	941	944	O
+largest	945	952	O
+characteristic	953	967	O
+scale	968	973	O
+of	974	976	O
+the	977	980	O
+geometry	981	989	O
+(	990	991	O
+e.g.	991	995	O
+the	996	999	O
+length	1000	1006	O
+of	1007	1009	O
+a	1010	1011	O
+long	1012	1016	O
+channel	1017	1024	O
+network	1025	1032	O
+)	1032	1033	O
+,	1033	1034	O
+simultaneously	1035	1049	O
+.	1049	1050	O
 
 
 -DOCSTART- (S0021999113006955)
 
-The	NN	O	O
-test	NN	O	O
-cases	NN	O	O
-confirm	NN	O	O
-that	NN	O	O
-the	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-order	NN	O	I-Process
-discretisation	NN	O	I-Process
-retains	NN	O	O
-exponential	NN	O	O
-convergence	NN	O	O
-properties	NN	O	O
-with	NN	O	O
-increasing	NN	O	O
-geometric	NN	O	O
-and	NN	O	O
-expansion	NN	O	O
-polynomial	NN	O	O
-order	NN	O	O
-if	NN	O	O
-both	NN	O	O
-the	NN	O	O
-solution	NN	O	B-Material
-and	NN	O	O
-true	NN	O	B-Material
-surface	NN	O	I-Material
-are	NN	O	O
-smooth	NN	O	O
-.	NN	O	O
-
-Errors	NN	O	O
-are	NN	O	O
-found	NN	O	O
-to	NN	O	O
-saturate	NN	O	O
-when	NN	O	O
-the	NN	O	O
-geometric	NN	O	O
-errors	NN	O	O
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-parametrisation	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-surface	NN	O	I-Process
-elements	NN	O	I-Process
-,	NN	O	O
-begin	NN	O	O
-to	NN	O	O
-dominate	NN	O	O
-the	NN	O	O
-temporal	NN	O	O
-and	NN	O	O
-spatial	NN	O	O
-discretisation	NN	O	O
-errors	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-smooth	NN	O	O
-solutions	NN	O	O
-considered	NN	O	O
-as	NN	O	O
-test	NN	O	O
-cases	NN	O	O
-,	NN	O	O
-the	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-this	NN	O	O
-dominance	NN	O	O
-of	NN	O	O
-geometric	NN	O	O
-errors	NN	O	O
-quickly	NN	O	O
-limits	NN	O	O
-the	NN	O	O
-effectiveness	NN	O	O
-of	NN	O	O
-further	NN	O	O
-increases	NN	O	O
-in	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-degrees	NN	O	O
-of	NN	O	O
-freedom	NN	O	O
-,	NN	O	O
-either	NN	O	O
-through	NN	O	O
-mesh	NN	O	B-Process
-refinement	NN	O	I-Process
-or	NN	O	O
-higher	NN	O	B-Task
-solution	NN	O	I-Task
-polynomial	NN	O	I-Task
-orders	NN	O	I-Task
-.	NN	O	O
-
-Increasing	NN	O	O
-the	NN	O	O
-order	NN	O	O
-of	NN	O	O
-the	NN	O	O
-geometry	NN	O	O
-parametrisation	NN	O	O
-reduces	NN	O	B-Task
-the	NN	O	I-Task
-geometric	NN	O	I-Task
-error	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-analytic	NN	O	O
-test	NN	O	O
-cases	NN	O	O
-presented	NN	O	O
-here	NN	O	O
-use	NN	O	O
-a	NN	O	O
-coarse	NN	O	B-Material
-curvilinear	NN	O	I-Material
-mesh	NN	O	I-Material
-;	NN	O	O
-for	NN	O	O
-applications	NN	O	O
-,	NN	O	O
-meshes	NN	O	B-Material
-are	NN	O	O
-typically	NN	O	O
-more	NN	O	O
-refined	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-capture	NN	O	O
-features	NN	O	O
-in	NN	O	O
-the	NN	O	O
-solution	NN	O	B-Material
-and	NN	O	O
-so	NN	O	O
-will	NN	O	O
-better	NN	O	O
-capture	NN	O	O
-the	NN	O	O
-geometry	NN	O	O
-and	NN	O	O
-consequently	NN	O	O
-reduce	NN	O	O
-this	NN	O	O
-lower	NN	O	O
-bound	NN	O	O
-on	NN	O	O
-the	NN	O	O
-solution	NN	O	O
-error	NN	O	O
-.	NN	O	O
-
-If	NN	O	O
-the	NN	O	O
-solution	NN	O	B-Material
-is	NN	O	O
-not	NN	O	O
-smooth	NN	O	O
-,	NN	O	O
-we	NN	O	O
-do	NN	O	O
-not	NN	O	O
-expect	NN	O	O
-to	NN	O	O
-see	NN	O	O
-rapid	NN	O	O
-convergence	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-that	NN	O	O
-the	NN	O	O
-solution	NN	O	O
-is	NN	O	O
-smooth	NN	O	O
-,	NN	O	O
-but	NN	O	O
-the	NN	O	O
-true	NN	O	O
-surface	NN	O	O
-is	NN	O	O
-not	NN	O	O
-,	NN	O	O
-then	NN	O	O
-exponential	NN	O	O
-convergence	NN	O	O
-with	NN	O	O
-P	NN	O	B-Material
-and	NN	O	O
-Pg	NN	O	B-Material
-can	NN	O	O
-only	NN	O	O
-be	NN	O	O
-achieved	NN	O	O
-if	NN	O	O
-,	NN	O	O
-and	NN	O	O
-only	NN	O	O
-if	NN	O	O
-,	NN	O	O
-the	NN	O	O
-discontinuities	NN	O	O
-are	NN	O	O
-aligned	NN	O	O
-with	NN	O	O
-element	NN	O	O
-boundaries	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-if	NN	O	O
-discontinuities	NN	O	O
-lie	NN	O	O
-within	NN	O	O
-an	NN	O	O
-element	NN	O	O
-,	NN	O	O
-convergence	NN	O	O
-will	NN	O	O
-be	NN	O	O
-limited	NN	O	O
-by	NN	O	O
-the	NN	O	O
-geometric	NN	O	B-Process
-approximation	NN	O	I-Process
-,	NN	O	O
-since	NN	O	O
-the	NN	O	O
-true	NN	O	O
-surface	NN	O	B-Material
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-captured	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-cardiac	NN	O	B-Task
-problem	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-consider	NN	O	O
-both	NN	O	O
-the	NN	O	O
-true	NN	O	B-Material
-surface	NN	O	I-Material
-and	NN	O	O
-solution	NN	O	B-Material
-to	NN	O	O
-be	NN	O	O
-smooth	NN	O	O
-.	NN	O	O
+The	0	3	O
+test	4	8	O
+cases	9	14	O
+confirm	15	22	O
+that	23	27	O
+the	28	31	O
+high	32	36	B-Process
+-	36	37	I-Process
+order	37	42	I-Process
+discretisation	43	57	I-Process
+retains	58	65	O
+exponential	66	77	O
+convergence	78	89	O
+properties	90	100	O
+with	101	105	O
+increasing	106	116	O
+geometric	117	126	O
+and	127	130	O
+expansion	131	140	O
+polynomial	141	151	O
+order	152	157	O
+if	158	160	O
+both	161	165	O
+the	166	169	O
+solution	170	178	B-Material
+and	179	182	O
+true	183	187	B-Material
+surface	188	195	I-Material
+are	196	199	O
+smooth	200	206	O
+.	206	207	O
+
+Errors	208	214	O
+are	215	218	O
+found	219	224	O
+to	225	227	O
+saturate	228	236	O
+when	237	241	O
+the	242	245	O
+geometric	246	255	O
+errors	256	262	O
+,	262	263	O
+due	264	267	O
+to	268	270	O
+the	271	274	O
+parametrisation	275	290	B-Process
+of	291	293	I-Process
+the	294	297	I-Process
+surface	298	305	I-Process
+elements	306	314	I-Process
+,	314	315	O
+begin	316	321	O
+to	322	324	O
+dominate	325	333	O
+the	334	337	O
+temporal	338	346	O
+and	347	350	O
+spatial	351	358	O
+discretisation	359	373	O
+errors	374	380	O
+.	380	381	O
+
+For	382	385	O
+the	386	389	O
+smooth	390	396	O
+solutions	397	406	O
+considered	407	417	O
+as	418	420	O
+test	421	425	O
+cases	426	431	O
+,	431	432	O
+the	433	436	O
+results	437	444	O
+show	445	449	O
+that	450	454	O
+this	455	459	O
+dominance	460	469	O
+of	470	472	O
+geometric	473	482	O
+errors	483	489	O
+quickly	490	497	O
+limits	498	504	O
+the	505	508	O
+effectiveness	509	522	O
+of	523	525	O
+further	526	533	O
+increases	534	543	O
+in	544	546	O
+the	547	550	O
+number	551	557	O
+of	558	560	O
+degrees	561	568	O
+of	569	571	O
+freedom	572	579	O
+,	579	580	O
+either	581	587	O
+through	588	595	O
+mesh	596	600	B-Process
+refinement	601	611	I-Process
+or	612	614	O
+higher	615	621	B-Task
+solution	622	630	I-Task
+polynomial	631	641	I-Task
+orders	642	648	I-Task
+.	648	649	O
+
+Increasing	650	660	O
+the	661	664	O
+order	665	670	O
+of	671	673	O
+the	674	677	O
+geometry	678	686	O
+parametrisation	687	702	O
+reduces	703	710	B-Task
+the	711	714	I-Task
+geometric	715	724	I-Task
+error	725	730	I-Task
+.	730	731	O
+
+The	732	735	O
+analytic	736	744	O
+test	745	749	O
+cases	750	755	O
+presented	756	765	O
+here	766	770	O
+use	771	774	O
+a	775	776	O
+coarse	777	783	B-Material
+curvilinear	784	795	I-Material
+mesh	796	800	I-Material
+;	800	801	O
+for	802	805	O
+applications	806	818	O
+,	818	819	O
+meshes	820	826	B-Material
+are	827	830	O
+typically	831	840	O
+more	841	845	O
+refined	846	853	O
+in	854	856	O
+order	857	862	O
+to	863	865	O
+capture	866	873	O
+features	874	882	O
+in	883	885	O
+the	886	889	O
+solution	890	898	B-Material
+and	899	902	O
+so	903	905	O
+will	906	910	O
+better	911	917	O
+capture	918	925	O
+the	926	929	O
+geometry	930	938	O
+and	939	942	O
+consequently	943	955	O
+reduce	956	962	O
+this	963	967	O
+lower	968	973	O
+bound	974	979	O
+on	980	982	O
+the	983	986	O
+solution	987	995	O
+error	996	1001	O
+.	1001	1002	O
+
+If	1003	1005	O
+the	1006	1009	O
+solution	1010	1018	B-Material
+is	1019	1021	O
+not	1022	1025	O
+smooth	1026	1032	O
+,	1032	1033	O
+we	1034	1036	O
+do	1037	1039	O
+not	1040	1043	O
+expect	1044	1050	O
+to	1051	1053	O
+see	1054	1057	O
+rapid	1058	1063	O
+convergence	1064	1075	O
+.	1075	1076	O
+
+In	1077	1079	O
+the	1080	1083	O
+case	1084	1088	O
+that	1089	1093	O
+the	1094	1097	O
+solution	1098	1106	O
+is	1107	1109	O
+smooth	1110	1116	O
+,	1116	1117	O
+but	1118	1121	O
+the	1122	1125	O
+true	1126	1130	O
+surface	1131	1138	O
+is	1139	1141	O
+not	1142	1145	O
+,	1145	1146	O
+then	1147	1151	O
+exponential	1152	1163	O
+convergence	1164	1175	O
+with	1176	1180	O
+P	1181	1182	B-Material
+and	1183	1186	O
+Pg	1187	1189	B-Material
+can	1190	1193	O
+only	1194	1198	O
+be	1199	1201	O
+achieved	1202	1210	O
+if	1211	1213	O
+,	1213	1214	O
+and	1215	1218	O
+only	1219	1223	O
+if	1224	1226	O
+,	1226	1227	O
+the	1228	1231	O
+discontinuities	1232	1247	O
+are	1248	1251	O
+aligned	1252	1259	O
+with	1260	1264	O
+element	1265	1272	O
+boundaries	1273	1283	O
+.	1283	1284	O
+
+However	1285	1292	O
+,	1292	1293	O
+if	1294	1296	O
+discontinuities	1297	1312	O
+lie	1313	1316	O
+within	1317	1323	O
+an	1324	1326	O
+element	1327	1334	O
+,	1334	1335	O
+convergence	1336	1347	O
+will	1348	1352	O
+be	1353	1355	O
+limited	1356	1363	O
+by	1364	1366	O
+the	1367	1370	O
+geometric	1371	1380	B-Process
+approximation	1381	1394	I-Process
+,	1394	1395	O
+since	1396	1401	O
+the	1402	1405	O
+true	1406	1410	O
+surface	1411	1418	B-Material
+can	1419	1422	O
+not	1422	1425	O
+be	1426	1428	O
+captured	1429	1437	O
+.	1437	1438	O
+
+In	1439	1441	O
+the	1442	1445	O
+cardiac	1446	1453	B-Task
+problem	1454	1461	I-Task
+,	1461	1462	O
+we	1463	1465	O
+consider	1466	1474	O
+both	1475	1479	O
+the	1480	1483	O
+true	1484	1488	B-Material
+surface	1489	1496	I-Material
+and	1497	1500	O
+solution	1501	1509	B-Material
+to	1510	1512	O
+be	1513	1515	O
+smooth	1516	1522	O
+.	1522	1523	O
 
 
 -DOCSTART- (S0021999114002587)
 
-Designers	NN	O	O
-of	NN	O	O
-microfluidic	NN	O	B-Material
-devices	NN	O	I-Material
-are	NN	O	O
-in	NN	O	O
-need	NN	O	O
-of	NN	O	O
-computational	NN	O	O
-tools	NN	O	O
-that	NN	O	O
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-analyse	NN	O	B-Task
-problems	NN	O	I-Task
-that	NN	O	I-Task
-involve	NN	O	I-Task
-rarefied	NN	O	I-Task
-gas	NN	O	I-Task
-flows	NN	O	I-Task
-in	NN	O	I-Task
-complex	NN	O	I-Task
-micro	NN	O	I-Task
-geometries	NN	O	I-Task
-.	NN	O	O
-
-Numerical	NN	O	B-Process
-simulation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Material
-flow	NN	O	I-Material
-through	NN	O	O
-such	NN	O	O
-geometries	NN	O	O
-is	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-extremely	NN	O	O
-challenging	NN	O	O
-.	NN	O	O
-
-Conventional	NN	O	B-Process
-continuum	NN	O	I-Process
-fluid	NN	O	I-Process
-dynamics	NN	O	I-Process
-(	NN	O	O
-CFD	NN	O	B-Process
-)	NN	O	O
-becomes	NN	O	O
-invalid	NN	O	O
-or	NN	O	O
-inaccurate	NN	O	O
-as	NN	O	O
-the	NN	O	O
-characteristic	NN	O	O
-scale	NN	O	O
-of	NN	O	O
-the	NN	O	O
-geometry	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-the	NN	O	O
-channel	NN	O	O
-height	NN	O	O
-,	NN	O	O
-h	NN	O	O
-)	NN	O	O
-approaches	NN	O	O
-the	NN	O	O
-molecular	NN	O	O
-mean	NN	O	O
-free	NN	O	O
-path	NN	O	O
-,	NN	O	O
-λ	NN	O	O
-[	NN	O	O
-1,2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-When	NN	O	O
-λ/h≳0.1	NN	O	O
-,	NN	O	O
-the	NN	O	O
-error	NN	O	O
-in	NN	O	O
-solutions	NN	O	O
-obtained	NN	O	O
-from	NN	O	O
-CFD	NN	O	B-Process
-may	NN	O	O
-be	NN	O	O
-significant	NN	O	O
-,	NN	O	O
-and	NN	O	O
-we	NN	O	O
-must	NN	O	O
-consider	NN	O	O
-the	NN	O	O
-fluid	NN	O	O
-for	NN	O	O
-what	NN	O	O
-it	NN	O	O
-is	NN	O	O
-:	NN	O	O
-a	NN	O	O
-collection	NN	O	B-Material
-of	NN	O	I-Material
-interacting	NN	O	I-Material
-particles	NN	O	I-Material
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-expense	NN	O	O
-of	NN	O	O
-simulating	NN	O	O
-the	NN	O	O
-flow	NN	O	B-Material
-of	NN	O	I-Material
-a	NN	O	I-Material
-rarefied	NN	O	I-Material
-gas	NN	O	I-Material
-in	NN	O	O
-high	NN	O	B-Material
--	NN	O	I-Material
-aspect	NN	O	I-Material
--	NN	O	I-Material
-ratio	NN	O	I-Material
-micro	NN	O	I-Material
-geometries	NN	O	I-Material
-(	NN	O	O
-i.e.	NN	O	O
-ones	NN	O	O
-that	NN	O	O
-are	NN	O	O
-long	NN	O	B-Material
-,	NN	O	I-Material
-relative	NN	O	I-Material
-to	NN	O	I-Material
-their	NN	O	I-Material
-cross	NN	O	I-Material
-section	NN	O	I-Material
-)	NN	O	O
-using	NN	O	O
-a	NN	O	O
-particle	NN	O	B-Process
-method	NN	O	I-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-direct	NN	O	B-Process
-simulation	NN	O	I-Process
-Monte	NN	O	I-Process
-Carlo	NN	O	I-Process
-(	NN	O	O
-DSMC	NN	O	B-Process
-)	NN	O	O
-method	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-,	NN	O	O
-can	NN	O	O
-be	NN	O	O
-prohibitively	NN	O	O
-high	NN	O	O
-[	NN	O	O
-3,4	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-computational	NN	O	O
-intensity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-particle	NN	O	B-Process
-method	NN	O	I-Process
-is	NN	O	O
-greater	NN	O	O
-still	NN	O	O
-when	NN	O	O
-simulating	NN	O	O
-low	NN	O	O
--	NN	O	O
-speed	NN	O	O
-microfluidic	NN	O	B-Material
-devices	NN	O	I-Material
-where	NN	O	O
-there	NN	O	O
-are	NN	O	O
-only	NN	O	O
-small	NN	O	B-Material
-deviations	NN	O	I-Material
-from	NN	O	I-Material
-equilibrium	NN	O	I-Material
-,	NN	O	O
-characterised	NN	O	O
-by	NN	O	O
-extremely	NN	O	B-Material
-low	NN	O	I-Material
-Mach	NN	O	I-Material
-numbers	NN	O	I-Material
-and	NN	O	I-Material
-weak	NN	O	I-Material
-temperature	NN	O	I-Material
-gradients	NN	O	I-Material
-.	NN	O	O
+Designers	0	9	O
+of	10	12	O
+microfluidic	13	25	B-Material
+devices	26	33	I-Material
+are	34	37	O
+in	38	40	O
+need	41	45	O
+of	46	48	O
+computational	49	62	O
+tools	63	68	O
+that	69	73	O
+can	74	77	O
+be	78	80	O
+used	81	85	O
+to	86	88	O
+analyse	89	96	B-Task
+problems	97	105	I-Task
+that	106	110	I-Task
+involve	111	118	I-Task
+rarefied	119	127	I-Task
+gas	128	131	I-Task
+flows	132	137	I-Task
+in	138	140	I-Task
+complex	141	148	I-Task
+micro	149	154	I-Task
+geometries	155	165	I-Task
+.	165	166	O
+
+Numerical	167	176	B-Process
+simulation	177	187	I-Process
+of	188	190	O
+the	191	194	O
+gas	195	198	B-Material
+flow	199	203	I-Material
+through	204	211	O
+such	212	216	O
+geometries	217	227	O
+is	228	230	O
+,	230	231	O
+however	232	239	O
+,	239	240	O
+extremely	241	250	O
+challenging	251	262	O
+.	262	263	O
+
+Conventional	264	276	B-Process
+continuum	277	286	I-Process
+fluid	287	292	I-Process
+dynamics	293	301	I-Process
+(	302	303	O
+CFD	303	306	B-Process
+)	306	307	O
+becomes	308	315	O
+invalid	316	323	O
+or	324	326	O
+inaccurate	327	337	O
+as	338	340	O
+the	341	344	O
+characteristic	345	359	O
+scale	360	365	O
+of	366	368	O
+the	369	372	O
+geometry	373	381	O
+(	382	383	O
+e.g.	383	387	O
+the	388	391	O
+channel	392	399	O
+height	400	406	O
+,	406	407	O
+h	408	409	O
+)	409	410	O
+approaches	411	421	O
+the	422	425	O
+molecular	426	435	O
+mean	436	440	O
+free	441	445	O
+path	446	450	O
+,	450	451	O
+λ	452	453	O
+[	454	455	O
+1,2	455	458	O
+]	458	459	O
+.	459	460	O
+
+When	461	465	O
+λ/h≳0.1	466	473	O
+,	473	474	O
+the	475	478	O
+error	479	484	O
+in	485	487	O
+solutions	488	497	O
+obtained	498	506	O
+from	507	511	O
+CFD	512	515	B-Process
+may	516	519	O
+be	520	522	O
+significant	523	534	O
+,	534	535	O
+and	536	539	O
+we	540	542	O
+must	543	547	O
+consider	548	556	O
+the	557	560	O
+fluid	561	566	O
+for	567	570	O
+what	571	575	O
+it	576	578	O
+is	579	581	O
+:	581	582	O
+a	583	584	O
+collection	585	595	B-Material
+of	596	598	I-Material
+interacting	599	610	I-Material
+particles	611	620	I-Material
+.	620	621	O
+
+However	622	629	O
+,	629	630	O
+the	631	634	O
+computational	635	648	O
+expense	649	656	O
+of	657	659	O
+simulating	660	670	O
+the	671	674	O
+flow	675	679	B-Material
+of	680	682	I-Material
+a	683	684	I-Material
+rarefied	685	693	I-Material
+gas	694	697	I-Material
+in	698	700	O
+high	701	705	B-Material
+-	705	706	I-Material
+aspect	706	712	I-Material
+-	712	713	I-Material
+ratio	713	718	I-Material
+micro	719	724	I-Material
+geometries	725	735	I-Material
+(	736	737	O
+i.e.	737	741	O
+ones	742	746	O
+that	747	751	O
+are	752	755	O
+long	756	760	B-Material
+,	760	761	I-Material
+relative	762	770	I-Material
+to	771	773	I-Material
+their	774	779	I-Material
+cross	780	785	I-Material
+section	786	793	I-Material
+)	793	794	O
+using	795	800	O
+a	801	802	O
+particle	803	811	B-Process
+method	812	818	I-Process
+,	818	819	O
+such	820	824	O
+as	825	827	O
+the	828	831	O
+direct	832	838	B-Process
+simulation	839	849	I-Process
+Monte	850	855	I-Process
+Carlo	856	861	I-Process
+(	862	863	O
+DSMC	863	867	B-Process
+)	867	868	O
+method	869	875	O
+[	876	877	O
+2	877	878	O
+]	878	879	O
+,	879	880	O
+can	881	884	O
+be	885	887	O
+prohibitively	888	901	O
+high	902	906	O
+[	907	908	O
+3,4	908	911	O
+]	911	912	O
+.	912	913	O
+
+The	914	917	O
+computational	918	931	O
+intensity	932	941	O
+of	942	944	O
+the	945	948	O
+particle	949	957	B-Process
+method	958	964	I-Process
+is	965	967	O
+greater	968	975	O
+still	976	981	O
+when	982	986	O
+simulating	987	997	O
+low	998	1001	O
+-	1001	1002	O
+speed	1002	1007	O
+microfluidic	1008	1020	B-Material
+devices	1021	1028	I-Material
+where	1029	1034	O
+there	1035	1040	O
+are	1041	1044	O
+only	1045	1049	O
+small	1050	1055	B-Material
+deviations	1056	1066	I-Material
+from	1067	1071	I-Material
+equilibrium	1072	1083	I-Material
+,	1083	1084	O
+characterised	1085	1098	O
+by	1099	1101	O
+extremely	1102	1111	B-Material
+low	1112	1115	I-Material
+Mach	1116	1120	I-Material
+numbers	1121	1128	I-Material
+and	1129	1132	I-Material
+weak	1133	1137	I-Material
+temperature	1138	1149	I-Material
+gradients	1150	1159	I-Material
+.	1159	1160	O
 
 
 -DOCSTART- (S0021999114007396)
 
-In	NN	O	O
-this	NN	O	O
-work	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-developed	NN	O	O
-a	NN	O	O
-simple	NN	O	O
-numerical	NN	O	B-Process
-scheme	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-Galerkin	NN	O	B-Process
-finite	NN	O	I-Process
-element	NN	O	I-Process
-method	NN	O	I-Process
-for	NN	O	O
-a	NN	O	O
-multi	NN	O	B-Task
--	NN	O	I-Task
-term	NN	O	I-Task
-time	NN	O	I-Task
-fractional	NN	O	I-Task
-diffusion	NN	O	I-Task
-equation	NN	O	I-Task
-which	NN	O	O
-involves	NN	O	O
-multiple	NN	O	B-Process
-Caputo	NN	O	I-Process
-fractional	NN	O	I-Process
-derivatives	NN	O	I-Process
-in	NN	O	I-Process
-time	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-complete	NN	O	O
-error	NN	O	O
-analysis	NN	O	O
-of	NN	O	O
-the	NN	O	O
-space	NN	O	O
-semidiscrete	NN	O	O
-Galerkin	NN	O	B-Process
-scheme	NN	O	I-Process
-is	NN	O	O
-provided	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-theory	NN	O	O
-covers	NN	O	O
-the	NN	O	O
-practically	NN	O	O
-very	NN	O	O
-important	NN	O	O
-case	NN	O	O
-of	NN	O	O
-nonsmooth	NN	O	O
-initial	NN	O	O
-data	NN	O	O
-and	NN	O	O
-right	NN	O	O
-hand	NN	O	O
-side	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-analysis	NN	O	O
-relies	NN	O	O
-essentially	NN	O	O
-on	NN	O	O
-some	NN	O	O
-new	NN	O	B-Material
-regularity	NN	O	I-Material
-results	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-multi	NN	O	O
--	NN	O	O
-term	NN	O	O
-time	NN	O	O
-fractional	NN	O	O
-diffusion	NN	O	O
-equation	NN	O	O
-.	NN	O	O
-
-Further	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-developed	NN	O	O
-a	NN	O	O
-fully	NN	O	B-Process
-discrete	NN	O	I-Process
-scheme	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-a	NN	O	O
-finite	NN	O	B-Process
-difference	NN	O	I-Process
-discretization	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-Caputo	NN	O	I-Process
-fractional	NN	O	I-Process
-derivatives	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-stability	NN	O	O
-and	NN	O	O
-error	NN	O	O
-estimate	NN	O	O
-of	NN	O	O
-the	NN	O	O
-fully	NN	O	O
-discrete	NN	O	O
-scheme	NN	O	O
-were	NN	O	O
-established	NN	O	O
-,	NN	O	O
-provided	NN	O	O
-that	NN	O	O
-the	NN	O	O
-solution	NN	O	O
-is	NN	O	O
-smooth	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-extensive	NN	O	O
-numerical	NN	O	B-Process
-experiments	NN	O	I-Process
-in	NN	O	O
-one-	NN	O	B-Process
-and	NN	O	I-Process
-two	NN	O	I-Process
--	NN	O	I-Process
-dimension	NN	O	I-Process
-fully	NN	O	O
-confirmed	NN	O	O
-our	NN	O	O
-convergence	NN	O	O
-analysis	NN	O	O
-:	NN	O	O
-the	NN	O	O
-empirical	NN	O	B-Material
-convergence	NN	O	I-Material
-rates	NN	O	I-Material
-agree	NN	O	O
-well	NN	O	O
-with	NN	O	O
-the	NN	O	O
-theoretical	NN	O	O
-predictions	NN	O	O
-for	NN	O	O
-both	NN	O	O
-smooth	NN	O	O
-and	NN	O	O
-nonsmooth	NN	O	O
-data	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+work	8	12	O
+,	12	13	O
+we	14	16	O
+have	17	21	O
+developed	22	31	O
+a	32	33	O
+simple	34	40	O
+numerical	41	50	B-Process
+scheme	51	57	I-Process
+based	58	63	O
+on	64	66	O
+the	67	70	O
+Galerkin	71	79	B-Process
+finite	80	86	I-Process
+element	87	94	I-Process
+method	95	101	I-Process
+for	102	105	O
+a	106	107	O
+multi	108	113	B-Task
+-	113	114	I-Task
+term	114	118	I-Task
+time	119	123	I-Task
+fractional	124	134	I-Task
+diffusion	135	144	I-Task
+equation	145	153	I-Task
+which	154	159	O
+involves	160	168	O
+multiple	169	177	B-Process
+Caputo	178	184	I-Process
+fractional	185	195	I-Process
+derivatives	196	207	I-Process
+in	208	210	I-Process
+time	211	215	I-Process
+.	215	216	O
+
+A	217	218	O
+complete	219	227	O
+error	228	233	O
+analysis	234	242	O
+of	243	245	O
+the	246	249	O
+space	250	255	O
+semidiscrete	256	268	O
+Galerkin	269	277	B-Process
+scheme	278	284	I-Process
+is	285	287	O
+provided	288	296	O
+.	296	297	O
+
+The	298	301	O
+theory	302	308	O
+covers	309	315	O
+the	316	319	O
+practically	320	331	O
+very	332	336	O
+important	337	346	O
+case	347	351	O
+of	352	354	O
+nonsmooth	355	364	O
+initial	365	372	O
+data	373	377	O
+and	378	381	O
+right	382	387	O
+hand	388	392	O
+side	393	397	O
+.	397	398	O
+
+The	399	402	O
+analysis	403	411	O
+relies	412	418	O
+essentially	419	430	O
+on	431	433	O
+some	434	438	O
+new	439	442	B-Material
+regularity	443	453	I-Material
+results	454	461	I-Material
+of	462	464	O
+the	465	468	O
+multi	469	474	O
+-	474	475	O
+term	475	479	O
+time	480	484	O
+fractional	485	495	O
+diffusion	496	505	O
+equation	506	514	O
+.	514	515	O
+
+Further	516	523	O
+,	523	524	O
+we	525	527	O
+have	528	532	O
+developed	533	542	O
+a	543	544	O
+fully	545	550	B-Process
+discrete	551	559	I-Process
+scheme	560	566	I-Process
+based	567	572	O
+on	573	575	O
+a	576	577	O
+finite	578	584	B-Process
+difference	585	595	I-Process
+discretization	596	610	I-Process
+of	611	613	I-Process
+the	614	617	I-Process
+Caputo	618	624	I-Process
+fractional	625	635	I-Process
+derivatives	636	647	I-Process
+.	647	648	O
+
+The	649	652	O
+stability	653	662	O
+and	663	666	O
+error	667	672	O
+estimate	673	681	O
+of	682	684	O
+the	685	688	O
+fully	689	694	O
+discrete	695	703	O
+scheme	704	710	O
+were	711	715	O
+established	716	727	O
+,	727	728	O
+provided	729	737	O
+that	738	742	O
+the	743	746	O
+solution	747	755	O
+is	756	758	O
+smooth	759	765	O
+.	765	766	O
+
+The	767	770	O
+extensive	771	780	O
+numerical	781	790	B-Process
+experiments	791	802	I-Process
+in	803	805	O
+one-	806	810	B-Process
+and	811	814	I-Process
+two	815	818	I-Process
+-	818	819	I-Process
+dimension	819	828	I-Process
+fully	829	834	O
+confirmed	835	844	O
+our	845	848	O
+convergence	849	860	O
+analysis	861	869	O
+:	869	870	O
+the	871	874	O
+empirical	875	884	B-Material
+convergence	885	896	I-Material
+rates	897	902	I-Material
+agree	903	908	O
+well	909	913	O
+with	914	918	O
+the	919	922	O
+theoretical	923	934	O
+predictions	935	946	O
+for	947	950	O
+both	951	955	O
+smooth	956	962	O
+and	963	966	O
+nonsmooth	967	976	O
+data	977	981	O
+.	981	982	O
 
 
 -DOCSTART- (S0021999114007876)
 
-In	NN	O	O
-this	NN	O	O
-work	NN	O	O
-,	NN	O	O
-light	NN	O	B-Task
-propagation	NN	O	I-Task
-in	NN	O	I-Task
-a	NN	O	I-Task
-scattering	NN	O	I-Task
-medium	NN	O	I-Task
-with	NN	O	I-Task
-piece	NN	O	I-Task
--	NN	O	I-Task
-wise	NN	O	I-Task
-constant	NN	O	I-Task
-refractive	NN	O	I-Task
-index	NN	O	I-Task
-using	NN	O	O
-the	NN	O	O
-radiative	NN	O	B-Process
-transport	NN	O	I-Process
-equation	NN	O	I-Process
-was	NN	O	O
-studied	NN	O	O
-.	NN	O	O
-
-Light	NN	O	O
-propagation	NN	O	O
-in	NN	O	O
-each	NN	O	O
-sub	NN	O	O
--	NN	O	O
-domain	NN	O	O
-with	NN	O	O
-a	NN	O	O
-constant	NN	O	O
-refractive	NN	O	O
-index	NN	O	O
-was	NN	O	O
-modeled	NN	O	O
-using	NN	O	O
-the	NN	O	O
-RTE	NN	O	B-Process
-and	NN	O	O
-the	NN	O	O
-equations	NN	O	O
-were	NN	O	O
-coupled	NN	O	O
-using	NN	O	O
-boundary	NN	O	O
-conditions	NN	O	O
-describing	NN	O	O
-Fresnel	NN	O	B-Process
-reflection	NN	O	I-Process
-and	NN	O	I-Process
-transmission	NN	O	I-Process
-phenomenas	NN	O	I-Process
-on	NN	O	O
-the	NN	O	O
-interfaces	NN	O	O
-between	NN	O	O
-the	NN	O	O
-sub	NN	O	O
--	NN	O	O
-domains	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resulting	NN	O	O
-coupled	NN	O	B-Process
-system	NN	O	I-Process
-of	NN	O	I-Process
-RTEs	NN	O	I-Process
-was	NN	O	O
-numerically	NN	O	O
-solved	NN	O	O
-using	NN	O	O
-the	NN	O	O
-FEM	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-proposed	NN	O	O
-model	NN	O	O
-was	NN	O	O
-tested	NN	O	O
-using	NN	O	O
-simulations	NN	O	B-Process
-and	NN	O	O
-was	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-the	NN	O	O
-solution	NN	O	B-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-Monte	NN	O	I-Material
-Carlo	NN	O	I-Material
-method	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-coupled	NN	O	O
-RTE	NN	O	B-Process
-model	NN	O	O
-describes	NN	O	O
-light	NN	O	O
-propagation	NN	O	O
-accurately	NN	O	O
-in	NN	O	O
-comparison	NN	O	O
-with	NN	O	O
-the	NN	O	O
-Monte	NN	O	B-Material
-Carlo	NN	O	I-Material
-method	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-neglecting	NN	O	O
-internal	NN	O	O
-refractive	NN	O	O
-index	NN	O	O
-changes	NN	O	O
-can	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-erroneous	NN	O	O
-boundary	NN	O	O
-measurements	NN	O	O
-of	NN	O	O
-scattered	NN	O	O
-light	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-indicates	NN	O	O
-that	NN	O	O
-the	NN	O	O
-quality	NN	O	O
-of	NN	O	O
-the	NN	O	O
-DOT	NN	O	B-Process
-reconstructions	NN	O	I-Process
-could	NN	O	O
-possible	NN	O	O
-be	NN	O	O
-increased	NN	O	O
-by	NN	O	O
-incorporating	NN	O	O
-a	NN	O	O
-model	NN	O	O
-for	NN	O	O
-internal	NN	O	O
-refractive	NN	O	B-Process
-index	NN	O	I-Process
-changes	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-image	NN	O	B-Process
-reconstruction	NN	O	I-Process
-procedure	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+work	8	12	O
+,	12	13	O
+light	14	19	B-Task
+propagation	20	31	I-Task
+in	32	34	I-Task
+a	35	36	I-Task
+scattering	37	47	I-Task
+medium	48	54	I-Task
+with	55	59	I-Task
+piece	60	65	I-Task
+-	65	66	I-Task
+wise	66	70	I-Task
+constant	71	79	I-Task
+refractive	80	90	I-Task
+index	91	96	I-Task
+using	97	102	O
+the	103	106	O
+radiative	107	116	B-Process
+transport	117	126	I-Process
+equation	127	135	I-Process
+was	136	139	O
+studied	140	147	O
+.	147	148	O
+
+Light	149	154	O
+propagation	155	166	O
+in	167	169	O
+each	170	174	O
+sub	175	178	O
+-	178	179	O
+domain	179	185	O
+with	186	190	O
+a	191	192	O
+constant	193	201	O
+refractive	202	212	O
+index	213	218	O
+was	219	222	O
+modeled	223	230	O
+using	231	236	O
+the	237	240	O
+RTE	241	244	B-Process
+and	245	248	O
+the	249	252	O
+equations	253	262	O
+were	263	267	O
+coupled	268	275	O
+using	276	281	O
+boundary	282	290	O
+conditions	291	301	O
+describing	302	312	O
+Fresnel	313	320	B-Process
+reflection	321	331	I-Process
+and	332	335	I-Process
+transmission	336	348	I-Process
+phenomenas	349	359	I-Process
+on	360	362	O
+the	363	366	O
+interfaces	367	377	O
+between	378	385	O
+the	386	389	O
+sub	390	393	O
+-	393	394	O
+domains	394	401	O
+.	401	402	O
+
+The	403	406	O
+resulting	407	416	O
+coupled	417	424	B-Process
+system	425	431	I-Process
+of	432	434	I-Process
+RTEs	435	439	I-Process
+was	440	443	O
+numerically	444	455	O
+solved	456	462	O
+using	463	468	O
+the	469	472	O
+FEM	473	476	B-Process
+.	476	477	O
+
+The	478	481	O
+proposed	482	490	O
+model	491	496	O
+was	497	500	O
+tested	501	507	O
+using	508	513	O
+simulations	514	525	B-Process
+and	526	529	O
+was	530	533	O
+compared	534	542	O
+with	543	547	O
+the	548	551	O
+solution	552	560	B-Material
+of	561	563	I-Material
+the	564	567	I-Material
+Monte	568	573	I-Material
+Carlo	574	579	I-Material
+method	580	586	I-Material
+.	586	587	O
+
+The	588	591	O
+results	592	599	O
+show	600	604	O
+that	605	609	O
+the	610	613	O
+coupled	614	621	O
+RTE	622	625	B-Process
+model	626	631	O
+describes	632	641	O
+light	642	647	O
+propagation	648	659	O
+accurately	660	670	O
+in	671	673	O
+comparison	674	684	O
+with	685	689	O
+the	690	693	O
+Monte	694	699	B-Material
+Carlo	700	705	I-Material
+method	706	712	I-Material
+.	712	713	O
+
+In	714	716	O
+addition	717	725	O
+,	725	726	O
+results	727	734	O
+show	735	739	O
+that	740	744	O
+neglecting	745	755	O
+internal	756	764	O
+refractive	765	775	O
+index	776	781	O
+changes	782	789	O
+can	790	793	O
+lead	794	798	O
+to	799	801	O
+erroneous	802	811	O
+boundary	812	820	O
+measurements	821	833	O
+of	834	836	O
+scattered	837	846	O
+light	847	852	O
+.	852	853	O
+
+This	854	858	O
+indicates	859	868	O
+that	869	873	O
+the	874	877	O
+quality	878	885	O
+of	886	888	O
+the	889	892	O
+DOT	893	896	B-Process
+reconstructions	897	912	I-Process
+could	913	918	O
+possible	919	927	O
+be	928	930	O
+increased	931	940	O
+by	941	943	O
+incorporating	944	957	O
+a	958	959	O
+model	960	965	O
+for	966	969	O
+internal	970	978	O
+refractive	979	989	B-Process
+index	990	995	I-Process
+changes	996	1003	I-Process
+in	1004	1006	O
+the	1007	1010	O
+image	1011	1016	B-Process
+reconstruction	1017	1031	I-Process
+procedure	1032	1041	I-Process
+.	1041	1042	O
 
 
 -DOCSTART- (S0021999114008432)
 
-The	NN	O	O
-validity	NN	O	B-Task
-of	NN	O	I-Task
-semi	NN	O	I-Task
--	NN	O	I-Task
-classical	NN	O	I-Task
-boundary	NN	O	I-Task
-conditions	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-WTE	NN	O	O
-as	NN	O	O
-introduced	NN	O	O
-in	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-is	NN	O	O
-a	NN	O	O
-topic	NN	O	O
-under	NN	O	O
-vivid	NN	O	O
-debate	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-after	NN	O	O
-recent	NN	O	O
-works	NN	O	O
-which	NN	O	O
-address	NN	O	O
-the	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-uniqueness	NN	O	I-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-symmetry	NN	O	I-Process
-properties	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-Wigner	NN	O	I-Process
-function	NN	O	I-Process
-[	NN	O	O
-27,28,46	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-numerical	NN	O	B-Material
-test	NN	O	I-Material
-cases	NN	O	I-Material
-presented	NN	O	O
-therein	NN	O	O
-are	NN	O	O
-for	NN	O	O
-symmetric	NN	O	B-Material
-potentials	NN	O	I-Material
-for	NN	O	O
-which	NN	O	O
-we	NN	O	O
-can	NN	O	O
-not	NN	O	O
-provide	NN	O	O
-reliable	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-well	NN	O	O
--	NN	O	O
-resolved	NN	O	O
-,	NN	O	O
-results	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-singular	NN	O	O
-terms	NN	O	O
-in	NN	O	O
-the	NN	O	O
-steady	NN	O	B-Process
-state	NN	O	I-Process
-Wigner	NN	O	I-Process
-functions	NN	O	I-Process
-,	NN	O	O
-see	NN	O	O
-Section	NN	O	O
-4.3	NN	O	O
-.	NN	O	O
-
-Other	NN	O	B-Material
-recent	NN	O	I-Material
-studies	NN	O	I-Material
-demonstrate	NN	O	O
-the	NN	O	O
-convergence	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-WTE	NN	O	I-Task
-calculations	NN	O	I-Task
-upon	NN	O	O
-increasing	NN	O	B-Process
-the	NN	O	I-Process
-size	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-simulation	NN	O	I-Process
-domain	NN	O	I-Process
-[	NN	O	O
-44	NN	O	O
-]	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-possible	NN	O	O
-improvements	NN	O	O
-by	NN	O	O
-adapting	NN	O	B-Process
-the	NN	O	I-Process
-boundary	NN	O	I-Process
-distribution	NN	O	I-Process
-to	NN	O	O
-the	NN	O	O
-physical	NN	O	O
-state	NN	O	O
-of	NN	O	O
-the	NN	O	O
-active	NN	O	O
-device	NN	O	O
-region	NN	O	O
-[	NN	O	O
-47	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Despite	NN	O	O
-their	NN	O	O
-approximate	NN	O	O
-nature	NN	O	O
-we	NN	O	O
-employ	NN	O	B-Process
-inflow	NN	O	I-Process
-/	NN	O	I-Process
-outflow	NN	O	I-Process
-boundary	NN	O	I-Process
-conditions	NN	O	I-Process
-here	NN	O	O
-as	NN	O	O
-well	NN	O	O
-and	NN	O	O
-demonstrate	NN	O	O
-that	NN	O	O
-accurate	NN	O	B-Task
-and	NN	O	I-Task
-physically	NN	O	I-Task
-valid	NN	O	I-Task
-results	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-achieved	NN	O	O
-for	NN	O	O
-sufficiently	NN	O	O
-large	NN	O	O
-values	NN	O	O
-of	NN	O	O
-Lres	NN	O	O
-.	NN	O	O
-
-Due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-problematics	NN	O	O
-with	NN	O	O
-singular	NN	O	O
-terms	NN	O	O
-we	NN	O	O
-present	NN	O	B-Task
-simulations	NN	O	I-Task
-only	NN	O	I-Task
-for	NN	O	I-Task
-non	NN	O	I-Task
--	NN	O	I-Task
-zero	NN	O	I-Task
-bias	NN	O	I-Task
-voltages	NN	O	I-Task
-VDS≠0	NN	O	O
-V.	NN	O	O
+The	0	3	O
+validity	4	12	B-Task
+of	13	15	I-Task
+semi	16	20	I-Task
+-	20	21	I-Task
+classical	21	30	I-Task
+boundary	31	39	I-Task
+conditions	40	50	I-Task
+for	51	54	O
+the	55	58	O
+WTE	59	62	O
+as	63	65	O
+introduced	66	76	O
+in	77	79	O
+[	80	81	O
+8	81	82	O
+]	82	83	O
+is	84	86	O
+a	87	88	O
+topic	89	94	O
+under	95	100	O
+vivid	101	106	O
+debate	107	113	O
+,	113	114	O
+especially	115	125	O
+after	126	131	O
+recent	132	138	O
+works	139	144	O
+which	145	150	O
+address	151	158	O
+the	159	162	O
+non	163	166	B-Process
+-	166	167	I-Process
+uniqueness	167	177	I-Process
+and	178	181	I-Process
+the	182	185	I-Process
+symmetry	186	194	I-Process
+properties	195	205	I-Process
+of	206	208	I-Process
+the	209	212	I-Process
+Wigner	213	219	I-Process
+function	220	228	I-Process
+[	229	230	O
+27,28,46	230	238	O
+]	238	239	O
+.	239	240	O
+
+The	241	244	O
+numerical	245	254	B-Material
+test	255	259	I-Material
+cases	260	265	I-Material
+presented	266	275	O
+therein	276	283	O
+are	284	287	O
+for	288	291	O
+symmetric	292	301	B-Material
+potentials	302	312	I-Material
+for	313	316	O
+which	317	322	O
+we	323	325	O
+can	326	329	O
+not	329	332	O
+provide	333	340	O
+reliable	341	349	O
+,	349	350	O
+i.e.	351	355	O
+well	356	360	O
+-	360	361	O
+resolved	361	369	O
+,	369	370	O
+results	371	378	O
+due	379	382	O
+to	383	385	O
+the	386	389	O
+presence	390	398	O
+of	399	401	O
+singular	402	410	O
+terms	411	416	O
+in	417	419	O
+the	420	423	O
+steady	424	430	B-Process
+state	431	436	I-Process
+Wigner	437	443	I-Process
+functions	444	453	I-Process
+,	453	454	O
+see	455	458	O
+Section	459	466	O
+4.3	467	470	O
+.	470	471	O
+
+Other	472	477	B-Material
+recent	478	484	I-Material
+studies	485	492	I-Material
+demonstrate	493	504	O
+the	505	508	O
+convergence	509	520	B-Task
+of	521	523	I-Task
+the	524	527	I-Task
+WTE	528	531	I-Task
+calculations	532	544	I-Task
+upon	545	549	O
+increasing	550	560	B-Process
+the	561	564	I-Process
+size	565	569	I-Process
+of	570	572	I-Process
+the	573	576	I-Process
+simulation	577	587	I-Process
+domain	588	594	I-Process
+[	595	596	O
+44	596	598	O
+]	598	599	O
+as	600	602	O
+well	603	607	O
+as	608	610	O
+possible	611	619	O
+improvements	620	632	O
+by	633	635	O
+adapting	636	644	B-Process
+the	645	648	I-Process
+boundary	649	657	I-Process
+distribution	658	670	I-Process
+to	671	673	O
+the	674	677	O
+physical	678	686	O
+state	687	692	O
+of	693	695	O
+the	696	699	O
+active	700	706	O
+device	707	713	O
+region	714	720	O
+[	721	722	O
+47	722	724	O
+]	724	725	O
+.	725	726	O
+
+Despite	727	734	O
+their	735	740	O
+approximate	741	752	O
+nature	753	759	O
+we	760	762	O
+employ	763	769	B-Process
+inflow	770	776	I-Process
+/	776	777	I-Process
+outflow	777	784	I-Process
+boundary	785	793	I-Process
+conditions	794	804	I-Process
+here	805	809	O
+as	810	812	O
+well	813	817	O
+and	818	821	O
+demonstrate	822	833	O
+that	834	838	O
+accurate	839	847	B-Task
+and	848	851	I-Task
+physically	852	862	I-Task
+valid	863	868	I-Task
+results	869	876	I-Task
+can	877	880	O
+be	881	883	O
+achieved	884	892	O
+for	893	896	O
+sufficiently	897	909	O
+large	910	915	O
+values	916	922	O
+of	923	925	O
+Lres	926	930	O
+.	930	931	O
+
+Due	932	935	O
+to	936	938	O
+the	939	942	O
+problematics	943	955	O
+with	956	960	O
+singular	961	969	O
+terms	970	975	O
+we	976	978	O
+present	979	986	B-Task
+simulations	987	998	I-Task
+only	999	1003	I-Task
+for	1004	1007	I-Task
+non	1008	1011	I-Task
+-	1011	1012	I-Task
+zero	1012	1016	I-Task
+bias	1017	1021	I-Task
+voltages	1022	1030	I-Task
+VDS≠0	1031	1036	O
+V.	1037	1039	O
 
 
 -DOCSTART- (S0021999114008523)
 
-A	NN	O	O
-multi	NN	O	B-Process
--	NN	O	I-Process
-physics	NN	O	I-Process
-description	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-multiscale	NN	O	I-Process
-system	NN	O	I-Process
-is	NN	O	O
-often	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-a	NN	O	O
-‘	NN	O	B-Process
-hybrid’	NN	O	I-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-fluid	NN	O	B-Task
-dynamics	NN	O	I-Task
-,	NN	O	O
-a	NN	O	O
-typical	NN	O	O
-hybrid	NN	O	B-Process
-combines	NN	O	O
-a	NN	O	O
-molecular	NN	O	B-Process
-treatment	NN	O	I-Process
-(	NN	O	O
-a	NN	O	O
-‘	NN	O	B-Process
-micro’	NN	O	I-Process
-model	NN	O	I-Process
-)	NN	O	O
-with	NN	O	O
-a	NN	O	O
-continuum	NN	O	B-Process
--	NN	O	I-Process
-fluid	NN	O	I-Process
-one	NN	O	I-Process
-(	NN	O	O
-a	NN	O	O
-‘	NN	O	O
-macro’	NN	O	B-Process
-model	NN	O	I-Process
-)	NN	O	O
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-aim	NN	O	O
-of	NN	O	O
-obtaining	NN	O	B-Task
-the	NN	O	I-Task
-accuracy	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-former	NN	O	I-Task
-with	NN	O	I-Task
-the	NN	O	I-Task
-efficiency	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-latter	NN	O	I-Task
-[	NN	O	O
-1–4	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-micro	NN	O	B-Process
-and	NN	O	I-Process
-macro	NN	O	I-Process
-models	NN	O	I-Process
-generally	NN	O	O
-have	NN	O	O
-characteristic	NN	O	O
-timescales	NN	O	O
-that	NN	O	O
-are	NN	O	O
-very	NN	O	O
-different	NN	O	O
-,	NN	O	O
-which	NN	O	O
-means	NN	O	O
-that	NN	O	O
-time	NN	O	O
--	NN	O	O
-accurate	NN	O	O
-simulations	NN	O	O
-can	NN	O	O
-be	NN	O	O
-extremely	NN	O	O
-challenging	NN	O	O
-:	NN	O	O
-the	NN	O	O
-size	NN	O	O
-of	NN	O	O
-the	NN	O	O
-timestep	NN	O	O
-required	NN	O	O
-to	NN	O	O
-make	NN	O	O
-the	NN	O	O
-micro	NN	O	O
-model	NN	O	O
-stable	NN	O	O
-and	NN	O	O
-accurate	NN	O	O
-is	NN	O	O
-so	NN	O	O
-small	NN	O	O
-that	NN	O	O
-simulations	NN	O	O
-over	NN	O	O
-significant	NN	O	O
-macro	NN	O	O
--	NN	O	O
-scale	NN	O	O
-time	NN	O	O
-periods	NN	O	O
-are	NN	O	O
-intractable	NN	O	O
-.	NN	O	O
-
-If	NN	O	O
-the	NN	O	O
-system	NN	O	O
-is	NN	O	O
-‘	NN	O	O
-scale	NN	O	B-Process
--	NN	O	I-Process
-separated’	NN	O	I-Process
-,	NN	O	O
-a	NN	O	O
-physical	NN	O	B-Process
-(	NN	O	I-Process
-as	NN	O	I-Process
-distinct	NN	O	I-Process
-from	NN	O	I-Process
-numerical	NN	O	I-Process
-)	NN	O	I-Process
-approximation	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-made	NN	O	O
-that	NN	O	O
-enables	NN	O	O
-the	NN	O	O
-coupled	NN	O	B-Process
-models	NN	O	I-Process
-to	NN	O	O
-advance	NN	O	O
-at	NN	O	O
-different	NN	O	O
-rates	NN	O	O
-(	NN	O	O
-asynchronously	NN	O	O
-)	NN	O	O
-with	NN	O	O
-negligible	NN	O	O
-penalty	NN	O	O
-on	NN	O	O
-macro	NN	O	O
--	NN	O	O
-scale	NN	O	O
-accuracy	NN	O	O
-.	NN	O	O
-
-E	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-were	NN	O	O
-the	NN	O	O
-first	NN	O	O
-to	NN	O	O
-introduce	NN	O	O
-and	NN	O	O
-implement	NN	O	O
-this	NN	O	O
-concept	NN	O	O
-in	NN	O	O
-a	NN	O	O
-time	NN	O	B-Process
--	NN	O	I-Process
-stepping	NN	O	I-Process
-method	NN	O	I-Process
-for	NN	O	I-Process
-coupled	NN	O	I-Process
-systems	NN	O	I-Process
-,	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-in	NN	O	O
-the	NN	O	O
-classification	NN	O	O
-of	NN	O	O
-Lockerby	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-as	NN	O	O
-a	NN	O	O
-continuous	NN	O	B-Process
-asynchronous	NN	O	I-Process
-(	NN	O	O
-CA	NN	O	B-Process
-)	NN	O	O
-scheme	NN	O	O
-(	NN	O	O
-‘	NN	O	O
-continuous’	NN	O	O
-since	NN	O	O
-the	NN	O	O
-micro	NN	O	B-Process
-and	NN	O	I-Process
-macro	NN	O	I-Process
-models	NN	O	I-Process
-advance	NN	O	O
-without	NN	O	O
-interruption	NN	O	O
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-we	NN	O	O
-extend	NN	O	O
-this	NN	O	O
-idea	NN	O	O
-to	NN	O	O
-multiscale	NN	O	B-Task
-systems	NN	O	I-Task
-comprising	NN	O	I-Task
-an	NN	O	I-Task
-arbitrary	NN	O	I-Task
-number	NN	O	I-Task
-of	NN	O	I-Task
-coupled	NN	O	I-Task
-models	NN	O	I-Task
-.	NN	O	O
+A	0	1	O
+multi	2	7	B-Process
+-	7	8	I-Process
+physics	8	15	I-Process
+description	16	27	I-Process
+of	28	30	I-Process
+a	31	32	I-Process
+multiscale	33	43	I-Process
+system	44	50	I-Process
+is	51	53	O
+often	54	59	O
+referred	60	68	O
+to	69	71	O
+as	72	74	O
+a	75	76	O
+‘	77	78	B-Process
+hybrid’	78	85	I-Process
+model	86	91	I-Process
+.	91	92	O
+
+In	93	95	O
+fluid	96	101	B-Task
+dynamics	102	110	I-Task
+,	110	111	O
+a	112	113	O
+typical	114	121	O
+hybrid	122	128	B-Process
+combines	129	137	O
+a	138	139	O
+molecular	140	149	B-Process
+treatment	150	159	I-Process
+(	160	161	O
+a	161	162	O
+‘	163	164	B-Process
+micro’	164	170	I-Process
+model	171	176	I-Process
+)	176	177	O
+with	178	182	O
+a	183	184	O
+continuum	185	194	B-Process
+-	194	195	I-Process
+fluid	195	200	I-Process
+one	201	204	I-Process
+(	205	206	O
+a	206	207	O
+‘	208	209	O
+macro’	209	215	B-Process
+model	216	221	I-Process
+)	221	222	O
+,	222	223	O
+with	224	228	O
+the	229	232	O
+aim	233	236	O
+of	237	239	O
+obtaining	240	249	B-Task
+the	250	253	I-Task
+accuracy	254	262	I-Task
+of	263	265	I-Task
+the	266	269	I-Task
+former	270	276	I-Task
+with	277	281	I-Task
+the	282	285	I-Task
+efficiency	286	296	I-Task
+of	297	299	I-Task
+the	300	303	I-Task
+latter	304	310	I-Task
+[	311	312	O
+1–4	312	315	O
+]	315	316	O
+.	316	317	O
+
+The	318	321	O
+micro	322	327	B-Process
+and	328	331	I-Process
+macro	332	337	I-Process
+models	338	344	I-Process
+generally	345	354	O
+have	355	359	O
+characteristic	360	374	O
+timescales	375	385	O
+that	386	390	O
+are	391	394	O
+very	395	399	O
+different	400	409	O
+,	409	410	O
+which	411	416	O
+means	417	422	O
+that	423	427	O
+time	428	432	O
+-	432	433	O
+accurate	433	441	O
+simulations	442	453	O
+can	454	457	O
+be	458	460	O
+extremely	461	470	O
+challenging	471	482	O
+:	482	483	O
+the	484	487	O
+size	488	492	O
+of	493	495	O
+the	496	499	O
+timestep	500	508	O
+required	509	517	O
+to	518	520	O
+make	521	525	O
+the	526	529	O
+micro	530	535	O
+model	536	541	O
+stable	542	548	O
+and	549	552	O
+accurate	553	561	O
+is	562	564	O
+so	565	567	O
+small	568	573	O
+that	574	578	O
+simulations	579	590	O
+over	591	595	O
+significant	596	607	O
+macro	608	613	O
+-	613	614	O
+scale	614	619	O
+time	620	624	O
+periods	625	632	O
+are	633	636	O
+intractable	637	648	O
+.	648	649	O
+
+If	650	652	O
+the	653	656	O
+system	657	663	O
+is	664	666	O
+‘	667	668	O
+scale	668	673	B-Process
+-	673	674	I-Process
+separated’	674	684	I-Process
+,	684	685	O
+a	686	687	O
+physical	688	696	B-Process
+(	697	698	I-Process
+as	698	700	I-Process
+distinct	701	709	I-Process
+from	710	714	I-Process
+numerical	715	724	I-Process
+)	724	725	I-Process
+approximation	726	739	I-Process
+can	740	743	O
+be	744	746	O
+made	747	751	O
+that	752	756	O
+enables	757	764	O
+the	765	768	O
+coupled	769	776	B-Process
+models	777	783	I-Process
+to	784	786	O
+advance	787	794	O
+at	795	797	O
+different	798	807	O
+rates	808	813	O
+(	814	815	O
+asynchronously	815	829	O
+)	829	830	O
+with	831	835	O
+negligible	836	846	O
+penalty	847	854	O
+on	855	857	O
+macro	858	863	O
+-	863	864	O
+scale	864	869	O
+accuracy	870	878	O
+.	878	879	O
+
+E	880	881	O
+et	882	884	O
+al	885	887	O
+.	887	888	O
+
+[	889	890	O
+5	890	891	O
+]	891	892	O
+were	893	897	O
+the	898	901	O
+first	902	907	O
+to	908	910	O
+introduce	911	920	O
+and	921	924	O
+implement	925	934	O
+this	935	939	O
+concept	940	947	O
+in	948	950	O
+a	951	952	O
+time	953	957	B-Process
+-	957	958	I-Process
+stepping	958	966	I-Process
+method	967	973	I-Process
+for	974	977	I-Process
+coupled	978	985	I-Process
+systems	986	993	I-Process
+,	993	994	O
+referred	995	1003	O
+to	1004	1006	O
+in	1007	1009	O
+the	1010	1013	O
+classification	1014	1028	O
+of	1029	1031	O
+Lockerby	1032	1040	O
+et	1041	1043	O
+al	1044	1046	O
+.	1046	1047	O
+
+[	1048	1049	O
+6	1049	1050	O
+]	1050	1051	O
+as	1052	1054	O
+a	1055	1056	O
+continuous	1057	1067	B-Process
+asynchronous	1068	1080	I-Process
+(	1081	1082	O
+CA	1082	1084	B-Process
+)	1084	1085	O
+scheme	1086	1092	O
+(	1093	1094	O
+‘	1094	1095	O
+continuous’	1095	1106	O
+since	1107	1112	O
+the	1113	1116	O
+micro	1117	1122	B-Process
+and	1123	1126	I-Process
+macro	1127	1132	I-Process
+models	1133	1139	I-Process
+advance	1140	1147	O
+without	1148	1155	O
+interruption	1156	1168	O
+[	1169	1170	O
+5	1170	1171	O
+]	1171	1172	O
+)	1172	1173	O
+.	1173	1174	O
+
+In	1175	1177	O
+this	1178	1182	O
+paper	1183	1188	O
+we	1189	1191	O
+extend	1192	1198	O
+this	1199	1203	O
+idea	1204	1208	O
+to	1209	1211	O
+multiscale	1212	1222	B-Task
+systems	1223	1230	I-Task
+comprising	1231	1241	I-Task
+an	1242	1244	I-Task
+arbitrary	1245	1254	I-Task
+number	1255	1261	I-Task
+of	1262	1264	I-Task
+coupled	1265	1272	I-Task
+models	1273	1279	I-Task
+.	1279	1280	O
 
 
 -DOCSTART- (S0021999115000546)
 
-The	NN	O	O
-particular	NN	O	O
-phase	NN	O	B-Task
-field	NN	O	I-Task
-model	NN	O	I-Task
-we	NN	O	O
-employ	NN	O	O
-is	NN	O	O
-an	NN	O	O
-extension	NN	O	O
-of	NN	O	O
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-three	NN	O	B-Process
-dimensional	NN	O	I-Process
-thermal	NN	O	I-Process
-phase	NN	O	I-Process
-field	NN	O	I-Process
-model	NN	O	I-Process
-of	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-and	NN	O	O
-two	NN	O	B-Process
-dimensional	NN	O	I-Process
-thermal	NN	O	I-Process
--	NN	O	I-Process
-solutal	NN	O	I-Process
-phase	NN	O	I-Process
-field	NN	O	I-Process
-model	NN	O	I-Process
-of	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-One	NN	O	O
-feature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-physical	NN	O	O
-problem	NN	O	O
-is	NN	O	O
-that	NN	O	O
-it	NN	O	O
-is	NN	O	O
-purely	NN	O	O
-dissipative	NN	O	O
-,	NN	O	O
-or	NN	O	O
-entropy	NN	O	O
-increasing	NN	O	O
-,	NN	O	O
-as	NN	O	O
-all	NN	O	O
-natural	NN	O	O
-relaxational	NN	O	O
-phenomena	NN	O	O
-are	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resulting	NN	O	O
-PDEs	NN	O	B-Material
-are	NN	O	O
-of	NN	O	O
-Allen	NN	O	O
-–	NN	O	O
-Cahn	NN	O	O
-
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-and	NN	O	O
-Carn	NN	O	O
-–	NN	O	O
-Hilliard	NN	O	O
-type	NN	O	O
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-That	NN	O	O
-is	NN	O	O
-to	NN	O	O
-say	NN	O	O
-,	NN	O	O
-the	NN	O	O
-model	NN	O	O
-involves	NN	O	O
-time	NN	O	B-Process
-derivatives	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-three	NN	O	I-Process
-fields	NN	O	I-Process
-coupled	NN	O	I-Process
-to	NN	O	I-Process
-forms	NN	O	I-Process
-involving	NN	O	I-Process
-variational	NN	O	I-Process
-derivatives	NN	O	I-Process
-of	NN	O	O
-some	NN	O	O
-functional	NN	O	B-Process
-–	NN	O	O
-typically	NN	O	O
-the	NN	O	O
-free	NN	O	B-Process
-energy	NN	O	I-Process
-functional	NN	O	I-Process
-.	NN	O	O
-
-As	NN	O	O
-the	NN	O	O
-dendrite	NN	O	B-Material
-grows	NN	O	O
-the	NN	O	O
-free	NN	O	O
-energy	NN	O	O
-reduces	NN	O	O
-monotonically	NN	O	O
-with	NN	O	O
-time	NN	O	O
-but	NN	O	O
-never	NN	O	O
-achieves	NN	O	O
-equilibrium	NN	O	O
-if	NN	O	O
-the	NN	O	O
-domain	NN	O	O
-boundary	NN	O	O
-is	NN	O	O
-far	NN	O	O
-from	NN	O	O
-the	NN	O	O
-dendrite	NN	O	B-Material
-.	NN	O	O
-
-Although	NN	O	O
-we	NN	O	O
-have	NN	O	O
-listed	NN	O	O
-some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-difficult	NN	O	O
-aspects	NN	O	O
-of	NN	O	O
-this	NN	O	O
-model	NN	O	O
-,	NN	O	O
-the	NN	O	O
-relaxational	NN	O	O
-aspect	NN	O	O
-is	NN	O	O
-typically	NN	O	O
-an	NN	O	O
-asset	NN	O	O
-and	NN	O	O
-results	NN	O	O
-in	NN	O	O
-stable	NN	O	O
-numerical	NN	O	B-Process
-schemes	NN	O	I-Process
-:	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-convection	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-(	NN	O	O
-at	NN	O	O
-least	NN	O	O
-in	NN	O	O
-the	NN	O	O
-absence	NN	O	O
-of	NN	O	O
-flow	NN	O	O
-in	NN	O	O
-the	NN	O	O
-melt	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
+The	0	3	O
+particular	4	14	O
+phase	15	20	B-Task
+field	21	26	I-Task
+model	27	32	I-Task
+we	33	35	O
+employ	36	42	O
+is	43	45	O
+an	46	48	O
+extension	49	58	O
+of	59	61	O
+[	62	63	O
+6	63	64	O
+]	64	65	O
+,	65	66	O
+and	67	70	O
+is	71	73	O
+based	74	79	O
+on	80	82	O
+the	83	86	O
+three	87	92	B-Process
+dimensional	93	104	I-Process
+thermal	105	112	I-Process
+phase	113	118	I-Process
+field	119	124	I-Process
+model	125	130	I-Process
+of	131	133	O
+[	134	135	O
+7	135	136	O
+]	136	137	O
+and	138	141	O
+two	142	145	B-Process
+dimensional	146	157	I-Process
+thermal	158	165	I-Process
+-	165	166	I-Process
+solutal	166	173	I-Process
+phase	174	179	I-Process
+field	180	185	I-Process
+model	186	191	I-Process
+of	192	194	O
+[	195	196	O
+8	196	197	O
+]	197	198	O
+.	198	199	O
+
+One	200	203	O
+feature	204	211	O
+of	212	214	O
+the	215	218	O
+physical	219	227	O
+problem	228	235	O
+is	236	238	O
+that	239	243	O
+it	244	246	O
+is	247	249	O
+purely	250	256	O
+dissipative	257	268	O
+,	268	269	O
+or	270	272	O
+entropy	273	280	O
+increasing	281	291	O
+,	291	292	O
+as	293	295	O
+all	296	299	O
+natural	300	307	O
+relaxational	308	320	O
+phenomena	321	330	O
+are	331	334	O
+.	334	335	O
+
+The	336	339	O
+resulting	340	349	O
+PDEs	350	354	B-Material
+are	355	358	O
+of	359	361	O
+Allen	362	367	O
+–	367	368	O
+Cahn	368	372	O
+
+[	373	374	O
+9	374	375	O
+]	375	376	O
+and	377	380	O
+Carn	381	385	O
+–	385	386	O
+Hilliard	386	394	O
+type	395	399	O
+[	400	401	O
+10	401	403	O
+]	403	404	O
+.	404	405	O
+
+That	406	410	O
+is	411	413	O
+to	414	416	O
+say	417	420	O
+,	420	421	O
+the	422	425	O
+model	426	431	O
+involves	432	440	O
+time	441	445	B-Process
+derivatives	446	457	I-Process
+of	458	460	I-Process
+the	461	464	I-Process
+three	465	470	I-Process
+fields	471	477	I-Process
+coupled	478	485	I-Process
+to	486	488	I-Process
+forms	489	494	I-Process
+involving	495	504	I-Process
+variational	505	516	I-Process
+derivatives	517	528	I-Process
+of	529	531	O
+some	532	536	O
+functional	537	547	B-Process
+–	548	549	O
+typically	550	559	O
+the	560	563	O
+free	564	568	B-Process
+energy	569	575	I-Process
+functional	576	586	I-Process
+.	586	587	O
+
+As	588	590	O
+the	591	594	O
+dendrite	595	603	B-Material
+grows	604	609	O
+the	610	613	O
+free	614	618	O
+energy	619	625	O
+reduces	626	633	O
+monotonically	634	647	O
+with	648	652	O
+time	653	657	O
+but	658	661	O
+never	662	667	O
+achieves	668	676	O
+equilibrium	677	688	O
+if	689	691	O
+the	692	695	O
+domain	696	702	O
+boundary	703	711	O
+is	712	714	O
+far	715	718	O
+from	719	723	O
+the	724	727	O
+dendrite	728	736	B-Material
+.	736	737	O
+
+Although	738	746	O
+we	747	749	O
+have	750	754	O
+listed	755	761	O
+some	762	766	O
+of	767	769	O
+the	770	773	O
+difficult	774	783	O
+aspects	784	791	O
+of	792	794	O
+this	795	799	O
+model	800	805	O
+,	805	806	O
+the	807	810	O
+relaxational	811	823	O
+aspect	824	830	O
+is	831	833	O
+typically	834	843	O
+an	844	846	O
+asset	847	852	O
+and	853	856	O
+results	857	864	O
+in	865	867	O
+stable	868	874	O
+numerical	875	884	B-Process
+schemes	885	892	I-Process
+:	892	893	O
+there	894	899	O
+is	900	902	O
+no	903	905	O
+convection	906	916	O
+,	916	917	O
+for	918	921	O
+example	922	929	O
+(	930	931	O
+at	931	933	O
+least	934	939	O
+in	940	942	O
+the	943	946	O
+absence	947	954	O
+of	955	957	O
+flow	958	962	O
+in	963	965	O
+the	966	969	O
+melt	970	974	B-Material
+)	974	975	O
+.	975	976	O
 
 
 -DOCSTART- (S0021999115001412)
 
-Inspired	NN	O	O
-by	NN	O	O
-energy	NN	O	O
--	NN	O	O
-fueled	NN	O	O
-phenomena	NN	O	O
-such	NN	O	O
-as	NN	O	O
-cortical	NN	O	B-Process
-cytoskeleton	NN	O	I-Process
-flows	NN	O	I-Process
-[	NN	O	O
-46,45,32	NN	O	O
-]	NN	O	O
-during	NN	O	O
-biological	NN	O	B-Process
-morphogenesis	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-theory	NN	O	B-Task
-of	NN	O	I-Task
-active	NN	O	I-Task
-polar	NN	O	I-Task
-viscous	NN	O	I-Task
-gels	NN	O	I-Task
-has	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-[	NN	O	O
-37,33	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-theory	NN	O	O
-models	NN	O	B-Process
-the	NN	O	I-Process
-continuum	NN	O	I-Process
-,	NN	O	I-Process
-macroscopic	NN	O	I-Process
-mechanics	NN	O	I-Process
-of	NN	O	O
-a	NN	O	O
-collection	NN	O	O
-of	NN	O	O
-uniaxial	NN	O	B-Material
-active	NN	O	I-Material
-agents	NN	O	I-Material
-,	NN	O	O
-embedded	NN	O	O
-in	NN	O	O
-a	NN	O	O
-viscous	NN	O	B-Material
-bulk	NN	O	I-Material
-medium	NN	O	I-Material
-,	NN	O	O
-in	NN	O	O
-which	NN	O	O
-internal	NN	O	O
-stresses	NN	O	O
-are	NN	O	O
-induced	NN	O	O
-due	NN	O	O
-to	NN	O	O
-dissipation	NN	O	O
-of	NN	O	O
-energy	NN	O	O
-[	NN	O	O
-41,58	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-energy	NN	O	O
--	NN	O	O
-consuming	NN	O	O
-uniaxial	NN	O	B-Material
-polar	NN	O	I-Material
-agents	NN	O	I-Material
-constituting	NN	O	O
-the	NN	O	O
-gel	NN	O	B-Material
-are	NN	O	O
-modeled	NN	O	O
-as	NN	O	O
-unit	NN	O	O
-vectors	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-average	NN	O	O
-of	NN	O	O
-unit	NN	O	O
-vectors	NN	O	O
-in	NN	O	O
-a	NN	O	O
-small	NN	O	O
-local	NN	O	O
-volume	NN	O	O
-at	NN	O	O
-each	NN	O	O
-point	NN	O	O
-defines	NN	O	O
-the	NN	O	O
-macroscopic	NN	O	O
-directionality	NN	O	O
-of	NN	O	O
-the	NN	O	O
-agents	NN	O	O
-and	NN	O	O
-is	NN	O	O
-described	NN	O	O
-by	NN	O	O
-a	NN	O	O
-polarization	NN	O	B-Process
-field	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-polarization	NN	O	B-Process
-field	NN	O	I-Process
-is	NN	O	O
-governed	NN	O	O
-by	NN	O	O
-an	NN	O	O
-equation	NN	O	B-Process
-of	NN	O	I-Process
-motion	NN	O	I-Process
-accounting	NN	O	O
-for	NN	O	O
-energy	NN	O	O
-consumption	NN	O	O
-and	NN	O	O
-for	NN	O	O
-the	NN	O	O
-strain	NN	O	O
-rate	NN	O	O
-in	NN	O	O
-the	NN	O	O
-fluid	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-relationship	NN	O	O
-between	NN	O	O
-the	NN	O	O
-strain	NN	O	O
-rate	NN	O	O
-and	NN	O	O
-the	NN	O	O
-stress	NN	O	O
-in	NN	O	O
-the	NN	O	O
-fluid	NN	O	O
-is	NN	O	O
-provided	NN	O	O
-by	NN	O	O
-a	NN	O	O
-constitutive	NN	O	B-Process
-equation	NN	O	I-Process
-that	NN	O	O
-accounts	NN	O	O
-for	NN	O	O
-anisotropic	NN	O	O
-,	NN	O	O
-polar	NN	O	O
-agents	NN	O	O
-and	NN	O	O
-consumption	NN	O	O
-of	NN	O	O
-energy	NN	O	O
-.	NN	O	O
-
-These	NN	O	B-Process
-equations	NN	O	I-Process
-,	NN	O	I-Process
-along	NN	O	I-Process
-with	NN	O	I-Process
-conservation	NN	O	I-Process
-of	NN	O	I-Process
-momentum	NN	O	I-Process
-,	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-continuum	NN	O	B-Process
-hydrodynamic	NN	O	I-Process
-description	NN	O	I-Process
-modeling	NN	O	O
-active	NN	O	O
-polar	NN	O	B-Material
-viscous	NN	O	I-Material
-gels	NN	O	I-Material
-as	NN	O	O
-an	NN	O	O
-energy	NN	O	B-Material
-consuming	NN	O	I-Material
-,	NN	O	I-Material
-anisotropic	NN	O	I-Material
-,	NN	O	I-Material
-non	NN	O	I-Material
--	NN	O	I-Material
-Newtonian	NN	O	I-Material
-fluid	NN	O	I-Material
-[	NN	O	O
-37,33,32,41	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resulting	NN	O	O
-partial	NN	O	O
-differential	NN	O	O
-equations	NN	O	O
-governing	NN	O	O
-the	NN	O	O
-hydrodynamics	NN	O	O
-of	NN	O	O
-active	NN	O	B-Material
-polar	NN	O	I-Material
-viscous	NN	O	I-Material
-gels	NN	O	I-Material
-are	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-in	NN	O	O
-general	NN	O	O
-analytically	NN	O	O
-intractable	NN	O	O
-.	NN	O	O
+Inspired	0	8	O
+by	9	11	O
+energy	12	18	O
+-	18	19	O
+fueled	19	25	O
+phenomena	26	35	O
+such	36	40	O
+as	41	43	O
+cortical	44	52	B-Process
+cytoskeleton	53	65	I-Process
+flows	66	71	I-Process
+[	72	73	O
+46,45,32	73	81	O
+]	81	82	O
+during	83	89	O
+biological	90	100	B-Process
+morphogenesis	101	114	I-Process
+,	114	115	O
+the	116	119	O
+theory	120	126	B-Task
+of	127	129	I-Task
+active	130	136	I-Task
+polar	137	142	I-Task
+viscous	143	150	I-Task
+gels	151	155	I-Task
+has	156	159	O
+been	160	164	O
+developed	165	174	O
+[	175	176	O
+37,33	176	181	O
+]	181	182	O
+.	182	183	O
+
+The	184	187	O
+theory	188	194	O
+models	195	201	B-Process
+the	202	205	I-Process
+continuum	206	215	I-Process
+,	215	216	I-Process
+macroscopic	217	228	I-Process
+mechanics	229	238	I-Process
+of	239	241	O
+a	242	243	O
+collection	244	254	O
+of	255	257	O
+uniaxial	258	266	B-Material
+active	267	273	I-Material
+agents	274	280	I-Material
+,	280	281	O
+embedded	282	290	O
+in	291	293	O
+a	294	295	O
+viscous	296	303	B-Material
+bulk	304	308	I-Material
+medium	309	315	I-Material
+,	315	316	O
+in	317	319	O
+which	320	325	O
+internal	326	334	O
+stresses	335	343	O
+are	344	347	O
+induced	348	355	O
+due	356	359	O
+to	360	362	O
+dissipation	363	374	O
+of	375	377	O
+energy	378	384	O
+[	385	386	O
+41,58	386	391	O
+]	391	392	O
+.	392	393	O
+
+The	394	397	O
+energy	398	404	O
+-	404	405	O
+consuming	405	414	O
+uniaxial	415	423	B-Material
+polar	424	429	I-Material
+agents	430	436	I-Material
+constituting	437	449	O
+the	450	453	O
+gel	454	457	B-Material
+are	458	461	O
+modeled	462	469	O
+as	470	472	O
+unit	473	477	O
+vectors	478	485	O
+.	485	486	O
+
+The	487	490	O
+average	491	498	O
+of	499	501	O
+unit	502	506	O
+vectors	507	514	O
+in	515	517	O
+a	518	519	O
+small	520	525	O
+local	526	531	O
+volume	532	538	O
+at	539	541	O
+each	542	546	O
+point	547	552	O
+defines	553	560	O
+the	561	564	O
+macroscopic	565	576	O
+directionality	577	591	O
+of	592	594	O
+the	595	598	O
+agents	599	605	O
+and	606	609	O
+is	610	612	O
+described	613	622	O
+by	623	625	O
+a	626	627	O
+polarization	628	640	B-Process
+field	641	646	I-Process
+.	646	647	O
+
+The	648	651	O
+polarization	652	664	B-Process
+field	665	670	I-Process
+is	671	673	O
+governed	674	682	O
+by	683	685	O
+an	686	688	O
+equation	689	697	B-Process
+of	698	700	I-Process
+motion	701	707	I-Process
+accounting	708	718	O
+for	719	722	O
+energy	723	729	O
+consumption	730	741	O
+and	742	745	O
+for	746	749	O
+the	750	753	O
+strain	754	760	O
+rate	761	765	O
+in	766	768	O
+the	769	772	O
+fluid	773	778	B-Material
+.	778	779	O
+
+The	780	783	O
+relationship	784	796	O
+between	797	804	O
+the	805	808	O
+strain	809	815	O
+rate	816	820	O
+and	821	824	O
+the	825	828	O
+stress	829	835	O
+in	836	838	O
+the	839	842	O
+fluid	843	848	O
+is	849	851	O
+provided	852	860	O
+by	861	863	O
+a	864	865	O
+constitutive	866	878	B-Process
+equation	879	887	I-Process
+that	888	892	O
+accounts	893	901	O
+for	902	905	O
+anisotropic	906	917	O
+,	917	918	O
+polar	919	924	O
+agents	925	931	O
+and	932	935	O
+consumption	936	947	O
+of	948	950	O
+energy	951	957	O
+.	957	958	O
+
+These	959	964	B-Process
+equations	965	974	I-Process
+,	974	975	I-Process
+along	976	981	I-Process
+with	982	986	I-Process
+conservation	987	999	I-Process
+of	1000	1002	I-Process
+momentum	1003	1011	I-Process
+,	1011	1012	O
+provide	1013	1020	O
+a	1021	1022	O
+continuum	1023	1032	B-Process
+hydrodynamic	1033	1045	I-Process
+description	1046	1057	I-Process
+modeling	1058	1066	O
+active	1067	1073	O
+polar	1074	1079	B-Material
+viscous	1080	1087	I-Material
+gels	1088	1092	I-Material
+as	1093	1095	O
+an	1096	1098	O
+energy	1099	1105	B-Material
+consuming	1106	1115	I-Material
+,	1115	1116	I-Material
+anisotropic	1117	1128	I-Material
+,	1128	1129	I-Material
+non	1130	1133	I-Material
+-	1133	1134	I-Material
+Newtonian	1134	1143	I-Material
+fluid	1144	1149	I-Material
+[	1150	1151	O
+37,33,32,41	1151	1162	O
+]	1162	1163	O
+.	1163	1164	O
+
+The	1165	1168	O
+resulting	1169	1178	O
+partial	1179	1186	O
+differential	1187	1199	O
+equations	1200	1209	O
+governing	1210	1219	O
+the	1220	1223	O
+hydrodynamics	1224	1237	O
+of	1238	1240	O
+active	1241	1247	B-Material
+polar	1248	1253	I-Material
+viscous	1254	1261	I-Material
+gels	1262	1266	I-Material
+are	1267	1270	O
+,	1270	1271	O
+however	1272	1279	O
+,	1279	1280	O
+in	1281	1283	O
+general	1284	1291	O
+analytically	1292	1304	O
+intractable	1305	1316	O
+.	1316	1317	O
 
 
 -DOCSTART- (S0021999115003459)
 
-The	NN	O	O
-boundary	NN	O	B-Process
-element	NN	O	I-Process
-method	NN	O	I-Process
-(	NN	O	O
-BEM	NN	O	B-Process
-)	NN	O	O
-has	NN	O	O
-clear	NN	O	O
-advantages	NN	O	O
-when	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-shape	NN	O	B-Task
-optimisation	NN	O	I-Task
-of	NN	O	I-Task
-high	NN	O	I-Task
--	NN	O	I-Task
-voltage	NN	O	I-Task
-devices	NN	O	I-Task
-,	NN	O	O
-see	NN	O	O
-[	NN	O	O
-4–8	NN	O	O
-]	NN	O	O
-for	NN	O	O
-an	NN	O	O
-introduction	NN	O	O
-to	NN	O	O
-BEM	NN	O	B-Process
-.	NN	O	O
-
-First	NN	O	O
-of	NN	O	O
-all	NN	O	O
-,	NN	O	O
-BEM	NN	O	B-Process
-relies	NN	O	O
-only	NN	O	O
-on	NN	O	O
-a	NN	O	O
-surface	NN	O	B-Process
-discretisation	NN	O	I-Process
-so	NN	O	O
-that	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-need	NN	O	O
-to	NN	O	O
-maintain	NN	O	O
-an	NN	O	O
-analysis	NN	O	O
--	NN	O	O
-suitable	NN	O	O
-volume	NN	O	O
-discretisation	NN	O	O
-during	NN	O	O
-the	NN	O	O
-shape	NN	O	B-Process
-optimisation	NN	O	I-Process
-process	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-BEM	NN	O	B-Process
-is	NN	O	O
-ideal	NN	O	O
-for	NN	O	O
-solving	NN	O	B-Task
-problems	NN	O	I-Task
-in	NN	O	I-Task
-unbounded	NN	O	I-Task
-domains	NN	O	I-Task
-that	NN	O	O
-occur	NN	O	O
-in	NN	O	O
-electrostatic	NN	O	B-Process
-field	NN	O	I-Process
-analysis	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-gradient	NN	O	B-Task
--	NN	O	I-Task
-based	NN	O	I-Task
-shape	NN	O	I-Task
-optimisation	NN	O	I-Task
-the	NN	O	O
-shape	NN	O	B-Process
-derivative	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-cost	NN	O	O
-functional	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-geometry	NN	O	O
-perturbations	NN	O	O
-is	NN	O	O
-needed	NN	O	O
-[	NN	O	O
-9–11	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-this	NN	O	O
-purpose	NN	O	O
-,	NN	O	O
-we	NN	O	O
-use	NN	O	O
-the	NN	O	O
-adjoint	NN	O	B-Process
-approach	NN	O	I-Process
-and	NN	O	O
-solve	NN	O	O
-the	NN	O	O
-primary	NN	O	B-Task
-and	NN	O	I-Task
-the	NN	O	I-Task
-adjoint	NN	O	I-Task
-boundary	NN	O	I-Task
-value	NN	O	I-Task
-problems	NN	O	I-Task
-with	NN	O	O
-BEM	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-associated	NN	O	O
-linear	NN	O	O
-systems	NN	O	O
-of	NN	O	O
-equations	NN	O	O
-are	NN	O	O
-dense	NN	O	O
-and	NN	O	O
-an	NN	O	O
-acceleration	NN	O	O
-technique	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-fast	NN	O	B-Process
-multipole	NN	O	I-Process
-method	NN	O	I-Process
-[	NN	O	O
-12,13	NN	O	O
-]	NN	O	O
-,	NN	O	O
-is	NN	O	O
-necessary	NN	O	O
-for	NN	O	O
-their	NN	O	O
-efficient	NN	O	O
-solution	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-some	NN	O	O
-recent	NN	O	O
-applications	NN	O	O
-of	NN	O	O
-fast	NN	O	B-Task
-BEM	NN	O	I-Task
-in	NN	O	I-Task
-shape	NN	O	I-Task
-optimisation	NN	O	I-Task
-and	NN	O	O
-Bernoulli	NN	O	B-Task
--	NN	O	I-Task
-type	NN	O	I-Task
-free	NN	O	I-Task
--	NN	O	I-Task
-boundary	NN	O	I-Task
-problems	NN	O	I-Task
-we	NN	O	O
-refer	NN	O	O
-to	NN	O	O
-[	NN	O	O
-14–16	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+boundary	4	12	B-Process
+element	13	20	I-Process
+method	21	27	I-Process
+(	28	29	O
+BEM	29	32	B-Process
+)	32	33	O
+has	34	37	O
+clear	38	43	O
+advantages	44	54	O
+when	55	59	O
+applied	60	67	O
+to	68	70	O
+shape	71	76	B-Task
+optimisation	77	89	I-Task
+of	90	92	I-Task
+high	93	97	I-Task
+-	97	98	I-Task
+voltage	98	105	I-Task
+devices	106	113	I-Task
+,	113	114	O
+see	115	118	O
+[	119	120	O
+4–8	120	123	O
+]	123	124	O
+for	125	128	O
+an	129	131	O
+introduction	132	144	O
+to	145	147	O
+BEM	148	151	B-Process
+.	151	152	O
+
+First	153	158	O
+of	159	161	O
+all	162	165	O
+,	165	166	O
+BEM	167	170	B-Process
+relies	171	177	O
+only	178	182	O
+on	183	185	O
+a	186	187	O
+surface	188	195	B-Process
+discretisation	196	210	I-Process
+so	211	213	O
+that	214	218	O
+there	219	224	O
+is	225	227	O
+no	228	230	O
+need	231	235	O
+to	236	238	O
+maintain	239	247	O
+an	248	250	O
+analysis	251	259	O
+-	259	260	O
+suitable	260	268	O
+volume	269	275	O
+discretisation	276	290	O
+during	291	297	O
+the	298	301	O
+shape	302	307	B-Process
+optimisation	308	320	I-Process
+process	321	328	O
+.	328	329	O
+
+Moreover	330	338	O
+,	338	339	O
+BEM	340	343	B-Process
+is	344	346	O
+ideal	347	352	O
+for	353	356	O
+solving	357	364	B-Task
+problems	365	373	I-Task
+in	374	376	I-Task
+unbounded	377	386	I-Task
+domains	387	394	I-Task
+that	395	399	O
+occur	400	405	O
+in	406	408	O
+electrostatic	409	422	B-Process
+field	423	428	I-Process
+analysis	429	437	I-Process
+.	437	438	O
+
+In	439	441	O
+gradient	442	450	B-Task
+-	450	451	I-Task
+based	451	456	I-Task
+shape	457	462	I-Task
+optimisation	463	475	I-Task
+the	476	479	O
+shape	480	485	B-Process
+derivative	486	496	I-Process
+of	497	499	O
+the	500	503	O
+cost	504	508	O
+functional	509	519	O
+with	520	524	O
+respect	525	532	O
+to	533	535	O
+geometry	536	544	O
+perturbations	545	558	O
+is	559	561	O
+needed	562	568	O
+[	569	570	O
+9–11	570	574	O
+]	574	575	O
+.	575	576	O
+
+To	577	579	O
+this	580	584	O
+purpose	585	592	O
+,	592	593	O
+we	594	596	O
+use	597	600	O
+the	601	604	O
+adjoint	605	612	B-Process
+approach	613	621	I-Process
+and	622	625	O
+solve	626	631	O
+the	632	635	O
+primary	636	643	B-Task
+and	644	647	I-Task
+the	648	651	I-Task
+adjoint	652	659	I-Task
+boundary	660	668	I-Task
+value	669	674	I-Task
+problems	675	683	I-Task
+with	684	688	O
+BEM	689	692	B-Process
+.	692	693	O
+
+The	694	697	O
+associated	698	708	O
+linear	709	715	O
+systems	716	723	O
+of	724	726	O
+equations	727	736	O
+are	737	740	O
+dense	741	746	O
+and	747	750	O
+an	751	753	O
+acceleration	754	766	O
+technique	767	776	O
+,	776	777	O
+such	778	782	O
+as	783	785	O
+the	786	789	O
+fast	790	794	B-Process
+multipole	795	804	I-Process
+method	805	811	I-Process
+[	812	813	O
+12,13	813	818	O
+]	818	819	O
+,	819	820	O
+is	821	823	O
+necessary	824	833	O
+for	834	837	O
+their	838	843	O
+efficient	844	853	O
+solution	854	862	O
+.	862	863	O
+
+For	864	867	O
+some	868	872	O
+recent	873	879	O
+applications	880	892	O
+of	893	895	O
+fast	896	900	B-Task
+BEM	901	904	I-Task
+in	905	907	I-Task
+shape	908	913	I-Task
+optimisation	914	926	I-Task
+and	927	930	O
+Bernoulli	931	940	B-Task
+-	940	941	I-Task
+type	941	945	I-Task
+free	946	950	I-Task
+-	950	951	I-Task
+boundary	951	959	I-Task
+problems	960	968	I-Task
+we	969	971	O
+refer	972	977	O
+to	978	980	O
+[	981	982	O
+14–16	982	987	O
+]	987	988	O
+.	988	989	O
 
 
 -DOCSTART- (S0021999115003939)
 
-The	NN	O	O
-extrapolation	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-upwind	NN	O	I-Task
-value	NN	O	I-Task
-required	NN	O	O
-for	NN	O	O
-TVD	NN	O	B-Process
-differencing	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-particular	NN	O	O
-hurdle	NN	O	O
-for	NN	O	O
-the	NN	O	O
-application	NN	O	O
-on	NN	O	O
-unstructured	NN	O	B-Material
-meshes	NN	O	I-Material
-.	NN	O	O
-
-As	NN	O	O
-discussed	NN	O	O
-in	NN	O	O
-Section	NN	O	O
-3.2	NN	O	O
-,	NN	O	O
-two	NN	O	O
-methods	NN	O	O
-to	NN	O	O
-extrapolate	NN	O	O
-the	NN	O	O
-value	NN	O	O
-at	NN	O	O
-the	NN	O	O
-virtual	NN	O	O
-upwind	NN	O	O
-node	NN	O	O
-,	NN	O	O
-using	NN	O	O
-data	NN	O	B-Material
-readily	NN	O	I-Material
-available	NN	O	I-Material
-on	NN	O	I-Material
-unstructured	NN	O	I-Material
-meshes	NN	O	I-Material
-,	NN	O	O
-are	NN	O	O
-considered	NN	O	O
-.	NN	O	O
-
-Given	NN	O	O
-how	NN	O	O
-the	NN	O	O
-virtual	NN	O	B-Process
-upwind	NN	O	I-Process
-node	NN	O	I-Process
-is	NN	O	I-Process
-incorporated	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-gradient	NN	O	I-Process
-ratio	NN	O	I-Process
-rf	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-extrapolation	NN	O	O
-method	NN	O	O
-of	NN	O	O
-Darwish	NN	O	B-Process
-and	NN	O	I-Process
-Moukalled	NN	O	I-Process
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-is	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-implicit	NN	O	B-Process
-extrapolation	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-method	NN	O	B-Process
-introduced	NN	O	I-Process
-by	NN	O	I-Process
-Ubbink	NN	O	I-Process
-and	NN	O	I-Process
-Issa	NN	O	I-Process
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-as	NN	O	O
-explicit	NN	O	B-Process
-extrapolation	NN	O	I-Process
-.	NN	O	O
-
-Both	NN	O	O
-methods	NN	O	O
-precisely	NN	O	O
-reconstruct	NN	O	O
-the	NN	O	O
-upwind	NN	O	O
-value	NN	O	O
-for	NN	O	O
-equidistant	NN	O	B-Material
-,	NN	O	I-Material
-rectilinear	NN	O	I-Material
-meshes	NN	O	I-Material
-but	NN	O	O
-fail	NN	O	O
-to	NN	O	O
-do	NN	O	O
-so	NN	O	O
-on	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-equidistant	NN	O	I-Material
-or	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-rectilinear	NN	O	I-Material
-meshes	NN	O	I-Material
-,	NN	O	O
-as	NN	O	O
-discussed	NN	O	O
-in	NN	O	O
-Section	NN	O	O
-3.2	NN	O	O
-.	NN	O	O
-
-Using	NN	O	O
-the	NN	O	O
-explicit	NN	O	B-Process
-extrapolation	NN	O	I-Process
-method	NN	O	O
-this	NN	O	O
-issue	NN	O	O
-can	NN	O	O
-be	NN	O	O
-rectified	NN	O	O
-by	NN	O	O
-imposing	NN	O	O
-appropriate	NN	O	O
-limits	NN	O	O
-on	NN	O	O
-the	NN	O	O
-extrapolated	NN	O	O
-upwind	NN	O	O
-value	NN	O	O
-.	NN	O	O
+The	0	3	O
+extrapolation	4	17	B-Task
+of	18	20	I-Task
+the	21	24	I-Task
+upwind	25	31	I-Task
+value	32	37	I-Task
+required	38	46	O
+for	47	50	O
+TVD	51	54	B-Process
+differencing	55	67	I-Process
+is	68	70	O
+a	71	72	O
+particular	73	83	O
+hurdle	84	90	O
+for	91	94	O
+the	95	98	O
+application	99	110	O
+on	111	113	O
+unstructured	114	126	B-Material
+meshes	127	133	I-Material
+.	133	134	O
+
+As	135	137	O
+discussed	138	147	O
+in	148	150	O
+Section	151	158	O
+3.2	159	162	O
+,	162	163	O
+two	164	167	O
+methods	168	175	O
+to	176	178	O
+extrapolate	179	190	O
+the	191	194	O
+value	195	200	O
+at	201	203	O
+the	204	207	O
+virtual	208	215	O
+upwind	216	222	O
+node	223	227	O
+,	227	228	O
+using	229	234	O
+data	235	239	B-Material
+readily	240	247	I-Material
+available	248	257	I-Material
+on	258	260	I-Material
+unstructured	261	273	I-Material
+meshes	274	280	I-Material
+,	280	281	O
+are	282	285	O
+considered	286	296	O
+.	296	297	O
+
+Given	298	303	O
+how	304	307	O
+the	308	311	O
+virtual	312	319	B-Process
+upwind	320	326	I-Process
+node	327	331	I-Process
+is	332	334	I-Process
+incorporated	335	347	I-Process
+in	348	350	I-Process
+the	351	354	I-Process
+gradient	355	363	I-Process
+ratio	364	369	I-Process
+rf	370	372	I-Process
+,	372	373	O
+the	374	377	O
+extrapolation	378	391	O
+method	392	398	O
+of	399	401	O
+Darwish	402	409	B-Process
+and	410	413	I-Process
+Moukalled	414	423	I-Process
+[	424	425	O
+13	425	427	O
+]	427	428	O
+is	429	431	O
+referred	432	440	O
+to	441	443	O
+as	444	446	O
+implicit	447	455	B-Process
+extrapolation	456	469	I-Process
+and	470	473	O
+the	474	477	O
+method	478	484	B-Process
+introduced	485	495	I-Process
+by	496	498	I-Process
+Ubbink	499	505	I-Process
+and	506	509	I-Process
+Issa	510	514	I-Process
+[	515	516	O
+12	516	518	O
+]	518	519	O
+as	520	522	O
+explicit	523	531	B-Process
+extrapolation	532	545	I-Process
+.	545	546	O
+
+Both	547	551	O
+methods	552	559	O
+precisely	560	569	O
+reconstruct	570	581	O
+the	582	585	O
+upwind	586	592	O
+value	593	598	O
+for	599	602	O
+equidistant	603	614	B-Material
+,	614	615	I-Material
+rectilinear	616	627	I-Material
+meshes	628	634	I-Material
+but	635	638	O
+fail	639	643	O
+to	644	646	O
+do	647	649	O
+so	650	652	O
+on	653	655	O
+non	656	659	B-Material
+-	659	660	I-Material
+equidistant	660	671	I-Material
+or	672	674	O
+non	675	678	B-Material
+-	678	679	I-Material
+rectilinear	679	690	I-Material
+meshes	691	697	I-Material
+,	697	698	O
+as	699	701	O
+discussed	702	711	O
+in	712	714	O
+Section	715	722	O
+3.2	723	726	O
+.	726	727	O
+
+Using	728	733	O
+the	734	737	O
+explicit	738	746	B-Process
+extrapolation	747	760	I-Process
+method	761	767	O
+this	768	772	O
+issue	773	778	O
+can	779	782	O
+be	783	785	O
+rectified	786	795	O
+by	796	798	O
+imposing	799	807	O
+appropriate	808	819	O
+limits	820	826	O
+on	827	829	O
+the	830	833	O
+extrapolated	834	846	O
+upwind	847	853	O
+value	854	859	O
+.	859	860	O
 
 
 -DOCSTART- (S0021999115004301)
 
-A	NN	O	O
-popular	NN	O	O
-choice	NN	O	O
-is	NN	O	O
-to	NN	O	O
-couple	NN	O	B-Process
-a	NN	O	I-Process
-set	NN	O	I-Process
-of	NN	O	I-Process
-quadrature	NN	O	I-Process
-points	NN	O	I-Process
-with	NN	O	I-Process
-an	NN	O	I-Process
-equal	NN	O	I-Process
-number	NN	O	I-Process
-of	NN	O	I-Process
-nodal	NN	O	I-Process
-Lagrange	NN	O	I-Process
-polynomials	NN	O	I-Process
-defined	NN	O	O
-at	NN	O	O
-the	NN	O	O
-same	NN	O	O
-points	NN	O	O
-,	NN	O	O
-leading	NN	O	O
-to	NN	O	O
-a	NN	O	O
-collocation	NN	O	B-Process
-method	NN	O	I-Process
-.	NN	O	O
-
-There	NN	O	O
-are	NN	O	O
-many	NN	O	O
-examples	NN	O	O
-of	NN	O	O
-this	NN	O	O
-throughout	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-,	NN	O	O
-both	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-the	NN	O	O
-more	NN	O	O
-traditionally	NN	O	O
-utilised	NN	O	O
-continuous	NN	O	O
-Galerkin	NN	O	B-Process
-(	NN	O	O
-CG	NN	O	B-Process
-)	NN	O	O
-and	NN	O	O
-discontinuous	NN	O	B-Process
-Galerkin	NN	O	I-Process
-(	NN	O	O
-DG	NN	O	B-Process
-)	NN	O	O
-formulations	NN	O	O
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-newer	NN	O	B-Process
-extensions	NN	O	I-Process
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-flux	NN	O	B-Process
-reconstruction	NN	O	I-Process
-(	NN	O	O
-FR	NN	O	B-Process
-)	NN	O	O
-technique	NN	O	O
-as	NN	O	O
-presented	NN	O	O
-by	NN	O	O
-Huynh	NN	O	O
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-collocation	NN	O	B-Process
-methods	NN	O	I-Process
-,	NN	O	O
-while	NN	O	O
-most	NN	O	O
-linear	NN	O	B-Material
-operators	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-exactly	NN	O	O
-integrated	NN	O	O
-in	NN	O	O
-this	NN	O	O
-setting	NN	O	O
-depending	NN	O	O
-on	NN	O	O
-the	NN	O	O
-choice	NN	O	O
-of	NN	O	O
-quadrature	NN	O	O
-,	NN	O	O
-integrals	NN	O	O
-of	NN	O	O
-nonlinear	NN	O	O
-terms	NN	O	O
-typically	NN	O	O
-incur	NN	O	O
-numerical	NN	O	O
-error	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-efficiencies	NN	O	O
-that	NN	O	O
-can	NN	O	O
-be	NN	O	O
-attained	NN	O	O
-through	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-a	NN	O	O
-collocation	NN	O	B-Task
-formulation	NN	O	I-Task
-,	NN	O	I-Task
-especially	NN	O	I-Task
-given	NN	O	I-Task
-the	NN	O	I-Task
-presence	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-diagonal	NN	O	I-Task
-mass	NN	O	I-Task
-matrix	NN	O	I-Task
-,	NN	O	O
-often	NN	O	O
-outweigh	NN	O	O
-the	NN	O	O
-numerical	NN	O	O
-error	NN	O	O
-that	NN	O	O
-is	NN	O	O
-incurred	NN	O	O
-.	NN	O	O
+A	0	1	O
+popular	2	9	O
+choice	10	16	O
+is	17	19	O
+to	20	22	O
+couple	23	29	B-Process
+a	30	31	I-Process
+set	32	35	I-Process
+of	36	38	I-Process
+quadrature	39	49	I-Process
+points	50	56	I-Process
+with	57	61	I-Process
+an	62	64	I-Process
+equal	65	70	I-Process
+number	71	77	I-Process
+of	78	80	I-Process
+nodal	81	86	I-Process
+Lagrange	87	95	I-Process
+polynomials	96	107	I-Process
+defined	108	115	O
+at	116	118	O
+the	119	122	O
+same	123	127	O
+points	128	134	O
+,	134	135	O
+leading	136	143	O
+to	144	146	O
+a	147	148	O
+collocation	149	160	B-Process
+method	161	167	I-Process
+.	167	168	O
+
+There	169	174	O
+are	175	178	O
+many	179	183	O
+examples	184	192	O
+of	193	195	O
+this	196	200	O
+throughout	201	211	O
+the	212	215	O
+literature	216	226	O
+,	226	227	O
+both	228	232	O
+in	233	235	O
+terms	236	241	O
+of	242	244	O
+the	245	248	O
+more	249	253	O
+traditionally	254	267	O
+utilised	268	276	O
+continuous	277	287	O
+Galerkin	288	296	B-Process
+(	297	298	O
+CG	298	300	B-Process
+)	300	301	O
+and	302	305	O
+discontinuous	306	319	B-Process
+Galerkin	320	328	I-Process
+(	329	330	O
+DG	330	332	B-Process
+)	332	333	O
+formulations	334	346	O
+,	346	347	O
+as	348	350	O
+well	351	355	O
+as	356	358	O
+newer	359	364	B-Process
+extensions	365	375	I-Process
+such	376	380	O
+as	381	383	O
+the	384	387	O
+flux	388	392	B-Process
+reconstruction	393	407	I-Process
+(	408	409	O
+FR	409	411	B-Process
+)	411	412	O
+technique	413	422	O
+as	423	425	O
+presented	426	435	O
+by	436	438	O
+Huynh	439	444	O
+[	445	446	O
+23	446	448	O
+]	448	449	O
+.	449	450	O
+
+In	451	453	O
+collocation	454	465	B-Process
+methods	466	473	I-Process
+,	473	474	O
+while	475	480	O
+most	481	485	O
+linear	486	492	B-Material
+operators	493	502	I-Material
+can	503	506	O
+be	507	509	O
+exactly	510	517	O
+integrated	518	528	O
+in	529	531	O
+this	532	536	O
+setting	537	544	O
+depending	545	554	O
+on	555	557	O
+the	558	561	O
+choice	562	568	O
+of	569	571	O
+quadrature	572	582	O
+,	582	583	O
+integrals	584	593	O
+of	594	596	O
+nonlinear	597	606	O
+terms	607	612	O
+typically	613	622	O
+incur	623	628	O
+numerical	629	638	O
+error	639	644	O
+.	644	645	O
+
+However	646	653	O
+,	653	654	O
+the	655	658	O
+computational	659	672	O
+efficiencies	673	685	O
+that	686	690	O
+can	691	694	O
+be	695	697	O
+attained	698	706	O
+through	707	714	O
+the	715	718	O
+use	719	722	O
+of	723	725	O
+a	726	727	O
+collocation	728	739	B-Task
+formulation	740	751	I-Task
+,	751	752	I-Task
+especially	753	763	I-Task
+given	764	769	I-Task
+the	770	773	I-Task
+presence	774	782	I-Task
+of	783	785	I-Task
+a	786	787	I-Task
+diagonal	788	796	I-Task
+mass	797	801	I-Task
+matrix	802	808	I-Task
+,	808	809	O
+often	810	815	O
+outweigh	816	824	O
+the	825	828	O
+numerical	829	838	O
+error	839	844	O
+that	845	849	O
+is	850	852	O
+incurred	853	861	O
+.	861	862	O
 
 
 -DOCSTART- (S0021999115007238)
 
-An	NN	O	O
-inherent	NN	O	O
-problem	NN	O	O
-of	NN	O	O
-the	NN	O	O
-phase	NN	O	B-Task
--	NN	O	I-Task
-space	NN	O	I-Task
-discretisation	NN	O	I-Task
-is	NN	O	O
-the	NN	O	O
-spurious	NN	O	B-Process
-separation	NN	O	I-Process
-of	NN	O	I-Process
-energy	NN	O	I-Process
-into	NN	O	I-Process
-the	NN	O	I-Process
-discretised	NN	O	I-Process
-bins	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-called	NN	O	O
-the	NN	O	O
-“	NN	O	O
-Garden	NN	O	B-Task
-Sprinkler	NN	O	I-Task
-Effect	NN	O	I-Task
-”	NN	O	O
-and	NN	O	O
-has	NN	O	O
-been	NN	O	O
-extensively	NN	O	O
-studied	NN	O	O
-in	NN	O	O
-[	NN	O	O
-48,49,20	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-In	NN	O	O
-the	NN	O	O
-Boltzmann	NN	O	O
-transport	NN	O	O
-community	NN	O	O
-this	NN	O	O
-is	NN	O	O
-known	NN	O	O
-as	NN	O	O
-the	NN	O	O
-ray	NN	O	B-Task
-effect	NN	O	I-Task
-.	NN	O	O
-)	NN	O	O
-
-To	NN	O	O
-showcase	NN	O	O
-this	NN	O	O
-effect	NN	O	O
-in	NN	O	O
-the	NN	O	O
-angular	NN	O	O
-dimension	NN	O	O
-,	NN	O	O
-a	NN	O	O
-large	NN	O	O
-spatial	NN	O	B-Process
-domain	NN	O	I-Process
-(	NN	O	I-Process
-4000km×4000	NN	O	I-Process
-km	NN	O	I-Process
-)	NN	O	I-Process
-is	NN	O	I-Process
-simulated	NN	O	I-Process
-,	NN	O	O
-with	NN	O	O
-a	NN	O	O
-monochromatic	NN	O	B-Material
-wave	NN	O	I-Material
-propagating	NN	O	O
-over	NN	O	O
-a	NN	O	O
-long	NN	O	O
-distance	NN	O	O
-in	NN	O	O
-deep	NN	O	B-Material
-water	NN	O	I-Material
-(	NN	O	O
-d=10000	NN	O	O
-m	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-spatial	NN	O	B-Process
-discretisation	NN	O	I-Process
-a	NN	O	O
-structured	NN	O	B-Process
-triangle	NN	O	I-Process
-mesh	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-,	NN	O	O
-with	NN	O	O
-an	NN	O	O
-element	NN	O	O
-edge	NN	O	O
-length	NN	O	O
-of	NN	O	O
-67	NN	O	O
-km	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-11(a	NN	O	O
-)	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-initial	NN	O	O
-wave	NN	O	B-Material
-field	NN	O	I-Material
-,	NN	O	O
-located	NN	O	O
-500	NN	O	O
-km	NN	O	O
-from	NN	O	O
-the	NN	O	O
-lower	NN	O	O
-and	NN	O	O
-left	NN	O	O
-side	NN	O	O
-has	NN	O	O
-a	NN	O	O
-Gaussian	NN	O	B-Material
-distribution	NN	O	I-Material
-in	NN	O	I-Material
-space	NN	O	I-Material
-,	NN	O	O
-with	NN	O	O
-a	NN	O	O
-significant	NN	O	O
-wave	NN	O	B-Material
-height	NN	O	O
-of	NN	O	O
-Hs=2.5	NN	O	O
-m	NN	O	O
-and	NN	O	O
-a	NN	O	O
-standard	NN	O	O
-deviation	NN	O	O
-of	NN	O	O
-150	NN	O	O
-km	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-11(b	NN	O	O
-)	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Its	NN	O	O
-mean	NN	O	O
-direction	NN	O	O
-is	NN	O	O
-30	NN	O	O
-°	NN	O	O
-with	NN	O	O
-an	NN	O	O
-angular	NN	O	O
-distribution	NN	O	O
-of	NN	O	O
-cos2⁡(θ	NN	O	O
-)	NN	O	O
-and	NN	O	O
-a	NN	O	O
-frequency	NN	O	O
-of	NN	O	O
-0.1Hz	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-simulation	NN	O	B-Process
-is	NN	O	O
-time	NN	O	O
--	NN	O	O
-dependent	NN	O	O
-and	NN	O	O
-runs	NN	O	O
-for	NN	O	O
-5	NN	O	O
-days	NN	O	O
-with	NN	O	O
-a	NN	O	O
-time	NN	O	O
--	NN	O	O
-step	NN	O	O
-of	NN	O	O
-600s	NN	O	O
-.	NN	O	O
+An	0	2	O
+inherent	3	11	O
+problem	12	19	O
+of	20	22	O
+the	23	26	O
+phase	27	32	B-Task
+-	32	33	I-Task
+space	33	38	I-Task
+discretisation	39	53	I-Task
+is	54	56	O
+the	57	60	O
+spurious	61	69	B-Process
+separation	70	80	I-Process
+of	81	83	I-Process
+energy	84	90	I-Process
+into	91	95	I-Process
+the	96	99	I-Process
+discretised	100	111	I-Process
+bins	112	116	I-Process
+.	116	117	O
+
+This	118	122	O
+is	123	125	O
+called	126	132	O
+the	133	136	O
+“	137	138	O
+Garden	138	144	B-Task
+Sprinkler	145	154	I-Task
+Effect	155	161	I-Task
+”	161	162	O
+and	163	166	O
+has	167	170	O
+been	171	175	O
+extensively	176	187	O
+studied	188	195	O
+in	196	198	O
+[	199	200	O
+48,49,20	200	208	O
+]	208	209	O
+.	209	210	O
+
+(	211	212	O
+In	212	214	O
+the	215	218	O
+Boltzmann	219	228	O
+transport	229	238	O
+community	239	248	O
+this	249	253	O
+is	254	256	O
+known	257	262	O
+as	263	265	O
+the	266	269	O
+ray	270	273	B-Task
+effect	274	280	I-Task
+.	280	281	O
+)	281	282	O
+
+To	283	285	O
+showcase	286	294	O
+this	295	299	O
+effect	300	306	O
+in	307	309	O
+the	310	313	O
+angular	314	321	O
+dimension	322	331	O
+,	331	332	O
+a	333	334	O
+large	335	340	O
+spatial	341	348	B-Process
+domain	349	355	I-Process
+(	356	357	I-Process
+4000km×4000	357	368	I-Process
+km	368	370	I-Process
+)	370	371	I-Process
+is	372	374	I-Process
+simulated	375	384	I-Process
+,	384	385	O
+with	386	390	O
+a	391	392	O
+monochromatic	393	406	B-Material
+wave	407	411	I-Material
+propagating	412	423	O
+over	424	428	O
+a	429	430	O
+long	431	435	O
+distance	436	444	O
+in	445	447	O
+deep	448	452	B-Material
+water	453	458	I-Material
+(	459	460	O
+d=10000	460	467	O
+m	467	468	O
+)	468	469	O
+.	469	470	O
+
+For	471	474	O
+the	475	478	O
+spatial	479	486	B-Process
+discretisation	487	501	I-Process
+a	502	503	O
+structured	504	514	B-Process
+triangle	515	523	I-Process
+mesh	524	528	I-Process
+is	529	531	O
+used	532	536	O
+,	536	537	O
+with	538	542	O
+an	543	545	O
+element	546	553	O
+edge	554	558	O
+length	559	565	O
+of	566	568	O
+67	569	571	O
+km	571	573	O
+(	574	575	O
+Fig	575	578	O
+.	578	579	O
+
+11(a	580	584	O
+)	584	585	O
+)	585	586	O
+.	586	587	O
+
+The	588	591	O
+initial	592	599	O
+wave	600	604	B-Material
+field	605	610	I-Material
+,	610	611	O
+located	612	619	O
+500	620	623	O
+km	623	625	O
+from	626	630	O
+the	631	634	O
+lower	635	640	O
+and	641	644	O
+left	645	649	O
+side	650	654	O
+has	655	658	O
+a	659	660	O
+Gaussian	661	669	B-Material
+distribution	670	682	I-Material
+in	683	685	I-Material
+space	686	691	I-Material
+,	691	692	O
+with	693	697	O
+a	698	699	O
+significant	700	711	O
+wave	712	716	B-Material
+height	717	723	O
+of	724	726	O
+Hs=2.5	727	733	O
+m	733	734	O
+and	735	738	O
+a	739	740	O
+standard	741	749	O
+deviation	750	759	O
+of	760	762	O
+150	763	766	O
+km	766	768	O
+(	769	770	O
+Fig	770	773	O
+.	773	774	O
+
+11(b	775	779	O
+)	779	780	O
+)	780	781	O
+.	781	782	O
+
+Its	783	786	O
+mean	787	791	O
+direction	792	801	O
+is	802	804	O
+30	805	807	O
+°	807	808	O
+with	809	813	O
+an	814	816	O
+angular	817	824	O
+distribution	825	837	O
+of	838	840	O
+cos2⁡(θ	841	848	O
+)	848	849	O
+and	850	853	O
+a	854	855	O
+frequency	856	865	O
+of	866	868	O
+0.1Hz	869	874	O
+.	874	875	O
+
+The	876	879	O
+simulation	880	890	B-Process
+is	891	893	O
+time	894	898	O
+-	898	899	O
+dependent	899	908	O
+and	909	912	O
+runs	913	917	O
+for	918	921	O
+5	922	923	O
+days	924	928	O
+with	929	933	O
+a	934	935	O
+time	936	940	O
+-	940	941	O
+step	941	945	O
+of	946	948	O
+600s	949	953	O
+.	953	954	O
 
 
 -DOCSTART- (S0021999115008207)
 
-Multi	NN	O	B-Task
--	NN	O	I-Task
-phase	NN	O	I-Task
-flows	NN	O	I-Task
-are	NN	O	O
-common	NN	O	O
-,	NN	O	O
-in	NN	O	O
-fact	NN	O	O
-quite	NN	O	O
-general	NN	O	O
-,	NN	O	O
-in	NN	O	O
-environmental	NN	O	B-Process
-and	NN	O	I-Process
-industrial	NN	O	I-Process
-processes	NN	O	I-Process
-.	NN	O	O
-
-Broadly	NN	O	O
-these	NN	O	O
-may	NN	O	O
-be	NN	O	O
-modelled	NN	O	O
-as	NN	O	O
-continuous	NN	O	O
-problems	NN	O	O
-where	NN	O	O
-phases	NN	O	B-Process
-are	NN	O	I-Process
-mixed	NN	O	I-Process
-(	NN	O	O
-e.g.	NN	O	O
-oil	NN	O	B-Process
-–	NN	O	I-Process
-water	NN	O	I-Process
-homogenisation	NN	O	I-Process
-[	NN	O	O
-36	NN	O	O
-]	NN	O	O
-,	NN	O	O
-sediment	NN	O	B-Process
-transport	NN	O	I-Process
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-)	NN	O	O
-or	NN	O	O
-interface	NN	O	B-Process
-problems	NN	O	I-Process
-where	NN	O	O
-phases	NN	O	O
-are	NN	O	O
-distinct	NN	O	O
-and	NN	O	O
-interact	NN	O	O
-at	NN	O	O
-the	NN	O	O
-interface	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-gas	NN	O	B-Process
--	NN	O	I-Process
-assisted	NN	O	I-Process
-injection	NN	O	I-Process
-moulding	NN	O	I-Process
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-,	NN	O	O
-liquid	NN	O	B-Process
-jet	NN	O	I-Process
-breakup	NN	O	I-Process
-[	NN	O	O
-40	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-some	NN	O	O
-cases	NN	O	O
-flows	NN	O	O
-start	NN	O	O
-as	NN	O	O
-interface	NN	O	O
-problems	NN	O	O
-but	NN	O	O
-as	NN	O	O
-mixing	NN	O	B-Process
-occurs	NN	O	O
-at	NN	O	O
-the	NN	O	O
-interface	NN	O	O
-they	NN	O	O
-become	NN	O	O
-effectively	NN	O	O
-continuous	NN	O	O
-,	NN	O	O
-at	NN	O	O
-least	NN	O	O
-locally	NN	O	O
-.	NN	O	O
-
-Air	NN	O	B-Task
-entrainment	NN	O	I-Task
-,	NN	O	O
-perhaps	NN	O	O
-due	NN	O	O
-to	NN	O	O
-wave	NN	O	B-Process
-breaking	NN	O	I-Process
-,	NN	O	O
-is	NN	O	O
-an	NN	O	O
-obvious	NN	O	O
-example	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-consider	NN	O	O
-here	NN	O	O
-two	NN	O	B-Task
--	NN	O	I-Task
-phase	NN	O	I-Task
-interface	NN	O	I-Task
-problems	NN	O	I-Task
-where	NN	O	O
-the	NN	O	O
-interface	NN	O	O
-remains	NN	O	O
-distinct	NN	O	O
-and	NN	O	O
-the	NN	O	O
-density	NN	O	O
-difference	NN	O	O
-is	NN	O	O
-high	NN	O	O
-,	NN	O	O
-e.g.	NN	O	O
-air	NN	O	B-Material
-and	NN	O	O
-water	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-where	NN	O	O
-one	NN	O	O
-phase	NN	O	O
-may	NN	O	O
-be	NN	O	O
-considered	NN	O	O
-incompressible	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-interface	NN	O	O
-is	NN	O	O
-transient	NN	O	O
-and	NN	O	O
-may	NN	O	O
-become	NN	O	O
-highly	NN	O	O
-distorted	NN	O	B-Process
-and	NN	O	I-Process
-interconnected	NN	O	I-Process
-.	NN	O	O
-
-Such	NN	O	O
-problems	NN	O	O
-have	NN	O	O
-been	NN	O	O
-tackled	NN	O	O
-with	NN	O	O
-mesh	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-methods	NN	O	I-Process
-using	NN	O	O
-periodic	NN	O	O
-(	NN	O	O
-or	NN	O	O
-adaptive	NN	O	O
-)	NN	O	O
-re	NN	O	B-Process
--	NN	O	I-Process
-meshing	NN	O	I-Process
-or	NN	O	O
-additional	NN	O	O
-phase	NN	O	B-Process
-tracking	NN	O	I-Process
-functions	NN	O	I-Process
-[	NN	O	O
-40	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-these	NN	O	O
-approaches	NN	O	O
-can	NN	O	O
-be	NN	O	O
-time	NN	O	O
--	NN	O	O
-consuming	NN	O	O
-to	NN	O	O
-implement	NN	O	O
-and	NN	O	O
-prone	NN	O	O
-to	NN	O	O
-errors	NN	O	O
-in	NN	O	O
-surface	NN	O	O
-representation	NN	O	O
-[	NN	O	O
-50	NN	O	O
-]	NN	O	O
-or	NN	O	O
-mass	NN	O	O
-conservation	NN	O	O
-[	NN	O	O
-34	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Multi	0	5	B-Task
+-	5	6	I-Task
+phase	6	11	I-Task
+flows	12	17	I-Task
+are	18	21	O
+common	22	28	O
+,	28	29	O
+in	30	32	O
+fact	33	37	O
+quite	38	43	O
+general	44	51	O
+,	51	52	O
+in	53	55	O
+environmental	56	69	B-Process
+and	70	73	I-Process
+industrial	74	84	I-Process
+processes	85	94	I-Process
+.	94	95	O
+
+Broadly	96	103	O
+these	104	109	O
+may	110	113	O
+be	114	116	O
+modelled	117	125	O
+as	126	128	O
+continuous	129	139	O
+problems	140	148	O
+where	149	154	O
+phases	155	161	B-Process
+are	162	165	I-Process
+mixed	166	171	I-Process
+(	172	173	O
+e.g.	173	177	O
+oil	178	181	B-Process
+–	181	182	I-Process
+water	182	187	I-Process
+homogenisation	188	202	I-Process
+[	203	204	O
+36	204	206	O
+]	206	207	O
+,	207	208	O
+sediment	209	217	B-Process
+transport	218	227	I-Process
+[	228	229	O
+18	229	231	O
+]	231	232	O
+)	232	233	O
+or	234	236	O
+interface	237	246	B-Process
+problems	247	255	I-Process
+where	256	261	O
+phases	262	268	O
+are	269	272	O
+distinct	273	281	O
+and	282	285	O
+interact	286	294	O
+at	295	297	O
+the	298	301	O
+interface	302	311	O
+(	312	313	O
+e.g.	313	317	O
+gas	318	321	B-Process
+-	321	322	I-Process
+assisted	322	330	I-Process
+injection	331	340	I-Process
+moulding	341	349	I-Process
+[	350	351	O
+21	351	353	O
+]	353	354	O
+,	354	355	O
+liquid	356	362	B-Process
+jet	363	366	I-Process
+breakup	367	374	I-Process
+[	375	376	O
+40	376	378	O
+]	378	379	O
+)	379	380	O
+.	380	381	O
+
+In	382	384	O
+some	385	389	O
+cases	390	395	O
+flows	396	401	O
+start	402	407	O
+as	408	410	O
+interface	411	420	O
+problems	421	429	O
+but	430	433	O
+as	434	436	O
+mixing	437	443	B-Process
+occurs	444	450	O
+at	451	453	O
+the	454	457	O
+interface	458	467	O
+they	468	472	O
+become	473	479	O
+effectively	480	491	O
+continuous	492	502	O
+,	502	503	O
+at	504	506	O
+least	507	512	O
+locally	513	520	O
+.	520	521	O
+
+Air	522	525	B-Task
+entrainment	526	537	I-Task
+,	537	538	O
+perhaps	539	546	O
+due	547	550	O
+to	551	553	O
+wave	554	558	B-Process
+breaking	559	567	I-Process
+,	567	568	O
+is	569	571	O
+an	572	574	O
+obvious	575	582	O
+example	583	590	O
+.	590	591	O
+
+We	592	594	O
+consider	595	603	O
+here	604	608	O
+two	609	612	B-Task
+-	612	613	I-Task
+phase	613	618	I-Task
+interface	619	628	I-Task
+problems	629	637	I-Task
+where	638	643	O
+the	644	647	O
+interface	648	657	O
+remains	658	665	O
+distinct	666	674	O
+and	675	678	O
+the	679	682	O
+density	683	690	O
+difference	691	701	O
+is	702	704	O
+high	705	709	O
+,	709	710	O
+e.g.	711	715	O
+air	716	719	B-Material
+and	720	723	O
+water	724	729	B-Material
+,	729	730	O
+and	731	734	O
+where	735	740	O
+one	741	744	O
+phase	745	750	O
+may	751	754	O
+be	755	757	O
+considered	758	768	O
+incompressible	769	783	O
+.	783	784	O
+
+The	785	788	O
+interface	789	798	O
+is	799	801	O
+transient	802	811	O
+and	812	815	O
+may	816	819	O
+become	820	826	O
+highly	827	833	O
+distorted	834	843	B-Process
+and	844	847	I-Process
+interconnected	848	862	I-Process
+.	862	863	O
+
+Such	864	868	O
+problems	869	877	O
+have	878	882	O
+been	883	887	O
+tackled	888	895	O
+with	896	900	O
+mesh	901	905	B-Process
+-	905	906	I-Process
+based	906	911	I-Process
+methods	912	919	I-Process
+using	920	925	O
+periodic	926	934	O
+(	935	936	O
+or	936	938	O
+adaptive	939	947	O
+)	947	948	O
+re	949	951	B-Process
+-	951	952	I-Process
+meshing	952	959	I-Process
+or	960	962	O
+additional	963	973	O
+phase	974	979	B-Process
+tracking	980	988	I-Process
+functions	989	998	I-Process
+[	999	1000	O
+40	1000	1002	O
+]	1002	1003	O
+.	1003	1004	O
+
+However	1005	1012	O
+,	1012	1013	O
+these	1014	1019	O
+approaches	1020	1030	O
+can	1031	1034	O
+be	1035	1037	O
+time	1038	1042	O
+-	1042	1043	O
+consuming	1043	1052	O
+to	1053	1055	O
+implement	1056	1065	O
+and	1066	1069	O
+prone	1070	1075	O
+to	1076	1078	O
+errors	1079	1085	O
+in	1086	1088	O
+surface	1089	1096	O
+representation	1097	1111	O
+[	1112	1113	O
+50	1113	1115	O
+]	1115	1116	O
+or	1117	1119	O
+mass	1120	1124	O
+conservation	1125	1137	O
+[	1138	1139	O
+34	1139	1141	O
+]	1141	1142	O
+.	1142	1143	O
 
 
 -DOCSTART- (S0021999115008256)
 
-This	NN	O	O
-section	NN	O	O
-is	NN	O	O
-devoted	NN	O	O
-to	NN	O	O
-the	NN	O	O
-discretization	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-advection	NN	O	I-Task
-–	NN	O	I-Task
-diffusion	NN	O	I-Task
-equation	NN	O	I-Task
-and	NN	O	O
-to	NN	O	O
-the	NN	O	O
-analysis	NN	O	O
-of	NN	O	O
-dispersion	NN	O	B-Task
-and	NN	O	I-Task
-diffusion	NN	O	I-Task
-eigencurves	NN	O	I-Task
-for	NN	O	O
-different	NN	O	O
-polynomial	NN	O	O
-orders	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-spectral	NN	O	O
-/	NN	O	O
-hp	NN	O	O
-continuous	NN	O	O
-Galerkin	NN	O	B-Process
-method	NN	O	I-Process
-considered	NN	O	O
-closely	NN	O	O
-resembles	NN	O	O
-the	NN	O	O
-formulation	NN	O	O
-presented	NN	O	O
-in	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Sec	NN	O	O
-.	NN	O	O
-
-2.1	NN	O	O
-describes	NN	O	O
-in	NN	O	O
-detail	NN	O	O
-the	NN	O	O
-derivation	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-semi	NN	O	I-Process
--	NN	O	I-Process
-discrete	NN	O	I-Process
-advection	NN	O	I-Process
-–	NN	O	I-Process
-diffusion	NN	O	I-Process
-problem	NN	O	I-Process
-as	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-wave	NN	O	B-Material
--	NN	O	I-Material
-like	NN	O	I-Material
-solutions	NN	O	I-Material
-,	NN	O	O
-from	NN	O	O
-which	NN	O	O
-the	NN	O	O
-relevant	NN	O	O
-eigencurves	NN	O	O
-can	NN	O	O
-be	NN	O	O
-obtained	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-inviscid	NN	O	B-Material
-case	NN	O	I-Material
-(	NN	O	O
-linear	NN	O	B-Material
-advection	NN	O	I-Material
-)	NN	O	O
-is	NN	O	O
-then	NN	O	O
-addressed	NN	O	O
-in	NN	O	O
-Sec	NN	O	O
-.	NN	O	O
-
-2.2	NN	O	O
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-role	NN	O	O
-of	NN	O	O
-primary	NN	O	O
-and	NN	O	O
-secondary	NN	O	O
-eigencurves	NN	O	O
-is	NN	O	O
-discussed	NN	O	O
-from	NN	O	O
-the	NN	O	O
-perspective	NN	O	O
-introduced	NN	O	O
-in	NN	O	O
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-viscous	NN	O	B-Material
-case	NN	O	I-Material
-is	NN	O	O
-subsequently	NN	O	O
-considered	NN	O	O
-in	NN	O	O
-Sec	NN	O	O
-.	NN	O	O
-
-2.3	NN	O	O
-,	NN	O	O
-where	NN	O	O
-eigencurves	NN	O	O
-are	NN	O	O
-shown	NN	O	O
-to	NN	O	O
-feature	NN	O	O
-irregular	NN	O	O
-oscillations	NN	O	O
-for	NN	O	O
-problems	NN	O	O
-strongly	NN	O	O
-dominated	NN	O	O
-by	NN	O	O
-either	NN	O	O
-convection	NN	O	O
-or	NN	O	O
-diffusion	NN	O	O
-.	NN	O	O
+This	0	4	O
+section	5	12	O
+is	13	15	O
+devoted	16	23	O
+to	24	26	O
+the	27	30	O
+discretization	31	45	B-Task
+of	46	48	I-Task
+the	49	52	I-Task
+advection	53	62	I-Task
+–	62	63	I-Task
+diffusion	63	72	I-Task
+equation	73	81	I-Task
+and	82	85	O
+to	86	88	O
+the	89	92	O
+analysis	93	101	O
+of	102	104	O
+dispersion	105	115	B-Task
+and	116	119	I-Task
+diffusion	120	129	I-Task
+eigencurves	130	141	I-Task
+for	142	145	O
+different	146	155	O
+polynomial	156	166	O
+orders	167	173	O
+.	173	174	O
+
+The	175	178	O
+spectral	179	187	O
+/	187	188	O
+hp	188	190	O
+continuous	191	201	O
+Galerkin	202	210	B-Process
+method	211	217	I-Process
+considered	218	228	O
+closely	229	236	O
+resembles	237	246	O
+the	247	250	O
+formulation	251	262	O
+presented	263	272	O
+in	273	275	O
+[	276	277	O
+7	277	278	O
+]	278	279	O
+.	279	280	O
+
+Sec	281	284	O
+.	284	285	O
+
+2.1	286	289	O
+describes	290	299	O
+in	300	302	O
+detail	303	309	O
+the	310	313	O
+derivation	314	324	B-Process
+of	325	327	I-Process
+the	328	331	I-Process
+semi	332	336	I-Process
+-	336	337	I-Process
+discrete	337	345	I-Process
+advection	346	355	I-Process
+–	355	356	I-Process
+diffusion	356	365	I-Process
+problem	366	373	I-Process
+as	374	376	O
+applied	377	384	O
+to	385	387	O
+wave	388	392	B-Material
+-	392	393	I-Material
+like	393	397	I-Material
+solutions	398	407	I-Material
+,	407	408	O
+from	409	413	O
+which	414	419	O
+the	420	423	O
+relevant	424	432	O
+eigencurves	433	444	O
+can	445	448	O
+be	449	451	O
+obtained	452	460	O
+.	460	461	O
+
+The	462	465	O
+inviscid	466	474	B-Material
+case	475	479	I-Material
+(	480	481	O
+linear	481	487	B-Material
+advection	488	497	I-Material
+)	497	498	O
+is	499	501	O
+then	502	506	O
+addressed	507	516	O
+in	517	519	O
+Sec	520	523	O
+.	523	524	O
+
+2.2	525	528	O
+,	528	529	O
+where	530	535	O
+the	536	539	O
+role	540	544	O
+of	545	547	O
+primary	548	555	O
+and	556	559	O
+secondary	560	569	O
+eigencurves	570	581	O
+is	582	584	O
+discussed	585	594	O
+from	595	599	O
+the	600	603	O
+perspective	604	615	O
+introduced	616	626	O
+in	627	629	O
+[	630	631	O
+9	631	632	O
+]	632	633	O
+.	633	634	O
+
+The	635	638	O
+viscous	639	646	B-Material
+case	647	651	I-Material
+is	652	654	O
+subsequently	655	667	O
+considered	668	678	O
+in	679	681	O
+Sec	682	685	O
+.	685	686	O
+
+2.3	687	690	O
+,	690	691	O
+where	692	697	O
+eigencurves	698	709	O
+are	710	713	O
+shown	714	719	O
+to	720	722	O
+feature	723	730	O
+irregular	731	740	O
+oscillations	741	753	O
+for	754	757	O
+problems	758	766	O
+strongly	767	775	O
+dominated	776	785	O
+by	786	788	O
+either	789	795	O
+convection	796	806	O
+or	807	809	O
+diffusion	810	819	O
+.	819	820	O
 
 
 -DOCSTART- (S0022311511010014)
 
-Discovering	NN	O	O
-that	NN	O	O
-both	NN	O	O
-the	NN	O	O
-vacancy	NN	O	O
-and	NN	O	O
-interstitial	NN	O	O
-defect	NN	O	B-Task
-migration	NN	O	I-Task
-pathways	NN	O	I-Task
-are	NN	O	O
-confined	NN	O	O
-to	NN	O	O
-Ga	NN	O	B-Material
--	NN	O	O
-free	NN	O	O
-regions	NN	O	O
-suggests	NN	O	O
-changes	NN	O	O
-in	NN	O	O
-recombination	NN	O	O
-rates	NN	O	O
-of	NN	O	O
-isolated	NN	O	O
-vacancy	NN	O	O
--	NN	O	O
-interstitial	NN	O	O
-pairs	NN	O	O
-in	NN	O	O
-comparison	NN	O	O
-to	NN	O	O
-pure	NN	O	O
-Pu	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-degree	NN	O	O
-to	NN	O	O
-which	NN	O	O
-the	NN	O	O
-rates	NN	O	O
-are	NN	O	O
-effected	NN	O	O
-depends	NN	O	O
-on	NN	O	O
-the	NN	O	O
-distribution	NN	O	O
-of	NN	O	O
-residual	NN	O	O
-defects	NN	O	O
-post	NN	O	O
-a	NN	O	O
-cascade	NN	O	B-Process
-event	NN	O	I-Process
-,	NN	O	O
-in	NN	O	O
-addition	NN	O	O
-to	NN	O	O
-the	NN	O	O
-concentration	NN	O	O
-and	NN	O	O
-ordering	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Ga	NN	O	B-Material
-atoms	NN	O	I-Material
-.	NN	O	O
-
-If	NN	O	O
-vacancies	NN	O	O
-and	NN	O	O
-interstitials	NN	O	O
-become	NN	O	O
-greatly	NN	O	O
-separated	NN	O	O
-after	NN	O	O
-the	NN	O	O
-collision	NN	O	B-Process
-cascade	NN	O	I-Process
-,	NN	O	O
-then	NN	O	O
-pathways	NN	O	O
-to	NN	O	O
-recombination	NN	O	O
-are	NN	O	O
-likely	NN	O	O
-to	NN	O	O
-become	NN	O	O
-restricted	NN	O	O
-and	NN	O	O
-recovery	NN	O	O
-times	NN	O	O
-will	NN	O	O
-be	NN	O	O
-extended	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-viable	NN	O	O
-for	NN	O	O
-cascades	NN	O	O
-that	NN	O	O
-created	NN	O	O
-a	NN	O	O
-vacancy	NN	O	O
-rich	NN	O	O
-core	NN	O	O
-surrounded	NN	O	O
-by	NN	O	O
-dispersed	NN	O	O
-interstitials	NN	O	O
-,	NN	O	O
-as	NN	O	O
-found	NN	O	O
-for	NN	O	O
-the	NN	O	O
-low	NN	O	B-Material
-energy	NN	O	I-Material
-cascades	NN	O	I-Material
-in	NN	O	I-Material
-Pu	NN	O	I-Material
-and	NN	O	I-Material
-PuGa	NN	O	I-Material
-[	NN	O	O
-11,12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-may	NN	O	O
-also	NN	O	O
-be	NN	O	O
-the	NN	O	O
-case	NN	O	O
-for	NN	O	O
-channelling	NN	O	B-Material
-events	NN	O	I-Material
-,	NN	O	O
-where	NN	O	O
-energetic	NN	O	B-Material
-atoms	NN	O	I-Material
-travel	NN	O	I-Material
-deep	NN	O	I-Material
-into	NN	O	I-Material
-the	NN	O	I-Material
-lattice	NN	O	I-Material
-through	NN	O	I-Material
-channels	NN	O	I-Material
-of	NN	O	I-Material
-low	NN	O	I-Material
-atomic	NN	O	I-Material
-density	NN	O	I-Material
-.	NN	O	O
+Discovering	0	11	O
+that	12	16	O
+both	17	21	O
+the	22	25	O
+vacancy	26	33	O
+and	34	37	O
+interstitial	38	50	O
+defect	51	57	B-Task
+migration	58	67	I-Task
+pathways	68	76	I-Task
+are	77	80	O
+confined	81	89	O
+to	90	92	O
+Ga	93	95	B-Material
+-	95	96	O
+free	96	100	O
+regions	101	108	O
+suggests	109	117	O
+changes	118	125	O
+in	126	128	O
+recombination	129	142	O
+rates	143	148	O
+of	149	151	O
+isolated	152	160	O
+vacancy	161	168	O
+-	168	169	O
+interstitial	169	181	O
+pairs	182	187	O
+in	188	190	O
+comparison	191	201	O
+to	202	204	O
+pure	205	209	O
+Pu	210	212	O
+.	212	213	O
+
+The	214	217	O
+degree	218	224	O
+to	225	227	O
+which	228	233	O
+the	234	237	O
+rates	238	243	O
+are	244	247	O
+effected	248	256	O
+depends	257	264	O
+on	265	267	O
+the	268	271	O
+distribution	272	284	O
+of	285	287	O
+residual	288	296	O
+defects	297	304	O
+post	305	309	O
+a	310	311	O
+cascade	312	319	B-Process
+event	320	325	I-Process
+,	325	326	O
+in	327	329	O
+addition	330	338	O
+to	339	341	O
+the	342	345	O
+concentration	346	359	O
+and	360	363	O
+ordering	364	372	O
+of	373	375	O
+the	376	379	O
+Ga	380	382	B-Material
+atoms	383	388	I-Material
+.	388	389	O
+
+If	390	392	O
+vacancies	393	402	O
+and	403	406	O
+interstitials	407	420	O
+become	421	427	O
+greatly	428	435	O
+separated	436	445	O
+after	446	451	O
+the	452	455	O
+collision	456	465	B-Process
+cascade	466	473	I-Process
+,	473	474	O
+then	475	479	O
+pathways	480	488	O
+to	489	491	O
+recombination	492	505	O
+are	506	509	O
+likely	510	516	O
+to	517	519	O
+become	520	526	O
+restricted	527	537	O
+and	538	541	O
+recovery	542	550	O
+times	551	556	O
+will	557	561	O
+be	562	564	O
+extended	565	573	O
+.	573	574	O
+
+This	575	579	O
+is	580	582	O
+viable	583	589	O
+for	590	593	O
+cascades	594	602	O
+that	603	607	O
+created	608	615	O
+a	616	617	O
+vacancy	618	625	O
+rich	626	630	O
+core	631	635	O
+surrounded	636	646	O
+by	647	649	O
+dispersed	650	659	O
+interstitials	660	673	O
+,	673	674	O
+as	675	677	O
+found	678	683	O
+for	684	687	O
+the	688	691	O
+low	692	695	B-Material
+energy	696	702	I-Material
+cascades	703	711	I-Material
+in	712	714	I-Material
+Pu	715	717	I-Material
+and	718	721	I-Material
+PuGa	722	726	I-Material
+[	727	728	O
+11,12	728	733	O
+]	733	734	O
+.	734	735	O
+
+This	736	740	O
+may	741	744	O
+also	745	749	O
+be	750	752	O
+the	753	756	O
+case	757	761	O
+for	762	765	O
+channelling	766	777	B-Material
+events	778	784	I-Material
+,	784	785	O
+where	786	791	O
+energetic	792	801	B-Material
+atoms	802	807	I-Material
+travel	808	814	I-Material
+deep	815	819	I-Material
+into	820	824	I-Material
+the	825	828	I-Material
+lattice	829	836	I-Material
+through	837	844	I-Material
+channels	845	853	I-Material
+of	854	856	I-Material
+low	857	860	I-Material
+atomic	861	867	I-Material
+density	868	875	I-Material
+.	875	876	O
 
 
 -DOCSTART- (S0022311513001165)
 
-Our	NN	O	O
-simulations	NN	O	B-Material
-confirm	NN	O	O
-experimental	NN	O	O
-observations	NN	O	O
-that	NN	O	O
-W	NN	O	B-Task
-net	NN	O	I-Task
-erosion	NN	O	I-Task
-represents	NN	O	O
-only	NN	O	O
-tiny	NN	O	O
-fraction	NN	O	O
-(	NN	O	O
-in	NN	O	O
-our	NN	O	O
-simulation	NN	O	O
-∼1	NN	O	O
-%	NN	O	O
-)	NN	O	O
-of	NN	O	O
-the	NN	O	O
-W	NN	O	B-Task
-gross	NN	O	I-Task
-erosion	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-estimated	NN	O	B-Process
-upstream	NN	O	I-Process
-W	NN	O	I-Process
-fluxes	NN	O	I-Process
-,	NN	O	O
-FWupstrem	NN	O	B-Process
-,	NN	O	O
-are	NN	O	O
-in	NN	O	O
-good	NN	O	O
-agreement	NN	O	O
-with	NN	O	O
-the	NN	O	O
-experimentally	NN	O	B-Material
-observed	NN	O	I-Material
-values	NN	O	I-Material
-⩽1019m-2s-1	NN	O	O
-
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-this	NN	O	O
-value	NN	O	O
-is	NN	O	O
-not	NN	O	O
-very	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-the	NN	O	O
-divertor	NN	O	B-Material
-plasma	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-low	NN	O	O
-temperatures	NN	O	O
-the	NN	O	O
-energy	NN	O	O
-of	NN	O	O
-D	NN	O	B-Material
-and	NN	O	I-Material
-C	NN	O	I-Material
-ions	NN	O	I-Material
-hitting	NN	O	B-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-divertor	NN	O	I-Process
-plates	NN	O	I-Process
-is	NN	O	O
-too	NN	O	O
-low	NN	O	O
-to	NN	O	O
-sputter	NN	O	O
-sufficient	NN	O	O
-amount	NN	O	O
-of	NN	O	O
-W.	NN	O	B-Material
-With	NN	O	O
-increasing	NN	O	B-Process
-energy	NN	O	I-Process
-the	NN	O	O
-W	NN	O	B-Process
-sputtering	NN	O	I-Process
-increases	NN	O	O
-,	NN	O	O
-but	NN	O	O
-the	NN	O	O
-potential	NN	O	O
-drop	NN	O	O
-in	NN	O	O
-the	NN	O	O
-divertor	NN	O	B-Material
-plasma	NN	O	I-Material
-increases	NN	O	O
-too	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-a	NN	O	O
-result	NN	O	O
-,	NN	O	O
-most	NN	O	O
-of	NN	O	O
-the	NN	O	O
-W	NN	O	B-Material
-atoms	NN	O	I-Material
-are	NN	O	O
-ionized	NN	O	B-Process
-in	NN	O	O
-the	NN	O	O
-vicinity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-divertor	NN	O	B-Material
-and	NN	O	O
-return	NN	O	B-Process
-back	NN	O	O
-to	NN	O	O
-the	NN	O	O
-plates	NN	O	B-Material
-.	NN	O	O
-
-There	NN	O	O
-are	NN	O	O
-two	NN	O	O
-effects	NN	O	O
-leading	NN	O	O
-to	NN	O	O
-the	NN	O	O
-observed	NN	O	B-Task
-prompt	NN	O	I-Task
-redeposition	NN	O	I-Task
-of	NN	O	O
-W	NN	O	B-Material
-ions	NN	O	I-Material
-:	NN	O	O
-first	NN	O	O
-is	NN	O	O
-the	NN	O	O
-“	NN	O	O
-near	NN	O	B-Process
--	NN	O	I-Process
-divertor	NN	O	I-Process
-”	NN	O	I-Process
-ionization	NN	O	I-Process
-of	NN	O	O
-W	NN	O	B-Material
-due	NN	O	O
-to	NN	O	O
-low	NN	O	O
-ionization	NN	O	B-Process
-potential	NN	O	O
-−7.86eV	NN	O	O
-(	NN	O	O
-for	NN	O	O
-comparison	NN	O	O
-the	NN	O	O
-ionization	NN	O	B-Process
-potentials	NN	O	O
-for	NN	O	O
-D	NN	O	B-Material
-and	NN	O	O
-C	NN	O	B-Material
-are	NN	O	O
-13,6	NN	O	O
-and	NN	O	O
-10.6eV	NN	O	O
-)	NN	O	O
-,	NN	O	O
-second	NN	O	O
-,	NN	O	O
-W+n	NN	O	B-Material
-ions	NN	O	I-Material
-have	NN	O	O
-large	NN	O	B-Process
-Larmor	NN	O	I-Process
-radius	NN	O	I-Process
-∼2/nmm	NN	O	O
-,	NN	O	O
-so	NN	O	O
-that	NN	O	O
-they	NN	O	O
-are	NN	O	O
-redeposited	NN	O	O
-within	NN	O	O
-the	NN	O	O
-distance	NN	O	O
-of	NN	O	O
-a	NN	O	O
-Larmor	NN	O	O
-radius	NN	O	O
-.	NN	O	O
-
-Important	NN	O	O
-to	NN	O	O
-note	NN	O	O
-that	NN	O	O
-a	NN	O	O
-significant	NN	O	O
-fraction	NN	O	O
-of	NN	O	O
-W	NN	O	B-Material
-ions	NN	O	I-Material
-escaping	NN	O	O
-this	NN	O	O
-prompt	NN	O	O
-redeposition	NN	O	O
-are	NN	O	O
-returned	NN	O	O
-back	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-friction	NN	O	B-Process
-with	NN	O	I-Process
-the	NN	O	I-Process
-main	NN	O	I-Process
-ions	NN	O	I-Process
-.	NN	O	O
+Our	0	3	O
+simulations	4	15	B-Material
+confirm	16	23	O
+experimental	24	36	O
+observations	37	49	O
+that	50	54	O
+W	55	56	B-Task
+net	57	60	I-Task
+erosion	61	68	I-Task
+represents	69	79	O
+only	80	84	O
+tiny	85	89	O
+fraction	90	98	O
+(	99	100	O
+in	100	102	O
+our	103	106	O
+simulation	107	117	O
+∼1	118	120	O
+%	120	121	O
+)	121	122	O
+of	123	125	O
+the	126	129	O
+W	130	131	B-Task
+gross	132	137	I-Task
+erosion	138	145	I-Task
+.	145	146	O
+
+The	147	150	O
+estimated	151	160	B-Process
+upstream	161	169	I-Process
+W	170	171	I-Process
+fluxes	172	178	I-Process
+,	178	179	O
+FWupstrem	180	189	B-Process
+,	189	190	O
+are	191	194	O
+in	195	197	O
+good	198	202	O
+agreement	203	212	O
+with	213	217	O
+the	218	221	O
+experimentally	222	236	B-Material
+observed	237	245	I-Material
+values	246	252	I-Material
+⩽1019m-2s-1	253	264	O
+
+[	265	266	O
+16	266	268	O
+]	268	269	O
+.	269	270	O
+
+Moreover	271	279	O
+,	279	280	O
+this	281	285	O
+value	286	291	O
+is	292	294	O
+not	295	298	O
+very	299	303	O
+sensitive	304	313	O
+to	314	316	O
+the	317	320	O
+divertor	321	329	B-Material
+plasma	330	336	O
+temperature	337	348	O
+.	348	349	O
+
+For	350	353	O
+low	354	357	O
+temperatures	358	370	O
+the	371	374	O
+energy	375	381	O
+of	382	384	O
+D	385	386	B-Material
+and	387	390	I-Material
+C	391	392	I-Material
+ions	393	397	I-Material
+hitting	398	405	B-Process
+to	406	408	I-Process
+the	409	412	I-Process
+divertor	413	421	I-Process
+plates	422	428	I-Process
+is	429	431	O
+too	432	435	O
+low	436	439	O
+to	440	442	O
+sputter	443	450	O
+sufficient	451	461	O
+amount	462	468	O
+of	469	471	O
+W.	472	474	B-Material
+With	475	479	O
+increasing	480	490	B-Process
+energy	491	497	I-Process
+the	498	501	O
+W	502	503	B-Process
+sputtering	504	514	I-Process
+increases	515	524	O
+,	524	525	O
+but	526	529	O
+the	530	533	O
+potential	534	543	O
+drop	544	548	O
+in	549	551	O
+the	552	555	O
+divertor	556	564	B-Material
+plasma	565	571	I-Material
+increases	572	581	O
+too	582	585	O
+.	585	586	O
+
+As	587	589	O
+a	590	591	O
+result	592	598	O
+,	598	599	O
+most	600	604	O
+of	605	607	O
+the	608	611	O
+W	612	613	B-Material
+atoms	614	619	I-Material
+are	620	623	O
+ionized	624	631	B-Process
+in	632	634	O
+the	635	638	O
+vicinity	639	647	O
+of	648	650	O
+the	651	654	O
+divertor	655	663	B-Material
+and	664	667	O
+return	668	674	B-Process
+back	675	679	O
+to	680	682	O
+the	683	686	O
+plates	687	693	B-Material
+.	693	694	O
+
+There	695	700	O
+are	701	704	O
+two	705	708	O
+effects	709	716	O
+leading	717	724	O
+to	725	727	O
+the	728	731	O
+observed	732	740	B-Task
+prompt	741	747	I-Task
+redeposition	748	760	I-Task
+of	761	763	O
+W	764	765	B-Material
+ions	766	770	I-Material
+:	770	771	O
+first	772	777	O
+is	778	780	O
+the	781	784	O
+“	785	786	O
+near	786	790	B-Process
+-	790	791	I-Process
+divertor	791	799	I-Process
+”	799	800	I-Process
+ionization	801	811	I-Process
+of	812	814	O
+W	815	816	B-Material
+due	817	820	O
+to	821	823	O
+low	824	827	O
+ionization	828	838	B-Process
+potential	839	848	O
+−7.86eV	849	856	O
+(	857	858	O
+for	858	861	O
+comparison	862	872	O
+the	873	876	O
+ionization	877	887	B-Process
+potentials	888	898	O
+for	899	902	O
+D	903	904	B-Material
+and	905	908	O
+C	909	910	B-Material
+are	911	914	O
+13,6	915	919	O
+and	920	923	O
+10.6eV	924	930	O
+)	930	931	O
+,	931	932	O
+second	933	939	O
+,	939	940	O
+W+n	941	944	B-Material
+ions	945	949	I-Material
+have	950	954	O
+large	955	960	B-Process
+Larmor	961	967	I-Process
+radius	968	974	I-Process
+∼2/nmm	975	981	O
+,	981	982	O
+so	983	985	O
+that	986	990	O
+they	991	995	O
+are	996	999	O
+redeposited	1000	1011	O
+within	1012	1018	O
+the	1019	1022	O
+distance	1023	1031	O
+of	1032	1034	O
+a	1035	1036	O
+Larmor	1037	1043	O
+radius	1044	1050	O
+.	1050	1051	O
+
+Important	1052	1061	O
+to	1062	1064	O
+note	1065	1069	O
+that	1070	1074	O
+a	1075	1076	O
+significant	1077	1088	O
+fraction	1089	1097	O
+of	1098	1100	O
+W	1101	1102	B-Material
+ions	1103	1107	I-Material
+escaping	1108	1116	O
+this	1117	1121	O
+prompt	1122	1128	O
+redeposition	1129	1141	O
+are	1142	1145	O
+returned	1146	1154	O
+back	1155	1159	O
+due	1160	1163	O
+to	1164	1166	O
+the	1167	1170	O
+friction	1171	1179	B-Process
+with	1180	1184	I-Process
+the	1185	1188	I-Process
+main	1189	1193	I-Process
+ions	1194	1198	I-Process
+.	1198	1199	O
 
 
 -DOCSTART- (S0022311513011951)
 
-The	NN	O	O
-displacement	NN	O	B-Task
-cascade	NN	O	I-Task
-is	NN	O	O
-a	NN	O	O
-rapid	NN	O	O
-process	NN	O	O
-(	NN	O	O
-of	NN	O	O
-order	NN	O	O
-picoseconds	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Further	NN	O	O
-migration	NN	O	B-Process
-of	NN	O	I-Process
-vacancies	NN	O	I-Process
-and	NN	O	I-Process
-SIAs	NN	O	I-Process
-,	NN	O	O
-mainly	NN	O	O
-by	NN	O	O
-diffusion	NN	O	B-Process
-,	NN	O	O
-happens	NN	O	O
-over	NN	O	O
-a	NN	O	O
-timescale	NN	O	O
-of	NN	O	O
-order	NN	O	O
-nanoseconds	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-still	NN	O	O
-short	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-operating	NN	O	O
-times	NN	O	O
-,	NN	O	O
-so	NN	O	O
-is	NN	O	O
-important	NN	O	O
-to	NN	O	O
-consider	NN	O	O
-the	NN	O	O
-equilibrium	NN	O	O
-result	NN	O	O
-of	NN	O	O
-such	NN	O	O
-processes	NN	O	O
-:	NN	O	O
-If	NN	O	O
-the	NN	O	O
-vacancies	NN	O	O
-and	NN	O	O
-SIAs	NN	O	O
-were	NN	O	O
-likely	NN	O	O
-to	NN	O	O
-find	NN	O	O
-their	NN	O	O
-Frenkel	NN	O	O
-partner	NN	O	O
-,	NN	O	O
-recombine	NN	O	O
-,	NN	O	O
-and	NN	O	O
-annihilate	NN	O	O
-,	NN	O	O
-then	NN	O	O
-the	NN	O	O
-metal	NN	O	O
-should	NN	O	O
-essentially	NN	O	O
-return	NN	O	O
-to	NN	O	O
-its	NN	O	O
-original	NN	O	O
-structure	NN	O	B-Material
-;	NN	O	O
-however	NN	O	O
-,	NN	O	O
-if	NN	O	O
-defects	NN	O	B-Material
-instead	NN	O	O
-formed	NN	O	O
-large	NN	O	O
-clusters	NN	O	O
-of	NN	O	O
-a	NN	O	O
-single	NN	O	O
-type	NN	O	O
-this	NN	O	O
-could	NN	O	O
-result	NN	O	O
-in	NN	O	O
-formation	NN	O	O
-of	NN	O	O
-voids	NN	O	B-Material
-,	NN	O	O
-dislocation	NN	O	B-Material
-loops	NN	O	I-Material
-or	NN	O	O
-swelling	NN	O	B-Material
-,	NN	O	O
-possibly	NN	O	O
-weakening	NN	O	O
-the	NN	O	O
-material	NN	O	O
-in	NN	O	O
-the	NN	O	O
-process	NN	O	O
-.	NN	O	O
-
-Defects	NN	O	O
-can	NN	O	O
-be	NN	O	O
-trapped	NN	O	O
-at	NN	O	O
-grain	NN	O	B-Material
-boundaries	NN	O	O
-or	NN	O	O
-surface	NN	O	O
-,	NN	O	O
-so	NN	O	O
-for	NN	O	O
-an	NN	O	O
-ODS	NN	O	B-Material
-particle	NN	O	I-Material
-to	NN	O	O
-effect	NN	O	O
-the	NN	O	O
-diffusion	NN	O	O
-,	NN	O	O
-there	NN	O	O
-concentration	NN	O	O
-must	NN	O	O
-be	NN	O	O
-such	NN	O	O
-that	NN	O	O
-there	NN	O	O
-are	NN	O	O
-many	NN	O	O
-such	NN	O	O
-particles	NN	O	O
-in	NN	O	O
-each	NN	O	O
-grain	NN	O	B-Material
-.	NN	O	O
+The	0	3	O
+displacement	4	16	B-Task
+cascade	17	24	I-Task
+is	25	27	O
+a	28	29	O
+rapid	30	35	O
+process	36	43	O
+(	44	45	O
+of	45	47	O
+order	48	53	O
+picoseconds	54	65	O
+)	65	66	O
+.	66	67	O
+
+Further	68	75	O
+migration	76	85	B-Process
+of	86	88	I-Process
+vacancies	89	98	I-Process
+and	99	102	I-Process
+SIAs	103	107	I-Process
+,	107	108	O
+mainly	109	115	O
+by	116	118	O
+diffusion	119	128	B-Process
+,	128	129	O
+happens	130	137	O
+over	138	142	O
+a	143	144	O
+timescale	145	154	O
+of	155	157	O
+order	158	163	O
+nanoseconds	164	175	O
+[	176	177	O
+17	177	179	O
+]	179	180	O
+.	180	181	O
+
+This	182	186	O
+is	187	189	O
+still	190	195	O
+short	196	201	O
+compared	202	210	O
+to	211	213	O
+operating	214	223	O
+times	224	229	O
+,	229	230	O
+so	231	233	O
+is	234	236	O
+important	237	246	O
+to	247	249	O
+consider	250	258	O
+the	259	262	O
+equilibrium	263	274	O
+result	275	281	O
+of	282	284	O
+such	285	289	O
+processes	290	299	O
+:	299	300	O
+If	301	303	O
+the	304	307	O
+vacancies	308	317	O
+and	318	321	O
+SIAs	322	326	O
+were	327	331	O
+likely	332	338	O
+to	339	341	O
+find	342	346	O
+their	347	352	O
+Frenkel	353	360	O
+partner	361	368	O
+,	368	369	O
+recombine	370	379	O
+,	379	380	O
+and	381	384	O
+annihilate	385	395	O
+,	395	396	O
+then	397	401	O
+the	402	405	O
+metal	406	411	O
+should	412	418	O
+essentially	419	430	O
+return	431	437	O
+to	438	440	O
+its	441	444	O
+original	445	453	O
+structure	454	463	B-Material
+;	463	464	O
+however	465	472	O
+,	472	473	O
+if	474	476	O
+defects	477	484	B-Material
+instead	485	492	O
+formed	493	499	O
+large	500	505	O
+clusters	506	514	O
+of	515	517	O
+a	518	519	O
+single	520	526	O
+type	527	531	O
+this	532	536	O
+could	537	542	O
+result	543	549	O
+in	550	552	O
+formation	553	562	O
+of	563	565	O
+voids	566	571	B-Material
+,	571	572	O
+dislocation	573	584	B-Material
+loops	585	590	I-Material
+or	591	593	O
+swelling	594	602	B-Material
+,	602	603	O
+possibly	604	612	O
+weakening	613	622	O
+the	623	626	O
+material	627	635	O
+in	636	638	O
+the	639	642	O
+process	643	650	O
+.	650	651	O
+
+Defects	652	659	O
+can	660	663	O
+be	664	666	O
+trapped	667	674	O
+at	675	677	O
+grain	678	683	B-Material
+boundaries	684	694	O
+or	695	697	O
+surface	698	705	O
+,	705	706	O
+so	707	709	O
+for	710	713	O
+an	714	716	O
+ODS	717	720	B-Material
+particle	721	729	I-Material
+to	730	732	O
+effect	733	739	O
+the	740	743	O
+diffusion	744	753	O
+,	753	754	O
+there	755	760	O
+concentration	761	774	O
+must	775	779	O
+be	780	782	O
+such	783	787	O
+that	788	792	O
+there	793	798	O
+are	799	802	O
+many	803	807	O
+such	808	812	O
+particles	813	822	O
+in	823	825	O
+each	826	830	O
+grain	831	836	B-Material
+.	836	837	O
 
 
 -DOCSTART- (S0022311514000919)
 
-The	NN	O	O
-dashed	NN	O	O
-curve	NN	O	O
-represents	NN	O	O
-the	NN	O	O
-PuO2	NN	O	B-Material
-molar	NN	O	O
-fraction	NN	O	O
-on	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-surface	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-shows	NN	O	O
-that	NN	O	O
-,	NN	O	O
-following	NN	O	O
-the	NN	O	O
-UO2–PuO2	NN	O	B-Task
-phase	NN	O	I-Task
-boundaries	NN	O	I-Task
-,	NN	O	O
-rather	NN	O	O
-well	NN	O	O
-established	NN	O	O
-in	NN	O	O
-this	NN	O	O
-compositional	NN	O	O
-range	NN	O	O
-(	NN	O	O
-see	NN	O	O
-Section	NN	O	O
-4.3	NN	O	O
-below	NN	O	O
-)	NN	O	O
-,	NN	O	O
-the	NN	O	O
-newly	NN	O	O
-formed	NN	O	O
-liquid	NN	O	B-Material
-surface	NN	O	I-Material
-is	NN	O	O
-initially	NN	O	O
-enriched	NN	O	B-Process
-in	NN	O	I-Process
-plutonium	NN	O	I-Process
-dioxide	NN	O	I-Process
-.	NN	O	O
-
-Subsequently	NN	O	O
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-fast	NN	O	O
-diffusion	NN	O	O
-in	NN	O	O
-the	NN	O	O
-liquid	NN	O	B-Material
-phase	NN	O	O
-,	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-sample	NN	O	O
-composition	NN	O	O
-(	NN	O	O
-x(PuO2)=0.25	NN	O	B-Material
-)	NN	O	O
-tends	NN	O	O
-to	NN	O	O
-be	NN	O	O
-rapidly	NN	O	O
-restored	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-however	NN	O	O
-clear	NN	O	O
-,	NN	O	O
-from	NN	O	O
-the	NN	O	O
-simulation	NN	O	B-Process
-,	NN	O	O
-that	NN	O	O
-the	NN	O	O
-fast	NN	O	O
-cooling	NN	O	B-Process
-occurring	NN	O	O
-after	NN	O	O
-the	NN	O	O
-end	NN	O	O
-of	NN	O	O
-the	NN	O	O
-laser	NN	O	B-Process
-pulse	NN	O	I-Process
-leads	NN	O	O
-to	NN	O	O
-onset	NN	O	O
-of	NN	O	O
-solidification	NN	O	B-Process
-before	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-composition	NN	O	O
-is	NN	O	O
-fully	NN	O	O
-recovered	NN	O	O
-in	NN	O	O
-the	NN	O	O
-liquid	NN	O	B-Material
-.	NN	O	O
-
-A	NN	O	O
-surface	NN	O	B-Material
-solid	NN	O	I-Material
-crust	NN	O	I-Material
-forms	NN	O	O
-then	NN	O	O
-upon	NN	O	O
-freezing	NN	O	B-Process
-before	NN	O	O
-the	NN	O	O
-total	NN	O	O
-liquid	NN	O	B-Material
-mass	NN	O	O
-has	NN	O	O
-crystallised	NN	O	O
-(	NN	O	O
-see	NN	O	O
-insets	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-4	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-double	NN	O	O
-inflection	NN	O	O
-during	NN	O	O
-cooling	NN	O	B-Process
-in	NN	O	O
-this	NN	O	O
-case	NN	O	O
-corresponds	NN	O	O
-to	NN	O	O
-the	NN	O	O
-solidification	NN	O	B-Process
-onset	NN	O	O
-on	NN	O	O
-the	NN	O	O
-sample	NN	O	B-Material
-surface	NN	O	I-Material
-(	NN	O	O
-first	NN	O	O
-inflection	NN	O	O
-)	NN	O	O
-and	NN	O	O
-to	NN	O	O
-the	NN	O	O
-disappearance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-last	NN	O	O
-liquid	NN	O	B-Material
-inside	NN	O	O
-the	NN	O	O
-material	NN	O	O
-(	NN	O	O
-second	NN	O	O
-inflection	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-highest	NN	O	O
-recalescence	NN	O	O
-temperature	NN	O	O
-represents	NN	O	O
-the	NN	O	O
-solidification	NN	O	B-Process
-point	NN	O	O
-of	NN	O	O
-a	NN	O	O
-composition	NN	O	O
-very	NN	O	O
-close	NN	O	O
-to	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-one	NN	O	O
-(	NN	O	O
-approximately	NN	O	O
-±0.01	NN	O	O
-on	NN	O	O
-x(PuO2	NN	O	O
-)	NN	O	O
-in	NN	O	O
-the	NN	O	O
-current	NN	O	O
-example	NN	O	O
-)	NN	O	O
-,	NN	O	O
-except	NN	O	O
-for	NN	O	O
-small	NN	O	B-Task
-segregation	NN	O	I-Task
-effects	NN	O	I-Task
-.	NN	O	O
-
-These	NN	O	O
-latter	NN	O	O
-have	NN	O	O
-been	NN	O	O
-studied	NN	O	O
-also	NN	O	O
-experimentally	NN	O	O
-in	NN	O	O
-the	NN	O	O
-present	NN	O	O
-research	NN	O	O
-,	NN	O	O
-by	NN	O	O
-post	NN	O	B-Process
--	NN	O	I-Process
-melting	NN	O	I-Process
-material	NN	O	I-Process
-characterisation	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+dashed	4	10	O
+curve	11	16	O
+represents	17	27	O
+the	28	31	O
+PuO2	32	36	B-Material
+molar	37	42	O
+fraction	43	51	O
+on	52	54	O
+the	55	58	O
+sample	59	65	O
+surface	66	73	O
+.	73	74	O
+
+It	75	77	O
+shows	78	83	O
+that	84	88	O
+,	88	89	O
+following	90	99	O
+the	100	103	O
+UO2–PuO2	104	112	B-Task
+phase	113	118	I-Task
+boundaries	119	129	I-Task
+,	129	130	O
+rather	131	137	O
+well	138	142	O
+established	143	154	O
+in	155	157	O
+this	158	162	O
+compositional	163	176	O
+range	177	182	O
+(	183	184	O
+see	184	187	O
+Section	188	195	O
+4.3	196	199	O
+below	200	205	O
+)	205	206	O
+,	206	207	O
+the	208	211	O
+newly	212	217	O
+formed	218	224	O
+liquid	225	231	B-Material
+surface	232	239	I-Material
+is	240	242	O
+initially	243	252	O
+enriched	253	261	B-Process
+in	262	264	I-Process
+plutonium	265	274	I-Process
+dioxide	275	282	I-Process
+.	282	283	O
+
+Subsequently	284	296	O
+,	296	297	O
+due	298	301	O
+to	302	304	O
+fast	305	309	O
+diffusion	310	319	O
+in	320	322	O
+the	323	326	O
+liquid	327	333	B-Material
+phase	334	339	O
+,	339	340	O
+the	341	344	O
+initial	345	352	O
+sample	353	359	O
+composition	360	371	O
+(	372	373	O
+x(PuO2)=0.25	373	385	B-Material
+)	385	386	O
+tends	387	392	O
+to	393	395	O
+be	396	398	O
+rapidly	399	406	O
+restored	407	415	O
+.	415	416	O
+
+It	417	419	O
+is	420	422	O
+however	423	430	O
+clear	431	436	O
+,	436	437	O
+from	438	442	O
+the	443	446	O
+simulation	447	457	B-Process
+,	457	458	O
+that	459	463	O
+the	464	467	O
+fast	468	472	O
+cooling	473	480	B-Process
+occurring	481	490	O
+after	491	496	O
+the	497	500	O
+end	501	504	O
+of	505	507	O
+the	508	511	O
+laser	512	517	B-Process
+pulse	518	523	I-Process
+leads	524	529	O
+to	530	532	O
+onset	533	538	O
+of	539	541	O
+solidification	542	556	B-Process
+before	557	563	O
+the	564	567	O
+initial	568	575	O
+composition	576	587	O
+is	588	590	O
+fully	591	596	O
+recovered	597	606	O
+in	607	609	O
+the	610	613	O
+liquid	614	620	B-Material
+.	620	621	O
+
+A	622	623	O
+surface	624	631	B-Material
+solid	632	637	I-Material
+crust	638	643	I-Material
+forms	644	649	O
+then	650	654	O
+upon	655	659	O
+freezing	660	668	B-Process
+before	669	675	O
+the	676	679	O
+total	680	685	O
+liquid	686	692	B-Material
+mass	693	697	O
+has	698	701	O
+crystallised	702	714	O
+(	715	716	O
+see	716	719	O
+insets	720	726	O
+in	727	729	O
+Fig	730	733	O
+.	733	734	O
+
+4	735	736	O
+)	736	737	O
+.	737	738	O
+
+The	739	742	O
+double	743	749	O
+inflection	750	760	O
+during	761	767	O
+cooling	768	775	B-Process
+in	776	778	O
+this	779	783	O
+case	784	788	O
+corresponds	789	800	O
+to	801	803	O
+the	804	807	O
+solidification	808	822	B-Process
+onset	823	828	O
+on	829	831	O
+the	832	835	O
+sample	836	842	B-Material
+surface	843	850	I-Material
+(	851	852	O
+first	852	857	O
+inflection	858	868	O
+)	868	869	O
+and	870	873	O
+to	874	876	O
+the	877	880	O
+disappearance	881	894	O
+of	895	897	O
+the	898	901	O
+last	902	906	O
+liquid	907	913	B-Material
+inside	914	920	O
+the	921	924	O
+material	925	933	O
+(	934	935	O
+second	935	941	O
+inflection	942	952	O
+)	952	953	O
+.	953	954	O
+
+The	955	958	O
+highest	959	966	O
+recalescence	967	979	O
+temperature	980	991	O
+represents	992	1002	O
+the	1003	1006	O
+solidification	1007	1021	B-Process
+point	1022	1027	O
+of	1028	1030	O
+a	1031	1032	O
+composition	1033	1044	O
+very	1045	1049	O
+close	1050	1055	O
+to	1056	1058	O
+the	1059	1062	O
+initial	1063	1070	O
+one	1071	1074	O
+(	1075	1076	O
+approximately	1076	1089	O
+±0.01	1090	1095	O
+on	1096	1098	O
+x(PuO2	1099	1105	O
+)	1105	1106	O
+in	1107	1109	O
+the	1110	1113	O
+current	1114	1121	O
+example	1122	1129	O
+)	1129	1130	O
+,	1130	1131	O
+except	1132	1138	O
+for	1139	1142	O
+small	1143	1148	B-Task
+segregation	1149	1160	I-Task
+effects	1161	1168	I-Task
+.	1168	1169	O
+
+These	1170	1175	O
+latter	1176	1182	O
+have	1183	1187	O
+been	1188	1192	O
+studied	1193	1200	O
+also	1201	1205	O
+experimentally	1206	1220	O
+in	1221	1223	O
+the	1224	1227	O
+present	1228	1235	O
+research	1236	1244	O
+,	1244	1245	O
+by	1246	1248	O
+post	1249	1253	B-Process
+-	1253	1254	I-Process
+melting	1254	1261	I-Process
+material	1262	1270	I-Process
+characterisation	1271	1287	I-Process
+.	1287	1288	O
 
 
 -DOCSTART- (S0022311514001640)
 
-The	NN	O	O
-vapour	NN	O	B-Material
-phase	NN	O	I-Material
-consists	NN	O	O
-of	NN	O	O
-a	NN	O	O
-number	NN	O	B-Material
-of	NN	O	I-Material
-different	NN	O	I-Material
-gases	NN	O	I-Material
-with	NN	O	O
-silicon	NN	O	B-Material
-exhibiting	NN	O	O
-a	NN	O	O
-far	NN	O	O
-higher	NN	O	O
-partial	NN	O	O
-pressure	NN	O	O
-than	NN	O	O
-all	NN	O	O
-carbon	NN	O	B-Material
-containing	NN	O	O
-species	NN	O	O
-over	NN	O	O
-the	NN	O	O
-full	NN	O	O
-temperature	NN	O	O
-range	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-an	NN	O	O
-immediate	NN	O	O
-result	NN	O	O
-the	NN	O	O
-vapour	NN	O	B-Material
-contains	NN	O	O
-a	NN	O	O
-higher	NN	O	O
-amount	NN	O	O
-of	NN	O	O
-silicon	NN	O	B-Material
-leaving	NN	O	O
-the	NN	O	O
-solid	NN	O	B-Process
-phase	NN	O	I-Process
-with	NN	O	O
-excess	NN	O	O
-carbon	NN	O	B-Material
-.	NN	O	O
-
-This	NN	O	O
-carbon	NN	O	B-Material
-is	NN	O	O
-likely	NN	O	O
-to	NN	O	O
-precipitate	NN	O	B-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-surface	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-SiC	NN	O	I-Process
-grains	NN	O	I-Process
-,	NN	O	O
-a	NN	O	O
-process	NN	O	O
-that	NN	O	O
-becomes	NN	O	O
-very	NN	O	O
-rapid	NN	O	O
-as	NN	O	O
-the	NN	O	O
-temperature	NN	O	O
-approaches	NN	O	O
-2100	NN	O	O
-K	NN	O	O
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Within	NN	O	O
-the	NN	O	O
-TRISO	NN	O	B-Material
-particle	NN	O	I-Material
-the	NN	O	O
-SiC	NN	O	B-Material
-layer	NN	O	O
-is	NN	O	O
-sandwiched	NN	O	O
-between	NN	O	O
-two	NN	O	O
-coatings	NN	O	O
-of	NN	O	O
-dense	NN	O	O
-carbon	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-partial	NN	O	B-Material
-pressure	NN	O	I-Material
-in	NN	O	O
-thermodynamic	NN	O	O
-equilibrium	NN	O	O
-of	NN	O	O
-gaseous	NN	O	B-Material
-carbon	NN	O	I-Material
-forming	NN	O	O
-above	NN	O	O
-graphite	NN	O	B-Material
-was	NN	O	O
-calculated	NN	O	O
-using	NN	O	O
-data	NN	O	B-Material
-taken	NN	O	I-Material
-from	NN	O	I-Material
-JANAF	NN	O	I-Material
-tables	NN	O	I-Material
-and	NN	O	O
-added	NN	O	O
-to	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-,	NN	O	O
-which	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-in	NN	O	O
-the	NN	O	O
-whole	NN	O	O
-temperature	NN	O	O
-range	NN	O	O
-relevant	NN	O	O
-for	NN	O	O
-this	NN	O	O
-study	NN	O	O
-the	NN	O	O
-vapour	NN	O	B-Task
-pressure	NN	O	I-Task
-of	NN	O	I-Task
-carbon	NN	O	I-Task
-is	NN	O	O
-several	NN	O	O
-magnitudes	NN	O	O
-smaller	NN	O	O
-than	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-dominant	NN	O	O
-gas	NN	O	B-Material
-phases	NN	O	O
-above	NN	O	O
-SiC.	NN	O	B-Material
+The	0	3	O
+vapour	4	10	B-Material
+phase	11	16	I-Material
+consists	17	25	O
+of	26	28	O
+a	29	30	O
+number	31	37	B-Material
+of	38	40	I-Material
+different	41	50	I-Material
+gases	51	56	I-Material
+with	57	61	O
+silicon	62	69	B-Material
+exhibiting	70	80	O
+a	81	82	O
+far	83	86	O
+higher	87	93	O
+partial	94	101	O
+pressure	102	110	O
+than	111	115	O
+all	116	119	O
+carbon	120	126	B-Material
+containing	127	137	O
+species	138	145	O
+over	146	150	O
+the	151	154	O
+full	155	159	O
+temperature	160	171	O
+range	172	177	O
+.	177	178	O
+
+As	179	181	O
+an	182	184	O
+immediate	185	194	O
+result	195	201	O
+the	202	205	O
+vapour	206	212	B-Material
+contains	213	221	O
+a	222	223	O
+higher	224	230	O
+amount	231	237	O
+of	238	240	O
+silicon	241	248	B-Material
+leaving	249	256	O
+the	257	260	O
+solid	261	266	B-Process
+phase	267	272	I-Process
+with	273	277	O
+excess	278	284	O
+carbon	285	291	B-Material
+.	291	292	O
+
+This	293	297	O
+carbon	298	304	B-Material
+is	305	307	O
+likely	308	314	O
+to	315	317	O
+precipitate	318	329	B-Process
+on	330	332	I-Process
+the	333	336	I-Process
+surface	337	344	I-Process
+of	345	347	I-Process
+the	348	351	I-Process
+SiC	352	355	I-Process
+grains	356	362	I-Process
+,	362	363	O
+a	364	365	O
+process	366	373	O
+that	374	378	O
+becomes	379	386	O
+very	387	391	O
+rapid	392	397	O
+as	398	400	O
+the	401	404	O
+temperature	405	416	O
+approaches	417	427	O
+2100	428	432	O
+K	432	433	O
+[	434	435	O
+24	435	437	O
+]	437	438	O
+.	438	439	O
+
+Within	440	446	O
+the	447	450	O
+TRISO	451	456	B-Material
+particle	457	465	I-Material
+the	466	469	O
+SiC	470	473	B-Material
+layer	474	479	O
+is	480	482	O
+sandwiched	483	493	O
+between	494	501	O
+two	502	505	O
+coatings	506	514	O
+of	515	517	O
+dense	518	523	O
+carbon	524	530	B-Material
+.	530	531	O
+
+The	532	535	O
+partial	536	543	B-Material
+pressure	544	552	I-Material
+in	553	555	O
+thermodynamic	556	569	O
+equilibrium	570	581	O
+of	582	584	O
+gaseous	585	592	B-Material
+carbon	593	599	I-Material
+forming	600	607	O
+above	608	613	O
+graphite	614	622	B-Material
+was	623	626	O
+calculated	627	637	O
+using	638	643	O
+data	644	648	B-Material
+taken	649	654	I-Material
+from	655	659	I-Material
+JANAF	660	665	I-Material
+tables	666	672	I-Material
+and	673	676	O
+added	677	682	O
+to	683	685	O
+Fig	686	689	O
+.	689	690	O
+
+1	691	692	O
+[	693	694	O
+25	694	696	O
+]	696	697	O
+,	697	698	O
+which	699	704	O
+showed	705	711	O
+that	712	716	O
+in	717	719	O
+the	720	723	O
+whole	724	729	O
+temperature	730	741	O
+range	742	747	O
+relevant	748	756	O
+for	757	760	O
+this	761	765	O
+study	766	771	O
+the	772	775	O
+vapour	776	782	B-Task
+pressure	783	791	I-Task
+of	792	794	I-Task
+carbon	795	801	I-Task
+is	802	804	O
+several	805	812	O
+magnitudes	813	823	O
+smaller	824	831	O
+than	832	836	O
+that	837	841	O
+of	842	844	O
+the	845	848	O
+dominant	849	857	O
+gas	858	861	B-Material
+phases	862	868	O
+above	869	874	O
+SiC.	875	879	B-Material
 
 
 -DOCSTART- (S0022311514005480)
 
-The	NN	O	O
-second	NN	O	B-Task
-stress	NN	O	I-Task
-state	NN	O	I-Task
-is	NN	O	O
-a	NN	O	O
-tri	NN	O	B-Task
--	NN	O	I-Task
-axial	NN	O	I-Task
-tensile	NN	O	I-Task
-stress	NN	O	I-Task
-designed	NN	O	O
-to	NN	O	O
-represent	NN	O	O
-the	NN	O	O
-zone	NN	O	O
-ahead	NN	O	O
-of	NN	O	O
-an	NN	O	O
-advancing	NN	O	B-Material
-crack	NN	O	I-Material
-tip	NN	O	I-Material
-.	NN	O	O
-
-Micro	NN	O	O
--	NN	O	O
-scale	NN	O	O
-lateral	NN	O	O
-cracks	NN	O	O
-have	NN	O	O
-been	NN	O	O
-observed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-layer	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-appear	NN	O	O
-to	NN	O	O
-form	NN	O	O
-very	NN	O	O
-close	NN	O	O
-to	NN	O	O
-or	NN	O	O
-at	NN	O	O
-the	NN	O	O
-metal	NN	O	B-Material
-–	NN	O	I-Material
-oxide	NN	O	I-Material
-interface	NN	O	I-Material
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Finite	NN	O	B-Process
-element	NN	O	I-Process
-analysis	NN	O	I-Process
-by	NN	O	O
-Parise	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-indicated	NN	O	O
-that	NN	O	O
-these	NN	O	O
-cracks	NN	O	B-Material
-form	NN	O	O
-as	NN	O	O
-a	NN	O	O
-result	NN	O	O
-of	NN	O	O
-localised	NN	O	B-Material
-tensile	NN	O	I-Material
-stresses	NN	O	I-Material
-above	NN	O	O
-peaks	NN	O	O
-in	NN	O	O
-the	NN	O	O
-metal	NN	O	B-Material
-–	NN	O	I-Material
-oxide	NN	O	I-Material
-interface	NN	O	I-Material
-roughness	NN	O	O
-[	NN	O	O
-31	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-cracks	NN	O	O
-are	NN	O	O
-considered	NN	O	O
-separate	NN	O	O
-to	NN	O	O
-any	NN	O	O
-nano	NN	O	O
--	NN	O	O
-scale	NN	O	O
-cracks	NN	O	O
-that	NN	O	O
-might	NN	O	O
-result	NN	O	O
-from	NN	O	O
-the	NN	O	O
-tetragonal	NN	O	B-Process
-to	NN	O	I-Process
-monoclinic	NN	O	I-Process
-phase	NN	O	I-Process
-transformation	NN	O	I-Process
-.	NN	O	O
-
-An	NN	O	O
-assumption	NN	O	O
-is	NN	O	O
-made	NN	O	O
-here	NN	O	O
-that	NN	O	O
-whether	NN	O	O
-the	NN	O	O
-micro	NN	O	O
--	NN	O	O
-scale	NN	O	O
-lateral	NN	O	O
-cracks	NN	O	O
-form	NN	O	O
-via	NN	O	O
-fracture	NN	O	O
-of	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-or	NN	O	O
-by	NN	O	O
-de	NN	O	B-Process
--	NN	O	I-Process
-bonding	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-interface	NN	O	O
-a	NN	O	O
-triaxial	NN	O	B-Process
-tensile	NN	O	I-Process
-stress	NN	O	I-Process
-state	NN	O	O
-will	NN	O	O
-still	NN	O	O
-be	NN	O	O
-present	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-manufactured	NN	O	B-Material
-partially	NN	O	I-Material
-stabilised	NN	O	I-Material
-zirconia	NN	O	I-Material
-cracks	NN	O	O
-would	NN	O	O
-be	NN	O	O
-expected	NN	O	O
-to	NN	O	O
-destabilise	NN	O	O
-the	NN	O	O
-tetragonal	NN	O	B-Process
-phase	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-simulated	NN	O	B-Task
-by	NN	O	I-Task
-applying	NN	O	I-Task
-tensile	NN	O	I-Task
-stress	NN	O	I-Task
-in	NN	O	I-Task
-direction	NN	O	I-Task
-1	NN	O	I-Task
-,	NN	O	I-Task
-2	NN	O	I-Task
-and	NN	O	I-Task
-3	NN	O	I-Task
-.	NN	O	O
-
-As	NN	O	O
-this	NN	O	O
-the	NN	O	O
-maximum	NN	O	B-Process
-stress	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-crack	NN	O	O
-tip	NN	O	O
-is	NN	O	O
-not	NN	O	O
-known	NN	O	O
-,	NN	O	O
-the	NN	O	O
-applied	NN	O	B-Process
-tensile	NN	O	I-Process
-stresses	NN	O	I-Process
-cover	NN	O	O
-a	NN	O	O
-range	NN	O	O
-from	NN	O	O
-0.1GPa	NN	O	O
-up	NN	O	O
-to	NN	O	O
-a	NN	O	O
-maximum	NN	O	O
-stress	NN	O	O
-value	NN	O	O
-of	NN	O	O
-2.2GPa	NN	O	O
-as	NN	O	O
-it	NN	O	O
-is	NN	O	O
-approximately	NN	O	O
-equal	NN	O	O
-
-to	NN	O	O
-three	NN	O	O
-times	NN	O	O
-the	NN	O	O
-fracture	NN	O	B-Process
-strength	NN	O	O
-of	NN	O	O
-bulk	NN	O	O
-fracture	NN	O	O
-strength	NN	O	O
-for	NN	O	O
-manufactured	NN	O	B-Material
-stabilized	NN	O	I-Material
-zirconia	NN	O	I-Material
-[	NN	O	O
-34	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-biaxial	NN	O	B-Task
-compressive	NN	O	I-Task
-and	NN	O	I-Task
-triaxial	NN	O	I-Task
-tensile	NN	O	I-Task
-stress	NN	O	I-Task
-states	NN	O	I-Task
-it	NN	O	O
-is	NN	O	O
-the	NN	O	O
-trends	NN	O	O
-in	NN	O	O
-behaviour	NN	O	O
-rather	NN	O	O
-than	NN	O	O
-the	NN	O	O
-absolute	NN	O	O
-values	NN	O	O
-that	NN	O	O
-are	NN	O	O
-considered	NN	O	O
-of	NN	O	O
-greatest	NN	O	O
-importance	NN	O	O
-for	NN	O	O
-this	NN	O	O
-work	NN	O	O
-.	NN	O	O
+The	0	3	O
+second	4	10	B-Task
+stress	11	17	I-Task
+state	18	23	I-Task
+is	24	26	O
+a	27	28	O
+tri	29	32	B-Task
+-	32	33	I-Task
+axial	33	38	I-Task
+tensile	39	46	I-Task
+stress	47	53	I-Task
+designed	54	62	O
+to	63	65	O
+represent	66	75	O
+the	76	79	O
+zone	80	84	O
+ahead	85	90	O
+of	91	93	O
+an	94	96	O
+advancing	97	106	B-Material
+crack	107	112	I-Material
+tip	113	116	I-Material
+.	116	117	O
+
+Micro	118	123	O
+-	123	124	O
+scale	124	129	O
+lateral	130	137	O
+cracks	138	144	O
+have	145	149	O
+been	150	154	O
+observed	155	163	O
+in	164	166	O
+the	167	170	O
+oxide	171	176	B-Material
+layer	177	182	I-Material
+,	182	183	O
+and	184	187	O
+appear	188	194	O
+to	195	197	O
+form	198	202	O
+very	203	207	O
+close	208	213	O
+to	214	216	O
+or	217	219	O
+at	220	222	O
+the	223	226	O
+metal	227	232	B-Material
+–	232	233	I-Material
+oxide	233	238	I-Material
+interface	239	248	I-Material
+(	249	250	O
+Fig	250	253	O
+.	253	254	O
+
+1	255	256	O
+)	256	257	O
+.	257	258	O
+
+Finite	259	265	B-Process
+element	266	273	I-Process
+analysis	274	282	I-Process
+by	283	285	O
+Parise	286	292	O
+et	293	295	O
+al	296	298	O
+.	298	299	O
+indicated	300	309	O
+that	310	314	O
+these	315	320	O
+cracks	321	327	B-Material
+form	328	332	O
+as	333	335	O
+a	336	337	O
+result	338	344	O
+of	345	347	O
+localised	348	357	B-Material
+tensile	358	365	I-Material
+stresses	366	374	I-Material
+above	375	380	O
+peaks	381	386	O
+in	387	389	O
+the	390	393	O
+metal	394	399	B-Material
+–	399	400	I-Material
+oxide	400	405	I-Material
+interface	406	415	I-Material
+roughness	416	425	O
+[	426	427	O
+31	427	429	O
+]	429	430	O
+.	430	431	O
+
+These	432	437	O
+cracks	438	444	O
+are	445	448	O
+considered	449	459	O
+separate	460	468	O
+to	469	471	O
+any	472	475	O
+nano	476	480	O
+-	480	481	O
+scale	481	486	O
+cracks	487	493	O
+that	494	498	O
+might	499	504	O
+result	505	511	O
+from	512	516	O
+the	517	520	O
+tetragonal	521	531	B-Process
+to	532	534	I-Process
+monoclinic	535	545	I-Process
+phase	546	551	I-Process
+transformation	552	566	I-Process
+.	566	567	O
+
+An	568	570	O
+assumption	571	581	O
+is	582	584	O
+made	585	589	O
+here	590	594	O
+that	595	599	O
+whether	600	607	O
+the	608	611	O
+micro	612	617	O
+-	617	618	O
+scale	618	623	O
+lateral	624	631	O
+cracks	632	638	O
+form	639	643	O
+via	644	647	O
+fracture	648	656	O
+of	657	659	O
+the	660	663	O
+oxide	664	669	B-Material
+or	670	672	O
+by	673	675	O
+de	676	678	B-Process
+-	678	679	I-Process
+bonding	679	686	I-Process
+at	687	689	O
+the	690	693	O
+interface	694	703	O
+a	704	705	O
+triaxial	706	714	B-Process
+tensile	715	722	I-Process
+stress	723	729	I-Process
+state	730	735	O
+will	736	740	O
+still	741	746	O
+be	747	749	O
+present	750	757	O
+.	757	758	O
+
+In	759	761	O
+manufactured	762	774	B-Material
+partially	775	784	I-Material
+stabilised	785	795	I-Material
+zirconia	796	804	I-Material
+cracks	805	811	O
+would	812	817	O
+be	818	820	O
+expected	821	829	O
+to	830	832	O
+destabilise	833	844	O
+the	845	848	O
+tetragonal	849	859	B-Process
+phase	860	865	I-Process
+.	865	866	O
+
+This	867	871	O
+is	872	874	O
+simulated	875	884	B-Task
+by	885	887	I-Task
+applying	888	896	I-Task
+tensile	897	904	I-Task
+stress	905	911	I-Task
+in	912	914	I-Task
+direction	915	924	I-Task
+1	925	926	I-Task
+,	926	927	I-Task
+2	928	929	I-Task
+and	930	933	I-Task
+3	934	935	I-Task
+.	935	936	O
+
+As	937	939	O
+this	940	944	O
+the	945	948	O
+maximum	949	956	B-Process
+stress	957	963	I-Process
+at	964	966	O
+the	967	970	O
+crack	971	976	O
+tip	977	980	O
+is	981	983	O
+not	984	987	O
+known	988	993	O
+,	993	994	O
+the	995	998	O
+applied	999	1006	B-Process
+tensile	1007	1014	I-Process
+stresses	1015	1023	I-Process
+cover	1024	1029	O
+a	1030	1031	O
+range	1032	1037	O
+from	1038	1042	O
+0.1GPa	1043	1049	O
+up	1050	1052	O
+to	1053	1055	O
+a	1056	1057	O
+maximum	1058	1065	O
+stress	1066	1072	O
+value	1073	1078	O
+of	1079	1081	O
+2.2GPa	1082	1088	O
+as	1089	1091	O
+it	1092	1094	O
+is	1095	1097	O
+approximately	1098	1111	O
+equal	1112	1117	O
+
+to	1118	1120	O
+three	1121	1126	O
+times	1127	1132	O
+the	1133	1136	O
+fracture	1137	1145	B-Process
+strength	1146	1154	O
+of	1155	1157	O
+bulk	1158	1162	O
+fracture	1163	1171	O
+strength	1172	1180	O
+for	1181	1184	O
+manufactured	1185	1197	B-Material
+stabilized	1198	1208	I-Material
+zirconia	1209	1217	I-Material
+[	1218	1219	O
+34	1219	1221	O
+]	1221	1222	O
+.	1222	1223	O
+
+For	1224	1227	O
+the	1228	1231	O
+biaxial	1232	1239	B-Task
+compressive	1240	1251	I-Task
+and	1252	1255	I-Task
+triaxial	1256	1264	I-Task
+tensile	1265	1272	I-Task
+stress	1273	1279	I-Task
+states	1280	1286	I-Task
+it	1287	1289	O
+is	1290	1292	O
+the	1293	1296	O
+trends	1297	1303	O
+in	1304	1306	O
+behaviour	1307	1316	O
+rather	1317	1323	O
+than	1324	1328	O
+the	1329	1332	O
+absolute	1333	1341	O
+values	1342	1348	O
+that	1349	1353	O
+are	1354	1357	O
+considered	1358	1368	O
+of	1369	1371	O
+greatest	1372	1380	O
+importance	1381	1391	O
+for	1392	1395	O
+this	1396	1400	O
+work	1401	1405	O
+.	1405	1406	O
 
 
 -DOCSTART- (S0022311514006849)
 
-The	NN	O	O
-early	NN	O	O
-theoretical	NN	O	O
-work	NN	O	O
-of	NN	O	O
-Catlow	NN	O	O
-assessed	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-Willis	NN	O	B-Material
-type	NN	O	I-Material
-clusters	NN	O	I-Material
-and	NN	O	O
-found	NN	O	O
-them	NN	O	O
-all	NN	O	O
-to	NN	O	O
-be	NN	O	O
-stable	NN	O	O
-using	NN	O	O
-potential	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-methods	NN	O	I-Process
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-More	NN	O	O
-recently	NN	O	O
-“	NN	O	O
-split	NN	O	B-Task
-interstitial	NN	O	I-Task
-”	NN	O	I-Task
-type	NN	O	I-Task
-clusters	NN	O	I-Task
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-)	NN	O	O
-have	NN	O	O
-emerged	NN	O	O
-from	NN	O	O
-computational	NN	O	O
-studies	NN	O	O
-as	NN	O	O
-stable	NN	O	O
-species	NN	O	O
-following	NN	O	O
-the	NN	O	O
-potential	NN	O	B-Process
-based	NN	O	I-Process
-investigation	NN	O	I-Process
-of	NN	O	O
-Govers	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-which	NN	O	O
-found	NN	O	O
-the	NN	O	O
-2:2:2	NN	O	O
-cluster	NN	O	O
-in	NN	O	O
-a	NN	O	O
-UO2	NN	O	B-Material
-supercell	NN	O	I-Material
-relaxed	NN	O	O
-to	NN	O	O
-a	NN	O	O
-split	NN	O	O
-di	NN	O	B-Material
--	NN	O	I-Material
-interstitial	NN	O	I-Material
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1(b	NN	O	O
-)	NN	O	O
-)	NN	O	O
-;	NN	O	O
-a	NN	O	B-Material
-single	NN	O	I-Material
-VO	NN	O	I-Material
-with	NN	O	I-Material
-three	NN	O	I-Material
-Oi	NN	O	I-Material
-displaced	NN	O	O
-approximately	NN	O	O
-1.6Å	NN	O	O
-in	NN	O	O
-〈	NN	O	O
-111	NN	O	O
-〉	NN	O	O
-directions	NN	O	O
-from	NN	O	O
-the	NN	O	O
-VO	NN	O	B-Material
-.	NN	O	O
-
-This	NN	O	O
-result	NN	O	O
-was	NN	O	O
-later	NN	O	O
-confirmed	NN	O	O
-by	NN	O	O
-the	NN	O	O
-LSDA+U	NN	O	B-Process
-calculations	NN	O	O
-of	NN	O	O
-Geng	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-family	NN	O	O
-of	NN	O	O
-split	NN	O	B-Material
-interstitial	NN	O	I-Material
-clusters	NN	O	I-Material
-was	NN	O	O
-extended	NN	O	O
-to	NN	O	O
-include	NN	O	O
-tri	NN	O	B-Material
--	NN	O	I-Material
-interstitials	NN	O	I-Material
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-(	NN	O	O
-a	NN	O	O
-di	NN	O	B-Material
--	NN	O	I-Material
-interstitial	NN	O	I-Material
-with	NN	O	I-Material
-the	NN	O	I-Material
-fourth	NN	O	I-Material
-Oi	NN	O	I-Material
-site	NN	O	I-Material
-occupied	NN	O	I-Material
-)	NN	O	O
-and	NN	O	O
-quad	NN	O	B-Material
--	NN	O	I-Material
-interstitials	NN	O	I-Material
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-(	NN	O	O
-two	NN	O	B-Material
-di	NN	O	I-Material
--	NN	O	I-Material
-interstitials	NN	O	I-Material
-on	NN	O	I-Material
-adjacent	NN	O	I-Material
-sites	NN	O	I-Material
-,	NN	O	O
-giving	NN	O	O
-a	NN	O	O
-total	NN	O	O
-of	NN	O	O
-two	NN	O	O
-VO	NN	O	B-Material
-and	NN	O	O
-six	NN	O	O
-Oi	NN	O	B-Material
-)	NN	O	O
-
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1(d	NN	O	O
-)	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Following	NN	O	O
-this	NN	O	O
-Andersson	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-postulated	NN	O	O
-a	NN	O	O
-model	NN	O	B-Material
-for	NN	O	I-Material
-U4O9	NN	O	I-Material
-based	NN	O	O
-on	NN	O	O
-a	NN	O	O
-UO2	NN	O	B-Material
-supercell	NN	O	I-Material
-containing	NN	O	O
-multiple	NN	O	B-Material
-split	NN	O	I-Material
-quad	NN	O	I-Material
--	NN	O	I-Material
-interstitial	NN	O	I-Material
-clusters	NN	O	I-Material
-;	NN	O	O
-following	NN	O	O
-the	NN	O	O
-prediction	NN	O	O
-of	NN	O	O
-their	NN	O	O
-LSDA+U	NN	O	B-Process
-calculations	NN	O	O
-that	NN	O	O
-the	NN	O	O
-quad	NN	O	B-Material
--	NN	O	I-Material
-interstitial	NN	O	I-Material
-is	NN	O	O
-more	NN	O	O
-stable	NN	O	O
-than	NN	O	O
-its	NN	O	O
-cuboctahedral	NN	O	B-Material
-counterpart	NN	O	O
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+early	4	9	O
+theoretical	10	21	O
+work	22	26	O
+of	27	29	O
+Catlow	30	36	O
+assessed	37	45	O
+a	46	47	O
+number	48	54	O
+of	55	57	O
+Willis	58	64	B-Material
+type	65	69	I-Material
+clusters	70	78	I-Material
+and	79	82	O
+found	83	88	O
+them	89	93	O
+all	94	97	O
+to	98	100	O
+be	101	103	O
+stable	104	110	O
+using	111	116	O
+potential	117	126	B-Process
+-	126	127	I-Process
+based	127	132	I-Process
+methods	133	140	I-Process
+[	141	142	O
+6	142	143	O
+]	143	144	O
+.	144	145	O
+
+More	146	150	O
+recently	151	159	O
+“	160	161	O
+split	161	166	B-Task
+interstitial	167	179	I-Task
+”	179	180	I-Task
+type	181	185	I-Task
+clusters	186	194	I-Task
+(	195	196	O
+Fig	196	199	O
+.	199	200	O
+
+1	201	202	O
+)	202	203	O
+have	204	208	O
+emerged	209	216	O
+from	217	221	O
+computational	222	235	O
+studies	236	243	O
+as	244	246	O
+stable	247	253	O
+species	254	261	O
+following	262	271	O
+the	272	275	O
+potential	276	285	B-Process
+based	286	291	I-Process
+investigation	292	305	I-Process
+of	306	308	O
+Govers	309	315	O
+et	316	318	O
+al	319	321	O
+.	321	322	O
+
+which	323	328	O
+found	329	334	O
+the	335	338	O
+2:2:2	339	344	O
+cluster	345	352	O
+in	353	355	O
+a	356	357	O
+UO2	358	361	B-Material
+supercell	362	371	I-Material
+relaxed	372	379	O
+to	380	382	O
+a	383	384	O
+split	385	390	O
+di	391	393	B-Material
+-	393	394	I-Material
+interstitial	394	406	I-Material
+[	407	408	O
+13	408	410	O
+]	410	411	O
+(	412	413	O
+Fig	413	416	O
+.	416	417	O
+
+1(b	418	421	O
+)	421	422	O
+)	422	423	O
+;	423	424	O
+a	425	426	B-Material
+single	427	433	I-Material
+VO	434	436	I-Material
+with	437	441	I-Material
+three	442	447	I-Material
+Oi	448	450	I-Material
+displaced	451	460	O
+approximately	461	474	O
+1.6Å	475	479	O
+in	480	482	O
+〈	483	484	O
+111	484	487	O
+〉	487	488	O
+directions	489	499	O
+from	500	504	O
+the	505	508	O
+VO	509	511	B-Material
+.	511	512	O
+
+This	513	517	O
+result	518	524	O
+was	525	528	O
+later	529	534	O
+confirmed	535	544	O
+by	545	547	O
+the	548	551	O
+LSDA+U	552	558	B-Process
+calculations	559	571	O
+of	572	574	O
+Geng	575	579	O
+et	580	582	O
+al	583	585	O
+.	585	586	O
+
+[	587	588	O
+7	588	589	O
+]	589	590	O
+.	590	591	O
+
+The	592	595	O
+family	596	602	O
+of	603	605	O
+split	606	611	B-Material
+interstitial	612	624	I-Material
+clusters	625	633	I-Material
+was	634	637	O
+extended	638	646	O
+to	647	649	O
+include	650	657	O
+tri	658	661	B-Material
+-	661	662	I-Material
+interstitials	662	675	I-Material
+[	676	677	O
+8	677	678	O
+]	678	679	O
+(	680	681	O
+a	681	682	O
+di	683	685	B-Material
+-	685	686	I-Material
+interstitial	686	698	I-Material
+with	699	703	I-Material
+the	704	707	I-Material
+fourth	708	714	I-Material
+Oi	715	717	I-Material
+site	718	722	I-Material
+occupied	723	731	I-Material
+)	731	732	O
+and	733	736	O
+quad	737	741	B-Material
+-	741	742	I-Material
+interstitials	742	755	I-Material
+[	756	757	O
+9	757	758	O
+]	758	759	O
+(	760	761	O
+two	761	764	B-Material
+di	765	767	I-Material
+-	767	768	I-Material
+interstitials	768	781	I-Material
+on	782	784	I-Material
+adjacent	785	793	I-Material
+sites	794	799	I-Material
+,	799	800	O
+giving	801	807	O
+a	808	809	O
+total	810	815	O
+of	816	818	O
+two	819	822	O
+VO	823	825	B-Material
+and	826	829	O
+six	830	833	O
+Oi	834	836	B-Material
+)	836	837	O
+
+(	838	839	O
+Fig	839	842	O
+.	842	843	O
+
+1(d	844	847	O
+)	847	848	O
+)	848	849	O
+.	849	850	O
+
+Following	851	860	O
+this	861	865	O
+Andersson	866	875	O
+et	876	878	O
+al	879	881	O
+.	881	882	O
+postulated	883	893	O
+a	894	895	O
+model	896	901	B-Material
+for	902	905	I-Material
+U4O9	906	910	I-Material
+based	911	916	O
+on	917	919	O
+a	920	921	O
+UO2	922	925	B-Material
+supercell	926	935	I-Material
+containing	936	946	O
+multiple	947	955	B-Material
+split	956	961	I-Material
+quad	962	966	I-Material
+-	966	967	I-Material
+interstitial	967	979	I-Material
+clusters	980	988	I-Material
+;	988	989	O
+following	990	999	O
+the	1000	1003	O
+prediction	1004	1014	O
+of	1015	1017	O
+their	1018	1023	O
+LSDA+U	1024	1030	B-Process
+calculations	1031	1043	O
+that	1044	1048	O
+the	1049	1052	O
+quad	1053	1057	B-Material
+-	1057	1058	I-Material
+interstitial	1058	1070	I-Material
+is	1071	1073	O
+more	1074	1078	O
+stable	1079	1085	O
+than	1086	1090	O
+its	1091	1094	O
+cuboctahedral	1095	1108	B-Material
+counterpart	1109	1120	O
+[	1121	1122	O
+12	1122	1124	O
+]	1124	1125	O
+.	1125	1126	O
 
 
 -DOCSTART- (S0022311514007119)
 
-In	NN	O	O
-the	NN	O	O
-calculations	NN	O	O
-for	NN	O	O
-the	NN	O	O
-formation	NN	O	B-Task
-energy	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-box	NN	O	B-Material
-size	NN	O	O
-is	NN	O	O
-set	NN	O	O
-to	NN	O	O
-30a0×30a0×30a0	NN	O	O
-,	NN	O	O
-where	NN	O	O
-a0	NN	O	O
-is	NN	O	O
-the	NN	O	O
-bcc	NN	O	O
-Fe	NN	O	B-Material
-lattice	NN	O	I-Material
-parameter	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-all	NN	O	O
-calculations	NN	O	O
-periodic	NN	O	O
-boundary	NN	O	O
-conditions	NN	O	O
-and	NN	O	O
-constant	NN	O	O
-volume	NN	O	O
-are	NN	O	O
-used	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Monte	NN	O	B-Process
-Carlo	NN	O	I-Process
-algorithm	NN	O	I-Process
-used	NN	O	O
-to	NN	O	O
-determine	NN	O	B-Process
-the	NN	O	I-Process
-lowest	NN	O	I-Process
-energy	NN	O	I-Process
-configuration	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-cluster	NN	O	O
-[	NN	O	O
-28	NN	O	O
-]	NN	O	O
-is	NN	O	O
-organised	NN	O	O
-as	NN	O	O
-follows	NN	O	O
-.	NN	O	O
-
-First	NN	O	O
-,	NN	O	O
-the	NN	O	O
-energetics	NN	O	O
-of	NN	O	O
-voids	NN	O	B-Material
-without	NN	O	I-Material
-helium	NN	O	I-Material
-are	NN	O	O
-investigated	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-vacancy	NN	O	O
-is	NN	O	O
-introduced	NN	O	O
-into	NN	O	O
-the	NN	O	O
-simulation	NN	O	B-Material
-cell	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-system	NN	O	O
-is	NN	O	O
-minimised	NN	O	O
-using	NN	O	O
-a	NN	O	O
-conjugate	NN	O	B-Process
-gradient	NN	O	I-Process
-algorithm	NN	O	I-Process
-,	NN	O	O
-yielding	NN	O	O
-a	NN	O	O
-single	NN	O	B-Material
-vacancy	NN	O	I-Material
-formation	NN	O	I-Material
-energy	NN	O	I-Material
-Evac	NN	O	B-Material
-of	NN	O	O
-1.72eV.	NN	O	O
-Next	NN	O	O
-,	NN	O	O
-the	NN	O	O
-atom	NN	O	O
-with	NN	O	O
-the	NN	O	O
-highest	NN	O	O
-potential	NN	O	O
-energy	NN	O	O
-is	NN	O	O
-removed	NN	O	O
-from	NN	O	O
-the	NN	O	O
-system	NN	O	O
-and	NN	O	O
-again	NN	O	O
-the	NN	O	O
-system	NN	O	O
-is	NN	O	O
-minimised	NN	O	B-Process
-.	NN	O	O
-
-This	NN	O	O
-scheme	NN	O	O
-is	NN	O	O
-iteratively	NN	O	O
-continued	NN	O	O
-to	NN	O	O
-create	NN	O	O
-voids	NN	O	O
-up	NN	O	O
-to	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-target	NN	O	O
-vacancies	NN	O	O
-and	NN	O	O
-the	NN	O	O
-formation	NN	O	O
-energy	NN	O	O
-of	NN	O	O
-each	NN	O	O
-is	NN	O	O
-calculated	NN	O	O
-.	NN	O	O
-
-Next	NN	O	O
-,	NN	O	O
-helium	NN	O	B-Material
-atoms	NN	O	I-Material
-are	NN	O	O
-introduced	NN	O	O
-to	NN	O	O
-the	NN	O	O
-vacancies	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-total	NN	O	B-Material
-system	NN	O	I-Material
-energy	NN	O	I-Material
-is	NN	O	O
-measured	NN	O	O
-and	NN	O	O
-recorded	NN	O	O
-.	NN	O	O
-
-At	NN	O	O
-this	NN	O	O
-point	NN	O	O
-,	NN	O	O
-a	NN	O	O
-Metropolis	NN	O	B-Process
-MC	NN	O	I-Process
-scheme	NN	O	I-Process
-[	NN	O	O
-29	NN	O	O
-]	NN	O	O
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-find	NN	O	O
-the	NN	O	O
-low	NN	O	B-Material
-energy	NN	O	I-Material
-configurations	NN	O	I-Material
-.	NN	O	O
-
-Every	NN	O	O
-helium	NN	O	B-Material
-in	NN	O	O
-the	NN	O	O
-system	NN	O	O
-is	NN	O	O
-randomly	NN	O	O
-displaced	NN	O	O
-from	NN	O	O
-its	NN	O	O
-site	NN	O	O
-up	NN	O	O
-to	NN	O	O
-a	NN	O	O
-maximum	NN	O	O
-of	NN	O	O
-rmax	NN	O	O
-(	NN	O	O
-4.5Å	NN	O	O
-,	NN	O	O
-the	NN	O	O
-cut	NN	O	O
-off	NN	O	O
-distance	NN	O	O
-for	NN	O	O
-He	NN	O	B-Process
-–	NN	O	I-Process
-He	NN	O	I-Process
-interactions	NN	O	I-Process
-)	NN	O	O
-in	NN	O	O
-each	NN	O	O
-of	NN	O	O
-the	NN	O	O
-x	NN	O	O
-,	NN	O	O
-y	NN	O	O
-and	NN	O	O
-z	NN	O	O
-directions	NN	O	O
-and	NN	O	O
-then	NN	O	O
-minimised	NN	O	B-Process
-using	NN	O	O
-the	NN	O	O
-conjugate	NN	O	B-Process
-gradient	NN	O	I-Process
-algorithm	NN	O	I-Process
-.	NN	O	O
-
-Each	NN	O	O
-bubble	NN	O	O
-is	NN	O	O
-continued	NN	O	O
-for	NN	O	O
-a	NN	O	O
-minimum	NN	O	O
-of	NN	O	O
-10,000	NN	O	O
-steps	NN	O	O
-.	NN	O	O
-
-After	NN	O	O
-that	NN	O	O
-,	NN	O	O
-the	NN	O	O
-searches	NN	O	O
-will	NN	O	O
-be	NN	O	O
-terminated	NN	O	O
-if	NN	O	O
-the	NN	O	O
-system	NN	O	O
-energy	NN	O	O
-does	NN	O	O
-not	NN	O	O
-drop	NN	O	O
-within	NN	O	O
-a	NN	O	O
-further	NN	O	O
-10	NN	O	O
-steps	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-schematic	NN	O	O
-of	NN	O	O
-this	NN	O	O
-iterative	NN	O	B-Process
-process	NN	O	I-Process
-is	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+calculations	7	19	O
+for	20	23	O
+the	24	27	O
+formation	28	37	B-Task
+energy	38	44	I-Task
+,	44	45	O
+the	46	49	O
+box	50	53	B-Material
+size	54	58	O
+is	59	61	O
+set	62	65	O
+to	66	68	O
+30a0×30a0×30a0	69	83	O
+,	83	84	O
+where	85	90	O
+a0	91	93	O
+is	94	96	O
+the	97	100	O
+bcc	101	104	O
+Fe	105	107	B-Material
+lattice	108	115	I-Material
+parameter	116	125	O
+.	125	126	O
+
+For	127	130	O
+all	131	134	O
+calculations	135	147	O
+periodic	148	156	O
+boundary	157	165	O
+conditions	166	176	O
+and	177	180	O
+constant	181	189	O
+volume	190	196	O
+are	197	200	O
+used	201	205	O
+.	205	206	O
+
+The	207	210	O
+Monte	211	216	B-Process
+Carlo	217	222	I-Process
+algorithm	223	232	I-Process
+used	233	237	O
+to	238	240	O
+determine	241	250	B-Process
+the	251	254	I-Process
+lowest	255	261	I-Process
+energy	262	268	I-Process
+configuration	269	282	I-Process
+of	283	285	O
+the	286	289	O
+cluster	290	297	O
+[	298	299	O
+28	299	301	O
+]	301	302	O
+is	303	305	O
+organised	306	315	O
+as	316	318	O
+follows	319	326	O
+.	326	327	O
+
+First	328	333	O
+,	333	334	O
+the	335	338	O
+energetics	339	349	O
+of	350	352	O
+voids	353	358	B-Material
+without	359	366	I-Material
+helium	367	373	I-Material
+are	374	377	O
+investigated	378	390	O
+.	390	391	O
+
+A	392	393	O
+vacancy	394	401	O
+is	402	404	O
+introduced	405	415	O
+into	416	420	O
+the	421	424	O
+simulation	425	435	B-Material
+cell	436	440	I-Material
+and	441	444	O
+the	445	448	O
+system	449	455	O
+is	456	458	O
+minimised	459	468	O
+using	469	474	O
+a	475	476	O
+conjugate	477	486	B-Process
+gradient	487	495	I-Process
+algorithm	496	505	I-Process
+,	505	506	O
+yielding	507	515	O
+a	516	517	O
+single	518	524	B-Material
+vacancy	525	532	I-Material
+formation	533	542	I-Material
+energy	543	549	I-Material
+Evac	550	554	B-Material
+of	555	557	O
+1.72eV.	558	565	O
+Next	566	570	O
+,	570	571	O
+the	572	575	O
+atom	576	580	O
+with	581	585	O
+the	586	589	O
+highest	590	597	O
+potential	598	607	O
+energy	608	614	O
+is	615	617	O
+removed	618	625	O
+from	626	630	O
+the	631	634	O
+system	635	641	O
+and	642	645	O
+again	646	651	O
+the	652	655	O
+system	656	662	O
+is	663	665	O
+minimised	666	675	B-Process
+.	675	676	O
+
+This	677	681	O
+scheme	682	688	O
+is	689	691	O
+iteratively	692	703	O
+continued	704	713	O
+to	714	716	O
+create	717	723	O
+voids	724	729	O
+up	730	732	O
+to	733	735	O
+the	736	739	O
+number	740	746	O
+of	747	749	O
+target	750	756	O
+vacancies	757	766	O
+and	767	770	O
+the	771	774	O
+formation	775	784	O
+energy	785	791	O
+of	792	794	O
+each	795	799	O
+is	800	802	O
+calculated	803	813	O
+.	813	814	O
+
+Next	815	819	O
+,	819	820	O
+helium	821	827	B-Material
+atoms	828	833	I-Material
+are	834	837	O
+introduced	838	848	O
+to	849	851	O
+the	852	855	O
+vacancies	856	865	O
+.	865	866	O
+
+The	867	870	O
+total	871	876	B-Material
+system	877	883	I-Material
+energy	884	890	I-Material
+is	891	893	O
+measured	894	902	O
+and	903	906	O
+recorded	907	915	O
+.	915	916	O
+
+At	917	919	O
+this	920	924	O
+point	925	930	O
+,	930	931	O
+a	932	933	O
+Metropolis	934	944	B-Process
+MC	945	947	I-Process
+scheme	948	954	I-Process
+[	955	956	O
+29	956	958	O
+]	958	959	O
+is	960	962	O
+used	963	967	O
+to	968	970	O
+find	971	975	O
+the	976	979	O
+low	980	983	B-Material
+energy	984	990	I-Material
+configurations	991	1005	I-Material
+.	1005	1006	O
+
+Every	1007	1012	O
+helium	1013	1019	B-Material
+in	1020	1022	O
+the	1023	1026	O
+system	1027	1033	O
+is	1034	1036	O
+randomly	1037	1045	O
+displaced	1046	1055	O
+from	1056	1060	O
+its	1061	1064	O
+site	1065	1069	O
+up	1070	1072	O
+to	1073	1075	O
+a	1076	1077	O
+maximum	1078	1085	O
+of	1086	1088	O
+rmax	1089	1093	O
+(	1094	1095	O
+4.5Å	1095	1099	O
+,	1099	1100	O
+the	1101	1104	O
+cut	1105	1108	O
+off	1109	1112	O
+distance	1113	1121	O
+for	1122	1125	O
+He	1126	1128	B-Process
+–	1128	1129	I-Process
+He	1129	1131	I-Process
+interactions	1132	1144	I-Process
+)	1144	1145	O
+in	1146	1148	O
+each	1149	1153	O
+of	1154	1156	O
+the	1157	1160	O
+x	1161	1162	O
+,	1162	1163	O
+y	1164	1165	O
+and	1166	1169	O
+z	1170	1171	O
+directions	1172	1182	O
+and	1183	1186	O
+then	1187	1191	O
+minimised	1192	1201	B-Process
+using	1202	1207	O
+the	1208	1211	O
+conjugate	1212	1221	B-Process
+gradient	1222	1230	I-Process
+algorithm	1231	1240	I-Process
+.	1240	1241	O
+
+Each	1242	1246	O
+bubble	1247	1253	O
+is	1254	1256	O
+continued	1257	1266	O
+for	1267	1270	O
+a	1271	1272	O
+minimum	1273	1280	O
+of	1281	1283	O
+10,000	1284	1290	O
+steps	1291	1296	O
+.	1296	1297	O
+
+After	1298	1303	O
+that	1304	1308	O
+,	1308	1309	O
+the	1310	1313	O
+searches	1314	1322	O
+will	1323	1327	O
+be	1328	1330	O
+terminated	1331	1341	O
+if	1342	1344	O
+the	1345	1348	O
+system	1349	1355	O
+energy	1356	1362	O
+does	1363	1367	O
+not	1368	1371	O
+drop	1372	1376	O
+within	1377	1383	O
+a	1384	1385	O
+further	1386	1393	O
+10	1394	1396	O
+steps	1397	1402	O
+.	1402	1403	O
+
+A	1404	1405	O
+schematic	1406	1415	O
+of	1416	1418	O
+this	1419	1423	O
+iterative	1424	1433	B-Process
+process	1434	1441	I-Process
+is	1442	1444	O
+shown	1445	1450	O
+in	1451	1453	O
+Fig	1454	1457	O
+.	1457	1458	O
+
+1	1459	1460	O
+.	1460	1461	O
 
 
 -DOCSTART- (S0022311514008691)
 
-The	NN	O	O
-class	NN	O	B-Material
-of	NN	O	I-Material
-steels	NN	O	I-Material
-known	NN	O	O
-as	NN	O	O
-oxide	NN	O	B-Material
-dispersion	NN	O	I-Material
-strengthened	NN	O	I-Material
-(	NN	O	O
-ODS	NN	O	B-Material
-)	NN	O	O
-ferritic	NN	O	B-Material
-alloys	NN	O	I-Material
-(	NN	O	O
-also	NN	O	O
-known	NN	O	O
-as	NN	O	O
-nanostructured	NN	O	B-Material
-ferritic	NN	O	B-Material
-alloys	NN	O	I-Material
-)	NN	O	O
-consist	NN	O	O
-of	NN	O	O
-a	NN	O	O
-dispersion	NN	O	B-Material
-of	NN	O	I-Material
-ultra	NN	O	I-Material
--	NN	O	I-Material
-fine	NN	O	I-Material
-oxide	NN	O	I-Material
-particles	NN	O	I-Material
-throughout	NN	O	I-Material
-the	NN	O	I-Material
-matrix	NN	O	I-Material
-.	NN	O	O
-
-These	NN	O	O
-oxide	NN	O	B-Material
-particles	NN	O	I-Material
-serve	NN	O	O
-to	NN	O	O
-improve	NN	O	B-Task
-the	NN	O	I-Task
-mechanical	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-system	NN	O	I-Task
-,	NN	O	O
-particularly	NN	O	O
-at	NN	O	O
-high	NN	O	O
-temperatures	NN	O	O
-,	NN	O	O
-of	NN	O	O
-the	NN	O	O
-system	NN	O	O
-through	NN	O	O
-inhibiting	NN	O	O
-dislocation	NN	O	O
-motion	NN	O	O
-and	NN	O	O
-grain	NN	O	O
-boundary	NN	O	O
-sliding	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-nuclear	NN	O	O
-applications	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-particles	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-suggested	NN	O	O
-to	NN	O	O
-act	NN	O	O
-as	NN	O	O
-point	NN	O	O
-defect	NN	O	O
-sinks	NN	O	O
-[	NN	O	O
-10,11	NN	O	O
-]	NN	O	O
-to	NN	O	O
-improve	NN	O	B-Task
-radiation	NN	O	I-Task
-tolerance	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-as	NN	O	O
-preferential	NN	O	O
-sites	NN	O	O
-for	NN	O	O
-the	NN	O	O
-formation	NN	O	O
-of	NN	O	O
-nano	NN	O	O
--	NN	O	O
-scale	NN	O	O
-
-He	NN	O	O
-bubbles	NN	O	O
-therefore	NN	O	O
-reducing	NN	O	B-Task
-swelling	NN	O	I-Task
-compared	NN	O	O
-to	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-ODS	NN	O	I-Material
-steels	NN	O	I-Material
-[	NN	O	O
-12–15	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-ability	NN	O	O
-of	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-particles	NN	O	I-Material
-to	NN	O	O
-improve	NN	O	O
-these	NN	O	O
-properties	NN	O	O
-depends	NN	O	O
-on	NN	O	O
-the	NN	O	O
-structure	NN	O	B-Material
-and	NN	O	I-Material
-composition	NN	O	I-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-particles	NN	O	I-Material
-
-[	NN	O	O
-10,11,16,17	NN	O	O
-]	NN	O	O
-and	NN	O	O
-their	NN	O	O
-stability	NN	O	O
-under	NN	O	O
-irradiation	NN	O	B-Process
-.	NN	O	O
-
-Typical	NN	O	O
-compositions	NN	O	O
-of	NN	O	O
-ODS	NN	O	B-Material
-steels	NN	O	I-Material
-include	NN	O	O
-between	NN	O	O
-9	NN	O	B-Material
-and	NN	O	I-Material
-14at.%	NN	O	I-Material
-Cr	NN	O	I-Material
-for	NN	O	O
-oxidation	NN	O	B-Process
-resistance	NN	O	O
-(	NN	O	O
-most	NN	O	O
-commonly	NN	O	O
-14at.%	NN	O	O
-)	NN	O	O
-;	NN	O	O
-W	NN	O	B-Material
-for	NN	O	O
-solid	NN	O	O
-solution	NN	O	O
-hardening	NN	O	O
-;	NN	O	O
-Y2O3	NN	O	B-Material
-that	NN	O	O
-is	NN	O	O
-put	NN	O	O
-into	NN	O	O
-solid	NN	O	B-Material
-solution	NN	O	I-Material
-during	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-,	NN	O	O
-mechanical	NN	O	B-Process
-alloying	NN	O	I-Process
-,	NN	O	O
-process	NN	O	O
-but	NN	O	O
-then	NN	O	O
-during	NN	O	O
-consolidation	NN	O	B-Process
-at	NN	O	O
-high	NN	O	O
-temperatures	NN	O	O
-forms	NN	O	O
-precipitates	NN	O	B-Material
-;	NN	O	O
-and	NN	O	O
-Ti	NN	O	B-Material
-to	NN	O	O
-inhibit	NN	O	O
-significant	NN	O	O
-growth	NN	O	O
-of	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-particles	NN	O	I-Material
-;	NN	O	O
-the	NN	O	O
-balance	NN	O	B-Material
-being	NN	O	O
-made	NN	O	O
-up	NN	O	O
-of	NN	O	O
-Fe	NN	O	B-Material
-and	NN	O	I-Material
-impurities	NN	O	I-Material
-
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-this	NN	O	O
-reason	NN	O	O
-these	NN	O	O
-steels	NN	O	B-Material
-are	NN	O	O
-often	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-14YWT	NN	O	B-Material
-,	NN	O	O
-reflecting	NN	O	O
-the	NN	O	O
-constituent	NN	O	B-Material
-elements	NN	O	I-Material
-.	NN	O	O
+The	0	3	O
+class	4	9	B-Material
+of	10	12	I-Material
+steels	13	19	I-Material
+known	20	25	O
+as	26	28	O
+oxide	29	34	B-Material
+dispersion	35	45	I-Material
+strengthened	46	58	I-Material
+(	59	60	O
+ODS	60	63	B-Material
+)	63	64	O
+ferritic	65	73	B-Material
+alloys	74	80	I-Material
+(	81	82	O
+also	82	86	O
+known	87	92	O
+as	93	95	O
+nanostructured	96	110	B-Material
+ferritic	111	119	B-Material
+alloys	120	126	I-Material
+)	126	127	O
+consist	128	135	O
+of	136	138	O
+a	139	140	O
+dispersion	141	151	B-Material
+of	152	154	I-Material
+ultra	155	160	I-Material
+-	160	161	I-Material
+fine	161	165	I-Material
+oxide	166	171	I-Material
+particles	172	181	I-Material
+throughout	182	192	I-Material
+the	193	196	I-Material
+matrix	197	203	I-Material
+.	203	204	O
+
+These	205	210	O
+oxide	211	216	B-Material
+particles	217	226	I-Material
+serve	227	232	O
+to	233	235	O
+improve	236	243	B-Task
+the	244	247	I-Task
+mechanical	248	258	I-Task
+properties	259	269	I-Task
+of	270	272	I-Task
+the	273	276	I-Task
+system	277	283	I-Task
+,	283	284	O
+particularly	285	297	O
+at	298	300	O
+high	301	305	O
+temperatures	306	318	O
+,	318	319	O
+of	320	322	O
+the	323	326	O
+system	327	333	O
+through	334	341	O
+inhibiting	342	352	O
+dislocation	353	364	O
+motion	365	371	O
+and	372	375	O
+grain	376	381	O
+boundary	382	390	O
+sliding	391	398	O
+.	398	399	O
+
+In	400	402	O
+nuclear	403	410	O
+applications	411	423	O
+the	424	427	O
+oxide	428	433	B-Material
+particles	434	443	I-Material
+have	444	448	O
+been	449	453	O
+suggested	454	463	O
+to	464	466	O
+act	467	470	O
+as	471	473	O
+point	474	479	O
+defect	480	486	O
+sinks	487	492	O
+[	493	494	O
+10,11	494	499	O
+]	499	500	O
+to	501	503	O
+improve	504	511	B-Task
+radiation	512	521	I-Task
+tolerance	522	531	I-Task
+,	531	532	O
+and	533	536	O
+as	537	539	O
+preferential	540	552	O
+sites	553	558	O
+for	559	562	O
+the	563	566	O
+formation	567	576	O
+of	577	579	O
+nano	580	584	O
+-	584	585	O
+scale	585	590	O
+
+He	591	593	O
+bubbles	594	601	O
+therefore	602	611	O
+reducing	612	620	B-Task
+swelling	621	629	I-Task
+compared	630	638	O
+to	639	641	O
+non	642	645	B-Material
+-	645	646	I-Material
+ODS	646	649	I-Material
+steels	650	656	I-Material
+[	657	658	O
+12–15	658	663	O
+]	663	664	O
+.	664	665	O
+
+The	666	669	O
+ability	670	677	O
+of	678	680	O
+the	681	684	O
+oxide	685	690	B-Material
+particles	691	700	I-Material
+to	701	703	O
+improve	704	711	O
+these	712	717	O
+properties	718	728	O
+depends	729	736	O
+on	737	739	O
+the	740	743	O
+structure	744	753	B-Material
+and	754	757	I-Material
+composition	758	769	I-Material
+of	770	772	I-Material
+the	773	776	I-Material
+particles	777	786	I-Material
+
+[	787	788	O
+10,11,16,17	788	799	O
+]	799	800	O
+and	801	804	O
+their	805	810	O
+stability	811	820	O
+under	821	826	O
+irradiation	827	838	B-Process
+.	838	839	O
+
+Typical	840	847	O
+compositions	848	860	O
+of	861	863	O
+ODS	864	867	B-Material
+steels	868	874	I-Material
+include	875	882	O
+between	883	890	O
+9	891	892	B-Material
+and	893	896	I-Material
+14at.%	897	903	I-Material
+Cr	904	906	I-Material
+for	907	910	O
+oxidation	911	920	B-Process
+resistance	921	931	O
+(	932	933	O
+most	933	937	O
+commonly	938	946	O
+14at.%	947	953	O
+)	953	954	O
+;	954	955	O
+W	956	957	B-Material
+for	958	961	O
+solid	962	967	O
+solution	968	976	O
+hardening	977	986	O
+;	986	987	O
+Y2O3	988	992	B-Material
+that	993	997	O
+is	998	1000	O
+put	1001	1004	O
+into	1005	1009	O
+solid	1010	1015	B-Material
+solution	1016	1024	I-Material
+during	1025	1031	O
+the	1032	1035	O
+initial	1036	1043	O
+,	1043	1044	O
+mechanical	1045	1055	B-Process
+alloying	1056	1064	I-Process
+,	1064	1065	O
+process	1066	1073	O
+but	1074	1077	O
+then	1078	1082	O
+during	1083	1089	O
+consolidation	1090	1103	B-Process
+at	1104	1106	O
+high	1107	1111	O
+temperatures	1112	1124	O
+forms	1125	1130	O
+precipitates	1131	1143	B-Material
+;	1143	1144	O
+and	1145	1148	O
+Ti	1149	1151	B-Material
+to	1152	1154	O
+inhibit	1155	1162	O
+significant	1163	1174	O
+growth	1175	1181	O
+of	1182	1184	O
+the	1185	1188	O
+oxide	1189	1194	B-Material
+particles	1195	1204	I-Material
+;	1204	1205	O
+the	1206	1209	O
+balance	1210	1217	B-Material
+being	1218	1223	O
+made	1224	1228	O
+up	1229	1231	O
+of	1232	1234	O
+Fe	1235	1237	B-Material
+and	1238	1241	I-Material
+impurities	1242	1252	I-Material
+
+[	1253	1254	O
+18	1254	1256	O
+]	1256	1257	O
+.	1257	1258	O
+
+For	1259	1262	O
+this	1263	1267	O
+reason	1268	1274	O
+these	1275	1280	O
+steels	1281	1287	B-Material
+are	1288	1291	O
+often	1292	1297	O
+referred	1298	1306	O
+to	1307	1309	O
+as	1310	1312	O
+14YWT	1313	1318	B-Material
+,	1318	1319	O
+reflecting	1320	1330	O
+the	1331	1334	O
+constituent	1335	1346	B-Material
+elements	1347	1355	I-Material
+.	1355	1356	O
 
 
 -DOCSTART- (S002231151500032X)
 
-Zirconium	NN	O	B-Material
-alloys	NN	O	I-Material
-are	NN	O	O
-used	NN	O	O
-as	NN	O	O
-cladding	NN	O	B-Material
-to	NN	O	O
-encapsulate	NN	O	O
-fuel	NN	O	B-Material
-pellets	NN	O	I-Material
-in	NN	O	O
-pressurised	NN	O	O
-and	NN	O	O
-boiling	NN	O	O
-water	NN	O	B-Material
-nuclear	NN	O	I-Material
-reactors	NN	O	I-Material
-.	NN	O	O
-
-Research	NN	O	O
-into	NN	O	O
-oxidation	NN	O	B-Task
-of	NN	O	I-Task
-these	NN	O	I-Task
-alloys	NN	O	I-Task
-has	NN	O	O
-been	NN	O	O
-significant	NN	O	O
-since	NN	O	O
-the	NN	O	O
-introduction	NN	O	O
-of	NN	O	O
-the	NN	O	O
-material	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-microstructure	NN	O	B-Process
-and	NN	O	I-Process
-electro	NN	O	I-Process
--	NN	O	I-Process
-chemical	NN	O	I-Process
-processes	NN	O	I-Process
-during	NN	O	O
-oxidation	NN	O	B-Process
-are	NN	O	O
-complex	NN	O	O
-and	NN	O	O
-many	NN	O	O
-questions	NN	O	O
-still	NN	O	O
-remain	NN	O	O
-unanswered	NN	O	O
-.	NN	O	O
-
-One	NN	O	O
-such	NN	O	O
-issue	NN	O	O
-is	NN	O	O
-the	NN	O	O
-formation	NN	O	O
-of	NN	O	O
-lateral	NN	O	O
-cracks	NN	O	O
-near	NN	O	O
-the	NN	O	O
-metal	NN	O	B-Material
--	NN	O	I-Material
-oxide	NN	O	I-Material
-interface	NN	O	I-Material
-.	NN	O	O
-
-Small	NN	O	O
-cracks	NN	O	O
-have	NN	O	O
-been	NN	O	O
-seen	NN	O	O
-to	NN	O	O
-form	NN	O	O
-continuously	NN	O	O
-during	NN	O	O
-oxidation	NN	O	B-Process
-,	NN	O	O
-with	NN	O	O
-large	NN	O	O
-scale	NN	O	O
-networks	NN	O	O
-of	NN	O	O
-lateral	NN	O	O
-cracks	NN	O	O
-forming	NN	O	O
-cyclically	NN	O	O
-every	NN	O	O
-∼2μm	NN	O	O
-of	NN	O	O
-oxide	NN	O	O
-growth	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-networks	NN	O	O
-of	NN	O	O
-cracks	NN	O	O
-can	NN	O	O
-be	NN	O	O
-correlated	NN	O	O
-with	NN	O	O
-acceleration	NN	O	O
-in	NN	O	O
-the	NN	O	O
-corrosion	NN	O	B-Material
-kinetics	NN	O	I-Material
-
-[	NN	O	O
-1–7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-lateral	NN	O	O
-cracks	NN	O	O
-might	NN	O	O
-enable	NN	O	O
-the	NN	O	O
-link	NN	O	B-Material
-up	NN	O	I-Material
-of	NN	O	I-Material
-nano	NN	O	I-Material
-pores	NN	O	I-Material
-along	NN	O	O
-grain	NN	O	B-Material
-boundaries	NN	O	O
-perpendicular	NN	O	O
-to	NN	O	O
-the	NN	O	O
-metal	NN	O	B-Material
-/	NN	O	I-Material
-oxide	NN	O	I-Material
-interface	NN	O	I-Material
-as	NN	O	O
-reported	NN	O	O
-in	NN	O	O
-[	NN	O	O
-8,9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Experiments	NN	O	O
-using	NN	O	O
-Synchrotron	NN	O	B-Process
-X	NN	O	I-Process
--	NN	O	I-Process
-Ray	NN	O	I-Process
-Diffraction	NN	O	I-Process
-(	NN	O	O
-S	NN	O	B-Process
--	NN	O	I-Process
-XRD	NN	O	I-Process
-)	NN	O	O
-by	NN	O	O
-both	NN	O	O
-Polatidis	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-and	NN	O	O
-Petigny	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-have	NN	O	O
-separately	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-oxides	NN	O	B-Material
-formed	NN	O	O
-on	NN	O	O
-Zircaloy-4	NN	O	B-Material
-are	NN	O	O
-composed	NN	O	O
-of	NN	O	O
-monoclinic	NN	O	B-Material
-and	NN	O	I-Material
-stabilised	NN	O	I-Material
-tetragonal	NN	O	I-Material
-phases	NN	O	I-Material
-,	NN	O	O
-with	NN	O	O
-an	NN	O	O
-∼7	NN	O	B-Material
-%	NN	O	I-Material
-reduction	NN	O	I-Material
-in	NN	O	I-Material
-the	NN	O	I-Material
-tetragonal	NN	O	I-Material
-phase	NN	O	I-Material
-fraction	NN	O	O
-from	NN	O	O
-1	NN	O	O
-to	NN	O	O
-3μm	NN	O	O
-oxide	NN	O	O
-growth	NN	O	O
-[	NN	O	O
-4,10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-One	NN	O	O
-theory	NN	O	O
-is	NN	O	O
-that	NN	O	O
-the	NN	O	O
-lateral	NN	O	O
-cracks	NN	O	O
-may	NN	O	O
-destabilise	NN	O	O
-the	NN	O	O
-tetragonal	NN	O	B-Process
-phase	NN	O	I-Process
-close	NN	O	O
-to	NN	O	O
-the	NN	O	O
-metal	NN	O	B-Material
--	NN	O	I-Material
-oxide	NN	O	I-Material
-interface	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-phase	NN	O	B-Process
-transformation	NN	O	I-Process
-has	NN	O	O
-an	NN	O	O
-∼6	NN	O	O
-%	NN	O	O
-expansion	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-it	NN	O	O
-,	NN	O	O
-which	NN	O	O
-could	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-fracture	NN	O	B-Process
-perpendicular	NN	O	O
-to	NN	O	O
-the	NN	O	O
-metal	NN	O	B-Material
--	NN	O	I-Material
-oxide	NN	O	I-Material
-interface	NN	O	I-Material
-,	NN	O	O
-thereby	NN	O	O
-generating	NN	O	O
-fast	NN	O	O
-ingress	NN	O	B-Process
-routes	NN	O	O
-for	NN	O	O
-oxygen	NN	O	B-Material
-containing	NN	O	I-Material
-species	NN	O	I-Material
-[	NN	O	O
-11,12	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Zirconium	0	9	B-Material
+alloys	10	16	I-Material
+are	17	20	O
+used	21	25	O
+as	26	28	O
+cladding	29	37	B-Material
+to	38	40	O
+encapsulate	41	52	O
+fuel	53	57	B-Material
+pellets	58	65	I-Material
+in	66	68	O
+pressurised	69	80	O
+and	81	84	O
+boiling	85	92	O
+water	93	98	B-Material
+nuclear	99	106	I-Material
+reactors	107	115	I-Material
+.	115	116	O
+
+Research	117	125	O
+into	126	130	O
+oxidation	131	140	B-Task
+of	141	143	I-Task
+these	144	149	I-Task
+alloys	150	156	I-Task
+has	157	160	O
+been	161	165	O
+significant	166	177	O
+since	178	183	O
+the	184	187	O
+introduction	188	200	O
+of	201	203	O
+the	204	207	O
+material	208	216	O
+.	216	217	O
+
+However	218	225	O
+,	225	226	O
+the	227	230	O
+microstructure	231	245	B-Process
+and	246	249	I-Process
+electro	250	257	I-Process
+-	257	258	I-Process
+chemical	258	266	I-Process
+processes	267	276	I-Process
+during	277	283	O
+oxidation	284	293	B-Process
+are	294	297	O
+complex	298	305	O
+and	306	309	O
+many	310	314	O
+questions	315	324	O
+still	325	330	O
+remain	331	337	O
+unanswered	338	348	O
+.	348	349	O
+
+One	350	353	O
+such	354	358	O
+issue	359	364	O
+is	365	367	O
+the	368	371	O
+formation	372	381	O
+of	382	384	O
+lateral	385	392	O
+cracks	393	399	O
+near	400	404	O
+the	405	408	O
+metal	409	414	B-Material
+-	414	415	I-Material
+oxide	415	420	I-Material
+interface	421	430	I-Material
+.	430	431	O
+
+Small	432	437	O
+cracks	438	444	O
+have	445	449	O
+been	450	454	O
+seen	455	459	O
+to	460	462	O
+form	463	467	O
+continuously	468	480	O
+during	481	487	O
+oxidation	488	497	B-Process
+,	497	498	O
+with	499	503	O
+large	504	509	O
+scale	510	515	O
+networks	516	524	O
+of	525	527	O
+lateral	528	535	O
+cracks	536	542	O
+forming	543	550	O
+cyclically	551	561	O
+every	562	567	O
+∼2μm	568	572	O
+of	573	575	O
+oxide	576	581	O
+growth	582	588	O
+.	588	589	O
+
+These	590	595	O
+networks	596	604	O
+of	605	607	O
+cracks	608	614	O
+can	615	618	O
+be	619	621	O
+correlated	622	632	O
+with	633	637	O
+acceleration	638	650	O
+in	651	653	O
+the	654	657	O
+corrosion	658	667	B-Material
+kinetics	668	676	I-Material
+
+[	677	678	O
+1–7	678	681	O
+]	681	682	O
+.	682	683	O
+
+These	684	689	O
+lateral	690	697	O
+cracks	698	704	O
+might	705	710	O
+enable	711	717	O
+the	718	721	O
+link	722	726	B-Material
+up	727	729	I-Material
+of	730	732	I-Material
+nano	733	737	I-Material
+pores	738	743	I-Material
+along	744	749	O
+grain	750	755	B-Material
+boundaries	756	766	O
+perpendicular	767	780	O
+to	781	783	O
+the	784	787	O
+metal	788	793	B-Material
+/	793	794	I-Material
+oxide	794	799	I-Material
+interface	800	809	I-Material
+as	810	812	O
+reported	813	821	O
+in	822	824	O
+[	825	826	O
+8,9	826	829	O
+]	829	830	O
+.	830	831	O
+
+Experiments	832	843	O
+using	844	849	O
+Synchrotron	850	861	B-Process
+X	862	863	I-Process
+-	863	864	I-Process
+Ray	864	867	I-Process
+Diffraction	868	879	I-Process
+(	880	881	O
+S	881	882	B-Process
+-	882	883	I-Process
+XRD	883	886	I-Process
+)	886	887	O
+by	888	890	O
+both	891	895	O
+Polatidis	896	905	O
+et	906	908	O
+al	909	911	O
+.	911	912	O
+and	913	916	O
+Petigny	917	924	O
+et	925	927	O
+al	928	930	O
+.	930	931	O
+,	931	932	O
+have	933	937	O
+separately	938	948	O
+shown	949	954	O
+that	955	959	O
+oxides	960	966	B-Material
+formed	967	973	O
+on	974	976	O
+Zircaloy-4	977	987	B-Material
+are	988	991	O
+composed	992	1000	O
+of	1001	1003	O
+monoclinic	1004	1014	B-Material
+and	1015	1018	I-Material
+stabilised	1019	1029	I-Material
+tetragonal	1030	1040	I-Material
+phases	1041	1047	I-Material
+,	1047	1048	O
+with	1049	1053	O
+an	1054	1056	O
+∼7	1057	1059	B-Material
+%	1059	1060	I-Material
+reduction	1061	1070	I-Material
+in	1071	1073	I-Material
+the	1074	1077	I-Material
+tetragonal	1078	1088	I-Material
+phase	1089	1094	I-Material
+fraction	1095	1103	O
+from	1104	1108	O
+1	1109	1110	O
+to	1111	1113	O
+3μm	1114	1117	O
+oxide	1118	1123	O
+growth	1124	1130	O
+[	1131	1132	O
+4,10	1132	1136	O
+]	1136	1137	O
+.	1137	1138	O
+
+One	1139	1142	O
+theory	1143	1149	O
+is	1150	1152	O
+that	1153	1157	O
+the	1158	1161	O
+lateral	1162	1169	O
+cracks	1170	1176	O
+may	1177	1180	O
+destabilise	1181	1192	O
+the	1193	1196	O
+tetragonal	1197	1207	B-Process
+phase	1208	1213	I-Process
+close	1214	1219	O
+to	1220	1222	O
+the	1223	1226	O
+metal	1227	1232	B-Material
+-	1232	1233	I-Material
+oxide	1233	1238	I-Material
+interface	1239	1248	I-Material
+.	1248	1249	O
+
+The	1250	1253	O
+phase	1254	1259	B-Process
+transformation	1260	1274	I-Process
+has	1275	1278	O
+an	1279	1281	O
+∼6	1282	1284	O
+%	1284	1285	O
+expansion	1286	1295	O
+associated	1296	1306	O
+with	1307	1311	O
+it	1312	1314	O
+,	1314	1315	O
+which	1316	1321	O
+could	1322	1327	O
+lead	1328	1332	O
+to	1333	1335	O
+fracture	1336	1344	B-Process
+perpendicular	1345	1358	O
+to	1359	1361	O
+the	1362	1365	O
+metal	1366	1371	B-Material
+-	1371	1372	I-Material
+oxide	1372	1377	I-Material
+interface	1378	1387	I-Material
+,	1387	1388	O
+thereby	1389	1396	O
+generating	1397	1407	O
+fast	1408	1412	O
+ingress	1413	1420	B-Process
+routes	1421	1427	O
+for	1428	1431	O
+oxygen	1432	1438	B-Material
+containing	1439	1449	I-Material
+species	1450	1457	I-Material
+[	1458	1459	O
+11,12	1459	1464	O
+]	1464	1465	O
+.	1465	1466	O
 
 
 -DOCSTART- (S0022311515002391)
 
-Spark	NN	O	B-Process
-plasma	NN	O	I-Process
-sintering	NN	O	I-Process
-(	NN	O	O
-SPS	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-a	NN	O	O
-relatively	NN	O	O
-new	NN	O	O
-sintering	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-technique	NN	O	I-Process
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-in	NN	O	O
-which	NN	O	O
-the	NN	O	O
-powder	NN	O	B-Material
-to	NN	O	O
-be	NN	O	O
-consolidated	NN	O	O
-is	NN	O	O
-loaded	NN	O	O
-into	NN	O	O
-an	NN	O	O
-electrically	NN	O	O
-and	NN	O	O
-thermally	NN	O	O
-conductive	NN	O	O
-graphite	NN	O	O
-mould	NN	O	O
-and	NN	O	O
-
-a	NN	O	O
-large	NN	O	O
-DC	NN	O	O
-pulsed	NN	O	O
-current	NN	O	O
-(	NN	O	O
-1000–5000A	NN	O	O
-)	NN	O	O
-is	NN	O	O
-applied	NN	O	O
-under	NN	O	O
-a	NN	O	O
-uniaxial	NN	O	O
-pressure	NN	O	O
-.	NN	O	O
-
-When	NN	O	O
-current	NN	O	O
-passes	NN	O	O
-through	NN	O	O
-the	NN	O	O
-graphite	NN	O	B-Material
-mould	NN	O	I-Material
-(	NN	O	O
-and	NN	O	O
-the	NN	O	O
-powder	NN	O	B-Material
-if	NN	O	O
-it	NN	O	O
-is	NN	O	O
-electrically	NN	O	O
-conductive	NN	O	O
-)	NN	O	O
-,	NN	O	O
-the	NN	O	O
-powder	NN	O	B-Material
-is	NN	O	O
-heated	NN	O	O
-both	NN	O	O
-from	NN	O	O
-the	NN	O	O
-outside	NN	O	O
-(	NN	O	O
-the	NN	O	O
-mould	NN	O	B-Material
-acts	NN	O	O
-as	NN	O	O
-a	NN	O	O
-heating	NN	O	B-Material
-element	NN	O	I-Material
-)	NN	O	O
-and	NN	O	O
-inside	NN	O	O
-(	NN	O	O
-due	NN	O	O
-to	NN	O	O
-Joule	NN	O	O
-heating	NN	O	O
-from	NN	O	O
-the	NN	O	O
-intrinsic	NN	O	O
-electrical	NN	O	O
-resistance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-powder	NN	O	B-Material
-material	NN	O	I-Material
-)	NN	O	O
-.	NN	O	O
-
-SPS	NN	O	B-Process
-is	NN	O	O
-characterised	NN	O	O
-by	NN	O	O
-very	NN	O	O
-fast	NN	O	O
-heating	NN	O	O
-(	NN	O	O
-up	NN	O	O
-to	NN	O	O
-2000	NN	O	O
-°	NN	O	O
-C	NN	O	O
-/	NN	O	O
-min	NN	O	O
-)	NN	O	O
-and	NN	O	O
-cooling	NN	O	O
-rates	NN	O	O
-and	NN	O	O
-short	NN	O	O
-holding	NN	O	O
-times	NN	O	O
-(	NN	O	O
-minutes	NN	O	O
-)	NN	O	O
-to	NN	O	O
-achieve	NN	O	O
-near	NN	O	O
-theoretical	NN	O	O
-density	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-SPS	NN	O	B-Process
-occupies	NN	O	O
-a	NN	O	O
-very	NN	O	O
-different	NN	O	O
-time	NN	O	O
-–	NN	O	O
-temperature	NN	O	O
-
-–	NN	O	O
-density	NN	O	O
-space	NN	O	O
-in	NN	O	O
-powder	NN	O	B-Process
-consolidation	NN	O	I-Process
-maps	NN	O	I-Process
-when	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-conventional	NN	O	B-Process
-methods	NN	O	I-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-hot	NN	O	B-Process
-pressing	NN	O	I-Process
-sintering	NN	O	I-Process
-and	NN	O	O
-HIP	NN	O	B-Process
-with	NN	O	O
-ramp	NN	O	O
-rate	NN	O	O
-of	NN	O	O
-50–80	NN	O	O
-°	NN	O	O
-C	NN	O	O
-/	NN	O	O
-min	NN	O	O
-and	NN	O	O
-a	NN	O	O
-few	NN	O	O
-hours	NN	O	O
-holding	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-Although	NN	O	O
-SPS	NN	O	B-Process
-has	NN	O	O
-been	NN	O	O
-studied	NN	O	O
-for	NN	O	O
-a	NN	O	O
-rapidly	NN	O	O
-growing	NN	O	O
-number	NN	O	O
-of	NN	O	O
-materials	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-only	NN	O	O
-a	NN	O	O
-small	NN	O	O
-number	NN	O	O
-of	NN	O	O
-studies	NN	O	O
-on	NN	O	O
-the	NN	O	O
-fabrication	NN	O	B-Task
-and	NN	O	I-Task
-microstructural	NN	O	I-Task
-characterisation	NN	O	I-Task
-of	NN	O	I-Task
-ODS	NN	O	I-Task
-steels	NN	O	I-Task
-processed	NN	O	I-Task
-by	NN	O	I-Task
-SPS	NN	O	I-Task
-,	NN	O	O
-briefly	NN	O	O
-reviewed	NN	O	O
-below	NN	O	O
-.	NN	O	O
+Spark	0	5	B-Process
+plasma	6	12	I-Process
+sintering	13	22	I-Process
+(	23	24	O
+SPS	24	27	B-Process
+)	27	28	O
+is	29	31	O
+a	32	33	O
+relatively	34	44	O
+new	45	48	O
+sintering	49	58	B-Process
+-	58	59	I-Process
+based	59	64	I-Process
+technique	65	74	I-Process
+[	75	76	O
+17	76	78	O
+]	78	79	O
+in	80	82	O
+which	83	88	O
+the	89	92	O
+powder	93	99	B-Material
+to	100	102	O
+be	103	105	O
+consolidated	106	118	O
+is	119	121	O
+loaded	122	128	O
+into	129	133	O
+an	134	136	O
+electrically	137	149	O
+and	150	153	O
+thermally	154	163	O
+conductive	164	174	O
+graphite	175	183	O
+mould	184	189	O
+and	190	193	O
+
+a	194	195	O
+large	196	201	O
+DC	202	204	O
+pulsed	205	211	O
+current	212	219	O
+(	220	221	O
+1000–5000A	221	231	O
+)	231	232	O
+is	233	235	O
+applied	236	243	O
+under	244	249	O
+a	250	251	O
+uniaxial	252	260	O
+pressure	261	269	O
+.	269	270	O
+
+When	271	275	O
+current	276	283	O
+passes	284	290	O
+through	291	298	O
+the	299	302	O
+graphite	303	311	B-Material
+mould	312	317	I-Material
+(	318	319	O
+and	319	322	O
+the	323	326	O
+powder	327	333	B-Material
+if	334	336	O
+it	337	339	O
+is	340	342	O
+electrically	343	355	O
+conductive	356	366	O
+)	366	367	O
+,	367	368	O
+the	369	372	O
+powder	373	379	B-Material
+is	380	382	O
+heated	383	389	O
+both	390	394	O
+from	395	399	O
+the	400	403	O
+outside	404	411	O
+(	412	413	O
+the	413	416	O
+mould	417	422	B-Material
+acts	423	427	O
+as	428	430	O
+a	431	432	O
+heating	433	440	B-Material
+element	441	448	I-Material
+)	448	449	O
+and	450	453	O
+inside	454	460	O
+(	461	462	O
+due	462	465	O
+to	466	468	O
+Joule	469	474	O
+heating	475	482	O
+from	483	487	O
+the	488	491	O
+intrinsic	492	501	O
+electrical	502	512	O
+resistance	513	523	O
+of	524	526	O
+the	527	530	O
+powder	531	537	B-Material
+material	538	546	I-Material
+)	546	547	O
+.	547	548	O
+
+SPS	549	552	B-Process
+is	553	555	O
+characterised	556	569	O
+by	570	572	O
+very	573	577	O
+fast	578	582	O
+heating	583	590	O
+(	591	592	O
+up	592	594	O
+to	595	597	O
+2000	598	602	O
+°	602	603	O
+C	603	604	O
+/	604	605	O
+min	605	608	O
+)	608	609	O
+and	610	613	O
+cooling	614	621	O
+rates	622	627	O
+and	628	631	O
+short	632	637	O
+holding	638	645	O
+times	646	651	O
+(	652	653	O
+minutes	653	660	O
+)	660	661	O
+to	662	664	O
+achieve	665	672	O
+near	673	677	O
+theoretical	678	689	O
+density	690	697	O
+[	698	699	O
+17	699	701	O
+]	701	702	O
+.	702	703	O
+
+Thus	704	708	O
+SPS	709	712	B-Process
+occupies	713	721	O
+a	722	723	O
+very	724	728	O
+different	729	738	O
+time	739	743	O
+–	743	744	O
+temperature	744	755	O
+
+–	755	756	O
+density	756	763	O
+space	764	769	O
+in	770	772	O
+powder	773	779	B-Process
+consolidation	780	793	I-Process
+maps	794	798	I-Process
+when	799	803	O
+compared	804	812	O
+with	813	817	O
+conventional	818	830	B-Process
+methods	831	838	I-Process
+,	838	839	O
+such	840	844	O
+as	845	847	O
+hot	848	851	B-Process
+pressing	852	860	I-Process
+sintering	861	870	I-Process
+and	871	874	O
+HIP	875	878	B-Process
+with	879	883	O
+ramp	884	888	O
+rate	889	893	O
+of	894	896	O
+50–80	897	902	O
+°	902	903	O
+C	903	904	O
+/	904	905	O
+min	905	908	O
+and	909	912	O
+a	913	914	O
+few	915	918	O
+hours	919	924	O
+holding	925	932	O
+time	933	937	O
+.	937	938	O
+
+Although	939	947	O
+SPS	948	951	B-Process
+has	952	955	O
+been	956	960	O
+studied	961	968	O
+for	969	972	O
+a	973	974	O
+rapidly	975	982	O
+growing	983	990	O
+number	991	997	O
+of	998	1000	O
+materials	1001	1010	O
+[	1011	1012	O
+17	1012	1014	O
+]	1014	1015	O
+,	1015	1016	O
+there	1017	1022	O
+are	1023	1026	O
+only	1027	1031	O
+a	1032	1033	O
+small	1034	1039	O
+number	1040	1046	O
+of	1047	1049	O
+studies	1050	1057	O
+on	1058	1060	O
+the	1061	1064	O
+fabrication	1065	1076	B-Task
+and	1077	1080	I-Task
+microstructural	1081	1096	I-Task
+characterisation	1097	1113	I-Task
+of	1114	1116	I-Task
+ODS	1117	1120	I-Task
+steels	1121	1127	I-Task
+processed	1128	1137	I-Task
+by	1138	1140	I-Task
+SPS	1141	1144	I-Task
+,	1144	1145	O
+briefly	1146	1153	O
+reviewed	1154	1162	O
+below	1163	1168	O
+.	1168	1169	O
 
 
 -DOCSTART- (S0022311515002470)
 
-To	NN	O	O
-conclude	NN	O	O
-,	NN	O	O
-the	NN	O	O
-electrochemical	NN	O	B-Task
-reduction	NN	O	I-Task
-of	NN	O	I-Task
-uranium	NN	O	I-Task
-dioxide	NN	O	I-Task
-to	NN	O	O
-uranium	NN	O	B-Material
-metal	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-studied	NN	O	O
-in	NN	O	O
-a	NN	O	O
-lithium	NN	O	B-Material
-chloride	NN	O	I-Material
-–	NN	O	I-Material
-potassium	NN	O	I-Material
-chloride	NN	O	I-Material
-eutectic	NN	O	I-Material
-molten	NN	O	I-Material
-salt	NN	O	I-Material
-at	NN	O	O
-450	NN	O	O
-°	NN	O	O
-C	NN	O	O
-.	NN	O	O
-
-Both	NN	O	O
-electrochemical	NN	O	B-Process
-and	NN	O	O
-synchrotron	NN	O	B-Process
-X	NN	O	I-Process
--	NN	O	I-Process
-ray	NN	O	I-Process
-techniques	NN	O	O
-have	NN	O	O
-been	NN	O	O
-utilised	NN	O	O
-to	NN	O	O
-deduce	NN	O	B-Task
-the	NN	O	I-Task
-electrochemical	NN	O	I-Task
-reduction	NN	O	I-Task
-potential	NN	O	I-Task
-,	NN	O	I-Task
-mechanism	NN	O	I-Task
-and	NN	O	I-Task
-reduction	NN	O	I-Task
-pathway	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-electrochemical	NN	O	O
-reduction	NN	O	O
-potential	NN	O	O
-of	NN	O	O
-the	NN	O	O
-UO2|U	NN	O	B-Material
-couple	NN	O	I-Material
-is	NN	O	O
-dependent	NN	O	O
-on	NN	O	O
-the	NN	O	O
-activity	NN	O	O
-of	NN	O	O
-oxide	NN	O	B-Material
-ions	NN	O	I-Material
-existing	NN	O	O
-within	NN	O	O
-the	NN	O	O
-melt	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-electrochemical	NN	O	B-Process
-reduction	NN	O	I-Process
-of	NN	O	O
-uranium	NN	O	B-Material
-dioxide	NN	O	I-Material
-to	NN	O	O
-uranium	NN	O	B-Material
-metal	NN	O	I-Material
-seems	NN	O	O
-to	NN	O	O
-occur	NN	O	O
-in	NN	O	O
-a	NN	O	O
-single	NN	O	O
-,	NN	O	O
-4-electron	NN	O	B-Process
--	NN	O	I-Process
-step	NN	O	I-Process
-,	NN	O	O
-process	NN	O	O
-;	NN	O	O
-indicated	NN	O	O
-by	NN	O	O
-a	NN	O	O
-single	NN	O	O
-reduction	NN	O	O
-peak	NN	O	O
-(	NN	O	O
-C1	NN	O	O
-)	NN	O	O
-in	NN	O	O
-the	NN	O	O
-cyclic	NN	O	B-Process
-voltammograms	NN	O	I-Process
-and	NN	O	O
-also	NN	O	O
-by	NN	O	O
-the	NN	O	O
-exclusion	NN	O	O
-of	NN	O	O
-any	NN	O	O
-other	NN	O	O
-phases	NN	O	O
-in	NN	O	O
-the	NN	O	O
-EDXD	NN	O	B-Process
-data	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-electrochemical	NN	O	B-Process
-reduction	NN	O	I-Process
-may	NN	O	O
-be	NN	O	O
-impeded	NN	O	O
-by	NN	O	O
-an	NN	O	O
-increase	NN	O	O
-in	NN	O	O
-oxo	NN	O	O
--	NN	O	O
-acidity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-molten	NN	O	B-Material
-salt	NN	O	I-Material
-.	NN	O	O
-
-That	NN	O	O
-is	NN	O	O
-,	NN	O	O
-O2−	NN	O	B-Material
-ions	NN	O	I-Material
-that	NN	O	O
-are	NN	O	O
-liberated	NN	O	O
-by	NN	O	O
-the	NN	O	O
-electroreduction	NN	O	B-Process
-may	NN	O	O
-not	NN	O	O
-react	NN	O	O
-at	NN	O	O
-the	NN	O	O
-counter	NN	O	B-Material
-electrode	NN	O	I-Material
-and	NN	O	O
-,	NN	O	O
-thus	NN	O	O
-,	NN	O	O
-not	NN	O	O
-be	NN	O	O
-removed	NN	O	O
-from	NN	O	O
-the	NN	O	O
-molten	NN	O	B-Material
-salt	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-could	NN	O	O
-be	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-electrode	NN	O	B-Material
-geometry	NN	O	O
-and/or	NN	O	O
-the	NN	O	O
-inherent	NN	O	O
-microstructure	NN	O	O
-of	NN	O	O
-the	NN	O	O
-working	NN	O	O
-electrode	NN	O	B-Material
-:	NN	O	O
-a	NN	O	O
-high	NN	O	O
-tortuosity	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-,	NN	O	O
-would	NN	O	O
-impede	NN	O	O
-the	NN	O	O
-diffusion	NN	O	O
-of	NN	O	O
-O2−	NN	O	B-Material
-ions	NN	O	I-Material
-out	NN	O	O
-of	NN	O	O
-the	NN	O	O
-working	NN	O	O
-electrode	NN	O	B-Material
-.	NN	O	O
-
-This	NN	O	O
-could	NN	O	O
-then	NN	O	O
-cause	NN	O	O
-an	NN	O	O
-increase	NN	O	O
-in	NN	O	O
-the	NN	O	O
-activity	NN	O	O
-of	NN	O	O
-oxide	NN	O	B-Material
-ions	NN	O	I-Material
-existing	NN	O	O
-within	NN	O	O
-the	NN	O	O
-melt	NN	O	B-Material
-and	NN	O	O
-hence	NN	O	O
-inhibit	NN	O	O
-the	NN	O	O
-electrochemical	NN	O	B-Process
-reduction	NN	O	I-Process
-–	NN	O	O
-exploration	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-microstructure	NN	O	I-Task
-of	NN	O	I-Task
-working	NN	O	I-Task
-electrodes	NN	O	I-Task
-will	NN	O	O
-be	NN	O	O
-the	NN	O	O
-focus	NN	O	O
-of	NN	O	O
-future	NN	O	O
-work	NN	O	O
-.	NN	O	O
+To	0	2	O
+conclude	3	11	O
+,	11	12	O
+the	13	16	O
+electrochemical	17	32	B-Task
+reduction	33	42	I-Task
+of	43	45	I-Task
+uranium	46	53	I-Task
+dioxide	54	61	I-Task
+to	62	64	O
+uranium	65	72	B-Material
+metal	73	78	I-Material
+has	79	82	O
+been	83	87	O
+studied	88	95	O
+in	96	98	O
+a	99	100	O
+lithium	101	108	B-Material
+chloride	109	117	I-Material
+–	117	118	I-Material
+potassium	118	127	I-Material
+chloride	128	136	I-Material
+eutectic	137	145	I-Material
+molten	146	152	I-Material
+salt	153	157	I-Material
+at	158	160	O
+450	161	164	O
+°	164	165	O
+C	165	166	O
+.	166	167	O
+
+Both	168	172	O
+electrochemical	173	188	B-Process
+and	189	192	O
+synchrotron	193	204	B-Process
+X	205	206	I-Process
+-	206	207	I-Process
+ray	207	210	I-Process
+techniques	211	221	O
+have	222	226	O
+been	227	231	O
+utilised	232	240	O
+to	241	243	O
+deduce	244	250	B-Task
+the	251	254	I-Task
+electrochemical	255	270	I-Task
+reduction	271	280	I-Task
+potential	281	290	I-Task
+,	290	291	I-Task
+mechanism	292	301	I-Task
+and	302	305	I-Task
+reduction	306	315	I-Task
+pathway	316	323	I-Task
+.	323	324	O
+
+The	325	328	O
+electrochemical	329	344	O
+reduction	345	354	O
+potential	355	364	O
+of	365	367	O
+the	368	371	O
+UO2|U	372	377	B-Material
+couple	378	384	I-Material
+is	385	387	O
+dependent	388	397	O
+on	398	400	O
+the	401	404	O
+activity	405	413	O
+of	414	416	O
+oxide	417	422	B-Material
+ions	423	427	I-Material
+existing	428	436	O
+within	437	443	O
+the	444	447	O
+melt	448	452	B-Material
+.	452	453	O
+
+The	454	457	O
+electrochemical	458	473	B-Process
+reduction	474	483	I-Process
+of	484	486	O
+uranium	487	494	B-Material
+dioxide	495	502	I-Material
+to	503	505	O
+uranium	506	513	B-Material
+metal	514	519	I-Material
+seems	520	525	O
+to	526	528	O
+occur	529	534	O
+in	535	537	O
+a	538	539	O
+single	540	546	O
+,	546	547	O
+4-electron	548	558	B-Process
+-	558	559	I-Process
+step	559	563	I-Process
+,	563	564	O
+process	565	572	O
+;	572	573	O
+indicated	574	583	O
+by	584	586	O
+a	587	588	O
+single	589	595	O
+reduction	596	605	O
+peak	606	610	O
+(	611	612	O
+C1	612	614	O
+)	614	615	O
+in	616	618	O
+the	619	622	O
+cyclic	623	629	B-Process
+voltammograms	630	643	I-Process
+and	644	647	O
+also	648	652	O
+by	653	655	O
+the	656	659	O
+exclusion	660	669	O
+of	670	672	O
+any	673	676	O
+other	677	682	O
+phases	683	689	O
+in	690	692	O
+the	693	696	O
+EDXD	697	701	B-Process
+data	702	706	I-Process
+.	706	707	O
+
+The	708	711	O
+electrochemical	712	727	B-Process
+reduction	728	737	I-Process
+may	738	741	O
+be	742	744	O
+impeded	745	752	O
+by	753	755	O
+an	756	758	O
+increase	759	767	O
+in	768	770	O
+oxo	771	774	O
+-	774	775	O
+acidity	775	782	O
+of	783	785	O
+the	786	789	O
+molten	790	796	B-Material
+salt	797	801	I-Material
+.	801	802	O
+
+That	803	807	O
+is	808	810	O
+,	810	811	O
+O2−	812	815	B-Material
+ions	816	820	I-Material
+that	821	825	O
+are	826	829	O
+liberated	830	839	O
+by	840	842	O
+the	843	846	O
+electroreduction	847	863	B-Process
+may	864	867	O
+not	868	871	O
+react	872	877	O
+at	878	880	O
+the	881	884	O
+counter	885	892	B-Material
+electrode	893	902	I-Material
+and	903	906	O
+,	906	907	O
+thus	908	912	O
+,	912	913	O
+not	914	917	O
+be	918	920	O
+removed	921	928	O
+from	929	933	O
+the	934	937	O
+molten	938	944	B-Material
+salt	945	949	I-Material
+.	949	950	O
+
+This	951	955	O
+could	956	961	O
+be	962	964	O
+due	965	968	O
+to	969	971	O
+the	972	975	O
+electrode	976	985	B-Material
+geometry	986	994	O
+and/or	995	1001	O
+the	1002	1005	O
+inherent	1006	1014	O
+microstructure	1015	1029	O
+of	1030	1032	O
+the	1033	1036	O
+working	1037	1044	O
+electrode	1045	1054	B-Material
+:	1054	1055	O
+a	1056	1057	O
+high	1058	1062	O
+tortuosity	1063	1073	O
+,	1073	1074	O
+for	1075	1078	O
+example	1079	1086	O
+,	1086	1087	O
+would	1088	1093	O
+impede	1094	1100	O
+the	1101	1104	O
+diffusion	1105	1114	O
+of	1115	1117	O
+O2−	1118	1121	B-Material
+ions	1122	1126	I-Material
+out	1127	1130	O
+of	1131	1133	O
+the	1134	1137	O
+working	1138	1145	O
+electrode	1146	1155	B-Material
+.	1155	1156	O
+
+This	1157	1161	O
+could	1162	1167	O
+then	1168	1172	O
+cause	1173	1178	O
+an	1179	1181	O
+increase	1182	1190	O
+in	1191	1193	O
+the	1194	1197	O
+activity	1198	1206	O
+of	1207	1209	O
+oxide	1210	1215	B-Material
+ions	1216	1220	I-Material
+existing	1221	1229	O
+within	1230	1236	O
+the	1237	1240	O
+melt	1241	1245	B-Material
+and	1246	1249	O
+hence	1250	1255	O
+inhibit	1256	1263	O
+the	1264	1267	O
+electrochemical	1268	1283	B-Process
+reduction	1284	1293	I-Process
+–	1294	1295	O
+exploration	1296	1307	B-Task
+of	1308	1310	I-Task
+the	1311	1314	I-Task
+microstructure	1315	1329	I-Task
+of	1330	1332	I-Task
+working	1333	1340	I-Task
+electrodes	1341	1351	I-Task
+will	1352	1356	O
+be	1357	1359	O
+the	1360	1363	O
+focus	1364	1369	O
+of	1370	1372	O
+future	1373	1379	O
+work	1380	1384	O
+.	1384	1385	O
 
 
 -DOCSTART- (S0022311515002664)
 
-The	NN	O	O
-primary	NN	O	O
-benefit	NN	O	O
-of	NN	O	O
-using	NN	O	O
-a	NN	O	O
-3D	NN	O	B-Process
-model	NN	O	I-Process
-is	NN	O	O
-that	NN	O	O
-it	NN	O	O
-allows	NN	O	O
-the	NN	O	O
-application	NN	O	O
-of	NN	O	O
-anisotropic	NN	O	B-Task
-material	NN	O	I-Task
-properties	NN	O	I-Task
-.	NN	O	O
-
-As	NN	O	O
-a	NN	O	O
-hexagonal	NN	O	O
-close	NN	O	O
-packed	NN	O	O
-lattice	NN	O	O
-structure	NN	O	O
-,	NN	O	O
-a	NN	O	O
-single	NN	O	O
-zirconium	NN	O	B-Material
-grain	NN	O	I-Material
-is	NN	O	O
-plastically	NN	O	O
-anisotropic	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-difficulty	NN	O	O
-of	NN	O	O
-activating	NN	O	O
-slip	NN	O	O
-with	NN	O	O
-a	NN	O	O
-〈	NN	O	O
-c	NN	O	O
-〉	NN	O	O
-component	NN	O	O
-[	NN	O	O
-23–26	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Abaqus	NN	O	B-Process
-allows	NN	O	O
-this	NN	O	O
-to	NN	O	O
-be	NN	O	O
-represented	NN	O	O
-by	NN	O	O
-setting	NN	O	O
-plasticity	NN	O	B-Process
-potential	NN	O	I-Process
-ratios	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-anisotropic	NN	O	B-Material
-elastic	NN	O	I-Material
-and	NN	O	I-Material
-plastic	NN	O	I-Material
-constants	NN	O	I-Material
-are	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Table	NN	O	O
-1	NN	O	O
-.	NN	O	O
-
-Zirconium	NN	O	B-Material
-alloys	NN	O	O
-can	NN	O	O
-often	NN	O	O
-have	NN	O	O
-a	NN	O	O
-bimodal	NN	O	B-Process
-basal	NN	O	I-Process
-pole	NN	O	I-Process
-distribution	NN	O	I-Process
-,	NN	O	O
-with	NN	O	O
-a	NN	O	O
-tilt	NN	O	O
-on	NN	O	O
-the	NN	O	O
-basal	NN	O	O
-normal	NN	O	O
-or	NN	O	O
-c	NN	O	O
-direction	NN	O	O
-of	NN	O	O
-±30	NN	O	O
-°	NN	O	O
-in	NN	O	O
-the	NN	O	O
-normal	NN	O	O
-direction	NN	O	O
-being	NN	O	O
-quoted	NN	O	O
-for	NN	O	O
-recrystallized	NN	O	B-Material
-Zircaloy-4	NN	O	I-Material
-[	NN	O	O
-27,28	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-for	NN	O	O
-simplicity	NN	O	O
-the	NN	O	O
-basal	NN	O	O
-normal	NN	O	O
-or	NN	O	O
-c	NN	O	O
-direction	NN	O	O
-has	NN	O	O
-been	NN	O	O
-taken	NN	O	O
-as	NN	O	O
-being	NN	O	O
-parallel	NN	O	O
-to	NN	O	O
-the	NN	O	O
-normal	NN	O	O
-direction	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-such	NN	O	O
-the	NN	O	O
-1	NN	O	O
-,	NN	O	O
-2	NN	O	O
-and	NN	O	O
-3	NN	O	O
-directions	NN	O	O
-in	NN	O	O
-Table	NN	O	O
-1	NN	O	O
-correlate	NN	O	O
-with	NN	O	O
-the	NN	O	O
-X	NN	O	O
-,	NN	O	O
-Y	NN	O	O
-and	NN	O	O
-Z	NN	O	O
-global	NN	O	O
-coordinate	NN	O	O
-system	NN	O	O
-for	NN	O	O
-the	NN	O	O
-3D	NN	O	B-Process
-simulations	NN	O	I-Process
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-3	NN	O	O
-direction	NN	O	O
-correlating	NN	O	O
-to	NN	O	O
-the	NN	O	O
-c	NN	O	O
-direction	NN	O	O
-of	NN	O	O
-a	NN	O	O
-zirconium	NN	O	B-Material
-unit	NN	O	I-Material
-lattice	NN	O	I-Material
-.	NN	O	O
-
-Table	NN	O	O
-1	NN	O	O
-also	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-elastic	NN	O	O
-properties	NN	O	O
-incorporated	NN	O	O
-into	NN	O	O
-the	NN	O	O
-simulations	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-oxide	NN	O	B-Material
-layer	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-simulated	NN	O	O
-as	NN	O	O
-a	NN	O	O
-purely	NN	O	B-Material
-elastic	NN	O	I-Material
-material	NN	O	I-Material
-.	NN	O	O
-
-Although	NN	O	O
-it	NN	O	O
-is	NN	O	O
-known	NN	O	O
-that	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-is	NN	O	O
-strongly	NN	O	O
-textured	NN	O	O
-[	NN	O	O
-29	NN	O	O
-]	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-still	NN	O	O
-simulated	NN	O	O
-as	NN	O	O
-a	NN	O	O
-homogenous	NN	O	O
-solid	NN	O	O
-therefore	NN	O	O
-isotropic	NN	O	B-Task
-material	NN	O	I-Task
-properties	NN	O	I-Task
-have	NN	O	O
-been	NN	O	O
-used	NN	O	O
-for	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-in	NN	O	O
-all	NN	O	O
-simulations	NN	O	B-Process
-.	NN	O	O
+The	0	3	O
+primary	4	11	O
+benefit	12	19	O
+of	20	22	O
+using	23	28	O
+a	29	30	O
+3D	31	33	B-Process
+model	34	39	I-Process
+is	40	42	O
+that	43	47	O
+it	48	50	O
+allows	51	57	O
+the	58	61	O
+application	62	73	O
+of	74	76	O
+anisotropic	77	88	B-Task
+material	89	97	I-Task
+properties	98	108	I-Task
+.	108	109	O
+
+As	110	112	O
+a	113	114	O
+hexagonal	115	124	O
+close	125	130	O
+packed	131	137	O
+lattice	138	145	O
+structure	146	155	O
+,	155	156	O
+a	157	158	O
+single	159	165	O
+zirconium	166	175	B-Material
+grain	176	181	I-Material
+is	182	184	O
+plastically	185	196	O
+anisotropic	197	208	O
+due	209	212	O
+to	213	215	O
+the	216	219	O
+difficulty	220	230	O
+of	231	233	O
+activating	234	244	O
+slip	245	249	O
+with	250	254	O
+a	255	256	O
+〈	257	258	O
+c	258	259	O
+〉	259	260	O
+component	261	270	O
+[	271	272	O
+23–26	272	277	O
+]	277	278	O
+.	278	279	O
+
+Abaqus	280	286	B-Process
+allows	287	293	O
+this	294	298	O
+to	299	301	O
+be	302	304	O
+represented	305	316	O
+by	317	319	O
+setting	320	327	O
+plasticity	328	338	B-Process
+potential	339	348	I-Process
+ratios	349	355	I-Process
+.	355	356	O
+
+The	357	360	O
+anisotropic	361	372	B-Material
+elastic	373	380	I-Material
+and	381	384	I-Material
+plastic	385	392	I-Material
+constants	393	402	I-Material
+are	403	406	O
+shown	407	412	O
+in	413	415	O
+Table	416	421	O
+1	422	423	O
+.	423	424	O
+
+Zirconium	425	434	B-Material
+alloys	435	441	O
+can	442	445	O
+often	446	451	O
+have	452	456	O
+a	457	458	O
+bimodal	459	466	B-Process
+basal	467	472	I-Process
+pole	473	477	I-Process
+distribution	478	490	I-Process
+,	490	491	O
+with	492	496	O
+a	497	498	O
+tilt	499	503	O
+on	504	506	O
+the	507	510	O
+basal	511	516	O
+normal	517	523	O
+or	524	526	O
+c	527	528	O
+direction	529	538	O
+of	539	541	O
+±30	542	545	O
+°	545	546	O
+in	547	549	O
+the	550	553	O
+normal	554	560	O
+direction	561	570	O
+being	571	576	O
+quoted	577	583	O
+for	584	587	O
+recrystallized	588	602	B-Material
+Zircaloy-4	603	613	I-Material
+[	614	615	O
+27,28	615	620	O
+]	620	621	O
+.	621	622	O
+
+However	623	630	O
+,	630	631	O
+for	632	635	O
+simplicity	636	646	O
+the	647	650	O
+basal	651	656	O
+normal	657	663	O
+or	664	666	O
+c	667	668	O
+direction	669	678	O
+has	679	682	O
+been	683	687	O
+taken	688	693	O
+as	694	696	O
+being	697	702	O
+parallel	703	711	O
+to	712	714	O
+the	715	718	O
+normal	719	725	O
+direction	726	735	O
+.	735	736	O
+
+As	737	739	O
+such	740	744	O
+the	745	748	O
+1	749	750	O
+,	750	751	O
+2	752	753	O
+and	754	757	O
+3	758	759	O
+directions	760	770	O
+in	771	773	O
+Table	774	779	O
+1	780	781	O
+correlate	782	791	O
+with	792	796	O
+the	797	800	O
+X	801	802	O
+,	802	803	O
+Y	804	805	O
+and	806	809	O
+Z	810	811	O
+global	812	818	O
+coordinate	819	829	O
+system	830	836	O
+for	837	840	O
+the	841	844	O
+3D	845	847	B-Process
+simulations	848	859	I-Process
+,	859	860	O
+with	861	865	O
+the	866	869	O
+3	870	871	O
+direction	872	881	O
+correlating	882	893	O
+to	894	896	O
+the	897	900	O
+c	901	902	O
+direction	903	912	O
+of	913	915	O
+a	916	917	O
+zirconium	918	927	B-Material
+unit	928	932	I-Material
+lattice	933	940	I-Material
+.	940	941	O
+
+Table	942	947	O
+1	948	949	O
+also	950	954	O
+shows	955	960	O
+the	961	964	O
+elastic	965	972	O
+properties	973	983	O
+incorporated	984	996	O
+into	997	1001	O
+the	1002	1005	O
+simulations	1006	1017	B-Process
+.	1017	1018	O
+
+The	1019	1022	O
+oxide	1023	1028	B-Material
+layer	1029	1034	I-Material
+has	1035	1038	O
+been	1039	1043	O
+simulated	1044	1053	O
+as	1054	1056	O
+a	1057	1058	O
+purely	1059	1065	B-Material
+elastic	1066	1073	I-Material
+material	1074	1082	I-Material
+.	1082	1083	O
+
+Although	1084	1092	O
+it	1093	1095	O
+is	1096	1098	O
+known	1099	1104	O
+that	1105	1109	O
+the	1110	1113	O
+oxide	1114	1119	B-Material
+is	1120	1122	O
+strongly	1123	1131	O
+textured	1132	1140	O
+[	1141	1142	O
+29	1142	1144	O
+]	1144	1145	O
+,	1145	1146	O
+it	1147	1149	O
+is	1150	1152	O
+still	1153	1158	O
+simulated	1159	1168	O
+as	1169	1171	O
+a	1172	1173	O
+homogenous	1174	1184	O
+solid	1185	1190	O
+therefore	1191	1200	O
+isotropic	1201	1210	B-Task
+material	1211	1219	I-Task
+properties	1220	1230	I-Task
+have	1231	1235	O
+been	1236	1240	O
+used	1241	1245	O
+for	1246	1249	O
+the	1250	1253	O
+oxide	1254	1259	B-Material
+in	1260	1262	O
+all	1263	1266	O
+simulations	1267	1278	B-Process
+.	1278	1279	O
 
 
 -DOCSTART- (S0022311515300295)
 
-Zirconium	NN	O	B-Material
-alloys	NN	O	I-Material
-are	NN	O	O
-commonly	NN	O	O
-used	NN	O	O
-as	NN	O	O
-the	NN	O	O
-fuel	NN	O	B-Material
-cladding	NN	O	I-Material
-for	NN	O	O
-water	NN	O	B-Material
-cooled	NN	O	I-Material
-nuclear	NN	O	I-Material
-fission	NN	O	I-Material
-reactors	NN	O	I-Material
-,	NN	O	O
-mainly	NN	O	O
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-low	NN	O	O
-neutron	NN	O	O
-cross	NN	O	O
--	NN	O	O
-section	NN	O	O
-,	NN	O	O
-good	NN	O	O
-corrosion	NN	O	O
-resistance	NN	O	O
-during	NN	O	O
-normal	NN	O	O
-operating	NN	O	O
-conditions	NN	O	O
-and	NN	O	O
-sufficient	NN	O	O
-mechanical	NN	O	O
-strength	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Despite	NN	O	O
-high	NN	O	O
-corrosion	NN	O	O
-resistance	NN	O	O
-at	NN	O	O
-normal	NN	O	O
-operating	NN	O	O
-temperatures	NN	O	O
-(	NN	O	O
-around	NN	O	O
-300	NN	O	O
-°	NN	O	O
-C	NN	O	O
-)	NN	O	O
-
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Zr	NN	O	B-Material
-alloys	NN	O	I-Material
-oxidise	NN	O	B-Process
-very	NN	O	O
-rapidly	NN	O	O
-when	NN	O	O
-exposed	NN	O	O
-to	NN	O	O
-temperatures	NN	O	O
-a	NN	O	O
-few	NN	O	O
-hundred	NN	O	O
-degrees	NN	O	O
-higher	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-an	NN	O	O
-exothermic	NN	O	B-Process
-reaction	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-can	NN	O	O
-further	NN	O	O
-accelerate	NN	O	O
-oxidation	NN	O	B-Process
-and	NN	O	O
-,	NN	O	O
-at	NN	O	O
-temperatures	NN	O	O
-beyond	NN	O	O
-1000	NN	O	O
-°	NN	O	O
-C	NN	O	O
-,	NN	O	O
-potentially	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-disintegration	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-fuel	NN	O	I-Process
-rods	NN	O	I-Process
-,	NN	O	O
-as	NN	O	O
-highlighted	NN	O	O
-during	NN	O	O
-the	NN	O	O
-Fukushima	NN	O	O
-Daiichi	NN	O	O
-nuclear	NN	O	O
-accident	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-this	NN	O	O
-reason	NN	O	O
-new	NN	O	O
-research	NN	O	O
-activities	NN	O	O
-have	NN	O	O
-been	NN	O	O
-initiated	NN	O	O
-worldwide	NN	O	O
-to	NN	O	O
-develop	NN	O	B-Task
-accident	NN	O	I-Task
-tolerant	NN	O	I-Task
-fuels	NN	O	I-Task
-(	NN	O	O
-ATF	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-Additionally	NN	O	O
-,	NN	O	O
-ATFs	NN	O	B-Material
-could	NN	O	O
-also	NN	O	O
-provide	NN	O	O
-further	NN	O	O
-enhancements	NN	O	B-Task
-in	NN	O	I-Task
-corrosion	NN	O	I-Task
-performance	NN	O	I-Task
-during	NN	O	O
-normal	NN	O	O
-operating	NN	O	O
-conditions	NN	O	O
-enabling	NN	O	O
-the	NN	O	O
-development	NN	O	B-Task
-of	NN	O	I-Task
-fuel	NN	O	I-Task
-assemblies	NN	O	I-Task
-for	NN	O	O
-very	NN	O	O
-high	NN	O	O
-burn	NN	O	O
--	NN	O	O
-up	NN	O	O
-.	NN	O	O
+Zirconium	0	9	B-Material
+alloys	10	16	I-Material
+are	17	20	O
+commonly	21	29	O
+used	30	34	O
+as	35	37	O
+the	38	41	O
+fuel	42	46	B-Material
+cladding	47	55	I-Material
+for	56	59	O
+water	60	65	B-Material
+cooled	66	72	I-Material
+nuclear	73	80	I-Material
+fission	81	88	I-Material
+reactors	89	97	I-Material
+,	97	98	O
+mainly	99	105	O
+due	106	109	O
+to	110	112	O
+their	113	118	O
+low	119	122	O
+neutron	123	130	O
+cross	131	136	O
+-	136	137	O
+section	137	144	O
+,	144	145	O
+good	146	150	O
+corrosion	151	160	O
+resistance	161	171	O
+during	172	178	O
+normal	179	185	O
+operating	186	195	O
+conditions	196	206	O
+and	207	210	O
+sufficient	211	221	O
+mechanical	222	232	O
+strength	233	241	O
+[	242	243	O
+1	243	244	O
+]	244	245	O
+.	245	246	O
+
+Despite	247	254	O
+high	255	259	O
+corrosion	260	269	O
+resistance	270	280	O
+at	281	283	O
+normal	284	290	O
+operating	291	300	O
+temperatures	301	313	O
+(	314	315	O
+around	315	321	O
+300	322	325	O
+°	326	327	O
+C	327	328	O
+)	328	329	O
+
+[	330	331	O
+2	331	332	O
+]	332	333	O
+,	333	334	O
+Zr	335	337	B-Material
+alloys	338	344	I-Material
+oxidise	345	352	B-Process
+very	353	357	O
+rapidly	358	365	O
+when	366	370	O
+exposed	371	378	O
+to	379	381	O
+temperatures	382	394	O
+a	395	396	O
+few	397	400	O
+hundred	401	408	O
+degrees	409	416	O
+higher	417	423	O
+.	423	424	O
+
+This	425	429	O
+is	430	432	O
+an	433	435	O
+exothermic	436	446	B-Process
+reaction	447	455	I-Process
+,	455	456	O
+which	457	462	O
+can	463	466	O
+further	467	474	O
+accelerate	475	485	O
+oxidation	486	495	B-Process
+and	496	499	O
+,	499	500	O
+at	501	503	O
+temperatures	504	516	O
+beyond	517	523	O
+1000	524	528	O
+°	529	530	O
+C	530	531	O
+,	531	532	O
+potentially	533	544	O
+lead	545	549	O
+to	550	552	O
+disintegration	553	567	B-Process
+of	568	570	I-Process
+the	571	574	I-Process
+fuel	575	579	I-Process
+rods	580	584	I-Process
+,	584	585	O
+as	586	588	O
+highlighted	589	600	O
+during	601	607	O
+the	608	611	O
+Fukushima	612	621	O
+Daiichi	622	629	O
+nuclear	630	637	O
+accident	638	646	O
+.	646	647	O
+
+For	648	651	O
+this	652	656	O
+reason	657	663	O
+new	664	667	O
+research	668	676	O
+activities	677	687	O
+have	688	692	O
+been	693	697	O
+initiated	698	707	O
+worldwide	708	717	O
+to	718	720	O
+develop	721	728	B-Task
+accident	729	737	I-Task
+tolerant	738	746	I-Task
+fuels	747	752	I-Task
+(	753	754	O
+ATF	754	757	B-Material
+)	757	758	O
+.	758	759	O
+
+Additionally	760	772	O
+,	772	773	O
+ATFs	774	778	B-Material
+could	779	784	O
+also	785	789	O
+provide	790	797	O
+further	798	805	O
+enhancements	806	818	B-Task
+in	819	821	I-Task
+corrosion	822	831	I-Task
+performance	832	843	I-Task
+during	844	850	O
+normal	851	857	O
+operating	858	867	O
+conditions	868	878	O
+enabling	879	887	O
+the	888	891	O
+development	892	903	B-Task
+of	904	906	I-Task
+fuel	907	911	I-Task
+assemblies	912	922	I-Task
+for	923	926	O
+very	927	931	O
+high	932	936	O
+burn	937	941	O
+-	941	942	O
+up	942	944	O
+.	944	945	O
 
 
 -DOCSTART- (S0022311515300477)
 
-In	NN	O	O
-all	NN	O	O
-these	NN	O	O
-studies	NN	O	O
-,	NN	O	O
-the	NN	O	O
-association	NN	O	O
-between	NN	O	O
-the	NN	O	O
-transition	NN	O	O
-and	NN	O	O
-lateral	NN	O	O
-cracking	NN	O	O
-in	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-layer	NN	O	I-Material
-depicts	NN	O	O
-some	NN	O	O
-interaction	NN	O	O
-between	NN	O	O
-the	NN	O	O
-mechanical	NN	O	O
-behaviour	NN	O	O
-of	NN	O	O
-the	NN	O	O
-system	NN	O	O
-,	NN	O	O
-and	NN	O	O
-its	NN	O	O
-corrosion	NN	O	O
-kinetics	NN	O	O
-,	NN	O	O
-but	NN	O	O
-does	NN	O	O
-not	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-clear	NN	O	O
-understanding	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-morphology	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-metal	NN	O	I-Task
-:	NN	O	I-Task
-oxide	NN	O	I-Task
-interface	NN	O	I-Task
-during	NN	O	O
-the	NN	O	O
-corrosion	NN	O	B-Process
-process	NN	O	I-Process
-,	NN	O	O
-at	NN	O	O
-the	NN	O	O
-nanometre	NN	O	O
-level	NN	O	O
-.	NN	O	O
-
-Understanding	NN	O	B-Task
-why	NN	O	I-Task
-this	NN	O	I-Task
-transition	NN	O	I-Task
-behaviour	NN	O	I-Task
-happens	NN	O	I-Task
-is	NN	O	O
-critical	NN	O	O
-when	NN	O	O
-modelling	NN	O	B-Task
-the	NN	O	I-Task
-rate	NN	O	I-Task
-of	NN	O	I-Task
-growth	NN	O	I-Task
-of	NN	O	I-Task
-oxide	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-therefore	NN	O	O
-to	NN	O	O
-the	NN	O	O
-lifetime	NN	O	O
-prediction	NN	O	O
-of	NN	O	O
-Zr	NN	O	B-Material
-clads	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-ultimately	NN	O	O
-to	NN	O	O
-the	NN	O	O
-safety	NN	O	O
-of	NN	O	O
-nuclear	NN	O	B-Material
-power	NN	O	I-Material
-reactors	NN	O	I-Material
-.	NN	O	O
-
-No	NN	O	O
-model	NN	O	O
-will	NN	O	O
-be	NN	O	O
-complete	NN	O	O
-without	NN	O	O
-a	NN	O	O
-nanoscale	NN	O	O
-understanding	NN	O	B-Task
-of	NN	O	I-Task
-what	NN	O	I-Task
-is	NN	O	I-Task
-going	NN	O	I-Task
-on	NN	O	I-Task
-during	NN	O	I-Task
-oxidation	NN	O	I-Task
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-essential	NN	O	O
-that	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-scale	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-top	NN	O	B-Material
-layers	NN	O	I-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-metal	NN	O	I-Material
-are	NN	O	O
-studied	NN	O	O
-at	NN	O	O
-nanometre	NN	O	O
-resolution	NN	O	O
-to	NN	O	O
-reveal	NN	O	O
-the	NN	O	O
-detailed	NN	O	O
-structural	NN	O	B-Process
-and	NN	O	I-Process
-chemical	NN	O	I-Process
-changes	NN	O	I-Process
-associated	NN	O	O
-with	NN	O	O
-diffusion	NN	O	B-Process
-of	NN	O	I-Process
-oxygen	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-resulting	NN	O	O
-oxidation	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-metal	NN	O	I-Process
-.	NN	O	O
-
-Whilst	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-techniques	NN	O	O
-have	NN	O	O
-been	NN	O	O
-employed	NN	O	O
-for	NN	O	O
-this	NN	O	O
-purpose	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-clear	NN	O	O
-that	NN	O	O
-various	NN	O	O
-techniques	NN	O	O
-within	NN	O	O
-transmission	NN	O	B-Process
-electron	NN	O	I-Process
-microscopy	NN	O	I-Process
-(	NN	O	O
-TEM	NN	O	B-Process
-)	NN	O	O
-will	NN	O	O
-be	NN	O	O
-among	NN	O	O
-the	NN	O	O
-most	NN	O	O
-versatile	NN	O	O
-and	NN	O	O
-informative	NN	O	O
-for	NN	O	O
-this	NN	O	O
-purpose	NN	O	O
-,	NN	O	O
-although	NN	O	O
-additional	NN	O	O
-information	NN	O	O
-can	NN	O	O
-be	NN	O	O
-added	NN	O	O
-by	NN	O	O
-techniques	NN	O	O
-such	NN	O	O
-as	NN	O	O
-atom	NN	O	B-Process
-probe	NN	O	I-Process
-tomography	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+all	3	6	O
+these	7	12	O
+studies	13	20	O
+,	20	21	O
+the	22	25	O
+association	26	37	O
+between	38	45	O
+the	46	49	O
+transition	50	60	O
+and	61	64	O
+lateral	65	72	O
+cracking	73	81	O
+in	82	84	O
+the	85	88	O
+oxide	89	94	B-Material
+layer	95	100	I-Material
+depicts	101	108	O
+some	109	113	O
+interaction	114	125	O
+between	126	133	O
+the	134	137	O
+mechanical	138	148	O
+behaviour	149	158	O
+of	159	161	O
+the	162	165	O
+system	166	172	O
+,	172	173	O
+and	174	177	O
+its	178	181	O
+corrosion	182	191	O
+kinetics	192	200	O
+,	200	201	O
+but	202	205	O
+does	206	210	O
+not	211	214	O
+provide	215	222	O
+a	223	224	O
+clear	225	230	O
+understanding	231	244	B-Task
+of	245	247	I-Task
+the	248	251	I-Task
+morphology	252	262	I-Task
+of	263	265	I-Task
+the	266	269	I-Task
+metal	270	275	I-Task
+:	275	276	I-Task
+oxide	276	281	I-Task
+interface	282	291	I-Task
+during	292	298	O
+the	299	302	O
+corrosion	303	312	B-Process
+process	313	320	I-Process
+,	320	321	O
+at	322	324	O
+the	325	328	O
+nanometre	329	338	O
+level	339	344	O
+.	344	345	O
+
+Understanding	346	359	B-Task
+why	360	363	I-Task
+this	364	368	I-Task
+transition	369	379	I-Task
+behaviour	380	389	I-Task
+happens	390	397	I-Task
+is	398	400	O
+critical	401	409	O
+when	410	414	O
+modelling	415	424	B-Task
+the	425	428	I-Task
+rate	429	433	I-Task
+of	434	436	I-Task
+growth	437	443	I-Task
+of	444	446	I-Task
+oxide	447	452	I-Task
+,	452	453	O
+and	454	457	O
+therefore	458	467	O
+to	468	470	O
+the	471	474	O
+lifetime	475	483	O
+prediction	484	494	O
+of	495	497	O
+Zr	498	500	B-Material
+clads	501	506	I-Material
+,	506	507	O
+and	508	511	O
+ultimately	512	522	O
+to	523	525	O
+the	526	529	O
+safety	530	536	O
+of	537	539	O
+nuclear	540	547	B-Material
+power	548	553	I-Material
+reactors	554	562	I-Material
+.	562	563	O
+
+No	564	566	O
+model	567	572	O
+will	573	577	O
+be	578	580	O
+complete	581	589	O
+without	590	597	O
+a	598	599	O
+nanoscale	600	609	O
+understanding	610	623	B-Task
+of	624	626	I-Task
+what	627	631	I-Task
+is	632	634	I-Task
+going	635	640	I-Task
+on	641	643	I-Task
+during	644	650	I-Task
+oxidation	651	660	I-Task
+.	660	661	O
+
+Thus	662	666	O
+,	666	667	O
+it	668	670	O
+is	671	673	O
+essential	674	683	O
+that	684	688	O
+the	689	692	O
+oxide	693	698	B-Material
+scale	699	704	I-Material
+and	705	708	O
+the	709	712	O
+top	713	716	B-Material
+layers	717	723	I-Material
+of	724	726	I-Material
+the	727	730	I-Material
+metal	731	736	I-Material
+are	737	740	O
+studied	741	748	O
+at	749	751	O
+nanometre	752	761	O
+resolution	762	772	O
+to	773	775	O
+reveal	776	782	O
+the	783	786	O
+detailed	787	795	O
+structural	796	806	B-Process
+and	807	810	I-Process
+chemical	811	819	I-Process
+changes	820	827	I-Process
+associated	828	838	O
+with	839	843	O
+diffusion	844	853	B-Process
+of	854	856	I-Process
+oxygen	857	863	I-Process
+and	864	867	O
+the	868	871	O
+resulting	872	881	O
+oxidation	882	891	B-Process
+of	892	894	I-Process
+the	895	898	I-Process
+metal	899	904	I-Process
+.	904	905	O
+
+Whilst	906	912	O
+a	913	914	O
+number	915	921	O
+of	922	924	O
+techniques	925	935	O
+have	936	940	O
+been	941	945	O
+employed	946	954	O
+for	955	958	O
+this	959	963	O
+purpose	964	971	O
+,	971	972	O
+it	973	975	O
+is	976	978	O
+clear	979	984	O
+that	985	989	O
+various	990	997	O
+techniques	998	1008	O
+within	1009	1015	O
+transmission	1016	1028	B-Process
+electron	1029	1037	I-Process
+microscopy	1038	1048	I-Process
+(	1049	1050	O
+TEM	1050	1053	B-Process
+)	1053	1054	O
+will	1055	1059	O
+be	1060	1062	O
+among	1063	1068	O
+the	1069	1072	O
+most	1073	1077	O
+versatile	1078	1087	O
+and	1088	1091	O
+informative	1092	1103	O
+for	1104	1107	O
+this	1108	1112	O
+purpose	1113	1120	O
+,	1120	1121	O
+although	1122	1130	O
+additional	1131	1141	O
+information	1142	1153	O
+can	1154	1157	O
+be	1158	1160	O
+added	1161	1166	O
+by	1167	1169	O
+techniques	1170	1180	O
+such	1181	1185	O
+as	1186	1188	O
+atom	1189	1193	B-Process
+probe	1194	1199	I-Process
+tomography	1200	1210	I-Process
+.	1210	1211	O
 
 
 -DOCSTART- (S0022311515300830)
 
-Solid	NN	O	B-Material
-pieces	NN	O	I-Material
-of	NN	O	O
-23–114	NN	O	O
-mg	NN	O	O
-were	NN	O	O
-further	NN	O	O
-used	NN	O	O
-to	NN	O	O
-measure	NN	O	B-Process
-the	NN	O	I-Process
-enthalpy	NN	O	I-Process
-increments	NN	O	I-Process
-using	NN	O	O
-a	NN	O	O
-Setaram	NN	O	B-Process
-Multi	NN	O	I-Process
--	NN	O	I-Process
-detector	NN	O	I-Process
-High	NN	O	I-Process
-Temperature	NN	O	I-Process
-Calorimeter	NN	O	I-Process
-(	NN	O	O
-MDHTC-96	NN	O	B-Process
-)	NN	O	O
-using	NN	O	O
-a	NN	O	O
-drop	NN	O	B-Process
-detector	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-more	NN	O	O
-details	NN	O	O
-about	NN	O	O
-the	NN	O	O
-technique	NN	O	O
-we	NN	O	O
-refer	NN	O	O
-to	NN	O	O
-our	NN	O	O
-previous	NN	O	O
-studies	NN	O	O
-[	NN	O	O
-9,10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-measurements	NN	O	O
-were	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-under	NN	O	O
-an	NN	O	O
-argon	NN	O	B-Material
-atmosphere	NN	O	O
-(	NN	O	O
-with	NN	O	O
-an	NN	O	O
-oxygen	NN	O	B-Material
-content	NN	O	O
-of	NN	O	O
-7	NN	O	O
-ppm	NN	O	O
-)	NN	O	O
-,	NN	O	O
-using	NN	O	O
-pure	NN	O	O
-platinum	NN	O	B-Material
-ingots	NN	O	I-Material
-(	NN	O	O
-64–144	NN	O	O
-mg	NN	O	O
-)	NN	O	O
-of	NN	O	O
-99.95	NN	O	O
-at	NN	O	O
-%	NN	O	O
-purity	NN	O	O
-as	NN	O	O
-a	NN	O	O
-reference	NN	O	B-Material
-material	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-temperature	NN	O	O
-range	NN	O	O
-of	NN	O	O
-the	NN	O	O
-experiment	NN	O	O
-was	NN	O	O
-from	NN	O	O
-430.3	NN	O	O
-K	NN	O	O
-to	NN	O	O
-1088.8	NN	O	O
-K	NN	O	O
-using	NN	O	O
-steps	NN	O	O
-of	NN	O	O
-50	NN	O	O
-
-K.	NN	O	O
-Each	NN	O	O
-isothermal	NN	O	B-Process
-run	NN	O	I-Process
-consisted	NN	O	O
-of	NN	O	O
-2–4	NN	O	B-Material
-drops	NN	O	I-Material
-of	NN	O	I-Material
-Bi2UO6	NN	O	I-Material
-samples	NN	O	I-Material
-,	NN	O	O
-each	NN	O	O
-surrounded	NN	O	O
-by	NN	O	O
-two	NN	O	O
-drops	NN	O	O
-of	NN	O	O
-platinum	NN	O	B-Material
-from	NN	O	O
-which	NN	O	O
-the	NN	O	O
-sensitivity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-device	NN	O	O
-was	NN	O	O
-determined	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-drops	NN	O	O
-were	NN	O	O
-separated	NN	O	O
-by	NN	O	O
-time	NN	O	O
-intervals	NN	O	O
-of	NN	O	O
-20	NN	O	O
-min	NN	O	O
-,	NN	O	O
-long	NN	O	O
-enough	NN	O	O
-to	NN	O	O
-re	NN	O	O
--	NN	O	O
-stabilize	NN	O	O
-the	NN	O	O
-monitored	NN	O	O
-heat	NN	O	B-Process
-flow	NN	O	I-Process
-signal	NN	O	O
-.	NN	O	O
-
-Background	NN	O	B-Process
-subtraction	NN	O	I-Process
-and	NN	O	I-Process
-peak	NN	O	I-Process
-integration	NN	O	I-Process
-were	NN	O	O
-performed	NN	O	O
-using	NN	O	O
-commercially	NN	O	B-Material
-available	NN	O	I-Material
-software	NN	O	I-Material
-for	NN	O	I-Material
-data	NN	O	I-Material
-processing	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-reported	NN	O	O
-temperatures	NN	O	O
-were	NN	O	O
-corrected	NN	O	B-Process
-in	NN	O	O
-accordance	NN	O	O
-with	NN	O	O
-the	NN	O	O
-calibration	NN	O	O
-curve	NN	O	O
-obtained	NN	O	O
-prior	NN	O	O
-to	NN	O	O
-measurement	NN	O	O
-using	NN	O	O
-several	NN	O	O
-high	NN	O	B-Material
-purity	NN	O	I-Material
-standard	NN	O	I-Material
-metals	NN	O	I-Material
-(	NN	O	O
-Sn	NN	O	B-Material
-,	NN	O	O
-Pb	NN	O	B-Material
-,	NN	O	O
-Zn	NN	O	B-Material
-,	NN	O	O
-Al	NN	O	B-Material
-,	NN	O	O
-Ag	NN	O	B-Material
-,	NN	O	O
-Ni	NN	O	B-Material
-)	NN	O	O
-with	NN	O	O
-various	NN	O	O
-melting	NN	O	O
-temperatures	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-cover	NN	O	O
-the	NN	O	O
-whole	NN	O	O
-temperature	NN	O	O
-range	NN	O	O
-of	NN	O	O
-the	NN	O	O
-measurement	NN	O	O
-.	NN	O	O
-
-After	NN	O	O
-drop	NN	O	O
-calorimetric	NN	O	B-Process
-measurements	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-maximum	NN	O	O
-considered	NN	O	O
-temperature	NN	O	O
-,	NN	O	O
-the	NN	O	O
-material	NN	O	O
-was	NN	O	O
-subjected	NN	O	O
-to	NN	O	O
-a	NN	O	O
-new	NN	O	O
-XRD	NN	O	B-Process
-measurement	NN	O	O
-,	NN	O	O
-confirming	NN	O	O
-the	NN	O	O
-stability	NN	O	O
-of	NN	O	O
-the	NN	O	O
-compound	NN	O	B-Material
-under	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-conditions	NN	O	O
-.	NN	O	O
+Solid	0	5	B-Material
+pieces	6	12	I-Material
+of	13	15	O
+23–114	16	22	O
+mg	23	25	O
+were	26	30	O
+further	31	38	O
+used	39	43	O
+to	44	46	O
+measure	47	54	B-Process
+the	55	58	I-Process
+enthalpy	59	67	I-Process
+increments	68	78	I-Process
+using	79	84	O
+a	85	86	O
+Setaram	87	94	B-Process
+Multi	95	100	I-Process
+-	100	101	I-Process
+detector	101	109	I-Process
+High	110	114	I-Process
+Temperature	115	126	I-Process
+Calorimeter	127	138	I-Process
+(	139	140	O
+MDHTC-96	140	148	B-Process
+)	148	149	O
+using	150	155	O
+a	156	157	O
+drop	158	162	B-Process
+detector	163	171	I-Process
+.	171	172	O
+
+For	173	176	O
+more	177	181	O
+details	182	189	O
+about	190	195	O
+the	196	199	O
+technique	200	209	O
+we	210	212	O
+refer	213	218	O
+to	219	221	O
+our	222	225	O
+previous	226	234	O
+studies	235	242	O
+[	243	244	O
+9,10	244	248	O
+]	248	249	O
+.	249	250	O
+
+The	251	254	O
+measurements	255	267	O
+were	268	272	O
+carried	273	280	O
+out	281	284	O
+under	285	290	O
+an	291	293	O
+argon	294	299	B-Material
+atmosphere	300	310	O
+(	311	312	O
+with	312	316	O
+an	317	319	O
+oxygen	320	326	B-Material
+content	327	334	O
+of	335	337	O
+7	338	339	O
+ppm	340	343	O
+)	343	344	O
+,	344	345	O
+using	346	351	O
+pure	352	356	O
+platinum	357	365	B-Material
+ingots	366	372	I-Material
+(	373	374	O
+64–144	374	380	O
+mg	381	383	O
+)	383	384	O
+of	385	387	O
+99.95	388	393	O
+at	394	396	O
+%	397	398	O
+purity	399	405	O
+as	406	408	O
+a	409	410	O
+reference	411	420	B-Material
+material	421	429	I-Material
+.	429	430	O
+
+The	431	434	O
+temperature	435	446	O
+range	447	452	O
+of	453	455	O
+the	456	459	O
+experiment	460	470	O
+was	471	474	O
+from	475	479	O
+430.3	480	485	O
+K	486	487	O
+to	488	490	O
+1088.8	491	497	O
+K	498	499	O
+using	500	505	O
+steps	506	511	O
+of	512	514	O
+50	515	517	O
+
+K.	518	520	O
+Each	521	525	O
+isothermal	526	536	B-Process
+run	537	540	I-Process
+consisted	541	550	O
+of	551	553	O
+2–4	554	557	B-Material
+drops	558	563	I-Material
+of	564	566	I-Material
+Bi2UO6	567	573	I-Material
+samples	574	581	I-Material
+,	581	582	O
+each	583	587	O
+surrounded	588	598	O
+by	599	601	O
+two	602	605	O
+drops	606	611	O
+of	612	614	O
+platinum	615	623	B-Material
+from	624	628	O
+which	629	634	O
+the	635	638	O
+sensitivity	639	650	O
+of	651	653	O
+the	654	657	O
+device	658	664	O
+was	665	668	O
+determined	669	679	O
+.	679	680	O
+
+The	681	684	O
+drops	685	690	O
+were	691	695	O
+separated	696	705	O
+by	706	708	O
+time	709	713	O
+intervals	714	723	O
+of	724	726	O
+20	727	729	O
+min	730	733	O
+,	733	734	O
+long	735	739	O
+enough	740	746	O
+to	747	749	O
+re	750	752	O
+-	752	753	O
+stabilize	753	762	O
+the	763	766	O
+monitored	767	776	O
+heat	777	781	B-Process
+flow	782	786	I-Process
+signal	787	793	O
+.	793	794	O
+
+Background	795	805	B-Process
+subtraction	806	817	I-Process
+and	818	821	I-Process
+peak	822	826	I-Process
+integration	827	838	I-Process
+were	839	843	O
+performed	844	853	O
+using	854	859	O
+commercially	860	872	B-Material
+available	873	882	I-Material
+software	883	891	I-Material
+for	892	895	I-Material
+data	896	900	I-Material
+processing	901	911	I-Material
+.	911	912	O
+
+The	913	916	O
+reported	917	925	O
+temperatures	926	938	O
+were	939	943	O
+corrected	944	953	B-Process
+in	954	956	O
+accordance	957	967	O
+with	968	972	O
+the	973	976	O
+calibration	977	988	O
+curve	989	994	O
+obtained	995	1003	O
+prior	1004	1009	O
+to	1010	1012	O
+measurement	1013	1024	O
+using	1025	1030	O
+several	1031	1038	O
+high	1039	1043	B-Material
+purity	1044	1050	I-Material
+standard	1051	1059	I-Material
+metals	1060	1066	I-Material
+(	1067	1068	O
+Sn	1068	1070	B-Material
+,	1070	1071	O
+Pb	1072	1074	B-Material
+,	1074	1075	O
+Zn	1076	1078	B-Material
+,	1078	1079	O
+Al	1080	1082	B-Material
+,	1082	1083	O
+Ag	1084	1086	B-Material
+,	1086	1087	O
+Ni	1088	1090	B-Material
+)	1090	1091	O
+with	1092	1096	O
+various	1097	1104	O
+melting	1105	1112	O
+temperatures	1113	1125	O
+in	1126	1128	O
+order	1129	1134	O
+to	1135	1137	O
+cover	1138	1143	O
+the	1144	1147	O
+whole	1148	1153	O
+temperature	1154	1165	O
+range	1166	1171	O
+of	1172	1174	O
+the	1175	1178	O
+measurement	1179	1190	O
+.	1190	1191	O
+
+After	1192	1197	O
+drop	1198	1202	O
+calorimetric	1203	1215	B-Process
+measurements	1216	1228	I-Process
+at	1229	1231	O
+the	1232	1235	O
+maximum	1236	1243	O
+considered	1244	1254	O
+temperature	1255	1266	O
+,	1266	1267	O
+the	1268	1271	O
+material	1272	1280	O
+was	1281	1284	O
+subjected	1285	1294	O
+to	1295	1297	O
+a	1298	1299	O
+new	1300	1303	O
+XRD	1304	1307	B-Process
+measurement	1308	1319	O
+,	1319	1320	O
+confirming	1321	1331	O
+the	1332	1335	O
+stability	1336	1345	O
+of	1346	1348	O
+the	1349	1352	O
+compound	1353	1361	B-Material
+under	1362	1367	O
+the	1368	1371	O
+experimental	1372	1384	O
+conditions	1385	1395	O
+.	1395	1396	O
 
 
 -DOCSTART- (S0022311515301069)
 
-The	NN	O	O
-fluence	NN	O	B-Task
-of	NN	O	I-Task
-each	NN	O	I-Task
-capsule	NN	O	I-Task
-was	NN	O	O
-determined	NN	O	O
-by	NN	O	O
-using	NN	O	O
-activation	NN	O	B-Material
-monitor	NN	O	I-Material
-sets	NN	O	I-Material
-.	NN	O	I-Material
-
-These	NN	O	O
-monitor	NN	O	B-Material
-sets	NN	O	I-Material
-consist	NN	O	O
-of	NN	O	O
-different	NN	O	O
-metal	NN	O	B-Material
-wire	NN	O	I-Material
-pieces	NN	O	I-Material
-that	NN	O	O
-have	NN	O	O
-an	NN	O	O
-activation	NN	O	O
-reaction	NN	O	O
-at	NN	O	O
-a	NN	O	O
-specific	NN	O	O
-energy	NN	O	O
-range	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-different	NN	O	O
-activation	NN	O	O
-energies	NN	O	O
-are	NN	O	O
-chosen	NN	O	O
-in	NN	O	O
-such	NN	O	O
-a	NN	O	O
-way	NN	O	O
-that	NN	O	O
-the	NN	O	O
-spectrum	NN	O	O
-can	NN	O	O
-be	NN	O	O
-reconstructed	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-BODEX	NN	O	O
-,	NN	O	O
-each	NN	O	O
-capsule	NN	O	B-Material
-contained	NN	O	O
-a	NN	O	O
-flux	NN	O	B-Material
-monitor	NN	O	I-Material
-set	NN	O	I-Material
-on	NN	O	O
-the	NN	O	O
-‘	NN	O	O
-back	NN	O	O
-side’	NN	O	O
-(	NN	O	O
-as	NN	O	O
-seen	NN	O	O
-from	NN	O	O
-the	NN	O	O
-core	NN	O	O
-)	NN	O	O
-and	NN	O	O
-one	NN	O	O
-on	NN	O	O
-the	NN	O	O
-front	NN	O	O
-side	NN	O	O
-,	NN	O	O
-positioned	NN	O	O
-at	NN	O	O
-the	NN	O	O
-central	NN	O	O
-height	NN	O	O
-of	NN	O	O
-the	NN	O	O
-capsules	NN	O	B-Material
-.	NN	O	O
-
-Additionally	NN	O	O
-,	NN	O	O
-one	NN	O	O
-detector	NN	O	B-Material
-was	NN	O	O
-placed	NN	O	O
-at	NN	O	O
-the	NN	O	O
-top	NN	O	O
-and	NN	O	O
-one	NN	O	O
-at	NN	O	O
-the	NN	O	O
-bottom	NN	O	O
-,	NN	O	O
-resulting	NN	O	O
-in	NN	O	O
-a	NN	O	O
-total	NN	O	O
-of	NN	O	O
-6	NN	O	O
-monitor	NN	O	B-Material
-sets	NN	O	O
-per	NN	O	O
-leg	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-fluence	NN	O	O
-in	NN	O	O
-each	NN	O	O
-capsule	NN	O	B-Material
-was	NN	O	O
-determined	NN	O	O
-as	NN	O	O
-the	NN	O	O
-average	NN	O	O
-between	NN	O	O
-the	NN	O	O
-two	NN	O	O
-flux	NN	O	B-Material
-monitor	NN	O	I-Material
-located	NN	O	O
-in	NN	O	O
-each	NN	O	O
-capsule	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-sets	NN	O	O
-have	NN	O	O
-been	NN	O	O
-analysed	NN	O	O
-by	NN	O	O
-determining	NN	O	B-Task
-the	NN	O	I-Task
-activation	NN	O	I-Task
-of	NN	O	I-Task
-each	NN	O	I-Task
-wire	NN	O	I-Task
-piece	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-indicates	NN	O	O
-the	NN	O	O
-fluence	NN	O	B-Process
-of	NN	O	O
-a	NN	O	O
-specific	NN	O	O
-energy	NN	O	O
-range	NN	O	O
-.	NN	O	O
-
-Table	NN	O	O
-3	NN	O	O
-show	NN	O	O
-the	NN	O	O
-values	NN	O	O
-of	NN	O	O
-the	NN	O	O
-fluences	NN	O	B-Process
-for	NN	O	O
-the	NN	O	O
-two	NN	O	O
-capsules	NN	O	B-Material
-containing	NN	O	O
-molybdenum	NN	O	B-Material
-.	NN	O	O
+The	0	3	O
+fluence	4	11	B-Task
+of	12	14	I-Task
+each	15	19	I-Task
+capsule	20	27	I-Task
+was	28	31	O
+determined	32	42	O
+by	43	45	O
+using	46	51	O
+activation	52	62	B-Material
+monitor	63	70	I-Material
+sets	71	75	I-Material
+.	75	76	I-Material
+
+These	77	82	O
+monitor	83	90	B-Material
+sets	91	95	I-Material
+consist	96	103	O
+of	104	106	O
+different	107	116	O
+metal	117	122	B-Material
+wire	123	127	I-Material
+pieces	128	134	I-Material
+that	135	139	O
+have	140	144	O
+an	145	147	O
+activation	148	158	O
+reaction	159	167	O
+at	168	170	O
+a	171	172	O
+specific	173	181	O
+energy	182	188	O
+range	189	194	O
+.	194	195	O
+
+The	196	199	O
+different	200	209	O
+activation	210	220	O
+energies	221	229	O
+are	230	233	O
+chosen	234	240	O
+in	241	243	O
+such	244	248	O
+a	249	250	O
+way	251	254	O
+that	255	259	O
+the	260	263	O
+spectrum	264	272	O
+can	273	276	O
+be	277	279	O
+reconstructed	280	293	O
+.	293	294	O
+
+In	295	297	O
+BODEX	298	303	O
+,	303	304	O
+each	305	309	O
+capsule	310	317	B-Material
+contained	318	327	O
+a	328	329	O
+flux	330	334	B-Material
+monitor	335	342	I-Material
+set	343	346	I-Material
+on	347	349	O
+the	350	353	O
+‘	354	355	O
+back	355	359	O
+side’	360	365	O
+(	366	367	O
+as	367	369	O
+seen	370	374	O
+from	375	379	O
+the	380	383	O
+core	384	388	O
+)	388	389	O
+and	390	393	O
+one	394	397	O
+on	398	400	O
+the	401	404	O
+front	405	410	O
+side	411	415	O
+,	415	416	O
+positioned	417	427	O
+at	428	430	O
+the	431	434	O
+central	435	442	O
+height	443	449	O
+of	450	452	O
+the	453	456	O
+capsules	457	465	B-Material
+.	465	466	O
+
+Additionally	467	479	O
+,	479	480	O
+one	481	484	O
+detector	485	493	B-Material
+was	494	497	O
+placed	498	504	O
+at	505	507	O
+the	508	511	O
+top	512	515	O
+and	516	519	O
+one	520	523	O
+at	524	526	O
+the	527	530	O
+bottom	531	537	O
+,	537	538	O
+resulting	539	548	O
+in	549	551	O
+a	552	553	O
+total	554	559	O
+of	560	562	O
+6	563	564	O
+monitor	565	572	B-Material
+sets	573	577	O
+per	578	581	O
+leg	582	585	O
+.	585	586	O
+
+The	587	590	O
+fluence	591	598	O
+in	599	601	O
+each	602	606	O
+capsule	607	614	B-Material
+was	615	618	O
+determined	619	629	O
+as	630	632	O
+the	633	636	O
+average	637	644	O
+between	645	652	O
+the	653	656	O
+two	657	660	O
+flux	661	665	B-Material
+monitor	666	673	I-Material
+located	674	681	O
+in	682	684	O
+each	685	689	O
+capsule	690	697	B-Material
+.	697	698	O
+
+The	699	702	O
+sets	703	707	O
+have	708	712	O
+been	713	717	O
+analysed	718	726	O
+by	727	729	O
+determining	730	741	B-Task
+the	742	745	I-Task
+activation	746	756	I-Task
+of	757	759	I-Task
+each	760	764	I-Task
+wire	765	769	I-Task
+piece	770	775	I-Task
+,	775	776	O
+which	777	782	O
+indicates	783	792	O
+the	793	796	O
+fluence	797	804	B-Process
+of	805	807	O
+a	808	809	O
+specific	810	818	O
+energy	819	825	O
+range	826	831	O
+.	831	832	O
+
+Table	833	838	O
+3	839	840	O
+show	841	845	O
+the	846	849	O
+values	850	856	O
+of	857	859	O
+the	860	863	O
+fluences	864	872	B-Process
+for	873	876	O
+the	877	880	O
+two	881	884	O
+capsules	885	893	B-Material
+containing	894	904	O
+molybdenum	905	915	B-Material
+.	915	916	O
 
 
 -DOCSTART- (S0022311515301963)
 
-Following	NN	O	O
-fission	NN	O	B-Process
-,	NN	O	O
-noble	NN	O	B-Material
-gas	NN	O	I-Material
-atoms	NN	O	I-Material
-will	NN	O	O
-be	NN	O	O
-distributed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-fuel	NN	O	B-Process
-matrix	NN	O	I-Process
-initially	NN	O	O
-accommodated	NN	O	O
-at	NN	O	O
-point	NN	O	B-Process
-defects	NN	O	I-Process
-trap	NN	O	I-Process
-sites	NN	O	I-Process
-,	NN	O	O
-generally	NN	O	O
-thought	NN	O	O
-to	NN	O	O
-be	NN	O	O
-Schottky	NN	O	B-Process
-trivacancy	NN	O	I-Process
-defects	NN	O	I-Process
-
-[	NN	O	O
-4,5,31	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Diffusion	NN	O	B-Process
-to	NN	O	O
-either	NN	O	O
-bubbles	NN	O	B-Material
-or	NN	O	O
-grain	NN	O	B-Material
-boundaries	NN	O	I-Material
-is	NN	O	O
-then	NN	O	O
-facilitated	NN	O	O
-by	NN	O	O
-associating	NN	O	O
-a	NN	O	O
-further	NN	O	O
-uranium	NN	O	B-Material
-vacancy	NN	O	O
-defect	NN	O	O
-for	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Material
-atom	NN	O	I-Material
-to	NN	O	O
-‘	NN	O	B-Process
-hop’	NN	O	I-Process
-into	NN	O	I-Process
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-original	NN	O	O
-vacancy	NN	O	O
-then	NN	O	O
-able	NN	O	O
-to	NN	O	O
-loop	NN	O	B-Process
-around	NN	O	I-Process
-to	NN	O	O
-ensure	NN	O	O
-continued	NN	O	O
-diffusion	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-rate	NN	O	O
-determining	NN	O	O
-step	NN	O	O
-in	NN	O	O
-the	NN	O	O
-process	NN	O	O
-is	NN	O	O
-not	NN	O	O
-the	NN	O	O
-migration	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-Xe	NN	O	B-Material
-itself	NN	O	O
-but	NN	O	O
-rather	NN	O	O
-the	NN	O	O
-rearrangement	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-VU	NN	O	B-Process
-defect	NN	O	I-Process
-to	NN	O	O
-facilitate	NN	O	O
-net	NN	O	O
-Xe	NN	O	B-Process
-diffusion	NN	O	I-Process
-[	NN	O	O
-6–8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Activation	NN	O	B-Process
-energies	NN	O	O
-for	NN	O	O
-the	NN	O	O
-overall	NN	O	O
-process	NN	O	O
-depend	NN	O	O
-on	NN	O	O
-the	NN	O	O
-availability	NN	O	O
-of	NN	O	O
-the	NN	O	O
-defect	NN	O	B-Process
-trap	NN	O	I-Process
-sites	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-in	NN	O	O
-turn	NN	O	O
-depends	NN	O	O
-on	NN	O	O
-the	NN	O	O
-crystal	NN	O	B-Process
-stoichiometry	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-Xe	NN	O	B-Process
-diffusion	NN	O	I-Process
-in	NN	O	O
-UO2−x	NN	O	B-Material
-,	NN	O	O
-UO2	NN	O	B-Material
-and	NN	O	O
-UO2+x	NN	O	B-Material
-the	NN	O	O
-activation	NN	O	O
-energies	NN	O	O
-calculated	NN	O	O
-using	NN	O	O
-DFT	NN	O	B-Process
-are	NN	O	O
-7.04–12.92	NN	O	O
-eV	NN	O	O
-,	NN	O	O
-4.15–7.88	NN	O	O
-eV	NN	O	O
-and	NN	O	O
-1.38–4.07	NN	O	O
-eV	NN	O	O
-with	NN	O	O
-the	NN	O	O
-ranges	NN	O	O
-reflecting	NN	O	O
-the	NN	O	O
-way	NN	O	O
-the	NN	O	O
-calculations	NN	O	O
-were	NN	O	O
-performed	NN	O	O
-depending	NN	O	O
-on	NN	O	O
-the	NN	O	O
-charge	NN	O	B-Process
-states	NN	O	O
-of	NN	O	O
-the	NN	O	O
-defects	NN	O	O
-involved	NN	O	O
-and	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-a	NN	O	O
-Jahn	NN	O	O
-–	NN	O	O
-
-Teller	NN	O	O
-distortion	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Activation	NN	O	O
-energies	NN	O	O
-calculated	NN	O	O
-using	NN	O	O
-empirical	NN	O	B-Process
-pair	NN	O	I-Process
-potentials	NN	O	I-Process
-can	NN	O	O
-vary	NN	O	O
-strongly	NN	O	O
-depending	NN	O	O
-on	NN	O	O
-the	NN	O	O
-choice	NN	O	O
-of	NN	O	O
-potential	NN	O	B-Process
-.	NN	O	O
-
-Govers	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-examined	NN	O	O
-three	NN	O	O
-different	NN	O	O
-potentials	NN	O	B-Process
-for	NN	O	O
-UO2	NN	O	B-Material
-(	NN	O	O
-those	NN	O	O
-of	NN	O	O
-Basak	NN	O	O
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Jackson	NN	O	O
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-and	NN	O	O
-Morelon	NN	O	O
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-)	NN	O	O
-coupled	NN	O	O
-with	NN	O	O
-different	NN	O	O
-parameterisations	NN	O	O
-for	NN	O	O
-the	NN	O	O
-U	NN	O	O
-
-–	NN	O	O
-
-Xe	NN	O	O
-and	NN	O	O
-O	NN	O	O
-–	NN	O	O
-
-Xe	NN	O	O
-interactions	NN	O	O
-from	NN	O	O
-Geng	NN	O	O
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-and	NN	O	O
-Nicoll	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-and	NN	O	O
-recommend	NN	O	O
-values	NN	O	O
-of	NN	O	O
-6.5	NN	O	O
-eV	NN	O	O
-,	NN	O	O
-4.5	NN	O	O
-eV	NN	O	O
-and	NN	O	O
-2.4	NN	O	O
-eV	NN	O	O
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-for	NN	O	O
-the	NN	O	O
-different	NN	O	O
-stoichiometric	NN	O	O
-regimes	NN	O	O
-in	NN	O	O
-very	NN	O	O
-good	NN	O	O
-agreement	NN	O	O
-with	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-values	NN	O	O
-of	NN	O	O
-6.0	NN	O	O
-eV	NN	O	O
-,	NN	O	O
-3.9	NN	O	O
-eV	NN	O	O
-and	NN	O	O
-1.7	NN	O	O
-eV	NN	O	O
-respectively	NN	O	O
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Following	0	9	O
+fission	10	17	B-Process
+,	17	18	O
+noble	19	24	B-Material
+gas	25	28	I-Material
+atoms	29	34	I-Material
+will	35	39	O
+be	40	42	O
+distributed	43	54	O
+in	55	57	O
+the	58	61	O
+fuel	62	66	B-Process
+matrix	67	73	I-Process
+initially	74	83	O
+accommodated	84	96	O
+at	97	99	O
+point	100	105	B-Process
+defects	106	113	I-Process
+trap	114	118	I-Process
+sites	119	124	I-Process
+,	124	125	O
+generally	126	135	O
+thought	136	143	O
+to	144	146	O
+be	147	149	O
+Schottky	150	158	B-Process
+trivacancy	159	169	I-Process
+defects	170	177	I-Process
+
+[	178	179	O
+4,5,31	179	185	O
+]	185	186	O
+.	186	187	O
+
+Diffusion	188	197	B-Process
+to	198	200	O
+either	201	207	O
+bubbles	208	215	B-Material
+or	216	218	O
+grain	219	224	B-Material
+boundaries	225	235	I-Material
+is	236	238	O
+then	239	243	O
+facilitated	244	255	O
+by	256	258	O
+associating	259	270	O
+a	271	272	O
+further	273	280	O
+uranium	281	288	B-Material
+vacancy	289	296	O
+defect	297	303	O
+for	304	307	O
+the	308	311	O
+gas	312	315	B-Material
+atom	316	320	I-Material
+to	321	323	O
+‘	324	325	B-Process
+hop’	325	329	I-Process
+into	330	334	I-Process
+,	334	335	O
+with	336	340	O
+the	341	344	O
+original	345	353	O
+vacancy	354	361	O
+then	362	366	O
+able	367	371	O
+to	372	374	O
+loop	375	379	B-Process
+around	380	386	I-Process
+to	387	389	O
+ensure	390	396	O
+continued	397	406	O
+diffusion	407	416	B-Process
+.	416	417	O
+
+The	418	421	O
+rate	422	426	O
+determining	427	438	O
+step	439	443	O
+in	444	446	O
+the	447	450	O
+process	451	458	O
+is	459	461	O
+not	462	465	O
+the	466	469	O
+migration	470	479	B-Process
+of	480	482	O
+the	483	486	O
+Xe	487	489	B-Material
+itself	490	496	O
+but	497	500	O
+rather	501	507	O
+the	508	511	O
+rearrangement	512	525	B-Process
+of	526	528	O
+the	529	532	O
+VU	533	535	B-Process
+defect	536	542	I-Process
+to	543	545	O
+facilitate	546	556	O
+net	557	560	O
+Xe	561	563	B-Process
+diffusion	564	573	I-Process
+[	574	575	O
+6–8	575	578	O
+]	578	579	O
+.	579	580	O
+
+Activation	581	591	B-Process
+energies	592	600	O
+for	601	604	O
+the	605	608	O
+overall	609	616	O
+process	617	624	O
+depend	625	631	O
+on	632	634	O
+the	635	638	O
+availability	639	651	O
+of	652	654	O
+the	655	658	O
+defect	659	665	B-Process
+trap	666	670	I-Process
+sites	671	676	I-Process
+,	676	677	O
+which	678	683	O
+in	684	686	O
+turn	687	691	O
+depends	692	699	O
+on	700	702	O
+the	703	706	O
+crystal	707	714	B-Process
+stoichiometry	715	728	I-Process
+.	728	729	O
+
+For	730	733	O
+Xe	734	736	B-Process
+diffusion	737	746	I-Process
+in	747	749	O
+UO2−x	750	755	B-Material
+,	755	756	O
+UO2	757	760	B-Material
+and	761	764	O
+UO2+x	765	770	B-Material
+the	771	774	O
+activation	775	785	O
+energies	786	794	O
+calculated	795	805	O
+using	806	811	O
+DFT	812	815	B-Process
+are	816	819	O
+7.04–12.92	820	830	O
+eV	831	833	O
+,	833	834	O
+4.15–7.88	835	844	O
+eV	845	847	O
+and	848	851	O
+1.38–4.07	852	861	O
+eV	862	864	O
+with	865	869	O
+the	870	873	O
+ranges	874	880	O
+reflecting	881	891	O
+the	892	895	O
+way	896	899	O
+the	900	903	O
+calculations	904	916	O
+were	917	921	O
+performed	922	931	O
+depending	932	941	O
+on	942	944	O
+the	945	948	O
+charge	949	955	B-Process
+states	956	962	O
+of	963	965	O
+the	966	969	O
+defects	970	977	O
+involved	978	986	O
+and	987	990	O
+the	991	994	O
+presence	995	1003	O
+of	1004	1006	O
+a	1007	1008	O
+Jahn	1009	1013	O
+–	1013	1014	O
+
+Teller	1014	1020	O
+distortion	1021	1031	O
+[	1032	1033	O
+7	1033	1034	O
+]	1034	1035	O
+.	1035	1036	O
+
+Activation	1037	1047	O
+energies	1048	1056	O
+calculated	1057	1067	O
+using	1068	1073	O
+empirical	1074	1083	B-Process
+pair	1084	1088	I-Process
+potentials	1089	1099	I-Process
+can	1100	1103	O
+vary	1104	1108	O
+strongly	1109	1117	O
+depending	1118	1127	O
+on	1128	1130	O
+the	1131	1134	O
+choice	1135	1141	O
+of	1142	1144	O
+potential	1145	1154	B-Process
+.	1154	1155	O
+
+Govers	1156	1162	O
+et	1163	1165	O
+al	1166	1168	O
+.	1168	1169	O
+
+examined	1170	1178	O
+three	1179	1184	O
+different	1185	1194	O
+potentials	1195	1205	B-Process
+for	1206	1209	O
+UO2	1210	1213	B-Material
+(	1214	1215	O
+those	1215	1220	O
+of	1221	1223	O
+Basak	1224	1229	O
+[	1230	1231	O
+9	1231	1232	O
+]	1232	1233	O
+,	1233	1234	O
+Jackson	1235	1242	O
+[	1243	1244	O
+10	1244	1246	O
+]	1246	1247	O
+and	1248	1251	O
+Morelon	1252	1259	O
+[	1260	1261	O
+11	1261	1263	O
+]	1263	1264	O
+)	1264	1265	O
+coupled	1266	1273	O
+with	1274	1278	O
+different	1279	1288	O
+parameterisations	1289	1306	O
+for	1307	1310	O
+the	1311	1314	O
+U	1315	1316	O
+
+–	1316	1317	O
+
+Xe	1317	1319	O
+and	1320	1323	O
+O	1324	1325	O
+–	1325	1326	O
+
+Xe	1326	1328	O
+interactions	1329	1341	O
+from	1342	1346	O
+Geng	1347	1351	O
+[	1352	1353	O
+12	1353	1355	O
+]	1355	1356	O
+and	1357	1360	O
+Nicoll	1361	1367	O
+[	1368	1369	O
+13	1369	1371	O
+]	1371	1372	O
+and	1373	1376	O
+recommend	1377	1386	O
+values	1387	1393	O
+of	1394	1396	O
+6.5	1397	1400	O
+eV	1401	1403	O
+,	1403	1404	O
+4.5	1405	1408	O
+eV	1409	1411	O
+and	1412	1415	O
+2.4	1416	1419	O
+eV	1420	1422	O
+[	1423	1424	O
+6	1424	1425	O
+]	1425	1426	O
+for	1427	1430	O
+the	1431	1434	O
+different	1435	1444	O
+stoichiometric	1445	1459	O
+regimes	1460	1467	O
+in	1468	1470	O
+very	1471	1475	O
+good	1476	1480	O
+agreement	1481	1490	O
+with	1491	1495	O
+the	1496	1499	O
+experimental	1500	1512	O
+values	1513	1519	O
+of	1520	1522	O
+6.0	1523	1526	O
+eV	1527	1529	O
+,	1529	1530	O
+3.9	1531	1534	O
+eV	1535	1537	O
+and	1538	1541	O
+1.7	1542	1545	O
+eV	1546	1548	O
+respectively	1549	1561	O
+[	1562	1563	O
+14	1563	1565	O
+]	1565	1566	O
+.	1566	1567	O
 
 
 -DOCSTART- (S0022311515303640)
 
-Ferritic	NN	O	B-Material
-and	NN	O	I-Material
-martensitic	NN	O	I-Material
-steels	NN	O	I-Material
-are	NN	O	O
-candidate	NN	O	O
-materials	NN	O	O
-for	NN	O	O
-use	NN	O	O
-in	NN	O	O
-nuclear	NN	O	B-Material
-reactors	NN	O	I-Material
-[	NN	O	O
-1,2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-transmutation	NN	O	B-Material
--	NN	O	I-Material
-created	NN	O	I-Material
-inert	NN	O	I-Material
-gas	NN	O	I-Material
-,	NN	O	O
-especially	NN	O	O
-He	NN	O	B-Material
-,	NN	O	O
-plays	NN	O	O
-an	NN	O	O
-important	NN	O	O
-role	NN	O	O
-in	NN	O	O
-the	NN	O	O
-microstructural	NN	O	B-Task
-evolution	NN	O	I-Task
-of	NN	O	I-Task
-these	NN	O	I-Task
-steels	NN	O	I-Task
-under	NN	O	I-Task
-neutron	NN	O	I-Task
-irradiation	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-a	NN	O	O
-previous	NN	O	O
-paper	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-the	NN	O	O
-mechanisms	NN	O	B-Task
-by	NN	O	I-Task
-which	NN	O	I-Task
-He	NN	O	I-Task
-in	NN	O	I-Task
-a	NN	O	I-Task
-perfect	NN	O	I-Task
-body	NN	O	I-Task
--	NN	O	I-Task
-centred	NN	O	I-Task
--	NN	O	I-Task
-cubic	NN	O	I-Task
-(	NN	O	I-Task
-bcc	NN	O	I-Task
-)	NN	O	I-Task
-Fe	NN	O	I-Task
-lattice	NN	O	I-Task
-,	NN	O	I-Task
-can	NN	O	I-Task
-agglomerate	NN	O	I-Task
-into	NN	O	I-Task
-bubbles	NN	O	I-Task
-was	NN	O	O
-discussed	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-was	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-small	NN	O	O
-He	NN	O	B-Material
-interstitial	NN	O	I-Material
-clusters	NN	O	I-Material
-are	NN	O	O
-highly	NN	O	O
-mobile	NN	O	O
-but	NN	O	O
-become	NN	O	O
-effectively	NN	O	O
-pinned	NN	O	O
-with	NN	O	O
-the	NN	O	O
-emission	NN	O	O
-of	NN	O	O
-Fe	NN	O	B-Material
-interstitials	NN	O	I-Material
-when	NN	O	O
-the	NN	O	O
-clusters	NN	O	O
-contain	NN	O	O
-5	NN	O	O
-or	NN	O	O
-more	NN	O	O
-He	NN	O	B-Material
-atoms	NN	O	I-Material
-.	NN	O	O
-
-Small	NN	O	O
-bubbles	NN	O	B-Material
-up	NN	O	O
-to	NN	O	O
-around	NN	O	O
-1.5	NN	O	O
-nm	NN	O	O
-in	NN	O	O
-diameter	NN	O	O
-can	NN	O	O
-easily	NN	O	O
-form	NN	O	O
-at	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-from	NN	O	O
-such	NN	O	O
-seed	NN	O	O
-points	NN	O	O
-but	NN	O	O
-larger	NN	O	O
-bubbles	NN	O	B-Material
-are	NN	O	O
-more	NN	O	O
-difficult	NN	O	O
-to	NN	O	O
-form	NN	O	O
-by	NN	O	O
-diffusion	NN	O	B-Process
-alone	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-induced	NN	O	B-Process
-strain	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-bcc	NN	O	B-Material
-lattice	NN	O	I-Material
-which	NN	O	O
-increases	NN	O	O
-the	NN	O	O
-energy	NN	O	O
-barriers	NN	O	O
-for	NN	O	O
-diffusion	NN	O	B-Material
-towards	NN	O	O
-the	NN	O	O
-bubbles	NN	O	B-Material
-whilst	NN	O	O
-reducing	NN	O	O
-them	NN	O	O
-in	NN	O	O
-a	NN	O	O
-direction	NN	O	O
-away	NN	O	O
-from	NN	O	O
-the	NN	O	O
-bubbles	NN	O	B-Material
-.	NN	O	O
-
-Subsequent	NN	O	O
-bubble	NN	O	B-Process
-enlargement	NN	O	I-Process
-can	NN	O	O
-then	NN	O	O
-only	NN	O	O
-occur	NN	O	O
-either	NN	O	O
-through	NN	O	O
-increased	NN	O	O
-temperature	NN	O	O
-or	NN	O	O
-by	NN	O	O
-radiation	NN	O	B-Process
-induced	NN	O	I-Process
-mechanisms	NN	O	I-Process
-which	NN	O	O
-increase	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-vacancies	NN	O	O
-in	NN	O	O
-the	NN	O	O
-bubble	NN	O	B-Material
-and	NN	O	O
-reduce	NN	O	B-Task
-the	NN	O	I-Task
-lattice	NN	O	I-Task
-strain	NN	O	I-Task
-.	NN	O	O
-
-Emission	NN	O	B-Process
-of	NN	O	I-Process
-interracial	NN	O	I-Process
-loops	NN	O	I-Process
-from	NN	O	O
-such	NN	O	O
-a	NN	O	O
-bubble	NN	O	B-Material
-was	NN	O	O
-not	NN	O	O
-observed	NN	O	O
-in	NN	O	O
-molecular	NN	O	B-Process
-dynamics	NN	O	I-Process
-simulations	NN	O	I-Process
-.	NN	O	O
+Ferritic	0	8	B-Material
+and	9	12	I-Material
+martensitic	13	24	I-Material
+steels	25	31	I-Material
+are	32	35	O
+candidate	36	45	O
+materials	46	55	O
+for	56	59	O
+use	60	63	O
+in	64	66	O
+nuclear	67	74	B-Material
+reactors	75	83	I-Material
+[	84	85	O
+1,2	85	88	O
+]	88	89	O
+.	89	90	O
+
+The	91	94	O
+transmutation	95	108	B-Material
+-	108	109	I-Material
+created	109	116	I-Material
+inert	117	122	I-Material
+gas	123	126	I-Material
+,	126	127	O
+especially	128	138	O
+He	139	141	B-Material
+,	141	142	O
+plays	143	148	O
+an	149	151	O
+important	152	161	O
+role	162	166	O
+in	167	169	O
+the	170	173	O
+microstructural	174	189	B-Task
+evolution	190	199	I-Task
+of	200	202	I-Task
+these	203	208	I-Task
+steels	209	215	I-Task
+under	216	221	I-Task
+neutron	222	229	I-Task
+irradiation	230	241	I-Task
+.	241	242	O
+
+In	243	245	O
+a	246	247	O
+previous	248	256	O
+paper	257	262	O
+[	263	264	O
+3	264	265	O
+]	265	266	O
+the	267	270	O
+mechanisms	271	281	B-Task
+by	282	284	I-Task
+which	285	290	I-Task
+He	291	293	I-Task
+in	294	296	I-Task
+a	297	298	I-Task
+perfect	299	306	I-Task
+body	307	311	I-Task
+-	311	312	I-Task
+centred	312	319	I-Task
+-	319	320	I-Task
+cubic	320	325	I-Task
+(	326	327	I-Task
+bcc	327	330	I-Task
+)	330	331	I-Task
+Fe	332	334	I-Task
+lattice	335	342	I-Task
+,	342	343	I-Task
+can	344	347	I-Task
+agglomerate	348	359	I-Task
+into	360	364	I-Task
+bubbles	365	372	I-Task
+was	373	376	O
+discussed	377	386	O
+.	386	387	O
+
+It	388	390	O
+was	391	394	O
+shown	395	400	O
+that	401	405	O
+small	406	411	O
+He	412	414	B-Material
+interstitial	415	427	I-Material
+clusters	428	436	I-Material
+are	437	440	O
+highly	441	447	O
+mobile	448	454	O
+but	455	458	O
+become	459	465	O
+effectively	466	477	O
+pinned	478	484	O
+with	485	489	O
+the	490	493	O
+emission	494	502	O
+of	503	505	O
+Fe	506	508	B-Material
+interstitials	509	522	I-Material
+when	523	527	O
+the	528	531	O
+clusters	532	540	O
+contain	541	548	O
+5	549	550	O
+or	551	553	O
+more	554	558	O
+He	559	561	B-Material
+atoms	562	567	I-Material
+.	567	568	O
+
+Small	569	574	O
+bubbles	575	582	B-Material
+up	583	585	O
+to	586	588	O
+around	589	595	O
+1.5	596	599	O
+nm	600	602	O
+in	603	605	O
+diameter	606	614	O
+can	615	618	O
+easily	619	625	O
+form	626	630	O
+at	631	633	O
+room	634	638	O
+temperature	639	650	O
+from	651	655	O
+such	656	660	O
+seed	661	665	O
+points	666	672	O
+but	673	676	O
+larger	677	683	O
+bubbles	684	691	B-Material
+are	692	695	O
+more	696	700	O
+difficult	701	710	O
+to	711	713	O
+form	714	718	O
+by	719	721	O
+diffusion	722	731	B-Process
+alone	732	737	O
+due	738	741	O
+to	742	744	O
+the	745	748	O
+induced	749	756	B-Process
+strain	757	763	I-Process
+in	764	766	O
+the	767	770	O
+bcc	771	774	B-Material
+lattice	775	782	I-Material
+which	783	788	O
+increases	789	798	O
+the	799	802	O
+energy	803	809	O
+barriers	810	818	O
+for	819	822	O
+diffusion	823	832	B-Material
+towards	833	840	O
+the	841	844	O
+bubbles	845	852	B-Material
+whilst	853	859	O
+reducing	860	868	O
+them	869	873	O
+in	874	876	O
+a	877	878	O
+direction	879	888	O
+away	889	893	O
+from	894	898	O
+the	899	902	O
+bubbles	903	910	B-Material
+.	910	911	O
+
+Subsequent	912	922	O
+bubble	923	929	B-Process
+enlargement	930	941	I-Process
+can	942	945	O
+then	946	950	O
+only	951	955	O
+occur	956	961	O
+either	962	968	O
+through	969	976	O
+increased	977	986	O
+temperature	987	998	O
+or	999	1001	O
+by	1002	1004	O
+radiation	1005	1014	B-Process
+induced	1015	1022	I-Process
+mechanisms	1023	1033	I-Process
+which	1034	1039	O
+increase	1040	1048	O
+the	1049	1052	O
+number	1053	1059	O
+of	1060	1062	O
+vacancies	1063	1072	O
+in	1073	1075	O
+the	1076	1079	O
+bubble	1080	1086	B-Material
+and	1087	1090	O
+reduce	1091	1097	B-Task
+the	1098	1101	I-Task
+lattice	1102	1109	I-Task
+strain	1110	1116	I-Task
+.	1116	1117	O
+
+Emission	1118	1126	B-Process
+of	1127	1129	I-Process
+interracial	1130	1141	I-Process
+loops	1142	1147	I-Process
+from	1148	1152	O
+such	1153	1157	O
+a	1158	1159	O
+bubble	1160	1166	B-Material
+was	1167	1170	O
+not	1171	1174	O
+observed	1175	1183	O
+in	1184	1186	O
+molecular	1187	1196	B-Process
+dynamics	1197	1205	I-Process
+simulations	1206	1217	I-Process
+.	1217	1218	O
 
 
 -DOCSTART- (S0029549314001551)
 
-An	NN	O	O
-increase	NN	O	O
-of	NN	O	O
-neutron	NN	O	B-Process
-leakage	NN	O	I-Process
-from	NN	O	O
-the	NN	O	O
-core	NN	O	B-Material
-region	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-achieved	NN	O	O
-through	NN	O	O
-modifications	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-core	NN	O	I-Process
-geometry	NN	O	I-Process
-(	NN	O	O
-usually	NN	O	O
-by	NN	O	O
-adopting	NN	O	O
-a	NN	O	O
-pan	NN	O	B-Process
--	NN	O	I-Process
-cake	NN	O	I-Process
-geometry	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-active	NN	O	I-Process
-core	NN	O	I-Process
-region	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-expense	NN	O	O
-of	NN	O	O
-the	NN	O	O
-general	NN	O	O
-neutron	NN	O	B-Material
-economy	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Extensive	NN	O	O
-studies	NN	O	O
-determined	NN	O	O
-a	NN	O	O
-set	NN	O	O
-of	NN	O	O
-core	NN	O	B-Task
-design	NN	O	I-Task
-modifications	NN	O	I-Task
-that	NN	O	I-Task
-optimised	NN	O	I-Task
-the	NN	O	I-Task
-total	NN	O	I-Task
-sodium	NN	O	I-Task
-void	NN	O	I-Task
-reactivity	NN	O	I-Task
-(	NN	O	O
-becoming	NN	O	O
-less	NN	O	O
-positive	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Among	NN	O	O
-the	NN	O	O
-most	NN	O	O
-efficient	NN	O	O
-design	NN	O	B-Process
-solutions	NN	O	I-Process
-identified	NN	O	O
-is	NN	O	O
-an	NN	O	O
-enlarged	NN	O	B-Process
-sodium	NN	O	I-Process
-plenum	NN	O	I-Process
-above	NN	O	O
-the	NN	O	O
-active	NN	O	O
-core	NN	O	B-Material
-region	NN	O	O
-in	NN	O	O
-combination	NN	O	O
-with	NN	O	O
-an	NN	O	O
-absorber	NN	O	B-Process
-layer	NN	O	I-Process
-above	NN	O	O
-the	NN	O	O
-sodium	NN	O	B-Material
-plenum	NN	O	I-Material
-(	NN	O	O
-to	NN	O	O
-reduce	NN	O	B-Task
-neutron	NN	O	I-Task
-backscattering	NN	O	I-Task
-from	NN	O	I-Task
-the	NN	O	I-Task
-reflector	NN	O	I-Task
-region	NN	O	I-Task
-above	NN	O	I-Task
-the	NN	O	I-Task
-plenum	NN	O	I-Task
-)	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-19	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-combined	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-different	NN	O	O
-upper	NN	O	B-Material
-plenum	NN	O	I-Material
-thicknesses	NN	O	O
-of	NN	O	O
-the	NN	O	O
-absorber	NN	O	B-Material
-and	NN	O	I-Material
-boron	NN	O	I-Material
-layers	NN	O	I-Material
-.	NN	O	O
-
-It	NN	O	O
-can	NN	O	O
-be	NN	O	O
-observed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-sequential	NN	O	O
-increase	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-layer	NN	O	I-Process
-'s	NN	O	I-Process
-thickness	NN	O	I-Process
-converge	NN	O	O
-to	NN	O	O
-an	NN	O	O
-asymptotic	NN	O	O
-value	NN	O	O
-of	NN	O	O
-reactivity	NN	O	B-Process
-reduction	NN	O	I-Process
-slightly	NN	O	O
-over	NN	O	O
-800pcm	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-pair	NN	O	O
-of	NN	O	O
-values	NN	O	O
-selected	NN	O	O
-was	NN	O	O
-60	NN	O	O
-cm	NN	O	O
-for	NN	O	O
-the	NN	O	O
-sodium	NN	O	B-Material
-plenum	NN	O	I-Material
-and	NN	O	O
-30	NN	O	O
-cm	NN	O	O
-for	NN	O	O
-the	NN	O	O
-boron	NN	O	B-Material
-layer	NN	O	I-Material
-.	NN	O	O
-
-These	NN	O	O
-modifications	NN	O	O
-implied	NN	O	O
-a	NN	O	O
-considerable	NN	O	O
-increase	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-sub	NN	O	I-Process
--	NN	O	I-Process
-assembly	NN	O	I-Process
-length	NN	O	I-Process
-that	NN	O	O
-was	NN	O	O
-compensated	NN	O	O
-by	NN	O	O
-reducing	NN	O	B-Task
-the	NN	O	I-Task
-upper	NN	O	I-Task
-axial	NN	O	I-Task
-reflector	NN	O	I-Task
-width	NN	O	I-Task
-(	NN	O	O
-Sun	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-.	NN	O	O
+An	0	2	O
+increase	3	11	O
+of	12	14	O
+neutron	15	22	B-Process
+leakage	23	30	I-Process
+from	31	35	O
+the	36	39	O
+core	40	44	B-Material
+region	45	51	I-Material
+can	52	55	O
+be	56	58	O
+achieved	59	67	O
+through	68	75	O
+modifications	76	89	B-Process
+in	90	92	I-Process
+the	93	96	I-Process
+core	97	101	I-Process
+geometry	102	110	I-Process
+(	111	112	O
+usually	112	119	O
+by	120	122	O
+adopting	123	131	O
+a	132	133	O
+pan	134	137	B-Process
+-	137	138	I-Process
+cake	138	142	I-Process
+geometry	143	151	I-Process
+of	152	154	I-Process
+the	155	158	I-Process
+active	159	165	I-Process
+core	166	170	I-Process
+region	171	177	I-Process
+at	178	180	O
+the	181	184	O
+expense	185	192	O
+of	193	195	O
+the	196	199	O
+general	200	207	O
+neutron	208	215	B-Material
+economy	216	223	O
+)	223	224	O
+.	224	225	O
+
+Extensive	226	235	O
+studies	236	243	O
+determined	244	254	O
+a	255	256	O
+set	257	260	O
+of	261	263	O
+core	264	268	B-Task
+design	269	275	I-Task
+modifications	276	289	I-Task
+that	290	294	I-Task
+optimised	295	304	I-Task
+the	305	308	I-Task
+total	309	314	I-Task
+sodium	315	321	I-Task
+void	322	326	I-Task
+reactivity	327	337	I-Task
+(	338	339	O
+becoming	339	347	O
+less	348	352	O
+positive	353	361	O
+)	361	362	O
+.	362	363	O
+
+Among	364	369	O
+the	370	373	O
+most	374	378	O
+efficient	379	388	O
+design	389	395	B-Process
+solutions	396	405	I-Process
+identified	406	416	O
+is	417	419	O
+an	420	422	O
+enlarged	423	431	B-Process
+sodium	432	438	I-Process
+plenum	439	445	I-Process
+above	446	451	O
+the	452	455	O
+active	456	462	O
+core	463	467	B-Material
+region	468	474	O
+in	475	477	O
+combination	478	489	O
+with	490	494	O
+an	495	497	O
+absorber	498	506	B-Process
+layer	507	512	I-Process
+above	513	518	O
+the	519	522	O
+sodium	523	529	B-Material
+plenum	530	536	I-Material
+(	537	538	O
+to	538	540	O
+reduce	541	547	B-Task
+neutron	548	555	I-Task
+backscattering	556	570	I-Task
+from	571	575	I-Task
+the	576	579	I-Task
+reflector	580	589	I-Task
+region	590	596	I-Task
+above	597	602	I-Task
+the	603	606	I-Task
+plenum	607	613	I-Task
+)	613	614	O
+.	614	615	O
+
+Fig	616	619	O
+.	619	620	O
+
+19	621	623	O
+shows	624	629	O
+the	630	633	O
+combined	634	642	O
+effect	643	649	O
+of	650	652	O
+different	653	662	O
+upper	663	668	B-Material
+plenum	669	675	I-Material
+thicknesses	676	687	O
+of	688	690	O
+the	691	694	O
+absorber	695	703	B-Material
+and	704	707	I-Material
+boron	708	713	I-Material
+layers	714	720	I-Material
+.	720	721	O
+
+It	722	724	O
+can	725	728	O
+be	729	731	O
+observed	732	740	O
+that	741	745	O
+the	746	749	O
+sequential	750	760	O
+increase	761	769	B-Process
+of	770	772	I-Process
+the	773	776	I-Process
+layer	777	782	I-Process
+'s	782	784	I-Process
+thickness	785	794	I-Process
+converge	795	803	O
+to	804	806	O
+an	807	809	O
+asymptotic	810	820	O
+value	821	826	O
+of	827	829	O
+reactivity	830	840	B-Process
+reduction	841	850	I-Process
+slightly	851	859	O
+over	860	864	O
+800pcm	865	871	O
+.	871	872	O
+
+The	873	876	O
+pair	877	881	O
+of	882	884	O
+values	885	891	O
+selected	892	900	O
+was	901	904	O
+60	905	907	O
+cm	907	909	O
+for	910	913	O
+the	914	917	O
+sodium	918	924	B-Material
+plenum	925	931	I-Material
+and	932	935	O
+30	936	938	O
+cm	938	940	O
+for	941	944	O
+the	945	948	O
+boron	949	954	B-Material
+layer	955	960	I-Material
+.	960	961	O
+
+These	962	967	O
+modifications	968	981	O
+implied	982	989	O
+a	990	991	O
+considerable	992	1004	O
+increase	1005	1013	B-Process
+in	1014	1016	I-Process
+the	1017	1020	I-Process
+sub	1021	1024	I-Process
+-	1024	1025	I-Process
+assembly	1025	1033	I-Process
+length	1034	1040	I-Process
+that	1041	1045	O
+was	1046	1049	O
+compensated	1050	1061	O
+by	1062	1064	O
+reducing	1065	1073	B-Task
+the	1074	1077	I-Task
+upper	1078	1083	I-Task
+axial	1084	1089	I-Task
+reflector	1090	1099	I-Task
+width	1100	1105	I-Task
+(	1106	1107	O
+Sun	1107	1110	O
+et	1111	1113	O
+al	1114	1116	O
+.	1116	1117	O
+,	1117	1118	O
+2013	1119	1123	O
+)	1123	1124	O
+.	1124	1125	O
 
 
 -DOCSTART- (S0029549314002970)
 
-The	NN	O	O
-design	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-temperature	NN	O	O
-reached	NN	O	O
-in	NN	O	O
-the	NN	O	O
-sample	NN	O	B-Material
-holders	NN	O	I-Material
-,	NN	O	O
-guarantees	NN	O	O
-that	NN	O	O
-the	NN	O	O
-Na	NN	O	B-Material
-remains	NN	O	O
-liquid	NN	O	O
-during	NN	O	O
-operation	NN	O	O
-to	NN	O	O
-improve	NN	O	B-Task
-the	NN	O	I-Task
-heating	NN	O	I-Task
-transfer	NN	O	I-Task
-and	NN	O	O
-avoiding	NN	O	O
-solid	NN	O	B-Process
-formation	NN	O	I-Process
-(	NN	O	O
-too	NN	O	O
-cold	NN	O	O
-working	NN	O	O
-temperature	NN	O	O
-)	NN	O	O
-or	NN	O	O
-sodium	NN	O	B-Process
-boiling	NN	O	I-Process
-(	NN	O	O
-too	NN	O	O
-hot	NN	O	O
-working	NN	O	O
-temperature	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-temperature	NN	O	O
-above	NN	O	O
-and	NN	O	O
-just	NN	O	O
-below	NN	O	O
-the	NN	O	O
-Na	NN	O	B-Material
-surface	NN	O	I-Material
-will	NN	O	O
-be	NN	O	O
-monitored	NN	O	B-Process
-by	NN	O	I-Process
-six	NN	O	I-Process
-dedicated	NN	O	I-Process
-thermocouples	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-prevent	NN	O	O
-oxidation	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-Na	NN	O	B-Material
-,	NN	O	O
-the	NN	O	O
-plenum	NN	O	O
-of	NN	O	O
-the	NN	O	O
-1st	NN	O	O
-containment	NN	O	O
-is	NN	O	O
-filled	NN	O	O
-with	NN	O	O
-high	NN	O	B-Material
--	NN	O	I-Material
-purity	NN	O	I-Material
-He	NN	O	I-Material
-at	NN	O	O
-0.1MPa	NN	O	O
-,	NN	O	O
-sealed	NN	O	O
-after	NN	O	O
-final	NN	O	O
-assembly	NN	O	O
-and	NN	O	O
-kept	NN	O	O
-closed	NN	O	O
-during	NN	O	O
-in	NN	O	O
--	NN	O	O
-pile	NN	O	O
-operation	NN	O	O
-(	NN	O	O
-no	NN	O	O
-gas	NN	O	B-Process
-circulation	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-1st	NN	O	O
-containment	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-heat	NN	O	O
-generated	NN	O	O
-by	NN	O	O
-fission	NN	O	B-Process
-and	NN	O	I-Process
-gamma	NN	O	I-Process
-absorption	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-materials	NN	O	O
-will	NN	O	O
-be	NN	O	O
-radially	NN	O	O
-dissipated	NN	O	O
-through	NN	O	O
-the	NN	O	O
-Na	NN	O	B-Material
-bath	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-structural	NN	O	O
-materials	NN	O	O
-and	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Material
-gaps	NN	O	O
-by	NN	O	O
-conduction	NN	O	O
-and	NN	O	O
-radiation	NN	O	O
-to	NN	O	O
-the	NN	O	O
-downstream	NN	O	O
-primary	NN	O	O
-coolant	NN	O	O
-of	NN	O	O
-the	NN	O	O
-TRIO	NN	O	B-Material
-wet	NN	O	I-Material
-channel	NN	O	I-Material
-.	NN	O	O
+The	0	3	O
+design	4	10	O
+,	10	11	O
+and	12	15	O
+the	16	19	O
+temperature	20	31	O
+reached	32	39	O
+in	40	42	O
+the	43	46	O
+sample	47	53	B-Material
+holders	54	61	I-Material
+,	61	62	O
+guarantees	63	73	O
+that	74	78	O
+the	79	82	O
+Na	83	85	B-Material
+remains	86	93	O
+liquid	94	100	O
+during	101	107	O
+operation	108	117	O
+to	118	120	O
+improve	121	128	B-Task
+the	129	132	I-Task
+heating	133	140	I-Task
+transfer	141	149	I-Task
+and	150	153	O
+avoiding	154	162	O
+solid	163	168	B-Process
+formation	169	178	I-Process
+(	179	180	O
+too	180	183	O
+cold	184	188	O
+working	189	196	O
+temperature	197	208	O
+)	208	209	O
+or	210	212	O
+sodium	213	219	B-Process
+boiling	220	227	I-Process
+(	228	229	O
+too	229	232	O
+hot	233	236	O
+working	237	244	O
+temperature	245	256	O
+)	256	257	O
+.	257	258	O
+
+The	259	262	O
+temperature	263	274	O
+above	275	280	O
+and	281	284	O
+just	285	289	O
+below	290	295	O
+the	296	299	O
+Na	300	302	B-Material
+surface	303	310	I-Material
+will	311	315	O
+be	316	318	O
+monitored	319	328	B-Process
+by	329	331	I-Process
+six	332	335	I-Process
+dedicated	336	345	I-Process
+thermocouples	346	359	I-Process
+.	359	360	O
+
+In	361	363	O
+order	364	369	O
+to	370	372	O
+prevent	373	380	O
+oxidation	381	390	B-Process
+of	391	393	O
+the	394	397	O
+Na	398	400	B-Material
+,	400	401	O
+the	402	405	O
+plenum	406	412	O
+of	413	415	O
+the	416	419	O
+1st	420	423	O
+containment	424	435	O
+is	436	438	O
+filled	439	445	O
+with	446	450	O
+high	451	455	B-Material
+-	455	456	I-Material
+purity	456	462	I-Material
+He	463	465	I-Material
+at	466	468	O
+0.1MPa	469	475	O
+,	475	476	O
+sealed	477	483	O
+after	484	489	O
+final	490	495	O
+assembly	496	504	O
+and	505	508	O
+kept	509	513	O
+closed	514	520	O
+during	521	527	O
+in	528	530	O
+-	530	531	O
+pile	531	535	O
+operation	536	545	O
+(	546	547	O
+no	547	549	O
+gas	550	553	B-Process
+circulation	554	565	I-Process
+in	566	568	O
+the	569	572	O
+1st	573	576	O
+containment	577	588	O
+)	588	589	O
+.	589	590	O
+
+The	591	594	O
+heat	595	599	O
+generated	600	609	O
+by	610	612	O
+fission	613	620	B-Process
+and	621	624	I-Process
+gamma	625	630	I-Process
+absorption	631	641	I-Process
+in	642	644	O
+the	645	648	O
+materials	649	658	O
+will	659	663	O
+be	664	666	O
+radially	667	675	O
+dissipated	676	686	O
+through	687	694	O
+the	695	698	O
+Na	699	701	B-Material
+bath	702	706	I-Material
+,	706	707	O
+the	708	711	O
+structural	712	722	O
+materials	723	732	O
+and	733	736	O
+the	737	740	O
+gas	741	744	B-Material
+gaps	745	749	O
+by	750	752	O
+conduction	753	763	O
+and	764	767	O
+radiation	768	777	O
+to	778	780	O
+the	781	784	O
+downstream	785	795	O
+primary	796	803	O
+coolant	804	811	O
+of	812	814	O
+the	815	818	O
+TRIO	819	823	B-Material
+wet	824	827	I-Material
+channel	828	835	I-Material
+.	835	836	O
 
 
 -DOCSTART- (S0031920113000708)
 
-Geomagnetic	NN	O	B-Process
-jerks	NN	O	I-Process
-are	NN	O	O
-conspicuous	NN	O	O
-yet	NN	O	O
-poorly	NN	O	O
-understood	NN	O	O
-phenomena	NN	O	O
-of	NN	O	O
-Earth	NN	O	B-Material
-’s	NN	O	I-Material
-magnetic	NN	O	I-Material
-field	NN	O	I-Material
-,	NN	O	O
-motivating	NN	O	O
-investigations	NN	O	O
-of	NN	O	O
-their	NN	O	O
-morphology	NN	O	O
-and	NN	O	O
-the	NN	O	O
-theory	NN	O	O
-behind	NN	O	O
-their	NN	O	O
-origins	NN	O	O
-.	NN	O	O
-
-Jerks	NN	O	B-Process
-are	NN	O	O
-most	NN	O	O
-commonly	NN	O	O
-defined	NN	O	O
-by	NN	O	O
-their	NN	O	O
-observed	NN	O	O
-form	NN	O	O
-at	NN	O	O
-a	NN	O	O
-single	NN	O	O
-observatory	NN	O	O
-as	NN	O	O
-‘	NN	O	O
-V’	NN	O	O
-shapes	NN	O	O
-in	NN	O	O
-a	NN	O	O
-single	NN	O	O
-component	NN	O	O
-of	NN	O	O
-the	NN	O	O
-geomagnetic	NN	O	B-Process
-secular	NN	O	I-Process
-variation	NN	O	I-Process
-(	NN	O	O
-SV	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-the	NN	O	O
-first	NN	O	O
-time	NN	O	O
-derivative	NN	O	O
-of	NN	O	O
-the	NN	O	O
-main	NN	O	B-Material
-magnetic	NN	O	I-Material
-field	NN	O	I-Material
-(	NN	O	O
-MF	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-times	NN	O	O
-of	NN	O	O
-the	NN	O	O
-gradient	NN	O	B-Process
-changes	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-separate	NN	O	O
-linear	NN	O	O
-trends	NN	O	O
-of	NN	O	O
-several	NN	O	O
-years	NN	O	O
-,	NN	O	O
-have	NN	O	O
-associated	NN	O	O
-step	NN	O	O
-changes	NN	O	O
-in	NN	O	O
-the	NN	O	O
-second	NN	O	O
-time	NN	O	O
-derivative	NN	O	O
-of	NN	O	O
-the	NN	O	O
-MF	NN	O	B-Material
-(	NN	O	O
-secular	NN	O	B-Process
-acceleration	NN	O	I-Process
-(	NN	O	O
-SA	NN	O	B-Process
-)	NN	O	O
-)	NN	O	O
-and	NN	O	O
-impulses	NN	O	O
-in	NN	O	O
-the	NN	O	O
-third	NN	O	O
-time	NN	O	O
-derivative	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-‘	NN	O	O
-V’	NN	O	O
-shape	NN	O	O
-SV	NN	O	O
-definition	NN	O	O
-of	NN	O	O
-jerks	NN	O	B-Process
-includes	NN	O	O
-an	NN	O	O
-implicit	NN	O	O
-expectation	NN	O	O
-of	NN	O	O
-a	NN	O	O
-‘	NN	O	B-Process
-large’	NN	O	I-Process
-magnitude	NN	O	I-Process
-step	NN	O	I-Process
-change	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-gradient	NN	O	O
-without	NN	O	O
-definition	NN	O	O
-of	NN	O	O
-this	NN	O	O
-scale	NN	O	O
-or	NN	O	O
-its	NN	O	O
-threshold	NN	O	O
-value	NN	O	O
-other	NN	O	O
-than	NN	O	O
-the	NN	O	O
-basic	NN	O	O
-need	NN	O	O
-for	NN	O	O
-it	NN	O	O
-to	NN	O	O
-be	NN	O	O
-observable	NN	O	O
-in	NN	O	O
-the	NN	O	O
-data	NN	O	O
-above	NN	O	O
-the	NN	O	O
-highly	NN	O	O
-variable	NN	O	O
-background	NN	O	O
-noise	NN	O	O
-.	NN	O	O
-
-Jerks	NN	O	B-Process
-can	NN	O	O
-be	NN	O	O
-described	NN	O	O
-by	NN	O	O
-their	NN	O	O
-amplitude	NN	O	O
-,	NN	O	O
-that	NN	O	O
-is	NN	O	O
-,	NN	O	O
-the	NN	O	O
-difference	NN	O	O
-in	NN	O	O
-the	NN	O	O
-gradients	NN	O	O
-of	NN	O	O
-the	NN	O	O
-two	NN	O	O
-linear	NN	O	O
-SV	NN	O	B-Process
-segments	NN	O	I-Process
-about	NN	O	O
-a	NN	O	O
-jerk	NN	O	B-Process
-,	NN	O	O
-A	NN	O	O
-=	NN	O	O
-a2-a1	NN	O	O
-,	NN	O	O
-where	NN	O	O
-a2	NN	O	O
-is	NN	O	O
-the	NN	O	O
-gradient	NN	O	O
-after	NN	O	O
-the	NN	O	O
-jerk	NN	O	B-Process
-and	NN	O	O
-a1	NN	O	O
-is	NN	O	O
-the	NN	O	O
-gradient	NN	O	O
-before	NN	O	O
-the	NN	O	O
-jerk	NN	O	B-Process
-.	NN	O	O
-
-This	NN	O	O
-measure	NN	O	O
-is	NN	O	O
-essentially	NN	O	O
-the	NN	O	O
-best	NN	O	O
-fit	NN	O	O
-SA	NN	O	B-Process
-change	NN	O	I-Process
-across	NN	O	O
-a	NN	O	O
-jerk	NN	O	B-Process
-.	NN	O	O
-
-Jerk	NN	O	B-Process
-amplitude	NN	O	I-Process
-is	NN	O	O
-thus	NN	O	O
-positive	NN	O	O
-for	NN	O	O
-a	NN	O	O
-positive	NN	O	O
-step	NN	O	O
-in	NN	O	O
-SA	NN	O	B-Process
-and	NN	O	O
-negative	NN	O	O
-for	NN	O	O
-a	NN	O	O
-negative	NN	O	O
-step	NN	O	O
-.	NN	O	O
-
-Here	NN	O	O
-we	NN	O	O
-do	NN	O	O
-not	NN	O	O
-consider	NN	O	O
-spatial	NN	O	O
-extent	NN	O	O
-in	NN	O	O
-our	NN	O	O
-definition	NN	O	O
-and	NN	O	O
-refer	NN	O	O
-to	NN	O	O
-individual	NN	O	O
-features	NN	O	O
-in	NN	O	O
-one	NN	O	O
-field	NN	O	O
-component	NN	O	O
-of	NN	O	O
-a	NN	O	O
-given	NN	O	O
-observatory	NN	O	O
-time	NN	O	O
-series	NN	O	O
-as	NN	O	O
-a	NN	O	O
-single	NN	O	O
-jerk	NN	O	B-Process
-.	NN	O	O
+Geomagnetic	0	11	B-Process
+jerks	12	17	I-Process
+are	18	21	O
+conspicuous	22	33	O
+yet	34	37	O
+poorly	38	44	O
+understood	45	55	O
+phenomena	56	65	O
+of	66	68	O
+Earth	69	74	B-Material
+’s	74	76	I-Material
+magnetic	77	85	I-Material
+field	86	91	I-Material
+,	91	92	O
+motivating	93	103	O
+investigations	104	118	O
+of	119	121	O
+their	122	127	O
+morphology	128	138	O
+and	139	142	O
+the	143	146	O
+theory	147	153	O
+behind	154	160	O
+their	161	166	O
+origins	167	174	O
+.	174	175	O
+
+Jerks	176	181	B-Process
+are	182	185	O
+most	186	190	O
+commonly	191	199	O
+defined	200	207	O
+by	208	210	O
+their	211	216	O
+observed	217	225	O
+form	226	230	O
+at	231	233	O
+a	234	235	O
+single	236	242	O
+observatory	243	254	O
+as	255	257	O
+‘	258	259	O
+V’	259	261	O
+shapes	262	268	O
+in	269	271	O
+a	272	273	O
+single	274	280	O
+component	281	290	O
+of	291	293	O
+the	294	297	O
+geomagnetic	298	309	B-Process
+secular	310	317	I-Process
+variation	318	327	I-Process
+(	328	329	O
+SV	329	331	B-Process
+)	331	332	O
+,	332	333	O
+the	334	337	O
+first	338	343	O
+time	344	348	O
+derivative	349	359	O
+of	360	362	O
+the	363	366	O
+main	367	371	B-Material
+magnetic	372	380	I-Material
+field	381	386	I-Material
+(	387	388	O
+MF	388	390	B-Material
+)	390	391	O
+.	391	392	O
+
+The	393	396	O
+times	397	402	O
+of	403	405	O
+the	406	409	O
+gradient	410	418	B-Process
+changes	419	426	I-Process
+,	426	427	O
+which	428	433	O
+separate	434	442	O
+linear	443	449	O
+trends	450	456	O
+of	457	459	O
+several	460	467	O
+years	468	473	O
+,	473	474	O
+have	475	479	O
+associated	480	490	O
+step	491	495	O
+changes	496	503	O
+in	504	506	O
+the	507	510	O
+second	511	517	O
+time	518	522	O
+derivative	523	533	O
+of	534	536	O
+the	537	540	O
+MF	541	543	B-Material
+(	544	545	O
+secular	545	552	B-Process
+acceleration	553	565	I-Process
+(	566	567	O
+SA	567	569	B-Process
+)	569	570	O
+)	570	571	O
+and	572	575	O
+impulses	576	584	O
+in	585	587	O
+the	588	591	O
+third	592	597	O
+time	598	602	O
+derivative	603	613	O
+.	613	614	O
+
+The	615	618	O
+‘	619	620	O
+V’	620	622	O
+shape	623	628	O
+SV	629	631	O
+definition	632	642	O
+of	643	645	O
+jerks	646	651	B-Process
+includes	652	660	O
+an	661	663	O
+implicit	664	672	O
+expectation	673	684	O
+of	685	687	O
+a	688	689	O
+‘	690	691	B-Process
+large’	691	697	I-Process
+magnitude	698	707	I-Process
+step	708	712	I-Process
+change	713	719	I-Process
+in	720	722	O
+the	723	726	O
+gradient	727	735	O
+without	736	743	O
+definition	744	754	O
+of	755	757	O
+this	758	762	O
+scale	763	768	O
+or	769	771	O
+its	772	775	O
+threshold	776	785	O
+value	786	791	O
+other	792	797	O
+than	798	802	O
+the	803	806	O
+basic	807	812	O
+need	813	817	O
+for	818	821	O
+it	822	824	O
+to	825	827	O
+be	828	830	O
+observable	831	841	O
+in	842	844	O
+the	845	848	O
+data	849	853	O
+above	854	859	O
+the	860	863	O
+highly	864	870	O
+variable	871	879	O
+background	880	890	O
+noise	891	896	O
+.	896	897	O
+
+Jerks	898	903	B-Process
+can	904	907	O
+be	908	910	O
+described	911	920	O
+by	921	923	O
+their	924	929	O
+amplitude	930	939	O
+,	939	940	O
+that	941	945	O
+is	946	948	O
+,	948	949	O
+the	950	953	O
+difference	954	964	O
+in	965	967	O
+the	968	971	O
+gradients	972	981	O
+of	982	984	O
+the	985	988	O
+two	989	992	O
+linear	993	999	O
+SV	1000	1002	B-Process
+segments	1003	1011	I-Process
+about	1012	1017	O
+a	1018	1019	O
+jerk	1020	1024	B-Process
+,	1024	1025	O
+A	1026	1027	O
+=	1027	1028	O
+a2-a1	1028	1033	O
+,	1033	1034	O
+where	1035	1040	O
+a2	1041	1043	O
+is	1044	1046	O
+the	1047	1050	O
+gradient	1051	1059	O
+after	1060	1065	O
+the	1066	1069	O
+jerk	1070	1074	B-Process
+and	1075	1078	O
+a1	1079	1081	O
+is	1082	1084	O
+the	1085	1088	O
+gradient	1089	1097	O
+before	1098	1104	O
+the	1105	1108	O
+jerk	1109	1113	B-Process
+.	1113	1114	O
+
+This	1115	1119	O
+measure	1120	1127	O
+is	1128	1130	O
+essentially	1131	1142	O
+the	1143	1146	O
+best	1147	1151	O
+fit	1152	1155	O
+SA	1156	1158	B-Process
+change	1159	1165	I-Process
+across	1166	1172	O
+a	1173	1174	O
+jerk	1175	1179	B-Process
+.	1179	1180	O
+
+Jerk	1181	1185	B-Process
+amplitude	1186	1195	I-Process
+is	1196	1198	O
+thus	1199	1203	O
+positive	1204	1212	O
+for	1213	1216	O
+a	1217	1218	O
+positive	1219	1227	O
+step	1228	1232	O
+in	1233	1235	O
+SA	1236	1238	B-Process
+and	1239	1242	O
+negative	1243	1251	O
+for	1252	1255	O
+a	1256	1257	O
+negative	1258	1266	O
+step	1267	1271	O
+.	1271	1272	O
+
+Here	1273	1277	O
+we	1278	1280	O
+do	1281	1283	O
+not	1284	1287	O
+consider	1288	1296	O
+spatial	1297	1304	O
+extent	1305	1311	O
+in	1312	1314	O
+our	1315	1318	O
+definition	1319	1329	O
+and	1330	1333	O
+refer	1334	1339	O
+to	1340	1342	O
+individual	1343	1353	O
+features	1354	1362	O
+in	1363	1365	O
+one	1366	1369	O
+field	1370	1375	O
+component	1376	1385	O
+of	1386	1388	O
+a	1389	1390	O
+given	1391	1396	O
+observatory	1397	1408	O
+time	1409	1413	O
+series	1414	1420	O
+as	1421	1423	O
+a	1424	1425	O
+single	1426	1432	O
+jerk	1433	1437	B-Process
+.	1437	1438	O
 
 
 -DOCSTART- (S0031920113001222)
 
-Seismic	NN	O	B-Process
-tomography	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-powerful	NN	O	O
-tool	NN	O	O
-to	NN	O	O
-investigate	NN	O	B-Task
-the	NN	O	I-Task
-deep	NN	O	I-Task
-structure	NN	O	I-Task
-under	NN	O	I-Task
-the	NN	O	I-Task
-volcanoes	NN	O	I-Task
-.	NN	O	O
-
-With	NN	O	O
-the	NN	O	O
-recently	NN	O	O
-rapid	NN	O	O
-development	NN	O	O
-of	NN	O	O
-Chinese	NN	O	O
-provincial	NN	O	B-Process
-seismic	NN	O	I-Process
-networks	NN	O	I-Process
-(	NN	O	O
-Zheng	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2009	NN	O	O
-,	NN	O	O
-2010	NN	O	O
-)	NN	O	O
-and	NN	O	O
-some	NN	O	O
-portable	NN	O	B-Process
-seismic	NN	O	I-Process
-arrays	NN	O	I-Process
-(	NN	O	O
-Hetland	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2004	NN	O	O
-;	NN	O	O
-Duan	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2009	NN	O	O
-;	NN	O	O
-Lei	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2012b	NN	O	O
-)	NN	O	O
-around	NN	O	O
-the	NN	O	O
-volcanoes	NN	O	O
-,	NN	O	O
-it	NN	O	O
-has	NN	O	O
-become	NN	O	O
-possible	NN	O	O
-to	NN	O	O
-image	NN	O	B-Process
-the	NN	O	I-Process
-detailed	NN	O	I-Process
-3-D	NN	O	I-Process
-velocity	NN	O	I-Process
-structure	NN	O	I-Process
-under	NN	O	O
-some	NN	O	O
-of	NN	O	O
-these	NN	O	O
-volcanoes	NN	O	O
-,	NN	O	O
-where	NN	O	O
-seismic	NN	O	B-Material
-stations	NN	O	I-Material
-are	NN	O	O
-densely	NN	O	O
-spaced	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-overview	NN	O	O
-,	NN	O	O
-we	NN	O	O
-synthesize	NN	O	B-Task
-the	NN	O	I-Task
-results	NN	O	I-Task
-from	NN	O	I-Task
-the	NN	O	I-Task
-deep	NN	O	I-Task
-seismic	NN	O	I-Task
-images	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-upper	NN	O	I-Task
-mantle	NN	O	I-Task
-under	NN	O	O
-the	NN	O	O
-Changbaishan	NN	O	B-Material
-,	NN	O	I-Material
-Tengchong	NN	O	I-Material
-,	NN	O	I-Material
-Hainan	NN	O	I-Material
-volcanoes	NN	O	I-Material
-as	NN	O	I-Material
-well	NN	O	I-Material
-as	NN	O	I-Material
-the	NN	O	I-Material
-Datong	NN	O	I-Material
-volcano	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-also	NN	O	O
-evaluate	NN	O	O
-the	NN	O	O
-advantages	NN	O	B-Task
-of	NN	O	I-Task
-recently	NN	O	I-Task
-updated	NN	O	I-Task
-seismic	NN	O	I-Task
-tomographic	NN	O	I-Task
-techniques	NN	O	I-Task
-for	NN	O	O
-deriving	NN	O	O
-potential	NN	O	O
-information	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-work	NN	O	O
-updates	NN	O	O
-a	NN	O	O
-previous	NN	O	O
-review	NN	O	O
-of	NN	O	O
-Zhao	NN	O	O
-and	NN	O	O
-Liu	NN	O	O
-(	NN	O	O
-2010	NN	O	O
-)	NN	O	O
-on	NN	O	O
-this	NN	O	O
-topic	NN	O	O
-,	NN	O	O
-with	NN	O	O
-more	NN	O	O
-detailed	NN	O	O
-synthesis	NN	O	O
-of	NN	O	O
-all	NN	O	O
-the	NN	O	O
-available	NN	O	O
-information	NN	O	O
-.	NN	O	O
+Seismic	0	7	B-Process
+tomography	8	18	I-Process
+is	19	21	O
+a	22	23	O
+powerful	24	32	O
+tool	33	37	O
+to	38	40	O
+investigate	41	52	B-Task
+the	53	56	I-Task
+deep	57	61	I-Task
+structure	62	71	I-Task
+under	72	77	I-Task
+the	78	81	I-Task
+volcanoes	82	91	I-Task
+.	91	92	O
+
+With	93	97	O
+the	98	101	O
+recently	102	110	O
+rapid	111	116	O
+development	117	128	O
+of	129	131	O
+Chinese	132	139	O
+provincial	140	150	B-Process
+seismic	151	158	I-Process
+networks	159	167	I-Process
+(	168	169	O
+Zheng	169	174	O
+et	175	177	O
+al	178	180	O
+.	180	181	O
+,	181	182	O
+2009	183	187	O
+,	187	188	O
+2010	189	193	O
+)	193	194	O
+and	195	198	O
+some	199	203	O
+portable	204	212	B-Process
+seismic	213	220	I-Process
+arrays	221	227	I-Process
+(	228	229	O
+Hetland	229	236	O
+et	237	239	O
+al	240	242	O
+.	242	243	O
+,	243	244	O
+2004	245	249	O
+;	249	250	O
+Duan	251	255	O
+et	256	258	O
+al	259	261	O
+.	261	262	O
+,	262	263	O
+2009	264	268	O
+;	268	269	O
+Lei	270	273	O
+et	274	276	O
+al	277	279	O
+.	279	280	O
+,	280	281	O
+2012b	282	287	O
+)	287	288	O
+around	289	295	O
+the	296	299	O
+volcanoes	300	309	O
+,	309	310	O
+it	311	313	O
+has	314	317	O
+become	318	324	O
+possible	325	333	O
+to	334	336	O
+image	337	342	B-Process
+the	343	346	I-Process
+detailed	347	355	I-Process
+3-D	356	359	I-Process
+velocity	360	368	I-Process
+structure	369	378	I-Process
+under	379	384	O
+some	385	389	O
+of	390	392	O
+these	393	398	O
+volcanoes	399	408	O
+,	408	409	O
+where	410	415	O
+seismic	416	423	B-Material
+stations	424	432	I-Material
+are	433	436	O
+densely	437	444	O
+spaced	445	451	O
+.	451	452	O
+
+In	453	455	O
+this	456	460	O
+overview	461	469	O
+,	469	470	O
+we	471	473	O
+synthesize	474	484	B-Task
+the	485	488	I-Task
+results	489	496	I-Task
+from	497	501	I-Task
+the	502	505	I-Task
+deep	506	510	I-Task
+seismic	511	518	I-Task
+images	519	525	I-Task
+of	526	528	I-Task
+the	529	532	I-Task
+upper	533	538	I-Task
+mantle	539	545	I-Task
+under	546	551	O
+the	552	555	O
+Changbaishan	556	568	B-Material
+,	568	569	I-Material
+Tengchong	570	579	I-Material
+,	579	580	I-Material
+Hainan	581	587	I-Material
+volcanoes	588	597	I-Material
+as	598	600	I-Material
+well	601	605	I-Material
+as	606	608	I-Material
+the	609	612	I-Material
+Datong	613	619	I-Material
+volcano	620	627	O
+(	628	629	O
+Fig	629	632	O
+.	632	633	O
+
+1	634	635	O
+)	635	636	O
+.	636	637	O
+
+We	638	640	O
+also	641	645	O
+evaluate	646	654	O
+the	655	658	O
+advantages	659	669	B-Task
+of	670	672	I-Task
+recently	673	681	I-Task
+updated	682	689	I-Task
+seismic	690	697	I-Task
+tomographic	698	709	I-Task
+techniques	710	720	I-Task
+for	721	724	O
+deriving	725	733	O
+potential	734	743	O
+information	744	755	O
+.	755	756	O
+
+This	757	761	O
+work	762	766	O
+updates	767	774	O
+a	775	776	O
+previous	777	785	O
+review	786	792	O
+of	793	795	O
+Zhao	796	800	O
+and	801	804	O
+Liu	805	808	O
+(	809	810	O
+2010	810	814	O
+)	814	815	O
+on	816	818	O
+this	819	823	O
+topic	824	829	O
+,	829	830	O
+with	831	835	O
+more	836	840	O
+detailed	841	849	O
+synthesis	850	859	O
+of	860	862	O
+all	863	866	O
+the	867	870	O
+available	871	880	O
+information	881	892	O
+.	892	893	O
 
 
 -DOCSTART- (S0032386108010392)
 
-Microhardness	NN	O	B-Task
-can	NN	O	O
-be	NN	O	O
-related	NN	O	O
-to	NN	O	O
-other	NN	O	O
-macroscopic	NN	O	O
-mechanical	NN	O	O
-properties	NN	O	O
-such	NN	O	O
-as	NN	O	O
-yield	NN	O	O
-stress	NN	O	O
-,	NN	O	O
-σ	NN	O	O
-,	NN	O	O
-and	NN	O	O
-elastic	NN	O	O
-modulus	NN	O	O
-,	NN	O	O
-E	NN	O	O
-,	NN	O	O
-both	NN	O	O
-derived	NN	O	O
-from	NN	O	O
-compression	NN	O	B-Process
-testing	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-work	NN	O	B-Material
--	NN	O	I-Material
-hardened	NN	O	I-Material
-metals	NN	O	I-Material
-,	NN	O	O
-Tabor	NN	O	O
-derived	NN	O	B-Process
-a	NN	O	I-Process
-direct	NN	O	I-Process
-proportionality	NN	O	I-Process
-between	NN	O	O
-hardness	NN	O	O
-and	NN	O	O
-compressive	NN	O	O
-yield	NN	O	O
-stress	NN	O	O
-:	NN	O	O
-H≈3σ	NN	O	O
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-it	NN	O	O
-was	NN	O	O
-soon	NN	O	O
-realized	NN	O	O
-that	NN	O	O
-Tabor	NN	O	O
-'s	NN	O	O
-relationship	NN	O	O
-only	NN	O	O
-applies	NN	O	O
-to	NN	O	O
-materials	NN	O	B-Material
-that	NN	O	I-Material
-exhibit	NN	O	I-Material
-full	NN	O	I-Material
-plasticity	NN	O	I-Material
-[	NN	O	O
-9,10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Deviations	NN	O	B-Task
-from	NN	O	I-Task
-this	NN	O	I-Task
-relationship	NN	O	I-Task
-have	NN	O	O
-been	NN	O	O
-reported	NN	O	O
-for	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-metals	NN	O	O
-,	NN	O	O
-glasses	NN	O	B-Material
-and	NN	O	O
-polymers	NN	O	B-Material
-where	NN	O	I-Material
-the	NN	O	I-Material
-elastic	NN	O	I-Material
-strains	NN	O	I-Material
-are	NN	O	O
-non	NN	O	O
--	NN	O	O
-negligible	NN	O	O
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Hence	NN	O	O
-,	NN	O	O
-the	NN	O	B-Task
-different	NN	O	I-Task
-expressions	NN	O	I-Task
-describing	NN	O	I-Task
-the	NN	O	I-Task
-correlation	NN	O	I-Task
-of	NN	O	I-Task
-hardness	NN	O	I-Task
-with	NN	O	I-Task
-conventional	NN	O	I-Task
-macroscopic	NN	O	I-Task
-mechanical	NN	O	I-Task
-properties	NN	O	I-Task
-rely	NN	O	O
-on	NN	O	O
-the	NN	O	O
-validity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-above	NN	O	O
--	NN	O	O
-mentioned	NN	O	O
-elasto	NN	O	O
--	NN	O	O
-plastic	NN	O	O
-models	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-way	NN	O	O
-,	NN	O	O
-hardness	NN	O	O
-and	NN	O	O
-yield	NN	O	O
-stress	NN	O	O
-no	NN	O	O
-longer	NN	O	O
-hold	NN	O	B-Process
-direct	NN	O	I-Process
-proportionality	NN	O	I-Process
-but	NN	O	I-Process
-their	NN	O	I-Process
-relationship	NN	O	I-Process
-depends	NN	O	O
-on	NN	O	O
-the	NN	O	O
-specific	NN	O	B-Task
-material	NN	O	I-Task
-properties	NN	O	I-Task
-,	NN	O	I-Task
-such	NN	O	O
-as	NN	O	O
-Poisson	NN	O	O
-'s	NN	O	O
-ratio	NN	O	O
-and	NN	O	O
-elastic	NN	O	O
-modulus	NN	O	O
-[	NN	O	O
-9,11–13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-has	NN	O	O
-been	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-these	NN	O	O
-elasto	NN	O	O
--	NN	O	O
-plastic	NN	O	O
-models	NN	O	O
-not	NN	O	O
-only	NN	O	O
-satisfactorily	NN	O	O
-explain	NN	O	O
-an	NN	O	O
-H/σ	NN	O	O
-ratio	NN	O	O
-of	NN	O	O
-≈2	NN	O	O
-for	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-polyethylene	NN	O	B-Material
-materials	NN	O	I-Material
-of	NN	O	O
-different	NN	O	O
-nature	NN	O	O
-,	NN	O	O
-but	NN	O	O
-also	NN	O	O
-theoretically	NN	O	O
-account	NN	O	O
-for	NN	O	O
-the	NN	O	O
-range	NN	O	O
-of	NN	O	O
-H	NN	O	O
-/	NN	O	O
-E	NN	O	O
-ratios	NN	O	O
-experimentally	NN	O	O
-determined	NN	O	O
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Microhardness	0	13	B-Task
+can	14	17	O
+be	18	20	O
+related	21	28	O
+to	29	31	O
+other	32	37	O
+macroscopic	38	49	O
+mechanical	50	60	O
+properties	61	71	O
+such	72	76	O
+as	77	79	O
+yield	80	85	O
+stress	86	92	O
+,	92	93	O
+σ	94	95	O
+,	95	96	O
+and	97	100	O
+elastic	101	108	O
+modulus	109	116	O
+,	116	117	O
+E	118	119	O
+,	119	120	O
+both	121	125	O
+derived	126	133	O
+from	134	138	O
+compression	139	150	B-Process
+testing	151	158	I-Process
+.	158	159	O
+
+For	160	163	O
+work	164	168	B-Material
+-	168	169	I-Material
+hardened	169	177	I-Material
+metals	178	184	I-Material
+,	184	185	O
+Tabor	186	191	O
+derived	192	199	B-Process
+a	200	201	I-Process
+direct	202	208	I-Process
+proportionality	209	224	I-Process
+between	225	232	O
+hardness	233	241	O
+and	242	245	O
+compressive	246	257	O
+yield	258	263	O
+stress	264	270	O
+:	270	271	O
+H≈3σ	272	276	O
+[	277	278	O
+20	278	280	O
+]	280	281	O
+.	281	282	O
+
+However	283	290	O
+,	290	291	O
+it	292	294	O
+was	295	298	O
+soon	299	303	O
+realized	304	312	O
+that	313	317	O
+Tabor	318	323	O
+'s	323	325	O
+relationship	326	338	O
+only	339	343	O
+applies	344	351	O
+to	352	354	O
+materials	355	364	B-Material
+that	365	369	I-Material
+exhibit	370	377	I-Material
+full	378	382	I-Material
+plasticity	383	393	I-Material
+[	394	395	O
+9,10	395	399	O
+]	399	400	O
+.	400	401	O
+
+Deviations	402	412	B-Task
+from	413	417	I-Task
+this	418	422	I-Task
+relationship	423	435	I-Task
+have	436	440	O
+been	441	445	O
+reported	446	454	O
+for	455	458	O
+a	459	460	O
+number	461	467	O
+of	468	470	O
+metals	471	477	O
+,	477	478	O
+glasses	479	486	B-Material
+and	487	490	O
+polymers	491	499	B-Material
+where	500	505	I-Material
+the	506	509	I-Material
+elastic	510	517	I-Material
+strains	518	525	I-Material
+are	526	529	O
+non	530	533	O
+-	533	534	O
+negligible	534	544	O
+[	545	546	O
+9	546	547	O
+]	547	548	O
+.	548	549	O
+
+Hence	550	555	O
+,	555	556	O
+the	557	560	B-Task
+different	561	570	I-Task
+expressions	571	582	I-Task
+describing	583	593	I-Task
+the	594	597	I-Task
+correlation	598	609	I-Task
+of	610	612	I-Task
+hardness	613	621	I-Task
+with	622	626	I-Task
+conventional	627	639	I-Task
+macroscopic	640	651	I-Task
+mechanical	652	662	I-Task
+properties	663	673	I-Task
+rely	674	678	O
+on	679	681	O
+the	682	685	O
+validity	686	694	O
+of	695	697	O
+the	698	701	O
+above	702	707	O
+-	707	708	O
+mentioned	708	717	O
+elasto	718	724	O
+-	724	725	O
+plastic	725	732	O
+models	733	739	O
+.	739	740	O
+
+In	741	743	O
+this	744	748	O
+way	749	752	O
+,	752	753	O
+hardness	754	762	O
+and	763	766	O
+yield	767	772	O
+stress	773	779	O
+no	780	782	O
+longer	783	789	O
+hold	790	794	B-Process
+direct	795	801	I-Process
+proportionality	802	817	I-Process
+but	818	821	I-Process
+their	822	827	I-Process
+relationship	828	840	I-Process
+depends	841	848	O
+on	849	851	O
+the	852	855	O
+specific	856	864	B-Task
+material	865	873	I-Task
+properties	874	884	I-Task
+,	884	885	I-Task
+such	886	890	O
+as	891	893	O
+Poisson	894	901	O
+'s	901	903	O
+ratio	904	909	O
+and	910	913	O
+elastic	914	921	O
+modulus	922	929	O
+[	930	931	O
+9,11–13	931	938	O
+]	938	939	O
+.	939	940	O
+
+It	941	943	O
+has	944	947	O
+been	948	952	O
+shown	953	958	O
+that	959	963	O
+these	964	969	O
+elasto	970	976	O
+-	976	977	O
+plastic	977	984	O
+models	985	991	O
+not	992	995	O
+only	996	1000	O
+satisfactorily	1001	1015	O
+explain	1016	1023	O
+an	1024	1026	O
+H/σ	1027	1030	O
+ratio	1031	1036	O
+of	1037	1039	O
+≈2	1040	1042	O
+for	1043	1046	O
+a	1047	1048	O
+number	1049	1055	O
+of	1056	1058	O
+polyethylene	1059	1071	B-Material
+materials	1072	1081	I-Material
+of	1082	1084	O
+different	1085	1094	O
+nature	1095	1101	O
+,	1101	1102	O
+but	1103	1106	O
+also	1107	1111	O
+theoretically	1112	1125	O
+account	1126	1133	O
+for	1134	1137	O
+the	1138	1141	O
+range	1142	1147	O
+of	1148	1150	O
+H	1151	1152	O
+/	1152	1153	O
+E	1153	1154	O
+ratios	1155	1161	O
+experimentally	1162	1176	O
+determined	1177	1187	O
+[	1188	1189	O
+21	1189	1191	O
+]	1191	1192	O
+.	1192	1193	O
 
 
 -DOCSTART- (S003238610801080X)
 
-Up	NN	O	O
-to	NN	O	O
-now	NN	O	O
-,	NN	O	O
-morphological	NN	O	B-Task
-studies	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-multi	NN	O	B-Material
--	NN	O	I-Material
-component	NN	O	I-Material
-polymeric	NN	O	I-Material
-materials	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-by	NN	O	O
-various	NN	O	O
-microscopic	NN	O	B-Process
-and	NN	O	I-Process
-scattering	NN	O	I-Process
-methods	NN	O	I-Process
-.	NN	O	O
-
-Optical	NN	O	B-Material
-microscopes	NN	O	I-Material
-,	NN	O	O
-transmission	NN	O	B-Material
-electron	NN	O	I-Material
-microscopes	NN	O	I-Material
-(	NN	O	O
-TEMs	NN	O	B-Material
-)	NN	O	O
-,	NN	O	O
-scanning	NN	O	B-Material
-electron	NN	O	I-Material
-microscopes	NN	O	I-Material
-(	NN	O	O
-SEMs	NN	O	B-Material
-)	NN	O	O
-and	NN	O	O
-atomic	NN	O	B-Material
-force	NN	O	I-Material
-microscopes	NN	O	I-Material
-(	NN	O	O
-AFMs	NN	O	B-Material
-)	NN	O	O
-are	NN	O	O
-commercially	NN	O	O
-available	NN	O	O
-and	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-biggest	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-microscopy	NN	O	B-Task
-is	NN	O	O
-that	NN	O	O
-they	NN	O	O
-provide	NN	O	O
-intuitive	NN	O	O
-real	NN	O	O
--	NN	O	O
-space	NN	O	O
-representations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-various	NN	O	O
-morphologies	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-when	NN	O	O
-it	NN	O	O
-comes	NN	O	O
-to	NN	O	O
-“	NN	O	O
-measurements	NN	O	O
-”	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-in	NN	O	O
-a	NN	O	O
-quantitative	NN	O	O
-way	NN	O	O
-,	NN	O	O
-microscopy	NN	O	B-Task
-sometimes	NN	O	O
-lacks	NN	O	O
-a	NN	O	O
-statistical	NN	O	O
-accuracy	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-small	NN	O	O
-field	NN	O	O
-of	NN	O	O
-view	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-contrast	NN	O	O
-,	NN	O	O
-the	NN	O	O
-scattering	NN	O	B-Process
-methods	NN	O	I-Process
-provide	NN	O	O
-much	NN	O	O
-a	NN	O	O
-superior	NN	O	O
-statistical	NN	O	O
-accuracy	NN	O	O
-than	NN	O	O
-that	NN	O	O
-of	NN	O	O
-microscopy	NN	O	B-Task
-simply	NN	O	O
-because	NN	O	O
-the	NN	O	O
-observation	NN	O	O
-volume	NN	O	O
-is	NN	O	O
-larger	NN	O	O
-than	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-microscopes	NN	O	B-Material
-.	NN	O	O
-
-One	NN	O	O
-must	NN	O	O
-remember	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-that	NN	O	O
-the	NN	O	O
-scattering	NN	O	B-Process
-methods	NN	O	I-Process
-normally	NN	O	O
-require	NN	O	O
-“	NN	O	B-Process
-(	NN	O	I-Process
-hypothesized	NN	O	I-Process
-)	NN	O	I-Process
-models	NN	O	I-Process
-”	NN	O	I-Process
-for	NN	O	O
-data	NN	O	B-Task
-analysis	NN	O	I-Task
-in	NN	O	O
-advance	NN	O	O
-:	NN	O	O
-They	NN	O	O
-do	NN	O	O
-not	NN	O	O
-provide	NN	O	O
-an	NN	O	O
-intuitive	NN	O	O
-insight	NN	O	O
-into	NN	O	O
-the	NN	O	O
-morphologies	NN	O	O
-as	NN	O	O
-does	NN	O	O
-microscopy	NN	O	B-Task
-.	NN	O	O
-
-After	NN	O	O
-all	NN	O	O
-,	NN	O	O
-for	NN	O	O
-the	NN	O	O
-complete	NN	O	O
-characterization	NN	O	O
-of	NN	O	O
-a	NN	O	O
-specific	NN	O	O
-morphology	NN	O	O
-,	NN	O	O
-one	NN	O	O
-may	NN	O	O
-need	NN	O	O
-to	NN	O	O
-first	NN	O	O
-know	NN	O	O
-the	NN	O	O
-morphologies	NN	O	O
-from	NN	O	O
-the	NN	O	O
-microscopy	NN	O	B-Task
-and	NN	O	O
-subsequently	NN	O	O
-to	NN	O	O
-evaluate	NN	O	O
-the	NN	O	O
-structural	NN	O	O
-parameters	NN	O	O
-by	NN	O	O
-scattering	NN	O	O
-on	NN	O	O
-the	NN	O	O
-basis	NN	O	O
-of	NN	O	O
-the	NN	O	O
-morphology	NN	O	O
-;	NN	O	O
-the	NN	O	O
-two	NN	O	O
-methods	NN	O	O
-are	NN	O	O
-complementary	NN	O	O
-.	NN	O	O
+Up	0	2	O
+to	3	5	O
+now	6	9	O
+,	9	10	O
+morphological	11	24	B-Task
+studies	25	32	I-Task
+of	33	35	O
+the	36	39	O
+multi	40	45	B-Material
+-	45	46	I-Material
+component	46	55	I-Material
+polymeric	56	65	I-Material
+materials	66	75	I-Material
+have	76	80	O
+been	81	85	O
+carried	86	93	O
+out	94	97	O
+by	98	100	O
+various	101	108	O
+microscopic	109	120	B-Process
+and	121	124	I-Process
+scattering	125	135	I-Process
+methods	136	143	I-Process
+.	143	144	O
+
+Optical	145	152	B-Material
+microscopes	153	164	I-Material
+,	164	165	O
+transmission	166	178	B-Material
+electron	179	187	I-Material
+microscopes	188	199	I-Material
+(	200	201	O
+TEMs	201	205	B-Material
+)	205	206	O
+,	206	207	O
+scanning	208	216	B-Material
+electron	217	225	I-Material
+microscopes	226	237	I-Material
+(	238	239	O
+SEMs	239	243	B-Material
+)	243	244	O
+and	245	248	O
+atomic	249	255	B-Material
+force	256	261	I-Material
+microscopes	262	273	I-Material
+(	274	275	O
+AFMs	275	279	B-Material
+)	279	280	O
+are	281	284	O
+commercially	285	297	O
+available	298	307	O
+and	308	311	O
+widely	312	318	O
+used	319	323	O
+.	323	324	O
+
+The	325	328	O
+biggest	329	336	O
+advantage	337	346	O
+of	347	349	O
+microscopy	350	360	B-Task
+is	361	363	O
+that	364	368	O
+they	369	373	O
+provide	374	381	O
+intuitive	382	391	O
+real	392	396	O
+-	396	397	O
+space	397	402	O
+representations	403	418	O
+of	419	421	O
+the	422	425	O
+various	426	433	O
+morphologies	434	446	O
+.	446	447	O
+
+However	448	455	O
+,	455	456	O
+when	457	461	O
+it	462	464	O
+comes	465	470	O
+to	471	473	O
+“	474	475	O
+measurements	475	487	O
+”	487	488	O
+,	488	489	O
+especially	490	500	O
+in	501	503	O
+a	504	505	O
+quantitative	506	518	O
+way	519	522	O
+,	522	523	O
+microscopy	524	534	B-Task
+sometimes	535	544	O
+lacks	545	550	O
+a	551	552	O
+statistical	553	564	O
+accuracy	565	573	O
+due	574	577	O
+to	578	580	O
+the	581	584	O
+small	585	590	O
+field	591	596	O
+of	597	599	O
+view	600	604	O
+.	604	605	O
+
+In	606	608	O
+contrast	609	617	O
+,	617	618	O
+the	619	622	O
+scattering	623	633	B-Process
+methods	634	641	I-Process
+provide	642	649	O
+much	650	654	O
+a	655	656	O
+superior	657	665	O
+statistical	666	677	O
+accuracy	678	686	O
+than	687	691	O
+that	692	696	O
+of	697	699	O
+microscopy	700	710	B-Task
+simply	711	717	O
+because	718	725	O
+the	726	729	O
+observation	730	741	O
+volume	742	748	O
+is	749	751	O
+larger	752	758	O
+than	759	763	O
+that	764	768	O
+of	769	771	O
+the	772	775	O
+microscopes	776	787	B-Material
+.	787	788	O
+
+One	789	792	O
+must	793	797	O
+remember	798	806	O
+,	806	807	O
+however	808	815	O
+,	815	816	O
+that	817	821	O
+the	822	825	O
+scattering	826	836	B-Process
+methods	837	844	I-Process
+normally	845	853	O
+require	854	861	O
+“	862	863	B-Process
+(	863	864	I-Process
+hypothesized	864	876	I-Process
+)	876	877	I-Process
+models	878	884	I-Process
+”	884	885	I-Process
+for	886	889	O
+data	890	894	B-Task
+analysis	895	903	I-Task
+in	904	906	O
+advance	907	914	O
+:	914	915	O
+They	916	920	O
+do	921	923	O
+not	924	927	O
+provide	928	935	O
+an	936	938	O
+intuitive	939	948	O
+insight	949	956	O
+into	957	961	O
+the	962	965	O
+morphologies	966	978	O
+as	979	981	O
+does	982	986	O
+microscopy	987	997	B-Task
+.	997	998	O
+
+After	999	1004	O
+all	1005	1008	O
+,	1008	1009	O
+for	1010	1013	O
+the	1014	1017	O
+complete	1018	1026	O
+characterization	1027	1043	O
+of	1044	1046	O
+a	1047	1048	O
+specific	1049	1057	O
+morphology	1058	1068	O
+,	1068	1069	O
+one	1070	1073	O
+may	1074	1077	O
+need	1078	1082	O
+to	1083	1085	O
+first	1086	1091	O
+know	1092	1096	O
+the	1097	1100	O
+morphologies	1101	1113	O
+from	1114	1118	O
+the	1119	1122	O
+microscopy	1123	1133	B-Task
+and	1134	1137	O
+subsequently	1138	1150	O
+to	1151	1153	O
+evaluate	1154	1162	O
+the	1163	1166	O
+structural	1167	1177	O
+parameters	1178	1188	O
+by	1189	1191	O
+scattering	1192	1202	O
+on	1203	1205	O
+the	1206	1209	O
+basis	1210	1215	O
+of	1216	1218	O
+the	1219	1222	O
+morphology	1223	1233	O
+;	1233	1234	O
+the	1235	1238	O
+two	1239	1242	O
+methods	1243	1250	O
+are	1251	1254	O
+complementary	1255	1268	O
+.	1268	1269	O
 
 
 -DOCSTART- (S003238610900086X)
 
-We	NN	O	O
-deal	NN	O	O
-with	NN	O	O
-the	NN	O	O
-intensity	NN	O	O
-scattered	NN	O	O
-by	NN	O	O
-a	NN	O	O
-random	NN	O	O
-mixture	NN	O	O
-of	NN	O	O
-deuterated	NN	O	B-Process
-/	NN	O	O
-hydrogenated	NN	O	B-Process
-PE	NN	O	B-Material
-chains	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-algorithm	NN	O	O
-used	NN	O	O
-by	NN	O	O
-us	NN	O	O
-to	NN	O	O
-evaluate	NN	O	O
-the	NN	O	O
-Kratky	NN	O	B-Material
-plots	NN	O	I-Material
-by	NN	O	O
-sets	NN	O	O
-of	NN	O	O
-parallel	NN	O	B-Material
-polymer	NN	O	I-Material
-stems	NN	O	I-Material
-is	NN	O	O
-very	NN	O	O
-simplified	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-checked	NN	O	O
-it	NN	O	O
-to	NN	O	O
-be	NN	O	O
-adequate	NN	O	O
-in	NN	O	O
-the	NN	O	O
-reciprocal	NN	O	O
-coordinate	NN	O	O
-range	NN	O	O
-under	NN	O	O
-investigation	NN	O	O
-[	NN	O	O
-0<q(=4πsinθ/λ)≤0.25Å−1	NN	O	O
-]	NN	O	O
-comparing	NN	O	O
-the	NN	O	O
-results	NN	O	O
-with	NN	O	O
-more	NN	O	O
-precise	NN	O	O
-calculations	NN	O	B-Task
-.	NN	O	O
-
-The	NN	O	O
-scattering	NN	O	B-Material
-centres	NN	O	I-Material
-are	NN	O	O
-identified	NN	O	O
-with	NN	O	O
-pseudo	NN	O	B-Material
--	NN	O	I-Material
-atoms	NN	O	I-Material
-repeating	NN	O	O
-after	NN	O	O
-a	NN	O	O
-constant	NN	O	O
-distance	NN	O	O
-of	NN	O	O
-1.27Å	NN	O	O
-along	NN	O	O
-straight	NN	O	O
-lines	NN	O	O
-coinciding	NN	O	O
-with	NN	O	O
-the	NN	O	O
-stem	NN	O	B-Material
-axes	NN	O	I-Material
-,	NN	O	O
-100	NN	O	O
-scattering	NN	O	O
-centres	NN	O	O
-being	NN	O	O
-placed	NN	O	O
-on	NN	O	O
-each	NN	O	O
-stem	NN	O	B-Material
-;	NN	O	O
-the	NN	O	O
-scattering	NN	O	B-Process
-by	NN	O	O
-atoms	NN	O	B-Material
-belonging	NN	O	O
-to	NN	O	O
-chain	NN	O	B-Material
-folds	NN	O	I-Material
-is	NN	O	O
-neglected	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-parallel	NN	O	B-Material
-stem	NN	O	I-Material
-axes	NN	O	I-Material
-are	NN	O	O
-disposed	NN	O	O
-according	NN	O	O
-to	NN	O	O
-a	NN	O	O
-hexagonal	NN	O	O
-setting	NN	O	O
-–	NN	O	O
-a	NN	O	O
-rough	NN	O	O
-approximation	NN	O	O
-to	NN	O	O
-the	NN	O	O
-monoclinic	NN	O	O
-,	NN	O	O
-pseudo	NN	O	O
--	NN	O	O
-hexagonal	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-PE	NN	O	B-Material
-–	NN	O	O
-and	NN	O	O
-the	NN	O	O
-scattering	NN	O	O
-centres	NN	O	O
-have	NN	O	O
-the	NN	O	O
-same	NN	O	O
-axial	NN	O	O
-coordinates	NN	O	O
-in	NN	O	O
-all	NN	O	O
-the	NN	O	O
-stems	NN	O	B-Material
-.	NN	O	O
-
-Defining	NN	O	O
-an	NN	O	O
-integer	NN	O	O
-i	NN	O	O
-going	NN	O	O
-from	NN	O	O
-1	NN	O	O
-to	NN	O	O
-the	NN	O	O
-total	NN	O	O
-number	NN	O	O
-ns·100	NN	O	O
-of	NN	O	O
-scattering	NN	O	B-Material
-centres	NN	O	I-Material
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-(	NN	O	O
-q<1	NN	O	O
-)	NN	O	O
-
-[	NN	O	O
-9](1A)q2·I(q)=C·(bH−bD)2∑i=1ns·100∑j=1ns·1004πqsin(q·dij)dij;dij2=Δij2+(zj−zi)2;q=2πsinθλwhere	NN	O	O
-bH	NN	O	O
-,	NN	O	O
-bD	NN	O	O
-respectively	NN	O	O
-are	NN	O	O
-the	NN	O	O
-scattering	NN	O	O
-lengths	NN	O	O
-of	NN	O	O
-hydrogen	NN	O	B-Material
-and	NN	O	O
-deuterium	NN	O	B-Material
-,	NN	O	O
-dij	NN	O	O
-is	NN	O	O
-the	NN	O	O
-distance	NN	O	O
-between	NN	O	O
-C	NN	O	B-Material
-atoms	NN	O	I-Material
-,	NN	O	O
-2θ	NN	O	O
-is	NN	O	O
-the	NN	O	O
-diffraction	NN	O	O
-angle	NN	O	O
-and	NN	O	O
-λ	NN	O	O
-the	NN	O	O
-wavelength	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-i	NN	O	O
--	NN	O	O
-th	NN	O	O
-C	NN	O	O
-atom	NN	O	O
-coordinate	NN	O	O
-along	NN	O	O
-the	NN	O	O
-stem	NN	O	O
-axis	NN	O	O
-is	NN	O	O
-zi	NN	O	O
-
-and	NN	O	O
-Δij	NN	O	O
-is	NN	O	O
-the	NN	O	O
-distance	NN	O	O
-between	NN	O	O
-the	NN	O	O
-stem	NN	O	O
-axes	NN	O	O
-where	NN	O	O
-the	NN	O	O
-atoms	NN	O	O
-i	NN	O	O
-and	NN	O	O
-j	NN	O	O
-belong	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-all	NN	O	O
-the	NN	O	O
-stems	NN	O	O
-we	NN	O	O
-have	NN	O	O
-the	NN	O	O
-same	NN	O	O
-set	NN	O	O
-of	NN	O	O
-zi	NN	O	O
-coordinates	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-sum	NN	O	O
-in	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-1A	NN	O	O
-)	NN	O	O
-is	NN	O	O
-extended	NN	O	O
-to	NN	O	O
-all	NN	O	O
-the	NN	O	O
-stems	NN	O	B-Material
-of	NN	O	O
-the	NN	O	O
-crystalline	NN	O	B-Material
-domain	NN	O	O
-,	NN	O	O
-see	NN	O	O
-Figs	NN	O	O
-.	NN	O	O
-
-2	NN	O	O
-and	NN	O	O
-10	NN	O	O
-for	NN	O	O
-examples	NN	O	O
-.	NN	O	O
+We	0	2	O
+deal	3	7	O
+with	8	12	O
+the	13	16	O
+intensity	17	26	O
+scattered	27	36	O
+by	37	39	O
+a	40	41	O
+random	42	48	O
+mixture	49	56	O
+of	57	59	O
+deuterated	60	70	B-Process
+/	70	71	O
+hydrogenated	71	83	B-Process
+PE	84	86	B-Material
+chains	87	93	I-Material
+.	93	94	O
+
+The	95	98	O
+algorithm	99	108	O
+used	109	113	O
+by	114	116	O
+us	117	119	O
+to	120	122	O
+evaluate	123	131	O
+the	132	135	O
+Kratky	136	142	B-Material
+plots	143	148	I-Material
+by	149	151	O
+sets	152	156	O
+of	157	159	O
+parallel	160	168	B-Material
+polymer	169	176	I-Material
+stems	177	182	I-Material
+is	183	185	O
+very	186	190	O
+simplified	191	201	O
+.	201	202	O
+
+We	203	205	O
+checked	206	213	O
+it	214	216	O
+to	217	219	O
+be	220	222	O
+adequate	223	231	O
+in	232	234	O
+the	235	238	O
+reciprocal	239	249	O
+coordinate	250	260	O
+range	261	266	O
+under	267	272	O
+investigation	273	286	O
+[	287	288	O
+0<q(=4πsinθ/λ)≤0.25Å−1	288	310	O
+]	310	311	O
+comparing	312	321	O
+the	322	325	O
+results	326	333	O
+with	334	338	O
+more	339	343	O
+precise	344	351	O
+calculations	352	364	B-Task
+.	364	365	O
+
+The	366	369	O
+scattering	370	380	B-Material
+centres	381	388	I-Material
+are	389	392	O
+identified	393	403	O
+with	404	408	O
+pseudo	409	415	B-Material
+-	415	416	I-Material
+atoms	416	421	I-Material
+repeating	422	431	O
+after	432	437	O
+a	438	439	O
+constant	440	448	O
+distance	449	457	O
+of	458	460	O
+1.27Å	461	466	O
+along	467	472	O
+straight	473	481	O
+lines	482	487	O
+coinciding	488	498	O
+with	499	503	O
+the	504	507	O
+stem	508	512	B-Material
+axes	513	517	I-Material
+,	517	518	O
+100	519	522	O
+scattering	523	533	O
+centres	534	541	O
+being	542	547	O
+placed	548	554	O
+on	555	557	O
+each	558	562	O
+stem	563	567	B-Material
+;	567	568	O
+the	569	572	O
+scattering	573	583	B-Process
+by	584	586	O
+atoms	587	592	B-Material
+belonging	593	602	O
+to	603	605	O
+chain	606	611	B-Material
+folds	612	617	I-Material
+is	618	620	O
+neglected	621	630	O
+.	630	631	O
+
+The	632	635	O
+parallel	636	644	B-Material
+stem	645	649	I-Material
+axes	650	654	I-Material
+are	655	658	O
+disposed	659	667	O
+according	668	677	O
+to	678	680	O
+a	681	682	O
+hexagonal	683	692	O
+setting	693	700	O
+–	701	702	O
+a	703	704	O
+rough	705	710	O
+approximation	711	724	O
+to	725	727	O
+the	728	731	O
+monoclinic	732	742	O
+,	742	743	O
+pseudo	744	750	O
+-	750	751	O
+hexagonal	751	760	O
+structure	761	770	O
+of	771	773	O
+PE	774	776	B-Material
+–	777	778	O
+and	779	782	O
+the	783	786	O
+scattering	787	797	O
+centres	798	805	O
+have	806	810	O
+the	811	814	O
+same	815	819	O
+axial	820	825	O
+coordinates	826	837	O
+in	838	840	O
+all	841	844	O
+the	845	848	O
+stems	849	854	B-Material
+.	854	855	O
+
+Defining	856	864	O
+an	865	867	O
+integer	868	875	O
+i	876	877	O
+going	878	883	O
+from	884	888	O
+1	889	890	O
+to	891	893	O
+the	894	897	O
+total	898	903	O
+number	904	910	O
+ns·100	911	917	O
+of	918	920	O
+scattering	921	931	B-Material
+centres	932	939	I-Material
+,	939	940	O
+we	941	943	O
+have	944	948	O
+(	949	950	O
+q<1	950	953	O
+)	953	954	O
+
+[	955	956	O
+9](1A)q2·I(q)=C·(bH−bD)2∑i=1ns·100∑j=1ns·1004πqsin(q·dij)dij;dij2=Δij2+(zj−zi)2;q=2πsinθλwhere	956	1050	O
+bH	1051	1053	O
+,	1053	1054	O
+bD	1055	1057	O
+respectively	1058	1070	O
+are	1071	1074	O
+the	1075	1078	O
+scattering	1079	1089	O
+lengths	1090	1097	O
+of	1098	1100	O
+hydrogen	1101	1109	B-Material
+and	1110	1113	O
+deuterium	1114	1123	B-Material
+,	1123	1124	O
+dij	1125	1128	O
+is	1129	1131	O
+the	1132	1135	O
+distance	1136	1144	O
+between	1145	1152	O
+C	1153	1154	B-Material
+atoms	1155	1160	I-Material
+,	1160	1161	O
+2θ	1162	1164	O
+is	1165	1167	O
+the	1168	1171	O
+diffraction	1172	1183	O
+angle	1184	1189	O
+and	1190	1193	O
+λ	1194	1195	O
+the	1196	1199	O
+wavelength	1200	1210	O
+.	1210	1211	O
+
+The	1212	1215	O
+i	1216	1217	O
+-	1217	1218	O
+th	1218	1220	O
+C	1221	1222	O
+atom	1223	1227	O
+coordinate	1228	1238	O
+along	1239	1244	O
+the	1245	1248	O
+stem	1249	1253	O
+axis	1254	1258	O
+is	1259	1261	O
+zi	1262	1264	O
+
+and	1265	1268	O
+Δij	1269	1272	O
+is	1273	1275	O
+the	1276	1279	O
+distance	1280	1288	O
+between	1289	1296	O
+the	1297	1300	O
+stem	1301	1305	O
+axes	1306	1310	O
+where	1311	1316	O
+the	1317	1320	O
+atoms	1321	1326	O
+i	1327	1328	O
+and	1329	1332	O
+j	1333	1334	O
+belong	1335	1341	O
+.	1341	1342	O
+
+For	1343	1346	O
+all	1347	1350	O
+the	1351	1354	O
+stems	1355	1360	O
+we	1361	1363	O
+have	1364	1368	O
+the	1369	1372	O
+same	1373	1377	O
+set	1378	1381	O
+of	1382	1384	O
+zi	1385	1387	O
+coordinates	1388	1399	O
+.	1399	1400	O
+
+The	1401	1404	O
+sum	1405	1408	O
+in	1409	1411	O
+Eq	1412	1414	O
+.	1414	1415	O
+
+(	1416	1417	O
+1A	1417	1419	O
+)	1419	1420	O
+is	1421	1423	O
+extended	1424	1432	O
+to	1433	1435	O
+all	1436	1439	O
+the	1440	1443	O
+stems	1444	1449	B-Material
+of	1450	1452	O
+the	1453	1456	O
+crystalline	1457	1468	B-Material
+domain	1469	1475	O
+,	1475	1476	O
+see	1477	1480	O
+Figs	1481	1485	O
+.	1485	1486	O
+
+2	1487	1488	O
+and	1489	1492	O
+10	1493	1495	O
+for	1496	1499	O
+examples	1500	1508	O
+.	1508	1509	O
 
 
 -DOCSTART- (S0032386109001712)
 
-With	NN	O	O
-ever	NN	O	O
-increasing	NN	O	O
-computer	NN	O	O
-performance	NN	O	O
-,	NN	O	O
-simulations	NN	O	B-Process
-in	NN	O	O
-much	NN	O	O
-larger	NN	O	O
-systems	NN	O	O
-have	NN	O	O
-become	NN	O	O
-feasible	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-full	NN	O	B-Process
--	NN	O	I-Process
-atomistic	NN	O	I-Process
-approaches	NN	O	I-Process
-to	NN	O	O
-polymer	NN	O	B-Task
-crystallization	NN	O	I-Task
-need	NN	O	O
-extremely	NN	O	O
-large	NN	O	O
-computer	NN	O	O
-power	NN	O	O
-even	NN	O	O
-in	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-simple	NN	O	B-Material
-polymers	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-appropriate	NN	O	B-Process
-modeling	NN	O	I-Process
-or	NN	O	O
-coarse	NN	O	B-Process
--	NN	O	I-Process
-graining	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-system	NN	O	I-Process
-is	NN	O	O
-imperative	NN	O	O
-.	NN	O	O
-
-From	NN	O	O
-a	NN	O	O
-series	NN	O	O
-of	NN	O	O
-work	NN	O	O
-on	NN	O	O
-the	NN	O	O
-development	NN	O	O
-of	NN	O	O
-coarse	NN	O	B-Process
--	NN	O	I-Process
-grained	NN	O	I-Process
-models	NN	O	I-Process
-for	NN	O	O
-polymers	NN	O	B-Material
-,	NN	O	O
-Mayer	NN	O	O
-and	NN	O	O
-Muller	NN	O	O
--	NN	O	O
-Plathe	NN	O	O
-have	NN	O	O
-build	NN	O	O
-up	NN	O	O
-a	NN	O	O
-model	NN	O	O
-of	NN	O	O
-poly(vinyl	NN	O	B-Material
-alcohol	NN	O	I-Material
-)	NN	O	I-Material
-
-(	NN	O	O
-PVA	NN	O	B-Material
-)	NN	O	O
-for	NN	O	O
-studying	NN	O	O
-early	NN	O	O
-stage	NN	O	O
-of	NN	O	O
-crystallization	NN	O	B-Process
-.	NN	O	O
-
-They	NN	O	O
-investigated	NN	O	O
-the	NN	O	O
-emergence	NN	O	O
-of	NN	O	O
-crystalline	NN	O	B-Material
-order	NN	O	O
-from	NN	O	O
-the	NN	O	O
-isotropic	NN	O	B-Material
-melt	NN	O	I-Material
-by	NN	O	O
-rapid	NN	O	B-Process
-quenching	NN	O	I-Process
-[	NN	O	O
-51,52	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-They	NN	O	O
-could	NN	O	O
-reproduce	NN	O	O
-many	NN	O	O
-elementary	NN	O	O
-processes	NN	O	O
-of	NN	O	O
-homogenous	NN	O	B-Process
-nucleation	NN	O	I-Process
-that	NN	O	O
-showed	NN	O	O
-good	NN	O	O
-correspondence	NN	O	O
-with	NN	O	O
-experiments	NN	O	O
-and	NN	O	O
-other	NN	O	O
-simulations	NN	O	B-Process
-,	NN	O	O
-in	NN	O	O
-temperature	NN	O	O
-dependence	NN	O	O
-of	NN	O	O
-lamella	NN	O	B-Material
-thickness	NN	O	O
-,	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-fold	NN	O	B-Material
-surface	NN	O	I-Material
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-their	NN	O	O
-work	NN	O	O
-,	NN	O	O
-they	NN	O	O
-neglected	NN	O	O
-long	NN	O	O
--	NN	O	O
-range	NN	O	O
-force	NN	O	O
-(	NN	O	O
-van	NN	O	O
-der	NN	O	O
-Waals	NN	O	O
-attraction	NN	O	O
-)	NN	O	O
-to	NN	O	O
-accelerate	NN	O	O
-computation	NN	O	O
-.	NN	O	O
-
-Their	NN	O	O
-model	NN	O	O
-has	NN	O	O
-the	NN	O	O
-energy	NN	O	O
-contribution	NN	O	O
-due	NN	O	O
-to	NN	O	O
-intrachain	NN	O	B-Process
-interactions	NN	O	I-Process
-only	NN	O	O
-and	NN	O	O
-the	NN	O	O
-dominant	NN	O	O
-driving	NN	O	O
-force	NN	O	O
-for	NN	O	O
-crystallization	NN	O	B-Process
-is	NN	O	O
-entropic	NN	O	O
-,	NN	O	O
-which	NN	O	O
-seems	NN	O	O
-to	NN	O	O
-ignore	NN	O	O
-dominant	NN	O	O
-driving	NN	O	O
-force	NN	O	O
-for	NN	O	O
-polymer	NN	O	B-Process
-crystallization	NN	O	I-Process
-in	NN	O	O
-conventional	NN	O	O
-sense	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-their	NN	O	O
-work	NN	O	O
-is	NN	O	O
-reminiscent	NN	O	O
-of	NN	O	O
-the	NN	O	O
-classical	NN	O	B-Process
-solid	NN	O	I-Process
-–	NN	O	I-Process
-liquid	NN	O	I-Process
-transition	NN	O	I-Process
-in	NN	O	O
-systems	NN	O	O
-of	NN	O	O
-repulsive	NN	O	B-Material
-spherical	NN	O	I-Material
-atoms	NN	O	I-Material
-[	NN	O	O
-53	NN	O	O
-]	NN	O	O
-and	NN	O	O
-poses	NN	O	O
-an	NN	O	O
-intriguing	NN	O	O
-problem	NN	O	O
-as	NN	O	O
-to	NN	O	O
-the	NN	O	O
-intrinsic	NN	O	O
-driving	NN	O	O
-force	NN	O	O
-for	NN	O	O
-polymer	NN	O	B-Process
-crystallization	NN	O	I-Process
-.	NN	O	O
+With	0	4	O
+ever	5	9	O
+increasing	10	20	O
+computer	21	29	O
+performance	30	41	O
+,	41	42	O
+simulations	43	54	B-Process
+in	55	57	O
+much	58	62	O
+larger	63	69	O
+systems	70	77	O
+have	78	82	O
+become	83	89	O
+feasible	90	98	O
+.	98	99	O
+
+However	100	107	O
+,	107	108	O
+full	109	113	B-Process
+-	113	114	I-Process
+atomistic	114	123	I-Process
+approaches	124	134	I-Process
+to	135	137	O
+polymer	138	145	B-Task
+crystallization	146	161	I-Task
+need	162	166	O
+extremely	167	176	O
+large	177	182	O
+computer	183	191	O
+power	192	197	O
+even	198	202	O
+in	203	205	O
+the	206	209	O
+case	210	214	O
+of	215	217	O
+simple	218	224	B-Material
+polymers	225	233	I-Material
+,	233	234	O
+and	235	238	O
+appropriate	239	250	B-Process
+modeling	251	259	I-Process
+or	260	262	O
+coarse	263	269	B-Process
+-	269	270	I-Process
+graining	270	278	I-Process
+of	279	281	I-Process
+the	282	285	I-Process
+system	286	292	I-Process
+is	293	295	O
+imperative	296	306	O
+.	306	307	O
+
+From	308	312	O
+a	313	314	O
+series	315	321	O
+of	322	324	O
+work	325	329	O
+on	330	332	O
+the	333	336	O
+development	337	348	O
+of	349	351	O
+coarse	352	358	B-Process
+-	358	359	I-Process
+grained	359	366	I-Process
+models	367	373	I-Process
+for	374	377	O
+polymers	378	386	B-Material
+,	386	387	O
+Mayer	388	393	O
+and	394	397	O
+Muller	398	404	O
+-	404	405	O
+Plathe	405	411	O
+have	412	416	O
+build	417	422	O
+up	423	425	O
+a	426	427	O
+model	428	433	O
+of	434	436	O
+poly(vinyl	437	447	B-Material
+alcohol	448	455	I-Material
+)	455	456	I-Material
+
+(	457	458	O
+PVA	458	461	B-Material
+)	461	462	O
+for	463	466	O
+studying	467	475	O
+early	476	481	O
+stage	482	487	O
+of	488	490	O
+crystallization	491	506	B-Process
+.	506	507	O
+
+They	508	512	O
+investigated	513	525	O
+the	526	529	O
+emergence	530	539	O
+of	540	542	O
+crystalline	543	554	B-Material
+order	555	560	O
+from	561	565	O
+the	566	569	O
+isotropic	570	579	B-Material
+melt	580	584	I-Material
+by	585	587	O
+rapid	588	593	B-Process
+quenching	594	603	I-Process
+[	604	605	O
+51,52	605	610	O
+]	610	611	O
+.	611	612	O
+
+They	613	617	O
+could	618	623	O
+reproduce	624	633	O
+many	634	638	O
+elementary	639	649	O
+processes	650	659	O
+of	660	662	O
+homogenous	663	673	B-Process
+nucleation	674	684	I-Process
+that	685	689	O
+showed	690	696	O
+good	697	701	O
+correspondence	702	716	O
+with	717	721	O
+experiments	722	733	O
+and	734	737	O
+other	738	743	O
+simulations	744	755	B-Process
+,	755	756	O
+in	757	759	O
+temperature	760	771	O
+dependence	772	782	O
+of	783	785	O
+lamella	786	793	B-Material
+thickness	794	803	O
+,	803	804	O
+structure	805	814	O
+of	815	817	O
+fold	818	822	B-Material
+surface	823	830	I-Material
+,	830	831	O
+etc	832	835	O
+.	835	836	O
+
+In	837	839	O
+their	840	845	O
+work	846	850	O
+,	850	851	O
+they	852	856	O
+neglected	857	866	O
+long	867	871	O
+-	871	872	O
+range	872	877	O
+force	878	883	O
+(	884	885	O
+van	885	888	O
+der	889	892	O
+Waals	893	898	O
+attraction	899	909	O
+)	909	910	O
+to	911	913	O
+accelerate	914	924	O
+computation	925	936	O
+.	936	937	O
+
+Their	938	943	O
+model	944	949	O
+has	950	953	O
+the	954	957	O
+energy	958	964	O
+contribution	965	977	O
+due	978	981	O
+to	982	984	O
+intrachain	985	995	B-Process
+interactions	996	1008	I-Process
+only	1009	1013	O
+and	1014	1017	O
+the	1018	1021	O
+dominant	1022	1030	O
+driving	1031	1038	O
+force	1039	1044	O
+for	1045	1048	O
+crystallization	1049	1064	B-Process
+is	1065	1067	O
+entropic	1068	1076	O
+,	1076	1077	O
+which	1078	1083	O
+seems	1084	1089	O
+to	1090	1092	O
+ignore	1093	1099	O
+dominant	1100	1108	O
+driving	1109	1116	O
+force	1117	1122	O
+for	1123	1126	O
+polymer	1127	1134	B-Process
+crystallization	1135	1150	I-Process
+in	1151	1153	O
+conventional	1154	1166	O
+sense	1167	1172	O
+.	1172	1173	O
+
+However	1174	1181	O
+,	1181	1182	O
+their	1183	1188	O
+work	1189	1193	O
+is	1194	1196	O
+reminiscent	1197	1208	O
+of	1209	1211	O
+the	1212	1215	O
+classical	1216	1225	B-Process
+solid	1226	1231	I-Process
+–	1231	1232	I-Process
+liquid	1232	1238	I-Process
+transition	1239	1249	I-Process
+in	1250	1252	O
+systems	1253	1260	O
+of	1261	1263	O
+repulsive	1264	1273	B-Material
+spherical	1274	1283	I-Material
+atoms	1284	1289	I-Material
+[	1290	1291	O
+53	1291	1293	O
+]	1293	1294	O
+and	1295	1298	O
+poses	1299	1304	O
+an	1305	1307	O
+intriguing	1308	1318	O
+problem	1319	1326	O
+as	1327	1329	O
+to	1330	1332	O
+the	1333	1336	O
+intrinsic	1337	1346	O
+driving	1347	1354	O
+force	1355	1360	O
+for	1361	1364	O
+polymer	1365	1372	B-Process
+crystallization	1373	1388	I-Process
+.	1388	1389	O
 
 
 -DOCSTART- (S0032386109004996)
 
-SPM	NN	O	B-Process
-,	NN	O	O
-and	NN	O	O
-AFM	NN	O	B-Process
-in	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-has	NN	O	O
-been	NN	O	O
-widely	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-questions	NN	O	B-Task
-in	NN	O	I-Task
-polymer	NN	O	I-Task
-crystallization	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-technique	NN	O	O
-has	NN	O	O
-several	NN	O	O
-strengths	NN	O	O
-that	NN	O	O
-make	NN	O	O
-it	NN	O	O
-ideally	NN	O	O
-suited	NN	O	O
-for	NN	O	O
-such	NN	O	O
-studies	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-a	NN	O	O
-high	NN	O	B-Process
-resolution	NN	O	I-Process
-technology	NN	O	I-Process
-,	NN	O	O
-routinely	NN	O	O
-resolving	NN	O	B-Process
-sub	NN	O	I-Process
-10	NN	O	I-Process
-nm	NN	O	I-Process
-features	NN	O	I-Process
-[	NN	O	O
-13,14	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-hence	NN	O	O
-allowing	NN	O	O
-the	NN	O	O
-fundamental	NN	O	O
-length	NN	O	O
-scale	NN	O	O
-of	NN	O	O
-the	NN	O	O
-polymer	NN	O	B-Material
-lamellar	NN	O	I-Material
-crystal	NN	O	I-Material
-,	NN	O	O
-its	NN	O	O
-thickness	NN	O	O
-,	NN	O	O
-to	NN	O	O
-be	NN	O	O
-observed	NN	O	O
-.	NN	O	O
-
-AFM	NN	O	B-Process
-requires	NN	O	O
-no	NN	O	O
-staining	NN	O	B-Process
-or	NN	O	O
-metal	NN	O	B-Process
-coating	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-,	NN	O	O
-so	NN	O	O
-sample	NN	O	B-Process
-preparation	NN	O	I-Process
-is	NN	O	O
-relatively	NN	O	O
-straightforward	NN	O	O
-.	NN	O	O
-
-Also	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-non	NN	O	O
--	NN	O	O
-destructive	NN	O	O
-under	NN	O	O
-many	NN	O	O
-circumstances	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-allows	NN	O	O
-images	NN	O	O
-to	NN	O	O
-be	NN	O	O
-obtained	NN	O	O
-while	NN	O	O
-a	NN	O	O
-process	NN	O	O
-such	NN	O	O
-as	NN	O	O
-crystal	NN	O	B-Process
-growth	NN	O	I-Process
-or	NN	O	O
-melting	NN	O	B-Process
-is	NN	O	O
-occurring	NN	O	O
-,	NN	O	O
-giving	NN	O	O
-time	NN	O	B-Material
--	NN	O	I-Material
-resolved	NN	O	I-Material
-data	NN	O	I-Material
-at	NN	O	O
-lamellar	NN	O	O
-or	NN	O	O
-sub	NN	O	O
--	NN	O	O
-lamellar	NN	O	O
-resolution	NN	O	O
-[	NN	O	O
-15–18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-this	NN	O	O
-final	NN	O	O
-feature	NN	O	O
-that	NN	O	O
-provides	NN	O	O
-many	NN	O	O
-of	NN	O	O
-the	NN	O	O
-most	NN	O	O
-exciting	NN	O	O
-possibilities	NN	O	O
-of	NN	O	O
-AFM	NN	O	B-Process
-for	NN	O	O
-studying	NN	O	B-Task
-polymer	NN	O	I-Task
-crystallization	NN	O	I-Task
-,	NN	O	O
-as	NN	O	O
-it	NN	O	O
-is	NN	O	O
-now	NN	O	O
-possible	NN	O	O
-to	NN	O	O
-watch	NN	O	O
-crystal	NN	O	B-Process
-growth	NN	O	I-Process
-,	NN	O	O
-crystal	NN	O	B-Process
-melting	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-re	NN	O	B-Process
--	NN	O	I-Process
-organisations	NN	O	I-Process
-within	NN	O	I-Process
-crystals	NN	O	I-Process
-at	NN	O	I-Process
-the	NN	O	I-Process
-lamellar	NN	O	I-Process
-scale	NN	O	I-Process
-,	NN	O	O
-seeing	NN	O	O
-how	NN	O	O
-structure	NN	O	O
-evolves	NN	O	O
-and	NN	O	O
-local	NN	O	O
-conditions	NN	O	O
-influence	NN	O	O
-kinetics	NN	O	O
-.	NN	O	O
-
-AFM	NN	O	B-Material
-has	NN	O	O
-a	NN	O	O
-wide	NN	O	O
-range	NN	O	O
-of	NN	O	O
-different	NN	O	O
-measuring	NN	O	O
-modes	NN	O	O
-,	NN	O	O
-and	NN	O	O
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-ever	NN	O	O
-increasing	NN	O	O
-number	NN	O	O
-of	NN	O	O
-functional	NN	O	O
-semicrystalline	NN	O	B-Material
-polymers	NN	O	I-Material
-available	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-)	NN	O	O
-,	NN	O	O
-the	NN	O	O
-breadth	NN	O	O
-of	NN	O	O
-experiments	NN	O	O
-that	NN	O	O
-can	NN	O	O
-be	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-with	NN	O	O
-a	NN	O	O
-single	NN	O	O
-machine	NN	O	O
-is	NN	O	O
-also	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-techniques	NN	O	O
-attractions	NN	O	O
-.	NN	O	O
+SPM	0	3	B-Process
+,	3	4	O
+and	5	8	O
+AFM	9	12	B-Process
+in	13	15	O
+particular	16	26	O
+,	26	27	O
+has	28	31	O
+been	32	36	O
+widely	37	43	O
+applied	44	51	O
+to	52	54	O
+questions	55	64	B-Task
+in	65	67	I-Task
+polymer	68	75	I-Task
+crystallization	76	91	I-Task
+.	91	92	O
+
+The	93	96	O
+technique	97	106	O
+has	107	110	O
+several	111	118	O
+strengths	119	128	O
+that	129	133	O
+make	134	138	O
+it	139	141	O
+ideally	142	149	O
+suited	150	156	O
+for	157	160	O
+such	161	165	O
+studies	166	173	O
+.	173	174	O
+
+It	175	177	O
+is	178	180	O
+a	181	182	O
+high	183	187	B-Process
+resolution	188	198	I-Process
+technology	199	209	I-Process
+,	209	210	O
+routinely	211	220	O
+resolving	221	230	B-Process
+sub	231	234	I-Process
+10	235	237	I-Process
+nm	237	239	I-Process
+features	240	248	I-Process
+[	249	250	O
+13,14	250	255	O
+]	255	256	O
+,	256	257	O
+and	258	261	O
+hence	262	267	O
+allowing	268	276	O
+the	277	280	O
+fundamental	281	292	O
+length	293	299	O
+scale	300	305	O
+of	306	308	O
+the	309	312	O
+polymer	313	320	B-Material
+lamellar	321	329	I-Material
+crystal	330	337	I-Material
+,	337	338	O
+its	339	342	O
+thickness	343	352	O
+,	352	353	O
+to	354	356	O
+be	357	359	O
+observed	360	368	O
+.	368	369	O
+
+AFM	370	373	B-Process
+requires	374	382	O
+no	383	385	O
+staining	386	394	B-Process
+or	395	397	O
+metal	398	403	B-Process
+coating	404	411	I-Process
+of	412	414	O
+the	415	418	O
+sample	419	425	O
+,	425	426	O
+so	427	429	O
+sample	430	436	B-Process
+preparation	437	448	I-Process
+is	449	451	O
+relatively	452	462	O
+straightforward	463	478	O
+.	478	479	O
+
+Also	480	484	O
+,	484	485	O
+it	486	488	O
+is	489	491	O
+non	492	495	O
+-	495	496	O
+destructive	496	507	O
+under	508	513	O
+many	514	518	O
+circumstances	519	532	O
+.	532	533	O
+
+This	534	538	O
+allows	539	545	O
+images	546	552	O
+to	553	555	O
+be	556	558	O
+obtained	559	567	O
+while	568	573	O
+a	574	575	O
+process	576	583	O
+such	584	588	O
+as	589	591	O
+crystal	592	599	B-Process
+growth	600	606	I-Process
+or	607	609	O
+melting	610	617	B-Process
+is	618	620	O
+occurring	621	630	O
+,	630	631	O
+giving	632	638	O
+time	639	643	B-Material
+-	643	644	I-Material
+resolved	644	652	I-Material
+data	653	657	I-Material
+at	658	660	O
+lamellar	661	669	O
+or	670	672	O
+sub	673	676	O
+-	676	677	O
+lamellar	677	685	O
+resolution	686	696	O
+[	697	698	O
+15–18	698	703	O
+]	703	704	O
+.	704	705	O
+
+It	706	708	O
+is	709	711	O
+this	712	716	O
+final	717	722	O
+feature	723	730	O
+that	731	735	O
+provides	736	744	O
+many	745	749	O
+of	750	752	O
+the	753	756	O
+most	757	761	O
+exciting	762	770	O
+possibilities	771	784	O
+of	785	787	O
+AFM	788	791	B-Process
+for	792	795	O
+studying	796	804	B-Task
+polymer	805	812	I-Task
+crystallization	813	828	I-Task
+,	828	829	O
+as	830	832	O
+it	833	835	O
+is	836	838	O
+now	839	842	O
+possible	843	851	O
+to	852	854	O
+watch	855	860	O
+crystal	861	868	B-Process
+growth	869	875	I-Process
+,	875	876	O
+crystal	877	884	B-Process
+melting	885	892	I-Process
+,	892	893	O
+and	894	897	O
+re	898	900	B-Process
+-	900	901	I-Process
+organisations	901	914	I-Process
+within	915	921	I-Process
+crystals	922	930	I-Process
+at	931	933	I-Process
+the	934	937	I-Process
+lamellar	938	946	I-Process
+scale	947	952	I-Process
+,	952	953	O
+seeing	954	960	O
+how	961	964	O
+structure	965	974	O
+evolves	975	982	O
+and	983	986	O
+local	987	992	O
+conditions	993	1003	O
+influence	1004	1013	O
+kinetics	1014	1022	O
+.	1022	1023	O
+
+AFM	1024	1027	B-Material
+has	1028	1031	O
+a	1032	1033	O
+wide	1034	1038	O
+range	1039	1044	O
+of	1045	1047	O
+different	1048	1057	O
+measuring	1058	1067	O
+modes	1068	1073	O
+,	1073	1074	O
+and	1075	1078	O
+,	1078	1079	O
+with	1080	1084	O
+the	1085	1088	O
+ever	1089	1093	O
+increasing	1094	1104	O
+number	1105	1111	O
+of	1112	1114	O
+functional	1115	1125	O
+semicrystalline	1126	1141	B-Material
+polymers	1142	1150	I-Material
+available	1151	1160	O
+(	1161	1162	O
+e.g.	1162	1166	O
+[	1167	1168	O
+19	1168	1170	O
+]	1170	1171	O
+)	1171	1172	O
+,	1172	1173	O
+the	1174	1177	O
+breadth	1178	1185	O
+of	1186	1188	O
+experiments	1189	1200	O
+that	1201	1205	O
+can	1206	1209	O
+be	1210	1212	O
+carried	1213	1220	O
+out	1221	1224	O
+with	1225	1229	O
+a	1230	1231	O
+single	1232	1238	O
+machine	1239	1246	O
+is	1247	1249	O
+also	1250	1254	O
+one	1255	1258	O
+of	1259	1261	O
+the	1262	1265	O
+techniques	1266	1276	O
+attractions	1277	1288	O
+.	1288	1289	O
 
 
 -DOCSTART- (S0032386109005485)
 
-Inverse	NN	O	B-Process
-miniemulsion	NN	O	I-Process
-polymerization	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-water	NN	O	B-Process
--	NN	O	I-Process
-in	NN	O	I-Process
--	NN	O	I-Process
-oil	NN	O	I-Process
-(	NN	O	O
-W	NN	O	B-Process
-/	NN	O	I-Process
-O	NN	O	I-Process
-)	NN	O	O
-heterogeneous	NN	O	B-Process
-polymerization	NN	O	I-Process
-process	NN	O	I-Process
-that	NN	O	O
-forms	NN	O	O
-kinetically	NN	O	B-Material
-stable	NN	O	I-Material
-macroemulsions	NN	O	I-Material
-at	NN	O	O
-,	NN	O	O
-below	NN	O	O
-,	NN	O	O
-or	NN	O	O
-around	NN	O	O
-the	NN	O	O
-critical	NN	O	B-Material
-micellar	NN	O	I-Material
-concentration	NN	O	I-Material
-(	NN	O	O
-CMC	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-process	NN	O	O
-contains	NN	O	O
-aqueous	NN	O	B-Material
-droplets	NN	O	I-Material
-(	NN	O	O
-including	NN	O	O
-water	NN	O	B-Material
--	NN	O	I-Material
-soluble	NN	O	I-Material
-monomers	NN	O	I-Material
-)	NN	O	O
-stably	NN	O	O
-dispersed	NN	O	O
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-aid	NN	O	O
-of	NN	O	O
-oil	NN	O	B-Material
--	NN	O	I-Material
-soluble	NN	O	I-Material
-surfactants	NN	O	I-Material
-,	NN	O	O
-in	NN	O	O
-a	NN	O	O
-continuous	NN	O	O
-organic	NN	O	B-Material
-medium	NN	O	I-Material
-.	NN	O	O
-
-Stable	NN	O	B-Material
-inverse	NN	O	I-Material
-miniemulsions	NN	O	I-Material
-are	NN	O	O
-formed	NN	O	O
-under	NN	O	O
-high	NN	O	O
-shear	NN	O	O
-by	NN	O	O
-either	NN	O	O
-a	NN	O	O
-homogenizer	NN	O	B-Material
-or	NN	O	O
-a	NN	O	O
-high	NN	O	B-Material
-speed	NN	O	I-Material
-mechanical	NN	O	I-Material
-stirrer	NN	O	I-Material
-.	NN	O	O
-
-Oil	NN	O	B-Material
--	NN	O	I-Material
-soluble	NN	O	I-Material
-nonionic	NN	O	I-Material
-surfactants	NN	O	I-Material
-with	NN	O	O
-hydrophilic	NN	O	O
--	NN	O	O
-lipophilic	NN	O	O
-balance	NN	O	O
-(	NN	O	O
-HLB	NN	O	O
-)	NN	O	O
-value	NN	O	O
-around	NN	O	O
-4	NN	O	O
-are	NN	O	O
-used	NN	O	O
-to	NN	O	O
-implement	NN	O	B-Task
-colloidal	NN	O	I-Task
-stability	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-resulting	NN	O	I-Task
-inverse	NN	O	I-Task
-emulsion	NN	O	I-Task
-.	NN	O	O
-
-Upon	NN	O	O
-addition	NN	O	O
-of	NN	O	O
-radical	NN	O	B-Material
-initiators	NN	O	I-Material
-,	NN	O	O
-polymerization	NN	O	B-Process
-occurs	NN	O	O
-within	NN	O	O
-the	NN	O	O
-aqueous	NN	O	B-Material
-droplets	NN	O	I-Material
-producing	NN	O	O
-colloidal	NN	O	B-Material
-particles	NN	O	I-Material
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-2	NN	O	O
-)	NN	O	O
-
-[	NN	O	O
-83	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Several	NN	O	O
-reports	NN	O	O
-have	NN	O	O
-demonstrated	NN	O	O
-the	NN	O	O
-preparation	NN	O	O
-of	NN	O	O
-stable	NN	O	B-Material
-particles	NN	O	I-Material
-of	NN	O	I-Material
-hydrophilic	NN	O	I-Material
-and	NN	O	I-Material
-water	NN	O	I-Material
--	NN	O	I-Material
-soluble	NN	O	I-Material
-polymers	NN	O	I-Material
-[	NN	O	O
-86–89	NN	O	O
-]	NN	O	O
-,	NN	O	O
-polyaniline	NN	O	B-Material
-nanoparticles	NN	O	I-Material
-[	NN	O	O
-90	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-organic	NN	O	B-Material
-–	NN	O	I-Material
-inorganic	NN	O	I-Material
-hybrid	NN	O	I-Material
-particles	NN	O	I-Material
-[	NN	O	O
-91–93	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-method	NN	O	O
-also	NN	O	O
-allows	NN	O	O
-for	NN	O	O
-the	NN	O	O
-preparation	NN	O	B-Process
-of	NN	O	I-Process
-crosslinked	NN	O	I-Process
-microgels	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-presence	NN	O	I-Process
-of	NN	O	I-Process
-difunctional	NN	O	I-Process
-crosslinkers	NN	O	I-Process
-[	NN	O	O
-27,94–100	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-CRP	NN	O	B-Process
-techniques	NN	O	I-Process
-including	NN	O	O
-ATRP	NN	O	B-Process
-[	NN	O	O
-78,79,82,101,102	NN	O	O
-]	NN	O	O
-and	NN	O	O
-RAFT	NN	O	B-Process
-[	NN	O	O
-103	NN	O	O
-]	NN	O	O
-in	NN	O	O
-inverse	NN	O	B-Material
-miniemulsion	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-explored	NN	O	O
-to	NN	O	O
-prepare	NN	O	O
-well	NN	O	O
--	NN	O	O
-defined	NN	O	O
-nanoparticles	NN	O	B-Material
-and	NN	O	O
-nanogels	NN	O	B-Material
-.	NN	O	O
+Inverse	0	7	B-Process
+miniemulsion	8	20	I-Process
+polymerization	21	35	I-Process
+is	36	38	O
+a	39	40	O
+water	41	46	B-Process
+-	46	47	I-Process
+in	47	49	I-Process
+-	49	50	I-Process
+oil	50	53	I-Process
+(	54	55	O
+W	55	56	B-Process
+/	56	57	I-Process
+O	57	58	I-Process
+)	58	59	O
+heterogeneous	60	73	B-Process
+polymerization	74	88	I-Process
+process	89	96	I-Process
+that	97	101	O
+forms	102	107	O
+kinetically	108	119	B-Material
+stable	120	126	I-Material
+macroemulsions	127	141	I-Material
+at	142	144	O
+,	144	145	O
+below	146	151	O
+,	151	152	O
+or	153	155	O
+around	156	162	O
+the	163	166	O
+critical	167	175	B-Material
+micellar	176	184	I-Material
+concentration	185	198	I-Material
+(	199	200	O
+CMC	200	203	B-Material
+)	203	204	O
+.	204	205	O
+
+This	206	210	O
+process	211	218	O
+contains	219	227	O
+aqueous	228	235	B-Material
+droplets	236	244	I-Material
+(	245	246	O
+including	246	255	O
+water	256	261	B-Material
+-	261	262	I-Material
+soluble	262	269	I-Material
+monomers	270	278	I-Material
+)	278	279	O
+stably	280	286	O
+dispersed	287	296	O
+,	296	297	O
+with	298	302	O
+the	303	306	O
+aid	307	310	O
+of	311	313	O
+oil	314	317	B-Material
+-	317	318	I-Material
+soluble	318	325	I-Material
+surfactants	326	337	I-Material
+,	337	338	O
+in	339	341	O
+a	342	343	O
+continuous	344	354	O
+organic	355	362	B-Material
+medium	363	369	I-Material
+.	369	370	O
+
+Stable	371	377	B-Material
+inverse	378	385	I-Material
+miniemulsions	386	399	I-Material
+are	400	403	O
+formed	404	410	O
+under	411	416	O
+high	417	421	O
+shear	422	427	O
+by	428	430	O
+either	431	437	O
+a	438	439	O
+homogenizer	440	451	B-Material
+or	452	454	O
+a	455	456	O
+high	457	461	B-Material
+speed	462	467	I-Material
+mechanical	468	478	I-Material
+stirrer	479	486	I-Material
+.	486	487	O
+
+Oil	488	491	B-Material
+-	491	492	I-Material
+soluble	492	499	I-Material
+nonionic	500	508	I-Material
+surfactants	509	520	I-Material
+with	521	525	O
+hydrophilic	526	537	O
+-	537	538	O
+lipophilic	538	548	O
+balance	549	556	O
+(	557	558	O
+HLB	558	561	O
+)	561	562	O
+value	563	568	O
+around	569	575	O
+4	576	577	O
+are	578	581	O
+used	582	586	O
+to	587	589	O
+implement	590	599	B-Task
+colloidal	600	609	I-Task
+stability	610	619	I-Task
+of	620	622	I-Task
+the	623	626	I-Task
+resulting	627	636	I-Task
+inverse	637	644	I-Task
+emulsion	645	653	I-Task
+.	653	654	O
+
+Upon	655	659	O
+addition	660	668	O
+of	669	671	O
+radical	672	679	B-Material
+initiators	680	690	I-Material
+,	690	691	O
+polymerization	692	706	B-Process
+occurs	707	713	O
+within	714	720	O
+the	721	724	O
+aqueous	725	732	B-Material
+droplets	733	741	I-Material
+producing	742	751	O
+colloidal	752	761	B-Material
+particles	762	771	I-Material
+(	772	773	O
+Fig	773	776	O
+.	776	777	O
+
+2	778	779	O
+)	779	780	O
+
+[	781	782	O
+83	782	784	O
+]	784	785	O
+.	785	786	O
+
+Several	787	794	O
+reports	795	802	O
+have	803	807	O
+demonstrated	808	820	O
+the	821	824	O
+preparation	825	836	O
+of	837	839	O
+stable	840	846	B-Material
+particles	847	856	I-Material
+of	857	859	I-Material
+hydrophilic	860	871	I-Material
+and	872	875	I-Material
+water	876	881	I-Material
+-	881	882	I-Material
+soluble	882	889	I-Material
+polymers	890	898	I-Material
+[	899	900	O
+86–89	900	905	O
+]	905	906	O
+,	906	907	O
+polyaniline	908	919	B-Material
+nanoparticles	920	933	I-Material
+[	934	935	O
+90	935	937	O
+]	937	938	O
+,	938	939	O
+and	940	943	O
+organic	944	951	B-Material
+–	951	952	I-Material
+inorganic	952	961	I-Material
+hybrid	962	968	I-Material
+particles	969	978	I-Material
+[	979	980	O
+91–93	980	985	O
+]	985	986	O
+.	986	987	O
+
+This	988	992	O
+method	993	999	O
+also	1000	1004	O
+allows	1005	1011	O
+for	1012	1015	O
+the	1016	1019	O
+preparation	1020	1031	B-Process
+of	1032	1034	I-Process
+crosslinked	1035	1046	I-Process
+microgels	1047	1056	I-Process
+in	1057	1059	I-Process
+the	1060	1063	I-Process
+presence	1064	1072	I-Process
+of	1073	1075	I-Process
+difunctional	1076	1088	I-Process
+crosslinkers	1089	1101	I-Process
+[	1102	1103	O
+27,94–100	1103	1112	O
+]	1112	1113	O
+.	1113	1114	O
+
+In	1115	1117	O
+addition	1118	1126	O
+,	1126	1127	O
+CRP	1128	1131	B-Process
+techniques	1132	1142	I-Process
+including	1143	1152	O
+ATRP	1153	1157	B-Process
+[	1158	1159	O
+78,79,82,101,102	1159	1175	O
+]	1175	1176	O
+and	1177	1180	O
+RAFT	1181	1185	B-Process
+[	1186	1187	O
+103	1187	1190	O
+]	1190	1191	O
+in	1192	1194	O
+inverse	1195	1202	B-Material
+miniemulsion	1203	1215	I-Material
+have	1216	1220	O
+been	1221	1225	O
+explored	1226	1234	O
+to	1235	1237	O
+prepare	1238	1245	O
+well	1246	1250	O
+-	1250	1251	O
+defined	1251	1258	O
+nanoparticles	1259	1272	B-Material
+and	1273	1276	O
+nanogels	1277	1285	B-Material
+.	1285	1286	O
 
 
 -DOCSTART- (S0032386109006612)
 
-In	NN	O	O
-contrast	NN	O	O
-with	NN	O	O
-polymers	NN	O	B-Material
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-typically	NN	O	O
-synthesized	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-liquid	NN	O	I-Process
-phase	NN	O	I-Process
-,	NN	O	O
-SWNTs	NN	O	B-Material
-are	NN	O	O
-produced	NN	O	B-Process
-through	NN	O	I-Process
-a	NN	O	I-Process
-variety	NN	O	I-Process
-of	NN	O	I-Process
-synthesis	NN	O	I-Process
-techniques	NN	O	I-Process
-that	NN	O	O
-typically	NN	O	O
-involve	NN	O	O
-the	NN	O	B-Process
-reaction	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-gaseous	NN	O	I-Process
-carbon	NN	O	I-Process
-feedstock	NN	O	I-Process
-to	NN	O	I-Process
-form	NN	O	I-Process
-the	NN	O	I-Process
-nanotubes	NN	O	I-Process
-on	NN	O	I-Process
-catalyst	NN	O	I-Process
-particles	NN	O	I-Process
-.	NN	O	O
-
-MWNTs	NN	O	B-Task
-were	NN	O	O
-first	NN	O	O
-observed	NN	O	B-Process
-in	NN	O	I-Process
-arc	NN	O	I-Process
-discharge	NN	O	I-Process
-fullerene	NN	O	I-Process
-reactors	NN	O	I-Process
-[	NN	O	O
-1,26	NN	O	O
-]	NN	O	O
-;	NN	O	O
-this	NN	O	B-Task
-technique	NN	O	I-Task
-was	NN	O	O
-later	NN	O	O
-adapted	NN	O	O
-to	NN	O	O
-produce	NN	O	O
-SWNTs	NN	O	B-Material
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Similarly	NN	O	O
-,	NN	O	O
-the	NN	O	B-Process
-fullerene	NN	O	I-Process
-production	NN	O	I-Process
-method	NN	O	I-Process
-of	NN	O	I-Process
-laser	NN	O	I-Process
-ablation	NN	O	I-Process
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-was	NN	O	O
-adapted	NN	O	O
-to	NN	O	O
-produce	NN	O	O
-SWNTs	NN	O	B-Material
-(	NN	O	O
-∼1.4	NN	O	O
-nm	NN	O	O
-diameter	NN	O	O
-)	NN	O	O
-in	NN	O	O
-larger	NN	O	O
-quantities	NN	O	O
-on	NN	O	O
-metal	NN	O	B-Material
-catalyst	NN	O	I-Material
-particles	NN	O	I-Material
-[	NN	O	O
-28–30	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-number	NN	O	O
-of	NN	O	O
-chemical	NN	O	B-Process
-vapor	NN	O	I-Process
-deposition	NN	O	I-Process
-(	NN	O	O
-CVD	NN	O	B-Process
-)	NN	O	O
-processes	NN	O	O
-have	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-to	NN	O	O
-grow	NN	O	O
-SWNTs	NN	O	B-Material
-and	NN	O	O
-MWNTs	NN	O	B-Material
-,	NN	O	O
-all	NN	O	O
-involving	NN	O	O
-the	NN	O	B-Process
-reaction	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-gaseous	NN	O	I-Process
-carbon	NN	O	I-Process
-compound	NN	O	I-Process
-as	NN	O	I-Process
-feedstock	NN	O	I-Process
-.	NN	O	O
-
-These	NN	O	O
-processes	NN	O	O
-include	NN	O	O
-fluidized	NN	O	B-Process
-bed	NN	O	I-Process
-[	NN	O	O
-31	NN	O	O
-]	NN	O	O
-,	NN	O	O
-“	NN	O	B-Process
-carpet	NN	O	I-Process
-”	NN	O	I-Process
-growth	NN	O	I-Process
-of	NN	O	I-Process
-carbon	NN	O	I-Process
-nanotubes	NN	O	I-Process
-(	NN	O	I-Process
-CNTs	NN	O	I-Process
-)	NN	O	I-Process
-from	NN	O	I-Process
-catalyst	NN	O	I-Process
-particles	NN	O	I-Process
-embedded	NN	O	I-Process
-in	NN	O	I-Process
-a	NN	O	I-Process
-substrate	NN	O	I-Process
-[	NN	O	O
-32–35	NN	O	O
-]	NN	O	O
-as	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3	NN	O	O
-,	NN	O	O
-and	NN	O	O
-“	NN	O	O
-catalytic	NN	O	O
-gas	NN	O	O
-flow	NN	O	O
-CVD	NN	O	O
-
-”	NN	O	O
-
-[	NN	O	O
-36,37	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-One	NN	O	O
-of	NN	O	O
-the	NN	O	B-Task
-most	NN	O	I-Task
-effective	NN	O	I-Task
-,	NN	O	I-Task
-cheap	NN	O	I-Task
-,	NN	O	I-Task
-and	NN	O	I-Task
-scalable	NN	O	I-Task
-CVD	NN	O	I-Task
-techniques	NN	O	I-Task
-is	NN	O	O
-the	NN	O	O
-HiPco	NN	O	B-Process
-(	NN	O	I-Process
-high	NN	O	I-Process
--	NN	O	I-Process
-pressure	NN	O	I-Process
-CO	NN	O	I-Process
-)	NN	O	I-Process
-process	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-does	NN	O	B-Process
-not	NN	O	I-Process
-use	NN	O	I-Process
-pre	NN	O	I-Process
--	NN	O	I-Process
-formed	NN	O	I-Process
-catalyst	NN	O	I-Process
-particles	NN	O	I-Process
-unlike	NN	O	O
-most	NN	O	O
-other	NN	O	O
-CVD	NN	O	B-Process
-techniques	NN	O	I-Process
-[	NN	O	O
-38	NN	O	O
-]	NN	O	O
-.	NN	O	O
+In	0	2	O
+contrast	3	11	O
+with	12	16	O
+polymers	17	25	B-Material
+,	25	26	O
+which	27	32	O
+are	33	36	O
+typically	37	46	O
+synthesized	47	58	B-Process
+in	59	61	I-Process
+the	62	65	I-Process
+liquid	66	72	I-Process
+phase	73	78	I-Process
+,	78	79	O
+SWNTs	80	85	B-Material
+are	86	89	O
+produced	90	98	B-Process
+through	99	106	I-Process
+a	107	108	I-Process
+variety	109	116	I-Process
+of	117	119	I-Process
+synthesis	120	129	I-Process
+techniques	130	140	I-Process
+that	141	145	O
+typically	146	155	O
+involve	156	163	O
+the	164	167	B-Process
+reaction	168	176	I-Process
+of	177	179	I-Process
+a	180	181	I-Process
+gaseous	182	189	I-Process
+carbon	190	196	I-Process
+feedstock	197	206	I-Process
+to	207	209	I-Process
+form	210	214	I-Process
+the	215	218	I-Process
+nanotubes	219	228	I-Process
+on	229	231	I-Process
+catalyst	232	240	I-Process
+particles	241	250	I-Process
+.	250	251	O
+
+MWNTs	252	257	B-Task
+were	258	262	O
+first	263	268	O
+observed	269	277	B-Process
+in	278	280	I-Process
+arc	281	284	I-Process
+discharge	285	294	I-Process
+fullerene	295	304	I-Process
+reactors	305	313	I-Process
+[	314	315	O
+1,26	315	319	O
+]	319	320	O
+;	320	321	O
+this	322	326	B-Task
+technique	327	336	I-Task
+was	337	340	O
+later	341	346	O
+adapted	347	354	O
+to	355	357	O
+produce	358	365	O
+SWNTs	366	371	B-Material
+[	372	373	O
+3	373	374	O
+]	374	375	O
+.	375	376	O
+
+Similarly	377	386	O
+,	386	387	O
+the	388	391	B-Process
+fullerene	392	401	I-Process
+production	402	412	I-Process
+method	413	419	I-Process
+of	420	422	I-Process
+laser	423	428	I-Process
+ablation	429	437	I-Process
+[	438	439	O
+27	439	441	O
+]	441	442	O
+was	443	446	O
+adapted	447	454	O
+to	455	457	O
+produce	458	465	O
+SWNTs	466	471	B-Material
+(	472	473	O
+∼1.4	473	477	O
+nm	477	479	O
+diameter	480	488	O
+)	488	489	O
+in	490	492	O
+larger	493	499	O
+quantities	500	510	O
+on	511	513	O
+metal	514	519	B-Material
+catalyst	520	528	I-Material
+particles	529	538	I-Material
+[	539	540	O
+28–30	540	545	O
+]	545	546	O
+.	546	547	O
+
+A	548	549	O
+number	550	556	O
+of	557	559	O
+chemical	560	568	B-Process
+vapor	569	574	I-Process
+deposition	575	585	I-Process
+(	586	587	O
+CVD	587	590	B-Process
+)	590	591	O
+processes	592	601	O
+have	602	606	O
+been	607	611	O
+developed	612	621	O
+to	622	624	O
+grow	625	629	O
+SWNTs	630	635	B-Material
+and	636	639	O
+MWNTs	640	645	B-Material
+,	645	646	O
+all	647	650	O
+involving	651	660	O
+the	661	664	B-Process
+reaction	665	673	I-Process
+of	674	676	I-Process
+a	677	678	I-Process
+gaseous	679	686	I-Process
+carbon	687	693	I-Process
+compound	694	702	I-Process
+as	703	705	I-Process
+feedstock	706	715	I-Process
+.	715	716	O
+
+These	717	722	O
+processes	723	732	O
+include	733	740	O
+fluidized	741	750	B-Process
+bed	751	754	I-Process
+[	755	756	O
+31	756	758	O
+]	758	759	O
+,	759	760	O
+“	761	762	B-Process
+carpet	762	768	I-Process
+”	768	769	I-Process
+growth	770	776	I-Process
+of	777	779	I-Process
+carbon	780	786	I-Process
+nanotubes	787	796	I-Process
+(	797	798	I-Process
+CNTs	798	802	I-Process
+)	802	803	I-Process
+from	804	808	I-Process
+catalyst	809	817	I-Process
+particles	818	827	I-Process
+embedded	828	836	I-Process
+in	837	839	I-Process
+a	840	841	I-Process
+substrate	842	851	I-Process
+[	852	853	O
+32–35	853	858	O
+]	858	859	O
+as	860	862	O
+shown	863	868	O
+in	869	871	O
+Fig	872	875	O
+.	875	876	O
+
+3	877	878	O
+,	878	879	O
+and	880	883	O
+“	884	885	O
+catalytic	885	894	O
+gas	895	898	O
+flow	899	903	O
+CVD	904	907	O
+
+”	907	908	O
+
+[	909	910	O
+36,37	910	915	O
+]	915	916	O
+.	916	917	O
+
+One	918	921	O
+of	922	924	O
+the	925	928	B-Task
+most	929	933	I-Task
+effective	934	943	I-Task
+,	943	944	I-Task
+cheap	945	950	I-Task
+,	950	951	I-Task
+and	952	955	I-Task
+scalable	956	964	I-Task
+CVD	965	968	I-Task
+techniques	969	979	I-Task
+is	980	982	O
+the	983	986	O
+HiPco	987	992	B-Process
+(	993	994	I-Process
+high	994	998	I-Process
+-	998	999	I-Process
+pressure	999	1007	I-Process
+CO	1008	1010	I-Process
+)	1010	1011	I-Process
+process	1012	1019	I-Process
+,	1019	1020	O
+which	1021	1026	O
+does	1027	1031	B-Process
+not	1032	1035	I-Process
+use	1036	1039	I-Process
+pre	1040	1043	I-Process
+-	1043	1044	I-Process
+formed	1044	1050	I-Process
+catalyst	1051	1059	I-Process
+particles	1060	1069	I-Process
+unlike	1070	1076	O
+most	1077	1081	O
+other	1082	1087	O
+CVD	1088	1091	B-Process
+techniques	1092	1102	I-Process
+[	1103	1104	O
+38	1104	1106	O
+]	1106	1107	O
+.	1107	1108	O
 
 
 -DOCSTART- (S0032386109007290)
 
-ELRs	NN	O	B-Material
-are	NN	O	O
-particularly	NN	O	O
-attractive	NN	O	O
-for	NN	O	O
-the	NN	O	O
-synthesis	NN	O	B-Process
-of	NN	O	I-Process
-block	NN	O	I-Process
-copolymers	NN	O	I-Process
-that	NN	O	O
-self	NN	O	O
--	NN	O	O
-assemble	NN	O	O
-into	NN	O	O
-polymer	NN	O	B-Material
-nanostructures	NN	O	I-Material
-such	NN	O	O
-as	NN	O	O
-micelles	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-first	NN	O	O
-work	NN	O	O
-in	NN	O	O
-this	NN	O	O
-area	NN	O	O
-involved	NN	O	O
-an	NN	O	O
-elastin	NN	O	B-Material
--	NN	O	I-Material
-mimetic	NN	O	I-Material
-di	NN	O	I-Material
--	NN	O	I-Material
-block	NN	O	I-Material
-copolymer	NN	O	I-Material
-containing	NN	O	O
-VPGEG–(IPGAG)4	NN	O	B-Material
-and	NN	O	O
-VPGFG–(IPGVG)4	NN	O	B-Material
-as	NN	O	O
-the	NN	O	O
-hydrophilic	NN	O	B-Material
-and	NN	O	I-Material
-hydrophobic	NN	O	I-Material
-blocks	NN	O	I-Material
-,	NN	O	O
-respectively	NN	O	O
-[	NN	O	O
-49	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resulting	NN	O	O
-micelles	NN	O	B-Material
-were	NN	O	O
-studied	NN	O	O
-by	NN	O	O
-dynamic	NN	O	B-Process
-light	NN	O	I-Process
-scattering	NN	O	I-Process
-(	NN	O	O
-DLS	NN	O	B-Process
-)	NN	O	O
-and	NN	O	O
-DSC	NN	O	B-Process
-was	NN	O	O
-used	NN	O	O
-to	NN	O	O
-measure	NN	O	O
-the	NN	O	O
-enthalpy	NN	O	O
-of	NN	O	O
-self	NN	O	B-Process
--	NN	O	I-Process
-assembly	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-tri	NN	O	B-Material
--	NN	O	I-Material
-block	NN	O	I-Material
-copolymer	NN	O	I-Material
-was	NN	O	O
-subsequently	NN	O	O
-synthesized	NN	O	O
-and	NN	O	O
-the	NN	O	O
-TEM	NN	O	B-Material
-images	NN	O	I-Material
-of	NN	O	O
-this	NN	O	O
-polymer	NN	O	B-Material
-showed	NN	O	O
-that	NN	O	O
-it	NN	O	O
-formed	NN	O	O
-spherical	NN	O	B-Material
-aggregates	NN	O	I-Material
-[	NN	O	O
-50	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Other	NN	O	O
-multivalent	NN	O	B-Material
-spherical	NN	O	I-Material
-micelles	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-obtained	NN	O	O
-from	NN	O	O
-linear	NN	O	B-Material
-elastin	NN	O	I-Material
--	NN	O	I-Material
-like	NN	O	I-Material
-AB	NN	O	I-Material
-di	NN	O	I-Material
--	NN	O	I-Material
-block	NN	O	I-Material
-copolymers	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-temperature	NN	O	O
-range	NN	O	O
-37–42	NN	O	O
-°	NN	O	O
-C	NN	O	O
-with	NN	O	O
-the	NN	O	O
-aim	NN	O	O
-of	NN	O	O
-targeting	NN	O	B-Task
-cancer	NN	O	I-Task
-cells	NN	O	I-Task
-[	NN	O	O
-51	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Bidwell	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-have	NN	O	O
-also	NN	O	O
-exploited	NN	O	O
-the	NN	O	O
-ELRs	NN	O	B-Material
-for	NN	O	O
-its	NN	O	O
-ability	NN	O	O
-to	NN	O	O
-serve	NN	O	O
-as	NN	O	O
-macromolecular	NN	O	B-Material
-carriers	NN	O	I-Material
-for	NN	O	O
-thermally	NN	O	B-Task
-targeted	NN	O	I-Task
-delivery	NN	O	I-Task
-of	NN	O	I-Task
-drugs	NN	O	I-Task
-.	NN	O	O
-
-Attachment	NN	O	O
-of	NN	O	O
-doxorubicin	NN	O	B-Material
-to	NN	O	O
-ELR	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-system	NN	O	I-Material
-showed	NN	O	O
-enhanced	NN	O	O
-cytotoxicity	NN	O	B-Process
-in	NN	O	O
-uterine	NN	O	B-Material
-sarcoma	NN	O	I-Material
-cells	NN	O	I-Material
-when	NN	O	O
-aggregation	NN	O	B-Process
-was	NN	O	O
-induced	NN	O	O
-with	NN	O	O
-hyperthermia	NN	O	B-Process
-[	NN	O	O
-52	NN	O	O
-]	NN	O	O
-.	NN	O	O
+ELRs	0	4	B-Material
+are	5	8	O
+particularly	9	21	O
+attractive	22	32	O
+for	33	36	O
+the	37	40	O
+synthesis	41	50	B-Process
+of	51	53	I-Process
+block	54	59	I-Process
+copolymers	60	70	I-Process
+that	71	75	O
+self	76	80	O
+-	80	81	O
+assemble	81	89	O
+into	90	94	O
+polymer	95	102	B-Material
+nanostructures	103	117	I-Material
+such	118	122	O
+as	123	125	O
+micelles	126	134	B-Material
+.	134	135	O
+
+The	136	139	O
+first	140	145	O
+work	146	150	O
+in	151	153	O
+this	154	158	O
+area	159	163	O
+involved	164	172	O
+an	173	175	O
+elastin	176	183	B-Material
+-	183	184	I-Material
+mimetic	184	191	I-Material
+di	192	194	I-Material
+-	194	195	I-Material
+block	195	200	I-Material
+copolymer	201	210	I-Material
+containing	211	221	O
+VPGEG–(IPGAG)4	222	236	B-Material
+and	237	240	O
+VPGFG–(IPGVG)4	241	255	B-Material
+as	256	258	O
+the	259	262	O
+hydrophilic	263	274	B-Material
+and	275	278	I-Material
+hydrophobic	279	290	I-Material
+blocks	291	297	I-Material
+,	297	298	O
+respectively	299	311	O
+[	312	313	O
+49	313	315	O
+]	315	316	O
+.	316	317	O
+
+The	318	321	O
+resulting	322	331	O
+micelles	332	340	B-Material
+were	341	345	O
+studied	346	353	O
+by	354	356	O
+dynamic	357	364	B-Process
+light	365	370	I-Process
+scattering	371	381	I-Process
+(	382	383	O
+DLS	383	386	B-Process
+)	386	387	O
+and	388	391	O
+DSC	392	395	B-Process
+was	396	399	O
+used	400	404	O
+to	405	407	O
+measure	408	415	O
+the	416	419	O
+enthalpy	420	428	O
+of	429	431	O
+self	432	436	B-Process
+-	436	437	I-Process
+assembly	437	445	I-Process
+.	445	446	O
+
+A	447	448	O
+tri	449	452	B-Material
+-	452	453	I-Material
+block	453	458	I-Material
+copolymer	459	468	I-Material
+was	469	472	O
+subsequently	473	485	O
+synthesized	486	497	O
+and	498	501	O
+the	502	505	O
+TEM	506	509	B-Material
+images	510	516	I-Material
+of	517	519	O
+this	520	524	O
+polymer	525	532	B-Material
+showed	533	539	O
+that	540	544	O
+it	545	547	O
+formed	548	554	O
+spherical	555	564	B-Material
+aggregates	565	575	I-Material
+[	576	577	O
+50	577	579	O
+]	579	580	O
+.	580	581	O
+
+Other	582	587	O
+multivalent	588	599	B-Material
+spherical	600	609	I-Material
+micelles	610	618	I-Material
+have	619	623	O
+been	624	628	O
+obtained	629	637	O
+from	638	642	O
+linear	643	649	B-Material
+elastin	650	657	I-Material
+-	657	658	I-Material
+like	658	662	I-Material
+AB	663	665	I-Material
+di	666	668	I-Material
+-	668	669	I-Material
+block	669	674	I-Material
+copolymers	675	685	I-Material
+in	686	688	O
+the	689	692	O
+temperature	693	704	O
+range	705	710	O
+37–42	711	716	O
+°	716	717	O
+C	717	718	O
+with	719	723	O
+the	724	727	O
+aim	728	731	O
+of	732	734	O
+targeting	735	744	B-Task
+cancer	745	751	I-Task
+cells	752	757	I-Task
+[	758	759	O
+51	759	761	O
+]	761	762	O
+.	762	763	O
+
+Bidwell	764	771	O
+et	772	774	O
+al	775	777	O
+.	777	778	O
+have	779	783	O
+also	784	788	O
+exploited	789	798	O
+the	799	802	O
+ELRs	803	807	B-Material
+for	808	811	O
+its	812	815	O
+ability	816	823	O
+to	824	826	O
+serve	827	832	O
+as	833	835	O
+macromolecular	836	850	B-Material
+carriers	851	859	I-Material
+for	860	863	O
+thermally	864	873	B-Task
+targeted	874	882	I-Task
+delivery	883	891	I-Task
+of	892	894	I-Task
+drugs	895	900	I-Task
+.	900	901	O
+
+Attachment	902	912	O
+of	913	915	O
+doxorubicin	916	927	B-Material
+to	928	930	O
+ELR	931	934	B-Material
+-	934	935	I-Material
+based	935	940	I-Material
+system	941	947	I-Material
+showed	948	954	O
+enhanced	955	963	O
+cytotoxicity	964	976	B-Process
+in	977	979	O
+uterine	980	987	B-Material
+sarcoma	988	995	I-Material
+cells	996	1001	I-Material
+when	1002	1006	O
+aggregation	1007	1018	B-Process
+was	1019	1022	O
+induced	1023	1030	O
+with	1031	1035	O
+hyperthermia	1036	1048	B-Process
+[	1049	1050	O
+52	1050	1052	O
+]	1052	1053	O
+.	1053	1054	O
 
 
 -DOCSTART- (S0032386109007423)
 
-In	NN	O	O
-general	NN	O	O
-,	NN	O	O
-the	NN	O	O
-ion	NN	O	B-Process
-exchange	NN	O	I-Process
-capacity	NN	O	I-Process
-(	NN	O	O
-IEC	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-closely	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-proton	NN	O	B-Process
-conductivity	NN	O	I-Process
-of	NN	O	O
-PEMs	NN	O	B-Material
-because	NN	O	O
-the	NN	O	O
-acid	NN	O	O
-functionalities	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-sulfonic	NN	O	B-Material
-acid	NN	O	I-Material
-groups	NN	O	I-Material
-,	NN	O	O
-contribute	NN	O	O
-to	NN	O	O
-the	NN	O	O
-proton	NN	O	B-Process
-conduction	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-membrane	NN	O	B-Material
-.	NN	O	O
-
-Beyond	NN	O	O
-a	NN	O	O
-certain	NN	O	O
-sulfonation	NN	O	O
-degree	NN	O	O
-,	NN	O	O
-PEMs	NN	O	B-Material
-tend	NN	O	O
-to	NN	O	O
-absorb	NN	O	O
-too	NN	O	O
-much	NN	O	O
-water	NN	O	B-Material
-or	NN	O	O
-are	NN	O	O
-even	NN	O	O
-soluble	NN	O	O
-in	NN	O	O
-water	NN	O	B-Material
-,	NN	O	O
-which	NN	O	O
-negatively	NN	O	O
-affect	NN	O	O
-their	NN	O	O
-mechanical	NN	O	O
-resistance	NN	O	O
-and	NN	O	O
-water	NN	O	B-Material
-resistance	NN	O	O
-[	NN	O	O
-17,18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-the	NN	O	O
-improvement	NN	O	B-Task
-of	NN	O	I-Task
-proton	NN	O	I-Task
-conductivity	NN	O	I-Task
-using	NN	O	I-Task
-aromatic	NN	O	I-Task
-polymers	NN	O	I-Task
-with	NN	O	I-Task
-moderately	NN	O	I-Task
-adjusted	NN	O	I-Task
-IEC	NN	O	I-Task
-values	NN	O	I-Task
-has	NN	O	O
-been	NN	O	O
-under	NN	O	O
-intense	NN	O	O
-investigation	NN	O	O
-[	NN	O	O
-19–23	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-achieve	NN	O	O
-high	NN	O	B-Process
-proton	NN	O	I-Process
-conductivity	NN	O	I-Process
-with	NN	O	O
-moderate	NN	O	O
-IEC	NN	O	B-Process
-values	NN	O	O
-,	NN	O	O
-the	NN	O	O
-formation	NN	O	B-Process
-of	NN	O	I-Process
-ion	NN	O	I-Process
-channel	NN	O	I-Process
-structures	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-enable	NN	O	O
-effective	NN	O	B-Process
-proton	NN	O	I-Process
-conduction	NN	O	I-Process
-,	NN	O	O
-has	NN	O	O
-been	NN	O	O
-studied	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-course	NN	O	O
-of	NN	O	O
-these	NN	O	O
-studies	NN	O	O
-,	NN	O	O
-an	NN	O	O
-ideal	NN	O	O
-morphology	NN	O	O
-has	NN	O	O
-been	NN	O	O
-pursued	NN	O	O
-by	NN	O	O
-microphase	NN	O	O
-separation	NN	O	O
-of	NN	O	O
-segmented	NN	O	B-Material
-block	NN	O	I-Material
-copolymers	NN	O	I-Material
-in	NN	O	O
-which	NN	O	O
-hydrophilic	NN	O	B-Material
-sulfonated	NN	O	I-Material
-polymer	NN	O	I-Material
-segments	NN	O	I-Material
-form	NN	O	O
-an	NN	O	O
-interconnected	NN	O	B-Material
-three	NN	O	I-Material
--	NN	O	I-Material
-dimensional	NN	O	I-Material
-network	NN	O	I-Material
-responsible	NN	O	O
-for	NN	O	O
-efficient	NN	O	O
-proton	NN	O	B-Process
-transport	NN	O	I-Process
-,	NN	O	O
-while	NN	O	O
-a	NN	O	O
-complementary	NN	O	B-Process
-network	NN	O	I-Process
-of	NN	O	I-Process
-hydrophobic	NN	O	I-Process
-non	NN	O	I-Process
--	NN	O	I-Process
-sulfonated	NN	O	I-Process
-segments	NN	O	I-Process
-imparts	NN	O	O
-a	NN	O	O
-reinforcing	NN	O	O
-effect	NN	O	O
-,	NN	O	O
-preventing	NN	O	B-Task
-excessive	NN	O	I-Task
-swelling	NN	O	I-Task
-in	NN	O	I-Task
-water	NN	O	I-Task
-and	NN	O	O
-enhancing	NN	O	B-Task
-the	NN	O	I-Task
-mechanical	NN	O	I-Task
-properties	NN	O	I-Task
-.	NN	O	O
-
-An	NN	O	O
-image	NN	O	O
-of	NN	O	O
-the	NN	O	O
-ideal	NN	O	O
-morphology	NN	O	O
-for	NN	O	O
-PEMs	NN	O	B-Material
-is	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-2	NN	O	O
-.	NN	O	O
+In	0	2	O
+general	3	10	O
+,	10	11	O
+the	12	15	O
+ion	16	19	B-Process
+exchange	20	28	I-Process
+capacity	29	37	I-Process
+(	38	39	O
+IEC	39	42	B-Process
+)	42	43	O
+is	44	46	O
+closely	47	54	O
+related	55	62	O
+to	63	65	O
+the	66	69	O
+proton	70	76	B-Process
+conductivity	77	89	I-Process
+of	90	92	O
+PEMs	93	97	B-Material
+because	98	105	O
+the	106	109	O
+acid	110	114	O
+functionalities	115	130	O
+,	130	131	O
+such	132	136	O
+as	137	139	O
+sulfonic	140	148	B-Material
+acid	149	153	I-Material
+groups	154	160	I-Material
+,	160	161	O
+contribute	162	172	O
+to	173	175	O
+the	176	179	O
+proton	180	186	B-Process
+conduction	187	197	I-Process
+in	198	200	O
+a	201	202	O
+membrane	203	211	B-Material
+.	211	212	O
+
+Beyond	213	219	O
+a	220	221	O
+certain	222	229	O
+sulfonation	230	241	O
+degree	242	248	O
+,	248	249	O
+PEMs	250	254	B-Material
+tend	255	259	O
+to	260	262	O
+absorb	263	269	O
+too	270	273	O
+much	274	278	O
+water	279	284	B-Material
+or	285	287	O
+are	288	291	O
+even	292	296	O
+soluble	297	304	O
+in	305	307	O
+water	308	313	B-Material
+,	313	314	O
+which	315	320	O
+negatively	321	331	O
+affect	332	338	O
+their	339	344	O
+mechanical	345	355	O
+resistance	356	366	O
+and	367	370	O
+water	371	376	B-Material
+resistance	377	387	O
+[	388	389	O
+17,18	389	394	O
+]	394	395	O
+.	395	396	O
+
+Therefore	397	406	O
+,	406	407	O
+the	408	411	O
+improvement	412	423	B-Task
+of	424	426	I-Task
+proton	427	433	I-Task
+conductivity	434	446	I-Task
+using	447	452	I-Task
+aromatic	453	461	I-Task
+polymers	462	470	I-Task
+with	471	475	I-Task
+moderately	476	486	I-Task
+adjusted	487	495	I-Task
+IEC	496	499	I-Task
+values	500	506	I-Task
+has	507	510	O
+been	511	515	O
+under	516	521	O
+intense	522	529	O
+investigation	530	543	O
+[	544	545	O
+19–23	545	550	O
+]	550	551	O
+.	551	552	O
+
+To	553	555	O
+achieve	556	563	O
+high	564	568	B-Process
+proton	569	575	I-Process
+conductivity	576	588	I-Process
+with	589	593	O
+moderate	594	602	O
+IEC	603	606	B-Process
+values	607	613	O
+,	613	614	O
+the	615	618	O
+formation	619	628	B-Process
+of	629	631	I-Process
+ion	632	635	I-Process
+channel	636	643	I-Process
+structures	644	654	I-Process
+,	654	655	O
+which	656	661	O
+enable	662	668	O
+effective	669	678	B-Process
+proton	679	685	I-Process
+conduction	686	696	I-Process
+,	696	697	O
+has	698	701	O
+been	702	706	O
+studied	707	714	O
+.	714	715	O
+
+In	716	718	O
+the	719	722	O
+course	723	729	O
+of	730	732	O
+these	733	738	O
+studies	739	746	O
+,	746	747	O
+an	748	750	O
+ideal	751	756	O
+morphology	757	767	O
+has	768	771	O
+been	772	776	O
+pursued	777	784	O
+by	785	787	O
+microphase	788	798	O
+separation	799	809	O
+of	810	812	O
+segmented	813	822	B-Material
+block	823	828	I-Material
+copolymers	829	839	I-Material
+in	840	842	O
+which	843	848	O
+hydrophilic	849	860	B-Material
+sulfonated	861	871	I-Material
+polymer	872	879	I-Material
+segments	880	888	I-Material
+form	889	893	O
+an	894	896	O
+interconnected	897	911	B-Material
+three	912	917	I-Material
+-	917	918	I-Material
+dimensional	918	929	I-Material
+network	930	937	I-Material
+responsible	938	949	O
+for	950	953	O
+efficient	954	963	O
+proton	964	970	B-Process
+transport	971	980	I-Process
+,	980	981	O
+while	982	987	O
+a	988	989	O
+complementary	990	1003	B-Process
+network	1004	1011	I-Process
+of	1012	1014	I-Process
+hydrophobic	1015	1026	I-Process
+non	1027	1030	I-Process
+-	1030	1031	I-Process
+sulfonated	1031	1041	I-Process
+segments	1042	1050	I-Process
+imparts	1051	1058	O
+a	1059	1060	O
+reinforcing	1061	1072	O
+effect	1073	1079	O
+,	1079	1080	O
+preventing	1081	1091	B-Task
+excessive	1092	1101	I-Task
+swelling	1102	1110	I-Task
+in	1111	1113	I-Task
+water	1114	1119	I-Task
+and	1120	1123	O
+enhancing	1124	1133	B-Task
+the	1134	1137	I-Task
+mechanical	1138	1148	I-Task
+properties	1149	1159	I-Task
+.	1159	1160	O
+
+An	1161	1163	O
+image	1164	1169	O
+of	1170	1172	O
+the	1173	1176	O
+ideal	1177	1182	O
+morphology	1183	1193	O
+for	1194	1197	O
+PEMs	1198	1202	B-Material
+is	1203	1205	O
+shown	1206	1211	O
+in	1212	1214	O
+Fig	1215	1218	O
+.	1218	1219	O
+
+2	1220	1221	O
+.	1221	1222	O
 
 
 -DOCSTART- (S0032386109010386)
 
-From	NN	O	O
-a	NN	O	O
-general	NN	O	O
-point	NN	O	O
-of	NN	O	O
-view	NN	O	O
-,	NN	O	O
-polymerization	NN	O	B-Process
-techniques	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-divided	NN	O	O
-into	NN	O	O
-two	NN	O	O
-types	NN	O	O
-of	NN	O	O
-chemical	NN	O	B-Process
-reactions	NN	O	I-Process
-:	NN	O	O
-step	NN	O	B-Process
--	NN	O	I-Process
-growth	NN	O	I-Process
-polymerization	NN	O	I-Process
-and	NN	O	O
-free	NN	O	B-Process
-radical	NN	O	I-Process
-polymerization	NN	O	I-Process
-.	NN	O	O
-
-Step	NN	O	B-Process
--	NN	O	I-Process
-growth	NN	O	I-Process
-polymerization	NN	O	I-Process
-is	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-for	NN	O	O
-synthesis	NN	O	B-Task
-of	NN	O	I-Task
-polyesters	NN	O	I-Task
-,	NN	O	O
-polyamide	NN	O	B-Material
-and	NN	O	O
-epoxies	NN	O	B-Material
-while	NN	O	O
-the	NN	O	O
-synthesis	NN	O	B-Process
-of	NN	O	I-Process
-polyacrylics	NN	O	I-Process
-requires	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-free	NN	O	B-Process
-radical	NN	O	I-Process
-polymerization	NN	O	I-Process
-.	NN	O	O
-
-These	NN	O	O
-polymerization	NN	O	B-Process
-reactions	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-performed	NN	O	O
-either	NN	O	O
-in	NN	O	O
-bulk	NN	O	B-Material
-or	NN	O	O
-in	NN	O	O
-solution	NN	O	B-Material
-or	NN	O	O
-in	NN	O	O
-dispersed	NN	O	B-Material
-media	NN	O	I-Material
-.	NN	O	O
-
-Heterophase	NN	O	B-Process
-polymerizations	NN	O	I-Process
-(	NN	O	O
-i.e.	NN	O	O
-emulsion	NN	O	B-Process
-,	NN	O	O
-dispersion	NN	O	B-Process
-and	NN	O	O
-miniemulsion	NN	O	B-Process
-polymerizations	NN	O	I-Process
-)	NN	O	O
-present	NN	O	O
-the	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-easier	NN	O	O
-removal	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-resulting	NN	O	I-Task
-product	NN	O	I-Task
-from	NN	O	O
-the	NN	O	O
-reactor	NN	O	B-Material
-compared	NN	O	O
-to	NN	O	O
-bulk	NN	O	B-Process
-polymerization	NN	O	I-Process
-thanks	NN	O	O
-to	NN	O	O
-the	NN	O	O
-low	NN	O	O
-viscosity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-reaction	NN	O	B-Material
-medium	NN	O	I-Material
-.	NN	O	O
-
-Polymerization	NN	O	B-Process
-in	NN	O	O
-solution	NN	O	B-Material
-also	NN	O	O
-induces	NN	O	O
-lower	NN	O	O
-viscosity	NN	O	O
-but	NN	O	O
-also	NN	O	O
-lower	NN	O	O
-reaction	NN	O	B-Process
-rates	NN	O	O
-due	NN	O	O
-to	NN	O	O
-dilution	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-reactants	NN	O	B-Material
-and	NN	O	O
-higher	NN	O	O
-cost	NN	O	O
-and	NN	O	O
-environmental	NN	O	O
-impact	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-organic	NN	O	B-Material
-solvents	NN	O	I-Material
-.	NN	O	O
-
-These	NN	O	O
-problems	NN	O	O
-are	NN	O	O
-solved	NN	O	O
-in	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-heterophase	NN	O	B-Process
-polymerizations	NN	O	I-Process
-where	NN	O	O
-the	NN	O	O
-reactants	NN	O	B-Material
-are	NN	O	O
-confined	NN	O	O
-inside	NN	O	O
-droplets	NN	O	B-Material
-(	NN	O	O
-no	NN	O	O
-dilution	NN	O	B-Process
-effect	NN	O	I-Process
-)	NN	O	O
-and	NN	O	O
-water	NN	O	B-Material
-is	NN	O	O
-used	NN	O	O
-as	NN	O	O
-medium	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-use	NN	O	O
-of	NN	O	O
-surfactant	NN	O	B-Material
-molecules	NN	O	I-Material
-are	NN	O	O
-usually	NN	O	O
-needed	NN	O	O
-for	NN	O	O
-the	NN	O	O
-stabilization	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-monomer	NN	O	I-Process
-droplet	NN	O	I-Process
-and	NN	O	O
-subsequent	NN	O	O
-polymer	NN	O	B-Material
-particles	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-water	NN	O	B-Material
-phase	NN	O	O
-.	NN	O	O
+From	0	4	O
+a	5	6	O
+general	7	14	O
+point	15	20	O
+of	21	23	O
+view	24	28	O
+,	28	29	O
+polymerization	30	44	B-Process
+techniques	45	55	I-Process
+can	56	59	O
+be	60	62	O
+divided	63	70	O
+into	71	75	O
+two	76	79	O
+types	80	85	O
+of	86	88	O
+chemical	89	97	B-Process
+reactions	98	107	I-Process
+:	107	108	O
+step	109	113	B-Process
+-	113	114	I-Process
+growth	114	120	I-Process
+polymerization	121	135	I-Process
+and	136	139	O
+free	140	144	B-Process
+radical	145	152	I-Process
+polymerization	153	167	I-Process
+.	167	168	O
+
+Step	169	173	B-Process
+-	173	174	I-Process
+growth	174	180	I-Process
+polymerization	181	195	I-Process
+is	196	198	O
+widely	199	205	O
+used	206	210	O
+for	211	214	O
+synthesis	215	224	B-Task
+of	225	227	I-Task
+polyesters	228	238	I-Task
+,	238	239	O
+polyamide	240	249	B-Material
+and	250	253	O
+epoxies	254	261	B-Material
+while	262	267	O
+the	268	271	O
+synthesis	272	281	B-Process
+of	282	284	I-Process
+polyacrylics	285	297	I-Process
+requires	298	306	O
+the	307	310	O
+use	311	314	O
+of	315	317	O
+free	318	322	B-Process
+radical	323	330	I-Process
+polymerization	331	345	I-Process
+.	345	346	O
+
+These	347	352	O
+polymerization	353	367	B-Process
+reactions	368	377	I-Process
+can	378	381	O
+be	382	384	O
+performed	385	394	O
+either	395	401	O
+in	402	404	O
+bulk	405	409	B-Material
+or	410	412	O
+in	413	415	O
+solution	416	424	B-Material
+or	425	427	O
+in	428	430	O
+dispersed	431	440	B-Material
+media	441	446	I-Material
+.	446	447	O
+
+Heterophase	448	459	B-Process
+polymerizations	460	475	I-Process
+(	476	477	O
+i.e.	477	481	O
+emulsion	482	490	B-Process
+,	490	491	O
+dispersion	492	502	B-Process
+and	503	506	O
+miniemulsion	507	519	B-Process
+polymerizations	520	535	I-Process
+)	535	536	O
+present	537	544	O
+the	545	548	O
+advantage	549	558	O
+of	559	561	O
+easier	562	568	O
+removal	569	576	B-Task
+of	577	579	I-Task
+the	580	583	I-Task
+resulting	584	593	I-Task
+product	594	601	I-Task
+from	602	606	O
+the	607	610	O
+reactor	611	618	B-Material
+compared	619	627	O
+to	628	630	O
+bulk	631	635	B-Process
+polymerization	636	650	I-Process
+thanks	651	657	O
+to	658	660	O
+the	661	664	O
+low	665	668	O
+viscosity	669	678	O
+of	679	681	O
+the	682	685	O
+reaction	686	694	B-Material
+medium	695	701	I-Material
+.	701	702	O
+
+Polymerization	703	717	B-Process
+in	718	720	O
+solution	721	729	B-Material
+also	730	734	O
+induces	735	742	O
+lower	743	748	O
+viscosity	749	758	O
+but	759	762	O
+also	763	767	O
+lower	768	773	O
+reaction	774	782	B-Process
+rates	783	788	O
+due	789	792	O
+to	793	795	O
+dilution	796	804	B-Process
+of	805	807	O
+the	808	811	O
+reactants	812	821	B-Material
+and	822	825	O
+higher	826	832	O
+cost	833	837	O
+and	838	841	O
+environmental	842	855	O
+impact	856	862	O
+due	863	866	O
+to	867	869	O
+the	870	873	O
+use	874	877	O
+of	878	880	O
+organic	881	888	B-Material
+solvents	889	897	I-Material
+.	897	898	O
+
+These	899	904	O
+problems	905	913	O
+are	914	917	O
+solved	918	924	O
+in	925	927	O
+the	928	931	O
+case	932	936	O
+of	937	939	O
+heterophase	940	951	B-Process
+polymerizations	952	967	I-Process
+where	968	973	O
+the	974	977	O
+reactants	978	987	B-Material
+are	988	991	O
+confined	992	1000	O
+inside	1001	1007	O
+droplets	1008	1016	B-Material
+(	1017	1018	O
+no	1018	1020	O
+dilution	1021	1029	B-Process
+effect	1030	1036	I-Process
+)	1036	1037	O
+and	1038	1041	O
+water	1042	1047	B-Material
+is	1048	1050	O
+used	1051	1055	O
+as	1056	1058	O
+medium	1059	1065	O
+.	1065	1066	O
+
+The	1067	1070	O
+use	1071	1074	O
+of	1075	1077	O
+surfactant	1078	1088	B-Material
+molecules	1089	1098	I-Material
+are	1099	1102	O
+usually	1103	1110	O
+needed	1111	1117	O
+for	1118	1121	O
+the	1122	1125	O
+stabilization	1126	1139	B-Process
+of	1140	1142	I-Process
+the	1143	1146	I-Process
+monomer	1147	1154	I-Process
+droplet	1155	1162	I-Process
+and	1163	1166	O
+subsequent	1167	1177	O
+polymer	1178	1185	B-Material
+particles	1186	1195	I-Material
+in	1196	1198	O
+the	1199	1202	O
+water	1203	1208	B-Material
+phase	1209	1214	O
+.	1214	1215	O
 
 
 -DOCSTART- (S0032386110001667)
 
-Note	NN	O	O
-that	NN	O	O
-the	NN	O	O
-quantitative	NN	O	B-Task
-introduction	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-reactive	NN	O	I-Task
-functionality	NN	O	I-Task
-into	NN	O	I-Task
-the	NN	O	I-Task
-polymer	NN	O	I-Task
-chain	NN	O	I-Task
-end	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-easily	NN	O	O
-achieved	NN	O	O
-by	NN	O	O
-adopting	NN	O	O
-the	NN	O	O
-living	NN	O	B-Process
-ROMP	NN	O	I-Process
-technique	NN	O	I-Process
-especially	NN	O	O
-using	NN	O	O
-the	NN	O	O
-Schrock	NN	O	B-Material
-type	NN	O	I-Material
-molybdenum	NN	O	I-Material
-alkylidene	NN	O	I-Material
-initiator	NN	O	I-Material
-[	NN	O	O
-7,12,21,61–65	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-exclusive	NN	O	O
-preparation	NN	O	B-Process
-of	NN	O	I-Process
-end	NN	O	I-Process
--	NN	O	I-Process
-functionalized	NN	O	I-Process
-ring	NN	O	I-Process
--	NN	O	I-Process
-opened	NN	O	I-Process
-polymers	NN	O	I-Process
-(	NN	O	O
-realized	NN	O	O
-by	NN	O	O
-a	NN	O	O
-living	NN	O	B-Process
-polymerization	NN	O	I-Process
-with	NN	O	I-Process
-quantitative	NN	O	I-Process
-initiation	NN	O	I-Process
-)	NN	O	O
-can	NN	O	O
-be	NN	O	O
-applied	NN	O	O
-not	NN	O	O
-only	NN	O	O
-to	NN	O	O
-prepare	NN	O	O
-block	NN	O	B-Material
-copolymers	NN	O	I-Material
-(	NN	O	O
-ABCs	NN	O	B-Material
-)	NN	O	O
-coupled	NN	O	O
-with	NN	O	O
-another	NN	O	O
-living	NN	O	B-Process
-polymerization	NN	O	I-Process
-techniques	NN	O	I-Process
-[	NN	O	O
-66	NN	O	O
-]	NN	O	O
-,	NN	O	O
-but	NN	O	O
-also	NN	O	O
-for	NN	O	O
-preparation	NN	O	B-Process
-of	NN	O	I-Process
-macromonomers	NN	O	I-Process
-,	NN	O	O
-as	NN	O	O
-described	NN	O	O
-below	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-contrast	NN	O	O
-,	NN	O	O
-the	NN	O	O
-initiation	NN	O	O
-efficiency	NN	O	O
-is	NN	O	O
-not	NN	O	O
-always	NN	O	O
-perfect	NN	O	O
-as	NN	O	O
-seen	NN	O	O
-in	NN	O	O
-the	NN	O	O
-molybdenum	NN	O	B-Material
-alkylidene	NN	O	I-Material
-initiators	NN	O	I-Material
-,	NN	O	O
-because	NN	O	O
-dissociation	NN	O	B-Process
-of	NN	O	O
-ligand	NN	O	B-Material
-(	NN	O	O
-PR3	NN	O	B-Material
-etc	NN	O	O
-.	NN	O	O
-)	NN	O	O
-should	NN	O	O
-be	NN	O	O
-required	NN	O	O
-to	NN	O	O
-generate	NN	O	B-Process
-the	NN	O	I-Process
-catalytically	NN	O	I-Process
-active	NN	O	I-Process
-species	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-ROMP	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-ruthenium	NN	O	B-Material
-carbene	NN	O	I-Material
-catalysts	NN	O	I-Material
-(	NN	O	O
-Scheme	NN	O	O
-2	NN	O	O
-)	NN	O	O
-[	NN	O	O
-67–69	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-equilibrium	NN	O	O
-between	NN	O	O
-coordination	NN	O	B-Process
-and	NN	O	O
-dissociation	NN	O	B-Process
-of	NN	O	O
-PR3	NN	O	B-Material
-should	NN	O	O
-be	NN	O	O
-present	NN	O	O
-even	NN	O	O
-in	NN	O	O
-the	NN	O	O
-propagation	NN	O	B-Process
-process	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-replacement	NN	O	O
-of	NN	O	O
-halogen	NN	O	B-Material
-with	NN	O	O
-the	NN	O	O
-other	NN	O	O
-anionic	NN	O	B-Material
-ligand	NN	O	I-Material
-(	NN	O	O
-and/or	NN	O	O
-replacement	NN	O	O
-of	NN	O	O
-PR3	NN	O	B-Material
-with	NN	O	O
-the	NN	O	O
-other	NN	O	O
-neutral	NN	O	B-Material
-donor	NN	O	I-Material
-ligands	NN	O	I-Material
-/	NN	O	I-Material
-substrates	NN	O	I-Material
-)	NN	O	O
-can	NN	O	O
-also	NN	O	O
-be	NN	O	O
-considered	NN	O	O
-as	NN	O	O
-the	NN	O	O
-probable	NN	O	O
-side	NN	O	O
-reactions	NN	O	O
-.	NN	O	O
-
-Importance	NN	O	O
-of	NN	O	O
-using	NN	O	O
-the	NN	O	O
-molybdenum	NN	O	B-Material
-catalysts	NN	O	I-Material
-should	NN	O	O
-be	NN	O	O
-thus	NN	O	O
-emphasized	NN	O	O
-for	NN	O	O
-their	NN	O	O
-precise	NN	O	O
-preparations	NN	O	O
-,	NN	O	O
-although	NN	O	O
-the	NN	O	O
-initiators	NN	O	O
-are	NN	O	O
-highly	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-moisture	NN	O	O
-and	NN	O	O
-both	NN	O	O
-monomers	NN	O	B-Material
-and	NN	O	O
-solvent	NN	O	B-Material
-have	NN	O	O
-to	NN	O	O
-be	NN	O	O
-thus	NN	O	O
-strictly	NN	O	O
-purified	NN	O	O
-to	NN	O	O
-avoid	NN	O	O
-the	NN	O	O
-catalyst	NN	O	B-Material
-decomposition	NN	O	B-Process
-(	NN	O	O
-deactivation	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
+Note	0	4	O
+that	5	9	O
+the	10	13	O
+quantitative	14	26	B-Task
+introduction	27	39	I-Task
+of	40	42	I-Task
+a	43	44	I-Task
+reactive	45	53	I-Task
+functionality	54	67	I-Task
+into	68	72	I-Task
+the	73	76	I-Task
+polymer	77	84	I-Task
+chain	85	90	I-Task
+end	91	94	I-Task
+can	95	98	O
+be	99	101	O
+easily	102	108	O
+achieved	109	117	O
+by	118	120	O
+adopting	121	129	O
+the	130	133	O
+living	134	140	B-Process
+ROMP	141	145	I-Process
+technique	146	155	I-Process
+especially	156	166	O
+using	167	172	O
+the	173	176	O
+Schrock	177	184	B-Material
+type	185	189	I-Material
+molybdenum	190	200	I-Material
+alkylidene	201	211	I-Material
+initiator	212	221	I-Material
+[	222	223	O
+7,12,21,61–65	223	236	O
+]	236	237	O
+.	237	238	O
+
+The	239	242	O
+exclusive	243	252	O
+preparation	253	264	B-Process
+of	265	267	I-Process
+end	268	271	I-Process
+-	271	272	I-Process
+functionalized	272	286	I-Process
+ring	287	291	I-Process
+-	291	292	I-Process
+opened	292	298	I-Process
+polymers	299	307	I-Process
+(	308	309	O
+realized	309	317	O
+by	318	320	O
+a	321	322	O
+living	323	329	B-Process
+polymerization	330	344	I-Process
+with	345	349	I-Process
+quantitative	350	362	I-Process
+initiation	363	373	I-Process
+)	373	374	O
+can	375	378	O
+be	379	381	O
+applied	382	389	O
+not	390	393	O
+only	394	398	O
+to	399	401	O
+prepare	402	409	O
+block	410	415	B-Material
+copolymers	416	426	I-Material
+(	427	428	O
+ABCs	428	432	B-Material
+)	432	433	O
+coupled	434	441	O
+with	442	446	O
+another	447	454	O
+living	455	461	B-Process
+polymerization	462	476	I-Process
+techniques	477	487	I-Process
+[	488	489	O
+66	489	491	O
+]	491	492	O
+,	492	493	O
+but	494	497	O
+also	498	502	O
+for	503	506	O
+preparation	507	518	B-Process
+of	519	521	I-Process
+macromonomers	522	535	I-Process
+,	535	536	O
+as	537	539	O
+described	540	549	O
+below	550	555	O
+.	555	556	O
+
+In	557	559	O
+contrast	560	568	O
+,	568	569	O
+the	570	573	O
+initiation	574	584	O
+efficiency	585	595	O
+is	596	598	O
+not	599	602	O
+always	603	609	O
+perfect	610	617	O
+as	618	620	O
+seen	621	625	O
+in	626	628	O
+the	629	632	O
+molybdenum	633	643	B-Material
+alkylidene	644	654	I-Material
+initiators	655	665	I-Material
+,	665	666	O
+because	667	674	O
+dissociation	675	687	B-Process
+of	688	690	O
+ligand	691	697	B-Material
+(	698	699	O
+PR3	699	702	B-Material
+etc	703	706	O
+.	706	707	O
+)	707	708	O
+should	709	715	O
+be	716	718	O
+required	719	727	O
+to	728	730	O
+generate	731	739	B-Process
+the	740	743	I-Process
+catalytically	744	757	I-Process
+active	758	764	I-Process
+species	765	772	I-Process
+in	773	775	I-Process
+the	776	779	I-Process
+ROMP	780	784	I-Process
+with	785	789	O
+the	790	793	O
+ruthenium	794	803	B-Material
+carbene	804	811	I-Material
+catalysts	812	821	I-Material
+(	822	823	O
+Scheme	823	829	O
+2	830	831	O
+)	831	832	O
+[	833	834	O
+67–69	834	839	O
+]	839	840	O
+.	840	841	O
+
+An	842	844	O
+equilibrium	845	856	O
+between	857	864	O
+coordination	865	877	B-Process
+and	878	881	O
+dissociation	882	894	B-Process
+of	895	897	O
+PR3	898	901	B-Material
+should	902	908	O
+be	909	911	O
+present	912	919	O
+even	920	924	O
+in	925	927	O
+the	928	931	O
+propagation	932	943	B-Process
+process	944	951	I-Process
+,	951	952	O
+and	953	956	O
+replacement	957	968	O
+of	969	971	O
+halogen	972	979	B-Material
+with	980	984	O
+the	985	988	O
+other	989	994	O
+anionic	995	1002	B-Material
+ligand	1003	1009	I-Material
+(	1010	1011	O
+and/or	1011	1017	O
+replacement	1018	1029	O
+of	1030	1032	O
+PR3	1033	1036	B-Material
+with	1037	1041	O
+the	1042	1045	O
+other	1046	1051	O
+neutral	1052	1059	B-Material
+donor	1060	1065	I-Material
+ligands	1066	1073	I-Material
+/	1073	1074	I-Material
+substrates	1074	1084	I-Material
+)	1084	1085	O
+can	1086	1089	O
+also	1090	1094	O
+be	1095	1097	O
+considered	1098	1108	O
+as	1109	1111	O
+the	1112	1115	O
+probable	1116	1124	O
+side	1125	1129	O
+reactions	1130	1139	O
+.	1139	1140	O
+
+Importance	1141	1151	O
+of	1152	1154	O
+using	1155	1160	O
+the	1161	1164	O
+molybdenum	1165	1175	B-Material
+catalysts	1176	1185	I-Material
+should	1186	1192	O
+be	1193	1195	O
+thus	1196	1200	O
+emphasized	1201	1211	O
+for	1212	1215	O
+their	1216	1221	O
+precise	1222	1229	O
+preparations	1230	1242	O
+,	1242	1243	O
+although	1244	1252	O
+the	1253	1256	O
+initiators	1257	1267	O
+are	1268	1271	O
+highly	1272	1278	O
+sensitive	1279	1288	O
+to	1289	1291	O
+moisture	1292	1300	O
+and	1301	1304	O
+both	1305	1309	O
+monomers	1310	1318	B-Material
+and	1319	1322	O
+solvent	1323	1330	B-Material
+have	1331	1335	O
+to	1336	1338	O
+be	1339	1341	O
+thus	1342	1346	O
+strictly	1347	1355	O
+purified	1356	1364	O
+to	1365	1367	O
+avoid	1368	1373	O
+the	1374	1377	O
+catalyst	1378	1386	B-Material
+decomposition	1387	1400	B-Process
+(	1401	1402	O
+deactivation	1402	1414	B-Process
+)	1414	1415	O
+.	1415	1416	O
 
 
 -DOCSTART- (S0032386110004039)
 
-An	NN	O	O
-application	NN	O	O
-of	NN	O	O
-ROMP	NN	O	B-Material
-derived	NN	O	I-Material
-random	NN	O	I-Material
-copolymers	NN	O	I-Material
-is	NN	O	O
-the	NN	O	O
-covalent	NN	O	B-Task
-incorporation	NN	O	I-Task
-of	NN	O	I-Task
-optical	NN	O	I-Task
-sensor	NN	O	I-Task
-moieties	NN	O	I-Task
-into	NN	O	I-Task
-a	NN	O	I-Task
-polymer	NN	O	I-Task
-matrix	NN	O	I-Task
-.	NN	O	O
-
-ROM	NN	O	B-Material
-polymers	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-tested	NN	O	O
-as	NN	O	O
-matrix	NN	O	B-Material
-materials	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-oxygen	NN	O	B-Material
-sensing	NN	O	O
-phosphorescent	NN	O	B-Material
-complex	NN	O	I-Material
-platinum	NN	O	I-Material
-tetrakis(pentafluorophenyl)porphyrin	NN	O	I-Material
-.	NN	O	O
-
-A	NN	O	O
-correlation	NN	O	O
-between	NN	O	O
-the	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-ROM	NN	O	B-Material
-polymer	NN	O	I-Material
-’s	NN	O	I-Material
-side	NN	O	I-Material
-chain	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-optical	NN	O	O
-response	NN	O	O
-of	NN	O	O
-the	NN	O	O
-sensor	NN	O	B-Material
-molecules	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-established	NN	O	O
-[	NN	O	O
-34	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Several	NN	O	O
-works	NN	O	O
-are	NN	O	O
-dedicated	NN	O	O
-to	NN	O	O
-the	NN	O	O
-synthesis	NN	O	B-Task
-of	NN	O	I-Task
-ROMP	NN	O	I-Task
--	NN	O	I-Task
-able	NN	O	I-Task
-optical	NN	O	I-Task
-sensor	NN	O	I-Task
-molecules	NN	O	I-Task
-such	NN	O	O
-as	NN	O	O
-phenantroimidazoles	NN	O	B-Material
-[	NN	O	O
-35,36	NN	O	O
-]	NN	O	O
-,	NN	O	O
-europium	NN	O	B-Material
-complexes	NN	O	I-Material
-[	NN	O	O
-37	NN	O	O
-]	NN	O	O
-or	NN	O	O
-xanthene	NN	O	B-Material
-dyes	NN	O	I-Material
-[	NN	O	O
-38	NN	O	O
-]	NN	O	O
-,	NN	O	O
-their	NN	O	O
-random	NN	O	O
-copolymerization	NN	O	B-Process
-and	NN	O	O
-the	NN	O	O
-evaluation	NN	O	B-Task
-of	NN	O	I-Task
-their	NN	O	I-Task
-sensing	NN	O	I-Task
-profiles	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-copolymers	NN	O	I-Task
-.	NN	O	O
-
-Another	NN	O	O
-application	NN	O	O
-comprises	NN	O	O
-random	NN	O	B-Task
-copolymers	NN	O	I-Task
-with	NN	O	I-Task
-covalently	NN	O	I-Task
-bound	NN	O	I-Task
-eosin	NN	O	I-Task
-and/or	NN	O	I-Task
-ethyl	NN	O	I-Task
-dimethylamino	NN	O	I-Task
-benzoate	NN	O	I-Task
-units	NN	O	I-Task
-which	NN	O	O
-were	NN	O	O
-tested	NN	O	O
-as	NN	O	O
-macroinitiators	NN	O	B-Material
-for	NN	O	O
-the	NN	O	O
-photopolymerization	NN	O	O
-of	NN	O	O
-acrylates	NN	O	B-Material
-aiming	NN	O	O
-at	NN	O	O
-an	NN	O	O
-initiator	NN	O	B-Material
-/	NN	O	I-Material
-coinitiator	NN	O	I-Material
-system	NN	O	I-Material
-which	NN	O	O
-combines	NN	O	O
-good	NN	O	O
-polymerization	NN	O	B-Process
-activity	NN	O	O
-with	NN	O	O
-improved	NN	O	O
-migration	NN	O	O
-stability	NN	O	O
-[	NN	O	O
-39	NN	O	O
-]	NN	O	O
-.	NN	O	O
+An	0	2	O
+application	3	14	O
+of	15	17	O
+ROMP	18	22	B-Material
+derived	23	30	I-Material
+random	31	37	I-Material
+copolymers	38	48	I-Material
+is	49	51	O
+the	52	55	O
+covalent	56	64	B-Task
+incorporation	65	78	I-Task
+of	79	81	I-Task
+optical	82	89	I-Task
+sensor	90	96	I-Task
+moieties	97	105	I-Task
+into	106	110	I-Task
+a	111	112	I-Task
+polymer	113	120	I-Task
+matrix	121	127	I-Task
+.	127	128	O
+
+ROM	129	132	B-Material
+polymers	133	141	I-Material
+have	142	146	O
+been	147	151	O
+tested	152	158	O
+as	159	161	O
+matrix	162	168	B-Material
+materials	169	178	I-Material
+for	179	182	O
+the	183	186	O
+oxygen	187	193	B-Material
+sensing	194	201	O
+phosphorescent	202	216	B-Material
+complex	217	224	I-Material
+platinum	225	233	I-Material
+tetrakis(pentafluorophenyl)porphyrin	234	270	I-Material
+.	270	271	O
+
+A	272	273	O
+correlation	274	285	O
+between	286	293	O
+the	294	297	O
+nature	298	304	O
+of	305	307	O
+the	308	311	O
+ROM	312	315	B-Material
+polymer	316	323	I-Material
+’s	323	325	I-Material
+side	326	330	I-Material
+chain	331	336	I-Material
+and	337	340	O
+the	341	344	O
+optical	345	352	O
+response	353	361	O
+of	362	364	O
+the	365	368	O
+sensor	369	375	B-Material
+molecules	376	385	I-Material
+has	386	389	O
+been	390	394	O
+established	395	406	O
+[	407	408	O
+34	408	410	O
+]	410	411	O
+.	411	412	O
+
+Several	413	420	O
+works	421	426	O
+are	427	430	O
+dedicated	431	440	O
+to	441	443	O
+the	444	447	O
+synthesis	448	457	B-Task
+of	458	460	I-Task
+ROMP	461	465	I-Task
+-	465	466	I-Task
+able	466	470	I-Task
+optical	471	478	I-Task
+sensor	479	485	I-Task
+molecules	486	495	I-Task
+such	496	500	O
+as	501	503	O
+phenantroimidazoles	504	523	B-Material
+[	524	525	O
+35,36	525	530	O
+]	530	531	O
+,	531	532	O
+europium	533	541	B-Material
+complexes	542	551	I-Material
+[	552	553	O
+37	553	555	O
+]	555	556	O
+or	557	559	O
+xanthene	560	568	B-Material
+dyes	569	573	I-Material
+[	574	575	O
+38	575	577	O
+]	577	578	O
+,	578	579	O
+their	580	585	O
+random	586	592	O
+copolymerization	593	609	B-Process
+and	610	613	O
+the	614	617	O
+evaluation	618	628	B-Task
+of	629	631	I-Task
+their	632	637	I-Task
+sensing	638	645	I-Task
+profiles	646	654	I-Task
+in	655	657	I-Task
+the	658	661	I-Task
+copolymers	662	672	I-Task
+.	672	673	O
+
+Another	674	681	O
+application	682	693	O
+comprises	694	703	O
+random	704	710	B-Task
+copolymers	711	721	I-Task
+with	722	726	I-Task
+covalently	727	737	I-Task
+bound	738	743	I-Task
+eosin	744	749	I-Task
+and/or	750	756	I-Task
+ethyl	757	762	I-Task
+dimethylamino	763	776	I-Task
+benzoate	777	785	I-Task
+units	786	791	I-Task
+which	792	797	O
+were	798	802	O
+tested	803	809	O
+as	810	812	O
+macroinitiators	813	828	B-Material
+for	829	832	O
+the	833	836	O
+photopolymerization	837	856	O
+of	857	859	O
+acrylates	860	869	B-Material
+aiming	870	876	O
+at	877	879	O
+an	880	882	O
+initiator	883	892	B-Material
+/	892	893	I-Material
+coinitiator	893	904	I-Material
+system	905	911	I-Material
+which	912	917	O
+combines	918	926	O
+good	927	931	O
+polymerization	932	946	B-Process
+activity	947	955	O
+with	956	960	O
+improved	961	969	O
+migration	970	979	O
+stability	980	989	O
+[	990	991	O
+39	991	993	O
+]	993	994	O
+.	994	995	O
 
 
 -DOCSTART- (S0032386114008428)
 
-Another	NN	O	B-Process
-choice	NN	O	I-Process
-was	NN	O	O
-to	NN	O	O
-graft	NN	O	B-Process
-the	NN	O	I-Process
-fluorinated	NN	O	I-Process
-groups	NN	O	I-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-copolymers	NN	O	I-Process
-with	NN	O	I-Process
-functional	NN	O	I-Process
-groups	NN	O	I-Process
-.	NN	O	O
-
-Casazza	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-52	NN	O	O
-]	NN	O	O
-synthesized	NN	O	O
-an	NN	O	B-Task
-acrylic	NN	O	I-Task
-terpolymer	NN	O	I-Task
-with	NN	O	I-Task
-pendent	NN	O	I-Task
-perfluoroether	NN	O	I-Task
-segments	NN	O	I-Task
-via	NN	O	O
-grafting	NN	O	B-Process
-fluorinated	NN	O	I-Process
-groups	NN	O	I-Process
-into	NN	O	O
-a	NN	O	O
-poly(butyl	NN	O	B-Material
-methacrylate	NN	O	I-Material
--	NN	O	I-Material
-co	NN	O	I-Material
--	NN	O	I-Material
-hydroxyehtyl	NN	O	I-Material
-acrylate	NN	O	I-Material
--	NN	O	I-Material
-co	NN	O	I-Material
--	NN	O	I-Material
-ethyl	NN	O	I-Material
-acrylate	NN	O	I-Material
-)	NN	O	O
-
-random	NN	O	O
-copolymer	NN	O	B-Material
-through	NN	O	O
-hexamethylene	NN	O	B-Process
-diisocyanate	NN	O	I-Process
-functionality	NN	O	I-Process
-.	NN	O	O
-
-Malshe	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-53,54	NN	O	O
-]	NN	O	O
-studied	NN	O	O
-the	NN	O	B-Task
-coating	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	I-Task
-fluorinated	NN	O	I-Task
-acrylic	NN	O	I-Task
-copolymers	NN	O	I-Task
-based	NN	O	O
-on	NN	O	O
-MMA	NN	O	B-Material
-,	NN	O	O
-BA	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-2-hydroxyethyl	NN	O	B-Material
-methacrylate	NN	O	I-Material
-(	NN	O	O
-HEMA	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-They	NN	O	O
-partially	NN	O	O
-esterified	NN	O	O
-hydroxyl	NN	O	B-Task
-functionality	NN	O	I-Task
-of	NN	O	I-Task
-HEMA	NN	O	I-Task
-with	NN	O	I-Task
-tetrafluoro	NN	O	I-Task
-propanoic	NN	O	I-Task
-acid	NN	O	I-Task
-and	NN	O	O
-cured	NN	O	O
-the	NN	O	B-Material
-polymer	NN	O	I-Material
-with	NN	O	I-Material
-butylated	NN	O	I-Material
-melamine	NN	O	I-Material
-formaldehyde	NN	O	I-Material
-resin	NN	O	I-Material
-.	NN	O	O
-
-Such	NN	O	O
-methods	NN	O	O
-were	NN	O	O
-suited	NN	O	O
-for	NN	O	O
-the	NN	O	O
-synthesis	NN	O	O
-of	NN	O	O
-copolymers	NN	O	B-Material
-containing	NN	O	I-Material
-complicated	NN	O	I-Material
-fluorinated	NN	O	I-Material
-groups	NN	O	I-Material
-or	NN	O	O
-difficult	NN	O	O
-to	NN	O	O
-be	NN	O	O
-provided	NN	O	O
-directly	NN	O	O
-by	NN	O	O
-living	NN	O	B-Process
-polymerization	NN	O	I-Process
-.	NN	O	O
+Another	0	7	B-Process
+choice	8	14	I-Process
+was	15	18	O
+to	19	21	O
+graft	22	27	B-Process
+the	28	31	I-Process
+fluorinated	32	43	I-Process
+groups	44	50	I-Process
+on	51	53	I-Process
+the	54	57	I-Process
+copolymers	58	68	I-Process
+with	69	73	I-Process
+functional	74	84	I-Process
+groups	85	91	I-Process
+.	91	92	O
+
+Casazza	93	100	O
+et	101	103	O
+al	104	106	O
+.	106	107	O
+
+[	108	109	O
+52	109	111	O
+]	111	112	O
+synthesized	113	124	O
+an	125	127	B-Task
+acrylic	128	135	I-Task
+terpolymer	136	146	I-Task
+with	147	151	I-Task
+pendent	152	159	I-Task
+perfluoroether	160	174	I-Task
+segments	175	183	I-Task
+via	184	187	O
+grafting	188	196	B-Process
+fluorinated	197	208	I-Process
+groups	209	215	I-Process
+into	216	220	O
+a	221	222	O
+poly(butyl	223	233	B-Material
+methacrylate	234	246	I-Material
+-	246	247	I-Material
+co	247	249	I-Material
+-	249	250	I-Material
+hydroxyehtyl	250	262	I-Material
+acrylate	263	271	I-Material
+-	271	272	I-Material
+co	272	274	I-Material
+-	274	275	I-Material
+ethyl	275	280	I-Material
+acrylate	281	289	I-Material
+)	289	290	O
+
+random	291	297	O
+copolymer	298	307	B-Material
+through	308	315	O
+hexamethylene	316	329	B-Process
+diisocyanate	330	342	I-Process
+functionality	343	356	I-Process
+.	356	357	O
+
+Malshe	358	364	O
+et	365	367	O
+al	368	370	O
+.	370	371	O
+
+[	372	373	O
+53,54	373	378	O
+]	378	379	O
+studied	380	387	O
+the	388	391	B-Task
+coating	392	399	I-Task
+properties	400	410	I-Task
+of	411	413	I-Task
+fluorinated	414	425	I-Task
+acrylic	426	433	I-Task
+copolymers	434	444	I-Task
+based	445	450	O
+on	451	453	O
+MMA	454	457	B-Material
+,	457	458	O
+BA	459	461	B-Material
+,	461	462	O
+and	463	466	O
+2-hydroxyethyl	467	481	B-Material
+methacrylate	482	494	I-Material
+(	495	496	O
+HEMA	496	500	B-Material
+)	500	501	O
+.	501	502	O
+
+They	503	507	O
+partially	508	517	O
+esterified	518	528	O
+hydroxyl	529	537	B-Task
+functionality	538	551	I-Task
+of	552	554	I-Task
+HEMA	555	559	I-Task
+with	560	564	I-Task
+tetrafluoro	565	576	I-Task
+propanoic	577	586	I-Task
+acid	587	591	I-Task
+and	592	595	O
+cured	596	601	O
+the	602	605	B-Material
+polymer	606	613	I-Material
+with	614	618	I-Material
+butylated	619	628	I-Material
+melamine	629	637	I-Material
+formaldehyde	638	650	I-Material
+resin	651	656	I-Material
+.	656	657	O
+
+Such	658	662	O
+methods	663	670	O
+were	671	675	O
+suited	676	682	O
+for	683	686	O
+the	687	690	O
+synthesis	691	700	O
+of	701	703	O
+copolymers	704	714	B-Material
+containing	715	725	I-Material
+complicated	726	737	I-Material
+fluorinated	738	749	I-Material
+groups	750	756	I-Material
+or	757	759	O
+difficult	760	769	O
+to	770	772	O
+be	773	775	O
+provided	776	784	O
+directly	785	793	O
+by	794	796	O
+living	797	803	B-Process
+polymerization	804	818	I-Process
+.	818	819	O
 
 
 -DOCSTART- (S0038092X11004129)
 
-Assuming	NN	O	O
-a	NN	O	O
-constant	NN	O	O
-cell	NN	O	B-Process
-electrical	NN	O	I-Process
-conversion	NN	O	I-Process
-efficiency	NN	O	O
-of	NN	O	O
-15	NN	O	O
-%	NN	O	O
-,	NN	O	O
-a	NN	O	O
-constant	NN	O	O
-fraction	NN	O	O
-of	NN	O	O
-the	NN	O	O
-incident	NN	O	O
-solar	NN	O	B-Process
-radiation	NN	O	I-Process
-would	NN	O	O
-be	NN	O	O
-dissipated	NN	O	O
-by	NN	O	O
-the	NN	O	O
-solar	NN	O	O
-cell	NN	O	O
-for	NN	O	O
-each	NN	O	O
-solar	NN	O	B-Process
-radiation	NN	O	I-Process
-intensity	NN	O	O
-level	NN	O	O
-.	NN	O	O
-
-From	NN	O	O
-Table	NN	O	O
-2	NN	O	O
-,	NN	O	O
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-seen	NN	O	O
-that	NN	O	O
-for	NN	O	O
-the	NN	O	O
-worst	NN	O	O
-scenario	NN	O	O
-when	NN	O	O
-the	NN	O	O
-ambient	NN	O	O
-temperature	NN	O	O
-was	NN	O	O
-50	NN	O	O
-°	NN	O	O
-C	NN	O	O
-with	NN	O	O
-natural	NN	O	B-Process
-convection	NN	O	I-Process
-only	NN	O	O
-,	NN	O	O
-the	NN	O	O
-predicted	NN	O	B-Task
-cell	NN	O	I-Task
-electrical	NN	O	I-Task
-conversion	NN	O	I-Task
-efficiency	NN	O	I-Task
-would	NN	O	O
-have	NN	O	O
-reduced	NN	O	O
-to	NN	O	O
-approximately	NN	O	O
-8	NN	O	O
-%	NN	O	O
-rather	NN	O	O
-than	NN	O	O
-the	NN	O	O
-15	NN	O	O
-%	NN	O	O
-assumed	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-energy	NN	O	O
-dissipated	NN	O	O
-as	NN	O	O
-heat	NN	O	O
-from	NN	O	O
-the	NN	O	O
-cell	NN	O	O
-would	NN	O	O
-thus	NN	O	O
-be	NN	O	O
-7	NN	O	O
-%	NN	O	O
-higher	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-correct	NN	O	O
-for	NN	O	O
-this	NN	O	O
-effect	NN	O	O
-the	NN	O	O
-apparent	NN	O	B-Process
-insolation	NN	O	I-Process
-level	NN	O	I-Process
-should	NN	O	O
-be	NN	O	O
-modified	NN	O	O
-using	NN	O	O
-the	NN	O	O
-following	NN	O	O
-formula:(3)Iact	NN	O	O
-
-=	NN	O	O
-I×0.850.85+dηwhere	NN	O	O
-
-Iact	NN	O	O
-is	NN	O	O
-the	NN	O	O
-actual	NN	O	O
-incident	NN	O	O
-solar	NN	O	B-Process
-radiation	NN	O	I-Process
-intensity	NN	O	O
-,	NN	O	O
-dη	NN	O	O
-is	NN	O	O
-solar	NN	O	O
-cell	NN	O	O
-efficiency	NN	O	O
-difference	NN	O	O
-between	NN	O	O
-the	NN	O	O
-initially	NN	O	O
-assumed	NN	O	O
-15	NN	O	O
-%	NN	O	O
-and	NN	O	O
-final	NN	O	O
-calculated	NN	O	O
-cell	NN	O	O
-efficiency	NN	O	O
-based	NN	O	O
-on	NN	O	O
-measured	NN	O	O
-cell	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
+Assuming	0	8	O
+a	9	10	O
+constant	11	19	O
+cell	20	24	B-Process
+electrical	25	35	I-Process
+conversion	36	46	I-Process
+efficiency	47	57	O
+of	58	60	O
+15	61	63	O
+%	63	64	O
+,	64	65	O
+a	66	67	O
+constant	68	76	O
+fraction	77	85	O
+of	86	88	O
+the	89	92	O
+incident	93	101	O
+solar	102	107	B-Process
+radiation	108	117	I-Process
+would	118	123	O
+be	124	126	O
+dissipated	127	137	O
+by	138	140	O
+the	141	144	O
+solar	145	150	O
+cell	151	155	O
+for	156	159	O
+each	160	164	O
+solar	165	170	B-Process
+radiation	171	180	I-Process
+intensity	181	190	O
+level	191	196	O
+.	196	197	O
+
+From	198	202	O
+Table	203	208	O
+2	209	210	O
+,	210	211	O
+it	212	214	O
+can	215	218	O
+be	219	221	O
+seen	222	226	O
+that	227	231	O
+for	232	235	O
+the	236	239	O
+worst	240	245	O
+scenario	246	254	O
+when	255	259	O
+the	260	263	O
+ambient	264	271	O
+temperature	272	283	O
+was	284	287	O
+50	288	290	O
+°	290	291	O
+C	291	292	O
+with	293	297	O
+natural	298	305	B-Process
+convection	306	316	I-Process
+only	317	321	O
+,	321	322	O
+the	323	326	O
+predicted	327	336	B-Task
+cell	337	341	I-Task
+electrical	342	352	I-Task
+conversion	353	363	I-Task
+efficiency	364	374	I-Task
+would	375	380	O
+have	381	385	O
+reduced	386	393	O
+to	394	396	O
+approximately	397	410	O
+8	411	412	O
+%	412	413	O
+rather	414	420	O
+than	421	425	O
+the	426	429	O
+15	430	432	O
+%	432	433	O
+assumed	434	441	O
+.	441	442	O
+
+The	443	446	O
+energy	447	453	O
+dissipated	454	464	O
+as	465	467	O
+heat	468	472	O
+from	473	477	O
+the	478	481	O
+cell	482	486	O
+would	487	492	O
+thus	493	497	O
+be	498	500	O
+7	501	502	O
+%	502	503	O
+higher	504	510	O
+.	510	511	O
+
+To	512	514	O
+correct	515	522	O
+for	523	526	O
+this	527	531	O
+effect	532	538	O
+the	539	542	O
+apparent	543	551	B-Process
+insolation	552	562	I-Process
+level	563	568	I-Process
+should	569	575	O
+be	576	578	O
+modified	579	587	O
+using	588	593	O
+the	594	597	O
+following	598	607	O
+formula:(3)Iact	608	623	O
+
+=	623	624	O
+I×0.850.85+dηwhere	624	642	O
+
+Iact	643	647	O
+is	648	650	O
+the	651	654	O
+actual	655	661	O
+incident	662	670	O
+solar	671	676	B-Process
+radiation	677	686	I-Process
+intensity	687	696	O
+,	696	697	O
+dη	698	700	O
+is	701	703	O
+solar	704	709	O
+cell	710	714	O
+efficiency	715	725	O
+difference	726	736	O
+between	737	744	O
+the	745	748	O
+initially	749	758	O
+assumed	759	766	O
+15	767	769	O
+%	769	770	O
+and	771	774	O
+final	775	780	O
+calculated	781	791	O
+cell	792	796	O
+efficiency	797	807	O
+based	808	813	O
+on	814	816	O
+measured	817	825	O
+cell	826	830	O
+temperature	831	842	O
+.	842	843	O
 
 
 -DOCSTART- (S0038092X14000942)
 
-Thermal	NN	O	B-Task
-performance	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-smart	NN	O	I-Task
-window	NN	O	I-Task
-has	NN	O	O
-been	NN	O	O
-predicted	NN	O	O
-under	NN	O	O
-different	NN	O	O
-simulated	NN	O	B-Process
-parameters	NN	O	I-Process
-namely	NN	O	O
-,	NN	O	O
-direct	NN	O	B-Process
-solar	NN	O	I-Process
-radiation	NN	O	I-Process
-intensity	NN	O	I-Process
-,	NN	O	O
-ambient	NN	O	B-Process
-temperature	NN	O	I-Process
-,	NN	O	O
-water	NN	O	B-Process
-inlet	NN	O	I-Process
-temperature	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-water	NN	O	B-Process
-flow	NN	O	I-Process
-rate	NN	O	I-Process
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-11	NN	O	O
-shows	NN	O	O
-a	NN	O	O
-sample	NN	O	O
-of	NN	O	O
-temperature	NN	O	O
-distribution	NN	O	O
-of	NN	O	O
-all	NN	O	O
-window	NN	O	B-Material
-components	NN	O	I-Material
-at	NN	O	O
-a	NN	O	O
-plane	NN	O	O
-passing	NN	O	O
-through	NN	O	O
-the	NN	O	O
-horizontal	NN	O	O
-window	NN	O	O
-segment	NN	O	O
-based	NN	O	O
-on	NN	O	O
-simulation	NN	O	B-Material
-physical	NN	O	I-Material
-conditions	NN	O	I-Material
-listed	NN	O	O
-on	NN	O	O
-Table	NN	O	O
-3	NN	O	O
-.	NN	O	O
-
-Simulation	NN	O	B-Material
-data	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-collected	NN	O	O
-from	NN	O	O
-all	NN	O	O
-successive	NN	O	O
-simulations	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-increasing	NN	O	B-Process
-direct	NN	O	I-Process
-solar	NN	O	I-Process
-radiation	NN	O	I-Process
-on	NN	O	I-Process
-both	NN	O	I-Process
-solar	NN	O	I-Process
-cells	NN	O	I-Process
-and	NN	O	I-Process
-water	NN	O	I-Process
-temperatures	NN	O	I-Process
-is	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-12	NN	O	O
-.	NN	O	O
-
-Three	NN	O	O
-different	NN	O	O
-simulations	NN	O	B-Process
-were	NN	O	O
-performed	NN	O	O
-assuming	NN	O	O
-direct	NN	O	O
-solar	NN	O	B-Process
-radiation	NN	O	I-Process
-intensities	NN	O	O
-of	NN	O	O
-400	NN	O	O
-,	NN	O	O
-600	NN	O	O
-,	NN	O	O
-and	NN	O	O
-800W	NN	O	O
-/	NN	O	O
-m2	NN	O	O
-incident	NN	O	O
-on	NN	O	O
-the	NN	O	O
-window	NN	O	B-Material
-’s	NN	O	I-Material
-front	NN	O	I-Material
-pane	NN	O	I-Material
-with	NN	O	O
-set	NN	O	O
-ambient	NN	O	O
-temperature	NN	O	O
-,	NN	O	O
-water	NN	O	O
-inlet	NN	O	O
-temperature	NN	O	O
-and	NN	O	O
-water	NN	O	O
-flow	NN	O	O
-rate	NN	O	O
-of	NN	O	O
-respectively	NN	O	O
-273	NN	O	O
-K	NN	O	O
-,	NN	O	O
-283	NN	O	O
-K	NN	O	O
-and	NN	O	O
-0.01kg	NN	O	O
-
-/	NN	O	O
-s	NN	O	O
-.	NN	O	O
-
-Water	NN	O	O
-temperature	NN	O	O
-was	NN	O	O
-found	NN	O	O
-to	NN	O	O
-increase	NN	O	O
-by	NN	O	O
-5	NN	O	O
-°	NN	O	O
-C	NN	O	O
-as	NN	O	O
-it	NN	O	O
-passed	NN	O	O
-through	NN	O	O
-the	NN	O	O
-tube	NN	O	B-Material
-,	NN	O	O
-carrying	NN	O	O
-the	NN	O	O
-solar	NN	O	B-Material
-cells	NN	O	I-Material
-,	NN	O	O
-from	NN	O	O
-left	NN	O	O
-to	NN	O	O
-right	NN	O	O
-for	NN	O	O
-the	NN	O	O
-bottom	NN	O	O
-most	NN	O	O
-units	NN	O	O
-at	NN	O	O
-800W	NN	O	O
-/	NN	O	O
-m2	NN	O	O
-of	NN	O	O
-direct	NN	O	O
-incident	NN	O	O
-solar	NN	O	B-Process
-radiation	NN	O	I-Process
-.	NN	O	O
+Thermal	0	7	B-Task
+performance	8	19	I-Task
+of	20	22	I-Task
+the	23	26	I-Task
+smart	27	32	I-Task
+window	33	39	I-Task
+has	40	43	O
+been	44	48	O
+predicted	49	58	O
+under	59	64	O
+different	65	74	O
+simulated	75	84	B-Process
+parameters	85	95	I-Process
+namely	96	102	O
+,	102	103	O
+direct	104	110	B-Process
+solar	111	116	I-Process
+radiation	117	126	I-Process
+intensity	127	136	I-Process
+,	136	137	O
+ambient	138	145	B-Process
+temperature	146	157	I-Process
+,	157	158	O
+water	159	164	B-Process
+inlet	165	170	I-Process
+temperature	171	182	I-Process
+,	182	183	O
+and	184	187	O
+water	188	193	B-Process
+flow	194	198	I-Process
+rate	199	203	I-Process
+.	203	204	O
+
+Fig	205	208	O
+.	208	209	O
+
+11	210	212	O
+shows	213	218	O
+a	219	220	O
+sample	221	227	O
+of	228	230	O
+temperature	231	242	O
+distribution	243	255	O
+of	256	258	O
+all	259	262	O
+window	263	269	B-Material
+components	270	280	I-Material
+at	281	283	O
+a	284	285	O
+plane	286	291	O
+passing	292	299	O
+through	300	307	O
+the	308	311	O
+horizontal	312	322	O
+window	323	329	O
+segment	330	337	O
+based	338	343	O
+on	344	346	O
+simulation	347	357	B-Material
+physical	358	366	I-Material
+conditions	367	377	I-Material
+listed	378	384	O
+on	385	387	O
+Table	388	393	O
+3	394	395	O
+.	395	396	O
+
+Simulation	397	407	B-Material
+data	408	412	I-Material
+has	413	416	O
+been	417	421	O
+collected	422	431	O
+from	432	436	O
+all	437	440	O
+successive	441	451	O
+simulations	452	463	B-Process
+.	463	464	O
+
+The	465	468	O
+effect	469	475	O
+of	476	478	O
+increasing	479	489	B-Process
+direct	490	496	I-Process
+solar	497	502	I-Process
+radiation	503	512	I-Process
+on	513	515	I-Process
+both	516	520	I-Process
+solar	521	526	I-Process
+cells	527	532	I-Process
+and	533	536	I-Process
+water	537	542	I-Process
+temperatures	543	555	I-Process
+is	556	558	O
+shown	559	564	O
+in	565	567	O
+Fig	568	571	O
+.	571	572	O
+
+12	573	575	O
+.	575	576	O
+
+Three	577	582	O
+different	583	592	O
+simulations	593	604	B-Process
+were	605	609	O
+performed	610	619	O
+assuming	620	628	O
+direct	629	635	O
+solar	636	641	B-Process
+radiation	642	651	I-Process
+intensities	652	663	O
+of	664	666	O
+400	667	670	O
+,	670	671	O
+600	672	675	O
+,	675	676	O
+and	677	680	O
+800W	681	685	O
+/	685	686	O
+m2	686	688	O
+incident	689	697	O
+on	698	700	O
+the	701	704	O
+window	705	711	B-Material
+’s	711	713	I-Material
+front	714	719	I-Material
+pane	720	724	I-Material
+with	725	729	O
+set	730	733	O
+ambient	734	741	O
+temperature	742	753	O
+,	753	754	O
+water	755	760	O
+inlet	761	766	O
+temperature	767	778	O
+and	779	782	O
+water	783	788	O
+flow	789	793	O
+rate	794	798	O
+of	799	801	O
+respectively	802	814	O
+273	815	818	O
+K	818	819	O
+,	819	820	O
+283	821	824	O
+K	824	825	O
+and	826	829	O
+0.01kg	830	836	O
+
+/	836	837	O
+s	837	838	O
+.	838	839	O
+
+Water	840	845	O
+temperature	846	857	O
+was	858	861	O
+found	862	867	O
+to	868	870	O
+increase	871	879	O
+by	880	882	O
+5	883	884	O
+°	884	885	O
+C	885	886	O
+as	887	889	O
+it	890	892	O
+passed	893	899	O
+through	900	907	O
+the	908	911	O
+tube	912	916	B-Material
+,	916	917	O
+carrying	918	926	O
+the	927	930	O
+solar	931	936	B-Material
+cells	937	942	I-Material
+,	942	943	O
+from	944	948	O
+left	949	953	O
+to	954	956	O
+right	957	962	O
+for	963	966	O
+the	967	970	O
+bottom	971	977	O
+most	978	982	O
+units	983	988	O
+at	989	991	O
+800W	992	996	O
+/	996	997	O
+m2	997	999	O
+of	1000	1002	O
+direct	1003	1009	O
+incident	1010	1018	O
+solar	1019	1024	B-Process
+radiation	1025	1034	I-Process
+.	1034	1035	O
 
 
 -DOCSTART- (S0038092X14004770)
 
-Shading	NN	O	B-Process
-can	NN	O	O
-be	NN	O	O
-the	NN	O	O
-most	NN	O	O
-detrimental	NN	O	O
-factor	NN	O	O
-on	NN	O	O
-performance	NN	O	O
-for	NN	O	O
-a	NN	O	O
-domestic	NN	O	B-Material
-system	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-impact	NN	O	O
-of	NN	O	O
-shading	NN	O	B-Process
-on	NN	O	O
-performance	NN	O	O
-varies	NN	O	O
-depending	NN	O	O
-on	NN	O	O
-the	NN	O	O
-electrical	NN	O	O
-series	NN	O	O
-and	NN	O	O
-parallel	NN	O	O
-arrangement	NN	O	O
-of	NN	O	O
-cells	NN	O	B-Material
-within	NN	O	O
-a	NN	O	O
-module	NN	O	B-Material
-and	NN	O	O
-modules	NN	O	B-Material
-within	NN	O	O
-an	NN	O	O
-installed	NN	O	B-Material
-array	NN	O	I-Material
-.	NN	O	O
-
-Whilst	NN	O	O
-many	NN	O	O
-approaches	NN	O	O
-to	NN	O	O
-shading	NN	O	B-Process
-analysis	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-proposed	NN	O	O
-,	NN	O	O
-computational	NN	O	O
-efficiency	NN	O	O
-is	NN	O	O
-not	NN	O	O
-reported	NN	O	O
-despite	NN	O	O
-being	NN	O	O
-of	NN	O	O
-high	NN	O	O
-importance	NN	O	O
-when	NN	O	O
-incorporating	NN	O	O
-shading	NN	O	B-Process
-algorithms	NN	O	I-Process
-into	NN	O	O
-an	NN	O	O
-overall	NN	O	O
-energy	NN	O	B-Process
-yield	NN	O	I-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-lack	NN	O	O
-of	NN	O	O
-consideration	NN	O	O
-of	NN	O	O
-the	NN	O	O
-non	NN	O	O
--	NN	O	O
-linear	NN	O	O
-impacts	NN	O	O
-of	NN	O	O
-shading	NN	O	B-Process
-on	NN	O	O
-smaller	NN	O	O
-systems	NN	O	O
-for	NN	O	O
-example	NN	O	O
-means	NN	O	O
-that	NN	O	O
-the	NN	O	O
-shading	NN	O	B-Process
-loss	NN	O	O
-is	NN	O	O
-significantly	NN	O	O
-underestimated	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-from	NN	O	O
-supposedly	NN	O	O
-small	NN	O	O
-obstacles	NN	O	O
-such	NN	O	O
-as	NN	O	O
-antennas	NN	O	B-Material
-or	NN	O	O
-chimneys	NN	O	B-Material
-.	NN	O	O
-
-As	NN	O	O
-an	NN	O	O
-example	NN	O	O
-,	NN	O	O
-the	NN	O	O
-system	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-illustrates	NN	O	O
-the	NN	O	O
-case	NN	O	O
-where	NN	O	O
-the	NN	O	O
-installer	NN	O	O
-may	NN	O	O
-have	NN	O	O
-attested	NN	O	O
-a	NN	O	O
-shade	NN	O	B-Process
-loss	NN	O	I-Process
-factor	NN	O	O
-close	NN	O	O
-to	NN	O	O
-unity	NN	O	O
-under	NN	O	O
-UK	NN	O	O
-microgeneration	NN	O	O
-guidelines	NN	O	O
-(	NN	O	O
-Microgeneration	NN	O	O
-Certification	NN	O	O
-Scheme	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-negligible	NN	O	O
-,	NN	O	O
-but	NN	O	O
-the	NN	O	O
-performance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-system	NN	O	B-Material
-is	NN	O	O
-severely	NN	O	O
-compromised	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-linear	NN	O	I-Process
-cell	NN	O	I-Process
-mismatch	NN	O	I-Process
-effects	NN	O	I-Process
-.	NN	O	O
-
-An	NN	O	O
-effective	NN	O	B-Process
-shading	NN	O	I-Process
-sub	NN	O	I-Process
--	NN	O	I-Process
-model	NN	O	I-Process
-therefore	NN	O	O
-needs	NN	O	O
-to	NN	O	O
-give	NN	O	B-Task
-feedback	NN	O	I-Task
-to	NN	O	I-Task
-inform	NN	O	I-Task
-decisions	NN	O	I-Task
-of	NN	O	I-Task
-array	NN	O	I-Task
-layout	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-proximity	NN	O	O
-of	NN	O	O
-obstructions	NN	O	O
-but	NN	O	O
-must	NN	O	O
-not	NN	O	O
-rely	NN	O	O
-on	NN	O	O
-high	NN	O	B-Process
-power	NN	O	I-Process
-computing	NN	O	I-Process
-.	NN	O	O
+Shading	0	7	B-Process
+can	8	11	O
+be	12	14	O
+the	15	18	O
+most	19	23	O
+detrimental	24	35	O
+factor	36	42	O
+on	43	45	O
+performance	46	57	O
+for	58	61	O
+a	62	63	O
+domestic	64	72	B-Material
+system	73	79	I-Material
+.	79	80	O
+
+The	81	84	O
+impact	85	91	O
+of	92	94	O
+shading	95	102	B-Process
+on	103	105	O
+performance	106	117	O
+varies	118	124	O
+depending	125	134	O
+on	135	137	O
+the	138	141	O
+electrical	142	152	O
+series	153	159	O
+and	160	163	O
+parallel	164	172	O
+arrangement	173	184	O
+of	185	187	O
+cells	188	193	B-Material
+within	194	200	O
+a	201	202	O
+module	203	209	B-Material
+and	210	213	O
+modules	214	221	B-Material
+within	222	228	O
+an	229	231	O
+installed	232	241	B-Material
+array	242	247	I-Material
+.	247	248	O
+
+Whilst	249	255	O
+many	256	260	O
+approaches	261	271	O
+to	272	274	O
+shading	275	282	B-Process
+analysis	283	291	I-Process
+have	292	296	O
+been	297	301	O
+proposed	302	310	O
+,	310	311	O
+computational	312	325	O
+efficiency	326	336	O
+is	337	339	O
+not	340	343	O
+reported	344	352	O
+despite	353	360	O
+being	361	366	O
+of	367	369	O
+high	370	374	O
+importance	375	385	O
+when	386	390	O
+incorporating	391	404	O
+shading	405	412	B-Process
+algorithms	413	423	I-Process
+into	424	428	O
+an	429	431	O
+overall	432	439	O
+energy	440	446	B-Process
+yield	447	452	I-Process
+model	453	458	I-Process
+.	458	459	O
+
+The	460	463	O
+lack	464	468	O
+of	469	471	O
+consideration	472	485	O
+of	486	488	O
+the	489	492	O
+non	493	496	O
+-	496	497	O
+linear	497	503	O
+impacts	504	511	O
+of	512	514	O
+shading	515	522	B-Process
+on	523	525	O
+smaller	526	533	O
+systems	534	541	O
+for	542	545	O
+example	546	553	O
+means	554	559	O
+that	560	564	O
+the	565	568	O
+shading	569	576	B-Process
+loss	577	581	O
+is	582	584	O
+significantly	585	598	O
+underestimated	599	613	O
+,	613	614	O
+especially	615	625	O
+from	626	630	O
+supposedly	631	641	O
+small	642	647	O
+obstacles	648	657	O
+such	658	662	O
+as	663	665	O
+antennas	666	674	B-Material
+or	675	677	O
+chimneys	678	686	B-Material
+.	686	687	O
+
+As	688	690	O
+an	691	693	O
+example	694	701	O
+,	701	702	O
+the	703	706	O
+system	707	713	O
+shown	714	719	O
+in	720	722	O
+Fig	723	726	O
+.	726	727	O
+
+1	728	729	O
+illustrates	730	741	O
+the	742	745	O
+case	746	750	O
+where	751	756	O
+the	757	760	O
+installer	761	770	O
+may	771	774	O
+have	775	779	O
+attested	780	788	O
+a	789	790	O
+shade	791	796	B-Process
+loss	797	801	I-Process
+factor	802	808	O
+close	809	814	O
+to	815	817	O
+unity	818	823	O
+under	824	829	O
+UK	830	832	O
+microgeneration	833	848	O
+guidelines	849	859	O
+(	860	861	O
+Microgeneration	861	876	O
+Certification	877	890	O
+Scheme	891	897	O
+,	897	898	O
+2013	899	903	O
+)	903	904	O
+,	904	905	O
+i.e.	906	910	O
+negligible	911	921	O
+,	921	922	O
+but	923	926	O
+the	927	930	O
+performance	931	942	O
+of	943	945	O
+the	946	949	O
+system	950	956	B-Material
+is	957	959	O
+severely	960	968	O
+compromised	969	980	O
+due	981	984	O
+to	985	987	O
+the	988	991	O
+non	992	995	B-Process
+-	995	996	I-Process
+linear	996	1002	I-Process
+cell	1003	1007	I-Process
+mismatch	1008	1016	I-Process
+effects	1017	1024	I-Process
+.	1024	1025	O
+
+An	1026	1028	O
+effective	1029	1038	B-Process
+shading	1039	1046	I-Process
+sub	1047	1050	I-Process
+-	1050	1051	I-Process
+model	1051	1056	I-Process
+therefore	1057	1066	O
+needs	1067	1072	O
+to	1073	1075	O
+give	1076	1080	B-Task
+feedback	1081	1089	I-Task
+to	1090	1092	I-Task
+inform	1093	1099	I-Task
+decisions	1100	1109	I-Task
+of	1110	1112	I-Task
+array	1113	1118	I-Task
+layout	1119	1125	I-Task
+in	1126	1128	O
+the	1129	1132	O
+proximity	1133	1142	O
+of	1143	1145	O
+obstructions	1146	1158	O
+but	1159	1162	O
+must	1163	1167	O
+not	1168	1171	O
+rely	1172	1176	O
+on	1177	1179	O
+high	1180	1184	B-Process
+power	1185	1190	I-Process
+computing	1191	1200	I-Process
+.	1200	1201	O
 
 
 -DOCSTART- (S0038092X15000559)
 
-Progressive	NN	O	B-Process
-photon	NN	O	I-Process
-mapping	NN	O	I-Process
-was	NN	O	O
-first	NN	O	O
-proposed	NN	O	O
-by	NN	O	O
-Hachisuka	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2008	NN	O	O
-)	NN	O	O
-as	NN	O	O
-an	NN	O	O
-iterative	NN	O	B-Process
-extension	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-standard	NN	O	I-Process
-static	NN	O	I-Process
-photon	NN	O	I-Process
-mapping	NN	O	I-Process
-approach	NN	O	O
-as	NN	O	O
-implemented	NN	O	O
-in	NN	O	O
-the	NN	O	O
-Radiance	NN	O	B-Process
-extension	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-combines	NN	O	O
-multiple	NN	O	O
-smaller	NN	O	O
-photon	NN	O	B-Material
-maps	NN	O	I-Material
-to	NN	O	O
-approximate	NN	O	O
-a	NN	O	O
-much	NN	O	O
-larger	NN	O	O
-one	NN	O	O
-which	NN	O	O
-may	NN	O	O
-not	NN	O	O
-fit	NN	O	O
-into	NN	O	O
-memory	NN	O	O
-using	NN	O	O
-the	NN	O	O
-traditional	NN	O	B-Process
-approach	NN	O	I-Process
-.	NN	O	O
-
-Through	NN	O	O
-iteration	NN	O	O
-,	NN	O	O
-the	NN	O	O
-process	NN	O	O
-mitigates	NN	O	B-Process
-the	NN	O	I-Process
-noise	NN	O	I-Process
-inherent	NN	O	O
-in	NN	O	O
-Monte	NN	O	B-Process
-Carlo	NN	O	I-Process
-raytracing	NN	O	I-Process
-by	NN	O	O
-combining	NN	O	B-Process
-successive	NN	O	I-Process
-results	NN	O	I-Process
-and	NN	O	I-Process
-averaging	NN	O	I-Process
-them	NN	O	O
-.	NN	O	O
-
-At	NN	O	O
-the	NN	O	O
-same	NN	O	O
-time	NN	O	O
-,	NN	O	O
-the	NN	O	O
-density	NN	O	B-Process
-estimate	NN	O	I-Process
-bandwidth1Bandwidth	NN	O	I-Process
-describes	NN	O	O
-the	NN	O	O
-support	NN	O	B-Process
-,	NN	O	I-Process
-or	NN	O	I-Process
-area	NN	O	I-Process
-of	NN	O	I-Process
-influence	NN	O	I-Process
-,	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-filter	NN	O	I-Process
-used	NN	O	O
-to	NN	O	O
-weight	NN	O	B-Process
-the	NN	O	I-Process
-photons	NN	O	I-Process
-retrieved	NN	O	O
-from	NN	O	O
-the	NN	O	O
-photon	NN	O	B-Material
-map	NN	O	I-Material
-during	NN	O	O
-a	NN	O	O
-nearest	NN	O	B-Process
-neighbour	NN	O	I-Process
-lookup	NN	O	I-Process
-on	NN	O	O
-a	NN	O	O
-surface	NN	O	B-Material
-(	NN	O	O
-Jensen	NN	O	O
-,	NN	O	O
-2001	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resulting	NN	O	O
-irradiance	NN	O	B-Material
-is	NN	O	O
-proportional	NN	O	O
-to	NN	O	O
-the	NN	O	O
-photon	NN	O	B-Material
-density	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-bandwidth	NN	O	O
-is	NN	O	O
-defined	NN	O	O
-by	NN	O	O
-the	NN	O	O
-distance	NN	O	O
-(	NN	O	O
-radius	NN	O	O
-)	NN	O	O
-to	NN	O	O
-the	NN	O	O
-furthest	NN	O	O
-photon	NN	O	B-Material
-found	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-generalise	NN	O	O
-the	NN	O	O
-term	NN	O	O
-to	NN	O	O
-describe	NN	O	B-Task
-either	NN	O	I-Task
-the	NN	O	I-Task
-radius	NN	O	I-Task
-or	NN	O	I-Task
-the	NN	O	I-Task
-number	NN	O	I-Task
-of	NN	O	I-Task
-nearest	NN	O	I-Task
-neighbours	NN	O	I-Task
-for	NN	O	I-Task
-a	NN	O	I-Task
-density	NN	O	I-Task
-estimate	NN	O	I-Task
-,	NN	O	O
-depending	NN	O	O
-on	NN	O	O
-the	NN	O	O
-implementation.1	NN	O	O
-(	NN	O	O
-radius	NN	O	O
-or	NN	O	O
-number	NN	O	O
-of	NN	O	O
-nearest	NN	O	O
-photons	NN	O	B-Material
-)	NN	O	O
-is	NN	O	O
-gradually	NN	O	O
-reduced	NN	O	O
-to	NN	O	O
-mitigate	NN	O	B-Process
-bias	NN	O	I-Process
-.	NN	O	O
-
-As	NN	O	O
-Hachisuka	NN	O	O
-points	NN	O	O
-out	NN	O	O
-,	NN	O	O
-the	NN	O	O
-accumulated	NN	O	O
-density	NN	O	O
-estimates	NN	O	O
-converge	NN	O	O
-to	NN	O	O
-an	NN	O	O
-unbiased	NN	O	O
-solution	NN	O	O
-in	NN	O	O
-the	NN	O	O
-limit	NN	O	O
-.	NN	O	O
+Progressive	0	11	B-Process
+photon	12	18	I-Process
+mapping	19	26	I-Process
+was	27	30	O
+first	31	36	O
+proposed	37	45	O
+by	46	48	O
+Hachisuka	49	58	O
+et	59	61	O
+al	62	64	O
+.	64	65	O
+
+(	66	67	O
+2008	67	71	O
+)	71	72	O
+as	73	75	O
+an	76	78	O
+iterative	79	88	B-Process
+extension	89	98	I-Process
+of	99	101	I-Process
+the	102	105	I-Process
+standard	106	114	I-Process
+static	115	121	I-Process
+photon	122	128	I-Process
+mapping	129	136	I-Process
+approach	137	145	O
+as	146	148	O
+implemented	149	160	O
+in	161	163	O
+the	164	167	O
+Radiance	168	176	B-Process
+extension	177	186	I-Process
+.	186	187	O
+
+It	188	190	O
+combines	191	199	O
+multiple	200	208	O
+smaller	209	216	O
+photon	217	223	B-Material
+maps	224	228	I-Material
+to	229	231	O
+approximate	232	243	O
+a	244	245	O
+much	246	250	O
+larger	251	257	O
+one	258	261	O
+which	262	267	O
+may	268	271	O
+not	272	275	O
+fit	276	279	O
+into	280	284	O
+memory	285	291	O
+using	292	297	O
+the	298	301	O
+traditional	302	313	B-Process
+approach	314	322	I-Process
+.	322	323	O
+
+Through	324	331	O
+iteration	332	341	O
+,	341	342	O
+the	343	346	O
+process	347	354	O
+mitigates	355	364	B-Process
+the	365	368	I-Process
+noise	369	374	I-Process
+inherent	375	383	O
+in	384	386	O
+Monte	387	392	B-Process
+Carlo	393	398	I-Process
+raytracing	399	409	I-Process
+by	410	412	O
+combining	413	422	B-Process
+successive	423	433	I-Process
+results	434	441	I-Process
+and	442	445	I-Process
+averaging	446	455	I-Process
+them	456	460	O
+.	460	461	O
+
+At	462	464	O
+the	465	468	O
+same	469	473	O
+time	474	478	O
+,	478	479	O
+the	480	483	O
+density	484	491	B-Process
+estimate	492	500	I-Process
+bandwidth1Bandwidth	501	520	I-Process
+describes	521	530	O
+the	531	534	O
+support	535	542	B-Process
+,	542	543	I-Process
+or	544	546	I-Process
+area	547	551	I-Process
+of	552	554	I-Process
+influence	555	564	I-Process
+,	564	565	I-Process
+of	566	568	I-Process
+a	569	570	I-Process
+filter	571	577	I-Process
+used	578	582	O
+to	583	585	O
+weight	586	592	B-Process
+the	593	596	I-Process
+photons	597	604	I-Process
+retrieved	605	614	O
+from	615	619	O
+the	620	623	O
+photon	624	630	B-Material
+map	631	634	I-Material
+during	635	641	O
+a	642	643	O
+nearest	644	651	B-Process
+neighbour	652	661	I-Process
+lookup	662	668	I-Process
+on	669	671	O
+a	672	673	O
+surface	674	681	B-Material
+(	682	683	O
+Jensen	683	689	O
+,	689	690	O
+2001	691	695	O
+)	695	696	O
+.	696	697	O
+
+The	698	701	O
+resulting	702	711	O
+irradiance	712	722	B-Material
+is	723	725	O
+proportional	726	738	O
+to	739	741	O
+the	742	745	O
+photon	746	752	B-Material
+density	753	760	O
+,	760	761	O
+and	762	765	O
+the	766	769	O
+bandwidth	770	779	O
+is	780	782	O
+defined	783	790	O
+by	791	793	O
+the	794	797	O
+distance	798	806	O
+(	807	808	O
+radius	808	814	O
+)	814	815	O
+to	816	818	O
+the	819	822	O
+furthest	823	831	O
+photon	832	838	B-Material
+found	839	844	O
+.	844	845	O
+
+In	846	848	O
+this	849	853	O
+paper	854	859	O
+,	859	860	O
+we	861	863	O
+generalise	864	874	O
+the	875	878	O
+term	879	883	O
+to	884	886	O
+describe	887	895	B-Task
+either	896	902	I-Task
+the	903	906	I-Task
+radius	907	913	I-Task
+or	914	916	I-Task
+the	917	920	I-Task
+number	921	927	I-Task
+of	928	930	I-Task
+nearest	931	938	I-Task
+neighbours	939	949	I-Task
+for	950	953	I-Task
+a	954	955	I-Task
+density	956	963	I-Task
+estimate	964	972	I-Task
+,	972	973	O
+depending	974	983	O
+on	984	986	O
+the	987	990	O
+implementation.1	991	1007	O
+(	1008	1009	O
+radius	1009	1015	O
+or	1016	1018	O
+number	1019	1025	O
+of	1026	1028	O
+nearest	1029	1036	O
+photons	1037	1044	B-Material
+)	1044	1045	O
+is	1046	1048	O
+gradually	1049	1058	O
+reduced	1059	1066	O
+to	1067	1069	O
+mitigate	1070	1078	B-Process
+bias	1079	1083	I-Process
+.	1083	1084	O
+
+As	1085	1087	O
+Hachisuka	1088	1097	O
+points	1098	1104	O
+out	1105	1108	O
+,	1108	1109	O
+the	1110	1113	O
+accumulated	1114	1125	O
+density	1126	1133	O
+estimates	1134	1143	O
+converge	1144	1152	O
+to	1153	1155	O
+an	1156	1158	O
+unbiased	1159	1167	O
+solution	1168	1176	O
+in	1177	1179	O
+the	1180	1183	O
+limit	1184	1189	O
+.	1189	1190	O
 
 
 -DOCSTART- (S0038092X15001681)
 
-For	NN	O	O
-the	NN	O	O
-reverse	NN	O	B-Process
-current	NN	O	I-Process
-analysis	NN	O	I-Process
-,	NN	O	O
-for	NN	O	O
-both	NN	O	O
-scenarios	NN	O	O
-(	NN	O	O
-shading	NN	O	O
-and	NN	O	O
-short	NN	O	O
-circuits	NN	O	O
-)	NN	O	O
-were	NN	O	O
-tested	NN	O	O
-on	NN	O	O
-two	NN	O	O
-systems	NN	O	O
-,	NN	O	O
-one	NN	O	O
-system	NN	O	O
-using	NN	O	O
-standard	NN	O	B-Material
-silicon	NN	O	I-Material
-modules	NN	O	I-Material
-and	NN	O	O
-another	NN	O	O
-system	NN	O	O
-using	NN	O	O
-high	NN	O	B-Material
-efficiency	NN	O	I-Material
-modules	NN	O	I-Material
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-standard	NN	O	B-Material
-silicon	NN	O	I-Material
-system	NN	O	I-Material
-,	NN	O	O
-a	NN	O	O
-power	NN	O	O
-of	NN	O	O
-50kWp	NN	O	O
-was	NN	O	O
-considered	NN	O	O
-,	NN	O	O
-with	NN	O	O
-a	NN	O	O
-system	NN	O	B-Material
-composed	NN	O	O
-by	NN	O	O
-10	NN	O	B-Material
-strings	NN	O	I-Material
-of	NN	O	I-Material
-24	NN	O	I-Material
-modules	NN	O	I-Material
-per	NN	O	I-Material
-string	NN	O	I-Material
-and	NN	O	O
-an	NN	O	O
-approximate	NN	O	O
-system	NN	O	O
-Voc	NN	O	B-Material
-of	NN	O	I-Material
-864	NN	O	I-Material
-[	NN	O	O
-VDC	NN	O	B-Material
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-high	NN	O	B-Material
-efficiency	NN	O	I-Material
-system	NN	O	I-Material
-,	NN	O	O
-a	NN	O	O
-power	NN	O	O
-of	NN	O	O
-40kWp	NN	O	O
-was	NN	O	O
-considered	NN	O	O
-,	NN	O	O
-with	NN	O	O
-a	NN	O	O
-system	NN	O	B-Material
-composed	NN	O	O
-by	NN	O	O
-10	NN	O	B-Material
-strings	NN	O	I-Material
-of	NN	O	I-Material
-18	NN	O	I-Material
-modules	NN	O	I-Material
-per	NN	O	I-Material
-string	NN	O	I-Material
-and	NN	O	O
-an	NN	O	O
-approximate	NN	O	O
-system	NN	O	O
-Voc	NN	O	B-Material
-of	NN	O	I-Material
-873	NN	O	I-Material
-
-[	NN	O	O
-VDC	NN	O	B-Material
-]	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-5(a	NN	O	O
-)	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-reverse	NN	O	O
-current	NN	O	O
-present	NN	O	O
-in	NN	O	O
-one	NN	O	O
-string	NN	O	O
-when	NN	O	O
-different	NN	O	O
-numbers	NN	O	O
-of	NN	O	O
-modules	NN	O	O
-in	NN	O	O
-the	NN	O	O
-string	NN	O	O
-are	NN	O	O
-shaded	NN	O	O
-by	NN	O	O
-90	NN	O	O
-%	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-5(b	NN	O	O
-)	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-reverse	NN	O	B-Task
-current	NN	O	I-Task
-present	NN	O	O
-in	NN	O	O
-one	NN	O	O
-string	NN	O	O
-when	NN	O	O
-different	NN	O	B-Process
-numbers	NN	O	I-Process
-of	NN	O	I-Process
-modules	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-string	NN	O	I-Process
-are	NN	O	I-Process
-short	NN	O	I-Process
--	NN	O	I-Process
-circuited	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-both	NN	O	O
-figures	NN	O	O
-the	NN	O	O
-continuous	NN	O	O
-lines	NN	O	O
-are	NN	O	O
-for	NN	O	O
-the	NN	O	O
-standard	NN	O	B-Material
-silicon	NN	O	I-Material
-system	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-dashed	NN	O	O
-lines	NN	O	O
-are	NN	O	O
-for	NN	O	O
-the	NN	O	O
-high	NN	O	B-Material
-efficiency	NN	O	I-Material
-system	NN	O	I-Material
-.	NN	O	O
+For	0	3	O
+the	4	7	O
+reverse	8	15	B-Process
+current	16	23	I-Process
+analysis	24	32	I-Process
+,	32	33	O
+for	34	37	O
+both	38	42	O
+scenarios	43	52	O
+(	53	54	O
+shading	54	61	O
+and	62	65	O
+short	66	71	O
+circuits	72	80	O
+)	80	81	O
+were	82	86	O
+tested	87	93	O
+on	94	96	O
+two	97	100	O
+systems	101	108	O
+,	108	109	O
+one	110	113	O
+system	114	120	O
+using	121	126	O
+standard	127	135	B-Material
+silicon	136	143	I-Material
+modules	144	151	I-Material
+and	152	155	O
+another	156	163	O
+system	164	170	O
+using	171	176	O
+high	177	181	B-Material
+efficiency	182	192	I-Material
+modules	193	200	I-Material
+.	200	201	O
+
+For	202	205	O
+the	206	209	O
+standard	210	218	B-Material
+silicon	219	226	I-Material
+system	227	233	I-Material
+,	233	234	O
+a	235	236	O
+power	237	242	O
+of	243	245	O
+50kWp	246	251	O
+was	252	255	O
+considered	256	266	O
+,	266	267	O
+with	268	272	O
+a	273	274	O
+system	275	281	B-Material
+composed	282	290	O
+by	291	293	O
+10	294	296	B-Material
+strings	297	304	I-Material
+of	305	307	I-Material
+24	308	310	I-Material
+modules	311	318	I-Material
+per	319	322	I-Material
+string	323	329	I-Material
+and	330	333	O
+an	334	336	O
+approximate	337	348	O
+system	349	355	O
+Voc	356	359	B-Material
+of	360	362	I-Material
+864	363	366	I-Material
+[	367	368	O
+VDC	368	371	B-Material
+]	371	372	O
+.	372	373	O
+
+For	374	377	O
+the	378	381	O
+high	382	386	B-Material
+efficiency	387	397	I-Material
+system	398	404	I-Material
+,	404	405	O
+a	406	407	O
+power	408	413	O
+of	414	416	O
+40kWp	417	422	O
+was	423	426	O
+considered	427	437	O
+,	437	438	O
+with	439	443	O
+a	444	445	O
+system	446	452	B-Material
+composed	453	461	O
+by	462	464	O
+10	465	467	B-Material
+strings	468	475	I-Material
+of	476	478	I-Material
+18	479	481	I-Material
+modules	482	489	I-Material
+per	490	493	I-Material
+string	494	500	I-Material
+and	501	504	O
+an	505	507	O
+approximate	508	519	O
+system	520	526	O
+Voc	527	530	B-Material
+of	531	533	I-Material
+873	534	537	I-Material
+
+[	538	539	O
+VDC	539	542	B-Material
+]	542	543	O
+.	543	544	O
+
+Fig	545	548	O
+.	548	549	O
+
+5(a	550	553	O
+)	553	554	O
+shows	555	560	O
+the	561	564	O
+reverse	565	572	O
+current	573	580	O
+present	581	588	O
+in	589	591	O
+one	592	595	O
+string	596	602	O
+when	603	607	O
+different	608	617	O
+numbers	618	625	O
+of	626	628	O
+modules	629	636	O
+in	637	639	O
+the	640	643	O
+string	644	650	O
+are	651	654	O
+shaded	655	661	O
+by	662	664	O
+90	665	667	O
+%	667	668	O
+.	668	669	O
+
+Fig	670	673	O
+.	673	674	O
+
+5(b	675	678	O
+)	678	679	O
+shows	680	685	O
+the	686	689	O
+reverse	690	697	B-Task
+current	698	705	I-Task
+present	706	713	O
+in	714	716	O
+one	717	720	O
+string	721	727	O
+when	728	732	O
+different	733	742	B-Process
+numbers	743	750	I-Process
+of	751	753	I-Process
+modules	754	761	I-Process
+of	762	764	I-Process
+the	765	768	I-Process
+string	769	775	I-Process
+are	776	779	I-Process
+short	780	785	I-Process
+-	785	786	I-Process
+circuited	786	795	I-Process
+.	795	796	O
+
+For	797	800	O
+both	801	805	O
+figures	806	813	O
+the	814	817	O
+continuous	818	828	O
+lines	829	834	O
+are	835	838	O
+for	839	842	O
+the	843	846	O
+standard	847	855	B-Material
+silicon	856	863	I-Material
+system	864	870	I-Material
+and	871	874	O
+the	875	878	O
+dashed	879	885	O
+lines	886	891	O
+are	892	895	O
+for	896	899	O
+the	900	903	O
+high	904	908	B-Material
+efficiency	909	919	I-Material
+system	920	926	I-Material
+.	926	927	O
 
 
 -DOCSTART- (S0039602899010869)
 
-The	NN	O	O
-final	NN	O	O
-contribution	NN	O	O
-to	NN	O	O
-the	NN	O	O
-force	NN	O	O
-is	NN	O	O
-the	NN	O	O
-van	NN	O	B-Process
-der	NN	O	I-Process
-Waals	NN	O	I-Process
-interaction	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-includes	NN	O	O
-the	NN	O	O
-following	NN	O	O
-contributions	NN	O	O
-:	NN	O	O
-(	NN	O	O
-i	NN	O	O
-)	NN	O	O
-between	NN	O	O
-the	NN	O	O
-macroscopic	NN	O	B-Material
-Si	NN	O	I-Material
-tip	NN	O	I-Material
-of	NN	O	O
-conical	NN	O	O
-shape	NN	O	O
-with	NN	O	O
-the	NN	O	O
-sphere	NN	O	O
-of	NN	O	O
-radius	NN	O	O
-R	NN	O	O
-at	NN	O	O
-the	NN	O	O
-end	NN	O	O
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-and	NN	O	O
-semi	NN	O	B-Material
--	NN	O	I-Material
-infinite	NN	O	I-Material
-substrate	NN	O	I-Material
-;	NN	O	O
-(	NN	O	O
-ii	NN	O	O
-)	NN	O	O
-the	NN	O	O
-dispersion	NN	O	B-Process
-forces	NN	O	I-Process
-between	NN	O	O
-the	NN	O	O
-atoms	NN	O	B-Material
-in	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-treated	NN	O	O
-atomistically	NN	O	O
-;	NN	O	O
-and	NN	O	O
-(	NN	O	O
-iii	NN	O	O
-)	NN	O	O
-the	NN	O	O
-interaction	NN	O	O
-between	NN	O	O
-the	NN	O	O
-macroscopic	NN	O	B-Material
-part	NN	O	I-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-tip	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-sample	NN	O	B-Material
-atoms	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-first	NN	O	O
-contribution	NN	O	O
-is	NN	O	O
-calculated	NN	O	O
-analytically	NN	O	O
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-fact	NN	O	O
-,	NN	O	O
-the	NN	O	O
-macroscopic	NN	O	O
-contribution	NN	O	O
-to	NN	O	O
-the	NN	O	O
-van	NN	O	B-Process
-der	NN	O	I-Process
-Waals	NN	O	I-Process
-force	NN	O	I-Process
-is	NN	O	O
-the	NN	O	O
-same	NN	O	O
-in	NN	O	O
-each	NN	O	O
-of	NN	O	O
-the	NN	O	O
-three	NN	O	O
-systems	NN	O	O
-described	NN	O	O
-below	NN	O	O
-,	NN	O	O
-as	NN	O	O
-it	NN	O	O
-depends	NN	O	O
-only	NN	O	O
-on	NN	O	O
-the	NN	O	O
-tip	NN	O	B-Process
-–	NN	O	I-Process
-surface	NN	O	I-Process
-separation	NN	O	I-Process
-,	NN	O	O
-macroscopic	NN	O	O
-sphere	NN	O	O
-radius	NN	O	O
-,	NN	O	O
-cone	NN	O	O
--	NN	O	O
-angle	NN	O	O
-and	NN	O	O
-Hamaker	NN	O	O
-constant	NN	O	O
-of	NN	O	O
-the	NN	O	O
-system	NN	O	O
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-All	NN	O	O
-these	NN	O	O
-quantities	NN	O	O
-are	NN	O	O
-identical	NN	O	O
-in	NN	O	O
-each	NN	O	O
-system	NN	O	O
-
-we	NN	O	O
-look	NN	O	O
-at	NN	O	O
-,	NN	O	O
-so	NN	O	O
-that	NN	O	O
-the	NN	O	O
-van	NN	O	B-Process
-der	NN	O	I-Process
-Waals	NN	O	I-Process
-force	NN	O	I-Process
-acts	NN	O	O
-as	NN	O	O
-a	NN	O	O
-background	NN	O	O
-attractive	NN	O	O
-force	NN	O	O
-independent	NN	O	O
-of	NN	O	O
-the	NN	O	O
-microscopic	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-the	NN	O	O
-system	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Hamaker	NN	O	O
-constant	NN	O	O
-needed	NN	O	O
-for	NN	O	O
-the	NN	O	O
-calculation	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-macroscopic	NN	O	B-Process
-van	NN	O	I-Process
-der	NN	O	I-Process
-Waals	NN	O	I-Process
-force	NN	O	I-Process
-is	NN	O	O
-estimated	NN	O	O
-to	NN	O	O
-be	NN	O	O
-0.5eV	NN	O	O
-
-[	NN	O	O
-32	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+final	4	9	O
+contribution	10	22	O
+to	23	25	O
+the	26	29	O
+force	30	35	O
+is	36	38	O
+the	39	42	O
+van	43	46	B-Process
+der	47	50	I-Process
+Waals	51	56	I-Process
+interaction	57	68	I-Process
+.	68	69	O
+
+It	70	72	O
+includes	73	81	O
+the	82	85	O
+following	86	95	O
+contributions	96	109	O
+:	109	110	O
+(	111	112	O
+i	112	113	O
+)	113	114	O
+between	115	122	O
+the	123	126	O
+macroscopic	127	138	B-Material
+Si	139	141	I-Material
+tip	142	145	I-Material
+of	146	148	O
+conical	149	156	O
+shape	157	162	O
+with	163	167	O
+the	168	171	O
+sphere	172	178	O
+of	179	181	O
+radius	182	188	O
+R	189	190	O
+at	191	193	O
+the	194	197	O
+end	198	201	O
+[	202	203	O
+27	203	205	O
+]	205	206	O
+and	207	210	O
+semi	211	215	B-Material
+-	215	216	I-Material
+infinite	216	224	I-Material
+substrate	225	234	I-Material
+;	234	235	O
+(	236	237	O
+ii	237	239	O
+)	239	240	O
+the	241	244	O
+dispersion	245	255	B-Process
+forces	256	262	I-Process
+between	263	270	O
+the	271	274	O
+atoms	275	280	B-Material
+in	281	283	O
+the	284	287	O
+sample	288	294	O
+treated	295	302	O
+atomistically	303	316	O
+;	316	317	O
+and	318	321	O
+(	322	323	O
+iii	323	326	O
+)	326	327	O
+the	328	331	O
+interaction	332	343	O
+between	344	351	O
+the	352	355	O
+macroscopic	356	367	B-Material
+part	368	372	I-Material
+of	373	375	I-Material
+the	376	379	I-Material
+tip	380	383	I-Material
+and	384	387	O
+the	388	391	O
+sample	392	398	B-Material
+atoms	399	404	I-Material
+.	404	405	O
+
+The	406	409	O
+first	410	415	O
+contribution	416	428	O
+is	429	431	O
+calculated	432	442	O
+analytically	443	455	O
+[	456	457	O
+27	457	459	O
+]	459	460	O
+.	460	461	O
+
+In	462	464	O
+fact	465	469	O
+,	469	470	O
+the	471	474	O
+macroscopic	475	486	O
+contribution	487	499	O
+to	500	502	O
+the	503	506	O
+van	507	510	B-Process
+der	511	514	I-Process
+Waals	515	520	I-Process
+force	521	526	I-Process
+is	527	529	O
+the	530	533	O
+same	534	538	O
+in	539	541	O
+each	542	546	O
+of	547	549	O
+the	550	553	O
+three	554	559	O
+systems	560	567	O
+described	568	577	O
+below	578	583	O
+,	583	584	O
+as	585	587	O
+it	588	590	O
+depends	591	598	O
+only	599	603	O
+on	604	606	O
+the	607	610	O
+tip	611	614	B-Process
+–	614	615	I-Process
+surface	615	622	I-Process
+separation	623	633	I-Process
+,	633	634	O
+macroscopic	635	646	O
+sphere	647	653	O
+radius	654	660	O
+,	660	661	O
+cone	662	666	O
+-	666	667	O
+angle	667	672	O
+and	673	676	O
+Hamaker	677	684	O
+constant	685	693	O
+of	694	696	O
+the	697	700	O
+system	701	707	O
+[	708	709	O
+27	709	711	O
+]	711	712	O
+.	712	713	O
+
+All	714	717	O
+these	718	723	O
+quantities	724	734	O
+are	735	738	O
+identical	739	748	O
+in	749	751	O
+each	752	756	O
+system	757	763	O
+
+we	764	766	O
+look	767	771	O
+at	772	774	O
+,	774	775	O
+so	776	778	O
+that	779	783	O
+the	784	787	O
+van	788	791	B-Process
+der	792	795	I-Process
+Waals	796	801	I-Process
+force	802	807	I-Process
+acts	808	812	O
+as	813	815	O
+a	816	817	O
+background	818	828	O
+attractive	829	839	O
+force	840	845	O
+independent	846	857	O
+of	858	860	O
+the	861	864	O
+microscopic	865	876	O
+properties	877	887	O
+of	888	890	O
+the	891	894	O
+system	895	901	O
+[	902	903	O
+8	903	904	O
+]	904	905	O
+.	905	906	O
+
+The	907	910	O
+Hamaker	911	918	O
+constant	919	927	O
+needed	928	934	O
+for	935	938	O
+the	939	942	O
+calculation	943	954	B-Process
+of	955	957	O
+the	958	961	O
+macroscopic	962	973	B-Process
+van	974	977	I-Process
+der	978	981	I-Process
+Waals	982	987	I-Process
+force	988	993	I-Process
+is	994	996	O
+estimated	997	1006	O
+to	1007	1009	O
+be	1010	1012	O
+0.5eV	1013	1018	O
+
+[	1019	1020	O
+32	1020	1022	O
+]	1022	1023	O
+.	1023	1024	O
 
 
 -DOCSTART- (S0045782511003823)
 
-In	NN	O	O
-the	NN	O	O
-present	NN	O	O
-work	NN	O	O
-we	NN	O	O
-use	NN	O	O
-the	NN	O	O
-mortar	NN	O	B-Process
-finite	NN	O	I-Process
-element	NN	O	I-Process
-method	NN	O	O
-for	NN	O	O
-the	NN	O	O
-coupling	NN	O	B-Task
-of	NN	O	I-Task
-nonconforming	NN	O	I-Task
-discretized	NN	O	I-Task
-sub	NN	O	I-Task
--	NN	O	I-Task
-domains	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-framework	NN	O	I-Task
-of	NN	O	I-Task
-nonlinear	NN	O	I-Task
-elasticity	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-mortar	NN	O	B-Process
-method	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-shown	NN	O	O
-to	NN	O	O
-preserve	NN	O	O
-optimal	NN	O	B-Task
-convergence	NN	O	I-Task
-rates	NN	O	I-Task
-(	NN	O	O
-see	NN	O	O
-Laursen	NN	O	O
-(	NN	O	O
-2002	NN	O	O
-)	NN	O	O
-
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-for	NN	O	O
-details	NN	O	O
-)	NN	O	O
-and	NN	O	O
-is	NN	O	O
-variationally	NN	O	O
-consistent	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-method	NN	O	O
-can	NN	O	O
-be	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-isogeometric	NN	O	B-Task
-analysis	NN	O	I-Task
-with	NN	O	O
-little	NN	O	O
-effort	NN	O	O
-,	NN	O	O
-once	NN	O	O
-the	NN	O	O
-framework	NN	O	B-Material
-of	NN	O	I-Material
-NURBS	NN	O	I-Material
-based	NN	O	I-Material
-shape	NN	O	I-Material
-functions	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-implemented	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-a	NN	O	O
-specific	NN	O	O
-coordinate	NN	O	B-Process
-augmentation	NN	O	I-Process
-technique	NN	O	I-Process
-allows	NN	O	O
-the	NN	O	O
-design	NN	O	O
-of	NN	O	O
-an	NN	O	O
-energy	NN	O	B-Task
-–	NN	O	I-Task
-momentum	NN	O	I-Task
-scheme	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-constrained	NN	O	O
-mechanical	NN	O	B-Process
-system	NN	O	I-Process
-under	NN	O	O
-consideration	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-excellent	NN	O	O
-performance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-redesigned	NN	O	O
-mortar	NN	O	B-Process
-method	NN	O	I-Process
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-the	NN	O	O
-energy	NN	O	B-Task
-–	NN	O	I-Task
-momentum	NN	O	I-Task
-scheme	NN	O	I-Task
-is	NN	O	O
-illustrated	NN	O	O
-in	NN	O	O
-representative	NN	O	O
-numerical	NN	O	O
-examples	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-present	NN	O	O
-work	NN	O	O
-we	NN	O	O
-use	NN	O	O
-the	NN	O	O
-mortar	NN	O	B-Process
-finite	NN	O	I-Process
-element	NN	O	I-Process
-method	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-coupling	NN	O	B-Task
-of	NN	O	I-Task
-nonconforming	NN	O	I-Task
-discretized	NN	O	I-Task
-sub	NN	O	I-Task
--	NN	O	I-Task
-domains	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-framework	NN	O	I-Task
-of	NN	O	I-Task
-nonlinear	NN	O	I-Task
-elasticity	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-mortar	NN	O	B-Process
-method	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-shown	NN	O	O
-to	NN	O	O
-preserve	NN	O	O
-optimal	NN	O	O
-convergence	NN	O	B-Task
-rates	NN	O	I-Task
-(	NN	O	O
-see	NN	O	O
-Laursen	NN	O	O
-(	NN	O	O
-2002	NN	O	O
-)	NN	O	O
-
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-for	NN	O	O
-details	NN	O	O
-)	NN	O	O
-and	NN	O	O
-is	NN	O	O
-variationally	NN	O	O
-consistent	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-method	NN	O	O
-can	NN	O	O
-be	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-isogeometric	NN	O	B-Task
-analysis	NN	O	I-Task
-with	NN	O	O
-little	NN	O	O
-effort	NN	O	O
-,	NN	O	O
-once	NN	O	O
-the	NN	O	O
-framework	NN	O	B-Material
-of	NN	O	I-Material
-NURBS	NN	O	I-Material
-based	NN	O	I-Material
-shape	NN	O	I-Material
-functions	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-implemented	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-a	NN	O	O
-specific	NN	O	O
-coordinate	NN	O	B-Process
-augmentation	NN	O	I-Process
-technique	NN	O	I-Process
-allows	NN	O	O
-the	NN	O	O
-design	NN	O	O
-of	NN	O	O
-an	NN	O	O
-energy	NN	O	B-Task
-–	NN	O	I-Task
-momentum	NN	O	I-Task
-scheme	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-constrained	NN	O	B-Process
-mechanical	NN	O	I-Process
-system	NN	O	I-Process
-under	NN	O	O
-consideration	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-excellent	NN	O	O
-performance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-redesigned	NN	O	O
-mortar	NN	O	B-Process
-method	NN	O	I-Process
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-the	NN	O	O
-energy	NN	O	B-Task
-–	NN	O	I-Task
-momentum	NN	O	I-Task
-scheme	NN	O	I-Task
-is	NN	O	O
-illustrated	NN	O	O
-in	NN	O	O
-representative	NN	O	O
-numerical	NN	O	O
-examples	NN	O	O
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+present	7	14	O
+work	15	19	O
+we	20	22	O
+use	23	26	O
+the	27	30	O
+mortar	31	37	B-Process
+finite	38	44	I-Process
+element	45	52	I-Process
+method	53	59	O
+for	60	63	O
+the	64	67	O
+coupling	68	76	B-Task
+of	77	79	I-Task
+nonconforming	80	93	I-Task
+discretized	94	105	I-Task
+sub	106	109	I-Task
+-	109	110	I-Task
+domains	110	117	I-Task
+in	118	120	I-Task
+the	121	124	I-Task
+framework	125	134	I-Task
+of	135	137	I-Task
+nonlinear	138	147	I-Task
+elasticity	148	158	I-Task
+.	158	159	O
+
+The	160	163	O
+mortar	164	170	B-Process
+method	171	177	I-Process
+has	178	181	O
+been	182	186	O
+shown	187	192	O
+to	193	195	O
+preserve	196	204	O
+optimal	205	212	B-Task
+convergence	213	224	I-Task
+rates	225	230	I-Task
+(	231	232	O
+see	232	235	O
+Laursen	236	243	O
+(	244	245	O
+2002	245	249	O
+)	249	250	O
+
+[	251	252	O
+25	252	254	O
+]	254	255	O
+for	256	259	O
+details	260	267	O
+)	267	268	O
+and	269	272	O
+is	273	275	O
+variationally	276	289	O
+consistent	290	300	O
+.	300	301	O
+
+We	302	304	O
+show	305	309	O
+that	310	314	O
+the	315	318	O
+method	319	325	O
+can	326	329	O
+be	330	332	O
+applied	333	340	O
+to	341	343	O
+isogeometric	344	356	B-Task
+analysis	357	365	I-Task
+with	366	370	O
+little	371	377	O
+effort	378	384	O
+,	384	385	O
+once	386	390	O
+the	391	394	O
+framework	395	404	B-Material
+of	405	407	I-Material
+NURBS	408	413	I-Material
+based	414	419	I-Material
+shape	420	425	I-Material
+functions	426	435	I-Material
+has	436	439	O
+been	440	444	O
+implemented	445	456	O
+.	456	457	O
+
+Furthermore	458	469	O
+,	469	470	O
+a	471	472	O
+specific	473	481	O
+coordinate	482	492	B-Process
+augmentation	493	505	I-Process
+technique	506	515	I-Process
+allows	516	522	O
+the	523	526	O
+design	527	533	O
+of	534	536	O
+an	537	539	O
+energy	540	546	B-Task
+–	546	547	I-Task
+momentum	547	555	I-Task
+scheme	556	562	I-Task
+for	563	566	O
+the	567	570	O
+constrained	571	582	O
+mechanical	583	593	B-Process
+system	594	600	I-Process
+under	601	606	O
+consideration	607	620	O
+.	620	621	O
+
+The	622	625	O
+excellent	626	635	O
+performance	636	647	O
+of	648	650	O
+the	651	654	O
+redesigned	655	665	O
+mortar	666	672	B-Process
+method	673	679	I-Process
+as	680	682	O
+well	683	687	O
+as	688	690	O
+the	691	694	O
+energy	695	701	B-Task
+–	701	702	I-Task
+momentum	702	710	I-Task
+scheme	711	717	I-Task
+is	718	720	O
+illustrated	721	732	O
+in	733	735	O
+representative	736	750	O
+numerical	751	760	O
+examples	761	769	O
+.	769	770	O
+
+In	770	772	O
+the	773	776	O
+present	777	784	O
+work	785	789	O
+we	790	792	O
+use	793	796	O
+the	797	800	O
+mortar	801	807	B-Process
+finite	808	814	I-Process
+element	815	822	I-Process
+method	823	829	I-Process
+for	830	833	O
+the	834	837	O
+coupling	838	846	B-Task
+of	847	849	I-Task
+nonconforming	850	863	I-Task
+discretized	864	875	I-Task
+sub	876	879	I-Task
+-	879	880	I-Task
+domains	880	887	I-Task
+in	888	890	I-Task
+the	891	894	I-Task
+framework	895	904	I-Task
+of	905	907	I-Task
+nonlinear	908	917	I-Task
+elasticity	918	928	I-Task
+.	928	929	O
+
+The	930	933	O
+mortar	934	940	B-Process
+method	941	947	I-Process
+has	948	951	O
+been	952	956	O
+shown	957	962	O
+to	963	965	O
+preserve	966	974	O
+optimal	975	982	O
+convergence	983	994	B-Task
+rates	995	1000	I-Task
+(	1001	1002	O
+see	1002	1005	O
+Laursen	1006	1013	O
+(	1014	1015	O
+2002	1015	1019	O
+)	1019	1020	O
+
+[	1021	1022	O
+25	1022	1024	O
+]	1024	1025	O
+for	1026	1029	O
+details	1030	1037	O
+)	1037	1038	O
+and	1039	1042	O
+is	1043	1045	O
+variationally	1046	1059	O
+consistent	1060	1070	O
+.	1070	1071	O
+
+We	1072	1074	O
+show	1075	1079	O
+that	1080	1084	O
+the	1085	1088	O
+method	1089	1095	O
+can	1096	1099	O
+be	1100	1102	O
+applied	1103	1110	O
+to	1111	1113	O
+isogeometric	1114	1126	B-Task
+analysis	1127	1135	I-Task
+with	1136	1140	O
+little	1141	1147	O
+effort	1148	1154	O
+,	1154	1155	O
+once	1156	1160	O
+the	1161	1164	O
+framework	1165	1174	B-Material
+of	1175	1177	I-Material
+NURBS	1178	1183	I-Material
+based	1184	1189	I-Material
+shape	1190	1195	I-Material
+functions	1196	1205	I-Material
+has	1206	1209	O
+been	1210	1214	O
+implemented	1215	1226	O
+.	1226	1227	O
+
+Furthermore	1228	1239	O
+,	1239	1240	O
+a	1241	1242	O
+specific	1243	1251	O
+coordinate	1252	1262	B-Process
+augmentation	1263	1275	I-Process
+technique	1276	1285	I-Process
+allows	1286	1292	O
+the	1293	1296	O
+design	1297	1303	O
+of	1304	1306	O
+an	1307	1309	O
+energy	1310	1316	B-Task
+–	1316	1317	I-Task
+momentum	1317	1325	I-Task
+scheme	1326	1332	I-Task
+for	1333	1336	O
+the	1337	1340	O
+constrained	1341	1352	B-Process
+mechanical	1353	1363	I-Process
+system	1364	1370	I-Process
+under	1371	1376	O
+consideration	1377	1390	O
+.	1390	1391	O
+
+The	1392	1395	O
+excellent	1396	1405	O
+performance	1406	1417	O
+of	1418	1420	O
+the	1421	1424	O
+redesigned	1425	1435	O
+mortar	1436	1442	B-Process
+method	1443	1449	I-Process
+as	1450	1452	O
+well	1453	1457	O
+as	1458	1460	O
+the	1461	1464	O
+energy	1465	1471	B-Task
+–	1471	1472	I-Task
+momentum	1472	1480	I-Task
+scheme	1481	1487	I-Task
+is	1488	1490	O
+illustrated	1491	1502	O
+in	1503	1505	O
+representative	1506	1520	O
+numerical	1521	1530	O
+examples	1531	1539	O
+.	1539	1540	O
 
 
 -DOCSTART- (S0045782512000266)
 
-In	NN	O	O
-this	NN	O	O
-work	NN	O	O
-,	NN	O	O
-a	NN	O	O
-numerical	NN	O	B-Process
-strategy	NN	O	I-Process
-for	NN	O	O
-designing	NN	O	O
-an	NN	O	O
-optimal	NN	O	B-Task
-maintenance	NN	O	I-Task
-scheduling	NN	O	I-Task
-for	NN	O	I-Task
-a	NN	O	I-Task
-structure	NN	O	I-Task
-,	NN	O	O
-accounting	NN	O	B-Process
-explicitly	NN	O	I-Process
-for	NN	O	I-Process
-the	NN	O	I-Process
-effects	NN	O	I-Process
-of	NN	O	I-Process
-uncertainty	NN	O	I-Process
-is	NN	O	O
-suggested	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-contribution	NN	O	O
-,	NN	O	O
-which	NN	O	O
-can	NN	O	O
-be	NN	O	O
-regarded	NN	O	O
-as	NN	O	O
-an	NN	O	O
-extension	NN	O	O
-of	NN	O	O
-the	NN	O	O
-methods	NN	O	O
-developed	NN	O	O
-in	NN	O	O
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-,	NN	O	O
-presents	NN	O	O
-several	NN	O	O
-novel	NN	O	O
-aspects	NN	O	O
-over	NN	O	O
-similar	NN	O	O
-approaches	NN	O	O
-proposed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-.	NN	O	O
-
-Firstly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-initiation	NN	O	B-Process
-and	NN	O	I-Process
-propagation	NN	O	I-Process
-of	NN	O	I-Process
-fatigue	NN	O	I-Process
-crack	NN	O	I-Process
-is	NN	O	O
-modeled	NN	O	O
-efficiently	NN	O	O
-by	NN	O	O
-means	NN	O	O
-of	NN	O	O
-cohesive	NN	O	B-Material
-zone	NN	O	I-Material
-elements	NN	O	I-Material
-[	NN	O	O
-24–26	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-application	NN	O	O
-of	NN	O	O
-this	NN	O	O
-class	NN	O	B-Material
-of	NN	O	I-Material
-elements	NN	O	I-Material
-allows	NN	O	O
-modeling	NN	O	B-Task
-the	NN	O	I-Task
-crack	NN	O	I-Task
-initiation	NN	O	I-Task
-and	NN	O	I-Task
-propagation	NN	O	I-Task
-within	NN	O	I-Task
-a	NN	O	I-Task
-unified	NN	O	I-Task
-framework	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-should	NN	O	O
-be	NN	O	O
-noted	NN	O	O
-that	NN	O	O
-cohesive	NN	O	B-Material
-zone	NN	O	I-Material
-elements	NN	O	I-Material
-have	NN	O	O
-already	NN	O	O
-been	NN	O	O
-used	NN	O	O
-for	NN	O	O
-uncertainty	NN	O	B-Task
-quantification	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-crack	NN	O	I-Task
-propagation	NN	O	I-Task
-phenomenon	NN	O	I-Task
-[	NN	O	O
-27,28	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-its	NN	O	O
-application	NN	O	O
-within	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-maintenance	NN	O	B-Task
-scheduling	NN	O	I-Task
-constitutes	NN	O	O
-a	NN	O	O
-novelty	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-second	NN	O	O
-innovative	NN	O	O
-aspect	NN	O	O
-of	NN	O	O
-this	NN	O	O
-contribution	NN	O	O
-refers	NN	O	O
-to	NN	O	O
-the	NN	O	O
-assessment	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-reliability	NN	O	I-Process
-sensitivity	NN	O	I-Process
-with	NN	O	I-Process
-respect	NN	O	I-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-variables	NN	O	I-Process
-that	NN	O	I-Process
-define	NN	O	I-Process
-the	NN	O	I-Process
-maintenance	NN	O	I-Process
-scheduling	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-estimation	NN	O	B-Process
-of	NN	O	I-Process
-this	NN	O	I-Process
-sensitivity	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-required	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-the	NN	O	O
-optimal	NN	O	B-Task
-maintenance	NN	O	I-Task
-schedule	NN	O	I-Task
-within	NN	O	I-Task
-the	NN	O	I-Task
-proposed	NN	O	I-Task
-framework	NN	O	I-Task
-,	NN	O	O
-can	NN	O	O
-be	NN	O	O
-quite	NN	O	O
-demanding	NN	O	O
-as	NN	O	O
-the	NN	O	O
-model	NN	O	B-Material
-characterizing	NN	O	I-Material
-repair	NN	O	I-Material
-of	NN	O	I-Material
-a	NN	O	I-Material
-cracked	NN	O	I-Material
-structure	NN	O	I-Material
-leads	NN	O	O
-to	NN	O	O
-a	NN	O	O
-discontinuous	NN	O	B-Task
-performance	NN	O	I-Task
-function	NN	O	I-Task
-associated	NN	O	I-Task
-with	NN	O	I-Task
-the	NN	O	I-Task
-failure	NN	O	I-Task
-probability	NN	O	I-Task
-.	NN	O	O
-
-A	NN	O	O
-new	NN	O	O
-approach	NN	O	O
-for	NN	O	O
-modeling	NN	O	O
-this	NN	O	O
-function	NN	O	O
-is	NN	O	O
-proposed	NN	O	O
-herein	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-continuous	NN	O	B-Material
-and	NN	O	I-Material
-discontinuous	NN	O	I-Material
-parts	NN	O	I-Material
-respectively	NN	O	O
-of	NN	O	O
-the	NN	O	O
-function	NN	O	O
-are	NN	O	O
-considered	NN	O	O
-separately	NN	O	O
-to	NN	O	O
-estimate	NN	O	B-Process
-accurately	NN	O	I-Process
-the	NN	O	I-Process
-gradients	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-failure	NN	O	I-Process
-events	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+work	8	12	O
+,	12	13	O
+a	14	15	O
+numerical	16	25	B-Process
+strategy	26	34	I-Process
+for	35	38	O
+designing	39	48	O
+an	49	51	O
+optimal	52	59	B-Task
+maintenance	60	71	I-Task
+scheduling	72	82	I-Task
+for	83	86	I-Task
+a	87	88	I-Task
+structure	89	98	I-Task
+,	98	99	O
+accounting	100	110	B-Process
+explicitly	111	121	I-Process
+for	122	125	I-Process
+the	126	129	I-Process
+effects	130	137	I-Process
+of	138	140	I-Process
+uncertainty	141	152	I-Process
+is	153	155	O
+suggested	156	165	O
+.	165	166	O
+
+This	167	171	O
+contribution	172	184	O
+,	184	185	O
+which	186	191	O
+can	192	195	O
+be	196	198	O
+regarded	199	207	O
+as	208	210	O
+an	211	213	O
+extension	214	223	O
+of	224	226	O
+the	227	230	O
+methods	231	238	O
+developed	239	248	O
+in	249	251	O
+[	252	253	O
+23	253	255	O
+]	255	256	O
+,	256	257	O
+presents	258	266	O
+several	267	274	O
+novel	275	280	O
+aspects	281	288	O
+over	289	293	O
+similar	294	301	O
+approaches	302	312	O
+proposed	313	321	O
+in	322	324	O
+the	325	328	O
+literature	329	339	O
+.	339	340	O
+
+Firstly	341	348	O
+,	348	349	O
+the	350	353	O
+initiation	354	364	B-Process
+and	365	368	I-Process
+propagation	369	380	I-Process
+of	381	383	I-Process
+fatigue	384	391	I-Process
+crack	392	397	I-Process
+is	398	400	O
+modeled	401	408	O
+efficiently	409	420	O
+by	421	423	O
+means	424	429	O
+of	430	432	O
+cohesive	433	441	B-Material
+zone	442	446	I-Material
+elements	447	455	I-Material
+[	456	457	O
+24–26	457	462	O
+]	462	463	O
+.	463	464	O
+
+The	465	468	O
+application	469	480	O
+of	481	483	O
+this	484	488	O
+class	489	494	B-Material
+of	495	497	I-Material
+elements	498	506	I-Material
+allows	507	513	O
+modeling	514	522	B-Task
+the	523	526	I-Task
+crack	527	532	I-Task
+initiation	533	543	I-Task
+and	544	547	I-Task
+propagation	548	559	I-Task
+within	560	566	I-Task
+a	567	568	I-Task
+unified	569	576	I-Task
+framework	577	586	I-Task
+.	586	587	O
+
+It	588	590	O
+should	591	597	O
+be	598	600	O
+noted	601	606	O
+that	607	611	O
+cohesive	612	620	B-Material
+zone	621	625	I-Material
+elements	626	634	I-Material
+have	635	639	O
+already	640	647	O
+been	648	652	O
+used	653	657	O
+for	658	661	O
+uncertainty	662	673	B-Task
+quantification	674	688	I-Task
+of	689	691	I-Task
+the	692	695	I-Task
+crack	696	701	I-Task
+propagation	702	713	I-Task
+phenomenon	714	724	I-Task
+[	725	726	O
+27,28	726	731	O
+]	731	732	O
+.	732	733	O
+
+However	734	741	O
+its	742	745	O
+application	746	757	O
+within	758	764	O
+the	765	768	O
+context	769	776	O
+of	777	779	O
+maintenance	780	791	B-Task
+scheduling	792	802	I-Task
+constitutes	803	814	O
+a	815	816	O
+novelty	817	824	O
+.	824	825	O
+
+The	826	829	O
+second	830	836	O
+innovative	837	847	O
+aspect	848	854	O
+of	855	857	O
+this	858	862	O
+contribution	863	875	O
+refers	876	882	O
+to	883	885	O
+the	886	889	O
+assessment	890	900	B-Process
+of	901	903	I-Process
+the	904	907	I-Process
+reliability	908	919	I-Process
+sensitivity	920	931	I-Process
+with	932	936	I-Process
+respect	937	944	I-Process
+to	945	947	I-Process
+the	948	951	I-Process
+variables	952	961	I-Process
+that	962	966	I-Process
+define	967	973	I-Process
+the	974	977	I-Process
+maintenance	978	989	I-Process
+scheduling	990	1000	I-Process
+.	1000	1001	O
+
+The	1002	1005	O
+estimation	1006	1016	B-Process
+of	1017	1019	I-Process
+this	1020	1024	I-Process
+sensitivity	1025	1036	I-Process
+,	1036	1037	O
+which	1038	1043	O
+is	1044	1046	O
+required	1047	1055	O
+in	1056	1058	O
+order	1059	1064	O
+to	1065	1067	O
+determine	1068	1077	O
+the	1078	1081	O
+optimal	1082	1089	B-Task
+maintenance	1090	1101	I-Task
+schedule	1102	1110	I-Task
+within	1111	1117	I-Task
+the	1118	1121	I-Task
+proposed	1122	1130	I-Task
+framework	1131	1140	I-Task
+,	1140	1141	O
+can	1142	1145	O
+be	1146	1148	O
+quite	1149	1154	O
+demanding	1155	1164	O
+as	1165	1167	O
+the	1168	1171	O
+model	1172	1177	B-Material
+characterizing	1178	1192	I-Material
+repair	1193	1199	I-Material
+of	1200	1202	I-Material
+a	1203	1204	I-Material
+cracked	1205	1212	I-Material
+structure	1213	1222	I-Material
+leads	1223	1228	O
+to	1229	1231	O
+a	1232	1233	O
+discontinuous	1234	1247	B-Task
+performance	1248	1259	I-Task
+function	1260	1268	I-Task
+associated	1269	1279	I-Task
+with	1280	1284	I-Task
+the	1285	1288	I-Task
+failure	1289	1296	I-Task
+probability	1297	1308	I-Task
+.	1308	1309	O
+
+A	1310	1311	O
+new	1312	1315	O
+approach	1316	1324	O
+for	1325	1328	O
+modeling	1329	1337	O
+this	1338	1342	O
+function	1343	1351	O
+is	1352	1354	O
+proposed	1355	1363	O
+herein	1364	1370	O
+.	1370	1371	O
+
+The	1372	1375	O
+continuous	1376	1386	B-Material
+and	1387	1390	I-Material
+discontinuous	1391	1404	I-Material
+parts	1405	1410	I-Material
+respectively	1411	1423	O
+of	1424	1426	O
+the	1427	1430	O
+function	1431	1439	O
+are	1440	1443	O
+considered	1444	1454	O
+separately	1455	1465	O
+to	1466	1468	O
+estimate	1469	1477	B-Process
+accurately	1478	1488	I-Process
+the	1489	1492	I-Process
+gradients	1493	1502	I-Process
+of	1503	1505	I-Process
+the	1506	1509	I-Process
+failure	1510	1517	I-Process
+events	1518	1524	I-Process
+.	1524	1525	O
 
 
 -DOCSTART- (S0045782512002599)
 
-Finite	NN	O	B-Process
-Element	NN	O	I-Process
-Tearing	NN	O	I-Process
-and	NN	O	I-Process
-Interconnecting	NN	O	I-Process
-(	NN	O	O
-FETI	NN	O	B-Process
-)	NN	O	O
-methods	NN	O	O
-are	NN	O	O
-a	NN	O	O
-powerful	NN	O	O
-approach	NN	O	O
-to	NN	O	O
-designing	NN	O	O
-solvers	NN	O	B-Task
-for	NN	O	I-Task
-large	NN	O	I-Task
--	NN	O	I-Task
-scale	NN	O	I-Task
-problems	NN	O	I-Task
-in	NN	O	I-Task
-computational	NN	O	I-Task
-mechanics	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-numerical	NN	O	B-Material
-simulation	NN	O	I-Material
-problem	NN	O	I-Material
-is	NN	O	O
-subdivided	NN	O	O
-into	NN	O	O
-a	NN	O	O
-number	NN	O	B-Material
-of	NN	O	I-Material
-independent	NN	O	I-Material
-sub	NN	O	I-Material
--	NN	O	I-Material
-problems	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-then	NN	O	O
-coupled	NN	O	O
-in	NN	O	O
-appropriate	NN	O	O
-ways	NN	O	O
-.	NN	O	O
-
-NURBS-	NN	O	B-Process
-
-(	NN	O	O
-Non	NN	O	B-Process
--	NN	O	I-Process
-Uniform	NN	O	I-Process
-Rational	NN	O	I-Process
-B	NN	O	I-Process
--	NN	O	I-Process
-spline	NN	O	I-Process
-)	NN	O	O
-
-based	NN	O	O
-isogeometric	NN	O	B-Process
-analysis	NN	O	I-Process
-(	NN	O	O
-IGA	NN	O	B-Process
-)	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-complex	NN	O	B-Material
-geometries	NN	O	I-Material
-requires	NN	O	O
-to	NN	O	O
-represent	NN	O	O
-the	NN	O	O
-computational	NN	O	B-Task
-domain	NN	O	I-Task
-as	NN	O	I-Task
-a	NN	O	I-Task
-collection	NN	O	I-Task
-of	NN	O	I-Task
-several	NN	O	I-Task
-NURBS	NN	O	I-Task
-geometries	NN	O	I-Task
-.	NN	O	O
-
-Since	NN	O	O
-there	NN	O	O
-is	NN	O	O
-a	NN	O	O
-natural	NN	O	O
-decomposition	NN	O	O
-of	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-domain	NN	O	O
-into	NN	O	O
-several	NN	O	B-Material
-subdomains	NN	O	I-Material
-,	NN	O	O
-NURBS	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-IGA	NN	O	I-Process
-is	NN	O	O
-particularly	NN	O	O
-well	NN	O	O
-suited	NN	O	O
-for	NN	O	O
-using	NN	O	O
-FETI	NN	O	B-Process
-methods	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-proposes	NN	O	O
-the	NN	O	O
-new	NN	O	O
-IsogEometric	NN	O	B-Process
-Tearing	NN	O	I-Process
-and	NN	O	I-Process
-Interconnecting	NN	O	I-Process
-(	NN	O	O
-IETI	NN	O	B-Process
-)	NN	O	O
-method	NN	O	O
-,	NN	O	O
-which	NN	O	O
-combines	NN	O	O
-the	NN	O	O
-advanced	NN	O	B-Process
-solver	NN	O	I-Process
-design	NN	O	I-Process
-of	NN	O	O
-FETI	NN	O	B-Process
-with	NN	O	O
-the	NN	O	O
-exact	NN	O	B-Process
-geometry	NN	O	I-Process
-representation	NN	O	I-Process
-of	NN	O	O
-IGA	NN	O	B-Process
-.	NN	O	O
-
-We	NN	O	O
-describe	NN	O	O
-the	NN	O	O
-IETI	NN	O	B-Process
-framework	NN	O	I-Process
-for	NN	O	O
-two	NN	O	O
-classes	NN	O	O
-of	NN	O	O
-simple	NN	O	B-Process
-model	NN	O	I-Process
-problems	NN	O	I-Process
-(	NN	O	O
-Poisson	NN	O	B-Process
-and	NN	O	O
-linearized	NN	O	B-Process
-elasticity	NN	O	I-Process
-)	NN	O	O
-and	NN	O	O
-discuss	NN	O	O
-the	NN	O	O
-coupling	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-subdomains	NN	O	I-Process
-along	NN	O	I-Process
-interfaces	NN	O	I-Process
-(	NN	O	O
-both	NN	O	O
-for	NN	O	O
-matching	NN	O	O
-interfaces	NN	O	O
-and	NN	O	O
-for	NN	O	O
-interfaces	NN	O	B-Material
-with	NN	O	I-Material
-T	NN	O	I-Material
--	NN	O	I-Material
-joints	NN	O	I-Material
-,	NN	O	O
-i.e.	NN	O	O
-hanging	NN	O	B-Material
-nodes	NN	O	I-Material
-)	NN	O	O
-.	NN	O	O
-
-Special	NN	O	O
-attention	NN	O	O
-is	NN	O	O
-paid	NN	O	O
-to	NN	O	O
-the	NN	O	O
-construction	NN	O	B-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-suitable	NN	O	I-Task
-preconditioner	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-iterative	NN	O	I-Task
-linear	NN	O	I-Task
-solver	NN	O	I-Task
-used	NN	O	O
-for	NN	O	O
-the	NN	O	O
-interface	NN	O	O
-problem	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-report	NN	O	O
-several	NN	O	O
-computational	NN	O	O
-experiments	NN	O	O
-to	NN	O	O
-demonstrate	NN	O	B-Task
-the	NN	O	I-Task
-performance	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-proposed	NN	O	I-Task
-IETI	NN	O	I-Task
-method	NN	O	I-Task
-.	NN	O	O
+Finite	0	6	B-Process
+Element	7	14	I-Process
+Tearing	15	22	I-Process
+and	23	26	I-Process
+Interconnecting	27	42	I-Process
+(	43	44	O
+FETI	44	48	B-Process
+)	48	49	O
+methods	50	57	O
+are	58	61	O
+a	62	63	O
+powerful	64	72	O
+approach	73	81	O
+to	82	84	O
+designing	85	94	O
+solvers	95	102	B-Task
+for	103	106	I-Task
+large	107	112	I-Task
+-	112	113	I-Task
+scale	113	118	I-Task
+problems	119	127	I-Task
+in	128	130	I-Task
+computational	131	144	I-Task
+mechanics	145	154	I-Task
+.	154	155	O
+
+The	156	159	O
+numerical	160	169	B-Material
+simulation	170	180	I-Material
+problem	181	188	I-Material
+is	189	191	O
+subdivided	192	202	O
+into	203	207	O
+a	208	209	O
+number	210	216	B-Material
+of	217	219	I-Material
+independent	220	231	I-Material
+sub	232	235	I-Material
+-	235	236	I-Material
+problems	236	244	I-Material
+,	244	245	O
+which	246	251	O
+are	252	255	O
+then	256	260	O
+coupled	261	268	O
+in	269	271	O
+appropriate	272	283	O
+ways	284	288	O
+.	288	289	O
+
+NURBS-	290	296	B-Process
+
+(	297	298	O
+Non	298	301	B-Process
+-	301	302	I-Process
+Uniform	302	309	I-Process
+Rational	310	318	I-Process
+B	319	320	I-Process
+-	320	321	I-Process
+spline	321	327	I-Process
+)	327	328	O
+
+based	329	334	O
+isogeometric	335	347	B-Process
+analysis	348	356	I-Process
+(	357	358	O
+IGA	358	361	B-Process
+)	361	362	O
+applied	363	370	O
+to	371	373	O
+complex	374	381	B-Material
+geometries	382	392	I-Material
+requires	393	401	O
+to	402	404	O
+represent	405	414	O
+the	415	418	O
+computational	419	432	B-Task
+domain	433	439	I-Task
+as	440	442	I-Task
+a	443	444	I-Task
+collection	445	455	I-Task
+of	456	458	I-Task
+several	459	466	I-Task
+NURBS	467	472	I-Task
+geometries	473	483	I-Task
+.	483	484	O
+
+Since	485	490	O
+there	491	496	O
+is	497	499	O
+a	500	501	O
+natural	502	509	O
+decomposition	510	523	O
+of	524	526	O
+the	527	530	O
+computational	531	544	O
+domain	545	551	O
+into	552	556	O
+several	557	564	B-Material
+subdomains	565	575	I-Material
+,	575	576	O
+NURBS	577	582	B-Process
+-	582	583	I-Process
+based	583	588	I-Process
+IGA	589	592	I-Process
+is	593	595	O
+particularly	596	608	O
+well	609	613	O
+suited	614	620	O
+for	621	624	O
+using	625	630	O
+FETI	631	635	B-Process
+methods	636	643	I-Process
+.	643	644	O
+
+This	644	648	O
+paper	649	654	O
+proposes	655	663	O
+the	664	667	O
+new	668	671	O
+IsogEometric	672	684	B-Process
+Tearing	685	692	I-Process
+and	693	696	I-Process
+Interconnecting	697	712	I-Process
+(	713	714	O
+IETI	714	718	B-Process
+)	718	719	O
+method	720	726	O
+,	726	727	O
+which	728	733	O
+combines	734	742	O
+the	743	746	O
+advanced	747	755	B-Process
+solver	756	762	I-Process
+design	763	769	I-Process
+of	770	772	O
+FETI	773	777	B-Process
+with	778	782	O
+the	783	786	O
+exact	787	792	B-Process
+geometry	793	801	I-Process
+representation	802	816	I-Process
+of	817	819	O
+IGA	820	823	B-Process
+.	823	824	O
+
+We	825	827	O
+describe	828	836	O
+the	837	840	O
+IETI	841	845	B-Process
+framework	846	855	I-Process
+for	856	859	O
+two	860	863	O
+classes	864	871	O
+of	872	874	O
+simple	875	881	B-Process
+model	882	887	I-Process
+problems	888	896	I-Process
+(	897	898	O
+Poisson	898	905	B-Process
+and	906	909	O
+linearized	910	920	B-Process
+elasticity	921	931	I-Process
+)	931	932	O
+and	933	936	O
+discuss	937	944	O
+the	945	948	O
+coupling	949	957	B-Process
+of	958	960	I-Process
+the	961	964	I-Process
+subdomains	965	975	I-Process
+along	976	981	I-Process
+interfaces	982	992	I-Process
+(	993	994	O
+both	994	998	O
+for	999	1002	O
+matching	1003	1011	O
+interfaces	1012	1022	O
+and	1023	1026	O
+for	1027	1030	O
+interfaces	1031	1041	B-Material
+with	1042	1046	I-Material
+T	1047	1048	I-Material
+-	1048	1049	I-Material
+joints	1049	1055	I-Material
+,	1055	1056	O
+i.e.	1057	1061	O
+hanging	1062	1069	B-Material
+nodes	1070	1075	I-Material
+)	1075	1076	O
+.	1076	1077	O
+
+Special	1078	1085	O
+attention	1086	1095	O
+is	1096	1098	O
+paid	1099	1103	O
+to	1104	1106	O
+the	1107	1110	O
+construction	1111	1123	B-Task
+of	1124	1126	I-Task
+a	1127	1128	I-Task
+suitable	1129	1137	I-Task
+preconditioner	1138	1152	I-Task
+for	1153	1156	I-Task
+the	1157	1160	I-Task
+iterative	1161	1170	I-Task
+linear	1171	1177	I-Task
+solver	1178	1184	I-Task
+used	1185	1189	O
+for	1190	1193	O
+the	1194	1197	O
+interface	1198	1207	O
+problem	1208	1215	O
+.	1215	1216	O
+
+We	1217	1219	O
+report	1220	1226	O
+several	1227	1234	O
+computational	1235	1248	O
+experiments	1249	1260	O
+to	1261	1263	O
+demonstrate	1264	1275	B-Task
+the	1276	1279	I-Task
+performance	1280	1291	I-Task
+of	1292	1294	I-Task
+the	1295	1298	I-Task
+proposed	1299	1307	I-Task
+IETI	1308	1312	I-Task
+method	1313	1319	I-Task
+.	1319	1320	O
 
 
 -DOCSTART- (S0045782512002678)
 
-To	NN	O	O
-the	NN	O	O
-best	NN	O	O
-of	NN	O	O
-authors’	NN	O	O
-knowledge	NN	O	O
-,	NN	O	O
-so	NN	O	O
-far	NN	O	O
-there	NN	O	O
-are	NN	O	O
-only	NN	O	O
-very	NN	O	O
-few	NN	O	O
-papers	NN	O	O
-[	NN	O	O
-12,13,16,29	NN	O	O
-]	NN	O	O
-which	NN	O	O
-address	NN	O	O
-the	NN	O	O
-performance	NN	O	B-Process
-of	NN	O	I-Process
-linear	NN	O	I-Process
-algebra	NN	O	I-Process
-solvers	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-authors	NN	O	O
-study	NN	O	O
-the	NN	O	O
-performance	NN	O	B-Process
-of	NN	O	I-Process
-direct	NN	O	I-Process
-solvers	NN	O	I-Process
-which	NN	O	O
-are	NN	O	O
-clearly	NN	O	O
-not	NN	O	O
-suitable	NN	O	O
-for	NN	O	O
-large	NN	O	B-Process
-problems	NN	O	I-Process
-,	NN	O	O
-specially	NN	O	O
-in	NN	O	O
-three	NN	O	O
--	NN	O	O
-dimensions	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-29	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-tearing	NN	O	B-Process
-and	NN	O	I-Process
-interconnecting	NN	O	I-Process
-approach	NN	O	I-Process
-of	NN	O	I-Process
-finite	NN	O	I-Process
-element	NN	O	I-Process
-methods	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-isogeometric	NN	O	B-Task
-analysis	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-numerical	NN	O	B-Material
-tests	NN	O	I-Material
-(	NN	O	O
-in	NN	O	O
-absence	NN	O	O
-of	NN	O	O
-any	NN	O	O
-theoretical	NN	O	B-Task
-study	NN	O	I-Task
-)	NN	O	O
-suggest	NN	O	O
-almost	NN	O	O
-optimal	NN	O	O
-(	NN	O	O
-with	NN	O	O
-a	NN	O	O
-logarithmic	NN	O	O
-factor	NN	O	O
-)	NN	O	O
-convergence	NN	O	O
-rates	NN	O	O
-of	NN	O	O
-the	NN	O	O
-proposed	NN	O	O
-isogeometric	NN	O	B-Process
-tearing	NN	O	I-Process
-and	NN	O	I-Process
-interconnecting	NN	O	I-Process
-method	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-only	NN	O	O
-paper	NN	O	O
-which	NN	O	O
-provides	NN	O	O
-rigorous	NN	O	B-Task
-theoretical	NN	O	I-Task
-study	NN	O	I-Task
-,	NN	O	O
-supported	NN	O	O
-by	NN	O	O
-extensive	NN	O	B-Material
-numerical	NN	O	I-Material
-examples	NN	O	I-Material
-,	NN	O	O
-is	NN	O	O
-by	NN	O	O
-Beirao	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-where	NN	O	O
-the	NN	O	O
-authors	NN	O	O
-discuss	NN	O	O
-the	NN	O	O
-overlapping	NN	O	O
-Schwarz	NN	O	B-Process
-methods	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-same	NN	O	O
-authors	NN	O	O
-have	NN	O	O
-also	NN	O	O
-proposed	NN	O	O
-BDDC	NN	O	B-Material
-preconditioners	NN	O	I-Material
-for	NN	O	O
-isogeometric	NN	O	B-Task
-analysis	NN	O	I-Task
-in	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
+To	0	2	O
+the	3	6	O
+best	7	11	O
+of	12	14	O
+authors’	15	23	O
+knowledge	24	33	O
+,	33	34	O
+so	35	37	O
+far	38	41	O
+there	42	47	O
+are	48	51	O
+only	52	56	O
+very	57	61	O
+few	62	65	O
+papers	66	72	O
+[	73	74	O
+12,13,16,29	74	85	O
+]	85	86	O
+which	87	92	O
+address	93	100	O
+the	101	104	O
+performance	105	116	B-Process
+of	117	119	I-Process
+linear	120	126	I-Process
+algebra	127	134	I-Process
+solvers	135	142	I-Process
+.	142	143	O
+
+In	144	146	O
+Ref	147	150	O
+.	150	151	O
+
+[	152	153	O
+16	153	155	O
+]	155	156	O
+,	156	157	O
+the	158	161	O
+authors	162	169	O
+study	170	175	O
+the	176	179	O
+performance	180	191	B-Process
+of	192	194	I-Process
+direct	195	201	I-Process
+solvers	202	209	I-Process
+which	210	215	O
+are	216	219	O
+clearly	220	227	O
+not	228	231	O
+suitable	232	240	O
+for	241	244	O
+large	245	250	B-Process
+problems	251	259	I-Process
+,	259	260	O
+specially	261	270	O
+in	271	273	O
+three	274	279	O
+-	279	280	O
+dimensions	280	290	O
+.	290	291	O
+
+In	292	294	O
+Ref	295	298	O
+.	298	299	O
+
+[	300	301	O
+29	301	303	O
+]	303	304	O
+,	304	305	O
+the	306	309	O
+tearing	310	317	B-Process
+and	318	321	I-Process
+interconnecting	322	337	I-Process
+approach	338	346	I-Process
+of	347	349	I-Process
+finite	350	356	I-Process
+element	357	364	I-Process
+methods	365	372	I-Process
+is	373	375	O
+used	376	380	O
+in	381	383	O
+the	384	387	O
+context	388	395	O
+of	396	398	O
+isogeometric	399	411	B-Task
+analysis	412	420	I-Task
+,	420	421	O
+and	422	425	O
+the	426	429	O
+numerical	430	439	B-Material
+tests	440	445	I-Material
+(	446	447	O
+in	447	449	O
+absence	450	457	O
+of	458	460	O
+any	461	464	O
+theoretical	465	476	B-Task
+study	477	482	I-Task
+)	482	483	O
+suggest	484	491	O
+almost	492	498	O
+optimal	499	506	O
+(	507	508	O
+with	508	512	O
+a	513	514	O
+logarithmic	515	526	O
+factor	527	533	O
+)	533	534	O
+convergence	535	546	O
+rates	547	552	O
+of	553	555	O
+the	556	559	O
+proposed	560	568	O
+isogeometric	569	581	B-Process
+tearing	582	589	I-Process
+and	590	593	I-Process
+interconnecting	594	609	I-Process
+method	610	616	I-Process
+.	616	617	O
+
+The	618	621	O
+only	622	626	O
+paper	627	632	O
+which	633	638	O
+provides	639	647	O
+rigorous	648	656	B-Task
+theoretical	657	668	I-Task
+study	669	674	I-Task
+,	674	675	O
+supported	676	685	O
+by	686	688	O
+extensive	689	698	B-Material
+numerical	699	708	I-Material
+examples	709	717	I-Material
+,	717	718	O
+is	719	721	O
+by	722	724	O
+Beirao	725	731	O
+et	732	734	O
+al	735	737	O
+.	737	738	O
+
+[	739	740	O
+12	740	742	O
+]	742	743	O
+where	744	749	O
+the	750	753	O
+authors	754	761	O
+discuss	762	769	O
+the	770	773	O
+overlapping	774	785	O
+Schwarz	786	793	B-Process
+methods	794	801	I-Process
+.	801	802	O
+
+The	803	806	O
+same	807	811	O
+authors	812	819	O
+have	820	824	O
+also	825	829	O
+proposed	830	838	O
+BDDC	839	843	B-Material
+preconditioners	844	859	I-Material
+for	860	863	O
+isogeometric	864	876	B-Task
+analysis	877	885	I-Task
+in	886	888	O
+[	889	890	O
+13	890	892	O
+]	892	893	O
+.	893	894	O
 
 
 -DOCSTART- (S0045782512003234)
 
-An	NN	O	O
-attempt	NN	O	O
-of	NN	O	O
-a	NN	O	O
-quite	NN	O	O
-comprehensive	NN	O	O
-answer	NN	O	O
-to	NN	O	O
-this	NN	O	O
-question	NN	O	O
-is	NN	O	O
-made	NN	O	O
-hereafter	NN	O	O
-,	NN	O	O
-within	NN	O	O
-the	NN	O	O
-following	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-the	NN	O	O
-remaining	NN	O	O
-paper	NN	O	O
-:	NN	O	O
-first	NN	O	O
-,	NN	O	O
-we	NN	O	O
-introduce	NN	O	O
-the	NN	O	O
-mathematical	NN	O	B-Material
-systems	NN	O	I-Material
-biology	NN	O	I-Material
-of	NN	O	I-Material
-bone	NN	O	I-Material
-,	NN	O	O
-starting	NN	O	O
-from	NN	O	O
-the	NN	O	O
-work	NN	O	O
-of	NN	O	O
-Pivonka	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-25,26	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-extending	NN	O	O
-it	NN	O	O
-to	NN	O	O
-mechanoregulatory	NN	O	B-Process
-feedback	NN	O	I-Process
-control	NN	O	I-Process
-(	NN	O	O
-Section	NN	O	O
-2	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Then	NN	O	O
-,	NN	O	O
-we	NN	O	O
-introduce	NN	O	O
-a	NN	O	O
-continuum	NN	O	B-Material
-micromechanics	NN	O	I-Material
-representation	NN	O	I-Material
-adopted	NN	O	O
-from	NN	O	O
-Hellmich	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-30	NN	O	O
-]	NN	O	O
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-scale	NN	O	B-Task
-elasticity	NN	O	I-Task
-and	NN	O	I-Task
-strains	NN	O	I-Task
-from	NN	O	I-Task
-the	NN	O	I-Task
-level	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-extravascular	NN	O	I-Task
-bone	NN	O	I-Task
-matrix	NN	O	I-Task
-to	NN	O	I-Task
-that	NN	O	I-Task
-of	NN	O	I-Task
-cortical	NN	O	I-Task
-bone1In	NN	O	I-Task
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-restrict	NN	O	O
-ourselves	NN	O	O
-to	NN	O	O
-cortical	NN	O	B-Material
-bone	NN	O	I-Material
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-its	NN	O	O
-major	NN	O	O
-importance	NN	O	O
-in	NN	O	O
-providing	NN	O	B-Process
-sufficient	NN	O	I-Process
-load	NN	O	I-Process
--	NN	O	I-Process
-carrying	NN	O	I-Process
-capacity	NN	O	I-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-extension	NN	O	O
-of	NN	O	O
-the	NN	O	O
-coupled	NN	O	B-Process
-approach	NN	O	I-Process
-proposed	NN	O	O
-here	NN	O	O
-to	NN	O	O
-trabecular	NN	O	B-Material
-bone	NN	O	I-Material
-is	NN	O	O
-straightforward	NN	O	O
-;	NN	O	O
-it	NN	O	O
-merely	NN	O	O
-requires	NN	O	O
-recalibration	NN	O	B-Process
-of	NN	O	I-Process
-underlying	NN	O	I-Process
-parameters.1	NN	O	I-Process
-and	NN	O	O
-vice	NN	O	O
-versa	NN	O	O
-(	NN	O	O
-Section	NN	O	O
-3	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-micromechanics	NN	O	B-Process
-formulation	NN	O	I-Process
-is	NN	O	O
-fed	NN	O	O
-with	NN	O	O
-composition	NN	O	B-Material
-quantities	NN	O	I-Material
-derived	NN	O	O
-from	NN	O	O
-the	NN	O	O
-systems	NN	O	B-Process
-biology	NN	O	I-Process
-approach	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-,	NN	O	O
-in	NN	O	O
-turn	NN	O	O
-,	NN	O	O
-is	NN	O	O
-provided	NN	O	O
-with	NN	O	O
-mechanical	NN	O	B-Material
-stimuli	NN	O	I-Material
-gained	NN	O	O
-from	NN	O	O
-the	NN	O	O
-micromechanics	NN	O	B-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-then	NN	O	O
-apply	NN	O	O
-the	NN	O	O
-coupled	NN	O	B-Process
-approach	NN	O	I-Process
-to	NN	O	O
-biochemical	NN	O	B-Material
-and	NN	O	I-Material
-mechanical	NN	O	I-Material
-conditions	NN	O	I-Material
-typical	NN	O	O
-for	NN	O	O
-postmenopausal	NN	O	O
-osteoporosis	NN	O	O
-(	NN	O	O
-Section	NN	O	O
-4	NN	O	O
-)	NN	O	O
-and	NN	O	O
-microgravity	NN	O	O
-exposure	NN	O	O
-(	NN	O	O
-Section	NN	O	O
-5	NN	O	O
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-discuss	NN	O	O
-key	NN	O	O
-sensitivity	NN	O	O
-features	NN	O	O
-(	NN	O	O
-Section	NN	O	O
-6	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-After	NN	O	O
-emphasizing	NN	O	O
-the	NN	O	O
-potentials	NN	O	B-Task
-and	NN	O	I-Task
-limitations	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-presented	NN	O	I-Task
-approach	NN	O	I-Task
-(	NN	O	O
-Section	NN	O	O
-7	NN	O	O
-)	NN	O	O
-,	NN	O	O
-we	NN	O	O
-conclude	NN	O	O
-the	NN	O	O
-paper	NN	O	O
-in	NN	O	O
-(	NN	O	O
-Section	NN	O	O
-8)	NN	O	O
-.	NN	O	O
+An	0	2	O
+attempt	3	10	O
+of	11	13	O
+a	14	15	O
+quite	16	21	O
+comprehensive	22	35	O
+answer	36	42	O
+to	43	45	O
+this	46	50	O
+question	51	59	O
+is	60	62	O
+made	63	67	O
+hereafter	68	77	O
+,	77	78	O
+within	79	85	O
+the	86	89	O
+following	90	99	O
+structure	100	109	O
+of	110	112	O
+the	113	116	O
+remaining	117	126	O
+paper	127	132	O
+:	132	133	O
+first	134	139	O
+,	139	140	O
+we	141	143	O
+introduce	144	153	O
+the	154	157	O
+mathematical	158	170	B-Material
+systems	171	178	I-Material
+biology	179	186	I-Material
+of	187	189	I-Material
+bone	190	194	I-Material
+,	194	195	O
+starting	196	204	O
+from	205	209	O
+the	210	213	O
+work	214	218	O
+of	219	221	O
+Pivonka	222	229	O
+et	230	232	O
+al	233	235	O
+.	235	236	O
+
+[	237	238	O
+25,26	238	243	O
+]	243	244	O
+,	244	245	O
+and	246	249	O
+extending	250	259	O
+it	260	262	O
+to	263	265	O
+mechanoregulatory	266	283	B-Process
+feedback	284	292	I-Process
+control	293	300	I-Process
+(	301	302	O
+Section	302	309	O
+2	310	311	O
+)	311	312	O
+.	312	313	O
+
+Then	314	318	O
+,	318	319	O
+we	320	322	O
+introduce	323	332	O
+a	333	334	O
+continuum	335	344	B-Material
+micromechanics	345	359	I-Material
+representation	360	374	I-Material
+adopted	375	382	O
+from	383	387	O
+Hellmich	388	396	O
+et	397	399	O
+al	400	402	O
+.	402	403	O
+
+[	404	405	O
+30	405	407	O
+]	407	408	O
+,	408	409	O
+in	410	412	O
+order	413	418	O
+to	419	421	O
+scale	422	427	B-Task
+elasticity	428	438	I-Task
+and	439	442	I-Task
+strains	443	450	I-Task
+from	451	455	I-Task
+the	456	459	I-Task
+level	460	465	I-Task
+of	466	468	I-Task
+the	469	472	I-Task
+extravascular	473	486	I-Task
+bone	487	491	I-Task
+matrix	492	498	I-Task
+to	499	501	I-Task
+that	502	506	I-Task
+of	507	509	I-Task
+cortical	510	518	I-Task
+bone1In	519	526	I-Task
+this	527	531	O
+paper	532	537	O
+,	537	538	O
+we	539	541	O
+restrict	542	550	O
+ourselves	551	560	O
+to	561	563	O
+cortical	564	572	B-Material
+bone	573	577	I-Material
+,	577	578	O
+due	579	582	O
+to	583	585	O
+its	586	589	O
+major	590	595	O
+importance	596	606	O
+in	607	609	O
+providing	610	619	B-Process
+sufficient	620	630	I-Process
+load	631	635	I-Process
+-	635	636	I-Process
+carrying	636	644	I-Process
+capacity	645	653	I-Process
+.	653	654	O
+
+However	655	662	O
+,	662	663	O
+extension	664	673	O
+of	674	676	O
+the	677	680	O
+coupled	681	688	B-Process
+approach	689	697	I-Process
+proposed	698	706	O
+here	707	711	O
+to	712	714	O
+trabecular	715	725	B-Material
+bone	726	730	I-Material
+is	731	733	O
+straightforward	734	749	O
+;	749	750	O
+it	751	753	O
+merely	754	760	O
+requires	761	769	O
+recalibration	770	783	B-Process
+of	784	786	I-Process
+underlying	787	797	I-Process
+parameters.1	798	810	I-Process
+and	811	814	O
+vice	815	819	O
+versa	820	825	O
+(	826	827	O
+Section	827	834	O
+3	835	836	O
+)	836	837	O
+.	837	838	O
+
+The	839	842	O
+micromechanics	843	857	B-Process
+formulation	858	869	I-Process
+is	870	872	O
+fed	873	876	O
+with	877	881	O
+composition	882	893	B-Material
+quantities	894	904	I-Material
+derived	905	912	O
+from	913	917	O
+the	918	921	O
+systems	922	929	B-Process
+biology	930	937	I-Process
+approach	938	946	I-Process
+,	946	947	O
+which	948	953	O
+,	953	954	O
+in	955	957	O
+turn	958	962	O
+,	962	963	O
+is	964	966	O
+provided	967	975	O
+with	976	980	O
+mechanical	981	991	B-Material
+stimuli	992	999	I-Material
+gained	1000	1006	O
+from	1007	1011	O
+the	1012	1015	O
+micromechanics	1016	1030	B-Process
+model	1031	1036	I-Process
+.	1036	1037	O
+
+We	1038	1040	O
+then	1041	1045	O
+apply	1046	1051	O
+the	1052	1055	O
+coupled	1056	1063	B-Process
+approach	1064	1072	I-Process
+to	1073	1075	O
+biochemical	1076	1087	B-Material
+and	1088	1091	I-Material
+mechanical	1092	1102	I-Material
+conditions	1103	1113	I-Material
+typical	1114	1121	O
+for	1122	1125	O
+postmenopausal	1126	1140	O
+osteoporosis	1141	1153	O
+(	1154	1155	O
+Section	1155	1162	O
+4	1163	1164	O
+)	1164	1165	O
+and	1166	1169	O
+microgravity	1170	1182	O
+exposure	1183	1191	O
+(	1192	1193	O
+Section	1193	1200	O
+5	1201	1202	O
+)	1202	1203	O
+,	1203	1204	O
+and	1205	1208	O
+discuss	1209	1216	O
+key	1217	1220	O
+sensitivity	1221	1232	O
+features	1233	1241	O
+(	1242	1243	O
+Section	1243	1250	O
+6	1251	1252	O
+)	1252	1253	O
+.	1253	1254	O
+
+After	1255	1260	O
+emphasizing	1261	1272	O
+the	1273	1276	O
+potentials	1277	1287	B-Task
+and	1288	1291	I-Task
+limitations	1292	1303	I-Task
+of	1304	1306	I-Task
+the	1307	1310	I-Task
+presented	1311	1320	I-Task
+approach	1321	1329	I-Task
+(	1330	1331	O
+Section	1331	1338	O
+7	1339	1340	O
+)	1340	1341	O
+,	1341	1342	O
+we	1343	1345	O
+conclude	1346	1354	O
+the	1355	1358	O
+paper	1359	1364	O
+in	1365	1367	O
+(	1368	1369	O
+Section	1369	1376	O
+8)	1377	1379	O
+.	1379	1380	O
 
 
 -DOCSTART- (S0045782512003428)
 
-The	NN	O	O
-choice	NN	O	O
-of	NN	O	O
-the	NN	O	O
-interpolation	NN	O	B-Process
-functions	NN	O	I-Process
-and	NN	O	O
-support	NN	O	B-Material
-point	NN	O	I-Material
-coordinates	NN	O	I-Material
-for	NN	O	I-Material
-the	NN	O	I-Material
-gradient	NN	O	I-Material
-field	NN	O	I-Material
-is	NN	O	O
-crucial	NN	O	O
-to	NN	O	O
-ensure	NN	O	O
-stability	NN	O	B-Task
-and	NN	O	I-Task
-accuracy	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-formulation	NN	O	I-Task
-.	NN	O	O
-
-For	NN	O	O
-example	NN	O	O
-,	NN	O	O
-nodal	NN	O	B-Process
-integration	NN	O	I-Process
-and	NN	O	I-Process
-NS	NN	O	I-Process
--	NN	O	I-Process
-FEM	NN	O	I-Process
-are	NN	O	O
-unstable	NN	O	O
-involving	NN	O	O
-the	NN	O	O
-appearance	NN	O	O
-of	NN	O	O
-spurious	NN	O	O
-low	NN	O	O
--	NN	O	O
-energy	NN	O	O
-modes	NN	O	O
-.	NN	O	O
-
-They	NN	O	O
-need	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-physical	NN	O	I-Material
-penalty	NN	O	I-Material
-energy	NN	O	I-Material
-functions	NN	O	I-Material
-that	NN	O	O
-stabilize	NN	O	B-Task
-them	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-articles	NN	O	O
-[	NN	O	O
-2,28	NN	O	O
-]	NN	O	O
-numerically	NN	O	B-Task
-verify	NN	O	I-Task
-the	NN	O	I-Task
-stability	NN	O	I-Task
-,	NN	O	I-Task
-convergence	NN	O	I-Task
-and	NN	O	I-Task
-accuracy	NN	O	I-Task
-of	NN	O	I-Task
-several	NN	O	I-Task
-W2	NN	O	I-Task
-variants	NN	O	I-Task
-including	NN	O	O
-new	NN	O	O
-elements	NN	O	O
-which	NN	O	O
-can	NN	O	O
-be	NN	O	O
-constructed	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-idea	NN	O	O
-of	NN	O	O
-assumed	NN	O	O
-continuous	NN	O	B-Process
-deformation	NN	O	I-Process
-gradients	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-first	NN	O	B-Material
-order	NN	O	I-Material
-hexahedral	NN	O	I-Material
-elements	NN	O	I-Material
-,	NN	O	O
-[	NN	O	O
-2,28	NN	O	O
-]	NN	O	O
-found	NN	O	O
-good	NN	O	O
-results	NN	O	O
-for	NN	O	O
-the	NN	O	O
-element	NN	O	B-Material
-types	NN	O	I-Material
-C3D_8N_27C	NN	O	B-Material
-and	NN	O	O
-
-C3D_8N_8I.	NN	O	B-Material
-
-The	NN	O	O
-first	NN	O	O
-is	NN	O	O
-defined	NN	O	O
-by	NN	O	O
-27	NN	O	O
-support	NN	O	O
-points	NN	O	O
-and	NN	O	O
-a	NN	O	O
-second	NN	O	B-Process
-order	NN	O	I-Process
-tensor	NN	O	I-Process
--	NN	O	I-Process
-product	NN	O	I-Process
-interpolation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-deformation	NN	O	O
-gradient	NN	O	O
-by	NN	O	O
-Lagrange	NN	O	O
-polynomials	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-latter	NN	O	O
-element	NN	O	O
-type	NN	O	O
-is	NN	O	O
-defined	NN	O	O
-by	NN	O	O
-16	NN	O	O
-support	NN	O	O
-points	NN	O	O
-with	NN	O	O
-8	NN	O	O
-points	NN	O	O
-being	NN	O	O
-coincident	NN	O	O
-with	NN	O	O
-the	NN	O	O
-nodes	NN	O	O
-and	NN	O	O
-8	NN	O	O
-additional	NN	O	O
-points	NN	O	O
-in	NN	O	O
-the	NN	O	O
-element	NN	O	O
-interior	NN	O	O
-.	NN	O	O
-
-Among	NN	O	O
-the	NN	O	O
-tested	NN	O	O
-first	NN	O	B-Material
-order	NN	O	I-Material
-tetrahedra	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-nodally	NN	O	B-Process
-integrated	NN	O	I-Process
-tetrahedron	NN	O	I-Process
-with	NN	O	O
-an	NN	O	O
-additional	NN	O	O
-bubble	NN	O	O
-mode	NN	O	O
-in	NN	O	O
-the	NN	O	O
-gradients	NN	O	O
-was	NN	O	O
-found	NN	O	O
-to	NN	O	O
-be	NN	O	O
-most	NN	O	O
-accurate	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-turned	NN	O	O
-out	NN	O	O
-to	NN	O	O
-be	NN	O	O
-even	NN	O	O
-the	NN	O	O
-most	NN	O	O
-efficient	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-computing	NN	O	B-Task
-time	NN	O	I-Task
-in	NN	O	I-Task
-explicit	NN	O	I-Task
-analysis	NN	O	I-Task
-[	NN	O	O
-28	NN	O	O
-]	NN	O	O
-because	NN	O	O
-the	NN	O	O
-enlarged	NN	O	O
-critical	NN	O	O
-time	NN	O	O
-step	NN	O	O
-compensates	NN	O	O
-the	NN	O	O
-slightly	NN	O	O
-increased	NN	O	O
-numerical	NN	O	O
-cost	NN	O	O
-per	NN	O	O
-restoring	NN	O	O
-force	NN	O	O
-assembly	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-illustrates	NN	O	O
-the	NN	O	O
-positions	NN	O	O
-of	NN	O	O
-support	NN	O	O
-points	NN	O	O
-for	NN	O	O
-various	NN	O	O
-CAG	NN	O	B-Process
-and	NN	O	I-Process
-SFEM	NN	O	I-Process
-formulations	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+choice	4	10	O
+of	11	13	O
+the	14	17	O
+interpolation	18	31	B-Process
+functions	32	41	I-Process
+and	42	45	O
+support	46	53	B-Material
+point	54	59	I-Material
+coordinates	60	71	I-Material
+for	72	75	I-Material
+the	76	79	I-Material
+gradient	80	88	I-Material
+field	89	94	I-Material
+is	95	97	O
+crucial	98	105	O
+to	106	108	O
+ensure	109	115	O
+stability	116	125	B-Task
+and	126	129	I-Task
+accuracy	130	138	I-Task
+of	139	141	I-Task
+the	142	145	I-Task
+formulation	146	157	I-Task
+.	157	158	O
+
+For	159	162	O
+example	163	170	O
+,	170	171	O
+nodal	172	177	B-Process
+integration	178	189	I-Process
+and	190	193	I-Process
+NS	194	196	I-Process
+-	196	197	I-Process
+FEM	197	200	I-Process
+are	201	204	O
+unstable	205	213	O
+involving	214	223	O
+the	224	227	O
+appearance	228	238	O
+of	239	241	O
+spurious	242	250	O
+low	251	254	O
+-	254	255	O
+energy	255	261	O
+modes	262	267	O
+.	267	268	O
+
+They	269	273	O
+need	274	278	O
+non	279	282	B-Material
+-	282	283	I-Material
+physical	283	291	I-Material
+penalty	292	299	I-Material
+energy	300	306	I-Material
+functions	307	316	I-Material
+that	317	321	O
+stabilize	322	331	B-Task
+them	332	336	I-Task
+.	336	337	O
+
+The	338	341	O
+articles	342	350	O
+[	351	352	O
+2,28	352	356	O
+]	356	357	O
+numerically	358	369	B-Task
+verify	370	376	I-Task
+the	377	380	I-Task
+stability	381	390	I-Task
+,	390	391	I-Task
+convergence	392	403	I-Task
+and	404	407	I-Task
+accuracy	408	416	I-Task
+of	417	419	I-Task
+several	420	427	I-Task
+W2	428	430	I-Task
+variants	431	439	I-Task
+including	440	449	O
+new	450	453	O
+elements	454	462	O
+which	463	468	O
+can	469	472	O
+be	473	475	O
+constructed	476	487	O
+based	488	493	O
+on	494	496	O
+the	497	500	O
+idea	501	505	O
+of	506	508	O
+assumed	509	516	O
+continuous	517	527	B-Process
+deformation	528	539	I-Process
+gradients	540	549	I-Process
+.	549	550	O
+
+For	551	554	O
+first	555	560	B-Material
+order	561	566	I-Material
+hexahedral	567	577	I-Material
+elements	578	586	I-Material
+,	586	587	O
+[	588	589	O
+2,28	589	593	O
+]	593	594	O
+found	595	600	O
+good	601	605	O
+results	606	613	O
+for	614	617	O
+the	618	621	O
+element	622	629	B-Material
+types	630	635	I-Material
+C3D_8N_27C	636	646	B-Material
+and	647	650	O
+
+C3D_8N_8I.	651	661	B-Material
+
+The	662	665	O
+first	666	671	O
+is	672	674	O
+defined	675	682	O
+by	683	685	O
+27	686	688	O
+support	689	696	O
+points	697	703	O
+and	704	707	O
+a	708	709	O
+second	710	716	B-Process
+order	717	722	I-Process
+tensor	723	729	I-Process
+-	729	730	I-Process
+product	730	737	I-Process
+interpolation	738	751	I-Process
+of	752	754	O
+the	755	758	O
+deformation	759	770	O
+gradient	771	779	O
+by	780	782	O
+Lagrange	783	791	O
+polynomials	792	803	O
+.	803	804	O
+
+The	805	808	O
+latter	809	815	O
+element	816	823	O
+type	824	828	O
+is	829	831	O
+defined	832	839	O
+by	840	842	O
+16	843	845	O
+support	846	853	O
+points	854	860	O
+with	861	865	O
+8	866	867	O
+points	868	874	O
+being	875	880	O
+coincident	881	891	O
+with	892	896	O
+the	897	900	O
+nodes	901	906	O
+and	907	910	O
+8	911	912	O
+additional	913	923	O
+points	924	930	O
+in	931	933	O
+the	934	937	O
+element	938	945	O
+interior	946	954	O
+.	954	955	O
+
+Among	956	961	O
+the	962	965	O
+tested	966	972	O
+first	973	978	B-Material
+order	979	984	I-Material
+tetrahedra	985	995	I-Material
+,	995	996	O
+the	997	1000	O
+nodally	1001	1008	B-Process
+integrated	1009	1019	I-Process
+tetrahedron	1020	1031	I-Process
+with	1032	1036	O
+an	1037	1039	O
+additional	1040	1050	O
+bubble	1051	1057	O
+mode	1058	1062	O
+in	1063	1065	O
+the	1066	1069	O
+gradients	1070	1079	O
+was	1080	1083	O
+found	1084	1089	O
+to	1090	1092	O
+be	1093	1095	O
+most	1096	1100	O
+accurate	1101	1109	O
+.	1109	1110	O
+
+It	1111	1113	O
+turned	1114	1120	O
+out	1121	1124	O
+to	1125	1127	O
+be	1128	1130	O
+even	1131	1135	O
+the	1136	1139	O
+most	1140	1144	O
+efficient	1145	1154	O
+with	1155	1159	O
+respect	1160	1167	O
+to	1168	1170	O
+computing	1171	1180	B-Task
+time	1181	1185	I-Task
+in	1186	1188	I-Task
+explicit	1189	1197	I-Task
+analysis	1198	1206	I-Task
+[	1207	1208	O
+28	1208	1210	O
+]	1210	1211	O
+because	1212	1219	O
+the	1220	1223	O
+enlarged	1224	1232	O
+critical	1233	1241	O
+time	1242	1246	O
+step	1247	1251	O
+compensates	1252	1263	O
+the	1264	1267	O
+slightly	1268	1276	O
+increased	1277	1286	O
+numerical	1287	1296	O
+cost	1297	1301	O
+per	1302	1305	O
+restoring	1306	1315	O
+force	1316	1321	O
+assembly	1322	1330	O
+.	1330	1331	O
+
+Fig	1332	1335	O
+.	1335	1336	O
+
+1	1337	1338	O
+illustrates	1339	1350	O
+the	1351	1354	O
+positions	1355	1364	O
+of	1365	1367	O
+support	1368	1375	O
+points	1376	1382	O
+for	1383	1386	O
+various	1387	1394	O
+CAG	1395	1398	B-Process
+and	1399	1402	I-Process
+SFEM	1403	1407	I-Process
+formulations	1408	1420	I-Process
+.	1420	1421	O
 
 
 -DOCSTART- (S0045782513000479)
 
-Algorithms	NN	O	B-Material
-regarding	NN	O	I-Material
-distance	NN	O	I-Material
-fields	NN	O	I-Material
-go	NN	O	O
-back	NN	O	O
-to	NN	O	O
-the	NN	O	O
-level	NN	O	B-Process
-set	NN	O	I-Process
-equation	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-level	NN	O	B-Process
-set	NN	O	I-Process
-method	NN	O	I-Process
-was	NN	O	O
-presented	NN	O	O
-by	NN	O	O
-Osher	NN	O	O
-and	NN	O	O
-Sethian	NN	O	O
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-who	NN	O	O
-described	NN	O	O
-the	NN	O	O
-temporal	NN	O	B-Process
-propagation	NN	O	I-Process
-of	NN	O	O
-moving	NN	O	O
-interfaces	NN	O	O
-by	NN	O	O
-numerical	NN	O	B-Process
-methods	NN	O	I-Process
-solving	NN	O	O
-the	NN	O	O
-Hamilton	NN	O	B-Process
-–	NN	O	I-Process
-Jacobi	NN	O	I-Process
-equation	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-performed	NN	O	O
-by	NN	O	O
-a	NN	O	O
-finite	NN	O	B-Process
-difference	NN	O	I-Process
-scheme	NN	O	I-Process
-working	NN	O	O
-on	NN	O	O
-a	NN	O	O
-rectangular	NN	O	B-Material
-grid	NN	O	I-Material
-in	NN	O	I-Material
-two	NN	O	I-Material
-or	NN	O	I-Material
-three	NN	O	I-Material
-dimensions	NN	O	I-Material
-.	NN	O	O
-
-Information	NN	O	O
-on	NN	O	O
-normal	NN	O	O
-vectors	NN	O	O
-and	NN	O	O
-curvature	NN	O	O
-can	NN	O	O
-be	NN	O	O
-obtained	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-fast	NN	O	B-Process
-marching	NN	O	I-Process
-method	NN	O	I-Process
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-provides	NN	O	O
-an	NN	O	O
-efficient	NN	O	O
-numerical	NN	O	B-Task
-scheme	NN	O	I-Task
-of	NN	O	I-Task
-complexity	NN	O	I-Task
-nlogn	NN	O	I-Task
-to	NN	O	I-Task
-compute	NN	O	I-Task
-the	NN	O	I-Task
-support	NN	O	I-Task
-values	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-grid	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-a	NN	O	O
-reinterpretation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-propagation	NN	O	B-Process
-process	NN	O	I-Process
-,	NN	O	O
-i.e.	NN	O	O
-the	NN	O	B-Process
-time	NN	O	I-Process
-where	NN	O	I-Process
-the	NN	O	I-Process
-interface	NN	O	I-Process
-passes	NN	O	I-Process
-a	NN	O	I-Process
-certain	NN	O	I-Process
-grid	NN	O	I-Process
-point	NN	O	I-Process
-is	NN	O	I-Process
-influenced	NN	O	I-Process
-only	NN	O	I-Process
-by	NN	O	I-Process
-those	NN	O	I-Process
-neighboring	NN	O	I-Process
-grid	NN	O	I-Process
-points	NN	O	I-Process
-which	NN	O	I-Process
-are	NN	O	I-Process
-previously	NN	O	I-Process
-passed	NN	O	I-Process
-by	NN	O	I-Process
-the	NN	O	I-Process
-interface	NN	O	I-Process
-.	NN	O	O
-
-An	NN	O	O
-overview	NN	O	O
-on	NN	O	O
-the	NN	O	O
-theory	NN	O	B-Process
-of	NN	O	I-Process
-level	NN	O	I-Process
-set	NN	O	I-Process
-and	NN	O	O
-fast	NN	O	B-Process
-marching	NN	O	I-Process
-methods	NN	O	O
-and	NN	O	O
-their	NN	O	O
-applications	NN	O	O
-to	NN	O	O
-problems	NN	O	O
-of	NN	O	O
-various	NN	O	O
-areas	NN	O	B-Task
-are	NN	O	O
-given	NN	O	O
-in	NN	O	O
-[	NN	O	O
-22,23	NN	O	O
-]	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-shape	NN	O	B-Task
-offsetting	NN	O	I-Task
-,	NN	O	O
-computing	NN	O	B-Task
-distances	NN	O	I-Task
-,	NN	O	O
-photolithography	NN	O	B-Task
-development	NN	O	I-Task
-,	NN	O	O
-seismic	NN	O	B-Task
-travel	NN	O	I-Task
-times	NN	O	I-Task
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-
-Distance	NN	O	B-Task
-fields	NN	O	I-Task
-are	NN	O	O
-a	NN	O	O
-special	NN	O	O
-case	NN	O	O
-of	NN	O	O
-the	NN	O	O
-level	NN	O	B-Process
-set	NN	O	I-Process
-equation	NN	O	O
-where	NN	O	O
-the	NN	O	O
-absolute	NN	O	O
-value	NN	O	O
-of	NN	O	O
-the	NN	O	O
-advection	NN	O	O
-velocity	NN	O	O
-is	NN	O	O
-1	NN	O	O
-.	NN	O	O
+Algorithms	0	10	B-Material
+regarding	11	20	I-Material
+distance	21	29	I-Material
+fields	30	36	I-Material
+go	37	39	O
+back	40	44	O
+to	45	47	O
+the	48	51	O
+level	52	57	B-Process
+set	58	61	I-Process
+equation	62	70	I-Process
+.	70	71	O
+
+The	72	75	O
+level	76	81	B-Process
+set	82	85	I-Process
+method	86	92	I-Process
+was	93	96	O
+presented	97	106	O
+by	107	109	O
+Osher	110	115	O
+and	116	119	O
+Sethian	120	127	O
+[	128	129	O
+20	129	131	O
+]	131	132	O
+who	133	136	O
+described	137	146	O
+the	147	150	O
+temporal	151	159	B-Process
+propagation	160	171	I-Process
+of	172	174	O
+moving	175	181	O
+interfaces	182	192	O
+by	193	195	O
+numerical	196	205	B-Process
+methods	206	213	I-Process
+solving	214	221	O
+the	222	225	O
+Hamilton	226	234	B-Process
+–	234	235	I-Process
+Jacobi	235	241	I-Process
+equation	242	250	I-Process
+.	250	251	O
+
+This	252	256	O
+is	257	259	O
+performed	260	269	O
+by	270	272	O
+a	273	274	O
+finite	275	281	B-Process
+difference	282	292	I-Process
+scheme	293	299	I-Process
+working	300	307	O
+on	308	310	O
+a	311	312	O
+rectangular	313	324	B-Material
+grid	325	329	I-Material
+in	330	332	I-Material
+two	333	336	I-Material
+or	337	339	I-Material
+three	340	345	I-Material
+dimensions	346	356	I-Material
+.	356	357	O
+
+Information	358	369	O
+on	370	372	O
+normal	373	379	O
+vectors	380	387	O
+and	388	391	O
+curvature	392	401	O
+can	402	405	O
+be	406	408	O
+obtained	409	417	O
+.	417	418	O
+
+The	419	422	O
+fast	423	427	B-Process
+marching	428	436	I-Process
+method	437	443	I-Process
+[	444	445	O
+21	445	447	O
+]	447	448	O
+provides	449	457	O
+an	458	460	O
+efficient	461	470	O
+numerical	471	480	B-Task
+scheme	481	487	I-Task
+of	488	490	I-Task
+complexity	491	501	I-Task
+nlogn	502	507	I-Task
+to	508	510	I-Task
+compute	511	518	I-Task
+the	519	522	I-Task
+support	523	530	I-Task
+values	531	537	I-Task
+on	538	540	I-Task
+the	541	544	I-Task
+grid	545	549	I-Task
+.	549	550	O
+
+It	551	553	O
+is	554	556	O
+a	557	558	O
+reinterpretation	559	575	O
+of	576	578	O
+the	579	582	O
+propagation	583	594	B-Process
+process	595	602	I-Process
+,	602	603	O
+i.e.	604	608	O
+the	609	612	B-Process
+time	613	617	I-Process
+where	618	623	I-Process
+the	624	627	I-Process
+interface	628	637	I-Process
+passes	638	644	I-Process
+a	645	646	I-Process
+certain	647	654	I-Process
+grid	655	659	I-Process
+point	660	665	I-Process
+is	666	668	I-Process
+influenced	669	679	I-Process
+only	680	684	I-Process
+by	685	687	I-Process
+those	688	693	I-Process
+neighboring	694	705	I-Process
+grid	706	710	I-Process
+points	711	717	I-Process
+which	718	723	I-Process
+are	724	727	I-Process
+previously	728	738	I-Process
+passed	739	745	I-Process
+by	746	748	I-Process
+the	749	752	I-Process
+interface	753	762	I-Process
+.	762	763	O
+
+An	764	766	O
+overview	767	775	O
+on	776	778	O
+the	779	782	O
+theory	783	789	B-Process
+of	790	792	I-Process
+level	793	798	I-Process
+set	799	802	I-Process
+and	803	806	O
+fast	807	811	B-Process
+marching	812	820	I-Process
+methods	821	828	O
+and	829	832	O
+their	833	838	O
+applications	839	851	O
+to	852	854	O
+problems	855	863	O
+of	864	866	O
+various	867	874	O
+areas	875	880	B-Task
+are	881	884	O
+given	885	890	O
+in	891	893	O
+[	894	895	O
+22,23	895	900	O
+]	900	901	O
+,	901	902	O
+for	903	906	O
+example	907	914	O
+shape	915	920	B-Task
+offsetting	921	931	I-Task
+,	931	932	O
+computing	933	942	B-Task
+distances	943	952	I-Task
+,	952	953	O
+photolithography	954	970	B-Task
+development	971	982	I-Task
+,	982	983	O
+seismic	984	991	B-Task
+travel	992	998	I-Task
+times	999	1004	I-Task
+,	1004	1005	O
+etc	1006	1009	O
+.	1009	1010	O
+
+Distance	1011	1019	B-Task
+fields	1020	1026	I-Task
+are	1027	1030	O
+a	1031	1032	O
+special	1033	1040	O
+case	1041	1045	O
+of	1046	1048	O
+the	1049	1052	O
+level	1053	1058	B-Process
+set	1059	1062	I-Process
+equation	1063	1071	O
+where	1072	1077	O
+the	1078	1081	O
+absolute	1082	1090	O
+value	1091	1096	O
+of	1097	1099	O
+the	1100	1103	O
+advection	1104	1113	O
+velocity	1114	1122	O
+is	1123	1125	O
+1	1126	1127	O
+.	1127	1128	O
 
 
 -DOCSTART- (S0045782513000546)
 
-In	NN	O	O
-this	NN	O	O
-article	NN	O	O
-we	NN	O	O
-consider	NN	O	O
-an	NN	O	O
-extension	NN	O	B-Task
-to	NN	O	I-Task
-the	NN	O	I-Task
-equations	NN	O	I-Task
-of	NN	O	I-Task
-poroelasticity	NN	O	I-Task
-by	NN	O	O
-modelling	NN	O	B-Task
-the	NN	O	I-Task
-flow	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-slightly	NN	O	I-Task
-compressible	NN	O	I-Task
-single	NN	O	I-Task
-phase	NN	O	I-Task
-fluid	NN	O	I-Task
-in	NN	O	I-Task
-a	NN	O	I-Task
-viscoelastic	NN	O	I-Task
-porous	NN	O	I-Task
-medium	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-constitutive	NN	O	B-Process
-equations	NN	O	I-Process
-therefore	NN	O	O
-allow	NN	O	O
-for	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-viscoelastic	NN	O	B-Process
-relaxation	NN	O	I-Process
-effects	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-porous	NN	O	B-Material
-media	NN	O	I-Material
-(	NN	O	O
-but	NN	O	O
-not	NN	O	O
-the	NN	O	O
-fluid	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-Fully	NN	O	B-Process
-discrete	NN	O	I-Process
-numerical	NN	O	I-Process
-schemes	NN	O	I-Process
-are	NN	O	O
-derived	NN	O	O
-based	NN	O	O
-on	NN	O	O
-a	NN	O	O
-lagged	NN	O	B-Process
-and	NN	O	I-Process
-non	NN	O	I-Process
--	NN	O	I-Process
-lagged	NN	O	I-Process
-backward	NN	O	I-Process
-Euler	NN	O	I-Process
-time	NN	O	I-Process
-stepping	NN	O	I-Process
-method	NN	O	I-Process
-applied	NN	O	O
-to	NN	O	O
-a	NN	O	O
-mixed	NN	O	B-Material
-and	NN	O	I-Material
-Galerkin	NN	O	I-Material
-finite	NN	O	I-Material
-element	NN	O	I-Material
-spatial	NN	O	I-Material
-discretization	NN	O	I-Material
-.	NN	O	O
-
-We	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-lagged	NN	O	O
-scheme	NN	O	O
-is	NN	O	O
-unconditionally	NN	O	O
-stable	NN	O	O
-and	NN	O	O
-give	NN	O	O
-an	NN	O	O
-optimal	NN	O	O
-a	NN	O	O
-priori	NN	O	O
-error	NN	O	O
-bound	NN	O	O
-for	NN	O	O
-it	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-this	NN	O	O
-scheme	NN	O	O
-is	NN	O	O
-practical	NN	O	O
-and	NN	O	O
-useful	NN	O	O
-in	NN	O	O
-the	NN	O	O
-sense	NN	O	O
-that	NN	O	O
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-easily	NN	O	O
-implemented	NN	O	O
-in	NN	O	O
-existing	NN	O	O
-poroelasticity	NN	O	O
-software	NN	O	O
-because	NN	O	O
-the	NN	O	O
-coupling	NN	O	B-Process
-between	NN	O	O
-the	NN	O	O
-viscous	NN	O	O
-stresses	NN	O	O
-and	NN	O	O
-pressures	NN	O	O
-and	NN	O	O
-the	NN	O	O
-elasticity	NN	O	O
-and	NN	O	O
-flow	NN	O	B-Process
-equations	NN	O	I-Process
-is	NN	O	O
-‘	NN	O	O
-lagged’	NN	O	O
-by	NN	O	O
-one	NN	O	O
-time	NN	O	O
-step	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-required	NN	O	O
-additional	NN	O	O
-coding	NN	O	O
-therefore	NN	O	O
-takes	NN	O	O
-the	NN	O	O
-form	NN	O	O
-of	NN	O	O
-extra	NN	O	O
-‘	NN	O	O
-right	NN	O	O
-hand	NN	O	O
-side	NN	O	O
-loads’	NN	O	O
-together	NN	O	O
-with	NN	O	O
-some	NN	O	O
-updating	NN	O	B-Process
-subroutines	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-viscoelastic	NN	O	O
-internal	NN	O	O
-variables	NN	O	O
-,	NN	O	O
-but	NN	O	O
-the	NN	O	O
-solver	NN	O	O
-and	NN	O	O
-assembly	NN	O	B-Material
-engines	NN	O	I-Material
-remain	NN	O	O
-intact	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-idea	NN	O	O
-of	NN	O	O
-lagging	NN	O	O
-has	NN	O	O
-been	NN	O	O
-used	NN	O	O
-before	NN	O	O
-for	NN	O	O
-nonlinearly	NN	O	B-Task
-viscoelastic	NN	O	I-Task
-diffusion	NN	O	I-Task
-problems	NN	O	I-Task
-in	NN	O	O
-[	NN	O	O
-3,24	NN	O	O
-]	NN	O	O
-but	NN	O	O
-,	NN	O	O
-of	NN	O	O
-course	NN	O	O
-,	NN	O	O
-is	NN	O	O
-not	NN	O	O
-new	NN	O	O
-.	NN	O	O
-
-Lagging	NN	O	O
-in	NN	O	O
-numerical	NN	O	B-Process
-schemes	NN	O	I-Process
-is	NN	O	O
-discussed	NN	O	O
-more	NN	O	O
-widely	NN	O	O
-by	NN	O	O
-Lowrie	NN	O	O
-in	NN	O	O
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+article	8	15	O
+we	16	18	O
+consider	19	27	O
+an	28	30	O
+extension	31	40	B-Task
+to	41	43	I-Task
+the	44	47	I-Task
+equations	48	57	I-Task
+of	58	60	I-Task
+poroelasticity	61	75	I-Task
+by	76	78	O
+modelling	79	88	B-Task
+the	89	92	I-Task
+flow	93	97	I-Task
+of	98	100	I-Task
+a	101	102	I-Task
+slightly	103	111	I-Task
+compressible	112	124	I-Task
+single	125	131	I-Task
+phase	132	137	I-Task
+fluid	138	143	I-Task
+in	144	146	I-Task
+a	147	148	I-Task
+viscoelastic	149	161	I-Task
+porous	162	168	I-Task
+medium	169	175	I-Task
+.	175	176	O
+
+The	177	180	O
+constitutive	181	193	B-Process
+equations	194	203	I-Process
+therefore	204	213	O
+allow	214	219	O
+for	220	223	O
+the	224	227	O
+presence	228	236	O
+of	237	239	O
+viscoelastic	240	252	B-Process
+relaxation	253	263	I-Process
+effects	264	271	I-Process
+in	272	274	O
+the	275	278	O
+porous	279	285	B-Material
+media	286	291	I-Material
+(	292	293	O
+but	293	296	O
+not	297	300	O
+the	301	304	O
+fluid	305	310	B-Material
+)	310	311	O
+.	311	312	O
+
+Fully	313	318	B-Process
+discrete	319	327	I-Process
+numerical	328	337	I-Process
+schemes	338	345	I-Process
+are	346	349	O
+derived	350	357	O
+based	358	363	O
+on	364	366	O
+a	367	368	O
+lagged	369	375	B-Process
+and	376	379	I-Process
+non	380	383	I-Process
+-	383	384	I-Process
+lagged	384	390	I-Process
+backward	391	399	I-Process
+Euler	400	405	I-Process
+time	406	410	I-Process
+stepping	411	419	I-Process
+method	420	426	I-Process
+applied	427	434	O
+to	435	437	O
+a	438	439	O
+mixed	440	445	B-Material
+and	446	449	I-Material
+Galerkin	450	458	I-Material
+finite	459	465	I-Material
+element	466	473	I-Material
+spatial	474	481	I-Material
+discretization	482	496	I-Material
+.	496	497	O
+
+We	498	500	O
+show	501	505	O
+that	506	510	O
+the	511	514	O
+lagged	515	521	O
+scheme	522	528	O
+is	529	531	O
+unconditionally	532	547	O
+stable	548	554	O
+and	555	558	O
+give	559	563	O
+an	564	566	O
+optimal	567	574	O
+a	575	576	O
+priori	577	583	O
+error	584	589	O
+bound	590	595	O
+for	596	599	O
+it	600	602	O
+.	602	603	O
+
+Furthermore	604	615	O
+,	615	616	O
+this	617	621	O
+scheme	622	628	O
+is	629	631	O
+practical	632	641	O
+and	642	645	O
+useful	646	652	O
+in	653	655	O
+the	656	659	O
+sense	660	665	O
+that	666	670	O
+it	671	673	O
+can	674	677	O
+be	678	680	O
+easily	681	687	O
+implemented	688	699	O
+in	700	702	O
+existing	703	711	O
+poroelasticity	712	726	O
+software	727	735	O
+because	736	743	O
+the	744	747	O
+coupling	748	756	B-Process
+between	757	764	O
+the	765	768	O
+viscous	769	776	O
+stresses	777	785	O
+and	786	789	O
+pressures	790	799	O
+and	800	803	O
+the	804	807	O
+elasticity	808	818	O
+and	819	822	O
+flow	823	827	B-Process
+equations	828	837	I-Process
+is	838	840	O
+‘	841	842	O
+lagged’	842	849	O
+by	850	852	O
+one	853	856	O
+time	857	861	O
+step	862	866	O
+.	866	867	O
+
+The	868	871	O
+required	872	880	O
+additional	881	891	O
+coding	892	898	O
+therefore	899	908	O
+takes	909	914	O
+the	915	918	O
+form	919	923	O
+of	924	926	O
+extra	927	932	O
+‘	933	934	O
+right	934	939	O
+hand	940	944	O
+side	945	949	O
+loads’	950	956	O
+together	957	965	O
+with	966	970	O
+some	971	975	O
+updating	976	984	B-Process
+subroutines	985	996	I-Process
+for	997	1000	O
+the	1001	1004	O
+viscoelastic	1005	1017	O
+internal	1018	1026	O
+variables	1027	1036	O
+,	1036	1037	O
+but	1038	1041	O
+the	1042	1045	O
+solver	1046	1052	O
+and	1053	1056	O
+assembly	1057	1065	B-Material
+engines	1066	1073	I-Material
+remain	1074	1080	O
+intact	1081	1087	O
+.	1087	1088	O
+
+This	1089	1093	O
+idea	1094	1098	O
+of	1099	1101	O
+lagging	1102	1109	O
+has	1110	1113	O
+been	1114	1118	O
+used	1119	1123	O
+before	1124	1130	O
+for	1131	1134	O
+nonlinearly	1135	1146	B-Task
+viscoelastic	1147	1159	I-Task
+diffusion	1160	1169	I-Task
+problems	1170	1178	I-Task
+in	1179	1181	O
+[	1182	1183	O
+3,24	1183	1187	O
+]	1187	1188	O
+but	1189	1192	O
+,	1192	1193	O
+of	1194	1196	O
+course	1197	1203	O
+,	1203	1204	O
+is	1205	1207	O
+not	1208	1211	O
+new	1212	1215	O
+.	1215	1216	O
+
+Lagging	1217	1224	O
+in	1225	1227	O
+numerical	1228	1237	B-Process
+schemes	1238	1245	I-Process
+is	1246	1248	O
+discussed	1249	1258	O
+more	1259	1263	O
+widely	1264	1270	O
+by	1271	1273	O
+Lowrie	1274	1280	O
+in	1281	1283	O
+[	1284	1285	O
+14	1285	1287	O
+]	1287	1288	O
+.	1288	1289	O
 
 
 -DOCSTART- (S0045782513001448)
 
-Traditionally	NN	O	O
-,	NN	O	O
-the	NN	O	O
-simulation	NN	O	B-Task
-of	NN	O	I-Task
-incompressible	NN	O	I-Task
-fluid	NN	O	I-Task
-flow	NN	O	I-Task
-by	NN	O	O
-the	NN	O	O
-SPH	NN	O	B-Process
-method	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-through	NN	O	O
-a	NN	O	O
-weakly	NN	O	B-Process
-compressible	NN	O	I-Process
-SPH	NN	O	I-Process
-formulation	NN	O	I-Process
-(	NN	O	O
-WCSPH	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-approach	NN	O	O
-,	NN	O	O
-the	NN	O	O
-pressure	NN	O	O
-is	NN	O	O
-treated	NN	O	O
-as	NN	O	O
-a	NN	O	O
-thermodynamic	NN	O	O
-variable	NN	O	O
-and	NN	O	O
-is	NN	O	O
-calculated	NN	O	O
-using	NN	O	O
-an	NN	O	O
-artificial	NN	O	B-Process
-equation	NN	O	I-Process
-of	NN	O	I-Process
-state	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-sound	NN	O	O
-speed	NN	O	O
-is	NN	O	O
-set	NN	O	O
-to	NN	O	O
-be	NN	O	O
-sufficiently	NN	O	O
-high	NN	O	O
-to	NN	O	O
-limit	NN	O	O
-density	NN	O	O
-variations	NN	O	O
-to	NN	O	O
-within	NN	O	O
-a	NN	O	O
-small	NN	O	O
-fraction	NN	O	O
-of	NN	O	O
-the	NN	O	O
-actual	NN	O	O
-fluid	NN	O	B-Material
-density	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-practice	NN	O	O
-,	NN	O	O
-this	NN	O	O
-high	NN	O	O
-sound	NN	O	O
-speed	NN	O	O
-places	NN	O	O
-a	NN	O	O
-limitation	NN	O	O
-on	NN	O	O
-the	NN	O	O
-maximum	NN	O	O
-permissible	NN	O	O
-time	NN	O	O
--	NN	O	O
-step	NN	O	O
-size	NN	O	O
-through	NN	O	O
-the	NN	O	O
-Courant	NN	O	O
-–	NN	O	O
-Friedrichs	NN	O	O
-–	NN	O	O
-
-Lewy	NN	O	O
-(	NN	O	O
-CFL	NN	O	O
-)	NN	O	O
-constraint	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-particular	NN	O	O
-weakness	NN	O	O
-relates	NN	O	O
-to	NN	O	O
-noise	NN	O	O
-in	NN	O	O
-the	NN	O	O
-pressure	NN	O	O
-field	NN	O	O
-since	NN	O	O
-a	NN	O	O
-small	NN	O	O
-perturbation	NN	O	O
-in	NN	O	O
-the	NN	O	O
-local	NN	O	O
-density	NN	O	O
-will	NN	O	O
-yield	NN	O	O
-a	NN	O	O
-large	NN	O	O
-variation	NN	O	O
-in	NN	O	O
-the	NN	O	O
-local	NN	O	O
-pressure	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-can	NN	O	O
-make	NN	O	O
-WCSPH	NN	O	B-Process
-formulations	NN	O	O
-ineffective	NN	O	O
-for	NN	O	O
-accurate	NN	O	O
-force	NN	O	O
-and	NN	O	O
-pressure	NN	O	O
-prediction	NN	O	O
-,	NN	O	O
-although	NN	O	O
-recent	NN	O	O
-developments	NN	O	O
-which	NN	O	O
-create	NN	O	B-Task
-more	NN	O	I-Task
-uniform	NN	O	I-Task
-particle	NN	O	I-Task
-distributions	NN	O	I-Task
-have	NN	O	O
-improved	NN	O	O
-this	NN	O	O
-[	NN	O	O
-1,2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-review	NN	O	O
-of	NN	O	O
-the	NN	O	O
-SPH	NN	O	B-Process
-method	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-found	NN	O	O
-in	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-while	NN	O	O
-a	NN	O	O
-review	NN	O	O
-of	NN	O	O
-the	NN	O	O
-classical	NN	O	O
-WCSPH	NN	O	B-Process
-formulation	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-free	NN	O	B-Process
--	NN	O	I-Process
-surface	NN	O	I-Process
-flows	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-found	NN	O	O
-in	NN	O	O
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Traditionally	0	13	O
+,	13	14	O
+the	15	18	O
+simulation	19	29	B-Task
+of	30	32	I-Task
+incompressible	33	47	I-Task
+fluid	48	53	I-Task
+flow	54	58	I-Task
+by	59	61	O
+the	62	65	O
+SPH	66	69	B-Process
+method	70	76	I-Process
+has	77	80	O
+been	81	85	O
+through	86	93	O
+a	94	95	O
+weakly	96	102	B-Process
+compressible	103	115	I-Process
+SPH	116	119	I-Process
+formulation	120	131	I-Process
+(	132	133	O
+WCSPH	133	138	B-Process
+)	138	139	O
+.	139	140	O
+
+In	141	143	O
+this	144	148	O
+approach	149	157	O
+,	157	158	O
+the	159	162	O
+pressure	163	171	O
+is	172	174	O
+treated	175	182	O
+as	183	185	O
+a	186	187	O
+thermodynamic	188	201	O
+variable	202	210	O
+and	211	214	O
+is	215	217	O
+calculated	218	228	O
+using	229	234	O
+an	235	237	O
+artificial	238	248	B-Process
+equation	249	257	I-Process
+of	258	260	I-Process
+state	261	266	I-Process
+.	266	267	O
+
+The	268	271	O
+sound	272	277	O
+speed	278	283	O
+is	284	286	O
+set	287	290	O
+to	291	293	O
+be	294	296	O
+sufficiently	297	309	O
+high	310	314	O
+to	315	317	O
+limit	318	323	O
+density	324	331	O
+variations	332	342	O
+to	343	345	O
+within	346	352	O
+a	353	354	O
+small	355	360	O
+fraction	361	369	O
+of	370	372	O
+the	373	376	O
+actual	377	383	O
+fluid	384	389	B-Material
+density	390	397	O
+.	397	398	O
+
+In	399	401	O
+practice	402	410	O
+,	410	411	O
+this	412	416	O
+high	417	421	O
+sound	422	427	O
+speed	428	433	O
+places	434	440	O
+a	441	442	O
+limitation	443	453	O
+on	454	456	O
+the	457	460	O
+maximum	461	468	O
+permissible	469	480	O
+time	481	485	O
+-	485	486	O
+step	486	490	O
+size	491	495	O
+through	496	503	O
+the	504	507	O
+Courant	508	515	O
+–	515	516	O
+Friedrichs	516	526	O
+–	526	527	O
+
+Lewy	527	531	O
+(	532	533	O
+CFL	533	536	O
+)	536	537	O
+constraint	538	548	O
+.	548	549	O
+
+A	550	551	O
+particular	552	562	O
+weakness	563	571	O
+relates	572	579	O
+to	580	582	O
+noise	583	588	O
+in	589	591	O
+the	592	595	O
+pressure	596	604	O
+field	605	610	O
+since	611	616	O
+a	617	618	O
+small	619	624	O
+perturbation	625	637	O
+in	638	640	O
+the	641	644	O
+local	645	650	O
+density	651	658	O
+will	659	663	O
+yield	664	669	O
+a	670	671	O
+large	672	677	O
+variation	678	687	O
+in	688	690	O
+the	691	694	O
+local	695	700	O
+pressure	701	709	O
+.	709	710	O
+
+This	711	715	O
+can	716	719	O
+make	720	724	O
+WCSPH	725	730	B-Process
+formulations	731	743	O
+ineffective	744	755	O
+for	756	759	O
+accurate	760	768	O
+force	769	774	O
+and	775	778	O
+pressure	779	787	O
+prediction	788	798	O
+,	798	799	O
+although	800	808	O
+recent	809	815	O
+developments	816	828	O
+which	829	834	O
+create	835	841	B-Task
+more	842	846	I-Task
+uniform	847	854	I-Task
+particle	855	863	I-Task
+distributions	864	877	I-Task
+have	878	882	O
+improved	883	891	O
+this	892	896	O
+[	897	898	O
+1,2	898	901	O
+]	901	902	O
+.	902	903	O
+
+A	904	905	O
+review	906	912	O
+of	913	915	O
+the	916	919	O
+SPH	920	923	B-Process
+method	924	930	I-Process
+can	931	934	O
+be	935	937	O
+found	938	943	O
+in	944	946	O
+[	947	948	O
+3	948	949	O
+]	949	950	O
+while	951	956	O
+a	957	958	O
+review	959	965	O
+of	966	968	O
+the	969	972	O
+classical	973	982	O
+WCSPH	983	988	B-Process
+formulation	989	1000	O
+applied	1001	1008	O
+to	1009	1011	O
+free	1012	1016	B-Process
+-	1016	1017	I-Process
+surface	1017	1024	I-Process
+flows	1025	1030	I-Process
+can	1031	1034	O
+be	1035	1037	O
+found	1038	1043	O
+in	1044	1046	O
+[	1047	1048	O
+4	1048	1049	O
+]	1049	1050	O
+.	1050	1051	O
 
 
 -DOCSTART- (S0045782513001473)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-we	NN	O	O
-prefer	NN	O	O
-the	NN	O	O
-simpler	NN	O	O
-‘	NN	O	O
-framed’	NN	O	B-Process
-cell	NN	O	I-Process
-employed	NN	O	O
-by	NN	O	O
-Hadjiconstantinou	NN	O	O
-and	NN	O	O
-Patera	NN	O	O
-
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-shear	NN	O	B-Process
-stress	NN	O	I-Process
-is	NN	O	O
-generated	NN	O	O
-by	NN	O	O
-constraining	NN	O	B-Process
-the	NN	O	I-Process
-velocity	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-‘	NN	O	O
-frame’	NN	O	O
-rather	NN	O	O
-than	NN	O	O
-by	NN	O	O
-modifying	NN	O	O
-the	NN	O	O
-shape	NN	O	O
-of	NN	O	O
-the	NN	O	O
-box	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-framed	NN	O	B-Process
-cell	NN	O	I-Process
-is	NN	O	O
-periodic	NN	O	O
-,	NN	O	O
-but	NN	O	O
-we	NN	O	O
-can	NN	O	O
-not	NN	O	O
-simply	NN	O	O
-calculate	NN	O	O
-the	NN	O	O
-average	NN	O	O
-stress	NN	O	O
-in	NN	O	O
-the	NN	O	O
-whole	NN	O	O
-box	NN	O	O
-because	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-an	NN	O	O
-external	NN	O	O
-buffer	NN	O	O
-would	NN	O	O
-produce	NN	O	O
-spurious	NN	O	O
-results	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-need	NN	O	O
-the	NN	O	O
-local	NN	O	O
-stress	NN	O	O
-in	NN	O	O
-the	NN	O	O
-core	NN	O	O
-region	NN	O	O
-,	NN	O	O
-but	NN	O	O
-this	NN	O	O
-complicates	NN	O	O
-the	NN	O	O
-Oij	NN	O	O
-term	NN	O	O
-in	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-3	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-There	NN	O	O
-are	NN	O	O
-other	NN	O	O
-methods	NN	O	O
-to	NN	O	O
-calculate	NN	O	B-Process
-the	NN	O	I-Process
-stress	NN	O	I-Process
-tensor	NN	O	I-Process
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-method	NN	O	B-Process
-of	NN	O	I-Process
-planes	NN	O	I-Process
-[	NN	O	O
-32	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-volume	NN	O	B-Process
--	NN	O	I-Process
-average	NN	O	I-Process
-approach	NN	O	I-Process
-[	NN	O	O
-26,14	NN	O	O
-]	NN	O	O
-,	NN	O	O
-or	NN	O	O
-the	NN	O	O
-method	NN	O	O
-derived	NN	O	O
-from	NN	O	O
-the	NN	O	O
-Schweitz	NN	O	B-Process
-virial	NN	O	I-Process
-relation	NN	O	I-Process
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-,	NN	O	O
-but	NN	O	O
-,	NN	O	O
-in	NN	O	O
-general	NN	O	O
-,	NN	O	O
-we	NN	O	O
-must	NN	O	O
-choose	NN	O	O
-between	NN	O	O
-a	NN	O	O
-complicated	NN	O	B-Process
-computational	NN	O	I-Process
-cell	NN	O	I-Process
-(	NN	O	O
-i.e.	NN	O	O
-Lees	NN	O	B-Process
-–	NN	O	I-Process
-Edwards	NN	O	I-Process
-cell	NN	O	I-Process
-)	NN	O	O
-and	NN	O	O
-simplifying	NN	O	O
-the	NN	O	O
-calculation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-momentum	NN	O	O
-flux	NN	O	O
-,	NN	O	O
-or	NN	O	O
-a	NN	O	O
-simple	NN	O	B-Process
-cell	NN	O	I-Process
-(	NN	O	O
-i.e.	NN	O	O
-framed	NN	O	B-Process
-cell	NN	O	I-Process
-)	NN	O	O
-and	NN	O	O
-complicating	NN	O	O
-the	NN	O	O
-calculation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-momentum	NN	O	O
-flux	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-new	NN	O	O
-method	NN	O	O
-we	NN	O	O
-propose	NN	O	O
-here	NN	O	O
-does	NN	O	O
-not	NN	O	O
-need	NN	O	O
-the	NN	O	O
-direct	NN	O	O
-calculation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-flux	NN	O	O
-,	NN	O	O
-so	NN	O	O
-it	NN	O	O
-avoids	NN	O	O
-this	NN	O	O
-issue	NN	O	O
-altogether	NN	O	O
-:	NN	O	O
-we	NN	O	O
-can	NN	O	O
-use	NN	O	O
-the	NN	O	O
-framed	NN	O	B-Process
-cell	NN	O	I-Process
-and	NN	O	O
-,	NN	O	O
-at	NN	O	O
-the	NN	O	O
-same	NN	O	O
-time	NN	O	O
-,	NN	O	O
-avoid	NN	O	O
-the	NN	O	O
-calculation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-IK	NN	O	B-Process
-equation	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+however	15	22	O
+,	22	23	O
+we	24	26	O
+prefer	27	33	O
+the	34	37	O
+simpler	38	45	O
+‘	46	47	O
+framed’	47	54	B-Process
+cell	55	59	I-Process
+employed	60	68	O
+by	69	71	O
+Hadjiconstantinou	72	89	O
+and	90	93	O
+Patera	94	100	O
+
+[	101	102	O
+16	102	104	O
+]	104	105	O
+,	105	106	O
+where	107	112	O
+the	113	116	O
+shear	117	122	B-Process
+stress	123	129	I-Process
+is	130	132	O
+generated	133	142	O
+by	143	145	O
+constraining	146	158	B-Process
+the	159	162	I-Process
+velocity	163	171	I-Process
+in	172	174	O
+a	175	176	O
+‘	177	178	O
+frame’	178	184	O
+rather	185	191	O
+than	192	196	O
+by	197	199	O
+modifying	200	209	O
+the	210	213	O
+shape	214	219	O
+of	220	222	O
+the	223	226	O
+box	227	230	O
+.	230	231	O
+
+The	232	235	O
+framed	236	242	B-Process
+cell	243	247	I-Process
+is	248	250	O
+periodic	251	259	O
+,	259	260	O
+but	261	264	O
+we	265	267	O
+can	268	271	O
+not	271	274	O
+simply	275	281	O
+calculate	282	291	O
+the	292	295	O
+average	296	303	O
+stress	304	310	O
+in	311	313	O
+the	314	317	O
+whole	318	323	O
+box	324	327	O
+because	328	335	O
+the	336	339	O
+presence	340	348	O
+of	349	351	O
+an	352	354	O
+external	355	363	O
+buffer	364	370	O
+would	371	376	O
+produce	377	384	O
+spurious	385	393	O
+results	394	401	O
+.	401	402	O
+
+We	403	405	O
+need	406	410	O
+the	411	414	O
+local	415	420	O
+stress	421	427	O
+in	428	430	O
+the	431	434	O
+core	435	439	O
+region	440	446	O
+,	446	447	O
+but	448	451	O
+this	452	456	O
+complicates	457	468	O
+the	469	472	O
+Oij	473	476	O
+term	477	481	O
+in	482	484	O
+Eq	485	487	O
+.	487	488	O
+
+(	489	490	O
+3	490	491	O
+)	491	492	O
+.	492	493	O
+
+There	494	499	O
+are	500	503	O
+other	504	509	O
+methods	510	517	O
+to	518	520	O
+calculate	521	530	B-Process
+the	531	534	I-Process
+stress	535	541	I-Process
+tensor	542	548	I-Process
+such	549	553	O
+as	554	556	O
+the	557	560	O
+method	561	567	B-Process
+of	568	570	I-Process
+planes	571	577	I-Process
+[	578	579	O
+32	579	581	O
+]	581	582	O
+,	582	583	O
+the	584	587	O
+volume	588	594	B-Process
+-	594	595	I-Process
+average	595	602	I-Process
+approach	603	611	I-Process
+[	612	613	O
+26,14	613	618	O
+]	618	619	O
+,	619	620	O
+or	621	623	O
+the	624	627	O
+method	628	634	O
+derived	635	642	O
+from	643	647	O
+the	648	651	O
+Schweitz	652	660	B-Process
+virial	661	667	I-Process
+relation	668	676	I-Process
+[	677	678	O
+25	678	680	O
+]	680	681	O
+,	681	682	O
+but	683	686	O
+,	686	687	O
+in	688	690	O
+general	691	698	O
+,	698	699	O
+we	700	702	O
+must	703	707	O
+choose	708	714	O
+between	715	722	O
+a	723	724	O
+complicated	725	736	B-Process
+computational	737	750	I-Process
+cell	751	755	I-Process
+(	756	757	O
+i.e.	757	761	O
+Lees	762	766	B-Process
+–	766	767	I-Process
+Edwards	767	774	I-Process
+cell	775	779	I-Process
+)	779	780	O
+and	781	784	O
+simplifying	785	796	O
+the	797	800	O
+calculation	801	812	O
+of	813	815	O
+the	816	819	O
+momentum	820	828	O
+flux	829	833	O
+,	833	834	O
+or	835	837	O
+a	838	839	O
+simple	840	846	B-Process
+cell	847	851	I-Process
+(	852	853	O
+i.e.	853	857	O
+framed	858	864	B-Process
+cell	865	869	I-Process
+)	869	870	O
+and	871	874	O
+complicating	875	887	O
+the	888	891	O
+calculation	892	903	O
+of	904	906	O
+the	907	910	O
+momentum	911	919	O
+flux	920	924	O
+.	924	925	O
+
+The	926	929	O
+new	930	933	O
+method	934	940	O
+we	941	943	O
+propose	944	951	O
+here	952	956	O
+does	957	961	O
+not	962	965	O
+need	966	970	O
+the	971	974	O
+direct	975	981	O
+calculation	982	993	O
+of	994	996	O
+the	997	1000	O
+flux	1001	1005	O
+,	1005	1006	O
+so	1007	1009	O
+it	1010	1012	O
+avoids	1013	1019	O
+this	1020	1024	O
+issue	1025	1030	O
+altogether	1031	1041	O
+:	1041	1042	O
+we	1043	1045	O
+can	1046	1049	O
+use	1050	1053	O
+the	1054	1057	O
+framed	1058	1064	B-Process
+cell	1065	1069	I-Process
+and	1070	1073	O
+,	1073	1074	O
+at	1075	1077	O
+the	1078	1081	O
+same	1082	1086	O
+time	1087	1091	O
+,	1091	1092	O
+avoid	1093	1098	O
+the	1099	1102	O
+calculation	1103	1114	O
+of	1115	1117	O
+the	1118	1121	O
+IK	1122	1124	B-Process
+equation	1125	1133	I-Process
+.	1133	1134	O
 
 
 -DOCSTART- (S004578251300176X)
 
-Powder	NN	O	B-Process
-metallurgy	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-versatile	NN	O	O
-technology	NN	O	B-Process
-for	NN	O	I-Process
-the	NN	O	I-Process
-manufacturing	NN	O	I-Process
-of	NN	O	I-Process
-components	NN	O	I-Process
-to	NN	O	I-Process
-(	NN	O	I-Process
-near	NN	O	I-Process
-)	NN	O	I-Process
-net	NN	O	I-Process
--	NN	O	I-Process
-shape	NN	O	I-Process
-with	NN	O	O
-high	NN	O	O
-product	NN	O	O
-quality	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-a	NN	O	O
-hardmetal	NN	O	B-Material
-(	NN	O	O
-such	NN	O	O
-as	NN	O	O
-WC	NN	O	B-Material
--	NN	O	I-Material
-Co	NN	O	I-Material
-)	NN	O	O
-cold	NN	O	O
-compaction	NN	O	O
-of	NN	O	O
-the	NN	O	O
-powder	NN	O	B-Material
-to	NN	O	O
-a	NN	O	O
-“	NN	O	O
-green	NN	O	B-Material
-body	NN	O	I-Material
-”	NN	O	O
-is	NN	O	O
-followed	NN	O	O
-by	NN	O	O
-liquid	NN	O	B-Process
--	NN	O	I-Process
-phase	NN	O	I-Process
-sintering	NN	O	I-Process
-from	NN	O	O
-the	NN	O	O
-subsequent	NN	O	O
-heating	NN	O	B-Process
-.	NN	O	O
-
-This	NN	O	O
-means	NN	O	O
-that	NN	O	O
-the	NN	O	O
-binder	NN	O	O
-metal	NN	O	O
-Co	NN	O	B-Process
-is	NN	O	I-Process
-heated	NN	O	I-Process
-to	NN	O	O
-melt	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-obtain	NN	O	B-Task
-sufficient	NN	O	I-Task
-mobility	NN	O	I-Task
-via	NN	O	I-Task
-capillary	NN	O	I-Task
-action	NN	O	I-Task
-,	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-via	NN	O	O
-surface	NN	O	B-Process
-traction	NN	O	I-Process
-,	NN	O	O
-stemming	NN	O	O
-from	NN	O	O
-stored	NN	O	O
-surface	NN	O	O
-energy	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resulting	NN	O	O
-flow	NN	O	O
-causes	NN	O	O
-gradual	NN	O	B-Process
-filling	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-pore	NN	O	I-Process
-space	NN	O	O
-and	NN	O	O
-brings	NN	O	O
-about	NN	O	O
-a	NN	O	O
-macroscopic	NN	O	B-Process
-shrinkage	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-particle	NN	O	B-Material
-compact	NN	O	O
-until	NN	O	O
-a	NN	O	O
-completely	NN	O	O
-dense	NN	O	B-Material
-state	NN	O	I-Material
-is	NN	O	O
-obtained	NN	O	O
-,	NN	O	O
-at	NN	O	O
-least	NN	O	O
-ideally	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-model	NN	O	B-Task
-and	NN	O	I-Task
-quantitatively	NN	O	I-Task
-simulate	NN	O	I-Task
-the	NN	O	I-Task
-sintering	NN	O	I-Task
-process	NN	O	I-Task
-is	NN	O	O
-a	NN	O	O
-challenging	NN	O	O
-task	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-goal	NN	O	O
-is	NN	O	O
-to	NN	O	O
-(	NN	O	O
-i	NN	O	O
-)	NN	O	O
-estimate	NN	O	B-Task
-the	NN	O	I-Task
-final	NN	O	I-Task
-resulting	NN	O	I-Task
-quality	NN	O	I-Task
-(	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-porosity	NN	O	B-Task
-)	NN	O	O
-and	NN	O	O
-(	NN	O	O
-ii	NN	O	O
-)	NN	O	O
-to	NN	O	B-Task
-predict	NN	O	I-Task
-the	NN	O	I-Task
-final	NN	O	I-Task
-net	NN	O	I-Task
-shape	NN	O	I-Task
-and	NN	O	I-Task
-size	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-sintered	NN	O	B-Material
-component	NN	O	I-Material
-.	NN	O	O
+Powder	0	6	B-Process
+metallurgy	7	17	I-Process
+is	18	20	O
+a	21	22	O
+versatile	23	32	O
+technology	33	43	B-Process
+for	44	47	I-Process
+the	48	51	I-Process
+manufacturing	52	65	I-Process
+of	66	68	I-Process
+components	69	79	I-Process
+to	80	82	I-Process
+(	83	84	I-Process
+near	84	88	I-Process
+)	88	89	I-Process
+net	90	93	I-Process
+-	93	94	I-Process
+shape	94	99	I-Process
+with	100	104	O
+high	105	109	O
+product	110	117	O
+quality	118	125	O
+.	125	126	O
+
+For	127	130	O
+a	131	132	O
+hardmetal	133	142	B-Material
+(	143	144	O
+such	144	148	O
+as	149	151	O
+WC	152	154	B-Material
+-	154	155	I-Material
+Co	155	157	I-Material
+)	157	158	O
+cold	159	163	O
+compaction	164	174	O
+of	175	177	O
+the	178	181	O
+powder	182	188	B-Material
+to	189	191	O
+a	192	193	O
+“	194	195	O
+green	195	200	B-Material
+body	201	205	I-Material
+”	205	206	O
+is	207	209	O
+followed	210	218	O
+by	219	221	O
+liquid	222	228	B-Process
+-	228	229	I-Process
+phase	229	234	I-Process
+sintering	235	244	I-Process
+from	245	249	O
+the	250	253	O
+subsequent	254	264	O
+heating	265	272	B-Process
+.	272	273	O
+
+This	274	278	O
+means	279	284	O
+that	285	289	O
+the	290	293	O
+binder	294	300	O
+metal	301	306	O
+Co	307	309	B-Process
+is	310	312	I-Process
+heated	313	319	I-Process
+to	320	322	O
+melt	323	327	O
+in	328	330	O
+order	331	336	O
+to	337	339	O
+obtain	340	346	B-Task
+sufficient	347	357	I-Task
+mobility	358	366	I-Task
+via	367	370	I-Task
+capillary	371	380	I-Task
+action	381	387	I-Task
+,	387	388	O
+i.e.	389	393	O
+,	393	394	O
+via	395	398	O
+surface	399	406	B-Process
+traction	407	415	I-Process
+,	415	416	O
+stemming	417	425	O
+from	426	430	O
+stored	431	437	O
+surface	438	445	O
+energy	446	452	O
+.	452	453	O
+
+The	454	457	O
+resulting	458	467	O
+flow	468	472	O
+causes	473	479	O
+gradual	480	487	B-Process
+filling	488	495	I-Process
+of	496	498	I-Process
+the	499	502	I-Process
+pore	503	507	I-Process
+space	508	513	O
+and	514	517	O
+brings	518	524	O
+about	525	530	O
+a	531	532	O
+macroscopic	533	544	B-Process
+shrinkage	545	554	I-Process
+of	555	557	O
+the	558	561	O
+particle	562	570	B-Material
+compact	571	578	O
+until	579	584	O
+a	585	586	O
+completely	587	597	O
+dense	598	603	B-Material
+state	604	609	I-Material
+is	610	612	O
+obtained	613	621	O
+,	621	622	O
+at	623	625	O
+least	626	631	O
+ideally	632	639	O
+.	639	640	O
+
+To	641	643	O
+model	644	649	B-Task
+and	650	653	I-Task
+quantitatively	654	668	I-Task
+simulate	669	677	I-Task
+the	678	681	I-Task
+sintering	682	691	I-Task
+process	692	699	I-Task
+is	700	702	O
+a	703	704	O
+challenging	705	716	O
+task	717	721	O
+.	721	722	O
+
+The	723	726	O
+goal	727	731	O
+is	732	734	O
+to	735	737	O
+(	738	739	O
+i	739	740	O
+)	740	741	O
+estimate	742	750	B-Task
+the	751	754	I-Task
+final	755	760	I-Task
+resulting	761	770	I-Task
+quality	771	778	I-Task
+(	779	780	O
+i.e.	780	784	O
+,	784	785	O
+in	786	788	O
+terms	789	794	O
+of	795	797	O
+porosity	798	806	B-Task
+)	806	807	O
+and	808	811	O
+(	812	813	O
+ii	813	815	O
+)	815	816	O
+to	817	819	B-Task
+predict	820	827	I-Task
+the	828	831	I-Task
+final	832	837	I-Task
+net	838	841	I-Task
+shape	842	847	I-Task
+and	848	851	I-Task
+size	852	856	I-Task
+of	857	859	O
+the	860	863	O
+sintered	864	872	B-Material
+component	873	882	I-Material
+.	882	883	O
 
 
 -DOCSTART- (S0045782514000607)
 
-As	NN	O	O
-mentioned	NN	O	O
-previously	NN	O	O
-,	NN	O	O
-the	NN	O	O
-weakly	NN	O	B-Process
-penalized	NN	O	I-Process
-system	NN	O	O
-can	NN	O	O
-be	NN	O	O
-thought	NN	O	O
-of	NN	O	O
-as	NN	O	O
-a	NN	O	O
-generalized	NN	O	B-Process
-formulation	NN	O	I-Process
-which	NN	O	O
-can	NN	O	O
-result	NN	O	O
-in	NN	O	O
-the	NN	O	O
-PL	NN	O	B-Process
-,	NN	O	I-Process
-penalty	NN	O	I-Process
-or	NN	O	I-Process
-statically	NN	O	I-Process
-condensed	NN	O	I-Process
-PL	NN	O	I-Process
-formulations	NN	O	I-Process
-depending	NN	O	O
-on	NN	O	O
-the	NN	O	O
-choice	NN	O	O
-of	NN	O	O
-the	NN	O	O
-projection	NN	O	O
-operator	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-equivalence	NN	O	O
-of	NN	O	O
-these	NN	O	O
-methods	NN	O	O
-under	NN	O	O
-the	NN	O	O
-weakly	NN	O	O
-penalized	NN	O	O
-regime	NN	O	O
-,	NN	O	O
-allows	NN	O	O
-us	NN	O	O
-to	NN	O	O
-combine	NN	O	O
-and	NN	O	O
-take	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-the	NN	O	O
-good	NN	O	O
-characteristics	NN	O	O
-of	NN	O	O
-each	NN	O	O
-method	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-instance	NN	O	O
-,	NN	O	O
-the	NN	O	O
-weakly	NN	O	B-Process
-penalized	NN	O	I-Process
-formulation	NN	O	I-Process
-combines	NN	O	O
-the	NN	O	O
-simplified	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-the	NN	O	O
-penalty	NN	O	B-Process
-method	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-convergence	NN	O	O
-characteristics	NN	O	O
-of	NN	O	O
-the	NN	O	O
-PL	NN	O	B-Process
-formulation	NN	O	I-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-stiffness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-linear	NN	O	O
-system	NN	O	O
-at	NN	O	O
-high	NN	O	O
-values	NN	O	O
-of	NN	O	O
-the	NN	O	O
-bulk	NN	O	O
-modulus	NN	O	O
-,	NN	O	O
-the	NN	O	O
-penalized	NN	O	B-Process
-formulations	NN	O	I-Process
-(	NN	O	O
-classic	NN	O	B-Process
-penalty	NN	O	I-Process
-/	NN	O	I-Process
-weakly	NN	O	I-Process
-penalized	NN	O	I-Process
-)	NN	O	O
-exhibit	NN	O	O
-deteriorated	NN	O	O
-nonlinear	NN	O	B-Material
-convergence	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-stands	NN	O	O
-in	NN	O	O
-stark	NN	O	O
-contrast	NN	O	O
-to	NN	O	O
-the	NN	O	O
-PL	NN	O	B-Process
-method	NN	O	O
-which	NN	O	O
-(	NN	O	O
-for	NN	O	O
-inf	NN	O	B-Process
-–	NN	O	I-Process
-sup	NN	O	I-Process
-stable	NN	O	I-Process
-schemes	NN	O	I-Process
-)	NN	O	O
-exhibits	NN	O	O
-fast	NN	O	O
-convergence	NN	O	B-Material
-even	NN	O	O
-for	NN	O	O
-high	NN	O	O
-bulk	NN	O	O
-modulus	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-we	NN	O	O
-observe	NN	O	O
-that	NN	O	O
-,	NN	O	O
-when	NN	O	O
-the	NN	O	O
-choice	NN	O	O
-of	NN	O	O
-πh	NN	O	O
-provides	NN	O	O
-equivalence	NN	O	O
-with	NN	O	O
-the	NN	O	O
-discrete	NN	O	O
-PL	NN	O	B-Task
-method	NN	O	O
-,	NN	O	O
-poor	NN	O	B-Material
-nonlinear	NN	O	I-Material
-convergence	NN	O	I-Material
-is	NN	O	O
-observed	NN	O	O
-though	NN	O	O
-,	NN	O	O
-in	NN	O	O
-principle	NN	O	O
-,	NN	O	O
-the	NN	O	O
-convergence	NN	O	O
-should	NN	O	O
-be	NN	O	O
-similar	NN	O	O
-.	NN	O	O
-
-Examining	NN	O	O
-the	NN	O	O
-update	NN	O	O
-formulae	NN	O	O
-for	NN	O	O
-both	NN	O	O
-weakly	NN	O	B-Process
-penalized	NN	O	I-Process
-and	NN	O	I-Process
-PL	NN	O	I-Process
-approaches	NN	O	I-Process
-(	NN	O	O
-see	NN	O	O
-Appendix	NN	O	O
-C	NN	O	O
-)	NN	O	O
-,	NN	O	O
-we	NN	O	O
-observe	NN	O	O
-that	NN	O	O
-deteriorated	NN	O	B-Task
-convergence	NN	O	I-Task
-stems	NN	O	O
-from	NN	O	O
-:	NN	O	O
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-initial	NN	O	B-Task
-residual	NN	O	I-Task
-amplification	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-(	NN	O	O
-2	NN	O	O
-)	NN	O	O
-the	NN	O	O
-amplification	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-residual	NN	O	I-Task
-.	NN	O	O
+As	0	2	O
+mentioned	3	12	O
+previously	13	23	O
+,	23	24	O
+the	25	28	O
+weakly	29	35	B-Process
+penalized	36	45	I-Process
+system	46	52	O
+can	53	56	O
+be	57	59	O
+thought	60	67	O
+of	68	70	O
+as	71	73	O
+a	74	75	O
+generalized	76	87	B-Process
+formulation	88	99	I-Process
+which	100	105	O
+can	106	109	O
+result	110	116	O
+in	117	119	O
+the	120	123	O
+PL	124	126	B-Process
+,	126	127	I-Process
+penalty	128	135	I-Process
+or	136	138	I-Process
+statically	139	149	I-Process
+condensed	150	159	I-Process
+PL	160	162	I-Process
+formulations	163	175	I-Process
+depending	176	185	O
+on	186	188	O
+the	189	192	O
+choice	193	199	O
+of	200	202	O
+the	203	206	O
+projection	207	217	O
+operator	218	226	O
+.	226	227	O
+
+The	228	231	O
+equivalence	232	243	O
+of	244	246	O
+these	247	252	O
+methods	253	260	O
+under	261	266	O
+the	267	270	O
+weakly	271	277	O
+penalized	278	287	O
+regime	288	294	O
+,	294	295	O
+allows	296	302	O
+us	303	305	O
+to	306	308	O
+combine	309	316	O
+and	317	320	O
+take	321	325	O
+advantage	326	335	O
+of	336	338	O
+the	339	342	O
+good	343	347	O
+characteristics	348	363	O
+of	364	366	O
+each	367	371	O
+method	372	378	O
+.	378	379	O
+
+For	380	383	O
+instance	384	392	O
+,	392	393	O
+the	394	397	O
+weakly	398	404	B-Process
+penalized	405	414	I-Process
+formulation	415	426	I-Process
+combines	427	435	O
+the	436	439	O
+simplified	440	450	O
+structure	451	460	O
+of	461	463	O
+the	464	467	O
+penalty	468	475	B-Process
+method	476	482	I-Process
+with	483	487	O
+the	488	491	O
+convergence	492	503	O
+characteristics	504	519	O
+of	520	522	O
+the	523	526	O
+PL	527	529	B-Process
+formulation	530	541	I-Process
+.	541	542	O
+
+However	543	550	O
+,	550	551	O
+due	552	555	O
+to	556	558	O
+the	559	562	O
+stiffness	563	572	O
+of	573	575	O
+the	576	579	O
+linear	580	586	O
+system	587	593	O
+at	594	596	O
+high	597	601	O
+values	602	608	O
+of	609	611	O
+the	612	615	O
+bulk	616	620	O
+modulus	621	628	O
+,	628	629	O
+the	630	633	O
+penalized	634	643	B-Process
+formulations	644	656	I-Process
+(	657	658	O
+classic	658	665	B-Process
+penalty	666	673	I-Process
+/	673	674	I-Process
+weakly	674	680	I-Process
+penalized	681	690	I-Process
+)	690	691	O
+exhibit	692	699	O
+deteriorated	700	712	O
+nonlinear	713	722	B-Material
+convergence	723	734	I-Material
+.	734	735	O
+
+This	736	740	O
+stands	741	747	O
+in	748	750	O
+stark	751	756	O
+contrast	757	765	O
+to	766	768	O
+the	769	772	O
+PL	773	775	B-Process
+method	776	782	O
+which	783	788	O
+(	789	790	O
+for	790	793	O
+inf	794	797	B-Process
+–	797	798	I-Process
+sup	798	801	I-Process
+stable	802	808	I-Process
+schemes	809	816	I-Process
+)	816	817	O
+exhibits	818	826	O
+fast	827	831	O
+convergence	832	843	B-Material
+even	844	848	O
+for	849	852	O
+high	853	857	O
+bulk	858	862	O
+modulus	863	870	O
+.	870	871	O
+
+However	872	879	O
+,	879	880	O
+we	881	883	O
+observe	884	891	O
+that	892	896	O
+,	896	897	O
+when	898	902	O
+the	903	906	O
+choice	907	913	O
+of	914	916	O
+πh	917	919	O
+provides	920	928	O
+equivalence	929	940	O
+with	941	945	O
+the	946	949	O
+discrete	950	958	O
+PL	959	961	B-Task
+method	962	968	O
+,	968	969	O
+poor	970	974	B-Material
+nonlinear	975	984	I-Material
+convergence	985	996	I-Material
+is	997	999	O
+observed	1000	1008	O
+though	1009	1015	O
+,	1015	1016	O
+in	1017	1019	O
+principle	1020	1029	O
+,	1029	1030	O
+the	1031	1034	O
+convergence	1035	1046	O
+should	1047	1053	O
+be	1054	1056	O
+similar	1057	1064	O
+.	1064	1065	O
+
+Examining	1066	1075	O
+the	1076	1079	O
+update	1080	1086	O
+formulae	1087	1095	O
+for	1096	1099	O
+both	1100	1104	O
+weakly	1105	1111	B-Process
+penalized	1112	1121	I-Process
+and	1122	1125	I-Process
+PL	1126	1128	I-Process
+approaches	1129	1139	I-Process
+(	1140	1141	O
+see	1141	1144	O
+Appendix	1145	1153	O
+C	1154	1155	O
+)	1155	1156	O
+,	1156	1157	O
+we	1158	1160	O
+observe	1161	1168	O
+that	1169	1173	O
+deteriorated	1174	1186	B-Task
+convergence	1187	1198	I-Task
+stems	1199	1204	O
+from	1205	1209	O
+:	1209	1210	O
+(	1211	1212	O
+1	1212	1213	O
+)	1213	1214	O
+initial	1215	1222	B-Task
+residual	1223	1231	I-Task
+amplification	1232	1245	I-Task
+,	1245	1246	O
+and	1247	1250	O
+(	1251	1252	O
+2	1252	1253	O
+)	1253	1254	O
+the	1255	1258	O
+amplification	1259	1272	B-Task
+of	1273	1275	I-Task
+the	1276	1279	I-Task
+residual	1280	1288	I-Task
+.	1288	1289	O
 
 
 -DOCSTART- (S0045782514001492)
 
-Energy	NN	O	B-Process
-conservation	NN	O	I-Process
-is	NN	O	O
-critical	NN	O	O
-to	NN	O	O
-ensure	NN	O	O
-stability	NN	O	O
-of	NN	O	O
-a	NN	O	O
-numerical	NN	O	O
-method	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-for	NN	O	O
-contact	NN	O	B-Task
-and	NN	O	I-Task
-collision	NN	O	I-Task
-problems	NN	O	I-Task
-
-[	NN	O	O
-28,43	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-number	NN	O	O
-of	NN	O	O
-conserving	NN	O	O
-schemes	NN	O	O
-have	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-to	NN	O	O
-ensure	NN	O	O
-energy	NN	O	B-Task
-conservation	NN	O	I-Task
-.	NN	O	O
-
-These	NN	O	O
-schemes	NN	O	O
-make	NN	O	O
-use	NN	O	O
-of	NN	O	O
-the	NN	O	O
-penalty	NN	O	B-Process
-regulation	NN	O	I-Process
-of	NN	O	O
-normal	NN	O	O
-contact	NN	O	O
-constraint	NN	O	O
-and	NN	O	O
-inherit	NN	O	O
-the	NN	O	O
-conservation	NN	O	O
-property	NN	O	O
-from	NN	O	O
-continuum	NN	O	B-Task
-problems	NN	O	I-Task
-.	NN	O	O
-
-These	NN	O	O
-conservation	NN	O	B-Process
-schemes	NN	O	I-Process
-can	NN	O	O
-conveniently	NN	O	O
-be	NN	O	O
-combined	NN	O	O
-with	NN	O	O
-the	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-method	NN	O	I-Process
-to	NN	O	O
-simulate	NN	O	B-Task
-frictionless	NN	O	I-Task
-[	NN	O	I-Task
-44	NN	O	I-Task
-]	NN	O	I-Task
-and	NN	O	I-Task
-frictional	NN	O	I-Task
-[	NN	O	I-Task
-43	NN	O	I-Task
-]	NN	O	I-Task
-contact	NN	O	I-Task
-and	NN	O	I-Task
-collision	NN	O	I-Task
-.	NN	O	O
-
-Hesch	NN	O	O
-and	NN	O	O
-Betsch	NN	O	O
-
-[	NN	O	O
-45	NN	O	O
-]	NN	O	O
-formulated	NN	O	O
-the	NN	O	O
-node	NN	O	B-Process
--	NN	O	I-Process
-to	NN	O	I-Process
--	NN	O	I-Process
-segment	NN	O	I-Process
-contact	NN	O	I-Process
-method	NN	O	I-Process
-and	NN	O	O
-solved	NN	O	O
-large	NN	O	B-Task
-deformation	NN	O	I-Task
-contact	NN	O	I-Task
-problems	NN	O	I-Task
-with	NN	O	O
-the	NN	O	O
-conserving	NN	O	B-Process
-scheme	NN	O	I-Process
-.	NN	O	O
-
-More	NN	O	O
-recently	NN	O	O
-,	NN	O	O
-an	NN	O	O
-energy	NN	O	B-Process
-and	NN	O	I-Process
-momentum	NN	O	I-Process
--	NN	O	I-Process
-conserving	NN	O	I-Process
-temporal	NN	O	I-Process
-discretization	NN	O	I-Process
-scheme	NN	O	I-Process
-[	NN	O	O
-46	NN	O	O
-]	NN	O	O
-was	NN	O	O
-developed	NN	O	O
-for	NN	O	O
-adhesive	NN	O	B-Task
-contact	NN	O	I-Task
-problems	NN	O	I-Task
-without	NN	O	O
-considering	NN	O	O
-friction	NN	O	B-Process
-and	NN	O	O
-dissipation	NN	O	B-Process
-.	NN	O	O
-
-Even	NN	O	O
-though	NN	O	O
-the	NN	O	O
-conserving	NN	O	B-Process
-scheme	NN	O	I-Process
-improves	NN	O	O
-numerical	NN	O	O
-stability	NN	O	O
-,	NN	O	O
-it	NN	O	O
-also	NN	O	O
-inherits	NN	O	O
-from	NN	O	O
-the	NN	O	O
-penalty	NN	O	O
-method	NN	O	O
-the	NN	O	O
-difficulty	NN	O	O
-of	NN	O	O
-having	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-penalty	NN	O	O
-parameters	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-remove	NN	O	O
-penalty	NN	O	O
-sensitivity	NN	O	O
-,	NN	O	O
-Chawla	NN	O	O
-and	NN	O	O
-Laursen	NN	O	O
-[	NN	O	O
-47	NN	O	O
-]	NN	O	O
-proposed	NN	O	O
-an	NN	O	O
-energy	NN	O	B-Process
-and	NN	O	I-Process
-momentum	NN	O	I-Process
-conserving	NN	O	I-Process
-algorithm	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-makes	NN	O	O
-use	NN	O	O
-of	NN	O	O
-Lagrange	NN	O	O
-multipliers	NN	O	O
-instead	NN	O	O
-of	NN	O	O
-penalty	NN	O	O
-parameters	NN	O	O
-.	NN	O	O
+Energy	0	6	B-Process
+conservation	7	19	I-Process
+is	20	22	O
+critical	23	31	O
+to	32	34	O
+ensure	35	41	O
+stability	42	51	O
+of	52	54	O
+a	55	56	O
+numerical	57	66	O
+method	67	73	O
+,	73	74	O
+especially	75	85	O
+for	86	89	O
+contact	90	97	B-Task
+and	98	101	I-Task
+collision	102	111	I-Task
+problems	112	120	I-Task
+
+[	122	123	O
+28,43	123	128	O
+]	128	129	O
+.	129	130	O
+
+A	131	132	O
+number	133	139	O
+of	140	142	O
+conserving	143	153	O
+schemes	154	161	O
+have	162	166	O
+been	167	171	O
+developed	172	181	O
+to	182	184	O
+ensure	185	191	O
+energy	192	198	B-Task
+conservation	199	211	I-Task
+.	211	212	O
+
+These	213	218	O
+schemes	219	226	O
+make	227	231	O
+use	232	235	O
+of	236	238	O
+the	239	242	O
+penalty	243	250	B-Process
+regulation	251	261	I-Process
+of	262	264	O
+normal	265	271	O
+contact	272	279	O
+constraint	280	290	O
+and	291	294	O
+inherit	295	302	O
+the	303	306	O
+conservation	307	319	O
+property	320	328	O
+from	329	333	O
+continuum	334	343	B-Task
+problems	344	352	I-Task
+.	352	353	O
+
+These	354	359	O
+conservation	360	372	B-Process
+schemes	373	380	I-Process
+can	381	384	O
+conveniently	385	397	O
+be	398	400	O
+combined	401	409	O
+with	410	414	O
+the	415	418	O
+finite	419	425	B-Process
+element	426	433	I-Process
+method	434	440	I-Process
+to	441	443	O
+simulate	444	452	B-Task
+frictionless	453	465	I-Task
+[	467	468	I-Task
+44	468	470	I-Task
+]	470	471	I-Task
+and	472	475	I-Task
+frictional	476	486	I-Task
+[	488	489	I-Task
+43	489	491	I-Task
+]	491	492	I-Task
+contact	493	500	I-Task
+and	501	504	I-Task
+collision	505	514	I-Task
+.	514	515	O
+
+Hesch	516	521	O
+and	522	525	O
+Betsch	526	532	O
+
+[	534	535	O
+45	535	537	O
+]	537	538	O
+formulated	539	549	O
+the	550	553	O
+node	554	558	B-Process
+-	558	559	I-Process
+to	559	561	I-Process
+-	561	562	I-Process
+segment	562	569	I-Process
+contact	570	577	I-Process
+method	578	584	I-Process
+and	585	588	O
+solved	589	595	O
+large	596	601	B-Task
+deformation	602	613	I-Task
+contact	614	621	I-Task
+problems	622	630	I-Task
+with	631	635	O
+the	636	639	O
+conserving	640	650	B-Process
+scheme	651	657	I-Process
+.	657	658	O
+
+More	659	663	O
+recently	664	672	O
+,	672	673	O
+an	674	676	O
+energy	677	683	B-Process
+and	684	687	I-Process
+momentum	688	696	I-Process
+-	696	697	I-Process
+conserving	697	707	I-Process
+temporal	708	716	I-Process
+discretization	717	731	I-Process
+scheme	732	738	I-Process
+[	740	741	O
+46	741	743	O
+]	743	744	O
+was	745	748	O
+developed	749	758	O
+for	759	762	O
+adhesive	763	771	B-Task
+contact	772	779	I-Task
+problems	780	788	I-Task
+without	789	796	O
+considering	797	808	O
+friction	809	817	B-Process
+and	818	821	O
+dissipation	822	833	B-Process
+.	833	834	O
+
+Even	835	839	O
+though	840	846	O
+the	847	850	O
+conserving	851	861	B-Process
+scheme	862	868	I-Process
+improves	869	877	O
+numerical	878	887	O
+stability	888	897	O
+,	897	898	O
+it	899	901	O
+also	902	906	O
+inherits	907	915	O
+from	916	920	O
+the	921	924	O
+penalty	925	932	O
+method	933	939	O
+the	940	943	O
+difficulty	944	954	O
+of	955	957	O
+having	958	964	O
+to	965	967	O
+determine	968	977	O
+penalty	978	985	O
+parameters	986	996	O
+.	996	997	O
+
+In	998	1000	O
+order	1001	1006	O
+to	1007	1009	O
+remove	1010	1016	O
+penalty	1017	1024	O
+sensitivity	1025	1036	O
+,	1036	1037	O
+Chawla	1038	1044	O
+and	1045	1048	O
+Laursen	1049	1056	O
+[	1058	1059	O
+47	1059	1061	O
+]	1061	1062	O
+proposed	1063	1071	O
+an	1072	1074	O
+energy	1075	1081	B-Process
+and	1082	1085	I-Process
+momentum	1086	1094	I-Process
+conserving	1095	1105	I-Process
+algorithm	1106	1115	I-Process
+,	1115	1116	O
+which	1117	1122	O
+makes	1123	1128	O
+use	1129	1132	O
+of	1133	1135	O
+Lagrange	1136	1144	O
+multipliers	1145	1156	O
+instead	1157	1164	O
+of	1165	1167	O
+penalty	1168	1175	O
+parameters	1176	1186	O
+.	1186	1187	O
 
 
 -DOCSTART- (S004578251400334X)
 
-In	NN	O	O
-this	NN	O	O
-article	NN	O	O
-we	NN	O	O
-propose	NN	O	O
-a	NN	O	O
-method	NN	O	O
-which	NN	O	O
-adopts	NN	O	O
-a	NN	O	O
-different	NN	O	O
-approach	NN	O	O
-to	NN	O	O
-the	NN	O	O
-generation	NN	O	B-Process
-procedure	NN	O	I-Process
-outlined	NN	O	O
-above	NN	O	O
-and	NN	O	O
-that	NN	O	O
-helps	NN	O	O
-to	NN	O	O
-address	NN	O	O
-the	NN	O	O
-problem	NN	O	O
-of	NN	O	O
-generating	NN	O	B-Task
-high	NN	O	I-Task
--	NN	O	I-Task
-order	NN	O	I-Task
-meshes	NN	O	I-Task
-for	NN	O	I-Task
-high	NN	O	I-Task
-Reynolds	NN	O	I-Task
-number	NN	O	I-Task
-flows	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-method	NN	O	O
-is	NN	O	O
-conceptually	NN	O	O
-simple	NN	O	O
-,	NN	O	O
-cheap	NN	O	O
-to	NN	O	O
-implement	NN	O	O
-and	NN	O	O
-does	NN	O	O
-not	NN	O	O
-require	NN	O	O
-a	NN	O	O
-dense	NN	O	B-Material
-linear	NN	O	I-Material
-boundary	NN	O	I-Material
--	NN	O	I-Material
-layer	NN	O	I-Material
-mesh	NN	O	I-Material
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-an	NN	O	O
-isoparametric	NN	O	B-Process
-[	NN	O	I-Process
-17	NN	O	I-Process
-]	NN	O	I-Process
-or	NN	O	I-Process
-,	NN	O	I-Process
-in	NN	O	I-Process
-general	NN	O	I-Process
-,	NN	O	I-Process
-a	NN	O	I-Process
-transfinite	NN	O	I-Process
-interpolation	NN	O	I-Process
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-where	NN	O	O
-a	NN	O	O
-high	NN	O	B-Material
--	NN	O	I-Material
-order	NN	O	I-Material
-coarse	NN	O	I-Material
-boundary	NN	O	I-Material
--	NN	O	I-Material
-layer	NN	O	I-Material
-prismatic	NN	O	I-Material
-mesh	NN	O	I-Material
-is	NN	O	O
-subdivided	NN	O	B-Process
-into	NN	O	I-Process
-either	NN	O	I-Process
-prisms	NN	O	I-Process
-or	NN	O	I-Process
-tetrahedra	NN	O	I-Process
-using	NN	O	O
-the	NN	O	O
-mapping	NN	O	O
-that	NN	O	O
-defines	NN	O	O
-the	NN	O	O
-coarse	NN	O	B-Material
-high	NN	O	I-Material
--	NN	O	I-Material
-order	NN	O	I-Material
-prisms	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-procedure	NN	O	O
-is	NN	O	O
-also	NN	O	O
-very	NN	O	O
-versatile	NN	O	O
-as	NN	O	O
-it	NN	O	O
-permits	NN	O	O
-meshes	NN	O	B-Material
-with	NN	O	O
-different	NN	O	O
-distributions	NN	O	O
-of	NN	O	O
-y+	NN	O	O
-to	NN	O	O
-be	NN	O	O
-generated	NN	O	O
-with	NN	O	O
-ease	NN	O	O
-and	NN	O	O
-furthermore	NN	O	O
-,	NN	O	O
-the	NN	O	O
-validity	NN	O	O
-of	NN	O	O
-these	NN	O	O
-meshes	NN	O	B-Material
-is	NN	O	O
-guaranteed	NN	O	O
-if	NN	O	O
-the	NN	O	O
-initial	NN	O	B-Material
-mesh	NN	O	I-Material
-is	NN	O	O
-valid	NN	O	O
-and	NN	O	O
-the	NN	O	O
-polynomial	NN	O	B-Material
-space	NN	O	I-Material
-is	NN	O	O
-chosen	NN	O	O
-appropriately	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+article	8	15	O
+we	16	18	O
+propose	19	26	O
+a	27	28	O
+method	29	35	O
+which	36	41	O
+adopts	42	48	O
+a	49	50	O
+different	51	60	O
+approach	61	69	O
+to	70	72	O
+the	73	76	O
+generation	77	87	B-Process
+procedure	88	97	I-Process
+outlined	98	106	O
+above	107	112	O
+and	113	116	O
+that	117	121	O
+helps	122	127	O
+to	128	130	O
+address	131	138	O
+the	139	142	O
+problem	143	150	O
+of	151	153	O
+generating	154	164	B-Task
+high	165	169	I-Task
+-	169	170	I-Task
+order	170	175	I-Task
+meshes	176	182	I-Task
+for	183	186	I-Task
+high	187	191	I-Task
+Reynolds	192	200	I-Task
+number	201	207	I-Task
+flows	208	213	I-Task
+.	213	214	O
+
+The	215	218	O
+method	219	225	O
+is	226	228	O
+conceptually	229	241	O
+simple	242	248	O
+,	248	249	O
+cheap	250	255	O
+to	256	258	O
+implement	259	268	O
+and	269	272	O
+does	273	277	O
+not	278	281	O
+require	282	289	O
+a	290	291	O
+dense	292	297	B-Material
+linear	298	304	I-Material
+boundary	305	313	I-Material
+-	313	314	I-Material
+layer	314	319	I-Material
+mesh	320	324	I-Material
+.	324	325	O
+
+It	326	328	O
+is	329	331	O
+based	332	337	O
+on	338	340	O
+the	341	344	O
+use	345	348	O
+of	349	351	O
+an	352	354	O
+isoparametric	355	368	B-Process
+[	369	370	I-Process
+17	370	372	I-Process
+]	372	373	I-Process
+or	374	376	I-Process
+,	376	377	I-Process
+in	378	380	I-Process
+general	381	388	I-Process
+,	388	389	I-Process
+a	390	391	I-Process
+transfinite	392	403	I-Process
+interpolation	404	417	I-Process
+[	418	419	O
+18	419	421	O
+]	421	422	O
+where	423	428	O
+a	429	430	O
+high	431	435	B-Material
+-	435	436	I-Material
+order	436	441	I-Material
+coarse	442	448	I-Material
+boundary	449	457	I-Material
+-	457	458	I-Material
+layer	458	463	I-Material
+prismatic	464	473	I-Material
+mesh	474	478	I-Material
+is	479	481	O
+subdivided	482	492	B-Process
+into	493	497	I-Process
+either	498	504	I-Process
+prisms	505	511	I-Process
+or	512	514	I-Process
+tetrahedra	515	525	I-Process
+using	526	531	O
+the	532	535	O
+mapping	536	543	O
+that	544	548	O
+defines	549	556	O
+the	557	560	O
+coarse	561	567	B-Material
+high	568	572	I-Material
+-	572	573	I-Material
+order	573	578	I-Material
+prisms	579	585	I-Material
+.	585	586	O
+
+The	587	590	O
+procedure	591	600	O
+is	601	603	O
+also	604	608	O
+very	609	613	O
+versatile	614	623	O
+as	624	626	O
+it	627	629	O
+permits	630	637	O
+meshes	638	644	B-Material
+with	645	649	O
+different	650	659	O
+distributions	660	673	O
+of	674	676	O
+y+	677	679	O
+to	680	682	O
+be	683	685	O
+generated	686	695	O
+with	696	700	O
+ease	701	705	O
+and	706	709	O
+furthermore	710	721	O
+,	721	722	O
+the	723	726	O
+validity	727	735	O
+of	736	738	O
+these	739	744	O
+meshes	745	751	B-Material
+is	752	754	O
+guaranteed	755	765	O
+if	766	768	O
+the	769	772	O
+initial	773	780	B-Material
+mesh	781	785	I-Material
+is	786	788	O
+valid	789	794	O
+and	795	798	O
+the	799	802	O
+polynomial	803	813	B-Material
+space	814	819	I-Material
+is	820	822	O
+chosen	823	829	O
+appropriately	830	843	O
+.	843	844	O
 
 
 -DOCSTART- (S0045782514004812)
 
-We	NN	O	O
-shall	NN	O	O
-establish	NN	O	O
-the	NN	O	O
-variational	NN	O	B-Material
-format	NN	O	I-Material
-in	NN	O	I-Material
-the	NN	O	I-Material
-space	NN	O	I-Material
-–	NN	O	I-Material
-time	NN	O	I-Material
-domain	NN	O	I-Material
-S	NN	O	B-Material
-=	NN	O	I-Material
-defΩ×I	NN	O	I-Material
-,	NN	O	O
-for	NN	O	O
-given	NN	O	O
-spatial	NN	O	B-Material
-domain	NN	O	I-Material
-Ω	NN	O	I-Material
-and	NN	O	O
-time	NN	O	B-Material
-domain	NN	O	I-Material
-I=(0,T	NN	O	I-Material
-)	NN	O	I-Material
-,	NN	O	O
-for	NN	O	O
-a	NN	O	O
-quite	NN	O	O
-broad	NN	O	O
-class	NN	O	O
-of	NN	O	O
-problems	NN	O	O
-involving	NN	O	O
-a	NN	O	O
-first	NN	O	B-Task
-order	NN	O	I-Task
-time	NN	O	I-Task
--	NN	O	I-Task
-derivative	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-the	NN	O	O
-coupled	NN	O	B-Task
-problem	NN	O	I-Task
-of	NN	O	I-Task
-consolidation	NN	O	I-Task
-of	NN	O	I-Task
-geomaterials	NN	O	I-Task
-falls	NN	O	O
-within	NN	O	O
-this	NN	O	O
-class	NN	O	O
-.	NN	O	O
-
-Another	NN	O	O
-interesting	NN	O	O
-application	NN	O	O
-is	NN	O	O
-the	NN	O	O
-problem	NN	O	B-Task
-of	NN	O	I-Task
-dynamics	NN	O	I-Task
-,	NN	O	I-Task
-rewritten	NN	O	I-Task
-in	NN	O	I-Task
-first	NN	O	I-Task
--	NN	O	I-Task
-order	NN	O	I-Task
-form	NN	O	I-Task
-,	NN	O	O
-i.e.	NN	O	O
-through	NN	O	O
-a	NN	O	O
-Hamiltonian	NN	O	B-Task
-description	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-of	NN	O	O
-considerable	NN	O	O
-interest	NN	O	O
-to	NN	O	O
-note	NN	O	O
-from	NN	O	O
-the	NN	O	O
-outset	NN	O	O
-that	NN	O	O
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-forward	NN	O	O
-transport	NN	O	O
-of	NN	O	O
-information	NN	O	O
-in	NN	O	O
-time	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-always	NN	O	O
-possible	NN	O	O
-to	NN	O	O
-consider	NN	O	O
-a	NN	O	O
-set	NN	O	O
-of	NN	O	O
-finite	NN	O	O
-time	NN	O	O
-intervals	NN	O	O
-,	NN	O	O
-whereby	NN	O	O
-the	NN	O	O
-solution	NN	O	O
-at	NN	O	O
-the	NN	O	O
-end	NN	O	O
-of	NN	O	O
-any	NN	O	O
-such	NN	O	O
-interval	NN	O	O
-will	NN	O	O
-act	NN	O	O
-as	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-data	NN	O	O
-for	NN	O	O
-the	NN	O	O
-next	NN	O	O
-one	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-this	NN	O	O
-end	NN	O	O
-,	NN	O	O
-we	NN	O	O
-introduce	NN	O	O
-a	NN	O	O
-partition	NN	O	O
-0=t0<t1<⋯<tN	NN	O	O
-
-=	NN	O	O
-T	NN	O	O
-of	NN	O	O
-the	NN	O	O
-considered	NN	O	O
-time	NN	O	O
-domain	NN	O	O
-I=(0,T	NN	O	O
-)	NN	O	O
-into	NN	O	O
-time	NN	O	O
--	NN	O	O
-intervals	NN	O	O
-In=(tn−1,tn	NN	O	O
-)	NN	O	O
-of	NN	O	O
-length	NN	O	O
-Δtn	NN	O	O
-
-=	NN	O	O
-tn−tn−1.11The	NN	O	O
-abbreviated	NN	O	O
-notation	NN	O	O
-Δt=Δtn	NN	O	O
-will	NN	O	O
-be	NN	O	O
-used	NN	O	O
-henceforth	NN	O	O
-for	NN	O	O
-the	NN	O	O
-current	NN	O	O
-time	NN	O	O
-step	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-In	NN	O	O
-.	NN	O	O
-
-Hence	NN	O	O
-,	NN	O	O
-we	NN	O	O
-define	NN	O	O
-
-space	NN	O	B-Material
-–	NN	O	I-Material
-time	NN	O	I-Material
-slabs	NN	O	I-Material
-Sn	NN	O	O
-
-=	NN	O	O
-defΩ×In	NN	O	O
-such	NN	O	O
-
-that	NN	O	O
-the	NN	O	O
-space	NN	O	O
-–	NN	O	O
-
-time	NN	O	O
-domain	NN	O	O
-can	NN	O	O
-be	NN	O	O
-given	NN	O	O
-as	NN	O	O
-S	NN	O	B-Material
-=	NN	O	I-Material
-defΩ×I	NN	O	I-Material
-=	NN	O	I-Material
-S1∪S2⋯∪Sn	NN	O	I-Material
-.	NN	O	O
+We	0	2	O
+shall	3	8	O
+establish	9	18	O
+the	19	22	O
+variational	23	34	B-Material
+format	35	41	I-Material
+in	42	44	I-Material
+the	45	48	I-Material
+space	49	54	I-Material
+–	54	55	I-Material
+time	55	59	I-Material
+domain	60	66	I-Material
+S	67	68	B-Material
+=	68	69	I-Material
+defΩ×I	69	75	I-Material
+,	75	76	O
+for	77	80	O
+given	81	86	O
+spatial	87	94	B-Material
+domain	95	101	I-Material
+Ω	102	103	I-Material
+and	104	107	O
+time	108	112	B-Material
+domain	113	119	I-Material
+I=(0,T	120	126	I-Material
+)	126	127	I-Material
+,	127	128	O
+for	129	132	O
+a	133	134	O
+quite	135	140	O
+broad	141	146	O
+class	147	152	O
+of	153	155	O
+problems	156	164	O
+involving	165	174	O
+a	175	176	O
+first	177	182	B-Task
+order	183	188	I-Task
+time	189	193	I-Task
+-	193	194	I-Task
+derivative	194	204	I-Task
+.	204	205	O
+
+In	206	208	O
+particular	209	219	O
+,	219	220	O
+the	221	224	O
+coupled	225	232	B-Task
+problem	233	240	I-Task
+of	241	243	I-Task
+consolidation	244	257	I-Task
+of	258	260	I-Task
+geomaterials	261	273	I-Task
+falls	274	279	O
+within	280	286	O
+this	287	291	O
+class	292	297	O
+.	297	298	O
+
+Another	299	306	O
+interesting	307	318	O
+application	319	330	O
+is	331	333	O
+the	334	337	O
+problem	338	345	B-Task
+of	346	348	I-Task
+dynamics	349	357	I-Task
+,	357	358	I-Task
+rewritten	359	368	I-Task
+in	369	371	I-Task
+first	372	377	I-Task
+-	377	378	I-Task
+order	378	383	I-Task
+form	384	388	I-Task
+,	388	389	O
+i.e.	390	394	O
+through	395	402	O
+a	403	404	O
+Hamiltonian	405	416	B-Task
+description	417	428	I-Task
+.	428	429	O
+
+It	430	432	O
+is	433	435	O
+of	436	438	O
+considerable	439	451	O
+interest	452	460	O
+to	461	463	O
+note	464	468	O
+from	469	473	O
+the	474	477	O
+outset	478	484	O
+that	485	489	O
+,	489	490	O
+due	491	494	O
+to	495	497	O
+the	498	501	O
+forward	502	509	O
+transport	510	519	O
+of	520	522	O
+information	523	534	O
+in	535	537	O
+time	538	542	O
+,	542	543	O
+it	544	546	O
+is	547	549	O
+always	550	556	O
+possible	557	565	O
+to	566	568	O
+consider	569	577	O
+a	578	579	O
+set	580	583	O
+of	584	586	O
+finite	587	593	O
+time	594	598	O
+intervals	599	608	O
+,	608	609	O
+whereby	610	617	O
+the	618	621	O
+solution	622	630	O
+at	631	633	O
+the	634	637	O
+end	638	641	O
+of	642	644	O
+any	645	648	O
+such	649	653	O
+interval	654	662	O
+will	663	667	O
+act	668	671	O
+as	672	674	O
+the	675	678	O
+initial	679	686	O
+data	687	691	O
+for	692	695	O
+the	696	699	O
+next	700	704	O
+one	705	708	O
+.	708	709	O
+
+To	710	712	O
+this	713	717	O
+end	718	721	O
+,	721	722	O
+we	723	725	O
+introduce	726	735	O
+a	736	737	O
+partition	738	747	O
+0=t0<t1<⋯<tN	748	760	O
+
+=	760	761	O
+T	761	762	O
+of	763	765	O
+the	766	769	O
+considered	770	780	O
+time	781	785	O
+domain	786	792	O
+I=(0,T	793	799	O
+)	799	800	O
+into	801	805	O
+time	806	810	O
+-	810	811	O
+intervals	811	820	O
+In=(tn−1,tn	821	832	O
+)	832	833	O
+of	834	836	O
+length	837	843	O
+Δtn	844	847	O
+
+=	847	848	O
+tn−tn−1.11The	848	861	O
+abbreviated	862	873	O
+notation	874	882	O
+Δt=Δtn	883	889	O
+will	890	894	O
+be	895	897	O
+used	898	902	O
+henceforth	903	913	O
+for	914	917	O
+the	918	921	O
+current	922	929	O
+time	930	934	O
+step	935	939	O
+associated	940	950	O
+with	951	955	O
+In	956	958	O
+.	958	959	O
+
+Hence	960	965	O
+,	965	966	O
+we	967	969	O
+define	970	976	O
+
+space	977	982	B-Material
+–	982	983	I-Material
+time	983	987	I-Material
+slabs	988	993	I-Material
+Sn	994	996	O
+
+=	996	997	O
+defΩ×In	997	1004	O
+such	1005	1009	O
+
+that	1010	1014	O
+the	1015	1018	O
+space	1019	1024	O
+–	1024	1025	O
+
+time	1025	1029	O
+domain	1030	1036	O
+can	1037	1040	O
+be	1041	1043	O
+given	1044	1049	O
+as	1050	1052	O
+S	1053	1054	B-Material
+=	1054	1055	I-Material
+defΩ×I	1055	1061	I-Material
+=	1061	1062	I-Material
+S1∪S2⋯∪Sn	1062	1071	I-Material
+.	1071	1072	O
 
 
 -DOCSTART- (S0045782515001231)
 
-Isogeometric	NN	O	B-Task
-analysis	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-central	NN	O	O
-idea	NN	O	O
-of	NN	O	O
-isogeometric	NN	O	B-Task
-analysis	NN	O	I-Task
-is	NN	O	O
-to	NN	O	O
-use	NN	O	O
-the	NN	O	O
-same	NN	O	O
-ansatz	NN	O	B-Process
-functions	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-discretization	NN	O	O
-of	NN	O	O
-the	NN	O	O
-partial	NN	O	O
-differential	NN	O	O
-equation	NN	O	O
-at	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-as	NN	O	O
-are	NN	O	O
-used	NN	O	O
-for	NN	O	O
-the	NN	O	O
-representation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-problem	NN	O	B-Task
-geometry	NN	O	I-Task
-.	NN	O	O
-
-Usually	NN	O	O
-,	NN	O	O
-the	NN	O	O
-problem	NN	O	B-Process
-geometry	NN	O	I-Process
-Ω	NN	O	O
-is	NN	O	O
-represented	NN	O	O
-in	NN	O	O
-computer	NN	O	B-Process
-aided	NN	O	I-Process
-design	NN	O	I-Process
-(	NN	O	O
-CAD	NN	O	B-Process
-)	NN	O	O
-by	NN	O	O
-means	NN	O	O
-of	NN	O	O
-NURBS	NN	O	B-Material
-or	NN	O	O
-T	NN	O	B-Material
--	NN	O	I-Material
-splines	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-concept	NN	O	O
-,	NN	O	O
-originally	NN	O	O
-invented	NN	O	O
-in	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-for	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-methods	NN	O	I-Process
-(	NN	O	O
-IGAFEM	NN	O	B-Process
-)	NN	O	O
-has	NN	O	O
-proved	NN	O	O
-very	NN	O	O
-fruitful	NN	O	O
-in	NN	O	O
-applications	NN	O	O
-[	NN	O	O
-1,2	NN	O	O
-]	NN	O	O
-;	NN	O	O
-see	NN	O	O
-also	NN	O	O
-the	NN	O	O
-monograph	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Since	NN	O	O
-CAD	NN	O	B-Process
-directly	NN	O	O
-provides	NN	O	O
-a	NN	O	O
-parametrization	NN	O	O
-of	NN	O	O
-the	NN	O	O
-boundary	NN	O	O
-∂Ω	NN	O	O
-,	NN	O	O
-this	NN	O	O
-makes	NN	O	O
-the	NN	O	O
-boundary	NN	O	B-Process
-element	NN	O	I-Process
-method	NN	O	I-Process
-(	NN	O	O
-BEM	NN	O	B-Process
-)	NN	O	O
-the	NN	O	O
-most	NN	O	O
-attractive	NN	O	O
-numerical	NN	O	B-Process
-scheme	NN	O	I-Process
-,	NN	O	O
-if	NN	O	O
-applicable	NN	O	O
-(	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-provided	NN	O	O
-that	NN	O	O
-the	NN	O	O
-fundamental	NN	O	O
-solution	NN	O	O
-of	NN	O	O
-the	NN	O	O
-differential	NN	O	O
-operator	NN	O	O
-is	NN	O	O
-explicitly	NN	O	O
-known	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Isogeometric	NN	O	B-Process
-BEM	NN	O	I-Process
-(	NN	O	O
-IGABEM	NN	O	B-Process
-)	NN	O	O
-has	NN	O	O
-first	NN	O	O
-been	NN	O	O
-considered	NN	O	O
-for	NN	O	O
-2D	NN	O	B-Process
-BEM	NN	O	I-Process
-in	NN	O	O
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-and	NN	O	O
-for	NN	O	O
-3D	NN	O	B-Process
-BEM	NN	O	I-Process
-in	NN	O	O
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Unlike	NN	O	O
-standard	NN	O	B-Process
-BEM	NN	O	I-Process
-with	NN	O	O
-piecewise	NN	O	O
-polynomials	NN	O	O
-which	NN	O	O
-is	NN	O	O
-well	NN	O	O
--	NN	O	O
-studied	NN	O	O
-in	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-,	NN	O	O
-cf	NN	O	O
-.	NN	O	O
-
-the	NN	O	O
-monographs	NN	O	O
-[	NN	O	O
-6,7	NN	O	O
-]	NN	O	O
-and	NN	O	O
-the	NN	O	O
-references	NN	O	O
-therein	NN	O	O
-,	NN	O	O
-the	NN	O	O
-numerical	NN	O	B-Task
-analysis	NN	O	I-Task
-of	NN	O	I-Task
-IGABEM	NN	O	I-Task
-is	NN	O	O
-essentially	NN	O	O
-open	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-only	NN	O	O
-refer	NN	O	O
-to	NN	O	O
-
-[	NN	O	O
-2,8–10	NN	O	O
-]	NN	O	O
-for	NN	O	O
-numerical	NN	O	O
-experiments	NN	O	O
-and	NN	O	O
-to	NN	O	O
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-for	NN	O	O
-some	NN	O	O
-quadrature	NN	O	B-Task
-analysis	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-a	NN	O	B-Process
-posteriori	NN	O	I-Process
-error	NN	O	I-Process
-estimation	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-well	NN	O	O
--	NN	O	O
-studied	NN	O	O
-for	NN	O	O
-standard	NN	O	B-Process
-BEM	NN	O	I-Process
-,	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-[	NN	O	O
-12–18	NN	O	O
-]	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-the	NN	O	O
-recent	NN	O	O
-overview	NN	O	O
-article	NN	O	O
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-,	NN	O	O
-but	NN	O	O
-has	NN	O	O
-not	NN	O	O
-been	NN	O	O
-treated	NN	O	O
-for	NN	O	O
-IGABEM	NN	O	B-Process
-so	NN	O	O
-far	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-purpose	NN	O	O
-of	NN	O	O
-the	NN	O	O
-present	NN	O	O
-work	NN	O	O
-is	NN	O	O
-to	NN	O	O
-shed	NN	O	B-Task
-some	NN	O	I-Task
-first	NN	O	I-Task
-light	NN	O	I-Task
-on	NN	O	I-Task
-a	NN	O	I-Task
-posteriori	NN	O	I-Task
-error	NN	O	I-Task
-analysis	NN	O	I-Task
-for	NN	O	I-Task
-IGABEM	NN	O	I-Task
-which	NN	O	O
-provides	NN	O	O
-some	NN	O	O
-mathematical	NN	O	B-Task
-foundation	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-corresponding	NN	O	I-Task
-adaptive	NN	O	I-Task
-algorithm	NN	O	I-Task
-.	NN	O	O
+Isogeometric	0	12	B-Task
+analysis	13	21	I-Task
+.	21	22	O
+
+The	23	26	O
+central	27	34	O
+idea	35	39	O
+of	40	42	O
+isogeometric	43	55	B-Task
+analysis	56	64	I-Task
+is	65	67	O
+to	68	70	O
+use	71	74	O
+the	75	78	O
+same	79	83	O
+ansatz	84	90	B-Process
+functions	91	100	I-Process
+for	101	104	O
+the	105	108	O
+discretization	109	123	O
+of	124	126	O
+the	127	130	O
+partial	131	138	O
+differential	139	151	O
+equation	152	160	O
+at	161	163	O
+hand	164	168	O
+,	168	169	O
+as	170	172	O
+are	173	176	O
+used	177	181	O
+for	182	185	O
+the	186	189	O
+representation	190	204	O
+of	205	207	O
+the	208	211	O
+problem	212	219	B-Task
+geometry	220	228	I-Task
+.	228	229	O
+
+Usually	230	237	O
+,	237	238	O
+the	239	242	O
+problem	243	250	B-Process
+geometry	251	259	I-Process
+Ω	260	261	O
+is	262	264	O
+represented	265	276	O
+in	277	279	O
+computer	280	288	B-Process
+aided	289	294	I-Process
+design	295	301	I-Process
+(	302	303	O
+CAD	303	306	B-Process
+)	306	307	O
+by	308	310	O
+means	311	316	O
+of	317	319	O
+NURBS	320	325	B-Material
+or	326	328	O
+T	329	330	B-Material
+-	330	331	I-Material
+splines	331	338	I-Material
+.	338	339	O
+
+This	340	344	O
+concept	345	352	O
+,	352	353	O
+originally	354	364	O
+invented	365	373	O
+in	374	376	O
+[	378	379	O
+1	379	380	O
+]	380	381	O
+for	382	385	O
+finite	386	392	B-Process
+element	393	400	I-Process
+methods	401	408	I-Process
+(	409	410	O
+IGAFEM	410	416	B-Process
+)	416	417	O
+has	418	421	O
+proved	422	428	O
+very	429	433	O
+fruitful	434	442	O
+in	443	445	O
+applications	446	458	O
+[	460	461	O
+1,2	461	464	O
+]	464	465	O
+;	465	466	O
+see	467	470	O
+also	471	475	O
+the	476	479	O
+monograph	480	489	O
+[	491	492	O
+3	492	493	O
+]	493	494	O
+.	494	495	O
+
+Since	496	501	O
+CAD	502	505	B-Process
+directly	506	514	O
+provides	515	523	O
+a	524	525	O
+parametrization	526	541	O
+of	542	544	O
+the	545	548	O
+boundary	549	557	O
+∂Ω	558	560	O
+,	560	561	O
+this	562	566	O
+makes	567	572	O
+the	573	576	O
+boundary	577	585	B-Process
+element	586	593	I-Process
+method	594	600	I-Process
+(	601	602	O
+BEM	602	605	B-Process
+)	605	606	O
+the	607	610	O
+most	611	615	O
+attractive	616	626	O
+numerical	627	636	B-Process
+scheme	637	643	I-Process
+,	643	644	O
+if	645	647	O
+applicable	648	658	O
+(	659	660	O
+i.e.	660	664	O
+,	664	665	O
+provided	666	674	O
+that	675	679	O
+the	680	683	O
+fundamental	684	695	O
+solution	696	704	O
+of	705	707	O
+the	708	711	O
+differential	712	724	O
+operator	725	733	O
+is	734	736	O
+explicitly	737	747	O
+known	748	753	O
+)	753	754	O
+.	754	755	O
+
+Isogeometric	756	768	B-Process
+BEM	769	772	I-Process
+(	773	774	O
+IGABEM	774	780	B-Process
+)	780	781	O
+has	782	785	O
+first	786	791	O
+been	792	796	O
+considered	797	807	O
+for	808	811	O
+2D	812	814	B-Process
+BEM	815	818	I-Process
+in	819	821	O
+[	823	824	O
+4	824	825	O
+]	825	826	O
+and	827	830	O
+for	831	834	O
+3D	835	837	B-Process
+BEM	838	841	I-Process
+in	842	844	O
+[	846	847	O
+5	847	848	O
+]	848	849	O
+.	849	850	O
+
+Unlike	851	857	O
+standard	858	866	B-Process
+BEM	867	870	I-Process
+with	871	875	O
+piecewise	876	885	O
+polynomials	886	897	O
+which	898	903	O
+is	904	906	O
+well	907	911	O
+-	911	912	O
+studied	912	919	O
+in	920	922	O
+the	923	926	O
+literature	927	937	O
+,	937	938	O
+cf	939	941	O
+.	941	942	O
+
+the	943	946	O
+monographs	947	957	O
+[	959	960	O
+6,7	960	963	O
+]	963	964	O
+and	965	968	O
+the	969	972	O
+references	973	983	O
+therein	984	991	O
+,	991	992	O
+the	993	996	O
+numerical	997	1006	B-Task
+analysis	1007	1015	I-Task
+of	1016	1018	I-Task
+IGABEM	1019	1025	I-Task
+is	1026	1028	O
+essentially	1029	1040	O
+open	1041	1045	O
+.	1045	1046	O
+
+We	1047	1049	O
+only	1050	1054	O
+refer	1055	1060	O
+to	1061	1063	O
+
+[	1065	1066	O
+2,8–10	1066	1072	O
+]	1072	1073	O
+for	1074	1077	O
+numerical	1078	1087	O
+experiments	1088	1099	O
+and	1100	1103	O
+to	1104	1106	O
+[	1108	1109	O
+11	1109	1111	O
+]	1111	1112	O
+for	1113	1116	O
+some	1117	1121	O
+quadrature	1122	1132	B-Task
+analysis	1133	1141	I-Task
+.	1141	1142	O
+
+In	1143	1145	O
+particular	1146	1156	O
+,	1156	1157	O
+a	1158	1159	B-Process
+posteriori	1160	1170	I-Process
+error	1171	1176	I-Process
+estimation	1177	1187	I-Process
+has	1188	1191	O
+been	1192	1196	O
+well	1197	1201	O
+-	1201	1202	O
+studied	1202	1209	O
+for	1210	1213	O
+standard	1214	1222	B-Process
+BEM	1223	1226	I-Process
+,	1226	1227	O
+e.g.	1228	1232	O
+,	1232	1233	O
+[	1235	1236	O
+12–18	1236	1241	O
+]	1241	1242	O
+as	1243	1245	O
+well	1246	1250	O
+as	1251	1253	O
+the	1254	1257	O
+recent	1258	1264	O
+overview	1265	1273	O
+article	1274	1281	O
+[	1283	1284	O
+19	1284	1286	O
+]	1286	1287	O
+,	1287	1288	O
+but	1289	1292	O
+has	1293	1296	O
+not	1297	1300	O
+been	1301	1305	O
+treated	1306	1313	O
+for	1314	1317	O
+IGABEM	1318	1324	B-Process
+so	1325	1327	O
+far	1328	1331	O
+.	1331	1332	O
+
+The	1333	1336	O
+purpose	1337	1344	O
+of	1345	1347	O
+the	1348	1351	O
+present	1352	1359	O
+work	1360	1364	O
+is	1365	1367	O
+to	1368	1370	O
+shed	1371	1375	B-Task
+some	1376	1380	I-Task
+first	1381	1386	I-Task
+light	1387	1392	I-Task
+on	1393	1395	I-Task
+a	1396	1397	I-Task
+posteriori	1398	1408	I-Task
+error	1409	1414	I-Task
+analysis	1415	1423	I-Task
+for	1424	1427	I-Task
+IGABEM	1428	1434	I-Task
+which	1435	1440	O
+provides	1441	1449	O
+some	1450	1454	O
+mathematical	1455	1467	B-Task
+foundation	1468	1478	I-Task
+of	1479	1481	I-Task
+a	1482	1483	I-Task
+corresponding	1484	1497	I-Task
+adaptive	1498	1506	I-Task
+algorithm	1507	1516	I-Task
+.	1516	1517	O
 
 
 -DOCSTART- (S0045782515001899)
 
-In	NN	O	O
-recent	NN	O	O
-years	NN	O	O
-,	NN	O	O
-the	NN	O	O
-Discontinuous	NN	O	B-Process
-Galerkin	NN	O	I-Process
-(	NN	O	O
-DG	NN	O	B-Process
-)	NN	O	O
-method	NN	O	O
-has	NN	O	O
-emerged	NN	O	O
-as	NN	O	O
-a	NN	O	O
-more	NN	O	O
-thorough	NN	O	O
-alternative	NN	O	O
-for	NN	O	O
-locally	NN	O	O
-solving	NN	O	B-Task
-conservation	NN	O	I-Task
-laws	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-shallow	NN	O	I-Task
-water	NN	O	I-Task
-equations	NN	O	I-Task
-with	NN	O	O
-higher	NN	O	O
-accuracy	NN	O	O
-
-[	NN	O	O
-21–27	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-DG	NN	O	B-Process
-method	NN	O	I-Process
-further	NN	O	O
-involves	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-weak	NN	O	I-Process
-formulation	NN	O	I-Process
-to	NN	O	O
-–	NN	O	O
-inherently	NN	O	O
-from	NN	O	O
-conservation	NN	O	B-Process
-principles	NN	O	I-Process
-–	NN	O	O
-shape	NN	O	B-Task
-a	NN	O	I-Task
-piecewise	NN	O	I-Task
--	NN	O	I-Task
-polynomial	NN	O	I-Task
-solution	NN	O	I-Task
-over	NN	O	I-Task
-each	NN	O	I-Task
-local	NN	O	I-Task
-discrete	NN	O	I-Task
-cell	NN	O	I-Task
-,	NN	O	O
-via	NN	O	O
-local	NN	O	B-Process
-basis	NN	O	I-Process
-functions	NN	O	I-Process
-.	NN	O	O
-
-On	NN	O	O
-this	NN	O	O
-basis	NN	O	O
-,	NN	O	O
-the	NN	O	O
-DG	NN	O	B-Process
-polynomial	NN	O	I-Process
-accuracy	NN	O	I-Process
-is	NN	O	O
-spanned	NN	O	O
-by	NN	O	O
-a	NN	O	O
-set	NN	O	O
-of	NN	O	O
-coefficients	NN	O	O
-,	NN	O	O
-describing	NN	O	O
-accuracy	NN	O	O
-information	NN	O	O
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-all	NN	O	O
-locally	NN	O	O
-evolved	NN	O	O
-in	NN	O	O
-time	NN	O	O
-from	NN	O	O
-conservation	NN	O	B-Process
-principles	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-discrete	NN	O	O
-level	NN	O	O
-,	NN	O	O
-with	NN	O	O
-an	NN	O	O
-arbitrary	NN	O	O
-order	NN	O	O
-of	NN	O	O
-accuracy	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-DG	NN	O	B-Task
--	NN	O	I-Task
-based	NN	O	I-Task
-shallow	NN	O	I-Task
-water	NN	O	I-Task
-model	NN	O	I-Task
-appeals	NN	O	O
-in	NN	O	O
-providing	NN	O	O
-higher	NN	O	O
-quality	NN	O	O
-solutions	NN	O	O
-on	NN	O	O
-very	NN	O	B-Material
-coarse	NN	O	I-Material
-meshes	NN	O	I-Material
-than	NN	O	O
-a	NN	O	O
-traditional	NN	O	O
-finite	NN	O	O
-volume	NN	O	O
-counterpart	NN	O	O
-,	NN	O	O
-but	NN	O	O
-is	NN	O	O
-comparatively	NN	O	O
-expensive	NN	O	O
-to	NN	O	O
-run	NN	O	O
-and	NN	O	O
-imposes	NN	O	O
-a	NN	O	O
-more	NN	O	O
-restrictive	NN	O	O
-stability	NN	O	O
-condition	NN	O	O
-for	NN	O	O
-the	NN	O	O
-CFL	NN	O	B-Process
-number	NN	O	I-Process
-[	NN	O	O
-28,29	NN	O	O
-]	NN	O	O
-.	NN	O	O
+In	0	2	O
+recent	3	9	O
+years	10	15	O
+,	15	16	O
+the	17	20	O
+Discontinuous	21	34	B-Process
+Galerkin	35	43	I-Process
+(	44	45	O
+DG	45	47	B-Process
+)	47	48	O
+method	49	55	O
+has	56	59	O
+emerged	60	67	O
+as	68	70	O
+a	71	72	O
+more	73	77	O
+thorough	78	86	O
+alternative	87	98	O
+for	99	102	O
+locally	103	110	O
+solving	111	118	B-Task
+conservation	119	131	I-Task
+laws	132	136	I-Task
+of	137	139	I-Task
+the	140	143	I-Task
+shallow	144	151	I-Task
+water	152	157	I-Task
+equations	158	167	I-Task
+with	168	172	O
+higher	173	179	O
+accuracy	180	188	O
+
+[	190	191	O
+21–27	191	196	O
+]	196	197	O
+.	197	198	O
+
+The	199	202	O
+DG	203	205	B-Process
+method	206	212	I-Process
+further	213	220	O
+involves	221	229	O
+finite	230	236	B-Process
+element	237	244	I-Process
+weak	245	249	I-Process
+formulation	250	261	I-Process
+to	262	264	O
+–	264	265	O
+inherently	265	275	O
+from	276	280	O
+conservation	281	293	B-Process
+principles	294	304	I-Process
+–	304	305	O
+shape	305	310	B-Task
+a	311	312	I-Task
+piecewise	313	322	I-Task
+-	322	323	I-Task
+polynomial	323	333	I-Task
+solution	334	342	I-Task
+over	343	347	I-Task
+each	348	352	I-Task
+local	353	358	I-Task
+discrete	359	367	I-Task
+cell	368	372	I-Task
+,	372	373	O
+via	374	377	O
+local	378	383	B-Process
+basis	384	389	I-Process
+functions	390	399	I-Process
+.	399	400	O
+
+On	401	403	O
+this	404	408	O
+basis	409	414	O
+,	414	415	O
+the	416	419	O
+DG	420	422	B-Process
+polynomial	423	433	I-Process
+accuracy	434	442	I-Process
+is	443	445	O
+spanned	446	453	O
+by	454	456	O
+a	457	458	O
+set	459	462	O
+of	463	465	O
+coefficients	466	478	O
+,	478	479	O
+describing	480	490	O
+accuracy	491	499	O
+information	500	511	O
+,	511	512	O
+which	513	518	O
+are	519	522	O
+all	523	526	O
+locally	527	534	O
+evolved	535	542	O
+in	543	545	O
+time	546	550	O
+from	551	555	O
+conservation	556	568	B-Process
+principles	569	579	I-Process
+at	580	582	O
+the	583	586	O
+discrete	587	595	O
+level	596	601	O
+,	601	602	O
+with	603	607	O
+an	608	610	O
+arbitrary	611	620	O
+order	621	626	O
+of	627	629	O
+accuracy	630	638	O
+.	638	639	O
+
+A	640	641	O
+DG	642	644	B-Task
+-	644	645	I-Task
+based	645	650	I-Task
+shallow	651	658	I-Task
+water	659	664	I-Task
+model	665	670	I-Task
+appeals	671	678	O
+in	679	681	O
+providing	682	691	O
+higher	692	698	O
+quality	699	706	O
+solutions	707	716	O
+on	717	719	O
+very	720	724	B-Material
+coarse	725	731	I-Material
+meshes	732	738	I-Material
+than	739	743	O
+a	744	745	O
+traditional	746	757	O
+finite	758	764	O
+volume	765	771	O
+counterpart	772	783	O
+,	783	784	O
+but	785	788	O
+is	789	791	O
+comparatively	792	805	O
+expensive	806	815	O
+to	816	818	O
+run	819	822	O
+and	823	826	O
+imposes	827	834	O
+a	835	836	O
+more	837	841	O
+restrictive	842	853	O
+stability	854	863	O
+condition	864	873	O
+for	874	877	O
+the	878	881	O
+CFL	882	885	B-Process
+number	886	892	I-Process
+[	894	895	O
+28,29	895	900	O
+]	900	901	O
+.	901	902	O
 
 
 -DOCSTART- (S0045782515002418)
 
-FR	NN	O	B-Process
-schemes	NN	O	I-Process
-are	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-nodal	NN	O	B-Process
-DG	NN	O	I-Process
-schemes	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-arguably	NN	O	O
-the	NN	O	O
-most	NN	O	O
-popular	NN	O	O
-type	NN	O	O
-of	NN	O	O
-unstructured	NN	O	B-Process
-high	NN	O	I-Process
--	NN	O	I-Process
-order	NN	O	I-Process
-method	NN	O	I-Process
-(	NN	O	O
-at	NN	O	O
-least	NN	O	O
-in	NN	O	O
-the	NN	O	O
-field	NN	O	O
-of	NN	O	O
-computational	NN	O	B-Task
-aerodynamics	NN	O	I-Task
-)	NN	O	O
-.	NN	O	O
-
-Like	NN	O	O
-nodal	NN	O	B-Process
-DG	NN	O	I-Process
-schemes	NN	O	I-Process
-,	NN	O	O
-FR	NN	O	B-Process
-schemes	NN	O	I-Process
-utilise	NN	O	O
-a	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-order	NN	O	I-Process
-(	NN	O	O
-nodal	NN	O	B-Process
-)	NN	O	O
-polynomial	NN	O	O
-basis	NN	O	O
-to	NN	O	O
-approximate	NN	O	B-Process
-the	NN	O	I-Process
-solution	NN	O	I-Process
-within	NN	O	O
-each	NN	O	O
-element	NN	O	O
-of	NN	O	O
-the	NN	O	O
-computational	NN	O	B-Task
-domain	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-like	NN	O	O
-nodal	NN	O	B-Process
-DG	NN	O	I-Process
-schemes	NN	O	I-Process
-,	NN	O	O
-FR	NN	O	B-Process
-schemes	NN	O	I-Process
-do	NN	O	O
-not	NN	O	O
-explicitly	NN	O	O
-enforce	NN	O	B-Process
-inter	NN	O	I-Process
--	NN	O	I-Process
-element	NN	O	I-Process
-solution	NN	O	I-Process
-continuity	NN	O	I-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-unlike	NN	O	O
-nodal	NN	O	B-Process
-DG	NN	O	I-Process
-schemes	NN	O	I-Process
-,	NN	O	O
-FR	NN	O	B-Process
-methods	NN	O	I-Process
-are	NN	O	O
-based	NN	O	O
-solely	NN	O	O
-on	NN	O	O
-the	NN	O	O
-governing	NN	O	O
-system	NN	O	O
-in	NN	O	O
-a	NN	O	O
-differential	NN	O	O
-form	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-description	NN	O	O
-of	NN	O	O
-the	NN	O	O
-FR	NN	O	B-Process
-approach	NN	O	I-Process
-in	NN	O	O
-1D	NN	O	O
-is	NN	O	O
-presented	NN	O	O
-below	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-further	NN	O	O
-information	NN	O	O
-see	NN	O	O
-the	NN	O	O
-original	NN	O	O
-paper	NN	O	O
-of	NN	O	O
-Huynh	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-.	NN	O	O
+FR	0	2	B-Process
+schemes	3	10	I-Process
+are	11	14	O
+similar	15	22	O
+to	23	25	O
+nodal	26	31	B-Process
+DG	32	34	I-Process
+schemes	35	42	I-Process
+,	42	43	O
+which	44	49	O
+are	50	53	O
+arguably	54	62	O
+the	63	66	O
+most	67	71	O
+popular	72	79	O
+type	80	84	O
+of	85	87	O
+unstructured	88	100	B-Process
+high	101	105	I-Process
+-	105	106	I-Process
+order	106	111	I-Process
+method	112	118	I-Process
+(	119	120	O
+at	120	122	O
+least	123	128	O
+in	129	131	O
+the	132	135	O
+field	136	141	O
+of	142	144	O
+computational	145	158	B-Task
+aerodynamics	159	171	I-Task
+)	171	172	O
+.	172	173	O
+
+Like	174	178	O
+nodal	179	184	B-Process
+DG	185	187	I-Process
+schemes	188	195	I-Process
+,	195	196	O
+FR	197	199	B-Process
+schemes	200	207	I-Process
+utilise	208	215	O
+a	216	217	O
+high	218	222	B-Process
+-	222	223	I-Process
+order	223	228	I-Process
+(	229	230	O
+nodal	230	235	B-Process
+)	235	236	O
+polynomial	237	247	O
+basis	248	253	O
+to	254	256	O
+approximate	257	268	B-Process
+the	269	272	I-Process
+solution	273	281	I-Process
+within	282	288	O
+each	289	293	O
+element	294	301	O
+of	302	304	O
+the	305	308	O
+computational	309	322	B-Task
+domain	323	329	I-Task
+,	329	330	O
+and	331	334	O
+like	335	339	O
+nodal	340	345	B-Process
+DG	346	348	I-Process
+schemes	349	356	I-Process
+,	356	357	O
+FR	358	360	B-Process
+schemes	361	368	I-Process
+do	369	371	O
+not	372	375	O
+explicitly	376	386	O
+enforce	387	394	B-Process
+inter	395	400	I-Process
+-	400	401	I-Process
+element	401	408	I-Process
+solution	409	417	I-Process
+continuity	418	428	I-Process
+.	428	429	O
+
+However	430	437	O
+,	437	438	O
+unlike	439	445	O
+nodal	446	451	B-Process
+DG	452	454	I-Process
+schemes	455	462	I-Process
+,	462	463	O
+FR	464	466	B-Process
+methods	467	474	I-Process
+are	475	478	O
+based	479	484	O
+solely	485	491	O
+on	492	494	O
+the	495	498	O
+governing	499	508	O
+system	509	515	O
+in	516	518	O
+a	519	520	O
+differential	521	533	O
+form	534	538	O
+.	538	539	O
+
+A	540	541	O
+description	542	553	O
+of	554	556	O
+the	557	560	O
+FR	561	563	B-Process
+approach	564	572	I-Process
+in	573	575	O
+1D	576	578	O
+is	579	581	O
+presented	582	591	O
+below	592	597	O
+.	597	598	O
+
+For	599	602	O
+further	603	610	O
+information	611	622	O
+see	623	626	O
+the	627	630	O
+original	631	639	O
+paper	640	645	O
+of	646	648	O
+Huynh	649	654	O
+[	656	657	O
+2	657	658	O
+]	658	659	O
+.	659	660	O
 
 
 -DOCSTART- (S0045782515002686)
 
-The	NN	O	O
-immersed	NN	O	B-Process
-boundary	NN	O	I-Process
-method	NN	O	I-Process
-(	NN	O	O
-IBM	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-proposed	NN	O	O
-by	NN	O	O
-Peskin	NN	O	O
-for	NN	O	O
-studying	NN	O	B-Task
-flow	NN	O	I-Task
-patterns	NN	O	I-Task
-around	NN	O	I-Task
-heart	NN	O	I-Task
-valves	NN	O	I-Task
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-,	NN	O	O
-has	NN	O	O
-been	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-a	NN	O	O
-wide	NN	O	O
-range	NN	O	O
-of	NN	O	O
-problems	NN	O	O
-including	NN	O	O
-arterial	NN	O	B-Task
-blood	NN	O	I-Task
-flow	NN	O	I-Task
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-,	NN	O	O
-modelling	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-cochlea	NN	O	I-Task
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-,	NN	O	O
-modelling	NN	O	B-Task
-of	NN	O	I-Task
-red	NN	O	I-Task
-blood	NN	O	I-Task
-cells	NN	O	I-Task
-in	NN	O	I-Task
-Poiseuille	NN	O	I-Task
-flow	NN	O	I-Task
-
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-and	NN	O	O
-flows	NN	O	B-Task
-involving	NN	O	I-Task
-suspended	NN	O	I-Task
-particles	NN	O	I-Task
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-comprehensive	NN	O	O
-list	NN	O	O
-of	NN	O	O
-applications	NN	O	O
-can	NN	O	O
-be	NN	O	O
-found	NN	O	O
-in	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-IBM	NN	O	B-Process
-is	NN	O	O
-both	NN	O	O
-a	NN	O	O
-mathematical	NN	O	O
-formulation	NN	O	O
-and	NN	O	O
-a	NN	O	O
-numerical	NN	O	O
-scheme	NN	O	O
-for	NN	O	O
-fluid	NN	O	B-Task
-–	NN	O	I-Task
-structure	NN	O	I-Task
-interaction	NN	O	I-Task
-problems	NN	O	I-Task
-.	NN	O	O
-
-As	NN	O	O
-mentioned	NN	O	O
-above	NN	O	O
-,	NN	O	O
-in	NN	O	O
-a	NN	O	O
-classical	NN	O	O
-fluid	NN	O	B-Task
-–	NN	O	I-Task
-structure	NN	O	I-Task
-interaction	NN	O	I-Task
-problem	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-fluid	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-structure	NN	O	B-Material
-are	NN	O	O
-considered	NN	O	O
-separately	NN	O	O
-and	NN	O	O
-then	NN	O	O
-coupled	NN	O	B-Process
-together	NN	O	I-Process
-via	NN	O	O
-some	NN	O	O
-suitable	NN	O	O
-jump	NN	O	O
-conditions	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-IBM	NN	O	B-Process
-however	NN	O	O
-,	NN	O	O
-the	NN	O	O
-structure	NN	O	O
-–	NN	O	O
-which	NN	O	O
-is	NN	O	O
-usually	NN	O	O
-immersed	NN	O	O
-in	NN	O	O
-a	NN	O	O
-Newtonian	NN	O	B-Material
-fluid	NN	O	I-Material
-–	NN	O	O
-is	NN	O	O
-viewed	NN	O	O
-as	NN	O	O
-being	NN	O	O
-part	NN	O	O
-of	NN	O	O
-the	NN	O	O
-surrounding	NN	O	B-Material
-fluid	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-means	NN	O	O
-that	NN	O	O
-only	NN	O	O
-a	NN	O	O
-single	NN	O	O
-equation	NN	O	O
-of	NN	O	O
-motion	NN	O	B-Process
-needs	NN	O	O
-to	NN	O	O
-be	NN	O	O
-solved	NN	O	O
-(	NN	O	O
-i.e.	NN	O	O
-a	NN	O	O
-one	NN	O	O
--	NN	O	O
-phase	NN	O	O
-formulation	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Additionally	NN	O	O
-,	NN	O	O
-the	NN	O	O
-IBM	NN	O	B-Process
-allows	NN	O	O
-the	NN	O	O
-immersed	NN	O	O
-structure	NN	O	O
-to	NN	O	O
-move	NN	O	O
-freely	NN	O	O
-over	NN	O	O
-the	NN	O	O
-underlying	NN	O	B-Material
-fluid	NN	O	I-Material
-mesh	NN	O	I-Material
-,	NN	O	O
-alleviating	NN	O	O
-the	NN	O	O
-need	NN	O	O
-for	NN	O	O
-the	NN	O	O
-remeshing	NN	O	B-Process
-required	NN	O	O
-in	NN	O	O
-a	NN	O	O
-classical	NN	O	O
-formulation	NN	O	O
-.	NN	O	O
+The	0	3	O
+immersed	4	12	B-Process
+boundary	13	21	I-Process
+method	22	28	I-Process
+(	29	30	O
+IBM	30	33	B-Process
+)	33	34	O
+,	34	35	O
+proposed	36	44	O
+by	45	47	O
+Peskin	48	54	O
+for	55	58	O
+studying	59	67	B-Task
+flow	68	72	I-Task
+patterns	73	81	I-Task
+around	82	88	I-Task
+heart	89	94	I-Task
+valves	95	101	I-Task
+[	103	104	O
+3	104	105	O
+]	105	106	O
+,	106	107	O
+has	108	111	O
+been	112	116	O
+applied	117	124	O
+to	125	127	O
+a	128	129	O
+wide	130	134	O
+range	135	140	O
+of	141	143	O
+problems	144	152	O
+including	153	162	O
+arterial	163	171	B-Task
+blood	172	177	I-Task
+flow	178	182	I-Task
+[	184	185	O
+4	185	186	O
+]	186	187	O
+,	187	188	O
+modelling	189	198	B-Task
+of	199	201	I-Task
+the	202	205	I-Task
+cochlea	206	213	I-Task
+[	215	216	O
+5	216	217	O
+]	217	218	O
+,	218	219	O
+modelling	220	229	B-Task
+of	230	232	I-Task
+red	233	236	I-Task
+blood	237	242	I-Task
+cells	243	248	I-Task
+in	249	251	I-Task
+Poiseuille	252	262	I-Task
+flow	263	267	I-Task
+
+[	269	270	O
+6	270	271	O
+]	271	272	O
+and	273	276	O
+flows	277	282	B-Task
+involving	283	292	I-Task
+suspended	293	302	I-Task
+particles	303	312	I-Task
+[	314	315	O
+7	315	316	O
+]	316	317	O
+.	317	318	O
+
+A	319	320	O
+comprehensive	321	334	O
+list	335	339	O
+of	340	342	O
+applications	343	355	O
+can	356	359	O
+be	360	362	O
+found	363	368	O
+in	369	371	O
+[	373	374	O
+8	374	375	O
+]	375	376	O
+.	376	377	O
+
+The	378	381	O
+IBM	382	385	B-Process
+is	386	388	O
+both	389	393	O
+a	394	395	O
+mathematical	396	408	O
+formulation	409	420	O
+and	421	424	O
+a	425	426	O
+numerical	427	436	O
+scheme	437	443	O
+for	444	447	O
+fluid	448	453	B-Task
+–	453	454	I-Task
+structure	454	463	I-Task
+interaction	464	475	I-Task
+problems	476	484	I-Task
+.	484	485	O
+
+As	486	488	O
+mentioned	489	498	O
+above	499	504	O
+,	504	505	O
+in	506	508	O
+a	509	510	O
+classical	511	520	O
+fluid	521	526	B-Task
+–	526	527	I-Task
+structure	527	536	I-Task
+interaction	537	548	I-Task
+problem	549	556	I-Task
+,	556	557	O
+the	558	561	O
+fluid	562	567	B-Material
+and	568	571	O
+the	572	575	O
+structure	576	585	B-Material
+are	586	589	O
+considered	590	600	O
+separately	601	611	O
+and	612	615	O
+then	616	620	O
+coupled	621	628	B-Process
+together	629	637	I-Process
+via	638	641	O
+some	642	646	O
+suitable	647	655	O
+jump	656	660	O
+conditions	661	671	O
+.	671	672	O
+
+In	673	675	O
+the	676	679	O
+IBM	680	683	B-Process
+however	684	691	O
+,	691	692	O
+the	693	696	O
+structure	697	706	O
+–	706	707	O
+which	707	712	O
+is	713	715	O
+usually	716	723	O
+immersed	724	732	O
+in	733	735	O
+a	736	737	O
+Newtonian	738	747	B-Material
+fluid	748	753	I-Material
+–	753	754	O
+is	754	756	O
+viewed	757	763	O
+as	764	766	O
+being	767	772	O
+part	773	777	O
+of	778	780	O
+the	781	784	O
+surrounding	785	796	B-Material
+fluid	797	802	I-Material
+.	802	803	O
+
+This	804	808	O
+means	809	814	O
+that	815	819	O
+only	820	824	O
+a	825	826	O
+single	827	833	O
+equation	834	842	O
+of	843	845	O
+motion	846	852	B-Process
+needs	853	858	O
+to	859	861	O
+be	862	864	O
+solved	865	871	O
+(	872	873	O
+i.e.	873	877	O
+a	878	879	O
+one	880	883	O
+-	883	884	O
+phase	884	889	O
+formulation	890	901	O
+)	901	902	O
+.	902	903	O
+
+Additionally	904	916	O
+,	916	917	O
+the	918	921	O
+IBM	922	925	B-Process
+allows	926	932	O
+the	933	936	O
+immersed	937	945	O
+structure	946	955	O
+to	956	958	O
+move	959	963	O
+freely	964	970	O
+over	971	975	O
+the	976	979	O
+underlying	980	990	B-Material
+fluid	991	996	I-Material
+mesh	997	1001	I-Material
+,	1001	1002	O
+alleviating	1003	1014	O
+the	1015	1018	O
+need	1019	1023	O
+for	1024	1027	O
+the	1028	1031	O
+remeshing	1032	1041	B-Process
+required	1042	1050	O
+in	1051	1053	O
+a	1054	1055	O
+classical	1056	1065	O
+formulation	1066	1077	O
+.	1077	1078	O
 
 
 -DOCSTART- (S0045782515003680)
 
-We	NN	O	O
-consider	NN	O	O
-the	NN	O	O
-shape	NN	O	B-Task
-optimisation	NN	O	I-Task
-of	NN	O	O
-two-	NN	O	B-Material
-and	NN	O	I-Material
-three	NN	O	I-Material
--	NN	O	I-Material
-dimensional	NN	O	I-Material
-solids	NN	O	I-Material
-by	NN	O	O
-combining	NN	O	B-Process
-multiresolution	NN	O	I-Process
-subdivision	NN	O	I-Process
-surfaces	NN	O	I-Process
-with	NN	O	O
-immersed	NN	O	B-Material
-finite	NN	O	I-Material
-elements	NN	O	I-Material
-.	NN	O	O
-
-As	NN	O	O
-widely	NN	O	O
-discussed	NN	O	O
-in	NN	O	O
-isogeometric	NN	O	B-Material
-analysis	NN	O	I-Material
-literature	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-geometry	NN	O	B-Process
-representations	NN	O	I-Process
-used	NN	O	O
-in	NN	O	O
-today	NN	O	O
-’s	NN	O	O
-computer	NN	O	B-Process
-aided	NN	O	I-Process
-design	NN	O	I-Process
-(	NN	O	O
-CAD	NN	O	B-Process
-)	NN	O	O
-and	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-analysis	NN	O	I-Process
-(	NN	O	O
-FEA	NN	O	B-Process
-)	NN	O	O
-software	NN	O	O
-are	NN	O	O
-inherently	NN	O	O
-incompatible	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-particularly	NN	O	O
-limiting	NN	O	O
-in	NN	O	O
-shape	NN	O	B-Task
-optimisation	NN	O	I-Task
-during	NN	O	O
-which	NN	O	O
-a	NN	O	O
-given	NN	O	O
-CAD	NN	O	B-Process
-geometry	NN	O	I-Process
-model	NN	O	I-Process
-is	NN	O	O
-to	NN	O	O
-be	NN	O	O
-iteratively	NN	O	O
-updated	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-results	NN	O	O
-of	NN	O	O
-a	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-computation	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-inherent	NN	O	O
-shortcomings	NN	O	O
-of	NN	O	O
-present	NN	O	O
-geometry	NN	O	B-Task
-and	NN	O	I-Task
-analysis	NN	O	I-Task
-representations	NN	O	I-Task
-have	NN	O	O
-motivated	NN	O	O
-the	NN	O	O
-proliferation	NN	O	O
-of	NN	O	O
-various	NN	O	O
-shape	NN	O	B-Process
-optimisation	NN	O	I-Process
-techniques	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-most	NN	O	O
-prevalent	NN	O	O
-approaches	NN	O	O
-a	NN	O	O
-surrogate	NN	O	B-Process
-geometry	NN	O	I-Process
-model	NN	O	I-Process
-[	NN	O	O
-2–8	NN	O	O
-]	NN	O	O
-or	NN	O	O
-the	NN	O	O
-analysis	NN	O	B-Process
-mesh	NN	O	I-Process
-[	NN	O	O
-9,10	NN	O	O
-]	NN	O	O
-instead	NN	O	O
-of	NN	O	O
-the	NN	O	O
-true	NN	O	O
-CAD	NN	O	B-Process
-model	NN	O	I-Process
-is	NN	O	O
-optimised	NN	O	O
-,	NN	O	O
-see	NN	O	O
-also	NN	O	O
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-and	NN	O	O
-references	NN	O	O
-therein	NN	O	O
-.	NN	O	O
-
-Generally	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-tedious	NN	O	O
-or	NN	O	O
-impossible	NN	O	O
-to	NN	O	O
-map	NN	O	O
-the	NN	O	O
-optimised	NN	O	B-Process
-surrogate	NN	O	I-Process
-geometry	NN	O	I-Process
-model	NN	O	I-Process
-or	NN	O	O
-analysis	NN	O	B-Process
-mesh	NN	O	I-Process
-back	NN	O	O
-to	NN	O	O
-the	NN	O	O
-original	NN	O	O
-CAD	NN	O	B-Process
-model	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-essential	NN	O	O
-for	NN	O	O
-continuing	NN	O	O
-with	NN	O	O
-the	NN	O	O
-design	NN	O	O
-process	NN	O	O
-and	NN	O	O
-later	NN	O	O
-for	NN	O	O
-manufacturing	NN	O	O
-purposes	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-geometric	NN	O	O
-design	NN	O	O
-features	NN	O	O
-are	NN	O	O
-usually	NN	O	O
-defined	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-the	NN	O	O
-CAD	NN	O	B-Process
-model	NN	O	I-Process
-and	NN	O	O
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-easily	NN	O	O
-enforced	NN	O	O
-on	NN	O	O
-the	NN	O	O
-surrogate	NN	O	B-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-Recently	NN	O	O
-,	NN	O	O
-the	NN	O	O
-shape	NN	O	B-Task
-optimisation	NN	O	I-Task
-of	NN	O	O
-shells	NN	O	B-Material
-,	NN	O	O
-solids	NN	O	B-Material
-and	NN	O	O
-other	NN	O	O
-applications	NN	O	O
-using	NN	O	O
-isogeometric	NN	O	B-Process
-analysis	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-explored	NN	O	O
-;	NN	O	O
-that	NN	O	O
-is	NN	O	O
-,	NN	O	O
-through	NN	O	O
-directly	NN	O	B-Process
-optimising	NN	O	I-Process
-the	NN	O	O
-CAD	NN	O	B-Process
-geometry	NN	O	I-Process
-model	NN	O	I-Process
-
-[	NN	O	O
-12–15	NN	O	O
-]	NN	O	O
-.	NN	O	O
+We	0	2	O
+consider	3	11	O
+the	12	15	O
+shape	16	21	B-Task
+optimisation	22	34	I-Task
+of	35	37	O
+two-	38	42	B-Material
+and	43	46	I-Material
+three	47	52	I-Material
+-	52	53	I-Material
+dimensional	53	64	I-Material
+solids	65	71	I-Material
+by	72	74	O
+combining	75	84	B-Process
+multiresolution	85	100	I-Process
+subdivision	101	112	I-Process
+surfaces	113	121	I-Process
+with	122	126	O
+immersed	127	135	B-Material
+finite	136	142	I-Material
+elements	143	151	I-Material
+.	151	152	O
+
+As	153	155	O
+widely	156	162	O
+discussed	163	172	O
+in	173	175	O
+isogeometric	176	188	B-Material
+analysis	189	197	I-Material
+literature	198	208	I-Material
+,	208	209	O
+the	210	213	O
+geometry	214	222	B-Process
+representations	223	238	I-Process
+used	239	243	O
+in	244	246	O
+today	247	252	O
+’s	252	254	O
+computer	255	263	B-Process
+aided	264	269	I-Process
+design	270	276	I-Process
+(	277	278	O
+CAD	278	281	B-Process
+)	281	282	O
+and	283	286	O
+finite	287	293	B-Process
+element	294	301	I-Process
+analysis	302	310	I-Process
+(	311	312	O
+FEA	312	315	B-Process
+)	315	316	O
+software	317	325	O
+are	326	329	O
+inherently	330	340	O
+incompatible	341	353	O
+[	355	356	O
+1	356	357	O
+]	357	358	O
+.	358	359	O
+
+This	360	364	O
+is	365	367	O
+particularly	368	380	O
+limiting	381	389	O
+in	390	392	O
+shape	393	398	B-Task
+optimisation	399	411	I-Task
+during	412	418	O
+which	419	424	O
+a	425	426	O
+given	427	432	O
+CAD	433	436	B-Process
+geometry	437	445	I-Process
+model	446	451	I-Process
+is	452	454	O
+to	455	457	O
+be	458	460	O
+iteratively	461	472	O
+updated	473	480	O
+based	481	486	O
+on	487	489	O
+the	490	493	O
+results	494	501	O
+of	502	504	O
+a	505	506	O
+finite	507	513	B-Process
+element	514	521	I-Process
+computation	522	533	I-Process
+.	533	534	O
+
+The	535	538	O
+inherent	539	547	O
+shortcomings	548	560	O
+of	561	563	O
+present	564	571	O
+geometry	572	580	B-Task
+and	581	584	I-Task
+analysis	585	593	I-Task
+representations	594	609	I-Task
+have	610	614	O
+motivated	615	624	O
+the	625	628	O
+proliferation	629	642	O
+of	643	645	O
+various	646	653	O
+shape	654	659	B-Process
+optimisation	660	672	I-Process
+techniques	673	683	I-Process
+.	683	684	O
+
+In	685	687	O
+the	688	691	O
+most	692	696	O
+prevalent	697	706	O
+approaches	707	717	O
+a	718	719	O
+surrogate	720	729	B-Process
+geometry	730	738	I-Process
+model	739	744	I-Process
+[	746	747	O
+2–8	747	750	O
+]	750	751	O
+or	752	754	O
+the	755	758	O
+analysis	759	767	B-Process
+mesh	768	772	I-Process
+[	774	775	O
+9,10	775	779	O
+]	779	780	O
+instead	781	788	O
+of	789	791	O
+the	792	795	O
+true	796	800	O
+CAD	801	804	B-Process
+model	805	810	I-Process
+is	811	813	O
+optimised	814	823	O
+,	823	824	O
+see	825	828	O
+also	829	833	O
+[	835	836	O
+11	836	838	O
+]	838	839	O
+and	840	843	O
+references	844	854	O
+therein	855	862	O
+.	862	863	O
+
+Generally	864	873	O
+,	873	874	O
+it	875	877	O
+is	878	880	O
+tedious	881	888	O
+or	889	891	O
+impossible	892	902	O
+to	903	905	O
+map	906	909	O
+the	910	913	O
+optimised	914	923	B-Process
+surrogate	924	933	I-Process
+geometry	934	942	I-Process
+model	943	948	I-Process
+or	949	951	O
+analysis	952	960	B-Process
+mesh	961	965	I-Process
+back	966	970	O
+to	971	973	O
+the	974	977	O
+original	978	986	O
+CAD	987	990	B-Process
+model	991	996	I-Process
+,	996	997	O
+which	998	1003	O
+is	1004	1006	O
+essential	1007	1016	O
+for	1017	1020	O
+continuing	1021	1031	O
+with	1032	1036	O
+the	1037	1040	O
+design	1041	1047	O
+process	1048	1055	O
+and	1056	1059	O
+later	1060	1065	O
+for	1066	1069	O
+manufacturing	1070	1083	O
+purposes	1084	1092	O
+.	1092	1093	O
+
+Moreover	1094	1102	O
+,	1102	1103	O
+geometric	1104	1113	O
+design	1114	1120	O
+features	1121	1129	O
+are	1130	1133	O
+usually	1134	1141	O
+defined	1142	1149	O
+with	1150	1154	O
+respect	1155	1162	O
+to	1163	1165	O
+the	1166	1169	O
+CAD	1170	1173	B-Process
+model	1174	1179	I-Process
+and	1180	1183	O
+can	1184	1187	O
+not	1187	1190	O
+be	1191	1193	O
+easily	1194	1200	O
+enforced	1201	1209	O
+on	1210	1212	O
+the	1213	1216	O
+surrogate	1217	1226	B-Process
+model	1227	1232	I-Process
+.	1232	1233	O
+
+Recently	1234	1242	O
+,	1242	1243	O
+the	1244	1247	O
+shape	1248	1253	B-Task
+optimisation	1254	1266	I-Task
+of	1267	1269	O
+shells	1270	1276	B-Material
+,	1276	1277	O
+solids	1278	1284	B-Material
+and	1285	1288	O
+other	1289	1294	O
+applications	1295	1307	O
+using	1308	1313	O
+isogeometric	1314	1326	B-Process
+analysis	1327	1335	I-Process
+has	1336	1339	O
+been	1340	1344	O
+explored	1345	1353	O
+;	1353	1354	O
+that	1355	1359	O
+is	1360	1362	O
+,	1362	1363	O
+through	1364	1371	O
+directly	1372	1380	B-Process
+optimising	1381	1391	I-Process
+the	1392	1395	O
+CAD	1396	1399	B-Process
+geometry	1400	1408	I-Process
+model	1409	1414	I-Process
+
+[	1416	1417	O
+12–15	1417	1422	O
+]	1422	1423	O
+.	1423	1424	O
 
 
 -DOCSTART- (S0079642514000887)
 
-The	NN	O	O
-exquisite	NN	O	O
-manipulation	NN	O	O
-and	NN	O	O
-exact	NN	O	B-Task
-measurement	NN	O	I-Task
-of	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	O
-individual	NN	O	O
-nanomaterials	NN	O	B-Material
-,	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-notable	NN	O	O
-progress	NN	O	O
-in	NN	O	O
-their	NN	O	O
-preparation	NN	O	O
-,	NN	O	O
-have	NN	O	O
-not	NN	O	O
-been	NN	O	O
-thoroughly	NN	O	O
-addressed	NN	O	O
-albeit	NN	O	O
-being	NN	O	O
-of	NN	O	O
-prime	NN	O	O
-importance	NN	O	O
-for	NN	O	O
-the	NN	O	O
-sustained	NN	O	B-Task
-development	NN	O	I-Task
-of	NN	O	I-Task
-new	NN	O	I-Task
-devices	NN	O	I-Task
-[	NN	O	O
-58–61	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-date	NN	O	O
-,	NN	O	O
-several	NN	O	O
-instruments	NN	O	B-Material
-have	NN	O	O
-been	NN	O	O
-designed	NN	O	O
-for	NN	O	O
-such	NN	O	O
-goals	NN	O	O
-,	NN	O	O
-namely	NN	O	O
-,	NN	O	O
-scanning	NN	O	B-Material
-electron	NN	O	I-Material
-microscopes	NN	O	I-Material
-(	NN	O	O
-SEM	NN	O	B-Material
-)	NN	O	O
-,	NN	O	O
-atomic	NN	O	B-Material
-force	NN	O	I-Material
-microscopes	NN	O	I-Material
-(	NN	O	O
-AFM	NN	O	B-Material
-)	NN	O	O
-and	NN	O	O
-transmission	NN	O	B-Material
-electron	NN	O	I-Material
-microscopes	NN	O	I-Material
-(	NN	O	O
-TEM	NN	O	B-Material
-)	NN	O	O
-[	NN	O	O
-62,63	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Compared	NN	O	O
-with	NN	O	O
-the	NN	O	O
-first	NN	O	O
-two	NN	O	O
-setups	NN	O	O
-,	NN	O	O
-which	NN	O	O
-have	NN	O	O
-no	NN	O	O
-direct	NN	O	O
-access	NN	O	O
-to	NN	O	O
-the	NN	O	O
-material	NN	O	B-Task
-internal	NN	O	I-Task
-structure	NN	O	I-Task
-and	NN	O	O
-atomic	NN	O	B-Task
-bonding	NN	O	I-Task
-information	NN	O	I-Task
-[	NN	O	O
-64–67	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-state	NN	O	O
--	NN	O	O
-of	NN	O	O
--	NN	O	O
-the	NN	O	O
--	NN	O	O
-art	NN	O	O
-in	NN	O	O
-situ	NN	O	O
-high	NN	O	O
--	NN	O	O
-resolution	NN	O	O
-TEM	NN	O	B-Process
-technique	NN	O	O
-allows	NN	O	O
-one	NN	O	O
-to	NN	O	O
-not	NN	O	O
-only	NN	O	O
-manipulate	NN	O	B-Process
-with	NN	O	I-Process
-an	NN	O	I-Process
-individual	NN	O	I-Process
-object	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-nano	NN	O	O
--	NN	O	O
-scale	NN	O	O
-precision	NN	O	O
-but	NN	O	O
-to	NN	O	O
-also	NN	O	O
-get	NN	O	O
-deep	NN	O	O
-insights	NN	O	O
-into	NN	O	O
-its	NN	O	O
-physical	NN	O	O
-,	NN	O	O
-chemical	NN	O	O
-,	NN	O	O
-and	NN	O	O
-microstructural	NN	O	O
-statuses	NN	O	O
-[	NN	O	O
-68–71	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Combining	NN	O	O
-the	NN	O	O
-capabilities	NN	O	O
-of	NN	O	O
-a	NN	O	O
-conventional	NN	O	O
-high	NN	O	O
--	NN	O	O
-resolution	NN	O	O
-TEM	NN	O	B-Process
-and	NN	O	O
-AFM	NN	O	B-Process
-or	NN	O	O
-STM	NN	O	B-Process
-probes	NN	O	I-Process
-produces	NN	O	O
-advanced	NN	O	O
-and	NN	O	O
-dedicated	NN	O	O
-TEM	NN	O	B-Process
-holders	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-becoming	NN	O	O
-the	NN	O	O
-powerful	NN	O	O
-tools	NN	O	O
-in	NN	O	O
-nanomaterials	NN	O	B-Task
-manipulation	NN	O	I-Task
-and	NN	O	O
-properties	NN	O	B-Task
-analysis	NN	O	I-Task
-.	NN	O	O
-
-Such	NN	O	O
-holders	NN	O	B-Process
-have	NN	O	O
-been	NN	O	O
-commercialized	NN	O	O
-,	NN	O	O
-for	NN	O	O
-instance	NN	O	O
-,	NN	O	O
-by	NN	O	O
-“	NN	O	O
-Nanofactory	NN	O	O
-Instruments	NN	O	O
-AB	NN	O	O
-’’	NN	O	O
-,	NN	O	O
-Goteborg	NN	O	O
-,	NN	O	O
-Sweden	NN	O	O
-[	NN	O	O
-72	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-full	NN	O	O
-usefulness	NN	O	O
-of	NN	O	O
-these	NN	O	O
-advanced	NN	O	O
-in	NN	O	O
--	NN	O	O
-situ	NN	O	O
-TEM	NN	O	B-Process
-techniques	NN	O	I-Process
-is	NN	O	O
-apparent	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-mechanical	NN	O	B-Task
-and	NN	O	I-Task
-thermal	NN	O	I-Task
-property	NN	O	I-Task
-analysis	NN	O	I-Task
-of	NN	O	O
-individual	NN	O	O
-nanostructures	NN	O	B-Material
-,	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-elasticity	NN	O	O
-,	NN	O	O
-plasticity	NN	O	O
-and	NN	O	O
-strength	NN	O	O
-data	NN	O	O
-while	NN	O	O
-employing	NN	O	O
-direct	NN	O	B-Process
-bent	NN	O	I-Process
-or	NN	O	I-Process
-tensile	NN	O	I-Process
-tests	NN	O	I-Process
-[	NN	O	O
-73–75	NN	O	O
-]	NN	O	O
-,	NN	O	O
-probing	NN	O	B-Process
-electrical	NN	O	I-Process
-characteristics	NN	O	I-Process
-,	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-field	NN	O	B-Task
-emission	NN	O	I-Task
-[	NN	O	O
-27,76,77	NN	O	O
-]	NN	O	O
-,	NN	O	O
-electrical	NN	O	B-Task
-transport	NN	O	I-Task
-tracing	NN	O	I-Task
-[	NN	O	O
-78–80	NN	O	O
-]	NN	O	O
-,	NN	O	O
-soldering	NN	O	B-Task
-[	NN	O	O
-81,82	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-doping	NN	O	B-Task
-[	NN	O	O
-83	NN	O	O
-]	NN	O	O
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
+The	0	3	O
+exquisite	4	13	O
+manipulation	14	26	O
+and	27	30	O
+exact	31	36	B-Task
+measurement	37	48	I-Task
+of	49	51	I-Task
+properties	52	62	I-Task
+of	63	65	O
+individual	66	76	O
+nanomaterials	77	90	B-Material
+,	90	91	O
+compared	92	100	O
+with	101	105	O
+notable	106	113	O
+progress	114	122	O
+in	123	125	O
+their	126	131	O
+preparation	132	143	O
+,	143	144	O
+have	145	149	O
+not	150	153	O
+been	154	158	O
+thoroughly	159	169	O
+addressed	170	179	O
+albeit	180	186	O
+being	187	192	O
+of	193	195	O
+prime	196	201	O
+importance	202	212	O
+for	213	216	O
+the	217	220	O
+sustained	221	230	B-Task
+development	231	242	I-Task
+of	243	245	I-Task
+new	246	249	I-Task
+devices	250	257	I-Task
+[	258	259	O
+58–61	259	264	O
+]	264	265	O
+.	265	266	O
+
+To	267	269	O
+date	270	274	O
+,	274	275	O
+several	276	283	O
+instruments	284	295	B-Material
+have	296	300	O
+been	301	305	O
+designed	306	314	O
+for	315	318	O
+such	319	323	O
+goals	324	329	O
+,	329	330	O
+namely	331	337	O
+,	337	338	O
+scanning	339	347	B-Material
+electron	348	356	I-Material
+microscopes	357	368	I-Material
+(	369	370	O
+SEM	370	373	B-Material
+)	373	374	O
+,	374	375	O
+atomic	376	382	B-Material
+force	383	388	I-Material
+microscopes	389	400	I-Material
+(	401	402	O
+AFM	402	405	B-Material
+)	405	406	O
+and	407	410	O
+transmission	411	423	B-Material
+electron	424	432	I-Material
+microscopes	433	444	I-Material
+(	445	446	O
+TEM	446	449	B-Material
+)	449	450	O
+[	451	452	O
+62,63	452	457	O
+]	457	458	O
+.	458	459	O
+
+Compared	460	468	O
+with	469	473	O
+the	474	477	O
+first	478	483	O
+two	484	487	O
+setups	488	494	O
+,	494	495	O
+which	496	501	O
+have	502	506	O
+no	507	509	O
+direct	510	516	O
+access	517	523	O
+to	524	526	O
+the	527	530	O
+material	531	539	B-Task
+internal	540	548	I-Task
+structure	549	558	I-Task
+and	559	562	O
+atomic	563	569	B-Task
+bonding	570	577	I-Task
+information	578	589	I-Task
+[	590	591	O
+64–67	591	596	O
+]	596	597	O
+,	597	598	O
+the	599	602	O
+state	603	608	O
+-	608	609	O
+of	609	611	O
+-	611	612	O
+the	612	615	O
+-	615	616	O
+art	616	619	O
+in	620	622	O
+situ	623	627	O
+high	628	632	O
+-	632	633	O
+resolution	633	643	O
+TEM	644	647	B-Process
+technique	648	657	O
+allows	658	664	O
+one	665	668	O
+to	669	671	O
+not	672	675	O
+only	676	680	O
+manipulate	681	691	B-Process
+with	692	696	I-Process
+an	697	699	I-Process
+individual	700	710	I-Process
+object	711	717	I-Process
+at	718	720	O
+the	721	724	O
+nano	725	729	O
+-	729	730	O
+scale	730	735	O
+precision	736	745	O
+but	746	749	O
+to	750	752	O
+also	753	757	O
+get	758	761	O
+deep	762	766	O
+insights	767	775	O
+into	776	780	O
+its	781	784	O
+physical	785	793	O
+,	793	794	O
+chemical	795	803	O
+,	803	804	O
+and	805	808	O
+microstructural	809	824	O
+statuses	825	833	O
+[	834	835	O
+68–71	835	840	O
+]	840	841	O
+.	841	842	O
+
+Combining	843	852	O
+the	853	856	O
+capabilities	857	869	O
+of	870	872	O
+a	873	874	O
+conventional	875	887	O
+high	888	892	O
+-	892	893	O
+resolution	893	903	O
+TEM	904	907	B-Process
+and	908	911	O
+AFM	912	915	B-Process
+or	916	918	O
+STM	919	922	B-Process
+probes	923	929	I-Process
+produces	930	938	O
+advanced	939	947	O
+and	948	951	O
+dedicated	952	961	O
+TEM	962	965	B-Process
+holders	966	973	I-Process
+,	973	974	O
+which	975	980	O
+are	981	984	O
+becoming	985	993	O
+the	994	997	O
+powerful	998	1006	O
+tools	1007	1012	O
+in	1013	1015	O
+nanomaterials	1016	1029	B-Task
+manipulation	1030	1042	I-Task
+and	1043	1046	O
+properties	1047	1057	B-Task
+analysis	1058	1066	I-Task
+.	1066	1067	O
+
+Such	1068	1072	O
+holders	1073	1080	B-Process
+have	1081	1085	O
+been	1086	1090	O
+commercialized	1091	1105	O
+,	1105	1106	O
+for	1107	1110	O
+instance	1111	1119	O
+,	1119	1120	O
+by	1121	1123	O
+“	1124	1125	O
+Nanofactory	1125	1136	O
+Instruments	1137	1148	O
+AB	1149	1151	O
+’’	1151	1153	O
+,	1153	1154	O
+Goteborg	1155	1163	O
+,	1163	1164	O
+Sweden	1165	1171	O
+[	1172	1173	O
+72	1173	1175	O
+]	1175	1176	O
+.	1176	1177	O
+
+The	1178	1181	O
+full	1182	1186	O
+usefulness	1187	1197	O
+of	1198	1200	O
+these	1201	1206	O
+advanced	1207	1215	O
+in	1216	1218	O
+-	1218	1219	O
+situ	1219	1223	O
+TEM	1224	1227	B-Process
+techniques	1228	1238	I-Process
+is	1239	1241	O
+apparent	1242	1250	O
+with	1251	1255	O
+respect	1256	1263	O
+to	1264	1266	O
+mechanical	1267	1277	B-Task
+and	1278	1281	I-Task
+thermal	1282	1289	I-Task
+property	1290	1298	I-Task
+analysis	1299	1307	I-Task
+of	1308	1310	O
+individual	1311	1321	O
+nanostructures	1322	1336	B-Material
+,	1336	1337	O
+e.g.	1338	1342	O
+,	1342	1343	O
+elasticity	1344	1354	O
+,	1354	1355	O
+plasticity	1356	1366	O
+and	1367	1370	O
+strength	1371	1379	O
+data	1380	1384	O
+while	1385	1390	O
+employing	1391	1400	O
+direct	1401	1407	B-Process
+bent	1408	1412	I-Process
+or	1413	1415	I-Process
+tensile	1416	1423	I-Process
+tests	1424	1429	I-Process
+[	1430	1431	O
+73–75	1431	1436	O
+]	1436	1437	O
+,	1437	1438	O
+probing	1439	1446	B-Process
+electrical	1447	1457	I-Process
+characteristics	1458	1473	I-Process
+,	1473	1474	O
+e.g.	1475	1479	O
+,	1479	1480	O
+field	1481	1486	B-Task
+emission	1487	1495	I-Task
+[	1496	1497	O
+27,76,77	1497	1505	O
+]	1505	1506	O
+,	1506	1507	O
+electrical	1508	1518	B-Task
+transport	1519	1528	I-Task
+tracing	1529	1536	I-Task
+[	1537	1538	O
+78–80	1538	1543	O
+]	1543	1544	O
+,	1544	1545	O
+soldering	1546	1555	B-Task
+[	1556	1557	O
+81,82	1557	1562	O
+]	1562	1563	O
+,	1563	1564	O
+and	1565	1568	O
+doping	1569	1575	B-Task
+[	1576	1577	O
+83	1577	1579	O
+]	1579	1580	O
+,	1580	1581	O
+etc	1582	1585	O
+.	1585	1586	O
 
 
 -DOCSTART- (S0098300412001793)
 
-MINERAL	NN	O	B-Task
-(	NN	O	I-Task
-MINeral	NN	O	I-Task
-ERror	NN	O	I-Task
-AnaLysis	NN	O	I-Task
-)	NN	O	I-Task
-is	NN	O	O
-a	NN	O	B-Task
-new	NN	O	I-Task
-MATLAB	NN	O	I-Task
-®	NN	O	I-Task
-based	NN	O	I-Task
-program	NN	O	I-Task
-that	NN	O	O
-provides	NN	O	B-Process
-mineral	NN	O	I-Process
-formula	NN	O	I-Process
-recalculations	NN	O	I-Process
-combined	NN	O	I-Process
-with	NN	O	I-Process
-the	NN	O	I-Process
-associated	NN	O	I-Process
-propagation	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-analytical	NN	O	I-Process
-uncertainties	NN	O	I-Process
-.	NN	O	O
-
-Methods	NN	O	B-Task
-are	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-work	NN	O	O
-of	NN	O	O
-Giamarita	NN	O	O
-and	NN	O	O
-Day	NN	O	O
-(	NN	O	O
-1990	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-additional	NN	O	O
-features	NN	O	O
-have	NN	O	O
-been	NN	O	O
-added	NN	O	O
-to	NN	O	B-Task
-provide	NN	O	I-Task
-users	NN	O	I-Task
-with	NN	O	I-Task
-greater	NN	O	I-Task
-flexibility	NN	O	I-Task
-in	NN	O	I-Task
-data	NN	O	I-Task
-reporting	NN	O	I-Task
-.	NN	O	O
-
-Many	NN	O	O
-programs	NN	O	O
-exist	NN	O	O
-to	NN	O	O
-recalculate	NN	O	O
-wt%	NN	O	O
-data	NN	O	O
-into	NN	O	O
-formula	NN	O	O
-unit	NN	O	O
-cations	NN	O	O
-.	NN	O	O
-
-Some	NN	O	B-Task
-generalized	NN	O	I-Task
-programs	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-recalculate	NN	O	B-Process
-the	NN	O	I-Process
-formula	NN	O	I-Process
-of	NN	O	I-Process
-multiple	NN	O	I-Process
-minerals	NN	O	I-Process
-e.g.	NN	O	O
-CALCMIN	NN	O	B-Material
-(	NN	O	O
-Brandelik	NN	O	O
-,	NN	O	O
-2009	NN	O	O
-)	NN	O	O
-and	NN	O	O
-HYPER	NN	O	B-Material
--	NN	O	I-Material
-FORM	NN	O	I-Material
-(	NN	O	O
-De	NN	O	O
-Bjerg	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-1992	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Other	NN	O	O
-programs	NN	O	O
-are	NN	O	O
-mineral	NN	O	O
-specific	NN	O	O
-e.g.	NN	O	O
-AMPH	NN	O	B-Material
-CLASS	NN	O	I-Material
-(	NN	O	O
-Esawi	NN	O	O
-,	NN	O	O
-2004	NN	O	O
-)	NN	O	O
-and	NN	O	O
-PROBE	NN	O	B-Material
-AMPH	NN	O	I-Material
-(	NN	O	O
-Tindle	NN	O	O
-and	NN	O	O
-Webb	NN	O	O
-,	NN	O	O
-1994	NN	O	O
-)	NN	O	O
-for	NN	O	O
-the	NN	O	O
-recalculation	NN	O	B-Task
-of	NN	O	I-Task
-amphibole	NN	O	I-Task
-analyses	NN	O	I-Task
-;	NN	O	O
-ILMAT	NN	O	B-Material
-(	NN	O	O
-Lepage	NN	O	O
-,	NN	O	O
-2003	NN	O	O
-)	NN	O	O
-for	NN	O	O
-the	NN	O	O
-recalculation	NN	O	B-Task
-of	NN	O	I-Task
-magnetite	NN	O	I-Task
-and	NN	O	I-Task
-ilmenite	NN	O	I-Task
-;	NN	O	O
-and	NN	O	O
-PX	NN	O	B-Material
--	NN	O	I-Material
-NOM	NN	O	I-Material
-(	NN	O	O
-Sturm	NN	O	O
-,	NN	O	O
-2002	NN	O	O
-)	NN	O	O
-for	NN	O	O
-the	NN	O	O
-recalculation	NN	O	B-Task
-of	NN	O	I-Task
-pyroxene	NN	O	I-Task
-analyses	NN	O	I-Task
-.	NN	O	O
-
-MINERAL	NN	O	B-Material
-provides	NN	O	O
-a	NN	O	O
-rapid	NN	O	O
-method	NN	O	O
-for	NN	O	O
-the	NN	O	O
-recalculation	NN	O	B-Task
-of	NN	O	I-Task
-multiple	NN	O	I-Task
-common	NN	O	I-Task
-minerals	NN	O	I-Task
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-its	NN	O	O
-strength	NN	O	O
-lies	NN	O	O
-in	NN	O	O
-the	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-is	NN	O	O
-the	NN	O	O
-first	NN	O	O
-tool	NN	O	O
-to	NN	O	O
-incorporate	NN	O	B-Process
-the	NN	O	I-Process
-associated	NN	O	I-Process
-uncertainty	NN	O	I-Process
-propagation	NN	O	I-Process
-calculations	NN	O	I-Process
-.	NN	O	I-Process
-
-As	NN	O	O
-these	NN	O	O
-are	NN	O	O
-performed	NN	O	O
-concurrently	NN	O	O
-with	NN	O	O
-the	NN	O	O
-standard	NN	O	O
-recalculations	NN	O	O
-,	NN	O	O
-no	NN	O	O
-additional	NN	O	O
-time	NN	O	O
-is	NN	O	O
-needed	NN	O	O
-to	NN	O	O
-perform	NN	O	O
-uncertainty	NN	O	O
-propagation	NN	O	O
-.	NN	O	O
-
-While	NN	O	O
-an	NN	O	O
-understanding	NN	O	O
-of	NN	O	O
-the	NN	O	O
-underlying	NN	O	O
-calculations	NN	O	O
-is	NN	O	O
-strongly	NN	O	O
-recommended	NN	O	O
-,	NN	O	O
-MINERAL	NN	O	B-Material
-is	NN	O	O
-designed	NN	O	O
-to	NN	O	O
-allow	NN	O	B-Task
-users	NN	O	I-Task
-with	NN	O	I-Task
-little	NN	O	I-Task
-or	NN	O	I-Task
-no	NN	O	I-Task
-experience	NN	O	I-Task
-operating	NN	O	I-Task
-MATLAB	NN	O	I-Task
-®	NN	O	I-Task
-and/or	NN	O	I-Task
-performing	NN	O	I-Task
-mineral	NN	O	I-Task
-formula	NN	O	I-Task
-recalculations	NN	O	I-Task
-and	NN	O	I-Task
-uncertainty	NN	O	I-Task
-propagation	NN	O	I-Task
-to	NN	O	I-Task
-undertake	NN	O	I-Task
-both	NN	O	I-Task
-with	NN	O	I-Task
-ease	NN	O	I-Task
-.	NN	O	O
+MINERAL	0	7	B-Task
+(	8	9	I-Task
+MINeral	9	16	I-Task
+ERror	17	22	I-Task
+AnaLysis	23	31	I-Task
+)	31	32	I-Task
+is	33	35	O
+a	36	37	B-Task
+new	38	41	I-Task
+MATLAB	42	48	I-Task
+®	48	49	I-Task
+based	50	55	I-Task
+program	56	63	I-Task
+that	64	68	O
+provides	69	77	B-Process
+mineral	78	85	I-Process
+formula	86	93	I-Process
+recalculations	94	108	I-Process
+combined	109	117	I-Process
+with	118	122	I-Process
+the	123	126	I-Process
+associated	127	137	I-Process
+propagation	138	149	I-Process
+of	150	152	I-Process
+the	153	156	I-Process
+analytical	157	167	I-Process
+uncertainties	168	181	I-Process
+.	181	182	O
+
+Methods	183	190	B-Task
+are	191	194	O
+based	195	200	O
+on	201	203	O
+the	204	207	O
+work	208	212	O
+of	213	215	O
+Giamarita	216	225	O
+and	226	229	O
+Day	230	233	O
+(	234	235	O
+1990	235	239	O
+)	239	240	O
+.	240	241	O
+
+However	242	249	O
+,	249	250	O
+additional	251	261	O
+features	262	270	O
+have	271	275	O
+been	276	280	O
+added	281	286	O
+to	287	289	B-Task
+provide	290	297	I-Task
+users	298	303	I-Task
+with	304	308	I-Task
+greater	309	316	I-Task
+flexibility	317	328	I-Task
+in	329	331	I-Task
+data	332	336	I-Task
+reporting	337	346	I-Task
+.	346	347	O
+
+Many	348	352	O
+programs	353	361	O
+exist	362	367	O
+to	368	370	O
+recalculate	371	382	O
+wt%	383	386	O
+data	387	391	O
+into	392	396	O
+formula	397	404	O
+unit	405	409	O
+cations	410	417	O
+.	417	418	O
+
+Some	419	423	B-Task
+generalized	424	435	I-Task
+programs	436	444	I-Task
+can	445	448	O
+be	449	451	O
+used	452	456	O
+to	457	459	O
+recalculate	460	471	B-Process
+the	472	475	I-Process
+formula	476	483	I-Process
+of	484	486	I-Process
+multiple	487	495	I-Process
+minerals	496	504	I-Process
+e.g.	505	509	O
+CALCMIN	510	517	B-Material
+(	518	519	O
+Brandelik	519	528	O
+,	528	529	O
+2009	530	534	O
+)	534	535	O
+and	536	539	O
+HYPER	540	545	B-Material
+-	545	546	I-Material
+FORM	546	550	I-Material
+(	551	552	O
+De	552	554	O
+Bjerg	555	560	O
+et	561	563	O
+al	564	566	O
+.	566	567	O
+,	567	568	O
+1992	569	573	O
+)	573	574	O
+.	574	575	O
+
+Other	576	581	O
+programs	582	590	O
+are	591	594	O
+mineral	595	602	O
+specific	603	611	O
+e.g.	612	616	O
+AMPH	617	621	B-Material
+CLASS	622	627	I-Material
+(	628	629	O
+Esawi	629	634	O
+,	634	635	O
+2004	636	640	O
+)	640	641	O
+and	642	645	O
+PROBE	646	651	B-Material
+AMPH	652	656	I-Material
+(	657	658	O
+Tindle	658	664	O
+and	665	668	O
+Webb	669	673	O
+,	673	674	O
+1994	675	679	O
+)	679	680	O
+for	681	684	O
+the	685	688	O
+recalculation	689	702	B-Task
+of	703	705	I-Task
+amphibole	706	715	I-Task
+analyses	716	724	I-Task
+;	724	725	O
+ILMAT	726	731	B-Material
+(	732	733	O
+Lepage	733	739	O
+,	739	740	O
+2003	741	745	O
+)	745	746	O
+for	747	750	O
+the	751	754	O
+recalculation	755	768	B-Task
+of	769	771	I-Task
+magnetite	772	781	I-Task
+and	782	785	I-Task
+ilmenite	786	794	I-Task
+;	794	795	O
+and	796	799	O
+PX	800	802	B-Material
+-	802	803	I-Material
+NOM	803	806	I-Material
+(	807	808	O
+Sturm	808	813	O
+,	813	814	O
+2002	815	819	O
+)	819	820	O
+for	821	824	O
+the	825	828	O
+recalculation	829	842	B-Task
+of	843	845	I-Task
+pyroxene	846	854	I-Task
+analyses	855	863	I-Task
+.	863	864	O
+
+MINERAL	865	872	B-Material
+provides	873	881	O
+a	882	883	O
+rapid	884	889	O
+method	890	896	O
+for	897	900	O
+the	901	904	O
+recalculation	905	918	B-Task
+of	919	921	I-Task
+multiple	922	930	I-Task
+common	931	937	I-Task
+minerals	938	946	I-Task
+.	946	947	O
+
+However	948	955	O
+,	955	956	O
+its	957	960	O
+strength	961	969	O
+lies	970	974	O
+in	975	977	O
+the	978	981	O
+fact	982	986	O
+that	987	991	O
+is	992	994	O
+the	995	998	O
+first	999	1004	O
+tool	1005	1009	O
+to	1010	1012	O
+incorporate	1013	1024	B-Process
+the	1025	1028	I-Process
+associated	1029	1039	I-Process
+uncertainty	1040	1051	I-Process
+propagation	1052	1063	I-Process
+calculations	1064	1076	I-Process
+.	1076	1077	I-Process
+
+As	1078	1080	O
+these	1081	1086	O
+are	1087	1090	O
+performed	1091	1100	O
+concurrently	1101	1113	O
+with	1114	1118	O
+the	1119	1122	O
+standard	1123	1131	O
+recalculations	1132	1146	O
+,	1146	1147	O
+no	1148	1150	O
+additional	1151	1161	O
+time	1162	1166	O
+is	1167	1169	O
+needed	1170	1176	O
+to	1177	1179	O
+perform	1180	1187	O
+uncertainty	1188	1199	O
+propagation	1200	1211	O
+.	1211	1212	O
+
+While	1213	1218	O
+an	1219	1221	O
+understanding	1222	1235	O
+of	1236	1238	O
+the	1239	1242	O
+underlying	1243	1253	O
+calculations	1254	1266	O
+is	1267	1269	O
+strongly	1270	1278	O
+recommended	1279	1290	O
+,	1290	1291	O
+MINERAL	1292	1299	B-Material
+is	1300	1302	O
+designed	1303	1311	O
+to	1312	1314	O
+allow	1315	1320	B-Task
+users	1321	1326	I-Task
+with	1327	1331	I-Task
+little	1332	1338	I-Task
+or	1339	1341	I-Task
+no	1342	1344	I-Task
+experience	1345	1355	I-Task
+operating	1356	1365	I-Task
+MATLAB	1366	1372	I-Task
+®	1372	1373	I-Task
+and/or	1374	1380	I-Task
+performing	1381	1391	I-Task
+mineral	1392	1399	I-Task
+formula	1400	1407	I-Task
+recalculations	1408	1422	I-Task
+and	1423	1426	I-Task
+uncertainty	1427	1438	I-Task
+propagation	1439	1450	I-Task
+to	1451	1453	I-Task
+undertake	1454	1463	I-Task
+both	1464	1468	I-Task
+with	1469	1473	I-Task
+ease	1474	1478	I-Task
+.	1478	1479	O
 
 
 -DOCSTART- (S0098300413002185)
 
-A	NN	O	O
-number	NN	O	O
-of	NN	O	O
-model	NN	O	O
-parameters	NN	O	O
-can	NN	O	O
-change	NN	O	O
-regionally	NN	O	O
-or	NN	O	O
-seasonally	NN	O	O
-,	NN	O	O
-in	NN	O	O
-particular	NN	O	O
-the	NN	O	O
-inherent	NN	O	O
-optical	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-water	NN	O	B-Material
-constituents	NN	O	I-Material
-[	NN	O	O
-ai⁎(λ	NN	O	B-Material
-)	NN	O	O
-,	NN	O	O
-aY⁎(λ	NN	O	B-Material
-)	NN	O	I-Material
-,	NN	O	O
-aD⁎(λ	NN	O	B-Material
-)	NN	O	I-Material
-,	NN	O	O
-bX(λ	NN	O	B-Material
-)	NN	O	I-Material
-,	NN	O	O
-bb	NN	O	B-Material
-,	NN	O	I-Material
-X⁎	NN	O	I-Material
-,	NN	O	O
-bb	NN	O	B-Material
-,	NN	O	O
-Mie⁎	NN	O	B-Material
-]	NN	O	O
-and	NN	O	O
-the	NN	O	O
-apparent	NN	O	O
-optical	NN	O	B-Material
-properties	NN	O	I-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-bottom	NN	O	I-Material
-[	NN	O	I-Material
-Rib(λ	NN	O	I-Material
-)	NN	O	I-Material
-,	NN	O	I-Material
-Bi	NN	O	I-Material
-]	NN	O	I-Material
-and	NN	O	I-Material
-the	NN	O	I-Material
-atmosphere	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-database	NN	O	B-Material
-provided	NN	O	O
-with	NN	O	O
-WASI	NN	O	B-Material
-has	NN	O	O
-been	NN	O	O
-derived	NN	O	O
-from	NN	O	O
-in	NN	O	B-Process
--	NN	O	I-Process
-situ	NN	O	I-Process
-measurements	NN	O	I-Process
-from	NN	O	O
-lakes	NN	O	O
-in	NN	O	O
-Southern	NN	O	O
-Germany	NN	O	O
-
-(	NN	O	O
-Gege	NN	O	O
-,	NN	O	O
-1998	NN	O	O
-;	NN	O	O
-Heege	NN	O	O
-,	NN	O	O
-2000	NN	O	O
-;	NN	O	O
-Pinnel	NN	O	O
-,	NN	O	O
-2007	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-If	NN	O	O
-no	NN	O	O
-site	NN	O	O
--	NN	O	O
-specific	NN	O	O
-information	NN	O	O
-is	NN	O	O
-available	NN	O	O
-,	NN	O	O
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-as	NN	O	O
-a	NN	O	O
-first	NN	O	O
-approximation	NN	O	O
-for	NN	O	O
-other	NN	O	O
-ecosystems	NN	O	O
-as	NN	O	O
-well	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-variability	NN	O	O
-within	NN	O	O
-an	NN	O	O
-ecosystem	NN	O	O
-can	NN	O	O
-be	NN	O	O
-as	NN	O	O
-large	NN	O	O
-as	NN	O	O
-between	NN	O	O
-different	NN	O	O
-ecosystem	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-ecosystem	NN	O	O
--	NN	O	O
-specific	NN	O	O
-sets	NN	O	O
-of	NN	O	O
-optical	NN	O	O
-properties	NN	O	O
-do	NN	O	O
-not	NN	O	O
-exist	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-region	NN	O	B-Material
-or	NN	O	I-Material
-season	NN	O	I-Material
-specific	NN	O	I-Material
-information	NN	O	I-Material
-should	NN	O	O
-be	NN	O	O
-used	NN	O	O
-whenever	NN	O	O
-available	NN	O	O
-.	NN	O	O
-
-Ideally	NN	O	O
-,	NN	O	O
-the	NN	O	O
-optical	NN	O	B-Material
-properties	NN	O	I-Material
-should	NN	O	O
-be	NN	O	O
-measured	NN	O	O
-at	NN	O	O
-the	NN	O	O
-test	NN	O	O
-site	NN	O	O
-close	NN	O	O
-to	NN	O	O
-the	NN	O	O
-airplane	NN	O	O
-or	NN	O	O
-satellite	NN	O	O
-overpass	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-however	NN	O	O
-not	NN	O	O
-always	NN	O	O
-possible	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-valuable	NN	O	O
-source	NN	O	O
-of	NN	O	O
-information	NN	O	O
-is	NN	O	O
-the	NN	O	O
-IOCCG	NN	O	B-Material
-webpage	NN	O	O
-(	NN	O	O
-IOCCG	NN	O	O
-,	NN	O	O
-2013b	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-maintains	NN	O	O
-a	NN	O	O
-list	NN	O	O
-of	NN	O	O
-links	NN	O	O
-to	NN	O	O
-publicly	NN	O	O
-available	NN	O	O
-data	NN	O	O
-sets	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-the	NN	O	O
-IOCCG	NN	O	B-Material
-(	NN	O	I-Material
-2006	NN	O	I-Material
-)	NN	O	I-Material
-data	NN	O	I-Material
-bank	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-NASA	NN	O	B-Material
-bio	NN	O	I-Material
--	NN	O	I-Material
-Optical	NN	O	I-Material
-Marine	NN	O	I-Material
-Algorithm	NN	O	I-Material
-Data	NN	O	I-Material
-set	NN	O	I-Material
-(	NN	O	O
-NOMAD	NN	O	B-Material
-)	NN	O	O
-and	NN	O	O
-the	NN	O	O
-SeaWiFS	NN	O	B-Material
-Bio	NN	O	I-Material
--	NN	O	I-Material
-Optical	NN	O	I-Material
-Archive	NN	O	I-Material
-and	NN	O	I-Material
-Storage	NN	O	I-Material
-System	NN	O	I-Material
-(	NN	O	O
-SeaBASS	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
+A	0	1	O
+number	2	8	O
+of	9	11	O
+model	12	17	O
+parameters	18	28	O
+can	29	32	O
+change	33	39	O
+regionally	40	50	O
+or	51	53	O
+seasonally	54	64	O
+,	64	65	O
+in	66	68	O
+particular	69	79	O
+the	80	83	O
+inherent	84	92	O
+optical	93	100	O
+properties	101	111	O
+of	112	114	O
+water	115	120	B-Material
+constituents	121	133	I-Material
+[	134	135	O
+ai⁎(λ	135	140	B-Material
+)	140	141	O
+,	141	142	O
+aY⁎(λ	143	148	B-Material
+)	148	149	I-Material
+,	149	150	O
+aD⁎(λ	151	156	B-Material
+)	156	157	I-Material
+,	157	158	O
+bX(λ	159	163	B-Material
+)	163	164	I-Material
+,	164	165	O
+bb	166	168	B-Material
+,	168	169	I-Material
+X⁎	169	171	I-Material
+,	171	172	O
+bb	173	175	B-Material
+,	175	176	O
+Mie⁎	176	180	B-Material
+]	180	181	O
+and	182	185	O
+the	186	189	O
+apparent	190	198	O
+optical	199	206	B-Material
+properties	207	217	I-Material
+of	218	220	I-Material
+the	221	224	I-Material
+bottom	225	231	I-Material
+[	232	233	I-Material
+Rib(λ	233	238	I-Material
+)	238	239	I-Material
+,	239	240	I-Material
+Bi	241	243	I-Material
+]	243	244	I-Material
+and	245	248	I-Material
+the	249	252	I-Material
+atmosphere	253	263	I-Material
+.	263	264	O
+
+The	265	268	O
+database	269	277	B-Material
+provided	278	286	O
+with	287	291	O
+WASI	292	296	B-Material
+has	297	300	O
+been	301	305	O
+derived	306	313	O
+from	314	318	O
+in	319	321	B-Process
+-	321	322	I-Process
+situ	322	326	I-Process
+measurements	327	339	I-Process
+from	340	344	O
+lakes	345	350	O
+in	351	353	O
+Southern	354	362	O
+Germany	363	370	O
+
+(	371	372	O
+Gege	372	376	O
+,	376	377	O
+1998	378	382	O
+;	382	383	O
+Heege	384	389	O
+,	389	390	O
+2000	391	395	O
+;	395	396	O
+Pinnel	397	403	O
+,	403	404	O
+2007	405	409	O
+)	409	410	O
+.	410	411	O
+
+If	412	414	O
+no	415	417	O
+site	418	422	O
+-	422	423	O
+specific	423	431	O
+information	432	443	O
+is	444	446	O
+available	447	456	O
+,	456	457	O
+it	458	460	O
+can	461	464	O
+be	465	467	O
+used	468	472	O
+as	473	475	O
+a	476	477	O
+first	478	483	O
+approximation	484	497	O
+for	498	501	O
+other	502	507	O
+ecosystems	508	518	O
+as	519	521	O
+well	522	526	O
+.	526	527	O
+
+The	528	531	O
+variability	532	543	O
+within	544	550	O
+an	551	553	O
+ecosystem	554	563	O
+can	564	567	O
+be	568	570	O
+as	571	573	O
+large	574	579	O
+as	580	582	O
+between	583	590	O
+different	591	600	O
+ecosystem	601	610	O
+,	610	611	O
+i.e.	612	616	O
+ecosystem	617	626	O
+-	626	627	O
+specific	627	635	O
+sets	636	640	O
+of	641	643	O
+optical	644	651	O
+properties	652	662	O
+do	663	665	O
+not	666	669	O
+exist	670	675	O
+.	675	676	O
+
+However	677	684	O
+,	684	685	O
+region	686	692	B-Material
+or	693	695	I-Material
+season	696	702	I-Material
+specific	703	711	I-Material
+information	712	723	I-Material
+should	724	730	O
+be	731	733	O
+used	734	738	O
+whenever	739	747	O
+available	748	757	O
+.	757	758	O
+
+Ideally	759	766	O
+,	766	767	O
+the	768	771	O
+optical	772	779	B-Material
+properties	780	790	I-Material
+should	791	797	O
+be	798	800	O
+measured	801	809	O
+at	810	812	O
+the	813	816	O
+test	817	821	O
+site	822	826	O
+close	827	832	O
+to	833	835	O
+the	836	839	O
+airplane	840	848	O
+or	849	851	O
+satellite	852	861	O
+overpass	862	870	O
+.	870	871	O
+
+This	872	876	O
+is	877	879	O
+however	880	887	O
+not	888	891	O
+always	892	898	O
+possible	899	907	O
+.	907	908	O
+
+A	909	910	O
+valuable	911	919	O
+source	920	926	O
+of	927	929	O
+information	930	941	O
+is	942	944	O
+the	945	948	O
+IOCCG	949	954	B-Material
+webpage	955	962	O
+(	963	964	O
+IOCCG	964	969	O
+,	969	970	O
+2013b	971	976	O
+)	976	977	O
+.	977	978	O
+
+It	979	981	O
+maintains	982	991	O
+a	992	993	O
+list	994	998	O
+of	999	1001	O
+links	1002	1007	O
+to	1008	1010	O
+publicly	1011	1019	O
+available	1020	1029	O
+data	1030	1034	O
+sets	1035	1039	O
+,	1039	1040	O
+for	1041	1044	O
+example	1045	1052	O
+the	1053	1056	O
+IOCCG	1057	1062	B-Material
+(	1063	1064	I-Material
+2006	1064	1068	I-Material
+)	1068	1069	I-Material
+data	1070	1074	I-Material
+bank	1075	1079	I-Material
+,	1079	1080	O
+the	1081	1084	O
+NASA	1085	1089	B-Material
+bio	1090	1093	I-Material
+-	1093	1094	I-Material
+Optical	1094	1101	I-Material
+Marine	1102	1108	I-Material
+Algorithm	1109	1118	I-Material
+Data	1119	1123	I-Material
+set	1124	1127	I-Material
+(	1128	1129	O
+NOMAD	1129	1134	B-Material
+)	1134	1135	O
+and	1136	1139	O
+the	1140	1143	O
+SeaWiFS	1144	1151	B-Material
+Bio	1152	1155	I-Material
+-	1155	1156	I-Material
+Optical	1156	1163	I-Material
+Archive	1164	1171	I-Material
+and	1172	1175	I-Material
+Storage	1176	1183	I-Material
+System	1184	1190	I-Material
+(	1191	1192	O
+SeaBASS	1192	1199	B-Material
+)	1199	1200	O
+.	1200	1201	O
 
 
 -DOCSTART- (S0098300413002720)
 
-Artificial	NN	O	B-Task
-Neural	NN	O	I-Task
-Networks	NN	O	I-Task
-(	NN	O	O
-ANN	NN	O	B-Task
-)	NN	O	O
-have	NN	O	O
-been	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-in	NN	O	O
-science	NN	O	B-Task
-and	NN	O	I-Task
-engineering	NN	O	I-Task
-problems	NN	O	I-Task
-.	NN	O	O
-
-They	NN	O	O
-attempt	NN	O	O
-to	NN	O	O
-model	NN	O	B-Process
-the	NN	O	I-Process
-ability	NN	O	I-Process
-of	NN	O	I-Process
-biological	NN	O	I-Process
-nervous	NN	O	I-Process
-systems	NN	O	I-Process
-to	NN	O	I-Process
-recognize	NN	O	I-Process
-patterns	NN	O	I-Process
-and	NN	O	I-Process
-objects	NN	O	I-Process
-.	NN	O	O
-
-ANN	NN	O	B-Task
-basic	NN	O	I-Task
-architecture	NN	O	I-Task
-consists	NN	O	O
-of	NN	O	O
-networks	NN	O	B-Material
-of	NN	O	I-Material
-primitive	NN	O	I-Material
-functions	NN	O	I-Material
-capable	NN	O	O
-of	NN	O	O
-receiving	NN	O	B-Process
-multiple	NN	O	I-Process
-weighted	NN	O	I-Process
-inputs	NN	O	I-Process
-that	NN	O	O
-are	NN	O	O
-evaluated	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-their	NN	O	O
-success	NN	O	O
-at	NN	O	O
-discriminating	NN	O	O
-the	NN	O	O
-classes	NN	O	O
-in	NN	O	O
-Τa	NN	O	O
-.	NN	O	O
-
-Different	NN	O	B-Task
-types	NN	O	I-Task
-of	NN	O	I-Task
-primitive	NN	O	I-Task
-functions	NN	O	I-Task
-and	NN	O	I-Task
-network	NN	O	I-Task
-configurations	NN	O	I-Task
-result	NN	O	O
-in	NN	O	O
-varying	NN	O	O
-models	NN	O	O
-(	NN	O	O
-Hastie	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2009	NN	O	O
-;	NN	O	O
-Rojas	NN	O	O
-,	NN	O	O
-1996	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-During	NN	O	O
-training	NN	O	B-Task
-network	NN	O	I-Task
-connection	NN	O	I-Task
-weights	NN	O	B-Material
-are	NN	O	O
-adjusted	NN	O	B-Process
-if	NN	O	I-Process
-the	NN	O	I-Process
-separation	NN	O	I-Process
-of	NN	O	I-Process
-inputs	NN	O	I-Process
-and	NN	O	I-Process
-predefined	NN	O	I-Process
-classes	NN	O	I-Process
-incurs	NN	O	I-Process
-an	NN	O	I-Process
-error	NN	O	I-Process
-.	NN	O	O
-
-Convergence	NN	O	B-Process
-proceeds	NN	O	O
-until	NN	O	O
-the	NN	O	B-Task
-reduction	NN	O	I-Task
-in	NN	O	I-Task
-error	NN	O	I-Task
-between	NN	O	I-Task
-iterations	NN	O	I-Task
-reaches	NN	O	I-Task
-a	NN	O	I-Task
-decay	NN	O	I-Task
-threshold	NN	O	I-Task
-(	NN	O	O
-Kotsiantis	NN	O	O
-,	NN	O	O
-2007	NN	O	O
-;	NN	O	O
-Rojas	NN	O	O
-,	NN	O	O
-1996	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-use	NN	O	O
-feed	NN	O	B-Process
--	NN	O	I-Process
-forward	NN	O	I-Process
-networks	NN	O	I-Process
-with	NN	O	I-Process
-a	NN	O	I-Process
-single	NN	O	I-Process
-hidden	NN	O	I-Process
-layer	NN	O	I-Process
-of	NN	O	I-Process
-nodes	NN	O	I-Process
-,	NN	O	O
-a	NN	O	O
-so	NN	O	O
-called	NN	O	O
-Multi	NN	O	B-Process
--	NN	O	I-Process
-Layer	NN	O	I-Process
-Perceptron	NN	O	I-Process
-(	NN	O	O
-MLP	NN	O	B-Process
-)	NN	O	O
-(	NN	O	O
-Venables	NN	O	O
-and	NN	O	O
-Ripley	NN	O	O
-,	NN	O	O
-2002	NN	O	O
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-select	NN	O	B-Process
-one	NN	O	I-Process
-of	NN	O	I-Process
-two	NN	O	I-Process
-possible	NN	O	I-Process
-parameters	NN	O	I-Process
-:	NN	O	O
-size	NN	O	O
-,	NN	O	O
-the	NN	O	O
-number	NN	O	O
-nodes	NN	O	O
-in	NN	O	O
-the	NN	O	O
-hidden	NN	O	O
-layer	NN	O	O
-.	NN	O	O
+Artificial	0	10	B-Task
+Neural	11	17	I-Task
+Networks	18	26	I-Task
+(	27	28	O
+ANN	28	31	B-Task
+)	31	32	O
+have	33	37	O
+been	38	42	O
+widely	43	49	O
+used	50	54	O
+in	55	57	O
+science	58	65	B-Task
+and	66	69	I-Task
+engineering	70	81	I-Task
+problems	82	90	I-Task
+.	90	91	O
+
+They	92	96	O
+attempt	97	104	O
+to	105	107	O
+model	108	113	B-Process
+the	114	117	I-Process
+ability	118	125	I-Process
+of	126	128	I-Process
+biological	129	139	I-Process
+nervous	140	147	I-Process
+systems	148	155	I-Process
+to	156	158	I-Process
+recognize	159	168	I-Process
+patterns	169	177	I-Process
+and	178	181	I-Process
+objects	182	189	I-Process
+.	189	190	O
+
+ANN	191	194	B-Task
+basic	195	200	I-Task
+architecture	201	213	I-Task
+consists	214	222	O
+of	223	225	O
+networks	226	234	B-Material
+of	235	237	I-Material
+primitive	238	247	I-Material
+functions	248	257	I-Material
+capable	258	265	O
+of	266	268	O
+receiving	269	278	B-Process
+multiple	279	287	I-Process
+weighted	288	296	I-Process
+inputs	297	303	I-Process
+that	304	308	O
+are	309	312	O
+evaluated	313	322	O
+in	323	325	O
+terms	326	331	O
+of	332	334	O
+their	335	340	O
+success	341	348	O
+at	349	351	O
+discriminating	352	366	O
+the	367	370	O
+classes	371	378	O
+in	379	381	O
+Τa	382	384	O
+.	384	385	O
+
+Different	386	395	B-Task
+types	396	401	I-Task
+of	402	404	I-Task
+primitive	405	414	I-Task
+functions	415	424	I-Task
+and	425	428	I-Task
+network	429	436	I-Task
+configurations	437	451	I-Task
+result	452	458	O
+in	459	461	O
+varying	462	469	O
+models	470	476	O
+(	477	478	O
+Hastie	478	484	O
+et	485	487	O
+al	488	490	O
+.	490	491	O
+,	491	492	O
+2009	493	497	O
+;	497	498	O
+Rojas	499	504	O
+,	504	505	O
+1996	506	510	O
+)	510	511	O
+.	511	512	O
+
+During	513	519	O
+training	520	528	B-Task
+network	529	536	I-Task
+connection	537	547	I-Task
+weights	548	555	B-Material
+are	556	559	O
+adjusted	560	568	B-Process
+if	569	571	I-Process
+the	572	575	I-Process
+separation	576	586	I-Process
+of	587	589	I-Process
+inputs	590	596	I-Process
+and	597	600	I-Process
+predefined	601	611	I-Process
+classes	612	619	I-Process
+incurs	620	626	I-Process
+an	627	629	I-Process
+error	630	635	I-Process
+.	635	636	O
+
+Convergence	637	648	B-Process
+proceeds	649	657	O
+until	658	663	O
+the	664	667	B-Task
+reduction	668	677	I-Task
+in	678	680	I-Task
+error	681	686	I-Task
+between	687	694	I-Task
+iterations	695	705	I-Task
+reaches	706	713	I-Task
+a	714	715	I-Task
+decay	716	721	I-Task
+threshold	722	731	I-Task
+(	732	733	O
+Kotsiantis	733	743	O
+,	743	744	O
+2007	745	749	O
+;	749	750	O
+Rojas	751	756	O
+,	756	757	O
+1996	758	762	O
+)	762	763	O
+.	763	764	O
+
+We	765	767	O
+use	768	771	O
+feed	772	776	B-Process
+-	776	777	I-Process
+forward	777	784	I-Process
+networks	785	793	I-Process
+with	794	798	I-Process
+a	799	800	I-Process
+single	801	807	I-Process
+hidden	808	814	I-Process
+layer	815	820	I-Process
+of	821	823	I-Process
+nodes	824	829	I-Process
+,	829	830	O
+a	831	832	O
+so	833	835	O
+called	836	842	O
+Multi	843	848	B-Process
+-	848	849	I-Process
+Layer	849	854	I-Process
+Perceptron	855	865	I-Process
+(	866	867	O
+MLP	867	870	B-Process
+)	870	871	O
+(	872	873	O
+Venables	873	881	O
+and	882	885	O
+Ripley	886	892	O
+,	892	893	O
+2002	894	898	O
+)	898	899	O
+,	899	900	O
+and	901	904	O
+select	905	911	B-Process
+one	912	915	I-Process
+of	916	918	I-Process
+two	919	922	I-Process
+possible	923	931	I-Process
+parameters	932	942	I-Process
+:	942	943	O
+size	944	948	O
+,	948	949	O
+the	950	953	O
+number	954	960	O
+nodes	961	966	O
+in	967	969	O
+the	970	973	O
+hidden	974	980	O
+layer	981	986	O
+.	986	987	O
 
 
 -DOCSTART- (S0098300413002951)
 
-Hitherto	NN	O	O
-,	NN	O	O
-the	NN	O	O
-investigation	NN	O	B-Task
-of	NN	O	I-Task
-fossil	NN	O	I-Task
--	NN	O	I-Task
-orientation	NN	O	I-Task
-was	NN	O	O
-only	NN	O	O
-used	NN	O	O
-for	NN	O	O
-the	NN	O	O
-topmost	NN	O	O
-surface	NN	O	O
-of	NN	O	O
-fossil	NN	O	B-Material
-mass	NN	O	I-Material
-occurrences	NN	O	I-Material
-,	NN	O	O
-deposited	NN	O	O
-directly	NN	O	O
-on	NN	O	O
-the	NN	O	O
-sea	NN	O	O
-floor	NN	O	O
-.	NN	O	O
-
-Due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-fast	NN	O	O
-development	NN	O	O
-of	NN	O	O
-virtual	NN	O	B-Process
-methods	NN	O	I-Process
-(	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-macro	NN	O	B-Process
--	NN	O	I-Process
-CT	NN	O	I-Process
-,	NN	O	O
-µ-CT	NN	O	B-Process
-,	NN	O	O
-nano	NN	O	B-Process
--	NN	O	I-Process
-CT	NN	O	I-Process
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-)	NN	O	O
-
-it	NN	O	O
-became	NN	O	O
-possible	NN	O	O
-,	NN	O	O
-to	NN	O	O
-investigate	NN	O	O
-the	NN	O	O
-interior	NN	O	O
-orientation	NN	O	O
-of	NN	O	O
-such	NN	O	O
-fossil	NN	O	B-Material
-mass	NN	O	I-Material
-occurrences	NN	O	I-Material
-in	NN	O	O
-three	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-detail	NN	O	O
-.	NN	O	O
-
-Although	NN	O	O
-,	NN	O	O
-a	NN	O	O
-series	NN	O	O
-of	NN	O	O
-paleontological	NN	O	O
-studies	NN	O	O
-deal	NN	O	O
-with	NN	O	O
-3D	NN	O	B-Process
--	NN	O	I-Process
-visualization	NN	O	I-Process
-of	NN	O	O
-fossil	NN	O	B-Material
--	NN	O	I-Material
-elements	NN	O	I-Material
-,	NN	O	O
-no	NN	O	O
-mass	NN	O	O
-occurrence	NN	O	O
-has	NN	O	O
-previously	NN	O	O
-been	NN	O	O
-reconstructed	NN	O	O
-three	NN	O	O
-dimensionally	NN	O	O
-for	NN	O	O
-investigating	NN	O	B-Task
-their	NN	O	I-Task
-interior	NN	O	I-Task
-orientation	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-study	NN	O	O
-illustrates	NN	O	O
-an	NN	O	O
-interdisciplinary	NN	O	O
-approach	NN	O	O
-of	NN	O	O
-virtual	NN	O	B-Task
-reconstruction	NN	O	I-Task
-,	NN	O	O
-analyses	NN	O	B-Task
-and	NN	O	I-Task
-interpretation	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-interior	NN	O	I-Task
-orientation	NN	O	I-Task
-of	NN	O	O
-an	NN	O	O
-ammonoid	NN	O	B-Material
-mass	NN	O	I-Material
-occurrence	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-method	NN	O	O
-established	NN	O	O
-herein	NN	O	O
-produces	NN	O	O
-clear	NN	O	O
-and	NN	O	O
-consistent	NN	O	O
-results	NN	O	O
-using	NN	O	O
-planispirally	NN	O	B-Process
-coiled	NN	O	I-Process
-ammonoid	NN	O	I-Process
-shells	NN	O	I-Process
-–	NN	O	O
-fossils	NN	O	O
-,	NN	O	O
-that	NN	O	O
-so	NN	O	O
-far	NN	O	O
-would	NN	O	O
-have	NN	O	O
-been	NN	O	O
-used	NN	O	O
-only	NN	O	O
-with	NN	O	O
-caution	NN	O	O
-for	NN	O	O
-depositional	NN	O	B-Task
-interpretations	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-method	NN	O	O
-can	NN	O	O
-be	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-any	NN	O	O
-kind	NN	O	O
-of	NN	O	O
-fossil	NN	O	B-Material
-mass	NN	O	I-Material
-occurrence	NN	O	I-Material
-,	NN	O	O
-or	NN	O	O
-even	NN	O	O
-other	NN	O	B-Material
-abundant	NN	O	I-Material
-organic	NN	O	I-Material
-elements	NN	O	I-Material
-and	NN	O	O
-particles	NN	O	B-Material
-,	NN	O	O
-to	NN	O	O
-examine	NN	O	O
-their	NN	O	O
-orientation	NN	O	O
-and	NN	O	O
-depositional	NN	O	O
-conditions	NN	O	O
-to	NN	O	O
-conclude	NN	O	O
-on	NN	O	O
-their	NN	O	O
-paleoenvironment	NN	O	O
-,	NN	O	O
-particularly	NN	O	O
-on	NN	O	O
-paleocurrents	NN	O	O
-.	NN	O	O
+Hitherto	0	8	O
+,	8	9	O
+the	10	13	O
+investigation	14	27	B-Task
+of	28	30	I-Task
+fossil	31	37	I-Task
+-	37	38	I-Task
+orientation	38	49	I-Task
+was	50	53	O
+only	54	58	O
+used	59	63	O
+for	64	67	O
+the	68	71	O
+topmost	72	79	O
+surface	80	87	O
+of	88	90	O
+fossil	91	97	B-Material
+mass	98	102	I-Material
+occurrences	103	114	I-Material
+,	114	115	O
+deposited	116	125	O
+directly	126	134	O
+on	135	137	O
+the	138	141	O
+sea	142	145	O
+floor	146	151	O
+.	151	152	O
+
+Due	153	156	O
+to	157	159	O
+the	160	163	O
+fast	164	168	O
+development	169	180	O
+of	181	183	O
+virtual	184	191	B-Process
+methods	192	199	I-Process
+(	200	201	O
+e.g.	201	205	O
+,	205	206	O
+macro	207	212	B-Process
+-	212	213	I-Process
+CT	213	215	I-Process
+,	215	216	O
+µ-CT	217	221	B-Process
+,	221	222	O
+nano	223	227	B-Process
+-	227	228	I-Process
+CT	228	230	I-Process
+,	230	231	O
+etc	232	235	O
+.	235	236	O
+)	236	237	O
+
+it	238	240	O
+became	241	247	O
+possible	248	256	O
+,	256	257	O
+to	258	260	O
+investigate	261	272	O
+the	273	276	O
+interior	277	285	O
+orientation	286	297	O
+of	298	300	O
+such	301	305	O
+fossil	306	312	B-Material
+mass	313	317	I-Material
+occurrences	318	329	I-Material
+in	330	332	O
+three	333	338	O
+-	338	339	O
+dimensional	339	350	O
+detail	351	357	O
+.	357	358	O
+
+Although	359	367	O
+,	367	368	O
+a	369	370	O
+series	371	377	O
+of	378	380	O
+paleontological	381	396	O
+studies	397	404	O
+deal	405	409	O
+with	410	414	O
+3D	415	417	B-Process
+-	417	418	I-Process
+visualization	418	431	I-Process
+of	432	434	O
+fossil	435	441	B-Material
+-	441	442	I-Material
+elements	442	450	I-Material
+,	450	451	O
+no	452	454	O
+mass	455	459	O
+occurrence	460	470	O
+has	471	474	O
+previously	475	485	O
+been	486	490	O
+reconstructed	491	504	O
+three	505	510	O
+dimensionally	511	524	O
+for	525	528	O
+investigating	529	542	B-Task
+their	543	548	I-Task
+interior	549	557	I-Task
+orientation	558	569	I-Task
+.	569	570	O
+
+This	571	575	O
+study	576	581	O
+illustrates	582	593	O
+an	594	596	O
+interdisciplinary	597	614	O
+approach	615	623	O
+of	624	626	O
+virtual	627	634	B-Task
+reconstruction	635	649	I-Task
+,	649	650	O
+analyses	651	659	B-Task
+and	660	663	I-Task
+interpretation	664	678	I-Task
+of	679	681	I-Task
+the	682	685	I-Task
+interior	686	694	I-Task
+orientation	695	706	I-Task
+of	707	709	O
+an	710	712	O
+ammonoid	713	721	B-Material
+mass	722	726	I-Material
+occurrence	727	737	I-Material
+.	737	738	O
+
+The	739	742	O
+method	743	749	O
+established	750	761	O
+herein	762	768	O
+produces	769	777	O
+clear	778	783	O
+and	784	787	O
+consistent	788	798	O
+results	799	806	O
+using	807	812	O
+planispirally	813	826	B-Process
+coiled	827	833	I-Process
+ammonoid	834	842	I-Process
+shells	843	849	I-Process
+–	850	851	O
+fossils	852	859	O
+,	859	860	O
+that	861	865	O
+so	866	868	O
+far	869	872	O
+would	873	878	O
+have	879	883	O
+been	884	888	O
+used	889	893	O
+only	894	898	O
+with	899	903	O
+caution	904	911	O
+for	912	915	O
+depositional	916	928	B-Task
+interpretations	929	944	I-Task
+.	944	945	O
+
+This	946	950	O
+method	951	957	O
+can	958	961	O
+be	962	964	O
+applied	965	972	O
+to	973	975	O
+any	976	979	O
+kind	980	984	O
+of	985	987	O
+fossil	988	994	B-Material
+mass	995	999	I-Material
+occurrence	1000	1010	I-Material
+,	1010	1011	O
+or	1012	1014	O
+even	1015	1019	O
+other	1020	1025	B-Material
+abundant	1026	1034	I-Material
+organic	1035	1042	I-Material
+elements	1043	1051	I-Material
+and	1052	1055	O
+particles	1056	1065	B-Material
+,	1065	1066	O
+to	1067	1069	O
+examine	1070	1077	O
+their	1078	1083	O
+orientation	1084	1095	O
+and	1096	1099	O
+depositional	1100	1112	O
+conditions	1113	1123	O
+to	1124	1126	O
+conclude	1127	1135	O
+on	1136	1138	O
+their	1139	1144	O
+paleoenvironment	1145	1161	O
+,	1161	1162	O
+particularly	1163	1175	O
+on	1176	1178	O
+paleocurrents	1179	1192	O
+.	1192	1193	O
 
 
 -DOCSTART- (S0142061516308079)
 
-The	NN	O	O
-above	NN	O	O
-discussion	NN	O	O
-summarizes	NN	O	O
-the	NN	O	O
-state	NN	O	O
-of	NN	O	O
-the	NN	O	O
-art	NN	O	O
-related	NN	O	O
-to	NN	O	O
-impacts	NN	O	O
-and	NN	O	O
-interpretations	NN	O	O
-of	NN	O	O
-communication	NN	O	B-Material
-latency	NN	O	I-Material
-between	NN	O	O
-RT	NN	O	B-Process
-simulators	NN	O	I-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-research	NN	O	O
-is	NN	O	O
-focused	NN	O	O
-primarily	NN	O	O
-on	NN	O	O
-the	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-the	NN	O	O
-data	NN	O	O
-loss	NN	O	O
-during	NN	O	O
-the	NN	O	O
-communication	NN	O	O
-and	NN	O	O
-how	NN	O	O
-to	NN	O	O
-mitigate	NN	O	O
-it	NN	O	O
-[	NN	O	O
-34	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-thermo	NN	O	B-Process
--	NN	O	I-Process
-electric	NN	O	I-Process
-co	NN	O	I-Process
--	NN	O	I-Process
-simulation	NN	O	I-Process
-example	NN	O	O
-in	NN	O	O
-[	NN	O	O
-35	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-time	NN	O	O
-constant	NN	O	O
-is	NN	O	O
-larger	NN	O	O
-in	NN	O	O
-the	NN	O	O
-thermal	NN	O	O
-simulation	NN	O	O
-than	NN	O	O
-that	NN	O	O
-of	NN	O	O
-power	NN	O	O
-system	NN	O	O
-simulation	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-the	NN	O	O
-communication	NN	O	B-Material
-latency	NN	O	I-Material
-will	NN	O	O
-not	NN	O	O
-significantly	NN	O	O
-affect	NN	O	O
-the	NN	O	O
-accuracy	NN	O	O
-of	NN	O	O
-co	NN	O	O
--	NN	O	O
-simulation	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-[	NN	O	O
-36	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-co	NN	O	B-Process
--	NN	O	I-Process
-simulation	NN	O	I-Process
-is	NN	O	O
-performed	NN	O	O
-using	NN	O	O
-resources	NN	O	O
-at	NN	O	O
-the	NN	O	O
-same	NN	O	O
-location	NN	O	O
-without	NN	O	O
-synthetically	NN	O	O
-introduced	NN	O	O
-delays	NN	O	O
-,	NN	O	O
-which	NN	O	O
-means	NN	O	O
-the	NN	O	O
-communication	NN	O	O
-latency	NN	O	O
-between	NN	O	O
-RT	NN	O	O
-simulators	NN	O	O
-is	NN	O	O
-ignored	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-[	NN	O	O
-37	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-authors	NN	O	O
-have	NN	O	O
-mentioned	NN	O	O
-the	NN	O	O
-communication	NN	O	O
-latency	NN	O	O
-as	NN	O	O
-an	NN	O	O
-important	NN	O	O
-factor	NN	O	O
-in	NN	O	O
-the	NN	O	O
-distributed	NN	O	B-Process
-simulation	NN	O	I-Process
-and	NN	O	O
-that	NN	O	O
-its	NN	O	O
-effect	NN	O	O
-on	NN	O	O
-simulation	NN	O	O
-stability	NN	O	O
-will	NN	O	O
-be	NN	O	O
-studied	NN	O	O
-as	NN	O	O
-future	NN	O	O
-work	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-in	NN	O	O
--	NN	O	O
-depth	NN	O	O
-research	NN	O	O
-about	NN	O	O
-the	NN	O	O
-role	NN	O	B-Material
-of	NN	O	I-Material
-communication	NN	O	I-Material
-latency	NN	O	I-Material
-and	NN	O	O
-mitigation	NN	O	O
-measure	NN	O	O
-for	NN	O	O
-geographically	NN	O	O
-distributed	NN	O	O
-RT	NN	O	O
-simulations	NN	O	O
-is	NN	O	O
-identified	NN	O	O
-as	NN	O	O
-a	NN	O	O
-technical	NN	O	O
-gap	NN	O	O
-and	NN	O	O
-addressed	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-.	NN	O	O
+The	0	3	O
+above	4	9	O
+discussion	10	20	O
+summarizes	21	31	O
+the	32	35	O
+state	36	41	O
+of	42	44	O
+the	45	48	O
+art	49	52	O
+related	53	60	O
+to	61	63	O
+impacts	64	71	O
+and	72	75	O
+interpretations	76	91	O
+of	92	94	O
+communication	95	108	B-Material
+latency	109	116	I-Material
+between	117	124	O
+RT	125	127	B-Process
+simulators	128	138	I-Process
+.	138	139	O
+
+However	140	147	O
+,	147	148	O
+research	149	157	O
+is	158	160	O
+focused	161	168	O
+primarily	169	178	O
+on	179	181	O
+the	182	185	O
+effect	186	192	O
+of	193	195	O
+the	196	199	O
+data	200	204	O
+loss	205	209	O
+during	210	216	O
+the	217	220	O
+communication	221	234	O
+and	235	238	O
+how	239	242	O
+to	243	245	O
+mitigate	246	254	O
+it	255	257	O
+[	258	259	O
+34	259	261	O
+]	261	262	O
+.	262	263	O
+
+In	264	266	O
+the	267	270	O
+thermo	271	277	B-Process
+-	277	278	I-Process
+electric	278	286	I-Process
+co	287	289	I-Process
+-	289	290	I-Process
+simulation	290	300	I-Process
+example	301	308	O
+in	309	311	O
+[	312	313	O
+35	313	315	O
+]	315	316	O
+,	316	317	O
+the	318	321	O
+time	322	326	O
+constant	327	335	O
+is	336	338	O
+larger	339	345	O
+in	346	348	O
+the	349	352	O
+thermal	353	360	O
+simulation	361	371	O
+than	372	376	O
+that	377	381	O
+of	382	384	O
+power	385	390	O
+system	391	397	O
+simulation	398	408	O
+.	408	409	O
+
+Thus	410	414	O
+the	415	418	O
+communication	419	432	B-Material
+latency	433	440	I-Material
+will	441	445	O
+not	446	449	O
+significantly	450	463	O
+affect	464	470	O
+the	471	474	O
+accuracy	475	483	O
+of	484	486	O
+co	487	489	O
+-	489	490	O
+simulation	490	500	O
+.	500	501	O
+
+In	502	504	O
+[	505	506	O
+36	506	508	O
+]	508	509	O
+,	509	510	O
+the	511	514	O
+co	515	517	B-Process
+-	517	518	I-Process
+simulation	518	528	I-Process
+is	529	531	O
+performed	532	541	O
+using	542	547	O
+resources	548	557	O
+at	558	560	O
+the	561	564	O
+same	565	569	O
+location	570	578	O
+without	579	586	O
+synthetically	587	600	O
+introduced	601	611	O
+delays	612	618	O
+,	618	619	O
+which	620	625	O
+means	626	631	O
+the	632	635	O
+communication	636	649	O
+latency	650	657	O
+between	658	665	O
+RT	666	668	O
+simulators	669	679	O
+is	680	682	O
+ignored	683	690	O
+.	690	691	O
+
+In	692	694	O
+[	695	696	O
+37	696	698	O
+]	698	699	O
+,	699	700	O
+the	701	704	O
+authors	705	712	O
+have	713	717	O
+mentioned	718	727	O
+the	728	731	O
+communication	732	745	O
+latency	746	753	O
+as	754	756	O
+an	757	759	O
+important	760	769	O
+factor	770	776	O
+in	777	779	O
+the	780	783	O
+distributed	784	795	B-Process
+simulation	796	806	I-Process
+and	807	810	O
+that	811	815	O
+its	816	819	O
+effect	820	826	O
+on	827	829	O
+simulation	830	840	O
+stability	841	850	O
+will	851	855	O
+be	856	858	O
+studied	859	866	O
+as	867	869	O
+future	870	876	O
+work	877	881	O
+.	881	882	O
+
+An	883	885	O
+in	886	888	O
+-	888	889	O
+depth	889	894	O
+research	895	903	O
+about	904	909	O
+the	910	913	O
+role	914	918	B-Material
+of	919	921	I-Material
+communication	922	935	I-Material
+latency	936	943	I-Material
+and	944	947	O
+mitigation	948	958	O
+measure	959	966	O
+for	967	970	O
+geographically	971	985	O
+distributed	986	997	O
+RT	998	1000	O
+simulations	1001	1012	O
+is	1013	1015	O
+identified	1016	1026	O
+as	1027	1029	O
+a	1030	1031	O
+technical	1032	1041	O
+gap	1042	1045	O
+and	1046	1049	O
+addressed	1050	1059	O
+in	1060	1062	O
+this	1063	1067	O
+paper	1068	1073	O
+.	1073	1074	O
 
 
 -DOCSTART- (S0165168416300603)
 
-Despite	NN	O	O
-the	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-SRC	NN	O	B-Process
--	NN	O	I-Process
-HE	NN	O	I-Process
-reduces	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-FEs	NN	O	O
-,	NN	O	O
-audio	NN	O	O
-measurements	NN	O	O
-extraction	NN	O	O
-based	NN	O	O
-on	NN	O	O
-SRC	NN	O	O
-would	NN	O	O
-still	NN	O	O
-be	NN	O	O
-not	NN	O	O
-suitable	NN	O	O
-for	NN	O	O
-real	NN	O	O
--	NN	O	O
-time	NN	O	O
-applications	NN	O	O
-[	NN	O	O
-39	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-previous	NN	O	O
-SRC	NN	O	O
--	NN	O	O
-HE	NN	O	O
-module	NN	O	O
-is	NN	O	O
-then	NN	O	O
-replaced	NN	O	O
-by	NN	O	O
-the	NN	O	O
-generalised	NN	O	B-Process
-cross	NN	O	I-Process
-correlation	NN	O	I-Process
-phase	NN	O	I-Process
-transform	NN	O	I-Process
-(	NN	O	O
-GCC	NN	O	B-Process
--	NN	O	I-Process
-PHAT	NN	O	I-Process
-)	NN	O	O
-introduced	NN	O	O
-in	NN	O	O
-Section	NN	O	O
-2.1	NN	O	O
-,	NN	O	O
-as	NN	O	O
-this	NN	O	O
-does	NN	O	O
-not	NN	O	O
-involve	NN	O	O
-cumbersome	NN	O	O
-point	NN	O	O
-function	NN	O	O
-estimations	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-drawback	NN	O	O
-is	NN	O	O
-that	NN	O	O
-the	NN	O	O
-basic	NN	O	O
-GCC	NN	O	B-Process
-algorithm	NN	O	I-Process
-can	NN	O	O
-only	NN	O	O
-detect	NN	O	O
-one	NN	O	O
-source	NN	O	O
-at	NN	O	O
-a	NN	O	O
-time	NN	O	O
-and	NN	O	O
-it	NN	O	O
-is	NN	O	O
-known	NN	O	O
-to	NN	O	O
-be	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-room	NN	O	O
-reverberations	NN	O	O
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-,	NN	O	O
-however	NN	O	O
-it	NN	O	O
-is	NN	O	O
-still	NN	O	O
-effective	NN	O	O
-under	NN	O	O
-moderate	NN	O	O
-reverberant	NN	O	O
-environments	NN	O	O
-(	NN	O	O
-T60≈0.3s	NN	O	O
-)	NN	O	O
-[	NN	O	O
-40	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-these	NN	O	O
-reasons	NN	O	O
-,	NN	O	O
-at	NN	O	O
-first	NN	O	O
-experiments	NN	O	O
-where	NN	O	O
-only	NN	O	O
-a	NN	O	O
-speaker	NN	O	B-Process
-is	NN	O	O
-active	NN	O	O
-at	NN	O	O
-any	NN	O	O
-given	NN	O	O
-time	NN	O	O
-are	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-,	NN	O	O
-as	NN	O	O
-it	NN	O	O
-often	NN	O	O
-happens	NN	O	O
-in	NN	O	O
-a	NN	O	O
-polite	NN	O	O
-conversation	NN	O	O
-between	NN	O	O
-two	NN	O	O
-or	NN	O	O
-more	NN	O	O
-people	NN	O	O
-.	NN	O	O
-
-Speech	NN	O	B-Material
-segments	NN	O	I-Material
-using	NN	O	O
-a	NN	O	O
-voice	NN	O	B-Process
-activity	NN	O	I-Process
-detector	NN	O	I-Process
-(	NN	O	O
-VAD	NN	O	B-Process
-)	NN	O	O
-
-[	NN	O	O
-41	NN	O	O
-]	NN	O	O
-are	NN	O	O
-further	NN	O	O
-extracted	NN	O	O
-and	NN	O	O
-processed	NN	O	O
-using	NN	O	O
-a	NN	O	O
-GCC	NN	O	B-Process
--	NN	O	I-Process
-PHAT	NN	O	I-Process
-step	NN	O	I-Process
-,	NN	O	O
-for	NN	O	O
-the	NN	O	O
-signal	NN	O	O
-to	NN	O	O
-be	NN	O	O
-more	NN	O	O
-robust	NN	O	O
-to	NN	O	O
-reverberations	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-the	NN	O	O
-measure	NN	O	O
-vector	NN	O	O
-obtained	NN	O	O
-za	NN	O	O
-(	NN	O	O
-see	NN	O	O
-Section	NN	O	O
-2.1	NN	O	O
-)	NN	O	O
-can	NN	O	O
-now	NN	O	O
-be	NN	O	O
-rewritten	NN	O	O
-as	NN	O	O
-za={τm(t	NN	O	O
-)	NN	O	O
-}	NN	O	O
-,	NN	O	O
-where	NN	O	O
-each	NN	O	O
-component	NN	O	O
-τm	NN	O	O
-is	NN	O	O
-the	NN	O	O
-TDOA	NN	O	O
-collected	NN	O	O
-at	NN	O	O
-the	NN	O	O
-m	NN	O	B-Process
--	NN	O	I-Process
-th	NN	O	I-Process
-microphone	NN	O	I-Process
-pair	NN	O	I-Process
-at	NN	O	O
-each	NN	O	O
-time	NN	O	O
-step	NN	O	O
-t.	NN	O	O
-
-Since	NN	O	O
-TDOAs	NN	O	O
-are	NN	O	O
-not	NN	O	O
-linear	NN	O	O
-in	NN	O	O
-the	NN	O	O
-speaker	NN	O	O
-position	NN	O	O
-,	NN	O	O
-they	NN	O	O
-must	NN	O	O
-be	NN	O	O
-input	NN	O	O
-into	NN	O	O
-an	NN	O	O
-extended	NN	O	O
-Kalman	NN	O	B-Process
-filter	NN	O	I-Process
-(	NN	O	O
-EKF	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-as	NN	O	O
-in	NN	O	O
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-to	NN	O	O
-get	NN	O	O
-an	NN	O	O
-audio	NN	O	B-Task
-position	NN	O	I-Task
-estimation	NN	O	I-Task
-.	NN	O	O
+Despite	0	7	O
+the	8	11	O
+fact	12	16	O
+that	17	21	O
+SRC	22	25	B-Process
+-	25	26	I-Process
+HE	26	28	I-Process
+reduces	29	36	O
+the	37	40	O
+number	41	47	O
+of	48	50	O
+FEs	51	54	O
+,	54	55	O
+audio	56	61	O
+measurements	62	74	O
+extraction	75	85	O
+based	86	91	O
+on	92	94	O
+SRC	95	98	O
+would	99	104	O
+still	105	110	O
+be	111	113	O
+not	114	117	O
+suitable	118	126	O
+for	127	130	O
+real	131	135	O
+-	135	136	O
+time	136	140	O
+applications	141	153	O
+[	154	155	O
+39	155	157	O
+]	157	158	O
+.	158	159	O
+
+The	160	163	O
+previous	164	172	O
+SRC	173	176	O
+-	176	177	O
+HE	177	179	O
+module	180	186	O
+is	187	189	O
+then	190	194	O
+replaced	195	203	O
+by	204	206	O
+the	207	210	O
+generalised	211	222	B-Process
+cross	223	228	I-Process
+correlation	229	240	I-Process
+phase	241	246	I-Process
+transform	247	256	I-Process
+(	257	258	O
+GCC	258	261	B-Process
+-	261	262	I-Process
+PHAT	262	266	I-Process
+)	266	267	O
+introduced	268	278	O
+in	279	281	O
+Section	282	289	O
+2.1	290	293	O
+,	293	294	O
+as	295	297	O
+this	298	302	O
+does	303	307	O
+not	308	311	O
+involve	312	319	O
+cumbersome	320	330	O
+point	331	336	O
+function	337	345	O
+estimations	346	357	O
+.	357	358	O
+
+The	359	362	O
+drawback	363	371	O
+is	372	374	O
+that	375	379	O
+the	380	383	O
+basic	384	389	O
+GCC	390	393	B-Process
+algorithm	394	403	I-Process
+can	404	407	O
+only	408	412	O
+detect	413	419	O
+one	420	423	O
+source	424	430	O
+at	431	433	O
+a	434	435	O
+time	436	440	O
+and	441	444	O
+it	445	447	O
+is	448	450	O
+known	451	456	O
+to	457	459	O
+be	460	462	O
+sensitive	463	472	O
+to	473	475	O
+room	476	480	O
+reverberations	481	495	O
+[	496	497	O
+5	497	498	O
+]	498	499	O
+,	499	500	O
+however	501	508	O
+it	509	511	O
+is	512	514	O
+still	515	520	O
+effective	521	530	O
+under	531	536	O
+moderate	537	545	O
+reverberant	546	557	O
+environments	558	570	O
+(	571	572	O
+T60≈0.3s	572	580	O
+)	580	581	O
+[	582	583	O
+40	583	585	O
+]	585	586	O
+.	586	587	O
+
+For	588	591	O
+these	592	597	O
+reasons	598	605	O
+,	605	606	O
+at	607	609	O
+first	610	615	O
+experiments	616	627	O
+where	628	633	O
+only	634	638	O
+a	639	640	O
+speaker	641	648	B-Process
+is	649	651	O
+active	652	658	O
+at	659	661	O
+any	662	665	O
+given	666	671	O
+time	672	676	O
+are	677	680	O
+carried	681	688	O
+out	689	692	O
+,	692	693	O
+as	694	696	O
+it	697	699	O
+often	700	705	O
+happens	706	713	O
+in	714	716	O
+a	717	718	O
+polite	719	725	O
+conversation	726	738	O
+between	739	746	O
+two	747	750	O
+or	751	753	O
+more	754	758	O
+people	759	765	O
+.	765	766	O
+
+Speech	767	773	B-Material
+segments	774	782	I-Material
+using	783	788	O
+a	789	790	O
+voice	791	796	B-Process
+activity	797	805	I-Process
+detector	806	814	I-Process
+(	815	816	O
+VAD	816	819	B-Process
+)	819	820	O
+
+[	821	822	O
+41	822	824	O
+]	824	825	O
+are	826	829	O
+further	830	837	O
+extracted	838	847	O
+and	848	851	O
+processed	852	861	O
+using	862	867	O
+a	868	869	O
+GCC	870	873	B-Process
+-	873	874	I-Process
+PHAT	874	878	I-Process
+step	879	883	I-Process
+,	883	884	O
+for	885	888	O
+the	889	892	O
+signal	893	899	O
+to	900	902	O
+be	903	905	O
+more	906	910	O
+robust	911	917	O
+to	918	920	O
+reverberations	921	935	O
+.	935	936	O
+
+Thus	937	941	O
+,	941	942	O
+the	943	946	O
+measure	947	954	O
+vector	955	961	O
+obtained	962	970	O
+za	971	973	O
+(	974	975	O
+see	975	978	O
+Section	979	986	O
+2.1	987	990	O
+)	990	991	O
+can	992	995	O
+now	996	999	O
+be	1000	1002	O
+rewritten	1003	1012	O
+as	1013	1015	O
+za={τm(t	1016	1024	O
+)	1024	1025	O
+}	1025	1026	O
+,	1026	1027	O
+where	1028	1033	O
+each	1034	1038	O
+component	1039	1048	O
+τm	1049	1051	O
+is	1052	1054	O
+the	1055	1058	O
+TDOA	1059	1063	O
+collected	1064	1073	O
+at	1074	1076	O
+the	1077	1080	O
+m	1081	1082	B-Process
+-	1082	1083	I-Process
+th	1083	1085	I-Process
+microphone	1086	1096	I-Process
+pair	1097	1101	I-Process
+at	1102	1104	O
+each	1105	1109	O
+time	1110	1114	O
+step	1115	1119	O
+t.	1120	1122	O
+
+Since	1123	1128	O
+TDOAs	1129	1134	O
+are	1135	1138	O
+not	1139	1142	O
+linear	1143	1149	O
+in	1150	1152	O
+the	1153	1156	O
+speaker	1157	1164	O
+position	1165	1173	O
+,	1173	1174	O
+they	1175	1179	O
+must	1180	1184	O
+be	1185	1187	O
+input	1188	1193	O
+into	1194	1198	O
+an	1199	1201	O
+extended	1202	1210	O
+Kalman	1211	1217	B-Process
+filter	1218	1224	I-Process
+(	1225	1226	O
+EKF	1226	1229	B-Process
+)	1229	1230	O
+,	1230	1231	O
+as	1232	1234	O
+in	1235	1237	O
+[	1238	1239	O
+10	1239	1241	O
+]	1241	1242	O
+to	1243	1245	O
+get	1246	1249	O
+an	1250	1252	O
+audio	1253	1258	B-Task
+position	1259	1267	I-Task
+estimation	1268	1278	I-Task
+.	1278	1279	O
 
 
 -DOCSTART- (S0165212511000862)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-we	NN	O	O
-construct	NN	O	O
-such	NN	O	O
-a	NN	O	O
-physical	NN	O	B-Process
-model	NN	O	I-Process
-with	NN	O	O
-a	NN	O	O
-continuous	NN	O	B-Task
-distribution	NN	O	I-Task
-of	NN	O	I-Task
-relaxations	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-phenomenological	NN	O	B-Task
-theory	NN	O	I-Task
-of	NN	O	I-Task
-relaxation	NN	O	I-Task
-processes	NN	O	I-Task
-which	NN	O	O
-have	NN	O	O
-a	NN	O	O
-long	NN	O	O
-history	NN	O	O
-in	NN	O	O
-physics	NN	O	O
-literature	NN	O	O
-and	NN	O	O
-was	NN	O	O
-recently	NN	O	O
-summarized	NN	O	O
-in	NN	O	O
-a	NN	O	O
-monograph	NN	O	O
-in	NN	O	O
-which	NN	O	O
-references	NN	O	O
-to	NN	O	O
-other	NN	O	O
-relevant	NN	O	O
-publications	NN	O	O
-can	NN	O	O
-be	NN	O	O
-found	NN	O	O
-,	NN	O	O
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-;	NN	O	O
-also	NN	O	O
-see	NN	O	O
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-present	NN	O	O
-work	NN	O	O
-is	NN	O	O
-confined	NN	O	O
-to	NN	O	O
-relaxation	NN	O	B-Process
-mechanisms	NN	O	I-Process
-which	NN	O	O
-result	NN	O	O
-from	NN	O	O
-changes	NN	O	O
-in	NN	O	O
-normal	NN	O	O
-stresses	NN	O	O
-.	NN	O	O
-
-More	NN	O	O
-specifically	NN	O	O
-,	NN	O	O
-we	NN	O	O
-are	NN	O	O
-interested	NN	O	O
-in	NN	O	O
-the	NN	O	O
-local	NN	O	B-Task
-mechanisms	NN	O	I-Task
-of	NN	O	I-Task
-irreversible	NN	O	I-Task
-energy	NN	O	I-Task
-loss	NN	O	I-Task
-caused	NN	O	O
-by	NN	O	O
-uniform	NN	O	O
-compression	NN	O	B-Process
-or	NN	O	I-Process
-expansion	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-medium	NN	O	I-Process
-for	NN	O	O
-which	NN	O	O
-all	NN	O	O
-components	NN	O	O
-remain	NN	O	O
-unchanged	NN	O	O
-,	NN	O	O
-rather	NN	O	O
-than	NN	O	O
-the	NN	O	O
-losses	NN	O	O
-caused	NN	O	O
-by	NN	O	O
-friction	NN	O	B-Process
-between	NN	O	I-Process
-different	NN	O	I-Process
-layers	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-medium	NN	O	I-Process
-which	NN	O	O
-move	NN	O	O
-with	NN	O	O
-different	NN	O	O
-velocities	NN	O	O
-(	NN	O	O
-for	NN	O	O
-a	NN	O	O
-more	NN	O	O
-detailed	NN	O	O
-discussion	NN	O	O
-of	NN	O	O
-this	NN	O	O
-issue	NN	O	O
-see	NN	O	O
-[	NN	O	O
-26	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-No	NN	O	O
-attempt	NN	O	O
-is	NN	O	O
-made	NN	O	O
-to	NN	O	O
-model	NN	O	O
-effects	NN	O	O
-of	NN	O	O
-shear	NN	O	B-Process
-viscosity	NN	O	I-Process
-and	NN	O	O
-heat	NN	O	B-Process
-conduction	NN	O	I-Process
-beyond	NN	O	O
-the	NN	O	O
-conventional	NN	O	O
-Navier	NN	O	O
-–	NN	O	O
-
-Stokes	NN	O	O
-approach	NN	O	O
-,	NN	O	O
-since	NN	O	O
-this	NN	O	O
-topic	NN	O	O
-goes	NN	O	O
-far	NN	O	O
-beyond	NN	O	O
-the	NN	O	O
-scope	NN	O	O
-of	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+we	14	16	O
+construct	17	26	O
+such	27	31	O
+a	32	33	O
+physical	34	42	B-Process
+model	43	48	I-Process
+with	49	53	O
+a	54	55	O
+continuous	56	66	B-Task
+distribution	67	79	I-Task
+of	80	82	I-Task
+relaxations	83	94	I-Task
+.	94	95	O
+
+It	96	98	O
+is	99	101	O
+based	102	107	O
+on	108	110	O
+the	111	114	O
+phenomenological	115	131	B-Task
+theory	132	138	I-Task
+of	139	141	I-Task
+relaxation	142	152	I-Task
+processes	153	162	I-Task
+which	163	168	O
+have	169	173	O
+a	174	175	O
+long	176	180	O
+history	181	188	O
+in	189	191	O
+physics	192	199	O
+literature	200	210	O
+and	211	214	O
+was	215	218	O
+recently	219	227	O
+summarized	228	238	O
+in	239	241	O
+a	242	243	O
+monograph	244	253	O
+in	254	256	O
+which	257	262	O
+references	263	273	O
+to	274	276	O
+other	277	282	O
+relevant	283	291	O
+publications	292	304	O
+can	305	308	O
+be	309	311	O
+found	312	317	O
+,	317	318	O
+[	319	320	O
+24	320	322	O
+]	322	323	O
+;	323	324	O
+also	325	329	O
+see	330	333	O
+[	334	335	O
+25	335	337	O
+]	337	338	O
+.	338	339	O
+
+The	340	343	O
+present	344	351	O
+work	352	356	O
+is	357	359	O
+confined	360	368	O
+to	369	371	O
+relaxation	372	382	B-Process
+mechanisms	383	393	I-Process
+which	394	399	O
+result	400	406	O
+from	407	411	O
+changes	412	419	O
+in	420	422	O
+normal	423	429	O
+stresses	430	438	O
+.	438	439	O
+
+More	440	444	O
+specifically	445	457	O
+,	457	458	O
+we	459	461	O
+are	462	465	O
+interested	466	476	O
+in	477	479	O
+the	480	483	O
+local	484	489	B-Task
+mechanisms	490	500	I-Task
+of	501	503	I-Task
+irreversible	504	516	I-Task
+energy	517	523	I-Task
+loss	524	528	I-Task
+caused	529	535	O
+by	536	538	O
+uniform	539	546	O
+compression	547	558	B-Process
+or	559	561	I-Process
+expansion	562	571	I-Process
+of	572	574	I-Process
+a	575	576	I-Process
+medium	577	583	I-Process
+for	584	587	O
+which	588	593	O
+all	594	597	O
+components	598	608	O
+remain	609	615	O
+unchanged	616	625	O
+,	625	626	O
+rather	627	633	O
+than	634	638	O
+the	639	642	O
+losses	643	649	O
+caused	650	656	O
+by	657	659	O
+friction	660	668	B-Process
+between	669	676	I-Process
+different	677	686	I-Process
+layers	687	693	I-Process
+of	694	696	I-Process
+a	697	698	I-Process
+medium	699	705	I-Process
+which	706	711	O
+move	712	716	O
+with	717	721	O
+different	722	731	O
+velocities	732	742	O
+(	743	744	O
+for	744	747	O
+a	748	749	O
+more	750	754	O
+detailed	755	763	O
+discussion	764	774	O
+of	775	777	O
+this	778	782	O
+issue	783	788	O
+see	789	792	O
+[	793	794	O
+26	794	796	O
+]	796	797	O
+)	797	798	O
+.	798	799	O
+
+No	800	802	O
+attempt	803	810	O
+is	811	813	O
+made	814	818	O
+to	819	821	O
+model	822	827	O
+effects	828	835	O
+of	836	838	O
+shear	839	844	B-Process
+viscosity	845	854	I-Process
+and	855	858	O
+heat	859	863	B-Process
+conduction	864	874	I-Process
+beyond	875	881	O
+the	882	885	O
+conventional	886	898	O
+Navier	899	905	O
+–	905	906	O
+
+Stokes	906	912	O
+approach	913	921	O
+,	921	922	O
+since	923	928	O
+this	929	933	O
+topic	934	939	O
+goes	940	944	O
+far	945	948	O
+beyond	949	955	O
+the	956	959	O
+scope	960	965	O
+of	966	968	O
+this	969	973	O
+paper	974	979	O
+.	979	980	O
 
 
 -DOCSTART- (S0165212511000874)
 
-The	NN	O	O
-propagation	NN	O	B-Task
-of	NN	O	I-Task
-unsteady	NN	O	I-Task
-disturbances	NN	O	I-Task
-in	NN	O	O
-ducts	NN	O	B-Material
-of	NN	O	O
-slowly	NN	O	O
--	NN	O	O
-varying	NN	O	O
-geometry	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-those	NN	O	O
-typical	NN	O	O
-of	NN	O	O
-an	NN	O	O
-aeroengine	NN	O	B-Material
-,	NN	O	O
-can	NN	O	O
-be	NN	O	O
-successfully	NN	O	O
-modelled	NN	O	O
-using	NN	O	O
-a	NN	O	O
-multiple	NN	O	B-Process
-scales	NN	O	I-Process
-approach	NN	O	I-Process
-.	NN	O	O
-
-From	NN	O	O
-the	NN	O	O
-first	NN	O	O
-application	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-of	NN	O	O
-multiple	NN	O	B-Process
--	NN	O	I-Process
-scales	NN	O	I-Process
-analysis	NN	O	I-Process
-to	NN	O	O
-sound	NN	O	B-Process
-propagation	NN	O	I-Process
-in	NN	O	O
-ducts	NN	O	B-Material
-of	NN	O	O
-rectangular	NN	O	O
-and	NN	O	O
-circular	NN	O	O
-cross	NN	O	O
-section	NN	O	O
-without	NN	O	O
-mean	NN	O	B-Process
-flow	NN	O	I-Process
-,	NN	O	O
-more	NN	O	O
-recent	NN	O	O
-developments	NN	O	O
-have	NN	O	O
-extended	NN	O	O
-the	NN	O	O
-method	NN	O	O
-to	NN	O	O
-cases	NN	O	O
-with	NN	O	O
-uniform	NN	O	B-Process
-mean	NN	O	I-Process
-flow	NN	O	I-Process
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-,	NN	O	O
-mean	NN	O	B-Process
-swirling	NN	O	I-Process
-flow	NN	O	I-Process
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-,	NN	O	O
-ducts	NN	O	B-Material
-of	NN	O	O
-arbitrary	NN	O	O
-cross	NN	O	O
-section	NN	O	O
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-(	NN	O	O
-with	NN	O	O
-uniform	NN	O	B-Process
-mean	NN	O	I-Process
-flow	NN	O	I-Process
-)	NN	O	O
-and	NN	O	O
-strongly	NN	O	B-Material
-curved	NN	O	I-Material
-ducts	NN	O	I-Material
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-multiple	NN	O	B-Process
--	NN	O	I-Process
-scales	NN	O	I-Process
-approach	NN	O	I-Process
-has	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-distinct	NN	O	O
-advantages	NN	O	O
-over	NN	O	O
-full	NN	O	O
-numerical	NN	O	B-Process
-methods	NN	O	I-Process
-as	NN	O	O
-it	NN	O	O
-is	NN	O	O
-ideally	NN	O	O
-suited	NN	O	O
-to	NN	O	O
-handle	NN	O	O
-higher	NN	O	B-Process
-frequencies	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-complexity	NN	O	O
-is	NN	O	O
-only	NN	O	O
-marginally	NN	O	O
-more	NN	O	O
-than	NN	O	O
-calculating	NN	O	B-Process
-the	NN	O	I-Process
-eigenmodes	NN	O	I-Process
-inside	NN	O	O
-a	NN	O	O
-straight	NN	O	B-Material
-parallel	NN	O	I-Material
-duct	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-accuracy	NN	O	O
-and	NN	O	O
-usefulness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-multiple	NN	O	B-Process
-scales	NN	O	I-Process
-approach	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-validated	NN	O	O
-against	NN	O	O
-finite	NN	O	B-Process
--	NN	O	I-Process
-element	NN	O	I-Process
-methods	NN	O	I-Process
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-for	NN	O	O
-realistic	NN	O	O
-aeroengine	NN	O	B-Task
-configurations	NN	O	I-Task
-and	NN	O	O
-acoustic	NN	O	B-Task
-frequencies	NN	O	I-Task
-[	NN	O	O
-7,8	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+propagation	4	15	B-Task
+of	16	18	I-Task
+unsteady	19	27	I-Task
+disturbances	28	40	I-Task
+in	41	43	O
+ducts	44	49	B-Material
+of	50	52	O
+slowly	53	59	O
+-	59	60	O
+varying	60	67	O
+geometry	68	76	O
+,	76	77	O
+such	78	82	O
+as	83	85	O
+those	86	91	O
+typical	92	99	O
+of	100	102	O
+an	103	105	O
+aeroengine	106	116	B-Material
+,	116	117	O
+can	118	121	O
+be	122	124	O
+successfully	125	137	O
+modelled	138	146	O
+using	147	152	O
+a	153	154	O
+multiple	155	163	B-Process
+scales	164	170	I-Process
+approach	171	179	I-Process
+.	179	180	O
+
+From	181	185	O
+the	186	189	O
+first	190	195	O
+application	196	207	O
+[	208	209	O
+1	209	210	O
+]	210	211	O
+of	212	214	O
+multiple	215	223	B-Process
+-	223	224	I-Process
+scales	224	230	I-Process
+analysis	231	239	I-Process
+to	240	242	O
+sound	243	248	B-Process
+propagation	249	260	I-Process
+in	261	263	O
+ducts	264	269	B-Material
+of	270	272	O
+rectangular	273	284	O
+and	285	288	O
+circular	289	297	O
+cross	298	303	O
+section	304	311	O
+without	312	319	O
+mean	320	324	B-Process
+flow	325	329	I-Process
+,	329	330	O
+more	331	335	O
+recent	336	342	O
+developments	343	355	O
+have	356	360	O
+extended	361	369	O
+the	370	373	O
+method	374	380	O
+to	381	383	O
+cases	384	389	O
+with	390	394	O
+uniform	395	402	B-Process
+mean	403	407	I-Process
+flow	408	412	I-Process
+[	413	414	O
+2	414	415	O
+]	415	416	O
+,	416	417	O
+mean	418	422	B-Process
+swirling	423	431	I-Process
+flow	432	436	I-Process
+[	437	438	O
+3	438	439	O
+]	439	440	O
+,	440	441	O
+ducts	442	447	B-Material
+of	448	450	O
+arbitrary	451	460	O
+cross	461	466	O
+section	467	474	O
+[	475	476	O
+4	476	477	O
+]	477	478	O
+(	479	480	O
+with	480	484	O
+uniform	485	492	B-Process
+mean	493	497	I-Process
+flow	498	502	I-Process
+)	502	503	O
+and	504	507	O
+strongly	508	516	B-Material
+curved	517	523	I-Material
+ducts	524	529	I-Material
+[	530	531	O
+5	531	532	O
+]	532	533	O
+.	533	534	O
+
+The	535	538	O
+multiple	539	547	B-Process
+-	547	548	I-Process
+scales	548	554	I-Process
+approach	555	563	I-Process
+has	564	567	O
+a	568	569	O
+number	570	576	O
+of	577	579	O
+distinct	580	588	O
+advantages	589	599	O
+over	600	604	O
+full	605	609	O
+numerical	610	619	B-Process
+methods	620	627	I-Process
+as	628	630	O
+it	631	633	O
+is	634	636	O
+ideally	637	644	O
+suited	645	651	O
+to	652	654	O
+handle	655	661	O
+higher	662	668	B-Process
+frequencies	669	680	I-Process
+and	681	684	O
+the	685	688	O
+computational	689	702	O
+complexity	703	713	O
+is	714	716	O
+only	717	721	O
+marginally	722	732	O
+more	733	737	O
+than	738	742	O
+calculating	743	754	B-Process
+the	755	758	I-Process
+eigenmodes	759	769	I-Process
+inside	770	776	O
+a	777	778	O
+straight	779	787	B-Material
+parallel	788	796	I-Material
+duct	797	801	I-Material
+.	801	802	O
+
+The	803	806	O
+accuracy	807	815	O
+and	816	819	O
+usefulness	820	830	O
+of	831	833	O
+the	834	837	O
+multiple	838	846	B-Process
+scales	847	853	I-Process
+approach	854	862	I-Process
+has	863	866	O
+been	867	871	O
+validated	872	881	O
+against	882	889	O
+finite	890	896	B-Process
+-	896	897	I-Process
+element	897	904	I-Process
+methods	905	912	I-Process
+[	913	914	O
+6	914	915	O
+]	915	916	O
+for	917	920	O
+realistic	921	930	O
+aeroengine	931	941	B-Task
+configurations	942	956	I-Task
+and	957	960	O
+acoustic	961	969	B-Task
+frequencies	970	981	I-Task
+[	982	983	O
+7,8	983	986	O
+]	986	987	O
+.	987	988	O
 
 
 -DOCSTART- (S0165212515000931)
 
-We	NN	O	O
-describe	NN	O	O
-three	NN	O	O
-ways	NN	O	O
-to	NN	O	O
-solve	NN	O	O
-the	NN	O	O
-reflection	NN	O	B-Task
-problem	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-first	NN	O	O
-way	NN	O	O
-is	NN	O	O
-very	NN	O	O
-simple	NN	O	O
-(	NN	O	O
-Section	NN	O	O
-4	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-exploit	NN	O	O
-the	NN	O	O
-consequences	NN	O	O
-of	NN	O	O
-shifting	NN	O	B-Process
-the	NN	O	I-Process
-semi	NN	O	I-Process
--	NN	O	I-Process
-infinite	NN	O	I-Process
-row	NN	O	I-Process
-by	NN	O	O
-one	NN	O	O
-period	NN	O	O
-(	NN	O	O
-to	NN	O	O
-the	NN	O	O
-right	NN	O	O
-or	NN	O	O
-left	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-effect	NN	O	O
-,	NN	O	O
-we	NN	O	O
-regard	NN	O	O
-the	NN	O	O
-semi	NN	O	B-Process
--	NN	O	I-Process
-infinite	NN	O	I-Process
-row	NN	O	I-Process
-as	NN	O	O
-two	NN	O	B-Process
-scatterers	NN	O	I-Process
-,	NN	O	O
-one	NN	O	O
-of	NN	O	O
-which	NN	O	O
-is	NN	O	O
-another	NN	O	O
-semi	NN	O	B-Process
--	NN	O	I-Process
-infinite	NN	O	I-Process
-row	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-idea	NN	O	O
-goes	NN	O	O
-back	NN	O	O
-to	NN	O	O
-a	NN	O	O
-series	NN	O	O
-of	NN	O	O
-papers	NN	O	O
-by	NN	O	O
-Millar	NN	O	O
-in	NN	O	O
-the	NN	O	O
-1960s	NN	O	O
-,	NN	O	O
-starting	NN	O	O
-with	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-He	NN	O	O
-used	NN	O	O
-it	NN	O	O
-for	NN	O	O
-several	NN	O	O
-two	NN	O	B-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-grating	NN	O	I-Task
-problems	NN	O	I-Task
-.	NN	O	O
-
-A	NN	O	O
-similar	NN	O	O
-approach	NN	O	O
-was	NN	O	O
-used	NN	O	O
-for	NN	O	O
-layered	NN	O	B-Material
-media	NN	O	I-Material
-by	NN	O	O
-Shenderov	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-our	NN	O	O
-one	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-context	NN	O	O
-,	NN	O	O
-we	NN	O	O
-obtain	NN	O	B-Process
-a	NN	O	I-Process
-quadratic	NN	O	I-Process
-equation	NN	O	I-Process
-for	NN	O	O
-R	NN	O	O
-;	NN	O	O
-we	NN	O	O
-show	NN	O	O
-how	NN	O	O
-to	NN	O	O
-select	NN	O	O
-the	NN	O	O
-correct	NN	O	O
-solution	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-remark	NN	O	O
-that	NN	O	O
-there	NN	O	O
-has	NN	O	O
-been	NN	O	O
-much	NN	O	O
-recent	NN	O	O
-interest	NN	O	O
-in	NN	O	O
-related	NN	O	O
-two	NN	O	B-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-waveguide	NN	O	I-Task
-problems	NN	O	I-Task
-;	NN	O	O
-see	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-,	NN	O	O
-[	NN	O	O
-4–6	NN	O	O
-]	NN	O	O
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-shifting	NN	O	B-Process
--	NN	O	I-Process
-by	NN	O	I-Process
--	NN	O	I-Process
-one	NN	O	I-Process
--	NN	O	I-Process
-period	NN	O	I-Process
-idea	NN	O	I-Process
-is	NN	O	O
-again	NN	O	O
-employed	NN	O	O
-,	NN	O	O
-leading	NN	O	O
-to	NN	O	O
-a	NN	O	O
-quadratic	NN	O	B-Process
-equation	NN	O	I-Process
-for	NN	O	O
-a	NN	O	O
-certain	NN	O	O
-operator	NN	O	O
-.	NN	O	O
+We	0	2	O
+describe	3	11	O
+three	12	17	O
+ways	18	22	O
+to	23	25	O
+solve	26	31	O
+the	32	35	O
+reflection	36	46	B-Task
+problem	47	54	I-Task
+.	54	55	O
+
+The	56	59	O
+first	60	65	O
+way	66	69	O
+is	70	72	O
+very	73	77	O
+simple	78	84	O
+(	85	86	O
+Section	86	93	O
+4	95	96	O
+)	96	97	O
+.	97	98	O
+
+We	99	101	O
+exploit	102	109	O
+the	110	113	O
+consequences	114	126	O
+of	127	129	O
+shifting	130	138	B-Process
+the	139	142	I-Process
+semi	143	147	I-Process
+-	147	148	I-Process
+infinite	148	156	I-Process
+row	157	160	I-Process
+by	161	163	O
+one	164	167	O
+period	168	174	O
+(	175	176	O
+to	176	178	O
+the	179	182	O
+right	183	188	O
+or	189	191	O
+left	192	196	O
+)	196	197	O
+.	197	198	O
+
+In	199	201	O
+effect	202	208	O
+,	208	209	O
+we	210	212	O
+regard	213	219	O
+the	220	223	O
+semi	224	228	B-Process
+-	228	229	I-Process
+infinite	229	237	I-Process
+row	238	241	I-Process
+as	242	244	O
+two	245	248	B-Process
+scatterers	249	259	I-Process
+,	259	260	O
+one	261	264	O
+of	265	267	O
+which	268	273	O
+is	274	276	O
+another	277	284	O
+semi	285	289	B-Process
+-	289	290	I-Process
+infinite	290	298	I-Process
+row	299	302	I-Process
+.	302	303	O
+
+This	304	308	O
+idea	309	313	O
+goes	314	318	O
+back	319	323	O
+to	324	326	O
+a	327	328	O
+series	329	335	O
+of	336	338	O
+papers	339	345	O
+by	346	348	O
+Millar	349	355	O
+in	356	358	O
+the	359	362	O
+1960s	363	368	O
+,	368	369	O
+starting	370	378	O
+with	379	383	O
+[	385	386	O
+2	386	387	O
+]	387	388	O
+.	388	389	O
+
+He	390	392	O
+used	393	397	O
+it	398	400	O
+for	401	404	O
+several	405	412	O
+two	413	416	B-Task
+-	416	417	I-Task
+dimensional	417	428	I-Task
+grating	429	436	I-Task
+problems	437	445	I-Task
+.	445	446	O
+
+A	447	448	O
+similar	449	456	O
+approach	457	465	O
+was	466	469	O
+used	470	474	O
+for	475	478	O
+layered	479	486	B-Material
+media	487	492	I-Material
+by	493	495	O
+Shenderov	496	505	O
+[	507	508	O
+3	508	509	O
+]	509	510	O
+.	510	511	O
+
+In	512	514	O
+our	515	518	O
+one	519	522	O
+-	522	523	O
+dimensional	523	534	O
+context	535	542	O
+,	542	543	O
+we	544	546	O
+obtain	547	553	B-Process
+a	554	555	I-Process
+quadratic	556	565	I-Process
+equation	566	574	I-Process
+for	575	578	O
+R	579	580	O
+;	580	581	O
+we	582	584	O
+show	585	589	O
+how	590	593	O
+to	594	596	O
+select	597	603	O
+the	604	607	O
+correct	608	615	O
+solution	616	624	O
+.	624	625	O
+
+We	626	628	O
+remark	629	635	O
+that	636	640	O
+there	641	646	O
+has	647	650	O
+been	651	655	O
+much	656	660	O
+recent	661	667	O
+interest	668	676	O
+in	677	679	O
+related	680	687	O
+two	688	691	B-Task
+-	691	692	I-Task
+dimensional	692	703	I-Task
+waveguide	704	713	I-Task
+problems	714	722	I-Task
+;	722	723	O
+see	724	727	O
+,	727	728	O
+for	729	732	O
+example	733	740	O
+,	740	741	O
+[	743	744	O
+4–6	744	747	O
+]	747	748	O
+,	748	749	O
+where	750	755	O
+the	756	759	O
+shifting	760	768	B-Process
+-	768	769	I-Process
+by	769	771	I-Process
+-	771	772	I-Process
+one	772	775	I-Process
+-	775	776	I-Process
+period	776	782	I-Process
+idea	783	787	I-Process
+is	788	790	O
+again	791	796	O
+employed	797	805	O
+,	805	806	O
+leading	807	814	O
+to	815	817	O
+a	818	819	O
+quadratic	820	829	B-Process
+equation	830	838	I-Process
+for	839	842	O
+a	843	844	O
+certain	845	852	O
+operator	853	861	O
+.	861	862	O
 
 
 -DOCSTART- (S0166218X1300348X)
 
-Max	NN	O	B-Process
--	NN	O	I-Process
-linear	NN	O	I-Process
-programs	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-used	NN	O	O
-to	NN	O	O
-describe	NN	O	O
-optimisation	NN	O	B-Process
-problems	NN	O	I-Process
-for	NN	O	O
-multiprocessor	NN	O	B-Material
-interactive	NN	O	I-Material
-systems	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-some	NN	O	O
-instances	NN	O	O
-the	NN	O	O
-variables	NN	O	B-Material
-used	NN	O	O
-in	NN	O	O
-this	NN	O	O
-model	NN	O	O
-are	NN	O	O
-required	NN	O	O
-to	NN	O	O
-be	NN	O	O
-integer	NN	O	O
-;	NN	O	O
-however	NN	O	O
-,	NN	O	O
-no	NN	O	O
-method	NN	O	O
-seems	NN	O	O
-to	NN	O	O
-exist	NN	O	O
-for	NN	O	O
-finding	NN	O	O
-integer	NN	O	B-Process
-solutions	NN	O	I-Process
-to	NN	O	O
-max	NN	O	B-Material
--	NN	O	I-Material
-linear	NN	O	I-Material
-programs	NN	O	I-Material
-.	NN	O	O
-
-For	NN	O	O
-a	NN	O	O
-generic	NN	O	B-Material
-class	NN	O	I-Material
-of	NN	O	I-Material
-matrices	NN	O	I-Material
-,	NN	O	O
-we	NN	O	O
-show	NN	O	O
-that	NN	O	O
-integer	NN	O	B-Process
-solutions	NN	O	I-Process
-to	NN	O	O
-two	NN	O	B-Material
--	NN	O	I-Material
-sided	NN	O	I-Material
-max	NN	O	I-Material
--	NN	O	I-Material
-linear	NN	O	I-Material
-systems	NN	O	I-Material
-and	NN	O	I-Material
-programs	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-found	NN	O	O
-in	NN	O	O
-polynomial	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-general	NN	O	B-Material
-matrices	NN	O	I-Material
-,	NN	O	O
-we	NN	O	O
-adapt	NN	O	B-Task
-the	NN	O	I-Task
-existing	NN	O	I-Task
-methods	NN	O	I-Task
-for	NN	O	I-Task
-finding	NN	O	I-Task
-real	NN	O	I-Task
-solutions	NN	O	I-Task
-to	NN	O	O
-obtain	NN	O	O
-algorithms	NN	O	B-Task
-for	NN	O	I-Task
-finding	NN	O	I-Task
-integer	NN	O	I-Task
-solutions	NN	O	I-Task
-.	NN	O	O
+Max	0	3	B-Process
+-	3	4	I-Process
+linear	4	10	I-Process
+programs	11	19	I-Process
+have	20	24	O
+been	25	29	O
+used	30	34	O
+to	35	37	O
+describe	38	46	O
+optimisation	47	59	B-Process
+problems	60	68	I-Process
+for	69	72	O
+multiprocessor	73	87	B-Material
+interactive	88	99	I-Material
+systems	100	107	I-Material
+.	107	108	O
+
+In	109	111	O
+some	112	116	O
+instances	117	126	O
+the	127	130	O
+variables	131	140	B-Material
+used	141	145	O
+in	146	148	O
+this	149	153	O
+model	154	159	O
+are	160	163	O
+required	164	172	O
+to	173	175	O
+be	176	178	O
+integer	179	186	O
+;	186	187	O
+however	188	195	O
+,	195	196	O
+no	197	199	O
+method	200	206	O
+seems	207	212	O
+to	213	215	O
+exist	216	221	O
+for	222	225	O
+finding	226	233	O
+integer	234	241	B-Process
+solutions	242	251	I-Process
+to	252	254	O
+max	255	258	B-Material
+-	258	259	I-Material
+linear	259	265	I-Material
+programs	266	274	I-Material
+.	274	275	O
+
+For	275	278	O
+a	279	280	O
+generic	281	288	B-Material
+class	289	294	I-Material
+of	295	297	I-Material
+matrices	298	306	I-Material
+,	306	307	O
+we	308	310	O
+show	311	315	O
+that	316	320	O
+integer	321	328	B-Process
+solutions	329	338	I-Process
+to	339	341	O
+two	342	345	B-Material
+-	345	346	I-Material
+sided	346	351	I-Material
+max	352	355	I-Material
+-	355	356	I-Material
+linear	356	362	I-Material
+systems	363	370	I-Material
+and	371	374	I-Material
+programs	375	383	I-Material
+can	384	387	O
+be	388	390	O
+found	391	396	O
+in	397	399	O
+polynomial	400	410	O
+time	411	415	O
+.	415	416	O
+
+For	417	420	O
+general	421	428	B-Material
+matrices	429	437	I-Material
+,	437	438	O
+we	439	441	O
+adapt	442	447	B-Task
+the	448	451	I-Task
+existing	452	460	I-Task
+methods	461	468	I-Task
+for	469	472	I-Task
+finding	473	480	I-Task
+real	481	485	I-Task
+solutions	486	495	I-Task
+to	496	498	O
+obtain	499	505	O
+algorithms	506	516	B-Task
+for	517	520	I-Task
+finding	521	528	I-Task
+integer	529	536	I-Task
+solutions	537	546	I-Task
+.	546	547	O
 
 
 -DOCSTART- (S0166218X14003011)
 
-We	NN	O	O
-study	NN	O	O
-sequences	NN	O	B-Task
-of	NN	O	I-Task
-optimal	NN	O	I-Task
-walks	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-growing	NN	O	I-Task
-length	NN	O	I-Task
-in	NN	O	I-Task
-weighted	NN	O	I-Task
-digraphs	NN	O	I-Task
-,	NN	O	O
-or	NN	O	O
-equivalently	NN	O	O
-,	NN	O	O
-sequences	NN	O	B-Task
-of	NN	O	I-Task
-entries	NN	O	I-Task
-of	NN	O	I-Task
-max	NN	O	I-Task
--	NN	O	I-Task
-algebraic	NN	O	I-Task
-matrix	NN	O	I-Task
-powers	NN	O	I-Task
-with	NN	O	I-Task
-growing	NN	O	I-Task
-exponents	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-known	NN	O	O
-that	NN	O	O
-these	NN	O	O
-sequences	NN	O	O
-are	NN	O	O
-eventually	NN	O	O
-periodic	NN	O	O
-when	NN	O	O
-the	NN	O	O
-digraphs	NN	O	B-Process
-are	NN	O	I-Process
-strongly	NN	O	I-Process
-connected	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-transient	NN	O	O
-of	NN	O	O
-such	NN	O	O
-periodicity	NN	O	O
-depends	NN	O	O
-,	NN	O	O
-in	NN	O	O
-general	NN	O	O
-,	NN	O	O
-both	NN	O	O
-on	NN	O	O
-the	NN	O	O
-size	NN	O	O
-of	NN	O	O
-digraph	NN	O	B-Material
-and	NN	O	O
-on	NN	O	O
-the	NN	O	O
-magnitude	NN	O	O
-of	NN	O	O
-the	NN	O	O
-weights	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-show	NN	O	O
-that	NN	O	O
-some	NN	O	O
-bounds	NN	O	O
-on	NN	O	O
-the	NN	O	O
-indices	NN	O	O
-of	NN	O	O
-periodicity	NN	O	O
-of	NN	O	O
-(	NN	O	B-Material
-unweighted	NN	O	I-Material
-)	NN	O	I-Material
-digraphs	NN	O	I-Material
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-bounds	NN	O	O
-of	NN	O	O
-Wielandt	NN	O	O
-,	NN	O	O
-Dulmage	NN	O	O
-–	NN	O	O
-Mendelsohn	NN	O	O
-,	NN	O	O
-Schwarz	NN	O	O
-,	NN	O	O
-Kim	NN	O	O
-and	NN	O	O
-Gregory	NN	O	O
-
-–	NN	O	O
-Kirkland	NN	O	O
-
-–	NN	O	O
-
-Pullman	NN	O	O
-,	NN	O	O
-apply	NN	O	O
-to	NN	O	O
-the	NN	O	O
-weights	NN	O	O
-of	NN	O	O
-optimal	NN	O	O
-walks	NN	O	O
-when	NN	O	O
-one	NN	O	O
-of	NN	O	O
-their	NN	O	O
-ends	NN	O	O
-is	NN	O	O
-a	NN	O	O
-critical	NN	O	O
-node	NN	O	O
-.	NN	O	O
+We	0	2	O
+study	3	8	O
+sequences	9	18	B-Task
+of	19	21	I-Task
+optimal	22	29	I-Task
+walks	30	35	I-Task
+of	36	38	I-Task
+a	39	40	I-Task
+growing	41	48	I-Task
+length	49	55	I-Task
+in	56	58	I-Task
+weighted	59	67	I-Task
+digraphs	68	76	I-Task
+,	76	77	O
+or	78	80	O
+equivalently	81	93	O
+,	93	94	O
+sequences	95	104	B-Task
+of	105	107	I-Task
+entries	108	115	I-Task
+of	116	118	I-Task
+max	119	122	I-Task
+-	122	123	I-Task
+algebraic	123	132	I-Task
+matrix	133	139	I-Task
+powers	140	146	I-Task
+with	147	151	I-Task
+growing	152	159	I-Task
+exponents	160	169	I-Task
+.	169	170	O
+
+It	171	173	O
+is	174	176	O
+known	177	182	O
+that	183	187	O
+these	188	193	O
+sequences	194	203	O
+are	204	207	O
+eventually	208	218	O
+periodic	219	227	O
+when	228	232	O
+the	233	236	O
+digraphs	237	245	B-Process
+are	246	249	I-Process
+strongly	250	258	I-Process
+connected	259	268	I-Process
+.	268	269	O
+
+The	270	273	O
+transient	274	283	O
+of	284	286	O
+such	287	291	O
+periodicity	292	303	O
+depends	304	311	O
+,	311	312	O
+in	313	315	O
+general	316	323	O
+,	323	324	O
+both	325	329	O
+on	330	332	O
+the	333	336	O
+size	337	341	O
+of	342	344	O
+digraph	345	352	B-Material
+and	353	356	O
+on	357	359	O
+the	360	363	O
+magnitude	364	373	O
+of	374	376	O
+the	377	380	O
+weights	381	388	O
+.	388	389	O
+
+In	390	392	O
+this	393	397	O
+paper	398	403	O
+,	403	404	O
+we	405	407	O
+show	408	412	O
+that	413	417	O
+some	418	422	O
+bounds	423	429	O
+on	430	432	O
+the	433	436	O
+indices	437	444	O
+of	445	447	O
+periodicity	448	459	O
+of	460	462	O
+(	463	464	B-Material
+unweighted	464	474	I-Material
+)	474	475	I-Material
+digraphs	476	484	I-Material
+,	484	485	O
+such	486	490	O
+as	491	493	O
+the	494	497	O
+bounds	498	504	O
+of	505	507	O
+Wielandt	508	516	O
+,	516	517	O
+Dulmage	518	525	O
+–	525	526	O
+Mendelsohn	526	536	O
+,	536	537	O
+Schwarz	538	545	O
+,	545	546	O
+Kim	547	550	O
+and	551	554	O
+Gregory	555	562	O
+
+–	562	563	O
+Kirkland	563	571	O
+
+–	571	572	O
+
+Pullman	572	579	O
+,	579	580	O
+apply	581	586	O
+to	587	589	O
+the	590	593	O
+weights	594	601	O
+of	602	604	O
+optimal	605	612	O
+walks	613	618	O
+when	619	623	O
+one	624	627	O
+of	628	630	O
+their	631	636	O
+ends	637	641	O
+is	642	644	O
+a	645	646	O
+critical	647	655	O
+node	656	660	O
+.	660	661	O
 
 
 -DOCSTART- (S0167273811005091)
 
-Owing	NN	O	O
-to	NN	O	O
-widespread	NN	O	O
-availability	NN	O	O
-,	NN	O	O
-the	NN	O	O
-most	NN	O	O
-extensively	NN	O	O
-adopted	NN	O	O
-tomography	NN	O	B-Process
-technique	NN	O	I-Process
-utilizes	NN	O	O
-the	NN	O	O
-milling	NN	O	O
-power	NN	O	O
-of	NN	O	O
-a	NN	O	O
-focused	NN	O	B-Material
-ion	NN	O	I-Material
-beam	NN	O	I-Material
-(	NN	O	O
-FIB	NN	O	B-Material
-)	NN	O	O
-in	NN	O	O
-conjunction	NN	O	O
-with	NN	O	O
-the	NN	O	O
-imaging	NN	O	O
-capabilities	NN	O	O
-of	NN	O	O
-high	NN	O	B-Process
-resolution	NN	O	I-Process
-FE	NN	O	I-Process
--	NN	O	I-Process
-SEM	NN	O	I-Process
-,	NN	O	O
-to	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-sequence	NN	O	O
-of	NN	O	O
-2D	NN	O	B-Material
-images	NN	O	I-Material
-that	NN	O	O
-can	NN	O	O
-be	NN	O	O
-effectively	NN	O	O
-re	NN	O	O
--	NN	O	O
-combined	NN	O	O
-in	NN	O	O
-3D	NN	O	O
-space	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-because	NN	O	O
-this	NN	O	O
-technique	NN	O	O
-is	NN	O	O
-destructive	NN	O	O
-,	NN	O	O
-studies	NN	O	B-Task
-of	NN	O	I-Task
-microstructural	NN	O	I-Task
-evolution	NN	O	I-Task
-are	NN	O	O
-influenced	NN	O	O
-by	NN	O	O
-inherent	NN	O	O
-sample	NN	O	O
-variability	NN	O	O
-.	NN	O	O
-Non	NN	O	B-Process
--	NN	O	I-Process
-destructive	NN	O	I-Process
-X	NN	O	I-Process
--	NN	O	I-Process
-ray	NN	O	I-Process
-nano	NN	O	I-Process
--	NN	O	I-Process
-computed	NN	O	I-Process
-tomography	NN	O	I-Process
-(	NN	O	O
-CT	NN	O	B-Process
-)	NN	O	O
-
-[	NN	O	O
-9–11	NN	O	O
-]	NN	O	O
-provides	NN	O	O
-a	NN	O	O
-platform	NN	O	O
-for	NN	O	O
-exploring	NN	O	B-Task
-dynamic	NN	O	I-Task
-microstructural	NN	O	I-Task
-change	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-absence	NN	O	O
-of	NN	O	O
-these	NN	O	O
-possible	NN	O	O
-complications	NN	O	O
-and	NN	O	O
-is	NN	O	O
-compatible	NN	O	O
-with	NN	O	O
-both	NN	O	O
-laboratory	NN	O	B-Material
-and	NN	O	I-Material
-synchrotron	NN	O	I-Material
-radiation	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-authors	NN	O	O
-have	NN	O	O
-previously	NN	O	O
-demonstrated	NN	O	O
-a	NN	O	O
-technique	NN	O	O
-for	NN	O	O
-preparation	NN	O	B-Task
-of	NN	O	I-Task
-optimal	NN	O	I-Task
-sample	NN	O	I-Task
-geometries	NN	O	I-Task
-for	NN	O	I-Task
-X	NN	O	I-Task
--	NN	O	I-Task
-ray	NN	O	I-Task
-nano	NN	O	I-Task
--	NN	O	I-Task
-CT	NN	O	I-Task
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-,	NN	O	O
-while	NN	O	O
-this	NN	O	O
-FIB	NN	O	B-Process
-sample	NN	O	I-Process
-preparation	NN	O	I-Process
-route	NN	O	I-Process
-will	NN	O	O
-involve	NN	O	O
-the	NN	O	O
-selective	NN	O	O
-removal	NN	O	O
-of	NN	O	O
-portions	NN	O	O
-of	NN	O	O
-the	NN	O	O
-fuel	NN	O	B-Material
-cell	NN	O	I-Material
-electrode	NN	O	I-Material
-microstructure	NN	O	I-Material
-(	NN	O	O
-and	NN	O	O
-therefore	NN	O	O
-may	NN	O	O
-be	NN	O	O
-destructive	NN	O	O
-to	NN	O	O
-the	NN	O	O
-working	NN	O	B-Material
-fuel	NN	O	I-Material
-cell	NN	O	I-Material
-)	NN	O	O
-,	NN	O	O
-the	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-destructive	NN	O	I-Process
-X	NN	O	I-Process
--	NN	O	I-Process
-ray	NN	O	I-Process
-characterization	NN	O	I-Process
-technique	NN	O	I-Process
-allows	NN	O	O
-repeated	NN	O	O
-,	NN	O	O
-non	NN	O	O
--	NN	O	O
-destructive	NN	O	O
-characterization	NN	O	O
-of	NN	O	O
-the	NN	O	O
-selected	NN	O	B-Material
-sample	NN	O	I-Material
-which	NN	O	O
-facilitates	NN	O	O
-the	NN	O	O
-study	NN	O	O
-of	NN	O	O
-microstructural	NN	O	B-Process
-evolution	NN	O	I-Process
-processes	NN	O	I-Process
-in	NN	O	O
-response	NN	O	O
-to	NN	O	O
-various	NN	O	O
-environmental	NN	O	O
-changes	NN	O	O
-.	NN	O	O
+Owing	0	5	O
+to	6	8	O
+widespread	9	19	O
+availability	20	32	O
+,	32	33	O
+the	34	37	O
+most	38	42	O
+extensively	43	54	O
+adopted	55	62	O
+tomography	63	73	B-Process
+technique	74	83	I-Process
+utilizes	84	92	O
+the	93	96	O
+milling	97	104	O
+power	105	110	O
+of	111	113	O
+a	114	115	O
+focused	116	123	B-Material
+ion	124	127	I-Material
+beam	128	132	I-Material
+(	133	134	O
+FIB	134	137	B-Material
+)	137	138	O
+in	139	141	O
+conjunction	142	153	O
+with	154	158	O
+the	159	162	O
+imaging	163	170	O
+capabilities	171	183	O
+of	184	186	O
+high	187	191	B-Process
+resolution	192	202	I-Process
+FE	203	205	I-Process
+-	205	206	I-Process
+SEM	206	209	I-Process
+,	209	210	O
+to	211	213	O
+provide	214	221	O
+a	222	223	O
+sequence	224	232	O
+of	233	235	O
+2D	236	238	B-Material
+images	239	245	I-Material
+that	246	250	O
+can	251	254	O
+be	255	257	O
+effectively	258	269	O
+re	270	272	O
+-	272	273	O
+combined	273	281	O
+in	282	284	O
+3D	285	287	O
+space	288	293	O
+.	293	294	O
+
+However	295	302	O
+,	302	303	O
+because	304	311	O
+this	312	316	O
+technique	317	326	O
+is	327	329	O
+destructive	330	341	O
+,	341	342	O
+studies	343	350	B-Task
+of	351	353	I-Task
+microstructural	354	369	I-Task
+evolution	370	379	I-Task
+are	380	383	O
+influenced	384	394	O
+by	395	397	O
+inherent	398	406	O
+sample	407	413	O
+variability	414	425	O
+.	425	426	O
+Non	427	430	B-Process
+-	430	431	I-Process
+destructive	431	442	I-Process
+X	443	444	I-Process
+-	444	445	I-Process
+ray	445	448	I-Process
+nano	449	453	I-Process
+-	453	454	I-Process
+computed	454	462	I-Process
+tomography	463	473	I-Process
+(	474	475	O
+CT	475	477	B-Process
+)	477	478	O
+
+[	479	480	O
+9–11	480	484	O
+]	484	485	O
+provides	486	494	O
+a	495	496	O
+platform	497	505	O
+for	506	509	O
+exploring	510	519	B-Task
+dynamic	520	527	I-Task
+microstructural	528	543	I-Task
+change	544	550	I-Task
+in	551	553	O
+the	554	557	O
+absence	558	565	O
+of	566	568	O
+these	569	574	O
+possible	575	583	O
+complications	584	597	O
+and	598	601	O
+is	602	604	O
+compatible	605	615	O
+with	616	620	O
+both	621	625	O
+laboratory	626	636	B-Material
+and	637	640	I-Material
+synchrotron	641	652	I-Material
+radiation	653	662	I-Material
+.	662	663	O
+
+The	664	667	O
+authors	668	675	O
+have	676	680	O
+previously	681	691	O
+demonstrated	692	704	O
+a	705	706	O
+technique	707	716	O
+for	717	720	O
+preparation	721	732	B-Task
+of	733	735	I-Task
+optimal	736	743	I-Task
+sample	744	750	I-Task
+geometries	751	761	I-Task
+for	762	765	I-Task
+X	766	767	I-Task
+-	767	768	I-Task
+ray	768	771	I-Task
+nano	772	776	I-Task
+-	776	777	I-Task
+CT	777	779	I-Task
+[	780	781	O
+12	781	783	O
+]	783	784	O
+,	784	785	O
+while	786	791	O
+this	792	796	O
+FIB	797	800	B-Process
+sample	801	807	I-Process
+preparation	808	819	I-Process
+route	820	825	I-Process
+will	826	830	O
+involve	831	838	O
+the	839	842	O
+selective	843	852	O
+removal	853	860	O
+of	861	863	O
+portions	864	872	O
+of	873	875	O
+the	876	879	O
+fuel	880	884	B-Material
+cell	885	889	I-Material
+electrode	890	899	I-Material
+microstructure	900	914	I-Material
+(	915	916	O
+and	916	919	O
+therefore	920	929	O
+may	930	933	O
+be	934	936	O
+destructive	937	948	O
+to	949	951	O
+the	952	955	O
+working	956	963	B-Material
+fuel	964	968	I-Material
+cell	969	973	I-Material
+)	973	974	O
+,	974	975	O
+the	976	979	O
+non	980	983	B-Process
+-	983	984	I-Process
+destructive	984	995	I-Process
+X	996	997	I-Process
+-	997	998	I-Process
+ray	998	1001	I-Process
+characterization	1002	1018	I-Process
+technique	1019	1028	I-Process
+allows	1029	1035	O
+repeated	1036	1044	O
+,	1044	1045	O
+non	1046	1049	O
+-	1049	1050	O
+destructive	1050	1061	O
+characterization	1062	1078	O
+of	1079	1081	O
+the	1082	1085	O
+selected	1086	1094	B-Material
+sample	1095	1101	I-Material
+which	1102	1107	O
+facilitates	1108	1119	O
+the	1120	1123	O
+study	1124	1129	O
+of	1130	1132	O
+microstructural	1133	1148	B-Process
+evolution	1149	1158	I-Process
+processes	1159	1168	I-Process
+in	1169	1171	O
+response	1172	1180	O
+to	1181	1183	O
+various	1184	1191	O
+environmental	1192	1205	O
+changes	1206	1213	O
+.	1213	1214	O
 
 
 -DOCSTART- (S0167273812003025)
 
-In	NN	O	O
-conclusion	NN	O	O
-,	NN	O	O
-a	NN	O	O
-new	NN	O	B-Task
-approach	NN	O	I-Task
-to	NN	O	I-Task
-the	NN	O	I-Task
-“	NN	O	I-Task
-grind	NN	O	I-Task
--	NN	O	I-Task
-free	NN	O	I-Task
-”	NN	O	I-Task
-nanoprecursor	NN	O	I-Task
-route	NN	O	I-Task
-to	NN	O	I-Task
-direct	NN	O	I-Task
-combinatorial	NN	O	I-Task
-solid	NN	O	I-Task
-state	NN	O	I-Task
-synthesis	NN	O	I-Task
-of	NN	O	O
-several	NN	O	O
-“	NN	O	O
-difficult	NN	O	O
-to	NN	O	O
-make	NN	O	O
-”	NN	O	O
-and	NN	O	O
-hitherto	NN	O	O
-unknown	NN	O	O
-phase	NN	O	B-Material
--	NN	O	I-Material
-pure	NN	O	I-Material
-heterometallic	NN	O	I-Material
-Ruddlesden	NN	O	I-Material
-Popper	NN	O	I-Material
-type	NN	O	I-Material
-La4Ni3−xFexO10	NN	O	I-Material
-materials	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-described	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-new	NN	O	O
-approach	NN	O	O
-used	NN	O	O
-a	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-throughput	NN	O	I-Process
-reactor	NN	O	I-Process
-and	NN	O	O
-robotic	NN	O	B-Process
-automation	NN	O	I-Process
-(	NN	O	O
-RAMSI	NN	O	B-Process
-)	NN	O	O
-to	NN	O	O
-rapidly	NN	O	O
-synthesise	NN	O	B-Process
-a	NN	O	I-Process
-range	NN	O	I-Process
-of	NN	O	I-Process
-nanoparticle	NN	O	I-Process
-co	NN	O	I-Process
--	NN	O	I-Process
-precipitate	NN	O	I-Process
-precursors	NN	O	I-Process
-in	NN	O	O
-cloned	NN	O	O
-libraries	NN	O	O
-at	NN	O	O
-a	NN	O	O
-rate	NN	O	B-Process
-of	NN	O	I-Process
-7.5	NN	O	I-Process
-samples	NN	O	I-Process
-an	NN	O	I-Process
-hour	NN	O	I-Process
-.	NN	O	O
-
-Each	NN	O	O
-library	NN	O	O
-could	NN	O	O
-then	NN	O	O
-be	NN	O	O
-heat	NN	O	B-Process
--	NN	O	I-Process
-treated	NN	O	I-Process
-at	NN	O	O
-a	NN	O	O
-different	NN	O	O
-temperature	NN	O	O
-and	NN	O	O
-an	NN	O	O
-initial	NN	O	O
-powder	NN	O	B-Process
-XRD	NN	O	I-Process
-screen	NN	O	I-Process
-was	NN	O	O
-used	NN	O	O
-to	NN	O	O
-locate	NN	O	B-Process
-and	NN	O	I-Process
-approximate	NN	O	I-Process
-phase	NN	O	I-Process
-boundary	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-more	NN	O	O
-focussed	NN	O	O
-second	NN	O	O
-synthesis	NN	O	B-Process
-and	NN	O	I-Process
-XRD	NN	O	I-Process
-characterisation	NN	O	I-Process
-of	NN	O	O
-selected	NN	O	O
-larger	NN	O	O
-heat	NN	O	B-Material
--	NN	O	I-Material
-treated	NN	O	I-Material
-powders	NN	O	I-Material
-was	NN	O	O
-then	NN	O	O
-performed	NN	O	O
-to	NN	O	O
-reconfirm	NN	O	O
-the	NN	O	O
-locations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-phase	NN	O	O
-boundaries	NN	O	O
-with	NN	O	O
-the	NN	O	O
-highest	NN	O	O
-dopant	NN	O	O
-level	NN	O	O
-being	NN	O	O
-achieved	NN	O	O
-for	NN	O	O
-La4Ni2FeO10	NN	O	B-Material
-which	NN	O	O
-is	NN	O	O
-significantly	NN	O	O
-greater	NN	O	O
-Fe	NN	O	B-Material
-doping	NN	O	O
-than	NN	O	O
-has	NN	O	O
-been	NN	O	O
-achieved	NN	O	O
-by	NN	O	O
-anyone	NN	O	O
-previously	NN	O	O
-(	NN	O	O
-despite	NN	O	O
-several	NN	O	O
-notable	NN	O	O
-efforts	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-EXAFS	NN	O	B-Material
-data	NN	O	I-Material
-suggested	NN	O	O
-that	NN	O	O
-Fe3	NN	O	B-Material
-+	NN	O	I-Material
-was	NN	O	O
-located	NN	O	O
-onto	NN	O	O
-Ni	NN	O	B-Material
-sites	NN	O	O
-in	NN	O	O
-all	NN	O	O
-cases	NN	O	O
-and	NN	O	O
-did	NN	O	O
-not	NN	O	O
-exist	NN	O	O
-as	NN	O	O
-a	NN	O	O
-separate	NN	O	O
-iron	NN	O	B-Material
-oxide	NN	O	I-Material
-phase	NN	O	O
-.	NN	O	O
+In	0	2	O
+conclusion	3	13	O
+,	13	14	O
+a	15	16	O
+new	17	20	B-Task
+approach	21	29	I-Task
+to	30	32	I-Task
+the	33	36	I-Task
+“	37	38	I-Task
+grind	38	43	I-Task
+-	43	44	I-Task
+free	44	48	I-Task
+”	48	49	I-Task
+nanoprecursor	50	63	I-Task
+route	64	69	I-Task
+to	70	72	I-Task
+direct	73	79	I-Task
+combinatorial	80	93	I-Task
+solid	94	99	I-Task
+state	100	105	I-Task
+synthesis	106	115	I-Task
+of	116	118	O
+several	119	126	O
+“	127	128	O
+difficult	128	137	O
+to	138	140	O
+make	141	145	O
+”	145	146	O
+and	147	150	O
+hitherto	151	159	O
+unknown	160	167	O
+phase	168	173	B-Material
+-	173	174	I-Material
+pure	174	178	I-Material
+heterometallic	179	193	I-Material
+Ruddlesden	194	204	I-Material
+Popper	205	211	I-Material
+type	212	216	I-Material
+La4Ni3−xFexO10	217	231	I-Material
+materials	232	241	I-Material
+has	242	245	O
+been	246	250	O
+described	251	260	O
+.	260	261	O
+
+The	262	265	O
+new	266	269	O
+approach	270	278	O
+used	279	283	O
+a	284	285	O
+high	286	290	B-Process
+-	290	291	I-Process
+throughput	291	301	I-Process
+reactor	302	309	I-Process
+and	310	313	O
+robotic	314	321	B-Process
+automation	322	332	I-Process
+(	333	334	O
+RAMSI	334	339	B-Process
+)	339	340	O
+to	341	343	O
+rapidly	344	351	O
+synthesise	352	362	B-Process
+a	363	364	I-Process
+range	365	370	I-Process
+of	371	373	I-Process
+nanoparticle	374	386	I-Process
+co	387	389	I-Process
+-	389	390	I-Process
+precipitate	390	401	I-Process
+precursors	402	412	I-Process
+in	413	415	O
+cloned	416	422	O
+libraries	423	432	O
+at	433	435	O
+a	436	437	O
+rate	438	442	B-Process
+of	443	445	I-Process
+7.5	446	449	I-Process
+samples	450	457	I-Process
+an	458	460	I-Process
+hour	461	465	I-Process
+.	465	466	O
+
+Each	467	471	O
+library	472	479	O
+could	480	485	O
+then	486	490	O
+be	491	493	O
+heat	494	498	B-Process
+-	498	499	I-Process
+treated	499	506	I-Process
+at	507	509	O
+a	510	511	O
+different	512	521	O
+temperature	522	533	O
+and	534	537	O
+an	538	540	O
+initial	541	548	O
+powder	549	555	B-Process
+XRD	556	559	I-Process
+screen	560	566	I-Process
+was	567	570	O
+used	571	575	O
+to	576	578	O
+locate	579	585	B-Process
+and	586	589	I-Process
+approximate	590	601	I-Process
+phase	602	607	I-Process
+boundary	608	616	I-Process
+.	616	617	O
+
+A	618	619	O
+more	620	624	O
+focussed	625	633	O
+second	634	640	O
+synthesis	641	650	B-Process
+and	651	654	I-Process
+XRD	655	658	I-Process
+characterisation	659	675	I-Process
+of	676	678	O
+selected	679	687	O
+larger	688	694	O
+heat	695	699	B-Material
+-	699	700	I-Material
+treated	700	707	I-Material
+powders	708	715	I-Material
+was	716	719	O
+then	720	724	O
+performed	725	734	O
+to	735	737	O
+reconfirm	738	747	O
+the	748	751	O
+locations	752	761	O
+of	762	764	O
+the	765	768	O
+phase	769	774	O
+boundaries	775	785	O
+with	786	790	O
+the	791	794	O
+highest	795	802	O
+dopant	803	809	O
+level	810	815	O
+being	816	821	O
+achieved	822	830	O
+for	831	834	O
+La4Ni2FeO10	835	846	B-Material
+which	847	852	O
+is	853	855	O
+significantly	856	869	O
+greater	870	877	O
+Fe	878	880	B-Material
+doping	881	887	O
+than	888	892	O
+has	893	896	O
+been	897	901	O
+achieved	902	910	O
+by	911	913	O
+anyone	914	920	O
+previously	921	931	O
+(	932	933	O
+despite	933	940	O
+several	941	948	O
+notable	949	956	O
+efforts	957	964	O
+)	964	965	O
+.	965	966	O
+
+EXAFS	967	972	B-Material
+data	973	977	I-Material
+suggested	978	987	O
+that	988	992	O
+Fe3	993	996	B-Material
++	996	997	I-Material
+was	998	1001	O
+located	1002	1009	O
+onto	1010	1014	O
+Ni	1015	1017	B-Material
+sites	1018	1023	O
+in	1024	1026	O
+all	1027	1030	O
+cases	1031	1036	O
+and	1037	1040	O
+did	1041	1044	O
+not	1045	1048	O
+exist	1049	1054	O
+as	1055	1057	O
+a	1058	1059	O
+separate	1060	1068	O
+iron	1069	1073	B-Material
+oxide	1074	1079	I-Material
+phase	1080	1085	O
+.	1085	1086	O
 
 
 -DOCSTART- (S0167273813005298)
 
-At	NN	O	O
-200	NN	O	O
-–	NN	O	O
-300	NN	O	O
-°	NN	O	O
-C	NN	O	O
-:	NN	O	O
-nuclear	NN	O	O
-densities	NN	O	O
-are	NN	O	O
-localised	NN	O	O
-in	NN	O	O
-the	NN	O	O
-tetrahedral	NN	O	O
-volume	NN	O	O
-roughly	NN	O	O
-covering	NN	O	O
-the	NN	O	O
-8c	NN	O	O
-and	NN	O	O
-32f	NN	O	O
-positions	NN	O	O
-with	NN	O	O
-“	NN	O	B-Material
-bulges	NN	O	I-Material
-”	NN	O	I-Material
-of	NN	O	O
-nuclear	NN	O	O
-densities	NN	O	O
-pointing	NN	O	O
-toward	NN	O	O
-the	NN	O	O
-48i	NN	O	O
-position	NN	O	O
-,	NN	O	O
-while	NN	O	O
-at	NN	O	O
-400	NN	O	O
-and	NN	O	O
-500	NN	O	O
-°	NN	O	O
-C	NN	O	O
-continuous	NN	O	O
-nuclear	NN	O	O
-densities	NN	O	O
-forming	NN	O	O
-a	NN	O	O
-straight	NN	O	O
-line	NN	O	O
-along	NN	O	O
-the	NN	O	O
-<	NN	O	O
-100	NN	O	O
->	NN	O	O
-direction	NN	O	O
-are	NN	O	O
-found	NN	O	O
-,	NN	O	O
-indicative	NN	O	O
-of	NN	O	O
-oxide	NN	O	B-Process
--	NN	O	I-Process
-ion	NN	O	I-Process
-diffusion	NN	O	I-Process
-pathway	NN	O	O
-along	NN	O	O
-that	NN	O	O
-direction	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-,	NN	O	O
-curved	NN	O	O
-pathways	NN	O	O
-along	NN	O	O
-the	NN	O	O
-<	NN	O	O
-100	NN	O	O
->	NN	O	O
-direction	NN	O	O
-passing	NN	O	O
-through	NN	O	O
-the	NN	O	O
-48i	NN	O	O
-site	NN	O	O
-are	NN	O	O
-generally	NN	O	O
-observed	NN	O	O
-in	NN	O	O
-fluorite	NN	O	B-Material
-materials	NN	O	I-Material
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-prevalence	NN	O	O
-of	NN	O	O
-curve	NN	O	O
-pathway	NN	O	O
-as	NN	O	O
-opposed	NN	O	O
-from	NN	O	O
-straight	NN	O	O
-pathway	NN	O	O
-is	NN	O	O
-explained	NN	O	O
-by	NN	O	O
-the	NN	O	O
-repulsion	NN	O	O
-between	NN	O	O
-cation	NN	O	B-Material
-and	NN	O	O
-anions	NN	O	B-Material
-,	NN	O	O
-the	NN	O	O
-curved	NN	O	O
-pathway	NN	O	O
-allowing	NN	O	O
-the	NN	O	O
-cation	NN	O	B-Material
-–	NN	O	O
-anion	NN	O	B-Material
-to	NN	O	O
-maintain	NN	O	O
-a	NN	O	O
-reasonable	NN	O	O
-distance	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-a	NN	O	O
-straight	NN	O	O
-pathway	NN	O	O
-is	NN	O	O
-observed	NN	O	O
-for	NN	O	O
-Y0.785Ta0.215O1.715	NN	O	O
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-,	NN	O	O
-as	NN	O	O
-is	NN	O	O
-the	NN	O	O
-case	NN	O	O
-for	NN	O	O
-the	NN	O	O
-present	NN	O	B-Material
-material	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-suggests	NN	O	O
-that	NN	O	O
-Ta	NN	O	B-Material
-and	NN	O	I-Material
-Re	NN	O	I-Material
-cations	NN	O	I-Material
-might	NN	O	O
-play	NN	O	O
-a	NN	O	O
-similar	NN	O	O
-role	NN	O	O
-in	NN	O	O
-these	NN	O	O
-systems	NN	O	O
-.	NN	O	O
+At	0	2	O
+200	3	6	O
+–	7	8	O
+300	9	12	O
+°	12	13	O
+C	13	14	O
+:	14	15	O
+nuclear	16	23	O
+densities	24	33	O
+are	34	37	O
+localised	38	47	O
+in	48	50	O
+the	51	54	O
+tetrahedral	55	66	O
+volume	67	73	O
+roughly	74	81	O
+covering	82	90	O
+the	91	94	O
+8c	95	97	O
+and	98	101	O
+32f	102	105	O
+positions	106	115	O
+with	116	120	O
+“	121	122	B-Material
+bulges	122	128	I-Material
+”	128	129	I-Material
+of	130	132	O
+nuclear	133	140	O
+densities	141	150	O
+pointing	151	159	O
+toward	160	166	O
+the	167	170	O
+48i	171	174	O
+position	175	183	O
+,	183	184	O
+while	185	190	O
+at	191	193	O
+400	194	197	O
+and	198	201	O
+500	202	205	O
+°	205	206	O
+C	206	207	O
+continuous	208	218	O
+nuclear	219	226	O
+densities	227	236	O
+forming	237	244	O
+a	245	246	O
+straight	247	255	O
+line	256	260	O
+along	261	266	O
+the	267	270	O
+<	271	272	O
+100	272	275	O
+>	275	276	O
+direction	277	286	O
+are	287	290	O
+found	291	296	O
+,	296	297	O
+indicative	298	308	O
+of	309	311	O
+oxide	312	317	B-Process
+-	317	318	I-Process
+ion	318	321	I-Process
+diffusion	322	331	I-Process
+pathway	332	339	O
+along	340	345	O
+that	346	350	O
+direction	351	360	O
+.	360	361	O
+
+In	362	364	O
+the	365	368	O
+literature	369	379	O
+,	379	380	O
+curved	381	387	O
+pathways	388	396	O
+along	397	402	O
+the	403	406	O
+<	407	408	O
+100	408	411	O
+>	411	412	O
+direction	413	422	O
+passing	423	430	O
+through	431	438	O
+the	439	442	O
+48i	443	446	O
+site	447	451	O
+are	452	455	O
+generally	456	465	O
+observed	466	474	O
+in	475	477	O
+fluorite	478	486	B-Material
+materials	487	496	I-Material
+[	497	498	O
+20	498	500	O
+]	500	501	O
+,	501	502	O
+the	503	506	O
+prevalence	507	517	O
+of	518	520	O
+curve	521	526	O
+pathway	527	534	O
+as	535	537	O
+opposed	538	545	O
+from	546	550	O
+straight	551	559	O
+pathway	560	567	O
+is	568	570	O
+explained	571	580	O
+by	581	583	O
+the	584	587	O
+repulsion	588	597	O
+between	598	605	O
+cation	606	612	B-Material
+and	613	616	O
+anions	617	623	B-Material
+,	623	624	O
+the	625	628	O
+curved	629	635	O
+pathway	636	643	O
+allowing	644	652	O
+the	653	656	O
+cation	657	663	B-Material
+–	663	664	O
+anion	664	669	B-Material
+to	670	672	O
+maintain	673	681	O
+a	682	683	O
+reasonable	684	694	O
+distance	695	703	O
+.	703	704	O
+
+However	705	712	O
+,	712	713	O
+a	714	715	O
+straight	716	724	O
+pathway	725	732	O
+is	733	735	O
+observed	736	744	O
+for	745	748	O
+Y0.785Ta0.215O1.715	749	768	O
+[	769	770	O
+23	770	772	O
+]	772	773	O
+,	773	774	O
+as	775	777	O
+is	778	780	O
+the	781	784	O
+case	785	789	O
+for	790	793	O
+the	794	797	O
+present	798	805	B-Material
+material	806	814	I-Material
+.	814	815	O
+
+This	816	820	O
+suggests	821	829	O
+that	830	834	O
+Ta	835	837	B-Material
+and	838	841	I-Material
+Re	842	844	I-Material
+cations	845	852	I-Material
+might	853	858	O
+play	859	863	O
+a	864	865	O
+similar	866	873	O
+role	874	878	O
+in	879	881	O
+these	882	887	O
+systems	888	895	O
+.	895	896	O
 
 
 -DOCSTART- (S0167273813006735)
 
-While	NN	O	O
-impedance	NN	O	B-Process
-spectroscopy	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-quite	NN	O	O
-common	NN	O	O
-method	NN	O	O
-to	NN	O	O
-investigate	NN	O	O
-mixed	NN	O	B-Material
-conducting	NN	O	I-Material
-thin	NN	O	I-Material
-film	NN	O	I-Material
-electrodes	NN	O	I-Material
-,	NN	O	O
-[	NN	O	O
-6,10–12	NN	O	O
-]	NN	O	O
-oxygen	NN	O	B-Process
-tracer	NN	O	I-Process
-experiments	NN	O	I-Process
-are	NN	O	O
-often	NN	O	O
-performed	NN	O	O
-on	NN	O	O
-bulk	NN	O	B-Material
-samples	NN	O	I-Material
-[	NN	O	O
-13–16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Recently	NN	O	O
-,	NN	O	O
-several	NN	O	O
-IEDP	NN	O	B-Process
-measurements	NN	O	I-Process
-of	NN	O	O
-mixed	NN	O	B-Material
-conducting	NN	O	I-Material
-cathode	NN	O	I-Material
-materials	NN	O	I-Material
-were	NN	O	O
-published	NN	O	O
-with	NN	O	O
-the	NN	O	O
-oxide	NN	O	B-Material
-films	NN	O	I-Material
-being	NN	O	O
-deposited	NN	O	O
-on	NN	O	O
-insulating	NN	O	B-Material
-substrates	NN	O	I-Material
-[	NN	O	O
-17–19	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-to	NN	O	O
-the	NN	O	O
-best	NN	O	O
-of	NN	O	O
-the	NN	O	O
-authors	NN	O	O
-'	NN	O	O
-knowledge	NN	O	O
-no	NN	O	O
-study	NN	O	O
-so	NN	O	O
-far	NN	O	O
-reported	NN	O	O
-experiments	NN	O	O
-with	NN	O	O
-both	NN	O	O
-techniques	NN	O	O
-being	NN	O	O
-applied	NN	O	O
-on	NN	O	O
-the	NN	O	O
-same	NN	O	O
-films	NN	O	B-Material
-at	NN	O	O
-the	NN	O	O
-same	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-contribution	NN	O	O
-reports	NN	O	O
-the	NN	O	O
-results	NN	O	O
-of	NN	O	O
-a	NN	O	O
-study	NN	O	O
-applying	NN	O	O
-EIS	NN	O	O
-and	NN	O	O
-IEDP	NN	O	O
-to	NN	O	O
-one	NN	O	O
-and	NN	O	O
-the	NN	O	O
-same	NN	O	O
-La0.6Sr0.4CoO3−δ	NN	O	O
-
-(	NN	O	O
-LSC	NN	O	O
-)	NN	O	O
-
-thin	NN	O	O
-film	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-get	NN	O	O
-complementary	NN	O	O
-results	NN	O	O
-on	NN	O	O
-the	NN	O	O
-resistive	NN	O	B-Task
-contributions	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-oxygen	NN	O	I-Task
-reduction	NN	O	I-Task
-kinetics	NN	O	I-Task
-on	NN	O	O
-such	NN	O	O
-films	NN	O	B-Material
-.	NN	O	O
-
-As	NN	O	O
-electrical	NN	O	B-Process
-measurements	NN	O	I-Process
-require	NN	O	O
-an	NN	O	O
-oxygen	NN	O	B-Material
-ion	NN	O	I-Material
-conductor	NN	O	I-Material
-,	NN	O	O
-yttria	NN	O	B-Material
-stabilized	NN	O	I-Material
-zirconia	NN	O	I-Material
-(	NN	O	O
-YSZ	NN	O	B-Material
-)	NN	O	O
-was	NN	O	O
-used	NN	O	O
-as	NN	O	O
-substrate	NN	O	O
-for	NN	O	O
-LSC	NN	O	B-Material
-films	NN	O	I-Material
-with	NN	O	O
-two	NN	O	O
-different	NN	O	O
-grain	NN	O	B-Material
-sizes	NN	O	O
-.	NN	O	O
-
-Quantitative	NN	O	B-Task
-material	NN	O	I-Task
-parameters	NN	O	I-Task
-are	NN	O	O
-deduced	NN	O	O
-from	NN	O	O
-both	NN	O	O
-types	NN	O	O
-of	NN	O	O
-experiments	NN	O	O
-and	NN	O	O
-comparison	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-data	NN	O	I-Process
-allowed	NN	O	O
-testing	NN	O	O
-the	NN	O	O
-appropriateness	NN	O	B-Task
-of	NN	O	I-Task
-analysis	NN	O	I-Task
-models	NN	O	I-Task
-.	NN	O	O
+While	0	5	O
+impedance	6	15	B-Process
+spectroscopy	16	28	I-Process
+is	29	31	O
+a	32	33	O
+quite	34	39	O
+common	40	46	O
+method	47	53	O
+to	54	56	O
+investigate	57	68	O
+mixed	69	74	B-Material
+conducting	75	85	I-Material
+thin	86	90	I-Material
+film	91	95	I-Material
+electrodes	96	106	I-Material
+,	106	107	O
+[	108	109	O
+6,10–12	109	116	O
+]	116	117	O
+oxygen	118	124	B-Process
+tracer	125	131	I-Process
+experiments	132	143	I-Process
+are	144	147	O
+often	148	153	O
+performed	154	163	O
+on	164	166	O
+bulk	167	171	B-Material
+samples	172	179	I-Material
+[	180	181	O
+13–16	181	186	O
+]	186	187	O
+.	187	188	O
+
+Recently	189	197	O
+,	197	198	O
+several	199	206	O
+IEDP	207	211	B-Process
+measurements	212	224	I-Process
+of	225	227	O
+mixed	228	233	B-Material
+conducting	234	244	I-Material
+cathode	245	252	I-Material
+materials	253	262	I-Material
+were	263	267	O
+published	268	277	O
+with	278	282	O
+the	283	286	O
+oxide	287	292	B-Material
+films	293	298	I-Material
+being	299	304	O
+deposited	305	314	O
+on	315	317	O
+insulating	318	328	B-Material
+substrates	329	339	I-Material
+[	340	341	O
+17–19	341	346	O
+]	346	347	O
+.	347	348	O
+
+However	349	356	O
+,	356	357	O
+to	358	360	O
+the	361	364	O
+best	365	369	O
+of	370	372	O
+the	373	376	O
+authors	377	384	O
+'	384	385	O
+knowledge	386	395	O
+no	396	398	O
+study	399	404	O
+so	405	407	O
+far	408	411	O
+reported	412	420	O
+experiments	421	432	O
+with	433	437	O
+both	438	442	O
+techniques	443	453	O
+being	454	459	O
+applied	460	467	O
+on	468	470	O
+the	471	474	O
+same	475	479	O
+films	480	485	B-Material
+at	486	488	O
+the	489	492	O
+same	493	497	O
+temperature	498	509	O
+.	509	510	O
+
+This	511	515	O
+contribution	516	528	O
+reports	529	536	O
+the	537	540	O
+results	541	548	O
+of	549	551	O
+a	552	553	O
+study	554	559	O
+applying	560	568	O
+EIS	569	572	O
+and	573	576	O
+IEDP	577	581	O
+to	582	584	O
+one	585	588	O
+and	589	592	O
+the	593	596	O
+same	597	601	O
+La0.6Sr0.4CoO3−δ	602	618	O
+
+(	619	620	O
+LSC	620	623	O
+)	623	624	O
+
+thin	625	629	O
+film	630	634	O
+in	635	637	O
+order	638	643	O
+to	644	646	O
+get	647	650	O
+complementary	651	664	O
+results	665	672	O
+on	673	675	O
+the	676	679	O
+resistive	680	689	B-Task
+contributions	690	703	I-Task
+of	704	706	I-Task
+the	707	710	I-Task
+oxygen	711	717	I-Task
+reduction	718	727	I-Task
+kinetics	728	736	I-Task
+on	737	739	O
+such	740	744	O
+films	745	750	B-Material
+.	750	751	O
+
+As	752	754	O
+electrical	755	765	B-Process
+measurements	766	778	I-Process
+require	779	786	O
+an	787	789	O
+oxygen	790	796	B-Material
+ion	797	800	I-Material
+conductor	801	810	I-Material
+,	810	811	O
+yttria	812	818	B-Material
+stabilized	819	829	I-Material
+zirconia	830	838	I-Material
+(	839	840	O
+YSZ	840	843	B-Material
+)	843	844	O
+was	845	848	O
+used	849	853	O
+as	854	856	O
+substrate	857	866	O
+for	867	870	O
+LSC	871	874	B-Material
+films	875	880	I-Material
+with	881	885	O
+two	886	889	O
+different	890	899	O
+grain	900	905	B-Material
+sizes	906	911	O
+.	911	912	O
+
+Quantitative	913	925	B-Task
+material	926	934	I-Task
+parameters	935	945	I-Task
+are	946	949	O
+deduced	950	957	O
+from	958	962	O
+both	963	967	O
+types	968	973	O
+of	974	976	O
+experiments	977	988	O
+and	989	992	O
+comparison	993	1003	B-Process
+of	1004	1006	I-Process
+the	1007	1010	I-Process
+data	1011	1015	I-Process
+allowed	1016	1023	O
+testing	1024	1031	O
+the	1032	1035	O
+appropriateness	1036	1051	B-Task
+of	1052	1054	I-Task
+analysis	1055	1063	I-Task
+models	1064	1070	I-Task
+.	1070	1071	O
 
 
 -DOCSTART- (S0167273814004408)
 
-Thin	NN	O	B-Material
-MIEC	NN	O	I-Material
-layers	NN	O	I-Material
-of	NN	O	O
-GDC	NN	O	B-Material
-and	NN	O	O
-STFO	NN	O	B-Material
-on	NN	O	O
-single	NN	O	B-Material
--	NN	O	I-Material
-crystalline	NN	O	I-Material
-YSZ	NN	O	I-Material
-substrates	NN	O	I-Material
-were	NN	O	O
-exposed	NN	O	B-Process
-to	NN	O	I-Process
-H2/H218O	NN	O	I-Process
-atmosphere	NN	O	I-Process
-for	NN	O	O
-thermally	NN	O	O
-and	NN	O	O
-electrochemically	NN	O	O
-driven	NN	O	O
-tracer	NN	O	B-Task
-exchange	NN	O	I-Task
-experiments	NN	O	I-Task
-.	NN	O	O
-
-Rectangular	NN	O	B-Material
-noble	NN	O	I-Material
-metal	NN	O	I-Material
-thin	NN	O	I-Material
-film	NN	O	I-Material
-current	NN	O	I-Material
-collectors	NN	O	I-Material
-were	NN	O	O
-deposited	NN	O	B-Process
-on	NN	O	I-Process
-top	NN	O	I-Process
-and	NN	O	I-Process
-beneath	NN	O	I-Process
-the	NN	O	I-Process
-MIEC	NN	O	I-Process
-layer	NN	O	I-Process
-and	NN	O	O
-used	NN	O	O
-for	NN	O	O
-polarization	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-lateral	NN	O	B-Process
-distribution	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-tracer	NN	O	I-Process
-revealed	NN	O	O
-several	NN	O	O
-interesting	NN	O	O
-features	NN	O	O
-:	NN	O	O
-(	NN	O	O
-i	NN	O	O
-)	NN	O	O
-
-In	NN	O	O
-case	NN	O	O
-of	NN	O	O
-thermal	NN	O	B-Process
-tracer	NN	O	I-Process
-exchange	NN	O	I-Process
-,	NN	O	O
-an	NN	O	O
-enhanced	NN	O	O
-tracer	NN	O	B-Process
-fraction	NN	O	I-Process
-is	NN	O	O
-found	NN	O	O
-on	NN	O	O
-top	NN	O	O
-of	NN	O	O
-the	NN	O	O
-metallic	NN	O	B-Material
-current	NN	O	I-Material
-collector	NN	O	I-Material
-due	NN	O	O
-to	NN	O	O
-its	NN	O	O
-ionically	NN	O	O
-blocking	NN	O	O
-nature	NN	O	O
-.	NN	O	O
-
-At	NN	O	O
-the	NN	O	O
-edges	NN	O	O
-of	NN	O	O
-the	NN	O	O
-current	NN	O	O
-collector	NN	O	O
-,	NN	O	O
-the	NN	O	O
-concentration	NN	O	O
-of	NN	O	O
-18O	NN	O	B-Material
-decreases	NN	O	O
-with	NN	O	O
-a	NN	O	O
-finite	NN	O	O
-step	NN	O	O
-width	NN	O	O
-that	NN	O	O
-is	NN	O	O
-correlated	NN	O	O
-with	NN	O	O
-in	NN	O	B-Process
--	NN	O	I-Process
-plane	NN	O	I-Process
-diffusion	NN	O	I-Process
-of	NN	O	I-Process
-oxygen	NN	O	I-Process
-ions	NN	O	I-Process
-.	NN	O	O
-
-(	NN	O	O
-ii	NN	O	O
-)	NN	O	O
-
-Due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-low	NN	O	B-Process
-electronic	NN	O	I-Process
-conductivity	NN	O	I-Process
-of	NN	O	O
-STFO	NN	O	B-Material
-and	NN	O	O
-GDC	NN	O	B-Material
-,	NN	O	O
-the	NN	O	O
-MIEC	NN	O	O
-area	NN	O	O
-that	NN	O	O
-is	NN	O	O
-influenced	NN	O	O
-by	NN	O	O
-an	NN	O	O
-applied	NN	O	B-Process
-bias	NN	O	I-Process
-is	NN	O	O
-restricted	NN	O	O
-to	NN	O	O
-a	NN	O	O
-region	NN	O	O
-close	NN	O	O
-to	NN	O	O
-the	NN	O	O
-current	NN	O	B-Material
-collector	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-width	NN	O	B-Task
-of	NN	O	I-Task
-this	NN	O	I-Task
-active	NN	O	I-Task
-region	NN	O	I-Task
-depends	NN	O	O
-on	NN	O	O
-the	NN	O	O
-bias	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-amounts	NN	O	O
-to	NN	O	O
-only	NN	O	O
-10–15μm	NN	O	O
-for	NN	O	O
-STFO	NN	O	B-Material
-but	NN	O	O
-more	NN	O	O
-than	NN	O	O
-100μm	NN	O	O
-for	NN	O	O
-GDC	NN	O	B-Material
-at	NN	O	O
-a	NN	O	O
-cathodic	NN	O	O
-bias	NN	O	O
-of	NN	O	O
-−500mV.	NN	O	O
-(	NN	O	O
-iii	NN	O	O
-)	NN	O	O
-Not	NN	O	O
-only	NN	O	O
-enhanced	NN	O	B-Process
-tracer	NN	O	I-Process
-incorporation	NN	O	I-Process
-due	NN	O	O
-to	NN	O	O
-cathodic	NN	O	O
-bias	NN	O	O
-but	NN	O	O
-also	NN	O	O
-reduced	NN	O	B-Process
-incorporation	NN	O	I-Process
-due	NN	O	O
-to	NN	O	O
-anodic	NN	O	O
-bias	NN	O	O
-could	NN	O	O
-be	NN	O	O
-experimentally	NN	O	O
-resolved	NN	O	O
-in	NN	O	O
-the	NN	O	O
-active	NN	O	O
-region	NN	O	O
-.	NN	O	O
+Thin	0	4	B-Material
+MIEC	5	9	I-Material
+layers	10	16	I-Material
+of	17	19	O
+GDC	20	23	B-Material
+and	24	27	O
+STFO	28	32	B-Material
+on	33	35	O
+single	36	42	B-Material
+-	42	43	I-Material
+crystalline	43	54	I-Material
+YSZ	55	58	I-Material
+substrates	59	69	I-Material
+were	70	74	O
+exposed	75	82	B-Process
+to	83	85	I-Process
+H2/H218O	86	94	I-Process
+atmosphere	95	105	I-Process
+for	106	109	O
+thermally	110	119	O
+and	120	123	O
+electrochemically	124	141	O
+driven	142	148	O
+tracer	149	155	B-Task
+exchange	156	164	I-Task
+experiments	165	176	I-Task
+.	176	177	O
+
+Rectangular	178	189	B-Material
+noble	190	195	I-Material
+metal	196	201	I-Material
+thin	202	206	I-Material
+film	207	211	I-Material
+current	212	219	I-Material
+collectors	220	230	I-Material
+were	231	235	O
+deposited	236	245	B-Process
+on	246	248	I-Process
+top	249	252	I-Process
+and	253	256	I-Process
+beneath	257	264	I-Process
+the	265	268	I-Process
+MIEC	269	273	I-Process
+layer	274	279	I-Process
+and	280	283	O
+used	284	288	O
+for	289	292	O
+polarization	293	305	B-Process
+.	305	306	O
+
+The	307	310	O
+lateral	311	318	B-Process
+distribution	319	331	I-Process
+of	332	334	I-Process
+the	335	338	I-Process
+tracer	339	345	I-Process
+revealed	346	354	O
+several	355	362	O
+interesting	363	374	O
+features	375	383	O
+:	383	384	O
+(	385	386	O
+i	386	387	O
+)	387	388	O
+
+In	389	391	O
+case	392	396	O
+of	397	399	O
+thermal	400	407	B-Process
+tracer	408	414	I-Process
+exchange	415	423	I-Process
+,	423	424	O
+an	425	427	O
+enhanced	428	436	O
+tracer	437	443	B-Process
+fraction	444	452	I-Process
+is	453	455	O
+found	456	461	O
+on	462	464	O
+top	465	468	O
+of	469	471	O
+the	472	475	O
+metallic	476	484	B-Material
+current	485	492	I-Material
+collector	493	502	I-Material
+due	503	506	O
+to	507	509	O
+its	510	513	O
+ionically	514	523	O
+blocking	524	532	O
+nature	533	539	O
+.	539	540	O
+
+At	541	543	O
+the	544	547	O
+edges	548	553	O
+of	554	556	O
+the	557	560	O
+current	561	568	O
+collector	569	578	O
+,	578	579	O
+the	580	583	O
+concentration	584	597	O
+of	598	600	O
+18O	601	604	B-Material
+decreases	605	614	O
+with	615	619	O
+a	620	621	O
+finite	622	628	O
+step	629	633	O
+width	634	639	O
+that	640	644	O
+is	645	647	O
+correlated	648	658	O
+with	659	663	O
+in	664	666	B-Process
+-	666	667	I-Process
+plane	667	672	I-Process
+diffusion	673	682	I-Process
+of	683	685	I-Process
+oxygen	686	692	I-Process
+ions	693	697	I-Process
+.	697	698	O
+
+(	699	700	O
+ii	700	702	O
+)	702	703	O
+
+Due	704	707	O
+to	708	710	O
+the	711	714	O
+low	715	718	B-Process
+electronic	719	729	I-Process
+conductivity	730	742	I-Process
+of	743	745	O
+STFO	746	750	B-Material
+and	751	754	O
+GDC	755	758	B-Material
+,	758	759	O
+the	760	763	O
+MIEC	764	768	O
+area	769	773	O
+that	774	778	O
+is	779	781	O
+influenced	782	792	O
+by	793	795	O
+an	796	798	O
+applied	799	806	B-Process
+bias	807	811	I-Process
+is	812	814	O
+restricted	815	825	O
+to	826	828	O
+a	829	830	O
+region	831	837	O
+close	838	843	O
+to	844	846	O
+the	847	850	O
+current	851	858	B-Material
+collector	859	868	I-Material
+.	868	869	O
+
+The	870	873	O
+width	874	879	B-Task
+of	880	882	I-Task
+this	883	887	I-Task
+active	888	894	I-Task
+region	895	901	I-Task
+depends	902	909	O
+on	910	912	O
+the	913	916	O
+bias	917	921	O
+.	921	922	O
+
+It	923	925	O
+amounts	926	933	O
+to	934	936	O
+only	937	941	O
+10–15μm	942	949	O
+for	950	953	O
+STFO	954	958	B-Material
+but	959	962	O
+more	963	967	O
+than	968	972	O
+100μm	973	978	O
+for	979	982	O
+GDC	983	986	B-Material
+at	987	989	O
+a	990	991	O
+cathodic	992	1000	O
+bias	1001	1005	O
+of	1006	1008	O
+−500mV.	1009	1016	O
+(	1017	1018	O
+iii	1018	1021	O
+)	1021	1022	O
+Not	1023	1026	O
+only	1027	1031	O
+enhanced	1032	1040	B-Process
+tracer	1041	1047	I-Process
+incorporation	1048	1061	I-Process
+due	1062	1065	O
+to	1066	1068	O
+cathodic	1069	1077	O
+bias	1078	1082	O
+but	1083	1086	O
+also	1087	1091	O
+reduced	1092	1099	B-Process
+incorporation	1100	1113	I-Process
+due	1114	1117	O
+to	1118	1120	O
+anodic	1121	1127	O
+bias	1128	1132	O
+could	1133	1138	O
+be	1139	1141	O
+experimentally	1142	1156	O
+resolved	1157	1165	O
+in	1166	1168	O
+the	1169	1172	O
+active	1173	1179	O
+region	1180	1186	O
+.	1186	1187	O
 
 
 -DOCSTART- (S0167273814004548)
 
-Two	NN	O	O
-different	NN	O	O
-micro	NN	O	B-Material
--	NN	O	I-Material
-contact	NN	O	I-Material
-set	NN	O	I-Material
--	NN	O	I-Material
-ups	NN	O	I-Material
-were	NN	O	O
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-experiments	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-asymmetrically	NN	O	B-Material
-heated	NN	O	I-Material
-measurement	NN	O	I-Material
-set	NN	O	I-Material
--	NN	O	I-Material
-up	NN	O	I-Material
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-2a	NN	O	O
-)	NN	O	O
-allows	NN	O	O
-to	NN	O	O
-change	NN	O	B-Process
-the	NN	O	I-Process
-contacted	NN	O	I-Process
-electrode	NN	O	I-Process
-within	NN	O	O
-seconds	NN	O	O
-and	NN	O	O
-thereby	NN	O	O
-to	NN	O	O
-gain	NN	O	B-Task
-statistical	NN	O	I-Task
-information	NN	O	I-Task
-over	NN	O	O
-a	NN	O	O
-large	NN	O	O
-number	NN	O	O
-of	NN	O	O
-different	NN	O	O
-microelectrodes	NN	O	B-Material
-on	NN	O	O
-one	NN	O	O
-and	NN	O	O
-the	NN	O	O
-same	NN	O	O
-sample	NN	O	O
-in	NN	O	O
-a	NN	O	O
-relatively	NN	O	O
-short	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-also	NN	O	O
-enables	NN	O	O
-monitoring	NN	O	B-Task
-of	NN	O	I-Task
-optical	NN	O	I-Task
-changes	NN	O	I-Task
-during	NN	O	O
-the	NN	O	O
-measurement	NN	O	O
-in	NN	O	O
-real	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-asymmetrical	NN	O	B-Process
-heating	NN	O	I-Process
-from	NN	O	O
-the	NN	O	O
-bottom	NN	O	O
-side	NN	O	O
-and	NN	O	O
-local	NN	O	B-Process
-cooling	NN	O	I-Process
-(	NN	O	O
-e.g.	NN	O	O
-by	NN	O	O
-convection	NN	O	B-Process
-,	NN	O	O
-radiation	NN	O	B-Process
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-contacting	NN	O	B-Material
-tip	NN	O	I-Material
-acting	NN	O	O
-as	NN	O	O
-a	NN	O	O
-heat	NN	O	B-Material
-sink	NN	O	I-Material
-)	NN	O	O
-is	NN	O	O
-known	NN	O	O
-to	NN	O	O
-cause	NN	O	O
-temperature	NN	O	B-Process
-gradients	NN	O	I-Process
-within	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Such	NN	O	O
-temperature	NN	O	B-Process
-gradients	NN	O	I-Process
-are	NN	O	O
-responsible	NN	O	O
-for	NN	O	O
-thermo	NN	O	O
--	NN	O	O
-voltages	NN	O	O
-,	NN	O	O
-which	NN	O	O
-can	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-measurement	NN	O	O
-artifacts	NN	O	O
-in	NN	O	O
-electrochemical	NN	O	B-Process
-experiments	NN	O	I-Process
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-in	NN	O	O
-this	NN	O	O
-set	NN	O	O
--	NN	O	O
-up	NN	O	O
-temperature	NN	O	B-Process
-cycles	NN	O	I-Process
-can	NN	O	O
-hardly	NN	O	O
-be	NN	O	O
-performed	NN	O	O
-on	NN	O	O
-single	NN	O	O
-microelectrodes	NN	O	B-Material
-but	NN	O	O
-require	NN	O	O
-subsequent	NN	O	O
-contacting	NN	O	B-Process
-and	NN	O	I-Process
-de	NN	O	I-Process
--	NN	O	I-Process
-contacting	NN	O	I-Process
-of	NN	O	I-Process
-different	NN	O	I-Process
-microelectrodes	NN	O	I-Process
-.	NN	O	O
+Two	0	3	O
+different	4	13	O
+micro	14	19	B-Material
+-	19	20	I-Material
+contact	20	27	I-Material
+set	28	31	I-Material
+-	31	32	I-Material
+ups	32	35	I-Material
+were	36	40	O
+used	41	45	O
+in	46	48	O
+the	49	52	O
+experiments	53	64	O
+.	64	65	O
+
+The	66	69	O
+asymmetrically	70	84	B-Material
+heated	85	91	I-Material
+measurement	92	103	I-Material
+set	104	107	I-Material
+-	107	108	I-Material
+up	108	110	I-Material
+(	111	112	O
+Fig	112	115	O
+.	115	116	O
+
+2a	117	119	O
+)	119	120	O
+allows	121	127	O
+to	128	130	O
+change	131	137	B-Process
+the	138	141	I-Process
+contacted	142	151	I-Process
+electrode	152	161	I-Process
+within	162	168	O
+seconds	169	176	O
+and	177	180	O
+thereby	181	188	O
+to	189	191	O
+gain	192	196	B-Task
+statistical	197	208	I-Task
+information	209	220	I-Task
+over	221	225	O
+a	226	227	O
+large	228	233	O
+number	234	240	O
+of	241	243	O
+different	244	253	O
+microelectrodes	254	269	B-Material
+on	270	272	O
+one	273	276	O
+and	277	280	O
+the	281	284	O
+same	285	289	O
+sample	290	296	O
+in	297	299	O
+a	300	301	O
+relatively	302	312	O
+short	313	318	O
+time	319	323	O
+.	323	324	O
+
+It	325	327	O
+also	328	332	O
+enables	333	340	O
+monitoring	341	351	B-Task
+of	352	354	I-Task
+optical	355	362	I-Task
+changes	363	370	I-Task
+during	371	377	O
+the	378	381	O
+measurement	382	393	O
+in	394	396	O
+real	397	401	O
+time	402	406	O
+.	406	407	O
+
+However	408	415	O
+,	415	416	O
+the	417	420	O
+asymmetrical	421	433	B-Process
+heating	434	441	I-Process
+from	442	446	O
+the	447	450	O
+bottom	451	457	O
+side	458	462	O
+and	463	466	O
+local	467	472	B-Process
+cooling	473	480	I-Process
+(	481	482	O
+e.g.	482	486	O
+by	487	489	O
+convection	490	500	B-Process
+,	500	501	O
+radiation	502	511	B-Process
+,	511	512	O
+and	513	516	O
+the	517	520	O
+contacting	521	531	B-Material
+tip	532	535	I-Material
+acting	536	542	O
+as	543	545	O
+a	546	547	O
+heat	548	552	B-Material
+sink	553	557	I-Material
+)	557	558	O
+is	559	561	O
+known	562	567	O
+to	568	570	O
+cause	571	576	O
+temperature	577	588	B-Process
+gradients	589	598	I-Process
+within	599	605	O
+the	606	609	O
+sample	610	616	O
+[	617	618	O
+11	618	620	O
+]	620	621	O
+.	621	622	O
+
+Such	623	627	O
+temperature	628	639	B-Process
+gradients	640	649	I-Process
+are	650	653	O
+responsible	654	665	O
+for	666	669	O
+thermo	670	676	O
+-	676	677	O
+voltages	677	685	O
+,	685	686	O
+which	687	692	O
+can	693	696	O
+lead	697	701	O
+to	702	704	O
+measurement	705	716	O
+artifacts	717	726	O
+in	727	729	O
+electrochemical	730	745	B-Process
+experiments	746	757	I-Process
+[	758	759	O
+24	759	761	O
+]	761	762	O
+.	762	763	O
+
+Moreover	764	772	O
+,	772	773	O
+in	774	776	O
+this	777	781	O
+set	782	785	O
+-	785	786	O
+up	786	788	O
+temperature	789	800	B-Process
+cycles	801	807	I-Process
+can	808	811	O
+hardly	812	818	O
+be	819	821	O
+performed	822	831	O
+on	832	834	O
+single	835	841	O
+microelectrodes	842	857	B-Material
+but	858	861	O
+require	862	869	O
+subsequent	870	880	O
+contacting	881	891	B-Process
+and	892	895	I-Process
+de	896	898	I-Process
+-	898	899	I-Process
+contacting	899	909	I-Process
+of	910	912	I-Process
+different	913	922	I-Process
+microelectrodes	923	938	I-Process
+.	938	939	O
 
 
 -DOCSTART- (S0167273815004130)
 
-Room	NN	O	O
-temperature	NN	O	O
-powder	NN	O	B-Process
-X	NN	O	I-Process
--	NN	O	I-Process
-ray	NN	O	I-Process
-diffraction	NN	O	I-Process
-(	NN	O	O
-XRD	NN	O	B-Process
-)	NN	O	O
-was	NN	O	O
-performed	NN	O	O
-on	NN	O	O
-a	NN	O	O
-PANalytical	NN	O	B-Process
-Empyrean	NN	O	I-Process
-diffractometer	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-obtained	NN	O	O
-XRD	NN	O	B-Material
-patterns	NN	O	I-Material
-were	NN	O	O
-analysed	NN	O	O
-with	NN	O	O
-STOE	NN	O	B-Process
-Win	NN	O	I-Process
-XPOW	NN	O	I-Process
-software	NN	O	I-Process
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-phase	NN	O	B-Task
-purity	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-crystal	NN	O	B-Task
-structure	NN	O	I-Task
-and	NN	O	O
-the	NN	O	O
-cell	NN	O	B-Task
-parameters	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-samples	NN	O	O
-.	NN	O	O
-
-Thermogravimetric	NN	O	B-Process
-analysis	NN	O	I-Process
-(	NN	O	O
-TGA	NN	O	B-Process
-)	NN	O	O
-was	NN	O	O
-performed	NN	O	O
-using	NN	O	O
-a	NN	O	O
-Netzsch	NN	O	B-Process
-STA	NN	O	I-Process
-449C	NN	O	I-Process
-instrument	NN	O	I-Process
-equipped	NN	O	O
-with	NN	O	O
-Proteus	NN	O	B-Process
-thermal	NN	O	I-Process
-analysis	NN	O	I-Process
-software	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-TGA	NN	O	O
-studies	NN	O	O
-were	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-under	NN	O	O
-reducing	NN	O	B-Process
-conditions	NN	O	I-Process
-(	NN	O	O
-5	NN	O	B-Material
-%	NN	O	I-Material
-H2/Ar	NN	O	I-Material
-)	NN	O	O
-from	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-to	NN	O	O
-900	NN	O	O
-°	NN	O	O
-C	NN	O	O
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-the	NN	O	O
-weight	NN	O	B-Task
-change	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-perovskite	NN	O	B-Material
-during	NN	O	O
-the	NN	O	O
-reduction	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-microstructure	NN	O	O
-of	NN	O	O
-the	NN	O	O
-samples	NN	O	O
-'	NN	O	O
-surface	NN	O	O
-was	NN	O	O
-analysed	NN	O	O
-using	NN	O	O
-a	NN	O	O
-JEOL	NN	O	O
-JSM-6700	NN	O	O
-field	NN	O	B-Process
-emission	NN	O	I-Process
-74	NN	O	I-Process
-scanning	NN	O	I-Process
-electron	NN	O	I-Process
-microscope	NN	O	I-Process
-(	NN	O	O
-FEG	NN	O	B-Process
--	NN	O	I-Process
-SEM	NN	O	I-Process
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-total	NN	O	B-Task
-conductivity	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-samples	NN	O	O
-was	NN	O	O
-measured	NN	O	O
-using	NN	O	O
-a	NN	O	O
-conventional	NN	O	O
-four	NN	O	B-Process
--	NN	O	I-Process
-terminal	NN	O	I-Process
-method	NN	O	I-Process
-.	NN	O	O
-
-Bar	NN	O	O
-samples	NN	O	O
-were	NN	O	O
-prepared	NN	O	O
-by	NN	O	O
-calcination	NN	O	B-Task
-at	NN	O	O
-1300	NN	O	O
-°	NN	O	O
-C	NN	O	O
-for	NN	O	O
-1h	NN	O	O
-.	NN	O	O
-
-Gold	NN	O	B-Material
-wire	NN	O	I-Material
-contacts	NN	O	I-Material
-were	NN	O	O
-attached	NN	O	O
-to	NN	O	O
-the	NN	O	O
-bars	NN	O	O
-,	NN	O	O
-which	NN	O	O
-then	NN	O	O
-were	NN	O	O
-cured	NN	O	O
-at	NN	O	O
-850	NN	O	O
-°	NN	O	O
-C	NN	O	O
-for	NN	O	O
-1h	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-conductivity	NN	O	B-Task
-of	NN	O	O
-the	NN	O	O
-samples	NN	O	O
-was	NN	O	O
-measured	NN	O	O
-under	NN	O	O
-a	NN	O	O
-redox	NN	O	B-Task
-cycle	NN	O	I-Task
-at	NN	O	O
-900	NN	O	O
-°	NN	O	O
-C	NN	O	O
-.	NN	O	O
-
-Low	NN	O	B-Process
-oxygen	NN	O	I-Process
-partial	NN	O	I-Process
-pressure	NN	O	I-Process
-was	NN	O	O
-achieved	NN	O	O
-by	NN	O	O
-using	NN	O	O
-a	NN	O	O
-continuous	NN	O	O
-flow	NN	O	B-Process
-of	NN	O	O
-5	NN	O	O
-%	NN	O	O
-H2/Ar	NN	O	B-Material
-.	NN	O	O
+Room	0	4	O
+temperature	5	16	O
+powder	17	23	B-Process
+X	24	25	I-Process
+-	25	26	I-Process
+ray	26	29	I-Process
+diffraction	30	41	I-Process
+(	42	43	O
+XRD	43	46	B-Process
+)	46	47	O
+was	48	51	O
+performed	52	61	O
+on	62	64	O
+a	65	66	O
+PANalytical	67	78	B-Process
+Empyrean	79	87	I-Process
+diffractometer	88	102	I-Process
+.	102	103	O
+
+The	104	107	O
+obtained	108	116	O
+XRD	117	120	B-Material
+patterns	121	129	I-Material
+were	130	134	O
+analysed	135	143	O
+with	144	148	O
+STOE	149	153	B-Process
+Win	154	157	I-Process
+XPOW	158	162	I-Process
+software	163	171	I-Process
+in	172	174	O
+order	175	180	O
+to	181	183	O
+determine	184	193	O
+phase	194	199	B-Task
+purity	200	206	I-Task
+,	206	207	O
+the	208	211	O
+crystal	212	219	B-Task
+structure	220	229	I-Task
+and	230	233	O
+the	234	237	O
+cell	238	242	B-Task
+parameters	243	253	I-Task
+of	254	256	O
+the	257	260	O
+samples	261	268	O
+.	268	269	O
+
+Thermogravimetric	270	287	B-Process
+analysis	288	296	I-Process
+(	297	298	O
+TGA	298	301	B-Process
+)	301	302	O
+was	303	306	O
+performed	307	316	O
+using	317	322	O
+a	323	324	O
+Netzsch	325	332	B-Process
+STA	333	336	I-Process
+449C	337	341	I-Process
+instrument	342	352	I-Process
+equipped	353	361	O
+with	362	366	O
+Proteus	367	374	B-Process
+thermal	375	382	I-Process
+analysis	383	391	I-Process
+software	392	400	I-Process
+.	400	401	O
+
+The	402	405	O
+TGA	406	409	O
+studies	410	417	O
+were	418	422	O
+carried	423	430	O
+out	431	434	O
+under	435	440	O
+reducing	441	449	B-Process
+conditions	450	460	I-Process
+(	461	462	O
+5	462	463	B-Material
+%	463	464	I-Material
+H2/Ar	465	470	I-Material
+)	470	471	O
+from	472	476	O
+room	477	481	O
+temperature	482	493	O
+to	494	496	O
+900	497	500	O
+°	500	501	O
+C	501	502	O
+,	502	503	O
+in	504	506	O
+order	507	512	O
+to	513	515	O
+determine	516	525	O
+the	526	529	O
+weight	530	536	B-Task
+change	537	543	I-Task
+of	544	546	O
+the	547	550	O
+perovskite	551	561	B-Material
+during	562	568	O
+the	569	572	O
+reduction	573	582	O
+.	582	583	O
+
+The	584	587	O
+microstructure	588	602	O
+of	603	605	O
+the	606	609	O
+samples	610	617	O
+'	617	618	O
+surface	619	626	O
+was	627	630	O
+analysed	631	639	O
+using	640	645	O
+a	646	647	O
+JEOL	648	652	O
+JSM-6700	653	661	O
+field	662	667	B-Process
+emission	668	676	I-Process
+74	677	679	I-Process
+scanning	680	688	I-Process
+electron	689	697	I-Process
+microscope	698	708	I-Process
+(	709	710	O
+FEG	710	713	B-Process
+-	713	714	I-Process
+SEM	714	717	I-Process
+)	717	718	O
+.	718	719	O
+
+The	720	723	O
+total	724	729	B-Task
+conductivity	730	742	I-Task
+of	743	745	O
+the	746	749	O
+samples	750	757	O
+was	758	761	O
+measured	762	770	O
+using	771	776	O
+a	777	778	O
+conventional	779	791	O
+four	792	796	B-Process
+-	796	797	I-Process
+terminal	797	805	I-Process
+method	806	812	I-Process
+.	812	813	O
+
+Bar	814	817	O
+samples	818	825	O
+were	826	830	O
+prepared	831	839	O
+by	840	842	O
+calcination	843	854	B-Task
+at	855	857	O
+1300	858	862	O
+°	862	863	O
+C	863	864	O
+for	865	868	O
+1h	869	871	O
+.	871	872	O
+
+Gold	873	877	B-Material
+wire	878	882	I-Material
+contacts	883	891	I-Material
+were	892	896	O
+attached	897	905	O
+to	906	908	O
+the	909	912	O
+bars	913	917	O
+,	917	918	O
+which	919	924	O
+then	925	929	O
+were	930	934	O
+cured	935	940	O
+at	941	943	O
+850	944	947	O
+°	947	948	O
+C	948	949	O
+for	950	953	O
+1h	954	956	O
+.	956	957	O
+
+The	958	961	O
+conductivity	962	974	B-Task
+of	975	977	O
+the	978	981	O
+samples	982	989	O
+was	990	993	O
+measured	994	1002	O
+under	1003	1008	O
+a	1009	1010	O
+redox	1011	1016	B-Task
+cycle	1017	1022	I-Task
+at	1023	1025	O
+900	1026	1029	O
+°	1029	1030	O
+C	1030	1031	O
+.	1031	1032	O
+
+Low	1033	1036	B-Process
+oxygen	1037	1043	I-Process
+partial	1044	1051	I-Process
+pressure	1052	1060	I-Process
+was	1061	1064	O
+achieved	1065	1073	O
+by	1074	1076	O
+using	1077	1082	O
+a	1083	1084	O
+continuous	1085	1095	O
+flow	1096	1100	B-Process
+of	1101	1103	O
+5	1104	1105	O
+%	1105	1106	O
+H2/Ar	1107	1112	B-Material
+.	1112	1113	O
 
 
 -DOCSTART- (S0167931711005120)
 
-A	NN	O	B-Task
-nanocomposite	NN	O	I-Task
-system	NN	O	I-Task
-consisting	NN	O	O
-of	NN	O	O
-a	NN	O	B-Material
-semiconducting	NN	O	I-Material
-matrix	NN	O	I-Material
-and	NN	O	I-Material
-embedded	NN	O	I-Material
-ferromagnetic	NN	O	I-Material
-nanostructures	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-fabricated	NN	O	O
-.	NN	O	O
-
-The	NN	O	B-Task
-ferromagnetic	NN	O	I-Task
-characteristics	NN	O	I-Task
-as	NN	O	O
-coercivity	NN	O	B-Task
-,	NN	O	I-Task
-remanence	NN	O	I-Task
-and	NN	O	I-Task
-magnetic	NN	O	I-Task
-anisotropy	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-nanocomposite	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-adjusted	NN	O	O
-by	NN	O	O
-the	NN	O	B-Material
-electrochemical	NN	O	I-Material
-parameters	NN	O	I-Material
-.	NN	O	O
-
-Furthermore	NN	O	O
-the	NN	O	O
-spatial	NN	O	O
-distribution	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-metal	NN	O	O
-structures	NN	O	O
-within	NN	O	O
-the	NN	O	O
-pores	NN	O	O
-can	NN	O	O
-be	NN	O	O
-varied	NN	O	O
-which	NN	O	O
-means	NN	O	O
-that	NN	O	O
-the	NN	O	O
-magnetic	NN	O	O
-interactions	NN	O	O
-between	NN	O	O
-the	NN	O	O
-particles	NN	O	O
-can	NN	O	O
-be	NN	O	O
-influenced	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-densely	NN	O	B-Task
-packed	NN	O	I-Task
-particles	NN	O	I-Task
-within	NN	O	O
-the	NN	O	O
-pores	NN	O	O
-dipolar	NN	O	O
-coupling	NN	O	O
-between	NN	O	O
-them	NN	O	O
-occurs	NN	O	O
-and	NN	O	O
-results	NN	O	O
-in	NN	O	O
-quasi	NN	O	O
-magnetic	NN	O	O
-chains	NN	O	O
-which	NN	O	O
-offer	NN	O	O
-a	NN	O	B-Material
-much	NN	O	I-Material
-larger	NN	O	I-Material
-magnetic	NN	O	I-Material
-anisotropy	NN	O	I-Material
-than	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-interacting	NN	O	I-Material
-particles	NN	O	I-Material
-.	NN	O	O
-
-By	NN	O	O
-modifying	NN	O	B-Process
-the	NN	O	I-Process
-current	NN	O	I-Process
-density	NN	O	I-Process
-small	NN	O	B-Material
-Ni	NN	O	I-Material
--	NN	O	I-Material
-particles	NN	O	I-Material
-(	NN	O	I-Material
-3–6	NN	O	I-Material
-nm	NN	O	I-Material
-)	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-deposited	NN	O	O
-.	NN	O	O
-
-If	NN	O	O
-the	NN	O	O
-packing	NN	O	O
-density	NN	O	O
-of	NN	O	O
-these	NN	O	B-Material
-particles	NN	O	I-Material
-is	NN	O	O
-sufficiently	NN	O	O
-close	NN	O	O
-,	NN	O	O
-Ni	NN	O	B-Material
--	NN	O	I-Material
-tubes	NN	O	I-Material
-of	NN	O	O
-a	NN	O	O
-few	NN	O	O
-nanometer	NN	O	O
-in	NN	O	O
-thickness	NN	O	O
-are	NN	O	O
-covering	NN	O	O
-the	NN	O	O
-pore	NN	O	O
-walls	NN	O	O
-.	NN	O	O
-
-The	NN	O	B-Task
-presented	NN	O	I-Task
-nanocomposite	NN	O	I-Task
-is	NN	O	O
-an	NN	O	O
-interesting	NN	O	O
-system	NN	O	O
-for	NN	O	O
-magnetic	NN	O	O
-applications	NN	O	O
-as	NN	O	O
-magnetic	NN	O	O
-sensor	NN	O	O
-technology	NN	O	O
-.	NN	O	O
-
-Silicon	NN	O	B-Material
-as	NN	O	O
-substrate	NN	O	O
-renders	NN	O	O
-this	NN	O	O
-composite	NN	O	O
-a	NN	O	B-Task
-good	NN	O	I-Task
-candidate	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-integration	NN	O	I-Task
-in	NN	O	O
-existing	NN	O	O
-process	NN	O	O
-technology	NN	O	O
-.	NN	O	O
+A	0	1	B-Task
+nanocomposite	2	15	I-Task
+system	16	22	I-Task
+consisting	23	33	O
+of	34	36	O
+a	37	38	B-Material
+semiconducting	39	53	I-Material
+matrix	54	60	I-Material
+and	61	64	I-Material
+embedded	65	73	I-Material
+ferromagnetic	74	87	I-Material
+nanostructures	88	102	I-Material
+has	103	106	O
+been	107	111	O
+fabricated	112	122	O
+.	122	123	O
+
+The	124	127	B-Task
+ferromagnetic	128	141	I-Task
+characteristics	142	157	I-Task
+as	158	160	O
+coercivity	161	171	B-Task
+,	171	172	I-Task
+remanence	173	182	I-Task
+and	183	186	I-Task
+magnetic	187	195	I-Task
+anisotropy	196	206	I-Task
+of	207	209	I-Task
+the	210	213	I-Task
+nanocomposite	214	227	I-Task
+can	228	231	O
+be	232	234	O
+adjusted	235	243	O
+by	244	246	O
+the	247	250	B-Material
+electrochemical	251	266	I-Material
+parameters	267	277	I-Material
+.	277	278	O
+
+Furthermore	279	290	O
+the	291	294	O
+spatial	295	302	O
+distribution	303	315	B-Process
+of	316	318	O
+the	319	322	O
+metal	323	328	O
+structures	329	339	O
+within	340	346	O
+the	347	350	O
+pores	351	356	O
+can	357	360	O
+be	361	363	O
+varied	364	370	O
+which	371	376	O
+means	377	382	O
+that	383	387	O
+the	388	391	O
+magnetic	392	400	O
+interactions	401	413	O
+between	414	421	O
+the	422	425	O
+particles	426	435	O
+can	436	439	O
+be	440	442	O
+influenced	443	453	O
+.	453	454	O
+
+In	455	457	O
+the	458	461	O
+case	462	466	O
+of	467	469	O
+densely	470	477	B-Task
+packed	478	484	I-Task
+particles	485	494	I-Task
+within	495	501	O
+the	502	505	O
+pores	506	511	O
+dipolar	512	519	O
+coupling	520	528	O
+between	529	536	O
+them	537	541	O
+occurs	542	548	O
+and	549	552	O
+results	553	560	O
+in	561	563	O
+quasi	564	569	O
+magnetic	570	578	O
+chains	579	585	O
+which	586	591	O
+offer	592	597	O
+a	598	599	B-Material
+much	600	604	I-Material
+larger	605	611	I-Material
+magnetic	612	620	I-Material
+anisotropy	621	631	I-Material
+than	632	636	O
+non	637	640	B-Material
+-	640	641	I-Material
+interacting	641	652	I-Material
+particles	653	662	I-Material
+.	662	663	O
+
+By	664	666	O
+modifying	667	676	B-Process
+the	677	680	I-Process
+current	681	688	I-Process
+density	689	696	I-Process
+small	697	702	B-Material
+Ni	703	705	I-Material
+-	705	706	I-Material
+particles	706	715	I-Material
+(	716	717	I-Material
+3–6	717	720	I-Material
+nm	720	722	I-Material
+)	722	723	I-Material
+can	724	727	O
+be	728	730	O
+deposited	731	740	O
+.	740	741	O
+
+If	742	744	O
+the	745	748	O
+packing	749	756	O
+density	757	764	O
+of	765	767	O
+these	768	773	B-Material
+particles	774	783	I-Material
+is	784	786	O
+sufficiently	787	799	O
+close	800	805	O
+,	805	806	O
+Ni	807	809	B-Material
+-	809	810	I-Material
+tubes	810	815	I-Material
+of	816	818	O
+a	819	820	O
+few	821	824	O
+nanometer	825	834	O
+in	835	837	O
+thickness	838	847	O
+are	848	851	O
+covering	852	860	O
+the	861	864	O
+pore	865	869	O
+walls	870	875	O
+.	875	876	O
+
+The	877	880	B-Task
+presented	881	890	I-Task
+nanocomposite	891	904	I-Task
+is	905	907	O
+an	908	910	O
+interesting	911	922	O
+system	923	929	O
+for	930	933	O
+magnetic	934	942	O
+applications	943	955	O
+as	956	958	O
+magnetic	959	967	O
+sensor	968	974	O
+technology	975	985	O
+.	985	986	O
+
+Silicon	987	994	B-Material
+as	995	997	O
+substrate	998	1007	O
+renders	1008	1015	O
+this	1016	1020	O
+composite	1021	1030	O
+a	1031	1032	B-Task
+good	1033	1037	I-Task
+candidate	1038	1047	I-Task
+for	1048	1051	I-Task
+the	1052	1055	I-Task
+integration	1056	1067	I-Task
+in	1068	1070	O
+existing	1071	1079	O
+process	1080	1087	O
+technology	1088	1098	O
+.	1098	1099	O
 
 
 -DOCSTART- (S0167931712002699)
 
-As	NN	O	O
-the	NN	O	O
-progression	NN	O	O
-towards	NN	O	O
-smaller	NN	O	B-Task
-lithographic	NN	O	I-Task
-nodes	NN	O	I-Task
-continues	NN	O	O
-it	NN	O	O
-has	NN	O	O
-become	NN	O	O
-necessary	NN	O	O
-to	NN	O	O
-adopt	NN	O	O
-thinner	NN	O	B-Material
-resist	NN	O	I-Material
-films	NN	O	I-Material
-to	NN	O	O
-mitigate	NN	O	O
-problems	NN	O	O
-such	NN	O	O
-as	NN	O	O
-pattern	NN	O	B-Process
-collapse	NN	O	I-Process
-.	NN	O	O
-
-To	NN	O	O
-address	NN	O	O
-the	NN	O	O
-issue	NN	O	O
-of	NN	O	O
-reduced	NN	O	B-Process
-etch	NN	O	I-Process
-resistance	NN	O	I-Process
-of	NN	O	I-Process
-thin	NN	O	I-Process
-photoresist	NN	O	I-Process
-films	NN	O	I-Process
-the	NN	O	O
-semiconductor	NN	O	O
-industry	NN	O	O
-has	NN	O	O
-begun	NN	O	O
-to	NN	O	O
-develop	NN	O	O
-multilayer	NN	O	B-Process
-processes	NN	O	I-Process
-where	NN	O	O
-the	NN	O	O
-pattern	NN	O	O
-is	NN	O	O
-first	NN	O	O
-transferred	NN	O	O
-into	NN	O	O
-an	NN	O	O
-intermediate	NN	O	B-Material
-organic	NN	O	I-Material
-hardmask	NN	O	I-Material
-with	NN	O	O
-higher	NN	O	O
-etch	NN	O	O
-selectivity	NN	O	O
-before	NN	O	O
-final	NN	O	O
-silicon	NN	O	B-Process
-pattern	NN	O	I-Process
-transfer	NN	O	I-Process
-[	NN	O	O
-25–27	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-we	NN	O	O
-demonstrate	NN	O	O
-how	NN	O	O
-the	NN	O	O
-introduction	NN	O	O
-of	NN	O	O
-such	NN	O	O
-a	NN	O	O
-multilayer	NN	O	B-Process
-process	NN	O	I-Process
-can	NN	O	O
-also	NN	O	O
-benefit	NN	O	O
-nanosphere	NN	O	B-Task
-lithography	NN	O	I-Task
-by	NN	O	O
-increasing	NN	O	O
-achievable	NN	O	O
-aspect	NN	O	O
-ratios	NN	O	O
-of	NN	O	O
-silicon	NN	O	B-Material
-nanopillars	NN	O	I-Material
-without	NN	O	O
-the	NN	O	O
-need	NN	O	O
-for	NN	O	O
-complex	NN	O	B-Process
-etch	NN	O	I-Process
-processes	NN	O	I-Process
-requiring	NN	O	O
-specialised	NN	O	O
-and	NN	O	O
-expensive	NN	O	O
-equipment	NN	O	O
-,	NN	O	O
-but	NN	O	O
-instead	NN	O	O
-needing	NN	O	O
-only	NN	O	O
-a	NN	O	O
-standard	NN	O	O
-SF6/C4F8	NN	O	O
-inductively	NN	O	O
-coupled	NN	O	B-Material
-plasma	NN	O	I-Material
-(	NN	O	O
-ICP	NN	O	B-Material
-)	NN	O	O
-mixed	NN	O	O
-mode	NN	O	O
-etch	NN	O	O
-process	NN	O	O
-at	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-[	NN	O	O
-28	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-intermediate	NN	O	B-Material
-layer	NN	O	I-Material
-material	NN	O	I-Material
-we	NN	O	O
-used	NN	O	O
-polyimide	NN	O	B-Material
-,	NN	O	O
-which	NN	O	O
-finds	NN	O	O
-widespread	NN	O	O
-use	NN	O	O
-as	NN	O	O
-encapsulation	NN	O	B-Material
-material	NN	O	I-Material
-for	NN	O	O
-IC	NN	O	B-Task
-production	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-readily	NN	O	O
-patterned	NN	O	O
-in	NN	O	O
-oxygen	NN	O	B-Material
-plasma	NN	O	I-Material
-and	NN	O	O
-has	NN	O	O
-a	NN	O	O
-lower	NN	O	O
-etch	NN	O	O
-rate	NN	O	O
-than	NN	O	O
-silicon	NN	O	B-Material
-in	NN	O	O
-SF6	NN	O	B-Material
-gas	NN	O	I-Material
-.	NN	O	O
-
-Its	NN	O	O
-flexibility	NN	O	O
-can	NN	O	O
-also	NN	O	O
-be	NN	O	O
-used	NN	O	O
-for	NN	O	O
-the	NN	O	O
-fabrication	NN	O	B-Task
-of	NN	O	I-Task
-soft	NN	O	I-Task
-polymer	NN	O	I-Task
-pillars	NN	O	I-Task
-by	NN	O	O
-the	NN	O	O
-same	NN	O	O
-process	NN	O	O
-as	NN	O	O
-we	NN	O	O
-will	NN	O	O
-show	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-multilayer	NN	O	B-Process
-process	NN	O	I-Process
-slightly	NN	O	O
-increases	NN	O	O
-the	NN	O	O
-complexity	NN	O	O
-of	NN	O	O
-sample	NN	O	B-Process
-preparation	NN	O	I-Process
-but	NN	O	O
-allows	NN	O	O
-basic	NN	O	O
-ICP	NN	O	B-Process
-etching	NN	O	I-Process
-to	NN	O	O
-achieve	NN	O	O
-high	NN	O	O
-aspect	NN	O	O
-ratio	NN	O	O
-structures	NN	O	O
-at	NN	O	O
-smaller	NN	O	O
-feature	NN	O	O
-sizes	NN	O	O
-that	NN	O	O
-previously	NN	O	O
-reported	NN	O	O
-without	NN	O	O
-the	NN	O	O
-need	NN	O	O
-for	NN	O	O
-complex	NN	O	O
-etching	NN	O	B-Material
-equipment	NN	O	I-Material
-.	NN	O	O
+As	0	2	O
+the	3	6	O
+progression	7	18	O
+towards	19	26	O
+smaller	27	34	B-Task
+lithographic	35	47	I-Task
+nodes	48	53	I-Task
+continues	54	63	O
+it	64	66	O
+has	67	70	O
+become	71	77	O
+necessary	78	87	O
+to	88	90	O
+adopt	91	96	O
+thinner	97	104	B-Material
+resist	105	111	I-Material
+films	112	117	I-Material
+to	118	120	O
+mitigate	121	129	O
+problems	130	138	O
+such	139	143	O
+as	144	146	O
+pattern	147	154	B-Process
+collapse	155	163	I-Process
+.	163	164	O
+
+To	165	167	O
+address	168	175	O
+the	176	179	O
+issue	180	185	O
+of	186	188	O
+reduced	189	196	B-Process
+etch	197	201	I-Process
+resistance	202	212	I-Process
+of	213	215	I-Process
+thin	216	220	I-Process
+photoresist	221	232	I-Process
+films	233	238	I-Process
+the	239	242	O
+semiconductor	243	256	O
+industry	257	265	O
+has	266	269	O
+begun	270	275	O
+to	276	278	O
+develop	279	286	O
+multilayer	287	297	B-Process
+processes	298	307	I-Process
+where	308	313	O
+the	314	317	O
+pattern	318	325	O
+is	326	328	O
+first	329	334	O
+transferred	335	346	O
+into	347	351	O
+an	352	354	O
+intermediate	355	367	B-Material
+organic	368	375	I-Material
+hardmask	376	384	I-Material
+with	385	389	O
+higher	390	396	O
+etch	397	401	O
+selectivity	402	413	O
+before	414	420	O
+final	421	426	O
+silicon	427	434	B-Process
+pattern	435	442	I-Process
+transfer	443	451	I-Process
+[	452	453	O
+25–27	453	458	O
+]	458	459	O
+.	459	460	O
+
+In	461	463	O
+this	464	468	O
+paper	469	474	O
+we	475	477	O
+demonstrate	478	489	O
+how	490	493	O
+the	494	497	O
+introduction	498	510	O
+of	511	513	O
+such	514	518	O
+a	519	520	O
+multilayer	521	531	B-Process
+process	532	539	I-Process
+can	540	543	O
+also	544	548	O
+benefit	549	556	O
+nanosphere	557	567	B-Task
+lithography	568	579	I-Task
+by	580	582	O
+increasing	583	593	O
+achievable	594	604	O
+aspect	605	611	O
+ratios	612	618	O
+of	619	621	O
+silicon	622	629	B-Material
+nanopillars	630	641	I-Material
+without	642	649	O
+the	650	653	O
+need	654	658	O
+for	659	662	O
+complex	663	670	B-Process
+etch	671	675	I-Process
+processes	676	685	I-Process
+requiring	686	695	O
+specialised	696	707	O
+and	708	711	O
+expensive	712	721	O
+equipment	722	731	O
+,	731	732	O
+but	733	736	O
+instead	737	744	O
+needing	745	752	O
+only	753	757	O
+a	758	759	O
+standard	760	768	O
+SF6/C4F8	769	777	O
+inductively	778	789	O
+coupled	790	797	B-Material
+plasma	798	804	I-Material
+(	805	806	O
+ICP	806	809	B-Material
+)	809	810	O
+mixed	811	816	O
+mode	817	821	O
+etch	822	826	O
+process	827	834	O
+at	835	837	O
+room	838	842	O
+temperature	843	854	O
+[	855	856	O
+28	856	858	O
+]	858	859	O
+.	859	860	O
+
+As	861	863	O
+intermediate	864	876	B-Material
+layer	877	882	I-Material
+material	883	891	I-Material
+we	892	894	O
+used	895	899	O
+polyimide	900	909	B-Material
+,	909	910	O
+which	911	916	O
+finds	917	922	O
+widespread	923	933	O
+use	934	937	O
+as	938	940	O
+encapsulation	941	954	B-Material
+material	955	963	I-Material
+for	964	967	O
+IC	968	970	B-Task
+production	971	981	I-Task
+.	981	982	O
+
+It	983	985	O
+is	986	988	O
+readily	989	996	O
+patterned	997	1006	O
+in	1007	1009	O
+oxygen	1010	1016	B-Material
+plasma	1017	1023	I-Material
+and	1024	1027	O
+has	1028	1031	O
+a	1032	1033	O
+lower	1034	1039	O
+etch	1040	1044	O
+rate	1045	1049	O
+than	1050	1054	O
+silicon	1055	1062	B-Material
+in	1063	1065	O
+SF6	1066	1069	B-Material
+gas	1070	1073	I-Material
+.	1073	1074	O
+
+Its	1075	1078	O
+flexibility	1079	1090	O
+can	1091	1094	O
+also	1095	1099	O
+be	1100	1102	O
+used	1103	1107	O
+for	1108	1111	O
+the	1112	1115	O
+fabrication	1116	1127	B-Task
+of	1128	1130	I-Task
+soft	1131	1135	I-Task
+polymer	1136	1143	I-Task
+pillars	1144	1151	I-Task
+by	1152	1154	O
+the	1155	1158	O
+same	1159	1163	O
+process	1164	1171	O
+as	1172	1174	O
+we	1175	1177	O
+will	1178	1182	O
+show	1183	1187	O
+.	1187	1188	O
+
+The	1189	1192	O
+multilayer	1193	1203	B-Process
+process	1204	1211	I-Process
+slightly	1212	1220	O
+increases	1221	1230	O
+the	1231	1234	O
+complexity	1235	1245	O
+of	1246	1248	O
+sample	1249	1255	B-Process
+preparation	1256	1267	I-Process
+but	1268	1271	O
+allows	1272	1278	O
+basic	1279	1284	O
+ICP	1285	1288	B-Process
+etching	1289	1296	I-Process
+to	1297	1299	O
+achieve	1300	1307	O
+high	1308	1312	O
+aspect	1313	1319	O
+ratio	1320	1325	O
+structures	1326	1336	O
+at	1337	1339	O
+smaller	1340	1347	O
+feature	1348	1355	O
+sizes	1356	1361	O
+that	1362	1366	O
+previously	1367	1377	O
+reported	1378	1386	O
+without	1387	1394	O
+the	1395	1398	O
+need	1399	1403	O
+for	1404	1407	O
+complex	1408	1415	O
+etching	1416	1423	B-Material
+equipment	1424	1433	I-Material
+.	1433	1434	O
 
 
 -DOCSTART- (S0167931712002936)
 
-A	NN	O	O
-3D	NN	O	O
-finite	NN	O	O
-element	NN	O	O
-based	NN	O	O
-(	NN	O	O
-FEM	NN	O	O
-)	NN	O	O
-
-COMSOL	NN	O	O
-capacitance	NN	O	O
-analysis	NN	O	O
-is	NN	O	O
-combined	NN	O	O
-with	NN	O	O
-Monte	NN	O	B-Process
-Carlo	NN	O	I-Process
-single	NN	O	I-Process
--	NN	O	I-Process
-electron	NN	O	I-Process
-circuit	NN	O	I-Process
-simulations	NN	O	I-Process
-to	NN	O	O
-model	NN	O	B-Task
-device	NN	O	I-Task
-operations	NN	O	I-Task
-during	NN	O	I-Task
-single	NN	O	I-Task
-electron	NN	O	I-Task
-detection	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-3D	NN	O	B-Material
-structural	NN	O	I-Material
-data	NN	O	I-Material
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1b	NN	O	O
-)	NN	O	O
-of	NN	O	O
-the	NN	O	O
-nanoscale	NN	O	B-Material
-DQD	NN	O	I-Material
-pair	NN	O	I-Material
-and	NN	O	O
-multiple	NN	O	B-Material
-gate	NN	O	I-Material
-electrodes	NN	O	I-Material
-are	NN	O	O
-precisely	NN	O	O
-input	NN	O	O
-into	NN	O	O
-COMSOL	NN	O	B-Material
-’s	NN	O	I-Material
-FEM	NN	O	I-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-electrostatics	NN	O	I-Material
-simulator	NN	O	I-Material
-.	NN	O	O
-
-Capacitances	NN	O	O
-between	NN	O	O
-different	NN	O	O
-device	NN	O	B-Material
-components	NN	O	I-Material
-are	NN	O	O
-then	NN	O	O
-extracted	NN	O	O
-and	NN	O	O
-fed	NN	O	O
-into	NN	O	O
-the	NN	O	O
-well	NN	O	B-Material
--	NN	O	I-Material
-tested	NN	O	I-Material
-single	NN	O	I-Material
-electron	NN	O	I-Material
-circuit	NN	O	I-Material
-simulator	NN	O	I-Material
-SETSPICE	NN	O	B-Material
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-,	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-orthodox	NN	O	B-Task
-theory	NN	O	I-Task
-of	NN	O	O
-single	NN	O	B-Process
-electron	NN	O	I-Process
-tunnelling	NN	O	I-Process
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-our	NN	O	O
-target	NN	O	B-Material
-d1	NN	O	I-Material
-of	NN	O	O
-60	NN	O	O
-nm	NN	O	O
-,	NN	O	O
-simulation	NN	O	B-Process
-results	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1c	NN	O	O
-)	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-as	NN	O	O
-we	NN	O	O
-sweep	NN	O	O
-the	NN	O	O
-voltage	NN	O	O
-applied	NN	O	O
-on	NN	O	O
-gate	NN	O	B-Material
-G1	NN	O	I-Material
-,	NN	O	O
-VG1	NN	O	B-Material
-,	NN	O	O
-single	NN	O	B-Process
-electron	NN	O	I-Process
-tunnelling	NN	O	I-Process
-into	NN	O	O
-the	NN	O	O
-turnstile	NN	O	B-Material
-’s	NN	O	I-Material
-two	NN	O	I-Material
-QDs	NN	O	I-Material
-should	NN	O	O
-generate	NN	O	O
-shifts	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-electrometer	NN	O	I-Process
-current	NN	O	I-Process
-,	NN	O	O
-IDS	NN	O	B-Material
-,	NN	O	O
-of	NN	O	O
-tens	NN	O	O
-of	NN	O	O
-pA.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-well	NN	O	O
-within	NN	O	O
-the	NN	O	O
-charge	NN	O	O
-sensitivity	NN	O	O
-of	NN	O	O
-DQD	NN	O	B-Material
-electrometer	NN	O	I-Material
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-and	NN	O	O
-consistent	NN	O	O
-to	NN	O	O
-the	NN	O	O
-same	NN	O	O
-order	NN	O	O
-of	NN	O	O
-magnitude	NN	O	O
-with	NN	O	O
-previous	NN	O	O
-work	NN	O	O
-in	NN	O	O
-single	NN	O	B-Task
-electron	NN	O	I-Task
-detection	NN	O	I-Task
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-the	NN	O	O
-gate	NN	O	B-Material
-to	NN	O	O
-QD	NN	O	B-Process
-capacitive	NN	O	I-Process
-coupling	NN	O	I-Process
-appear	NN	O	O
-to	NN	O	O
-be	NN	O	O
-sufficient	NN	O	O
-for	NN	O	O
-the	NN	O	O
-control	NN	O	B-Process
-of	NN	O	I-Process
-QD	NN	O	I-Process
-occupations	NN	O	I-Process
-down	NN	O	O
-to	NN	O	O
-the	NN	O	O
-single	NN	O	O
-electron	NN	O	O
-limit	NN	O	O
-,	NN	O	O
-allowing	NN	O	O
-for	NN	O	O
-future	NN	O	O
-manipulation	NN	O	B-Task
-of	NN	O	I-Task
-single	NN	O	I-Task
-electron	NN	O	I-Task
-spins	NN	O	I-Task
-in	NN	O	O
-qubit	NN	O	B-Task
-research	NN	O	I-Task
-.	NN	O	O
+A	0	1	O
+3D	2	4	O
+finite	5	11	O
+element	12	19	O
+based	20	25	O
+(	26	27	O
+FEM	27	30	O
+)	30	31	O
+
+COMSOL	32	38	O
+capacitance	39	50	O
+analysis	51	59	O
+is	60	62	O
+combined	63	71	O
+with	72	76	O
+Monte	77	82	B-Process
+Carlo	83	88	I-Process
+single	89	95	I-Process
+-	95	96	I-Process
+electron	96	104	I-Process
+circuit	105	112	I-Process
+simulations	113	124	I-Process
+to	125	127	O
+model	128	133	B-Task
+device	134	140	I-Task
+operations	141	151	I-Task
+during	152	158	I-Task
+single	159	165	I-Task
+electron	166	174	I-Task
+detection	175	184	I-Task
+.	184	185	O
+
+The	186	189	O
+3D	190	192	B-Material
+structural	193	203	I-Material
+data	204	208	I-Material
+(	209	210	O
+Fig	210	213	O
+.	213	214	O
+
+1b	215	217	O
+)	217	218	O
+of	219	221	O
+the	222	225	O
+nanoscale	226	235	B-Material
+DQD	236	239	I-Material
+pair	240	244	I-Material
+and	245	248	O
+multiple	249	257	B-Material
+gate	258	262	I-Material
+electrodes	263	273	I-Material
+are	274	277	O
+precisely	278	287	O
+input	288	293	O
+into	294	298	O
+COMSOL	299	305	B-Material
+’s	305	307	I-Material
+FEM	308	311	I-Material
+-	311	312	I-Material
+based	312	317	I-Material
+electrostatics	318	332	I-Material
+simulator	333	342	I-Material
+.	342	343	O
+
+Capacitances	344	356	O
+between	357	364	O
+different	365	374	O
+device	375	381	B-Material
+components	382	392	I-Material
+are	393	396	O
+then	397	401	O
+extracted	402	411	O
+and	412	415	O
+fed	416	419	O
+into	420	424	O
+the	425	428	O
+well	429	433	B-Material
+-	433	434	I-Material
+tested	434	440	I-Material
+single	441	447	I-Material
+electron	448	456	I-Material
+circuit	457	464	I-Material
+simulator	465	474	I-Material
+SETSPICE	475	483	B-Material
+[	484	485	O
+11	485	487	O
+]	487	488	O
+,	488	489	O
+based	490	495	O
+on	496	498	O
+the	499	502	O
+orthodox	503	511	B-Task
+theory	512	518	I-Task
+of	519	521	O
+single	522	528	B-Process
+electron	529	537	I-Process
+tunnelling	538	548	I-Process
+[	549	550	O
+12	550	552	O
+]	552	553	O
+.	553	554	O
+
+For	555	558	O
+our	559	562	O
+target	563	569	B-Material
+d1	570	572	I-Material
+of	573	575	O
+60	576	578	O
+nm	578	580	O
+,	580	581	O
+simulation	582	592	B-Process
+results	593	600	O
+(	601	602	O
+Fig	602	605	O
+.	605	606	O
+
+1c	607	609	O
+)	609	610	O
+showed	611	617	O
+that	618	622	O
+as	623	625	O
+we	626	628	O
+sweep	629	634	O
+the	635	638	O
+voltage	639	646	O
+applied	647	654	O
+on	655	657	O
+gate	658	662	B-Material
+G1	663	665	I-Material
+,	665	666	O
+VG1	667	670	B-Material
+,	670	671	O
+single	672	678	B-Process
+electron	679	687	I-Process
+tunnelling	688	698	I-Process
+into	699	703	O
+the	704	707	O
+turnstile	708	717	B-Material
+’s	717	719	I-Material
+two	720	723	I-Material
+QDs	724	727	I-Material
+should	728	734	O
+generate	735	743	O
+shifts	744	750	B-Process
+in	751	753	I-Process
+the	754	757	I-Process
+electrometer	758	770	I-Process
+current	771	778	I-Process
+,	778	779	O
+IDS	780	783	B-Material
+,	783	784	O
+of	785	787	O
+tens	788	792	O
+of	793	795	O
+pA.	796	799	O
+
+This	800	804	O
+is	805	807	O
+well	808	812	O
+within	813	819	O
+the	820	823	O
+charge	824	830	O
+sensitivity	831	842	O
+of	843	845	O
+DQD	846	849	B-Material
+electrometer	850	862	I-Material
+[	863	864	O
+6	864	865	O
+]	865	866	O
+and	867	870	O
+consistent	871	881	O
+to	882	884	O
+the	885	888	O
+same	889	893	O
+order	894	899	O
+of	900	902	O
+magnitude	903	912	O
+with	913	917	O
+previous	918	926	O
+work	927	931	O
+in	932	934	O
+single	935	941	B-Task
+electron	942	950	I-Task
+detection	951	960	I-Task
+[	961	962	O
+13	962	964	O
+]	964	965	O
+.	965	966	O
+
+In	967	969	O
+addition	970	978	O
+,	978	979	O
+the	980	983	O
+gate	984	988	B-Material
+to	989	991	O
+QD	992	994	B-Process
+capacitive	995	1005	I-Process
+coupling	1006	1014	I-Process
+appear	1015	1021	O
+to	1022	1024	O
+be	1025	1027	O
+sufficient	1028	1038	O
+for	1039	1042	O
+the	1043	1046	O
+control	1047	1054	B-Process
+of	1055	1057	I-Process
+QD	1058	1060	I-Process
+occupations	1061	1072	I-Process
+down	1073	1077	O
+to	1078	1080	O
+the	1081	1084	O
+single	1085	1091	O
+electron	1092	1100	O
+limit	1101	1106	O
+,	1106	1107	O
+allowing	1108	1116	O
+for	1117	1120	O
+future	1121	1127	O
+manipulation	1128	1140	B-Task
+of	1141	1143	I-Task
+single	1144	1150	I-Task
+electron	1151	1159	I-Task
+spins	1160	1165	I-Task
+in	1166	1168	O
+qubit	1169	1174	B-Task
+research	1175	1183	I-Task
+.	1183	1184	O
 
 
 -DOCSTART- (S0167931712003012)
 
-We	NN	O	O
-evaluated	NN	O	B-Task
-three	NN	O	I-Task
-spin	NN	O	I-Task
--	NN	O	I-Task
-on	NN	O	I-Task
-carbon	NN	O	I-Task
-hardmasks	NN	O	I-Task
-from	NN	O	I-Task
-Irresistible	NN	O	I-Task
-Materials	NN	O	I-Task
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-spin	NN	O	B-Material
--	NN	O	I-Material
-on	NN	O	I-Material
-carbon	NN	O	I-Material
-compositions	NN	O	I-Material
-were	NN	O	O
-dissolved	NN	O	O
-in	NN	O	O
-a	NN	O	O
-suitable	NN	O	O
-solvent	NN	O	B-Material
-such	NN	O	O
-as	NN	O	O
-chloroform	NN	O	B-Material
-or	NN	O	O
-anisole	NN	O	B-Material
-with	NN	O	O
-a	NN	O	O
-concentration	NN	O	O
-in	NN	O	O
-the	NN	O	O
-range	NN	O	O
-5–50g	NN	O	O
-
-/	NN	O	O
-l	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-report	NN	O	O
-,	NN	O	O
-film	NN	O	B-Process
-thickness	NN	O	I-Process
-measurements	NN	O	I-Process
-were	NN	O	O
-made	NN	O	O
-for	NN	O	O
-IM	NN	O	B-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-01	NN	O	I-Material
-and	NN	O	O
-IM	NN	O	B-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-02	NN	O	I-Material
-films	NN	O	I-Material
-,	NN	O	O
-whilst	NN	O	O
-IM	NN	O	B-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-03	NN	O	I-Material
-was	NN	O	O
-used	NN	O	O
-for	NN	O	O
-etching	NN	O	B-Process
-;	NN	O	O
-further	NN	O	O
-investigations	NN	O	O
-to	NN	O	O
-compare	NN	O	B-Task
-the	NN	O	I-Task
-performance	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-different	NN	O	I-Task
-compositions	NN	O	I-Task
-across	NN	O	I-Task
-tasks	NN	O	I-Task
-are	NN	O	O
-underway	NN	O	O
-.	NN	O	O
-
-Films	NN	O	B-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-SoC	NN	O	I-Material
-were	NN	O	O
-prepared	NN	O	O
-by	NN	O	O
-spin	NN	O	B-Process
-coating	NN	O	I-Process
-on	NN	O	O
-hydrogen	NN	O	B-Material
--	NN	O	I-Material
-terminated	NN	O	I-Material
-silicon	NN	O	I-Material
-substrates	NN	O	I-Material
-with	NN	O	O
-a	NN	O	O
-speed	NN	O	O
-varying	NN	O	O
-between	NN	O	O
-800	NN	O	O
-and	NN	O	O
-2000	NN	O	O
-RPM	NN	O	O
-for	NN	O	O
-60s	NN	O	O
-.	NN	O	O
-
-After	NN	O	O
-spin	NN	O	O
-coating	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-was	NN	O	O
-baked	NN	O	B-Process
-for	NN	O	I-Process
-2min	NN	O	I-Process
-at	NN	O	I-Process
-temperatures	NN	O	I-Process
-of	NN	O	I-Process
-up	NN	O	I-Process
-to	NN	O	I-Process
-330	NN	O	I-Process
-°	NN	O	I-Process
-C	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-enable	NN	O	O
-further	NN	O	O
-processing	NN	O	O
-,	NN	O	O
-the	NN	O	O
-SoC	NN	O	B-Material
-should	NN	O	O
-be	NN	O	O
-rendered	NN	O	O
-insoluble	NN	O	O
-in	NN	O	O
-typical	NN	O	O
-solvents	NN	O	O
-for	NN	O	O
-resist	NN	O	O
-and	NN	O	O
-spin	NN	O	B-Material
--	NN	O	I-Material
-on	NN	O	I-Material
--	NN	O	I-Material
-hardmask	NN	O	I-Material
-to	NN	O	O
-enable	NN	O	O
-further	NN	O	O
-processing	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-elution	NN	O	B-Task
-behavior	NN	O	I-Task
-of	NN	O	O
-films	NN	O	O
-of	NN	O	O
-IM	NN	O	B-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-01	NN	O	I-Material
-and	NN	O	I-Material
-IM	NN	O	I-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-02	NN	O	I-Material
-for	NN	O	O
-thicknesses	NN	O	O
-between	NN	O	O
-30	NN	O	O
-and	NN	O	O
-325	NN	O	O
-nm	NN	O	O
-was	NN	O	O
-tested	NN	O	O
-as	NN	O	O
-a	NN	O	O
-function	NN	O	O
-of	NN	O	O
-the	NN	O	O
-baking	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-normalized	NN	O	O
-film	NN	O	O
-thickness	NN	O	O
-of	NN	O	O
-two	NN	O	O
-formulations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-SoC	NN	O	B-Material
-(	NN	O	I-Material
-IM	NN	O	B-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-01	NN	O	I-Material
-and	NN	O	I-Material
-IM	NN	O	I-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-02	NN	O	I-Material
-)	NN	O	O
-,	NN	O	O
-before	NN	O	B-Process
-and	NN	O	I-Process
-after	NN	O	I-Process
-dipping	NN	O	I-Process
-in	NN	O	O
-monochlorobenzene	NN	O	B-Material
-(	NN	O	O
-MCB):IPA	NN	O	B-Material
-1:1	NN	O	O
-solution	NN	O	O
-.	NN	O	O
-
-Prior	NN	O	O
-to	NN	O	O
-baking	NN	O	B-Process
-the	NN	O	O
-thickness	NN	O	O
-of	NN	O	O
-IM	NN	O	B-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-01	NN	O	I-Material
-was	NN	O	O
-∼320	NN	O	O
-nm	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-thickness	NN	O	O
-of	NN	O	O
-IM	NN	O	B-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-02	NN	O	I-Material
-was	NN	O	O
-∼250	NN	O	O
-nm	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-temperatures	NN	O	O
-above	NN	O	O
-190	NN	O	O
-°	NN	O	O
-C	NN	O	O
-the	NN	O	O
-IM	NN	O	B-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-02	NN	O	I-Material
-film	NN	O	I-Material
-was	NN	O	O
-rendered	NN	O	O
-insoluble	NN	O	O
-,	NN	O	O
-whilst	NN	O	O
-a	NN	O	O
-temperature	NN	O	O
-of	NN	O	O
-260	NN	O	O
-°	NN	O	O
-C	NN	O	O
-was	NN	O	O
-required	NN	O	O
-to	NN	O	O
-achieve	NN	O	O
-the	NN	O	O
-same	NN	O	O
-for	NN	O	O
-IM	NN	O	B-Material
--	NN	O	I-Material
-HM11	NN	O	I-Material
--	NN	O	I-Material
-01	NN	O	I-Material
-.	NN	O	O
-
-Film	NN	O	B-Material
-thickness	NN	O	O
-did	NN	O	O
-not	NN	O	O
-affect	NN	O	O
-the	NN	O	O
-elution	NN	O	O
-results	NN	O	O
-.	NN	O	O
+We	0	2	O
+evaluated	3	12	B-Task
+three	13	18	I-Task
+spin	19	23	I-Task
+-	23	24	I-Task
+on	24	26	I-Task
+carbon	27	33	I-Task
+hardmasks	34	43	I-Task
+from	44	48	I-Task
+Irresistible	49	61	I-Task
+Materials	62	71	I-Task
+[	72	73	O
+12	73	75	O
+]	75	76	O
+.	76	77	O
+
+The	78	81	O
+spin	82	86	B-Material
+-	86	87	I-Material
+on	87	89	I-Material
+carbon	90	96	I-Material
+compositions	97	109	I-Material
+were	110	114	O
+dissolved	115	124	O
+in	125	127	O
+a	128	129	O
+suitable	130	138	O
+solvent	139	146	B-Material
+such	147	151	O
+as	152	154	O
+chloroform	155	165	B-Material
+or	166	168	O
+anisole	169	176	B-Material
+with	177	181	O
+a	182	183	O
+concentration	184	197	O
+in	198	200	O
+the	201	204	O
+range	205	210	O
+5–50g	211	216	O
+
+/	216	217	O
+l	217	218	O
+.	218	219	O
+
+In	220	222	O
+this	223	227	O
+report	228	234	O
+,	234	235	O
+film	236	240	B-Process
+thickness	241	250	I-Process
+measurements	251	263	I-Process
+were	264	268	O
+made	269	273	O
+for	274	277	O
+IM	278	280	B-Material
+-	280	281	I-Material
+HM11	281	285	I-Material
+-	285	286	I-Material
+01	286	288	I-Material
+and	289	292	O
+IM	293	295	B-Material
+-	295	296	I-Material
+HM11	296	300	I-Material
+-	300	301	I-Material
+02	301	303	I-Material
+films	304	309	I-Material
+,	309	310	O
+whilst	311	317	O
+IM	318	320	B-Material
+-	320	321	I-Material
+HM11	321	325	I-Material
+-	325	326	I-Material
+03	326	328	I-Material
+was	329	332	O
+used	333	337	O
+for	338	341	O
+etching	342	349	B-Process
+;	349	350	O
+further	351	358	O
+investigations	359	373	O
+to	374	376	O
+compare	377	384	B-Task
+the	385	388	I-Task
+performance	389	400	I-Task
+of	401	403	I-Task
+the	404	407	I-Task
+different	408	417	I-Task
+compositions	418	430	I-Task
+across	431	437	I-Task
+tasks	438	443	I-Task
+are	444	447	O
+underway	448	456	O
+.	456	457	O
+
+Films	458	463	B-Material
+of	464	466	I-Material
+the	467	470	I-Material
+SoC	471	474	I-Material
+were	475	479	O
+prepared	480	488	O
+by	489	491	O
+spin	492	496	B-Process
+coating	497	504	I-Process
+on	505	507	O
+hydrogen	508	516	B-Material
+-	516	517	I-Material
+terminated	517	527	I-Material
+silicon	528	535	I-Material
+substrates	536	546	I-Material
+with	547	551	O
+a	552	553	O
+speed	554	559	O
+varying	560	567	O
+between	568	575	O
+800	576	579	O
+and	580	583	O
+2000	584	588	O
+RPM	589	592	O
+for	593	596	O
+60s	597	600	O
+.	600	601	O
+
+After	602	607	O
+spin	608	612	O
+coating	613	620	O
+the	621	624	O
+film	625	629	B-Material
+was	630	633	O
+baked	634	639	B-Process
+for	640	643	I-Process
+2min	644	648	I-Process
+at	649	651	I-Process
+temperatures	652	664	I-Process
+of	665	667	I-Process
+up	668	670	I-Process
+to	671	673	I-Process
+330	674	677	I-Process
+°	677	678	I-Process
+C	678	679	I-Process
+.	679	680	O
+
+In	681	683	O
+order	684	689	O
+to	690	692	O
+enable	693	699	O
+further	700	707	O
+processing	708	718	O
+,	718	719	O
+the	720	723	O
+SoC	724	727	B-Material
+should	728	734	O
+be	735	737	O
+rendered	738	746	O
+insoluble	747	756	O
+in	757	759	O
+typical	760	767	O
+solvents	768	776	O
+for	777	780	O
+resist	781	787	O
+and	788	791	O
+spin	792	796	B-Material
+-	796	797	I-Material
+on	797	799	I-Material
+-	799	800	I-Material
+hardmask	800	808	I-Material
+to	809	811	O
+enable	812	818	O
+further	819	826	O
+processing	827	837	O
+.	837	838	O
+
+The	839	842	O
+elution	843	850	B-Task
+behavior	851	859	I-Task
+of	860	862	O
+films	863	868	O
+of	869	871	O
+IM	872	874	B-Material
+-	874	875	I-Material
+HM11	875	879	I-Material
+-	879	880	I-Material
+01	880	882	I-Material
+and	883	886	I-Material
+IM	887	889	I-Material
+-	889	890	I-Material
+HM11	890	894	I-Material
+-	894	895	I-Material
+02	895	897	I-Material
+for	898	901	O
+thicknesses	902	913	O
+between	914	921	O
+30	922	924	O
+and	925	928	O
+325	929	932	O
+nm	932	934	O
+was	935	938	O
+tested	939	945	O
+as	946	948	O
+a	949	950	O
+function	951	959	O
+of	960	962	O
+the	963	966	O
+baking	967	973	O
+temperature	974	985	O
+.	985	986	O
+
+Fig	987	990	O
+.	990	991	O
+
+1	992	993	O
+shows	994	999	O
+the	1000	1003	O
+normalized	1004	1014	O
+film	1015	1019	O
+thickness	1020	1029	O
+of	1030	1032	O
+two	1033	1036	O
+formulations	1037	1049	O
+of	1050	1052	O
+the	1053	1056	O
+SoC	1057	1060	B-Material
+(	1061	1062	I-Material
+IM	1062	1064	B-Material
+-	1064	1065	I-Material
+HM11	1065	1069	I-Material
+-	1069	1070	I-Material
+01	1070	1072	I-Material
+and	1073	1076	I-Material
+IM	1077	1079	I-Material
+-	1079	1080	I-Material
+HM11	1080	1084	I-Material
+-	1084	1085	I-Material
+02	1085	1087	I-Material
+)	1087	1088	O
+,	1088	1089	O
+before	1090	1096	B-Process
+and	1097	1100	I-Process
+after	1101	1106	I-Process
+dipping	1107	1114	I-Process
+in	1115	1117	O
+monochlorobenzene	1118	1135	B-Material
+(	1136	1137	O
+MCB):IPA	1137	1145	B-Material
+1:1	1146	1149	O
+solution	1150	1158	O
+.	1158	1159	O
+
+Prior	1160	1165	O
+to	1166	1168	O
+baking	1169	1175	B-Process
+the	1176	1179	O
+thickness	1180	1189	O
+of	1190	1192	O
+IM	1193	1195	B-Material
+-	1195	1196	I-Material
+HM11	1196	1200	I-Material
+-	1200	1201	I-Material
+01	1201	1203	I-Material
+was	1204	1207	O
+∼320	1208	1212	O
+nm	1212	1214	O
+,	1214	1215	O
+and	1216	1219	O
+the	1220	1223	O
+thickness	1224	1233	O
+of	1234	1236	O
+IM	1237	1239	B-Material
+-	1239	1240	I-Material
+HM11	1240	1244	I-Material
+-	1244	1245	I-Material
+02	1245	1247	I-Material
+was	1248	1251	O
+∼250	1252	1256	O
+nm	1256	1258	O
+.	1258	1259	O
+
+For	1260	1263	O
+temperatures	1264	1276	O
+above	1277	1282	O
+190	1283	1286	O
+°	1286	1287	O
+C	1287	1288	O
+the	1289	1292	O
+IM	1293	1295	B-Material
+-	1295	1296	I-Material
+HM11	1296	1300	I-Material
+-	1300	1301	I-Material
+02	1301	1303	I-Material
+film	1304	1308	I-Material
+was	1309	1312	O
+rendered	1313	1321	O
+insoluble	1322	1331	O
+,	1331	1332	O
+whilst	1333	1339	O
+a	1340	1341	O
+temperature	1342	1353	O
+of	1354	1356	O
+260	1357	1360	O
+°	1360	1361	O
+C	1361	1362	O
+was	1363	1366	O
+required	1367	1375	O
+to	1376	1378	O
+achieve	1379	1386	O
+the	1387	1390	O
+same	1391	1395	O
+for	1396	1399	O
+IM	1400	1402	B-Material
+-	1402	1403	I-Material
+HM11	1403	1407	I-Material
+-	1407	1408	I-Material
+01	1408	1410	I-Material
+.	1410	1411	O
+
+Film	1412	1416	B-Material
+thickness	1417	1426	O
+did	1427	1430	O
+not	1431	1434	O
+affect	1435	1441	O
+the	1442	1445	O
+elution	1446	1453	O
+results	1454	1461	O
+.	1461	1462	O
 
 
 -DOCSTART- (S0167931712003905)
 
-In	NN	O	O
-summary	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-developed	NN	O	O
-a	NN	O	O
-technique	NN	O	O
-for	NN	O	O
-site	NN	O	B-Task
--	NN	O	I-Task
-specific	NN	O	I-Task
-nanowire	NN	O	I-Task
-size	NN	O	I-Task
-reduction	NN	O	I-Task
-by	NN	O	O
-FIB	NN	O	B-Process
-thinning	NN	O	I-Process
-.	NN	O	O
-
-Transmission	NN	O	B-Material
-electron	NN	O	I-Material
-microscope	NN	O	I-Material
-images	NN	O	I-Material
-of	NN	O	O
-a	NN	O	O
-thinned	NN	O	B-Material
-tungsten	NN	O	I-Material
-composite	NN	O	I-Material
-nanowire	NN	O	I-Material
-with	NN	O	O
-width	NN	O	O
-reduced	NN	O	O
-from	NN	O	O
-80	NN	O	O
-to	NN	O	O
-20	NN	O	O
-nm	NN	O	O
-show	NN	O	O
-uniform	NN	O	B-Process
-shrinking	NN	O	I-Process
-along	NN	O	O
-the	NN	O	O
-length	NN	O	O
-of	NN	O	O
-the	NN	O	O
-wire	NN	O	B-Material
-and	NN	O	O
-high	NN	O	B-Material
-resolution	NN	O	I-Material
-images	NN	O	I-Material
-show	NN	O	O
-no	NN	O	O
-obvious	NN	O	O
-changes	NN	O	O
-of	NN	O	O
-the	NN	O	O
-morphology	NN	O	O
-after	NN	O	O
-thinning	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-critical	NN	O	O
-current	NN	O	O
-density	NN	O	O
-of	NN	O	O
-the	NN	O	O
-as	NN	O	B-Material
--	NN	O	I-Material
-deposited	NN	O	I-Material
-wire	NN	O	I-Material
-and	NN	O	O
-one	NN	O	O
-thinned	NN	O	O
-to	NN	O	O
-a	NN	O	O
-width	NN	O	O
-of	NN	O	O
-50	NN	O	O
-nm	NN	O	O
-is	NN	O	O
-
-1.7×105	NN	O	O
-and	NN	O	O
-1.4×105A	NN	O	O
-
-/	NN	O	O
-cm2	NN	O	O
-at	NN	O	O
-4.26	NN	O	O
-K	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-,	NN	O	O
-suggesting	NN	O	O
-insignificant	NN	O	O
-modulation	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-electrical	NN	O	I-Process
-properties	NN	O	I-Process
-during	NN	O	O
-thinning	NN	O	B-Process
-.	NN	O	O
-
-These	NN	O	O
-results	NN	O	O
-suggest	NN	O	O
-that	NN	O	O
-FIB	NN	O	B-Process
--	NN	O	I-Process
-milling	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-potential	NN	O	O
-approach	NN	O	O
-for	NN	O	O
-controllable	NN	O	B-Task
-size	NN	O	I-Task
-reduction	NN	O	I-Task
-with	NN	O	I-Task
-high	NN	O	I-Task
-resolution	NN	O	I-Task
-towards	NN	O	I-Task
-the	NN	O	I-Task
-observation	NN	O	I-Task
-of	NN	O	I-Task
-size-	NN	O	I-Task
-and	NN	O	I-Task
-quantum	NN	O	I-Task
-effects	NN	O	I-Task
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-for	NN	O	O
-construction	NN	O	B-Task
-of	NN	O	I-Task
-3D	NN	O	I-Task
-superconducting	NN	O	I-Task
-nanodevices	NN	O	I-Task
-.	NN	O	O
+In	0	2	O
+summary	3	10	O
+,	10	11	O
+we	12	14	O
+have	15	19	O
+developed	20	29	O
+a	30	31	O
+technique	32	41	O
+for	42	45	O
+site	46	50	B-Task
+-	50	51	I-Task
+specific	51	59	I-Task
+nanowire	60	68	I-Task
+size	69	73	I-Task
+reduction	74	83	I-Task
+by	84	86	O
+FIB	87	90	B-Process
+thinning	91	99	I-Process
+.	99	100	O
+
+Transmission	101	113	B-Material
+electron	114	122	I-Material
+microscope	123	133	I-Material
+images	134	140	I-Material
+of	141	143	O
+a	144	145	O
+thinned	146	153	B-Material
+tungsten	154	162	I-Material
+composite	163	172	I-Material
+nanowire	173	181	I-Material
+with	182	186	O
+width	187	192	O
+reduced	193	200	O
+from	201	205	O
+80	206	208	O
+to	209	211	O
+20	212	214	O
+nm	214	216	O
+show	217	221	O
+uniform	222	229	B-Process
+shrinking	230	239	I-Process
+along	240	245	O
+the	246	249	O
+length	250	256	O
+of	257	259	O
+the	260	263	O
+wire	264	268	B-Material
+and	269	272	O
+high	273	277	B-Material
+resolution	278	288	I-Material
+images	289	295	I-Material
+show	296	300	O
+no	301	303	O
+obvious	304	311	O
+changes	312	319	O
+of	320	322	O
+the	323	326	O
+morphology	327	337	O
+after	338	343	O
+thinning	344	352	B-Process
+.	352	353	O
+
+The	354	357	O
+critical	358	366	O
+current	367	374	O
+density	375	382	O
+of	383	385	O
+the	386	389	O
+as	390	392	B-Material
+-	392	393	I-Material
+deposited	393	402	I-Material
+wire	403	407	I-Material
+and	408	411	O
+one	412	415	O
+thinned	416	423	O
+to	424	426	O
+a	427	428	O
+width	429	434	O
+of	435	437	O
+50	438	440	O
+nm	440	442	O
+is	443	445	O
+
+1.7×105	446	453	O
+and	454	457	O
+1.4×105A	458	466	O
+
+/	466	467	O
+cm2	467	470	O
+at	471	473	O
+4.26	474	478	O
+K	478	479	O
+,	479	480	O
+respectively	481	493	O
+,	493	494	O
+suggesting	495	505	O
+insignificant	506	519	O
+modulation	520	530	B-Process
+of	531	533	I-Process
+the	534	537	I-Process
+electrical	538	548	I-Process
+properties	549	559	I-Process
+during	560	566	O
+thinning	567	575	B-Process
+.	575	576	O
+
+These	577	582	O
+results	583	590	O
+suggest	591	598	O
+that	599	603	O
+FIB	604	607	B-Process
+-	607	608	I-Process
+milling	608	615	I-Process
+is	616	618	O
+a	619	620	O
+potential	621	630	O
+approach	631	639	O
+for	640	643	O
+controllable	644	656	B-Task
+size	657	661	I-Task
+reduction	662	671	I-Task
+with	672	676	I-Task
+high	677	681	I-Task
+resolution	682	692	I-Task
+towards	693	700	I-Task
+the	701	704	I-Task
+observation	705	716	I-Task
+of	717	719	I-Task
+size-	720	725	I-Task
+and	726	729	I-Task
+quantum	730	737	I-Task
+effects	738	745	I-Task
+,	745	746	O
+as	747	749	O
+well	750	754	O
+as	755	757	O
+for	758	761	O
+construction	762	774	B-Task
+of	775	777	I-Task
+3D	778	780	I-Task
+superconducting	781	796	I-Task
+nanodevices	797	808	I-Task
+.	808	809	O
 
 
 -DOCSTART- (S0167931713002438)
 
-There	NN	O	O
-have	NN	O	O
-been	NN	O	O
-suggestions	NN	O	O
-that	NN	O	O
-electrons	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-trapped	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-bulk	NN	O	I-Process
-and	NN	O	I-Process
-at	NN	O	I-Process
-surfaces	NN	O	I-Process
-of	NN	O	I-Process
-silica	NN	O	I-Process
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-but	NN	O	O
-new	NN	O	O
-models	NN	O	O
-of	NN	O	O
-electron	NN	O	B-Material
-trapping	NN	O	I-Material
-centres	NN	O	I-Material
-started	NN	O	O
-to	NN	O	O
-appear	NN	O	O
-only	NN	O	O
-recently	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-has	NN	O	O
-been	NN	O	O
-suggested	NN	O	O
-by	NN	O	O
-Bersuker	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-,	NN	O	O
-who	NN	O	O
-used	NN	O	O
-molecular	NN	O	B-Process
-models	NN	O	I-Process
-,	NN	O	O
-that	NN	O	O
-electrons	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-trapped	NN	O	B-Process
-by	NN	O	O
-Si	NN	O	B-Material
-–	NN	O	I-Material
-O	NN	O	I-Material
-bonds	NN	O	I-Material
-in	NN	O	O
-a	NN	O	B-Material
--	NN	O	I-Material
-SiO2	NN	O	I-Material
-leading	NN	O	I-Material
-to	NN	O	O
-their	NN	O	O
-weakening	NN	O	B-Process
-and	NN	O	O
-thus	NN	O	O
-facilitating	NN	O	O
-Si	NN	O	O
-
-–	NN	O	O
-
-O	NN	O	O
-bond	NN	O	O
-dissociation	NN	O	O
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Further	NN	O	O
-calculations	NN	O	O
-by	NN	O	O
-Camellone	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-have	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-electrons	NN	O	B-Material
-can	NN	O	O
-spontaneously	NN	O	B-Process
-trap	NN	O	I-Process
-in	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-defective	NN	O	I-Process
-continuum	NN	O	I-Process
-random	NN	O	I-Process
-network	NN	O	I-Process
-model	NN	O	I-Process
-of	NN	O	O
-a	NN	O	B-Material
--	NN	O	I-Material
-SiO2	NN	O	I-Material
-
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Recent	NN	O	O
-calculations	NN	O	O
-have	NN	O	O
-also	NN	O	O
-demonstrated	NN	O	O
-that	NN	O	O
-the	NN	O	O
-two	NN	O	O
-dominant	NN	O	O
-neutral	NN	O	B-Process
-paramagnetic	NN	O	I-Process
-defects	NN	O	I-Process
-at	NN	O	O
-surfaces	NN	O	B-Material
-of	NN	O	I-Material
-a	NN	O	I-Material
--	NN	O	I-Material
-SiO2	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-bridging	NN	O	I-Material
-oxygen	NN	O	I-Material
-centre	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-silicon	NN	O	B-Material
-dangling	NN	O	I-Material
-bond	NN	O	I-Material
-,	NN	O	O
-are	NN	O	O
-deep	NN	O	B-Material
-electron	NN	O	I-Material
-traps	NN	O	I-Material
-and	NN	O	O
-can	NN	O	O
-form	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-negatively	NN	O	B-Material
-charged	NN	O	I-Material
-defects	NN	O	I-Material
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-these	NN	O	O
-theoretical	NN	O	O
-predictions	NN	O	O
-have	NN	O	O
-not	NN	O	O
-yet	NN	O	O
-been	NN	O	O
-confirmed	NN	O	O
-experimentally	NN	O	O
-,	NN	O	O
-emphasising	NN	O	O
-the	NN	O	O
-challenges	NN	O	O
-for	NN	O	O
-identifying	NN	O	B-Task
-defect	NN	O	I-Task
-centres	NN	O	I-Task
-.	NN	O	O
+There	0	5	O
+have	6	10	O
+been	11	15	O
+suggestions	16	27	O
+that	28	32	O
+electrons	33	42	B-Material
+can	43	46	O
+be	47	49	O
+trapped	50	57	B-Process
+in	58	60	I-Process
+the	61	64	I-Process
+bulk	65	69	I-Process
+and	70	73	I-Process
+at	74	76	I-Process
+surfaces	77	85	I-Process
+of	86	88	I-Process
+silica	89	95	I-Process
+[	96	97	O
+15	97	99	O
+]	99	100	O
+but	101	104	O
+new	105	108	O
+models	109	115	O
+of	116	118	O
+electron	119	127	B-Material
+trapping	128	136	I-Material
+centres	137	144	I-Material
+started	145	152	O
+to	153	155	O
+appear	156	162	O
+only	163	167	O
+recently	168	176	O
+.	176	177	O
+
+It	178	180	O
+has	181	184	O
+been	185	189	O
+suggested	190	199	O
+by	200	202	O
+Bersuker	203	211	O
+et	212	214	O
+al	215	217	O
+.	217	218	O
+
+,	218	219	O
+who	220	223	O
+used	224	228	O
+molecular	229	238	B-Process
+models	239	245	I-Process
+,	245	246	O
+that	247	251	O
+electrons	252	261	B-Material
+can	262	265	O
+be	266	268	O
+trapped	269	276	B-Process
+by	277	279	O
+Si	280	282	B-Material
+–	282	283	I-Material
+O	283	284	I-Material
+bonds	285	290	I-Material
+in	291	293	O
+a	294	295	B-Material
+-	295	296	I-Material
+SiO2	296	300	I-Material
+leading	301	308	I-Material
+to	309	311	O
+their	312	317	O
+weakening	318	327	B-Process
+and	328	331	O
+thus	332	336	O
+facilitating	337	349	O
+Si	350	352	O
+
+–	352	353	O
+
+O	353	354	O
+bond	355	359	O
+dissociation	360	372	O
+[	373	374	O
+16	374	376	O
+]	376	377	O
+.	377	378	O
+
+Further	379	386	O
+calculations	387	399	O
+by	400	402	O
+Camellone	403	412	O
+et	413	415	O
+al	416	418	O
+.	418	419	O
+have	420	424	O
+shown	425	430	O
+that	431	435	O
+electrons	436	445	B-Material
+can	446	449	O
+spontaneously	450	463	B-Process
+trap	464	468	I-Process
+in	469	471	O
+non	472	475	B-Process
+-	475	476	I-Process
+defective	476	485	I-Process
+continuum	486	495	I-Process
+random	496	502	I-Process
+network	503	510	I-Process
+model	511	516	I-Process
+of	517	519	O
+a	520	521	B-Material
+-	521	522	I-Material
+SiO2	522	526	I-Material
+
+[	527	528	O
+17	528	530	O
+]	530	531	O
+.	531	532	O
+
+Recent	533	539	O
+calculations	540	552	O
+have	553	557	O
+also	558	562	O
+demonstrated	563	575	O
+that	576	580	O
+the	581	584	O
+two	585	588	O
+dominant	589	597	O
+neutral	598	605	B-Process
+paramagnetic	606	618	I-Process
+defects	619	626	I-Process
+at	627	629	O
+surfaces	630	638	B-Material
+of	639	641	I-Material
+a	642	643	I-Material
+-	643	644	I-Material
+SiO2	644	648	I-Material
+,	648	649	O
+the	650	653	O
+non	654	657	B-Material
+-	657	658	I-Material
+bridging	658	666	I-Material
+oxygen	667	673	I-Material
+centre	674	680	I-Material
+and	681	684	O
+the	685	688	O
+silicon	689	696	B-Material
+dangling	697	705	I-Material
+bond	706	710	I-Material
+,	710	711	O
+are	712	715	O
+deep	716	720	B-Material
+electron	721	729	I-Material
+traps	730	735	I-Material
+and	736	739	O
+can	740	743	O
+form	744	748	O
+the	749	752	O
+corresponding	753	766	O
+negatively	767	777	B-Material
+charged	778	785	I-Material
+defects	786	793	I-Material
+[	794	795	O
+18	795	797	O
+]	797	798	O
+.	798	799	O
+
+However	800	807	O
+,	807	808	O
+these	809	814	O
+theoretical	815	826	O
+predictions	827	838	O
+have	839	843	O
+not	844	847	O
+yet	848	851	O
+been	852	856	O
+confirmed	857	866	O
+experimentally	867	881	O
+,	881	882	O
+emphasising	883	894	O
+the	895	898	O
+challenges	899	909	O
+for	910	913	O
+identifying	914	925	B-Task
+defect	926	932	I-Task
+centres	933	940	I-Task
+.	940	941	O
 
 
 -DOCSTART- (S016793171300244X)
 
-Ever	NN	O	O
-since	NN	O	O
-the	NN	O	O
-identification	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-paramagnetic	NN	O	I-Process
-E′	NN	O	I-Process
-centre	NN	O	I-Process
-in	NN	O	I-Process
-SiO2	NN	O	I-Process
-as	NN	O	O
-an	NN	O	O
-unpaired	NN	O	B-Material
-electron	NN	O	I-Material
-localised	NN	O	O
-in	NN	O	O
-an	NN	O	O
-sp3	NN	O	B-Material
-hybrid	NN	O	I-Material
-orbital	NN	O	I-Material
-of	NN	O	O
-an	NN	O	O
-Si	NN	O	B-Material
-atom	NN	O	I-Material
-backbonded	NN	O	O
-to	NN	O	O
-three	NN	O	O
-oxygen	NN	O	B-Material
-atoms	NN	O	I-Material
-,	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-attempts	NN	O	O
-has	NN	O	O
-been	NN	O	O
-made	NN	O	O
-at	NN	O	O
-explaining	NN	O	B-Task
-the	NN	O	I-Task
-optical	NN	O	I-Task
-and	NN	O	I-Task
-electronic	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	I-Task
-SiO2	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-presence	NN	O	I-Task
-of	NN	O	I-Task
-E′	NN	O	I-Task
-centres	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-irradiation	NN	O	B-Process
-or	NN	O	O
-hole	NN	O	B-Process
-injection	NN	O	I-Process
-induces	NN	O	O
-trapping	NN	O	B-Process
-of	NN	O	I-Process
-positive	NN	O	I-Process
-charge	NN	O	I-Process
-in	NN	O	I-Process
-thin	NN	O	I-Process
-layers	NN	O	I-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
--	NN	O	I-Process
-SiO2	NN	O	I-Process
-grown	NN	O	I-Process
-on	NN	O	I-Process
-silicon	NN	O	I-Process
-surfaces	NN	O	I-Process
-by	NN	O	O
-thermal	NN	O	B-Process
-oxidation	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-effect	NN	O	O
-has	NN	O	O
-been	NN	O	O
-correlated	NN	O	O
-with	NN	O	O
-paramagnetic	NN	O	B-Material
-E′	NN	O	I-Material
-centre	NN	O	I-Material
-signals	NN	O	I-Material
-and	NN	O	O
-led	NN	O	O
-to	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-assignment	NN	O	O
-of	NN	O	O
-the	NN	O	O
-neutral	NN	O	B-Material
-oxygen	NN	O	I-Material
-vacancy	NN	O	I-Material
-as	NN	O	O
-the	NN	O	O
-major	NN	O	B-Material
-hole	NN	O	I-Material
-trap	NN	O	I-Material
-in	NN	O	O
-a	NN	O	B-Material
--	NN	O	I-Material
-SiO2	NN	O	I-Material
-
-[	NN	O	O
-1–3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-model	NN	O	O
-,	NN	O	O
-originally	NN	O	O
-proposed	NN	O	O
-for	NN	O	O
-E′	NN	O	B-Material
-centres	NN	O	I-Material
-in	NN	O	I-Material
-α-quartz	NN	O	I-Material
-,	NN	O	O
-upon	NN	O	O
-trapping	NN	O	O
-a	NN	O	O
-hole	NN	O	O
-,	NN	O	O
-one	NN	O	O
-Si	NN	O	B-Material
-atom	NN	O	I-Material
-from	NN	O	O
-the	NN	O	O
-two	NN	O	O
-Si	NN	O	B-Material
-atoms	NN	O	I-Material
-constituting	NN	O	O
-the	NN	O	O
-vacancy	NN	O	O
-remains	NN	O	O
-neutral	NN	O	O
-and	NN	O	O
-hosts	NN	O	O
-the	NN	O	O
-localised	NN	O	B-Material
-unpaired	NN	O	I-Material
-electron	NN	O	I-Material
-while	NN	O	O
-its	NN	O	O
-counterpart	NN	O	O
-becomes	NN	O	O
-positively	NN	O	O
-charged	NN	O	O
-.	NN	O	O
-
-Although	NN	O	O
-this	NN	O	O
-model	NN	O	O
-has	NN	O	O
-initially	NN	O	O
-been	NN	O	O
-accepted	NN	O	O
-widely	NN	O	O
-for	NN	O	O
-its	NN	O	O
-simplicity	NN	O	O
-,	NN	O	O
-it	NN	O	O
-fails	NN	O	O
-to	NN	O	O
-account	NN	O	O
-for	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-observations	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-positive	NN	O	B-Process
-charge	NN	O	I-Process
-trapping	NN	O	I-Process
-without	NN	O	O
-generation	NN	O	O
-of	NN	O	O
-E′	NN	O	B-Material
-centres	NN	O	I-Material
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-formation	NN	O	O
-of	NN	O	O
-high	NN	O	B-Material
-density	NN	O	I-Material
-of	NN	O	I-Material
-E′	NN	O	I-Material
-centres	NN	O	I-Material
-without	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-density	NN	O	O
-of	NN	O	O
-positive	NN	O	B-Process
-charge	NN	O	I-Process
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-absence	NN	O	O
-of	NN	O	O
-correlation	NN	O	O
-between	NN	O	O
-the	NN	O	O
-decrease	NN	O	O
-of	NN	O	O
-the	NN	O	O
-E′	NN	O	B-Material
-centre	NN	O	I-Material
-density	NN	O	O
-and	NN	O	O
-the	NN	O	O
-density	NN	O	O
-of	NN	O	O
-positive	NN	O	O
-charge	NN	O	O
-upon	NN	O	O
-post	NN	O	B-Process
--	NN	O	I-Process
-irradiation	NN	O	I-Process
-electron	NN	O	I-Process
-injection	NN	O	I-Process
-in	NN	O	O
-SiO2	NN	O	B-Material
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Ever	0	4	O
+since	5	10	O
+the	11	14	O
+identification	15	29	B-Process
+of	30	32	I-Process
+the	33	36	I-Process
+paramagnetic	37	49	I-Process
+E′	50	52	I-Process
+centre	53	59	I-Process
+in	60	62	I-Process
+SiO2	63	67	I-Process
+as	68	70	O
+an	71	73	O
+unpaired	74	82	B-Material
+electron	83	91	I-Material
+localised	92	101	O
+in	102	104	O
+an	105	107	O
+sp3	108	111	B-Material
+hybrid	112	118	I-Material
+orbital	119	126	I-Material
+of	127	129	O
+an	130	132	O
+Si	133	135	B-Material
+atom	136	140	I-Material
+backbonded	141	151	O
+to	152	154	O
+three	155	160	O
+oxygen	161	167	B-Material
+atoms	168	173	I-Material
+,	173	174	O
+a	175	176	O
+number	177	183	O
+of	184	186	O
+attempts	187	195	O
+has	196	199	O
+been	200	204	O
+made	205	209	O
+at	210	212	O
+explaining	213	223	B-Task
+the	224	227	I-Task
+optical	228	235	I-Task
+and	236	239	I-Task
+electronic	240	250	I-Task
+properties	251	261	I-Task
+of	262	264	I-Task
+SiO2	265	269	I-Task
+in	270	272	I-Task
+the	273	276	I-Task
+presence	277	285	I-Task
+of	286	288	I-Task
+E′	289	291	I-Task
+centres	292	299	I-Task
+.	299	300	O
+
+The	301	304	O
+irradiation	305	316	B-Process
+or	317	319	O
+hole	320	324	B-Process
+injection	325	334	I-Process
+induces	335	342	O
+trapping	343	351	B-Process
+of	352	354	I-Process
+positive	355	363	I-Process
+charge	364	370	I-Process
+in	371	373	I-Process
+thin	374	378	I-Process
+layers	379	385	I-Process
+of	386	388	I-Process
+a	389	390	I-Process
+-	390	391	I-Process
+SiO2	391	395	I-Process
+grown	396	401	I-Process
+on	402	404	I-Process
+silicon	405	412	I-Process
+surfaces	413	421	I-Process
+by	422	424	O
+thermal	425	432	B-Process
+oxidation	433	442	I-Process
+.	442	443	O
+
+This	444	448	O
+effect	449	455	O
+has	456	459	O
+been	460	464	O
+correlated	465	475	O
+with	476	480	O
+paramagnetic	481	493	B-Material
+E′	494	496	I-Material
+centre	497	503	I-Material
+signals	504	511	I-Material
+and	512	515	O
+led	516	519	O
+to	520	522	O
+the	523	526	O
+initial	527	534	O
+assignment	535	545	O
+of	546	548	O
+the	549	552	O
+neutral	553	560	B-Material
+oxygen	561	567	I-Material
+vacancy	568	575	I-Material
+as	576	578	O
+the	579	582	O
+major	583	588	B-Material
+hole	589	593	I-Material
+trap	594	598	I-Material
+in	599	601	O
+a	602	603	B-Material
+-	603	604	I-Material
+SiO2	604	608	I-Material
+
+[	609	610	O
+1–3	610	613	O
+]	613	614	O
+.	614	615	O
+
+In	616	618	O
+this	619	623	O
+model	624	629	O
+,	629	630	O
+originally	631	641	O
+proposed	642	650	O
+for	651	654	O
+E′	655	657	B-Material
+centres	658	665	I-Material
+in	666	668	I-Material
+α-quartz	669	677	I-Material
+,	677	678	O
+upon	679	683	O
+trapping	684	692	O
+a	693	694	O
+hole	695	699	O
+,	699	700	O
+one	701	704	O
+Si	705	707	B-Material
+atom	708	712	I-Material
+from	713	717	O
+the	718	721	O
+two	722	725	O
+Si	726	728	B-Material
+atoms	729	734	I-Material
+constituting	735	747	O
+the	748	751	O
+vacancy	752	759	O
+remains	760	767	O
+neutral	768	775	O
+and	776	779	O
+hosts	780	785	O
+the	786	789	O
+localised	790	799	B-Material
+unpaired	800	808	I-Material
+electron	809	817	I-Material
+while	818	823	O
+its	824	827	O
+counterpart	828	839	O
+becomes	840	847	O
+positively	848	858	O
+charged	859	866	O
+.	866	867	O
+
+Although	868	876	O
+this	877	881	O
+model	882	887	O
+has	888	891	O
+initially	892	901	O
+been	902	906	O
+accepted	907	915	O
+widely	916	922	O
+for	923	926	O
+its	927	930	O
+simplicity	931	941	O
+,	941	942	O
+it	943	945	O
+fails	946	951	O
+to	952	954	O
+account	955	962	O
+for	963	966	O
+a	967	968	O
+number	969	975	O
+of	976	978	O
+observations	979	991	O
+,	991	992	O
+such	993	997	O
+as	998	1000	O
+the	1001	1004	O
+positive	1005	1013	B-Process
+charge	1014	1020	I-Process
+trapping	1021	1029	I-Process
+without	1030	1037	O
+generation	1038	1048	O
+of	1049	1051	O
+E′	1052	1054	B-Material
+centres	1055	1062	I-Material
+[	1063	1064	O
+4	1064	1065	O
+]	1065	1066	O
+,	1066	1067	O
+the	1068	1071	O
+formation	1072	1081	O
+of	1082	1084	O
+high	1085	1089	B-Material
+density	1090	1097	I-Material
+of	1098	1100	I-Material
+E′	1101	1103	I-Material
+centres	1104	1111	I-Material
+without	1112	1119	O
+the	1120	1123	O
+corresponding	1124	1137	O
+density	1138	1145	O
+of	1146	1148	O
+positive	1149	1157	B-Process
+charge	1158	1164	I-Process
+[	1165	1166	O
+5	1166	1167	O
+]	1167	1168	O
+,	1168	1169	O
+and	1170	1173	O
+the	1174	1177	O
+absence	1178	1185	O
+of	1186	1188	O
+correlation	1189	1200	O
+between	1201	1208	O
+the	1209	1212	O
+decrease	1213	1221	O
+of	1222	1224	O
+the	1225	1228	O
+E′	1229	1231	B-Material
+centre	1232	1238	I-Material
+density	1239	1246	O
+and	1247	1250	O
+the	1251	1254	O
+density	1255	1262	O
+of	1263	1265	O
+positive	1266	1274	O
+charge	1275	1281	O
+upon	1282	1286	O
+post	1287	1291	B-Process
+-	1291	1292	I-Process
+irradiation	1292	1303	I-Process
+electron	1304	1312	I-Process
+injection	1313	1322	I-Process
+in	1323	1325	O
+SiO2	1326	1330	B-Material
+[	1331	1332	O
+6	1332	1333	O
+]	1333	1334	O
+.	1334	1335	O
 
 
 -DOCSTART- (S0167931713002487)
 
-Ge	NN	O	B-Material
-(	NN	O	I-Material
-100	NN	O	I-Material
-)	NN	O	I-Material
-wafers	NN	O	I-Material
-(	NN	O	O
-n-	NN	O	B-Material
-and	NN	O	I-Material
-p	NN	O	I-Material
--	NN	O	I-Material
-type	NN	O	I-Material
-)	NN	O	O
-were	NN	O	O
-cleaned	NN	O	B-Process
-in	NN	O	I-Process
-ultra	NN	O	I-Process
-high	NN	O	I-Process
-vacuum	NN	O	I-Process
-(	NN	O	O
-<	NN	O	O
-10−6	NN	O	O
-mbar	NN	O	O
-)	NN	O	O
-at	NN	O	O
-500	NN	O	O
-°	NN	O	O
-C	NN	O	O
-and	NN	O	O
-600	NN	O	O
-°	NN	O	O
-C	NN	O	O
-for	NN	O	O
-10min	NN	O	O
-to	NN	O	O
-evaporate	NN	O	B-Process
-any	NN	O	I-Process
-native	NN	O	I-Process
-oxide	NN	O	I-Process
-and	NN	O	O
-so	NN	O	O
-achieve	NN	O	O
-an	NN	O	O
-oxide	NN	O	B-Material
-free	NN	O	I-Material
-surface	NN	O	I-Material
-.	NN	O	O
-
-Subsequently	NN	O	O
-,	NN	O	O
-wafers	NN	O	B-Material
-were	NN	O	O
-exposed	NN	O	O
-to	NN	O	O
-an	NN	O	O
-Al	NN	O	B-Process
-flux	NN	O	I-Process
-for	NN	O	O
-a	NN	O	O
-range	NN	O	O
-of	NN	O	O
-times	NN	O	O
-to	NN	O	O
-deposit	NN	O	O
-ultrathin	NN	O	B-Material
-Al	NN	O	I-Material
-layers	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-samples	NN	O	B-Material
-were	NN	O	O
-then	NN	O	O
-oxidized	NN	O	B-Process
-at	NN	O	O
-ambient	NN	O	O
-temperatures	NN	O	O
-in	NN	O	O
-the	NN	O	O
-MBE	NN	O	B-Material
-load	NN	O	I-Material
-lock	NN	O	I-Material
-to	NN	O	O
-produce	NN	O	B-Task
-Al2O3	NN	O	I-Task
-layers	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-samples	NN	O	B-Material
-were	NN	O	O
-transferred	NN	O	O
-within	NN	O	O
-1min	NN	O	O
-to	NN	O	O
-an	NN	O	O
-Oxford	NN	O	B-Material
-Instruments	NN	O	I-Material
-OpAL	NN	O	I-Material
-reactor	NN	O	I-Material
-and	NN	O	O
-thin	NN	O	B-Material
-films	NN	O	I-Material
-of	NN	O	I-Material
-HfO2	NN	O	I-Material
-were	NN	O	O
-deposited	NN	O	O
-on	NN	O	O
-the	NN	O	O
-Al2O3	NN	O	B-Material
-using	NN	O	O
-atomic	NN	O	B-Process
-layer	NN	O	I-Process
-deposition	NN	O	I-Process
-(	NN	O	O
-ALD	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-HfO2	NN	O	B-Process
-depositions	NN	O	I-Process
-used	NN	O	O
-a	NN	O	O
-[	NN	O	B-Material
-(	NN	O	I-Material
-CpMe)2HfOMeMe	NN	O	I-Material
-]	NN	O	I-Material
-precursor	NN	O	I-Material
-coupled	NN	O	O
-with	NN	O	O
-an	NN	O	O
-O2	NN	O	B-Material
-plasma	NN	O	I-Material
-as	NN	O	O
-the	NN	O	O
-oxidizing	NN	O	B-Material
-species	NN	O	I-Material
-.	NN	O	O
-
-Between	NN	O	O
-30	NN	O	O
-and	NN	O	O
-130	NN	O	O
-ALD	NN	O	O
-cycles	NN	O	O
-were	NN	O	O
-used	NN	O	O
-to	NN	O	O
-grow	NN	O	B-Process
-HfO2	NN	O	I-Process
-thicknesses	NN	O	I-Process
-from	NN	O	O
-1.6	NN	O	O
-to	NN	O	O
-7	NN	O	O
-nm	NN	O	O
-at	NN	O	O
-250	NN	O	O
-°	NN	O	O
-C	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-electrical	NN	O	B-Task
-measurements	NN	O	I-Task
-,	NN	O	O
-circular	NN	O	B-Material
-gold	NN	O	I-Material
-contacts	NN	O	I-Material
-of	NN	O	O
-area	NN	O	O
-1.96×10−3cm2	NN	O	O
-were	NN	O	O
-deposited	NN	O	O
-onto	NN	O	O
-the	NN	O	O
-films	NN	O	B-Material
-to	NN	O	O
-form	NN	O	O
-MOS	NN	O	B-Material
-gate	NN	O	I-Material
-electrodes	NN	O	I-Material
-and	NN	O	O
-Al	NN	O	B-Material
-was	NN	O	O
-deposited	NN	O	O
-on	NN	O	O
-the	NN	O	O
-back	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Ge	NN	O	B-Material
-wafers	NN	O	I-Material
-to	NN	O	O
-provide	NN	O	O
-an	NN	O	O
-ohmic	NN	O	B-Material
-contact	NN	O	I-Material
-.	NN	O	O
-
-After	NN	O	O
-preliminary	NN	O	O
-measurements	NN	O	O
-,	NN	O	O
-the	NN	O	O
-samples	NN	O	B-Material
-were	NN	O	O
-annealed	NN	O	B-Process
-in	NN	O	I-Process
-forming	NN	O	I-Process
-gas	NN	O	I-Process
-(	NN	O	O
-FGA	NN	O	B-Material
-)	NN	O	O
-at	NN	O	O
-350	NN	O	O
-°	NN	O	O
-C	NN	O	O
-for	NN	O	O
-30min	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-oxide	NN	O	B-Material
-leakage	NN	O	I-Material
-current	NN	O	I-Material
-was	NN	O	O
-measured	NN	O	B-Process
-using	NN	O	O
-a	NN	O	O
-Keithley	NN	O	B-Material
-230B	NN	O	I-Material
-voltage	NN	O	I-Material
-source	NN	O	I-Material
-and	NN	O	O
-Keithley	NN	O	B-Material
-617B	NN	O	I-Material
-electrometer	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-HP	NN	O	B-Material
-4192A	NN	O	I-Material
-low	NN	O	I-Material
-frequency	NN	O	I-Material
-(	NN	O	I-Material
-LF	NN	O	I-Material
-)	NN	O	I-Material
-impedance	NN	O	I-Material
-analyzer	NN	O	I-Material
-at	NN	O	O
-small	NN	O	O
-signal	NN	O	O
-frequencies	NN	O	O
-between	NN	O	O
-100Hz	NN	O	O
-to	NN	O	O
-1MHz	NN	O	O
-was	NN	O	O
-used	NN	O	O
-to	NN	O	B-Task
-perform	NN	O	I-Task
-high	NN	O	I-Task
-frequency	NN	O	I-Task
-capacitance	NN	O	I-Task
-–	NN	O	I-Task
-voltage	NN	O	I-Task
-(	NN	O	I-Task
-HF	NN	O	I-Task
-CV	NN	O	I-Task
-)	NN	O	I-Task
-measurements	NN	O	I-Task
-.	NN	O	O
+Ge	0	2	B-Material
+(	3	4	I-Material
+100	4	7	I-Material
+)	7	8	I-Material
+wafers	9	15	I-Material
+(	16	17	O
+n-	17	19	B-Material
+and	20	23	I-Material
+p	24	25	I-Material
+-	25	26	I-Material
+type	26	30	I-Material
+)	30	31	O
+were	32	36	O
+cleaned	37	44	B-Process
+in	45	47	I-Process
+ultra	48	53	I-Process
+high	54	58	I-Process
+vacuum	59	65	I-Process
+(	66	67	O
+<	67	68	O
+10−6	68	72	O
+mbar	72	76	O
+)	76	77	O
+at	78	80	O
+500	81	84	O
+°	84	85	O
+C	85	86	O
+and	87	90	O
+600	91	94	O
+°	94	95	O
+C	95	96	O
+for	97	100	O
+10min	101	106	O
+to	107	109	O
+evaporate	110	119	B-Process
+any	120	123	I-Process
+native	124	130	I-Process
+oxide	131	136	I-Process
+and	137	140	O
+so	141	143	O
+achieve	144	151	O
+an	152	154	O
+oxide	155	160	B-Material
+free	161	165	I-Material
+surface	166	173	I-Material
+.	173	174	O
+
+Subsequently	175	187	O
+,	187	188	O
+wafers	189	195	B-Material
+were	196	200	O
+exposed	201	208	O
+to	209	211	O
+an	212	214	O
+Al	215	217	B-Process
+flux	218	222	I-Process
+for	223	226	O
+a	227	228	O
+range	229	234	O
+of	235	237	O
+times	238	243	O
+to	244	246	O
+deposit	247	254	O
+ultrathin	255	264	B-Material
+Al	265	267	I-Material
+layers	268	274	I-Material
+.	274	275	O
+
+The	276	279	O
+samples	280	287	B-Material
+were	288	292	O
+then	293	297	O
+oxidized	298	306	B-Process
+at	307	309	O
+ambient	310	317	O
+temperatures	318	330	O
+in	331	333	O
+the	334	337	O
+MBE	338	341	B-Material
+load	342	346	I-Material
+lock	347	351	I-Material
+to	352	354	O
+produce	355	362	B-Task
+Al2O3	363	368	I-Task
+layers	369	375	I-Task
+.	375	376	O
+
+The	377	380	O
+samples	381	388	B-Material
+were	389	393	O
+transferred	394	405	O
+within	406	412	O
+1min	413	417	O
+to	418	420	O
+an	421	423	O
+Oxford	424	430	B-Material
+Instruments	431	442	I-Material
+OpAL	443	447	I-Material
+reactor	448	455	I-Material
+and	456	459	O
+thin	460	464	B-Material
+films	465	470	I-Material
+of	471	473	I-Material
+HfO2	474	478	I-Material
+were	479	483	O
+deposited	484	493	O
+on	494	496	O
+the	497	500	O
+Al2O3	501	506	B-Material
+using	507	512	O
+atomic	513	519	B-Process
+layer	520	525	I-Process
+deposition	526	536	I-Process
+(	537	538	O
+ALD	538	541	B-Process
+)	541	542	O
+.	542	543	O
+
+The	544	547	O
+HfO2	548	552	B-Process
+depositions	553	564	I-Process
+used	565	569	O
+a	570	571	O
+[	572	573	B-Material
+(	573	574	I-Material
+CpMe)2HfOMeMe	574	587	I-Material
+]	587	588	I-Material
+precursor	589	598	I-Material
+coupled	599	606	O
+with	607	611	O
+an	612	614	O
+O2	615	617	B-Material
+plasma	618	624	I-Material
+as	625	627	O
+the	628	631	O
+oxidizing	632	641	B-Material
+species	642	649	I-Material
+.	649	650	O
+
+Between	651	658	O
+30	659	661	O
+and	662	665	O
+130	666	669	O
+ALD	670	673	O
+cycles	674	680	O
+were	681	685	O
+used	686	690	O
+to	691	693	O
+grow	694	698	B-Process
+HfO2	699	703	I-Process
+thicknesses	704	715	I-Process
+from	716	720	O
+1.6	721	724	O
+to	725	727	O
+7	728	729	O
+nm	729	731	O
+at	732	734	O
+250	735	738	O
+°	738	739	O
+C	739	740	O
+.	740	741	O
+
+For	742	745	O
+electrical	746	756	B-Task
+measurements	757	769	I-Task
+,	769	770	O
+circular	771	779	B-Material
+gold	780	784	I-Material
+contacts	785	793	I-Material
+of	794	796	O
+area	797	801	O
+1.96×10−3cm2	802	814	O
+were	815	819	O
+deposited	820	829	O
+onto	830	834	O
+the	835	838	O
+films	839	844	B-Material
+to	845	847	O
+form	848	852	O
+MOS	853	856	B-Material
+gate	857	861	I-Material
+electrodes	862	872	I-Material
+and	873	876	O
+Al	877	879	B-Material
+was	880	883	O
+deposited	884	893	O
+on	894	896	O
+the	897	900	O
+back	901	905	O
+of	906	908	O
+the	909	912	O
+Ge	913	915	B-Material
+wafers	916	922	I-Material
+to	923	925	O
+provide	926	933	O
+an	934	936	O
+ohmic	937	942	B-Material
+contact	943	950	I-Material
+.	950	951	O
+
+After	952	957	O
+preliminary	958	969	O
+measurements	970	982	O
+,	982	983	O
+the	984	987	O
+samples	988	995	B-Material
+were	996	1000	O
+annealed	1001	1009	B-Process
+in	1010	1012	I-Process
+forming	1013	1020	I-Process
+gas	1021	1024	I-Process
+(	1025	1026	O
+FGA	1026	1029	B-Material
+)	1029	1030	O
+at	1031	1033	O
+350	1034	1037	O
+°	1037	1038	O
+C	1038	1039	O
+for	1040	1043	O
+30min	1044	1049	O
+.	1049	1050	O
+
+The	1051	1054	O
+oxide	1055	1060	B-Material
+leakage	1061	1068	I-Material
+current	1069	1076	I-Material
+was	1077	1080	O
+measured	1081	1089	B-Process
+using	1090	1095	O
+a	1096	1097	O
+Keithley	1098	1106	B-Material
+230B	1107	1111	I-Material
+voltage	1112	1119	I-Material
+source	1120	1126	I-Material
+and	1127	1130	O
+Keithley	1131	1139	B-Material
+617B	1140	1144	I-Material
+electrometer	1145	1157	I-Material
+.	1157	1158	O
+
+The	1159	1162	O
+HP	1163	1165	B-Material
+4192A	1166	1171	I-Material
+low	1172	1175	I-Material
+frequency	1176	1185	I-Material
+(	1186	1187	I-Material
+LF	1187	1189	I-Material
+)	1189	1190	I-Material
+impedance	1191	1200	I-Material
+analyzer	1201	1209	I-Material
+at	1210	1212	O
+small	1213	1218	O
+signal	1219	1225	O
+frequencies	1226	1237	O
+between	1238	1245	O
+100Hz	1246	1251	O
+to	1252	1254	O
+1MHz	1255	1259	O
+was	1260	1263	O
+used	1264	1268	O
+to	1269	1271	B-Task
+perform	1272	1279	I-Task
+high	1280	1284	I-Task
+frequency	1285	1294	I-Task
+capacitance	1295	1306	I-Task
+–	1306	1307	I-Task
+voltage	1307	1314	I-Task
+(	1315	1316	I-Task
+HF	1316	1318	I-Task
+CV	1319	1321	I-Task
+)	1321	1322	I-Task
+measurements	1323	1335	I-Task
+.	1335	1336	O
 
 
 -DOCSTART- (S0167931713004061)
 
-We	NN	O	O
-have	NN	O	O
-demonstrated	NN	O	O
-a	NN	O	O
-new	NN	O	O
-approach	NN	O	O
-to	NN	O	O
-the	NN	O	O
-manufacture	NN	O	B-Task
-of	NN	O	I-Task
-self	NN	O	I-Task
--	NN	O	I-Task
-folding	NN	O	I-Task
-hydrogel	NN	O	I-Task
-scaffolds	NN	O	I-Task
-by	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-readily	NN	O	B-Process
-available	NN	O	I-Process
-and	NN	O	I-Process
-fast	NN	O	I-Process
-throughput	NN	O	I-Process
-methods	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-process	NN	O	O
-shows	NN	O	O
-effective	NN	O	B-Process
-pattern	NN	O	I-Process
-transfer	NN	O	I-Process
-by	NN	O	O
-first	NN	O	O
-embossing	NN	O	B-Process
-a	NN	O	I-Process
-sacrificial	NN	O	I-Process
-layer	NN	O	I-Process
-and	NN	O	O
-using	NN	O	B-Process
-it	NN	O	I-Process
-as	NN	O	I-Process
-a	NN	O	I-Process
-soluble	NN	O	I-Process
-mould	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-fabrication	NN	O	I-Process
-process	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-use	NN	O	O
-of	NN	O	O
-a	NN	O	O
-sacrificial	NN	O	B-Material
-layer	NN	O	I-Material
-of	NN	O	I-Material
-PAA	NN	O	I-Material
-imparts	NN	O	O
-environmental	NN	O	O
-sensitivity	NN	O	O
-to	NN	O	O
-the	NN	O	O
-hydrogel	NN	O	B-Material
-film	NN	O	I-Material
-on	NN	O	O
-only	NN	O	O
-one	NN	O	O
-surface	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-subsequent	NN	O	O
-swelling	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-PAA	NN	O	I-Process
-inter	NN	O	I-Process
--	NN	O	I-Process
-penetrating	NN	O	I-Process
-network	NN	O	I-Process
-(	NN	O	O
-IPN	NN	O	B-Process
-)	NN	O	O
-in	NN	O	O
-elevated	NN	O	B-Material
-pH	NN	O	I-Material
-causes	NN	O	O
-a	NN	O	O
-swelling	NN	O	B-Process
-differential	NN	O	I-Process
-across	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-,	NN	O	O
-causing	NN	O	O
-it	NN	O	O
-to	NN	O	O
-roll	NN	O	B-Process
-to	NN	O	O
-accommodate	NN	O	B-Task
-the	NN	O	I-Task
-difference	NN	O	I-Task
-in	NN	O	I-Task
-surface	NN	O	I-Task
-area	NN	O	I-Task
-between	NN	O	I-Task
-the	NN	O	I-Task
-two	NN	O	I-Task
-surfaces	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-surface	NN	O	O
-functionalization	NN	O	O
-and	NN	O	O
-patterning	NN	O	O
-stages	NN	O	O
-are	NN	O	O
-thus	NN	O	O
-combined	NN	O	O
-into	NN	O	O
-one	NN	O	O
-photolithographic	NN	O	B-Process
-operation	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-net	NN	O	O
-result	NN	O	O
-is	NN	O	O
-a	NN	O	O
-method	NN	O	O
-of	NN	O	O
-producing	NN	O	B-Process
-environmentally	NN	O	I-Process
-triggered	NN	O	I-Process
-self	NN	O	I-Process
--	NN	O	I-Process
-folding	NN	O	I-Process
-all	NN	O	I-Process
-hydrogel	NN	O	I-Process
-scaffolds	NN	O	I-Process
-by	NN	O	O
-a	NN	O	O
-,	NN	O	O
-to	NN	O	O
-the	NN	O	O
-authors’	NN	O	O
-knowledge	NN	O	O
-,	NN	O	O
-novel	NN	O	B-Task
-use	NN	O	I-Task
-of	NN	O	I-Task
-sacrificial	NN	O	I-Task
-layer	NN	O	I-Task
-embossing	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-patterned	NN	O	B-Material
-hydrogel	NN	O	I-Material
-films	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-triggered	NN	O	B-Process
-consecutively	NN	O	I-Process
-allowing	NN	O	O
-for	NN	O	O
-successive	NN	O	O
-rolling	NN	O	B-Process
-and	NN	O	O
-unrolling	NN	O	B-Process
-depending	NN	O	O
-on	NN	O	O
-the	NN	O	O
-aqueous	NN	O	B-Material
-pH.	NN	O	I-Material
-The	NN	O	O
-choice	NN	O	O
-of	NN	O	O
-PEGDMA	NN	O	B-Material
-hydrogel	NN	O	I-Material
-provides	NN	O	O
-a	NN	O	O
-versatile	NN	O	B-Material
-platform	NN	O	I-Material
-for	NN	O	I-Material
-creating	NN	O	I-Material
-a	NN	O	I-Material
-variety	NN	O	I-Material
-of	NN	O	I-Material
-hydrogel	NN	O	I-Material
-scaffolds	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-while	NN	O	O
-being	NN	O	O
-non	NN	O	O
--	NN	O	O
-fouling	NN	O	O
-and	NN	O	O
-nontoxic	NN	O	O
-it	NN	O	O
-is	NN	O	O
-permeable	NN	O	O
-to	NN	O	O
-proteins	NN	O	B-Material
-.	NN	O	O
-
-Furthermore	NN	O	O
-PEGDMA	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-modified	NN	O	O
-to	NN	O	O
-produce	NN	O	B-Task
-biodegradable	NN	O	I-Task
-and	NN	O	I-Task
-cell	NN	O	I-Task
-adhesive	NN	O	I-Task
-hydrogels	NN	O	I-Task
-for	NN	O	O
-a	NN	O	O
-variety	NN	O	O
-of	NN	O	O
-biomedical	NN	O	B-Task
-applications	NN	O	I-Task
-.	NN	O	O
+We	0	2	O
+have	3	7	O
+demonstrated	8	20	O
+a	21	22	O
+new	23	26	O
+approach	27	35	O
+to	36	38	O
+the	39	42	O
+manufacture	43	54	B-Task
+of	55	57	I-Task
+self	58	62	I-Task
+-	62	63	I-Task
+folding	63	70	I-Task
+hydrogel	71	79	I-Task
+scaffolds	80	89	I-Task
+by	90	92	O
+the	93	96	O
+use	97	100	O
+of	101	103	O
+readily	104	111	B-Process
+available	112	121	I-Process
+and	122	125	I-Process
+fast	126	130	I-Process
+throughput	131	141	I-Process
+methods	142	149	I-Process
+.	149	150	O
+
+The	151	154	O
+process	155	162	O
+shows	163	168	O
+effective	169	178	B-Process
+pattern	179	186	I-Process
+transfer	187	195	I-Process
+by	196	198	O
+first	199	204	O
+embossing	205	214	B-Process
+a	215	216	I-Process
+sacrificial	217	228	I-Process
+layer	229	234	I-Process
+and	235	238	O
+using	239	244	B-Process
+it	245	247	I-Process
+as	248	250	I-Process
+a	251	252	I-Process
+soluble	253	260	I-Process
+mould	261	266	I-Process
+in	267	269	I-Process
+the	270	273	I-Process
+fabrication	274	285	I-Process
+process	286	293	I-Process
+.	293	294	O
+
+The	295	298	O
+use	299	302	O
+of	303	305	O
+a	306	307	O
+sacrificial	308	319	B-Material
+layer	320	325	I-Material
+of	326	328	I-Material
+PAA	329	332	I-Material
+imparts	333	340	O
+environmental	341	354	O
+sensitivity	355	366	O
+to	367	369	O
+the	370	373	O
+hydrogel	374	382	B-Material
+film	383	387	I-Material
+on	388	390	O
+only	391	395	O
+one	396	399	O
+surface	400	407	B-Material
+.	407	408	O
+
+The	409	412	O
+subsequent	413	423	O
+swelling	424	432	B-Process
+of	433	435	I-Process
+the	436	439	I-Process
+PAA	440	443	I-Process
+inter	444	449	I-Process
+-	449	450	I-Process
+penetrating	450	461	I-Process
+network	462	469	I-Process
+(	470	471	O
+IPN	471	474	B-Process
+)	474	475	O
+in	476	478	O
+elevated	479	487	B-Material
+pH	488	490	I-Material
+causes	491	497	O
+a	498	499	O
+swelling	500	508	B-Process
+differential	509	521	I-Process
+across	522	528	O
+the	529	532	O
+film	533	537	B-Material
+,	537	538	O
+causing	539	546	O
+it	547	549	O
+to	550	552	O
+roll	553	557	B-Process
+to	558	560	O
+accommodate	561	572	B-Task
+the	573	576	I-Task
+difference	577	587	I-Task
+in	588	590	I-Task
+surface	591	598	I-Task
+area	599	603	I-Task
+between	604	611	I-Task
+the	612	615	I-Task
+two	616	619	I-Task
+surfaces	620	628	I-Task
+.	628	629	O
+
+The	630	633	O
+surface	634	641	O
+functionalization	642	659	O
+and	660	663	O
+patterning	664	674	O
+stages	675	681	O
+are	682	685	O
+thus	686	690	O
+combined	691	699	O
+into	700	704	O
+one	705	708	O
+photolithographic	709	726	B-Process
+operation	727	736	I-Process
+.	736	737	O
+
+The	738	741	O
+net	742	745	O
+result	746	752	O
+is	753	755	O
+a	756	757	O
+method	758	764	O
+of	765	767	O
+producing	768	777	B-Process
+environmentally	778	793	I-Process
+triggered	794	803	I-Process
+self	804	808	I-Process
+-	808	809	I-Process
+folding	809	816	I-Process
+all	817	820	I-Process
+hydrogel	821	829	I-Process
+scaffolds	830	839	I-Process
+by	840	842	O
+a	843	844	O
+,	844	845	O
+to	846	848	O
+the	849	852	O
+authors’	853	861	O
+knowledge	862	871	O
+,	871	872	O
+novel	873	878	B-Task
+use	879	882	I-Task
+of	883	885	I-Task
+sacrificial	886	897	I-Task
+layer	898	903	I-Task
+embossing	904	913	I-Task
+.	913	914	O
+
+The	915	918	O
+patterned	919	928	B-Material
+hydrogel	929	937	I-Material
+films	938	943	I-Material
+can	944	947	O
+be	948	950	O
+triggered	951	960	B-Process
+consecutively	961	974	I-Process
+allowing	975	983	O
+for	984	987	O
+successive	988	998	O
+rolling	999	1006	B-Process
+and	1007	1010	O
+unrolling	1011	1020	B-Process
+depending	1021	1030	O
+on	1031	1033	O
+the	1034	1037	O
+aqueous	1038	1045	B-Material
+pH.	1046	1049	I-Material
+The	1050	1053	O
+choice	1054	1060	O
+of	1061	1063	O
+PEGDMA	1064	1070	B-Material
+hydrogel	1071	1079	I-Material
+provides	1080	1088	O
+a	1089	1090	O
+versatile	1091	1100	B-Material
+platform	1101	1109	I-Material
+for	1110	1113	I-Material
+creating	1114	1122	I-Material
+a	1123	1124	I-Material
+variety	1125	1132	I-Material
+of	1133	1135	I-Material
+hydrogel	1136	1144	I-Material
+scaffolds	1145	1154	I-Material
+,	1154	1155	O
+and	1156	1159	O
+while	1160	1165	O
+being	1166	1171	O
+non	1172	1175	O
+-	1175	1176	O
+fouling	1176	1183	O
+and	1184	1187	O
+nontoxic	1188	1196	O
+it	1197	1199	O
+is	1200	1202	O
+permeable	1203	1212	O
+to	1213	1215	O
+proteins	1216	1224	B-Material
+.	1224	1225	O
+
+Furthermore	1226	1237	O
+PEGDMA	1238	1244	B-Material
+can	1245	1248	O
+be	1249	1251	O
+modified	1252	1260	O
+to	1261	1263	O
+produce	1264	1271	B-Task
+biodegradable	1272	1285	I-Task
+and	1286	1289	I-Task
+cell	1290	1294	I-Task
+adhesive	1295	1303	I-Task
+hydrogels	1304	1313	I-Task
+for	1314	1317	O
+a	1318	1319	O
+variety	1320	1327	O
+of	1328	1330	O
+biomedical	1331	1341	B-Task
+applications	1342	1354	I-Task
+.	1354	1355	O
 
 
 -DOCSTART- (S0167931713004991)
 
-The	NN	O	O
-number	NN	O	O
-of	NN	O	O
-experiments	NN	O	O
-conducted	NN	O	O
-was	NN	O	O
-reduced	NN	O	O
-by	NN	O	O
-selecting	NN	O	O
-the	NN	O	O
-four	NN	O	O
-most	NN	O	O
-important	NN	O	O
-parameters	NN	O	O
-for	NN	O	O
-variation	NN	O	O
-,	NN	O	O
-Table	NN	O	O
-1	NN	O	O
-while	NN	O	O
-the	NN	O	O
-remaining	NN	O	O
-parameters	NN	O	O
-were	NN	O	O
-kept	NN	O	O
-constant	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-O2	NN	O	O
-flow	NN	O	O
-rate	NN	O	O
-(	NN	O	O
-QO2	NN	O	O
-)	NN	O	O
-was	NN	O	O
-keep	NN	O	O
-constant	NN	O	O
-at	NN	O	O
-99sccm	NN	O	O
-,	NN	O	O
-while	NN	O	O
-the	NN	O	O
-SF6	NN	O	O
-flow	NN	O	O
-rate	NN	O	O
-(	NN	O	O
-QSF6	NN	O	O
-)	NN	O	O
-was	NN	O	O
-varied	NN	O	O
-between	NN	O	O
-0	NN	O	O
-and	NN	O	O
-20sccm	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-pressure	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-etch	NN	O	I-Process
-chamber	NN	O	I-Process
-was	NN	O	O
-controlled	NN	O	O
-to	NN	O	O
-keep	NN	O	B-Task
-the	NN	O	I-Task
-gas	NN	O	I-Task
-density	NN	O	I-Task
-stable	NN	O	I-Task
-.	NN	O	O
-
-Since	NN	O	O
-the	NN	O	O
-pressure	NN	O	O
-has	NN	O	O
-a	NN	O	O
-pronounced	NN	O	O
-effect	NN	O	O
-on	NN	O	O
-etch	NN	O	O
-characteristics	NN	O	O
-,	NN	O	O
-the	NN	O	O
-pressure	NN	O	O
-(	NN	O	O
-p	NN	O	O
-)	NN	O	O
-was	NN	O	O
-varied	NN	O	O
-between	NN	O	O
-20	NN	O	O
-and	NN	O	O
-40mTorr	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-should	NN	O	O
-be	NN	O	O
-noted	NN	O	O
-that	NN	O	O
-the	NN	O	O
-system	NN	O	O
-was	NN	O	O
-run	NN	O	O
-in	NN	O	O
-automatic	NN	O	B-Process
-pressure	NN	O	I-Process
-control	NN	O	I-Process
-mode	NN	O	O
-,	NN	O	O
-which	NN	O	O
-continuously	NN	O	O
-adjusts	NN	O	B-Process
-the	NN	O	I-Process
-throttle	NN	O	I-Process
-valve	NN	O	I-Process
-to	NN	O	O
-keep	NN	O	O
-a	NN	O	O
-constant	NN	O	O
-pressure	NN	O	O
-during	NN	O	O
-etch	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-coil	NN	O	O
-power	NN	O	O
-(	NN	O	O
-PC	NN	O	O
-)	NN	O	O
-was	NN	O	O
-fixed	NN	O	O
-at	NN	O	O
-1000W	NN	O	O
-,	NN	O	O
-while	NN	O	O
-the	NN	O	O
-bias	NN	O	O
-power	NN	O	O
-(	NN	O	O
-PB	NN	O	O
-)	NN	O	O
-was	NN	O	O
-varied	NN	O	O
-between	NN	O	O
-0	NN	O	O
-and	NN	O	O
-30W.	NN	O	O
-Finally	NN	O	O
-,	NN	O	O
-the	NN	O	O
-substrate	NN	O	O
-chuck	NN	O	O
-temperature	NN	O	O
-(	NN	O	O
-T	NN	O	O
-)	NN	O	O
-was	NN	O	O
-controlled	NN	O	O
-between	NN	O	O
-10	NN	O	O
-and	NN	O	O
-50	NN	O	O
-°	NN	O	O
-C	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-design	NN	O	O
-resulted	NN	O	O
-in	NN	O	O
-a	NN	O	O
-full	NN	O	O
-factorial	NN	O	B-Process
-screening	NN	O	I-Process
-in	NN	O	O
-four	NN	O	O
-parameters	NN	O	O
-,	NN	O	O
-where	NN	O	O
-three	NN	O	O
-center	NN	O	O
-points	NN	O	O
-were	NN	O	O
-used	NN	O	O
-to	NN	O	O
-check	NN	O	B-Process
-for	NN	O	I-Process
-quadratic	NN	O	I-Process
-curvature	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-quadratic	NN	O	O
-term	NN	O	O
-of	NN	O	O
-a	NN	O	O
-parameter	NN	O	O
-is	NN	O	O
-needed	NN	O	O
-to	NN	O	O
-generate	NN	O	O
-a	NN	O	O
-valid	NN	O	O
-model	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-total	NN	O	O
-number	NN	O	O
-of	NN	O	O
-experiments	NN	O	O
-in	NN	O	O
-this	NN	O	O
-setup	NN	O	O
-is	NN	O	O
-19	NN	O	O
-,	NN	O	O
-which	NN	O	O
-were	NN	O	O
-processed	NN	O	O
-for	NN	O	O
-20min	NN	O	O
-each	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-experiments	NN	O	O
-in	NN	O	O
-the	NN	O	O
-design	NN	O	O
-were	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-in	NN	O	O
-random	NN	O	O
-order	NN	O	O
-.	NN	O	O
+The	0	3	O
+number	4	10	O
+of	11	13	O
+experiments	14	25	O
+conducted	26	35	O
+was	36	39	O
+reduced	40	47	O
+by	48	50	O
+selecting	51	60	O
+the	61	64	O
+four	65	69	O
+most	70	74	O
+important	75	84	O
+parameters	85	95	O
+for	96	99	O
+variation	100	109	O
+,	109	110	O
+Table	111	116	O
+1	117	118	O
+while	119	124	O
+the	125	128	O
+remaining	129	138	O
+parameters	139	149	O
+were	150	154	O
+kept	155	159	O
+constant	160	168	O
+.	168	169	O
+
+The	170	173	O
+O2	174	176	O
+flow	177	181	O
+rate	182	186	O
+(	187	188	O
+QO2	188	191	O
+)	191	192	O
+was	193	196	O
+keep	197	201	O
+constant	202	210	O
+at	211	213	O
+99sccm	214	220	O
+,	220	221	O
+while	222	227	O
+the	228	231	O
+SF6	232	235	O
+flow	236	240	O
+rate	241	245	O
+(	246	247	O
+QSF6	247	251	O
+)	251	252	O
+was	253	256	O
+varied	257	263	O
+between	264	271	O
+0	272	273	O
+and	274	277	O
+20sccm	278	284	O
+.	284	285	O
+
+The	286	289	O
+pressure	290	298	B-Process
+in	299	301	I-Process
+the	302	305	I-Process
+etch	306	310	I-Process
+chamber	311	318	I-Process
+was	319	322	O
+controlled	323	333	O
+to	334	336	O
+keep	337	341	B-Task
+the	342	345	I-Task
+gas	346	349	I-Task
+density	350	357	I-Task
+stable	358	364	I-Task
+.	364	365	O
+
+Since	366	371	O
+the	372	375	O
+pressure	376	384	O
+has	385	388	O
+a	389	390	O
+pronounced	391	401	O
+effect	402	408	O
+on	409	411	O
+etch	412	416	O
+characteristics	417	432	O
+,	432	433	O
+the	434	437	O
+pressure	438	446	O
+(	447	448	O
+p	448	449	O
+)	449	450	O
+was	451	454	O
+varied	455	461	O
+between	462	469	O
+20	470	472	O
+and	473	476	O
+40mTorr	477	484	O
+.	484	485	O
+
+It	486	488	O
+should	489	495	O
+be	496	498	O
+noted	499	504	O
+that	505	509	O
+the	510	513	O
+system	514	520	O
+was	521	524	O
+run	525	528	O
+in	529	531	O
+automatic	532	541	B-Process
+pressure	542	550	I-Process
+control	551	558	I-Process
+mode	559	563	O
+,	563	564	O
+which	565	570	O
+continuously	571	583	O
+adjusts	584	591	B-Process
+the	592	595	I-Process
+throttle	596	604	I-Process
+valve	605	610	I-Process
+to	611	613	O
+keep	614	618	O
+a	619	620	O
+constant	621	629	O
+pressure	630	638	O
+during	639	645	O
+etch	646	650	O
+.	650	651	O
+
+The	652	655	O
+coil	656	660	O
+power	661	666	O
+(	667	668	O
+PC	668	670	O
+)	670	671	O
+was	672	675	O
+fixed	676	681	O
+at	682	684	O
+1000W	685	690	O
+,	690	691	O
+while	692	697	O
+the	698	701	O
+bias	702	706	O
+power	707	712	O
+(	713	714	O
+PB	714	716	O
+)	716	717	O
+was	718	721	O
+varied	722	728	O
+between	729	736	O
+0	737	738	O
+and	739	742	O
+30W.	743	747	O
+Finally	748	755	O
+,	755	756	O
+the	757	760	O
+substrate	761	770	O
+chuck	771	776	O
+temperature	777	788	O
+(	789	790	O
+T	790	791	O
+)	791	792	O
+was	793	796	O
+controlled	797	807	O
+between	808	815	O
+10	816	818	O
+and	819	822	O
+50	823	825	O
+°	825	826	O
+C	826	827	O
+.	827	828	O
+
+This	829	833	O
+design	834	840	O
+resulted	841	849	O
+in	850	852	O
+a	853	854	O
+full	855	859	O
+factorial	860	869	B-Process
+screening	870	879	I-Process
+in	880	882	O
+four	883	887	O
+parameters	888	898	O
+,	898	899	O
+where	900	905	O
+three	906	911	O
+center	912	918	O
+points	919	925	O
+were	926	930	O
+used	931	935	O
+to	936	938	O
+check	939	944	B-Process
+for	945	948	I-Process
+quadratic	949	958	I-Process
+curvature	959	968	I-Process
+,	968	969	O
+where	970	975	O
+the	976	979	O
+quadratic	980	989	O
+term	990	994	O
+of	995	997	O
+a	998	999	O
+parameter	1000	1009	O
+is	1010	1012	O
+needed	1013	1019	O
+to	1020	1022	O
+generate	1023	1031	O
+a	1032	1033	O
+valid	1034	1039	O
+model	1040	1045	O
+.	1045	1046	O
+
+The	1047	1050	O
+total	1051	1056	O
+number	1057	1063	O
+of	1064	1066	O
+experiments	1067	1078	O
+in	1079	1081	O
+this	1082	1086	O
+setup	1087	1092	O
+is	1093	1095	O
+19	1096	1098	O
+,	1098	1099	O
+which	1100	1105	O
+were	1106	1110	O
+processed	1111	1120	O
+for	1121	1124	O
+20min	1125	1130	O
+each	1131	1135	O
+.	1135	1136	O
+
+The	1137	1140	O
+experiments	1141	1152	O
+in	1153	1155	O
+the	1156	1159	O
+design	1160	1166	O
+were	1167	1171	O
+carried	1172	1179	O
+out	1180	1183	O
+in	1184	1186	O
+random	1187	1193	O
+order	1194	1199	O
+.	1199	1200	O
 
 
 -DOCSTART- (S0167931713005042)
 
-We	NN	O	O
-used	NN	O	O
-2μm	NN	O	O
-of	NN	O	O
-ultra	NN	O	B-Material
--	NN	O	I-Material
-nanocrystalline	NN	O	I-Material
-diamond	NN	O	I-Material
-(	NN	O	O
-UNCD	NN	O	B-Material
-)	NN	O	O
-grown	NN	O	O
-by	NN	O	O
-chemical	NN	O	B-Process
-vapour	NN	O	I-Process
-deposition	NN	O	I-Process
-(	NN	O	O
-CVD	NN	O	B-Process
-)	NN	O	O
-on	NN	O	O
-a	NN	O	O
-∼520μm	NN	O	O
-silicon	NN	O	O
-carrier	NN	O	O
-wafer	NN	O	O
-from	NN	O	O
-Advanced	NN	O	O
-Diamond	NN	O	O
-Technologies	NN	O	O
-Ltd.	NN	O	O
-Detailed	NN	O	O
-information	NN	O	O
-about	NN	O	O
-the	NN	O	O
-material	NN	O	O
-and	NN	O	O
-the	NN	O	O
-stamp	NN	O	O
-fabrication	NN	O	O
-can	NN	O	O
-be	NN	O	O
-found	NN	O	O
-in	NN	O	O
-our	NN	O	O
-earlier	NN	O	O
-paper	NN	O	O
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-UNCD	NN	O	B-Material
-wafer	NN	O	I-Material
-was	NN	O	O
-scribed	NN	O	O
-into	NN	O	O
-1×1cm2	NN	O	O
-samples	NN	O	O
-and	NN	O	O
-subjected	NN	O	O
-to	NN	O	O
-RCA	NN	O	B-Process
-cleaning	NN	O	I-Process
-(	NN	O	O
-SC-1	NN	O	O
-)	NN	O	O
-,	NN	O	O
-followed	NN	O	O
-by	NN	O	O
-ultrasonic	NN	O	B-Process
-solvent	NN	O	I-Process
-cleaning	NN	O	I-Process
-.	NN	O	O
-
-Nanofeature	NN	O	O
-stamps	NN	O	O
-were	NN	O	O
-then	NN	O	O
-created	NN	O	O
-from	NN	O	O
-the	NN	O	O
-samples	NN	O	O
-using	NN	O	O
-conventional	NN	O	B-Process
-electron	NN	O	I-Process
-beam	NN	O	I-Process
-lithography	NN	O	I-Process
-(	NN	O	O
-EBL	NN	O	B-Process
-)	NN	O	O
-with	NN	O	O
-negative	NN	O	B-Material
-tone	NN	O	I-Material
-electron	NN	O	I-Material
-sensitive	NN	O	I-Material
-resist	NN	O	I-Material
-,	NN	O	O
-hydrogen	NN	O	B-Material
-silsesquioxane	NN	O	I-Material
-(	NN	O	O
-HSQ	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-Al	NN	O	B-Material
-discharge	NN	O	I-Material
-layer	NN	O	I-Material
-was	NN	O	O
-required	NN	O	O
-above	NN	O	O
-the	NN	O	O
-resist	NN	O	O
-to	NN	O	O
-prevent	NN	O	B-Task
-e	NN	O	I-Task
--	NN	O	I-Task
-beam	NN	O	I-Task
-deflection	NN	O	I-Task
-due	NN	O	I-Task
-to	NN	O	I-Task
-charge	NN	O	I-Task
-build	NN	O	I-Task
--	NN	O	I-Task
-up	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-surface	NN	O	I-Task
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Several	NN	O	B-Task
-stamps	NN	O	I-Task
-were	NN	O	I-Task
-produced	NN	O	I-Task
-with	NN	O	O
-this	NN	O	O
-process	NN	O	O
-and	NN	O	O
-the	NN	O	O
-pattern	NN	O	O
-written	NN	O	O
-varied	NN	O	O
-in	NN	O	O
-design	NN	O	O
-but	NN	O	O
-consisted	NN	O	O
-of	NN	O	O
-arrays	NN	O	O
-of	NN	O	O
-circular	NN	O	B-Material
-pillars	NN	O	I-Material
-.	NN	O	O
-
-After	NN	O	O
-EBL	NN	O	B-Task
-and	NN	O	I-Task
-HSQ	NN	O	I-Task
-development	NN	O	I-Task
-,	NN	O	I-Task
-the	NN	O	I-Task
-HSQ	NN	O	B-Material
-was	NN	O	O
-used	NN	O	O
-as	NN	O	O
-an	NN	O	O
-etch	NN	O	B-Material
-mask	NN	O	I-Material
-for	NN	O	O
-RIE	NN	O	B-Material
-with	NN	O	O
-a	NN	O	O
-mixture	NN	O	O
-of	NN	O	O
-oxygen	NN	O	B-Material
-and	NN	O	O
-argon	NN	O	B-Material
-gas	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-etched	NN	O	B-Material
-diamond	NN	O	I-Material
-nanopillars	NN	O	I-Material
-were	NN	O	O
-typically	NN	O	O
-225	NN	O	O
-nm	NN	O	O
-high	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-displays	NN	O	O
-a	NN	O	O
-scanning	NN	O	B-Material
-electron	NN	O	I-Material
-micrograph	NN	O	I-Material
-of	NN	O	O
-some	NN	O	O
-typical	NN	O	O
-stamp	NN	O	O
-features	NN	O	O
-.	NN	O	O
+We	0	2	O
+used	3	7	O
+2μm	8	11	O
+of	12	14	O
+ultra	15	20	B-Material
+-	20	21	I-Material
+nanocrystalline	21	36	I-Material
+diamond	37	44	I-Material
+(	45	46	O
+UNCD	46	50	B-Material
+)	50	51	O
+grown	52	57	O
+by	58	60	O
+chemical	61	69	B-Process
+vapour	70	76	I-Process
+deposition	77	87	I-Process
+(	88	89	O
+CVD	89	92	B-Process
+)	92	93	O
+on	94	96	O
+a	97	98	O
+∼520μm	99	105	O
+silicon	106	113	O
+carrier	114	121	O
+wafer	122	127	O
+from	128	132	O
+Advanced	133	141	O
+Diamond	142	149	O
+Technologies	150	162	O
+Ltd.	163	167	O
+Detailed	168	176	O
+information	177	188	O
+about	189	194	O
+the	195	198	O
+material	199	207	O
+and	208	211	O
+the	212	215	O
+stamp	216	221	O
+fabrication	222	233	O
+can	234	237	O
+be	238	240	O
+found	241	246	O
+in	247	249	O
+our	250	253	O
+earlier	254	261	O
+paper	262	267	O
+[	268	269	O
+16	269	271	O
+]	271	272	O
+.	272	273	O
+
+The	274	277	O
+UNCD	278	282	B-Material
+wafer	283	288	I-Material
+was	289	292	O
+scribed	293	300	O
+into	301	305	O
+1×1cm2	306	312	O
+samples	313	320	O
+and	321	324	O
+subjected	325	334	O
+to	335	337	O
+RCA	338	341	B-Process
+cleaning	342	350	I-Process
+(	351	352	O
+SC-1	352	356	O
+)	356	357	O
+,	357	358	O
+followed	359	367	O
+by	368	370	O
+ultrasonic	371	381	B-Process
+solvent	382	389	I-Process
+cleaning	390	398	I-Process
+.	398	399	O
+
+Nanofeature	400	411	O
+stamps	412	418	O
+were	419	423	O
+then	424	428	O
+created	429	436	O
+from	437	441	O
+the	442	445	O
+samples	446	453	O
+using	454	459	O
+conventional	460	472	B-Process
+electron	473	481	I-Process
+beam	482	486	I-Process
+lithography	487	498	I-Process
+(	499	500	O
+EBL	500	503	B-Process
+)	503	504	O
+with	505	509	O
+negative	510	518	B-Material
+tone	519	523	I-Material
+electron	524	532	I-Material
+sensitive	533	542	I-Material
+resist	543	549	I-Material
+,	549	550	O
+hydrogen	551	559	B-Material
+silsesquioxane	560	574	I-Material
+(	575	576	O
+HSQ	576	579	B-Material
+)	579	580	O
+.	580	581	O
+
+An	582	584	O
+Al	585	587	B-Material
+discharge	588	597	I-Material
+layer	598	603	I-Material
+was	604	607	O
+required	608	616	O
+above	617	622	O
+the	623	626	O
+resist	627	633	O
+to	634	636	O
+prevent	637	644	B-Task
+e	645	646	I-Task
+-	646	647	I-Task
+beam	647	651	I-Task
+deflection	652	662	I-Task
+due	663	666	I-Task
+to	667	669	I-Task
+charge	670	676	I-Task
+build	677	682	I-Task
+-	682	683	I-Task
+up	683	685	I-Task
+on	686	688	I-Task
+the	689	692	I-Task
+surface	693	700	I-Task
+[	701	702	O
+17	702	704	O
+]	704	705	O
+.	705	706	O
+
+Several	707	714	B-Task
+stamps	715	721	I-Task
+were	722	726	I-Task
+produced	727	735	I-Task
+with	736	740	O
+this	741	745	O
+process	746	753	O
+and	754	757	O
+the	758	761	O
+pattern	762	769	O
+written	770	777	O
+varied	778	784	O
+in	785	787	O
+design	788	794	O
+but	795	798	O
+consisted	799	808	O
+of	809	811	O
+arrays	812	818	O
+of	819	821	O
+circular	822	830	B-Material
+pillars	831	838	I-Material
+.	838	839	O
+
+After	840	845	O
+EBL	846	849	B-Task
+and	850	853	I-Task
+HSQ	854	857	I-Task
+development	858	869	I-Task
+,	869	870	I-Task
+the	871	874	I-Task
+HSQ	875	878	B-Material
+was	879	882	O
+used	883	887	O
+as	888	890	O
+an	891	893	O
+etch	894	898	B-Material
+mask	899	903	I-Material
+for	904	907	O
+RIE	908	911	B-Material
+with	912	916	O
+a	917	918	O
+mixture	919	926	O
+of	927	929	O
+oxygen	930	936	B-Material
+and	937	940	O
+argon	941	946	B-Material
+gas	947	950	I-Material
+.	950	951	O
+
+The	952	955	O
+etched	956	962	B-Material
+diamond	963	970	I-Material
+nanopillars	971	982	I-Material
+were	983	987	O
+typically	988	997	O
+225	998	1001	O
+nm	1001	1003	O
+high	1004	1008	O
+.	1008	1009	O
+
+Fig	1010	1013	O
+.	1013	1014	O
+
+1	1015	1016	O
+displays	1017	1025	O
+a	1026	1027	O
+scanning	1028	1036	B-Material
+electron	1037	1045	I-Material
+micrograph	1046	1056	I-Material
+of	1057	1059	O
+some	1060	1064	O
+typical	1065	1072	O
+stamp	1073	1078	O
+features	1079	1087	O
+.	1087	1088	O
 
 
 -DOCSTART- (S0167931713006904)
 
-Copper	NN	O	B-Task
-electro	NN	O	I-Task
--	NN	O	I-Task
-chemical	NN	O	I-Task
-deposition	NN	O	I-Task
-(	NN	O	I-Task
-ECD	NN	O	I-Task
-)	NN	O	I-Task
-of	NN	O	I-Task
-through	NN	O	I-Task
-silicon	NN	O	I-Task
-via	NN	O	I-Task
-(	NN	O	I-Task
-TSV	NN	O	I-Task
-)	NN	O	I-Task
-is	NN	O	O
-a	NN	O	O
-key	NN	O	O
-challenge	NN	O	O
-of	NN	O	O
-3D	NN	O	B-Task
-integration	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-presents	NN	O	O
-a	NN	O	O
-numerical	NN	O	B-Process
-modeling	NN	O	I-Process
-of	NN	O	I-Process
-TSV	NN	O	I-Process
-filling	NN	O	I-Process
-concerning	NN	O	O
-the	NN	O	O
-influence	NN	O	O
-of	NN	O	O
-the	NN	O	O
-accelerator	NN	O	B-Material
-and	NN	O	I-Material
-the	NN	O	I-Material
-suppressor	NN	O	I-Material
-.	NN	O	I-Material
-
-The	NN	O	O
-diffusion	NN	O	B-Process
-–	NN	O	I-Process
-adsorption	NN	O	I-Process
-model	NN	O	I-Process
-was	NN	O	O
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-simulation	NN	O	B-Process
-and	NN	O	I-Process
-effects	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-additives	NN	O	I-Process
-were	NN	O	O
-incorporated	NN	O	O
-in	NN	O	O
-the	NN	O	O
-model	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-boundary	NN	O	O
-conditions	NN	O	O
-were	NN	O	O
-derived	NN	O	O
-from	NN	O	O
-a	NN	O	O
-set	NN	O	B-Material
-of	NN	O	I-Material
-experimental	NN	O	I-Material
-Tafel	NN	O	I-Material
-curves	NN	O	I-Material
-with	NN	O	O
-different	NN	O	O
-concentrations	NN	O	O
-of	NN	O	O
-additives	NN	O	B-Material
-,	NN	O	O
-which	NN	O	O
-provided	NN	O	O
-a	NN	O	O
-quick	NN	O	O
-and	NN	O	O
-accurate	NN	O	O
-way	NN	O	O
-for	NN	O	O
-copper	NN	O	B-Process
-ECD	NN	O	I-Process
-process	NN	O	I-Process
-prediction	NN	O	I-Process
-without	NN	O	O
-complicated	NN	O	O
-surface	NN	O	O
-kinetic	NN	O	O
-parameters	NN	O	O
-fitting	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-level	NN	O	B-Process
-set	NN	O	I-Process
-method	NN	O	I-Process
-(	NN	O	O
-LSM	NN	O	B-Process
-)	NN	O	O
-was	NN	O	O
-employed	NN	O	O
-to	NN	O	O
-track	NN	O	B-Task
-the	NN	O	I-Task
-copper	NN	O	I-Task
-and	NN	O	I-Task
-electrolyte	NN	O	I-Task
-interface	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-simulation	NN	O	B-Process
-results	NN	O	O
-were	NN	O	O
-in	NN	O	O
-good	NN	O	O
-agreement	NN	O	O
-with	NN	O	O
-the	NN	O	O
-experiments	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-a	NN	O	O
-given	NN	O	O
-feature	NN	O	O
-size	NN	O	O
-,	NN	O	O
-the	NN	O	O
-current	NN	O	O
-density	NN	O	O
-for	NN	O	O
-superfilling	NN	O	B-Material
-could	NN	O	O
-be	NN	O	O
-predicted	NN	O	O
-,	NN	O	O
-which	NN	O	O
-provided	NN	O	O
-a	NN	O	O
-guideline	NN	O	O
-for	NN	O	O
-ECD	NN	O	B-Process
-process	NN	O	I-Process
-optimization	NN	O	I-Process
-.	NN	O	O
+Copper	0	6	B-Task
+electro	7	14	I-Task
+-	14	15	I-Task
+chemical	15	23	I-Task
+deposition	24	34	I-Task
+(	35	36	I-Task
+ECD	36	39	I-Task
+)	39	40	I-Task
+of	41	43	I-Task
+through	44	51	I-Task
+silicon	52	59	I-Task
+via	60	63	I-Task
+(	64	65	I-Task
+TSV	65	68	I-Task
+)	68	69	I-Task
+is	70	72	O
+a	73	74	O
+key	75	78	O
+challenge	79	88	O
+of	89	91	O
+3D	92	94	B-Task
+integration	95	106	I-Task
+.	106	107	O
+
+This	108	112	O
+paper	113	118	O
+presents	119	127	O
+a	128	129	O
+numerical	130	139	B-Process
+modeling	140	148	I-Process
+of	149	151	I-Process
+TSV	152	155	I-Process
+filling	156	163	I-Process
+concerning	164	174	O
+the	175	178	O
+influence	179	188	O
+of	189	191	O
+the	192	195	O
+accelerator	196	207	B-Material
+and	208	211	I-Material
+the	212	215	I-Material
+suppressor	216	226	I-Material
+.	226	227	I-Material
+
+The	228	231	O
+diffusion	232	241	B-Process
+–	241	242	I-Process
+adsorption	242	252	I-Process
+model	253	258	I-Process
+was	259	262	O
+used	263	267	O
+in	268	270	O
+the	271	274	O
+simulation	275	285	B-Process
+and	286	289	I-Process
+effects	290	297	I-Process
+of	298	300	I-Process
+the	301	304	I-Process
+additives	305	314	I-Process
+were	315	319	O
+incorporated	320	332	O
+in	333	335	O
+the	336	339	O
+model	340	345	O
+.	345	346	O
+
+The	347	350	O
+boundary	351	359	O
+conditions	360	370	O
+were	371	375	O
+derived	376	383	O
+from	384	388	O
+a	389	390	O
+set	391	394	B-Material
+of	395	397	I-Material
+experimental	398	410	I-Material
+Tafel	411	416	I-Material
+curves	417	423	I-Material
+with	424	428	O
+different	429	438	O
+concentrations	439	453	O
+of	454	456	O
+additives	457	466	B-Material
+,	466	467	O
+which	468	473	O
+provided	474	482	O
+a	483	484	O
+quick	485	490	O
+and	491	494	O
+accurate	495	503	O
+way	504	507	O
+for	508	511	O
+copper	512	518	B-Process
+ECD	519	522	I-Process
+process	523	530	I-Process
+prediction	531	541	I-Process
+without	542	549	O
+complicated	550	561	O
+surface	562	569	O
+kinetic	570	577	O
+parameters	578	588	O
+fitting	589	596	O
+.	596	597	O
+
+The	598	601	O
+level	602	607	B-Process
+set	608	611	I-Process
+method	612	618	I-Process
+(	619	620	O
+LSM	620	623	B-Process
+)	623	624	O
+was	625	628	O
+employed	629	637	O
+to	638	640	O
+track	641	646	B-Task
+the	647	650	I-Task
+copper	651	657	I-Task
+and	658	661	I-Task
+electrolyte	662	673	I-Task
+interface	674	683	I-Task
+.	683	684	O
+
+The	685	688	O
+simulation	689	699	B-Process
+results	700	707	O
+were	708	712	O
+in	713	715	O
+good	716	720	O
+agreement	721	730	O
+with	731	735	O
+the	736	739	O
+experiments	740	751	O
+.	751	752	O
+
+For	753	756	O
+a	757	758	O
+given	759	764	O
+feature	765	772	O
+size	773	777	O
+,	777	778	O
+the	779	782	O
+current	783	790	O
+density	791	798	O
+for	799	802	O
+superfilling	803	815	B-Material
+could	816	821	O
+be	822	824	O
+predicted	825	834	O
+,	834	835	O
+which	836	841	O
+provided	842	850	O
+a	851	852	O
+guideline	853	862	O
+for	863	866	O
+ECD	867	870	B-Process
+process	871	878	I-Process
+optimization	879	891	I-Process
+.	891	892	O
 
 
 -DOCSTART- (S0167931714000203)
 
-To	NN	O	O
-restrict	NN	O	B-Task
-pollen	NN	O	I-Task
-tube	NN	O	I-Task
-growth	NN	O	I-Task
-to	NN	O	I-Task
-a	NN	O	I-Task
-single	NN	O	I-Task
-focal	NN	O	I-Task
-plane	NN	O	I-Task
-is	NN	O	O
-an	NN	O	O
-important	NN	O	O
-subject	NN	O	O
-to	NN	O	O
-enable	NN	O	O
-their	NN	O	O
-accurate	NN	O	O
-growth	NN	O	B-Process
-analysis	NN	O	I-Process
-under	NN	O	I-Process
-microscopic	NN	O	I-Process
-observation	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-conventional	NN	O	O
-method	NN	O	O
-to	NN	O	O
-assay	NN	O	B-Process
-pollen	NN	O	I-Process
-tube	NN	O	I-Process
-growth	NN	O	I-Process
-,	NN	O	I-Process
-the	NN	O	O
-pollen	NN	O	B-Process
-tubes	NN	O	I-Process
-grow	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-disorderly	NN	O	O
-manner	NN	O	O
-on	NN	O	O
-solid	NN	O	O
-medium	NN	O	O
-,	NN	O	O
-rendering	NN	O	O
-it	NN	O	O
-impossible	NN	O	O
-to	NN	O	O
-observe	NN	O	B-Process
-their	NN	O	I-Process
-growth	NN	O	I-Process
-in	NN	O	I-Process
-detail	NN	O	I-Process
-.	NN	O	I-Process
-
-Here	NN	O	O
-,	NN	O	O
-we	NN	O	O
-present	NN	O	O
-a	NN	O	O
-new	NN	O	B-Task
-method	NN	O	I-Task
-to	NN	O	I-Task
-assay	NN	O	I-Task
-pollen	NN	O	I-Task
-tube	NN	O	I-Task
-growth	NN	O	I-Task
-using	NN	O	O
-poly	NN	O	B-Material
--	NN	O	I-Material
-dimethylsiloxane	NN	O	I-Material
-microchannel	NN	O	I-Material
-device	NN	O	I-Material
-to	NN	O	O
-isolate	NN	O	B-Process
-individual	NN	O	I-Process
-pollen	NN	O	I-Process
-tubes	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-growth	NN	O	O
-of	NN	O	O
-the	NN	O	O
-pollen	NN	O	B-Material
-tube	NN	O	I-Material
-is	NN	O	O
-confined	NN	O	O
-to	NN	O	O
-the	NN	O	O
-microchannel	NN	O	O
-and	NN	O	O
-to	NN	O	O
-the	NN	O	O
-same	NN	O	O
-focal	NN	O	O
-plane	NN	O	O
-,	NN	O	O
-allowing	NN	O	O
-accurate	NN	O	B-Task
-microscopic	NN	O	I-Task
-observations	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-methodology	NN	O	O
-has	NN	O	O
-the	NN	O	O
-potential	NN	O	O
-for	NN	O	O
-analyses	NN	O	B-Task
-of	NN	O	I-Task
-pollen	NN	O	I-Task
-tube	NN	O	I-Task
-growth	NN	O	I-Task
-in	NN	O	O
-microfluidic	NN	O	O
-environments	NN	O	O
-in	NN	O	O
-response	NN	O	O
-to	NN	O	O
-chemical	NN	O	B-Material
-products	NN	O	I-Material
-and	NN	O	O
-signaling	NN	O	B-Material
-molecules	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-paves	NN	O	O
-the	NN	O	O
-way	NN	O	O
-for	NN	O	O
-various	NN	O	O
-experiments	NN	O	B-Task
-on	NN	O	I-Task
-plant	NN	O	I-Task
-reproduction	NN	O	I-Task
-.	NN	O	O
+To	0	2	O
+restrict	3	11	B-Task
+pollen	12	18	I-Task
+tube	19	23	I-Task
+growth	24	30	I-Task
+to	31	33	I-Task
+a	34	35	I-Task
+single	36	42	I-Task
+focal	43	48	I-Task
+plane	49	54	I-Task
+is	55	57	O
+an	58	60	O
+important	61	70	O
+subject	71	78	O
+to	79	81	O
+enable	82	88	O
+their	89	94	O
+accurate	95	103	O
+growth	104	110	B-Process
+analysis	111	119	I-Process
+under	120	125	I-Process
+microscopic	126	137	I-Process
+observation	138	149	I-Process
+.	149	150	O
+
+In	151	153	O
+the	154	157	O
+conventional	158	170	O
+method	171	177	O
+to	178	180	O
+assay	181	186	B-Process
+pollen	187	193	I-Process
+tube	194	198	I-Process
+growth	199	205	I-Process
+,	205	206	I-Process
+the	207	210	O
+pollen	211	217	B-Process
+tubes	218	223	I-Process
+grow	224	228	I-Process
+in	229	231	O
+a	232	233	O
+disorderly	234	244	O
+manner	245	251	O
+on	252	254	O
+solid	255	260	O
+medium	261	267	O
+,	267	268	O
+rendering	269	278	O
+it	279	281	O
+impossible	282	292	O
+to	293	295	O
+observe	296	303	B-Process
+their	304	309	I-Process
+growth	310	316	I-Process
+in	317	319	I-Process
+detail	320	326	I-Process
+.	326	327	I-Process
+
+Here	328	332	O
+,	332	333	O
+we	334	336	O
+present	337	344	O
+a	345	346	O
+new	347	350	B-Task
+method	351	357	I-Task
+to	358	360	I-Task
+assay	361	366	I-Task
+pollen	367	373	I-Task
+tube	374	378	I-Task
+growth	379	385	I-Task
+using	386	391	O
+poly	392	396	B-Material
+-	396	397	I-Material
+dimethylsiloxane	397	413	I-Material
+microchannel	414	426	I-Material
+device	427	433	I-Material
+to	434	436	O
+isolate	437	444	B-Process
+individual	445	455	I-Process
+pollen	456	462	I-Process
+tubes	463	468	I-Process
+.	468	469	O
+
+The	470	473	O
+growth	474	480	O
+of	481	483	O
+the	484	487	O
+pollen	488	494	B-Material
+tube	495	499	I-Material
+is	500	502	O
+confined	503	511	O
+to	512	514	O
+the	515	518	O
+microchannel	519	531	O
+and	532	535	O
+to	536	538	O
+the	539	542	O
+same	543	547	O
+focal	548	553	O
+plane	554	559	O
+,	559	560	O
+allowing	561	569	O
+accurate	570	578	B-Task
+microscopic	579	590	I-Task
+observations	591	603	I-Task
+.	603	604	O
+
+This	605	609	O
+methodology	610	621	O
+has	622	625	O
+the	626	629	O
+potential	630	639	O
+for	640	643	O
+analyses	644	652	B-Task
+of	653	655	I-Task
+pollen	656	662	I-Task
+tube	663	667	I-Task
+growth	668	674	I-Task
+in	675	677	O
+microfluidic	678	690	O
+environments	691	703	O
+in	704	706	O
+response	707	715	O
+to	716	718	O
+chemical	719	727	B-Material
+products	728	736	I-Material
+and	737	740	O
+signaling	741	750	B-Material
+molecules	751	760	I-Material
+,	760	761	O
+which	762	767	O
+paves	768	773	O
+the	774	777	O
+way	778	781	O
+for	782	785	O
+various	786	793	O
+experiments	794	805	B-Task
+on	806	808	I-Task
+plant	809	814	I-Task
+reproduction	815	827	I-Task
+.	827	828	O
 
 
 -DOCSTART- (S0167931714003347)
 
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-study	NN	O	B-Task
-the	NN	O	I-Task
-mechanical	NN	O	I-Task
-behavior	NN	O	I-Task
-of	NN	O	O
-metal	NN	O	B-Material
-films	NN	O	I-Material
-on	NN	O	O
-compliant	NN	O	O
-polymer	NN	O	B-Material
-substrates	NN	O	I-Material
-,	NN	O	O
-fragmentation	NN	O	B-Process
-testing	NN	O	I-Process
-is	NN	O	O
-often	NN	O	O
-employed	NN	O	O
-[	NN	O	O
-8–12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-During	NN	O	O
-fragmentation	NN	O	B-Process
-testing	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
--	NN	O	I-Material
-substrate	NN	O	I-Material
-couple	NN	O	I-Material
-is	NN	O	O
-strained	NN	O	B-Process
-under	NN	O	I-Process
-uni	NN	O	I-Process
--	NN	O	I-Process
-axial	NN	O	I-Process
-tension	NN	O	I-Process
-and	NN	O	O
-observed	NN	O	O
-with	NN	O	O
-light	NN	O	B-Process
-microscopy	NN	O	I-Process
-(	NN	O	O
-LM	NN	O	B-Process
-)	NN	O	O
-or	NN	O	O
-scanning	NN	O	B-Process
-electron	NN	O	I-Process
-microscopy	NN	O	I-Process
-(	NN	O	O
-SEM	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
-
-Brittle	NN	O	B-Material
-metals	NN	O	I-Material
-or	NN	O	O
-ceramic	NN	O	B-Material
-films	NN	O	I-Material
-fracture	NN	O	B-Process
-,	NN	O	O
-forming	NN	O	O
-through	NN	O	O
-thickness	NN	O	O
-cracks	NN	O	O
-(	NN	O	O
-channel	NN	O	O
-cracks	NN	O	O
-)	NN	O	O
-at	NN	O	O
-low	NN	O	O
-strain	NN	O	O
-perpendicular	NN	O	O
-to	NN	O	O
-the	NN	O	O
-straining	NN	O	O
-direction	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-ductile	NN	O	O
-metal	NN	O	B-Material
-films	NN	O	I-Material
-will	NN	O	O
-first	NN	O	O
-deform	NN	O	B-Process
-locally	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-form	NN	O	O
-of	NN	O	O
-necks	NN	O	O
-at	NN	O	O
-low	NN	O	O
-strains	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1a	NN	O	O
-)	NN	O	O
-and	NN	O	O
-with	NN	O	O
-increased	NN	O	O
-strain	NN	O	B-Process
-through	NN	O	O
-thickness	NN	O	O
-cracks	NN	O	O
-(	NN	O	O
-TTC	NN	O	O
-)	NN	O	O
-can	NN	O	O
-evolve	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1b	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Fragmentation	NN	O	B-Process
-testing	NN	O	I-Process
-is	NN	O	O
-best	NN	O	O
-performed	NN	O	B-Task
-in	NN	O	I-Task
--	NN	O	I-Task
-situ	NN	O	I-Task
-with	NN	O	I-Task
-LM	NN	O	I-Task
-or	NN	O	I-Task
-SEM	NN	O	I-Task
-so	NN	O	O
-that	NN	O	O
-the	NN	O	O
-strain	NN	O	O
-when	NN	O	O
-the	NN	O	O
-first	NN	O	O
-crack	NN	O	O
-forms	NN	O	O
-can	NN	O	O
-be	NN	O	O
-observed	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-initial	NN	O	O
-fracture	NN	O	B-Process
-strain	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-,	NN	O	O
-also	NN	O	O
-known	NN	O	O
-as	NN	O	O
-the	NN	O	O
-crack	NN	O	O
-onset	NN	O	O
-strain	NN	O	O
-,	NN	O	O
-can	NN	O	O
-then	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-the	NN	O	O
-interfacial	NN	O	O
-fracture	NN	O	O
-shear	NN	O	B-Process
-stress	NN	O	I-Process
-with	NN	O	O
-knowledge	NN	O	O
-of	NN	O	O
-the	NN	O	O
-crack	NN	O	O
-spacing	NN	O	O
-at	NN	O	O
-saturation	NN	O	O
-,	NN	O	O
-λ	NN	O	O
-,	NN	O	O
-film	NN	O	B-Material
-thickness	NN	O	O
-,	NN	O	O
-h	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-fracture	NN	O	O
-stress	NN	O	O
-,	NN	O	O
-σf	NN	O	B-Process
-=	NN	O	I-Process
-Efilmεf	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-εf	NN	O	O
-is	NN	O	O
-the	NN	O	O
-fracture	NN	O	B-Process
-strain	NN	O	I-Process
-,	NN	O	O
-using	NN	O	O
-the	NN	O	O
-shear	NN	O	B-Process
-lag	NN	O	I-Process
-model	NN	O	I-Process
-[	NN	O	O
-8,13,14	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
--	NN	O	O
-situ	NN	O	O
-fragmentation	NN	O	O
-testing	NN	O	O
-with	NN	O	O
-LM	NN	O	B-Process
-or	NN	O	O
-SEM	NN	O	B-Process
-allows	NN	O	O
-for	NN	O	O
-the	NN	O	O
-crack	NN	O	B-Process
-spacing	NN	O	I-Process
-evolution	NN	O	I-Process
-to	NN	O	O
-be	NN	O	O
-observed	NN	O	O
-as	NN	O	O
-a	NN	O	O
-function	NN	O	B-Process
-of	NN	O	I-Process
-applied	NN	O	I-Process
-strain	NN	O	I-Process
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1c	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Under	NN	O	O
-tensile	NN	O	B-Process
-straining	NN	O	I-Process
-conditions	NN	O	O
-,	NN	O	O
-a	NN	O	O
-brittle	NN	O	B-Material
-film	NN	O	I-Material
-will	NN	O	O
-initially	NN	O	O
-fracture	NN	O	B-Process
-at	NN	O	O
-very	NN	O	O
-low	NN	O	O
-strains	NN	O	O
-(	NN	O	O
-<	NN	O	O
-1	NN	O	O
-%	NN	O	O
-)	NN	O	O
-and	NN	O	O
-then	NN	O	O
-with	NN	O	O
-further	NN	O	O
-strain	NN	O	O
-continue	NN	O	O
-to	NN	O	O
-form	NN	O	B-Process
-cracks	NN	O	I-Process
-until	NN	O	O
-the	NN	O	O
-saturation	NN	O	O
-crack	NN	O	O
-spacing	NN	O	O
-is	NN	O	O
-reached	NN	O	O
-.	NN	O	O
-
-After	NN	O	O
-the	NN	O	O
-saturation	NN	O	O
-spacing	NN	O	O
-has	NN	O	O
-been	NN	O	O
-reached	NN	O	O
-,	NN	O	O
-cracks	NN	O	O
-can	NN	O	O
-no	NN	O	O
-longer	NN	O	O
-form	NN	O	O
-between	NN	O	O
-existing	NN	O	O
-crack	NN	O	O
-fragments	NN	O	O
-and	NN	O	O
-the	NN	O	O
-film	NN	O	O
-could	NN	O	O
-delaminate	NN	O	B-Process
-via	NN	O	O
-buckling	NN	O	B-Process
-.	NN	O	O
+In	0	2	O
+order	3	8	O
+to	9	11	O
+study	12	17	B-Task
+the	18	21	I-Task
+mechanical	22	32	I-Task
+behavior	33	41	I-Task
+of	42	44	O
+metal	45	50	B-Material
+films	51	56	I-Material
+on	57	59	O
+compliant	60	69	O
+polymer	70	77	B-Material
+substrates	78	88	I-Material
+,	88	89	O
+fragmentation	90	103	B-Process
+testing	104	111	I-Process
+is	112	114	O
+often	115	120	O
+employed	121	129	O
+[	130	131	O
+8–12	131	135	O
+]	135	136	O
+.	136	137	O
+
+During	138	144	O
+fragmentation	145	158	B-Process
+testing	159	166	I-Process
+,	166	167	O
+the	168	171	O
+film	172	176	B-Material
+-	176	177	I-Material
+substrate	177	186	I-Material
+couple	187	193	I-Material
+is	194	196	O
+strained	197	205	B-Process
+under	206	211	I-Process
+uni	212	215	I-Process
+-	215	216	I-Process
+axial	216	221	I-Process
+tension	222	229	I-Process
+and	230	233	O
+observed	234	242	O
+with	243	247	O
+light	248	253	B-Process
+microscopy	254	264	I-Process
+(	265	266	O
+LM	266	268	B-Process
+)	268	269	O
+or	270	272	O
+scanning	273	281	B-Process
+electron	282	290	I-Process
+microscopy	291	301	I-Process
+(	302	303	O
+SEM	303	306	B-Process
+)	306	307	O
+.	307	308	O
+
+Brittle	309	316	B-Material
+metals	317	323	I-Material
+or	324	326	O
+ceramic	327	334	B-Material
+films	335	340	I-Material
+fracture	341	349	B-Process
+,	349	350	O
+forming	351	358	O
+through	359	366	O
+thickness	367	376	O
+cracks	377	383	O
+(	384	385	O
+channel	385	392	O
+cracks	393	399	O
+)	399	400	O
+at	401	403	O
+low	404	407	O
+strain	408	414	O
+perpendicular	415	428	O
+to	429	431	O
+the	432	435	O
+straining	436	445	O
+direction	446	455	O
+.	455	456	O
+
+On	457	459	O
+the	460	463	O
+other	464	469	O
+hand	470	474	O
+,	474	475	O
+ductile	476	483	O
+metal	484	489	B-Material
+films	490	495	I-Material
+will	496	500	O
+first	501	506	O
+deform	507	513	B-Process
+locally	514	521	I-Process
+in	522	524	O
+the	525	528	O
+form	529	533	O
+of	534	536	O
+necks	537	542	O
+at	543	545	O
+low	546	549	O
+strains	550	557	O
+(	558	559	O
+Fig	559	562	O
+.	562	563	O
+
+1a	564	566	O
+)	566	567	O
+and	568	571	O
+with	572	576	O
+increased	577	586	O
+strain	587	593	B-Process
+through	594	601	O
+thickness	602	611	O
+cracks	612	618	O
+(	619	620	O
+TTC	620	623	O
+)	623	624	O
+can	625	628	O
+evolve	629	635	O
+(	636	637	O
+Fig	637	640	O
+.	640	641	O
+
+1b	642	644	O
+)	644	645	O
+.	645	646	O
+
+Fragmentation	647	660	B-Process
+testing	661	668	I-Process
+is	669	671	O
+best	672	676	O
+performed	677	686	B-Task
+in	687	689	I-Task
+-	689	690	I-Task
+situ	690	694	I-Task
+with	695	699	I-Task
+LM	700	702	I-Task
+or	703	705	I-Task
+SEM	706	709	I-Task
+so	710	712	O
+that	713	717	O
+the	718	721	O
+strain	722	728	O
+when	729	733	O
+the	734	737	O
+first	738	743	O
+crack	744	749	O
+forms	750	755	O
+can	756	759	O
+be	760	762	O
+observed	763	771	O
+.	771	772	O
+
+The	773	776	O
+initial	777	784	O
+fracture	785	793	B-Process
+strain	794	800	I-Process
+of	801	803	O
+the	804	807	O
+film	808	812	B-Material
+,	812	813	O
+also	814	818	O
+known	819	824	O
+as	825	827	O
+the	828	831	O
+crack	832	837	O
+onset	838	843	O
+strain	844	850	O
+,	850	851	O
+can	852	855	O
+then	856	860	O
+be	861	863	O
+used	864	868	O
+to	869	871	O
+determine	872	881	O
+the	882	885	O
+interfacial	886	897	O
+fracture	898	906	O
+shear	907	912	B-Process
+stress	913	919	I-Process
+with	920	924	O
+knowledge	925	934	O
+of	935	937	O
+the	938	941	O
+crack	942	947	O
+spacing	948	955	O
+at	956	958	O
+saturation	959	969	O
+,	969	970	O
+λ	971	972	O
+,	972	973	O
+film	974	978	B-Material
+thickness	979	988	O
+,	988	989	O
+h	990	991	O
+,	991	992	O
+and	993	996	O
+the	997	1000	O
+fracture	1001	1009	O
+stress	1010	1016	O
+,	1016	1017	O
+σf	1018	1020	B-Process
+=	1020	1021	I-Process
+Efilmεf	1021	1028	I-Process
+,	1028	1029	O
+where	1030	1035	O
+εf	1036	1038	O
+is	1039	1041	O
+the	1042	1045	O
+fracture	1046	1054	B-Process
+strain	1055	1061	I-Process
+,	1061	1062	O
+using	1063	1068	O
+the	1069	1072	O
+shear	1073	1078	B-Process
+lag	1079	1082	I-Process
+model	1083	1088	I-Process
+[	1089	1090	O
+8,13,14	1090	1097	O
+]	1097	1098	O
+.	1098	1099	O
+
+In	1100	1102	O
+-	1102	1103	O
+situ	1103	1107	O
+fragmentation	1108	1121	O
+testing	1122	1129	O
+with	1130	1134	O
+LM	1135	1137	B-Process
+or	1138	1140	O
+SEM	1141	1144	B-Process
+allows	1145	1151	O
+for	1152	1155	O
+the	1156	1159	O
+crack	1160	1165	B-Process
+spacing	1166	1173	I-Process
+evolution	1174	1183	I-Process
+to	1184	1186	O
+be	1187	1189	O
+observed	1190	1198	O
+as	1199	1201	O
+a	1202	1203	O
+function	1204	1212	B-Process
+of	1213	1215	I-Process
+applied	1216	1223	I-Process
+strain	1224	1230	I-Process
+(	1231	1232	O
+Fig	1232	1235	O
+.	1235	1236	O
+
+1c	1237	1239	O
+)	1239	1240	O
+.	1240	1241	O
+
+Under	1242	1247	O
+tensile	1248	1255	B-Process
+straining	1256	1265	I-Process
+conditions	1266	1276	O
+,	1276	1277	O
+a	1278	1279	O
+brittle	1280	1287	B-Material
+film	1288	1292	I-Material
+will	1293	1297	O
+initially	1298	1307	O
+fracture	1308	1316	B-Process
+at	1317	1319	O
+very	1320	1324	O
+low	1325	1328	O
+strains	1329	1336	O
+(	1337	1338	O
+<	1338	1339	O
+1	1339	1340	O
+%	1340	1341	O
+)	1341	1342	O
+and	1343	1346	O
+then	1347	1351	O
+with	1352	1356	O
+further	1357	1364	O
+strain	1365	1371	O
+continue	1372	1380	O
+to	1381	1383	O
+form	1384	1388	B-Process
+cracks	1389	1395	I-Process
+until	1396	1401	O
+the	1402	1405	O
+saturation	1406	1416	O
+crack	1417	1422	O
+spacing	1423	1430	O
+is	1431	1433	O
+reached	1434	1441	O
+.	1441	1442	O
+
+After	1443	1448	O
+the	1449	1452	O
+saturation	1453	1463	O
+spacing	1464	1471	O
+has	1472	1475	O
+been	1476	1480	O
+reached	1481	1488	O
+,	1488	1489	O
+cracks	1490	1496	O
+can	1497	1500	O
+no	1501	1503	O
+longer	1504	1510	O
+form	1511	1515	O
+between	1516	1523	O
+existing	1524	1532	O
+crack	1533	1538	O
+fragments	1539	1548	O
+and	1549	1552	O
+the	1553	1556	O
+film	1557	1561	O
+could	1562	1567	O
+delaminate	1568	1578	B-Process
+via	1579	1582	O
+buckling	1583	1591	B-Process
+.	1591	1592	O
 
 
 -DOCSTART- (S0167931714004456)
 
-PDMS	NN	O	B-Material
-(	NN	O	O
-Polydimethylsiloxane	NN	O	B-Material
-)	NN	O	O
-has	NN	O	O
-become	NN	O	O
-by	NN	O	O
-far	NN	O	O
-the	NN	O	O
-most	NN	O	O
-popular	NN	O	O
-material	NN	O	O
-in	NN	O	O
-the	NN	O	O
-academic	NN	O	O
-microfluidics	NN	O	B-Material
-community	NN	O	O
-because	NN	O	O
-it	NN	O	O
-is	NN	O	O
-inexpensive	NN	O	O
-,	NN	O	O
-easy	NN	O	O
-to	NN	O	O
-fabricate	NN	O	B-Task
-by	NN	O	O
-replication	NN	O	B-Process
-of	NN	O	I-Process
-molds	NN	O	I-Process
-made	NN	O	O
-using	NN	O	O
-rapid	NN	O	B-Process
-prototyping	NN	O	I-Process
-or	NN	O	O
-other	NN	O	O
-techniques	NN	O	O
-,	NN	O	O
-flexible	NN	O	O
-,	NN	O	O
-optically	NN	O	O
-transparent	NN	O	O
-,	NN	O	O
-biocompatible	NN	O	O
-and	NN	O	O
-its	NN	O	O
-fabrication	NN	O	O
-does	NN	O	O
-not	NN	O	O
-require	NN	O	O
-high	NN	O	O
-capital	NN	O	O
-investment	NN	O	O
-and	NN	O	O
-cleanroom	NN	O	O
-conditions	NN	O	O
-.	NN	O	O
-
-Various	NN	O	O
-techniques	NN	O	O
-have	NN	O	O
-been	NN	O	O
-adapted	NN	O	O
-to	NN	O	O
-fabricate	NN	O	B-Task
-microfluidic	NN	O	I-Task
-structures	NN	O	I-Task
-in	NN	O	O
-PDMS	NN	O	B-Material
-,	NN	O	O
-including	NN	O	O
-wet	NN	O	B-Process
-and	NN	O	I-Process
-dry	NN	O	I-Process
-etching	NN	O	I-Process
-[	NN	O	O
-20–22	NN	O	O
-]	NN	O	O
-,	NN	O	O
-photolithographic	NN	O	B-Process
-patterning	NN	O	I-Process
-of	NN	O	O
-a	NN	O	O
-photosensitive	NN	O	O
-
-PDMS	NN	O	B-Material
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-laser	NN	O	B-Process
-ablation	NN	O	I-Process
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-But	NN	O	O
-,	NN	O	O
-it	NN	O	O
-was	NN	O	O
-the	NN	O	O
-“	NN	O	B-Process
-soft	NN	O	I-Process
--	NN	O	I-Process
-lithography	NN	O	I-Process
-”	NN	O	I-Process
-techniques	NN	O	I-Process
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-introduced	NN	O	O
-by	NN	O	O
-Whitesides	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-that	NN	O	O
-enabled	NN	O	O
-the	NN	O	O
-widespread	NN	O	O
-use	NN	O	O
-of	NN	O	O
-PDMS	NN	O	B-Material
-and	NN	O	O
-opened	NN	O	O
-up	NN	O	O
-the	NN	O	O
-era	NN	O	O
-of	NN	O	O
-PDMS	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-microfluidics	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-late	NN	O	O
-1990s	NN	O	O
-.	NN	O	O
-
-Replica	NN	O	B-Process
-molding	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-the	NN	O	O
-casting	NN	O	B-Process
-of	NN	O	I-Process
-prepolymer	NN	O	I-Process
-against	NN	O	I-Process
-a	NN	O	I-Process
-master	NN	O	I-Process
-and	NN	O	I-Process
-generating	NN	O	I-Process
-a	NN	O	I-Process
-replica	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-master	NN	O	I-Process
-in	NN	O	I-Process
-PDMS	NN	O	I-Process
-,	NN	O	O
-has	NN	O	O
-become	NN	O	O
-a	NN	O	O
-standard	NN	O	O
-fabrication	NN	O	B-Process
-technique	NN	O	I-Process
-available	NN	O	O
-in	NN	O	O
-almost	NN	O	O
-every	NN	O	O
-research	NN	O	O
-laboratory	NN	O	O
-.	NN	O	O
-
-Detailed	NN	O	O
-overviews	NN	O	O
-of	NN	O	O
-soft	NN	O	B-Process
--	NN	O	I-Process
-lithography	NN	O	I-Process
-techniques	NN	O	I-Process
-and	NN	O	O
-their	NN	O	O
-applications	NN	O	O
-can	NN	O	O
-be	NN	O	O
-found	NN	O	O
-from	NN	O	O
-the	NN	O	O
-reviews	NN	O	O
-by	NN	O	O
-McDonald	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-26	NN	O	O
-]	NN	O	O
-and	NN	O	O
-Sia	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Nowadays	NN	O	O
-,	NN	O	O
-many	NN	O	O
-tools	NN	O	O
-dedicated	NN	O	O
-for	NN	O	O
-this	NN	O	O
-purpose	NN	O	O
-are	NN	O	O
-available	NN	O	O
-and	NN	O	O
-can	NN	O	O
-be	NN	O	O
-purchased	NN	O	O
-as	NN	O	O
-a	NN	O	O
-complete	NN	O	O
-set	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-SoftLithoBox	NN	O	B-Material
-®	NN	O	I-Material
-provided	NN	O	O
-by	NN	O	O
-Elveflow	NN	O	O
-(	NN	O	O
-USA	NN	O	O
-)	NN	O	O
-[	NN	O	O
-28	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-companies	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-FlowJEM	NN	O	O
-(	NN	O	O
-Canada	NN	O	O
-)	NN	O	O
-[	NN	O	O
-29	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Microfluidic	NN	O	O
-Innovations	NN	O	O
-(	NN	O	O
-USA	NN	O	O
-)	NN	O	O
-[	NN	O	O
-30	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-Scientific	NN	O	O
-Device	NN	O	O
-Laboratory	NN	O	O
-(	NN	O	O
-USA	NN	O	O
-)	NN	O	O
-[	NN	O	O
-31	NN	O	O
-]	NN	O	O
-provide	NN	O	O
-rapid	NN	O	B-Process
-prototyping	NN	O	I-Process
-service	NN	O	I-Process
-for	NN	O	O
-PDMS	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-LOC	NN	O	I-Material
-devices	NN	O	I-Material
-.	NN	O	O
+PDMS	0	4	B-Material
+(	5	6	O
+Polydimethylsiloxane	6	26	B-Material
+)	26	27	O
+has	28	31	O
+become	32	38	O
+by	39	41	O
+far	42	45	O
+the	46	49	O
+most	50	54	O
+popular	55	62	O
+material	63	71	O
+in	72	74	O
+the	75	78	O
+academic	79	87	O
+microfluidics	88	101	B-Material
+community	102	111	O
+because	112	119	O
+it	120	122	O
+is	123	125	O
+inexpensive	126	137	O
+,	137	138	O
+easy	139	143	O
+to	144	146	O
+fabricate	147	156	B-Task
+by	157	159	O
+replication	160	171	B-Process
+of	172	174	I-Process
+molds	175	180	I-Process
+made	181	185	O
+using	186	191	O
+rapid	192	197	B-Process
+prototyping	198	209	I-Process
+or	210	212	O
+other	213	218	O
+techniques	219	229	O
+,	229	230	O
+flexible	231	239	O
+,	239	240	O
+optically	241	250	O
+transparent	251	262	O
+,	262	263	O
+biocompatible	264	277	O
+and	278	281	O
+its	282	285	O
+fabrication	286	297	O
+does	298	302	O
+not	303	306	O
+require	307	314	O
+high	315	319	O
+capital	320	327	O
+investment	328	338	O
+and	339	342	O
+cleanroom	343	352	O
+conditions	353	363	O
+.	363	364	O
+
+Various	365	372	O
+techniques	373	383	O
+have	384	388	O
+been	389	393	O
+adapted	394	401	O
+to	402	404	O
+fabricate	405	414	B-Task
+microfluidic	415	427	I-Task
+structures	428	438	I-Task
+in	439	441	O
+PDMS	442	446	B-Material
+,	446	447	O
+including	448	457	O
+wet	458	461	B-Process
+and	462	465	I-Process
+dry	466	469	I-Process
+etching	470	477	I-Process
+[	478	479	O
+20–22	479	484	O
+]	484	485	O
+,	485	486	O
+photolithographic	487	504	B-Process
+patterning	505	515	I-Process
+of	516	518	O
+a	519	520	O
+photosensitive	521	535	O
+
+PDMS	536	540	B-Material
+[	541	542	O
+23	542	544	O
+]	544	545	O
+,	545	546	O
+and	547	550	O
+laser	551	556	B-Process
+ablation	557	565	I-Process
+[	566	567	O
+24	567	569	O
+]	569	570	O
+.	570	571	O
+
+But	572	575	O
+,	575	576	O
+it	577	579	O
+was	580	583	O
+the	584	587	O
+“	588	589	B-Process
+soft	589	593	I-Process
+-	593	594	I-Process
+lithography	594	605	I-Process
+”	605	606	I-Process
+techniques	607	617	I-Process
+[	618	619	O
+25	619	621	O
+]	621	622	O
+introduced	623	633	O
+by	634	636	O
+Whitesides	637	647	O
+et	648	650	O
+al	651	653	O
+.	653	654	O
+
+that	655	659	O
+enabled	660	667	O
+the	668	671	O
+widespread	672	682	O
+use	683	686	O
+of	687	689	O
+PDMS	690	694	B-Material
+and	695	698	O
+opened	699	705	O
+up	706	708	O
+the	709	712	O
+era	713	716	O
+of	717	719	O
+PDMS	720	724	B-Process
+-	724	725	I-Process
+based	725	730	I-Process
+microfluidics	731	744	I-Process
+in	745	747	O
+the	748	751	O
+late	752	756	O
+1990s	757	762	O
+.	762	763	O
+
+Replica	764	771	B-Process
+molding	772	779	I-Process
+,	779	780	O
+which	781	786	O
+is	787	789	O
+the	790	793	O
+casting	794	801	B-Process
+of	802	804	I-Process
+prepolymer	805	815	I-Process
+against	816	823	I-Process
+a	824	825	I-Process
+master	826	832	I-Process
+and	833	836	I-Process
+generating	837	847	I-Process
+a	848	849	I-Process
+replica	850	857	I-Process
+of	858	860	I-Process
+the	861	864	I-Process
+master	865	871	I-Process
+in	872	874	I-Process
+PDMS	875	879	I-Process
+,	879	880	O
+has	881	884	O
+become	885	891	O
+a	892	893	O
+standard	894	902	O
+fabrication	903	914	B-Process
+technique	915	924	I-Process
+available	925	934	O
+in	935	937	O
+almost	938	944	O
+every	945	950	O
+research	951	959	O
+laboratory	960	970	O
+.	970	971	O
+
+Detailed	972	980	O
+overviews	981	990	O
+of	991	993	O
+soft	994	998	B-Process
+-	998	999	I-Process
+lithography	999	1010	I-Process
+techniques	1011	1021	I-Process
+and	1022	1025	O
+their	1026	1031	O
+applications	1032	1044	O
+can	1045	1048	O
+be	1049	1051	O
+found	1052	1057	O
+from	1058	1062	O
+the	1063	1066	O
+reviews	1067	1074	O
+by	1075	1077	O
+McDonald	1078	1086	O
+et	1087	1089	O
+al	1090	1092	O
+.	1092	1093	O
+
+[	1094	1095	O
+26	1095	1097	O
+]	1097	1098	O
+and	1099	1102	O
+Sia	1103	1106	O
+et	1107	1109	O
+al	1110	1112	O
+.	1112	1113	O
+
+[	1114	1115	O
+27	1115	1117	O
+]	1117	1118	O
+.	1118	1119	O
+
+Nowadays	1120	1128	O
+,	1128	1129	O
+many	1130	1134	O
+tools	1135	1140	O
+dedicated	1141	1150	O
+for	1151	1154	O
+this	1155	1159	O
+purpose	1160	1167	O
+are	1168	1171	O
+available	1172	1181	O
+and	1182	1185	O
+can	1186	1189	O
+be	1190	1192	O
+purchased	1193	1202	O
+as	1203	1205	O
+a	1206	1207	O
+complete	1208	1216	O
+set	1217	1220	O
+(	1221	1222	O
+e.g.	1222	1226	O
+SoftLithoBox	1227	1239	B-Material
+®	1239	1240	I-Material
+provided	1241	1249	O
+by	1250	1252	O
+Elveflow	1253	1261	O
+(	1262	1263	O
+USA	1263	1266	O
+)	1266	1267	O
+[	1268	1269	O
+28	1269	1271	O
+]	1271	1272	O
+)	1272	1273	O
+.	1273	1274	O
+
+Moreover	1275	1283	O
+,	1283	1284	O
+companies	1285	1294	O
+,	1294	1295	O
+such	1296	1300	O
+as	1301	1303	O
+FlowJEM	1304	1311	O
+(	1312	1313	O
+Canada	1313	1319	O
+)	1319	1320	O
+[	1321	1322	O
+29	1322	1324	O
+]	1324	1325	O
+,	1325	1326	O
+Microfluidic	1327	1339	O
+Innovations	1340	1351	O
+(	1352	1353	O
+USA	1353	1356	O
+)	1356	1357	O
+[	1358	1359	O
+30	1359	1361	O
+]	1361	1362	O
+,	1362	1363	O
+and	1364	1367	O
+Scientific	1368	1378	O
+Device	1379	1385	O
+Laboratory	1386	1396	O
+(	1397	1398	O
+USA	1398	1401	O
+)	1401	1402	O
+[	1403	1404	O
+31	1404	1406	O
+]	1406	1407	O
+provide	1408	1415	O
+rapid	1416	1421	B-Process
+prototyping	1422	1433	I-Process
+service	1434	1441	I-Process
+for	1442	1445	O
+PDMS	1446	1450	B-Material
+-	1450	1451	I-Material
+based	1451	1456	I-Material
+LOC	1457	1460	I-Material
+devices	1461	1468	I-Material
+.	1468	1469	O
 
 
 -DOCSTART- (S0168365912006207)
 
-Unlike	NN	O	O
-conventional	NN	O	O
-materials	NN	O	O
-used	NN	O	O
-in	NN	O	O
-nerve	NN	O	O
-tissue	NN	O	O
-engineering	NN	O	O
-,	NN	O	O
-PAs	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-directly	NN	O	O
-injected	NN	O	B-Process
-in	NN	O	I-Process
-vivo	NN	O	I-Process
-into	NN	O	I-Process
-models	NN	O	I-Process
-and	NN	O	I-Process
-spontaneously	NN	O	I-Process
-self	NN	O	I-Process
--	NN	O	I-Process
-assemble	NN	O	I-Process
-into	NN	O	I-Process
-nanofibers	NN	O	I-Process
-in	NN	O	I-Process
-aqueous	NN	O	I-Process
-solutions	NN	O	I-Process
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-PAs	NN	O	B-Material
-can	NN	O	O
-function	NN	O	O
-as	NN	O	O
-biomimetic	NN	O	B-Material
-materials	NN	O	I-Material
-exemplified	NN	O	O
-by	NN	O	O
-collagen	NN	O	B-Material
--	NN	O	I-Material
-mimetic	NN	O	I-Material
-PAs	NN	O	I-Material
-[	NN	O	O
-92	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Conventional	NN	O	O
-materials	NN	O	O
-often	NN	O	O
-rely	NN	O	O
-on	NN	O	O
-electrospinning	NN	O	B-Process
-as	NN	O	O
-a	NN	O	B-Process
-manufacturing	NN	O	I-Process
-method	NN	O	I-Process
-to	NN	O	O
-achieve	NN	O	B-Task
-fiber	NN	O	I-Task
--	NN	O	I-Task
-like	NN	O	I-Task
-structures	NN	O	I-Task
-suitable	NN	O	O
-for	NN	O	O
-use	NN	O	O
-in	NN	O	O
-nerve	NN	O	O
-regeneration	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-self	NN	O	O
--	NN	O	O
-assembly	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-PAs	NN	O	B-Material
-allows	NN	O	O
-them	NN	O	O
-to	NN	O	O
-circumvent	NN	O	O
-costly	NN	O	B-Process
-manufacturing	NN	O	I-Process
-methods	NN	O	I-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-in	NN	O	O
-contrast	NN	O	O
-to	NN	O	O
-conventional	NN	O	B-Process
-manufacturing	NN	O	I-Process
-methods	NN	O	I-Process
-like	NN	O	O
-electrospinning	NN	O	B-Process
-where	NN	O	O
-quality	NN	O	O
-and	NN	O	O
-batch	NN	O	O
--	NN	O	O
-to	NN	O	O
--	NN	O	O
-batch	NN	O	O
-variability	NN	O	O
-can	NN	O	O
-be	NN	O	O
-tightly	NN	O	O
-controlled	NN	O	O
-,	NN	O	O
-merely	NN	O	O
-relying	NN	O	O
-on	NN	O	O
-self	NN	O	B-Process
--	NN	O	I-Process
-assembly	NN	O	I-Process
-as	NN	O	O
-a	NN	O	O
-method	NN	O	O
-of	NN	O	O
-large	NN	O	B-Task
--	NN	O	I-Task
-scale	NN	O	I-Task
-commercial	NN	O	I-Task
-production	NN	O	I-Task
-is	NN	O	O
-still	NN	O	O
-an	NN	O	O
-experimental	NN	O	O
-concept	NN	O	O
-.	NN	O	O
-
-Perhaps	NN	O	O
-the	NN	O	O
-next	NN	O	O
-step	NN	O	O
-would	NN	O	O
-be	NN	O	O
-to	NN	O	O
-carefully	NN	O	O
-compare	NN	O	B-Process
-and	NN	O	I-Process
-contrast	NN	O	I-Process
-the	NN	O	O
-robustness	NN	O	B-Task
-of	NN	O	I-Task
-self	NN	O	I-Task
--	NN	O	I-Task
-assemled	NN	O	I-Task
-PAs	NN	O	I-Task
-to	NN	O	I-Task
-electrospun	NN	O	I-Task
-nanofibers	NN	O	I-Task
-.	NN	O	O
-
-Given	NN	O	O
-that	NN	O	O
-the	NN	O	O
-constituent	NN	O	O
-elements	NN	O	O
-in	NN	O	O
-PAs	NN	O	B-Material
-and	NN	O	O
-external	NN	O	O
-factors	NN	O	O
-like	NN	O	O
-pH	NN	O	O
-can	NN	O	O
-affect	NN	O	O
-its	NN	O	O
-structural	NN	O	O
-assembly	NN	O	O
-,	NN	O	O
-parameters	NN	O	O
-must	NN	O	O
-be	NN	O	O
-finely	NN	O	O
-tuned	NN	O	B-Process
-and	NN	O	I-Process
-optimized	NN	O	I-Process
-in	NN	O	O
-order	NN	O	O
-for	NN	O	O
-PA	NN	O	B-Material
-nanofibers	NN	O	I-Material
-to	NN	O	O
-be	NN	O	O
-used	NN	O	O
-as	NN	O	O
-a	NN	O	B-Task
-full	NN	O	I-Task
--	NN	O	I-Task
-fledged	NN	O	I-Task
-commercialized	NN	O	I-Task
-medical	NN	O	I-Task
-product	NN	O	I-Task
-[	NN	O	O
-93	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Unlike	0	6	O
+conventional	7	19	O
+materials	20	29	O
+used	30	34	O
+in	35	37	O
+nerve	38	43	O
+tissue	44	50	O
+engineering	51	62	O
+,	62	63	O
+PAs	64	67	B-Material
+can	68	71	O
+be	72	74	O
+directly	75	83	O
+injected	84	92	B-Process
+in	93	95	I-Process
+vivo	96	100	I-Process
+into	101	105	I-Process
+models	106	112	I-Process
+and	113	116	I-Process
+spontaneously	117	130	I-Process
+self	131	135	I-Process
+-	135	136	I-Process
+assemble	136	144	I-Process
+into	145	149	I-Process
+nanofibers	150	160	I-Process
+in	161	163	I-Process
+aqueous	164	171	I-Process
+solutions	172	181	I-Process
+.	181	182	O
+
+Furthermore	183	194	O
+,	194	195	O
+PAs	196	199	B-Material
+can	200	203	O
+function	204	212	O
+as	213	215	O
+biomimetic	216	226	B-Material
+materials	227	236	I-Material
+exemplified	237	248	O
+by	249	251	O
+collagen	252	260	B-Material
+-	260	261	I-Material
+mimetic	261	268	I-Material
+PAs	269	272	I-Material
+[	273	274	O
+92	274	276	O
+]	276	277	O
+.	277	278	O
+
+Conventional	279	291	O
+materials	292	301	O
+often	302	307	O
+rely	308	312	O
+on	313	315	O
+electrospinning	316	331	B-Process
+as	332	334	O
+a	335	336	B-Process
+manufacturing	337	350	I-Process
+method	351	357	I-Process
+to	358	360	O
+achieve	361	368	B-Task
+fiber	369	374	I-Task
+-	374	375	I-Task
+like	375	379	I-Task
+structures	380	390	I-Task
+suitable	391	399	O
+for	400	403	O
+use	404	407	O
+in	408	410	O
+nerve	411	416	O
+regeneration	417	429	O
+.	429	430	O
+
+The	431	434	O
+self	435	439	O
+-	439	440	O
+assembly	440	448	O
+nature	449	455	O
+of	456	458	O
+PAs	459	462	B-Material
+allows	463	469	O
+them	470	474	O
+to	475	477	O
+circumvent	478	488	O
+costly	489	495	B-Process
+manufacturing	496	509	I-Process
+methods	510	517	I-Process
+.	517	518	O
+
+However	519	526	O
+,	526	527	O
+in	528	530	O
+contrast	531	539	O
+to	540	542	O
+conventional	543	555	B-Process
+manufacturing	556	569	I-Process
+methods	570	577	I-Process
+like	578	582	O
+electrospinning	583	598	B-Process
+where	599	604	O
+quality	605	612	O
+and	613	616	O
+batch	617	622	O
+-	622	623	O
+to	623	625	O
+-	625	626	O
+batch	626	631	O
+variability	632	643	O
+can	644	647	O
+be	648	650	O
+tightly	651	658	O
+controlled	659	669	O
+,	669	670	O
+merely	671	677	O
+relying	678	685	O
+on	686	688	O
+self	689	693	B-Process
+-	693	694	I-Process
+assembly	694	702	I-Process
+as	703	705	O
+a	706	707	O
+method	708	714	O
+of	715	717	O
+large	718	723	B-Task
+-	723	724	I-Task
+scale	724	729	I-Task
+commercial	730	740	I-Task
+production	741	751	I-Task
+is	752	754	O
+still	755	760	O
+an	761	763	O
+experimental	764	776	O
+concept	777	784	O
+.	784	785	O
+
+Perhaps	786	793	O
+the	794	797	O
+next	798	802	O
+step	803	807	O
+would	808	813	O
+be	814	816	O
+to	817	819	O
+carefully	820	829	O
+compare	830	837	B-Process
+and	838	841	I-Process
+contrast	842	850	I-Process
+the	851	854	O
+robustness	855	865	B-Task
+of	866	868	I-Task
+self	869	873	I-Task
+-	873	874	I-Task
+assemled	874	882	I-Task
+PAs	883	886	I-Task
+to	887	889	I-Task
+electrospun	890	901	I-Task
+nanofibers	902	912	I-Task
+.	912	913	O
+
+Given	914	919	O
+that	920	924	O
+the	925	928	O
+constituent	929	940	O
+elements	941	949	O
+in	950	952	O
+PAs	953	956	B-Material
+and	957	960	O
+external	961	969	O
+factors	970	977	O
+like	978	982	O
+pH	983	985	O
+can	986	989	O
+affect	990	996	O
+its	997	1000	O
+structural	1001	1011	O
+assembly	1012	1020	O
+,	1020	1021	O
+parameters	1022	1032	O
+must	1033	1037	O
+be	1038	1040	O
+finely	1041	1047	O
+tuned	1048	1053	B-Process
+and	1054	1057	I-Process
+optimized	1058	1067	I-Process
+in	1068	1070	O
+order	1071	1076	O
+for	1077	1080	O
+PA	1081	1083	B-Material
+nanofibers	1084	1094	I-Material
+to	1095	1097	O
+be	1098	1100	O
+used	1101	1105	O
+as	1106	1108	O
+a	1109	1110	B-Task
+full	1111	1115	I-Task
+-	1115	1116	I-Task
+fledged	1116	1123	I-Task
+commercialized	1124	1138	I-Task
+medical	1139	1146	I-Task
+product	1147	1154	I-Task
+[	1155	1156	O
+93	1156	1158	O
+]	1158	1159	O
+.	1159	1160	O
 
 
 -DOCSTART- (S0168365913002848)
 
-Mice	NN	O	B-Task
-bearing	NN	O	I-Task
-the	NN	O	I-Task
-orthotopic	NN	O	I-Task
-model	NN	O	I-Task
-were	NN	O	O
-treated	NN	O	O
-starting	NN	O	O
-from	NN	O	O
-day	NN	O	O
-21	NN	O	O
-after	NN	O	O
-NB	NN	O	O
-cell	NN	O	O
-implant	NN	O	O
-;	NN	O	O
-mice	NN	O	B-Task
-with	NN	O	I-Task
-the	NN	O	I-Task
-pseudo	NN	O	I-Task
--	NN	O	I-Task
-metastatic	NN	O	I-Task
-model	NN	O	I-Task
-received	NN	O	O
-the	NN	O	O
-first	NN	O	O
-treatment	NN	O	O
-4h	NN	O	O
-after	NN	O	O
-NB	NN	O	O
-cell	NN	O	O
-injection	NN	O	O
-.	NN	O	O
-
-These	NN	O	B-Task
-therapeutic	NN	O	I-Task
-schedules	NN	O	I-Task
-were	NN	O	O
-designed	NN	O	O
-to	NN	O	O
-test	NN	O	B-Process
-the	NN	O	I-Process
-effects	NN	O	I-Process
-of	NN	O	O
-our	NN	O	B-Material
-targeted	NN	O	I-Material
-formulations	NN	O	I-Material
-against	NN	O	O
-both	NN	O	O
-established	NN	O	O
-and	NN	O	O
-pseudo	NN	O	O
--	NN	O	O
-metastatic	NN	O	O
-preclinical	NN	O	B-Material
-models	NN	O	I-Material
-of	NN	O	O
-human	NN	O	O
-NB	NN	O	O
-,	NN	O	O
-as	NN	O	O
-described	NN	O	O
-[	NN	O	O
-16,19	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Animals	NN	O	B-Task
-were	NN	O	O
-treated	NN	O	O
-i.v	NN	O	O
-.	NN	O	O
-
-once	NN	O	O
-a	NN	O	O
-week	NN	O	O
-for	NN	O	O
-3	NN	O	O
-weeks	NN	O	O
-with	NN	O	O
-untargeted	NN	O	B-Material
-(	NN	O	O
-SL[DXR	NN	O	B-Material
-]	NN	O	I-Material
-)	NN	O	O
-or	NN	O	O
-peptide	NN	O	B-Material
--	NN	O	I-Material
-targeted	NN	O	I-Material
-SL[DXR	NN	O	I-Material
-]	NN	O	I-Material
-(	NN	O	O
-5mg	NN	O	O
-/	NN	O	O
-kg	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Scrambled	NN	O	B-Task
-peptide	NN	O	I-Task
--	NN	O	I-Task
-functionalized	NN	O	I-Task
-liposomes	NN	O	I-Task
-were	NN	O	O
-used	NN	O	O
-as	NN	O	O
-a	NN	O	O
-control	NN	O	O
-,	NN	O	O
-and	NN	O	O
-in	NN	O	O
-every	NN	O	O
-experiment	NN	O	O
-a	NN	O	O
-group	NN	O	O
-of	NN	O	O
-control	NN	O	O
-mice	NN	O	O
-received	NN	O	O
-HEPES	NN	O	B-Material
--	NN	O	I-Material
-buffered	NN	O	I-Material
-saline	NN	O	I-Material
-.	NN	O	O
-
-Survival	NN	O	B-Material
-times	NN	O	I-Material
-were	NN	O	O
-used	NN	O	O
-as	NN	O	O
-the	NN	O	O
-main	NN	O	O
-criterion	NN	O	O
-for	NN	O	O
-determining	NN	O	B-Task
-treatment	NN	O	I-Task
-efficacy	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-orthotopic	NN	O	B-Task
-model	NN	O	I-Task
-,	NN	O	O
-time	NN	O	B-Material
--	NN	O	I-Material
-dependent	NN	O	I-Material
-anti	NN	O	I-Material
--	NN	O	I-Material
-tumor	NN	O	I-Material
-activity	NN	O	I-Material
-was	NN	O	O
-also	NN	O	O
-evaluated	NN	O	O
-by	NN	O	O
-bioluminescence	NN	O	O
-imaging	NN	O	O
-(	NN	O	O
-BLI	NN	O	O
-)	NN	O	O
-and	NN	O	O
-X	NN	O	O
--	NN	O	O
-ray	NN	O	O
-analyses	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-this	NN	O	O
-purpose	NN	O	O
-,	NN	O	O
-the	NN	O	B-Task
-GI	NN	O	I-Task
--	NN	O	I-Task
-LI	NN	O	I-Task
--	NN	O	I-Task
-N	NN	O	I-Task
-cell	NN	O	I-Task
-line	NN	O	I-Task
-was	NN	O	O
-infected	NN	O	B-Process
-with	NN	O	O
-a	NN	O	O
-retrovirus	NN	O	O
-expressing	NN	O	O
-the	NN	O	O
-firefly	NN	O	O
-luciferase	NN	O	O
-gene	NN	O	O
-,	NN	O	O
-as	NN	O	O
-previously	NN	O	O
-reported	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-;	NN	O	O
-luciferase	NN	O	B-Task
-activity	NN	O	I-Task
-of	NN	O	O
-retrovirally	NN	O	B-Material
--	NN	O	I-Material
-transduced	NN	O	I-Material
-cells	NN	O	I-Material
-was	NN	O	O
-visualized	NN	O	B-Process
-in	NN	O	O
-vivo	NN	O	O
-by	NN	O	O
-BLI	NN	O	O
-(	NN	O	O
-IVIS	NN	O	O
-Caliper	NN	O	O
-Life	NN	O	O
-Sciences	NN	O	O
-,	NN	O	O
-Hopkinton	NN	O	O
-,	NN	O	O
-MA	NN	O	O
-)	NN	O	O
-after	NN	O	O
-a	NN	O	O
-10min	NN	O	O
-incubation	NN	O	O
-with	NN	O	O
-150μg	NN	O	O
-/	NN	O	O
-mL	NN	O	O
-of	NN	O	O
-d	NN	O	B-Material
--	NN	O	I-Material
-luciferin	NN	O	I-Material
-(	NN	O	O
-Caliper	NN	O	O
-Life	NN	O	O
-Sciences	NN	O	O
-)	NN	O	O
-,	NN	O	O
-as	NN	O	O
-described	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-X	NN	O	O
--	NN	O	O
-ray	NN	O	O
-analysis	NN	O	O
-was	NN	O	O
-superimposed	NN	O	O
-to	NN	O	O
-the	NN	O	O
-luminescence	NN	O	O
-for	NN	O	O
-a	NN	O	O
-better	NN	O	O
-visualization	NN	O	O
-of	NN	O	O
-the	NN	O	O
-tumors	NN	O	O
-.	NN	O	O
+Mice	0	4	B-Task
+bearing	5	12	I-Task
+the	13	16	I-Task
+orthotopic	17	27	I-Task
+model	28	33	I-Task
+were	34	38	O
+treated	39	46	O
+starting	47	55	O
+from	56	60	O
+day	61	64	O
+21	65	67	O
+after	68	73	O
+NB	74	76	O
+cell	77	81	O
+implant	82	89	O
+;	89	90	O
+mice	91	95	B-Task
+with	96	100	I-Task
+the	101	104	I-Task
+pseudo	105	111	I-Task
+-	111	112	I-Task
+metastatic	112	122	I-Task
+model	123	128	I-Task
+received	129	137	O
+the	138	141	O
+first	142	147	O
+treatment	148	157	O
+4h	158	160	O
+after	161	166	O
+NB	167	169	O
+cell	170	174	O
+injection	175	184	O
+.	184	185	O
+
+These	186	191	B-Task
+therapeutic	192	203	I-Task
+schedules	204	213	I-Task
+were	214	218	O
+designed	219	227	O
+to	228	230	O
+test	231	235	B-Process
+the	236	239	I-Process
+effects	240	247	I-Process
+of	248	250	O
+our	251	254	B-Material
+targeted	255	263	I-Material
+formulations	264	276	I-Material
+against	277	284	O
+both	285	289	O
+established	290	301	O
+and	302	305	O
+pseudo	306	312	O
+-	312	313	O
+metastatic	313	323	O
+preclinical	324	335	B-Material
+models	336	342	I-Material
+of	343	345	O
+human	346	351	O
+NB	352	354	O
+,	354	355	O
+as	356	358	O
+described	359	368	O
+[	369	370	O
+16,19	370	375	O
+]	375	376	O
+.	376	377	O
+
+Animals	378	385	B-Task
+were	386	390	O
+treated	391	398	O
+i.v	399	402	O
+.	402	403	O
+
+once	404	408	O
+a	409	410	O
+week	411	415	O
+for	416	419	O
+3	420	421	O
+weeks	422	427	O
+with	428	432	O
+untargeted	433	443	B-Material
+(	444	445	O
+SL[DXR	445	451	B-Material
+]	451	452	I-Material
+)	452	453	O
+or	454	456	O
+peptide	457	464	B-Material
+-	464	465	I-Material
+targeted	465	473	I-Material
+SL[DXR	474	480	I-Material
+]	480	481	I-Material
+(	482	483	O
+5mg	483	486	O
+/	486	487	O
+kg	487	489	O
+)	489	490	O
+.	490	491	O
+
+Scrambled	492	501	B-Task
+peptide	502	509	I-Task
+-	509	510	I-Task
+functionalized	510	524	I-Task
+liposomes	525	534	I-Task
+were	535	539	O
+used	540	544	O
+as	545	547	O
+a	548	549	O
+control	550	557	O
+,	557	558	O
+and	559	562	O
+in	563	565	O
+every	566	571	O
+experiment	572	582	O
+a	583	584	O
+group	585	590	O
+of	591	593	O
+control	594	601	O
+mice	602	606	O
+received	607	615	O
+HEPES	616	621	B-Material
+-	621	622	I-Material
+buffered	622	630	I-Material
+saline	631	637	I-Material
+.	637	638	O
+
+Survival	639	647	B-Material
+times	648	653	I-Material
+were	654	658	O
+used	659	663	O
+as	664	666	O
+the	667	670	O
+main	671	675	O
+criterion	676	685	O
+for	686	689	O
+determining	690	701	B-Task
+treatment	702	711	I-Task
+efficacy	712	720	I-Task
+.	720	721	O
+
+In	722	724	O
+the	725	728	O
+orthotopic	729	739	B-Task
+model	740	745	I-Task
+,	745	746	O
+time	747	751	B-Material
+-	751	752	I-Material
+dependent	752	761	I-Material
+anti	762	766	I-Material
+-	766	767	I-Material
+tumor	767	772	I-Material
+activity	773	781	I-Material
+was	782	785	O
+also	786	790	O
+evaluated	791	800	O
+by	801	803	O
+bioluminescence	804	819	O
+imaging	820	827	O
+(	828	829	O
+BLI	829	832	O
+)	832	833	O
+and	834	837	O
+X	838	839	O
+-	839	840	O
+ray	840	843	O
+analyses	844	852	O
+.	852	853	O
+
+For	854	857	O
+this	858	862	O
+purpose	863	870	O
+,	870	871	O
+the	872	875	B-Task
+GI	876	878	I-Task
+-	878	879	I-Task
+LI	879	881	I-Task
+-	881	882	I-Task
+N	882	883	I-Task
+cell	884	888	I-Task
+line	889	893	I-Task
+was	894	897	O
+infected	898	906	B-Process
+with	907	911	O
+a	912	913	O
+retrovirus	914	924	O
+expressing	925	935	O
+the	936	939	O
+firefly	940	947	O
+luciferase	948	958	O
+gene	959	963	O
+,	963	964	O
+as	965	967	O
+previously	968	978	O
+reported	979	987	O
+[	988	989	O
+17	989	991	O
+]	991	992	O
+;	992	993	O
+luciferase	994	1004	B-Task
+activity	1005	1013	I-Task
+of	1014	1016	O
+retrovirally	1017	1029	B-Material
+-	1029	1030	I-Material
+transduced	1030	1040	I-Material
+cells	1041	1046	I-Material
+was	1047	1050	O
+visualized	1051	1061	B-Process
+in	1062	1064	O
+vivo	1065	1069	O
+by	1070	1072	O
+BLI	1073	1076	O
+(	1077	1078	O
+IVIS	1078	1082	O
+Caliper	1083	1090	O
+Life	1091	1095	O
+Sciences	1096	1104	O
+,	1104	1105	O
+Hopkinton	1106	1115	O
+,	1115	1116	O
+MA	1117	1119	O
+)	1119	1120	O
+after	1121	1126	O
+a	1127	1128	O
+10min	1129	1134	O
+incubation	1135	1145	O
+with	1146	1150	O
+150μg	1151	1156	O
+/	1156	1157	O
+mL	1157	1159	O
+of	1160	1162	O
+d	1163	1164	B-Material
+-	1164	1165	I-Material
+luciferin	1165	1174	I-Material
+(	1175	1176	O
+Caliper	1176	1183	O
+Life	1184	1188	O
+Sciences	1189	1197	O
+)	1197	1198	O
+,	1198	1199	O
+as	1200	1202	O
+described	1203	1212	O
+[	1213	1214	O
+17	1214	1216	O
+]	1216	1217	O
+.	1217	1218	O
+
+X	1219	1220	O
+-	1220	1221	O
+ray	1221	1224	O
+analysis	1225	1233	O
+was	1234	1237	O
+superimposed	1238	1250	O
+to	1251	1253	O
+the	1254	1257	O
+luminescence	1258	1270	O
+for	1271	1274	O
+a	1275	1276	O
+better	1277	1283	O
+visualization	1284	1297	O
+of	1298	1300	O
+the	1301	1304	O
+tumors	1305	1311	O
+.	1311	1312	O
 
 
 -DOCSTART- (S0168365913003295)
 
-A	NN	O	O
-limitation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-pharmacyte	NN	O	B-Process
-approach	NN	O	I-Process
-is	NN	O	O
-the	NN	O	O
-one	NN	O	O
--	NN	O	O
-time	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-intervention	NN	O	O
-:	NN	O	O
-ACT	NN	O	B-Material
-T	NN	O	I-Material
--	NN	O	I-Material
-cells	NN	O	I-Material
-can	NN	O	O
-only	NN	O	O
-be	NN	O	O
-loaded	NN	O	O
-once	NN	O	O
-with	NN	O	O
-a	NN	O	O
-cargo	NN	O	O
-of	NN	O	O
-adjuvant	NN	O	B-Material
-drug	NN	O	I-Material
-prior	NN	O	O
-to	NN	O	O
-transfer	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-duration	NN	O	O
-of	NN	O	O
-stimulation	NN	O	B-Process
-is	NN	O	O
-inherently	NN	O	O
-limited	NN	O	O
-by	NN	O	O
-expansion	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-cell	NN	O	I-Process
-population	NN	O	I-Process
-in	NN	O	I-Process
-vivo	NN	O	I-Process
-,	NN	O	O
-since	NN	O	O
-cell	NN	O	B-Material
--	NN	O	I-Material
-bound	NN	O	I-Material
-particles	NN	O	I-Material
-are	NN	O	O
-diluted	NN	O	O
-with	NN	O	O
-each	NN	O	O
-cell	NN	O	B-Process
-division	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-hypothesized	NN	O	O
-that	NN	O	O
-a	NN	O	O
-strategy	NN	O	O
-to	NN	O	O
-target	NN	O	O
-supporting	NN	O	B-Material
-drugs	NN	O	I-Material
-to	NN	O	O
-T	NN	O	B-Material
--	NN	O	I-Material
-cells	NN	O	I-Material
-with	NN	O	O
-nanoparticle	NN	O	B-Material
-drug	NN	O	I-Material
-carriers	NN	O	I-Material
-directly	NN	O	O
-in	NN	O	O
-vivo	NN	O	O
-would	NN	O	O
-enable	NN	O	O
-transferred	NN	O	B-Material
-lymphocytes	NN	O	I-Material
-to	NN	O	O
-be	NN	O	O
-repeatedly	NN	O	O
-stimulated	NN	O	O
-with	NN	O	O
-supporting	NN	O	B-Material
-adjuvant	NN	O	I-Material
-drugs	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-thereby	NN	O	O
-provide	NN	O	O
-continuous	NN	O	O
-supporting	NN	O	O
-signals	NN	O	O
-over	NN	O	O
-the	NN	O	O
-prolonged	NN	O	O
-durations	NN	O	O
-that	NN	O	O
-might	NN	O	O
-be	NN	O	O
-necessary	NN	O	O
-for	NN	O	O
-elimination	NN	O	B-Task
-of	NN	O	I-Task
-large	NN	O	I-Task
-tumor	NN	O	I-Task
-burdens	NN	O	I-Task
-.	NN	O	O
-
-Such	NN	O	O
-“	NN	O	B-Process
-re	NN	O	I-Process
--	NN	O	I-Process
-arming	NN	O	I-Process
-”	NN	O	I-Process
-of	NN	O	I-Process
-T	NN	O	I-Process
--	NN	O	I-Process
-cells	NN	O	I-Process
-with	NN	O	I-Process
-supporting	NN	O	I-Process
-drugs	NN	O	I-Process
-could	NN	O	O
-be	NN	O	O
-achieved	NN	O	O
-by	NN	O	O
-repeated	NN	O	O
-administration	NN	O	B-Process
-of	NN	O	I-Process
-targeted	NN	O	I-Process
-particles	NN	O	I-Process
-,	NN	O	O
-allowing	NN	O	O
-adoptively	NN	O	B-Material
--	NN	O	I-Material
-transferred	NN	O	I-Material
-T	NN	O	I-Material
--	NN	O	I-Material
-cells	NN	O	I-Material
-to	NN	O	O
-be	NN	O	O
-restimulated	NN	O	O
-multiple	NN	O	O
-times	NN	O	O
-directly	NN	O	O
-in	NN	O	O
-vivo	NN	O	O
-,	NN	O	O
-while	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-internalizing	NN	O	B-Material
-targeting	NN	O	I-Material
-ligands	NN	O	I-Material
-would	NN	O	O
-minimize	NN	O	O
-the	NN	O	O
-likelihood	NN	O	O
-of	NN	O	O
-immune	NN	O	O
-responses	NN	O	O
-against	NN	O	O
-the	NN	O	O
-nanoparticle	NN	O	B-Material
-carrier	NN	O	I-Material
-.	NN	O	O
-
-To	NN	O	O
-our	NN	O	O
-knowledge	NN	O	O
-,	NN	O	O
-only	NN	O	O
-two	NN	O	O
-prior	NN	O	O
-studies	NN	O	O
-have	NN	O	O
-attempted	NN	O	O
-to	NN	O	O
-target	NN	O	O
-nanoparticles	NN	O	B-Material
-to	NN	O	O
-T	NN	O	B-Material
--	NN	O	I-Material
-cells	NN	O	I-Material
-in	NN	O	O
-vivo	NN	O	O
-[	NN	O	O
-17,18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-both	NN	O	O
-of	NN	O	O
-these	NN	O	O
-studies	NN	O	O
-,	NN	O	O
-particles	NN	O	O
-were	NN	O	O
-targeted	NN	O	O
-to	NN	O	O
-T	NN	O	B-Material
--	NN	O	I-Material
-cells	NN	O	I-Material
-via	NN	O	O
-peptide	NN	O	B-Material
--	NN	O	I-Material
-MHC	NN	O	I-Material
-ligands	NN	O	I-Material
-that	NN	O	O
-bind	NN	O	O
-to	NN	O	O
-specific	NN	O	O
-T	NN	O	B-Material
--	NN	O	I-Material
-cell	NN	O	I-Material
-receptors	NN	O	I-Material
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-peptide	NN	O	B-Material
--	NN	O	I-Material
-MHC	NN	O	I-Material
--	NN	O	I-Material
-functionalized	NN	O	I-Material
-nanoparticles	NN	O	I-Material
-have	NN	O	O
-recently	NN	O	O
-been	NN	O	O
-shown	NN	O	O
-to	NN	O	O
-deliver	NN	O	O
-an	NN	O	O
-anergizing	NN	O	O
-/	NN	O	O
-tolerizing	NN	O	O
-signal	NN	O	O
-to	NN	O	O
-T	NN	O	B-Material
--	NN	O	I-Material
-cells	NN	O	I-Material
-[	NN	O	O
-18,19	NN	O	O
-]	NN	O	O
-—	NN	O	O
-which	NN	O	O
-is	NN	O	O
-ideal	NN	O	O
-for	NN	O	O
-treating	NN	O	B-Task
-graft	NN	O	I-Task
-rejection	NN	O	I-Task
-or	NN	O	I-Task
-autoimmunity	NN	O	I-Task
-,	NN	O	O
-but	NN	O	O
-runs	NN	O	O
-counter	NN	O	O
-to	NN	O	O
-the	NN	O	O
-goals	NN	O	O
-of	NN	O	O
-cancer	NN	O	B-Task
-immunotherapy	NN	O	I-Task
-.	NN	O	O
+A	0	1	O
+limitation	2	12	O
+of	13	15	O
+the	16	19	O
+pharmacyte	20	30	B-Process
+approach	31	39	I-Process
+is	40	42	O
+the	43	46	O
+one	47	50	O
+-	50	51	O
+time	51	55	O
+nature	56	62	O
+of	63	65	O
+the	66	69	O
+intervention	70	82	O
+:	82	83	O
+ACT	84	87	B-Material
+T	88	89	I-Material
+-	89	90	I-Material
+cells	90	95	I-Material
+can	96	99	O
+only	100	104	O
+be	105	107	O
+loaded	108	114	O
+once	115	119	O
+with	120	124	O
+a	125	126	O
+cargo	127	132	O
+of	133	135	O
+adjuvant	136	144	B-Material
+drug	145	149	I-Material
+prior	150	155	O
+to	156	158	O
+transfer	159	167	O
+,	167	168	O
+and	169	172	O
+the	173	176	O
+duration	177	185	O
+of	186	188	O
+stimulation	189	200	B-Process
+is	201	203	O
+inherently	204	214	O
+limited	215	222	O
+by	223	225	O
+expansion	226	235	B-Process
+of	236	238	I-Process
+the	239	242	I-Process
+cell	243	247	I-Process
+population	248	258	I-Process
+in	259	261	I-Process
+vivo	262	266	I-Process
+,	266	267	O
+since	268	273	O
+cell	274	278	B-Material
+-	278	279	I-Material
+bound	279	284	I-Material
+particles	285	294	I-Material
+are	295	298	O
+diluted	299	306	O
+with	307	311	O
+each	312	316	O
+cell	317	321	B-Process
+division	322	330	I-Process
+.	330	331	O
+
+We	332	334	O
+hypothesized	335	347	O
+that	348	352	O
+a	353	354	O
+strategy	355	363	O
+to	364	366	O
+target	367	373	O
+supporting	374	384	B-Material
+drugs	385	390	I-Material
+to	391	393	O
+T	394	395	B-Material
+-	395	396	I-Material
+cells	396	401	I-Material
+with	402	406	O
+nanoparticle	407	419	B-Material
+drug	420	424	I-Material
+carriers	425	433	I-Material
+directly	434	442	O
+in	443	445	O
+vivo	446	450	O
+would	451	456	O
+enable	457	463	O
+transferred	464	475	B-Material
+lymphocytes	476	487	I-Material
+to	488	490	O
+be	491	493	O
+repeatedly	494	504	O
+stimulated	505	515	O
+with	516	520	O
+supporting	521	531	B-Material
+adjuvant	532	540	I-Material
+drugs	541	546	I-Material
+,	546	547	O
+and	548	551	O
+thereby	552	559	O
+provide	560	567	O
+continuous	568	578	O
+supporting	579	589	O
+signals	590	597	O
+over	598	602	O
+the	603	606	O
+prolonged	607	616	O
+durations	617	626	O
+that	627	631	O
+might	632	637	O
+be	638	640	O
+necessary	641	650	O
+for	651	654	O
+elimination	655	666	B-Task
+of	667	669	I-Task
+large	670	675	I-Task
+tumor	676	681	I-Task
+burdens	682	689	I-Task
+.	689	690	O
+
+Such	691	695	O
+“	696	697	B-Process
+re	697	699	I-Process
+-	699	700	I-Process
+arming	700	706	I-Process
+”	706	707	I-Process
+of	708	710	I-Process
+T	711	712	I-Process
+-	712	713	I-Process
+cells	713	718	I-Process
+with	719	723	I-Process
+supporting	724	734	I-Process
+drugs	735	740	I-Process
+could	741	746	O
+be	747	749	O
+achieved	750	758	O
+by	759	761	O
+repeated	762	770	O
+administration	771	785	B-Process
+of	786	788	I-Process
+targeted	789	797	I-Process
+particles	798	807	I-Process
+,	807	808	O
+allowing	809	817	O
+adoptively	818	828	B-Material
+-	828	829	I-Material
+transferred	829	840	I-Material
+T	841	842	I-Material
+-	842	843	I-Material
+cells	843	848	I-Material
+to	849	851	O
+be	852	854	O
+restimulated	855	867	O
+multiple	868	876	O
+times	877	882	O
+directly	883	891	O
+in	892	894	O
+vivo	895	899	O
+,	899	900	O
+while	901	906	O
+the	907	910	O
+use	911	914	O
+of	915	917	O
+internalizing	918	931	B-Material
+targeting	932	941	I-Material
+ligands	942	949	I-Material
+would	950	955	O
+minimize	956	964	O
+the	965	968	O
+likelihood	969	979	O
+of	980	982	O
+immune	983	989	O
+responses	990	999	O
+against	1000	1007	O
+the	1008	1011	O
+nanoparticle	1012	1024	B-Material
+carrier	1025	1032	I-Material
+.	1032	1033	O
+
+To	1034	1036	O
+our	1037	1040	O
+knowledge	1041	1050	O
+,	1050	1051	O
+only	1052	1056	O
+two	1057	1060	O
+prior	1061	1066	O
+studies	1067	1074	O
+have	1075	1079	O
+attempted	1080	1089	O
+to	1090	1092	O
+target	1093	1099	O
+nanoparticles	1100	1113	B-Material
+to	1114	1116	O
+T	1117	1118	B-Material
+-	1118	1119	I-Material
+cells	1119	1124	I-Material
+in	1125	1127	O
+vivo	1128	1132	O
+[	1133	1134	O
+17,18	1134	1139	O
+]	1139	1140	O
+.	1140	1141	O
+
+In	1142	1144	O
+both	1145	1149	O
+of	1150	1152	O
+these	1153	1158	O
+studies	1159	1166	O
+,	1166	1167	O
+particles	1168	1177	O
+were	1178	1182	O
+targeted	1183	1191	O
+to	1192	1194	O
+T	1195	1196	B-Material
+-	1196	1197	I-Material
+cells	1197	1202	I-Material
+via	1203	1206	O
+peptide	1207	1214	B-Material
+-	1214	1215	I-Material
+MHC	1215	1218	I-Material
+ligands	1219	1226	I-Material
+that	1227	1231	O
+bind	1232	1236	O
+to	1237	1239	O
+specific	1240	1248	O
+T	1249	1250	B-Material
+-	1250	1251	I-Material
+cell	1251	1255	I-Material
+receptors	1256	1265	I-Material
+.	1265	1266	O
+
+However	1267	1274	O
+,	1274	1275	O
+peptide	1276	1283	B-Material
+-	1283	1284	I-Material
+MHC	1284	1287	I-Material
+-	1287	1288	I-Material
+functionalized	1288	1302	I-Material
+nanoparticles	1303	1316	I-Material
+have	1317	1321	O
+recently	1322	1330	O
+been	1331	1335	O
+shown	1336	1341	O
+to	1342	1344	O
+deliver	1345	1352	O
+an	1353	1355	O
+anergizing	1356	1366	O
+/	1366	1367	O
+tolerizing	1367	1377	O
+signal	1378	1384	O
+to	1385	1387	O
+T	1388	1389	B-Material
+-	1389	1390	I-Material
+cells	1390	1395	I-Material
+[	1396	1397	O
+18,19	1397	1402	O
+]	1402	1403	O
+—	1404	1405	O
+which	1406	1411	O
+is	1412	1414	O
+ideal	1415	1420	O
+for	1421	1424	O
+treating	1425	1433	B-Task
+graft	1434	1439	I-Task
+rejection	1440	1449	I-Task
+or	1450	1452	I-Task
+autoimmunity	1453	1465	I-Task
+,	1465	1466	O
+but	1467	1470	O
+runs	1471	1475	O
+counter	1476	1483	O
+to	1484	1486	O
+the	1487	1490	O
+goals	1491	1496	O
+of	1497	1499	O
+cancer	1500	1506	B-Task
+immunotherapy	1507	1520	I-Task
+.	1520	1521	O
 
 
 -DOCSTART- (S0168365913004975)
 
-The	NN	O	O
-α-ω-aminohexylcarbamate	NN	O	B-Material
-derivative	NN	O	I-Material
-of	NN	O	I-Material
-cyanocobalamin	NN	O	I-Material
-was	NN	O	O
-prepared	NN	O	O
-using	NN	O	O
-a	NN	O	O
-method	NN	O	O
-described	NN	O	O
-previously	NN	O	O
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Briefly	NN	O	O
-,	NN	O	O
-solid	NN	O	B-Material
-CDI	NN	O	I-Material
-(	NN	O	O
-260	NN	O	O
-mg	NN	O	O
-,	NN	O	O
-0.32mmol	NN	O	O
-)	NN	O	O
-was	NN	O	O
-added	NN	O	O
-to	NN	O	O
-cyanocobalamin	NN	O	B-Material
-(	NN	O	O
-1.0	NN	O	O
-g	NN	O	O
-,	NN	O	O
-0.148mmol	NN	O	O
-)	NN	O	O
-previously	NN	O	O
-dissolved	NN	O	O
-in	NN	O	O
-anhydrous	NN	O	B-Material
-dimethyl	NN	O	I-Material
-sulfoxide	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-mixture	NN	O	O
-was	NN	O	O
-stirred	NN	O	O
-for	NN	O	O
-up	NN	O	O
-to	NN	O	O
-2h	NN	O	O
-at	NN	O	O
-30	NN	O	O
-°	NN	O	O
-C	NN	O	O
-,	NN	O	O
-followed	NN	O	O
-by	NN	O	O
-the	NN	O	O
-addition	NN	O	O
-of	NN	O	O
-dry	NN	O	B-Material
-1,6-hexanediamine	NN	O	I-Material
-(	NN	O	O
-314	NN	O	O
-mg	NN	O	O
-,	NN	O	O
-0.54mmol	NN	O	O
-)	NN	O	O
-and	NN	O	O
-stirring	NN	O	O
-of	NN	O	O
-the	NN	O	O
-mixture	NN	O	O
-at	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-over	NN	O	O
-24h	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-mixture	NN	O	O
-was	NN	O	O
-poured	NN	O	O
-into	NN	O	O
-ethyl	NN	O	B-Material
-acetate	NN	O	I-Material
-(	NN	O	O
-30ml	NN	O	O
-)	NN	O	O
-and	NN	O	O
-left	NN	O	O
-to	NN	O	O
-stand	NN	O	O
-.	NN	O	O
-
-Following	NN	O	O
-centrifugation	NN	O	B-Process
-and	NN	O	O
-decanting	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-supernatant	NN	O	B-Material
-,	NN	O	O
-the	NN	O	O
-residue	NN	O	B-Material
-was	NN	O	O
-sonicated	NN	O	O
-for	NN	O	O
-5min	NN	O	O
-in	NN	O	O
-acetone	NN	O	B-Material
-(	NN	O	O
-50ml	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resulting	NN	O	O
-precipitate	NN	O	B-Material
-was	NN	O	O
-filtered	NN	O	O
-and	NN	O	O
-the	NN	O	O
-solid	NN	O	B-Material
-washed	NN	O	O
-in	NN	O	O
-acetone	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-crude	NN	O	B-Material
-product	NN	O	I-Material
-was	NN	O	O
-purified	NN	O	O
-by	NN	O	O
-silica	NN	O	B-Process
-column	NN	O	I-Process
-chromatography	NN	O	I-Process
-(	NN	O	O
-45	NN	O	O
-%	NN	O	O
-v	NN	O	O
-/	NN	O	O
-v	NN	O	O
-2-propanol	NN	O	B-Material
-,	NN	O	O
-30	NN	O	O
-%	NN	O	O
-v	NN	O	O
-/	NN	O	O
-v	NN	O	O
-n	NN	O	O
--	NN	O	O
-butanol	NN	O	B-Material
-,	NN	O	O
-2	NN	O	O
-%	NN	O	O
-v	NN	O	O
-/	NN	O	O
-v	NN	O	O
-ammonia	NN	O	B-Material
-and	NN	O	O
-25	NN	O	O
-%	NN	O	O
-v	NN	O	O
-/	NN	O	O
-v	NN	O	O
-water	NN	O	B-Material
-)	NN	O	O
-followed	NN	O	O
-by	NN	O	O
-lyophilisation	NN	O	B-Process
-.	NN	O	O
+The	0	3	O
+α-ω-aminohexylcarbamate	4	27	B-Material
+derivative	28	38	I-Material
+of	39	41	I-Material
+cyanocobalamin	42	56	I-Material
+was	57	60	O
+prepared	61	69	O
+using	70	75	O
+a	76	77	O
+method	78	84	O
+described	85	94	O
+previously	95	105	O
+[	106	107	O
+18	107	109	O
+]	109	110	O
+.	110	111	O
+
+Briefly	112	119	O
+,	119	120	O
+solid	121	126	B-Material
+CDI	127	130	I-Material
+(	131	132	O
+260	132	135	O
+mg	135	137	O
+,	137	138	O
+0.32mmol	139	147	O
+)	147	148	O
+was	149	152	O
+added	153	158	O
+to	159	161	O
+cyanocobalamin	162	176	B-Material
+(	177	178	O
+1.0	178	181	O
+g	181	182	O
+,	182	183	O
+0.148mmol	184	193	O
+)	193	194	O
+previously	195	205	O
+dissolved	206	215	O
+in	216	218	O
+anhydrous	219	228	B-Material
+dimethyl	229	237	I-Material
+sulfoxide	238	247	I-Material
+.	247	248	O
+
+The	249	252	O
+mixture	253	260	O
+was	261	264	O
+stirred	265	272	O
+for	273	276	O
+up	277	279	O
+to	280	282	O
+2h	283	285	O
+at	286	288	O
+30	289	291	O
+°	291	292	O
+C	292	293	O
+,	293	294	O
+followed	295	303	O
+by	304	306	O
+the	307	310	O
+addition	311	319	O
+of	320	322	O
+dry	323	326	B-Material
+1,6-hexanediamine	327	344	I-Material
+(	345	346	O
+314	346	349	O
+mg	349	351	O
+,	351	352	O
+0.54mmol	353	361	O
+)	361	362	O
+and	363	366	O
+stirring	367	375	O
+of	376	378	O
+the	379	382	O
+mixture	383	390	O
+at	391	393	O
+room	394	398	O
+temperature	399	410	O
+over	411	415	O
+24h	416	419	O
+.	419	420	O
+
+The	421	424	O
+mixture	425	432	O
+was	433	436	O
+poured	437	443	O
+into	444	448	O
+ethyl	449	454	B-Material
+acetate	455	462	I-Material
+(	463	464	O
+30ml	464	468	O
+)	468	469	O
+and	470	473	O
+left	474	478	O
+to	479	481	O
+stand	482	487	O
+.	487	488	O
+
+Following	489	498	O
+centrifugation	499	513	B-Process
+and	514	517	O
+decanting	518	527	B-Process
+of	528	530	O
+the	531	534	O
+supernatant	535	546	B-Material
+,	546	547	O
+the	548	551	O
+residue	552	559	B-Material
+was	560	563	O
+sonicated	564	573	O
+for	574	577	O
+5min	578	582	O
+in	583	585	O
+acetone	586	593	B-Material
+(	594	595	O
+50ml	595	599	O
+)	599	600	O
+.	600	601	O
+
+The	602	605	O
+resulting	606	615	O
+precipitate	616	627	B-Material
+was	628	631	O
+filtered	632	640	O
+and	641	644	O
+the	645	648	O
+solid	649	654	B-Material
+washed	655	661	O
+in	662	664	O
+acetone	665	672	B-Material
+.	672	673	O
+
+The	674	677	O
+crude	678	683	B-Material
+product	684	691	I-Material
+was	692	695	O
+purified	696	704	O
+by	705	707	O
+silica	708	714	B-Process
+column	715	721	I-Process
+chromatography	722	736	I-Process
+(	737	738	O
+45	738	740	O
+%	740	741	O
+v	742	743	O
+/	743	744	O
+v	744	745	O
+2-propanol	746	756	B-Material
+,	756	757	O
+30	758	760	O
+%	760	761	O
+v	762	763	O
+/	763	764	O
+v	764	765	O
+n	766	767	O
+-	767	768	O
+butanol	768	775	B-Material
+,	775	776	O
+2	777	778	O
+%	778	779	O
+v	780	781	O
+/	781	782	O
+v	782	783	O
+ammonia	784	791	B-Material
+and	792	795	O
+25	796	798	O
+%	798	799	O
+v	800	801	O
+/	801	802	O
+v	802	803	O
+water	804	809	B-Material
+)	809	810	O
+followed	811	819	O
+by	820	822	O
+lyophilisation	823	837	B-Process
+.	837	838	O
 
 
 -DOCSTART- (S0168365913008766)
 
-Immunopotentiators	NN	O	B-Material
-activate	NN	O	B-Process
-innate	NN	O	I-Process
-immunity	NN	O	I-Process
-directly	NN	O	O
-(	NN	O	O
-for	NN	O	O
-example	NN	O	O
-,	NN	O	O
-cytokines	NN	O	O
-)	NN	O	O
-or	NN	O	O
-through	NN	O	O
-pattern	NN	O	B-Process
--	NN	O	I-Process
-recognition	NN	O	I-Process
-receptors	NN	O	I-Process
-(	NN	O	O
-PRRs	NN	O	B-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-those	NN	O	O
-for	NN	O	O
-bacterial	NN	O	O
-components	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Toll	NN	O	B-Process
--	NN	O	I-Process
-like	NN	O	I-Process
-receptors	NN	O	I-Process
-(	NN	O	O
-TLRs	NN	O	B-Process
-)	NN	O	O
-are	NN	O	O
-a	NN	O	O
-family	NN	O	O
-of	NN	O	O
-PRRs	NN	O	B-Process
-that	NN	O	O
-are	NN	O	O
-an	NN	O	O
-important	NN	O	O
-link	NN	O	O
-between	NN	O	O
-innate	NN	O	O
-and	NN	O	O
-adaptive	NN	O	O
-immunity	NN	O	O
-.	NN	O	O
-
-Some	NN	O	O
-studies	NN	O	O
-have	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-TLR	NN	O	B-Material
-ligands	NN	O	I-Material
-have	NN	O	O
-adjuvant	NN	O	O
-activity	NN	O	O
-and	NN	O	O
-enhance	NN	O	O
-antigen	NN	O	O
--	NN	O	O
-specific	NN	O	O
-antibody	NN	O	O
-and	NN	O	O
-cell	NN	O	O
--	NN	O	O
-mediated	NN	O	O
-immune	NN	O	O
-responses	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-when	NN	O	O
-they	NN	O	O
-are	NN	O	O
-combined	NN	O	O
-with	NN	O	O
-delivery	NN	O	O
-systems	NN	O	O
-that	NN	O	O
-promote	NN	O	O
-their	NN	O	O
-uptake	NN	O	O
-and	NN	O	O
-delivery	NN	O	O
-into	NN	O	O
-antigen	NN	O	B-Material
--	NN	O	I-Material
-presenting	NN	O	I-Material
-cells	NN	O	I-Material
-[	NN	O	O
-22–24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-clinical	NN	O	B-Task
-studies	NN	O	I-Task
-,	NN	O	O
-TLR9	NN	O	B-Material
-is	NN	O	O
-generally	NN	O	O
-stimulated	NN	O	B-Process
-with	NN	O	O
-synthetic	NN	O	B-Material
-oligodeoxynucleotides	NN	O	I-Material
-containing	NN	O	O
-one	NN	O	O
-or	NN	O	O
-more	NN	O	O
-unmethylated	NN	O	B-Material
-CpG	NN	O	I-Material
-dinucleotides	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-humans	NN	O	O
-,	NN	O	O
-CpG	NN	O	B-Material
-has	NN	O	O
-been	NN	O	O
-used	NN	O	O
-as	NN	O	O
-an	NN	O	O
-adjuvant	NN	O	B-Material
-for	NN	O	O
-infectious	NN	O	B-Task
-disease	NN	O	I-Task
-vaccination	NN	O	I-Task
-[	NN	O	O
-25,26	NN	O	O
-]	NN	O	O
-and	NN	O	O
-in	NN	O	O
-the	NN	O	B-Task
-development	NN	O	I-Task
-of	NN	O	I-Task
-cancer	NN	O	I-Task
-therapy	NN	O	I-Task
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-a	NN	O	O
-mouse	NN	O	B-Process
-model	NN	O	I-Process
-,	NN	O	O
-CpG	NN	O	B-Material
-has	NN	O	O
-also	NN	O	O
-been	NN	O	O
-shown	NN	O	O
-to	NN	O	O
-induce	NN	O	B-Process
-T	NN	O	I-Process
-helper	NN	O	I-Process
-1	NN	O	I-Process
-(	NN	O	O
-Th1	NN	O	O
-)	NN	O	O
-immune	NN	O	O
-responses	NN	O	O
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-characterized	NN	O	O
-by	NN	O	O
-the	NN	O	O
-production	NN	O	B-Process
-of	NN	O	I-Process
-IFN-γ	NN	O	I-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-generation	NN	O	I-Process
-of	NN	O	I-Process
-IgG2a	NN	O	I-Process
-[	NN	O	O
-28,29	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-a	NN	O	O
-previous	NN	O	O
-study	NN	O	O
-had	NN	O	O
-demonstrated	NN	O	O
-that	NN	O	O
-different	NN	O	O
-liposomes	NN	O	B-Material
-with	NN	O	O
-CpG	NN	O	O
-ODN	NN	O	O
-significantly	NN	O	O
-increased	NN	O	O
-Th1-biased	NN	O	B-Material
-cytokines	NN	O	I-Material
-and	NN	O	O
-augmented	NN	O	B-Process
-cell	NN	O	I-Process
-mediated	NN	O	I-Process
-immune	NN	O	I-Process
-response	NN	O	I-Process
-[	NN	O	O
-30	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Immunopotentiators	0	18	B-Material
+activate	19	27	B-Process
+innate	28	34	I-Process
+immunity	35	43	I-Process
+directly	44	52	O
+(	53	54	O
+for	54	57	O
+example	58	65	O
+,	65	66	O
+cytokines	67	76	O
+)	76	77	O
+or	78	80	O
+through	81	88	O
+pattern	89	96	B-Process
+-	96	97	I-Process
+recognition	97	108	I-Process
+receptors	109	118	I-Process
+(	119	120	O
+PRRs	120	124	B-Process
+,	124	125	O
+such	126	130	O
+as	131	133	O
+those	134	139	O
+for	140	143	O
+bacterial	144	153	O
+components	154	164	O
+)	164	165	O
+.	165	166	O
+
+The	167	170	O
+Toll	171	175	B-Process
+-	175	176	I-Process
+like	176	180	I-Process
+receptors	181	190	I-Process
+(	191	192	O
+TLRs	192	196	B-Process
+)	196	197	O
+are	198	201	O
+a	202	203	O
+family	204	210	O
+of	211	213	O
+PRRs	214	218	B-Process
+that	219	223	O
+are	224	227	O
+an	228	230	O
+important	231	240	O
+link	241	245	O
+between	246	253	O
+innate	254	260	O
+and	261	264	O
+adaptive	265	273	O
+immunity	274	282	O
+.	282	283	O
+
+Some	284	288	O
+studies	289	296	O
+have	297	301	O
+shown	302	307	O
+that	308	312	O
+TLR	313	316	B-Material
+ligands	317	324	I-Material
+have	325	329	O
+adjuvant	330	338	O
+activity	339	347	O
+and	348	351	O
+enhance	352	359	O
+antigen	360	367	O
+-	367	368	O
+specific	368	376	O
+antibody	377	385	O
+and	386	389	O
+cell	390	394	O
+-	394	395	O
+mediated	395	403	O
+immune	404	410	O
+responses	411	420	O
+,	420	421	O
+especially	422	432	O
+when	433	437	O
+they	438	442	O
+are	443	446	O
+combined	447	455	O
+with	456	460	O
+delivery	461	469	O
+systems	470	477	O
+that	478	482	O
+promote	483	490	O
+their	491	496	O
+uptake	497	503	O
+and	504	507	O
+delivery	508	516	O
+into	517	521	O
+antigen	522	529	B-Material
+-	529	530	I-Material
+presenting	530	540	I-Material
+cells	541	546	I-Material
+[	547	548	O
+22–24	548	553	O
+]	553	554	O
+.	554	555	O
+
+For	556	559	O
+clinical	560	568	B-Task
+studies	569	576	I-Task
+,	576	577	O
+TLR9	578	582	B-Material
+is	583	585	O
+generally	586	595	O
+stimulated	596	606	B-Process
+with	607	611	O
+synthetic	612	621	B-Material
+oligodeoxynucleotides	622	643	I-Material
+containing	644	654	O
+one	655	658	O
+or	659	661	O
+more	662	666	O
+unmethylated	667	679	B-Material
+CpG	680	683	I-Material
+dinucleotides	684	697	I-Material
+.	697	698	O
+
+In	699	701	O
+humans	702	708	O
+,	708	709	O
+CpG	710	713	B-Material
+has	714	717	O
+been	718	722	O
+used	723	727	O
+as	728	730	O
+an	731	733	O
+adjuvant	734	742	B-Material
+for	743	746	O
+infectious	747	757	B-Task
+disease	758	765	I-Task
+vaccination	766	777	I-Task
+[	778	779	O
+25,26	779	784	O
+]	784	785	O
+and	786	789	O
+in	790	792	O
+the	793	796	B-Task
+development	797	808	I-Task
+of	809	811	I-Task
+cancer	812	818	I-Task
+therapy	819	826	I-Task
+[	827	828	O
+27	828	830	O
+]	830	831	O
+.	831	832	O
+
+In	833	835	O
+a	836	837	O
+mouse	838	843	B-Process
+model	844	849	I-Process
+,	849	850	O
+CpG	851	854	B-Material
+has	855	858	O
+also	859	863	O
+been	864	868	O
+shown	869	874	O
+to	875	877	O
+induce	878	884	B-Process
+T	885	886	I-Process
+helper	887	893	I-Process
+1	894	895	I-Process
+(	896	897	O
+Th1	897	900	O
+)	900	901	O
+immune	902	908	O
+responses	909	918	O
+,	918	919	O
+which	920	925	O
+are	926	929	O
+characterized	930	943	O
+by	944	946	O
+the	947	950	O
+production	951	961	B-Process
+of	962	964	I-Process
+IFN-γ	965	970	I-Process
+and	971	974	I-Process
+the	975	978	I-Process
+generation	979	989	I-Process
+of	990	992	I-Process
+IgG2a	993	998	I-Process
+[	999	1000	O
+28,29	1000	1005	O
+]	1005	1006	O
+.	1006	1007	O
+
+Moreover	1008	1016	O
+,	1016	1017	O
+a	1018	1019	O
+previous	1020	1028	O
+study	1029	1034	O
+had	1035	1038	O
+demonstrated	1039	1051	O
+that	1052	1056	O
+different	1057	1066	O
+liposomes	1067	1076	B-Material
+with	1077	1081	O
+CpG	1082	1085	O
+ODN	1086	1089	O
+significantly	1090	1103	O
+increased	1104	1113	O
+Th1-biased	1114	1124	B-Material
+cytokines	1125	1134	I-Material
+and	1135	1138	O
+augmented	1139	1148	B-Process
+cell	1149	1153	I-Process
+mediated	1154	1162	I-Process
+immune	1163	1169	I-Process
+response	1170	1178	I-Process
+[	1179	1180	O
+30	1180	1182	O
+]	1182	1183	O
+.	1183	1184	O
 
 
 -DOCSTART- (S0168365913009036)
 
-Two	NN	O	O
-methods	NN	O	O
-of	NN	O	O
-formulating	NN	O	B-Task
-anionic	NN	O	I-Task
-nanocomplexes	NN	O	I-Task
-were	NN	O	O
-evaluated	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-both	NN	O	O
-,	NN	O	O
-nanocomplexes	NN	O	B-Material
-were	NN	O	O
-prepared	NN	O	B-Process
-in	NN	O	O
-water	NN	O	O
-at	NN	O	O
-a	NN	O	O
-range	NN	O	O
-of	NN	O	O
-molar	NN	O	O
-charge	NN	O	O
-ratios	NN	O	O
-of	NN	O	O
-L	NN	O	O
-to	NN	O	O
-D	NN	O	O
-while	NN	O	O
-the	NN	O	O
-peptide	NN	O	O
-P	NN	O	O
-to	NN	O	O
-D	NN	O	O
-molar	NN	O	O
-charge	NN	O	O
-ratio	NN	O	O
-was	NN	O	O
-maintained	NN	O	O
-constant	NN	O	O
-at	NN	O	O
-3:1	NN	O	O
-.	NN	O	O
-
-Method	NN	O	O
-1	NN	O	O
-(	NN	O	O
-L	NN	O	O
-:	NN	O	O
-D	NN	O	O
-:	NN	O	O
-P	NN	O	O
-)	NN	O	O
-
-:	NN	O	O
-DNA	NN	O	B-Material
-was	NN	O	O
-first	NN	O	O
-added	NN	O	B-Process
-to	NN	O	O
-an	NN	O	B-Material
-anionic	NN	O	I-Material
-liposome	NN	O	I-Material
-(	NN	O	O
-LA	NN	O	B-Material
-,	NN	O	I-Material
-LAP1	NN	O	I-Material
-or	NN	O	I-Material
-LAP2	NN	O	I-Material
-)	NN	O	O
-and	NN	O	O
-incubated	NN	O	B-Process
-for	NN	O	O
-15min	NN	O	O
-at	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-and	NN	O	O
-then	NN	O	O
-the	NN	O	O
-peptide	NN	O	O
-was	NN	O	O
-added	NN	O	B-Process
-with	NN	O	O
-rapid	NN	O	O
-mixing	NN	O	O
-and	NN	O	O
-incubated	NN	O	B-Process
-at	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-for	NN	O	O
-a	NN	O	O
-further	NN	O	O
-20min	NN	O	O
-;	NN	O	O
-Method	NN	O	O
-2	NN	O	O
-(	NN	O	O
-P	NN	O	O
-:	NN	O	O
-D	NN	O	O
-:	NN	O	O
-L	NN	O	O
-)	NN	O	O
-:	NN	O	O
-the	NN	O	O
-peptide	NN	O	B-Material
-was	NN	O	O
-added	NN	O	B-Process
-to	NN	O	O
-the	NN	O	O
-DNA	NN	O	O
-and	NN	O	O
-incubated	NN	O	B-Process
-for	NN	O	O
-15min	NN	O	O
-at	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-and	NN	O	O
-then	NN	O	O
-liposome	NN	O	B-Material
-was	NN	O	O
-added	NN	O	B-Process
-with	NN	O	O
-rapid	NN	O	O
-mixing	NN	O	O
-and	NN	O	O
-incubated	NN	O	B-Process
-at	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-for	NN	O	O
-a	NN	O	O
-further	NN	O	O
-20min	NN	O	O
-.	NN	O	O
-
-Irrespective	NN	O	O
-of	NN	O	O
-the	NN	O	O
-method	NN	O	O
-of	NN	O	O
-order	NN	O	O
-of	NN	O	O
-mixing	NN	O	O
-,	NN	O	O
-all	NN	O	O
-molar	NN	O	O
-charge	NN	O	O
-ratios	NN	O	O
-in	NN	O	O
-this	NN	O	O
-study	NN	O	O
-refer	NN	O	O
-to	NN	O	O
-L	NN	O	O
-:	NN	O	O
-P	NN	O	O
-:	NN	O	O
-D.	NN	O	O
-Cationic	NN	O	O
-formulations	NN	O	O
-LPD	NN	O	B-Material
-and	NN	O	O
-LCPRGPD	NN	O	B-Material
-were	NN	O	O
-prepared	NN	O	O
-in	NN	O	O
-the	NN	O	O
-order	NN	O	O
-L	NN	O	O
-:	NN	O	O
-P	NN	O	O
-:	NN	O	O
-D	NN	O	O
-as	NN	O	O
-described	NN	O	O
-previously	NN	O	O
-;	NN	O	O
-first	NN	O	O
-,	NN	O	O
-the	NN	O	O
-peptide	NN	O	O
-was	NN	O	O
-added	NN	O	B-Process
-to	NN	O	O
-the	NN	O	O
-liposome	NN	O	O
-DOTMA	NN	O	B-Material
-/	NN	O	O
-
-DOPE	NN	O	B-Material
-or	NN	O	O
-LCPRG	NN	O	B-Material
-followed	NN	O	O
-by	NN	O	O
-addition	NN	O	O
-of	NN	O	O
-the	NN	O	O
-DNA	NN	O	B-Material
-with	NN	O	O
-rapid	NN	O	B-Process
-mixing	NN	O	I-Process
-and	NN	O	I-Process
-incubated	NN	O	I-Process
-for	NN	O	O
-30min	NN	O	O
-at	NN	O	O
-room	NN	O	O
-temperature	NN	O	O
-to	NN	O	O
-allow	NN	O	O
-for	NN	O	O
-complex	NN	O	O
-formation	NN	O	O
-[	NN	O	O
-30	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-nanocomplexes	NN	O	O
-prepared	NN	O	O
-were	NN	O	O
-termed	NN	O	O
-LPD	NN	O	B-Material
-(	NN	O	O
-liposome	NN	O	B-Material
-DOTMA	NN	O	I-Material
-/	NN	O	I-Material
-DOPE	NN	O	I-Material
-)	NN	O	O
-,	NN	O	O
-LADP	NN	O	B-Material
-and	NN	O	O
-PDLA	NN	O	B-Material
-(	NN	O	O
-liposome	NN	O	B-Material
-LA	NN	O	I-Material
-)	NN	O	O
-,	NN	O	O
-
-PDLAP1	NN	O	B-Material
-(	NN	O	O
-liposome	NN	O	B-Material
-LAP1	NN	O	I-Material
-)	NN	O	O
-,	NN	O	O
-PDLAP2	NN	O	B-Material
-
-(	NN	O	O
-liposome	NN	O	B-Material
-LAP2	NN	O	I-Material
-)	NN	O	O
-,	NN	O	O
-PDLAPRG	NN	O	B-Material
-(	NN	O	O
-liposome	NN	O	B-Material
-LAPRG	NN	O	I-Material
-)	NN	O	O
-and	NN	O	O
-LCPRGPD	NN	O	B-Material
-(	NN	O	O
-liposome	NN	O	B-Material
-LCPRG	NN	O	I-Material
-)	NN	O	O
-.	NN	O	O
+Two	0	3	O
+methods	4	11	O
+of	12	14	O
+formulating	15	26	B-Task
+anionic	27	34	I-Task
+nanocomplexes	35	48	I-Task
+were	49	53	O
+evaluated	54	63	O
+.	63	64	O
+
+In	65	67	O
+both	68	72	O
+,	72	73	O
+nanocomplexes	74	87	B-Material
+were	88	92	O
+prepared	93	101	B-Process
+in	102	104	O
+water	105	110	O
+at	111	113	O
+a	114	115	O
+range	116	121	O
+of	122	124	O
+molar	125	130	O
+charge	131	137	O
+ratios	138	144	O
+of	145	147	O
+L	148	149	O
+to	150	152	O
+D	153	154	O
+while	155	160	O
+the	161	164	O
+peptide	165	172	O
+P	173	174	O
+to	175	177	O
+D	178	179	O
+molar	180	185	O
+charge	186	192	O
+ratio	193	198	O
+was	199	202	O
+maintained	203	213	O
+constant	214	222	O
+at	223	225	O
+3:1	226	229	O
+.	229	230	O
+
+Method	231	237	O
+1	238	239	O
+(	240	241	O
+L	241	242	O
+:	242	243	O
+D	243	244	O
+:	244	245	O
+P	245	246	O
+)	246	247	O
+
+:	247	248	O
+DNA	249	252	B-Material
+was	253	256	O
+first	257	262	O
+added	263	268	B-Process
+to	269	271	O
+an	272	274	B-Material
+anionic	275	282	I-Material
+liposome	283	291	I-Material
+(	292	293	O
+LA	293	295	B-Material
+,	295	296	I-Material
+LAP1	297	301	I-Material
+or	302	304	I-Material
+LAP2	305	309	I-Material
+)	309	310	O
+and	311	314	O
+incubated	315	324	B-Process
+for	325	328	O
+15min	329	334	O
+at	335	337	O
+room	338	342	O
+temperature	343	354	O
+and	355	358	O
+then	359	363	O
+the	364	367	O
+peptide	368	375	O
+was	376	379	O
+added	380	385	B-Process
+with	386	390	O
+rapid	391	396	O
+mixing	397	403	O
+and	404	407	O
+incubated	408	417	B-Process
+at	418	420	O
+room	421	425	O
+temperature	426	437	O
+for	438	441	O
+a	442	443	O
+further	444	451	O
+20min	452	457	O
+;	457	458	O
+Method	459	465	O
+2	466	467	O
+(	468	469	O
+P	469	470	O
+:	470	471	O
+D	471	472	O
+:	472	473	O
+L	473	474	O
+)	474	475	O
+:	475	476	O
+the	477	480	O
+peptide	481	488	B-Material
+was	489	492	O
+added	493	498	B-Process
+to	499	501	O
+the	502	505	O
+DNA	506	509	O
+and	510	513	O
+incubated	514	523	B-Process
+for	524	527	O
+15min	528	533	O
+at	534	536	O
+room	537	541	O
+temperature	542	553	O
+and	554	557	O
+then	558	562	O
+liposome	563	571	B-Material
+was	572	575	O
+added	576	581	B-Process
+with	582	586	O
+rapid	587	592	O
+mixing	593	599	O
+and	600	603	O
+incubated	604	613	B-Process
+at	614	616	O
+room	617	621	O
+temperature	622	633	O
+for	634	637	O
+a	638	639	O
+further	640	647	O
+20min	648	653	O
+.	653	654	O
+
+Irrespective	655	667	O
+of	668	670	O
+the	671	674	O
+method	675	681	O
+of	682	684	O
+order	685	690	O
+of	691	693	O
+mixing	694	700	O
+,	700	701	O
+all	702	705	O
+molar	706	711	O
+charge	712	718	O
+ratios	719	725	O
+in	726	728	O
+this	729	733	O
+study	734	739	O
+refer	740	745	O
+to	746	748	O
+L	749	750	O
+:	750	751	O
+P	751	752	O
+:	752	753	O
+D.	753	755	O
+Cationic	756	764	O
+formulations	765	777	O
+LPD	778	781	B-Material
+and	782	785	O
+LCPRGPD	786	793	B-Material
+were	794	798	O
+prepared	799	807	O
+in	808	810	O
+the	811	814	O
+order	815	820	O
+L	821	822	O
+:	822	823	O
+P	823	824	O
+:	824	825	O
+D	825	826	O
+as	827	829	O
+described	830	839	O
+previously	840	850	O
+;	850	851	O
+first	852	857	O
+,	857	858	O
+the	859	862	O
+peptide	863	870	O
+was	871	874	O
+added	875	880	B-Process
+to	881	883	O
+the	884	887	O
+liposome	888	896	O
+DOTMA	897	902	B-Material
+/	902	903	O
+
+DOPE	903	907	B-Material
+or	908	910	O
+LCPRG	911	916	B-Material
+followed	917	925	O
+by	926	928	O
+addition	929	937	O
+of	938	940	O
+the	941	944	O
+DNA	945	948	B-Material
+with	949	953	O
+rapid	954	959	B-Process
+mixing	960	966	I-Process
+and	967	970	I-Process
+incubated	971	980	I-Process
+for	981	984	O
+30min	985	990	O
+at	991	993	O
+room	994	998	O
+temperature	999	1010	O
+to	1011	1013	O
+allow	1014	1019	O
+for	1020	1023	O
+complex	1024	1031	O
+formation	1032	1041	O
+[	1042	1043	O
+30	1043	1045	O
+]	1045	1046	O
+.	1046	1047	O
+
+The	1048	1051	O
+nanocomplexes	1052	1065	O
+prepared	1066	1074	O
+were	1075	1079	O
+termed	1080	1086	O
+LPD	1087	1090	B-Material
+(	1091	1092	O
+liposome	1092	1100	B-Material
+DOTMA	1101	1106	I-Material
+/	1106	1107	I-Material
+DOPE	1107	1111	I-Material
+)	1111	1112	O
+,	1112	1113	O
+LADP	1114	1118	B-Material
+and	1119	1122	O
+PDLA	1123	1127	B-Material
+(	1128	1129	O
+liposome	1129	1137	B-Material
+LA	1138	1140	I-Material
+)	1140	1141	O
+,	1141	1142	O
+
+PDLAP1	1143	1149	B-Material
+(	1150	1151	O
+liposome	1151	1159	B-Material
+LAP1	1160	1164	I-Material
+)	1164	1165	O
+,	1165	1166	O
+PDLAP2	1167	1173	B-Material
+
+(	1174	1175	O
+liposome	1175	1183	B-Material
+LAP2	1184	1188	I-Material
+)	1188	1189	O
+,	1189	1190	O
+PDLAPRG	1191	1198	B-Material
+(	1199	1200	O
+liposome	1200	1208	B-Material
+LAPRG	1209	1214	I-Material
+)	1214	1215	O
+and	1216	1219	O
+LCPRGPD	1220	1227	B-Material
+(	1228	1229	O
+liposome	1229	1237	B-Material
+LCPRG	1238	1243	I-Material
+)	1243	1244	O
+.	1244	1245	O
 
 
 -DOCSTART- (S0168874X1630049X)
 
-The	NN	O	O
-crack	NN	O	B-Process
-band	NN	O	I-Process
-approach	NN	O	I-Process
-for	NN	O	O
-producing	NN	O	O
-mesh	NN	O	O
-independent	NN	O	O
-load	NN	O	O
-–	NN	O	O
-displacement	NN	O	O
-curves	NN	O	O
-for	NN	O	O
-fracture	NN	O	O
-in	NN	O	O
-plain	NN	O	O
-concrete	NN	O	O
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-idea	NN	O	O
-that	NN	O	O
-the	NN	O	O
-crack	NN	O	O
-opening	NN	O	O
-is	NN	O	O
-transformed	NN	O	O
-into	NN	O	O
-inelastic	NN	O	O
-strain	NN	O	O
-by	NN	O	O
-distributing	NN	O	O
-it	NN	O	O
-over	NN	O	O
-an	NN	O	O
-element	NN	O	O
-length	NN	O	O
-dependent	NN	O	O
-zone	NN	O	O
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-approach	NN	O	O
-will	NN	O	O
-only	NN	O	O
-produce	NN	O	O
-mesh	NN	O	O
-independent	NN	O	O
-load	NN	O	O
-–	NN	O	O
-displacement	NN	O	O
-curves	NN	O	O
-,	NN	O	O
-if	NN	O	O
-the	NN	O	O
-inelastic	NN	O	O
-strain	NN	O	O
-profiles	NN	O	O
-in	NN	O	O
-the	NN	O	O
-finite	NN	O	O
-element	NN	O	O
-analysis	NN	O	O
-are	NN	O	O
-mesh	NN	O	O
-size	NN	O	O
-dependent	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-requirement	NN	O	O
-is	NN	O	O
-an	NN	O	O
-important	NN	O	O
-difference	NN	O	O
-to	NN	O	O
-the	NN	O	O
-nonlocal	NN	O	O
-model	NN	O	O
-which	NN	O	O
-is	NN	O	O
-designed	NN	O	O
-to	NN	O	O
-produce	NN	O	O
-both	NN	O	O
-mesh	NN	O	O
-size	NN	O	O
-independent	NN	O	O
-load	NN	O	O
-–	NN	O	O
-displacement	NN	O	O
-curves	NN	O	O
-and	NN	O	O
-strain	NN	O	O
-profiles	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-CDPM2	NN	O	O
-,	NN	O	O
-the	NN	O	O
-crack	NN	O	B-Process
-band	NN	O	I-Process
-approach	NN	O	I-Process
-is	NN	O	O
-applied	NN	O	O
-only	NN	O	O
-to	NN	O	O
-the	NN	O	O
-tensile	NN	O	B-Material
-part	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-damage	NN	O	O
-algorithm	NN	O	O
-by	NN	O	O
-replacing	NN	O	O
-the	NN	O	O
-stress	NN	O	B-Process
-–	NN	O	I-Process
-inelastic	NN	O	I-Process
-strain	NN	O	I-Process
-law	NN	O	I-Process
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-2(b	NN	O	O
-)	NN	O	O
-by	NN	O	O
-a	NN	O	O
-stress	NN	O	B-Process
-–	NN	O	I-Process
-inelastic	NN	O	I-Process
-displacement	NN	O	I-Process
-law	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-form(13)σ=ftexp(−ϵinhwft)if(ϵin>0)Here	NN	O	B-Process
-
-,	NN	O	O
-wft	NN	O	O
-is	NN	O	O
-a	NN	O	O
-crack	NN	O	O
-opening	NN	O	O
-threshold	NN	O	O
-used	NN	O	O
-to	NN	O	O
-control	NN	O	O
-the	NN	O	O
-slope	NN	O	O
-of	NN	O	O
-the	NN	O	O
-softening	NN	O	O
-curve	NN	O	O
-and	NN	O	O
-h	NN	O	O
-is	NN	O	O
-the	NN	O	O
-width	NN	O	O
-of	NN	O	O
-the	NN	O	O
-crack	NN	O	O
--	NN	O	O
-band	NN	O	O
-,	NN	O	O
-which	NN	O	O
-in	NN	O	O
-the	NN	O	O
-present	NN	O	O
-study	NN	O	O
-is	NN	O	O
-equal	NN	O	O
-to	NN	O	O
-the	NN	O	O
-maximum	NN	O	O
-dimension	NN	O	O
-of	NN	O	O
-the	NN	O	O
-element	NN	O	O
-along	NN	O	O
-the	NN	O	O
-principal	NN	O	O
-direction	NN	O	O
-of	NN	O	O
-the	NN	O	O
-strain	NN	O	O
-tensor	NN	O	O
-corresponding	NN	O	O
-to	NN	O	O
-the	NN	O	O
-maximum	NN	O	O
-tensile	NN	O	O
-principal	NN	O	O
-strain	NN	O	O
-at	NN	O	O
-the	NN	O	O
-onset	NN	O	O
-of	NN	O	O
-damage	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-compressive	NN	O	O
-part	NN	O	O
-,	NN	O	O
-a	NN	O	O
-stress	NN	O	B-Process
-–	NN	O	I-Process
-inelastic	NN	O	I-Process
-strain	NN	O	I-Process
-law	NN	O	I-Process
-was	NN	O	O
-used	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-the	NN	O	O
-compressive	NN	O	O
-damage	NN	O	O
-parameter	NN	O	O
-,	NN	O	O
-since	NN	O	O
-it	NN	O	O
-was	NN	O	O
-reported	NN	O	O
-in	NN	O	O
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-for	NN	O	O
-columns	NN	O	O
-subjected	NN	O	O
-to	NN	O	O
-eccentric	NN	O	O
-compression	NN	O	O
-that	NN	O	O
-inelastic	NN	O	B-Material
-strain	NN	O	I-Material
-profiles	NN	O	I-Material
-in	NN	O	O
-compression	NN	O	O
-do	NN	O	O
-not	NN	O	O
-exhibit	NN	O	O
-a	NN	O	O
-mesh	NN	O	O
-dependence	NN	O	O
-which	NN	O	O
-would	NN	O	O
-satisfy	NN	O	O
-the	NN	O	O
-assumptions	NN	O	O
-of	NN	O	O
-the	NN	O	O
-crack	NN	O	O
--	NN	O	O
-band	NN	O	O
-approach	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-approach	NN	O	O
-of	NN	O	O
-applying	NN	O	O
-the	NN	O	O
-crack	NN	O	B-Process
--	NN	O	I-Process
-band	NN	O	I-Process
-approach	NN	O	I-Process
-only	NN	O	O
-to	NN	O	O
-the	NN	O	O
-tensile	NN	O	B-Material
-part	NN	O	I-Material
-has	NN	O	O
-already	NN	O	O
-been	NN	O	O
-successfully	NN	O	O
-used	NN	O	O
-in	NN	O	O
-Grassl	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+crack	4	9	B-Process
+band	10	14	I-Process
+approach	15	23	I-Process
+for	24	27	O
+producing	28	37	O
+mesh	38	42	O
+independent	43	54	O
+load	55	59	O
+–	59	60	O
+displacement	60	72	O
+curves	73	79	O
+for	80	83	O
+fracture	84	92	O
+in	93	95	O
+plain	96	101	O
+concrete	102	110	O
+is	111	113	O
+based	114	119	O
+on	120	122	O
+the	123	126	O
+idea	127	131	O
+that	132	136	O
+the	137	140	O
+crack	141	146	O
+opening	147	154	O
+is	155	157	O
+transformed	158	169	O
+into	170	174	O
+inelastic	175	184	O
+strain	185	191	O
+by	192	194	O
+distributing	195	207	O
+it	208	210	O
+over	211	215	O
+an	216	218	O
+element	219	226	O
+length	227	233	O
+dependent	234	243	O
+zone	244	248	O
+[	249	250	O
+5	250	251	O
+]	251	252	O
+.	252	253	O
+
+This	254	258	O
+approach	259	267	O
+will	268	272	O
+only	273	277	O
+produce	278	285	O
+mesh	286	290	O
+independent	291	302	O
+load	303	307	O
+–	307	308	O
+displacement	308	320	O
+curves	321	327	O
+,	327	328	O
+if	329	331	O
+the	332	335	O
+inelastic	336	345	O
+strain	346	352	O
+profiles	353	361	O
+in	362	364	O
+the	365	368	O
+finite	369	375	O
+element	376	383	O
+analysis	384	392	O
+are	393	396	O
+mesh	397	401	O
+size	402	406	O
+dependent	407	416	O
+.	416	417	O
+
+This	418	422	O
+requirement	423	434	O
+is	435	437	O
+an	438	440	O
+important	441	450	O
+difference	451	461	O
+to	462	464	O
+the	465	468	O
+nonlocal	469	477	O
+model	478	483	O
+which	484	489	O
+is	490	492	O
+designed	493	501	O
+to	502	504	O
+produce	505	512	O
+both	513	517	O
+mesh	518	522	O
+size	523	527	O
+independent	528	539	O
+load	540	544	O
+–	544	545	O
+displacement	545	557	O
+curves	558	564	O
+and	565	568	O
+strain	569	575	O
+profiles	576	584	O
+.	584	585	O
+
+In	586	588	O
+CDPM2	589	594	O
+,	594	595	O
+the	596	599	O
+crack	600	605	B-Process
+band	606	610	I-Process
+approach	611	619	I-Process
+is	620	622	O
+applied	623	630	O
+only	631	635	O
+to	636	638	O
+the	639	642	O
+tensile	643	650	B-Material
+part	651	655	I-Material
+of	656	658	O
+the	659	662	O
+damage	663	669	O
+algorithm	670	679	O
+by	680	682	O
+replacing	683	692	O
+the	693	696	O
+stress	697	703	B-Process
+–	703	704	I-Process
+inelastic	704	713	I-Process
+strain	714	720	I-Process
+law	721	724	I-Process
+shown	725	730	O
+in	731	733	O
+Fig	734	737	O
+.	737	738	O
+
+2(b	739	742	O
+)	742	743	O
+by	744	746	O
+a	747	748	O
+stress	749	755	B-Process
+–	755	756	I-Process
+inelastic	756	765	I-Process
+displacement	766	778	I-Process
+law	779	782	I-Process
+of	783	785	O
+the	786	789	O
+form(13)σ=ftexp(−ϵinhwft)if(ϵin>0)Here	790	828	B-Process
+
+,	828	829	O
+wft	830	833	O
+is	834	836	O
+a	837	838	O
+crack	839	844	O
+opening	845	852	O
+threshold	853	862	O
+used	863	867	O
+to	868	870	O
+control	871	878	O
+the	879	882	O
+slope	883	888	O
+of	889	891	O
+the	892	895	O
+softening	896	905	O
+curve	906	911	O
+and	912	915	O
+h	916	917	O
+is	918	920	O
+the	921	924	O
+width	925	930	O
+of	931	933	O
+the	934	937	O
+crack	938	943	O
+-	943	944	O
+band	944	948	O
+,	948	949	O
+which	950	955	O
+in	956	958	O
+the	959	962	O
+present	963	970	O
+study	971	976	O
+is	977	979	O
+equal	980	985	O
+to	986	988	O
+the	989	992	O
+maximum	993	1000	O
+dimension	1001	1010	O
+of	1011	1013	O
+the	1014	1017	O
+element	1018	1025	O
+along	1026	1031	O
+the	1032	1035	O
+principal	1036	1045	O
+direction	1046	1055	O
+of	1056	1058	O
+the	1059	1062	O
+strain	1063	1069	O
+tensor	1070	1076	O
+corresponding	1077	1090	O
+to	1091	1093	O
+the	1094	1097	O
+maximum	1098	1105	O
+tensile	1106	1113	O
+principal	1114	1123	O
+strain	1124	1130	O
+at	1131	1133	O
+the	1134	1137	O
+onset	1138	1143	O
+of	1144	1146	O
+damage	1147	1153	O
+.	1153	1154	O
+
+For	1155	1158	O
+the	1159	1162	O
+compressive	1163	1174	O
+part	1175	1179	O
+,	1179	1180	O
+a	1181	1182	O
+stress	1183	1189	B-Process
+–	1189	1190	I-Process
+inelastic	1190	1199	I-Process
+strain	1200	1206	I-Process
+law	1207	1210	I-Process
+was	1211	1214	O
+used	1215	1219	O
+to	1220	1222	O
+determine	1223	1232	O
+the	1233	1236	O
+compressive	1237	1248	O
+damage	1249	1255	O
+parameter	1256	1265	O
+,	1265	1266	O
+since	1267	1272	O
+it	1273	1275	O
+was	1276	1279	O
+reported	1280	1288	O
+in	1289	1291	O
+[	1292	1293	O
+14	1293	1295	O
+]	1295	1296	O
+for	1297	1300	O
+columns	1301	1308	O
+subjected	1309	1318	O
+to	1319	1321	O
+eccentric	1322	1331	O
+compression	1332	1343	O
+that	1344	1348	O
+inelastic	1349	1358	B-Material
+strain	1359	1365	I-Material
+profiles	1366	1374	I-Material
+in	1375	1377	O
+compression	1378	1389	O
+do	1390	1392	O
+not	1393	1396	O
+exhibit	1397	1404	O
+a	1405	1406	O
+mesh	1407	1411	O
+dependence	1412	1422	O
+which	1423	1428	O
+would	1429	1434	O
+satisfy	1435	1442	O
+the	1443	1446	O
+assumptions	1447	1458	O
+of	1459	1461	O
+the	1462	1465	O
+crack	1466	1471	O
+-	1471	1472	O
+band	1472	1476	O
+approach	1477	1485	O
+.	1485	1486	O
+
+This	1487	1491	O
+approach	1492	1500	O
+of	1501	1503	O
+applying	1504	1512	O
+the	1513	1516	O
+crack	1517	1522	B-Process
+-	1522	1523	I-Process
+band	1523	1527	I-Process
+approach	1528	1536	I-Process
+only	1537	1541	O
+to	1542	1544	O
+the	1545	1548	O
+tensile	1549	1556	B-Material
+part	1557	1561	I-Material
+has	1562	1565	O
+already	1566	1573	O
+been	1574	1578	O
+successfully	1579	1591	O
+used	1592	1596	O
+in	1597	1599	O
+Grassl	1600	1606	O
+et	1607	1609	O
+al	1610	1612	O
+.	1612	1613	O
+
+[	1614	1615	O
+16	1615	1617	O
+]	1617	1618	O
+.	1618	1619	O
 
 
 -DOCSTART- (S0254058414000662)
 
-HOMO	NN	O	B-Material
-–	NN	O	I-Material
-LUMO	NN	O	I-Material
-energy	NN	O	O
-band	NN	O	O
-gaps	NN	O	O
-between	NN	O	O
-ylides	NN	O	B-Material
-and	NN	O	O
-their	NN	O	O
-pyrene	NN	O	B-Material
-adducts	NN	O	I-Material
-
-propose	NN	O	O
-that	NN	O	O
-the	NN	O	O
-1,3-DC	NN	O	B-Material
-of	NN	O	O
-second	NN	O	B-Material
-pyridinium	NN	O	I-Material
-ylides	NN	O	I-Material
-to	NN	O	O
-ylidepyrene	NN	O	B-Material
-adducts	NN	O	I-Material
-are	NN	O	O
-HOMOylide	NN	O	O
-–	NN	O	O
-
-LUMOylide	NN	O	O
-–	NN	O	O
-pyrene	NN	O	O
-controlled	NN	O	O
-since	NN	O	O
-the	NN	O	O
-energy	NN	O	O
-band	NN	O	O
-gap	NN	O	O
-is	NN	O	O
-smaller	NN	O	O
-than	NN	O	O
-HOMOylide	NN	O	B-Material
-–	NN	O	I-Material
-pyrene	NN	O	I-Material
-–	NN	O	I-Material
-LUMOylide	NN	O	I-Material
-.	NN	O	O
-
-Regioselectivity	NN	O	B-Task
-of	NN	O	I-Task
-second	NN	O	I-Task
-cycloaddition	NN	O	I-Task
-was	NN	O	O
-predicted	NN	O	O
-using	NN	O	O
-the	NN	O	O
-atomic	NN	O	B-Process
-orbital	NN	O	I-Process
-coefficients	NN	O	I-Process
-corresponding	NN	O	O
-to	NN	O	O
-HOMOylide	NN	O	O
-–	NN	O	O
-
-LUMOylide	NN	O	O
-–	NN	O	O
-pyrene	NN	O	O
-.	NN	O	O
-
-According	NN	O	O
-to	NN	O	O
-Fukui	NN	O	O
-[	NN	O	O
-33	NN	O	O
-]	NN	O	O
-,	NN	O	O
-reactions	NN	O	O
-can	NN	O	O
-be	NN	O	O
-favorable	NN	O	O
-in	NN	O	O
-the	NN	O	O
-direction	NN	O	O
-of	NN	O	O
-maximal	NN	O	O
-HOMO	NN	O	O
-–	NN	O	O
-
-LUMO	NN	O	O
-overlapping	NN	O	O
-of	NN	O	O
-larger	NN	O	O
-coefficients	NN	O	O
-at	NN	O	O
-the	NN	O	O
-reactive	NN	O	O
-sites	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-most	NN	O	O
-favorable	NN	O	O
-interactions	NN	O	O
-between	NN	O	O
-corresponding	NN	O	O
-ylides	NN	O	B-Material
-and	NN	O	I-Material
-ylidepyrene	NN	O	I-Material
-adducts	NN	O	I-Material
-to	NN	O	O
-form	NN	O	O
-the	NN	O	O
-most	NN	O	B-Process
-favorable	NN	O	I-Process
-regioisomer	NN	O	I-Process
-conformation	NN	O	I-Process
-are	NN	O	O
-given	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3	NN	O	O
-.	NN	O	O
-
-Second	NN	O	O
-ylide	NN	O	B-Material
-addition	NN	O	O
-to	NN	O	O
-ylidepyrene	NN	O	B-Material
-structure	NN	O	O
-is	NN	O	O
-therefore	NN	O	O
-anticipated	NN	O	O
-to	NN	O	O
-proceed	NN	O	O
-via	NN	O	O
-ylideC2/C6–ylidepyrene	NN	O	B-Material
--	NN	O	I-Material
-C3	NN	O	I-Material
-and	NN	O	O
-ylideC7–ylidepyrene	NN	O	B-Material
-/	NN	O	I-Material
-C2	NN	O	I-Material
-interactions	NN	O	O
-to	NN	O	O
-produce	NN	O	O
-the	NN	O	O
-same	NN	O	O
-regioisomer	NN	O	B-Task
-conformations	NN	O	I-Task
-.	NN	O	O
-
-Considering	NN	O	O
-the	NN	O	O
-theoretical	NN	O	B-Process
-calculations	NN	O	I-Process
-performed	NN	O	O
-for	NN	O	O
-pyrrolidine	NN	O	B-Material
-attached	NN	O	I-Material
-pyrene	NN	O	I-Material
-structure	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-also	NN	O	O
-expected	NN	O	O
-that	NN	O	O
-formation	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-same	NN	O	I-Process
-type	NN	O	I-Process
-of	NN	O	I-Process
-regioisomers	NN	O	I-Process
-are	NN	O	O
-favorable	NN	O	O
-for	NN	O	O
-SWNTs	NN	O	B-Process
-after	NN	O	O
-the	NN	O	O
-1,3-DC	NN	O	B-Material
-of	NN	O	I-Material
-pyridinium	NN	O	I-Material
-ylides	NN	O	I-Material
-,	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3	NN	O	O
-.	NN	O	O
+HOMO	0	4	B-Material
+–	4	5	I-Material
+LUMO	5	9	I-Material
+energy	10	16	O
+band	17	21	O
+gaps	22	26	O
+between	27	34	O
+ylides	35	41	B-Material
+and	42	45	O
+their	46	51	O
+pyrene	52	58	B-Material
+adducts	59	66	I-Material
+
+propose	67	74	O
+that	75	79	O
+the	80	83	O
+1,3-DC	84	90	B-Material
+of	91	93	O
+second	94	100	B-Material
+pyridinium	101	111	I-Material
+ylides	112	118	I-Material
+to	119	121	O
+ylidepyrene	122	133	B-Material
+adducts	134	141	I-Material
+are	142	145	O
+HOMOylide	146	155	O
+–	155	156	O
+
+LUMOylide	156	165	O
+–	165	166	O
+pyrene	166	172	O
+controlled	173	183	O
+since	184	189	O
+the	190	193	O
+energy	194	200	O
+band	201	205	O
+gap	206	209	O
+is	210	212	O
+smaller	213	220	O
+than	221	225	O
+HOMOylide	226	235	B-Material
+–	235	236	I-Material
+pyrene	236	242	I-Material
+–	242	243	I-Material
+LUMOylide	243	252	I-Material
+.	252	253	O
+
+Regioselectivity	254	270	B-Task
+of	271	273	I-Task
+second	274	280	I-Task
+cycloaddition	281	294	I-Task
+was	295	298	O
+predicted	299	308	O
+using	309	314	O
+the	315	318	O
+atomic	319	325	B-Process
+orbital	326	333	I-Process
+coefficients	334	346	I-Process
+corresponding	347	360	O
+to	361	363	O
+HOMOylide	364	373	O
+–	373	374	O
+
+LUMOylide	374	383	O
+–	383	384	O
+pyrene	384	390	O
+.	390	391	O
+
+According	392	401	O
+to	402	404	O
+Fukui	405	410	O
+[	411	412	O
+33	412	414	O
+]	414	415	O
+,	415	416	O
+reactions	417	426	O
+can	427	430	O
+be	431	433	O
+favorable	434	443	O
+in	444	446	O
+the	447	450	O
+direction	451	460	O
+of	461	463	O
+maximal	464	471	O
+HOMO	472	476	O
+–	476	477	O
+
+LUMO	477	481	O
+overlapping	482	493	O
+of	494	496	O
+larger	497	503	O
+coefficients	504	516	O
+at	517	519	O
+the	520	523	O
+reactive	524	532	O
+sites	533	538	O
+.	538	539	O
+
+The	540	543	O
+most	544	548	O
+favorable	549	558	O
+interactions	559	571	O
+between	572	579	O
+corresponding	580	593	O
+ylides	594	600	B-Material
+and	601	604	I-Material
+ylidepyrene	605	616	I-Material
+adducts	617	624	I-Material
+to	625	627	O
+form	628	632	O
+the	633	636	O
+most	637	641	B-Process
+favorable	642	651	I-Process
+regioisomer	652	663	I-Process
+conformation	664	676	I-Process
+are	677	680	O
+given	681	686	O
+in	687	689	O
+Fig	690	693	O
+.	693	694	O
+
+3	695	696	O
+.	696	697	O
+
+Second	698	704	O
+ylide	705	710	B-Material
+addition	711	719	O
+to	720	722	O
+ylidepyrene	723	734	B-Material
+structure	735	744	O
+is	745	747	O
+therefore	748	757	O
+anticipated	758	769	O
+to	770	772	O
+proceed	773	780	O
+via	781	784	O
+ylideC2/C6–ylidepyrene	785	807	B-Material
+-	807	808	I-Material
+C3	808	810	I-Material
+and	811	814	O
+ylideC7–ylidepyrene	815	834	B-Material
+/	834	835	I-Material
+C2	835	837	I-Material
+interactions	838	850	O
+to	851	853	O
+produce	854	861	O
+the	862	865	O
+same	866	870	O
+regioisomer	871	882	B-Task
+conformations	883	896	I-Task
+.	896	897	O
+
+Considering	898	909	O
+the	910	913	O
+theoretical	914	925	B-Process
+calculations	926	938	I-Process
+performed	939	948	O
+for	949	952	O
+pyrrolidine	953	964	B-Material
+attached	965	973	I-Material
+pyrene	974	980	I-Material
+structure	981	990	O
+,	990	991	O
+it	992	994	O
+is	995	997	O
+also	998	1002	O
+expected	1003	1011	O
+that	1012	1016	O
+formation	1017	1026	B-Process
+of	1027	1029	I-Process
+the	1030	1033	I-Process
+same	1034	1038	I-Process
+type	1039	1043	I-Process
+of	1044	1046	I-Process
+regioisomers	1047	1059	I-Process
+are	1060	1063	O
+favorable	1064	1073	O
+for	1074	1077	O
+SWNTs	1078	1083	B-Process
+after	1084	1089	O
+the	1090	1093	O
+1,3-DC	1094	1100	B-Material
+of	1101	1103	I-Material
+pyridinium	1104	1114	I-Material
+ylides	1115	1121	I-Material
+,	1121	1122	O
+Fig	1123	1126	O
+.	1126	1127	O
+
+3	1128	1129	O
+.	1129	1130	O
 
 
 -DOCSTART- (S0254058415001212)
 
-Gamma	NN	O	B-Material
-titanium	NN	O	I-Material
-aluminides	NN	O	I-Material
-are	NN	O	O
-a	NN	O	O
-family	NN	O	O
-of	NN	O	O
-low	NN	O	O
-density	NN	O	O
-,	NN	O	O
-high	NN	O	O
-performance	NN	O	O
-alloys	NN	O	B-Material
-with	NN	O	O
-the	NN	O	O
-potential	NN	O	O
-to	NN	O	O
-replace	NN	O	O
-current	NN	O	O
-Ni	NN	O	B-Material
--	NN	O	I-Material
-base	NN	O	I-Material
-superalloys	NN	O	I-Material
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-production	NN	O	B-Task
-of	NN	O	I-Task
-aero	NN	O	I-Task
--	NN	O	I-Task
-engine	NN	O	I-Task
-components	NN	O	I-Task
-.	NN	O	O
-
-Investment	NN	O	B-Process
-casting	NN	O	I-Process
-is	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-most	NN	O	O
-economical	NN	O	O
-methods	NN	O	O
-to	NN	O	O
-produce	NN	O	B-Task
-titanium	NN	O	I-Task
-and	NN	O	I-Task
-titanium	NN	O	I-Task
-aluminide	NN	O	I-Task
-alloy	NN	O	I-Task
-products	NN	O	I-Task
-,	NN	O	O
-increasing	NN	O	O
-the	NN	O	B-Material
-components	NN	O	I-Material
-'	NN	O	O
-integrity	NN	O	O
-and	NN	O	O
-mechanical	NN	O	O
-properties	NN	O	O
-,	NN	O	O
-whilst	NN	O	O
-reducing	NN	O	O
-material	NN	O	O
-waste	NN	O	O
-and	NN	O	O
-machining	NN	O	O
-cost	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Titanium	NN	O	B-Material
-aluminides	NN	O	I-Material
-are	NN	O	O
-difficult	NN	O	O
-to	NN	O	O
-process	NN	O	O
-mainly	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-low	NN	O	O
-fluidity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-TiAl	NN	O	B-Material
-alloy	NN	O	I-Material
-around	NN	O	O
-its	NN	O	O
-melting	NN	O	O
-temperature	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-high	NN	O	O
-affinity	NN	O	O
-of	NN	O	O
-elements	NN	O	B-Material
-such	NN	O	O
-as	NN	O	O
-oxygen	NN	O	B-Material
-,	NN	O	O
-nitrogen	NN	O	B-Material
-etc	NN	O	O
-.	NN	O	O
-,	NN	O	O
-titanium	NN	O	B-Material
-and	NN	O	O
-its	NN	O	O
-alloys	NN	O	B-Material
-can	NN	O	O
-easily	NN	O	O
-interact	NN	O	O
-with	NN	O	O
-mould	NN	O	B-Material
-materials	NN	O	I-Material
-during	NN	O	O
-the	NN	O	O
-investment	NN	O	O
-casting	NN	O	B-Process
-process	NN	O	I-Process
-,	NN	O	O
-resulting	NN	O	O
-in	NN	O	O
-an	NN	O	O
-interaction	NN	O	B-Material
-hardened	NN	O	I-Material
-layer	NN	O	I-Material
-being	NN	O	O
-generated	NN	O	O
-at	NN	O	O
-the	NN	O	O
-metal	NN	O	B-Material
-surface	NN	O	I-Material
-[	NN	O	O
-3,4	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-hardened	NN	O	B-Material
-layer	NN	O	I-Material
-contains	NN	O	O
-a	NN	O	O
-large	NN	O	O
-amount	NN	O	O
-of	NN	O	O
-dissolved	NN	O	B-Material
-oxygen	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-it	NN	O	O
-is	NN	O	O
-very	NN	O	O
-brittle	NN	O	O
-and	NN	O	O
-susceptible	NN	O	O
-to	NN	O	O
-crack	NN	O	B-Process
-generation	NN	O	I-Process
-and	NN	O	I-Process
-propagation	NN	O	I-Process
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Gamma	0	5	B-Material
+titanium	6	14	I-Material
+aluminides	15	25	I-Material
+are	26	29	O
+a	30	31	O
+family	32	38	O
+of	39	41	O
+low	42	45	O
+density	46	53	O
+,	53	54	O
+high	55	59	O
+performance	60	71	O
+alloys	72	78	B-Material
+with	79	83	O
+the	84	87	O
+potential	88	97	O
+to	98	100	O
+replace	101	108	O
+current	109	116	O
+Ni	117	119	B-Material
+-	119	120	I-Material
+base	120	124	I-Material
+superalloys	125	136	I-Material
+used	137	141	O
+in	142	144	O
+the	145	148	O
+production	149	159	B-Task
+of	160	162	I-Task
+aero	163	167	I-Task
+-	167	168	I-Task
+engine	168	174	I-Task
+components	175	185	I-Task
+.	185	186	O
+
+Investment	187	197	B-Process
+casting	198	205	I-Process
+is	206	208	O
+one	209	212	O
+of	213	215	O
+the	216	219	O
+most	220	224	O
+economical	225	235	O
+methods	236	243	O
+to	244	246	O
+produce	247	254	B-Task
+titanium	255	263	I-Task
+and	264	267	I-Task
+titanium	268	276	I-Task
+aluminide	277	286	I-Task
+alloy	287	292	I-Task
+products	293	301	I-Task
+,	301	302	O
+increasing	303	313	O
+the	314	317	B-Material
+components	318	328	I-Material
+'	328	329	O
+integrity	330	339	O
+and	340	343	O
+mechanical	344	354	O
+properties	355	365	O
+,	365	366	O
+whilst	367	373	O
+reducing	374	382	O
+material	383	391	O
+waste	392	397	O
+and	398	401	O
+machining	402	411	O
+cost	412	416	O
+[	417	418	O
+1	418	419	O
+]	419	420	O
+.	420	421	O
+
+Titanium	422	430	B-Material
+aluminides	431	441	I-Material
+are	442	445	O
+difficult	446	455	O
+to	456	458	O
+process	459	466	O
+mainly	467	473	O
+due	474	477	O
+to	478	480	O
+the	481	484	O
+low	485	488	O
+fluidity	489	497	O
+of	498	500	O
+the	501	504	O
+TiAl	505	509	B-Material
+alloy	510	515	I-Material
+around	516	522	O
+its	523	526	O
+melting	527	534	O
+temperature	535	546	O
+[	547	548	O
+2	548	549	O
+]	549	550	O
+.	550	551	O
+
+Due	552	555	O
+to	556	558	O
+the	559	562	O
+high	563	567	O
+affinity	568	576	O
+of	577	579	O
+elements	580	588	B-Material
+such	589	593	O
+as	594	596	O
+oxygen	597	603	B-Material
+,	603	604	O
+nitrogen	605	613	B-Material
+etc	614	617	O
+.	617	618	O
+,	618	619	O
+titanium	620	628	B-Material
+and	629	632	O
+its	633	636	O
+alloys	637	643	B-Material
+can	644	647	O
+easily	648	654	O
+interact	655	663	O
+with	664	668	O
+mould	669	674	B-Material
+materials	675	684	I-Material
+during	685	691	O
+the	692	695	O
+investment	696	706	O
+casting	707	714	B-Process
+process	715	722	I-Process
+,	722	723	O
+resulting	724	733	O
+in	734	736	O
+an	737	739	O
+interaction	740	751	B-Material
+hardened	752	760	I-Material
+layer	761	766	I-Material
+being	767	772	O
+generated	773	782	O
+at	783	785	O
+the	786	789	O
+metal	790	795	B-Material
+surface	796	803	I-Material
+[	804	805	O
+3,4	805	808	O
+]	808	809	O
+.	809	810	O
+
+This	811	815	O
+hardened	816	824	B-Material
+layer	825	830	I-Material
+contains	831	839	O
+a	840	841	O
+large	842	847	O
+amount	848	854	O
+of	855	857	O
+dissolved	858	867	B-Material
+oxygen	868	874	I-Material
+,	874	875	O
+and	876	879	O
+it	880	882	O
+is	883	885	O
+very	886	890	O
+brittle	891	898	O
+and	899	902	O
+susceptible	903	914	O
+to	915	917	O
+crack	918	923	B-Process
+generation	924	934	I-Process
+and	935	938	I-Process
+propagation	939	950	I-Process
+[	951	952	O
+5	952	953	O
+]	953	954	O
+.	954	955	O
 
 
 -DOCSTART- (S025405841530136X)
 
-From	NN	O	O
-this	NN	O	O
-study	NN	O	O
-where	NN	O	O
-a	NN	O	O
-commercial	NN	O	O
-Al–12Si	NN	O	B-Material
-alloy	NN	O	I-Material
-was	NN	O	O
-inoculated	NN	O	B-Process
-with	NN	O	I-Process
-different	NN	O	I-Process
-level	NN	O	I-Process
-of	NN	O	I-Process
-Nb+B	NN	O	I-Process
-addition	NN	O	O
-to	NN	O	O
-assess	NN	O	O
-the	NN	O	O
-grain	NN	O	B-Task
-refining	NN	O	I-Task
-potency	NN	O	I-Task
-of	NN	O	I-Task
-Nb+B	NN	O	I-Task
-inoculation	NN	O	I-Task
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-concluded	NN	O	O
-that	NN	O	O
-in	NN	O	O
--	NN	O	O
-situ	NN	O	O
-formed	NN	O	O
-Nb	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-intermetallics	NN	O	I-Material
-compounds	NN	O	I-Material
-are	NN	O	O
-potent	NN	O	O
-heterogeneous	NN	O	B-Material
-nucleation	NN	O	I-Material
-substrates	NN	O	I-Material
-with	NN	O	O
-high	NN	O	O
-potency	NN	O	O
-for	NN	O	O
-the	NN	O	O
-refinement	NN	O	O
-of	NN	O	O
-Al	NN	O	O
-–	NN	O	O
-
-Si	NN	O	O
-cast	NN	O	O
-alloys	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-primary	NN	O	O
-α-Al	NN	O	B-Material
-dendritic	NN	O	I-Material
-grain	NN	O	I-Material
-size	NN	O	O
-varies	NN	O	O
-with	NN	O	O
-the	NN	O	O
-addition	NN	O	O
-level	NN	O	O
-of	NN	O	O
-Nb	NN	O	B-Material
-and	NN	O	O
-B.	NN	O	B-Material
-
-Moreover	NN	O	O
-,	NN	O	O
-significant	NN	O	O
-grain	NN	O	B-Task
-refinement	NN	O	I-Task
-over	NN	O	O
-a	NN	O	O
-wide	NN	O	B-Process
-range	NN	O	I-Process
-of	NN	O	I-Process
-cooling	NN	O	I-Process
-rates	NN	O	I-Process
-is	NN	O	O
-obtained	NN	O	O
-via	NN	O	O
-enhanced	NN	O	B-Task
-heterogeneous	NN	O	I-Task
-nucleation	NN	O	I-Task
-making	NN	O	O
-the	NN	O	O
-grain	NN	O	B-Material
-size	NN	O	O
-of	NN	O	O
-the	NN	O	O
-material	NN	O	O
-less	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-the	NN	O	O
-cooling	NN	O	O
-rate	NN	O	O
-.	NN	O	O
-
-Nb+B	NN	O	B-Material
-inoculants	NN	O	I-Material
-are	NN	O	O
-characterised	NN	O	O
-by	NN	O	O
-some	NN	O	O
-fading	NN	O	B-Process
-which	NN	O	O
-is	NN	O	O
-still	NN	O	O
-acceptable	NN	O	O
-after	NN	O	O
-4	NN	O	O
-h	NN	O	O
-of	NN	O	O
-contact	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-alloys	NN	O	B-Material
-refined	NN	O	O
-by	NN	O	O
-means	NN	O	O
-of	NN	O	O
-Nb+B	NN	O	B-Material
-inoculants	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-recycled	NN	O	O
-obtaining	NN	O	O
-a	NN	O	O
-fine	NN	O	B-Material
-grain	NN	O	I-Material
-structure	NN	O	I-Material
-with	NN	O	O
-small	NN	O	O
-addition	NN	O	O
-or	NN	O	O
-no	NN	O	O
-further	NN	O	O
-addition	NN	O	O
-of	NN	O	O
-inoculants	NN	O	B-Material
-after	NN	O	O
-the	NN	O	O
-first	NN	O	O
-initial	NN	O	O
-addition	NN	O	O
-.	NN	O	O
-
-Concluding	NN	O	O
-,	NN	O	O
-Nb+B	NN	O	B-Process
-inoculation	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-promising	NN	O	O
-candidate	NN	O	O
-for	NN	O	O
-the	NN	O	O
-refinement	NN	O	B-Task
-of	NN	O	I-Task
-cast	NN	O	I-Task
-Al	NN	O	I-Task
-alloy	NN	O	I-Task
-which	NN	O	O
-could	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-their	NN	O	O
-wider	NN	O	O
-employment	NN	O	O
-in	NN	O	O
-the	NN	O	O
-automotive	NN	O	O
-industry	NN	O	O
-with	NN	O	O
-the	NN	O	O
-resultant	NN	O	O
-intrinsic	NN	O	O
-advantages	NN	O	O
-of	NN	O	O
-lighter	NN	O	B-Task
-structural	NN	O	I-Task
-component	NN	O	I-Task
-from	NN	O	O
-an	NN	O	O
-environmental	NN	O	O
-point	NN	O	O
-of	NN	O	O
-view	NN	O	O
-.	NN	O	O
+From	0	4	O
+this	5	9	O
+study	10	15	O
+where	16	21	O
+a	22	23	O
+commercial	24	34	O
+Al–12Si	35	42	B-Material
+alloy	43	48	I-Material
+was	49	52	O
+inoculated	53	63	B-Process
+with	64	68	I-Process
+different	69	78	I-Process
+level	79	84	I-Process
+of	85	87	I-Process
+Nb+B	88	92	I-Process
+addition	93	101	O
+to	102	104	O
+assess	105	111	O
+the	112	115	O
+grain	116	121	B-Task
+refining	122	130	I-Task
+potency	131	138	I-Task
+of	139	141	I-Task
+Nb+B	142	146	I-Task
+inoculation	147	158	I-Task
+it	159	161	O
+can	162	165	O
+be	166	168	O
+concluded	169	178	O
+that	179	183	O
+in	184	186	O
+-	186	187	O
+situ	187	191	O
+formed	192	198	O
+Nb	199	201	B-Material
+-	201	202	I-Material
+based	202	207	I-Material
+intermetallics	208	222	I-Material
+compounds	223	232	I-Material
+are	233	236	O
+potent	237	243	O
+heterogeneous	244	257	B-Material
+nucleation	258	268	I-Material
+substrates	269	279	I-Material
+with	280	284	O
+high	285	289	O
+potency	290	297	O
+for	298	301	O
+the	302	305	O
+refinement	306	316	O
+of	317	319	O
+Al	320	322	O
+–	322	323	O
+
+Si	323	325	O
+cast	326	330	O
+alloys	331	337	O
+.	337	338	O
+
+The	339	342	O
+primary	343	350	O
+α-Al	351	355	B-Material
+dendritic	356	365	I-Material
+grain	366	371	I-Material
+size	372	376	O
+varies	377	383	O
+with	384	388	O
+the	389	392	O
+addition	393	401	O
+level	402	407	O
+of	408	410	O
+Nb	411	413	B-Material
+and	414	417	O
+B.	418	420	B-Material
+
+Moreover	421	429	O
+,	429	430	O
+significant	431	442	O
+grain	443	448	B-Task
+refinement	449	459	I-Task
+over	460	464	O
+a	465	466	O
+wide	467	471	B-Process
+range	472	477	I-Process
+of	478	480	I-Process
+cooling	481	488	I-Process
+rates	489	494	I-Process
+is	495	497	O
+obtained	498	506	O
+via	507	510	O
+enhanced	511	519	B-Task
+heterogeneous	520	533	I-Task
+nucleation	534	544	I-Task
+making	545	551	O
+the	552	555	O
+grain	556	561	B-Material
+size	562	566	O
+of	567	569	O
+the	570	573	O
+material	574	582	O
+less	583	587	O
+sensitive	588	597	O
+to	598	600	O
+the	601	604	O
+cooling	605	612	O
+rate	613	617	O
+.	617	618	O
+
+Nb+B	619	623	B-Material
+inoculants	624	634	I-Material
+are	635	638	O
+characterised	639	652	O
+by	653	655	O
+some	656	660	O
+fading	661	667	B-Process
+which	668	673	O
+is	674	676	O
+still	677	682	O
+acceptable	683	693	O
+after	694	699	O
+4	700	701	O
+h	702	703	O
+of	704	706	O
+contact	707	714	O
+time	715	719	O
+.	719	720	O
+
+Moreover	721	729	O
+,	729	730	O
+alloys	731	737	B-Material
+refined	738	745	O
+by	746	748	O
+means	749	754	O
+of	755	757	O
+Nb+B	758	762	B-Material
+inoculants	763	773	I-Material
+can	774	777	O
+be	778	780	O
+recycled	781	789	O
+obtaining	790	799	O
+a	800	801	O
+fine	802	806	B-Material
+grain	807	812	I-Material
+structure	813	822	I-Material
+with	823	827	O
+small	828	833	O
+addition	834	842	O
+or	843	845	O
+no	846	848	O
+further	849	856	O
+addition	857	865	O
+of	866	868	O
+inoculants	869	879	B-Material
+after	880	885	O
+the	886	889	O
+first	890	895	O
+initial	896	903	O
+addition	904	912	O
+.	912	913	O
+
+Concluding	914	924	O
+,	924	925	O
+Nb+B	926	930	B-Process
+inoculation	931	942	I-Process
+is	943	945	O
+a	946	947	O
+promising	948	957	O
+candidate	958	967	O
+for	968	971	O
+the	972	975	O
+refinement	976	986	B-Task
+of	987	989	I-Task
+cast	990	994	I-Task
+Al	995	997	I-Task
+alloy	998	1003	I-Task
+which	1004	1009	O
+could	1010	1015	O
+lead	1016	1020	O
+to	1021	1023	O
+their	1024	1029	O
+wider	1030	1035	O
+employment	1036	1046	O
+in	1047	1049	O
+the	1050	1053	O
+automotive	1054	1064	O
+industry	1065	1073	O
+with	1074	1078	O
+the	1079	1082	O
+resultant	1083	1092	O
+intrinsic	1093	1102	O
+advantages	1103	1113	O
+of	1114	1116	O
+lighter	1117	1124	B-Task
+structural	1125	1135	I-Task
+component	1136	1145	I-Task
+from	1146	1150	O
+an	1151	1153	O
+environmental	1154	1167	O
+point	1168	1173	O
+of	1174	1176	O
+view	1177	1181	O
+.	1181	1182	O
 
 
 -DOCSTART- (S0254058415304235)
 
-The	NN	O	O
-observed	NN	O	B-Task
-conductivity	NN	O	I-Task
-of	NN	O	O
-A2FeMoO6–δ	NN	O	B-Material
-(	NN	O	O
-A	NN	O	O
-=	NN	O	O
-Ca	NN	O	B-Material
-,	NN	O	O
-Sr	NN	O	B-Material
-,	NN	O	O
-Ba	NN	O	B-Material
-)	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-was	NN	O	O
-linked	NN	O	O
-to	NN	O	O
-a	NN	O	O
-potential	NN	O	O
-double	NN	O	B-Process
-exchange	NN	O	I-Process
-mechanism	NN	O	I-Process
-,	NN	O	O
-with	NN	O	O
-conduction	NN	O	O
-between	NN	O	O
-Fe3	NN	O	O
-+	NN	O	O
--O	NN	O	O
--	NN	O	O
-Mo	NN	O	O
--	NN	O	O
-O	NN	O	O
--	NN	O	O
-Fe2	NN	O	O
-
-+	NN	O	O
-.	NN	O	O
-
-Double	NN	O	B-Process
--	NN	O	I-Process
-exchange	NN	O	I-Process
-mechanisms	NN	O	I-Process
-,	NN	O	O
-as	NN	O	O
-proposed	NN	O	O
-by	NN	O	O
-Zener	NN	O	O
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-,	NN	O	O
-posit	NN	O	O
-that	NN	O	O
-electron	NN	O	B-Process
-transfer	NN	O	I-Process
-between	NN	O	O
-ions	NN	O	B-Material
-in	NN	O	O
-different	NN	O	O
-oxidation	NN	O	B-Process
-states	NN	O	O
-may	NN	O	O
-be	NN	O	O
-facilitated	NN	O	O
-if	NN	O	O
-the	NN	O	O
-electron	NN	O	B-Material
-does	NN	O	O
-not	NN	O	O
-have	NN	O	O
-to	NN	O	O
-alter	NN	O	O
-its	NN	O	O
-spin	NN	O	O
-state	NN	O	O
-.	NN	O	O
-
-Replacement	NN	O	B-Process
-of	NN	O	O
-Mo	NN	O	B-Material
-with	NN	O	O
-Fe	NN	O	B-Material
-in	NN	O	O
-this	NN	O	O
-mechanism	NN	O	O
-would	NN	O	O
-be	NN	O	O
-expected	NN	O	O
-to	NN	O	O
-result	NN	O	O
-in	NN	O	O
-a	NN	O	O
-reduction	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-conductivity	NN	O	I-Process
-through	NN	O	O
-reduction	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-available	NN	O	I-Process
-percolation	NN	O	I-Process
-pathways	NN	O	I-Process
-,	NN	O	O
-unless	NN	O	O
-delocalisation	NN	O	B-Process
-of	NN	O	I-Process
-Fe	NN	O	I-Process
-electrons	NN	O	I-Process
-through	NN	O	O
-Fe2	NN	O	O
-+	NN	O	O
--O	NN	O	O
--	NN	O	O
-Fe3	NN	O	O
-
-+	NN	O	O
-exchange	NN	O	O
-could	NN	O	O
-also	NN	O	O
-occur	NN	O	O
-.	NN	O	O
-
-Double	NN	O	B-Process
-exchange	NN	O	I-Process
-mechanisms	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-observed	NN	O	O
-previously	NN	O	O
-for	NN	O	O
-mixed	NN	O	O
-valent	NN	O	O
-iron	NN	O	B-Material
-in	NN	O	I-Material
-iron	NN	O	I-Material
-oxides	NN	O	I-Material
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-,	NN	O	O
-as	NN	O	O
-iron	NN	O	B-Material
-is	NN	O	O
-known	NN	O	O
-to	NN	O	O
-exist	NN	O	O
-in	NN	O	O
-a	NN	O	O
-mixed	NN	O	O
-valent	NN	O	O
-state	NN	O	O
-for	NN	O	O
-Ca2–xSrxFeMoO6–δ	NN	O	B-Material
-
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-,	NN	O	O
-this	NN	O	O
-provides	NN	O	O
-a	NN	O	O
-plausible	NN	O	O
-explanation	NN	O	O
-for	NN	O	O
-the	NN	O	O
-observed	NN	O	O
-metallic	NN	O	B-Task
-conductivity	NN	O	I-Task
-.	NN	O	O
-
-Band	NN	O	B-Process
-structure	NN	O	I-Process
-calculations	NN	O	I-Process
-and	NN	O	O
-Mossbauer	NN	O	B-Process
-spectroscopy	NN	O	I-Process
-could	NN	O	O
-be	NN	O	O
-utilised	NN	O	O
-to	NN	O	O
-further	NN	O	O
-elucidate	NN	O	O
-the	NN	O	O
-conduction	NN	O	B-Task
-mechanism	NN	O	I-Task
-for	NN	O	O
-these	NN	O	O
-compounds	NN	O	B-Material
-,	NN	O	O
-however	NN	O	O
-this	NN	O	O
-is	NN	O	O
-outside	NN	O	O
-the	NN	O	O
-scope	NN	O	O
-of	NN	O	O
-this	NN	O	O
-enquiry	NN	O	O
-.	NN	O	O
+The	0	3	O
+observed	4	12	B-Task
+conductivity	13	25	I-Task
+of	26	28	O
+A2FeMoO6–δ	29	39	B-Material
+(	40	41	O
+A	41	42	O
+=	43	44	O
+Ca	45	47	B-Material
+,	47	48	O
+Sr	49	51	B-Material
+,	51	52	O
+Ba	53	55	B-Material
+)	55	56	O
+[	57	58	O
+7	58	59	O
+]	59	60	O
+was	61	64	O
+linked	65	71	O
+to	72	74	O
+a	75	76	O
+potential	77	86	O
+double	87	93	B-Process
+exchange	94	102	I-Process
+mechanism	103	112	I-Process
+,	112	113	O
+with	114	118	O
+conduction	119	129	O
+between	130	137	O
+Fe3	138	141	O
++	141	142	O
+-O	142	144	O
+-	144	145	O
+Mo	145	147	O
+-	147	148	O
+O	148	149	O
+-	149	150	O
+Fe2	150	153	O
+
++	153	154	O
+.	154	155	O
+
+Double	156	162	B-Process
+-	162	163	I-Process
+exchange	163	171	I-Process
+mechanisms	172	182	I-Process
+,	182	183	O
+as	184	186	O
+proposed	187	195	O
+by	196	198	O
+Zener	199	204	O
+[	205	206	O
+23	206	208	O
+]	208	209	O
+,	209	210	O
+posit	211	216	O
+that	217	221	O
+electron	222	230	B-Process
+transfer	231	239	I-Process
+between	240	247	O
+ions	248	252	B-Material
+in	253	255	O
+different	256	265	O
+oxidation	266	275	B-Process
+states	276	282	O
+may	283	286	O
+be	287	289	O
+facilitated	290	301	O
+if	302	304	O
+the	305	308	O
+electron	309	317	B-Material
+does	318	322	O
+not	323	326	O
+have	327	331	O
+to	332	334	O
+alter	335	340	O
+its	341	344	O
+spin	345	349	O
+state	350	355	O
+.	355	356	O
+
+Replacement	357	368	B-Process
+of	369	371	O
+Mo	372	374	B-Material
+with	375	379	O
+Fe	380	382	B-Material
+in	383	385	O
+this	386	390	O
+mechanism	391	400	O
+would	401	406	O
+be	407	409	O
+expected	410	418	O
+to	419	421	O
+result	422	428	O
+in	429	431	O
+a	432	433	O
+reduction	434	443	B-Process
+of	444	446	I-Process
+the	447	450	I-Process
+conductivity	451	463	I-Process
+through	464	471	O
+reduction	472	481	B-Process
+of	482	484	I-Process
+the	485	488	I-Process
+available	489	498	I-Process
+percolation	499	510	I-Process
+pathways	511	519	I-Process
+,	519	520	O
+unless	521	527	O
+delocalisation	528	542	B-Process
+of	543	545	I-Process
+Fe	546	548	I-Process
+electrons	549	558	I-Process
+through	559	566	O
+Fe2	567	570	O
++	570	571	O
+-O	571	573	O
+-	573	574	O
+Fe3	574	577	O
+
++	577	578	O
+exchange	579	587	O
+could	588	593	O
+also	594	598	O
+occur	599	604	O
+.	604	605	O
+
+Double	606	612	B-Process
+exchange	613	621	I-Process
+mechanisms	622	632	I-Process
+have	633	637	O
+been	638	642	O
+observed	643	651	O
+previously	652	662	O
+for	663	666	O
+mixed	667	672	O
+valent	673	679	O
+iron	680	684	B-Material
+in	685	687	I-Material
+iron	688	692	I-Material
+oxides	693	699	I-Material
+[	700	701	O
+24	701	703	O
+]	703	704	O
+,	704	705	O
+and	706	709	O
+,	709	710	O
+as	711	713	O
+iron	714	718	B-Material
+is	719	721	O
+known	722	727	O
+to	728	730	O
+exist	731	736	O
+in	737	739	O
+a	740	741	O
+mixed	742	747	O
+valent	748	754	O
+state	755	760	O
+for	761	764	O
+Ca2–xSrxFeMoO6–δ	765	781	B-Material
+
+[	782	783	O
+25	783	785	O
+]	785	786	O
+,	786	787	O
+this	788	792	O
+provides	793	801	O
+a	802	803	O
+plausible	804	813	O
+explanation	814	825	O
+for	826	829	O
+the	830	833	O
+observed	834	842	O
+metallic	843	851	B-Task
+conductivity	852	864	I-Task
+.	864	865	O
+
+Band	866	870	B-Process
+structure	871	880	I-Process
+calculations	881	893	I-Process
+and	894	897	O
+Mossbauer	898	907	B-Process
+spectroscopy	908	920	I-Process
+could	921	926	O
+be	927	929	O
+utilised	930	938	O
+to	939	941	O
+further	942	949	O
+elucidate	950	959	O
+the	960	963	O
+conduction	964	974	B-Task
+mechanism	975	984	I-Task
+for	985	988	O
+these	989	994	O
+compounds	995	1004	B-Material
+,	1004	1005	O
+however	1006	1013	O
+this	1014	1018	O
+is	1019	1021	O
+outside	1022	1029	O
+the	1030	1033	O
+scope	1034	1039	O
+of	1040	1042	O
+this	1043	1047	O
+enquiry	1048	1055	O
+.	1055	1056	O
 
 
 -DOCSTART- (S0266352X16301550)
 
-To	NN	O	O
-address	NN	O	O
-the	NN	O	O
-vertical	NN	O	B-Task
-displacement	NN	O	I-Task
-estimation	NN	O	I-Task
-of	NN	O	I-Task
-conventional	NN	O	I-Task
-pile	NN	O	I-Task
-groups	NN	O	I-Task
-subjected	NN	O	I-Task
-to	NN	O	I-Task
-mechanical	NN	O	I-Task
-loads	NN	O	I-Task
-,	NN	O	O
-various	NN	O	O
-numerical	NN	O	B-Process
-and	NN	O	I-Process
-analytical	NN	O	I-Process
-methods	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-proposed	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-methods	NN	O	O
-include	NN	O	O
-the	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-method	NN	O	I-Process
-[	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-2,3	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-boundary	NN	O	B-Process
-element	NN	O	I-Process
-method	NN	O	I-Process
-[	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-4,5	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-finite	NN	O	B-Process
-difference	NN	O	I-Process
-method	NN	O	I-Process
-[	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-6	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-interaction	NN	O	B-Process
-factor	NN	O	I-Process
-method	NN	O	I-Process
-[	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-7,8–11	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-equivalent	NN	O	B-Process
-pier	NN	O	I-Process
-and	NN	O	I-Process
-raft	NN	O	I-Process
-methods	NN	O	I-Process
-[	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-12–14	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-settlement	NN	O	B-Process
-ratio	NN	O	I-Process
-method	NN	O	I-Process
-[	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-15	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-method	NN	O	I-Process
-,	NN	O	O
-while	NN	O	O
-providing	NN	O	O
-the	NN	O	O
-most	NN	O	O
-rigorous	NN	O	O
-and	NN	O	O
-exhaustive	NN	O	O
-representation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-pile	NN	O	B-Task
-group	NN	O	I-Task
--	NN	O	I-Task
-related	NN	O	I-Task
-problem	NN	O	I-Task
-,	NN	O	O
-is	NN	O	O
-generally	NN	O	O
-computationally	NN	O	O
-expensive	NN	O	O
-and	NN	O	O
-considered	NN	O	O
-mainly	NN	O	O
-a	NN	O	O
-research	NN	O	B-Material
-tool	NN	O	I-Material
-rather	NN	O	O
-than	NN	O	O
-a	NN	O	O
-design	NN	O	B-Material
-tool	NN	O	I-Material
-.	NN	O	O
-
-Conversely	NN	O	O
-,	NN	O	O
-the	NN	O	O
-versatility	NN	O	B-Process
-of	NN	O	I-Process
-simplified	NN	O	I-Process
-(	NN	O	I-Process
-approximate	NN	O	I-Process
-)	NN	O	I-Process
-methods	NN	O	I-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-interaction	NN	O	B-Process
-factor	NN	O	I-Process
-approach	NN	O	I-Process
-that	NN	O	O
-allows	NN	O	O
-capturing	NN	O	B-Process
-the	NN	O	I-Process
-(	NN	O	I-Process
-e.g.	NN	O	I-Process
-,	NN	O	I-Process
-vertical	NN	O	I-Process
-)	NN	O	I-Process
-displacements	NN	O	I-Process
-of	NN	O	I-Process
-any	NN	O	I-Process
-general	NN	O	I-Process
-pile	NN	O	I-Process
-group	NN	O	I-Process
-by	NN	O	O
-the	NN	O	O
-analysis	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-displacement	NN	O	I-Process
-interaction	NN	O	I-Process
-between	NN	O	I-Process
-two	NN	O	I-Process
-identical	NN	O	I-Process
-piles	NN	O	I-Process
-and	NN	O	O
-by	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-the	NN	O	O
-elastic	NN	O	B-Process
-principle	NN	O	I-Process
-of	NN	O	I-Process
-superposition	NN	O	I-Process
-of	NN	O	I-Process
-effects	NN	O	I-Process
-,	NN	O	O
-makes	NN	O	O
-them	NN	O	O
-attractive	NN	O	O
-as	NN	O	O
-design	NN	O	B-Material
-tools	NN	O	I-Material
-because	NN	O	O
-they	NN	O	O
-allow	NN	O	O
-for	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-expedient	NN	O	B-Task
-parametric	NN	O	I-Task
-studies	NN	O	I-Task
-under	NN	O	O
-various	NN	O	O
-design	NN	O	O
-conditions	NN	O	O
-.	NN	O	O
+To	0	2	O
+address	3	10	O
+the	11	14	O
+vertical	15	23	B-Task
+displacement	24	36	I-Task
+estimation	37	47	I-Task
+of	48	50	I-Task
+conventional	51	63	I-Task
+pile	64	68	I-Task
+groups	69	75	I-Task
+subjected	76	85	I-Task
+to	86	88	I-Task
+mechanical	89	99	I-Task
+loads	100	105	I-Task
+,	105	106	O
+various	107	114	O
+numerical	115	124	B-Process
+and	125	128	I-Process
+analytical	129	139	I-Process
+methods	140	147	I-Process
+have	148	152	O
+been	153	157	O
+proposed	158	166	O
+.	166	167	O
+
+These	168	173	O
+methods	174	181	O
+include	182	189	O
+the	190	193	O
+finite	194	200	B-Process
+element	201	208	I-Process
+method	209	215	I-Process
+[	216	217	O
+e.g.	217	221	O
+,	221	222	O
+2,3	223	226	O
+]	226	227	O
+,	227	228	O
+the	229	232	O
+boundary	233	241	B-Process
+element	242	249	I-Process
+method	250	256	I-Process
+[	257	258	O
+e.g.	258	262	O
+,	262	263	O
+4,5	264	267	O
+]	267	268	O
+,	268	269	O
+the	270	273	O
+finite	274	280	B-Process
+difference	281	291	I-Process
+method	292	298	I-Process
+[	299	300	O
+e.g.	300	304	O
+,	304	305	O
+6	306	307	O
+]	307	308	O
+,	308	309	O
+the	310	313	O
+interaction	314	325	B-Process
+factor	326	332	I-Process
+method	333	339	I-Process
+[	340	341	O
+e.g.	341	345	O
+,	345	346	O
+7,8–11	347	353	O
+]	353	354	O
+,	354	355	O
+the	356	359	O
+equivalent	360	370	B-Process
+pier	371	375	I-Process
+and	376	379	I-Process
+raft	380	384	I-Process
+methods	385	392	I-Process
+[	393	394	O
+e.g.	394	398	O
+,	398	399	O
+12–14	400	405	O
+]	405	406	O
+,	406	407	O
+and	408	411	O
+the	412	415	O
+settlement	416	426	B-Process
+ratio	427	432	I-Process
+method	433	439	I-Process
+[	440	441	O
+e.g.	441	445	O
+,	445	446	O
+15	447	449	O
+]	449	450	O
+.	450	451	O
+
+The	452	455	O
+finite	456	462	B-Process
+element	463	470	I-Process
+method	471	477	I-Process
+,	477	478	O
+while	479	484	O
+providing	485	494	O
+the	495	498	O
+most	499	503	O
+rigorous	504	512	O
+and	513	516	O
+exhaustive	517	527	O
+representation	528	542	O
+of	543	545	O
+the	546	549	O
+pile	550	554	B-Task
+group	555	560	I-Task
+-	560	561	I-Task
+related	561	568	I-Task
+problem	569	576	I-Task
+,	576	577	O
+is	578	580	O
+generally	581	590	O
+computationally	591	606	O
+expensive	607	616	O
+and	617	620	O
+considered	621	631	O
+mainly	632	638	O
+a	639	640	O
+research	641	649	B-Material
+tool	650	654	I-Material
+rather	655	661	O
+than	662	666	O
+a	667	668	O
+design	669	675	B-Material
+tool	676	680	I-Material
+.	680	681	O
+
+Conversely	682	692	O
+,	692	693	O
+the	694	697	O
+versatility	698	709	B-Process
+of	710	712	I-Process
+simplified	713	723	I-Process
+(	724	725	I-Process
+approximate	725	736	I-Process
+)	736	737	I-Process
+methods	738	745	I-Process
+,	745	746	O
+such	747	751	O
+as	752	754	O
+the	755	758	O
+interaction	759	770	B-Process
+factor	771	777	I-Process
+approach	778	786	I-Process
+that	787	791	O
+allows	792	798	O
+capturing	799	808	B-Process
+the	809	812	I-Process
+(	813	814	I-Process
+e.g.	814	818	I-Process
+,	818	819	I-Process
+vertical	820	828	I-Process
+)	828	829	I-Process
+displacements	830	843	I-Process
+of	844	846	I-Process
+any	847	850	I-Process
+general	851	858	I-Process
+pile	859	863	I-Process
+group	864	869	I-Process
+by	870	872	O
+the	873	876	O
+analysis	877	885	B-Process
+of	886	888	I-Process
+the	889	892	I-Process
+displacement	893	905	I-Process
+interaction	906	917	I-Process
+between	918	925	I-Process
+two	926	929	I-Process
+identical	930	939	I-Process
+piles	940	945	I-Process
+and	946	949	O
+by	950	952	O
+the	953	956	O
+use	957	960	O
+of	961	963	O
+the	964	967	O
+elastic	968	975	B-Process
+principle	976	985	I-Process
+of	986	988	I-Process
+superposition	989	1002	I-Process
+of	1003	1005	I-Process
+effects	1006	1013	I-Process
+,	1013	1014	O
+makes	1015	1020	O
+them	1021	1025	O
+attractive	1026	1036	O
+as	1037	1039	O
+design	1040	1046	B-Material
+tools	1047	1052	I-Material
+because	1053	1060	O
+they	1061	1065	O
+allow	1066	1071	O
+for	1072	1075	O
+the	1076	1079	O
+use	1080	1083	O
+of	1084	1086	O
+expedient	1087	1096	B-Task
+parametric	1097	1107	I-Task
+studies	1108	1115	I-Task
+under	1116	1121	O
+various	1122	1129	O
+design	1130	1136	O
+conditions	1137	1147	O
+.	1147	1148	O
 
 
 -DOCSTART- (S0301010414003115)
 
-The	NN	O	O
-optimised	NN	O	B-Task
-structure	NN	O	I-Task
-at	NN	O	O
-the	NN	O	O
-B3LYP	NN	O	B-Process
-/	NN	O	I-Process
-aug	NN	O	I-Process
--	NN	O	I-Process
-cc	NN	O	I-Process
--	NN	O	I-Process
-pVTZ	NN	O	I-Process
-level	NN	O	O
-was	NN	O	O
-then	NN	O	O
-used	NN	O	O
-to	NN	O	O
-perform	NN	O	O
-calculations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-lowest	NN	O	B-Process
-electronic	NN	O	I-Process
-singlet	NN	O	I-Process
-excited	NN	O	O
-states	NN	O	O
-with	NN	O	O
-the	NN	O	O
-coupled	NN	O	O
-cluster	NN	O	O
-linear	NN	O	B-Process
-response	NN	O	I-Process
-(	NN	O	O
-LR	NN	O	B-Process
-)	NN	O	O
-coupled	NN	O	B-Process
-cluster	NN	O	I-Process
-hierarchy	NN	O	I-Process
-CCS	NN	O	B-Process
-,	NN	O	O
-CC2	NN	O	B-Process
-,	NN	O	O
-CCSD	NN	O	B-Process
-and	NN	O	O
-CC3	NN	O	B-Process
-,	NN	O	O
-along	NN	O	O
-with	NN	O	O
-perturbative	NN	O	B-Process
-corrected	NN	O	I-Process
-methods	NN	O	I-Process
-CIS(D	NN	O	B-Process
-)	NN	O	I-Process
-and	NN	O	O
-CCSDR(3	NN	O	B-Process
-)	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-correlated	NN	O	B-Process
-response	NN	O	I-Process
-methods	NN	O	I-Process
-were	NN	O	O
-performed	NN	O	O
-with	NN	O	O
-an	NN	O	O
-all	NN	O	O
--	NN	O	O
-electron	NN	O	O
-atomic	NN	O	B-Process
-natural	NN	O	I-Process
-orbital	NN	O	I-Process
-(	NN	O	O
-ANO	NN	O	B-Process
-)	NN	O	O
-basis	NN	O	O
-set	NN	O	O
-contracted	NN	O	O
-to	NN	O	O
-6s5p4d3f1	NN	O	B-Process
-g	NN	O	I-Process
-on	NN	O	O
-manganese	NN	O	B-Material
-,	NN	O	O
-[	NN	O	O
-47	NN	O	O
-]	NN	O	O
-together	NN	O	O
-with	NN	O	O
-the	NN	O	O
-cc	NN	O	B-Process
--	NN	O	I-Process
-pVTZ	NN	O	I-Process
-basis	NN	O	O
-set	NN	O	O
-on	NN	O	O
-the	NN	O	O
-oxygen	NN	O	B-Material
-atoms	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-all	NN	O	B-Process
--	NN	O	I-Process
-electron	NN	O	I-Process
-correlated	NN	O	I-Process
-calculations	NN	O	I-Process
-invoked	NN	O	O
-a	NN	O	O
-13	NN	O	O
-orbital	NN	O	O
-frozen	NN	O	O
-core	NN	O	O
-(	NN	O	O
-O	NN	O	B-Material
-1s	NN	O	O
-,	NN	O	O
-Mn	NN	O	B-Material
-1s2s2p3s3p	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Trial	NN	O	O
-calculations	NN	O	O
-correlating	NN	O	O
-these	NN	O	O
-orbitals	NN	O	O
-only	NN	O	O
-had	NN	O	O
-a	NN	O	O
-minor	NN	O	O
-effect	NN	O	O
-on	NN	O	O
-excitation	NN	O	B-Task
-energies	NN	O	I-Task
-.	NN	O	O
-
-For	NN	O	O
-comparison	NN	O	O
-the	NN	O	O
-EOM	NN	O	B-Process
--	NN	O	I-Process
-CCSD	NN	O	I-Process
-method	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-cc	NN	O	B-Process
--	NN	O	I-Process
-pVTZ	NN	O	I-Process
-basis	NN	O	O
-on	NN	O	O
-all	NN	O	O
-atoms	NN	O	O
-was	NN	O	O
-tested	NN	O	O
-to	NN	O	O
-compare	NN	O	O
-with	NN	O	O
-LR	NN	O	B-Process
--	NN	O	I-Process
-CCSD	NN	O	I-Process
-.	NN	O	O
-
-These	NN	O	O
-formally	NN	O	O
-give	NN	O	O
-exactly	NN	O	O
-the	NN	O	O
-same	NN	O	O
-excitation	NN	O	B-Task
-energies	NN	O	I-Task
-,	NN	O	O
-although	NN	O	O
-the	NN	O	O
-transition	NN	O	B-Task
-moments	NN	O	I-Task
-are	NN	O	O
-more	NN	O	O
-accurate	NN	O	O
-for	NN	O	O
-LR	NN	O	B-Process
--	NN	O	I-Process
-CCSD	NN	O	I-Process
-.	NN	O	O
-
-Abelian	NN	O	B-Process
-symmetry	NN	O	I-Process
-(	NN	O	O
-D2	NN	O	B-Process
-)	NN	O	O
-was	NN	O	O
-used	NN	O	O
-in	NN	O	O
-all	NN	O	O
-correlated	NN	O	O
-excited	NN	O	B-Process
-state	NN	O	I-Process
-calculations	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+optimised	4	13	B-Task
+structure	14	23	I-Task
+at	24	26	O
+the	27	30	O
+B3LYP	31	36	B-Process
+/	36	37	I-Process
+aug	37	40	I-Process
+-	40	41	I-Process
+cc	41	43	I-Process
+-	43	44	I-Process
+pVTZ	44	48	I-Process
+level	49	54	O
+was	55	58	O
+then	59	63	O
+used	64	68	O
+to	69	71	O
+perform	72	79	O
+calculations	80	92	O
+of	93	95	O
+the	96	99	O
+lowest	100	106	B-Process
+electronic	107	117	I-Process
+singlet	118	125	I-Process
+excited	126	133	O
+states	134	140	O
+with	141	145	O
+the	146	149	O
+coupled	150	157	O
+cluster	158	165	O
+linear	166	172	B-Process
+response	173	181	I-Process
+(	182	183	O
+LR	183	185	B-Process
+)	185	186	O
+coupled	187	194	B-Process
+cluster	195	202	I-Process
+hierarchy	203	212	I-Process
+CCS	213	216	B-Process
+,	216	217	O
+CC2	218	221	B-Process
+,	221	222	O
+CCSD	223	227	B-Process
+and	228	231	O
+CC3	232	235	B-Process
+,	235	236	O
+along	237	242	O
+with	243	247	O
+perturbative	248	260	B-Process
+corrected	261	270	I-Process
+methods	271	278	I-Process
+CIS(D	279	284	B-Process
+)	284	285	I-Process
+and	286	289	O
+CCSDR(3	290	297	B-Process
+)	297	298	I-Process
+.	298	299	O
+
+The	300	303	O
+correlated	304	314	B-Process
+response	315	323	I-Process
+methods	324	331	I-Process
+were	332	336	O
+performed	337	346	O
+with	347	351	O
+an	352	354	O
+all	355	358	O
+-	358	359	O
+electron	359	367	O
+atomic	368	374	B-Process
+natural	375	382	I-Process
+orbital	383	390	I-Process
+(	391	392	O
+ANO	392	395	B-Process
+)	395	396	O
+basis	397	402	O
+set	403	406	O
+contracted	407	417	O
+to	418	420	O
+6s5p4d3f1	421	430	B-Process
+g	430	431	I-Process
+on	432	434	O
+manganese	435	444	B-Material
+,	444	445	O
+[	446	447	O
+47	447	449	O
+]	449	450	O
+together	451	459	O
+with	460	464	O
+the	465	468	O
+cc	469	471	B-Process
+-	471	472	I-Process
+pVTZ	472	476	I-Process
+basis	477	482	O
+set	483	486	O
+on	487	489	O
+the	490	493	O
+oxygen	494	500	B-Material
+atoms	501	506	O
+.	506	507	O
+
+The	508	511	O
+all	512	515	B-Process
+-	515	516	I-Process
+electron	516	524	I-Process
+correlated	525	535	I-Process
+calculations	536	548	I-Process
+invoked	549	556	O
+a	557	558	O
+13	559	561	O
+orbital	562	569	O
+frozen	570	576	O
+core	577	581	O
+(	582	583	O
+O	583	584	B-Material
+1s	585	587	O
+,	587	588	O
+Mn	589	591	B-Material
+1s2s2p3s3p	592	602	O
+)	602	603	O
+.	603	604	O
+
+Trial	605	610	O
+calculations	611	623	O
+correlating	624	635	O
+these	636	641	O
+orbitals	642	650	O
+only	651	655	O
+had	656	659	O
+a	660	661	O
+minor	662	667	O
+effect	668	674	O
+on	675	677	O
+excitation	678	688	B-Task
+energies	689	697	I-Task
+.	697	698	O
+
+For	699	702	O
+comparison	703	713	O
+the	714	717	O
+EOM	718	721	B-Process
+-	721	722	I-Process
+CCSD	722	726	I-Process
+method	727	733	I-Process
+with	734	738	O
+the	739	742	O
+cc	743	745	B-Process
+-	745	746	I-Process
+pVTZ	746	750	I-Process
+basis	751	756	O
+on	757	759	O
+all	760	763	O
+atoms	764	769	O
+was	770	773	O
+tested	774	780	O
+to	781	783	O
+compare	784	791	O
+with	792	796	O
+LR	797	799	B-Process
+-	799	800	I-Process
+CCSD	800	804	I-Process
+.	804	805	O
+
+These	806	811	O
+formally	812	820	O
+give	821	825	O
+exactly	826	833	O
+the	834	837	O
+same	838	842	O
+excitation	843	853	B-Task
+energies	854	862	I-Task
+,	862	863	O
+although	864	872	O
+the	873	876	O
+transition	877	887	B-Task
+moments	888	895	I-Task
+are	896	899	O
+more	900	904	O
+accurate	905	913	O
+for	914	917	O
+LR	918	920	B-Process
+-	920	921	I-Process
+CCSD	921	925	I-Process
+.	925	926	O
+
+Abelian	927	934	B-Process
+symmetry	935	943	I-Process
+(	944	945	O
+D2	945	947	B-Process
+)	947	948	O
+was	949	952	O
+used	953	957	O
+in	958	960	O
+all	961	964	O
+correlated	965	975	O
+excited	976	983	B-Process
+state	984	989	I-Process
+calculations	990	1002	I-Process
+.	1002	1003	O
 
 
 -DOCSTART- (S0301010414003516)
 
-Arrays	NN	O	O
-of	NN	O	O
-TFTs	NN	O	B-Material
-and	NN	O	O
-circuits	NN	O	B-Material
-were	NN	O	O
-fabricated	NN	O	O
-on	NN	O	O
-precleaned	NN	O	O
-,	NN	O	O
-5cm×5	NN	O	O
-cm	NN	O	O
-,	NN	O	O
-125μm	NN	O	O
-thick	NN	O	O
-polyethylene	NN	O	B-Material
-naphthalate	NN	O	I-Material
-(	NN	O	I-Material
-PEN	NN	O	I-Material
-)	NN	O	I-Material
-substrates	NN	O	I-Material
-(	NN	O	O
-Dupont	NN	O	O
--	NN	O	O
-Teijin	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Full	NN	O	O
-details	NN	O	O
-of	NN	O	O
-our	NN	O	O
-vacuum	NN	O	B-Process
--	NN	O	I-Process
-fabrication	NN	O	I-Process
-procedures	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-given	NN	O	O
-in	NN	O	O
-previous	NN	O	O
-publications	NN	O	O
-[	NN	O	O
-17–19,23	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Briefly	NN	O	O
-,	NN	O	O
-aluminium	NN	O	B-Material
-gate	NN	O	I-Material
-electrodes	NN	O	I-Material
-and	NN	O	O
-associated	NN	O	O
-tracks	NN	O	B-Material
-were	NN	O	O
-vacuum	NN	O	B-Process
-evaporated	NN	O	I-Process
-onto	NN	O	O
-the	NN	O	O
-substrates	NN	O	B-Material
-through	NN	O	O
-shadow	NN	O	B-Material
-masks	NN	O	I-Material
-.	NN	O	O
-
-Subsequently	NN	O	O
-,	NN	O	O
-the	NN	O	O
-substrates	NN	O	B-Material
-were	NN	O	O
-attached	NN	O	O
-to	NN	O	O
-a	NN	O	O
-cooled	NN	O	O
-web	NN	O	B-Material
--	NN	O	I-Material
-coater	NN	O	I-Material
-drum	NN	O	I-Material
-(	NN	O	O
-Aerre	NN	O	O
-Machines	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-With	NN	O	O
-the	NN	O	O
-drum	NN	O	B-Material
-rotating	NN	O	O
-at	NN	O	O
-a	NN	O	O
-linear	NN	O	O
-speed	NN	O	O
-of	NN	O	O
-25m	NN	O	O
-/	NN	O	O
-min	NN	O	O
-under	NN	O	O
-vacuum	NN	O	O
-,	NN	O	O
-flash	NN	O	B-Material
--	NN	O	I-Material
-evaporated	NN	O	I-Material
-TPGDA	NN	O	I-Material
-monomer	NN	O	I-Material
-vapour	NN	O	I-Material
-which	NN	O	O
-condensed	NN	O	O
-onto	NN	O	O
-the	NN	O	O
-substrates	NN	O	B-Material
-was	NN	O	O
-cross	NN	O	B-Process
--	NN	O	I-Process
-linked	NN	O	I-Process
-by	NN	O	O
-exposure	NN	O	B-Process
-,	NN	O	O
-in	NN	O	O
-situ	NN	O	O
-,	NN	O	O
-to	NN	O	O
-a	NN	O	O
-plasma	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-resulting	NN	O	O
-smooth	NN	O	O
-,	NN	O	O
-pinhole	NN	O	O
--	NN	O	O
-free	NN	O	O
-films	NN	O	B-Material
-were	NN	O	O
-typically	NN	O	O
-500	NN	O	O
-nm	NN	O	O
-to	NN	O	O
-1μm	NN	O	O
-thick	NN	O	O
-with	NN	O	O
-a	NN	O	O
-measured	NN	O	O
-dielectric	NN	O	O
-constant	NN	O	O
-varying	NN	O	O
-in	NN	O	O
-the	NN	O	O
-range	NN	O	O
-4–5	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-circuit	NN	O	B-Task
-fabrication	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-insulator	NN	O	B-Material
-was	NN	O	O
-patterned	NN	O	O
-using	NN	O	O
-shadow	NN	O	B-Material
-masks	NN	O	I-Material
-to	NN	O	O
-define	NN	O	O
-rectangular	NN	O	O
-areas	NN	O	O
-separated	NN	O	O
-by	NN	O	O
-1	NN	O	O
-mm	NN	O	O
-gaps	NN	O	O
-to	NN	O	O
-act	NN	O	O
-as	NN	O	O
-vias	NN	O	O
-for	NN	O	O
-inter	NN	O	B-Process
--	NN	O	I-Process
-layer	NN	O	I-Process
-metallic	NN	O	I-Process
-connections	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-substrates	NN	O	B-Material
-were	NN	O	O
-then	NN	O	O
-transferred	NN	O	O
-into	NN	O	O
-an	NN	O	O
-evaporator	NN	O	B-Material
-(	NN	O	O
-Minispectros	NN	O	O
-,	NN	O	O
-Kurt	NN	O	O
-Lesker	NN	O	O
-)	NN	O	O
-integrated	NN	O	O
-into	NN	O	O
-a	NN	O	O
-nitrogen	NN	O	B-Material
-glovebox	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-vacuum	NN	O	B-Process
--	NN	O	I-Process
-deposition	NN	O	I-Process
-(	NN	O	O
-2.4nm	NN	O	O
-/	NN	O	O
-min	NN	O	O
-)	NN	O	O
-of	NN	O	O
-DNTT	NN	O	O
-onto	NN	O	O
-the	NN	O	O
-insulator	NN	O	B-Material
-.	NN	O	O
-
-Without	NN	O	O
-exposing	NN	O	O
-the	NN	O	O
-substrates	NN	O	B-Material
-to	NN	O	O
-ambient	NN	O	B-Material
-air	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-gold	NN	O	B-Material
-source	NN	O	I-Material
-/	NN	O	I-Material
-drain	NN	O	I-Material
-metallisation	NN	O	I-Material
-layer	NN	O	I-Material
-was	NN	O	O
-deposited	NN	O	O
-through	NN	O	O
-a	NN	O	O
-shadow	NN	O	B-Material
-mask	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-same	NN	O	O
-evaporator	NN	O	B-Material
-.	NN	O	O
+Arrays	0	6	O
+of	7	9	O
+TFTs	10	14	B-Material
+and	15	18	O
+circuits	19	27	B-Material
+were	28	32	O
+fabricated	33	43	O
+on	44	46	O
+precleaned	47	57	O
+,	57	58	O
+5cm×5	59	64	O
+cm	64	66	O
+,	66	67	O
+125μm	68	73	O
+thick	74	79	O
+polyethylene	80	92	B-Material
+naphthalate	93	104	I-Material
+(	105	106	I-Material
+PEN	106	109	I-Material
+)	109	110	I-Material
+substrates	111	121	I-Material
+(	122	123	O
+Dupont	123	129	O
+-	129	130	O
+Teijin	130	136	O
+)	136	137	O
+.	137	138	O
+
+Full	139	143	O
+details	144	151	O
+of	152	154	O
+our	155	158	O
+vacuum	159	165	B-Process
+-	165	166	I-Process
+fabrication	166	177	I-Process
+procedures	178	188	I-Process
+have	189	193	O
+been	194	198	O
+given	199	204	O
+in	205	207	O
+previous	208	216	O
+publications	217	229	O
+[	230	231	O
+17–19,23	231	239	O
+]	239	240	O
+.	240	241	O
+
+Briefly	242	249	O
+,	249	250	O
+aluminium	251	260	B-Material
+gate	261	265	I-Material
+electrodes	266	276	I-Material
+and	277	280	O
+associated	281	291	O
+tracks	292	298	B-Material
+were	299	303	O
+vacuum	304	310	B-Process
+evaporated	311	321	I-Process
+onto	322	326	O
+the	327	330	O
+substrates	331	341	B-Material
+through	342	349	O
+shadow	350	356	B-Material
+masks	357	362	I-Material
+.	362	363	O
+
+Subsequently	364	376	O
+,	376	377	O
+the	378	381	O
+substrates	382	392	B-Material
+were	393	397	O
+attached	398	406	O
+to	407	409	O
+a	410	411	O
+cooled	412	418	O
+web	419	422	B-Material
+-	422	423	I-Material
+coater	423	429	I-Material
+drum	430	434	I-Material
+(	435	436	O
+Aerre	436	441	O
+Machines	442	450	O
+)	450	451	O
+.	451	452	O
+
+With	453	457	O
+the	458	461	O
+drum	462	466	B-Material
+rotating	467	475	O
+at	476	478	O
+a	479	480	O
+linear	481	487	O
+speed	488	493	O
+of	494	496	O
+25m	497	500	O
+/	500	501	O
+min	501	504	O
+under	505	510	O
+vacuum	511	517	O
+,	517	518	O
+flash	519	524	B-Material
+-	524	525	I-Material
+evaporated	525	535	I-Material
+TPGDA	536	541	I-Material
+monomer	542	549	I-Material
+vapour	550	556	I-Material
+which	557	562	O
+condensed	563	572	O
+onto	573	577	O
+the	578	581	O
+substrates	582	592	B-Material
+was	593	596	O
+cross	597	602	B-Process
+-	602	603	I-Process
+linked	603	609	I-Process
+by	610	612	O
+exposure	613	621	B-Process
+,	621	622	O
+in	623	625	O
+situ	626	630	O
+,	630	631	O
+to	632	634	O
+a	635	636	O
+plasma	637	643	B-Material
+.	643	644	O
+
+The	645	648	O
+resulting	649	658	O
+smooth	659	665	O
+,	665	666	O
+pinhole	667	674	O
+-	674	675	O
+free	675	679	O
+films	680	685	B-Material
+were	686	690	O
+typically	691	700	O
+500	701	704	O
+nm	704	706	O
+to	707	709	O
+1μm	710	713	O
+thick	714	719	O
+with	720	724	O
+a	725	726	O
+measured	727	735	O
+dielectric	736	746	O
+constant	747	755	O
+varying	756	763	O
+in	764	766	O
+the	767	770	O
+range	771	776	O
+4–5	777	780	O
+.	780	781	O
+
+For	782	785	O
+circuit	786	793	B-Task
+fabrication	794	805	I-Task
+,	805	806	O
+the	807	810	O
+insulator	811	820	B-Material
+was	821	824	O
+patterned	825	834	O
+using	835	840	O
+shadow	841	847	B-Material
+masks	848	853	I-Material
+to	854	856	O
+define	857	863	O
+rectangular	864	875	O
+areas	876	881	O
+separated	882	891	O
+by	892	894	O
+1	895	896	O
+mm	896	898	O
+gaps	899	903	O
+to	904	906	O
+act	907	910	O
+as	911	913	O
+vias	914	918	O
+for	919	922	O
+inter	923	928	B-Process
+-	928	929	I-Process
+layer	929	934	I-Process
+metallic	935	943	I-Process
+connections	944	955	I-Process
+.	955	956	O
+
+The	957	960	O
+substrates	961	971	B-Material
+were	972	976	O
+then	977	981	O
+transferred	982	993	O
+into	994	998	O
+an	999	1001	O
+evaporator	1002	1012	B-Material
+(	1013	1014	O
+Minispectros	1014	1026	O
+,	1026	1027	O
+Kurt	1028	1032	O
+Lesker	1033	1039	O
+)	1039	1040	O
+integrated	1041	1051	O
+into	1052	1056	O
+a	1057	1058	O
+nitrogen	1059	1067	B-Material
+glovebox	1068	1076	I-Material
+for	1077	1080	O
+the	1081	1084	O
+vacuum	1085	1091	B-Process
+-	1091	1092	I-Process
+deposition	1092	1102	I-Process
+(	1103	1104	O
+2.4nm	1104	1109	O
+/	1109	1110	O
+min	1110	1113	O
+)	1113	1114	O
+of	1115	1117	O
+DNTT	1118	1122	O
+onto	1123	1127	O
+the	1128	1131	O
+insulator	1132	1141	B-Material
+.	1141	1142	O
+
+Without	1143	1150	O
+exposing	1151	1159	O
+the	1160	1163	O
+substrates	1164	1174	B-Material
+to	1175	1177	O
+ambient	1178	1185	B-Material
+air	1186	1189	I-Material
+,	1189	1190	O
+the	1191	1194	O
+gold	1195	1199	B-Material
+source	1200	1206	I-Material
+/	1206	1207	I-Material
+drain	1207	1212	I-Material
+metallisation	1213	1226	I-Material
+layer	1227	1232	I-Material
+was	1233	1236	O
+deposited	1237	1246	O
+through	1247	1254	O
+a	1255	1256	O
+shadow	1257	1263	B-Material
+mask	1264	1268	I-Material
+in	1269	1271	O
+the	1272	1275	O
+same	1276	1280	O
+evaporator	1281	1291	B-Material
+.	1291	1292	O
 
 
 -DOCSTART- (S0301010415002256)
 
-For	NN	O	O
-decades	NN	O	O
-,	NN	O	O
-vibronic	NN	O	B-Process
-coupling	NN	O	I-Process
-models	NN	O	I-Process
-[	NN	O	O
-1–4	NN	O	O
-]	NN	O	O
-have	NN	O	O
-served	NN	O	O
-as	NN	O	O
-bridges	NN	O	O
-connecting	NN	O	O
-nuclear	NN	O	B-Task
-dynamics	NN	O	I-Task
-studies	NN	O	I-Task
-with	NN	O	O
-the	NN	O	O
-static	NN	O	O
-studies	NN	O	O
-of	NN	O	O
-electronic	NN	O	B-Task
-structure	NN	O	I-Task
-calculations	NN	O	I-Task
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-vibronic	NN	O	B-Process
-coupling	NN	O	I-Process
-model	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-simple	NN	O	O
-polynomial	NN	O	B-Task
-expansion	NN	O	I-Task
-of	NN	O	O
-diabatic	NN	O	B-Task
-potential	NN	O	I-Task
-energy	NN	O	I-Task
-surfaces	NN	O	I-Task
-and	NN	O	I-Task
-couplings	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-expansion	NN	O	B-Process
-coefficients	NN	O	I-Process
-are	NN	O	O
-chosen	NN	O	O
-so	NN	O	O
-that	NN	O	O
-the	NN	O	O
-eigenvalues	NN	O	O
-of	NN	O	O
-the	NN	O	O
-potential	NN	O	O
-operator	NN	O	O
-map	NN	O	O
-on	NN	O	O
-to	NN	O	O
-the	NN	O	O
-adiabatic	NN	O	O
-potential	NN	O	O
-surfaces	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-diabatisation	NN	O	B-Process
-by	NN	O	O
-ansatz	NN	O	O
-circumvents	NN	O	O
-many	NN	O	O
-of	NN	O	O
-the	NN	O	O
-problems	NN	O	O
-of	NN	O	O
-describing	NN	O	O
-non	NN	O	B-Task
--	NN	O	I-Task
-adiabatic	NN	O	I-Task
-systems	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-also	NN	O	O
-the	NN	O	O
-inspiration	NN	O	O
-for	NN	O	O
-a	NN	O	O
-diabatisation	NN	O	B-Process
-scheme	NN	O	I-Process
-that	NN	O	O
-is	NN	O	O
-used	NN	O	O
-in	NN	O	O
-modern	NN	O	O
-,	NN	O	O
-direct	NN	O	B-Process
--	NN	O	I-Process
-dynamic	NN	O	I-Process
-methods	NN	O	I-Process
-that	NN	O	O
-include	NN	O	O
-non	NN	O	O
--	NN	O	O
-adiabatic	NN	O	O
-effects	NN	O	O
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-a	NN	O	O
-model	NN	O	B-Process
-Hamiltonian	NN	O	I-Process
-to	NN	O	O
-correctly	NN	O	O
-approximate	NN	O	O
-the	NN	O	O
-eigenvectors	NN	O	O
-of	NN	O	O
-the	NN	O	O
-true	NN	O	B-Process
-Hamiltonian	NN	O	I-Process
-it	NN	O	O
-has	NN	O	O
-to	NN	O	O
-span	NN	O	O
-the	NN	O	O
-totally	NN	O	O
-symmetric	NN	O	O
-irreducible	NN	O	B-Process
-representation	NN	O	I-Process
-(	NN	O	O
-IrRep	NN	O	B-Process
-)	NN	O	O
-of	NN	O	O
-the	NN	O	O
-point	NN	O	O
-groups	NN	O	O
-the	NN	O	O
-molecule	NN	O	O
-belongs	NN	O	O
-to	NN	O	O
-,	NN	O	O
-at	NN	O	O
-the	NN	O	O
-appropriate	NN	O	O
-symmetric	NN	O	B-Process
-geometries	NN	O	I-Process
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-recent	NN	O	O
-times	NN	O	O
-,	NN	O	O
-many	NN	O	O
-articles	NN	O	O
-have	NN	O	O
-demonstrated	NN	O	O
-the	NN	O	O
-advantages	NN	O	O
-of	NN	O	O
-using	NN	O	O
-symmetry	NN	O	O
-when	NN	O	O
-constructing	NN	O	O
-analytic	NN	O	B-Process
-model	NN	O	I-Process
-potentials	NN	O	I-Process
-[	NN	O	O
-8–12	NN	O	O
-]	NN	O	O
-,	NN	O	O
-most	NN	O	O
-often	NN	O	O
-in	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-permutation	NN	O	B-Process
--	NN	O	I-Process
-inversion	NN	O	I-Process
-groups	NN	O	I-Process
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
+For	0	3	O
+decades	4	11	O
+,	11	12	O
+vibronic	13	21	B-Process
+coupling	22	30	I-Process
+models	31	37	I-Process
+[	38	39	O
+1–4	39	42	O
+]	42	43	O
+have	44	48	O
+served	49	55	O
+as	56	58	O
+bridges	59	66	O
+connecting	67	77	O
+nuclear	78	85	B-Task
+dynamics	86	94	I-Task
+studies	95	102	I-Task
+with	103	107	O
+the	108	111	O
+static	112	118	O
+studies	119	126	O
+of	127	129	O
+electronic	130	140	B-Task
+structure	141	150	I-Task
+calculations	151	163	I-Task
+[	164	165	O
+5	165	166	O
+]	166	167	O
+.	167	168	O
+
+The	169	172	O
+vibronic	173	181	B-Process
+coupling	182	190	I-Process
+model	191	196	I-Process
+is	197	199	O
+a	200	201	O
+simple	202	208	O
+polynomial	209	219	B-Task
+expansion	220	229	I-Task
+of	230	232	O
+diabatic	233	241	B-Task
+potential	242	251	I-Task
+energy	252	258	I-Task
+surfaces	259	267	I-Task
+and	268	271	I-Task
+couplings	272	281	I-Task
+.	281	282	O
+
+The	283	286	O
+expansion	287	296	B-Process
+coefficients	297	309	I-Process
+are	310	313	O
+chosen	314	320	O
+so	321	323	O
+that	324	328	O
+the	329	332	O
+eigenvalues	333	344	O
+of	345	347	O
+the	348	351	O
+potential	352	361	O
+operator	362	370	O
+map	371	374	O
+on	375	377	O
+to	378	380	O
+the	381	384	O
+adiabatic	385	394	O
+potential	395	404	O
+surfaces	405	413	O
+.	413	414	O
+
+This	415	419	O
+diabatisation	420	433	B-Process
+by	434	436	O
+ansatz	437	443	O
+circumvents	444	455	O
+many	456	460	O
+of	461	463	O
+the	464	467	O
+problems	468	476	O
+of	477	479	O
+describing	480	490	O
+non	491	494	B-Task
+-	494	495	I-Task
+adiabatic	495	504	I-Task
+systems	505	512	I-Task
+.	512	513	O
+
+It	514	516	O
+is	517	519	O
+also	520	524	O
+the	525	528	O
+inspiration	529	540	O
+for	541	544	O
+a	545	546	O
+diabatisation	547	560	B-Process
+scheme	561	567	I-Process
+that	568	572	O
+is	573	575	O
+used	576	580	O
+in	581	583	O
+modern	584	590	O
+,	590	591	O
+direct	592	598	B-Process
+-	598	599	I-Process
+dynamic	599	606	I-Process
+methods	607	614	I-Process
+that	615	619	O
+include	620	627	O
+non	628	631	O
+-	631	632	O
+adiabatic	632	641	O
+effects	642	649	O
+[	650	651	O
+6	651	652	O
+]	652	653	O
+.	653	654	O
+
+For	655	658	O
+a	659	660	O
+model	661	666	B-Process
+Hamiltonian	667	678	I-Process
+to	679	681	O
+correctly	682	691	O
+approximate	692	703	O
+the	704	707	O
+eigenvectors	708	720	O
+of	721	723	O
+the	724	727	O
+true	728	732	B-Process
+Hamiltonian	733	744	I-Process
+it	745	747	O
+has	748	751	O
+to	752	754	O
+span	755	759	O
+the	760	763	O
+totally	764	771	O
+symmetric	772	781	O
+irreducible	782	793	B-Process
+representation	794	808	I-Process
+(	809	810	O
+IrRep	810	815	B-Process
+)	815	816	O
+of	817	819	O
+the	820	823	O
+point	824	829	O
+groups	830	836	O
+the	837	840	O
+molecule	841	849	O
+belongs	850	857	O
+to	858	860	O
+,	860	861	O
+at	862	864	O
+the	865	868	O
+appropriate	869	880	O
+symmetric	881	890	B-Process
+geometries	891	901	I-Process
+[	902	903	O
+7	903	904	O
+]	904	905	O
+.	905	906	O
+
+In	907	909	O
+recent	910	916	O
+times	917	922	O
+,	922	923	O
+many	924	928	O
+articles	929	937	O
+have	938	942	O
+demonstrated	943	955	O
+the	956	959	O
+advantages	960	970	O
+of	971	973	O
+using	974	979	O
+symmetry	980	988	O
+when	989	993	O
+constructing	994	1006	O
+analytic	1007	1015	B-Process
+model	1016	1021	I-Process
+potentials	1022	1032	I-Process
+[	1033	1034	O
+8–12	1034	1038	O
+]	1038	1039	O
+,	1039	1040	O
+most	1041	1045	O
+often	1046	1051	O
+in	1052	1054	O
+the	1055	1058	O
+context	1059	1066	O
+of	1067	1069	O
+permutation	1070	1081	B-Process
+-	1081	1082	I-Process
+inversion	1082	1091	I-Process
+groups	1092	1098	I-Process
+[	1099	1100	O
+13	1100	1102	O
+]	1102	1103	O
+.	1103	1104	O
 
 
 -DOCSTART- (S030193221400144X)
 
-In	NN	O	O
-the	NN	O	O
-present	NN	O	O
-work	NN	O	O
-,	NN	O	O
-a	NN	O	O
-LIF	NN	O	B-Process
-technique	NN	O	I-Process
-is	NN	O	O
-applied	NN	O	O
-for	NN	O	O
-investigation	NN	O	O
-of	NN	O	O
-gas	NN	O	B-Task
--	NN	O	I-Task
-sheared	NN	O	I-Task
-film	NN	O	I-Task
-flow	NN	O	I-Task
-in	NN	O	O
-horizontal	NN	O	O
-rectangular	NN	O	O
-duct	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-technique	NN	O	O
-makes	NN	O	O
-it	NN	O	O
-possible	NN	O	O
-to	NN	O	O
-perform	NN	O	O
-field	NN	O	B-Process
-measurements	NN	O	I-Process
-of	NN	O	I-Process
-local	NN	O	I-Process
-film	NN	O	I-Process
-thickness	NN	O	I-Process
-,	NN	O	O
-resolved	NN	O	O
-in	NN	O	O
-both	NN	O	O
-space	NN	O	O
-and	NN	O	O
-time	NN	O	O
-,	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-the	NN	O	O
-work	NN	O	O
-of	NN	O	O
-Alekseenko	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2009	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-flat	NN	O	O
-shape	NN	O	O
-and	NN	O	O
-large	NN	O	O
-transverse	NN	O	O
-size	NN	O	O
-of	NN	O	O
-the	NN	O	O
-duct	NN	O	B-Material
-allow	NN	O	O
-us	NN	O	O
-to	NN	O	O
-resolve	NN	O	B-Process
-the	NN	O	I-Process
-film	NN	O	I-Process
-thickness	NN	O	I-Process
-in	NN	O	O
-transverse	NN	O	O
-coordinate	NN	O	O
-as	NN	O	O
-well	NN	O	O
-.	NN	O	O
-
-Alekseenko	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-attempted	NN	O	O
-to	NN	O	O
-do	NN	O	O
-this	NN	O	O
-in	NN	O	O
-annular	NN	O	B-Process
-downward	NN	O	I-Process
-flow	NN	O	I-Process
-,	NN	O	O
-but	NN	O	O
-,	NN	O	O
-for	NN	O	O
-technical	NN	O	O
-reasons	NN	O	O
-,	NN	O	O
-the	NN	O	O
-sampling	NN	O	B-Process
-frequency	NN	O	I-Process
-was	NN	O	O
-not	NN	O	O
-high	NN	O	O
-enough	NN	O	O
-in	NN	O	O
-their	NN	O	O
-experiments	NN	O	O
-.	NN	O	O
-
-More	NN	O	O
-recently	NN	O	O
-Alekseenko	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2014a	NN	O	O
-)	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-LIF	NN	O	B-Process
-technique	NN	O	I-Process
-can	NN	O	O
-also	NN	O	O
-detect	NN	O	B-Task
-entrained	NN	O	I-Task
-droplets	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-technique	NN	O	O
-allows	NN	O	O
-the	NN	O	O
-simultaneous	NN	O	O
-study	NN	O	O
-of	NN	O	O
-three	NN	O	B-Material
--	NN	O	I-Material
-dimensional	NN	O	I-Material
-wavy	NN	O	I-Material
-structures	NN	O	I-Material
-and	NN	O	O
-liquid	NN	O	B-Task
-entrainment	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-can	NN	O	O
-improve	NN	O	B-Task
-understanding	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-entrainment	NN	O	I-Task
-phenomenon	NN	O	I-Task
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+present	7	14	O
+work	15	19	O
+,	19	20	O
+a	21	22	O
+LIF	23	26	B-Process
+technique	27	36	I-Process
+is	37	39	O
+applied	40	47	O
+for	48	51	O
+investigation	52	65	O
+of	66	68	O
+gas	69	72	B-Task
+-	72	73	I-Task
+sheared	73	80	I-Task
+film	81	85	I-Task
+flow	86	90	I-Task
+in	91	93	O
+horizontal	94	104	O
+rectangular	105	116	O
+duct	117	121	B-Material
+.	121	122	O
+
+The	123	126	O
+technique	127	136	O
+makes	137	142	O
+it	143	145	O
+possible	146	154	O
+to	155	157	O
+perform	158	165	O
+field	166	171	B-Process
+measurements	172	184	I-Process
+of	185	187	I-Process
+local	188	193	I-Process
+film	194	198	I-Process
+thickness	199	208	I-Process
+,	208	209	O
+resolved	210	218	O
+in	219	221	O
+both	222	226	O
+space	227	232	O
+and	233	236	O
+time	237	241	O
+,	241	242	O
+similar	243	250	O
+to	251	253	O
+the	254	257	O
+work	258	262	O
+of	263	265	O
+Alekseenko	266	276	O
+et	277	279	O
+al	280	282	O
+.	282	283	O
+
+(	284	285	O
+2009	285	289	O
+)	289	290	O
+.	290	291	O
+
+The	292	295	O
+flat	296	300	O
+shape	301	306	O
+and	307	310	O
+large	311	316	O
+transverse	317	327	O
+size	328	332	O
+of	333	335	O
+the	336	339	O
+duct	340	344	B-Material
+allow	345	350	O
+us	351	353	O
+to	354	356	O
+resolve	357	364	B-Process
+the	365	368	I-Process
+film	369	373	I-Process
+thickness	374	383	I-Process
+in	384	386	O
+transverse	387	397	O
+coordinate	398	408	O
+as	409	411	O
+well	412	416	O
+.	416	417	O
+
+Alekseenko	418	428	O
+et	429	431	O
+al	432	434	O
+.	434	435	O
+
+(	436	437	O
+2012	437	441	O
+)	441	442	O
+attempted	443	452	O
+to	453	455	O
+do	456	458	O
+this	459	463	O
+in	464	466	O
+annular	467	474	B-Process
+downward	475	483	I-Process
+flow	484	488	I-Process
+,	488	489	O
+but	490	493	O
+,	493	494	O
+for	495	498	O
+technical	499	508	O
+reasons	509	516	O
+,	516	517	O
+the	518	521	O
+sampling	522	530	B-Process
+frequency	531	540	I-Process
+was	541	544	O
+not	545	548	O
+high	549	553	O
+enough	554	560	O
+in	561	563	O
+their	564	569	O
+experiments	570	581	O
+.	581	582	O
+
+More	583	587	O
+recently	588	596	O
+Alekseenko	597	607	O
+et	608	610	O
+al	611	613	O
+.	613	614	O
+
+(	615	616	O
+2014a	616	621	O
+)	621	622	O
+showed	623	629	O
+that	630	634	O
+the	635	638	O
+LIF	639	642	B-Process
+technique	643	652	I-Process
+can	653	656	O
+also	657	661	O
+detect	662	668	B-Task
+entrained	669	678	I-Task
+droplets	679	687	I-Task
+.	687	688	O
+
+The	689	692	O
+technique	693	702	O
+allows	703	709	O
+the	710	713	O
+simultaneous	714	726	O
+study	727	732	O
+of	733	735	O
+three	736	741	B-Material
+-	741	742	I-Material
+dimensional	742	753	I-Material
+wavy	754	758	I-Material
+structures	759	769	I-Material
+and	770	773	O
+liquid	774	780	B-Task
+entrainment	781	792	I-Task
+,	792	793	O
+and	794	797	O
+can	798	801	O
+improve	802	809	B-Task
+understanding	810	823	I-Task
+of	824	826	I-Task
+the	827	830	I-Task
+entrainment	831	842	I-Task
+phenomenon	843	853	I-Task
+.	853	854	O
 
 
 -DOCSTART- (S0301932214001499)
 
-In	NN	O	O
-general	NN	O	O
-,	NN	O	O
-liquid	NN	O	B-Process
-film	NN	O	I-Process
-flows	NN	O	I-Process
-of	NN	O	O
-practical	NN	O	O
-relevance	NN	O	O
-are	NN	O	O
-turbulent	NN	O	O
-and	NN	O	O
-,	NN	O	O
-hence	NN	O	O
-,	NN	O	O
-are	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-broadband	NN	O	B-Material
-interfacial	NN	O	I-Material
-waves	NN	O	I-Material
-on	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-surface	NN	O	I-Material
-.	NN	O	O
-
-A	NN	O	O
-thorough	NN	O	O
-understanding	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-characteristic	NN	O	I-Task
-profiles	NN	O	I-Task
-,	NN	O	I-Task
-scales	NN	O	I-Task
-and	NN	O	I-Task
-dynamics	NN	O	I-Task
-of	NN	O	I-Task
-these	NN	O	I-Task
-interfacial	NN	O	I-Task
-waves	NN	O	I-Task
-is	NN	O	O
-of	NN	O	O
-essential	NN	O	O
-importance	NN	O	O
-in	NN	O	O
-making	NN	O	O
-accurate	NN	O	O
-and	NN	O	O
-reliable	NN	O	O
-predictions	NN	O	O
-of	NN	O	O
-heat	NN	O	O
-and	NN	O	O
-mass	NN	O	O
-transfer	NN	O	O
-rates	NN	O	O
-(	NN	O	O
-Mathie	NN	O	O
-and	NN	O	O
-Markides	NN	O	O
-,	NN	O	O
-2013a	NN	O	O
-;	NN	O	O
-Mathie	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Previous	NN	O	O
-efforts	NN	O	O
-in	NN	O	O
-downwards	NN	O	B-Process
-annular	NN	O	I-Process
-flow	NN	O	I-Process
-have	NN	O	O
-focused	NN	O	O
-on	NN	O	O
-the	NN	O	O
-spatio	NN	O	B-Process
-/	NN	O	I-Process
-temporal	NN	O	I-Process
-measurement	NN	O	I-Process
-of	NN	O	O
-liquid	NN	O	B-Process
-film	NN	O	I-Process
-thickness	NN	O	I-Process
-,	NN	O	O
-followed	NN	O	O
-by	NN	O	O
-in	NN	O	O
--	NN	O	O
-depth	NN	O	O
-statistical	NN	O	B-Task
-analyses	NN	O	I-Task
-of	NN	O	I-Task
-this	NN	O	I-Task
-film	NN	O	I-Task
-thickness	NN	O	I-Task
-(	NN	O	O
-Webb	NN	O	O
-and	NN	O	O
-Hewitt	NN	O	O
-,	NN	O	O
-1975	NN	O	O
-;	NN	O	O
-Belt	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2010	NN	O	O
-;	NN	O	O
-Alekseenko	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-,	NN	O	O
-2012	NN	O	O
-;	NN	O	O
-Zhao	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-efforts	NN	O	O
-have	NN	O	O
-contributed	NN	O	O
-to	NN	O	O
-a	NN	O	O
-much	NN	O	O
-improved	NN	O	O
-understanding	NN	O	O
-of	NN	O	O
-the	NN	O	O
-interfacial	NN	O	B-Task
-topology	NN	O	I-Task
-observed	NN	O	O
-in	NN	O	O
-downwards	NN	O	B-Process
-annular	NN	O	I-Process
-flows	NN	O	I-Process
-and	NN	O	O
-also	NN	O	O
-to	NN	O	O
-the	NN	O	O
-subsequent	NN	O	O
-proposal	NN	O	O
-of	NN	O	O
-a	NN	O	O
-series	NN	O	O
-of	NN	O	O
-correlations	NN	O	O
-for	NN	O	O
-the	NN	O	O
-quantification	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-mean	NN	O	I-Task
-film	NN	O	I-Task
-thickness	NN	O	I-Task
-,	NN	O	I-Task
-wave	NN	O	I-Task
-amplitudes	NN	O	I-Task
-and	NN	O	I-Task
-liquid	NN	O	I-Task
-entrainment	NN	O	I-Task
-rates	NN	O	I-Task
-into	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Process
-phase	NN	O	I-Process
-(	NN	O	O
-Ambrosini	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-,	NN	O	O
-1991	NN	O	O
-;	NN	O	O
-Karapantsios	NN	O	O
-and	NN	O	O
-Karabelas	NN	O	O
-,	NN	O	O
-1995	NN	O	O
-;	NN	O	O
-Azzopardi	NN	O	O
-,	NN	O	O
-1997	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-less	NN	O	O
-has	NN	O	O
-been	NN	O	O
-published	NN	O	O
-on	NN	O	O
-the	NN	O	O
-velocity	NN	O	B-Process
-distribution	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-flow	NN	O	B-Process
-structure	NN	O	I-Process
-within	NN	O	I-Process
-the	NN	O	I-Process
-liquid	NN	O	I-Process
-films	NN	O	I-Process
-,	NN	O	O
-underneath	NN	O	O
-the	NN	O	O
-film	NN	O	B-Material
-surface	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-can	NN	O	O
-be	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-relative	NN	O	O
-difficulty	NN	O	O
-of	NN	O	O
-these	NN	O	O
-measurements	NN	O	O
-caused	NN	O	O
-by	NN	O	O
-:	NN	O	O
-(	NN	O	O
-i	NN	O	O
-)	NN	O	O
-the	NN	O	O
-extremely	NN	O	O
-restricted	NN	O	O
-measurement	NN	O	O
-space	NN	O	O
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-small	NN	O	O
-thickness	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-liquid	NN	O	I-Task
-films	NN	O	I-Task
-(	NN	O	O
-in	NN	O	O
-the	NN	O	O
-order	NN	O	O
-of	NN	O	O
-and	NN	O	O
-often	NN	O	O
-sub	NN	O	O
--	NN	O	O
-mm	NN	O	O
-)	NN	O	O
-,	NN	O	O
-(	NN	O	O
-ii	NN	O	O
-)	NN	O	O
-the	NN	O	O
-highly	NN	O	O
-disturbed	NN	O	O
-and	NN	O	O
-intermittent	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Process
-–	NN	O	I-Process
-liquid	NN	O	I-Process
-interface	NN	O	I-Process
-,	NN	O	O
-
-(	NN	O	O
-iii	NN	O	O
-)	NN	O	O
-the	NN	O	O
-entrainment	NN	O	B-Process
-of	NN	O	I-Process
-gas	NN	O	I-Process
-inside	NN	O	O
-the	NN	O	O
-liquid	NN	O	B-Material
-film	NN	O	I-Material
-and	NN	O	O
-of	NN	O	O
-liquid	NN	O	B-Material
-into	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Material
-core	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-(	NN	O	O
-iv	NN	O	O
-)	NN	O	O
-the	NN	O	O
-relatively	NN	O	O
-high	NN	O	B-Task
-velocities	NN	O	I-Task
-of	NN	O	O
-both	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Material
-and	NN	O	O
-liquid	NN	O	B-Material
-phases	NN	O	O
-.	NN	O	O
+In	0	2	O
+general	3	10	O
+,	10	11	O
+liquid	12	18	B-Process
+film	19	23	I-Process
+flows	24	29	I-Process
+of	30	32	O
+practical	33	42	O
+relevance	43	52	O
+are	53	56	O
+turbulent	57	66	O
+and	67	70	O
+,	70	71	O
+hence	72	77	O
+,	77	78	O
+are	79	82	O
+associated	83	93	O
+with	94	98	O
+the	99	102	O
+presence	103	111	O
+of	112	114	O
+broadband	115	124	B-Material
+interfacial	125	136	I-Material
+waves	137	142	I-Material
+on	143	145	O
+the	146	149	O
+film	150	154	B-Material
+surface	155	162	I-Material
+.	162	163	O
+
+A	164	165	O
+thorough	166	174	O
+understanding	175	188	B-Task
+of	189	191	I-Task
+the	192	195	I-Task
+characteristic	196	210	I-Task
+profiles	211	219	I-Task
+,	219	220	I-Task
+scales	221	227	I-Task
+and	228	231	I-Task
+dynamics	232	240	I-Task
+of	241	243	I-Task
+these	244	249	I-Task
+interfacial	250	261	I-Task
+waves	262	267	I-Task
+is	268	270	O
+of	271	273	O
+essential	274	283	O
+importance	284	294	O
+in	295	297	O
+making	298	304	O
+accurate	305	313	O
+and	314	317	O
+reliable	318	326	O
+predictions	327	338	O
+of	339	341	O
+heat	342	346	O
+and	347	350	O
+mass	351	355	O
+transfer	356	364	O
+rates	365	370	O
+(	371	372	O
+Mathie	372	378	O
+and	379	382	O
+Markides	383	391	O
+,	391	392	O
+2013a	393	398	O
+;	398	399	O
+Mathie	400	406	O
+et	407	409	O
+al	410	412	O
+.	412	413	O
+,	413	414	O
+2013	415	419	O
+)	419	420	O
+.	420	421	O
+
+Previous	422	430	O
+efforts	431	438	O
+in	439	441	O
+downwards	442	451	B-Process
+annular	452	459	I-Process
+flow	460	464	I-Process
+have	465	469	O
+focused	470	477	O
+on	478	480	O
+the	481	484	O
+spatio	485	491	B-Process
+/	491	492	I-Process
+temporal	492	500	I-Process
+measurement	501	512	I-Process
+of	513	515	O
+liquid	516	522	B-Process
+film	523	527	I-Process
+thickness	528	537	I-Process
+,	537	538	O
+followed	539	547	O
+by	548	550	O
+in	551	553	O
+-	553	554	O
+depth	554	559	O
+statistical	560	571	B-Task
+analyses	572	580	I-Task
+of	581	583	I-Task
+this	584	588	I-Task
+film	589	593	I-Task
+thickness	594	603	I-Task
+(	604	605	O
+Webb	605	609	O
+and	610	613	O
+Hewitt	614	620	O
+,	620	621	O
+1975	622	626	O
+;	626	627	O
+Belt	628	632	O
+et	633	635	O
+al	636	638	O
+.	638	639	O
+,	639	640	O
+2010	641	645	O
+;	645	646	O
+Alekseenko	647	657	O
+et	658	660	O
+al	661	663	O
+.	663	664	O
+
+,	664	665	O
+2012	666	670	O
+;	670	671	O
+Zhao	672	676	O
+et	677	679	O
+al	680	682	O
+.	682	683	O
+,	683	684	O
+2013	685	689	O
+)	689	690	O
+.	690	691	O
+
+These	692	697	O
+efforts	698	705	O
+have	706	710	O
+contributed	711	722	O
+to	723	725	O
+a	726	727	O
+much	728	732	O
+improved	733	741	O
+understanding	742	755	O
+of	756	758	O
+the	759	762	O
+interfacial	763	774	B-Task
+topology	775	783	I-Task
+observed	784	792	O
+in	793	795	O
+downwards	796	805	B-Process
+annular	806	813	I-Process
+flows	814	819	I-Process
+and	820	823	O
+also	824	828	O
+to	829	831	O
+the	832	835	O
+subsequent	836	846	O
+proposal	847	855	O
+of	856	858	O
+a	859	860	O
+series	861	867	O
+of	868	870	O
+correlations	871	883	O
+for	884	887	O
+the	888	891	O
+quantification	892	906	B-Task
+of	907	909	I-Task
+the	910	913	I-Task
+mean	914	918	I-Task
+film	919	923	I-Task
+thickness	924	933	I-Task
+,	933	934	I-Task
+wave	935	939	I-Task
+amplitudes	940	950	I-Task
+and	951	954	I-Task
+liquid	955	961	I-Task
+entrainment	962	973	I-Task
+rates	974	979	I-Task
+into	980	984	O
+the	985	988	O
+gas	989	992	B-Process
+phase	993	998	I-Process
+(	999	1000	O
+Ambrosini	1000	1009	O
+et	1010	1012	O
+al	1013	1015	O
+.	1015	1016	O
+
+,	1016	1017	O
+1991	1018	1022	O
+;	1022	1023	O
+Karapantsios	1024	1036	O
+and	1037	1040	O
+Karabelas	1041	1050	O
+,	1050	1051	O
+1995	1052	1056	O
+;	1056	1057	O
+Azzopardi	1058	1067	O
+,	1067	1068	O
+1997	1069	1073	O
+)	1073	1074	O
+.	1074	1075	O
+
+On	1076	1078	O
+the	1079	1082	O
+other	1083	1088	O
+hand	1089	1093	O
+,	1093	1094	O
+less	1095	1099	O
+has	1100	1103	O
+been	1104	1108	O
+published	1109	1118	O
+on	1119	1121	O
+the	1122	1125	O
+velocity	1126	1134	B-Process
+distribution	1135	1147	I-Process
+and	1148	1151	O
+the	1152	1155	O
+flow	1156	1160	B-Process
+structure	1161	1170	I-Process
+within	1171	1177	I-Process
+the	1178	1181	I-Process
+liquid	1182	1188	I-Process
+films	1189	1194	I-Process
+,	1194	1195	O
+underneath	1196	1206	O
+the	1207	1210	O
+film	1211	1215	B-Material
+surface	1216	1223	I-Material
+.	1223	1224	O
+
+This	1225	1229	O
+can	1230	1233	O
+be	1234	1236	O
+related	1237	1244	O
+to	1245	1247	O
+the	1248	1251	O
+relative	1252	1260	O
+difficulty	1261	1271	O
+of	1272	1274	O
+these	1275	1280	O
+measurements	1281	1293	O
+caused	1294	1300	O
+by	1301	1303	O
+:	1303	1304	O
+(	1305	1306	O
+i	1306	1307	O
+)	1307	1308	O
+the	1309	1312	O
+extremely	1313	1322	O
+restricted	1323	1333	O
+measurement	1334	1345	O
+space	1346	1351	O
+,	1351	1352	O
+due	1353	1356	O
+to	1357	1359	O
+the	1360	1363	O
+small	1364	1369	O
+thickness	1370	1379	B-Task
+of	1380	1382	I-Task
+the	1383	1386	I-Task
+liquid	1387	1393	I-Task
+films	1394	1399	I-Task
+(	1400	1401	O
+in	1401	1403	O
+the	1404	1407	O
+order	1408	1413	O
+of	1414	1416	O
+and	1417	1420	O
+often	1421	1426	O
+sub	1427	1430	O
+-	1430	1431	O
+mm	1431	1433	O
+)	1433	1434	O
+,	1434	1435	O
+(	1436	1437	O
+ii	1437	1439	O
+)	1439	1440	O
+the	1441	1444	O
+highly	1445	1451	O
+disturbed	1452	1461	O
+and	1462	1465	O
+intermittent	1466	1478	O
+nature	1479	1485	O
+of	1486	1488	O
+the	1489	1492	O
+gas	1493	1496	B-Process
+–	1496	1497	I-Process
+liquid	1497	1503	I-Process
+interface	1504	1513	I-Process
+,	1513	1514	O
+
+(	1515	1516	O
+iii	1516	1519	O
+)	1519	1520	O
+the	1521	1524	O
+entrainment	1525	1536	B-Process
+of	1537	1539	I-Process
+gas	1540	1543	I-Process
+inside	1544	1550	O
+the	1551	1554	O
+liquid	1555	1561	B-Material
+film	1562	1566	I-Material
+and	1567	1570	O
+of	1571	1573	O
+liquid	1574	1580	B-Material
+into	1581	1585	O
+the	1586	1589	O
+gas	1590	1593	B-Material
+core	1594	1598	I-Material
+,	1598	1599	O
+and	1600	1603	O
+(	1604	1605	O
+iv	1605	1607	O
+)	1607	1608	O
+the	1609	1612	O
+relatively	1613	1623	O
+high	1624	1628	B-Task
+velocities	1629	1639	I-Task
+of	1640	1642	O
+both	1643	1647	O
+the	1648	1651	O
+gas	1652	1655	B-Material
+and	1656	1659	O
+liquid	1660	1666	B-Material
+phases	1667	1673	O
+.	1673	1674	O
 
 
 -DOCSTART- (S0301932215002037)
 
-There	NN	O	O
-is	NN	O	O
-also	NN	O	O
-a	NN	O	O
-lack	NN	O	O
-of	NN	O	O
-agreement	NN	O	O
-as	NN	O	O
-to	NN	O	O
-what	NN	O	O
-constitutes	NN	O	O
-churn	NN	O	B-Process
-flow	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-fairly	NN	O	O
-certainly	NN	O	O
-a	NN	O	O
-gas	NN	O	B-Process
-continuous	NN	O	I-Process
-flow	NN	O	I-Process
-.	NN	O	O
-
-There	NN	O	O
-is	NN	O	O
-growing	NN	O	O
-agreement	NN	O	O
-that	NN	O	O
-there	NN	O	O
-are	NN	O	O
-huge	NN	O	B-Material
-waves	NN	O	I-Material
-present	NN	O	O
-and	NN	O	O
-some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-liquid	NN	O	B-Material
-is	NN	O	O
-carried	NN	O	O
-as	NN	O	O
-drops	NN	O	O
-.	NN	O	O
-
-Sekoguchi	NN	O	O
-and	NN	O	O
-Mori	NN	O	O
-(	NN	O	O
-1997	NN	O	O
-)	NN	O	O
-and	NN	O	O
-Sawai	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2004	NN	O	O
-)	NN	O	O
-using	NN	O	O
-measurements	NN	O	O
-from	NN	O	O
-their	NN	O	O
-multiple	NN	O	O
-probes	NN	O	B-Material
-(	NN	O	O
-92	NN	O	O
-over	NN	O	O
-an	NN	O	O
-axial	NN	O	O
-length	NN	O	O
-of	NN	O	O
-2.325	NN	O	O
-m	NN	O	O
-)	NN	O	O
-obtained	NN	O	O
-time	NN	O	B-Process
-/	NN	O	I-Process
-axial	NN	O	I-Process
-position	NN	O	I-Process
-/	NN	O	I-Process
-void	NN	O	I-Process
-fraction	NN	O	I-Process
-information	NN	O	I-Process
-.	NN	O	O
-
-From	NN	O	O
-this	NN	O	O
-they	NN	O	O
-were	NN	O	O
-able	NN	O	O
-to	NN	O	O
-identify	NN	O	B-Process
-huge	NN	O	I-Process
-wave	NN	O	I-Process
-from	NN	O	O
-amongst	NN	O	O
-disturbance	NN	O	B-Material
-waves	NN	O	I-Material
-and	NN	O	O
-slugs	NN	O	B-Material
-.	NN	O	O
-
-They	NN	O	O
-classified	NN	O	O
-individual	NN	O	O
-structures	NN	O	O
-as	NN	O	O
-huge	NN	O	B-Material
-waves	NN	O	I-Material
-from	NN	O	O
-their	NN	O	O
-size	NN	O	O
-together	NN	O	O
-with	NN	O	O
-the	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-their	NN	O	O
-velocities	NN	O	O
-depended	NN	O	O
-significantly	NN	O	O
-on	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-axial	NN	O	O
-length	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-was	NN	O	O
-in	NN	O	O
-contrast	NN	O	O
-to	NN	O	O
-disturbance	NN	O	B-Material
-waves	NN	O	I-Material
-where	NN	O	O
-the	NN	O	O
-velocity	NN	O	B-Process
-of	NN	O	I-Process
-individual	NN	O	I-Process
-waves	NN	O	I-Process
-only	NN	O	O
-increased	NN	O	O
-slightly	NN	O	O
-with	NN	O	O
-the	NN	O	O
-axial	NN	O	O
-extent	NN	O	O
-of	NN	O	O
-these	NN	O	O
-waves	NN	O	B-Material
-.	NN	O	O
-
-They	NN	O	O
-also	NN	O	O
-found	NN	O	O
-that	NN	O	O
-the	NN	O	O
-frequency	NN	O	B-Process
-of	NN	O	I-Process
-huge	NN	O	I-Process
-waves	NN	O	I-Process
-first	NN	O	O
-increased	NN	O	O
-and	NN	O	O
-then	NN	O	O
-decrease	NN	O	O
-with	NN	O	O
-increasing	NN	O	O
-gas	NN	O	B-Process
-superficial	NN	O	I-Process
-velocity	NN	O	I-Process
-.	NN	O	O
-
-Similarly	NN	O	O
-,	NN	O	O
-their	NN	O	O
-velocities	NN	O	O
-were	NN	O	O
-found	NN	O	O
-to	NN	O	O
-deviate	NN	O	O
-from	NN	O	O
-the	NN	O	O
-line	NN	O	O
-for	NN	O	O
-slug	NN	O	B-Process
-flow	NN	O	I-Process
-velocities	NN	O	I-Process
-and	NN	O	O
-pass	NN	O	O
-through	NN	O	O
-a	NN	O	O
-maximum	NN	O	O
-and	NN	O	O
-then	NN	O	O
-a	NN	O	O
-minimum	NN	O	O
-.	NN	O	O
+There	0	5	O
+is	6	8	O
+also	9	13	O
+a	14	15	O
+lack	16	20	O
+of	21	23	O
+agreement	24	33	O
+as	34	36	O
+to	37	39	O
+what	40	44	O
+constitutes	45	56	O
+churn	57	62	B-Process
+flow	63	67	I-Process
+.	67	68	O
+
+It	69	71	O
+is	72	74	O
+fairly	75	81	O
+certainly	82	91	O
+a	92	93	O
+gas	94	97	B-Process
+continuous	98	108	I-Process
+flow	109	113	I-Process
+.	113	114	O
+
+There	115	120	O
+is	121	123	O
+growing	124	131	O
+agreement	132	141	O
+that	142	146	O
+there	147	152	O
+are	153	156	O
+huge	157	161	B-Material
+waves	162	167	I-Material
+present	168	175	O
+and	176	179	O
+some	180	184	O
+of	185	187	O
+the	188	191	O
+liquid	192	198	B-Material
+is	199	201	O
+carried	202	209	O
+as	210	212	O
+drops	213	218	O
+.	218	219	O
+
+Sekoguchi	220	229	O
+and	230	233	O
+Mori	234	238	O
+(	239	240	O
+1997	240	244	O
+)	244	245	O
+and	246	249	O
+Sawai	250	255	O
+et	256	258	O
+al	259	261	O
+.	261	262	O
+
+(	263	264	O
+2004	264	268	O
+)	268	269	O
+using	270	275	O
+measurements	276	288	O
+from	289	293	O
+their	294	299	O
+multiple	300	308	O
+probes	309	315	B-Material
+(	316	317	O
+92	317	319	O
+over	320	324	O
+an	325	327	O
+axial	328	333	O
+length	334	340	O
+of	341	343	O
+2.325	344	349	O
+m	350	351	O
+)	351	352	O
+obtained	353	361	O
+time	362	366	B-Process
+/	366	367	I-Process
+axial	367	372	I-Process
+position	373	381	I-Process
+/	381	382	I-Process
+void	382	386	I-Process
+fraction	387	395	I-Process
+information	396	407	I-Process
+.	407	408	O
+
+From	409	413	O
+this	414	418	O
+they	419	423	O
+were	424	428	O
+able	429	433	O
+to	434	436	O
+identify	437	445	B-Process
+huge	446	450	I-Process
+wave	451	455	I-Process
+from	456	460	O
+amongst	461	468	O
+disturbance	469	480	B-Material
+waves	481	486	I-Material
+and	487	490	O
+slugs	491	496	B-Material
+.	496	497	O
+
+They	498	502	O
+classified	503	513	O
+individual	514	524	O
+structures	525	535	O
+as	536	538	O
+huge	539	543	B-Material
+waves	544	549	I-Material
+from	550	554	O
+their	555	560	O
+size	561	565	O
+together	566	574	O
+with	575	579	O
+the	580	583	O
+fact	584	588	O
+that	589	593	O
+their	594	599	O
+velocities	600	610	O
+depended	611	619	O
+significantly	620	633	O
+on	634	636	O
+the	637	640	O
+corresponding	641	654	O
+axial	655	660	O
+length	661	667	O
+.	667	668	O
+
+This	669	673	O
+was	674	677	O
+in	678	680	O
+contrast	681	689	O
+to	690	692	O
+disturbance	693	704	B-Material
+waves	705	710	I-Material
+where	711	716	O
+the	717	720	O
+velocity	721	729	B-Process
+of	730	732	I-Process
+individual	733	743	I-Process
+waves	744	749	I-Process
+only	750	754	O
+increased	755	764	O
+slightly	765	773	O
+with	774	778	O
+the	779	782	O
+axial	783	788	O
+extent	789	795	O
+of	796	798	O
+these	799	804	O
+waves	805	810	B-Material
+.	810	811	O
+
+They	812	816	O
+also	817	821	O
+found	822	827	O
+that	828	832	O
+the	833	836	O
+frequency	837	846	B-Process
+of	847	849	I-Process
+huge	850	854	I-Process
+waves	855	860	I-Process
+first	861	866	O
+increased	867	876	O
+and	877	880	O
+then	881	885	O
+decrease	886	894	O
+with	895	899	O
+increasing	900	910	O
+gas	911	914	B-Process
+superficial	915	926	I-Process
+velocity	927	935	I-Process
+.	935	936	O
+
+Similarly	937	946	O
+,	946	947	O
+their	948	953	O
+velocities	954	964	O
+were	965	969	O
+found	970	975	O
+to	976	978	O
+deviate	979	986	O
+from	987	991	O
+the	992	995	O
+line	996	1000	O
+for	1001	1004	O
+slug	1005	1009	B-Process
+flow	1010	1014	I-Process
+velocities	1015	1025	I-Process
+and	1026	1029	O
+pass	1030	1034	O
+through	1035	1042	O
+a	1043	1044	O
+maximum	1045	1052	O
+and	1053	1056	O
+then	1057	1061	O
+a	1062	1063	O
+minimum	1064	1071	O
+.	1071	1072	O
 
 
 -DOCSTART- (S0305054816300867)
 
-The	NN	O	O
-scheduling	NN	O	B-Process
-process	NN	O	I-Process
-we	NN	O	O
-adopt	NN	O	O
-matches	NN	O	O
-a	NN	O	O
-multiple	NN	O	B-Process
-stage	NN	O	I-Process
-stochastic	NN	O	I-Process
-programming	NN	O	I-Process
-approach	NN	O	I-Process
-.	NN	O	O
-
-Standard	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-stage	NN	O	I-Process
-stochastic	NN	O	I-Process
-programs	NN	O	I-Process
-with	NN	O	O
-linear	NN	O	B-Process
-or	NN	O	I-Process
-convex	NN	O	I-Process
-functions	NN	O	I-Process
-are	NN	O	O
-often	NN	O	O
-solved	NN	O	O
-using	NN	O	O
-the	NN	O	O
-L	NN	O	B-Process
--	NN	O	I-Process
-shaped	NN	O	I-Process
-method	NN	O	I-Process
-or	NN	O	O
-Bender	NN	O	B-Process
-'s	NN	O	I-Process
-decomposition	NN	O	I-Process
-[	NN	O	O
-44,6,7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-our	NN	O	O
-recourse	NN	O	B-Process
-decision	NN	O	I-Process
-(	NN	O	O
-scheduled	NN	O	B-Process
-cancellations	NN	O	I-Process
-)	NN	O	O
-is	NN	O	O
-still	NN	O	O
-anticipative	NN	O	O
-to	NN	O	O
-further	NN	O	O
-uncertainty	NN	O	O
-,	NN	O	O
-namely	NN	O	O
-the	NN	O	O
-second	NN	O	O
-shift	NN	O	O
-surgery	NN	O	O
-durations	NN	O	O
-,	NN	O	O
-unavailability	NN	O	O
-and	NN	O	O
-cancellations	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-such	NN	O	O
-,	NN	O	O
-the	NN	O	O
-decision	NN	O	B-Task
-problem	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-viewed	NN	O	O
-as	NN	O	O
-a	NN	O	O
-three	NN	O	B-Process
--	NN	O	I-Process
-stage	NN	O	I-Process
-recourse	NN	O	I-Process
-model	NN	O	I-Process
-[	NN	O	O
-5,6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Solving	NN	O	O
-the	NN	O	O
-scheduling	NN	O	B-Task
-problem	NN	O	I-Task
-is	NN	O	O
-further	NN	O	O
-complicated	NN	O	O
-because	NN	O	O
-the	NN	O	O
-recourse	NN	O	B-Process
-function	NN	O	I-Process
-is	NN	O	O
-integer	NN	O	O
-.	NN	O	O
-
-Laporte	NN	O	O
-and	NN	O	O
-Louveaux	NN	O	O
-
-[	NN	O	O
-26	NN	O	O
-]	NN	O	O
-propose	NN	O	O
-modified	NN	O	B-Process
-L	NN	O	I-Process
--	NN	O	I-Process
-shaped	NN	O	I-Process
-decomposition	NN	O	I-Process
-with	NN	O	O
-adjusted	NN	O	O
-optimal	NN	O	O
-cuts	NN	O	O
-for	NN	O	O
-two	NN	O	B-Process
-stage	NN	O	I-Process
-stochastic	NN	O	I-Process
-program	NN	O	I-Process
-with	NN	O	O
-integer	NN	O	B-Process
-recourse	NN	O	I-Process
-.	NN	O	O
-
-Angulo	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-alternately	NN	O	O
-generate	NN	O	B-Process
-optimal	NN	O	I-Process
-cuts	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-linear	NN	O	I-Process
-sub	NN	O	I-Process
--	NN	O	I-Process
-problem	NN	O	I-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-integer	NN	O	I-Process
-sub	NN	O	I-Process
--	NN	O	I-Process
-problem	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-improves	NN	O	O
-the	NN	O	O
-practical	NN	O	O
-convergence	NN	O	O
-(	NN	O	O
-see	NN	O	O
-also	NN	O	O
-[	NN	O	O
-15,8	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-follow	NN	O	O
-a	NN	O	O
-sample	NN	O	B-Process
-average	NN	O	I-Process
-approximation	NN	O	I-Process
-approach	NN	O	I-Process
-(	NN	O	O
-SAA	NN	O	B-Process
-)	NN	O	O
-which	NN	O	O
-uses	NN	O	O
-this	NN	O	O
-framework	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-we	NN	O	O
-prove	NN	O	O
-and	NN	O	O
-exploit	NN	O	O
-a	NN	O	O
-specific	NN	O	O
-relationship	NN	O	O
-between	NN	O	O
-the	NN	O	O
-first	NN	O	B-Process
--	NN	O	I-Process
-stage	NN	O	I-Process
-realization	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-optimal	NN	O	O
-number	NN	O	O
-of	NN	O	O
-scheduled	NN	O	O
-cancellations	NN	O	O
-to	NN	O	O
-speed	NN	O	O
-up	NN	O	O
-the	NN	O	O
-computation	NN	O	O
-of	NN	O	O
-integer	NN	O	B-Process
-cuts	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-use	NN	O	O
-Jensen	NN	O	B-Process
-'s	NN	O	I-Process
-inequality	NN	O	I-Process
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-to	NN	O	O
-upper	NN	O	B-Task
-bound	NN	O	I-Task
-the	NN	O	I-Task
-minus	NN	O	I-Task
-second	NN	O	I-Task
-(	NN	O	I-Task
-and	NN	O	I-Task
-third	NN	O	I-Task
-)	NN	O	I-Task
-stage	NN	O	I-Task
-cost	NN	O	I-Task
-,	NN	O	O
-a	NN	O	O
-technique	NN	O	O
-that	NN	O	O
-was	NN	O	O
-proposed	NN	O	O
-by	NN	O	O
-Batun	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+scheduling	4	14	B-Process
+process	15	22	I-Process
+we	23	25	O
+adopt	26	31	O
+matches	32	39	O
+a	40	41	O
+multiple	42	50	B-Process
+stage	51	56	I-Process
+stochastic	57	67	I-Process
+programming	68	79	I-Process
+approach	80	88	I-Process
+.	88	89	O
+
+Standard	90	98	O
+two	99	102	B-Process
+-	102	103	I-Process
+stage	103	108	I-Process
+stochastic	109	119	I-Process
+programs	120	128	I-Process
+with	129	133	O
+linear	134	140	B-Process
+or	141	143	I-Process
+convex	144	150	I-Process
+functions	151	160	I-Process
+are	161	164	O
+often	165	170	O
+solved	171	177	O
+using	178	183	O
+the	184	187	O
+L	188	189	B-Process
+-	189	190	I-Process
+shaped	190	196	I-Process
+method	197	203	I-Process
+or	204	206	O
+Bender	207	213	B-Process
+'s	213	215	I-Process
+decomposition	216	229	I-Process
+[	230	231	O
+44,6,7	231	237	O
+]	237	238	O
+.	238	239	O
+
+However	240	247	O
+,	247	248	O
+our	249	252	O
+recourse	253	261	B-Process
+decision	262	270	I-Process
+(	271	272	O
+scheduled	272	281	B-Process
+cancellations	282	295	I-Process
+)	295	296	O
+is	297	299	O
+still	300	305	O
+anticipative	306	318	O
+to	319	321	O
+further	322	329	O
+uncertainty	330	341	O
+,	341	342	O
+namely	343	349	O
+the	350	353	O
+second	354	360	O
+shift	361	366	O
+surgery	367	374	O
+durations	375	384	O
+,	384	385	O
+unavailability	386	400	O
+and	401	404	O
+cancellations	405	418	O
+.	418	419	O
+
+As	420	422	O
+such	423	427	O
+,	427	428	O
+the	429	432	O
+decision	433	441	B-Task
+problem	442	449	I-Task
+can	450	453	O
+be	454	456	O
+viewed	457	463	O
+as	464	466	O
+a	467	468	O
+three	469	474	B-Process
+-	474	475	I-Process
+stage	475	480	I-Process
+recourse	481	489	I-Process
+model	490	495	I-Process
+[	496	497	O
+5,6	497	500	O
+]	500	501	O
+.	501	502	O
+
+Solving	503	510	O
+the	511	514	O
+scheduling	515	525	B-Task
+problem	526	533	I-Task
+is	534	536	O
+further	537	544	O
+complicated	545	556	O
+because	557	564	O
+the	565	568	O
+recourse	569	577	B-Process
+function	578	586	I-Process
+is	587	589	O
+integer	590	597	O
+.	597	598	O
+
+Laporte	599	606	O
+and	607	610	O
+Louveaux	611	619	O
+
+[	620	621	O
+26	621	623	O
+]	623	624	O
+propose	625	632	O
+modified	633	641	B-Process
+L	642	643	I-Process
+-	643	644	I-Process
+shaped	644	650	I-Process
+decomposition	651	664	I-Process
+with	665	669	O
+adjusted	670	678	O
+optimal	679	686	O
+cuts	687	691	O
+for	692	695	O
+two	696	699	B-Process
+stage	700	705	I-Process
+stochastic	706	716	I-Process
+program	717	724	I-Process
+with	725	729	O
+integer	730	737	B-Process
+recourse	738	746	I-Process
+.	746	747	O
+
+Angulo	748	754	O
+et	755	757	O
+al	758	760	O
+.	760	761	O
+
+[	762	763	O
+1	763	764	O
+]	764	765	O
+alternately	766	777	O
+generate	778	786	B-Process
+optimal	787	794	I-Process
+cuts	795	799	I-Process
+of	800	802	I-Process
+the	803	806	I-Process
+linear	807	813	I-Process
+sub	814	817	I-Process
+-	817	818	I-Process
+problem	818	825	I-Process
+and	826	829	I-Process
+the	830	833	I-Process
+integer	834	841	I-Process
+sub	842	845	I-Process
+-	845	846	I-Process
+problem	846	853	I-Process
+,	853	854	O
+which	855	860	O
+improves	861	869	O
+the	870	873	O
+practical	874	883	O
+convergence	884	895	O
+(	896	897	O
+see	897	900	O
+also	901	905	O
+[	906	907	O
+15,8	907	911	O
+]	911	912	O
+)	912	913	O
+.	913	914	O
+
+We	915	917	O
+follow	918	924	O
+a	925	926	O
+sample	927	933	B-Process
+average	934	941	I-Process
+approximation	942	955	I-Process
+approach	956	964	I-Process
+(	965	966	O
+SAA	966	969	B-Process
+)	969	970	O
+which	971	976	O
+uses	977	981	O
+this	982	986	O
+framework	987	996	O
+.	996	997	O
+
+Moreover	998	1006	O
+,	1006	1007	O
+we	1008	1010	O
+prove	1011	1016	O
+and	1017	1020	O
+exploit	1021	1028	O
+a	1029	1030	O
+specific	1031	1039	O
+relationship	1040	1052	O
+between	1053	1060	O
+the	1061	1064	O
+first	1065	1070	B-Process
+-	1070	1071	I-Process
+stage	1071	1076	I-Process
+realization	1077	1088	I-Process
+and	1089	1092	O
+the	1093	1096	O
+optimal	1097	1104	O
+number	1105	1111	O
+of	1112	1114	O
+scheduled	1115	1124	O
+cancellations	1125	1138	O
+to	1139	1141	O
+speed	1142	1147	O
+up	1148	1150	O
+the	1151	1154	O
+computation	1155	1166	O
+of	1167	1169	O
+integer	1170	1177	B-Process
+cuts	1178	1182	I-Process
+.	1182	1183	O
+
+We	1184	1186	O
+use	1187	1190	O
+Jensen	1191	1197	B-Process
+'s	1197	1199	I-Process
+inequality	1200	1210	I-Process
+[	1211	1212	O
+17	1212	1214	O
+]	1214	1215	O
+to	1216	1218	O
+upper	1219	1224	B-Task
+bound	1225	1230	I-Task
+the	1231	1234	I-Task
+minus	1235	1240	I-Task
+second	1241	1247	I-Task
+(	1248	1249	I-Task
+and	1249	1252	I-Task
+third	1253	1258	I-Task
+)	1258	1259	I-Task
+stage	1260	1265	I-Task
+cost	1266	1270	I-Task
+,	1270	1271	O
+a	1272	1273	O
+technique	1274	1283	O
+that	1284	1288	O
+was	1289	1292	O
+proposed	1293	1301	O
+by	1302	1304	O
+Batun	1305	1310	O
+et	1311	1313	O
+al	1314	1316	O
+.	1316	1317	O
+
+[	1318	1319	O
+3	1319	1320	O
+]	1320	1321	O
+.	1321	1322	O
 
 
 -DOCSTART- (S0306437913000768)
 
-Modeling	NN	O	B-Task
-collaboration	NN	O	I-Task
-processes	NN	O	I-Task
-is	NN	O	O
-a	NN	O	O
-challenging	NN	O	O
-task	NN	O	O
-.	NN	O	O
-
-Existing	NN	O	O
-modeling	NN	O	B-Process
-approaches	NN	O	I-Process
-are	NN	O	O
-not	NN	O	O
-capable	NN	O	O
-of	NN	O	O
-expressing	NN	O	O
-the	NN	O	O
-unpredictable	NN	O	O
-,	NN	O	O
-non	NN	O	O
--	NN	O	O
-routine	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-human	NN	O	B-Process
-collaboration	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-influenced	NN	O	O
-by	NN	O	O
-the	NN	O	O
-social	NN	O	O
-context	NN	O	O
-of	NN	O	O
-involved	NN	O	O
-collaborators	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-propose	NN	O	O
-a	NN	O	O
-modeling	NN	O	B-Process
-approach	NN	O	I-Process
-which	NN	O	O
-considers	NN	O	O
-collaboration	NN	O	B-Process
-processes	NN	O	I-Process
-as	NN	O	O
-the	NN	O	O
-evolution	NN	O	B-Process
-of	NN	O	I-Process
-a	NN	O	I-Process
-network	NN	O	I-Process
-of	NN	O	I-Process
-collaborative	NN	O	I-Process
-documents	NN	O	I-Process
-along	NN	O	I-Process
-with	NN	O	I-Process
-a	NN	O	I-Process
-social	NN	O	I-Process
-network	NN	O	I-Process
-of	NN	O	I-Process
-collaborators	NN	O	I-Process
-.	NN	O	O
-
-Our	NN	O	O
-modeling	NN	O	B-Process
-approach	NN	O	I-Process
-,	NN	O	O
-accompanied	NN	O	O
-by	NN	O	O
-a	NN	O	O
-graphical	NN	O	B-Process
-notation	NN	O	I-Process
-and	NN	O	I-Process
-formalization	NN	O	I-Process
-,	NN	O	O
-allows	NN	O	O
-to	NN	O	O
-capture	NN	O	O
-the	NN	O	O
-influence	NN	O	B-Process
-of	NN	O	I-Process
-complex	NN	O	I-Process
-social	NN	O	I-Process
-structures	NN	O	I-Process
-formed	NN	O	O
-by	NN	O	O
-collaborators	NN	O	O
-,	NN	O	O
-and	NN	O	O
-therefore	NN	O	O
-facilitates	NN	O	O
-such	NN	O	O
-activities	NN	O	O
-as	NN	O	O
-the	NN	O	O
-discovery	NN	O	B-Task
-of	NN	O	I-Task
-socially	NN	O	I-Task
-coherent	NN	O	I-Task
-teams	NN	O	I-Task
-,	NN	O	O
-social	NN	O	O
-hubs	NN	O	O
-,	NN	O	O
-or	NN	O	O
-unbiased	NN	O	O
-experts	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-demonstrate	NN	O	O
-the	NN	O	O
-applicability	NN	O	O
-and	NN	O	O
-expressiveness	NN	O	O
-of	NN	O	O
-our	NN	O	O
-approach	NN	O	O
-and	NN	O	O
-notation	NN	O	O
-,	NN	O	O
-and	NN	O	O
-discuss	NN	O	O
-their	NN	O	O
-strengths	NN	O	O
-and	NN	O	O
-weaknesses	NN	O	O
-.	NN	O	O
+Modeling	0	8	B-Task
+collaboration	9	22	I-Task
+processes	23	32	I-Task
+is	33	35	O
+a	36	37	O
+challenging	38	49	O
+task	50	54	O
+.	54	55	O
+
+Existing	56	64	O
+modeling	65	73	B-Process
+approaches	74	84	I-Process
+are	85	88	O
+not	89	92	O
+capable	93	100	O
+of	101	103	O
+expressing	104	114	O
+the	115	118	O
+unpredictable	119	132	O
+,	132	133	O
+non	134	137	O
+-	137	138	O
+routine	138	145	O
+nature	146	152	O
+of	153	155	O
+human	156	161	B-Process
+collaboration	162	175	I-Process
+,	175	176	O
+which	177	182	O
+is	183	185	O
+influenced	186	196	O
+by	197	199	O
+the	200	203	O
+social	204	210	O
+context	211	218	O
+of	219	221	O
+involved	222	230	O
+collaborators	231	244	O
+.	244	245	O
+
+We	246	248	O
+propose	249	256	O
+a	257	258	O
+modeling	259	267	B-Process
+approach	268	276	I-Process
+which	277	282	O
+considers	283	292	O
+collaboration	293	306	B-Process
+processes	307	316	I-Process
+as	317	319	O
+the	320	323	O
+evolution	324	333	B-Process
+of	334	336	I-Process
+a	337	338	I-Process
+network	339	346	I-Process
+of	347	349	I-Process
+collaborative	350	363	I-Process
+documents	364	373	I-Process
+along	374	379	I-Process
+with	380	384	I-Process
+a	385	386	I-Process
+social	387	393	I-Process
+network	394	401	I-Process
+of	402	404	I-Process
+collaborators	405	418	I-Process
+.	418	419	O
+
+Our	420	423	O
+modeling	424	432	B-Process
+approach	433	441	I-Process
+,	441	442	O
+accompanied	443	454	O
+by	455	457	O
+a	458	459	O
+graphical	460	469	B-Process
+notation	470	478	I-Process
+and	479	482	I-Process
+formalization	483	496	I-Process
+,	496	497	O
+allows	498	504	O
+to	505	507	O
+capture	508	515	O
+the	516	519	O
+influence	520	529	B-Process
+of	530	532	I-Process
+complex	533	540	I-Process
+social	541	547	I-Process
+structures	548	558	I-Process
+formed	559	565	O
+by	566	568	O
+collaborators	569	582	O
+,	582	583	O
+and	584	587	O
+therefore	588	597	O
+facilitates	598	609	O
+such	610	614	O
+activities	615	625	O
+as	626	628	O
+the	629	632	O
+discovery	633	642	B-Task
+of	643	645	I-Task
+socially	646	654	I-Task
+coherent	655	663	I-Task
+teams	664	669	I-Task
+,	669	670	O
+social	671	677	O
+hubs	678	682	O
+,	682	683	O
+or	684	686	O
+unbiased	687	695	O
+experts	696	703	O
+.	703	704	O
+
+We	705	707	O
+demonstrate	708	719	O
+the	720	723	O
+applicability	724	737	O
+and	738	741	O
+expressiveness	742	756	O
+of	757	759	O
+our	760	763	O
+approach	764	772	O
+and	773	776	O
+notation	777	785	O
+,	785	786	O
+and	787	790	O
+discuss	791	798	O
+their	799	804	O
+strengths	805	814	O
+and	815	818	O
+weaknesses	819	829	O
+.	829	830	O
 
 
 -DOCSTART- (S0370157309002877)
 
-We	NN	O	O
-start	NN	O	O
-by	NN	O	O
-outlining	NN	O	O
-the	NN	O	O
-motivation	NN	O	O
-,	NN	O	O
-structure	NN	O	O
-and	NN	O	O
-content	NN	O	O
-of	NN	O	O
-the	NN	O	O
-review	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-has	NN	O	O
-long	NN	O	O
-been	NN	O	O
-known	NN	O	O
-that	NN	O	O
-cardiovascular	NN	O	B-Process
-signals	NN	O	I-Process
-contain	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-oscillatory	NN	O	B-Process
-components	NN	O	I-Process
-that	NN	O	O
-are	NN	O	O
-not	NN	O	O
-exactly	NN	O	O
-periodic	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-put	NN	O	O
-it	NN	O	O
-differently	NN	O	O
-,	NN	O	O
-their	NN	O	O
-periods	NN	O	B-Process
-(	NN	O	O
-frequencies	NN	O	B-Process
-)	NN	O	O
-fluctuate	NN	O	O
-with	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-example	NN	O	O
-,	NN	O	O
-heart	NN	O	B-Process
-rate	NN	O	I-Process
-variability	NN	O	I-Process
-(	NN	O	O
-HRV	NN	O	B-Process
-)	NN	O	O
-has	NN	O	O
-in	NN	O	O
-itself	NN	O	O
-provided	NN	O	O
-a	NN	O	O
-major	NN	O	O
-topic	NN	O	O
-of	NN	O	O
-discussion	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-introduce	NN	O	B-Task
-one	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-statistical	NN	O	I-Task
-approaches	NN	O	I-Task
-to	NN	O	I-Task
-HRV	NN	O	I-Task
-in	NN	O	O
-Section	NN	O	O
-3	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-understand	NN	O	B-Task
-the	NN	O	I-Task
-variability	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-cardiovascular	NN	O	I-Task
-system	NN	O	I-Task
-,	NN	O	O
-discussion	NN	O	O
-of	NN	O	O
-a	NN	O	O
-single	NN	O	O
-source	NN	O	O
-is	NN	O	O
-insufficient	NN	O	O
-because	NN	O	O
-the	NN	O	O
-cardiovascular	NN	O	B-Material
-system	NN	O	I-Material
-is	NN	O	O
-composed	NN	O	O
-of	NN	O	O
-many	NN	O	O
-different	NN	O	O
-physiological	NN	O	B-Material
-components	NN	O	I-Material
-(	NN	O	O
-subsystems	NN	O	B-Material
-)	NN	O	O
-and	NN	O	O
-it	NN	O	O
-is	NN	O	O
-the	NN	O	O
-effects	NN	O	O
-of	NN	O	O
-their	NN	O	O
-mutual	NN	O	O
-interaction	NN	O	O
-that	NN	O	O
-combine	NN	O	O
-to	NN	O	O
-produce	NN	O	O
-HRV	NN	O	B-Task
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-demonstrated	NN	O	O
-in	NN	O	O
-Section	NN	O	O
-4	NN	O	O
-,	NN	O	O
-revealed	NN	O	O
-by	NN	O	O
-results	NN	O	O
-obtained	NN	O	O
-using	NN	O	O
-the	NN	O	O
-wavelet	NN	O	B-Process
-transform	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-Section	NN	O	O
-5	NN	O	O
-,	NN	O	O
-we	NN	O	O
-discuss	NN	O	B-Task
-the	NN	O	I-Task
-cardio	NN	O	I-Task
--	NN	O	I-Task
-respiratory	NN	O	I-Task
-interaction	NN	O	I-Task
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-phase	NN	O	B-Process
-synchronization	NN	O	I-Process
-.	NN	O	O
-
-To	NN	O	O
-set	NN	O	O
-the	NN	O	O
-scene	NN	O	O
-for	NN	O	O
-these	NN	O	O
-later	NN	O	O
-discussions	NN	O	O
-,	NN	O	O
-we	NN	O	O
-summarize	NN	O	B-Task
-the	NN	O	I-Task
-basic	NN	O	I-Task
-principles	NN	O	I-Task
-of	NN	O	I-Task
-phase	NN	O	I-Task
-dynamics	NN	O	I-Task
-in	NN	O	O
-Section	NN	O	O
-2	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-readers	NN	O	O
-who	NN	O	O
-are	NN	O	O
-unfamiliar	NN	O	O
-with	NN	O	O
-the	NN	O	O
-physiological	NN	O	O
-aspects	NN	O	O
-of	NN	O	O
-the	NN	O	O
-research	NN	O	O
-,	NN	O	O
-we	NN	O	O
-provide	NN	O	O
-Appendices	NN	O	O
-A	NN	O	O
-on	NN	O	O
-the	NN	O	O
-cardiovascular	NN	O	B-Material
-system	NN	O	I-Material
-and	NN	O	O
-B	NN	O	O
-on	NN	O	O
-how	NN	O	O
-measurements	NN	O	B-Process
-of	NN	O	I-Process
-cardiovascular	NN	O	I-Process
-signals	NN	O	I-Process
-are	NN	O	O
-conducted	NN	O	O
-.	NN	O	O
-
-Appendix	NN	O	O
-C	NN	O	O
-provides	NN	O	O
-details	NN	O	O
-of	NN	O	O
-the	NN	O	O
-statistical	NN	O	B-Process
-methods	NN	O	I-Process
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-group	NN	O	B-Task
-data	NN	O	I-Task
-analyses	NN	O	I-Task
-.	NN	O	O
+We	0	2	O
+start	3	8	O
+by	9	11	O
+outlining	12	21	O
+the	22	25	O
+motivation	26	36	O
+,	36	37	O
+structure	38	47	O
+and	48	51	O
+content	52	59	O
+of	60	62	O
+the	63	66	O
+review	67	73	O
+.	73	74	O
+
+It	75	77	O
+has	78	81	O
+long	82	86	O
+been	87	91	O
+known	92	97	O
+that	98	102	O
+cardiovascular	103	117	B-Process
+signals	118	125	I-Process
+contain	126	133	O
+a	134	135	O
+number	136	142	O
+of	143	145	O
+oscillatory	146	157	B-Process
+components	158	168	I-Process
+that	169	173	O
+are	174	177	O
+not	178	181	O
+exactly	182	189	O
+periodic	190	198	O
+.	198	199	O
+
+To	200	202	O
+put	203	206	O
+it	207	209	O
+differently	210	221	O
+,	221	222	O
+their	223	228	O
+periods	229	236	B-Process
+(	237	238	O
+frequencies	238	249	B-Process
+)	249	250	O
+fluctuate	251	260	O
+with	261	265	O
+time	266	270	O
+.	270	271	O
+
+For	272	275	O
+example	276	283	O
+,	283	284	O
+heart	285	290	B-Process
+rate	291	295	I-Process
+variability	296	307	I-Process
+(	308	309	O
+HRV	309	312	B-Process
+)	312	313	O
+has	314	317	O
+in	318	320	O
+itself	321	327	O
+provided	328	336	O
+a	337	338	O
+major	339	344	O
+topic	345	350	O
+of	351	353	O
+discussion	354	364	O
+.	364	365	O
+
+We	366	368	O
+introduce	369	378	B-Task
+one	379	382	I-Task
+of	383	385	I-Task
+the	386	389	I-Task
+statistical	390	401	I-Task
+approaches	402	412	I-Task
+to	413	415	I-Task
+HRV	416	419	I-Task
+in	420	422	O
+Section	423	430	O
+3	431	432	O
+.	432	433	O
+
+However	434	441	O
+,	441	442	O
+in	443	445	O
+order	446	451	O
+to	452	454	O
+understand	455	465	B-Task
+the	466	469	I-Task
+variability	470	481	I-Task
+of	482	484	I-Task
+the	485	488	I-Task
+cardiovascular	489	503	I-Task
+system	504	510	I-Task
+,	510	511	O
+discussion	512	522	O
+of	523	525	O
+a	526	527	O
+single	528	534	O
+source	535	541	O
+is	542	544	O
+insufficient	545	557	O
+because	558	565	O
+the	566	569	O
+cardiovascular	570	584	B-Material
+system	585	591	I-Material
+is	592	594	O
+composed	595	603	O
+of	604	606	O
+many	607	611	O
+different	612	621	O
+physiological	622	635	B-Material
+components	636	646	I-Material
+(	647	648	O
+subsystems	648	658	B-Material
+)	658	659	O
+and	660	663	O
+it	664	666	O
+is	667	669	O
+the	670	673	O
+effects	674	681	O
+of	682	684	O
+their	685	690	O
+mutual	691	697	O
+interaction	698	709	O
+that	710	714	O
+combine	715	722	O
+to	723	725	O
+produce	726	733	O
+HRV	734	737	B-Task
+.	737	738	O
+
+This	739	743	O
+is	744	746	O
+demonstrated	747	759	O
+in	760	762	O
+Section	763	770	O
+4	771	772	O
+,	772	773	O
+revealed	774	782	O
+by	783	785	O
+results	786	793	O
+obtained	794	802	O
+using	803	808	O
+the	809	812	O
+wavelet	813	820	B-Process
+transform	821	830	I-Process
+.	830	831	O
+
+In	832	834	O
+Section	835	842	O
+5	843	844	O
+,	844	845	O
+we	846	848	O
+discuss	849	856	B-Task
+the	857	860	I-Task
+cardio	861	867	I-Task
+-	867	868	I-Task
+respiratory	868	879	I-Task
+interaction	880	891	I-Task
+in	892	894	O
+terms	895	900	O
+of	901	903	O
+phase	904	909	B-Process
+synchronization	910	925	I-Process
+.	925	926	O
+
+To	927	929	O
+set	930	933	O
+the	934	937	O
+scene	938	943	O
+for	944	947	O
+these	948	953	O
+later	954	959	O
+discussions	960	971	O
+,	971	972	O
+we	973	975	O
+summarize	976	985	B-Task
+the	986	989	I-Task
+basic	990	995	I-Task
+principles	996	1006	I-Task
+of	1007	1009	I-Task
+phase	1010	1015	I-Task
+dynamics	1016	1024	I-Task
+in	1025	1027	O
+Section	1028	1035	O
+2	1036	1037	O
+.	1037	1038	O
+
+For	1039	1042	O
+readers	1043	1050	O
+who	1051	1054	O
+are	1055	1058	O
+unfamiliar	1059	1069	O
+with	1070	1074	O
+the	1075	1078	O
+physiological	1079	1092	O
+aspects	1093	1100	O
+of	1101	1103	O
+the	1104	1107	O
+research	1108	1116	O
+,	1116	1117	O
+we	1118	1120	O
+provide	1121	1128	O
+Appendices	1129	1139	O
+A	1140	1141	O
+on	1142	1144	O
+the	1145	1148	O
+cardiovascular	1149	1163	B-Material
+system	1164	1170	I-Material
+and	1171	1174	O
+B	1175	1176	O
+on	1177	1179	O
+how	1180	1183	O
+measurements	1184	1196	B-Process
+of	1197	1199	I-Process
+cardiovascular	1200	1214	I-Process
+signals	1215	1222	I-Process
+are	1223	1226	O
+conducted	1227	1236	O
+.	1236	1237	O
+
+Appendix	1238	1246	O
+C	1247	1248	O
+provides	1249	1257	O
+details	1258	1265	O
+of	1266	1268	O
+the	1269	1272	O
+statistical	1273	1284	B-Process
+methods	1285	1292	I-Process
+used	1293	1297	O
+in	1298	1300	O
+the	1301	1304	O
+group	1305	1310	B-Task
+data	1311	1315	I-Task
+analyses	1316	1324	I-Task
+.	1324	1325	O
 
 
 -DOCSTART- (S0370157312000105)
 
-By	NN	O	O
-the	NN	O	O
-early	NN	O	O
-1970s	NN	O	O
-,	NN	O	O
-and	NN	O	O
-following	NN	O	O
-the	NN	O	O
-‘	NN	O	O
-golden	NN	O	O
-age’	NN	O	O
-of	NN	O	O
-general	NN	O	B-Task
-relativity	NN	O	I-Task
-that	NN	O	O
-took	NN	O	O
-place	NN	O	O
-in	NN	O	O
-the	NN	O	O
-1960s	NN	O	O
-,	NN	O	O
-there	NN	O	O
-was	NN	O	O
-a	NN	O	O
-wide	NN	O	O
-array	NN	O	O
-of	NN	O	O
-candidate	NN	O	O
-theories	NN	O	B-Task
-of	NN	O	I-Task
-gravity	NN	O	I-Task
-in	NN	O	O
-existence	NN	O	O
-that	NN	O	O
-could	NN	O	O
-rival	NN	O	O
-Einstein	NN	O	O
-’s	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-formalism	NN	O	O
-was	NN	O	O
-needed	NN	O	O
-to	NN	O	O
-deal	NN	O	O
-with	NN	O	O
-this	NN	O	O
-great	NN	O	O
-abundance	NN	O	O
-of	NN	O	O
-possibilities	NN	O	O
-,	NN	O	O
-and	NN	O	O
-this	NN	O	O
-was	NN	O	O
-provided	NN	O	O
-in	NN	O	O
-the	NN	O	O
-form	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Parameterised	NN	O	B-Process
-Post	NN	O	I-Process
--	NN	O	I-Process
-Newtonian	NN	O	I-Process
-(	NN	O	O
-PPN	NN	O	B-Process
-)	NN	O	O
-formalism	NN	O	O
-by	NN	O	O
-Kenneth	NN	O	O
-Nordtvedt	NN	O	O
-,	NN	O	O
-Kip	NN	O	O
-Thorne	NN	O	O
-and	NN	O	O
-Clifford	NN	O	O
-Will	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-PPN	NN	O	B-Process
-formalism	NN	O	I-Process
-was	NN	O	O
-built	NN	O	O
-on	NN	O	O
-the	NN	O	O
-earlier	NN	O	O
-work	NN	O	O
-of	NN	O	O
-Eddington	NN	O	O
-and	NN	O	O
-Dicke	NN	O	O
-,	NN	O	O
-and	NN	O	O
-allowed	NN	O	O
-for	NN	O	O
-the	NN	O	O
-numerous	NN	O	O
-theories	NN	O	O
-available	NN	O	O
-at	NN	O	O
-the	NN	O	O
-time	NN	O	O
-to	NN	O	O
-be	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-cutting	NN	O	B-Task
-edge	NN	O	I-Task
-astrophysical	NN	O	I-Task
-observations	NN	O	I-Task
-such	NN	O	O
-as	NN	O	O
-lunar	NN	O	B-Task
-laser	NN	O	I-Task
-ranging	NN	O	I-Task
-,	NN	O	O
-radio	NN	O	B-Task
-echo	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-,	NN	O	O
-in	NN	O	O
-1974	NN	O	O
-,	NN	O	O
-the	NN	O	O
-Hulse	NN	O	B-Task
-–	NN	O	I-Task
-Taylor	NN	O	I-Task
-binary	NN	O	I-Task
-pulsar	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-PPN	NN	O	B-Process
-formalism	NN	O	I-Process
-provided	NN	O	O
-a	NN	O	O
-clear	NN	O	O
-structure	NN	O	O
-within	NN	O	O
-which	NN	O	O
-one	NN	O	O
-could	NN	O	O
-compare	NN	O	B-Process
-and	NN	O	I-Process
-assess	NN	O	I-Process
-various	NN	O	O
-theories	NN	O	O
-,	NN	O	O
-and	NN	O	O
-has	NN	O	O
-been	NN	O	O
-the	NN	O	O
-benchmark	NN	O	B-Process
-for	NN	O	I-Process
-how	NN	O	I-Process
-theories	NN	O	I-Process
-of	NN	O	I-Process
-gravity	NN	O	I-Process
-should	NN	O	I-Process
-be	NN	O	I-Process
-evaluated	NN	O	I-Process
-ever	NN	O	O
-since	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-will	NN	O	O
-give	NN	O	O
-an	NN	O	O
-outline	NN	O	O
-of	NN	O	O
-the	NN	O	O
-PPN	NN	O	B-Process
-formalism	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-constraints	NN	O	O
-available	NN	O	O
-within	NN	O	O
-it	NN	O	O
-today	NN	O	O
-,	NN	O	O
-in	NN	O	O
-Section	NN	O	O
-2	NN	O	O
-.	NN	O	O
+By	0	2	O
+the	3	6	O
+early	7	12	O
+1970s	13	18	O
+,	18	19	O
+and	20	23	O
+following	24	33	O
+the	34	37	O
+‘	38	39	O
+golden	39	45	O
+age’	46	50	O
+of	51	53	O
+general	54	61	B-Task
+relativity	62	72	I-Task
+that	73	77	O
+took	78	82	O
+place	83	88	O
+in	89	91	O
+the	92	95	O
+1960s	96	101	O
+,	101	102	O
+there	103	108	O
+was	109	112	O
+a	113	114	O
+wide	115	119	O
+array	120	125	O
+of	126	128	O
+candidate	129	138	O
+theories	139	147	B-Task
+of	148	150	I-Task
+gravity	151	158	I-Task
+in	159	161	O
+existence	162	171	O
+that	172	176	O
+could	177	182	O
+rival	183	188	O
+Einstein	189	197	O
+’s	197	199	O
+.	199	200	O
+
+A	201	202	O
+formalism	203	212	O
+was	213	216	O
+needed	217	223	O
+to	224	226	O
+deal	227	231	O
+with	232	236	O
+this	237	241	O
+great	242	247	O
+abundance	248	257	O
+of	258	260	O
+possibilities	261	274	O
+,	274	275	O
+and	276	279	O
+this	280	284	O
+was	285	288	O
+provided	289	297	O
+in	298	300	O
+the	301	304	O
+form	305	309	O
+of	310	312	O
+the	313	316	O
+Parameterised	317	330	B-Process
+Post	331	335	I-Process
+-	335	336	I-Process
+Newtonian	336	345	I-Process
+(	346	347	O
+PPN	347	350	B-Process
+)	350	351	O
+formalism	352	361	O
+by	362	364	O
+Kenneth	365	372	O
+Nordtvedt	373	382	O
+,	382	383	O
+Kip	384	387	O
+Thorne	388	394	O
+and	395	398	O
+Clifford	399	407	O
+Will	408	412	O
+.	412	413	O
+
+The	414	417	O
+PPN	418	421	B-Process
+formalism	422	431	I-Process
+was	432	435	O
+built	436	441	O
+on	442	444	O
+the	445	448	O
+earlier	449	456	O
+work	457	461	O
+of	462	464	O
+Eddington	465	474	O
+and	475	478	O
+Dicke	479	484	O
+,	484	485	O
+and	486	489	O
+allowed	490	497	O
+for	498	501	O
+the	502	505	O
+numerous	506	514	O
+theories	515	523	O
+available	524	533	O
+at	534	536	O
+the	537	540	O
+time	541	545	O
+to	546	548	O
+be	549	551	O
+compared	552	560	O
+to	561	563	O
+cutting	564	571	B-Task
+edge	572	576	I-Task
+astrophysical	577	590	I-Task
+observations	591	603	I-Task
+such	604	608	O
+as	609	611	O
+lunar	612	617	B-Task
+laser	618	623	I-Task
+ranging	624	631	I-Task
+,	631	632	O
+radio	633	638	B-Task
+echo	639	643	I-Task
+,	643	644	O
+and	645	648	O
+,	648	649	O
+in	650	652	O
+1974	653	657	O
+,	657	658	O
+the	659	662	O
+Hulse	663	668	B-Task
+–	668	669	I-Task
+Taylor	669	675	I-Task
+binary	676	682	I-Task
+pulsar	683	689	I-Task
+.	689	690	O
+
+The	691	694	O
+PPN	695	698	B-Process
+formalism	699	708	I-Process
+provided	709	717	O
+a	718	719	O
+clear	720	725	O
+structure	726	735	O
+within	736	742	O
+which	743	748	O
+one	749	752	O
+could	753	758	O
+compare	759	766	B-Process
+and	767	770	I-Process
+assess	771	777	I-Process
+various	778	785	O
+theories	786	794	O
+,	794	795	O
+and	796	799	O
+has	800	803	O
+been	804	808	O
+the	809	812	O
+benchmark	813	822	B-Process
+for	823	826	I-Process
+how	827	830	I-Process
+theories	831	839	I-Process
+of	840	842	I-Process
+gravity	843	850	I-Process
+should	851	857	I-Process
+be	858	860	I-Process
+evaluated	861	870	I-Process
+ever	871	875	O
+since	876	881	O
+.	881	882	O
+
+We	883	885	O
+will	886	890	O
+give	891	895	O
+an	896	898	O
+outline	899	906	O
+of	907	909	O
+the	910	913	O
+PPN	914	917	B-Process
+formalism	918	927	I-Process
+,	927	928	O
+and	929	932	O
+the	933	936	O
+constraints	937	948	O
+available	949	958	O
+within	959	965	O
+it	966	968	O
+today	969	974	O
+,	974	975	O
+in	976	978	O
+Section	979	986	O
+2	987	988	O
+.	988	989	O
 
 
 -DOCSTART- (S0370157314001318)
 
-Despite	NN	O	O
-the	NN	O	O
-ubiquity	NN	O	O
-of	NN	O	O
-time	NN	O	B-Task
--	NN	O	I-Task
-dependent	NN	O	I-Task
-dynamical	NN	O	I-Task
-systems	NN	O	I-Task
-in	NN	O	O
-nature	NN	O	O
-,	NN	O	O
-there	NN	O	O
-has	NN	O	O
-been	NN	O	O
-relatively	NN	O	O
-little	NN	O	O
-work	NN	O	O
-done	NN	O	O
-on	NN	O	O
-the	NN	O	O
-analysis	NN	O	B-Task
-of	NN	O	I-Task
-time	NN	O	I-Task
-series	NN	O	I-Task
-from	NN	O	O
-such	NN	O	O
-systems	NN	O	O
-.	NN	O	O
-
-Mathematically	NN	O	O
-they	NN	O	O
-are	NN	O	O
-known	NN	O	O
-as	NN	O	O
-non	NN	O	B-Task
--	NN	O	I-Task
-autonomous	NN	O	I-Task
-systems	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-named	NN	O	O
-as	NN	O	O
-such	NN	O	O
-because	NN	O	O
-,	NN	O	O
-unlike	NN	O	O
-autonomous	NN	O	B-Task
-systems	NN	O	I-Task
-,	NN	O	O
-in	NN	O	O
-addition	NN	O	O
-to	NN	O	O
-the	NN	O	O
-points	NN	O	O
-in	NN	O	O
-space	NN	O	O
-over	NN	O	O
-which	NN	O	O
-they	NN	O	O
-are	NN	O	O
-observed	NN	O	O
-they	NN	O	O
-are	NN	O	O
-also	NN	O	O
-influenced	NN	O	O
-by	NN	O	O
-the	NN	O	O
-points	NN	O	O
-in	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-Recently	NN	O	O
-there	NN	O	O
-has	NN	O	O
-been	NN	O	O
-much	NN	O	O
-work	NN	O	O
-on	NN	O	O
-the	NN	O	O
-direct	NN	O	O
-‘	NN	O	B-Process
-bottom	NN	O	I-Process
--	NN	O	I-Process
-up’	NN	O	I-Process
-approach	NN	O	I-Process
-to	NN	O	O
-these	NN	O	O
-systems	NN	O	O
-,	NN	O	O
-which	NN	O	O
-includes	NN	O	O
-the	NN	O	O
-introduction	NN	O	O
-of	NN	O	O
-a	NN	O	O
-subclass	NN	O	O
-known	NN	O	O
-as	NN	O	O
-chronotaxic	NN	O	B-Task
-systems	NN	O	I-Task
-that	NN	O	O
-are	NN	O	O
-able	NN	O	O
-to	NN	O	O
-model	NN	O	B-Process
-the	NN	O	I-Process
-stable	NN	O	I-Process
-but	NN	O	I-Process
-time	NN	O	I-Process
--	NN	O	I-Process
-varying	NN	O	I-Process
-frequencies	NN	O	I-Process
-of	NN	O	O
-oscillations	NN	O	O
-in	NN	O	O
-living	NN	O	B-Task
-systems	NN	O	I-Task
-[	NN	O	O
-8,9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-contrast	NN	O	O
-,	NN	O	O
-the	NN	O	O
-time	NN	O	B-Process
-series	NN	O	I-Process
-analysis	NN	O	I-Process
-of	NN	O	O
-these	NN	O	O
-systems	NN	O	O
-,	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-the	NN	O	O
-inverse	NN	O	B-Process
-or	NN	O	O
-‘	NN	O	B-Process
-top	NN	O	I-Process
--	NN	O	I-Process
-down’	NN	O	I-Process
-approach	NN	O	O
-,	NN	O	O
-has	NN	O	O
-not	NN	O	O
-been	NN	O	O
-studied	NN	O	O
-in	NN	O	O
-detail	NN	O	O
-before	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-partly	NN	O	O
-because	NN	O	O
-non	NN	O	B-Task
--	NN	O	I-Task
-autonomous	NN	O	I-Task
-systems	NN	O	I-Task
-can	NN	O	O
-still	NN	O	O
-be	NN	O	O
-analysed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-same	NN	O	O
-way	NN	O	O
-as	NN	O	O
-other	NN	O	O
-types	NN	O	O
-of	NN	O	O
-systems	NN	O	O
-in	NN	O	O
-both	NN	O	O
-the	NN	O	O
-deterministic	NN	O	B-Process
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-and	NN	O	O
-the	NN	O	O
-stochastic	NN	O	B-Process
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-regime	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-now	NN	O	O
-argued	NN	O	O
-that	NN	O	O
-this	NN	O	O
-type	NN	O	O
-of	NN	O	O
-analysis	NN	O	O
-is	NN	O	O
-insufficient	NN	O	O
-and	NN	O	O
-that	NN	O	O
-an	NN	O	O
-entirely	NN	O	O
-new	NN	O	O
-analytical	NN	O	B-Task
-framework	NN	O	I-Task
-is	NN	O	O
-required	NN	O	O
-to	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-more	NN	O	O
-useful	NN	O	O
-picture	NN	O	O
-of	NN	O	O
-such	NN	O	O
-systems	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-chronotaxic	NN	O	B-Task
-systems	NN	O	I-Task
-some	NN	O	O
-methods	NN	O	O
-have	NN	O	O
-already	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-for	NN	O	O
-the	NN	O	O
-inverse	NN	O	B-Process
-approach	NN	O	I-Process
-and	NN	O	O
-they	NN	O	O
-have	NN	O	O
-shown	NN	O	O
-to	NN	O	O
-be	NN	O	O
-useful	NN	O	O
-in	NN	O	O
-analysing	NN	O	O
-heart	NN	O	B-Task
-rate	NN	O	I-Task
-variability	NN	O	I-Task
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-general	NN	O	O
-and	NN	O	O
-dedicated	NN	O	O
-procedure	NN	O	O
-for	NN	O	O
-analysing	NN	O	O
-non	NN	O	B-Task
--	NN	O	I-Task
-autonomous	NN	O	I-Task
-systems	NN	O	I-Task
-has	NN	O	O
-still	NN	O	O
-not	NN	O	O
-been	NN	O	O
-tackled	NN	O	O
-though	NN	O	O
-.	NN	O	O
+Despite	0	7	O
+the	8	11	O
+ubiquity	12	20	O
+of	21	23	O
+time	24	28	B-Task
+-	28	29	I-Task
+dependent	29	38	I-Task
+dynamical	39	48	I-Task
+systems	49	56	I-Task
+in	57	59	O
+nature	60	66	O
+,	66	67	O
+there	68	73	O
+has	74	77	O
+been	78	82	O
+relatively	83	93	O
+little	94	100	O
+work	101	105	O
+done	106	110	O
+on	111	113	O
+the	114	117	O
+analysis	118	126	B-Task
+of	127	129	I-Task
+time	130	134	I-Task
+series	135	141	I-Task
+from	142	146	O
+such	147	151	O
+systems	152	159	O
+.	159	160	O
+
+Mathematically	161	175	O
+they	176	180	O
+are	181	184	O
+known	185	190	O
+as	191	193	O
+non	194	197	B-Task
+-	197	198	I-Task
+autonomous	198	208	I-Task
+systems	209	216	I-Task
+,	216	217	O
+which	218	223	O
+are	224	227	O
+named	228	233	O
+as	234	236	O
+such	237	241	O
+because	242	249	O
+,	249	250	O
+unlike	251	257	O
+autonomous	258	268	B-Task
+systems	269	276	I-Task
+,	276	277	O
+in	278	280	O
+addition	281	289	O
+to	290	292	O
+the	293	296	O
+points	297	303	O
+in	304	306	O
+space	307	312	O
+over	313	317	O
+which	318	323	O
+they	324	328	O
+are	329	332	O
+observed	333	341	O
+they	342	346	O
+are	347	350	O
+also	351	355	O
+influenced	356	366	O
+by	367	369	O
+the	370	373	O
+points	374	380	O
+in	381	383	O
+time	384	388	O
+.	388	389	O
+
+Recently	390	398	O
+there	399	404	O
+has	405	408	O
+been	409	413	O
+much	414	418	O
+work	419	423	O
+on	424	426	O
+the	427	430	O
+direct	431	437	O
+‘	438	439	B-Process
+bottom	439	445	I-Process
+-	445	446	I-Process
+up’	446	449	I-Process
+approach	450	458	I-Process
+to	459	461	O
+these	462	467	O
+systems	468	475	O
+,	475	476	O
+which	477	482	O
+includes	483	491	O
+the	492	495	O
+introduction	496	508	O
+of	509	511	O
+a	512	513	O
+subclass	514	522	O
+known	523	528	O
+as	529	531	O
+chronotaxic	532	543	B-Task
+systems	544	551	I-Task
+that	552	556	O
+are	557	560	O
+able	561	565	O
+to	566	568	O
+model	569	574	B-Process
+the	575	578	I-Process
+stable	579	585	I-Process
+but	586	589	I-Process
+time	590	594	I-Process
+-	594	595	I-Process
+varying	595	602	I-Process
+frequencies	603	614	I-Process
+of	615	617	O
+oscillations	618	630	O
+in	631	633	O
+living	634	640	B-Task
+systems	641	648	I-Task
+[	650	651	O
+8,9	651	654	O
+]	654	655	O
+.	655	656	O
+
+In	657	659	O
+contrast	660	668	O
+,	668	669	O
+the	670	673	O
+time	674	678	B-Process
+series	679	685	I-Process
+analysis	686	694	I-Process
+of	695	697	O
+these	698	703	O
+systems	704	711	O
+,	711	712	O
+referred	713	721	O
+to	722	724	O
+as	725	727	O
+the	728	731	O
+inverse	732	739	B-Process
+or	740	742	O
+‘	743	744	B-Process
+top	744	747	I-Process
+-	747	748	I-Process
+down’	748	753	I-Process
+approach	754	762	O
+,	762	763	O
+has	764	767	O
+not	768	771	O
+been	772	776	O
+studied	777	784	O
+in	785	787	O
+detail	788	794	O
+before	795	801	O
+.	801	802	O
+
+This	803	807	O
+is	808	810	O
+partly	811	817	O
+because	818	825	O
+non	826	829	B-Task
+-	829	830	I-Task
+autonomous	830	840	I-Task
+systems	841	848	I-Task
+can	849	852	O
+still	853	858	O
+be	859	861	O
+analysed	862	870	O
+in	871	873	O
+the	874	877	O
+same	878	882	O
+way	883	886	O
+as	887	889	O
+other	890	895	O
+types	896	901	O
+of	902	904	O
+systems	905	912	O
+in	913	915	O
+both	916	920	O
+the	921	924	O
+deterministic	925	938	B-Process
+[	940	941	O
+10	941	943	O
+]	943	944	O
+and	945	948	O
+the	949	952	O
+stochastic	953	963	B-Process
+[	965	966	O
+11	966	968	O
+]	968	969	O
+regime	970	976	O
+.	976	977	O
+
+However	978	985	O
+,	985	986	O
+it	987	989	O
+is	990	992	O
+now	993	996	O
+argued	997	1003	O
+that	1004	1008	O
+this	1009	1013	O
+type	1014	1018	O
+of	1019	1021	O
+analysis	1022	1030	O
+is	1031	1033	O
+insufficient	1034	1046	O
+and	1047	1050	O
+that	1051	1055	O
+an	1056	1058	O
+entirely	1059	1067	O
+new	1068	1071	O
+analytical	1072	1082	B-Task
+framework	1083	1092	I-Task
+is	1093	1095	O
+required	1096	1104	O
+to	1105	1107	O
+provide	1108	1115	O
+a	1116	1117	O
+more	1118	1122	O
+useful	1123	1129	O
+picture	1130	1137	O
+of	1138	1140	O
+such	1141	1145	O
+systems	1146	1153	O
+.	1153	1154	O
+
+In	1155	1157	O
+the	1158	1161	O
+case	1162	1166	O
+of	1167	1169	O
+chronotaxic	1170	1181	B-Task
+systems	1182	1189	I-Task
+some	1190	1194	O
+methods	1195	1202	O
+have	1203	1207	O
+already	1208	1215	O
+been	1216	1220	O
+developed	1221	1230	O
+for	1231	1234	O
+the	1235	1238	O
+inverse	1239	1246	B-Process
+approach	1247	1255	I-Process
+and	1256	1259	O
+they	1260	1264	O
+have	1265	1269	O
+shown	1270	1275	O
+to	1276	1278	O
+be	1279	1281	O
+useful	1282	1288	O
+in	1289	1291	O
+analysing	1292	1301	O
+heart	1302	1307	B-Task
+rate	1308	1312	I-Task
+variability	1313	1324	I-Task
+[	1326	1327	O
+12	1327	1329	O
+]	1329	1330	O
+.	1330	1331	O
+
+A	1332	1333	O
+general	1334	1341	O
+and	1342	1345	O
+dedicated	1346	1355	O
+procedure	1356	1365	O
+for	1366	1369	O
+analysing	1370	1379	O
+non	1380	1383	B-Task
+-	1383	1384	I-Task
+autonomous	1384	1394	I-Task
+systems	1395	1402	I-Task
+has	1403	1406	O
+still	1407	1412	O
+not	1413	1416	O
+been	1417	1421	O
+tackled	1422	1429	O
+though	1430	1436	O
+.	1436	1437	O
 
 
 -DOCSTART- (S0370269304006070)
 
-The	NN	O	O
-purpose	NN	O	O
-of	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-is	NN	O	O
-to	NN	O	O
-answer	NN	O	O
-the	NN	O	O
-above	NN	O	O
-question	NN	O	O
-and	NN	O	O
-to	NN	O	O
-confront	NN	O	B-Task
-those	NN	O	I-Task
-six	NN	O	I-Task
--	NN	O	I-Task
-zero	NN	O	I-Task
-textures	NN	O	I-Task
-of	NN	O	I-Task
-lepton	NN	O	I-Task
-mass	NN	O	I-Task
-matrices	NN	O	I-Task
-with	NN	O	O
-the	NN	O	O
-latest	NN	O	O
-experimental	NN	O	B-Material
-data	NN	O	I-Material
-.	NN	O	O
-
-First	NN	O	O
-,	NN	O	O
-we	NN	O	O
-shall	NN	O	O
-present	NN	O	O
-a	NN	O	O
-concise	NN	O	O
-analysis	NN	O	O
-of	NN	O	O
-the	NN	O	O
-lepton	NN	O	B-Material
-mass	NN	O	I-Material
-matrices	NN	O	I-Material
-in	NN	O	O
-Table	NN	O	O
-1	NN	O	O
-and	NN	O	O
-reveal	NN	O	B-Task
-their	NN	O	I-Task
-isomeric	NN	O	I-Task
-features	NN	O	I-Task
-,	NN	O	O
-namely	NN	O	O
-,	NN	O	O
-they	NN	O	O
-have	NN	O	O
-the	NN	O	O
-same	NN	O	O
-phenomenological	NN	O	O
-consequences	NN	O	O
-,	NN	O	O
-although	NN	O	O
-their	NN	O	O
-structures	NN	O	O
-are	NN	O	O
-apparently	NN	O	O
-different	NN	O	O
-.	NN	O	O
-
-Second	NN	O	O
-,	NN	O	O
-we	NN	O	O
-shall	NN	O	O
-examine	NN	O	B-Task
-the	NN	O	I-Task
-predictions	NN	O	I-Task
-of	NN	O	I-Task
-these	NN	O	I-Task
-lepton	NN	O	I-Task
-mass	NN	O	I-Task
-matrices	NN	O	I-Task
-by	NN	O	O
-comparing	NN	O	O
-them	NN	O	O
-with	NN	O	O
-the	NN	O	O
-2σ	NN	O	O
-and	NN	O	O
-3σ	NN	O	O
-intervals	NN	O	O
-of	NN	O	O
-two	NN	O	O
-neutrino	NN	O	B-Process
-mass	NN	O	I-Process
--	NN	O	I-Process
-squared	NN	O	I-Process
-differences	NN	O	I-Process
-and	NN	O	O
-three	NN	O	O
-lepton	NN	O	O
-flavor	NN	O	O
-mixing	NN	O	O
-
-angles,22To	NN	O	O
-be	NN	O	O
-specific	NN	O	O
-,	NN	O	O
-we	NN	O	O
-make	NN	O	O
-use	NN	O	O
-of	NN	O	O
-the	NN	O	O
-2σ	NN	O	O
-and	NN	O	O
-3σ	NN	O	O
-intervals	NN	O	O
-of	NN	O	O
-two	NN	O	O
-neutrino	NN	O	B-Process
-mass	NN	O	I-Process
--	NN	O	I-Process
-squared	NN	O	I-Process
-differences	NN	O	I-Process
-and	NN	O	O
-three	NN	O	O
-lepton	NN	O	B-Process
-flavor	NN	O	I-Process
-mixing	NN	O	I-Process
-angles	NN	O	I-Process
-given	NN	O	O
-by	NN	O	O
-M.	NN	O	O
-Maltoni	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-in	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-which	NN	O	O
-are	NN	O	O
-obtained	NN	O	O
-from	NN	O	O
-a	NN	O	O
-global	NN	O	B-Task
-analysis	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-latest	NN	O	O
-solar	NN	O	B-Material
-,	NN	O	I-Material
-atmospheric	NN	O	I-Material
-,	NN	O	I-Material
-reactor	NN	O	I-Material
-(	NN	O	I-Material
-KamLAND	NN	O	I-Material
-and	NN	O	I-Material
-CHOOZ	NN	O	I-Material
-[	NN	O	I-Material
-10	NN	O	I-Material
-]	NN	O	I-Material
-)	NN	O	I-Material
-and	NN	O	I-Material
-accelerator	NN	O	I-Material
-(	NN	O	I-Material
-K2	NN	O	I-Material
-K	NN	O	I-Material
-)	NN	O	I-Material
-neutrino	NN	O	I-Material
-data	NN	O	I-Material
-.	NN	O	O
-
-We	NN	O	O
-find	NN	O	O
-no	NN	O	O
-parameter	NN	O	O
-space	NN	O	O
-allowed	NN	O	O
-for	NN	O	O
-six	NN	O	O
-isomeric	NN	O	B-Material
-lepton	NN	O	I-Material
-mass	NN	O	I-Material
-matrices	NN	O	I-Material
-at	NN	O	O
-the	NN	O	O
-2σ	NN	O	O
-level	NN	O	O
-.	NN	O	O
-
-At	NN	O	O
-the	NN	O	O
-3σ	NN	O	O
-level	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-their	NN	O	O
-results	NN	O	O
-for	NN	O	O
-neutrino	NN	O	B-Material
-masses	NN	O	O
-and	NN	O	O
-lepton	NN	O	B-Process
-flavor	NN	O	I-Process
-mixing	NN	O	I-Process
-angles	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-compatible	NN	O	O
-with	NN	O	O
-current	NN	O	B-Material
-data	NN	O	I-Material
-.	NN	O	O
-
-Third	NN	O	O
-,	NN	O	O
-we	NN	O	O
-incorporate	NN	O	O
-the	NN	O	O
-seesaw	NN	O	B-Process
-mechanism	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-Fukugita	NN	O	O
-–	NN	O	O
-
-Tanimoto	NN	O	O
-–	NN	O	O
-Yanagida	NN	O	O
-hypothesis	NN	O	O
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-in	NN	O	O
-the	NN	O	O
-charged	NN	O	B-Material
-lepton	NN	O	I-Material
-and	NN	O	O
-Dirac	NN	O	B-Material
-neutrino	NN	O	I-Material
-mass	NN	O	I-Material
-matrices	NN	O	I-Material
-with	NN	O	O
-six	NN	O	O
-texture	NN	O	O
-zeros	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-turns	NN	O	O
-out	NN	O	O
-that	NN	O	O
-their	NN	O	O
-predictions	NN	O	O
-,	NN	O	O
-including	NN	O	O
-θ23≈45	NN	O	O
-°	NN	O	O
-,	NN	O	O
-are	NN	O	O
-in	NN	O	O
-good	NN	O	O
-agreement	NN	O	O
-with	NN	O	O
-the	NN	O	O
-present	NN	O	O
-experimental	NN	O	B-Material
-data	NN	O	I-Material
-even	NN	O	O
-at	NN	O	O
-the	NN	O	O
-2σ	NN	O	O
-level	NN	O	O
-.	NN	O	O
+The	0	3	O
+purpose	4	11	O
+of	12	14	O
+this	15	19	O
+Letter	20	26	O
+is	27	29	O
+to	30	32	O
+answer	33	39	O
+the	40	43	O
+above	44	49	O
+question	50	58	O
+and	59	62	O
+to	63	65	O
+confront	66	74	B-Task
+those	75	80	I-Task
+six	81	84	I-Task
+-	84	85	I-Task
+zero	85	89	I-Task
+textures	90	98	I-Task
+of	99	101	I-Task
+lepton	102	108	I-Task
+mass	109	113	I-Task
+matrices	114	122	I-Task
+with	123	127	O
+the	128	131	O
+latest	132	138	O
+experimental	139	151	B-Material
+data	152	156	I-Material
+.	156	157	O
+
+First	158	163	O
+,	163	164	O
+we	165	167	O
+shall	168	173	O
+present	174	181	O
+a	182	183	O
+concise	184	191	O
+analysis	192	200	O
+of	201	203	O
+the	204	207	O
+lepton	208	214	B-Material
+mass	215	219	I-Material
+matrices	220	228	I-Material
+in	229	231	O
+Table	232	237	O
+1	238	239	O
+and	240	243	O
+reveal	244	250	B-Task
+their	251	256	I-Task
+isomeric	257	265	I-Task
+features	266	274	I-Task
+,	274	275	O
+namely	276	282	O
+,	282	283	O
+they	284	288	O
+have	289	293	O
+the	294	297	O
+same	298	302	O
+phenomenological	303	319	O
+consequences	320	332	O
+,	332	333	O
+although	334	342	O
+their	343	348	O
+structures	349	359	O
+are	360	363	O
+apparently	364	374	O
+different	375	384	O
+.	384	385	O
+
+Second	386	392	O
+,	392	393	O
+we	394	396	O
+shall	397	402	O
+examine	403	410	B-Task
+the	411	414	I-Task
+predictions	415	426	I-Task
+of	427	429	I-Task
+these	430	435	I-Task
+lepton	436	442	I-Task
+mass	443	447	I-Task
+matrices	448	456	I-Task
+by	457	459	O
+comparing	460	469	O
+them	470	474	O
+with	475	479	O
+the	480	483	O
+2σ	484	486	O
+and	487	490	O
+3σ	491	493	O
+intervals	494	503	O
+of	504	506	O
+two	507	510	O
+neutrino	511	519	B-Process
+mass	520	524	I-Process
+-	524	525	I-Process
+squared	525	532	I-Process
+differences	533	544	I-Process
+and	545	548	O
+three	549	554	O
+lepton	555	561	O
+flavor	562	568	O
+mixing	569	575	O
+
+angles,22To	576	587	O
+be	588	590	O
+specific	591	599	O
+,	599	600	O
+we	601	603	O
+make	604	608	O
+use	609	612	O
+of	613	615	O
+the	616	619	O
+2σ	620	622	O
+and	623	626	O
+3σ	627	629	O
+intervals	630	639	O
+of	640	642	O
+two	643	646	O
+neutrino	647	655	B-Process
+mass	656	660	I-Process
+-	660	661	I-Process
+squared	661	668	I-Process
+differences	669	680	I-Process
+and	681	684	O
+three	685	690	O
+lepton	691	697	B-Process
+flavor	698	704	I-Process
+mixing	705	711	I-Process
+angles	712	718	I-Process
+given	719	724	O
+by	725	727	O
+M.	728	730	O
+Maltoni	731	738	O
+et	739	741	O
+al	742	744	O
+.	744	745	O
+
+in	746	748	O
+Ref	749	752	O
+.	752	753	O
+
+[	754	755	O
+5	755	756	O
+]	756	757	O
+.	757	758	O
+
+which	759	764	O
+are	765	768	O
+obtained	769	777	O
+from	778	782	O
+a	783	784	O
+global	785	791	B-Task
+analysis	792	800	I-Task
+of	801	803	O
+the	804	807	O
+latest	808	814	O
+solar	815	820	B-Material
+,	820	821	I-Material
+atmospheric	822	833	I-Material
+,	833	834	I-Material
+reactor	835	842	I-Material
+(	843	844	I-Material
+KamLAND	844	851	I-Material
+and	852	855	I-Material
+CHOOZ	856	861	I-Material
+[	862	863	I-Material
+10	863	865	I-Material
+]	865	866	I-Material
+)	866	867	I-Material
+and	868	871	I-Material
+accelerator	872	883	I-Material
+(	884	885	I-Material
+K2	885	887	I-Material
+K	887	888	I-Material
+)	888	889	I-Material
+neutrino	890	898	I-Material
+data	899	903	I-Material
+.	903	904	O
+
+We	905	907	O
+find	908	912	O
+no	913	915	O
+parameter	916	925	O
+space	926	931	O
+allowed	932	939	O
+for	940	943	O
+six	944	947	O
+isomeric	948	956	B-Material
+lepton	957	963	I-Material
+mass	964	968	I-Material
+matrices	969	977	I-Material
+at	978	980	O
+the	981	984	O
+2σ	985	987	O
+level	988	993	O
+.	993	994	O
+
+At	995	997	O
+the	998	1001	O
+3σ	1002	1004	O
+level	1005	1010	O
+,	1010	1011	O
+however	1012	1019	O
+,	1019	1020	O
+their	1021	1026	O
+results	1027	1034	O
+for	1035	1038	O
+neutrino	1039	1047	B-Material
+masses	1048	1054	O
+and	1055	1058	O
+lepton	1059	1065	B-Process
+flavor	1066	1072	I-Process
+mixing	1073	1079	I-Process
+angles	1080	1086	I-Process
+can	1087	1090	O
+be	1091	1093	O
+compatible	1094	1104	O
+with	1105	1109	O
+current	1110	1117	B-Material
+data	1118	1122	I-Material
+.	1122	1123	O
+
+Third	1124	1129	O
+,	1129	1130	O
+we	1131	1133	O
+incorporate	1134	1145	O
+the	1146	1149	O
+seesaw	1150	1156	B-Process
+mechanism	1157	1166	I-Process
+and	1167	1170	O
+the	1171	1174	O
+Fukugita	1175	1183	O
+–	1183	1184	O
+
+Tanimoto	1184	1192	O
+–	1192	1193	O
+Yanagida	1193	1201	O
+hypothesis	1202	1212	O
+[	1213	1214	O
+9	1214	1215	O
+]	1215	1216	O
+in	1217	1219	O
+the	1220	1223	O
+charged	1224	1231	B-Material
+lepton	1232	1238	I-Material
+and	1239	1242	O
+Dirac	1243	1248	B-Material
+neutrino	1249	1257	I-Material
+mass	1258	1262	I-Material
+matrices	1263	1271	I-Material
+with	1272	1276	O
+six	1277	1280	O
+texture	1281	1288	O
+zeros	1289	1294	O
+.	1294	1295	O
+
+It	1296	1298	O
+turns	1299	1304	O
+out	1305	1308	O
+that	1309	1313	O
+their	1314	1319	O
+predictions	1320	1331	O
+,	1331	1332	O
+including	1333	1342	O
+θ23≈45	1343	1349	O
+°	1349	1350	O
+,	1350	1351	O
+are	1352	1355	O
+in	1356	1358	O
+good	1359	1363	O
+agreement	1364	1373	O
+with	1374	1378	O
+the	1379	1382	O
+present	1383	1390	O
+experimental	1391	1403	B-Material
+data	1404	1408	I-Material
+even	1409	1413	O
+at	1414	1416	O
+the	1417	1420	O
+2σ	1421	1423	O
+level	1424	1429	O
+.	1429	1430	O
 
 
 -DOCSTART- (S0370269304006082)
 
-The	NN	O	O
-aim	NN	O	O
-of	NN	O	O
-this	NN	O	O
-note	NN	O	O
-is	NN	O	O
-nothing	NN	O	O
-more	NN	O	O
-than	NN	O	O
-to	NN	O	O
-bring	NN	O	B-Task
-both	NN	O	I-Task
-approaches	NN	O	I-Task
-on	NN	O	I-Task
-equal	NN	O	I-Task
-footing	NN	O	I-Task
-and	NN	O	O
-to	NN	O	O
-relax	NN	O	B-Task
-the	NN	O	I-Task
-assumptions	NN	O	I-Task
-under	NN	O	O
-which	NN	O	O
-the	NN	O	O
-results	NN	O	O
-of	NN	O	O
-[	NN	O	O
-11,13	NN	O	O
-]	NN	O	O
-have	NN	O	O
-been	NN	O	O
-derived	NN	O	O
-using	NN	O	O
-the	NN	O	O
-first	NN	O	O
-approach	NN	O	O
-.	NN	O	O
-
-More	NN	O	O
-concretely	NN	O	O
-,	NN	O	O
-we	NN	O	O
-generalize	NN	O	B-Process
-the	NN	O	I-Process
-one	NN	O	I-Process
--	NN	O	I-Process
-loop	NN	O	I-Process
-partition	NN	O	I-Process
-functions	NN	O	I-Process
-,	NN	O	I-Process
-as	NN	O	O
-derived	NN	O	O
-in	NN	O	O
-[	NN	O	O
-11,13	NN	O	O
-]	NN	O	O
-for	NN	O	O
-levels	NN	O	O
-being	NN	O	O
-odd	NN	O	O
-,	NN	O	O
-to	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-even	NN	O	O
-levels	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-on	NN	O	O
-the	NN	O	O
-level	NN	O	O
-of	NN	O	O
-partition	NN	O	O
-functions	NN	O	O
-we	NN	O	O
-implement	NN	O	O
-additional	NN	O	B-Process
-dressings	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-world	NN	O	I-Process
--	NN	O	I-Process
-sheet	NN	O	I-Process
-parity	NN	O	I-Process
-symmetry	NN	O	I-Process
-and	NN	O	O
-identify	NN	O	O
-them	NN	O	O
-with	NN	O	O
-the	NN	O	O
-dressings	NN	O	B-Process
-introduced	NN	O	O
-in	NN	O	O
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-in	NN	O	O
-the	NN	O	O
-crosscap	NN	O	B-Process
-state	NN	O	I-Process
-approach	NN	O	I-Process
-.	NN	O	O
-
-As	NN	O	O
-expected	NN	O	O
-,	NN	O	O
-all	NN	O	O
-the	NN	O	O
-physical	NN	O	O
-information	NN	O	O
-can	NN	O	O
-be	NN	O	O
-read	NN	O	O
-off	NN	O	O
-entirely	NN	O	O
-from	NN	O	O
-the	NN	O	O
-various	NN	O	O
-amplitudes	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-will	NN	O	O
-end	NN	O	O
-up	NN	O	O
-with	NN	O	O
-a	NN	O	O
-collection	NN	O	O
-of	NN	O	O
-very	NN	O	O
-explicit	NN	O	O
-and	NN	O	O
-general	NN	O	O
-one	NN	O	B-Process
--	NN	O	I-Process
-loop	NN	O	I-Process
-partition	NN	O	I-Process
-functions	NN	O	I-Process
-and	NN	O	O
-tadpole	NN	O	B-Process
-cancellation	NN	O	I-Process
-conditions	NN	O	I-Process
-covering	NN	O	O
-simple	NN	O	O
-current	NN	O	B-Process
-extensions	NN	O	I-Process
-of	NN	O	I-Process
-all	NN	O	I-Process
-168	NN	O	I-Process
-Gepner	NN	O	I-Process
-models	NN	O	I-Process
-with	NN	O	O
-additional	NN	O	O
-dressings	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-parity	NN	O	B-Process
-symmetry	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-fact	NN	O	O
-providing	NN	O	O
-a	NN	O	O
-compact	NN	O	O
-collection	NN	O	O
-of	NN	O	O
-the	NN	O	O
-main	NN	O	O
-relevant	NN	O	O
-formulas	NN	O	O
-for	NN	O	O
-constructing	NN	O	B-Task
-supersymmetric	NN	O	I-Task
-Gepner	NN	O	I-Task
-model	NN	O	I-Task
-orientifolds	NN	O	I-Task
-was	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-motivations	NN	O	O
-for	NN	O	O
-writing	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-hope	NN	O	O
-that	NN	O	O
-these	NN	O	O
-expressions	NN	O	O
-turn	NN	O	O
-out	NN	O	O
-to	NN	O	O
-be	NN	O	O
-useful	NN	O	O
-for	NN	O	O
-a	NN	O	O
-systematic	NN	O	B-Task
-search	NN	O	I-Task
-for	NN	O	I-Task
-Standard	NN	O	I-Task
--	NN	O	I-Task
-like	NN	O	I-Task
-models	NN	O	I-Task
-respectively	NN	O	O
-for	NN	O	O
-providing	NN	O	B-Task
-a	NN	O	I-Task
-statistical	NN	O	I-Task
-ensemble	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-spirit	NN	O	I-Task
-of	NN	O	I-Task
-[	NN	O	I-Task
-29	NN	O	I-Task
-]	NN	O	I-Task
-.	NN	O	O
+The	0	3	O
+aim	4	7	O
+of	8	10	O
+this	11	15	O
+note	16	20	O
+is	21	23	O
+nothing	24	31	O
+more	32	36	O
+than	37	41	O
+to	42	44	O
+bring	45	50	B-Task
+both	51	55	I-Task
+approaches	56	66	I-Task
+on	67	69	I-Task
+equal	70	75	I-Task
+footing	76	83	I-Task
+and	84	87	O
+to	88	90	O
+relax	91	96	B-Task
+the	97	100	I-Task
+assumptions	101	112	I-Task
+under	113	118	O
+which	119	124	O
+the	125	128	O
+results	129	136	O
+of	137	139	O
+[	140	141	O
+11,13	141	146	O
+]	146	147	O
+have	148	152	O
+been	153	157	O
+derived	158	165	O
+using	166	171	O
+the	172	175	O
+first	176	181	O
+approach	182	190	O
+.	190	191	O
+
+More	192	196	O
+concretely	197	207	O
+,	207	208	O
+we	209	211	O
+generalize	212	222	B-Process
+the	223	226	I-Process
+one	227	230	I-Process
+-	230	231	I-Process
+loop	231	235	I-Process
+partition	236	245	I-Process
+functions	246	255	I-Process
+,	255	256	I-Process
+as	257	259	O
+derived	260	267	O
+in	268	270	O
+[	271	272	O
+11,13	272	277	O
+]	277	278	O
+for	279	282	O
+levels	283	289	O
+being	290	295	O
+odd	296	299	O
+,	299	300	O
+to	301	303	O
+the	304	307	O
+case	308	312	O
+of	313	315	O
+even	316	320	O
+levels	321	327	O
+.	327	328	O
+
+Moreover	329	337	O
+,	337	338	O
+on	339	341	O
+the	342	345	O
+level	346	351	O
+of	352	354	O
+partition	355	364	O
+functions	365	374	O
+we	375	377	O
+implement	378	387	O
+additional	388	398	B-Process
+dressings	399	408	I-Process
+of	409	411	I-Process
+the	412	415	I-Process
+world	416	421	I-Process
+-	421	422	I-Process
+sheet	422	427	I-Process
+parity	428	434	I-Process
+symmetry	435	443	I-Process
+and	444	447	O
+identify	448	456	O
+them	457	461	O
+with	462	466	O
+the	467	470	O
+dressings	471	480	B-Process
+introduced	481	491	O
+in	492	494	O
+[	495	496	O
+12	496	498	O
+]	498	499	O
+in	500	502	O
+the	503	506	O
+crosscap	507	515	B-Process
+state	516	521	I-Process
+approach	522	530	I-Process
+.	530	531	O
+
+As	532	534	O
+expected	535	543	O
+,	543	544	O
+all	545	548	O
+the	549	552	O
+physical	553	561	O
+information	562	573	O
+can	574	577	O
+be	578	580	O
+read	581	585	O
+off	586	589	O
+entirely	590	598	O
+from	599	603	O
+the	604	607	O
+various	608	615	O
+amplitudes	616	626	O
+.	626	627	O
+
+We	628	630	O
+will	631	635	O
+end	636	639	O
+up	640	642	O
+with	643	647	O
+a	648	649	O
+collection	650	660	O
+of	661	663	O
+very	664	668	O
+explicit	669	677	O
+and	678	681	O
+general	682	689	O
+one	690	693	B-Process
+-	693	694	I-Process
+loop	694	698	I-Process
+partition	699	708	I-Process
+functions	709	718	I-Process
+and	719	722	O
+tadpole	723	730	B-Process
+cancellation	731	743	I-Process
+conditions	744	754	I-Process
+covering	755	763	O
+simple	764	770	O
+current	771	778	B-Process
+extensions	779	789	I-Process
+of	790	792	I-Process
+all	793	796	I-Process
+168	797	800	I-Process
+Gepner	801	807	I-Process
+models	808	814	I-Process
+with	815	819	O
+additional	820	830	O
+dressings	831	840	B-Process
+of	841	843	O
+the	844	847	O
+parity	848	854	B-Process
+symmetry	855	863	I-Process
+.	863	864	O
+
+In	865	867	O
+fact	868	872	O
+providing	873	882	O
+a	883	884	O
+compact	885	892	O
+collection	893	903	O
+of	904	906	O
+the	907	910	O
+main	911	915	O
+relevant	916	924	O
+formulas	925	933	O
+for	934	937	O
+constructing	938	950	B-Task
+supersymmetric	951	965	I-Task
+Gepner	966	972	I-Task
+model	973	978	I-Task
+orientifolds	979	991	I-Task
+was	992	995	O
+one	996	999	O
+of	1000	1002	O
+the	1003	1006	O
+motivations	1007	1018	O
+for	1019	1022	O
+writing	1023	1030	O
+this	1031	1035	O
+Letter	1036	1042	O
+.	1042	1043	O
+
+We	1044	1046	O
+hope	1047	1051	O
+that	1052	1056	O
+these	1057	1062	O
+expressions	1063	1074	O
+turn	1075	1079	O
+out	1080	1083	O
+to	1084	1086	O
+be	1087	1089	O
+useful	1090	1096	O
+for	1097	1100	O
+a	1101	1102	O
+systematic	1103	1113	B-Task
+search	1114	1120	I-Task
+for	1121	1124	I-Task
+Standard	1125	1133	I-Task
+-	1133	1134	I-Task
+like	1134	1138	I-Task
+models	1139	1145	I-Task
+respectively	1146	1158	O
+for	1159	1162	O
+providing	1163	1172	B-Task
+a	1173	1174	I-Task
+statistical	1175	1186	I-Task
+ensemble	1187	1195	I-Task
+in	1196	1198	I-Task
+the	1199	1202	I-Task
+spirit	1203	1209	I-Task
+of	1210	1212	I-Task
+[	1213	1214	I-Task
+29	1214	1216	I-Task
+]	1216	1217	I-Task
+.	1217	1218	O
 
 
 -DOCSTART- (S0370269304006161)
 
-Absorption	NN	O	B-Task
-events	NN	O	I-Task
-through	NN	O	I-Task
-the	NN	O	I-Task
-charged	NN	O	I-Task
-current	NN	O	I-Task
-reactions	NN	O	I-Task
-(	NN	O	O
-2)νe+40Ar→e−+40K∗andν̄e+40Ar→e++40Cl∗.	NN	O	O
-There	NN	O	O
-is	NN	O	O
-some	NN	O	O
-uncertainty	NN	O	O
-in	NN	O	O
-predicting	NN	O	B-Task
-e−(e+	NN	O	I-Task
-)	NN	O	I-Task
-event	NN	O	I-Task
-rates	NN	O	I-Task
-for	NN	O	O
-these	NN	O	O
-processes	NN	O	O
-which	NN	O	O
-arise	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-nuclear	NN	O	B-Process
-model	NN	O	I-Process
-dependencies	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-absorption	NN	O	O
-cross	NN	O	O
-section	NN	O	O
-and	NN	O	O
-the	NN	O	O
-treatment	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-Coulomb	NN	O	I-Process
-distortion	NN	O	I-Process
-of	NN	O	O
-electron	NN	O	B-Material
-(	NN	O	O
-positron	NN	O	B-Material
-)	NN	O	O
-in	NN	O	O
-the	NN	O	O
-field	NN	O	O
-of	NN	O	O
-the	NN	O	O
-residual	NN	O	B-Task
-nucleus	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-nuclear	NN	O	B-Task
-absorption	NN	O	I-Task
-cross	NN	O	I-Task
-section	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-charged	NN	O	I-Task
-current	NN	O	I-Task
-neutrino	NN	O	I-Task
-reactions	NN	O	I-Task
-in	NN	O	O
-40Ar	NN	O	O
-relevant	NN	O	O
-to	NN	O	O
-supernova	NN	O	B-Material
-neutrino	NN	O	I-Material
-energies	NN	O	I-Material
-was	NN	O	O
-first	NN	O	O
-calculated	NN	O	O
-by	NN	O	O
-Raghavan	NN	O	O
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-and	NN	O	O
-Bahcall	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-for	NN	O	O
-Fermi	NN	O	O
-transitions	NN	O	O
-leading	NN	O	O
-to	NN	O	O
-isobaric	NN	O	B-Process
-analogue	NN	O	I-Process
-state	NN	O	I-Process
-(	NN	O	O
-IAS	NN	O	B-Process
-)	NN	O	O
-at	NN	O	O
-4.38	NN	O	B-Process
-MeV	NN	O	I-Process
-in	NN	O	I-Process
-40K∗.	NN	O	I-Process
-Later	NN	O	O
-Ormand	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-used	NN	O	O
-a	NN	O	O
-shell	NN	O	B-Process
-model	NN	O	I-Process
-to	NN	O	O
-calculate	NN	O	O
-the	NN	O	B-Task
-Fermi	NN	O	I-Task
-and	NN	O	I-Task
-Gamow	NN	O	I-Task
-–	NN	O	I-Task
-Teller	NN	O	I-Task
-transitions	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-these	NN	O	O
-calculations	NN	O	O
-Fermi	NN	O	O
-function	NN	O	O
-F(Z	NN	O	O
-,	NN	O	O
-Ee	NN	O	O
-)	NN	O	O
-was	NN	O	O
-used	NN	O	O
-to	NN	O	O
-take	NN	O	O
-into	NN	O	O
-account	NN	O	O
-the	NN	O	O
-Coulomb	NN	O	B-Process
-effects	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-a	NN	O	O
-recent	NN	O	O
-paper	NN	O	O
-Bueno	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-make	NN	O	O
-use	NN	O	O
-of	NN	O	O
-a	NN	O	O
-calculation	NN	O	B-Process
-by	NN	O	I-Process
-Martinez	NN	O	I-Process
--	NN	O	I-Process
-Pinedo	NN	O	I-Process
-et	NN	O	I-Process
-al	NN	O	I-Process
-.	NN	O	I-Process
-
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-who	NN	O	O
-use	NN	O	O
-a	NN	O	O
-shell	NN	O	B-Process
-model	NN	O	I-Process
-for	NN	O	I-Process
-Fermi	NN	O	I-Process
-and	NN	O	I-Process
-Gamow	NN	O	I-Process
-–	NN	O	I-Process
-Teller	NN	O	I-Process
-transitions	NN	O	I-Process
-and	NN	O	O
-a	NN	O	O
-continuum	NN	O	B-Process
-random	NN	O	I-Process
-phase	NN	O	I-Process
-approximation	NN	O	I-Process
-(	NN	O	O
-CRPA	NN	O	B-Process
-)	NN	O	O
-for	NN	O	O
-forbidden	NN	O	O
-transitions	NN	O	O
-to	NN	O	O
-calculate	NN	O	O
-the	NN	O	B-Task
-absorption	NN	O	I-Task
-cross	NN	O	I-Task
-sections	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-calculation	NN	O	O
-the	NN	O	O
-Coulomb	NN	O	O
-distortion	NN	O	O
-of	NN	O	O
-the	NN	O	O
-produced	NN	O	O
-electron	NN	O	O
-is	NN	O	O
-treated	NN	O	O
-with	NN	O	O
-a	NN	O	O
-hybrid	NN	O	O
-model	NN	O	O
-where	NN	O	O
-a	NN	O	O
-Fermi	NN	O	O
-function	NN	O	O
-is	NN	O	O
-used	NN	O	O
-for	NN	O	O
-lower	NN	O	O
-electron	NN	O	O
-energies	NN	O	O
-and	NN	O	O
-modified	NN	O	B-Process
-effective	NN	O	I-Process
-momentum	NN	O	I-Process
-approximation	NN	O	I-Process
-(	NN	O	O
-MEMA	NN	O	B-Process
-)	NN	O	O
-for	NN	O	O
-higher	NN	O	O
-electron	NN	O	O
-energies	NN	O	O
-[	NN	O	O
-14–17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-a	NN	O	O
-recent	NN	O	O
-work	NN	O	O
-Bhattacharya	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-have	NN	O	O
-measured	NN	O	O
-the	NN	O	O
-Fermi	NN	O	B-Process
-and	NN	O	I-Process
-Gamow	NN	O	I-Process
-–	NN	O	I-Process
-Teller	NN	O	I-Process
-transition	NN	O	I-Process
-strengths	NN	O	I-Process
-leading	NN	O	O
-to	NN	O	O
-excited	NN	O	O
-states	NN	O	O
-up	NN	O	O
-to	NN	O	O
-6	NN	O	O
-MeV	NN	O	O
-in	NN	O	O
-40K∗	NN	O	O
-and	NN	O	O
-obtained	NN	O	O
-the	NN	O	O
-neutrino	NN	O	B-Task
-absorption	NN	O	I-Task
-cross	NN	O	I-Task
-section	NN	O	I-Task
-for	NN	O	O
-supernova	NN	O	O
-neutrinos	NN	O	O
-in	NN	O	O
-40Ar	NN	O	O
-.	NN	O	O
+Absorption	0	10	B-Task
+events	11	17	I-Task
+through	18	25	I-Task
+the	26	29	I-Task
+charged	30	37	I-Task
+current	38	45	I-Task
+reactions	46	55	I-Task
+(	56	57	O
+2)νe+40Ar→e−+40K∗andν̄e+40Ar→e++40Cl∗.	57	95	O
+There	96	101	O
+is	102	104	O
+some	105	109	O
+uncertainty	110	121	O
+in	122	124	O
+predicting	125	135	B-Task
+e−(e+	136	141	I-Task
+)	141	142	I-Task
+event	143	148	I-Task
+rates	149	154	I-Task
+for	155	158	O
+these	159	164	O
+processes	165	174	O
+which	175	180	O
+arise	181	186	O
+due	187	190	O
+to	191	193	O
+the	194	197	O
+nuclear	198	205	B-Process
+model	206	211	I-Process
+dependencies	212	224	I-Process
+of	225	227	O
+the	228	231	O
+absorption	232	242	O
+cross	243	248	O
+section	249	256	O
+and	257	260	O
+the	261	264	O
+treatment	265	274	B-Process
+of	275	277	I-Process
+the	278	281	I-Process
+Coulomb	282	289	I-Process
+distortion	290	300	I-Process
+of	301	303	O
+electron	304	312	B-Material
+(	313	314	O
+positron	314	322	B-Material
+)	322	323	O
+in	324	326	O
+the	327	330	O
+field	331	336	O
+of	337	339	O
+the	340	343	O
+residual	344	352	B-Task
+nucleus	353	360	I-Task
+.	360	361	O
+
+The	362	365	O
+nuclear	366	373	B-Task
+absorption	374	384	I-Task
+cross	385	390	I-Task
+section	391	398	I-Task
+for	399	402	I-Task
+the	403	406	I-Task
+charged	407	414	I-Task
+current	415	422	I-Task
+neutrino	423	431	I-Task
+reactions	432	441	I-Task
+in	442	444	O
+40Ar	445	449	O
+relevant	450	458	O
+to	459	461	O
+supernova	462	471	B-Material
+neutrino	472	480	I-Material
+energies	481	489	I-Material
+was	490	493	O
+first	494	499	O
+calculated	500	510	O
+by	511	513	O
+Raghavan	514	522	O
+[	523	524	O
+10	524	526	O
+]	526	527	O
+and	528	531	O
+Bahcall	532	539	O
+et	540	542	O
+al	543	545	O
+.	545	546	O
+
+[	547	548	O
+11	548	550	O
+]	550	551	O
+for	552	555	O
+Fermi	556	561	O
+transitions	562	573	O
+leading	574	581	O
+to	582	584	O
+isobaric	585	593	B-Process
+analogue	594	602	I-Process
+state	603	608	I-Process
+(	609	610	O
+IAS	610	613	B-Process
+)	613	614	O
+at	615	617	O
+4.38	618	622	B-Process
+MeV	623	626	I-Process
+in	627	629	I-Process
+40K∗.	630	635	I-Process
+Later	636	641	O
+Ormand	642	648	O
+et	649	651	O
+al	652	654	O
+.	654	655	O
+
+[	656	657	O
+12	657	659	O
+]	659	660	O
+used	661	665	O
+a	666	667	O
+shell	668	673	B-Process
+model	674	679	I-Process
+to	680	682	O
+calculate	683	692	O
+the	693	696	B-Task
+Fermi	697	702	I-Task
+and	703	706	I-Task
+Gamow	707	712	I-Task
+–	712	713	I-Task
+Teller	713	719	I-Task
+transitions	720	731	I-Task
+.	731	732	O
+
+In	733	735	O
+these	736	741	O
+calculations	742	754	O
+Fermi	755	760	O
+function	761	769	O
+F(Z	770	773	O
+,	773	774	O
+Ee	774	776	O
+)	776	777	O
+was	778	781	O
+used	782	786	O
+to	787	789	O
+take	790	794	O
+into	795	799	O
+account	800	807	O
+the	808	811	O
+Coulomb	812	819	B-Process
+effects	820	827	I-Process
+.	827	828	O
+
+In	829	831	O
+a	832	833	O
+recent	834	840	O
+paper	841	846	O
+Bueno	847	852	O
+et	853	855	O
+al	856	858	O
+.	858	859	O
+
+[	860	861	O
+13	861	863	O
+]	863	864	O
+make	865	869	O
+use	870	873	O
+of	874	876	O
+a	877	878	O
+calculation	879	890	B-Process
+by	891	893	I-Process
+Martinez	894	902	I-Process
+-	902	903	I-Process
+Pinedo	903	909	I-Process
+et	910	912	I-Process
+al	913	915	I-Process
+.	915	916	I-Process
+
+[	917	918	O
+14	918	920	O
+]	920	921	O
+who	922	925	O
+use	926	929	O
+a	930	931	O
+shell	932	937	B-Process
+model	938	943	I-Process
+for	944	947	I-Process
+Fermi	948	953	I-Process
+and	954	957	I-Process
+Gamow	958	963	I-Process
+–	963	964	I-Process
+Teller	964	970	I-Process
+transitions	971	982	I-Process
+and	983	986	O
+a	987	988	O
+continuum	989	998	B-Process
+random	999	1005	I-Process
+phase	1006	1011	I-Process
+approximation	1012	1025	I-Process
+(	1026	1027	O
+CRPA	1027	1031	B-Process
+)	1031	1032	O
+for	1033	1036	O
+forbidden	1037	1046	O
+transitions	1047	1058	O
+to	1059	1061	O
+calculate	1062	1071	O
+the	1072	1075	B-Task
+absorption	1076	1086	I-Task
+cross	1087	1092	I-Task
+sections	1093	1101	I-Task
+.	1101	1102	O
+
+In	1103	1105	O
+this	1106	1110	O
+calculation	1111	1122	O
+the	1123	1126	O
+Coulomb	1127	1134	O
+distortion	1135	1145	O
+of	1146	1148	O
+the	1149	1152	O
+produced	1153	1161	O
+electron	1162	1170	O
+is	1171	1173	O
+treated	1174	1181	O
+with	1182	1186	O
+a	1187	1188	O
+hybrid	1189	1195	O
+model	1196	1201	O
+where	1202	1207	O
+a	1208	1209	O
+Fermi	1210	1215	O
+function	1216	1224	O
+is	1225	1227	O
+used	1228	1232	O
+for	1233	1236	O
+lower	1237	1242	O
+electron	1243	1251	O
+energies	1252	1260	O
+and	1261	1264	O
+modified	1265	1273	B-Process
+effective	1274	1283	I-Process
+momentum	1284	1292	I-Process
+approximation	1293	1306	I-Process
+(	1307	1308	O
+MEMA	1308	1312	B-Process
+)	1312	1313	O
+for	1314	1317	O
+higher	1318	1324	O
+electron	1325	1333	O
+energies	1334	1342	O
+[	1343	1344	O
+14–17	1344	1349	O
+]	1349	1350	O
+.	1350	1351	O
+
+In	1352	1354	O
+a	1355	1356	O
+recent	1357	1363	O
+work	1364	1368	O
+Bhattacharya	1369	1381	O
+et	1382	1384	O
+al	1385	1387	O
+.	1387	1388	O
+
+[	1389	1390	O
+18	1390	1392	O
+]	1392	1393	O
+have	1394	1398	O
+measured	1399	1407	O
+the	1408	1411	O
+Fermi	1412	1417	B-Process
+and	1418	1421	I-Process
+Gamow	1422	1427	I-Process
+–	1427	1428	I-Process
+Teller	1428	1434	I-Process
+transition	1435	1445	I-Process
+strengths	1446	1455	I-Process
+leading	1456	1463	O
+to	1464	1466	O
+excited	1467	1474	O
+states	1475	1481	O
+up	1482	1484	O
+to	1485	1487	O
+6	1488	1489	O
+MeV	1490	1493	O
+in	1494	1496	O
+40K∗	1497	1501	O
+and	1502	1505	O
+obtained	1506	1514	O
+the	1515	1518	O
+neutrino	1519	1527	B-Task
+absorption	1528	1538	I-Task
+cross	1539	1544	I-Task
+section	1545	1552	I-Task
+for	1553	1556	O
+supernova	1557	1566	O
+neutrinos	1567	1576	O
+in	1577	1579	O
+40Ar	1580	1584	O
+.	1584	1585	O
 
 
 -DOCSTART- (S0370269304006720)
 
-Classical	NN	O	O
-,	NN	O	O
-two	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-sigma	NN	O	O
-models	NN	O	O
-on	NN	O	O
-compact	NN	O	O
-symmetric	NN	O	O
-spaces	NN	O	O
-
-G	NN	O	O
-/	NN	O	O
-H	NN	O	O
-are	NN	O	O
-integrable	NN	O	O
-by	NN	O	O
-virtue	NN	O	O
-of	NN	O	O
-conserved	NN	O	O
-quantities	NN	O	O
-which	NN	O	O
-can	NN	O	O
-arise	NN	O	O
-as	NN	O	O
-integrals	NN	O	B-Process
-of	NN	O	I-Process
-local	NN	O	I-Process
-or	NN	O	I-Process
-non	NN	O	I-Process
--	NN	O	I-Process
-local	NN	O	I-Process
-functions	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-underlying	NN	O	O
-fields	NN	O	O
-(	NN	O	O
-the	NN	O	O
-accounts	NN	O	O
-in	NN	O	O
-[	NN	O	O
-1–5	NN	O	O
-]	NN	O	O
-contain	NN	O	O
-references	NN	O	O
-to	NN	O	O
-the	NN	O	O
-extensive	NN	O	O
-literature	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Since	NN	O	O
-these	NN	O	O
-models	NN	O	O
-are	NN	O	O
-asymptotically	NN	O	O
-free	NN	O	O
-and	NN	O	O
-strongly	NN	O	O
-coupled	NN	O	O
-in	NN	O	O
-the	NN	O	O
-infrared	NN	O	O
-,	NN	O	O
-their	NN	O	O
-quantum	NN	O	O
-properties	NN	O	O
-are	NN	O	O
-not	NN	O	O
-straightforward	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-.	NN	O	O
-
-Nevertheless	NN	O	O
-,	NN	O	O
-following	NN	O	O
-Lüscher	NN	O	O
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Abdalla	NN	O	O
-,	NN	O	O
-Forger	NN	O	O
-and	NN	O	O
-Gomes	NN	O	O
-showed	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-that	NN	O	O
-,	NN	O	O
-in	NN	O	O
-a	NN	O	O
-G	NN	O	B-Task
-/	NN	O	I-Task
-H	NN	O	I-Task
-sigma	NN	O	I-Task
-model	NN	O	I-Task
-with	NN	O	I-Task
-H	NN	O	I-Task
-simple,11Here	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-throughout	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-,	NN	O	O
-we	NN	O	O
-shall	NN	O	O
-use	NN	O	O
-‘	NN	O	O
-simple’	NN	O	B-Process
-to	NN	O	O
-mean	NN	O	O
-that	NN	O	O
-the	NN	O	O
-corresponding	NN	O	B-Process
-Lie	NN	O	I-Process
-algebra	NN	O	I-Process
-has	NN	O	I-Process
-no	NN	O	I-Process
-non	NN	O	I-Process
--	NN	O	I-Process
-trivial	NN	O	I-Process
-ideals	NN	O	I-Process
-.	NN	O	O
-
-Hence	NN	O	O
-U(1	NN	O	O
-)	NN	O	O
-is	NN	O	O
-simple	NN	O	O
-in	NN	O	O
-our	NN	O	O
-terminology	NN	O	O
-,	NN	O	O
-in	NN	O	O
-addition	NN	O	O
-to	NN	O	O
-the	NN	O	O
-usual	NN	O	O
-non	NN	O	O
--	NN	O	O
-Abelian	NN	O	O
-simple	NN	O	O
-groups	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Cartan	NN	O	O
-–	NN	O	O
-Killing	NN	O	O
-classification	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-the	NN	O	O
-first	NN	O	O
-conserved	NN	O	O
-non	NN	O	O
--	NN	O	O
-local	NN	O	O
-charge	NN	O	O
-survives	NN	O	O
-quantization	NN	O	B-Process
-(	NN	O	O
-after	NN	O	O
-an	NN	O	O
-appropriate	NN	O	O
-renormalization	NN	O	B-Process
-[	NN	O	O
-6–8	NN	O	O
-]	NN	O	O
-)	NN	O	O
-,	NN	O	O
-which	NN	O	O
-suffices	NN	O	O
-to	NN	O	O
-ensure	NN	O	O
-quantum	NN	O	B-Task
-integrability	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-theory	NN	O	O
-.	NN	O	O
-
-By	NN	O	O
-contrast	NN	O	O
-,	NN	O	O
-calculations	NN	O	B-Process
-using	NN	O	I-Process
-the	NN	O	I-Process
-1/N	NN	O	I-Process
-expansion	NN	O	I-Process
-reveal	NN	O	O
-anomalies	NN	O	O
-that	NN	O	O
-spoil	NN	O	O
-the	NN	O	O
-conservation	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-quantum	NN	O	I-Task
-non	NN	O	I-Task
--	NN	O	I-Task
-local	NN	O	I-Task
-charges	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-CPN−1=SU(N)/SU(N−1)×U(1	NN	O	B-Process
-)	NN	O	I-Process
-models	NN	O	I-Process
-for	NN	O	I-Process
-N>2	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-in	NN	O	O
-the	NN	O	O
-wider	NN	O	O
-class	NN	O	O
-of	NN	O	O
-theories	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-complex	NN	O	B-Process
-Grassmannians	NN	O	I-Process
-SU(N)/SU(n)×SU(N−n)×U(1	NN	O	I-Process
-)	NN	O	I-Process
-for	NN	O	I-Process
-N	NN	O	I-Process
->	NN	O	I-Process
-n>1	NN	O	I-Process
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Classical	0	9	O
+,	9	10	O
+two	11	14	O
+-	14	15	O
+dimensional	15	26	O
+sigma	27	32	O
+models	33	39	O
+on	40	42	O
+compact	43	50	O
+symmetric	51	60	O
+spaces	61	67	O
+
+G	68	69	O
+/	69	70	O
+H	70	71	O
+are	72	75	O
+integrable	76	86	O
+by	87	89	O
+virtue	90	96	O
+of	97	99	O
+conserved	100	109	O
+quantities	110	120	O
+which	121	126	O
+can	127	130	O
+arise	131	136	O
+as	137	139	O
+integrals	140	149	B-Process
+of	150	152	I-Process
+local	153	158	I-Process
+or	159	161	I-Process
+non	162	165	I-Process
+-	165	166	I-Process
+local	166	171	I-Process
+functions	172	181	I-Process
+of	182	184	O
+the	185	188	O
+underlying	189	199	O
+fields	200	206	O
+(	207	208	O
+the	208	211	O
+accounts	212	220	O
+in	221	223	O
+[	224	225	O
+1–5	225	228	O
+]	228	229	O
+contain	230	237	O
+references	238	248	O
+to	249	251	O
+the	252	255	O
+extensive	256	265	O
+literature	266	276	O
+)	276	277	O
+.	277	278	O
+
+Since	279	284	O
+these	285	290	O
+models	291	297	O
+are	298	301	O
+asymptotically	302	316	O
+free	317	321	O
+and	322	325	O
+strongly	326	334	O
+coupled	335	342	O
+in	343	345	O
+the	346	349	O
+infrared	350	358	O
+,	358	359	O
+their	360	365	O
+quantum	366	373	O
+properties	374	384	O
+are	385	388	O
+not	389	392	O
+straightforward	393	408	O
+to	409	411	O
+determine	412	421	O
+.	421	422	O
+
+Nevertheless	423	435	O
+,	435	436	O
+following	437	446	O
+Lüscher	447	454	O
+[	455	456	O
+6	456	457	O
+]	457	458	O
+,	458	459	O
+Abdalla	460	467	O
+,	467	468	O
+Forger	469	475	O
+and	476	479	O
+Gomes	480	485	O
+showed	486	492	O
+[	493	494	O
+7	494	495	O
+]	495	496	O
+that	497	501	O
+,	501	502	O
+in	503	505	O
+a	506	507	O
+G	508	509	B-Task
+/	509	510	I-Task
+H	510	511	I-Task
+sigma	512	517	I-Task
+model	518	523	I-Task
+with	524	528	I-Task
+H	529	530	I-Task
+simple,11Here	531	544	I-Task
+,	544	545	O
+and	546	549	O
+throughout	550	560	O
+this	561	565	O
+Letter	566	572	O
+,	572	573	O
+we	574	576	O
+shall	577	582	O
+use	583	586	O
+‘	587	588	O
+simple’	588	595	B-Process
+to	596	598	O
+mean	599	603	O
+that	604	608	O
+the	609	612	O
+corresponding	613	626	B-Process
+Lie	627	630	I-Process
+algebra	631	638	I-Process
+has	639	642	I-Process
+no	643	645	I-Process
+non	646	649	I-Process
+-	649	650	I-Process
+trivial	650	657	I-Process
+ideals	658	664	I-Process
+.	664	665	O
+
+Hence	666	671	O
+U(1	672	675	O
+)	675	676	O
+is	677	679	O
+simple	680	686	O
+in	687	689	O
+our	690	693	O
+terminology	694	705	O
+,	705	706	O
+in	707	709	O
+addition	710	718	O
+to	719	721	O
+the	722	725	O
+usual	726	731	O
+non	732	735	O
+-	735	736	O
+Abelian	736	743	O
+simple	744	750	O
+groups	751	757	O
+of	758	760	O
+the	761	764	O
+Cartan	765	771	O
+–	771	772	O
+Killing	772	779	O
+classification	780	794	O
+[	795	796	O
+13	796	798	O
+]	798	799	O
+.	799	800	O
+
+the	801	804	O
+first	805	810	O
+conserved	811	820	O
+non	821	824	O
+-	824	825	O
+local	825	830	O
+charge	831	837	O
+survives	838	846	O
+quantization	847	859	B-Process
+(	860	861	O
+after	861	866	O
+an	867	869	O
+appropriate	870	881	O
+renormalization	882	897	B-Process
+[	898	899	O
+6–8	899	902	O
+]	902	903	O
+)	903	904	O
+,	904	905	O
+which	906	911	O
+suffices	912	920	O
+to	921	923	O
+ensure	924	930	O
+quantum	931	938	B-Task
+integrability	939	952	I-Task
+of	953	955	O
+the	956	959	O
+theory	960	966	O
+.	966	967	O
+
+By	968	970	O
+contrast	971	979	O
+,	979	980	O
+calculations	981	993	B-Process
+using	994	999	I-Process
+the	1000	1003	I-Process
+1/N	1004	1007	I-Process
+expansion	1008	1017	I-Process
+reveal	1018	1024	O
+anomalies	1025	1034	O
+that	1035	1039	O
+spoil	1040	1045	O
+the	1046	1049	O
+conservation	1050	1062	B-Task
+of	1063	1065	I-Task
+the	1066	1069	I-Task
+quantum	1070	1077	I-Task
+non	1078	1081	I-Task
+-	1081	1082	I-Task
+local	1082	1087	I-Task
+charges	1088	1095	I-Task
+in	1096	1098	O
+the	1099	1102	O
+CPN−1=SU(N)/SU(N−1)×U(1	1103	1126	B-Process
+)	1126	1127	I-Process
+models	1128	1134	I-Process
+for	1135	1138	I-Process
+N>2	1139	1142	I-Process
+,	1142	1143	O
+and	1144	1147	O
+in	1148	1150	O
+the	1151	1154	O
+wider	1155	1160	O
+class	1161	1166	O
+of	1167	1169	O
+theories	1170	1178	O
+based	1179	1184	O
+on	1185	1187	O
+the	1188	1191	O
+complex	1192	1199	B-Process
+Grassmannians	1200	1213	I-Process
+SU(N)/SU(n)×SU(N−n)×U(1	1214	1237	I-Process
+)	1237	1238	I-Process
+for	1239	1242	I-Process
+N	1243	1244	I-Process
+>	1244	1245	I-Process
+n>1	1245	1248	I-Process
+[	1249	1250	O
+9	1250	1251	O
+]	1251	1252	O
+.	1252	1253	O
 
 
 -DOCSTART- (S0370269304006756)
 
-We	NN	O	O
-propose	NN	O	O
-a	NN	O	O
-method	NN	O	O
-for	NN	O	O
-the	NN	O	O
-lattice	NN	O	B-Task
-QCD	NN	O	I-Task
-computation	NN	O	I-Task
-of	NN	O	I-Task
-nucleon	NN	O	I-Task
-–	NN	O	I-Task
-nucleon	NN	O	I-Task
-low	NN	O	I-Task
--	NN	O	I-Task
-energy	NN	O	I-Task
-interactions	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-consists	NN	O	O
-in	NN	O	O
-simulating	NN	O	B-Process
-QCD	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-background	NN	O	O
-of	NN	O	O
-a	NN	O	O
-“	NN	O	O
-electromagnetic	NN	O	B-Material
-”	NN	O	I-Material
-field	NN	O	I-Material
-whose	NN	O	O
-potential	NN	O	O
-is	NN	O	O
-non	NN	O	O
--	NN	O	O
-vanishing	NN	O	O
-,	NN	O	O
-but	NN	O	O
-whose	NN	O	O
-field	NN	O	B-Process
-strength	NN	O	I-Process
-is	NN	O	I-Process
-zero	NN	O	I-Process
-.	NN	O	O
-
-By	NN	O	O
-tuning	NN	O	B-Process
-the	NN	O	I-Process
-background	NN	O	I-Process
-field	NN	O	I-Process
-,	NN	O	O
-phase	NN	O	B-Task
--	NN	O	I-Task
-shifts	NN	O	I-Task
-at	NN	O	I-Task
-any	NN	O	I-Task
-(	NN	O	I-Task
-but	NN	O	I-Task
-small	NN	O	I-Task
-)	NN	O	I-Task
-momenta	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-determined	NN	O	O
-by	NN	O	O
-measuring	NN	O	B-Process
-the	NN	O	I-Process
-shift	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-ground	NN	O	I-Process
-state	NN	O	I-Process
-energy	NN	O	I-Process
-.	NN	O	O
-
-Lattice	NN	O	B-Material
-sizes	NN	O	I-Material
-as	NN	O	O
-small	NN	O	O
-as	NN	O	O
-5	NN	O	O
-Fermi	NN	O	O
-can	NN	O	O
-be	NN	O	O
-sufficient	NN	O	O
-for	NN	O	O
-the	NN	O	O
-calculation	NN	O	B-Task
-of	NN	O	I-Task
-phase	NN	O	I-Task
-shifts	NN	O	I-Task
-up	NN	O	O
-to	NN	O	O
-momenta	NN	O	O
-of	NN	O	O
-order	NN	O	O
-of	NN	O	O
-mπ/2	NN	O	O
-.	NN	O	O
+We	0	2	O
+propose	3	10	O
+a	11	12	O
+method	13	19	O
+for	20	23	O
+the	24	27	O
+lattice	28	35	B-Task
+QCD	36	39	I-Task
+computation	40	51	I-Task
+of	52	54	I-Task
+nucleon	55	62	I-Task
+–	62	63	I-Task
+nucleon	63	70	I-Task
+low	71	74	I-Task
+-	74	75	I-Task
+energy	75	81	I-Task
+interactions	82	94	I-Task
+.	94	95	O
+
+It	96	98	O
+consists	99	107	O
+in	108	110	O
+simulating	111	121	B-Process
+QCD	122	125	I-Process
+in	126	128	O
+the	129	132	O
+background	133	143	O
+of	144	146	O
+a	147	148	O
+“	149	150	O
+electromagnetic	150	165	B-Material
+”	165	166	I-Material
+field	167	172	I-Material
+whose	173	178	O
+potential	179	188	O
+is	189	191	O
+non	192	195	O
+-	195	196	O
+vanishing	196	205	O
+,	205	206	O
+but	207	210	O
+whose	211	216	O
+field	217	222	B-Process
+strength	223	231	I-Process
+is	232	234	I-Process
+zero	235	239	I-Process
+.	239	240	O
+
+By	241	243	O
+tuning	244	250	B-Process
+the	251	254	I-Process
+background	255	265	I-Process
+field	266	271	I-Process
+,	271	272	O
+phase	273	278	B-Task
+-	278	279	I-Task
+shifts	279	285	I-Task
+at	286	288	I-Task
+any	289	292	I-Task
+(	293	294	I-Task
+but	294	297	I-Task
+small	298	303	I-Task
+)	303	304	I-Task
+momenta	305	312	I-Task
+can	313	316	O
+be	317	319	O
+determined	320	330	O
+by	331	333	O
+measuring	334	343	B-Process
+the	344	347	I-Process
+shift	348	353	I-Process
+of	354	356	I-Process
+the	357	360	I-Process
+ground	361	367	I-Process
+state	368	373	I-Process
+energy	374	380	I-Process
+.	380	381	O
+
+Lattice	382	389	B-Material
+sizes	390	395	I-Material
+as	396	398	O
+small	399	404	O
+as	405	407	O
+5	408	409	O
+Fermi	410	415	O
+can	416	419	O
+be	420	422	O
+sufficient	423	433	O
+for	434	437	O
+the	438	441	O
+calculation	442	453	B-Task
+of	454	456	I-Task
+phase	457	462	I-Task
+shifts	463	469	I-Task
+up	470	472	O
+to	473	475	O
+momenta	476	483	O
+of	484	486	O
+order	487	492	O
+of	493	495	O
+mπ/2	496	500	O
+.	500	501	O
 
 
 -DOCSTART- (S0370269304006768)
 
-In	NN	O	O
-our	NN	O	O
-study	NN	O	O
-we	NN	O	O
-illustrate	NN	O	O
-the	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-gauge	NN	O	O
-invariant	NN	O	B-Task
-extensions	NN	O	I-Task
-of	NN	O	I-Task
-local	NN	O	I-Task
-functionals	NN	O	I-Task
-.	NN	O	O
-
-We	NN	O	O
-aim	NN	O	O
-at	NN	O	O
-clarifying	NN	O	O
-,	NN	O	O
-via	NN	O	O
-specific	NN	O	O
-examples	NN	O	O
-,	NN	O	O
-the	NN	O	O
-relation	NN	O	O
-between	NN	O	O
-a	NN	O	O
-functional	NN	O	B-Task
-which	NN	O	I-Task
-is	NN	O	I-Task
-local	NN	O	I-Task
-in	NN	O	I-Task
-a	NN	O	I-Task
-particular	NN	O	I-Task
-gauge	NN	O	I-Task
-(	NN	O	O
-but	NN	O	O
-not	NN	O	O
-necessarily	NN	O	O
-gauge	NN	O	O
-invariant	NN	O	O
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-its	NN	O	B-Task
-gauge	NN	O	I-Task
-invariant	NN	O	I-Task
-extension	NN	O	I-Task
-(	NN	O	O
-which	NN	O	O
-is	NN	O	O
-not	NN	O	O
-necessarily	NN	O	O
-local	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-localities	NN	O	I-Process
-found	NN	O	I-Process
-are	NN	O	O
-not	NN	O	O
-perturbatively	NN	O	O
-local	NN	O	O
-because	NN	O	O
-they	NN	O	O
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-expressed	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-an	NN	O	O
-infinite	NN	O	B-Process
-derivative	NN	O	I-Process
-expansion	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-believe	NN	O	O
-that	NN	O	O
-the	NN	O	O
-implications	NN	O	O
-of	NN	O	O
-this	NN	O	O
-observation	NN	O	O
-have	NN	O	O
-not	NN	O	O
-been	NN	O	O
-clearly	NN	O	O
-emphasised	NN	O	O
-in	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-,	NN	O	O
-as	NN	O	O
-attested	NN	O	O
-by	NN	O	O
-the	NN	O	O
-absence	NN	O	O
-of	NN	O	O
-any	NN	O	O
-debate	NN	O	O
-about	NN	O	O
-it	NN	O	O
-in	NN	O	O
-recent	NN	O	O
-works	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-precisely	NN	O	O
-these	NN	O	O
-dangerous	NN	O	O
-infrared	NN	O	B-Task
-modes	NN	O	I-Task
-that	NN	O	O
-make	NN	O	O
-it	NN	O	O
-hard	NN	O	O
-to	NN	O	O
-define	NN	O	O
-a	NN	O	O
-gauge	NN	O	B-Process
-independent	NN	O	I-Process
-renormalisation	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-gauge	NN	O	B-Task
-invariant	NN	O	I-Task
-extensions	NN	O	I-Task
-of	NN	O	I-Task
-local	NN	O	I-Task
-functionals	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-observation	NN	O	O
-supports	NN	O	O
-the	NN	O	O
-remark	NN	O	O
-in	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-that	NN	O	O
-the	NN	O	O
-expectation	NN	O	B-Task
-value	NN	O	I-Task
-receives	NN	O	O
-important	NN	O	O
-contributions	NN	O	O
-from	NN	O	O
-both	NN	O	O
-large	NN	O	O
-and	NN	O	O
-small	NN	O	O
-distances	NN	O	O
-.	NN	O	O
-
-Our	NN	O	O
-arguments	NN	O	O
-on	NN	O	O
-renormalisability	NN	O	B-Task
-are	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-notion	NN	O	B-Process
-of	NN	O	I-Process
-renormalisation	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-modern	NN	O	O
-sense	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-which	NN	O	O
-relies	NN	O	O
-on	NN	O	O
-BRST	NN	O	B-Process
-cohomology	NN	O	I-Process
-theorems	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-BRST	NN	O	B-Material
-terminology	NN	O	I-Material
-will	NN	O	O
-therefore	NN	O	O
-be	NN	O	O
-frequently	NN	O	O
-used	NN	O	O
-here	NN	O	O
-,	NN	O	O
-even	NN	O	O
-though	NN	O	O
-it	NN	O	O
-is	NN	O	O
-not	NN	O	O
-always	NN	O	O
-necessary	NN	O	O
-.	NN	O	O
+In	0	2	O
+our	3	6	O
+study	7	12	O
+we	13	15	O
+illustrate	16	26	O
+the	27	30	O
+properties	31	41	O
+of	42	44	O
+gauge	45	50	O
+invariant	51	60	B-Task
+extensions	61	71	I-Task
+of	72	74	I-Task
+local	75	80	I-Task
+functionals	81	92	I-Task
+.	92	93	O
+
+We	94	96	O
+aim	97	100	O
+at	101	103	O
+clarifying	104	114	O
+,	114	115	O
+via	116	119	O
+specific	120	128	O
+examples	129	137	O
+,	137	138	O
+the	139	142	O
+relation	143	151	O
+between	152	159	O
+a	160	161	O
+functional	162	172	B-Task
+which	173	178	I-Task
+is	179	181	I-Task
+local	182	187	I-Task
+in	188	190	I-Task
+a	191	192	I-Task
+particular	193	203	I-Task
+gauge	204	209	I-Task
+(	210	211	O
+but	211	214	O
+not	215	218	O
+necessarily	219	230	O
+gauge	231	236	O
+invariant	237	246	O
+)	246	247	O
+,	247	248	O
+and	249	252	O
+its	253	256	B-Task
+gauge	257	262	I-Task
+invariant	263	272	I-Task
+extension	273	282	I-Task
+(	283	284	O
+which	284	289	O
+is	290	292	O
+not	293	296	O
+necessarily	297	308	O
+local	309	314	O
+)	314	315	O
+.	315	316	O
+
+We	317	319	O
+show	320	324	O
+that	325	329	O
+the	330	333	O
+non	334	337	B-Process
+-	337	338	I-Process
+localities	338	348	I-Process
+found	349	354	I-Process
+are	355	358	O
+not	359	362	O
+perturbatively	363	377	O
+local	378	383	O
+because	384	391	O
+they	392	396	O
+can	397	400	O
+not	400	403	O
+be	404	406	O
+expressed	407	416	O
+in	417	419	O
+terms	420	425	O
+of	426	428	O
+an	429	431	O
+infinite	432	440	B-Process
+derivative	441	451	I-Process
+expansion	452	461	I-Process
+.	461	462	O
+
+We	463	465	O
+believe	466	473	O
+that	474	478	O
+the	479	482	O
+implications	483	495	O
+of	496	498	O
+this	499	503	O
+observation	504	515	O
+have	516	520	O
+not	521	524	O
+been	525	529	O
+clearly	530	537	O
+emphasised	538	548	O
+in	549	551	O
+the	552	555	O
+literature	556	566	O
+,	566	567	O
+as	568	570	O
+attested	571	579	O
+by	580	582	O
+the	583	586	O
+absence	587	594	O
+of	595	597	O
+any	598	601	O
+debate	602	608	O
+about	609	614	O
+it	615	617	O
+in	618	620	O
+recent	621	627	O
+works	628	633	O
+.	633	634	O
+
+It	635	637	O
+is	638	640	O
+precisely	641	650	O
+these	651	656	O
+dangerous	657	666	O
+infrared	667	675	B-Task
+modes	676	681	I-Task
+that	682	686	O
+make	687	691	O
+it	692	694	O
+hard	695	699	O
+to	700	702	O
+define	703	709	O
+a	710	711	O
+gauge	712	717	B-Process
+independent	718	729	I-Process
+renormalisation	730	745	I-Process
+for	746	749	O
+the	750	753	O
+gauge	754	759	B-Task
+invariant	760	769	I-Task
+extensions	770	780	I-Task
+of	781	783	I-Task
+local	784	789	I-Task
+functionals	790	801	I-Task
+.	801	802	O
+
+This	803	807	O
+observation	808	819	O
+supports	820	828	O
+the	829	832	O
+remark	833	839	O
+in	840	842	O
+[	843	844	O
+2	844	845	O
+]	845	846	O
+that	847	851	O
+the	852	855	O
+expectation	856	867	B-Task
+value	868	873	I-Task
+receives	874	882	O
+important	883	892	O
+contributions	893	906	O
+from	907	911	O
+both	912	916	O
+large	917	922	O
+and	923	926	O
+small	927	932	O
+distances	933	942	O
+.	942	943	O
+
+Our	944	947	O
+arguments	948	957	O
+on	958	960	O
+renormalisability	961	978	B-Task
+are	979	982	O
+based	983	988	O
+on	989	991	O
+the	992	995	O
+notion	996	1002	B-Process
+of	1003	1005	I-Process
+renormalisation	1006	1021	I-Process
+in	1022	1024	O
+the	1025	1028	O
+modern	1029	1035	O
+sense	1036	1041	O
+[	1042	1043	O
+8	1043	1044	O
+]	1044	1045	O
+which	1046	1051	O
+relies	1052	1058	O
+on	1059	1061	O
+BRST	1062	1066	B-Process
+cohomology	1067	1077	I-Process
+theorems	1078	1086	I-Process
+.	1086	1087	O
+
+The	1088	1091	O
+BRST	1092	1096	B-Material
+terminology	1097	1108	I-Material
+will	1109	1113	O
+therefore	1114	1123	O
+be	1124	1126	O
+frequently	1127	1137	O
+used	1138	1142	O
+here	1143	1147	O
+,	1147	1148	O
+even	1149	1153	O
+though	1154	1160	O
+it	1161	1163	O
+is	1164	1166	O
+not	1167	1170	O
+always	1171	1177	O
+necessary	1178	1187	O
+.	1187	1188	O
 
 
 -DOCSTART- (S037026930400680X)
 
-Certainly	NN	O	O
-therefore	NN	O	O
-the	NN	O	O
-see	NN	O	B-Process
--	NN	O	I-Process
-saw	NN	O	I-Process
-mechanism	NN	O	I-Process
-is	NN	O	O
-an	NN	O	O
-attractive	NN	O	O
-explanation	NN	O	O
-of	NN	O	O
-why	NN	O	O
-the	NN	O	O
-light	NN	O	B-Task
-neutrino	NN	O	I-Task
-masses	NN	O	I-Task
-are	NN	O	O
-so	NN	O	O
-small	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-not	NN	O	O
-without	NN	O	O
-its	NN	O	O
-faults	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-a	NN	O	O
-tension	NN	O	O
-between	NN	O	O
-the	NN	O	O
-strongly	NN	O	O
-hierarchical	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-observed	NN	O	O
-Yukawa	NN	O	B-Task
-couplings	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-quark	NN	O	I-Task
-and	NN	O	I-Task
-charged	NN	O	I-Task
-lepton	NN	O	I-Task
-sectors	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-essentially	NN	O	O
-hierarchy	NN	O	B-Task
--	NN	O	I-Task
-free	NN	O	I-Task
-masses	NN	O	I-Task
-implied	NN	O	I-Task
-by	NN	O	I-Task
-the	NN	O	I-Task
-Δm2	NN	O	I-Task
-'s	NN	O	I-Task
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-both	NN	O	O
-the	NN	O	O
-θ12	NN	O	B-Task
-and	NN	O	I-Task
-θ23	NN	O	I-Task
-mixing	NN	O	I-Task
-angles	NN	O	I-Task
-are	NN	O	O
-large	NN	O	O
-while	NN	O	O
-the	NN	O	B-Task
-angle	NN	O	I-Task
-θ13	NN	O	I-Task
-is	NN	O	O
-small	NN	O	O
-which	NN	O	O
-is	NN	O	O
-in	NN	O	O
-sharp	NN	O	O
-contrast	NN	O	O
-with	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-mixings	NN	O	O
-in	NN	O	O
-the	NN	O	O
-quark	NN	O	B-Process
-sector	NN	O	I-Process
-which	NN	O	O
-are	NN	O	O
-all	NN	O	O
-small	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-problems	NN	O	O
-can	NN	O	O
-be	NN	O	O
-solved	NN	O	O
-in	NN	O	O
-specific	NN	O	O
-models	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-,	NN	O	O
-the	NN	O	O
-Δm2	NN	O	B-Process
-values	NN	O	I-Process
-can	NN	O	I-Process
-be	NN	O	I-Process
-fitted	NN	O	I-Process
-by	NN	O	I-Process
-taking	NN	O	I-Process
-the	NN	O	I-Process
-spectrum	NN	O	I-Process
-of	NN	O	I-Process
-rhd	NN	O	I-Process
-neutrino	NN	O	I-Process
-masses	NN	O	I-Process
-to	NN	O	O
-be	NN	O	O
-hierarchical	NN	O	O
-in	NN	O	O
-such	NN	O	O
-a	NN	O	O
-way	NN	O	O
-as	NN	O	O
-to	NN	O	O
-almost	NN	O	O
-compensate	NN	O	O
-for	NN	O	O
-the	NN	O	O
-hierarchical	NN	O	B-Process
-neutrino	NN	O	I-Process
-Yukawa	NN	O	I-Process
-couplings	NN	O	I-Process
-.	NN	O	O
-
-But	NN	O	O
-this	NN	O	O
-has	NN	O	O
-the	NN	O	O
-price	NN	O	O
-of	NN	O	O
-introducing	NN	O	O
-a	NN	O	O
-wide	NN	O	O
-range	NN	O	O
-of	NN	O	O
-rhd	NN	O	B-Material
-neutrino	NN	O	I-Material
-masses	NN	O	I-Material
-MR∼1010–1015	NN	O	B-Material
-which	NN	O	O
-then	NN	O	O
-require	NN	O	O
-explanation	NN	O	O
-.	NN	O	O
+Certainly	0	9	O
+therefore	10	19	O
+the	20	23	O
+see	24	27	B-Process
+-	27	28	I-Process
+saw	28	31	I-Process
+mechanism	32	41	I-Process
+is	42	44	O
+an	45	47	O
+attractive	48	58	O
+explanation	59	70	O
+of	71	73	O
+why	74	77	O
+the	78	81	O
+light	82	87	B-Task
+neutrino	88	96	I-Task
+masses	97	103	I-Task
+are	104	107	O
+so	108	110	O
+small	111	116	O
+.	116	117	O
+
+However	118	125	O
+,	125	126	O
+it	127	129	O
+is	130	132	O
+not	133	136	O
+without	137	144	O
+its	145	148	O
+faults	149	155	O
+.	155	156	O
+
+In	157	159	O
+particular	160	170	O
+,	170	171	O
+there	172	177	O
+is	178	180	O
+a	181	182	O
+tension	183	190	O
+between	191	198	O
+the	199	202	O
+strongly	203	211	O
+hierarchical	212	224	O
+nature	225	231	O
+of	232	234	O
+the	235	238	O
+observed	239	247	O
+Yukawa	248	254	B-Task
+couplings	255	264	I-Task
+in	265	267	I-Task
+the	268	271	I-Task
+quark	272	277	I-Task
+and	278	281	I-Task
+charged	282	289	I-Task
+lepton	290	296	I-Task
+sectors	297	304	I-Task
+,	304	305	O
+and	306	309	O
+the	310	313	O
+essentially	314	325	O
+hierarchy	326	335	B-Task
+-	335	336	I-Task
+free	336	340	I-Task
+masses	341	347	I-Task
+implied	348	355	I-Task
+by	356	358	I-Task
+the	359	362	I-Task
+Δm2	363	366	I-Task
+'s	366	368	I-Task
+.	368	369	O
+
+Moreover	370	378	O
+,	378	379	O
+both	380	384	O
+the	385	388	O
+θ12	389	392	B-Task
+and	393	396	I-Task
+θ23	397	400	I-Task
+mixing	401	407	I-Task
+angles	408	414	I-Task
+are	415	418	O
+large	419	424	O
+while	425	430	O
+the	431	434	B-Task
+angle	435	440	I-Task
+θ13	441	444	I-Task
+is	445	447	O
+small	448	453	O
+which	454	459	O
+is	460	462	O
+in	463	465	O
+sharp	466	471	O
+contrast	472	480	O
+with	481	485	O
+the	486	489	O
+corresponding	490	503	O
+mixings	504	511	O
+in	512	514	O
+the	515	518	O
+quark	519	524	B-Process
+sector	525	531	I-Process
+which	532	537	O
+are	538	541	O
+all	542	545	O
+small	546	551	O
+.	551	552	O
+
+These	553	558	O
+problems	559	567	O
+can	568	571	O
+be	572	574	O
+solved	575	581	O
+in	582	584	O
+specific	585	593	O
+models	594	600	O
+,	600	601	O
+for	602	605	O
+example	606	613	O
+,	613	614	O
+the	615	618	O
+Δm2	619	622	B-Process
+values	623	629	I-Process
+can	630	633	I-Process
+be	634	636	I-Process
+fitted	637	643	I-Process
+by	644	646	I-Process
+taking	647	653	I-Process
+the	654	657	I-Process
+spectrum	658	666	I-Process
+of	667	669	I-Process
+rhd	670	673	I-Process
+neutrino	674	682	I-Process
+masses	683	689	I-Process
+to	690	692	O
+be	693	695	O
+hierarchical	696	708	O
+in	709	711	O
+such	712	716	O
+a	717	718	O
+way	719	722	O
+as	723	725	O
+to	726	728	O
+almost	729	735	O
+compensate	736	746	O
+for	747	750	O
+the	751	754	O
+hierarchical	755	767	B-Process
+neutrino	768	776	I-Process
+Yukawa	777	783	I-Process
+couplings	784	793	I-Process
+.	793	794	O
+
+But	795	798	O
+this	799	803	O
+has	804	807	O
+the	808	811	O
+price	812	817	O
+of	818	820	O
+introducing	821	832	O
+a	833	834	O
+wide	835	839	O
+range	840	845	O
+of	846	848	O
+rhd	849	852	B-Material
+neutrino	853	861	I-Material
+masses	862	868	I-Material
+MR∼1010–1015	869	881	B-Material
+which	882	887	O
+then	888	892	O
+require	893	900	O
+explanation	901	912	O
+.	912	913	O
 
 
 -DOCSTART- (S0370269304007129)
 
-We	NN	O	O
-analyze	NN	O	O
-the	NN	O	O
-diagonal	NN	O	B-Task
-and	NN	O	I-Task
-transition	NN	O	I-Task
-magnetic	NN	O	I-Task
-and	NN	O	I-Task
-electric	NN	O	I-Task
-dipole	NN	O	I-Task
-moments	NN	O	I-Task
-of	NN	O	I-Task
-charged	NN	O	I-Task
-leptons	NN	O	I-Task
-in	NN	O	O
-extended	NN	O	B-Process
-technicolor	NN	O	I-Process
-(	NN	O	O
-ETC	NN	O	B-Process
-)	NN	O	O
-models	NN	O	O
-,	NN	O	O
-taking	NN	O	O
-account	NN	O	O
-of	NN	O	O
-the	NN	O	O
-multiscale	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-ETC	NN	O	B-Process
-gauge	NN	O	B-Process
-symmetry	NN	O	I-Process
-breaking	NN	O	I-Process
-,	NN	O	O
-conformal	NN	O	B-Process
-(	NN	O	I-Process
-walking	NN	O	I-Process
-)	NN	O	I-Process
-behavior	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-technicolor	NN	O	I-Process
-theory	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-mixing	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-charged	NN	O	I-Process
--	NN	O	I-Process
-lepton	NN	O	I-Process
-mass	NN	O	I-Process
-matrix	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-show	NN	O	O
-that	NN	O	O
-mixing	NN	O	B-Task
-effects	NN	O	I-Task
-dominate	NN	O	O
-the	NN	O	O
-ETC	NN	O	B-Process
-contributions	NN	O	O
-to	NN	O	O
-charged	NN	O	B-Task
-lepton	NN	O	I-Task
-electric	NN	O	I-Task
-dipole	NN	O	I-Task
-moments	NN	O	I-Task
-and	NN	O	O
-that	NN	O	O
-these	NN	O	O
-can	NN	O	O
-yield	NN	O	O
-a	NN	O	O
-value	NN	O	B-Process
-of	NN	O	I-Process
-|de|	NN	O	I-Process
-comparable	NN	O	O
-to	NN	O	O
-the	NN	O	O
-current	NN	O	O
-limit	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-rate	NN	O	B-Process
-for	NN	O	I-Process
-μ→eγ	NN	O	I-Process
-can	NN	O	O
-also	NN	O	O
-be	NN	O	O
-close	NN	O	O
-to	NN	O	O
-its	NN	O	O
-limit	NN	O	O
-.	NN	O	O
-
-From	NN	O	O
-these	NN	O	O
-and	NN	O	O
-other	NN	O	O
-processes	NN	O	O
-we	NN	O	O
-derive	NN	O	O
-constraints	NN	O	O
-on	NN	O	O
-the	NN	O	O
-charged	NN	O	B-Task
-lepton	NN	O	I-Task
-mixing	NN	O	I-Task
-angles	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-constraints	NN	O	O
-are	NN	O	O
-such	NN	O	O
-that	NN	O	O
-the	NN	O	O
-ETC	NN	O	B-Process
-contribution	NN	O	O
-to	NN	O	O
-the	NN	O	O
-muon	NN	O	B-Task
-anomalous	NN	O	I-Task
-magnetic	NN	O	I-Task
-moment	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-includes	NN	O	O
-a	NN	O	O
-significant	NN	O	O
-lepton	NN	O	B-Process
-mixing	NN	O	I-Process
-term	NN	O	I-Process
-,	NN	O	O
-can	NN	O	O
-approach	NN	O	O
-,	NN	O	O
-but	NN	O	O
-does	NN	O	O
-not	NN	O	O
-exceed	NN	O	O
-,	NN	O	O
-the	NN	O	O
-current	NN	O	O
-sensitivity	NN	O	O
-level	NN	O	O
-.	NN	O	O
+We	0	2	O
+analyze	3	10	O
+the	11	14	O
+diagonal	15	23	B-Task
+and	24	27	I-Task
+transition	28	38	I-Task
+magnetic	39	47	I-Task
+and	48	51	I-Task
+electric	52	60	I-Task
+dipole	61	67	I-Task
+moments	68	75	I-Task
+of	76	78	I-Task
+charged	79	86	I-Task
+leptons	87	94	I-Task
+in	95	97	O
+extended	98	106	B-Process
+technicolor	107	118	I-Process
+(	119	120	O
+ETC	120	123	B-Process
+)	123	124	O
+models	125	131	O
+,	131	132	O
+taking	133	139	O
+account	140	147	O
+of	148	150	O
+the	151	154	O
+multiscale	155	165	O
+nature	166	172	O
+of	173	175	O
+the	176	179	O
+ETC	180	183	B-Process
+gauge	184	189	B-Process
+symmetry	190	198	I-Process
+breaking	199	207	I-Process
+,	207	208	O
+conformal	209	218	B-Process
+(	219	220	I-Process
+walking	220	227	I-Process
+)	227	228	I-Process
+behavior	229	237	I-Process
+of	238	240	I-Process
+the	241	244	I-Process
+technicolor	245	256	I-Process
+theory	257	263	I-Process
+,	263	264	O
+and	265	268	O
+mixing	269	275	B-Process
+in	276	278	I-Process
+the	279	282	I-Process
+charged	283	290	I-Process
+-	290	291	I-Process
+lepton	291	297	I-Process
+mass	298	302	I-Process
+matrix	303	309	I-Process
+.	309	310	O
+
+We	311	313	O
+show	314	318	O
+that	319	323	O
+mixing	324	330	B-Task
+effects	331	338	I-Task
+dominate	339	347	O
+the	348	351	O
+ETC	352	355	B-Process
+contributions	356	369	O
+to	370	372	O
+charged	373	380	B-Task
+lepton	381	387	I-Task
+electric	388	396	I-Task
+dipole	397	403	I-Task
+moments	404	411	I-Task
+and	412	415	O
+that	416	420	O
+these	421	426	O
+can	427	430	O
+yield	431	436	O
+a	437	438	O
+value	439	444	B-Process
+of	445	447	I-Process
+|de|	448	452	I-Process
+comparable	453	463	O
+to	464	466	O
+the	467	470	O
+current	471	478	O
+limit	479	484	O
+.	484	485	O
+
+The	486	489	O
+rate	490	494	B-Process
+for	495	498	I-Process
+μ→eγ	499	503	I-Process
+can	504	507	O
+also	508	512	O
+be	513	515	O
+close	516	521	O
+to	522	524	O
+its	525	528	O
+limit	529	534	O
+.	534	535	O
+
+From	536	540	O
+these	541	546	O
+and	547	550	O
+other	551	556	O
+processes	557	566	O
+we	567	569	O
+derive	570	576	O
+constraints	577	588	O
+on	589	591	O
+the	592	595	O
+charged	596	603	B-Task
+lepton	604	610	I-Task
+mixing	611	617	I-Task
+angles	618	624	I-Task
+.	624	625	O
+
+The	626	629	O
+constraints	630	641	O
+are	642	645	O
+such	646	650	O
+that	651	655	O
+the	656	659	O
+ETC	660	663	B-Process
+contribution	664	676	O
+to	677	679	O
+the	680	683	O
+muon	684	688	B-Task
+anomalous	689	698	I-Task
+magnetic	699	707	I-Task
+moment	708	714	I-Task
+,	714	715	O
+which	716	721	O
+includes	722	730	O
+a	731	732	O
+significant	733	744	O
+lepton	745	751	B-Process
+mixing	752	758	I-Process
+term	759	763	I-Process
+,	763	764	O
+can	765	768	O
+approach	769	777	O
+,	777	778	O
+but	779	782	O
+does	783	787	O
+not	788	791	O
+exceed	792	798	O
+,	798	799	O
+the	800	803	O
+current	804	811	O
+sensitivity	812	823	O
+level	824	829	O
+.	829	830	O
 
 
 -DOCSTART- (S0370269304007208)
 
-It	NN	O	O
-is	NN	O	O
-well	NN	O	O
-known	NN	O	O
-that	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-long	NN	O	O
-standing	NN	O	O
-problems	NN	O	O
-in	NN	O	O
-physics	NN	O	O
-is	NN	O	O
-understanding	NN	O	B-Task
-the	NN	O	I-Task
-confinement	NN	O	I-Task
-physics	NN	O	I-Task
-from	NN	O	I-Task
-first	NN	O	I-Task
-principles	NN	O	I-Task
-.	NN	O	O
-
-Hence	NN	O	O
-the	NN	O	O
-challenge	NN	O	O
-is	NN	O	O
-to	NN	O	O
-develop	NN	O	B-Task
-analytical	NN	O	I-Task
-approaches	NN	O	I-Task
-which	NN	O	O
-provide	NN	O	O
-valuable	NN	O	O
-insight	NN	O	O
-and	NN	O	O
-theoretical	NN	O	O
-guidance	NN	O	O
-.	NN	O	O
-
-According	NN	O	O
-to	NN	O	O
-this	NN	O	O
-viewpoint	NN	O	O
-,	NN	O	O
-an	NN	O	O
-effective	NN	O	O
-theory	NN	O	O
-in	NN	O	O
-which	NN	O	O
-confining	NN	O	O
-potentials	NN	O	O
-are	NN	O	O
-obtained	NN	O	O
-as	NN	O	O
-a	NN	O	O
-consequence	NN	O	O
-of	NN	O	O
-spontaneous	NN	O	B-Process
-symmetry	NN	O	I-Process
-breaking	NN	O	I-Process
-of	NN	O	I-Process
-scale	NN	O	I-Process
-invariance	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-it	NN	O	O
-was	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-a	NN	O	O
-such	NN	O	O
-theory	NN	O	O
-relies	NN	O	O
-on	NN	O	O
-a	NN	O	O
-scale	NN	O	B-Process
--	NN	O	I-Process
-invariant	NN	O	I-Process
-Lagrangian	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-type	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-(	NN	O	O
-1)L=14w2−12w−FμνaFaμν	NN	O	O
-,	NN	O	O
-where	NN	O	O
-Fμνa=∂μAνa−∂νAμa+gfabcAμbAνc	NN	O	O
-,	NN	O	O
-and	NN	O	O
-w	NN	O	O
-is	NN	O	O
-not	NN	O	O
-a	NN	O	O
-fundamental	NN	O	O
-field	NN	O	O
-but	NN	O	O
-rather	NN	O	O
-is	NN	O	O
-a	NN	O	O
-function	NN	O	B-Process
-of	NN	O	I-Process
-4-index	NN	O	I-Process
-field	NN	O	I-Process
-strength	NN	O	I-Process
-,	NN	O	O
-that	NN	O	O
-is	NN	O	O
-,	NN	O	O
-
-(	NN	O	B-Process
-2)w=εμναβ∂μAναβ.	NN	O	I-Process
-
-The	NN	O	O
-Aναβ	NN	O	B-Process
-equation	NN	O	I-Process
-of	NN	O	I-Process
-motion	NN	O	I-Process
-leads	NN	O	I-Process
-to	NN	O	O
-(	NN	O	O
-3)εμναβ∂βw−−FγδaFaγδ=0	NN	O	B-Process
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-then	NN	O	O
-integrated	NN	O	B-Process
-to	NN	O	I-Process
-(	NN	O	I-Process
-4)w=−FμνaFaμν+M.	NN	O	I-Process
-
-It	NN	O	O
-is	NN	O	O
-easy	NN	O	O
-to	NN	O	O
-verify	NN	O	O
-that	NN	O	O
-the	NN	O	O
-Aaμ	NN	O	B-Process
-equation	NN	O	I-Process
-of	NN	O	I-Process
-motion	NN	O	I-Process
-leads	NN	O	O
-us	NN	O	O
-to	NN	O	O
-(	NN	O	O
-5)∇μFaμν+MFaμν−FαβbFbαβ=0	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-worth	NN	O	O
-stressing	NN	O	O
-at	NN	O	O
-this	NN	O	O
-stage	NN	O	O
-that	NN	O	O
-the	NN	O	O
-above	NN	O	O
-equation	NN	O	O
-can	NN	O	O
-be	NN	O	O
-obtained	NN	O	O
-from	NN	O	O
-the	NN	O	B-Process
-effective	NN	O	I-Process
-Lagrangian	NN	O	I-Process
-(	NN	O	O
-6)Leff=−14FμνaFaμν+M2−FμνaFaμν.	NN	O	B-Process
-Spherically	NN	O	B-Task
-symmetric	NN	O	I-Task
-solutions	NN	O	I-Task
-of	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-5	NN	O	O
-)	NN	O	O
-display	NN	O	O
-,	NN	O	O
-even	NN	O	O
-in	NN	O	O
-the	NN	O	O
-Abelian	NN	O	O
-case	NN	O	O
-,	NN	O	O
-a	NN	O	O
-Coulomb	NN	O	B-Material
-piece	NN	O	I-Material
-and	NN	O	O
-a	NN	O	O
-confining	NN	O	B-Material
-part	NN	O	I-Material
-.	NN	O	O
-
-Also	NN	O	O
-,	NN	O	O
-the	NN	O	O
-quantum	NN	O	B-Task
-theory	NN	O	I-Task
-calculation	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-static	NN	O	I-Task
-energy	NN	O	I-Task
-between	NN	O	I-Task
-two	NN	O	I-Task
-charges	NN	O	I-Task
-displays	NN	O	O
-the	NN	O	O
-same	NN	O	O
-behavior	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-well	NN	O	O
-known	NN	O	O
-that	NN	O	O
-the	NN	O	O
-square	NN	O	O
-root	NN	O	O
-part	NN	O	O
-describes	NN	O	O
-string	NN	O	B-Process
-like	NN	O	I-Process
-solutions	NN	O	I-Process
-[	NN	O	O
-3,4	NN	O	O
-]	NN	O	O
-.	NN	O	O
+It	0	2	O
+is	3	5	O
+well	6	10	O
+known	11	16	O
+that	17	21	O
+one	22	25	O
+of	26	28	O
+the	29	32	O
+long	33	37	O
+standing	38	46	O
+problems	47	55	O
+in	56	58	O
+physics	59	66	O
+is	67	69	O
+understanding	70	83	B-Task
+the	84	87	I-Task
+confinement	88	99	I-Task
+physics	100	107	I-Task
+from	108	112	I-Task
+first	113	118	I-Task
+principles	119	129	I-Task
+.	129	130	O
+
+Hence	131	136	O
+the	137	140	O
+challenge	141	150	O
+is	151	153	O
+to	154	156	O
+develop	157	164	B-Task
+analytical	165	175	I-Task
+approaches	176	186	I-Task
+which	187	192	O
+provide	193	200	O
+valuable	201	209	O
+insight	210	217	O
+and	218	221	O
+theoretical	222	233	O
+guidance	234	242	O
+.	242	243	O
+
+According	244	253	O
+to	254	256	O
+this	257	261	O
+viewpoint	262	271	O
+,	271	272	O
+an	273	275	O
+effective	276	285	O
+theory	286	292	O
+in	293	295	O
+which	296	301	O
+confining	302	311	O
+potentials	312	322	O
+are	323	326	O
+obtained	327	335	O
+as	336	338	O
+a	339	340	O
+consequence	341	352	O
+of	353	355	O
+spontaneous	356	367	B-Process
+symmetry	368	376	I-Process
+breaking	377	385	I-Process
+of	386	388	I-Process
+scale	389	394	I-Process
+invariance	395	405	I-Process
+has	406	409	O
+been	410	414	O
+developed	415	424	O
+[	425	426	O
+1	426	427	O
+]	427	428	O
+.	428	429	O
+
+In	430	432	O
+particular	433	443	O
+,	443	444	O
+it	445	447	O
+was	448	451	O
+shown	452	457	O
+that	458	462	O
+a	463	464	O
+such	465	469	O
+theory	470	476	O
+relies	477	483	O
+on	484	486	O
+a	487	488	O
+scale	489	494	B-Process
+-	494	495	I-Process
+invariant	495	504	I-Process
+Lagrangian	505	515	I-Process
+of	516	518	O
+the	519	522	O
+type	523	527	O
+[	528	529	O
+2	529	530	O
+]	530	531	O
+(	532	533	O
+1)L=14w2−12w−FμνaFaμν	533	554	O
+,	554	555	O
+where	556	561	O
+Fμνa=∂μAνa−∂νAμa+gfabcAμbAνc	562	590	O
+,	590	591	O
+and	592	595	O
+w	596	597	O
+is	598	600	O
+not	601	604	O
+a	605	606	O
+fundamental	607	618	O
+field	619	624	O
+but	625	628	O
+rather	629	635	O
+is	636	638	O
+a	639	640	O
+function	641	649	B-Process
+of	650	652	I-Process
+4-index	653	660	I-Process
+field	661	666	I-Process
+strength	667	675	I-Process
+,	675	676	O
+that	677	681	O
+is	682	684	O
+,	684	685	O
+
+(	686	687	B-Process
+2)w=εμναβ∂μAναβ.	687	703	I-Process
+
+The	704	707	O
+Aναβ	708	712	B-Process
+equation	713	721	I-Process
+of	722	724	I-Process
+motion	725	731	I-Process
+leads	732	737	I-Process
+to	738	740	O
+(	741	742	O
+3)εμναβ∂βw−−FγδaFaγδ=0	742	764	B-Process
+,	764	765	O
+which	766	771	O
+is	772	774	O
+then	775	779	O
+integrated	780	790	B-Process
+to	791	793	I-Process
+(	794	795	I-Process
+4)w=−FμνaFaμν+M.	795	811	I-Process
+
+It	812	814	O
+is	815	817	O
+easy	818	822	O
+to	823	825	O
+verify	826	832	O
+that	833	837	O
+the	838	841	O
+Aaμ	842	845	B-Process
+equation	846	854	I-Process
+of	855	857	I-Process
+motion	858	864	I-Process
+leads	865	870	O
+us	871	873	O
+to	874	876	O
+(	877	878	O
+5)∇μFaμν+MFaμν−FαβbFbαβ=0	878	903	O
+.	903	904	O
+
+It	905	907	O
+is	908	910	O
+worth	911	916	O
+stressing	917	926	O
+at	927	929	O
+this	930	934	O
+stage	935	940	O
+that	941	945	O
+the	946	949	O
+above	950	955	O
+equation	956	964	O
+can	965	968	O
+be	969	971	O
+obtained	972	980	O
+from	981	985	O
+the	986	989	B-Process
+effective	990	999	I-Process
+Lagrangian	1000	1010	I-Process
+(	1011	1012	O
+6)Leff=−14FμνaFaμν+M2−FμνaFaμν.	1012	1043	B-Process
+Spherically	1044	1055	B-Task
+symmetric	1056	1065	I-Task
+solutions	1066	1075	I-Task
+of	1076	1078	O
+Eq	1079	1081	O
+.	1081	1082	O
+
+(	1083	1084	O
+5	1084	1085	O
+)	1085	1086	O
+display	1087	1094	O
+,	1094	1095	O
+even	1096	1100	O
+in	1101	1103	O
+the	1104	1107	O
+Abelian	1108	1115	O
+case	1116	1120	O
+,	1120	1121	O
+a	1122	1123	O
+Coulomb	1124	1131	B-Material
+piece	1132	1137	I-Material
+and	1138	1141	O
+a	1142	1143	O
+confining	1144	1153	B-Material
+part	1154	1158	I-Material
+.	1158	1159	O
+
+Also	1160	1164	O
+,	1164	1165	O
+the	1166	1169	O
+quantum	1170	1177	B-Task
+theory	1178	1184	I-Task
+calculation	1185	1196	I-Task
+of	1197	1199	I-Task
+the	1200	1203	I-Task
+static	1204	1210	I-Task
+energy	1211	1217	I-Task
+between	1218	1225	I-Task
+two	1226	1229	I-Task
+charges	1230	1237	I-Task
+displays	1238	1246	O
+the	1247	1250	O
+same	1251	1255	O
+behavior	1256	1264	O
+[	1265	1266	O
+1	1266	1267	O
+]	1267	1268	O
+.	1268	1269	O
+
+It	1270	1272	O
+is	1273	1275	O
+well	1276	1280	O
+known	1281	1286	O
+that	1287	1291	O
+the	1292	1295	O
+square	1296	1302	O
+root	1303	1307	O
+part	1308	1312	O
+describes	1313	1322	O
+string	1323	1329	B-Process
+like	1330	1334	I-Process
+solutions	1335	1344	I-Process
+[	1345	1346	O
+3,4	1346	1349	O
+]	1349	1350	O
+.	1350	1351	O
 
 
 -DOCSTART- (S037026930400721X)
 
-In	NN	O	O
-the	NN	O	O
-supersymmetric	NN	O	O
-case	NN	O	O
-,	NN	O	O
-such	NN	O	O
-a	NN	O	O
-small	NN	O	B-Task
-coupling	NN	O	I-Task
-for	NN	O	I-Task
-quartic	NN	O	I-Task
-interaction	NN	O	I-Task
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-realized	NN	O	O
-if	NN	O	O
-the	NN	O	O
-potential	NN	O	O
-is	NN	O	O
-lifted	NN	O	O
-by	NN	O	O
-the	NN	O	O
-gauge	NN	O	B-Process
-D	NN	O	I-Process
--	NN	O	I-Process
-term	NN	O	I-Process
-interactions	NN	O	I-Process
-,	NN	O	O
-since	NN	O	O
-,	NN	O	O
-if	NN	O	O
-so	NN	O	O
-,	NN	O	O
-the	NN	O	B-Material
-coupling	NN	O	I-Material
-constant	NN	O	I-Material
-λ	NN	O	I-Material
-becomes	NN	O	O
-of	NN	O	O
-the	NN	O	O
-order	NN	O	O
-O(g2	NN	O	O
-)	NN	O	O
-where	NN	O	O
-g	NN	O	O
-is	NN	O	O
-the	NN	O	O
-gauge	NN	O	B-Material
-coupling	NN	O	I-Material
-constant	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-standard	NN	O	B-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-we	NN	O	O
-focus	NN	O	O
-our	NN	O	O
-attention	NN	O	O
-on	NN	O	O
-the	NN	O	O
-D	NN	O	B-Task
--	NN	O	I-Task
-flat	NN	O	I-Task
-directions	NN	O	I-Task
-.	NN	O	O
-
-For	NN	O	O
-D	NN	O	B-Task
--	NN	O	I-Task
-flat	NN	O	I-Task
-directions	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-to	NN	O	O
-be	NN	O	O
-more	NN	O	O
-careful	NN	O	O
-since	NN	O	O
-behaviors	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-potential	NN	O	I-Task
-depend	NN	O	O
-on	NN	O	O
-which	NN	O	O
-flat	NN	O	O
-direction	NN	O	O
-we	NN	O	O
-consider	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-MSSM	NN	O	O
-,	NN	O	O
-Yukawa	NN	O	B-Task
-interactions	NN	O	I-Task
-exist	NN	O	O
-in	NN	O	O
-the	NN	O	O
-superpotential	NN	O	O
-to	NN	O	O
-generate	NN	O	O
-the	NN	O	O
-fermion	NN	O	O
-masses	NN	O	O
-.	NN	O	O
-
-Such	NN	O	O
-Yukawa	NN	O	O
-interactions	NN	O	O
-lift	NN	O	O
-some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-D	NN	O	B-Task
--	NN	O	I-Task
-flat	NN	O	I-Task
-directions	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-we	NN	O	O
-can	NN	O	O
-also	NN	O	O
-find	NN	O	O
-several	NN	O	O
-D	NN	O	B-Task
--	NN	O	I-Task
-flat	NN	O	I-Task
-directions	NN	O	I-Task
-which	NN	O	O
-are	NN	O	O
-not	NN	O	O
-affected	NN	O	O
-by	NN	O	O
-the	NN	O	O
-Yukawa	NN	O	B-Task
-interactions	NN	O	I-Task
-associated	NN	O	O
-with	NN	O	O
-the	NN	O	O
-fermion	NN	O	O
-masses	NN	O	O
-;	NN	O	O
-without	NN	O	O
-R	NN	O	O
--	NN	O	O
-parity	NN	O	O
-violation	NN	O	O
-,	NN	O	O
-such	NN	O	O
-D	NN	O	B-Task
--	NN	O	I-Task
-flat	NN	O	I-Task
-directions	NN	O	I-Task
-are	NN	O	O
-only	NN	O	O
-lifted	NN	O	O
-by	NN	O	O
-the	NN	O	O
-effects	NN	O	O
-of	NN	O	O
-supersymmetry	NN	O	O
-breaking.33Here	NN	O	O
-,	NN	O	O
-we	NN	O	O
-assume	NN	O	O
-that	NN	O	O
-coefficients	NN	O	B-Task
-of	NN	O	I-Task
-non	NN	O	I-Task
--	NN	O	I-Task
-renormalizable	NN	O	I-Task
-terms	NN	O	I-Task
-are	NN	O	O
-suppressed	NN	O	O
-enough	NN	O	O
-to	NN	O	O
-be	NN	O	O
-neglected	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-may	NN	O	O
-be	NN	O	O
-explained	NN	O	O
-by	NN	O	O
-the	NN	O	O
-R	NN	O	B-Process
--	NN	O	I-Process
-symmetry	NN	O	I-Process
-,	NN	O	O
-assigning	NN	O	O
-R	NN	O	B-Process
--	NN	O	I-Process
-charge	NN	O	I-Process
-23	NN	O	I-Process
-to	NN	O	O
-each	NN	O	O
-MSSM	NN	O	B-Process
-chiral	NN	O	I-Process
-superfields	NN	O	I-Process
-.	NN	O	O
-
-(	NN	O	O
-See	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-for	NN	O	O
-the	NN	O	O
-details	NN	O	O
-.	NN	O	O
-)	NN	O	O
+In	0	2	O
+the	3	6	O
+supersymmetric	7	21	O
+case	22	26	O
+,	26	27	O
+such	28	32	O
+a	33	34	O
+small	35	40	B-Task
+coupling	41	49	I-Task
+for	50	53	I-Task
+quartic	54	61	I-Task
+interaction	62	73	I-Task
+can	74	77	O
+not	77	80	O
+be	81	83	O
+realized	84	92	O
+if	93	95	O
+the	96	99	O
+potential	100	109	O
+is	110	112	O
+lifted	113	119	O
+by	120	122	O
+the	123	126	O
+gauge	127	132	B-Process
+D	133	134	I-Process
+-	134	135	I-Process
+term	135	139	I-Process
+interactions	140	152	I-Process
+,	152	153	O
+since	154	159	O
+,	159	160	O
+if	161	163	O
+so	164	166	O
+,	166	167	O
+the	168	171	B-Material
+coupling	172	180	I-Material
+constant	181	189	I-Material
+λ	190	191	I-Material
+becomes	192	199	O
+of	200	202	O
+the	203	206	O
+order	207	212	O
+O(g2	213	217	O
+)	217	218	O
+where	219	224	O
+g	225	226	O
+is	227	229	O
+the	230	233	O
+gauge	234	239	B-Material
+coupling	240	248	I-Material
+constant	249	257	I-Material
+in	258	260	O
+the	261	264	O
+standard	265	273	B-Process
+model	274	279	I-Process
+.	279	280	O
+
+Therefore	281	290	O
+,	290	291	O
+we	292	294	O
+focus	295	300	O
+our	301	304	O
+attention	305	314	O
+on	315	317	O
+the	318	321	O
+D	322	323	B-Task
+-	323	324	I-Task
+flat	324	328	I-Task
+directions	329	339	I-Task
+.	339	340	O
+
+For	341	344	O
+D	345	346	B-Task
+-	346	347	I-Task
+flat	347	351	I-Task
+directions	352	362	I-Task
+,	362	363	O
+we	364	366	O
+have	367	371	O
+to	372	374	O
+be	375	377	O
+more	378	382	O
+careful	383	390	O
+since	391	396	O
+behaviors	397	406	B-Task
+of	407	409	I-Task
+the	410	413	I-Task
+potential	414	423	I-Task
+depend	424	430	O
+on	431	433	O
+which	434	439	O
+flat	440	444	O
+direction	445	454	O
+we	455	457	O
+consider	458	466	O
+.	466	467	O
+
+In	468	470	O
+the	471	474	O
+MSSM	475	479	O
+,	479	480	O
+Yukawa	481	487	B-Task
+interactions	488	500	I-Task
+exist	501	506	O
+in	507	509	O
+the	510	513	O
+superpotential	514	528	O
+to	529	531	O
+generate	532	540	O
+the	541	544	O
+fermion	545	552	O
+masses	553	559	O
+.	559	560	O
+
+Such	561	565	O
+Yukawa	566	572	O
+interactions	573	585	O
+lift	586	590	O
+some	591	595	O
+of	596	598	O
+the	599	602	O
+D	603	604	B-Task
+-	604	605	I-Task
+flat	605	609	I-Task
+directions	610	620	I-Task
+.	620	621	O
+
+In	622	624	O
+addition	625	633	O
+,	633	634	O
+we	635	637	O
+can	638	641	O
+also	642	646	O
+find	647	651	O
+several	652	659	O
+D	660	661	B-Task
+-	661	662	I-Task
+flat	662	666	I-Task
+directions	667	677	I-Task
+which	678	683	O
+are	684	687	O
+not	688	691	O
+affected	692	700	O
+by	701	703	O
+the	704	707	O
+Yukawa	708	714	B-Task
+interactions	715	727	I-Task
+associated	728	738	O
+with	739	743	O
+the	744	747	O
+fermion	748	755	O
+masses	756	762	O
+;	762	763	O
+without	764	771	O
+R	772	773	O
+-	773	774	O
+parity	774	780	O
+violation	781	790	O
+,	790	791	O
+such	792	796	O
+D	797	798	B-Task
+-	798	799	I-Task
+flat	799	803	I-Task
+directions	804	814	I-Task
+are	815	818	O
+only	819	823	O
+lifted	824	830	O
+by	831	833	O
+the	834	837	O
+effects	838	845	O
+of	846	848	O
+supersymmetry	849	862	O
+breaking.33Here	863	878	O
+,	878	879	O
+we	880	882	O
+assume	883	889	O
+that	890	894	O
+coefficients	895	907	B-Task
+of	908	910	I-Task
+non	911	914	I-Task
+-	914	915	I-Task
+renormalizable	915	929	I-Task
+terms	930	935	I-Task
+are	936	939	O
+suppressed	940	950	O
+enough	951	957	O
+to	958	960	O
+be	961	963	O
+neglected	964	973	O
+.	973	974	O
+
+This	975	979	O
+may	980	983	O
+be	984	986	O
+explained	987	996	O
+by	997	999	O
+the	1000	1003	O
+R	1004	1005	B-Process
+-	1005	1006	I-Process
+symmetry	1006	1014	I-Process
+,	1014	1015	O
+assigning	1016	1025	O
+R	1026	1027	B-Process
+-	1027	1028	I-Process
+charge	1028	1034	I-Process
+23	1035	1037	I-Process
+to	1038	1040	O
+each	1041	1045	O
+MSSM	1046	1050	B-Process
+chiral	1051	1057	I-Process
+superfields	1058	1069	I-Process
+.	1069	1070	O
+
+(	1071	1072	O
+See	1072	1075	O
+Ref	1076	1079	O
+.	1079	1080	O
+
+[	1081	1082	O
+6	1082	1083	O
+]	1083	1084	O
+for	1085	1088	O
+the	1089	1092	O
+details	1093	1100	O
+.	1100	1101	O
+)	1101	1102	O
 
 
 -DOCSTART- (S0370269304007257)
 
-Some	NN	O	O
-non	NN	O	B-Task
--	NN	O	I-Task
-standard	NN	O	I-Task
-couplings	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-should	NN	O	O
-be	NN	O	O
-determined	NN	O	O
-here	NN	O	O
-,	NN	O	O
-could	NN	O	O
-also	NN	O	O
-be	NN	O	O
-studied	NN	O	O
-in	NN	O	O
-the	NN	O	O
-standard	NN	O	B-Process
-e+e−	NN	O	I-Process
-option	NN	O	I-Process
-of	NN	O	O
-a	NN	O	O
-linear	NN	O	B-Material
-collider	NN	O	I-Material
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-worth	NN	O	O
-while	NN	O	O
-to	NN	O	O
-compare	NN	O	O
-the	NN	O	O
-potential	NN	O	B-Task
-power	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-two	NN	O	O
-options	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-far	NN	O	O
-as	NN	O	O
-the	NN	O	O
-parameter	NN	O	B-Task
-αγ1	NN	O	I-Task
-is	NN	O	O
-concerned	NN	O	O
-,	NN	O	O
-the	NN	O	O
-γγ	NN	O	B-Material
-collider	NN	O	I-Material
-does	NN	O	O
-not	NN	O	O
-allow	NN	O	O
-for	NN	O	O
-its	NN	O	O
-determination	NN	O	O
-,	NN	O	O
-while	NN	O	O
-it	NN	O	O
-could	NN	O	O
-be	NN	O	O
-determined	NN	O	O
-at	NN	O	O
-e+e−.	NN	O	B-Process
-The	NN	O	O
-second	NN	O	O
-tt̄γ	NN	O	O
-coupling	NN	O	B-Task
-αγ2	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-proportional	NN	O	O
-to	NN	O	O
-the	NN	O	O
-real	NN	O	O
-part	NN	O	O
-of	NN	O	O
-the	NN	O	O
-top	NN	O	O
--	NN	O	O
-quark	NN	O	O
-electric	NN	O	O
-dipole	NN	O	O
-moment,44See	NN	O	O
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-taking	NN	O	O
-into	NN	O	O
-account	NN	O	O
-that	NN	O	O
-the	NN	O	O
-operators	NN	O	O
-OuB	NN	O	O
-,	NN	O	O
-OqB	NN	O	O
-and	NN	O	O
-OqW	NN	O	O
-are	NN	O	O
-redundant	NN	O	O
-.	NN	O	O
-
-can	NN	O	O
-be	NN	O	O
-measured	NN	O	O
-here	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-should	NN	O	O
-be	NN	O	O
-recalled	NN	O	O
-that	NN	O	O
-energy	NN	O	O
-and	NN	O	O
-polar	NN	O	B-Task
--	NN	O	I-Task
-angle	NN	O	I-Task
-distributions	NN	O	I-Task
-of	NN	O	I-Task
-leptons	NN	O	I-Task
-and	NN	O	I-Task
-b	NN	O	I-Task
--	NN	O	I-Task
-quarks	NN	O	I-Task
-in	NN	O	O
-e+e−	NN	O	B-Material
-colliders	NN	O	I-Material
-are	NN	O	O
-sensitive	NN	O	O
-only	NN	O	O
-to	NN	O	O
-the	NN	O	O
-imaginary	NN	O	B-Process
-part	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-electric	NN	O	I-Process
-dipole	NN	O	I-Process
-moment,55However	NN	O	I-Process
-,	NN	O	O
-it	NN	O	O
-should	NN	O	O
-be	NN	O	O
-emphasized	NN	O	O
-that	NN	O	O
-there	NN	O	O
-exist	NN	O	O
-observables	NN	O	O
-sensitive	NN	O	O
-also	NN	O	O
-to	NN	O	O
-the	NN	O	B-Process
-real	NN	O	I-Process
-part	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-top	NN	O	I-Process
--	NN	O	I-Process
-quark	NN	O	I-Process
-electric	NN	O	I-Process
-dipole	NN	O	I-Process
-moment	NN	O	I-Process
-,	NN	O	O
-see	NN	O	O
-[	NN	O	O
-24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-while	NN	O	O
-here	NN	O	O
-the	NN	O	O
-real	NN	O	O
-part	NN	O	O
-could	NN	O	O
-be	NN	O	O
-determined	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-measurement	NN	O	B-Task
-of	NN	O	I-Task
-γγH	NN	O	I-Task
-couplings	NN	O	I-Task
-,	NN	O	O
-e+e−	NN	O	B-Material
-colliders	NN	O	I-Material
-are	NN	O	O
-,	NN	O	O
-of	NN	O	O
-course	NN	O	O
-,	NN	O	O
-useless	NN	O	O
-,	NN	O	O
-while	NN	O	O
-here	NN	O	O
-,	NN	O	O
-for	NN	O	O
-the	NN	O	B-Process
-bX	NN	O	I-Process
-final	NN	O	I-Process
-state	NN	O	I-Process
-both	NN	O	O
-αh1	NN	O	B-Task
-and	NN	O	I-Task
-αh2	NN	O	I-Task
-could	NN	O	I-Task
-be	NN	O	I-Task
-measured	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-the	NN	O	B-Task
-decay	NN	O	I-Task
-form	NN	O	I-Task
-factor	NN	O	I-Task
-αd	NN	O	I-Task
-measurement	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-e+e−	NN	O	B-Process
-option	NN	O	I-Process
-seems	NN	O	O
-to	NN	O	O
-be	NN	O	O
-a	NN	O	O
-little	NN	O	O
-more	NN	O	O
-advantageous	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-if	NN	O	O
-e+e−	NN	O	B-Process
-polarization	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-tuned	NN	O	O
-appropriately	NN	O	O
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Some	0	4	O
+non	5	8	B-Task
+-	8	9	I-Task
+standard	9	17	I-Task
+couplings	18	27	I-Task
+,	27	28	O
+which	29	34	O
+should	35	41	O
+be	42	44	O
+determined	45	55	O
+here	56	60	O
+,	60	61	O
+could	62	67	O
+also	68	72	O
+be	73	75	O
+studied	76	83	O
+in	84	86	O
+the	87	90	O
+standard	91	99	B-Process
+e+e−	100	104	I-Process
+option	105	111	I-Process
+of	112	114	O
+a	115	116	O
+linear	117	123	B-Material
+collider	124	132	I-Material
+.	132	133	O
+
+Therefore	134	143	O
+,	143	144	O
+it	145	147	O
+is	148	150	O
+worth	151	156	O
+while	157	162	O
+to	163	165	O
+compare	166	173	O
+the	174	177	O
+potential	178	187	B-Task
+power	188	193	I-Task
+of	194	196	O
+the	197	200	O
+two	201	204	O
+options	205	212	O
+.	212	213	O
+
+As	214	216	O
+far	217	220	O
+as	221	223	O
+the	224	227	O
+parameter	228	237	B-Task
+αγ1	238	241	I-Task
+is	242	244	O
+concerned	245	254	O
+,	254	255	O
+the	256	259	O
+γγ	260	262	B-Material
+collider	263	271	I-Material
+does	272	276	O
+not	277	280	O
+allow	281	286	O
+for	287	290	O
+its	291	294	O
+determination	295	308	O
+,	308	309	O
+while	310	315	O
+it	316	318	O
+could	319	324	O
+be	325	327	O
+determined	328	338	O
+at	339	341	O
+e+e−.	342	347	B-Process
+The	348	351	O
+second	352	358	O
+tt̄γ	359	363	O
+coupling	364	372	B-Task
+αγ2	373	376	I-Task
+,	376	377	O
+which	378	383	O
+is	384	386	O
+proportional	387	399	O
+to	400	402	O
+the	403	406	O
+real	407	411	O
+part	412	416	O
+of	417	419	O
+the	420	423	O
+top	424	427	O
+-	427	428	O
+quark	428	433	O
+electric	434	442	O
+dipole	443	449	O
+moment,44See	450	462	O
+[	463	464	O
+23	464	466	O
+]	466	467	O
+taking	468	474	O
+into	475	479	O
+account	480	487	O
+that	488	492	O
+the	493	496	O
+operators	497	506	O
+OuB	507	510	O
+,	510	511	O
+OqB	512	515	O
+and	516	519	O
+OqW	520	523	O
+are	524	527	O
+redundant	528	537	O
+.	537	538	O
+
+can	539	542	O
+be	543	545	O
+measured	546	554	O
+here	555	559	O
+.	559	560	O
+
+It	561	563	O
+should	564	570	O
+be	571	573	O
+recalled	574	582	O
+that	583	587	O
+energy	588	594	O
+and	595	598	O
+polar	599	604	B-Task
+-	604	605	I-Task
+angle	605	610	I-Task
+distributions	611	624	I-Task
+of	625	627	I-Task
+leptons	628	635	I-Task
+and	636	639	I-Task
+b	640	641	I-Task
+-	641	642	I-Task
+quarks	642	648	I-Task
+in	649	651	O
+e+e−	652	656	B-Material
+colliders	657	666	I-Material
+are	667	670	O
+sensitive	671	680	O
+only	681	685	O
+to	686	688	O
+the	689	692	O
+imaginary	693	702	B-Process
+part	703	707	I-Process
+of	708	710	I-Process
+the	711	714	I-Process
+electric	715	723	I-Process
+dipole	724	730	I-Process
+moment,55However	731	747	I-Process
+,	747	748	O
+it	749	751	O
+should	752	758	O
+be	759	761	O
+emphasized	762	772	O
+that	773	777	O
+there	778	783	O
+exist	784	789	O
+observables	790	801	O
+sensitive	802	811	O
+also	812	816	O
+to	817	819	O
+the	820	823	B-Process
+real	824	828	I-Process
+part	829	833	I-Process
+of	834	836	I-Process
+the	837	840	I-Process
+top	841	844	I-Process
+-	844	845	I-Process
+quark	845	850	I-Process
+electric	851	859	I-Process
+dipole	860	866	I-Process
+moment	867	873	I-Process
+,	873	874	O
+see	875	878	O
+[	879	880	O
+24	880	882	O
+]	882	883	O
+.	883	884	O
+
+while	885	890	O
+here	891	895	O
+the	896	899	O
+real	900	904	O
+part	905	909	O
+could	910	915	O
+be	916	918	O
+determined	919	929	O
+.	929	930	O
+
+For	931	934	O
+the	935	938	O
+measurement	939	950	B-Task
+of	951	953	I-Task
+γγH	954	957	I-Task
+couplings	958	967	I-Task
+,	967	968	O
+e+e−	969	973	B-Material
+colliders	974	983	I-Material
+are	984	987	O
+,	987	988	O
+of	989	991	O
+course	992	998	O
+,	998	999	O
+useless	1000	1007	O
+,	1007	1008	O
+while	1009	1014	O
+here	1015	1019	O
+,	1019	1020	O
+for	1021	1024	O
+the	1025	1028	B-Process
+bX	1029	1031	I-Process
+final	1032	1037	I-Process
+state	1038	1043	I-Process
+both	1044	1048	O
+αh1	1049	1052	B-Task
+and	1053	1056	I-Task
+αh2	1057	1060	I-Task
+could	1061	1066	I-Task
+be	1067	1069	I-Task
+measured	1070	1078	I-Task
+.	1078	1079	O
+
+In	1080	1082	O
+the	1083	1086	O
+case	1087	1091	O
+of	1092	1094	O
+the	1095	1098	B-Task
+decay	1099	1104	I-Task
+form	1105	1109	I-Task
+factor	1110	1116	I-Task
+αd	1117	1119	I-Task
+measurement	1120	1131	I-Task
+,	1131	1132	O
+the	1133	1136	O
+e+e−	1137	1141	B-Process
+option	1142	1148	I-Process
+seems	1149	1154	O
+to	1155	1157	O
+be	1158	1160	O
+a	1161	1162	O
+little	1163	1169	O
+more	1170	1174	O
+advantageous	1175	1187	O
+,	1187	1188	O
+especially	1189	1199	O
+if	1200	1202	O
+e+e−	1203	1207	B-Process
+polarization	1208	1220	I-Process
+can	1221	1224	O
+be	1225	1227	O
+tuned	1228	1233	O
+appropriately	1234	1247	O
+[	1248	1249	O
+25	1249	1251	O
+]	1251	1252	O
+.	1252	1253	O
 
 
 -DOCSTART- (S0370269304007439)
 
-In	NN	O	O
-contrast	NN	O	O
-to	NN	O	O
-the	NN	O	O
-H	NN	O	O
-particle	NN	O	O
-,	NN	O	O
-the	NN	O	O
-situation	NN	O	O
-for	NN	O	O
-the	NN	O	O
-Θ+	NN	O	B-Task
-baryon	NN	O	I-Task
-is	NN	O	O
-very	NN	O	O
-promising	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-in	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-we	NN	O	O
-explore	NN	O	O
-the	NN	O	B-Task
-formation	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-Θ+-baryon	NN	O	I-Task
-within	NN	O	O
-a	NN	O	O
-new	NN	O	O
-approach	NN	O	O
-called	NN	O	O
-parton	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-Gribov	NN	O	I-Process
-–	NN	O	I-Process
-Regge	NN	O	I-Process
-theory	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-realized	NN	O	O
-in	NN	O	O
-the	NN	O	O
-Monte	NN	O	B-Material
-Carlo	NN	O	I-Material
-program	NN	O	I-Material
-NEXUS	NN	O	B-Material
-3.97	NN	O	I-Material
-[	NN	O	O
-22,23	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-model	NN	O	O
-high	NN	O	B-Process
-energy	NN	O	I-Process
-hadronic	NN	O	I-Process
-and	NN	O	I-Process
-nuclear	NN	O	I-Process
-collisions	NN	O	I-Process
-are	NN	O	O
-treated	NN	O	O
-within	NN	O	O
-a	NN	O	O
-self	NN	O	B-Process
--	NN	O	I-Process
-consistent	NN	O	I-Process
-quantum	NN	O	I-Process
-mechanical	NN	O	I-Process
-multiple	NN	O	I-Process
-scattering	NN	O	I-Process
-formalism	NN	O	I-Process
-.	NN	O	O
-
-Elementary	NN	O	B-Process
-interactions	NN	O	I-Process
-,	NN	O	O
-happening	NN	O	O
-in	NN	O	O
-parallel	NN	O	O
-,	NN	O	O
-correspond	NN	O	O
-to	NN	O	O
-underlying	NN	O	O
-microscopic	NN	O	B-Process
-(	NN	O	I-Process
-predominantly	NN	O	I-Process
-soft	NN	O	I-Process
-)	NN	O	I-Process
-parton	NN	O	I-Process
-cascades	NN	O	I-Process
-and	NN	O	O
-are	NN	O	O
-described	NN	O	O
-effectively	NN	O	O
-as	NN	O	O
-phenomenological	NN	O	B-Process
-soft	NN	O	I-Process
-pomeron	NN	O	I-Process
-exchanges	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-pomeron	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-seen	NN	O	O
-as	NN	O	O
-layers	NN	O	O
-of	NN	O	O
-a	NN	O	O
-(	NN	O	B-Material
-soft	NN	O	I-Material
-)	NN	O	I-Material
-parton	NN	O	I-Material
-ladder	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-attached	NN	O	O
-to	NN	O	O
-projectile	NN	O	B-Material
-and	NN	O	I-Material
-target	NN	O	I-Material
-nucleons	NN	O	I-Material
-via	NN	O	O
-leg	NN	O	B-Material
-partons	NN	O	I-Material
-.	NN	O	O
-
-At	NN	O	O
-high	NN	O	O
-energies	NN	O	O
-one	NN	O	O
-accounts	NN	O	O
-also	NN	O	O
-for	NN	O	O
-the	NN	O	O
-contribution	NN	O	O
-of	NN	O	O
-perturbative	NN	O	B-Material
-(	NN	O	I-Material
-high	NN	O	I-Material
-pt	NN	O	I-Material
-)	NN	O	I-Material
-partons	NN	O	I-Material
-described	NN	O	O
-by	NN	O	O
-a	NN	O	O
-so	NN	O	O
--	NN	O	O
-called	NN	O	O
-“	NN	O	B-Material
-semihard	NN	O	I-Material
-pomeron”—a	NN	O	I-Material
-piece	NN	O	B-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-QCD	NN	O	I-Material
-parton	NN	O	I-Material
-ladder	NN	O	I-Material
-sandwiched	NN	O	I-Material
-between	NN	O	I-Material
-two	NN	O	I-Material
-soft	NN	O	I-Material
-pomerons	NN	O	I-Material
-which	NN	O	I-Material
-are	NN	O	I-Material
-connected	NN	O	I-Material
-to	NN	O	I-Material
-the	NN	O	I-Material
-projectile	NN	O	I-Material
-and	NN	O	I-Material
-to	NN	O	I-Material
-the	NN	O	I-Material
-target	NN	O	I-Material
-in	NN	O	I-Material
-the	NN	O	I-Material
-usual	NN	O	I-Material
-way	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-spectator	NN	O	B-Material
-partons	NN	O	I-Material
-of	NN	O	O
-both	NN	O	O
-projectile	NN	O	B-Material
-and	NN	O	I-Material
-target	NN	O	I-Material
-nucleons	NN	O	I-Material
-,	NN	O	O
-left	NN	O	O
-after	NN	O	O
-pomeron	NN	O	B-Process
-emissions	NN	O	I-Process
-,	NN	O	O
-form	NN	O	O
-nucleon	NN	O	B-Material
-remnants	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-legs	NN	O	O
-of	NN	O	O
-the	NN	O	O
-pomerons	NN	O	B-Material
-form	NN	O	O
-color	NN	O	B-Material
-singlets	NN	O	I-Material
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-q	NN	O	B-Material
-–	NN	O	I-Material
-q̄	NN	O	I-Material
-,	NN	O	O
-q	NN	O	B-Material
-–	NN	O	I-Material
-qq	NN	O	I-Material
-or	NN	O	O
-q̄–q̄q̄.	NN	O	B-Material
-
-The	NN	O	O
-probability	NN	O	O
-of	NN	O	O
-q	NN	O	B-Material
-–	NN	O	I-Material
-qq	NN	O	I-Material
-and	NN	O	O
-q̄–q̄q̄	NN	O	B-Material
-is	NN	O	O
-controlled	NN	O	O
-by	NN	O	O
-the	NN	O	O
-parameter	NN	O	O
-Pqq	NN	O	O
-and	NN	O	O
-is	NN	O	O
-fixed	NN	O	B-Process
-by	NN	O	I-Process
-the	NN	O	I-Process
-experimental	NN	O	I-Process
-yields	NN	O	I-Process
-on	NN	O	I-Process
-(	NN	O	I-Process
-multi-)strange	NN	O	I-Process
-baryons	NN	O	I-Process
-[	NN	O	O
-23	NN	O	O
-]	NN	O	O
-.	NN	O	O
+In	0	2	O
+contrast	3	11	O
+to	12	14	O
+the	15	18	O
+H	19	20	O
+particle	21	29	O
+,	29	30	O
+the	31	34	O
+situation	35	44	O
+for	45	48	O
+the	49	52	O
+Θ+	53	55	B-Task
+baryon	56	62	I-Task
+is	63	65	O
+very	66	70	O
+promising	71	80	O
+.	80	81	O
+
+Thus	82	86	O
+,	86	87	O
+in	88	90	O
+this	91	95	O
+Letter	96	102	O
+we	103	105	O
+explore	106	113	O
+the	114	117	B-Task
+formation	118	127	I-Task
+of	128	130	I-Task
+the	131	134	I-Task
+Θ+-baryon	135	144	I-Task
+within	145	151	O
+a	152	153	O
+new	154	157	O
+approach	158	166	O
+called	167	173	O
+parton	174	180	B-Process
+-	180	181	I-Process
+based	181	186	I-Process
+Gribov	187	193	I-Process
+–	193	194	I-Process
+Regge	194	199	I-Process
+theory	200	206	I-Process
+.	206	207	O
+
+It	208	210	O
+is	211	213	O
+realized	214	222	O
+in	223	225	O
+the	226	229	O
+Monte	230	235	B-Material
+Carlo	236	241	I-Material
+program	242	249	I-Material
+NEXUS	250	255	B-Material
+3.97	256	260	I-Material
+[	261	262	O
+22,23	262	267	O
+]	267	268	O
+.	268	269	O
+
+In	270	272	O
+this	273	277	O
+model	278	283	O
+high	284	288	B-Process
+energy	289	295	I-Process
+hadronic	296	304	I-Process
+and	305	308	I-Process
+nuclear	309	316	I-Process
+collisions	317	327	I-Process
+are	328	331	O
+treated	332	339	O
+within	340	346	O
+a	347	348	O
+self	349	353	B-Process
+-	353	354	I-Process
+consistent	354	364	I-Process
+quantum	365	372	I-Process
+mechanical	373	383	I-Process
+multiple	384	392	I-Process
+scattering	393	403	I-Process
+formalism	404	413	I-Process
+.	413	414	O
+
+Elementary	415	425	B-Process
+interactions	426	438	I-Process
+,	438	439	O
+happening	440	449	O
+in	450	452	O
+parallel	453	461	O
+,	461	462	O
+correspond	463	473	O
+to	474	476	O
+underlying	477	487	O
+microscopic	488	499	B-Process
+(	500	501	I-Process
+predominantly	501	514	I-Process
+soft	515	519	I-Process
+)	519	520	I-Process
+parton	521	527	I-Process
+cascades	528	536	I-Process
+and	537	540	O
+are	541	544	O
+described	545	554	O
+effectively	555	566	O
+as	567	569	O
+phenomenological	570	586	B-Process
+soft	587	591	I-Process
+pomeron	592	599	I-Process
+exchanges	600	609	I-Process
+.	609	610	O
+
+A	611	612	O
+pomeron	613	620	B-Material
+can	621	624	O
+be	625	627	O
+seen	628	632	O
+as	633	635	O
+layers	636	642	O
+of	643	645	O
+a	646	647	O
+(	648	649	B-Material
+soft	649	653	I-Material
+)	653	654	I-Material
+parton	655	661	I-Material
+ladder	662	668	I-Material
+,	668	669	O
+which	670	675	O
+is	676	678	O
+attached	679	687	O
+to	688	690	O
+projectile	691	701	B-Material
+and	702	705	I-Material
+target	706	712	I-Material
+nucleons	713	721	I-Material
+via	722	725	O
+leg	726	729	B-Material
+partons	730	737	I-Material
+.	737	738	O
+
+At	739	741	O
+high	742	746	O
+energies	747	755	O
+one	756	759	O
+accounts	760	768	O
+also	769	773	O
+for	774	777	O
+the	778	781	O
+contribution	782	794	O
+of	795	797	O
+perturbative	798	810	B-Material
+(	811	812	I-Material
+high	812	816	I-Material
+pt	817	819	I-Material
+)	819	820	I-Material
+partons	821	828	I-Material
+described	829	838	O
+by	839	841	O
+a	842	843	O
+so	844	846	O
+-	846	847	O
+called	847	853	O
+“	854	855	B-Material
+semihard	855	863	I-Material
+pomeron”—a	864	874	I-Material
+piece	875	880	B-Material
+of	881	883	I-Material
+the	884	887	I-Material
+QCD	888	891	I-Material
+parton	892	898	I-Material
+ladder	899	905	I-Material
+sandwiched	906	916	I-Material
+between	917	924	I-Material
+two	925	928	I-Material
+soft	929	933	I-Material
+pomerons	934	942	I-Material
+which	943	948	I-Material
+are	949	952	I-Material
+connected	953	962	I-Material
+to	963	965	I-Material
+the	966	969	I-Material
+projectile	970	980	I-Material
+and	981	984	I-Material
+to	985	987	I-Material
+the	988	991	I-Material
+target	992	998	I-Material
+in	999	1001	I-Material
+the	1002	1005	I-Material
+usual	1006	1011	I-Material
+way	1012	1015	I-Material
+.	1015	1016	O
+
+The	1017	1020	O
+spectator	1021	1030	B-Material
+partons	1031	1038	I-Material
+of	1039	1041	O
+both	1042	1046	O
+projectile	1047	1057	B-Material
+and	1058	1061	I-Material
+target	1062	1068	I-Material
+nucleons	1069	1077	I-Material
+,	1077	1078	O
+left	1079	1083	O
+after	1084	1089	O
+pomeron	1090	1097	B-Process
+emissions	1098	1107	I-Process
+,	1107	1108	O
+form	1109	1113	O
+nucleon	1114	1121	B-Material
+remnants	1122	1130	I-Material
+.	1130	1131	O
+
+The	1132	1135	O
+legs	1136	1140	O
+of	1141	1143	O
+the	1144	1147	O
+pomerons	1148	1156	B-Material
+form	1157	1161	O
+color	1162	1167	B-Material
+singlets	1168	1176	I-Material
+,	1176	1177	O
+such	1178	1182	O
+as	1183	1185	O
+q	1186	1187	B-Material
+–	1187	1188	I-Material
+q̄	1188	1190	I-Material
+,	1190	1191	O
+q	1192	1193	B-Material
+–	1193	1194	I-Material
+qq	1194	1196	I-Material
+or	1197	1199	O
+q̄–q̄q̄.	1200	1208	B-Material
+
+The	1209	1212	O
+probability	1213	1224	O
+of	1225	1227	O
+q	1228	1229	B-Material
+–	1229	1230	I-Material
+qq	1230	1232	I-Material
+and	1233	1236	O
+q̄–q̄q̄	1237	1244	B-Material
+is	1245	1247	O
+controlled	1248	1258	O
+by	1259	1261	O
+the	1262	1265	O
+parameter	1266	1275	O
+Pqq	1276	1279	O
+and	1280	1283	O
+is	1284	1286	O
+fixed	1287	1292	B-Process
+by	1293	1295	I-Process
+the	1296	1299	I-Process
+experimental	1300	1312	I-Process
+yields	1313	1319	I-Process
+on	1320	1322	I-Process
+(	1323	1324	I-Process
+multi-)strange	1324	1338	I-Process
+baryons	1339	1346	I-Process
+[	1347	1348	O
+23	1348	1350	O
+]	1350	1351	O
+.	1351	1352	O
 
 
 -DOCSTART- (S0370269304007634)
 
-I	NN	O	O
-also	NN	O	O
-could	NN	O	O
-not	NN	O	O
-resist	NN	O	O
-mentioning	NN	O	O
-another	NN	O	O
-wild	NN	O	O
-speculation	NN	O	O
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Many	NN	O	O
-years	NN	O	O
-ago	NN	O	O
-,	NN	O	O
-inspired	NN	O	O
-by	NN	O	O
-the	NN	O	O
-almost	NN	O	O
-exact	NN	O	O
-correspondence	NN	O	O
-between	NN	O	O
-Einstein	NN	O	B-Process
-'s	NN	O	I-Process
-post	NN	O	I-Process
--	NN	O	I-Process
-Newtonian	NN	O	I-Process
-equations	NN	O	I-Process
-of	NN	O	I-Process
-gravity	NN	O	I-Process
-and	NN	O	O
-Maxwell	NN	O	B-Process
-'s	NN	O	I-Process
-equations	NN	O	I-Process
-of	NN	O	I-Process
-motion	NN	O	I-Process
-I	NN	O	O
-proposed	NN	O	O
-the	NN	O	O
-gravitipole	NN	O	B-Process
-in	NN	O	O
-analogy	NN	O	O
-with	NN	O	O
-Dirac	NN	O	B-Process
-'s	NN	O	I-Process
-magnetic	NN	O	I-Process
-monopole	NN	O	I-Process
-.	NN	O	O
-
-After	NN	O	O
-Dirac	NN	O	O
-there	NN	O	O
-was	NN	O	O
-considerable	NN	O	O
-debate	NN	O	O
-on	NN	O	O
-how	NN	O	O
-a	NN	O	O
-field	NN	O	B-Task
-theory	NN	O	I-Task
-of	NN	O	I-Task
-magnetic	NN	O	I-Task
-monopoles	NN	O	I-Task
-may	NN	O	O
-be	NN	O	O
-formulated	NN	O	O
-.	NN	O	O
-
-Eventually	NN	O	O
-,	NN	O	O
-'	NN	O	O
-t	NN	O	O
-Hooft	NN	O	O
-and	NN	O	O
-Polyakov	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-magnetic	NN	O	B-Task
-monopole	NN	O	I-Task
-exists	NN	O	O
-as	NN	O	O
-an	NN	O	O
-extended	NN	O	O
-solution	NN	O	O
-in	NN	O	O
-certain	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-abelian	NN	O	I-Process
-gauge	NN	O	I-Process
-theories	NN	O	I-Process
-.	NN	O	O
-
-Most	NN	O	O
-theorists	NN	O	O
-now	NN	O	O
-believe	NN	O	O
-that	NN	O	O
-electromagnetism	NN	O	B-Process
-is	NN	O	O
-merely	NN	O	O
-a	NN	O	O
-piece	NN	O	O
-of	NN	O	O
-a	NN	O	O
-grand	NN	O	O
-unified	NN	O	O
-theory	NN	O	O
-and	NN	O	O
-that	NN	O	O
-magnetic	NN	O	B-Process
-monopoles	NN	O	I-Process
-exist	NN	O	O
-.	NN	O	O
-
-Might	NN	O	O
-it	NN	O	O
-not	NN	O	O
-turn	NN	O	O
-out	NN	O	O
-that	NN	O	O
-Einstein	NN	O	O
-'s	NN	O	O
-theory	NN	O	O
-is	NN	O	O
-but	NN	O	O
-a	NN	O	O
-piece	NN	O	O
-of	NN	O	O
-a	NN	O	O
-bigger	NN	O	O
-theory	NN	O	O
-and	NN	O	O
-that	NN	O	O
-gravitipoles	NN	O	B-Process
-exist	NN	O	O
-?	NN	O	O
-
-In	NN	O	O
-grand	NN	O	O
-unified	NN	O	O
-theory	NN	O	O
-the	NN	O	O
-electromagnetic	NN	O	B-Process
-field	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-component	NN	O	O
-of	NN	O	O
-a	NN	O	O
-multiplet	NN	O	O
-.	NN	O	O
-
-Could	NN	O	O
-it	NN	O	O
-be	NN	O	O
-that	NN	O	O
-the	NN	O	O
-gravitational	NN	O	B-Process
-field	NN	O	I-Process
-also	NN	O	O
-somehow	NN	O	O
-carries	NN	O	O
-an	NN	O	O
-internal	NN	O	O
-index	NN	O	O
-and	NN	O	O
-that	NN	O	O
-the	NN	O	O
-field	NN	O	O
-we	NN	O	O
-observe	NN	O	O
-is	NN	O	O
-just	NN	O	O
-a	NN	O	O
-component	NN	O	O
-of	NN	O	O
-a	NN	O	O
-multiplet	NN	O	O
-?	NN	O	O
-
-Throwing	NN	O	O
-caution	NN	O	O
-to	NN	O	O
-the	NN	O	O
-wind	NN	O	O
-,	NN	O	O
-I	NN	O	O
-also	NN	O	O
-asked	NN	O	O
-in	NN	O	O
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-if	NN	O	O
-the	NN	O	O
-gravitipole	NN	O	B-Process
-and	NN	O	O
-the	NN	O	O
-graviton	NN	O	B-Process
-might	NN	O	O
-not	NN	O	O
-form	NN	O	O
-a	NN	O	O
-representation	NN	O	O
-under	NN	O	O
-some	NN	O	O
-dual	NN	O	O
-group	NN	O	O
-just	NN	O	O
-as	NN	O	O
-the	NN	O	O
-magnetic	NN	O	B-Process
-monopole	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-photon	NN	O	B-Material
-form	NN	O	O
-a	NN	O	O
-triplet	NN	O	O
-under	NN	O	O
-the	NN	O	O
-dual	NN	O	O
-group	NN	O	O
-of	NN	O	O
-Montonen	NN	O	O
-and	NN	O	O
-Olive	NN	O	O
-
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-.	NN	O	O
+I	0	1	O
+also	2	6	O
+could	7	12	O
+not	13	16	O
+resist	17	23	O
+mentioning	24	34	O
+another	35	42	O
+wild	43	47	O
+speculation	48	59	O
+[	60	61	O
+10	61	63	O
+]	63	64	O
+.	64	65	O
+
+Many	66	70	O
+years	71	76	O
+ago	77	80	O
+,	80	81	O
+inspired	82	90	O
+by	91	93	O
+the	94	97	O
+almost	98	104	O
+exact	105	110	O
+correspondence	111	125	O
+between	126	133	O
+Einstein	134	142	B-Process
+'s	142	144	I-Process
+post	145	149	I-Process
+-	149	150	I-Process
+Newtonian	150	159	I-Process
+equations	160	169	I-Process
+of	170	172	I-Process
+gravity	173	180	I-Process
+and	181	184	O
+Maxwell	185	192	B-Process
+'s	192	194	I-Process
+equations	195	204	I-Process
+of	205	207	I-Process
+motion	208	214	I-Process
+I	215	216	O
+proposed	217	225	O
+the	226	229	O
+gravitipole	230	241	B-Process
+in	242	244	O
+analogy	245	252	O
+with	253	257	O
+Dirac	258	263	B-Process
+'s	263	265	I-Process
+magnetic	266	274	I-Process
+monopole	275	283	I-Process
+.	283	284	O
+
+After	285	290	O
+Dirac	291	296	O
+there	297	302	O
+was	303	306	O
+considerable	307	319	O
+debate	320	326	O
+on	327	329	O
+how	330	333	O
+a	334	335	O
+field	336	341	B-Task
+theory	342	348	I-Task
+of	349	351	I-Task
+magnetic	352	360	I-Task
+monopoles	361	370	I-Task
+may	371	374	O
+be	375	377	O
+formulated	378	388	O
+.	388	389	O
+
+Eventually	390	400	O
+,	400	401	O
+'	402	403	O
+t	403	404	O
+Hooft	405	410	O
+and	411	414	O
+Polyakov	415	423	O
+showed	424	430	O
+that	431	435	O
+the	436	439	O
+magnetic	440	448	B-Task
+monopole	449	457	I-Task
+exists	458	464	O
+as	465	467	O
+an	468	470	O
+extended	471	479	O
+solution	480	488	O
+in	489	491	O
+certain	492	499	O
+non	500	503	B-Process
+-	503	504	I-Process
+abelian	504	511	I-Process
+gauge	512	517	I-Process
+theories	518	526	I-Process
+.	526	527	O
+
+Most	528	532	O
+theorists	533	542	O
+now	543	546	O
+believe	547	554	O
+that	555	559	O
+electromagnetism	560	576	B-Process
+is	577	579	O
+merely	580	586	O
+a	587	588	O
+piece	589	594	O
+of	595	597	O
+a	598	599	O
+grand	600	605	O
+unified	606	613	O
+theory	614	620	O
+and	621	624	O
+that	625	629	O
+magnetic	630	638	B-Process
+monopoles	639	648	I-Process
+exist	649	654	O
+.	654	655	O
+
+Might	656	661	O
+it	662	664	O
+not	665	668	O
+turn	669	673	O
+out	674	677	O
+that	678	682	O
+Einstein	683	691	O
+'s	691	693	O
+theory	694	700	O
+is	701	703	O
+but	704	707	O
+a	708	709	O
+piece	710	715	O
+of	716	718	O
+a	719	720	O
+bigger	721	727	O
+theory	728	734	O
+and	735	738	O
+that	739	743	O
+gravitipoles	744	756	B-Process
+exist	757	762	O
+?	762	763	O
+
+In	764	766	O
+grand	767	772	O
+unified	773	780	O
+theory	781	787	O
+the	788	791	O
+electromagnetic	792	807	B-Process
+field	808	813	I-Process
+is	814	816	O
+a	817	818	O
+component	819	828	O
+of	829	831	O
+a	832	833	O
+multiplet	834	843	O
+.	843	844	O
+
+Could	845	850	O
+it	851	853	O
+be	854	856	O
+that	857	861	O
+the	862	865	O
+gravitational	866	879	B-Process
+field	880	885	I-Process
+also	886	890	O
+somehow	891	898	O
+carries	899	906	O
+an	907	909	O
+internal	910	918	O
+index	919	924	O
+and	925	928	O
+that	929	933	O
+the	934	937	O
+field	938	943	O
+we	944	946	O
+observe	947	954	O
+is	955	957	O
+just	958	962	O
+a	963	964	O
+component	965	974	O
+of	975	977	O
+a	978	979	O
+multiplet	980	989	O
+?	989	990	O
+
+Throwing	991	999	O
+caution	1000	1007	O
+to	1008	1010	O
+the	1011	1014	O
+wind	1015	1019	O
+,	1019	1020	O
+I	1021	1022	O
+also	1023	1027	O
+asked	1028	1033	O
+in	1034	1036	O
+[	1037	1038	O
+10	1038	1040	O
+]	1040	1041	O
+if	1042	1044	O
+the	1045	1048	O
+gravitipole	1049	1060	B-Process
+and	1061	1064	O
+the	1065	1068	O
+graviton	1069	1077	B-Process
+might	1078	1083	O
+not	1084	1087	O
+form	1088	1092	O
+a	1093	1094	O
+representation	1095	1109	O
+under	1110	1115	O
+some	1116	1120	O
+dual	1121	1125	O
+group	1126	1131	O
+just	1132	1136	O
+as	1137	1139	O
+the	1140	1143	O
+magnetic	1144	1152	B-Process
+monopole	1153	1161	I-Process
+and	1162	1165	O
+the	1166	1169	O
+photon	1170	1176	B-Material
+form	1177	1181	O
+a	1182	1183	O
+triplet	1184	1191	O
+under	1192	1197	O
+the	1198	1201	O
+dual	1202	1206	O
+group	1207	1212	O
+of	1213	1215	O
+Montonen	1216	1224	O
+and	1225	1228	O
+Olive	1229	1234	O
+
+[	1235	1236	O
+11	1236	1238	O
+]	1238	1239	O
+.	1239	1240	O
 
 
 -DOCSTART- (S0370269304007695)
 
-In	NN	O	O
-summary	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-one	NN	O	O
-can	NN	O	O
-describe	NN	O	B-Task
-the	NN	O	I-Task
-experimental	NN	O	I-Task
-data	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-HERMES	NN	O	I-Task
-Collaboration	NN	O	I-Task
-for	NN	O	I-Task
-hadron	NN	O	I-Task
-attenuation	NN	O	I-Task
-on	NN	O	I-Task
-nuclei	NN	O	I-Task
-without	NN	O	O
-invoking	NN	O	O
-any	NN	O	O
-changes	NN	O	O
-in	NN	O	O
-the	NN	O	O
-fragmentation	NN	O	B-Process
-function	NN	O	I-Process
-due	NN	O	O
-to	NN	O	O
-gluon	NN	O	B-Process
-radiation	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-our	NN	O	O
-dynamical	NN	O	B-Task
-studies	NN	O	I-Task
-,	NN	O	O
-that	NN	O	O
-include	NN	O	O
-the	NN	O	O
-most	NN	O	O
-relevant	NN	O	O
-FSI	NN	O	B-Process
-,	NN	O	O
-we	NN	O	O
-employ	NN	O	O
-only	NN	O	O
-the	NN	O	O
-‘	NN	O	B-Process
-free’	NN	O	I-Process
-fragmentation	NN	O	I-Process
-function	NN	O	I-Process
-on	NN	O	O
-a	NN	O	O
-nucleon	NN	O	B-Material
-and	NN	O	O
-attribute	NN	O	O
-the	NN	O	O
-hadron	NN	O	B-Process
-attenuation	NN	O	I-Process
-to	NN	O	O
-the	NN	O	O
-deceleration	NN	O	O
-of	NN	O	O
-the	NN	O	O
-produced	NN	O	B-Material
-(	NN	O	I-Material
-pre-)hadrons	NN	O	I-Material
-due	NN	O	O
-to	NN	O	O
-FSI	NN	O	B-Process
-in	NN	O	O
-the	NN	O	O
-surrounding	NN	O	B-Material
-medium	NN	O	I-Material
-.	NN	O	O
-
-We	NN	O	O
-find	NN	O	O
-that	NN	O	O
-in	NN	O	O
-particular	NN	O	O
-the	NN	O	B-Process
-z	NN	O	I-Process
--	NN	O	I-Process
-dependence	NN	O	I-Process
-of	NN	O	I-Process
-RMh	NN	O	I-Process
-is	NN	O	O
-very	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-the	NN	O	O
-interaction	NN	O	O
-cross	NN	O	O
-section	NN	O	O
-of	NN	O	O
-leading	NN	O	B-Material
-prehadrons	NN	O	I-Material
-and	NN	O	O
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-determine	NN	O	B-Task
-σlead	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-interaction	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-leading	NN	O	I-Process
-prehadrons	NN	O	I-Process
-during	NN	O	I-Process
-the	NN	O	I-Process
-formation	NN	O	I-Process
-time	NN	O	I-Process
-could	NN	O	O
-be	NN	O	O
-interpreted	NN	O	O
-as	NN	O	O
-an	NN	O	O
-in	NN	O	B-Process
--	NN	O	I-Process
-medium	NN	O	I-Process
-change	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-fragmentation	NN	O	I-Process
-function	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-however	NN	O	O
-could	NN	O	O
-not	NN	O	O
-be	NN	O	O
-given	NN	O	O
-in	NN	O	O
-a	NN	O	O
-closed	NN	O	O
-form	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-extracted	NN	O	O
-average	NN	O	O
-hadron	NN	O	B-Process
-formation	NN	O	I-Process
-times	NN	O	O
-of	NN	O	O
-τf≳0.3	NN	O	O
-fm	NN	O	O
-/	NN	O	O
-c	NN	O	O
-are	NN	O	O
-compatible	NN	O	O
-with	NN	O	O
-the	NN	O	O
-analysis	NN	O	B-Task
-of	NN	O	I-Task
-antiproton	NN	O	I-Task
-attenuation	NN	O	I-Task
-in	NN	O	O
-p+A	NN	O	B-Process
-reactions	NN	O	I-Process
-at	NN	O	O
-AGS	NN	O	O
-energies	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-an	NN	O	O
-upcoming	NN	O	O
-work	NN	O	O
-we	NN	O	O
-will	NN	O	O
-investigate	NN	O	O
-in	NN	O	O
-detail	NN	O	B-Task
-the	NN	O	I-Task
-spectra	NN	O	I-Task
-for	NN	O	I-Task
-different	NN	O	I-Task
-particle	NN	O	I-Task
-species	NN	O	I-Task
-(	NN	O	I-Task
-π±,K±,p	NN	O	I-Task
-,	NN	O	I-Task
-p̄	NN	O	I-Task
-)	NN	O	I-Task
-to	NN	O	O
-examine	NN	O	B-Task
-,	NN	O	I-Task
-if	NN	O	I-Task
-the	NN	O	I-Task
-formation	NN	O	I-Task
-times	NN	O	I-Task
-of	NN	O	I-Task
-mesons	NN	O	I-Task
-and	NN	O	I-Task
-antibaryons	NN	O	I-Task
-are	NN	O	I-Task
-about	NN	O	I-Task
-equal	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-we	NN	O	O
-will	NN	O	O
-improve	NN	O	B-Task
-our	NN	O	I-Task
-model	NN	O	I-Task
-to	NN	O	I-Task
-describe	NN	O	I-Task
-the	NN	O	I-Task
-primary	NN	O	I-Task
-photon	NN	O	I-Task
-–	NN	O	I-Task
-nucleon	NN	O	I-Task
-reaction	NN	O	I-Task
-below	NN	O	I-Task
-the	NN	O	I-Task
-PYTHIA	NN	O	I-Task
-threshold	NN	O	I-Task
-of	NN	O	I-Task
-W⩾4	NN	O	I-Task
-GeV.	NN	O	I-Task
+In	0	2	O
+summary	3	10	O
+,	10	11	O
+we	12	14	O
+have	15	19	O
+shown	20	25	O
+that	26	30	O
+one	31	34	O
+can	35	38	O
+describe	39	47	B-Task
+the	48	51	I-Task
+experimental	52	64	I-Task
+data	65	69	I-Task
+of	70	72	I-Task
+the	73	76	I-Task
+HERMES	77	83	I-Task
+Collaboration	84	97	I-Task
+for	98	101	I-Task
+hadron	102	108	I-Task
+attenuation	109	120	I-Task
+on	121	123	I-Task
+nuclei	124	130	I-Task
+without	131	138	O
+invoking	139	147	O
+any	148	151	O
+changes	152	159	O
+in	160	162	O
+the	163	166	O
+fragmentation	167	180	B-Process
+function	181	189	I-Process
+due	190	193	O
+to	194	196	O
+gluon	197	202	B-Process
+radiation	203	212	I-Process
+.	212	213	O
+
+In	214	216	O
+our	217	220	O
+dynamical	221	230	B-Task
+studies	231	238	I-Task
+,	238	239	O
+that	240	244	O
+include	245	252	O
+the	253	256	O
+most	257	261	O
+relevant	262	270	O
+FSI	271	274	B-Process
+,	274	275	O
+we	276	278	O
+employ	279	285	O
+only	286	290	O
+the	291	294	O
+‘	295	296	B-Process
+free’	296	301	I-Process
+fragmentation	302	315	I-Process
+function	316	324	I-Process
+on	325	327	O
+a	328	329	O
+nucleon	330	337	B-Material
+and	338	341	O
+attribute	342	351	O
+the	352	355	O
+hadron	356	362	B-Process
+attenuation	363	374	I-Process
+to	375	377	O
+the	378	381	O
+deceleration	382	394	O
+of	395	397	O
+the	398	401	O
+produced	402	410	B-Material
+(	411	412	I-Material
+pre-)hadrons	412	424	I-Material
+due	425	428	O
+to	429	431	O
+FSI	432	435	B-Process
+in	436	438	O
+the	439	442	O
+surrounding	443	454	B-Material
+medium	455	461	I-Material
+.	461	462	O
+
+We	463	465	O
+find	466	470	O
+that	471	475	O
+in	476	478	O
+particular	479	489	O
+the	490	493	B-Process
+z	494	495	I-Process
+-	495	496	I-Process
+dependence	496	506	I-Process
+of	507	509	I-Process
+RMh	510	513	I-Process
+is	514	516	O
+very	517	521	O
+sensitive	522	531	O
+to	532	534	O
+the	535	538	O
+interaction	539	550	O
+cross	551	556	O
+section	557	564	O
+of	565	567	O
+leading	568	575	B-Material
+prehadrons	576	586	I-Material
+and	587	590	O
+can	591	594	O
+be	595	597	O
+used	598	602	O
+to	603	605	O
+determine	606	615	B-Task
+σlead	616	621	I-Task
+.	621	622	O
+
+The	623	626	O
+interaction	627	638	B-Process
+of	639	641	I-Process
+the	642	645	I-Process
+leading	646	653	I-Process
+prehadrons	654	664	I-Process
+during	665	671	I-Process
+the	672	675	I-Process
+formation	676	685	I-Process
+time	686	690	I-Process
+could	691	696	O
+be	697	699	O
+interpreted	700	711	O
+as	712	714	O
+an	715	717	O
+in	718	720	B-Process
+-	720	721	I-Process
+medium	721	727	I-Process
+change	728	734	I-Process
+of	735	737	I-Process
+the	738	741	I-Process
+fragmentation	742	755	I-Process
+function	756	764	I-Process
+,	764	765	O
+which	766	771	O
+however	772	779	O
+could	780	785	O
+not	786	789	O
+be	790	792	O
+given	793	798	O
+in	799	801	O
+a	802	803	O
+closed	804	810	O
+form	811	815	O
+.	815	816	O
+
+The	817	820	O
+extracted	821	830	O
+average	831	838	O
+hadron	839	845	B-Process
+formation	846	855	I-Process
+times	856	861	O
+of	862	864	O
+τf≳0.3	865	871	O
+fm	872	874	O
+/	874	875	O
+c	875	876	O
+are	877	880	O
+compatible	881	891	O
+with	892	896	O
+the	897	900	O
+analysis	901	909	B-Task
+of	910	912	I-Task
+antiproton	913	923	I-Task
+attenuation	924	935	I-Task
+in	936	938	O
+p+A	939	942	B-Process
+reactions	943	952	I-Process
+at	953	955	O
+AGS	956	959	O
+energies	960	968	O
+[	969	970	O
+17	970	972	O
+]	972	973	O
+.	973	974	O
+
+In	975	977	O
+an	978	980	O
+upcoming	981	989	O
+work	990	994	O
+we	995	997	O
+will	998	1002	O
+investigate	1003	1014	O
+in	1015	1017	O
+detail	1018	1024	B-Task
+the	1025	1028	I-Task
+spectra	1029	1036	I-Task
+for	1037	1040	I-Task
+different	1041	1050	I-Task
+particle	1051	1059	I-Task
+species	1060	1067	I-Task
+(	1068	1069	I-Task
+π±,K±,p	1069	1076	I-Task
+,	1076	1077	I-Task
+p̄	1077	1079	I-Task
+)	1079	1080	I-Task
+to	1081	1083	O
+examine	1084	1091	B-Task
+,	1091	1092	I-Task
+if	1093	1095	I-Task
+the	1096	1099	I-Task
+formation	1100	1109	I-Task
+times	1110	1115	I-Task
+of	1116	1118	I-Task
+mesons	1119	1125	I-Task
+and	1126	1129	I-Task
+antibaryons	1130	1141	I-Task
+are	1142	1145	I-Task
+about	1146	1151	I-Task
+equal	1152	1157	I-Task
+.	1157	1158	O
+
+In	1159	1161	O
+addition	1162	1170	O
+we	1171	1173	O
+will	1174	1178	O
+improve	1179	1186	B-Task
+our	1187	1190	I-Task
+model	1191	1196	I-Task
+to	1197	1199	I-Task
+describe	1200	1208	I-Task
+the	1209	1212	I-Task
+primary	1213	1220	I-Task
+photon	1221	1227	I-Task
+–	1227	1228	I-Task
+nucleon	1228	1235	I-Task
+reaction	1236	1244	I-Task
+below	1245	1250	I-Task
+the	1251	1254	I-Task
+PYTHIA	1255	1261	I-Task
+threshold	1262	1271	I-Task
+of	1272	1274	I-Task
+W⩾4	1275	1278	I-Task
+GeV.	1279	1283	I-Task
 
 
 -DOCSTART- (S0370269304007701)
 
-Solitons	NN	O	B-Material
-present	NN	O	O
-the	NN	O	O
-possibility	NN	O	O
-of	NN	O	O
-extended	NN	O	O
-objects	NN	O	O
-as	NN	O	O
-stable	NN	O	O
-states	NN	O	O
-within	NN	O	O
-Quantum	NN	O	O
-Field	NN	O	O
-Theory	NN	O	O
-.	NN	O	O
-
-Although	NN	O	O
-these	NN	O	O
-solutions	NN	O	O
-are	NN	O	O
-obtained	NN	O	O
-from	NN	O	O
-semi	NN	O	B-Process
--	NN	O	I-Process
-classical	NN	O	I-Process
-arguments	NN	O	I-Process
-in	NN	O	I-Process
-weak	NN	O	I-Process
-coupling	NN	O	I-Process
-limit	NN	O	I-Process
-,	NN	O	O
-their	NN	O	O
-validity	NN	O	O
-as	NN	O	O
-quantal	NN	O	B-Task
-states	NN	O	I-Task
-is	NN	O	O
-justified	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-associated	NN	O	B-Process
-topological	NN	O	I-Process
-conservation	NN	O	I-Process
-laws	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-more	NN	O	O
-curious	NN	O	O
-occurrence	NN	O	O
-is	NN	O	O
-that	NN	O	O
-of	NN	O	O
-fermionic	NN	O	B-Task
-zero	NN	O	I-Task
--	NN	O	I-Task
-energy	NN	O	I-Task
-modes	NN	O	I-Task
-trapped	NN	O	I-Task
-on	NN	O	I-Task
-such	NN	O	I-Task
-solutions	NN	O	I-Task
-.	NN	O	O
-
-Their	NN	O	O
-presence	NN	O	O
-requires	NN	O	O
-,	NN	O	O
-according	NN	O	O
-to	NN	O	O
-well	NN	O	O
--	NN	O	O
-known	NN	O	O
-arguments	NN	O	O
-[	NN	O	O
-1,2	NN	O	O
-]	NN	O	O
-,	NN	O	O
-an	NN	O	O
-assignment	NN	O	B-Process
-of	NN	O	I-Process
-half	NN	O	I-Process
--	NN	O	I-Process
-integer	NN	O	I-Process
-fermion	NN	O	I-Process
-number	NN	O	I-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-solitonic	NN	O	I-Process
-states	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-usual	NN	O	O
-treatment	NN	O	O
-,	NN	O	O
-the	NN	O	B-Task
-back	NN	O	I-Task
-reaction	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-fermion	NN	O	I-Task
-zero	NN	O	I-Task
--	NN	O	I-Task
-modes	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-soliton	NN	O	I-Task
-itself	NN	O	O
-is	NN	O	O
-ignored	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-fractional	NN	O	B-Task
-values	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-fermionic	NN	O	I-Task
-charge	NN	O	I-Task
-have	NN	O	O
-interesting	NN	O	O
-consequence	NN	O	O
-for	NN	O	O
-the	NN	O	B-Task
-fate	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-soliton	NN	O	I-Task
-if	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-is	NN	O	O
-not	NN	O	O
-strictly	NN	O	O
-stable	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-reason	NN	O	O
-for	NN	O	O
-this	NN	O	O
-is	NN	O	O
-that	NN	O	O
-if	NN	O	O
-the	NN	O	O
-configuration	NN	O	O
-were	NN	O	O
-to	NN	O	O
-relax	NN	O	O
-to	NN	O	O
-trivial	NN	O	O
-vacuum	NN	O	B-Material
-in	NN	O	O
-isolation	NN	O	O
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-particle	NN	O	O
--	NN	O	O
-like	NN	O	O
-state	NN	O	O
-available	NN	O	O
-for	NN	O	O
-carrying	NN	O	B-Task
-the	NN	O	I-Task
-fractional	NN	O	I-Task
-value	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-fermionic	NN	O	I-Task
-charge	NN	O	I-Task
-.	NN	O	O
-
-Dynamical	NN	O	B-Task
-stability	NN	O	I-Task
-of	NN	O	I-Task
-such	NN	O	I-Task
-objects	NN	O	I-Task
-was	NN	O	O
-pointed	NN	O	O
-out	NN	O	O
-in	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-,	NN	O	O
-in	NN	O	O
-cosmological	NN	O	O
-context	NN	O	O
-in	NN	O	O
-[	NN	O	O
-4,5	NN	O	O
-]	NN	O	O
-and	NN	O	O
-more	NN	O	O
-recently	NN	O	O
-in	NN	O	O
-[	NN	O	O
-6–8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Fractional	NN	O	O
-fermion	NN	O	O
-number	NN	O	O
-phenomenon	NN	O	O
-also	NN	O	O
-occurs	NN	O	O
-in	NN	O	O
-condensed	NN	O	B-Material
-matter	NN	O	I-Material
-systems	NN	O	I-Material
-and	NN	O	O
-its	NN	O	O
-wide	NN	O	O
-ranging	NN	O	O
-implications	NN	O	O
-call	NN	O	O
-for	NN	O	O
-a	NN	O	O
-systematic	NN	O	B-Task
-understanding	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-phenomenon	NN	O	I-Task
-.	NN	O	O
+Solitons	0	8	B-Material
+present	9	16	O
+the	17	20	O
+possibility	21	32	O
+of	33	35	O
+extended	36	44	O
+objects	45	52	O
+as	53	55	O
+stable	56	62	O
+states	63	69	O
+within	70	76	O
+Quantum	77	84	O
+Field	85	90	O
+Theory	91	97	O
+.	97	98	O
+
+Although	99	107	O
+these	108	113	O
+solutions	114	123	O
+are	124	127	O
+obtained	128	136	O
+from	137	141	O
+semi	142	146	B-Process
+-	146	147	I-Process
+classical	147	156	I-Process
+arguments	157	166	I-Process
+in	167	169	I-Process
+weak	170	174	I-Process
+coupling	175	183	I-Process
+limit	184	189	I-Process
+,	189	190	O
+their	191	196	O
+validity	197	205	O
+as	206	208	O
+quantal	209	216	B-Task
+states	217	223	I-Task
+is	224	226	O
+justified	227	236	O
+based	237	242	O
+on	243	245	O
+the	246	249	O
+associated	250	260	B-Process
+topological	261	272	I-Process
+conservation	273	285	I-Process
+laws	286	290	I-Process
+.	290	291	O
+
+A	292	293	O
+more	294	298	O
+curious	299	306	O
+occurrence	307	317	O
+is	318	320	O
+that	321	325	O
+of	326	328	O
+fermionic	329	338	B-Task
+zero	339	343	I-Task
+-	343	344	I-Task
+energy	344	350	I-Task
+modes	351	356	I-Task
+trapped	357	364	I-Task
+on	365	367	I-Task
+such	368	372	I-Task
+solutions	373	382	I-Task
+.	382	383	O
+
+Their	384	389	O
+presence	390	398	O
+requires	399	407	O
+,	407	408	O
+according	409	418	O
+to	419	421	O
+well	422	426	O
+-	426	427	O
+known	427	432	O
+arguments	433	442	O
+[	443	444	O
+1,2	444	447	O
+]	447	448	O
+,	448	449	O
+an	450	452	O
+assignment	453	463	B-Process
+of	464	466	I-Process
+half	467	471	I-Process
+-	471	472	I-Process
+integer	472	479	I-Process
+fermion	480	487	I-Process
+number	488	494	I-Process
+to	495	497	I-Process
+the	498	501	I-Process
+solitonic	502	511	I-Process
+states	512	518	I-Process
+.	518	519	O
+
+In	520	522	O
+the	523	526	O
+usual	527	532	O
+treatment	533	542	O
+,	542	543	O
+the	544	547	B-Task
+back	548	552	I-Task
+reaction	553	561	I-Task
+of	562	564	I-Task
+the	565	568	I-Task
+fermion	569	576	I-Task
+zero	577	581	I-Task
+-	581	582	I-Task
+modes	582	587	I-Task
+on	588	590	I-Task
+the	591	594	I-Task
+soliton	595	602	I-Task
+itself	603	609	O
+is	610	612	O
+ignored	613	620	O
+.	620	621	O
+
+However	622	629	O
+,	629	630	O
+the	631	634	O
+fractional	635	645	B-Task
+values	646	652	I-Task
+of	653	655	I-Task
+the	656	659	I-Task
+fermionic	660	669	I-Task
+charge	670	676	I-Task
+have	677	681	O
+interesting	682	693	O
+consequence	694	705	O
+for	706	709	O
+the	710	713	B-Task
+fate	714	718	I-Task
+of	719	721	I-Task
+the	722	725	I-Task
+soliton	726	733	I-Task
+if	734	736	O
+the	737	740	O
+latter	741	747	O
+is	748	750	O
+not	751	754	O
+strictly	755	763	O
+stable	764	770	O
+.	770	771	O
+
+The	772	775	O
+reason	776	782	O
+for	783	786	O
+this	787	791	O
+is	792	794	O
+that	795	799	O
+if	800	802	O
+the	803	806	O
+configuration	807	820	O
+were	821	825	O
+to	826	828	O
+relax	829	834	O
+to	835	837	O
+trivial	838	845	O
+vacuum	846	852	B-Material
+in	853	855	O
+isolation	856	865	O
+,	865	866	O
+there	867	872	O
+is	873	875	O
+no	876	878	O
+particle	879	887	O
+-	887	888	O
+like	888	892	O
+state	893	898	O
+available	899	908	O
+for	909	912	O
+carrying	913	921	B-Task
+the	922	925	I-Task
+fractional	926	936	I-Task
+value	937	942	I-Task
+of	943	945	I-Task
+the	946	949	I-Task
+fermionic	950	959	I-Task
+charge	960	966	I-Task
+.	966	967	O
+
+Dynamical	968	977	B-Task
+stability	978	987	I-Task
+of	988	990	I-Task
+such	991	995	I-Task
+objects	996	1003	I-Task
+was	1004	1007	O
+pointed	1008	1015	O
+out	1016	1019	O
+in	1020	1022	O
+[	1023	1024	O
+3	1024	1025	O
+]	1025	1026	O
+,	1026	1027	O
+in	1028	1030	O
+cosmological	1031	1043	O
+context	1044	1051	O
+in	1052	1054	O
+[	1055	1056	O
+4,5	1056	1059	O
+]	1059	1060	O
+and	1061	1064	O
+more	1065	1069	O
+recently	1070	1078	O
+in	1079	1081	O
+[	1082	1083	O
+6–8	1083	1086	O
+]	1086	1087	O
+.	1087	1088	O
+
+Fractional	1089	1099	O
+fermion	1100	1107	O
+number	1108	1114	O
+phenomenon	1115	1125	O
+also	1126	1130	O
+occurs	1131	1137	O
+in	1138	1140	O
+condensed	1141	1150	B-Material
+matter	1151	1157	I-Material
+systems	1158	1165	I-Material
+and	1166	1169	O
+its	1170	1173	O
+wide	1174	1178	O
+ranging	1179	1186	O
+implications	1187	1199	O
+call	1200	1204	O
+for	1205	1208	O
+a	1209	1210	O
+systematic	1211	1221	B-Task
+understanding	1222	1235	I-Task
+of	1236	1238	I-Task
+the	1239	1242	I-Task
+phenomenon	1243	1253	I-Task
+.	1253	1254	O
 
 
 -DOCSTART- (S0370269304007749)
 
-The	NN	O	O
-charmonium	NN	O	B-Process
-production	NN	O	I-Process
-has	NN	O	O
-long	NN	O	O
-been	NN	O	O
-considered	NN	O	O
-as	NN	O	O
-a	NN	O	O
-good	NN	O	O
-process	NN	O	O
-for	NN	O	O
-investigating	NN	O	B-Task
-both	NN	O	I-Task
-perturbative	NN	O	I-Task
-and	NN	O	I-Task
-nonperturbative	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	I-Task
-quantum	NN	O	I-Task
-chromodynamics	NN	O	I-Task
-(	NN	O	I-Task
-QCD	NN	O	I-Task
-)	NN	O	O
-,	NN	O	O
-because	NN	O	O
-of	NN	O	O
-the	NN	O	O
-relatively	NN	O	O
-large	NN	O	O
-difference	NN	O	O
-between	NN	O	O
-the	NN	O	O
-scale	NN	O	O
-at	NN	O	O
-which	NN	O	O
-the	NN	O	O
-charm	NN	O	O
-–	NN	O	O
-quark	NN	O	O
-pair	NN	O	O
-is	NN	O	O
-produced	NN	O	O
-at	NN	O	O
-the	NN	O	O
-parton	NN	O	O
-level	NN	O	O
-and	NN	O	O
-the	NN	O	O
-scale	NN	O	O
-at	NN	O	O
-which	NN	O	O
-it	NN	O	O
-evolves	NN	O	O
-into	NN	O	O
-a	NN	O	O
-quarkonium	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-comparing	NN	O	O
-to	NN	O	O
-hadron	NN	O	O
-colliders	NN	O	O
-,	NN	O	O
-e+e−	NN	O	B-Material
-colliders	NN	O	I-Material
-,	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-cleaner	NN	O	O
-environment	NN	O	O
-to	NN	O	O
-study	NN	O	B-Task
-the	NN	O	I-Task
-charmonium	NN	O	I-Task
-productions	NN	O	I-Task
-and	NN	O	I-Task
-decays	NN	O	I-Task
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-some	NN	O	O
-puzzles	NN	O	O
-arise	NN	O	O
-from	NN	O	O
-the	NN	O	O
-recent	NN	O	B-Process
-measurements	NN	O	I-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-prompt	NN	O	I-Process
-J/ψ	NN	O	I-Process
-productions	NN	O	O
-at	NN	O	O
-BaBar	NN	O	B-Process
-and	NN	O	O
-Belle	NN	O	B-Process
-
-[	NN	O	O
-1–3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-inclusive	NN	O	B-Task
-J/ψ	NN	O	I-Task
-productions	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-cross	NN	O	O
-section	NN	O	O
-is	NN	O	O
-much	NN	O	O
-larger	NN	O	O
-than	NN	O	O
-the	NN	O	O
-predictions	NN	O	O
-of	NN	O	O
-nonrelativistic	NN	O	B-Process
-quantum	NN	O	I-Process
-chromodynamics	NN	O	I-Process
-(	NN	O	O
-NRQCD	NN	O	B-Process
-)	NN	O	O
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-;	NN	O	O
-there	NN	O	O
-is	NN	O	O
-also	NN	O	O
-an	NN	O	O
-over	NN	O	O
--	NN	O	O
-abundance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-four	NN	O	B-Process
--	NN	O	I-Process
-charm	NN	O	I-Process
-–	NN	O	I-Process
-quark	NN	O	I-Process
-processes	NN	O	I-Process
-including	NN	O	O
-the	NN	O	O
-exclusive	NN	O	B-Process
-J/ψ	NN	O	I-Process
-and	NN	O	I-Process
-charmonium	NN	O	I-Process
-productions	NN	O	I-Process
-;	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-apparent	NN	O	O
-signal	NN	O	O
-in	NN	O	O
-the	NN	O	O
-hard	NN	O	O
-J/ψ	NN	O	O
-spectrum	NN	O	O
-which	NN	O	O
-has	NN	O	O
-been	NN	O	O
-predicted	NN	O	O
-by	NN	O	O
-the	NN	O	O
-J/ψgg	NN	O	B-Process
-production	NN	O	I-Process
-mode	NN	O	I-Process
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-the	NN	O	O
-color	NN	O	B-Process
--	NN	O	I-Process
-octet	NN	O	I-Process
-mechanism	NN	O	I-Process
-in	NN	O	I-Process
-NRQCD	NN	O	I-Process
-.	NN	O	O
-
-To	NN	O	O
-provide	NN	O	O
-plausible	NN	O	O
-solutions	NN	O	O
-and	NN	O	O
-explanations	NN	O	O
-for	NN	O	O
-these	NN	O	O
-conflicts	NN	O	O
-,	NN	O	O
-theorists	NN	O	O
-have	NN	O	O
-studied	NN	O	O
-the	NN	O	O
-possibilities	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-contribution	NN	O	I-Task
-from	NN	O	I-Task
-two	NN	O	I-Task
--	NN	O	I-Task
-virtual	NN	O	I-Task
--	NN	O	I-Task
-photon	NN	O	I-Task
-mediate	NN	O	I-Task
-processes	NN	O	I-Task
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-,	NN	O	O
-large	NN	O	B-Task
-higher	NN	O	I-Task
--	NN	O	I-Task
-order	NN	O	I-Task
-QCD	NN	O	I-Task
-corrections	NN	O	I-Task
-[	NN	O	O
-6,7	NN	O	O
-]	NN	O	O
-,	NN	O	O
-collinear	NN	O	B-Task
-suppression	NN	O	I-Task
-at	NN	O	I-Task
-the	NN	O	I-Task
-end	NN	O	I-Task
--	NN	O	I-Task
-point	NN	O	I-Task
-region	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-J/ψ	NN	O	I-Task
-momentum	NN	O	I-Task
-[	NN	O	O
-7,8	NN	O	O
-]	NN	O	O
-,	NN	O	O
-contribution	NN	O	B-Task
-from	NN	O	I-Task
-the	NN	O	I-Task
-J/ψ-glueball	NN	O	I-Task
-associated	NN	O	I-Task
-production	NN	O	I-Task
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-and	NN	O	O
-contribution	NN	O	B-Task
-from	NN	O	I-Task
-a	NN	O	I-Task
-very	NN	O	I-Task
-light	NN	O	I-Task
-scalar	NN	O	I-Task
-boson	NN	O	I-Task
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+charmonium	4	14	B-Process
+production	15	25	I-Process
+has	26	29	O
+long	30	34	O
+been	35	39	O
+considered	40	50	O
+as	51	53	O
+a	54	55	O
+good	56	60	O
+process	61	68	O
+for	69	72	O
+investigating	73	86	B-Task
+both	87	91	I-Task
+perturbative	92	104	I-Task
+and	105	108	I-Task
+nonperturbative	109	124	I-Task
+properties	125	135	I-Task
+of	136	138	I-Task
+quantum	139	146	I-Task
+chromodynamics	147	161	I-Task
+(	162	163	I-Task
+QCD	163	166	I-Task
+)	166	167	O
+,	167	168	O
+because	169	176	O
+of	177	179	O
+the	180	183	O
+relatively	184	194	O
+large	195	200	O
+difference	201	211	O
+between	212	219	O
+the	220	223	O
+scale	224	229	O
+at	230	232	O
+which	233	238	O
+the	239	242	O
+charm	243	248	O
+–	248	249	O
+quark	249	254	O
+pair	255	259	O
+is	260	262	O
+produced	263	271	O
+at	272	274	O
+the	275	278	O
+parton	279	285	O
+level	286	291	O
+and	292	295	O
+the	296	299	O
+scale	300	305	O
+at	306	308	O
+which	309	314	O
+it	315	317	O
+evolves	318	325	O
+into	326	330	O
+a	331	332	O
+quarkonium	333	343	O
+.	343	344	O
+
+In	345	347	O
+particular	348	358	O
+,	358	359	O
+comparing	360	369	O
+to	370	372	O
+hadron	373	379	O
+colliders	380	389	O
+,	389	390	O
+e+e−	391	395	B-Material
+colliders	396	405	I-Material
+,	405	406	O
+provide	407	414	O
+a	415	416	O
+cleaner	417	424	O
+environment	425	436	O
+to	437	439	O
+study	440	445	B-Task
+the	446	449	I-Task
+charmonium	450	460	I-Task
+productions	461	472	I-Task
+and	473	476	I-Task
+decays	477	483	I-Task
+.	483	484	O
+
+However	485	492	O
+,	492	493	O
+some	494	498	O
+puzzles	499	506	O
+arise	507	512	O
+from	513	517	O
+the	518	521	O
+recent	522	528	B-Process
+measurements	529	541	I-Process
+on	542	544	I-Process
+the	545	548	I-Process
+prompt	549	555	I-Process
+J/ψ	556	559	I-Process
+productions	560	571	O
+at	572	574	O
+BaBar	575	580	B-Process
+and	581	584	O
+Belle	585	590	B-Process
+
+[	591	592	O
+1–3	592	595	O
+]	595	596	O
+.	596	597	O
+
+For	598	601	O
+the	602	605	O
+inclusive	606	615	B-Task
+J/ψ	616	619	I-Task
+productions	620	631	I-Task
+,	631	632	O
+the	633	636	O
+cross	637	642	O
+section	643	650	O
+is	651	653	O
+much	654	658	O
+larger	659	665	O
+than	666	670	O
+the	671	674	O
+predictions	675	686	O
+of	687	689	O
+nonrelativistic	690	705	B-Process
+quantum	706	713	I-Process
+chromodynamics	714	728	I-Process
+(	729	730	O
+NRQCD	730	735	B-Process
+)	735	736	O
+[	737	738	O
+4	738	739	O
+]	739	740	O
+;	740	741	O
+there	742	747	O
+is	748	750	O
+also	751	755	O
+an	756	758	O
+over	759	763	O
+-	763	764	O
+abundance	764	773	O
+of	774	776	O
+the	777	780	O
+four	781	785	B-Process
+-	785	786	I-Process
+charm	786	791	I-Process
+–	791	792	I-Process
+quark	792	797	I-Process
+processes	798	807	I-Process
+including	808	817	O
+the	818	821	O
+exclusive	822	831	B-Process
+J/ψ	832	835	I-Process
+and	836	839	I-Process
+charmonium	840	850	I-Process
+productions	851	862	I-Process
+;	862	863	O
+there	864	869	O
+is	870	872	O
+no	873	875	O
+apparent	876	884	O
+signal	885	891	O
+in	892	894	O
+the	895	898	O
+hard	899	903	O
+J/ψ	904	907	O
+spectrum	908	916	O
+which	917	922	O
+has	923	926	O
+been	927	931	O
+predicted	932	941	O
+by	942	944	O
+the	945	948	O
+J/ψgg	949	954	B-Process
+production	955	965	I-Process
+mode	966	970	I-Process
+as	971	973	O
+well	974	978	O
+as	979	981	O
+the	982	985	O
+color	986	991	B-Process
+-	991	992	I-Process
+octet	992	997	I-Process
+mechanism	998	1007	I-Process
+in	1008	1010	I-Process
+NRQCD	1011	1016	I-Process
+.	1016	1017	O
+
+To	1018	1020	O
+provide	1021	1028	O
+plausible	1029	1038	O
+solutions	1039	1048	O
+and	1049	1052	O
+explanations	1053	1065	O
+for	1066	1069	O
+these	1070	1075	O
+conflicts	1076	1085	O
+,	1085	1086	O
+theorists	1087	1096	O
+have	1097	1101	O
+studied	1102	1109	O
+the	1110	1113	O
+possibilities	1114	1127	B-Task
+of	1128	1130	I-Task
+the	1131	1134	I-Task
+contribution	1135	1147	I-Task
+from	1148	1152	I-Task
+two	1153	1156	I-Task
+-	1156	1157	I-Task
+virtual	1157	1164	I-Task
+-	1164	1165	I-Task
+photon	1165	1171	I-Task
+mediate	1172	1179	I-Task
+processes	1180	1189	I-Task
+[	1190	1191	O
+5	1191	1192	O
+]	1192	1193	O
+,	1193	1194	O
+large	1195	1200	B-Task
+higher	1201	1207	I-Task
+-	1207	1208	I-Task
+order	1208	1213	I-Task
+QCD	1214	1217	I-Task
+corrections	1218	1229	I-Task
+[	1230	1231	O
+6,7	1231	1234	O
+]	1234	1235	O
+,	1235	1236	O
+collinear	1237	1246	B-Task
+suppression	1247	1258	I-Task
+at	1259	1261	I-Task
+the	1262	1265	I-Task
+end	1266	1269	I-Task
+-	1269	1270	I-Task
+point	1270	1275	I-Task
+region	1276	1282	I-Task
+of	1283	1285	I-Task
+the	1286	1289	I-Task
+J/ψ	1290	1293	I-Task
+momentum	1294	1302	I-Task
+[	1303	1304	O
+7,8	1304	1307	O
+]	1307	1308	O
+,	1308	1309	O
+contribution	1310	1322	B-Task
+from	1323	1327	I-Task
+the	1328	1331	I-Task
+J/ψ-glueball	1332	1344	I-Task
+associated	1345	1355	I-Task
+production	1356	1366	I-Task
+[	1367	1368	O
+9	1368	1369	O
+]	1369	1370	O
+and	1371	1374	O
+contribution	1375	1387	B-Task
+from	1388	1392	I-Task
+a	1393	1394	I-Task
+very	1395	1399	I-Task
+light	1400	1405	I-Task
+scalar	1406	1412	I-Task
+boson	1413	1418	I-Task
+[	1419	1420	O
+10	1420	1422	O
+]	1422	1423	O
+.	1423	1424	O
 
 
 -DOCSTART- (S0370269304007798)
 
-States	NN	O	O
-outside	NN	O	O
-the	NN	O	O
-constituent	NN	O	O
-quark	NN	O	O
-model	NN	O	O
-have	NN	O	O
-been	NN	O	O
-hypothesized	NN	O	O
-to	NN	O	O
-exist	NN	O	O
-almost	NN	O	O
-since	NN	O	O
-the	NN	O	O
-introduction	NN	O	O
-of	NN	O	O
-color	NN	O	O
-[	NN	O	O
-1–4	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Hybrid	NN	O	B-Material
-mesons	NN	O	I-Material
-,	NN	O	O
-qq̄	NN	O	O
-states	NN	O	O
-with	NN	O	O
-an	NN	O	O
-admixture	NN	O	O
-of	NN	O	O
-gluons	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-glueballs	NN	O	B-Material
-,	NN	O	O
-states	NN	O	O
-with	NN	O	O
-no	NN	O	O
-quark	NN	O	B-Material
-content	NN	O	O
-,	NN	O	O
-rely	NN	O	O
-on	NN	O	O
-the	NN	O	O
-self	NN	O	O
-interaction	NN	O	O
-property	NN	O	O
-of	NN	O	O
-gluons	NN	O	B-Material
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-color	NN	O	B-Process
-charge	NN	O	I-Process
-.	NN	O	O
-
-Looking	NN	O	B-Process
-for	NN	O	I-Process
-glueballs	NN	O	I-Process
-would	NN	O	O
-be	NN	O	O
-the	NN	O	O
-most	NN	O	O
-obvious	NN	O	O
-way	NN	O	O
-to	NN	O	O
-find	NN	O	B-Task
-evidence	NN	O	I-Task
-for	NN	O	I-Task
-states	NN	O	I-Task
-with	NN	O	I-Task
-constituent	NN	O	I-Task
-gluons	NN	O	I-Task
-;	NN	O	O
-however	NN	O	O
-,	NN	O	O
-the	NN	O	O
-search	NN	O	O
-is	NN	O	O
-hindered	NN	O	O
-by	NN	O	O
-the	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-these	NN	O	O
-states	NN	O	O
-may	NN	O	O
-significantly	NN	O	O
-mix	NN	O	O
-with	NN	O	O
-regular	NN	O	O
-qq̄-mesons	NN	O	B-Material
-in	NN	O	O
-the	NN	O	O
-region	NN	O	O
-where	NN	O	O
-the	NN	O	O
-lightest	NN	O	O
-are	NN	O	O
-predicted	NN	O	O
-to	NN	O	O
-occur	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-such	NN	O	O
-,	NN	O	O
-they	NN	O	O
-may	NN	O	O
-not	NN	O	O
-be	NN	O	O
-observable	NN	O	O
-as	NN	O	O
-pure	NN	O	O
-states	NN	O	O
-and	NN	O	O
-disentangling	NN	O	B-Task
-the	NN	O	I-Task
-observed	NN	O	I-Task
-spectra	NN	O	I-Task
-may	NN	O	O
-be	NN	O	O
-a	NN	O	O
-very	NN	O	O
-difficult	NN	O	O
-task	NN	O	O
-.	NN	O	O
-
-Instead	NN	O	O
-,	NN	O	O
-hybrid	NN	O	B-Material
-mesons	NN	O	I-Material
-(	NN	O	O
-qq̄gn	NN	O	B-Material
-)	NN	O	O
-may	NN	O	O
-be	NN	O	O
-a	NN	O	O
-better	NN	O	O
-place	NN	O	O
-to	NN	O	O
-search	NN	O	O
-for	NN	O	O
-evidence	NN	O	O
-of	NN	O	O
-resonances	NN	O	B-Task
-outside	NN	O	I-Task
-the	NN	O	I-Task
-constituent	NN	O	I-Task
-quark	NN	O	I-Task
-model	NN	O	I-Task
-,	NN	O	O
-especially	NN	O	O
-since	NN	O	O
-the	NN	O	O
-lightest	NN	O	O
-of	NN	O	O
-theses	NN	O	O
-states	NN	O	O
-are	NN	O	O
-predicted	NN	O	O
-to	NN	O	O
-have	NN	O	O
-exotic	NN	O	O
-quantum	NN	O	O
-numbers	NN	O	O
-of	NN	O	O
-spin	NN	O	O
-,	NN	O	O
-parity	NN	O	O
-,	NN	O	O
-and	NN	O	O
-charge	NN	O	O
-conjugation	NN	O	O
-,	NN	O	O
-JPC	NN	O	B-Process
-,	NN	O	O
-that	NN	O	O
-is	NN	O	O
-,	NN	O	O
-combinations	NN	O	O
-that	NN	O	O
-are	NN	O	O
-unattainable	NN	O	O
-by	NN	O	O
-regular	NN	O	O
-qq̄-mesons	NN	O	B-Material
-.	NN	O	O
+States	0	6	O
+outside	7	14	O
+the	15	18	O
+constituent	19	30	O
+quark	31	36	O
+model	37	42	O
+have	43	47	O
+been	48	52	O
+hypothesized	53	65	O
+to	66	68	O
+exist	69	74	O
+almost	75	81	O
+since	82	87	O
+the	88	91	O
+introduction	92	104	O
+of	105	107	O
+color	108	113	O
+[	114	115	O
+1–4	115	118	O
+]	118	119	O
+.	119	120	O
+
+Hybrid	121	127	B-Material
+mesons	128	134	I-Material
+,	134	135	O
+qq̄	136	139	O
+states	140	146	O
+with	147	151	O
+an	152	154	O
+admixture	155	164	O
+of	165	167	O
+gluons	168	174	B-Material
+,	174	175	O
+and	176	179	O
+glueballs	180	189	B-Material
+,	189	190	O
+states	191	197	O
+with	198	202	O
+no	203	205	O
+quark	206	211	B-Material
+content	212	219	O
+,	219	220	O
+rely	221	225	O
+on	226	228	O
+the	229	232	O
+self	233	237	O
+interaction	238	249	O
+property	250	258	O
+of	259	261	O
+gluons	262	268	B-Material
+due	269	272	O
+to	273	275	O
+their	276	281	O
+color	282	287	B-Process
+charge	288	294	I-Process
+.	294	295	O
+
+Looking	296	303	B-Process
+for	304	307	I-Process
+glueballs	308	317	I-Process
+would	318	323	O
+be	324	326	O
+the	327	330	O
+most	331	335	O
+obvious	336	343	O
+way	344	347	O
+to	348	350	O
+find	351	355	B-Task
+evidence	356	364	I-Task
+for	365	368	I-Task
+states	369	375	I-Task
+with	376	380	I-Task
+constituent	381	392	I-Task
+gluons	393	399	I-Task
+;	399	400	O
+however	401	408	O
+,	408	409	O
+the	410	413	O
+search	414	420	O
+is	421	423	O
+hindered	424	432	O
+by	433	435	O
+the	436	439	O
+fact	440	444	O
+that	445	449	O
+these	450	455	O
+states	456	462	O
+may	463	466	O
+significantly	467	480	O
+mix	481	484	O
+with	485	489	O
+regular	490	497	O
+qq̄-mesons	498	508	B-Material
+in	509	511	O
+the	512	515	O
+region	516	522	O
+where	523	528	O
+the	529	532	O
+lightest	533	541	O
+are	542	545	O
+predicted	546	555	O
+to	556	558	O
+occur	559	564	O
+.	564	565	O
+
+As	566	568	O
+such	569	573	O
+,	573	574	O
+they	575	579	O
+may	580	583	O
+not	584	587	O
+be	588	590	O
+observable	591	601	O
+as	602	604	O
+pure	605	609	O
+states	610	616	O
+and	617	620	O
+disentangling	621	634	B-Task
+the	635	638	I-Task
+observed	639	647	I-Task
+spectra	648	655	I-Task
+may	656	659	O
+be	660	662	O
+a	663	664	O
+very	665	669	O
+difficult	670	679	O
+task	680	684	O
+.	684	685	O
+
+Instead	686	693	O
+,	693	694	O
+hybrid	695	701	B-Material
+mesons	702	708	I-Material
+(	709	710	O
+qq̄gn	710	715	B-Material
+)	715	716	O
+may	717	720	O
+be	721	723	O
+a	724	725	O
+better	726	732	O
+place	733	738	O
+to	739	741	O
+search	742	748	O
+for	749	752	O
+evidence	753	761	O
+of	762	764	O
+resonances	765	775	B-Task
+outside	776	783	I-Task
+the	784	787	I-Task
+constituent	788	799	I-Task
+quark	800	805	I-Task
+model	806	811	I-Task
+,	811	812	O
+especially	813	823	O
+since	824	829	O
+the	830	833	O
+lightest	834	842	O
+of	843	845	O
+theses	846	852	O
+states	853	859	O
+are	860	863	O
+predicted	864	873	O
+to	874	876	O
+have	877	881	O
+exotic	882	888	O
+quantum	889	896	O
+numbers	897	904	O
+of	905	907	O
+spin	908	912	O
+,	912	913	O
+parity	914	920	O
+,	920	921	O
+and	922	925	O
+charge	926	932	O
+conjugation	933	944	O
+,	944	945	O
+JPC	946	949	B-Process
+,	949	950	O
+that	951	955	O
+is	956	958	O
+,	958	959	O
+combinations	960	972	O
+that	973	977	O
+are	978	981	O
+unattainable	982	994	O
+by	995	997	O
+regular	998	1005	O
+qq̄-mesons	1006	1016	B-Material
+.	1016	1017	O
 
 
 -DOCSTART- (S0370269304008305)
 
-Correlation	NN	O	B-Task
-of	NN	O	I-Task
-charm	NN	O	I-Task
--	NN	O	I-Task
-quark	NN	O	I-Task
-–	NN	O	I-Task
-charm	NN	O	I-Task
--	NN	O	I-Task
-antiquark	NN	O	I-Task
-in	NN	O	I-Task
-γp	NN	O	I-Task
-scattering	NN	O	I-Task
-are	NN	O	O
-calculated	NN	O	O
-in	NN	O	O
-the	NN	O	O
-kt	NN	O	B-Process
--	NN	O	I-Process
-factorization	NN	O	I-Process
-approach	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-apply	NN	O	O
-different	NN	O	O
-unintegrated	NN	O	B-Process
-gluon	NN	O	I-Process
-distributions	NN	O	I-Process
-(	NN	O	O
-uGDF	NN	O	B-Process
-)	NN	O	O
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-of	NN	O	O
-our	NN	O	O
-calculations	NN	O	O
-are	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-very	NN	O	O
-recent	NN	O	O
-experimental	NN	O	O
-results	NN	O	O
-from	NN	O	O
-the	NN	O	O
-FOCUS	NN	O	O
-Collaboration	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-CCFM	NN	O	B-Material
-uGDF	NN	O	I-Material
-developed	NN	O	O
-recently	NN	O	O
-by	NN	O	O
-Kwieciński	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-gives	NN	O	O
-a	NN	O	O
-good	NN	O	O
-description	NN	O	O
-of	NN	O	O
-the	NN	O	O
-data	NN	O	O
-.	NN	O	O
-
-New	NN	O	O
-observables	NN	O	O
-are	NN	O	O
-suggested	NN	O	O
-for	NN	O	O
-future	NN	O	O
-studies	NN	O	O
-.	NN	O	O
-
-Predictions	NN	O	O
-and	NN	O	O
-perspectives	NN	O	O
-for	NN	O	O
-the	NN	O	O
-HERA	NN	O	B-Task
-energies	NN	O	I-Task
-are	NN	O	O
-presented	NN	O	O
-.	NN	O	O
+Correlation	0	11	B-Task
+of	12	14	I-Task
+charm	15	20	I-Task
+-	20	21	I-Task
+quark	21	26	I-Task
+–	26	27	I-Task
+charm	27	32	I-Task
+-	32	33	I-Task
+antiquark	33	42	I-Task
+in	43	45	I-Task
+γp	46	48	I-Task
+scattering	49	59	I-Task
+are	60	63	O
+calculated	64	74	O
+in	75	77	O
+the	78	81	O
+kt	82	84	B-Process
+-	84	85	I-Process
+factorization	85	98	I-Process
+approach	99	107	I-Process
+.	107	108	O
+
+We	109	111	O
+apply	112	117	O
+different	118	127	O
+unintegrated	128	140	B-Process
+gluon	141	146	I-Process
+distributions	147	160	I-Process
+(	161	162	O
+uGDF	162	166	B-Process
+)	166	167	O
+used	168	172	O
+in	173	175	O
+the	176	179	O
+literature	180	190	O
+.	190	191	O
+
+The	192	195	O
+results	196	203	O
+of	204	206	O
+our	207	210	O
+calculations	211	223	O
+are	224	227	O
+compared	228	236	O
+with	237	241	O
+very	242	246	O
+recent	247	253	O
+experimental	254	266	O
+results	267	274	O
+from	275	279	O
+the	280	283	O
+FOCUS	284	289	O
+Collaboration	290	303	O
+.	303	304	O
+
+The	305	308	O
+CCFM	309	313	B-Material
+uGDF	314	318	I-Material
+developed	319	328	O
+recently	329	337	O
+by	338	340	O
+Kwieciński	341	351	O
+et	352	354	O
+al	355	357	O
+.	357	358	O
+
+gives	359	364	O
+a	365	366	O
+good	367	371	O
+description	372	383	O
+of	384	386	O
+the	387	390	O
+data	391	395	O
+.	395	396	O
+
+New	397	400	O
+observables	401	412	O
+are	413	416	O
+suggested	417	426	O
+for	427	430	O
+future	431	437	O
+studies	438	445	O
+.	445	446	O
+
+Predictions	447	458	O
+and	459	462	O
+perspectives	463	475	O
+for	476	479	O
+the	480	483	O
+HERA	484	488	B-Task
+energies	489	497	I-Task
+are	498	501	O
+presented	502	511	O
+.	511	512	O
 
 
 -DOCSTART- (S0370269304008706)
 
-The	NN	O	O
-agreement	NN	O	B-Process
-between	NN	O	I-Process
-the	NN	O	I-Process
-new	NN	O	I-Process
-data	NN	O	I-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-calculations	NN	O	I-Process
-with	NN	O	I-Process
-the	NN	O	I-Process
-relativistic	NN	O	I-Process
-deuteron	NN	O	I-Process
-wave	NN	O	I-Process
-function	NN	O	I-Process
-should	NN	O	O
-not	NN	O	O
-be	NN	O	O
-considered	NN	O	O
-as	NN	O	O
-accidental	NN	O	O
-one	NN	O	O
-;	NN	O	O
-in	NN	O	O
-this	NN	O	O
-connection	NN	O	O
-other	NN	O	O
-results	NN	O	O
-should	NN	O	O
-be	NN	O	O
-mentioned	NN	O	O
-.	NN	O	O
-
-Previously	NN	O	O
-it	NN	O	O
-was	NN	O	O
-shown	NN	O	O
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-that	NN	O	O
-calculations	NN	O	B-Process
-within	NN	O	I-Process
-the	NN	O	I-Process
-framework	NN	O	I-Process
-of	NN	O	I-Process
-light	NN	O	I-Process
--	NN	O	I-Process
-front	NN	O	I-Process
-dynamics	NN	O	I-Process
-with	NN	O	I-Process
-Karmanov	NN	O	I-Process
-'s	NN	O	I-Process
-deuteron	NN	O	I-Process
-wave	NN	O	I-Process
-function	NN	O	I-Process
-are	NN	O	O
-in	NN	O	O
-reasonably	NN	O	O
-good	NN	O	O
-agreement	NN	O	O
-with	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-data	NN	O	O
-on	NN	O	O
-the	NN	O	O
-T20	NN	O	B-Process
-parameter	NN	O	I-Process
-of	NN	O	I-Process
-deuteron	NN	O	I-Process
-breakup	NN	O	I-Process
-on	NN	O	I-Process
-H	NN	O	I-Process
-and	NN	O	I-Process
-C	NN	O	I-Process
-targets	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-emission	NN	O	B-Process
-of	NN	O	I-Process
-protons	NN	O	I-Process
-at	NN	O	I-Process
-0	NN	O	I-Process
-°	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-k	NN	O	I-Process
-region	NN	O	I-Process
-from	NN	O	I-Process
-0.4	NN	O	I-Process
-to	NN	O	I-Process
-0.8	NN	O	I-Process
-GeV	NN	O	I-Process
-/	NN	O	I-Process
-c	NN	O	I-Process
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-within	NN	O	O
-the	NN	O	O
-same	NN	O	O
-approach	NN	O	O
-a	NN	O	O
-qualitative	NN	O	B-Task
-description	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-momentum	NN	O	I-Task
-behaviour	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-Ayy	NN	O	I-Task
-parameter	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-9Be(d	NN	O	I-Task
-,	NN	O	I-Task
-p)X	NN	O	I-Task
-reaction	NN	O	I-Task
-at	NN	O	O
-a	NN	O	O
-deuteron	NN	O	B-Process
-momentum	NN	O	I-Process
-of	NN	O	O
-4.5	NN	O	O
-GeV	NN	O	O
-/	NN	O	O
-c	NN	O	O
-and	NN	O	O
-a	NN	O	O
-detected	NN	O	O
-proton	NN	O	O
-angle	NN	O	O
-of	NN	O	O
-80	NN	O	O
-mr	NN	O	O
-and	NN	O	O
-a	NN	O	O
-rather	NN	O	O
-good	NN	O	O
-description	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Ayy	NN	O	B-Material
-data	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-12C(d	NN	O	B-Process
-,	NN	O	I-Process
-p)X	NN	O	I-Process
-reaction	NN	O	I-Process
-at	NN	O	O
-9	NN	O	O
-GeV	NN	O	O
-/	NN	O	O
-
-c	NN	O	O
-and	NN	O	O
-85	NN	O	O
-mr	NN	O	O
-were	NN	O	O
-obtained	NN	O	O
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+agreement	4	13	B-Process
+between	14	21	I-Process
+the	22	25	I-Process
+new	26	29	I-Process
+data	30	34	I-Process
+and	35	38	I-Process
+the	39	42	I-Process
+calculations	43	55	I-Process
+with	56	60	I-Process
+the	61	64	I-Process
+relativistic	65	77	I-Process
+deuteron	78	86	I-Process
+wave	87	91	I-Process
+function	92	100	I-Process
+should	101	107	O
+not	108	111	O
+be	112	114	O
+considered	115	125	O
+as	126	128	O
+accidental	129	139	O
+one	140	143	O
+;	143	144	O
+in	145	147	O
+this	148	152	O
+connection	153	163	O
+other	164	169	O
+results	170	177	O
+should	178	184	O
+be	185	187	O
+mentioned	188	197	O
+.	197	198	O
+
+Previously	199	209	O
+it	210	212	O
+was	213	216	O
+shown	217	222	O
+[	223	224	O
+15	224	226	O
+]	226	227	O
+that	228	232	O
+calculations	233	245	B-Process
+within	246	252	I-Process
+the	253	256	I-Process
+framework	257	266	I-Process
+of	267	269	I-Process
+light	270	275	I-Process
+-	275	276	I-Process
+front	276	281	I-Process
+dynamics	282	290	I-Process
+with	291	295	I-Process
+Karmanov	296	304	I-Process
+'s	304	306	I-Process
+deuteron	307	315	I-Process
+wave	316	320	I-Process
+function	321	329	I-Process
+are	330	333	O
+in	334	336	O
+reasonably	337	347	O
+good	348	352	O
+agreement	353	362	O
+with	363	367	O
+the	368	371	O
+experimental	372	384	O
+data	385	389	O
+on	390	392	O
+the	393	396	O
+T20	397	400	B-Process
+parameter	401	410	I-Process
+of	411	413	I-Process
+deuteron	414	422	I-Process
+breakup	423	430	I-Process
+on	431	433	I-Process
+H	434	435	I-Process
+and	436	439	I-Process
+C	440	441	I-Process
+targets	442	449	I-Process
+with	450	454	O
+the	455	458	O
+emission	459	467	B-Process
+of	468	470	I-Process
+protons	471	478	I-Process
+at	479	481	I-Process
+0	482	483	I-Process
+°	483	484	I-Process
+in	485	487	I-Process
+the	488	491	I-Process
+k	492	493	I-Process
+region	494	500	I-Process
+from	501	505	I-Process
+0.4	506	509	I-Process
+to	510	512	I-Process
+0.8	513	516	I-Process
+GeV	517	520	I-Process
+/	520	521	I-Process
+c	521	522	I-Process
+.	522	523	O
+
+Furthermore	524	535	O
+,	535	536	O
+within	537	543	O
+the	544	547	O
+same	548	552	O
+approach	553	561	O
+a	562	563	O
+qualitative	564	575	B-Task
+description	576	587	I-Task
+of	588	590	I-Task
+the	591	594	I-Task
+momentum	595	603	I-Task
+behaviour	604	613	I-Task
+of	614	616	I-Task
+the	617	620	I-Task
+Ayy	621	624	I-Task
+parameter	625	634	I-Task
+of	635	637	I-Task
+the	638	641	I-Task
+9Be(d	642	647	I-Task
+,	647	648	I-Task
+p)X	648	651	I-Task
+reaction	652	660	I-Task
+at	661	663	O
+a	664	665	O
+deuteron	666	674	B-Process
+momentum	675	683	I-Process
+of	684	686	O
+4.5	687	690	O
+GeV	691	694	O
+/	694	695	O
+c	695	696	O
+and	697	700	O
+a	701	702	O
+detected	703	711	O
+proton	712	718	O
+angle	719	724	O
+of	725	727	O
+80	728	730	O
+mr	731	733	O
+and	734	737	O
+a	738	739	O
+rather	740	746	O
+good	747	751	O
+description	752	763	O
+of	764	766	O
+the	767	770	O
+Ayy	771	774	B-Material
+data	775	779	I-Material
+for	780	783	O
+the	784	787	O
+12C(d	788	793	B-Process
+,	793	794	I-Process
+p)X	794	797	I-Process
+reaction	798	806	I-Process
+at	807	809	O
+9	810	811	O
+GeV	812	815	O
+/	815	816	O
+
+c	816	817	O
+and	818	821	O
+85	822	824	O
+mr	825	827	O
+were	828	832	O
+obtained	833	841	O
+[	842	843	O
+16	843	845	O
+]	845	846	O
+.	846	847	O
 
 
 -DOCSTART- (S0370269304008731)
 
-A	NN	O	O
-scenario	NN	O	O
-is	NN	O	O
-proposed	NN	O	O
-for	NN	O	O
-bi	NN	O	B-Task
--	NN	O	I-Task
-large	NN	O	I-Task
-lepton	NN	O	I-Task
-mixing	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-framework	NN	O	O
-of	NN	O	O
-nearly	NN	O	O
-threefold	NN	O	O
-degenerate	NN	O	B-Material
-Majorana	NN	O	I-Material
-neutrinos	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-our	NN	O	O
-proposal	NN	O	O
-,	NN	O	O
-we	NN	O	O
-impose	NN	O	O
-Z3	NN	O	O
-symmetry	NN	O	O
-in	NN	O	O
-the	NN	O	O
-neutrino	NN	O	B-Material
-sector	NN	O	I-Material
-at	NN	O	O
-a	NN	O	O
-high	NN	O	O
-energy	NN	O	O
-scale	NN	O	O
-to	NN	O	O
-account	NN	O	O
-for	NN	O	O
-the	NN	O	O
-threefold	NN	O	O
-degenerate	NN	O	B-Material
-neutrinos	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-maximal	NN	O	O
-mixing	NN	O	O
-between	NN	O	O
-νμ	NN	O	O
-and	NN	O	O
-ντ.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-obtain	NN	O	O
-the	NN	O	O
-atmospheric	NN	O	B-Task
-neutrino	NN	O	I-Task
-mass	NN	O	I-Task
-splitting	NN	O	I-Task
-while	NN	O	I-Task
-keeping	NN	O	I-Task
-the	NN	O	I-Task
-maximal	NN	O	I-Task
-mixing	NN	O	I-Task
-between	NN	O	I-Task
-νμ	NN	O	I-Task
-and	NN	O	I-Task
-ντ	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-introduce	NN	O	B-Process
-a	NN	O	I-Process
-small	NN	O	I-Process
-perturbation	NN	O	I-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-neutrino	NN	O	I-Process
-mass	NN	O	I-Process
-matrix	NN	O	I-Process
-without	NN	O	I-Process
-breaking	NN	O	I-Process
-Z3	NN	O	I-Process
-symmetry	NN	O	I-Process
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-the	NN	O	O
-solar	NN	O	B-Process
-neutrino	NN	O	I-Process
-mixing	NN	O	I-Process
-arises	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-diagonal	NN	O	I-Material
-charged	NN	O	I-Material
-lepton	NN	O	I-Material
-mass	NN	O	I-Material
-matrix	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-desirable	NN	O	O
-large	NN	O	B-Task
-mixing	NN	O	I-Task
-and	NN	O	I-Task
-mass	NN	O	I-Task
-splitting	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-solar	NN	O	I-Task
-neutrino	NN	O	I-Task
-oscillation	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-radiative	NN	O	B-Process
-corrections	NN	O	I-Process
-.	NN	O	O
+A	0	1	O
+scenario	2	10	O
+is	11	13	O
+proposed	14	22	O
+for	23	26	O
+bi	27	29	B-Task
+-	29	30	I-Task
+large	30	35	I-Task
+lepton	36	42	I-Task
+mixing	43	49	I-Task
+in	50	52	O
+the	53	56	O
+framework	57	66	O
+of	67	69	O
+nearly	70	76	O
+threefold	77	86	O
+degenerate	87	97	B-Material
+Majorana	98	106	I-Material
+neutrinos	107	116	I-Material
+.	116	117	O
+
+In	118	120	O
+our	121	124	O
+proposal	125	133	O
+,	133	134	O
+we	135	137	O
+impose	138	144	O
+Z3	145	147	O
+symmetry	148	156	O
+in	157	159	O
+the	160	163	O
+neutrino	164	172	B-Material
+sector	173	179	I-Material
+at	180	182	O
+a	183	184	O
+high	185	189	O
+energy	190	196	O
+scale	197	202	O
+to	203	205	O
+account	206	213	O
+for	214	217	O
+the	218	221	O
+threefold	222	231	O
+degenerate	232	242	B-Material
+neutrinos	243	252	I-Material
+and	253	256	O
+the	257	260	O
+maximal	261	268	O
+mixing	269	275	O
+between	276	283	O
+νμ	284	286	O
+and	287	290	O
+ντ.	291	294	O
+
+In	295	297	O
+order	298	303	O
+to	304	306	O
+obtain	307	313	O
+the	314	317	O
+atmospheric	318	329	B-Task
+neutrino	330	338	I-Task
+mass	339	343	I-Task
+splitting	344	353	I-Task
+while	354	359	I-Task
+keeping	360	367	I-Task
+the	368	371	I-Task
+maximal	372	379	I-Task
+mixing	380	386	I-Task
+between	387	394	I-Task
+νμ	395	397	I-Task
+and	398	401	I-Task
+ντ	402	404	I-Task
+,	404	405	O
+we	406	408	O
+introduce	409	418	B-Process
+a	419	420	I-Process
+small	421	426	I-Process
+perturbation	427	439	I-Process
+to	440	442	I-Process
+the	443	446	I-Process
+neutrino	447	455	I-Process
+mass	456	460	I-Process
+matrix	461	467	I-Process
+without	468	475	I-Process
+breaking	476	484	I-Process
+Z3	485	487	I-Process
+symmetry	488	496	I-Process
+.	496	497	O
+
+On	498	500	O
+the	501	504	O
+other	505	510	O
+hand	511	515	O
+,	515	516	O
+the	517	520	O
+solar	521	526	B-Process
+neutrino	527	535	I-Process
+mixing	536	542	I-Process
+arises	543	549	O
+due	550	553	O
+to	554	556	O
+the	557	560	O
+non	561	564	B-Material
+-	564	565	I-Material
+diagonal	565	573	I-Material
+charged	574	581	I-Material
+lepton	582	588	I-Material
+mass	589	593	I-Material
+matrix	594	600	I-Material
+,	600	601	O
+and	602	605	O
+the	606	609	O
+desirable	610	619	O
+large	620	625	B-Task
+mixing	626	632	I-Task
+and	633	636	I-Task
+mass	637	641	I-Task
+splitting	642	651	I-Task
+for	652	655	I-Task
+the	656	659	I-Task
+solar	660	665	I-Task
+neutrino	666	674	I-Task
+oscillation	675	686	I-Task
+can	687	690	O
+be	691	693	O
+obtained	694	702	O
+by	703	705	O
+radiative	706	715	B-Process
+corrections	716	727	I-Process
+.	727	728	O
 
 
 -DOCSTART- (S0370269304008780)
 
-In	NN	O	O
-the	NN	O	O
-NJL	NN	O	B-Task
-model	NN	O	I-Task
-studied	NN	O	I-Task
-here	NN	O	O
-,	NN	O	O
-we	NN	O	O
-find	NN	O	O
-no	NN	O	O
-stable	NN	O	B-Material
-stars	NN	O	I-Material
-with	NN	O	O
-either	NN	O	O
-CFL	NN	O	B-Material
-or	NN	O	I-Material
-normal	NN	O	I-Material
-quark	NN	O	I-Material
-matter	NN	O	I-Material
-cores	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-the	NN	O	O
-opposite	NN	O	O
-of	NN	O	O
-the	NN	O	O
-prediction	NN	O	O
-of	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-where	NN	O	O
-it	NN	O	O
-was	NN	O	O
-argued	NN	O	O
-that	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-2SC	NN	O	O
-phase	NN	O	O
-in	NN	O	O
-compact	NN	O	B-Material
-stars	NN	O	I-Material
-.	NN	O	O
-
-Let	NN	O	O
-us	NN	O	O
-be	NN	O	O
-more	NN	O	O
-precise	NN	O	O
-:	NN	O	O
-performing	NN	O	O
-a	NN	O	O
-Taylor	NN	O	B-Process
-expansion	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-strange	NN	O	B-Material
-quark	NN	O	I-Material
-mass	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-authors	NN	O	O
-of	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-found	NN	O	O
-that	NN	O	O
-in	NN	O	O
-beta	NN	O	B-Material
--	NN	O	I-Material
-equilibrated	NN	O	I-Material
-electrically	NN	O	I-Material
-and	NN	O	O
-color	NN	O	B-Material
-neutral	NN	O	I-Material
-quark	NN	O	I-Material
-matter	NN	O	I-Material
-the	NN	O	O
-2SC	NN	O	B-Process
-phase	NN	O	I-Process
-is	NN	O	O
-always	NN	O	O
-less	NN	O	O
-favored	NN	O	O
-than	NN	O	O
-the	NN	O	O
-CFL	NN	O	B-Process
-phase	NN	O	I-Process
-or	NN	O	O
-normal	NN	O	B-Material
-quark	NN	O	I-Material
-matter	NN	O	I-Material
-.	NN	O	O
-
-From	NN	O	O
-this	NN	O	O
-observation	NN	O	O
-they	NN	O	O
-concluded	NN	O	O
-that	NN	O	O
-the	NN	O	O
-2SC	NN	O	B-Process
-phase	NN	O	I-Process
-is	NN	O	O
-absent	NN	O	O
-in	NN	O	O
-compact	NN	O	B-Material
-stars	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-contrast	NN	O	O
-to	NN	O	O
-this	NN	O	O
-result	NN	O	O
-,	NN	O	O
-it	NN	O	O
-was	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-in	NN	O	O
-the	NN	O	O
-framework	NN	O	O
-of	NN	O	O
-the	NN	O	O
-NJL	NN	O	B-Process
-model	NN	O	I-Process
-that	NN	O	O
-neutral	NN	O	B-Material
-2SC	NN	O	I-Material
-matter	NN	O	I-Material
-could	NN	O	O
-be	NN	O	O
-the	NN	O	O
-most	NN	O	O
-favored	NN	O	O
-quark	NN	O	B-Process
-phase	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-certain	NN	O	O
-regime	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-authors	NN	O	O
-argued	NN	O	O
-that	NN	O	O
-this	NN	O	O
-interval	NN	O	O
-might	NN	O	O
-disappear	NN	O	O
-if	NN	O	O
-the	NN	O	O
-hadronic	NN	O	B-Process
-phase	NN	O	I-Process
-is	NN	O	O
-included	NN	O	O
-more	NN	O	O
-properly	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-indeed	NN	O	O
-what	NN	O	O
-we	NN	O	O
-found	NN	O	O
-for	NN	O	O
-parameter	NN	O	O
-set	NN	O	O
-RKH	NN	O	O
-,	NN	O	O
-while	NN	O	O
-for	NN	O	O
-parameter	NN	O	O
-set	NN	O	O
-HK	NN	O	O
-the	NN	O	O
-2SC	NN	O	O
-phase	NN	O	O
-survives	NN	O	O
-only	NN	O	O
-in	NN	O	O
-a	NN	O	O
-tiny	NN	O	O
-window	NN	O	O
-.	NN	O	O
-
-Nevertheless	NN	O	O
-,	NN	O	O
-if	NN	O	O
-Nature	NN	O	O
-chooses	NN	O	O
-to	NN	O	O
-be	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-this	NN	O	O
-equation	NN	O	O
-of	NN	O	O
-state	NN	O	O
-,	NN	O	O
-it	NN	O	O
-will	NN	O	O
-be	NN	O	O
-this	NN	O	O
-tiny	NN	O	O
-window	NN	O	O
-which	NN	O	O
-gives	NN	O	O
-rise	NN	O	O
-to	NN	O	O
-hybrid	NN	O	B-Material
-stars	NN	O	I-Material
-,	NN	O	O
-whereas	NN	O	O
-the	NN	O	O
-CFL	NN	O	B-Process
-phase	NN	O	I-Process
-would	NN	O	O
-be	NN	O	O
-never	NN	O	O
-present	NN	O	O
-in	NN	O	O
-compact	NN	O	B-Material
-stars	NN	O	I-Material
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+NJL	7	10	B-Task
+model	11	16	I-Task
+studied	17	24	I-Task
+here	25	29	O
+,	29	30	O
+we	31	33	O
+find	34	38	O
+no	39	41	O
+stable	42	48	B-Material
+stars	49	54	I-Material
+with	55	59	O
+either	60	66	O
+CFL	67	70	B-Material
+or	71	73	I-Material
+normal	74	80	I-Material
+quark	81	86	I-Material
+matter	87	93	I-Material
+cores	94	99	I-Material
+.	99	100	O
+
+This	101	105	O
+is	106	108	O
+the	109	112	O
+opposite	113	121	O
+of	122	124	O
+the	125	128	O
+prediction	129	139	O
+of	140	142	O
+Ref	143	146	O
+.	146	147	O
+
+[	148	149	O
+15	149	151	O
+]	151	152	O
+where	153	158	O
+it	159	161	O
+was	162	165	O
+argued	166	172	O
+that	173	177	O
+there	178	183	O
+is	184	186	O
+no	187	189	O
+2SC	190	193	O
+phase	194	199	O
+in	200	202	O
+compact	203	210	B-Material
+stars	211	216	I-Material
+.	216	217	O
+
+Let	218	221	O
+us	222	224	O
+be	225	227	O
+more	228	232	O
+precise	233	240	O
+:	240	241	O
+performing	242	252	O
+a	253	254	O
+Taylor	255	261	B-Process
+expansion	262	271	I-Process
+in	272	274	O
+the	275	278	O
+strange	279	286	B-Material
+quark	287	292	I-Material
+mass	293	297	I-Material
+,	297	298	O
+the	299	302	O
+authors	303	310	O
+of	311	313	O
+Ref	314	317	O
+.	317	318	O
+
+[	319	320	O
+15	320	322	O
+]	322	323	O
+found	324	329	O
+that	330	334	O
+in	335	337	O
+beta	338	342	B-Material
+-	342	343	I-Material
+equilibrated	343	355	I-Material
+electrically	356	368	I-Material
+and	369	372	O
+color	373	378	B-Material
+neutral	379	386	I-Material
+quark	387	392	I-Material
+matter	393	399	I-Material
+the	400	403	O
+2SC	404	407	B-Process
+phase	408	413	I-Process
+is	414	416	O
+always	417	423	O
+less	424	428	O
+favored	429	436	O
+than	437	441	O
+the	442	445	O
+CFL	446	449	B-Process
+phase	450	455	I-Process
+or	456	458	O
+normal	459	465	B-Material
+quark	466	471	I-Material
+matter	472	478	I-Material
+.	478	479	O
+
+From	480	484	O
+this	485	489	O
+observation	490	501	O
+they	502	506	O
+concluded	507	516	O
+that	517	521	O
+the	522	525	O
+2SC	526	529	B-Process
+phase	530	535	I-Process
+is	536	538	O
+absent	539	545	O
+in	546	548	O
+compact	549	556	B-Material
+stars	557	562	I-Material
+.	562	563	O
+
+In	564	566	O
+contrast	567	575	O
+to	576	578	O
+this	579	583	O
+result	584	590	O
+,	590	591	O
+it	592	594	O
+was	595	598	O
+shown	599	604	O
+in	605	607	O
+Ref	608	611	O
+.	611	612	O
+
+[	613	614	O
+16	614	616	O
+]	616	617	O
+in	618	620	O
+the	621	624	O
+framework	625	634	O
+of	635	637	O
+the	638	641	O
+NJL	642	645	B-Process
+model	646	651	I-Process
+that	652	656	O
+neutral	657	664	B-Material
+2SC	665	668	I-Material
+matter	669	675	I-Material
+could	676	681	O
+be	682	684	O
+the	685	688	O
+most	689	693	O
+favored	694	701	O
+quark	702	707	B-Process
+phase	708	713	I-Process
+in	714	716	O
+a	717	718	O
+certain	719	726	O
+regime	727	733	O
+.	733	734	O
+
+However	735	742	O
+,	742	743	O
+the	744	747	O
+authors	748	755	O
+argued	756	762	O
+that	763	767	O
+this	768	772	O
+interval	773	781	O
+might	782	787	O
+disappear	788	797	O
+if	798	800	O
+the	801	804	O
+hadronic	805	813	B-Process
+phase	814	819	I-Process
+is	820	822	O
+included	823	831	O
+more	832	836	O
+properly	837	845	O
+.	845	846	O
+
+This	847	851	O
+is	852	854	O
+indeed	855	861	O
+what	862	866	O
+we	867	869	O
+found	870	875	O
+for	876	879	O
+parameter	880	889	O
+set	890	893	O
+RKH	894	897	O
+,	897	898	O
+while	899	904	O
+for	905	908	O
+parameter	909	918	O
+set	919	922	O
+HK	923	925	O
+the	926	929	O
+2SC	930	933	O
+phase	934	939	O
+survives	940	948	O
+only	949	953	O
+in	954	956	O
+a	957	958	O
+tiny	959	963	O
+window	964	970	O
+.	970	971	O
+
+Nevertheless	972	984	O
+,	984	985	O
+if	986	988	O
+Nature	989	995	O
+chooses	996	1003	O
+to	1004	1006	O
+be	1007	1009	O
+similar	1010	1017	O
+to	1018	1020	O
+this	1021	1025	O
+equation	1026	1034	O
+of	1035	1037	O
+state	1038	1043	O
+,	1043	1044	O
+it	1045	1047	O
+will	1048	1052	O
+be	1053	1055	O
+this	1056	1060	O
+tiny	1061	1065	O
+window	1066	1072	O
+which	1073	1078	O
+gives	1079	1084	O
+rise	1085	1089	O
+to	1090	1092	O
+hybrid	1093	1099	B-Material
+stars	1100	1105	I-Material
+,	1105	1106	O
+whereas	1107	1114	O
+the	1115	1118	O
+CFL	1119	1122	B-Process
+phase	1123	1128	I-Process
+would	1129	1134	O
+be	1135	1137	O
+never	1138	1143	O
+present	1144	1151	O
+in	1152	1154	O
+compact	1155	1162	B-Material
+stars	1163	1168	I-Material
+.	1168	1169	O
 
 
 -DOCSTART- (S0370269304008792)
 
-We	NN	O	O
-investigate	NN	O	B-Task
-the	NN	O	I-Task
-density	NN	O	I-Task
-behavior	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-symmetry	NN	O	I-Task
-energy	NN	O	I-Task
-with	NN	O	I-Task
-respect	NN	O	I-Task
-to	NN	O	I-Task
-isospin	NN	O	I-Task
-equilibration	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-combined	NN	O	B-Process
-systems	NN	O	I-Process
-Ru(Zr)+Zr(Ru	NN	O	B-Process
-)	NN	O	I-Process
-at	NN	O	O
-relativistic	NN	O	B-Process
-energies	NN	O	I-Process
-of	NN	O	O
-0.4	NN	O	O
-and	NN	O	O
-1.528A	NN	O	O
-GeV.	NN	O	O
-
-The	NN	O	O
-study	NN	O	B-Task
-is	NN	O	O
-performed	NN	O	O
-within	NN	O	O
-a	NN	O	O
-relativistic	NN	O	B-Process
-framework	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-contribution	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-iso	NN	O	I-Process
--	NN	O	I-Process
-vector	NN	O	I-Process
-,	NN	O	O
-scalar	NN	O	B-Task
-δ	NN	O	I-Task
-field	NN	O	I-Task
-to	NN	O	I-Task
-the	NN	O	I-Task
-symmetry	NN	O	I-Task
-energy	NN	O	I-Task
-and	NN	O	I-Task
-the	NN	O	I-Task
-isospin	NN	O	I-Task
-dynamics	NN	O	I-Task
-is	NN	O	I-Task
-particularly	NN	O	I-Task
-explored	NN	O	I-Task
-.	NN	O	O
-
-We	NN	O	O
-find	NN	O	O
-that	NN	O	O
-the	NN	O	O
-isospin	NN	O	B-Task
-mixing	NN	O	I-Task
-depends	NN	O	O
-on	NN	O	O
-the	NN	O	O
-symmetry	NN	O	O
-energy	NN	O	O
-and	NN	O	O
-a	NN	O	O
-stiffer	NN	O	O
-behavior	NN	O	O
-leads	NN	O	O
-to	NN	O	O
-more	NN	O	O
-transparency	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-are	NN	O	O
-also	NN	O	O
-nicely	NN	O	O
-sensitive	NN	O	O
-to	NN	O	O
-the	NN	O	O
-“	NN	O	O
-fine	NN	O	O
-structure	NN	O	O
-”	NN	O	O
-of	NN	O	O
-the	NN	O	O
-symmetry	NN	O	O
-energy	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-to	NN	O	O
-the	NN	O	O
-covariant	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-the	NN	O	O
-isovector	NN	O	B-Material
-meson	NN	O	I-Material
-fields	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-isospin	NN	O	O
-tracing	NN	O	O
-appears	NN	O	O
-much	NN	O	O
-less	NN	O	O
-dependent	NN	O	O
-on	NN	O	O
-the	NN	O	O
-in	NN	O	O
-medium	NN	O	O
-neutron	NN	O	O
-–	NN	O	O
-
-proton	NN	O	O
-cross	NN	O	O
-sections	NN	O	O
-(	NN	O	O
-σnp	NN	O	B-Process
-)	NN	O	O
-and	NN	O	O
-this	NN	O	O
-makes	NN	O	O
-such	NN	O	O
-observable	NN	O	O
-very	NN	O	O
-peculiar	NN	O	O
-for	NN	O	O
-the	NN	O	O
-study	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-isovector	NN	O	I-Task
-part	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-nuclear	NN	O	I-Task
-equation	NN	O	I-Task
-of	NN	O	I-Task
-state	NN	O	I-Task
-.	NN	O	O
-
-Within	NN	O	O
-such	NN	O	O
-a	NN	O	O
-framework	NN	O	O
-,	NN	O	O
-comparisons	NN	O	B-Process
-with	NN	O	I-Process
-experiments	NN	O	I-Process
-support	NN	O	O
-the	NN	O	O
-introduction	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-δ	NN	O	I-Process
-meson	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-description	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-iso	NN	O	I-Process
--	NN	O	I-Process
-vector	NN	O	I-Process
-equation	NN	O	I-Process
-of	NN	O	I-Process
-state	NN	O	I-Process
-.	NN	O	O
+We	0	2	O
+investigate	3	14	B-Task
+the	15	18	I-Task
+density	19	26	I-Task
+behavior	27	35	I-Task
+of	36	38	I-Task
+the	39	42	I-Task
+symmetry	43	51	I-Task
+energy	52	58	I-Task
+with	59	63	I-Task
+respect	64	71	I-Task
+to	72	74	I-Task
+isospin	75	82	I-Task
+equilibration	83	96	I-Task
+in	97	99	O
+the	100	103	O
+combined	104	112	B-Process
+systems	113	120	I-Process
+Ru(Zr)+Zr(Ru	121	133	B-Process
+)	133	134	I-Process
+at	135	137	O
+relativistic	138	150	B-Process
+energies	151	159	I-Process
+of	160	162	O
+0.4	163	166	O
+and	167	170	O
+1.528A	171	177	O
+GeV.	178	182	O
+
+The	183	186	O
+study	187	192	B-Task
+is	193	195	O
+performed	196	205	O
+within	206	212	O
+a	213	214	O
+relativistic	215	227	B-Process
+framework	228	237	I-Process
+and	238	241	O
+the	242	245	O
+contribution	246	258	B-Process
+of	259	261	I-Process
+the	262	265	I-Process
+iso	266	269	I-Process
+-	269	270	I-Process
+vector	270	276	I-Process
+,	276	277	O
+scalar	278	284	B-Task
+δ	285	286	I-Task
+field	287	292	I-Task
+to	293	295	I-Task
+the	296	299	I-Task
+symmetry	300	308	I-Task
+energy	309	315	I-Task
+and	316	319	I-Task
+the	320	323	I-Task
+isospin	324	331	I-Task
+dynamics	332	340	I-Task
+is	341	343	I-Task
+particularly	344	356	I-Task
+explored	357	365	I-Task
+.	365	366	O
+
+We	367	369	O
+find	370	374	O
+that	375	379	O
+the	380	383	O
+isospin	384	391	B-Task
+mixing	392	398	I-Task
+depends	399	406	O
+on	407	409	O
+the	410	413	O
+symmetry	414	422	O
+energy	423	429	O
+and	430	433	O
+a	434	435	O
+stiffer	436	443	O
+behavior	444	452	O
+leads	453	458	O
+to	459	461	O
+more	462	466	O
+transparency	467	479	O
+.	479	480	O
+
+The	481	484	O
+results	485	492	O
+are	493	496	O
+also	497	501	O
+nicely	502	508	O
+sensitive	509	518	O
+to	519	521	O
+the	522	525	O
+“	526	527	O
+fine	527	531	O
+structure	532	541	O
+”	541	542	O
+of	543	545	O
+the	546	549	O
+symmetry	550	558	O
+energy	559	565	O
+,	565	566	O
+i.e.	567	571	O
+,	571	572	O
+to	573	575	O
+the	576	579	O
+covariant	580	589	O
+properties	590	600	O
+of	601	603	O
+the	604	607	O
+isovector	608	617	B-Material
+meson	618	623	I-Material
+fields	624	630	I-Material
+.	630	631	O
+
+The	631	634	O
+isospin	635	642	O
+tracing	643	650	O
+appears	651	658	O
+much	659	663	O
+less	664	668	O
+dependent	669	678	O
+on	679	681	O
+the	682	685	O
+in	686	688	O
+medium	689	695	O
+neutron	696	703	O
+–	703	704	O
+
+proton	704	710	O
+cross	711	716	O
+sections	717	725	O
+(	726	727	O
+σnp	727	730	B-Process
+)	730	731	O
+and	732	735	O
+this	736	740	O
+makes	741	746	O
+such	747	751	O
+observable	752	762	O
+very	763	767	O
+peculiar	768	776	O
+for	777	780	O
+the	781	784	O
+study	785	790	B-Task
+of	791	793	I-Task
+the	794	797	I-Task
+isovector	798	807	I-Task
+part	808	812	I-Task
+of	813	815	I-Task
+the	816	819	I-Task
+nuclear	820	827	I-Task
+equation	828	836	I-Task
+of	837	839	I-Task
+state	840	845	I-Task
+.	845	846	O
+
+Within	846	852	O
+such	853	857	O
+a	858	859	O
+framework	860	869	O
+,	869	870	O
+comparisons	871	882	B-Process
+with	883	887	I-Process
+experiments	888	899	I-Process
+support	900	907	O
+the	908	911	O
+introduction	912	924	B-Process
+of	925	927	I-Process
+the	928	931	I-Process
+δ	932	933	I-Process
+meson	934	939	I-Process
+in	940	942	I-Process
+the	943	946	I-Process
+description	947	958	I-Process
+of	959	961	I-Process
+the	962	965	I-Process
+iso	966	969	I-Process
+-	969	970	I-Process
+vector	970	976	I-Process
+equation	977	985	I-Process
+of	986	988	I-Process
+state	989	994	I-Process
+.	994	995	O
 
 
 -DOCSTART- (S0370269304008809)
 
-The	NN	O	O
-most	NN	O	O
-ambitious	NN	O	O
-goal	NN	O	O
-may	NN	O	O
-be	NN	O	O
-stated	NN	O	O
-as	NN	O	O
-the	NN	O	O
-one	NN	O	O
-of	NN	O	O
-detecting	NN	O	B-Task
-the	NN	O	I-Task
-location	NN	O	I-Task
-of	NN	O	I-Task
-,	NN	O	I-Task
-say	NN	O	I-Task
-,	NN	O	I-Task
-one	NN	O	I-Task
-missing	NN	O	I-Task
-level	NN	O	I-Task
-on	NN	O	I-Task
-an	NN	O	I-Task
-otherwise	NN	O	I-Task
-complete	NN	O	I-Task
-sequence	NN	O	I-Task
-.	NN	O	O
-
-Dyson	NN	O	O
-,	NN	O	O
-in	NN	O	O
-a	NN	O	O
-recent	NN	O	O
-review	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-,	NN	O	O
-uses	NN	O	O
-information	NN	O	B-Process
-theory	NN	O	I-Process
-concepts	NN	O	I-Process
-and	NN	O	O
-argues	NN	O	O
-that	NN	O	O
-correlations	NN	O	B-Process
-in	NN	O	I-Process
-a	NN	O	I-Process
-sequence	NN	O	I-Process
-may	NN	O	O
-provide	NN	O	O
-the	NN	O	O
-necessary	NN	O	O
-redundancy	NN	O	O
-from	NN	O	O
-which	NN	O	O
-error	NN	O	B-Task
-correcting	NN	O	I-Task
-codes	NN	O	I-Task
-can	NN	O	I-Task
-be	NN	O	I-Task
-constructed	NN	O	I-Task
-.	NN	O	O
-
-At	NN	O	O
-one	NN	O	O
-extreme	NN	O	O
-where	NN	O	O
-no	NN	O	B-Process
-correlations	NN	O	I-Process
-and	NN	O	I-Process
-therefore	NN	O	I-Process
-no	NN	O	I-Process
-redundancy	NN	O	I-Process
-are	NN	O	I-Process
-present	NN	O	I-Process
-(	NN	O	O
-Poissonian	NN	O	B-Process
-sequence	NN	O	I-Process
-)	NN	O	O
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-possibility	NN	O	O
-of	NN	O	O
-detecting	NN	O	B-Task
-one	NN	O	I-Task
-missing	NN	O	I-Task
-level	NN	O	I-Task
-.	NN	O	O
-
-At	NN	O	O
-the	NN	O	O
-other	NN	O	O
-extreme	NN	O	O
-,	NN	O	O
-a	NN	O	O
-sequence	NN	O	B-Task
-of	NN	O	I-Task
-equally	NN	O	I-Task
-spaced	NN	O	I-Task
-levels	NN	O	I-Task
-(	NN	O	O
-picket	NN	O	B-Task
-fence	NN	O	I-Task
-)	NN	O	O
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-a	NN	O	O
-maximum	NN	O	O
-redundancy	NN	O	O
-and	NN	O	O
-a	NN	O	O
-missed	NN	O	B-Task
-level	NN	O	I-Task
-can	NN	O	I-Task
-be	NN	O	I-Task
-obviously	NN	O	I-Task
-detected	NN	O	I-Task
-as	NN	O	I-Task
-a	NN	O	I-Task
-hole	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-spectrum	NN	O	I-Task
-.	NN	O	O
-
-Eigenvalues	NN	O	O
-of	NN	O	O
-random	NN	O	O
-matrices	NN	O	O
-,	NN	O	O
-which	NN	O	O
-exhibit	NN	O	O
-characteristic	NN	O	O
-correlations	NN	O	O
-,	NN	O	O
-correspond	NN	O	O
-to	NN	O	O
-an	NN	O	O
-intermediate	NN	O	O
-situation	NN	O	O
-between	NN	O	O
-these	NN	O	O
-two	NN	O	O
-extremes	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-attempts	NN	O	O
-to	NN	O	O
-locate	NN	O	B-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-last	NN	O	I-Task
-case	NN	O	I-Task
-a	NN	O	I-Task
-single	NN	O	I-Task
-missed	NN	O	I-Task
-level	NN	O	I-Task
-have	NN	O	O
-remained	NN	O	O
-unsuccessful	NN	O	O
-so	NN	O	O
-far	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-it	NN	O	O
-should	NN	O	O
-be	NN	O	O
-mentioned	NN	O	O
-that	NN	O	O
-for	NN	O	O
-two	NN	O	B-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-chaotic	NN	O	I-Task
-systems	NN	O	I-Task
-where	NN	O	O
-,	NN	O	O
-besides	NN	O	O
-correlations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-order	NN	O	O
-of	NN	O	O
-one	NN	O	O
-mean	NN	O	O
-spacing	NN	O	O
-as	NN	O	O
-described	NN	O	O
-by	NN	O	O
-random	NN	O	O
-matrices	NN	O	O
-,	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-and	NN	O	O
-the	NN	O	O
-role	NN	O	O
-of	NN	O	O
-long	NN	O	O
-range	NN	O	O
-correlations	NN	O	O
-governed	NN	O	O
-by	NN	O	O
-the	NN	O	O
-shortest	NN	O	O
-periodic	NN	O	O
-orbits	NN	O	O
-and	NN	O	O
-reflected	NN	O	O
-in	NN	O	O
-Weyl	NN	O	B-Process
-'s	NN	O	I-Process
-law	NN	O	I-Process
-describing	NN	O	I-Process
-the	NN	O	I-Process
-average	NN	O	I-Process
-spectral	NN	O	I-Process
-density	NN	O	I-Process
-,	NN	O	O
-is	NN	O	O
-well	NN	O	O
-understood	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-then	NN	O	O
-possible	NN	O	O
-to	NN	O	O
-approximately	NN	O	B-Task
-locate	NN	O	I-Task
-,	NN	O	O
-from	NN	O	O
-the	NN	O	O
-study	NN	O	B-Process
-of	NN	O	I-Process
-spectral	NN	O	I-Process
-fluctuations	NN	O	I-Process
-,	NN	O	O
-a	NN	O	B-Task
-single	NN	O	I-Task
-missed	NN	O	I-Task
-level	NN	O	I-Task
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+most	4	8	O
+ambitious	9	18	O
+goal	19	23	O
+may	24	27	O
+be	28	30	O
+stated	31	37	O
+as	38	40	O
+the	41	44	O
+one	45	48	O
+of	49	51	O
+detecting	52	61	B-Task
+the	62	65	I-Task
+location	66	74	I-Task
+of	75	77	I-Task
+,	77	78	I-Task
+say	79	82	I-Task
+,	82	83	I-Task
+one	84	87	I-Task
+missing	88	95	I-Task
+level	96	101	I-Task
+on	102	104	I-Task
+an	105	107	I-Task
+otherwise	108	117	I-Task
+complete	118	126	I-Task
+sequence	127	135	I-Task
+.	135	136	O
+
+Dyson	137	142	O
+,	142	143	O
+in	144	146	O
+a	147	148	O
+recent	149	155	O
+review	156	162	O
+[	163	164	O
+7	164	165	O
+]	165	166	O
+,	166	167	O
+uses	168	172	O
+information	173	184	B-Process
+theory	185	191	I-Process
+concepts	192	200	I-Process
+and	201	204	O
+argues	205	211	O
+that	212	216	O
+correlations	217	229	B-Process
+in	230	232	I-Process
+a	233	234	I-Process
+sequence	235	243	I-Process
+may	244	247	O
+provide	248	255	O
+the	256	259	O
+necessary	260	269	O
+redundancy	270	280	O
+from	281	285	O
+which	286	291	O
+error	292	297	B-Task
+correcting	298	308	I-Task
+codes	309	314	I-Task
+can	315	318	I-Task
+be	319	321	I-Task
+constructed	322	333	I-Task
+.	333	334	O
+
+At	335	337	O
+one	338	341	O
+extreme	342	349	O
+where	350	355	O
+no	356	358	B-Process
+correlations	359	371	I-Process
+and	372	375	I-Process
+therefore	376	385	I-Process
+no	386	388	I-Process
+redundancy	389	399	I-Process
+are	400	403	I-Process
+present	404	411	I-Process
+(	412	413	O
+Poissonian	413	423	B-Process
+sequence	424	432	I-Process
+)	432	433	O
+,	433	434	O
+there	435	440	O
+is	441	443	O
+no	444	446	O
+possibility	447	458	O
+of	459	461	O
+detecting	462	471	B-Task
+one	472	475	I-Task
+missing	476	483	I-Task
+level	484	489	I-Task
+.	489	490	O
+
+At	491	493	O
+the	494	497	O
+other	498	503	O
+extreme	504	511	O
+,	511	512	O
+a	513	514	O
+sequence	515	523	B-Task
+of	524	526	I-Task
+equally	527	534	I-Task
+spaced	535	541	I-Task
+levels	542	548	I-Task
+(	549	550	O
+picket	550	556	B-Task
+fence	557	562	I-Task
+)	562	563	O
+,	563	564	O
+there	565	570	O
+is	571	573	O
+a	574	575	O
+maximum	576	583	O
+redundancy	584	594	O
+and	595	598	O
+a	599	600	O
+missed	601	607	B-Task
+level	608	613	I-Task
+can	614	617	I-Task
+be	618	620	I-Task
+obviously	621	630	I-Task
+detected	631	639	I-Task
+as	640	642	I-Task
+a	643	644	I-Task
+hole	645	649	I-Task
+in	650	652	I-Task
+the	653	656	I-Task
+spectrum	657	665	I-Task
+.	665	666	O
+
+Eigenvalues	667	678	O
+of	679	681	O
+random	682	688	O
+matrices	689	697	O
+,	697	698	O
+which	699	704	O
+exhibit	705	712	O
+characteristic	713	727	O
+correlations	728	740	O
+,	740	741	O
+correspond	742	752	O
+to	753	755	O
+an	756	758	O
+intermediate	759	771	O
+situation	772	781	O
+between	782	789	O
+these	790	795	O
+two	796	799	O
+extremes	800	808	O
+.	808	809	O
+
+The	810	813	O
+attempts	814	822	O
+to	823	825	O
+locate	826	832	B-Task
+in	833	835	I-Task
+the	836	839	I-Task
+last	840	844	I-Task
+case	845	849	I-Task
+a	850	851	I-Task
+single	852	858	I-Task
+missed	859	865	I-Task
+level	866	871	I-Task
+have	872	876	O
+remained	877	885	O
+unsuccessful	886	898	O
+so	899	901	O
+far	902	905	O
+.	905	906	O
+
+However	907	914	O
+,	914	915	O
+it	916	918	O
+should	919	925	O
+be	926	928	O
+mentioned	929	938	O
+that	939	943	O
+for	944	947	O
+two	948	951	B-Task
+-	951	952	I-Task
+dimensional	952	963	I-Task
+chaotic	964	971	I-Task
+systems	972	979	I-Task
+where	980	985	O
+,	985	986	O
+besides	987	994	O
+correlations	995	1007	O
+of	1008	1010	O
+the	1011	1014	O
+order	1015	1020	O
+of	1021	1023	O
+one	1024	1027	O
+mean	1028	1032	O
+spacing	1033	1040	O
+as	1041	1043	O
+described	1044	1053	O
+by	1054	1056	O
+random	1057	1063	O
+matrices	1064	1072	O
+,	1072	1073	O
+the	1074	1077	O
+presence	1078	1086	O
+and	1087	1090	O
+the	1091	1094	O
+role	1095	1099	O
+of	1100	1102	O
+long	1103	1107	O
+range	1108	1113	O
+correlations	1114	1126	O
+governed	1127	1135	O
+by	1136	1138	O
+the	1139	1142	O
+shortest	1143	1151	O
+periodic	1152	1160	O
+orbits	1161	1167	O
+and	1168	1171	O
+reflected	1172	1181	O
+in	1182	1184	O
+Weyl	1185	1189	B-Process
+'s	1189	1191	I-Process
+law	1192	1195	I-Process
+describing	1196	1206	I-Process
+the	1207	1210	I-Process
+average	1211	1218	I-Process
+spectral	1219	1227	I-Process
+density	1228	1235	I-Process
+,	1235	1236	O
+is	1237	1239	O
+well	1240	1244	O
+understood	1245	1255	O
+.	1255	1256	O
+
+It	1257	1259	O
+is	1260	1262	O
+then	1263	1267	O
+possible	1268	1276	O
+to	1277	1279	O
+approximately	1280	1293	B-Task
+locate	1294	1300	I-Task
+,	1300	1301	O
+from	1302	1306	O
+the	1307	1310	O
+study	1311	1316	B-Process
+of	1317	1319	I-Process
+spectral	1320	1328	I-Process
+fluctuations	1329	1341	I-Process
+,	1341	1342	O
+a	1343	1344	B-Task
+single	1345	1351	I-Task
+missed	1352	1358	I-Task
+level	1359	1364	I-Task
+[	1365	1366	O
+8	1366	1367	O
+]	1367	1368	O
+.	1368	1369	O
 
 
 -DOCSTART- (S0370269304008858)
 
-The	NN	O	O
-reason	NN	O	O
-to	NN	O	O
-investigate	NN	O	B-Task
-the	NN	O	I-Task
-BFKL	NN	O	I-Task
-and	NN	O	I-Task
-DGLAP	NN	O	I-Task
-equations	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-case	NN	O	I-Task
-of	NN	O	I-Task
-supersymmetric	NN	O	I-Task
-theories	NN	O	I-Task
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-a	NN	O	O
-common	NN	O	O
-belief	NN	O	O
-,	NN	O	O
-that	NN	O	O
-the	NN	O	O
-high	NN	O	B-Task
-symmetry	NN	O	I-Task
-may	NN	O	I-Task
-significantly	NN	O	I-Task
-simplify	NN	O	I-Task
-the	NN	O	I-Task
-structure	NN	O	I-Task
-of	NN	O	I-Task
-these	NN	O	I-Task
-equations	NN	O	I-Task
-.	NN	O	O
-
-Indeed	NN	O	O
-,	NN	O	O
-it	NN	O	O
-was	NN	O	O
-found	NN	O	O
-in	NN	O	O
-the	NN	O	O
-leading	NN	O	B-Process
-logarithmic	NN	O	I-Process
-approximation	NN	O	I-Process
-(	NN	O	O
-LLA	NN	O	B-Process
-)	NN	O	O
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-,	NN	O	O
-that	NN	O	O
-the	NN	O	O
-so	NN	O	O
--	NN	O	O
-called	NN	O	O
-quasi	NN	O	O
--	NN	O	O
-partonic	NN	O	O
-operators	NN	O	O
-in	NN	O	O
-N=1	NN	O	O
-SYM	NN	O	O
-are	NN	O	O
-unified	NN	O	O
-in	NN	O	O
-supermultiplets	NN	O	O
-with	NN	O	O
-anomalous	NN	O	B-Process
-dimensions	NN	O	I-Process
-obtained	NN	O	I-Process
-from	NN	O	I-Process
-universal	NN	O	I-Process
-anomalous	NN	O	I-Process
-dimensions	NN	O	I-Process
-γuni(j	NN	O	I-Process
-)	NN	O	I-Process
-by	NN	O	I-Process
-shifting	NN	O	I-Process
-its	NN	O	I-Process
-arguments	NN	O	I-Process
-by	NN	O	I-Process
-an	NN	O	I-Process
-integer	NN	O	I-Process
-number	NN	O	I-Process
-.	NN	O	O
-
-Further	NN	O	O
-,	NN	O	O
-the	NN	O	O
-anomalous	NN	O	B-Task
-dimension	NN	O	I-Task
-matrices	NN	O	I-Task
-for	NN	O	I-Task
-twist-2	NN	O	I-Task
-operators	NN	O	I-Task
-are	NN	O	O
-fixed	NN	O	B-Process
-by	NN	O	I-Process
-the	NN	O	I-Process
-superconformal	NN	O	I-Process
-invariance	NN	O	I-Process
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Calculations	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-maximally	NN	O	I-Process
-extended	NN	O	I-Process
-N=4	NN	O	I-Process
-SYM	NN	O	I-Process
-,	NN	O	I-Process
-where	NN	O	I-Process
-the	NN	O	I-Process
-coupling	NN	O	I-Process
-constant	NN	O	I-Process
-is	NN	O	I-Process
-not	NN	O	I-Process
-renormalized	NN	O	I-Process
-,	NN	O	O
-give	NN	O	O
-even	NN	O	O
-more	NN	O	O
-remarkable	NN	O	O
-results	NN	O	O
-.	NN	O	O
-
-Namely	NN	O	O
-,	NN	O	O
-it	NN	O	O
-turns	NN	O	O
-out	NN	O	O
-,	NN	O	O
-that	NN	O	O
-here	NN	O	O
-all	NN	O	O
-twist-2	NN	O	B-Task
-operators	NN	O	I-Task
-enter	NN	O	O
-in	NN	O	O
-the	NN	O	O
-same	NN	O	O
-multiplet	NN	O	O
-,	NN	O	O
-their	NN	O	O
-anomalous	NN	O	B-Task
-dimension	NN	O	I-Task
-matrix	NN	O	I-Task
-is	NN	O	O
-fixed	NN	O	O
-completely	NN	O	O
-by	NN	O	O
-the	NN	O	O
-super	NN	O	B-Process
--	NN	O	I-Process
-conformal	NN	O	I-Process
-invariance	NN	O	I-Process
-and	NN	O	O
-its	NN	O	O
-universal	NN	O	O
-anomalous	NN	O	O
-dimension	NN	O	O
-in	NN	O	O
-LLA	NN	O	O
-is	NN	O	O
-proportional	NN	O	O
-to	NN	O	O
-Ψ(j−1)−Ψ(1	NN	O	O
-)	NN	O	O
-,	NN	O	O
-which	NN	O	O
-means	NN	O	O
-,	NN	O	O
-that	NN	O	O
-the	NN	O	O
-evolution	NN	O	B-Task
-equations	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-matrix	NN	O	I-Task
-elements	NN	O	I-Task
-of	NN	O	I-Task
-quasi	NN	O	I-Task
--	NN	O	I-Task
-partonic	NN	O	I-Task
-operators	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-multicolor	NN	O	I-Task
-limit	NN	O	I-Task
-Nc→∞	NN	O	I-Task
-are	NN	O	O
-equivalent	NN	O	O
-to	NN	O	O
-the	NN	O	O
-Schrödinger	NN	O	O
-equation	NN	O	O
-for	NN	O	O
-an	NN	O	O
-integrable	NN	O	O
-Heisenberg	NN	O	O
-spin	NN	O	O
-model	NN	O	O
-[	NN	O	O
-11,12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-QCD	NN	O	O
-the	NN	O	O
-integrability	NN	O	O
-remains	NN	O	O
-only	NN	O	O
-in	NN	O	O
-a	NN	O	O
-small	NN	O	O
-sector	NN	O	O
-of	NN	O	O
-the	NN	O	O
-quasi	NN	O	O
--	NN	O	O
-partonic	NN	O	O
-operators	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-N=4	NN	O	B-Task
-SYM	NN	O	I-Task
-the	NN	O	O
-equations	NN	O	O
-for	NN	O	O
-other	NN	O	O
-sets	NN	O	O
-of	NN	O	O
-operators	NN	O	O
-are	NN	O	O
-also	NN	O	O
-integrable	NN	O	O
-[	NN	O	O
-14–16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Evolution	NN	O	B-Task
-equations	NN	O	I-Task
-for	NN	O	I-Task
-quasi	NN	O	I-Task
--	NN	O	I-Task
-partonic	NN	O	I-Task
-operators	NN	O	I-Task
-are	NN	O	O
-written	NN	O	O
-in	NN	O	O
-an	NN	O	O
-explicitly	NN	O	O
-super	NN	O	O
--	NN	O	O
-conformal	NN	O	O
-form	NN	O	O
-in	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+reason	4	10	O
+to	11	13	O
+investigate	14	25	B-Task
+the	26	29	I-Task
+BFKL	30	34	I-Task
+and	35	38	I-Task
+DGLAP	39	44	I-Task
+equations	45	54	I-Task
+in	55	57	I-Task
+the	58	61	I-Task
+case	62	66	I-Task
+of	67	69	I-Task
+supersymmetric	70	84	I-Task
+theories	85	93	I-Task
+is	94	96	O
+based	97	102	O
+on	103	105	O
+a	106	107	O
+common	108	114	O
+belief	115	121	O
+,	121	122	O
+that	123	127	O
+the	128	131	O
+high	132	136	B-Task
+symmetry	137	145	I-Task
+may	146	149	I-Task
+significantly	150	163	I-Task
+simplify	164	172	I-Task
+the	173	176	I-Task
+structure	177	186	I-Task
+of	187	189	I-Task
+these	190	195	I-Task
+equations	196	205	I-Task
+.	205	206	O
+
+Indeed	207	213	O
+,	213	214	O
+it	215	217	O
+was	218	221	O
+found	222	227	O
+in	228	230	O
+the	231	234	O
+leading	235	242	B-Process
+logarithmic	243	254	I-Process
+approximation	255	268	I-Process
+(	269	270	O
+LLA	270	273	B-Process
+)	273	274	O
+[	275	276	O
+10	276	278	O
+]	278	279	O
+,	279	280	O
+that	281	285	O
+the	286	289	O
+so	290	292	O
+-	292	293	O
+called	293	299	O
+quasi	300	305	O
+-	305	306	O
+partonic	306	314	O
+operators	315	324	O
+in	325	327	O
+N=1	328	331	O
+SYM	332	335	O
+are	336	339	O
+unified	340	347	O
+in	348	350	O
+supermultiplets	351	366	O
+with	367	371	O
+anomalous	372	381	B-Process
+dimensions	382	392	I-Process
+obtained	393	401	I-Process
+from	402	406	I-Process
+universal	407	416	I-Process
+anomalous	417	426	I-Process
+dimensions	427	437	I-Process
+γuni(j	438	444	I-Process
+)	444	445	I-Process
+by	446	448	I-Process
+shifting	449	457	I-Process
+its	458	461	I-Process
+arguments	462	471	I-Process
+by	472	474	I-Process
+an	475	477	I-Process
+integer	478	485	I-Process
+number	486	492	I-Process
+.	492	493	O
+
+Further	494	501	O
+,	501	502	O
+the	503	506	O
+anomalous	507	516	B-Task
+dimension	517	526	I-Task
+matrices	527	535	I-Task
+for	536	539	I-Task
+twist-2	540	547	I-Task
+operators	548	557	I-Task
+are	558	561	O
+fixed	562	567	B-Process
+by	568	570	I-Process
+the	571	574	I-Process
+superconformal	575	589	I-Process
+invariance	590	600	I-Process
+[	601	602	O
+10	602	604	O
+]	604	605	O
+.	605	606	O
+
+Calculations	607	619	B-Process
+in	620	622	I-Process
+the	623	626	I-Process
+maximally	627	636	I-Process
+extended	637	645	I-Process
+N=4	646	649	I-Process
+SYM	650	653	I-Process
+,	653	654	I-Process
+where	655	660	I-Process
+the	661	664	I-Process
+coupling	665	673	I-Process
+constant	674	682	I-Process
+is	683	685	I-Process
+not	686	689	I-Process
+renormalized	690	702	I-Process
+,	702	703	O
+give	704	708	O
+even	709	713	O
+more	714	718	O
+remarkable	719	729	O
+results	730	737	O
+.	737	738	O
+
+Namely	739	745	O
+,	745	746	O
+it	747	749	O
+turns	750	755	O
+out	756	759	O
+,	759	760	O
+that	761	765	O
+here	766	770	O
+all	771	774	O
+twist-2	775	782	B-Task
+operators	783	792	I-Task
+enter	793	798	O
+in	799	801	O
+the	802	805	O
+same	806	810	O
+multiplet	811	820	O
+,	820	821	O
+their	822	827	O
+anomalous	828	837	B-Task
+dimension	838	847	I-Task
+matrix	848	854	I-Task
+is	855	857	O
+fixed	858	863	O
+completely	864	874	O
+by	875	877	O
+the	878	881	O
+super	882	887	B-Process
+-	887	888	I-Process
+conformal	888	897	I-Process
+invariance	898	908	I-Process
+and	909	912	O
+its	913	916	O
+universal	917	926	O
+anomalous	927	936	O
+dimension	937	946	O
+in	947	949	O
+LLA	950	953	O
+is	954	956	O
+proportional	957	969	O
+to	970	972	O
+Ψ(j−1)−Ψ(1	973	983	O
+)	983	984	O
+,	984	985	O
+which	986	991	O
+means	992	997	O
+,	997	998	O
+that	999	1003	O
+the	1004	1007	O
+evolution	1008	1017	B-Task
+equations	1018	1027	I-Task
+for	1028	1031	I-Task
+the	1032	1035	I-Task
+matrix	1036	1042	I-Task
+elements	1043	1051	I-Task
+of	1052	1054	I-Task
+quasi	1055	1060	I-Task
+-	1060	1061	I-Task
+partonic	1061	1069	I-Task
+operators	1070	1079	I-Task
+in	1080	1082	I-Task
+the	1083	1086	I-Task
+multicolor	1087	1097	I-Task
+limit	1098	1103	I-Task
+Nc→∞	1104	1108	I-Task
+are	1109	1112	O
+equivalent	1113	1123	O
+to	1124	1126	O
+the	1127	1130	O
+Schrödinger	1131	1142	O
+equation	1143	1151	O
+for	1152	1155	O
+an	1156	1158	O
+integrable	1159	1169	O
+Heisenberg	1170	1180	O
+spin	1181	1185	O
+model	1186	1191	O
+[	1192	1193	O
+11,12	1193	1198	O
+]	1198	1199	O
+.	1199	1200	O
+
+In	1201	1203	O
+QCD	1204	1207	O
+the	1208	1211	O
+integrability	1212	1225	O
+remains	1226	1233	O
+only	1234	1238	O
+in	1239	1241	O
+a	1242	1243	O
+small	1244	1249	O
+sector	1250	1256	O
+of	1257	1259	O
+the	1260	1263	O
+quasi	1264	1269	O
+-	1269	1270	O
+partonic	1270	1278	O
+operators	1279	1288	O
+[	1289	1290	O
+13	1290	1292	O
+]	1292	1293	O
+.	1293	1294	O
+
+In	1295	1297	O
+the	1298	1301	O
+case	1302	1306	O
+of	1307	1309	O
+N=4	1310	1313	B-Task
+SYM	1314	1317	I-Task
+the	1318	1321	O
+equations	1322	1331	O
+for	1332	1335	O
+other	1336	1341	O
+sets	1342	1346	O
+of	1347	1349	O
+operators	1350	1359	O
+are	1360	1363	O
+also	1364	1368	O
+integrable	1369	1379	O
+[	1380	1381	O
+14–16	1381	1386	O
+]	1386	1387	O
+.	1387	1388	O
+
+Evolution	1389	1398	B-Task
+equations	1399	1408	I-Task
+for	1409	1412	I-Task
+quasi	1413	1418	I-Task
+-	1418	1419	I-Task
+partonic	1419	1427	I-Task
+operators	1428	1437	I-Task
+are	1438	1441	O
+written	1442	1449	O
+in	1450	1452	O
+an	1453	1455	O
+explicitly	1456	1466	O
+super	1467	1472	O
+-	1472	1473	O
+conformal	1473	1482	O
+form	1483	1487	O
+in	1488	1490	O
+Ref	1491	1494	O
+.	1494	1495	O
+
+[	1496	1497	O
+17	1497	1499	O
+]	1499	1500	O
+.	1500	1501	O
 
 
 -DOCSTART- (S0370269304008974)
 
-Thus	NN	O	O
-,	NN	O	O
-the	NN	O	O
-extension	NN	O	B-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-charmed	NN	O	I-Process
-analogue	NN	O	I-Process
-Θc(3099	NN	O	I-Process
-)	NN	O	I-Process
-provides	NN	O	O
-an	NN	O	O
-interesting	NN	O	O
-test	NN	O	O
-for	NN	O	O
-the	NN	O	O
-SDO	NN	O	B-Task
-sum	NN	O	I-Task
-rule	NN	O	I-Task
-and	NN	O	I-Task
-lattice	NN	O	I-Task
-calculations	NN	O	I-Task
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Here	NN	O	O
-,	NN	O	O
-the	NN	O	O
-charm	NN	O	B-Material
-quark	NN	O	I-Material
-is	NN	O	O
-quite	NN	O	O
-heavy	NN	O	O
-so	NN	O	O
-that	NN	O	O
-the	NN	O	O
-constituent	NN	O	B-Process
--	NN	O	I-Process
-quark	NN	O	I-Process
-picture	NN	O	I-Process
-may	NN	O	O
-fit	NN	O	O
-well	NN	O	O
-and	NN	O	O
-the	NN	O	O
-JW	NN	O	B-Process
-prediction	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-parity	NN	O	O
-is	NN	O	O
-expected	NN	O	O
-to	NN	O	O
-be	NN	O	O
-reproduced	NN	O	O
-from	NN	O	O
-QCD	NN	O	B-Material
-.	NN	O	O
-
-In	NN	O	O
-fact	NN	O	O
-,	NN	O	O
-quenched	NN	O	B-Task
-lattice	NN	O	I-Task
-calculation	NN	O	I-Task
-finds	NN	O	O
-the	NN	O	O
-parity	NN	O	O
-of	NN	O	O
-Θc(3099	NN	O	O
-)	NN	O	O
-to	NN	O	O
-be	NN	O	O
-positive	NN	O	O
-[	NN	O	O
-28	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-extension	NN	O	O
-to	NN	O	O
-the	NN	O	O
-Θc(3099	NN	O	O
-)	NN	O	O
-sum	NN	O	O
-rules	NN	O	O
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-two	NN	O	O
-important	NN	O	O
-aspects	NN	O	O
-,	NN	O	O
-which	NN	O	O
-make	NN	O	O
-this	NN	O	O
-sum	NN	O	B-Task
-rule	NN	O	I-Task
-different	NN	O	O
-from	NN	O	O
-the	NN	O	O
-SDO	NN	O	B-Process
-sum	NN	O	I-Process
-rule	NN	O	I-Process
-.	NN	O	O
-
-First	NN	O	O
-of	NN	O	O
-all	NN	O	O
-,	NN	O	O
-since	NN	O	O
-the	NN	O	O
-charm	NN	O	B-Material
-quark	NN	O	I-Material
-is	NN	O	O
-too	NN	O	O
-heavy	NN	O	O
-to	NN	O	O
-form	NN	O	O
-quark	NN	O	B-Material
-condensate	NN	O	I-Material
-,	NN	O	O
-it	NN	O	O
-gives	NN	O	O
-non	NN	O	O
--	NN	O	O
-perturbative	NN	O	O
-effects	NN	O	O
-only	NN	O	O
-by	NN	O	O
-radiating	NN	O	B-Material
-gluons	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-quark	NN	O	B-Material
-–	NN	O	I-Material
-gluon	NN	O	I-Material
-mixed	NN	O	I-Material
-condensate	NN	O	I-Material
-〈	NN	O	O
-s̄gsσ·Gs	NN	O	B-Material
-〉	NN	O	O
-,	NN	O	O
-which	NN	O	O
-was	NN	O	O
-the	NN	O	O
-important	NN	O	O
-contribution	NN	O	O
-in	NN	O	O
-the	NN	O	O
-Θ+	NN	O	B-Process
-sum	NN	O	I-Process
-rule	NN	O	I-Process
-,	NN	O	O
-is	NN	O	O
-replaced	NN	O	B-Process
-by	NN	O	I-Process
-gluonic	NN	O	I-Process
-operators	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-heavy	NN	O	I-Process
-quark	NN	O	I-Process
-expansion	NN	O	I-Process
-that	NN	O	O
-are	NN	O	O
-normally	NN	O	O
-suppressed	NN	O	O
-.	NN	O	O
-
-Secondly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-charm	NN	O	B-Process
-quark	NN	O	I-Process
-mass	NN	O	I-Process
-has	NN	O	I-Process
-to	NN	O	I-Process
-be	NN	O	I-Process
-kept	NN	O	I-Process
-finite	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-OPE	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-can	NN	O	O
-be	NN	O	O
-done	NN	O	O
-by	NN	O	O
-using	NN	O	O
-the	NN	O	O
-momentum	NN	O	B-Process
-space	NN	O	I-Process
-expression	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-charm	NN	O	B-Material
--	NN	O	I-Material
-quark	NN	O	I-Material
-propagator	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-different	NN	O	O
-from	NN	O	O
-the	NN	O	B-Process
-light	NN	O	I-Process
--	NN	O	I-Process
-quark	NN	O	I-Process
-sum	NN	O	I-Process
-rule	NN	O	I-Process
-where	NN	O	O
-the	NN	O	O
-calculation	NN	O	O
-is	NN	O	O
-performed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-coordinate	NN	O	O
-space	NN	O	O
-and	NN	O	O
-all	NN	O	O
-the	NN	O	O
-quark	NN	O	B-Material
-propagators	NN	O	I-Material
-are	NN	O	O
-obtained	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-expansion	NN	O	O
-with	NN	O	O
-the	NN	O	O
-small	NN	O	B-Material
-quark	NN	O	I-Material
-mass	NN	O	O
-.	NN	O	O
-
-Keeping	NN	O	O
-these	NN	O	O
-two	NN	O	O
-aspects	NN	O	O
-in	NN	O	O
-mind	NN	O	O
-,	NN	O	O
-we	NN	O	O
-construct	NN	O	O
-QCD	NN	O	B-Process
-sum	NN	O	I-Process
-rules	NN	O	I-Process
-for	NN	O	O
-Θc(3099	NN	O	O
-)	NN	O	O
-and	NN	O	O
-see	NN	O	B-Task
-how	NN	O	I-Task
-they	NN	O	I-Task
-are	NN	O	I-Task
-different	NN	O	I-Task
-from	NN	O	I-Task
-the	NN	O	I-Task
-Θ+(1540	NN	O	I-Task
-)	NN	O	I-Task
-sum	NN	O	I-Task
-rule	NN	O	I-Task
-.	NN	O	O
+Thus	0	4	O
+,	4	5	O
+the	6	9	O
+extension	10	19	B-Process
+to	20	22	I-Process
+the	23	26	I-Process
+charmed	27	34	I-Process
+analogue	35	43	I-Process
+Θc(3099	44	51	I-Process
+)	51	52	I-Process
+provides	53	61	O
+an	62	64	O
+interesting	65	76	O
+test	77	81	O
+for	82	85	O
+the	86	89	O
+SDO	90	93	B-Task
+sum	94	97	I-Task
+rule	98	102	I-Task
+and	103	106	I-Task
+lattice	107	114	I-Task
+calculations	115	127	I-Task
+[	128	129	O
+17	129	131	O
+]	131	132	O
+.	132	133	O
+
+Here	134	138	O
+,	138	139	O
+the	140	143	O
+charm	144	149	B-Material
+quark	150	155	I-Material
+is	156	158	O
+quite	159	164	O
+heavy	165	170	O
+so	171	173	O
+that	174	178	O
+the	179	182	O
+constituent	183	194	B-Process
+-	194	195	I-Process
+quark	195	200	I-Process
+picture	201	208	I-Process
+may	209	212	O
+fit	213	216	O
+well	217	221	O
+and	222	225	O
+the	226	229	O
+JW	230	232	B-Process
+prediction	233	243	I-Process
+for	244	247	O
+the	248	251	O
+parity	252	258	O
+is	259	261	O
+expected	262	270	O
+to	271	273	O
+be	274	276	O
+reproduced	277	287	O
+from	288	292	O
+QCD	293	296	B-Material
+.	296	297	O
+
+In	298	300	O
+fact	301	305	O
+,	305	306	O
+quenched	307	315	B-Task
+lattice	316	323	I-Task
+calculation	324	335	I-Task
+finds	336	341	O
+the	342	345	O
+parity	346	352	O
+of	353	355	O
+Θc(3099	356	363	O
+)	363	364	O
+to	365	367	O
+be	368	370	O
+positive	371	379	O
+[	380	381	O
+28	381	383	O
+]	383	384	O
+.	384	385	O
+
+In	386	388	O
+the	389	392	O
+extension	393	402	O
+to	403	405	O
+the	406	409	O
+Θc(3099	410	417	O
+)	417	418	O
+sum	419	422	O
+rules	423	428	O
+,	428	429	O
+there	430	435	O
+are	436	439	O
+two	440	443	O
+important	444	453	O
+aspects	454	461	O
+,	461	462	O
+which	463	468	O
+make	469	473	O
+this	474	478	O
+sum	479	482	B-Task
+rule	483	487	I-Task
+different	488	497	O
+from	498	502	O
+the	503	506	O
+SDO	507	510	B-Process
+sum	511	514	I-Process
+rule	515	519	I-Process
+.	519	520	O
+
+First	521	526	O
+of	527	529	O
+all	530	533	O
+,	533	534	O
+since	535	540	O
+the	541	544	O
+charm	545	550	B-Material
+quark	551	556	I-Material
+is	557	559	O
+too	560	563	O
+heavy	564	569	O
+to	570	572	O
+form	573	577	O
+quark	578	583	B-Material
+condensate	584	594	I-Material
+,	594	595	O
+it	596	598	O
+gives	599	604	O
+non	605	608	O
+-	608	609	O
+perturbative	609	621	O
+effects	622	629	O
+only	630	634	O
+by	635	637	O
+radiating	638	647	B-Material
+gluons	648	654	I-Material
+.	654	655	O
+
+The	656	659	O
+quark	660	665	B-Material
+–	665	666	I-Material
+gluon	666	671	I-Material
+mixed	672	677	I-Material
+condensate	678	688	I-Material
+〈	689	690	O
+s̄gsσ·Gs	690	698	B-Material
+〉	698	699	O
+,	699	700	O
+which	701	706	O
+was	707	710	O
+the	711	714	O
+important	715	724	O
+contribution	725	737	O
+in	738	740	O
+the	741	744	O
+Θ+	745	747	B-Process
+sum	748	751	I-Process
+rule	752	756	I-Process
+,	756	757	O
+is	758	760	O
+replaced	761	769	B-Process
+by	770	772	I-Process
+gluonic	773	780	I-Process
+operators	781	790	I-Process
+in	791	793	I-Process
+the	794	797	I-Process
+heavy	798	803	I-Process
+quark	804	809	I-Process
+expansion	810	819	I-Process
+that	820	824	O
+are	825	828	O
+normally	829	837	O
+suppressed	838	848	O
+.	848	849	O
+
+Secondly	850	858	O
+,	858	859	O
+the	860	863	O
+charm	864	869	B-Process
+quark	870	875	I-Process
+mass	876	880	I-Process
+has	881	884	I-Process
+to	885	887	I-Process
+be	888	890	I-Process
+kept	891	895	I-Process
+finite	896	902	I-Process
+in	903	905	I-Process
+the	906	909	I-Process
+OPE	910	913	I-Process
+,	913	914	O
+which	915	920	O
+can	921	924	O
+be	925	927	O
+done	928	932	O
+by	933	935	O
+using	936	941	O
+the	942	945	O
+momentum	946	954	B-Process
+space	955	960	I-Process
+expression	961	971	I-Process
+for	972	975	O
+the	976	979	O
+charm	980	985	B-Material
+-	985	986	I-Material
+quark	986	991	I-Material
+propagator	992	1002	I-Material
+.	1002	1003	O
+
+This	1004	1008	O
+is	1009	1011	O
+different	1012	1021	O
+from	1022	1026	O
+the	1027	1030	B-Process
+light	1031	1036	I-Process
+-	1036	1037	I-Process
+quark	1037	1042	I-Process
+sum	1043	1046	I-Process
+rule	1047	1051	I-Process
+where	1052	1057	O
+the	1058	1061	O
+calculation	1062	1073	O
+is	1074	1076	O
+performed	1077	1086	O
+in	1087	1089	O
+the	1090	1093	O
+coordinate	1094	1104	O
+space	1105	1110	O
+and	1111	1114	O
+all	1115	1118	O
+the	1119	1122	O
+quark	1123	1128	B-Material
+propagators	1129	1140	I-Material
+are	1141	1144	O
+obtained	1145	1153	O
+based	1154	1159	O
+on	1160	1162	O
+the	1163	1166	O
+expansion	1167	1176	O
+with	1177	1181	O
+the	1182	1185	O
+small	1186	1191	B-Material
+quark	1192	1197	I-Material
+mass	1198	1202	O
+.	1202	1203	O
+
+Keeping	1204	1211	O
+these	1212	1217	O
+two	1218	1221	O
+aspects	1222	1229	O
+in	1230	1232	O
+mind	1233	1237	O
+,	1237	1238	O
+we	1239	1241	O
+construct	1242	1251	O
+QCD	1252	1255	B-Process
+sum	1256	1259	I-Process
+rules	1260	1265	I-Process
+for	1266	1269	O
+Θc(3099	1270	1277	O
+)	1277	1278	O
+and	1279	1282	O
+see	1283	1286	B-Task
+how	1287	1290	I-Task
+they	1291	1295	I-Task
+are	1296	1299	I-Task
+different	1300	1309	I-Task
+from	1310	1314	I-Task
+the	1315	1318	I-Task
+Θ+(1540	1319	1326	I-Task
+)	1326	1327	I-Task
+sum	1328	1331	I-Task
+rule	1332	1336	I-Task
+.	1336	1337	O
 
 
 -DOCSTART- (S0370269304008998)
 
-Including	NN	O	O
-the	NN	O	O
-O(αs	NN	O	O
-)	NN	O	O
-corrections	NN	O	O
-,	NN	O	O
-all	NN	O	O
-the	NN	O	O
-operators	NN	O	B-Task
-listed	NN	O	I-Task
-in	NN	O	I-Task
-(	NN	O	I-Task
-9	NN	O	I-Task
-)	NN	O	I-Task
-and	NN	O	I-Task
-(	NN	O	I-Task
-10	NN	O	I-Task
-)	NN	O	I-Task
-have	NN	O	I-Task
-to	NN	O	I-Task
-be	NN	O	I-Task
-included	NN	O	I-Task
-.	NN	O	O
-
-A	NN	O	O
-convenient	NN	O	O
-framework	NN	O	O
-to	NN	O	O
-carry	NN	O	O
-out	NN	O	O
-these	NN	O	O
-calculations	NN	O	O
-is	NN	O	O
-the	NN	O	O
-QCD	NN	O	B-Process
-factorization	NN	O	I-Process
-framework	NN	O	I-Process
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-which	NN	O	O
-allows	NN	O	O
-to	NN	O	O
-express	NN	O	B-Process
-the	NN	O	I-Process
-hadronic	NN	O	I-Process
-matrix	NN	O	I-Process
-elements	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-schematic	NN	O	I-Process
-form	NN	O	I-Process
-:	NN	O	I-Process
-(	NN	O	O
-11)〈Vγ|Oi|B〉=FB→VTiI+∫dk+2π∫01duφB,+(k+)TiII(k+,u)φV⊥(u	NN	O	B-Process
-)	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-FB→V	NN	O	B-Process
-are	NN	O	O
-the	NN	O	O
-transition	NN	O	B-Process
-form	NN	O	I-Process
-factors	NN	O	I-Process
-defined	NN	O	I-Process
-through	NN	O	I-Process
-the	NN	O	I-Process
-matrix	NN	O	I-Process
-elements	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-operator	NN	O	I-Process
-O7	NN	O	I-Process
-,	NN	O	I-Process
-φB,+(k+	NN	O	I-Process
-)	NN	O	I-Process
-is	NN	O	O
-the	NN	O	O
-leading	NN	O	B-Process
--	NN	O	I-Process
-twist	NN	O	I-Process
-B	NN	O	I-Process
--	NN	O	I-Process
-meson	NN	O	I-Process
-wave	NN	O	I-Process
--	NN	O	I-Process
-function	NN	O	I-Process
-with	NN	O	I-Process
-k+	NN	O	I-Process
-being	NN	O	I-Process
-a	NN	O	I-Process
-light	NN	O	I-Process
--	NN	O	I-Process
-cone	NN	O	I-Process
-component	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-spectator	NN	O	I-Process
-quark	NN	O	I-Process
-momentum	NN	O	I-Process
-,	NN	O	O
-φ⊥V(u	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-the	NN	O	O
-leading	NN	O	B-Process
--	NN	O	I-Process
-twist	NN	O	I-Process
-light	NN	O	I-Process
--	NN	O	I-Process
-cone	NN	O	I-Process
-distribution	NN	O	I-Process
-amplitude	NN	O	I-Process
-(	NN	O	O
-LCDA	NN	O	B-Process
-)	NN	O	O
-of	NN	O	O
-the	NN	O	O
-transversely	NN	O	O
--	NN	O	O
-polarized	NN	O	O
-vector	NN	O	O
-meson	NN	O	O
-V	NN	O	O
-,	NN	O	O
-and	NN	O	O
-u	NN	O	B-Process
-is	NN	O	O
-the	NN	O	O
-fractional	NN	O	B-Process
-momentum	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-vector	NN	O	I-Process
-meson	NN	O	I-Process
-carried	NN	O	I-Process
-by	NN	O	I-Process
-one	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-two	NN	O	I-Process
-partons	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-quantities	NN	O	O
-TiI	NN	O	O
-and	NN	O	O
-TiII	NN	O	O
-are	NN	O	O
-the	NN	O	O
-hard	NN	O	O
--	NN	O	O
-perturbative	NN	O	O
-kernels	NN	O	O
-calculated	NN	O	O
-to	NN	O	O
-order	NN	O	O
-αs	NN	O	O
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-containing	NN	O	O
-the	NN	O	O
-so	NN	O	O
--	NN	O	O
-called	NN	O	O
-hard	NN	O	O
--	NN	O	O
-spectator	NN	O	O
-contributions	NN	O	O
-.	NN	O	O
-
-The	NN	O	B-Process
-factorization	NN	O	I-Process
-formula	NN	O	I-Process
-(	NN	O	O
-11	NN	O	O
-)	NN	O	O
-holds	NN	O	O
-in	NN	O	O
-the	NN	O	O
-heavy	NN	O	B-Material
-quark	NN	O	I-Material
-limit	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-to	NN	O	O
-order	NN	O	O
-ΛQCD	NN	O	O
-/	NN	O	O
-MB	NN	O	O
-.	NN	O	O
-
-This	NN	O	B-Process
-factorization	NN	O	I-Process
-framework	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-used	NN	O	O
-to	NN	O	O
-calculate	NN	O	O
-the	NN	O	O
-branching	NN	O	O
-fractions	NN	O	O
-and	NN	O	O
-related	NN	O	O
-quantities	NN	O	O
-for	NN	O	O
-the	NN	O	O
-decays	NN	O	O
-
-B→K∗γ	NN	O	O
-[	NN	O	O
-15–17	NN	O	O
-]	NN	O	O
-and	NN	O	O
-B→ργ	NN	O	O
-[	NN	O	O
-15,17	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-isospin	NN	O	B-Task
-violation	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-B→K∗γ	NN	O	I-Task
-decays	NN	O	I-Task
-in	NN	O	O
-this	NN	O	O
-framework	NN	O	O
-have	NN	O	O
-also	NN	O	O
-been	NN	O	O
-studied	NN	O	O
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-For	NN	O	O
-applications	NN	O	O
-to	NN	O	O
-B→K∗γ∗	NN	O	O
-,	NN	O	O
-see	NN	O	O
-Refs	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-16,19,20	NN	O	O
-]	NN	O	O
-.	NN	O	O
-)	NN	O	O
-
-Very	NN	O	O
-recently	NN	O	O
-,	NN	O	O
-the	NN	O	O
-hard	NN	O	B-Task
--	NN	O	I-Task
-spectator	NN	O	I-Task
-contribution	NN	O	I-Task
-arising	NN	O	I-Task
-from	NN	O	I-Task
-the	NN	O	I-Task
-chromomagnetic	NN	O	I-Task
-operator	NN	O	I-Task
-O8	NN	O	I-Task
-have	NN	O	O
-also	NN	O	O
-been	NN	O	O
-calculated	NN	O	O
-in	NN	O	O
-next	NN	O	B-Process
--	NN	O	I-Process
-to	NN	O	I-Process
--	NN	O	I-Process
-next	NN	O	I-Process
--	NN	O	I-Process
-to	NN	O	I-Process
--	NN	O	I-Process
-leading	NN	O	I-Process
-order	NN	O	I-Process
-(	NN	O	O
-NNLO	NN	O	B-Process
-)	NN	O	O
-in	NN	O	O
-αs	NN	O	O
-showing	NN	O	O
-that	NN	O	O
-the	NN	O	O
-spectator	NN	O	B-Task
-interactions	NN	O	I-Task
-factorize	NN	O	O
-in	NN	O	O
-the	NN	O	O
-heavy	NN	O	O
-quark	NN	O	O
-limit	NN	O	O
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-numerical	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-the	NN	O	O
-resummed	NN	O	O
-NNLO	NN	O	O
-contributions	NN	O	O
-is	NN	O	O
-marginal	NN	O	O
-and	NN	O	O
-we	NN	O	O
-shall	NN	O	O
-not	NN	O	O
-include	NN	O	O
-this	NN	O	O
-in	NN	O	O
-our	NN	O	O
-update	NN	O	O
-.	NN	O	O
+Including	0	9	O
+the	10	13	O
+O(αs	14	18	O
+)	18	19	O
+corrections	20	31	O
+,	31	32	O
+all	33	36	O
+the	37	40	O
+operators	41	50	B-Task
+listed	51	57	I-Task
+in	58	60	I-Task
+(	61	62	I-Task
+9	62	63	I-Task
+)	63	64	I-Task
+and	65	68	I-Task
+(	69	70	I-Task
+10	70	72	I-Task
+)	72	73	I-Task
+have	74	78	I-Task
+to	79	81	I-Task
+be	82	84	I-Task
+included	85	93	I-Task
+.	93	94	O
+
+A	95	96	O
+convenient	97	107	O
+framework	108	117	O
+to	118	120	O
+carry	121	126	O
+out	127	130	O
+these	131	136	O
+calculations	137	149	O
+is	150	152	O
+the	153	156	O
+QCD	157	160	B-Process
+factorization	161	174	I-Process
+framework	175	184	I-Process
+[	185	186	O
+14	186	188	O
+]	188	189	O
+which	190	195	O
+allows	196	202	O
+to	203	205	O
+express	206	213	B-Process
+the	214	217	I-Process
+hadronic	218	226	I-Process
+matrix	227	233	I-Process
+elements	234	242	I-Process
+in	243	245	I-Process
+the	246	249	I-Process
+schematic	250	259	I-Process
+form	260	264	I-Process
+:	264	265	I-Process
+(	266	267	O
+11)〈Vγ|Oi|B〉=FB→VTiI+∫dk+2π∫01duφB,+(k+)TiII(k+,u)φV⊥(u	267	322	B-Process
+)	322	323	I-Process
+,	323	324	O
+where	325	330	O
+FB→V	331	335	B-Process
+are	336	339	O
+the	340	343	O
+transition	344	354	B-Process
+form	355	359	I-Process
+factors	360	367	I-Process
+defined	368	375	I-Process
+through	376	383	I-Process
+the	384	387	I-Process
+matrix	388	394	I-Process
+elements	395	403	I-Process
+of	404	406	I-Process
+the	407	410	I-Process
+operator	411	419	I-Process
+O7	420	422	I-Process
+,	422	423	I-Process
+φB,+(k+	424	431	I-Process
+)	431	432	I-Process
+is	433	435	O
+the	436	439	O
+leading	440	447	B-Process
+-	447	448	I-Process
+twist	448	453	I-Process
+B	454	455	I-Process
+-	455	456	I-Process
+meson	456	461	I-Process
+wave	462	466	I-Process
+-	466	467	I-Process
+function	467	475	I-Process
+with	476	480	I-Process
+k+	481	483	I-Process
+being	484	489	I-Process
+a	490	491	I-Process
+light	492	497	I-Process
+-	497	498	I-Process
+cone	498	502	I-Process
+component	503	512	I-Process
+of	513	515	I-Process
+the	516	519	I-Process
+spectator	520	529	I-Process
+quark	530	535	I-Process
+momentum	536	544	I-Process
+,	544	545	O
+φ⊥V(u	546	551	B-Process
+)	551	552	O
+is	553	555	O
+the	556	559	O
+leading	560	567	B-Process
+-	567	568	I-Process
+twist	568	573	I-Process
+light	574	579	I-Process
+-	579	580	I-Process
+cone	580	584	I-Process
+distribution	585	597	I-Process
+amplitude	598	607	I-Process
+(	608	609	O
+LCDA	609	613	B-Process
+)	613	614	O
+of	615	617	O
+the	618	621	O
+transversely	622	634	O
+-	634	635	O
+polarized	635	644	O
+vector	645	651	O
+meson	652	657	O
+V	658	659	O
+,	659	660	O
+and	661	664	O
+u	665	666	B-Process
+is	667	669	O
+the	670	673	O
+fractional	674	684	B-Process
+momentum	685	693	I-Process
+of	694	696	I-Process
+the	697	700	I-Process
+vector	701	707	I-Process
+meson	708	713	I-Process
+carried	714	721	I-Process
+by	722	724	I-Process
+one	725	728	I-Process
+of	729	731	I-Process
+the	732	735	I-Process
+two	736	739	I-Process
+partons	740	747	I-Process
+.	747	748	O
+
+The	749	752	O
+quantities	753	763	O
+TiI	764	767	O
+and	768	771	O
+TiII	772	776	O
+are	777	780	O
+the	781	784	O
+hard	785	789	O
+-	789	790	O
+perturbative	790	802	O
+kernels	803	810	O
+calculated	811	821	O
+to	822	824	O
+order	825	830	O
+αs	831	833	O
+,	833	834	O
+with	835	839	O
+the	840	843	O
+latter	844	850	O
+containing	851	861	O
+the	862	865	O
+so	866	868	O
+-	868	869	O
+called	869	875	O
+hard	876	880	O
+-	880	881	O
+spectator	881	890	O
+contributions	891	904	O
+.	904	905	O
+
+The	906	909	B-Process
+factorization	910	923	I-Process
+formula	924	931	I-Process
+(	932	933	O
+11	933	935	O
+)	935	936	O
+holds	937	942	O
+in	943	945	O
+the	946	949	O
+heavy	950	955	B-Material
+quark	956	961	I-Material
+limit	962	967	O
+,	967	968	O
+i.e.	969	973	O
+,	973	974	O
+to	975	977	O
+order	978	983	O
+ΛQCD	984	988	O
+/	988	989	O
+MB	989	991	O
+.	991	992	O
+
+This	993	997	B-Process
+factorization	998	1011	I-Process
+framework	1012	1021	I-Process
+has	1022	1025	O
+been	1026	1030	O
+used	1031	1035	O
+to	1036	1038	O
+calculate	1039	1048	O
+the	1049	1052	O
+branching	1053	1062	O
+fractions	1063	1072	O
+and	1073	1076	O
+related	1077	1084	O
+quantities	1085	1095	O
+for	1096	1099	O
+the	1100	1103	O
+decays	1104	1110	O
+
+B→K∗γ	1111	1116	O
+[	1117	1118	O
+15–17	1118	1123	O
+]	1123	1124	O
+and	1125	1128	O
+B→ργ	1129	1133	O
+[	1134	1135	O
+15,17	1135	1140	O
+]	1140	1141	O
+.	1141	1142	O
+
+The	1143	1146	O
+isospin	1147	1154	B-Task
+violation	1155	1164	I-Task
+in	1165	1167	I-Task
+the	1168	1171	I-Task
+B→K∗γ	1172	1177	I-Task
+decays	1178	1184	I-Task
+in	1185	1187	O
+this	1188	1192	O
+framework	1193	1202	O
+have	1203	1207	O
+also	1208	1212	O
+been	1213	1217	O
+studied	1218	1225	O
+[	1226	1227	O
+18	1227	1229	O
+]	1229	1230	O
+.	1230	1231	O
+
+(	1232	1233	O
+For	1233	1236	O
+applications	1237	1249	O
+to	1250	1252	O
+B→K∗γ∗	1253	1259	O
+,	1259	1260	O
+see	1261	1264	O
+Refs	1265	1269	O
+.	1269	1270	O
+
+[	1271	1272	O
+16,19,20	1272	1280	O
+]	1280	1281	O
+.	1281	1282	O
+)	1282	1283	O
+
+Very	1284	1288	O
+recently	1289	1297	O
+,	1297	1298	O
+the	1299	1302	O
+hard	1303	1307	B-Task
+-	1307	1308	I-Task
+spectator	1308	1317	I-Task
+contribution	1318	1330	I-Task
+arising	1331	1338	I-Task
+from	1339	1343	I-Task
+the	1344	1347	I-Task
+chromomagnetic	1348	1362	I-Task
+operator	1363	1371	I-Task
+O8	1372	1374	I-Task
+have	1375	1379	O
+also	1380	1384	O
+been	1385	1389	O
+calculated	1390	1400	O
+in	1401	1403	O
+next	1404	1408	B-Process
+-	1408	1409	I-Process
+to	1409	1411	I-Process
+-	1411	1412	I-Process
+next	1412	1416	I-Process
+-	1416	1417	I-Process
+to	1417	1419	I-Process
+-	1419	1420	I-Process
+leading	1420	1427	I-Process
+order	1428	1433	I-Process
+(	1434	1435	O
+NNLO	1435	1439	B-Process
+)	1439	1440	O
+in	1441	1443	O
+αs	1444	1446	O
+showing	1447	1454	O
+that	1455	1459	O
+the	1460	1463	O
+spectator	1464	1473	B-Task
+interactions	1474	1486	I-Task
+factorize	1487	1496	O
+in	1497	1499	O
+the	1500	1503	O
+heavy	1504	1509	O
+quark	1510	1515	O
+limit	1516	1521	O
+[	1522	1523	O
+21	1523	1525	O
+]	1525	1526	O
+.	1526	1527	O
+
+However	1528	1535	O
+,	1535	1536	O
+the	1537	1540	O
+numerical	1541	1550	O
+effect	1551	1557	O
+of	1558	1560	O
+the	1561	1564	O
+resummed	1565	1573	O
+NNLO	1574	1578	O
+contributions	1579	1592	O
+is	1593	1595	O
+marginal	1596	1604	O
+and	1605	1608	O
+we	1609	1611	O
+shall	1612	1617	O
+not	1618	1621	O
+include	1622	1629	O
+this	1630	1634	O
+in	1635	1637	O
+our	1638	1641	O
+update	1642	1648	O
+.	1648	1649	O
 
 
 -DOCSTART- (S0370269304009013)
 
-Several	NN	O	O
-methods	NN	O	O
-based	NN	O	O
-on	NN	O	O
-dynamical	NN	O	O
-assumptions	NN	O	O
-were	NN	O	O
-suggested	NN	O	O
-for	NN	O	O
-determination	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-P	NN	O	I-Task
--	NN	O	I-Task
-parity	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-Θ+	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-According	NN	O	O
-to	NN	O	O
-a	NN	O	O
-general	NN	O	B-Process
-theorem	NN	O	I-Process
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-determine	NN	O	B-Task
-the	NN	O	I-Task
-parity	NN	O	I-Task
-of	NN	O	O
-one	NN	O	O
-particle	NN	O	B-Material
-in	NN	O	O
-a	NN	O	O
-binary	NN	O	B-Process
-reaction	NN	O	I-Process
-one	NN	O	O
-has	NN	O	O
-to	NN	O	O
-know	NN	O	O
-polarizations	NN	O	O
-at	NN	O	O
-least	NN	O	O
-of	NN	O	O
-two	NN	O	O
-fermions	NN	O	B-Material
-participating	NN	O	O
-in	NN	O	O
-this	NN	O	B-Process
-reaction	NN	O	I-Process
-.	NN	O	O
-
-Model	NN	O	B-Process
-independent	NN	O	I-Process
-methods	NN	O	I-Process
-for	NN	O	O
-determination	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-P	NN	O	I-Task
--	NN	O	I-Task
-parity	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-Θ+	NN	O	O
-were	NN	O	O
-suggested	NN	O	O
-recently	NN	O	O
-in	NN	O	O
-Refs	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-15,16	NN	O	O
-]	NN	O	O
-for	NN	O	O
-pp	NN	O	B-Process
--	NN	O	I-Process
-collision	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-in	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-for	NN	O	O
-photoproduction	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-Θ+	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-method	NN	O	O
-of	NN	O	O
-Refs	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-15,16	NN	O	O
-]	NN	O	O
-,	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-assumption	NN	O	O
-that	NN	O	O
-the	NN	O	O
-spin	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Θ+	NN	O	O
-equals	NN	O	O
-12	NN	O	O
-,	NN	O	O
-suggests	NN	O	O
-to	NN	O	O
-measure	NN	O	B-Process
-the	NN	O	I-Process
-spin	NN	O	I-Process
-–	NN	O	I-Process
-spin	NN	O	I-Process
-correlation	NN	O	I-Process
-parameter	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-reaction	NN	O	O
-p→p→→Σ+Θ+	NN	O	O
-near	NN	O	O
-the	NN	O	O
-threshold	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-generalize	NN	O	O
-here	NN	O	O
-this	NN	O	O
-method	NN	O	O
-for	NN	O	O
-an	NN	O	O
-arbitrary	NN	O	O
-spin	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Θ+	NN	O	O
-and	NN	O	O
-both	NN	O	O
-isospins	NN	O	O
-T=0	NN	O	O
-and	NN	O	O
-T=1	NN	O	O
-of	NN	O	O
-the	NN	O	O
-NN	NN	O	O
-channel	NN	O	O
-of	NN	O	O
-the	NN	O	O
-NN→YΘ+	NN	O	O
-reaction	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-we	NN	O	O
-consider	NN	O	O
-a	NN	O	O
-polarization	NN	O	B-Process
-transfer	NN	O	I-Process
-from	NN	O	O
-a	NN	O	O
-nucleon	NN	O	B-Material
-to	NN	O	O
-the	NN	O	B-Material
-hyperon	NN	O	I-Material
-Y	NN	O	I-Material
-in	NN	O	O
-this	NN	O	O
-reaction	NN	O	O
-.	NN	O	O
-
-Our	NN	O	O
-consideration	NN	O	O
-is	NN	O	O
-model	NN	O	O
-independent	NN	O	O
-,	NN	O	O
-since	NN	O	O
-it	NN	O	O
-is	NN	O	O
-based	NN	O	O
-only	NN	O	O
-on	NN	O	O
-conservation	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-P	NN	O	I-Process
--	NN	O	I-Process
-parity	NN	O	I-Process
-,	NN	O	O
-total	NN	O	B-Process
-angular	NN	O	I-Process
-momentum	NN	O	I-Process
-and	NN	O	O
-isospin	NN	O	B-Process
-in	NN	O	O
-the	NN	O	O
-reaction	NN	O	B-Process
-and	NN	O	O
-the	NN	O	O
-generalized	NN	O	O
-Pauli	NN	O	O
-principle	NN	O	O
-for	NN	O	O
-nucleons	NN	O	B-Material
-.	NN	O	O
+Several	0	7	O
+methods	8	15	O
+based	16	21	O
+on	22	24	O
+dynamical	25	34	O
+assumptions	35	46	O
+were	47	51	O
+suggested	52	61	O
+for	62	65	O
+determination	66	79	B-Task
+of	80	82	I-Task
+the	83	86	I-Task
+P	87	88	I-Task
+-	88	89	I-Task
+parity	89	95	I-Task
+of	96	98	O
+the	99	102	O
+Θ+	103	105	O
+[	106	107	O
+13	107	109	O
+]	109	110	O
+.	110	111	O
+
+According	112	121	O
+to	122	124	O
+a	125	126	O
+general	127	134	B-Process
+theorem	135	142	I-Process
+[	143	144	O
+14	144	146	O
+]	146	147	O
+,	147	148	O
+in	149	151	O
+order	152	157	O
+to	158	160	O
+determine	161	170	B-Task
+the	171	174	I-Task
+parity	175	181	I-Task
+of	182	184	O
+one	185	188	O
+particle	189	197	B-Material
+in	198	200	O
+a	201	202	O
+binary	203	209	B-Process
+reaction	210	218	I-Process
+one	219	222	O
+has	223	226	O
+to	227	229	O
+know	230	234	O
+polarizations	235	248	O
+at	249	251	O
+least	252	257	O
+of	258	260	O
+two	261	264	O
+fermions	265	273	B-Material
+participating	274	287	O
+in	288	290	O
+this	291	295	B-Process
+reaction	296	304	I-Process
+.	304	305	O
+
+Model	306	311	B-Process
+independent	312	323	I-Process
+methods	324	331	I-Process
+for	332	335	O
+determination	336	349	B-Task
+of	350	352	I-Task
+the	353	356	I-Task
+P	357	358	I-Task
+-	358	359	I-Task
+parity	359	365	I-Task
+of	366	368	O
+the	369	372	O
+Θ+	373	375	O
+were	376	380	O
+suggested	381	390	O
+recently	391	399	O
+in	400	402	O
+Refs	403	407	O
+.	407	408	O
+
+[	409	410	O
+15,16	410	415	O
+]	415	416	O
+for	417	420	O
+pp	421	423	B-Process
+-	423	424	I-Process
+collision	424	433	I-Process
+,	433	434	O
+and	435	438	O
+in	439	441	O
+Ref	442	445	O
+.	445	446	O
+
+[	447	448	O
+17	448	450	O
+]	450	451	O
+for	452	455	O
+photoproduction	456	471	B-Process
+of	472	474	O
+the	475	478	O
+Θ+	479	481	O
+.	481	482	O
+
+The	483	486	O
+method	487	493	O
+of	494	496	O
+Refs	497	501	O
+.	501	502	O
+
+[	503	504	O
+15,16	504	509	O
+]	509	510	O
+,	510	511	O
+based	512	517	O
+on	518	520	O
+the	521	524	O
+assumption	525	535	O
+that	536	540	O
+the	541	544	O
+spin	545	549	O
+of	550	552	O
+the	553	556	O
+Θ+	557	559	O
+equals	560	566	O
+12	567	569	O
+,	569	570	O
+suggests	571	579	O
+to	580	582	O
+measure	583	590	B-Process
+the	591	594	I-Process
+spin	595	599	I-Process
+–	599	600	I-Process
+spin	600	604	I-Process
+correlation	605	616	I-Process
+parameter	617	626	I-Process
+in	627	629	O
+the	630	633	O
+reaction	634	642	O
+p→p→→Σ+Θ+	643	652	O
+near	653	657	O
+the	658	661	O
+threshold	662	671	O
+.	671	672	O
+
+We	673	675	O
+generalize	676	686	O
+here	687	691	O
+this	692	696	O
+method	697	703	O
+for	704	707	O
+an	708	710	O
+arbitrary	711	720	O
+spin	721	725	O
+of	726	728	O
+the	729	732	O
+Θ+	733	735	O
+and	736	739	O
+both	740	744	O
+isospins	745	753	O
+T=0	754	757	O
+and	758	761	O
+T=1	762	765	O
+of	766	768	O
+the	769	772	O
+NN	773	775	O
+channel	776	783	O
+of	784	786	O
+the	787	790	O
+NN→YΘ+	791	797	O
+reaction	798	806	O
+.	806	807	O
+
+Furthermore	808	819	O
+,	819	820	O
+we	821	823	O
+consider	824	832	O
+a	833	834	O
+polarization	835	847	B-Process
+transfer	848	856	I-Process
+from	857	861	O
+a	862	863	O
+nucleon	864	871	B-Material
+to	872	874	O
+the	875	878	B-Material
+hyperon	879	886	I-Material
+Y	887	888	I-Material
+in	889	891	O
+this	892	896	O
+reaction	897	905	O
+.	905	906	O
+
+Our	907	910	O
+consideration	911	924	O
+is	925	927	O
+model	928	933	O
+independent	934	945	O
+,	945	946	O
+since	947	952	O
+it	953	955	O
+is	956	958	O
+based	959	964	O
+only	965	969	O
+on	970	972	O
+conservation	973	985	B-Process
+of	986	988	I-Process
+the	989	992	I-Process
+P	993	994	I-Process
+-	994	995	I-Process
+parity	995	1001	I-Process
+,	1001	1002	O
+total	1003	1008	B-Process
+angular	1009	1016	I-Process
+momentum	1017	1025	I-Process
+and	1026	1029	O
+isospin	1030	1037	B-Process
+in	1038	1040	O
+the	1041	1044	O
+reaction	1045	1053	B-Process
+and	1054	1057	O
+the	1058	1061	O
+generalized	1062	1073	O
+Pauli	1074	1079	O
+principle	1080	1089	O
+for	1090	1093	O
+nucleons	1094	1102	B-Material
+.	1102	1103	O
 
 
 -DOCSTART- (S0370269304009025)
 
-A	NN	O	O
-central	NN	O	O
-question	NN	O	O
-from	NN	O	O
-the	NN	O	O
-point	NN	O	O
-of	NN	O	O
-view	NN	O	O
-of	NN	O	O
-nuclear	NN	O	O
-physics	NN	O	O
-involves	NN	O	O
-the	NN	O	O
-changes	NN	O	B-Task
-to	NN	O	I-Task
-the	NN	O	I-Task
-quark	NN	O	I-Task
-and	NN	O	I-Task
-antiquark	NN	O	I-Task
-distributions	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-bound	NN	O	I-Task
-proton	NN	O	I-Task
-.	NN	O	O
-
-Since	NN	O	O
-one	NN	O	O
-must	NN	O	O
-develop	NN	O	B-Task
-a	NN	O	I-Task
-reliable	NN	O	I-Task
-model	NN	O	I-Task
-of	NN	O	I-Task
-both	NN	O	I-Task
-the	NN	O	I-Task
-free	NN	O	I-Task
-proton	NN	O	I-Task
-and	NN	O	I-Task
-the	NN	O	I-Task
-binding	NN	O	I-Task
-of	NN	O	I-Task
-nucleons	NN	O	I-Task
-starting	NN	O	I-Task
-from	NN	O	I-Task
-the	NN	O	I-Task
-quark	NN	O	I-Task
-level	NN	O	I-Task
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-,	NN	O	O
-this	NN	O	O
-problem	NN	O	O
-is	NN	O	O
-rather	NN	O	O
-complicated	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-intend	NN	O	O
-to	NN	O	O
-report	NN	O	O
-on	NN	O	O
-our	NN	O	O
-investigation	NN	O	O
-of	NN	O	O
-that	NN	O	O
-problem	NN	O	O
-in	NN	O	O
-future	NN	O	O
-work	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-present	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-chosen	NN	O	O
-to	NN	O	O
-illustrate	NN	O	B-Process
-the	NN	O	I-Process
-formal	NN	O	I-Process
-ideas	NN	O	I-Process
-developed	NN	O	I-Process
-here	NN	O	I-Process
-by	NN	O	I-Process
-applying	NN	O	I-Process
-them	NN	O	I-Process
-to	NN	O	I-Process
-a	NN	O	I-Process
-toy	NN	O	I-Process
-model	NN	O	I-Process
-,	NN	O	O
-namely	NN	O	O
-the	NN	O	O
-quark	NN	O	B-Material
-distributions	NN	O	I-Material
-of	NN	O	I-Material
-isospin	NN	O	I-Material
-symmetric	NN	O	I-Material
-quark	NN	O	I-Material
-matter	NN	O	I-Material
-in	NN	O	O
-which	NN	O	O
-each	NN	O	B-Process
-quark	NN	O	I-Process
-feels	NN	O	I-Process
-a	NN	O	I-Process
-scalar	NN	O	I-Process
-potential	NN	O	I-Process
-,	NN	O	I-Process
-−Vsq	NN	O	I-Process
-,	NN	O	I-Process
-and	NN	O	I-Process
-a	NN	O	I-Process
-vector	NN	O	I-Process
-potential	NN	O	I-Process
-,	NN	O	I-Process
-Vvq	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-the	NN	O	O
-premise	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Quark	NN	O	B-Process
-–	NN	O	I-Process
-Meson	NN	O	I-Process
-Coupling	NN	O	I-Process
-(	NN	O	O
-QMC	NN	O	B-Process
-)	NN	O	O
-model	NN	O	O
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-which	NN	O	O
-has	NN	O	O
-been	NN	O	O
-used	NN	O	O
-successfully	NN	O	O
-to	NN	O	O
-calculate	NN	O	B-Task
-the	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	I-Task
-nuclear	NN	O	I-Task
-matter	NN	O	I-Task
-as	NN	O	I-Task
-well	NN	O	I-Task
-as	NN	O	I-Task
-finite	NN	O	I-Task
-nuclei	NN	O	I-Task
-[	NN	O	O
-10,11	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Most	NN	O	O
-recently	NN	O	O
-it	NN	O	O
-has	NN	O	O
-also	NN	O	O
-been	NN	O	O
-used	NN	O	O
-to	NN	O	O
-derive	NN	O	O
-an	NN	O	O
-effective	NN	O	B-Task
-nuclear	NN	O	I-Task
-force	NN	O	I-Task
-which	NN	O	O
-is	NN	O	O
-very	NN	O	O
-close	NN	O	O
-to	NN	O	O
-the	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-Skyrme	NN	O	O
-III	NN	O	O
-force	NN	O	O
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-Except	NN	O	O
-that	NN	O	O
-in	NN	O	O
-QMC	NN	O	O
-the	NN	O	O
-quarks	NN	O	O
-are	NN	O	O
-confined	NN	O	O
-by	NN	O	O
-the	NN	O	O
-MIT	NN	O	O
-bag	NN	O	O
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-feeling	NN	O	O
-the	NN	O	O
-mean	NN	O	O
--	NN	O	O
-field	NN	O	O
-scalar	NN	O	O
-and	NN	O	O
-vector	NN	O	O
-potentials	NN	O	O
-generated	NN	O	O
-by	NN	O	O
-the	NN	O	O
-surrounding	NN	O	O
-nucleons	NN	O	O
-.	NN	O	O
-)	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-mean	NN	O	B-Process
-field	NN	O	I-Process
-approximation	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-Dirac	NN	O	B-Task
-equation	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-quark	NN	O	I-Task
-in	NN	O	I-Task
-infinite	NN	O	I-Task
-quark	NN	O	I-Task
-matter	NN	O	I-Task
-is	NN	O	O
-written	NN	O	O
-as	NN	O	O
-:	NN	O	O
-(	NN	O	B-Task
-30)iγ·∂−m−Vqs−γ0VqvψQMq(x)=0	NN	O	I-Task
-.	NN	O	O
+A	0	1	O
+central	2	9	O
+question	10	18	O
+from	19	23	O
+the	24	27	O
+point	28	33	O
+of	34	36	O
+view	37	41	O
+of	42	44	O
+nuclear	45	52	O
+physics	53	60	O
+involves	61	69	O
+the	70	73	O
+changes	74	81	B-Task
+to	82	84	I-Task
+the	85	88	I-Task
+quark	89	94	I-Task
+and	95	98	I-Task
+antiquark	99	108	I-Task
+distributions	109	122	I-Task
+of	123	125	I-Task
+a	126	127	I-Task
+bound	128	133	I-Task
+proton	134	140	I-Task
+.	140	141	O
+
+Since	142	147	O
+one	148	151	O
+must	152	156	O
+develop	157	164	B-Task
+a	165	166	I-Task
+reliable	167	175	I-Task
+model	176	181	I-Task
+of	182	184	I-Task
+both	185	189	I-Task
+the	190	193	I-Task
+free	194	198	I-Task
+proton	199	205	I-Task
+and	206	209	I-Task
+the	210	213	I-Task
+binding	214	221	I-Task
+of	222	224	I-Task
+nucleons	225	233	I-Task
+starting	234	242	I-Task
+from	243	247	I-Task
+the	248	251	I-Task
+quark	252	257	I-Task
+level	258	263	I-Task
+[	264	265	O
+8	265	266	O
+]	266	267	O
+,	267	268	O
+this	269	273	O
+problem	274	281	O
+is	282	284	O
+rather	285	291	O
+complicated	292	303	O
+.	303	304	O
+
+We	305	307	O
+intend	308	314	O
+to	315	317	O
+report	318	324	O
+on	325	327	O
+our	328	331	O
+investigation	332	345	O
+of	346	348	O
+that	349	353	O
+problem	354	361	O
+in	362	364	O
+future	365	371	O
+work	372	376	O
+.	376	377	O
+
+For	378	381	O
+the	382	385	O
+present	386	393	O
+,	393	394	O
+we	395	397	O
+have	398	402	O
+chosen	403	409	O
+to	410	412	O
+illustrate	413	423	B-Process
+the	424	427	I-Process
+formal	428	434	I-Process
+ideas	435	440	I-Process
+developed	441	450	I-Process
+here	451	455	I-Process
+by	456	458	I-Process
+applying	459	467	I-Process
+them	468	472	I-Process
+to	473	475	I-Process
+a	476	477	I-Process
+toy	478	481	I-Process
+model	482	487	I-Process
+,	487	488	O
+namely	489	495	O
+the	496	499	O
+quark	500	505	B-Material
+distributions	506	519	I-Material
+of	520	522	I-Material
+isospin	523	530	I-Material
+symmetric	531	540	I-Material
+quark	541	546	I-Material
+matter	547	553	I-Material
+in	554	556	O
+which	557	562	O
+each	563	567	B-Process
+quark	568	573	I-Process
+feels	574	579	I-Process
+a	580	581	I-Process
+scalar	582	588	I-Process
+potential	589	598	I-Process
+,	598	599	I-Process
+−Vsq	600	604	I-Process
+,	604	605	I-Process
+and	606	609	I-Process
+a	610	611	I-Process
+vector	612	618	I-Process
+potential	619	628	I-Process
+,	628	629	I-Process
+Vvq	630	633	I-Process
+.	633	634	O
+
+This	635	639	O
+is	640	642	O
+the	643	646	O
+premise	647	654	O
+of	655	657	O
+the	658	661	O
+Quark	662	667	B-Process
+–	667	668	I-Process
+Meson	668	673	I-Process
+Coupling	674	682	I-Process
+(	683	684	O
+QMC	684	687	B-Process
+)	687	688	O
+model	689	694	O
+[	695	696	O
+9	696	697	O
+]	697	698	O
+which	699	704	O
+has	705	708	O
+been	709	713	O
+used	714	718	O
+successfully	719	731	O
+to	732	734	O
+calculate	735	744	B-Task
+the	745	748	I-Task
+properties	749	759	I-Task
+of	760	762	I-Task
+nuclear	763	770	I-Task
+matter	771	777	I-Task
+as	778	780	I-Task
+well	781	785	I-Task
+as	786	788	I-Task
+finite	789	795	I-Task
+nuclei	796	802	I-Task
+[	803	804	O
+10,11	804	809	O
+]	809	810	O
+.	810	811	O
+
+Most	812	816	O
+recently	817	825	O
+it	826	828	O
+has	829	832	O
+also	833	837	O
+been	838	842	O
+used	843	847	O
+to	848	850	O
+derive	851	857	O
+an	858	860	O
+effective	861	870	B-Task
+nuclear	871	878	I-Task
+force	879	884	I-Task
+which	885	890	O
+is	891	893	O
+very	894	898	O
+close	899	904	O
+to	905	907	O
+the	908	911	O
+widely	912	918	O
+used	919	923	O
+Skyrme	924	930	O
+III	931	934	O
+force	935	940	O
+[	941	942	O
+12	942	944	O
+]	944	945	O
+.	945	946	O
+
+(	947	948	O
+Except	948	954	O
+that	955	959	O
+in	960	962	O
+QMC	963	966	O
+the	967	970	O
+quarks	971	977	O
+are	978	981	O
+confined	982	990	O
+by	991	993	O
+the	994	997	O
+MIT	998	1001	O
+bag	1002	1005	O
+,	1005	1006	O
+as	1007	1009	O
+well	1010	1014	O
+as	1015	1017	O
+feeling	1018	1025	O
+the	1026	1029	O
+mean	1030	1034	O
+-	1034	1035	O
+field	1035	1040	O
+scalar	1041	1047	O
+and	1048	1051	O
+vector	1052	1058	O
+potentials	1059	1069	O
+generated	1070	1079	O
+by	1080	1082	O
+the	1083	1086	O
+surrounding	1087	1098	O
+nucleons	1099	1107	O
+.	1107	1108	O
+)	1108	1109	O
+
+In	1110	1112	O
+the	1113	1116	O
+mean	1117	1121	B-Process
+field	1122	1127	I-Process
+approximation	1128	1141	I-Process
+,	1141	1142	O
+the	1143	1146	O
+Dirac	1147	1152	B-Task
+equation	1153	1161	I-Task
+for	1162	1165	I-Task
+the	1166	1169	I-Task
+quark	1170	1175	I-Task
+in	1176	1178	I-Task
+infinite	1179	1187	I-Task
+quark	1188	1193	I-Task
+matter	1194	1200	I-Task
+is	1201	1203	O
+written	1204	1211	O
+as	1212	1214	O
+:	1214	1215	O
+(	1216	1217	B-Task
+30)iγ·∂−m−Vqs−γ0VqvψQMq(x)=0	1217	1245	I-Task
+.	1245	1246	O
 
 
 -DOCSTART- (S0370269304009037)
 
-Within	NN	O	O
-a	NN	O	O
-coalescence	NN	O	B-Process
-approach	NN	O	I-Process
-as	NN	O	O
-successfully	NN	O	O
-applied	NN	O	O
-earlier	NN	O	O
-in	NN	O	O
-the	NN	O	O
-light	NN	O	B-Task
--	NN	O	I-Task
-quark	NN	O	I-Task
-sector	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-evaluated	NN	O	B-Process
-transverse	NN	O	I-Process
--	NN	O	I-Process
-momentum	NN	O	I-Process
-dependencies	NN	O	I-Process
-of	NN	O	O
-charmed	NN	O	B-Material
-hadrons	NN	O	I-Material
-in	NN	O	O
-central	NN	O	B-Process
-heavy	NN	O	I-Process
--	NN	O	I-Process
-ion	NN	O	I-Process
-reactions	NN	O	I-Process
-at	NN	O	O
-RHIC	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-charm	NN	O	B-Task
--	NN	O	I-Task
-quark	NN	O	I-Task
-distributions	NN	O	I-Task
-at	NN	O	O
-hadronization	NN	O	B-Process
-we	NN	O	O
-have	NN	O	O
-considered	NN	O	O
-two	NN	O	O
-limiting	NN	O	O
-scenarios	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-no	NN	O	O
-reinteractions	NN	O	O
-(	NN	O	O
-using	NN	O	O
-spectra	NN	O	B-Material
-from	NN	O	O
-PYTHIA	NN	O	O
-)	NN	O	O
-and	NN	O	O
-complete	NN	O	B-Process
-thermalization	NN	O	I-Process
-with	NN	O	O
-transverse	NN	O	B-Process
-flow	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-bulk	NN	O	O
-matter	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resulting	NN	O	O
-J/ψ	NN	O	O
-(	NN	O	O
-mT-)spectra	NN	O	O
-differ	NN	O	O
-in	NN	O	O
-slope	NN	O	O
-by	NN	O	O
-up	NN	O	O
-to	NN	O	O
-a	NN	O	O
-factor	NN	O	O
-of	NN	O	O
-2	NN	O	O
-(	NN	O	O
-harder	NN	O	O
-for	NN	O	O
-pQCD	NN	O	B-Material
-c	NN	O	I-Material
--	NN	O	I-Material
-quarks	NN	O	I-Material
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-integrated	NN	O	B-Process
-yield	NN	O	I-Process
-is	NN	O	O
-about	NN	O	O
-a	NN	O	O
-factor	NN	O	O
-of	NN	O	O
-3	NN	O	O
-larger	NN	O	O
-in	NN	O	O
-the	NN	O	O
-thermal	NN	O	O
-case	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-D	NN	O	B-Material
--	NN	O	I-Material
-mesons	NN	O	I-Material
-,	NN	O	O
-we	NN	O	O
-found	NN	O	O
-that	NN	O	O
-the	NN	O	O
-difference	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-slope	NN	O	I-Process
-parameters	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-pT	NN	O	B-Task
--	NN	O	I-Task
-spectra	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-two	NN	O	O
-scenarios	NN	O	O
-is	NN	O	O
-less	NN	O	O
-pronounced	NN	O	O
-,	NN	O	O
-but	NN	O	O
-their	NN	O	O
-elliptic	NN	O	B-Process
-flow	NN	O	I-Process
-is	NN	O	O
-about	NN	O	O
-a	NN	O	O
-factor	NN	O	O
-of	NN	O	O
-2	NN	O	O
-larger	NN	O	O
-for	NN	O	O
-pT⩾1.5	NN	O	O
-GeV	NN	O	O
-in	NN	O	O
-the	NN	O	O
-thermalized	NN	O	O
-case	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-elliptic	NN	O	B-Process
-flow	NN	O	I-Process
-pattern	NN	O	I-Process
-of	NN	O	O
-D	NN	O	B-Material
--	NN	O	I-Material
-mesons	NN	O	I-Material
-was	NN	O	O
-found	NN	O	O
-to	NN	O	O
-be	NN	O	O
-essentially	NN	O	O
-preserved	NN	O	O
-in	NN	O	O
-the	NN	O	O
-single	NN	O	B-Task
--	NN	O	I-Task
-electron	NN	O	I-Task
-decay	NN	O	I-Task
-spectra	NN	O	I-Task
-,	NN	O	O
-rendering	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-a	NN	O	O
-very	NN	O	O
-promising	NN	O	O
-observable	NN	O	O
-to	NN	O	O
-address	NN	O	O
-the	NN	O	O
-strength	NN	O	O
-of	NN	O	O
-charm	NN	O	B-Process
-reinteractions	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-QGP	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-present	NN	O	O
-study	NN	O	O
-can	NN	O	O
-be	NN	O	O
-straightforwardly	NN	O	O
-generalized	NN	O	O
-to	NN	O	O
-charmed	NN	O	O
-baryons	NN	O	B-Material
-(	NN	O	O
-Λc	NN	O	O
-)	NN	O	O
-,	NN	O	O
-which	NN	O	O
-may	NN	O	O
-serve	NN	O	O
-as	NN	O	O
-a	NN	O	O
-complimentary	NN	O	B-Material
-probe	NN	O	I-Material
-for	NN	O	O
-charm	NN	O	B-Process
--	NN	O	I-Process
-quark	NN	O	I-Process
-reinteractions	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-QGP	NN	O	B-Process
-.	NN	O	O
+Within	0	6	O
+a	7	8	O
+coalescence	9	20	B-Process
+approach	21	29	I-Process
+as	30	32	O
+successfully	33	45	O
+applied	46	53	O
+earlier	54	61	O
+in	62	64	O
+the	65	68	O
+light	69	74	B-Task
+-	74	75	I-Task
+quark	75	80	I-Task
+sector	81	87	I-Task
+,	87	88	O
+we	89	91	O
+have	92	96	O
+evaluated	97	106	B-Process
+transverse	107	117	I-Process
+-	117	118	I-Process
+momentum	118	126	I-Process
+dependencies	127	139	I-Process
+of	140	142	O
+charmed	143	150	B-Material
+hadrons	151	158	I-Material
+in	159	161	O
+central	162	169	B-Process
+heavy	170	175	I-Process
+-	175	176	I-Process
+ion	176	179	I-Process
+reactions	180	189	I-Process
+at	190	192	O
+RHIC	193	197	O
+.	197	198	O
+
+For	199	202	O
+the	203	206	O
+charm	207	212	B-Task
+-	212	213	I-Task
+quark	213	218	I-Task
+distributions	219	232	I-Task
+at	233	235	O
+hadronization	236	249	B-Process
+we	250	252	O
+have	253	257	O
+considered	258	268	O
+two	269	272	O
+limiting	273	281	O
+scenarios	282	291	O
+,	291	292	O
+i.e.	293	297	O
+,	297	298	O
+no	299	301	O
+reinteractions	302	316	O
+(	317	318	O
+using	318	323	O
+spectra	324	331	B-Material
+from	332	336	O
+PYTHIA	337	343	O
+)	343	344	O
+and	345	348	O
+complete	349	357	B-Process
+thermalization	358	372	I-Process
+with	373	377	O
+transverse	378	388	B-Process
+flow	389	393	I-Process
+of	394	396	O
+the	397	400	O
+bulk	401	405	O
+matter	406	412	O
+.	412	413	O
+
+The	414	417	O
+resulting	418	427	O
+J/ψ	428	431	O
+(	432	433	O
+mT-)spectra	433	444	O
+differ	445	451	O
+in	452	454	O
+slope	455	460	O
+by	461	463	O
+up	464	466	O
+to	467	469	O
+a	470	471	O
+factor	472	478	O
+of	479	481	O
+2	482	483	O
+(	484	485	O
+harder	485	491	O
+for	492	495	O
+pQCD	496	500	B-Material
+c	501	502	I-Material
+-	502	503	I-Material
+quarks	503	509	I-Material
+)	509	510	O
+,	510	511	O
+and	512	515	O
+the	516	519	O
+integrated	520	530	B-Process
+yield	531	536	I-Process
+is	537	539	O
+about	540	545	O
+a	546	547	O
+factor	548	554	O
+of	555	557	O
+3	558	559	O
+larger	560	566	O
+in	567	569	O
+the	570	573	O
+thermal	574	581	O
+case	582	586	O
+.	586	587	O
+
+For	588	591	O
+D	592	593	B-Material
+-	593	594	I-Material
+mesons	594	600	I-Material
+,	600	601	O
+we	602	604	O
+found	605	610	O
+that	611	615	O
+the	616	619	O
+difference	620	630	B-Process
+in	631	633	I-Process
+the	634	637	I-Process
+slope	638	643	I-Process
+parameters	644	654	I-Process
+of	655	657	O
+the	658	661	O
+pT	662	664	B-Task
+-	664	665	I-Task
+spectra	665	672	I-Task
+in	673	675	O
+the	676	679	O
+two	680	683	O
+scenarios	684	693	O
+is	694	696	O
+less	697	701	O
+pronounced	702	712	O
+,	712	713	O
+but	714	717	O
+their	718	723	O
+elliptic	724	732	B-Process
+flow	733	737	I-Process
+is	738	740	O
+about	741	746	O
+a	747	748	O
+factor	749	755	O
+of	756	758	O
+2	759	760	O
+larger	761	767	O
+for	768	771	O
+pT⩾1.5	772	778	O
+GeV	779	782	O
+in	783	785	O
+the	786	789	O
+thermalized	790	801	O
+case	802	806	O
+.	806	807	O
+
+The	808	811	O
+elliptic	812	820	B-Process
+flow	821	825	I-Process
+pattern	826	833	I-Process
+of	834	836	O
+D	837	838	B-Material
+-	838	839	I-Material
+mesons	839	845	I-Material
+was	846	849	O
+found	850	855	O
+to	856	858	O
+be	859	861	O
+essentially	862	873	O
+preserved	874	883	O
+in	884	886	O
+the	887	890	O
+single	891	897	B-Task
+-	897	898	I-Task
+electron	898	906	I-Task
+decay	907	912	I-Task
+spectra	913	920	I-Task
+,	920	921	O
+rendering	922	931	O
+the	932	935	O
+latter	936	942	O
+a	943	944	O
+very	945	949	O
+promising	950	959	O
+observable	960	970	O
+to	971	973	O
+address	974	981	O
+the	982	985	O
+strength	986	994	O
+of	995	997	O
+charm	998	1003	B-Process
+reinteractions	1004	1018	I-Process
+in	1019	1021	O
+the	1022	1025	O
+QGP	1026	1029	B-Process
+.	1029	1030	O
+
+The	1031	1034	O
+present	1035	1042	O
+study	1043	1048	O
+can	1049	1052	O
+be	1053	1055	O
+straightforwardly	1056	1073	O
+generalized	1074	1085	O
+to	1086	1088	O
+charmed	1089	1096	O
+baryons	1097	1104	B-Material
+(	1105	1106	O
+Λc	1106	1108	O
+)	1108	1109	O
+,	1109	1110	O
+which	1111	1116	O
+may	1117	1120	O
+serve	1121	1126	O
+as	1127	1129	O
+a	1130	1131	O
+complimentary	1132	1145	B-Material
+probe	1146	1151	I-Material
+for	1152	1155	O
+charm	1156	1161	B-Process
+-	1161	1162	I-Process
+quark	1162	1167	I-Process
+reinteractions	1168	1182	I-Process
+in	1183	1185	O
+the	1186	1189	O
+QGP	1190	1193	B-Process
+.	1193	1194	O
 
 
 -DOCSTART- (S0370269304009049)
 
-One	NN	O	O
-of	NN	O	O
-the	NN	O	O
-challenges	NN	O	O
-in	NN	O	O
-quantum	NN	O	B-Task
-chromodynamics	NN	O	I-Task
-(	NN	O	O
-QCD	NN	O	B-Task
-)	NN	O	O
-is	NN	O	O
-the	NN	O	O
-relativistic	NN	O	B-Task
-bound	NN	O	I-Task
-state	NN	O	I-Task
-problem	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-light	NN	O	B-Process
--	NN	O	I-Process
-cone	NN	O	I-Process
-Hamiltonian	NN	O	I-Process
-approach	NN	O	I-Process
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-light	NN	O	B-Task
--	NN	O	I-Task
-cone	NN	O	I-Task
-wave	NN	O	I-Task
-functions	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-constructed	NN	O	O
-in	NN	O	O
-a	NN	O	O
-boost	NN	O	O
-invariant	NN	O	O
-way	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-necessary	NN	O	O
-to	NN	O	O
-have	NN	O	O
-reliable	NN	O	B-Material
-light	NN	O	I-Material
--	NN	O	I-Material
-cone	NN	O	I-Material
-wave	NN	O	I-Material
-functions	NN	O	I-Material
-if	NN	O	O
-one	NN	O	O
-wants	NN	O	O
-to	NN	O	O
-calculate	NN	O	B-Task
-high	NN	O	I-Task
-energy	NN	O	I-Task
-scattering	NN	O	I-Task
-,	NN	O	O
-especially	NN	O	O
-exclusive	NN	O	O
-reactions	NN	O	B-Process
-.	NN	O	O
-
-Many	NN	O	O
-parametrizations	NN	O	O
-assume	NN	O	O
-separability	NN	O	O
-of	NN	O	O
-the	NN	O	O
-dependence	NN	O	O
-on	NN	O	O
-the	NN	O	O
-longitudinal	NN	O	O
-momentum	NN	O	O
-fraction	NN	O	O
-and	NN	O	O
-transverse	NN	O	O
-momentum	NN	O	O
-which	NN	O	O
-is	NN	O	O
-very	NN	O	O
-unlikely	NN	O	O
-since	NN	O	O
-the	NN	O	O
-two	NN	O	O
-momenta	NN	O	O
-are	NN	O	O
-coupled	NN	O	O
-in	NN	O	O
-the	NN	O	O
-kinetic	NN	O	O
-energy	NN	O	O
-operator	NN	O	O
-.	NN	O	O
-
-Various	NN	O	O
-approaches	NN	O	O
-have	NN	O	O
-been	NN	O	O
-tried	NN	O	O
-to	NN	O	O
-compute	NN	O	O
-such	NN	O	O
-wave	NN	O	O
-functions	NN	O	O
-.	NN	O	O
-
-One	NN	O	O
-can	NN	O	O
-use	NN	O	O
-the	NN	O	O
-usual	NN	O	O
-equal	NN	O	B-Process
-time	NN	O	I-Process
-Hamiltonian	NN	O	I-Process
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-and	NN	O	O
-transform	NN	O	B-Process
-the	NN	O	I-Process
-resulting	NN	O	I-Process
-wave	NN	O	I-Process
-functions	NN	O	I-Process
-into	NN	O	I-Process
-light	NN	O	I-Process
--	NN	O	I-Process
-cone	NN	O	I-Process
-form	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-help	NN	O	O
-of	NN	O	O
-kinematical	NN	O	B-Process
-on	NN	O	I-Process
--	NN	O	I-Process
-shell	NN	O	I-Process
-equations	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-light	NN	O	O
--	NN	O	O
-cone	NN	O	O
-Hamiltonian	NN	O	O
-in	NN	O	O
-a	NN	O	O
-string	NN	O	O
-picture	NN	O	O
-is	NN	O	O
-formulated	NN	O	O
-in	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-More	NN	O	O
-ambitious	NN	O	O
-is	NN	O	O
-the	NN	O	O
-construction	NN	O	B-Task
-of	NN	O	I-Task
-an	NN	O	I-Task
-effective	NN	O	I-Task
-Hamiltonian	NN	O	I-Task
-including	NN	O	I-Task
-the	NN	O	I-Task
-gauge	NN	O	I-Task
-degrees	NN	O	I-Task
-of	NN	O	I-Task
-freedom	NN	O	I-Task
-explicitly	NN	O	I-Task
-and	NN	O	O
-then	NN	O	O
-solving	NN	O	B-Process
-the	NN	O	I-Process
-bound	NN	O	I-Process
-state	NN	O	I-Process
-problem	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-mesons	NN	O	B-Material
-this	NN	O	O
-approach	NN	O	O
-[	NN	O	O
-4,5	NN	O	O
-]	NN	O	O
-still	NN	O	O
-needs	NN	O	O
-many	NN	O	O
-parameters	NN	O	O
-to	NN	O	O
-be	NN	O	O
-fixed	NN	O	O
-.	NN	O	O
-
-Attempts	NN	O	O
-have	NN	O	O
-been	NN	O	O
-made	NN	O	O
-to	NN	O	O
-solve	NN	O	B-Task
-the	NN	O	I-Task
-valence	NN	O	I-Task
-quark	NN	O	I-Task
-wave	NN	O	I-Task
-function	NN	O	I-Task
-for	NN	O	I-Task
-mesons	NN	O	I-Task
-in	NN	O	O
-a	NN	O	O
-simple	NN	O	B-Process
-Hamiltonian	NN	O	I-Process
-with	NN	O	I-Process
-a	NN	O	I-Process
-two	NN	O	I-Process
--	NN	O	I-Process
-body	NN	O	I-Process
-potential	NN	O	I-Process
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
+One	0	3	O
+of	4	6	O
+the	7	10	O
+challenges	11	21	O
+in	22	24	O
+quantum	25	32	B-Task
+chromodynamics	33	47	I-Task
+(	48	49	O
+QCD	49	52	B-Task
+)	52	53	O
+is	54	56	O
+the	57	60	O
+relativistic	61	73	B-Task
+bound	74	79	I-Task
+state	80	85	I-Task
+problem	86	93	I-Task
+.	93	94	O
+
+In	95	97	O
+the	98	101	O
+light	102	107	B-Process
+-	107	108	I-Process
+cone	108	112	I-Process
+Hamiltonian	113	124	I-Process
+approach	125	133	I-Process
+[	134	135	O
+1	135	136	O
+]	136	137	O
+light	138	143	B-Task
+-	143	144	I-Task
+cone	144	148	I-Task
+wave	149	153	I-Task
+functions	154	163	I-Task
+can	164	167	O
+be	168	170	O
+constructed	171	182	O
+in	183	185	O
+a	186	187	O
+boost	188	193	O
+invariant	194	203	O
+way	204	207	O
+.	207	208	O
+
+It	209	211	O
+is	212	214	O
+necessary	215	224	O
+to	225	227	O
+have	228	232	O
+reliable	233	241	B-Material
+light	242	247	I-Material
+-	247	248	I-Material
+cone	248	252	I-Material
+wave	253	257	I-Material
+functions	258	267	I-Material
+if	268	270	O
+one	271	274	O
+wants	275	280	O
+to	281	283	O
+calculate	284	293	B-Task
+high	294	298	I-Task
+energy	299	305	I-Task
+scattering	306	316	I-Task
+,	316	317	O
+especially	318	328	O
+exclusive	329	338	O
+reactions	339	348	B-Process
+.	348	349	O
+
+Many	350	354	O
+parametrizations	355	371	O
+assume	372	378	O
+separability	379	391	O
+of	392	394	O
+the	395	398	O
+dependence	399	409	O
+on	410	412	O
+the	413	416	O
+longitudinal	417	429	O
+momentum	430	438	O
+fraction	439	447	O
+and	448	451	O
+transverse	452	462	O
+momentum	463	471	O
+which	472	477	O
+is	478	480	O
+very	481	485	O
+unlikely	486	494	O
+since	495	500	O
+the	501	504	O
+two	505	508	O
+momenta	509	516	O
+are	517	520	O
+coupled	521	528	O
+in	529	531	O
+the	532	535	O
+kinetic	536	543	O
+energy	544	550	O
+operator	551	559	O
+.	559	560	O
+
+Various	561	568	O
+approaches	569	579	O
+have	580	584	O
+been	585	589	O
+tried	590	595	O
+to	596	598	O
+compute	599	606	O
+such	607	611	O
+wave	612	616	O
+functions	617	626	O
+.	626	627	O
+
+One	628	631	O
+can	632	635	O
+use	636	639	O
+the	640	643	O
+usual	644	649	O
+equal	650	655	B-Process
+time	656	660	I-Process
+Hamiltonian	661	672	I-Process
+[	673	674	O
+2	674	675	O
+]	675	676	O
+and	677	680	O
+transform	681	690	B-Process
+the	691	694	I-Process
+resulting	695	704	I-Process
+wave	705	709	I-Process
+functions	710	719	I-Process
+into	720	724	I-Process
+light	725	730	I-Process
+-	730	731	I-Process
+cone	731	735	I-Process
+form	736	740	I-Process
+with	741	745	O
+the	746	749	O
+help	750	754	O
+of	755	757	O
+kinematical	758	769	B-Process
+on	770	772	I-Process
+-	772	773	I-Process
+shell	773	778	I-Process
+equations	779	788	I-Process
+.	788	789	O
+
+The	790	793	O
+light	794	799	O
+-	799	800	O
+cone	800	804	O
+Hamiltonian	805	816	O
+in	817	819	O
+a	820	821	O
+string	822	828	O
+picture	829	836	O
+is	837	839	O
+formulated	840	850	O
+in	851	853	O
+Ref	854	857	O
+.	857	858	O
+
+[	859	860	O
+3	860	861	O
+]	861	862	O
+.	862	863	O
+
+More	864	868	O
+ambitious	869	878	O
+is	879	881	O
+the	882	885	O
+construction	886	898	B-Task
+of	899	901	I-Task
+an	902	904	I-Task
+effective	905	914	I-Task
+Hamiltonian	915	926	I-Task
+including	927	936	I-Task
+the	937	940	I-Task
+gauge	941	946	I-Task
+degrees	947	954	I-Task
+of	955	957	I-Task
+freedom	958	965	I-Task
+explicitly	966	976	I-Task
+and	977	980	O
+then	981	985	O
+solving	986	993	B-Process
+the	994	997	I-Process
+bound	998	1003	I-Process
+state	1004	1009	I-Process
+problem	1010	1017	I-Process
+.	1017	1018	O
+
+For	1019	1022	O
+mesons	1023	1029	B-Material
+this	1030	1034	O
+approach	1035	1043	O
+[	1044	1045	O
+4,5	1045	1048	O
+]	1048	1049	O
+still	1050	1055	O
+needs	1056	1061	O
+many	1062	1066	O
+parameters	1067	1077	O
+to	1078	1080	O
+be	1081	1083	O
+fixed	1084	1089	O
+.	1089	1090	O
+
+Attempts	1091	1099	O
+have	1100	1104	O
+been	1105	1109	O
+made	1110	1114	O
+to	1115	1117	O
+solve	1118	1123	B-Task
+the	1124	1127	I-Task
+valence	1128	1135	I-Task
+quark	1136	1141	I-Task
+wave	1142	1146	I-Task
+function	1147	1155	I-Task
+for	1156	1159	I-Task
+mesons	1160	1166	I-Task
+in	1167	1169	O
+a	1170	1171	O
+simple	1172	1178	B-Process
+Hamiltonian	1179	1190	I-Process
+with	1191	1195	I-Process
+a	1196	1197	I-Process
+two	1198	1201	I-Process
+-	1201	1202	I-Process
+body	1202	1206	I-Process
+potential	1207	1216	I-Process
+[	1217	1218	O
+6	1218	1219	O
+]	1219	1220	O
+.	1220	1221	O
 
 
 -DOCSTART- (S0370269304009062)
 
-The	NN	O	O
-microwave	NN	O	B-Process
-background	NN	O	I-Process
-is	NN	O	O
-not	NN	O	O
-the	NN	O	O
-only	NN	O	O
-universal	NN	O	B-Material
-photon	NN	O	I-Material
-field	NN	O	I-Material
-that	NN	O	O
-has	NN	O	O
-to	NN	O	O
-be	NN	O	O
-taken	NN	O	B-Process
-in	NN	O	I-Process
-consideration	NN	O	I-Process
-.	NN	O	O
-
-Especially	NN	O	O
-interesting	NN	O	O
-is	NN	O	O
-the	NN	O	O
-isotropic	NN	O	B-Process
-infrared	NN	O	I-Process
-and	NN	O	I-Process
-optical	NN	O	I-Process
-background	NN	O	I-Process
-(	NN	O	O
-IRB	NN	O	B-Process
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-number	NN	O	O
-density	NN	O	O
-of	NN	O	O
-IRB	NN	O	B-Process
-is	NN	O	O
-smaller	NN	O	O
-than	NN	O	O
-that	NN	O	O
-of	NN	O	O
-MBR	NN	O	B-Process
-by	NN	O	O
-more	NN	O	O
-that	NN	O	O
-two	NN	O	O
-orders	NN	O	O
-of	NN	O	O
-magnitude	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-protons	NN	O	B-Material
-of	NN	O	O
-lower	NN	O	O
-energy	NN	O	O
-can	NN	O	O
-interact	NN	O	O
-on	NN	O	O
-the	NN	O	O
-IRB	NN	O	B-Process
-,	NN	O	O
-and	NN	O	O
-the	NN	O	B-Process
-smaller	NN	O	I-Process
-number	NN	O	I-Process
-density	NN	O	I-Process
-has	NN	O	I-Process
-to	NN	O	I-Process
-be	NN	O	I-Process
-weighted	NN	O	I-Process
-with	NN	O	I-Process
-the	NN	O	I-Process
-higher	NN	O	I-Process
-flux	NN	O	I-Process
-of	NN	O	I-Process
-interacting	NN	O	I-Process
-protons	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-present	NN	O	B-Task
-Universe	NN	O	I-Task
-is	NN	O	O
-optically	NN	O	O
-thin	NN	O	O
-to	NN	O	O
-1019	NN	O	O
-eV	NN	O	O
-and	NN	O	O
-lower	NN	O	B-Material
-energy	NN	O	I-Material
-protons	NN	O	I-Material
-,	NN	O	O
-but	NN	O	O
-even	NN	O	O
-at	NN	O	O
-low	NN	O	O
-redshifts	NN	O	O
-the	NN	O	O
-proton	NN	O	B-Task
-interaction	NN	O	I-Task
-rate	NN	O	I-Task
-quickly	NN	O	O
-increases	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-different	NN	O	O
-from	NN	O	O
-the	NN	O	O
-interactions	NN	O	B-Task
-on	NN	O	I-Task
-MBR	NN	O	I-Task
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-interacting	NN	O	B-Material
-protons	NN	O	I-Material
-quickly	NN	O	B-Process
-lose	NN	O	I-Process
-their	NN	O	I-Process
-energy	NN	O	I-Process
-even	NN	O	I-Process
-at	NN	O	I-Process
-z=0	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-cosmological	NN	O	B-Process
-evolution	NN	O	I-Process
-of	NN	O	I-Process
-UHECR	NN	O	I-Process
-injection	NN	O	I-Process
-is	NN	O	O
-thus	NN	O	O
-of	NN	O	O
-major	NN	O	O
-importance	NN	O	O
-for	NN	O	O
-the	NN	O	O
-contribution	NN	O	O
-of	NN	O	O
-such	NN	O	O
-interactions	NN	O	O
-to	NN	O	O
-the	NN	O	O
-flux	NN	O	B-Task
-of	NN	O	I-Task
-cosmogenic	NN	O	I-Task
-neutrinos	NN	O	I-Task
-.	NN	O	O
+The	0	3	O
+microwave	4	13	B-Process
+background	14	24	I-Process
+is	25	27	O
+not	28	31	O
+the	32	35	O
+only	36	40	O
+universal	41	50	B-Material
+photon	51	57	I-Material
+field	58	63	I-Material
+that	64	68	O
+has	69	72	O
+to	73	75	O
+be	76	78	O
+taken	79	84	B-Process
+in	85	87	I-Process
+consideration	88	101	I-Process
+.	101	102	O
+
+Especially	103	113	O
+interesting	114	125	O
+is	126	128	O
+the	129	132	O
+isotropic	133	142	B-Process
+infrared	143	151	I-Process
+and	152	155	I-Process
+optical	156	163	I-Process
+background	164	174	I-Process
+(	175	176	O
+IRB	176	179	B-Process
+)	179	180	O
+.	180	181	O
+
+The	182	185	O
+number	186	192	O
+density	193	200	O
+of	201	203	O
+IRB	204	207	B-Process
+is	208	210	O
+smaller	211	218	O
+than	219	223	O
+that	224	228	O
+of	229	231	O
+MBR	232	235	B-Process
+by	236	238	O
+more	239	243	O
+that	244	248	O
+two	249	252	O
+orders	253	259	O
+of	260	262	O
+magnitude	263	272	O
+.	272	273	O
+
+On	274	276	O
+the	277	280	O
+other	281	286	O
+hand	287	291	O
+,	291	292	O
+protons	293	300	B-Material
+of	301	303	O
+lower	304	309	O
+energy	310	316	O
+can	317	320	O
+interact	321	329	O
+on	330	332	O
+the	333	336	O
+IRB	337	340	B-Process
+,	340	341	O
+and	342	345	O
+the	346	349	B-Process
+smaller	350	357	I-Process
+number	358	364	I-Process
+density	365	372	I-Process
+has	373	376	I-Process
+to	377	379	I-Process
+be	380	382	I-Process
+weighted	383	391	I-Process
+with	392	396	I-Process
+the	397	400	I-Process
+higher	401	407	I-Process
+flux	408	412	I-Process
+of	413	415	I-Process
+interacting	416	427	I-Process
+protons	428	435	I-Process
+.	435	436	O
+
+The	437	440	O
+present	441	448	B-Task
+Universe	449	457	I-Task
+is	458	460	O
+optically	461	470	O
+thin	471	475	O
+to	476	478	O
+1019	479	483	O
+eV	484	486	O
+and	487	490	O
+lower	491	496	B-Material
+energy	497	503	I-Material
+protons	504	511	I-Material
+,	511	512	O
+but	513	516	O
+even	517	521	O
+at	522	524	O
+low	525	528	O
+redshifts	529	538	O
+the	539	542	O
+proton	543	549	B-Task
+interaction	550	561	I-Task
+rate	562	566	I-Task
+quickly	567	574	O
+increases	575	584	O
+.	584	585	O
+
+This	586	590	O
+is	591	593	O
+different	594	603	O
+from	604	608	O
+the	609	612	O
+interactions	613	625	B-Task
+on	626	628	I-Task
+MBR	629	632	I-Task
+,	632	633	O
+where	634	639	O
+the	640	643	O
+interacting	644	655	B-Material
+protons	656	663	I-Material
+quickly	664	671	B-Process
+lose	672	676	I-Process
+their	677	682	I-Process
+energy	683	689	I-Process
+even	690	694	I-Process
+at	695	697	I-Process
+z=0	698	701	I-Process
+.	701	702	O
+
+The	703	706	O
+cosmological	707	719	B-Process
+evolution	720	729	I-Process
+of	730	732	I-Process
+UHECR	733	738	I-Process
+injection	739	748	I-Process
+is	749	751	O
+thus	752	756	O
+of	757	759	O
+major	760	765	O
+importance	766	776	O
+for	777	780	O
+the	781	784	O
+contribution	785	797	O
+of	798	800	O
+such	801	805	O
+interactions	806	818	O
+to	819	821	O
+the	822	825	O
+flux	826	830	B-Task
+of	831	833	I-Task
+cosmogenic	834	844	I-Task
+neutrinos	845	854	I-Task
+.	854	855	O
 
 
 -DOCSTART- (S0370269304009074)
 
-In	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-,	NN	O	O
-we	NN	O	O
-extend	NN	O	B-Task
-the	NN	O	I-Task
-McVittie	NN	O	I-Task
-'s	NN	O	I-Task
-solution	NN	O	I-Task
-into	NN	O	I-Task
-charged	NN	O	I-Task
-black	NN	O	I-Task
-holes	NN	O	I-Task
-.	NN	O	O
-
-We	NN	O	O
-first	NN	O	O
-deduce	NN	O	O
-the	NN	O	O
-metric	NN	O	O
-for	NN	O	O
-a	NN	O	O
-Reissner	NN	O	O
-–	NN	O	O
-
-Nordström	NN	O	O
-black	NN	O	O
-hole	NN	O	O
-in	NN	O	O
-the	NN	O	O
-expanding	NN	O	O
-universe	NN	O	O
-
-;	NN	O	O
-several	NN	O	O
-special	NN	O	O
-cases	NN	O	O
-of	NN	O	O
-our	NN	O	O
-solution	NN	O	O
-are	NN	O	O
-exactly	NN	O	O
-the	NN	O	O
-same	NN	O	O
-as	NN	O	O
-some	NN	O	O
-solutions	NN	O	O
-discovered	NN	O	O
-previously	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-previous	NN	O	O
-work	NN	O	O
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-we	NN	O	O
-have	NN	O	O
-applied	NN	O	B-Task
-the	NN	O	I-Task
-asymptotic	NN	O	I-Task
-conditions	NN	O	I-Task
-to	NN	O	I-Task
-derive	NN	O	I-Task
-the	NN	O	I-Task
-Schwarzschild	NN	O	I-Task
-metric	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-expanding	NN	O	I-Task
-universe	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-exactly	NN	O	O
-the	NN	O	O
-same	NN	O	O
-as	NN	O	O
-that	NN	O	O
-derived	NN	O	O
-by	NN	O	O
-McVittie	NN	O	O
-by	NN	O	O
-solving	NN	O	B-Process
-the	NN	O	I-Process
-full	NN	O	I-Process
-Einstein	NN	O	I-Process
-equations	NN	O	I-Process
-.	NN	O	O
-
-That	NN	O	O
-demonstrates	NN	O	O
-the	NN	O	O
-power	NN	O	O
-of	NN	O	O
-this	NN	O	O
-simple	NN	O	O
-and	NN	O	O
-straight	NN	O	O
--	NN	O	O
-forward	NN	O	O
-approach	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-we	NN	O	O
-follow	NN	O	B-Process
-the	NN	O	I-Process
-same	NN	O	I-Process
-procedure	NN	O	I-Process
-to	NN	O	I-Process
-derive	NN	O	I-Process
-the	NN	O	I-Process
-metric	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-Reissner	NN	O	O
-–	NN	O	O
-
-Nordström	NN	O	O
-black	NN	O	O
-holes	NN	O	O
-in	NN	O	O
-Friedman	NN	O	O
-
-–	NN	O	O
-
-Robertson	NN	O	O
-–	NN	O	O
-Walker	NN	O	O
-universe	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-then	NN	O	O
-study	NN	O	B-Task
-the	NN	O	I-Task
-influences	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-evolution	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-universe	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-size	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-black	NN	O	I-Task
-hole	NN	O	I-Task
-.	NN	O	O
-
-Finally	NN	O	O
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-study	NN	O	B-Task
-the	NN	O	I-Task
-motion	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-planet	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-rewrite	NN	O	B-Process
-the	NN	O	I-Process
-metric	NN	O	I-Process
-from	NN	O	I-Process
-the	NN	O	I-Process
-cosmic	NN	O	I-Process
-coordinates	NN	O	I-Process
-system	NN	O	I-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-Schwarzschild	NN	O	I-Process
-coordinates	NN	O	I-Process
-system	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+Letter	8	14	O
+,	14	15	O
+we	16	18	O
+extend	19	25	B-Task
+the	26	29	I-Task
+McVittie	30	38	I-Task
+'s	38	40	I-Task
+solution	41	49	I-Task
+into	50	54	I-Task
+charged	55	62	I-Task
+black	63	68	I-Task
+holes	69	74	I-Task
+.	74	75	O
+
+We	76	78	O
+first	79	84	O
+deduce	85	91	O
+the	92	95	O
+metric	96	102	O
+for	103	106	O
+a	107	108	O
+Reissner	109	117	O
+–	117	118	O
+
+Nordström	118	127	O
+black	128	133	O
+hole	134	138	O
+in	139	141	O
+the	142	145	O
+expanding	146	155	O
+universe	156	164	O
+
+;	164	165	O
+several	166	173	O
+special	174	181	O
+cases	182	187	O
+of	188	190	O
+our	191	194	O
+solution	195	203	O
+are	204	207	O
+exactly	208	215	O
+the	216	219	O
+same	220	224	O
+as	225	227	O
+some	228	232	O
+solutions	233	242	O
+discovered	243	253	O
+previously	254	264	O
+.	264	265	O
+
+In	266	268	O
+the	269	272	O
+previous	273	281	O
+work	282	286	O
+[	287	288	O
+6	288	289	O
+]	289	290	O
+we	291	293	O
+have	294	298	O
+applied	299	306	B-Task
+the	307	310	I-Task
+asymptotic	311	321	I-Task
+conditions	322	332	I-Task
+to	333	335	I-Task
+derive	336	342	I-Task
+the	343	346	I-Task
+Schwarzschild	347	360	I-Task
+metric	361	367	I-Task
+in	368	370	I-Task
+the	371	374	I-Task
+expanding	375	384	I-Task
+universe	385	393	I-Task
+,	393	394	O
+which	395	400	O
+is	401	403	O
+exactly	404	411	O
+the	412	415	O
+same	416	420	O
+as	421	423	O
+that	424	428	O
+derived	429	436	O
+by	437	439	O
+McVittie	440	448	O
+by	449	451	O
+solving	452	459	B-Process
+the	460	463	I-Process
+full	464	468	I-Process
+Einstein	469	477	I-Process
+equations	478	487	I-Process
+.	487	488	O
+
+That	489	493	O
+demonstrates	494	506	O
+the	507	510	O
+power	511	516	O
+of	517	519	O
+this	520	524	O
+simple	525	531	O
+and	532	535	O
+straight	536	544	O
+-	544	545	O
+forward	545	552	O
+approach	553	561	O
+.	561	562	O
+
+In	563	565	O
+this	566	570	O
+Letter	571	577	O
+we	578	580	O
+follow	581	587	B-Process
+the	588	591	I-Process
+same	592	596	I-Process
+procedure	597	606	I-Process
+to	607	609	I-Process
+derive	610	616	I-Process
+the	617	620	I-Process
+metric	621	627	I-Process
+for	628	631	O
+the	632	635	O
+Reissner	636	644	O
+–	644	645	O
+
+Nordström	645	654	O
+black	655	660	O
+holes	661	666	O
+in	667	669	O
+Friedman	670	678	O
+
+–	678	679	O
+
+Robertson	679	688	O
+–	688	689	O
+Walker	689	695	O
+universe	696	704	O
+.	704	705	O
+
+We	706	708	O
+then	709	713	O
+study	714	719	B-Task
+the	720	723	I-Task
+influences	724	734	I-Task
+of	735	737	I-Task
+the	738	741	I-Task
+evolution	742	751	I-Task
+of	752	754	I-Task
+the	755	758	I-Task
+universe	759	767	I-Task
+on	768	770	I-Task
+the	771	774	I-Task
+size	775	779	I-Task
+of	780	782	I-Task
+the	783	786	I-Task
+black	787	792	I-Task
+hole	793	797	I-Task
+.	797	798	O
+
+Finally	799	806	O
+,	806	807	O
+in	808	810	O
+order	811	816	O
+to	817	819	O
+study	820	825	B-Task
+the	826	829	I-Task
+motion	830	836	I-Task
+of	837	839	I-Task
+the	840	843	I-Task
+planet	844	850	I-Task
+,	850	851	O
+we	852	854	O
+rewrite	855	862	B-Process
+the	863	866	I-Process
+metric	867	873	I-Process
+from	874	878	I-Process
+the	879	882	I-Process
+cosmic	883	889	I-Process
+coordinates	890	901	I-Process
+system	902	908	I-Process
+to	909	911	I-Process
+the	912	915	I-Process
+Schwarzschild	916	929	I-Process
+coordinates	930	941	I-Process
+system	942	948	I-Process
+.	948	949	O
 
 
 -DOCSTART- (S0370269304009086)
 
-The	NN	O	O
-ART	NN	O	B-Process
-model	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-hadronic	NN	O	B-Process
-transport	NN	O	I-Process
-model	NN	O	I-Process
-that	NN	O	O
-includes	NN	O	O
-baryons	NN	O	B-Material
-such	NN	O	O
-as	NN	O	O
-N	NN	O	B-Material
-,	NN	O	I-Material
-Δ(1232	NN	O	I-Material
-)	NN	O	I-Material
-,	NN	O	O
-N∗(1440	NN	O	B-Material
-)	NN	O	I-Material
-,	NN	O	O
-N∗(1535	NN	O	B-Material
-)	NN	O	I-Material
-,	NN	O	O
-Λ	NN	O	B-Material
-,	NN	O	O
-Σ	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-mesons	NN	O	B-Material
-such	NN	O	O
-as	NN	O	O
-π	NN	O	B-Material
-,	NN	O	O
-ρ	NN	O	B-Material
-,	NN	O	O
-ω	NN	O	B-Material
-,	NN	O	O
-η	NN	O	B-Material
-,	NN	O	O
-K	NN	O	B-Material
-,	NN	O	O
-K∗.	NN	O	B-Material
-Both	NN	O	O
-elastic	NN	O	B-Task
-and	NN	O	I-Task
-inelastic	NN	O	I-Task
-collisions	NN	O	I-Task
-among	NN	O	O
-most	NN	O	O
-of	NN	O	O
-these	NN	O	B-Material
-particles	NN	O	I-Material
-are	NN	O	O
-included	NN	O	O
-by	NN	O	O
-using	NN	O	O
-the	NN	O	O
-experimental	NN	O	B-Material
-data	NN	O	I-Material
-from	NN	O	I-Material
-hadron	NN	O	I-Material
-–	NN	O	I-Material
-hadron	NN	O	I-Material
-collisions	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-ART	NN	O	B-Process
-model	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-quite	NN	O	O
-successful	NN	O	O
-in	NN	O	O
-explaining	NN	O	B-Task
-many	NN	O	I-Task
-experimental	NN	O	I-Task
-observations	NN	O	I-Task
-,	NN	O	O
-including	NN	O	O
-the	NN	O	O
-surprisingly	NN	O	O
-large	NN	O	O
-kaon	NN	O	B-Process
-antiflow	NN	O	I-Process
-[	NN	O	O
-11,12	NN	O	O
-]	NN	O	O
-in	NN	O	O
-heavy	NN	O	B-Process
-ion	NN	O	I-Process
-collisions	NN	O	I-Process
-at	NN	O	O
-AGS	NN	O	B-Process
-energies	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-ART	NN	O	B-Process
-model	NN	O	I-Process
-also	NN	O	O
-allows	NN	O	O
-us	NN	O	O
-to	NN	O	O
-understand	NN	O	B-Task
-whether	NN	O	I-Task
-or	NN	O	I-Task
-not	NN	O	I-Task
-the	NN	O	I-Task
-strongly	NN	O	I-Task
-interacting	NN	O	I-Task
-matter	NN	O	I-Task
-formed	NN	O	I-Task
-in	NN	O	I-Task
-these	NN	O	I-Task
-collisions	NN	O	I-Task
-reaches	NN	O	I-Task
-chemical	NN	O	I-Task
-and/or	NN	O	I-Task
-thermal	NN	O	I-Task
-equilibrium	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-present	NN	O	O
-study	NN	O	O
-,	NN	O	O
-we	NN	O	O
-extend	NN	O	B-Task
-the	NN	O	I-Task
-ART	NN	O	I-Task
-model	NN	O	I-Task
-to	NN	O	I-Task
-include	NN	O	I-Task
-perturbatively	NN	O	I-Task
-the	NN	O	I-Task
-Ξ	NN	O	I-Task
-particle	NN	O	I-Task
-as	NN	O	O
-in	NN	O	O
-the	NN	O	O
-studies	NN	O	O
-for	NN	O	O
-other	NN	O	O
-rare	NN	O	B-Material
-particles	NN	O	I-Material
-using	NN	O	O
-the	NN	O	O
-transport	NN	O	B-Material
-model	NN	O	I-Material
-[	NN	O	O
-6,13,14	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+ART	4	7	B-Process
+model	8	13	I-Process
+is	14	16	O
+a	17	18	O
+hadronic	19	27	B-Process
+transport	28	37	I-Process
+model	38	43	I-Process
+that	44	48	O
+includes	49	57	O
+baryons	58	65	B-Material
+such	66	70	O
+as	71	73	O
+N	74	75	B-Material
+,	75	76	I-Material
+Δ(1232	77	83	I-Material
+)	83	84	I-Material
+,	84	85	O
+N∗(1440	86	93	B-Material
+)	93	94	I-Material
+,	94	95	O
+N∗(1535	96	103	B-Material
+)	103	104	I-Material
+,	104	105	O
+Λ	106	107	B-Material
+,	107	108	O
+Σ	109	110	B-Material
+,	110	111	O
+and	112	115	O
+mesons	116	122	B-Material
+such	123	127	O
+as	128	130	O
+π	131	132	B-Material
+,	132	133	O
+ρ	134	135	B-Material
+,	135	136	O
+ω	137	138	B-Material
+,	138	139	O
+η	140	141	B-Material
+,	141	142	O
+K	143	144	B-Material
+,	144	145	O
+K∗.	146	149	B-Material
+Both	150	154	O
+elastic	155	162	B-Task
+and	163	166	I-Task
+inelastic	167	176	I-Task
+collisions	177	187	I-Task
+among	188	193	O
+most	194	198	O
+of	199	201	O
+these	202	207	B-Material
+particles	208	217	I-Material
+are	218	221	O
+included	222	230	O
+by	231	233	O
+using	234	239	O
+the	240	243	O
+experimental	244	256	B-Material
+data	257	261	I-Material
+from	262	266	I-Material
+hadron	267	273	I-Material
+–	273	274	I-Material
+hadron	274	280	I-Material
+collisions	281	291	I-Material
+.	291	292	O
+
+The	293	296	O
+ART	297	300	B-Process
+model	301	306	I-Process
+has	307	310	O
+been	311	315	O
+quite	316	321	O
+successful	322	332	O
+in	333	335	O
+explaining	336	346	B-Task
+many	347	351	I-Task
+experimental	352	364	I-Task
+observations	365	377	I-Task
+,	377	378	O
+including	379	388	O
+the	389	392	O
+surprisingly	393	405	O
+large	406	411	O
+kaon	412	416	B-Process
+antiflow	417	425	I-Process
+[	426	427	O
+11,12	427	432	O
+]	432	433	O
+in	434	436	O
+heavy	437	442	B-Process
+ion	443	446	I-Process
+collisions	447	457	I-Process
+at	458	460	O
+AGS	461	464	B-Process
+energies	465	473	I-Process
+.	473	474	O
+
+The	475	478	O
+ART	479	482	B-Process
+model	483	488	I-Process
+also	489	493	O
+allows	494	500	O
+us	501	503	O
+to	504	506	O
+understand	507	517	B-Task
+whether	518	525	I-Task
+or	526	528	I-Task
+not	529	532	I-Task
+the	533	536	I-Task
+strongly	537	545	I-Task
+interacting	546	557	I-Task
+matter	558	564	I-Task
+formed	565	571	I-Task
+in	572	574	I-Task
+these	575	580	I-Task
+collisions	581	591	I-Task
+reaches	592	599	I-Task
+chemical	600	608	I-Task
+and/or	609	615	I-Task
+thermal	616	623	I-Task
+equilibrium	624	635	I-Task
+.	635	636	O
+
+In	637	639	O
+the	640	643	O
+present	644	651	O
+study	652	657	O
+,	657	658	O
+we	659	661	O
+extend	662	668	B-Task
+the	669	672	I-Task
+ART	673	676	I-Task
+model	677	682	I-Task
+to	683	685	I-Task
+include	686	693	I-Task
+perturbatively	694	708	I-Task
+the	709	712	I-Task
+Ξ	713	714	I-Task
+particle	715	723	I-Task
+as	724	726	O
+in	727	729	O
+the	730	733	O
+studies	734	741	O
+for	742	745	O
+other	746	751	O
+rare	752	756	B-Material
+particles	757	766	I-Material
+using	767	772	O
+the	773	776	O
+transport	777	786	B-Material
+model	787	792	I-Material
+[	793	794	O
+6,13,14	794	801	O
+]	801	802	O
+.	802	803	O
 
 
 -DOCSTART- (S0370269304009104)
 
-Though	NN	O	O
-,	NN	O	O
-in	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-we	NN	O	O
-have	NN	O	O
-constructed	NN	O	B-Task
-the	NN	O	I-Task
-Born	NN	O	I-Task
-–	NN	O	I-Task
-Infeld	NN	O	I-Task
-black	NN	O	I-Task
-holes	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-presence	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-cosmological	NN	O	I-Task
-constant	NN	O	I-Task
-and	NN	O	O
-discussed	NN	O	B-Task
-their	NN	O	I-Task
-thermodynamical	NN	O	I-Task
-properties	NN	O	I-Task
-,	NN	O	O
-many	NN	O	O
-issues	NN	O	O
-however	NN	O	O
-still	NN	O	O
-remain	NN	O	O
-to	NN	O	O
-be	NN	O	O
-investigated	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-know	NN	O	O
-that	NN	O	O
-Reissner	NN	O	O
-–	NN	O	O
-
-Nordström	NN	O	O
-AdS	NN	O	O
-
-black	NN	O	O
-holes	NN	O	O
-undergo	NN	O	O
-
-Hawking	NN	O	B-Process
-–	NN	O	I-Process
-Page	NN	O	I-Process
-phase	NN	O	I-Process
-transition	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-transition	NN	O	O
-gets	NN	O	O
-modified	NN	O	O
-as	NN	O	O
-we	NN	O	O
-include	NN	O	O
-Born	NN	O	O
-–	NN	O	O
-
-Infeld	NN	O	O
-corrections	NN	O	O
-into	NN	O	O
-account	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-hope	NN	O	O
-to	NN	O	O
-carry	NN	O	O
-out	NN	O	O
-a	NN	O	O
-detail	NN	O	O
-study	NN	O	O
-on	NN	O	O
-this	NN	O	O
-issue	NN	O	O
-in	NN	O	O
-the	NN	O	O
-future	NN	O	O
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-brane	NN	O	B-Task
-world	NN	O	I-Task
-cosmology	NN	O	I-Task
-,	NN	O	O
-it	NN	O	O
-was	NN	O	O
-found	NN	O	O
-that	NN	O	O
-a	NN	O	O
-brane	NN	O	B-Material
-moving	NN	O	O
-in	NN	O	O
-a	NN	O	O
-Reissner	NN	O	O
-–	NN	O	O
-
-Nordström	NN	O	O
-AdS	NN	O	O
-background	NN	O	O
-generates	NN	O	O
-non	NN	O	B-Task
--	NN	O	I-Task
-singular	NN	O	I-Task
-cosmology	NN	O	I-Task
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-as	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-brane	NN	O	B-Material
-always	NN	O	O
-crosses	NN	O	B-Process
-the	NN	O	I-Process
-inner	NN	O	I-Process
-horizon	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-bulk	NN	O	I-Process
-geometry	NN	O	I-Process
-,	NN	O	O
-creating	NN	O	O
-an	NN	O	O
-instability	NN	O	B-Process
-.	NN	O	O
-
-It	NN	O	O
-would	NN	O	O
-be	NN	O	O
-interesting	NN	O	O
-to	NN	O	O
-study	NN	O	B-Task
-cosmology	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-brane	NN	O	I-Task
-when	NN	O	I-Task
-it	NN	O	I-Task
-is	NN	O	I-Task
-moving	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-charged	NN	O	I-Task
-black	NN	O	I-Task
-hole	NN	O	I-Task
-backgrounds	NN	O	I-Task
-that	NN	O	O
-we	NN	O	O
-have	NN	O	O
-constructed	NN	O	O
-.	NN	O	O
-
-Note	NN	O	O
-that	NN	O	O
-since	NN	O	O
-these	NN	O	O
-charged	NN	O	B-Material
-holes	NN	O	I-Material
-does	NN	O	O
-not	NN	O	O
-have	NN	O	O
-inner	NN	O	O
-horizon	NN	O	O
-for	NN	O	O
-certain	NN	O	O
-range	NN	O	O
-of	NN	O	O
-parameters	NN	O	O
-,	NN	O	O
-we	NN	O	O
-may	NN	O	O
-generate	NN	O	B-Task
-non	NN	O	I-Task
--	NN	O	I-Task
-singular	NN	O	I-Task
-cosmology	NN	O	I-Task
-without	NN	O	I-Task
-creating	NN	O	I-Task
-the	NN	O	I-Task
-instabilities	NN	O	I-Task
-that	NN	O	O
-we	NN	O	O
-have	NN	O	O
-just	NN	O	O
-mentioned	NN	O	O
-.	NN	O	O
+Though	0	6	O
+,	6	7	O
+in	8	10	O
+this	11	15	O
+Letter	16	22	O
+we	23	25	O
+have	26	30	O
+constructed	31	42	B-Task
+the	43	46	I-Task
+Born	47	51	I-Task
+–	51	52	I-Task
+Infeld	52	58	I-Task
+black	59	64	I-Task
+holes	65	70	I-Task
+in	71	73	I-Task
+the	74	77	I-Task
+presence	78	86	I-Task
+of	87	89	I-Task
+a	90	91	I-Task
+cosmological	92	104	I-Task
+constant	105	113	I-Task
+and	114	117	O
+discussed	118	127	B-Task
+their	128	133	I-Task
+thermodynamical	134	149	I-Task
+properties	150	160	I-Task
+,	160	161	O
+many	162	166	O
+issues	167	173	O
+however	174	181	O
+still	182	187	O
+remain	188	194	O
+to	195	197	O
+be	198	200	O
+investigated	201	213	O
+.	213	214	O
+
+We	215	217	O
+know	218	222	O
+that	223	227	O
+Reissner	228	236	O
+–	236	237	O
+
+Nordström	237	246	O
+AdS	247	250	O
+
+black	251	256	O
+holes	257	262	O
+undergo	263	270	O
+
+Hawking	271	278	B-Process
+–	278	279	I-Process
+Page	279	283	I-Process
+phase	284	289	I-Process
+transition	290	300	I-Process
+.	300	301	O
+
+This	302	306	O
+transition	307	317	O
+gets	318	322	O
+modified	323	331	O
+as	332	334	O
+we	335	337	O
+include	338	345	O
+Born	346	350	O
+–	350	351	O
+
+Infeld	351	357	O
+corrections	358	369	O
+into	370	374	O
+account	375	382	O
+.	382	383	O
+
+We	384	386	O
+hope	387	391	O
+to	392	394	O
+carry	395	400	O
+out	401	404	O
+a	405	406	O
+detail	407	413	O
+study	414	419	O
+on	420	422	O
+this	423	427	O
+issue	428	433	O
+in	434	436	O
+the	437	440	O
+future	441	447	O
+.	447	448	O
+
+Furthermore	449	460	O
+,	460	461	O
+in	462	464	O
+the	465	468	O
+context	469	476	O
+of	477	479	O
+brane	480	485	B-Task
+world	486	491	I-Task
+cosmology	492	501	I-Task
+,	501	502	O
+it	503	505	O
+was	506	509	O
+found	510	515	O
+that	516	520	O
+a	521	522	O
+brane	523	528	B-Material
+moving	529	535	O
+in	536	538	O
+a	539	540	O
+Reissner	541	549	O
+–	549	550	O
+
+Nordström	550	559	O
+AdS	560	563	O
+background	564	574	O
+generates	575	584	O
+non	585	588	B-Task
+-	588	589	I-Task
+singular	589	597	I-Task
+cosmology	598	607	I-Task
+[	608	609	O
+14	609	611	O
+]	611	612	O
+.	612	613	O
+
+However	614	621	O
+,	621	622	O
+as	623	625	O
+shown	626	631	O
+in	632	634	O
+[	635	636	O
+15	636	638	O
+]	638	639	O
+,	639	640	O
+the	641	644	O
+brane	645	650	B-Material
+always	651	657	O
+crosses	658	665	B-Process
+the	666	669	I-Process
+inner	670	675	I-Process
+horizon	676	683	I-Process
+of	684	686	I-Process
+the	687	690	I-Process
+bulk	691	695	I-Process
+geometry	696	704	I-Process
+,	704	705	O
+creating	706	714	O
+an	715	717	O
+instability	718	729	B-Process
+.	729	730	O
+
+It	731	733	O
+would	734	739	O
+be	740	742	O
+interesting	743	754	O
+to	755	757	O
+study	758	763	B-Task
+cosmology	764	773	I-Task
+on	774	776	I-Task
+the	777	780	I-Task
+brane	781	786	I-Task
+when	787	791	I-Task
+it	792	794	I-Task
+is	795	797	I-Task
+moving	798	804	I-Task
+in	805	807	I-Task
+the	808	811	I-Task
+charged	812	819	I-Task
+black	820	825	I-Task
+hole	826	830	I-Task
+backgrounds	831	842	I-Task
+that	843	847	O
+we	848	850	O
+have	851	855	O
+constructed	856	867	O
+.	867	868	O
+
+Note	869	873	O
+that	874	878	O
+since	879	884	O
+these	885	890	O
+charged	891	898	B-Material
+holes	899	904	I-Material
+does	905	909	O
+not	910	913	O
+have	914	918	O
+inner	919	924	O
+horizon	925	932	O
+for	933	936	O
+certain	937	944	O
+range	945	950	O
+of	951	953	O
+parameters	954	964	O
+,	964	965	O
+we	966	968	O
+may	969	972	O
+generate	973	981	B-Task
+non	982	985	I-Task
+-	985	986	I-Task
+singular	986	994	I-Task
+cosmology	995	1004	I-Task
+without	1005	1012	I-Task
+creating	1013	1021	I-Task
+the	1022	1025	I-Task
+instabilities	1026	1039	I-Task
+that	1040	1044	O
+we	1045	1047	O
+have	1048	1052	O
+just	1053	1057	O
+mentioned	1058	1067	O
+.	1067	1068	O
 
 
 -DOCSTART- (S0370269304009116)
 
-We	NN	O	O
-prove	NN	O	B-Process
-the	NN	O	I-Process
-uniqueness	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-supersymmetric	NN	O	O
-Salam	NN	O	O
-–	NN	O	O
-
-Sezgin	NN	O	O
-(	NN	O	O
-Minkowski)4×S2	NN	O	O
-ground	NN	O	O
-state	NN	O	O
-among	NN	O	O
-all	NN	O	O
-non	NN	O	B-Task
--	NN	O	I-Task
-singular	NN	O	I-Task
-solutions	NN	O	I-Task
-with	NN	O	I-Task
-a	NN	O	I-Task
-four	NN	O	I-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-Poincaré	NN	O	I-Task
-,	NN	O	O
-de	NN	O	B-Task
-Sitter	NN	O	I-Task
-or	NN	O	I-Task
-anti	NN	O	I-Task
--	NN	O	I-Task
-de	NN	O	I-Task
-Sitter	NN	O	I-Task
-symmetry	NN	O	I-Task
-.	NN	O	O
-
-We	NN	O	O
-construct	NN	O	B-Process
-the	NN	O	I-Process
-most	NN	O	I-Process
-general	NN	O	I-Process
-solutions	NN	O	I-Process
-with	NN	O	O
-an	NN	O	O
-axial	NN	O	B-Task
-symmetry	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-two	NN	O	I-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-internal	NN	O	I-Task
-space	NN	O	I-Task
-,	NN	O	I-Task
-and	NN	O	O
-show	NN	O	O
-that	NN	O	O
-included	NN	O	O
-amongst	NN	O	O
-these	NN	O	O
-is	NN	O	O
-a	NN	O	O
-family	NN	O	O
-that	NN	O	O
-is	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-singular	NN	O	I-Process
-away	NN	O	I-Process
-from	NN	O	I-Process
-a	NN	O	I-Process
-conical	NN	O	I-Process
-defect	NN	O	I-Process
-at	NN	O	O
-one	NN	O	O
-pole	NN	O	O
-of	NN	O	O
-a	NN	O	O
-distorted	NN	O	O
-2-sphere	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-solutions	NN	O	O
-admit	NN	O	O
-the	NN	O	O
-interpretation	NN	O	B-Process
-of	NN	O	I-Process
-3-branes	NN	O	I-Process
-with	NN	O	I-Process
-negative	NN	O	I-Process
-tension	NN	O	I-Process
-.	NN	O	O
+We	0	2	O
+prove	3	8	B-Process
+the	9	12	I-Process
+uniqueness	13	23	I-Process
+of	24	26	O
+the	27	30	O
+supersymmetric	31	45	O
+Salam	46	51	O
+–	51	52	O
+
+Sezgin	52	58	O
+(	59	60	O
+Minkowski)4×S2	60	74	O
+ground	75	81	O
+state	82	87	O
+among	88	93	O
+all	94	97	O
+non	98	101	B-Task
+-	101	102	I-Task
+singular	102	110	I-Task
+solutions	111	120	I-Task
+with	121	125	I-Task
+a	126	127	I-Task
+four	128	132	I-Task
+-	132	133	I-Task
+dimensional	133	144	I-Task
+Poincaré	145	153	I-Task
+,	153	154	O
+de	155	157	B-Task
+Sitter	158	164	I-Task
+or	165	167	I-Task
+anti	168	172	I-Task
+-	172	173	I-Task
+de	173	175	I-Task
+Sitter	176	182	I-Task
+symmetry	183	191	I-Task
+.	191	192	O
+
+We	193	195	O
+construct	196	205	B-Process
+the	206	209	I-Process
+most	210	214	I-Process
+general	215	222	I-Process
+solutions	223	232	I-Process
+with	233	237	O
+an	238	240	O
+axial	241	246	B-Task
+symmetry	247	255	I-Task
+in	256	258	I-Task
+the	259	262	I-Task
+two	263	266	I-Task
+-	266	267	I-Task
+dimensional	267	278	I-Task
+internal	279	287	I-Task
+space	288	293	I-Task
+,	293	294	I-Task
+and	295	298	O
+show	299	303	O
+that	304	308	O
+included	309	317	O
+amongst	318	325	O
+these	326	331	O
+is	332	334	O
+a	335	336	O
+family	337	343	O
+that	344	348	O
+is	349	351	O
+non	352	355	B-Process
+-	355	356	I-Process
+singular	356	364	I-Process
+away	365	369	I-Process
+from	370	374	I-Process
+a	375	376	I-Process
+conical	377	384	I-Process
+defect	385	391	I-Process
+at	392	394	O
+one	395	398	O
+pole	399	403	O
+of	404	406	O
+a	407	408	O
+distorted	409	418	O
+2-sphere	419	427	O
+.	427	428	O
+
+These	429	434	O
+solutions	435	444	O
+admit	445	450	O
+the	451	454	O
+interpretation	455	469	B-Process
+of	470	472	I-Process
+3-branes	473	481	I-Process
+with	482	486	I-Process
+negative	487	495	I-Process
+tension	496	503	I-Process
+.	503	504	O
 
 
 -DOCSTART- (S0370269304009141)
 
-Longitudinal	NN	O	B-Task
-beam	NN	O	I-Task
-and	NN	O	I-Task
-target	NN	O	I-Task
-single	NN	O	I-Task
--	NN	O	I-Task
-spin	NN	O	I-Task
-asymmetries	NN	O	I-Task
-have	NN	O	O
-been	NN	O	O
-at	NN	O	O
-the	NN	O	O
-center	NN	O	O
-of	NN	O	O
-the	NN	O	O
-attention	NN	O	O
-lately	NN	O	O
-,	NN	O	O
-since	NN	O	O
-they	NN	O	O
-have	NN	O	O
-been	NN	O	O
-measured	NN	O	O
-by	NN	O	O
-the	NN	O	O
-HERMES	NN	O	B-Process
-and	NN	O	I-Process
-CLAS	NN	O	I-Process
-experimental	NN	O	I-Process
-Collaborations	NN	O	I-Process
-[	NN	O	O
-1–4	NN	O	O
-]	NN	O	O
-and	NN	O	O
-more	NN	O	O
-measurements	NN	O	O
-are	NN	O	O
-planned	NN	O	O
-.	NN	O	O
-
-They	NN	O	O
-were	NN	O	O
-originally	NN	O	O
-believed	NN	O	O
-to	NN	O	O
-be	NN	O	O
-signals	NN	O	O
-of	NN	O	O
-the	NN	O	O
-so	NN	O	O
--	NN	O	O
-called	NN	O	O
-T	NN	O	B-Process
--	NN	O	I-Process
-odd	NN	O	I-Process
-fragmentation	NN	O	I-Process
-functions	NN	O	I-Process
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-,	NN	O	O
-in	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Collins	NN	O	B-Process
-function	NN	O	I-Process
-[	NN	O	O
-6–12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-both	NN	O	O
-types	NN	O	O
-of	NN	O	O
-asymmetry	NN	O	O
-can	NN	O	O
-receive	NN	O	B-Process
-contributions	NN	O	I-Process
-also	NN	O	I-Process
-from	NN	O	I-Process
-T	NN	O	I-Process
--	NN	O	I-Process
-odd	NN	O	I-Process
-distribution	NN	O	I-Process
-functions	NN	O	I-Process
-[	NN	O	O
-13–16	NN	O	O
-]	NN	O	O
-,	NN	O	O
-a	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-has	NN	O	O
-often	NN	O	O
-been	NN	O	O
-neglected	NN	O	O
-in	NN	O	O
-analyses	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-exhaustive	NN	O	B-Task
-treatment	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-contributions	NN	O	I-Task
-of	NN	O	I-Task
-T	NN	O	I-Task
--	NN	O	I-Task
-odd	NN	O	I-Task
-distribution	NN	O	I-Task
-functions	NN	O	I-Task
-has	NN	O	O
-not	NN	O	O
-been	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-completely	NN	O	O
-so	NN	O	O
-far	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-up	NN	O	O
-to	NN	O	O
-subleading	NN	O	B-Process
-order	NN	O	I-Process
-in	NN	O	I-Process
-an	NN	O	I-Process
-expansion	NN	O	I-Process
-in	NN	O	I-Process
-1/Q	NN	O	I-Process
-,	NN	O	O
-Q2	NN	O	O
-being	NN	O	O
-the	NN	O	O
-virtuality	NN	O	O
-of	NN	O	O
-the	NN	O	O
-incident	NN	O	B-Material
-photon	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-only	NN	O	O
-hard	NN	O	O
-scale	NN	O	O
-of	NN	O	O
-the	NN	O	O
-process	NN	O	O
-,	NN	O	O
-and	NN	O	O
-including	NN	O	O
-quark	NN	O	B-Process
-mass	NN	O	I-Process
-corrections	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-the	NN	O	O
-purpose	NN	O	O
-of	NN	O	O
-the	NN	O	O
-present	NN	O	O
-work	NN	O	O
-to	NN	O	O
-describe	NN	O	B-Task
-the	NN	O	I-Task
-longitudinal	NN	O	I-Task
-beam	NN	O	I-Task
-and	NN	O	I-Task
-target	NN	O	I-Task
-spin	NN	O	I-Task
-asymmetries	NN	O	I-Task
-in	NN	O	O
-a	NN	O	O
-complete	NN	O	O
-way	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-leading	NN	O	O
-and	NN	O	O
-subleading	NN	O	O
-twist	NN	O	B-Process
-distribution	NN	O	I-Process
-and	NN	O	O
-fragmentation	NN	O	B-Process
-functions	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-consider	NN	O	O
-both	NN	O	O
-single	NN	O	B-Process
--	NN	O	I-Process
-particle	NN	O	I-Process
-inclusive	NN	O	I-Process
-DIS	NN	O	I-Process
-,	NN	O	O
-e+p→e′+h+X	NN	O	B-Process
-,	NN	O	O
-and	NN	O	O
-single	NN	O	B-Process
--	NN	O	I-Process
-jet	NN	O	I-Process
-inclusive	NN	O	I-Process
-DIS	NN	O	I-Process
-,	NN	O	O
-e+p→e′+jet+X.	NN	O	B-Process
-
-We	NN	O	O
-assume	NN	O	O
-factorization	NN	O	B-Process
-holds	NN	O	O
-for	NN	O	O
-these	NN	O	O
-processes	NN	O	O
-,	NN	O	O
-even	NN	O	O
-though	NN	O	O
-at	NN	O	O
-present	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-factorization	NN	O	B-Task
-proof	NN	O	I-Task
-for	NN	O	I-Task
-observables	NN	O	I-Task
-containing	NN	O	I-Task
-subleading	NN	O	I-Task
--	NN	O	I-Task
-twist	NN	O	I-Task
-transverse	NN	O	I-Task
--	NN	O	I-Task
-momentum	NN	O	I-Task
-dependent	NN	O	I-Task
-functions	NN	O	I-Task
-(	NN	O	O
-only	NN	O	O
-recently	NN	O	O
-proofs	NN	O	B-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-leading	NN	O	I-Task
--	NN	O	I-Task
-twist	NN	O	I-Task
-case	NN	O	I-Task
-have	NN	O	O
-been	NN	O	O
-presented	NN	O	O
-in	NN	O	O
-Refs	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-17,18	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
+Longitudinal	0	12	B-Task
+beam	13	17	I-Task
+and	18	21	I-Task
+target	22	28	I-Task
+single	29	35	I-Task
+-	35	36	I-Task
+spin	36	40	I-Task
+asymmetries	41	52	I-Task
+have	53	57	O
+been	58	62	O
+at	63	65	O
+the	66	69	O
+center	70	76	O
+of	77	79	O
+the	80	83	O
+attention	84	93	O
+lately	94	100	O
+,	100	101	O
+since	102	107	O
+they	108	112	O
+have	113	117	O
+been	118	122	O
+measured	123	131	O
+by	132	134	O
+the	135	138	O
+HERMES	139	145	B-Process
+and	146	149	I-Process
+CLAS	150	154	I-Process
+experimental	155	167	I-Process
+Collaborations	168	182	I-Process
+[	183	184	O
+1–4	184	187	O
+]	187	188	O
+and	189	192	O
+more	193	197	O
+measurements	198	210	O
+are	211	214	O
+planned	215	222	O
+.	222	223	O
+
+They	224	228	O
+were	229	233	O
+originally	234	244	O
+believed	245	253	O
+to	254	256	O
+be	257	259	O
+signals	260	267	O
+of	268	270	O
+the	271	274	O
+so	275	277	O
+-	277	278	O
+called	278	284	O
+T	285	286	B-Process
+-	286	287	I-Process
+odd	287	290	I-Process
+fragmentation	291	304	I-Process
+functions	305	314	I-Process
+[	315	316	O
+5	316	317	O
+]	317	318	O
+,	318	319	O
+in	320	322	O
+particular	323	333	O
+,	333	334	O
+of	335	337	O
+the	338	341	O
+Collins	342	349	B-Process
+function	350	358	I-Process
+[	359	360	O
+6–12	360	364	O
+]	364	365	O
+.	365	366	O
+
+However	367	374	O
+,	374	375	O
+both	376	380	O
+types	381	386	O
+of	387	389	O
+asymmetry	390	399	O
+can	400	403	O
+receive	404	411	B-Process
+contributions	412	425	I-Process
+also	426	430	I-Process
+from	431	435	I-Process
+T	436	437	I-Process
+-	437	438	I-Process
+odd	438	441	I-Process
+distribution	442	454	I-Process
+functions	455	464	I-Process
+[	465	466	O
+13–16	466	471	O
+]	471	472	O
+,	472	473	O
+a	474	475	O
+fact	476	480	O
+that	481	485	O
+has	486	489	O
+often	490	495	O
+been	496	500	O
+neglected	501	510	O
+in	511	513	O
+analyses	514	522	O
+.	522	523	O
+
+An	524	526	O
+exhaustive	527	537	B-Task
+treatment	538	547	I-Task
+of	548	550	I-Task
+the	551	554	I-Task
+contributions	555	568	I-Task
+of	569	571	I-Task
+T	572	573	I-Task
+-	573	574	I-Task
+odd	574	577	I-Task
+distribution	578	590	I-Task
+functions	591	600	I-Task
+has	601	604	O
+not	605	608	O
+been	609	613	O
+carried	614	621	O
+out	622	625	O
+completely	626	636	O
+so	637	639	O
+far	640	643	O
+,	643	644	O
+especially	645	655	O
+up	656	658	O
+to	659	661	O
+subleading	662	672	B-Process
+order	673	678	I-Process
+in	679	681	I-Process
+an	682	684	I-Process
+expansion	685	694	I-Process
+in	695	697	I-Process
+1/Q	698	701	I-Process
+,	701	702	O
+Q2	703	705	O
+being	706	711	O
+the	712	715	O
+virtuality	716	726	O
+of	727	729	O
+the	730	733	O
+incident	734	742	B-Material
+photon	743	749	I-Material
+and	750	753	O
+the	754	757	O
+only	758	762	O
+hard	763	767	O
+scale	768	773	O
+of	774	776	O
+the	777	780	O
+process	781	788	O
+,	788	789	O
+and	790	793	O
+including	794	803	O
+quark	804	809	B-Process
+mass	810	814	I-Process
+corrections	815	826	I-Process
+.	826	827	O
+
+It	828	830	O
+is	831	833	O
+the	834	837	O
+purpose	838	845	O
+of	846	848	O
+the	849	852	O
+present	853	860	O
+work	861	865	O
+to	866	868	O
+describe	869	877	B-Task
+the	878	881	I-Task
+longitudinal	882	894	I-Task
+beam	895	899	I-Task
+and	900	903	I-Task
+target	904	910	I-Task
+spin	911	915	I-Task
+asymmetries	916	927	I-Task
+in	928	930	O
+a	931	932	O
+complete	933	941	O
+way	942	945	O
+in	946	948	O
+terms	949	954	O
+of	955	957	O
+leading	958	965	O
+and	966	969	O
+subleading	970	980	O
+twist	981	986	B-Process
+distribution	987	999	I-Process
+and	1000	1003	O
+fragmentation	1004	1017	B-Process
+functions	1018	1027	I-Process
+.	1027	1028	O
+
+We	1029	1031	O
+consider	1032	1040	O
+both	1041	1045	O
+single	1046	1052	B-Process
+-	1052	1053	I-Process
+particle	1053	1061	I-Process
+inclusive	1062	1071	I-Process
+DIS	1072	1075	I-Process
+,	1075	1076	O
+e+p→e′+h+X	1077	1087	B-Process
+,	1087	1088	O
+and	1089	1092	O
+single	1093	1099	B-Process
+-	1099	1100	I-Process
+jet	1100	1103	I-Process
+inclusive	1104	1113	I-Process
+DIS	1114	1117	I-Process
+,	1117	1118	O
+e+p→e′+jet+X.	1119	1132	B-Process
+
+We	1133	1135	O
+assume	1136	1142	O
+factorization	1143	1156	B-Process
+holds	1157	1162	O
+for	1163	1166	O
+these	1167	1172	O
+processes	1173	1182	O
+,	1182	1183	O
+even	1184	1188	O
+though	1189	1195	O
+at	1196	1198	O
+present	1199	1206	O
+there	1207	1212	O
+is	1213	1215	O
+no	1216	1218	O
+factorization	1219	1232	B-Task
+proof	1233	1238	I-Task
+for	1239	1242	I-Task
+observables	1243	1254	I-Task
+containing	1255	1265	I-Task
+subleading	1266	1276	I-Task
+-	1276	1277	I-Task
+twist	1277	1282	I-Task
+transverse	1283	1293	I-Task
+-	1293	1294	I-Task
+momentum	1294	1302	I-Task
+dependent	1303	1312	I-Task
+functions	1313	1322	I-Task
+(	1323	1324	O
+only	1324	1328	O
+recently	1329	1337	O
+proofs	1338	1344	B-Task
+for	1345	1348	I-Task
+the	1349	1352	I-Task
+leading	1353	1360	I-Task
+-	1360	1361	I-Task
+twist	1361	1366	I-Task
+case	1367	1371	I-Task
+have	1372	1376	O
+been	1377	1381	O
+presented	1382	1391	O
+in	1392	1394	O
+Refs	1395	1399	O
+.	1399	1400	O
+
+[	1401	1402	O
+17,18	1402	1407	O
+]	1407	1408	O
+)	1408	1409	O
+.	1409	1410	O
 
 
 -DOCSTART- (S0370269304009165)
 
-There	NN	O	O
-are	NN	O	O
-many	NN	O	O
-possible	NN	O	O
-applications	NN	O	B-Task
-for	NN	O	I-Task
-this	NN	O	I-Task
-mechanism	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-concentrated	NN	O	O
-on	NN	O	O
-its	NN	O	B-Task
-contribution	NN	O	I-Task
-to	NN	O	I-Task
-leptogenesis	NN	O	I-Task
-and	NN	O	I-Task
-baryogenesis	NN	O	I-Task
-.	NN	O	O
-
-Our	NN	O	O
-calculation	NN	O	O
-is	NN	O	O
-applicable	NN	O	O
-in	NN	O	B-Process
-the	NN	O	I-Process
-phase	NN	O	I-Process
-when	NN	O	I-Process
-the	NN	O	I-Process
-fields	NN	O	I-Process
-are	NN	O	I-Process
-rolling	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-rolling	NN	O	B-Process
-phase	NN	O	I-Process
-will	NN	O	O
-start	NN	O	O
-when	NN	O	O
-the	NN	O	O
-Hubble	NN	O	B-Process
-constant	NN	O	I-Process
-drops	NN	O	I-Process
-to	NN	O	I-Process
-a	NN	O	I-Process
-value	NN	O	I-Process
-comparable	NN	O	I-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-mass	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-scalar	NN	O	I-Process
-fields	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-at	NN	O	O
-this	NN	O	O
-time	NN	O	O
-in	NN	O	O
-the	NN	O	O
-cosmological	NN	O	B-Process
-evolution	NN	O	I-Process
-that	NN	O	O
-CP	NN	O	B-Process
-violation	NN	O	I-Process
-is	NN	O	O
-most	NN	O	O
-efficient	NN	O	O
-.	NN	O	O
-
-After	NN	O	O
-the	NN	O	O
-fields	NN	O	B-Process
-have	NN	O	I-Process
-relaxed	NN	O	I-Process
-to	NN	O	I-Process
-their	NN	O	I-Process
-vacuum	NN	O	I-Process
-values	NN	O	I-Process
-,	NN	O	O
-our	NN	O	O
-CP	NN	O	B-Process
-violation	NN	O	I-Process
-mechanism	NN	O	I-Process
-turns	NN	O	O
-off	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-plan	NN	O	O
-to	NN	O	O
-discuss	NN	O	O
-more	NN	O	O
-details	NN	O	O
-,	NN	O	O
-in	NN	O	O
-particular	NN	O	O
-applications	NN	O	B-Task
-to	NN	O	I-Task
-concrete	NN	O	I-Task
-baryogenesis	NN	O	I-Task
-models	NN	O	I-Task
-,	NN	O	O
-in	NN	O	O
-a	NN	O	O
-future	NN	O	O
-publication	NN	O	O
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Note	NN	O	O
-that	NN	O	O
-string	NN	O	B-Task
-cosmology	NN	O	I-Task
-and	NN	O	O
-brane	NN	O	B-Task
-world	NN	O	I-Task
-scenarios	NN	O	I-Task
-may	NN	O	O
-provide	NN	O	O
-natural	NN	O	O
-settings	NN	O	O
-for	NN	O	O
-the	NN	O	O
-origin	NN	O	O
-of	NN	O	O
-the	NN	O	O
-scalar	NN	O	B-Material
-fields	NN	O	I-Material
-required	NN	O	O
-for	NN	O	O
-our	NN	O	B-Process
-mechanism	NN	O	I-Process
-(	NN	O	O
-e.g.	NN	O	O
-see	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-30	NN	O	O
-]	NN	O	O
-for	NN	O	O
-a	NN	O	O
-recent	NN	O	O
-paper	NN	O	O
-on	NN	O	O
-how	NN	O	B-Task
-scalar	NN	O	I-Task
-fields	NN	O	I-Task
-from	NN	O	I-Task
-brane	NN	O	I-Task
-world	NN	O	I-Task
-scenarios	NN	O	I-Task
-can	NN	O	I-Task
-play	NN	O	I-Task
-a	NN	O	I-Task
-new	NN	O	I-Task
-role	NN	O	I-Task
-in	NN	O	I-Task
-spontaneous	NN	O	I-Task
-baryogenesis	NN	O	I-Task
-)	NN	O	O
-.	NN	O	O
+There	0	5	O
+are	6	9	O
+many	10	14	O
+possible	15	23	O
+applications	24	36	B-Task
+for	37	40	I-Task
+this	41	45	I-Task
+mechanism	46	55	I-Task
+.	55	56	O
+
+In	57	59	O
+this	60	64	O
+Letter	65	71	O
+,	71	72	O
+we	73	75	O
+have	76	80	O
+concentrated	81	93	O
+on	94	96	O
+its	97	100	B-Task
+contribution	101	113	I-Task
+to	114	116	I-Task
+leptogenesis	117	129	I-Task
+and	130	133	I-Task
+baryogenesis	134	146	I-Task
+.	146	147	O
+
+Our	148	151	O
+calculation	152	163	O
+is	164	166	O
+applicable	167	177	O
+in	178	180	B-Process
+the	181	184	I-Process
+phase	185	190	I-Process
+when	191	195	I-Process
+the	196	199	I-Process
+fields	200	206	I-Process
+are	207	210	I-Process
+rolling	211	218	I-Process
+.	218	219	O
+
+This	220	224	O
+rolling	225	232	B-Process
+phase	233	238	I-Process
+will	239	243	O
+start	244	249	O
+when	250	254	O
+the	255	258	O
+Hubble	259	265	B-Process
+constant	266	274	I-Process
+drops	275	280	I-Process
+to	281	283	I-Process
+a	284	285	I-Process
+value	286	291	I-Process
+comparable	292	302	I-Process
+to	303	305	I-Process
+the	306	309	I-Process
+mass	310	314	I-Process
+of	315	317	I-Process
+the	318	321	I-Process
+scalar	322	328	I-Process
+fields	329	335	I-Process
+.	335	336	O
+
+It	337	339	O
+is	340	342	O
+at	343	345	O
+this	346	350	O
+time	351	355	O
+in	356	358	O
+the	359	362	O
+cosmological	363	375	B-Process
+evolution	376	385	I-Process
+that	386	390	O
+CP	391	393	B-Process
+violation	394	403	I-Process
+is	404	406	O
+most	407	411	O
+efficient	412	421	O
+.	421	422	O
+
+After	423	428	O
+the	429	432	O
+fields	433	439	B-Process
+have	440	444	I-Process
+relaxed	445	452	I-Process
+to	453	455	I-Process
+their	456	461	I-Process
+vacuum	462	468	I-Process
+values	469	475	I-Process
+,	475	476	O
+our	477	480	O
+CP	481	483	B-Process
+violation	484	493	I-Process
+mechanism	494	503	I-Process
+turns	504	509	O
+off	510	513	O
+.	513	514	O
+
+We	515	517	O
+plan	518	522	O
+to	523	525	O
+discuss	526	533	O
+more	534	538	O
+details	539	546	O
+,	546	547	O
+in	548	550	O
+particular	551	561	O
+applications	562	574	B-Task
+to	575	577	I-Task
+concrete	578	586	I-Task
+baryogenesis	587	599	I-Task
+models	600	606	I-Task
+,	606	607	O
+in	608	610	O
+a	611	612	O
+future	613	619	O
+publication	620	631	O
+[	632	633	O
+20	633	635	O
+]	635	636	O
+.	636	637	O
+
+Note	638	642	O
+that	643	647	O
+string	648	654	B-Task
+cosmology	655	664	I-Task
+and	665	668	O
+brane	669	674	B-Task
+world	675	680	I-Task
+scenarios	681	690	I-Task
+may	691	694	O
+provide	695	702	O
+natural	703	710	O
+settings	711	719	O
+for	720	723	O
+the	724	727	O
+origin	728	734	O
+of	735	737	O
+the	738	741	O
+scalar	742	748	B-Material
+fields	749	755	I-Material
+required	756	764	O
+for	765	768	O
+our	769	772	B-Process
+mechanism	773	782	I-Process
+(	783	784	O
+e.g.	784	788	O
+see	789	792	O
+Ref	793	796	O
+.	796	797	O
+
+[	798	799	O
+30	799	801	O
+]	801	802	O
+for	803	806	O
+a	807	808	O
+recent	809	815	O
+paper	816	821	O
+on	822	824	O
+how	825	828	B-Task
+scalar	829	835	I-Task
+fields	836	842	I-Task
+from	843	847	I-Task
+brane	848	853	I-Task
+world	854	859	I-Task
+scenarios	860	869	I-Task
+can	870	873	I-Task
+play	874	878	I-Task
+a	879	880	I-Task
+new	881	884	I-Task
+role	885	889	I-Task
+in	890	892	I-Task
+spontaneous	893	904	I-Task
+baryogenesis	905	917	I-Task
+)	917	918	O
+.	918	919	O
 
 
 -DOCSTART- (S0370269304009177)
 
-In	NN	O	O
-the	NN	O	O
-brane	NN	O	B-Material
-system	NN	O	I-Material
-appearing	NN	O	O
-in	NN	O	O
-string	NN	O	O
-/	NN	O	O
-
-D	NN	O	O
--	NN	O	O
-brane	NN	O	O
-theory	NN	O	O
-,	NN	O	O
-the	NN	O	O
-stableness	NN	O	B-Task
-is	NN	O	O
-the	NN	O	O
-most	NN	O	O
-important	NN	O	O
-requirement	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-find	NN	O	O
-some	NN	O	O
-stable	NN	O	B-Process
-brane	NN	O	I-Process
-configurations	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-SUSY	NN	O	B-Process
-bulk	NN	O	I-Process
--	NN	O	I-Process
-boundary	NN	O	I-Process
-theory	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-systematically	NN	O	O
-solve	NN	O	B-Task
-the	NN	O	I-Task
-singular	NN	O	I-Task
-field	NN	O	I-Task
-equation	NN	O	I-Task
-using	NN	O	O
-a	NN	O	O
-general	NN	O	B-Process
-mathematical	NN	O	I-Process
-result	NN	O	I-Process
-about	NN	O	I-Process
-the	NN	O	I-Process
-free	NN	O	I-Process
--	NN	O	I-Process
-wave	NN	O	I-Process
-solution	NN	O	I-Process
-in	NN	O	O
-S1/Z2-space	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-two	NN	O	O
-scalars	NN	O	O
-,	NN	O	O
-the	NN	O	O
-extra	NN	O	B-Process
--	NN	O	I-Process
-component	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-bulk	NN	O	I-Process
--	NN	O	I-Process
-vector	NN	O	I-Process
-(	NN	O	O
-A5	NN	O	B-Process
-)	NN	O	O
-and	NN	O	O
-the	NN	O	O
-bulk	NN	O	B-Process
--	NN	O	I-Process
-scalar	NN	O	I-Process
-(	NN	O	O
-Φ	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-constitute	NN	O	O
-the	NN	O	O
-solutions	NN	O	O
-.	NN	O	O
-
-Their	NN	O	O
-different	NN	O	B-Task
-roles	NN	O	I-Task
-are	NN	O	I-Task
-clarified	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-importance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-“	NN	O	O
-parallel	NN	O	O
-”	NN	O	O
-configuration	NN	O	O
-is	NN	O	O
-disclosed	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-boundary	NN	O	B-Process
-condition	NN	O	I-Process
-(	NN	O	O
-of	NN	O	O
-A5	NN	O	O
-)	NN	O	O
-and	NN	O	O
-the	NN	O	O
-boundary	NN	O	O
-matter	NN	O	O
-fields	NN	O	O
-are	NN	O	O
-two	NN	O	O
-important	NN	O	O
-elements	NN	O	O
-for	NN	O	O
-making	NN	O	O
-the	NN	O	O
-localized	NN	O	O
-configuration	NN	O	O
-.	NN	O	O
-
-Among	NN	O	O
-all	NN	O	O
-solutions	NN	O	O
-,	NN	O	O
-the	NN	O	O
-solution	NN	O	B-Process
-(	NN	O	O
-c1=−1	NN	O	B-Process
-,	NN	O	I-Process
-c2=−1	NN	O	I-Process
-)	NN	O	O
-is	NN	O	O
-expected	NN	O	O
-to	NN	O	O
-be	NN	O	O
-the	NN	O	O
-thin	NN	O	B-Process
--	NN	O	I-Process
-wall	NN	O	I-Process
-limit	NN	O	I-Process
-of	NN	O	O
-a	NN	O	O
-kink	NN	O	B-Process
-solution	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-present	NN	O	O
-a	NN	O	O
-bulk	NN	O	B-Process
-Higgs	NN	O	I-Process
-model	NN	O	I-Process
-corresponding	NN	O	O
-to	NN	O	O
-the	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-singular	NN	O	I-Process
-solution	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-model	NN	O	O
-is	NN	O	O
-expected	NN	O	O
-to	NN	O	O
-give	NN	O	O
-a	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-singular	NN	O	I-Process
-and	NN	O	I-Process
-stable	NN	O	I-Process
-brane	NN	O	I-Process
-solution	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-SUSY	NN	O	B-Process
-bulk	NN	O	I-Process
--	NN	O	I-Process
-boundary	NN	O	I-Process
-theory	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+brane	7	12	B-Material
+system	13	19	I-Material
+appearing	20	29	O
+in	30	32	O
+string	33	39	O
+/	39	40	O
+
+D	40	41	O
+-	41	42	O
+brane	42	47	O
+theory	48	54	O
+,	54	55	O
+the	56	59	O
+stableness	60	70	B-Task
+is	71	73	O
+the	74	77	O
+most	78	82	O
+important	83	92	O
+requirement	93	104	O
+.	104	105	O
+
+We	106	108	O
+find	109	113	O
+some	114	118	O
+stable	119	125	B-Process
+brane	126	131	I-Process
+configurations	132	146	I-Process
+in	147	149	O
+the	150	153	O
+SUSY	154	158	B-Process
+bulk	159	163	I-Process
+-	163	164	I-Process
+boundary	164	172	I-Process
+theory	173	179	I-Process
+.	179	180	O
+
+We	181	183	O
+systematically	184	198	O
+solve	199	204	B-Task
+the	205	208	I-Task
+singular	209	217	I-Task
+field	218	223	I-Task
+equation	224	232	I-Task
+using	233	238	O
+a	239	240	O
+general	241	248	B-Process
+mathematical	249	261	I-Process
+result	262	268	I-Process
+about	269	274	I-Process
+the	275	278	I-Process
+free	279	283	I-Process
+-	283	284	I-Process
+wave	284	288	I-Process
+solution	289	297	I-Process
+in	298	300	O
+S1/Z2-space	301	312	O
+.	312	313	O
+
+The	314	317	O
+two	318	321	O
+scalars	322	329	O
+,	329	330	O
+the	331	334	O
+extra	335	340	B-Process
+-	340	341	I-Process
+component	341	350	I-Process
+of	351	353	I-Process
+the	354	357	I-Process
+bulk	358	362	I-Process
+-	362	363	I-Process
+vector	363	369	I-Process
+(	370	371	O
+A5	371	373	B-Process
+)	373	374	O
+and	375	378	O
+the	379	382	O
+bulk	383	387	B-Process
+-	387	388	I-Process
+scalar	388	394	I-Process
+(	395	396	O
+Φ	396	397	B-Process
+)	397	398	O
+,	398	399	O
+constitute	400	410	O
+the	411	414	O
+solutions	415	424	O
+.	424	425	O
+
+Their	426	431	O
+different	432	441	B-Task
+roles	442	447	I-Task
+are	448	451	I-Task
+clarified	452	461	I-Task
+.	461	462	O
+
+The	463	466	O
+importance	467	477	O
+of	478	480	O
+the	481	484	O
+“	485	486	O
+parallel	486	494	O
+”	494	495	O
+configuration	496	509	O
+is	510	512	O
+disclosed	513	522	O
+.	522	523	O
+
+The	524	527	O
+boundary	528	536	B-Process
+condition	537	546	I-Process
+(	547	548	O
+of	548	550	O
+A5	551	553	O
+)	553	554	O
+and	555	558	O
+the	559	562	O
+boundary	563	571	O
+matter	572	578	O
+fields	579	585	O
+are	586	589	O
+two	590	593	O
+important	594	603	O
+elements	604	612	O
+for	613	616	O
+making	617	623	O
+the	624	627	O
+localized	628	637	O
+configuration	638	651	O
+.	651	652	O
+
+Among	653	658	O
+all	659	662	O
+solutions	663	672	O
+,	672	673	O
+the	674	677	O
+solution	678	686	B-Process
+(	687	688	O
+c1=−1	688	693	B-Process
+,	693	694	I-Process
+c2=−1	695	700	I-Process
+)	700	701	O
+is	702	704	O
+expected	705	713	O
+to	714	716	O
+be	717	719	O
+the	720	723	O
+thin	724	728	B-Process
+-	728	729	I-Process
+wall	729	733	I-Process
+limit	734	739	I-Process
+of	740	742	O
+a	743	744	O
+kink	745	749	B-Process
+solution	750	758	I-Process
+.	758	759	O
+
+We	760	762	O
+present	763	770	O
+a	771	772	O
+bulk	773	777	B-Process
+Higgs	778	783	I-Process
+model	784	789	I-Process
+corresponding	790	803	O
+to	804	806	O
+the	807	810	O
+non	811	814	B-Process
+-	814	815	I-Process
+singular	815	823	I-Process
+solution	824	832	I-Process
+.	832	833	O
+
+The	834	837	O
+model	838	843	O
+is	844	846	O
+expected	847	855	O
+to	856	858	O
+give	859	863	O
+a	864	865	O
+non	866	869	B-Process
+-	869	870	I-Process
+singular	870	878	I-Process
+and	879	882	I-Process
+stable	883	889	I-Process
+brane	890	895	I-Process
+solution	896	904	I-Process
+in	905	907	O
+the	908	911	O
+SUSY	912	916	B-Process
+bulk	917	921	I-Process
+-	921	922	I-Process
+boundary	922	930	I-Process
+theory	931	937	I-Process
+.	937	938	O
 
 
 -DOCSTART- (S0370269304009189)
 
-The	NN	O	O
-spins	NN	O	B-Task
-and	NN	O	I-Task
-parities	NN	O	I-Task
-of	NN	O	I-Task
-Θ+	NN	O	I-Task
-and	NN	O	I-Task
-Ξ−−	NN	O	I-Task
-are	NN	O	O
-not	NN	O	O
-yet	NN	O	O
-known	NN	O	O
-experimentally	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-new	NN	O	B-Task
-wave	NN	O	I-Task
-of	NN	O	I-Task
-pentaquark	NN	O	I-Task
-research	NN	O	I-Task
-,	NN	O	O
-most	NN	O	O
-theoretical	NN	O	O
-papers	NN	O	O
-take	NN	O	B-Process
-the	NN	O	I-Process
-spin	NN	O	I-Process
-equal	NN	O	I-Process
-to	NN	O	I-Process
-1/2	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-parity	NN	O	O
-is	NN	O	O
-more	NN	O	O
-controversial	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-chiral	NN	O	B-Process
-soliton	NN	O	I-Process
-or	NN	O	O
-Skyrme	NN	O	B-Process
-models	NN	O	I-Process
-the	NN	O	O
-parity	NN	O	O
-is	NN	O	O
-positive	NN	O	O
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-constituent	NN	O	B-Process
-quark	NN	O	I-Process
-models	NN	O	I-Process
-it	NN	O	O
-is	NN	O	O
-usually	NN	O	O
-positive	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-present	NN	O	O
-approach	NN	O	O
-,	NN	O	O
-the	NN	O	O
-parity	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-pentaquark	NN	O	I-Task
-is	NN	O	O
-given	NN	O	O
-by	NN	O	O
-P=(−)ℓ+1	NN	O	B-Task
-,	NN	O	O
-where	NN	O	O
-ℓ	NN	O	B-Task
-is	NN	O	O
-the	NN	O	O
-angular	NN	O	B-Task
-momentum	NN	O	I-Task
-associated	NN	O	I-Task
-with	NN	O	I-Task
-the	NN	O	I-Task
-relative	NN	O	I-Task
-coordinates	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-q4	NN	O	I-Task
-subsystem	NN	O	I-Task
-.	NN	O	O
-
-We	NN	O	O
-analyze	NN	O	O
-the	NN	O	O
-case	NN	O	O
-where	NN	O	O
-the	NN	O	O
-subsystem	NN	O	B-Task
-of	NN	O	I-Task
-four	NN	O	I-Task
-light	NN	O	I-Task
-quarks	NN	O	I-Task
-is	NN	O	I-Task
-in	NN	O	I-Task
-a	NN	O	I-Task
-state	NN	O	I-Task
-of	NN	O	I-Task
-orbital	NN	O	I-Task
-symmetry	NN	O	I-Task
-[	NN	O	O
-31]O	NN	O	O
-and	NN	O	O
-carries	NN	O	O
-an	NN	O	O
-angular	NN	O	O
-momentum	NN	O	O
-
-ℓ=1	NN	O	O
-.	NN	O	O
-
-Although	NN	O	O
-the	NN	O	O
-kinetic	NN	O	B-Process
-energy	NN	O	I-Process
-of	NN	O	O
-such	NN	O	O
-a	NN	O	O
-state	NN	O	O
-is	NN	O	O
-higher	NN	O	O
-than	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-totally	NN	O	B-Process
-symmetric	NN	O	I-Process
-[	NN	O	I-Process
-4]O	NN	O	I-Process
-state	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-[	NN	O	O
-31]O	NN	O	B-Process
-symmetry	NN	O	I-Process
-is	NN	O	O
-the	NN	O	O
-most	NN	O	O
-favourable	NN	O	O
-both	NN	O	O
-for	NN	O	O
-the	NN	O	O
-flavour	NN	O	B-Process
-–	NN	O	I-Process
-spin	NN	O	I-Process
-interaction	NN	O	I-Process
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-and	NN	O	O
-the	NN	O	O
-colour	NN	O	B-Process
-–	NN	O	I-Process
-spin	NN	O	I-Process
-interaction	NN	O	I-Process
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-first	NN	O	O
-case	NN	O	O
-the	NN	O	O
-statement	NN	O	O
-is	NN	O	O
-confirmed	NN	O	O
-by	NN	O	O
-the	NN	O	O
-comparison	NN	O	B-Task
-between	NN	O	I-Task
-the	NN	O	I-Task
-realistic	NN	O	I-Task
-calculations	NN	O	I-Task
-for	NN	O	I-Task
-positive	NN	O	I-Task
-parity	NN	O	I-Task
-[	NN	O	I-Task
-12	NN	O	I-Task
-]	NN	O	I-Task
-and	NN	O	I-Task
-negative	NN	O	I-Task
-parity	NN	O	I-Task
-[	NN	O	I-Task
-14	NN	O	I-Task
-]	NN	O	I-Task
-,	NN	O	I-Task
-based	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-same	NN	O	I-Task
-quark	NN	O	I-Task
-model	NN	O	I-Task
-[	NN	O	I-Task
-15	NN	O	I-Task
-]	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-the	NN	O	O
-antiquark	NN	O	B-Material
-was	NN	O	O
-heavy	NN	O	O
-,	NN	O	O
-c	NN	O	O
-or	NN	O	O
-b	NN	O	O
-,	NN	O	O
-and	NN	O	O
-accordingly	NN	O	O
-the	NN	O	O
-interaction	NN	O	B-Process
-between	NN	O	I-Process
-light	NN	O	I-Process
-quarks	NN	O	I-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-heavy	NN	O	I-Process
-antiquark	NN	O	I-Process
-was	NN	O	I-Process
-neglected	NN	O	I-Process
-,	NN	O	I-Process
-consistent	NN	O	I-Process
-with	NN	O	I-Process
-the	NN	O	I-Process
-heavy	NN	O	I-Process
-quark	NN	O	I-Process
-limit	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-Ref	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-an	NN	O	O
-attractive	NN	O	O
-spin	NN	O	B-Process
-–	NN	O	I-Process
-spin	NN	O	I-Process
-interaction	NN	O	I-Process
-between	NN	O	O
-s̄	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-light	NN	O	B-Material
-quarks	NN	O	I-Material
-was	NN	O	O
-incorporated	NN	O	O
-and	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-a	NN	O	O
-stable	NN	O	O
-or	NN	O	O
-narrow	NN	O	O
-positive	NN	O	O
-parity	NN	O	O
-uudds̄	NN	O	B-Material
-pentaquark	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-accommodated	NN	O	O
-within	NN	O	O
-such	NN	O	O
-a	NN	O	O
-model	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-interaction	NN	O	O
-has	NN	O	O
-a	NN	O	O
-form	NN	O	O
-that	NN	O	O
-corresponds	NN	O	O
-to	NN	O	O
-η	NN	O	B-Process
-meson	NN	O	I-Process
-exchange	NN	O	I-Process
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-and	NN	O	O
-its	NN	O	O
-role	NN	O	O
-is	NN	O	O
-to	NN	O	O
-lower	NN	O	B-Process
-the	NN	O	I-Process
-energy	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-whole	NN	O	I-Process
-system	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+spins	4	9	B-Task
+and	10	13	I-Task
+parities	14	22	I-Task
+of	23	25	I-Task
+Θ+	26	28	I-Task
+and	29	32	I-Task
+Ξ−−	33	36	I-Task
+are	37	40	O
+not	41	44	O
+yet	45	48	O
+known	49	54	O
+experimentally	55	69	O
+.	69	70	O
+
+In	71	73	O
+this	74	78	O
+new	79	82	B-Task
+wave	83	87	I-Task
+of	88	90	I-Task
+pentaquark	91	101	I-Task
+research	102	110	I-Task
+,	110	111	O
+most	112	116	O
+theoretical	117	128	O
+papers	129	135	O
+take	136	140	B-Process
+the	141	144	I-Process
+spin	145	149	I-Process
+equal	150	155	I-Process
+to	156	158	I-Process
+1/2	159	162	I-Process
+.	162	163	O
+
+The	164	167	O
+parity	168	174	O
+is	175	177	O
+more	178	182	O
+controversial	183	196	O
+.	196	197	O
+
+In	198	200	O
+chiral	201	207	B-Process
+soliton	208	215	I-Process
+or	216	218	O
+Skyrme	219	225	B-Process
+models	226	232	I-Process
+the	233	236	O
+parity	237	243	O
+is	244	246	O
+positive	247	255	O
+[	256	257	O
+4	257	258	O
+]	258	259	O
+.	259	260	O
+
+In	261	263	O
+constituent	264	275	B-Process
+quark	276	281	I-Process
+models	282	288	I-Process
+it	289	291	O
+is	292	294	O
+usually	295	302	O
+positive	303	311	O
+.	311	312	O
+
+In	313	315	O
+the	316	319	O
+present	320	327	O
+approach	328	336	O
+,	336	337	O
+the	338	341	O
+parity	342	348	B-Task
+of	349	351	I-Task
+the	352	355	I-Task
+pentaquark	356	366	I-Task
+is	367	369	O
+given	370	375	O
+by	376	378	O
+P=(−)ℓ+1	379	387	B-Task
+,	387	388	O
+where	389	394	O
+ℓ	395	396	B-Task
+is	397	399	O
+the	400	403	O
+angular	404	411	B-Task
+momentum	412	420	I-Task
+associated	421	431	I-Task
+with	432	436	I-Task
+the	437	440	I-Task
+relative	441	449	I-Task
+coordinates	450	461	I-Task
+of	462	464	I-Task
+the	465	468	I-Task
+q4	469	471	I-Task
+subsystem	472	481	I-Task
+.	481	482	O
+
+We	483	485	O
+analyze	486	493	O
+the	494	497	O
+case	498	502	O
+where	503	508	O
+the	509	512	O
+subsystem	513	522	B-Task
+of	523	525	I-Task
+four	526	530	I-Task
+light	531	536	I-Task
+quarks	537	543	I-Task
+is	544	546	I-Task
+in	547	549	I-Task
+a	550	551	I-Task
+state	552	557	I-Task
+of	558	560	I-Task
+orbital	561	568	I-Task
+symmetry	569	577	I-Task
+[	578	579	O
+31]O	579	583	O
+and	584	587	O
+carries	588	595	O
+an	596	598	O
+angular	599	606	O
+momentum	607	615	O
+
+ℓ=1	616	619	O
+.	619	620	O
+
+Although	621	629	O
+the	630	633	O
+kinetic	634	641	B-Process
+energy	642	648	I-Process
+of	649	651	O
+such	652	656	O
+a	657	658	O
+state	659	664	O
+is	665	667	O
+higher	668	674	O
+than	675	679	O
+that	680	684	O
+of	685	687	O
+the	688	691	O
+totally	692	699	B-Process
+symmetric	700	709	I-Process
+[	710	711	I-Process
+4]O	711	714	I-Process
+state	715	720	I-Process
+,	720	721	O
+the	722	725	O
+[	726	727	O
+31]O	727	731	B-Process
+symmetry	732	740	I-Process
+is	741	743	O
+the	744	747	O
+most	748	752	O
+favourable	753	763	O
+both	764	768	O
+for	769	772	O
+the	773	776	O
+flavour	777	784	B-Process
+–	784	785	I-Process
+spin	785	789	I-Process
+interaction	790	801	I-Process
+[	802	803	O
+12	803	805	O
+]	805	806	O
+and	807	810	O
+the	811	814	O
+colour	815	821	B-Process
+–	821	822	I-Process
+spin	822	826	I-Process
+interaction	827	838	I-Process
+[	839	840	O
+13	840	842	O
+]	842	843	O
+.	843	844	O
+
+In	845	847	O
+the	848	851	O
+first	852	857	O
+case	858	862	O
+the	863	866	O
+statement	867	876	O
+is	877	879	O
+confirmed	880	889	O
+by	890	892	O
+the	893	896	O
+comparison	897	907	B-Task
+between	908	915	I-Task
+the	916	919	I-Task
+realistic	920	929	I-Task
+calculations	930	942	I-Task
+for	943	946	I-Task
+positive	947	955	I-Task
+parity	956	962	I-Task
+[	963	964	I-Task
+12	964	966	I-Task
+]	966	967	I-Task
+and	968	971	I-Task
+negative	972	980	I-Task
+parity	981	987	I-Task
+[	988	989	I-Task
+14	989	991	I-Task
+]	991	992	I-Task
+,	992	993	I-Task
+based	994	999	I-Task
+on	1000	1002	I-Task
+the	1003	1006	I-Task
+same	1007	1011	I-Task
+quark	1012	1017	I-Task
+model	1018	1023	I-Task
+[	1024	1025	I-Task
+15	1025	1027	I-Task
+]	1027	1028	I-Task
+.	1028	1029	O
+
+In	1030	1032	O
+Ref	1033	1036	O
+.	1036	1037	O
+
+[	1038	1039	O
+12	1039	1041	O
+]	1041	1042	O
+the	1043	1046	O
+antiquark	1047	1056	B-Material
+was	1057	1060	O
+heavy	1061	1066	O
+,	1066	1067	O
+c	1068	1069	O
+or	1070	1072	O
+b	1073	1074	O
+,	1074	1075	O
+and	1076	1079	O
+accordingly	1080	1091	O
+the	1092	1095	O
+interaction	1096	1107	B-Process
+between	1108	1115	I-Process
+light	1116	1121	I-Process
+quarks	1122	1128	I-Process
+and	1129	1132	I-Process
+the	1133	1136	I-Process
+heavy	1137	1142	I-Process
+antiquark	1143	1152	I-Process
+was	1153	1156	I-Process
+neglected	1157	1166	I-Process
+,	1166	1167	I-Process
+consistent	1168	1178	I-Process
+with	1179	1183	I-Process
+the	1184	1187	I-Process
+heavy	1188	1193	I-Process
+quark	1194	1199	I-Process
+limit	1200	1205	I-Process
+.	1205	1206	O
+
+In	1207	1209	O
+Ref	1210	1213	O
+.	1213	1214	O
+
+[	1215	1216	O
+16	1216	1218	O
+]	1218	1219	O
+an	1220	1222	O
+attractive	1223	1233	O
+spin	1234	1238	B-Process
+–	1238	1239	I-Process
+spin	1239	1243	I-Process
+interaction	1244	1255	I-Process
+between	1256	1263	O
+s̄	1264	1266	B-Material
+and	1267	1270	O
+the	1271	1274	O
+light	1275	1280	B-Material
+quarks	1281	1287	I-Material
+was	1288	1291	O
+incorporated	1292	1304	O
+and	1305	1308	O
+shown	1309	1314	O
+that	1315	1319	O
+a	1320	1321	O
+stable	1322	1328	O
+or	1329	1331	O
+narrow	1332	1338	O
+positive	1339	1347	O
+parity	1348	1354	O
+uudds̄	1355	1361	B-Material
+pentaquark	1362	1372	I-Material
+can	1373	1376	O
+be	1377	1379	O
+accommodated	1380	1392	O
+within	1393	1399	O
+such	1400	1404	O
+a	1405	1406	O
+model	1407	1412	O
+.	1412	1413	O
+
+This	1414	1418	O
+interaction	1419	1430	O
+has	1431	1434	O
+a	1435	1436	O
+form	1437	1441	O
+that	1442	1446	O
+corresponds	1447	1458	O
+to	1459	1461	O
+η	1462	1463	B-Process
+meson	1464	1469	I-Process
+exchange	1470	1478	I-Process
+[	1479	1480	O
+17	1480	1482	O
+]	1482	1483	O
+and	1484	1487	O
+its	1488	1491	O
+role	1492	1496	O
+is	1497	1499	O
+to	1500	1502	O
+lower	1503	1508	B-Process
+the	1509	1512	I-Process
+energy	1513	1519	I-Process
+of	1520	1522	I-Process
+the	1523	1526	I-Process
+whole	1527	1532	I-Process
+system	1533	1539	I-Process
+.	1539	1540	O
 
 
 -DOCSTART- (S0370269304009220)
 
-There	NN	O	O
-exist	NN	O	O
-some	NN	O	O
-interesting	NN	O	O
-cases	NN	O	O
-where	NN	O	O
-the	NN	O	O
-deformation	NN	O	B-Process
-structure	NN	O	I-Process
-becomes	NN	O	O
-simple	NN	O	O
-.	NN	O	O
-
-One	NN	O	O
-is	NN	O	O
-the	NN	O	O
-limit	NN	O	O
-to	NN	O	O
-the	NN	O	O
-N=1/2	NN	O	B-Process
-superspace	NN	O	I-Process
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-action	NN	O	O
-should	NN	O	O
-reduce	NN	O	O
-to	NN	O	O
-N=1/2	NN	O	B-Process
-super	NN	O	I-Process
--	NN	O	I-Process
-Yang	NN	O	I-Process
-–	NN	O	I-Process
-Mills	NN	O	I-Process
-theory	NN	O	I-Process
-with	NN	O	I-Process
-adjoint	NN	O	I-Process
-matter	NN	O	I-Process
-.	NN	O	O
-
-Another	NN	O	O
-interesting	NN	O	O
-case	NN	O	O
-is	NN	O	O
-the	NN	O	O
-singlet	NN	O	B-Task
-deformation	NN	O	I-Task
-[	NN	O	O
-10,11	NN	O	O
-]	NN	O	O
-,	NN	O	O
-where	NN	O	O
-the	NN	O	O
-deformation	NN	O	B-Process
-parameters	NN	O	I-Process
-belongs	NN	O	O
-to	NN	O	O
-the	NN	O	O
-singlet	NN	O	B-Process
-representation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-R	NN	O	B-Process
--	NN	O	I-Process
-symmetry	NN	O	I-Process
-group	NN	O	I-Process
-SU(2)R.	NN	O	B-Process
-
-In	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-,	NN	O	O
-we	NN	O	O
-will	NN	O	O
-study	NN	O	O
-N=2	NN	O	O
-supersymmetric	NN	O	O
-U(1	NN	O	O
-)	NN	O	O
-
-gauge	NN	O	O
-theory	NN	O	O
-in	NN	O	O
-the	NN	O	O
-harmonic	NN	O	B-Process
-superspace	NN	O	I-Process
-with	NN	O	O
-singlet	NN	O	B-Process
-deformation	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-case	NN	O	O
-,	NN	O	O
-the	NN	O	B-Task
-gauge	NN	O	I-Task
-and	NN	O	I-Task
-supersymmetry	NN	O	I-Task
-transformations	NN	O	I-Task
-get	NN	O	O
-correction	NN	O	B-Process
-linear	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-deformation	NN	O	B-Process
-parameter	NN	O	I-Process
-.	NN	O	O
-
-Therefore	NN	O	O
-we	NN	O	O
-can	NN	O	O
-easily	NN	O	O
-perform	NN	O	O
-the	NN	O	O
-field	NN	O	B-Process
-redefinition	NN	O	I-Process
-such	NN	O	O
-that	NN	O	O
-the	NN	O	O
-component	NN	O	O
-fields	NN	O	O
-transform	NN	O	O
-canonically	NN	O	O
-under	NN	O	O
-the	NN	O	O
-gauge	NN	O	B-Process
-transformation	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-N=1/2	NN	O	B-Task
-super	NN	O	I-Task
--	NN	O	I-Task
-Yang	NN	O	I-Task
-–	NN	O	I-Task
-Mills	NN	O	I-Task
-theory	NN	O	I-Task
-,	NN	O	O
-such	NN	O	O
-field	NN	O	B-Process
-redefinition	NN	O	I-Process
-is	NN	O	O
-also	NN	O	O
-possible	NN	O	O
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-But	NN	O	O
-in	NN	O	O
-this	NN	O	O
-case	NN	O	O
-the	NN	O	O
-component	NN	O	B-Task
-fields	NN	O	I-Task
-do	NN	O	O
-not	NN	O	O
-transform	NN	O	O
-canonically	NN	O	O
-under	NN	O	O
-the	NN	O	O
-deformed	NN	O	B-Process
-supersymmtery	NN	O	I-Process
-transformation	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-singlet	NN	O	B-Task
-case	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-will	NN	O	O
-show	NN	O	O
-that	NN	O	O
-there	NN	O	O
-is	NN	O	O
-a	NN	O	O
-field	NN	O	B-Process
-redefinition	NN	O	I-Process
-such	NN	O	O
-that	NN	O	O
-the	NN	O	O
-redefined	NN	O	O
-fields	NN	O	O
-also	NN	O	O
-transform	NN	O	B-Process
-canonically	NN	O	I-Process
-under	NN	O	I-Process
-the	NN	O	I-Process
-deformed	NN	O	I-Process
-supersymmetry	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-will	NN	O	O
-construct	NN	O	O
-a	NN	O	O
-deformed	NN	O	B-Process
-Lagrangian	NN	O	I-Process
-which	NN	O	O
-is	NN	O	O
-invariant	NN	O	O
-under	NN	O	O
-both	NN	O	O
-the	NN	O	O
-gauge	NN	O	B-Process
-and	NN	O	I-Process
-supersymmetry	NN	O	I-Process
-transformations	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-find	NN	O	O
-that	NN	O	O
-the	NN	O	O
-deformed	NN	O	B-Process
-Lagrangian	NN	O	I-Process
-is	NN	O	O
-characterized	NN	O	O
-by	NN	O	O
-a	NN	O	O
-single	NN	O	B-Process
-function	NN	O	I-Process
-of	NN	O	O
-an	NN	O	O
-antiholomorphic	NN	O	B-Process
-scalar	NN	O	I-Process
-field	NN	O	I-Process
-.	NN	O	O
+There	0	5	O
+exist	6	11	O
+some	12	16	O
+interesting	17	28	O
+cases	29	34	O
+where	35	40	O
+the	41	44	O
+deformation	45	56	B-Process
+structure	57	66	I-Process
+becomes	67	74	O
+simple	75	81	O
+.	81	82	O
+
+One	83	86	O
+is	87	89	O
+the	90	93	O
+limit	94	99	O
+to	100	102	O
+the	103	106	O
+N=1/2	107	112	B-Process
+superspace	113	123	I-Process
+[	124	125	O
+5	125	126	O
+]	126	127	O
+,	127	128	O
+where	129	134	O
+the	135	138	O
+action	139	145	O
+should	146	152	O
+reduce	153	159	O
+to	160	162	O
+N=1/2	163	168	B-Process
+super	169	174	I-Process
+-	174	175	I-Process
+Yang	175	179	I-Process
+–	179	180	I-Process
+Mills	180	185	I-Process
+theory	186	192	I-Process
+with	193	197	I-Process
+adjoint	198	205	I-Process
+matter	206	212	I-Process
+.	212	213	O
+
+Another	214	221	O
+interesting	222	233	O
+case	234	238	O
+is	239	241	O
+the	242	245	O
+singlet	246	253	B-Task
+deformation	254	265	I-Task
+[	266	267	O
+10,11	267	272	O
+]	272	273	O
+,	273	274	O
+where	275	280	O
+the	281	284	O
+deformation	285	296	B-Process
+parameters	297	307	I-Process
+belongs	308	315	O
+to	316	318	O
+the	319	322	O
+singlet	323	330	B-Process
+representation	331	345	I-Process
+of	346	348	O
+the	349	352	O
+R	353	354	B-Process
+-	354	355	I-Process
+symmetry	355	363	I-Process
+group	364	369	I-Process
+SU(2)R.	370	377	B-Process
+
+In	378	380	O
+this	381	385	O
+Letter	386	392	O
+,	392	393	O
+we	394	396	O
+will	397	401	O
+study	402	407	O
+N=2	408	411	O
+supersymmetric	412	426	O
+U(1	427	430	O
+)	430	431	O
+
+gauge	432	437	O
+theory	438	444	O
+in	445	447	O
+the	448	451	O
+harmonic	452	460	B-Process
+superspace	461	471	I-Process
+with	472	476	O
+singlet	477	484	B-Process
+deformation	485	496	I-Process
+.	496	497	O
+
+In	498	500	O
+this	501	505	O
+case	506	510	O
+,	510	511	O
+the	512	515	B-Task
+gauge	516	521	I-Task
+and	522	525	I-Task
+supersymmetry	526	539	I-Task
+transformations	540	555	I-Task
+get	556	559	O
+correction	560	570	B-Process
+linear	571	577	I-Process
+in	578	580	O
+the	581	584	O
+deformation	585	596	B-Process
+parameter	597	606	I-Process
+.	606	607	O
+
+Therefore	608	617	O
+we	618	620	O
+can	621	624	O
+easily	625	631	O
+perform	632	639	O
+the	640	643	O
+field	644	649	B-Process
+redefinition	650	662	I-Process
+such	663	667	O
+that	668	672	O
+the	673	676	O
+component	677	686	O
+fields	687	693	O
+transform	694	703	O
+canonically	704	715	O
+under	716	721	O
+the	722	725	O
+gauge	726	731	B-Process
+transformation	732	746	I-Process
+.	746	747	O
+
+In	748	750	O
+the	751	754	O
+case	755	759	O
+of	760	762	O
+N=1/2	763	768	B-Task
+super	769	774	I-Task
+-	774	775	I-Task
+Yang	775	779	I-Task
+–	779	780	I-Task
+Mills	780	785	I-Task
+theory	786	792	I-Task
+,	792	793	O
+such	794	798	O
+field	799	804	B-Process
+redefinition	805	817	I-Process
+is	818	820	O
+also	821	825	O
+possible	826	834	O
+[	835	836	O
+5	836	837	O
+]	837	838	O
+.	838	839	O
+
+But	840	843	O
+in	844	846	O
+this	847	851	O
+case	852	856	O
+the	857	860	O
+component	861	870	B-Task
+fields	871	877	I-Task
+do	878	880	O
+not	881	884	O
+transform	885	894	O
+canonically	895	906	O
+under	907	912	O
+the	913	916	O
+deformed	917	925	B-Process
+supersymmtery	926	939	I-Process
+transformation	940	954	I-Process
+.	954	955	O
+
+In	956	958	O
+the	959	962	O
+singlet	963	970	B-Task
+case	971	975	I-Task
+,	975	976	O
+we	977	979	O
+will	980	984	O
+show	985	989	O
+that	990	994	O
+there	995	1000	O
+is	1001	1003	O
+a	1004	1005	O
+field	1006	1011	B-Process
+redefinition	1012	1024	I-Process
+such	1025	1029	O
+that	1030	1034	O
+the	1035	1038	O
+redefined	1039	1048	O
+fields	1049	1055	O
+also	1056	1060	O
+transform	1061	1070	B-Process
+canonically	1071	1082	I-Process
+under	1083	1088	I-Process
+the	1089	1092	I-Process
+deformed	1093	1101	I-Process
+supersymmetry	1102	1115	I-Process
+.	1115	1116	O
+
+We	1117	1119	O
+will	1120	1124	O
+construct	1125	1134	O
+a	1135	1136	O
+deformed	1137	1145	B-Process
+Lagrangian	1146	1156	I-Process
+which	1157	1162	O
+is	1163	1165	O
+invariant	1166	1175	O
+under	1176	1181	O
+both	1182	1186	O
+the	1187	1190	O
+gauge	1191	1196	B-Process
+and	1197	1200	I-Process
+supersymmetry	1201	1214	I-Process
+transformations	1215	1230	I-Process
+.	1230	1231	O
+
+We	1232	1234	O
+find	1235	1239	O
+that	1240	1244	O
+the	1245	1248	O
+deformed	1249	1257	B-Process
+Lagrangian	1258	1268	I-Process
+is	1269	1271	O
+characterized	1272	1285	O
+by	1286	1288	O
+a	1289	1290	O
+single	1291	1297	B-Process
+function	1298	1306	I-Process
+of	1307	1309	O
+an	1310	1312	O
+antiholomorphic	1313	1328	B-Process
+scalar	1329	1335	I-Process
+field	1336	1341	I-Process
+.	1341	1342	O
 
 
 -DOCSTART- (S0370269304009232)
 
-We	NN	O	O
-consider	NN	O	O
-finite	NN	O	B-Process
--	NN	O	I-Process
-time	NN	O	I-Process
-,	NN	O	I-Process
-future	NN	O	I-Process
-(	NN	O	I-Process
-sudden	NN	O	I-Process
-or	NN	O	I-Process
-Big	NN	O	I-Process
-Rip	NN	O	I-Process
-type	NN	O	I-Process
-)	NN	O	I-Process
-singularities	NN	O	I-Process
-which	NN	O	O
-may	NN	O	O
-occur	NN	O	O
-even	NN	O	O
-when	NN	O	O
-strong	NN	O	B-Process
-energy	NN	O	I-Process
-condition	NN	O	I-Process
-is	NN	O	O
-not	NN	O	O
-violated	NN	O	O
-but	NN	O	O
-equation	NN	O	O
-of	NN	O	O
-state	NN	O	O
-parameter	NN	O	O
-is	NN	O	O
-time	NN	O	O
--	NN	O	O
-dependent	NN	O	O
-.	NN	O	O
-
-Recently	NN	O	O
-,	NN	O	O
-example	NN	O	B-Task
-of	NN	O	I-Task
-such	NN	O	I-Task
-singularity	NN	O	I-Task
-has	NN	O	O
-been	NN	O	O
-presented	NN	O	O
-by	NN	O	O
-Barrow	NN	O	O
-,	NN	O	O
-we	NN	O	B-Task
-found	NN	O	I-Task
-another	NN	O	I-Task
-example	NN	O	I-Task
-of	NN	O	I-Task
-it	NN	O	I-Task
-.	NN	O	O
-
-Taking	NN	O	O
-into	NN	O	O
-account	NN	O	O
-back	NN	O	B-Task
-reaction	NN	O	I-Task
-of	NN	O	I-Task
-conformal	NN	O	I-Task
-quantum	NN	O	I-Task
-fields	NN	O	I-Task
-near	NN	O	I-Task
-singularity	NN	O	I-Task
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-shown	NN	O	O
-explicitly	NN	O	O
-that	NN	O	O
-quantum	NN	O	B-Process
-effects	NN	O	I-Process
-may	NN	O	O
-delay	NN	O	O
-(	NN	O	O
-or	NN	O	O
-make	NN	O	O
-milder	NN	O	O
-)	NN	O	O
-the	NN	O	O
-singularity	NN	O	B-Process
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-argued	NN	O	O
-that	NN	O	O
-if	NN	O	O
-the	NN	O	O
-evolution	NN	O	B-Task
-to	NN	O	I-Task
-singularity	NN	O	I-Task
-is	NN	O	O
-realistic	NN	O	O
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-quantum	NN	O	B-Process
-effects	NN	O	I-Process
-the	NN	O	B-Process
-universe	NN	O	I-Process
-may	NN	O	I-Process
-end	NN	O	I-Process
-up	NN	O	I-Process
-in	NN	O	I-Process
-de	NN	O	I-Process
-Sitter	NN	O	I-Process
-phase	NN	O	I-Process
-before	NN	O	O
-scale	NN	O	B-Process
-factor	NN	O	I-Process
-blows	NN	O	I-Process
-up	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-picture	NN	O	O
-is	NN	O	O
-generalized	NN	O	O
-for	NN	O	O
-braneworld	NN	O	B-Material
-where	NN	O	O
-sudden	NN	O	B-Process
-singularity	NN	O	I-Process
-may	NN	O	O
-occur	NN	O	O
-on	NN	O	O
-the	NN	O	O
-brane	NN	O	B-Material
-with	NN	O	O
-qualitatively	NN	O	B-Process
-similar	NN	O	I-Process
-conclusions	NN	O	I-Process
-.	NN	O	O
+We	0	2	O
+consider	3	11	O
+finite	12	18	B-Process
+-	18	19	I-Process
+time	19	23	I-Process
+,	23	24	I-Process
+future	25	31	I-Process
+(	32	33	I-Process
+sudden	33	39	I-Process
+or	40	42	I-Process
+Big	43	46	I-Process
+Rip	47	50	I-Process
+type	51	55	I-Process
+)	55	56	I-Process
+singularities	57	70	I-Process
+which	71	76	O
+may	77	80	O
+occur	81	86	O
+even	87	91	O
+when	92	96	O
+strong	97	103	B-Process
+energy	104	110	I-Process
+condition	111	120	I-Process
+is	121	123	O
+not	124	127	O
+violated	128	136	O
+but	137	140	O
+equation	141	149	O
+of	150	152	O
+state	153	158	O
+parameter	159	168	O
+is	169	171	O
+time	172	176	O
+-	176	177	O
+dependent	177	186	O
+.	186	187	O
+
+Recently	188	196	O
+,	196	197	O
+example	198	205	B-Task
+of	206	208	I-Task
+such	209	213	I-Task
+singularity	214	225	I-Task
+has	226	229	O
+been	230	234	O
+presented	235	244	O
+by	245	247	O
+Barrow	248	254	O
+,	254	255	O
+we	256	258	B-Task
+found	259	264	I-Task
+another	265	272	I-Task
+example	273	280	I-Task
+of	281	283	I-Task
+it	284	286	I-Task
+.	286	287	O
+
+Taking	288	294	O
+into	295	299	O
+account	300	307	O
+back	308	312	B-Task
+reaction	313	321	I-Task
+of	322	324	I-Task
+conformal	325	334	I-Task
+quantum	335	342	I-Task
+fields	343	349	I-Task
+near	350	354	I-Task
+singularity	355	366	I-Task
+,	366	367	O
+it	368	370	O
+is	371	373	O
+shown	374	379	O
+explicitly	380	390	O
+that	391	395	O
+quantum	396	403	B-Process
+effects	404	411	I-Process
+may	412	415	O
+delay	416	421	O
+(	422	423	O
+or	423	425	O
+make	426	430	O
+milder	431	437	O
+)	437	438	O
+the	439	442	O
+singularity	443	454	B-Process
+.	454	455	O
+
+It	456	458	O
+is	459	461	O
+argued	462	468	O
+that	469	473	O
+if	474	476	O
+the	477	480	O
+evolution	481	490	B-Task
+to	491	493	I-Task
+singularity	494	505	I-Task
+is	506	508	O
+realistic	509	518	O
+,	518	519	O
+due	520	523	O
+to	524	526	O
+quantum	527	534	B-Process
+effects	535	542	I-Process
+the	543	546	B-Process
+universe	547	555	I-Process
+may	556	559	I-Process
+end	560	563	I-Process
+up	564	566	I-Process
+in	567	569	I-Process
+de	570	572	I-Process
+Sitter	573	579	I-Process
+phase	580	585	I-Process
+before	586	592	O
+scale	593	598	B-Process
+factor	599	605	I-Process
+blows	606	611	I-Process
+up	612	614	I-Process
+.	614	615	O
+
+This	616	620	O
+picture	621	628	O
+is	629	631	O
+generalized	632	643	O
+for	644	647	O
+braneworld	648	658	B-Material
+where	659	664	O
+sudden	665	671	B-Process
+singularity	672	683	I-Process
+may	684	687	O
+occur	688	693	O
+on	694	696	O
+the	697	700	O
+brane	701	706	B-Material
+with	707	711	O
+qualitatively	712	725	B-Process
+similar	726	733	I-Process
+conclusions	734	745	I-Process
+.	745	746	O
 
 
 -DOCSTART- (S0370269304009268)
 
-One	NN	O	O
-of	NN	O	O
-the	NN	O	O
-great	NN	O	O
-successes	NN	O	O
-of	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-program	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-at	NN	O	O
-LEP	NN	O	O
-has	NN	O	O
-been	NN	O	O
-to	NN	O	O
-put	NN	O	B-Process
-a	NN	O	I-Process
-firm	NN	O	I-Process
-lower	NN	O	I-Process
-bound	NN	O	I-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-Higgs	NN	O	I-Process
-mass	NN	O	I-Process
-,	NN	O	O
-mH>114	NN	O	B-Process
-GeV	NN	O	I-Process
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-at	NN	O	O
-the	NN	O	O
-same	NN	O	O
-time	NN	O	O
-,	NN	O	O
-together	NN	O	O
-with	NN	O	O
-the	NN	O	O
-information	NN	O	O
-coming	NN	O	O
-from	NN	O	O
-SLD	NN	O	B-Material
-,	NN	O	O
-to	NN	O	O
-give	NN	O	O
-a	NN	O	O
-strong	NN	O	O
-indirect	NN	O	O
-evidence	NN	O	O
-that	NN	O	O
-the	NN	O	O
-Higgs	NN	O	B-Material
-boson	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-still	NN	O	O
-missing	NN	O	O
-particle	NN	O	B-Material
-of	NN	O	O
-the	NN	O	O
-Standard	NN	O	B-Process
-Model	NN	O	I-Process
-(	NN	O	O
-SM	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-should	NN	O	O
-be	NN	O	O
-relatively	NN	O	O
-light	NN	O	O
-with	NN	O	O
-a	NN	O	O
-high	NN	O	O
-probability	NN	O	O
-for	NN	O	O
-its	NN	O	O
-mass	NN	O	O
-to	NN	O	O
-be	NN	O	O
-below	NN	O	O
-200	NN	O	O
-GeV.	NN	O	O
-
-The	NN	O	B-Task
-search	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-Higgs	NN	O	I-Task
-boson	NN	O	I-Task
-is	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-main	NN	O	O
-objective	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Tevatron	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-future	NN	O	O
-Large	NN	O	B-Material
-Hadron	NN	O	I-Material
-Collider	NN	O	I-Material
-(	NN	O	B-Material
-LHC	NN	O	I-Material
-)	NN	O	I-Material
-,	NN	O	O
-that	NN	O	O
-are	NN	O	O
-supposed	NN	O	O
-to	NN	O	O
-span	NN	O	B-Process
-all	NN	O	I-Process
-the	NN	O	I-Process
-Higgs	NN	O	I-Process
-mass	NN	O	I-Process
-regions	NN	O	I-Process
-up	NN	O	I-Process
-to	NN	O	I-Process
-1	NN	O	I-Process
-TeV.	NN	O	I-Process
-
-At	NN	O	O
-hadron	NN	O	B-Material
-colliders	NN	O	I-Material
-the	NN	O	O
-main	NN	O	B-Task
-Higgs	NN	O	I-Task
-production	NN	O	I-Task
-mechanism	NN	O	I-Task
-is	NN	O	O
-the	NN	O	O
-gluon	NN	O	B-Process
-fusion	NN	O	I-Process
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-,	NN	O	O
-a	NN	O	O
-process	NN	O	O
-whose	NN	O	O
-knowledge	NN	O	O
-is	NN	O	O
-fundamental	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-put	NN	O	B-Process
-limits	NN	O	I-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-Higgs	NN	O	I-Process
-mass	NN	O	I-Process
-or	NN	O	O
-,	NN	O	O
-in	NN	O	O
-case	NN	O	O
-the	NN	O	O
-Higgs	NN	O	B-Material
-is	NN	O	O
-discovered	NN	O	O
-,	NN	O	O
-to	NN	O	O
-compare	NN	O	B-Process
-the	NN	O	I-Process
-measured	NN	O	I-Process
-cross	NN	O	I-Process
-section	NN	O	I-Process
-with	NN	O	I-Process
-the	NN	O	I-Process
-SM	NN	O	I-Process
-result	NN	O	I-Process
-.	NN	O	O
-
-Concerning	NN	O	O
-the	NN	O	O
-Higgs	NN	O	B-Process
-decay	NN	O	I-Process
-channels	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-quite	NN	O	O
-difficult	NN	O	O
-for	NN	O	O
-an	NN	O	O
-hadron	NN	O	B-Material
-collider	NN	O	I-Material
-to	NN	O	O
-access	NN	O	B-Task
-part	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-mass	NN	O	I-Task
-range	NN	O	I-Task
-favored	NN	O	I-Task
-by	NN	O	I-Task
-the	NN	O	I-Task
-LEP	NN	O	I-Task
-results	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-so	NN	O	O
--	NN	O	O
-called	NN	O	O
-intermediate	NN	O	B-Process
-Higgs	NN	O	I-Process
-mass	NN	O	I-Process
-region	NN	O	I-Process
-114≲mH≲160	NN	O	B-Process
-GeV	NN	O	I-Process
-,	NN	O	O
-because	NN	O	O
-of	NN	O	O
-the	NN	O	O
-large	NN	O	O
-QCD	NN	O	B-Material
-background	NN	O	I-Material
-to	NN	O	O
-the	NN	O	O
-dominant	NN	O	O
-modes	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-region	NN	O	O
-the	NN	O	O
-rare	NN	O	B-Process
-decay	NN	O	I-Process
-H→γγ	NN	O	B-Process
-is	NN	O	O
-the	NN	O	O
-most	NN	O	O
-interesting	NN	O	O
-alternative	NN	O	O
-to	NN	O	O
-the	NN	O	O
-usual	NN	O	O
-decay	NN	O	B-Process
-channels	NN	O	I-Process
-.	NN	O	O
+One	0	3	O
+of	4	6	O
+the	7	10	O
+great	11	16	O
+successes	17	26	O
+of	27	29	O
+the	30	33	O
+experimental	34	46	O
+program	47	54	O
+carried	55	62	O
+out	63	66	O
+at	67	69	O
+LEP	70	73	O
+has	74	77	O
+been	78	82	O
+to	83	85	O
+put	86	89	B-Process
+a	90	91	I-Process
+firm	92	96	I-Process
+lower	97	102	I-Process
+bound	103	108	I-Process
+on	109	111	I-Process
+the	112	115	I-Process
+Higgs	116	121	I-Process
+mass	122	126	I-Process
+,	126	127	O
+mH>114	128	134	B-Process
+GeV	135	138	I-Process
+[	139	140	O
+1	140	141	O
+]	141	142	O
+,	142	143	O
+and	144	147	O
+at	148	150	O
+the	151	154	O
+same	155	159	O
+time	160	164	O
+,	164	165	O
+together	166	174	O
+with	175	179	O
+the	180	183	O
+information	184	195	O
+coming	196	202	O
+from	203	207	O
+SLD	208	211	B-Material
+,	211	212	O
+to	213	215	O
+give	216	220	O
+a	221	222	O
+strong	223	229	O
+indirect	230	238	O
+evidence	239	247	O
+that	248	252	O
+the	253	256	O
+Higgs	257	262	B-Material
+boson	263	268	I-Material
+,	268	269	O
+the	270	273	O
+still	274	279	O
+missing	280	287	O
+particle	288	296	B-Material
+of	297	299	O
+the	300	303	O
+Standard	304	312	B-Process
+Model	313	318	I-Process
+(	319	320	O
+SM	320	322	B-Process
+)	322	323	O
+,	323	324	O
+should	325	331	O
+be	332	334	O
+relatively	335	345	O
+light	346	351	O
+with	352	356	O
+a	357	358	O
+high	359	363	O
+probability	364	375	O
+for	376	379	O
+its	380	383	O
+mass	384	388	O
+to	389	391	O
+be	392	394	O
+below	395	400	O
+200	401	404	O
+GeV.	405	409	O
+
+The	410	413	B-Task
+search	414	420	I-Task
+for	421	424	I-Task
+the	425	428	I-Task
+Higgs	429	434	I-Task
+boson	435	440	I-Task
+is	441	443	O
+one	444	447	O
+of	448	450	O
+the	451	454	O
+main	455	459	O
+objective	460	469	O
+of	470	472	O
+the	473	476	O
+Tevatron	477	485	B-Material
+and	486	489	O
+the	490	493	O
+future	494	500	O
+Large	501	506	B-Material
+Hadron	507	513	I-Material
+Collider	514	522	I-Material
+(	523	524	B-Material
+LHC	524	527	I-Material
+)	527	528	I-Material
+,	528	529	O
+that	530	534	O
+are	535	538	O
+supposed	539	547	O
+to	548	550	O
+span	551	555	B-Process
+all	556	559	I-Process
+the	560	563	I-Process
+Higgs	564	569	I-Process
+mass	570	574	I-Process
+regions	575	582	I-Process
+up	583	585	I-Process
+to	586	588	I-Process
+1	589	590	I-Process
+TeV.	591	595	I-Process
+
+At	596	598	O
+hadron	599	605	B-Material
+colliders	606	615	I-Material
+the	616	619	O
+main	620	624	B-Task
+Higgs	625	630	I-Task
+production	631	641	I-Task
+mechanism	642	651	I-Task
+is	652	654	O
+the	655	658	O
+gluon	659	664	B-Process
+fusion	665	671	I-Process
+[	672	673	O
+2	673	674	O
+]	674	675	O
+,	675	676	O
+a	677	678	O
+process	679	686	O
+whose	687	692	O
+knowledge	693	702	O
+is	703	705	O
+fundamental	706	717	O
+in	718	720	O
+order	721	726	O
+to	727	729	O
+put	730	733	B-Process
+limits	734	740	I-Process
+on	741	743	I-Process
+the	744	747	I-Process
+Higgs	748	753	I-Process
+mass	754	758	I-Process
+or	759	761	O
+,	761	762	O
+in	763	765	O
+case	766	770	O
+the	771	774	O
+Higgs	775	780	B-Material
+is	781	783	O
+discovered	784	794	O
+,	794	795	O
+to	796	798	O
+compare	799	806	B-Process
+the	807	810	I-Process
+measured	811	819	I-Process
+cross	820	825	I-Process
+section	826	833	I-Process
+with	834	838	I-Process
+the	839	842	I-Process
+SM	843	845	I-Process
+result	846	852	I-Process
+.	852	853	O
+
+Concerning	854	864	O
+the	865	868	O
+Higgs	869	874	B-Process
+decay	875	880	I-Process
+channels	881	889	O
+,	889	890	O
+it	891	893	O
+is	894	896	O
+quite	897	902	O
+difficult	903	912	O
+for	913	916	O
+an	917	919	O
+hadron	920	926	B-Material
+collider	927	935	I-Material
+to	936	938	O
+access	939	945	B-Task
+part	946	950	I-Task
+of	951	953	I-Task
+the	954	957	I-Task
+mass	958	962	I-Task
+range	963	968	I-Task
+favored	969	976	I-Task
+by	977	979	I-Task
+the	980	983	I-Task
+LEP	984	987	I-Task
+results	988	995	I-Task
+,	995	996	O
+the	997	1000	O
+so	1001	1003	O
+-	1003	1004	O
+called	1004	1010	O
+intermediate	1011	1023	B-Process
+Higgs	1024	1029	I-Process
+mass	1030	1034	I-Process
+region	1035	1041	I-Process
+114≲mH≲160	1042	1052	B-Process
+GeV	1053	1056	I-Process
+,	1056	1057	O
+because	1058	1065	O
+of	1066	1068	O
+the	1069	1072	O
+large	1073	1078	O
+QCD	1079	1082	B-Material
+background	1083	1093	I-Material
+to	1094	1096	O
+the	1097	1100	O
+dominant	1101	1109	O
+modes	1110	1115	O
+.	1115	1116	O
+
+In	1117	1119	O
+this	1120	1124	O
+region	1125	1131	O
+the	1132	1135	O
+rare	1136	1140	B-Process
+decay	1141	1146	I-Process
+H→γγ	1147	1151	B-Process
+is	1152	1154	O
+the	1155	1158	O
+most	1159	1163	O
+interesting	1164	1175	O
+alternative	1176	1187	O
+to	1188	1190	O
+the	1191	1194	O
+usual	1195	1200	O
+decay	1201	1206	B-Process
+channels	1207	1215	I-Process
+.	1215	1216	O
 
 
 -DOCSTART- (S037026930400930X)
 
-Recent	NN	O	O
-publications	NN	O	O
-[	NN	O	O
-31	NN	O	O
-]	NN	O	O
-employ	NN	O	O
-a	NN	O	O
-variety	NN	O	O
-of	NN	O	O
-methods	NN	O	O
-for	NN	O	O
-calculating	NN	O	B-Task
-upper	NN	O	I-Task
-limits	NN	O	I-Task
-and	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-universally	NN	O	O
-accepted	NN	O	O
-procedure	NN	O	O
-[	NN	O	O
-27,32,33	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-choose	NN	O	O
-an	NN	O	O
-approach	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-that	NN	O	O
-first	NN	O	O
-advocated	NN	O	O
-by	NN	O	O
-Feldman	NN	O	O
-and	NN	O	O
-Cousins	NN	O	O
-[	NN	O	O
-27	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-method	NN	O	O
-has	NN	O	O
-been	NN	O	O
-since	NN	O	O
-extended	NN	O	O
-by	NN	O	O
-Conrad	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-34	NN	O	O
-]	NN	O	O
-to	NN	O	O
-incorporate	NN	O	B-Process
-uncertainties	NN	O	I-Process
-in	NN	O	O
-detector	NN	O	B-Task
-sensitivity	NN	O	I-Task
-and	NN	O	O
-the	NN	O	O
-background	NN	O	B-Process
-estimate	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-an	NN	O	O
-approach	NN	O	O
-described	NN	O	O
-by	NN	O	O
-Cousins	NN	O	O
-and	NN	O	O
-Highland	NN	O	O
-
-[	NN	O	O
-35	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-further	NN	O	O
-refinement	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Conrad	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-method	NN	O	O
-by	NN	O	O
-Hill	NN	O	O
-[	NN	O	O
-36	NN	O	O
-]	NN	O	O
-results	NN	O	O
-in	NN	O	O
-more	NN	O	B-Process
-appropriate	NN	O	I-Process
-behavior	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-upper	NN	O	O
-limit	NN	O	O
-when	NN	O	O
-the	NN	O	O
-observed	NN	O	O
-number	NN	O	O
-of	NN	O	O
-events	NN	O	O
-is	NN	O	O
-less	NN	O	O
-than	NN	O	O
-the	NN	O	O
-estimated	NN	O	O
-background	NN	O	O
-,	NN	O	O
-as	NN	O	O
-is	NN	O	O
-the	NN	O	O
-case	NN	O	O
-for	NN	O	O
-the	NN	O	O
-present	NN	O	O
-measurement	NN	O	B-Process
-.	NN	O	O
-
-We	NN	O	O
-have	NN	O	O
-adopted	NN	O	O
-this	NN	O	O
-method	NN	O	O
-but	NN	O	O
-note	NN	O	O
-that	NN	O	O
-Table	NN	O	O
-2	NN	O	O
-contains	NN	O	O
-all	NN	O	O
-of	NN	O	O
-the	NN	O	O
-numbers	NN	O	O
-needed	NN	O	O
-to	NN	O	O
-calculate	NN	O	B-Task
-an	NN	O	I-Task
-upper	NN	O	I-Task
-limit	NN	O	I-Task
-using	NN	O	O
-any	NN	O	O
-of	NN	O	O
-the	NN	O	O
-methods	NN	O	O
-in	NN	O	O
-the	NN	O	O
-papers	NN	O	O
-cited	NN	O	O
-above	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-assume	NN	O	O
-that	NN	O	O
-the	NN	O	O
-probability	NN	O	B-Process
-density	NN	O	I-Process
-functions	NN	O	I-Process
-of	NN	O	O
-Fsens	NN	O	O
-and	NN	O	O
-background	NN	O	B-Process
-estimates	NN	O	I-Process
-are	NN	O	O
-Gaussian	NN	O	B-Process
--	NN	O	I-Process
-distributed	NN	O	I-Process
-.	NN	O	O
+Recent	0	6	O
+publications	7	19	O
+[	20	21	O
+31	21	23	O
+]	23	24	O
+employ	25	31	O
+a	32	33	O
+variety	34	41	O
+of	42	44	O
+methods	45	52	O
+for	53	56	O
+calculating	57	68	B-Task
+upper	69	74	I-Task
+limits	75	81	I-Task
+and	82	85	O
+there	86	91	O
+is	92	94	O
+no	95	97	O
+universally	98	109	O
+accepted	110	118	O
+procedure	119	128	O
+[	129	130	O
+27,32,33	130	138	O
+]	138	139	O
+.	139	140	O
+
+We	141	143	O
+choose	144	150	O
+an	151	153	O
+approach	154	162	O
+similar	163	170	O
+to	171	173	O
+that	174	178	O
+first	179	184	O
+advocated	185	194	O
+by	195	197	O
+Feldman	198	205	O
+and	206	209	O
+Cousins	210	217	O
+[	218	219	O
+27	219	221	O
+]	221	222	O
+.	222	223	O
+
+This	224	228	O
+method	229	235	O
+has	236	239	O
+been	240	244	O
+since	245	250	O
+extended	251	259	O
+by	260	262	O
+Conrad	263	269	O
+et	270	272	O
+al	273	275	O
+.	275	276	O
+
+[	277	278	O
+34	278	280	O
+]	280	281	O
+to	282	284	O
+incorporate	285	296	B-Process
+uncertainties	297	310	I-Process
+in	311	313	O
+detector	314	322	B-Task
+sensitivity	323	334	I-Task
+and	335	338	O
+the	339	342	O
+background	343	353	B-Process
+estimate	354	362	I-Process
+based	363	368	O
+on	369	371	O
+an	372	374	O
+approach	375	383	O
+described	384	393	O
+by	394	396	O
+Cousins	397	404	O
+and	405	408	O
+Highland	409	417	O
+
+[	418	419	O
+35	419	421	O
+]	421	422	O
+.	422	423	O
+
+A	424	425	O
+further	426	433	O
+refinement	434	444	O
+of	445	447	O
+the	448	451	O
+Conrad	452	458	O
+et	459	461	O
+al	462	464	O
+.	464	465	O
+
+method	466	472	O
+by	473	475	O
+Hill	476	480	O
+[	481	482	O
+36	482	484	O
+]	484	485	O
+results	486	493	O
+in	494	496	O
+more	497	501	B-Process
+appropriate	502	513	I-Process
+behavior	514	522	I-Process
+of	523	525	O
+the	526	529	O
+upper	530	535	O
+limit	536	541	O
+when	542	546	O
+the	547	550	O
+observed	551	559	O
+number	560	566	O
+of	567	569	O
+events	570	576	O
+is	577	579	O
+less	580	584	O
+than	585	589	O
+the	590	593	O
+estimated	594	603	O
+background	604	614	O
+,	614	615	O
+as	616	618	O
+is	619	621	O
+the	622	625	O
+case	626	630	O
+for	631	634	O
+the	635	638	O
+present	639	646	O
+measurement	647	658	B-Process
+.	658	659	O
+
+We	660	662	O
+have	663	667	O
+adopted	668	675	O
+this	676	680	O
+method	681	687	O
+but	688	691	O
+note	692	696	O
+that	697	701	O
+Table	702	707	O
+2	708	709	O
+contains	710	718	O
+all	719	722	O
+of	723	725	O
+the	726	729	O
+numbers	730	737	O
+needed	738	744	O
+to	745	747	O
+calculate	748	757	B-Task
+an	758	760	I-Task
+upper	761	766	I-Task
+limit	767	772	I-Task
+using	773	778	O
+any	779	782	O
+of	783	785	O
+the	786	789	O
+methods	790	797	O
+in	798	800	O
+the	801	804	O
+papers	805	811	O
+cited	812	817	O
+above	818	823	O
+.	823	824	O
+
+We	825	827	O
+assume	828	834	O
+that	835	839	O
+the	840	843	O
+probability	844	855	B-Process
+density	856	863	I-Process
+functions	864	873	I-Process
+of	874	876	O
+Fsens	877	882	O
+and	883	886	O
+background	887	897	B-Process
+estimates	898	907	I-Process
+are	908	911	O
+Gaussian	912	920	B-Process
+-	920	921	I-Process
+distributed	921	932	I-Process
+.	932	933	O
 
 
 -DOCSTART- (S0370269304009335)
 
-In	NN	O	O
-these	NN	O	O
-frameworks	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-the	NN	O	O
-physical	NN	O	B-Task
-spacetime	NN	O	I-Task
-dimension	NN	O	I-Task
-is	NN	O	O
-an	NN	O	O
-input	NN	O	O
-rather	NN	O	O
-than	NN	O	O
-a	NN	O	O
-prediction	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-theory	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-fact	NN	O	O
-,	NN	O	O
-in	NN	O	O
-standard	NN	O	B-Process
-theories	NN	O	I-Process
-whose	NN	O	O
-gravitational	NN	O	O
-sector	NN	O	O
-is	NN	O	O
-described	NN	O	O
-by	NN	O	O
-the	NN	O	O
-Einstein	NN	O	B-Process
-–	NN	O	I-Process
-Hilbert	NN	O	I-Process
-action	NN	O	I-Process
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-obstruction	NN	O	O
-to	NN	O	O
-perform	NN	O	O
-dimensional	NN	O	B-Process
-reductions	NN	O	I-Process
-to	NN	O	O
-spacetimes	NN	O	O
-of	NN	O	O
-dimensions	NN	O	O
-d≠4	NN	O	O
-.	NN	O	O
-
-Then	NN	O	O
-the	NN	O	O
-question	NN	O	O
-arises	NN	O	O
-,	NN	O	O
-since	NN	O	O
-eleven	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-Minkowski	NN	O	B-Material
-space	NN	O	I-Material
-is	NN	O	O
-a	NN	O	O
-maximally	NN	O	O
-(	NN	O	B-Process
-super)symmetric	NN	O	I-Process
-state	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-theory	NN	O	O
-is	NN	O	O
-well	NN	O	O
--	NN	O	O
-behaved	NN	O	O
-around	NN	O	O
-it	NN	O	O
-,	NN	O	O
-why	NN	O	O
-the	NN	O	O
-theory	NN	O	O
-does	NN	O	O
-not	NN	O	O
-select	NN	O	B-Process
-this	NN	O	I-Process
-configuration	NN	O	I-Process
-as	NN	O	O
-the	NN	O	O
-vacuum	NN	O	O
-,	NN	O	O
-but	NN	O	O
-instead	NN	O	O
-,	NN	O	O
-it	NN	O	O
-chooses	NN	O	O
-a	NN	O	O
-particular	NN	O	O
-compactified	NN	O	B-Process
-space	NN	O	I-Process
-with	NN	O	O
-less	NN	O	O
-symmetry	NN	O	O
-.	NN	O	O
-
-An	NN	O	O
-ideal	NN	O	O
-situation	NN	O	O
-,	NN	O	O
-instead	NN	O	O
-,	NN	O	O
-would	NN	O	O
-be	NN	O	O
-that	NN	O	O
-the	NN	O	O
-eleven	NN	O	B-Process
--	NN	O	I-Process
-dimensional	NN	O	I-Process
-theory	NN	O	I-Process
-dynamically	NN	O	O
-predicted	NN	O	O
-a	NN	O	O
-low	NN	O	B-Task
-energy	NN	O	I-Task
-regime	NN	O	I-Task
-which	NN	O	O
-could	NN	O	O
-only	NN	O	O
-be	NN	O	O
-a	NN	O	O
-four	NN	O	B-Process
--	NN	O	I-Process
-dimensional	NN	O	I-Process
-effective	NN	O	I-Process
-theory	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-such	NN	O	O
-a	NN	O	O
-scenario	NN	O	O
-,	NN	O	O
-a	NN	O	O
-background	NN	O	B-Process
-solution	NN	O	I-Process
-with	NN	O	O
-an	NN	O	O
-effective	NN	O	B-Process
-spacetime	NN	O	I-Process
-dimension	NN	O	I-Process
-d>4	NN	O	B-Process
-should	NN	O	O
-be	NN	O	O
-expected	NN	O	O
-to	NN	O	O
-be	NN	O	O
-a	NN	O	O
-false	NN	O	B-Process
-vacuum	NN	O	I-Process
-where	NN	O	O
-the	NN	O	O
-propagators	NN	O	B-Process
-for	NN	O	I-Process
-the	NN	O	I-Process
-dynamical	NN	O	I-Process
-fields	NN	O	I-Process
-are	NN	O	O
-ill	NN	O	O
--	NN	O	O
-defined	NN	O	O
-,	NN	O	O
-lest	NN	O	O
-a	NN	O	O
-low	NN	O	B-Process
-energy	NN	O	I-Process
-effective	NN	O	I-Process
-theory	NN	O	I-Process
-could	NN	O	O
-exist	NN	O	O
-in	NN	O	O
-dimensions	NN	O	O
-higher	NN	O	O
-than	NN	O	O
-four	NN	O	O
-.	NN	O	O
+In	0	2	O
+these	3	8	O
+frameworks	9	19	O
+,	19	20	O
+however	21	28	O
+,	28	29	O
+the	30	33	O
+physical	34	42	B-Task
+spacetime	43	52	I-Task
+dimension	53	62	I-Task
+is	63	65	O
+an	66	68	O
+input	69	74	O
+rather	75	81	O
+than	82	86	O
+a	87	88	O
+prediction	89	99	B-Process
+of	100	102	I-Process
+the	103	106	I-Process
+theory	107	113	I-Process
+.	113	114	O
+
+In	115	117	O
+fact	118	122	O
+,	122	123	O
+in	124	126	O
+standard	127	135	B-Process
+theories	136	144	I-Process
+whose	145	150	O
+gravitational	151	164	O
+sector	165	171	O
+is	172	174	O
+described	175	184	O
+by	185	187	O
+the	188	191	O
+Einstein	192	200	B-Process
+–	200	201	I-Process
+Hilbert	201	208	I-Process
+action	209	215	I-Process
+,	215	216	O
+there	217	222	O
+is	223	225	O
+no	226	228	O
+obstruction	229	240	O
+to	241	243	O
+perform	244	251	O
+dimensional	252	263	B-Process
+reductions	264	274	I-Process
+to	275	277	O
+spacetimes	278	288	O
+of	289	291	O
+dimensions	292	302	O
+d≠4	303	306	O
+.	306	307	O
+
+Then	308	312	O
+the	313	316	O
+question	317	325	O
+arises	326	332	O
+,	332	333	O
+since	334	339	O
+eleven	340	346	O
+-	346	347	O
+dimensional	347	358	O
+Minkowski	359	368	B-Material
+space	369	374	I-Material
+is	375	377	O
+a	378	379	O
+maximally	380	389	O
+(	390	391	B-Process
+super)symmetric	391	406	I-Process
+state	407	412	I-Process
+,	412	413	O
+and	414	417	O
+the	418	421	O
+theory	422	428	O
+is	429	431	O
+well	432	436	O
+-	436	437	O
+behaved	437	444	O
+around	445	451	O
+it	452	454	O
+,	454	455	O
+why	456	459	O
+the	460	463	O
+theory	464	470	O
+does	471	475	O
+not	476	479	O
+select	480	486	B-Process
+this	487	491	I-Process
+configuration	492	505	I-Process
+as	506	508	O
+the	509	512	O
+vacuum	513	519	O
+,	519	520	O
+but	521	524	O
+instead	525	532	O
+,	532	533	O
+it	534	536	O
+chooses	537	544	O
+a	545	546	O
+particular	547	557	O
+compactified	558	570	B-Process
+space	571	576	I-Process
+with	577	581	O
+less	582	586	O
+symmetry	587	595	O
+.	595	596	O
+
+An	597	599	O
+ideal	600	605	O
+situation	606	615	O
+,	615	616	O
+instead	617	624	O
+,	624	625	O
+would	626	631	O
+be	632	634	O
+that	635	639	O
+the	640	643	O
+eleven	644	650	B-Process
+-	650	651	I-Process
+dimensional	651	662	I-Process
+theory	663	669	I-Process
+dynamically	670	681	O
+predicted	682	691	O
+a	692	693	O
+low	694	697	B-Task
+energy	698	704	I-Task
+regime	705	711	I-Task
+which	712	717	O
+could	718	723	O
+only	724	728	O
+be	729	731	O
+a	732	733	O
+four	734	738	B-Process
+-	738	739	I-Process
+dimensional	739	750	I-Process
+effective	751	760	I-Process
+theory	761	767	I-Process
+.	767	768	O
+
+In	769	771	O
+such	772	776	O
+a	777	778	O
+scenario	779	787	O
+,	787	788	O
+a	789	790	O
+background	791	801	B-Process
+solution	802	810	I-Process
+with	811	815	O
+an	816	818	O
+effective	819	828	B-Process
+spacetime	829	838	I-Process
+dimension	839	848	I-Process
+d>4	849	852	B-Process
+should	853	859	O
+be	860	862	O
+expected	863	871	O
+to	872	874	O
+be	875	877	O
+a	878	879	O
+false	880	885	B-Process
+vacuum	886	892	I-Process
+where	893	898	O
+the	899	902	O
+propagators	903	914	B-Process
+for	915	918	I-Process
+the	919	922	I-Process
+dynamical	923	932	I-Process
+fields	933	939	I-Process
+are	940	943	O
+ill	944	947	O
+-	947	948	O
+defined	948	955	O
+,	955	956	O
+lest	957	961	O
+a	962	963	O
+low	964	967	B-Process
+energy	968	974	I-Process
+effective	975	984	I-Process
+theory	985	991	I-Process
+could	992	997	O
+exist	998	1003	O
+in	1004	1006	O
+dimensions	1007	1017	O
+higher	1018	1024	O
+than	1025	1029	O
+four	1030	1034	O
+.	1034	1035	O
 
 
 -DOCSTART- (S0370269304009347)
 
-The	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-chaotic	NN	O	B-Task
-motion	NN	O	I-Task
-in	NN	O	I-Task
-nuclear	NN	O	I-Task
-systems	NN	O	I-Task
-has	NN	O	O
-been	NN	O	O
-firmly	NN	O	O
-related	NN	O	O
-with	NN	O	O
-the	NN	O	O
-statistics	NN	O	B-Process
-of	NN	O	I-Process
-high	NN	O	I-Process
--	NN	O	I-Process
-lying	NN	O	I-Process
-energy	NN	O	I-Process
-levels	NN	O	I-Process
-[	NN	O	O
-8,9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Poisson	NN	O	B-Process
-distributions	NN	O	I-Process
-of	NN	O	O
-normalized	NN	O	O
-spacings	NN	O	O
-of	NN	O	O
-successive	NN	O	O
-nuclear	NN	O	O
-or	NN	O	O
-atomic	NN	O	O
-excited	NN	O	B-Process
-levels	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-same	NN	O	O
-spin	NN	O	B-Process
-and	NN	O	O
-parity	NN	O	B-Process
-correspond	NN	O	O
-to	NN	O	O
-integrable	NN	O	B-Process
-classical	NN	O	I-Process
-dynamics	NN	O	I-Process
-,	NN	O	O
-while	NN	O	O
-Wigner	NN	O	B-Material
-'s	NN	O	I-Material
-statistics	NN	O	I-Material
-signal	NN	O	O
-chaotic	NN	O	B-Process
-motion	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-classical	NN	O	B-Task
-regime	NN	O	I-Task
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Intermediate	NN	O	O
-situations	NN	O	O
-are	NN	O	O
-more	NN	O	O
-difficult	NN	O	O
-to	NN	O	O
-assess	NN	O	O
-.	NN	O	O
-
-Very	NN	O	O
-recently	NN	O	O
-a	NN	O	O
-proposal	NN	O	O
-has	NN	O	O
-been	NN	O	O
-made	NN	O	O
-to	NN	O	O
-treat	NN	O	O
-the	NN	O	O
-spectral	NN	O	B-Process
-fluctuations	NN	O	I-Process
-δn	NN	O	B-Process
-as	NN	O	O
-discrete	NN	O	B-Process
-time	NN	O	I-Process
-series	NN	O	I-Process
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Defining	NN	O	O
-(	NN	O	O
-1)δn=∫−∞En+1ρ˜(E)dE−n	NN	O	O
-,	NN	O	O
-with	NN	O	O
-ρ˜(E	NN	O	O
-)	NN	O	O
-the	NN	O	O
-mean	NN	O	O
-level	NN	O	O
-density	NN	O	O
-which	NN	O	O
-allows	NN	O	O
-the	NN	O	O
-mapping	NN	O	B-Process
-to	NN	O	I-Process
-dimensionless	NN	O	I-Process
-levels	NN	O	I-Process
-with	NN	O	O
-unitary	NN	O	B-Process
-average	NN	O	I-Process
-level	NN	O	I-Process
-density	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-analyzing	NN	O	B-Process
-the	NN	O	I-Process
-energy	NN	O	I-Process
-fluctuations	NN	O	I-Process
-as	NN	O	O
-a	NN	O	O
-discrete	NN	O	B-Process
-time	NN	O	I-Process
-series	NN	O	I-Process
-,	NN	O	O
-they	NN	O	O
-found	NN	O	O
-that	NN	O	O
-nuclear	NN	O	B-Task
-power	NN	O	I-Task
-spectra	NN	O	I-Task
-behave	NN	O	O
-like	NN	O	O
-1f	NN	O	O
-noise	NN	O	O
-,	NN	O	O
-postulating	NN	O	O
-that	NN	O	O
-this	NN	O	O
-might	NN	O	O
-be	NN	O	O
-a	NN	O	O
-characteristic	NN	O	O
-signature	NN	O	O
-of	NN	O	O
-generic	NN	O	O
-quantum	NN	O	B-Task
-chaotic	NN	O	I-Task
-systems	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-present	NN	O	O
-work	NN	O	O
-we	NN	O	O
-implement	NN	O	O
-this	NN	O	O
-idea	NN	O	O
-,	NN	O	O
-using	NN	O	O
-the	NN	O	O
-1f	NN	O	B-Process
-spectral	NN	O	I-Process
-behavior	NN	O	I-Process
-as	NN	O	O
-a	NN	O	O
-test	NN	O	O
-for	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-chaos	NN	O	B-Process
-in	NN	O	I-Process
-nuclear	NN	O	I-Process
-mass	NN	O	I-Process
-errors	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+presence	4	12	O
+of	13	15	O
+chaotic	16	23	B-Task
+motion	24	30	I-Task
+in	31	33	I-Task
+nuclear	34	41	I-Task
+systems	42	49	I-Task
+has	50	53	O
+been	54	58	O
+firmly	59	65	O
+related	66	73	O
+with	74	78	O
+the	79	82	O
+statistics	83	93	B-Process
+of	94	96	I-Process
+high	97	101	I-Process
+-	101	102	I-Process
+lying	102	107	I-Process
+energy	108	114	I-Process
+levels	115	121	I-Process
+[	122	123	O
+8,9	123	126	O
+]	126	127	O
+.	127	128	O
+
+Poisson	129	136	B-Process
+distributions	137	150	I-Process
+of	151	153	O
+normalized	154	164	O
+spacings	165	173	O
+of	174	176	O
+successive	177	187	O
+nuclear	188	195	O
+or	196	198	O
+atomic	199	205	O
+excited	206	213	B-Process
+levels	214	220	I-Process
+with	221	225	O
+the	226	229	O
+same	230	234	O
+spin	235	239	B-Process
+and	240	243	O
+parity	244	250	B-Process
+correspond	251	261	O
+to	262	264	O
+integrable	265	275	B-Process
+classical	276	285	I-Process
+dynamics	286	294	I-Process
+,	294	295	O
+while	296	301	O
+Wigner	302	308	B-Material
+'s	308	310	I-Material
+statistics	311	321	I-Material
+signal	322	328	O
+chaotic	329	336	B-Process
+motion	337	343	I-Process
+in	344	346	O
+the	347	350	O
+corresponding	351	364	O
+classical	365	374	B-Task
+regime	375	381	I-Task
+[	382	383	O
+10	383	385	O
+]	385	386	O
+.	386	387	O
+
+Intermediate	388	400	O
+situations	401	411	O
+are	412	415	O
+more	416	420	O
+difficult	421	430	O
+to	431	433	O
+assess	434	440	O
+.	440	441	O
+
+Very	442	446	O
+recently	447	455	O
+a	456	457	O
+proposal	458	466	O
+has	467	470	O
+been	471	475	O
+made	476	480	O
+to	481	483	O
+treat	484	489	O
+the	490	493	O
+spectral	494	502	B-Process
+fluctuations	503	515	I-Process
+δn	516	518	B-Process
+as	519	521	O
+discrete	522	530	B-Process
+time	531	535	I-Process
+series	536	542	I-Process
+[	543	544	O
+11	544	546	O
+]	546	547	O
+.	547	548	O
+
+Defining	549	557	O
+(	558	559	O
+1)δn=∫−∞En+1ρ˜(E)dE−n	559	580	O
+,	580	581	O
+with	582	586	O
+ρ˜(E	587	591	O
+)	591	592	O
+the	593	596	O
+mean	597	601	O
+level	602	607	O
+density	608	615	O
+which	616	621	O
+allows	622	628	O
+the	629	632	O
+mapping	633	640	B-Process
+to	641	643	I-Process
+dimensionless	644	657	I-Process
+levels	658	664	I-Process
+with	665	669	O
+unitary	670	677	B-Process
+average	678	685	I-Process
+level	686	691	I-Process
+density	692	699	I-Process
+,	699	700	O
+and	701	704	O
+analyzing	705	714	B-Process
+the	715	718	I-Process
+energy	719	725	I-Process
+fluctuations	726	738	I-Process
+as	739	741	O
+a	742	743	O
+discrete	744	752	B-Process
+time	753	757	I-Process
+series	758	764	I-Process
+,	764	765	O
+they	766	770	O
+found	771	776	O
+that	777	781	O
+nuclear	782	789	B-Task
+power	790	795	I-Task
+spectra	796	803	I-Task
+behave	804	810	O
+like	811	815	O
+1f	816	818	O
+noise	819	824	O
+,	824	825	O
+postulating	826	837	O
+that	838	842	O
+this	843	847	O
+might	848	853	O
+be	854	856	O
+a	857	858	O
+characteristic	859	873	O
+signature	874	883	O
+of	884	886	O
+generic	887	894	O
+quantum	895	902	B-Task
+chaotic	903	910	I-Task
+systems	911	918	I-Task
+.	918	919	O
+
+In	920	922	O
+the	923	926	O
+present	927	934	O
+work	935	939	O
+we	940	942	O
+implement	943	952	O
+this	953	957	O
+idea	958	962	O
+,	962	963	O
+using	964	969	O
+the	970	973	O
+1f	974	976	B-Process
+spectral	977	985	I-Process
+behavior	986	994	I-Process
+as	995	997	O
+a	998	999	O
+test	1000	1004	O
+for	1005	1008	O
+the	1009	1012	O
+presence	1013	1021	O
+of	1022	1024	O
+chaos	1025	1030	B-Process
+in	1031	1033	I-Process
+nuclear	1034	1041	I-Process
+mass	1042	1046	I-Process
+errors	1047	1053	I-Process
+.	1053	1054	O
 
 
 -DOCSTART- (S0370269304009359)
 
-Table	NN	O	O
-1	NN	O	O
-lists	NN	O	O
-8	NN	O	O
-pairs	NN	O	O
-of	NN	O	O
-B	NN	O	B-Process
-decays	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-fact	NN	O	O
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-more	NN	O	O
-decay	NN	O	B-Process
-pairs	NN	O	I-Process
-,	NN	O	O
-since	NN	O	O
-many	NN	O	O
-of	NN	O	O
-the	NN	O	O
-particles	NN	O	O
-in	NN	O	O
-the	NN	O	O
-final	NN	O	O
-states	NN	O	O
-can	NN	O	O
-be	NN	O	O
-observed	NN	O	O
-as	NN	O	O
-either	NN	O	O
-pseudoscalar	NN	O	O
-(	NN	O	O
-P	NN	O	O
-)	NN	O	O
-or	NN	O	O
-vector	NN	O	O
-(	NN	O	O
-V	NN	O	O
-)	NN	O	O
-mesons	NN	O	B-Material
-.	NN	O	O
-
-Note	NN	O	O
-that	NN	O	O
-certain	NN	O	O
-decays	NN	O	B-Process
-are	NN	O	O
-written	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-VV	NN	O	O
-final	NN	O	O
-states	NN	O	O
-,	NN	O	O
-while	NN	O	O
-others	NN	O	O
-are	NN	O	O
-have	NN	O	O
-PP	NN	O	O
-states	NN	O	O
-.	NN	O	O
-
-There	NN	O	O
-are	NN	O	O
-three	NN	O	O
-reasons	NN	O	O
-for	NN	O	O
-this	NN	O	O
-.	NN	O	O
-
-First	NN	O	O
-,	NN	O	O
-some	NN	O	O
-decays	NN	O	B-Process
-involve	NN	O	O
-a	NN	O	O
-final	NN	O	O
--	NN	O	O
-state	NN	O	O
-π0	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-experimentally	NN	O	O
-it	NN	O	O
-will	NN	O	O
-be	NN	O	O
-necessary	NN	O	O
-to	NN	O	O
-find	NN	O	B-Task
-the	NN	O	I-Task
-decay	NN	O	I-Task
-vertices	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-final	NN	O	B-Material
-particles	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-virtually	NN	O	O
-impossible	NN	O	O
-for	NN	O	O
-a	NN	O	O
-π0	NN	O	O
-,	NN	O	O
-and	NN	O	O
-so	NN	O	O
-we	NN	O	O
-always	NN	O	O
-use	NN	O	O
-a	NN	O	O
-ρ0	NN	O	O
-.	NN	O	O
-
-Second	NN	O	O
-,	NN	O	O
-some	NN	O	O
-pairs	NN	O	B-Material
-of	NN	O	I-Material
-decays	NN	O	I-Material
-are	NN	O	O
-related	NN	O	O
-by	NN	O	O
-SU(3	NN	O	O
-)	NN	O	O
-in	NN	O	O
-the	NN	O	O
-SM	NN	O	B-Material
-only	NN	O	O
-if	NN	O	O
-an	NN	O	O
-(	NN	O	O
-ss¯	NN	O	O
-)	NN	O	O
-quark	NN	O	B-Material
-pair	NN	O	I-Material
-is	NN	O	O
-used	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-no	NN	O	O
-P	NN	O	O
-'s	NN	O	O
-which	NN	O	O
-are	NN	O	O
-pure	NN	O	O
-(	NN	O	O
-ss¯	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-mesons	NN	O	B-Material
-η	NN	O	B-Material
-and	NN	O	O
-η′	NN	O	B-Material
-have	NN	O	O
-an	NN	O	O
-(	NN	O	O
-ss¯	NN	O	O
-)	NN	O	O
-component	NN	O	O
-,	NN	O	O
-but	NN	O	O
-they	NN	O	O
-also	NN	O	O
-have	NN	O	O
-significant	NN	O	O
-(	NN	O	O
-uu¯	NN	O	O
-)	NN	O	O
-and	NN	O	O
-(	NN	O	O
-dd¯	NN	O	O
-)	NN	O	O
-pieces	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-a	NN	O	O
-result	NN	O	O
-the	NN	O	O
-b¯→s¯	NN	O	O
-and	NN	O	O
-b¯→d¯	NN	O	O
-decays	NN	O	B-Process
-are	NN	O	O
-not	NN	O	O
-really	NN	O	O
-related	NN	O	O
-by	NN	O	O
-SU(3	NN	O	O
-)	NN	O	O
-in	NN	O	O
-the	NN	O	O
-SM	NN	O	B-Material
-if	NN	O	O
-the	NN	O	O
-final	NN	O	O
-state	NN	O	O
-involves	NN	O	O
-an	NN	O	O
-η	NN	O	B-Material
-or	NN	O	O
-η′.	NN	O	B-Material
-We	NN	O	O
-therefore	NN	O	O
-consider	NN	O	O
-instead	NN	O	O
-the	NN	O	O
-vector	NN	O	B-Material
-meson	NN	O	I-Material
-ϕ	NN	O	B-Material
-which	NN	O	O
-is	NN	O	O
-essentially	NN	O	O
-a	NN	O	O
-pure	NN	O	O
-(	NN	O	O
-ss¯	NN	O	O
-)	NN	O	O
-quark	NN	O	B-Process
-state	NN	O	I-Process
-.	NN	O	O
-
-Finally	NN	O	O
-,	NN	O	O
-we	NN	O	O
-require	NN	O	O
-that	NN	O	O
-both	NN	O	O
-B0	NN	O	B-Material
-and	NN	O	O
-B¯0	NN	O	B-Material
-be	NN	O	O
-able	NN	O	O
-to	NN	O	O
-decay	NN	O	B-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-final	NN	O	I-Process
-state	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-can	NN	O	O
-not	NN	O	O
-happen	NN	O	O
-if	NN	O	O
-the	NN	O	O
-final	NN	O	O
-state	NN	O	O
-contains	NN	O	O
-a	NN	O	O
-single	NN	O	O
-K0	NN	O	O
-(	NN	O	O
-or	NN	O	O
-K¯0	NN	O	O
-)	NN	O	O
-meson	NN	O	B-Material
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-it	NN	O	O
-can	NN	O	O
-occur	NN	O	O
-if	NN	O	O
-this	NN	O	O
-final	NN	O	B-Material
--	NN	O	I-Material
-state	NN	O	I-Material
-particle	NN	O	I-Material
-is	NN	O	O
-an	NN	O	O
-excited	NN	O	B-Material
-neutral	NN	O	I-Material
-kaon	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-case	NN	O	O
-one	NN	O	O
-decay	NN	O	O
-involves	NN	O	O
-K*0	NN	O	B-Material
-,	NN	O	O
-while	NN	O	O
-the	NN	O	O
-other	NN	O	O
-has	NN	O	O
-K¯*0	NN	O	B-Material
-.	NN	O	O
-
-Assuming	NN	O	O
-that	NN	O	O
-the	NN	O	O
-vector	NN	O	B-Material
-meson	NN	O	I-Material
-is	NN	O	O
-detected	NN	O	O
-via	NN	O	O
-its	NN	O	O
-decay	NN	O	B-Process
-to	NN	O	I-Process
-ψKsπ0	NN	O	I-Process
-(	NN	O	O
-as	NN	O	O
-in	NN	O	O
-the	NN	O	O
-measurement	NN	O	B-Process
-of	NN	O	I-Process
-sin2β	NN	O	I-Process
-via	NN	O	O
-Bd0(t)→J/ψK	NN	O	O
-*	NN	O	O
-)	NN	O	O
-,	NN	O	O
-then	NN	O	O
-both	NN	O	O
-B0	NN	O	B-Material
-and	NN	O	O
-B¯0	NN	O	B-Material
-can	NN	O	O
-decay	NN	O	B-Process
-to	NN	O	O
-the	NN	O	O
-same	NN	O	O
-final	NN	O	O
-state	NN	O	O
-.	NN	O	O
+Table	0	5	O
+1	6	7	O
+lists	8	13	O
+8	14	15	O
+pairs	16	21	O
+of	22	24	O
+B	25	26	B-Process
+decays	27	33	I-Process
+.	33	34	O
+
+In	35	37	O
+fact	38	42	O
+,	42	43	O
+there	44	49	O
+are	50	53	O
+more	54	58	O
+decay	59	64	B-Process
+pairs	65	70	I-Process
+,	70	71	O
+since	72	77	O
+many	78	82	O
+of	83	85	O
+the	86	89	O
+particles	90	99	O
+in	100	102	O
+the	103	106	O
+final	107	112	O
+states	113	119	O
+can	120	123	O
+be	124	126	O
+observed	127	135	O
+as	136	138	O
+either	139	145	O
+pseudoscalar	146	158	O
+(	159	160	O
+P	160	161	O
+)	161	162	O
+or	163	165	O
+vector	166	172	O
+(	173	174	O
+V	174	175	O
+)	175	176	O
+mesons	177	183	B-Material
+.	183	184	O
+
+Note	185	189	O
+that	190	194	O
+certain	195	202	O
+decays	203	209	B-Process
+are	210	213	O
+written	214	221	O
+in	222	224	O
+terms	225	230	O
+of	231	233	O
+VV	234	236	O
+final	237	242	O
+states	243	249	O
+,	249	250	O
+while	251	256	O
+others	257	263	O
+are	264	267	O
+have	268	272	O
+PP	273	275	O
+states	276	282	O
+.	282	283	O
+
+There	284	289	O
+are	290	293	O
+three	294	299	O
+reasons	300	307	O
+for	308	311	O
+this	312	316	O
+.	316	317	O
+
+First	318	323	O
+,	323	324	O
+some	325	329	O
+decays	330	336	B-Process
+involve	337	344	O
+a	345	346	O
+final	347	352	O
+-	352	353	O
+state	353	358	O
+π0	359	361	O
+.	361	362	O
+
+However	363	370	O
+,	370	371	O
+experimentally	372	386	O
+it	387	389	O
+will	390	394	O
+be	395	397	O
+necessary	398	407	O
+to	408	410	O
+find	411	415	B-Task
+the	416	419	I-Task
+decay	420	425	I-Task
+vertices	426	434	I-Task
+of	435	437	O
+the	438	441	O
+final	442	447	B-Material
+particles	448	457	I-Material
+.	457	458	O
+
+This	459	463	O
+is	464	466	O
+virtually	467	476	O
+impossible	477	487	O
+for	488	491	O
+a	492	493	O
+π0	494	496	O
+,	496	497	O
+and	498	501	O
+so	502	504	O
+we	505	507	O
+always	508	514	O
+use	515	518	O
+a	519	520	O
+ρ0	521	523	O
+.	523	524	O
+
+Second	525	531	O
+,	531	532	O
+some	533	537	O
+pairs	538	543	B-Material
+of	544	546	I-Material
+decays	547	553	I-Material
+are	554	557	O
+related	558	565	O
+by	566	568	O
+SU(3	569	573	O
+)	573	574	O
+in	575	577	O
+the	578	581	O
+SM	582	584	B-Material
+only	585	589	O
+if	590	592	O
+an	593	595	O
+(	596	597	O
+ss¯	597	600	O
+)	600	601	O
+quark	602	607	B-Material
+pair	608	612	I-Material
+is	613	615	O
+used	616	620	O
+.	620	621	O
+
+However	622	629	O
+,	629	630	O
+there	631	636	O
+are	637	640	O
+no	641	643	O
+P	644	645	O
+'s	645	647	O
+which	648	653	O
+are	654	657	O
+pure	658	662	O
+(	663	664	O
+ss¯	664	667	O
+)	667	668	O
+.	668	669	O
+
+The	670	673	O
+mesons	674	680	B-Material
+η	681	682	B-Material
+and	683	686	O
+η′	687	689	B-Material
+have	690	694	O
+an	695	697	O
+(	698	699	O
+ss¯	699	702	O
+)	702	703	O
+component	704	713	O
+,	713	714	O
+but	715	718	O
+they	719	723	O
+also	724	728	O
+have	729	733	O
+significant	734	745	O
+(	746	747	O
+uu¯	747	750	O
+)	750	751	O
+and	752	755	O
+(	756	757	O
+dd¯	757	760	O
+)	760	761	O
+pieces	762	768	O
+.	768	769	O
+
+As	770	772	O
+a	773	774	O
+result	775	781	O
+the	782	785	O
+b¯→s¯	786	791	O
+and	792	795	O
+b¯→d¯	796	801	O
+decays	802	808	B-Process
+are	809	812	O
+not	813	816	O
+really	817	823	O
+related	824	831	O
+by	832	834	O
+SU(3	835	839	O
+)	839	840	O
+in	841	843	O
+the	844	847	O
+SM	848	850	B-Material
+if	851	853	O
+the	854	857	O
+final	858	863	O
+state	864	869	O
+involves	870	878	O
+an	879	881	O
+η	882	883	B-Material
+or	884	886	O
+η′.	887	890	B-Material
+We	891	893	O
+therefore	894	903	O
+consider	904	912	O
+instead	913	920	O
+the	921	924	O
+vector	925	931	B-Material
+meson	932	937	I-Material
+ϕ	938	939	B-Material
+which	940	945	O
+is	946	948	O
+essentially	949	960	O
+a	961	962	O
+pure	963	967	O
+(	968	969	O
+ss¯	969	972	O
+)	972	973	O
+quark	974	979	B-Process
+state	980	985	I-Process
+.	985	986	O
+
+Finally	987	994	O
+,	994	995	O
+we	996	998	O
+require	999	1006	O
+that	1007	1011	O
+both	1012	1016	O
+B0	1017	1019	B-Material
+and	1020	1023	O
+B¯0	1024	1027	B-Material
+be	1028	1030	O
+able	1031	1035	O
+to	1036	1038	O
+decay	1039	1044	B-Process
+to	1045	1047	I-Process
+the	1048	1051	I-Process
+final	1052	1057	I-Process
+state	1058	1063	I-Process
+.	1063	1064	O
+
+This	1065	1069	O
+can	1070	1073	O
+not	1073	1076	O
+happen	1077	1083	O
+if	1084	1086	O
+the	1087	1090	O
+final	1091	1096	O
+state	1097	1102	O
+contains	1103	1111	O
+a	1112	1113	O
+single	1114	1120	O
+K0	1121	1123	O
+(	1124	1125	O
+or	1125	1127	O
+K¯0	1128	1131	O
+)	1131	1132	O
+meson	1133	1138	B-Material
+.	1138	1139	O
+
+However	1140	1147	O
+,	1147	1148	O
+it	1149	1151	O
+can	1152	1155	O
+occur	1156	1161	O
+if	1162	1164	O
+this	1165	1169	O
+final	1170	1175	B-Material
+-	1175	1176	I-Material
+state	1176	1181	I-Material
+particle	1182	1190	I-Material
+is	1191	1193	O
+an	1194	1196	O
+excited	1197	1204	B-Material
+neutral	1205	1212	I-Material
+kaon	1213	1217	I-Material
+.	1217	1218	O
+
+In	1219	1221	O
+this	1222	1226	O
+case	1227	1231	O
+one	1232	1235	O
+decay	1236	1241	O
+involves	1242	1250	O
+K*0	1251	1254	B-Material
+,	1254	1255	O
+while	1256	1261	O
+the	1262	1265	O
+other	1266	1271	O
+has	1272	1275	O
+K¯*0	1276	1280	B-Material
+.	1280	1281	O
+
+Assuming	1282	1290	O
+that	1291	1295	O
+the	1296	1299	O
+vector	1300	1306	B-Material
+meson	1307	1312	I-Material
+is	1313	1315	O
+detected	1316	1324	O
+via	1325	1328	O
+its	1329	1332	O
+decay	1333	1338	B-Process
+to	1339	1341	I-Process
+ψKsπ0	1342	1347	I-Process
+(	1348	1349	O
+as	1349	1351	O
+in	1352	1354	O
+the	1355	1358	O
+measurement	1359	1370	B-Process
+of	1371	1373	I-Process
+sin2β	1374	1379	I-Process
+via	1380	1383	O
+Bd0(t)→J/ψK	1384	1395	O
+*	1395	1396	O
+)	1396	1397	O
+,	1397	1398	O
+then	1399	1403	O
+both	1404	1408	O
+B0	1409	1411	B-Material
+and	1412	1415	O
+B¯0	1416	1419	B-Material
+can	1420	1423	O
+decay	1424	1429	B-Process
+to	1430	1432	O
+the	1433	1436	O
+same	1437	1441	O
+final	1442	1447	O
+state	1448	1453	O
+.	1453	1454	O
 
 
 -DOCSTART- (S0370269304009530)
 
-If	NN	O	O
-signals	NN	O	O
-suggesting	NN	O	O
-supersymmetry	NN	O	B-Process
-(	NN	O	O
-SUSY	NN	O	B-Process
-)	NN	O	O
-are	NN	O	O
-discovered	NN	O	O
-at	NN	O	O
-the	NN	O	O
-LHC	NN	O	O
-then	NN	O	O
-it	NN	O	O
-will	NN	O	O
-be	NN	O	O
-vital	NN	O	O
-to	NN	O	O
-measure	NN	O	B-Task
-the	NN	O	I-Task
-spins	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-new	NN	O	I-Task
-particles	NN	O	I-Task
-to	NN	O	O
-demonstrate	NN	O	B-Task
-that	NN	O	I-Task
-they	NN	O	I-Task
-are	NN	O	I-Task
-indeed	NN	O	I-Task
-the	NN	O	I-Task
-predicted	NN	O	I-Task
-super	NN	O	I-Task
--	NN	O	I-Task
-partners	NN	O	I-Task
-.	NN	O	O
-
-A	NN	O	O
-method	NN	O	O
-is	NN	O	O
-discussed	NN	O	O
-by	NN	O	O
-which	NN	O	O
-the	NN	O	O
-spins	NN	O	O
-of	NN	O	O
-some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-SUSY	NN	O	B-Material
-particles	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-determined	NN	O	O
-.	NN	O	O
-
-Angular	NN	O	B-Process
-distributions	NN	O	I-Process
-in	NN	O	O
-sparticle	NN	O	B-Process
-decays	NN	O	I-Process
-lead	NN	O	O
-to	NN	O	O
-charge	NN	O	B-Process
-asymmetry	NN	O	I-Process
-in	NN	O	O
-lepton	NN	O	B-Process
--	NN	O	I-Process
-jet	NN	O	I-Process
-invariant	NN	O	I-Process
-mass	NN	O	I-Process
-distributions	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-size	NN	O	O
-of	NN	O	O
-the	NN	O	O
-asymmetry	NN	O	O
-is	NN	O	O
-proportional	NN	O	O
-to	NN	O	O
-the	NN	O	O
-primary	NN	O	B-Process
-production	NN	O	I-Process
-asymmetry	NN	O	I-Process
-between	NN	O	O
-squarks	NN	O	B-Material
-and	NN	O	O
-anti	NN	O	B-Material
--	NN	O	I-Material
-squarks	NN	O	I-Material
-.	NN	O	O
-
-Monte	NN	O	B-Process
-Carlo	NN	O	I-Process
-simulations	NN	O	I-Process
-are	NN	O	O
-performed	NN	O	O
-for	NN	O	O
-a	NN	O	O
-particular	NN	O	O
-mSUGRA	NN	O	B-Process
-model	NN	O	I-Process
-point	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-LHC	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resultant	NN	O	O
-asymmetry	NN	O	B-Process
-distributions	NN	O	I-Process
-are	NN	O	O
-consistent	NN	O	O
-with	NN	O	O
-a	NN	O	O
-spin-0	NN	O	B-Material
-slepton	NN	O	I-Material
-and	NN	O	O
-a	NN	O	O
-spin-12χ˜20	NN	O	O
-,	NN	O	O
-but	NN	O	O
-are	NN	O	O
-not	NN	O	O
-consistent	NN	O	O
-with	NN	O	O
-both	NN	O	O
-particles	NN	O	B-Material
-being	NN	O	O
-scalars	NN	O	O
-.	NN	O	O
+If	0	2	O
+signals	3	10	O
+suggesting	11	21	O
+supersymmetry	22	35	B-Process
+(	36	37	O
+SUSY	37	41	B-Process
+)	41	42	O
+are	43	46	O
+discovered	47	57	O
+at	58	60	O
+the	61	64	O
+LHC	65	68	O
+then	69	73	O
+it	74	76	O
+will	77	81	O
+be	82	84	O
+vital	85	90	O
+to	91	93	O
+measure	94	101	B-Task
+the	102	105	I-Task
+spins	106	111	I-Task
+of	112	114	I-Task
+the	115	118	I-Task
+new	119	122	I-Task
+particles	123	132	I-Task
+to	133	135	O
+demonstrate	136	147	B-Task
+that	148	152	I-Task
+they	153	157	I-Task
+are	158	161	I-Task
+indeed	162	168	I-Task
+the	169	172	I-Task
+predicted	173	182	I-Task
+super	183	188	I-Task
+-	188	189	I-Task
+partners	189	197	I-Task
+.	197	198	O
+
+A	199	200	O
+method	201	207	O
+is	208	210	O
+discussed	211	220	O
+by	221	223	O
+which	224	229	O
+the	230	233	O
+spins	234	239	O
+of	240	242	O
+some	243	247	O
+of	248	250	O
+the	251	254	O
+SUSY	255	259	B-Material
+particles	260	269	I-Material
+can	270	273	O
+be	274	276	O
+determined	277	287	O
+.	287	288	O
+
+Angular	289	296	B-Process
+distributions	297	310	I-Process
+in	311	313	O
+sparticle	314	323	B-Process
+decays	324	330	I-Process
+lead	331	335	O
+to	336	338	O
+charge	339	345	B-Process
+asymmetry	346	355	I-Process
+in	356	358	O
+lepton	359	365	B-Process
+-	365	366	I-Process
+jet	366	369	I-Process
+invariant	370	379	I-Process
+mass	380	384	I-Process
+distributions	385	398	I-Process
+.	398	399	O
+
+The	400	403	O
+size	404	408	O
+of	409	411	O
+the	412	415	O
+asymmetry	416	425	O
+is	426	428	O
+proportional	429	441	O
+to	442	444	O
+the	445	448	O
+primary	449	456	B-Process
+production	457	467	I-Process
+asymmetry	468	477	I-Process
+between	478	485	O
+squarks	486	493	B-Material
+and	494	497	O
+anti	498	502	B-Material
+-	502	503	I-Material
+squarks	503	510	I-Material
+.	510	511	O
+
+Monte	512	517	B-Process
+Carlo	518	523	I-Process
+simulations	524	535	I-Process
+are	536	539	O
+performed	540	549	O
+for	550	553	O
+a	554	555	O
+particular	556	566	O
+mSUGRA	567	573	B-Process
+model	574	579	I-Process
+point	580	585	I-Process
+at	586	588	O
+the	589	592	O
+LHC	593	596	O
+.	596	597	O
+
+The	598	601	O
+resultant	602	611	O
+asymmetry	612	621	B-Process
+distributions	622	635	I-Process
+are	636	639	O
+consistent	640	650	O
+with	651	655	O
+a	656	657	O
+spin-0	658	664	B-Material
+slepton	665	672	I-Material
+and	673	676	O
+a	677	678	O
+spin-12χ˜20	679	690	O
+,	690	691	O
+but	692	695	O
+are	696	699	O
+not	700	703	O
+consistent	704	714	O
+with	715	719	O
+both	720	724	O
+particles	725	734	B-Material
+being	735	740	O
+scalars	741	748	O
+.	748	749	O
 
 
 -DOCSTART- (S0370269304009608)
 
-It	NN	O	O
-should	NN	O	O
-be	NN	O	O
-noted	NN	O	O
-that	NN	O	O
-BEBC	NN	O	B-Material
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-and	NN	O	O
-NOMAD	NN	O	B-Material
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-observed	NN	O	B-Task
-a	NN	O	I-Task
-discrepancy	NN	O	I-Task
-between	NN	O	O
-experimental	NN	O	O
-ρ	NN	O	O
-rates	NN	O	O
-and	NN	O	O
-those	NN	O	O
-estimated	NN	O	O
-with	NN	O	O
-JETSET	NN	O	B-Material
-
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-NOMAD	NN	O	B-Material
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-proposed	NN	O	O
-to	NN	O	O
-retune	NN	O	B-Process
-some	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-parameters	NN	O	I-Process
-used	NN	O	O
-within	NN	O	O
-JETSET	NN	O	B-Material
-to	NN	O	O
-obtain	NN	O	B-Task
-better	NN	O	I-Task
-agreement	NN	O	I-Task
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-for	NN	O	O
-the	NN	O	O
-purpose	NN	O	O
-of	NN	O	O
-this	NN	O	O
-analysis	NN	O	B-Task
-events	NN	O	B-Process
-were	NN	O	I-Process
-simulated	NN	O	I-Process
-both	NN	O	O
-with	NN	O	O
-the	NN	O	O
-default	NN	O	B-Process
-setting	NN	O	I-Process
-and	NN	O	O
-with	NN	O	O
-the	NN	O	O
-setting	NN	O	B-Process
-proposed	NN	O	I-Process
-by	NN	O	I-Process
-NOMAD	NN	O	I-Process
-of	NN	O	O
-key	NN	O	O
-JETSET	NN	O	B-Material
-parameters	NN	O	O
-,	NN	O	O
-taking	NN	O	B-Process
-an	NN	O	I-Process
-average	NN	O	I-Process
-between	NN	O	I-Process
-them	NN	O	I-Process
-as	NN	O	O
-a	NN	O	O
-result	NN	O	O
-and	NN	O	O
-half	NN	O	B-Process
-a	NN	O	I-Process
-difference	NN	O	I-Process
-as	NN	O	I-Process
-a	NN	O	I-Process
-systematic	NN	O	I-Process
-error	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-used	NN	O	O
-experimental	NN	O	O
-rates	NN	O	O
-of	NN	O	O
-light	NN	O	B-Material
-neutral	NN	O	I-Material
-mesons	NN	O	I-Material
-and	NN	O	O
-resonances	NN	O	B-Process
-where	NN	O	O
-available	NN	O	O
-(	NN	O	O
-Table	NN	O	O
-1	NN	O	O
-)	NN	O	O
-for	NN	O	O
-normalization	NN	O	B-Process
-purposes	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-uncertainty	NN	O	O
-introduced	NN	O	O
-by	NN	O	O
-the	NN	O	O
-JETSET	NN	O	B-Material
-parameter	NN	O	B-Process
-settings	NN	O	I-Process
-(	NN	O	O
-which	NN	O	O
-amounts	NN	O	O
-to	NN	O	O
-20	NN	O	O
-%	NN	O	O
-at	NN	O	O
-most	NN	O	O
-)	NN	O	O
-affects	NN	O	O
-only	NN	O	O
-the	NN	O	O
-production	NN	O	O
-of	NN	O	O
-the	NN	O	O
-η′	NN	O	O
-and	NN	O	O
-ϕ	NN	O	O
-for	NN	O	O
-which	NN	O	O
-no	NN	O	O
-experimental	NN	O	B-Material
-data	NN	O	I-Material
-are	NN	O	O
-available	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-uncertainty	NN	O	O
-is	NN	O	O
-reflected	NN	O	O
-in	NN	O	O
-the	NN	O	O
-error	NN	O	O
-quoted	NN	O	O
-in	NN	O	O
-the	NN	O	O
-table	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-since	NN	O	O
-the	NN	O	O
-contribution	NN	O	O
-from	NN	O	O
-η′	NN	O	O
-and	NN	O	O
-ϕ	NN	O	O
-is	NN	O	O
-small	NN	O	O
-,	NN	O	O
-the	NN	O	O
-overall	NN	O	O
-effect	NN	O	O
-is	NN	O	O
-less	NN	O	O
-important	NN	O	O
-.	NN	O	O
+It	0	2	O
+should	3	9	O
+be	10	12	O
+noted	13	18	O
+that	19	23	O
+BEBC	24	28	B-Material
+[	29	30	O
+21	30	32	O
+]	32	33	O
+and	34	37	O
+NOMAD	38	43	B-Material
+[	44	45	O
+20	45	47	O
+]	47	48	O
+observed	49	57	B-Task
+a	58	59	I-Task
+discrepancy	60	71	I-Task
+between	72	79	O
+experimental	80	92	O
+ρ	93	94	O
+rates	95	100	O
+and	101	104	O
+those	105	110	O
+estimated	111	120	O
+with	121	125	O
+JETSET	126	132	B-Material
+
+[	133	134	O
+16	134	136	O
+]	136	137	O
+.	137	138	O
+
+NOMAD	139	144	B-Material
+[	145	146	O
+20	146	148	O
+]	148	149	O
+proposed	150	158	O
+to	159	161	O
+retune	162	168	B-Process
+some	169	173	I-Process
+of	174	176	I-Process
+the	177	180	I-Process
+parameters	181	191	I-Process
+used	192	196	O
+within	197	203	O
+JETSET	204	210	B-Material
+to	211	213	O
+obtain	214	220	B-Task
+better	221	227	I-Task
+agreement	228	237	I-Task
+.	237	238	O
+
+Therefore	239	248	O
+,	248	249	O
+for	250	253	O
+the	254	257	O
+purpose	258	265	O
+of	266	268	O
+this	269	273	O
+analysis	274	282	B-Task
+events	283	289	B-Process
+were	290	294	I-Process
+simulated	295	304	I-Process
+both	305	309	O
+with	310	314	O
+the	315	318	O
+default	319	326	B-Process
+setting	327	334	I-Process
+and	335	338	O
+with	339	343	O
+the	344	347	O
+setting	348	355	B-Process
+proposed	356	364	I-Process
+by	365	367	I-Process
+NOMAD	368	373	I-Process
+of	374	376	O
+key	377	380	O
+JETSET	381	387	B-Material
+parameters	388	398	O
+,	398	399	O
+taking	400	406	B-Process
+an	407	409	I-Process
+average	410	417	I-Process
+between	418	425	I-Process
+them	426	430	I-Process
+as	431	433	O
+a	434	435	O
+result	436	442	O
+and	443	446	O
+half	447	451	B-Process
+a	452	453	I-Process
+difference	454	464	I-Process
+as	465	467	I-Process
+a	468	469	I-Process
+systematic	470	480	I-Process
+error	481	486	I-Process
+.	486	487	O
+
+We	488	490	O
+used	491	495	O
+experimental	496	508	O
+rates	509	514	O
+of	515	517	O
+light	518	523	B-Material
+neutral	524	531	I-Material
+mesons	532	538	I-Material
+and	539	542	O
+resonances	543	553	B-Process
+where	554	559	O
+available	560	569	O
+(	570	571	O
+Table	571	576	O
+1	577	578	O
+)	578	579	O
+for	580	583	O
+normalization	584	597	B-Process
+purposes	598	606	O
+.	606	607	O
+
+The	608	611	O
+uncertainty	612	623	O
+introduced	624	634	O
+by	635	637	O
+the	638	641	O
+JETSET	642	648	B-Material
+parameter	649	658	B-Process
+settings	659	667	I-Process
+(	668	669	O
+which	669	674	O
+amounts	675	682	O
+to	683	685	O
+20	686	688	O
+%	688	689	O
+at	690	692	O
+most	693	697	O
+)	697	698	O
+affects	699	706	O
+only	707	711	O
+the	712	715	O
+production	716	726	O
+of	727	729	O
+the	730	733	O
+η′	734	736	O
+and	737	740	O
+ϕ	741	742	O
+for	743	746	O
+which	747	752	O
+no	753	755	O
+experimental	756	768	B-Material
+data	769	773	I-Material
+are	774	777	O
+available	778	787	O
+.	787	788	O
+
+This	789	793	O
+uncertainty	794	805	O
+is	806	808	O
+reflected	809	818	O
+in	819	821	O
+the	822	825	O
+error	826	831	O
+quoted	832	838	O
+in	839	841	O
+the	842	845	O
+table	846	851	O
+.	851	852	O
+
+However	853	860	O
+,	860	861	O
+since	862	867	O
+the	868	871	O
+contribution	872	884	O
+from	885	889	O
+η′	890	892	O
+and	893	896	O
+ϕ	897	898	O
+is	899	901	O
+small	902	907	O
+,	907	908	O
+the	909	912	O
+overall	913	920	O
+effect	921	927	O
+is	928	930	O
+less	931	935	O
+important	936	945	O
+.	945	946	O
 
 
 -DOCSTART- (S0370269304009657)
 
-In	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-,	NN	O	O
-we	NN	O	O
-present	NN	O	O
-results	NN	O	O
-of	NN	O	O
-a	NN	O	O
-relativistic	NN	O	B-Task
-calculation	NN	O	I-Task
-of	NN	O	I-Task
-decay	NN	O	I-Task
-constants	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-framework	NN	O	B-Process
-of	NN	O	I-Process
-full	NN	O	I-Process
-Salpeter	NN	O	I-Process
-equation	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-full	NN	O	O
-Salpeter	NN	O	B-Process
-equation	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-relativistic	NN	O	B-Process
-equation	NN	O	I-Process
-describing	NN	O	O
-a	NN	O	O
-bound	NN	O	O
-state	NN	O	O
-.	NN	O	O
-
-Since	NN	O	O
-this	NN	O	O
-method	NN	O	O
-has	NN	O	O
-a	NN	O	O
-very	NN	O	O
-solid	NN	O	O
-basis	NN	O	O
-in	NN	O	O
-quantum	NN	O	B-Process
-field	NN	O	I-Process
-theory	NN	O	I-Process
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-very	NN	O	O
-good	NN	O	O
-in	NN	O	O
-describing	NN	O	B-Task
-a	NN	O	I-Task
-bound	NN	O	I-Task
-state	NN	O	I-Task
-which	NN	O	O
-is	NN	O	O
-a	NN	O	O
-relativistic	NN	O	B-Process
-system	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-a	NN	O	O
-previous	NN	O	O
-paper	NN	O	O
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-,	NN	O	O
-we	NN	O	O
-solved	NN	O	O
-the	NN	O	O
-instantaneous	NN	O	O
-Bethe	NN	O	O
-–	NN	O	O
-
-Salpeter	NN	O	O
-equation	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-also	NN	O	O
-called	NN	O	O
-full	NN	O	B-Process
-Salpeter	NN	O	I-Process
-equation	NN	O	I-Process
-
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-After	NN	O	O
-we	NN	O	O
-solved	NN	O	B-Task
-the	NN	O	I-Task
-full	NN	O	I-Task
-Salpeter	NN	O	I-Task
-equation	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-obtained	NN	O	O
-the	NN	O	O
-relativistic	NN	O	B-Process
-wave	NN	O	I-Process
-function	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-bound	NN	O	I-Process
-state	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-used	NN	O	O
-this	NN	O	O
-wave	NN	O	B-Process
-function	NN	O	I-Process
-to	NN	O	O
-calculate	NN	O	B-Task
-the	NN	O	I-Task
-average	NN	O	I-Task
-kinetic	NN	O	I-Task
-energy	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-heavy	NN	O	B-Material
-quark	NN	O	I-Material
-inside	NN	O	O
-a	NN	O	O
-heavy	NN	O	B-Material
-meson	NN	O	I-Material
-in	NN	O	O
-0−	NN	O	O
-state	NN	O	O
-,	NN	O	O
-and	NN	O	O
-obtained	NN	O	B-Process
-values	NN	O	I-Process
-which	NN	O	O
-agree	NN	O	O
-very	NN	O	O
-well	NN	O	O
-with	NN	O	O
-recent	NN	O	O
-experiments	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-also	NN	O	O
-found	NN	O	O
-there	NN	O	O
-that	NN	O	O
-the	NN	O	O
-relativistic	NN	O	B-Process
-corrections	NN	O	I-Process
-are	NN	O	I-Process
-quite	NN	O	I-Process
-large	NN	O	I-Process
-and	NN	O	O
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-ignored	NN	O	O
-[	NN	O	O
-16	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-we	NN	O	O
-use	NN	O	B-Process
-this	NN	O	I-Process
-method	NN	O	I-Process
-to	NN	O	O
-predict	NN	O	B-Task
-the	NN	O	I-Task
-values	NN	O	I-Task
-of	NN	O	I-Task
-decay	NN	O	I-Task
-constants	NN	O	I-Task
-of	NN	O	O
-heavy	NN	O	B-Material
-mesons	NN	O	I-Material
-in	NN	O	O
-0−	NN	O	O
-state	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+Letter	8	14	O
+,	14	15	O
+we	16	18	O
+present	19	26	O
+results	27	34	O
+of	35	37	O
+a	38	39	O
+relativistic	40	52	B-Task
+calculation	53	64	I-Task
+of	65	67	I-Task
+decay	68	73	I-Task
+constants	74	83	I-Task
+in	84	86	O
+the	87	90	O
+framework	91	100	B-Process
+of	101	103	I-Process
+full	104	108	I-Process
+Salpeter	109	117	I-Process
+equation	118	126	I-Process
+.	126	127	O
+
+The	128	131	O
+full	132	136	O
+Salpeter	137	145	B-Process
+equation	146	154	I-Process
+is	155	157	O
+a	158	159	O
+relativistic	160	172	B-Process
+equation	173	181	I-Process
+describing	182	192	O
+a	193	194	O
+bound	195	200	O
+state	201	206	O
+.	206	207	O
+
+Since	208	213	O
+this	214	218	O
+method	219	225	O
+has	226	229	O
+a	230	231	O
+very	232	236	O
+solid	237	242	O
+basis	243	248	O
+in	249	251	O
+quantum	252	259	B-Process
+field	260	265	I-Process
+theory	266	272	I-Process
+,	272	273	O
+it	274	276	O
+is	277	279	O
+very	280	284	O
+good	285	289	O
+in	290	292	O
+describing	293	303	B-Task
+a	304	305	I-Task
+bound	306	311	I-Task
+state	312	317	I-Task
+which	318	323	O
+is	324	326	O
+a	327	328	O
+relativistic	329	341	B-Process
+system	342	348	I-Process
+.	348	349	O
+
+In	350	352	O
+a	353	354	O
+previous	355	363	O
+paper	364	369	O
+[	370	371	O
+16	371	373	O
+]	373	374	O
+,	374	375	O
+we	376	378	O
+solved	379	385	O
+the	386	389	O
+instantaneous	390	403	O
+Bethe	404	409	O
+–	409	410	O
+
+Salpeter	410	418	O
+equation	419	427	O
+[	428	429	O
+17	429	431	O
+]	431	432	O
+,	432	433	O
+which	434	439	O
+is	440	442	O
+also	443	447	O
+called	448	454	O
+full	455	459	B-Process
+Salpeter	460	468	I-Process
+equation	469	477	I-Process
+
+[	478	479	O
+18	479	481	O
+]	481	482	O
+.	482	483	O
+
+After	484	489	O
+we	490	492	O
+solved	493	499	B-Task
+the	500	503	I-Task
+full	504	508	I-Task
+Salpeter	509	517	I-Task
+equation	518	526	I-Task
+,	526	527	O
+we	528	530	O
+obtained	531	539	O
+the	540	543	O
+relativistic	544	556	B-Process
+wave	557	561	I-Process
+function	562	570	I-Process
+of	571	573	I-Process
+the	574	577	I-Process
+bound	578	583	I-Process
+state	584	589	I-Process
+.	589	590	O
+
+We	591	593	O
+used	594	598	O
+this	599	603	O
+wave	604	608	B-Process
+function	609	617	I-Process
+to	618	620	O
+calculate	621	630	B-Task
+the	631	634	I-Task
+average	635	642	I-Task
+kinetic	643	650	I-Task
+energy	651	657	I-Task
+of	658	660	O
+the	661	664	O
+heavy	665	670	B-Material
+quark	671	676	I-Material
+inside	677	683	O
+a	684	685	O
+heavy	686	691	B-Material
+meson	692	697	I-Material
+in	698	700	O
+0−	701	703	O
+state	704	709	O
+,	709	710	O
+and	711	714	O
+obtained	715	723	B-Process
+values	724	730	I-Process
+which	731	736	O
+agree	737	742	O
+very	743	747	O
+well	748	752	O
+with	753	757	O
+recent	758	764	O
+experiments	765	776	O
+.	776	777	O
+
+We	778	780	O
+also	781	785	O
+found	786	791	O
+there	792	797	O
+that	798	802	O
+the	803	806	O
+relativistic	807	819	B-Process
+corrections	820	831	I-Process
+are	832	835	I-Process
+quite	836	841	I-Process
+large	842	847	I-Process
+and	848	851	O
+can	852	855	O
+not	855	858	O
+be	859	861	O
+ignored	862	869	O
+[	870	871	O
+16	871	873	O
+]	873	874	O
+.	874	875	O
+
+In	876	878	O
+this	879	883	O
+Letter	884	890	O
+we	891	893	O
+use	894	897	B-Process
+this	898	902	I-Process
+method	903	909	I-Process
+to	910	912	O
+predict	913	920	B-Task
+the	921	924	I-Task
+values	925	931	I-Task
+of	932	934	I-Task
+decay	935	940	I-Task
+constants	941	950	I-Task
+of	951	953	O
+heavy	954	959	B-Material
+mesons	960	966	I-Material
+in	967	969	O
+0−	970	972	O
+state	973	978	O
+.	978	979	O
 
 
 -DOCSTART- (S0370269304009803)
 
-Our	NN	O	O
-aim	NN	O	O
-is	NN	O	O
-to	NN	O	O
-introduce	NN	O	B-Task
-vector	NN	O	I-Task
-mesons	NN	O	I-Task
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-a	NN	O	O
-Lagrangian	NN	O	B-Process
-which	NN	O	O
-satisfies	NN	O	O
-the	NN	O	O
-low	NN	O	B-Process
-energy	NN	O	I-Process
-current	NN	O	I-Process
-algebra	NN	O	I-Process
-.	NN	O	O
-
-One	NN	O	O
-consistent	NN	O	O
-method	NN	O	O
-is	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-a	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-linear	NN	O	I-Process
-chiral	NN	O	I-Process
-Lagrangian	NN	O	I-Process
-with	NN	O	O
-a	NN	O	O
-hidden	NN	O	B-Process
-local	NN	O	I-Process
-symmetry	NN	O	I-Process
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-theory	NN	O	O
-the	NN	O	O
-vector	NN	O	B-Material
-mesons	NN	O	I-Material
-emerge	NN	O	O
-as	NN	O	O
-dynamical	NN	O	B-Material
-vector	NN	O	I-Material
-mesons	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-three	NN	O	O
-point	NN	O	O
-vector	NN	O	B-Process
--	NN	O	I-Process
-pseudo	NN	O	I-Process
-scalar	NN	O	I-Process
-interaction	NN	O	I-Process
-is	NN	O	O
-given	NN	O	O
-by	NN	O	O
-(	NN	O	O
-11)ih4〈Vμ(P∂μP−∂μPP	NN	O	B-Process
-)	NN	O	I-Process
-〉	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-h	NN	O	B-Process
-stands	NN	O	O
-for	NN	O	O
-the	NN	O	O
-vector	NN	O	B-Process
--	NN	O	I-Process
-pseudoscalar	NN	O	I-Process
-coupling	NN	O	I-Process
-.	NN	O	O
-
-Some	NN	O	O
-typical	NN	O	O
-vertices	NN	O	B-Process
-of	NN	O	I-Process
-ρ	NN	O	I-Process
-'s	NN	O	I-Process
-to	NN	O	I-Process
-pseudoscalar	NN	O	I-Process
-mesons	NN	O	I-Process
-are	NN	O	O
-(	NN	O	B-Process
-12)π+(p1)π−(p2)ρ0:h(p1−p2)μεμ,π+(p1)π0(p2)ρ−:h(p1−p2)μεμ,K+(p1)K¯0(p2)ρ−:h2(p1−p2)μεμ,etc	NN	O	I-Process
-.	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-directly	NN	O	O
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-ρ	NN	O	B-Process
-decay	NN	O	I-Process
-width	NN	O	I-Process
-:	NN	O	O
-Γ(ρ)=h2(|pπ|)3/(6πmρ2	NN	O	B-Process
-)	NN	O	I-Process
-,	NN	O	O
-where	NN	O	O
-pπ	NN	O	B-Process
-is	NN	O	O
-the	NN	O	O
-momentum	NN	O	B-Process
-of	NN	O	I-Process
-final	NN	O	I-Process
-state	NN	O	I-Process
-pions	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-ρ	NN	O	I-Process
-rest	NN	O	I-Process
-frame	NN	O	I-Process
-.	NN	O	O
-
-With	NN	O	O
-Γ(ρ)=149.2MeV	NN	O	O
-,	NN	O	O
-we	NN	O	O
-find	NN	O	O
-h=5.95	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-note	NN	O	O
-in	NN	O	O
-passing	NN	O	O
-that	NN	O	O
-the	NN	O	O
-Kawarabayashi	NN	O	O
-–	NN	O	O
-
-Suzuki	NN	O	O
-–	NN	O	O
-Riazuddin	NN	O	O
-–	NN	O	O
-
-Fayyazuddin	NN	O	O
-relation	NN	O	O
-gives	NN	O	O
-the	NN	O	O
-value	NN	O	O
-h	NN	O	O
-=	NN	O	O
-mρ/(2fπ)[12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-the	NN	O	O
-value	NN	O	O
-of	NN	O	O
-h	NN	O	O
-in	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-4	NN	O	O
-)	NN	O	O
-and	NN	O	O
-the	NN	O	O
-two	NN	O	O
-values	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paragraph	NN	O	O
-differ	NN	O	B-Process
-by	NN	O	I-Process
-small	NN	O	I-Process
-amounts	NN	O	I-Process
-(	NN	O	O
-∼19	NN	O	O
-%	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-strong	NN	O	B-Task
-four	NN	O	I-Task
--	NN	O	I-Task
-point	NN	O	I-Task
-vertices	NN	O	I-Task
-involving	NN	O	I-Task
-pions	NN	O	I-Task
-are	NN	O	I-Task
-obtained	NN	O	I-Task
-from	NN	O	O
-the	NN	O	O
-first	NN	O	O
-two	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-5	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-weak	NN	O	B-Task
-vertices	NN	O	I-Task
-are	NN	O	I-Task
-obtained	NN	O	I-Task
-from	NN	O	O
-the	NN	O	O
-definitions	NN	O	O
-of	NN	O	O
-Q6	NN	O	O
-and	NN	O	O
-Q8	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-numerical	NN	O	O
-work	NN	O	O
-we	NN	O	O
-shall	NN	O	O
-use	NN	O	O
-the	NN	O	O
-value	NN	O	O
-of	NN	O	O
-h	NN	O	O
-from	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-4	NN	O	O
-)	NN	O	O
-and	NN	O	O
-also	NN	O	O
-h=5.95	NN	O	O
-obtained	NN	O	O
-from	NN	O	O
-the	NN	O	O
-decay	NN	O	O
-width	NN	O	O
-.	NN	O	O
+Our	0	3	O
+aim	4	7	O
+is	8	10	O
+to	11	13	O
+introduce	14	23	B-Task
+vector	24	30	I-Task
+mesons	31	37	I-Task
+in	38	40	O
+terms	41	46	O
+of	47	49	O
+a	50	51	O
+Lagrangian	52	62	B-Process
+which	63	68	O
+satisfies	69	78	O
+the	79	82	O
+low	83	86	B-Process
+energy	87	93	I-Process
+current	94	101	I-Process
+algebra	102	109	I-Process
+.	109	110	O
+
+One	111	114	O
+consistent	115	125	O
+method	126	132	O
+is	133	135	O
+in	136	138	O
+terms	139	144	O
+of	145	147	O
+a	148	149	O
+non	150	153	B-Process
+-	153	154	I-Process
+linear	154	160	I-Process
+chiral	161	167	I-Process
+Lagrangian	168	178	I-Process
+with	179	183	O
+a	184	185	O
+hidden	186	192	B-Process
+local	193	198	I-Process
+symmetry	199	207	I-Process
+[	208	209	O
+6	209	210	O
+]	210	211	O
+.	211	212	O
+
+In	213	215	O
+this	216	220	O
+theory	221	227	O
+the	228	231	O
+vector	232	238	B-Material
+mesons	239	245	I-Material
+emerge	246	252	O
+as	253	255	O
+dynamical	256	265	B-Material
+vector	266	272	I-Material
+mesons	273	279	I-Material
+.	279	280	O
+
+The	281	284	O
+three	285	290	O
+point	291	296	O
+vector	297	303	B-Process
+-	303	304	I-Process
+pseudo	304	310	I-Process
+scalar	311	317	I-Process
+interaction	318	329	I-Process
+is	330	332	O
+given	333	338	O
+by	339	341	O
+(	342	343	O
+11)ih4〈Vμ(P∂μP−∂μPP	343	362	B-Process
+)	362	363	I-Process
+〉	363	364	I-Process
+,	364	365	O
+where	366	371	O
+h	372	373	B-Process
+stands	374	380	O
+for	381	384	O
+the	385	388	O
+vector	389	395	B-Process
+-	395	396	I-Process
+pseudoscalar	396	408	I-Process
+coupling	409	417	I-Process
+.	417	418	O
+
+Some	419	423	O
+typical	424	431	O
+vertices	432	440	B-Process
+of	441	443	I-Process
+ρ	444	445	I-Process
+'s	445	447	I-Process
+to	448	450	I-Process
+pseudoscalar	451	463	I-Process
+mesons	464	470	I-Process
+are	471	474	O
+(	475	476	B-Process
+12)π+(p1)π−(p2)ρ0:h(p1−p2)μεμ,π+(p1)π0(p2)ρ−:h(p1−p2)μεμ,K+(p1)K¯0(p2)ρ−:h2(p1−p2)μεμ,etc	476	565	I-Process
+.	565	566	O
+,	566	567	O
+which	568	573	O
+is	574	576	O
+directly	577	585	O
+related	586	593	O
+to	594	596	O
+the	597	600	O
+ρ	601	602	B-Process
+decay	603	608	I-Process
+width	609	614	I-Process
+:	614	615	O
+Γ(ρ)=h2(|pπ|)3/(6πmρ2	616	637	B-Process
+)	637	638	I-Process
+,	638	639	O
+where	640	645	O
+pπ	646	648	B-Process
+is	649	651	O
+the	652	655	O
+momentum	656	664	B-Process
+of	665	667	I-Process
+final	668	673	I-Process
+state	674	679	I-Process
+pions	680	685	I-Process
+in	686	688	I-Process
+the	689	692	I-Process
+ρ	693	694	I-Process
+rest	695	699	I-Process
+frame	700	705	I-Process
+.	705	706	O
+
+With	707	711	O
+Γ(ρ)=149.2MeV	712	725	O
+,	725	726	O
+we	727	729	O
+find	730	734	O
+h=5.95	735	741	O
+.	741	742	O
+
+We	743	745	O
+note	746	750	O
+in	751	753	O
+passing	754	761	O
+that	762	766	O
+the	767	770	O
+Kawarabayashi	771	784	O
+–	784	785	O
+
+Suzuki	785	791	O
+–	791	792	O
+Riazuddin	792	801	O
+–	801	802	O
+
+Fayyazuddin	802	813	O
+relation	814	822	O
+gives	823	828	O
+the	829	832	O
+value	833	838	O
+h	839	840	O
+=	840	841	O
+mρ/(2fπ)[12	841	852	O
+]	852	853	O
+.	853	854	O
+
+Thus	855	859	O
+the	860	863	O
+value	864	869	O
+of	870	872	O
+h	873	874	O
+in	875	877	O
+Eq	878	880	O
+.	880	881	O
+
+(	882	883	O
+4	883	884	O
+)	884	885	O
+and	886	889	O
+the	890	893	O
+two	894	897	O
+values	898	904	O
+in	905	907	O
+this	908	912	O
+paragraph	913	922	O
+differ	923	929	B-Process
+by	930	932	I-Process
+small	933	938	I-Process
+amounts	939	946	I-Process
+(	947	948	O
+∼19	948	951	O
+%	951	952	O
+)	952	953	O
+.	953	954	O
+
+The	955	958	O
+strong	959	965	B-Task
+four	966	970	I-Task
+-	970	971	I-Task
+point	971	976	I-Task
+vertices	977	985	I-Task
+involving	986	995	I-Task
+pions	996	1001	I-Task
+are	1002	1005	I-Task
+obtained	1006	1014	I-Task
+from	1015	1019	O
+the	1020	1023	O
+first	1024	1029	O
+two	1030	1033	O
+terms	1034	1039	O
+of	1040	1042	O
+Eq	1043	1045	O
+.	1045	1046	O
+
+(	1047	1048	O
+5	1048	1049	O
+)	1049	1050	O
+.	1050	1051	O
+
+The	1052	1055	O
+weak	1056	1060	B-Task
+vertices	1061	1069	I-Task
+are	1070	1073	I-Task
+obtained	1074	1082	I-Task
+from	1083	1087	O
+the	1088	1091	O
+definitions	1092	1103	O
+of	1104	1106	O
+Q6	1107	1109	O
+and	1110	1113	O
+Q8	1114	1116	O
+.	1116	1117	O
+
+In	1118	1120	O
+the	1121	1124	O
+numerical	1125	1134	O
+work	1135	1139	O
+we	1140	1142	O
+shall	1143	1148	O
+use	1149	1152	O
+the	1153	1156	O
+value	1157	1162	O
+of	1163	1165	O
+h	1166	1167	O
+from	1168	1172	O
+Eq	1173	1175	O
+.	1175	1176	O
+
+(	1177	1178	O
+4	1178	1179	O
+)	1179	1180	O
+and	1181	1184	O
+also	1185	1189	O
+h=5.95	1190	1196	O
+obtained	1197	1205	O
+from	1206	1210	O
+the	1211	1214	O
+decay	1215	1220	O
+width	1221	1226	O
+.	1226	1227	O
 
 
 -DOCSTART- (S0370269304009979)
 
-On	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-the	NN	O	O
-other	NN	O	O
-local	NN	O	O
-fields	NN	O	O
-except	NN	O	O
-the	NN	O	O
-gravitational	NN	O	O
-field	NN	O	O
-are	NN	O	O
-not	NN	O	O
-always	NN	O	O
-localized	NN	O	B-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-brane	NN	O	I-Task
-even	NN	O	O
-in	NN	O	O
-the	NN	O	O
-warped	NN	O	B-Process
-geometry	NN	O	I-Process
-.	NN	O	O
-
-Indeed	NN	O	O
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-Randall	NN	O	B-Material
-–	NN	O	I-Material
-Sundrum	NN	O	I-Material
-model	NN	O	I-Material
-in	NN	O	O
-five	NN	O	B-Task
-dimensions	NN	O	I-Task
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-,	NN	O	O
-
-the	NN	O	O
-following	NN	O	O
-facts	NN	O	O
-are	NN	O	O
-well	NN	O	O
-known	NN	O	O
-:	NN	O	O
-spin	NN	O	B-Process
-0	NN	O	I-Process
-field	NN	O	I-Process
-is	NN	O	I-Process
-localized	NN	O	I-Process
-on	NN	O	I-Process
-a	NN	O	I-Process
-brane	NN	O	I-Process
-with	NN	O	O
-positive	NN	O	B-Process
-tension	NN	O	I-Process
-which	NN	O	O
-also	NN	O	O
-localizes	NN	O	B-Process
-the	NN	O	I-Process
-graviton	NN	O	I-Process
-while	NN	O	O
-the	NN	O	O
-spin	NN	O	O
-1/2	NN	O	O
-and	NN	O	O
-3/2	NN	O	O
-fields	NN	O	O
-are	NN	O	O
-localized	NN	O	O
-not	NN	O	O
-on	NN	O	O
-a	NN	O	O
-brane	NN	O	O
-with	NN	O	O
-positive	NN	O	B-Process
-tension	NN	O	I-Process
-but	NN	O	O
-on	NN	O	O
-a	NN	O	O
-brane	NN	O	O
-with	NN	O	O
-negative	NN	O	B-Process
-tension	NN	O	I-Process
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Spin	NN	O	O
-1	NN	O	O
-field	NN	O	O
-is	NN	O	O
-not	NN	O	O
-localized	NN	O	O
-neither	NN	O	O
-on	NN	O	O
-a	NN	O	O
-brane	NN	O	O
-with	NN	O	O
-positive	NN	O	B-Process
-tension	NN	O	I-Process
-nor	NN	O	O
-on	NN	O	O
-a	NN	O	O
-brane	NN	O	O
-with	NN	O	O
-negative	NN	O	B-Process
-tension	NN	O	I-Process
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-six	NN	O	B-Process
-space	NN	O	I-Process
-–	NN	O	I-Process
-time	NN	O	I-Process
-dimensions	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-spin	NN	O	O
-1	NN	O	O
-gauge	NN	O	O
-field	NN	O	O
-is	NN	O	O
-also	NN	O	O
-localized	NN	O	B-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-brane	NN	O	I-Process
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-fulfill	NN	O	O
-the	NN	O	O
-localization	NN	O	B-Task
-of	NN	O	O
-Standard	NN	O	B-Material
-Model	NN	O	I-Material
-particles	NN	O	O
-on	NN	O	O
-a	NN	O	O
-brane	NN	O	O
-with	NN	O	O
-positive	NN	O	B-Process
-tension	NN	O	I-Process
-,	NN	O	O
-it	NN	O	O
-seems	NN	O	O
-that	NN	O	O
-some	NN	O	O
-additional	NN	O	O
-interactions	NN	O	O
-except	NN	O	O
-the	NN	O	O
-gravitational	NN	O	O
-interaction	NN	O	O
-must	NN	O	O
-be	NN	O	O
-also	NN	O	O
-introduced	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-bulk	NN	O	I-Process
-.	NN	O	O
-
-There	NN	O	O
-is	NN	O	O
-a	NN	O	O
-lot	NN	O	O
-of	NN	O	O
-papers	NN	O	O
-devoted	NN	O	O
-to	NN	O	O
-the	NN	O	O
-different	NN	O	O
-localization	NN	O	B-Process
-mechanisms	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-bulk	NN	O	O
-fields	NN	O	O
-in	NN	O	O
-various	NN	O	O
-brane	NN	O	B-Process
-world	NN	O	I-Process
-models	NN	O	I-Process
-.	NN	O	O
+On	0	2	O
+the	3	6	O
+other	7	12	O
+hand	13	17	O
+,	17	18	O
+the	19	22	O
+other	23	28	O
+local	29	34	O
+fields	35	41	O
+except	42	48	O
+the	49	52	O
+gravitational	53	66	O
+field	67	72	O
+are	73	76	O
+not	77	80	O
+always	81	87	O
+localized	88	97	B-Task
+on	98	100	I-Task
+the	101	104	I-Task
+brane	105	110	I-Task
+even	111	115	O
+in	116	118	O
+the	119	122	O
+warped	123	129	B-Process
+geometry	130	138	I-Process
+.	138	139	O
+
+Indeed	140	146	O
+,	146	147	O
+in	148	150	O
+the	151	154	O
+Randall	155	162	B-Material
+–	162	163	I-Material
+Sundrum	163	170	I-Material
+model	171	176	I-Material
+in	177	179	O
+five	180	184	B-Task
+dimensions	185	195	I-Task
+[	196	197	O
+2	197	198	O
+]	198	199	O
+,	199	200	O
+
+the	201	204	O
+following	205	214	O
+facts	215	220	O
+are	221	224	O
+well	225	229	O
+known	230	235	O
+:	235	236	O
+spin	237	241	B-Process
+0	242	243	I-Process
+field	244	249	I-Process
+is	250	252	I-Process
+localized	253	262	I-Process
+on	263	265	I-Process
+a	266	267	I-Process
+brane	268	273	I-Process
+with	274	278	O
+positive	279	287	B-Process
+tension	288	295	I-Process
+which	296	301	O
+also	302	306	O
+localizes	307	316	B-Process
+the	317	320	I-Process
+graviton	321	329	I-Process
+while	330	335	O
+the	336	339	O
+spin	340	344	O
+1/2	345	348	O
+and	349	352	O
+3/2	353	356	O
+fields	357	363	O
+are	364	367	O
+localized	368	377	O
+not	378	381	O
+on	382	384	O
+a	385	386	O
+brane	387	392	O
+with	393	397	O
+positive	398	406	B-Process
+tension	407	414	I-Process
+but	415	418	O
+on	419	421	O
+a	422	423	O
+brane	424	429	O
+with	430	434	O
+negative	435	443	B-Process
+tension	444	451	I-Process
+[	452	453	O
+6	453	454	O
+]	454	455	O
+.	455	456	O
+
+Spin	457	461	O
+1	462	463	O
+field	464	469	O
+is	470	472	O
+not	473	476	O
+localized	477	486	O
+neither	487	494	O
+on	495	497	O
+a	498	499	O
+brane	500	505	O
+with	506	510	O
+positive	511	519	B-Process
+tension	520	527	I-Process
+nor	528	531	O
+on	532	534	O
+a	535	536	O
+brane	537	542	O
+with	543	547	O
+negative	548	556	B-Process
+tension	557	564	I-Process
+[	565	566	O
+7	566	567	O
+]	567	568	O
+.	568	569	O
+
+In	570	572	O
+six	573	576	B-Process
+space	577	582	I-Process
+–	582	583	I-Process
+time	583	587	I-Process
+dimensions	588	598	I-Process
+,	598	599	O
+the	600	603	O
+spin	604	608	O
+1	609	610	O
+gauge	611	616	O
+field	617	622	O
+is	623	625	O
+also	626	630	O
+localized	631	640	B-Process
+on	641	643	I-Process
+the	644	647	I-Process
+brane	648	653	I-Process
+[	654	655	O
+8	655	656	O
+]	656	657	O
+.	657	658	O
+
+Thus	659	663	O
+,	663	664	O
+in	665	667	O
+order	668	673	O
+to	674	676	O
+fulfill	677	684	O
+the	685	688	O
+localization	689	701	B-Task
+of	702	704	O
+Standard	705	713	B-Material
+Model	714	719	I-Material
+particles	720	729	O
+on	730	732	O
+a	733	734	O
+brane	735	740	O
+with	741	745	O
+positive	746	754	B-Process
+tension	755	762	I-Process
+,	762	763	O
+it	764	766	O
+seems	767	772	O
+that	773	777	O
+some	778	782	O
+additional	783	793	O
+interactions	794	806	O
+except	807	813	O
+the	814	817	O
+gravitational	818	831	O
+interaction	832	843	O
+must	844	848	O
+be	849	851	O
+also	852	856	O
+introduced	857	867	B-Process
+in	868	870	I-Process
+the	871	874	I-Process
+bulk	875	879	I-Process
+.	879	880	O
+
+There	881	886	O
+is	887	889	O
+a	890	891	O
+lot	892	895	O
+of	896	898	O
+papers	899	905	O
+devoted	906	913	O
+to	914	916	O
+the	917	920	O
+different	921	930	O
+localization	931	943	B-Process
+mechanisms	944	954	I-Process
+of	955	957	O
+the	958	961	O
+bulk	962	966	O
+fields	967	973	O
+in	974	976	O
+various	977	984	O
+brane	985	990	B-Process
+world	991	996	I-Process
+models	997	1003	I-Process
+.	1003	1004	O
 
 
 -DOCSTART- (S0375960112002885)
 
-First	NN	O	B-Process
--	NN	O	I-Process
-principles	NN	O	I-Process
-calculations	NN	O	I-Process
-have	NN	O	O
-clarified	NN	O	O
-the	NN	O	O
-electronic	NN	O	B-Task
-structure	NN	O	I-Task
-and	NN	O	I-Task
-stability	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-W@Si12	NN	O	B-Material
-cluster	NN	O	I-Material
-under	NN	O	O
-O2	NN	O	B-Task
-molecule	NN	O	I-Task
-adsorption	NN	O	I-Task
-and	NN	O	I-Task
-reaction	NN	O	I-Task
-.	NN	O	O
-
-Our	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-W	NN	O	B-Process
--	NN	O	I-Process
-encapsulated	NN	O	I-Process
-Si12	NN	O	I-Process
-hexagonal	NN	O	I-Process
-prism	NN	O	I-Process
-cage	NN	O	I-Process
-is	NN	O	O
-very	NN	O	O
-inert	NN	O	O
-to	NN	O	O
-oxidation	NN	O	B-Task
-.	NN	O	O
-
-The	NN	O	O
-O2	NN	O	B-Material
-molecule	NN	O	O
-only	NN	O	O
-weakly	NN	O	O
-adsorbs	NN	O	O
-onto	NN	O	O
-the	NN	O	O
-cluster	NN	O	B-Material
-at	NN	O	O
-relatively	NN	O	O
-low	NN	O	B-Process
-temperatures	NN	O	I-Process
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-range	NN	O	O
-of	NN	O	O
-several	NN	O	O
-tens	NN	O	O
-meV.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-significant	NN	O	B-Task
-reaction	NN	O	I-Task
-barriers	NN	O	I-Task
-(	NN	O	O
-0.593–1.118	NN	O	B-Task
-eV	NN	O	I-Task
-)	NN	O	O
-for	NN	O	O
-the	NN	O	O
-O2	NN	O	B-Material
-molecule	NN	O	O
-on	NN	O	O
-the	NN	O	O
-cluster	NN	O	B-Material
-are	NN	O	O
-identified	NN	O	O
-on	NN	O	O
-different	NN	O	O
-adsorption	NN	O	B-Process
-sites	NN	O	O
-,	NN	O	O
-nevertheless	NN	O	O
-,	NN	O	O
-these	NN	O	O
-reaction	NN	O	B-Process
-paths	NN	O	O
-are	NN	O	O
-spin	NN	O	B-Task
-forbidden	NN	O	I-Task
-reactions	NN	O	I-Task
-according	NN	O	O
-to	NN	O	O
-Wingerʼs	NN	O	B-Process
-spin	NN	O	I-Process
-selection	NN	O	I-Process
-rule	NN	O	I-Process
-.	NN	O	O
-
-These	NN	O	O
-results	NN	O	O
-imply	NN	O	O
-that	NN	O	O
-O2	NN	O	B-Material
-readily	NN	O	O
-desorb	NN	O	O
-from	NN	O	O
-the	NN	O	O
-cluster	NN	O	B-Material
-surface	NN	O	O
-rather	NN	O	O
-than	NN	O	O
-dissociate	NN	O	O
-and	NN	O	O
-oxide	NN	O	O
-the	NN	O	O
-W@Si12	NN	O	B-Material
-cluster	NN	O	I-Material
-upon	NN	O	O
-excitations	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-high	NN	O	B-Process
-temperature	NN	O	I-Process
-and	NN	O	I-Process
-high	NN	O	I-Process
-pressure	NN	O	I-Process
-conditions	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-O2	NN	O	B-Material
-molecules	NN	O	O
-may	NN	O	O
-dissociate	NN	O	O
-on	NN	O	O
-the	NN	O	O
-preferential	NN	O	O
-edge	NN	O	O
-site	NN	O	O
-by	NN	O	O
-overcoming	NN	O	B-Process
-a	NN	O	I-Process
-significantly	NN	O	I-Process
-large	NN	O	I-Process
-energy	NN	O	I-Process
-barrier	NN	O	I-Process
-.	NN	O	O
+First	0	5	B-Process
+-	5	6	I-Process
+principles	6	16	I-Process
+calculations	17	29	I-Process
+have	30	34	O
+clarified	35	44	O
+the	45	48	O
+electronic	49	59	B-Task
+structure	60	69	I-Task
+and	70	73	I-Task
+stability	74	83	I-Task
+of	84	86	O
+the	87	90	O
+W@Si12	91	97	B-Material
+cluster	98	105	I-Material
+under	106	111	O
+O2	112	114	B-Task
+molecule	115	123	I-Task
+adsorption	124	134	I-Task
+and	135	138	I-Task
+reaction	139	147	I-Task
+.	147	148	O
+
+Our	149	152	O
+results	153	160	O
+show	161	165	O
+that	166	170	O
+the	171	174	O
+W	175	176	B-Process
+-	176	177	I-Process
+encapsulated	177	189	I-Process
+Si12	190	194	I-Process
+hexagonal	195	204	I-Process
+prism	205	210	I-Process
+cage	211	215	I-Process
+is	216	218	O
+very	219	223	O
+inert	224	229	O
+to	230	232	O
+oxidation	233	242	B-Task
+.	242	243	O
+
+The	244	247	O
+O2	248	250	B-Material
+molecule	251	259	O
+only	260	264	O
+weakly	265	271	O
+adsorbs	272	279	O
+onto	280	284	O
+the	285	288	O
+cluster	289	296	B-Material
+at	297	299	O
+relatively	300	310	O
+low	311	314	B-Process
+temperatures	315	327	I-Process
+,	327	328	O
+in	329	331	O
+the	332	335	O
+range	336	341	O
+of	342	344	O
+several	345	352	O
+tens	353	357	O
+meV.	358	362	O
+
+However	363	370	O
+,	370	371	O
+significant	372	383	B-Task
+reaction	384	392	I-Task
+barriers	393	401	I-Task
+(	402	403	O
+0.593–1.118	403	414	B-Task
+eV	415	417	I-Task
+)	417	418	O
+for	419	422	O
+the	423	426	O
+O2	427	429	B-Material
+molecule	430	438	O
+on	439	441	O
+the	442	445	O
+cluster	446	453	B-Material
+are	454	457	O
+identified	458	468	O
+on	469	471	O
+different	472	481	O
+adsorption	482	492	B-Process
+sites	493	498	O
+,	498	499	O
+nevertheless	500	512	O
+,	512	513	O
+these	514	519	O
+reaction	520	528	B-Process
+paths	529	534	O
+are	535	538	O
+spin	539	543	B-Task
+forbidden	544	553	I-Task
+reactions	554	563	I-Task
+according	564	573	O
+to	574	576	O
+Wingerʼs	577	585	B-Process
+spin	586	590	I-Process
+selection	591	600	I-Process
+rule	601	605	I-Process
+.	605	606	O
+
+These	607	612	O
+results	613	620	O
+imply	621	626	O
+that	627	631	O
+O2	632	634	B-Material
+readily	635	642	O
+desorb	643	649	O
+from	650	654	O
+the	655	658	O
+cluster	659	666	B-Material
+surface	667	674	O
+rather	675	681	O
+than	682	686	O
+dissociate	687	697	O
+and	698	701	O
+oxide	702	707	O
+the	708	711	O
+W@Si12	712	718	B-Material
+cluster	719	726	I-Material
+upon	727	731	O
+excitations	732	743	O
+.	743	744	O
+
+In	745	747	O
+high	748	752	B-Process
+temperature	753	764	I-Process
+and	765	768	I-Process
+high	769	773	I-Process
+pressure	774	782	I-Process
+conditions	783	793	I-Process
+,	793	794	O
+the	795	798	O
+O2	799	801	B-Material
+molecules	802	811	O
+may	812	815	O
+dissociate	816	826	O
+on	827	829	O
+the	830	833	O
+preferential	834	846	O
+edge	847	851	O
+site	852	856	O
+by	857	859	O
+overcoming	860	870	B-Process
+a	871	872	I-Process
+significantly	873	886	I-Process
+large	887	892	I-Process
+energy	893	899	I-Process
+barrier	900	907	I-Process
+.	907	908	O
 
 
 -DOCSTART- (S0375960113004568)
 
-The	NN	O	O
-length	NN	O	B-Task
-effect	NN	O	I-Task
-is	NN	O	O
-always	NN	O	O
-important	NN	O	O
-in	NN	O	O
-nanodevices	NN	O	B-Material
-.	NN	O	O
-
-So	NN	O	O
-we	NN	O	O
-investigate	NN	O	O
-the	NN	O	O
-length	NN	O	B-Task
-dependence	NN	O	I-Task
-of	NN	O	I-Task
-electronic	NN	O	I-Task
-transport	NN	O	I-Task
-properties	NN	O	I-Task
-in	NN	O	O
-M3	NN	O	O
-by	NN	O	O
-increasing	NN	O	B-Process
-the	NN	O	I-Process
-number	NN	O	I-Process
-of	NN	O	I-Process
-carbon	NN	O	I-Process
-unit	NN	O	I-Process
-cells	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-scattering	NN	O	O
-region	NN	O	O
-.	NN	O	O
-
-Here	NN	O	O
-we	NN	O	O
-present	NN	O	O
-the	NN	O	O
-transport	NN	O	O
-results	NN	O	O
-when	NN	O	O
-the	NN	O	O
-numbers	NN	O	O
-of	NN	O	O
-carbon	NN	O	B-Material
-unit	NN	O	I-Material
-cells	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-scattering	NN	O	O
-region	NN	O	O
-are	NN	O	O
-10	NN	O	O
-and	NN	O	O
-12	NN	O	O
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-called	NN	O	O
-M4	NN	O	O
-and	NN	O	O
-M5	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-current	NN	O	B-Process
-–	NN	O	I-Process
-voltage	NN	O	I-Process
-characteristics	NN	O	I-Process
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-8	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-can	NN	O	O
-see	NN	O	O
-that	NN	O	O
-the	NN	O	O
-large	NN	O	B-Process
-rectifying	NN	O	I-Process
-ratio	NN	O	I-Process
-still	NN	O	O
-can	NN	O	O
-be	NN	O	O
-observed	NN	O	O
-irrespective	NN	O	O
-of	NN	O	O
-the	NN	O	O
-length	NN	O	O
-of	NN	O	O
-heterojunctions	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-the	NN	O	O
-electronic	NN	O	B-Task
-transport	NN	O	I-Task
-properties	NN	O	I-Task
-for	NN	O	O
-M3	NN	O	O
-are	NN	O	O
-mainly	NN	O	O
-determined	NN	O	O
-by	NN	O	O
-the	NN	O	O
-parity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-π	NN	O	B-Process
-and	NN	O	I-Process
-π⁎	NN	O	I-Process
-subbands	NN	O	I-Process
-of	NN	O	O
-left	NN	O	O
-and	NN	O	O
-right	NN	O	O
-electrodes	NN	O	O
-.	NN	O	O
-
-Thees	NN	O	O
-results	NN	O	O
-indicate	NN	O	O
-that	NN	O	O
-the	NN	O	O
-lengths	NN	O	O
-of	NN	O	O
-the	NN	O	O
-two	NN	O	O
-parts	NN	O	O
-in	NN	O	O
-the	NN	O	O
-scattering	NN	O	O
-regions	NN	O	O
-have	NN	O	O
-no	NN	O	O
-affects	NN	O	O
-on	NN	O	O
-the	NN	O	O
-qualitative	NN	O	B-Task
-charge	NN	O	I-Task
-transport	NN	O	I-Task
-in	NN	O	O
-M3	NN	O	O
-.	NN	O	O
+The	0	3	O
+length	4	10	B-Task
+effect	11	17	I-Task
+is	18	20	O
+always	21	27	O
+important	28	37	O
+in	38	40	O
+nanodevices	41	52	B-Material
+.	52	53	O
+
+So	54	56	O
+we	57	59	O
+investigate	60	71	O
+the	72	75	O
+length	76	82	B-Task
+dependence	83	93	I-Task
+of	94	96	I-Task
+electronic	97	107	I-Task
+transport	108	117	I-Task
+properties	118	128	I-Task
+in	129	131	O
+M3	132	134	O
+by	135	137	O
+increasing	138	148	B-Process
+the	149	152	I-Process
+number	153	159	I-Process
+of	160	162	I-Process
+carbon	163	169	I-Process
+unit	170	174	I-Process
+cells	175	180	I-Process
+in	181	183	O
+the	184	187	O
+scattering	188	198	O
+region	199	205	O
+.	205	206	O
+
+Here	207	211	O
+we	212	214	O
+present	215	222	O
+the	223	226	O
+transport	227	236	O
+results	237	244	O
+when	245	249	O
+the	250	253	O
+numbers	254	261	O
+of	262	264	O
+carbon	265	271	B-Material
+unit	272	276	I-Material
+cells	277	282	I-Material
+in	283	285	O
+the	286	289	O
+scattering	290	300	O
+region	301	307	O
+are	308	311	O
+10	312	314	O
+and	315	318	O
+12	319	321	O
+,	321	322	O
+which	323	328	O
+are	329	332	O
+called	333	339	O
+M4	340	342	O
+and	343	346	O
+M5	347	349	O
+,	349	350	O
+respectively	351	363	O
+.	363	364	O
+
+The	365	368	O
+current	369	376	B-Process
+–	376	377	I-Process
+voltage	377	384	I-Process
+characteristics	385	400	I-Process
+shown	401	406	O
+in	407	409	O
+Fig	410	413	O
+.	413	414	O
+
+8	415	416	O
+.	416	417	O
+
+We	418	420	O
+can	421	424	O
+see	425	428	O
+that	429	433	O
+the	434	437	O
+large	438	443	B-Process
+rectifying	444	454	I-Process
+ratio	455	460	I-Process
+still	461	466	O
+can	467	470	O
+be	471	473	O
+observed	474	482	O
+irrespective	483	495	O
+of	496	498	O
+the	499	502	O
+length	503	509	O
+of	510	512	O
+heterojunctions	513	528	O
+.	528	529	O
+
+This	530	534	O
+is	535	537	O
+due	538	541	O
+to	542	544	O
+the	545	548	O
+fact	549	553	O
+that	554	558	O
+the	559	562	O
+electronic	563	573	B-Task
+transport	574	583	I-Task
+properties	584	594	I-Task
+for	595	598	O
+M3	599	601	O
+are	602	605	O
+mainly	606	612	O
+determined	613	623	O
+by	624	626	O
+the	627	630	O
+parity	631	637	O
+of	638	640	O
+the	641	644	O
+π	645	646	B-Process
+and	647	650	I-Process
+π⁎	651	653	I-Process
+subbands	654	662	I-Process
+of	663	665	O
+left	666	670	O
+and	671	674	O
+right	675	680	O
+electrodes	681	691	O
+.	691	692	O
+
+Thees	693	698	O
+results	699	706	O
+indicate	707	715	O
+that	716	720	O
+the	721	724	O
+lengths	725	732	O
+of	733	735	O
+the	736	739	O
+two	740	743	O
+parts	744	749	O
+in	750	752	O
+the	753	756	O
+scattering	757	767	O
+regions	768	775	O
+have	776	780	O
+no	781	783	O
+affects	784	791	O
+on	792	794	O
+the	795	798	O
+qualitative	799	810	B-Task
+charge	811	817	I-Task
+transport	818	827	I-Task
+in	828	830	O
+M3	831	833	O
+.	833	834	O
 
 
 -DOCSTART- (S0375960113004908)
 
-Topological	NN	O	B-Process
-insulators	NN	O	I-Process
-(	NN	O	O
-TIs	NN	O	B-Process
-)	NN	O	O
-are	NN	O	O
-promising	NN	O	O
-candidates	NN	O	O
-of	NN	O	O
-spintronics	NN	O	B-Material
-materials	NN	O	I-Material
-because	NN	O	O
-of	NN	O	O
-their	NN	O	O
-robust	NN	O	O
-helical	NN	O	O
-surface	NN	O	O
-states	NN	O	O
-and	NN	O	O
-the	NN	O	O
-extremely	NN	O	O
-strong	NN	O	O
-spin	NN	O	B-Process
-–	NN	O	I-Process
-orbit	NN	O	I-Process
-interaction	NN	O	I-Process
-[	NN	O	O
-1–3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Initially	NN	O	O
-,	NN	O	O
-binary	NN	O	B-Material
-chalcogenides	NN	O	I-Material
-Bi2Te3	NN	O	B-Material
-,	NN	O	O
-Sb2Te3	NN	O	B-Material
-and	NN	O	O
-Bi2Se3	NN	O	B-Material
-have	NN	O	O
-been	NN	O	O
-identified	NN	O	O
-as	NN	O	O
-three	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-TIs	NN	O	B-Process
-by	NN	O	O
-surface	NN	O	B-Process
-sensitive	NN	O	I-Process
-probes	NN	O	I-Process
-such	NN	O	O
-as	NN	O	O
-angle	NN	O	B-Process
-resolved	NN	O	I-Process
-photoemission	NN	O	I-Process
-spectroscopy	NN	O	I-Process
-and	NN	O	O
-scanning	NN	O	B-Process
-tunneling	NN	O	I-Process
-microscopy	NN	O	I-Process
-/	NN	O	I-Process
-spectroscopy	NN	O	I-Process
-.	NN	O	O
-
-Later	NN	O	O
-,	NN	O	O
-ternary	NN	O	B-Material
-chalcogenide	NN	O	I-Material
-(	NN	O	B-Material
-BixSb1−x)2Te3	NN	O	I-Material
-[	NN	O	O
-4,5	NN	O	O
-]	NN	O	O
-,	NN	O	O
-which	NN	O	O
-has	NN	O	O
-similar	NN	O	O
-tetradymite	NN	O	O
-structure	NN	O	O
-to	NN	O	O
-the	NN	O	O
-parent	NN	O	O
-compounds	NN	O	O
-Bi2Te3	NN	O	B-Material
-and	NN	O	O
-Sb2Te3	NN	O	B-Material
-,	NN	O	O
-was	NN	O	O
-predicted	NN	O	O
-by	NN	O	O
-ab	NN	O	B-Process
-initio	NN	O	I-Process
-calculations	NN	O	I-Process
-and	NN	O	O
-confirmed	NN	O	O
-by	NN	O	O
-ARPES	NN	O	B-Process
-measurements	NN	O	I-Process
-as	NN	O	O
-a	NN	O	O
-tunable	NN	O	O
-topological	NN	O	B-Process
-insulator	NN	O	I-Process
-whose	NN	O	O
-Fermi	NN	O	O
-energy	NN	O	O
-and	NN	O	O
-carrier	NN	O	O
-density	NN	O	O
-can	NN	O	O
-be	NN	O	O
-adjusted	NN	O	O
-via	NN	O	O
-changing	NN	O	B-Process
-the	NN	O	I-Process
-Bi	NN	O	I-Process
-/	NN	O	I-Process
-Sb	NN	O	I-Process
-composition	NN	O	I-Process
-ratio	NN	O	I-Process
-with	NN	O	O
-stable	NN	O	O
-topological	NN	O	O
-surface	NN	O	O
-state	NN	O	O
-for	NN	O	O
-the	NN	O	O
-entire	NN	O	O
-composition	NN	O	O
-range	NN	O	O
-.	NN	O	O
-
-Combined	NN	O	O
-with	NN	O	O
-magnetism	NN	O	B-Process
-or	NN	O	O
-superconductivity	NN	O	B-Process
-,	NN	O	O
-TIs	NN	O	B-Process
-have	NN	O	O
-attracted	NN	O	O
-great	NN	O	O
-attention	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-rich	NN	O	O
-variety	NN	O	O
-of	NN	O	O
-new	NN	O	O
-physics	NN	O	O
-and	NN	O	O
-applications	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-ferromagnetism	NN	O	B-Process
-in	NN	O	O
-several	NN	O	O
-transition	NN	O	B-Material
-metal	NN	O	I-Material
-(	NN	O	O
-TM	NN	O	B-Material
-)	NN	O	O
-doped	NN	O	O
-TIs	NN	O	B-Process
-,	NN	O	O
-which	NN	O	O
-breaks	NN	O	O
-the	NN	O	O
-time	NN	O	O
--	NN	O	O
-reversal	NN	O	O
-symmetry	NN	O	O
-,	NN	O	O
-has	NN	O	O
-been	NN	O	O
-reported	NN	O	O
-[	NN	O	O
-6–13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Ferromagnetism	NN	O	B-Process
-in	NN	O	O
-TIs	NN	O	B-Process
-is	NN	O	O
-important	NN	O	O
-because	NN	O	O
-the	NN	O	O
-combination	NN	O	O
-of	NN	O	O
-magnetism	NN	O	B-Process
-with	NN	O	O
-TIs	NN	O	B-Process
-makes	NN	O	O
-a	NN	O	O
-good	NN	O	O
-platform	NN	O	O
-to	NN	O	O
-study	NN	O	O
-fundamental	NN	O	B-Task
-physical	NN	O	I-Task
-phenomena	NN	O	I-Task
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-quantum	NN	O	O
-anomalous	NN	O	O
-Hall	NN	O	B-Task
-effect	NN	O	I-Task
-[	NN	O	O
-14–17	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Majorana	NN	O	B-Task
-fermions	NN	O	I-Task
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-,	NN	O	O
-image	NN	O	B-Task
-magnetic	NN	O	I-Task
-monopole	NN	O	I-Task
-effect	NN	O	I-Task
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-topological	NN	O	O
-contributions	NN	O	O
-to	NN	O	O
-the	NN	O	O
-Faraday	NN	O	B-Task
-and	NN	O	I-Task
-Kerr	NN	O	I-Task
-magneto	NN	O	I-Task
--	NN	O	I-Task
-optical	NN	O	I-Task
-effect	NN	O	I-Task
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Topological	0	11	B-Process
+insulators	12	22	I-Process
+(	23	24	O
+TIs	24	27	B-Process
+)	27	28	O
+are	29	32	O
+promising	33	42	O
+candidates	43	53	O
+of	54	56	O
+spintronics	57	68	B-Material
+materials	69	78	I-Material
+because	79	86	O
+of	87	89	O
+their	90	95	O
+robust	96	102	O
+helical	103	110	O
+surface	111	118	O
+states	119	125	O
+and	126	129	O
+the	130	133	O
+extremely	134	143	O
+strong	144	150	O
+spin	151	155	B-Process
+–	155	156	I-Process
+orbit	156	161	I-Process
+interaction	162	173	I-Process
+[	174	175	O
+1–3	175	178	O
+]	178	179	O
+.	179	180	O
+
+Initially	181	190	O
+,	190	191	O
+binary	192	198	B-Material
+chalcogenides	199	212	I-Material
+Bi2Te3	213	219	B-Material
+,	219	220	O
+Sb2Te3	221	227	B-Material
+and	228	231	O
+Bi2Se3	232	238	B-Material
+have	239	243	O
+been	244	248	O
+identified	249	259	O
+as	260	262	O
+three	263	268	O
+-	268	269	O
+dimensional	269	280	O
+TIs	281	284	B-Process
+by	285	287	O
+surface	288	295	B-Process
+sensitive	296	305	I-Process
+probes	306	312	I-Process
+such	313	317	O
+as	318	320	O
+angle	321	326	B-Process
+resolved	327	335	I-Process
+photoemission	336	349	I-Process
+spectroscopy	350	362	I-Process
+and	363	366	O
+scanning	367	375	B-Process
+tunneling	376	385	I-Process
+microscopy	386	396	I-Process
+/	396	397	I-Process
+spectroscopy	397	409	I-Process
+.	409	410	O
+
+Later	411	416	O
+,	416	417	O
+ternary	418	425	B-Material
+chalcogenide	426	438	I-Material
+(	439	440	B-Material
+BixSb1−x)2Te3	440	453	I-Material
+[	454	455	O
+4,5	455	458	O
+]	458	459	O
+,	459	460	O
+which	461	466	O
+has	467	470	O
+similar	471	478	O
+tetradymite	479	490	O
+structure	491	500	O
+to	501	503	O
+the	504	507	O
+parent	508	514	O
+compounds	515	524	O
+Bi2Te3	525	531	B-Material
+and	532	535	O
+Sb2Te3	536	542	B-Material
+,	542	543	O
+was	544	547	O
+predicted	548	557	O
+by	558	560	O
+ab	561	563	B-Process
+initio	564	570	I-Process
+calculations	571	583	I-Process
+and	584	587	O
+confirmed	588	597	O
+by	598	600	O
+ARPES	601	606	B-Process
+measurements	607	619	I-Process
+as	620	622	O
+a	623	624	O
+tunable	625	632	O
+topological	633	644	B-Process
+insulator	645	654	I-Process
+whose	655	660	O
+Fermi	661	666	O
+energy	667	673	O
+and	674	677	O
+carrier	678	685	O
+density	686	693	O
+can	694	697	O
+be	698	700	O
+adjusted	701	709	O
+via	710	713	O
+changing	714	722	B-Process
+the	723	726	I-Process
+Bi	727	729	I-Process
+/	729	730	I-Process
+Sb	730	732	I-Process
+composition	733	744	I-Process
+ratio	745	750	I-Process
+with	751	755	O
+stable	756	762	O
+topological	763	774	O
+surface	775	782	O
+state	783	788	O
+for	789	792	O
+the	793	796	O
+entire	797	803	O
+composition	804	815	O
+range	816	821	O
+.	821	822	O
+
+Combined	823	831	O
+with	832	836	O
+magnetism	837	846	B-Process
+or	847	849	O
+superconductivity	850	867	B-Process
+,	867	868	O
+TIs	869	872	B-Process
+have	873	877	O
+attracted	878	887	O
+great	888	893	O
+attention	894	903	O
+due	904	907	O
+to	908	910	O
+the	911	914	O
+rich	915	919	O
+variety	920	927	O
+of	928	930	O
+new	931	934	O
+physics	935	942	O
+and	943	946	O
+applications	947	959	O
+.	959	960	O
+
+The	961	964	O
+ferromagnetism	965	979	B-Process
+in	980	982	O
+several	983	990	O
+transition	991	1001	B-Material
+metal	1002	1007	I-Material
+(	1008	1009	O
+TM	1009	1011	B-Material
+)	1011	1012	O
+doped	1013	1018	O
+TIs	1019	1022	B-Process
+,	1022	1023	O
+which	1024	1029	O
+breaks	1030	1036	O
+the	1037	1040	O
+time	1041	1045	O
+-	1045	1046	O
+reversal	1046	1054	O
+symmetry	1055	1063	O
+,	1063	1064	O
+has	1065	1068	O
+been	1069	1073	O
+reported	1074	1082	O
+[	1083	1084	O
+6–13	1084	1088	O
+]	1088	1089	O
+.	1089	1090	O
+
+Ferromagnetism	1091	1105	B-Process
+in	1106	1108	O
+TIs	1109	1112	B-Process
+is	1113	1115	O
+important	1116	1125	O
+because	1126	1133	O
+the	1134	1137	O
+combination	1138	1149	O
+of	1150	1152	O
+magnetism	1153	1162	B-Process
+with	1163	1167	O
+TIs	1168	1171	B-Process
+makes	1172	1177	O
+a	1178	1179	O
+good	1180	1184	O
+platform	1185	1193	O
+to	1194	1196	O
+study	1197	1202	O
+fundamental	1203	1214	B-Task
+physical	1215	1223	I-Task
+phenomena	1224	1233	I-Task
+,	1233	1234	O
+such	1235	1239	O
+as	1240	1242	O
+the	1243	1246	O
+quantum	1247	1254	O
+anomalous	1255	1264	O
+Hall	1265	1269	B-Task
+effect	1270	1276	I-Task
+[	1277	1278	O
+14–17	1278	1283	O
+]	1283	1284	O
+,	1284	1285	O
+Majorana	1286	1294	B-Task
+fermions	1295	1303	I-Task
+[	1304	1305	O
+18	1305	1307	O
+]	1307	1308	O
+,	1308	1309	O
+image	1310	1315	B-Task
+magnetic	1316	1324	I-Task
+monopole	1325	1333	I-Task
+effect	1334	1340	I-Task
+[	1341	1342	O
+19	1342	1344	O
+]	1344	1345	O
+,	1345	1346	O
+and	1347	1350	O
+topological	1351	1362	O
+contributions	1363	1376	O
+to	1377	1379	O
+the	1380	1383	O
+Faraday	1384	1391	B-Task
+and	1392	1395	I-Task
+Kerr	1396	1400	I-Task
+magneto	1401	1408	I-Task
+-	1408	1409	I-Task
+optical	1409	1416	I-Task
+effect	1417	1423	I-Task
+[	1424	1425	O
+20	1425	1427	O
+]	1427	1428	O
+.	1428	1429	O
 
 
 -DOCSTART- (S0375960113006725)
 
-Observations	NN	O	B-Process
-show	NN	O	O
-that	NN	O	O
-in	NN	O	O
-the	NN	O	O
-same	NN	O	O
-area	NN	O	O
-with	NN	O	O
-dimensions	NN	O	O
-of	NN	O	O
-a	NN	O	O
-few	NN	O	O
-tenths	NN	O	O
-of	NN	O	O
-a	NN	O	O
-parsec	NN	O	O
-could	NN	O	O
-be	NN	O	O
-many	NN	O	O
-sources	NN	O	O
-,	NN	O	O
-some	NN	O	O
-of	NN	O	O
-which	NN	O	O
-only	NN	O	O
-emits	NN	O	O
-OH	NN	O	B-Material
-lines	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-some	NN	O	O
-–	NN	O	O
-only	NN	O	O
-lines	NN	O	O
-H2O.	NN	O	B-Material
-
-The	NN	O	O
-only	NN	O	O
-known	NN	O	O
-in	NN	O	O
-physics	NN	O	O
-the	NN	O	O
-emission	NN	O	B-Process
-mechanism	NN	O	I-Process
-that	NN	O	O
-can	NN	O	O
-give	NN	O	O
-tremendous	NN	O	O
-power	NN	O	O
-within	NN	O	O
-a	NN	O	O
-narrow	NN	O	O
-range	NN	O	O
-of	NN	O	O
-the	NN	O	O
-spectrum	NN	O	O
-,	NN	O	O
-is	NN	O	O
-coherent	NN	O	O
-(	NN	O	O
-i.e.	NN	O	O
-the	NN	O	O
-same	NN	O	O
-phase	NN	O	O
-and	NN	O	O
-direction	NN	O	O
-)	NN	O	O
-light	NN	O	B-Process
-lasers	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-are	NN	O	O
-called	NN	O	O
-optical	NN	O	B-Process
-lasers	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-radio	NN	O	B-Process
--	NN	O	I-Process
-masers	NN	O	I-Process
-.	NN	O	O
-
-Cosmic	NN	O	B-Material
-maser	NN	O	I-Material
-radio	NN	O	I-Material
-sources	NN	O	I-Material
-emitting	NN	O	O
-in	NN	O	O
-the	NN	O	O
-lines	NN	O	O
-of	NN	O	O
-the	NN	O	O
-molecules	NN	O	O
-have	NN	O	O
-an	NN	O	O
-extremely	NN	O	O
-high	NN	O	O
-brightness	NN	O	O
-temperature	NN	O	O
-radiation	NN	O	O
-Tb	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-molecules	NN	O	O
-of	NN	O	O
-methanol	NN	O	B-Material
-masers	NN	O	I-Material
-(	NN	O	O
-CH3OH	NN	O	B-Material
-)	NN	O	O
-
-Tb	NN	O	O
-value	NN	O	O
-can	NN	O	O
-reach	NN	O	O
-109	NN	O	O
-K	NN	O	O
-,	NN	O	O
-with	NN	O	O
-masers	NN	O	B-Material
-hydroxyl	NN	O	I-Material
-molecules	NN	O	I-Material
-(	NN	O	O
-OH	NN	O	B-Material
-)	NN	O	O
-
-6×1012	NN	O	O
-K.	NN	O	O
-
-The	NN	O	O
-typical	NN	O	O
-size	NN	O	O
-of	NN	O	O
-the	NN	O	O
-maser	NN	O	B-Material
-clusters	NN	O	I-Material
-is	NN	O	O
-about	NN	O	O
-1014–1015	NN	O	O
-m	NN	O	O
-and	NN	O	O
-the	NN	O	O
-neutron	NN	O	B-Material
-star	NN	O	I-Material
-radius	NN	O	O
-is	NN	O	O
-of	NN	O	O
-the	NN	O	O
-order	NN	O	O
-of	NN	O	O
-10	NN	O	O
-km	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-the	NN	O	O
-radiation	NN	O	B-Process
-dilution	NN	O	I-Process
-coefficient	NN	O	I-Process
-is	NN	O	O
-equaled	NN	O	O
-approximately	NN	O	O
-(	NN	O	O
-2.5×10−23)–(2.5×10−21	NN	O	O
-)	NN	O	O
-and	NN	O	O
-,	NN	O	O
-therefore	NN	O	O
-,	NN	O	O
-μB2B2/4(hν)2∼(2.4×10−5)–(2.4×10−7	NN	O	O
-)	NN	O	O
-for	NN	O	O
-the	NN	O	O
-hydrogen	NN	O	B-Material
-line	NN	O	I-Material
-21	NN	O	O
-cm	NN	O	O
-and	NN	O	O
-of	NN	O	O
-the	NN	O	O
-order	NN	O	O
-10−5–10−7	NN	O	O
-for	NN	O	O
-the	NN	O	O
-OH	NN	O	O
-18	NN	O	O
-cm	NN	O	O
-line	NN	O	O
-or	NN	O	O
-the	NN	O	O
-same	NN	O	O
-order	NN	O	O
-as	NN	O	O
-Eq	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-.	NN	O	O
+Observations	0	12	B-Process
+show	13	17	O
+that	18	22	O
+in	23	25	O
+the	26	29	O
+same	30	34	O
+area	35	39	O
+with	40	44	O
+dimensions	45	55	O
+of	56	58	O
+a	59	60	O
+few	61	64	O
+tenths	65	71	O
+of	72	74	O
+a	75	76	O
+parsec	77	83	O
+could	84	89	O
+be	90	92	O
+many	93	97	O
+sources	98	105	O
+,	105	106	O
+some	107	111	O
+of	112	114	O
+which	115	120	O
+only	121	125	O
+emits	126	131	O
+OH	132	134	B-Material
+lines	135	140	I-Material
+,	140	141	O
+and	142	145	O
+some	146	150	O
+–	151	152	O
+only	153	157	O
+lines	158	163	O
+H2O.	164	168	B-Material
+
+The	169	172	O
+only	173	177	O
+known	178	183	O
+in	184	186	O
+physics	187	194	O
+the	195	198	O
+emission	199	207	B-Process
+mechanism	208	217	I-Process
+that	218	222	O
+can	223	226	O
+give	227	231	O
+tremendous	232	242	O
+power	243	248	O
+within	249	255	O
+a	256	257	O
+narrow	258	264	O
+range	265	270	O
+of	271	273	O
+the	274	277	O
+spectrum	278	286	O
+,	286	287	O
+is	288	290	O
+coherent	291	299	O
+(	300	301	O
+i.e.	301	305	O
+the	306	309	O
+same	310	314	O
+phase	315	320	O
+and	321	324	O
+direction	325	334	O
+)	334	335	O
+light	336	341	B-Process
+lasers	342	348	I-Process
+,	348	349	O
+which	350	355	O
+are	356	359	O
+called	360	366	O
+optical	367	374	B-Process
+lasers	375	381	I-Process
+,	381	382	O
+and	383	386	O
+radio	387	392	B-Process
+-	392	393	I-Process
+masers	393	399	I-Process
+.	399	400	O
+
+Cosmic	401	407	B-Material
+maser	408	413	I-Material
+radio	414	419	I-Material
+sources	420	427	I-Material
+emitting	428	436	O
+in	437	439	O
+the	440	443	O
+lines	444	449	O
+of	450	452	O
+the	453	456	O
+molecules	457	466	O
+have	467	471	O
+an	472	474	O
+extremely	475	484	O
+high	485	489	O
+brightness	490	500	O
+temperature	501	512	O
+radiation	513	522	O
+Tb	523	525	O
+.	525	526	O
+
+In	527	529	O
+the	530	533	O
+molecules	534	543	O
+of	544	546	O
+methanol	547	555	B-Material
+masers	556	562	I-Material
+(	563	564	O
+CH3OH	564	569	B-Material
+)	569	570	O
+
+Tb	571	573	O
+value	574	579	O
+can	580	583	O
+reach	584	589	O
+109	590	593	O
+K	594	595	O
+,	595	596	O
+with	597	601	O
+masers	602	608	B-Material
+hydroxyl	609	617	I-Material
+molecules	618	627	I-Material
+(	628	629	O
+OH	629	631	B-Material
+)	631	632	O
+
+6×1012	633	639	O
+K.	640	642	O
+
+The	643	646	O
+typical	647	654	O
+size	655	659	O
+of	660	662	O
+the	663	666	O
+maser	667	672	B-Material
+clusters	673	681	I-Material
+is	682	684	O
+about	685	690	O
+1014–1015	691	700	O
+m	701	702	O
+and	703	706	O
+the	707	710	O
+neutron	711	718	B-Material
+star	719	723	I-Material
+radius	724	730	O
+is	731	733	O
+of	734	736	O
+the	737	740	O
+order	741	746	O
+of	747	749	O
+10	750	752	O
+km	753	755	O
+.	755	756	O
+
+Thus	757	761	O
+,	761	762	O
+the	763	766	O
+radiation	767	776	B-Process
+dilution	777	785	I-Process
+coefficient	786	797	I-Process
+is	798	800	O
+equaled	801	808	O
+approximately	809	822	O
+(	823	824	O
+2.5×10−23)–(2.5×10−21	824	845	O
+)	845	846	O
+and	847	850	O
+,	850	851	O
+therefore	852	861	O
+,	861	862	O
+μB2B2/4(hν)2∼(2.4×10−5)–(2.4×10−7	863	896	O
+)	896	897	O
+for	898	901	O
+the	902	905	O
+hydrogen	906	914	B-Material
+line	915	919	I-Material
+21	920	922	O
+cm	923	925	O
+and	926	929	O
+of	930	932	O
+the	933	936	O
+order	937	942	O
+10−5–10−7	943	952	O
+for	953	956	O
+the	957	960	O
+OH	961	963	O
+18	964	966	O
+cm	967	969	O
+line	970	974	O
+or	975	977	O
+the	978	981	O
+same	982	986	O
+order	987	992	O
+as	993	995	O
+Eq	996	998	O
+.	998	999	O
+
+(	1000	1001	O
+1	1001	1002	O
+)	1002	1003	O
+.	1003	1004	O
 
 
 -DOCSTART- (S037596011300741X)
 
-In	NN	O	O
-exploring	NN	O	O
-the	NN	O	O
-WKB	NN	O	B-Task
-limit	NN	O	I-Task
-of	NN	O	I-Task
-quantum	NN	O	I-Task
-theory	NN	O	I-Task
-,	NN	O	O
-Bohm	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-was	NN	O	O
-the	NN	O	O
-first	NN	O	O
-to	NN	O	O
-notice	NN	O	O
-that	NN	O	O
-although	NN	O	O
-one	NN	O	O
-starts	NN	O	O
-with	NN	O	O
-all	NN	O	O
-the	NN	O	O
-ambiguities	NN	O	O
-about	NN	O	O
-the	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-a	NN	O	O
-quantum	NN	O	O
-system	NN	O	O
-,	NN	O	O
-the	NN	O	O
-first	NN	O	O
-order	NN	O	O
-approximation	NN	O	O
-fits	NN	O	O
-the	NN	O	O
-ordinary	NN	O	O
-classical	NN	O	O
-ontology	NN	O	O
-.	NN	O	O
-
-By	NN	O	O
-that	NN	O	O
-we	NN	O	O
-mean	NN	O	O
-that	NN	O	O
-the	NN	O	O
-real	NN	O	O
-part	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Schrödinger	NN	O	B-Process
-equation	NN	O	I-Process
-under	NN	O	I-Process
-polar	NN	O	I-Process
-decomposition	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-wave	NN	O	I-Process
-function	NN	O	I-Process
-becomes	NN	O	O
-the	NN	O	O
-classical	NN	O	O
-Hamilton	NN	O	O
-–	NN	O	O
-
-Jacobi	NN	O	O
-equation	NN	O	O
-in	NN	O	O
-the	NN	O	O
-limit	NN	O	O
-where	NN	O	O
-terms	NN	O	O
-involving	NN	O	O
-ℏ	NN	O	O
-are	NN	O	O
-neglected	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-contrast	NN	O	O
-to	NN	O	O
-this	NN	O	O
-approach	NN	O	O
-,	NN	O	O
-in	NN	O	O
-this	NN	O	O
-Letter	NN	O	O
-we	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-classical	NN	O	O
-trajectories	NN	O	O
-arise	NN	O	O
-from	NN	O	O
-a	NN	O	O
-short	NN	O	B-Process
--	NN	O	I-Process
-time	NN	O	I-Process
-quantum	NN	O	I-Process
-propagator	NN	O	I-Process
-when	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-O(Δt2	NN	O	O
-)	NN	O	O
-can	NN	O	O
-be	NN	O	O
-neglected	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-fact	NN	O	O
-was	NN	O	O
-actually	NN	O	O
-already	NN	O	O
-observed	NN	O	O
-by	NN	O	O
-Holland	NN	O	O
-some	NN	O	O
-twenty	NN	O	O
-years	NN	O	O
-ago	NN	O	O
-:	NN	O	O
-
-In	NN	O	O
-page	NN	O	O
-269	NN	O	O
-of	NN	O	O
-his	NN	O	O
-book	NN	O	O
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-infinitesimal	NN	O	B-Material
-time	NN	O	I-Material
-intervals	NN	O	I-Material
-are	NN	O	O
-considered	NN	O	O
-whose	NN	O	O
-sequence	NN	O	O
-constructs	NN	O	O
-a	NN	O	O
-finite	NN	O	O
-path	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-along	NN	O	O
-each	NN	O	O
-segment	NN	O	O
-the	NN	O	O
-motion	NN	O	O
-is	NN	O	O
-classical	NN	O	O
-(	NN	O	O
-negligible	NN	O	O
-quantum	NN	O	O
-potential	NN	O	O
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-that	NN	O	O
-it	NN	O	O
-follows	NN	O	O
-that	NN	O	O
-the	NN	O	O
-quantum	NN	O	O
-path	NN	O	O
-may	NN	O	O
-be	NN	O	O
-decomposed	NN	O	O
-into	NN	O	O
-a	NN	O	O
-sequence	NN	O	O
-of	NN	O	O
-segments	NN	O	O
-along	NN	O	O
-each	NN	O	O
-of	NN	O	O
-which	NN	O	O
-the	NN	O	O
-classical	NN	O	O
-action	NN	O	O
-is	NN	O	O
-a	NN	O	O
-minimum	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-novel	NN	O	O
-contribution	NN	O	O
-of	NN	O	O
-the	NN	O	O
-present	NN	O	O
-Letter	NN	O	O
-is	NN	O	O
-an	NN	O	O
-improved	NN	O	O
-proof	NN	O	O
-of	NN	O	O
-Hollandʼs	NN	O	O
-result	NN	O	O
-using	NN	O	O
-an	NN	O	O
-improved	NN	O	O
-version	NN	O	O
-of	NN	O	O
-the	NN	O	O
-propagator	NN	O	B-Process
-due	NN	O	O
-to	NN	O	O
-Makri	NN	O	O
-and	NN	O	O
-Miller	NN	O	O
-[	NN	O	O
-9,10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-See	NN	O	O
-also	NN	O	O
-de	NN	O	O
-Gosson	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-for	NN	O	O
-a	NN	O	O
-further	NN	O	O
-discussion	NN	O	O
-.	NN	O	O
-)	NN	O	O
+In	0	2	O
+exploring	3	12	O
+the	13	16	O
+WKB	17	20	B-Task
+limit	21	26	I-Task
+of	27	29	I-Task
+quantum	30	37	I-Task
+theory	38	44	I-Task
+,	44	45	O
+Bohm	46	50	O
+[	51	52	O
+2	52	53	O
+]	53	54	O
+was	55	58	O
+the	59	62	O
+first	63	68	O
+to	69	71	O
+notice	72	78	O
+that	79	83	O
+although	84	92	O
+one	93	96	O
+starts	97	103	O
+with	104	108	O
+all	109	112	O
+the	113	116	O
+ambiguities	117	128	O
+about	129	134	O
+the	135	138	O
+nature	139	145	O
+of	146	148	O
+a	149	150	O
+quantum	151	158	O
+system	159	165	O
+,	165	166	O
+the	167	170	O
+first	171	176	O
+order	177	182	O
+approximation	183	196	O
+fits	197	201	O
+the	202	205	O
+ordinary	206	214	O
+classical	215	224	O
+ontology	225	233	O
+.	233	234	O
+
+By	235	237	O
+that	238	242	O
+we	243	245	O
+mean	246	250	O
+that	251	255	O
+the	256	259	O
+real	260	264	O
+part	265	269	O
+of	270	272	O
+the	273	276	O
+Schrödinger	277	288	B-Process
+equation	289	297	I-Process
+under	298	303	I-Process
+polar	304	309	I-Process
+decomposition	310	323	I-Process
+of	324	326	I-Process
+the	327	330	I-Process
+wave	331	335	I-Process
+function	336	344	I-Process
+becomes	345	352	O
+the	353	356	O
+classical	357	366	O
+Hamilton	367	375	O
+–	375	376	O
+
+Jacobi	376	382	O
+equation	383	391	O
+in	392	394	O
+the	395	398	O
+limit	399	404	O
+where	405	410	O
+terms	411	416	O
+involving	417	426	O
+ℏ	427	428	O
+are	429	432	O
+neglected	433	442	O
+.	442	443	O
+
+In	444	446	O
+contrast	447	455	O
+to	456	458	O
+this	459	463	O
+approach	464	472	O
+,	472	473	O
+in	474	476	O
+this	477	481	O
+Letter	482	488	O
+we	489	491	O
+show	492	496	O
+that	497	501	O
+the	502	505	O
+classical	506	515	O
+trajectories	516	528	O
+arise	529	534	O
+from	535	539	O
+a	540	541	O
+short	542	547	B-Process
+-	547	548	I-Process
+time	548	552	I-Process
+quantum	553	560	I-Process
+propagator	561	571	I-Process
+when	572	576	O
+terms	577	582	O
+of	583	585	O
+O(Δt2	586	591	O
+)	591	592	O
+can	593	596	O
+be	597	599	O
+neglected	600	609	O
+.	609	610	O
+
+This	611	615	O
+fact	616	620	O
+was	621	624	O
+actually	625	633	O
+already	634	641	O
+observed	642	650	O
+by	651	653	O
+Holland	654	661	O
+some	662	666	O
+twenty	667	673	O
+years	674	679	O
+ago	680	683	O
+:	683	684	O
+
+In	685	687	O
+page	688	692	O
+269	693	696	O
+of	697	699	O
+his	700	703	O
+book	704	708	O
+[	709	710	O
+6	710	711	O
+]	711	712	O
+infinitesimal	713	726	B-Material
+time	727	731	I-Material
+intervals	732	741	I-Material
+are	742	745	O
+considered	746	756	O
+whose	757	762	O
+sequence	763	771	O
+constructs	772	782	O
+a	783	784	O
+finite	785	791	O
+path	792	796	O
+.	796	797	O
+
+It	798	800	O
+is	801	803	O
+shown	804	809	O
+that	810	814	O
+along	815	820	O
+each	821	825	O
+segment	826	833	O
+the	834	837	O
+motion	838	844	O
+is	845	847	O
+classical	848	857	O
+(	858	859	O
+negligible	859	869	O
+quantum	870	877	O
+potential	878	887	O
+)	887	888	O
+,	888	889	O
+and	890	893	O
+that	894	898	O
+it	899	901	O
+follows	902	909	O
+that	910	914	O
+the	915	918	O
+quantum	919	926	O
+path	927	931	O
+may	932	935	O
+be	936	938	O
+decomposed	939	949	O
+into	950	954	O
+a	955	956	O
+sequence	957	965	O
+of	966	968	O
+segments	969	977	O
+along	978	983	O
+each	984	988	O
+of	989	991	O
+which	992	997	O
+the	998	1001	O
+classical	1002	1011	O
+action	1012	1018	O
+is	1019	1021	O
+a	1022	1023	O
+minimum	1024	1031	O
+.	1031	1032	O
+
+The	1033	1036	O
+novel	1037	1042	O
+contribution	1043	1055	O
+of	1056	1058	O
+the	1059	1062	O
+present	1063	1070	O
+Letter	1071	1077	O
+is	1078	1080	O
+an	1081	1083	O
+improved	1084	1092	O
+proof	1093	1098	O
+of	1099	1101	O
+Hollandʼs	1102	1111	O
+result	1112	1118	O
+using	1119	1124	O
+an	1125	1127	O
+improved	1128	1136	O
+version	1137	1144	O
+of	1145	1147	O
+the	1148	1151	O
+propagator	1152	1162	B-Process
+due	1163	1166	O
+to	1167	1169	O
+Makri	1170	1175	O
+and	1176	1179	O
+Miller	1180	1186	O
+[	1187	1188	O
+9,10	1188	1192	O
+]	1192	1193	O
+.	1193	1194	O
+
+(	1195	1196	O
+See	1196	1199	O
+also	1200	1204	O
+de	1205	1207	O
+Gosson	1208	1214	O
+[	1215	1216	O
+3	1216	1217	O
+]	1217	1218	O
+for	1219	1222	O
+a	1223	1224	O
+further	1225	1232	O
+discussion	1233	1243	O
+.	1243	1244	O
+)	1244	1245	O
 
 
 -DOCSTART- (S0375960113010839)
 
-The	NN	O	O
-goal	NN	O	O
-of	NN	O	O
-the	NN	O	O
-glued	NN	O	B-Process
-trees	NN	O	I-Process
-(	NN	O	O
-GT	NN	O	B-Process
-)	NN	O	O
-algorithm	NN	O	O
-for	NN	O	O
-quantum	NN	O	B-Task
-search	NN	O	I-Task
-is	NN	O	O
-the	NN	O	O
-following	NN	O	O
-:	NN	O	O
-beginning	NN	O	O
-from	NN	O	O
-the	NN	O	O
-left	NN	O	O
--	NN	O	O
-most	NN	O	O
-vertex	NN	O	O
-of	NN	O	O
-a	NN	O	O
-given	NN	O	O
-GT	NN	O	B-Material
-graph	NN	O	I-Material
-,	NN	O	O
-traverse	NN	O	O
-the	NN	O	O
-graph	NN	O	B-Material
-and	NN	O	O
-reach	NN	O	O
-the	NN	O	O
-right	NN	O	O
--	NN	O	O
-most	NN	O	O
-vertex	NN	O	O
-,	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-the	NN	O	O
-target	NN	O	O
-vertex	NN	O	O
-.	NN	O	O
-
-Childs	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-use	NN	O	O
-this	NN	O	O
-algorithm	NN	O	O
-to	NN	O	O
-show	NN	O	O
-quantum	NN	O	B-Task
-walk	NN	O	I-Task
-search	NN	O	I-Task
-to	NN	O	O
-be	NN	O	O
-fundamentally	NN	O	O
-more	NN	O	O
-effective	NN	O	O
-than	NN	O	O
-classical	NN	O	B-Task
-random	NN	O	I-Task
-walk	NN	O	I-Task
-search	NN	O	I-Task
-by	NN	O	O
-presenting	NN	O	O
-a	NN	O	O
-class	NN	O	B-Material
-of	NN	O	I-Material
-graphs	NN	O	I-Material
-(	NN	O	O
-the	NN	O	O
-GT	NN	O	B-Material
-graphs	NN	O	I-Material
-)	NN	O	O
-that	NN	O	O
-force	NN	O	O
-classical	NN	O	B-Task
-random	NN	O	I-Task
-walks	NN	O	I-Task
-to	NN	O	O
-make	NN	O	O
-exponentially	NN	O	O
-many	NN	O	O
-queries	NN	O	O
-to	NN	O	O
-an	NN	O	O
-oracle	NN	O	O
-encoding	NN	O	O
-the	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-the	NN	O	O
-graph	NN	O	O
-,	NN	O	O
-but	NN	O	O
-that	NN	O	O
-are	NN	O	O
-traversable	NN	O	O
-by	NN	O	O
-quantum	NN	O	O
-walks	NN	O	O
-with	NN	O	O
-a	NN	O	O
-polynomial	NN	O	O
-number	NN	O	O
-of	NN	O	O
-queries	NN	O	O
-to	NN	O	O
-such	NN	O	O
-an	NN	O	O
-oracle	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-study	NN	O	O
-the	NN	O	O
-robustness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-algorithm	NN	O	O
-to	NN	O	O
-the	NN	O	O
-detrimental	NN	O	O
-effects	NN	O	O
-of	NN	O	O
-decoherence	NN	O	O
-,	NN	O	O
-we	NN	O	O
-shall	NN	O	O
-determine	NN	O	O
-how	NN	O	O
-effectively	NN	O	O
-it	NN	O	O
-achieves	NN	O	O
-its	NN	O	O
-goal	NN	O	O
-when	NN	O	O
-subjected	NN	O	O
-to	NN	O	O
-an	NN	O	O
-increasing	NN	O	B-Process
-degree	NN	O	I-Process
-of	NN	O	I-Process
-phase	NN	O	I-Process
-damping	NN	O	I-Process
-noise	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-this	NN	O	O
-reason	NN	O	O
-,	NN	O	O
-we	NN	O	O
-will	NN	O	O
-focus	NN	O	O
-on	NN	O	O
-the	NN	O	O
-probability	NN	O	O
-that	NN	O	O
-the	NN	O	O
-walker	NN	O	O
-is	NN	O	O
-on	NN	O	O
-the	NN	O	O
-target	NN	O	O
-vertex	NN	O	O
-at	NN	O	O
-the	NN	O	O
-end	NN	O	O
-of	NN	O	O
-the	NN	O	O
-walk	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-thus	NN	O	O
-consider	NN	O	O
-GT	NN	O	B-Material
-graphs	NN	O	I-Material
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-one	NN	O	O
-illustrated	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1(b	NN	O	O
-)	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-consisting	NN	O	O
-of	NN	O	O
-n	NN	O	O
-layers	NN	O	O
-before	NN	O	O
-the	NN	O	O
-gluing	NN	O	B-Process
-stage	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-thus	NN	O	O
-labelled	NN	O	O
-as	NN	O	O
-G′n	NN	O	O
-.	NN	O	O
+The	0	3	O
+goal	4	8	O
+of	9	11	O
+the	12	15	O
+glued	16	21	B-Process
+trees	22	27	I-Process
+(	28	29	O
+GT	29	31	B-Process
+)	31	32	O
+algorithm	33	42	O
+for	43	46	O
+quantum	47	54	B-Task
+search	55	61	I-Task
+is	62	64	O
+the	65	68	O
+following	69	78	O
+:	78	79	O
+beginning	80	89	O
+from	90	94	O
+the	95	98	O
+left	99	103	O
+-	103	104	O
+most	104	108	O
+vertex	109	115	O
+of	116	118	O
+a	119	120	O
+given	121	126	O
+GT	127	129	B-Material
+graph	130	135	I-Material
+,	135	136	O
+traverse	137	145	O
+the	146	149	O
+graph	150	155	B-Material
+and	156	159	O
+reach	160	165	O
+the	166	169	O
+right	170	175	O
+-	175	176	O
+most	176	180	O
+vertex	181	187	O
+,	187	188	O
+referred	189	197	O
+to	198	200	O
+as	201	203	O
+the	204	207	O
+target	208	214	O
+vertex	215	221	O
+.	221	222	O
+
+Childs	223	229	O
+et	230	232	O
+al	233	235	O
+.	235	236	O
+
+[	237	238	O
+1	238	239	O
+]	239	240	O
+use	241	244	O
+this	245	249	O
+algorithm	250	259	O
+to	260	262	O
+show	263	267	O
+quantum	268	275	B-Task
+walk	276	280	I-Task
+search	281	287	I-Task
+to	288	290	O
+be	291	293	O
+fundamentally	294	307	O
+more	308	312	O
+effective	313	322	O
+than	323	327	O
+classical	328	337	B-Task
+random	338	344	I-Task
+walk	345	349	I-Task
+search	350	356	I-Task
+by	357	359	O
+presenting	360	370	O
+a	371	372	O
+class	373	378	B-Material
+of	379	381	I-Material
+graphs	382	388	I-Material
+(	389	390	O
+the	390	393	O
+GT	394	396	B-Material
+graphs	397	403	I-Material
+)	403	404	O
+that	405	409	O
+force	410	415	O
+classical	416	425	B-Task
+random	426	432	I-Task
+walks	433	438	I-Task
+to	439	441	O
+make	442	446	O
+exponentially	447	460	O
+many	461	465	O
+queries	466	473	O
+to	474	476	O
+an	477	479	O
+oracle	480	486	O
+encoding	487	495	O
+the	496	499	O
+structure	500	509	O
+of	510	512	O
+the	513	516	O
+graph	517	522	O
+,	522	523	O
+but	524	527	O
+that	528	532	O
+are	533	536	O
+traversable	537	548	O
+by	549	551	O
+quantum	552	559	O
+walks	560	565	O
+with	566	570	O
+a	571	572	O
+polynomial	573	583	O
+number	584	590	O
+of	591	593	O
+queries	594	601	O
+to	602	604	O
+such	605	609	O
+an	610	612	O
+oracle	613	619	O
+.	619	620	O
+
+In	621	623	O
+order	624	629	O
+to	630	632	O
+study	633	638	O
+the	639	642	O
+robustness	643	653	O
+of	654	656	O
+the	657	660	O
+algorithm	661	670	O
+to	671	673	O
+the	674	677	O
+detrimental	678	689	O
+effects	690	697	O
+of	698	700	O
+decoherence	701	712	O
+,	712	713	O
+we	714	716	O
+shall	717	722	O
+determine	723	732	O
+how	733	736	O
+effectively	737	748	O
+it	749	751	O
+achieves	752	760	O
+its	761	764	O
+goal	765	769	O
+when	770	774	O
+subjected	775	784	O
+to	785	787	O
+an	788	790	O
+increasing	791	801	B-Process
+degree	802	808	I-Process
+of	809	811	I-Process
+phase	812	817	I-Process
+damping	818	825	I-Process
+noise	826	831	I-Process
+.	831	832	O
+
+For	833	836	O
+this	837	841	O
+reason	842	848	O
+,	848	849	O
+we	850	852	O
+will	853	857	O
+focus	858	863	O
+on	864	866	O
+the	867	870	O
+probability	871	882	O
+that	883	887	O
+the	888	891	O
+walker	892	898	O
+is	899	901	O
+on	902	904	O
+the	905	908	O
+target	909	915	O
+vertex	916	922	O
+at	923	925	O
+the	926	929	O
+end	930	933	O
+of	934	936	O
+the	937	940	O
+walk	941	945	O
+.	945	946	O
+
+We	947	949	O
+thus	950	954	O
+consider	955	963	O
+GT	964	966	B-Material
+graphs	967	973	I-Material
+such	974	978	O
+as	979	981	O
+the	982	985	O
+one	986	989	O
+illustrated	990	1001	O
+in	1002	1004	O
+Fig	1005	1008	O
+.	1008	1009	O
+
+1(b	1010	1013	O
+)	1013	1014	O
+,	1014	1015	O
+i.e.	1016	1020	O
+consisting	1021	1031	O
+of	1032	1034	O
+n	1035	1036	O
+layers	1037	1043	O
+before	1044	1050	O
+the	1051	1054	O
+gluing	1055	1061	B-Process
+stage	1062	1067	I-Process
+,	1067	1068	O
+and	1069	1072	O
+thus	1073	1077	O
+labelled	1078	1086	O
+as	1087	1089	O
+G′n	1090	1093	O
+.	1093	1094	O
 
 
 -DOCSTART- (S0375960115004120)
 
-Another	NN	O	O
-remarkable	NN	O	O
-feature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-quantum	NN	O	B-Task
-field	NN	O	I-Task
-treatment	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-revealed	NN	O	O
-from	NN	O	O
-the	NN	O	O
-investigation	NN	O	O
-of	NN	O	O
-the	NN	O	O
-vacuum	NN	O	B-Material
-state	NN	O	I-Material
-.	NN	O	O
-
-For	NN	O	O
-a	NN	O	O
-classical	NN	O	O
-field	NN	O	O
-,	NN	O	O
-vacuum	NN	O	B-Material
-is	NN	O	O
-realized	NN	O	O
-by	NN	O	O
-simply	NN	O	O
-setting	NN	O	O
-the	NN	O	O
-potential	NN	O	O
-to	NN	O	O
-zero	NN	O	O
-resulting	NN	O	O
-in	NN	O	O
-an	NN	O	O
-unaltered	NN	O	O
-,	NN	O	O
-free	NN	O	O
-evolution	NN	O	O
-of	NN	O	O
-the	NN	O	O
-particle	NN	O	B-Material
-'s	NN	O	I-Material
-plane	NN	O	I-Material
-wave	NN	O	I-Material
-(	NN	O	O
-|ψI〉=|ψIII〉=|k0	NN	O	O
-〉	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-quantized	NN	O	B-Task
-treatment	NN	O	I-Task
-,	NN	O	O
-vacuum	NN	O	B-Material
-is	NN	O	O
-represented	NN	O	O
-by	NN	O	O
-an	NN	O	O
-initial	NN	O	O
-Fock	NN	O	O
-state	NN	O	O
-|n0=0	NN	O	O
-〉	NN	O	O
-which	NN	O	O
-still	NN	O	O
-interacts	NN	O	O
-with	NN	O	O
-the	NN	O	O
-particle	NN	O	O
-and	NN	O	O
-yields	NN	O	O
-as	NN	O	O
-final	NN	O	O
-state	NN	O	O
-|ΨIII	NN	O	O
-〉	NN	O	O
-behind	NN	O	O
-the	NN	O	O
-field	NN	O	O
-region(19)|ΨI〉=|k0〉⊗|0〉⇒|ΨIII〉=∑n=0∞t0n|k−n〉⊗|n	NN	O	O
-〉	NN	O	O
-with	NN	O	O
-a	NN	O	O
-photon	NN	O	O
-exchange	NN	O	O
-probability(20)P0,n=|t0n|2=1n!e−Λ2Λ2n	NN	O	O
-The	NN	O	O
-particle	NN	O	O
-thus	NN	O	O
-transfers	NN	O	O
-energy	NN	O	O
-to	NN	O	O
-the	NN	O	O
-vacuum	NN	O	O
-field	NN	O	O
-leading	NN	O	O
-to	NN	O	O
-a	NN	O	O
-Poissonian	NN	O	O
-distributed	NN	O	O
-final	NN	O	O
-photon	NN	O	O
-number	NN	O	O
-.	NN	O	O
-
-Let	NN	O	O
-'s	NN	O	O
-consider	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-,	NN	O	O
-a	NN	O	O
-superconducting	NN	O	B-Material
-resonant	NN	O	I-Material
-circuit	NN	O	I-Material
-as	NN	O	O
-source	NN	O	O
-of	NN	O	O
-the	NN	O	O
-field	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-magnetic	NN	O	B-Material
-field	NN	O	I-Material
-along	NN	O	O
-the	NN	O	O
-axis	NN	O	O
-of	NN	O	O
-a	NN	O	O
-properly	NN	O	B-Material
-shaped	NN	O	I-Material
-coil	NN	O	I-Material
-is	NN	O	O
-well	NN	O	O
-approximated	NN	O	O
-by	NN	O	O
-the	NN	O	O
-rectangular	NN	O	O
-form	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-particle	NN	O	B-Material
-with	NN	O	O
-a	NN	O	O
-magnetic	NN	O	O
-dipole	NN	O	O
-moment	NN	O	O
-passing	NN	O	O
-through	NN	O	O
-the	NN	O	O
-coil	NN	O	O
-then	NN	O	O
-interacts	NN	O	O
-with	NN	O	O
-the	NN	O	O
-circuit	NN	O	O
-and	NN	O	O
-excites	NN	O	O
-it	NN	O	O
-with	NN	O	O
-a	NN	O	O
-measurable	NN	O	O
-loss	NN	O	O
-of	NN	O	O
-kinetic	NN	O	O
-energy	NN	O	O
-even	NN	O	O
-if	NN	O	O
-the	NN	O	O
-circuit	NN	O	O
-is	NN	O	O
-initially	NN	O	O
-uncharged	NN	O	O
-and	NN	O	O
-there	NN	O	O
-is	NN	O	O
-classically	NN	O	O
-no	NN	O	O
-field	NN	O	O
-it	NN	O	O
-can	NN	O	O
-couple	NN	O	O
-to	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-phenomenon	NN	O	O
-that	NN	O	O
-vacuum	NN	O	B-Material
-in	NN	O	O
-quantum	NN	O	O
-field	NN	O	O
-theory	NN	O	O
-does	NN	O	O
-not	NN	O	O
-mean	NN	O	O
-to	NN	O	O
-“	NN	O	O
-no	NN	O	O
-influence	NN	O	O
-”	NN	O	O
-as	NN	O	O
-known	NN	O	O
-from	NN	O	O
-Casimir	NN	O	B-Process
-forces	NN	O	I-Process
-or	NN	O	I-Process
-Lamb	NN	O	I-Process
-shift	NN	O	I-Process
-is	NN	O	O
-clearly	NN	O	O
-visible	NN	O	O
-here	NN	O	O
-as	NN	O	O
-well	NN	O	O
-.	NN	O	O
+Another	0	7	O
+remarkable	8	18	O
+feature	19	26	O
+of	27	29	O
+the	30	33	O
+quantum	34	41	B-Task
+field	42	47	I-Task
+treatment	48	57	I-Task
+can	58	61	O
+be	62	64	O
+revealed	65	73	O
+from	74	78	O
+the	79	82	O
+investigation	83	96	O
+of	97	99	O
+the	100	103	O
+vacuum	104	110	B-Material
+state	111	116	I-Material
+.	116	117	O
+
+For	118	121	O
+a	122	123	O
+classical	124	133	O
+field	134	139	O
+,	139	140	O
+vacuum	141	147	B-Material
+is	148	150	O
+realized	151	159	O
+by	160	162	O
+simply	163	169	O
+setting	170	177	O
+the	178	181	O
+potential	182	191	O
+to	192	194	O
+zero	195	199	O
+resulting	200	209	O
+in	210	212	O
+an	213	215	O
+unaltered	216	225	O
+,	225	226	O
+free	227	231	O
+evolution	232	241	O
+of	242	244	O
+the	245	248	O
+particle	249	257	B-Material
+'s	257	259	I-Material
+plane	260	265	I-Material
+wave	266	270	I-Material
+(	271	272	O
+|ψI〉=|ψIII〉=|k0	272	287	O
+〉	287	288	O
+)	288	289	O
+.	289	290	O
+
+In	291	293	O
+the	294	297	O
+quantized	298	307	B-Task
+treatment	308	317	I-Task
+,	317	318	O
+vacuum	319	325	B-Material
+is	326	328	O
+represented	329	340	O
+by	341	343	O
+an	344	346	O
+initial	347	354	O
+Fock	355	359	O
+state	360	365	O
+|n0=0	366	371	O
+〉	371	372	O
+which	373	378	O
+still	379	384	O
+interacts	385	394	O
+with	395	399	O
+the	400	403	O
+particle	404	412	O
+and	413	416	O
+yields	417	423	O
+as	424	426	O
+final	427	432	O
+state	433	438	O
+|ΨIII	439	444	O
+〉	444	445	O
+behind	446	452	O
+the	453	456	O
+field	457	462	O
+region(19)|ΨI〉=|k0〉⊗|0〉⇒|ΨIII〉=∑n=0∞t0n|k−n〉⊗|n	463	510	O
+〉	510	511	O
+with	512	516	O
+a	517	518	O
+photon	519	525	O
+exchange	526	534	O
+probability(20)P0,n=|t0n|2=1n!e−Λ2Λ2n	535	572	O
+The	573	576	O
+particle	577	585	O
+thus	586	590	O
+transfers	591	600	O
+energy	601	607	O
+to	608	610	O
+the	611	614	O
+vacuum	615	621	O
+field	622	627	O
+leading	628	635	O
+to	636	638	O
+a	639	640	O
+Poissonian	641	651	O
+distributed	652	663	O
+final	664	669	O
+photon	670	676	O
+number	677	683	O
+.	683	684	O
+
+Let	685	688	O
+'s	688	690	O
+consider	691	699	O
+,	699	700	O
+for	701	704	O
+example	705	712	O
+,	712	713	O
+a	714	715	O
+superconducting	716	731	B-Material
+resonant	732	740	I-Material
+circuit	741	748	I-Material
+as	749	751	O
+source	752	758	O
+of	759	761	O
+the	762	765	O
+field	766	771	O
+.	771	772	O
+
+The	773	776	O
+magnetic	777	785	B-Material
+field	786	791	I-Material
+along	792	797	O
+the	798	801	O
+axis	802	806	O
+of	807	809	O
+a	810	811	O
+properly	812	820	B-Material
+shaped	821	827	I-Material
+coil	828	832	I-Material
+is	833	835	O
+well	836	840	O
+approximated	841	853	O
+by	854	856	O
+the	857	860	O
+rectangular	861	872	O
+form	873	877	O
+.	877	878	O
+
+A	879	880	O
+particle	881	889	B-Material
+with	890	894	O
+a	895	896	O
+magnetic	897	905	O
+dipole	906	912	O
+moment	913	919	O
+passing	920	927	O
+through	928	935	O
+the	936	939	O
+coil	940	944	O
+then	945	949	O
+interacts	950	959	O
+with	960	964	O
+the	965	968	O
+circuit	969	976	O
+and	977	980	O
+excites	981	988	O
+it	989	991	O
+with	992	996	O
+a	997	998	O
+measurable	999	1009	O
+loss	1010	1014	O
+of	1015	1017	O
+kinetic	1018	1025	O
+energy	1026	1032	O
+even	1033	1037	O
+if	1038	1040	O
+the	1041	1044	O
+circuit	1045	1052	O
+is	1053	1055	O
+initially	1056	1065	O
+uncharged	1066	1075	O
+and	1076	1079	O
+there	1080	1085	O
+is	1086	1088	O
+classically	1089	1100	O
+no	1101	1103	O
+field	1104	1109	O
+it	1110	1112	O
+can	1113	1116	O
+couple	1117	1123	O
+to	1124	1126	O
+.	1126	1127	O
+
+The	1128	1131	O
+phenomenon	1132	1142	O
+that	1143	1147	O
+vacuum	1148	1154	B-Material
+in	1155	1157	O
+quantum	1158	1165	O
+field	1166	1171	O
+theory	1172	1178	O
+does	1179	1183	O
+not	1184	1187	O
+mean	1188	1192	O
+to	1193	1195	O
+“	1196	1197	O
+no	1197	1199	O
+influence	1200	1209	O
+”	1209	1210	O
+as	1211	1213	O
+known	1214	1219	O
+from	1220	1224	O
+Casimir	1225	1232	B-Process
+forces	1233	1239	I-Process
+or	1240	1242	I-Process
+Lamb	1243	1247	I-Process
+shift	1248	1253	I-Process
+is	1254	1256	O
+clearly	1257	1264	O
+visible	1265	1272	O
+here	1273	1277	O
+as	1278	1280	O
+well	1281	1285	O
+.	1285	1286	O
 
 
 -DOCSTART- (S0375960115005630)
 
-The	NN	O	O
-systems	NN	O	O
-in	NN	O	O
-which	NN	O	O
-the	NN	O	O
-Stern	NN	O	B-Process
-–	NN	O	I-Process
-Gerlach	NN	O	I-Process
-force	NN	O	I-Process
-is	NN	O	O
-most	NN	O	O
-prominent	NN	O	O
-are	NN	O	O
-those	NN	O	O
-with	NN	O	O
-a	NN	O	O
-high	NN	O	O
-electromagnetic	NN	O	B-Process
-field	NN	O	I-Process
-gradient	NN	O	I-Process
-.	NN	O	O
-
-Section	NN	O	O
-2	NN	O	O
-considers	NN	O	O
-the	NN	O	O
-implications	NN	O	O
-of	NN	O	O
-the	NN	O	O
-coupling	NN	O	O
-between	NN	O	O
-the	NN	O	O
-spin	NN	O	O
-of	NN	O	O
-a	NN	O	O
-classical	NN	O	O
-electron	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-rapidly	NN	O	O
-varying	NN	O	O
-electromagnetic	NN	O	B-Material
-field	NN	O	I-Material
-produced	NN	O	O
-by	NN	O	O
-a	NN	O	O
-laser	NN	O	B-Process
--	NN	O	I-Process
-driven	NN	O	I-Process
-plasma	NN	O	I-Process
-wave	NN	O	I-Process
-.	NN	O	O
-
-Sufficiently	NN	O	O
-short	NN	O	O
-,	NN	O	O
-high	NN	O	B-Process
--	NN	O	I-Process
-intensity	NN	O	I-Process
-laser	NN	O	I-Process
-pulses	NN	O	I-Process
-can	NN	O	O
-form	NN	O	O
-longitudinal	NN	O	B-Material
-waves	NN	O	I-Material
-within	NN	O	O
-the	NN	O	O
-electron	NN	O	O
-density	NN	O	O
-of	NN	O	O
-a	NN	O	O
-plasma	NN	O	B-Material
-.	NN	O	O
-
-These	NN	O	O
-density	NN	O	B-Material
-waves	NN	O	I-Material
-propagate	NN	O	O
-with	NN	O	O
-speed	NN	O	O
-comparable	NN	O	O
-to	NN	O	O
-the	NN	O	O
-group	NN	O	O
-speed	NN	O	O
-of	NN	O	O
-the	NN	O	O
-laser	NN	O	B-Process
-pulse	NN	O	I-Process
-.	NN	O	O
-
-Not	NN	O	O
-all	NN	O	O
-plasma	NN	O	B-Material
-electrons	NN	O	I-Material
-form	NN	O	O
-this	NN	O	O
-wave	NN	O	O
-,	NN	O	O
-however	NN	O	O
-;	NN	O	O
-some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-electrons	NN	O	B-Material
-are	NN	O	O
-caught	NN	O	O
-up	NN	O	O
-in	NN	O	O
-the	NN	O	O
-wave	NN	O	O
-and	NN	O	O
-accelerated	NN	O	O
-by	NN	O	O
-its	NN	O	O
-high	NN	O	O
-fields	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-wave	NN	O	O
-eventually	NN	O	O
-collapses	NN	O	O
-as	NN	O	O
-these	NN	O	O
-electrons	NN	O	B-Process
-damp	NN	O	I-Process
-the	NN	O	I-Process
-wave	NN	O	I-Process
-(	NN	O	O
-the	NN	O	O
-wave	NN	O	B-Process
-‘	NN	O	I-Process
-breaks’	NN	O	I-Process
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-extremely	NN	O	O
-high	NN	O	B-Material
-electric	NN	O	I-Material
-field	NN	O	I-Material
-gradient	NN	O	I-Material
-of	NN	O	I-Material
-a	NN	O	I-Material
-plasma	NN	O	I-Material
-wave	NN	O	I-Material
-near	NN	O	O
-wavebreaking	NN	O	O
-provides	NN	O	O
-an	NN	O	O
-excellent	NN	O	O
-theoretical	NN	O	O
-testing	NN	O	O
-ground	NN	O	O
-for	NN	O	O
-the	NN	O	O
-effects	NN	O	O
-of	NN	O	O
-Stern	NN	O	B-Task
-–	NN	O	I-Task
-Gerlach	NN	O	I-Task
--	NN	O	I-Task
-type	NN	O	I-Task
-contributions	NN	O	I-Task
-to	NN	O	O
-the	NN	O	O
-trajectory	NN	O	O
-of	NN	O	O
-a	NN	O	O
-test	NN	O	O
-electron	NN	O	B-Material
-.	NN	O	O
+The	0	3	O
+systems	4	11	O
+in	12	14	O
+which	15	20	O
+the	21	24	O
+Stern	25	30	B-Process
+–	30	31	I-Process
+Gerlach	31	38	I-Process
+force	39	44	I-Process
+is	45	47	O
+most	48	52	O
+prominent	53	62	O
+are	63	66	O
+those	67	72	O
+with	73	77	O
+a	78	79	O
+high	80	84	O
+electromagnetic	85	100	B-Process
+field	101	106	I-Process
+gradient	107	115	I-Process
+.	115	116	O
+
+Section	117	124	O
+2	125	126	O
+considers	127	136	O
+the	137	140	O
+implications	141	153	O
+of	154	156	O
+the	157	160	O
+coupling	161	169	O
+between	170	177	O
+the	178	181	O
+spin	182	186	O
+of	187	189	O
+a	190	191	O
+classical	192	201	O
+electron	202	210	B-Material
+and	211	214	O
+the	215	218	O
+rapidly	219	226	O
+varying	227	234	O
+electromagnetic	235	250	B-Material
+field	251	256	I-Material
+produced	257	265	O
+by	266	268	O
+a	269	270	O
+laser	271	276	B-Process
+-	276	277	I-Process
+driven	277	283	I-Process
+plasma	284	290	I-Process
+wave	291	295	I-Process
+.	295	296	O
+
+Sufficiently	297	309	O
+short	310	315	O
+,	315	316	O
+high	317	321	B-Process
+-	321	322	I-Process
+intensity	322	331	I-Process
+laser	332	337	I-Process
+pulses	338	344	I-Process
+can	345	348	O
+form	349	353	O
+longitudinal	354	366	B-Material
+waves	367	372	I-Material
+within	373	379	O
+the	380	383	O
+electron	384	392	O
+density	393	400	O
+of	401	403	O
+a	404	405	O
+plasma	406	412	B-Material
+.	412	413	O
+
+These	414	419	O
+density	420	427	B-Material
+waves	428	433	I-Material
+propagate	434	443	O
+with	444	448	O
+speed	449	454	O
+comparable	455	465	O
+to	466	468	O
+the	469	472	O
+group	473	478	O
+speed	479	484	O
+of	485	487	O
+the	488	491	O
+laser	492	497	B-Process
+pulse	498	503	I-Process
+.	503	504	O
+
+Not	505	508	O
+all	509	512	O
+plasma	513	519	B-Material
+electrons	520	529	I-Material
+form	530	534	O
+this	535	539	O
+wave	540	544	O
+,	544	545	O
+however	546	553	O
+;	553	554	O
+some	555	559	O
+of	560	562	O
+the	563	566	O
+electrons	567	576	B-Material
+are	577	580	O
+caught	581	587	O
+up	588	590	O
+in	591	593	O
+the	594	597	O
+wave	598	602	O
+and	603	606	O
+accelerated	607	618	O
+by	619	621	O
+its	622	625	O
+high	626	630	O
+fields	631	637	O
+.	637	638	O
+
+The	639	642	O
+wave	643	647	O
+eventually	648	658	O
+collapses	659	668	O
+as	669	671	O
+these	672	677	O
+electrons	678	687	B-Process
+damp	688	692	I-Process
+the	693	696	I-Process
+wave	697	701	I-Process
+(	702	703	O
+the	703	706	O
+wave	707	711	B-Process
+‘	712	713	I-Process
+breaks’	713	720	I-Process
+)	720	721	O
+.	721	722	O
+
+The	723	726	O
+extremely	727	736	O
+high	737	741	B-Material
+electric	742	750	I-Material
+field	751	756	I-Material
+gradient	757	765	I-Material
+of	766	768	I-Material
+a	769	770	I-Material
+plasma	771	777	I-Material
+wave	778	782	I-Material
+near	783	787	O
+wavebreaking	788	800	O
+provides	801	809	O
+an	810	812	O
+excellent	813	822	O
+theoretical	823	834	O
+testing	835	842	O
+ground	843	849	O
+for	850	853	O
+the	854	857	O
+effects	858	865	O
+of	866	868	O
+Stern	869	874	B-Task
+–	874	875	I-Task
+Gerlach	875	882	I-Task
+-	882	883	I-Task
+type	883	887	I-Task
+contributions	888	901	I-Task
+to	902	904	O
+the	905	908	O
+trajectory	909	919	O
+of	920	922	O
+a	923	924	O
+test	925	929	O
+electron	930	938	B-Material
+.	938	939	O
 
 
 -DOCSTART- (S0377025713001031)
 
-Flow	NN	O	O
--	NN	O	O
-induced	NN	O	O
-deformations	NN	O	O
-can	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-irreversible	NN	O	O
-changes	NN	O	O
-in	NN	O	O
-the	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-a	NN	O	O
-polymeric	NN	O	B-Material
-fluid	NN	O	I-Material
-;	NN	O	O
-if	NN	O	O
-the	NN	O	O
-rate	NN	O	O
-of	NN	O	O
-extension	NN	O	O
-far	NN	O	O
-exceeds	NN	O	O
-the	NN	O	O
-rate	NN	O	O
-of	NN	O	O
-relaxation	NN	O	O
-,	NN	O	O
-then	NN	O	O
-the	NN	O	O
-polymer	NN	O	O
-chain	NN	O	O
-can	NN	O	O
-be	NN	O	O
-broken	NN	O	O
-.	NN	O	O
-
-Mechanical	NN	O	O
-degradation	NN	O	O
-of	NN	O	O
-polymers	NN	O	B-Material
-in	NN	O	O
-extensional	NN	O	O
-flow	NN	O	O
-has	NN	O	O
-long	NN	O	O
-been	NN	O	O
-recognised	NN	O	O
-[	NN	O	O
-30	NN	O	O
-]	NN	O	O
-and	NN	O	O
-leads	NN	O	O
-to	NN	O	O
-a	NN	O	O
-reduction	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-average	NN	O	I-Process
-molecular	NN	O	I-Process
-weight	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
--	NN	O	O
-Alamry	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-have	NN	O	O
-recently	NN	O	O
-reported	NN	O	O
-evidence	NN	O	O
-of	NN	O	O
-flow	NN	O	O
--	NN	O	O
-induced	NN	O	O
-polymer	NN	O	O
-degradation	NN	O	O
-in	NN	O	O
-DoD	NN	O	B-Process
-jetting	NN	O	I-Process
-.	NN	O	O
-
-Central	NN	O	B-Task
-scission	NN	O	I-Task
-is	NN	O	O
-observed	NN	O	O
-for	NN	O	O
-polystyrene	NN	O	B-Material
-in	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-good	NN	O	O
-solvents	NN	O	O
-under	NN	O	O
-certain	NN	O	O
-jetting	NN	O	O
-conditions	NN	O	O
-for	NN	O	O
-a	NN	O	O
-bounded	NN	O	O
-range	NN	O	O
-of	NN	O	O
-molecular	NN	O	O
-weights	NN	O	O
-.	NN	O	O
-
-Since	NN	O	O
-only	NN	O	O
-those	NN	O	O
-molecules	NN	O	O
-that	NN	O	O
-are	NN	O	O
-fully	NN	O	O
-extended	NN	O	O
-can	NN	O	O
-be	NN	O	O
-fractured	NN	O	O
-at	NN	O	O
-the	NN	O	O
-centre	NN	O	O
-of	NN	O	O
-the	NN	O	O
-polymer	NN	O	O
-chain	NN	O	O
-[	NN	O	O
-29	NN	O	O
-]	NN	O	O
-,	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-we	NN	O	O
-investigate	NN	O	O
-whether	NN	O	O
-flow	NN	O	B-Task
--	NN	O	I-Task
-induced	NN	O	I-Task
-central	NN	O	I-Task
-scission	NN	O	I-Task
-is	NN	O	O
-possible	NN	O	O
-under	NN	O	O
-the	NN	O	O
-conditions	NN	O	O
-of	NN	O	O
-DoD	NN	O	B-Process
-jetting	NN	O	I-Process
-.	NN	O	O
+Flow	0	4	O
+-	4	5	O
+induced	5	12	O
+deformations	13	25	O
+can	26	29	O
+lead	30	34	O
+to	35	37	O
+irreversible	38	50	O
+changes	51	58	O
+in	59	61	O
+the	62	65	O
+structure	66	75	O
+of	76	78	O
+a	79	80	O
+polymeric	81	90	B-Material
+fluid	91	96	I-Material
+;	96	97	O
+if	98	100	O
+the	101	104	O
+rate	105	109	O
+of	110	112	O
+extension	113	122	O
+far	123	126	O
+exceeds	127	134	O
+the	135	138	O
+rate	139	143	O
+of	144	146	O
+relaxation	147	157	O
+,	157	158	O
+then	159	163	O
+the	164	167	O
+polymer	168	175	O
+chain	176	181	O
+can	182	185	O
+be	186	188	O
+broken	189	195	O
+.	195	196	O
+
+Mechanical	197	207	O
+degradation	208	219	O
+of	220	222	O
+polymers	223	231	B-Material
+in	232	234	O
+extensional	235	246	O
+flow	247	251	O
+has	252	255	O
+long	256	260	O
+been	261	265	O
+recognised	266	276	O
+[	277	278	O
+30	278	280	O
+]	280	281	O
+and	282	285	O
+leads	286	291	O
+to	292	294	O
+a	295	296	O
+reduction	297	306	B-Process
+in	307	309	I-Process
+the	310	313	I-Process
+average	314	321	I-Process
+molecular	322	331	I-Process
+weight	332	338	I-Process
+.	338	339	O
+
+A	340	341	O
+-	341	342	O
+Alamry	342	348	O
+et	349	351	O
+al	352	354	O
+.	354	355	O
+
+[	356	357	O
+1	357	358	O
+]	358	359	O
+have	360	364	O
+recently	365	373	O
+reported	374	382	O
+evidence	383	391	O
+of	392	394	O
+flow	395	399	O
+-	399	400	O
+induced	400	407	O
+polymer	408	415	O
+degradation	416	427	O
+in	428	430	O
+DoD	431	434	B-Process
+jetting	435	442	I-Process
+.	442	443	O
+
+Central	444	451	B-Task
+scission	452	460	I-Task
+is	461	463	O
+observed	464	472	O
+for	473	476	O
+polystyrene	477	488	B-Material
+in	489	491	O
+a	492	493	O
+number	494	500	O
+of	501	503	O
+good	504	508	O
+solvents	509	517	O
+under	518	523	O
+certain	524	531	O
+jetting	532	539	O
+conditions	540	550	O
+for	551	554	O
+a	555	556	O
+bounded	557	564	O
+range	565	570	O
+of	571	573	O
+molecular	574	583	O
+weights	584	591	O
+.	591	592	O
+
+Since	593	598	O
+only	599	603	O
+those	604	609	O
+molecules	610	619	O
+that	620	624	O
+are	625	628	O
+fully	629	634	O
+extended	635	643	O
+can	644	647	O
+be	648	650	O
+fractured	651	660	O
+at	661	663	O
+the	664	667	O
+centre	668	674	O
+of	675	677	O
+the	678	681	O
+polymer	682	689	O
+chain	690	695	O
+[	696	697	O
+29	697	699	O
+]	699	700	O
+,	700	701	O
+in	702	704	O
+this	705	709	O
+paper	710	715	O
+we	716	718	O
+investigate	719	730	O
+whether	731	738	O
+flow	739	743	B-Task
+-	743	744	I-Task
+induced	744	751	I-Task
+central	752	759	I-Task
+scission	760	768	I-Task
+is	769	771	O
+possible	772	780	O
+under	781	786	O
+the	787	790	O
+conditions	791	801	O
+of	802	804	O
+DoD	805	808	B-Process
+jetting	809	816	I-Process
+.	816	817	O
 
 
 -DOCSTART- (S0377025714000135)
 
-This	NN	O	O
-conclusion	NN	O	O
-is	NN	O	O
-a	NN	O	O
-consequence	NN	O	O
-of	NN	O	O
-the	NN	O	O
-high	NN	O	O
-jet	NN	O	O
-speeds	NN	O	O
-and	NN	O	O
-small	NN	O	O
-nozzle	NN	O	O
-diameters	NN	O	O
-in	NN	O	O
-combination	NN	O	O
-with	NN	O	O
-the	NN	O	O
-relatively	NN	O	O
-high	NN	O	O
-viscosity	NN	O	O
-solvent	NN	O	O
-and	NN	O	O
-modest	NN	O	O
-molecular	NN	O	O
-weights	NN	O	O
-of	NN	O	O
-the	NN	O	O
-polystyrene	NN	O	B-Material
-,	NN	O	O
-which	NN	O	O
-results	NN	O	O
-in	NN	O	O
-high	NN	O	O
-Weissenberg	NN	O	O
-numbers	NN	O	O
-and	NN	O	O
-moderate	NN	O	O
-values	NN	O	O
-of	NN	O	O
-the	NN	O	O
-extensibility	NN	O	O
-,	NN	O	O
-L	NN	O	O
-studied	NN	O	O
-here	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-discussed	NN	O	O
-in	NN	O	O
-earlier	NN	O	O
-papers	NN	O	O
-[	NN	O	O
-3,6	NN	O	O
-]	NN	O	O
-,	NN	O	O
-other	NN	O	O
-jetting	NN	O	B-Process
-fluid	NN	O	I-Process
-combinations	NN	O	I-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-those	NN	O	O
-of	NN	O	O
-de	NN	O	O
-Gans	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-,	NN	O	O
-lie	NN	O	O
-in	NN	O	O
-a	NN	O	O
-different	NN	O	O
-jetting	NN	O	O
-regime	NN	O	O
-where	NN	O	O
-full	NN	O	O
-extension	NN	O	O
-does	NN	O	O
-not	NN	O	O
-occur	NN	O	O
-and	NN	O	O
-relaxation	NN	O	O
-time	NN	O	O
-controls	NN	O	O
-the	NN	O	O
-viscoelastic	NN	O	O
-behaviour	NN	O	O
-.	NN	O	O
-
-Consequently	NN	O	O
-inkjet	NN	O	B-Process
-fluid	NN	O	I-Process
-assessment	NN	O	I-Process
-methods	NN	O	I-Process
-need	NN	O	O
-to	NN	O	O
-provide	NN	O	B-Task
-a	NN	O	I-Task
-full	NN	O	I-Task
-characterisation	NN	O	I-Task
-including	NN	O	I-Task
-both	NN	O	I-Task
-linear	NN	O	I-Task
-and	NN	O	I-Task
-nonlinear	NN	O	I-Task
-viscoelastic	NN	O	I-Task
-properties	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-complexity	NN	O	O
-suggests	NN	O	O
-assessments	NN	O	O
-of	NN	O	O
-inkjet	NN	O	B-Material
-fluids	NN	O	I-Material
-might	NN	O	O
-have	NN	O	O
-to	NN	O	O
-include	NN	O	O
-jetting	NN	O	O
-from	NN	O	O
-sets	NN	O	O
-of	NN	O	O
-DoD	NN	O	B-Process
-print	NN	O	I-Process
-head	NN	O	I-Process
-devices	NN	O	I-Process
-with	NN	O	O
-different	NN	O	O
-sensitivities	NN	O	O
-to	NN	O	O
-all	NN	O	O
-the	NN	O	O
-various	NN	O	O
-VE	NN	O	O
-parameters	NN	O	O
-[	NN	O	O
-37	NN	O	O
-]	NN	O	O
-,	NN	O	O
-rather	NN	O	O
-than	NN	O	O
-reliance	NN	O	O
-on	NN	O	O
-testing	NN	O	O
-without	NN	O	O
-jetting	NN	O	B-Process
-.	NN	O	O
-
-This	NN	O	O
-was	NN	O	O
-not	NN	O	O
-the	NN	O	O
-expected	NN	O	O
-outcome	NN	O	O
-from	NN	O	O
-the	NN	O	O
-present	NN	O	O
-work	NN	O	O
-but	NN	O	O
-does	NN	O	O
-echo	NN	O	O
-the	NN	O	O
-very	NN	O	O
-pragmatic	NN	O	O
-viewpoint	NN	O	O
-expressed	NN	O	O
-as	NN	O	O
-a	NN	O	O
-“	NN	O	B-Process
-map	NN	O	I-Process
-of	NN	O	I-Process
-misery	NN	O	I-Process
-”	NN	O	I-Process
-by	NN	O	O
-Clasen	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-[	NN	O	O
-38	NN	O	O
-]	NN	O	O
-and	NN	O	O
-may	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-way	NN	O	O
-forward	NN	O	O
-for	NN	O	O
-future	NN	O	O
-R&D	NN	O	O
-strategies	NN	O	O
-towards	NN	O	O
-ink	NN	O	B-Task
-testing	NN	O	I-Task
-.	NN	O	O
+This	0	4	O
+conclusion	5	15	O
+is	16	18	O
+a	19	20	O
+consequence	21	32	O
+of	33	35	O
+the	36	39	O
+high	40	44	O
+jet	45	48	O
+speeds	49	55	O
+and	56	59	O
+small	60	65	O
+nozzle	66	72	O
+diameters	73	82	O
+in	83	85	O
+combination	86	97	O
+with	98	102	O
+the	103	106	O
+relatively	107	117	O
+high	118	122	O
+viscosity	123	132	O
+solvent	133	140	O
+and	141	144	O
+modest	145	151	O
+molecular	152	161	O
+weights	162	169	O
+of	170	172	O
+the	173	176	O
+polystyrene	177	188	B-Material
+,	188	189	O
+which	190	195	O
+results	196	203	O
+in	204	206	O
+high	207	211	O
+Weissenberg	212	223	O
+numbers	224	231	O
+and	232	235	O
+moderate	236	244	O
+values	245	251	O
+of	252	254	O
+the	255	258	O
+extensibility	259	272	O
+,	272	273	O
+L	274	275	O
+studied	276	283	O
+here	284	288	O
+.	288	289	O
+
+As	290	292	O
+discussed	293	302	O
+in	303	305	O
+earlier	306	313	O
+papers	314	320	O
+[	321	322	O
+3,6	322	325	O
+]	325	326	O
+,	326	327	O
+other	328	333	O
+jetting	334	341	B-Process
+fluid	342	347	I-Process
+combinations	348	360	I-Process
+,	360	361	O
+such	362	366	O
+as	367	369	O
+those	370	375	O
+of	376	378	O
+de	379	381	O
+Gans	382	386	O
+et	387	389	O
+al	390	392	O
+.	392	393	O
+
+[	394	395	O
+4	395	396	O
+]	396	397	O
+,	397	398	O
+lie	399	402	O
+in	403	405	O
+a	406	407	O
+different	408	417	O
+jetting	418	425	O
+regime	426	432	O
+where	433	438	O
+full	439	443	O
+extension	444	453	O
+does	454	458	O
+not	459	462	O
+occur	463	468	O
+and	469	472	O
+relaxation	473	483	O
+time	484	488	O
+controls	489	497	O
+the	498	501	O
+viscoelastic	502	514	O
+behaviour	515	524	O
+.	524	525	O
+
+Consequently	526	538	O
+inkjet	539	545	B-Process
+fluid	546	551	I-Process
+assessment	552	562	I-Process
+methods	563	570	I-Process
+need	571	575	O
+to	576	578	O
+provide	579	586	B-Task
+a	587	588	I-Task
+full	589	593	I-Task
+characterisation	594	610	I-Task
+including	611	620	I-Task
+both	621	625	I-Task
+linear	626	632	I-Task
+and	633	636	I-Task
+nonlinear	637	646	I-Task
+viscoelastic	647	659	I-Task
+properties	660	670	I-Task
+.	670	671	O
+
+This	672	676	O
+complexity	677	687	O
+suggests	688	696	O
+assessments	697	708	O
+of	709	711	O
+inkjet	712	718	B-Material
+fluids	719	725	I-Material
+might	726	731	O
+have	732	736	O
+to	737	739	O
+include	740	747	O
+jetting	748	755	O
+from	756	760	O
+sets	761	765	O
+of	766	768	O
+DoD	769	772	B-Process
+print	773	778	I-Process
+head	779	783	I-Process
+devices	784	791	I-Process
+with	792	796	O
+different	797	806	O
+sensitivities	807	820	O
+to	821	823	O
+all	824	827	O
+the	828	831	O
+various	832	839	O
+VE	840	842	O
+parameters	843	853	O
+[	854	855	O
+37	855	857	O
+]	857	858	O
+,	858	859	O
+rather	860	866	O
+than	867	871	O
+reliance	872	880	O
+on	881	883	O
+testing	884	891	O
+without	892	899	O
+jetting	900	907	B-Process
+.	907	908	O
+
+This	909	913	O
+was	914	917	O
+not	918	921	O
+the	922	925	O
+expected	926	934	O
+outcome	935	942	O
+from	943	947	O
+the	948	951	O
+present	952	959	O
+work	960	964	O
+but	965	968	O
+does	969	973	O
+echo	974	978	O
+the	979	982	O
+very	983	987	O
+pragmatic	988	997	O
+viewpoint	998	1007	O
+expressed	1008	1017	O
+as	1018	1020	O
+a	1021	1022	O
+“	1023	1024	B-Process
+map	1024	1027	I-Process
+of	1028	1030	I-Process
+misery	1031	1037	I-Process
+”	1037	1038	I-Process
+by	1039	1041	O
+Clasen	1042	1048	O
+et	1049	1051	O
+al	1052	1054	O
+.	1054	1055	O
+
+[	1056	1057	O
+38	1057	1059	O
+]	1059	1060	O
+and	1061	1064	O
+may	1065	1068	O
+provide	1069	1076	O
+a	1077	1078	O
+way	1079	1082	O
+forward	1083	1090	O
+for	1091	1094	O
+future	1095	1101	O
+R&D	1102	1105	O
+strategies	1106	1116	O
+towards	1117	1124	O
+ink	1125	1128	B-Task
+testing	1129	1136	I-Task
+.	1136	1137	O
 
 
 -DOCSTART- (S0377025714000317)
 
-Denier	NN	O	O
-and	NN	O	O
-Hewitt	NN	O	O
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-have	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-bounded	NN	O	O
-solutions	NN	O	O
-to	NN	O	O
-9a	NN	O	O
-,	NN	O	O
-9b	NN	O	O
-and	NN	O	O
-9c	NN	O	O
-subject	NN	O	O
-to	NN	O	O
-(	NN	O	O
-10a	NN	O	O
-)	NN	O	O
-and	NN	O	O
-(	NN	O	O
-10b	NN	O	O
-)	NN	O	O
-exist	NN	O	O
-only	NN	O	O
-in	NN	O	O
-the	NN	O	O
-shear	NN	O	O
--	NN	O	O
-thinning	NN	O	O
-case	NN	O	O
-for	NN	O	O
-n>12	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-shear	NN	O	B-Process
--	NN	O	I-Process
-thickening	NN	O	I-Process
-case	NN	O	O
-they	NN	O	O
-have	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-solutions	NN	O	B-Material
-become	NN	O	O
-non	NN	O	O
--	NN	O	O
-differentiable	NN	O	O
-at	NN	O	O
-some	NN	O	O
-critical	NN	O	O
-location	NN	O	O
-ηc	NN	O	O
-,	NN	O	O
-and	NN	O	O
-although	NN	O	O
-it	NN	O	O
-transpires	NN	O	O
-that	NN	O	O
-this	NN	O	O
-singularity	NN	O	B-Process
-can	NN	O	O
-be	NN	O	O
-regularised	NN	O	O
-entirely	NN	O	O
-within	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-the	NN	O	O
-power	NN	O	B-Process
--	NN	O	I-Process
-law	NN	O	I-Process
-model	NN	O	I-Process
-,	NN	O	O
-we	NN	O	O
-will	NN	O	O
-not	NN	O	O
-consider	NN	O	O
-such	NN	O	O
-flows	NN	O	B-Material
-here	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-in	NN	O	O
-this	NN	O	O
-study	NN	O	O
-we	NN	O	O
-will	NN	O	O
-consider	NN	O	O
-flows	NN	O	B-Material
-with	NN	O	O
-power	NN	O	O
--	NN	O	O
-law	NN	O	O
-index	NN	O	O
-in	NN	O	O
-the	NN	O	O
-range	NN	O	O
-12<n⩽1	NN	O	O
-.	NN	O	O
-
-They	NN	O	O
-have	NN	O	O
-also	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-for	NN	O	O
-12<n<1	NN	O	O
-to	NN	O	O
-ensure	NN	O	O
-the	NN	O	O
-correct	NN	O	B-Process
-algebraic	NN	O	I-Process
-decay	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-numerical	NN	O	O
-solutions	NN	O	O
-one	NN	O	O
-must	NN	O	O
-apply	NN	O	O
-the	NN	O	O
-Robin	NN	O	B-Process
-condition(11)(u¯′,v¯′)=nη(n-1)(u¯,v¯)asη→∞,at	NN	O	I-Process
-some	NN	O	O
-suitably	NN	O	O
-large	NN	O	O
-value	NN	O	O
-of	NN	O	O
-η=η∞≫1	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-Newtonian	NN	O	O
-case	NN	O	O
-this	NN	O	O
-relationship	NN	O	O
-becomes	NN	O	O
-singular	NN	O	O
-,	NN	O	O
-this	NN	O	O
-is	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-when	NN	O	O
-n=1	NN	O	O
-the	NN	O	O
-functions	NN	O	O
-u¯	NN	O	O
-and	NN	O	O
-v¯	NN	O	O
-decay	NN	O	O
-exponentially	NN	O	O
-.	NN	O	O
-
-Cochran	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-in	NN	O	O
-this	NN	O	O
-case(12)(u¯′,v¯′)=w¯∞(u¯,v¯)asη→∞,where	NN	O	O
-w∞=-2∫0∞u¯dη.	NN	O	O
+Denier	0	6	O
+and	7	10	O
+Hewitt	11	17	O
+[	18	19	O
+12	19	21	O
+]	21	22	O
+have	23	27	O
+shown	28	33	O
+that	34	38	O
+bounded	39	46	O
+solutions	47	56	O
+to	57	59	O
+9a	60	62	O
+,	62	63	O
+9b	64	66	O
+and	67	70	O
+9c	71	73	O
+subject	74	81	O
+to	82	84	O
+(	85	86	O
+10a	86	89	O
+)	89	90	O
+and	91	94	O
+(	95	96	O
+10b	96	99	O
+)	99	100	O
+exist	101	106	O
+only	107	111	O
+in	112	114	O
+the	115	118	O
+shear	119	124	O
+-	124	125	O
+thinning	125	133	O
+case	134	138	O
+for	139	142	O
+n>12	143	147	O
+.	147	148	O
+
+In	149	151	O
+the	152	155	O
+shear	156	161	B-Process
+-	161	162	I-Process
+thickening	162	172	I-Process
+case	173	177	O
+they	178	182	O
+have	183	187	O
+shown	188	193	O
+that	194	198	O
+solutions	199	208	B-Material
+become	209	215	O
+non	216	219	O
+-	219	220	O
+differentiable	220	234	O
+at	235	237	O
+some	238	242	O
+critical	243	251	O
+location	252	260	O
+ηc	261	263	O
+,	263	264	O
+and	265	268	O
+although	269	277	O
+it	278	280	O
+transpires	281	291	O
+that	292	296	O
+this	297	301	O
+singularity	302	313	B-Process
+can	314	317	O
+be	318	320	O
+regularised	321	332	O
+entirely	333	341	O
+within	342	348	O
+the	349	352	O
+context	353	360	O
+of	361	363	O
+the	364	367	O
+power	368	373	B-Process
+-	373	374	I-Process
+law	374	377	I-Process
+model	378	383	I-Process
+,	383	384	O
+we	385	387	O
+will	388	392	O
+not	393	396	O
+consider	397	405	O
+such	406	410	O
+flows	411	416	B-Material
+here	417	421	O
+.	421	422	O
+
+Thus	423	427	O
+in	428	430	O
+this	431	435	O
+study	436	441	O
+we	442	444	O
+will	445	449	O
+consider	450	458	O
+flows	459	464	B-Material
+with	465	469	O
+power	470	475	O
+-	475	476	O
+law	476	479	O
+index	480	485	O
+in	486	488	O
+the	489	492	O
+range	493	498	O
+12<n⩽1	499	505	O
+.	505	506	O
+
+They	507	511	O
+have	512	516	O
+also	517	521	O
+shown	522	527	O
+that	528	532	O
+for	533	536	O
+12<n<1	537	543	O
+to	544	546	O
+ensure	547	553	O
+the	554	557	O
+correct	558	565	B-Process
+algebraic	566	575	I-Process
+decay	576	581	I-Process
+in	582	584	O
+the	585	588	O
+numerical	589	598	O
+solutions	599	608	O
+one	609	612	O
+must	613	617	O
+apply	618	623	O
+the	624	627	O
+Robin	628	633	B-Process
+condition(11)(u¯′,v¯′)=nη(n-1)(u¯,v¯)asη→∞,at	634	679	I-Process
+some	680	684	O
+suitably	685	693	O
+large	694	699	O
+value	700	705	O
+of	706	708	O
+η=η∞≫1	709	715	O
+.	715	716	O
+
+In	717	719	O
+the	720	723	O
+Newtonian	724	733	O
+case	734	738	O
+this	739	743	O
+relationship	744	756	O
+becomes	757	764	O
+singular	765	773	O
+,	773	774	O
+this	775	779	O
+is	780	782	O
+due	783	786	O
+to	787	789	O
+the	790	793	O
+fact	794	798	O
+that	799	803	O
+when	804	808	O
+n=1	809	812	O
+the	813	816	O
+functions	817	826	O
+u¯	827	829	O
+and	830	833	O
+v¯	834	836	O
+decay	837	842	O
+exponentially	843	856	O
+.	856	857	O
+
+Cochran	858	865	O
+[	866	867	O
+13	867	869	O
+]	869	870	O
+showed	871	877	O
+that	878	882	O
+in	883	885	O
+this	886	890	O
+case(12)(u¯′,v¯′)=w¯∞(u¯,v¯)asη→∞,where	891	930	O
+w∞=-2∫0∞u¯dη.	931	944	O
 
 
 -DOCSTART- (S0377025714001682)
 
-In	NN	O	O
-order	NN	O	O
-for	NN	O	O
-DLS	NN	O	B-Task
-based	NN	O	I-Task
-micro	NN	O	I-Task
--	NN	O	I-Task
-rheology	NN	O	I-Task
-to	NN	O	O
-be	NN	O	O
-successful	NN	O	O
-,	NN	O	O
-there	NN	O	O
-must	NN	O	O
-be	NN	O	O
-sufficient	NN	O	O
-scattering	NN	O	O
-contrast	NN	O	O
-between	NN	O	O
-the	NN	O	O
-sample	NN	O	B-Material
-and	NN	O	I-Material
-the	NN	O	I-Material
-tracer	NN	O	I-Material
-particles	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-achieve	NN	O	O
-this	NN	O	O
-,	NN	O	O
-the	NN	O	O
-maximum	NN	O	O
-possible	NN	O	O
-concentration	NN	O	O
-of	NN	O	O
-tracer	NN	O	B-Material
-particles	NN	O	I-Material
-was	NN	O	O
-added	NN	O	O
-such	NN	O	O
-that	NN	O	O
-single	NN	O	O
-scattering	NN	O	O
-events	NN	O	O
-still	NN	O	O
-dominated	NN	O	O
-(	NN	O	O
-as	NN	O	O
-determined	NN	O	O
-by	NN	O	O
-measurements	NN	O	O
-of	NN	O	O
-diffusion	NN	O	O
-coefficients	NN	O	O
-in	NN	O	O
-water	NN	O	B-Material
-at	NN	O	O
-different	NN	O	O
-concentrations	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-determine	NN	O	O
-whether	NN	O	O
-or	NN	O	O
-not	NN	O	O
-the	NN	O	O
-background	NN	O	O
-scattering	NN	O	O
-from	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-was	NN	O	O
-sufficiently	NN	O	O
-low	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-that	NN	O	O
-of	NN	O	O
-the	NN	O	O
-tracer	NN	O	B-Material
-particles	NN	O	I-Material
-,	NN	O	O
-we	NN	O	O
-also	NN	O	O
-compared	NN	O	O
-the	NN	O	O
-scattering	NN	O	B-Material
-intensities	NN	O	I-Material
-obtained	NN	O	O
-from	NN	O	O
-samples	NN	O	O
-with	NN	O	O
-and	NN	O	O
-without	NN	O	O
-tracer	NN	O	B-Material
-particles	NN	O	I-Material
-as	NN	O	O
-a	NN	O	O
-function	NN	O	O
-of	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-of	NN	O	O
-this	NN	O	O
-exercise	NN	O	O
-are	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-6	NN	O	O
-.	NN	O	O
-
-From	NN	O	O
-this	NN	O	O
-figure	NN	O	O
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-seen	NN	O	O
-that	NN	O	O
-although	NN	O	O
-initially	NN	O	O
-the	NN	O	O
-scattering	NN	O	B-Process
-from	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-without	NN	O	O
-tracer	NN	O	B-Material
-particles	NN	O	I-Material
-is	NN	O	O
-low	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-those	NN	O	O
-containing	NN	O	O
-tracer	NN	O	B-Material
-particles	NN	O	I-Material
-,	NN	O	O
-as	NN	O	O
-gelation	NN	O	B-Material
-proceeds	NN	O	O
-this	NN	O	O
-eventually	NN	O	O
-ceases	NN	O	O
-to	NN	O	O
-be	NN	O	O
-the	NN	O	O
-case	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-presumably	NN	O	O
-because	NN	O	O
-of	NN	O	O
-the	NN	O	O
-development	NN	O	O
-of	NN	O	O
-supra	NN	O	B-Material
--	NN	O	I-Material
-molecular	NN	O	I-Material
-structures	NN	O	I-Material
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-those	NN	O	O
-seen	NN	O	O
-previously	NN	O	O
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-2B	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-results	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-6	NN	O	O
-it	NN	O	O
-was	NN	O	O
-decided	NN	O	O
-to	NN	O	O
-only	NN	O	O
-use	NN	O	O
-data	NN	O	O
-collected	NN	O	O
-in	NN	O	O
-the	NN	O	O
-first	NN	O	O
-240min	NN	O	O
-of	NN	O	O
-the	NN	O	O
-experiment	NN	O	O
-,	NN	O	O
-after	NN	O	O
-which	NN	O	O
-point	NN	O	O
-the	NN	O	O
-scattering	NN	O	B-Material
-from	NN	O	I-Material
-the	NN	O	I-Material
-gel	NN	O	I-Material
-network	NN	O	I-Material
-became	NN	O	O
-rather	NN	O	O
-too	NN	O	O
-large	NN	O	O
-to	NN	O	O
-ignore	NN	O	O
-.	NN	O	O
+In	0	2	O
+order	3	8	O
+for	9	12	O
+DLS	13	16	B-Task
+based	17	22	I-Task
+micro	23	28	I-Task
+-	28	29	I-Task
+rheology	29	37	I-Task
+to	38	40	O
+be	41	43	O
+successful	44	54	O
+,	54	55	O
+there	56	61	O
+must	62	66	O
+be	67	69	O
+sufficient	70	80	O
+scattering	81	91	O
+contrast	92	100	O
+between	101	108	O
+the	109	112	O
+sample	113	119	B-Material
+and	120	123	I-Material
+the	124	127	I-Material
+tracer	128	134	I-Material
+particles	135	144	I-Material
+.	144	145	O
+
+In	146	148	O
+order	149	154	O
+to	155	157	O
+achieve	158	165	O
+this	166	170	O
+,	170	171	O
+the	172	175	O
+maximum	176	183	O
+possible	184	192	O
+concentration	193	206	O
+of	207	209	O
+tracer	210	216	B-Material
+particles	217	226	I-Material
+was	227	230	O
+added	231	236	O
+such	237	241	O
+that	242	246	O
+single	247	253	O
+scattering	254	264	O
+events	265	271	O
+still	272	277	O
+dominated	278	287	O
+(	288	289	O
+as	289	291	O
+determined	292	302	O
+by	303	305	O
+measurements	306	318	O
+of	319	321	O
+diffusion	322	331	O
+coefficients	332	344	O
+in	345	347	O
+water	348	353	B-Material
+at	354	356	O
+different	357	366	O
+concentrations	367	381	O
+)	381	382	O
+.	382	383	O
+
+In	384	386	O
+order	387	392	O
+to	393	395	O
+determine	396	405	O
+whether	406	413	O
+or	414	416	O
+not	417	420	O
+the	421	424	O
+background	425	435	O
+scattering	436	446	O
+from	447	451	O
+the	452	455	O
+sample	456	462	O
+was	463	466	O
+sufficiently	467	479	O
+low	480	483	O
+compared	484	492	O
+to	493	495	O
+that	496	500	O
+of	501	503	O
+the	504	507	O
+tracer	508	514	B-Material
+particles	515	524	I-Material
+,	524	525	O
+we	526	528	O
+also	529	533	O
+compared	534	542	O
+the	543	546	O
+scattering	547	557	B-Material
+intensities	558	569	I-Material
+obtained	570	578	O
+from	579	583	O
+samples	584	591	O
+with	592	596	O
+and	597	600	O
+without	601	608	O
+tracer	609	615	B-Material
+particles	616	625	I-Material
+as	626	628	O
+a	629	630	O
+function	631	639	O
+of	640	642	O
+time	643	647	O
+.	647	648	O
+
+The	649	652	O
+results	653	660	O
+of	661	663	O
+this	664	668	O
+exercise	669	677	O
+are	678	681	O
+shown	682	687	O
+in	688	690	O
+Fig	691	694	O
+.	694	695	O
+
+6	696	697	O
+.	697	698	O
+
+From	699	703	O
+this	704	708	O
+figure	709	715	O
+it	716	718	O
+can	719	722	O
+be	723	725	O
+seen	726	730	O
+that	731	735	O
+although	736	744	O
+initially	745	754	O
+the	755	758	O
+scattering	759	769	B-Process
+from	770	774	O
+the	775	778	O
+sample	779	785	O
+without	786	793	O
+tracer	794	800	B-Material
+particles	801	810	I-Material
+is	811	813	O
+low	814	817	O
+compared	818	826	O
+to	827	829	O
+those	830	835	O
+containing	836	846	O
+tracer	847	853	B-Material
+particles	854	863	I-Material
+,	863	864	O
+as	865	867	O
+gelation	868	876	B-Material
+proceeds	877	885	O
+this	886	890	O
+eventually	891	901	O
+ceases	902	908	O
+to	909	911	O
+be	912	914	O
+the	915	918	O
+case	919	923	O
+.	923	924	O
+
+This	925	929	O
+is	930	932	O
+presumably	933	943	O
+because	944	951	O
+of	952	954	O
+the	955	958	O
+development	959	970	O
+of	971	973	O
+supra	974	979	B-Material
+-	979	980	I-Material
+molecular	980	989	I-Material
+structures	990	1000	I-Material
+,	1000	1001	O
+such	1002	1006	O
+as	1007	1009	O
+those	1010	1015	O
+seen	1016	1020	O
+previously	1021	1031	O
+(	1032	1033	O
+Fig	1033	1036	O
+.	1036	1037	O
+
+2B	1038	1040	O
+)	1040	1041	O
+.	1041	1042	O
+
+Based	1043	1048	O
+on	1049	1051	O
+the	1052	1055	O
+results	1056	1063	O
+in	1064	1066	O
+Fig	1067	1070	O
+.	1070	1071	O
+
+6	1072	1073	O
+it	1074	1076	O
+was	1077	1080	O
+decided	1081	1088	O
+to	1089	1091	O
+only	1092	1096	O
+use	1097	1100	O
+data	1101	1105	O
+collected	1106	1115	O
+in	1116	1118	O
+the	1119	1122	O
+first	1123	1128	O
+240min	1129	1135	O
+of	1136	1138	O
+the	1139	1142	O
+experiment	1143	1153	O
+,	1153	1154	O
+after	1155	1160	O
+which	1161	1166	O
+point	1167	1172	O
+the	1173	1176	O
+scattering	1177	1187	B-Material
+from	1188	1192	I-Material
+the	1193	1196	I-Material
+gel	1197	1200	I-Material
+network	1201	1208	I-Material
+became	1209	1215	O
+rather	1216	1222	O
+too	1223	1226	O
+large	1227	1232	O
+to	1233	1235	O
+ignore	1236	1242	O
+.	1242	1243	O
 
 
 -DOCSTART- (S0377025714001931)
 
-Tack	NN	O	B-Material
-is	NN	O	O
-an	NN	O	O
-important	NN	O	O
-property	NN	O	O
-of	NN	O	O
-a	NN	O	O
-PSA	NN	O	B-Material
-as	NN	O	O
-it	NN	O	O
-quantifies	NN	O	O
-its	NN	O	O
-ability	NN	O	O
-to	NN	O	O
-form	NN	O	O
-instantly	NN	O	O
-a	NN	O	O
-bond	NN	O	O
-when	NN	O	O
-brought	NN	O	O
-into	NN	O	O
-contact	NN	O	O
-with	NN	O	O
-a	NN	O	O
-surface	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-final	NN	O	O
-adhesion	NN	O	O
-and	NN	O	O
-cohesive	NN	O	O
-strength	NN	O	O
-of	NN	O	O
-the	NN	O	O
-bond	NN	O	O
-are	NN	O	O
-influenced	NN	O	O
-by	NN	O	O
-numerous	NN	O	O
-factors	NN	O	O
-including	NN	O	O
-the	NN	O	O
-surface	NN	O	O
-energies	NN	O	O
-of	NN	O	O
-the	NN	O	O
-adhesive	NN	O	B-Material
-and	NN	O	O
-substrate	NN	O	B-Material
-,	NN	O	O
-dwell	NN	O	O
-time	NN	O	O
-,	NN	O	O
-contact	NN	O	O
-pressure	NN	O	O
-,	NN	O	O
-mechanical	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-the	NN	O	O
-adhesive	NN	O	B-Material
-,	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-environmental	NN	O	O
-conditions	NN	O	O
-such	NN	O	O
-as	NN	O	O
-temperature	NN	O	O
-and	NN	O	O
-humidity	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-tack	NN	O	O
-is	NN	O	O
-important	NN	O	O
-in	NN	O	O
-many	NN	O	O
-applications	NN	O	O
-where	NN	O	O
-an	NN	O	O
-instant	NN	O	O
-bond	NN	O	O
-is	NN	O	O
-required	NN	O	O
-,	NN	O	O
-however	NN	O	O
-it	NN	O	O
-is	NN	O	O
-equally	NN	O	O
-important	NN	O	O
-when	NN	O	O
-a	NN	O	O
-‘	NN	O	B-Task
-clean’	NN	O	I-Task
-separation	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-initially	NN	O	O
-bonded	NN	O	B-Material
-surfaces	NN	O	I-Material
-is	NN	O	O
-desirable	NN	O	O
-.	NN	O	O
-
-Many	NN	O	O
-different	NN	O	O
-methods	NN	O	O
-for	NN	O	O
-measuring	NN	O	O
-the	NN	O	O
-tack	NN	O	B-Material
-have	NN	O	O
-been	NN	O	O
-devised	NN	O	O
-with	NN	O	O
-the	NN	O	O
-four	NN	O	O
-main	NN	O	O
-ones	NN	O	O
-being	NN	O	O
-the	NN	O	O
-rolling	NN	O	B-Process
-ball	NN	O	I-Process
-,	NN	O	O
-loop	NN	O	B-Process
-tack	NN	O	I-Process
-,	NN	O	O
-quick	NN	O	B-Process
-stick	NN	O	I-Process
-and	NN	O	O
-probe	NN	O	B-Process
-tack	NN	O	I-Process
-tests	NN	O	B-Process
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Each	NN	O	O
-has	NN	O	O
-its	NN	O	O
-own	NN	O	O
-advantages	NN	O	O
-and	NN	O	O
-disadvantages	NN	O	O
-and	NN	O	O
-the	NN	O	O
-specific	NN	O	O
-testing	NN	O	O
-method	NN	O	O
-should	NN	O	O
-be	NN	O	O
-selected	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-particular	NN	O	O
-application	NN	O	O
-.	NN	O	O
+Tack	0	4	B-Material
+is	5	7	O
+an	8	10	O
+important	11	20	O
+property	21	29	O
+of	30	32	O
+a	33	34	O
+PSA	35	38	B-Material
+as	39	41	O
+it	42	44	O
+quantifies	45	55	O
+its	56	59	O
+ability	60	67	O
+to	68	70	O
+form	71	75	O
+instantly	76	85	O
+a	86	87	O
+bond	88	92	O
+when	93	97	O
+brought	98	105	O
+into	106	110	O
+contact	111	118	O
+with	119	123	O
+a	124	125	O
+surface	126	133	O
+.	133	134	O
+
+The	135	138	O
+final	139	144	O
+adhesion	145	153	O
+and	154	157	O
+cohesive	158	166	O
+strength	167	175	O
+of	176	178	O
+the	179	182	O
+bond	183	187	O
+are	188	191	O
+influenced	192	202	O
+by	203	205	O
+numerous	206	214	O
+factors	215	222	O
+including	223	232	O
+the	233	236	O
+surface	237	244	O
+energies	245	253	O
+of	254	256	O
+the	257	260	O
+adhesive	261	269	B-Material
+and	270	273	O
+substrate	274	283	B-Material
+,	283	284	O
+dwell	285	290	O
+time	291	295	O
+,	295	296	O
+contact	297	304	O
+pressure	305	313	O
+,	313	314	O
+mechanical	315	325	O
+properties	326	336	O
+of	337	339	O
+the	340	343	O
+adhesive	344	352	B-Material
+,	352	353	O
+as	354	356	O
+well	357	361	O
+as	362	364	O
+environmental	365	378	O
+conditions	379	389	O
+such	390	394	O
+as	395	397	O
+temperature	398	409	O
+and	410	413	O
+humidity	414	422	O
+[	423	424	O
+8	424	425	O
+]	425	426	O
+.	426	427	O
+
+Therefore	428	437	O
+,	437	438	O
+tack	439	443	O
+is	444	446	O
+important	447	456	O
+in	457	459	O
+many	460	464	O
+applications	465	477	O
+where	478	483	O
+an	484	486	O
+instant	487	494	O
+bond	495	499	O
+is	500	502	O
+required	503	511	O
+,	511	512	O
+however	513	520	O
+it	521	523	O
+is	524	526	O
+equally	527	534	O
+important	535	544	O
+when	545	549	O
+a	550	551	O
+‘	552	553	B-Task
+clean’	553	559	I-Task
+separation	560	570	I-Task
+of	571	573	O
+the	574	577	O
+initially	578	587	O
+bonded	588	594	B-Material
+surfaces	595	603	I-Material
+is	604	606	O
+desirable	607	616	O
+.	616	617	O
+
+Many	618	622	O
+different	623	632	O
+methods	633	640	O
+for	641	644	O
+measuring	645	654	O
+the	655	658	O
+tack	659	663	B-Material
+have	664	668	O
+been	669	673	O
+devised	674	681	O
+with	682	686	O
+the	687	690	O
+four	691	695	O
+main	696	700	O
+ones	701	705	O
+being	706	711	O
+the	712	715	O
+rolling	716	723	B-Process
+ball	724	728	I-Process
+,	728	729	O
+loop	730	734	B-Process
+tack	735	739	I-Process
+,	739	740	O
+quick	741	746	B-Process
+stick	747	752	I-Process
+and	753	756	O
+probe	757	762	B-Process
+tack	763	767	I-Process
+tests	768	773	B-Process
+[	774	775	O
+9	775	776	O
+]	776	777	O
+.	777	778	O
+
+Each	779	783	O
+has	784	787	O
+its	788	791	O
+own	792	795	O
+advantages	796	806	O
+and	807	810	O
+disadvantages	811	824	O
+and	825	828	O
+the	829	832	O
+specific	833	841	O
+testing	842	849	O
+method	850	856	O
+should	857	863	O
+be	864	866	O
+selected	867	875	O
+based	876	881	O
+on	882	884	O
+the	885	888	O
+particular	889	899	O
+application	900	911	O
+.	911	912	O
 
 
 -DOCSTART- (S0377025714002213)
 
-The	NN	O	O
-first	NN	O	O
-of	NN	O	O
-these	NN	O	O
-systems	NN	O	O
-,	NN	O	O
-a	NN	O	O
-biopolymer	NN	O	B-Process
-gel	NN	O	I-Process
-,	NN	O	O
-involves	NN	O	O
-the	NN	O	O
-thermoreversible	NN	O	B-Task
-gelation	NN	O	I-Task
-of	NN	O	O
-aqueous	NN	O	O
-gelatin	NN	O	O
-solutions	NN	O	O
-to	NN	O	O
-form	NN	O	O
-a	NN	O	O
-physical	NN	O	O
-gel	NN	O	O
-,	NN	O	O
-whereas	NN	O	O
-the	NN	O	O
-other	NN	O	O
-systems	NN	O	O
-considered	NN	O	O
-herein	NN	O	O
-involve	NN	O	O
-the	NN	O	O
-formation	NN	O	O
-of	NN	O	O
-chemical	NN	O	O
-gels	NN	O	O
-featuring	NN	O	O
-permanent	NN	O	O
-cross	NN	O	B-Process
--	NN	O	I-Process
-linked	NN	O	I-Process
-branching	NN	O	I-Process
-networks	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-second	NN	O	O
-system	NN	O	O
-is	NN	O	O
-a	NN	O	O
-commercial	NN	O	B-Process
-silicone	NN	O	I-Process
-dielectric	NN	O	I-Process
-gel	NN	O	I-Process
-(	NN	O	O
-SDG	NN	O	B-Process
-)	NN	O	O
-which	NN	O	O
-is	NN	O	O
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-production	NN	O	B-Task
-of	NN	O	I-Task
-electronic	NN	O	I-Task
-products	NN	O	I-Task
-created	NN	O	O
-by	NN	O	O
-industrial	NN	O	O
-printing	NN	O	O
-processes	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-third	NN	O	O
-experimental	NN	O	O
-system	NN	O	O
-is	NN	O	O
-a	NN	O	O
-fibrin	NN	O	B-Process
-gel	NN	O	I-Process
-formed	NN	O	O
-by	NN	O	O
-the	NN	O	O
-thrombin	NN	O	B-Process
--	NN	O	I-Process
-induced	NN	O	I-Process
-polymerisation	NN	O	I-Process
-of	NN	O	O
-fibrinogen	NN	O	B-Process
-molecules	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-gel	NN	O	B-Process
-network	NN	O	I-Process
-product	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-latter	NN	O	O
-case	NN	O	O
-forms	NN	O	O
-the	NN	O	O
-principal	NN	O	O
-microstructural	NN	O	B-Material
-component	NN	O	I-Material
-of	NN	O	O
-a	NN	O	O
-blood	NN	O	B-Material
-clot	NN	O	I-Material
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-latter	NN	O	O
-case	NN	O	O
-is	NN	O	O
-particularly	NN	O	O
-interesting	NN	O	O
-as	NN	O	O
-the	NN	O	O
-critical	NN	O	B-Material
--	NN	O	I-Material
-gel	NN	O	I-Material
-which	NN	O	O
-is	NN	O	O
-established	NN	O	O
-at	NN	O	O
-the	NN	O	O
-GP	NN	O	B-Material
-serves	NN	O	O
-as	NN	O	O
-a	NN	O	O
-‘	NN	O	B-Material
-template’	NN	O	I-Material
-for	NN	O	I-Material
-the	NN	O	I-Material
-ensuing	NN	O	I-Material
-development	NN	O	I-Material
-of	NN	O	I-Material
-microstructure	NN	O	I-Material
-and	NN	O	I-Material
-associated	NN	O	I-Material
-rheological	NN	O	I-Material
-properties	NN	O	I-Material
-in	NN	O	O
-the	NN	O	O
-post	NN	O	O
--	NN	O	O
-GP	NN	O	B-Material
-phase	NN	O	O
-of	NN	O	O
-fibrin	NN	O	B-Material
-clot	NN	O	I-Material
-evolution	NN	O	O
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+first	4	9	O
+of	10	12	O
+these	13	18	O
+systems	19	26	O
+,	26	27	O
+a	28	29	O
+biopolymer	30	40	B-Process
+gel	41	44	I-Process
+,	44	45	O
+involves	46	54	O
+the	55	58	O
+thermoreversible	59	75	B-Task
+gelation	76	84	I-Task
+of	85	87	O
+aqueous	88	95	O
+gelatin	96	103	O
+solutions	104	113	O
+to	114	116	O
+form	117	121	O
+a	122	123	O
+physical	124	132	O
+gel	133	136	O
+,	136	137	O
+whereas	138	145	O
+the	146	149	O
+other	150	155	O
+systems	156	163	O
+considered	164	174	O
+herein	175	181	O
+involve	182	189	O
+the	190	193	O
+formation	194	203	O
+of	204	206	O
+chemical	207	215	O
+gels	216	220	O
+featuring	221	230	O
+permanent	231	240	O
+cross	241	246	B-Process
+-	246	247	I-Process
+linked	247	253	I-Process
+branching	254	263	I-Process
+networks	264	272	I-Process
+.	272	273	O
+
+The	274	277	O
+second	278	284	O
+system	285	291	O
+is	292	294	O
+a	295	296	O
+commercial	297	307	B-Process
+silicone	308	316	I-Process
+dielectric	317	327	I-Process
+gel	328	331	I-Process
+(	332	333	O
+SDG	333	336	B-Process
+)	336	337	O
+which	338	343	O
+is	344	346	O
+used	347	351	O
+in	352	354	O
+the	355	358	O
+production	359	369	B-Task
+of	370	372	I-Task
+electronic	373	383	I-Task
+products	384	392	I-Task
+created	393	400	O
+by	401	403	O
+industrial	404	414	O
+printing	415	423	O
+processes	424	433	O
+.	433	434	O
+
+The	435	438	O
+third	439	444	O
+experimental	445	457	O
+system	458	464	O
+is	465	467	O
+a	468	469	O
+fibrin	470	476	B-Process
+gel	477	480	I-Process
+formed	481	487	O
+by	488	490	O
+the	491	494	O
+thrombin	495	503	B-Process
+-	503	504	I-Process
+induced	504	511	I-Process
+polymerisation	512	526	I-Process
+of	527	529	O
+fibrinogen	530	540	B-Process
+molecules	541	550	I-Process
+.	550	551	O
+
+The	552	555	O
+gel	556	559	B-Process
+network	560	567	I-Process
+product	568	575	I-Process
+in	576	578	O
+the	579	582	O
+latter	583	589	O
+case	590	594	O
+forms	595	600	O
+the	601	604	O
+principal	605	614	O
+microstructural	615	630	B-Material
+component	631	640	I-Material
+of	641	643	O
+a	644	645	O
+blood	646	651	B-Material
+clot	652	656	I-Material
+[	657	658	O
+8	658	659	O
+]	659	660	O
+.	660	661	O
+
+The	662	665	O
+latter	666	672	O
+case	673	677	O
+is	678	680	O
+particularly	681	693	O
+interesting	694	705	O
+as	706	708	O
+the	709	712	O
+critical	713	721	B-Material
+-	721	722	I-Material
+gel	722	725	I-Material
+which	726	731	O
+is	732	734	O
+established	735	746	O
+at	747	749	O
+the	750	753	O
+GP	754	756	B-Material
+serves	757	763	O
+as	764	766	O
+a	767	768	O
+‘	769	770	B-Material
+template’	770	779	I-Material
+for	780	783	I-Material
+the	784	787	I-Material
+ensuing	788	795	I-Material
+development	796	807	I-Material
+of	808	810	I-Material
+microstructure	811	825	I-Material
+and	826	829	I-Material
+associated	830	840	I-Material
+rheological	841	852	I-Material
+properties	853	863	I-Material
+in	864	866	O
+the	867	870	O
+post	871	875	O
+-	875	876	O
+GP	876	878	B-Material
+phase	879	884	O
+of	885	887	O
+fibrin	888	894	B-Material
+clot	895	899	I-Material
+evolution	900	909	O
+[	910	911	O
+9	911	912	O
+]	912	913	O
+.	913	914	O
 
 
 -DOCSTART- (S0377025715000051)
 
-A	NN	O	O
-convenient	NN	O	O
-and	NN	O	O
-widely	NN	O	O
-reported	NN	O	O
-technique	NN	O	O
-for	NN	O	O
-detection	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-GP	NN	O	I-Task
-involves	NN	O	O
-measurements	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-complex	NN	O	I-Process
-shear	NN	O	I-Process
-modulus	NN	O	I-Process
-,	NN	O	O
-G∗	NN	O	O
-,	NN	O	O
-over	NN	O	O
-a	NN	O	O
-range	NN	O	O
-of	NN	O	O
-frequencies	NN	O	O
-,	NN	O	O
-ω	NN	O	O
-,	NN	O	O
-in	NN	O	O
-oscillatory	NN	O	O
-shear	NN	O	O
-.	NN	O	O
-
-At	NN	O	O
-the	NN	O	O
-GP	NN	O	O
-the	NN	O	O
-elastic	NN	O	O
-and	NN	O	O
-viscous	NN	O	O
-components	NN	O	O
-of	NN	O	O
-the	NN	O	O
-complex	NN	O	O
-modulus	NN	O	O
-,	NN	O	O
-G′	NN	O	O
-and	NN	O	O
-G″	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-scale	NN	O	O
-in	NN	O	O
-oscillatory	NN	O	O
-frequency	NN	O	O
-,	NN	O	O
-ω	NN	O	O
-,	NN	O	O
-as	NN	O	O
-G′(ω)∼G″(ω)∼ωα	NN	O	O
-where	NN	O	O
-α	NN	O	O
-is	NN	O	O
-termed	NN	O	O
-the	NN	O	O
-stress	NN	O	O
-relaxation	NN	O	O
-exponent	NN	O	O
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-the	NN	O	O
-GP	NN	O	O
-may	NN	O	O
-be	NN	O	O
-identified	NN	O	O
-as	NN	O	O
-the	NN	O	O
-instant	NN	O	O
-where	NN	O	O
-the	NN	O	O
-G′	NN	O	O
-and	NN	O	O
-G″	NN	O	O
-scale	NN	O	O
-in	NN	O	O
-frequency	NN	O	O
-according	NN	O	O
-to	NN	O	O
-identical	NN	O	O
-power	NN	O	O
-laws	NN	O	O
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-,	NN	O	O
-behaviour	NN	O	O
-corresponding	NN	O	O
-to	NN	O	O
-attainment	NN	O	O
-of	NN	O	O
-a	NN	O	O
-frequency	NN	O	O
-independent	NN	O	O
-phase	NN	O	O
-angle	NN	O	O
-,	NN	O	O
-δ(=atan(G″/G′	NN	O	O
-)	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-GP	NN	O	B-Process
-measurements	NN	O	I-Process
-may	NN	O	O
-involve	NN	O	O
-‘	NN	O	O
-frequency	NN	O	B-Process
-sweeps’	NN	O	I-Process
-with	NN	O	O
-repeated	NN	O	O
-consecutive	NN	O	O
-application	NN	O	O
-of	NN	O	O
-a	NN	O	O
-set	NN	O	O
-of	NN	O	O
-small	NN	O	B-Process
-amplitude	NN	O	I-Process
-oscillatory	NN	O	I-Process
-shear	NN	O	I-Process
-,	NN	O	O
-SAOS	NN	O	B-Process
-,	NN	O	O
-waveforms	NN	O	B-Process
-[	NN	O	O
-15,16	NN	O	O
-]	NN	O	O
-,	NN	O	O
-or	NN	O	O
-by	NN	O	O
-Fourier	NN	O	B-Process
-Transform	NN	O	I-Process
-Mechanical	NN	O	I-Process
-Spectroscopy	NN	O	I-Process
-,	NN	O	O
-FTMS	NN	O	B-Process
-,	NN	O	O
-in	NN	O	O
-which	NN	O	O
-G∗(ω	NN	O	O
-)	NN	O	O
-is	NN	O	O
-found	NN	O	O
-by	NN	O	O
-simultaneous	NN	O	O
-application	NN	O	B-Process
-of	NN	O	I-Process
-several	NN	O	I-Process
-harmonic	NN	O	I-Process
-frequencies	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-composite	NN	O	B-Process
-waveform	NN	O	I-Process
-and	NN	O	O
-its	NN	O	O
-subsequent	NN	O	O
-Fourier	NN	O	B-Process
-analysis	NN	O	I-Process
-[	NN	O	O
-17,18	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Frequency	NN	O	O
-sweeps	NN	O	O
-are	NN	O	O
-limited	NN	O	O
-to	NN	O	O
-relatively	NN	O	O
-slow	NN	O	O
-gelation	NN	O	B-Process
-processes	NN	O	I-Process
-due	NN	O	O
-to	NN	O	O
-sample	NN	O	O
-mutation	NN	O	O
-and	NN	O	O
-interpolation	NN	O	O
-errors	NN	O	O
-
-[	NN	O	O
-9,19,20	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-FTMS	NN	O	B-Process
-may	NN	O	O
-overcome	NN	O	O
-these	NN	O	O
-limitations	NN	O	O
-,	NN	O	O
-but	NN	O	O
-is	NN	O	O
-unsuitable	NN	O	O
-for	NN	O	O
-markedly	NN	O	B-Material
-strain	NN	O	I-Material
-sensitive	NN	O	I-Material
-materials	NN	O	I-Material
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-fibrin	NN	O	B-Material
-gels	NN	O	I-Material
-,	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-strain	NN	O	O
-amplitude	NN	O	O
-of	NN	O	O
-the	NN	O	O
-composite	NN	O	B-Process
-waveform	NN	O	I-Process
-exceeding	NN	O	O
-the	NN	O	O
-linear	NN	O	O
-viscoelastic	NN	O	O
-range	NN	O	O
-(	NN	O	O
-LVR	NN	O	O
-)	NN	O	O
-
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
+A	0	1	O
+convenient	2	12	O
+and	13	16	O
+widely	17	23	O
+reported	24	32	O
+technique	33	42	O
+for	43	46	O
+detection	47	56	B-Task
+of	57	59	I-Task
+the	60	63	I-Task
+GP	64	66	I-Task
+involves	67	75	O
+measurements	76	88	B-Process
+of	89	91	I-Process
+the	92	95	I-Process
+complex	96	103	I-Process
+shear	104	109	I-Process
+modulus	110	117	I-Process
+,	117	118	O
+G∗	119	121	O
+,	121	122	O
+over	123	127	O
+a	128	129	O
+range	130	135	O
+of	136	138	O
+frequencies	139	150	O
+,	150	151	O
+ω	152	153	O
+,	153	154	O
+in	155	157	O
+oscillatory	158	169	O
+shear	170	175	O
+.	175	176	O
+
+At	177	179	O
+the	180	183	O
+GP	184	186	O
+the	187	190	O
+elastic	191	198	O
+and	199	202	O
+viscous	203	210	O
+components	211	221	O
+of	222	224	O
+the	225	228	O
+complex	229	236	O
+modulus	237	244	O
+,	244	245	O
+G′	246	248	O
+and	249	252	O
+G″	253	255	O
+,	255	256	O
+respectively	257	269	O
+scale	270	275	O
+in	276	278	O
+oscillatory	279	290	O
+frequency	291	300	O
+,	300	301	O
+ω	302	303	O
+,	303	304	O
+as	305	307	O
+G′(ω)∼G″(ω)∼ωα	308	322	O
+where	323	328	O
+α	329	330	O
+is	331	333	O
+termed	334	340	O
+the	341	344	O
+stress	345	351	O
+relaxation	352	362	O
+exponent	363	371	O
+[	372	373	O
+15	373	375	O
+]	375	376	O
+.	376	377	O
+
+Thus	378	382	O
+,	382	383	O
+the	384	387	O
+GP	388	390	O
+may	391	394	O
+be	395	397	O
+identified	398	408	O
+as	409	411	O
+the	412	415	O
+instant	416	423	O
+where	424	429	O
+the	430	433	O
+G′	434	436	O
+and	437	440	O
+G″	441	443	O
+scale	444	449	O
+in	450	452	O
+frequency	453	462	O
+according	463	472	O
+to	473	475	O
+identical	476	485	O
+power	486	491	O
+laws	492	496	O
+[	497	498	O
+15	498	500	O
+]	500	501	O
+,	501	502	O
+behaviour	503	512	O
+corresponding	513	526	O
+to	527	529	O
+attainment	530	540	O
+of	541	543	O
+a	544	545	O
+frequency	546	555	O
+independent	556	567	O
+phase	568	573	O
+angle	574	579	O
+,	579	580	O
+δ(=atan(G″/G′	581	594	O
+)	594	595	O
+)	595	596	O
+.	596	597	O
+
+GP	598	600	B-Process
+measurements	601	613	I-Process
+may	614	617	O
+involve	618	625	O
+‘	626	627	O
+frequency	627	636	B-Process
+sweeps’	637	644	I-Process
+with	645	649	O
+repeated	650	658	O
+consecutive	659	670	O
+application	671	682	O
+of	683	685	O
+a	686	687	O
+set	688	691	O
+of	692	694	O
+small	695	700	B-Process
+amplitude	701	710	I-Process
+oscillatory	711	722	I-Process
+shear	723	728	I-Process
+,	728	729	O
+SAOS	730	734	B-Process
+,	734	735	O
+waveforms	736	745	B-Process
+[	746	747	O
+15,16	747	752	O
+]	752	753	O
+,	753	754	O
+or	755	757	O
+by	758	760	O
+Fourier	761	768	B-Process
+Transform	769	778	I-Process
+Mechanical	779	789	I-Process
+Spectroscopy	790	802	I-Process
+,	802	803	O
+FTMS	804	808	B-Process
+,	808	809	O
+in	810	812	O
+which	813	818	O
+G∗(ω	819	823	O
+)	823	824	O
+is	825	827	O
+found	828	833	O
+by	834	836	O
+simultaneous	837	849	O
+application	850	861	B-Process
+of	862	864	I-Process
+several	865	872	I-Process
+harmonic	873	881	I-Process
+frequencies	882	893	I-Process
+in	894	896	O
+a	897	898	O
+composite	899	908	B-Process
+waveform	909	917	I-Process
+and	918	921	O
+its	922	925	O
+subsequent	926	936	O
+Fourier	937	944	B-Process
+analysis	945	953	I-Process
+[	954	955	O
+17,18	955	960	O
+]	960	961	O
+.	961	962	O
+
+Frequency	963	972	O
+sweeps	973	979	O
+are	980	983	O
+limited	984	991	O
+to	992	994	O
+relatively	995	1005	O
+slow	1006	1010	O
+gelation	1011	1019	B-Process
+processes	1020	1029	I-Process
+due	1030	1033	O
+to	1034	1036	O
+sample	1037	1043	O
+mutation	1044	1052	O
+and	1053	1056	O
+interpolation	1057	1070	O
+errors	1071	1077	O
+
+[	1078	1079	O
+9,19,20	1079	1086	O
+]	1086	1087	O
+.	1087	1088	O
+
+FTMS	1089	1093	B-Process
+may	1094	1097	O
+overcome	1098	1106	O
+these	1107	1112	O
+limitations	1113	1124	O
+,	1124	1125	O
+but	1126	1129	O
+is	1130	1132	O
+unsuitable	1133	1143	O
+for	1144	1147	O
+markedly	1148	1156	B-Material
+strain	1157	1163	I-Material
+sensitive	1164	1173	I-Material
+materials	1174	1183	I-Material
+,	1183	1184	O
+such	1185	1189	O
+as	1190	1192	O
+fibrin	1193	1199	B-Material
+gels	1200	1204	I-Material
+,	1204	1205	O
+due	1206	1209	O
+to	1210	1212	O
+the	1213	1216	O
+strain	1217	1223	O
+amplitude	1224	1233	O
+of	1234	1236	O
+the	1237	1240	O
+composite	1241	1250	B-Process
+waveform	1251	1259	I-Process
+exceeding	1260	1269	O
+the	1270	1273	O
+linear	1274	1280	O
+viscoelastic	1281	1293	O
+range	1294	1299	O
+(	1300	1301	O
+LVR	1301	1304	O
+)	1304	1305	O
+
+[	1306	1307	O
+9	1307	1308	O
+]	1308	1309	O
+.	1309	1310	O
 
 
 -DOCSTART- (S0377025715000993)
 
-Equilibrium	NN	O	B-Material
-surface	NN	O	I-Material
-tension	NN	O	I-Material
-was	NN	O	O
-measured	NN	O	O
-at	NN	O	O
-21	NN	O	O
-°	NN	O	O
-C	NN	O	O
-with	NN	O	O
-a	NN	O	O
-SITA	NN	O	B-Process
-pro	NN	O	I-Process
-line	NN	O	I-Process
-t-15	NN	O	I-Process
-bubble	NN	O	I-Process
-tensiometer	NN	O	I-Process
-.	NN	O	O
-
-Rheological	NN	O	B-Process
-measurements	NN	O	I-Process
-were	NN	O	O
-performed	NN	O	O
-with	NN	O	O
-an	NN	O	O
-ARES	NN	O	B-Process
-rheometer	NN	O	I-Process
-at	NN	O	O
-shear	NN	O	O
-rates	NN	O	O
-up	NN	O	O
-to	NN	O	O
-15s−1	NN	O	O
-and	NN	O	O
-with	NN	O	O
-a	NN	O	O
-piezo	NN	O	B-Process
-axial	NN	O	I-Process
-vibrator	NN	O	I-Process
-[	NN	O	O
-21	NN	O	O
-]	NN	O	O
-(	NN	O	O
-PAV	NN	O	B-Process
-)	NN	O	O
-at	NN	O	O
-frequencies	NN	O	O
-up	NN	O	O
-to	NN	O	O
-6kHz	NN	O	O
-.	NN	O	O
-
-Table	NN	O	O
-1	NN	O	O
-shows	NN	O	O
-the	NN	O	O
-measured	NN	O	O
-values	NN	O	B-Material
-of	NN	O	I-Material
-viscosity	NN	O	I-Material
-(	NN	O	O
-the	NN	O	O
-real	NN	O	O
-component	NN	O	O
-η′	NN	O	O
-of	NN	O	O
-complex	NN	O	O
-viscosity	NN	O	O
-)	NN	O	O
-at	NN	O	O
-1s−1	NN	O	O
-and	NN	O	O
-
-4000s−1	NN	O	O
-and	NN	O	O
-of	NN	O	O
-surface	NN	O	B-Material
-tension	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-solutions	NN	O	O
-with	NN	O	O
-and	NN	O	O
-without	NN	O	O
-the	NN	O	O
-surfactant	NN	O	O
-mixture	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-most	NN	O	B-Material
-concentrated	NN	O	I-Material
-(	NN	O	I-Material
-1.1wt%	NN	O	I-Material
-)	NN	O	I-Material
-solution	NN	O	I-Material
-,	NN	O	O
-viscosity	NN	O	O
-fell	NN	O	O
-from	NN	O	O
->	NN	O	O
-60mPas	NN	O	O
-at	NN	O	O
-low	NN	O	O
-shear	NN	O	O
-rate	NN	O	O
-to	NN	O	O
-about	NN	O	O
-4mPas	NN	O	O
-at	NN	O	O
-the	NN	O	O
-highest	NN	O	O
-shear	NN	O	O
-rates	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-PEDOT	NN	O	B-Material
-:	NN	O	I-Material
-PSS	NN	O	I-Material
-fluids	NN	O	I-Material
-also	NN	O	O
-exhibited	NN	O	O
-elasticity	NN	O	O
-that	NN	O	O
-steadily	NN	O	O
-reduced	NN	O	O
-with	NN	O	O
-increasing	NN	O	O
-frequency	NN	O	O
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-All	NN	O	O
-the	NN	O	O
-aqueous	NN	O	O
-PEDOT	NN	O	O
-:	NN	O	O
-
-PSS	NN	O	O
-solutions	NN	O	O
-shear	NN	O	O
--	NN	O	O
-thinned	NN	O	O
-significantly	NN	O	O
-,	NN	O	O
-but	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-surfactants	NN	O	O
-did	NN	O	O
-not	NN	O	O
-affect	NN	O	O
-the	NN	O	O
-trends	NN	O	O
-in	NN	O	O
-the	NN	O	O
-rheological	NN	O	O
-behaviour	NN	O	O
-,	NN	O	O
-particularly	NN	O	O
-at	NN	O	O
-the	NN	O	O
-higher	NN	O	O
-frequencies	NN	O	O
-(	NN	O	O
-10–4000s−1	NN	O	O
-)	NN	O	O
-.	NN	O	O
+Equilibrium	0	11	B-Material
+surface	12	19	I-Material
+tension	20	27	I-Material
+was	28	31	O
+measured	32	40	O
+at	41	43	O
+21	44	46	O
+°	46	47	O
+C	47	48	O
+with	49	53	O
+a	54	55	O
+SITA	56	60	B-Process
+pro	61	64	I-Process
+line	65	69	I-Process
+t-15	70	74	I-Process
+bubble	75	81	I-Process
+tensiometer	82	93	I-Process
+.	93	94	O
+
+Rheological	95	106	B-Process
+measurements	107	119	I-Process
+were	120	124	O
+performed	125	134	O
+with	135	139	O
+an	140	142	O
+ARES	143	147	B-Process
+rheometer	148	157	I-Process
+at	158	160	O
+shear	161	166	O
+rates	167	172	O
+up	173	175	O
+to	176	178	O
+15s−1	179	184	O
+and	185	188	O
+with	189	193	O
+a	194	195	O
+piezo	196	201	B-Process
+axial	202	207	I-Process
+vibrator	208	216	I-Process
+[	217	218	O
+21	218	220	O
+]	220	221	O
+(	222	223	O
+PAV	223	226	B-Process
+)	226	227	O
+at	228	230	O
+frequencies	231	242	O
+up	243	245	O
+to	246	248	O
+6kHz	249	253	O
+.	253	254	O
+
+Table	255	260	O
+1	261	262	O
+shows	263	268	O
+the	269	272	O
+measured	273	281	O
+values	282	288	B-Material
+of	289	291	I-Material
+viscosity	292	301	I-Material
+(	302	303	O
+the	303	306	O
+real	307	311	O
+component	312	321	O
+η′	322	324	O
+of	325	327	O
+complex	328	335	O
+viscosity	336	345	O
+)	345	346	O
+at	347	349	O
+1s−1	350	354	O
+and	355	358	O
+
+4000s−1	359	366	O
+and	367	370	O
+of	371	373	O
+surface	374	381	B-Material
+tension	382	389	I-Material
+for	390	393	O
+the	394	397	O
+solutions	398	407	O
+with	408	412	O
+and	413	416	O
+without	417	424	O
+the	425	428	O
+surfactant	429	439	O
+mixture	440	447	O
+.	447	448	O
+
+For	449	452	O
+the	453	456	O
+most	457	461	B-Material
+concentrated	462	474	I-Material
+(	475	476	I-Material
+1.1wt%	476	482	I-Material
+)	482	483	I-Material
+solution	484	492	I-Material
+,	492	493	O
+viscosity	494	503	O
+fell	504	508	O
+from	509	513	O
+>	514	515	O
+60mPas	515	521	O
+at	522	524	O
+low	525	528	O
+shear	529	534	O
+rate	535	539	O
+to	540	542	O
+about	543	548	O
+4mPas	549	554	O
+at	555	557	O
+the	558	561	O
+highest	562	569	O
+shear	570	575	O
+rates	576	581	O
+.	581	582	O
+
+The	583	586	O
+PEDOT	587	592	B-Material
+:	592	593	I-Material
+PSS	593	596	I-Material
+fluids	597	603	I-Material
+also	604	608	O
+exhibited	609	618	O
+elasticity	619	629	O
+that	630	634	O
+steadily	635	643	O
+reduced	644	651	O
+with	652	656	O
+increasing	657	667	O
+frequency	668	677	O
+[	678	679	O
+4	679	680	O
+]	680	681	O
+.	681	682	O
+
+All	683	686	O
+the	687	690	O
+aqueous	691	698	O
+PEDOT	699	704	O
+:	704	705	O
+
+PSS	705	708	O
+solutions	709	718	O
+shear	719	724	O
+-	724	725	O
+thinned	725	732	O
+significantly	733	746	O
+,	746	747	O
+but	748	751	O
+the	752	755	O
+presence	756	764	O
+of	765	767	O
+surfactants	768	779	O
+did	780	783	O
+not	784	787	O
+affect	788	794	O
+the	795	798	O
+trends	799	805	O
+in	806	808	O
+the	809	812	O
+rheological	813	824	O
+behaviour	825	834	O
+,	834	835	O
+particularly	836	848	O
+at	849	851	O
+the	852	855	O
+higher	856	862	O
+frequencies	863	874	O
+(	875	876	O
+10–4000s−1	876	886	O
+)	886	887	O
+.	887	888	O
 
 
 -DOCSTART- (S0377221716300984)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-propose	NN	O	O
-a	NN	O	O
-general	NN	O	O
-agent	NN	O	O
--	NN	O	O
-based	NN	O	O
-distributed	NN	O	O
-framework	NN	O	B-Task
-where	NN	O	O
-each	NN	O	B-Process
-agent	NN	O	I-Process
-is	NN	O	I-Process
-implementing	NN	O	I-Process
-a	NN	O	I-Process
-different	NN	O	I-Process
-metaheuristic	NN	O	I-Process
-/	NN	O	I-Process
-local	NN	O	I-Process
-search	NN	O	I-Process
-combination	NN	O	I-Process
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-an	NN	O	O
-agent	NN	O	O
-continuously	NN	O	O
-adapts	NN	O	B-Process
-itself	NN	O	O
-during	NN	O	O
-the	NN	O	O
-search	NN	O	O
-process	NN	O	O
-using	NN	O	O
-a	NN	O	B-Material
-direct	NN	O	I-Material
-cooperation	NN	O	I-Material
-protocol	NN	O	I-Material
-based	NN	O	O
-on	NN	O	O
-reinforcement	NN	O	B-Task
-learning	NN	O	I-Task
-and	NN	O	O
-pattern	NN	O	B-Task
-matching	NN	O	I-Task
-.	NN	O	O
-
-Good	NN	O	B-Task
-patterns	NN	O	I-Task
-that	NN	O	O
-make	NN	O	O
-up	NN	O	O
-improving	NN	O	O
-solutions	NN	O	O
-are	NN	O	O
-identified	NN	O	O
-and	NN	O	O
-shared	NN	O	O
-by	NN	O	O
-the	NN	O	O
-agents	NN	O	B-Material
-.	NN	O	O
-
-This	NN	O	O
-agent	NN	O	B-Task
--	NN	O	I-Task
-based	NN	O	I-Task
-system	NN	O	I-Task
-aims	NN	O	O
-to	NN	O	O
-provide	NN	O	B-Process
-a	NN	O	I-Process
-modular	NN	O	I-Process
-flexible	NN	O	I-Process
-framework	NN	O	I-Process
-to	NN	O	O
-deal	NN	O	B-Process
-with	NN	O	I-Process
-a	NN	O	I-Process
-variety	NN	O	I-Process
-of	NN	O	I-Process
-different	NN	O	I-Process
-problem	NN	O	I-Process
-domains	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-have	NN	O	O
-evaluated	NN	O	O
-the	NN	O	O
-performance	NN	O	O
-of	NN	O	O
-this	NN	O	B-Task
-approach	NN	O	I-Task
-using	NN	O	O
-the	NN	O	O
-proposed	NN	O	O
-framework	NN	O	O
-which	NN	O	O
-embodies	NN	O	B-Process
-a	NN	O	I-Process
-set	NN	O	I-Process
-of	NN	O	I-Process
-well	NN	O	I-Process
-known	NN	O	I-Process
-metaheuristics	NN	O	I-Process
-with	NN	O	I-Process
-different	NN	O	I-Process
-configurations	NN	O	I-Process
-as	NN	O	O
-agents	NN	O	O
-on	NN	O	O
-two	NN	O	B-Material
-problem	NN	O	I-Material
-domains	NN	O	I-Material
-,	NN	O	O
-Permutation	NN	O	B-Material
-Flow	NN	O	I-Material
--	NN	O	I-Material
-shop	NN	O	I-Material
-Scheduling	NN	O	I-Material
-and	NN	O	I-Material
-Capacitated	NN	O	I-Material
-Vehicle	NN	O	I-Material
-Routing	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-show	NN	O	O
-the	NN	O	O
-success	NN	O	O
-of	NN	O	O
-the	NN	O	O
-approach	NN	O	B-Task
-yielding	NN	O	O
-three	NN	O	O
-new	NN	O	O
-best	NN	O	O
-known	NN	O	O
-results	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Capacitated	NN	O	B-Material
-Vehicle	NN	O	I-Material
-Routing	NN	O	I-Material
-benchmarks	NN	O	I-Material
-tested	NN	O	O
-,	NN	O	O
-whilst	NN	O	O
-the	NN	O	O
-results	NN	O	O
-for	NN	O	O
-Permutation	NN	O	B-Material
-Flow	NN	O	I-Material
--	NN	O	I-Material
-shop	NN	O	I-Material
-Scheduling	NN	O	I-Material
-are	NN	O	O
-commensurate	NN	O	O
-with	NN	O	O
-the	NN	O	O
-best	NN	O	O
-known	NN	O	O
-values	NN	O	O
-for	NN	O	O
-all	NN	O	O
-the	NN	O	O
-benchmarks	NN	O	O
-tested	NN	O	O
-.	NN	O	O
+In	0	2	O
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+,	13	14	O
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+agent	36	41	O
+-	41	42	O
+based	42	47	O
+distributed	48	59	O
+framework	60	69	B-Task
+where	70	75	O
+each	76	80	B-Process
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+is	87	89	I-Process
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+a	103	104	I-Process
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+/	128	129	I-Process
+local	129	134	I-Process
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+combination	142	153	I-Process
+.	153	154	O
+
+Moreover	155	163	O
+,	163	164	O
+an	165	167	O
+agent	168	173	O
+continuously	174	186	O
+adapts	187	193	B-Process
+itself	194	200	O
+during	201	207	O
+the	208	211	O
+search	212	218	O
+process	219	226	O
+using	227	232	O
+a	233	234	B-Material
+direct	235	241	I-Material
+cooperation	242	253	I-Material
+protocol	254	262	I-Material
+based	263	268	O
+on	269	271	O
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+and	295	298	O
+pattern	299	306	B-Task
+matching	307	315	I-Task
+.	315	316	O
+
+Good	317	321	B-Task
+patterns	322	330	I-Task
+that	331	335	O
+make	336	340	O
+up	341	343	O
+improving	344	353	O
+solutions	354	363	O
+are	364	367	O
+identified	368	378	O
+and	379	382	O
+shared	383	389	O
+by	390	392	O
+the	393	396	O
+agents	397	403	B-Material
+.	403	404	O
+
+This	405	409	O
+agent	410	415	B-Task
+-	415	416	I-Task
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+aims	429	433	O
+to	434	436	O
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+a	445	446	I-Process
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+framework	464	473	I-Process
+to	474	476	O
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+a	487	488	I-Process
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+of	497	499	I-Process
+different	500	509	I-Process
+problem	510	517	I-Process
+domains	518	525	I-Process
+.	525	526	O
+
+We	527	529	O
+have	530	534	O
+evaluated	535	544	O
+the	545	548	O
+performance	549	560	O
+of	561	563	O
+this	564	568	B-Task
+approach	569	577	I-Task
+using	578	583	O
+the	584	587	O
+proposed	588	596	O
+framework	597	606	O
+which	607	612	O
+embodies	613	621	B-Process
+a	622	623	I-Process
+set	624	627	I-Process
+of	628	630	I-Process
+well	631	635	I-Process
+known	636	641	I-Process
+metaheuristics	642	656	I-Process
+with	657	661	I-Process
+different	662	671	I-Process
+configurations	672	686	I-Process
+as	687	689	O
+agents	690	696	O
+on	697	699	O
+two	700	703	B-Material
+problem	704	711	I-Material
+domains	712	719	I-Material
+,	719	720	O
+Permutation	721	732	B-Material
+Flow	733	737	I-Material
+-	737	738	I-Material
+shop	738	742	I-Material
+Scheduling	743	753	I-Material
+and	754	757	I-Material
+Capacitated	758	769	I-Material
+Vehicle	770	777	I-Material
+Routing	778	785	I-Material
+.	785	786	O
+
+The	787	790	O
+results	791	798	O
+show	799	803	O
+the	804	807	O
+success	808	815	O
+of	816	818	O
+the	819	822	O
+approach	823	831	B-Task
+yielding	832	840	O
+three	841	846	O
+new	847	850	O
+best	851	855	O
+known	856	861	O
+results	862	869	O
+of	870	872	O
+the	873	876	O
+Capacitated	877	888	B-Material
+Vehicle	889	896	I-Material
+Routing	897	904	I-Material
+benchmarks	905	915	I-Material
+tested	916	922	O
+,	922	923	O
+whilst	924	930	O
+the	931	934	O
+results	935	942	O
+for	943	946	O
+Permutation	947	958	B-Material
+Flow	959	963	I-Material
+-	963	964	I-Material
+shop	964	968	I-Material
+Scheduling	969	979	I-Material
+are	980	983	O
+commensurate	984	996	O
+with	997	1001	O
+the	1002	1005	O
+best	1006	1010	O
+known	1011	1016	O
+values	1017	1023	O
+for	1024	1027	O
+all	1028	1031	O
+the	1032	1035	O
+benchmarks	1036	1046	O
+tested	1047	1053	O
+.	1053	1054	O
 
 
 -DOCSTART- (S0377221716301357)
 
-As	NN	O	O
-mentioned	NN	O	O
-earlier	NN	O	O
-,	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-represents	NN	O	O
-ongoing	NN	O	O
-efforts	NN	O	O
-to	NN	O	O
-efficiently	NN	O	O
-address	NN	O	O
-the	NN	O	O
-stochastic	NN	O	B-Task
-MPSP	NN	O	I-Task
-.	NN	O	O
-
-Future	NN	O	O
-work	NN	O	O
-may	NN	O	O
-consider	NN	O	O
-investigating	NN	O	O
-whether	NN	O	O
-the	NN	O	O
-algorithm	NN	O	O
-would	NN	O	O
-be	NN	O	O
-as	NN	O	O
-successful	NN	O	O
-or	NN	O	O
-not	NN	O	O
-in	NN	O	O
-solving	NN	O	O
-variants	NN	O	O
-of	NN	O	O
-the	NN	O	O
-MPSP	NN	O	B-Process
-that	NN	O	O
-include	NN	O	O
-more	NN	O	O
-operational	NN	O	B-Task
-constraints	NN	O	I-Task
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-variable	NN	O	B-Task
-cut	NN	O	I-Task
--	NN	O	I-Task
-off	NN	O	I-Task
-grade	NN	O	I-Task
-,	NN	O	O
-grade	NN	O	B-Task
-blending	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-stockpiling	NN	O	B-Task
-,	NN	O	O
-as	NN	O	O
-it	NN	O	O
-is	NN	O	O
-in	NN	O	O
-solving	NN	O	O
-the	NN	O	O
-“	NN	O	O
-classical	NN	O	O
-”	NN	O	O
-variant	NN	O	O
-considered	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-.	NN	O	O
-
-Indeed	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-a	NN	O	O
-general	NN	O	B-Process
--	NN	O	I-Process
-purpose	NN	O	I-Process
-algorithm	NN	O	I-Process
-and	NN	O	O
-should	NN	O	O
-be	NN	O	O
-applicable	NN	O	O
-to	NN	O	O
-any	NN	O	O
-of	NN	O	O
-these	NN	O	O
-variants	NN	O	O
-.	NN	O	O
-
-Other	NN	O	O
-research	NN	O	O
-avenues	NN	O	O
-include	NN	O	O
-considering	NN	O	O
-other	NN	O	O
-strategies	NN	O	O
-for	NN	O	O
-updating	NN	O	O
-the	NN	O	O
-penalties	NN	O	O
-within	NN	O	O
-PH	NN	O	B-Process
-and	NN	O	O
-other	NN	O	O
-methods	NN	O	O
-for	NN	O	O
-solving	NN	O	O
-the	NN	O	O
-sub	NN	O	O
--	NN	O	O
-problems	NN	O	O
-.	NN	O	O
-
-Finally	NN	O	O
-,	NN	O	O
-another	NN	O	O
-important	NN	O	O
-research	NN	O	O
-direction	NN	O	O
-is	NN	O	O
-the	NN	O	O
-development	NN	O	O
-of	NN	O	O
-other	NN	O	O
-efficient	NN	O	O
-solution	NN	O	O
-approaches	NN	O	O
-.	NN	O	O
-
-Since	NN	O	O
-it	NN	O	O
-has	NN	O	O
-been	NN	O	O
-observed	NN	O	O
-empirically	NN	O	O
-that	NN	O	O
-the	NN	O	O
-problem	NN	O	O
-formulation	NN	O	O
-often	NN	O	O
-achieves	NN	O	O
-small	NN	O	O
-integrality	NN	O	O
-gaps	NN	O	O
-,	NN	O	O
-one	NN	O	O
-approach	NN	O	O
-could	NN	O	O
-be	NN	O	O
-to	NN	O	O
-solve	NN	O	B-Process
-the	NN	O	I-Process
-linear	NN	O	I-Process
-relaxation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-problem	NN	O	O
-using	NN	O	O
-an	NN	O	O
-efficient	NN	O	O
-algorithm	NN	O	O
-and	NN	O	O
-then	NN	O	O
-to	NN	O	O
-use	NN	O	O
-an	NN	O	O
-LP	NN	O	B-Process
--	NN	O	I-Process
-rounding	NN	O	I-Process
-procedure	NN	O	I-Process
-to	NN	O	O
-get	NN	O	O
-an	NN	O	O
-integer	NN	O	O
-solution	NN	O	O
-.	NN	O	O
+As	0	2	O
+mentioned	3	12	O
+earlier	13	20	O
+,	20	21	O
+this	22	26	O
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+ongoing	44	51	O
+efforts	52	59	O
+to	60	62	O
+efficiently	63	74	O
+address	75	82	O
+the	83	86	O
+stochastic	87	97	B-Task
+MPSP	98	102	I-Task
+.	102	103	O
+
+Future	104	110	O
+work	111	115	O
+may	116	119	O
+consider	120	128	O
+investigating	129	142	O
+whether	143	150	O
+the	151	154	O
+algorithm	155	164	O
+would	165	170	O
+be	171	173	O
+as	174	176	O
+successful	177	187	O
+or	188	190	O
+not	191	194	O
+in	195	197	O
+solving	198	205	O
+variants	206	214	O
+of	215	217	O
+the	218	221	O
+MPSP	222	226	B-Process
+that	227	231	O
+include	232	239	O
+more	240	244	O
+operational	245	256	B-Task
+constraints	257	268	I-Task
+,	268	269	O
+such	270	274	O
+as	275	277	O
+variable	278	286	B-Task
+cut	287	290	I-Task
+-	290	291	I-Task
+off	291	294	I-Task
+grade	295	300	I-Task
+,	300	301	O
+grade	302	307	B-Task
+blending	308	316	I-Task
+,	316	317	O
+and	318	321	O
+stockpiling	322	333	B-Task
+,	333	334	O
+as	335	337	O
+it	338	340	O
+is	341	343	O
+in	344	346	O
+solving	347	354	O
+the	355	358	O
+“	359	360	O
+classical	360	369	O
+”	369	370	O
+variant	371	378	O
+considered	379	389	O
+in	390	392	O
+this	393	397	O
+paper	398	403	O
+.	403	404	O
+
+Indeed	405	411	O
+,	411	412	O
+it	413	415	O
+is	416	418	O
+a	419	420	O
+general	421	428	B-Process
+-	428	429	I-Process
+purpose	429	436	I-Process
+algorithm	437	446	I-Process
+and	447	450	O
+should	451	457	O
+be	458	460	O
+applicable	461	471	O
+to	472	474	O
+any	475	478	O
+of	479	481	O
+these	482	487	O
+variants	488	496	O
+.	496	497	O
+
+Other	498	503	O
+research	504	512	O
+avenues	513	520	O
+include	521	528	O
+considering	529	540	O
+other	541	546	O
+strategies	547	557	O
+for	558	561	O
+updating	562	570	O
+the	571	574	O
+penalties	575	584	O
+within	585	591	O
+PH	592	594	B-Process
+and	595	598	O
+other	599	604	O
+methods	605	612	O
+for	613	616	O
+solving	617	624	O
+the	625	628	O
+sub	629	632	O
+-	632	633	O
+problems	633	641	O
+.	641	642	O
+
+Finally	643	650	O
+,	650	651	O
+another	652	659	O
+important	660	669	O
+research	670	678	O
+direction	679	688	O
+is	689	691	O
+the	692	695	O
+development	696	707	O
+of	708	710	O
+other	711	716	O
+efficient	717	726	O
+solution	727	735	O
+approaches	736	746	O
+.	746	747	O
+
+Since	748	753	O
+it	754	756	O
+has	757	760	O
+been	761	765	O
+observed	766	774	O
+empirically	775	786	O
+that	787	791	O
+the	792	795	O
+problem	796	803	O
+formulation	804	815	O
+often	816	821	O
+achieves	822	830	O
+small	831	836	O
+integrality	837	848	O
+gaps	849	853	O
+,	853	854	O
+one	855	858	O
+approach	859	867	O
+could	868	873	O
+be	874	876	O
+to	877	879	O
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+the	886	889	I-Process
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+relaxation	897	907	I-Process
+of	908	910	O
+the	911	914	O
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+algorithm	942	951	O
+and	952	955	O
+then	956	960	O
+to	961	963	O
+use	964	967	O
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+LP	971	973	B-Process
+-	973	974	I-Process
+rounding	974	982	I-Process
+procedure	983	992	I-Process
+to	993	995	O
+get	996	999	O
+an	1000	1002	O
+integer	1003	1010	O
+solution	1011	1019	O
+.	1019	1020	O
 
 
 -DOCSTART- (S0377221716301904)
 
-We	NN	O	O
-propose	NN	O	O
-an	NN	O	O
-equilibrium	NN	O	B-Process
-model	NN	O	I-Process
-that	NN	O	O
-allows	NN	O	O
-to	NN	O	O
-analyze	NN	O	B-Task
-the	NN	O	I-Task
-long	NN	O	I-Task
--	NN	O	I-Task
-run	NN	O	I-Task
-impact	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-electricity	NN	O	I-Task
-market	NN	O	I-Task
-design	NN	O	I-Task
-on	NN	O	I-Task
-transmission	NN	O	I-Task
-line	NN	O	I-Task
-expansion	NN	O	I-Task
-by	NN	O	O
-the	NN	O	O
-regulator	NN	O	O
-and	NN	O	O
-investment	NN	O	O
-in	NN	O	O
-generation	NN	O	O
-capacity	NN	O	O
-by	NN	O	O
-private	NN	O	O
-firms	NN	O	O
-in	NN	O	O
-liberalized	NN	O	O
-electricity	NN	O	O
-markets	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-model	NN	O	O
-incorporates	NN	O	O
-investment	NN	O	O
-decisions	NN	O	O
-of	NN	O	O
-the	NN	O	O
-transmission	NN	O	O
-system	NN	O	O
-operator	NN	O	O
-and	NN	O	O
-private	NN	O	O
-firms	NN	O	O
-in	NN	O	O
-expectation	NN	O	O
-of	NN	O	O
-an	NN	O	O
-energy	NN	O	O
--	NN	O	O
-only	NN	O	O
-market	NN	O	O
-and	NN	O	O
-cost	NN	O	O
--	NN	O	O
-based	NN	O	O
-redispatch	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-different	NN	O	O
-specifications	NN	O	O
-we	NN	O	O
-consider	NN	O	O
-the	NN	O	O
-cases	NN	O	O
-of	NN	O	O
-one	NN	O	O
-vs.	NN	O	O
-multiple	NN	O	O
-price	NN	O	O
-zones	NN	O	O
-(	NN	O	O
-market	NN	O	B-Process
-splitting	NN	O	I-Process
-)	NN	O	O
-and	NN	O	O
-analyze	NN	O	B-Process
-different	NN	O	I-Process
-approaches	NN	O	I-Process
-to	NN	O	I-Process
-recover	NN	O	I-Process
-network	NN	O	I-Process
-cost	NN	O	I-Process
-—	NN	O	O
-in	NN	O	O
-particular	NN	O	O
-lump	NN	O	B-Task
-sum	NN	O	I-Task
-,	NN	O	O
-generation	NN	O	B-Task
-capacity	NN	O	I-Task
-based	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-energy	NN	O	B-Task
-based	NN	O	I-Task
-fees	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-compare	NN	O	O
-the	NN	O	O
-outcomes	NN	O	O
-of	NN	O	O
-our	NN	O	O
-multilevel	NN	O	B-Process
-market	NN	O	I-Process
-model	NN	O	I-Process
-with	NN	O	O
-a	NN	O	O
-first	NN	O	B-Process
-best	NN	O	I-Process
-benchmark	NN	O	I-Process
-,	NN	O	O
-we	NN	O	O
-also	NN	O	O
-solve	NN	O	B-Process
-the	NN	O	I-Process
-corresponding	NN	O	I-Process
-integrated	NN	O	I-Process
-planner	NN	O	I-Process
-problem	NN	O	I-Process
-.	NN	O	O
-
-Using	NN	O	O
-two	NN	O	O
-test	NN	O	O
-networks	NN	O	O
-we	NN	O	O
-illustrate	NN	O	O
-that	NN	O	O
-energy	NN	O	O
--	NN	O	O
-only	NN	O	O
-markets	NN	O	O
-can	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-suboptimal	NN	O	O
-locational	NN	O	O
-decisions	NN	O	O
-for	NN	O	O
-generation	NN	O	O
-capacity	NN	O	O
-and	NN	O	O
-thus	NN	O	O
-imply	NN	O	O
-excessive	NN	O	B-Process
-network	NN	O	I-Process
-expansion	NN	O	I-Process
-.	NN	O	O
-
-Market	NN	O	B-Process
-splitting	NN	O	I-Process
-heals	NN	O	O
-these	NN	O	O
-problems	NN	O	O
-only	NN	O	O
-partially	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-results	NN	O	O
-are	NN	O	O
-valid	NN	O	O
-for	NN	O	O
-all	NN	O	O
-considered	NN	O	O
-types	NN	O	O
-of	NN	O	O
-network	NN	O	O
-tariffs	NN	O	O
-,	NN	O	O
-although	NN	O	O
-investment	NN	O	O
-slightly	NN	O	O
-differs	NN	O	O
-across	NN	O	O
-those	NN	O	O
-regimes	NN	O	O
-.	NN	O	O
+We	0	2	O
+propose	3	10	O
+an	11	13	O
+equilibrium	14	25	B-Process
+model	26	31	I-Process
+that	32	36	O
+allows	37	43	O
+to	44	46	O
+analyze	47	54	B-Task
+the	55	58	I-Task
+long	59	63	I-Task
+-	63	64	I-Task
+run	64	67	I-Task
+impact	68	74	I-Task
+of	75	77	I-Task
+the	78	81	I-Task
+electricity	82	93	I-Task
+market	94	100	I-Task
+design	101	107	I-Task
+on	108	110	I-Task
+transmission	111	123	I-Task
+line	124	128	I-Task
+expansion	129	138	I-Task
+by	139	141	O
+the	142	145	O
+regulator	146	155	O
+and	156	159	O
+investment	160	170	O
+in	171	173	O
+generation	174	184	O
+capacity	185	193	O
+by	194	196	O
+private	197	204	O
+firms	205	210	O
+in	211	213	O
+liberalized	214	225	O
+electricity	226	237	O
+markets	238	245	O
+.	245	246	O
+
+The	247	250	O
+model	251	256	O
+incorporates	257	269	O
+investment	270	280	O
+decisions	281	290	O
+of	291	293	O
+the	294	297	O
+transmission	298	310	O
+system	311	317	O
+operator	318	326	O
+and	327	330	O
+private	331	338	O
+firms	339	344	O
+in	345	347	O
+expectation	348	359	O
+of	360	362	O
+an	363	365	O
+energy	366	372	O
+-	372	373	O
+only	373	377	O
+market	378	384	O
+and	385	388	O
+cost	389	393	O
+-	393	394	O
+based	394	399	O
+redispatch	400	410	O
+.	410	411	O
+
+In	412	414	O
+different	415	424	O
+specifications	425	439	O
+we	440	442	O
+consider	443	451	O
+the	452	455	O
+cases	456	461	O
+of	462	464	O
+one	465	468	O
+vs.	469	472	O
+multiple	473	481	O
+price	482	487	O
+zones	488	493	O
+(	494	495	O
+market	495	501	B-Process
+splitting	502	511	I-Process
+)	511	512	O
+and	513	516	O
+analyze	517	524	B-Process
+different	525	534	I-Process
+approaches	535	545	I-Process
+to	546	548	I-Process
+recover	549	556	I-Process
+network	557	564	I-Process
+cost	565	569	I-Process
+—	569	570	O
+in	570	572	O
+particular	573	583	O
+lump	584	588	B-Task
+sum	589	592	I-Task
+,	592	593	O
+generation	594	604	B-Task
+capacity	605	613	I-Task
+based	614	619	I-Task
+,	619	620	O
+and	621	624	O
+energy	625	631	B-Task
+based	632	637	I-Task
+fees	638	642	I-Task
+.	642	643	O
+
+In	644	646	O
+order	647	652	O
+to	653	655	O
+compare	656	663	O
+the	664	667	O
+outcomes	668	676	O
+of	677	679	O
+our	680	683	O
+multilevel	684	694	B-Process
+market	695	701	I-Process
+model	702	707	I-Process
+with	708	712	O
+a	713	714	O
+first	715	720	B-Process
+best	721	725	I-Process
+benchmark	726	735	I-Process
+,	735	736	O
+we	737	739	O
+also	740	744	O
+solve	745	750	B-Process
+the	751	754	I-Process
+corresponding	755	768	I-Process
+integrated	769	779	I-Process
+planner	780	787	I-Process
+problem	788	795	I-Process
+.	795	796	O
+
+Using	797	802	O
+two	803	806	O
+test	807	811	O
+networks	812	820	O
+we	821	823	O
+illustrate	824	834	O
+that	835	839	O
+energy	840	846	O
+-	846	847	O
+only	847	851	O
+markets	852	859	O
+can	860	863	O
+lead	864	868	O
+to	869	871	O
+suboptimal	872	882	O
+locational	883	893	O
+decisions	894	903	O
+for	904	907	O
+generation	908	918	O
+capacity	919	927	O
+and	928	931	O
+thus	932	936	O
+imply	937	942	O
+excessive	943	952	B-Process
+network	953	960	I-Process
+expansion	961	970	I-Process
+.	970	971	O
+
+Market	972	978	B-Process
+splitting	979	988	I-Process
+heals	989	994	O
+these	995	1000	O
+problems	1001	1009	O
+only	1010	1014	O
+partially	1015	1024	O
+.	1024	1025	O
+
+These	1026	1031	O
+results	1032	1039	O
+are	1040	1043	O
+valid	1044	1049	O
+for	1050	1053	O
+all	1054	1057	O
+considered	1058	1068	O
+types	1069	1074	O
+of	1075	1077	O
+network	1078	1085	O
+tariffs	1086	1093	O
+,	1093	1094	O
+although	1095	1103	O
+investment	1104	1114	O
+slightly	1115	1123	O
+differs	1124	1131	O
+across	1132	1138	O
+those	1139	1144	O
+regimes	1145	1152	O
+.	1152	1153	O
 
 
 -DOCSTART- (S0377221716302259)
 
-Regarding	NN	O	O
-the	NN	O	O
-implications	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-results	NN	O	I-Task
-of	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-note	NN	O	O
-two	NN	O	O
-points	NN	O	O
-.	NN	O	O
-
-From	NN	O	O
-a	NN	O	O
-practical	NN	O	O
-point	NN	O	O
-of	NN	O	O
-view	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-endowed	NN	O	O
-the	NN	O	B-Task
-weighted	NN	O	I-Task
-additive	NN	O	I-Task
-model	NN	O	I-Task
-with	NN	O	I-Task
-a	NN	O	I-Task
-distance	NN	O	I-Task
-function	NN	O	I-Task
-structure	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-takes	NN	O	B-Process
-negative	NN	O	I-Process
-values	NN	O	I-Process
-for	NN	O	I-Process
-points	NN	O	I-Process
-located	NN	O	I-Process
-outside	NN	O	I-Process
-the	NN	O	I-Process
-technology	NN	O	I-Process
-and	NN	O	I-Process
-non	NN	O	I-Process
--	NN	O	I-Process
-negative	NN	O	I-Process
-values	NN	O	I-Process
-for	NN	O	I-Process
-points	NN	O	I-Process
-into	NN	O	I-Process
-the	NN	O	I-Process
-production	NN	O	I-Process
-possibility	NN	O	I-Process
-set	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-respect	NN	O	O
-,	NN	O	O
-the	NN	O	B-Task
-weighted	NN	O	I-Task
-additive	NN	O	I-Task
-distance	NN	O	I-Task
-function	NN	O	I-Task
-methodologically	NN	O	O
-supports	NN	O	O
-the	NN	O	O
-branch	NN	O	O
-of	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-that	NN	O	O
-resorts	NN	O	O
-to	NN	O	O
-the	NN	O	O
-weighted	NN	O	B-Material
-additive	NN	O	I-Material
-model	NN	O	I-Material
-or	NN	O	O
-some	NN	O	B-Material
-related	NN	O	I-Material
-approach	NN	O	I-Material
-to	NN	O	O
-measure	NN	O	B-Process
-productivity	NN	O	I-Process
-over	NN	O	I-Process
-time	NN	O	I-Process
-(	NN	O	O
-see	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-,	NN	O	O
-Mahlberg	NN	O	O
-&	NN	O	O
-Sahoo	NN	O	O
-,	NN	O	O
-2011	NN	O	O
-or	NN	O	O
-Chang	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-From	NN	O	O
-a	NN	O	O
-theoretical	NN	O	O
-point	NN	O	O
-of	NN	O	O
-view	NN	O	O
-,	NN	O	O
-we	NN	O	O
-have	NN	O	O
-provided	NN	O	O
-a	NN	O	B-Material
-new	NN	O	I-Material
-distance	NN	O	I-Material
-function	NN	O	I-Material
-with	NN	O	O
-some	NN	O	O
-interesting	NN	O	O
-properties	NN	O	O
-in	NN	O	O
-contrast	NN	O	O
-to	NN	O	O
-the	NN	O	O
-usual	NN	O	O
-ones	NN	O	O
-,	NN	O	O
-mainly	NN	O	O
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-when	NN	O	O
-technical	NN	O	O
-inefficiency	NN	O	O
-has	NN	O	O
-to	NN	O	O
-be	NN	O	O
-estimated	NN	O	O
-,	NN	O	O
-the	NN	O	B-Material
-weighted	NN	O	I-Material
-additive	NN	O	I-Material
-distance	NN	O	I-Material
-function	NN	O	I-Material
-coincides	NN	O	O
-with	NN	O	O
-the	NN	O	O
-weighted	NN	O	O
-additive	NN	O	O
-model	NN	O	O
-,	NN	O	O
-which	NN	O	O
-means	NN	O	B-Process
-that	NN	O	I-Process
-technical	NN	O	I-Process
-inefficiency	NN	O	I-Process
-is	NN	O	I-Process
-measured	NN	O	I-Process
-following	NN	O	I-Process
-the	NN	O	I-Process
-Pareto	NN	O	I-Process
--	NN	O	I-Process
-Koopmans	NN	O	I-Process
-notion	NN	O	I-Process
-of	NN	O	I-Process
-efficiency	NN	O	I-Process
-;	NN	O	O
-and	NN	O	O
-(	NN	O	O
-2	NN	O	O
-)	NN	O	O
-when	NN	O	O
-productivity	NN	O	O
-has	NN	O	O
-to	NN	O	O
-be	NN	O	O
-determined	NN	O	B-Process
-and	NN	O	I-Process
-decomposed	NN	O	I-Process
-over	NN	O	I-Process
-time	NN	O	I-Process
-the	NN	O	O
-weighted	NN	O	B-Material
-additive	NN	O	I-Material
-distance	NN	O	I-Material
-function	NN	O	I-Material
-emerges	NN	O	O
-as	NN	O	O
-an	NN	O	O
-attractive	NN	O	O
-tool	NN	O	O
-to	NN	O	O
-be	NN	O	O
-used	NN	O	O
-for	NN	O	O
-cross	NN	O	O
--	NN	O	O
-period	NN	O	O
-evaluation	NN	O	O
-of	NN	O	O
-returns	NN	O	O
-to	NN	O	O
-scale	NN	O	O
-changes	NN	O	O
-,	NN	O	O
-since	NN	O	O
-this	NN	O	O
-distance	NN	O	B-Material
-function	NN	O	I-Material
-is	NN	O	O
-always	NN	O	O
-feasible	NN	O	O
-,	NN	O	O
-even	NN	O	O
-under	NN	O	O
-Variable	NN	O	O
-Returns	NN	O	O
-to	NN	O	O
-Scale	NN	O	O
-.	NN	O	O
+Regarding	0	9	O
+the	10	13	O
+implications	14	26	B-Task
+of	27	29	I-Task
+the	30	33	I-Task
+results	34	41	I-Task
+of	42	44	O
+this	45	49	O
+paper	50	55	O
+,	55	56	O
+we	57	59	O
+note	60	64	O
+two	65	68	O
+points	69	75	O
+.	75	76	O
+
+From	77	81	O
+a	82	83	O
+practical	84	93	O
+point	94	99	O
+of	100	102	O
+view	103	107	O
+,	107	108	O
+we	109	111	O
+have	112	116	O
+endowed	117	124	O
+the	125	128	B-Task
+weighted	129	137	I-Task
+additive	138	146	I-Task
+model	147	152	I-Task
+with	153	157	I-Task
+a	158	159	I-Task
+distance	160	168	I-Task
+function	169	177	I-Task
+structure	178	187	I-Task
+,	187	188	O
+which	189	194	O
+takes	195	200	B-Process
+negative	201	209	I-Process
+values	210	216	I-Process
+for	217	220	I-Process
+points	221	227	I-Process
+located	228	235	I-Process
+outside	236	243	I-Process
+the	244	247	I-Process
+technology	248	258	I-Process
+and	259	262	I-Process
+non	263	266	I-Process
+-	266	267	I-Process
+negative	267	275	I-Process
+values	276	282	I-Process
+for	283	286	I-Process
+points	287	293	I-Process
+into	294	298	I-Process
+the	299	302	I-Process
+production	303	313	I-Process
+possibility	314	325	I-Process
+set	326	329	I-Process
+.	329	330	O
+
+In	331	333	O
+this	334	338	O
+respect	339	346	O
+,	346	347	O
+the	348	351	B-Task
+weighted	352	360	I-Task
+additive	361	369	I-Task
+distance	370	378	I-Task
+function	379	387	I-Task
+methodologically	388	404	O
+supports	405	413	O
+the	414	417	O
+branch	418	424	O
+of	425	427	O
+the	428	431	O
+literature	432	442	O
+that	443	447	O
+resorts	448	455	O
+to	456	458	O
+the	459	462	O
+weighted	463	471	B-Material
+additive	472	480	I-Material
+model	481	486	I-Material
+or	487	489	O
+some	490	494	B-Material
+related	495	502	I-Material
+approach	503	511	I-Material
+to	512	514	O
+measure	515	522	B-Process
+productivity	523	535	I-Process
+over	536	540	I-Process
+time	541	545	I-Process
+(	546	547	O
+see	547	550	O
+,	550	551	O
+for	552	555	O
+example	556	563	O
+,	563	564	O
+Mahlberg	565	573	O
+&	574	575	O
+Sahoo	576	581	O
+,	581	582	O
+2011	583	587	O
+or	588	590	O
+Chang	591	596	O
+et	597	599	O
+al	600	602	O
+.	602	603	O
+,	603	604	O
+2012	605	609	O
+)	609	610	O
+.	610	611	O
+
+From	612	616	O
+a	617	618	O
+theoretical	619	630	O
+point	631	636	O
+of	637	639	O
+view	640	644	O
+,	644	645	O
+we	646	648	O
+have	649	653	O
+provided	654	662	O
+a	663	664	B-Material
+new	665	668	I-Material
+distance	669	677	I-Material
+function	678	686	I-Material
+with	687	691	O
+some	692	696	O
+interesting	697	708	O
+properties	709	719	O
+in	720	722	O
+contrast	723	731	O
+to	732	734	O
+the	735	738	O
+usual	739	744	O
+ones	745	749	O
+,	749	750	O
+mainly	751	757	O
+(	758	759	O
+1	759	760	O
+)	760	761	O
+when	762	766	O
+technical	767	776	O
+inefficiency	777	789	O
+has	790	793	O
+to	794	796	O
+be	797	799	O
+estimated	800	809	O
+,	809	810	O
+the	811	814	B-Material
+weighted	815	823	I-Material
+additive	824	832	I-Material
+distance	833	841	I-Material
+function	842	850	I-Material
+coincides	851	860	O
+with	861	865	O
+the	866	869	O
+weighted	870	878	O
+additive	879	887	O
+model	888	893	O
+,	893	894	O
+which	895	900	O
+means	901	906	B-Process
+that	907	911	I-Process
+technical	912	921	I-Process
+inefficiency	922	934	I-Process
+is	935	937	I-Process
+measured	938	946	I-Process
+following	947	956	I-Process
+the	957	960	I-Process
+Pareto	961	967	I-Process
+-	967	968	I-Process
+Koopmans	968	976	I-Process
+notion	977	983	I-Process
+of	984	986	I-Process
+efficiency	987	997	I-Process
+;	997	998	O
+and	999	1002	O
+(	1003	1004	O
+2	1004	1005	O
+)	1005	1006	O
+when	1007	1011	O
+productivity	1012	1024	O
+has	1025	1028	O
+to	1029	1031	O
+be	1032	1034	O
+determined	1035	1045	B-Process
+and	1046	1049	I-Process
+decomposed	1050	1060	I-Process
+over	1061	1065	I-Process
+time	1066	1070	I-Process
+the	1071	1074	O
+weighted	1075	1083	B-Material
+additive	1084	1092	I-Material
+distance	1093	1101	I-Material
+function	1102	1110	I-Material
+emerges	1111	1118	O
+as	1119	1121	O
+an	1122	1124	O
+attractive	1125	1135	O
+tool	1136	1140	O
+to	1141	1143	O
+be	1144	1146	O
+used	1147	1151	O
+for	1152	1155	O
+cross	1156	1161	O
+-	1161	1162	O
+period	1162	1168	O
+evaluation	1169	1179	O
+of	1180	1182	O
+returns	1183	1190	O
+to	1191	1193	O
+scale	1194	1199	O
+changes	1200	1207	O
+,	1207	1208	O
+since	1209	1214	O
+this	1215	1219	O
+distance	1220	1228	B-Material
+function	1229	1237	I-Material
+is	1238	1240	O
+always	1241	1247	O
+feasible	1248	1256	O
+,	1256	1257	O
+even	1258	1262	O
+under	1263	1268	O
+Variable	1269	1277	O
+Returns	1278	1285	O
+to	1286	1288	O
+Scale	1289	1294	O
+.	1294	1295	O
 
 
 -DOCSTART- (S0377221716303873)
 
-The	NN	O	O
-iron	NN	O	B-Material
-ore	NN	O	I-Material
-may	NN	O	O
-be	NN	O	O
-extracted	NN	O	O
-from	NN	O	O
-blocks	NN	O	O
-of	NN	O	O
-25×25×12meter3	NN	O	O
-located	NN	O	O
-at	NN	O	O
-three	NN	O	O
-consecutive	NN	O	O
-mining	NN	O	O
-benches	NN	O	O
-of	NN	O	O
-12meter	NN	O	O
-height	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-this	NN	O	O
-case	NN	O	O
-study	NN	O	O
-,	NN	O	O
-ten	NN	O	O
-equally	NN	O	O
-probable	NN	O	B-Process
-scenarios	NN	O	I-Process
-of	NN	O	O
-iron	NN	O	B-Material
-content	NN	O	I-Material
-,	NN	O	O
-phosphorous	NN	O	B-Material
-,	NN	O	O
-silica	NN	O	B-Material
-,	NN	O	O
-aluminum	NN	O	B-Material
-and	NN	O	O
-LOI	NN	O	B-Material
-are	NN	O	O
-used	NN	O	O
-to	NN	O	O
-quantify	NN	O	B-Task
-the	NN	O	I-Task
-joint	NN	O	I-Task
-uncertainty	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-characteristics	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-iron	NN	O	I-Task
-ore	NN	O	I-Task
-deposit	NN	O	I-Task
-considered	NN	O	O
-and	NN	O	O
-are	NN	O	O
-the	NN	O	O
-input	NN	O	O
-to	NN	O	O
-the	NN	O	O
-SSTPS	NN	O	B-Process
-formulation	NN	O	I-Process
-proposed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-previous	NN	O	O
-section	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-simulated	NN	O	B-Task
-scenarios	NN	O	I-Task
-available	NN	O	O
-were	NN	O	O
-provided	NN	O	O
-and	NN	O	O
-generated	NN	O	O
-using	NN	O	O
-the	NN	O	O
-stochastic	NN	O	B-Process
-simulated	NN	O	I-Process
-technique	NN	O	I-Process
-detailed	NN	O	O
-in	NN	O	O
-Boucher	NN	O	O
-and	NN	O	O
-Dimitrakopoulos	NN	O	O
-(	NN	O	O
-2012	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-area	NN	O	O
-considered	NN	O	O
-is	NN	O	O
-bounded	NN	O	O
-by	NN	O	O
-the	NN	O	O
-limits	NN	O	O
-of	NN	O	O
-the	NN	O	O
-given	NN	O	O
-volume	NN	O	O
-of	NN	O	O
-production	NN	O	O
-in	NN	O	O
-the	NN	O	O
-long	NN	O	O
--	NN	O	O
-term	NN	O	O
-first	NN	O	O
-year	NN	O	O
-production	NN	O	O
-schedule	NN	O	O
-provided	NN	O	O
-.	NN	O	O
-
-Fig	NN	O	O
-.	NN	O	O
-
-4	NN	O	O
-shows	NN	O	O
-3	NN	O	O
-scenarios	NN	O	B-Process
-of	NN	O	I-Process
-iron	NN	O	I-Process
-ore	NN	O	I-Process
-content	NN	O	I-Process
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-conventional	NN	O	O
-and	NN	O	O
-single	NN	O	O
-estimated	NN	O	O
-(	NN	O	O
-average	NN	O	O
-)	NN	O	O
-representation	NN	O	O
-of	NN	O	O
-iron	NN	O	B-Material
-content	NN	O	O
-(	NN	O	O
-Fe2O3	NN	O	O
-%	NN	O	O
-)	NN	O	O
-for	NN	O	O
-the	NN	O	O
-upper	NN	O	O
-bench	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-total	NN	O	O
-,	NN	O	O
-734	NN	O	B-Material
-blocks	NN	O	I-Material
-from	NN	O	O
-3525	NN	O	O
-to	NN	O	O
-21,150	NN	O	O
-tonnes	NN	O	O
-,	NN	O	O
-with	NN	O	O
-Fe2O3	NN	O	B-Material
-from	NN	O	O
-54.59	NN	O	O
-%	NN	O	O
-to	NN	O	O
-60.63	NN	O	O
-%	NN	O	O
-,	NN	O	O
-P	NN	O	B-Material
-from	NN	O	O
-0.02	NN	O	O
-%	NN	O	O
-to	NN	O	O
-0.04	NN	O	O
-%	NN	O	O
-,	NN	O	O
-SiO2	NN	O	B-Material
-from	NN	O	O
-3.10	NN	O	O
-%	NN	O	O
-to	NN	O	O
-8.58	NN	O	O
-%	NN	O	O
-,	NN	O	O
-Al2O3	NN	O	B-Material
-from	NN	O	O
-0.53	NN	O	O
-%	NN	O	O
-to	NN	O	O
-1.88	NN	O	O
-%	NN	O	O
-and	NN	O	O
-LOI	NN	O	B-Material
-from	NN	O	O
-8.75	NN	O	O
-%	NN	O	O
-to	NN	O	O
-11.75	NN	O	O
-%	NN	O	O
-are	NN	O	O
-available	NN	O	O
-.	NN	O	O
+The	0	3	O
+iron	4	8	B-Material
+ore	9	12	I-Material
+may	13	16	O
+be	17	19	O
+extracted	20	29	O
+from	30	34	O
+blocks	35	41	O
+of	42	44	O
+25×25×12meter3	45	59	O
+located	60	67	O
+at	68	70	O
+three	71	76	O
+consecutive	77	88	O
+mining	89	95	O
+benches	96	103	O
+of	104	106	O
+12meter	107	114	O
+height	115	121	O
+.	121	122	O
+
+For	123	126	O
+this	127	131	O
+case	132	136	O
+study	137	142	O
+,	142	143	O
+ten	144	147	O
+equally	148	155	O
+probable	156	164	B-Process
+scenarios	165	174	I-Process
+of	175	177	O
+iron	178	182	B-Material
+content	183	190	I-Material
+,	190	191	O
+phosphorous	192	203	B-Material
+,	203	204	O
+silica	205	211	B-Material
+,	211	212	O
+aluminum	213	221	B-Material
+and	222	225	O
+LOI	226	229	B-Material
+are	230	233	O
+used	234	238	O
+to	239	241	O
+quantify	242	250	B-Task
+the	251	254	I-Task
+joint	255	260	I-Task
+uncertainty	261	272	I-Task
+in	273	275	I-Task
+the	276	279	I-Task
+characteristics	280	295	I-Task
+of	296	298	I-Task
+the	299	302	I-Task
+iron	303	307	I-Task
+ore	308	311	I-Task
+deposit	312	319	I-Task
+considered	320	330	O
+and	331	334	O
+are	335	338	O
+the	339	342	O
+input	343	348	O
+to	349	351	O
+the	352	355	O
+SSTPS	356	361	B-Process
+formulation	362	373	I-Process
+proposed	374	382	O
+in	383	385	O
+the	386	389	O
+previous	390	398	O
+section	399	406	O
+.	406	407	O
+
+The	408	411	O
+simulated	412	421	B-Task
+scenarios	422	431	I-Task
+available	432	441	O
+were	442	446	O
+provided	447	455	O
+and	456	459	O
+generated	460	469	O
+using	470	475	O
+the	476	479	O
+stochastic	480	490	B-Process
+simulated	491	500	I-Process
+technique	501	510	I-Process
+detailed	511	519	O
+in	520	522	O
+Boucher	523	530	O
+and	531	534	O
+Dimitrakopoulos	535	550	O
+(	551	552	O
+2012	552	556	O
+)	556	557	O
+.	557	558	O
+
+The	559	562	O
+area	563	567	O
+considered	568	578	O
+is	579	581	O
+bounded	582	589	O
+by	590	592	O
+the	593	596	O
+limits	597	603	O
+of	604	606	O
+the	607	610	O
+given	611	616	O
+volume	617	623	O
+of	624	626	O
+production	627	637	O
+in	638	640	O
+the	641	644	O
+long	645	649	O
+-	649	650	O
+term	650	654	O
+first	655	660	O
+year	661	665	O
+production	666	676	O
+schedule	677	685	O
+provided	686	694	O
+.	694	695	O
+
+Fig	696	699	O
+.	699	700	O
+
+4	701	702	O
+shows	703	708	O
+3	709	710	O
+scenarios	711	720	B-Process
+of	721	723	I-Process
+iron	724	728	I-Process
+ore	729	732	I-Process
+content	733	740	I-Process
+as	741	743	O
+well	744	748	O
+as	749	751	O
+the	752	755	O
+corresponding	756	769	O
+conventional	770	782	O
+and	783	786	O
+single	787	793	O
+estimated	794	803	O
+(	804	805	O
+average	805	812	O
+)	812	813	O
+representation	814	828	O
+of	829	831	O
+iron	832	836	B-Material
+content	837	844	O
+(	845	846	O
+Fe2O3	846	851	O
+%	851	852	O
+)	852	853	O
+for	854	857	O
+the	858	861	O
+upper	862	867	O
+bench	868	873	O
+.	873	874	O
+
+In	875	877	O
+total	878	883	O
+,	883	884	O
+734	885	888	B-Material
+blocks	889	895	I-Material
+from	896	900	O
+3525	901	905	O
+to	906	908	O
+21,150	909	915	O
+tonnes	916	922	O
+,	922	923	O
+with	924	928	O
+Fe2O3	929	934	B-Material
+from	935	939	O
+54.59	940	945	O
+%	945	946	O
+to	947	949	O
+60.63	950	955	O
+%	955	956	O
+,	956	957	O
+P	958	959	B-Material
+from	960	964	O
+0.02	965	969	O
+%	969	970	O
+to	971	973	O
+0.04	974	978	O
+%	978	979	O
+,	979	980	O
+SiO2	981	985	B-Material
+from	986	990	O
+3.10	991	995	O
+%	995	996	O
+to	997	999	O
+8.58	1000	1004	O
+%	1004	1005	O
+,	1005	1006	O
+Al2O3	1007	1012	B-Material
+from	1013	1017	O
+0.53	1018	1022	O
+%	1022	1023	O
+to	1024	1026	O
+1.88	1027	1031	O
+%	1031	1032	O
+and	1033	1036	O
+LOI	1037	1040	B-Material
+from	1041	1045	O
+8.75	1046	1050	O
+%	1050	1051	O
+to	1052	1054	O
+11.75	1055	1060	O
+%	1060	1061	O
+are	1062	1065	O
+available	1066	1075	O
+.	1075	1076	O
 
 
 -DOCSTART- (S0377221716304258)
 
-Two	NN	O	B-Process
--	NN	O	I-Process
-state	NN	O	I-Process
-models	NN	O	I-Process
-are	NN	O	O
-often	NN	O	O
-insufficient	NN	O	O
-to	NN	O	O
-fit	NN	O	O
-complex	NN	O	O
-traces	NN	O	O
-,	NN	O	O
-therefore	NN	O	O
-we	NN	O	O
-also	NN	O	O
-study	NN	O	B-Task
-the	NN	O	I-Task
-approximate	NN	O	I-Task
-fitting	NN	O	I-Task
-of	NN	O	I-Task
-large	NN	O	I-Task
-M3PPs	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-single	NN	O	O
-class	NN	O	O
-setting	NN	O	O
-,	NN	O	O
-a	NN	O	O
-known	NN	O	O
-limitation	NN	O	O
-of	NN	O	O
-MMPPs	NN	O	B-Material
-is	NN	O	O
-the	NN	O	O
-inability	NN	O	O
-to	NN	O	O
-simultaneously	NN	O	O
-fit	NN	O	O
-many	NN	O	O
-statistical	NN	O	B-Process
-descriptors	NN	O	I-Process
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-non	NN	O	O
--	NN	O	O
-linearity	NN	O	O
-of	NN	O	O
-their	NN	O	O
-underlying	NN	O	B-Process
-equations	NN	O	I-Process
-(	NN	O	O
-Bodrog	NN	O	O
-,	NN	O	O
-Heindl	NN	O	O
-,	NN	O	O
-Horváth	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Telek	NN	O	O
-,	NN	O	O
-2008	NN	O	O
-;	NN	O	O
-Heindl	NN	O	O
-,	NN	O	O
-Horváth	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Gross	NN	O	O
-,	NN	O	O
-2006	NN	O	O
-;	NN	O	O
-Horváth	NN	O	O
-&	NN	O	O
-Telek	NN	O	O
-,	NN	O	O
-2009	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-has	NN	O	O
-led	NN	O	O
-to	NN	O	O
-the	NN	O	O
-definition	NN	O	O
-of	NN	O	O
-several	NN	O	O
-approaches	NN	O	O
-to	NN	O	O
-fit	NN	O	O
-complex	NN	O	O
-traces	NN	O	O
-by	NN	O	O
-composing	NN	O	B-Process
-multiple	NN	O	I-Process
-small	NN	O	I-Process
--	NN	O	I-Process
-sized	NN	O	I-Process
-MMPPs	NN	O	I-Process
-or	NN	O	I-Process
-MAPs	NN	O	I-Process
-using	NN	O	O
-Kronecker	NN	O	B-Process
-operators	NN	O	I-Process
-(	NN	O	O
-Andersen	NN	O	O
-&	NN	O	O
-Nielsen	NN	O	O
-,	NN	O	O
-1998	NN	O	O
-;	NN	O	O
-Casale	NN	O	O
-,	NN	O	O
-Zhang	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Smirni	NN	O	O
-,	NN	O	O
-2010	NN	O	O
-;	NN	O	O
-Horváth	NN	O	O
-&	NN	O	O
-Telek	NN	O	O
-,	NN	O	O
-2002	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-methods	NN	O	O
-employ	NN	O	O
-composition	NN	O	B-Process
-operators	NN	O	I-Process
-for	NN	O	O
-moment	NN	O	O
-fitting	NN	O	O
-,	NN	O	O
-offering	NN	O	O
-a	NN	O	O
-different	NN	O	O
-trade	NN	O	O
--	NN	O	O
-off	NN	O	O
-between	NN	O	O
-computational	NN	O	O
-cost	NN	O	O
-and	NN	O	O
-fitting	NN	O	O
-accuracy	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-fitting	NN	O	B-Task
-methods	NN	O	I-Task
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-EM	NN	O	B-Process
-algorithm	NN	O	I-Process
-(	NN	O	O
-Breuer	NN	O	O
-,	NN	O	O
-2002	NN	O	O
-;	NN	O	O
-Horváth	NN	O	O
-&	NN	O	O
-Okamura	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-;	NN	O	O
-Klemm	NN	O	O
-,	NN	O	O
-Lindemann	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Lohmann	NN	O	O
-,	NN	O	O
-2003	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-the	NN	O	O
-superposition	NN	O	B-Process
-operator	NN	O	I-Process
-allows	NN	O	O
-one	NN	O	O
-to	NN	O	O
-describe	NN	O	O
-a	NN	O	O
-trace	NN	O	O
-by	NN	O	O
-the	NN	O	O
-statistical	NN	O	B-Process
-multiplexing	NN	O	I-Process
-of	NN	O	I-Process
-several	NN	O	I-Process
-MMPPs	NN	O	I-Process
-,	NN	O	O
-at	NN	O	O
-the	NN	O	O
-expense	NN	O	O
-of	NN	O	O
-an	NN	O	O
-exponential	NN	O	O
-growth	NN	O	O
-of	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-states	NN	O	O
-in	NN	O	O
-the	NN	O	O
-resulting	NN	O	O
-process	NN	O	O
-(	NN	O	O
-Sriram	NN	O	O
-&	NN	O	O
-Whitt	NN	O	O
-,	NN	O	O
-1986	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-state	NN	O	B-Process
-space	NN	O	I-Process
-explosion	NN	O	I-Process
-is	NN	O	O
-an	NN	O	O
-obstacle	NN	O	O
-for	NN	O	O
-the	NN	O	O
-application	NN	O	O
-of	NN	O	O
-MMPPs	NN	O	B-Material
-and	NN	O	I-Material
-MAPs	NN	O	I-Material
-to	NN	O	O
-modeling	NN	O	B-Task
-real	NN	O	I-Task
-systems	NN	O	I-Task
-;	NN	O	O
-for	NN	O	O
-example	NN	O	O
-it	NN	O	O
-considerably	NN	O	O
-slows	NN	O	O
-down	NN	O	O
-,	NN	O	O
-or	NN	O	O
-even	NN	O	O
-renders	NN	O	O
-infeasible	NN	O	O
-,	NN	O	O
-the	NN	O	O
-numerical	NN	O	B-Task
-evaluation	NN	O	I-Task
-of	NN	O	I-Task
-queueing	NN	O	I-Task
-models	NN	O	I-Task
-by	NN	O	O
-matrix	NN	O	B-Task
-geometric	NN	O	I-Task
-methods	NN	O	I-Task
-(	NN	O	O
-Bini	NN	O	O
-,	NN	O	O
-Meini	NN	O	O
-,	NN	O	O
-Steffé	NN	O	O
-,	NN	O	O
-Pérez	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Houdt	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-;	NN	O	O
-Pérez	NN	O	O
-,	NN	O	O
-Velthoven	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Houdt	NN	O	O
-,	NN	O	O
-2008	NN	O	O
-)	NN	O	O
-.	NN	O	O
+Two	0	3	B-Process
+-	3	4	I-Process
+state	4	9	I-Process
+models	10	16	I-Process
+are	17	20	O
+often	21	26	O
+insufficient	27	39	O
+to	40	42	O
+fit	43	46	O
+complex	47	54	O
+traces	55	61	O
+,	61	62	O
+therefore	63	72	O
+we	73	75	O
+also	76	80	O
+study	81	86	B-Task
+the	87	90	I-Task
+approximate	91	102	I-Task
+fitting	103	110	I-Task
+of	111	113	I-Task
+large	114	119	I-Task
+M3PPs	120	125	I-Task
+.	125	126	O
+
+In	127	129	O
+the	130	133	O
+single	134	140	O
+class	141	146	O
+setting	147	154	O
+,	154	155	O
+a	156	157	O
+known	158	163	O
+limitation	164	174	O
+of	175	177	O
+MMPPs	178	183	B-Material
+is	184	186	O
+the	187	190	O
+inability	191	200	O
+to	201	203	O
+simultaneously	204	218	O
+fit	219	222	O
+many	223	227	O
+statistical	228	239	B-Process
+descriptors	240	251	I-Process
+due	252	255	O
+to	256	258	O
+the	259	262	O
+non	263	266	O
+-	266	267	O
+linearity	267	276	O
+of	277	279	O
+their	280	285	O
+underlying	286	296	B-Process
+equations	297	306	I-Process
+(	307	308	O
+Bodrog	308	314	O
+,	314	315	O
+Heindl	316	322	O
+,	322	323	O
+Horváth	324	331	O
+,	331	332	O
+&	333	334	O
+Telek	335	340	O
+,	340	341	O
+2008	342	346	O
+;	346	347	O
+Heindl	348	354	O
+,	354	355	O
+Horváth	356	363	O
+,	363	364	O
+&	365	366	O
+Gross	367	372	O
+,	372	373	O
+2006	374	378	O
+;	378	379	O
+Horváth	380	387	O
+&	388	389	O
+Telek	390	395	O
+,	395	396	O
+2009	397	401	O
+)	401	402	O
+.	402	403	O
+
+This	404	408	O
+has	409	412	O
+led	413	416	O
+to	417	419	O
+the	420	423	O
+definition	424	434	O
+of	435	437	O
+several	438	445	O
+approaches	446	456	O
+to	457	459	O
+fit	460	463	O
+complex	464	471	O
+traces	472	478	O
+by	479	481	O
+composing	482	491	B-Process
+multiple	492	500	I-Process
+small	501	506	I-Process
+-	506	507	I-Process
+sized	507	512	I-Process
+MMPPs	513	518	I-Process
+or	519	521	I-Process
+MAPs	522	526	I-Process
+using	527	532	O
+Kronecker	533	542	B-Process
+operators	543	552	I-Process
+(	553	554	O
+Andersen	554	562	O
+&	563	564	O
+Nielsen	565	572	O
+,	572	573	O
+1998	574	578	O
+;	578	579	O
+Casale	580	586	O
+,	586	587	O
+Zhang	588	593	O
+,	593	594	O
+&	595	596	O
+Smirni	597	603	O
+,	603	604	O
+2010	605	609	O
+;	609	610	O
+Horváth	611	618	O
+&	619	620	O
+Telek	621	626	O
+,	626	627	O
+2002	628	632	O
+)	632	633	O
+.	633	634	O
+
+These	635	640	O
+methods	641	648	O
+employ	649	655	O
+composition	656	667	B-Process
+operators	668	677	I-Process
+for	678	681	O
+moment	682	688	O
+fitting	689	696	O
+,	696	697	O
+offering	698	706	O
+a	707	708	O
+different	709	718	O
+trade	719	724	O
+-	724	725	O
+off	725	728	O
+between	729	736	O
+computational	737	750	O
+cost	751	755	O
+and	756	759	O
+fitting	760	767	O
+accuracy	768	776	O
+compared	777	785	O
+to	786	788	O
+fitting	789	796	B-Task
+methods	797	804	I-Task
+based	805	810	O
+on	811	813	O
+the	814	817	O
+EM	818	820	B-Process
+algorithm	821	830	I-Process
+(	831	832	O
+Breuer	832	838	O
+,	838	839	O
+2002	840	844	O
+;	844	845	O
+Horváth	846	853	O
+&	854	855	O
+Okamura	856	863	O
+,	863	864	O
+2013	865	869	O
+;	869	870	O
+Klemm	871	876	O
+,	876	877	O
+Lindemann	878	887	O
+,	887	888	O
+&	889	890	O
+Lohmann	891	898	O
+,	898	899	O
+2003	900	904	O
+)	904	905	O
+.	905	906	O
+
+In	907	909	O
+particular	910	920	O
+,	920	921	O
+the	922	925	O
+superposition	926	939	B-Process
+operator	940	948	I-Process
+allows	949	955	O
+one	956	959	O
+to	960	962	O
+describe	963	971	O
+a	972	973	O
+trace	974	979	O
+by	980	982	O
+the	983	986	O
+statistical	987	998	B-Process
+multiplexing	999	1011	I-Process
+of	1012	1014	I-Process
+several	1015	1022	I-Process
+MMPPs	1023	1028	I-Process
+,	1028	1029	O
+at	1030	1032	O
+the	1033	1036	O
+expense	1037	1044	O
+of	1045	1047	O
+an	1048	1050	O
+exponential	1051	1062	O
+growth	1063	1069	O
+of	1070	1072	O
+the	1073	1076	O
+number	1077	1083	O
+of	1084	1086	O
+states	1087	1093	O
+in	1094	1096	O
+the	1097	1100	O
+resulting	1101	1110	O
+process	1111	1118	O
+(	1119	1120	O
+Sriram	1120	1126	O
+&	1127	1128	O
+Whitt	1129	1134	O
+,	1134	1135	O
+1986	1136	1140	O
+)	1140	1141	O
+.	1141	1142	O
+
+This	1143	1147	O
+state	1148	1153	B-Process
+space	1154	1159	I-Process
+explosion	1160	1169	I-Process
+is	1170	1172	O
+an	1173	1175	O
+obstacle	1176	1184	O
+for	1185	1188	O
+the	1189	1192	O
+application	1193	1204	O
+of	1205	1207	O
+MMPPs	1208	1213	B-Material
+and	1214	1217	I-Material
+MAPs	1218	1222	I-Material
+to	1223	1225	O
+modeling	1226	1234	B-Task
+real	1235	1239	I-Task
+systems	1240	1247	I-Task
+;	1247	1248	O
+for	1249	1252	O
+example	1253	1260	O
+it	1261	1263	O
+considerably	1264	1276	O
+slows	1277	1282	O
+down	1283	1287	O
+,	1287	1288	O
+or	1289	1291	O
+even	1292	1296	O
+renders	1297	1304	O
+infeasible	1305	1315	O
+,	1315	1316	O
+the	1317	1320	O
+numerical	1321	1330	B-Task
+evaluation	1331	1341	I-Task
+of	1342	1344	I-Task
+queueing	1345	1353	I-Task
+models	1354	1360	I-Task
+by	1361	1363	O
+matrix	1364	1370	B-Task
+geometric	1371	1380	I-Task
+methods	1381	1388	I-Task
+(	1389	1390	O
+Bini	1390	1394	O
+,	1394	1395	O
+Meini	1396	1401	O
+,	1401	1402	O
+Steffé	1403	1409	O
+,	1409	1410	O
+Pérez	1411	1416	O
+,	1416	1417	O
+&	1418	1419	O
+Houdt	1420	1425	O
+,	1425	1426	O
+2012	1427	1431	O
+;	1431	1432	O
+Pérez	1433	1438	O
+,	1438	1439	O
+Velthoven	1440	1449	O
+,	1449	1450	O
+&	1451	1452	O
+Houdt	1453	1458	O
+,	1458	1459	O
+2008	1460	1464	O
+)	1464	1465	O
+.	1465	1466	O
 
 
 -DOCSTART- (S0378381215300297)
 
-For	NN	O	O
-mixtures	NN	O	B-Material
-described	NN	O	O
-by	NN	O	O
-an	NN	O	O
-equation	NN	O	O
-of	NN	O	O
-state	NN	O	O
-,	NN	O	O
-this	NN	O	O
-calculation	NN	O	O
-amounts	NN	O	O
-to	NN	O	O
-simultaneously	NN	O	O
-solving	NN	O	O
-the	NN	O	O
-condition	NN	O	O
-of	NN	O	O
-thermal	NN	O	O
-,	NN	O	O
-mechanical	NN	O	O
-and	NN	O	O
-diffusive	NN	O	O
-equilibria	NN	O	O
-(	NN	O	O
-equality	NN	O	O
-of	NN	O	O
-chemical	NN	O	O
-potential	NN	O	O
-)	NN	O	O
-amongst	NN	O	O
-two	NN	O	O
-fluid	NN	O	O
-phases	NN	O	O
-for	NN	O	O
-each	NN	O	O
-component	NN	O	O
-of	NN	O	O
-the	NN	O	O
-mixture	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-analytical	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-this	NN	O	O
-calculation	NN	O	O
-lends	NN	O	O
-itself	NN	O	O
-to	NN	O	O
-a	NN	O	O
-reasonably	NN	O	O
-rapid	NN	O	O
-solution	NN	O	O
-by	NN	O	O
-numerical	NN	O	B-Process
-methods	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-its	NN	O	O
-most	NN	O	O
-common	NN	O	O
-form	NN	O	O
-,	NN	O	O
-the	NN	O	O
-composition	NN	O	O
-and	NN	O	O
-temperature	NN	O	O
-are	NN	O	O
-fixed	NN	O	O
-and	NN	O	O
-the	NN	O	O
-pressures	NN	O	B-Material
-at	NN	O	I-Material
-either	NN	O	I-Material
-the	NN	O	I-Material
-bubble	NN	O	I-Material
-or	NN	O	I-Material
-the	NN	O	I-Material
-dew	NN	O	I-Material
-point	NN	O	I-Material
-are	NN	O	O
-recursively	NN	O	O
-calculated	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-reader	NN	O	O
-is	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-the	NN	O	O
-excellent	NN	O	O
-textbooks	NN	O	O
-that	NN	O	O
-describe	NN	O	O
-the	NN	O	O
-common	NN	O	B-Process
-algorithms	NN	O	I-Process
-employed	NN	O	I-Process
-[	NN	O	O
-80–82	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-quality	NN	O	O
-of	NN	O	O
-the	NN	O	O
-result	NN	O	O
-is	NN	O	O
-obviously	NN	O	O
-limited	NN	O	O
-by	NN	O	O
-the	NN	O	O
-accuracy	NN	O	O
-of	NN	O	O
-the	NN	O	O
-EoS	NN	O	B-Process
-to	NN	O	O
-faithfully	NN	O	O
-represent	NN	O	O
-fluid	NN	O	B-Material
-mixtures	NN	O	I-Material
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-the	NN	O	O
-fact	NN	O	O
-that	NN	O	O
-some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-more	NN	O	O
-interesting	NN	O	O
-features	NN	O	O
-of	NN	O	O
-the	NN	O	O
-phase	NN	O	O
-diagram	NN	O	O
-are	NN	O	O
-close	NN	O	O
-to	NN	O	O
-the	NN	O	O
-critical	NN	O	O
-points	NN	O	O
-of	NN	O	O
-the	NN	O	O
-mixture	NN	O	O
-,	NN	O	O
-make	NN	O	O
-these	NN	O	O
-calculations	NN	O	O
-particularly	NN	O	O
-challenging	NN	O	O
-for	NN	O	O
-all	NN	O	O
-but	NN	O	O
-the	NN	O	O
-most	NN	O	O
-optimized	NN	O	O
-and	NN	O	O
-force	NN	O	O
--	NN	O	O
-fitted	NN	O	O
-of	NN	O	O
-models	NN	O	O
-.	NN	O	O
+For	0	3	O
+mixtures	4	12	B-Material
+described	13	22	O
+by	23	25	O
+an	26	28	O
+equation	29	37	O
+of	38	40	O
+state	41	46	O
+,	46	47	O
+this	48	52	O
+calculation	53	64	O
+amounts	65	72	O
+to	73	75	O
+simultaneously	76	90	O
+solving	91	98	O
+the	99	102	O
+condition	103	112	O
+of	113	115	O
+thermal	116	123	O
+,	123	124	O
+mechanical	125	135	O
+and	136	139	O
+diffusive	140	149	O
+equilibria	150	160	O
+(	161	162	O
+equality	162	170	O
+of	171	173	O
+chemical	174	182	O
+potential	183	192	O
+)	192	193	O
+amongst	194	201	O
+two	202	205	O
+fluid	206	211	O
+phases	212	218	O
+for	219	222	O
+each	223	227	O
+component	228	237	O
+of	238	240	O
+the	241	244	O
+mixture	245	252	O
+.	252	253	O
+
+The	254	257	O
+analytical	258	268	O
+nature	269	275	O
+of	276	278	O
+this	279	283	O
+calculation	284	295	O
+lends	296	301	O
+itself	302	308	O
+to	309	311	O
+a	312	313	O
+reasonably	314	324	O
+rapid	325	330	O
+solution	331	339	O
+by	340	342	O
+numerical	343	352	B-Process
+methods	353	360	I-Process
+.	360	361	O
+
+In	362	364	O
+its	365	368	O
+most	369	373	O
+common	374	380	O
+form	381	385	O
+,	385	386	O
+the	387	390	O
+composition	391	402	O
+and	403	406	O
+temperature	407	418	O
+are	419	422	O
+fixed	423	428	O
+and	429	432	O
+the	433	436	O
+pressures	437	446	B-Material
+at	447	449	I-Material
+either	450	456	I-Material
+the	457	460	I-Material
+bubble	461	467	I-Material
+or	468	470	I-Material
+the	471	474	I-Material
+dew	475	478	I-Material
+point	479	484	I-Material
+are	485	488	O
+recursively	489	500	O
+calculated	501	511	O
+.	511	512	O
+
+The	513	516	O
+reader	517	523	O
+is	524	526	O
+referred	527	535	O
+to	536	538	O
+the	539	542	O
+excellent	543	552	O
+textbooks	553	562	O
+that	563	567	O
+describe	568	576	O
+the	577	580	O
+common	581	587	B-Process
+algorithms	588	598	I-Process
+employed	599	607	I-Process
+[	608	609	O
+80–82	609	614	O
+]	614	615	O
+.	615	616	O
+
+The	617	620	O
+quality	621	628	O
+of	629	631	O
+the	632	635	O
+result	636	642	O
+is	643	645	O
+obviously	646	655	O
+limited	656	663	O
+by	664	666	O
+the	667	670	O
+accuracy	671	679	O
+of	680	682	O
+the	683	686	O
+EoS	687	690	B-Process
+to	691	693	O
+faithfully	694	704	O
+represent	705	714	O
+fluid	715	720	B-Material
+mixtures	721	729	I-Material
+.	729	730	O
+
+Furthermore	731	742	O
+,	742	743	O
+the	744	747	O
+fact	748	752	O
+that	753	757	O
+some	758	762	O
+of	763	765	O
+the	766	769	O
+more	770	774	O
+interesting	775	786	O
+features	787	795	O
+of	796	798	O
+the	799	802	O
+phase	803	808	O
+diagram	809	816	O
+are	817	820	O
+close	821	826	O
+to	827	829	O
+the	830	833	O
+critical	834	842	O
+points	843	849	O
+of	850	852	O
+the	853	856	O
+mixture	857	864	O
+,	864	865	O
+make	866	870	O
+these	871	876	O
+calculations	877	889	O
+particularly	890	902	O
+challenging	903	914	O
+for	915	918	O
+all	919	922	O
+but	923	926	O
+the	927	930	O
+most	931	935	O
+optimized	936	945	O
+and	946	949	O
+force	950	955	O
+-	955	956	O
+fitted	956	962	O
+of	963	965	O
+models	966	972	O
+.	972	973	O
 
 
 -DOCSTART- (S0378381215300674)
 
-The	NN	O	O
-next	NN	O	O
-phase	NN	O	O
-of	NN	O	O
-our	NN	O	O
-current	NN	O	O
-study	NN	O	O
-is	NN	O	O
-to	NN	O	O
-use	NN	O	O
-the	NN	O	O
-parameters	NN	O	O
-obtained	NN	O	O
-from	NN	O	O
-pure	NN	O	B-Process
--	NN	O	I-Process
-component	NN	O	I-Process
-systems	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-transferable	NN	O	O
-manner	NN	O	O
-to	NN	O	O
-represent	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-mixtures	NN	O	O
-.	NN	O	O
-
-Mixtures	NN	O	B-Material
-of	NN	O	I-Material
-n	NN	O	I-Material
--	NN	O	I-Material
-alkanes	NN	O	I-Material
-and	NN	O	I-Material
-H2O	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-studied	NN	O	O
-previously	NN	O	O
-with	NN	O	O
-SAFT-γ	NN	O	B-Process
-SW	NN	O	I-Process
-[	NN	O	O
-82	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-general	NN	O	O
-it	NN	O	O
-is	NN	O	O
-well	NN	O	O
-known	NN	O	O
-that	NN	O	O
-the	NN	O	O
-extreme	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-phase	NN	O	O
-separation	NN	O	O
-[	NN	O	O
-150	NN	O	O
-]	NN	O	O
-makes	NN	O	O
-it	NN	O	O
-challenging	NN	O	O
-to	NN	O	O
-model	NN	O	O
-mixtures	NN	O	B-Material
-of	NN	O	I-Material
-H2O	NN	O	I-Material
-with	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-polar	NN	O	I-Process
-compounds	NN	O	I-Process
-.	NN	O	O
-
-Because	NN	O	O
-of	NN	O	O
-the	NN	O	O
-large	NN	O	O
-differences	NN	O	O
-in	NN	O	O
-the	NN	O	O
-dielectric	NN	O	O
-constant	NN	O	O
-of	NN	O	O
-the	NN	O	O
-two	NN	O	O
-phases	NN	O	O
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-in	NN	O	O
-the	NN	O	O
-dipole	NN	O	O
-moment	NN	O	O
-of	NN	O	O
-H2O	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-hydrophobic	NN	O	B-Material
-molecules	NN	O	I-Material
-,	NN	O	O
-it	NN	O	O
-especially	NN	O	O
-difficult	NN	O	O
-to	NN	O	O
-obtain	NN	O	O
-phase	NN	O	O
--	NN	O	O
-independent	NN	O	O
-unlike	NN	O	O
-interaction	NN	O	O
-parameters	NN	O	O
-[	NN	O	O
-112	NN	O	O
-]	NN	O	O
-and	NN	O	O
-thus	NN	O	O
-to	NN	O	O
-model	NN	O	O
-simultaneously	NN	O	O
-the	NN	O	O
-equilibrium	NN	O	O
-phases	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-previous	NN	O	O
-work	NN	O	O
-[	NN	O	O
-82	NN	O	O
-]	NN	O	O
-,	NN	O	O
-emphasis	NN	O	O
-was	NN	O	O
-placed	NN	O	O
-on	NN	O	O
-obtaining	NN	O	O
-an	NN	O	O
-accurate	NN	O	O
-description	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-alkane	NN	O	I-Task
--	NN	O	I-Task
-rich	NN	O	I-Task
-phases	NN	O	I-Task
-(	NN	O	O
-both	NN	O	O
-liquid	NN	O	B-Material
-and	NN	O	O
-vapour	NN	O	B-Material
-)	NN	O	O
-,	NN	O	O
-while	NN	O	O
-small	NN	O	O
-absolute	NN	O	O
-(	NN	O	O
-but	NN	O	O
-not	NN	O	O
-relative	NN	O	O
-)	NN	O	O
-deviations	NN	O	O
-for	NN	O	O
-the	NN	O	O
-aqueous	NN	O	O
-phase	NN	O	O
-composition	NN	O	O
-were	NN	O	O
-achieved	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-systems	NN	O	O
-of	NN	O	O
-interest	NN	O	O
-in	NN	O	O
-our	NN	O	O
-current	NN	O	O
-work	NN	O	O
-are	NN	O	O
-typically	NN	O	O
-aqueous	NN	O	B-Material
-mixtures	NN	O	I-Material
-containing	NN	O	O
-a	NN	O	O
-high	NN	O	O
-proportion	NN	O	O
-of	NN	O	O
-H2O	NN	O	B-Material
-,	NN	O	O
-alkylamine	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-CO2	NN	O	B-Material
-.	NN	O	O
-
-Consequently	NN	O	O
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-provide	NN	O	O
-an	NN	O	O
-improved	NN	O	O
-overall	NN	O	O
-description	NN	O	O
-of	NN	O	O
-the	NN	O	O
-fluid	NN	O	B-Process
--	NN	O	I-Process
-phase	NN	O	I-Process
-equilibria	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-conditions	NN	O	O
-of	NN	O	O
-interest	NN	O	O
-,	NN	O	O
-refinements	NN	O	O
-have	NN	O	O
-been	NN	O	O
-made	NN	O	O
-to	NN	O	O
-the	NN	O	O
-unlike	NN	O	O
-parameters	NN	O	O
-presented	NN	O	O
-in	NN	O	O
-the	NN	O	O
-previous	NN	O	O
-study	NN	O	O
-[	NN	O	O
-129	NN	O	O
-]	NN	O	O
-relating	NN	O	O
-to	NN	O	O
-the	NN	O	O
-interactions	NN	O	B-Process
-between	NN	O	I-Process
-H2O	NN	O	I-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-alkyl	NN	O	I-Process
-groups	NN	O	I-Process
-,	NN	O	O
-CH3	NN	O	B-Material
-and	NN	O	I-Material
-CH2	NN	O	I-Material
-,	NN	O	O
-namely	NN	O	O
-ϵCH3,H2O	NN	O	B-Process
-,	NN	O	I-Process
-ϵCH2,H2O	NN	O	I-Process
-and	NN	O	O
-λCH3,H2O	NN	O	B-Process
-,	NN	O	I-Process
-λCH2,H2O.	NN	O	I-Process
+The	0	3	O
+next	4	8	O
+phase	9	14	O
+of	15	17	O
+our	18	21	O
+current	22	29	O
+study	30	35	O
+is	36	38	O
+to	39	41	O
+use	42	45	O
+the	46	49	O
+parameters	50	60	O
+obtained	61	69	O
+from	70	74	O
+pure	75	79	B-Process
+-	79	80	I-Process
+component	80	89	I-Process
+systems	90	97	I-Process
+in	98	100	O
+a	101	102	O
+transferable	103	115	O
+manner	116	122	O
+to	123	125	O
+represent	126	135	O
+the	136	139	O
+corresponding	140	153	O
+mixtures	154	162	O
+.	162	163	O
+
+Mixtures	164	172	B-Material
+of	173	175	I-Material
+n	176	177	I-Material
+-	177	178	I-Material
+alkanes	178	185	I-Material
+and	186	189	I-Material
+H2O	190	193	I-Material
+have	194	198	O
+been	199	203	O
+studied	204	211	O
+previously	212	222	O
+with	223	227	O
+SAFT-γ	228	234	B-Process
+SW	235	237	I-Process
+[	238	239	O
+82	239	241	O
+]	241	242	O
+.	242	243	O
+
+In	244	246	O
+general	247	254	O
+it	255	257	O
+is	258	260	O
+well	261	265	O
+known	266	271	O
+that	272	276	O
+the	277	280	O
+extreme	281	288	O
+nature	289	295	O
+of	296	298	O
+the	299	302	O
+phase	303	308	O
+separation	309	319	O
+[	320	321	O
+150	321	324	O
+]	324	325	O
+makes	326	331	O
+it	332	334	O
+challenging	335	346	O
+to	347	349	O
+model	350	355	O
+mixtures	356	364	B-Material
+of	365	367	I-Material
+H2O	368	371	I-Material
+with	372	376	O
+non	377	380	B-Process
+-	380	381	I-Process
+polar	381	386	I-Process
+compounds	387	396	I-Process
+.	396	397	O
+
+Because	398	405	O
+of	406	408	O
+the	409	412	O
+large	413	418	O
+differences	419	430	O
+in	431	433	O
+the	434	437	O
+dielectric	438	448	O
+constant	449	457	O
+of	458	460	O
+the	461	464	O
+two	465	468	O
+phases	469	475	O
+as	476	478	O
+well	479	483	O
+as	484	486	O
+in	487	489	O
+the	490	493	O
+dipole	494	500	O
+moment	501	507	O
+of	508	510	O
+H2O	511	514	B-Material
+and	515	518	O
+the	519	522	O
+hydrophobic	523	534	B-Material
+molecules	535	544	I-Material
+,	544	545	O
+it	546	548	O
+especially	549	559	O
+difficult	560	569	O
+to	570	572	O
+obtain	573	579	O
+phase	580	585	O
+-	585	586	O
+independent	586	597	O
+unlike	598	604	O
+interaction	605	616	O
+parameters	617	627	O
+[	628	629	O
+112	629	632	O
+]	632	633	O
+and	634	637	O
+thus	638	642	O
+to	643	645	O
+model	646	651	O
+simultaneously	652	666	O
+the	667	670	O
+equilibrium	671	682	O
+phases	683	689	O
+.	689	690	O
+
+In	691	693	O
+previous	694	702	O
+work	703	707	O
+[	708	709	O
+82	709	711	O
+]	711	712	O
+,	712	713	O
+emphasis	714	722	O
+was	723	726	O
+placed	727	733	O
+on	734	736	O
+obtaining	737	746	O
+an	747	749	O
+accurate	750	758	O
+description	759	770	B-Task
+of	771	773	I-Task
+the	774	777	I-Task
+alkane	778	784	I-Task
+-	784	785	I-Task
+rich	785	789	I-Task
+phases	790	796	I-Task
+(	797	798	O
+both	798	802	O
+liquid	803	809	B-Material
+and	810	813	O
+vapour	814	820	B-Material
+)	820	821	O
+,	821	822	O
+while	823	828	O
+small	829	834	O
+absolute	835	843	O
+(	844	845	O
+but	845	848	O
+not	849	852	O
+relative	853	861	O
+)	861	862	O
+deviations	863	873	O
+for	874	877	O
+the	878	881	O
+aqueous	882	889	O
+phase	890	895	O
+composition	896	907	O
+were	908	912	O
+achieved	913	921	O
+.	921	922	O
+
+The	923	926	O
+systems	927	934	O
+of	935	937	O
+interest	938	946	O
+in	947	949	O
+our	950	953	O
+current	954	961	O
+work	962	966	O
+are	967	970	O
+typically	971	980	O
+aqueous	981	988	B-Material
+mixtures	989	997	I-Material
+containing	998	1008	O
+a	1009	1010	O
+high	1011	1015	O
+proportion	1016	1026	O
+of	1027	1029	O
+H2O	1030	1033	B-Material
+,	1033	1034	O
+alkylamine	1035	1045	B-Material
+,	1045	1046	O
+and	1047	1050	O
+CO2	1051	1054	B-Material
+.	1054	1055	O
+
+Consequently	1056	1068	O
+,	1068	1069	O
+in	1070	1072	O
+order	1073	1078	O
+to	1079	1081	O
+provide	1082	1089	O
+an	1090	1092	O
+improved	1093	1101	O
+overall	1102	1109	O
+description	1110	1121	O
+of	1122	1124	O
+the	1125	1128	O
+fluid	1129	1134	B-Process
+-	1134	1135	I-Process
+phase	1135	1140	I-Process
+equilibria	1141	1151	I-Process
+at	1152	1154	O
+the	1155	1158	O
+conditions	1159	1169	O
+of	1170	1172	O
+interest	1173	1181	O
+,	1181	1182	O
+refinements	1183	1194	O
+have	1195	1199	O
+been	1200	1204	O
+made	1205	1209	O
+to	1210	1212	O
+the	1213	1216	O
+unlike	1217	1223	O
+parameters	1224	1234	O
+presented	1235	1244	O
+in	1245	1247	O
+the	1248	1251	O
+previous	1252	1260	O
+study	1261	1266	O
+[	1267	1268	O
+129	1268	1271	O
+]	1271	1272	O
+relating	1273	1281	O
+to	1282	1284	O
+the	1285	1288	O
+interactions	1289	1301	B-Process
+between	1302	1309	I-Process
+H2O	1310	1313	I-Process
+and	1314	1317	I-Process
+the	1318	1321	I-Process
+alkyl	1322	1327	I-Process
+groups	1328	1334	I-Process
+,	1334	1335	O
+CH3	1336	1339	B-Material
+and	1340	1343	I-Material
+CH2	1344	1347	I-Material
+,	1347	1348	O
+namely	1349	1355	O
+ϵCH3,H2O	1356	1364	B-Process
+,	1364	1365	I-Process
+ϵCH2,H2O	1366	1374	I-Process
+and	1375	1378	O
+λCH3,H2O	1379	1387	B-Process
+,	1387	1388	I-Process
+λCH2,H2O.	1389	1398	I-Process
 
 
 -DOCSTART- (S0378381215301291)
 
-Recently	NN	O	O
-,	NN	O	O
-fundamental	NN	O	O
-(	NN	O	O
-thermophysical	NN	O	O
-property	NN	O	O
-)	NN	O	O
-research	NN	O	O
-on	NN	O	O
-ionic	NN	O	B-Material
-clathrate	NN	O	I-Material
-hydrates	NN	O	I-Material
-has	NN	O	O
-experienced	NN	O	O
-remarkable	NN	O	O
-growth	NN	O	O
-,	NN	O	O
-particularly	NN	O	O
-over	NN	O	O
-the	NN	O	O
-last	NN	O	O
-ten	NN	O	O
-years	NN	O	O
-[	NN	O	O
-21–30	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Previously	NN	O	O
-,	NN	O	O
-beginning	NN	O	O
-with	NN	O	O
-the	NN	O	O
-first	NN	O	O
-paper	NN	O	O
-on	NN	O	O
-unusual	NN	O	B-Material
-hydrates	NN	O	I-Material
-of	NN	O	I-Material
-tetrabutylammonium	NN	O	I-Material
-salts	NN	O	I-Material
-in	NN	O	O
-1940	NN	O	O
-[	NN	O	O
-31	NN	O	O
-]	NN	O	O
-,	NN	O	O
-a	NN	O	O
-number	NN	O	O
-of	NN	O	O
-studies	NN	O	O
-could	NN	O	O
-be	NN	O	O
-found	NN	O	O
-on	NN	O	O
-ionic	NN	O	B-Material
-clathrate	NN	O	I-Material
-hydrates	NN	O	I-Material
-(	NN	O	O
-hereafter	NN	O	O
-,	NN	O	O
-semiclathrate	NN	O	B-Material
-hydrates	NN	O	I-Material
-)	NN	O	O
-[	NN	O	O
-32–35	NN	O	O
-]	NN	O	O
-before	NN	O	O
-the	NN	O	O
-unified	NN	O	O
-terminology	NN	O	O
-semiclathrate	NN	O	B-Material
-hydrate	NN	O	I-Material
-was	NN	O	O
-generally	NN	O	O
-accepted	NN	O	O
-.	NN	O	O
-
-Semiclathrate	NN	O	B-Material
-hydrates	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-attracting	NN	O	O
-increased	NN	O	O
-attention	NN	O	O
-because	NN	O	O
-of	NN	O	O
-their	NN	O	O
-promising	NN	O	O
-applications	NN	O	O
-as	NN	O	O
-phase	NN	O	B-Process
-change	NN	O	I-Process
-materials	NN	O	I-Process
-for	NN	O	I-Process
-refrigeration	NN	O	I-Process
-systems	NN	O	I-Process
-and	NN	O	O
-in	NN	O	O
-gas	NN	O	B-Process
-capture	NN	O	I-Process
-and	NN	O	I-Process
-storage	NN	O	I-Process
-[	NN	O	O
-36–41	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-interesting	NN	O	O
-speculation	NN	O	O
-that	NN	O	O
-semiclathrate	NN	O	B-Material
-hydrate	NN	O	I-Material
-may	NN	O	O
-be	NN	O	O
-regarded	NN	O	O
-as	NN	O	O
-a	NN	O	O
-representative	NN	O	O
-substance	NN	O	O
-for	NN	O	O
-the	NN	O	O
-study	NN	O	B-Task
-of	NN	O	I-Task
-thermal	NN	O	I-Task
-conductivity	NN	O	I-Task
-in	NN	O	O
-clathrate	NN	O	O
-hydrate	NN	O	O
-in	NN	O	O
-general	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-because	NN	O	O
-:	NN	O	O
-(	NN	O	O
-1	NN	O	O
-)	NN	O	O
-it	NN	O	O
-can	NN	O	O
-reduce	NN	O	O
-characterization	NN	O	O
-problems	NN	O	O
-as	NN	O	O
-a	NN	O	O
-solid	NN	O	O
-sample	NN	O	O
-,	NN	O	O
-since	NN	O	O
-semiclathrate	NN	O	B-Material
-hydrate	NN	O	I-Material
-is	NN	O	O
-formed	NN	O	O
-around	NN	O	O
-ambient	NN	O	O
-temperature	NN	O	O
-under	NN	O	O
-atmospheric	NN	O	O
-pressure	NN	O	O
-and	NN	O	O
-is	NN	O	O
-easy	NN	O	O
-to	NN	O	O
-handle	NN	O	O
-;	NN	O	O
-(	NN	O	O
-2	NN	O	O
-)	NN	O	O
-accurately	NN	O	O
-measuring	NN	O	B-Task
-the	NN	O	I-Task
-thermal	NN	O	I-Task
-conductivity	NN	O	I-Task
-of	NN	O	O
-semiclathrate	NN	O	B-Material
-hydrates	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-have	NN	O	O
-many	NN	O	O
-similarities	NN	O	O
-to	NN	O	O
-clathrate	NN	O	B-Material
-hydrates	NN	O	I-Material
-,	NN	O	O
-may	NN	O	O
-make	NN	O	O
-possible	NN	O	O
-a	NN	O	O
-deeper	NN	O	O
-understanding	NN	O	O
-of	NN	O	O
-the	NN	O	O
-unique	NN	O	O
-(	NN	O	O
-anomalous	NN	O	O
-)	NN	O	O
-behavior	NN	O	O
-of	NN	O	O
-the	NN	O	O
-thermal	NN	O	B-Process
-conductivity	NN	O	I-Process
-of	NN	O	O
-clathrate	NN	O	B-Material
-hydrates	NN	O	I-Material
-;	NN	O	O
-and	NN	O	O
-(	NN	O	O
-3	NN	O	O
-)	NN	O	O
-currently	NN	O	O
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-no	NN	O	O
-experimental	NN	O	O
-studies	NN	O	O
-on	NN	O	O
-the	NN	O	O
-thermal	NN	O	O
-conductivity	NN	O	O
-of	NN	O	O
-semiclathrate	NN	O	B-Material
-hydrates	NN	O	I-Material
-.	NN	O	O
+Recently	0	8	O
+,	8	9	O
+fundamental	10	21	O
+(	22	23	O
+thermophysical	23	37	O
+property	38	46	O
+)	46	47	O
+research	48	56	O
+on	57	59	O
+ionic	60	65	B-Material
+clathrate	66	75	I-Material
+hydrates	76	84	I-Material
+has	85	88	O
+experienced	89	100	O
+remarkable	101	111	O
+growth	112	118	O
+,	118	119	O
+particularly	120	132	O
+over	133	137	O
+the	138	141	O
+last	142	146	O
+ten	147	150	O
+years	151	156	O
+[	157	158	O
+21–30	158	163	O
+]	163	164	O
+.	164	165	O
+
+Previously	166	176	O
+,	176	177	O
+beginning	178	187	O
+with	188	192	O
+the	193	196	O
+first	197	202	O
+paper	203	208	O
+on	209	211	O
+unusual	212	219	B-Material
+hydrates	220	228	I-Material
+of	229	231	I-Material
+tetrabutylammonium	232	250	I-Material
+salts	251	256	I-Material
+in	257	259	O
+1940	260	264	O
+[	265	266	O
+31	266	268	O
+]	268	269	O
+,	269	270	O
+a	271	272	O
+number	273	279	O
+of	280	282	O
+studies	283	290	O
+could	291	296	O
+be	297	299	O
+found	300	305	O
+on	306	308	O
+ionic	309	314	B-Material
+clathrate	315	324	I-Material
+hydrates	325	333	I-Material
+(	334	335	O
+hereafter	335	344	O
+,	344	345	O
+semiclathrate	346	359	B-Material
+hydrates	360	368	I-Material
+)	368	369	O
+[	370	371	O
+32–35	371	376	O
+]	376	377	O
+before	378	384	O
+the	385	388	O
+unified	389	396	O
+terminology	397	408	O
+semiclathrate	409	422	B-Material
+hydrate	423	430	I-Material
+was	431	434	O
+generally	435	444	O
+accepted	445	453	O
+.	453	454	O
+
+Semiclathrate	455	468	B-Material
+hydrates	469	477	I-Material
+have	478	482	O
+been	483	487	O
+attracting	488	498	O
+increased	499	508	O
+attention	509	518	O
+because	519	526	O
+of	527	529	O
+their	530	535	O
+promising	536	545	O
+applications	546	558	O
+as	559	561	O
+phase	562	567	B-Process
+change	568	574	I-Process
+materials	575	584	I-Process
+for	585	588	I-Process
+refrigeration	589	602	I-Process
+systems	603	610	I-Process
+and	611	614	O
+in	615	617	O
+gas	618	621	B-Process
+capture	622	629	I-Process
+and	630	633	I-Process
+storage	634	641	I-Process
+[	642	643	O
+36–41	643	648	O
+]	648	649	O
+.	649	650	O
+
+In	651	653	O
+addition	654	662	O
+,	662	663	O
+there	664	669	O
+is	670	672	O
+interesting	673	684	O
+speculation	685	696	O
+that	697	701	O
+semiclathrate	702	715	B-Material
+hydrate	716	723	I-Material
+may	724	727	O
+be	728	730	O
+regarded	731	739	O
+as	740	742	O
+a	743	744	O
+representative	745	759	O
+substance	760	769	O
+for	770	773	O
+the	774	777	O
+study	778	783	B-Task
+of	784	786	I-Task
+thermal	787	794	I-Task
+conductivity	795	807	I-Task
+in	808	810	O
+clathrate	811	820	O
+hydrate	821	828	O
+in	829	831	O
+general	832	839	O
+.	839	840	O
+
+This	841	845	O
+is	846	848	O
+because	849	856	O
+:	856	857	O
+(	858	859	O
+1	859	860	O
+)	860	861	O
+it	862	864	O
+can	865	868	O
+reduce	869	875	O
+characterization	876	892	O
+problems	893	901	O
+as	902	904	O
+a	905	906	O
+solid	907	912	O
+sample	913	919	O
+,	919	920	O
+since	921	926	O
+semiclathrate	927	940	B-Material
+hydrate	941	948	I-Material
+is	949	951	O
+formed	952	958	O
+around	959	965	O
+ambient	966	973	O
+temperature	974	985	O
+under	986	991	O
+atmospheric	992	1003	O
+pressure	1004	1012	O
+and	1013	1016	O
+is	1017	1019	O
+easy	1020	1024	O
+to	1025	1027	O
+handle	1028	1034	O
+;	1034	1035	O
+(	1036	1037	O
+2	1037	1038	O
+)	1038	1039	O
+accurately	1040	1050	O
+measuring	1051	1060	B-Task
+the	1061	1064	I-Task
+thermal	1065	1072	I-Task
+conductivity	1073	1085	I-Task
+of	1086	1088	O
+semiclathrate	1089	1102	B-Material
+hydrates	1103	1111	I-Material
+,	1111	1112	O
+which	1113	1118	O
+have	1119	1123	O
+many	1124	1128	O
+similarities	1129	1141	O
+to	1142	1144	O
+clathrate	1145	1154	B-Material
+hydrates	1155	1163	I-Material
+,	1163	1164	O
+may	1165	1168	O
+make	1169	1173	O
+possible	1174	1182	O
+a	1183	1184	O
+deeper	1185	1191	O
+understanding	1192	1205	O
+of	1206	1208	O
+the	1209	1212	O
+unique	1213	1219	O
+(	1220	1221	O
+anomalous	1221	1230	O
+)	1230	1231	O
+behavior	1232	1240	O
+of	1241	1243	O
+the	1244	1247	O
+thermal	1248	1255	B-Process
+conductivity	1256	1268	I-Process
+of	1269	1271	O
+clathrate	1272	1281	B-Material
+hydrates	1282	1290	I-Material
+;	1290	1291	O
+and	1292	1295	O
+(	1296	1297	O
+3	1297	1298	O
+)	1298	1299	O
+currently	1300	1309	O
+,	1309	1310	O
+there	1311	1316	O
+are	1317	1320	O
+no	1321	1323	O
+experimental	1324	1336	O
+studies	1337	1344	O
+on	1345	1347	O
+the	1348	1351	O
+thermal	1352	1359	O
+conductivity	1360	1372	O
+of	1373	1375	O
+semiclathrate	1376	1389	B-Material
+hydrates	1390	1398	I-Material
+.	1398	1399	O
 
 
 -DOCSTART- (S0379711213001653)
 
-With	NN	O	O
-development	NN	O	O
-of	NN	O	O
-performance	NN	O	B-Task
--	NN	O	I-Task
-based	NN	O	I-Task
-design	NN	O	I-Task
-,	NN	O	O
-some	NN	O	O
-studies	NN	O	O
-have	NN	O	O
-been	NN	O	O
-conducted	NN	O	O
-on	NN	O	O
-fire	NN	O	O
-risk	NN	O	O
-analysis	NN	O	O
-in	NN	O	O
-buildings	NN	O	O
-from	NN	O	O
-different	NN	O	O
-perspectives	NN	O	O
-and	NN	O	O
-levels	NN	O	O
-.	NN	O	O
-
-Models	NN	O	B-Process
-such	NN	O	O
-as	NN	O	O
-FiRECAM	NN	O	B-Process
-
-[	NN	O	O
-11,12	NN	O	O
-]	NN	O	O
-and	NN	O	O
-FiERAsystem	NN	O	B-Process
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-were	NN	O	O
-used	NN	O	O
-to	NN	O	O
-calculate	NN	O	O
-the	NN	O	O
-expected	NN	O	O
-life	NN	O	O
-risk	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-other	NN	O	O
-studies	NN	O	O
-probabilistic	NN	O	B-Process
-methods	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-used	NN	O	O
-to	NN	O	O
-assess	NN	O	O
-levels	NN	O	O
-of	NN	O	O
-people	NN	O	O
-safety	NN	O	O
-in	NN	O	O
-buildings	NN	O	O
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Quantitative	NN	O	B-Process
-risk	NN	O	I-Process
-analysis	NN	O	I-Process
-approaches	NN	O	I-Process
-have	NN	O	O
-also	NN	O	O
-been	NN	O	O
-used	NN	O	O
-to	NN	O	O
-quantify	NN	O	O
-the	NN	O	O
-risk	NN	O	O
-to	NN	O	O
-occupants	NN	O	O
-using	NN	O	O
-stochastic	NN	O	B-Process
-factors	NN	O	I-Process
-[	NN	O	O
-15	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-studies	NN	O	O
-to	NN	O	O
-date	NN	O	O
-have	NN	O	O
-largely	NN	O	O
-been	NN	O	O
-concerned	NN	O	O
-with	NN	O	O
-various	NN	O	O
-aspects	NN	O	B-Material
-of	NN	O	I-Material
-fire	NN	O	I-Material
-risk	NN	O	I-Material
-analysis	NN	O	I-Material
-and	NN	O	O
-there	NN	O	O
-has	NN	O	O
-been	NN	O	O
-little	NN	O	O
-in	NN	O	O
-the	NN	O	O
-way	NN	O	O
-of	NN	O	O
-development	NN	O	O
-of	NN	O	O
-systematic	NN	O	B-Process
-theoretical	NN	O	I-Process
-methods	NN	O	I-Process
-for	NN	O	O
-analyzing	NN	O	O
-fire	NN	O	O
-risk	NN	O	O
-in	NN	O	O
-buildings	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-fire	NN	O	O
-risk	NN	O	O
-management	NN	O	O
-.	NN	O	O
-
-Existing	NN	O	O
-fire	NN	O	O
-risk	NN	O	O
-management	NN	O	O
-involves	NN	O	O
-the	NN	O	O
-identification	NN	O	B-Process
-of	NN	O	I-Process
-alternative	NN	O	I-Process
-fire	NN	O	I-Process
-safety	NN	O	I-Process
-design	NN	O	I-Process
-options	NN	O	I-Process
-[	NN	O	O
-16,17	NN	O	O
-]	NN	O	O
-,	NN	O	O
-the	NN	O	O
-ongoing	NN	O	B-Process
-inspection	NN	O	I-Process
-,	NN	O	O
-maintenance	NN	O	B-Process
-of	NN	O	I-Process
-fire	NN	O	I-Process
-protection	NN	O	I-Process
-systems	NN	O	I-Process
-[	NN	O	O
-18	NN	O	O
-]	NN	O	O
-and	NN	O	O
-evacuation	NN	O	B-Process
-training	NN	O	I-Process
-and	NN	O	I-Process
-drills	NN	O	I-Process
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-study	NN	O	O
-,	NN	O	O
-basic	NN	O	B-Material
-process	NN	O	I-Material
-of	NN	O	I-Material
-fire	NN	O	I-Material
-risk	NN	O	I-Material
-analysis	NN	O	I-Material
-in	NN	O	O
-building	NN	O	O
-is	NN	O	O
-described	NN	O	O
-,	NN	O	O
-and	NN	O	O
-a	NN	O	O
-fire	NN	O	O
-risk	NN	O	O
-analysis	NN	O	O
-model	NN	O	O
-based	NN	O	O
-on	NN	O	O
-scenario	NN	O	O
-clusters	NN	O	O
-is	NN	O	O
-established	NN	O	O
-with	NN	O	O
-consideration	NN	O	O
-of	NN	O	O
-the	NN	O	O
-characteristics	NN	O	O
-of	NN	O	O
-fire	NN	O	O
-dynamics	NN	O	O
-and	NN	O	O
-occupants	NN	O	O
-'	NN	O	O
-behavior	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-number	NN	O	B-Material
-of	NN	O	I-Material
-deaths	NN	O	I-Material
-and	NN	O	I-Material
-directive	NN	O	I-Material
-property	NN	O	I-Material
-loss	NN	O	I-Material
-are	NN	O	O
-selected	NN	O	O
-as	NN	O	O
-fire	NN	O	O
-risk	NN	O	O
-indices	NN	O	O
-and	NN	O	O
-the	NN	O	O
-average	NN	O	B-Material
-fire	NN	O	I-Material
-risk	NN	O	I-Material
-of	NN	O	O
-residential	NN	O	O
-buildings	NN	O	O
-is	NN	O	O
-quantitatively	NN	O	O
-analyzed	NN	O	O
-,	NN	O	O
-so	NN	O	O
-that	NN	O	O
-appropriate	NN	O	O
-fire	NN	O	O
-risk	NN	O	O
-management	NN	O	O
-measures	NN	O	O
-can	NN	O	O
-be	NN	O	O
-adopted	NN	O	O
-.	NN	O	O
+With	0	4	O
+development	5	16	O
+of	17	19	O
+performance	20	31	B-Task
+-	31	32	I-Task
+based	32	37	I-Task
+design	38	44	I-Task
+,	44	45	O
+some	46	50	O
+studies	51	58	O
+have	59	63	O
+been	64	68	O
+conducted	69	78	O
+on	79	81	O
+fire	82	86	O
+risk	87	91	O
+analysis	92	100	O
+in	101	103	O
+buildings	104	113	O
+from	114	118	O
+different	119	128	O
+perspectives	129	141	O
+and	142	145	O
+levels	146	152	O
+.	152	153	O
+
+Models	154	160	B-Process
+such	161	165	O
+as	166	168	O
+FiRECAM	169	176	B-Process
+
+[	177	178	O
+11,12	178	183	O
+]	183	184	O
+and	185	188	O
+FiERAsystem	189	200	B-Process
+[	201	202	O
+13	202	204	O
+]	204	205	O
+were	206	210	O
+used	211	215	O
+to	216	218	O
+calculate	219	228	O
+the	229	232	O
+expected	233	241	O
+life	242	246	O
+risk	247	251	O
+.	251	252	O
+
+In	253	255	O
+other	256	261	O
+studies	262	269	O
+probabilistic	270	283	B-Process
+methods	284	291	I-Process
+have	292	296	O
+been	297	301	O
+used	302	306	O
+to	307	309	O
+assess	310	316	O
+levels	317	323	O
+of	324	326	O
+people	327	333	O
+safety	334	340	O
+in	341	343	O
+buildings	344	353	O
+[	354	355	O
+14	355	357	O
+]	357	358	O
+.	358	359	O
+
+Quantitative	360	372	B-Process
+risk	373	377	I-Process
+analysis	378	386	I-Process
+approaches	387	397	I-Process
+have	398	402	O
+also	403	407	O
+been	408	412	O
+used	413	417	O
+to	418	420	O
+quantify	421	429	O
+the	430	433	O
+risk	434	438	O
+to	439	441	O
+occupants	442	451	O
+using	452	457	O
+stochastic	458	468	B-Process
+factors	469	476	I-Process
+[	477	478	O
+15	478	480	O
+]	480	481	O
+.	481	482	O
+
+However	483	490	O
+,	490	491	O
+studies	492	499	O
+to	500	502	O
+date	503	507	O
+have	508	512	O
+largely	513	520	O
+been	521	525	O
+concerned	526	535	O
+with	536	540	O
+various	541	548	O
+aspects	549	556	B-Material
+of	557	559	I-Material
+fire	560	564	I-Material
+risk	565	569	I-Material
+analysis	570	578	I-Material
+and	579	582	O
+there	583	588	O
+has	589	592	O
+been	593	597	O
+little	598	604	O
+in	605	607	O
+the	608	611	O
+way	612	615	O
+of	616	618	O
+development	619	630	O
+of	631	633	O
+systematic	634	644	B-Process
+theoretical	645	656	I-Process
+methods	657	664	I-Process
+for	665	668	O
+analyzing	669	678	O
+fire	679	683	O
+risk	684	688	O
+in	689	691	O
+buildings	692	701	O
+in	702	704	O
+terms	705	710	O
+of	711	713	O
+fire	714	718	O
+risk	719	723	O
+management	724	734	O
+.	734	735	O
+
+Existing	736	744	O
+fire	745	749	O
+risk	750	754	O
+management	755	765	O
+involves	766	774	O
+the	775	778	O
+identification	779	793	B-Process
+of	794	796	I-Process
+alternative	797	808	I-Process
+fire	809	813	I-Process
+safety	814	820	I-Process
+design	821	827	I-Process
+options	828	835	I-Process
+[	836	837	O
+16,17	837	842	O
+]	842	843	O
+,	843	844	O
+the	845	848	O
+ongoing	849	856	B-Process
+inspection	857	867	I-Process
+,	867	868	O
+maintenance	869	880	B-Process
+of	881	883	I-Process
+fire	884	888	I-Process
+protection	889	899	I-Process
+systems	900	907	I-Process
+[	908	909	O
+18	909	911	O
+]	911	912	O
+and	913	916	O
+evacuation	917	927	B-Process
+training	928	936	I-Process
+and	937	940	I-Process
+drills	941	947	I-Process
+[	948	949	O
+19	949	951	O
+]	951	952	O
+.	952	953	O
+
+In	954	956	O
+this	957	961	O
+study	962	967	O
+,	967	968	O
+basic	969	974	B-Material
+process	975	982	I-Material
+of	983	985	I-Material
+fire	986	990	I-Material
+risk	991	995	I-Material
+analysis	996	1004	I-Material
+in	1005	1007	O
+building	1008	1016	O
+is	1017	1019	O
+described	1020	1029	O
+,	1029	1030	O
+and	1031	1034	O
+a	1035	1036	O
+fire	1037	1041	O
+risk	1042	1046	O
+analysis	1047	1055	O
+model	1056	1061	O
+based	1062	1067	O
+on	1068	1070	O
+scenario	1071	1079	O
+clusters	1080	1088	O
+is	1089	1091	O
+established	1092	1103	O
+with	1104	1108	O
+consideration	1109	1122	O
+of	1123	1125	O
+the	1126	1129	O
+characteristics	1130	1145	O
+of	1146	1148	O
+fire	1149	1153	O
+dynamics	1154	1162	O
+and	1163	1166	O
+occupants	1167	1176	O
+'	1176	1177	O
+behavior	1178	1186	O
+.	1186	1187	O
+
+The	1188	1191	O
+number	1192	1198	B-Material
+of	1199	1201	I-Material
+deaths	1202	1208	I-Material
+and	1209	1212	I-Material
+directive	1213	1222	I-Material
+property	1223	1231	I-Material
+loss	1232	1236	I-Material
+are	1237	1240	O
+selected	1241	1249	O
+as	1250	1252	O
+fire	1253	1257	O
+risk	1258	1262	O
+indices	1263	1270	O
+and	1271	1274	O
+the	1275	1278	O
+average	1279	1286	B-Material
+fire	1287	1291	I-Material
+risk	1292	1296	I-Material
+of	1297	1299	O
+residential	1300	1311	O
+buildings	1312	1321	O
+is	1322	1324	O
+quantitatively	1325	1339	O
+analyzed	1340	1348	O
+,	1348	1349	O
+so	1350	1352	O
+that	1353	1357	O
+appropriate	1358	1369	O
+fire	1370	1374	O
+risk	1375	1379	O
+management	1380	1390	O
+measures	1391	1399	O
+can	1400	1403	O
+be	1404	1406	O
+adopted	1407	1414	O
+.	1414	1415	O
 
 
 -DOCSTART- (S0379711215000223)
 
-The	NN	O	O
-mentioned	NN	O	O
-difficulties	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-the	NN	O	O
-calibration	NN	O	B-Process
-process	NN	O	I-Process
-inspired	NN	O	O
-the	NN	O	O
-concept	NN	O	O
-of	NN	O	O
-inverse	NN	O	B-Task
-modelling	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-case	NN	O	O
-,	NN	O	O
-the	NN	O	O
-experimental	NN	O	B-Material
-data	NN	O	I-Material
-become	NN	O	O
-entirely	NN	O	O
-integrated	NN	O	O
-in	NN	O	O
-the	NN	O	O
-calibration	NN	O	B-Process
-process	NN	O	I-Process
-and	NN	O	O
-an	NN	O	O
-optimization	NN	O	B-Process
-routine	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-quantify	NN	O	B-Task
-the	NN	O	I-Task
-best	NN	O	I-Task
-set	NN	O	I-Task
-of	NN	O	I-Task
-parameters	NN	O	I-Task
-which	NN	O	O
-explain	NN	O	O
-the	NN	O	O
-observed	NN	O	O
-pyrolysis	NN	O	B-Task
-behaviour	NN	O	I-Task
-(	NN	O	O
-i.e.	NN	O	O
-multivariable	NN	O	B-Task
-curve	NN	O	I-Task
-fitting	NN	O	I-Task
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-most	NN	O	O
-used	NN	O	O
-experimental	NN	O	B-Material
-data	NN	O	I-Material
-for	NN	O	O
-model	NN	O	B-Process
-calibration	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-the	NN	O	O
-mass	NN	O	B-Process
-loss	NN	O	I-Process
-rate	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-surface	NN	O	B-Process
-temperature	NN	O	I-Process
-[	NN	O	I-Process
-10–12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-optimization	NN	O	B-Process
-technique	NN	O	I-Process
-used	NN	O	O
-is	NN	O	O
-function	NN	O	O
-of	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-variables	NN	O	O
-and	NN	O	O
-their	NN	O	O
-interactions	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-past	NN	O	O
-,	NN	O	O
-only	NN	O	O
-the	NN	O	O
-few	NN	O	O
-most	NN	O	O
-uncertain	NN	O	O
-parameters	NN	O	B-Process
-(	NN	O	O
-i.e.	NN	O	O
-the	NN	O	O
-kinetics	NN	O	B-Process
-parameters	NN	O	I-Process
-)	NN	O	O
-were	NN	O	O
-generally	NN	O	O
-used	NN	O	O
-as	NN	O	O
-potentiometers	NN	O	B-Process
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-sophisticated	NN	O	O
-mathematical	NN	O	B-Process
-procedures	NN	O	I-Process
-have	NN	O	O
-been	NN	O	O
-developed	NN	O	O
-to	NN	O	O
-increase	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-parameters	NN	O	B-Process
-optimized	NN	O	O
-simultaneously	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-Genetic	NN	O	B-Process
-Algorithm	NN	O	I-Process
-(	NN	O	O
-GA	NN	O	B-Process
-)	NN	O	O
-
-[	NN	O	O
-10,14	NN	O	O
-]	NN	O	O
-or	NN	O	O
-Shuffled	NN	O	B-Process
-Complex	NN	O	I-Process
-Evolution	NN	O	I-Process
-(	NN	O	O
-SCE	NN	O	B-Process
-)	NN	O	O
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Lautenberger	NN	O	O
-and	NN	O	O
-Fernandez	NN	O	O
--	NN	O	O
-Pello	NN	O	O
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-have	NN	O	O
-recently	NN	O	O
-investigated	NN	O	O
-the	NN	O	O
-influence	NN	O	O
-that	NN	O	O
-the	NN	O	O
-choice	NN	O	B-Process
-of	NN	O	I-Process
-algorithm	NN	O	I-Process
-can	NN	O	O
-have	NN	O	O
-on	NN	O	O
-the	NN	O	O
-optimized	NN	O	O
-parameters	NN	O	O
-.	NN	O	O
-
-They	NN	O	O
-generated	NN	O	O
-using	NN	O	O
-their	NN	O	O
-code	NN	O	O
-GPYRO	NN	O	B-Material
-a	NN	O	O
-set	NN	O	O
-of	NN	O	O
-synthetic	NN	O	B-Material
-data	NN	O	I-Material
-(	NN	O	O
-mass	NN	O	O
-loss	NN	O	O
-rate	NN	O	O
-and	NN	O	O
-surfaces	NN	O	O
-temperature	NN	O	O
-)	NN	O	O
-and	NN	O	O
-tried	NN	O	O
-with	NN	O	O
-different	NN	O	O
-algorithms	NN	O	B-Process
-to	NN	O	O
-find	NN	O	O
-back	NN	O	O
-the	NN	O	O
-set	NN	O	O
-of	NN	O	O
-input	NN	O	O
-parameters	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-four	NN	O	O
-optimization	NN	O	B-Process
-algorithms	NN	O	I-Process
-provided	NN	O	O
-results	NN	O	O
-with	NN	O	O
-an	NN	O	O
-absolute	NN	O	O
-average	NN	O	O
-error	NN	O	O
-between	NN	O	O
-1	NN	O	O
-%	NN	O	O
-and	NN	O	O
-25	NN	O	O
-%	NN	O	O
-.	NN	O	O
-
-SCE	NN	O	B-Process
-was	NN	O	O
-the	NN	O	O
-most	NN	O	O
-suitable	NN	O	O
-algorithm	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-use	NN	O	O
-of	NN	O	O
-synthetic	NN	O	B-Material
-data	NN	O	I-Material
-conveniently	NN	O	O
-avoids	NN	O	O
-the	NN	O	O
-problem	NN	O	O
-of	NN	O	O
-agreement	NN	O	O
-between	NN	O	O
-the	NN	O	O
-actual	NN	O	O
-physical	NN	O	O
-phenomena	NN	O	O
-and	NN	O	O
-any	NN	O	O
-modelling	NN	O	O
-assumption	NN	O	O
-.	NN	O	O
+The	0	3	O
+mentioned	4	13	O
+difficulties	14	26	O
+associated	27	37	O
+with	38	42	O
+the	43	46	O
+calibration	47	58	B-Process
+process	59	66	I-Process
+inspired	67	75	O
+the	76	79	O
+concept	80	87	O
+of	88	90	O
+inverse	91	98	B-Task
+modelling	99	108	I-Task
+.	108	109	O
+
+In	110	112	O
+this	113	117	O
+case	118	122	O
+,	122	123	O
+the	124	127	O
+experimental	128	140	B-Material
+data	141	145	I-Material
+become	146	152	O
+entirely	153	161	O
+integrated	162	172	O
+in	173	175	O
+the	176	179	O
+calibration	180	191	B-Process
+process	192	199	I-Process
+and	200	203	O
+an	204	206	O
+optimization	207	219	B-Process
+routine	220	227	I-Process
+is	228	230	O
+used	231	235	O
+to	236	238	O
+quantify	239	247	B-Task
+the	248	251	I-Task
+best	252	256	I-Task
+set	257	260	I-Task
+of	261	263	I-Task
+parameters	264	274	I-Task
+which	275	280	O
+explain	281	288	O
+the	289	292	O
+observed	293	301	O
+pyrolysis	302	311	B-Task
+behaviour	312	321	I-Task
+(	322	323	O
+i.e.	323	327	O
+multivariable	328	341	B-Task
+curve	342	347	I-Task
+fitting	348	355	I-Task
+)	355	356	O
+.	356	357	O
+
+The	358	361	O
+most	362	366	O
+used	367	371	O
+experimental	372	384	B-Material
+data	385	389	I-Material
+for	390	393	O
+model	394	399	B-Process
+calibration	400	411	I-Process
+have	412	416	O
+been	417	421	O
+the	422	425	O
+mass	426	430	B-Process
+loss	431	435	I-Process
+rate	436	440	I-Process
+and	441	444	O
+the	445	448	O
+surface	449	456	B-Process
+temperature	457	468	I-Process
+[	469	470	I-Process
+10–12	470	475	O
+]	475	476	O
+.	476	477	O
+
+The	478	481	O
+optimization	482	494	B-Process
+technique	495	504	I-Process
+used	505	509	O
+is	510	512	O
+function	513	521	O
+of	522	524	O
+the	525	528	O
+number	529	535	O
+of	536	538	O
+variables	539	548	O
+and	549	552	O
+their	553	558	O
+interactions	559	571	O
+.	571	572	O
+
+In	573	575	O
+the	576	579	O
+past	580	584	O
+,	584	585	O
+only	586	590	O
+the	591	594	O
+few	595	598	O
+most	599	603	O
+uncertain	604	613	O
+parameters	614	624	B-Process
+(	625	626	O
+i.e.	626	630	O
+the	631	634	O
+kinetics	635	643	B-Process
+parameters	644	654	I-Process
+)	654	655	O
+were	656	660	O
+generally	661	670	O
+used	671	675	O
+as	676	678	O
+potentiometers	679	693	B-Process
+[	694	695	O
+13	695	697	O
+]	697	698	O
+.	698	699	O
+
+However	700	707	O
+,	707	708	O
+sophisticated	709	722	O
+mathematical	723	735	B-Process
+procedures	736	746	I-Process
+have	747	751	O
+been	752	756	O
+developed	757	766	O
+to	767	769	O
+increase	770	778	O
+the	779	782	O
+number	783	789	O
+of	790	792	O
+parameters	793	803	B-Process
+optimized	804	813	O
+simultaneously	814	828	O
+(	829	830	O
+e.g.	830	834	O
+Genetic	835	842	B-Process
+Algorithm	843	852	I-Process
+(	853	854	O
+GA	854	856	B-Process
+)	856	857	O
+
+[	858	859	O
+10,14	859	864	O
+]	864	865	O
+or	866	868	O
+Shuffled	869	877	B-Process
+Complex	878	885	I-Process
+Evolution	886	895	I-Process
+(	896	897	O
+SCE	897	900	B-Process
+)	900	901	O
+[	902	903	O
+11	903	905	O
+]	905	906	O
+)	906	907	O
+.	907	908	O
+
+Lautenberger	909	921	O
+and	922	925	O
+Fernandez	926	935	O
+-	935	936	O
+Pello	936	941	O
+[	942	943	O
+12	943	945	O
+]	945	946	O
+have	947	951	O
+recently	952	960	O
+investigated	961	973	O
+the	974	977	O
+influence	978	987	O
+that	988	992	O
+the	993	996	O
+choice	997	1003	B-Process
+of	1004	1006	I-Process
+algorithm	1007	1016	I-Process
+can	1017	1020	O
+have	1021	1025	O
+on	1026	1028	O
+the	1029	1032	O
+optimized	1033	1042	O
+parameters	1043	1053	O
+.	1053	1054	O
+
+They	1055	1059	O
+generated	1060	1069	O
+using	1070	1075	O
+their	1076	1081	O
+code	1082	1086	O
+GPYRO	1087	1092	B-Material
+a	1093	1094	O
+set	1095	1098	O
+of	1099	1101	O
+synthetic	1102	1111	B-Material
+data	1112	1116	I-Material
+(	1117	1118	O
+mass	1118	1122	O
+loss	1123	1127	O
+rate	1128	1132	O
+and	1133	1136	O
+surfaces	1137	1145	O
+temperature	1146	1157	O
+)	1157	1158	O
+and	1159	1162	O
+tried	1163	1168	O
+with	1169	1173	O
+different	1174	1183	O
+algorithms	1184	1194	B-Process
+to	1195	1197	O
+find	1198	1202	O
+back	1203	1207	O
+the	1208	1211	O
+set	1212	1215	O
+of	1216	1218	O
+input	1219	1224	O
+parameters	1225	1235	O
+.	1235	1236	O
+
+The	1237	1240	O
+four	1241	1245	O
+optimization	1246	1258	B-Process
+algorithms	1259	1269	I-Process
+provided	1270	1278	O
+results	1279	1286	O
+with	1287	1291	O
+an	1292	1294	O
+absolute	1295	1303	O
+average	1304	1311	O
+error	1312	1317	O
+between	1318	1325	O
+1	1326	1327	O
+%	1327	1328	O
+and	1329	1332	O
+25	1333	1335	O
+%	1335	1336	O
+.	1336	1337	O
+
+SCE	1338	1341	B-Process
+was	1342	1345	O
+the	1346	1349	O
+most	1350	1354	O
+suitable	1355	1363	O
+algorithm	1364	1373	B-Process
+.	1373	1374	O
+
+The	1375	1378	O
+use	1379	1382	O
+of	1383	1385	O
+synthetic	1386	1395	B-Material
+data	1396	1400	I-Material
+conveniently	1401	1413	O
+avoids	1414	1420	O
+the	1421	1424	O
+problem	1425	1432	O
+of	1433	1435	O
+agreement	1436	1445	O
+between	1446	1453	O
+the	1454	1457	O
+actual	1458	1464	O
+physical	1465	1473	O
+phenomena	1474	1483	O
+and	1484	1487	O
+any	1488	1491	O
+modelling	1492	1501	O
+assumption	1502	1512	O
+.	1512	1513	O
 
 
 -DOCSTART- (S0393044012000198)
 
-RemarkThe	NN	O	O
-purely	NN	O	O
-radiative	NN	O	B-Task
-spacetimes	NN	O	I-Task
-used	NN	O	O
-as	NN	O	O
-reference	NN	O	B-Material
-solutions	NN	O	I-Material
-in	NN	O	O
-our	NN	O	O
-analysis	NN	O	O
-are	NN	O	O
-not	NN	O	O
-perturbations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Minkowski	NN	O	B-Task
-spacetime	NN	O	I-Task
-.	NN	O	O
-
-A	NN	O	O
-way	NN	O	O
-of	NN	O	O
-seeing	NN	O	O
-this	NN	O	O
-is	NN	O	O
-to	NN	O	O
-consider	NN	O	O
-the	NN	O	O
-Newman	NN	O	B-Material
-–	NN	O	I-Material
-Penrose	NN	O	I-Material
-constants	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-spacetime	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Newman	NN	O	O
-–	NN	O	O
-
-Penrose	NN	O	O
-constants	NN	O	O
-are	NN	O	O
-a	NN	O	O
-set	NN	O	O
-of	NN	O	O
-absolutely	NN	O	O
-conserved	NN	O	O
-quantities	NN	O	O
-defined	NN	O	O
-as	NN	O	O
-integrals	NN	O	O
-of	NN	O	O
-certain	NN	O	O
-components	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Weyl	NN	O	B-Material
-tensor	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-Maxwell	NN	O	B-Material
-fields	NN	O	I-Material
-over	NN	O	O
-cuts	NN	O	O
-of	NN	O	O
-null	NN	O	O
-infinity	NN	O	O
-—	NN	O	O
-see	NN	O	O
-[	NN	O	O
-19–21	NN	O	O
-]	NN	O	O
-for	NN	O	O
-the	NN	O	O
-Einstein	NN	O	O
-–	NN	O	O
-Maxwell	NN	O	O
-case	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-[	NN	O	O
-22	NN	O	O
-]	NN	O	O
-it	NN	O	O
-has	NN	O	O
-been	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-the	NN	O	O
-value	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Newman	NN	O	B-Material
-–	NN	O	I-Material
-Penrose	NN	O	I-Material
-constants	NN	O	I-Material
-for	NN	O	O
-a	NN	O	O
-vacuum	NN	O	B-Material
-radiative	NN	O	I-Material
-spacetime	NN	O	I-Material
-coincides	NN	O	O
-with	NN	O	O
-the	NN	O	O
-value	NN	O	O
-of	NN	O	O
-the	NN	O	O
-rescaled	NN	O	O
-Weyl	NN	O	O
-spinor	NN	O	O
-at	NN	O	O
-i+—this	NN	O	O
-result	NN	O	O
-can	NN	O	O
-be	NN	O	O
-extended	NN	O	O
-to	NN	O	O
-the	NN	O	O
-electrovacuum	NN	O	O
-case	NN	O	O
-using	NN	O	O
-the	NN	O	O
-methods	NN	O	O
-of	NN	O	O
-this	NN	O	O
-article	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-radiative	NN	O	B-Task
-spacetimes	NN	O	I-Task
-arising	NN	O	O
-from	NN	O	O
-the	NN	O	O
-construction	NN	O	O
-of	NN	O	O
-[	NN	O	O
-17	NN	O	O
-]	NN	O	O
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-seen	NN	O	O
-that	NN	O	O
-the	NN	O	O
-value	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Weyl	NN	O	O
-spinor	NN	O	O
-at	NN	O	O
-i+	NN	O	O
-is	NN	O	O
-essentially	NN	O	O
-the	NN	O	O
-mass	NN	O	O
-quadrupole	NN	O	O
-of	NN	O	O
-the	NN	O	O
-seed	NN	O	O
-static	NN	O	O
-spacetime	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-follows	NN	O	O
-,	NN	O	O
-that	NN	O	O
-the	NN	O	O
-Newman	NN	O	B-Material
-–	NN	O	I-Material
-Penrose	NN	O	I-Material
-constants	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-radiative	NN	O	B-Material
-spacetime	NN	O	I-Material
-can	NN	O	O
-take	NN	O	O
-arbitrary	NN	O	O
-values	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-other	NN	O	O
-hand	NN	O	O
-,	NN	O	O
-for	NN	O	O
-the	NN	O	O
-Minkowski	NN	O	B-Task
-spacetime	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-Newman	NN	O	O
-–	NN	O	O
-
-Penrose	NN	O	O
-constants	NN	O	O
-are	NN	O	O
-exactly	NN	O	O
-zero	NN	O	O
-,	NN	O	O
-and	NN	O	O
-those	NN	O	O
-of	NN	O	O
-perturbations	NN	O	O
-thereof	NN	O	O
-will	NN	O	O
-be	NN	O	O
-small	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-in	NN	O	O
-this	NN	O	O
-precise	NN	O	O
-sense	NN	O	O
-,	NN	O	O
-our	NN	O	O
-radiative	NN	O	B-Task
-spacetimes	NN	O	I-Task
-are	NN	O	O
-,	NN	O	O
-generically	NN	O	O
-,	NN	O	O
-not	NN	O	O
-perturbations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Minkowski	NN	O	B-Task
-spacetime	NN	O	I-Task
-,	NN	O	O
-unless	NN	O	O
-all	NN	O	O
-the	NN	O	O
-Newman	NN	O	B-Material
-–	NN	O	I-Material
-Penrose	NN	O	I-Material
-constants	NN	O	I-Material
-vanish	NN	O	O
-.	NN	O	O
+RemarkThe	0	9	O
+purely	10	16	O
+radiative	17	26	B-Task
+spacetimes	27	37	I-Task
+used	38	42	O
+as	43	45	O
+reference	46	55	B-Material
+solutions	56	65	I-Material
+in	66	68	O
+our	69	72	O
+analysis	73	81	O
+are	82	85	O
+not	86	89	O
+perturbations	90	103	O
+of	104	106	O
+the	107	110	O
+Minkowski	111	120	B-Task
+spacetime	121	130	I-Task
+.	130	131	O
+
+A	132	133	O
+way	134	137	O
+of	138	140	O
+seeing	141	147	O
+this	148	152	O
+is	153	155	O
+to	156	158	O
+consider	159	167	O
+the	168	171	O
+Newman	172	178	B-Material
+–	178	179	I-Material
+Penrose	179	186	I-Material
+constants	187	196	I-Material
+of	197	199	O
+the	200	203	O
+spacetime	204	213	O
+.	213	214	O
+
+The	215	218	O
+Newman	219	225	O
+–	225	226	O
+
+Penrose	226	233	O
+constants	234	243	O
+are	244	247	O
+a	248	249	O
+set	250	253	O
+of	254	256	O
+absolutely	257	267	O
+conserved	268	277	O
+quantities	278	288	O
+defined	289	296	O
+as	297	299	O
+integrals	300	309	O
+of	310	312	O
+certain	313	320	O
+components	321	331	O
+of	332	334	O
+the	335	338	O
+Weyl	339	343	B-Material
+tensor	344	350	I-Material
+and	351	354	O
+the	355	358	O
+Maxwell	359	366	B-Material
+fields	367	373	I-Material
+over	374	378	O
+cuts	379	383	O
+of	384	386	O
+null	387	391	O
+infinity	392	400	O
+—	400	401	O
+see	401	404	O
+[	405	406	O
+19–21	406	411	O
+]	411	412	O
+for	413	416	O
+the	417	420	O
+Einstein	421	429	O
+–	429	430	O
+Maxwell	430	437	O
+case	438	442	O
+.	442	443	O
+
+In	444	446	O
+[	447	448	O
+22	448	450	O
+]	450	451	O
+it	452	454	O
+has	455	458	O
+been	459	463	O
+shown	464	469	O
+that	470	474	O
+the	475	478	O
+value	479	484	O
+of	485	487	O
+the	488	491	O
+Newman	492	498	B-Material
+–	498	499	I-Material
+Penrose	499	506	I-Material
+constants	507	516	I-Material
+for	517	520	O
+a	521	522	O
+vacuum	523	529	B-Material
+radiative	530	539	I-Material
+spacetime	540	549	I-Material
+coincides	550	559	O
+with	560	564	O
+the	565	568	O
+value	569	574	O
+of	575	577	O
+the	578	581	O
+rescaled	582	590	O
+Weyl	591	595	O
+spinor	596	602	O
+at	603	605	O
+i+—this	606	613	O
+result	614	620	O
+can	621	624	O
+be	625	627	O
+extended	628	636	O
+to	637	639	O
+the	640	643	O
+electrovacuum	644	657	O
+case	658	662	O
+using	663	668	O
+the	669	672	O
+methods	673	680	O
+of	681	683	O
+this	684	688	O
+article	689	696	O
+.	696	697	O
+
+For	698	701	O
+the	702	705	O
+radiative	706	715	B-Task
+spacetimes	716	726	I-Task
+arising	727	734	O
+from	735	739	O
+the	740	743	O
+construction	744	756	O
+of	757	759	O
+[	760	761	O
+17	761	763	O
+]	763	764	O
+it	765	767	O
+can	768	771	O
+be	772	774	O
+seen	775	779	O
+that	780	784	O
+the	785	788	O
+value	789	794	O
+of	795	797	O
+the	798	801	O
+Weyl	802	806	O
+spinor	807	813	O
+at	814	816	O
+i+	817	819	O
+is	820	822	O
+essentially	823	834	O
+the	835	838	O
+mass	839	843	O
+quadrupole	844	854	O
+of	855	857	O
+the	858	861	O
+seed	862	866	O
+static	867	873	O
+spacetime	874	883	O
+.	883	884	O
+
+It	885	887	O
+follows	888	895	O
+,	895	896	O
+that	897	901	O
+the	902	905	O
+Newman	906	912	B-Material
+–	912	913	I-Material
+Penrose	913	920	I-Material
+constants	921	930	I-Material
+of	931	933	O
+the	934	937	O
+radiative	938	947	B-Material
+spacetime	948	957	I-Material
+can	958	961	O
+take	962	966	O
+arbitrary	967	976	O
+values	977	983	O
+.	983	984	O
+
+On	985	987	O
+the	988	991	O
+other	992	997	O
+hand	998	1002	O
+,	1002	1003	O
+for	1004	1007	O
+the	1008	1011	O
+Minkowski	1012	1021	B-Task
+spacetime	1022	1031	I-Task
+,	1031	1032	O
+the	1033	1036	O
+Newman	1037	1043	O
+–	1043	1044	O
+
+Penrose	1044	1051	O
+constants	1052	1061	O
+are	1062	1065	O
+exactly	1066	1073	O
+zero	1074	1078	O
+,	1078	1079	O
+and	1080	1083	O
+those	1084	1089	O
+of	1090	1092	O
+perturbations	1093	1106	O
+thereof	1107	1114	O
+will	1115	1119	O
+be	1120	1122	O
+small	1123	1128	O
+.	1128	1129	O
+
+Thus	1130	1134	O
+,	1134	1135	O
+in	1136	1138	O
+this	1139	1143	O
+precise	1144	1151	O
+sense	1152	1157	O
+,	1157	1158	O
+our	1159	1162	O
+radiative	1163	1172	B-Task
+spacetimes	1173	1183	I-Task
+are	1184	1187	O
+,	1187	1188	O
+generically	1189	1200	O
+,	1200	1201	O
+not	1202	1205	O
+perturbations	1206	1219	O
+of	1220	1222	O
+the	1223	1226	O
+Minkowski	1227	1236	B-Task
+spacetime	1237	1246	I-Task
+,	1246	1247	O
+unless	1248	1254	O
+all	1255	1258	O
+the	1259	1262	O
+Newman	1263	1269	B-Material
+–	1269	1270	I-Material
+Penrose	1270	1277	I-Material
+constants	1278	1287	I-Material
+vanish	1288	1294	O
+.	1294	1295	O
 
 
 -DOCSTART- (S0736585316300661)
 
-To	NN	O	O
-calculate	NN	O	B-Task
-hedonic	NN	O	I-Task
-price	NN	O	I-Task
-indices	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-linear	NN	O	B-Process
-model	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-initial	NN	O	O
-or	NN	O	O
-reference	NN	O	O
-price	NN	O	O
-has	NN	O	O
-to	NN	O	O
-be	NN	O	O
-calculated	NN	O	O
-(	NN	O	O
-Triplett	NN	O	O
-,	NN	O	O
-2006	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-present	NN	O	O
-study	NN	O	O
-adopts	NN	O	O
-the	NN	O	O
-approach	NN	O	O
-of	NN	O	O
-de	NN	O	O
-Haan	NN	O	O
-and	NN	O	O
-Diewert	NN	O	O
-(	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-:	NN	O	O
-a	NN	O	O
-price	NN	O	O
-index	NN	O	O
-is	NN	O	O
-constructed	NN	O	O
-using	NN	O	O
-the	NN	O	O
-price	NN	O	O
-generated	NN	O	O
-by	NN	O	O
-the	NN	O	O
-estimated	NN	O	O
-coefficients	NN	O	O
-of	NN	O	O
-a	NN	O	O
-base	NN	O	B-Process
-period	NN	O	I-Process
-regression	NN	O	I-Process
-model	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-it	NN	O	O
-is	NN	O	O
-calculated	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-based	NN	O	O
-period	NN	O	O
-average	NN	O	O
-values	NN	O	O
-of	NN	O	O
-a	NN	O	O
-given	NN	O	O
-cell	NN	O	O
-phone	NN	O	O
-plan	NN	O	O
-characteristic	NN	O	O
-z¯	NN	O	O
-for	NN	O	O
-each	NN	O	O
-operator	NN	O	O
-(	NN	O	O
-Supplementary	NN	O	O
-Table	NN	O	O
-S5	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-continuous	NN	O	O
-characteristics	NN	O	O
-,	NN	O	O
-direct	NN	O	O
-averages	NN	O	O
-are	NN	O	O
-used	NN	O	O
-;	NN	O	O
-for	NN	O	O
-binary	NN	O	O
-characteristics	NN	O	O
-,	NN	O	O
-the	NN	O	O
-proportions	NN	O	O
-of	NN	O	O
-cell	NN	O	O
-phone	NN	O	O
-plans	NN	O	O
-containing	NN	O	O
-the	NN	O	O
-feature	NN	O	O
-are	NN	O	O
-used	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-resulting	NN	O	O
-prices	NN	O	O
-for	NN	O	O
-this	NN	O	O
-average	NN	O	O
-cell	NN	O	O
-phone	NN	O	O
-plan	NN	O	O
-are	NN	O	O
-converted	NN	O	O
-to	NN	O	O
-an	NN	O	O
-index	NN	O	O
-by	NN	O	O
-applying	NN	O	B-Process
-previously	NN	O	I-Process
-calculated	NN	O	I-Process
-pure	NN	O	I-Process
-price	NN	O	I-Process
-changes	NN	O	I-Process
-(	NN	O	O
-δs	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Finally	NN	O	O
-,	NN	O	O
-the	NN	O	O
-overall	NN	O	O
-hedonic	NN	O	O
-price	NN	O	O
-index	NN	O	O
-is	NN	O	O
-calculated	NN	O	O
-as	NN	O	O
-the	NN	O	O
-weighted	NN	O	O
-average	NN	O	O
-of	NN	O	O
-firm	NN	O	O
--	NN	O	O
-level	NN	O	O
-indices	NN	O	O
-.	NN	O	O
-
-Weights	NN	O	O
-correspond	NN	O	O
-to	NN	O	O
-the	NN	O	O
-relative	NN	O	O
-proportion	NN	O	O
-of	NN	O	O
-cell	NN	O	O
-phone	NN	O	O
-plans	NN	O	O
-by	NN	O	O
-operator	NN	O	O
-in	NN	O	O
-the	NN	O	O
-sample	NN	O	O
-(	NN	O	O
-0.3534	NN	O	O
-for	NN	O	O
-HT	NN	O	O
-,	NN	O	O
-0.3212	NN	O	O
-for	NN	O	O
-Vip	NN	O	O
-,	NN	O	O
-and	NN	O	O
-0.3254	NN	O	O
-for	NN	O	O
-Tele2	NN	O	O
-)	NN	O	O
-.	NN	O	O
+To	0	2	O
+calculate	3	12	B-Task
+hedonic	13	20	I-Task
+price	21	26	I-Task
+indices	27	34	I-Task
+in	35	37	O
+the	38	41	O
+linear	42	48	B-Process
+model	49	54	I-Process
+,	54	55	O
+the	56	59	O
+initial	60	67	O
+or	68	70	O
+reference	71	80	O
+price	81	86	O
+has	87	90	O
+to	91	93	O
+be	94	96	O
+calculated	97	107	O
+(	108	109	O
+Triplett	109	117	O
+,	117	118	O
+2006	119	123	O
+)	123	124	O
+.	124	125	O
+
+The	126	129	O
+present	130	137	O
+study	138	143	O
+adopts	144	150	O
+the	151	154	O
+approach	155	163	O
+of	164	166	O
+de	167	169	O
+Haan	170	174	O
+and	175	178	O
+Diewert	179	186	O
+(	187	188	O
+2013	188	192	O
+)	192	193	O
+:	193	194	O
+a	195	196	O
+price	197	202	O
+index	203	208	O
+is	209	211	O
+constructed	212	223	O
+using	224	229	O
+the	230	233	O
+price	234	239	O
+generated	240	249	O
+by	250	252	O
+the	253	256	O
+estimated	257	266	O
+coefficients	267	279	O
+of	280	282	O
+a	283	284	O
+base	285	289	B-Process
+period	290	296	I-Process
+regression	297	307	I-Process
+model	308	313	I-Process
+,	313	314	O
+and	315	318	O
+it	319	321	O
+is	322	324	O
+calculated	325	335	O
+based	336	341	O
+on	342	344	O
+the	345	348	O
+based	349	354	O
+period	355	361	O
+average	362	369	O
+values	370	376	O
+of	377	379	O
+a	380	381	O
+given	382	387	O
+cell	388	392	O
+phone	393	398	O
+plan	399	403	O
+characteristic	404	418	O
+z¯	419	421	O
+for	422	425	O
+each	426	430	O
+operator	431	439	O
+(	440	441	O
+Supplementary	441	454	O
+Table	455	460	O
+S5	461	463	O
+)	463	464	O
+.	464	465	O
+
+For	466	469	O
+continuous	470	480	O
+characteristics	481	496	O
+,	496	497	O
+direct	498	504	O
+averages	505	513	O
+are	514	517	O
+used	518	522	O
+;	522	523	O
+for	524	527	O
+binary	528	534	O
+characteristics	535	550	O
+,	550	551	O
+the	552	555	O
+proportions	556	567	O
+of	568	570	O
+cell	571	575	O
+phone	576	581	O
+plans	582	587	O
+containing	588	598	O
+the	599	602	O
+feature	603	610	O
+are	611	614	O
+used	615	619	O
+.	619	620	O
+
+The	621	624	O
+resulting	625	634	O
+prices	635	641	O
+for	642	645	O
+this	646	650	O
+average	651	658	O
+cell	659	663	O
+phone	664	669	O
+plan	670	674	O
+are	675	678	O
+converted	679	688	O
+to	689	691	O
+an	692	694	O
+index	695	700	O
+by	701	703	O
+applying	704	712	B-Process
+previously	713	723	I-Process
+calculated	724	734	I-Process
+pure	735	739	I-Process
+price	740	745	I-Process
+changes	746	753	I-Process
+(	754	755	O
+δs	755	757	O
+)	757	758	O
+.	758	759	O
+
+Finally	760	767	O
+,	767	768	O
+the	769	772	O
+overall	773	780	O
+hedonic	781	788	O
+price	789	794	O
+index	795	800	O
+is	801	803	O
+calculated	804	814	O
+as	815	817	O
+the	818	821	O
+weighted	822	830	O
+average	831	838	O
+of	839	841	O
+firm	842	846	O
+-	846	847	O
+level	847	852	O
+indices	853	860	O
+.	860	861	O
+
+Weights	862	869	O
+correspond	870	880	O
+to	881	883	O
+the	884	887	O
+relative	888	896	O
+proportion	897	907	O
+of	908	910	O
+cell	911	915	O
+phone	916	921	O
+plans	922	927	O
+by	928	930	O
+operator	931	939	O
+in	940	942	O
+the	943	946	O
+sample	947	953	O
+(	954	955	O
+0.3534	955	961	O
+for	962	965	O
+HT	966	968	O
+,	968	969	O
+0.3212	970	976	O
+for	977	980	O
+Vip	981	984	O
+,	984	985	O
+and	986	989	O
+0.3254	990	996	O
+for	997	1000	O
+Tele2	1001	1006	O
+)	1006	1007	O
+.	1007	1008	O
 
 
 -DOCSTART- (S074756321630348X)
 
-Social	NN	O	B-Process
-network	NN	O	I-Process
-gaming	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-refers	NN	O	O
-to	NN	O	O
-playing	NN	O	O
-games	NN	O	O
-that	NN	O	O
-are	NN	O	O
-connected	NN	O	O
-to	NN	O	O
-social	NN	O	B-Material
-networking	NN	O	I-Material
-services	NN	O	I-Material
-(	NN	O	O
-SNS	NN	O	B-Material
-)	NN	O	O
-directly	NN	O	O
-,	NN	O	O
-or	NN	O	O
-through	NN	O	O
-mobile	NN	O	B-Material
-applications	NN	O	I-Material
-(	NN	O	O
-apps	NN	O	B-Material
-)	NN	O	O
-,	NN	O	O
-is	NN	O	O
-a	NN	O	O
-popular	NN	O	O
-online	NN	O	O
-activity	NN	O	O
-.	NN	O	O
-
-Social	NN	O	B-Process
-network	NN	O	I-Process
-games	NN	O	I-Process
-(	NN	O	O
-SNG	NN	O	B-Process
-)	NN	O	O
-are	NN	O	O
-generally	NN	O	O
-free	NN	O	O
--	NN	O	O
-to	NN	O	O
--	NN	O	O
-play	NN	O	O
-and	NN	O	O
-do	NN	O	O
-not	NN	O	O
-award	NN	O	O
-monetary	NN	O	O
-prizes	NN	O	O
-,	NN	O	O
-but	NN	O	O
-users	NN	O	O
-can	NN	O	O
-make	NN	O	O
-in	NN	O	O
--	NN	O	O
-game	NN	O	O
-purchases	NN	O	O
-to	NN	O	O
-advance	NN	O	O
-within	NN	O	O
-the	NN	O	O
-game	NN	O	O
-,	NN	O	O
-customise	NN	O	O
-the	NN	O	O
-game	NN	O	O
-,	NN	O	O
-give	NN	O	O
-gifts	NN	O	O
-to	NN	O	O
-friends	NN	O	O
-,	NN	O	O
-and	NN	O	O
-access	NN	O	O
-other	NN	O	O
-exclusive	NN	O	O
-benefits	NN	O	O
-and	NN	O	O
-features	NN	O	O
-,	NN	O	O
-leading	NN	O	O
-to	NN	O	O
-these	NN	O	O
-games	NN	O	O
-being	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-‘	NN	O	O
-freemium’	NN	O	O
-.	NN	O	O
-
-Although	NN	O	O
-SNG	NN	O	B-Material
-are	NN	O	O
-connected	NN	O	O
-to	NN	O	O
-a	NN	O	O
-SNS	NN	O	B-Process
-and	NN	O	O
-encourage	NN	O	O
-users	NN	O	O
-to	NN	O	O
-interact	NN	O	O
-with	NN	O	O
-their	NN	O	O
-connections	NN	O	O
-,	NN	O	O
-most	NN	O	O
-SNG	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-played	NN	O	O
-without	NN	O	O
-any	NN	O	O
-social	NN	O	O
-interaction	NN	O	O
-.	NN	O	O
-
-SNG	NN	O	B-Material
-have	NN	O	O
-grown	NN	O	O
-rapidly	NN	O	O
-in	NN	O	O
-popularity	NN	O	O
-and	NN	O	O
-the	NN	O	O
-global	NN	O	O
-SNG	NN	O	B-Material
-market	NN	O	I-Material
-is	NN	O	O
-predicted	NN	O	O
-to	NN	O	O
-grow	NN	O	O
-annually	NN	O	O
-at	NN	O	O
-16	NN	O	O
-%	NN	O	O
-from	NN	O	O
-2013	NN	O	O
-to	NN	O	O
-2019	NN	O	O
-to	NN	O	O
-reach	NN	O	O
-a	NN	O	O
-total	NN	O	O
-market	NN	O	O
-value	NN	O	O
-of	NN	O	O
-US$	NN	O	O
-17.4	NN	O	O
-billion	NN	O	O
-(	NN	O	O
-Transparency	NN	O	O
-Market	NN	O	O
-Research	NN	O	O
-,	NN	O	O
-2015	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-survey	NN	O	B-Process
-of	NN	O	O
-Facebook	NN	O	O
-users	NN	O	O
-in	NN	O	O
-Australia	NN	O	O
-in	NN	O	O
-November	NN	O	O
-2012	NN	O	O
-reported	NN	O	O
-that	NN	O	O
-there	NN	O	O
-are	NN	O	O
-over	NN	O	O
-3.5	NN	O	O
-million	NN	O	O
-social	NN	O	O
-gamers	NN	O	O
-across	NN	O	O
-Australia	NN	O	O
-and	NN	O	O
-almost	NN	O	O
-70	NN	O	O
-%	NN	O	O
-play	NN	O	O
-SNG	NN	O	B-Material
-daily	NN	O	O
-
-(	NN	O	O
-Spiral	NN	O	O
-Media	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-,	NN	O	O
-and	NN	O	O
-it	NN	O	O
-is	NN	O	O
-highly	NN	O	O
-likely	NN	O	O
-that	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-SNG	NN	O	B-Material
-has	NN	O	O
-increased	NN	O	O
-since	NN	O	O
-this	NN	O	O
-time	NN	O	O
-.	NN	O	O
+Social	0	6	B-Process
+network	7	14	I-Process
+gaming	15	21	I-Process
+,	21	22	O
+which	23	28	O
+refers	29	35	O
+to	36	38	O
+playing	39	46	O
+games	47	52	O
+that	53	57	O
+are	58	61	O
+connected	62	71	O
+to	72	74	O
+social	75	81	B-Material
+networking	82	92	I-Material
+services	93	101	I-Material
+(	102	103	O
+SNS	103	106	B-Material
+)	106	107	O
+directly	108	116	O
+,	116	117	O
+or	118	120	O
+through	121	128	O
+mobile	129	135	B-Material
+applications	136	148	I-Material
+(	149	150	O
+apps	150	154	B-Material
+)	154	155	O
+,	155	156	O
+is	157	159	O
+a	160	161	O
+popular	162	169	O
+online	170	176	O
+activity	177	185	O
+.	185	186	O
+
+Social	187	193	B-Process
+network	194	201	I-Process
+games	202	207	I-Process
+(	208	209	O
+SNG	209	212	B-Process
+)	212	213	O
+are	214	217	O
+generally	218	227	O
+free	228	232	O
+-	232	233	O
+to	233	235	O
+-	235	236	O
+play	236	240	O
+and	241	244	O
+do	245	247	O
+not	248	251	O
+award	252	257	O
+monetary	258	266	O
+prizes	267	273	O
+,	273	274	O
+but	275	278	O
+users	279	284	O
+can	285	288	O
+make	289	293	O
+in	294	296	O
+-	296	297	O
+game	297	301	O
+purchases	302	311	O
+to	312	314	O
+advance	315	322	O
+within	323	329	O
+the	330	333	O
+game	334	338	O
+,	338	339	O
+customise	340	349	O
+the	350	353	O
+game	354	358	O
+,	358	359	O
+give	360	364	O
+gifts	365	370	O
+to	371	373	O
+friends	374	381	O
+,	381	382	O
+and	383	386	O
+access	387	393	O
+other	394	399	O
+exclusive	400	409	O
+benefits	410	418	O
+and	419	422	O
+features	423	431	O
+,	431	432	O
+leading	433	440	O
+to	441	443	O
+these	444	449	O
+games	450	455	O
+being	456	461	O
+referred	462	470	O
+to	471	473	O
+as	474	476	O
+‘	477	478	O
+freemium’	478	487	O
+.	487	488	O
+
+Although	489	497	O
+SNG	498	501	B-Material
+are	502	505	O
+connected	506	515	O
+to	516	518	O
+a	519	520	O
+SNS	521	524	B-Process
+and	525	528	O
+encourage	529	538	O
+users	539	544	O
+to	545	547	O
+interact	548	556	O
+with	557	561	O
+their	562	567	O
+connections	568	579	O
+,	579	580	O
+most	581	585	O
+SNG	586	589	B-Material
+can	590	593	O
+be	594	596	O
+played	597	603	O
+without	604	611	O
+any	612	615	O
+social	616	622	O
+interaction	623	634	O
+.	634	635	O
+
+SNG	636	639	B-Material
+have	640	644	O
+grown	645	650	O
+rapidly	651	658	O
+in	659	661	O
+popularity	662	672	O
+and	673	676	O
+the	677	680	O
+global	681	687	O
+SNG	688	691	B-Material
+market	692	698	I-Material
+is	699	701	O
+predicted	702	711	O
+to	712	714	O
+grow	715	719	O
+annually	720	728	O
+at	729	731	O
+16	732	734	O
+%	734	735	O
+from	736	740	O
+2013	741	745	O
+to	746	748	O
+2019	749	753	O
+to	754	756	O
+reach	757	762	O
+a	763	764	O
+total	765	770	O
+market	771	777	O
+value	778	783	O
+of	784	786	O
+US$	787	790	O
+17.4	790	794	O
+billion	795	802	O
+(	803	804	O
+Transparency	804	816	O
+Market	817	823	O
+Research	824	832	O
+,	832	833	O
+2015	834	838	O
+)	838	839	O
+.	839	840	O
+
+A	841	842	O
+survey	843	849	B-Process
+of	850	852	O
+Facebook	853	861	O
+users	862	867	O
+in	868	870	O
+Australia	871	880	O
+in	881	883	O
+November	884	892	O
+2012	893	897	O
+reported	898	906	O
+that	907	911	O
+there	912	917	O
+are	918	921	O
+over	922	926	O
+3.5	927	930	O
+million	931	938	O
+social	939	945	O
+gamers	946	952	O
+across	953	959	O
+Australia	960	969	O
+and	970	973	O
+almost	974	980	O
+70	981	983	O
+%	983	984	O
+play	985	989	O
+SNG	990	993	B-Material
+daily	994	999	O
+
+(	1000	1001	O
+Spiral	1001	1007	O
+Media	1008	1013	O
+,	1013	1014	O
+2013	1015	1019	O
+)	1019	1020	O
+,	1020	1021	O
+and	1022	1025	O
+it	1026	1028	O
+is	1029	1031	O
+highly	1032	1038	O
+likely	1039	1045	O
+that	1046	1050	O
+the	1051	1054	O
+use	1055	1058	O
+of	1059	1061	O
+SNG	1062	1065	B-Material
+has	1066	1069	O
+increased	1070	1079	O
+since	1080	1085	O
+this	1086	1090	O
+time	1091	1095	O
+.	1095	1096	O
 
 
 -DOCSTART- (S0749603615302184)
 
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-measured	NN	O	O
-reflectivity	NN	O	O
-is	NN	O	O
-less	NN	O	O
-than	NN	O	O
-the	NN	O	O
-predicted	NN	O	O
-value	NN	O	O
-(	NN	O	O
-∼96	NN	O	O
-%	NN	O	O
-)	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-likely	NN	O	O
-to	NN	O	O
-relate	NN	O	O
-to	NN	O	O
-,	NN	O	O
-amongst	NN	O	O
-other	NN	O	O
-factors	NN	O	O
-,	NN	O	O
-the	NN	O	O
-roughness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-GaN	NN	O	B-Material
-/	NN	O	I-Material
-AlN	NN	O	I-Material
-interfaces	NN	O	I-Material
-particularly	NN	O	O
-for	NN	O	O
-the	NN	O	O
-first	NN	O	O
-layer	NN	O	O
-in	NN	O	O
-the	NN	O	O
-DBR	NN	O	B-Material
-stack	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-non	NN	O	O
--	NN	O	O
-uniformity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-DBR	NN	O	B-Material
-layer	NN	O	I-Material
-thicknesses	NN	O	O
-.	NN	O	O
-
-Using	NN	O	O
-STEM	NN	O	B-Process
-measurements	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-thickness	NN	O	O
-of	NN	O	O
-each	NN	O	O
-layer	NN	O	O
-(	NN	O	O
-on	NN	O	O
-the	NN	O	O
-a	NN	O	O
--	NN	O	O
-plane	NN	O	O
-)	NN	O	O
-through	NN	O	O
-the	NN	O	O
-thickness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-stack	NN	O	O
-,	NN	O	O
-we	NN	O	O
-calculate	NN	O	B-Process
-a	NN	O	I-Process
-new	NN	O	I-Process
-model	NN	O	I-Process
-(	NN	O	O
-green	NN	O	O
-curve	NN	O	O
-)	NN	O	O
-in	NN	O	O
-which	NN	O	O
-the	NN	O	O
-overall	NN	O	O
-reflectivity	NN	O	O
-is	NN	O	O
-reduced	NN	O	O
-to	NN	O	O
-85	NN	O	O
-%	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-implies	NN	O	O
-that	NN	O	O
-variations	NN	O	O
-in	NN	O	O
-layer	NN	O	O
-thickness	NN	O	O
-through	NN	O	O
-the	NN	O	O
-stack	NN	O	O
-are	NN	O	O
-the	NN	O	O
-main	NN	O	O
-source	NN	O	O
-of	NN	O	O
-the	NN	O	O
-reduced	NN	O	O
-reflectivity	NN	O	O
-in	NN	O	O
-comparison	NN	O	O
-to	NN	O	O
-the	NN	O	O
-model	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-fact	NN	O	O
-,	NN	O	O
-a	NN	O	O
-closer	NN	O	O
-look	NN	O	O
-at	NN	O	O
-the	NN	O	O
-cross	NN	O	B-Material
--	NN	O	I-Material
-sectional	NN	O	I-Material
-STEM	NN	O	I-Material
-data	NN	O	I-Material
-and	NN	O	O
-a	NN	O	O
-careful	NN	O	O
-extraction	NN	O	B-Process
-of	NN	O	I-Process
-layer	NN	O	I-Process
-thickness	NN	O	I-Process
-have	NN	O	O
-revealed	NN	O	O
-that	NN	O	O
-whilst	NN	O	O
-the	NN	O	O
-layer	NN	O	O
-thicknesses	NN	O	O
-are	NN	O	O
-fairly	NN	O	O
-consistent	NN	O	O
-through	NN	O	O
-the	NN	O	O
-DBR	NN	O	B-Material
-stack	NN	O	I-Material
-in	NN	O	I-Material
-the	NN	O	I-Material
-wing	NN	O	I-Material
-regions	NN	O	I-Material
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-a	NN	O	O
-monotonic	NN	O	O
-variation	NN	O	O
-in	NN	O	O
-the	NN	O	O
-measured	NN	O	O
-layer	NN	O	O
-thicknesses	NN	O	O
-in	NN	O	O
-the	NN	O	B-Material
-window	NN	O	I-Material
-regions	NN	O	I-Material
-.	NN	O	O
-
-(	NN	O	O
-The	NN	O	O
-GaN	NN	O	B-Material
-layer	NN	O	I-Material
-width	NN	O	O
-smoothly	NN	O	O
-increases	NN	O	O
-,	NN	O	O
-while	NN	O	O
-the	NN	O	O
-AlN	NN	O	B-Material
-layer	NN	O	I-Material
-thickness	NN	O	O
-decreases	NN	O	O
-through	NN	O	O
-the	NN	O	O
-DBR	NN	O	B-Material
-stack	NN	O	I-Material
-.	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-observation	NN	O	O
-could	NN	O	O
-potentially	NN	O	O
-be	NN	O	O
-of	NN	O	O
-practical	NN	O	O
-importance	NN	O	O
-,	NN	O	O
-for	NN	O	O
-samples	NN	O	O
-grown	NN	O	O
-on	NN	O	O
-templates	NN	O	O
-with	NN	O	O
-a	NN	O	O
-uniform	NN	O	O
-defect	NN	O	O
-density	NN	O	O
-,	NN	O	O
-as	NN	O	O
-one	NN	O	O
-could	NN	O	O
-achieve	NN	O	O
-much	NN	O	O
-better	NN	O	O
-reflectivities	NN	O	O
-simply	NN	O	O
-by	NN	O	O
-altering	NN	O	B-Process
-the	NN	O	I-Process
-growth	NN	O	I-Process
-time	NN	O	I-Process
-to	NN	O	O
-counteract	NN	O	O
-the	NN	O	O
-change	NN	O	O
-in	NN	O	O
-growth	NN	O	O
-rate	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-possibility	NN	O	O
-is	NN	O	O
-the	NN	O	O
-subject	NN	O	O
-of	NN	O	O
-ongoing	NN	O	O
-investigations	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-cracks	NN	O	O
-and	NN	O	O
-trenches	NN	O	O
-in	NN	O	O
-the	NN	O	O
-top	NN	O	O
-surface	NN	O	O
-may	NN	O	O
-also	NN	O	O
-reduce	NN	O	O
-the	NN	O	O
-measured	NN	O	O
-reflectivity	NN	O	O
-further	NN	O	O
-.	NN	O	O
+However	0	7	O
+,	7	8	O
+the	9	12	O
+measured	13	21	O
+reflectivity	22	34	O
+is	35	37	O
+less	38	42	O
+than	43	47	O
+the	48	51	O
+predicted	52	61	O
+value	62	67	O
+(	68	69	O
+∼96	69	72	O
+%	72	73	O
+)	73	74	O
+,	74	75	O
+which	76	81	O
+is	82	84	O
+likely	85	91	O
+to	92	94	O
+relate	95	101	O
+to	102	104	O
+,	104	105	O
+amongst	106	113	O
+other	114	119	O
+factors	120	127	O
+,	127	128	O
+the	129	132	O
+roughness	133	142	O
+of	143	145	O
+the	146	149	O
+GaN	150	153	B-Material
+/	153	154	I-Material
+AlN	154	157	I-Material
+interfaces	158	168	I-Material
+particularly	169	181	O
+for	182	185	O
+the	186	189	O
+first	190	195	O
+layer	196	201	O
+in	202	204	O
+the	205	208	O
+DBR	209	212	B-Material
+stack	213	218	I-Material
+and	219	222	O
+the	223	226	O
+non	227	230	O
+-	230	231	O
+uniformity	231	241	O
+of	242	244	O
+the	245	248	O
+DBR	249	252	B-Material
+layer	253	258	I-Material
+thicknesses	259	270	O
+.	270	271	O
+
+Using	272	277	O
+STEM	278	282	B-Process
+measurements	283	295	I-Process
+of	296	298	O
+the	299	302	O
+thickness	303	312	O
+of	313	315	O
+each	316	320	O
+layer	321	326	O
+(	327	328	O
+on	328	330	O
+the	331	334	O
+a	335	336	O
+-	336	337	O
+plane	337	342	O
+)	342	343	O
+through	344	351	O
+the	352	355	O
+thickness	356	365	O
+of	366	368	O
+the	369	372	O
+stack	373	378	O
+,	378	379	O
+we	380	382	O
+calculate	383	392	B-Process
+a	393	394	I-Process
+new	395	398	I-Process
+model	399	404	I-Process
+(	405	406	O
+green	406	411	O
+curve	412	417	O
+)	417	418	O
+in	419	421	O
+which	422	427	O
+the	428	431	O
+overall	432	439	O
+reflectivity	440	452	O
+is	453	455	O
+reduced	456	463	O
+to	464	466	O
+85	467	469	O
+%	469	470	O
+.	470	471	O
+
+This	472	476	O
+implies	477	484	O
+that	485	489	O
+variations	490	500	O
+in	501	503	O
+layer	504	509	O
+thickness	510	519	O
+through	520	527	O
+the	528	531	O
+stack	532	537	O
+are	538	541	O
+the	542	545	O
+main	546	550	O
+source	551	557	O
+of	558	560	O
+the	561	564	O
+reduced	565	572	O
+reflectivity	573	585	O
+in	586	588	O
+comparison	589	599	O
+to	600	602	O
+the	603	606	O
+model	607	612	O
+.	612	613	O
+
+In	614	616	O
+fact	617	621	O
+,	621	622	O
+a	623	624	O
+closer	625	631	O
+look	632	636	O
+at	637	639	O
+the	640	643	O
+cross	644	649	B-Material
+-	649	650	I-Material
+sectional	650	659	I-Material
+STEM	660	664	I-Material
+data	665	669	I-Material
+and	670	673	O
+a	674	675	O
+careful	676	683	O
+extraction	684	694	B-Process
+of	695	697	I-Process
+layer	698	703	I-Process
+thickness	704	713	I-Process
+have	714	718	O
+revealed	719	727	O
+that	728	732	O
+whilst	733	739	O
+the	740	743	O
+layer	744	749	O
+thicknesses	750	761	O
+are	762	765	O
+fairly	766	772	O
+consistent	773	783	O
+through	784	791	O
+the	792	795	O
+DBR	796	799	B-Material
+stack	800	805	I-Material
+in	806	808	I-Material
+the	809	812	I-Material
+wing	813	817	I-Material
+regions	818	825	I-Material
+,	825	826	O
+there	827	832	O
+is	833	835	O
+a	836	837	O
+monotonic	838	847	O
+variation	848	857	O
+in	858	860	O
+the	861	864	O
+measured	865	873	O
+layer	874	879	O
+thicknesses	880	891	O
+in	892	894	O
+the	895	898	B-Material
+window	899	905	I-Material
+regions	906	913	I-Material
+.	913	914	O
+
+(	915	916	O
+The	916	919	O
+GaN	920	923	B-Material
+layer	924	929	I-Material
+width	930	935	O
+smoothly	936	944	O
+increases	945	954	O
+,	954	955	O
+while	956	961	O
+the	962	965	O
+AlN	966	969	B-Material
+layer	970	975	I-Material
+thickness	976	985	O
+decreases	986	995	O
+through	996	1003	O
+the	1004	1007	O
+DBR	1008	1011	B-Material
+stack	1012	1017	I-Material
+.	1017	1018	O
+)	1018	1019	O
+.	1019	1020	O
+
+This	1021	1025	O
+observation	1026	1037	O
+could	1038	1043	O
+potentially	1044	1055	O
+be	1056	1058	O
+of	1059	1061	O
+practical	1062	1071	O
+importance	1072	1082	O
+,	1082	1083	O
+for	1084	1087	O
+samples	1088	1095	O
+grown	1096	1101	O
+on	1102	1104	O
+templates	1105	1114	O
+with	1115	1119	O
+a	1120	1121	O
+uniform	1122	1129	O
+defect	1130	1136	O
+density	1137	1144	O
+,	1144	1145	O
+as	1146	1148	O
+one	1149	1152	O
+could	1153	1158	O
+achieve	1159	1166	O
+much	1167	1171	O
+better	1172	1178	O
+reflectivities	1179	1193	O
+simply	1194	1200	O
+by	1201	1203	O
+altering	1204	1212	B-Process
+the	1213	1216	I-Process
+growth	1217	1223	I-Process
+time	1224	1228	I-Process
+to	1229	1231	O
+counteract	1232	1242	O
+the	1243	1246	O
+change	1247	1253	O
+in	1254	1256	O
+growth	1257	1263	O
+rate	1264	1268	O
+.	1268	1269	O
+
+This	1270	1274	O
+possibility	1275	1286	O
+is	1287	1289	O
+the	1290	1293	O
+subject	1294	1301	O
+of	1302	1304	O
+ongoing	1305	1312	O
+investigations	1313	1327	O
+.	1327	1328	O
+
+In	1329	1331	O
+addition	1332	1340	O
+,	1340	1341	O
+the	1342	1345	O
+presence	1346	1354	O
+of	1355	1357	O
+cracks	1358	1364	O
+and	1365	1368	O
+trenches	1369	1377	O
+in	1378	1380	O
+the	1381	1384	O
+top	1385	1388	O
+surface	1389	1396	O
+may	1397	1400	O
+also	1401	1405	O
+reduce	1406	1412	O
+the	1413	1416	O
+measured	1417	1425	O
+reflectivity	1426	1438	O
+further	1439	1446	O
+.	1446	1447	O
 
 
 -DOCSTART- (S088523081530036X)
 
-Note	NN	O	O
-that	NN	O	O
-the	NN	O	O
-presented	NN	O	O
-architecture	NN	O	O
-works	NN	O	O
-at	NN	O	O
-the	NN	O	O
-frame	NN	O	O
-level	NN	O	O
-,	NN	O	O
-meaning	NN	O	O
-that	NN	O	O
-each	NN	O	O
-single	NN	O	O
-frame	NN	O	O
-(	NN	O	O
-plus	NN	O	O
-its	NN	O	O
-corresponding	NN	O	O
-context	NN	O	O
-)	NN	O	O
-is	NN	O	O
-fed	NN	O	O
--	NN	O	O
-forward	NN	O	O
-through	NN	O	O
-the	NN	O	O
-network	NN	O	O
-,	NN	O	O
-obtaining	NN	O	O
-a	NN	O	O
-class	NN	O	O
-posterior	NN	O	O
-probability	NN	O	O
-for	NN	O	O
-all	NN	O	O
-of	NN	O	O
-the	NN	O	O
-target	NN	O	B-Material
-languages	NN	O	I-Material
-.	NN	O	O
-
-This	NN	O	O
-fact	NN	O	O
-makes	NN	O	O
-the	NN	O	O
-DNNs	NN	O	B-Process
-particularly	NN	O	O
-suitable	NN	O	O
-for	NN	O	O
-real	NN	O	O
--	NN	O	O
-time	NN	O	O
-applications	NN	O	O
-because	NN	O	O
-,	NN	O	O
-unlike	NN	O	O
-other	NN	O	B-Process
-approaches	NN	O	I-Process
-(	NN	O	O
-i.e.	NN	O	O
-i	NN	O	B-Process
--	NN	O	I-Process
-vectors	NN	O	I-Process
-)	NN	O	O
-,	NN	O	O
-we	NN	O	O
-can	NN	O	O
-potentially	NN	O	O
-make	NN	O	O
-a	NN	O	O
-decision	NN	O	O
-about	NN	O	O
-the	NN	O	O
-language	NN	O	O
-at	NN	O	O
-each	NN	O	O
-new	NN	O	O
-frame	NN	O	O
-.	NN	O	O
-
-Indeed	NN	O	O
-,	NN	O	O
-at	NN	O	O
-each	NN	O	O
-frame	NN	O	O
-,	NN	O	O
-we	NN	O	O
-can	NN	O	O
-combine	NN	O	B-Process
-the	NN	O	I-Process
-evidence	NN	O	I-Process
-from	NN	O	I-Process
-past	NN	O	I-Process
-frames	NN	O	I-Process
-to	NN	O	O
-get	NN	O	O
-a	NN	O	O
-single	NN	O	O
-similarity	NN	O	O
-score	NN	O	O
-between	NN	O	O
-the	NN	O	O
-test	NN	O	O
-utterance	NN	O	O
-and	NN	O	O
-the	NN	O	O
-targetlanguages	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-simple	NN	O	O
-way	NN	O	O
-of	NN	O	O
-doing	NN	O	O
-this	NN	O	O
-combination	NN	O	O
-is	NN	O	O
-to	NN	O	O
-assume	NN	O	B-Process
-that	NN	O	I-Process
-frames	NN	O	I-Process
-are	NN	O	I-Process
-independent	NN	O	I-Process
-and	NN	O	I-Process
-multiply	NN	O	I-Process
-the	NN	O	I-Process
-posterior	NN	O	I-Process
-estimates	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-last	NN	O	I-Process
-layer	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-score	NN	O	O
-sl	NN	O	O
-for	NN	O	O
-language	NN	O	O
-l	NN	O	O
-of	NN	O	O
-a	NN	O	O
-given	NN	O	O
-test	NN	O	B-Material
-utterance	NN	O	I-Material
-is	NN	O	O
-computed	NN	O	O
-by	NN	O	O
-multiplying	NN	O	B-Process
-the	NN	O	I-Process
-output	NN	O	I-Process
-probabilities	NN	O	I-Process
-pl	NN	O	I-Process
-obtained	NN	O	I-Process
-for	NN	O	I-Process
-all	NN	O	I-Process
-of	NN	O	I-Process
-its	NN	O	I-Process
-frames	NN	O	I-Process
-;	NN	O	O
-or	NN	O	O
-equivalently	NN	O	O
-,	NN	O	O
-accumulating	NN	O	B-Process
-the	NN	O	I-Process
-logs	NN	O	I-Process
-as:(6)sl=1N∑t=1Nlogp(Ll|xt​	NN	O	I-Process
-,	NN	O	I-Process
-θ)where	NN	O	I-Process
-p(Ll|xt​	NN	O	O
-,	NN	O	O
-θ	NN	O	O
-)	NN	O	O
-represents	NN	O	O
-the	NN	O	O
-class	NN	O	O
-probability	NN	O	O
-output	NN	O	O
-for	NN	O	O
-the	NN	O	O
-language	NN	O	O
-
-l	NN	O	O
-corresponding	NN	O	O
-to	NN	O	O
-the	NN	O	O
-input	NN	O	O
-example	NN	O	O
-at	NN	O	O
-time	NN	O	O
-t	NN	O	O
-,	NN	O	O
-xt	NN	O	O
-by	NN	O	O
-using	NN	O	O
-the	NN	O	O
-DNN	NN	O	B-Process
-defined	NN	O	O
-by	NN	O	O
-parameters	NN	O	O
-θ.	NN	O	O
+Note	0	4	O
+that	5	9	O
+the	10	13	O
+presented	14	23	O
+architecture	24	36	O
+works	37	42	O
+at	43	45	O
+the	46	49	O
+frame	50	55	O
+level	56	61	O
+,	61	62	O
+meaning	63	70	O
+that	71	75	O
+each	76	80	O
+single	81	87	O
+frame	88	93	O
+(	94	95	O
+plus	95	99	O
+its	100	103	O
+corresponding	104	117	O
+context	118	125	O
+)	125	126	O
+is	127	129	O
+fed	130	133	O
+-	133	134	O
+forward	134	141	O
+through	142	149	O
+the	150	153	O
+network	154	161	O
+,	161	162	O
+obtaining	163	172	O
+a	173	174	O
+class	175	180	O
+posterior	181	190	O
+probability	191	202	O
+for	203	206	O
+all	207	210	O
+of	211	213	O
+the	214	217	O
+target	218	224	B-Material
+languages	225	234	I-Material
+.	234	235	O
+
+This	236	240	O
+fact	241	245	O
+makes	246	251	O
+the	252	255	O
+DNNs	256	260	B-Process
+particularly	261	273	O
+suitable	274	282	O
+for	283	286	O
+real	287	291	O
+-	291	292	O
+time	292	296	O
+applications	297	309	O
+because	310	317	O
+,	317	318	O
+unlike	319	325	O
+other	326	331	B-Process
+approaches	332	342	I-Process
+(	343	344	O
+i.e.	344	348	O
+i	349	350	B-Process
+-	350	351	I-Process
+vectors	351	358	I-Process
+)	358	359	O
+,	359	360	O
+we	361	363	O
+can	364	367	O
+potentially	368	379	O
+make	380	384	O
+a	385	386	O
+decision	387	395	O
+about	396	401	O
+the	402	405	O
+language	406	414	O
+at	415	417	O
+each	418	422	O
+new	423	426	O
+frame	427	432	O
+.	432	433	O
+
+Indeed	434	440	O
+,	440	441	O
+at	442	444	O
+each	445	449	O
+frame	450	455	O
+,	455	456	O
+we	457	459	O
+can	460	463	O
+combine	464	471	B-Process
+the	472	475	I-Process
+evidence	476	484	I-Process
+from	485	489	I-Process
+past	490	494	I-Process
+frames	495	501	I-Process
+to	502	504	O
+get	505	508	O
+a	509	510	O
+single	511	517	O
+similarity	518	528	O
+score	529	534	O
+between	535	542	O
+the	543	546	O
+test	547	551	O
+utterance	552	561	O
+and	562	565	O
+the	566	569	O
+targetlanguages	570	585	O
+.	585	586	O
+
+A	587	588	O
+simple	589	595	O
+way	596	599	O
+of	600	602	O
+doing	603	608	O
+this	609	613	O
+combination	614	625	O
+is	626	628	O
+to	629	631	O
+assume	632	638	B-Process
+that	639	643	I-Process
+frames	644	650	I-Process
+are	651	654	I-Process
+independent	655	666	I-Process
+and	667	670	I-Process
+multiply	671	679	I-Process
+the	680	683	I-Process
+posterior	684	693	I-Process
+estimates	694	703	I-Process
+of	704	706	I-Process
+the	707	710	I-Process
+last	711	715	I-Process
+layer	716	721	I-Process
+.	721	722	O
+
+The	723	726	O
+score	727	732	O
+sl	733	735	O
+for	736	739	O
+language	740	748	O
+l	749	750	O
+of	751	753	O
+a	754	755	O
+given	756	761	O
+test	762	766	B-Material
+utterance	767	776	I-Material
+is	777	779	O
+computed	780	788	O
+by	789	791	O
+multiplying	792	803	B-Process
+the	804	807	I-Process
+output	808	814	I-Process
+probabilities	815	828	I-Process
+pl	829	831	I-Process
+obtained	832	840	I-Process
+for	841	844	I-Process
+all	845	848	I-Process
+of	849	851	I-Process
+its	852	855	I-Process
+frames	856	862	I-Process
+;	862	863	O
+or	864	866	O
+equivalently	867	879	O
+,	879	880	O
+accumulating	881	893	B-Process
+the	894	897	I-Process
+logs	898	902	I-Process
+as:(6)sl=1N∑t=1Nlogp(Ll|xt​	903	930	I-Process
+,	930	931	I-Process
+θ)where	932	939	I-Process
+p(Ll|xt​	940	948	O
+,	948	949	O
+θ	950	951	O
+)	951	952	O
+represents	953	963	O
+the	964	967	O
+class	968	973	O
+probability	974	985	O
+output	986	992	O
+for	993	996	O
+the	997	1000	O
+language	1001	1009	O
+
+l	1010	1011	O
+corresponding	1012	1025	O
+to	1026	1028	O
+the	1029	1032	O
+input	1033	1038	O
+example	1039	1046	O
+at	1047	1049	O
+time	1050	1054	O
+t	1055	1056	O
+,	1056	1057	O
+xt	1058	1060	O
+by	1061	1063	O
+using	1064	1069	O
+the	1070	1073	O
+DNN	1074	1077	B-Process
+defined	1078	1085	O
+by	1086	1088	O
+parameters	1089	1099	O
+θ.	1100	1102	O
 
 
 -DOCSTART- (S0885230816300043)
 
-The	NN	O	O
-final	NN	O	O
-set	NN	O	O
-of	NN	O	O
-experiments	NN	O	O
-involved	NN	O	O
-an	NN	O	O
-adaptive	NN	O	O
-retraining	NN	O	O
-of	NN	O	O
-the	NN	O	O
-GMM	NN	O	O
-–	NN	O	O
-
-HMM	NN	O	O
-parameters	NN	O	O
-following	NN	O	O
-the	NN	O	O
-aNAT	NN	O	B-Process
-procedure	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-new	NN	O	O
-model	NN	O	O
-only	NN	O	O
-provided	NN	O	O
-an	NN	O	O
-improvement	NN	O	O
-of	NN	O	O
-0.3	NN	O	O
-%	NN	O	O
-,	NN	O	O
-similar	NN	O	O
-to	NN	O	O
-using	NN	O	O
-the	NN	O	O
-aCMLLR	NN	O	B-Process
-transforms	NN	O	I-Process
-on	NN	O	O
-the	NN	O	O
-baseline	NN	O	O
-GMM	NN	O	B-Process
-–	NN	O	I-Process
-HMM	NN	O	I-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-training	NN	O	B-Process
-show	NN	O	I-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-aCMLLR	NN	O	I-Process
-transforms	NN	O	I-Process
-on	NN	O	O
-top	NN	O	O
-of	NN	O	O
-the	NN	O	O
-adaptively	NN	O	O
-trained	NN	O	O
-model	NN	O	O
-boosted	NN	O	O
-the	NN	O	O
-improvement	NN	O	O
-to	NN	O	O
-0.8	NN	O	O
-%	NN	O	O
-absolute	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-showed	NN	O	O
-how	NN	O	O
-adaptive	NN	O	B-Process
-training	NN	O	I-Process
-provided	NN	O	O
-a	NN	O	O
-better	NN	O	O
-flexibility	NN	O	O
-of	NN	O	O
-the	NN	O	O
-model	NN	O	O
-to	NN	O	O
-adapt	NN	O	O
-to	NN	O	O
-specific	NN	O	O
-background	NN	O	O
-conditions	NN	O	O
-existing	NN	O	O
-in	NN	O	O
-each	NN	O	O
-show	NN	O	O
-.	NN	O	O
-
-Finally	NN	O	O
-,	NN	O	O
-the	NN	O	O
-factorisation	NN	O	B-Process
-approach	NN	O	I-Process
-using	NN	O	I-Process
-MLLR	NN	O	I-Process
-speaker	NN	O	I-Process
-transforms	NN	O	I-Process
-on	NN	O	O
-top	NN	O	O
-of	NN	O	O
-the	NN	O	O
-aNAT	NN	O	B-Process
-model	NN	O	I-Process
-and	NN	O	O
-show	NN	O	O
--	NN	O	O
-based	NN	O	O
-aCMLLR	NN	O	B-Process
-transforms	NN	O	I-Process
-was	NN	O	O
-tested	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-only	NN	O	O
-increased	NN	O	O
-the	NN	O	O
-improvement	NN	O	O
-to	NN	O	O
-0.9	NN	O	O
-%	NN	O	O
-absolute	NN	O	O
-(	NN	O	O
-2.9	NN	O	O
-%	NN	O	O
-relative	NN	O	O
-)	NN	O	O
-,	NN	O	O
-which	NN	O	O
-reflects	NN	O	O
-the	NN	O	O
-difficulty	NN	O	O
-of	NN	O	O
-performing	NN	O	O
-accurate	NN	O	O
-speaker	NN	O	B-Task
-clustering	NN	O	I-Task
-in	NN	O	O
-this	NN	O	O
-task	NN	O	O
-and	NN	O	O
-how	NN	O	O
-this	NN	O	O
-actually	NN	O	O
-hampers	NN	O	O
-speaker	NN	O	B-Task
-adaptation	NN	O	I-Task
-.	NN	O	O
+The	0	3	O
+final	4	9	O
+set	10	13	O
+of	14	16	O
+experiments	17	28	O
+involved	29	37	O
+an	38	40	O
+adaptive	41	49	O
+retraining	50	60	O
+of	61	63	O
+the	64	67	O
+GMM	68	71	O
+–	71	72	O
+
+HMM	72	75	O
+parameters	76	86	O
+following	87	96	O
+the	97	100	O
+aNAT	101	105	B-Process
+procedure	106	115	I-Process
+.	115	116	O
+
+This	117	121	O
+new	122	125	O
+model	126	131	O
+only	132	136	O
+provided	137	145	O
+an	146	148	O
+improvement	149	160	O
+of	161	163	O
+0.3	164	167	O
+%	167	168	O
+,	168	169	O
+similar	170	177	O
+to	178	180	O
+using	181	186	O
+the	187	190	O
+aCMLLR	191	197	B-Process
+transforms	198	208	I-Process
+on	209	211	O
+the	212	215	O
+baseline	216	224	O
+GMM	225	228	B-Process
+–	228	229	I-Process
+HMM	229	232	I-Process
+model	233	238	I-Process
+.	238	239	O
+
+However	240	247	O
+,	247	248	O
+training	249	257	B-Process
+show	258	262	I-Process
+-	262	263	I-Process
+based	263	268	I-Process
+aCMLLR	269	275	I-Process
+transforms	276	286	I-Process
+on	287	289	O
+top	290	293	O
+of	294	296	O
+the	297	300	O
+adaptively	301	311	O
+trained	312	319	O
+model	320	325	O
+boosted	326	333	O
+the	334	337	O
+improvement	338	349	O
+to	350	352	O
+0.8	353	356	O
+%	356	357	O
+absolute	358	366	O
+.	366	367	O
+
+This	368	372	O
+showed	373	379	O
+how	380	383	O
+adaptive	384	392	B-Process
+training	393	401	I-Process
+provided	402	410	O
+a	411	412	O
+better	413	419	O
+flexibility	420	431	O
+of	432	434	O
+the	435	438	O
+model	439	444	O
+to	445	447	O
+adapt	448	453	O
+to	454	456	O
+specific	457	465	O
+background	466	476	O
+conditions	477	487	O
+existing	488	496	O
+in	497	499	O
+each	500	504	O
+show	505	509	O
+.	509	510	O
+
+Finally	511	518	O
+,	518	519	O
+the	520	523	O
+factorisation	524	537	B-Process
+approach	538	546	I-Process
+using	547	552	I-Process
+MLLR	553	557	I-Process
+speaker	558	565	I-Process
+transforms	566	576	I-Process
+on	577	579	O
+top	580	583	O
+of	584	586	O
+the	587	590	O
+aNAT	591	595	B-Process
+model	596	601	I-Process
+and	602	605	O
+show	606	610	O
+-	610	611	O
+based	611	616	O
+aCMLLR	617	623	B-Process
+transforms	624	634	I-Process
+was	635	638	O
+tested	639	645	O
+.	645	646	O
+
+This	647	651	O
+only	652	656	O
+increased	657	666	O
+the	667	670	O
+improvement	671	682	O
+to	683	685	O
+0.9	686	689	O
+%	689	690	O
+absolute	691	699	O
+(	700	701	O
+2.9	701	704	O
+%	704	705	O
+relative	706	714	O
+)	714	715	O
+,	715	716	O
+which	717	722	O
+reflects	723	731	O
+the	732	735	O
+difficulty	736	746	O
+of	747	749	O
+performing	750	760	O
+accurate	761	769	O
+speaker	770	777	B-Task
+clustering	778	788	I-Task
+in	789	791	O
+this	792	796	O
+task	797	801	O
+and	802	805	O
+how	806	809	O
+this	810	814	O
+actually	815	823	O
+hampers	824	831	O
+speaker	832	839	B-Task
+adaptation	840	850	I-Task
+.	850	851	O
 
 
 -DOCSTART- (S0888327016300048)
 
-The	NN	O	O
-research	NN	O	O
-work	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-elaborates	NN	O	B-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-theoretical	NN	O	I-Task
-effectiveness	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-proposed	NN	O	I-Task
-method	NN	O	I-Task
-based	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-multivariate	NN	O	I-Task
-EMD	NN	O	I-Task
-.	NN	O	O
-
-It	NN	O	O
-also	NN	O	O
-clearly	NN	O	O
-indicates	NN	O	O
-through	NN	O	O
-numerical	NN	O	B-Process
-simulations	NN	O	I-Process
-and	NN	O	O
-applications	NN	O	B-Task
-to	NN	O	I-Task
-bearing	NN	O	I-Task
-monitoring	NN	O	I-Task
-that	NN	O	O
-the	NN	O	O
-expansion	NN	O	B-Process
-from	NN	O	I-Process
-standard	NN	O	I-Process
-EMD	NN	O	I-Process
-to	NN	O	I-Process
-multivariate	NN	O	I-Process
-EMD	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-successful	NN	O	O
-exploration	NN	O	O
-.	NN	O	O
-
-Using	NN	O	O
-multiple	NN	O	O
-sensors	NN	O	B-Material
-to	NN	O	O
-collect	NN	O	O
-signal	NN	O	O
-from	NN	O	O
-different	NN	O	O
-locations	NN	O	O
-of	NN	O	O
-the	NN	O	O
-machine	NN	O	O
-and	NN	O	O
-using	NN	O	O
-the	NN	O	O
-multivariate	NN	O	B-Process
-EMD	NN	O	I-Process
-to	NN	O	O
-analyze	NN	O	O
-multivariate	NN	O	B-Material
-signal	NN	O	I-Material
-can	NN	O	O
-contribute	NN	O	O
-to	NN	O	O
-comprehensively	NN	O	O
-collect	NN	O	O
-all	NN	O	O
-the	NN	O	O
-frequency	NN	O	B-Material
-components	NN	O	I-Material
-related	NN	O	O
-to	NN	O	O
-any	NN	O	O
-bearing	NN	O	O
-fault	NN	O	O
-,	NN	O	O
-and	NN	O	O
-is	NN	O	O
-beneficial	NN	O	O
-to	NN	O	O
-extract	NN	O	B-Task
-fault	NN	O	I-Task
-information	NN	O	I-Task
-,	NN	O	O
-especially	NN	O	O
-for	NN	O	O
-early	NN	O	O
-weak	NN	O	O
-fault	NN	O	O
-characteristics	NN	O	O
-.	NN	O	O
-
-Both	NN	O	O
-the	NN	O	O
-characteristic	NN	O	O
-frequencies	NN	O	O
-of	NN	O	O
-simulated	NN	O	O
-signal	NN	O	O
-and	NN	O	O
-the	NN	O	O
-fault	NN	O	O
-frequencies	NN	O	O
-of	NN	O	O
-practical	NN	O	B-Material
-rolling	NN	O	I-Material
-bearing	NN	O	I-Material
-signal	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-extracted	NN	O	O
-from	NN	O	O
-the	NN	O	O
-same	NN	O	O
-order	NN	O	O
-of	NN	O	O
-IMF	NN	O	O
-groups	NN	O	O
-,	NN	O	O
-thus	NN	O	O
-showing	NN	O	O
-that	NN	O	O
-multivariate	NN	O	B-Process
-EMD	NN	O	I-Process
-is	NN	O	O
-an	NN	O	O
-effective	NN	O	O
-signal	NN	O	B-Process
-decomposition	NN	O	I-Process
-algorithm	NN	O	I-Process
-and	NN	O	O
-can	NN	O	O
-be	NN	O	O
-competently	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-fault	NN	O	B-Process
-diagnosis	NN	O	I-Process
-of	NN	O	O
-rolling	NN	O	B-Material
-bearings	NN	O	I-Material
-when	NN	O	O
-combined	NN	O	O
-with	NN	O	O
-a	NN	O	O
-multiscale	NN	O	B-Process
-reduction	NN	O	I-Process
-method	NN	O	I-Process
-and	NN	O	O
-fault	NN	O	B-Process
-correlation	NN	O	I-Process
-factor	NN	O	I-Process
-analysis	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-signal	NN	O	B-Task
-acquisition	NN	O	I-Task
-and	NN	O	I-Task
-processing	NN	O	I-Task
-,	NN	O	O
-given	NN	O	O
-the	NN	O	O
-circumstance	NN	O	O
-that	NN	O	O
-there	NN	O	O
-is	NN	O	O
-a	NN	O	O
-trend	NN	O	O
-toward	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-multiple	NN	O	O
-sensors	NN	O	B-Material
-,	NN	O	O
-multivariate	NN	O	B-Process
-EMD	NN	O	I-Process
-appears	NN	O	O
-to	NN	O	O
-be	NN	O	O
-very	NN	O	O
-useful	NN	O	O
-and	NN	O	O
-meaningful	NN	O	O
-as	NN	O	O
-a	NN	O	O
-kind	NN	O	O
-of	NN	O	O
-multivariate	NN	O	B-Process
-data	NN	O	I-Process
-processing	NN	O	I-Process
-algorithm	NN	O	I-Process
-.	NN	O	O
-
-By	NN	O	O
-analyzing	NN	O	O
-the	NN	O	O
-simulated	NN	O	B-Material
-signal	NN	O	I-Material
-and	NN	O	O
-two	NN	O	O
-different	NN	O	O
-practical	NN	O	B-Material
-multivariate	NN	O	I-Material
-signals	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-results	NN	O	O
-demonstrate	NN	O	O
-the	NN	O	O
-significance	NN	O	O
-of	NN	O	O
-the	NN	O	O
-proposed	NN	O	O
-method	NN	O	O
-in	NN	O	O
-the	NN	O	O
-field	NN	O	O
-of	NN	O	O
-fault	NN	O	B-Task
-diagnosis	NN	O	I-Task
-of	NN	O	I-Task
-rolling	NN	O	I-Task
-bearing	NN	O	I-Task
-.	NN	O	O
+The	0	3	O
+research	4	12	O
+work	13	17	O
+in	18	20	O
+this	21	25	O
+paper	26	31	O
+elaborates	32	42	B-Task
+on	43	45	I-Task
+the	46	49	I-Task
+theoretical	50	61	I-Task
+effectiveness	62	75	I-Task
+of	76	78	I-Task
+the	79	82	I-Task
+proposed	83	91	I-Task
+method	92	98	I-Task
+based	99	104	I-Task
+on	105	107	I-Task
+the	108	111	I-Task
+multivariate	112	124	I-Task
+EMD	125	128	I-Task
+.	128	129	O
+
+It	130	132	O
+also	133	137	O
+clearly	138	145	O
+indicates	146	155	O
+through	156	163	O
+numerical	164	173	B-Process
+simulations	174	185	I-Process
+and	186	189	O
+applications	190	202	B-Task
+to	203	205	I-Task
+bearing	206	213	I-Task
+monitoring	214	224	I-Task
+that	225	229	O
+the	230	233	O
+expansion	234	243	B-Process
+from	244	248	I-Process
+standard	249	257	I-Process
+EMD	258	261	I-Process
+to	262	264	I-Process
+multivariate	265	277	I-Process
+EMD	278	281	I-Process
+is	282	284	O
+a	285	286	O
+successful	287	297	O
+exploration	298	309	O
+.	309	310	O
+
+Using	311	316	O
+multiple	317	325	O
+sensors	326	333	B-Material
+to	334	336	O
+collect	337	344	O
+signal	345	351	O
+from	352	356	O
+different	357	366	O
+locations	367	376	O
+of	377	379	O
+the	380	383	O
+machine	384	391	O
+and	392	395	O
+using	396	401	O
+the	402	405	O
+multivariate	406	418	B-Process
+EMD	419	422	I-Process
+to	423	425	O
+analyze	426	433	O
+multivariate	434	446	B-Material
+signal	447	453	I-Material
+can	454	457	O
+contribute	458	468	O
+to	469	471	O
+comprehensively	472	487	O
+collect	488	495	O
+all	496	499	O
+the	500	503	O
+frequency	504	513	B-Material
+components	514	524	I-Material
+related	525	532	O
+to	533	535	O
+any	536	539	O
+bearing	540	547	O
+fault	548	553	O
+,	553	554	O
+and	555	558	O
+is	559	561	O
+beneficial	562	572	O
+to	573	575	O
+extract	576	583	B-Task
+fault	584	589	I-Task
+information	590	601	I-Task
+,	601	602	O
+especially	603	613	O
+for	614	617	O
+early	618	623	O
+weak	624	628	O
+fault	629	634	O
+characteristics	635	650	O
+.	650	651	O
+
+Both	652	656	O
+the	657	660	O
+characteristic	661	675	O
+frequencies	676	687	O
+of	688	690	O
+simulated	691	700	O
+signal	701	707	O
+and	708	711	O
+the	712	715	O
+fault	716	721	O
+frequencies	722	733	O
+of	734	736	O
+practical	737	746	B-Material
+rolling	747	754	I-Material
+bearing	755	762	I-Material
+signal	763	769	I-Material
+can	770	773	O
+be	774	776	O
+extracted	777	786	O
+from	787	791	O
+the	792	795	O
+same	796	800	O
+order	801	806	O
+of	807	809	O
+IMF	810	813	O
+groups	814	820	O
+,	820	821	O
+thus	822	826	O
+showing	827	834	O
+that	835	839	O
+multivariate	840	852	B-Process
+EMD	853	856	I-Process
+is	857	859	O
+an	860	862	O
+effective	863	872	O
+signal	873	879	B-Process
+decomposition	880	893	I-Process
+algorithm	894	903	I-Process
+and	904	907	O
+can	908	911	O
+be	912	914	O
+competently	915	926	O
+applied	927	934	O
+to	935	937	O
+fault	938	943	B-Process
+diagnosis	944	953	I-Process
+of	954	956	O
+rolling	957	964	B-Material
+bearings	965	973	I-Material
+when	974	978	O
+combined	979	987	O
+with	988	992	O
+a	993	994	O
+multiscale	995	1005	B-Process
+reduction	1006	1015	I-Process
+method	1016	1022	I-Process
+and	1023	1026	O
+fault	1027	1032	B-Process
+correlation	1033	1044	I-Process
+factor	1045	1051	I-Process
+analysis	1052	1060	I-Process
+.	1060	1061	O
+
+In	1062	1064	O
+signal	1065	1071	B-Task
+acquisition	1072	1083	I-Task
+and	1084	1087	I-Task
+processing	1088	1098	I-Task
+,	1098	1099	O
+given	1100	1105	O
+the	1106	1109	O
+circumstance	1110	1122	O
+that	1123	1127	O
+there	1128	1133	O
+is	1134	1136	O
+a	1137	1138	O
+trend	1139	1144	O
+toward	1145	1151	O
+the	1152	1155	O
+use	1156	1159	O
+of	1160	1162	O
+multiple	1163	1171	O
+sensors	1172	1179	B-Material
+,	1179	1180	O
+multivariate	1181	1193	B-Process
+EMD	1194	1197	I-Process
+appears	1198	1205	O
+to	1206	1208	O
+be	1209	1211	O
+very	1212	1216	O
+useful	1217	1223	O
+and	1224	1227	O
+meaningful	1228	1238	O
+as	1239	1241	O
+a	1242	1243	O
+kind	1244	1248	O
+of	1249	1251	O
+multivariate	1252	1264	B-Process
+data	1265	1269	I-Process
+processing	1270	1280	I-Process
+algorithm	1281	1290	I-Process
+.	1290	1291	O
+
+By	1292	1294	O
+analyzing	1295	1304	O
+the	1305	1308	O
+simulated	1309	1318	B-Material
+signal	1319	1325	I-Material
+and	1326	1329	O
+two	1330	1333	O
+different	1334	1343	O
+practical	1344	1353	B-Material
+multivariate	1354	1366	I-Material
+signals	1367	1374	I-Material
+,	1374	1375	O
+the	1376	1379	O
+results	1380	1387	O
+demonstrate	1388	1399	O
+the	1400	1403	O
+significance	1404	1416	O
+of	1417	1419	O
+the	1420	1423	O
+proposed	1424	1432	O
+method	1433	1439	O
+in	1440	1442	O
+the	1443	1446	O
+field	1447	1452	O
+of	1453	1455	O
+fault	1456	1461	B-Task
+diagnosis	1462	1471	I-Task
+of	1472	1474	I-Task
+rolling	1475	1482	I-Task
+bearing	1483	1490	I-Task
+.	1490	1491	O
 
 
 -DOCSTART- (S0888327016302333)
 
-The	NN	O	B-Task
-GFRFs	NN	O	I-Task
-of	NN	O	I-Task
-nonlinear	NN	O	I-Task
-systems	NN	O	I-Task
-can	NN	O	O
-be	NN	O	O
-determined	NN	O	O
-by	NN	O	O
-either	NN	O	O
-a	NN	O	B-Material
-parametric	NN	O	I-Material
--	NN	O	I-Material
-model	NN	O	I-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-method	NN	O	I-Material
-or	NN	O	O
-a	NN	O	B-Material
-nonparametric	NN	O	I-Material
--	NN	O	I-Material
-model	NN	O	I-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-method	NN	O	I-Material
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-parametric	NN	O	O
-approach	NN	O	O
-,	NN	O	O
-a	NN	O	B-Task
-nonlinear	NN	O	I-Task
-parametric	NN	O	I-Task
-model	NN	O	I-Task
-is	NN	O	O
-first	NN	O	O
-identified	NN	O	O
-from	NN	O	O
-the	NN	O	O
-input	NN	O	O
-–	NN	O	O
-output	NN	O	O
-data	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-GFRFs	NN	O	B-Task
-are	NN	O	O
-then	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-mapping	NN	O	B-Process
-the	NN	O	I-Process
-resultant	NN	O	I-Process
-model	NN	O	I-Process
-into	NN	O	I-Process
-the	NN	O	I-Process
-frequency	NN	O	I-Process
-domain	NN	O	I-Process
-using	NN	O	O
-the	NN	O	O
-probing	NN	O	B-Material
-method	NN	O	I-Material
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-nonparametric	NN	O	B-Task
-approach	NN	O	I-Task
-is	NN	O	O
-often	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-frequency	NN	O	B-Task
--	NN	O	I-Task
-domain	NN	O	I-Task
-Volterra	NN	O	I-Task
-system	NN	O	I-Task
-identification	NN	O	I-Task
-and	NN	O	O
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-observation	NN	O	O
-that	NN	O	O
-the	NN	O	O
-Volterra	NN	O	B-Task
-model	NN	O	I-Task
-of	NN	O	I-Task
-nonlinear	NN	O	I-Task
-systems	NN	O	I-Task
-is	NN	O	O
-linear	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-the	NN	O	O
-unknown	NN	O	O
-Volterra	NN	O	O
-kernels	NN	O	O
-,	NN	O	O
-which	NN	O	O
-,	NN	O	O
-in	NN	O	O
-the	NN	O	O
-frequency	NN	O	O
-domain	NN	O	O
-,	NN	O	O
-corresponds	NN	O	B-Material
-to	NN	O	I-Material
-a	NN	O	I-Material
-linear	NN	O	I-Material
-relation	NN	O	I-Material
-between	NN	O	O
-the	NN	O	O
-output	NN	O	O
-frequency	NN	O	O
-response	NN	O	O
-and	NN	O	O
-linear	NN	O	O
-,	NN	O	O
-quadratic	NN	O	O
-,	NN	O	O
-and	NN	O	O
-higher	NN	O	O
-order	NN	O	O
-GFRFs	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-linear	NN	O	B-Task
-relationship	NN	O	I-Task
-allows	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-a	NN	O	B-Material
-least	NN	O	I-Material
-squares	NN	O	I-Material
-(	NN	O	I-Material
-LS	NN	O	I-Material
-)	NN	O	I-Material
-approach	NN	O	I-Material
-to	NN	O	O
-solve	NN	O	O
-for	NN	O	O
-the	NN	O	O
-GFRFs	NN	O	B-Task
-.	NN	O	O
-
-Several	NN	O	O
-researchers	NN	O	O
-[	NN	O	O
-10–12	NN	O	O
-]	NN	O	O
-have	NN	O	O
-used	NN	O	O
-this	NN	O	O
-method	NN	O	O
-to	NN	O	O
-estimate	NN	O	O
-the	NN	O	O
-GFRFs	NN	O	B-Task
-.	NN	O	O
-
-But	NN	O	O
-they	NN	O	O
-usually	NN	O	O
-made	NN	O	B-Process
-the	NN	O	I-Process
-assumption	NN	O	I-Process
-that	NN	O	O
-it	NN	O	O
-is	NN	O	O
-known	NN	O	O
-a	NN	O	O
-priori	NN	O	O
-that	NN	O	O
-the	NN	O	B-Task
-system	NN	O	I-Task
-under	NN	O	O
-study	NN	O	O
-can	NN	O	O
-be	NN	O	O
-represented	NN	O	O
-by	NN	O	O
-just	NN	O	O
-two	NN	O	B-Material
-or	NN	O	I-Material
-three	NN	O	I-Material
-terms	NN	O	I-Material
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-such	NN	O	O
-information	NN	O	O
-is	NN	O	O
-rarely	NN	O	O
-available	NN	O	O
-a	NN	O	O
-priori	NN	O	O
-.	NN	O	O
+The	0	3	B-Task
+GFRFs	4	9	I-Task
+of	10	12	I-Task
+nonlinear	13	22	I-Task
+systems	23	30	I-Task
+can	31	34	O
+be	35	37	O
+determined	38	48	O
+by	49	51	O
+either	52	58	O
+a	59	60	B-Material
+parametric	61	71	I-Material
+-	71	72	I-Material
+model	72	77	I-Material
+-	77	78	I-Material
+based	78	83	I-Material
+method	84	90	I-Material
+or	91	93	O
+a	94	95	B-Material
+nonparametric	96	109	I-Material
+-	109	110	I-Material
+model	110	115	I-Material
+-	115	116	I-Material
+based	116	121	I-Material
+method	122	128	I-Material
+[	129	130	O
+8	130	131	O
+]	131	132	O
+.	132	133	O
+
+In	134	136	O
+the	137	140	O
+parametric	141	151	O
+approach	152	160	O
+,	160	161	O
+a	162	163	B-Task
+nonlinear	164	173	I-Task
+parametric	174	184	I-Task
+model	185	190	I-Task
+is	191	193	O
+first	194	199	O
+identified	200	210	O
+from	211	215	O
+the	216	219	O
+input	220	225	O
+–	225	226	O
+output	226	232	O
+data	233	237	O
+.	237	238	O
+
+The	239	242	O
+GFRFs	243	248	B-Task
+are	249	252	O
+then	253	257	O
+obtained	258	266	O
+by	267	269	O
+mapping	270	277	B-Process
+the	278	281	I-Process
+resultant	282	291	I-Process
+model	292	297	I-Process
+into	298	302	I-Process
+the	303	306	I-Process
+frequency	307	316	I-Process
+domain	317	323	I-Process
+using	324	329	O
+the	330	333	O
+probing	334	341	B-Material
+method	342	348	I-Material
+[	349	350	O
+9	350	351	O
+]	351	352	O
+.	352	353	O
+
+The	354	357	O
+nonparametric	358	371	B-Task
+approach	372	380	I-Task
+is	381	383	O
+often	384	389	O
+referred	390	398	O
+to	399	401	O
+as	402	404	O
+frequency	405	414	B-Task
+-	414	415	I-Task
+domain	415	421	I-Task
+Volterra	422	430	I-Task
+system	431	437	I-Task
+identification	438	452	I-Task
+and	453	456	O
+is	457	459	O
+based	460	465	O
+on	466	468	O
+the	469	472	O
+observation	473	484	O
+that	485	489	O
+the	490	493	O
+Volterra	494	502	B-Task
+model	503	508	I-Task
+of	509	511	I-Task
+nonlinear	512	521	I-Task
+systems	522	529	I-Task
+is	530	532	O
+linear	533	539	O
+in	540	542	O
+terms	543	548	O
+of	549	551	O
+the	552	555	O
+unknown	556	563	O
+Volterra	564	572	O
+kernels	573	580	O
+,	580	581	O
+which	582	587	O
+,	587	588	O
+in	589	591	O
+the	592	595	O
+frequency	596	605	O
+domain	606	612	O
+,	612	613	O
+corresponds	614	625	B-Material
+to	626	628	I-Material
+a	629	630	I-Material
+linear	631	637	I-Material
+relation	638	646	I-Material
+between	647	654	O
+the	655	658	O
+output	659	665	O
+frequency	666	675	O
+response	676	684	O
+and	685	688	O
+linear	689	695	O
+,	695	696	O
+quadratic	697	706	O
+,	706	707	O
+and	708	711	O
+higher	712	718	O
+order	719	724	O
+GFRFs	725	730	O
+.	730	731	O
+
+This	732	736	O
+linear	737	743	B-Task
+relationship	744	756	I-Task
+allows	757	763	O
+the	764	767	O
+use	768	771	O
+of	772	774	O
+a	775	776	B-Material
+least	777	782	I-Material
+squares	783	790	I-Material
+(	791	792	I-Material
+LS	792	794	I-Material
+)	794	795	I-Material
+approach	796	804	I-Material
+to	805	807	O
+solve	808	813	O
+for	814	817	O
+the	818	821	O
+GFRFs	822	827	B-Task
+.	827	828	O
+
+Several	829	836	O
+researchers	837	848	O
+[	849	850	O
+10–12	850	855	O
+]	855	856	O
+have	857	861	O
+used	862	866	O
+this	867	871	O
+method	872	878	O
+to	879	881	O
+estimate	882	890	O
+the	891	894	O
+GFRFs	895	900	B-Task
+.	900	901	O
+
+But	902	905	O
+they	906	910	O
+usually	911	918	O
+made	919	923	B-Process
+the	924	927	I-Process
+assumption	928	938	I-Process
+that	939	943	O
+it	944	946	O
+is	947	949	O
+known	950	955	O
+a	956	957	O
+priori	958	964	O
+that	965	969	O
+the	970	973	B-Task
+system	974	980	I-Task
+under	981	986	O
+study	987	992	O
+can	993	996	O
+be	997	999	O
+represented	1000	1011	O
+by	1012	1014	O
+just	1015	1019	O
+two	1020	1023	B-Material
+or	1024	1026	I-Material
+three	1027	1032	I-Material
+terms	1033	1038	I-Material
+.	1038	1039	O
+
+However	1040	1047	O
+,	1047	1048	O
+such	1049	1053	O
+information	1054	1065	O
+is	1066	1068	O
+rarely	1069	1075	O
+available	1076	1085	O
+a	1086	1087	O
+priori	1088	1094	O
+.	1094	1095	O
 
 
 -DOCSTART- (S0888613X16300767)
 
-However	NN	O	O
-this	NN	O	O
-is	NN	O	O
-not	NN	O	O
-just	NN	O	O
-a	NN	O	O
-useful	NN	O	O
-depiction	NN	O	O
-of	NN	O	O
-an	NN	O	B-Task
-apposite	NN	O	I-Task
-well	NN	O	I-Task
--	NN	O	I-Task
-supported	NN	O	I-Task
-statistical	NN	O	I-Task
-model	NN	O	I-Task
-.	NN	O	O
-
-If	NN	O	O
-we	NN	O	O
-are	NN	O	O
-prepared	NN	O	O
-to	NN	O	O
-allow	NN	O	O
-that	NN	O	O
-the	NN	O	O
-process	NN	O	O
-is	NN	O	O
-driven	NN	O	O
-by	NN	O	O
-a	NN	O	O
-CRG	NN	O	B-Material
-and	NN	O	O
-that	NN	O	O
-the	NN	O	O
-MAP	NN	O	B-Material
-model	NN	O	I-Material
-that	NN	O	O
-we	NN	O	O
-have	NN	O	O
-discovered	NN	O	O
-is	NN	O	O
-indeed	NN	O	O
-generating	NN	O	O
-the	NN	O	O
-idle	NN	O	B-Process
-process	NN	O	I-Process
-,	NN	O	O
-then	NN	O	O
-identifying	NN	O	B-Process
-the	NN	O	I-Process
-disconnected	NN	O	I-Process
-components	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-system	NN	O	I-Process
-allows	NN	O	O
-us	NN	O	O
-to	NN	O	O
-immediately	NN	O	O
-make	NN	O	O
-assertions	NN	O	O
-about	NN	O	O
-the	NN	O	B-Task
-impact	NN	O	I-Task
-of	NN	O	I-Task
-various	NN	O	I-Task
-controls	NN	O	I-Task
-we	NN	O	O
-might	NN	O	O
-apply	NN	O	O
-to	NN	O	O
-this	NN	O	O
-regulatory	NN	O	O
-process	NN	O	O
-–	NN	O	O
-just	NN	O	O
-as	NN	O	O
-we	NN	O	O
-can	NN	O	O
-were	NN	O	O
-we	NN	O	O
-to	NN	O	O
-believe	NN	O	O
-the	NN	O	O
-model	NN	O	O
-was	NN	O	O
-a	NN	O	O
-causal	NN	O	O
-extension	NN	O	O
-of	NN	O	O
-a	NN	O	O
-BN	NN	O	B-Material
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-microarrays	NN	O	O
-,	NN	O	O
-the	NN	O	O
-objective	NN	O	O
-of	NN	O	O
-clustering	NN	O	B-Task
-is	NN	O	O
-to	NN	O	O
-identify	NN	O	B-Process
-patterns	NN	O	I-Process
-among	NN	O	I-Process
-the	NN	O	I-Process
-data	NN	O	I-Process
-and	NN	O	O
-decide	NN	O	O
-which	NN	O	O
-genes	NN	O	O
-to	NN	O	O
-focus	NN	O	O
-on	NN	O	O
-in	NN	O	O
-further	NN	O	O
-,	NN	O	O
-more	NN	O	O
-gene	NN	O	O
--	NN	O	O
-specific	NN	O	O
-,	NN	O	O
-experiments	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-therefore	NN	O	O
-necessary	NN	O	O
-for	NN	O	O
-the	NN	O	O
-scientist	NN	O	O
-to	NN	O	O
-make	NN	O	O
-such	NN	O	O
-causal	NN	O	O
-conjectures	NN	O	O
-about	NN	O	O
-the	NN	O	B-Task
-effect	NN	O	I-Task
-of	NN	O	I-Task
-controls	NN	O	I-Task
-available	NN	O	O
-to	NN	O	O
-her	NN	O	O
-on	NN	O	O
-the	NN	O	O
-expressions	NN	O	O
-reflecting	NN	O	O
-the	NN	O	O
-underlying	NN	O	O
-regulatory	NN	O	O
-process	NN	O	O
-she	NN	O	O
-studies	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-conjectures	NN	O	B-Task
-can	NN	O	O
-be	NN	O	O
-universal	NN	O	O
-or	NN	O	O
-nuanced	NN	O	O
-by	NN	O	O
-evoking	NN	O	B-Material
-ideas	NN	O	I-Material
-of	NN	O	I-Material
-parsimony	NN	O	I-Material
-.	NN	O	O
+However	0	7	O
+this	8	12	O
+is	13	15	O
+not	16	19	O
+just	20	24	O
+a	25	26	O
+useful	27	33	O
+depiction	34	43	O
+of	44	46	O
+an	47	49	B-Task
+apposite	50	58	I-Task
+well	59	63	I-Task
+-	63	64	I-Task
+supported	64	73	I-Task
+statistical	74	85	I-Task
+model	86	91	I-Task
+.	91	92	O
+
+If	93	95	O
+we	96	98	O
+are	99	102	O
+prepared	103	111	O
+to	112	114	O
+allow	115	120	O
+that	121	125	O
+the	126	129	O
+process	130	137	O
+is	138	140	O
+driven	141	147	O
+by	148	150	O
+a	151	152	O
+CRG	153	156	B-Material
+and	157	160	O
+that	161	165	O
+the	166	169	O
+MAP	170	173	B-Material
+model	174	179	I-Material
+that	180	184	O
+we	185	187	O
+have	188	192	O
+discovered	193	203	O
+is	204	206	O
+indeed	207	213	O
+generating	214	224	O
+the	225	228	O
+idle	229	233	B-Process
+process	234	241	I-Process
+,	241	242	O
+then	243	247	O
+identifying	248	259	B-Process
+the	260	263	I-Process
+disconnected	264	276	I-Process
+components	277	287	I-Process
+of	288	290	I-Process
+the	291	294	I-Process
+system	295	301	I-Process
+allows	302	308	O
+us	309	311	O
+to	312	314	O
+immediately	315	326	O
+make	327	331	O
+assertions	332	342	O
+about	343	348	O
+the	349	352	B-Task
+impact	353	359	I-Task
+of	360	362	I-Task
+various	363	370	I-Task
+controls	371	379	I-Task
+we	380	382	O
+might	383	388	O
+apply	389	394	O
+to	395	397	O
+this	398	402	O
+regulatory	403	413	O
+process	414	421	O
+–	422	423	O
+just	424	428	O
+as	429	431	O
+we	432	434	O
+can	435	438	O
+were	439	443	O
+we	444	446	O
+to	447	449	O
+believe	450	457	O
+the	458	461	O
+model	462	467	O
+was	468	471	O
+a	472	473	O
+causal	474	480	O
+extension	481	490	O
+of	491	493	O
+a	494	495	O
+BN	496	498	B-Material
+.	498	499	O
+
+In	500	502	O
+the	503	506	O
+context	507	514	O
+of	515	517	O
+microarrays	518	529	O
+,	529	530	O
+the	531	534	O
+objective	535	544	O
+of	545	547	O
+clustering	548	558	B-Task
+is	559	561	O
+to	562	564	O
+identify	565	573	B-Process
+patterns	574	582	I-Process
+among	583	588	I-Process
+the	589	592	I-Process
+data	593	597	I-Process
+and	598	601	O
+decide	602	608	O
+which	609	614	O
+genes	615	620	O
+to	621	623	O
+focus	624	629	O
+on	630	632	O
+in	633	635	O
+further	636	643	O
+,	643	644	O
+more	645	649	O
+gene	650	654	O
+-	654	655	O
+specific	655	663	O
+,	663	664	O
+experiments	665	676	O
+.	676	677	O
+
+It	678	680	O
+is	681	683	O
+therefore	684	693	O
+necessary	694	703	O
+for	704	707	O
+the	708	711	O
+scientist	712	721	O
+to	722	724	O
+make	725	729	O
+such	730	734	O
+causal	735	741	O
+conjectures	742	753	O
+about	754	759	O
+the	760	763	B-Task
+effect	764	770	I-Task
+of	771	773	I-Task
+controls	774	782	I-Task
+available	783	792	O
+to	793	795	O
+her	796	799	O
+on	800	802	O
+the	803	806	O
+expressions	807	818	O
+reflecting	819	829	O
+the	830	833	O
+underlying	834	844	O
+regulatory	845	855	O
+process	856	863	O
+she	864	867	O
+studies	868	875	O
+.	875	876	O
+
+These	877	882	O
+conjectures	883	894	B-Task
+can	895	898	O
+be	899	901	O
+universal	902	911	O
+or	912	914	O
+nuanced	915	922	O
+by	923	925	O
+evoking	926	933	B-Material
+ideas	934	939	I-Material
+of	940	942	I-Material
+parsimony	943	952	I-Material
+.	952	953	O
 
 
 -DOCSTART- (S0888613X16301062)
 
-The	NN	O	O
-first	NN	O	O
-step	NN	O	O
-of	NN	O	O
-PB	NN	O	B-Material
-,	NN	O	O
-the	NN	O	O
-enumeration	NN	O	B-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-conditional	NN	O	I-Material
-sample	NN	O	I-Material
-space	NN	O	I-Material
-through	NN	O	O
-abductive	NN	O	O
-logic	NN	O	O
-programming	NN	O	O
-,	NN	O	O
-could	NN	O	O
-be	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-“	NN	O	O
-logical	NN	O	B-Material
-inference	NN	O	I-Material
-”	NN	O	O
-in	NN	O	O
-ProbLog	NN	O	B-Material
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-While	NN	O	O
-both	NN	O	O
-languages	NN	O	O
-aim	NN	O	O
-to	NN	O	O
-generate	NN	O	O
-a	NN	O	O
-propositional	NN	O	O
-formula	NN	O	O
-and	NN	O	O
-compile	NN	O	O
-it	NN	O	O
-into	NN	O	O
-a	NN	O	O
-decision	NN	O	O
-diagram	NN	O	O
-,	NN	O	O
-“	NN	O	B-Material
-logical	NN	O	I-Material
-inference	NN	O	I-Material
-”	NN	O	I-Material
-in	NN	O	I-Material
-PB	NN	O	I-Material
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-abductive	NN	O	O
-logic	NN	O	O
-programming	NN	O	O
-,	NN	O	O
-while	NN	O	O
-ProbLog	NN	O	B-Material
-grounds	NN	O	O
-the	NN	O	O
-relevant	NN	O	O
-parts	NN	O	O
-of	NN	O	O
-the	NN	O	O
-probabilistic	NN	O	O
-program	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-in	NN	O	O
-PB	NN	O	B-Material
-compilation	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-boolean	NN	O	O
-formulas	NN	O	O
-is	NN	O	O
-performed	NN	O	O
-using	NN	O	O
-(	NN	O	B-Process
-RO)BDDs	NN	O	I-Process
-,	NN	O	O
-while	NN	O	O
-ProbLog	NN	O	B-Material
-can	NN	O	O
-use	NN	O	O
-a	NN	O	O
-wider	NN	O	O
-range	NN	O	O
-of	NN	O	O
-decision	NN	O	B-Process
-diagrams	NN	O	I-Process
-,	NN	O	O
-e.g.	NN	O	O
-sentential	NN	O	B-Process
-decision	NN	O	I-Process
-diagrams	NN	O	I-Process
-(	NN	O	O
-SDD	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-deterministic	NN	O	B-Process
-,	NN	O	I-Process
-decomposable	NN	O	I-Process
-negation	NN	O	I-Process
-normal	NN	O	I-Process
-form	NN	O	I-Process
-(	NN	O	O
-d	NN	O	B-Process
--	NN	O	I-Process
-DNNF	NN	O	I-Process
-)	NN	O	O
-.	NN	O	O
-
-These	NN	O	O
-differences	NN	O	O
-reflect	NN	O	O
-the	NN	O	O
-different	NN	O	O
-aims	NN	O	O
-of	NN	O	O
-the	NN	O	O
-two	NN	O	O
-PPLs	NN	O	B-Material
-:	NN	O	O
-ProbLog	NN	O	B-Material
-focuses	NN	O	O
-on	NN	O	O
-models	NN	O	O
-where	NN	O	O
-“	NN	O	O
-logical	NN	O	B-Task
-inference	NN	O	I-Task
-”	NN	O	O
-needs	NN	O	O
-to	NN	O	O
-be	NN	O	O
-efficient	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-resulting	NN	O	O
-representation	NN	O	O
-,	NN	O	O
-the	NN	O	O
-decision	NN	O	O
-diagrams	NN	O	O
-,	NN	O	O
-need	NN	O	O
-to	NN	O	O
-be	NN	O	O
-compact	NN	O	O
-,	NN	O	O
-while	NN	O	O
-PB	NN	O	B-Material
-focuses	NN	O	O
-on	NN	O	O
-models	NN	O	O
-where	NN	O	O
-“	NN	O	B-Task
-logical	NN	O	I-Task
-inference	NN	O	I-Task
-”	NN	O	I-Task
-is	NN	O	O
-typically	NN	O	O
-easy	NN	O	O
-,	NN	O	O
-however	NN	O	O
-it	NN	O	O
-must	NN	O	O
-be	NN	O	O
-applied	NN	O	O
-repeatedly	NN	O	O
-,	NN	O	O
-according	NN	O	O
-to	NN	O	O
-the	NN	O	O
-nature	NN	O	O
-and	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-the	NN	O	O
-observations	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-in	NN	O	O
-future	NN	O	O
-work	NN	O	O
-,	NN	O	O
-PB	NN	O	B-Material
-could	NN	O	O
-benefit	NN	O	O
-from	NN	O	O
-the	NN	O	O
-use	NN	O	B-Process
-of	NN	O	I-Process
-more	NN	O	I-Process
-compact	NN	O	I-Process
-decision	NN	O	I-Process
-diagrams	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+first	4	9	O
+step	10	14	O
+of	15	17	O
+PB	18	20	B-Material
+,	20	21	O
+the	22	25	O
+enumeration	26	37	B-Material
+of	38	40	I-Material
+the	41	44	I-Material
+conditional	45	56	I-Material
+sample	57	63	I-Material
+space	64	69	I-Material
+through	70	77	O
+abductive	78	87	O
+logic	88	93	O
+programming	94	105	O
+,	105	106	O
+could	107	112	O
+be	113	115	O
+compared	116	124	O
+to	125	127	O
+“	128	129	O
+logical	129	136	B-Material
+inference	137	146	I-Material
+”	146	147	O
+in	148	150	O
+ProbLog	151	158	B-Material
+[	159	160	O
+9	160	161	O
+]	161	162	O
+.	162	163	O
+
+While	164	169	O
+both	170	174	O
+languages	175	184	O
+aim	185	188	O
+to	189	191	O
+generate	192	200	O
+a	201	202	O
+propositional	203	216	O
+formula	217	224	O
+and	225	228	O
+compile	229	236	O
+it	237	239	O
+into	240	244	O
+a	245	246	O
+decision	247	255	O
+diagram	256	263	O
+,	263	264	O
+“	265	266	B-Material
+logical	266	273	I-Material
+inference	274	283	I-Material
+”	283	284	I-Material
+in	285	287	I-Material
+PB	288	290	I-Material
+is	291	293	O
+based	294	299	O
+on	300	302	O
+abductive	303	312	O
+logic	313	318	O
+programming	319	330	O
+,	330	331	O
+while	332	337	O
+ProbLog	338	345	B-Material
+grounds	346	353	O
+the	354	357	O
+relevant	358	366	O
+parts	367	372	O
+of	373	375	O
+the	376	379	O
+probabilistic	380	393	O
+program	394	401	O
+.	401	402	O
+
+Moreover	403	411	O
+,	411	412	O
+in	413	415	O
+PB	416	418	B-Material
+compilation	419	430	I-Material
+of	431	433	O
+the	434	437	O
+boolean	438	445	O
+formulas	446	454	O
+is	455	457	O
+performed	458	467	O
+using	468	473	O
+(	474	475	B-Process
+RO)BDDs	475	482	I-Process
+,	482	483	O
+while	484	489	O
+ProbLog	490	497	B-Material
+can	498	501	O
+use	502	505	O
+a	506	507	O
+wider	508	513	O
+range	514	519	O
+of	520	522	O
+decision	523	531	B-Process
+diagrams	532	540	I-Process
+,	540	541	O
+e.g.	542	546	O
+sentential	547	557	B-Process
+decision	558	566	I-Process
+diagrams	567	575	I-Process
+(	576	577	O
+SDD	577	580	B-Process
+)	580	581	O
+,	581	582	O
+deterministic	583	596	B-Process
+,	596	597	I-Process
+decomposable	598	610	I-Process
+negation	611	619	I-Process
+normal	620	626	I-Process
+form	627	631	I-Process
+(	632	633	O
+d	633	634	B-Process
+-	634	635	I-Process
+DNNF	635	639	I-Process
+)	639	640	O
+.	640	641	O
+
+These	642	647	O
+differences	648	659	O
+reflect	660	667	O
+the	668	671	O
+different	672	681	O
+aims	682	686	O
+of	687	689	O
+the	690	693	O
+two	694	697	O
+PPLs	698	702	B-Material
+:	702	703	O
+ProbLog	704	711	B-Material
+focuses	712	719	O
+on	720	722	O
+models	723	729	O
+where	730	735	O
+“	736	737	O
+logical	737	744	B-Task
+inference	745	754	I-Task
+”	754	755	O
+needs	756	761	O
+to	762	764	O
+be	765	767	O
+efficient	768	777	O
+,	777	778	O
+and	779	782	O
+the	783	786	O
+resulting	787	796	O
+representation	797	811	O
+,	811	812	O
+the	813	816	O
+decision	817	825	O
+diagrams	826	834	O
+,	834	835	O
+need	836	840	O
+to	841	843	O
+be	844	846	O
+compact	847	854	O
+,	854	855	O
+while	856	861	O
+PB	862	864	B-Material
+focuses	865	872	O
+on	873	875	O
+models	876	882	O
+where	883	888	O
+“	889	890	B-Task
+logical	890	897	I-Task
+inference	898	907	I-Task
+”	907	908	I-Task
+is	909	911	O
+typically	912	921	O
+easy	922	926	O
+,	926	927	O
+however	928	935	O
+it	936	938	O
+must	939	943	O
+be	944	946	O
+applied	947	954	O
+repeatedly	955	965	O
+,	965	966	O
+according	967	976	O
+to	977	979	O
+the	980	983	O
+nature	984	990	O
+and	991	994	O
+the	995	998	O
+number	999	1005	O
+of	1006	1008	O
+the	1009	1012	O
+observations	1013	1025	O
+.	1025	1026	O
+
+However	1027	1034	O
+,	1034	1035	O
+in	1036	1038	O
+future	1039	1045	O
+work	1046	1050	O
+,	1050	1051	O
+PB	1052	1054	B-Material
+could	1055	1060	O
+benefit	1061	1068	O
+from	1069	1073	O
+the	1074	1077	O
+use	1078	1081	B-Process
+of	1082	1084	I-Process
+more	1085	1089	I-Process
+compact	1090	1097	I-Process
+decision	1098	1106	I-Process
+diagrams	1107	1115	I-Process
+.	1115	1116	O
 
 
 -DOCSTART- (S0895611116300684)
 
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-PSR	NN	O	B-Task
-applied	NN	O	I-Task
-to	NN	O	I-Task
-vessels	NN	O	I-Task
-,	NN	O	O
-preservation	NN	O	O
-of	NN	O	O
-high	NN	O	O
-curvature	NN	O	O
-and	NN	O	O
-branches	NN	O	O
-(	NN	O	O
-concavities	NN	O	O
-)	NN	O	O
-demands	NN	O	O
-a	NN	O	O
-high	NN	O	O
-value	NN	O	O
-of	NN	O	O
-the	NN	O	O
-d	NN	O	O
-parameter	NN	O	O
-,	NN	O	O
-resulting	NN	O	O
-in	NN	O	O
-models	NN	O	O
-with	NN	O	O
-high	NN	O	O
-number	NN	O	O
-of	NN	O	O
-polygons	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-cope	NN	O	O
-with	NN	O	O
-this	NN	O	O
-problem	NN	O	O
-,	NN	O	O
-Wu	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-evaluates	NN	O	O
-a	NN	O	O
-variant	NN	O	O
-of	NN	O	O
-PSR	NN	O	B-Process
-(	NN	O	O
-in	NN	O	O
-that	NN	O	O
-work	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-as	NN	O	O
-scale	NN	O	B-Process
--	NN	O	I-Process
-adaptive	NN	O	I-Process
-[	NN	O	O
-SA	NN	O	B-Process
-]	NN	O	O
-)	NN	O	O
-,	NN	O	O
-which	NN	O	O
-includes	NN	O	O
-curvature	NN	O	B-Process
--	NN	O	I-Process
-dependent	NN	O	I-Process
-polygonization	NN	O	I-Process
-(	NN	O	O
-e.g.	NN	O	O
-increasing	NN	O	B-Process
-/	NN	O	I-Process
-decreasing	NN	O	I-Process
-the	NN	O	I-Process
-size	NN	O	I-Process
-of	NN	O	I-Process
-triangles	NN	O	I-Process
-according	NN	O	I-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-local	NN	O	I-Process
-curvature	NN	O	I-Process
-)	NN	O	O
-
-(	NN	O	O
-Wu	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2010	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-Wu	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-,	NN	O	O
-other	NN	O	O
-methods	NN	O	O
-including	NN	O	O
-MC	NN	O	B-Process
-(	NN	O	O
-without	NN	O	O
-smoothing	NN	O	O
-and	NN	O	O
-decimation	NN	O	O
-)	NN	O	O
-are	NN	O	O
-evaluated	NN	O	O
-with	NN	O	O
-application	NN	O	O
-to	NN	O	O
-vessel	NN	O	B-Task
-modeling	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-authors	NN	O	O
-,	NN	O	O
-point	NN	O	O
-at	NN	O	O
-SA	NN	O	B-Material
-as	NN	O	O
-a	NN	O	O
-suitable	NN	O	O
-method	NN	O	O
-for	NN	O	O
-reconstruction	NN	O	B-Task
-of	NN	O	I-Task
-vessels	NN	O	I-Task
-with	NN	O	O
-applications	NN	O	O
-to	NN	O	O
-surgery	NN	O	B-Task
-planning	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-methods	NN	O	O
-evaluated	NN	O	O
-by	NN	O	O
-Wu	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-
-(	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-could	NN	O	O
-be	NN	O	O
-also	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-another	NN	O	O
-set	NN	O	O
-of	NN	O	O
-techniques	NN	O	O
-(	NN	O	O
-known	NN	O	O
-as	NN	O	O
-model	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-methods	NN	O	I-Material
-)	NN	O	O
-(	NN	O	O
-Preim	NN	O	O
-and	NN	O	O
-Oeltze	NN	O	O
-,	NN	O	O
-2008	NN	O	O
-)	NN	O	O
-,	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-context	NN	O	O
-of	NN	O	O
-vessel	NN	O	B-Task
-modeling	NN	O	I-Task
-for	NN	O	I-Task
-surgery	NN	O	I-Task
-planning	NN	O	I-Task
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+case	7	11	O
+of	12	14	O
+PSR	15	18	B-Task
+applied	19	26	I-Task
+to	27	29	I-Task
+vessels	30	37	I-Task
+,	37	38	O
+preservation	39	51	O
+of	52	54	O
+high	55	59	O
+curvature	60	69	O
+and	70	73	O
+branches	74	82	O
+(	83	84	O
+concavities	84	95	O
+)	95	96	O
+demands	97	104	O
+a	105	106	O
+high	107	111	O
+value	112	117	O
+of	118	120	O
+the	121	124	O
+d	125	126	O
+parameter	127	136	O
+,	136	137	O
+resulting	138	147	O
+in	148	150	O
+models	151	157	O
+with	158	162	O
+high	163	167	O
+number	168	174	O
+of	175	177	O
+polygons	178	186	O
+.	186	187	O
+
+To	188	190	O
+cope	191	195	O
+with	196	200	O
+this	201	205	O
+problem	206	213	O
+,	213	214	O
+Wu	215	217	O
+et	218	220	O
+al	221	223	O
+.	223	224	O
+
+(	225	226	O
+2013	226	230	O
+)	230	231	O
+evaluates	232	241	O
+a	242	243	O
+variant	244	251	O
+of	252	254	O
+PSR	255	258	B-Process
+(	259	260	O
+in	260	262	O
+that	263	267	O
+work	268	272	O
+referred	273	281	O
+to	282	284	O
+as	285	287	O
+scale	288	293	B-Process
+-	293	294	I-Process
+adaptive	294	302	I-Process
+[	303	304	O
+SA	304	306	B-Process
+]	306	307	O
+)	307	308	O
+,	308	309	O
+which	310	315	O
+includes	316	324	O
+curvature	325	334	B-Process
+-	334	335	I-Process
+dependent	335	344	I-Process
+polygonization	345	359	I-Process
+(	360	361	O
+e.g.	361	365	O
+increasing	366	376	B-Process
+/	376	377	I-Process
+decreasing	377	387	I-Process
+the	388	391	I-Process
+size	392	396	I-Process
+of	397	399	I-Process
+triangles	400	409	I-Process
+according	410	419	I-Process
+to	420	422	I-Process
+the	423	426	I-Process
+local	427	432	I-Process
+curvature	433	442	I-Process
+)	442	443	O
+
+(	444	445	O
+Wu	445	447	O
+et	448	450	O
+al	451	453	O
+.	453	454	O
+,	454	455	O
+2010	456	460	O
+)	460	461	O
+.	461	462	O
+
+In	463	465	O
+Wu	466	468	O
+et	469	471	O
+al	472	474	O
+.	474	475	O
+
+(	476	477	O
+2013	477	481	O
+)	481	482	O
+,	482	483	O
+other	484	489	O
+methods	490	497	O
+including	498	507	O
+MC	508	510	B-Process
+(	511	512	O
+without	512	519	O
+smoothing	520	529	O
+and	530	533	O
+decimation	534	544	O
+)	544	545	O
+are	546	549	O
+evaluated	550	559	O
+with	560	564	O
+application	565	576	O
+to	577	579	O
+vessel	580	586	B-Task
+modeling	587	595	I-Task
+.	595	596	O
+
+The	597	600	O
+authors	601	608	O
+,	608	609	O
+point	610	615	O
+at	616	618	O
+SA	619	621	B-Material
+as	622	624	O
+a	625	626	O
+suitable	627	635	O
+method	636	642	O
+for	643	646	O
+reconstruction	647	661	B-Task
+of	662	664	I-Task
+vessels	665	672	I-Task
+with	673	677	O
+applications	678	690	O
+to	691	693	O
+surgery	694	701	B-Task
+planning	702	710	I-Task
+.	710	711	O
+
+The	712	715	O
+methods	716	723	O
+evaluated	724	733	O
+by	734	736	O
+Wu	737	739	O
+et	740	742	O
+al	743	745	O
+.	745	746	O
+
+(	747	748	O
+2013	748	752	O
+)	752	753	O
+could	754	759	O
+be	760	762	O
+also	763	767	O
+compared	768	776	O
+with	777	781	O
+another	782	789	O
+set	790	793	O
+of	794	796	O
+techniques	797	807	O
+(	808	809	O
+known	809	814	O
+as	815	817	O
+model	818	823	B-Material
+-	823	824	I-Material
+based	824	829	I-Material
+methods	830	837	I-Material
+)	837	838	O
+(	839	840	O
+Preim	840	845	O
+and	846	849	O
+Oeltze	850	856	O
+,	856	857	O
+2008	858	862	O
+)	862	863	O
+,	863	864	O
+widely	865	871	O
+used	872	876	O
+in	877	879	O
+the	880	883	O
+context	884	891	O
+of	892	894	O
+vessel	895	901	B-Task
+modeling	902	910	I-Task
+for	911	914	I-Task
+surgery	915	922	I-Task
+planning	923	931	I-Task
+.	931	932	O
 
 
 -DOCSTART- (S0927025612000249)
 
-The	NN	O	O
-need	NN	O	O
-for	NN	O	O
-power	NN	O	B-Task
-generation	NN	O	I-Task
-industry	NN	O	O
-to	NN	O	O
-improve	NN	O	B-Task
-the	NN	O	I-Task
-thermal	NN	O	I-Task
-efficiency	NN	O	I-Task
-of	NN	O	I-Task
-power	NN	O	I-Task
-plant	NN	O	I-Task
-has	NN	O	O
-led	NN	O	O
-to	NN	O	O
-the	NN	O	O
-development	NN	O	O
-of	NN	O	O
-9–12	NN	O	B-Material
-%	NN	O	I-Material
-Cr	NN	O	I-Material
-martensitic	NN	O	I-Material
-steels	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-development	NN	O	B-Task
-of	NN	O	I-Task
-and	NN	O	I-Task
-research	NN	O	I-Task
-on	NN	O	I-Task
-P91	NN	O	I-Task
-steels	NN	O	I-Task
-started	NN	O	O
-since	NN	O	O
-late	NN	O	O
-1970s	NN	O	O
-and	NN	O	O
-early	NN	O	O
-1990s	NN	O	O
-,	NN	O	O
-respectively	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-work	NN	O	O
-has	NN	O	O
-focussed	NN	O	O
-on	NN	O	O
-their	NN	O	O
-creep	NN	O	O
-strengths	NN	O	O
-due	NN	O	O
-to	NN	O	O
-its	NN	O	O
-intended	NN	O	O
-application	NN	O	O
-at	NN	O	O
-high	NN	O	O
-temperature	NN	O	O
-.	NN	O	O
-
-Recently	NN	O	O
-,	NN	O	O
-the	NN	O	O
-introduction	NN	O	O
-of	NN	O	O
-more	NN	O	O
-cyclic	NN	O	O
-operation	NN	O	O
-of	NN	O	O
-power	NN	O	B-Material
-plant	NN	O	I-Material
-has	NN	O	O
-introduced	NN	O	O
-the	NN	O	O
-possibility	NN	O	O
-of	NN	O	O
-fatigue	NN	O	B-Process
-problems	NN	O	I-Process
-.	NN	O	O
-
-Bore	NN	O	O
-cracking	NN	O	O
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-effects	NN	O	O
-of	NN	O	O
-varying	NN	O	O
-steam	NN	O	B-Process
-warming	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-reported	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-temperature	NN	O	B-Process
-cycling	NN	O	I-Process
-causes	NN	O	O
-thermal	NN	O	O
-gradients	NN	O	O
-between	NN	O	O
-the	NN	O	O
-inside	NN	O	O
-and	NN	O	O
-outside	NN	O	O
-of	NN	O	O
-components	NN	O	O
-and	NN	O	O
-this	NN	O	O
-can	NN	O	O
-cause	NN	O	O
-cyclic	NN	O	O
-stress	NN	O	O
-levels	NN	O	O
-to	NN	O	O
-be	NN	O	O
-of	NN	O	O
-concerns	NN	O	O
-.	NN	O	O
-
-Recently	NN	O	O
-,	NN	O	O
-research	NN	O	O
-on	NN	O	O
-thermal	NN	O	B-Task
-–	NN	O	I-Task
-mechanical	NN	O	I-Task
-analysis	NN	O	I-Task
-of	NN	O	I-Task
-P91	NN	O	I-Task
-has	NN	O	O
-been	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-including	NN	O	O
-the	NN	O	O
-characterisation	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-cyclic	NN	O	I-Task
-behaviour	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-material	NN	O	I-Task
-using	NN	O	O
-the	NN	O	O
-two	NN	O	B-Process
--	NN	O	I-Process
-layer	NN	O	I-Process
-and	NN	O	I-Process
-unified	NN	O	I-Process
-visco	NN	O	I-Process
--	NN	O	I-Process
-plasticity	NN	O	I-Process
-models	NN	O	I-Process
-[	NN	O	O
-3,4	NN	O	O
-]	NN	O	O
-.	NN	O	O
+The	0	3	O
+need	4	8	O
+for	9	12	O
+power	13	18	B-Task
+generation	19	29	I-Task
+industry	30	38	O
+to	39	41	O
+improve	42	49	B-Task
+the	50	53	I-Task
+thermal	54	61	I-Task
+efficiency	62	72	I-Task
+of	73	75	I-Task
+power	76	81	I-Task
+plant	82	87	I-Task
+has	88	91	O
+led	92	95	O
+to	96	98	O
+the	99	102	O
+development	103	114	O
+of	115	117	O
+9–12	118	122	B-Material
+%	122	123	I-Material
+Cr	124	126	I-Material
+martensitic	127	138	I-Material
+steels	139	145	I-Material
+.	145	146	O
+
+The	147	150	O
+development	151	162	B-Task
+of	163	165	I-Task
+and	166	169	I-Task
+research	170	178	I-Task
+on	179	181	I-Task
+P91	182	185	I-Task
+steels	186	192	I-Task
+started	193	200	O
+since	201	206	O
+late	207	211	O
+1970s	212	217	O
+and	218	221	O
+early	222	227	O
+1990s	228	233	O
+,	233	234	O
+respectively	235	247	O
+[	248	249	O
+1	249	250	O
+]	250	251	O
+.	251	252	O
+
+The	253	256	O
+work	257	261	O
+has	262	265	O
+focussed	266	274	O
+on	275	277	O
+their	278	283	O
+creep	284	289	O
+strengths	290	299	O
+due	300	303	O
+to	304	306	O
+its	307	310	O
+intended	311	319	O
+application	320	331	O
+at	332	334	O
+high	335	339	O
+temperature	340	351	O
+.	351	352	O
+
+Recently	353	361	O
+,	361	362	O
+the	363	366	O
+introduction	367	379	O
+of	380	382	O
+more	383	387	O
+cyclic	388	394	O
+operation	395	404	O
+of	405	407	O
+power	408	413	B-Material
+plant	414	419	I-Material
+has	420	423	O
+introduced	424	434	O
+the	435	438	O
+possibility	439	450	O
+of	451	453	O
+fatigue	454	461	B-Process
+problems	462	470	I-Process
+.	470	471	O
+
+Bore	472	476	O
+cracking	477	485	O
+due	486	489	O
+to	490	492	O
+the	493	496	O
+effects	497	504	O
+of	505	507	O
+varying	508	515	O
+steam	516	521	B-Process
+warming	522	529	I-Process
+has	530	533	O
+been	534	538	O
+reported	539	547	O
+[	548	549	O
+2	549	550	O
+]	550	551	O
+.	551	552	O
+
+The	553	556	O
+temperature	557	568	B-Process
+cycling	569	576	I-Process
+causes	577	583	O
+thermal	584	591	O
+gradients	592	601	O
+between	602	609	O
+the	610	613	O
+inside	614	620	O
+and	621	624	O
+outside	625	632	O
+of	633	635	O
+components	636	646	O
+and	647	650	O
+this	651	655	O
+can	656	659	O
+cause	660	665	O
+cyclic	666	672	O
+stress	673	679	O
+levels	680	686	O
+to	687	689	O
+be	690	692	O
+of	693	695	O
+concerns	696	704	O
+.	704	705	O
+
+Recently	706	714	O
+,	714	715	O
+research	716	724	O
+on	725	727	O
+thermal	728	735	B-Task
+–	735	736	I-Task
+mechanical	736	746	I-Task
+analysis	747	755	I-Task
+of	756	758	I-Task
+P91	759	762	I-Task
+has	763	766	O
+been	767	771	O
+carried	772	779	O
+out	780	783	O
+including	784	793	O
+the	794	797	O
+characterisation	798	814	B-Task
+of	815	817	I-Task
+the	818	821	I-Task
+cyclic	822	828	I-Task
+behaviour	829	838	I-Task
+of	839	841	I-Task
+the	842	845	I-Task
+material	846	854	I-Task
+using	855	860	O
+the	861	864	O
+two	865	868	B-Process
+-	868	869	I-Process
+layer	869	874	I-Process
+and	875	878	I-Process
+unified	879	886	I-Process
+visco	887	892	I-Process
+-	892	893	I-Process
+plasticity	893	903	I-Process
+models	904	910	I-Process
+[	911	912	O
+3,4	912	915	O
+]	915	916	O
+.	916	917	O
 
 
 -DOCSTART- (S092702561300267X)
 
-In	NN	O	O
-previous	NN	O	O
-publications	NN	O	O
-the	NN	O	O
-present	NN	O	O
-authors	NN	O	O
-proposed	NN	O	O
-a	NN	O	O
-method	NN	O	O
-to	NN	O	O
-incorporate	NN	O	B-Task
-the	NN	O	I-Task
-thermodynamics	NN	O	I-Task
-of	NN	O	I-Task
-ternary	NN	O	I-Task
-alloys	NN	O	I-Task
-and	NN	O	I-Task
-liquid	NN	O	I-Task
-diffusion	NN	O	I-Task
--	NN	O	I-Task
-governed	NN	O	I-Task
-solidification	NN	O	I-Task
-kinetics	NN	O	I-Task
-into	NN	O	I-Task
-a	NN	O	I-Task
-multiphase	NN	O	I-Task
-volume	NN	O	I-Task
-average	NN	O	I-Task
-solidification	NN	O	I-Task
-model	NN	O	I-Task
-[	NN	O	O
-23,24	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Back	NN	O	B-Process
-diffusion	NN	O	I-Process
-was	NN	O	O
-disregarded	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-way	NN	O	O
-to	NN	O	O
-access	NN	O	O
-the	NN	O	O
-thermodynamic	NN	O	B-Material
-data	NN	O	I-Material
-(	NN	O	O
-e.g.	NN	O	O
-Thermo	NN	O	O
--	NN	O	O
-Calc	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-)	NN	O	O
-through	NN	O	O
-a	NN	O	O
-tabulation	NN	O	B-Material
-and	NN	O	I-Material
-interpolation	NN	O	I-Material
-program	NN	O	I-Material
-ISAT	NN	O	B-Material
-(	NN	O	O
-In	NN	O	B-Material
-Situ	NN	O	I-Material
-Adaptive	NN	O	I-Material
-Tabulation	NN	O	I-Material
-)	NN	O	O
-was	NN	O	O
-suggested	NN	O	O
-.	NN	O	O
-
-With	NN	O	O
-the	NN	O	O
-ISAT	NN	O	B-Process
-approach	NN	O	I-Process
-it	NN	O	O
-is	NN	O	O
-possible	NN	O	O
-to	NN	O	O
-perform	NN	O	O
-an	NN	O	O
-online	NN	O	O
-call	NN	O	O
-of	NN	O	O
-the	NN	O	O
-thermodynamic	NN	O	B-Material
-data	NN	O	I-Material
-and	NN	O	O
-trace	NN	O	O
-the	NN	O	O
-formation	NN	O	O
-of	NN	O	O
-each	NN	O	O
-individual	NN	O	O
-solid	NN	O	O
-phase	NN	O	O
-(	NN	O	O
-primary	NN	O	O
-,	NN	O	O
-peritectic	NN	O	O
-,	NN	O	O
-eutectic	NN	O	O
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-calls	NN	O	O
-of	NN	O	O
-the	NN	O	O
-thermodynamic	NN	O	B-Material
-data	NN	O	I-Material
-is	NN	O	O
-equal	NN	O	O
-to	NN	O	O
-the	NN	O	O
-product	NN	O	O
-of	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-the	NN	O	O
-discretized	NN	O	B-Material
-volume	NN	O	I-Material
-elements	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-time	NN	O	O
-steps	NN	O	O
-and	NN	O	O
-the	NN	O	O
-calculation	NN	O	O
-iterations	NN	O	O
-per	NN	O	O
-time	NN	O	O
-step	NN	O	O
-,	NN	O	O
-the	NN	O	O
-calculation	NN	O	O
-becomes	NN	O	O
-exhausting	NN	O	O
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-the	NN	O	O
-current	NN	O	B-Process
-model	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-modification	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-previous	NN	O	I-Process
-model	NN	O	I-Process
-using	NN	O	I-Process
-a	NN	O	I-Process
-linearized	NN	O	I-Process
-phase	NN	O	I-Process
-diagram	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-no	NN	O	O
-online	NN	O	B-Process
-call	NN	O	I-Process
-of	NN	O	I-Process
-thermodynamic	NN	O	I-Process
-data	NN	O	I-Process
-is	NN	O	O
-necessary	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-the	NN	O	O
-model	NN	O	O
-presented	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-is	NN	O	O
-extended	NN	O	B-Task
-to	NN	O	I-Task
-consider	NN	O	I-Task
-the	NN	O	I-Task
-back	NN	O	I-Task
-diffusion	NN	O	I-Task
-into	NN	O	I-Task
-the	NN	O	I-Task
-solid	NN	O	I-Task
-.	NN	O	O
-
-With	NN	O	O
-these	NN	O	O
-modifications	NN	O	B-Process
-,	NN	O	O
-the	NN	O	O
-model	NN	O	O
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-perform	NN	O	B-Task
-casting	NN	O	I-Task
-process	NN	O	I-Task
-simulations	NN	O	I-Task
-with	NN	O	I-Task
-incorporated	NN	O	I-Task
-full	NN	O	I-Task
-diffusion	NN	O	I-Task
--	NN	O	I-Task
-governed	NN	O	I-Task
-solidification	NN	O	I-Task
-kinetics	NN	O	I-Task
-for	NN	O	O
-ternary	NN	O	B-Material
-alloys	NN	O	I-Material
-at	NN	O	O
-a	NN	O	O
-reasonable	NN	O	O
-computation	NN	O	O
-cost	NN	O	O
-.	NN	O	O
+In	0	2	O
+previous	3	11	O
+publications	12	24	O
+the	25	28	O
+present	29	36	O
+authors	37	44	O
+proposed	45	53	O
+a	54	55	O
+method	56	62	O
+to	63	65	O
+incorporate	66	77	B-Task
+the	78	81	I-Task
+thermodynamics	82	96	I-Task
+of	97	99	I-Task
+ternary	100	107	I-Task
+alloys	108	114	I-Task
+and	115	118	I-Task
+liquid	119	125	I-Task
+diffusion	126	135	I-Task
+-	135	136	I-Task
+governed	136	144	I-Task
+solidification	145	159	I-Task
+kinetics	160	168	I-Task
+into	169	173	I-Task
+a	174	175	I-Task
+multiphase	176	186	I-Task
+volume	187	193	I-Task
+average	194	201	I-Task
+solidification	202	216	I-Task
+model	217	222	I-Task
+[	223	224	O
+23,24	224	229	O
+]	229	230	O
+.	230	231	O
+
+Back	232	236	B-Process
+diffusion	237	246	I-Process
+was	247	250	O
+disregarded	251	262	O
+.	262	263	O
+
+A	264	265	O
+way	266	269	O
+to	270	272	O
+access	273	279	O
+the	280	283	O
+thermodynamic	284	297	B-Material
+data	298	302	I-Material
+(	303	304	O
+e.g.	304	308	O
+Thermo	309	315	O
+-	315	316	O
+Calc	316	320	O
+[	321	322	O
+1	322	323	O
+]	323	324	O
+)	324	325	O
+through	326	333	O
+a	334	335	O
+tabulation	336	346	B-Material
+and	347	350	I-Material
+interpolation	351	364	I-Material
+program	365	372	I-Material
+ISAT	373	377	B-Material
+(	378	379	O
+In	379	381	B-Material
+Situ	382	386	I-Material
+Adaptive	387	395	I-Material
+Tabulation	396	406	I-Material
+)	406	407	O
+was	408	411	O
+suggested	412	421	O
+.	421	422	O
+
+With	423	427	O
+the	428	431	O
+ISAT	432	436	B-Process
+approach	437	445	I-Process
+it	446	448	O
+is	449	451	O
+possible	452	460	O
+to	461	463	O
+perform	464	471	O
+an	472	474	O
+online	475	481	O
+call	482	486	O
+of	487	489	O
+the	490	493	O
+thermodynamic	494	507	B-Material
+data	508	512	I-Material
+and	513	516	O
+trace	517	522	O
+the	523	526	O
+formation	527	536	O
+of	537	539	O
+each	540	544	O
+individual	545	555	O
+solid	556	561	O
+phase	562	567	O
+(	568	569	O
+primary	569	576	O
+,	576	577	O
+peritectic	578	588	O
+,	588	589	O
+eutectic	590	598	O
+,	598	599	O
+etc	600	603	O
+.	603	604	O
+)	604	605	O
+.	605	606	O
+
+As	607	609	O
+the	610	613	O
+number	614	620	O
+of	621	623	O
+calls	624	629	O
+of	630	632	O
+the	633	636	O
+thermodynamic	637	650	B-Material
+data	651	655	I-Material
+is	656	658	O
+equal	659	664	O
+to	665	667	O
+the	668	671	O
+product	672	679	O
+of	680	682	O
+the	683	686	O
+number	687	693	O
+of	694	696	O
+the	697	700	O
+discretized	701	712	B-Material
+volume	713	719	I-Material
+elements	720	728	I-Material
+,	728	729	O
+the	730	733	O
+time	734	738	O
+steps	739	744	O
+and	745	748	O
+the	749	752	O
+calculation	753	764	O
+iterations	765	775	O
+per	776	779	O
+time	780	784	O
+step	785	789	O
+,	789	790	O
+the	791	794	O
+calculation	795	806	O
+becomes	807	814	O
+exhausting	815	825	O
+.	825	826	O
+
+Therefore	827	836	O
+,	836	837	O
+the	838	841	O
+current	842	849	B-Process
+model	850	855	I-Process
+is	856	858	O
+a	859	860	O
+modification	861	873	B-Process
+of	874	876	I-Process
+the	877	880	I-Process
+previous	881	889	I-Process
+model	890	895	I-Process
+using	896	901	I-Process
+a	902	903	I-Process
+linearized	904	914	I-Process
+phase	915	920	I-Process
+diagram	921	928	I-Process
+,	928	929	O
+and	930	933	O
+no	934	936	O
+online	937	943	B-Process
+call	944	948	I-Process
+of	949	951	I-Process
+thermodynamic	952	965	I-Process
+data	966	970	I-Process
+is	971	973	O
+necessary	974	983	O
+.	983	984	O
+
+In	985	987	O
+addition	988	996	O
+,	996	997	O
+the	998	1001	O
+model	1002	1007	O
+presented	1008	1017	O
+in	1018	1020	O
+this	1021	1025	O
+paper	1026	1031	O
+is	1032	1034	O
+extended	1035	1043	B-Task
+to	1044	1046	I-Task
+consider	1047	1055	I-Task
+the	1056	1059	I-Task
+back	1060	1064	I-Task
+diffusion	1065	1074	I-Task
+into	1075	1079	I-Task
+the	1080	1083	I-Task
+solid	1084	1089	I-Task
+.	1089	1090	O
+
+With	1091	1095	O
+these	1096	1101	O
+modifications	1102	1115	B-Process
+,	1115	1116	O
+the	1117	1120	O
+model	1121	1126	O
+can	1127	1130	O
+be	1131	1133	O
+used	1134	1138	O
+to	1139	1141	O
+perform	1142	1149	B-Task
+casting	1150	1157	I-Task
+process	1158	1165	I-Task
+simulations	1166	1177	I-Task
+with	1178	1182	I-Task
+incorporated	1183	1195	I-Task
+full	1196	1200	I-Task
+diffusion	1201	1210	I-Task
+-	1210	1211	I-Task
+governed	1211	1219	I-Task
+solidification	1220	1234	I-Task
+kinetics	1235	1243	I-Task
+for	1244	1247	O
+ternary	1248	1255	B-Material
+alloys	1256	1262	I-Material
+at	1263	1265	O
+a	1266	1267	O
+reasonable	1268	1278	O
+computation	1279	1290	O
+cost	1291	1295	O
+.	1295	1296	O
 
 
 -DOCSTART- (S092702561300760X)
 
-Due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-complex	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-the	NN	O	O
-thermal	NN	O	B-Process
-spray	NN	O	I-Process
-process	NN	O	I-Process
-,	NN	O	O
-modelling	NN	O	B-Task
-has	NN	O	O
-been	NN	O	O
-playing	NN	O	O
-a	NN	O	O
-key	NN	O	O
-role	NN	O	O
-in	NN	O	O
-providing	NN	O	B-Task
-some	NN	O	I-Task
-key	NN	O	I-Task
-insights	NN	O	I-Task
-for	NN	O	I-Task
-process	NN	O	I-Task
-design	NN	O	I-Task
-and	NN	O	I-Task
-operations	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-relationships	NN	O	O
-among	NN	O	O
-processing	NN	O	B-Process
-conditions	NN	O	O
-,	NN	O	O
-particle	NN	O	O
-characteristics	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-resulting	NN	O	O
-coating	NN	O	B-Process
-properties	NN	O	O
-are	NN	O	O
-nonlinear	NN	O	O
-and	NN	O	O
-might	NN	O	O
-be	NN	O	O
-difficult	NN	O	O
-to	NN	O	O
-be	NN	O	O
-unravelled	NN	O	O
-by	NN	O	O
-the	NN	O	O
-experimental	NN	O	B-Task
-studies	NN	O	I-Task
-alone	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-[	NN	O	O
-5–7	NN	O	O
-]	NN	O	O
-)	NN	O	O
-
-Detailed	NN	O	O
-information	NN	O	O
-on	NN	O	O
-the	NN	O	O
-atomic	NN	O	B-Process
-level	NN	O	I-Process
-changes	NN	O	I-Process
-leading	NN	O	O
-to	NN	O	O
-changes	NN	O	O
-observed	NN	O	O
-at	NN	O	O
-macroscale	NN	O	O
-can	NN	O	O
-appropriately	NN	O	O
-be	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-MD	NN	O	B-Process
-simulation	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-effect	NN	O	O
-of	NN	O	O
-temperature	NN	O	O
-and	NN	O	O
-velocity	NN	O	O
-can	NN	O	O
-be	NN	O	O
-determined	NN	O	O
-more	NN	O	O
-precisely	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-work	NN	O	O
-,	NN	O	O
-relatively	NN	O	O
-simpler	NN	O	O
-spray	NN	O	B-Process
-system	NN	O	I-Process
-of	NN	O	O
-copper	NN	O	B-Material
-–	NN	O	I-Material
-copper	NN	O	I-Material
-particle	NN	O	I-Material
-was	NN	O	O
-simulated	NN	O	O
-to	NN	O	O
-obtain	NN	O	O
-a	NN	O	O
-better	NN	O	O
-understanding	NN	O	O
-of	NN	O	O
-particle	NN	O	B-Process
-recrystallization	NN	O	I-Process
-and	NN	O	I-Process
-solidification	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-deformation	NN	O	B-Process
-mechanics	NN	O	O
-and	NN	O	O
-topography	NN	O	O
-of	NN	O	O
-the	NN	O	O
-impacting	NN	O	O
-particles	NN	O	B-Material
-.	NN	O	O
-
-Using	NN	O	O
-state	NN	O	O
--	NN	O	O
-of	NN	O	O
--	NN	O	O
-the	NN	O	O
--	NN	O	O
-art	NN	O	O
-methods	NN	O	O
-to	NN	O	O
-examine	NN	O	O
-the	NN	O	O
-physical	NN	O	O
-mechanisms	NN	O	O
-involved	NN	O	O
-in	NN	O	O
-the	NN	O	O
-impacting	NN	O	O
-behavior	NN	O	O
-and	NN	O	O
-structure	NN	O	O
-–	NN	O	O
-property	NN	O	O
-relationship	NN	O	O
-,	NN	O	O
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-suggested	NN	O	O
-that	NN	O	O
-the	NN	O	O
-consecutive	NN	O	B-Process
-layer	NN	O	I-Process
-deposition	NN	O	I-Process
-of	NN	O	O
-particles	NN	O	B-Material
-can	NN	O	O
-better	NN	O	O
-be	NN	O	O
-understood	NN	O	O
-by	NN	O	O
-understanding	NN	O	B-Task
-individual	NN	O	I-Task
-particle	NN	O	I-Task
-impacts	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-particle	NN	O	B-Process
-–	NN	O	I-Process
-surface	NN	O	I-Process
-interaction	NN	O	I-Process
-mechanism	NN	O	I-Process
-and	NN	O	O
-its	NN	O	O
-relation	NN	O	O
-to	NN	O	O
-Reynolds	NN	O	B-Process
-number	NN	O	I-Process
-can	NN	O	O
-offer	NN	O	O
-information	NN	O	O
-on	NN	O	O
-the	NN	O	O
-quality	NN	O	O
-of	NN	O	O
-the	NN	O	O
-coating	NN	O	B-Process
-through	NN	O	O
-its	NN	O	O
-response	NN	O	O
-to	NN	O	O
-shock	NN	O	B-Process
-heating	NN	O	I-Process
-.	NN	O	O
-
-As	NN	O	O
-a	NN	O	O
-general	NN	O	O
-practice	NN	O	O
-,	NN	O	O
-engineering	NN	O	B-Material
-components	NN	O	I-Material
-are	NN	O	O
-thermally	NN	O	B-Process
-sprayed	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-continuous	NN	O	O
-multilayer	NN	O	O
-mode	NN	O	O
-with	NN	O	O
-cooling	NN	O	B-Process
-;	NN	O	O
-therefore	NN	O	O
-there	NN	O	O
-is	NN	O	O
-an	NN	O	O
-opportunity	NN	O	O
-for	NN	O	O
-developing	NN	O	B-Task
-richer	NN	O	I-Task
-theoretical	NN	O	I-Task
-models	NN	O	I-Task
-for	NN	O	I-Task
-single	NN	O	I-Task
-or	NN	O	I-Task
-multiple	NN	O	I-Task
-particle	NN	O	I-Task
-impact	NN	O	I-Task
-in	NN	O	O
-conjunction	NN	O	O
-with	NN	O	O
-actual	NN	O	O
-spraying	NN	O	B-Task
-tests	NN	O	I-Task
-,	NN	O	O
-so	NN	O	O
-as	NN	O	O
-to	NN	O	O
-identify	NN	O	O
-cohesive	NN	O	O
-and	NN	O	O
-adhesive	NN	O	O
-strength	NN	O	O
-,	NN	O	O
-hardness	NN	O	O
-and	NN	O	O
-residual	NN	O	O
-stresses	NN	O	O
-.	NN	O	O
+Due	0	3	O
+to	4	6	O
+the	7	10	O
+complex	11	18	O
+nature	19	25	O
+of	26	28	O
+the	29	32	O
+thermal	33	40	B-Process
+spray	41	46	I-Process
+process	47	54	I-Process
+,	54	55	O
+modelling	56	65	B-Task
+has	66	69	O
+been	70	74	O
+playing	75	82	O
+a	83	84	O
+key	85	88	O
+role	89	93	O
+in	94	96	O
+providing	97	106	B-Task
+some	107	111	I-Task
+key	112	115	I-Task
+insights	116	124	I-Task
+for	125	128	I-Task
+process	129	136	I-Task
+design	137	143	I-Task
+and	144	147	I-Task
+operations	148	158	I-Task
+.	158	159	O
+
+The	160	163	O
+relationships	164	177	O
+among	178	183	O
+processing	184	194	B-Process
+conditions	195	205	O
+,	205	206	O
+particle	207	215	O
+characteristics	216	231	O
+,	231	232	O
+and	233	236	O
+the	237	240	O
+resulting	241	250	O
+coating	251	258	B-Process
+properties	259	269	O
+are	270	273	O
+nonlinear	274	283	O
+and	284	287	O
+might	288	293	O
+be	294	296	O
+difficult	297	306	O
+to	307	309	O
+be	310	312	O
+unravelled	313	323	O
+by	324	326	O
+the	327	330	O
+experimental	331	343	B-Task
+studies	344	351	I-Task
+alone	352	357	O
+(	358	359	O
+e.g.	359	363	O
+[	364	365	O
+5–7	365	368	O
+]	368	369	O
+)	369	370	O
+
+Detailed	371	379	O
+information	380	391	O
+on	392	394	O
+the	395	398	O
+atomic	399	405	B-Process
+level	406	411	I-Process
+changes	412	419	I-Process
+leading	420	427	O
+to	428	430	O
+changes	431	438	O
+observed	439	447	O
+at	448	450	O
+macroscale	451	461	O
+can	462	465	O
+appropriately	466	479	O
+be	480	482	O
+obtained	483	491	O
+by	492	494	O
+MD	495	497	B-Process
+simulation	498	508	I-Process
+and	509	512	O
+the	513	516	O
+effect	517	523	O
+of	524	526	O
+temperature	527	538	O
+and	539	542	O
+velocity	543	551	O
+can	552	555	O
+be	556	558	O
+determined	559	569	O
+more	570	574	O
+precisely	575	584	O
+.	584	585	O
+
+In	586	588	O
+this	589	593	O
+work	594	598	O
+,	598	599	O
+relatively	600	610	O
+simpler	611	618	O
+spray	619	624	B-Process
+system	625	631	I-Process
+of	632	634	O
+copper	635	641	B-Material
+–	641	642	I-Material
+copper	642	648	I-Material
+particle	649	657	I-Material
+was	658	661	O
+simulated	662	671	O
+to	672	674	O
+obtain	675	681	O
+a	682	683	O
+better	684	690	O
+understanding	691	704	O
+of	705	707	O
+particle	708	716	B-Process
+recrystallization	717	734	I-Process
+and	735	738	I-Process
+solidification	739	753	I-Process
+,	753	754	O
+and	755	758	O
+deformation	759	770	B-Process
+mechanics	771	780	O
+and	781	784	O
+topography	785	795	O
+of	796	798	O
+the	799	802	O
+impacting	803	812	O
+particles	813	822	B-Material
+.	822	823	O
+
+Using	824	829	O
+state	830	835	O
+-	835	836	O
+of	836	838	O
+-	838	839	O
+the	839	842	O
+-	842	843	O
+art	843	846	O
+methods	847	854	O
+to	855	857	O
+examine	858	865	O
+the	866	869	O
+physical	870	878	O
+mechanisms	879	889	O
+involved	890	898	O
+in	899	901	O
+the	902	905	O
+impacting	906	915	O
+behavior	916	924	O
+and	925	928	O
+structure	929	938	O
+–	938	939	O
+property	939	947	O
+relationship	948	960	O
+,	960	961	O
+it	962	964	O
+can	965	968	O
+be	969	971	O
+suggested	972	981	O
+that	982	986	O
+the	987	990	O
+consecutive	991	1002	B-Process
+layer	1003	1008	I-Process
+deposition	1009	1019	I-Process
+of	1020	1022	O
+particles	1023	1032	B-Material
+can	1033	1036	O
+better	1037	1043	O
+be	1044	1046	O
+understood	1047	1057	O
+by	1058	1060	O
+understanding	1061	1074	B-Task
+individual	1075	1085	I-Task
+particle	1086	1094	I-Task
+impacts	1095	1102	I-Task
+.	1102	1103	O
+
+The	1104	1107	O
+particle	1108	1116	B-Process
+–	1116	1117	I-Process
+surface	1117	1124	I-Process
+interaction	1125	1136	I-Process
+mechanism	1137	1146	I-Process
+and	1147	1150	O
+its	1151	1154	O
+relation	1155	1163	O
+to	1164	1166	O
+Reynolds	1167	1175	B-Process
+number	1176	1182	I-Process
+can	1183	1186	O
+offer	1187	1192	O
+information	1193	1204	O
+on	1205	1207	O
+the	1208	1211	O
+quality	1212	1219	O
+of	1220	1222	O
+the	1223	1226	O
+coating	1227	1234	B-Process
+through	1235	1242	O
+its	1243	1246	O
+response	1247	1255	O
+to	1256	1258	O
+shock	1259	1264	B-Process
+heating	1265	1272	I-Process
+.	1272	1273	O
+
+As	1274	1276	O
+a	1277	1278	O
+general	1279	1286	O
+practice	1287	1295	O
+,	1295	1296	O
+engineering	1297	1308	B-Material
+components	1309	1319	I-Material
+are	1320	1323	O
+thermally	1324	1333	B-Process
+sprayed	1334	1341	I-Process
+in	1342	1344	O
+a	1345	1346	O
+continuous	1347	1357	O
+multilayer	1358	1368	O
+mode	1369	1373	O
+with	1374	1378	O
+cooling	1379	1386	B-Process
+;	1386	1387	O
+therefore	1388	1397	O
+there	1398	1403	O
+is	1404	1406	O
+an	1407	1409	O
+opportunity	1410	1421	O
+for	1422	1425	O
+developing	1426	1436	B-Task
+richer	1437	1443	I-Task
+theoretical	1444	1455	I-Task
+models	1456	1462	I-Task
+for	1463	1466	I-Task
+single	1467	1473	I-Task
+or	1474	1476	I-Task
+multiple	1477	1485	I-Task
+particle	1486	1494	I-Task
+impact	1495	1501	I-Task
+in	1502	1504	O
+conjunction	1505	1516	O
+with	1517	1521	O
+actual	1522	1528	O
+spraying	1529	1537	B-Task
+tests	1538	1543	I-Task
+,	1543	1544	O
+so	1545	1547	O
+as	1548	1550	O
+to	1551	1553	O
+identify	1554	1562	O
+cohesive	1563	1571	O
+and	1572	1575	O
+adhesive	1576	1584	O
+strength	1585	1593	O
+,	1593	1594	O
+hardness	1595	1603	O
+and	1604	1607	O
+residual	1608	1616	O
+stresses	1617	1625	O
+.	1625	1626	O
 
 
 -DOCSTART- (S0927025614007137)
 
-Structural	NN	O	B-Material
-adhesives	NN	O	I-Material
-are	NN	O	O
-increasingly	NN	O	O
-used	NN	O	O
-for	NN	O	O
-bonding	NN	O	B-Material
-components	NN	O	I-Material
-within	NN	O	O
-critical	NN	O	B-Material
-load	NN	O	I-Material
-bearing	NN	O	I-Material
-engineering	NN	O	I-Material
-structures	NN	O	I-Material
-such	NN	O	O
-as	NN	O	O
-aerospace	NN	O	B-Material
-and	NN	O	O
-automotives	NN	O	B-Material
-.	NN	O	O
-
-Typically	NN	O	O
-these	NN	O	O
-adhesives	NN	O	B-Material
-are	NN	O	O
-based	NN	O	O
-on	NN	O	O
-epoxy	NN	O	B-Material
-polymers	NN	O	I-Material
-.	NN	O	O
-
-Epoxies	NN	O	B-Material
-are	NN	O	O
-inherently	NN	O	O
-brittle	NN	O	O
-due	NN	O	O
-to	NN	O	O
-their	NN	O	O
-homogeneous	NN	O	O
-microstructure	NN	O	B-Material
-and	NN	O	O
-highly	NN	O	O
-cross	NN	O	O
-linked	NN	O	O
-nature	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-there	NN	O	O
-has	NN	O	O
-been	NN	O	O
-much	NN	O	O
-research	NN	O	O
-focused	NN	O	O
-on	NN	O	O
-improving	NN	O	B-Task
-the	NN	O	I-Task
-fracture	NN	O	I-Task
-toughness	NN	O	I-Task
-of	NN	O	I-Task
-epoxy	NN	O	I-Task
-polymers	NN	O	I-Task
-by	NN	O	O
-incorporating	NN	O	B-Process
-a	NN	O	I-Process
-second	NN	O	I-Process
-minority	NN	O	I-Process
-phase	NN	O	I-Process
-at	NN	O	I-Process
-the	NN	O	I-Process
-nano	NN	O	I-Process
--	NN	O	I-Process
-scale	NN	O	I-Process
-.	NN	O	O
-
-These	NN	O	O
-modifiers	NN	O	O
-fall	NN	O	O
-into	NN	O	O
-one	NN	O	O
-of	NN	O	O
-two	NN	O	O
-main	NN	O	O
-categories	NN	O	O
-:	NN	O	O
-inorganic	NN	O	B-Material
-additives	NN	O	I-Material
-,	NN	O	O
-e.g.	NN	O	O
-silica	NN	O	B-Material
-[	NN	O	O
-1,2	NN	O	O
-]	NN	O	O
-,	NN	O	O
-glass	NN	O	B-Material
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-,	NN	O	O
-alumina	NN	O	B-Material
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-,	NN	O	O
-nano	NN	O	B-Material
--	NN	O	I-Material
-clays	NN	O	I-Material
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-and	NN	O	O
-carbon	NN	O	B-Material
-nanotubes	NN	O	I-Material
-[	NN	O	O
-6,7	NN	O	O
-]	NN	O	O
-or	NN	O	O
-organic	NN	O	B-Material
-,	NN	O	O
-usually	NN	O	O
-rubber	NN	O	B-Material
-particles	NN	O	I-Material
-.	NN	O	O
-
-Rubbery	NN	O	B-Material
-additives	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-either	NN	O	O
-core	NN	O	B-Material
-–	NN	O	I-Material
-shell	NN	O	I-Material
-rubber	NN	O	I-Material
-particles	NN	O	I-Material
-[	NN	O	O
-8–10	NN	O	O
-]	NN	O	O
-or	NN	O	O
-can	NN	O	O
-form	NN	O	O
-during	NN	O	O
-curing	NN	O	B-Process
-via	NN	O	O
-reaction	NN	O	B-Process
-induced	NN	O	I-Process
-phase	NN	O	I-Process
-separation	NN	O	I-Process
-mechanisms	NN	O	I-Process
-[	NN	O	O
-11,12	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-primary	NN	O	O
-energy	NN	O	B-Process
-dissipation	NN	O	I-Process
-mechanisms	NN	O	I-Process
-for	NN	O	O
-rubber	NN	O	B-Material
-toughened	NN	O	I-Material
-epoxies	NN	O	I-Material
-are	NN	O	O
-known	NN	O	O
-to	NN	O	O
-be	NN	O	O
-both	NN	O	O
-plastic	NN	O	B-Task
-void	NN	O	I-Task
-growth	NN	O	I-Task
-and	NN	O	O
-shear	NN	O	B-Task
-band	NN	O	I-Task
-development	NN	O	I-Task
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-has	NN	O	O
-also	NN	O	O
-been	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-a	NN	O	O
-combination	NN	O	O
-of	NN	O	O
-the	NN	O	O
-above	NN	O	O
-additives	NN	O	B-Material
-to	NN	O	O
-create	NN	O	O
-a	NN	O	O
-hybrid	NN	O	B-Material
-material	NN	O	I-Material
-can	NN	O	O
-provide	NN	O	O
-synergistic	NN	O	B-Process
-toughening	NN	O	I-Process
-effects	NN	O	I-Process
-,	NN	O	O
-e.g.	NN	O	O
-carbon	NN	O	B-Material
-nanotubes	NN	O	I-Material
-and	NN	O	I-Material
-silica	NN	O	I-Material
-nanoparticles	NN	O	I-Material
-[	NN	O	O
-14	NN	O	O
-]	NN	O	O
-or	NN	O	O
-rubber	NN	O	B-Material
-with	NN	O	I-Material
-silica	NN	O	I-Material
-nanoparticles	NN	O	I-Material
-[	NN	O	O
-15–17	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Structural	0	10	B-Material
+adhesives	11	20	I-Material
+are	21	24	O
+increasingly	25	37	O
+used	38	42	O
+for	43	46	O
+bonding	47	54	B-Material
+components	55	65	I-Material
+within	66	72	O
+critical	73	81	B-Material
+load	82	86	I-Material
+bearing	87	94	I-Material
+engineering	95	106	I-Material
+structures	107	117	I-Material
+such	118	122	O
+as	123	125	O
+aerospace	126	135	B-Material
+and	136	139	O
+automotives	140	151	B-Material
+.	151	152	O
+
+Typically	153	162	O
+these	163	168	O
+adhesives	169	178	B-Material
+are	179	182	O
+based	183	188	O
+on	189	191	O
+epoxy	192	197	B-Material
+polymers	198	206	I-Material
+.	206	207	O
+
+Epoxies	208	215	B-Material
+are	216	219	O
+inherently	220	230	O
+brittle	231	238	O
+due	239	242	O
+to	243	245	O
+their	246	251	O
+homogeneous	252	263	O
+microstructure	264	278	B-Material
+and	279	282	O
+highly	283	289	O
+cross	290	295	O
+linked	296	302	O
+nature	303	309	O
+.	309	310	O
+
+Thus	311	315	O
+,	315	316	O
+there	317	322	O
+has	323	326	O
+been	327	331	O
+much	332	336	O
+research	337	345	O
+focused	346	353	O
+on	354	356	O
+improving	357	366	B-Task
+the	367	370	I-Task
+fracture	371	379	I-Task
+toughness	380	389	I-Task
+of	390	392	I-Task
+epoxy	393	398	I-Task
+polymers	399	407	I-Task
+by	408	410	O
+incorporating	411	424	B-Process
+a	425	426	I-Process
+second	427	433	I-Process
+minority	434	442	I-Process
+phase	443	448	I-Process
+at	449	451	I-Process
+the	452	455	I-Process
+nano	456	460	I-Process
+-	460	461	I-Process
+scale	461	466	I-Process
+.	466	467	O
+
+These	468	473	O
+modifiers	474	483	O
+fall	484	488	O
+into	489	493	O
+one	494	497	O
+of	498	500	O
+two	501	504	O
+main	505	509	O
+categories	510	520	O
+:	520	521	O
+inorganic	522	531	B-Material
+additives	532	541	I-Material
+,	541	542	O
+e.g.	543	547	O
+silica	548	554	B-Material
+[	555	556	O
+1,2	556	559	O
+]	559	560	O
+,	560	561	O
+glass	562	567	B-Material
+[	568	569	O
+3	569	570	O
+]	570	571	O
+,	571	572	O
+alumina	573	580	B-Material
+[	581	582	O
+4	582	583	O
+]	583	584	O
+,	584	585	O
+nano	586	590	B-Material
+-	590	591	I-Material
+clays	591	596	I-Material
+[	597	598	O
+5	598	599	O
+]	599	600	O
+and	601	604	O
+carbon	605	611	B-Material
+nanotubes	612	621	I-Material
+[	622	623	O
+6,7	623	626	O
+]	626	627	O
+or	628	630	O
+organic	631	638	B-Material
+,	638	639	O
+usually	640	647	O
+rubber	648	654	B-Material
+particles	655	664	I-Material
+.	664	665	O
+
+Rubbery	666	673	B-Material
+additives	674	683	I-Material
+can	684	687	O
+be	688	690	O
+either	691	697	O
+core	698	702	B-Material
+–	702	703	I-Material
+shell	703	708	I-Material
+rubber	709	715	I-Material
+particles	716	725	I-Material
+[	726	727	O
+8–10	727	731	O
+]	731	732	O
+or	733	735	O
+can	736	739	O
+form	740	744	O
+during	745	751	O
+curing	752	758	B-Process
+via	759	762	O
+reaction	763	771	B-Process
+induced	772	779	I-Process
+phase	780	785	I-Process
+separation	786	796	I-Process
+mechanisms	797	807	I-Process
+[	808	809	O
+11,12	809	814	O
+]	814	815	O
+.	815	816	O
+
+The	817	820	O
+primary	821	828	O
+energy	829	835	B-Process
+dissipation	836	847	I-Process
+mechanisms	848	858	I-Process
+for	859	862	O
+rubber	863	869	B-Material
+toughened	870	879	I-Material
+epoxies	880	887	I-Material
+are	888	891	O
+known	892	897	O
+to	898	900	O
+be	901	903	O
+both	904	908	O
+plastic	909	916	B-Process
+void	917	921	I-Process
+growth	922	928	I-Process
+and	929	932	O
+shear	933	938	B-Task
+band	939	943	I-Task
+development	944	955	I-Task
+[	956	957	O
+13	957	959	O
+]	959	960	O
+.	960	961	O
+
+It	962	964	O
+has	965	968	O
+also	969	973	O
+been	974	978	O
+shown	979	984	O
+that	985	989	O
+a	990	991	O
+combination	992	1003	O
+of	1004	1006	O
+the	1007	1010	O
+above	1011	1016	O
+additives	1017	1026	B-Material
+to	1027	1029	O
+create	1030	1036	O
+a	1037	1038	O
+hybrid	1039	1045	B-Material
+material	1046	1054	I-Material
+can	1055	1058	O
+provide	1059	1066	O
+synergistic	1067	1078	B-Process
+toughening	1079	1089	I-Process
+effects	1090	1097	I-Process
+,	1097	1098	O
+e.g.	1099	1103	O
+carbon	1104	1110	B-Material
+nanotubes	1111	1120	I-Material
+and	1121	1124	I-Material
+silica	1125	1131	I-Material
+nanoparticles	1132	1145	I-Material
+[	1146	1147	O
+14	1147	1149	O
+]	1149	1150	O
+or	1151	1153	O
+rubber	1154	1160	B-Material
+with	1161	1165	I-Material
+silica	1166	1172	I-Material
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+.	1194	1195	O
 
 
 -DOCSTART- (S0957417416301786)
 
-These	NN	O	O
-results	NN	O	O
-demonstrate	NN	O	O
-that	NN	O	O
-SW	NN	O	B-Process
--	NN	O	I-Process
-SVR	NN	O	I-Process
-predicts	NN	O	O
-complicated	NN	O	O
-micrometeorological	NN	O	B-Material
-data	NN	O	I-Material
-with	NN	O	O
-the	NN	O	O
-best	NN	O	O
-prediction	NN	O	O
-performance	NN	O	O
-and	NN	O	O
-the	NN	O	O
-lowest	NN	O	O
-computational	NN	O	O
-complexity	NN	O	O
-compared	NN	O	O
-with	NN	O	O
-standard	NN	O	B-Process
-algorithms	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-we	NN	O	O
-found	NN	O	O
-that	NN	O	O
-dynamic	NN	O	B-Process
-aggregation	NN	O	I-Process
-of	NN	O	I-Process
-models	NN	O	I-Process
-built	NN	O	O
-from	NN	O	O
-very	NN	O	O
-little	NN	O	O
-extracted	NN	O	O
-data	NN	O	O
-by	NN	O	O
-D	NN	O	B-Process
--	NN	O	I-Process
-SDC	NN	O	I-Process
-is	NN	O	O
-effective	NN	O	O
-for	NN	O	O
-compatibility	NN	O	O
-of	NN	O	O
-high	NN	O	O
-prediction	NN	O	O
-performance	NN	O	O
-and	NN	O	O
-low	NN	O	O
-computational	NN	O	O
-complexity	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-problems	NN	O	O
-to	NN	O	O
-be	NN	O	O
-solved	NN	O	O
-in	NN	O	O
-SW	NN	O	B-Process
--	NN	O	I-Process
-SVR	NN	O	I-Process
-.	NN	O	O
-
-Firstly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-prediction	NN	O	O
-performance	NN	O	O
-of	NN	O	O
-SW	NN	O	B-Process
--	NN	O	I-Process
-SVR	NN	O	I-Process
-sometimes	NN	O	O
-deteriorates	NN	O	O
-despite	NN	O	O
-an	NN	O	O
-increase	NN	O	O
-of	NN	O	O
-training	NN	O	B-Material
-data	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-this	NN	O	O
-problem	NN	O	O
-occurred	NN	O	O
-under	NN	O	O
-the	NN	O	O
-conditions	NN	O	O
-that	NN	O	O
-prediction	NN	O	O
-horizons	NN	O	O
-are	NN	O	O
-6	NN	O	O
-h	NN	O	O
-as	NN	O	O
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-3	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-is	NN	O	O
-because	NN	O	O
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-D	NN	O	B-Process
--	NN	O	I-Process
-SDC	NN	O	I-Process
-involves	NN	O	O
-unnecessary	NN	O	O
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-highly	NN	O	O
-accurate	NN	O	O
-prediction	NN	O	O
-.	NN	O	O
-
-If	NN	O	O
-D	NN	O	B-Process
--	NN	O	I-Process
-SDC	NN	O	I-Process
-extracts	NN	O	O
-the	NN	O	O
-same	NN	O	O
-data	NN	O	O
-as	NN	O	O
-the	NN	O	O
-extracted	NN	O	O
-data	NN	O	O
-when	NN	O	O
-training	NN	O	O
-periods	NN	O	O
-are	NN	O	O
-shorter	NN	O	O
-,	NN	O	O
-the	NN	O	O
-prediction	NN	O	O
-performance	NN	O	O
-of	NN	O	O
-SW	NN	O	B-Process
--	NN	O	I-Process
-SVR	NN	O	I-Process
-never	NN	O	O
-deteriorates	NN	O	O
-due	NN	O	O
-to	NN	O	O
-an	NN	O	O
-increase	NN	O	O
-of	NN	O	O
-training	NN	O	B-Material
-data	NN	O	I-Material
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-we	NN	O	O
-must	NN	O	O
-review	NN	O	O
-both	NN	O	O
-feature	NN	O	O
-mapping	NN	O	O
-and	NN	O	O
-algorithms	NN	O	O
-of	NN	O	O
-D	NN	O	B-Process
--	NN	O	I-Process
-SDC	NN	O	I-Process
-so	NN	O	O
-as	NN	O	O
-to	NN	O	O
-avoid	NN	O	O
-extracting	NN	O	O
-unnecessary	NN	O	O
-training	NN	O	O
-data	NN	O	O
-.	NN	O	O
-
-Meanwhile	NN	O	O
-,	NN	O	O
-SW	NN	O	B-Process
--	NN	O	I-Process
-SVR	NN	O	I-Process
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-a	NN	O	O
-combination	NN	O	B-Process
-of	NN	O	I-Process
-several	NN	O	I-Process
-algorithms	NN	O	I-Process
-:	NN	O	O
-kernel	NN	O	B-Process
-approximation	NN	O	I-Process
-,	NN	O	O
-PLS	NN	O	B-Process
-regression	NN	O	I-Process
-,	NN	O	O
-k	NN	O	B-Process
--	NN	O	I-Process
-means	NN	O	I-Process
-,	NN	O	O
-D	NN	O	B-Process
--	NN	O	I-Process
-SDC	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-linear	NN	O	B-Process
-SVR	NN	O	I-Process
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-each	NN	O	O
-algorithm	NN	O	O
-has	NN	O	O
-several	NN	O	O
-parameters	NN	O	O
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-SW	NN	O	B-Process
--	NN	O	I-Process
-SVR	NN	O	I-Process
-has	NN	O	O
-more	NN	O	O
-varied	NN	O	O
-parameters	NN	O	O
-,	NN	O	O
-and	NN	O	O
-it	NN	O	O
-takes	NN	O	O
-more	NN	O	O
-time	NN	O	O
-to	NN	O	O
-tune	NN	O	B-Process
-the	NN	O	I-Process
-parameters	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-experiment	NN	O	O
-,	NN	O	O
-we	NN	O	O
-used	NN	O	O
-a	NN	O	O
-grid	NN	O	B-Process
-search	NN	O	I-Process
-roughly	NN	O	O
-so	NN	O	O
-as	NN	O	O
-to	NN	O	O
-decide	NN	O	O
-the	NN	O	O
-parameters	NN	O	O
-in	NN	O	O
-a	NN	O	O
-certain	NN	O	O
-time	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-there	NN	O	O
-is	NN	O	O
-still	NN	O	O
-room	NN	O	O
-for	NN	O	O
-improvement	NN	O	O
-in	NN	O	O
-the	NN	O	O
-prediction	NN	O	O
-performance	NN	O	O
-by	NN	O	O
-using	NN	O	O
-other	NN	O	O
-approaches	NN	O	O
-such	NN	O	O
-as	NN	O	O
-a	NN	O	O
-genetic	NN	O	B-Process
-algorithm	NN	O	I-Process
-instead	NN	O	O
-of	NN	O	O
-a	NN	O	O
-grid	NN	O	B-Process
-search	NN	O	I-Process
-(	NN	O	O
-Huang	NN	O	O
-&	NN	O	O
-Wang	NN	O	O
-,	NN	O	O
-2006	NN	O	O
-)	NN	O	O
-.	NN	O	O
+These	0	5	O
+results	6	13	O
+demonstrate	14	25	O
+that	26	30	O
+SW	31	33	B-Process
+-	33	34	I-Process
+SVR	34	37	I-Process
+predicts	38	46	O
+complicated	47	58	O
+micrometeorological	59	78	B-Material
+data	79	83	I-Material
+with	84	88	O
+the	89	92	O
+best	93	97	O
+prediction	98	108	O
+performance	109	120	O
+and	121	124	O
+the	125	128	O
+lowest	129	135	O
+computational	136	149	O
+complexity	150	160	O
+compared	161	169	O
+with	170	174	O
+standard	175	183	B-Process
+algorithms	184	194	I-Process
+.	194	195	O
+
+In	196	198	O
+particular	199	209	O
+,	209	210	O
+we	211	213	O
+found	214	219	O
+that	220	224	O
+dynamic	225	232	B-Process
+aggregation	233	244	I-Process
+of	245	247	I-Process
+models	248	254	I-Process
+built	255	260	O
+from	261	265	O
+very	266	270	O
+little	271	277	O
+extracted	278	287	O
+data	288	292	O
+by	293	295	O
+D	296	297	B-Process
+-	297	298	I-Process
+SDC	298	301	I-Process
+is	302	304	O
+effective	305	314	O
+for	315	318	O
+compatibility	319	332	O
+of	333	335	O
+high	336	340	O
+prediction	341	351	O
+performance	352	363	O
+and	364	367	O
+low	368	371	O
+computational	372	385	O
+complexity	386	396	O
+.	396	397	O
+
+However	398	405	O
+,	405	406	O
+there	407	412	O
+are	413	416	O
+problems	417	425	O
+to	426	428	O
+be	429	431	O
+solved	432	438	O
+in	439	441	O
+SW	442	444	B-Process
+-	444	445	I-Process
+SVR	445	448	I-Process
+.	448	449	O
+
+Firstly	450	457	O
+,	457	458	O
+the	459	462	O
+prediction	463	473	O
+performance	474	485	O
+of	486	488	O
+SW	489	491	B-Process
+-	491	492	I-Process
+SVR	492	495	I-Process
+sometimes	496	505	O
+deteriorates	506	518	O
+despite	519	526	O
+an	527	529	O
+increase	530	538	O
+of	539	541	O
+training	542	550	B-Material
+data	551	555	I-Material
+.	555	556	O
+
+In	557	559	O
+particular	560	570	O
+,	570	571	O
+this	572	576	O
+problem	577	584	O
+occurred	585	593	O
+under	594	599	O
+the	600	603	O
+conditions	604	614	O
+that	615	619	O
+prediction	620	630	O
+horizons	631	639	O
+are	640	643	O
+6	644	645	O
+h	646	647	O
+as	648	650	O
+shown	651	656	O
+in	657	659	O
+Fig	660	663	O
+.	663	664	O
+
+3	665	666	O
+.	666	667	O
+
+This	668	672	O
+is	673	675	O
+because	676	683	O
+data	684	688	O
+extracted	689	698	O
+by	699	701	O
+D	702	703	B-Process
+-	703	704	I-Process
+SDC	704	707	I-Process
+involves	708	716	O
+unnecessary	717	728	O
+training	729	737	B-Material
+data	738	742	I-Material
+for	743	746	O
+highly	747	753	O
+accurate	754	762	O
+prediction	763	773	O
+.	773	774	O
+
+If	775	777	O
+D	778	779	B-Process
+-	779	780	I-Process
+SDC	780	783	I-Process
+extracts	784	792	O
+the	793	796	O
+same	797	801	O
+data	802	806	O
+as	807	809	O
+the	810	813	O
+extracted	814	823	O
+data	824	828	O
+when	829	833	O
+training	834	842	O
+periods	843	850	O
+are	851	854	O
+shorter	855	862	O
+,	862	863	O
+the	864	867	O
+prediction	868	878	O
+performance	879	890	O
+of	891	893	O
+SW	894	896	B-Process
+-	896	897	I-Process
+SVR	897	900	I-Process
+never	901	906	O
+deteriorates	907	919	O
+due	920	923	O
+to	924	926	O
+an	927	929	O
+increase	930	938	O
+of	939	941	O
+training	942	950	B-Material
+data	951	955	I-Material
+.	955	956	O
+
+Therefore	957	966	O
+,	966	967	O
+we	968	970	O
+must	971	975	O
+review	976	982	O
+both	983	987	O
+feature	988	995	O
+mapping	996	1003	O
+and	1004	1007	O
+algorithms	1008	1018	O
+of	1019	1021	O
+D	1022	1023	B-Process
+-	1023	1024	I-Process
+SDC	1024	1027	I-Process
+so	1028	1030	O
+as	1031	1033	O
+to	1034	1036	O
+avoid	1037	1042	O
+extracting	1043	1053	O
+unnecessary	1054	1065	O
+training	1066	1074	O
+data	1075	1079	O
+.	1079	1080	O
+
+Meanwhile	1081	1090	O
+,	1090	1091	O
+SW	1092	1094	B-Process
+-	1094	1095	I-Process
+SVR	1095	1098	I-Process
+is	1099	1101	O
+based	1102	1107	O
+on	1108	1110	O
+a	1111	1112	O
+combination	1113	1124	B-Process
+of	1125	1127	I-Process
+several	1128	1135	I-Process
+algorithms	1136	1146	I-Process
+:	1146	1147	O
+kernel	1148	1154	B-Process
+approximation	1155	1168	I-Process
+,	1168	1169	O
+PLS	1170	1173	B-Process
+regression	1174	1184	I-Process
+,	1184	1185	O
+k	1186	1187	B-Process
+-	1187	1188	I-Process
+means	1188	1193	I-Process
+,	1193	1194	O
+D	1195	1196	B-Process
+-	1196	1197	I-Process
+SDC	1197	1200	I-Process
+,	1200	1201	O
+and	1202	1205	O
+linear	1206	1212	B-Process
+SVR	1213	1216	I-Process
+.	1216	1217	O
+
+Moreover	1218	1226	O
+,	1226	1227	O
+each	1228	1232	O
+algorithm	1233	1242	O
+has	1243	1246	O
+several	1247	1254	O
+parameters	1255	1265	O
+.	1265	1266	O
+
+Therefore	1267	1276	O
+,	1276	1277	O
+SW	1278	1280	B-Process
+-	1280	1281	I-Process
+SVR	1281	1284	I-Process
+has	1285	1288	O
+more	1289	1293	O
+varied	1294	1300	O
+parameters	1301	1311	O
+,	1311	1312	O
+and	1313	1316	O
+it	1317	1319	O
+takes	1320	1325	O
+more	1326	1330	O
+time	1331	1335	O
+to	1336	1338	O
+tune	1339	1343	B-Process
+the	1344	1347	I-Process
+parameters	1348	1358	I-Process
+.	1358	1359	O
+
+In	1360	1362	O
+this	1363	1367	O
+experiment	1368	1378	O
+,	1378	1379	O
+we	1380	1382	O
+used	1383	1387	O
+a	1388	1389	O
+grid	1390	1394	B-Process
+search	1395	1401	I-Process
+roughly	1402	1409	O
+so	1410	1412	O
+as	1413	1415	O
+to	1416	1418	O
+decide	1419	1425	O
+the	1426	1429	O
+parameters	1430	1440	O
+in	1441	1443	O
+a	1444	1445	O
+certain	1446	1453	O
+time	1454	1458	O
+.	1458	1459	O
+
+However	1460	1467	O
+,	1467	1468	O
+there	1469	1474	O
+is	1475	1477	O
+still	1478	1483	O
+room	1484	1488	O
+for	1489	1492	O
+improvement	1493	1504	O
+in	1505	1507	O
+the	1508	1511	O
+prediction	1512	1522	O
+performance	1523	1534	O
+by	1535	1537	O
+using	1538	1543	O
+other	1544	1549	O
+approaches	1550	1560	O
+such	1561	1565	O
+as	1566	1568	O
+a	1569	1570	O
+genetic	1571	1578	B-Process
+algorithm	1579	1588	I-Process
+instead	1589	1596	O
+of	1597	1599	O
+a	1600	1601	O
+grid	1602	1606	B-Process
+search	1607	1613	I-Process
+(	1614	1615	O
+Huang	1615	1620	O
+&	1621	1622	O
+Wang	1623	1627	O
+,	1627	1628	O
+2006	1629	1633	O
+)	1633	1634	O
+.	1634	1635	O
 
 
 -DOCSTART- (S0957417416302561)
 
-•More	NN	O	O
-efforts	NN	O	O
-should	NN	O	O
-be	NN	O	O
-directed	NN	O	O
-towards	NN	O	O
-advancing	NN	O	O
-the	NN	O	O
-methods	NN	O	O
-of	NN	O	O
-feature	NN	O	B-Task
-extraction	NN	O	I-Task
-to	NN	O	O
-overcome	NN	O	O
-the	NN	O	O
-influence	NN	O	O
-of	NN	O	O
-dynamic	NN	O	O
-factors	NN	O	O
-that	NN	O	O
-limit	NN	O	O
-the	NN	O	O
-performance	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-use	NN	O	O
-of	NN	O	O
-advanced	NN	O	B-Process
-machine	NN	O	I-Process
-learning	NN	O	I-Process
-methods	NN	O	I-Process
-such	NN	O	O
-as	NN	O	O
-deep	NN	O	B-Process
-neural	NN	O	I-Process
-networks	NN	O	I-Process
-and	NN	O	O
-muscles	NN	O	B-Process
-synergies	NN	O	I-Process
-extraction	NN	O	I-Process
-should	NN	O	O
-also	NN	O	O
-be	NN	O	O
-investigated	NN	O	O
-on	NN	O	O
-problems	NN	O	O
-under	NN	O	O
-the	NN	O	O
-influence	NN	O	O
-of	NN	O	O
-multiple	NN	O	O
-dynamic	NN	O	O
-factors	NN	O	O
-as	NN	O	O
-such	NN	O	O
-methods	NN	O	O
-may	NN	O	O
-provide	NN	O	O
-substantial	NN	O	O
-improvements	NN	O	O
-upon	NN	O	O
-the	NN	O	O
-utilized	NN	O	B-Process
-time	NN	O	I-Process
--	NN	O	I-Process
-and	NN	O	I-Process
--	NN	O	I-Process
-frequency	NN	O	I-Process
-EMG	NN	O	I-Process
-feature	NN	O	I-Process
-extraction	NN	O	I-Process
-methods	NN	O	I-Process
-(	NN	O	O
-Diener	NN	O	O
-,	NN	O	O
-Janke	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Schultz	NN	O	O
-,	NN	O	O
-2015	NN	O	O
-;	NN	O	O
-Ison	NN	O	O
-,	NN	O	O
-Vujaklija	NN	O	O
-,	NN	O	O
-Whitsell	NN	O	O
-,	NN	O	O
-Farina	NN	O	O
-,	NN	O	O
-&	NN	O	O
-Artemiadis	NN	O	O
-,	NN	O	O
-2016	NN	O	O
-;	NN	O	O
-Park	NN	O	O
-&	NN	O	O
-Lee	NN	O	O
-,	NN	O	O
-2016	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Meanwhile	NN	O	O
-,	NN	O	O
-we	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-performance	NN	O	B-Material
-of	NN	O	O
-the	NN	O	O
-learning	NN	O	O
-algorithms	NN	O	O
-can	NN	O	O
-be	NN	O	O
-improved	NN	O	O
-by	NN	O	O
-using	NN	O	O
-feature	NN	O	B-Process
-extraction	NN	O	I-Process
-methods	NN	O	I-Process
-that	NN	O	O
-rely	NN	O	O
-on	NN	O	O
-the	NN	O	O
-angular	NN	O	O
-information	NN	O	O
-of	NN	O	O
-muscle	NN	O	O
-activation	NN	O	O
-patterns	NN	O	O
-.	NN	O	O
-
-Features	NN	O	B-Process
-such	NN	O	O
-as	NN	O	O
-the	NN	O	O
-TD	NN	O	B-Process
--	NN	O	I-Process
-PSD	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-DFT	NN	O	B-Process
-proved	NN	O	O
-more	NN	O	O
-successful	NN	O	O
-than	NN	O	O
-others	NN	O	O
-in	NN	O	O
-reducing	NN	O	B-Task
-the	NN	O	I-Task
-impact	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-two	NN	O	I-Task
-dynamic	NN	O	I-Task
-factors	NN	O	I-Task
-that	NN	O	O
-we	NN	O	O
-considered	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-.	NN	O	O
-
-Such	NN	O	O
-features	NN	O	O
-can	NN	O	O
-be	NN	O	O
-readily	NN	O	O
-implemented	NN	O	O
-into	NN	O	O
-a	NN	O	O
-prosthesis	NN	O	B-Process
-controller	NN	O	I-Process
-for	NN	O	O
-real	NN	O	B-Task
--	NN	O	I-Task
-time	NN	O	I-Task
-control	NN	O	I-Task
-,	NN	O	O
-especially	NN	O	O
-that	NN	O	O
-the	NN	O	O
-EMG	NN	O	B-Process
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-recognition	NN	O	I-Process
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-are	NN	O	O
-nowadays	NN	O	O
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-available	NN	O	O
-for	NN	O	O
-clinical	NN	O	B-Task
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-,	NN	O	O
-e.g.	NN	O	O
-the	NN	O	O
-COAPT	NN	O	B-Process
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-control	NN	O	I-Process
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-(	NN	O	O
-Kuiken	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-
-2014)11https://www.coaptengineering.com/.	NN	O	O
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+advancing	41	50	O
+the	51	54	O
+methods	55	62	O
+of	63	65	O
+feature	66	73	B-Task
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+to	85	87	O
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+.	156	157	O
+
+The	158	161	O
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+-	428	429	I-Process
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+-	432	433	I-Process
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+(	474	475	O
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+,	481	482	O
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+,	488	489	O
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+,	499	500	O
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+;	505	506	O
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+,	511	512	O
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+,	522	523	O
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+,	532	533	O
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+,	540	541	O
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+,	554	555	O
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+,	572	573	O
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+)	578	579	O
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+
+Meanwhile	581	590	O
+,	590	591	O
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+.	768	769	O
+
+Features	770	778	B-Process
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+-	793	794	I-Process
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+
+Such	929	933	O
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+,	1020	1021	O
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+,	1126	1127	O
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+(	1167	1168	O
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+.	1180	1181	O
+,	1181	1182	O
+
+2014)11https://www.coaptengineering.com/.	1183	1224	O
 
 
 -DOCSTART- (S0957417416303773)
 
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-.	NN	O	O
-
-Within	NN	O	O
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-it	NN	O	O
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-(	NN	O	O
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-,	NN	O	O
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-)	NN	O	O
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-
-In	NN	O	O
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-N	NN	O	O
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-.	NN	O	O
-
-The	NN	O	O
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-In	NN	O	O
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-
-To	NN	O	O
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-,	NN	O	O
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-
-However	NN	O	O
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-of	NN	O	O
-the	NN	O	O
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-.	NN	O	O
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+
+Within	126	132	O
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+(	211	212	O
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+,	220	221	O
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+
+In	229	231	O
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+N	235	236	O
+-	236	237	O
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+,	261	262	O
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+(	291	292	O
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+)	302	303	O
+is	304	306	O
+a	307	308	O
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+-	342	343	I-Process
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+.	436	437	O
+
+The	438	441	O
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+
+The	529	532	O
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+
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+.	803	804	O
+
+To	805	807	O
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+,	819	820	O
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+
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+,	879	880	O
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+,	905	906	O
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 -DOCSTART- (S0963869514000863)
 
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-sensors	NN	O	I-Material
-exploit	NN	O	O
-the	NN	O	O
-difference	NN	O	B-Task
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-magnetic	NN	O	I-Task
-properties	NN	O	I-Task
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
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-,	NN	O	O
-and	NN	O	O
-electrical	NN	O	B-Task
-conductivity	NN	O	I-Task
-between	NN	O	O
-samples	NN	O	O
-with	NN	O	O
-different	NN	O	O
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-.	NN	O	O
-
-In	NN	O	O
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-,	NN	O	O
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-a	NN	O	O
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-.	NN	O	O
-
-Previously	NN	O	O
-,	NN	O	O
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-austenite	NN	O	O
-/	NN	O	O
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-%	NN	O	O
-in	NN	O	O
-model	NN	O	O
-(	NN	O	O
-HIPped	NN	O	O
-austenitic	NN	O	O
-/	NN	O	O
-ferritc	NN	O	O
-stainless	NN	O	B-Material
-steel	NN	O	I-Material
-powder	NN	O	I-Material
-)	NN	O	O
-alloys	NN	O	O
-[	NN	O	O
-7,8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-large	NN	O	O
-difference	NN	O	B-Process
-in	NN	O	I-Process
-magnetic	NN	O	I-Process
-properties	NN	O	I-Process
-of	NN	O	O
-ferrite	NN	O	B-Process
-(	NN	O	O
-ferromagnetic	NN	O	B-Process
-)	NN	O	O
-and	NN	O	O
-austenite	NN	O	B-Process
-(	NN	O	O
-paramagnetic	NN	O	B-Process
-)	NN	O	O
-phases	NN	O	O
-makes	NN	O	O
-the	NN	O	O
-change	NN	O	O
-in	NN	O	O
-signal	NN	O	O
-large	NN	O	O
-and	NN	O	O
-hence	NN	O	O
-relatively	NN	O	O
-easy	NN	O	O
-to	NN	O	O
-measure	NN	O	O
-.	NN	O	O
-
-EM	NN	O	B-Material
-sensors	NN	O	I-Material
-have	NN	O	O
-also	NN	O	O
-measured	NN	O	O
-the	NN	O	O
-levels	NN	O	O
-of	NN	O	O
-decarburisation	NN	O	B-Task
-(	NN	O	O
-variation	NN	O	B-Task
-in	NN	O	I-Task
-ferrite	NN	O	I-Task
-content	NN	O	I-Task
-with	NN	O	I-Task
-depth	NN	O	I-Task
-)	NN	O	O
-in	NN	O	O
-steel	NN	O	B-Material
-rod	NN	O	I-Material
-[	NN	O	O
-9,10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-approach	NN	O	O
-adopted	NN	O	O
-to	NN	O	O
-relate	NN	O	O
-the	NN	O	O
-overall	NN	O	O
-steel	NN	O	B-Material
-EM	NN	O	B-Process
-sensor	NN	O	I-Process
-signal	NN	O	I-Process
-to	NN	O	O
-its	NN	O	O
-microstructure	NN	O	O
-has	NN	O	O
-been	NN	O	O
-to	NN	O	O
-construct	NN	O	O
-a	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-(	NN	O	O
-FE	NN	O	B-Process
-)	NN	O	O
-model	NN	O	O
-for	NN	O	O
-the	NN	O	O
-microstructure	NN	O	O
-(	NN	O	O
-phase	NN	O	O
-,	NN	O	O
-region	NN	O	O
-size	NN	O	O
-and	NN	O	O
-distribution	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-EM	NN	O	B-Process
-properties	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-individual	NN	O	I-Process
-phases	NN	O	I-Process
-are	NN	O	O
-assigned	NN	O	O
-to	NN	O	O
-those	NN	O	O
-regions	NN	O	O
-to	NN	O	O
-give	NN	O	O
-the	NN	O	O
-overall	NN	O	B-Process
-EM	NN	O	I-Process
-properties	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-steel	NN	O	B-Material
-.	NN	O	O
-
-Within	NN	O	O
-the	NN	O	O
-model	NN	O	O
-the	NN	O	O
-particular	NN	O	B-Process
-sensor	NN	O	I-Process
-geometry	NN	O	I-Process
-is	NN	O	O
-included	NN	O	O
-(	NN	O	O
-e.g.	NN	O	O
-two	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-axisymmetric	NN	O	O
-for	NN	O	O
-a	NN	O	O
-cylindrical	NN	O	B-Material
-sample	NN	O	I-Material
-and	NN	O	O
-tubular	NN	O	B-Material
-sensor	NN	O	I-Material
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-)	NN	O	O
-and	NN	O	O
-the	NN	O	O
-interaction	NN	O	O
-with	NN	O	O
-the	NN	O	O
-steel	NN	O	B-Material
-and	NN	O	O
-any	NN	O	O
-external	NN	O	B-Material
-circuits	NN	O	I-Material
-predicted	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-way	NN	O	O
-different	NN	O	O
-microstructures	NN	O	B-Material
-and	NN	O	O
-sensor	NN	O	B-Material
-designs	NN	O	O
-can	NN	O	O
-be	NN	O	O
-compared	NN	O	O
-.	NN	O	O
+EM	0	2	B-Material
+sensors	3	10	I-Material
+exploit	11	18	O
+the	19	22	O
+difference	23	33	B-Task
+in	34	36	I-Task
+magnetic	37	45	I-Task
+properties	46	56	I-Task
+,	56	57	O
+such	58	62	O
+as	63	65	O
+relative	66	74	B-Task
+permeability	75	87	I-Task
+,	87	88	O
+and	89	92	O
+electrical	93	103	B-Task
+conductivity	104	116	I-Task
+between	117	124	O
+samples	125	132	O
+with	133	137	O
+different	138	147	O
+microstructural	148	163	B-Task
+phase	164	169	I-Task
+balances	170	178	I-Task
+.	178	179	O
+
+In	180	182	O
+ferromagnetic	183	196	B-Material
+steels	197	203	I-Material
+,	203	204	O
+the	205	208	O
+change	209	215	O
+in	216	218	O
+relative	219	227	B-Task
+permeability	228	240	I-Task
+has	241	244	O
+a	245	246	O
+significant	247	258	O
+effect	259	265	O
+.	265	266	O
+
+Previously	267	277	O
+,	277	278	O
+multi	279	284	B-Material
+-	284	285	I-Material
+frequency	285	294	I-Material
+EM	295	297	I-Material
+sensors	298	305	I-Material
+have	306	310	O
+been	311	315	O
+shown	316	321	O
+to	322	324	O
+be	325	327	O
+able	328	332	O
+to	333	335	O
+measure	336	343	O
+austenite	344	353	O
+/	353	354	O
+ferrite	354	361	O
+fraction	362	370	O
+from	371	375	O
+0	376	377	O
+%	377	378	O
+to	379	381	O
+100	382	385	O
+%	385	386	O
+in	387	389	O
+model	390	395	O
+(	396	397	O
+HIPped	397	403	O
+austenitic	404	414	O
+/	414	415	O
+ferritc	415	422	O
+stainless	423	432	B-Material
+steel	433	438	I-Material
+powder	439	445	I-Material
+)	445	446	O
+alloys	447	453	O
+[	454	455	O
+7,8	455	458	O
+]	458	459	O
+.	459	460	O
+
+The	461	464	O
+large	465	470	O
+difference	471	481	B-Process
+in	482	484	I-Process
+magnetic	485	493	I-Process
+properties	494	504	I-Process
+of	505	507	O
+ferrite	508	515	B-Process
+(	516	517	O
+ferromagnetic	517	530	B-Process
+)	530	531	O
+and	532	535	O
+austenite	536	545	B-Process
+(	546	547	O
+paramagnetic	547	559	B-Process
+)	559	560	O
+phases	561	567	O
+makes	568	573	O
+the	574	577	O
+change	578	584	O
+in	585	587	O
+signal	588	594	O
+large	595	600	O
+and	601	604	O
+hence	605	610	O
+relatively	611	621	O
+easy	622	626	O
+to	627	629	O
+measure	630	637	O
+.	637	638	O
+
+EM	639	641	B-Material
+sensors	642	649	I-Material
+have	650	654	O
+also	655	659	O
+measured	660	668	O
+the	669	672	O
+levels	673	679	O
+of	680	682	O
+decarburisation	683	698	B-Task
+(	699	700	O
+variation	700	709	B-Task
+in	710	712	I-Task
+ferrite	713	720	I-Task
+content	721	728	I-Task
+with	729	733	I-Task
+depth	734	739	I-Task
+)	739	740	O
+in	741	743	O
+steel	744	749	B-Material
+rod	750	753	I-Material
+[	754	755	O
+9,10	755	759	O
+]	759	760	O
+.	760	761	O
+
+The	762	765	O
+approach	766	774	O
+adopted	775	782	O
+to	783	785	O
+relate	786	792	O
+the	793	796	O
+overall	797	804	O
+steel	805	810	B-Material
+EM	811	813	B-Process
+sensor	814	820	I-Process
+signal	821	827	I-Process
+to	828	830	O
+its	831	834	O
+microstructure	835	849	O
+has	850	853	O
+been	854	858	O
+to	859	861	O
+construct	862	871	O
+a	872	873	O
+finite	874	880	B-Process
+element	881	888	I-Process
+(	889	890	O
+FE	890	892	B-Process
+)	892	893	O
+model	894	899	O
+for	900	903	O
+the	904	907	O
+microstructure	908	922	O
+(	923	924	O
+phase	924	929	O
+,	929	930	O
+region	931	937	O
+size	938	942	O
+and	943	946	O
+distribution	947	959	O
+)	959	960	O
+.	960	961	O
+
+The	962	965	O
+EM	966	968	B-Process
+properties	969	979	I-Process
+of	980	982	I-Process
+the	983	986	I-Process
+individual	987	997	I-Process
+phases	998	1004	I-Process
+are	1005	1008	O
+assigned	1009	1017	O
+to	1018	1020	O
+those	1021	1026	O
+regions	1027	1034	O
+to	1035	1037	O
+give	1038	1042	O
+the	1043	1046	O
+overall	1047	1054	B-Process
+EM	1055	1057	I-Process
+properties	1058	1068	I-Process
+of	1069	1071	O
+the	1072	1075	O
+steel	1076	1081	B-Material
+.	1081	1082	O
+
+Within	1083	1089	O
+the	1090	1093	O
+model	1094	1099	O
+the	1100	1103	O
+particular	1104	1114	B-Process
+sensor	1115	1121	I-Process
+geometry	1122	1130	I-Process
+is	1131	1133	O
+included	1134	1142	O
+(	1143	1144	O
+e.g.	1144	1148	O
+two	1149	1152	O
+-	1152	1153	O
+dimensional	1153	1164	O
+axisymmetric	1165	1177	O
+for	1178	1181	O
+a	1182	1183	O
+cylindrical	1184	1195	B-Material
+sample	1196	1202	I-Material
+and	1203	1206	O
+tubular	1207	1214	B-Material
+sensor	1215	1221	I-Material
+[	1222	1223	O
+10	1223	1225	O
+]	1225	1226	O
+)	1226	1227	O
+and	1228	1231	O
+the	1232	1235	O
+interaction	1236	1247	O
+with	1248	1252	O
+the	1253	1256	O
+steel	1257	1262	B-Material
+and	1263	1266	O
+any	1267	1270	O
+external	1271	1279	B-Material
+circuits	1280	1288	I-Material
+predicted	1289	1298	O
+.	1298	1299	O
+
+In	1300	1302	O
+this	1303	1307	O
+way	1308	1311	O
+different	1312	1321	O
+microstructures	1322	1337	B-Material
+and	1338	1341	O
+sensor	1342	1348	B-Material
+designs	1349	1356	O
+can	1357	1360	O
+be	1361	1363	O
+compared	1364	1372	O
+.	1372	1373	O
 
 
 -DOCSTART- (S0997754612001318)
 
-Many	NN	O	O
-applications	NN	O	O
-in	NN	O	O
-fluid	NN	O	B-Task
-mechanics	NN	O	I-Task
-have	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-surface	NN	O	B-Process
-suction	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-as	NN	O	O
-an	NN	O	O
-effective	NN	O	O
-flow	NN	O	B-Process
--	NN	O	I-Process
-control	NN	O	I-Process
-mechanism	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-example	NN	O	O
-,	NN	O	O
-Gregory	NN	O	O
-and	NN	O	O
-Walker	NN	O	O
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-discuss	NN	O	O
-how	NN	O	O
-the	NN	O	O
-introduction	NN	O	O
-of	NN	O	O
-suction	NN	O	O
-extends	NN	O	O
-the	NN	O	O
-laminar	NN	O	O
--	NN	O	O
-flow	NN	O	O
-region	NN	O	O
-over	NN	O	O
-a	NN	O	O
-swept	NN	O	B-Material
-wing	NN	O	I-Material
-by	NN	O	O
-reducing	NN	O	B-Task
-the	NN	O	I-Task
-thickness	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-boundary	NN	O	I-Task
-layer	NN	O	I-Task
-and	NN	O	I-Task
-the	NN	O	I-Task
-magnitude	NN	O	I-Task
-of	NN	O	I-Task
-crossflow	NN	O	I-Task
-velocity	NN	O	I-Task
-.	NN	O	O
-
-Conclusions	NN	O	O
-for	NN	O	O
-the	NN	O	O
-swept	NN	O	B-Process
--	NN	O	I-Process
-wing	NN	O	I-Process
-flow	NN	O	I-Process
-arose	NN	O	O
-from	NN	O	O
-equivalent	NN	O	O
-studies	NN	O	O
-of	NN	O	O
-the	NN	O	O
-von	NN	O	O
-Kármán	NN	O	O
-(	NN	O	O
-rotating	NN	O	B-Material
-disk	NN	O	I-Material
-)	NN	O	O
-flow	NN	O	O
-(	NN	O	O
-see	NN	O	O
-Gregory	NN	O	O
-and	NN	O	O
-Walker	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Stuart	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-)	NN	O	O
-and	NN	O	O
-work	NN	O	O
-has	NN	O	O
-since	NN	O	O
-continued	NN	O	O
-into	NN	O	O
-this	NN	O	O
-and	NN	O	O
-related	NN	O	O
-flows	NN	O	O
-using	NN	O	O
-numerical	NN	O	B-Process
-and	NN	O	I-Process
-asymptotic	NN	O	I-Process
-approaches	NN	O	I-Process
-(	NN	O	O
-see	NN	O	O
-Ockendon	NN	O	O
-[	NN	O	O
-4	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Dhanak	NN	O	O
-[	NN	O	O
-5	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Bassom	NN	O	O
-and	NN	O	O
-Seddougui	NN	O	O
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Lingwood	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Turkyilmazoglu	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-,	NN	O	O
-Lingwood	NN	O	O
-and	NN	O	O
-Garrett	NN	O	O
-[	NN	O	O
-9	NN	O	O
-]	NN	O	O
-,	NN	O	O
-for	NN	O	O
-example	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-literature	NN	O	O
-shows	NN	O	O
-that	NN	O	O
-increasing	NN	O	B-Process
-suction	NN	O	I-Process
-has	NN	O	O
-a	NN	O	O
-stabilising	NN	O	O
-effect	NN	O	O
-on	NN	O	O
-the	NN	O	O
-general	NN	O	O
-class	NN	O	O
-of	NN	O	O
-“	NN	O	B-Process
-Bödewadt	NN	O	I-Process
-,	NN	O	I-Process
-Ekman	NN	O	I-Process
-and	NN	O	I-Process
-von	NN	O	I-Process
-Kármán	NN	O	I-Process
-”	NN	O	I-Process
-(	NN	O	I-Process
-BEK	NN	O	I-Process
-)	NN	O	I-Process
-flows	NN	O	I-Process
-which	NN	O	O
-results	NN	O	O
-in	NN	O	O
-an	NN	O	O
-increase	NN	O	B-Process
-in	NN	O	I-Process
-critical	NN	O	I-Process
-Reynolds	NN	O	I-Process
-numbers	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-onset	NN	O	O
-of	NN	O	O
-convective	NN	O	O
-and	NN	O	O
-absolute	NN	O	O
-instabilities	NN	O	O
-,	NN	O	O
-a	NN	O	O
-narrowing	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-range	NN	O	I-Process
-of	NN	O	I-Process
-unstable	NN	O	I-Process
-parameters	NN	O	I-Process
-and	NN	O	O
-a	NN	O	O
-decrease	NN	O	B-Process
-in	NN	O	I-Process
-amplification	NN	O	I-Process
-rates	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-unstable	NN	O	O
-convective	NN	O	O
-modes	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-convective	NN	O	B-Process
-instability	NN	O	I-Process
-results	NN	O	O
-are	NN	O	O
-interpreted	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-a	NN	O	O
-delay	NN	O	O
-in	NN	O	O
-the	NN	O	O
-onset	NN	O	O
-of	NN	O	O
-spiral	NN	O	B-Material
-vortices	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-absolute	NN	O	B-Process
-instability	NN	O	I-Process
-results	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-the	NN	O	O
-onset	NN	O	O
-of	NN	O	O
-laminar	NN	O	B-Process
--	NN	O	I-Process
-turbulent	NN	O	I-Process
-transition	NN	O	I-Process
-(	NN	O	O
-Lingwood	NN	O	O
-[	NN	O	O
-7,10,11	NN	O	O
-]	NN	O	O
-)	NN	O	O
-.	NN	O	O
+Many	0	4	O
+applications	5	17	O
+in	18	20	O
+fluid	21	26	B-Task
+mechanics	27	36	I-Task
+have	37	41	O
+shown	42	47	O
+that	48	52	O
+surface	53	60	B-Process
+suction	61	68	I-Process
+can	69	72	O
+be	73	75	O
+used	76	80	O
+as	81	83	O
+an	84	86	O
+effective	87	96	O
+flow	97	101	B-Process
+-	101	102	I-Process
+control	102	109	I-Process
+mechanism	110	119	I-Process
+.	119	120	O
+
+For	121	124	O
+example	125	132	O
+,	132	133	O
+Gregory	134	141	O
+and	142	145	O
+Walker	146	152	O
+[	153	154	O
+1	154	155	O
+]	155	156	O
+discuss	157	164	O
+how	165	168	O
+the	169	172	O
+introduction	173	185	O
+of	186	188	O
+suction	189	196	O
+extends	197	204	O
+the	205	208	O
+laminar	209	216	O
+-	216	217	O
+flow	217	221	O
+region	222	228	O
+over	229	233	O
+a	234	235	O
+swept	236	241	B-Material
+wing	242	246	I-Material
+by	247	249	O
+reducing	250	258	B-Task
+the	259	262	I-Task
+thickness	263	272	I-Task
+of	273	275	I-Task
+the	276	279	I-Task
+boundary	280	288	I-Task
+layer	289	294	I-Task
+and	295	298	I-Task
+the	299	302	I-Task
+magnitude	303	312	I-Task
+of	313	315	I-Task
+crossflow	316	325	I-Task
+velocity	326	334	I-Task
+.	334	335	O
+
+Conclusions	336	347	O
+for	348	351	O
+the	352	355	O
+swept	356	361	B-Process
+-	361	362	I-Process
+wing	362	366	I-Process
+flow	367	371	I-Process
+arose	372	377	O
+from	378	382	O
+equivalent	383	393	O
+studies	394	401	O
+of	402	404	O
+the	405	408	O
+von	409	412	O
+Kármán	413	419	O
+(	420	421	O
+rotating	421	429	B-Material
+disk	430	434	I-Material
+)	434	435	O
+flow	436	440	O
+(	441	442	O
+see	442	445	O
+Gregory	446	453	O
+and	454	457	O
+Walker	458	464	O
+[	465	466	O
+2	466	467	O
+]	467	468	O
+,	468	469	O
+Stuart	470	476	O
+[	477	478	O
+3	478	479	O
+]	479	480	O
+)	480	481	O
+and	482	485	O
+work	486	490	O
+has	491	494	O
+since	495	500	O
+continued	501	510	O
+into	511	515	O
+this	516	520	O
+and	521	524	O
+related	525	532	O
+flows	533	538	O
+using	539	544	O
+numerical	545	554	B-Process
+and	555	558	I-Process
+asymptotic	559	569	I-Process
+approaches	570	580	I-Process
+(	581	582	O
+see	582	585	O
+Ockendon	586	594	O
+[	595	596	O
+4	596	597	O
+]	597	598	O
+,	598	599	O
+Dhanak	600	606	O
+[	607	608	O
+5	608	609	O
+]	609	610	O
+,	610	611	O
+Bassom	612	618	O
+and	619	622	O
+Seddougui	623	632	O
+[	633	634	O
+6	634	635	O
+]	635	636	O
+,	636	637	O
+Lingwood	638	646	O
+[	647	648	O
+7	648	649	O
+]	649	650	O
+,	650	651	O
+Turkyilmazoglu	652	666	O
+[	667	668	O
+8	668	669	O
+]	669	670	O
+,	670	671	O
+Lingwood	672	680	O
+and	681	684	O
+Garrett	685	692	O
+[	693	694	O
+9	694	695	O
+]	695	696	O
+,	696	697	O
+for	698	701	O
+example	702	709	O
+)	709	710	O
+.	710	711	O
+
+The	712	715	O
+literature	716	726	O
+shows	727	732	O
+that	733	737	O
+increasing	738	748	B-Process
+suction	749	756	I-Process
+has	757	760	O
+a	761	762	O
+stabilising	763	774	O
+effect	775	781	O
+on	782	784	O
+the	785	788	O
+general	789	796	O
+class	797	802	O
+of	803	805	O
+“	806	807	B-Process
+Bödewadt	807	815	I-Process
+,	815	816	I-Process
+Ekman	817	822	I-Process
+and	823	826	I-Process
+von	827	830	I-Process
+Kármán	831	837	I-Process
+”	837	838	I-Process
+(	839	840	I-Process
+BEK	840	843	I-Process
+)	843	844	I-Process
+flows	845	850	I-Process
+which	851	856	O
+results	857	864	O
+in	865	867	O
+an	868	870	O
+increase	871	879	B-Process
+in	880	882	I-Process
+critical	883	891	I-Process
+Reynolds	892	900	I-Process
+numbers	901	908	I-Process
+for	909	912	O
+the	913	916	O
+onset	917	922	O
+of	923	925	O
+convective	926	936	O
+and	937	940	O
+absolute	941	949	O
+instabilities	950	963	O
+,	963	964	O
+a	965	966	O
+narrowing	967	976	B-Process
+in	977	979	I-Process
+the	980	983	I-Process
+range	984	989	I-Process
+of	990	992	I-Process
+unstable	993	1001	I-Process
+parameters	1002	1012	I-Process
+and	1013	1016	O
+a	1017	1018	O
+decrease	1019	1027	B-Process
+in	1028	1030	I-Process
+amplification	1031	1044	I-Process
+rates	1045	1050	I-Process
+of	1051	1053	O
+the	1054	1057	O
+unstable	1058	1066	O
+convective	1067	1077	O
+modes	1078	1083	O
+.	1083	1084	O
+
+The	1085	1088	O
+convective	1089	1099	B-Process
+instability	1100	1111	I-Process
+results	1112	1119	O
+are	1120	1123	O
+interpreted	1124	1135	O
+in	1136	1138	O
+terms	1139	1144	O
+of	1145	1147	O
+a	1148	1149	O
+delay	1150	1155	O
+in	1156	1158	O
+the	1159	1162	O
+onset	1163	1168	O
+of	1169	1171	O
+spiral	1172	1178	B-Material
+vortices	1179	1187	I-Material
+,	1187	1188	O
+and	1189	1192	O
+the	1193	1196	O
+absolute	1197	1205	B-Process
+instability	1206	1217	I-Process
+results	1218	1225	O
+in	1226	1228	O
+terms	1229	1234	O
+of	1235	1237	O
+the	1238	1241	O
+onset	1242	1247	O
+of	1248	1250	O
+laminar	1251	1258	B-Process
+-	1258	1259	I-Process
+turbulent	1259	1268	I-Process
+transition	1269	1279	I-Process
+(	1280	1281	O
+Lingwood	1281	1289	O
+[	1290	1291	O
+7,10,11	1291	1298	O
+]	1298	1299	O
+)	1299	1300	O
+.	1300	1301	O
 
 
 -DOCSTART- (S1071581916300854)
 
-We	NN	O	O
-have	NN	O	O
-developed	NN	O	O
-a	NN	O	O
-systematic	NN	O	O
-,	NN	O	O
-quantified	NN	O	O
-understanding	NN	O	O
-of	NN	O	O
-a	NN	O	O
-specific	NN	O	O
-problem	NN	O	O
-:	NN	O	O
-the	NN	O	O
-design	NN	O	B-Task
-of	NN	O	I-Task
-mobile	NN	O	I-Task
--	NN	O	I-Task
-friendly	NN	O	I-Task
-unique	NN	O	I-Task
-identifiers	NN	O	I-Task
-.	NN	O	O
-
-But	NN	O	O
-our	NN	O	O
-results	NN	O	O
-also	NN	O	O
-apply	NN	O	O
-to	NN	O	O
-the	NN	O	O
-design	NN	O	B-Task
-of	NN	O	I-Task
-other	NN	O	I-Task
-text	NN	O	I-Task
--	NN	O	I-Task
-based	NN	O	I-Task
-services	NN	O	I-Task
-.	NN	O	O
-
-There	NN	O	O
-has	NN	O	O
-been	NN	O	O
-a	NN	O	O
-trend	NN	O	O
-toward	NN	O	O
-bespoke	NN	O	B-Material
-and	NN	O	I-Material
-adaptive	NN	O	I-Material
-keyboards	NN	O	I-Material
-(	NN	O	O
-e.g.	NN	O	O
-,	NN	O	O
-Dunlop	NN	O	O
-and	NN	O	O
-Levine	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-;	NN	O	O
-Karrenbauer	NN	O	O
-and	NN	O	O
-Oulasvirta	NN	O	O
-,	NN	O	O
-2014	NN	O	O
-;	NN	O	O
-Leiva	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2015	NN	O	O
-;	NN	O	O
-Wiseman	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2013	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-More	NN	O	O
-often	NN	O	O
-than	NN	O	O
-not	NN	O	O
-,	NN	O	O
-though	NN	O	O
-,	NN	O	O
-input	NN	O	B-Material
-devices	NN	O	I-Material
-are	NN	O	O
-a	NN	O	O
-fixed	NN	O	O
-constraint	NN	O	O
-in	NN	O	O
-the	NN	O	O
-design	NN	O	B-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-service	NN	O	I-Task
-.	NN	O	O
-
-Most	NN	O	O
-users	NN	O	O
-are	NN	O	O
-typing	NN	O	O
-on	NN	O	O
-the	NN	O	O
-keyboard	NN	O	O
-that	NN	O	O
-came	NN	O	O
-with	NN	O	O
-their	NN	O	O
-phone	NN	O	O
-.	NN	O	O
-
-Those	NN	O	O
-keyboards	NN	O	O
-have	NN	O	O
-advantages	NN	O	O
-,	NN	O	O
-limitations	NN	O	O
-and	NN	O	O
-quirks	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-mode	NN	O	B-Process
--	NN	O	I-Process
-switching	NN	O	I-Process
-that	NN	O	O
-most	NN	O	O
-touchscreen	NN	O	O
-keyboards	NN	O	O
-require	NN	O	O
-to	NN	O	O
-reach	NN	O	O
-numbers	NN	O	O
-and	NN	O	O
-capital	NN	O	O
-letters	NN	O	O
-is	NN	O	O
-at	NN	O	O
-the	NN	O	O
-root	NN	O	O
-of	NN	O	O
-design	NN	O	O
-improvements	NN	O	O
-we	NN	O	O
-propose	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-.	NN	O	O
-
-When	NN	O	O
-designing	NN	O	B-Task
-services	NN	O	I-Task
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-vital	NN	O	O
-to	NN	O	O
-be	NN	O	O
-aware	NN	O	O
-of	NN	O	O
-the	NN	O	O
-fixed	NN	O	O
-constraints	NN	O	O
-of	NN	O	O
-a	NN	O	O
-system	NN	O	O
-and	NN	O	O
-to	NN	O	O
-then	NN	O	O
-focus	NN	O	O
-on	NN	O	O
-the	NN	O	O
-aspects	NN	O	O
-of	NN	O	O
-a	NN	O	O
-service	NN	O	O
-'s	NN	O	O
-design	NN	O	O
-that	NN	O	O
-can	NN	O	O
-be	NN	O	O
-controlled	NN	O	O
-.	NN	O	O
-
-Making	NN	O	O
-changes	NN	O	O
-to	NN	O	O
-input	NN	O	O
-data	NN	O	O
-in	NN	O	O
-this	NN	O	O
-way	NN	O	O
-is	NN	O	O
-a	NN	O	O
-cheap	NN	O	O
-,	NN	O	O
-quick	NN	O	O
-and	NN	O	O
-easy	NN	O	O
-way	NN	O	O
-to	NN	O	O
-improve	NN	O	O
-user	NN	O	O
-experience	NN	O	O
-.	NN	O	O
+We	0	2	O
+have	3	7	O
+developed	8	17	O
+a	18	19	O
+systematic	20	30	O
+,	30	31	O
+quantified	32	42	O
+understanding	43	56	O
+of	57	59	O
+a	60	61	O
+specific	62	70	O
+problem	71	78	O
+:	78	79	O
+the	80	83	O
+design	84	90	B-Task
+of	91	93	I-Task
+mobile	94	100	I-Task
+-	100	101	I-Task
+friendly	101	109	I-Task
+unique	110	116	I-Task
+identifiers	117	128	I-Task
+.	128	129	O
+
+But	130	133	O
+our	134	137	O
+results	138	145	O
+also	146	150	O
+apply	151	156	O
+to	157	159	O
+the	160	163	O
+design	164	170	B-Task
+of	171	173	I-Task
+other	174	179	I-Task
+text	180	184	I-Task
+-	184	185	I-Task
+based	185	190	I-Task
+services	191	199	I-Task
+.	199	200	O
+
+There	201	206	O
+has	207	210	O
+been	211	215	O
+a	216	217	O
+trend	218	223	O
+toward	224	230	O
+bespoke	231	238	B-Material
+and	239	242	I-Material
+adaptive	243	251	I-Material
+keyboards	252	261	I-Material
+(	262	263	O
+e.g.	263	267	O
+,	267	268	O
+Dunlop	269	275	O
+and	276	279	O
+Levine	280	286	O
+,	286	287	O
+2012	288	292	O
+;	292	293	O
+Karrenbauer	294	305	O
+and	306	309	O
+Oulasvirta	310	320	O
+,	320	321	O
+2014	322	326	O
+;	326	327	O
+Leiva	328	333	O
+et	334	336	O
+al	337	339	O
+.	339	340	O
+,	340	341	O
+2015	342	346	O
+;	346	347	O
+Wiseman	348	355	O
+et	356	358	O
+al	359	361	O
+.	361	362	O
+,	362	363	O
+2013	364	368	O
+)	368	369	O
+.	369	370	O
+
+More	371	375	O
+often	376	381	O
+than	382	386	O
+not	387	390	O
+,	390	391	O
+though	392	398	O
+,	398	399	O
+input	400	405	B-Material
+devices	406	413	I-Material
+are	414	417	O
+a	418	419	O
+fixed	420	425	O
+constraint	426	436	O
+in	437	439	O
+the	440	443	O
+design	444	450	B-Task
+of	451	453	I-Task
+a	454	455	I-Task
+service	456	463	I-Task
+.	463	464	O
+
+Most	465	469	O
+users	470	475	O
+are	476	479	O
+typing	480	486	O
+on	487	489	O
+the	490	493	O
+keyboard	494	502	O
+that	503	507	O
+came	508	512	O
+with	513	517	O
+their	518	523	O
+phone	524	529	O
+.	529	530	O
+
+Those	531	536	O
+keyboards	537	546	O
+have	547	551	O
+advantages	552	562	O
+,	562	563	O
+limitations	564	575	O
+and	576	579	O
+quirks	580	586	O
+.	586	587	O
+
+The	588	591	O
+mode	592	596	B-Process
+-	596	597	I-Process
+switching	597	606	I-Process
+that	607	611	O
+most	612	616	O
+touchscreen	617	628	O
+keyboards	629	638	O
+require	639	646	O
+to	647	649	O
+reach	650	655	O
+numbers	656	663	O
+and	664	667	O
+capital	668	675	O
+letters	676	683	O
+is	684	686	O
+at	687	689	O
+the	690	693	O
+root	694	698	O
+of	699	701	O
+design	702	708	O
+improvements	709	721	O
+we	722	724	O
+propose	725	732	O
+in	733	735	O
+this	736	740	O
+paper	741	746	O
+.	746	747	O
+
+When	748	752	O
+designing	753	762	B-Task
+services	763	771	I-Task
+,	771	772	O
+it	773	775	O
+is	776	778	O
+vital	779	784	O
+to	785	787	O
+be	788	790	O
+aware	791	796	O
+of	797	799	O
+the	800	803	O
+fixed	804	809	O
+constraints	810	821	O
+of	822	824	O
+a	825	826	O
+system	827	833	O
+and	834	837	O
+to	838	840	O
+then	841	845	O
+focus	846	851	O
+on	852	854	O
+the	855	858	O
+aspects	859	866	O
+of	867	869	O
+a	870	871	O
+service	872	879	O
+'s	879	881	O
+design	882	888	O
+that	889	893	O
+can	894	897	O
+be	898	900	O
+controlled	901	911	O
+.	911	912	O
+
+Making	913	919	O
+changes	920	927	O
+to	928	930	O
+input	931	936	O
+data	937	941	O
+in	942	944	O
+this	945	949	O
+way	950	953	O
+is	954	956	O
+a	957	958	O
+cheap	959	964	O
+,	964	965	O
+quick	966	971	O
+and	972	975	O
+easy	976	980	O
+way	981	984	O
+to	985	987	O
+improve	988	995	O
+user	996	1000	O
+experience	1001	1011	O
+.	1011	1012	O
 
 
 -DOCSTART- (S1361841516300342)
 
-Probabilistic	NN	O	B-Process
-and	NN	O	I-Process
-stochastic	NN	O	I-Process
-approaches	NN	O	I-Process
-can	NN	O	O
-facilitate	NN	O	O
-the	NN	O	O
-search	NN	O	B-Task
-for	NN	O	I-Task
-local	NN	O	I-Task
-and	NN	O	I-Task
-global	NN	O	I-Task
-optima	NN	O	I-Task
-.	NN	O	O
-
-Evolutionary	NN	O	B-Process
-algorithms	NN	O	I-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-genetic	NN	O	B-Process
-population	NN	O	I-Process
-(	NN	O	O
-Jomier	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2006	NN	O	O
-;	NN	O	O
-Rivest	NN	O	O
--	NN	O	O
-Henault	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2012	NN	O	O
-;	NN	O	O
-Ruijters	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2009	NN	O	O
-)	NN	O	O
-,	NN	O	O
-are	NN	O	O
-considered	NN	O	O
-as	NN	O	O
-a	NN	O	O
-strategy	NN	O	O
-that	NN	O	O
-is	NN	O	O
-“	NN	O	O
-less	NN	O	O
-likely	NN	O	O
-to	NN	O	O
-get	NN	O	O
-stuck	NN	O	O
-in	NN	O	O
-a	NN	O	O
-local	NN	O	O
-optimum	NN	O	O
-”	NN	O	O
-(	NN	O	O
-Ruijters	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2009	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-cost	NN	O	B-Material
-function	NN	O	I-Material
-consisting	NN	O	O
-of	NN	O	O
-the	NN	O	O
-“	NN	O	O
-sum	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Gaussian	NN	O	O
--	NN	O	O
-blurred	NN	O	O
-intensity	NN	O	O
-values	NN	O	O
-in	NN	O	O
-the	NN	O	O
-[	NN	O	O
-DSA	NN	O	O
-]	NN	O	O
-at	NN	O	O
-the	NN	O	O
-projected	NN	O	O
-model	NN	O	O
-points	NN	O	O
-
-”	NN	O	O
-
-(	NN	O	O
-Jomier	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2006	NN	O	O
-)	NN	O	O
-is	NN	O	O
-optimized	NN	O	O
-using	NN	O	O
-a	NN	O	O
-genetic	NN	O	B-Process
-algorithm	NN	O	I-Process
-optimizer	NN	O	I-Process
-.	NN	O	O
-
-Other	NN	O	O
-authors	NN	O	O
-“	NN	O	O
-use	NN	O	O
-the	NN	O	O
-Condensation	NN	O	B-Process
-form	NN	O	I-Process
-of	NN	O	I-Process
-sequential	NN	O	I-Process
-Monte	NN	O	I-Process
-Carlo	NN	O	I-Process
-sampling	NN	O	I-Process
-to	NN	O	O
-estimate	NN	O	B-Task
-a	NN	O	I-Task
-cost	NN	O	I-Task
-function	NN	O	I-Task
-gradient	NN	O	I-Task
-”	NN	O	O
-
-(	NN	O	O
-Florin	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-2005	NN	O	O
-)	NN	O	O
-for	NN	O	O
-finding	NN	O	O
-the	NN	O	O
-global	NN	O	O
-minimum	NN	O	O
-.	NN	O	O
-
-Besides	NN	O	O
-,	NN	O	O
-the	NN	O	O
-Kalman	NN	O	B-Process
-filter	NN	O	I-Process
-is	NN	O	O
-successfully	NN	O	O
-adopted	NN	O	O
-(	NN	O	O
-Curwen	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-1994	NN	O	O
-;	NN	O	O
-Feldmar	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-1997	NN	O	O
-;	NN	O	O
-Toledo	NN	O	O
-et	NN	O	O
-al	NN	O	O
-.	NN	O	O
-,	NN	O	O
-1998	NN	O	O
-)	NN	O	O
-.	NN	O	O
+Probabilistic	0	13	B-Process
+and	14	17	I-Process
+stochastic	18	28	I-Process
+approaches	29	39	I-Process
+can	40	43	O
+facilitate	44	54	O
+the	55	58	O
+search	59	65	B-Task
+for	66	69	I-Task
+local	70	75	I-Task
+and	76	79	I-Task
+global	80	86	I-Task
+optima	87	93	I-Task
+.	93	94	O
+
+Evolutionary	95	107	B-Process
+algorithms	108	118	I-Process
+,	118	119	O
+such	120	124	O
+as	125	127	O
+genetic	128	135	B-Process
+population	136	146	I-Process
+(	147	148	O
+Jomier	148	154	O
+et	155	157	O
+al	158	160	O
+.	160	161	O
+,	161	162	O
+2006	163	167	O
+;	167	168	O
+Rivest	169	175	O
+-	175	176	O
+Henault	176	183	O
+et	184	186	O
+al	187	189	O
+.	189	190	O
+,	190	191	O
+2012	192	196	O
+;	196	197	O
+Ruijters	198	206	O
+et	207	209	O
+al	210	212	O
+.	212	213	O
+,	213	214	O
+2009	215	219	O
+)	219	220	O
+,	220	221	O
+are	222	225	O
+considered	226	236	O
+as	237	239	O
+a	240	241	O
+strategy	242	250	O
+that	251	255	O
+is	256	258	O
+“	259	260	O
+less	260	264	O
+likely	265	271	O
+to	272	274	O
+get	275	278	O
+stuck	279	284	O
+in	285	287	O
+a	288	289	O
+local	290	295	O
+optimum	296	303	O
+”	303	304	O
+(	305	306	O
+Ruijters	306	314	O
+et	315	317	O
+al	318	320	O
+.	320	321	O
+,	321	322	O
+2009	323	327	O
+)	327	328	O
+.	328	329	O
+
+A	330	331	O
+cost	332	336	B-Material
+function	337	345	I-Material
+consisting	346	356	O
+of	357	359	O
+the	360	363	O
+“	364	365	O
+sum	365	368	O
+of	369	371	O
+the	372	375	O
+Gaussian	376	384	O
+-	384	385	O
+blurred	385	392	O
+intensity	393	402	O
+values	403	409	O
+in	410	412	O
+the	413	416	O
+[	417	418	O
+DSA	418	421	O
+]	421	422	O
+at	423	425	O
+the	426	429	O
+projected	430	439	O
+model	440	445	O
+points	446	452	O
+
+”	452	453	O
+
+(	454	455	O
+Jomier	455	461	O
+et	462	464	O
+al	465	467	O
+.	467	468	O
+,	468	469	O
+2006	470	474	O
+)	474	475	O
+is	476	478	O
+optimized	479	488	O
+using	489	494	O
+a	495	496	O
+genetic	497	504	B-Process
+algorithm	505	514	I-Process
+optimizer	515	524	I-Process
+.	524	525	O
+
+Other	526	531	O
+authors	532	539	O
+“	540	541	O
+use	541	544	O
+the	545	548	O
+Condensation	549	561	B-Process
+form	562	566	I-Process
+of	567	569	I-Process
+sequential	570	580	I-Process
+Monte	581	586	I-Process
+Carlo	587	592	I-Process
+sampling	593	601	I-Process
+to	602	604	O
+estimate	605	613	B-Task
+a	614	615	I-Task
+cost	616	620	I-Task
+function	621	629	I-Task
+gradient	630	638	I-Task
+”	638	639	O
+
+(	640	641	O
+Florin	641	647	O
+et	648	650	O
+al	651	653	O
+.	653	654	O
+,	654	655	O
+2005	656	660	O
+)	660	661	O
+for	662	665	O
+finding	666	673	O
+the	674	677	O
+global	678	684	O
+minimum	685	692	O
+.	692	693	O
+
+Besides	694	701	O
+,	701	702	O
+the	703	706	O
+Kalman	707	713	B-Process
+filter	714	720	I-Process
+is	721	723	O
+successfully	724	736	O
+adopted	737	744	O
+(	745	746	O
+Curwen	746	752	O
+et	753	755	O
+al	756	758	O
+.	758	759	O
+,	759	760	O
+1994	761	765	O
+;	765	766	O
+Feldmar	767	774	O
+et	775	777	O
+al	778	780	O
+.	780	781	O
+,	781	782	O
+1997	783	787	O
+;	787	788	O
+Toledo	789	795	O
+et	796	798	O
+al	799	801	O
+.	801	802	O
+,	802	803	O
+1998	804	808	O
+)	808	809	O
+.	809	810	O
 
 
 -DOCSTART- (S1361841516300822)
 
-For	NN	O	O
-all	NN	O	O
-volunteers	NN	O	O
-the	NN	O	O
-AAMM	NN	O	B-Task
-technique	NN	O	I-Task
-significantly	NN	O	O
-(	NN	O	O
-p	NN	O	O
-<	NN	O	O
-0.01	NN	O	O
-)	NN	O	O
-outperformed	NN	O	O
-the	NN	O	O
-other	NN	O	O
-two	NN	O	O
-methods	NN	O	O
-in	NN	O	O
-all	NN	O	O
-of	NN	O	O
-the	NN	O	O
-intervals	NN	O	O
-as	NN	O	O
-can	NN	O	O
-be	NN	O	O
-seen	NN	O	O
-by	NN	O	O
-comparing	NN	O	O
-to	NN	O	O
-the	NN	O	O
-error	NN	O	B-Material
-curves	NN	O	I-Material
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-8	NN	O	O
-and	NN	O	O
-the	NN	O	O
-figures	NN	O	O
-in	NN	O	O
-Table	NN	O	O
-1	NN	O	O
-in	NN	O	O
-the	NN	O	O
-supplementary	NN	O	O
-materials	NN	O	O
-.	NN	O	O
-
-Significance	NN	O	O
-was	NN	O	O
-assessed	NN	O	O
-using	NN	O	O
-a	NN	O	O
-1-tailed	NN	O	B-Process
-Wilcoxon	NN	O	I-Process
-signed	NN	O	I-Process
-rank	NN	O	I-Process
-test	NN	O	I-Process
-since	NN	O	O
-the	NN	O	O
-error	NN	O	O
-distributions	NN	O	O
-were	NN	O	O
-generally	NN	O	O
-not	NN	O	O
-symmetric	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-estimation	NN	O	O
-errors	NN	O	O
-for	NN	O	O
-AAMM	NN	O	B-Task
-and	NN	O	O
-its	NN	O	O
-non	NN	O	O
--	NN	O	O
-adaptive	NN	O	O
-counterpart	NN	O	O
-,	NN	O	O
-AAMM	NN	O	B-Task
-(	NN	O	I-Task
-no	NN	O	I-Task
-adapt	NN	O	I-Task
-.	NN	O	I-Task
-)	NN	O	I-Task
-,	NN	O	O
-were	NN	O	O
-similar	NN	O	O
-in	NN	O	O
-the	NN	O	O
-beginning	NN	O	O
-of	NN	O	O
-the	NN	O	O
-application	NN	O	O
-phase	NN	O	O
-,	NN	O	O
-but	NN	O	O
-as	NN	O	O
-anticipated	NN	O	O
-,	NN	O	O
-as	NN	O	O
-the	NN	O	O
-application	NN	O	O
-phase	NN	O	O
-went	NN	O	O
-on	NN	O	O
-,	NN	O	O
-the	NN	O	O
-AAMM	NN	O	B-Task
-technique	NN	O	I-Task
-continually	NN	O	O
-improved	NN	O	O
-its	NN	O	O
-accuracy	NN	O	O
-by	NN	O	O
-incorporating	NN	O	O
-more	NN	O	O
-and	NN	O	O
-more	NN	O	O
-data	NN	O	O
-into	NN	O	O
-the	NN	O	O
-model	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-average	NN	O	O
-the	NN	O	O
-motion	NN	O	B-Material
-estimation	NN	O	I-Material
-of	NN	O	O
-AAMM	NN	O	B-Task
-improved	NN	O	O
-by	NN	O	O
-22.94	NN	O	O
-%	NN	O	O
-in	NN	O	O
-T5	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-its	NN	O	O
-non	NN	O	O
--	NN	O	O
-adaptive	NN	O	O
-counterpart	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-method	NN	O	O
-has	NN	O	O
-already	NN	O	O
-significantly	NN	O	O
-adapted	NN	O	O
-to	NN	O	O
-the	NN	O	O
-breathing	NN	O	O
-pattern	NN	O	O
-in	NN	O	O
-T2	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-after	NN	O	O
-between	NN	O	O
-3	NN	O	O
-and	NN	O	O
-7	NN	O	O
-min	NN	O	O
-of	NN	O	O
-imaging	NN	O	B-Process
-,	NN	O	O
-where	NN	O	O
-motion	NN	O	B-Material
-estimations	NN	O	I-Material
-where	NN	O	O
-on	NN	O	O
-average	NN	O	O
-16.87	NN	O	O
-%	NN	O	O
-more	NN	O	O
-accurate	NN	O	O
-than	NN	O	O
-at	NN	O	O
-the	NN	O	O
-beginning	NN	O	O
-of	NN	O	O
-the	NN	O	O
-adaptation	NN	O	O
-phase	NN	O	O
-.	NN	O	O
-
-By	NN	O	O
-visually	NN	O	O
-inspecting	NN	O	O
-the	NN	O	O
-curves	NN	O	O
-for	NN	O	O
-AAMM	NN	O	B-Task
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-8	NN	O	O
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-seen	NN	O	O
-that	NN	O	O
-for	NN	O	O
-many	NN	O	O
-volunteers	NN	O	O
-(	NN	O	O
-in	NN	O	O
-particular	NN	O	O
-volunteers	NN	O	O
-A	NN	O	O
-,	NN	O	O
-D	NN	O	O
-,	NN	O	O
-E	NN	O	O
-,	NN	O	O
-and	NN	O	O
-F	NN	O	O
-)	NN	O	O
-the	NN	O	O
-error	NN	O	B-Material
-curves	NN	O	I-Material
-start	NN	O	O
-to	NN	O	O
-flatten	NN	O	O
-approximately	NN	O	O
-around	NN	O	O
-the	NN	O	O
-7	NN	O	O
-min	NN	O	O
-mark	NN	O	O
-.	NN	O	O
-
-From	NN	O	O
-this	NN	O	O
-it	NN	O	O
-can	NN	O	O
-be	NN	O	O
-concluded	NN	O	O
-that	NN	O	O
-a	NN	O	O
-longer	NN	O	O
-calibration	NN	O	B-Process
-scan	NN	O	I-Process
-of	NN	O	O
-around	NN	O	O
-12	NN	O	O
-min	NN	O	O
-would	NN	O	O
-be	NN	O	O
-optimal	NN	O	O
-,	NN	O	O
-that	NN	O	O
-is	NN	O	O
-the	NN	O	O
-5	NN	O	O
-min	NN	O	O
-that	NN	O	O
-were	NN	O	O
-used	NN	O	O
-for	NN	O	O
-calibration	NN	O	B-Process
-in	NN	O	O
-this	NN	O	O
-experiment	NN	O	O
-plus	NN	O	O
-7	NN	O	O
-min	NN	O	O
-worth	NN	O	O
-of	NN	O	O
-data	NN	O	O
-added	NN	O	O
-during	NN	O	O
-the	NN	O	O
-application	NN	O	O
-phase	NN	O	O
-.	NN	O	O
-
-Note	NN	O	O
-that	NN	O	O
-this	NN	O	O
-time	NN	O	O
-could	NN	O	O
-be	NN	O	O
-significantly	NN	O	O
-reduced	NN	O	O
-if	NN	O	O
-a	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-cardiac	NN	O	I-Process
--	NN	O	I-Process
-gated	NN	O	I-Process
-sequence	NN	O	I-Process
-was	NN	O	O
-used	NN	O	O
-.	NN	O	O
+For	0	3	O
+all	4	7	O
+volunteers	8	18	O
+the	19	22	O
+AAMM	23	27	B-Task
+technique	28	37	I-Task
+significantly	38	51	O
+(	52	53	O
+p	53	54	O
+<	55	56	O
+0.01	57	61	O
+)	61	62	O
+outperformed	63	75	O
+the	76	79	O
+other	80	85	O
+two	86	89	O
+methods	90	97	O
+in	98	100	O
+all	101	104	O
+of	105	107	O
+the	108	111	O
+intervals	112	121	O
+as	122	124	O
+can	125	128	O
+be	129	131	O
+seen	132	136	O
+by	137	139	O
+comparing	140	149	O
+to	150	152	O
+the	153	156	O
+error	157	162	B-Material
+curves	163	169	I-Material
+shown	170	175	O
+in	176	178	O
+Fig	179	182	O
+.	182	183	O
+
+8	184	185	O
+and	186	189	O
+the	190	193	O
+figures	194	201	O
+in	202	204	O
+Table	205	210	O
+1	211	212	O
+in	213	215	O
+the	216	219	O
+supplementary	220	233	O
+materials	234	243	O
+.	243	244	O
+
+Significance	245	257	O
+was	258	261	O
+assessed	262	270	O
+using	271	276	O
+a	277	278	O
+1-tailed	279	287	B-Process
+Wilcoxon	288	296	I-Process
+signed	297	303	I-Process
+rank	304	308	I-Process
+test	309	313	I-Process
+since	314	319	O
+the	320	323	O
+error	324	329	O
+distributions	330	343	O
+were	344	348	O
+generally	349	358	O
+not	359	362	O
+symmetric	363	372	O
+.	372	373	O
+
+The	374	377	O
+estimation	378	388	O
+errors	389	395	O
+for	396	399	O
+AAMM	400	404	B-Task
+and	405	408	O
+its	409	412	O
+non	413	416	O
+-	416	417	O
+adaptive	417	425	O
+counterpart	426	437	O
+,	437	438	O
+AAMM	439	443	B-Task
+(	444	445	I-Task
+no	445	447	I-Task
+adapt	448	453	I-Task
+.	453	454	I-Task
+)	454	455	I-Task
+,	455	456	O
+were	457	461	O
+similar	462	469	O
+in	470	472	O
+the	473	476	O
+beginning	477	486	O
+of	487	489	O
+the	490	493	O
+application	494	505	O
+phase	506	511	O
+,	511	512	O
+but	513	516	O
+as	517	519	O
+anticipated	520	531	O
+,	531	532	O
+as	533	535	O
+the	536	539	O
+application	540	551	O
+phase	552	557	O
+went	558	562	O
+on	563	565	O
+,	565	566	O
+the	567	570	O
+AAMM	571	575	B-Task
+technique	576	585	I-Task
+continually	586	597	O
+improved	598	606	O
+its	607	610	O
+accuracy	611	619	O
+by	620	622	O
+incorporating	623	636	O
+more	637	641	O
+and	642	645	O
+more	646	650	O
+data	651	655	O
+into	656	660	O
+the	661	664	O
+model	665	670	O
+.	670	671	O
+
+On	672	674	O
+average	675	682	O
+the	683	686	O
+motion	687	693	B-Material
+estimation	694	704	I-Material
+of	705	707	O
+AAMM	708	712	B-Task
+improved	713	721	O
+by	722	724	O
+22.94	725	730	O
+%	730	731	O
+in	732	734	O
+T5	735	737	O
+with	738	742	O
+respect	743	750	O
+to	751	753	O
+its	754	757	O
+non	758	761	O
+-	761	762	O
+adaptive	762	770	O
+counterpart	771	782	O
+.	782	783	O
+
+However	784	791	O
+,	791	792	O
+the	793	796	O
+method	797	803	O
+has	804	807	O
+already	808	815	O
+significantly	816	829	O
+adapted	830	837	O
+to	838	840	O
+the	841	844	O
+breathing	845	854	O
+pattern	855	862	O
+in	863	865	O
+T2	866	868	O
+,	868	869	O
+i.e.	870	874	O
+after	875	880	O
+between	881	888	O
+3	889	890	O
+and	891	894	O
+7	895	896	O
+min	897	900	O
+of	901	903	O
+imaging	904	911	B-Process
+,	911	912	O
+where	913	918	O
+motion	919	925	B-Material
+estimations	926	937	I-Material
+where	938	943	O
+on	944	946	O
+average	947	954	O
+16.87	955	960	O
+%	960	961	O
+more	962	966	O
+accurate	967	975	O
+than	976	980	O
+at	981	983	O
+the	984	987	O
+beginning	988	997	O
+of	998	1000	O
+the	1001	1004	O
+adaptation	1005	1015	O
+phase	1016	1021	O
+.	1021	1022	O
+
+By	1023	1025	O
+visually	1026	1034	O
+inspecting	1035	1045	O
+the	1046	1049	O
+curves	1050	1056	O
+for	1057	1060	O
+AAMM	1061	1065	B-Task
+in	1066	1068	O
+Fig	1069	1072	O
+.	1072	1073	O
+
+8	1074	1075	O
+it	1076	1078	O
+can	1079	1082	O
+be	1083	1085	O
+seen	1086	1090	O
+that	1091	1095	O
+for	1096	1099	O
+many	1100	1104	O
+volunteers	1105	1115	O
+(	1116	1117	O
+in	1117	1119	O
+particular	1120	1130	O
+volunteers	1131	1141	O
+A	1142	1143	O
+,	1143	1144	O
+D	1145	1146	O
+,	1146	1147	O
+E	1148	1149	O
+,	1149	1150	O
+and	1151	1154	O
+F	1155	1156	O
+)	1156	1157	O
+the	1158	1161	O
+error	1162	1167	B-Material
+curves	1168	1174	I-Material
+start	1175	1180	O
+to	1181	1183	O
+flatten	1184	1191	O
+approximately	1192	1205	O
+around	1206	1212	O
+the	1213	1216	O
+7	1217	1218	O
+min	1219	1222	O
+mark	1223	1227	O
+.	1227	1228	O
+
+From	1229	1233	O
+this	1234	1238	O
+it	1239	1241	O
+can	1242	1245	O
+be	1246	1248	O
+concluded	1249	1258	O
+that	1259	1263	O
+a	1264	1265	O
+longer	1266	1272	O
+calibration	1273	1284	B-Process
+scan	1285	1289	I-Process
+of	1290	1292	O
+around	1293	1299	O
+12	1300	1302	O
+min	1303	1306	O
+would	1307	1312	O
+be	1313	1315	O
+optimal	1316	1323	O
+,	1323	1324	O
+that	1325	1329	O
+is	1330	1332	O
+the	1333	1336	O
+5	1337	1338	O
+min	1339	1342	O
+that	1343	1347	O
+were	1348	1352	O
+used	1353	1357	O
+for	1358	1361	O
+calibration	1362	1373	B-Process
+in	1374	1376	O
+this	1377	1381	O
+experiment	1382	1392	O
+plus	1393	1397	O
+7	1398	1399	O
+min	1400	1403	O
+worth	1404	1409	O
+of	1410	1412	O
+data	1413	1417	O
+added	1418	1423	O
+during	1424	1430	O
+the	1431	1434	O
+application	1435	1446	O
+phase	1447	1452	O
+.	1452	1453	O
+
+Note	1454	1458	O
+that	1459	1463	O
+this	1464	1468	O
+time	1469	1473	O
+could	1474	1479	O
+be	1480	1482	O
+significantly	1483	1496	O
+reduced	1497	1504	O
+if	1505	1507	O
+a	1508	1509	O
+non	1510	1513	B-Process
+-	1513	1514	I-Process
+cardiac	1514	1521	I-Process
+-	1521	1522	I-Process
+gated	1522	1527	I-Process
+sequence	1528	1536	I-Process
+was	1537	1540	O
+used	1541	1545	O
+.	1545	1546	O
 
 
 -DOCSTART- (S1364815216303541)
 
-As	NN	O	O
-a	NN	O	O
-particular	NN	O	O
-case	NN	O	O
-of	NN	O	O
-survey	NN	O	O
-data	NN	O	O
-,	NN	O	O
-we	NN	O	O
-used	NN	O	O
-the	NN	O	O
-iUTAH	NN	O	B-Process
-“	NN	O	I-Process
-Utah	NN	O	I-Process
-Water	NN	O	I-Process
-Survey	NN	O	I-Process
-,	NN	O	I-Process
-”	NN	O	I-Process
-which	NN	O	O
-was	NN	O	O
-implemented	NN	O	O
-by	NN	O	O
-participating	NN	O	O
-researchers	NN	O	O
-from	NN	O	O
-several	NN	O	O
-Utah	NN	O	O
-institutions	NN	O	O
-of	NN	O	O
-higher	NN	O	O
-education	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-objectives	NN	O	O
-of	NN	O	O
-the	NN	O	O
-survey	NN	O	O
-were	NN	O	O
-to	NN	O	O
-document	NN	O	O
-how	NN	O	O
-a	NN	O	O
-representative	NN	O	O
-cross	NN	O	O
--	NN	O	O
-section	NN	O	O
-of	NN	O	O
-Utah	NN	O	B-Task
-'s	NN	O	I-Task
-adult	NN	O	I-Task
-population	NN	O	I-Task
-thinks	NN	O	I-Task
-about	NN	O	I-Task
-water	NN	O	I-Task
-issues	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-survey	NN	O	B-Process
-included	NN	O	O
-three	NN	O	O
-core	NN	O	O
-blocks	NN	O	O
-of	NN	O	O
-questions	NN	O	O
-:	NN	O	O
-perceptions	NN	O	B-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-adequacy	NN	O	I-Material
-of	NN	O	I-Material
-local	NN	O	I-Material
-water	NN	O	I-Material
-supplies	NN	O	I-Material
-,	NN	O	O
-perceptions	NN	O	B-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-quality	NN	O	I-Material
-of	NN	O	I-Material
-local	NN	O	I-Material
-water	NN	O	I-Material
-resources	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-concern	NN	O	B-Material
-about	NN	O	I-Material
-a	NN	O	I-Material
-range	NN	O	I-Material
-of	NN	O	I-Material
-water	NN	O	I-Material
-and	NN	O	I-Material
-non	NN	O	I-Material
--	NN	O	I-Material
-water	NN	O	I-Material
-issues	NN	O	I-Material
-.	NN	O	O
-
-A	NN	O	O
-number	NN	O	O
-of	NN	O	O
-additional	NN	O	O
-questions	NN	O	O
-captured	NN	O	O
-information	NN	O	O
-about	NN	O	O
-respondents	NN	O	O
-'	NN	O	O
-familiarity	NN	O	B-Material
-with	NN	O	I-Material
-water	NN	O	I-Material
-cost	NN	O	I-Material
-,	NN	O	O
-lawn	NN	O	B-Material
--	NN	O	I-Material
-watering	NN	O	I-Material
-behaviors	NN	O	I-Material
-,	NN	O	O
-participation	NN	O	B-Material
-in	NN	O	I-Material
-water	NN	O	I-Material
-based	NN	O	I-Material
-recreation	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-demographic	NN	O	B-Material
-attributes	NN	O	I-Material
-.	NN	O	O
-
-Supplementary	NN	O	B-Process
-material	NN	O	I-Process
-to	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-includes	NN	O	O
-a	NN	O	O
-document	NN	O	O
-with	NN	O	O
-a	NN	O	O
-description	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-dataset	NN	O	I-Process
-as	NN	O	O
-a	NN	O	O
-whole	NN	O	O
-,	NN	O	O
-a	NN	O	O
-document	NN	O	O
-containing	NN	O	O
-the	NN	O	O
-complete	NN	O	B-Process
-survey	NN	O	I-Process
-instrument	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-two	NN	O	O
-data	NN	O	O
-files	NN	O	O
-containing	NN	O	O
-the	NN	O	O
-results	NN	O	O
-and	NN	O	O
-an	NN	O	O
-associated	NN	O	B-Process
-codebook	NN	O	I-Process
-(	NN	O	O
-see	NN	O	O
-Section	NN	O	O
-4.3	NN	O	O
-)	NN	O	O
-.	NN	O	O
+As	0	2	O
+a	3	4	O
+particular	5	15	O
+case	16	20	O
+of	21	23	O
+survey	24	30	O
+data	31	35	O
+,	35	36	O
+we	37	39	O
+used	40	44	O
+the	45	48	O
+iUTAH	49	54	B-Process
+“	55	56	I-Process
+Utah	56	60	I-Process
+Water	61	66	I-Process
+Survey	67	73	I-Process
+,	73	74	I-Process
+”	74	75	I-Process
+which	76	81	O
+was	82	85	O
+implemented	86	97	O
+by	98	100	O
+participating	101	114	O
+researchers	115	126	O
+from	127	131	O
+several	132	139	O
+Utah	140	144	O
+institutions	145	157	O
+of	158	160	O
+higher	161	167	O
+education	168	177	O
+.	177	178	O
+
+The	179	182	O
+objectives	183	193	O
+of	194	196	O
+the	197	200	O
+survey	201	207	O
+were	208	212	O
+to	213	215	O
+document	216	224	O
+how	225	228	O
+a	229	230	O
+representative	231	245	O
+cross	246	251	O
+-	251	252	O
+section	252	259	O
+of	260	262	O
+Utah	263	267	B-Task
+'s	267	269	I-Task
+adult	270	275	I-Task
+population	276	286	I-Task
+thinks	287	293	I-Task
+about	294	299	I-Task
+water	300	305	I-Task
+issues	306	312	I-Task
+.	312	313	O
+
+The	314	317	O
+survey	318	324	B-Process
+included	325	333	O
+three	334	339	O
+core	340	344	O
+blocks	345	351	O
+of	352	354	O
+questions	355	364	O
+:	364	365	O
+perceptions	366	377	B-Material
+of	378	380	I-Material
+the	381	384	I-Material
+adequacy	385	393	I-Material
+of	394	396	I-Material
+local	397	402	I-Material
+water	403	408	I-Material
+supplies	409	417	I-Material
+,	417	418	O
+perceptions	419	430	B-Material
+of	431	433	I-Material
+the	434	437	I-Material
+quality	438	445	I-Material
+of	446	448	I-Material
+local	449	454	I-Material
+water	455	460	I-Material
+resources	461	470	I-Material
+,	470	471	O
+and	472	475	O
+concern	476	483	B-Material
+about	484	489	I-Material
+a	490	491	I-Material
+range	492	497	I-Material
+of	498	500	I-Material
+water	501	506	I-Material
+and	507	510	I-Material
+non	511	514	I-Material
+-	514	515	I-Material
+water	515	520	I-Material
+issues	521	527	I-Material
+.	527	528	O
+
+A	529	530	O
+number	531	537	O
+of	538	540	O
+additional	541	551	O
+questions	552	561	O
+captured	562	570	O
+information	571	582	O
+about	583	588	O
+respondents	589	600	O
+'	600	601	O
+familiarity	602	613	B-Material
+with	614	618	I-Material
+water	619	624	I-Material
+cost	625	629	I-Material
+,	629	630	O
+lawn	631	635	B-Material
+-	635	636	I-Material
+watering	636	644	I-Material
+behaviors	645	654	I-Material
+,	654	655	O
+participation	656	669	B-Material
+in	670	672	I-Material
+water	673	678	I-Material
+based	679	684	I-Material
+recreation	685	695	I-Material
+,	695	696	O
+and	697	700	O
+demographic	701	712	B-Material
+attributes	713	723	I-Material
+.	723	724	O
+
+Supplementary	725	738	B-Process
+material	739	747	I-Process
+to	748	750	O
+this	751	755	O
+paper	756	761	O
+includes	762	770	O
+a	771	772	O
+document	773	781	O
+with	782	786	O
+a	787	788	O
+description	789	800	B-Process
+of	801	803	I-Process
+the	804	807	I-Process
+dataset	808	815	I-Process
+as	816	818	O
+a	819	820	O
+whole	821	826	O
+,	826	827	O
+a	828	829	O
+document	830	838	O
+containing	839	849	O
+the	850	853	O
+complete	854	862	B-Process
+survey	863	869	I-Process
+instrument	870	880	I-Process
+,	880	881	O
+and	882	885	O
+two	886	889	O
+data	890	894	O
+files	895	900	O
+containing	901	911	O
+the	912	915	O
+results	916	923	O
+and	924	927	O
+an	928	930	O
+associated	931	941	B-Process
+codebook	942	950	I-Process
+(	951	952	O
+see	952	955	O
+Section	956	963	O
+4.3	964	967	O
+)	967	968	O
+.	968	969	O
 
 
 -DOCSTART- (S1524070312000380)
 
-Isogeometric	NN	O	B-Process
-analysis	NN	O	I-Process
-(	NN	O	O
-IGA	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-a	NN	O	O
-numerical	NN	O	B-Process
-simulation	NN	O	I-Process
-method	NN	O	I-Process
-which	NN	O	O
-is	NN	O	O
-directly	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-NURBS	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-representation	NN	O	I-Process
-of	NN	O	I-Process
-CAD	NN	O	I-Process
-models	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-exploits	NN	O	O
-the	NN	O	O
-tensor	NN	O	O
--	NN	O	O
-product	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-2-	NN	O	O
-or	NN	O	O
-3-dimensional	NN	O	O
-NURBS	NN	O	B-Material
-objects	NN	O	I-Material
-to	NN	O	O
-parameterize	NN	O	O
-the	NN	O	O
-physical	NN	O	O
-domain	NN	O	O
-.	NN	O	O
-
-Hence	NN	O	O
-the	NN	O	O
-physical	NN	O	B-Process
-domain	NN	O	I-Process
-is	NN	O	I-Process
-parameterized	NN	O	I-Process
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-a	NN	O	O
-rectangle	NN	O	O
-or	NN	O	O
-to	NN	O	O
-a	NN	O	O
-cube	NN	O	O
-.	NN	O	O
-
-Consequently	NN	O	O
-,	NN	O	O
-singularly	NN	O	O
-parameterized	NN	O	O
-NURBS	NN	O	B-Material
-surfaces	NN	O	I-Material
-and	NN	O	O
-NURBS	NN	O	B-Material
-volumes	NN	O	I-Material
-are	NN	O	O
-needed	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-represent	NN	O	O
-non	NN	O	O
--	NN	O	O
-quadrangular	NN	O	O
-or	NN	O	O
-non	NN	O	O
--	NN	O	O
-hexahedral	NN	O	O
-domains	NN	O	O
-without	NN	O	O
-splitting	NN	O	B-Process
-,	NN	O	O
-thereby	NN	O	O
-producing	NN	O	O
-a	NN	O	O
-very	NN	O	O
-compact	NN	O	O
-and	NN	O	O
-convenient	NN	O	O
-representation	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Galerkin	NN	O	B-Process
-projection	NN	O	I-Process
-introduces	NN	O	O
-finite	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-spaces	NN	O	O
-of	NN	O	O
-test	NN	O	O
-functions	NN	O	O
-in	NN	O	O
-the	NN	O	O
-weak	NN	O	O
-formulation	NN	O	B-Process
-of	NN	O	I-Process
-partial	NN	O	I-Process
-differential	NN	O	I-Process
-equations	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-particular	NN	O	O
-,	NN	O	O
-the	NN	O	O
-test	NN	O	O
-functions	NN	O	O
-used	NN	O	O
-in	NN	O	O
-isogeometric	NN	O	B-Process
-analysis	NN	O	I-Process
-are	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-composing	NN	O	O
-the	NN	O	O
-inverse	NN	O	O
-of	NN	O	O
-the	NN	O	O
-domain	NN	O	O
-parameterization	NN	O	O
-with	NN	O	O
-the	NN	O	O
-NURBS	NN	O	B-Process
-basis	NN	O	I-Process
-functions	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-singular	NN	O	O
-parameterizations	NN	O	O
-,	NN	O	O
-however	NN	O	O
-,	NN	O	O
-some	NN	O	O
-of	NN	O	O
-the	NN	O	O
-resulting	NN	O	O
-test	NN	O	O
-functions	NN	O	O
-do	NN	O	O
-not	NN	O	O
-necessarily	NN	O	O
-fulfill	NN	O	O
-the	NN	O	O
-required	NN	O	O
-regularity	NN	O	O
-properties	NN	O	O
-.	NN	O	O
-
-Consequently	NN	O	O
-,	NN	O	O
-numerical	NN	O	B-Process
-methods	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-solution	NN	O	O
-of	NN	O	O
-partial	NN	O	O
-differential	NN	O	O
-equations	NN	O	O
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-applied	NN	O	O
-properly	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-discuss	NN	O	B-Task
-the	NN	O	I-Task
-regularity	NN	O	I-Task
-properties	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-test	NN	O	I-Task
-functions	NN	O	I-Task
-.	NN	O	O
-
-For	NN	O	O
-one-	NN	O	O
-and	NN	O	O
-two	NN	O	O
--	NN	O	O
-dimensional	NN	O	O
-domains	NN	O	O
-we	NN	O	O
-consider	NN	O	B-Task
-several	NN	O	I-Task
-important	NN	O	I-Task
-classes	NN	O	I-Task
-of	NN	O	I-Task
-singularities	NN	O	I-Task
-of	NN	O	I-Task
-NURBS	NN	O	I-Task
-parameterizations	NN	O	I-Task
-.	NN	O	O
-
-For	NN	O	O
-specific	NN	O	O
-cases	NN	O	O
-we	NN	O	O
-derive	NN	O	B-Task
-additional	NN	O	I-Task
-conditions	NN	O	I-Task
-which	NN	O	I-Task
-guarantee	NN	O	I-Task
-the	NN	O	I-Task
-regularity	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-test	NN	O	I-Task
-functions	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-we	NN	O	O
-present	NN	O	B-Task
-a	NN	O	I-Task
-modification	NN	O	I-Task
-scheme	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-discretized	NN	O	B-Process
-function	NN	O	I-Process
-space	NN	O	I-Process
-in	NN	O	O
-case	NN	O	O
-of	NN	O	O
-insufficient	NN	O	O
-regularity	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-also	NN	O	O
-shown	NN	O	O
-how	NN	O	O
-these	NN	O	O
-results	NN	O	O
-can	NN	O	O
-be	NN	O	O
-applied	NN	O	O
-for	NN	O	O
-computational	NN	O	O
-domains	NN	O	O
-in	NN	O	O
-higher	NN	O	O
-dimensions	NN	O	O
-that	NN	O	O
-can	NN	O	O
-be	NN	O	O
-parameterized	NN	O	B-Process
-via	NN	O	O
-sweeping	NN	O	B-Process
-.	NN	O	O
+Isogeometric	0	12	B-Process
+analysis	13	21	I-Process
+(	22	23	O
+IGA	23	26	B-Process
+)	26	27	O
+is	28	30	O
+a	31	32	O
+numerical	33	42	B-Process
+simulation	43	53	I-Process
+method	54	60	I-Process
+which	61	66	O
+is	67	69	O
+directly	70	78	O
+based	79	84	O
+on	85	87	O
+the	88	91	O
+NURBS	92	97	B-Process
+-	97	98	I-Process
+based	98	103	I-Process
+representation	104	118	I-Process
+of	119	121	I-Process
+CAD	122	125	I-Process
+models	126	132	I-Process
+.	132	133	O
+
+It	134	136	O
+exploits	137	145	O
+the	146	149	O
+tensor	150	156	O
+-	156	157	O
+product	157	164	O
+structure	165	174	O
+of	175	177	O
+2-	178	180	O
+or	181	183	O
+3-dimensional	184	197	O
+NURBS	198	203	B-Material
+objects	204	211	I-Material
+to	212	214	O
+parameterize	215	227	O
+the	228	231	O
+physical	232	240	O
+domain	241	247	O
+.	247	248	O
+
+Hence	249	254	O
+the	255	258	O
+physical	259	267	B-Process
+domain	268	274	I-Process
+is	275	277	I-Process
+parameterized	278	291	I-Process
+with	292	296	O
+respect	297	304	O
+to	305	307	O
+a	308	309	O
+rectangle	310	319	O
+or	320	322	O
+to	323	325	O
+a	326	327	O
+cube	328	332	O
+.	332	333	O
+
+Consequently	334	346	O
+,	346	347	O
+singularly	348	358	O
+parameterized	359	372	O
+NURBS	373	378	B-Material
+surfaces	379	387	I-Material
+and	388	391	O
+NURBS	392	397	B-Material
+volumes	398	405	I-Material
+are	406	409	O
+needed	410	416	O
+in	417	419	O
+order	420	425	O
+to	426	428	O
+represent	429	438	O
+non	439	442	O
+-	442	443	O
+quadrangular	443	455	O
+or	456	458	O
+non	459	462	O
+-	462	463	O
+hexahedral	463	473	O
+domains	474	481	O
+without	482	489	O
+splitting	490	499	B-Process
+,	499	500	O
+thereby	501	508	O
+producing	509	518	O
+a	519	520	O
+very	521	525	O
+compact	526	533	O
+and	534	537	O
+convenient	538	548	O
+representation	549	563	O
+.	563	564	O
+
+The	564	567	O
+Galerkin	568	576	B-Process
+projection	577	587	I-Process
+introduces	588	598	O
+finite	599	605	O
+-	605	606	O
+dimensional	606	617	O
+spaces	618	624	O
+of	625	627	O
+test	628	632	O
+functions	633	642	O
+in	643	645	O
+the	646	649	O
+weak	650	654	O
+formulation	655	666	B-Process
+of	667	669	I-Process
+partial	670	677	I-Process
+differential	678	690	I-Process
+equations	691	700	I-Process
+.	700	701	O
+
+In	702	704	O
+particular	705	715	O
+,	715	716	O
+the	717	720	O
+test	721	725	O
+functions	726	735	O
+used	736	740	O
+in	741	743	O
+isogeometric	744	756	B-Process
+analysis	757	765	I-Process
+are	766	769	O
+obtained	770	778	O
+by	779	781	O
+composing	782	791	O
+the	792	795	O
+inverse	796	803	O
+of	804	806	O
+the	807	810	O
+domain	811	817	O
+parameterization	818	834	O
+with	835	839	O
+the	840	843	O
+NURBS	844	849	B-Process
+basis	850	855	I-Process
+functions	856	865	I-Process
+.	865	866	O
+
+In	867	869	O
+the	870	873	O
+case	874	878	O
+of	879	881	O
+singular	882	890	O
+parameterizations	891	908	O
+,	908	909	O
+however	910	917	O
+,	917	918	O
+some	919	923	O
+of	924	926	O
+the	927	930	O
+resulting	931	940	O
+test	941	945	O
+functions	946	955	O
+do	956	958	O
+not	959	962	O
+necessarily	963	974	O
+fulfill	975	982	O
+the	983	986	O
+required	987	995	O
+regularity	996	1006	O
+properties	1007	1017	O
+.	1017	1018	O
+
+Consequently	1019	1031	O
+,	1031	1032	O
+numerical	1033	1042	B-Process
+methods	1043	1050	I-Process
+for	1051	1054	O
+the	1055	1058	O
+solution	1059	1067	O
+of	1068	1070	O
+partial	1071	1078	O
+differential	1079	1091	O
+equations	1092	1101	O
+can	1102	1105	O
+not	1105	1108	O
+be	1109	1111	O
+applied	1112	1119	O
+properly	1120	1128	O
+.	1128	1129	O
+
+We	1129	1131	O
+discuss	1132	1139	B-Task
+the	1140	1143	I-Task
+regularity	1144	1154	I-Task
+properties	1155	1165	I-Task
+of	1166	1168	I-Task
+the	1169	1172	I-Task
+test	1173	1177	I-Task
+functions	1178	1187	I-Task
+.	1187	1188	O
+
+For	1189	1192	O
+one-	1193	1197	O
+and	1198	1201	O
+two	1202	1205	O
+-	1205	1206	O
+dimensional	1206	1217	O
+domains	1218	1225	O
+we	1226	1228	O
+consider	1229	1237	B-Task
+several	1238	1245	I-Task
+important	1246	1255	I-Task
+classes	1256	1263	I-Task
+of	1264	1266	I-Task
+singularities	1267	1280	I-Task
+of	1281	1283	I-Task
+NURBS	1284	1289	I-Task
+parameterizations	1290	1307	I-Task
+.	1307	1308	O
+
+For	1309	1312	O
+specific	1313	1321	O
+cases	1322	1327	O
+we	1328	1330	O
+derive	1331	1337	B-Task
+additional	1338	1348	I-Task
+conditions	1349	1359	I-Task
+which	1360	1365	I-Task
+guarantee	1366	1375	I-Task
+the	1376	1379	I-Task
+regularity	1380	1390	I-Task
+of	1391	1393	I-Task
+the	1394	1397	I-Task
+test	1398	1402	I-Task
+functions	1403	1412	I-Task
+.	1412	1413	O
+
+In	1414	1416	O
+addition	1417	1425	O
+we	1426	1428	O
+present	1429	1436	B-Task
+a	1437	1438	I-Task
+modification	1439	1451	I-Task
+scheme	1452	1458	I-Task
+for	1459	1462	O
+the	1463	1466	O
+discretized	1467	1478	B-Process
+function	1479	1487	I-Process
+space	1488	1493	I-Process
+in	1494	1496	O
+case	1497	1501	O
+of	1502	1504	O
+insufficient	1505	1517	O
+regularity	1518	1528	O
+.	1528	1529	O
+
+It	1530	1532	O
+is	1533	1535	O
+also	1536	1540	O
+shown	1541	1546	O
+how	1547	1550	O
+these	1551	1556	O
+results	1557	1564	O
+can	1565	1568	O
+be	1569	1571	O
+applied	1572	1579	O
+for	1580	1583	O
+computational	1584	1597	O
+domains	1598	1605	O
+in	1606	1608	O
+higher	1609	1615	O
+dimensions	1616	1626	O
+that	1627	1631	O
+can	1632	1635	O
+be	1636	1638	O
+parameterized	1639	1652	B-Process
+via	1653	1656	O
+sweeping	1657	1665	B-Process
+.	1665	1666	O
 
 
 -DOCSTART- (S1566253516300069)
 
-The	NN	O	O
-above	NN	O	O
-discussion	NN	O	O
-also	NN	O	O
-lays	NN	O	O
-bare	NN	O	O
-the	NN	O	O
-difference	NN	O	O
-of	NN	O	O
-perspectives	NN	O	O
-between	NN	O	O
-the	NN	O	O
-fusion	NN	O	O
-of	NN	O	O
-hard	NN	O	B-Process
-constraints	NN	O	I-Process
-and	NN	O	O
-knowledge	NN	O	B-Process
--	NN	O	I-Process
-base	NN	O	I-Process
-merging	NN	O	I-Process
-:	NN	O	O
-the	NN	O	O
-idea	NN	O	O
-of	NN	O	O
-Konieczny	NN	O	O
-and	NN	O	O
-Pino	NN	O	O
--	NN	O	O
-Perez	NN	O	O
-is	NN	O	O
-to	NN	O	O
-explain	NN	O	O
-the	NN	O	O
-fusion	NN	O	B-Process
-of	NN	O	I-Process
-plain	NN	O	I-Process
-epistemic	NN	O	I-Process
-states	NN	O	I-Process
-,	NN	O	O
-understood	NN	O	O
-as	NN	O	O
-a	NN	O	O
-set	NN	O	O
-of	NN	O	O
-plausible	NN	O	O
-worlds	NN	O	O
-,	NN	O	O
-by	NN	O	O
-the	NN	O	O
-existence	NN	O	O
-of	NN	O	O
-underlying	NN	O	O
-partial	NN	O	B-Process
-orderings	NN	O	I-Process
-or	NN	O	O
-numerical	NN	O	B-Process
-plausibility	NN	O	I-Process
-degrees	NN	O	I-Process
-(	NN	O	O
-obtained	NN	O	O
-by	NN	O	O
-distances	NN	O	O
-)	NN	O	O
-,	NN	O	O
-based	NN	O	O
-on	NN	O	O
-axioms	NN	O	O
-that	NN	O	O
-only	NN	O	O
-use	NN	O	O
-plausible	NN	O	O
-sets	NN	O	O
-attached	NN	O	O
-to	NN	O	O
-these	NN	O	O
-orderings	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-[	NN	O	O
-67	NN	O	O
-]	NN	O	O
-the	NN	O	O
-same	NN	O	O
-authors	NN	O	O
-use	NN	O	O
-both	NN	O	O
-hard	NN	O	B-Process
-(	NN	O	I-Process
-integrity	NN	O	I-Process
-)	NN	O	I-Process
-constraints	NN	O	I-Process
-and	NN	O	O
-belief	NN	O	B-Process
-sets	NN	O	I-Process
-referring	NN	O	O
-to	NN	O	O
-plausible	NN	O	O
-worlds	NN	O	O
-,	NN	O	O
-and	NN	O	O
-try	NN	O	O
-to	NN	O	O
-extend	NN	O	O
-both	NN	O	O
-the	NN	O	O
-AGM	NN	O	B-Process
-revision	NN	O	I-Process
-and	NN	O	O
-knowledge	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-merging	NN	O	I-Process
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-they	NN	O	O
-do	NN	O	O
-not	NN	O	O
-envisage	NN	O	O
-the	NN	O	O
-merging	NN	O	B-Process
-of	NN	O	I-Process
-integrity	NN	O	I-Process
-constraints	NN	O	I-Process
-discussed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-previous	NN	O	O
-section	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-belief	NN	O	B-Task
-revision	NN	O	I-Task
-and	NN	O	I-Task
-merging	NN	O	I-Task
-literature	NN	O	O
-takes	NN	O	O
-an	NN	O	O
-external	NN	O	O
-point	NN	O	O
-of	NN	O	O
-view	NN	O	O
-on	NN	O	O
-cognitive	NN	O	O
-processes	NN	O	O
-under	NN	O	O
-study	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-underlying	NN	O	O
-ordered	NN	O	B-Material
-structures	NN	O	I-Material
-are	NN	O	O
-here	NN	O	O
-a	NN	O	O
-consequence	NN	O	O
-of	NN	O	O
-the	NN	O	O
-merging	NN	O	O
-postulates	NN	O	O
-,	NN	O	O
-but	NN	O	O
-they	NN	O	O
-do	NN	O	O
-not	NN	O	O
-appear	NN	O	O
-explicitly	NN	O	O
-in	NN	O	O
-the	NN	O	O
-axioms	NN	O	O
-and	NN	O	O
-they	NN	O	O
-are	NN	O	O
-not	NN	O	O
-observable	NN	O	O
-from	NN	O	O
-the	NN	O	O
-outside	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-contrary	NN	O	O
-,	NN	O	O
-our	NN	O	O
-approach	NN	O	O
-is	NN	O	O
-to	NN	O	O
-construct	NN	O	B-Process
-fusion	NN	O	I-Process
-rules	NN	O	I-Process
-that	NN	O	O
-only	NN	O	O
-rely	NN	O	O
-on	NN	O	O
-what	NN	O	O
-is	NN	O	O
-explicitly	NN	O	O
-supplied	NN	O	O
-by	NN	O	O
-sources	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-sequel	NN	O	O
-we	NN	O	O
-consider	NN	O	O
-the	NN	O	O
-counterpart	NN	O	O
-of	NN	O	O
-our	NN	O	O
-fusion	NN	O	O
-postulates	NN	O	O
-for	NN	O	O
-ranked	NN	O	B-Process
-models	NN	O	I-Process
-,	NN	O	O
-that	NN	O	O
-can	NN	O	O
-be	NN	O	O
-expressed	NN	O	O
-by	NN	O	O
-means	NN	O	O
-of	NN	O	O
-total	NN	O	O
-orders	NN	O	O
-of	NN	O	O
-possible	NN	O	O
-worlds	NN	O	O
-or	NN	O	O
-by	NN	O	O
-their	NN	O	O
-encodings	NN	O	O
-on	NN	O	O
-a	NN	O	O
-plausibility	NN	O	O
-scale	NN	O	O
-.	NN	O	O
+The	0	3	O
+above	4	9	O
+discussion	10	20	O
+also	21	25	O
+lays	26	30	O
+bare	31	35	O
+the	36	39	O
+difference	40	50	O
+of	51	53	O
+perspectives	54	66	O
+between	67	74	O
+the	75	78	O
+fusion	79	85	O
+of	86	88	O
+hard	89	93	B-Process
+constraints	94	105	I-Process
+and	106	109	O
+knowledge	110	119	B-Process
+-	119	120	I-Process
+base	120	124	I-Process
+merging	125	132	I-Process
+:	132	133	O
+the	134	137	O
+idea	138	142	O
+of	143	145	O
+Konieczny	146	155	O
+and	156	159	O
+Pino	160	164	O
+-	164	165	O
+Perez	165	170	O
+is	171	173	O
+to	174	176	O
+explain	177	184	O
+the	185	188	O
+fusion	189	195	B-Process
+of	196	198	I-Process
+plain	199	204	I-Process
+epistemic	205	214	I-Process
+states	215	221	I-Process
+,	221	222	O
+understood	223	233	O
+as	234	236	O
+a	237	238	O
+set	239	242	O
+of	243	245	O
+plausible	246	255	O
+worlds	256	262	O
+,	262	263	O
+by	264	266	O
+the	267	270	O
+existence	271	280	O
+of	281	283	O
+underlying	284	294	O
+partial	295	302	B-Process
+orderings	303	312	I-Process
+or	313	315	O
+numerical	316	325	B-Process
+plausibility	326	338	I-Process
+degrees	339	346	I-Process
+(	347	348	O
+obtained	348	356	O
+by	357	359	O
+distances	360	369	O
+)	369	370	O
+,	370	371	O
+based	372	377	O
+on	378	380	O
+axioms	381	387	O
+that	388	392	O
+only	393	397	O
+use	398	401	O
+plausible	402	411	O
+sets	412	416	O
+attached	417	425	O
+to	426	428	O
+these	429	434	O
+orderings	435	444	O
+.	444	445	O
+
+In	446	448	O
+[	449	450	O
+67	450	452	O
+]	452	453	O
+the	454	457	O
+same	458	462	O
+authors	463	470	O
+use	471	474	O
+both	475	479	O
+hard	480	484	B-Process
+(	485	486	I-Process
+integrity	486	495	I-Process
+)	495	496	I-Process
+constraints	497	508	I-Process
+and	509	512	O
+belief	513	519	B-Process
+sets	520	524	I-Process
+referring	525	534	O
+to	535	537	O
+plausible	538	547	O
+worlds	548	554	O
+,	554	555	O
+and	556	559	O
+try	560	563	O
+to	564	566	O
+extend	567	573	O
+both	574	578	O
+the	579	582	O
+AGM	583	586	B-Process
+revision	587	595	I-Process
+and	596	599	O
+knowledge	600	609	B-Process
+-	609	610	I-Process
+based	610	615	I-Process
+merging	616	623	I-Process
+.	623	624	O
+
+However	625	632	O
+,	632	633	O
+they	634	638	O
+do	639	641	O
+not	642	645	O
+envisage	646	654	O
+the	655	658	O
+merging	659	666	B-Process
+of	667	669	I-Process
+integrity	670	679	I-Process
+constraints	680	691	I-Process
+discussed	692	701	O
+in	702	704	O
+the	705	708	O
+previous	709	717	O
+section	718	725	O
+.	725	726	O
+
+The	727	730	O
+belief	731	737	B-Task
+revision	738	746	I-Task
+and	747	750	I-Task
+merging	751	758	I-Task
+literature	759	769	O
+takes	770	775	O
+an	776	778	O
+external	779	787	O
+point	788	793	O
+of	794	796	O
+view	797	801	O
+on	802	804	O
+cognitive	805	814	O
+processes	815	824	O
+under	825	830	O
+study	831	836	O
+.	836	837	O
+
+The	838	841	O
+underlying	842	852	O
+ordered	853	860	B-Material
+structures	861	871	I-Material
+are	872	875	O
+here	876	880	O
+a	881	882	O
+consequence	883	894	O
+of	895	897	O
+the	898	901	O
+merging	902	909	O
+postulates	910	920	O
+,	920	921	O
+but	922	925	O
+they	926	930	O
+do	931	933	O
+not	934	937	O
+appear	938	944	O
+explicitly	945	955	O
+in	956	958	O
+the	959	962	O
+axioms	963	969	O
+and	970	973	O
+they	974	978	O
+are	979	982	O
+not	983	986	O
+observable	987	997	O
+from	998	1002	O
+the	1003	1006	O
+outside	1007	1014	O
+.	1014	1015	O
+
+On	1016	1018	O
+the	1019	1022	O
+contrary	1023	1031	O
+,	1031	1032	O
+our	1033	1036	O
+approach	1037	1045	O
+is	1046	1048	O
+to	1049	1051	O
+construct	1052	1061	B-Process
+fusion	1062	1068	I-Process
+rules	1069	1074	I-Process
+that	1075	1079	O
+only	1080	1084	O
+rely	1085	1089	O
+on	1090	1092	O
+what	1093	1097	O
+is	1098	1100	O
+explicitly	1101	1111	O
+supplied	1112	1120	O
+by	1121	1123	O
+sources	1124	1131	O
+.	1131	1132	O
+
+In	1133	1135	O
+the	1136	1139	O
+sequel	1140	1146	O
+we	1147	1149	O
+consider	1150	1158	O
+the	1159	1162	O
+counterpart	1163	1174	O
+of	1175	1177	O
+our	1178	1181	O
+fusion	1182	1188	O
+postulates	1189	1199	O
+for	1200	1203	O
+ranked	1204	1210	B-Process
+models	1211	1217	I-Process
+,	1217	1218	O
+that	1219	1223	O
+can	1224	1227	O
+be	1228	1230	O
+expressed	1231	1240	O
+by	1241	1243	O
+means	1244	1249	O
+of	1250	1252	O
+total	1253	1258	O
+orders	1259	1265	O
+of	1266	1268	O
+possible	1269	1277	O
+worlds	1278	1284	O
+or	1285	1287	O
+by	1288	1290	O
+their	1291	1296	O
+encodings	1297	1306	O
+on	1307	1309	O
+a	1310	1311	O
+plausibility	1312	1324	O
+scale	1325	1330	O
+.	1330	1331	O
 
 
 -DOCSTART- (S1566253516300252)
 
-Methods	NN	O	O
-for	NN	O	O
-anomaly	NN	O	B-Task
-detection	NN	O	I-Task
-in	NN	O	O
-a	NN	O	O
-local	NN	O	O
-context	NN	O	O
-are	NN	O	O
-the	NN	O	O
-conceptual	NN	O	O
-opposite	NN	O	O
-to	NN	O	O
-the	NN	O	O
-afore	NN	O	B-Material
--	NN	O	I-Material
-described	NN	O	I-Material
-centralized	NN	O	I-Material
-methods	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-rely	NN	O	O
-on	NN	O	O
-globally	NN	O	B-Material
-shared	NN	O	I-Material
-models	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-data	NN	O	B-Task
-mining	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-notion	NN	O	B-Task
-of	NN	O	I-Task
-locality	NN	O	I-Task
-is	NN	O	O
-often	NN	O	O
-given	NN	O	O
-as	NN	O	O
-distance	NN	O	B-Material
-between	NN	O	I-Material
-data	NN	O	I-Material
-values	NN	O	I-Material
-(	NN	O	O
-given	NN	O	O
-a	NN	O	B-Material
-specific	NN	O	I-Material
-distance	NN	O	I-Material
-metric	NN	O	I-Material
-such	NN	O	I-Material
-as	NN	O	I-Material
-Euclidean	NN	O	I-Material
-distance	NN	O	I-Material
-)	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-data	NN	O	O
-point	NN	O	O
-is	NN	O	O
-compared	NN	O	B-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-value	NN	O	I-Process
-of	NN	O	I-Process
-its	NN	O	I-Process
-nearest	NN	O	I-Process
-neighbors	NN	O	I-Process
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-data	NN	O	O
-distance	NN	O	O
-[	NN	O	O
-42	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	B-Task
-notion	NN	O	I-Task
-of	NN	O	I-Task
-locality	NN	O	I-Task
-can	NN	O	O
-also	NN	O	O
-be	NN	O	O
-given	NN	O	O
-in	NN	O	O
-a	NN	O	B-Material
-geographical	NN	O	I-Material
-distance	NN	O	I-Material
-between	NN	O	O
-the	NN	O	O
-sources	NN	O	O
-of	NN	O	O
-the	NN	O	O
-data	NN	O	O
-.	NN	O	O
-
-Many	NN	O	B-Material
-similar	NN	O	I-Material
-values	NN	O	I-Material
-(	NN	O	O
-i.e.	NN	O	O
-,	NN	O	O
-data	NN	O	O
-with	NN	O	O
-small	NN	O	O
-distance	NN	O	O
-among	NN	O	O
-each	NN	O	O
-other	NN	O	O
-)	NN	O	O
-result	NN	O	O
-in	NN	O	O
-a	NN	O	O
-higher	NN	O	O
-density	NN	O	O
-,	NN	O	O
-called	NN	O	O
-clusters	NN	O	B-Material
-,	NN	O	O
-while	NN	O	O
-values	NN	O	B-Process
-that	NN	O	I-Process
-are	NN	O	I-Process
-less	NN	O	I-Process
-similar	NN	O	I-Process
-result	NN	O	I-Process
-in	NN	O	I-Process
-a	NN	O	I-Process
-lower	NN	O	I-Process
-density	NN	O	I-Process
-.	NN	O	O
-
-Anomalies	NN	O	B-Task
-can	NN	O	O
-fall	NN	O	O
-outside	NN	O	O
-of	NN	O	O
-any	NN	O	O
-cluster	NN	O	B-Material
-but	NN	O	O
-,	NN	O	O
-when	NN	O	O
-frequently	NN	O	O
-occurring	NN	O	O
-,	NN	O	O
-can	NN	O	B-Process
-form	NN	O	I-Process
-a	NN	O	I-Process
-cluster	NN	O	I-Process
-too	NN	O	O
-.	NN	O	O
-
-Determining	NN	O	B-Task
-if	NN	O	I-Task
-a	NN	O	I-Task
-datum	NN	O	I-Task
-is	NN	O	I-Task
-normal	NN	O	I-Task
-or	NN	O	I-Task
-anomalous	NN	O	I-Task
-compared	NN	O	O
-to	NN	O	O
-local	NN	O	O
-neighborhood	NN	O	O
-data	NN	O	O
-is	NN	O	O
-a	NN	O	O
-challenge	NN	O	O
-.	NN	O	O
+Methods	0	7	O
+for	8	11	O
+anomaly	12	19	B-Task
+detection	20	29	I-Task
+in	30	32	O
+a	33	34	O
+local	35	40	O
+context	41	48	O
+are	49	52	O
+the	53	56	O
+conceptual	57	67	O
+opposite	68	76	O
+to	77	79	O
+the	80	83	O
+afore	84	89	B-Material
+-	89	90	I-Material
+described	90	99	I-Material
+centralized	100	111	I-Material
+methods	112	119	I-Material
+,	119	120	O
+which	121	126	O
+rely	127	131	O
+on	132	134	O
+globally	135	143	B-Material
+shared	144	150	I-Material
+models	151	157	I-Material
+.	157	158	O
+
+In	159	161	O
+data	162	166	B-Task
+mining	167	173	I-Task
+,	173	174	O
+the	175	178	O
+notion	179	185	B-Task
+of	186	188	I-Task
+locality	189	197	I-Task
+is	198	200	O
+often	201	206	O
+given	207	212	O
+as	213	215	O
+distance	216	224	B-Material
+between	225	232	I-Material
+data	233	237	I-Material
+values	238	244	I-Material
+(	245	246	O
+given	246	251	O
+a	252	253	B-Material
+specific	254	262	I-Material
+distance	263	271	I-Material
+metric	272	278	I-Material
+such	279	283	I-Material
+as	284	286	I-Material
+Euclidean	287	296	I-Material
+distance	297	305	I-Material
+)	305	306	O
+.	306	307	O
+
+A	308	309	O
+data	310	314	O
+point	315	320	O
+is	321	323	O
+compared	324	332	B-Process
+to	333	335	I-Process
+the	336	339	I-Process
+value	340	345	I-Process
+of	346	348	I-Process
+its	349	352	I-Process
+nearest	353	360	I-Process
+neighbors	361	370	I-Process
+in	371	373	O
+terms	374	379	O
+of	380	382	O
+data	383	387	O
+distance	388	396	O
+[	397	398	O
+42	398	400	O
+]	400	401	O
+.	401	402	O
+
+However	403	410	O
+,	410	411	O
+the	412	415	B-Task
+notion	416	422	I-Task
+of	423	425	I-Task
+locality	426	434	I-Task
+can	435	438	O
+also	439	443	O
+be	444	446	O
+given	447	452	O
+in	453	455	O
+a	456	457	B-Material
+geographical	458	470	I-Material
+distance	471	479	I-Material
+between	480	487	O
+the	488	491	O
+sources	492	499	O
+of	500	502	O
+the	503	506	O
+data	507	511	O
+.	511	512	O
+
+Many	513	517	B-Material
+similar	518	525	I-Material
+values	526	532	I-Material
+(	533	534	O
+i.e.	534	538	O
+,	538	539	O
+data	540	544	O
+with	545	549	O
+small	550	555	O
+distance	556	564	O
+among	565	570	O
+each	571	575	O
+other	576	581	O
+)	581	582	O
+result	583	589	O
+in	590	592	O
+a	593	594	O
+higher	595	601	O
+density	602	609	O
+,	609	610	O
+called	611	617	O
+clusters	618	626	B-Material
+,	626	627	O
+while	628	633	O
+values	634	640	B-Process
+that	641	645	I-Process
+are	646	649	I-Process
+less	650	654	I-Process
+similar	655	662	I-Process
+result	663	669	I-Process
+in	670	672	I-Process
+a	673	674	I-Process
+lower	675	680	I-Process
+density	681	688	I-Process
+.	688	689	O
+
+Anomalies	690	699	B-Task
+can	700	703	O
+fall	704	708	O
+outside	709	716	O
+of	717	719	O
+any	720	723	O
+cluster	724	731	B-Material
+but	732	735	O
+,	735	736	O
+when	737	741	O
+frequently	742	752	O
+occurring	753	762	O
+,	762	763	O
+can	764	767	B-Process
+form	768	772	I-Process
+a	773	774	I-Process
+cluster	775	782	I-Process
+too	783	786	O
+.	786	787	O
+
+Determining	788	799	B-Task
+if	800	802	I-Task
+a	803	804	I-Task
+datum	805	810	I-Task
+is	811	813	I-Task
+normal	814	820	I-Task
+or	821	823	I-Task
+anomalous	824	833	I-Task
+compared	834	842	O
+to	843	845	O
+local	846	851	O
+neighborhood	852	864	O
+data	865	869	O
+is	870	872	O
+a	873	874	O
+challenge	875	884	O
+.	884	885	O
 
 
 -DOCSTART- (S1570870516301822)
 
-MWSN	NN	O	B-Process
-routing	NN	O	I-Process
-protocols	NN	O	I-Process
-generally	NN	O	O
-take	NN	O	O
-influence	NN	O	O
-from	NN	O	O
-both	NN	O	O
-WSN	NN	O	B-Process
-and	NN	O	O
-mobile	NN	O	B-Process
-ad	NN	O	I-Process
-hoc	NN	O	I-Process
-network	NN	O	I-Process
-(	NN	O	O
-MANET	NN	O	B-Process
-)	NN	O	O
-routing	NN	O	B-Process
-protocols	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-all	NN	O	O
-share	NN	O	O
-common	NN	O	O
-limitations	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-bandwidth	NN	O	O
-,	NN	O	O
-power	NN	O	O
-and	NN	O	O
-cost	NN	O	O
-.	NN	O	O
-
-WSNs	NN	O	B-Process
-often	NN	O	O
-share	NN	O	O
-the	NN	O	O
-same	NN	O	O
-aim	NN	O	O
-as	NN	O	O
-MWSNs	NN	O	B-Process
-,	NN	O	O
-in	NN	O	O
-that	NN	O	O
-they	NN	O	O
-wish	NN	O	O
-to	NN	O	O
-route	NN	O	B-Process
-data	NN	O	I-Process
-from	NN	O	O
-many	NN	O	O
-sensors	NN	O	B-Material
-to	NN	O	O
-a	NN	O	O
-single	NN	O	O
-sink	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-WSNs	NN	O	B-Process
-are	NN	O	O
-normally	NN	O	O
-considered	NN	O	O
-to	NN	O	O
-be	NN	O	O
-static	NN	O	O
-and	NN	O	O
-so	NN	O	O
-the	NN	O	O
-associated	NN	O	O
-routing	NN	O	O
-protocols	NN	O	O
-are	NN	O	O
-often	NN	O	O
-unable	NN	O	O
-to	NN	O	O
-cope	NN	O	O
-in	NN	O	O
-a	NN	O	O
-mobile	NN	O	O
-scenario	NN	O	O
-[	NN	O	O
-10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Alternatively	NN	O	O
-,	NN	O	O
-MANET	NN	O	B-Process
-protocols	NN	O	I-Process
-are	NN	O	O
-designed	NN	O	O
-to	NN	O	O
-be	NN	O	O
-able	NN	O	O
-to	NN	O	O
-cope	NN	O	O
-with	NN	O	O
-the	NN	O	O
-mobility	NN	O	O
-of	NN	O	O
-nodes	NN	O	O
-,	NN	O	O
-however	NN	O	O
-they	NN	O	O
-aim	NN	O	O
-to	NN	O	O
-allow	NN	O	O
-end	NN	O	O
--	NN	O	O
-to	NN	O	O
--	NN	O	O
-end	NN	O	O
-communication	NN	O	O
-to	NN	O	O
-occur	NN	O	O
-between	NN	O	O
-any	NN	O	O
-two	NN	O	O
-nodes	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-extra	NN	O	O
-functionality	NN	O	O
-is	NN	O	O
-often	NN	O	O
-not	NN	O	O
-required	NN	O	O
-by	NN	O	O
-MWSNs	NN	O	B-Process
-and	NN	O	O
-so	NN	O	O
-the	NN	O	O
-additional	NN	O	O
-overhead	NN	O	O
-is	NN	O	O
-unnecessary	NN	O	O
-.	NN	O	O
-
-Combined	NN	O	O
-with	NN	O	O
-the	NN	O	O
-high	NN	O	O
-packet	NN	O	O
-delivery	NN	O	O
-ratios	NN	O	O
-and	NN	O	O
-low	NN	O	O
-delays	NN	O	O
-that	NN	O	O
-are	NN	O	O
-demanded	NN	O	O
-by	NN	O	O
-emerging	NN	O	O
-applications	NN	O	O
-,	NN	O	O
-the	NN	O	O
-ideal	NN	O	O
-routing	NN	O	O
-solution	NN	O	O
-for	NN	O	O
-a	NN	O	O
-MWSN	NN	O	B-Process
-is	NN	O	O
-one	NN	O	O
-that	NN	O	O
-can	NN	O	O
-handle	NN	O	O
-the	NN	O	O
-mobility	NN	O	O
-of	NN	O	O
-nodes	NN	O	O
-and	NN	O	O
-allows	NN	O	O
-data	NN	O	O
-to	NN	O	O
-be	NN	O	O
-forwarded	NN	O	O
-from	NN	O	O
-the	NN	O	O
-sensors	NN	O	O
-to	NN	O	O
-the	NN	O	O
-sink	NN	O	O
-in	NN	O	O
-a	NN	O	O
-reliable	NN	O	O
-and	NN	O	O
-timely	NN	O	O
-manner	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-set	NN	O	O
-of	NN	O	O
-requirements	NN	O	O
-make	NN	O	O
-the	NN	O	O
-problem	NN	O	O
-of	NN	O	O
-routing	NN	O	B-Task
-in	NN	O	I-Task
-a	NN	O	I-Task
-MWSN	NN	O	I-Task
-a	NN	O	O
-unique	NN	O	O
-challenge	NN	O	O
-,	NN	O	O
-which	NN	O	O
-will	NN	O	O
-require	NN	O	O
-new	NN	O	O
-specifically	NN	O	O
-designed	NN	O	O
-solutions	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-this	NN	O	O
-reason	NN	O	O
-there	NN	O	O
-have	NN	O	O
-been	NN	O	O
-many	NN	O	O
-routing	NN	O	O
-protocols	NN	O	O
-designed	NN	O	O
-for	NN	O	O
-MWSNs	NN	O	B-Process
-.	NN	O	O
-
-As	NN	O	O
-such	NN	O	O
-,	NN	O	O
-this	NN	O	O
-section	NN	O	O
-will	NN	O	O
-give	NN	O	O
-an	NN	O	O
-overview	NN	O	O
-of	NN	O	O
-the	NN	O	O
-current	NN	O	O
-literature	NN	O	O
-,	NN	O	O
-which	NN	O	O
-highlights	NN	O	O
-the	NN	O	O
-different	NN	O	O
-techniques	NN	O	O
-and	NN	O	O
-commonly	NN	O	O
-used	NN	O	O
-protocols	NN	O	O
-in	NN	O	O
-MWSN	NN	O	B-Process
-routing	NN	O	I-Process
-.	NN	O	O
+MWSN	0	4	B-Process
+routing	5	12	I-Process
+protocols	13	22	I-Process
+generally	23	32	O
+take	33	37	O
+influence	38	47	O
+from	48	52	O
+both	53	57	O
+WSN	58	61	B-Process
+and	62	65	O
+mobile	66	72	B-Process
+ad	73	75	I-Process
+hoc	76	79	I-Process
+network	80	87	I-Process
+(	88	89	O
+MANET	89	94	B-Process
+)	94	95	O
+routing	96	103	B-Process
+protocols	104	113	I-Process
+,	113	114	O
+which	115	120	O
+all	121	124	O
+share	125	130	O
+common	131	137	O
+limitations	138	149	O
+,	149	150	O
+such	151	155	O
+as	156	158	O
+bandwidth	159	168	O
+,	168	169	O
+power	170	175	O
+and	176	179	O
+cost	180	184	O
+.	184	185	O
+
+WSNs	186	190	B-Process
+often	191	196	O
+share	197	202	O
+the	203	206	O
+same	207	211	O
+aim	212	215	O
+as	216	218	O
+MWSNs	219	224	B-Process
+,	224	225	O
+in	226	228	O
+that	229	233	O
+they	234	238	O
+wish	239	243	O
+to	244	246	O
+route	247	252	B-Process
+data	253	257	I-Process
+from	258	262	O
+many	263	267	O
+sensors	268	275	B-Material
+to	276	278	O
+a	279	280	O
+single	281	287	O
+sink	288	292	O
+.	292	293	O
+
+However	294	301	O
+,	301	302	O
+WSNs	303	307	B-Process
+are	308	311	O
+normally	312	320	O
+considered	321	331	O
+to	332	334	O
+be	335	337	O
+static	338	344	O
+and	345	348	O
+so	349	351	O
+the	352	355	O
+associated	356	366	O
+routing	367	374	O
+protocols	375	384	O
+are	385	388	O
+often	389	394	O
+unable	395	401	O
+to	402	404	O
+cope	405	409	O
+in	410	412	O
+a	413	414	O
+mobile	415	421	O
+scenario	422	430	O
+[	431	432	O
+10	432	434	O
+]	434	435	O
+.	435	436	O
+
+Alternatively	437	450	O
+,	450	451	O
+MANET	452	457	B-Process
+protocols	458	467	I-Process
+are	468	471	O
+designed	472	480	O
+to	481	483	O
+be	484	486	O
+able	487	491	O
+to	492	494	O
+cope	495	499	O
+with	500	504	O
+the	505	508	O
+mobility	509	517	O
+of	518	520	O
+nodes	521	526	O
+,	526	527	O
+however	528	535	O
+they	536	540	O
+aim	541	544	O
+to	545	547	O
+allow	548	553	O
+end	554	557	O
+-	557	558	O
+to	558	560	O
+-	560	561	O
+end	561	564	O
+communication	565	578	O
+to	579	581	O
+occur	582	587	O
+between	588	595	O
+any	596	599	O
+two	600	603	O
+nodes	604	609	O
+[	610	611	O
+2	611	612	O
+]	612	613	O
+.	613	614	O
+
+This	615	619	O
+extra	620	625	O
+functionality	626	639	O
+is	640	642	O
+often	643	648	O
+not	649	652	O
+required	653	661	O
+by	662	664	O
+MWSNs	665	670	B-Process
+and	671	674	O
+so	675	677	O
+the	678	681	O
+additional	682	692	O
+overhead	693	701	O
+is	702	704	O
+unnecessary	705	716	O
+.	716	717	O
+
+Combined	718	726	O
+with	727	731	O
+the	732	735	O
+high	736	740	O
+packet	741	747	O
+delivery	748	756	O
+ratios	757	763	O
+and	764	767	O
+low	768	771	O
+delays	772	778	O
+that	779	783	O
+are	784	787	O
+demanded	788	796	O
+by	797	799	O
+emerging	800	808	O
+applications	809	821	O
+,	821	822	O
+the	823	826	O
+ideal	827	832	O
+routing	833	840	O
+solution	841	849	O
+for	850	853	O
+a	854	855	O
+MWSN	856	860	B-Process
+is	861	863	O
+one	864	867	O
+that	868	872	O
+can	873	876	O
+handle	877	883	O
+the	884	887	O
+mobility	888	896	O
+of	897	899	O
+nodes	900	905	O
+and	906	909	O
+allows	910	916	O
+data	917	921	O
+to	922	924	O
+be	925	927	O
+forwarded	928	937	O
+from	938	942	O
+the	943	946	O
+sensors	947	954	O
+to	955	957	O
+the	958	961	O
+sink	962	966	O
+in	967	969	O
+a	970	971	O
+reliable	972	980	O
+and	981	984	O
+timely	985	991	O
+manner	992	998	O
+.	998	999	O
+
+This	1000	1004	O
+set	1005	1008	O
+of	1009	1011	O
+requirements	1012	1024	O
+make	1025	1029	O
+the	1030	1033	O
+problem	1034	1041	O
+of	1042	1044	O
+routing	1045	1052	B-Task
+in	1053	1055	I-Task
+a	1056	1057	I-Task
+MWSN	1058	1062	I-Task
+a	1063	1064	O
+unique	1065	1071	O
+challenge	1072	1081	O
+,	1081	1082	O
+which	1083	1088	O
+will	1089	1093	O
+require	1094	1101	O
+new	1102	1105	O
+specifically	1106	1118	O
+designed	1119	1127	O
+solutions	1128	1137	O
+.	1137	1138	O
+
+For	1139	1142	O
+this	1143	1147	O
+reason	1148	1154	O
+there	1155	1160	O
+have	1161	1165	O
+been	1166	1170	O
+many	1171	1175	O
+routing	1176	1183	O
+protocols	1184	1193	O
+designed	1194	1202	O
+for	1203	1206	O
+MWSNs	1207	1212	B-Process
+.	1212	1213	O
+
+As	1214	1216	O
+such	1217	1221	O
+,	1221	1222	O
+this	1223	1227	O
+section	1228	1235	O
+will	1236	1240	O
+give	1241	1245	O
+an	1246	1248	O
+overview	1249	1257	O
+of	1258	1260	O
+the	1261	1264	O
+current	1265	1272	O
+literature	1273	1283	O
+,	1283	1284	O
+which	1285	1290	O
+highlights	1291	1301	O
+the	1302	1305	O
+different	1306	1315	O
+techniques	1316	1326	O
+and	1327	1330	O
+commonly	1331	1339	O
+used	1340	1344	O
+protocols	1345	1354	O
+in	1355	1357	O
+MWSN	1358	1362	B-Process
+routing	1363	1370	I-Process
+.	1370	1371	O
 
 
 -DOCSTART- (S1875952116300209)
 
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-test	NN	O	B-Task
-whether	NN	O	I-Task
-haptic	NN	O	I-Task
-patterns	NN	O	I-Task
-can	NN	O	I-Task
-convey	NN	O	I-Task
-or	NN	O	I-Task
-enhance	NN	O	I-Task
-the	NN	O	I-Task
-mood	NN	O	I-Task
-music	NN	O	I-Task
-of	NN	O	O
-a	NN	O	O
-movie	NN	O	O
-,	NN	O	O
-an	NN	O	O
-affective	NN	O	B-Material
-movie	NN	O	I-Material
-clip	NN	O	I-Material
-corpus	NN	O	I-Material
-was	NN	O	O
-required	NN	O	O
-consisting	NN	O	O
-of	NN	O	O
-clips	NN	O	O
-labeled	NN	O	O
-according	NN	O	O
-to	NN	O	O
-the	NN	O	O
-emotion	NN	O	O
-conveyed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-mood	NN	O	O
-music	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-following	NN	O	O
-database	NN	O	B-Material
-collections	NN	O	I-Material
-were	NN	O	O
-examined	NN	O	O
-as	NN	O	O
-possible	NN	O	O
-sources	NN	O	O
-for	NN	O	O
-the	NN	O	O
-corpus	NN	O	O
-:	NN	O	O
-the	NN	O	O
-Emotional	NN	O	B-Material
-Movie	NN	O	I-Material
-Database	NN	O	I-Material
-(	NN	O	O
-EMDB	NN	O	B-Material
-)	NN	O	O
-[	NN	O	O
-19	NN	O	O
-]	NN	O	O
-,	NN	O	O
-and	NN	O	O
-Film	NN	O	B-Material
-Stim	NN	O	I-Material
-[	NN	O	O
-20	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-these	NN	O	O
-were	NN	O	O
-discarded	NN	O	O
-after	NN	O	O
-review	NN	O	B-Process
-as	NN	O	O
-unsuitable	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-aim	NN	O	O
-of	NN	O	O
-this	NN	O	O
-study	NN	O	O
-is	NN	O	O
-to	NN	O	O
-enhance	NN	O	B-Task
-the	NN	O	I-Task
-mood	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-film	NN	O	O
-score	NN	O	O
-,	NN	O	O
-and	NN	O	O
-in	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-the	NN	O	O
-clips	NN	O	O
-in	NN	O	O
-the	NN	O	O
-EMDB	NN	O	B-Material
-,	NN	O	O
-no	NN	O	O
-audio	NN	O	O
-is	NN	O	O
-provided	NN	O	O
-which	NN	O	O
-deemed	NN	O	O
-the	NN	O	O
-clips	NN	O	O
-unsuitable	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Film	NN	O	B-Material
-Stim	NN	O	I-Material
-database	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-clips	NN	O	O
-are	NN	O	O
-in	NN	O	O
-French	NN	O	O
-rather	NN	O	O
-than	NN	O	O
-English	NN	O	O
-,	NN	O	O
-and	NN	O	O
-with	NN	O	O
-no	NN	O	O
-subtitles	NN	O	O
-which	NN	O	O
-where	NN	O	O
-also	NN	O	O
-deemed	NN	O	O
-unsuitable	NN	O	O
-since	NN	O	O
-the	NN	O	O
-studies	NN	O	O
-are	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-with	NN	O	O
-English	NN	O	B-Material
-speaking	NN	O	I-Material
-participants	NN	O	I-Material
-.	NN	O	O
-
-Furthermore	NN	O	O
-,	NN	O	O
-the	NN	O	O
-Film	NN	O	B-Material
-Stim	NN	O	I-Material
-selection	NN	O	I-Material
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-affective	NN	O	O
-content	NN	O	O
-of	NN	O	O
-the	NN	O	O
-narrative	NN	O	O
-as	NN	O	O
-in	NN	O	O
-most	NN	O	O
-of	NN	O	O
-them	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-music	NN	O	O
-which	NN	O	O
-is	NN	O	O
-also	NN	O	O
-unsuitable	NN	O	O
-as	NN	O	O
-discussed	NN	O	O
-.	NN	O	O
-
-From	NN	O	O
-our	NN	O	O
-review	NN	O	B-Process
-of	NN	O	I-Process
-available	NN	O	I-Process
-database	NN	O	I-Process
-collections	NN	O	I-Process
-,	NN	O	O
-it	NN	O	O
-was	NN	O	O
-found	NN	O	O
-that	NN	O	O
-at	NN	O	O
-present	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-standard	NN	O	O
-corpus	NN	O	O
-of	NN	O	O
-affective	NN	O	O
-movie	NN	O	O
-clips	NN	O	O
-where	NN	O	O
-the	NN	O	O
-affective	NN	O	O
-indexing	NN	O	O
-referred	NN	O	O
-to	NN	O	O
-the	NN	O	O
-musical	NN	O	O
-score	NN	O	O
-of	NN	O	O
-the	NN	O	O
-clip	NN	O	O
-.	NN	O	O
+In	0	2	O
+order	3	8	O
+to	9	11	O
+test	12	16	B-Task
+whether	17	24	I-Task
+haptic	25	31	I-Task
+patterns	32	40	I-Task
+can	41	44	I-Task
+convey	45	51	I-Task
+or	52	54	I-Task
+enhance	55	62	I-Task
+the	63	66	I-Task
+mood	67	71	I-Task
+music	72	77	I-Task
+of	78	80	O
+a	81	82	O
+movie	83	88	O
+,	88	89	O
+an	90	92	O
+affective	93	102	B-Material
+movie	103	108	I-Material
+clip	109	113	I-Material
+corpus	114	120	I-Material
+was	121	124	O
+required	125	133	O
+consisting	134	144	O
+of	145	147	O
+clips	148	153	O
+labeled	154	161	O
+according	162	171	O
+to	172	174	O
+the	175	178	O
+emotion	179	186	O
+conveyed	187	195	O
+in	196	198	O
+the	199	202	O
+mood	203	207	O
+music	208	213	O
+.	213	214	O
+
+The	215	218	O
+following	219	228	O
+database	229	237	B-Material
+collections	238	249	I-Material
+were	250	254	O
+examined	255	263	O
+as	264	266	O
+possible	267	275	O
+sources	276	283	O
+for	284	287	O
+the	288	291	O
+corpus	292	298	O
+:	298	299	O
+the	300	303	O
+Emotional	304	313	B-Material
+Movie	314	319	I-Material
+Database	320	328	I-Material
+(	329	330	O
+EMDB	330	334	B-Material
+)	334	335	O
+[	336	337	O
+19	337	339	O
+]	339	340	O
+,	340	341	O
+and	342	345	O
+Film	346	350	B-Material
+Stim	351	355	I-Material
+[	356	357	O
+20	357	359	O
+]	359	360	O
+.	360	361	O
+
+However	362	369	O
+,	369	370	O
+these	371	376	O
+were	377	381	O
+discarded	382	391	O
+after	392	397	O
+review	398	404	B-Process
+as	405	407	O
+unsuitable	408	418	O
+.	418	419	O
+
+The	420	423	O
+aim	424	427	O
+of	428	430	O
+this	431	435	O
+study	436	441	O
+is	442	444	O
+to	445	447	O
+enhance	448	455	B-Task
+the	456	459	I-Task
+mood	460	464	I-Task
+in	465	467	O
+the	468	471	O
+film	472	476	O
+score	477	482	O
+,	482	483	O
+and	484	487	O
+in	488	490	O
+the	491	494	O
+case	495	499	O
+of	500	502	O
+the	503	506	O
+clips	507	512	O
+in	513	515	O
+the	516	519	O
+EMDB	520	524	B-Material
+,	524	525	O
+no	526	528	O
+audio	529	534	O
+is	535	537	O
+provided	538	546	O
+which	547	552	O
+deemed	553	559	O
+the	560	563	O
+clips	564	569	O
+unsuitable	570	580	O
+.	580	581	O
+
+In	582	584	O
+the	585	588	O
+case	589	593	O
+of	594	596	O
+the	597	600	O
+Film	601	605	B-Material
+Stim	606	610	I-Material
+database	611	619	I-Material
+,	619	620	O
+the	621	624	O
+clips	625	630	O
+are	631	634	O
+in	635	637	O
+French	638	644	O
+rather	645	651	O
+than	652	656	O
+English	657	664	O
+,	664	665	O
+and	666	669	O
+with	670	674	O
+no	675	677	O
+subtitles	678	687	O
+which	688	693	O
+where	694	699	O
+also	700	704	O
+deemed	705	711	O
+unsuitable	712	722	O
+since	723	728	O
+the	729	732	O
+studies	733	740	O
+are	741	744	O
+carried	745	752	O
+out	753	756	O
+with	757	761	O
+English	762	769	B-Material
+speaking	770	778	I-Material
+participants	779	791	I-Material
+.	791	792	O
+
+Furthermore	793	804	O
+,	804	805	O
+the	806	809	O
+Film	810	814	B-Material
+Stim	815	819	I-Material
+selection	820	829	I-Material
+is	830	832	O
+based	833	838	O
+on	839	841	O
+the	842	845	O
+affective	846	855	O
+content	856	863	O
+of	864	866	O
+the	867	870	O
+narrative	871	880	O
+as	881	883	O
+in	884	886	O
+most	887	891	O
+of	892	894	O
+them	895	899	O
+there	900	905	O
+is	906	908	O
+no	909	911	O
+music	912	917	O
+which	918	923	O
+is	924	926	O
+also	927	931	O
+unsuitable	932	942	O
+as	943	945	O
+discussed	946	955	O
+.	955	956	O
+
+From	957	961	O
+our	962	965	O
+review	966	972	B-Process
+of	973	975	I-Process
+available	976	985	I-Process
+database	986	994	I-Process
+collections	995	1006	I-Process
+,	1006	1007	O
+it	1008	1010	O
+was	1011	1014	O
+found	1015	1020	O
+that	1021	1025	O
+at	1026	1028	O
+present	1029	1036	O
+there	1037	1042	O
+is	1043	1045	O
+no	1046	1048	O
+standard	1049	1057	O
+corpus	1058	1064	O
+of	1065	1067	O
+affective	1068	1077	O
+movie	1078	1083	O
+clips	1084	1089	O
+where	1090	1095	O
+the	1096	1099	O
+affective	1100	1109	O
+indexing	1110	1118	O
+referred	1119	1127	O
+to	1128	1130	O
+the	1131	1134	O
+musical	1135	1142	O
+score	1143	1148	O
+of	1149	1151	O
+the	1152	1155	O
+clip	1156	1160	O
+.	1160	1161	O
 
 
 -DOCSTART- (S2212667812000032)
 
-Aspect	NN	O	B-Process
--	NN	O	I-Process
-oriented	NN	O	I-Process
-Programming	NN	O	I-Process
-(	NN	O	O
-AOP	NN	O	B-Process
-)	NN	O	O
-can	NN	O	O
-well	NN	O	O
-solve	NN	O	B-Task
-the	NN	O	I-Task
-cross	NN	O	I-Task
--	NN	O	I-Task
-cutting	NN	O	I-Task
-concerns	NN	O	I-Task
-.	NN	O	O
-
-Because	NN	O	O
-of	NN	O	O
-the	NN	O	O
-different	NN	O	O
-features	NN	O	O
-of	NN	O	O
-aspect	NN	O	O
-,	NN	O	O
-AOP	NN	O	B-Process
-requires	NN	O	O
-new	NN	O	O
-techniques	NN	O	O
-for	NN	O	O
-testing	NN	O	O
-.	NN	O	O
-
-First	NN	O	O
-,	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-proposes	NN	O	O
-a	NN	O	O
-model	NN	O	B-Task
-to	NN	O	I-Task
-test	NN	O	I-Task
-aspect	NN	O	I-Task
--	NN	O	I-Task
-oriented	NN	O	I-Task
-software	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-support	NN	O	O
-the	NN	O	O
-testing	NN	O	B-Process
-model	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-first	NN	O	O
-three	NN	O	O
-steps	NN	O	O
-,	NN	O	O
-we	NN	O	O
-propose	NN	O	O
-the	NN	O	O
-algorithm	NN	O	B-Process
-of	NN	O	I-Process
-selecting	NN	O	I-Process
-aspect	NN	O	I-Process
-relevant	NN	O	I-Process
-test	NN	O	I-Process
-cases	NN	O	I-Process
-.	NN	O	O
-
-Then	NN	O	O
-,	NN	O	O
-we	NN	O	O
-develop	NN	O	B-Task
-a	NN	O	I-Task
-new	NN	O	I-Task
-tool	NN	O	I-Task
-to	NN	O	I-Task
-implement	NN	O	I-Task
-the	NN	O	I-Task
-theoretical	NN	O	I-Task
-of	NN	O	I-Task
-automating	NN	O	I-Task
-select	NN	O	I-Task
-test	NN	O	I-Task
-case	NN	O	I-Task
-.	NN	O	O
-
-Finally	NN	O	O
-,	NN	O	O
-a	NN	O	O
-case	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Bank	NN	O	B-Process
-Account	NN	O	I-Process
-System	NN	O	I-Process
-is	NN	O	O
-studied	NN	O	O
-to	NN	O	O
-illustrate	NN	O	O
-our	NN	O	O
-testing	NN	O	O
-approach	NN	O	O
-.	NN	O	O
+Aspect	0	6	B-Process
+-	6	7	I-Process
+oriented	7	15	I-Process
+Programming	16	27	I-Process
+(	28	29	O
+AOP	29	32	B-Process
+)	32	33	O
+can	34	37	O
+well	38	42	O
+solve	43	48	B-Task
+the	49	52	I-Task
+cross	53	58	I-Task
+-	58	59	I-Task
+cutting	59	66	I-Task
+concerns	67	75	I-Task
+.	75	76	O
+
+Because	77	84	O
+of	85	87	O
+the	88	91	O
+different	92	101	O
+features	102	110	O
+of	111	113	O
+aspect	114	120	O
+,	120	121	O
+AOP	122	125	B-Process
+requires	126	134	O
+new	135	138	O
+techniques	139	149	O
+for	150	153	O
+testing	154	161	O
+.	161	162	O
+
+First	163	168	O
+,	168	169	O
+this	170	174	O
+paper	175	180	O
+proposes	181	189	O
+a	190	191	O
+model	192	197	B-Task
+to	198	200	I-Task
+test	201	205	I-Task
+aspect	206	212	I-Task
+-	212	213	I-Task
+oriented	213	221	I-Task
+software	222	230	I-Task
+.	230	231	O
+
+In	232	234	O
+order	235	240	O
+to	241	243	O
+support	244	251	O
+the	252	255	O
+testing	256	263	B-Process
+model	264	269	I-Process
+of	270	272	O
+the	273	276	O
+first	277	282	O
+three	283	288	O
+steps	289	294	O
+,	294	295	O
+we	296	298	O
+propose	299	306	O
+the	307	310	O
+algorithm	311	320	B-Process
+of	321	323	I-Process
+selecting	324	333	I-Process
+aspect	334	340	I-Process
+relevant	341	349	I-Process
+test	350	354	I-Process
+cases	355	360	I-Process
+.	360	361	O
+
+Then	362	366	O
+,	366	367	O
+we	368	370	O
+develop	371	378	B-Task
+a	379	380	I-Task
+new	381	384	I-Task
+tool	385	389	I-Task
+to	390	392	I-Task
+implement	393	402	I-Task
+the	403	406	I-Task
+theoretical	407	418	I-Task
+of	419	421	I-Task
+automating	422	432	I-Task
+select	433	439	I-Task
+test	440	444	I-Task
+case	445	449	I-Task
+.	449	450	O
+
+Finally	451	458	O
+,	458	459	O
+a	460	461	O
+case	462	466	O
+of	467	469	O
+the	470	473	O
+Bank	474	478	B-Process
+Account	479	486	I-Process
+System	487	493	I-Process
+is	494	496	O
+studied	497	504	O
+to	505	507	O
+illustrate	508	518	O
+our	519	522	O
+testing	523	530	O
+approach	531	539	O
+.	539	540	O
 
 
 -DOCSTART- (S221266781200007X)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-the	NN	O	O
-design	NN	O	B-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-varnish	NN	O	I-Task
-plant	NN	O	I-Task
-at	NN	O	O
-Crocodile	NN	O	O
-Matchet	NN	O	O
-Limited	NN	O	O
-,	NN	O	O
-Tema	NN	O	O
-,	NN	O	O
-Ghana	NN	O	O
-was	NN	O	O
-considered	NN	O	O
-and	NN	O	O
-modification	NN	O	B-Task
-made	NN	O	I-Task
-to	NN	O	I-Task
-eliminate	NN	O	I-Task
-blooming	NN	O	I-Task
-and	NN	O	I-Task
-rusting	NN	O	I-Task
-of	NN	O	O
-its	NN	O	O
-product	NN	O	O
-at	NN	O	O
-the	NN	O	O
-final	NN	O	O
-processing	NN	O	B-Material
-plant	NN	O	I-Material
-when	NN	O	O
-there	NN	O	O
-is	NN	O	O
-high	NN	O	O
-moisture	NN	O	O
-content	NN	O	O
-in	NN	O	O
-the	NN	O	O
-atmosphere	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-proposed	NN	O	O
-design	NN	O	O
-included	NN	O	O
-pipelines	NN	O	B-Material
-or	NN	O	O
-ductsand	NN	O	B-Material
-hot	NN	O	I-Material
-air	NN	O	I-Material
-receiving	NN	O	I-Material
-chambers	NN	O	I-Material
-for	NN	O	O
-the	NN	O	O
-Varnish	NN	O	B-Material
-Plant	NN	O	I-Material
-.	NN	O	O
-
-Heat	NN	O	O
-from	NN	O	O
-the	NN	O	O
-exhaust	NN	O	B-Material
-gas	NN	O	I-Material
-which	NN	O	O
-would	NN	O	O
-have	NN	O	O
-otherwise	NN	O	O
-,	NN	O	O
-gone	NN	O	O
-wasted	NN	O	O
-,	NN	O	O
-was	NN	O	O
-utilised	NN	O	O
-by	NN	O	O
-redesigning	NN	O	B-Task
-the	NN	O	I-Task
-varnish	NN	O	I-Task
-plant	NN	O	I-Task
-and	NN	O	O
-this	NN	O	O
-yielded	NN	O	O
-6.74kW	NN	O	O
-of	NN	O	O
-heat	NN	O	B-Process
-energy	NN	O	I-Process
-which	NN	O	O
-was	NN	O	O
-transferred	NN	O	B-Task
-into	NN	O	I-Task
-the	NN	O	I-Task
-air	NN	O	I-Task
-chambers	NN	O	I-Task
-to	NN	O	O
-aid	NN	O	O
-the	NN	O	O
-drying	NN	O	B-Process
-ofmatchets	NN	O	I-Process
-at	NN	O	O
-the	NN	O	O
-hardening	NN	O	B-Material
-plant	NN	O	I-Material
-.	NN	O	O
-
-Consequently	NN	O	O
-,	NN	O	O
-the	NN	O	O
-absorption	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-moisture	NN	O	I-Process
-on	NN	O	O
-the	NN	O	O
-steel	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-dryness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-product	NN	O	O
-were	NN	O	O
-improved	NN	O	O
-.	NN	O	O
-
-Further	NN	O	B-Task
-studies	NN	O	I-Task
-were	NN	O	O
-done	NN	O	O
-to	NN	O	O
-ensure	NN	O	O
-constant	NN	O	B-Process
-supply	NN	O	I-Process
-of	NN	O	I-Process
-hot	NN	O	I-Process
-air	NN	O	I-Process
-into	NN	O	I-Process
-the	NN	O	I-Process
-air	NN	O	I-Process
-chambers	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+the	15	18	O
+design	19	25	B-Task
+of	26	28	I-Task
+a	29	30	I-Task
+varnish	31	38	I-Task
+plant	39	44	I-Task
+at	45	47	O
+Crocodile	48	57	O
+Matchet	58	65	O
+Limited	66	73	O
+,	73	74	O
+Tema	75	79	O
+,	79	80	O
+Ghana	81	86	O
+was	87	90	O
+considered	91	101	O
+and	102	105	O
+modification	106	118	B-Task
+made	119	123	I-Task
+to	124	126	I-Task
+eliminate	127	136	I-Task
+blooming	137	145	I-Task
+and	146	149	I-Task
+rusting	150	157	I-Task
+of	158	160	O
+its	161	164	O
+product	165	172	O
+at	173	175	O
+the	176	179	O
+final	180	185	O
+processing	186	196	B-Material
+plant	197	202	I-Material
+when	203	207	O
+there	208	213	O
+is	214	216	O
+high	217	221	O
+moisture	222	230	O
+content	231	238	O
+in	239	241	O
+the	242	245	O
+atmosphere	246	256	O
+.	256	257	O
+
+The	258	261	O
+proposed	262	270	O
+design	271	277	O
+included	278	286	O
+pipelines	287	296	B-Material
+or	297	299	O
+ductsand	300	308	B-Material
+hot	309	312	I-Material
+air	313	316	I-Material
+receiving	317	326	I-Material
+chambers	327	335	I-Material
+for	336	339	O
+the	340	343	O
+Varnish	344	351	B-Material
+Plant	352	357	I-Material
+.	357	358	O
+
+Heat	358	362	O
+from	363	367	O
+the	368	371	O
+exhaust	372	379	B-Material
+gas	380	383	I-Material
+which	384	389	O
+would	390	395	O
+have	396	400	O
+otherwise	401	410	O
+,	410	411	O
+gone	412	416	O
+wasted	417	423	O
+,	423	424	O
+was	425	428	O
+utilised	429	437	O
+by	438	440	O
+redesigning	441	452	B-Task
+the	453	456	I-Task
+varnish	457	464	I-Task
+plant	465	470	I-Task
+and	471	474	O
+this	475	479	O
+yielded	480	487	O
+6.74kW	488	494	O
+of	495	497	O
+heat	498	502	B-Process
+energy	503	509	I-Process
+which	510	515	O
+was	516	519	O
+transferred	520	531	B-Task
+into	532	536	I-Task
+the	537	540	I-Task
+air	541	544	I-Task
+chambers	545	553	I-Task
+to	554	556	O
+aid	557	560	O
+the	561	564	O
+drying	565	571	B-Process
+ofmatchets	572	582	I-Process
+at	583	585	O
+the	586	589	O
+hardening	590	599	B-Material
+plant	600	605	I-Material
+.	605	606	O
+
+Consequently	607	619	O
+,	619	620	O
+the	621	624	O
+absorption	625	635	B-Process
+of	636	638	I-Process
+the	639	642	I-Process
+moisture	643	651	I-Process
+on	652	654	O
+the	655	658	O
+steel	659	664	B-Material
+and	665	668	O
+the	669	672	O
+dryness	673	680	O
+of	681	683	O
+the	684	687	O
+product	688	695	O
+were	696	700	O
+improved	701	709	O
+.	709	710	O
+
+Further	711	718	B-Task
+studies	719	726	I-Task
+were	727	731	O
+done	732	736	O
+to	737	739	O
+ensure	740	746	O
+constant	747	755	B-Process
+supply	756	762	I-Process
+of	763	765	I-Process
+hot	766	769	I-Process
+air	770	773	I-Process
+into	774	778	I-Process
+the	779	782	I-Process
+air	783	786	I-Process
+chambers	787	795	I-Process
+.	795	796	O
 
 
 -DOCSTART- (S2212667812000524)
 
-Digital	NN	O	B-Material
-libraries	NN	O	I-Material
-promise	NN	O	O
-new	NN	O	O
-societal	NN	O	O
-benefits	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-for	NN	O	O
-e	NN	O	B-Process
--	NN	O	I-Process
-learning	NN	O	I-Process
-in	NN	O	O
-digital	NN	O	O
-or	NN	O	O
-mobile	NN	O	O
-times	NN	O	O
-,	NN	O	O
-starting	NN	O	O
-with	NN	O	O
-the	NN	O	O
-elimination	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-time	NN	O	I-Process
-and	NN	O	I-Process
-space	NN	O	I-Process
-constraints	NN	O	I-Process
-of	NN	O	O
-traditional	NN	O	O
-bricks	NN	O	B-Material
--	NN	O	I-Material
-and	NN	O	I-Material
--	NN	O	I-Material
-mortar	NN	O	I-Material
-libraries	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-library	NN	O	O
-and	NN	O	O
-information	NN	O	O
-professionals	NN	O	O
-are	NN	O	O
-required	NN	O	O
-to	NN	O	O
-acquire	NN	O	B-Task
-such	NN	O	I-Task
-knowledge	NN	O	I-Task
-and	NN	O	I-Task
-skills	NN	O	I-Task
-as	NN	O	O
-the	NN	O	O
-library	NN	O	O
-is	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-highly	NN	O	O
-IT	NN	O	O
-influenced	NN	O	O
-service	NN	O	O
-profession	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-gives	NN	O	O
-an	NN	O	O
-overview	NN	O	B-Task
-of	NN	O	I-Task
-current	NN	O	I-Task
-trends	NN	O	I-Task
-in	NN	O	I-Task
-digital	NN	O	I-Task
-library	NN	O	I-Task
-research	NN	O	I-Task
-consists	NN	O	O
-of	NN	O	O
-digital	NN	O	B-Material
-library	NN	O	I-Material
-characteristic	NN	O	O
-,	NN	O	O
-advantage	NN	O	O
-,	NN	O	O
-disadvantages	NN	O	O
-and	NN	O	O
-function	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-also	NN	O	O
-highlights	NN	O	B-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-impact	NN	O	I-Task
-of	NN	O	I-Task
-information	NN	O	I-Task
-technology	NN	O	I-Task
-on	NN	O	O
-the	NN	O	O
-traditional	NN	O	O
-library	NN	O	B-Material
-.	NN	O	O
+Digital	0	7	B-Material
+libraries	8	17	I-Material
+promise	18	25	O
+new	26	29	O
+societal	30	38	O
+benefits	39	47	O
+,	47	48	O
+especially	49	59	O
+for	60	63	O
+e	64	65	B-Process
+-	65	66	I-Process
+learning	66	74	I-Process
+in	75	77	O
+digital	78	85	O
+or	86	88	O
+mobile	89	95	O
+times	96	101	O
+,	101	102	O
+starting	103	111	O
+with	112	116	O
+the	117	120	O
+elimination	121	132	B-Process
+of	133	135	I-Process
+the	136	139	I-Process
+time	140	144	I-Process
+and	145	148	I-Process
+space	149	154	I-Process
+constraints	155	166	I-Process
+of	167	169	O
+traditional	170	181	O
+bricks	182	188	B-Material
+-	188	189	I-Material
+and	189	192	I-Material
+-	192	193	I-Material
+mortar	193	199	I-Material
+libraries	200	209	I-Material
+.	209	210	O
+
+The	211	214	O
+library	215	222	O
+and	223	226	O
+information	227	238	O
+professionals	239	252	O
+are	253	256	O
+required	257	265	O
+to	266	268	O
+acquire	269	276	B-Task
+such	277	281	I-Task
+knowledge	282	291	I-Task
+and	292	295	I-Task
+skills	296	302	I-Task
+as	303	305	O
+the	306	309	O
+library	310	317	O
+is	318	320	O
+one	321	324	O
+of	325	327	O
+the	328	331	O
+highly	332	338	O
+IT	339	341	O
+influenced	342	352	O
+service	353	360	O
+profession	361	371	O
+.	371	372	O
+
+This	373	377	O
+paper	378	383	O
+gives	384	389	O
+an	390	392	O
+overview	393	401	B-Task
+of	402	404	I-Task
+current	405	412	I-Task
+trends	413	419	I-Task
+in	420	422	I-Task
+digital	423	430	I-Task
+library	431	438	I-Task
+research	439	447	I-Task
+consists	448	456	O
+of	457	459	O
+digital	460	467	B-Material
+library	468	475	I-Material
+characteristic	476	490	O
+,	490	491	O
+advantage	492	501	O
+,	501	502	O
+disadvantages	503	516	O
+and	517	520	O
+function	521	529	O
+.	529	530	O
+
+This	531	535	O
+paper	536	541	O
+also	542	546	O
+highlights	547	557	B-Task
+on	558	560	I-Task
+the	561	564	I-Task
+impact	565	571	I-Task
+of	572	574	I-Task
+information	575	586	I-Task
+technology	587	597	I-Task
+on	598	600	O
+the	601	604	O
+traditional	605	616	O
+library	617	624	B-Material
+.	624	625	O
 
 
 -DOCSTART- (S2212667812000536)
 
-According	NN	O	O
-to	NN	O	O
-the	NN	O	O
-situation	NN	O	O
-that	NN	O	O
-the	NN	O	O
-IT	NN	O	O
-students	NN	O	O
-can	NN	O	O
-not	NN	O	O
-meet	NN	O	O
-the	NN	O	O
-software	NN	O	O
-industry	NN	O	O
-demand	NN	O	O
-for	NN	O	O
-qualified	NN	O	O
-personnel	NN	O	O
-,	NN	O	O
-a	NN	O	O
-“	NN	O	B-Process
-triple	NN	O	I-Process
--	NN	O	I-Process
-driven	NN	O	I-Process
-”	NN	O	I-Process
-three	NN	O	I-Process
--	NN	O	I-Process
-dimensional	NN	O	I-Process
-software	NN	O	I-Process
-development	NN	O	I-Process
-practical	NN	O	I-Process
-teaching	NN	O	I-Process
-system	NN	O	I-Process
-was	NN	O	O
-proposed	NN	O	O
-,	NN	O	O
-aiming	NN	O	O
-to	NN	O	O
-improve	NN	O	B-Task
-the	NN	O	I-Task
-software	NN	O	I-Task
-development	NN	O	I-Task
-capabilities	NN	O	I-Task
-and	NN	O	I-Task
-innovation	NN	O	I-Task
-sense	NN	O	I-Task
-of	NN	O	I-Task
-students	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-system	NN	O	O
-can	NN	O	O
-effectively	NN	O	O
-improve	NN	O	O
-students	NN	O	O
-the	NN	O	O
-interest	NN	O	O
-of	NN	O	O
-software	NN	O	B-Process
-development	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-practical	NN	O	B-Process
-skills	NN	O	I-Process
-and	NN	O	O
-sense	NN	O	O
-of	NN	O	O
-innovation	NN	O	O
-,	NN	O	O
-laying	NN	O	O
-a	NN	O	O
-solid	NN	O	O
-foundation	NN	O	O
-for	NN	O	O
-student	NN	O	O
-after	NN	O	O
-graduation	NN	O	O
-to	NN	O	O
-rapidly	NN	O	O
-integrate	NN	O	O
-into	NN	O	O
-the	NN	O	O
-software	NN	O	B-Process
-development	NN	O	I-Process
-process	NN	O	I-Process
-,	NN	O	O
-meeting	NN	O	O
-the	NN	O	O
-needs	NN	O	O
-of	NN	O	O
-software	NN	O	B-Task
-industry	NN	O	I-Task
-.	NN	O	O
+According	0	9	O
+to	10	12	O
+the	13	16	O
+situation	17	26	O
+that	27	31	O
+the	32	35	O
+IT	36	38	O
+students	39	47	O
+can	48	51	O
+not	52	55	O
+meet	56	60	O
+the	61	64	O
+software	65	73	O
+industry	74	82	O
+demand	83	89	O
+for	90	93	O
+qualified	94	103	O
+personnel	104	113	O
+,	113	114	O
+a	115	116	O
+“	117	118	B-Process
+triple	118	124	I-Process
+-	124	125	I-Process
+driven	125	131	I-Process
+”	131	132	I-Process
+three	133	138	I-Process
+-	138	139	I-Process
+dimensional	139	150	I-Process
+software	151	159	I-Process
+development	160	171	I-Process
+practical	172	181	I-Process
+teaching	182	190	I-Process
+system	191	197	I-Process
+was	198	201	O
+proposed	202	210	O
+,	210	211	O
+aiming	212	218	O
+to	219	221	O
+improve	222	229	B-Task
+the	230	233	I-Task
+software	234	242	I-Task
+development	243	254	I-Task
+capabilities	255	267	I-Task
+and	268	271	I-Task
+innovation	272	282	I-Task
+sense	283	288	I-Task
+of	289	291	I-Task
+students	292	300	I-Task
+.	300	301	O
+
+This	302	306	O
+system	307	313	O
+can	314	317	O
+effectively	318	329	O
+improve	330	337	O
+students	338	346	O
+the	347	350	O
+interest	351	359	O
+of	360	362	O
+software	363	371	B-Process
+development	372	383	I-Process
+and	384	387	O
+the	388	391	O
+practical	392	401	B-Process
+skills	402	408	I-Process
+and	409	412	O
+sense	413	418	O
+of	419	421	O
+innovation	422	432	O
+,	432	433	O
+laying	434	440	O
+a	441	442	O
+solid	443	448	O
+foundation	449	459	O
+for	460	463	O
+student	464	471	O
+after	472	477	O
+graduation	478	488	O
+to	489	491	O
+rapidly	492	499	O
+integrate	500	509	O
+into	510	514	O
+the	515	518	O
+software	519	527	B-Process
+development	528	539	I-Process
+process	540	547	I-Process
+,	547	548	O
+meeting	549	556	O
+the	557	560	O
+needs	561	566	O
+of	567	569	O
+software	570	578	B-Task
+industry	579	587	I-Task
+.	587	588	O
 
 
 -DOCSTART- (S2212667812000664)
 
-According	NN	O	O
-to	NN	O	O
-the	NN	O	O
-shortcomings	NN	O	O
-of	NN	O	O
-long	NN	O	O
-time	NN	O	O
-and	NN	O	O
-big	NN	O	O
-errors	NN	O	O
-about	NN	O	O
-the	NN	O	O
-moving	NN	O	B-Process
-plate	NN	O	I-Process
-recognition	NN	O	I-Process
-system	NN	O	I-Process
-,	NN	O	O
-we	NN	O	O
-present	NN	O	O
-the	NN	O	O
-moving	NN	O	B-Process
-plate	NN	O	I-Process
-recognition	NN	O	I-Process
-algorithm	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-principal	NN	O	B-Process
-component	NN	O	I-Process
-analysis(PCA	NN	O	I-Process
-)	NN	O	O
-color	NN	O	B-Process
-extraction	NN	O	I-Process
-.	NN	O	I-Process
-
-On	NN	O	O
-the	NN	O	O
-basis	NN	O	O
-of	NN	O	O
-the	NN	O	O
-analysis	NN	O	B-Task
-of	NN	O	I-Task
-moving	NN	O	I-Task
-plate	NN	O	I-Task
-recognition	NN	O	I-Task
-system	NN	O	I-Task
-'s	NN	O	I-Task
-basic	NN	O	I-Task
-principles	NN	O	I-Task
-,	NN	O	O
-it	NN	O	O
-introduces	NN	O	O
-the	NN	O	O
-basic	NN	O	O
-principles	NN	O	O
-and	NN	O	O
-calculation	NN	O	O
-steps	NN	O	O
-about	NN	O	O
-PCA	NN	O	B-Process
-extraction	NN	O	I-Process
-algorithm	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-discusses	NN	O	O
-the	NN	O	O
-feasibility	NN	O	O
-of	NN	O	O
-applying	NN	O	B-Task
-the	NN	O	I-Task
-algorithm	NN	O	I-Task
-to	NN	O	I-Task
-PRS	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-paper	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-experimental	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-algorithm	NN	O	O
-has	NN	O	O
-the	NN	O	O
-advantages	NN	O	O
-of	NN	O	O
-faster	NN	O	O
-speed	NN	O	O
-and	NN	O	O
-higher	NN	O	O
-accuracy	NN	O	O
-of	NN	O	O
-recognition	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-algorithm	NN	O	O
-provides	NN	O	O
-a	NN	O	O
-new	NN	O	O
-thought	NN	O	O
-for	NN	O	O
-the	NN	O	O
-research	NN	O	B-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-moving	NN	O	I-Task
-plate	NN	O	I-Task
-recognition	NN	O	I-Task
-algorithm	NN	O	I-Task
-.	NN	O	O
+According	0	9	O
+to	10	12	O
+the	13	16	O
+shortcomings	17	29	O
+of	30	32	O
+long	33	37	O
+time	38	42	O
+and	43	46	O
+big	47	50	O
+errors	51	57	O
+about	58	63	O
+the	64	67	O
+moving	68	74	B-Process
+plate	75	80	I-Process
+recognition	81	92	I-Process
+system	93	99	I-Process
+,	99	100	O
+we	101	103	O
+present	104	111	O
+the	112	115	O
+moving	116	122	B-Process
+plate	123	128	I-Process
+recognition	129	140	I-Process
+algorithm	141	150	I-Process
+based	151	156	O
+on	157	159	O
+principal	160	169	B-Process
+component	170	179	I-Process
+analysis(PCA	180	192	I-Process
+)	192	193	O
+color	194	199	B-Process
+extraction	200	210	I-Process
+.	210	211	I-Process
+
+On	212	214	O
+the	215	218	O
+basis	219	224	O
+of	225	227	O
+the	228	231	O
+analysis	232	240	B-Task
+of	241	243	I-Task
+moving	244	250	I-Task
+plate	251	256	I-Task
+recognition	257	268	I-Task
+system	269	275	I-Task
+'s	275	277	I-Task
+basic	278	283	I-Task
+principles	284	294	I-Task
+,	294	295	O
+it	296	298	O
+introduces	299	309	O
+the	310	313	O
+basic	314	319	O
+principles	320	330	O
+and	331	334	O
+calculation	335	346	O
+steps	347	352	O
+about	353	358	O
+PCA	359	362	B-Process
+extraction	363	373	I-Process
+algorithm	374	383	I-Process
+,	383	384	O
+and	385	388	O
+discusses	389	398	O
+the	399	402	O
+feasibility	403	414	O
+of	415	417	O
+applying	418	426	B-Task
+the	427	430	I-Task
+algorithm	431	440	I-Task
+to	441	443	I-Task
+PRS	444	447	I-Task
+in	448	450	O
+the	451	454	O
+paper	455	460	O
+.	460	461	O
+
+The	462	465	O
+experimental	466	478	O
+results	479	486	O
+show	487	491	O
+that	492	496	O
+the	497	500	O
+algorithm	501	510	O
+has	511	514	O
+the	515	518	O
+advantages	519	529	O
+of	530	532	O
+faster	533	539	O
+speed	540	545	O
+and	546	549	O
+higher	550	556	O
+accuracy	557	565	O
+of	566	568	O
+recognition	569	580	B-Process
+.	580	581	O
+
+The	582	585	O
+algorithm	586	595	O
+provides	596	604	O
+a	605	606	O
+new	607	610	O
+thought	611	618	O
+for	619	622	O
+the	623	626	O
+research	627	635	B-Task
+on	636	638	I-Task
+the	639	642	I-Task
+moving	643	649	I-Task
+plate	650	655	I-Task
+recognition	656	667	I-Task
+algorithm	668	677	I-Task
+.	677	678	O
 
 
 -DOCSTART- (S2212667812000780)
 
-With	NN	O	O
-the	NN	O	O
-development	NN	O	O
-of	NN	O	O
-sport	NN	O	O
-normal	NN	O	O
-students	NN	O	O
-in	NN	O	O
-china	NN	O	O
-,	NN	O	O
-Some	NN	O	O
-ideas	NN	O	O
-to	NN	O	O
-teaching	NN	O	O
-and	NN	O	O
-learning	NN	O	O
-that	NN	O	O
-view	NN	O	O
-learning	NN	O	O
-as	NN	O	O
-a	NN	O	O
-simple	NN	O	O
-process	NN	O	O
-of	NN	O	O
-knowledge	NN	O	B-Process
-have	NN	O	O
-become	NN	O	O
-outdated	NN	O	O
-and	NN	O	O
-ineffective	NN	O	O
-,	NN	O	O
-therefore	NN	O	O
-,	NN	O	O
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-improving	NN	O	B-Task
-the	NN	O	I-Task
-quality	NN	O	I-Task
-of	NN	O	I-Task
-teaching	NN	O	I-Task
-and	NN	O	I-Task
-learning	NN	O	I-Task
-on	NN	O	I-Task
-sport	NN	O	I-Task
-normal	NN	O	I-Task
-students	NN	O	I-Task
-in	NN	O	O
-china	NN	O	O
-,	NN	O	O
-this	NN	O	O
-author	NN	O	O
-discussed	NN	O	O
-some	NN	O	O
-factors	NN	O	B-Process
-on	NN	O	I-Process
-promoting	NN	O	I-Process
-the	NN	O	I-Process
-level	NN	O	I-Process
-of	NN	O	I-Process
-teaching	NN	O	I-Process
-and	NN	O	I-Process
-learning	NN	O	I-Process
-for	NN	O	O
-sport	NN	O	O
-normal	NN	O	O
-students	NN	O	O
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-implementation	NN	O	B-Process
-principle	NN	O	I-Process
-,	NN	O	O
-curriculum	NN	O	B-Process
-design	NN	O	I-Process
-,	NN	O	O
-education	NN	O	B-Process
-policy	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-so	NN	O	O
-on	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-meaning	NN	O	O
-of	NN	O	O
-results	NN	O	O
-and	NN	O	O
-their	NN	O	O
-implication	NN	O	O
-of	NN	O	O
-future	NN	O	B-Task
-research	NN	O	I-Task
-are	NN	O	O
-discussed	NN	O	O
-.	NN	O	O
+With	0	4	O
+the	5	8	O
+development	9	20	O
+of	21	23	O
+sport	24	29	O
+normal	30	36	O
+students	37	45	O
+in	46	48	O
+china	49	54	O
+,	54	55	O
+Some	56	60	O
+ideas	61	66	O
+to	67	69	O
+teaching	70	78	O
+and	79	82	O
+learning	83	91	O
+that	92	96	O
+view	97	101	O
+learning	102	110	O
+as	111	113	O
+a	114	115	O
+simple	116	122	O
+process	123	130	O
+of	131	133	O
+knowledge	134	143	B-Process
+have	144	148	O
+become	149	155	O
+outdated	156	164	O
+and	165	168	O
+ineffective	169	180	O
+,	180	181	O
+therefore	182	191	O
+,	191	192	O
+In	193	195	O
+order	196	201	O
+to	202	204	O
+improving	205	214	B-Task
+the	215	218	I-Task
+quality	219	226	I-Task
+of	227	229	I-Task
+teaching	230	238	I-Task
+and	239	242	I-Task
+learning	243	251	I-Task
+on	252	254	I-Task
+sport	255	260	I-Task
+normal	261	267	I-Task
+students	268	276	I-Task
+in	277	279	O
+china	280	285	O
+,	285	286	O
+this	287	291	O
+author	292	298	O
+discussed	299	308	O
+some	309	313	O
+factors	314	321	B-Process
+on	322	324	I-Process
+promoting	325	334	I-Process
+the	335	338	I-Process
+level	339	344	I-Process
+of	345	347	I-Process
+teaching	348	356	I-Process
+and	357	360	I-Process
+learning	361	369	I-Process
+for	370	373	O
+sport	374	379	O
+normal	380	386	O
+students	387	395	O
+,	395	396	O
+such	397	401	O
+as	402	404	O
+implementation	405	419	B-Process
+principle	420	429	I-Process
+,	429	430	O
+curriculum	431	441	B-Process
+design	442	448	I-Process
+,	448	449	O
+education	450	459	B-Process
+policy	460	466	I-Process
+,	466	467	O
+and	468	471	O
+so	472	474	O
+on	475	477	O
+.	477	478	O
+
+The	479	482	O
+meaning	483	490	O
+of	491	493	O
+results	494	501	O
+and	502	505	O
+their	506	511	O
+implication	512	523	O
+of	524	526	O
+future	527	533	B-Task
+research	534	542	I-Task
+are	543	546	O
+discussed	547	556	O
+.	556	557	O
 
 
 -DOCSTART- (S2212667812000792)
 
-A	NN	O	O
-process	NN	O	B-Process
--	NN	O	I-Process
-driven	NN	O	I-Process
-model	NN	O	I-Process
-is	NN	O	O
-presented	NN	O	O
-to	NN	O	O
-build	NN	O	O
-an	NN	O	O
-instinctive	NN	O	O
-and	NN	O	O
-efficient	NN	O	O
-higher	NN	O	O
-educational	NN	O	O
-administrative	NN	O	B-Process
-management	NN	O	I-Process
-system	NN	O	I-Process
-to	NN	O	O
-overcome	NN	O	B-Process
-problems	NN	O	I-Process
-most	NN	O	O
-universities	NN	O	O
-facing	NN	O	O
-.	NN	O	O
-
-With	NN	O	O
-this	NN	O	O
-model	NN	O	O
-,	NN	O	O
-processes	NN	O	B-Task
-are	NN	O	I-Task
-identified	NN	O	I-Task
-explicitly	NN	O	O
-and	NN	O	O
-the	NN	O	O
-routine	NN	O	O
-of	NN	O	O
-educational	NN	O	B-Process
-administration	NN	O	I-Process
-is	NN	O	O
-broken	NN	O	O
-into	NN	O	O
-small	NN	O	O
-tasks	NN	O	O
-.	NN	O	O
-
-Each	NN	O	O
-task	NN	O	O
-has	NN	O	O
-designated	NN	O	O
-role	NN	O	O
-of	NN	O	O
-executors	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-process	NN	O	O
-describes	NN	O	O
-the	NN	O	O
-activities	NN	O	O
-and	NN	O	O
-relationships	NN	O	O
-among	NN	O	O
-them	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-prototype	NN	O	O
-of	NN	O	O
-higher	NN	O	O
-educational	NN	O	O
-administrative	NN	O	O
-system	NN	O	O
-is	NN	O	O
-built	NN	O	O
-with	NN	O	O
-Bonita	NN	O	B-Material
-open	NN	O	I-Material
-solution	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-demo	NN	O	O
-shows	NN	O	O
-that	NN	O	O
-the	NN	O	O
-process	NN	O	O
--	NN	O	O
-driven	NN	O	O
-higher	NN	O	O
-educational	NN	O	O
-administrative	NN	O	B-Process
-system	NN	O	I-Process
-helps	NN	O	O
-end	NN	O	O
-users	NN	O	O
-understand	NN	O	B-Process
-processes	NN	O	I-Process
-they	NN	O	I-Process
-are	NN	O	I-Process
-involved	NN	O	I-Process
-and	NN	O	O
-focus	NN	O	O
-on	NN	O	O
-what	NN	O	O
-to	NN	O	O
-do	NN	O	O
-.	NN	O	O
+A	0	1	O
+process	2	9	B-Process
+-	9	10	I-Process
+driven	10	16	I-Process
+model	17	22	I-Process
+is	23	25	O
+presented	26	35	O
+to	36	38	O
+build	39	44	O
+an	45	47	O
+instinctive	48	59	O
+and	60	63	O
+efficient	64	73	O
+higher	74	80	O
+educational	81	92	O
+administrative	93	107	B-Process
+management	108	118	I-Process
+system	119	125	I-Process
+to	126	128	O
+overcome	129	137	B-Process
+problems	138	146	I-Process
+most	147	151	O
+universities	152	164	O
+facing	165	171	O
+.	171	172	O
+
+With	173	177	O
+this	178	182	O
+model	183	188	O
+,	188	189	O
+processes	190	199	B-Task
+are	200	203	I-Task
+identified	204	214	I-Task
+explicitly	215	225	O
+and	226	229	O
+the	230	233	O
+routine	234	241	O
+of	242	244	O
+educational	245	256	B-Process
+administration	257	271	I-Process
+is	272	274	O
+broken	275	281	O
+into	282	286	O
+small	287	292	O
+tasks	293	298	O
+.	298	299	O
+
+Each	300	304	O
+task	305	309	O
+has	310	313	O
+designated	314	324	O
+role	325	329	O
+of	330	332	O
+executors	333	342	O
+.	342	343	O
+
+A	344	345	O
+process	346	353	O
+describes	354	363	O
+the	364	367	O
+activities	368	378	O
+and	379	382	O
+relationships	383	396	O
+among	397	402	O
+them	403	407	O
+.	407	408	O
+
+A	409	410	O
+prototype	411	420	O
+of	421	423	O
+higher	424	430	O
+educational	431	442	O
+administrative	443	457	O
+system	458	464	O
+is	465	467	O
+built	468	473	O
+with	474	478	O
+Bonita	479	485	B-Material
+open	486	490	I-Material
+solution	491	499	I-Material
+.	499	500	O
+
+The	501	504	O
+demo	505	509	O
+shows	510	515	O
+that	516	520	O
+the	521	524	O
+process	525	532	O
+-	532	533	O
+driven	533	539	O
+higher	540	546	O
+educational	547	558	O
+administrative	559	573	B-Process
+system	574	580	I-Process
+helps	581	586	O
+end	587	590	O
+users	591	596	O
+understand	597	607	B-Process
+processes	608	617	I-Process
+they	618	622	I-Process
+are	623	626	I-Process
+involved	627	635	I-Process
+and	636	639	O
+focus	640	645	O
+on	646	648	O
+what	649	653	O
+to	654	656	O
+do	657	659	O
+.	659	660	O
 
 
 -DOCSTART- (S2212667812000810)
 
-With	NN	O	O
-employment	NN	O	O
-of	NN	O	O
-utilizing	NN	O	O
-the	NN	O	O
-investigation	NN	O	B-Process
-,	NN	O	O
-expert	NN	O	B-Process
-interviews	NN	O	I-Process
-and	NN	O	O
-comparison	NN	O	O
-,	NN	O	O
-this	NN	O	O
-article	NN	O	O
-investigates	NN	O	B-Task
-the	NN	O	I-Task
-curricula	NN	O	I-Task
-construction	NN	O	I-Task
-,	NN	O	I-Task
-curricula	NN	O	I-Task
-design	NN	O	I-Task
-and	NN	O	I-Task
-curricula	NN	O	I-Task
-content	NN	O	I-Task
-for	NN	O	O
-sports	NN	O	O
-free	NN	O	O
-normal	NN	O	O
-students	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-the	NN	O	O
-basis	NN	O	O
-of	NN	O	O
-the	NN	O	O
-investigation	NN	O	B-Task
-,	NN	O	O
-this	NN	O	O
-article	NN	O	O
-analyzed	NN	O	O
-the	NN	O	O
-theoretical	NN	O	B-Process
-framework	NN	O	I-Process
-of	NN	O	O
-curricular	NN	O	O
-construction	NN	O	O
-and	NN	O	O
-proposed	NN	O	O
-some	NN	O	O
-suggestions	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-hope	NN	O	O
-that	NN	O	O
-it	NN	O	O
-can	NN	O	O
-provide	NN	O	O
-some	NN	O	O
-evidences	NN	O	O
-for	NN	O	O
-curricula	NN	O	B-Process
-design	NN	O	I-Process
-for	NN	O	O
-sports	NN	O	O
-free	NN	O	O
-normal	NN	O	O
-students	NN	O	O
-.	NN	O	O
+With	0	4	O
+employment	5	15	O
+of	16	18	O
+utilizing	19	28	O
+the	29	32	O
+investigation	33	46	B-Process
+,	46	47	O
+expert	48	54	B-Process
+interviews	55	65	I-Process
+and	66	69	O
+comparison	70	80	O
+,	80	81	O
+this	82	86	O
+article	87	94	O
+investigates	95	107	B-Task
+the	108	111	I-Task
+curricula	112	121	I-Task
+construction	122	134	I-Task
+,	134	135	I-Task
+curricula	136	145	I-Task
+design	146	152	I-Task
+and	153	156	I-Task
+curricula	157	166	I-Task
+content	167	174	I-Task
+for	175	178	O
+sports	179	185	O
+free	186	190	O
+normal	191	197	O
+students	198	206	O
+.	206	207	O
+
+On	208	210	O
+the	211	214	O
+basis	215	220	O
+of	221	223	O
+the	224	227	O
+investigation	228	241	B-Task
+,	241	242	O
+this	243	247	O
+article	248	255	O
+analyzed	256	264	O
+the	265	268	O
+theoretical	269	280	B-Process
+framework	281	290	I-Process
+of	291	293	O
+curricular	294	304	O
+construction	305	317	O
+and	318	321	O
+proposed	322	330	O
+some	331	335	O
+suggestions	336	347	O
+.	347	348	O
+
+We	349	351	O
+hope	352	356	O
+that	357	361	O
+it	362	364	O
+can	365	368	O
+provide	369	376	O
+some	377	381	O
+evidences	382	391	O
+for	392	395	O
+curricula	396	405	B-Process
+design	406	412	I-Process
+for	413	416	O
+sports	417	423	O
+free	424	428	O
+normal	429	435	O
+students	436	444	O
+.	444	445	O
 
 
 -DOCSTART- (S2212667812000822)
 
-It	NN	O	O
-has	NN	O	O
-been	NN	O	O
-more	NN	O	O
-than	NN	O	O
-a	NN	O	O
-century	NN	O	O
-since	NN	O	O
-the	NN	O	O
-emergence	NN	O	O
-of	NN	O	O
-the	NN	O	O
-lettered	NN	O	B-Material
-words	NN	O	I-Material
-.	NN	O	O
-
-After	NN	O	O
-that	NN	O	O
-,	NN	O	O
-with	NN	O	O
-the	NN	O	O
-development	NN	O	B-Process
-of	NN	O	I-Process
-economy	NN	O	I-Process
-and	NN	O	I-Process
-culture	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-increase	NN	O	O
-of	NN	O	O
-international	NN	O	O
-contacts	NN	O	O
-and	NN	O	O
-communication	NN	O	B-Process
-between	NN	O	O
-China	NN	O	O
-and	NN	O	O
-foreign	NN	O	O
-countries	NN	O	O
-,	NN	O	O
-lettered	NN	O	B-Material
-words	NN	O	I-Material
-have	NN	O	O
-been	NN	O	O
-appearing	NN	O	O
-more	NN	O	O
-frequently	NN	O	O
-.	NN	O	O
-
-Lettered	NN	O	B-Material
-words	NN	O	I-Material
-have	NN	O	O
-become	NN	O	O
-an	NN	O	O
-indispensable	NN	O	O
-part	NN	O	O
-of	NN	O	O
-Chinese	NN	O	B-Material
-vocabulary	NN	O	I-Material
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-WTO	NN	O	B-Material
-,	NN	O	O
-Ka	NN	O	B-Material
-la	NN	O	I-Material
-OK	NN	O	I-Material
-and	NN	O	O
-MP3	NN	O	B-Material
-.	NN	O	O
-
-As	NN	O	O
-a	NN	O	O
-new	NN	O	O
-phenomenon	NN	O	O
-in	NN	O	O
-the	NN	O	O
-vocabulary	NN	O	B-Process
-system	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-modern	NN	O	O
-Chinese	NN	O	O
-,	NN	O	O
-the	NN	O	O
-lettered	NN	O	B-Material
-words	NN	O	I-Material
-draws	NN	O	O
-a	NN	O	O
-lot	NN	O	O
-of	NN	O	O
-academic	NN	O	O
-attention	NN	O	O
-.	NN	O	O
-
-Ecolinguistics	NN	O	B-Process
-is	NN	O	O
-a	NN	O	O
-new	NN	O	O
-branch	NN	O	B-Process
-of	NN	O	I-Process
-linguistic	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-combine	NN	O	B-Process
-the	NN	O	I-Process
-linguistic	NN	O	I-Process
-with	NN	O	I-Process
-the	NN	O	I-Process
-ecology	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-is	NN	O	O
-trying	NN	O	O
-to	NN	O	O
-analyze	NN	O	B-Task
-the	NN	O	I-Task
-lettered	NN	O	I-Task
-words	NN	O	I-Task
-from	NN	O	I-Task
-the	NN	O	I-Task
-perspective	NN	O	I-Task
-of	NN	O	I-Task
-Ecolinguistics	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-will	NN	O	O
-discuss	NN	O	B-Task
-the	NN	O	I-Task
-reasons	NN	O	I-Task
-of	NN	O	I-Task
-appearing	NN	O	I-Task
-the	NN	O	I-Task
-lettered	NN	O	I-Task
-words	NN	O	I-Task
-and	NN	O	O
-the	NN	O	O
-influence	NN	O	O
-may	NN	O	O
-give	NN	O	O
-to	NN	O	O
-modern	NN	O	O
-Chinese	NN	O	O
-form	NN	O	O
-the	NN	O	O
-ecolinguistic	NN	O	O
-view	NN	O	O
-.	NN	O	O
+It	0	2	O
+has	3	6	O
+been	7	11	O
+more	12	16	O
+than	17	21	O
+a	22	23	O
+century	24	31	O
+since	32	37	O
+the	38	41	O
+emergence	42	51	O
+of	52	54	O
+the	55	58	O
+lettered	59	67	B-Material
+words	68	73	I-Material
+.	73	74	O
+
+After	75	80	O
+that	81	85	O
+,	85	86	O
+with	87	91	O
+the	92	95	O
+development	96	107	B-Process
+of	108	110	I-Process
+economy	111	118	I-Process
+and	119	122	I-Process
+culture	123	130	I-Process
+,	130	131	O
+the	132	135	O
+increase	136	144	O
+of	145	147	O
+international	148	161	O
+contacts	162	170	O
+and	171	174	O
+communication	175	188	B-Process
+between	189	196	O
+China	197	202	O
+and	203	206	O
+foreign	207	214	O
+countries	215	224	O
+,	224	225	O
+lettered	226	234	B-Material
+words	235	240	I-Material
+have	241	245	O
+been	246	250	O
+appearing	251	260	O
+more	261	265	O
+frequently	266	276	O
+.	276	277	O
+
+Lettered	278	286	B-Material
+words	287	292	I-Material
+have	293	297	O
+become	298	304	O
+an	305	307	O
+indispensable	308	321	O
+part	322	326	O
+of	327	329	O
+Chinese	330	337	B-Material
+vocabulary	338	348	I-Material
+,	348	349	O
+such	350	354	O
+as	355	357	O
+WTO	358	361	B-Material
+,	361	362	O
+Ka	363	365	B-Material
+la	366	368	I-Material
+OK	369	371	I-Material
+and	372	375	O
+MP3	376	379	B-Material
+.	379	380	O
+
+As	381	383	O
+a	384	385	O
+new	386	389	O
+phenomenon	390	400	O
+in	401	403	O
+the	404	407	O
+vocabulary	408	418	B-Process
+system	419	425	I-Process
+of	426	428	O
+the	429	432	O
+modern	433	439	O
+Chinese	440	447	O
+,	447	448	O
+the	449	452	O
+lettered	453	461	B-Material
+words	462	467	I-Material
+draws	468	473	O
+a	474	475	O
+lot	476	479	O
+of	480	482	O
+academic	483	491	O
+attention	492	501	O
+.	501	502	O
+
+Ecolinguistics	503	517	B-Process
+is	518	520	O
+a	521	522	O
+new	523	526	O
+branch	527	533	B-Process
+of	534	536	I-Process
+linguistic	537	547	I-Process
+,	547	548	O
+which	549	554	O
+combine	555	562	B-Process
+the	563	566	I-Process
+linguistic	567	577	I-Process
+with	578	582	I-Process
+the	583	586	I-Process
+ecology	587	594	I-Process
+.	594	595	O
+
+This	596	600	O
+paper	601	606	O
+is	607	609	O
+trying	610	616	O
+to	617	619	O
+analyze	620	627	B-Task
+the	628	631	I-Task
+lettered	632	640	I-Task
+words	641	646	I-Task
+from	647	651	I-Task
+the	652	655	I-Task
+perspective	656	667	I-Task
+of	668	670	I-Task
+Ecolinguistics	671	685	I-Task
+.	685	686	O
+
+This	687	691	O
+paper	692	697	O
+will	698	702	O
+discuss	703	710	B-Task
+the	711	714	I-Task
+reasons	715	722	I-Task
+of	723	725	I-Task
+appearing	726	735	I-Task
+the	736	739	I-Task
+lettered	740	748	I-Task
+words	749	754	I-Task
+and	755	758	O
+the	759	762	O
+influence	763	772	O
+may	773	776	O
+give	777	781	O
+to	782	784	O
+modern	785	791	O
+Chinese	792	799	O
+form	800	804	O
+the	805	808	O
+ecolinguistic	809	822	O
+view	823	827	O
+.	827	828	O
 
 
 -DOCSTART- (S2212667812000883)
 
-The	NN	O	O
-21st	NN	O	O
-century	NN	O	O
-in	NN	O	O
-the	NN	O	O
-face	NN	O	O
-of	NN	O	O
-an	NN	O	O
-aging	NN	O	B-Process
-population	NN	O	I-Process
-trend	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-health	NN	O	O
-status	NN	O	O
-of	NN	O	O
-the	NN	O	O
-elderly	NN	O	O
-is	NN	O	O
-a	NN	O	O
-hot	NN	O	O
-issue	NN	O	O
-of	NN	O	O
-social	NN	O	O
-concern	NN	O	O
-,	NN	O	O
-therefore	NN	O	O
-,	NN	O	O
-to	NN	O	O
-explore	NN	O	B-Task
-the	NN	O	I-Task
-health	NN	O	I-Task
-status	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-Chinese	NN	O	O
-population	NN	O	O
-aging	NN	O	O
-and	NN	O	O
-the	NN	O	O
-elderly	NN	O	O
-,	NN	O	O
-elderly	NN	O	O
-fitness	NN	O	O
-exercise	NN	O	O
-Misunderstanding	NN	O	O
-study	NN	O	O
-and	NN	O	O
-formulate	NN	O	B-Task
-measures	NN	O	I-Task
-and	NN	O	I-Task
-methods	NN	O	I-Task
-of	NN	O	I-Task
-fitness	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-elderly	NN	O	O
-,	NN	O	O
-promoting	NN	O	O
-elderly	NN	O	B-Process
-fitness	NN	O	I-Process
-training	NN	O	I-Process
-towards	NN	O	O
-a	NN	O	O
-healthy	NN	O	O
-,	NN	O	O
-scientific	NN	O	O
-direction	NN	O	O
-,	NN	O	O
-to	NN	O	O
-promote	NN	O	B-Task
-a	NN	O	I-Task
-nationwide	NN	O	I-Task
-fitness	NN	O	I-Task
-activities	NN	O	I-Task
-carried	NN	O	O
-out	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-achieve	NN	O	O
-the	NN	O	O
-exercise	NN	O	B-Process
-of	NN	O	I-Process
-scientific	NN	O	I-Process
-fitness	NN	O	I-Process
-of	NN	O	O
-older	NN	O	O
-persons	NN	O	O
-.	NN	O	O
+The	0	3	O
+21st	4	8	O
+century	9	16	O
+in	17	19	O
+the	20	23	O
+face	24	28	O
+of	29	31	O
+an	32	34	O
+aging	35	40	B-Process
+population	41	51	I-Process
+trend	52	57	I-Process
+,	57	58	O
+the	59	62	O
+health	63	69	O
+status	70	76	O
+of	77	79	O
+the	80	83	O
+elderly	84	91	O
+is	92	94	O
+a	95	96	O
+hot	97	100	O
+issue	101	106	O
+of	107	109	O
+social	110	116	O
+concern	117	124	O
+,	124	125	O
+therefore	126	135	O
+,	135	136	O
+to	137	139	O
+explore	140	147	B-Task
+the	148	151	I-Task
+health	152	158	I-Task
+status	159	165	I-Task
+of	166	168	O
+the	169	172	O
+Chinese	173	180	O
+population	181	191	O
+aging	192	197	O
+and	198	201	O
+the	202	205	O
+elderly	206	213	O
+,	213	214	O
+elderly	215	222	O
+fitness	223	230	O
+exercise	231	239	O
+Misunderstanding	240	256	O
+study	257	262	O
+and	263	266	O
+formulate	267	276	B-Task
+measures	277	285	I-Task
+and	286	289	I-Task
+methods	290	297	I-Task
+of	298	300	I-Task
+fitness	301	308	I-Task
+of	309	311	O
+the	312	315	O
+elderly	316	323	O
+,	323	324	O
+promoting	325	334	O
+elderly	335	342	B-Process
+fitness	343	350	I-Process
+training	351	359	I-Process
+towards	360	367	O
+a	368	369	O
+healthy	370	377	O
+,	377	378	O
+scientific	379	389	O
+direction	390	399	O
+,	399	400	O
+to	401	403	O
+promote	404	411	B-Task
+a	412	413	I-Task
+nationwide	414	424	I-Task
+fitness	425	432	I-Task
+activities	433	443	I-Task
+carried	444	451	O
+out	452	455	O
+in	456	458	O
+order	459	464	O
+to	465	467	O
+achieve	468	475	O
+the	476	479	O
+exercise	480	488	B-Process
+of	489	491	I-Process
+scientific	492	502	I-Process
+fitness	503	510	I-Process
+of	511	513	O
+older	514	519	O
+persons	520	527	O
+.	527	528	O
 
 
 -DOCSTART- (S2212667812000895)
 
-Faced	NN	O	O
-with	NN	O	O
-deficient	NN	O	O
-ability	NN	O	O
-of	NN	O	O
-autonomic	NN	O	B-Task
-learning	NN	O	I-Task
-among	NN	O	O
-learners	NN	O	O
-and	NN	O	O
-low	NN	O	B-Process
-emotional	NN	O	I-Process
-involvement	NN	O	I-Process
-in	NN	O	O
-current	NN	O	O
-web	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-instructional	NN	O	I-Material
-environment	NN	O	I-Material
-,	NN	O	O
-here	NN	O	O
-we	NN	O	O
-propose	NN	O	B-Task
-a	NN	O	I-Task
-construct	NN	O	I-Task
-model	NN	O	I-Task
-that	NN	O	O
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-inter	NN	O	O
--	NN	O	O
-subjectivity	NN	O	O
-fusing	NN	O	B-Process
-cognition	NN	O	I-Process
-with	NN	O	I-Process
-emotion	NN	O	I-Process
-to	NN	O	O
-make	NN	O	O
-up	NN	O	O
-for	NN	O	O
-these	NN	O	O
-shortages	NN	O	O
-.	NN	O	O
-
-Further	NN	O	O
-more	NN	O	O
-,	NN	O	O
-we	NN	O	O
-’ve	NN	O	O
-put	NN	O	O
-the	NN	O	O
-construct	NN	O	B-Process
-model	NN	O	I-Process
-into	NN	O	O
-practice	NN	O	O
-through	NN	O	O
-the	NN	O	O
-online	NN	O	B-Process
-teaching	NN	O	I-Process
-reformation	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-quality	NN	O	O
-course	NN	O	O
-apparel	NN	O	O
-production	NN	O	O
-and	NN	O	O
-management	NN	O	O
-.	NN	O	O
+Faced	0	5	O
+with	6	10	O
+deficient	11	20	O
+ability	21	28	O
+of	29	31	O
+autonomic	32	41	B-Task
+learning	42	50	I-Task
+among	51	56	O
+learners	57	65	O
+and	66	69	O
+low	70	73	B-Process
+emotional	74	83	I-Process
+involvement	84	95	I-Process
+in	96	98	O
+current	99	106	O
+web	107	110	B-Material
+-	110	111	I-Material
+based	111	116	I-Material
+instructional	117	130	I-Material
+environment	131	142	I-Material
+,	142	143	O
+here	144	148	O
+we	149	151	O
+propose	152	159	B-Task
+a	160	161	I-Task
+construct	162	171	I-Task
+model	172	177	I-Task
+that	178	182	O
+is	183	185	O
+based	186	191	O
+on	192	194	O
+inter	195	200	O
+-	200	201	O
+subjectivity	201	213	O
+fusing	214	220	B-Process
+cognition	221	230	I-Process
+with	231	235	I-Process
+emotion	236	243	I-Process
+to	244	246	O
+make	247	251	O
+up	252	254	O
+for	255	258	O
+these	259	264	O
+shortages	265	274	O
+.	274	275	O
+
+Further	276	283	O
+more	284	288	O
+,	288	289	O
+we	290	292	O
+’ve	292	295	O
+put	296	299	O
+the	300	303	O
+construct	304	313	B-Process
+model	314	319	I-Process
+into	320	324	O
+practice	325	333	O
+through	334	341	O
+the	342	345	O
+online	346	352	B-Process
+teaching	353	361	I-Process
+reformation	362	373	I-Process
+of	374	376	O
+the	377	380	O
+quality	381	388	O
+course	389	395	O
+apparel	396	403	O
+production	404	414	O
+and	415	418	O
+management	419	429	O
+.	429	430	O
 
 
 -DOCSTART- (S2212667812000937)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-present	NN	O	O
-algorithms	NN	O	B-Task
-for	NN	O	I-Task
-automatic	NN	O	I-Task
-generation	NN	O	I-Task
-of	NN	O	I-Task
-logic	NN	O	I-Task
-reasoning	NN	O	I-Task
-questions	NN	O	I-Task
-.	NN	O	I-Task
-
-The	NN	O	O
-algorithms	NN	O	O
-are	NN	O	O
-able	NN	O	O
-to	NN	O	O
-construct	NN	O	B-Process
-questions	NN	O	I-Process
-that	NN	O	I-Process
-are	NN	O	I-Process
-solvable	NN	O	I-Process
-with	NN	O	I-Process
-unique	NN	O	I-Process
-solutions	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-algorithms	NN	O	O
-employ	NN	O	O
-AI	NN	O	B-Process
-techniques	NN	O	I-Process
-such	NN	O	O
-as	NN	O	O
-semantic	NN	O	B-Process
-networks	NN	O	I-Process
-to	NN	O	O
-produce	NN	O	O
-verbal	NN	O	B-Material
-questions	NN	O	I-Material
-.	NN	O	O
-
-These	NN	O	O
-algorithms	NN	O	O
-are	NN	O	O
-small	NN	O	O
-in	NN	O	O
-size	NN	O	O
-and	NN	O	O
-are	NN	O	O
-able	NN	O	O
-to	NN	O	O
-replace	NN	O	O
-traditional	NN	O	B-Material
-question	NN	O	I-Material
-databases	NN	O	I-Material
-.	NN	O	O
-
-They	NN	O	O
-are	NN	O	O
-particularly	NN	O	O
-suitable	NN	O	O
-for	NN	O	O
-implementation	NN	O	O
-on	NN	O	O
-the	NN	O	O
-memory	NN	O	B-Process
-constrained	NN	O	I-Process
-mobile	NN	O	I-Process
-platforms	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-algorithms	NN	O	O
-can	NN	O	O
-be	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-question	NN	O	B-Process
-generation	NN	O	I-Process
-for	NN	O	I-Process
-job	NN	O	I-Process
-interview	NN	O	I-Process
-,	NN	O	O
-civil	NN	O	O
-service	NN	O	O
-exam	NN	O	O
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+we	15	17	O
+present	18	25	O
+algorithms	26	36	B-Task
+for	37	40	I-Task
+automatic	41	50	I-Task
+generation	51	61	I-Task
+of	62	64	I-Task
+logic	65	70	I-Task
+reasoning	71	80	I-Task
+questions	81	90	I-Task
+.	90	91	I-Task
+
+The	92	95	O
+algorithms	96	106	O
+are	107	110	O
+able	111	115	O
+to	116	118	O
+construct	119	128	B-Process
+questions	129	138	I-Process
+that	139	143	I-Process
+are	144	147	I-Process
+solvable	148	156	I-Process
+with	157	161	I-Process
+unique	162	168	I-Process
+solutions	169	178	I-Process
+.	178	179	O
+
+The	180	183	O
+algorithms	184	194	O
+employ	195	201	O
+AI	202	204	B-Process
+techniques	205	215	I-Process
+such	216	220	O
+as	221	223	O
+semantic	224	232	B-Process
+networks	233	241	I-Process
+to	242	244	O
+produce	245	252	O
+verbal	253	259	B-Material
+questions	260	269	I-Material
+.	269	270	O
+
+These	271	276	O
+algorithms	277	287	O
+are	288	291	O
+small	292	297	O
+in	298	300	O
+size	301	305	O
+and	306	309	O
+are	310	313	O
+able	314	318	O
+to	319	321	O
+replace	322	329	O
+traditional	330	341	B-Material
+question	342	350	I-Material
+databases	351	360	I-Material
+.	360	361	O
+
+They	362	366	O
+are	367	370	O
+particularly	371	383	O
+suitable	384	392	O
+for	393	396	O
+implementation	397	411	O
+on	412	414	O
+the	415	418	O
+memory	419	425	B-Process
+constrained	426	437	I-Process
+mobile	438	444	I-Process
+platforms	445	454	I-Process
+.	454	455	O
+
+The	456	459	O
+algorithms	460	470	O
+can	471	474	O
+be	475	477	O
+applied	478	485	O
+to	486	488	O
+question	489	497	B-Process
+generation	498	508	I-Process
+for	509	512	I-Process
+job	513	516	I-Process
+interview	517	526	I-Process
+,	526	527	O
+civil	528	533	O
+service	534	541	O
+exam	542	546	O
+,	546	547	O
+etc	548	551	O
+.	551	552	O
 
 
 -DOCSTART- (S2212667812000949)
 
-By	NN	O	O
-referring	NN	O	O
-to	NN	O	O
-many	NN	O	O
-relevant	NN	O	O
-data	NN	O	B-Material
-and	NN	O	I-Material
-essays	NN	O	I-Material
-,	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-aims	NN	O	O
-at	NN	O	O
-discussing	NN	O	B-Task
-and	NN	O	I-Task
-analyzing	NN	O	I-Task
-the	NN	O	I-Task
-importance	NN	O	I-Task
-of	NN	O	I-Task
-hip	NN	O	I-Task
--	NN	O	I-Task
-push	NN	O	I-Task
-applied	NN	O	I-Task
-in	NN	O	I-Task
-walking	NN	O	I-Task
-race	NN	O	I-Task
-,	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-point	NN	O	O
-of	NN	O	O
-the	NN	O	O
-view	NN	O	O
-on	NN	O	O
-sports	NN	O	B-Process
-biomechanics	NN	O	I-Process
-.With	NN	O	O
-
-redard	NN	O	O
-to	NN	O	O
-the	NN	O	O
-existing	NN	O	O
-problems	NN	O	O
-,	NN	O	O
-the	NN	O	O
-authors	NN	O	O
-have	NN	O	O
-made	NN	O	O
-an	NN	O	O
-objective	NN	O	B-Task
-analysis	NN	O	I-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-sports	NN	O	I-Task
--	NN	O	I-Task
-biomechanics	NN	O	I-Task
-factors	NN	O	I-Task
-that	NN	O	O
-can	NN	O	O
-influence	NN	O	O
-the	NN	O	O
-race	NN	O	O
-,	NN	O	O
-hoping	NN	O	O
-to	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-theoretical	NN	O	B-Task
-basis	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-deep	NN	O	B-Task
-development	NN	O	I-Task
-and	NN	O	I-Task
-training	NN	O	I-Task
-of	NN	O	I-Task
-walking	NN	O	I-Task
-race	NN	O	I-Task
-.	NN	O	O
+By	0	2	O
+referring	3	12	O
+to	13	15	O
+many	16	20	O
+relevant	21	29	O
+data	30	34	B-Material
+and	35	38	I-Material
+essays	39	45	I-Material
+,	45	46	O
+this	47	51	O
+paper	52	57	O
+aims	58	62	O
+at	63	65	O
+discussing	66	76	B-Task
+and	77	80	I-Task
+analyzing	81	90	I-Task
+the	91	94	I-Task
+importance	95	105	I-Task
+of	106	108	I-Task
+hip	109	112	I-Task
+-	112	113	I-Task
+push	113	117	I-Task
+applied	118	125	I-Task
+in	126	128	I-Task
+walking	129	136	I-Task
+race	137	141	I-Task
+,	141	142	O
+based	142	147	O
+on	148	150	O
+the	151	154	O
+point	155	160	O
+of	161	163	O
+the	164	167	O
+view	168	172	O
+on	173	175	O
+sports	176	182	B-Process
+biomechanics	183	195	I-Process
+.With	196	201	O
+
+redard	202	208	O
+to	209	211	O
+the	212	215	O
+existing	216	224	O
+problems	225	233	O
+,	233	234	O
+the	234	237	O
+authors	238	245	O
+have	246	250	O
+made	251	255	O
+an	256	258	O
+objective	259	268	B-Task
+analysis	269	277	I-Task
+on	278	280	I-Task
+the	281	284	I-Task
+sports	285	291	I-Task
+-	291	292	I-Task
+biomechanics	292	304	I-Task
+factors	305	312	I-Task
+that	313	317	O
+can	318	321	O
+influence	322	331	O
+the	332	335	O
+race	336	340	O
+,	340	341	O
+hoping	341	347	O
+to	348	350	O
+provide	351	358	O
+a	359	360	O
+theoretical	361	372	B-Task
+basis	373	378	I-Task
+for	379	382	O
+the	383	386	O
+deep	387	391	B-Task
+development	392	403	I-Task
+and	404	407	I-Task
+training	408	416	I-Task
+of	417	419	I-Task
+walking	420	427	I-Task
+race	428	432	I-Task
+.	432	433	O
 
 
 -DOCSTART- (S221266781300018X)
 
-Amodel	NN	O	O
-are	NN	O	O
-proposed	NN	O	O
-for	NN	O	O
-modeling	NN	O	B-Task
-data	NN	O	I-Task
--	NN	O	I-Task
-centric	NN	O	I-Task
-Web	NN	O	I-Task
-services	NN	O	I-Task
-which	NN	O	O
-are	NN	O	O
-powered	NN	O	O
-by	NN	O	O
-relational	NN	O	B-Material
-databases	NN	O	I-Material
-and	NN	O	O
-interact	NN	O	B-Process
-with	NN	O	I-Process
-users	NN	O	I-Process
-according	NN	O	O
-to	NN	O	O
-logical	NN	O	B-Process
-formulas	NN	O	I-Process
-specifying	NN	O	O
-input	NN	O	O
-constraints	NN	O	O
-,	NN	O	O
-control	NN	O	B-Process
--	NN	O	I-Process
-flow	NN	O	I-Process
-constraints	NN	O	I-Process
-and	NN	O	O
-state	NN	O	B-Process
-/	NN	O	I-Process
-output	NN	O	I-Process
-/	NN	O	I-Process
-action	NN	O	I-Process
-rules	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-Linear	NN	O	B-Process
-Temporal	NN	O	I-Process
-First	NN	O	I-Process
--	NN	O	I-Process
-Order	NN	O	I-Process
-Logic	NN	O	I-Process
-(	NN	O	O
-LTL	NN	O	B-Process
--	NN	O	I-Process
-FO	NN	O	I-Process
-)	NN	O	O
-formulas	NN	O	O
-over	NN	O	O
-inputs	NN	O	O
-,	NN	O	O
-states	NN	O	O
-,	NN	O	O
-outputs	NN	O	O
-and	NN	O	O
-actions	NN	O	O
-are	NN	O	O
-used	NN	O	O
-to	NN	O	O
-express	NN	O	O
-the	NN	O	O
-properties	NN	O	O
-to	NN	O	O
-be	NN	O	O
-verified	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-have	NN	O	O
-proven	NN	O	O
-that	NN	O	O
-automatic	NN	O	O
-verification	NN	O	O
-of	NN	O	O
-LTL	NN	O	B-Process
--	NN	O	I-Process
-FO	NN	O	I-Process
-properties	NN	O	O
-of	NN	O	O
-data	NN	O	B-Material
--	NN	O	I-Material
-centric	NN	O	I-Material
-Web	NN	O	I-Material
-services	NN	O	I-Material
-under	NN	O	O
-input	NN	O	O
--	NN	O	O
-bounded	NN	O	O
-constraints	NN	O	O
-is	NN	O	O
-decidable	NN	O	O
-by	NN	O	O
-reducing	NN	O	B-Process
-Web	NN	O	I-Process
-services	NN	O	I-Process
-to	NN	O	I-Process
-data	NN	O	I-Process
--	NN	O	I-Process
-centric	NN	O	I-Process
-Web	NN	O	I-Process
-applications	NN	O	I-Process
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-we	NN	O	O
-can	NN	O	O
-verify	NN	O	B-Task
-Web	NN	O	I-Task
-service	NN	O	I-Task
-specifications	NN	O	I-Task
-using	NN	O	O
-existing	NN	O	O
-verifier	NN	O	O
-designed	NN	O	O
-for	NN	O	O
-Web	NN	O	B-Process
-applications	NN	O	I-Process
-.	NN	O	O
+Amodel	0	6	O
+are	7	10	O
+proposed	11	19	O
+for	20	23	O
+modeling	24	32	B-Task
+data	33	37	I-Task
+-	37	38	I-Task
+centric	38	45	I-Task
+Web	46	49	I-Task
+services	50	58	I-Task
+which	59	64	O
+are	65	68	O
+powered	69	76	O
+by	77	79	O
+relational	80	90	B-Material
+databases	91	100	I-Material
+and	101	104	O
+interact	105	113	B-Process
+with	114	118	I-Process
+users	119	124	I-Process
+according	125	134	O
+to	135	137	O
+logical	138	145	B-Process
+formulas	146	154	I-Process
+specifying	155	165	O
+input	166	171	O
+constraints	172	183	O
+,	183	184	O
+control	185	192	B-Process
+-	192	193	I-Process
+flow	193	197	I-Process
+constraints	198	209	I-Process
+and	210	213	O
+state	214	219	B-Process
+/	219	220	I-Process
+output	220	226	I-Process
+/	226	227	I-Process
+action	227	233	I-Process
+rules	234	239	I-Process
+.	239	240	O
+
+The	241	244	O
+Linear	245	251	B-Process
+Temporal	252	260	I-Process
+First	261	266	I-Process
+-	266	267	I-Process
+Order	267	272	I-Process
+Logic	273	278	I-Process
+(	279	280	O
+LTL	280	283	B-Process
+-	283	284	I-Process
+FO	284	286	I-Process
+)	286	287	O
+formulas	288	296	O
+over	297	301	O
+inputs	302	308	O
+,	308	309	O
+states	310	316	O
+,	316	317	O
+outputs	318	325	O
+and	326	329	O
+actions	330	337	O
+are	338	341	O
+used	342	346	O
+to	347	349	O
+express	350	357	O
+the	358	361	O
+properties	362	372	O
+to	373	375	O
+be	376	378	O
+verified	379	387	O
+.	387	388	O
+
+We	388	390	O
+have	391	395	O
+proven	396	402	O
+that	403	407	O
+automatic	408	417	O
+verification	418	430	O
+of	431	433	O
+LTL	434	437	B-Process
+-	437	438	I-Process
+FO	438	440	I-Process
+properties	441	451	O
+of	452	454	O
+data	455	459	B-Material
+-	459	460	I-Material
+centric	460	467	I-Material
+Web	468	471	I-Material
+services	472	480	I-Material
+under	481	486	O
+input	487	492	O
+-	492	493	O
+bounded	493	500	O
+constraints	501	512	O
+is	513	515	O
+decidable	516	525	O
+by	526	528	O
+reducing	529	537	B-Process
+Web	538	541	I-Process
+services	542	550	I-Process
+to	551	553	I-Process
+data	554	558	I-Process
+-	558	559	I-Process
+centric	559	566	I-Process
+Web	567	570	I-Process
+applications	571	583	I-Process
+.	583	584	O
+
+Thus	585	589	O
+,	589	590	O
+we	591	593	O
+can	594	597	O
+verify	598	604	B-Task
+Web	605	608	I-Task
+service	609	616	I-Task
+specifications	617	631	I-Task
+using	632	637	O
+existing	638	646	O
+verifier	647	655	O
+designed	656	664	O
+for	665	668	O
+Web	669	672	B-Process
+applications	673	685	I-Process
+.	685	686	O
 
 
 -DOCSTART- (S2212667813000610)
 
-The	NN	O	O
-most	NN	O	O
-important	NN	O	O
-goal	NN	O	O
-of	NN	O	O
-the	NN	O	O
-software	NN	O	B-Process
-industry	NN	O	I-Process
-is	NN	O	O
-to	NN	O	O
-produce	NN	O	B-Task
-successful	NN	O	I-Task
-product	NN	O	I-Task
-.	NN	O	O
-
-During	NN	O	O
-the	NN	O	O
-process	NN	O	O
-of	NN	O	O
-production	NN	O	B-Process
-several	NN	O	O
-times	NN	O	O
-the	NN	O	O
-product	NN	O	B-Process
-fails	NN	O	I-Process
-due	NN	O	O
-to	NN	O	O
-lack	NN	O	O
-of	NN	O	O
-proper	NN	O	O
-management	NN	O	B-Process
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-is	NN	O	O
-exploring	NN	O	O
-the	NN	O	O
-role	NN	O	B-Task
-of	NN	O	I-Task
-software	NN	O	I-Task
-engineering	NN	O	I-Task
-courses	NN	O	I-Task
-in	NN	O	O
-computer	NN	O	B-Task
-engineering	NN	O	I-Task
-related	NN	O	O
-branches	NN	O	O
-and	NN	O	O
-then	NN	O	O
-reasons	NN	O	O
-why	NN	O	O
-software	NN	O	O
-developers	NN	O	O
-lack	NN	O	O
-project	NN	O	B-Process
-management	NN	O	I-Process
-in	NN	O	O
-proper	NN	O	B-Process
-software	NN	O	I-Process
-management	NN	O	I-Process
-trainings	NN	O	I-Process
-.	NN	O	O
-
-Our	NN	O	O
-findings	NN	O	O
-reflect	NN	O	O
-that	NN	O	O
-in	NN	O	O
-majority	NN	O	O
-of	NN	O	O
-computer	NN	O	O
-related	NN	O	O
-branches	NN	O	O
-like	NN	O	O
-computer	NN	O	O
-science	NN	O	O
-,	NN	O	O
-computer	NN	O	O
-engineering	NN	O	O
-,	NN	O	O
-information	NN	O	O
-system	NN	O	O
-engineering	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-place	NN	O	O
-for	NN	O	O
-software	NN	O	B-Process
-project	NN	O	I-Process
-management	NN	O	I-Process
-course	NN	O	I-Process
-.	NN	O	O
-
-Our	NN	O	O
-findings	NN	O	O
-are	NN	O	O
-based	NN	O	O
-on	NN	O	O
-a	NN	O	O
-survey	NN	O	B-Task
-of	NN	O	I-Task
-course	NN	O	I-Task
-curriculums	NN	O	I-Task
-of	NN	O	O
-computer	NN	O	B-Task
-engineering	NN	O	I-Task
-,	NN	O	O
-computer	NN	O	B-Task
-science	NN	O	I-Task
-and	NN	O	I-Task
-information	NN	O	I-Task
-system	NN	O	I-Task
-engineering	NN	O	I-Task
-courses	NN	O	O
-taught	NN	O	O
-in	NN	O	O
-Turkish	NN	O	O
-universities	NN	O	O
-.	NN	O	O
+The	0	3	O
+most	4	8	O
+important	9	18	O
+goal	19	23	O
+of	24	26	O
+the	27	30	O
+software	31	39	B-Process
+industry	40	48	I-Process
+is	49	51	O
+to	52	54	O
+produce	55	62	B-Task
+successful	63	73	I-Task
+product	74	81	I-Task
+.	81	82	O
+
+During	83	89	O
+the	90	93	O
+process	94	101	O
+of	102	104	O
+production	105	115	B-Process
+several	116	123	O
+times	124	129	O
+the	130	133	O
+product	134	141	B-Process
+fails	142	147	I-Process
+due	148	151	O
+to	152	154	O
+lack	155	159	O
+of	160	162	O
+proper	163	169	O
+management	170	180	B-Process
+.	180	181	O
+
+This	182	186	O
+paper	187	192	O
+is	193	195	O
+exploring	196	205	O
+the	206	209	O
+role	210	214	B-Task
+of	215	217	I-Task
+software	218	226	I-Task
+engineering	227	238	I-Task
+courses	239	246	I-Task
+in	247	249	O
+computer	250	258	B-Task
+engineering	259	270	I-Task
+related	271	278	O
+branches	279	287	O
+and	288	291	O
+then	292	296	O
+reasons	297	304	O
+why	305	308	O
+software	309	317	O
+developers	318	328	O
+lack	329	333	O
+project	334	341	B-Process
+management	342	352	I-Process
+in	353	355	O
+proper	356	362	B-Process
+software	363	371	I-Process
+management	372	382	I-Process
+trainings	383	392	I-Process
+.	392	393	O
+
+Our	394	397	O
+findings	398	406	O
+reflect	407	414	O
+that	415	419	O
+in	420	422	O
+majority	423	431	O
+of	432	434	O
+computer	435	443	O
+related	444	451	O
+branches	452	460	O
+like	461	465	O
+computer	466	474	O
+science	475	482	O
+,	482	483	O
+computer	484	492	O
+engineering	493	504	O
+,	504	505	O
+information	506	517	O
+system	518	524	O
+engineering	525	536	O
+there	537	542	O
+is	543	545	O
+no	546	548	O
+place	549	554	O
+for	555	558	O
+software	559	567	B-Process
+project	568	575	I-Process
+management	576	586	I-Process
+course	587	593	I-Process
+.	593	594	O
+
+Our	595	598	O
+findings	599	607	O
+are	608	611	O
+based	612	617	O
+on	618	620	O
+a	621	622	O
+survey	623	629	B-Task
+of	630	632	I-Task
+course	633	639	I-Task
+curriculums	640	651	I-Task
+of	652	654	O
+computer	655	663	B-Task
+engineering	664	675	I-Task
+,	675	676	O
+computer	677	685	B-Task
+science	686	693	I-Task
+and	694	697	I-Task
+information	698	709	I-Task
+system	710	716	I-Task
+engineering	717	728	I-Task
+courses	729	736	O
+taught	737	743	O
+in	744	746	O
+Turkish	747	754	O
+universities	755	767	O
+.	767	768	O
 
 
 -DOCSTART- (S2212667813000762)
 
-Analyzing	NN	O	O
-the	NN	O	O
-significance	NN	O	O
-of	NN	O	O
-macroscopical	NN	O	O
-dynamic	NN	O	O
-monitoring	NN	O	O
-of	NN	O	O
-new	NN	O	O
-add	NN	O	O
-construction	NN	O	B-Material
-land	NN	O	I-Material
-,	NN	O	O
-considering	NN	O	O
-the	NN	O	O
-influence	NN	O	O
-of	NN	O	O
-various	NN	O	O
-factors	NN	O	O
-,	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-selected	NN	O	O
-Yinchuan	NN	O	B-Material
-Plain	NN	O	I-Material
-for	NN	O	O
-a	NN	O	O
-typical	NN	O	O
-experimental	NN	O	O
-zone	NN	O	O
-,	NN	O	O
-built	NN	O	O
-knowledge	NN	O	B-Material
-base	NN	O	I-Material
-of	NN	O	O
-remote	NN	O	B-Process
-sensing	NN	O	I-Process
-images	NN	O	I-Process
-interpretation	NN	O	I-Process
-,	NN	O	O
-used	NN	O	O
-multi	NN	O	B-Material
--	NN	O	I-Material
-temporal	NN	O	I-Material
-remote	NN	O	I-Material
-sensing	NN	O	I-Material
-images	NN	O	I-Material
-,	NN	O	O
-carried	NN	O	O
-through	NN	O	O
-interactive	NN	O	B-Process
-interpretation	NN	O	I-Process
-of	NN	O	I-Process
-change	NN	O	I-Process
-patterns	NN	O	I-Process
-of	NN	O	O
-new	NN	O	O
-add	NN	O	O
-construction	NN	O	B-Material
-land	NN	O	I-Material
-and	NN	O	O
-field	NN	O	B-Process
-validation	NN	O	I-Process
-.	NN	O	O
-
-Interpretation	NN	O	B-Task
-results	NN	O	O
-of	NN	O	O
-20	NN	O	O
-m	NN	O	O
-scale	NN	O	O
-remote	NN	O	B-Material
-sensing	NN	O	I-Material
-image	NN	O	I-Material
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-minimum	NN	O	O
-spot	NN	O	O
-average	NN	O	O
-area	NN	O	O
-of	NN	O	O
-new	NN	O	O
-construction	NN	O	B-Material
-land	NN	O	I-Material
-change	NN	O	O
-monitored	NN	O	O
-by	NN	O	O
-20	NN	O	O
-m	NN	O	O
-scale	NN	O	O
-remote	NN	O	B-Material
-sensing	NN	O	I-Material
-data	NN	O	I-Material
-is	NN	O	O
-about	NN	O	O
-6	NN	O	O
-acres	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-ability	NN	O	O
-20	NN	O	O
-m	NN	O	O
-scale	NN	O	O
-remote	NN	O	B-Material
-sensing	NN	O	I-Material
-data	NN	O	I-Material
-identifies	NN	O	B-Process
-new	NN	O	I-Process
-increased	NN	O	I-Process
-construction	NN	O	I-Process
-land	NN	O	I-Process
-change	NN	O	O
-further	NN	O	O
-strengthens	NN	O	O
-,	NN	O	O
-shows	NN	O	O
-in	NN	O	O
-the	NN	O	O
-recognition	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-smallest	NN	O	I-Process
-spot	NN	O	I-Process
-area	NN	O	I-Process
-reduces	NN	O	O
-and	NN	O	O
-the	NN	O	O
-recognition	NN	O	B-Process
-accuracy	NN	O	O
-increases	NN	O	O
-.	NN	O	O
+Analyzing	0	9	O
+the	10	13	O
+significance	14	26	O
+of	27	29	O
+macroscopical	30	43	O
+dynamic	44	51	O
+monitoring	52	62	O
+of	63	65	O
+new	66	69	O
+add	70	73	O
+construction	74	86	B-Material
+land	87	91	I-Material
+,	91	92	O
+considering	93	104	O
+the	105	108	O
+influence	109	118	O
+of	119	121	O
+various	122	129	O
+factors	130	137	O
+,	137	138	O
+this	139	143	O
+paper	144	149	O
+selected	150	158	O
+Yinchuan	159	167	B-Material
+Plain	168	173	I-Material
+for	174	177	O
+a	178	179	O
+typical	180	187	O
+experimental	188	200	O
+zone	201	205	O
+,	205	206	O
+built	207	212	O
+knowledge	213	222	B-Material
+base	223	227	I-Material
+of	228	230	O
+remote	231	237	B-Process
+sensing	238	245	I-Process
+images	246	252	I-Process
+interpretation	253	267	I-Process
+,	267	268	O
+used	269	273	O
+multi	274	279	B-Material
+-	279	280	I-Material
+temporal	280	288	I-Material
+remote	289	295	I-Material
+sensing	296	303	I-Material
+images	304	310	I-Material
+,	310	311	O
+carried	312	319	O
+through	320	327	O
+interactive	328	339	B-Process
+interpretation	340	354	I-Process
+of	355	357	I-Process
+change	358	364	I-Process
+patterns	365	373	I-Process
+of	374	376	O
+new	377	380	O
+add	381	384	O
+construction	385	397	B-Material
+land	398	402	I-Material
+and	403	406	O
+field	407	412	B-Process
+validation	413	423	I-Process
+.	423	424	O
+
+Interpretation	425	439	B-Task
+results	440	447	O
+of	448	450	O
+20	451	453	O
+m	453	454	O
+scale	455	460	O
+remote	461	467	B-Material
+sensing	468	475	I-Material
+image	476	481	I-Material
+show	482	486	O
+that	487	491	O
+the	492	495	O
+minimum	496	503	O
+spot	504	508	O
+average	509	516	O
+area	517	521	O
+of	522	524	O
+new	525	528	O
+construction	529	541	B-Material
+land	542	546	I-Material
+change	547	553	O
+monitored	554	563	O
+by	564	566	O
+20	567	569	O
+m	569	570	O
+scale	571	576	O
+remote	577	583	B-Material
+sensing	584	591	I-Material
+data	592	596	I-Material
+is	597	599	O
+about	600	605	O
+6	606	607	O
+acres	608	613	O
+.	613	614	O
+
+The	615	618	O
+ability	619	626	O
+20	627	629	O
+m	629	630	O
+scale	631	636	O
+remote	637	643	B-Material
+sensing	644	651	I-Material
+data	652	656	I-Material
+identifies	657	667	B-Process
+new	668	671	I-Process
+increased	672	681	I-Process
+construction	682	694	I-Process
+land	695	699	I-Process
+change	700	706	O
+further	707	714	O
+strengthens	715	726	O
+,	726	727	O
+shows	728	733	O
+in	734	736	O
+the	737	740	O
+recognition	741	752	B-Process
+of	753	755	I-Process
+the	756	759	I-Process
+smallest	760	768	I-Process
+spot	769	773	I-Process
+area	774	778	I-Process
+reduces	779	786	O
+and	787	790	O
+the	791	794	O
+recognition	795	806	B-Process
+accuracy	807	815	O
+increases	816	825	O
+.	825	826	O
 
 
 -DOCSTART- (S2212667813000774)
 
-Evolutionary	NN	O	B-Process
-Algorithms	NN	O	I-Process
-are	NN	O	O
-the	NN	O	O
-stochastic	NN	O	B-Process
-optimization	NN	O	I-Process
-methods	NN	O	I-Process
-,	NN	O	O
-simulating	NN	O	O
-the	NN	O	O
-behavior	NN	O	O
-of	NN	O	O
-natural	NN	O	B-Process
-evolution	NN	O	I-Process
-.	NN	O	O
-
-These	NN	O	O
-algorithms	NN	O	O
-are	NN	O	O
-basically	NN	O	O
-population	NN	O	B-Process
-based	NN	O	I-Process
-search	NN	O	I-Process
-procedures	NN	O	I-Process
-efficiently	NN	O	O
-dealing	NN	O	O
-with	NN	O	O
-complex	NN	O	O
-search	NN	O	O
-spaces	NN	O	O
-having	NN	O	O
-robust	NN	O	O
-and	NN	O	O
-powerful	NN	O	O
-search	NN	O	B-Process
-mechanism	NN	O	I-Process
-.	NN	O	O
-
-EAs	NN	O	B-Process
-are	NN	O	O
-highly	NN	O	O
-applicable	NN	O	O
-in	NN	O	O
-multiobjective	NN	O	O
-optimization	NN	O	B-Process
-problem	NN	O	I-Process
-which	NN	O	O
-are	NN	O	O
-having	NN	O	O
-conflicting	NN	O	O
-objectives	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-reviews	NN	O	B-Task
-the	NN	O	I-Task
-work	NN	O	I-Task
-carried	NN	O	I-Task
-out	NN	O	I-Task
-for	NN	O	I-Task
-diversity	NN	O	I-Task
-and	NN	O	I-Task
-convergence	NN	O	I-Task
-issues	NN	O	I-Task
-in	NN	O	I-Task
-EMO	NN	O	I-Task
-.	NN	O	O
+Evolutionary	0	12	B-Process
+Algorithms	13	23	I-Process
+are	24	27	O
+the	28	31	O
+stochastic	32	42	B-Process
+optimization	43	55	I-Process
+methods	56	63	I-Process
+,	63	64	O
+simulating	65	75	O
+the	76	79	O
+behavior	80	88	O
+of	89	91	O
+natural	92	99	B-Process
+evolution	100	109	I-Process
+.	109	110	O
+
+These	111	116	O
+algorithms	117	127	O
+are	128	131	O
+basically	132	141	O
+population	142	152	B-Process
+based	153	158	I-Process
+search	159	165	I-Process
+procedures	166	176	I-Process
+efficiently	177	188	O
+dealing	189	196	O
+with	197	201	O
+complex	202	209	O
+search	210	216	O
+spaces	217	223	O
+having	224	230	O
+robust	231	237	O
+and	238	241	O
+powerful	242	250	O
+search	251	257	B-Process
+mechanism	258	267	I-Process
+.	267	268	O
+
+EAs	269	272	B-Process
+are	273	276	O
+highly	277	283	O
+applicable	284	294	O
+in	295	297	O
+multiobjective	298	312	O
+optimization	313	325	B-Process
+problem	326	333	I-Process
+which	334	339	O
+are	340	343	O
+having	344	350	O
+conflicting	351	362	O
+objectives	363	373	O
+.	373	374	O
+
+This	375	379	O
+paper	380	385	O
+reviews	386	393	B-Task
+the	394	397	I-Task
+work	398	402	I-Task
+carried	403	410	I-Task
+out	411	414	I-Task
+for	415	418	I-Task
+diversity	419	428	I-Task
+and	429	432	I-Task
+convergence	433	444	I-Task
+issues	445	451	I-Task
+in	452	454	I-Task
+EMO	455	458	I-Task
+.	458	459	O
 
 
 -DOCSTART- (S221266781300083X)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-coordination	NN	O	B-Task
-problem	NN	O	I-Task
-of	NN	O	I-Task
-agricultural	NN	O	I-Task
-products	NN	O	I-Task
-supply	NN	O	I-Task
-chain	NN	O	I-Task
-with	NN	O	O
-stochastic	NN	O	B-Process
-yield	NN	O	I-Process
-is	NN	O	O
-studied	NN	O	O
-based	NN	O	O
-on	NN	O	O
-prices	NN	O	B-Process
-compensation	NN	O	I-Process
-strategy	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-agricultural	NN	O	B-Process
-producing	NN	O	I-Process
-is	NN	O	O
-influenced	NN	O	O
-by	NN	O	O
-the	NN	O	O
-natural	NN	O	O
-conditions	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-yield	NN	O	B-Process
-is	NN	O	O
-uncertain	NN	O	O
-.	NN	O	O
-
-While	NN	O	O
-agricultural	NN	O	B-Material
-products	NN	O	I-Material
-is	NN	O	O
-rigid	NN	O	O
-demand	NN	O	O
-goods	NN	O	O
-,	NN	O	O
-the	NN	O	O
-fluctuations	NN	O	B-Process
-of	NN	O	I-Process
-yield	NN	O	I-Process
-cause	NN	O	O
-greater	NN	O	O
-volatility	NN	O	O
-of	NN	O	O
-prices	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-two-	NN	O	B-Process
-echelon	NN	O	I-Process
-supply	NN	O	I-Process
-chain	NN	O	I-Process
-with	NN	O	O
-one	NN	O	O
-supplier	NN	O	O
-and	NN	O	O
-one	NN	O	O
-retailor	NN	O	O
-is	NN	O	O
-studied	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-mathematical	NN	O	B-Task
-model	NN	O	I-Task
-is	NN	O	I-Task
-constructed	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-model	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-prices	NN	O	B-Process
-compensation	NN	O	I-Process
-strategy	NN	O	I-Process
-is	NN	O	O
-Pareto	NN	O	O
-improvement	NN	O	O
-for	NN	O	O
-agricultural	NN	O	B-Process
-products	NN	O	I-Process
-supply	NN	O	I-Process
-chain	NN	O	I-Process
-with	NN	O	O
-stochastic	NN	O	B-Process
-yield	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-it	NN	O	O
-also	NN	O	O
-incentive	NN	O	O
-agricultural	NN	O	B-Material
-products	NN	O	I-Material
-supplier	NN	O	O
-to	NN	O	O
-rise	NN	O	O
-the	NN	O	O
-production	NN	O	B-Process
-plan	NN	O	I-Process
-and	NN	O	O
-balance	NN	O	O
-the	NN	O	O
-profit	NN	O	B-Process
-allocation	NN	O	I-Process
-of	NN	O	O
-supply	NN	O	B-Process
-chain	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+coordination	15	27	B-Task
+problem	28	35	I-Task
+of	36	38	I-Task
+agricultural	39	51	I-Task
+products	52	60	I-Task
+supply	61	67	I-Task
+chain	68	73	I-Task
+with	74	78	O
+stochastic	79	89	B-Process
+yield	90	95	I-Process
+is	96	98	O
+studied	99	106	O
+based	107	112	O
+on	113	115	O
+prices	116	122	B-Process
+compensation	123	135	I-Process
+strategy	136	144	I-Process
+.	144	145	O
+
+The	146	149	O
+agricultural	150	162	B-Process
+producing	163	172	I-Process
+is	173	175	O
+influenced	176	186	O
+by	187	189	O
+the	190	193	O
+natural	194	201	O
+conditions	202	212	O
+,	212	213	O
+and	214	217	O
+the	218	221	O
+yield	222	227	B-Process
+is	228	230	O
+uncertain	231	240	O
+.	240	241	O
+
+While	242	247	O
+agricultural	248	260	B-Material
+products	261	269	I-Material
+is	270	272	O
+rigid	273	278	O
+demand	279	285	O
+goods	286	291	O
+,	291	292	O
+the	293	296	O
+fluctuations	297	309	B-Process
+of	310	312	I-Process
+yield	313	318	I-Process
+cause	319	324	O
+greater	325	332	O
+volatility	333	343	O
+of	344	346	O
+prices	347	353	O
+.	353	354	O
+
+The	355	358	O
+two-	359	363	B-Process
+echelon	364	371	I-Process
+supply	372	378	I-Process
+chain	379	384	I-Process
+with	385	389	O
+one	390	393	O
+supplier	394	402	O
+and	403	406	O
+one	407	410	O
+retailor	411	419	O
+is	420	422	O
+studied	423	430	O
+,	430	431	O
+and	432	435	O
+the	436	439	O
+mathematical	440	452	B-Task
+model	453	458	I-Task
+is	459	461	I-Task
+constructed	462	473	I-Task
+.	473	474	O
+
+The	475	478	O
+model	479	484	O
+showed	485	491	O
+that	492	496	O
+prices	497	503	B-Process
+compensation	504	516	I-Process
+strategy	517	525	I-Process
+is	526	528	O
+Pareto	529	535	O
+improvement	536	547	O
+for	548	551	O
+agricultural	552	564	B-Process
+products	565	573	I-Process
+supply	574	580	I-Process
+chain	581	586	I-Process
+with	587	591	O
+stochastic	592	602	B-Process
+yield	603	608	I-Process
+,	608	609	O
+and	610	613	O
+it	614	616	O
+also	617	621	O
+incentive	622	631	O
+agricultural	632	644	B-Material
+products	645	653	I-Material
+supplier	654	662	O
+to	663	665	O
+rise	666	670	O
+the	671	674	O
+production	675	685	B-Process
+plan	686	690	I-Process
+and	691	694	O
+balance	695	702	O
+the	703	706	O
+profit	707	713	B-Process
+allocation	714	724	I-Process
+of	725	727	O
+supply	728	734	B-Process
+chain	735	740	I-Process
+.	740	741	O
 
 
 -DOCSTART- (S2212667813001068)
 
-It	NN	O	O
-is	NN	O	O
-difficult	NN	O	O
-in	NN	O	O
-directly	NN	O	O
-predicting	NN	O	O
-permeability	NN	O	B-Process
-from	NN	O	O
-porosity	NN	O	B-Process
-in	NN	O	O
-tight	NN	O	O
-sandstones	NN	O	B-Material
-due	NN	O	O
-to	NN	O	O
-the	NN	O	O
-poor	NN	O	O
-relationship	NN	O	O
-between	NN	O	O
-core	NN	O	O
-derived	NN	O	O
-porosity	NN	O	B-Process
-and	NN	O	O
-permeability	NN	O	B-Process
-that	NN	O	O
-caused	NN	O	O
-by	NN	O	O
-the	NN	O	O
-extreme	NN	O	O
-heterogeneity	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-classical	NN	O	O
-SDR	NN	O	B-Process
-(	NN	O	O
-Schlumberger	NN	O	B-Process
-Doll	NN	O	I-Process
-Research	NN	O	I-Process
-)	NN	O	O
-and	NN	O	O
-Timur	NN	O	B-Process
--	NN	O	I-Process
-Coates	NN	O	I-Process
-models	NN	O	I-Process
-are	NN	O	O
-all	NN	O	O
-unusable	NN	O	O
-because	NN	O	O
-not	NN	O	O
-enough	NN	O	O
-core	NN	O	O
-samples	NN	O	O
-were	NN	O	O
-drilled	NN	O	O
-for	NN	O	O
-lab	NN	O	O
-NMR	NN	O	B-Process
-experimental	NN	O	B-Process
-measurements	NN	O	I-Process
-to	NN	O	O
-calibrate	NN	O	B-Task
-the	NN	O	I-Task
-involved	NN	O	I-Task
-model	NN	O	I-Task
-parameters	NN	O	I-Task
-.	NN	O	O
-
-Based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-classification	NN	O	B-Process
-scale	NN	O	I-Process
-method	NN	O	I-Process
-(	NN	O	O
-CSM	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-after	NN	O	O
-the	NN	O	O
-target	NN	O	O
-tight	NN	O	O
-sandstones	NN	O	B-Material
-are	NN	O	O
-classified	NN	O	O
-into	NN	O	O
-two	NN	O	O
-types	NN	O	O
-,	NN	O	O
-the	NN	O	O
-relationship	NN	O	O
-between	NN	O	O
-core	NN	O	O
-porosity	NN	O	B-Process
-and	NN	O	O
-permeability	NN	O	B-Process
-is	NN	O	O
-established	NN	O	O
-for	NN	O	O
-every	NN	O	O
-type	NN	O	O
-of	NN	O	O
-formations	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-permeability	NN	O	B-Task
-estimation	NN	O	I-Task
-models	NN	O	I-Task
-are	NN	O	O
-established	NN	O	O
-.	NN	O	O
-
-Field	NN	O	B-Material
-examples	NN	O	I-Material
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-classification	NN	O	B-Process
-scale	NN	O	I-Process
-method	NN	O	I-Process
-is	NN	O	O
-effective	NN	O	O
-in	NN	O	O
-estimating	NN	O	O
-tight	NN	O	O
-sandstone	NN	O	B-Material
-permeability	NN	O	B-Process
-.	NN	O	O
+It	0	2	O
+is	3	5	O
+difficult	6	15	O
+in	16	18	O
+directly	19	27	O
+predicting	28	38	O
+permeability	39	51	B-Process
+from	52	56	O
+porosity	57	65	B-Process
+in	66	68	O
+tight	69	74	O
+sandstones	75	85	B-Material
+due	86	89	O
+to	90	92	O
+the	93	96	O
+poor	97	101	O
+relationship	102	114	O
+between	115	122	O
+core	123	127	O
+derived	128	135	O
+porosity	136	144	B-Process
+and	145	148	O
+permeability	149	161	B-Process
+that	162	166	O
+caused	167	173	O
+by	174	176	O
+the	177	180	O
+extreme	181	188	O
+heterogeneity	189	202	O
+.	202	203	O
+
+The	204	207	O
+classical	208	217	O
+SDR	218	221	B-Process
+(	222	223	O
+Schlumberger	223	235	B-Process
+Doll	236	240	I-Process
+Research	241	249	I-Process
+)	249	250	O
+and	251	254	O
+Timur	255	260	B-Process
+-	260	261	I-Process
+Coates	261	267	I-Process
+models	268	274	I-Process
+are	275	278	O
+all	279	282	O
+unusable	283	291	O
+because	292	299	O
+not	300	303	O
+enough	304	310	O
+core	311	315	O
+samples	316	323	O
+were	324	328	O
+drilled	329	336	O
+for	337	340	O
+lab	341	344	O
+NMR	345	348	B-Process
+experimental	349	361	B-Process
+measurements	362	374	I-Process
+to	375	377	O
+calibrate	378	387	B-Task
+the	388	391	I-Task
+involved	392	400	I-Task
+model	401	406	I-Task
+parameters	407	417	I-Task
+.	417	418	O
+
+Based	419	424	O
+on	425	427	O
+the	428	431	O
+classification	432	446	B-Process
+scale	447	452	I-Process
+method	453	459	I-Process
+(	460	461	O
+CSM	461	464	B-Process
+)	464	465	O
+,	465	466	O
+after	467	472	O
+the	473	476	O
+target	477	483	O
+tight	484	489	O
+sandstones	490	500	B-Material
+are	501	504	O
+classified	505	515	O
+into	516	520	O
+two	521	524	O
+types	525	530	O
+,	530	531	O
+the	532	535	O
+relationship	536	548	O
+between	549	556	O
+core	557	561	O
+porosity	562	570	B-Process
+and	571	574	O
+permeability	575	587	B-Process
+is	588	590	O
+established	591	602	O
+for	603	606	O
+every	607	612	O
+type	613	617	O
+of	618	620	O
+formations	621	631	O
+,	631	632	O
+and	633	636	O
+the	637	640	O
+corresponding	641	654	O
+permeability	655	667	B-Task
+estimation	668	678	I-Task
+models	679	685	I-Task
+are	686	689	O
+established	690	701	O
+.	701	702	O
+
+Field	703	708	B-Material
+examples	709	717	I-Material
+show	718	722	O
+that	723	727	O
+the	728	731	O
+classification	732	746	B-Process
+scale	747	752	I-Process
+method	753	759	I-Process
+is	760	762	O
+effective	763	772	O
+in	773	775	O
+estimating	776	786	O
+tight	787	792	O
+sandstone	793	802	B-Material
+permeability	803	815	B-Process
+.	815	816	O
 
 
 -DOCSTART- (S2212667814000045)
 
-The	NN	O	O
-opportunity	NN	O	O
-offered	NN	O	O
-by	NN	O	O
-digital	NN	O	O
-technologies	NN	O	O
-to	NN	O	O
-make	NN	O	O
-deep	NN	O	O
-rationalization	NN	O	B-Process
-in	NN	O	O
-purchase	NN	O	O
-of	NN	O	O
-supplies	NN	O	B-Material
-is	NN	O	O
-becoming	NN	O	O
-indispensable	NN	O	O
-in	NN	O	O
-competition	NN	O	O
-between	NN	O	O
-enterprises	NN	O	O
-,	NN	O	O
-considering	NN	O	O
-positive	NN	O	O
-effects	NN	O	O
-in	NN	O	O
-reducing	NN	O	B-Process
-the	NN	O	I-Process
-costs	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-companies	NN	O	O
-that	NN	O	O
-have	NN	O	O
-adopted	NN	O	O
-the	NN	O	O
-E	NN	O	B-Process
--	NN	O	I-Process
-Procurement	NN	O	I-Process
-.	NN	O	O
-
-As	NN	O	O
-it	NN	O	O
-has	NN	O	O
-been	NN	O	O
-confirmed	NN	O	O
-by	NN	O	O
-numerous	NN	O	O
-case	NN	O	B-Task
-studies	NN	O	I-Task
-,	NN	O	O
-automation	NN	O	B-Process
-of	NN	O	I-Process
-procedures	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-purchase	NN	O	O
-through	NN	O	O
-e	NN	O	B-Process
--	NN	O	I-Process
-procurement	NN	O	I-Process
-technology	NN	O	I-Process
-enables	NN	O	O
-companies	NN	O	O
-to	NN	O	O
-achieve	NN	O	O
-a	NN	O	O
-reduction	NN	O	O
-in	NN	O	O
-costs	NN	O	O
-(	NN	O	O
-average	NN	O	O
-8	NN	O	O
--	NN	O	O
-12	NN	O	O
-%	NN	O	O
-)	NN	O	O
-of	NN	O	O
-total	NN	O	O
-purchases	NN	O	O
-.	NN	O	O
-
-So	NN	O	O
-web	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-models	NN	O	I-Process
-are	NN	O	O
-playing	NN	O	O
-a	NN	O	O
-critical	NN	O	O
-role	NN	O	O
-within	NN	O	O
-companies	NN	O	O
-,	NN	O	O
-especially	NN	O	O
-in	NN	O	O
-the	NN	O	O
-generation	NN	O	B-Process
-of	NN	O	I-Process
-value	NN	O	I-Process
-of	NN	O	I-Process
-supply	NN	O	I-Process
-chain	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-article	NN	O	O
-focuses	NN	O	O
-on	NN	O	O
-the	NN	O	O
-role	NN	O	B-Task
-of	NN	O	I-Task
-e	NN	O	I-Task
--	NN	O	I-Task
-procurement	NN	O	I-Task
-within	NN	O	O
-a	NN	O	O
-supply	NN	O	B-Process
-chain	NN	O	I-Process
-showing	NN	O	O
-,	NN	O	O
-through	NN	O	O
-simulations	NN	O	B-Process
-,	NN	O	O
-the	NN	O	O
-advantages	NN	O	O
-and	NN	O	O
-difficulties	NN	O	O
-of	NN	O	O
-implementing	NN	O	O
-a	NN	O	O
-systematic	NN	O	O
-use	NN	O	O
-of	NN	O	O
-the	NN	O	O
-Internet	NN	O	O
-and	NN	O	O
-defining	NN	O	O
-the	NN	O	O
-basic	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-an	NN	O	O
-e	NN	O	B-Process
--	NN	O	I-Process
-supply	NN	O	I-Process
-chain	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+opportunity	4	15	O
+offered	16	23	O
+by	24	26	O
+digital	27	34	O
+technologies	35	47	O
+to	48	50	O
+make	51	55	O
+deep	56	60	O
+rationalization	61	76	B-Process
+in	77	79	O
+purchase	80	88	O
+of	89	91	O
+supplies	92	100	B-Material
+is	101	103	O
+becoming	104	112	O
+indispensable	113	126	O
+in	127	129	O
+competition	130	141	O
+between	142	149	O
+enterprises	150	161	O
+,	161	162	O
+considering	163	174	O
+positive	175	183	O
+effects	184	191	O
+in	192	194	O
+reducing	195	203	B-Process
+the	204	207	I-Process
+costs	208	213	I-Process
+of	214	216	O
+the	217	220	O
+companies	221	230	O
+that	231	235	O
+have	236	240	O
+adopted	241	248	O
+the	249	252	O
+E	253	254	B-Process
+-	254	255	I-Process
+Procurement	255	266	I-Process
+.	266	267	O
+
+As	268	270	O
+it	271	273	O
+has	274	277	O
+been	278	282	O
+confirmed	283	292	O
+by	293	295	O
+numerous	296	304	O
+case	305	309	B-Task
+studies	310	317	I-Task
+,	317	318	O
+automation	319	329	B-Process
+of	330	332	I-Process
+procedures	333	343	I-Process
+for	344	347	O
+the	348	351	O
+purchase	352	360	O
+through	361	368	O
+e	369	370	B-Process
+-	370	371	I-Process
+procurement	371	382	I-Process
+technology	383	393	I-Process
+enables	394	401	O
+companies	402	411	O
+to	412	414	O
+achieve	415	422	O
+a	423	424	O
+reduction	425	434	O
+in	435	437	O
+costs	438	443	O
+(	444	445	O
+average	445	452	O
+8	453	454	O
+-	454	455	O
+12	455	457	O
+%	457	458	O
+)	458	459	O
+of	460	462	O
+total	463	468	O
+purchases	469	478	O
+.	478	479	O
+
+So	480	482	O
+web	483	486	B-Process
+-	486	487	I-Process
+based	487	492	I-Process
+models	493	499	I-Process
+are	500	503	O
+playing	504	511	O
+a	512	513	O
+critical	514	522	O
+role	523	527	O
+within	528	534	O
+companies	535	544	O
+,	544	545	O
+especially	546	556	O
+in	557	559	O
+the	560	563	O
+generation	564	574	B-Process
+of	575	577	I-Process
+value	578	583	I-Process
+of	584	586	I-Process
+supply	587	593	I-Process
+chain	594	599	I-Process
+.	599	600	O
+
+This	601	605	O
+article	606	613	O
+focuses	614	621	O
+on	622	624	O
+the	625	628	O
+role	629	633	B-Task
+of	634	636	I-Task
+e	637	638	I-Task
+-	638	639	I-Task
+procurement	639	650	I-Task
+within	651	657	O
+a	658	659	O
+supply	660	666	B-Process
+chain	667	672	I-Process
+showing	673	680	O
+,	680	681	O
+through	682	689	O
+simulations	690	701	B-Process
+,	701	702	O
+the	703	706	O
+advantages	707	717	O
+and	718	721	O
+difficulties	722	734	O
+of	735	737	O
+implementing	738	750	O
+a	751	752	O
+systematic	753	763	O
+use	764	767	O
+of	768	770	O
+the	771	774	O
+Internet	775	783	O
+and	784	787	O
+defining	788	796	O
+the	797	800	O
+basic	801	806	O
+structure	807	816	O
+of	817	819	O
+an	820	822	O
+e	823	824	B-Process
+-	824	825	I-Process
+supply	825	831	I-Process
+chain	832	837	I-Process
+.	837	838	O
 
 
 -DOCSTART- (S2212667814000069)
 
-In	NN	O	O
-the	NN	O	O
-present	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-a	NN	O	O
-hypergraph	NN	O	B-Task
-model	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-structural	NN	O	B-Process
-system	NN	O	I-Process
-modeling	NN	O	I-Process
-and	NN	O	O
-reconfigurability	NN	O	B-Process
-analysis	NN	O	I-Process
-has	NN	O	O
-been	NN	O	O
-presented	NN	O	O
-.	NN	O	O
-
-At	NN	O	O
-first	NN	O	O
-,	NN	O	O
-we	NN	O	O
-represent	NN	O	O
-each	NN	O	O
-system	NN	O	O
-equation	NN	O	O
-by	NN	O	O
-a	NN	O	O
-hyperedge	NN	O	O
-,	NN	O	O
-and	NN	O	O
-then	NN	O	O
-we	NN	O	O
-extend	NN	O	O
-the	NN	O	O
-modeling	NN	O	B-Process
-hypergraph	NN	O	I-Process
-with	NN	O	O
-others	NN	O	O
-colored	NN	O	O
-hyperedges	NN	O	O
-(	NN	O	O
-red	NN	O	O
-and	NN	O	O
-blue	NN	O	O
-)	NN	O	O
-which	NN	O	O
-allows	NN	O	O
-us	NN	O	O
-to	NN	O	O
-perform	NN	O	O
-the	NN	O	O
-analysis	NN	O	B-Task
-task	NN	O	I-Task
-.	NN	O	O
-
-Based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-bottom	NN	O	B-Process
-up	NN	O	I-Process
-analysis	NN	O	I-Process
-hypergraph	NN	O	I-Process
-model	NN	O	I-Process
-,	NN	O	O
-it	NN	O	O
-'s	NN	O	O
-very	NN	O	O
-easy	NN	O	O
-to	NN	O	O
-check	NN	O	O
-the	NN	O	O
-system	NN	O	B-Process
-reconfigurability	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-presence	NN	O	O
-of	NN	O	O
-fault	NN	O	O
-by	NN	O	O
-verifying	NN	O	B-Process
-the	NN	O	I-Process
-existence	NN	O	I-Process
-of	NN	O	I-Process
-paths	NN	O	I-Process
-from	NN	O	I-Process
-the	NN	O	I-Process
-affected	NN	O	I-Process
-hyperedge	NN	O	I-Process
-to	NN	O	O
-specifics	NN	O	O
-blue	NN	O	O
-hyperedges	NN	O	O
-passing	NN	O	O
-through	NN	O	O
-specifics	NN	O	O
-red	NN	O	O
-hyperedges	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-method	NN	O	O
-is	NN	O	O
-illustrated	NN	O	O
-through	NN	O	O
-a	NN	O	O
-pedagogical	NN	O	B-Task
-example	NN	O	I-Task
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+present	7	14	O
+paper	15	20	O
+,	20	21	O
+a	22	23	O
+hypergraph	24	34	B-Task
+model	35	40	I-Task
+for	41	44	O
+the	45	48	O
+structural	49	59	B-Process
+system	60	66	I-Process
+modeling	67	75	I-Process
+and	76	79	O
+reconfigurability	80	97	B-Process
+analysis	98	106	I-Process
+has	107	110	O
+been	111	115	O
+presented	116	125	O
+.	125	126	O
+
+At	127	129	O
+first	130	135	O
+,	135	136	O
+we	137	139	O
+represent	140	149	O
+each	150	154	O
+system	155	161	O
+equation	162	170	O
+by	171	173	O
+a	174	175	O
+hyperedge	176	185	O
+,	185	186	O
+and	187	190	O
+then	191	195	O
+we	196	198	O
+extend	199	205	O
+the	206	209	O
+modeling	210	218	B-Process
+hypergraph	219	229	I-Process
+with	230	234	O
+others	235	241	O
+colored	242	249	O
+hyperedges	250	260	O
+(	261	262	O
+red	262	265	O
+and	266	269	O
+blue	270	274	O
+)	274	275	O
+which	276	281	O
+allows	282	288	O
+us	289	291	O
+to	292	294	O
+perform	295	302	O
+the	303	306	O
+analysis	307	315	B-Task
+task	316	320	I-Task
+.	320	321	O
+
+Based	322	327	O
+on	328	330	O
+the	331	334	O
+bottom	335	341	B-Process
+up	342	344	I-Process
+analysis	345	353	I-Process
+hypergraph	354	364	I-Process
+model	365	370	I-Process
+,	370	371	O
+it	372	374	O
+'s	374	376	O
+very	377	381	O
+easy	382	386	O
+to	387	389	O
+check	390	395	O
+the	396	399	O
+system	400	406	B-Process
+reconfigurability	407	424	I-Process
+in	425	427	O
+the	428	431	O
+presence	432	440	O
+of	441	443	O
+fault	444	449	O
+by	450	452	O
+verifying	453	462	B-Process
+the	463	466	I-Process
+existence	467	476	I-Process
+of	477	479	I-Process
+paths	480	485	I-Process
+from	486	490	I-Process
+the	491	494	I-Process
+affected	495	503	I-Process
+hyperedge	504	513	I-Process
+to	514	516	O
+specifics	517	526	O
+blue	527	531	O
+hyperedges	532	542	O
+passing	543	550	O
+through	551	558	O
+specifics	559	568	O
+red	569	572	O
+hyperedges	573	583	O
+.	583	584	O
+
+The	585	588	O
+method	589	595	O
+is	596	598	O
+illustrated	599	610	O
+through	611	618	O
+a	619	620	O
+pedagogical	621	632	B-Task
+example	633	640	I-Task
+.	640	641	O
 
 
 -DOCSTART- (S2212667814000070)
 
-This	NN	O	O
-paper	NN	O	O
-suggests	NN	O	O
-a	NN	O	O
-design	NN	O	B-Task
-of	NN	O	I-Task
-high	NN	O	I-Task
-quality	NN	O	I-Task
-real	NN	O	I-Task
--	NN	O	I-Task
-time	NN	O	I-Task
-rotation	NN	O	I-Task
-face	NN	O	I-Task
-detection	NN	O	I-Task
-architecture	NN	O	I-Task
-for	NN	O	I-Task
-gesture	NN	O	I-Task
-recognition	NN	O	I-Task
-of	NN	O	I-Task
-smart	NN	O	I-Task
-TV	NN	O	I-Task
-.	NN	O	O
-
-For	NN	O	O
-high	NN	O	O
-performance	NN	O	O
-rotated	NN	O	O
-face	NN	O	B-Process
-detection	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-multiple	NN	O	O
--	NN	O	O
-MCT(Modified	NN	O	B-Process
-Census	NN	O	I-Process
-Transform	NN	O	I-Process
-)	NN	O	O
-architecture	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-robust	NN	O	O
-against	NN	O	O
-lighting	NN	O	O
-change	NN	O	O
-,	NN	O	O
-was	NN	O	O
-used	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Adaboost	NN	O	B-Process
-learning	NN	O	I-Process
-algorithm	NN	O	I-Process
-was	NN	O	O
-used	NN	O	O
-for	NN	O	O
-creating	NN	O	B-Task
-optimized	NN	O	I-Task
-learning	NN	O	I-Task
-data	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-proposed	NN	O	O
-hardware	NN	O	B-Material
-structure	NN	O	I-Material
-was	NN	O	O
-composed	NN	O	O
-of	NN	O	O
-Color	NN	O	B-Material
-Space	NN	O	I-Material
-Converter	NN	O	I-Material
-,	NN	O	O
-Image	NN	O	B-Material
-Resizer	NN	O	I-Material
-,	NN	O	I-Material
-Noise	NN	O	B-Material
-Filter	NN	O	I-Material
-,	NN	O	O
-Memory	NN	O	B-Material
-Controller	NN	O	I-Material
-Interface	NN	O	I-Material
-,	NN	O	O
-Image	NN	O	B-Material
-Rotator	NN	O	I-Material
-,	NN	O	O
-Image	NN	O	B-Material
-Scaler	NN	O	I-Material
-,	NN	O	O
-MCT	NN	O	B-Material
-Generator	NN	O	I-Material
-,	NN	O	O
-Candidate	NN	O	B-Material
-Detector	NN	O	I-Material
-,	NN	O	I-Material
-Confidence	NN	O	B-Material
-Switch	NN	O	I-Material
-,	NN	O	O
-Confidence	NN	O	B-Material
-Mapper	NN	O	I-Material
-,	NN	O	O
-Position	NN	O	B-Material
-Resizer	NN	O	I-Material
-,	NN	O	I-Material
-Data	NN	O	B-Material
-Grouper	NN	O	I-Material
-,	NN	O	O
-Overlay	NN	O	B-Material
-Processor	NN	O	I-Material
-and	NN	O	O
-Color	NN	O	B-Material
-Overlay	NN	O	I-Material
-Processer	NN	O	I-Material
-.	NN	O	O
-
-As	NN	O	O
-a	NN	O	O
-result	NN	O	O
-,	NN	O	O
-suggested	NN	O	O
-face	NN	O	B-Process
-detection	NN	O	I-Process
-device	NN	O	O
-can	NN	O	O
-conduct	NN	O	O
-real	NN	O	B-Process
--	NN	O	I-Process
-time	NN	O	I-Process
-processing	NN	O	I-Process
-at	NN	O	O
-speed	NN	O	O
-of	NN	O	O
-at	NN	O	O
-least	NN	O	O
-30	NN	O	O
-frames	NN	O	O
-per	NN	O	O
-second	NN	O	O
-.	NN	O	O
+This	0	4	O
+paper	5	10	O
+suggests	11	19	O
+a	20	21	O
+design	22	28	B-Task
+of	29	31	I-Task
+high	32	36	I-Task
+quality	37	44	I-Task
+real	45	49	I-Task
+-	49	50	I-Task
+time	50	54	I-Task
+rotation	55	63	I-Task
+face	64	68	I-Task
+detection	69	78	I-Task
+architecture	79	91	I-Task
+for	92	95	I-Task
+gesture	96	103	I-Task
+recognition	104	115	I-Task
+of	116	118	I-Task
+smart	119	124	I-Task
+TV	125	127	I-Task
+.	127	128	O
+
+For	129	132	O
+high	133	137	O
+performance	138	149	O
+rotated	150	157	O
+face	158	162	B-Process
+detection	163	172	I-Process
+,	172	173	O
+the	174	177	O
+multiple	178	186	O
+-	186	187	O
+MCT(Modified	187	199	B-Process
+Census	200	206	I-Process
+Transform	207	216	I-Process
+)	216	217	O
+architecture	218	230	O
+,	230	231	O
+which	232	237	O
+is	238	240	O
+robust	241	247	O
+against	248	255	O
+lighting	256	264	O
+change	265	271	O
+,	271	272	O
+was	273	276	O
+used	277	281	O
+.	281	282	O
+
+The	283	286	O
+Adaboost	287	295	B-Process
+learning	296	304	I-Process
+algorithm	305	314	I-Process
+was	315	318	O
+used	319	323	O
+for	324	327	O
+creating	328	336	B-Task
+optimized	337	346	I-Task
+learning	347	355	I-Task
+data	356	360	I-Task
+.	360	361	O
+
+The	362	365	O
+proposed	366	374	O
+hardware	375	383	B-Material
+structure	384	393	I-Material
+was	394	397	O
+composed	398	406	O
+of	407	409	O
+Color	410	415	B-Material
+Space	416	421	I-Material
+Converter	422	431	I-Material
+,	431	432	O
+Image	433	438	B-Material
+Resizer	439	446	I-Material
+,	446	447	I-Material
+Noise	448	453	B-Material
+Filter	454	460	I-Material
+,	460	461	O
+Memory	462	468	B-Material
+Controller	469	479	I-Material
+Interface	480	489	I-Material
+,	489	490	O
+Image	491	496	B-Material
+Rotator	497	504	I-Material
+,	504	505	O
+Image	506	511	B-Material
+Scaler	512	518	I-Material
+,	518	519	O
+MCT	520	523	B-Material
+Generator	524	533	I-Material
+,	533	534	O
+Candidate	535	544	B-Material
+Detector	545	553	I-Material
+,	553	554	I-Material
+Confidence	555	565	B-Material
+Switch	566	572	I-Material
+,	572	573	O
+Confidence	574	584	B-Material
+Mapper	585	591	I-Material
+,	591	592	O
+Position	593	601	B-Material
+Resizer	602	609	I-Material
+,	609	610	I-Material
+Data	611	615	B-Material
+Grouper	616	623	I-Material
+,	623	624	O
+Overlay	625	632	B-Material
+Processor	633	642	I-Material
+and	643	646	O
+Color	647	652	B-Material
+Overlay	653	660	I-Material
+Processer	661	670	I-Material
+.	670	671	O
+
+As	672	674	O
+a	675	676	O
+result	677	683	O
+,	683	684	O
+suggested	685	694	O
+face	695	699	B-Process
+detection	700	709	I-Process
+device	710	716	O
+can	717	720	O
+conduct	721	728	O
+real	729	733	B-Process
+-	733	734	I-Process
+time	734	738	I-Process
+processing	739	749	I-Process
+at	750	752	O
+speed	753	758	O
+of	759	761	O
+at	762	764	O
+least	765	770	O
+30	771	773	O
+frames	774	780	O
+per	781	784	O
+second	785	791	O
+.	791	792	O
 
 
 -DOCSTART- (S2212667814000124)
 
-Based	NN	O	O
-on	NN	O	O
-expectation	NN	O	B-Process
--	NN	O	I-Process
-maximization	NN	O	I-Process
-algorithm	NN	O	I-Process
-,	NN	O	O
-parameter	NN	O	B-Task
-estimation	NN	O	I-Task
-was	NN	O	O
-proposed	NN	O	O
-for	NN	O	O
-data	NN	O	B-Process
--	NN	O	I-Process
-driven	NN	O	I-Process
-nonlinear	NN	O	I-Process
-models	NN	O	I-Process
-in	NN	O	O
-this	NN	O	O
-work	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-this	NN	O	O
-basis	NN	O	O
-,	NN	O	O
-particle	NN	O	B-Material
-filters	NN	O	I-Material
-were	NN	O	O
-used	NN	O	O
-to	NN	O	O
-approximately	NN	O	O
-calculate	NN	O	O
-integrals	NN	O	O
-,	NN	O	O
-deriving	NN	O	O
-EM	NN	O	B-Process
-algorithm	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-particle	NN	O	B-Material
-filter	NN	O	I-Material
-.	NN	O	O
-
-And	NN	O	O
-the	NN	O	O
-effectiveness	NN	O	O
-of	NN	O	O
-using	NN	O	O
-the	NN	O	O
-proposed	NN	O	O
-algorithm	NN	O	O
-for	NN	O	O
-the	NN	O	O
-soft	NN	O	B-Material
-sensor	NN	O	I-Material
-of	NN	O	O
-COx	NN	O	B-Material
-content	NN	O	O
-in	NN	O	O
-tail	NN	O	B-Material
-gas	NN	O	I-Material
-of	NN	O	O
-PX	NN	O	B-Process
-oxidation	NN	O	I-Process
-side	NN	O	O
-reactions	NN	O	O
-was	NN	O	O
-verified	NN	O	O
-through	NN	O	O
-simulation	NN	O	B-Process
-results	NN	O	O
-.	NN	O	O
+Based	0	5	O
+on	6	8	O
+expectation	9	20	B-Process
+-	20	21	I-Process
+maximization	21	33	I-Process
+algorithm	34	43	I-Process
+,	43	44	O
+parameter	45	54	B-Task
+estimation	55	65	I-Task
+was	66	69	O
+proposed	70	78	O
+for	79	82	O
+data	83	87	B-Process
+-	87	88	I-Process
+driven	88	94	I-Process
+nonlinear	95	104	I-Process
+models	105	111	I-Process
+in	112	114	O
+this	115	119	O
+work	120	124	O
+.	124	125	O
+
+On	126	128	O
+this	129	133	O
+basis	134	139	O
+,	139	140	O
+particle	141	149	B-Material
+filters	150	157	I-Material
+were	158	162	O
+used	163	167	O
+to	168	170	O
+approximately	171	184	O
+calculate	185	194	O
+integrals	195	204	O
+,	204	205	O
+deriving	206	214	O
+EM	215	217	B-Process
+algorithm	218	227	I-Process
+based	228	233	O
+on	234	236	O
+particle	237	245	B-Material
+filter	246	252	I-Material
+.	252	253	O
+
+And	254	257	O
+the	258	261	O
+effectiveness	262	275	O
+of	276	278	O
+using	279	284	O
+the	285	288	O
+proposed	289	297	O
+algorithm	298	307	O
+for	308	311	O
+the	312	315	O
+soft	316	320	B-Material
+sensor	321	327	I-Material
+of	328	330	O
+COx	331	334	B-Material
+content	335	342	O
+in	343	345	O
+tail	346	350	B-Material
+gas	351	354	I-Material
+of	355	357	O
+PX	358	360	B-Process
+oxidation	361	370	I-Process
+side	371	375	O
+reactions	376	385	O
+was	386	389	O
+verified	390	398	O
+through	399	406	O
+simulation	407	417	B-Process
+results	418	425	O
+.	425	426	O
 
 
 -DOCSTART- (S2212667814000264)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-present	NN	O	O
-a	NN	O	O
-project	NN	O	O
-aiming	NN	O	O
-at	NN	O	O
-integrating	NN	O	B-Task
-immersive	NN	O	I-Task
-virtual	NN	O	I-Task
-reality	NN	O	I-Task
-technologies	NN	O	I-Task
-into	NN	O	I-Task
-a	NN	O	I-Task
-three	NN	O	I-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-virtual	NN	O	I-Task
-world	NN	O	I-Task
-.	NN	O	O
-
-We	NN	O	O
-use	NN	O	O
-an	NN	O	O
-educational	NN	O	B-Material
-platform	NN	O	I-Material
-vAcademia	NN	O	B-Material
-as	NN	O	O
-a	NN	O	O
-test	NN	O	O
-bed	NN	O	O
-for	NN	O	O
-the	NN	O	O
-project	NN	O	O
-,	NN	O	O
-and	NN	O	O
-focus	NN	O	O
-on	NN	O	O
-improving	NN	O	O
-the	NN	O	O
-learning	NN	O	B-Process
-process	NN	O	I-Process
-and	NN	O	O
-,	NN	O	O
-subsequently	NN	O	O
-–	NN	O	O
-the	NN	O	O
-outcomes	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-aim	NN	O	O
-at	NN	O	O
-increasing	NN	O	B-Task
-the	NN	O	I-Task
-immersiveness	NN	O	I-Task
-of	NN	O	I-Task
-3D	NN	O	I-Task
-virtual	NN	O	I-Task
-world	NN	O	I-Task
-experience	NN	O	I-Task
-by	NN	O	O
-applying	NN	O	O
-motion	NN	O	B-Process
-tracking	NN	O	I-Process
-for	NN	O	O
-controlling	NN	O	B-Process
-the	NN	O	I-Process
-avatar	NN	O	I-Process
-and	NN	O	O
-two	NN	O	O
-technologies	NN	O	O
-for	NN	O	O
-natural	NN	O	B-Process
-navigation	NN	O	I-Process
-:	NN	O	O
-immersive	NN	O	B-Process
-projection	NN	O	I-Process
-and	NN	O	O
-head	NN	O	B-Material
--	NN	O	I-Material
-mounted	NN	O	I-Material
-display	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-we	NN	O	O
-propose	NN	O	O
-the	NN	O	O
-major	NN	O	B-Task
-types	NN	O	I-Task
-of	NN	O	I-Task
-learning	NN	O	I-Task
-scenarios	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-the	NN	O	O
-designed	NN	O	O
-systems	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+we	15	17	O
+present	18	25	O
+a	26	27	O
+project	28	35	O
+aiming	36	42	O
+at	43	45	O
+integrating	46	57	B-Task
+immersive	58	67	I-Task
+virtual	68	75	I-Task
+reality	76	83	I-Task
+technologies	84	96	I-Task
+into	97	101	I-Task
+a	102	103	I-Task
+three	104	109	I-Task
+-	109	110	I-Task
+dimensional	110	121	I-Task
+virtual	122	129	I-Task
+world	130	135	I-Task
+.	135	136	O
+
+We	137	139	O
+use	140	143	O
+an	144	146	O
+educational	147	158	B-Material
+platform	159	167	I-Material
+vAcademia	168	177	B-Material
+as	178	180	O
+a	181	182	O
+test	183	187	O
+bed	188	191	O
+for	192	195	O
+the	196	199	O
+project	200	207	O
+,	207	208	O
+and	209	212	O
+focus	213	218	O
+on	219	221	O
+improving	222	231	O
+the	232	235	O
+learning	236	244	B-Process
+process	245	252	I-Process
+and	253	256	O
+,	256	257	O
+subsequently	258	270	O
+–	271	272	O
+the	273	276	O
+outcomes	277	285	O
+.	285	286	O
+
+We	287	289	O
+aim	290	293	O
+at	294	296	O
+increasing	297	307	B-Task
+the	308	311	I-Task
+immersiveness	312	325	I-Task
+of	326	328	I-Task
+3D	329	331	I-Task
+virtual	332	339	I-Task
+world	340	345	I-Task
+experience	346	356	I-Task
+by	357	359	O
+applying	360	368	O
+motion	369	375	B-Process
+tracking	376	384	I-Process
+for	385	388	O
+controlling	389	400	B-Process
+the	401	404	I-Process
+avatar	405	411	I-Process
+and	412	415	O
+two	416	419	O
+technologies	420	432	O
+for	433	436	O
+natural	437	444	B-Process
+navigation	445	455	I-Process
+:	455	456	O
+immersive	457	466	B-Process
+projection	467	477	I-Process
+and	478	481	O
+head	482	486	B-Material
+-	486	487	I-Material
+mounted	487	494	I-Material
+display	495	502	I-Material
+.	502	503	O
+
+In	504	506	O
+addition	507	515	O
+,	515	516	O
+we	517	519	O
+propose	520	527	O
+the	528	531	O
+major	532	537	B-Task
+types	538	543	I-Task
+of	544	546	I-Task
+learning	547	555	I-Task
+scenarios	556	565	I-Task
+for	566	569	O
+the	570	573	O
+use	574	577	O
+of	578	580	O
+the	581	584	O
+designed	585	593	O
+systems	594	601	O
+.	601	602	O
 
 
 -DOCSTART- (S2212667814000331)
 
-In	NN	O	O
-order	NN	O	O
-to	NN	O	O
-solve	NN	O	O
-the	NN	O	O
-problem	NN	O	B-Task
-that	NN	O	I-Task
-the	NN	O	I-Task
-diesel	NN	O	I-Task
-engine	NN	O	I-Task
-PT	NN	O	I-Task
-fuel	NN	O	I-Task
-system	NN	O	I-Task
-is	NN	O	I-Task
-unable	NN	O	I-Task
-to	NN	O	I-Task
-field	NN	O	I-Task
-maintain	NN	O	I-Task
-,	NN	O	O
-developed	NN	O	O
-a	NN	O	O
-portable	NN	O	B-Material
-signal	NN	O	I-Material
-acquisition	NN	O	I-Material
-and	NN	O	I-Material
-analysis	NN	O	I-Material
-system	NN	O	I-Material
-for	NN	O	O
-diesel	NN	O	B-Material
-engine	NN	O	I-Material
-PT	NN	O	I-Material
-fuel	NN	O	I-Material
-system	NN	O	I-Material
-.	NN	O	O
-
-Firstly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-PT	NN	O	B-Task
-pump	NN	O	I-Task
-work	NN	O	I-Task
-Principle	NN	O	I-Task
-was	NN	O	I-Task
-analyzed	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-PT	NN	O	B-Material
-pump	NN	O	I-Material
-failure	NN	O	O
-mapping	NN	O	O
-relation	NN	O	O
-between	NN	O	O
-reason	NN	O	O
-and	NN	O	O
-failure	NN	O	O
-phenomenon	NN	O	O
-was	NN	O	O
-analyzed	NN	O	O
-;	NN	O	O
-Secondly	NN	O	O
-,	NN	O	O
-the	NN	O	O
-diesel	NN	O	B-Material
-engine	NN	O	I-Material
-PT	NN	O	I-Material
-pump	NN	O	I-Material
-failure	NN	O	B-Task
-fuel	NN	O	I-Task
-pressure	NN	O	I-Task
-characteristics	NN	O	I-Task
-were	NN	O	I-Task
-analyzed	NN	O	I-Task
-;	NN	O	O
-Lastly	NN	O	O
-,	NN	O	O
-using	NN	O	O
-the	NN	O	O
-portable	NN	O	O
-signal	NN	O	B-Process
-acquisition	NN	O	I-Process
-and	NN	O	O
-analysis	NN	O	B-Process
-system	NN	O	I-Process
-to	NN	O	O
-diagnose	NN	O	B-Task
-the	NN	O	I-Task
-diesel	NN	O	I-Task
-engine	NN	O	I-Task
-PT	NN	O	I-Task
-fuel	NN	O	I-Task
-system	NN	O	I-Task
-,	NN	O	O
-experiment	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-system	NN	O	O
-can	NN	O	O
-correctly	NN	O	O
-detect	NN	O	B-Process
-the	NN	O	I-Process
-diesel	NN	O	I-Process
-engine	NN	O	I-Process
-PT	NN	O	I-Process
-fuel	NN	O	I-Process
-system	NN	O	I-Process
-state	NN	O	I-Process
-.	NN	O	O
+In	0	2	O
+order	3	8	O
+to	9	11	O
+solve	12	17	O
+the	18	21	O
+problem	22	29	B-Task
+that	30	34	I-Task
+the	35	38	I-Task
+diesel	39	45	I-Task
+engine	46	52	I-Task
+PT	53	55	I-Task
+fuel	56	60	I-Task
+system	61	67	I-Task
+is	68	70	I-Task
+unable	71	77	I-Task
+to	78	80	I-Task
+field	81	86	I-Task
+maintain	87	95	I-Task
+,	95	96	O
+developed	97	106	O
+a	107	108	O
+portable	109	117	B-Material
+signal	118	124	I-Material
+acquisition	125	136	I-Material
+and	137	140	I-Material
+analysis	141	149	I-Material
+system	150	156	I-Material
+for	157	160	O
+diesel	161	167	B-Material
+engine	168	174	I-Material
+PT	175	177	I-Material
+fuel	178	182	I-Material
+system	183	189	I-Material
+.	189	190	O
+
+Firstly	191	198	O
+,	198	199	O
+the	200	203	O
+PT	204	206	B-Task
+pump	207	211	I-Task
+work	212	216	I-Task
+Principle	217	226	I-Task
+was	227	230	I-Task
+analyzed	231	239	I-Task
+,	239	240	O
+and	241	244	O
+the	245	248	O
+PT	249	251	B-Material
+pump	252	256	I-Material
+failure	257	264	O
+mapping	265	272	O
+relation	273	281	O
+between	282	289	O
+reason	290	296	O
+and	297	300	O
+failure	301	308	O
+phenomenon	309	319	O
+was	320	323	O
+analyzed	324	332	O
+;	332	333	O
+Secondly	334	342	O
+,	342	343	O
+the	344	347	O
+diesel	348	354	B-Material
+engine	355	361	I-Material
+PT	362	364	I-Material
+pump	365	369	I-Material
+failure	370	377	B-Task
+fuel	378	382	I-Task
+pressure	383	391	I-Task
+characteristics	392	407	I-Task
+were	408	412	I-Task
+analyzed	413	421	I-Task
+;	421	422	O
+Lastly	423	429	O
+,	429	430	O
+using	431	436	O
+the	437	440	O
+portable	441	449	O
+signal	450	456	B-Process
+acquisition	457	468	I-Process
+and	469	472	O
+analysis	473	481	B-Process
+system	482	488	I-Process
+to	489	491	O
+diagnose	492	500	B-Task
+the	501	504	I-Task
+diesel	505	511	I-Task
+engine	512	518	I-Task
+PT	519	521	I-Task
+fuel	522	526	I-Task
+system	527	533	I-Task
+,	533	534	O
+experiment	535	545	O
+results	546	553	O
+show	554	558	O
+that	559	563	O
+the	564	567	O
+system	568	574	O
+can	575	578	O
+correctly	579	588	O
+detect	589	595	B-Process
+the	596	599	I-Process
+diesel	600	606	I-Process
+engine	607	613	I-Process
+PT	614	616	I-Process
+fuel	617	621	I-Process
+system	622	628	I-Process
+state	629	634	I-Process
+.	634	635	O
 
 
 -DOCSTART- (S2212667814000380)
 
-The	NN	O	O
-behavior	NN	O	O
-of	NN	O	O
-cellular	NN	O	B-Material
-beam	NN	O	I-Material
-is	NN	O	O
-described	NN	O	O
-using	NN	O	O
-design	NN	O	B-Task
-methods	NN	O	I-Task
-according	NN	O	O
-to	NN	O	O
-BS	NN	O	O
-:	NN	O	O
-5950	NN	O	O
-,	NN	O	O
-considering	NN	O	O
-particularly	NN	O	O
-the	NN	O	O
-strength	NN	O	O
-of	NN	O	O
-tee	NN	O	O
-sections	NN	O	O
-and	NN	O	O
-web	NN	O	O
-post	NN	O	O
-element	NN	O	O
-.	NN	O	O
-
-Such	NN	O	O
-behavior	NN	O	O
-is	NN	O	O
-derived	NN	O	O
-from	NN	O	O
-parametric	NN	O	O
-study	NN	O	O
-involving	NN	O	O
-finite	NN	O	B-Process
-element	NN	O	I-Process
-analysis	NN	O	I-Process
-using	NN	O	O
-software	NN	O	O
-ANSYS	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-design	NN	O	B-Process
-method	NN	O	I-Process
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-plastic	NN	O	B-Process
-analysis	NN	O	I-Process
-of	NN	O	I-Process
-beam	NN	O	I-Process
-section	NN	O	I-Process
-at	NN	O	O
-ultimate	NN	O	O
-loads	NN	O	O
-and	NN	O	O
-elastic	NN	O	B-Process
-analysis	NN	O	I-Process
-at	NN	O	O
-serviceability	NN	O	O
-loads	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-procedure	NN	O	B-Task
-of	NN	O	I-Task
-design	NN	O	I-Task
-of	NN	O	I-Task
-cellular	NN	O	I-Task
-beam	NN	O	I-Task
-is	NN	O	I-Task
-illustrated	NN	O	I-Task
-and	NN	O	O
-an	NN	O	O
-example	NN	O	O
-based	NN	O	O
-on	NN	O	O
-design	NN	O	B-Process
-method	NN	O	I-Process
-is	NN	O	O
-worked	NN	O	O
-out	NN	O	O
-and	NN	O	O
-its	NN	O	O
-verification	NN	O	O
-is	NN	O	O
-done	NN	O	O
-for	NN	O	O
-checking	NN	O	O
-the	NN	O	O
-suitability	NN	O	O
-.	NN	O	O
+The	0	3	O
+behavior	4	12	O
+of	13	15	O
+cellular	16	24	B-Material
+beam	25	29	I-Material
+is	30	32	O
+described	33	42	O
+using	43	48	O
+design	49	55	B-Task
+methods	56	63	I-Task
+according	64	73	O
+to	74	76	O
+BS	77	79	O
+:	79	80	O
+5950	81	85	O
+,	85	86	O
+considering	87	98	O
+particularly	99	111	O
+the	112	115	O
+strength	116	124	O
+of	125	127	O
+tee	128	131	O
+sections	132	140	O
+and	141	144	O
+web	145	148	O
+post	149	153	O
+element	154	161	O
+.	161	162	O
+
+Such	163	167	O
+behavior	168	176	O
+is	177	179	O
+derived	180	187	O
+from	188	192	O
+parametric	193	203	O
+study	204	209	O
+involving	210	219	O
+finite	220	226	B-Process
+element	227	234	I-Process
+analysis	235	243	I-Process
+using	244	249	O
+software	250	258	O
+ANSYS	259	264	B-Material
+.	264	265	O
+
+The	266	269	O
+design	270	276	B-Process
+method	277	283	I-Process
+is	284	286	O
+based	287	292	O
+on	293	295	O
+plastic	296	303	B-Process
+analysis	304	312	I-Process
+of	313	315	I-Process
+beam	316	320	I-Process
+section	321	328	I-Process
+at	329	331	O
+ultimate	332	340	O
+loads	341	346	O
+and	347	350	O
+elastic	351	358	B-Process
+analysis	359	367	I-Process
+at	368	370	O
+serviceability	371	385	O
+loads	386	391	O
+.	391	392	O
+
+The	393	396	O
+procedure	397	406	B-Task
+of	407	409	I-Task
+design	410	416	I-Task
+of	417	419	I-Task
+cellular	420	428	I-Task
+beam	429	433	I-Task
+is	434	436	I-Task
+illustrated	437	448	I-Task
+and	449	452	O
+an	453	455	O
+example	456	463	O
+based	464	469	O
+on	470	472	O
+design	473	479	B-Process
+method	480	486	I-Process
+is	487	489	O
+worked	490	496	O
+out	497	500	O
+and	501	504	O
+its	505	508	O
+verification	509	521	O
+is	522	524	O
+done	525	529	O
+for	530	533	O
+checking	534	542	O
+the	543	546	O
+suitability	547	558	O
+.	558	559	O
 
 
 -DOCSTART- (S2212667814000550)
 
-The	NN	O	O
-low	NN	O	B-Process
--	NN	O	I-Process
-carbon	NN	O	I-Process
-economic	NN	O	I-Process
-development	NN	O	I-Process
-has	NN	O	O
-become	NN	O	O
-the	NN	O	O
-trend	NN	O	O
-and	NN	O	O
-orientation	NN	O	O
-of	NN	O	O
-regional	NN	O	B-Process
-economic	NN	O	I-Process
-development	NN	O	I-Process
-.	NN	O	O
-
-As	NN	O	O
-the	NN	O	O
-residents	NN	O	O
-of	NN	O	O
-Heilongjiang	NN	O	O
-province	NN	O	O
-,	NN	O	O
-their	NN	O	O
-consumption	NN	O	O
-is	NN	O	O
-the	NN	O	O
-most	NN	O	O
-direct	NN	O	O
-way	NN	O	O
-to	NN	O	O
-achieve	NN	O	O
-the	NN	O	O
-low	NN	O	O
--	NN	O	O
-carbon	NN	O	B-Material
-lifestyle	NN	O	O
-.	NN	O	O
-
-Based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-research	NN	O	O
-and	NN	O	O
-discussion	NN	O	O
-of	NN	O	O
-the	NN	O	O
-connotation	NN	O	O
-of	NN	O	O
-low	NN	O	B-Process
--	NN	O	I-Process
-carbon	NN	O	I-Process
-consumption	NN	O	I-Process
-and	NN	O	O
-its	NN	O	O
-culture	NN	O	O
-,	NN	O	O
-behaviour	NN	O	O
-,	NN	O	O
-preferences	NN	O	O
-and	NN	O	O
-habits	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-concluded	NN	O	O
-that	NN	O	O
-the	NN	O	O
-low	NN	O	B-Process
--	NN	O	I-Process
-carbon	NN	O	I-Process
-consumption	NN	O	I-Process
-requires	NN	O	O
-us	NN	O	O
-to	NN	O	O
-abide	NN	O	O
-by	NN	O	O
-the	NN	O	O
-life	NN	O	O
--	NN	O	O
-style	NN	O	O
-of	NN	O	O
-knowledge	NN	O	O
-and	NN	O	O
-culture	NN	O	O
-.	NN	O	O
-
-Therefore	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-obvious	NN	O	O
-that	NN	O	O
-the	NN	O	O
-development	NN	O	B-Task
-of	NN	O	I-Task
-low	NN	O	I-Task
--	NN	O	I-Task
-carbon	NN	O	I-Task
-economy	NN	O	I-Task
-is	NN	O	O
-a	NN	O	O
-complex	NN	O	O
-and	NN	O	O
-systematic	NN	O	O
-project	NN	O	O
-,	NN	O	O
-involved	NN	O	O
-the	NN	O	O
-economic	NN	O	B-Process
-development	NN	O	I-Process
-mode	NN	O	O
-,	NN	O	O
-technological	NN	O	B-Process
-innovation	NN	O	I-Process
-mode	NN	O	O
-,	NN	O	O
-consumption	NN	O	O
-values	NN	O	O
-and	NN	O	O
-changes	NN	O	O
-of	NN	O	O
-lifestyle	NN	O	O
-.	NN	O	O
+The	0	3	O
+low	4	7	B-Process
+-	7	8	I-Process
+carbon	8	14	I-Process
+economic	15	23	I-Process
+development	24	35	I-Process
+has	36	39	O
+become	40	46	O
+the	47	50	O
+trend	51	56	O
+and	57	60	O
+orientation	61	72	O
+of	73	75	O
+regional	76	84	B-Process
+economic	85	93	I-Process
+development	94	105	I-Process
+.	105	106	O
+
+As	107	109	O
+the	110	113	O
+residents	114	123	O
+of	124	126	O
+Heilongjiang	127	139	O
+province	140	148	O
+,	148	149	O
+their	150	155	O
+consumption	156	167	O
+is	168	170	O
+the	171	174	O
+most	175	179	O
+direct	180	186	O
+way	187	190	O
+to	191	193	O
+achieve	194	201	O
+the	202	205	O
+low	206	209	O
+-	209	210	O
+carbon	210	216	B-Material
+lifestyle	217	226	O
+.	226	227	O
+
+Based	228	233	O
+on	234	236	O
+the	237	240	O
+research	241	249	O
+and	250	253	O
+discussion	254	264	O
+of	265	267	O
+the	268	271	O
+connotation	272	283	O
+of	284	286	O
+low	287	290	B-Process
+-	290	291	I-Process
+carbon	291	297	I-Process
+consumption	298	309	I-Process
+and	310	313	O
+its	314	317	O
+culture	318	325	O
+,	325	326	O
+behaviour	327	336	O
+,	336	337	O
+preferences	338	349	O
+and	350	353	O
+habits	354	360	O
+,	360	361	O
+it	362	364	O
+is	365	367	O
+concluded	368	377	O
+that	378	382	O
+the	383	386	O
+low	387	390	B-Process
+-	390	391	I-Process
+carbon	391	397	I-Process
+consumption	398	409	I-Process
+requires	410	418	O
+us	419	421	O
+to	422	424	O
+abide	425	430	O
+by	431	433	O
+the	434	437	O
+life	438	442	O
+-	442	443	O
+style	443	448	O
+of	449	451	O
+knowledge	452	461	O
+and	462	465	O
+culture	466	473	O
+.	473	474	O
+
+Therefore	475	484	O
+,	484	485	O
+it	486	488	O
+is	489	491	O
+obvious	492	499	O
+that	500	504	O
+the	505	508	O
+development	509	520	B-Task
+of	521	523	I-Task
+low	524	527	I-Task
+-	527	528	I-Task
+carbon	528	534	I-Task
+economy	535	542	I-Task
+is	543	545	O
+a	546	547	O
+complex	548	555	O
+and	556	559	O
+systematic	560	570	O
+project	571	578	O
+,	578	579	O
+involved	580	588	O
+the	589	592	O
+economic	593	601	B-Process
+development	602	613	I-Process
+mode	614	618	O
+,	618	619	O
+technological	620	633	B-Process
+innovation	634	644	I-Process
+mode	645	649	O
+,	649	650	O
+consumption	651	662	O
+values	663	669	O
+and	670	673	O
+changes	674	681	O
+of	682	684	O
+lifestyle	685	694	O
+.	694	695	O
 
 
 -DOCSTART- (S2212667814000690)
 
-The	NN	O	O
-paper	NN	O	O
-presents	NN	O	B-Task
-the	NN	O	I-Task
-results	NN	O	I-Task
-of	NN	O	I-Task
-studies	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-effect	NN	O	I-Task
-of	NN	O	I-Task
-multiwalled	NN	O	I-Task
-carbon	NN	O	I-Task
-nanotubes	NN	O	I-Task
-18	NN	O	O
--	NN	O	O
-20	NN	O	O
-nm	NN	O	O
-in	NN	O	O
-concentrations	NN	O	O
-of	NN	O	O
-1	NN	O	O
-and	NN	O	O
-10	NN	O	O
-mg	NN	O	O
-/	NN	O	O
-ml	NN	O	O
-for	NN	O	O
-diatoms	NN	O	O
-Pseudo	NN	O	B-Material
--	NN	O	I-Material
-nitzschia	NN	O	I-Material
-pungens	NN	O	I-Material
-(	NN	O	O
-clone	NN	O	B-Material
-PP-07	NN	O	I-Material
-)	NN	O	O
-and	NN	O	O
-golden	NN	O	O
-alga	NN	O	O
-
-Isochrysis	NN	O	O
-galbana	NN	O	O
-(	NN	O	O
-clone	NN	O	B-Material
-TISO	NN	O	I-Material
-)	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-toxic	NN	O	B-Process
-effects	NN	O	I-Process
-of	NN	O	O
-multiwalled	NN	O	O
-nanotubes	NN	O	B-Material
-on	NN	O	O
-both	NN	O	O
-types	NN	O	O
-of	NN	O	O
-algae	NN	O	B-Material
-is	NN	O	O
-revealed	NN	O	O
-,	NN	O	O
-which	NN	O	O
-results	NN	O	O
-in	NN	O	O
-a	NN	O	O
-decrease	NN	O	O
-of	NN	O	O
-the	NN	O	O
-linear	NN	O	O
-dimensions	NN	O	O
-of	NN	O	O
-cells	NN	O	B-Material
-,	NN	O	O
-chloroplasts	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-a	NN	O	O
-reduced	NN	O	O
-number	NN	O	O
-of	NN	O	O
-cells	NN	O	B-Material
-when	NN	O	O
-incubated	NN	O	B-Process
-over	NN	O	O
-24h	NN	O	O
-(	NN	O	O
-Pseudo	NN	O	B-Material
--	NN	O	I-Material
-nitzschia	NN	O	I-Material
-pungens	NN	O	I-Material
-)	NN	O	O
-and	NN	O	O
-36hours	NN	O	O
-(	NN	O	O
-Isochrysis	NN	O	B-Material
-galbana	NN	O	I-Material
-)	NN	O	O
-.	NN	O	O
+The	0	3	O
+paper	4	9	O
+presents	10	18	B-Task
+the	19	22	I-Task
+results	23	30	I-Task
+of	31	33	I-Task
+studies	34	41	I-Task
+of	42	44	I-Task
+the	45	48	I-Task
+effect	49	55	I-Task
+of	56	58	I-Task
+multiwalled	59	70	I-Task
+carbon	71	77	I-Task
+nanotubes	78	87	I-Task
+18	88	90	O
+-	90	91	O
+20	91	93	O
+nm	93	95	O
+in	96	98	O
+concentrations	99	113	O
+of	114	116	O
+1	117	118	O
+and	119	122	O
+10	123	125	O
+mg	125	127	O
+/	128	129	O
+ml	130	132	O
+for	133	136	O
+diatoms	137	144	O
+Pseudo	145	151	B-Material
+-	151	152	I-Material
+nitzschia	152	161	I-Material
+pungens	162	169	I-Material
+(	170	171	O
+clone	171	176	B-Material
+PP-07	177	182	I-Material
+)	182	183	O
+and	184	187	O
+golden	188	194	O
+alga	195	199	O
+
+Isochrysis	200	210	O
+galbana	211	218	O
+(	219	220	O
+clone	220	225	B-Material
+TISO	226	230	I-Material
+)	230	231	O
+.	231	232	O
+
+The	233	236	O
+toxic	237	242	B-Process
+effects	243	250	I-Process
+of	251	253	O
+multiwalled	254	265	O
+nanotubes	266	275	B-Material
+on	276	278	O
+both	279	283	O
+types	284	289	O
+of	290	292	O
+algae	293	298	B-Material
+is	299	301	O
+revealed	302	310	O
+,	310	311	O
+which	312	317	O
+results	318	325	O
+in	326	328	O
+a	329	330	O
+decrease	331	339	O
+of	340	342	O
+the	343	346	O
+linear	347	353	O
+dimensions	354	364	O
+of	365	367	O
+cells	368	373	B-Material
+,	373	374	O
+chloroplasts	375	387	B-Material
+,	387	388	O
+and	389	392	O
+a	393	394	O
+reduced	395	402	O
+number	403	409	O
+of	410	412	O
+cells	413	418	B-Material
+when	419	423	O
+incubated	424	433	B-Process
+over	434	438	O
+24h	439	442	O
+(	443	444	O
+Pseudo	444	450	B-Material
+-	450	451	I-Material
+nitzschia	451	460	I-Material
+pungens	461	468	I-Material
+)	468	469	O
+and	470	473	O
+36hours	474	481	O
+(	482	483	O
+Isochrysis	483	493	B-Material
+galbana	494	501	I-Material
+)	501	502	O
+.	502	503	O
 
 
 -DOCSTART- (S2212667814000732)
 
-The	NN	O	O
-retrospective	NN	O	B-Task
-assessment	NN	O	I-Task
-of	NN	O	I-Task
-environmental	NN	O	I-Task
-carrying	NN	O	I-Task
-capacity	NN	O	I-Task
-aims	NN	O	O
-to	NN	O	O
-obtain	NN	O	B-Task
-the	NN	O	I-Task
-historical	NN	O	I-Task
-development	NN	O	I-Task
-situation	NN	O	I-Task
-of	NN	O	I-Task
-reclamation	NN	O	I-Task
-domain	NN	O	I-Task
-,	NN	O	O
-it	NN	O	O
-'s	NN	O	O
-an	NN	O	O
-essential	NN	O	O
-tool	NN	O	O
-for	NN	O	O
-improving	NN	O	B-Task
-the	NN	O	I-Task
-managed	NN	O	I-Task
-level	NN	O	I-Task
-and	NN	O	O
-guiding	NN	O	B-Task
-the	NN	O	I-Task
-environmental	NN	O	I-Task
-management	NN	O	I-Task
-of	NN	O	I-Task
-reclamation	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-a	NN	O	O
-synthetic	NN	O	B-Task
-assessment	NN	O	I-Task
-method	NN	O	I-Task
-based	NN	O	I-Task
-on	NN	O	I-Task
-cloud	NN	O	I-Task
-theory	NN	O	I-Task
-is	NN	O	I-Task
-applied	NN	O	I-Task
-to	NN	O	O
-evaluate	NN	O	O
-the	NN	O	O
-single	NN	O	O
-factor	NN	O	O
-and	NN	O	O
-multiple	NN	O	O
-factors	NN	O	O
-environmental	NN	O	B-Process
-carrying	NN	O	I-Process
-capacity	NN	O	I-Process
-in	NN	O	O
-Caofeidian	NN	O	O
-marine	NN	O	O
-district	NN	O	O
-,	NN	O	O
-Tangshan	NN	O	O
-Bay	NN	O	O
-,	NN	O	O
-China	NN	O	O
-.	NN	O	O
-
-With	NN	O	O
-the	NN	O	O
-field	NN	O	B-Material
-data	NN	O	I-Material
-of	NN	O	O
-five	NN	O	O
-assessment	NN	O	O
-indexes	NN	O	O
-in	NN	O	O
-recent	NN	O	O
-six	NN	O	O
-years	NN	O	O
-,	NN	O	O
-the	NN	O	O
-assessment	NN	O	O
-results	NN	O	O
-are	NN	O	O
-obtained	NN	O	O
-which	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-marine	NN	O	B-Process
-reclamation	NN	O	I-Process
-has	NN	O	O
-a	NN	O	O
-certain	NN	O	O
-impact	NN	O	O
-for	NN	O	O
-the	NN	O	O
-marine	NN	O	O
-environment	NN	O	O
-.	NN	O	O
+The	0	3	O
+retrospective	4	17	B-Task
+assessment	18	28	I-Task
+of	29	31	I-Task
+environmental	32	45	I-Task
+carrying	46	54	I-Task
+capacity	55	63	I-Task
+aims	64	68	O
+to	69	71	O
+obtain	72	78	B-Task
+the	79	82	I-Task
+historical	83	93	I-Task
+development	94	105	I-Task
+situation	106	115	I-Task
+of	116	118	I-Task
+reclamation	119	130	I-Task
+domain	131	137	I-Task
+,	137	138	O
+it	139	141	O
+'s	141	143	O
+an	144	146	O
+essential	147	156	O
+tool	157	161	O
+for	162	165	O
+improving	166	175	B-Task
+the	176	179	I-Task
+managed	180	187	I-Task
+level	188	193	I-Task
+and	194	197	O
+guiding	198	205	B-Task
+the	206	209	I-Task
+environmental	210	223	I-Task
+management	224	234	I-Task
+of	235	237	I-Task
+reclamation	238	249	I-Task
+.	249	250	O
+
+In	251	253	O
+this	254	258	O
+paper	259	264	O
+,	264	265	O
+a	266	267	O
+synthetic	268	277	B-Task
+assessment	278	288	I-Task
+method	289	295	I-Task
+based	296	301	I-Task
+on	302	304	I-Task
+cloud	305	310	I-Task
+theory	311	317	I-Task
+is	318	320	I-Task
+applied	321	328	I-Task
+to	329	331	O
+evaluate	332	340	O
+the	341	344	O
+single	345	351	O
+factor	352	358	O
+and	359	362	O
+multiple	363	371	O
+factors	372	379	O
+environmental	380	393	B-Process
+carrying	394	402	I-Process
+capacity	403	411	I-Process
+in	412	414	O
+Caofeidian	415	425	O
+marine	426	432	O
+district	433	441	O
+,	441	442	O
+Tangshan	443	451	O
+Bay	452	455	O
+,	455	456	O
+China	457	462	O
+.	462	463	O
+
+With	464	468	O
+the	469	472	O
+field	473	478	B-Material
+data	479	483	I-Material
+of	484	486	O
+five	487	491	O
+assessment	492	502	O
+indexes	503	510	O
+in	511	513	O
+recent	514	520	O
+six	521	524	O
+years	525	530	O
+,	530	531	O
+the	532	535	O
+assessment	536	546	O
+results	547	554	O
+are	555	558	O
+obtained	559	567	O
+which	568	573	O
+show	574	578	O
+that	579	583	O
+the	584	587	O
+marine	588	594	B-Process
+reclamation	595	606	I-Process
+has	607	610	O
+a	611	612	O
+certain	613	620	O
+impact	621	627	O
+for	628	631	O
+the	632	635	O
+marine	636	642	O
+environment	643	654	O
+.	654	655	O
 
 
 -DOCSTART- (S2212667814000756)
 
-This	NN	O	O
-study	NN	O	O
-is	NN	O	O
-focused	NN	O	O
-on	NN	O	O
-the	NN	O	O
-water	NN	O	B-Process
--	NN	O	I-Process
-gas	NN	O	I-Process
-shift	NN	O	I-Process
-reaction	NN	O	I-Process
-(	NN	O	O
-WGSR	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-occurring	NN	O	O
-in	NN	O	O
-the	NN	O	O
-chemical	NN	O	B-Process
-kinetics	NN	O	I-Process
-equipment	NN	O	I-Process
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-increase	NN	O	O
-hydrogen	NN	O	B-Process
-recovery	NN	O	I-Process
-from	NN	O	O
-industrial	NN	O	B-Process
-processes	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-research	NN	O	O
-deals	NN	O	O
-with	NN	O	O
-comparing	NN	O	O
-hydrogen	NN	O	B-Process
-recovery	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-three	NN	O	O
-different	NN	O	O
-catalysts	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-amount	NN	O	O
-of	NN	O	O
-the	NN	O	O
-produced	NN	O	O
-hydrogen	NN	O	B-Material
-depends	NN	O	O
-considerably	NN	O	O
-on	NN	O	O
-the	NN	O	O
-reaction	NN	O	B-Process
-state	NN	O	O
-and	NN	O	O
-the	NN	O	O
-catalyst	NN	O	B-Material
-composition	NN	O	O
-.	NN	O	O
-
-To	NN	O	O
-improve	NN	O	O
-the	NN	O	O
-course	NN	O	O
-of	NN	O	O
-the	NN	O	O
-reaction	NN	O	B-Process
-,	NN	O	O
-natural	NN	O	B-Material
-catalysts	NN	O	I-Material
-–	NN	O	O
-calcite	NN	O	B-Material
-,	NN	O	O
-coal	NN	O	B-Material
-char	NN	O	I-Material
-(	NN	O	O
-unburned	NN	O	B-Material
-residues	NN	O	I-Material
-from	NN	O	I-Material
-coal	NN	O	I-Material
-)	NN	O	O
-and	NN	O	O
-modified	NN	O	B-Material
-olivine	NN	O	I-Material
-
-–	NN	O	O
-are	NN	O	O
-added	NN	O	O
-to	NN	O	O
-the	NN	O	O
-gasification	NN	O	B-Process
-process	NN	O	I-Process
-and	NN	O	O
-heated	NN	O	B-Process
-to	NN	O	O
-the	NN	O	O
-process	NN	O	O
-temperature	NN	O	O
-of	NN	O	O
-800	NN	O	O
-,	NN	O	O
-850	NN	O	O
-and	NN	O	O
-900oC.	NN	O	O
+This	0	4	O
+study	5	10	O
+is	11	13	O
+focused	14	21	O
+on	22	24	O
+the	25	28	O
+water	29	34	B-Process
+-	34	35	I-Process
+gas	35	38	I-Process
+shift	39	44	I-Process
+reaction	45	53	I-Process
+(	54	55	O
+WGSR	55	59	B-Process
+)	59	60	O
+,	60	61	O
+occurring	62	71	O
+in	72	74	O
+the	75	78	O
+chemical	79	87	B-Process
+kinetics	88	96	I-Process
+equipment	97	106	I-Process
+,	106	107	O
+which	108	113	O
+is	114	116	O
+used	117	121	O
+to	122	124	O
+increase	125	133	O
+hydrogen	134	142	B-Process
+recovery	143	151	I-Process
+from	152	156	O
+industrial	157	167	B-Process
+processes	168	177	I-Process
+.	177	178	O
+
+The	179	182	O
+research	183	191	O
+deals	192	197	O
+with	198	202	O
+comparing	203	212	O
+hydrogen	213	221	B-Process
+recovery	222	230	I-Process
+with	231	235	O
+the	236	239	O
+use	240	243	O
+of	244	246	O
+three	247	252	O
+different	253	262	O
+catalysts	263	272	B-Material
+.	272	273	O
+
+The	274	277	O
+amount	278	284	O
+of	285	287	O
+the	288	291	O
+produced	292	300	O
+hydrogen	301	309	B-Material
+depends	310	317	O
+considerably	318	330	O
+on	331	333	O
+the	334	337	O
+reaction	338	346	B-Process
+state	347	352	O
+and	353	356	O
+the	357	360	O
+catalyst	361	369	B-Material
+composition	370	381	O
+.	381	382	O
+
+To	383	385	O
+improve	386	393	O
+the	394	397	O
+course	398	404	O
+of	405	407	O
+the	408	411	O
+reaction	412	420	B-Process
+,	420	421	O
+natural	422	429	B-Material
+catalysts	430	439	I-Material
+–	440	441	O
+calcite	442	449	B-Material
+,	449	450	O
+coal	451	455	B-Material
+char	456	460	I-Material
+(	461	462	O
+unburned	462	470	B-Material
+residues	471	479	I-Material
+from	480	484	I-Material
+coal	485	489	I-Material
+)	489	490	O
+and	491	494	O
+modified	495	503	B-Material
+olivine	504	511	I-Material
+
+–	512	513	O
+are	514	517	O
+added	518	523	O
+to	524	526	O
+the	527	530	O
+gasification	531	543	B-Process
+process	544	551	I-Process
+and	552	555	O
+heated	556	562	B-Process
+to	563	565	O
+the	566	569	O
+process	570	577	O
+temperature	578	589	O
+of	590	592	O
+800	593	596	O
+,	596	597	O
+850	598	601	O
+and	602	605	O
+900oC.	606	612	O
 
 
 -DOCSTART- (S221266781400080X)
 
-Several	NN	O	O
-inorganic	NN	O	B-Material
-flocculating	NN	O	I-Material
-agents	NN	O	I-Material
-,	NN	O	O
-including	NN	O	O
-FeSO4	NN	O	B-Material
-,	NN	O	O
-Al2(SO4)3	NN	O	B-Material
-,	NN	O	I-Material
-FeCl3	NN	O	B-Material
-and	NN	O	O
-an	NN	O	O
-organic	NN	O	B-Material
-coagulant	NN	O	I-Material
-aid	NN	O	I-Material
-PAM	NN	O	B-Material
-,	NN	O	O
-were	NN	O	O
-used	NN	O	O
-to	NN	O	O
-treat	NN	O	B-Process
-the	NN	O	I-Process
-wastewater	NN	O	I-Process
-from	NN	O	O
-domestic	NN	O	O
-anima	NN	O	O
-and	NN	O	O
-poultry	NN	O	O
-breeding	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-ideal	NN	O	O
-operating	NN	O	O
-conditions	NN	O	O
-were	NN	O	O
-attained	NN	O	O
-by	NN	O	O
-single	NN	O	B-Task
-factor	NN	O	I-Task
-experiment	NN	O	I-Task
-and	NN	O	O
-orthogonal	NN	O	B-Task
-design	NN	O	I-Task
-experiment	NN	O	I-Task
-.	NN	O	O
-
-And	NN	O	O
-the	NN	O	O
-ideal	NN	O	O
-operating	NN	O	O
-conditions	NN	O	O
-are	NN	O	O
-follows	NN	O	O
-:	NN	O	O
-the	NN	O	O
-dose	NN	O	O
-of	NN	O	O
-FeSO4	NN	O	B-Material
-and	NN	O	O
-
-PAM	NN	O	B-Material
-is	NN	O	O
-
-135.2mg	NN	O	O
-/	NN	O	O
-L	NN	O	O
-and	NN	O	O
-0.384mg	NN	O	O
-/	NN	O	O
-L	NN	O	O
-respectively	NN	O	O
-when	NN	O	O
-keeping	NN	O	O
-the	NN	O	O
-pH	NN	O	O
-10	NN	O	O
-;	NN	O	O
-and	NN	O	O
-
-the	NN	O	O
-corresponding	NN	O	O
-removal	NN	O	B-Process
-rate	NN	O	I-Process
-is	NN	O	O
-55	NN	O	O
-%	NN	O	O
-and	NN	O	O
-60	NN	O	O
-%	NN	O	O
-for	NN	O	O
-COD	NN	O	B-Material
-and	NN	O	O
-turbidity	NN	O	O
-.	NN	O	O
-
-Based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-experimental	NN	O	O
-results	NN	O	O
-,	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-analyzes	NN	O	B-Task
-the	NN	O	I-Task
-main	NN	O	I-Task
-factors	NN	O	I-Task
-that	NN	O	O
-affect	NN	O	O
-wastewater	NN	O	B-Process
-flocculation	NN	O	I-Process
-treatment	NN	O	I-Process
-.	NN	O	O
+Several	0	7	O
+inorganic	8	17	B-Material
+flocculating	18	30	I-Material
+agents	31	37	I-Material
+,	37	38	O
+including	39	48	O
+FeSO4	49	54	B-Material
+,	54	55	O
+Al2(SO4)3	56	65	B-Material
+,	65	66	I-Material
+FeCl3	67	72	B-Material
+and	73	76	O
+an	77	79	O
+organic	80	87	B-Material
+coagulant	88	97	I-Material
+aid	98	101	I-Material
+PAM	102	105	B-Material
+,	105	106	O
+were	107	111	O
+used	112	116	O
+to	117	119	O
+treat	120	125	B-Process
+the	126	129	I-Process
+wastewater	130	140	I-Process
+from	141	145	O
+domestic	146	154	O
+anima	155	160	O
+and	161	164	O
+poultry	165	172	O
+breeding	173	181	O
+in	182	184	O
+this	185	189	O
+paper	190	195	O
+.	195	196	O
+
+The	197	200	O
+ideal	201	206	O
+operating	207	216	O
+conditions	217	227	O
+were	228	232	O
+attained	233	241	O
+by	242	244	O
+single	245	251	B-Task
+factor	252	258	I-Task
+experiment	259	269	I-Task
+and	270	273	O
+orthogonal	274	284	B-Task
+design	285	291	I-Task
+experiment	292	302	I-Task
+.	302	303	O
+
+And	304	307	O
+the	308	311	O
+ideal	312	317	O
+operating	318	327	O
+conditions	328	338	O
+are	339	342	O
+follows	343	350	O
+:	350	351	O
+the	352	355	O
+dose	356	360	O
+of	361	363	O
+FeSO4	364	369	B-Material
+and	370	373	O
+
+PAM	374	377	B-Material
+is	378	380	O
+
+135.2mg	381	388	O
+/	388	389	O
+L	389	390	O
+and	391	394	O
+0.384mg	395	402	O
+/	402	403	O
+L	403	404	O
+respectively	405	417	O
+when	418	422	O
+keeping	423	430	O
+the	431	434	O
+pH	435	437	O
+10	438	440	O
+;	440	441	O
+and	442	445	O
+
+the	446	449	O
+corresponding	450	463	O
+removal	464	471	B-Process
+rate	472	476	I-Process
+is	477	479	O
+55	480	482	O
+%	482	483	O
+and	484	487	O
+60	488	490	O
+%	490	491	O
+for	492	495	O
+COD	496	499	B-Material
+and	500	503	O
+turbidity	504	513	O
+.	513	514	O
+
+Based	515	520	O
+on	521	523	O
+the	524	527	O
+experimental	528	540	O
+results	541	548	O
+,	548	549	O
+this	550	554	O
+paper	555	560	O
+analyzes	561	569	B-Task
+the	570	573	I-Task
+main	574	578	I-Task
+factors	579	586	I-Task
+that	587	591	O
+affect	592	598	O
+wastewater	599	609	B-Process
+flocculation	610	622	I-Process
+treatment	623	632	I-Process
+.	632	633	O
 
 
 -DOCSTART- (S2212667814000884)
 
-Many	NN	O	O
-models	NN	O	B-Process
-have	NN	O	O
-been	NN	O	O
-propounded	NN	O	O
-for	NN	O	O
-forecasting	NN	O	B-Process
-lightning	NN	O	I-Process
-.	NN	O	O
-
-Though	NN	O	O
-majority	NN	O	O
-of	NN	O	O
-the	NN	O	O
-model	NN	O	B-Process
-had	NN	O	O
-shown	NN	O	O
-accuracy	NN	O	O
-,	NN	O	O
-the	NN	O	O
-response	NN	O	O
-time	NN	O	O
-in	NN	O	O
-detecting	NN	O	O
-natural	NN	O	B-Process
-phenomenon	NN	O	I-Process
-is	NN	O	O
-quite	NN	O	O
-low	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-model	NN	O	O
-,	NN	O	O
-we	NN	O	O
-used	NN	O	O
-the	NN	O	O
-mathematical	NN	O	B-Task
-experimentation	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-micro	NN	O	B-Material
-scale	NN	O	I-Material
-plasmas	NN	O	I-Material
-to	NN	O	O
-develop	NN	O	O
-the	NN	O	O
-macro	NN	O	B-Material
-scale	NN	O	I-Material
-atmospheric	NN	O	I-Material
-plasma	NN	O	I-Material
-which	NN	O	O
-we	NN	O	O
-believe	NN	O	O
-is	NN	O	O
-a	NN	O	O
-major	NN	O	O
-influence	NN	O	O
-of	NN	O	O
-lightning	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-Schrödinger	NN	O	B-Process
--	NN	O	I-Process
-electrostatic	NN	O	I-Process
-algorithm	NN	O	I-Process
-was	NN	O	O
-propounded	NN	O	O
-to	NN	O	O
-further	NN	O	O
-increase	NN	O	O
-both	NN	O	O
-the	NN	O	O
-accuracy	NN	O	O
-and	NN	O	O
-alacrity	NN	O	O
-of	NN	O	O
-detecting	NN	O	B-Process
-natural	NN	O	I-Process
-phenomena	NN	O	I-Process
-.	NN	O	I-Process
-
-According	NN	O	O
-to	NN	O	O
-our	NN	O	O
-theoretical	NN	O	B-Task
-experimentation	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-air	NN	O	B-Material
-density	NN	O	O
-plays	NN	O	O
-a	NN	O	O
-major	NN	O	O
-role	NN	O	O
-in	NN	O	O
-lightning	NN	O	B-Process
-forecast	NN	O	O
-.	NN	O	O
-
-Our	NN	O	O
-guess	NN	O	O
-was	NN	O	O
-verified	NN	O	O
-using	NN	O	O
-the	NN	O	O
-Davis	NN	O	B-Process
-Weather	NN	O	I-Process
-Station	NN	O	I-Process
-to	NN	O	O
-track	NN	O	B-Task
-the	NN	O	I-Task
-air	NN	O	I-Task
-density	NN	O	I-Task
-both	NN	O	O
-in	NN	O	O
-the	NN	O	O
-upper	NN	O	O
-and	NN	O	O
-lower	NN	O	O
-atmosphere	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-air	NN	O	B-Material
-density	NN	O	O
-in	NN	O	O
-the	NN	O	O
-upper	NN	O	B-Material
-atmosphere	NN	O	I-Material
-showed	NN	O	O
-prospect	NN	O	O
-as	NN	O	O
-a	NN	O	O
-vital	NN	O	O
-factor	NN	O	O
-for	NN	O	O
-lightning	NN	O	B-Process
-forecast	NN	O	O
-.	NN	O	O
+Many	0	4	O
+models	5	11	B-Process
+have	12	16	O
+been	17	21	O
+propounded	22	32	O
+for	33	36	O
+forecasting	37	48	B-Process
+lightning	49	58	I-Process
+.	58	59	O
+
+Though	60	66	O
+majority	67	75	O
+of	76	78	O
+the	79	82	O
+model	83	88	B-Process
+had	89	92	O
+shown	93	98	O
+accuracy	99	107	O
+,	107	108	O
+the	109	112	O
+response	113	121	O
+time	122	126	O
+in	127	129	O
+detecting	130	139	O
+natural	140	147	B-Process
+phenomenon	148	158	I-Process
+is	159	161	O
+quite	162	167	O
+low	168	171	O
+.	171	172	O
+
+In	173	175	O
+this	176	180	O
+model	181	186	O
+,	186	187	O
+we	188	190	O
+used	191	195	O
+the	196	199	O
+mathematical	200	212	B-Task
+experimentation	213	228	I-Task
+of	229	231	O
+the	232	235	O
+micro	236	241	B-Material
+scale	242	247	I-Material
+plasmas	248	255	I-Material
+to	256	258	O
+develop	259	266	O
+the	267	270	O
+macro	271	276	B-Material
+scale	277	282	I-Material
+atmospheric	283	294	I-Material
+plasma	295	301	I-Material
+which	302	307	O
+we	308	310	O
+believe	311	318	O
+is	319	321	O
+a	322	323	O
+major	324	329	O
+influence	330	339	O
+of	340	342	O
+lightning	343	352	B-Process
+.	352	353	O
+
+The	354	357	O
+Schrödinger	358	369	B-Process
+-	369	370	I-Process
+electrostatic	370	383	I-Process
+algorithm	384	393	I-Process
+was	394	397	O
+propounded	398	408	O
+to	409	411	O
+further	412	419	O
+increase	420	428	O
+both	429	433	O
+the	434	437	O
+accuracy	438	446	O
+and	447	450	O
+alacrity	451	459	O
+of	460	462	O
+detecting	463	472	B-Process
+natural	473	480	I-Process
+phenomena	481	490	I-Process
+.	490	491	I-Process
+
+According	492	501	O
+to	502	504	O
+our	505	508	O
+theoretical	509	520	B-Task
+experimentation	521	536	I-Task
+,	536	537	O
+the	538	541	O
+air	542	545	B-Material
+density	546	553	O
+plays	554	559	O
+a	560	561	O
+major	562	567	O
+role	568	572	O
+in	573	575	O
+lightning	576	585	B-Process
+forecast	586	594	O
+.	594	595	O
+
+Our	596	599	O
+guess	600	605	O
+was	606	609	O
+verified	610	618	O
+using	619	624	O
+the	625	628	O
+Davis	629	634	B-Process
+Weather	635	642	I-Process
+Station	643	650	I-Process
+to	651	653	O
+track	654	659	B-Task
+the	660	663	I-Task
+air	664	667	I-Task
+density	668	675	I-Task
+both	676	680	O
+in	681	683	O
+the	684	687	O
+upper	688	693	O
+and	694	697	O
+lower	698	703	O
+atmosphere	704	714	O
+.	714	715	O
+
+The	716	719	O
+air	720	723	B-Material
+density	724	731	O
+in	732	734	O
+the	735	738	O
+upper	739	744	B-Material
+atmosphere	745	755	I-Material
+showed	756	762	O
+prospect	763	771	O
+as	772	774	O
+a	775	776	O
+vital	777	782	O
+factor	783	789	O
+for	790	793	O
+lightning	794	803	B-Process
+forecast	804	812	O
+.	812	813	O
 
 
 -DOCSTART- (S2212667814000951)
 
-Design	NN	O	B-Task
-semantics	NN	O	I-Task
-is	NN	O	O
-an	NN	O	O
-integration	NN	O	B-Task
-of	NN	O	I-Task
-human	NN	O	I-Task
-mode	NN	O	I-Task
-of	NN	O	I-Task
-existence	NN	O	I-Task
-and	NN	O	I-Task
-view	NN	O	I-Task
-on	NN	O	I-Task
-culture	NN	O	I-Task
-and	NN	O	I-Task
-art	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-means	NN	O	O
-it	NN	O	O
-is	NN	O	O
-a	NN	O	O
-unity	NN	O	B-Task
-of	NN	O	I-Task
-art	NN	O	I-Task
-and	NN	O	I-Task
-science	NN	O	I-Task
-.	NN	O	O
-
-Design	NN	O	B-Task
-semantics	NN	O	I-Task
-is	NN	O	O
-the	NN	O	O
-annotation	NN	O	B-Task
-of	NN	O	I-Task
-form	NN	O	I-Task
-and	NN	O	I-Task
-the	NN	O	I-Task
-reflection	NN	O	I-Task
-of	NN	O	I-Task
-its	NN	O	I-Task
-symbolic	NN	O	I-Task
-meaning	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-means	NN	O	O
-it	NN	O	O
-is	NN	O	O
-an	NN	O	O
-explanation	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-deposited	NN	O	I-Task
-human	NN	O	I-Task
-cultural	NN	O	I-Task
-spirit	NN	O	I-Task
-.	NN	O	O
-
-Chinese	NN	O	O
-art	NN	O	O
-stresses	NN	O	O
-Expression	NN	O	O
-,	NN	O	O
-Force	NN	O	O
-and	NN	O	O
-Qi	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-China	NN	O	O
-,	NN	O	O
-people	NN	O	O
-advocate	NN	O	O
-“	NN	O	O
-to	NN	O	B-Process
-learn	NN	O	I-Process
-from	NN	O	I-Process
-nature	NN	O	I-Process
-”	NN	O	O
-,	NN	O	O
-“	NN	O	O
-to	NN	O	O
-look	NN	O	O
-up	NN	O	O
-to	NN	O	O
-observe	NN	O	O
-the	NN	O	O
-sun	NN	O	O
-,	NN	O	O
-the	NN	O	O
-moon	NN	O	O
-and	NN	O	O
-stars	NN	O	O
-,	NN	O	O
-and	NN	O	O
-look	NN	O	O
-down	NN	O	O
-to	NN	O	O
-observe	NN	O	B-Process
-the	NN	O	I-Process
-surroundings	NN	O	I-Process
-”	NN	O	O
-,	NN	O	O
-and	NN	O	O
-take	NN	O	O
-“	NN	O	O
-Nature	NN	O	O
-and	NN	O	O
-Man	NN	O	O
-in	NN	O	O
-One	NN	O	O
-”	NN	O	O
-as	NN	O	O
-the	NN	O	O
-highest	NN	O	O
-state	NN	O	O
-of	NN	O	O
-spirit	NN	O	O
-.	NN	O	O
-
-Design	NN	O	B-Task
-semantics	NN	O	I-Task
-is	NN	O	O
-expressed	NN	O	O
-in	NN	O	O
-space	NN	O	B-Task
-environment	NN	O	I-Task
-design	NN	O	I-Task
-through	NN	O	O
-a	NN	O	O
-symbiotic	NN	O	O
-philosophical	NN	O	O
-view	NN	O	O
-that	NN	O	O
-natural	NN	O	B-Material
-and	NN	O	I-Material
-artificial	NN	O	I-Material
-forms	NN	O	I-Material
-are	NN	O	O
-complementary	NN	O	O
-and	NN	O	O
-interactive	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-form	NN	O	O
-of	NN	O	O
-design	NN	O	O
-leads	NN	O	O
-humans	NN	O	O
-back	NN	O	O
-to	NN	O	O
-a	NN	O	O
-better	NN	O	O
-state	NN	O	O
-of	NN	O	O
-living	NN	O	O
-,	NN	O	O
-i.e.	NN	O	O
-Nature	NN	O	O
-and	NN	O	O
-Man	NN	O	O
-in	NN	O	O
-One	NN	O	O
-.	NN	O	O
+Design	0	6	B-Task
+semantics	7	16	I-Task
+is	17	19	O
+an	20	22	O
+integration	23	34	B-Task
+of	35	37	I-Task
+human	38	43	I-Task
+mode	44	48	I-Task
+of	49	51	I-Task
+existence	52	61	I-Task
+and	62	65	I-Task
+view	66	70	I-Task
+on	71	73	I-Task
+culture	74	81	I-Task
+and	82	85	I-Task
+art	86	89	I-Task
+,	89	90	O
+which	91	96	O
+means	97	102	O
+it	103	105	O
+is	106	108	O
+a	109	110	O
+unity	111	116	B-Task
+of	117	119	I-Task
+art	120	123	I-Task
+and	124	127	I-Task
+science	128	135	I-Task
+.	135	136	O
+
+Design	137	143	B-Task
+semantics	144	153	I-Task
+is	154	156	O
+the	157	160	O
+annotation	161	171	B-Task
+of	172	174	I-Task
+form	175	179	I-Task
+and	180	183	I-Task
+the	184	187	I-Task
+reflection	188	198	I-Task
+of	199	201	I-Task
+its	202	205	I-Task
+symbolic	206	214	I-Task
+meaning	215	222	I-Task
+,	222	223	O
+which	224	229	O
+means	230	235	O
+it	236	238	O
+is	239	241	O
+an	242	244	O
+explanation	245	256	B-Task
+of	257	259	I-Task
+the	260	263	I-Task
+deposited	264	273	I-Task
+human	274	279	I-Task
+cultural	280	288	I-Task
+spirit	289	295	I-Task
+.	295	296	O
+
+Chinese	297	304	O
+art	305	308	O
+stresses	309	317	O
+Expression	318	328	O
+,	328	329	O
+Force	330	335	O
+and	336	339	O
+Qi	340	342	O
+.	342	343	O
+
+In	344	346	O
+China	347	352	O
+,	352	353	O
+people	354	360	O
+advocate	361	369	O
+“	370	371	O
+to	371	373	B-Process
+learn	374	379	I-Process
+from	380	384	I-Process
+nature	385	391	I-Process
+”	391	392	O
+,	392	393	O
+“	394	395	O
+to	395	397	O
+look	398	402	O
+up	403	405	O
+to	406	408	O
+observe	409	416	O
+the	417	420	O
+sun	421	424	O
+,	424	425	O
+the	426	429	O
+moon	430	434	O
+and	435	438	O
+stars	439	444	O
+,	444	445	O
+and	446	449	O
+look	450	454	O
+down	455	459	O
+to	460	462	O
+observe	463	470	B-Process
+the	471	474	I-Process
+surroundings	475	487	I-Process
+”	487	488	O
+,	488	489	O
+and	490	493	O
+take	494	498	O
+“	499	500	O
+Nature	500	506	O
+and	507	510	O
+Man	511	514	O
+in	515	517	O
+One	518	521	O
+”	521	522	O
+as	523	525	O
+the	526	529	O
+highest	530	537	O
+state	538	543	O
+of	544	546	O
+spirit	547	553	O
+.	553	554	O
+
+Design	555	561	B-Task
+semantics	562	571	I-Task
+is	572	574	O
+expressed	575	584	O
+in	585	587	O
+space	588	593	B-Task
+environment	594	605	I-Task
+design	606	612	I-Task
+through	613	620	O
+a	621	622	O
+symbiotic	623	632	O
+philosophical	633	646	O
+view	647	651	O
+that	652	656	O
+natural	657	664	B-Material
+and	665	668	I-Material
+artificial	669	679	I-Material
+forms	680	685	I-Material
+are	686	689	O
+complementary	690	703	O
+and	704	707	O
+interactive	708	719	O
+.	719	720	O
+
+This	721	725	O
+form	726	730	O
+of	731	733	O
+design	734	740	O
+leads	741	746	O
+humans	747	753	O
+back	754	758	O
+to	759	761	O
+a	762	763	O
+better	764	770	O
+state	771	776	O
+of	777	779	O
+living	780	786	O
+,	786	787	O
+i.e.	788	792	O
+Nature	793	799	O
+and	800	803	O
+Man	804	807	O
+in	808	810	O
+One	811	814	O
+.	814	815	O
 
 
 -DOCSTART- (S2212667814000975)
 
-It	NN	O	O
-has	NN	O	O
-been	NN	O	O
-acknowledged	NN	O	O
-that	NN	O	O
-megalopolises	NN	O	O
-are	NN	O	O
-playing	NN	O	O
-a	NN	O	O
-leading	NN	O	O
-role	NN	O	O
-in	NN	O	O
-the	NN	O	O
-processes	NN	O	O
-of	NN	O	O
-both	NN	O	O
-economic	NN	O	B-Process
-development	NN	O	I-Process
-and	NN	O	O
-culture	NN	O	B-Process
-change	NN	O	I-Process
-.	NN	O	O
-
-Thereupon	NN	O	O
-,	NN	O	O
-the	NN	O	O
-new	NN	O	O
-emphases	NN	O	O
-on	NN	O	O
-sustainability	NN	O	B-Process
-of	NN	O	I-Process
-transportation	NN	O	I-Process
-system	NN	O	I-Process
-in	NN	O	O
-megalopolis	NN	O	O
-are	NN	O	O
-creating	NN	O	O
-new	NN	O	O
-demands	NN	O	O
-for	NN	O	O
-adequate	NN	O	O
-approach	NN	O	B-Task
-to	NN	O	I-Task
-measure	NN	O	I-Task
-its	NN	O	I-Task
-performance	NN	O	I-Task
-and	NN	O	I-Task
-diagnosis	NN	O	I-Task
-potential	NN	O	I-Task
-drawbacks	NN	O	I-Task
-.	NN	O	O
-
-By	NN	O	O
-examining	NN	O	O
-the	NN	O	O
-descriptions	NN	O	O
-of	NN	O	O
-sustainable	NN	O	O
-transport	NN	O	B-Process
-system	NN	O	I-Process
-as	NN	O	O
-well	NN	O	O
-as	NN	O	O
-its	NN	O	O
-evaluating	NN	O	O
-approach	NN	O	O
-,	NN	O	O
-a	NN	O	O
-framework	NN	O	B-Material
-with	NN	O	O
-the	NN	O	O
-general	NN	O	O
-applicability	NN	O	O
-and	NN	O	O
-easily	NN	O	O
-accessible	NN	O	O
-data	NN	O	O
-resource	NN	O	O
-for	NN	O	O
-evaluating	NN	O	O
-sustainability	NN	O	O
-of	NN	O	O
-transport	NN	O	B-Process
-system	NN	O	I-Process
-in	NN	O	O
-megalopolis	NN	O	O
-is	NN	O	O
-developed	NN	O	O
-based	NN	O	O
-on	NN	O	O
-nature	NN	O	O
-of	NN	O	O
-regional	NN	O	O
-structure	NN	O	O
-and	NN	O	O
-the	NN	O	O
-feature	NN	O	O
-transport	NN	O	O
-demand	NN	O	O
-in	NN	O	O
-megalopolis	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-proposed	NN	O	B-Task
-framework	NN	O	I-Task
-is	NN	O	I-Task
-applied	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-analysis	NN	O	O
-and	NN	O	O
-comparison	NN	O	O
-of	NN	O	O
-Jing	NN	O	O
--	NN	O	O
-Jin	NN	O	O
--	NN	O	O
-Ji	NN	O	O
-and	NN	O	O
-Yangtze	NN	O	O
-River	NN	O	O
-Delta	NN	O	O
-..	NN	O	O
+It	0	2	O
+has	3	6	O
+been	7	11	O
+acknowledged	12	24	O
+that	25	29	O
+megalopolises	30	43	O
+are	44	47	O
+playing	48	55	O
+a	56	57	O
+leading	58	65	O
+role	66	70	O
+in	71	73	O
+the	74	77	O
+processes	78	87	O
+of	88	90	O
+both	91	95	O
+economic	96	104	B-Process
+development	105	116	I-Process
+and	117	120	O
+culture	121	128	B-Process
+change	129	135	I-Process
+.	135	136	O
+
+Thereupon	137	146	O
+,	146	147	O
+the	148	151	O
+new	152	155	O
+emphases	156	164	O
+on	165	167	O
+sustainability	168	182	B-Process
+of	183	185	I-Process
+transportation	186	200	I-Process
+system	201	207	I-Process
+in	208	210	O
+megalopolis	211	222	O
+are	223	226	O
+creating	227	235	O
+new	236	239	O
+demands	240	247	O
+for	248	251	O
+adequate	252	260	O
+approach	261	269	B-Task
+to	270	272	I-Task
+measure	273	280	I-Task
+its	281	284	I-Task
+performance	285	296	I-Task
+and	297	300	I-Task
+diagnosis	301	310	I-Task
+potential	311	320	I-Task
+drawbacks	321	330	I-Task
+.	330	331	O
+
+By	332	334	O
+examining	335	344	O
+the	345	348	O
+descriptions	349	361	O
+of	362	364	O
+sustainable	365	376	O
+transport	377	386	B-Process
+system	387	393	I-Process
+as	394	396	O
+well	397	401	O
+as	402	404	O
+its	405	408	O
+evaluating	409	419	O
+approach	420	428	O
+,	428	429	O
+a	430	431	O
+framework	432	441	B-Material
+with	442	446	O
+the	447	450	O
+general	451	458	O
+applicability	459	472	O
+and	473	476	O
+easily	477	483	O
+accessible	484	494	O
+data	495	499	O
+resource	500	508	O
+for	509	512	O
+evaluating	513	523	O
+sustainability	524	538	O
+of	539	541	O
+transport	542	551	B-Process
+system	552	558	I-Process
+in	559	561	O
+megalopolis	562	573	O
+is	574	576	O
+developed	577	586	O
+based	587	592	O
+on	593	595	O
+nature	596	602	O
+of	603	605	O
+regional	606	614	O
+structure	615	624	O
+and	625	628	O
+the	629	632	O
+feature	633	640	O
+transport	641	650	O
+demand	651	657	O
+in	658	660	O
+megalopolis	661	672	O
+.	672	673	O
+
+The	674	677	O
+proposed	678	686	B-Task
+framework	687	696	I-Task
+is	697	699	I-Task
+applied	700	707	I-Task
+in	708	710	O
+the	711	714	O
+analysis	715	723	O
+and	724	727	O
+comparison	728	738	O
+of	739	741	O
+Jing	742	746	O
+-	746	747	O
+Jin	747	750	O
+-	750	751	O
+Ji	751	753	O
+and	754	757	O
+Yangtze	758	765	O
+River	766	771	O
+Delta	772	777	O
+..	777	779	O
 
 
 -DOCSTART- (S2212667814000987)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-we	NN	O	O
-consider	NN	O	O
-problems	NN	O	B-Task
-of	NN	O	I-Task
-creating	NN	O	I-Task
-and	NN	O	I-Task
-introducing	NN	O	I-Task
-intelligent	NN	O	I-Task
-management	NN	O	I-Task
-systems	NN	O	I-Task
-as	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-most	NN	O	O
-important	NN	O	O
-mechanism	NN	O	O
-of	NN	O	O
-increasing	NN	O	B-Task
-energy	NN	O	I-Task
-efficiency	NN	O	I-Task
-in	NN	O	O
-industry	NN	O	O
-.	NN	O	O
-
-Operating	NN	O	O
-principles	NN	O	O
-of	NN	O	O
-intelligent	NN	O	B-Process
-electric	NN	O	I-Process
-power	NN	O	I-Process
-distribution	NN	O	I-Process
-systems	NN	O	I-Process
-developed	NN	O	O
-in	NN	O	O
-MSTU	NN	O	B-Material
-«	NN	O	I-Material
-STANKIN	NN	O	I-Material
-»	NN	O	I-Material
-for	NN	O	O
-AC	NN	O	B-Material
-and	NN	O	I-Material
-DC	NN	O	I-Material
-grids	NN	O	I-Material
-on	NN	O	O
-industrial	NN	O	O
-plants	NN	O	O
-are	NN	O	O
-described	NN	O	O
-.	NN	O	O
-
-Essential	NN	O	O
-devices	NN	O	B-Task
-composing	NN	O	I-Task
-the	NN	O	I-Task
-systems	NN	O	I-Task
-are	NN	O	I-Task
-considered	NN	O	I-Task
-,	NN	O	O
-their	NN	O	O
-technical	NN	O	B-Task
-characteristics	NN	O	I-Task
-are	NN	O	I-Task
-described	NN	O	I-Task
-.	NN	O	O
-
-Experimental	NN	O	O
-results	NN	O	O
-are	NN	O	O
-presented	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-we	NN	O	O
-consider	NN	O	O
-problems	NN	O	O
-of	NN	O	O
-creating	NN	O	B-Task
-and	NN	O	I-Task
-introducing	NN	O	I-Task
-intelligent	NN	O	I-Task
-management	NN	O	I-Task
-systems	NN	O	I-Task
-as	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-most	NN	O	O
-important	NN	O	O
-mechanism	NN	O	O
-of	NN	O	O
-increasing	NN	O	B-Task
-energy	NN	O	I-Task
-efficiency	NN	O	I-Task
-in	NN	O	O
-industry	NN	O	O
-.	NN	O	O
-
-Operating	NN	O	O
-principles	NN	O	O
-of	NN	O	O
-intelligent	NN	O	B-Process
-electric	NN	O	I-Process
-power	NN	O	I-Process
-distribution	NN	O	I-Process
-systems	NN	O	I-Process
-developed	NN	O	O
-in	NN	O	O
-MSTU	NN	O	B-Material
-«	NN	O	I-Material
-STANKIN	NN	O	I-Material
-»	NN	O	I-Material
-for	NN	O	O
-AC	NN	O	B-Material
-and	NN	O	I-Material
-DC	NN	O	I-Material
-grids	NN	O	I-Material
-on	NN	O	O
-industrial	NN	O	O
-plants	NN	O	O
-are	NN	O	O
-described	NN	O	O
-.	NN	O	O
-
-Essential	NN	O	O
-devices	NN	O	B-Task
-composing	NN	O	I-Task
-the	NN	O	I-Task
-systems	NN	O	I-Task
-are	NN	O	I-Task
-considered	NN	O	I-Task
-,	NN	O	O
-their	NN	O	O
-technical	NN	O	B-Task
-characteristics	NN	O	I-Task
-are	NN	O	I-Task
-described	NN	O	I-Task
-.	NN	O	O
-
-Experimental	NN	O	O
-results	NN	O	O
-are	NN	O	O
-presented	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+we	14	16	O
+consider	17	25	O
+problems	26	34	B-Task
+of	35	37	I-Task
+creating	38	46	I-Task
+and	47	50	I-Task
+introducing	51	62	I-Task
+intelligent	63	74	I-Task
+management	75	85	I-Task
+systems	86	93	I-Task
+as	94	96	O
+one	97	100	O
+of	101	103	O
+the	104	107	O
+most	108	112	O
+important	113	122	O
+mechanism	123	132	O
+of	133	135	O
+increasing	136	146	B-Task
+energy	147	153	I-Task
+efficiency	154	164	I-Task
+in	165	167	O
+industry	168	176	O
+.	176	177	O
+
+Operating	178	187	O
+principles	188	198	O
+of	199	201	O
+intelligent	202	213	B-Process
+electric	214	222	I-Process
+power	223	228	I-Process
+distribution	229	241	I-Process
+systems	242	249	I-Process
+developed	250	259	O
+in	260	262	O
+MSTU	263	267	B-Material
+«	268	269	I-Material
+STANKIN	269	276	I-Material
+»	276	277	I-Material
+for	278	281	O
+AC	282	284	B-Material
+and	285	288	I-Material
+DC	289	291	I-Material
+grids	292	297	I-Material
+on	298	300	O
+industrial	301	311	O
+plants	312	318	O
+are	319	322	O
+described	323	332	O
+.	332	333	O
+
+Essential	334	343	O
+devices	344	351	B-Task
+composing	352	361	I-Task
+the	362	365	I-Task
+systems	366	373	I-Task
+are	374	377	I-Task
+considered	378	388	I-Task
+,	388	389	O
+their	390	395	O
+technical	396	405	B-Task
+characteristics	406	421	I-Task
+are	422	425	I-Task
+described	426	435	I-Task
+.	435	436	O
+
+Experimental	437	449	O
+results	450	457	O
+are	458	461	O
+presented	462	471	O
+.	471	472	O
+
+In	472	474	O
+this	475	479	O
+paper	480	485	O
+we	486	488	O
+consider	489	497	O
+problems	498	506	O
+of	507	509	O
+creating	510	518	B-Task
+and	519	522	I-Task
+introducing	523	534	I-Task
+intelligent	535	546	I-Task
+management	547	557	I-Task
+systems	558	565	I-Task
+as	566	568	O
+one	569	572	O
+of	573	575	O
+the	576	579	O
+most	580	584	O
+important	585	594	O
+mechanism	595	604	O
+of	605	607	O
+increasing	608	618	B-Task
+energy	619	625	I-Task
+efficiency	626	636	I-Task
+in	637	639	O
+industry	640	648	O
+.	648	649	O
+
+Operating	650	659	O
+principles	660	670	O
+of	671	673	O
+intelligent	674	685	B-Process
+electric	686	694	I-Process
+power	695	700	I-Process
+distribution	701	713	I-Process
+systems	714	721	I-Process
+developed	722	731	O
+in	732	734	O
+MSTU	735	739	B-Material
+«	740	741	I-Material
+STANKIN	741	748	I-Material
+»	748	749	I-Material
+for	750	753	O
+AC	754	756	B-Material
+and	757	760	I-Material
+DC	761	763	I-Material
+grids	764	769	I-Material
+on	770	772	O
+industrial	773	783	O
+plants	784	790	O
+are	791	794	O
+described	795	804	O
+.	804	805	O
+
+Essential	806	815	O
+devices	816	823	B-Task
+composing	824	833	I-Task
+the	834	837	I-Task
+systems	838	845	I-Task
+are	846	849	I-Task
+considered	850	860	I-Task
+,	860	861	O
+their	862	867	O
+technical	868	877	B-Task
+characteristics	878	893	I-Task
+are	894	897	I-Task
+described	898	907	I-Task
+.	907	908	O
+
+Experimental	909	921	O
+results	922	929	O
+are	930	933	O
+presented	934	943	O
+.	943	944	O
 
 
 -DOCSTART- (S2212667814001166)
 
-Along	NN	O	O
-with	NN	O	O
-the	NN	O	O
-expansion	NN	O	B-Task
-of	NN	O	I-Task
-computer	NN	O	I-Task
--	NN	O	I-Task
-based	NN	O	I-Task
-climate	NN	O	I-Task
-simulations	NN	O	I-Task
-,	NN	O	O
-efficient	NN	O	O
-visualization	NN	O	B-Task
-and	NN	O	I-Task
-analysis	NN	O	I-Task
-of	NN	O	I-Task
-massive	NN	O	I-Task
-climate	NN	O	I-Task
-data	NN	O	I-Task
-are	NN	O	O
-becoming	NN	O	O
-more	NN	O	O
-important	NN	O	O
-than	NN	O	O
-ever	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-try	NN	O	O
-to	NN	O	O
-explore	NN	O	B-Task
-the	NN	O	I-Task
-factors	NN	O	I-Task
-behide	NN	O	I-Task
-climate	NN	O	I-Task
-changes	NN	O	I-Task
-by	NN	O	O
-combining	NN	O	B-Process
-window	NN	O	I-Process
-query	NN	O	I-Process
-and	NN	O	I-Process
-time	NN	O	I-Process
--	NN	O	I-Process
-varying	NN	O	I-Process
-data	NN	O	I-Process
-mining	NN	O	I-Process
-techniques	NN	O	I-Process
-.	NN	O	O
-
-With	NN	O	O
-constant	NN	O	O
-query	NN	O	O
-time	NN	O	O
-and	NN	O	O
-acceptable	NN	O	O
-storage	NN	O	O
-cost	NN	O	O
-,	NN	O	O
-the	NN	O	O
-algorithms	NN	O	B-Process
-presented	NN	O	O
-support	NN	O	O
-various	NN	O	O
-queries	NN	O	B-Process
-on	NN	O	O
-3d	NN	O	B-Process
-time	NN	O	I-Process
--	NN	O	I-Process
-varying	NN	O	I-Process
-datasets	NN	O	I-Process
-,	NN	O	O
-such	NN	O	O
-as	NN	O	O
-average	NN	O	O
-,	NN	O	O
-min	NN	O	O
-,	NN	O	O
-and	NN	O	O
-max	NN	O	O
-value	NN	O	O
-.	NN	O	O
-
-A	NN	O	O
-new	NN	O	O
-time	NN	O	B-Process
--	NN	O	I-Process
-varying	NN	O	I-Process
-data	NN	O	I-Process
-analysis	NN	O	I-Process
-algorithm	NN	O	I-Process
-is	NN	O	O
-given	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-especially	NN	O	O
-suitable	NN	O	O
-for	NN	O	O
-analyzing	NN	O	B-Task
-big	NN	O	I-Task
-data	NN	O	I-Task
-.	NN	O	O
-
-All	NN	O	O
-these	NN	O	O
-algorithms	NN	O	B-Process
-have	NN	O	O
-been	NN	O	O
-implemented	NN	O	B-Task
-on	NN	O	I-Task
-and	NN	O	I-Task
-integrated	NN	O	I-Task
-into	NN	O	I-Task
-a	NN	O	I-Task
-visual	NN	O	I-Task
-analysis	NN	O	I-Task
-system	NN	O	I-Task
-,	NN	O	O
-with	NN	O	O
-tiled	NN	O	B-Material
--	NN	O	I-Material
-LCD	NN	O	I-Material
-ultra	NN	O	I-Material
--	NN	O	I-Material
-resolution	NN	O	I-Material
-display	NN	O	I-Material
-.	NN	O	O
-
-Experimental	NN	O	O
-results	NN	O	O
-on	NN	O	O
-several	NN	O	B-Material
-datasets	NN	O	I-Material
-from	NN	O	I-Material
-practical	NN	O	I-Material
-applications	NN	O	I-Material
-are	NN	O	O
-presented	NN	O	O
-.	NN	O	O
+Along	0	5	O
+with	6	10	O
+the	11	14	O
+expansion	15	24	B-Task
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+computer	28	36	I-Task
+-	36	37	I-Task
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+simulations	51	62	I-Task
+,	62	63	O
+efficient	64	73	O
+visualization	74	87	B-Task
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+analysis	92	100	I-Task
+of	101	103	I-Task
+massive	104	111	I-Task
+climate	112	119	I-Task
+data	120	124	I-Task
+are	125	128	O
+becoming	129	137	O
+more	138	142	O
+important	143	152	O
+than	153	157	O
+ever	158	162	O
+.	162	163	O
+
+In	164	166	O
+this	167	171	O
+paper	172	177	O
+,	177	178	O
+we	179	181	O
+try	182	185	O
+to	186	188	O
+explore	189	196	B-Task
+the	197	200	I-Task
+factors	201	208	I-Task
+behide	209	215	I-Task
+climate	216	223	I-Task
+changes	224	231	I-Task
+by	232	234	O
+combining	235	244	B-Process
+window	245	251	I-Process
+query	252	257	I-Process
+and	258	261	I-Process
+time	262	266	I-Process
+-	266	267	I-Process
+varying	267	274	I-Process
+data	275	279	I-Process
+mining	280	286	I-Process
+techniques	287	297	I-Process
+.	297	298	O
+
+With	299	303	O
+constant	304	312	O
+query	313	318	O
+time	319	323	O
+and	324	327	O
+acceptable	328	338	O
+storage	339	346	O
+cost	347	351	O
+,	351	352	O
+the	353	356	O
+algorithms	357	367	B-Process
+presented	368	377	O
+support	378	385	O
+various	386	393	O
+queries	394	401	B-Process
+on	402	404	O
+3d	405	407	B-Process
+time	408	412	I-Process
+-	412	413	I-Process
+varying	413	420	I-Process
+datasets	421	429	I-Process
+,	429	430	O
+such	431	435	O
+as	436	438	O
+average	439	446	O
+,	446	447	O
+min	448	451	O
+,	451	452	O
+and	453	456	O
+max	457	460	O
+value	461	466	O
+.	466	467	O
+
+A	468	469	O
+new	470	473	O
+time	474	478	B-Process
+-	478	479	I-Process
+varying	479	486	I-Process
+data	487	491	I-Process
+analysis	492	500	I-Process
+algorithm	501	510	I-Process
+is	511	513	O
+given	514	519	O
+,	519	520	O
+which	521	526	O
+is	527	529	O
+especially	530	540	O
+suitable	541	549	O
+for	550	553	O
+analyzing	554	563	B-Task
+big	564	567	I-Task
+data	568	572	I-Task
+.	572	573	O
+
+All	574	577	O
+these	578	583	O
+algorithms	584	594	B-Process
+have	595	599	O
+been	600	604	O
+implemented	605	616	B-Task
+on	617	619	I-Task
+and	620	623	I-Task
+integrated	624	634	I-Task
+into	635	639	I-Task
+a	640	641	I-Task
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+analysis	649	657	I-Task
+system	658	664	I-Task
+,	664	665	O
+with	666	670	O
+tiled	671	676	B-Material
+-	676	677	I-Material
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+-	686	687	I-Material
+resolution	687	697	I-Material
+display	698	705	I-Material
+.	705	706	O
+
+Experimental	707	719	O
+results	720	727	O
+on	728	730	O
+several	731	738	B-Material
+datasets	739	747	I-Material
+from	748	752	I-Material
+practical	753	762	I-Material
+applications	763	775	I-Material
+are	776	779	O
+presented	780	789	O
+.	789	790	O
 
 
 -DOCSTART- (S2212667814001208)
 
-Improving	NN	O	B-Task
-as	NN	O	I-Task
-well	NN	O	I-Task
-as	NN	O	I-Task
-evaluating	NN	O	I-Task
-the	NN	O	I-Task
-performance	NN	O	I-Task
-of	NN	O	O
-High	NN	O	B-Task
-Performance	NN	O	I-Task
-Computing	NN	O	I-Task
-(	NN	O	O
-HPC	NN	O	B-Task
-)	NN	O	O
-applications	NN	O	O
-by	NN	O	O
-migrating	NN	O	B-Process
-them	NN	O	I-Process
-to	NN	O	I-Process
-Cloud	NN	O	I-Process
-environments	NN	O	I-Process
-are	NN	O	O
-widely	NN	O	O
-considered	NN	O	O
-as	NN	O	O
-critical	NN	O	O
-issues	NN	O	O
-in	NN	O	O
-the	NN	O	O
-field	NN	O	O
-of	NN	O	O
-high	NN	O	B-Task
-performance	NN	O	I-Task
-and	NN	O	I-Task
-Cloud	NN	O	I-Task
-computing	NN	O	I-Task
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-poor	NN	O	B-Process
-network	NN	O	I-Process
-performance	NN	O	I-Process
-,	NN	O	O
-heterogeneous	NN	O	B-Process
-and	NN	O	I-Process
-dynamic	NN	O	I-Process
-environments	NN	O	I-Process
-are	NN	O	O
-some	NN	O	O
-series	NN	O	O
-of	NN	O	O
-pitfalls	NN	O	O
-for	NN	O	O
-execution	NN	O	B-Process
-of	NN	O	I-Process
-HPC	NN	O	I-Process
-applications	NN	O	I-Process
-in	NN	O	I-Process
-Cloud	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-proposes	NN	O	B-Task
-a	NN	O	I-Task
-new	NN	O	I-Task
-approach	NN	O	I-Task
-to	NN	O	I-Task
-improve	NN	O	I-Task
-the	NN	O	I-Task
-performance	NN	O	I-Task
-and	NN	O	I-Task
-scalability	NN	O	I-Task
-of	NN	O	I-Task
-HPC	NN	O	I-Task
-applications	NN	O	I-Task
-on	NN	O	O
-Amazon	NN	O	B-Material
-'s	NN	O	I-Material
-HPC	NN	O	I-Material
-Cloud	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-evidence	NN	O	O
-from	NN	O	O
-our	NN	O	O
-approach	NN	O	O
-points	NN	O	O
-a	NN	O	O
-significant	NN	O	O
-improvement	NN	O	O
-in	NN	O	O
-speed	NN	O	B-Process
-up	NN	O	I-Process
-and	NN	O	O
-scale	NN	O	B-Process
-up	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-response	NN	O	B-Process
-rate	NN	O	I-Process
-of	NN	O	O
-more	NN	O	O
-than	NN	O	O
-20	NN	O	O
-percent	NN	O	O
-parallel	NN	O	B-Process
-efficiency	NN	O	I-Process
-on	NN	O	O
-the	NN	O	O
-Cloud	NN	O	B-Material
-in	NN	O	O
-comparison	NN	O	O
-to	NN	O	O
-dedicated	NN	O	O
-HPC	NN	O	B-Material
-cluster	NN	O	I-Material
-.	NN	O	O
-
-We	NN	O	O
-state	NN	O	O
-that	NN	O	O
-the	NN	O	O
-EC2	NN	O	B-Material
-Cloud	NN	O	I-Material
-system	NN	O	I-Material
-is	NN	O	O
-a	NN	O	O
-feasible	NN	O	O
-platform	NN	O	O
-for	NN	O	O
-deploying	NN	O	B-Process
-on	NN	O	I-Process
--	NN	O	I-Process
-demand	NN	O	I-Process
-,	NN	O	I-Process
-small	NN	O	I-Process
-sized	NN	O	I-Process
-HPC	NN	O	I-Process
-applications	NN	O	I-Process
-.	NN	O	O
+Improving	0	9	B-Task
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+evaluating	21	31	I-Task
+the	32	35	I-Task
+performance	36	47	I-Task
+of	48	50	O
+High	51	55	B-Task
+Performance	56	67	I-Task
+Computing	68	77	I-Task
+(	78	79	O
+HPC	79	82	B-Task
+)	82	83	O
+applications	84	96	O
+by	97	99	O
+migrating	100	109	B-Process
+them	110	114	I-Process
+to	115	117	I-Process
+Cloud	118	123	I-Process
+environments	124	136	I-Process
+are	137	140	O
+widely	141	147	O
+considered	148	158	O
+as	159	161	O
+critical	162	170	O
+issues	171	177	O
+in	178	180	O
+the	181	184	O
+field	185	190	O
+of	191	193	O
+high	194	198	B-Task
+performance	199	210	I-Task
+and	211	214	I-Task
+Cloud	215	220	I-Task
+computing	221	230	I-Task
+.	230	231	O
+
+However	232	239	O
+,	239	240	O
+poor	241	245	B-Process
+network	246	253	I-Process
+performance	254	265	I-Process
+,	265	266	O
+heterogeneous	267	280	B-Process
+and	281	284	I-Process
+dynamic	285	292	I-Process
+environments	293	305	I-Process
+are	306	309	O
+some	310	314	O
+series	315	321	O
+of	322	324	O
+pitfalls	325	333	O
+for	334	337	O
+execution	338	347	B-Process
+of	348	350	I-Process
+HPC	351	354	I-Process
+applications	355	367	I-Process
+in	368	370	I-Process
+Cloud	371	376	I-Process
+.	376	377	O
+
+This	378	382	O
+paper	383	388	O
+proposes	389	397	B-Task
+a	398	399	I-Task
+new	400	403	I-Task
+approach	404	412	I-Task
+to	413	415	I-Task
+improve	416	423	I-Task
+the	424	427	I-Task
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+HPC	459	462	I-Task
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+on	476	478	O
+Amazon	479	485	B-Material
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+HPC	488	491	I-Material
+Cloud	492	497	I-Material
+.	497	498	O
+
+The	499	502	O
+evidence	503	511	O
+from	512	516	O
+our	517	520	O
+approach	521	529	O
+points	530	536	O
+a	537	538	O
+significant	539	550	O
+improvement	551	562	O
+in	563	565	O
+speed	566	571	B-Process
+up	572	574	I-Process
+and	575	578	O
+scale	579	584	B-Process
+up	585	587	I-Process
+with	588	592	O
+the	593	596	O
+response	597	605	B-Process
+rate	606	610	I-Process
+of	611	613	O
+more	614	618	O
+than	619	623	O
+20	624	626	O
+percent	627	634	O
+parallel	635	643	B-Process
+efficiency	644	653	I-Process
+on	654	656	O
+the	657	660	O
+Cloud	661	666	B-Material
+in	667	669	O
+comparison	670	680	O
+to	681	683	O
+dedicated	684	693	O
+HPC	694	697	B-Material
+cluster	698	705	I-Material
+.	705	706	O
+
+We	707	709	O
+state	710	715	O
+that	716	720	O
+the	721	724	O
+EC2	725	728	B-Material
+Cloud	729	734	I-Material
+system	735	741	I-Material
+is	742	744	O
+a	745	746	O
+feasible	747	755	O
+platform	756	764	O
+for	765	768	O
+deploying	769	778	B-Process
+on	779	781	I-Process
+-	781	782	I-Process
+demand	782	788	I-Process
+,	788	789	I-Process
+small	790	795	I-Process
+sized	796	801	I-Process
+HPC	802	805	I-Process
+applications	806	818	I-Process
+.	818	819	O
 
 
 -DOCSTART- (S221266781400121X)
 
-In	NN	O	O
-the	NN	O	O
-paper	NN	O	O
-we	NN	O	O
-present	NN	O	O
-an	NN	O	O
-extended	NN	O	B-Task
-version	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-graph	NN	O	I-Task
--	NN	O	I-Task
-based	NN	O	I-Task
-unsupervised	NN	O	I-Task
-Word	NN	O	I-Task
-Sense	NN	O	I-Task
-Disambiguation	NN	O	I-Task
-algorithm	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-algorithm	NN	O	B-Process
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-spreading	NN	O	B-Process
-activation	NN	O	I-Process
-scheme	NN	O	I-Process
-applied	NN	O	O
-to	NN	O	O
-the	NN	O	O
-graphs	NN	O	O
-dynamically	NN	O	O
-built	NN	O	B-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-basis	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-text	NN	O	I-Process
-words	NN	O	I-Process
-and	NN	O	I-Process
-a	NN	O	I-Process
-large	NN	O	I-Process
-wordnet	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-algorithm	NN	O	B-Process
-,	NN	O	O
-originally	NN	O	O
-proposed	NN	O	O
-for	NN	O	O
-English	NN	O	B-Material
-and	NN	O	I-Material
-Princeton	NN	O	I-Material
-WordNet	NN	O	I-Material
-,	NN	O	O
-was	NN	O	O
-adapted	NN	O	O
-to	NN	O	O
-Polish	NN	O	B-Material
-and	NN	O	I-Material
-plWordNet	NN	O	I-Material
-.	NN	O	O
-
-An	NN	O	O
-extension	NN	O	B-Process
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-knowledge	NN	O	O
-acquired	NN	O	O
-from	NN	O	O
-the	NN	O	O
-corpus	NN	O	B-Process
--	NN	O	I-Process
-derived	NN	O	I-Process
-Measure	NN	O	I-Process
-of	NN	O	I-Process
-Semantic	NN	O	I-Process
-Relatedness	NN	O	I-Process
-was	NN	O	O
-proposed	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-extended	NN	O	B-Process
-algorithm	NN	O	I-Process
-was	NN	O	O
-evaluated	NN	O	O
-against	NN	O	O
-the	NN	O	O
-manually	NN	O	B-Material
-disambiguated	NN	O	I-Material
-corpus	NN	O	I-Material
-.	NN	O	O
-
-We	NN	O	O
-observed	NN	O	O
-improvement	NN	O	O
-in	NN	O	O
-the	NN	O	O
-case	NN	O	O
-of	NN	O	O
-the	NN	O	O
-disambiguation	NN	O	B-Process
-performed	NN	O	O
-for	NN	O	O
-shorter	NN	O	O
-text	NN	O	O
-contexts	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-the	NN	O	O
-algorithm	NN	O	O
-application	NN	O	O
-expressed	NN	O	O
-improvement	NN	O	O
-in	NN	O	O
-document	NN	O	B-Task
-clustering	NN	O	I-Task
-task	NN	O	I-Task
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+paper	7	12	O
+we	13	15	O
+present	16	23	O
+an	24	26	O
+extended	27	35	B-Task
+version	36	43	I-Task
+of	44	46	I-Task
+the	47	50	I-Task
+graph	51	56	I-Task
+-	56	57	I-Task
+based	57	62	I-Task
+unsupervised	63	75	I-Task
+Word	76	80	I-Task
+Sense	81	86	I-Task
+Disambiguation	87	101	I-Task
+algorithm	102	111	I-Task
+.	111	112	O
+
+The	113	116	O
+algorithm	117	126	B-Process
+is	127	129	O
+based	130	135	O
+on	136	138	O
+the	139	142	O
+spreading	143	152	B-Process
+activation	153	163	I-Process
+scheme	164	170	I-Process
+applied	171	178	O
+to	179	181	O
+the	182	185	O
+graphs	186	192	O
+dynamically	193	204	O
+built	205	210	B-Process
+on	211	213	I-Process
+the	214	217	I-Process
+basis	218	223	I-Process
+of	224	226	I-Process
+the	227	230	I-Process
+text	231	235	I-Process
+words	236	241	I-Process
+and	242	245	I-Process
+a	246	247	I-Process
+large	248	253	I-Process
+wordnet	254	261	I-Process
+.	261	262	O
+
+The	263	266	O
+algorithm	267	276	B-Process
+,	276	277	O
+originally	278	288	O
+proposed	289	297	O
+for	298	301	O
+English	302	309	B-Material
+and	310	313	I-Material
+Princeton	314	323	I-Material
+WordNet	324	331	I-Material
+,	331	332	O
+was	333	336	O
+adapted	337	344	O
+to	345	347	O
+Polish	348	354	B-Material
+and	355	358	I-Material
+plWordNet	359	368	I-Material
+.	368	369	O
+
+An	370	372	O
+extension	373	382	B-Process
+based	383	388	O
+on	389	391	O
+the	392	395	O
+knowledge	396	405	O
+acquired	406	414	O
+from	415	419	O
+the	420	423	O
+corpus	424	430	B-Process
+-	430	431	I-Process
+derived	431	438	I-Process
+Measure	439	446	I-Process
+of	447	449	I-Process
+Semantic	450	458	I-Process
+Relatedness	459	470	I-Process
+was	471	474	O
+proposed	475	483	O
+.	483	484	O
+
+The	485	488	O
+extended	489	497	B-Process
+algorithm	498	507	I-Process
+was	508	511	O
+evaluated	512	521	O
+against	522	529	O
+the	530	533	O
+manually	534	542	B-Material
+disambiguated	543	556	I-Material
+corpus	557	563	I-Material
+.	563	564	O
+
+We	565	567	O
+observed	568	576	O
+improvement	577	588	O
+in	589	591	O
+the	592	595	O
+case	596	600	O
+of	601	603	O
+the	604	607	O
+disambiguation	608	622	B-Process
+performed	623	632	O
+for	633	636	O
+shorter	637	644	O
+text	645	649	O
+contexts	650	658	O
+.	658	659	O
+
+In	660	662	O
+addition	663	671	O
+the	672	675	O
+algorithm	676	685	O
+application	686	697	O
+expressed	698	707	O
+improvement	708	719	O
+in	720	722	O
+document	723	731	B-Task
+clustering	732	742	I-Task
+task	743	747	I-Task
+.	747	748	O
 
 
 -DOCSTART- (S2212667814001245)
 
-Sentence	NN	O	B-Task
-reduction	NN	O	I-Task
-is	NN	O	O
-one	NN	O	O
-of	NN	O	O
-approaches	NN	O	O
-for	NN	O	O
-text	NN	O	B-Task
-summarization	NN	O	I-Task
-that	NN	O	O
-has	NN	O	O
-been	NN	O	O
-attracted	NN	O	O
-many	NN	O	O
-researchers	NN	O	O
-and	NN	O	O
-scholars	NN	O	O
-of	NN	O	O
-natural	NN	O	B-Task
-language	NN	O	I-Task
-processing	NN	O	I-Task
-field	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-present	NN	O	O
-a	NN	O	O
-method	NN	O	O
-that	NN	O	O
-generates	NN	O	B-Task
-sentence	NN	O	I-Task
-reduction	NN	O	I-Task
-and	NN	O	O
-applying	NN	O	O
-in	NN	O	O
-Vietnamese	NN	O	B-Process
-text	NN	O	I-Process
-summarization	NN	O	I-Process
-using	NN	O	O
-Bayesian	NN	O	B-Process
-Network	NN	O	I-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-Bayesian	NN	O	B-Process
-network	NN	O	I-Process
-model	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-find	NN	O	O
-the	NN	O	O
-best	NN	O	B-Task
-likelihood	NN	O	I-Task
-short	NN	O	I-Task
-sentence	NN	O	I-Task
-through	NN	O	O
-compare	NN	O	B-Process
-difference	NN	O	I-Process
-of	NN	O	I-Process
-probability	NN	O	I-Process
-.	NN	O	O
-
-Experimental	NN	O	O
-results	NN	O	O
-with	NN	O	O
-980	NN	O	B-Material
-sentences	NN	O	I-Material
-,	NN	O	O
-show	NN	O	O
-
-that	NN	O	O
-our	NN	O	O
-method	NN	O	O
-really	NN	O	O
-effectively	NN	O	O
-in	NN	O	O
-generating	NN	O	B-Process
-sentence	NN	O	I-Process
-reduction	NN	O	I-Process
-that	NN	O	O
-understandable	NN	O	O
-,	NN	O	O
-readable	NN	O	O
-and	NN	O	O
-exactly	NN	O	O
-grammar	NN	O	O
-.	NN	O	O
+Sentence	0	8	B-Task
+reduction	9	18	I-Task
+is	19	21	O
+one	22	25	O
+of	26	28	O
+approaches	29	39	O
+for	40	43	O
+text	44	48	B-Task
+summarization	49	62	I-Task
+that	63	67	O
+has	68	71	O
+been	72	76	O
+attracted	77	86	O
+many	87	91	O
+researchers	92	103	O
+and	104	107	O
+scholars	108	116	O
+of	117	119	O
+natural	120	127	B-Task
+language	128	136	I-Task
+processing	137	147	I-Task
+field	148	153	O
+.	153	154	O
+
+In	155	157	O
+this	158	162	O
+paper	163	168	O
+,	168	169	O
+we	170	172	O
+present	173	180	O
+a	181	182	O
+method	183	189	O
+that	190	194	O
+generates	195	204	B-Task
+sentence	205	213	I-Task
+reduction	214	223	I-Task
+and	224	227	O
+applying	228	236	O
+in	237	239	O
+Vietnamese	240	250	B-Process
+text	251	255	I-Process
+summarization	256	269	I-Process
+using	270	275	O
+Bayesian	276	284	B-Process
+Network	285	292	I-Process
+model	293	298	I-Process
+.	298	299	O
+
+Bayesian	300	308	B-Process
+network	309	316	I-Process
+model	317	322	I-Process
+is	323	325	O
+used	326	330	O
+to	331	333	O
+find	334	338	O
+the	339	342	O
+best	343	347	B-Task
+likelihood	348	358	I-Task
+short	359	364	I-Task
+sentence	365	373	I-Task
+through	374	381	O
+compare	382	389	B-Process
+difference	390	400	I-Process
+of	401	403	I-Process
+probability	404	415	I-Process
+.	415	416	O
+
+Experimental	417	429	O
+results	430	437	O
+with	438	442	O
+980	443	446	B-Material
+sentences	447	456	I-Material
+,	456	457	O
+show	458	462	O
+
+that	463	467	O
+our	468	471	O
+method	472	478	O
+really	479	485	O
+effectively	486	497	O
+in	498	500	O
+generating	501	511	B-Process
+sentence	512	520	I-Process
+reduction	521	530	I-Process
+that	531	535	O
+understandable	536	550	O
+,	550	551	O
+readable	552	560	O
+and	561	564	O
+exactly	565	572	O
+grammar	573	580	O
+.	580	581	O
 
 
 -DOCSTART- (S2212667814001294)
 
-Knowledge	NN	O	B-Task
-Management	NN	O	I-Task
-(	NN	O	O
-KM	NN	O	B-Task
-)	NN	O	O
-is	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-hotspots	NN	O	O
-for	NN	O	O
-research	NN	O	O
-in	NN	O	O
-the	NN	O	O
-past	NN	O	O
-decade	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-most	NN	O	O
-cases	NN	O	O
-,	NN	O	O
-the	NN	O	O
-number	NN	O	O
-of	NN	O	O
-users	NN	O	O
-in	NN	O	O
-a	NN	O	O
-Knowledge	NN	O	B-Process
-Management	NN	O	I-Process
-System	NN	O	I-Process
-(	NN	O	O
-KMS	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-very	NN	O	O
-large	NN	O	O
-,	NN	O	O
-and	NN	O	O
-they	NN	O	O
-are	NN	O	O
-from	NN	O	O
-varied	NN	O	O
-departments	NN	O	O
-,	NN	O	O
-even	NN	O	O
-other	NN	O	O
-companies	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-some	NN	O	O
-defects	NN	O	B-Task
-when	NN	O	I-Task
-existing	NN	O	I-Task
-methods	NN	O	I-Task
-about	NN	O	I-Task
-access	NN	O	I-Task
-control	NN	O	I-Task
-and	NN	O	I-Task
-recommendation	NN	O	I-Task
-are	NN	O	I-Task
-deployed	NN	O	I-Task
-in	NN	O	I-Task
-KMS	NN	O	I-Task
-are	NN	O	I-Task
-analyzed	NN	O	I-Task
-to	NN	O	O
-show	NN	O	O
-that	NN	O	O
-these	NN	O	O
-widely	NN	O	O
--	NN	O	O
-used	NN	O	O
-approaches	NN	O	O
-need	NN	O	O
-to	NN	O	O
-be	NN	O	O
-extended	NN	O	B-Process
-.	NN	O	O
-
-To	NN	O	O
-overcome	NN	O	O
-the	NN	O	O
-deficiencies	NN	O	O
-of	NN	O	O
-previous	NN	O	O
-work	NN	O	O
-,	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-proposes	NN	O	O
-an	NN	O	O
-extended	NN	O	O
-Role	NN	O	B-Process
--	NN	O	I-Process
-Based	NN	O	I-Process
-Access	NN	O	I-Process
-Control	NN	O	I-Process
-(	NN	O	O
-RBAC	NN	O	B-Process
-)	NN	O	O
-method	NN	O	O
-and	NN	O	O
-a	NN	O	O
-hybrid	NN	O	B-Process
-recommendation	NN	O	I-Process
-approach	NN	O	I-Process
-for	NN	O	O
-Knowledge	NN	O	B-Process
-Management	NN	O	I-Process
-System	NN	O	I-Process
-.	NN	O	O
-
-Also	NN	O	O
-,	NN	O	O
-a	NN	O	O
-real	NN	O	B-Process
--	NN	O	I-Process
-life	NN	O	I-Process
-system	NN	O	I-Process
-is	NN	O	O
-presented	NN	O	O
-to	NN	O	O
-verify	NN	O	B-Task
-the	NN	O	I-Task
-proposed	NN	O	I-Task
-methodology	NN	O	I-Task
-.	NN	O	O
+Knowledge	0	9	B-Task
+Management	10	20	I-Task
+(	21	22	O
+KM	22	24	B-Task
+)	24	25	O
+is	26	28	O
+one	29	32	O
+of	33	35	O
+the	36	39	O
+hotspots	40	48	O
+for	49	52	O
+research	53	61	O
+in	62	64	O
+the	65	68	O
+past	69	73	O
+decade	74	80	O
+.	80	81	O
+
+In	82	84	O
+most	85	89	O
+cases	90	95	O
+,	95	96	O
+the	97	100	O
+number	101	107	O
+of	108	110	O
+users	111	116	O
+in	117	119	O
+a	120	121	O
+Knowledge	122	131	B-Process
+Management	132	142	I-Process
+System	143	149	I-Process
+(	150	151	O
+KMS	151	154	B-Process
+)	154	155	O
+is	156	158	O
+very	159	163	O
+large	164	169	O
+,	169	170	O
+and	171	174	O
+they	175	179	O
+are	180	183	O
+from	184	188	O
+varied	189	195	O
+departments	196	207	O
+,	207	208	O
+even	209	213	O
+other	214	219	O
+companies	220	229	O
+.	229	230	O
+
+In	231	233	O
+this	234	238	O
+paper	239	244	O
+,	244	245	O
+some	246	250	O
+defects	251	258	B-Task
+when	259	263	I-Task
+existing	264	272	I-Task
+methods	273	280	I-Task
+about	281	286	I-Task
+access	287	293	I-Task
+control	294	301	I-Task
+and	302	305	I-Task
+recommendation	306	320	I-Task
+are	321	324	I-Task
+deployed	325	333	I-Task
+in	334	336	I-Task
+KMS	337	340	I-Task
+are	341	344	I-Task
+analyzed	345	353	I-Task
+to	354	356	O
+show	357	361	O
+that	362	366	O
+these	367	372	O
+widely	373	379	O
+-	379	380	O
+used	380	384	O
+approaches	385	395	O
+need	396	400	O
+to	401	403	O
+be	404	406	O
+extended	407	415	B-Process
+.	415	416	O
+
+To	417	419	O
+overcome	420	428	O
+the	429	432	O
+deficiencies	433	445	O
+of	446	448	O
+previous	449	457	O
+work	458	462	O
+,	462	463	O
+this	464	468	O
+paper	469	474	O
+proposes	475	483	O
+an	484	486	O
+extended	487	495	O
+Role	496	500	B-Process
+-	500	501	I-Process
+Based	501	506	I-Process
+Access	507	513	I-Process
+Control	514	521	I-Process
+(	522	523	O
+RBAC	523	527	B-Process
+)	527	528	O
+method	529	535	O
+and	536	539	O
+a	540	541	O
+hybrid	542	548	B-Process
+recommendation	549	563	I-Process
+approach	564	572	I-Process
+for	573	576	O
+Knowledge	577	586	B-Process
+Management	587	597	I-Process
+System	598	604	I-Process
+.	604	605	O
+
+Also	606	610	O
+,	610	611	O
+a	612	613	O
+real	614	618	B-Process
+-	618	619	I-Process
+life	619	623	I-Process
+system	624	630	I-Process
+is	631	633	O
+presented	634	643	O
+to	644	646	O
+verify	647	653	B-Task
+the	654	657	I-Task
+proposed	658	666	I-Task
+methodology	667	678	I-Task
+.	678	679	O
 
 
 -DOCSTART- (S2212667814001348)
 
-Some	NN	O	O
-nonlinear	NN	O	B-Process
-wave	NN	O	I-Process
-equations	NN	O	I-Process
-are	NN	O	O
-more	NN	O	O
-difficult	NN	O	O
-to	NN	O	O
-investigate	NN	O	B-Task
-mathematically	NN	O	I-Task
-,	NN	O	O
-as	NN	O	O
-no	NN	O	O
-general	NN	O	O
-analytical	NN	O	B-Process
-method	NN	O	I-Process
-for	NN	O	O
-their	NN	O	O
-solutions	NN	O	O
-exists	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-Exponential	NN	O	B-Process
-Time	NN	O	I-Process
-Differencing	NN	O	I-Process
-(	NN	O	O
-ETD	NN	O	B-Process
-)	NN	O	O
-technique	NN	O	O
-requires	NN	O	O
-minimum	NN	O	B-Material
-stages	NN	O	I-Material
-to	NN	O	O
-obtain	NN	O	O
-the	NN	O	O
-requiredaccurateness	NN	O	O
-,	NN	O	O
-which	NN	O	O
-suggests	NN	O	O
-an	NN	O	O
-efficient	NN	O	O
-technique	NN	O	O
-relatingto	NN	O	O
-computational	NN	O	B-Process
-duration	NN	O	I-Process
-thatensures	NN	O	O
-remarkable	NN	O	O
-stability	NN	O	B-Process
-characteristicsupon	NN	O	I-Process
-resolving	NN	O	B-Task
-nonlinear	NN	O	I-Task
-wave	NN	O	I-Task
-equations	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-article	NN	O	O
-solves	NN	O	B-Task
-the	NN	O	I-Task
-diagonal	NN	O	I-Task
-example	NN	O	I-Task
-of	NN	O	I-Task
-Kawahara	NN	O	I-Task
-equation	NN	O	I-Task
-via	NN	O	O
-the	NN	O	O
-ETD	NN	O	B-Process
-Runge	NN	O	I-Process
--	NN	O	I-Process
-Kutta	NN	O	I-Process
-4	NN	O	I-Process
-technique	NN	O	I-Process
-.	NN	O	O
-
-Implementation	NN	O	O
-of	NN	O	O
-this	NN	O	O
-technique	NN	O	O
-is	NN	O	O
-proposed	NN	O	O
-by	NN	O	O
-short	NN	O	O
-Matlab	NN	O	B-Material
-programs	NN	O	I-Material
-.	NN	O	O
+Some	0	4	O
+nonlinear	5	14	B-Process
+wave	15	19	I-Process
+equations	20	29	I-Process
+are	30	33	O
+more	34	38	O
+difficult	39	48	O
+to	49	51	O
+investigate	52	63	B-Task
+mathematically	64	78	I-Task
+,	78	79	O
+as	80	82	O
+no	83	85	O
+general	86	93	O
+analytical	94	104	B-Process
+method	105	111	I-Process
+for	112	115	O
+their	116	121	O
+solutions	122	131	O
+exists	132	138	O
+.	138	139	O
+
+The	140	143	O
+Exponential	144	155	B-Process
+Time	156	160	I-Process
+Differencing	161	173	I-Process
+(	174	175	O
+ETD	175	178	B-Process
+)	178	179	O
+technique	180	189	O
+requires	190	198	O
+minimum	199	206	B-Material
+stages	207	213	I-Material
+to	214	216	O
+obtain	217	223	O
+the	224	227	O
+requiredaccurateness	228	248	O
+,	248	249	O
+which	250	255	O
+suggests	256	264	O
+an	265	267	O
+efficient	268	277	O
+technique	278	287	O
+relatingto	288	298	O
+computational	299	312	B-Process
+duration	313	321	I-Process
+thatensures	322	333	O
+remarkable	334	344	O
+stability	345	354	B-Process
+characteristicsupon	355	374	I-Process
+resolving	375	384	B-Task
+nonlinear	385	394	I-Task
+wave	395	399	I-Task
+equations	400	409	I-Task
+.	409	410	O
+
+This	411	415	O
+article	416	423	O
+solves	424	430	B-Task
+the	431	434	I-Task
+diagonal	435	443	I-Task
+example	444	451	I-Task
+of	452	454	I-Task
+Kawahara	455	463	I-Task
+equation	464	472	I-Task
+via	473	476	O
+the	477	480	O
+ETD	481	484	B-Process
+Runge	485	490	I-Process
+-	490	491	I-Process
+Kutta	491	496	I-Process
+4	497	498	I-Process
+technique	499	508	I-Process
+.	508	509	O
+
+Implementation	510	524	O
+of	525	527	O
+this	528	532	O
+technique	533	542	O
+is	543	545	O
+proposed	546	554	O
+by	555	557	O
+short	558	563	O
+Matlab	564	570	B-Material
+programs	571	579	I-Material
+.	579	580	O
 
 
 -DOCSTART- (S2212667814001361)
 
-Contractor	NN	O	B-Task
-selection	NN	O	I-Task
-for	NN	O	O
-a	NN	O	O
-project	NN	O	O
-is	NN	O	O
-an	NN	O	O
-important	NN	O	O
-decision	NN	O	O
-,	NN	O	O
-one	NN	O	O
-for	NN	O	O
-the	NN	O	O
-project	NN	O	B-Material
-time	NN	O	I-Material
-and	NN	O	I-Material
-cost	NN	O	I-Material
-,	NN	O	O
-next	NN	O	O
-for	NN	O	O
-the	NN	O	O
-quality	NN	O	B-Material
-obtained	NN	O	O
-by	NN	O	O
-the	NN	O	O
-project	NN	O	O
-.	NN	O	O
-
-Although	NN	O	O
-the	NN	O	O
-project	NN	O	B-Material
-managers	NN	O	I-Material
-can	NN	O	O
-easily	NN	O	O
-determine	NN	O	B-Task
-the	NN	O	I-Task
-project	NN	O	I-Task
-time	NN	O	I-Task
-and	NN	O	I-Task
-cost	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-quality	NN	O	O
-is	NN	O	O
-usually	NN	O	O
-undefined	NN	O	O
-especially	NN	O	O
-for	NN	O	O
-un	NN	O	B-Material
--	NN	O	I-Material
-experienced	NN	O	I-Material
-managers	NN	O	I-Material
-.	NN	O	O
-
-With	NN	O	O
-a	NN	O	O
-learnable	NN	O	B-Process
-property	NN	O	I-Process
-,	NN	O	O
-an	NN	O	O
-approach	NN	O	O
-is	NN	O	O
-first	NN	O	O
-introduced	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-to	NN	O	O
-quantify	NN	O	B-Task
-the	NN	O	I-Task
-quality	NN	O	I-Task
-obtained	NN	O	I-Task
-for	NN	O	I-Task
-a	NN	O	I-Task
-gas	NN	O	I-Task
-well	NN	O	I-Task
-drilling	NN	O	I-Task
-project	NN	O	I-Task
-.	NN	O	O
-
-Then	NN	O	O
-,	NN	O	O
-based	NN	O	O
-on	NN	O	O
-these	NN	O	O
-three	NN	O	O
-objectives	NN	O	B-Material
-(	NN	O	B-Material
-time	NN	O	I-Material
-,	NN	O	O
-cost	NN	O	B-Material
-,	NN	O	O
-and	NN	O	O
-quality	NN	O	B-Material
-)	NN	O	O
-,	NN	O	O
-a	NN	O	O
-contractor	NN	O	B-Task
-selection	NN	O	I-Task
-problem	NN	O	I-Task
-is	NN	O	O
-converted	NN	O	O
-to	NN	O	O
-an	NN	O	O
-optimization	NN	O	B-Task
-problem	NN	O	I-Task
-.	NN	O	O
-
-Next	NN	O	O
-,	NN	O	O
-the	NN	O	O
-NSGA	NN	O	B-Process
--	NN	O	I-Process
-II	NN	O	I-Process
-algorithm	NN	O	I-Process
-is	NN	O	O
-utilized	NN	O	O
-for	NN	O	O
-solution	NN	O	O
-.	NN	O	O
-
-At	NN	O	O
-the	NN	O	O
-end	NN	O	O
-,	NN	O	O
-a	NN	O	O
-sensitivity	NN	O	B-Process
-analysis	NN	O	I-Process
-is	NN	O	O
-performed	NN	O	O
-to	NN	O	O
-select	NN	O	O
-the	NN	O	O
-parameters	NN	O	O
-of	NN	O	O
-the	NN	O	O
-algorithm	NN	O	O
-.	NN	O	O
+Contractor	0	10	B-Task
+selection	11	20	I-Task
+for	21	24	O
+a	25	26	O
+project	27	34	O
+is	35	37	O
+an	38	40	O
+important	41	50	O
+decision	51	59	O
+,	59	60	O
+one	61	64	O
+for	65	68	O
+the	69	72	O
+project	73	80	B-Material
+time	81	85	I-Material
+and	86	89	I-Material
+cost	90	94	I-Material
+,	94	95	O
+next	96	100	O
+for	101	104	O
+the	105	108	O
+quality	109	116	B-Material
+obtained	117	125	O
+by	126	128	O
+the	129	132	O
+project	133	140	O
+.	140	141	O
+
+Although	142	150	O
+the	151	154	O
+project	155	162	B-Material
+managers	163	171	I-Material
+can	172	175	O
+easily	176	182	O
+determine	183	192	B-Task
+the	193	196	I-Task
+project	197	204	I-Task
+time	205	209	I-Task
+and	210	213	I-Task
+cost	214	218	I-Task
+,	218	219	O
+the	220	223	O
+quality	224	231	O
+is	232	234	O
+usually	235	242	O
+undefined	243	252	O
+especially	253	263	O
+for	264	267	O
+un	268	270	B-Material
+-	270	271	I-Material
+experienced	271	282	I-Material
+managers	283	291	I-Material
+.	291	292	O
+
+With	293	297	O
+a	298	299	O
+learnable	300	309	B-Process
+property	310	318	I-Process
+,	318	319	O
+an	320	322	O
+approach	323	331	O
+is	332	334	O
+first	335	340	O
+introduced	341	351	O
+in	352	354	O
+this	355	359	O
+paper	360	365	O
+to	366	368	O
+quantify	369	377	B-Task
+the	378	381	I-Task
+quality	382	389	I-Task
+obtained	390	398	I-Task
+for	399	402	I-Task
+a	403	404	I-Task
+gas	405	408	I-Task
+well	409	413	I-Task
+drilling	414	422	I-Task
+project	423	430	I-Task
+.	430	431	O
+
+Then	432	436	O
+,	436	437	O
+based	438	443	O
+on	444	446	O
+these	447	452	O
+three	453	458	O
+objectives	459	469	B-Material
+(	470	471	B-Material
+time	471	475	I-Material
+,	475	476	O
+cost	477	481	B-Material
+,	481	482	O
+and	483	486	O
+quality	487	494	B-Material
+)	494	495	O
+,	495	496	O
+a	497	498	O
+contractor	499	509	B-Task
+selection	510	519	I-Task
+problem	520	527	I-Task
+is	528	530	O
+converted	531	540	O
+to	541	543	O
+an	544	546	O
+optimization	547	559	B-Task
+problem	560	567	I-Task
+.	567	568	O
+
+Next	569	573	O
+,	573	574	O
+the	575	578	O
+NSGA	579	583	B-Process
+-	583	584	I-Process
+II	584	586	I-Process
+algorithm	587	596	I-Process
+is	597	599	O
+utilized	600	608	O
+for	609	612	O
+solution	613	621	O
+.	621	622	O
+
+At	623	625	O
+the	626	629	O
+end	630	633	O
+,	633	634	O
+a	635	636	O
+sensitivity	637	648	B-Process
+analysis	649	657	I-Process
+is	658	660	O
+performed	661	670	O
+to	671	673	O
+select	674	680	O
+the	681	684	O
+parameters	685	695	O
+of	696	698	O
+the	699	702	O
+algorithm	703	712	O
+.	712	713	O
 
 
 -DOCSTART- (S2212667814001397)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-a	NN	O	O
-regression	NN	O	B-Process
-analysis	NN	O	I-Process
-based	NN	O	I-Process
-method	NN	O	I-Process
-is	NN	O	O
-proposed	NN	O	O
-to	NN	O	O
-calculate	NN	O	B-Task
-the	NN	O	I-Task
-Journal	NN	O	I-Task
-Influence	NN	O	I-Task
-Score	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-Influence	NN	O	B-Process
-Score	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-measure	NN	O	B-Task
-the	NN	O	I-Task
-scientific	NN	O	I-Task
-influence	NN	O	I-Task
-of	NN	O	I-Task
-scholarly	NN	O	I-Task
-journals	NN	O	I-Task
-.	NN	O	O
-
-Journal	NN	O	B-Process
-Influence	NN	O	I-Process
-Score	NN	O	I-Process
-is	NN	O	O
-calculated	NN	O	O
-by	NN	O	O
-using	NN	O	B-Process
-various	NN	O	I-Process
-factors	NN	O	I-Process
-in	NN	O	I-Process
-a	NN	O	I-Process
-weighted	NN	O	I-Process
-manner	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-Score	NN	O	O
-is	NN	O	O
-then	NN	O	O
-compared	NN	O	B-Task
-with	NN	O	I-Task
-the	NN	O	I-Task
-SCImago	NN	O	I-Task
-Journal	NN	O	I-Task
-Score	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-error	NN	O	O
-is	NN	O	O
-small	NN	O	O
-between	NN	O	O
-the	NN	O	O
-existing	NN	O	O
-and	NN	O	O
-proposed	NN	O	O
-methods	NN	O	O
-,	NN	O	O
-proving	NN	O	O
-that	NN	O	O
-the	NN	O	O
-model	NN	O	O
-is	NN	O	O
-a	NN	O	O
-feasible	NN	O	O
-and	NN	O	O
-effective	NN	O	O
-way	NN	O	O
-of	NN	O	O
-calculating	NN	O	B-Task
-scientific	NN	O	I-Task
-impact	NN	O	I-Task
-of	NN	O	I-Task
-journals	NN	O	I-Task
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+a	15	16	O
+regression	17	27	B-Process
+analysis	28	36	I-Process
+based	37	42	I-Process
+method	43	49	I-Process
+is	50	52	O
+proposed	53	61	O
+to	62	64	O
+calculate	65	74	B-Task
+the	75	78	I-Task
+Journal	79	86	I-Task
+Influence	87	96	I-Task
+Score	97	102	I-Task
+.	102	103	O
+
+This	104	108	O
+Influence	109	118	B-Process
+Score	119	124	I-Process
+is	125	127	O
+used	128	132	O
+to	133	135	O
+measure	136	143	B-Task
+the	144	147	I-Task
+scientific	148	158	I-Task
+influence	159	168	I-Task
+of	169	171	I-Task
+scholarly	172	181	I-Task
+journals	182	190	I-Task
+.	190	191	O
+
+Journal	192	199	B-Process
+Influence	200	209	I-Process
+Score	210	215	I-Process
+is	216	218	O
+calculated	219	229	O
+by	230	232	O
+using	233	238	B-Process
+various	239	246	I-Process
+factors	247	254	I-Process
+in	255	257	I-Process
+a	258	259	I-Process
+weighted	260	268	I-Process
+manner	269	275	I-Process
+.	275	276	O
+
+The	277	280	O
+Score	281	286	O
+is	287	289	O
+then	290	294	O
+compared	295	303	B-Task
+with	304	308	I-Task
+the	309	312	I-Task
+SCImago	313	320	I-Task
+Journal	321	328	I-Task
+Score	329	334	I-Task
+.	334	335	O
+
+The	336	339	O
+results	340	347	O
+show	348	352	O
+that	353	357	O
+the	358	361	O
+error	362	367	O
+is	368	370	O
+small	371	376	O
+between	377	384	O
+the	385	388	O
+existing	389	397	O
+and	398	401	O
+proposed	402	410	O
+methods	411	418	O
+,	418	419	O
+proving	420	427	O
+that	428	432	O
+the	433	436	O
+model	437	442	O
+is	443	445	O
+a	446	447	O
+feasible	448	456	O
+and	457	460	O
+effective	461	470	O
+way	471	474	O
+of	475	477	O
+calculating	478	489	B-Task
+scientific	490	500	I-Task
+impact	501	507	I-Task
+of	508	510	I-Task
+journals	511	519	I-Task
+.	519	520	O
 
 
 -DOCSTART- (S2212667814001440)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-present	NN	O	O
-a	NN	O	O
-tele	NN	O	B-Material
--	NN	O	I-Material
-operated	NN	O	I-Material
-mobile	NN	O	I-Material
-robot	NN	O	I-Material
-system	NN	O	I-Material
-for	NN	O	O
-old	NN	O	B-Task
-age	NN	O	I-Task
-surveillance	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-robot	NN	O	O
-operates	NN	O	O
-in	NN	O	O
-autonomous	NN	O	B-Process
-mode	NN	O	I-Process
-in	NN	O	O
-which	NN	O	O
-the	NN	O	O
-robots	NN	O	O
-navigates	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-environment	NN	O	I-Process
-and	NN	O	O
-search	NN	O	B-Process
-for	NN	O	I-Process
-unusual	NN	O	I-Process
-situation	NN	O	I-Process
-of	NN	O	O
-elderly	NN	O	B-Material
-people	NN	O	I-Material
-.	NN	O	O
-
-If	NN	O	O
-a	NN	O	O
-patient	NN	O	B-Material
-is	NN	O	O
-lying	NN	O	B-Process
-on	NN	O	I-Process
-the	NN	O	I-Process
-floor	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-robot	NN	O	B-Material
-informs	NN	O	B-Process
-the	NN	O	I-Process
-user	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-user	NN	O	O
-switches	NN	O	B-Process
-the	NN	O	I-Process
-control	NN	O	I-Process
-mode	NN	O	I-Process
-from	NN	O	I-Process
-autonomous	NN	O	I-Process
-to	NN	O	I-Process
-haptic	NN	O	I-Process
-based	NN	O	I-Process
-user	NN	O	O
-control	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-autonomous	NN	O	B-Process
-mode	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-robot	NN	O	B-Material
-utilizes	NN	O	O
-the	NN	O	O
-visual	NN	O	B-Task
-sensor	NN	O	I-Task
-and	NN	O	I-Task
-landmarks	NN	O	I-Task
-to	NN	O	I-Task
-monitor	NN	O	I-Task
-the	NN	O	O
-entire	NN	O	O
-environment	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-robot	NN	O	B-Material
-is	NN	O	O
-equipped	NN	O	O
-microphone	NN	O	B-Material
-,	NN	O	O
-speaker	NN	O	B-Material
-and	NN	O	O
-monitor	NN	O	B-Material
-making	NN	O	O
-it	NN	O	O
-possible	NN	O	O
-to	NN	O	O
-communicate	NN	O	B-Process
-with	NN	O	O
-the	NN	O	O
-user	NN	O	O
-in	NN	O	O
-remote	NN	O	B-Material
-place	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-the	NN	O	O
-robot	NN	O	B-Material
-utilizes	NN	O	O
-the	NN	O	O
-vital	NN	O	B-Process
-sensors	NN	O	I-Process
-to	NN	O	O
-check	NN	O	O
-the	NN	O	O
-patient	NN	O	B-Material
-'s	NN	O	I-Material
-condition	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-preliminary	NN	O	O
-surveillance	NN	O	O
-experiments	NN	O	O
-show	NN	O	O
-a	NN	O	O
-good	NN	O	O
-performance	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+we	15	17	O
+present	18	25	O
+a	26	27	O
+tele	28	32	B-Process
+-	32	33	I-Process
+operated	33	41	I-Process
+mobile	42	48	I-Process
+robot	49	54	I-Process
+system	55	61	I-Process
+for	62	65	O
+old	66	69	B-Task
+age	70	73	I-Task
+surveillance	74	86	I-Task
+.	86	87	O
+
+The	88	91	O
+robot	92	97	O
+operates	98	106	O
+in	107	109	O
+autonomous	110	120	B-Process
+mode	121	125	I-Process
+in	126	128	O
+which	129	134	O
+the	135	138	O
+robots	139	145	O
+navigates	146	155	B-Process
+in	156	158	I-Process
+the	159	162	I-Process
+environment	163	174	I-Process
+and	175	178	O
+search	179	185	B-Process
+for	186	189	I-Process
+unusual	190	197	I-Process
+situation	198	207	I-Process
+of	208	210	O
+elderly	211	218	B-Material
+people	219	225	I-Material
+.	225	226	O
+
+If	227	229	O
+a	230	231	O
+patient	232	239	B-Material
+is	240	242	O
+lying	243	248	B-Process
+on	249	251	I-Process
+the	252	255	I-Process
+floor	256	261	I-Process
+,	261	262	O
+the	263	266	O
+robot	267	272	B-Material
+informs	273	280	B-Process
+the	281	284	I-Process
+user	285	289	I-Process
+.	289	290	O
+
+The	291	294	O
+user	295	299	O
+switches	300	308	B-Process
+the	309	312	I-Process
+control	313	320	I-Process
+mode	321	325	I-Process
+from	326	330	I-Process
+autonomous	331	341	I-Process
+to	342	344	I-Process
+haptic	345	351	I-Process
+based	352	357	I-Process
+user	358	362	O
+control	363	370	O
+.	370	371	O
+
+In	372	374	O
+the	375	378	O
+autonomous	379	389	B-Process
+mode	390	394	I-Process
+,	394	395	O
+the	396	399	O
+robot	400	405	B-Material
+utilizes	406	414	O
+the	415	418	O
+visual	419	425	B-Task
+sensor	426	432	I-Task
+and	433	436	I-Task
+landmarks	437	446	I-Task
+to	447	449	I-Task
+monitor	450	457	I-Task
+the	458	461	O
+entire	462	468	O
+environment	469	480	O
+.	480	481	O
+
+The	482	485	O
+robot	486	491	B-Material
+is	492	494	O
+equipped	495	503	O
+microphone	504	514	B-Material
+,	514	515	O
+speaker	516	523	B-Material
+and	524	527	O
+monitor	528	535	B-Material
+making	536	542	O
+it	543	545	O
+possible	546	554	O
+to	555	557	O
+communicate	558	569	B-Process
+with	570	574	O
+the	575	578	O
+user	579	583	O
+in	584	586	O
+remote	587	593	B-Material
+place	594	599	I-Material
+.	599	600	O
+
+In	601	603	O
+addition	604	612	O
+,	612	613	O
+the	614	617	O
+robot	618	623	B-Material
+utilizes	624	632	O
+the	633	636	O
+vital	637	642	B-Process
+sensors	643	650	I-Process
+to	651	653	O
+check	654	659	O
+the	660	663	O
+patient	664	671	B-Material
+'s	671	673	I-Material
+condition	674	683	I-Material
+.	683	684	O
+
+The	685	688	O
+preliminary	689	700	O
+surveillance	701	713	O
+experiments	714	725	O
+show	726	730	O
+a	731	732	O
+good	733	737	O
+performance	738	749	O
+.	749	750	O
 
 
 -DOCSTART- (S2212667814001464)
 
-Recently	NN	O	O
-,	NN	O	O
-a	NN	O	O
-network	NN	O	B-Task
-virtualization	NN	O	I-Task
-technology	NN	O	I-Task
-has	NN	O	O
-attracted	NN	O	O
-considerable	NN	O	O
-attention	NN	O	O
-as	NN	O	O
-one	NN	O	O
-of	NN	O	O
-new	NN	O	B-Task
-generation	NN	O	I-Task
-network	NN	O	I-Task
-technologies	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-permit	NN	O	O
-the	NN	O	O
-rapid	NN	O	B-Task
-changing	NN	O	I-Task
-for	NN	O	I-Task
-a	NN	O	I-Task
-topology	NN	O	I-Task
-of	NN	O	I-Task
-a	NN	O	I-Task
-virtual	NN	O	I-Task
-network	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-propose	NN	O	O
-a	NN	O	O
-new	NN	O	O
-virtual	NN	O	B-Process
-network	NN	O	I-Process
-construction	NN	O	I-Process
-method	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-shortest	NN	O	B-Process
-path	NN	O	I-Process
-betweenness	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-our	NN	O	O
-proposed	NN	O	B-Process
-method	NN	O	I-Process
-,	NN	O	O
-at	NN	O	O
-first	NN	O	O
-,	NN	O	O
-a	NN	O	O
-service	NN	O	B-Material
-provider	NN	O	I-Material
-receives	NN	O	O
-a	NN	O	O
-user	NN	O	O
-'s	NN	O	O
-request	NN	O	O
-for	NN	O	O
-the	NN	O	O
-reconfiguration	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-constructed	NN	O	I-Process
-virtual	NN	O	I-Process
-network	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-case	NN	O	O
-,	NN	O	O
-the	NN	O	O
-service	NN	O	B-Material
-provider	NN	O	I-Material
-reconfigures	NN	O	B-Process
-the	NN	O	I-Process
-topology	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-constructed	NN	O	I-Process
-virtual	NN	O	I-Process
-network	NN	O	I-Process
-rapidly	NN	O	O
-based	NN	O	O
-on	NN	O	O
-shortest	NN	O	B-Process
-path	NN	O	I-Process
-betweenness	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-evaluate	NN	O	O
-the	NN	O	O
-performance	NN	O	O
-of	NN	O	O
-our	NN	O	O
-proposed	NN	O	O
-method	NN	O	O
-with	NN	O	O
-simulation	NN	O	B-Process
-,	NN	O	O
-and	NN	O	O
-we	NN	O	O
-show	NN	O	O
-the	NN	O	O
-effectiveness	NN	O	O
-of	NN	O	O
-our	NN	O	O
-proposed	NN	O	O
-method	NN	O	O
-.	NN	O	O
+Recently	0	8	O
+,	8	9	O
+a	10	11	O
+network	12	19	B-Task
+virtualization	20	34	I-Task
+technology	35	45	I-Task
+has	46	49	O
+attracted	50	59	O
+considerable	60	72	O
+attention	73	82	O
+as	83	85	O
+one	86	89	O
+of	90	92	O
+new	93	96	B-Task
+generation	97	107	I-Task
+network	108	115	I-Task
+technologies	116	128	I-Task
+.	128	129	O
+
+In	130	132	O
+this	133	137	O
+paper	138	143	O
+,	143	144	O
+in	145	147	O
+order	148	153	O
+to	154	156	O
+permit	157	163	O
+the	164	167	O
+rapid	168	173	B-Task
+changing	174	182	I-Task
+for	183	186	I-Task
+a	187	188	I-Task
+topology	189	197	I-Task
+of	198	200	I-Task
+a	201	202	I-Task
+virtual	203	210	I-Task
+network	211	218	I-Task
+,	218	219	O
+we	220	222	O
+propose	223	230	O
+a	231	232	O
+new	233	236	O
+virtual	237	244	B-Process
+network	245	252	I-Process
+construction	253	265	I-Process
+method	266	272	I-Process
+based	273	278	O
+on	279	281	O
+the	282	285	O
+shortest	286	294	B-Process
+path	295	299	I-Process
+betweenness	300	311	I-Process
+.	311	312	O
+
+In	313	315	O
+our	316	319	O
+proposed	320	328	B-Process
+method	329	335	I-Process
+,	335	336	O
+at	337	339	O
+first	340	345	O
+,	345	346	O
+a	347	348	O
+service	349	356	B-Material
+provider	357	365	I-Material
+receives	366	374	O
+a	375	376	O
+user	377	381	O
+'s	381	383	O
+request	384	391	O
+for	392	395	O
+the	396	399	O
+reconfiguration	400	415	B-Process
+of	416	418	I-Process
+the	419	422	I-Process
+constructed	423	434	I-Process
+virtual	435	442	I-Process
+network	443	450	I-Process
+.	450	451	O
+
+In	452	454	O
+this	455	459	O
+case	460	464	O
+,	464	465	O
+the	466	469	O
+service	470	477	B-Material
+provider	478	486	I-Material
+reconfigures	487	499	B-Process
+the	500	503	I-Process
+topology	504	512	I-Process
+of	513	515	I-Process
+the	516	519	I-Process
+constructed	520	531	I-Process
+virtual	532	539	I-Process
+network	540	547	I-Process
+rapidly	548	555	O
+based	556	561	O
+on	562	564	O
+shortest	565	573	B-Process
+path	574	578	I-Process
+betweenness	579	590	I-Process
+.	590	591	O
+
+We	592	594	O
+evaluate	595	603	O
+the	604	607	O
+performance	608	619	O
+of	620	622	O
+our	623	626	O
+proposed	627	635	O
+method	636	642	O
+with	643	647	O
+simulation	648	658	B-Process
+,	658	659	O
+and	660	663	O
+we	664	666	O
+show	667	671	O
+the	672	675	O
+effectiveness	676	689	O
+of	690	692	O
+our	693	696	O
+proposed	697	705	O
+method	706	712	O
+.	712	713	O
 
 
 -DOCSTART- (S2212667814001476)
 
-Security	NN	O	O
-issues	NN	O	O
-of	NN	O	O
-data	NN	O	B-Material
-hosted	NN	O	O
-in	NN	O	O
-a	NN	O	O
-Cloud	NN	O	B-Material
-Computing	NN	O	I-Material
-provider	NN	O	I-Material
-remain	NN	O	O
-hidden	NN	O	O
-seen	NN	O	O
-excessive	NN	O	B-Process
-marketing	NN	O	I-Process
-that	NN	O	O
-led	NN	O	O
-to	NN	O	O
-a	NN	O	O
-totally	NN	O	O
-unrealistic	NN	O	O
-view	NN	O	O
-of	NN	O	O
-cloud	NN	O	B-Task
-computing	NN	O	I-Task
-security	NN	O	I-Task
-.	NN	O	O
-
-Although	NN	O	O
-Cloud	NN	O	B-Task
-Computing	NN	O	I-Task
-has	NN	O	O
-not	NN	O	O
-yet	NN	O	O
-reached	NN	O	O
-the	NN	O	O
-level	NN	O	O
-of	NN	O	O
-maturity	NN	O	O
-expected	NN	O	O
-by	NN	O	O
-its	NN	O	O
-customers	NN	O	O
-,	NN	O	O
-and	NN	O	O
-that	NN	O	O
-the	NN	O	O
-problems	NN	O	O
-of	NN	O	O
-confidentiality	NN	O	B-Process
-,	NN	O	I-Process
-integrity	NN	O	I-Process
-,	NN	O	I-Process
-reliability	NN	O	I-Process
-and	NN	O	I-Process
-consistency	NN	O	I-Process
-(	NN	O	O
-CIRC	NN	O	B-Process
-)	NN	O	O
-are	NN	O	O
-still	NN	O	O
-open	NN	O	O
-,	NN	O	O
-the	NN	O	O
-researchers	NN	O	O
-in	NN	O	O
-this	NN	O	O
-field	NN	O	O
-have	NN	O	O
-already	NN	O	O
-considered	NN	O	O
-a	NN	O	O
-future	NN	O	B-Process
-cloud	NN	O	I-Process
-strategy	NN	O	I-Process
-which	NN	O	O
-aims	NN	O	O
-:	NN	O	O
-a	NN	O	O
-better	NN	O	O
-QoS	NN	O	O
-,	NN	O	O
-reliability	NN	O	O
-and	NN	O	O
-high	NN	O	O
-availability	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-the	NN	O	O
-Multi	NN	O	B-Process
--	NN	O	I-Process
-Clouds	NN	O	I-Process
-,	NN	O	O
-Cloud	NN	O	B-Process
-of	NN	O	I-Process
-Clouds	NN	O	I-Process
-or	NN	O	O
-Interclouds	NN	O	B-Process
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-will	NN	O	O
-present	NN	O	B-Task
-the	NN	O	I-Task
-security	NN	O	I-Task
-limitations	NN	O	I-Task
-in	NN	O	I-Task
-the	NN	O	I-Task
-single	NN	O	I-Task
-Cloud	NN	O	I-Task
-and	NN	O	O
-the	NN	O	O
-usefulness	NN	O	B-Task
-of	NN	O	I-Task
-adopting	NN	O	I-Task
-rather	NN	O	I-Task
-Multi	NN	O	I-Task
--	NN	O	I-Task
-Clouds	NN	O	I-Task
-strategy	NN	O	I-Task
-to	NN	O	O
-reduce	NN	O	O
-security	NN	O	B-Process
-risks	NN	O	I-Process
-,	NN	O	O
-through	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-DepSky	NN	O	B-Material
-which	NN	O	O
-is	NN	O	O
-a	NN	O	O
-virtual	NN	O	B-Material
-storage	NN	O	I-Material
-system	NN	O	I-Material
-that	NN	O	O
-ensures	NN	O	O
-better	NN	O	B-Process
-availability	NN	O	I-Process
-and	NN	O	I-Process
-high	NN	O	I-Process
-confidentiality	NN	O	I-Process
-of	NN	O	O
-data	NN	O	O
-.	NN	O	O
+Security	0	8	O
+issues	9	15	O
+of	16	18	O
+data	19	23	B-Material
+hosted	24	30	O
+in	31	33	O
+a	34	35	O
+Cloud	36	41	B-Material
+Computing	42	51	I-Material
+provider	52	60	I-Material
+remain	61	67	O
+hidden	68	74	O
+seen	75	79	O
+excessive	80	89	B-Process
+marketing	90	99	I-Process
+that	100	104	O
+led	105	108	O
+to	109	111	O
+a	112	113	O
+totally	114	121	O
+unrealistic	122	133	O
+view	134	138	O
+of	139	141	O
+cloud	142	147	B-Task
+computing	148	157	I-Task
+security	158	166	I-Task
+.	166	167	O
+
+Although	168	176	O
+Cloud	177	182	B-Task
+Computing	183	192	I-Task
+has	193	196	O
+not	197	200	O
+yet	201	204	O
+reached	205	212	O
+the	213	216	O
+level	217	222	O
+of	223	225	O
+maturity	226	234	O
+expected	235	243	O
+by	244	246	O
+its	247	250	O
+customers	251	260	O
+,	260	261	O
+and	262	265	O
+that	266	270	O
+the	271	274	O
+problems	275	283	O
+of	284	286	O
+confidentiality	287	302	B-Process
+,	302	303	I-Process
+integrity	304	313	I-Process
+,	313	314	I-Process
+reliability	315	326	I-Process
+and	327	330	I-Process
+consistency	331	342	I-Process
+(	343	344	O
+CIRC	344	348	B-Process
+)	348	349	O
+are	350	353	O
+still	354	359	O
+open	360	364	O
+,	364	365	O
+the	366	369	O
+researchers	370	381	O
+in	382	384	O
+this	385	389	O
+field	390	395	O
+have	396	400	O
+already	401	408	O
+considered	409	419	O
+a	420	421	O
+future	422	428	B-Process
+cloud	429	434	I-Process
+strategy	435	443	I-Process
+which	444	449	O
+aims	450	454	O
+:	454	455	O
+a	456	457	O
+better	458	464	O
+QoS	465	468	O
+,	468	469	O
+reliability	470	481	O
+and	482	485	O
+high	486	490	O
+availability	491	503	O
+,	503	504	O
+it	505	507	O
+is	508	510	O
+the	511	514	O
+Multi	515	520	B-Process
+-	520	521	I-Process
+Clouds	521	527	I-Process
+,	527	528	O
+Cloud	529	534	B-Process
+of	535	537	I-Process
+Clouds	538	544	I-Process
+or	545	547	O
+Interclouds	548	559	B-Process
+.	559	560	O
+
+This	560	564	O
+paper	565	570	O
+will	571	575	O
+present	576	583	B-Task
+the	584	587	I-Task
+security	588	596	I-Task
+limitations	597	608	I-Task
+in	609	611	I-Task
+the	612	615	I-Task
+single	616	622	I-Task
+Cloud	623	628	I-Task
+and	629	632	O
+the	633	636	O
+usefulness	637	647	B-Task
+of	648	650	I-Task
+adopting	651	659	I-Task
+rather	660	666	I-Task
+Multi	667	672	I-Task
+-	672	673	I-Task
+Clouds	673	679	I-Task
+strategy	680	688	I-Task
+to	689	691	O
+reduce	692	698	O
+security	699	707	B-Process
+risks	708	713	I-Process
+,	713	714	O
+through	715	722	O
+the	723	726	O
+use	727	730	O
+of	731	733	O
+DepSky	734	740	B-Material
+which	741	746	O
+is	747	749	O
+a	750	751	O
+virtual	752	759	B-Material
+storage	760	767	I-Material
+system	768	774	I-Material
+that	775	779	O
+ensures	780	787	O
+better	788	794	B-Process
+availability	795	807	I-Process
+and	808	811	I-Process
+high	812	816	I-Process
+confidentiality	817	832	I-Process
+of	833	835	O
+data	836	840	O
+.	840	841	O
 
 
 -DOCSTART- (S2212667814001488)
 
-This	NN	O	O
-paper	NN	O	O
-presents	NN	O	O
-general	NN	O	O
-results	NN	O	O
-on	NN	O	O
-the	NN	O	O
-Java	NN	O	B-Task
-source	NN	O	I-Task
-code	NN	O	I-Task
-snippet	NN	O	I-Task
-detection	NN	O	I-Task
-problem	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-propose	NN	O	O
-the	NN	O	O
-tool	NN	O	O
-which	NN	O	O
-uses	NN	O	O
-graph	NN	O	B-Process
-and	NN	O	I-Process
-subgraph	NN	O	I-Process
-isomorphism	NN	O	I-Process
-detection	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-number	NN	O	O
-of	NN	O	O
-solutions	NN	O	O
-for	NN	O	O
-all	NN	O	O
-of	NN	O	O
-these	NN	O	O
-tasks	NN	O	O
-have	NN	O	O
-been	NN	O	O
-proposed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-literature	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-although	NN	O	O
-that	NN	O	O
-all	NN	O	O
-these	NN	O	O
-solutions	NN	O	O
-are	NN	O	O
-really	NN	O	O
-fast	NN	O	O
-,	NN	O	O
-they	NN	O	O
-compare	NN	O	B-Process
-just	NN	O	I-Process
-the	NN	O	I-Process
-constant	NN	O	I-Process
-static	NN	O	I-Process
-trees	NN	O	I-Process
-.	NN	O	O
-
-Our	NN	O	O
-solution	NN	O	O
-offers	NN	O	O
-to	NN	O	O
-enter	NN	O	B-Process
-an	NN	O	I-Process
-input	NN	O	I-Process
-sample	NN	O	I-Process
-dynamically	NN	O	I-Process
-with	NN	O	O
-the	NN	O	O
-Scripthon	NN	O	B-Material
-language	NN	O	I-Material
-while	NN	O	O
-preserving	NN	O	B-Process
-an	NN	O	I-Process
-acceptable	NN	O	I-Process
-speed	NN	O	I-Process
-.	NN	O	O
-
-We	NN	O	O
-used	NN	O	O
-several	NN	O	B-Process
-optimizations	NN	O	I-Process
-to	NN	O	O
-achieve	NN	O	O
-very	NN	O	O
-low	NN	O	O
-number	NN	O	O
-of	NN	O	O
-comparisons	NN	O	B-Process
-during	NN	O	O
-the	NN	O	O
-matching	NN	O	B-Process
-algorithm	NN	O	I-Process
-.	NN	O	O
+This	0	4	O
+paper	5	10	O
+presents	11	19	O
+general	20	27	O
+results	28	35	O
+on	36	38	O
+the	39	42	O
+Java	43	47	B-Task
+source	48	54	I-Task
+code	55	59	I-Task
+snippet	60	67	I-Task
+detection	68	77	I-Task
+problem	78	85	O
+.	85	86	O
+
+We	87	89	O
+propose	90	97	O
+the	98	101	O
+tool	102	106	O
+which	107	112	O
+uses	113	117	O
+graph	118	123	B-Process
+and	124	127	I-Process
+subgraph	128	136	I-Process
+isomorphism	137	148	I-Process
+detection	149	158	I-Process
+.	158	159	O
+
+A	160	161	O
+number	162	168	O
+of	169	171	O
+solutions	172	181	O
+for	182	185	O
+all	186	189	O
+of	190	192	O
+these	193	198	O
+tasks	199	204	O
+have	205	209	O
+been	210	214	O
+proposed	215	223	O
+in	224	226	O
+the	227	230	O
+literature	231	241	O
+.	241	242	O
+
+However	243	250	O
+,	250	251	O
+although	252	260	O
+that	261	265	O
+all	266	269	O
+these	270	275	O
+solutions	276	285	O
+are	286	289	O
+really	290	296	O
+fast	297	301	O
+,	301	302	O
+they	303	307	O
+compare	308	315	B-Process
+just	316	320	I-Process
+the	321	324	I-Process
+constant	325	333	I-Process
+static	334	340	I-Process
+trees	341	346	I-Process
+.	346	347	O
+
+Our	348	351	O
+solution	352	360	O
+offers	361	367	O
+to	368	370	O
+enter	371	376	B-Process
+an	377	379	I-Process
+input	380	385	I-Process
+sample	386	392	I-Process
+dynamically	393	404	I-Process
+with	405	409	O
+the	410	413	O
+Scripthon	414	423	B-Material
+language	424	432	I-Material
+while	433	438	O
+preserving	439	449	B-Process
+an	450	452	I-Process
+acceptable	453	463	I-Process
+speed	464	469	I-Process
+.	469	470	O
+
+We	471	473	O
+used	474	478	O
+several	479	486	B-Process
+optimizations	487	500	I-Process
+to	501	503	O
+achieve	504	511	O
+very	512	516	O
+low	517	520	O
+number	521	527	O
+of	528	530	O
+comparisons	531	542	B-Process
+during	543	549	O
+the	550	553	O
+matching	554	562	B-Process
+algorithm	563	572	I-Process
+.	572	573	O
 
 
 -DOCSTART- (S221266781400149X)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-adaptive	NN	O	B-Task
-beamforming	NN	O	I-Task
-techniques	NN	O	I-Task
-for	NN	O	O
-smart	NN	O	B-Material
-antennas	NN	O	I-Material
-based	NN	O	O
-upon	NN	O	O
-Least	NN	O	B-Process
-Mean	NN	O	I-Process
-Squares	NN	O	I-Process
-(	NN	O	O
-LMS	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-Sample	NN	O	B-Process
-Matrix	NN	O	I-Process
-Inversion	NN	O	I-Process
-(	NN	O	O
-SMI	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-Recursive	NN	O	B-Process
-Least	NN	O	I-Process
-Squares	NN	O	I-Process
-(	NN	O	O
-RLS	NN	O	B-Process
-)	NN	O	O
-and	NN	O	O
-Conjugate	NN	O	B-Process
-Gradient	NN	O	I-Process
-Method	NN	O	I-Process
-(	NN	O	O
-CGM	NN	O	B-Process
-)	NN	O	O
-are	NN	O	O
-discussed	NN	O	B-Task
-and	NN	O	I-Task
-analyzed	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-beamforming	NN	O	B-Process
-performance	NN	O	I-Process
-is	NN	O	O
-studied	NN	O	O
-by	NN	O	O
-varying	NN	O	B-Process
-the	NN	O	I-Process
-element	NN	O	I-Process
-spacing	NN	O	I-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-number	NN	O	I-Process
-of	NN	O	I-Process
-antenna	NN	O	I-Process
-array	NN	O	I-Process
-elements	NN	O	I-Process
-for	NN	O	O
-each	NN	O	O
-algorithm	NN	O	B-Material
-.	NN	O	O
-
-These	NN	O	O
-four	NN	O	O
-algorithms	NN	O	B-Material
-are	NN	O	O
-compared	NN	O	O
-for	NN	O	O
-their	NN	O	O
-rate	NN	O	B-Process
-of	NN	O	I-Process
-convergence	NN	O	I-Process
-,	NN	O	O
-beamforming	NN	O	B-Process
-and	NN	O	O
-null	NN	O	B-Process
-steering	NN	O	I-Process
-performance	NN	O	I-Process
-(	NN	O	O
-beamwidth	NN	O	B-Process
-,	NN	O	O
-null	NN	O	B-Process
-depths	NN	O	I-Process
-and	NN	O	O
-maximum	NN	O	B-Process
-side	NN	O	I-Process
-lobe	NN	O	I-Process
-level	NN	O	I-Process
-)	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+adaptive	15	23	B-Task
+beamforming	24	35	I-Task
+techniques	36	46	I-Task
+for	47	50	O
+smart	51	56	B-Material
+antennas	57	65	I-Material
+based	66	71	O
+upon	72	76	O
+Least	77	82	B-Process
+Mean	83	87	I-Process
+Squares	88	95	I-Process
+(	96	97	O
+LMS	97	100	B-Process
+)	100	101	O
+,	101	102	O
+Sample	103	109	B-Process
+Matrix	110	116	I-Process
+Inversion	117	126	I-Process
+(	127	128	O
+SMI	128	131	B-Process
+)	131	132	O
+,	132	133	O
+Recursive	134	143	B-Process
+Least	144	149	I-Process
+Squares	150	157	I-Process
+(	158	159	O
+RLS	159	162	B-Process
+)	162	163	O
+and	164	167	O
+Conjugate	168	177	B-Process
+Gradient	178	186	I-Process
+Method	187	193	I-Process
+(	194	195	O
+CGM	195	198	B-Process
+)	198	199	O
+are	200	203	O
+discussed	204	213	B-Task
+and	214	217	I-Task
+analyzed	218	226	I-Task
+.	226	227	O
+
+The	228	231	O
+beamforming	232	243	B-Process
+performance	244	255	I-Process
+is	256	258	O
+studied	259	266	O
+by	267	269	O
+varying	270	277	B-Process
+the	278	281	I-Process
+element	282	289	I-Process
+spacing	290	297	I-Process
+and	298	301	I-Process
+the	302	305	I-Process
+number	306	312	I-Process
+of	313	315	I-Process
+antenna	316	323	I-Process
+array	324	329	I-Process
+elements	330	338	I-Process
+for	339	342	O
+each	343	347	O
+algorithm	348	357	B-Material
+.	357	358	O
+
+These	359	364	O
+four	365	369	O
+algorithms	370	380	B-Material
+are	381	384	O
+compared	385	393	O
+for	394	397	O
+their	398	403	O
+rate	404	408	B-Process
+of	409	411	I-Process
+convergence	412	423	I-Process
+,	423	424	O
+beamforming	425	436	B-Process
+and	437	440	O
+null	441	445	B-Process
+steering	446	454	I-Process
+performance	455	466	I-Process
+(	467	468	O
+beamwidth	468	477	B-Process
+,	477	478	O
+null	479	483	B-Process
+depths	484	490	I-Process
+and	491	494	O
+maximum	495	502	B-Process
+side	503	507	I-Process
+lobe	508	512	I-Process
+level	513	518	I-Process
+)	518	519	O
+.	519	520	O
 
 
 -DOCSTART- (S2212671612000121)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-three	NN	O	B-Task
-different	NN	O	I-Task
-approaches	NN	O	I-Task
-for	NN	O	O
-implementing	NN	O	B-Task
-a	NN	O	I-Task
-quantum	NN	O	I-Task
-search	NN	O	I-Task
-algorithm	NN	O	I-Task
-by	NN	O	I-Task
-adiabatic	NN	O	I-Task
-evolution	NN	O	I-Task
-are	NN	O	O
-shown	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-expected	NN	O	O
-,	NN	O	O
-either	NN	O	O
-one	NN	O	O
-of	NN	O	O
-them	NN	O	O
-can	NN	O	O
-provide	NN	O	O
-a	NN	O	O
-quadratic	NN	O	B-Process
-speed	NN	O	I-Process
-up	NN	O	I-Process
-as	NN	O	O
-opposed	NN	O	O
-to	NN	O	O
-the	NN	O	O
-classical	NN	O	B-Process
-search	NN	O	I-Process
-algorithm	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-implies	NN	O	O
-that	NN	O	O
-adiabatic	NN	O	B-Process
-evolution	NN	O	I-Process
-based	NN	O	O
-quantum	NN	O	B-Task
-computation	NN	O	I-Task
-gives	NN	O	O
-more	NN	O	O
-feasibilities	NN	O	B-Material
-than	NN	O	O
-the	NN	O	O
-quantum	NN	O	B-Process
-circuit	NN	O	I-Process
-model	NN	O	I-Process
-,	NN	O	O
-although	NN	O	O
-the	NN	O	O
-equivalence	NN	O	O
-between	NN	O	O
-them	NN	O	O
-has	NN	O	O
-already	NN	O	O
-been	NN	O	O
-proven	NN	O	O
-in	NN	O	O
-the	NN	O	O
-corresponding	NN	O	O
-literature	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+three	15	20	B-Task
+different	21	30	I-Task
+approaches	31	41	I-Task
+for	42	45	O
+implementing	46	58	B-Task
+a	59	60	I-Task
+quantum	61	68	I-Task
+search	69	75	I-Task
+algorithm	76	85	I-Task
+by	86	88	I-Task
+adiabatic	89	98	I-Task
+evolution	99	108	I-Task
+are	109	112	O
+shown	113	118	O
+.	118	119	O
+
+As	120	122	O
+expected	123	131	O
+,	131	132	O
+either	133	139	O
+one	140	143	O
+of	144	146	O
+them	147	151	O
+can	152	155	O
+provide	156	163	O
+a	164	165	O
+quadratic	166	175	B-Process
+speed	176	181	I-Process
+up	182	184	I-Process
+as	185	187	O
+opposed	188	195	O
+to	196	198	O
+the	199	202	O
+classical	203	212	B-Process
+search	213	219	I-Process
+algorithm	220	229	I-Process
+.	229	230	O
+
+This	231	235	O
+implies	236	243	O
+that	244	248	O
+adiabatic	249	258	B-Process
+evolution	259	268	I-Process
+based	269	274	O
+quantum	275	282	B-Task
+computation	283	294	I-Task
+gives	295	300	O
+more	301	305	O
+feasibilities	306	319	B-Material
+than	320	324	O
+the	325	328	O
+quantum	329	336	B-Process
+circuit	337	344	I-Process
+model	345	350	I-Process
+,	350	351	O
+although	352	360	O
+the	361	364	O
+equivalence	365	376	O
+between	377	384	O
+them	385	389	O
+has	390	393	O
+already	394	401	O
+been	402	406	O
+proven	407	413	O
+in	414	416	O
+the	417	420	O
+corresponding	421	434	O
+literature	435	445	O
+.	445	446	O
 
 
 -DOCSTART- (S2212671612000613)
 
-Video	NN	O	B-Process
--	NN	O	I-Process
-oculography	NN	O	I-Process
-(	NN	O	O
-VOG	NN	O	B-Process
-)	NN	O	O
-is	NN	O	O
-one	NN	O	O
-of	NN	O	O
-eye	NN	O	B-Process
-movement	NN	O	I-Process
-measurement	NN	O	I-Process
-methods	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-key	NN	O	O
-problem	NN	O	O
-of	NN	O	O
-VOG	NN	O	B-Process
-is	NN	O	O
-to	NN	O	O
-accurately	NN	O	B-Task
-estimate	NN	O	I-Task
-the	NN	O	I-Task
-pupil	NN	O	I-Task
-center	NN	O	I-Task
-.	NN	O	O
-
-Then	NN	O	O
-a	NN	O	O
-pupil	NN	O	B-Process
-location	NN	O	I-Process
-method	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-morphology	NN	O	B-Process
-and	NN	O	O
-Canny	NN	O	B-Process
-algorithm	NN	O	I-Process
-was	NN	O	O
-proposed	NN	O	O
-for	NN	O	O
-a	NN	O	O
-WIFI	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-VOG	NN	O	I-Process
-system	NN	O	I-Process
-which	NN	O	O
-was	NN	O	O
-developed	NN	O	O
-our	NN	O	O
-latest	NN	O	O
-work	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-a	NN	O	O
-healthy	NN	O	B-Material
-volunteer	NN	O	I-Material
-was	NN	O	O
-introduced	NN	O	O
-to	NN	O	O
-do	NN	O	O
-sinusoidal	NN	O	B-Task
-tracking	NN	O	I-Task
-test	NN	O	I-Task
-to	NN	O	O
-evaluate	NN	O	B-Task
-the	NN	O	I-Task
-pupil	NN	O	I-Task
-location	NN	O	I-Task
-method	NN	O	I-Task
-.	NN	O	O
-
-Experimental	NN	O	O
-results	NN	O	O
-showed	NN	O	O
-that	NN	O	O
-the	NN	O	O
-method	NN	O	O
-could	NN	O	O
-well	NN	O	O
-trace	NN	O	B-Process
-eye	NN	O	I-Process
-movement	NN	O	I-Process
-and	NN	O	O
-meet	NN	O	O
-the	NN	O	O
-anticipated	NN	O	O
-results	NN	O	O
-with	NN	O	O
-stimulation	NN	O	B-Process
-.	NN	O	O
+Video	0	5	B-Process
+-	5	6	I-Process
+oculography	6	17	I-Process
+(	18	19	O
+VOG	19	22	B-Process
+)	22	23	O
+is	24	26	O
+one	27	30	O
+of	31	33	O
+eye	34	37	B-Process
+movement	38	46	I-Process
+measurement	47	58	I-Process
+methods	59	66	I-Process
+.	66	67	O
+
+A	68	69	O
+key	70	73	O
+problem	74	81	O
+of	82	84	O
+VOG	85	88	B-Process
+is	89	91	O
+to	92	94	O
+accurately	95	105	B-Task
+estimate	106	114	I-Task
+the	115	118	I-Task
+pupil	119	124	I-Task
+center	125	131	I-Task
+.	131	132	O
+
+Then	133	137	O
+a	138	139	O
+pupil	140	145	B-Process
+location	146	154	I-Process
+method	155	161	I-Process
+based	162	167	O
+on	168	170	O
+morphology	171	181	B-Process
+and	182	185	O
+Canny	186	191	B-Process
+algorithm	192	201	I-Process
+was	202	205	O
+proposed	206	214	O
+for	215	218	O
+a	219	220	O
+WIFI	221	225	B-Process
+-	225	226	I-Process
+based	226	231	I-Process
+VOG	232	235	I-Process
+system	236	242	I-Process
+which	243	248	O
+was	249	252	O
+developed	253	262	O
+our	263	266	O
+latest	267	273	O
+work	274	278	O
+.	278	279	O
+
+Moreover	280	288	O
+,	288	289	O
+a	290	291	O
+healthy	292	299	B-Material
+volunteer	300	309	I-Material
+was	310	313	O
+introduced	314	324	O
+to	325	327	O
+do	328	330	O
+sinusoidal	331	341	B-Task
+tracking	342	350	I-Task
+test	351	355	I-Task
+to	356	358	O
+evaluate	359	367	B-Task
+the	368	371	I-Task
+pupil	372	377	I-Task
+location	378	386	I-Task
+method	387	393	I-Task
+.	393	394	O
+
+Experimental	395	407	O
+results	408	415	O
+showed	416	422	O
+that	423	427	O
+the	428	431	O
+method	432	438	O
+could	439	444	O
+well	445	449	O
+trace	450	455	B-Process
+eye	456	459	I-Process
+movement	460	468	I-Process
+and	469	472	O
+meet	473	477	O
+the	478	481	O
+anticipated	482	493	O
+results	494	501	O
+with	502	506	O
+stimulation	507	518	B-Process
+.	518	519	O
 
 
 -DOCSTART- (S2212671612000637)
 
-The	NN	O	O
-Hamiltonian	NN	O	B-Process
-approach	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-variational	NN	O	B-Process
-approach	NN	O	I-Process
-are	NN	O	O
-utilized	NN	O	O
-to	NN	O	O
-treat	NN	O	B-Task
-the	NN	O	I-Task
-relativistic	NN	O	I-Task
-harmonic	NN	O	I-Task
-oscillator	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-amplitude	NN	O	B-Process
--	NN	O	I-Process
-frequency	NN	O	I-Process
-relationship	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-nice	NN	O	O
-reliability	NN	O	O
-is	NN	O	O
-shown	NN	O	O
-by	NN	O	O
-the	NN	O	O
-result	NN	O	B-Process
-comparison	NN	O	I-Process
-with	NN	O	O
-that	NN	O	O
-from	NN	O	O
-open	NN	O	B-Material
-literature	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-simplicity	NN	O	O
-and	NN	O	O
-efficiency	NN	O	O
-of	NN	O	O
-the	NN	O	O
-methods	NN	O	O
-are	NN	O	O
-also	NN	O	O
-disclosed	NN	O	O
-for	NN	O	O
-different	NN	O	O
-range	NN	O	O
-of	NN	O	O
-the	NN	O	O
-initial	NN	O	B-Process
-amplitude	NN	O	I-Process
-during	NN	O	O
-looking	NN	O	O
-for	NN	O	O
-the	NN	O	O
-amplitude	NN	O	B-Process
--	NN	O	I-Process
-frequency	NN	O	I-Process
-relationship	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-nonlinear	NN	O	B-Process
-relativistic	NN	O	I-Process
-harmonic	NN	O	I-Process
-oscillator	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+Hamiltonian	4	15	B-Process
+approach	16	24	I-Process
+and	25	28	O
+the	29	32	O
+variational	33	44	B-Process
+approach	45	53	I-Process
+are	54	57	O
+utilized	58	66	O
+to	67	69	O
+treat	70	75	B-Task
+the	76	79	I-Task
+relativistic	80	92	I-Task
+harmonic	93	101	I-Task
+oscillator	102	112	I-Task
+for	113	116	O
+the	117	120	O
+amplitude	121	130	B-Process
+-	130	131	I-Process
+frequency	131	140	I-Process
+relationship	141	153	I-Process
+.	153	154	O
+
+The	155	158	O
+nice	159	163	O
+reliability	164	175	O
+is	176	178	O
+shown	179	184	O
+by	185	187	O
+the	188	191	O
+result	192	198	B-Process
+comparison	199	209	I-Process
+with	210	214	O
+that	215	219	O
+from	220	224	O
+open	225	229	B-Material
+literature	230	240	I-Material
+.	240	241	O
+
+The	242	245	O
+simplicity	246	256	O
+and	257	260	O
+efficiency	261	271	O
+of	272	274	O
+the	275	278	O
+methods	279	286	O
+are	287	290	O
+also	291	295	O
+disclosed	296	305	O
+for	306	309	O
+different	310	319	O
+range	320	325	O
+of	326	328	O
+the	329	332	O
+initial	333	340	B-Process
+amplitude	341	350	I-Process
+during	351	357	O
+looking	358	365	O
+for	366	369	O
+the	370	373	O
+amplitude	374	383	B-Process
+-	383	384	I-Process
+frequency	384	393	I-Process
+relationship	394	406	I-Process
+for	407	410	O
+the	411	414	O
+nonlinear	415	424	B-Process
+relativistic	425	437	I-Process
+harmonic	438	446	I-Process
+oscillator	447	457	I-Process
+.	457	458	O
 
 
 -DOCSTART- (S2212671612000686)
 
-This	NN	O	O
-paper	NN	O	O
-make	NN	O	O
-the	NN	O	O
-explained	NN	O	O
-variables	NN	O	O
-our	NN	O	O
-financial	NN	O	B-Process
-stress	NN	O	I-Process
-index	NN	O	I-Process
-consist	NN	O	O
-of	NN	O	O
-the	NN	O	O
-synchronous	NN	O	B-Process
-variables	NN	O	I-Process
-financial	NN	O	I-Process
-systemic	NN	O	I-Process
-risk	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-make	NN	O	O
-the	NN	O	O
-explanatory	NN	O	O
-variables	NN	O	O
-the	NN	O	O
-macroeconomic	NN	O	B-Process
-variable	NN	O	I-Process
-,	NN	O	O
-currency	NN	O	B-Process
-credit	NN	O	I-Process
-variable	NN	O	I-Process
-,	NN	O	O
-asset	NN	O	B-Process
-price	NN	O	I-Process
-variable	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-macroeconomic	NN	O	B-Process
-variable	NN	O	I-Process
-of	NN	O	I-Process
-correlative	NN	O	I-Process
-economic	NN	O	I-Process
-powers	NN	O	I-Process
-,	NN	O	O
-then	NN	O	O
-use	NN	O	O
-stepwise	NN	O	B-Process
-regression	NN	O	I-Process
-method	NN	O	I-Process
-to	NN	O	O
-establish	NN	O	B-Task
-the	NN	O	I-Task
-financial	NN	O	I-Task
-systemic	NN	O	I-Task
-risk	NN	O	I-Task
-best	NN	O	I-Task
-predict	NN	O	I-Task
-equation	NN	O	I-Task
-,	NN	O	O
-thus	NN	O	O
-set	NN	O	B-Task
-up	NN	O	I-Task
-the	NN	O	I-Task
-reasonable	NN	O	I-Task
-and	NN	O	I-Task
-practical	NN	O	I-Task
-financial	NN	O	I-Task
-systemic	NN	O	I-Task
-risk	NN	O	I-Task
-early	NN	O	I-Task
--	NN	O	I-Task
-warning	NN	O	I-Task
-index	NN	O	I-Task
-system	NN	O	I-Task
-;	NN	O	O
-besides	NN	O	O
-,	NN	O	O
-use	NN	O	O
-the	NN	O	O
-best	NN	O	B-Process
-prediction	NN	O	I-Process
-equations	NN	O	I-Process
-predicts	NN	O	O
-the	NN	O	O
-financial	NN	O	O
-systemic	NN	O	O
-risk	NN	O	O
-status	NN	O	O
-in	NN	O	O
-2011	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-predicted	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-Chinese	NN	O	O
-financial	NN	O	O
-systemic	NN	O	O
-risk	NN	O	O
-is	NN	O	O
-on	NN	O	O
-the	NN	O	O
-rise	NN	O	O
-in	NN	O	O
-the	NN	O	O
-first	NN	O	O
-three	NN	O	O
-quarters	NN	O	O
-and	NN	O	O
-higher	NN	O	O
-than	NN	O	O
-the	NN	O	O
-peak	NN	O	O
-of	NN	O	O
-2008	NN	O	O
-;	NN	O	O
-financial	NN	O	O
-systemic	NN	O	O
-risk	NN	O	O
-start	NN	O	O
-to	NN	O	O
-decline	NN	O	O
-since	NN	O	O
-the	NN	O	O
-fourth	NN	O	O
-quarter	NN	O	O
-.	NN	O	O
+This	0	4	O
+paper	5	10	O
+make	11	15	O
+the	16	19	O
+explained	20	29	O
+variables	30	39	O
+our	40	43	O
+financial	44	53	B-Process
+stress	54	60	I-Process
+index	61	66	I-Process
+consist	67	74	O
+of	75	77	O
+the	78	81	O
+synchronous	82	93	B-Process
+variables	94	103	I-Process
+financial	104	113	I-Process
+systemic	114	122	I-Process
+risk	123	127	I-Process
+,	127	128	O
+and	129	132	O
+make	133	137	O
+the	138	141	O
+explanatory	142	153	O
+variables	154	163	O
+the	164	167	O
+macroeconomic	168	181	B-Process
+variable	182	190	I-Process
+,	190	191	O
+currency	192	200	B-Process
+credit	201	207	I-Process
+variable	208	216	I-Process
+,	216	217	O
+asset	218	223	B-Process
+price	224	229	I-Process
+variable	230	238	I-Process
+and	239	242	O
+the	243	246	O
+macroeconomic	247	260	B-Process
+variable	261	269	I-Process
+of	270	272	I-Process
+correlative	273	284	I-Process
+economic	285	293	I-Process
+powers	294	300	I-Process
+,	300	301	O
+then	302	306	O
+use	307	310	O
+stepwise	311	319	B-Process
+regression	320	330	I-Process
+method	331	337	I-Process
+to	338	340	O
+establish	341	350	B-Task
+the	351	354	I-Task
+financial	355	364	I-Task
+systemic	365	373	I-Task
+risk	374	378	I-Task
+best	379	383	I-Task
+predict	384	391	I-Task
+equation	392	400	I-Task
+,	400	401	O
+thus	402	406	O
+set	407	410	B-Task
+up	411	413	I-Task
+the	414	417	I-Task
+reasonable	418	428	I-Task
+and	429	432	I-Task
+practical	433	442	I-Task
+financial	443	452	I-Task
+systemic	453	461	I-Task
+risk	462	466	I-Task
+early	467	472	I-Task
+-	472	473	I-Task
+warning	473	480	I-Task
+index	481	486	I-Task
+system	487	493	I-Task
+;	493	494	O
+besides	495	502	O
+,	502	503	O
+use	504	507	O
+the	508	511	O
+best	512	516	B-Process
+prediction	517	527	I-Process
+equations	528	537	I-Process
+predicts	538	546	O
+the	547	550	O
+financial	551	560	O
+systemic	561	569	O
+risk	570	574	O
+status	575	581	O
+in	582	584	O
+2011	585	589	O
+.	589	590	O
+
+The	591	594	O
+predicted	595	604	O
+results	605	612	O
+show	613	617	O
+that	618	622	O
+Chinese	623	630	O
+financial	631	640	O
+systemic	641	649	O
+risk	650	654	O
+is	655	657	O
+on	658	660	O
+the	661	664	O
+rise	665	669	O
+in	670	672	O
+the	673	676	O
+first	677	682	O
+three	683	688	O
+quarters	689	697	O
+and	698	701	O
+higher	702	708	O
+than	709	713	O
+the	714	717	O
+peak	718	722	O
+of	723	725	O
+2008	726	730	O
+;	730	731	O
+financial	732	741	O
+systemic	742	750	O
+risk	751	755	O
+start	756	761	O
+to	762	764	O
+decline	765	772	O
+since	773	778	O
+the	779	782	O
+fourth	783	789	O
+quarter	790	797	O
+.	797	798	O
 
 
 -DOCSTART- (S2212671612000698)
 
-In	NN	O	O
-Obstacle	NN	O	B-Task
-detection	NN	O	I-Task
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-inverse	NN	O	B-Process
-perspective	NN	O	I-Process
-mapping	NN	O	I-Process
-and	NN	O	I-Process
-homography	NN	O	I-Process
-.	NN	O	O
-
-Obstacle	NN	O	B-Task
-classification	NN	O	I-Task
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-fuzzy	NN	O	B-Process
-neural	NN	O	I-Process
-network	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-estimation	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-vanishing	NN	O	I-Task
-point	NN	O	I-Task
-relies	NN	O	O
-on	NN	O	O
-feature	NN	O	B-Process
-extraction	NN	O	I-Process
-strategy	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-method	NN	O	O
-exploits	NN	O	O
-the	NN	O	O
-geometrical	NN	O	B-Process
-relations	NN	O	I-Process
-between	NN	O	O
-the	NN	O	O
-elements	NN	O	B-Material
-in	NN	O	O
-the	NN	O	O
-scene	NN	O	B-Material
-so	NN	O	O
-that	NN	O	O
-obstacle	NN	O	B-Material
-can	NN	O	O
-be	NN	O	O
-detected	NN	O	B-Process
-.	NN	O	O
-
-The	NN	O	O
-estimated	NN	O	B-Process
-homography	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-road	NN	O	B-Material
-plane	NN	O	I-Material
-between	NN	O	O
-successive	NN	O	O
-images	NN	O	B-Material
-is	NN	O	O
-used	NN	O	O
-for	NN	O	O
-image	NN	O	B-Task
-alignment	NN	O	I-Task
-.	NN	O	O
-
-A	NN	O	O
-new	NN	O	O
-fuzzy	NN	O	B-Process
-decision	NN	O	I-Process
-fusion	NN	O	I-Process
-method	NN	O	I-Process
-with	NN	O	O
-fuzzy	NN	O	B-Process
-attribution	NN	O	I-Process
-for	NN	O	I-Process
-obstacle	NN	O	I-Process
-detection	NN	O	I-Process
-and	NN	O	I-Process
-classification	NN	O	I-Process
-application	NN	O	I-Process
-is	NN	O	O
-described	NN	O	O
-The	NN	O	B-Process
-fuzzy	NN	O	I-Process
-decision	NN	O	I-Process
-function	NN	O	I-Process
-modifies	NN	O	O
-parameters	NN	O	O
-with	NN	O	O
-auto	NN	O	B-Process
--	NN	O	I-Process
-adapted	NN	O	I-Process
-algorithm	NN	O	I-Process
-to	NN	O	O
-get	NN	O	O
-better	NN	O	O
-classification	NN	O	B-Process
-probability	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-shown	NN	O	O
-that	NN	O	O
-the	NN	O	O
-method	NN	O	O
-can	NN	O	O
-achieve	NN	O	O
-better	NN	O	O
-classification	NN	O	B-Process
-result	NN	O	O
-.	NN	O	O
+In	0	2	O
+Obstacle	3	11	B-Task
+detection	12	21	I-Task
+is	22	24	O
+based	25	30	O
+on	31	33	O
+inverse	34	41	B-Process
+perspective	42	53	I-Process
+mapping	54	61	I-Process
+and	62	65	I-Process
+homography	66	76	I-Process
+.	76	77	O
+
+Obstacle	78	86	B-Task
+classification	87	101	I-Task
+is	102	104	O
+based	105	110	O
+on	111	113	O
+fuzzy	114	119	B-Process
+neural	120	126	I-Process
+network	127	134	I-Process
+.	134	135	O
+
+The	136	139	O
+estimation	140	150	B-Task
+of	151	153	I-Task
+the	154	157	I-Task
+vanishing	158	167	I-Task
+point	168	173	I-Task
+relies	174	180	O
+on	181	183	O
+feature	184	191	B-Process
+extraction	192	202	I-Process
+strategy	203	211	I-Process
+.	211	212	O
+
+The	213	216	O
+method	217	223	O
+exploits	224	232	O
+the	233	236	O
+geometrical	237	248	B-Process
+relations	249	258	I-Process
+between	259	266	O
+the	267	270	O
+elements	271	279	B-Material
+in	280	282	O
+the	283	286	O
+scene	287	292	B-Material
+so	293	295	O
+that	296	300	O
+obstacle	301	309	B-Material
+can	310	313	O
+be	314	316	O
+detected	317	325	B-Process
+.	325	326	O
+
+The	327	330	O
+estimated	331	340	B-Process
+homography	341	351	I-Process
+of	352	354	O
+the	355	358	O
+road	359	363	B-Material
+plane	364	369	I-Material
+between	370	377	O
+successive	378	388	O
+images	389	395	B-Material
+is	396	398	O
+used	399	403	O
+for	404	407	O
+image	408	413	B-Task
+alignment	414	423	I-Task
+.	423	424	O
+
+A	425	426	O
+new	427	430	O
+fuzzy	431	436	B-Process
+decision	437	445	I-Process
+fusion	446	452	I-Process
+method	453	459	I-Process
+with	460	464	O
+fuzzy	465	470	B-Process
+attribution	471	482	I-Process
+for	483	486	I-Process
+obstacle	487	495	I-Process
+detection	496	505	I-Process
+and	506	509	I-Process
+classification	510	524	I-Process
+application	525	536	I-Process
+is	537	539	O
+described	540	549	O
+The	550	553	B-Process
+fuzzy	554	559	I-Process
+decision	560	568	I-Process
+function	569	577	I-Process
+modifies	578	586	O
+parameters	587	597	O
+with	598	602	O
+auto	603	607	B-Process
+-	607	608	I-Process
+adapted	608	615	I-Process
+algorithm	616	625	I-Process
+to	626	628	O
+get	629	632	O
+better	633	639	O
+classification	640	654	B-Process
+probability	655	666	O
+
+It	667	669	O
+is	670	672	O
+shown	673	678	O
+that	679	683	O
+the	684	687	O
+method	688	694	O
+can	695	698	O
+achieve	699	706	O
+better	707	713	O
+classification	714	728	B-Process
+result	729	735	O
+.	735	736	O
 
 
 -DOCSTART- (S2212671612000704)
 
-The	NN	O	O
-load	NN	O	O
-of	NN	O	O
-beam	NN	O	B-Material
-pumping	NN	O	I-Material
-unit	NN	O	I-Material
-is	NN	O	O
-changeable	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-often	NN	O	O
-in	NN	O	O
-a	NN	O	O
-state	NN	O	O
-of	NN	O	O
-light	NN	O	B-Process
-load	NN	O	I-Process
-.	NN	O	O
-
-Reducing	NN	O	B-Process
-a	NN	O	I-Process
-certain	NN	O	I-Process
-voltage	NN	O	I-Process
-can	NN	O	O
-improve	NN	O	B-Process
-the	NN	O	I-Process
-power	NN	O	I-Process
-factor	NN	O	I-Process
-and	NN	O	I-Process
-efficiency	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-beam	NN	O	I-Process
-pumping	NN	O	I-Process
-unit	NN	O	I-Process
-when	NN	O	O
-in	NN	O	O
-light	NN	O	B-Process
-load	NN	O	I-Process
-.We	NN	O	O
-
-can	NN	O	O
-change	NN	O	B-Process
-the	NN	O	I-Process
-voltage	NN	O	I-Process
-by	NN	O	O
-changing	NN	O	B-Process
-the	NN	O	I-Process
-thyristor	NN	O	I-Process
-trigger	NN	O	I-Process
-angle	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-complex	NN	O	O
-and	NN	O	O
-unacceptable	NN	O	O
-to	NN	O	O
-analyze	NN	O	B-Process
-the	NN	O	I-Process
-change	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-cycles	NN	O	I-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-load	NN	O	I-Process
-overall	NN	O	I-Process
-.	NN	O	O
-
-So	NN	O	O
-we	NN	O	O
-can	NN	O	O
-divide	NN	O	B-Process
-the	NN	O	I-Process
-load	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-whole	NN	O	O
-cycle	NN	O	O
-into	NN	O	O
-several	NN	O	O
-equal	NN	O	B-Material
-parts	NN	O	I-Material
-,	NN	O	O
-each	NN	O	O
-can	NN	O	O
-be	NN	O	O
-thought	NN	O	O
-of	NN	O	O
-as	NN	O	O
-a	NN	O	O
-constant	NN	O	B-Process
-load	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-most	NN	O	O
-optimal	NN	O	B-Process
-voltage	NN	O	I-Process
-for	NN	O	O
-the	NN	O	O
-current	NN	O	B-Process
-load	NN	O	I-Process
-can	NN	O	O
-be	NN	O	O
-calculated	NN	O	B-Task
-by	NN	O	I-Task
-genetic	NN	O	I-Task
-algorithm	NN	O	I-Task
-.	NN	O	O
-
-When	NN	O	O
-each	NN	O	O
-load	NN	O	O
-is	NN	O	O
-in	NN	O	O
-the	NN	O	O
-most	NN	O	O
-optimal	NN	O	B-Process
-voltage	NN	O	I-Process
-,	NN	O	O
-we	NN	O	O
-can	NN	O	O
-get	NN	O	O
-the	NN	O	O
-whole	NN	O	B-Process
-optimal	NN	O	I-Process
-voltage	NN	O	I-Process
-changeable	NN	O	I-Process
-rule	NN	O	I-Process
-.	NN	O	I-Process
-
-Then	NN	O	O
-it	NN	O	O
-produces	NN	O	O
-the	NN	O	O
-result	NN	O	O
-of	NN	O	O
-energy	NN	O	B-Task
-saving	NN	O	I-Task
-.	NN	O	O
+The	0	3	O
+load	4	8	O
+of	9	11	O
+beam	12	16	B-Material
+pumping	17	24	I-Material
+unit	25	29	I-Material
+is	30	32	O
+changeable	33	43	O
+,	43	44	O
+which	45	50	O
+is	51	53	O
+often	54	59	O
+in	60	62	O
+a	63	64	O
+state	65	70	O
+of	71	73	O
+light	74	79	B-Process
+load	80	84	I-Process
+.	84	85	O
+
+Reducing	86	94	B-Process
+a	95	96	I-Process
+certain	97	104	I-Process
+voltage	105	112	I-Process
+can	113	116	O
+improve	117	124	B-Process
+the	125	128	I-Process
+power	129	134	I-Process
+factor	135	141	I-Process
+and	142	145	I-Process
+efficiency	146	156	I-Process
+of	157	159	I-Process
+the	160	163	I-Process
+beam	164	168	I-Process
+pumping	169	176	I-Process
+unit	177	181	I-Process
+when	182	186	O
+in	187	189	O
+light	190	195	B-Process
+load	196	200	I-Process
+.We	201	204	O
+
+can	205	208	O
+change	209	215	B-Process
+the	216	219	I-Process
+voltage	220	227	I-Process
+by	228	230	O
+changing	231	239	B-Process
+the	240	243	I-Process
+thyristor	244	253	I-Process
+trigger	254	261	I-Process
+angle	262	267	I-Process
+.	267	268	O
+
+It	269	271	O
+is	272	274	O
+complex	275	282	O
+and	283	286	O
+unacceptable	287	299	O
+to	300	302	O
+analyze	303	310	B-Process
+the	311	314	I-Process
+change	315	321	I-Process
+of	322	324	I-Process
+the	325	328	I-Process
+cycles	329	335	I-Process
+of	336	338	I-Process
+the	339	342	I-Process
+load	343	347	I-Process
+overall	348	355	I-Process
+.	355	356	O
+
+So	357	359	O
+we	360	362	O
+can	363	366	O
+divide	367	373	B-Process
+the	374	377	I-Process
+load	378	382	I-Process
+of	383	385	O
+the	386	389	O
+whole	390	395	O
+cycle	396	401	O
+into	402	406	O
+several	407	414	O
+equal	415	420	B-Material
+parts	421	426	I-Material
+,	426	427	O
+each	428	432	O
+can	433	436	O
+be	437	439	O
+thought	440	447	O
+of	448	450	O
+as	451	453	O
+a	454	455	O
+constant	456	464	B-Process
+load	465	469	I-Process
+.	469	470	O
+
+The	471	474	O
+most	475	479	O
+optimal	480	487	B-Process
+voltage	488	495	I-Process
+for	496	499	O
+the	500	503	O
+current	504	511	B-Process
+load	512	516	I-Process
+can	517	520	O
+be	521	523	O
+calculated	524	534	B-Task
+by	535	537	I-Task
+genetic	538	545	I-Task
+algorithm	546	555	I-Task
+.	555	556	O
+
+When	557	561	O
+each	562	566	O
+load	567	571	O
+is	572	574	O
+in	575	577	O
+the	578	581	O
+most	582	586	O
+optimal	587	594	B-Process
+voltage	595	602	I-Process
+,	602	603	O
+we	604	606	O
+can	607	610	O
+get	611	614	O
+the	615	618	O
+whole	619	624	B-Process
+optimal	625	632	I-Process
+voltage	633	640	I-Process
+changeable	641	651	I-Process
+rule	652	656	I-Process
+.	656	657	I-Process
+
+Then	658	662	O
+it	663	665	O
+produces	666	674	O
+the	675	678	O
+result	679	685	O
+of	686	688	O
+energy	689	695	B-Task
+saving	696	702	I-Task
+.	702	703	O
 
 
 -DOCSTART- (S2212671612000716)
 
-Based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-description	NN	O	B-Process
-model	NN	O	I-Process
-of	NN	O	O
-object	NN	O	B-Process
--	NN	O	I-Process
-orientation	NN	O	I-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-direction	NN	O	I-Process
-relation	NN	O	I-Process
-in	NN	O	O
-two	NN	O	B-Material
--	NN	O	I-Material
-dimensional	NN	O	I-Material
-space	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-description	NN	O	B-Task
-mode	NN	O	I-Task
-of	NN	O	I-Task
-object	NN	O	I-Task
--	NN	O	I-Task
-orientation	NN	O	I-Task
--	NN	O	I-Task
-based	NN	O	I-Task
-direction	NN	O	I-Task
-relation	NN	O	I-Task
-in	NN	O	I-Task
-three	NN	O	I-Task
--	NN	O	I-Task
-dimensional	NN	O	I-Task
-space	NN	O	I-Task
-is	NN	O	I-Task
-proposed	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-basic	NN	O	O
-idea	NN	O	O
-is	NN	O	O
-that	NN	O	O
-the	NN	O	O
-actual	NN	O	O
-direction	NN	O	B-Process
-region	NN	O	I-Process
-is	NN	O	O
-modeled	NN	O	O
-as	NN	O	O
-an	NN	O	O
-open	NN	O	B-Material
-shape	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-computation	NN	O	B-Process
-related	NN	O	O
-to	NN	O	O
-the	NN	O	O
-world	NN	O	B-Material
-boundary	NN	O	I-Material
-of	NN	O	O
-spatial	NN	O	B-Process
-direction	NN	O	I-Process
-region	NN	O	I-Process
-is	NN	O	O
-eliminated	NN	O	O
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-processing	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-direction	NN	O	I-Process
-predicates	NN	O	I-Process
-is	NN	O	O
-converted	NN	O	O
-into	NN	O	O
-the	NN	O	O
-processing	NN	O	B-Process
-of	NN	O	I-Process
-topological	NN	O	I-Process
-operations	NN	O	I-Process
-between	NN	O	O
-open	NN	O	B-Material
-shapes	NN	O	I-Material
-and	NN	O	O
-closed	NN	O	O
-geometry	NN	O	B-Material
-objects	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-algorithms	NN	O	B-Process
-of	NN	O	I-Process
-topological	NN	O	I-Process
-operations	NN	O	I-Process
-between	NN	O	O
-open	NN	O	B-Material
-shapes	NN	O	I-Material
-and	NN	O	O
-closed	NN	O	O
-geometry	NN	O	B-Material
-objects	NN	O	I-Material
-are	NN	O	O
-presented	NN	O	O
-and	NN	O	O
-the	NN	O	O
-theoretical	NN	O	B-Task
-proof	NN	O	I-Task
-for	NN	O	I-Task
-the	NN	O	I-Task
-correctness	NN	O	I-Task
-and	NN	O	I-Task
-completeness	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-algorithms	NN	O	I-Task
-is	NN	O	O
-performed	NN	O	O
-.	NN	O	O
+Based	0	5	O
+on	6	8	O
+the	9	12	O
+description	13	24	B-Process
+model	25	30	I-Process
+of	31	33	O
+object	34	40	B-Process
+-	40	41	I-Process
+orientation	41	52	I-Process
+-	52	53	I-Process
+based	53	58	I-Process
+direction	59	68	I-Process
+relation	69	77	I-Process
+in	78	80	O
+two	81	84	B-Material
+-	84	85	I-Material
+dimensional	85	96	I-Material
+space	97	102	I-Material
+,	102	103	O
+the	104	107	O
+description	108	119	B-Task
+mode	120	124	I-Task
+of	125	127	I-Task
+object	128	134	I-Task
+-	134	135	I-Task
+orientation	135	146	I-Task
+-	146	147	I-Task
+based	147	152	I-Task
+direction	153	162	I-Task
+relation	163	171	I-Task
+in	172	174	I-Task
+three	175	180	I-Task
+-	180	181	I-Task
+dimensional	181	192	I-Task
+space	193	198	I-Task
+is	199	201	I-Task
+proposed	202	210	I-Task
+.	210	211	O
+
+The	212	215	O
+basic	216	221	O
+idea	222	226	O
+is	227	229	O
+that	230	234	O
+the	235	238	O
+actual	239	245	O
+direction	246	255	B-Process
+region	256	262	I-Process
+is	263	265	O
+modeled	266	273	O
+as	274	276	O
+an	277	279	O
+open	280	284	B-Material
+shape	285	290	I-Material
+.	290	291	O
+
+The	292	295	O
+computation	296	307	B-Process
+related	308	315	O
+to	316	318	O
+the	319	322	O
+world	323	328	B-Material
+boundary	329	337	I-Material
+of	338	340	O
+spatial	341	348	B-Process
+direction	349	358	I-Process
+region	359	365	I-Process
+is	366	368	O
+eliminated	369	379	O
+,	379	380	O
+and	381	384	O
+the	385	388	O
+processing	389	399	B-Process
+of	400	402	I-Process
+the	403	406	I-Process
+direction	407	416	I-Process
+predicates	417	427	I-Process
+is	428	430	O
+converted	431	440	O
+into	441	445	O
+the	446	449	O
+processing	450	460	B-Process
+of	461	463	I-Process
+topological	464	475	I-Process
+operations	476	486	I-Process
+between	487	494	O
+open	495	499	B-Material
+shapes	500	506	I-Material
+and	507	510	O
+closed	511	517	O
+geometry	518	526	B-Material
+objects	527	534	I-Material
+.	534	535	O
+
+The	536	539	O
+algorithms	540	550	B-Process
+of	551	553	I-Process
+topological	554	565	I-Process
+operations	566	576	I-Process
+between	577	584	O
+open	585	589	B-Material
+shapes	590	596	I-Material
+and	597	600	O
+closed	601	607	O
+geometry	608	616	B-Material
+objects	617	624	I-Material
+are	625	628	O
+presented	629	638	O
+and	639	642	O
+the	643	646	O
+theoretical	647	658	B-Task
+proof	659	664	I-Task
+for	665	668	I-Task
+the	669	672	I-Task
+correctness	673	684	I-Task
+and	685	688	I-Task
+completeness	689	701	I-Task
+of	702	704	I-Task
+the	705	708	I-Task
+algorithms	709	719	I-Task
+is	720	722	O
+performed	723	732	O
+.	732	733	O
 
 
 -DOCSTART- (S2212671612001163)
 
-The	NN	O	O
-paper	NN	O	O
-deals	NN	O	O
-with	NN	O	O
-the	NN	O	O
-computation	NN	O	B-Task
-of	NN	O	I-Task
-distribution	NN	O	I-Task
-network	NN	O	I-Task
-components	NN	O	I-Task
-reliability	NN	O	I-Task
-parameters	NN	O	I-Task
-.	NN	O	O
-
-Knowledge	NN	O	O
-of	NN	O	O
-the	NN	O	O
-component	NN	O	B-Process
-reliability	NN	O	I-Process
-parameters	NN	O	I-Process
-in	NN	O	O
-power	NN	O	B-Material
-networks	NN	O	I-Material
-is	NN	O	O
-necessary	NN	O	O
-for	NN	O	O
-the	NN	O	O
-reliability	NN	O	B-Process
-computation	NN	O	I-Process
-and	NN	O	O
-also	NN	O	O
-for	NN	O	O
-reliability	NN	O	B-Process
--	NN	O	I-Process
-centered	NN	O	I-Process
-maintenance	NN	O	I-Process
-system	NN	O	I-Process
-.	NN	O	O
-
-Component	NN	O	B-Process
-reliability	NN	O	I-Process
-parameters	NN	O	I-Process
-are	NN	O	O
-possible	NN	O	O
-to	NN	O	O
-retrieve	NN	O	B-Process
-only	NN	O	O
-with	NN	O	O
-accurate	NN	O	B-Material
-databases	NN	O	I-Material
-of	NN	O	I-Material
-distribution	NN	O	I-Material
-companies	NN	O	I-Material
-.	NN	O	O
-
-Such	NN	O	O
-a	NN	O	O
-database	NN	O	B-Material
-includes	NN	O	O
-records	NN	O	B-Process
-of	NN	O	I-Process
-outages	NN	O	I-Process
-and	NN	O	I-Process
-interruptions	NN	O	I-Process
-in	NN	O	O
-power	NN	O	B-Material
-networks	NN	O	I-Material
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-impossible	NN	O	O
-to	NN	O	O
-retrieve	NN	O	B-Process
-reliability	NN	O	I-Process
-parameters	NN	O	I-Process
-from	NN	O	O
-this	NN	O	O
-data	NN	O	B-Material
-in	NN	O	O
-a	NN	O	O
-direct	NN	O	O
-way	NN	O	O
-because	NN	O	O
-of	NN	O	O
-heterogeneity	NN	O	B-Process
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-introduce	NN	O	B-Task
-some	NN	O	I-Task
-results	NN	O	I-Task
-of	NN	O	I-Task
-databases	NN	O	I-Task
-calculations	NN	O	I-Task
-.	NN	O	O
-
-We	NN	O	O
-apply	NN	O	O
-this	NN	O	O
-framework	NN	O	B-Process
-for	NN	O	I-Process
-the	NN	O	I-Process
-retrieving	NN	O	I-Process
-of	NN	O	I-Process
-parameters	NN	O	I-Process
-from	NN	O	I-Process
-outage	NN	O	I-Process
-data	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-Czech	NN	O	O
-and	NN	O	O
-Slovak	NN	O	O
-republics	NN	O	O
-.	NN	O	O
-
-There	NN	O	O
-are	NN	O	O
-also	NN	O	O
-actual	NN	O	O
-results	NN	O	O
-.	NN	O	O
+The	0	3	O
+paper	4	9	O
+deals	10	15	O
+with	16	20	O
+the	21	24	O
+computation	25	36	B-Task
+of	37	39	I-Task
+distribution	40	52	I-Task
+network	53	60	I-Task
+components	61	71	I-Task
+reliability	72	83	I-Task
+parameters	84	94	I-Task
+.	94	95	O
+
+Knowledge	96	105	O
+of	106	108	O
+the	109	112	O
+component	113	122	B-Process
+reliability	123	134	I-Process
+parameters	135	145	I-Process
+in	146	148	O
+power	149	154	B-Material
+networks	155	163	I-Material
+is	164	166	O
+necessary	167	176	O
+for	177	180	O
+the	181	184	O
+reliability	185	196	B-Process
+computation	197	208	I-Process
+and	209	212	O
+also	213	217	O
+for	218	221	O
+reliability	222	233	B-Process
+-	233	234	I-Process
+centered	234	242	I-Process
+maintenance	243	254	I-Process
+system	255	261	I-Process
+.	261	262	O
+
+Component	263	272	B-Process
+reliability	273	284	I-Process
+parameters	285	295	I-Process
+are	296	299	O
+possible	300	308	O
+to	309	311	O
+retrieve	312	320	B-Process
+only	321	325	O
+with	326	330	O
+accurate	331	339	B-Material
+databases	340	349	I-Material
+of	350	352	I-Material
+distribution	353	365	I-Material
+companies	366	375	I-Material
+.	375	376	O
+
+Such	377	381	O
+a	382	383	O
+database	384	392	B-Material
+includes	393	401	O
+records	402	409	B-Process
+of	410	412	I-Process
+outages	413	420	I-Process
+and	421	424	I-Process
+interruptions	425	438	I-Process
+in	439	441	O
+power	442	447	B-Material
+networks	448	456	I-Material
+.	456	457	O
+
+It	458	460	O
+is	461	463	O
+impossible	464	474	O
+to	475	477	O
+retrieve	478	486	B-Process
+reliability	487	498	I-Process
+parameters	499	509	I-Process
+from	510	514	O
+this	515	519	O
+data	520	524	B-Material
+in	525	527	O
+a	528	529	O
+direct	530	536	O
+way	537	540	O
+because	541	548	O
+of	549	551	O
+heterogeneity	552	565	B-Process
+.	565	566	O
+
+In	567	569	O
+this	570	574	O
+paper	575	580	O
+,	580	581	O
+we	582	584	O
+introduce	585	594	B-Task
+some	595	599	I-Task
+results	600	607	I-Task
+of	608	610	I-Task
+databases	611	620	I-Task
+calculations	621	633	I-Task
+.	633	634	O
+
+We	635	637	O
+apply	638	643	O
+this	644	648	O
+framework	649	658	B-Process
+for	659	662	I-Process
+the	663	666	I-Process
+retrieving	667	677	I-Process
+of	678	680	I-Process
+parameters	681	691	I-Process
+from	692	696	I-Process
+outage	697	703	I-Process
+data	704	708	I-Process
+in	709	711	O
+the	712	715	O
+Czech	716	721	O
+and	722	725	O
+Slovak	726	732	O
+republics	733	742	O
+.	742	743	O
+
+There	744	749	O
+are	750	753	O
+also	754	758	O
+actual	759	765	O
+results	766	773	O
+.	773	774	O
 
 
 -DOCSTART- (S2212671612001291)
 
-In	NN	O	O
-the	NN	O	O
-paper	NN	O	O
-we	NN	O	O
-propose	NN	O	O
-a	NN	O	O
-conceptual	NN	O	B-Task
-methodology	NN	O	I-Task
-to	NN	O	I-Task
-control	NN	O	I-Task
-liquid	NN	O	I-Task
-state	NN	O	I-Task
-of	NN	O	O
-Al	NN	O	B-Material
--	NN	O	I-Material
-Si	NN	O	I-Material
-alloys	NN	O	I-Material
-in	NN	O	O
-melting	NN	O	B-Process
-and	NN	O	I-Process
-holding	NN	O	I-Process
-sub	NN	O	I-Process
--	NN	O	I-Process
-process	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-pressure	NN	O	B-Process
-die	NN	O	I-Process
--	NN	O	I-Process
-casting	NN	O	I-Process
-process	NN	O	I-Process
-.	NN	O	O
-
-Given	NN	O	O
-that	NN	O	O
-,	NN	O	O
-we	NN	O	O
-determine	NN	O	B-Task
-the	NN	O	I-Task
-characteristic	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-holding	NN	O	I-Task
-furnace	NN	O	I-Task
-based	NN	O	O
-on	NN	O	O
-weight	NN	O	B-Material
-percent	NN	O	I-Material
-(	NN	O	O
-wt	NN	O	B-Material
-%	NN	O	I-Material
-)	NN	O	O
-of	NN	O	O
-the	NN	O	O
-certain	NN	O	O
-alloys	NN	O	B-Material
-and	NN	O	O
-their	NN	O	O
-elements	NN	O	O
-.	NN	O	O
-
-Subsequently	NN	O	O
-the	NN	O	O
-paper	NN	O	O
-introduces	NN	O	O
-an	NN	O	O
-application	NN	O	B-Task
-of	NN	O	I-Task
-methodology	NN	O	I-Task
-of	NN	O	I-Task
-research	NN	O	I-Task
-for	NN	O	O
-establishing	NN	O	O
-characteristic	NN	O	B-Task
-of	NN	O	I-Task
-holding	NN	O	I-Task
-furnace	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-application	NN	O	O
-was	NN	O	O
-realized	NN	O	O
-under	NN	O	O
-real	NN	O	B-Process
-conditions	NN	O	I-Process
-in	NN	O	O
-foundry	NN	O	B-Material
-that	NN	O	O
-uses	NN	O	O
-horizontal	NN	O	B-Material
-cold	NN	O	I-Material
-chamber	NN	O	I-Material
-machine	NN	O	I-Material
-CLH	NN	O	B-Material
-400.1	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-chemical	NN	O	B-Process
-analysis	NN	O	I-Process
-was	NN	O	O
-performed	NN	O	O
-by	NN	O	O
-spectrophotometer	NN	O	B-Material
-SPECTROLAB	NN	O	B-Material
-JR.CCD	NN	O	I-Material
-2000	NN	O	I-Material
-.	NN	O	O
-
-Finally	NN	O	O
-the	NN	O	O
-last	NN	O	O
-part	NN	O	O
-of	NN	O	O
-the	NN	O	O
-paper	NN	O	O
-lists	NN	O	O
-overall	NN	O	O
-findings	NN	O	O
-with	NN	O	O
-possible	NN	O	O
-future	NN	O	O
-direction	NN	O	O
-to	NN	O	O
-extend	NN	O	B-Task
-this	NN	O	I-Task
-methodology	NN	O	I-Task
-in	NN	O	I-Task
-practice	NN	O	I-Task
-.	NN	O	O
+In	0	2	O
+the	3	6	O
+paper	7	12	O
+we	13	15	O
+propose	16	23	O
+a	24	25	O
+conceptual	26	36	B-Task
+methodology	37	48	I-Task
+to	49	51	I-Task
+control	52	59	I-Task
+liquid	60	66	I-Task
+state	67	72	I-Task
+of	73	75	O
+Al	76	78	B-Material
+-	78	79	I-Material
+Si	79	81	I-Material
+alloys	82	88	I-Material
+in	89	91	O
+melting	92	99	B-Process
+and	100	103	I-Process
+holding	104	111	I-Process
+sub	112	115	I-Process
+-	115	116	I-Process
+process	116	123	I-Process
+of	124	126	O
+the	127	130	O
+pressure	131	139	B-Process
+die	140	143	I-Process
+-	143	144	I-Process
+casting	144	151	I-Process
+process	152	159	I-Process
+.	159	160	O
+
+Given	161	166	O
+that	167	171	O
+,	171	172	O
+we	173	175	O
+determine	176	185	B-Task
+the	186	189	I-Task
+characteristic	190	204	I-Task
+of	205	207	I-Task
+the	208	211	I-Task
+holding	212	219	I-Task
+furnace	220	227	I-Task
+based	228	233	O
+on	234	236	O
+weight	237	243	B-Material
+percent	244	251	I-Material
+(	252	253	O
+wt	253	255	B-Material
+%	256	257	I-Material
+)	257	258	O
+of	259	261	O
+the	262	265	O
+certain	266	273	O
+alloys	274	280	B-Material
+and	281	284	O
+their	285	290	O
+elements	291	299	O
+.	299	300	O
+
+Subsequently	301	313	O
+the	314	317	O
+paper	318	323	O
+introduces	324	334	O
+an	335	337	O
+application	338	349	B-Task
+of	350	352	I-Task
+methodology	353	364	I-Task
+of	365	367	I-Task
+research	368	376	I-Task
+for	377	380	O
+establishing	381	393	O
+characteristic	394	408	B-Task
+of	409	411	I-Task
+holding	412	419	I-Task
+furnace	420	427	I-Task
+.	427	428	O
+
+The	429	432	O
+application	433	444	O
+was	445	448	O
+realized	449	457	O
+under	458	463	O
+real	464	468	B-Process
+conditions	469	479	I-Process
+in	480	482	O
+foundry	483	490	B-Material
+that	491	495	O
+uses	496	500	O
+horizontal	501	511	B-Material
+cold	512	516	I-Material
+chamber	517	524	I-Material
+machine	525	532	I-Material
+CLH	533	536	B-Material
+400.1	537	542	I-Material
+.	542	543	O
+
+The	544	547	O
+chemical	548	556	B-Process
+analysis	557	565	I-Process
+was	566	569	O
+performed	570	579	O
+by	580	582	O
+spectrophotometer	583	600	B-Material
+SPECTROLAB	601	611	B-Material
+JR.CCD	612	618	I-Material
+2000	619	623	I-Material
+.	623	624	O
+
+Finally	625	632	O
+the	633	636	O
+last	637	641	O
+part	642	646	O
+of	647	649	O
+the	650	653	O
+paper	654	659	O
+lists	660	665	O
+overall	666	673	O
+findings	674	682	O
+with	683	687	O
+possible	688	696	O
+future	697	703	O
+direction	704	713	O
+to	714	716	O
+extend	717	723	B-Task
+this	724	728	I-Task
+methodology	729	740	I-Task
+in	741	743	I-Task
+practice	744	752	I-Task
+.	752	753	O
 
 
 -DOCSTART- (S2212671612001497)
 
-Our	NN	O	O
-country	NN	O	O
-is	NN	O	O
-rich	NN	O	O
-of	NN	O	O
-line	NN	O	B-Process
-galloping	NN	O	I-Process
-,	NN	O	O
-there	NN	O	O
-are	NN	O	O
-many	NN	O	O
-important	NN	O	O
-galloping	NN	O	B-Material
-data	NN	O	I-Material
-failed	NN	O	O
-to	NN	O	O
-collect	NN	O	B-Task
-systematically	NN	O	I-Task
-and	NN	O	I-Task
-completely	NN	O	I-Task
-because	NN	O	O
-there	NN	O	O
-is	NN	O	O
-no	NN	O	O
-unified	NN	O	B-Process
-management	NN	O	I-Process
-platform	NN	O	I-Process
-.	NN	O	O
-
-After	NN	O	O
-the	NN	O	O
-galloping	NN	O	B-Process
-occurrence	NN	O	I-Process
-in	NN	O	O
-2009–2010	NN	O	O
-'s	NN	O	O
-winter	NN	O	O
-the	NN	O	O
-department	NN	O	O
-of	NN	O	O
-productive	NN	O	O
-of	NN	O	O
-the	NN	O	O
-State	NN	O	O
-Grid	NN	O	O
-Corporation	NN	O	O
-organized	NN	O	O
-a	NN	O	O
-lot	NN	O	O
-of	NN	O	O
-human	NN	O	O
-to	NN	O	O
-carry	NN	O	B-Process
-out	NN	O	I-Process
-the	NN	O	I-Process
-research	NN	O	I-Process
-of	NN	O	I-Process
-galloping	NN	O	I-Process
-information	NN	O	I-Process
-,	NN	O	I-Process
-this	NN	O	O
-work	NN	O	O
-is	NN	O	O
-time	NN	O	O
-–	NN	O	O
-consuming	NN	O	O
-and	NN	O	O
-inefficient	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-State	NN	O	O
-Grid	NN	O	O
-Corporation	NN	O	O
-has	NN	O	O
-used	NN	O	O
-the	NN	O	O
-production	NN	O	B-Material
-management	NN	O	I-Material
-system	NN	O	I-Material
-(	NN	O	O
-PMS	NN	O	B-Material
-)	NN	O	O
-which	NN	O	O
-is	NN	O	O
-a	NN	O	O
-powerful	NN	O	O
-and	NN	O	O
-easy	NN	O	O
-to	NN	O	O
-use	NN	O	O
-.	NN	O	O
-
-With	NN	O	O
-the	NN	O	O
-help	NN	O	O
-of	NN	O	O
-the	NN	O	O
-system	NN	O	O
-we	NN	O	O
-can	NN	O	O
-create	NN	O	B-Task
-a	NN	O	I-Task
-galloping	NN	O	I-Task
-database	NN	O	I-Task
-which	NN	O	O
-can	NN	O	O
-save	NN	O	B-Process
-resources	NN	O	I-Process
-and	NN	O	I-Process
-storage	NN	O	I-Process
-the	NN	O	I-Process
-galloping	NN	O	I-Process
-data	NN	O	I-Process
-.	NN	O	O
-
-To	NN	O	O
-build	NN	O	O
-and	NN	O	O
-put	NN	O	O
-it	NN	O	O
-into	NN	O	O
-application	NN	O	B-Process
-of	NN	O	I-Process
-database	NN	O	I-Process
-can	NN	O	O
-provide	NN	O	O
-technical	NN	O	B-Process
-support	NN	O	I-Process
-for	NN	O	O
-line	NN	O	B-Process
-galloping	NN	O	I-Process
-prevention	NN	O	I-Process
-and	NN	O	O
-galloping	NN	O	B-Process
-research	NN	O	I-Process
-work	NN	O	I-Process
-.	NN	O	O
+Our	0	3	O
+country	4	11	O
+is	12	14	O
+rich	15	19	O
+of	20	22	O
+line	23	27	B-Process
+galloping	28	37	I-Process
+,	37	38	O
+there	39	44	O
+are	45	48	O
+many	49	53	O
+important	54	63	O
+galloping	64	73	B-Material
+data	74	78	I-Material
+failed	79	85	O
+to	86	88	O
+collect	89	96	B-Task
+systematically	97	111	I-Task
+and	112	115	I-Task
+completely	116	126	I-Task
+because	127	134	O
+there	135	140	O
+is	141	143	O
+no	144	146	O
+unified	147	154	B-Process
+management	155	165	I-Process
+platform	166	174	I-Process
+.	174	175	O
+
+After	176	181	O
+the	182	185	O
+galloping	186	195	B-Process
+occurrence	196	206	I-Process
+in	207	209	O
+2009–2010	210	219	O
+'s	219	221	O
+winter	222	228	O
+the	229	232	O
+department	233	243	O
+of	244	246	O
+productive	247	257	O
+of	258	260	O
+the	261	264	O
+State	265	270	O
+Grid	271	275	O
+Corporation	276	287	O
+organized	288	297	O
+a	298	299	O
+lot	300	303	O
+of	304	306	O
+human	307	312	O
+to	313	315	O
+carry	316	321	B-Process
+out	322	325	I-Process
+the	326	329	I-Process
+research	330	338	I-Process
+of	339	341	I-Process
+galloping	342	351	I-Process
+information	352	363	I-Process
+,	363	364	I-Process
+this	365	369	O
+work	370	374	O
+is	375	377	O
+time	378	382	O
+–	382	383	O
+consuming	383	392	O
+and	393	396	O
+inefficient	397	408	O
+.	408	409	O
+
+The	410	413	O
+State	414	419	O
+Grid	420	424	O
+Corporation	425	436	O
+has	437	440	O
+used	441	445	O
+the	446	449	O
+production	450	460	B-Material
+management	461	471	I-Material
+system	472	478	I-Material
+(	479	480	O
+PMS	480	483	B-Material
+)	483	484	O
+which	485	490	O
+is	491	493	O
+a	494	495	O
+powerful	496	504	O
+and	505	508	O
+easy	509	513	O
+to	514	516	O
+use	517	520	O
+.	520	521	O
+
+With	522	526	O
+the	527	530	O
+help	531	535	O
+of	536	538	O
+the	539	542	O
+system	543	549	O
+we	550	552	O
+can	553	556	O
+create	557	563	B-Task
+a	564	565	I-Task
+galloping	566	575	I-Task
+database	576	584	I-Task
+which	585	590	O
+can	591	594	O
+save	595	599	B-Process
+resources	600	609	I-Process
+and	610	613	I-Process
+storage	614	621	I-Process
+the	622	625	I-Process
+galloping	626	635	I-Process
+data	636	640	I-Process
+.	640	641	O
+
+To	642	644	O
+build	645	650	O
+and	651	654	O
+put	655	658	O
+it	659	661	O
+into	662	666	O
+application	667	678	B-Process
+of	679	681	I-Process
+database	682	690	I-Process
+can	691	694	O
+provide	695	702	O
+technical	703	712	B-Process
+support	713	720	I-Process
+for	721	724	O
+line	725	729	B-Process
+galloping	730	739	I-Process
+prevention	740	750	I-Process
+and	751	754	O
+galloping	755	764	B-Process
+research	765	773	I-Process
+work	774	778	I-Process
+.	778	779	O
 
 
 -DOCSTART- (S2212671612001618)
 
-This	NN	O	O
-paper	NN	O	O
-presents	NN	O	O
-a	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-fragile	NN	O	I-Process
-controller	NN	O	I-Process
-design	NN	O	I-Process
-method	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-system	NN	O	B-Process
-quadratic	NN	O	I-Process
-performance	NN	O	I-Process
-optimization	NN	O	I-Process
-.	NN	O	O
-
-For	NN	O	O
-the	NN	O	O
-additive	NN	O	B-Process
-controller	NN	O	I-Process
-gain	NN	O	I-Process
-variations	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-necessary	NN	O	O
-and	NN	O	O
-sufficient	NN	O	O
-conditions	NN	O	O
-for	NN	O	O
-the	NN	O	O
-existence	NN	O	O
-of	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-fragile	NN	O	I-Process
-state	NN	O	I-Process
-feedback	NN	O	I-Process
-controller	NN	O	I-Process
-are	NN	O	O
-given	NN	O	O
-and	NN	O	O
-transformed	NN	O	B-Process
-to	NN	O	O
-the	NN	O	O
-LMI	NN	O	B-Task
-problems	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-simplifies	NN	O	B-Process
-the	NN	O	I-Process
-solutions	NN	O	I-Process
-to	NN	O	O
-obtain	NN	O	O
-non	NN	O	B-Process
--	NN	O	I-Process
-fragile	NN	O	I-Process
-state	NN	O	I-Process
-feedback	NN	O	I-Process
-controllers	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-flight	NN	O	B-Process
-control	NN	O	I-Process
-simulation	NN	O	I-Process
-results	NN	O	O
-prove	NN	O	O
-the	NN	O	O
-reliability	NN	O	O
-and	NN	O	O
-validity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-method	NN	O	O
-.	NN	O	O
+This	0	4	O
+paper	5	10	O
+presents	11	19	O
+a	20	21	O
+non	22	25	B-Process
+-	25	26	I-Process
+fragile	26	33	I-Process
+controller	34	44	I-Process
+design	45	51	I-Process
+method	52	58	I-Process
+based	59	64	O
+on	65	67	O
+system	68	74	B-Process
+quadratic	75	84	I-Process
+performance	85	96	I-Process
+optimization	97	109	I-Process
+.	109	110	O
+
+For	111	114	O
+the	115	118	O
+additive	119	127	B-Process
+controller	128	138	I-Process
+gain	139	143	I-Process
+variations	144	154	I-Process
+,	154	155	O
+the	156	159	O
+necessary	160	169	O
+and	170	173	O
+sufficient	174	184	O
+conditions	185	195	O
+for	196	199	O
+the	200	203	O
+existence	204	213	O
+of	214	216	O
+non	217	220	B-Process
+-	220	221	I-Process
+fragile	221	228	I-Process
+state	229	234	I-Process
+feedback	235	243	I-Process
+controller	244	254	I-Process
+are	255	258	O
+given	259	264	O
+and	265	268	O
+transformed	269	280	B-Process
+to	281	283	O
+the	284	287	O
+LMI	288	291	B-Task
+problems	292	300	I-Task
+,	300	301	O
+which	302	307	O
+simplifies	308	318	B-Process
+the	319	322	I-Process
+solutions	323	332	I-Process
+to	333	335	O
+obtain	336	342	O
+non	343	346	B-Process
+-	346	347	I-Process
+fragile	347	354	I-Process
+state	355	360	I-Process
+feedback	361	369	I-Process
+controllers	370	381	I-Process
+.	381	382	O
+
+The	383	386	O
+flight	387	393	B-Process
+control	394	401	I-Process
+simulation	402	412	I-Process
+results	413	420	O
+prove	421	426	O
+the	427	430	O
+reliability	431	442	O
+and	443	446	O
+validity	447	455	O
+of	456	458	O
+the	459	462	O
+method	463	469	O
+.	469	470	O
 
 
 -DOCSTART- (S221267161200162X)
 
-A	NN	O	O
-fuzzy	NN	O	B-Task
--	NN	O	I-Task
-Hammerstein	NN	O	I-Task
-model	NN	O	I-Task
-predictive	NN	O	I-Task
-control	NN	O	I-Task
-method	NN	O	I-Task
-is	NN	O	O
-proposed	NN	O	O
-for	NN	O	O
-a	NN	O	O
-continuous	NN	O	B-Material
-stirred	NN	O	I-Material
--	NN	O	I-Material
-tank	NN	O	I-Material
-reactor	NN	O	I-Material
-(	NN	O	O
-CSTR	NN	O	B-Material
-)	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-T	NN	O	B-Process
--	NN	O	I-Process
-S	NN	O	I-Process
-fuzzy	NN	O	I-Process
-model	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-approximate	NN	O	O
-the	NN	O	O
-static	NN	O	B-Task
-nonlinear	NN	O	I-Task
-characteristics	NN	O	I-Task
-of	NN	O	I-Task
-Hammerstein	NN	O	I-Task
-model	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-a	NN	O	O
-linear	NN	O	B-Process
-autoregressive	NN	O	I-Process
-model	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-solve	NN	O	O
-the	NN	O	O
-results	NN	O	O
-of	NN	O	O
-optimal	NN	O	B-Process
-control	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-designed	NN	O	O
-nonlinear	NN	O	B-Process
-predictive	NN	O	I-Process
-controller	NN	O	I-Process
-using	NN	O	O
-Hammerstein	NN	O	B-Process
-model	NN	O	I-Process
-make	NN	O	O
-good	NN	O	O
-use	NN	O	O
-of	NN	O	O
-the	NN	O	O
-ability	NN	O	O
-of	NN	O	O
-universal	NN	O	B-Process
-approach	NN	O	I-Process
-nonlinear	NN	O	I-Process
-of	NN	O	O
-T	NN	O	B-Process
--	NN	O	I-Process
-S	NN	O	I-Process
-model	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-divide	NN	O	O
-the	NN	O	O
-question	NN	O	O
-of	NN	O	O
-nonlinear	NN	O	B-Process
-predictive	NN	O	I-Process
-control	NN	O	I-Process
-into	NN	O	O
-the	NN	O	O
-nonlinear	NN	O	B-Process
-model	NN	O	I-Process
-recongnization	NN	O	I-Process
-and	NN	O	O
-the	NN	O	O
-question	NN	O	O
-of	NN	O	O
-linear	NN	O	B-Process
-predictive	NN	O	I-Process
-control	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-application	NN	O	O
-results	NN	O	O
-of	NN	O	O
-CSTR	NN	O	B-Process
-process	NN	O	I-Process
-show	NN	O	O
-the	NN	O	O
-proposed	NN	O	O
-control	NN	O	B-Process
-method	NN	O	I-Process
-has	NN	O	O
-good	NN	O	O
-control	NN	O	O
-performance	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-PID	NN	O	B-Material
-controller	NN	O	I-Material
-.	NN	O	O
+A	0	1	O
+fuzzy	2	7	B-Task
+-	7	8	I-Task
+Hammerstein	8	19	I-Task
+model	20	25	I-Task
+predictive	26	36	I-Task
+control	37	44	I-Task
+method	45	51	I-Task
+is	52	54	O
+proposed	55	63	O
+for	64	67	O
+a	68	69	O
+continuous	70	80	B-Material
+stirred	81	88	I-Material
+-	88	89	I-Material
+tank	89	93	I-Material
+reactor	94	101	I-Material
+(	102	103	O
+CSTR	103	107	B-Material
+)	107	108	O
+.	108	109	O
+
+In	110	112	O
+this	113	117	O
+paper	118	123	O
+T	124	125	B-Process
+-	125	126	I-Process
+S	126	127	I-Process
+fuzzy	128	133	I-Process
+model	134	139	I-Process
+is	140	142	O
+used	143	147	O
+to	148	150	O
+approximate	151	162	O
+the	163	166	O
+static	167	173	B-Task
+nonlinear	174	183	I-Task
+characteristics	184	199	I-Task
+of	200	202	I-Task
+Hammerstein	203	214	I-Task
+model	215	220	I-Task
+,	220	221	O
+and	222	225	O
+a	226	227	O
+linear	228	234	B-Process
+autoregressive	235	249	I-Process
+model	250	255	I-Process
+is	256	258	O
+used	259	263	O
+to	264	266	O
+solve	267	272	O
+the	273	276	O
+results	277	284	O
+of	285	287	O
+optimal	288	295	B-Process
+control	296	303	I-Process
+.	303	304	O
+
+The	305	308	O
+designed	309	317	O
+nonlinear	318	327	B-Process
+predictive	328	338	I-Process
+controller	339	349	I-Process
+using	350	355	O
+Hammerstein	356	367	B-Process
+model	368	373	I-Process
+make	374	378	O
+good	379	383	O
+use	384	387	O
+of	388	390	O
+the	391	394	O
+ability	395	402	O
+of	403	405	O
+universal	406	415	B-Process
+approach	416	424	I-Process
+nonlinear	425	434	I-Process
+of	435	437	O
+T	438	439	B-Process
+-	439	440	I-Process
+S	440	441	I-Process
+model	442	447	I-Process
+,	447	448	O
+and	449	452	O
+divide	453	459	O
+the	460	463	O
+question	464	472	O
+of	473	475	O
+nonlinear	476	485	B-Process
+predictive	486	496	I-Process
+control	497	504	I-Process
+into	505	509	O
+the	510	513	O
+nonlinear	514	523	B-Process
+model	524	529	I-Process
+recongnization	530	544	I-Process
+and	545	548	O
+the	549	552	O
+question	553	561	O
+of	562	564	O
+linear	565	571	B-Process
+predictive	572	582	I-Process
+control	583	590	I-Process
+.	590	591	O
+
+The	592	595	O
+application	596	607	O
+results	608	615	O
+of	616	618	O
+CSTR	619	623	B-Process
+process	624	631	I-Process
+show	632	636	O
+the	637	640	O
+proposed	641	649	O
+control	650	657	B-Process
+method	658	664	I-Process
+has	665	668	O
+good	669	673	O
+control	674	681	O
+performance	682	693	O
+compared	694	702	O
+to	703	705	O
+PID	706	709	B-Material
+controller	710	720	I-Material
+.	720	721	O
 
 
 -DOCSTART- (S2212671612001692)
 
-The	NN	O	O
-key	NN	O	O
-point	NN	O	O
-of	NN	O	O
-robot	NN	O	B-Task
-dynamics	NN	O	I-Task
-is	NN	O	O
-optimal	NN	O	O
-design	NN	O	O
-and	NN	O	O
-control	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-efficiency	NN	O	B-Task
-of	NN	O	I-Task
-robot	NN	O	I-Task
-dynamics	NN	O	I-Task
-has	NN	O	O
-been	NN	O	O
-the	NN	O	O
-goal	NN	O	O
-of	NN	O	O
-researchers	NN	O	O
-in	NN	O	O
-recent	NN	O	O
-years	NN	O	O
-.	NN	O	O
-
-Screws	NN	O	B-Material
-are	NN	O	O
-used	NN	O	O
-to	NN	O	O
-describe	NN	O	B-Task
-dynamic	NN	O	I-Task
-problems	NN	O	I-Task
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-and	NN	O	O
-an	NN	O	O
-O(N	NN	O	B-Process
-)	NN	O	I-Process
-recursive	NN	O	I-Process
-robot	NN	O	I-Process
-forward	NN	O	I-Process
-dynamic	NN	O	I-Process
-algorithm	NN	O	I-Process
-is	NN	O	O
-given	NN	O	O
-on	NN	O	O
-this	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-can	NN	O	O
-be	NN	O	O
-easily	NN	O	O
-extended	NN	O	O
-to	NN	O	O
-tree	NN	O	B-Process
-topology	NN	O	I-Process
-,	NN	O	I-Process
-closed	NN	O	I-Process
-loop	NN	O	I-Process
-and	NN	O	I-Process
-spatial	NN	O	I-Process
-robot	NN	O	I-Process
-systems	NN	O	I-Process
-.	NN	O	O
-
-And	NN	O	O
-three	NN	O	O
-classic	NN	O	O
-methods	NN	O	O
-of	NN	O	O
-robot	NN	O	B-Task
-dynamics	NN	O	I-Task
-are	NN	O	O
-compared	NN	O	O
-for	NN	O	O
-easy	NN	O	O
-of	NN	O	O
-use	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-dynamics	NN	O	B-Process
-described	NN	O	I-Process
-with	NN	O	I-Process
-screws	NN	O	I-Process
-are	NN	O	O
-helpful	NN	O	O
-in	NN	O	O
-high	NN	O	B-Process
-efficient	NN	O	I-Process
-dynamics	NN	O	I-Process
-modelling	NN	O	I-Process
-.	NN	O	I-Process
-
-The	NN	O	O
-dynamical	NN	O	B-Process
-expressions	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-screws	NN	O	B-Material
-are	NN	O	O
-concise	NN	O	O
-and	NN	O	O
-clear	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-'s	NN	O	O
-efficiency	NN	O	O
-is	NN	O	O
-high	NN	O	O
-of	NN	O	O
-O(N	NN	O	O
-)	NN	O	O
-and	NN	O	O
-is	NN	O	O
-linear	NN	O	B-Process
-to	NN	O	I-Process
-the	NN	O	I-Process
-degree	NN	O	I-Process
-of	NN	O	I-Process
-freedom	NN	O	I-Process
-.	NN	O	O
-
-With	NN	O	O
-the	NN	O	O
-improvement	NN	O	B-Task
-of	NN	O	I-Task
-computation	NN	O	I-Task
-efficiency	NN	O	I-Task
-,	NN	O	O
-it	NN	O	O
-will	NN	O	O
-make	NN	O	O
-the	NN	O	O
-real	NN	O	B-Process
--	NN	O	I-Process
-time	NN	O	I-Process
-dynamics	NN	O	I-Process
-control	NN	O	I-Process
-become	NN	O	O
-possible	NN	O	O
-.	NN	O	O
+The	0	3	O
+key	4	7	O
+point	8	13	O
+of	14	16	O
+robot	17	22	B-Task
+dynamics	23	31	I-Task
+is	32	34	O
+optimal	35	42	O
+design	43	49	O
+and	50	53	O
+control	54	61	O
+.	61	62	O
+
+The	63	66	O
+efficiency	67	77	B-Task
+of	78	80	I-Task
+robot	81	86	I-Task
+dynamics	87	95	I-Task
+has	96	99	O
+been	100	104	O
+the	105	108	O
+goal	109	113	O
+of	114	116	O
+researchers	117	128	O
+in	129	131	O
+recent	132	138	O
+years	139	144	O
+.	144	145	O
+
+Screws	146	152	B-Material
+are	153	156	O
+used	157	161	O
+to	162	164	O
+describe	165	173	B-Task
+dynamic	174	181	I-Task
+problems	182	190	I-Task
+in	191	193	O
+this	194	198	O
+paper	199	204	O
+,	204	205	O
+and	206	209	O
+an	210	212	O
+O(N	213	216	B-Process
+)	216	217	I-Process
+recursive	218	227	I-Process
+robot	228	233	I-Process
+forward	234	241	I-Process
+dynamic	242	249	I-Process
+algorithm	250	259	I-Process
+is	260	262	O
+given	263	268	O
+on	269	271	O
+this	272	276	O
+.	276	277	O
+
+It	278	280	O
+can	281	284	O
+be	285	287	O
+easily	288	294	O
+extended	295	303	O
+to	304	306	O
+tree	307	311	B-Process
+topology	312	320	I-Process
+,	320	321	I-Process
+closed	322	328	I-Process
+loop	329	333	I-Process
+and	334	337	I-Process
+spatial	338	345	I-Process
+robot	346	351	I-Process
+systems	352	359	I-Process
+.	359	360	O
+
+And	361	364	O
+three	365	370	O
+classic	371	378	O
+methods	379	386	O
+of	387	389	O
+robot	390	395	B-Task
+dynamics	396	404	I-Task
+are	405	408	O
+compared	409	417	O
+for	418	421	O
+easy	422	426	O
+of	427	429	O
+use	430	433	O
+.	433	434	O
+
+The	435	438	O
+results	439	446	O
+show	447	451	O
+that	452	456	O
+dynamics	457	465	B-Process
+described	466	475	I-Process
+with	476	480	I-Process
+screws	481	487	I-Process
+are	488	491	O
+helpful	492	499	O
+in	500	502	O
+high	503	507	B-Process
+efficient	508	517	I-Process
+dynamics	518	526	I-Process
+modelling	527	536	I-Process
+.	536	537	I-Process
+
+The	538	541	O
+dynamical	542	551	B-Process
+expressions	552	563	I-Process
+based	564	569	O
+on	570	572	O
+screws	573	579	B-Material
+are	580	583	O
+concise	584	591	O
+and	592	595	O
+clear	596	601	O
+.	601	602	O
+
+It	603	605	O
+'s	605	607	O
+efficiency	608	618	O
+is	619	621	O
+high	622	626	O
+of	627	629	O
+O(N	630	633	O
+)	633	634	O
+and	635	638	O
+is	639	641	O
+linear	642	648	B-Process
+to	649	651	I-Process
+the	652	655	I-Process
+degree	656	662	I-Process
+of	663	665	I-Process
+freedom	666	673	I-Process
+.	673	674	O
+
+With	675	679	O
+the	680	683	O
+improvement	684	695	B-Task
+of	696	698	I-Task
+computation	699	710	I-Task
+efficiency	711	721	I-Task
+,	721	722	O
+it	723	725	O
+will	726	730	O
+make	731	735	O
+the	736	739	O
+real	740	744	B-Process
+-	744	745	I-Process
+time	745	749	I-Process
+dynamics	750	758	I-Process
+control	759	766	I-Process
+become	767	773	O
+possible	774	782	O
+.	782	783	O
 
 
 -DOCSTART- (S2212671612001709)
 
-An	NN	O	O
-algorithm	NN	O	B-Task
-of	NN	O	I-Task
-multi	NN	O	I-Task
--	NN	O	I-Task
-axis	NN	O	I-Task
-NC	NN	O	I-Task
-tool	NN	O	I-Task
--	NN	O	I-Task
-path	NN	O	I-Task
-generation	NN	O	I-Task
-for	NN	O	I-Task
-subdivision	NN	O	I-Task
-surfaces	NN	O	I-Task
-is	NN	O	O
-proposed	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-algorithm	NN	O	B-Process
-includes	NN	O	O
-two	NN	O	O
-steps	NN	O	O
-:	NN	O	O
-model	NN	O	B-Process
-building	NN	O	I-Process
-and	NN	O	O
-tool	NN	O	B-Process
-path	NN	O	I-Process
-generation	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-section	NN	O	O
-of	NN	O	O
-model	NN	O	B-Process
-building	NN	O	I-Process
-,	NN	O	O
-in	NN	O	O
-order	NN	O	O
-to	NN	O	O
-obtain	NN	O	B-Task
-the	NN	O	I-Task
-deformed	NN	O	I-Task
-surface	NN	O	I-Task
-,	NN	O	O
-the	NN	O	O
-deformation	NN	O	B-Process
-vector	NN	O	I-Process
-is	NN	O	I-Process
-computed	NN	O	I-Process
-which	NN	O	O
-is	NN	O	O
-associated	NN	O	O
-with	NN	O	O
-the	NN	O	O
-curvature	NN	O	B-Process
-and	NN	O	I-Process
-the	NN	O	I-Process
-slope	NN	O	I-Process
-of	NN	O	I-Process
-cutter	NN	O	I-Process
-location	NN	O	I-Process
-surface	NN	O	I-Process
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-procedure	NN	O	O
-of	NN	O	O
-tool	NN	O	B-Process
-path	NN	O	I-Process
-generation	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-slicing	NN	O	B-Process
-procedure	NN	O	I-Process
-is	NN	O	O
-adopted	NN	O	O
-to	NN	O	O
-get	NN	O	O
-the	NN	O	O
-CL	NN	O	B-Material
-points	NN	O	I-Material
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-the	NN	O	O
-inversely	NN	O	B-Process
-converted	NN	O	I-Process
-method	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-method	NN	O	O
-is	NN	O	O
-tested	NN	O	B-Task
-by	NN	O	I-Task
-some	NN	O	I-Task
-examples	NN	O	I-Task
-with	NN	O	I-Task
-actual	NN	O	I-Task
-machining	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-method	NN	O	O
-can	NN	O	O
-effectively	NN	O	O
-reduce	NN	O	O
-the	NN	O	O
-error	NN	O	O
-of	NN	O	O
-the	NN	O	O
-scallop	NN	O	B-Material
-height	NN	O	I-Material
-for	NN	O	O
-subdivision	NN	O	B-Material
-surface	NN	O	I-Material
-and	NN	O	O
-obtain	NN	O	O
-the	NN	O	O
-better	NN	O	O
-shape	NN	O	O
-and	NN	O	O
-quality	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-the	NN	O	O
-computational	NN	O	O
-complexity	NN	O	O
-and	NN	O	O
-is	NN	O	O
-scalable	NN	O	O
-and	NN	O	O
-robust	NN	O	O
-.	NN	O	O
+An	0	2	O
+algorithm	3	12	B-Task
+of	13	15	I-Task
+multi	16	21	I-Task
+-	21	22	I-Task
+axis	22	26	I-Task
+NC	27	29	I-Task
+tool	30	34	I-Task
+-	34	35	I-Task
+path	35	39	I-Task
+generation	40	50	I-Task
+for	51	54	I-Task
+subdivision	55	66	I-Task
+surfaces	67	75	I-Task
+is	76	78	O
+proposed	79	87	O
+.	87	88	O
+
+The	89	92	O
+algorithm	93	102	B-Process
+includes	103	111	O
+two	112	115	O
+steps	116	121	O
+:	121	122	O
+model	123	128	B-Process
+building	129	137	I-Process
+and	138	141	O
+tool	142	146	B-Process
+path	147	151	I-Process
+generation	152	162	I-Process
+.	162	163	O
+
+In	164	166	O
+the	167	170	O
+section	171	178	O
+of	179	181	O
+model	182	187	B-Process
+building	188	196	I-Process
+,	196	197	O
+in	198	200	O
+order	201	206	O
+to	207	209	O
+obtain	210	216	B-Task
+the	217	220	I-Task
+deformed	221	229	I-Task
+surface	230	237	I-Task
+,	237	238	O
+the	239	242	O
+deformation	243	254	B-Process
+vector	255	261	I-Process
+is	262	264	I-Process
+computed	265	273	I-Process
+which	274	279	O
+is	280	282	O
+associated	283	293	O
+with	294	298	O
+the	299	302	O
+curvature	303	312	B-Process
+and	313	316	I-Process
+the	317	320	I-Process
+slope	321	326	I-Process
+of	327	329	I-Process
+cutter	330	336	I-Process
+location	337	345	I-Process
+surface	346	353	I-Process
+.	353	354	O
+
+In	355	357	O
+the	358	361	O
+procedure	362	371	O
+of	372	374	O
+tool	375	379	B-Process
+path	380	384	I-Process
+generation	385	395	I-Process
+,	395	396	O
+the	397	400	O
+slicing	401	408	B-Process
+procedure	409	418	I-Process
+is	419	421	O
+adopted	422	429	O
+to	430	432	O
+get	433	436	O
+the	437	440	O
+CL	441	443	B-Material
+points	444	450	I-Material
+.	450	451	O
+
+In	452	454	O
+addition	455	463	O
+,	463	464	O
+the	465	468	O
+inversely	469	478	B-Process
+converted	479	488	I-Process
+method	489	495	I-Process
+is	496	498	O
+used	499	503	O
+.	503	504	O
+
+The	505	508	O
+method	509	515	O
+is	516	518	O
+tested	519	525	B-Task
+by	526	528	I-Task
+some	529	533	I-Task
+examples	534	542	I-Task
+with	543	547	I-Task
+actual	548	554	I-Task
+machining	555	564	I-Task
+.	564	565	O
+
+The	566	569	O
+results	570	577	O
+show	578	582	O
+that	583	587	O
+the	588	591	O
+method	592	598	O
+can	599	602	O
+effectively	603	614	O
+reduce	615	621	O
+the	622	625	O
+error	626	631	O
+of	632	634	O
+the	635	638	O
+scallop	639	646	B-Material
+height	647	653	I-Material
+for	654	657	O
+subdivision	658	669	B-Material
+surface	670	677	I-Material
+and	678	681	O
+obtain	682	688	O
+the	689	692	O
+better	693	699	O
+shape	700	705	O
+and	706	709	O
+quality	710	717	O
+.	717	718	O
+
+In	719	721	O
+addition	722	730	O
+,	730	731	O
+the	732	735	O
+computational	736	749	O
+complexity	750	760	O
+and	761	764	O
+is	765	767	O
+scalable	768	776	O
+and	777	780	O
+robust	781	787	O
+.	787	788	O
 
 
 -DOCSTART- (S221267161200176X)
 
-Modeling	NN	O	B-Task
-or	NN	O	I-Task
-approximating	NN	O	I-Task
-high	NN	O	I-Task
-dimensional	NN	O	I-Task
-,	NN	O	I-Task
-computationally	NN	O	I-Task
--	NN	O	I-Task
-expensive	NN	O	I-Task
-problems	NN	O	I-Task
-faces	NN	O	O
-an	NN	O	O
-exponentially	NN	O	O
-increasing	NN	O	O
-difficulty	NN	O	O
-,	NN	O	O
-the	NN	O	O
-“	NN	O	O
-curse	NN	O	B-Process
-of	NN	O	I-Process
-dimensionality	NN	O	I-Process
-”	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-paper	NN	O	O
-proposes	NN	O	O
-a	NN	O	O
-new	NN	O	B-Process
-form	NN	O	I-Process
-of	NN	O	I-Process
-high	NN	O	I-Process
-dimensional	NN	O	I-Process
-model	NN	O	I-Process
-representation	NN	O	I-Process
-(	NN	O	O
-HDMR	NN	O	B-Process
-)	NN	O	O
-by	NN	O	O
-utilizing	NN	O	O
-the	NN	O	O
-support	NN	O	B-Process
-vector	NN	O	I-Process
-regression	NN	O	I-Process
-(	NN	O	O
-SVR	NN	O	B-Process
-)	NN	O	O
-,	NN	O	O
-termed	NN	O	O
-as	NN	O	O
-adaptive	NN	O	B-Process
-SVR	NN	O	I-Process
--	NN	O	I-Process
-HMDR	NN	O	I-Process
-,	NN	O	O
-to	NN	O	O
-conquer	NN	O	B-Task
-this	NN	O	I-Task
-dilemma	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-proposed	NN	O	O
-model	NN	O	O
-could	NN	O	O
-reveal	NN	O	O
-explicit	NN	O	B-Process
-correlations	NN	O	I-Process
-among	NN	O	O
-different	NN	O	O
-input	NN	O	B-Material
-variables	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-underlying	NN	O	O
-function	NN	O	O
-which	NN	O	O
-is	NN	O	O
-unknown	NN	O	O
-or	NN	O	O
-expensive	NN	O	O
-for	NN	O	O
-computation	NN	O	B-Process
-.	NN	O	O
-
-Taking	NN	O	O
-advantage	NN	O	O
-of	NN	O	O
-HDMR	NN	O	B-Process
-'s	NN	O	O
-hierarchical	NN	O	O
-structure	NN	O	O
-,	NN	O	O
-it	NN	O	O
-could	NN	O	O
-alleviate	NN	O	B-Task
-the	NN	O	I-Task
-exponential	NN	O	I-Task
-increasing	NN	O	I-Task
-difficulty	NN	O	I-Task
-,	NN	O	O
-and	NN	O	O
-gain	NN	O	O
-satisfying	NN	O	O
-accuracy	NN	O	O
-with	NN	O	O
-small	NN	O	O
-set	NN	O	O
-of	NN	O	O
-samples	NN	O	O
-by	NN	O	O
-SVR	NN	O	B-Process
-.	NN	O	O
-
-Numerical	NN	O	O
-examples	NN	O	O
-of	NN	O	O
-different	NN	O	O
-dimensionality	NN	O	O
-are	NN	O	O
-given	NN	O	O
-to	NN	O	O
-illustrate	NN	O	B-Task
-the	NN	O	I-Task
-principle	NN	O	I-Task
-,	NN	O	I-Task
-procedure	NN	O	I-Task
-and	NN	O	I-Task
-performance	NN	O	I-Task
-of	NN	O	O
-SVR	NN	O	B-Process
--	NN	O	I-Process
-HDMR	NN	O	I-Process
-.	NN	O	O
+Modeling	0	8	B-Task
+or	9	11	I-Task
+approximating	12	25	I-Task
+high	26	30	I-Task
+dimensional	31	42	I-Task
+,	42	43	I-Task
+computationally	44	59	I-Task
+-	59	60	I-Task
+expensive	60	69	I-Task
+problems	70	78	I-Task
+faces	79	84	O
+an	85	87	O
+exponentially	88	101	O
+increasing	102	112	O
+difficulty	113	123	O
+,	123	124	O
+the	125	128	O
+“	129	130	O
+curse	130	135	B-Process
+of	136	138	I-Process
+dimensionality	139	153	I-Process
+”	153	154	O
+.	154	155	O
+
+This	156	160	O
+paper	161	166	O
+proposes	167	175	O
+a	176	177	O
+new	178	181	B-Process
+form	182	186	I-Process
+of	187	189	I-Process
+high	190	194	I-Process
+dimensional	195	206	I-Process
+model	207	212	I-Process
+representation	213	227	I-Process
+(	228	229	O
+HDMR	229	233	B-Process
+)	233	234	O
+by	235	237	O
+utilizing	238	247	O
+the	248	251	O
+support	252	259	B-Process
+vector	260	266	I-Process
+regression	267	277	I-Process
+(	278	279	O
+SVR	279	282	B-Process
+)	282	283	O
+,	283	284	O
+termed	285	291	O
+as	292	294	O
+adaptive	295	303	B-Process
+SVR	304	307	I-Process
+-	307	308	I-Process
+HMDR	308	312	I-Process
+,	312	313	O
+to	314	316	O
+conquer	317	324	B-Task
+this	325	329	I-Task
+dilemma	330	337	I-Task
+.	337	338	O
+
+The	339	342	O
+proposed	343	351	O
+model	352	357	O
+could	358	363	O
+reveal	364	370	O
+explicit	371	379	B-Process
+correlations	380	392	I-Process
+among	393	398	O
+different	399	408	O
+input	409	414	B-Material
+variables	415	424	I-Material
+of	425	427	O
+the	428	431	O
+underlying	432	442	O
+function	443	451	O
+which	452	457	O
+is	458	460	O
+unknown	461	468	O
+or	469	471	O
+expensive	472	481	O
+for	482	485	O
+computation	486	497	B-Process
+.	497	498	O
+
+Taking	499	505	O
+advantage	506	515	O
+of	516	518	O
+HDMR	519	523	B-Process
+'s	523	525	O
+hierarchical	526	538	O
+structure	539	548	O
+,	548	549	O
+it	550	552	O
+could	553	558	O
+alleviate	559	568	B-Task
+the	569	572	I-Task
+exponential	573	584	I-Task
+increasing	585	595	I-Task
+difficulty	596	606	I-Task
+,	606	607	O
+and	608	611	O
+gain	612	616	O
+satisfying	617	627	O
+accuracy	628	636	O
+with	637	641	O
+small	642	647	O
+set	648	651	O
+of	652	654	O
+samples	655	662	O
+by	663	665	O
+SVR	666	669	B-Process
+.	669	670	O
+
+Numerical	671	680	O
+examples	681	689	O
+of	690	692	O
+different	693	702	O
+dimensionality	703	717	O
+are	718	721	O
+given	722	727	O
+to	728	730	O
+illustrate	731	741	B-Task
+the	742	745	I-Task
+principle	746	755	I-Task
+,	755	756	I-Task
+procedure	757	766	I-Task
+and	767	770	I-Task
+performance	771	782	I-Task
+of	783	785	O
+SVR	786	789	B-Process
+-	789	790	I-Process
+HDMR	790	794	I-Process
+.	794	795	O
 
 
 -DOCSTART- (S2212671612001783)
 
-Metal	NN	O	B-Material
-–	NN	O	I-Material
-intermetallic	NN	O	I-Material
-laminated	NN	O	I-Material
-(	NN	O	O
-MIL	NN	O	B-Material
-)	NN	O	O
-composites	NN	O	O
-are	NN	O	O
-fabricated	NN	O	B-Process
-upon	NN	O	I-Process
-reaction	NN	O	I-Process
-sintering	NN	O	I-Process
-of	NN	O	O
-titanium	NN	O	B-Material
-and	NN	O	I-Material
-aluminum	NN	O	I-Material
-foils	NN	O	I-Material
-of	NN	O	O
-various	NN	O	O
-thicknesses	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-intermetallic	NN	O	B-Process
-phase	NN	O	I-Process
-of	NN	O	O
-Al3Ti	NN	O	B-Process
-forming	NN	O	I-Process
-during	NN	O	O
-the	NN	O	O
-above	NN	O	O
-processing	NN	O	B-Process
-gives	NN	O	O
-high	NN	O	O
-hardness	NN	O	O
-and	NN	O	O
-stiffness	NN	O	O
-to	NN	O	O
-the	NN	O	O
-composite	NN	O	B-Material
-,	NN	O	O
-while	NN	O	O
-unreacted	NN	O	B-Material
-titanium	NN	O	I-Material
-provides	NN	O	O
-the	NN	O	O
-necessary	NN	O	O
-high	NN	O	O
-strength	NN	O	O
-and	NN	O	O
-ductility	NN	O	O
-.	NN	O	O
-
-Some	NN	O	O
-results	NN	O	O
-of	NN	O	O
-studies	NN	O	B-Process
-of	NN	O	I-Process
-microstructure	NN	O	I-Process
-and	NN	O	O
-some	NN	O	O
-mechanical	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-layered	NN	O	B-Material
-composites	NN	O	I-Material
-are	NN	O	O
-presented	NN	O	B-Task
-on	NN	O	I-Task
-the	NN	O	I-Task
-example	NN	O	I-Task
-of	NN	O	I-Task
-Ti	NN	O	I-Task
--	NN	O	I-Task
-Al	NN	O	I-Task
-system	NN	O	I-Task
-.	NN	O	O
-
-Static	NN	O	B-Task
-and	NN	O	I-Task
-dynamic	NN	O	I-Task
-tests	NN	O	I-Task
-results	NN	O	I-Task
-are	NN	O	I-Task
-discussed	NN	O	I-Task
-for	NN	O	O
-the	NN	O	O
-case	NN	O	O
-when	NN	O	O
-the	NN	O	O
-intermetallic	NN	O	B-Process
-reaction	NN	O	I-Process
-was	NN	O	O
-interrupted	NN	O	B-Process
-in	NN	O	O
-the	NN	O	O
-course	NN	O	O
-of	NN	O	O
-intermetallic	NN	O	B-Process
-sintering	NN	O	I-Process
-and	NN	O	O
-also	NN	O	O
-for	NN	O	O
-the	NN	O	O
-case	NN	O	O
-when	NN	O	O
-it	NN	O	O
-was	NN	O	O
-completed	NN	O	O
-.	NN	O	O
+Metal	0	5	B-Material
+–	5	6	I-Material
+intermetallic	6	19	I-Material
+laminated	20	29	I-Material
+(	30	31	O
+MIL	31	34	B-Material
+)	34	35	O
+composites	36	46	O
+are	47	50	O
+fabricated	51	61	B-Process
+upon	62	66	I-Process
+reaction	67	75	I-Process
+sintering	76	85	I-Process
+of	86	88	O
+titanium	89	97	B-Material
+and	98	101	I-Material
+aluminum	102	110	I-Material
+foils	111	116	I-Material
+of	117	119	O
+various	120	127	O
+thicknesses	128	139	O
+.	139	140	O
+
+The	141	144	O
+intermetallic	145	158	B-Process
+phase	159	164	I-Process
+of	165	167	O
+Al3Ti	168	173	B-Process
+forming	174	181	I-Process
+during	182	188	O
+the	189	192	O
+above	193	198	O
+processing	199	209	B-Process
+gives	210	215	O
+high	216	220	O
+hardness	221	229	O
+and	230	233	O
+stiffness	234	243	O
+to	244	246	O
+the	247	250	O
+composite	251	260	B-Material
+,	260	261	O
+while	262	267	O
+unreacted	268	277	B-Material
+titanium	278	286	I-Material
+provides	287	295	O
+the	296	299	O
+necessary	300	309	O
+high	310	314	O
+strength	315	323	O
+and	324	327	O
+ductility	328	337	O
+.	337	338	O
+
+Some	339	343	O
+results	344	351	O
+of	352	354	O
+studies	355	362	B-Process
+of	363	365	I-Process
+microstructure	366	380	I-Process
+and	381	384	O
+some	385	389	O
+mechanical	390	400	O
+properties	401	411	O
+of	412	414	O
+layered	415	422	B-Material
+composites	423	433	I-Material
+are	434	437	O
+presented	438	447	B-Task
+on	448	450	I-Task
+the	451	454	I-Task
+example	455	462	I-Task
+of	463	465	I-Task
+Ti	466	468	I-Task
+-	468	469	I-Task
+Al	469	471	I-Task
+system	472	478	I-Task
+.	478	479	O
+
+Static	480	486	B-Task
+and	487	490	I-Task
+dynamic	491	498	I-Task
+tests	499	504	I-Task
+results	505	512	I-Task
+are	513	516	I-Task
+discussed	517	526	I-Task
+for	527	530	O
+the	531	534	O
+case	535	539	O
+when	540	544	O
+the	545	548	O
+intermetallic	549	562	B-Process
+reaction	563	571	I-Process
+was	572	575	O
+interrupted	576	587	B-Process
+in	588	590	O
+the	591	594	O
+course	595	601	O
+of	602	604	O
+intermetallic	605	618	B-Process
+sintering	619	628	I-Process
+and	629	632	O
+also	633	637	O
+for	638	641	O
+the	642	645	O
+case	646	650	O
+when	651	655	O
+it	656	658	O
+was	659	662	O
+completed	663	672	O
+.	672	673	O
 
 
 -DOCSTART- (S2212671612002120)
 
-A	NN	O	O
-design	NN	O	B-Process
-method	NN	O	I-Process
-for	NN	O	O
-network	NN	O	B-Process
-attack	NN	O	I-Process
-and	NN	O	O
-defense	NN	O	B-Process
-simulation	NN	O	I-Process
-platform	NN	O	I-Process
-is	NN	O	O
-discussed	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-.	NN	O	O
-
-Firstly	NN	O	O
-the	NN	O	O
-component	NN	O	O
-and	NN	O	O
-function	NN	O	O
-of	NN	O	O
-the	NN	O	O
-platform	NN	O	B-Process
-are	NN	O	O
-analyzed	NN	O	O
-.	NN	O	O
-
-Then	NN	O	O
-Visio	NN	O	B-Process
-second	NN	O	I-Process
-development	NN	O	I-Process
-method	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-construct	NN	O	B-Task
-the	NN	O	I-Task
-virtual	NN	O	I-Task
-network	NN	O	I-Task
-topology	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-parsing	NN	O	B-Task
-of	NN	O	I-Task
-virtual	NN	O	I-Task
-network	NN	O	I-Task
-topology	NN	O	I-Task
-is	NN	O	O
-also	NN	O	O
-researched	NN	O	O
-and	NN	O	O
-the	NN	O	O
-relative	NN	O	B-Material
-flow	NN	O	I-Material
-sheet	NN	O	I-Material
-is	NN	O	O
-described	NN	O	O
-.	NN	O	O
-
-Lastly	NN	O	O
-an	NN	O	O
-example	NN	O	O
-is	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-to	NN	O	O
-test	NN	O	B-Task
-performance	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-platform	NN	O	I-Task
-.	NN	O	O
-
-Simulation	NN	O	O
-results	NN	O	O
-show	NN	O	O
-the	NN	O	O
-effectiveness	NN	O	O
-of	NN	O	O
-the	NN	O	O
-proposed	NN	O	O
-method	NN	O	O
-.	NN	O	O
+A	0	1	O
+design	2	8	B-Process
+method	9	15	I-Process
+for	16	19	O
+network	20	27	B-Process
+attack	28	34	I-Process
+and	35	38	O
+defense	39	46	B-Process
+simulation	47	57	I-Process
+platform	58	66	I-Process
+is	67	69	O
+discussed	70	79	O
+in	80	82	O
+this	83	87	O
+paper	88	93	O
+.	93	94	O
+
+Firstly	95	102	O
+the	103	106	O
+component	107	116	O
+and	117	120	O
+function	121	129	O
+of	130	132	O
+the	133	136	O
+platform	137	145	B-Process
+are	146	149	O
+analyzed	150	158	O
+.	158	159	O
+
+Then	160	164	O
+Visio	165	170	B-Process
+second	171	177	I-Process
+development	178	189	I-Process
+method	190	196	I-Process
+is	197	199	O
+used	200	204	O
+to	205	207	O
+construct	208	217	B-Task
+the	218	221	I-Task
+virtual	222	229	I-Task
+network	230	237	I-Task
+topology	238	246	I-Task
+.	246	247	O
+
+The	248	251	O
+parsing	252	259	B-Task
+of	260	262	I-Task
+virtual	263	270	I-Task
+network	271	278	I-Task
+topology	279	287	I-Task
+is	288	290	O
+also	291	295	O
+researched	296	306	O
+and	307	310	O
+the	311	314	O
+relative	315	323	B-Material
+flow	324	328	I-Material
+sheet	329	334	I-Material
+is	335	337	O
+described	338	347	O
+.	347	348	O
+
+Lastly	349	355	O
+an	356	358	O
+example	359	366	O
+is	367	369	O
+carried	370	377	O
+out	378	381	O
+to	382	384	O
+test	385	389	B-Task
+performance	390	401	I-Task
+of	402	404	I-Task
+the	405	408	I-Task
+platform	409	417	I-Task
+.	417	418	O
+
+Simulation	419	429	O
+results	430	437	O
+show	438	442	O
+the	443	446	O
+effectiveness	447	460	O
+of	461	463	O
+the	464	467	O
+proposed	468	476	O
+method	477	483	O
+.	483	484	O
 
 
 -DOCSTART- (S221267161200217X)
 
-The	NN	O	O
-existing	NN	O	O
-GO	NN	O	B-Process
-methodology	NN	O	I-Process
-algorithm	NN	O	I-Process
-is	NN	O	O
-theoretical	NN	O	O
-,	NN	O	O
-and	NN	O	O
-hard	NN	O	O
-to	NN	O	O
-solve	NN	O	O
-with	NN	O	O
-computer	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-research	NN	O	O
-a	NN	O	O
-new	NN	O	B-Task
-method	NN	O	I-Task
-to	NN	O	I-Task
-get	NN	O	I-Task
-the	NN	O	I-Task
-reliability	NN	O	I-Task
-of	NN	O	I-Task
-system	NN	O	I-Task
-based	NN	O	I-Task
-on	NN	O	I-Task
-GO	NN	O	I-Task
-methodology	NN	O	I-Task
-.	NN	O	O
-
-According	NN	O	O
-to	NN	O	O
-some	NN	O	O
-properties	NN	O	O
-of	NN	O	O
-the	NN	O	O
-operators	NN	O	O
-in	NN	O	O
-GO	NN	O	B-Material
-chart	NN	O	I-Material
-,	NN	O	O
-GO	NN	O	B-Material
-chart	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-transformed	NN	O	O
-into	NN	O	O
-series	NN	O	B-Process
-structure	NN	O	I-Process
-,	NN	O	O
-then	NN	O	O
-the	NN	O	O
-minimal	NN	O	B-Process
-path	NN	O	I-Process
-sets	NN	O	I-Process
-are	NN	O	I-Process
-induced	NN	O	I-Process
-based	NN	O	O
-on	NN	O	O
-Enumeration	NN	O	B-Process
-method	NN	O	I-Process
-from	NN	O	O
-first	NN	O	O
-operator	NN	O	O
-to	NN	O	O
-last	NN	O	O
-one	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-very	NN	O	O
-convenient	NN	O	O
-for	NN	O	O
-computer	NN	O	O
-to	NN	O	O
-calculate	NN	O	B-Task
-the	NN	O	I-Task
-system	NN	O	I-Task
-reliability	NN	O	I-Task
-with	NN	O	O
-the	NN	O	O
-new	NN	O	O
-method	NN	O	O
-based	NN	O	O
-on	NN	O	O
-minimal	NN	O	B-Process
-path	NN	O	I-Process
-sets	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-case	NN	O	O
-study	NN	O	O
-indicates	NN	O	O
-the	NN	O	O
-method	NN	O	O
-is	NN	O	O
-suitable	NN	O	O
-for	NN	O	O
-practical	NN	O	B-Task
-engineering	NN	O	I-Task
-,	NN	O	O
-which	NN	O	O
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-possess	NN	O	O
-the	NN	O	O
-quantitative	NN	O	B-Process
-analysis	NN	O	I-Process
-of	NN	O	O
-complex	NN	O	B-Process
-GO	NN	O	I-Process
-methodology	NN	O	I-Process
-models	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+existing	4	12	O
+GO	13	15	B-Process
+methodology	16	27	I-Process
+algorithm	28	37	I-Process
+is	38	40	O
+theoretical	41	52	O
+,	52	53	O
+and	54	57	O
+hard	58	62	O
+to	63	65	O
+solve	66	71	O
+with	72	76	O
+computer	77	85	O
+.	85	86	O
+
+In	87	89	O
+this	90	94	O
+paper	95	100	O
+,	100	101	O
+we	102	104	O
+research	105	113	O
+a	114	115	O
+new	116	119	B-Task
+method	120	126	I-Task
+to	127	129	I-Task
+get	130	133	I-Task
+the	134	137	I-Task
+reliability	138	149	I-Task
+of	150	152	I-Task
+system	153	159	I-Task
+based	160	165	I-Task
+on	166	168	I-Task
+GO	169	171	I-Task
+methodology	172	183	I-Task
+.	183	184	O
+
+According	185	194	O
+to	195	197	O
+some	198	202	O
+properties	203	213	O
+of	214	216	O
+the	217	220	O
+operators	221	230	O
+in	231	233	O
+GO	234	236	B-Material
+chart	237	242	I-Material
+,	242	243	O
+GO	244	246	B-Material
+chart	247	252	I-Material
+can	253	256	O
+be	257	259	O
+transformed	260	271	O
+into	272	276	O
+series	277	283	B-Process
+structure	284	293	I-Process
+,	293	294	O
+then	295	299	O
+the	300	303	O
+minimal	304	311	B-Process
+path	312	316	I-Process
+sets	317	321	I-Process
+are	322	325	I-Process
+induced	326	333	I-Process
+based	334	339	O
+on	340	342	O
+Enumeration	343	354	B-Process
+method	355	361	I-Process
+from	362	366	O
+first	367	372	O
+operator	373	381	O
+to	382	384	O
+last	385	389	O
+one	390	393	O
+.	393	394	O
+
+It	395	397	O
+is	398	400	O
+very	401	405	O
+convenient	406	416	O
+for	417	420	O
+computer	421	429	O
+to	430	432	O
+calculate	433	442	B-Task
+the	443	446	I-Task
+system	447	453	I-Task
+reliability	454	465	I-Task
+with	466	470	O
+the	471	474	O
+new	475	478	O
+method	479	485	O
+based	486	491	O
+on	492	494	O
+minimal	495	502	B-Process
+path	503	507	I-Process
+sets	508	512	I-Process
+.	512	513	O
+
+The	514	517	O
+case	518	522	O
+study	523	528	O
+indicates	529	538	O
+the	539	542	O
+method	543	549	O
+is	550	552	O
+suitable	553	561	O
+for	562	565	O
+practical	566	575	B-Task
+engineering	576	587	I-Task
+,	587	588	O
+which	589	594	O
+can	595	598	O
+be	599	601	O
+used	602	606	O
+to	607	609	O
+possess	610	617	O
+the	618	621	O
+quantitative	622	634	B-Process
+analysis	635	643	I-Process
+of	644	646	O
+complex	647	654	B-Process
+GO	655	657	I-Process
+methodology	658	669	I-Process
+models	670	676	I-Process
+.	676	677	O
 
 
 -DOCSTART- (S2212671612002181)
 
-The	NN	O	O
-number	NN	O	O
-of	NN	O	O
-hidden	NN	O	B-Material
-nodes	NN	O	I-Material
-is	NN	O	O
-a	NN	O	O
-critical	NN	O	O
-factor	NN	O	O
-for	NN	O	O
-the	NN	O	O
-generalization	NN	O	B-Task
-of	NN	O	I-Task
-ELM	NN	O	I-Task
-.	NN	O	O
-
-Generally	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-heavy	NN	O	O
-for	NN	O	O
-time	NN	O	B-Process
-consumption	NN	O	I-Process
-to	NN	O	O
-obtain	NN	O	B-Process
-the	NN	O	I-Process
-optimal	NN	O	I-Process
-number	NN	O	I-Process
-of	NN	O	I-Process
-hidden	NN	O	I-Process
-nodes	NN	O	I-Process
-with	NN	O	O
-trial	NN	O	B-Process
--	NN	O	I-Process
-and	NN	O	I-Process
--	NN	O	I-Process
-error	NN	O	I-Process
-.	NN	O	O
-
-A	NN	O	O
-novel	NN	O	B-Task
-algorithm	NN	O	I-Task
-is	NN	O	I-Task
-proposed	NN	O	I-Task
-to	NN	O	O
-optimize	NN	O	B-Task
-the	NN	O	I-Task
-hidden	NN	O	I-Task
-node	NN	O	I-Task
-number	NN	O	I-Task
-to	NN	O	O
-guarantee	NN	O	O
-good	NN	O	O
-generalization	NN	O	B-Process
-,	NN	O	O
-which	NN	O	O
-employs	NN	O	O
-the	NN	O	O
-PSO	NN	O	B-Process
-in	NN	O	O
-the	NN	O	O
-optimization	NN	O	B-Process
-process	NN	O	I-Process
-with	NN	O	O
-structural	NN	O	B-Process
-risk	NN	O	I-Process
-minimization	NN	O	I-Process
-principle	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-simulation	NN	O	O
-results	NN	O	O
-indicate	NN	O	O
-our	NN	O	O
-algorithm	NN	O	B-Process
-for	NN	O	O
-the	NN	O	O
-optimal	NN	O	O
-number	NN	O	O
-of	NN	O	O
-hidden	NN	O	B-Material
-nodes	NN	O	I-Material
-is	NN	O	O
-reasonable	NN	O	O
-and	NN	O	O
-feasible	NN	O	O
-with	NN	O	O
-6	NN	O	B-Material
-datasets	NN	O	I-Material
-on	NN	O	O
-benchmark	NN	O	O
-problems	NN	O	O
-by	NN	O	O
-the	NN	O	O
-accuracy	NN	O	B-Process
-comparisons	NN	O	I-Process
-.	NN	O	O
+The	0	3	O
+number	4	10	O
+of	11	13	O
+hidden	14	20	B-Material
+nodes	21	26	I-Material
+is	27	29	O
+a	30	31	O
+critical	32	40	O
+factor	41	47	O
+for	48	51	O
+the	52	55	O
+generalization	56	70	B-Task
+of	71	73	I-Task
+ELM	74	77	I-Task
+.	77	78	O
+
+Generally	79	88	O
+,	88	89	O
+it	90	92	O
+is	93	95	O
+heavy	96	101	O
+for	102	105	O
+time	106	110	B-Process
+consumption	111	122	I-Process
+to	123	125	O
+obtain	126	132	B-Process
+the	133	136	I-Process
+optimal	137	144	I-Process
+number	145	151	I-Process
+of	152	154	I-Process
+hidden	155	161	I-Process
+nodes	162	167	I-Process
+with	168	172	O
+trial	173	178	B-Process
+-	178	179	I-Process
+and	179	182	I-Process
+-	182	183	I-Process
+error	183	188	I-Process
+.	188	189	O
+
+A	190	191	O
+novel	192	197	B-Task
+algorithm	198	207	I-Task
+is	208	210	I-Task
+proposed	211	219	I-Task
+to	220	222	O
+optimize	223	231	B-Task
+the	232	235	I-Task
+hidden	236	242	I-Task
+node	243	247	I-Task
+number	248	254	I-Task
+to	255	257	O
+guarantee	258	267	O
+good	268	272	O
+generalization	273	287	B-Process
+,	287	288	O
+which	289	294	O
+employs	295	302	O
+the	303	306	O
+PSO	307	310	B-Process
+in	311	313	O
+the	314	317	O
+optimization	318	330	B-Process
+process	331	338	I-Process
+with	339	343	O
+structural	344	354	B-Process
+risk	355	359	I-Process
+minimization	360	372	I-Process
+principle	373	382	I-Process
+.	382	383	O
+
+The	384	387	O
+simulation	388	398	O
+results	399	406	O
+indicate	407	415	O
+our	416	419	O
+algorithm	420	429	B-Process
+for	430	433	O
+the	434	437	O
+optimal	438	445	O
+number	446	452	O
+of	453	455	O
+hidden	456	462	B-Material
+nodes	463	468	I-Material
+is	469	471	O
+reasonable	472	482	O
+and	483	486	O
+feasible	487	495	O
+with	496	500	O
+6	501	502	B-Material
+datasets	503	511	I-Material
+on	512	514	O
+benchmark	515	524	O
+problems	525	533	O
+by	534	536	O
+the	537	540	O
+accuracy	541	549	B-Process
+comparisons	550	561	I-Process
+.	561	562	O
 
 
 -DOCSTART- (S221267161200220X)
 
-For	NN	O	O
-providing	NN	O	O
-the	NN	O	O
-government	NN	O	O
-with	NN	O	O
-effective	NN	O	B-Task
-monitoring	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-trends	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-economic	NN	O	I-Process
-variables	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-future	NN	O	O
-and	NN	O	O
-good	NN	O	O
-reference	NN	O	O
-for	NN	O	O
-developing	NN	O	B-Process
-a	NN	O	I-Process
-reasonable	NN	O	I-Process
-policy	NN	O	I-Process
-,	NN	O	O
-in	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-establish	NN	O	B-Task
-a	NN	O	I-Task
-time	NN	O	I-Task
-series	NN	O	I-Task
-model	NN	O	I-Task
-on	NN	O	O
-China	NN	O	O
-'s	NN	O	O
-Foreign	NN	O	B-Process
-Direct	NN	O	I-Process
-Investment	NN	O	I-Process
-(	NN	O	O
-FDI	NN	O	B-Process
-)	NN	O	O
-by	NN	O	O
-using	NN	O	O
-wavelet	NN	O	B-Process
-analysis	NN	O	I-Process
-and	NN	O	O
-intervention	NN	O	B-Process
-analysis	NN	O	I-Process
-and	NN	O	O
-time	NN	O	B-Process
-series	NN	O	I-Process
-analysis	NN	O	I-Process
-and	NN	O	O
-predict	NN	O	B-Task
-the	NN	O	I-Task
-trend	NN	O	I-Task
-of	NN	O	I-Task
-FDI	NN	O	I-Task
-in	NN	O	O
-the	NN	O	O
-next	NN	O	O
-several	NN	O	O
-years	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-model	NN	O	O
-eliminates	NN	O	O
-the	NN	O	O
-interference	NN	O	B-Process
-of	NN	O	I-Process
-noise	NN	O	I-Process
-for	NN	O	O
-predicting	NN	O	O
-by	NN	O	O
-using	NN	O	O
-wavelet	NN	O	B-Process
-analysis	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-describes	NN	O	O
-the	NN	O	O
-autocorrelation	NN	O	B-Process
-and	NN	O	O
-time	NN	O	B-Process
--	NN	O	I-Process
-varying	NN	O	I-Process
-volatility	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-financial	NN	O	B-Material
-time	NN	O	I-Material
-series	NN	O	I-Material
-by	NN	O	O
-using	NN	O	O
-ARIMA-	NN	O	B-Process
-GARCH	NN	O	I-Process
--	NN	O	I-Process
-M	NN	O	I-Process
-model	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-simulation	NN	O	O
-results	NN	O	O
-show	NN	O	O
-that	NN	O	O
-this	NN	O	O
-model	NN	O	O
-explains	NN	O	O
-the	NN	O	O
-dynamic	NN	O	O
-structure	NN	O	O
-of	NN	O	O
-China	NN	O	O
-'s	NN	O	O
-FDI	NN	O	B-Process
-trends	NN	O	O
-well	NN	O	O
-.	NN	O	O
+For	0	3	O
+providing	4	13	O
+the	14	17	O
+government	18	28	O
+with	29	33	O
+effective	34	43	B-Task
+monitoring	44	54	I-Task
+of	55	57	O
+the	58	61	O
+trends	62	68	B-Process
+of	69	71	I-Process
+the	72	75	I-Process
+economic	76	84	I-Process
+variables	85	94	I-Process
+in	95	97	O
+the	98	101	O
+future	102	108	O
+and	109	112	O
+good	113	117	O
+reference	118	127	O
+for	128	131	O
+developing	132	142	B-Process
+a	143	144	I-Process
+reasonable	145	155	I-Process
+policy	156	162	I-Process
+,	162	163	O
+in	164	166	O
+this	167	171	O
+paper	172	177	O
+,	177	178	O
+we	179	181	O
+establish	182	191	B-Task
+a	192	193	I-Task
+time	194	198	I-Task
+series	199	205	I-Task
+model	206	211	I-Task
+on	212	214	O
+China	215	220	O
+'s	220	222	O
+Foreign	223	230	B-Process
+Direct	231	237	I-Process
+Investment	238	248	I-Process
+(	249	250	O
+FDI	250	253	B-Process
+)	253	254	O
+by	255	257	O
+using	258	263	O
+wavelet	264	271	B-Process
+analysis	272	280	I-Process
+and	281	284	O
+intervention	285	297	B-Process
+analysis	298	306	I-Process
+and	307	310	O
+time	311	315	B-Process
+series	316	322	I-Process
+analysis	323	331	I-Process
+and	332	335	O
+predict	336	343	B-Task
+the	344	347	I-Task
+trend	348	353	I-Task
+of	354	356	I-Task
+FDI	357	360	I-Task
+in	361	363	O
+the	364	367	O
+next	368	372	O
+several	373	380	O
+years	381	386	O
+.	386	387	O
+
+This	388	392	O
+model	393	398	O
+eliminates	399	409	O
+the	410	413	O
+interference	414	426	B-Process
+of	427	429	I-Process
+noise	430	435	I-Process
+for	436	439	O
+predicting	440	450	O
+by	451	453	O
+using	454	459	O
+wavelet	460	467	B-Process
+analysis	468	476	I-Process
+,	476	477	O
+and	478	481	O
+describes	482	491	O
+the	492	495	O
+autocorrelation	496	511	B-Process
+and	512	515	O
+time	516	520	B-Process
+-	520	521	I-Process
+varying	521	528	I-Process
+volatility	529	539	I-Process
+of	540	542	O
+the	543	546	O
+financial	547	556	B-Material
+time	557	561	I-Material
+series	562	568	I-Material
+by	569	571	O
+using	572	577	O
+ARIMA-	578	584	B-Process
+GARCH	585	590	I-Process
+-	590	591	I-Process
+M	591	592	I-Process
+model	593	598	I-Process
+.	598	599	O
+
+The	600	603	O
+simulation	604	614	O
+results	615	622	O
+show	623	627	O
+that	628	632	O
+this	633	637	O
+model	638	643	O
+explains	644	652	O
+the	653	656	O
+dynamic	657	664	O
+structure	665	674	O
+of	675	677	O
+China	678	683	O
+'s	683	685	O
+FDI	686	689	B-Process
+trends	690	696	O
+well	697	701	O
+.	701	702	O
 
 
 -DOCSTART- (S2212671612002302)
 
-Monitoring	NN	O	B-Task
-the	NN	O	I-Task
-wear	NN	O	I-Task
-condition	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-tramway	NN	O	B-Material
-superstructure	NN	O	I-Material
-is	NN	O	O
-one	NN	O	O
-of	NN	O	O
-the	NN	O	O
-key	NN	O	O
-points	NN	O	O
-to	NN	O	O
-guarantee	NN	O	O
-an	NN	O	O
-adequate	NN	O	O
-safety	NN	O	B-Process
-level	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-light	NN	O	B-Material
-rail	NN	O	I-Material
-transport	NN	O	I-Material
-system	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-purpose	NN	O	O
-of	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-is	NN	O	O
-to	NN	O	O
-suggest	NN	O	O
-a	NN	O	O
-new	NN	O	B-Task
-non	NN	O	I-Task
--	NN	O	I-Task
-conventionalprocedure	NN	O	I-Task
-for	NN	O	O
-measuring	NN	O	O
-the	NN	O	O
-transverse	NN	O	B-Process
-profile	NN	O	I-Process
-of	NN	O	O
-rails	NN	O	B-Material
-in	NN	O	O
-operation	NN	O	O
-by	NN	O	O
-means	NN	O	O
-of	NN	O	O
-image	NN	O	B-Process
--	NN	O	I-Process
-processing	NN	O	I-Process
-technique	NN	O	I-Process
-.	NN	O	O
-
-This	NN	O	O
-methodological	NN	O	O
-approach	NN	O	O
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-the	NN	O	O
-“	NN	O	O
-information	NN	O	B-Material
-”	NN	O	I-Material
-contained	NN	O	O
-in	NN	O	O
-high	NN	O	B-Material
--	NN	O	I-Material
-resolution	NN	O	I-Material
-photographic	NN	O	I-Material
-images	NN	O	I-Material
-of	NN	O	O
-tracks	NN	O	B-Material
-and	NN	O	O
-on	NN	O	O
-specific	NN	O	B-Process
-algorithms	NN	O	I-Process
-which	NN	O	O
-allow	NN	O	O
-to	NN	O	O
-obtain	NN	O	O
-the	NN	O	O
-exact	NN	O	O
-geometric	NN	O	O
-profile	NN	O	O
-of	NN	O	O
-the	NN	O	O
-rails	NN	O	B-Material
-and	NN	O	O
-therefore	NN	O	O
-to	NN	O	O
-measure	NN	O	O
-the	NN	O	O
-state	NN	O	O
-of	NN	O	O
-the	NN	O	O
-rail	NN	O	O
--	NN	O	O
-head	NN	O	O
-extrados	NN	O	O
-wear	NN	O	O
-.	NN	O	O
+Monitoring	0	10	B-Task
+the	11	14	I-Task
+wear	15	19	I-Task
+condition	20	29	I-Task
+of	30	32	O
+the	33	36	O
+tramway	37	44	B-Material
+superstructure	45	59	I-Material
+is	60	62	O
+one	63	66	O
+of	67	69	O
+the	70	73	O
+key	74	77	O
+points	78	84	O
+to	85	87	O
+guarantee	88	97	O
+an	98	100	O
+adequate	101	109	O
+safety	110	116	B-Process
+level	117	122	I-Process
+of	123	125	O
+the	126	129	O
+light	130	135	B-Material
+rail	136	140	I-Material
+transport	141	150	I-Material
+system	151	157	I-Material
+.	157	158	O
+
+The	159	162	O
+purpose	163	170	O
+of	171	173	O
+this	174	178	O
+paper	179	184	O
+is	185	187	O
+to	188	190	O
+suggest	191	198	O
+a	199	200	O
+new	201	204	B-Task
+non	205	208	I-Task
+-	208	209	I-Task
+conventionalprocedure	209	230	I-Task
+for	231	234	O
+measuring	235	244	O
+the	245	248	O
+transverse	249	259	B-Process
+profile	260	267	I-Process
+of	268	270	O
+rails	271	276	B-Material
+in	277	279	O
+operation	280	289	O
+by	290	292	O
+means	293	298	O
+of	299	301	O
+image	302	307	B-Process
+-	307	308	I-Process
+processing	308	318	I-Process
+technique	319	328	I-Process
+.	328	329	O
+
+This	330	334	O
+methodological	335	349	O
+approach	350	358	O
+is	359	361	O
+based	362	367	O
+on	368	370	O
+the	371	374	O
+“	375	376	O
+information	376	387	B-Material
+”	387	388	I-Material
+contained	389	398	O
+in	399	401	O
+high	402	406	B-Material
+-	406	407	I-Material
+resolution	407	417	I-Material
+photographic	418	430	I-Material
+images	431	437	I-Material
+of	438	440	O
+tracks	441	447	B-Material
+and	448	451	O
+on	452	454	O
+specific	455	463	B-Process
+algorithms	464	474	I-Process
+which	475	480	O
+allow	481	486	O
+to	487	489	O
+obtain	490	496	O
+the	497	500	O
+exact	501	506	O
+geometric	507	516	O
+profile	517	524	O
+of	525	527	O
+the	528	531	O
+rails	532	537	B-Material
+and	538	541	O
+therefore	542	551	O
+to	552	554	O
+measure	555	562	O
+the	563	566	O
+state	567	572	O
+of	573	575	O
+the	576	579	O
+rail	580	584	O
+-	584	585	O
+head	585	589	O
+extrados	590	598	O
+wear	599	603	O
+.	603	604	O
 
 
 -DOCSTART- (S2212671612002338)
 
-Robust	NN	O	B-Task
-and	NN	O	I-Task
-automatic	NN	O	I-Task
-thresholding	NN	O	I-Task
-of	NN	O	O
-gray	NN	O	B-Material
-level	NN	O	I-Material
-images	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-commonly	NN	O	O
-used	NN	O	O
-in	NN	O	O
-the	NN	O	O
-field	NN	O	O
-of	NN	O	O
-pattern	NN	O	B-Task
-recognition	NN	O	I-Task
-and	NN	O	O
-computer	NN	O	B-Task
-vision	NN	O	I-Task
-for	NN	O	O
-objects	NN	O	B-Task
-detecting	NN	O	I-Task
-,	NN	O	I-Task
-tracking	NN	O	I-Task
-and	NN	O	I-Task
-recognizing	NN	O	I-Task
-.	NN	O	O
-
-The	NN	O	O
-Otsu	NN	O	B-Process
-scheme	NN	O	I-Process
-,	NN	O	O
-a	NN	O	O
-widely	NN	O	O
-used	NN	O	O
-image	NN	O	B-Process
-thresholding	NN	O	I-Process
-technique	NN	O	I-Process
-,	NN	O	O
-provides	NN	O	O
-approving	NN	O	O
-results	NN	O	O
-for	NN	O	O
-segmenting	NN	O	B-Process
-a	NN	O	O
-gray	NN	O	B-Material
-level	NN	O	I-Material
-image	NN	O	I-Material
-with	NN	O	O
-only	NN	O	O
-one	NN	O	O
-modal	NN	O	B-Process
-distribution	NN	O	I-Process
-in	NN	O	O
-gray	NN	O	B-Material
-level	NN	O	I-Material
-histogram	NN	O	I-Material
-.	NN	O	I-Material
-
-However	NN	O	O
-,	NN	O	O
-it	NN	O	O
-provides	NN	O	O
-poor	NN	O	O
-results	NN	O	O
-if	NN	O	O
-the	NN	O	O
-histogram	NN	O	B-Material
-of	NN	O	O
-a	NN	O	O
-gray	NN	O	O
-level	NN	O	O
-is	NN	O	O
-non	NN	O	O
--	NN	O	O
-bimodal	NN	O	O
-.	NN	O	O
-
-For	NN	O	O
-enhancing	NN	O	B-Task
-the	NN	O	I-Task
-performance	NN	O	I-Task
-of	NN	O	O
-the	NN	O	O
-Otsu	NN	O	B-Process
-algorithm	NN	O	I-Process
-further	NN	O	O
-,	NN	O	O
-in	NN	O	O
-this	NN	O	O
-work	NN	O	O
-,	NN	O	O
-an	NN	O	O
-improved	NN	O	O
-median	NN	O	B-Process
--	NN	O	I-Process
-based	NN	O	I-Process
-Otsu	NN	O	I-Process
-image	NN	O	I-Process
-thresholding	NN	O	I-Process
-algorithm	NN	O	I-Process
-is	NN	O	O
-presented	NN	O	O
-.	NN	O	O
-
-Finally	NN	O	O
-extensive	NN	O	B-Task
-tests	NN	O	I-Task
-are	NN	O	O
-performed	NN	O	O
-and	NN	O	O
-the	NN	O	O
-experiments	NN	O	O
-show	NN	O	O
-that	NN	O	O
-our	NN	O	O
-method	NN	O	O
-obtain	NN	O	O
-more	NN	O	O
-satisfactory	NN	O	O
-results	NN	O	O
-than	NN	O	O
-the	NN	O	O
-original	NN	O	O
-Otsu	NN	O	B-Process
-thresholding	NN	O	I-Process
-algorithm	NN	O	I-Process
-.	NN	O	O
+Robust	0	6	B-Task
+and	7	10	I-Task
+automatic	11	20	I-Task
+thresholding	21	33	I-Task
+of	34	36	O
+gray	37	41	B-Material
+level	42	47	I-Material
+images	48	54	I-Material
+has	55	58	O
+been	59	63	O
+commonly	64	72	O
+used	73	77	O
+in	78	80	O
+the	81	84	O
+field	85	90	O
+of	91	93	O
+pattern	94	101	B-Task
+recognition	102	113	I-Task
+and	114	117	O
+computer	118	126	B-Task
+vision	127	133	I-Task
+for	134	137	O
+objects	138	145	B-Task
+detecting	146	155	I-Task
+,	155	156	I-Task
+tracking	157	165	I-Task
+and	166	169	I-Task
+recognizing	170	181	I-Task
+.	181	182	O
+
+The	183	186	O
+Otsu	187	191	B-Process
+scheme	192	198	I-Process
+,	198	199	O
+a	200	201	O
+widely	202	208	O
+used	209	213	O
+image	214	219	B-Process
+thresholding	220	232	I-Process
+technique	233	242	I-Process
+,	242	243	O
+provides	244	252	O
+approving	253	262	O
+results	263	270	O
+for	271	274	O
+segmenting	275	285	B-Process
+a	286	287	O
+gray	288	292	B-Material
+level	293	298	I-Material
+image	299	304	I-Material
+with	305	309	O
+only	310	314	O
+one	315	318	O
+modal	319	324	B-Process
+distribution	325	337	I-Process
+in	338	340	O
+gray	341	345	B-Material
+level	346	351	I-Material
+histogram	352	361	I-Material
+.	361	362	I-Material
+
+However	363	370	O
+,	370	371	O
+it	372	374	O
+provides	375	383	O
+poor	384	388	O
+results	389	396	O
+if	397	399	O
+the	400	403	O
+histogram	404	413	B-Material
+of	414	416	O
+a	417	418	O
+gray	419	423	O
+level	424	429	O
+is	430	432	O
+non	433	436	O
+-	436	437	O
+bimodal	437	444	O
+.	444	445	O
+
+For	446	449	O
+enhancing	450	459	B-Task
+the	460	463	I-Task
+performance	464	475	I-Task
+of	476	478	O
+the	479	482	O
+Otsu	483	487	B-Process
+algorithm	488	497	I-Process
+further	498	505	O
+,	505	506	O
+in	507	509	O
+this	510	514	O
+work	515	519	O
+,	519	520	O
+an	521	523	O
+improved	524	532	O
+median	533	539	B-Process
+-	539	540	I-Process
+based	540	545	I-Process
+Otsu	546	550	I-Process
+image	551	556	I-Process
+thresholding	557	569	I-Process
+algorithm	570	579	I-Process
+is	580	582	O
+presented	583	592	O
+.	592	593	O
+
+Finally	594	601	O
+extensive	602	611	B-Task
+tests	612	617	I-Task
+are	618	621	O
+performed	622	631	O
+and	632	635	O
+the	636	639	O
+experiments	640	651	O
+show	652	656	O
+that	657	661	O
+our	662	665	O
+method	666	672	O
+obtain	673	679	O
+more	680	684	O
+satisfactory	685	697	O
+results	698	705	O
+than	706	710	O
+the	711	714	O
+original	715	723	O
+Otsu	724	728	B-Process
+thresholding	729	741	I-Process
+algorithm	742	751	I-Process
+.	751	752	O
 
 
 -DOCSTART- (S2212671612002351)
 
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-a	NN	O	O
-novel	NN	O	O
-position	NN	O	B-Task
-estimation	NN	O	I-Task
-method	NN	O	I-Task
-of	NN	O	O
-prism	NN	O	B-Material
-was	NN	O	O
-proposed	NN	O	O
-for	NN	O	O
-single	NN	O	B-Material
--	NN	O	I-Material
-lens	NN	O	I-Material
-stereovision	NN	O	I-Material
-system	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-prism	NN	O	B-Material
-with	NN	O	O
-multi	NN	O	O
-faces	NN	O	O
-was	NN	O	O
-considered	NN	O	O
-as	NN	O	O
-a	NN	O	O
-single	NN	O	B-Material
-optical	NN	O	I-Material
-system	NN	O	I-Material
-composed	NN	O	O
-of	NN	O	O
-some	NN	O	O
-refractive	NN	O	B-Material
-planes	NN	O	I-Material
-.	NN	O	O
-
-A	NN	O	O
-transformation	NN	O	B-Material
-matrix	NN	O	I-Material
-which	NN	O	O
-can	NN	O	O
-express	NN	O	B-Task
-the	NN	O	I-Task
-relationship	NN	O	I-Task
-between	NN	O	O
-an	NN	O	O
-object	NN	O	B-Material
-point	NN	O	I-Material
-and	NN	O	O
-its	NN	O	O
-image	NN	O	B-Material
-by	NN	O	O
-the	NN	O	O
-refraction	NN	O	B-Process
-of	NN	O	I-Process
-prism	NN	O	I-Process
-was	NN	O	O
-derived	NN	O	O
-based	NN	O	O
-on	NN	O	O
-geometrical	NN	O	B-Process
-optics	NN	O	I-Process
-,	NN	O	O
-and	NN	O	O
-a	NN	O	O
-mathematical	NN	O	B-Process
-model	NN	O	I-Process
-was	NN	O	O
-introduced	NN	O	O
-which	NN	O	O
-can	NN	O	O
-denote	NN	O	O
-the	NN	O	O
-position	NN	O	O
-of	NN	O	O
-prism	NN	O	B-Material
-with	NN	O	O
-arbitrary	NN	O	O
-faces	NN	O	O
-only	NN	O	O
-by	NN	O	O
-7	NN	O	O
-parameters	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-model	NN	O	O
-can	NN	O	O
-extend	NN	O	B-Process
-the	NN	O	I-Process
-application	NN	O	I-Process
-of	NN	O	I-Process
-single	NN	O	I-Process
--	NN	O	I-Process
-lens	NN	O	I-Process
-stereovision	NN	O	I-Process
-system	NN	O	I-Process
-using	NN	O	O
-prism	NN	O	B-Material
-to	NN	O	O
-a	NN	O	O
-more	NN	O	O
-widely	NN	O	O
-area	NN	O	O
-.	NN	O	O
-
-Experimentation	NN	O	O
-results	NN	O	O
-are	NN	O	O
-presented	NN	O	O
-to	NN	O	O
-prove	NN	O	O
-the	NN	O	O
-effectiveness	NN	O	B-Process
-and	NN	O	O
-robustness	NN	O	B-Process
-of	NN	O	O
-our	NN	O	O
-proposed	NN	O	O
-model	NN	O	O
-.	NN	O	O
+In	0	2	O
+this	3	7	O
+paper	8	13	O
+,	13	14	O
+a	15	16	O
+novel	17	22	O
+position	23	31	B-Task
+estimation	32	42	I-Task
+method	43	49	I-Task
+of	50	52	O
+prism	53	58	B-Material
+was	59	62	O
+proposed	63	71	O
+for	72	75	O
+single	76	82	B-Material
+-	82	83	I-Material
+lens	83	87	I-Material
+stereovision	88	100	I-Material
+system	101	107	I-Material
+.	107	108	O
+
+The	109	112	O
+prism	113	118	B-Material
+with	119	123	O
+multi	124	129	O
+faces	130	135	O
+was	136	139	O
+considered	140	150	O
+as	151	153	O
+a	154	155	O
+single	156	162	B-Material
+optical	163	170	I-Material
+system	171	177	I-Material
+composed	178	186	O
+of	187	189	O
+some	190	194	O
+refractive	195	205	B-Material
+planes	206	212	I-Material
+.	212	213	O
+
+A	214	215	O
+transformation	216	230	B-Material
+matrix	231	237	I-Material
+which	238	243	O
+can	244	247	O
+express	248	255	B-Task
+the	256	259	I-Task
+relationship	260	272	I-Task
+between	273	280	O
+an	281	283	O
+object	284	290	B-Material
+point	291	296	I-Material
+and	297	300	O
+its	301	304	O
+image	305	310	B-Material
+by	311	313	O
+the	314	317	O
+refraction	318	328	B-Process
+of	329	331	I-Process
+prism	332	337	I-Process
+was	338	341	O
+derived	342	349	O
+based	350	355	O
+on	356	358	O
+geometrical	359	370	B-Process
+optics	371	377	I-Process
+,	377	378	O
+and	379	382	O
+a	383	384	O
+mathematical	385	397	B-Process
+model	398	403	I-Process
+was	404	407	O
+introduced	408	418	O
+which	419	424	O
+can	425	428	O
+denote	429	435	O
+the	436	439	O
+position	440	448	O
+of	449	451	O
+prism	452	457	B-Material
+with	458	462	O
+arbitrary	463	472	O
+faces	473	478	O
+only	479	483	O
+by	484	486	O
+7	487	488	O
+parameters	489	499	O
+.	499	500	O
+
+This	501	505	O
+model	506	511	O
+can	512	515	O
+extend	516	522	B-Process
+the	523	526	I-Process
+application	527	538	I-Process
+of	539	541	I-Process
+single	542	548	I-Process
+-	548	549	I-Process
+lens	549	553	I-Process
+stereovision	554	566	I-Process
+system	567	573	I-Process
+using	574	579	O
+prism	580	585	B-Material
+to	586	588	O
+a	589	590	O
+more	591	595	O
+widely	596	602	O
+area	603	607	O
+.	607	608	O
+
+Experimentation	609	624	O
+results	625	632	O
+are	633	636	O
+presented	637	646	O
+to	647	649	O
+prove	650	655	O
+the	656	659	O
+effectiveness	660	673	B-Process
+and	674	677	O
+robustness	678	688	B-Process
+of	689	691	O
+our	692	695	O
+proposed	696	704	O
+model	705	710	O
+.	710	711	O
 
 
 -DOCSTART- (S2212671612002375)
 
-Power	NN	O	B-Process
-Grid	NN	O	I-Process
-reasoning	NN	O	I-Process
-expert	NN	O	I-Process
-system	NN	O	I-Process
-is	NN	O	O
-a	NN	O	O
-complex	NN	O	O
-system	NN	O	B-Process
-.	NN	O	O
-
-To	NN	O	O
-solve	NN	O	O
-knowledge	NN	O	B-Task
-sharing	NN	O	I-Task
-of	NN	O	I-Task
-knowledge	NN	O	I-Task
-Base	NN	O	I-Task
-in	NN	O	I-Task
-expert	NN	O	I-Task
-system	NN	O	I-Task
-,	NN	O	O
-we	NN	O	O
-abstract	NN	O	B-Task
-and	NN	O	I-Task
-analyze	NN	O	I-Task
-the	NN	O	I-Task
-power	NN	O	I-Task
-grid	NN	O	I-Task
-security	NN	O	I-Task
-investigation	NN	O	I-Task
-procedure	NN	O	I-Task
-by	NN	O	O
-using	NN	O	O
-ontology	NN	O	B-Process
-Technology	NN	O	I-Process
-.	NN	O	O
-
-With	NN	O	O
-ontology	NN	O	B-Material
--	NN	O	I-Material
-based	NN	O	I-Material
-Power	NN	O	I-Material
-Grid	NN	O	I-Material
-knowledge	NN	O	I-Material
-base	NN	O	I-Material
-,	NN	O	O
-we	NN	O	O
-establish	NN	O	O
-associated	NN	O	B-Task
-relationship	NN	O	I-Task
-of	NN	O	I-Task
-procedure	NN	O	I-Task
-vocabularies	NN	O	I-Task
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-paper	NN	O	O
-,	NN	O	O
-we	NN	O	O
-introduce	NN	O	B-Task
-and	NN	O	I-Task
-analyze	NN	O	I-Task
-of	NN	O	I-Task
-semantic	NN	O	I-Task
-reasoning	NN	O	I-Task
-tools	NN	O	I-Task
-such	NN	O	O
-as	NN	O	O
-Jena	NN	O	B-Material
-.	NN	O	O
-
-The	NN	O	O
-reasoner	NN	O	B-Process
-mechanism	NN	O	I-Process
-and	NN	O	O
-inference	NN	O	B-Material
-rules	NN	O	I-Material
-of	NN	O	I-Material
-grammar	NN	O	I-Material
-has	NN	O	O
-been	NN	O	O
-included	NN	O	O
-and	NN	O	O
-explained	NN	O	O
-.	NN	O	O
-
-At	NN	O	O
-last	NN	O	O
-we	NN	O	O
-give	NN	O	O
-a	NN	O	O
-specific	NN	O	B-Task
-application	NN	O	I-Task
-of	NN	O	I-Task
-security	NN	O	I-Task
-investigation	NN	O	I-Task
-procedure	NN	O	I-Task
-ontology	NN	O	I-Task
-and	NN	O	I-Task
-reasoning	NN	O	I-Task
-.	NN	O	O
+Power	0	5	B-Process
+Grid	6	10	I-Process
+reasoning	11	20	I-Process
+expert	21	27	I-Process
+system	28	34	I-Process
+is	35	37	O
+a	38	39	O
+complex	40	47	O
+system	48	54	B-Process
+.	54	55	O
+
+To	56	58	O
+solve	59	64	O
+knowledge	65	74	B-Task
+sharing	75	82	I-Task
+of	83	85	I-Task
+knowledge	86	95	I-Task
+Base	96	100	I-Task
+in	101	103	I-Task
+expert	104	110	I-Task
+system	111	117	I-Task
+,	117	118	O
+we	119	121	O
+abstract	122	130	B-Task
+and	131	134	I-Task
+analyze	135	142	I-Task
+the	143	146	I-Task
+power	147	152	I-Task
+grid	153	157	I-Task
+security	158	166	I-Task
+investigation	167	180	I-Task
+procedure	181	190	I-Task
+by	191	193	O
+using	194	199	O
+ontology	200	208	B-Process
+Technology	209	219	I-Process
+.	219	220	O
+
+With	221	225	O
+ontology	226	234	B-Material
+-	234	235	I-Material
+based	235	240	I-Material
+Power	241	246	I-Material
+Grid	247	251	I-Material
+knowledge	252	261	I-Material
+base	262	266	I-Material
+,	266	267	O
+we	268	270	O
+establish	271	280	O
+associated	281	291	B-Task
+relationship	292	304	I-Task
+of	305	307	I-Task
+procedure	308	317	I-Task
+vocabularies	318	330	I-Task
+.	330	331	O
+
+In	332	334	O
+this	335	339	O
+paper	340	345	O
+,	345	346	O
+we	347	349	O
+introduce	350	359	B-Task
+and	360	363	I-Task
+analyze	364	371	I-Task
+of	372	374	I-Task
+semantic	375	383	I-Task
+reasoning	384	393	I-Task
+tools	394	399	I-Task
+such	400	404	O
+as	405	407	O
+Jena	408	412	B-Material
+.	412	413	O
+
+The	414	417	O
+reasoner	418	426	B-Process
+mechanism	427	436	I-Process
+and	437	440	O
+inference	441	450	B-Material
+rules	451	456	I-Material
+of	457	459	I-Material
+grammar	460	467	I-Material
+has	468	471	O
+been	472	476	O
+included	477	485	O
+and	486	489	O
+explained	490	499	O
+.	499	500	O
+
+At	501	503	O
+last	504	508	O
+we	509	511	O
+give	512	516	O
+a	517	518	O
+specific	519	527	B-Task
+application	528	539	I-Task
+of	540	542	I-Task
+security	543	551	I-Task
+investigation	552	565	I-Task
+procedure	566	575	I-Task
+ontology	576	584	I-Task
+and	585	588	I-Task
+reasoning	589	598	I-Task
+.	598	599	O
 
 
 -DOCSTART- (S221450951400031X)
 
-This	NN	O	O
-phase	NN	O	O
-was	NN	O	O
-completed	NN	O	O
-in	NN	O	O
-2005	NN	O	O
-.	NN	O	O
-
-Previous	NN	O	O
-contracts	NN	O	O
-had	NN	O	O
-been	NN	O	O
-procured	NN	O	O
-with	NN	O	O
-the	NN	O	O
-contractor	NN	O	O
-providing	NN	O	O
-the	NN	O	O
-detailed	NN	O	B-Material
-design	NN	O	I-Material
-.	NN	O	O
-
-For	NN	O	O
-this	NN	O	O
-system	NN	O	O
-the	NN	O	O
-design	NN	O	O
-was	NN	O	O
-undertaken	NN	O	O
-by	NN	O	O
-Mott	NN	O	O
-MacDonald	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-was	NN	O	O
-developed	NN	O	O
-by	NN	O	O
-looking	NN	O	B-Process
-at	NN	O	I-Process
-the	NN	O	I-Process
-systems	NN	O	I-Process
-installed	NN	O	I-Process
-previously	NN	O	I-Process
-and	NN	O	I-Process
-calculating	NN	O	I-Process
-what	NN	O	O
-was	NN	O	O
-actually	NN	O	O
-required	NN	O	O
-to	NN	O	O
-achieve	NN	O	O
-cathodic	NN	O	B-Task
-protection	NN	O	I-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-piers	NN	O	I-Task
-.	NN	O	O
-
-This	NN	O	O
-resulted	NN	O	O
-in	NN	O	O
-a	NN	O	O
-significant	NN	O	B-Process
-reduction	NN	O	I-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-number	NN	O	I-Process
-of	NN	O	I-Process
-zones	NN	O	I-Process
-and	NN	O	I-Process
-monitoring	NN	O	I-Process
-probes	NN	O	I-Process
-.	NN	O	O
-
-The	NN	O	O
-varying	NN	O	B-Process
-amounts	NN	O	I-Process
-of	NN	O	I-Process
-steelwork	NN	O	I-Process
-in	NN	O	O
-the	NN	O	O
-beams	NN	O	O
-had	NN	O	O
-previously	NN	O	O
-lead	NN	O	O
-to	NN	O	O
-up	NN	O	O
-to	NN	O	O
-5	NN	O	O
-zones	NN	O	O
-per	NN	O	O
-beam	NN	O	O
-,	NN	O	O
-with	NN	O	O
-multiple	NN	O	B-Process
-layers	NN	O	I-Process
-of	NN	O	I-Process
-mesh	NN	O	I-Process
-to	NN	O	O
-achieve	NN	O	O
-the	NN	O	O
-design	NN	O	O
-current	NN	O	O
-density	NN	O	O
-.	NN	O	O
-
-On	NN	O	O
-review	NN	O	O
-of	NN	O	O
-the	NN	O	O
-data	NN	O	B-Material
-the	NN	O	O
-operating	NN	O	O
-current	NN	O	O
-density	NN	O	O
-was	NN	O	O
-similar	NN	O	O
-in	NN	O	O
-all	NN	O	O
-zones	NN	O	O
-and	NN	O	O
-so	NN	O	O
-this	NN	O	O
-was	NN	O	O
-reduced	NN	O	O
-to	NN	O	O
-a	NN	O	O
-single	NN	O	O
-zone	NN	O	O
-per	NN	O	O
-beam	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-encapsulation	NN	O	B-Process
-was	NN	O	O
-susceptible	NN	O	O
-to	NN	O	O
-ASR	NN	O	B-Process
-and	NN	O	O
-contained	NN	O	O
-post	NN	O	O
-tensioning	NN	O	O
-
-and	NN	O	O
-so	NN	O	O
-it	NN	O	O
-was	NN	O	O
-decided	NN	O	O
-to	NN	O	O
-use	NN	O	O
-a	NN	O	O
-galvanic	NN	O	B-Material
-system	NN	O	I-Material
-based	NN	O	O
-on	NN	O	O
-Galvashield	NN	O	B-Material
-CC	NN	O	I-Material
-anodes	NN	O	I-Material
-from	NN	O	O
-Fosroc	NN	O	O
-.	NN	O	O
-
-Our	NN	O	O
-design	NN	O	O
-did	NN	O	O
-not	NN	O	O
-include	NN	O	O
-an	NN	O	O
-option	NN	O	O
-to	NN	O	O
-allow	NN	O	O
-depolarization	NN	O	B-Task
-of	NN	O	I-Task
-the	NN	O	I-Task
-galvanic	NN	O	I-Task
-system	NN	O	I-Task
-,	NN	O	O
-but	NN	O	O
-the	NN	O	O
-contractor	NN	O	O
-supplied	NN	O	O
-one	NN	O	O
-,	NN	O	O
-such	NN	O	O
-that	NN	O	O
-the	NN	O	O
-anodes	NN	O	O
-could	NN	O	O
-be	NN	O	O
-remotely	NN	O	O
-disconnected	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-control	NN	O	O
-unit	NN	O	O
-was	NN	O	O
-from	NN	O	O
-Electrotech	NN	O	O
-CP	NN	O	O
-and	NN	O	O
-operated	NN	O	O
-via	NN	O	O
-a	NN	O	O
-broadband	NN	O	B-Process
-connection	NN	O	I-Process
-provided	NN	O	O
-by	NN	O	O
-the	NN	O	O
-contractor	NN	O	O
-.	NN	O	O
+This	0	4	O
+phase	5	10	O
+was	11	14	O
+completed	15	24	O
+in	25	27	O
+2005	28	32	O
+.	32	33	O
+
+Previous	34	42	O
+contracts	43	52	O
+had	53	56	O
+been	57	61	O
+procured	62	70	O
+with	71	75	O
+the	76	79	O
+contractor	80	90	O
+providing	91	100	O
+the	101	104	O
+detailed	105	113	B-Material
+design	114	120	I-Material
+.	120	121	O
+
+For	122	125	O
+this	126	130	O
+system	131	137	O
+the	138	141	O
+design	142	148	O
+was	149	152	O
+undertaken	153	163	O
+by	164	166	O
+Mott	167	171	O
+MacDonald	172	181	O
+.	181	182	O
+
+It	183	185	O
+was	186	189	O
+developed	190	199	O
+by	200	202	O
+looking	203	210	B-Process
+at	211	213	I-Process
+the	214	217	I-Process
+systems	218	225	I-Process
+installed	226	235	I-Process
+previously	236	246	I-Process
+and	247	250	I-Process
+calculating	251	262	I-Process
+what	263	267	O
+was	268	271	O
+actually	272	280	O
+required	281	289	O
+to	290	292	O
+achieve	293	300	O
+cathodic	301	309	B-Task
+protection	310	320	I-Task
+of	321	323	I-Task
+the	324	327	I-Task
+piers	328	333	I-Task
+.	333	334	O
+
+This	335	339	O
+resulted	340	348	O
+in	349	351	O
+a	352	353	O
+significant	354	365	B-Process
+reduction	366	375	I-Process
+in	376	378	I-Process
+the	379	382	I-Process
+number	383	389	I-Process
+of	390	392	I-Process
+zones	393	398	I-Process
+and	399	402	I-Process
+monitoring	403	413	I-Process
+probes	414	420	I-Process
+.	420	421	O
+
+The	422	425	O
+varying	426	433	B-Process
+amounts	434	441	I-Process
+of	442	444	I-Process
+steelwork	445	454	I-Process
+in	455	457	O
+the	458	461	O
+beams	462	467	O
+had	468	471	O
+previously	472	482	O
+lead	483	487	O
+to	488	490	O
+up	491	493	O
+to	494	496	O
+5	497	498	O
+zones	499	504	O
+per	505	508	O
+beam	509	513	O
+,	513	514	O
+with	515	519	O
+multiple	520	528	B-Process
+layers	529	535	I-Process
+of	536	538	I-Process
+mesh	539	543	I-Process
+to	544	546	O
+achieve	547	554	O
+the	555	558	O
+design	559	565	O
+current	566	573	O
+density	574	581	O
+.	581	582	O
+
+On	583	585	O
+review	586	592	O
+of	593	595	O
+the	596	599	O
+data	600	604	B-Material
+the	605	608	O
+operating	609	618	O
+current	619	626	O
+density	627	634	O
+was	635	638	O
+similar	639	646	O
+in	647	649	O
+all	650	653	O
+zones	654	659	O
+and	660	663	O
+so	664	666	O
+this	667	671	O
+was	672	675	O
+reduced	676	683	O
+to	684	686	O
+a	687	688	O
+single	689	695	O
+zone	696	700	O
+per	701	704	O
+beam	705	709	O
+.	709	710	O
+
+The	711	714	O
+encapsulation	715	728	B-Process
+was	729	732	O
+susceptible	733	744	O
+to	745	747	O
+ASR	748	751	B-Process
+and	752	755	O
+contained	756	765	O
+post	766	770	O
+tensioning	771	781	O
+
+and	782	785	O
+so	786	788	O
+it	789	791	O
+was	792	795	O
+decided	796	803	O
+to	804	806	O
+use	807	810	O
+a	811	812	O
+galvanic	813	821	B-Material
+system	822	828	I-Material
+based	829	834	O
+on	835	837	O
+Galvashield	838	849	B-Material
+CC	850	852	I-Material
+anodes	853	859	I-Material
+from	860	864	O
+Fosroc	865	871	O
+.	871	872	O
+
+Our	873	876	O
+design	877	883	O
+did	884	887	O
+not	888	891	O
+include	892	899	O
+an	900	902	O
+option	903	909	O
+to	910	912	O
+allow	913	918	O
+depolarization	919	933	B-Task
+of	934	936	I-Task
+the	937	940	I-Task
+galvanic	941	949	I-Task
+system	950	956	I-Task
+,	956	957	O
+but	958	961	O
+the	962	965	O
+contractor	966	976	O
+supplied	977	985	O
+one	986	989	O
+,	989	990	O
+such	991	995	O
+that	996	1000	O
+the	1001	1004	O
+anodes	1005	1011	O
+could	1012	1017	O
+be	1018	1020	O
+remotely	1021	1029	O
+disconnected	1030	1042	O
+.	1042	1043	O
+
+The	1044	1047	O
+control	1048	1055	O
+unit	1056	1060	O
+was	1061	1064	O
+from	1065	1069	O
+Electrotech	1070	1081	O
+CP	1082	1084	O
+and	1085	1088	O
+operated	1089	1097	O
+via	1098	1101	O
+a	1102	1103	O
+broadband	1104	1113	B-Process
+connection	1114	1124	I-Process
+provided	1125	1133	O
+by	1134	1136	O
+the	1137	1140	O
+contractor	1141	1151	O
+.	1151	1152	O
 
 
 -DOCSTART- (S221450951530005X)
 
-An	NN	O	O
-innovative	NN	O	O
-sound	NN	O	B-Material
-wall	NN	O	I-Material
-system	NN	O	I-Material
-was	NN	O	O
-developed	NN	O	O
-in	NN	O	O
-the	NN	O	O
-University	NN	O	O
-of	NN	O	O
-Western	NN	O	O
-Ontario	NN	O	O
-,	NN	O	O
-and	NN	O	O
-was	NN	O	O
-examined	NN	O	O
-to	NN	O	O
-serve	NN	O	O
-as	NN	O	O
-a	NN	O	O
-vertical	NN	O	O
-extension	NN	O	O
-to	NN	O	O
-the	NN	O	O
-existing	NN	O	B-Material
-sound	NN	O	I-Material
-walls	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-wall	NN	O	B-Material
-system	NN	O	I-Material
-(	NN	O	O
-denoted	NN	O	O
-as	NN	O	O
-flexi	NN	O	B-Material
--	NN	O	I-Material
-wall	NN	O	I-Material
-)	NN	O	O
-consists	NN	O	O
-of	NN	O	O
-stay	NN	O	B-Material
--	NN	O	I-Material
-in	NN	O	I-Material
--	NN	O	I-Material
-place	NN	O	I-Material
-poly	NN	O	I-Material
--	NN	O	I-Material
-blocks	NN	O	I-Material
-as	NN	O	O
-formwork	NN	O	O
-,	NN	O	O
-light	NN	O	B-Material
-polyurethane	NN	O	I-Material
-foam	NN	O	I-Material
-(	NN	O	O
-LPF	NN	O	B-Material
-)	NN	O	O
-reinforced	NN	O	O
-with	NN	O	O
-steel	NN	O	B-Material
-rebars	NN	O	I-Material
-as	NN	O	O
-structural	NN	O	B-Material
-cores	NN	O	I-Material
-and	NN	O	O
-polyurea	NN	O	B-Material
-as	NN	O	O
-a	NN	O	O
-coating	NN	O	B-Process
-of	NN	O	O
-the	NN	O	O
-wall	NN	O	B-Material
-surfaces	NN	O	I-Material
-(	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-1	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Poly	NN	O	B-Material
--	NN	O	I-Material
-blocks	NN	O	I-Material
-are	NN	O	O
-interlocking	NN	O	B-Material
-light	NN	O	I-Material
--	NN	O	I-Material
-weight	NN	O	I-Material
-blocks	NN	O	I-Material
-which	NN	O	O
-are	NN	O	O
-stacked	NN	O	O
-up	NN	O	O
-layer	NN	O	O
-by	NN	O	O
-layer	NN	O	O
-and	NN	O	O
-act	NN	O	O
-as	NN	O	O
-formwork	NN	O	O
-for	NN	O	O
-the	NN	O	O
-LPF	NN	O	B-Material
-cores	NN	O	I-Material
-.	NN	O	O
-
-The	NN	O	O
-poly	NN	O	B-Material
--	NN	O	I-Material
-block	NN	O	I-Material
-is	NN	O	O
-20×20×80cm3	NN	O	O
-and	NN	O	O
-includes	NN	O	O
-four	NN	O	O
-cylindrical	NN	O	B-Material
-voids	NN	O	I-Material
-with	NN	O	O
-14	NN	O	O
-cm	NN	O	O
-diameter	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-made	NN	O	O
-of	NN	O	O
-molded	NN	O	B-Material
-low	NN	O	I-Material
--	NN	O	I-Material
-density	NN	O	I-Material
-polyurethane	NN	O	I-Material
-and	NN	O	O
-weighs	NN	O	O
-approximately	NN	O	O
-1	NN	O	O
-kg	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-poly	NN	O	B-Material
--	NN	O	I-Material
-blocks	NN	O	I-Material
-are	NN	O	O
-fire	NN	O	B-Material
--	NN	O	I-Material
-resistant	NN	O	I-Material
-blocks	NN	O	I-Material
-and	NN	O	O
-have	NN	O	O
-an	NN	O	O
-excellent	NN	O	O
-capability	NN	O	O
-to	NN	O	O
-absorb	NN	O	B-Process
-,	NN	O	O
-mitigate	NN	O	B-Process
-and	NN	O	O
-reflect	NN	O	B-Process
-a	NN	O	O
-wide	NN	O	O
-range	NN	O	O
-of	NN	O	O
-noises	NN	O	O
-with	NN	O	O
-unmatched	NN	O	O
-frequency	NN	O	O
-of	NN	O	O
-reflective	NN	O	O
-noise	NN	O	O
-.	NN	O	O
-
-Polyurea	NN	O	B-Material
-coating	NN	O	I-Material
-is	NN	O	O
-an	NN	O	O
-abrasion	NN	O	B-Material
--	NN	O	I-Material
-resistant	NN	O	I-Material
-finishing	NN	O	I-Material
-layer	NN	O	I-Material
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-sprayed	NN	O	B-Process
-on	NN	O	O
-the	NN	O	O
-surfaces	NN	O	B-Material
-of	NN	O	I-Material
-the	NN	O	I-Material
-wall	NN	O	I-Material
-and	NN	O	O
-sets	NN	O	O
-within	NN	O	O
-2–3min	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-layer	NN	O	B-Material
-also	NN	O	O
-enhances	NN	O	B-Process
-the	NN	O	I-Process
-surface	NN	O	I-Process
-resistance	NN	O	I-Process
-of	NN	O	O
-poly	NN	O	B-Material
--	NN	O	I-Material
-blocks	NN	O	I-Material
-against	NN	O	O
-stone	NN	O	B-Process
-impact	NN	O	I-Process
-,	NN	O	O
-weathering	NN	O	B-Process
-,	NN	O	O
-fire	NN	O	B-Process
-development	NN	O	I-Process
-,	NN	O	O
-chemicals	NN	O	B-Material
-and	NN	O	O
-penetration	NN	O	B-Process
-.	NN	O	O
-
-LPF	NN	O	B-Material
-is	NN	O	O
-an	NN	O	O
-expanding	NN	O	B-Material
-liquid	NN	O	I-Material
-mixture	NN	O	I-Material
-which	NN	O	O
-is	NN	O	O
-injected	NN	O	O
-into	NN	O	O
-the	NN	O	O
-poly	NN	O	B-Material
--	NN	O	I-Material
-block	NN	O	I-Material
-voids	NN	O	I-Material
-and	NN	O	O
-cures	NN	O	B-Material
-within	NN	O	O
-10min	NN	O	O
-.	NN	O	O
-
-Steel	NN	O	B-Material
-rebars	NN	O	I-Material
-are	NN	O	O
-epoxied	NN	O	O
-into	NN	O	O
-holes	NN	O	B-Material
-drilled	NN	O	O
-in	NN	O	O
-the	NN	O	O
-existing	NN	O	B-Material
-sound	NN	O	I-Material
-wall	NN	O	I-Material
-to	NN	O	O
-connect	NN	O	O
-the	NN	O	O
-wall	NN	O	B-Material
-extension	NN	O	I-Material
-to	NN	O	O
-its	NN	O	O
-base	NN	O	B-Material
-.	NN	O	O
+An	0	2	O
+innovative	3	13	O
+sound	14	19	B-Material
+wall	20	24	I-Material
+system	25	31	I-Material
+was	32	35	O
+developed	36	45	O
+in	46	48	O
+the	49	52	O
+University	53	63	O
+of	64	66	O
+Western	67	74	O
+Ontario	75	82	O
+,	82	83	O
+and	84	87	O
+was	88	91	O
+examined	92	100	O
+to	101	103	O
+serve	104	109	O
+as	110	112	O
+a	113	114	O
+vertical	115	123	O
+extension	124	133	O
+to	134	136	O
+the	137	140	O
+existing	141	149	B-Material
+sound	150	155	I-Material
+walls	156	161	I-Material
+.	161	162	O
+
+The	163	166	O
+wall	167	171	B-Material
+system	172	178	I-Material
+(	179	180	O
+denoted	180	187	O
+as	188	190	O
+flexi	191	196	B-Material
+-	196	197	I-Material
+wall	197	201	I-Material
+)	201	202	O
+consists	203	211	O
+of	212	214	O
+stay	215	219	B-Material
+-	219	220	I-Material
+in	220	222	I-Material
+-	222	223	I-Material
+place	223	228	I-Material
+poly	229	233	I-Material
+-	233	234	I-Material
+blocks	234	240	I-Material
+as	241	243	O
+formwork	244	252	O
+,	252	253	O
+light	254	259	B-Material
+polyurethane	260	272	I-Material
+foam	273	277	I-Material
+(	278	279	O
+LPF	279	282	B-Material
+)	282	283	O
+reinforced	284	294	O
+with	295	299	O
+steel	300	305	B-Material
+rebars	306	312	I-Material
+as	313	315	O
+structural	316	326	B-Material
+cores	327	332	I-Material
+and	333	336	O
+polyurea	337	345	B-Material
+as	346	348	O
+a	349	350	O
+coating	351	358	B-Process
+of	359	361	O
+the	362	365	O
+wall	366	370	B-Material
+surfaces	371	379	I-Material
+(	380	381	O
+Fig	381	384	O
+.	384	385	O
+
+1	386	387	O
+)	387	388	O
+.	388	389	O
+
+Poly	390	394	B-Material
+-	394	395	I-Material
+blocks	395	401	I-Material
+are	402	405	O
+interlocking	406	418	B-Material
+light	419	424	I-Material
+-	424	425	I-Material
+weight	425	431	I-Material
+blocks	432	438	I-Material
+which	439	444	O
+are	445	448	O
+stacked	449	456	O
+up	457	459	O
+layer	460	465	O
+by	466	468	O
+layer	469	474	O
+and	475	478	O
+act	479	482	O
+as	483	485	O
+formwork	486	494	O
+for	495	498	O
+the	499	502	O
+LPF	503	506	B-Material
+cores	507	512	I-Material
+.	512	513	O
+
+The	514	517	O
+poly	518	522	B-Material
+-	522	523	I-Material
+block	523	528	I-Material
+is	529	531	O
+20×20×80cm3	532	543	O
+and	544	547	O
+includes	548	556	O
+four	557	561	O
+cylindrical	562	573	B-Material
+voids	574	579	I-Material
+with	580	584	O
+14	585	587	O
+cm	587	589	O
+diameter	590	598	O
+.	598	599	O
+
+It	600	602	O
+is	603	605	O
+made	606	610	O
+of	611	613	O
+molded	614	620	B-Material
+low	621	624	I-Material
+-	624	625	I-Material
+density	625	632	I-Material
+polyurethane	633	645	I-Material
+and	646	649	O
+weighs	650	656	O
+approximately	657	670	O
+1	671	672	O
+kg	672	674	O
+.	674	675	O
+
+The	676	679	O
+poly	680	684	B-Material
+-	684	685	I-Material
+blocks	685	691	I-Material
+are	692	695	O
+fire	696	700	B-Material
+-	700	701	I-Material
+resistant	701	710	I-Material
+blocks	711	717	I-Material
+and	718	721	O
+have	722	726	O
+an	727	729	O
+excellent	730	739	O
+capability	740	750	O
+to	751	753	O
+absorb	754	760	B-Process
+,	760	761	O
+mitigate	762	770	B-Process
+and	771	774	O
+reflect	775	782	B-Process
+a	783	784	O
+wide	785	789	O
+range	790	795	O
+of	796	798	O
+noises	799	805	O
+with	806	810	O
+unmatched	811	820	O
+frequency	821	830	O
+of	831	833	O
+reflective	834	844	O
+noise	845	850	O
+.	850	851	O
+
+Polyurea	852	860	B-Material
+coating	861	868	I-Material
+is	869	871	O
+an	872	874	O
+abrasion	875	883	B-Material
+-	883	884	I-Material
+resistant	884	893	I-Material
+finishing	894	903	I-Material
+layer	904	909	I-Material
+,	909	910	O
+which	911	916	O
+is	917	919	O
+sprayed	920	927	B-Process
+on	928	930	O
+the	931	934	O
+surfaces	935	943	B-Material
+of	944	946	I-Material
+the	947	950	I-Material
+wall	951	955	I-Material
+and	956	959	O
+sets	960	964	O
+within	965	971	O
+2–3min	972	978	O
+.	978	979	O
+
+This	980	984	O
+layer	985	990	B-Material
+also	991	995	O
+enhances	996	1004	B-Process
+the	1005	1008	I-Process
+surface	1009	1016	I-Process
+resistance	1017	1027	I-Process
+of	1028	1030	O
+poly	1031	1035	B-Material
+-	1035	1036	I-Material
+blocks	1036	1042	I-Material
+against	1043	1050	O
+stone	1051	1056	B-Process
+impact	1057	1063	I-Process
+,	1063	1064	O
+weathering	1065	1075	B-Process
+,	1075	1076	O
+fire	1077	1081	B-Process
+development	1082	1093	I-Process
+,	1093	1094	O
+chemicals	1095	1104	B-Material
+and	1105	1108	O
+penetration	1109	1120	B-Process
+.	1120	1121	O
+
+LPF	1122	1125	B-Material
+is	1126	1128	O
+an	1129	1131	O
+expanding	1132	1141	B-Material
+liquid	1142	1148	I-Material
+mixture	1149	1156	I-Material
+which	1157	1162	O
+is	1163	1165	O
+injected	1166	1174	O
+into	1175	1179	O
+the	1180	1183	O
+poly	1184	1188	B-Material
+-	1188	1189	I-Material
+block	1189	1194	I-Material
+voids	1195	1200	I-Material
+and	1201	1204	O
+cures	1205	1210	B-Material
+within	1211	1217	O
+10min	1218	1223	O
+.	1223	1224	O
+
+Steel	1225	1230	B-Material
+rebars	1231	1237	I-Material
+are	1238	1241	O
+epoxied	1242	1249	O
+into	1250	1254	O
+holes	1255	1260	B-Material
+drilled	1261	1268	O
+in	1269	1271	O
+the	1272	1275	O
+existing	1276	1284	B-Material
+sound	1285	1290	I-Material
+wall	1291	1295	I-Material
+to	1296	1298	O
+connect	1299	1306	O
+the	1307	1310	O
+wall	1311	1315	B-Material
+extension	1316	1325	I-Material
+to	1326	1328	O
+its	1329	1332	O
+base	1333	1337	B-Material
+.	1337	1338	O
 
 
 -DOCSTART- (S2214509515300103)
 
-Another	NN	O	O
-important	NN	O	O
-reason	NN	O	O
-for	NN	O	O
-the	NN	O	O
-damages	NN	O	O
-incurred	NN	O	O
-by	NN	O	O
-the	NN	O	O
-RC	NN	O	O
-buildings	NN	O	O
-is	NN	O	O
-workmanship	NN	O	B-Process
-defects	NN	O	I-Process
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-understood	NN	O	O
-that	NN	O	O
-granulometry	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-handmade	NN	O	I-Process
-concretes	NN	O	I-Process
-was	NN	O	O
-not	NN	O	O
-in	NN	O	O
-compliance	NN	O	O
-with	NN	O	O
-the	NN	O	O
-standards	NN	O	O
-since	NN	O	O
-the	NN	O	O
-aggregate	NN	O	O
-utilized	NN	O	O
-in	NN	O	O
-them	NN	O	O
-was	NN	O	O
-not	NN	O	O
-sieved	NN	O	O
-.	NN	O	O
-
-Also	NN	O	O
-the	NN	O	O
-compaction	NN	O	B-Process
-process	NN	O	I-Process
-was	NN	O	O
-not	NN	O	O
-properly	NN	O	O
-implemented	NN	O	O
-in	NN	O	O
-general	NN	O	O
-in	NN	O	O
-the	NN	O	O
-installment	NN	O	B-Process
-of	NN	O	I-Process
-concrete	NN	O	I-Process
-in	NN	O	O
-RC	NN	O	O
-buildings	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-situation	NN	O	O
-resulted	NN	O	O
-in	NN	O	O
-the	NN	O	O
-concrete	NN	O	B-Material
-to	NN	O	O
-exhibit	NN	O	O
-an	NN	O	O
-excessively	NN	O	O
-porous	NN	O	O
-structure	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-most	NN	O	O
-fundamental	NN	O	O
-rules	NN	O	O
-of	NN	O	O
-thumb	NN	O	O
-of	NN	O	O
-construction	NN	O	O
-,	NN	O	O
-namely	NN	O	O
-concrete	NN	O	B-Material
-cover	NN	O	I-Material
-,	NN	O	O
-was	NN	O	O
-not	NN	O	O
-taken	NN	O	O
-care	NN	O	O
-of	NN	O	O
-in	NN	O	O
-formwork	NN	O	O
-workmanship	NN	O	O
-.	NN	O	O
-
-Faults	NN	O	B-Process
-in	NN	O	I-Process
-the	NN	O	I-Process
-connections	NN	O	I-Process
-of	NN	O	I-Process
-stirrups	NN	O	I-Process
-to	NN	O	O
-the	NN	O	O
-longitudinal	NN	O	O
-bars	NN	O	O
-,	NN	O	O
-unstaggered	NN	O	B-Process
-formation	NN	O	I-Process
-of	NN	O	I-Process
-stirrup	NN	O	I-Process
-hooks	NN	O	B-Material
-in	NN	O	O
-beams	NN	O	B-Material
-and	NN	O	O
-columns	NN	O	B-Material
-,	NN	O	O
-the	NN	O	O
-perpendicular	NN	O	B-Process
-angles	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-hooks	NN	O	B-Material
-,	NN	O	O
-inadequately	NN	O	B-Process
-anchorage	NN	O	I-Process
-lengths	NN	O	I-Process
-of	NN	O	O
-the	NN	O	O
-stirrup	NN	O	B-Material
-hooks	NN	O	I-Material
-and	NN	O	O
-longitudinal	NN	O	B-Material
-bars	NN	O	I-Material
-,	NN	O	O
-and	NN	O	O
-the	NN	O	O
-use	NN	O	B-Process
-of	NN	O	I-Process
-cold	NN	O	I-Process
-joints	NN	O	I-Process
-were	NN	O	O
-the	NN	O	O
-other	NN	O	O
-frequently	NN	O	O
-encountered	NN	O	O
-workmanship	NN	O	B-Process
-defects	NN	O	I-Process
-(	NN	O	O
-Figs	NN	O	O
-.	NN	O	O
-
-19–22	NN	O	O
-)	NN	O	O
-.	NN	O	O
+Another	0	7	O
+important	8	17	O
+reason	18	24	O
+for	25	28	O
+the	29	32	O
+damages	33	40	O
+incurred	41	49	O
+by	50	52	O
+the	53	56	O
+RC	57	59	O
+buildings	60	69	O
+is	70	72	O
+workmanship	73	84	B-Process
+defects	85	92	I-Process
+.	92	93	O
+
+It	94	96	O
+is	97	99	O
+understood	100	110	O
+that	111	115	O
+granulometry	116	128	B-Process
+of	129	131	I-Process
+the	132	135	I-Process
+handmade	136	144	I-Process
+concretes	145	154	I-Process
+was	155	158	O
+not	159	162	O
+in	163	165	O
+compliance	166	176	O
+with	177	181	O
+the	182	185	O
+standards	186	195	O
+since	196	201	O
+the	202	205	O
+aggregate	206	215	O
+utilized	216	224	O
+in	225	227	O
+them	228	232	O
+was	233	236	O
+not	237	240	O
+sieved	241	247	O
+.	247	248	O
+
+Also	249	253	O
+the	254	257	O
+compaction	258	268	B-Process
+process	269	276	I-Process
+was	277	280	O
+not	281	284	O
+properly	285	293	O
+implemented	294	305	O
+in	306	308	O
+general	309	316	O
+in	317	319	O
+the	320	323	O
+installment	324	335	B-Process
+of	336	338	I-Process
+concrete	339	347	I-Process
+in	348	350	O
+RC	351	353	O
+buildings	354	363	O
+.	363	364	O
+
+This	365	369	O
+situation	370	379	O
+resulted	380	388	O
+in	389	391	O
+the	392	395	O
+concrete	396	404	B-Material
+to	405	407	O
+exhibit	408	415	O
+an	416	418	O
+excessively	419	430	O
+porous	431	437	O
+structure	438	447	O
+.	447	448	O
+
+The	449	452	O
+most	453	457	O
+fundamental	458	469	O
+rules	470	475	O
+of	476	478	O
+thumb	479	484	O
+of	485	487	O
+construction	488	500	O
+,	500	501	O
+namely	502	508	O
+concrete	509	517	B-Material
+cover	518	523	I-Material
+,	523	524	O
+was	525	528	O
+not	529	532	O
+taken	533	538	O
+care	539	543	O
+of	544	546	O
+in	547	549	O
+formwork	550	558	O
+workmanship	559	570	O
+.	570	571	O
+
+Faults	572	578	B-Process
+in	579	581	I-Process
+the	582	585	I-Process
+connections	586	597	I-Process
+of	598	600	I-Process
+stirrups	601	609	I-Process
+to	610	612	O
+the	613	616	O
+longitudinal	617	629	O
+bars	630	634	O
+,	634	635	O
+unstaggered	636	647	B-Process
+formation	648	657	I-Process
+of	658	660	I-Process
+stirrup	661	668	I-Process
+hooks	669	674	B-Material
+in	675	677	O
+beams	678	683	B-Material
+and	684	687	O
+columns	688	695	B-Material
+,	695	696	O
+the	697	700	O
+perpendicular	701	714	B-Process
+angles	715	721	I-Process
+of	722	724	O
+the	725	728	O
+hooks	729	734	B-Material
+,	734	735	O
+inadequately	736	748	B-Process
+anchorage	749	758	I-Process
+lengths	759	766	I-Process
+of	767	769	O
+the	770	773	O
+stirrup	774	781	B-Material
+hooks	782	787	I-Material
+and	788	791	O
+longitudinal	792	804	B-Material
+bars	805	809	I-Material
+,	809	810	O
+and	811	814	O
+the	815	818	O
+use	819	822	B-Process
+of	823	825	I-Process
+cold	826	830	I-Process
+joints	831	837	I-Process
+were	838	842	O
+the	843	846	O
+other	847	852	O
+frequently	853	863	O
+encountered	864	875	O
+workmanship	876	887	B-Process
+defects	888	895	I-Process
+(	896	897	O
+Figs	897	901	O
+.	901	902	O
+
+19–22	903	908	O
+)	908	909	O
+.	909	910	O
 
 
 -DOCSTART- (S2214657115000052)
 
-The	NN	O	O
-exponential	NN	O	B-Process
-relationships	NN	O	I-Process
-reported	NN	O	O
-in	NN	O	O
-the	NN	O	O
-plots	NN	O	O
-may	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-convert	NN	O	B-Task
-the	NN	O	I-Task
-dielectric	NN	O	I-Task
-values	NN	O	I-Task
-to	NN	O	I-Task
-air	NN	O	I-Task
-void	NN	O	I-Task
-values	NN	O	I-Task
-as	NN	O	O
-prescribed	NN	O	O
-in	NN	O	O
-previous	NN	O	O
-studies	NN	O	O
-[	NN	O	O
-1–3	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-AC	NN	O	B-Process
-pavement	NN	O	I-Process
-composite	NN	O	I-Process
-permittivity	NN	O	I-Process
-reduces	NN	O	O
-,	NN	O	O
-along	NN	O	O
-with	NN	O	O
-the	NN	O	O
-reflection	NN	O	O
-coefficient	NN	O	O
-,	NN	O	O
-as	NN	O	O
-the	NN	O	O
-volumetric	NN	O	B-Process
-proportion	NN	O	I-Process
-of	NN	O	I-Process
-air	NN	O	I-Process
-increases	NN	O	O
-as	NN	O	O
-compared	NN	O	O
-to	NN	O	O
-the	NN	O	O
-remaining	NN	O	O
-components	NN	O	O
-.	NN	O	O
-
-However	NN	O	O
-,	NN	O	O
-the	NN	O	O
-method	NN	O	O
-relies	NN	O	O
-on	NN	O	O
-an	NN	O	O
-empirical	NN	O	O
-fit	NN	O	O
-,	NN	O	O
-determined	NN	O	O
-on	NN	O	O
-a	NN	O	O
-case	NN	O	O
--	NN	O	O
-by	NN	O	O
--	NN	O	O
-case	NN	O	O
-basis	NN	O	O
-,	NN	O	O
-since	NN	O	O
-the	NN	O	O
-permittivity	NN	O	O
-of	NN	O	O
-the	NN	O	O
-remaining	NN	O	O
-components	NN	O	O
-depends	NN	O	O
-on	NN	O	O
-the	NN	O	O
-mix	NN	O	B-Material
-design	NN	O	I-Material
-(	NN	O	O
-aggregate	NN	O	O
-type	NN	O	O
-,	NN	O	O
-binder	NN	O	O
-content	NN	O	O
-,	NN	O	O
-etc	NN	O	O
-.	NN	O	O
-)	NN	O	O
-.	NN	O	O
-
-Long	NN	O	B-Process
-term	NN	O	I-Process
-studies	NN	O	I-Process
-in	NN	O	I-Process
-Finland	NN	O	I-Process
-concluded	NN	O	O
-that	NN	O	O
-this	NN	O	O
-empirical	NN	O	O
-fit	NN	O	O
-is	NN	O	O
-an	NN	O	O
-exponential	NN	O	B-Task
-relationship	NN	O	I-Task
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-exponential	NN	O	O
-fits	NN	O	O
-,	NN	O	O
-using	NN	O	O
-a	NN	O	O
-sufficient	NN	O	B-Process
-amount	NN	O	I-Process
-of	NN	O	I-Process
-cores	NN	O	I-Process
-,	NN	O	O
-can	NN	O	O
-be	NN	O	O
-used	NN	O	O
-to	NN	O	O
-map	NN	O	B-Task
-the	NN	O	I-Task
-air	NN	O	I-Task
-void	NN	O	I-Task
-content	NN	O	I-Task
-variation	NN	O	I-Task
-in	NN	O	O
-a	NN	O	O
-similar	NN	O	O
-manner	NN	O	O
-to	NN	O	O
-the	NN	O	O
-dielectric	NN	O	B-Material
-maps	NN	O	I-Material
-shown	NN	O	O
-in	NN	O	O
-Fig	NN	O	O
-.	NN	O	O
-
-4	NN	O	O
-.	NN	O	O
-
-Only	NN	O	O
-4	NN	O	O
-cores	NN	O	O
-were	NN	O	O
-feasible	NN	O	O
-due	NN	O	O
-to	NN	O	O
-various	NN	O	O
-factors	NN	O	O
-involved	NN	O	O
-with	NN	O	O
-testing	NN	O	B-Task
-the	NN	O	I-Task
-final	NN	O	I-Task
-lift	NN	O	I-Task
-of	NN	O	O
-an	NN	O	O
-in	NN	O	O
--	NN	O	O
-service	NN	O	O
-pavement	NN	O	O
-.	NN	O	O
-
-More	NN	O	O
-cores	NN	O	O
-are	NN	O	O
-needed	NN	O	O
-for	NN	O	O
-more	NN	O	B-Task
-stable	NN	O	I-Task
-exponential	NN	O	I-Task
-coefficients	NN	O	I-Task
-,	NN	O	O
-although	NN	O	O
-the	NN	O	O
-limited	NN	O	O
-cores	NN	O	O
-show	NN	O	O
-that	NN	O	O
-the	NN	O	O
-predicted	NN	O	B-Process
-relationships	NN	O	I-Process
-are	NN	O	O
-similar	NN	O	O
-for	NN	O	O
-the	NN	O	O
-measured	NN	O	B-Process
-dielectric	NN	O	I-Process
-range	NN	O	I-Process
-in	NN	O	O
-this	NN	O	O
-case	NN	O	O
--	NN	O	O
-study	NN	O	O
-.	NN	O	O
-
-Since	NN	O	O
-both	NN	O	O
-regressions	NN	O	B-Process
-predict	NN	O	O
-air	NN	O	B-Task
-void	NN	O	I-Task
-content	NN	O	I-Task
-at	NN	O	O
-a	NN	O	O
-maximum	NN	O	O
-difference	NN	O	O
-of	NN	O	O
-0.56	NN	O	O
-%	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-within	NN	O	O
-the	NN	O	O
-uncertainty	NN	O	O
-of	NN	O	O
-the	NN	O	O
-core	NN	O	B-Process
-measurement	NN	O	I-Process
-precision	NN	O	I-Process
-of	NN	O	O
-0.7	NN	O	O
-%	NN	O	O
-,	NN	O	O
-use	NN	O	O
-of	NN	O	O
-either	NN	O	O
-the	NN	O	O
-initial	NN	O	B-Process
-or	NN	O	I-Process
-repeat	NN	O	I-Process
-run	NN	O	I-Process
-regression	NN	O	I-Process
-predictions	NN	O	I-Process
-are	NN	O	O
-appropriate	NN	O	O
-.	NN	O	O
+The	0	3	O
+exponential	4	15	B-Process
+relationships	16	29	I-Process
+reported	30	38	O
+in	39	41	O
+the	42	45	O
+plots	46	51	O
+may	52	55	O
+be	56	58	O
+used	59	63	O
+to	64	66	O
+convert	67	74	B-Task
+the	75	78	I-Task
+dielectric	79	89	I-Task
+values	90	96	I-Task
+to	97	99	I-Task
+air	100	103	I-Task
+void	104	108	I-Task
+values	109	115	I-Task
+as	116	118	O
+prescribed	119	129	O
+in	130	132	O
+previous	133	141	O
+studies	142	149	O
+[	150	151	O
+1–3	151	154	O
+]	154	155	O
+.	155	156	O
+
+The	157	160	O
+AC	161	163	B-Process
+pavement	164	172	I-Process
+composite	173	182	I-Process
+permittivity	183	195	I-Process
+reduces	196	203	O
+,	203	204	O
+along	205	210	O
+with	211	215	O
+the	216	219	O
+reflection	220	230	O
+coefficient	231	242	O
+,	242	243	O
+as	244	246	O
+the	247	250	O
+volumetric	251	261	B-Process
+proportion	262	272	I-Process
+of	273	275	I-Process
+air	276	279	I-Process
+increases	280	289	O
+as	290	292	O
+compared	293	301	O
+to	302	304	O
+the	305	308	O
+remaining	309	318	O
+components	319	329	O
+.	329	330	O
+
+However	331	338	O
+,	338	339	O
+the	340	343	O
+method	344	350	O
+relies	351	357	O
+on	358	360	O
+an	361	363	O
+empirical	364	373	O
+fit	374	377	O
+,	377	378	O
+determined	379	389	O
+on	390	392	O
+a	393	394	O
+case	395	399	O
+-	399	400	O
+by	400	402	O
+-	402	403	O
+case	403	407	O
+basis	408	413	O
+,	413	414	O
+since	415	420	O
+the	421	424	O
+permittivity	425	437	O
+of	438	440	O
+the	441	444	O
+remaining	445	454	O
+components	455	465	O
+depends	466	473	O
+on	474	476	O
+the	477	480	O
+mix	481	484	B-Material
+design	485	491	I-Material
+(	492	493	O
+aggregate	493	502	O
+type	503	507	O
+,	507	508	O
+binder	509	515	O
+content	516	523	O
+,	523	524	O
+etc	525	528	O
+.	528	529	O
+)	529	530	O
+.	530	531	O
+
+Long	532	536	B-Process
+term	537	541	I-Process
+studies	542	549	I-Process
+in	550	552	I-Process
+Finland	553	560	I-Process
+concluded	561	570	O
+that	571	575	O
+this	576	580	O
+empirical	581	590	O
+fit	591	594	O
+is	595	597	O
+an	598	600	O
+exponential	601	612	B-Task
+relationship	613	625	I-Task
+[	626	627	O
+1	627	628	O
+]	628	629	O
+.	629	630	O
+
+The	631	634	O
+exponential	635	646	O
+fits	647	651	O
+,	651	652	O
+using	653	658	O
+a	659	660	O
+sufficient	661	671	B-Process
+amount	672	678	I-Process
+of	679	681	I-Process
+cores	682	687	I-Process
+,	687	688	O
+can	689	692	O
+be	693	695	O
+used	696	700	O
+to	701	703	O
+map	704	707	B-Task
+the	708	711	I-Task
+air	712	715	I-Task
+void	716	720	I-Task
+content	721	728	I-Task
+variation	729	738	I-Task
+in	739	741	O
+a	742	743	O
+similar	744	751	O
+manner	752	758	O
+to	759	761	O
+the	762	765	O
+dielectric	766	776	B-Material
+maps	777	781	I-Material
+shown	782	787	O
+in	788	790	O
+Fig	791	794	O
+.	794	795	O
+
+4	796	797	O
+.	797	798	O
+
+Only	799	803	O
+4	804	805	O
+cores	806	811	O
+were	812	816	O
+feasible	817	825	O
+due	826	829	O
+to	830	832	O
+various	833	840	O
+factors	841	848	O
+involved	849	857	O
+with	858	862	O
+testing	863	870	B-Task
+the	871	874	I-Task
+final	875	880	I-Task
+lift	881	885	I-Task
+of	886	888	O
+an	889	891	O
+in	892	894	O
+-	894	895	O
+service	895	902	O
+pavement	903	911	O
+.	911	912	O
+
+More	913	917	O
+cores	918	923	O
+are	924	927	O
+needed	928	934	O
+for	935	938	O
+more	939	943	B-Task
+stable	944	950	I-Task
+exponential	951	962	I-Task
+coefficients	963	975	I-Task
+,	975	976	O
+although	977	985	O
+the	986	989	O
+limited	990	997	O
+cores	998	1003	O
+show	1004	1008	O
+that	1009	1013	O
+the	1014	1017	O
+predicted	1018	1027	B-Process
+relationships	1028	1041	I-Process
+are	1042	1045	O
+similar	1046	1053	O
+for	1054	1057	O
+the	1058	1061	O
+measured	1062	1070	B-Process
+dielectric	1071	1081	I-Process
+range	1082	1087	I-Process
+in	1088	1090	O
+this	1091	1095	O
+case	1096	1100	O
+-	1100	1101	O
+study	1101	1106	O
+.	1106	1107	O
+
+Since	1108	1113	O
+both	1114	1118	O
+regressions	1119	1130	B-Process
+predict	1131	1138	O
+air	1139	1142	B-Task
+void	1143	1147	I-Task
+content	1148	1155	I-Task
+at	1156	1158	O
+a	1159	1160	O
+maximum	1161	1168	O
+difference	1169	1179	O
+of	1180	1182	O
+0.56	1183	1187	O
+%	1187	1188	O
+,	1188	1189	O
+which	1190	1195	O
+is	1196	1198	O
+within	1199	1205	O
+the	1206	1209	O
+uncertainty	1210	1221	O
+of	1222	1224	O
+the	1225	1228	O
+core	1229	1233	B-Process
+measurement	1234	1245	I-Process
+precision	1246	1255	I-Process
+of	1256	1258	O
+0.7	1259	1262	O
+%	1262	1263	O
+,	1263	1264	O
+use	1265	1268	O
+of	1269	1271	O
+either	1272	1278	O
+the	1279	1282	O
+initial	1283	1290	B-Process
+or	1291	1293	I-Process
+repeat	1294	1300	I-Process
+run	1301	1304	I-Process
+regression	1305	1315	I-Process
+predictions	1316	1327	I-Process
+are	1328	1331	O
+appropriate	1332	1343	O
+.	1343	1344	O
 
 
 -DOCSTART- (S2214657115000155)
 
-MicroCT	NN	O	B-Process
-has	NN	O	O
-been	NN	O	O
-applied	NN	O	O
-to	NN	O	O
-AM	NN	O	B-Material
-parts	NN	O	I-Material
-in	NN	O	O
-various	NN	O	O
-forms	NN	O	O
-.	NN	O	O
-
-Some	NN	O	O
-preliminary	NN	O	B-Material
-results	NN	O	I-Material
-demonstrating	NN	O	O
-the	NN	O	O
-visualization	NN	O	B-Task
-of	NN	O	I-Task
-defects	NN	O	I-Task
-including	NN	O	O
-porosity	NN	O	B-Process
-in	NN	O	I-Process
-AM	NN	O	I-Process
-components	NN	O	I-Process
-were	NN	O	O
-reported	NN	O	O
-in	NN	O	O
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-another	NN	O	O
-study	NN	O	O
-,	NN	O	O
-the	NN	O	O
-porosity	NN	O	B-Task
-structures	NN	O	I-Task
-in	NN	O	I-Task
-parts	NN	O	I-Task
-built	NN	O	O
-with	NN	O	O
-improper	NN	O	O
-settings	NN	O	O
-were	NN	O	O
-investigated	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-this	NN	O	O
-work	NN	O	O
-,	NN	O	O
-the	NN	O	O
-average	NN	O	B-Process
-porosity	NN	O	I-Process
-ranged	NN	O	O
-from	NN	O	O
-0.1–0.5	NN	O	O
-%	NN	O	O
-,	NN	O	O
-and	NN	O	O
-large	NN	O	O
-pores	NN	O	O
-were	NN	O	O
-observed	NN	O	O
-which	NN	O	O
-followed	NN	O	O
-the	NN	O	O
-build	NN	O	B-Process
-direction	NN	O	I-Process
-and	NN	O	O
-may	NN	O	O
-be	NN	O	O
-attributed	NN	O	O
-to	NN	O	O
-the	NN	O	O
-electron	NN	O	B-Process
-beam	NN	O	I-Process
-raster	NN	O	I-Process
-and	NN	O	I-Process
-overlap	NN	O	I-Process
-pattern	NN	O	I-Process
-.	NN	O	I-Process
-
-This	NN	O	O
-was	NN	O	O
-followed	NN	O	O
-by	NN	O	O
-more	NN	O	O
-recent	NN	O	B-Material
-reports	NN	O	I-Material
-of	NN	O	O
-the	NN	O	O
-porosity	NN	O	B-Task
-distribution	NN	O	I-Task
-as	NN	O	O
-a	NN	O	O
-function	NN	O	O
-of	NN	O	O
-build	NN	O	O
-strategy	NN	O	O
-for	NN	O	O
-electron	NN	O	B-Material
-beam	NN	O	I-Material
-melted	NN	O	I-Material
-samples	NN	O	I-Material
-with	NN	O	O
-average	NN	O	O
-porosity	NN	O	O
-<	NN	O	O
-0.2	NN	O	O
-%	NN	O	O
-[	NN	O	O
-8	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-another	NN	O	O
-study	NN	O	O
-,	NN	O	O
-similar	NN	O	O
-porosity	NN	O	B-Material
-images	NN	O	I-Material
-from	NN	O	O
-microCT	NN	O	B-Material
-were	NN	O	O
-reported	NN	O	O
-at	NN	O	O
-levels	NN	O	O
-above	NN	O	O
-0.2	NN	O	O
-%	NN	O	O
-average	NN	O	O
-porosity	NN	O	O
-[	NN	O	O
-9,10	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Very	NN	O	O
-recent	NN	O	O
-work	NN	O	O
-reports	NN	O	O
-similar	NN	O	O
-images	NN	O	O
-and	NN	O	O
-may	NN	O	O
-indicate	NN	O	O
-that	NN	O	O
-the	NN	O	O
-porosity	NN	O	O
-structure	NN	O	O
-depends	NN	O	O
-on	NN	O	O
-the	NN	O	O
-build	NN	O	O
-direction	NN	O	O
-[	NN	O	O
-11	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Other	NN	O	O
-applications	NN	O	O
-of	NN	O	O
-the	NN	O	O
-use	NN	O	O
-of	NN	O	O
-microCT	NN	O	B-Material
-to	NN	O	O
-characterize	NN	O	B-Task
-AM	NN	O	I-Task
-parts	NN	O	I-Task
-include	NN	O	O
-the	NN	O	O
-comparison	NN	O	B-Process
-of	NN	O	I-Process
-the	NN	O	I-Process
-part	NN	O	I-Process
-to	NN	O	I-Process
-its	NN	O	I-Process
-design	NN	O	I-Process
-model	NN	O	I-Process
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-and	NN	O	O
-the	NN	O	O
-characterization	NN	O	B-Process
-of	NN	O	I-Process
-surface	NN	O	I-Process
-roughness	NN	O	I-Process
-of	NN	O	O
-such	NN	O	O
-parts	NN	O	O
-[	NN	O	O
-13	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-the	NN	O	O
-present	NN	O	O
-work	NN	O	O
-,	NN	O	O
-the	NN	O	O
-aim	NN	O	O
-is	NN	O	O
-to	NN	O	O
-demonstrate	NN	O	B-Task
-a	NN	O	I-Task
-specific	NN	O	I-Task
-type	NN	O	I-Task
-of	NN	O	I-Task
-defect	NN	O	I-Task
-present	NN	O	O
-at	NN	O	O
-very	NN	O	B-Process
-low	NN	O	I-Process
-average	NN	O	I-Process
-porosity	NN	O	I-Process
-levels	NN	O	I-Process
-below	NN	O	O
-0.01	NN	O	O
-%	NN	O	O
-,	NN	O	O
-and	NN	O	O
-which	NN	O	O
-does	NN	O	O
-not	NN	O	B-Process
-follow	NN	O	I-Process
-the	NN	O	I-Process
-build	NN	O	I-Process
-direction	NN	O	I-Process
-as	NN	O	O
-in	NN	O	O
-some	NN	O	O
-other	NN	O	O
-reported	NN	O	O
-examples	NN	O	O
-.	NN	O	O
-
-We	NN	O	O
-also	NN	O	O
-demonstrate	NN	O	O
-how	NN	O	O
-this	NN	O	O
-porosity	NN	O	B-Task
-structure	NN	O	I-Task
-changes	NN	O	I-Task
-after	NN	O	O
-Hot	NN	O	B-Process
-Isostatic	NN	O	I-Process
-Pressing	NN	O	I-Process
-(	NN	O	O
-HIP	NN	O	B-Process
-)	NN	O	O
-treatment	NN	O	O
-of	NN	O	O
-the	NN	O	O
-same	NN	O	O
-sample	NN	O	O
-.	NN	O	O
+MicroCT	0	7	B-Process
+has	8	11	O
+been	12	16	O
+applied	17	24	O
+to	25	27	O
+AM	28	30	B-Material
+parts	31	36	I-Material
+in	37	39	O
+various	40	47	O
+forms	48	53	O
+.	53	54	O
+
+Some	55	59	O
+preliminary	60	71	B-Material
+results	72	79	I-Material
+demonstrating	80	93	O
+the	94	97	O
+visualization	98	111	B-Task
+of	112	114	I-Task
+defects	115	122	I-Task
+including	123	132	O
+porosity	133	141	B-Process
+in	142	144	I-Process
+AM	145	147	I-Process
+components	148	158	I-Process
+were	159	163	O
+reported	164	172	O
+in	173	175	O
+[	176	177	O
+6	177	178	O
+]	178	179	O
+.	179	180	O
+
+In	181	183	O
+another	184	191	O
+study	192	197	O
+,	197	198	O
+the	199	202	O
+porosity	203	211	B-Task
+structures	212	222	I-Task
+in	223	225	I-Task
+parts	226	231	I-Task
+built	232	237	O
+with	238	242	O
+improper	243	251	O
+settings	252	260	O
+were	261	265	O
+investigated	266	278	O
+[	279	280	O
+7	280	281	O
+]	281	282	O
+.	282	283	O
+
+In	284	286	O
+this	287	291	O
+work	292	296	O
+,	296	297	O
+the	298	301	O
+average	302	309	B-Process
+porosity	310	318	I-Process
+ranged	319	325	O
+from	326	330	O
+0.1–0.5	331	338	O
+%	338	339	O
+,	339	340	O
+and	341	344	O
+large	345	350	O
+pores	351	356	O
+were	357	361	O
+observed	362	370	O
+which	371	376	O
+followed	377	385	O
+the	386	389	O
+build	390	395	B-Process
+direction	396	405	I-Process
+and	406	409	O
+may	410	413	O
+be	414	416	O
+attributed	417	427	O
+to	428	430	O
+the	431	434	O
+electron	435	443	B-Process
+beam	444	448	I-Process
+raster	449	455	I-Process
+and	456	459	I-Process
+overlap	460	467	I-Process
+pattern	468	475	I-Process
+.	475	476	I-Process
+
+This	477	481	O
+was	482	485	O
+followed	486	494	O
+by	495	497	O
+more	498	502	O
+recent	503	509	B-Material
+reports	510	517	I-Material
+of	518	520	O
+the	521	524	O
+porosity	525	533	B-Task
+distribution	534	546	I-Task
+as	547	549	O
+a	550	551	O
+function	552	560	O
+of	561	563	O
+build	564	569	O
+strategy	570	578	O
+for	579	582	O
+electron	583	591	B-Material
+beam	592	596	I-Material
+melted	597	603	I-Material
+samples	604	611	I-Material
+with	612	616	O
+average	617	624	O
+porosity	625	633	O
+<	634	635	O
+0.2	636	639	O
+%	639	640	O
+[	641	642	O
+8	642	643	O
+]	643	644	O
+.	644	645	O
+
+In	646	648	O
+another	649	656	O
+study	657	662	O
+,	662	663	O
+similar	664	671	O
+porosity	672	680	B-Material
+images	681	687	I-Material
+from	688	692	O
+microCT	693	700	B-Material
+were	701	705	O
+reported	706	714	O
+at	715	717	O
+levels	718	724	O
+above	725	730	O
+0.2	731	734	O
+%	734	735	O
+average	736	743	O
+porosity	744	752	O
+[	753	754	O
+9,10	754	758	O
+]	758	759	O
+.	759	760	O
+
+Very	761	765	O
+recent	766	772	O
+work	773	777	O
+reports	778	785	O
+similar	786	793	O
+images	794	800	O
+and	801	804	O
+may	805	808	O
+indicate	809	817	O
+that	818	822	O
+the	823	826	O
+porosity	827	835	O
+structure	836	845	O
+depends	846	853	O
+on	854	856	O
+the	857	860	O
+build	861	866	O
+direction	867	876	O
+[	877	878	O
+11	878	880	O
+]	880	881	O
+.	881	882	O
+
+Other	883	888	O
+applications	889	901	O
+of	902	904	O
+the	905	908	O
+use	909	912	O
+of	913	915	O
+microCT	916	923	B-Material
+to	924	926	O
+characterize	927	939	B-Task
+AM	940	942	I-Task
+parts	943	948	I-Task
+include	949	956	O
+the	957	960	O
+comparison	961	971	B-Process
+of	972	974	I-Process
+the	975	978	I-Process
+part	979	983	I-Process
+to	984	986	I-Process
+its	987	990	I-Process
+design	991	997	I-Process
+model	998	1003	I-Process
+[	1004	1005	O
+12	1005	1007	O
+]	1007	1008	O
+and	1009	1012	O
+the	1013	1016	O
+characterization	1017	1033	B-Process
+of	1034	1036	I-Process
+surface	1037	1044	I-Process
+roughness	1045	1054	I-Process
+of	1055	1057	O
+such	1058	1062	O
+parts	1063	1068	O
+[	1069	1070	O
+13	1070	1072	O
+]	1072	1073	O
+.	1073	1074	O
+
+In	1075	1077	O
+the	1078	1081	O
+present	1082	1089	O
+work	1090	1094	O
+,	1094	1095	O
+the	1096	1099	O
+aim	1100	1103	O
+is	1104	1106	O
+to	1107	1109	O
+demonstrate	1110	1121	B-Task
+a	1122	1123	I-Task
+specific	1124	1132	I-Task
+type	1133	1137	I-Task
+of	1138	1140	I-Task
+defect	1141	1147	I-Task
+present	1148	1155	O
+at	1156	1158	O
+very	1159	1163	B-Process
+low	1164	1167	I-Process
+average	1168	1175	I-Process
+porosity	1176	1184	I-Process
+levels	1185	1191	I-Process
+below	1192	1197	O
+0.01	1198	1202	O
+%	1202	1203	O
+,	1203	1204	O
+and	1205	1208	O
+which	1209	1214	O
+does	1215	1219	O
+not	1220	1223	B-Process
+follow	1224	1230	I-Process
+the	1231	1234	I-Process
+build	1235	1240	I-Process
+direction	1241	1250	I-Process
+as	1251	1253	O
+in	1254	1256	O
+some	1257	1261	O
+other	1262	1267	O
+reported	1268	1276	O
+examples	1277	1285	O
+.	1285	1286	O
+
+We	1287	1289	O
+also	1290	1294	O
+demonstrate	1295	1306	O
+how	1307	1310	O
+this	1311	1315	O
+porosity	1316	1324	B-Task
+structure	1325	1334	I-Task
+changes	1335	1342	I-Task
+after	1343	1348	O
+Hot	1349	1352	B-Process
+Isostatic	1353	1362	I-Process
+Pressing	1363	1371	I-Process
+(	1372	1373	O
+HIP	1373	1376	B-Process
+)	1376	1377	O
+treatment	1378	1387	O
+of	1388	1390	O
+the	1391	1394	O
+same	1395	1399	O
+sample	1400	1406	O
+.	1406	1407	O
 
 
 -DOCSTART- (S2214657115000179)
 
-Aeroengine	NN	O	B-Task
-turbine	NN	O	I-Task
-disks	NN	O	I-Task
-often	NN	O	O
-consist	NN	O	O
-of	NN	O	O
-paramagnetic	NN	O	B-Material
-,	NN	O	O
-that	NN	O	O
-means	NN	O	O
-non	NN	O	B-Material
--	NN	O	I-Material
-ferromagnetic	NN	O	I-Material
-Nickel	NN	O	I-Material
-based	NN	O	I-Material
-alloys	NN	O	I-Material
-.	NN	O	O
-
-Sometimes	NN	O	O
-,	NN	O	O
-parasitic	NN	O	B-Material
-small	NN	O	I-Material
-ferromagnetic	NN	O	I-Material
-particles	NN	O	I-Material
-can	NN	O	O
-be	NN	O	O
-included	NN	O	O
-in	NN	O	O
-these	NN	O	O
-disks	NN	O	O
-that	NN	O	O
-may	NN	O	O
-decrease	NN	O	B-Task
-the	NN	O	I-Task
-mechanical	NN	O	I-Task
-stability	NN	O	I-Task
-.	NN	O	O
-
-For	NN	O	O
-this	NN	O	O
-reason	NN	O	O
-,	NN	O	O
-in	NN	O	O
-case	NN	O	O
-of	NN	O	O
-a	NN	O	O
-suspicion	NN	O	O
-disks	NN	O	O
-are	NN	O	O
-to	NN	O	O
-be	NN	O	O
-analysed	NN	O	O
-with	NN	O	O
-respect	NN	O	O
-to	NN	O	O
-ferromagnetic	NN	O	B-Process
-inclusions	NN	O	I-Process
-.	NN	O	O
-
-These	NN	O	O
-inclusions	NN	O	O
-generate	NN	O	O
-a	NN	O	O
-magnetic	NN	O	B-Task
-density	NN	O	I-Task
-which	NN	O	O
-can	NN	O	O
-be	NN	O	O
-measured	NN	O	O
-by	NN	O	O
-a	NN	O	O
-flux	NN	O	B-Material
-gate	NN	O	I-Material
-magnetometer	NN	O	I-Material
-using	NN	O	O
-the	NN	O	O
-magnetic	NN	O	B-Process
-remanence	NN	O	I-Process
-method	NN	O	I-Process
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-detection	NN	O	B-Process
-principle	NN	O	I-Process
-of	NN	O	I-Process
-ferromagnetic	NN	O	I-Process
-impurities	NN	O	I-Process
-in	NN	O	O
-non	NN	O	O
--	NN	O	O
-magnetic	NN	O	O
-metallic	NN	O	O
-materials	NN	O	O
-is	NN	O	O
-based	NN	O	O
-on	NN	O	O
-their	NN	O	O
-remanence	NN	O	O
-.	NN	O	O
-
-Before	NN	O	O
-such	NN	O	O
-a	NN	O	O
-measurement	NN	O	B-Task
-can	NN	O	O
-be	NN	O	O
-carried	NN	O	O
-out	NN	O	O
-,	NN	O	O
-the	NN	O	O
-aeroengine	NN	O	O
-turbine	NN	O	O
-disks	NN	O	O
-are	NN	O	O
-premagnetised	NN	O	B-Process
-in	NN	O	O
-axial	NN	O	O
-direction	NN	O	O
-.	NN	O	O
-
-As	NN	O	O
-ferromagnetic	NN	O	O
-materials	NN	O	O
-show	NN	O	O
-the	NN	O	O
-well	NN	O	O
--	NN	O	O
-known	NN	O	O
-hysteresis	NN	O	B-Process
-behaviour	NN	O	I-Process
-,	NN	O	O
-those	NN	O	O
-materials	NN	O	O
-can	NN	O	O
-be	NN	O	O
-magnetised	NN	O	O
-by	NN	O	O
-a	NN	O	O
-strong	NN	O	B-Process
-magnetic	NN	O	I-Process
-field	NN	O	I-Process
-which	NN	O	O
-drives	NN	O	O
-the	NN	O	O
-magnetic	NN	O	O
-material	NN	O	O
-into	NN	O	O
-saturation	NN	O	O
-.	NN	O	O
-
-When	NN	O	O
-removing	NN	O	B-Process
-the	NN	O	I-Process
-magnetic	NN	O	I-Process
-field	NN	O	I-Process
-,	NN	O	O
-the	NN	O	O
-remanence	NN	O	O
-is	NN	O	O
-left	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-remaining	NN	O	B-Process
-flux	NN	O	I-Process
-density	NN	O	I-Process
-is	NN	O	O
-used	NN	O	O
-to	NN	O	O
-detect	NN	O	O
-them	NN	O	O
-in	NN	O	O
-non	NN	O	O
--	NN	O	O
-magnetic	NN	O	O
-materials	NN	O	O
-.	NN	O	O
+Aeroengine	0	10	B-Task
+turbine	11	18	I-Task
+disks	19	24	I-Task
+often	25	30	O
+consist	31	38	O
+of	39	41	O
+paramagnetic	42	54	B-Material
+,	54	55	O
+that	56	60	O
+means	61	66	O
+non	67	70	B-Material
+-	70	71	I-Material
+ferromagnetic	71	84	I-Material
+Nickel	85	91	I-Material
+based	92	97	I-Material
+alloys	98	104	I-Material
+.	104	105	O
+
+Sometimes	106	115	O
+,	115	116	O
+parasitic	117	126	B-Material
+small	127	132	I-Material
+ferromagnetic	133	146	I-Material
+particles	147	156	I-Material
+can	157	160	O
+be	161	163	O
+included	164	172	O
+in	173	175	O
+these	176	181	O
+disks	182	187	O
+that	188	192	O
+may	193	196	O
+decrease	197	205	B-Task
+the	206	209	I-Task
+mechanical	210	220	I-Task
+stability	221	230	I-Task
+.	230	231	O
+
+For	232	235	O
+this	236	240	O
+reason	241	247	O
+,	247	248	O
+in	249	251	O
+case	252	256	O
+of	257	259	O
+a	260	261	O
+suspicion	262	271	O
+disks	272	277	O
+are	278	281	O
+to	282	284	O
+be	285	287	O
+analysed	288	296	O
+with	297	301	O
+respect	302	309	O
+to	310	312	O
+ferromagnetic	313	326	B-Process
+inclusions	327	337	I-Process
+.	337	338	O
+
+These	339	344	O
+inclusions	345	355	O
+generate	356	364	O
+a	365	366	O
+magnetic	367	375	B-Task
+density	376	383	I-Task
+which	384	389	O
+can	390	393	O
+be	394	396	O
+measured	397	405	O
+by	406	408	O
+a	409	410	O
+flux	411	415	B-Material
+gate	416	420	I-Material
+magnetometer	421	433	I-Material
+using	434	439	O
+the	440	443	O
+magnetic	444	452	B-Process
+remanence	453	462	I-Process
+method	463	469	I-Process
+[	470	471	O
+1	471	472	O
+]	472	473	O
+.	473	474	O
+
+The	475	478	O
+detection	479	488	B-Process
+principle	489	498	I-Process
+of	499	501	I-Process
+ferromagnetic	502	515	I-Process
+impurities	516	526	I-Process
+in	527	529	O
+non	530	533	O
+-	533	534	O
+magnetic	534	542	O
+metallic	543	551	O
+materials	552	561	O
+is	562	564	O
+based	565	570	O
+on	571	573	O
+their	574	579	O
+remanence	580	589	O
+.	589	590	O
+
+Before	591	597	O
+such	598	602	O
+a	603	604	O
+measurement	605	616	B-Task
+can	617	620	O
+be	621	623	O
+carried	624	631	O
+out	632	635	O
+,	635	636	O
+the	637	640	O
+aeroengine	641	651	O
+turbine	652	659	O
+disks	660	665	O
+are	666	669	O
+premagnetised	670	683	B-Process
+in	684	686	O
+axial	687	692	O
+direction	693	702	O
+.	702	703	O
+
+As	704	706	O
+ferromagnetic	707	720	O
+materials	721	730	O
+show	731	735	O
+the	736	739	O
+well	740	744	O
+-	744	745	O
+known	745	750	O
+hysteresis	751	761	B-Process
+behaviour	762	771	I-Process
+,	771	772	O
+those	773	778	O
+materials	779	788	O
+can	789	792	O
+be	793	795	O
+magnetised	796	806	O
+by	807	809	O
+a	810	811	O
+strong	812	818	B-Process
+magnetic	819	827	I-Process
+field	828	833	I-Process
+which	834	839	O
+drives	840	846	O
+the	847	850	O
+magnetic	851	859	O
+material	860	868	O
+into	869	873	O
+saturation	874	884	O
+.	884	885	O
+
+When	886	890	O
+removing	891	899	B-Process
+the	900	903	I-Process
+magnetic	904	912	I-Process
+field	913	918	I-Process
+,	918	919	O
+the	920	923	O
+remanence	924	933	O
+is	934	936	O
+left	937	941	O
+.	941	942	O
+
+This	943	947	O
+remaining	948	957	B-Process
+flux	958	962	I-Process
+density	963	970	I-Process
+is	971	973	O
+used	974	978	O
+to	979	981	O
+detect	982	988	O
+them	989	993	O
+in	994	996	O
+non	997	1000	O
+-	1000	1001	O
+magnetic	1001	1009	O
+materials	1010	1019	O
+.	1019	1020	O
 
 
 -DOCSTART- (S2352179114200032)
 
-Although	NN	O	O
-the	NN	O	O
-presented	NN	O	O
-model	NN	O	O
-is	NN	O	O
-developed	NN	O	O
-and	NN	O	O
-tested	NN	O	O
-with	NN	O	O
-a	NN	O	B-Material
--	NN	O	I-Material
-C	NN	O	I-Material
-:	NN	O	I-Material
-H	NN	O	I-Material
-layers	NN	O	I-Material
-in	NN	O	O
-mind	NN	O	O
-,	NN	O	O
-it	NN	O	O
-is	NN	O	O
-not	NN	O	O
-necessarily	NN	O	O
-limited	NN	O	O
-to	NN	O	O
-them	NN	O	O
-.	NN	O	O
-
-Moreover	NN	O	O
-,	NN	O	O
-the	NN	O	O
-only	NN	O	O
-assumptions	NN	O	O
-are	NN	O	O
-chemical	NN	O	B-Process
-reactions	NN	O	I-Process
-between	NN	O	O
-the	NN	O	O
-gas	NN	O	B-Material
-and	NN	O	O
-the	NN	O	O
-solid	NN	O	B-Material
-forming	NN	O	I-Material
-volatiles	NN	O	I-Material
-,	NN	O	O
-the	NN	O	O
-loss	NN	O	O
-of	NN	O	O
-these	NN	O	O
-volatiles	NN	O	O
-from	NN	O	O
-the	NN	O	O
-material	NN	O	O
-and	NN	O	O
-the	NN	O	O
-two	NN	O	O
-stated	NN	O	O
-boundary	NN	O	O
-conditions	NN	O	O
-of	NN	O	O
-gas	NN	O	B-Process
-influx	NN	O	I-Process
-at	NN	O	O
-a	NN	O	O
-single	NN	O	B-Material
-outer	NN	O	I-Material
-surface	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-possibility	NN	O	O
-of	NN	O	O
-reactions	NN	O	B-Process
-throughout	NN	O	O
-the	NN	O	O
-bulk	NN	O	O
-.	NN	O	O
-
-Porosity	NN	O	B-Process
-and	NN	O	O
-significant	NN	O	O
-gas	NN	O	B-Material
-inventories	NN	O	I-Material
-were	NN	O	O
-observed	NN	O	O
-not	NN	O	O
-only	NN	O	O
-for	NN	O	O
-carbon	NN	O	B-Material
-[	NN	O	O
-12	NN	O	O
-]	NN	O	O
-but	NN	O	O
-,	NN	O	O
-e.g.	NN	O	O
-also	NN	O	O
-for	NN	O	O
-beryllium	NN	O	B-Material
-co	NN	O	I-Material
--	NN	O	I-Material
-deposits	NN	O	I-Material
-[	NN	O	O
-25	NN	O	O
-]	NN	O	O
-and	NN	O	O
-can	NN	O	O
-be	NN	O	O
-expected	NN	O	O
-for	NN	O	O
-other	NN	O	O
-co	NN	O	O
--	NN	O	O
-deposits	NN	O	O
-formed	NN	O	O
-in	NN	O	O
-plasma	NN	O	B-Material
-devices	NN	O	I-Material
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-Thus	NN	O	O
-,	NN	O	O
-TCR	NN	O	B-Material
-and	NN	O	O
-its	NN	O	O
-description	NN	O	O
-by	NN	O	O
-the	NN	O	O
-presented	NN	O	O
-model	NN	O	O
-may	NN	O	O
-be	NN	O	O
-applicable	NN	O	O
-to	NN	O	O
-all	NN	O	O
-deposits	NN	O	O
-.	NN	O	O
-
-If	NN	O	O
-a	NN	O	O
-layer	NN	O	O
-has	NN	O	O
-constituents	NN	O	B-Process
-that	NN	O	I-Process
-are	NN	O	I-Process
-not	NN	O	I-Process
-forming	NN	O	I-Process
-volatiles	NN	O	I-Process
-with	NN	O	I-Process
-the	NN	O	I-Process
-reactive	NN	O	I-Process
-gas	NN	O	I-Process
-,	NN	O	O
-e.g.	NN	O	O
-W	NN	O	B-Process
-and	NN	O	I-Process
-Be	NN	O	I-Process
-with	NN	O	I-Process
-O2	NN	O	I-Process
-,	NN	O	O
-these	NN	O	O
-constituents	NN	O	O
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-removed	NN	O	O
-by	NN	O	O
-TCR	NN	O	B-Material
-,	NN	O	O
-as	NN	O	O
-they	NN	O	O
-will	NN	O	O
-not	NN	O	O
-be	NN	O	O
-removed	NN	O	O
-from	NN	O	O
-the	NN	O	O
-deposit	NN	O	O
-.	NN	O	O
-
-This	NN	O	O
-can	NN	O	O
-influence	NN	O	O
-the	NN	O	O
-removal	NN	O	O
-of	NN	O	O
-other	NN	O	O
-deposit	NN	O	B-Material
-constituents	NN	O	I-Material
-and	NN	O	O
-the	NN	O	O
-time	NN	O	O
-evolution	NN	O	O
-of	NN	O	O
-the	NN	O	O
-process	NN	O	O
-can	NN	O	O
-change	NN	O	O
-.	NN	O	O
-
-The	NN	O	O
-new	NN	O	O
-understanding	NN	O	O
-of	NN	O	O
-TCR	NN	O	B-Material
-may	NN	O	O
-,	NN	O	O
-for	NN	O	O
-the	NN	O	O
-first	NN	O	O
-time	NN	O	O
-,	NN	O	O
-allow	NN	O	O
-applying	NN	O	O
-the	NN	O	O
-method	NN	O	O
-in	NN	O	O
-a	NN	O	O
-controlled	NN	O	O
-way	NN	O	O
-to	NN	O	O
-nuclear	NN	O	B-Material
-fusion	NN	O	I-Material
-devices	NN	O	I-Material
-,	NN	O	O
-possibly	NN	O	O
-solving	NN	O	O
-the	NN	O	O
-tritium	NN	O	B-Task
-retention	NN	O	I-Task
-issue	NN	O	I-Task
-especially	NN	O	O
-related	NN	O	O
-to	NN	O	O
-carbon	NN	O	B-Material
-based	NN	O	I-Material
-materials	NN	O	I-Material
-.	NN	O	O
+Although	0	8	O
+the	9	12	O
+presented	13	22	O
+model	23	28	O
+is	29	31	O
+developed	32	41	O
+and	42	45	O
+tested	46	52	O
+with	53	57	O
+a	58	59	B-Material
+-	59	60	I-Material
+C	60	61	I-Material
+:	61	62	I-Material
+H	62	63	I-Material
+layers	64	70	I-Material
+in	71	73	O
+mind	74	78	O
+,	78	79	O
+it	80	82	O
+is	83	85	O
+not	86	89	O
+necessarily	90	101	O
+limited	102	109	O
+to	110	112	O
+them	113	117	O
+.	117	118	O
+
+Moreover	119	127	O
+,	127	128	O
+the	129	132	O
+only	133	137	O
+assumptions	138	149	O
+are	150	153	O
+chemical	154	162	B-Process
+reactions	163	172	I-Process
+between	173	180	O
+the	181	184	O
+gas	185	188	B-Material
+and	189	192	O
+the	193	196	O
+solid	197	202	B-Material
+forming	203	210	I-Material
+volatiles	211	220	I-Material
+,	220	221	O
+the	222	225	O
+loss	226	230	O
+of	231	233	O
+these	234	239	O
+volatiles	240	249	O
+from	250	254	O
+the	255	258	O
+material	259	267	O
+and	268	271	O
+the	272	275	O
+two	276	279	O
+stated	280	286	O
+boundary	287	295	O
+conditions	296	306	O
+of	307	309	O
+gas	310	313	B-Process
+influx	314	320	I-Process
+at	321	323	O
+a	324	325	O
+single	326	332	B-Material
+outer	333	338	I-Material
+surface	339	346	I-Material
+and	347	350	O
+the	351	354	O
+possibility	355	366	O
+of	367	369	O
+reactions	370	379	B-Process
+throughout	380	390	O
+the	391	394	O
+bulk	395	399	O
+.	399	400	O
+
+Porosity	401	409	B-Process
+and	410	413	O
+significant	414	425	O
+gas	426	429	B-Material
+inventories	430	441	I-Material
+were	442	446	O
+observed	447	455	O
+not	456	459	O
+only	460	464	O
+for	465	468	O
+carbon	469	475	B-Material
+[	476	477	O
+12	477	479	O
+]	479	480	O
+but	481	484	O
+,	484	485	O
+e.g.	486	490	O
+also	491	495	O
+for	496	499	O
+beryllium	500	509	B-Material
+co	510	512	I-Material
+-	512	513	I-Material
+deposits	513	521	I-Material
+[	522	523	O
+25	523	525	O
+]	525	526	O
+and	527	530	O
+can	531	534	O
+be	535	537	O
+expected	538	546	O
+for	547	550	O
+other	551	556	O
+co	557	559	O
+-	559	560	O
+deposits	560	568	O
+formed	569	575	O
+in	576	578	O
+plasma	579	585	B-Material
+devices	586	593	I-Material
+[	594	595	O
+1	595	596	O
+]	596	597	O
+.	597	598	O
+
+Thus	599	603	O
+,	603	604	O
+TCR	605	608	B-Material
+and	609	612	O
+its	613	616	O
+description	617	628	O
+by	629	631	O
+the	632	635	O
+presented	636	645	O
+model	646	651	O
+may	652	655	O
+be	656	658	O
+applicable	659	669	O
+to	670	672	O
+all	673	676	O
+deposits	677	685	O
+.	685	686	O
+
+If	687	689	O
+a	690	691	O
+layer	692	697	O
+has	698	701	O
+constituents	702	714	B-Process
+that	715	719	I-Process
+are	720	723	I-Process
+not	724	727	I-Process
+forming	728	735	I-Process
+volatiles	736	745	I-Process
+with	746	750	I-Process
+the	751	754	I-Process
+reactive	755	763	I-Process
+gas	764	767	I-Process
+,	767	768	O
+e.g.	769	773	O
+W	774	775	B-Process
+and	776	779	I-Process
+Be	780	782	I-Process
+with	783	787	I-Process
+O2	788	790	I-Process
+,	790	791	O
+these	792	797	O
+constituents	798	810	O
+can	811	814	O
+not	814	817	O
+be	818	820	O
+removed	821	828	O
+by	829	831	O
+TCR	832	835	B-Material
+,	835	836	O
+as	837	839	O
+they	840	844	O
+will	845	849	O
+not	850	853	O
+be	854	856	O
+removed	857	864	O
+from	865	869	O
+the	870	873	O
+deposit	874	881	O
+.	881	882	O
+
+This	883	887	O
+can	888	891	O
+influence	892	901	O
+the	902	905	O
+removal	906	913	O
+of	914	916	O
+other	917	922	O
+deposit	923	930	B-Material
+constituents	931	943	I-Material
+and	944	947	O
+the	948	951	O
+time	952	956	O
+evolution	957	966	O
+of	967	969	O
+the	970	973	O
+process	974	981	O
+can	982	985	O
+change	986	992	O
+.	992	993	O
+
+The	994	997	O
+new	998	1001	O
+understanding	1002	1015	O
+of	1016	1018	O
+TCR	1019	1022	B-Material
+may	1023	1026	O
+,	1026	1027	O
+for	1028	1031	O
+the	1032	1035	O
+first	1036	1041	O
+time	1042	1046	O
+,	1046	1047	O
+allow	1048	1053	O
+applying	1054	1062	O
+the	1063	1066	O
+method	1067	1073	O
+in	1074	1076	O
+a	1077	1078	O
+controlled	1079	1089	O
+way	1090	1093	O
+to	1094	1096	O
+nuclear	1097	1104	B-Material
+fusion	1105	1111	I-Material
+devices	1112	1119	I-Material
+,	1119	1120	O
+possibly	1121	1129	O
+solving	1130	1137	O
+the	1138	1141	O
+tritium	1142	1149	B-Task
+retention	1150	1159	I-Task
+issue	1160	1165	I-Task
+especially	1166	1176	O
+related	1177	1184	O
+to	1185	1187	O
+carbon	1188	1194	B-Material
+based	1195	1200	I-Material
+materials	1201	1210	I-Material
+.	1210	1211	O
 
 
 -DOCSTART- (S2352179114200056)
 
-Power	NN	O	B-Material
-and	NN	O	I-Material
-particle	NN	O	I-Material
-exhaust	NN	O	I-Material
-are	NN	O	O
-crucial	NN	O	O
-for	NN	O	O
-the	NN	O	O
-viability	NN	O	O
-of	NN	O	O
-any	NN	O	O
-future	NN	O	O
-fusion	NN	O	B-Material
-power	NN	O	I-Material
-plant	NN	O	I-Material
-concept	NN	O	O
-.	NN	O	O
-
-Heat	NN	O	O
-in	NN	O	O
-fusion	NN	O	B-Process
-reactors	NN	O	I-Process
-must	NN	O	O
-be	NN	O	O
-extracted	NN	O	O
-through	NN	O	O
-a	NN	O	O
-wall	NN	O	O
-and	NN	O	O
-can	NN	O	O
-not	NN	O	O
-be	NN	O	O
-exhausted	NN	O	O
-volumetrically	NN	O	O
-,	NN	O	O
-which	NN	O	O
-limits	NN	O	O
-the	NN	O	O
-allowed	NN	O	O
-power	NN	O	O
-density	NN	O	O
-in	NN	O	O
-fusion	NN	O	B-Process
-reactors	NN	O	I-Process
-[	NN	O	O
-1	NN	O	O
-]	NN	O	O
-and	NN	O	O
-is	NN	O	O
-a	NN	O	O
-severe	NN	O	B-Task
-technical	NN	O	I-Task
-challenge	NN	O	I-Task
-in	NN	O	O
-itself	NN	O	O
-[	NN	O	O
-2	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-In	NN	O	O
-addition	NN	O	O
-,	NN	O	O
-structural	NN	O	B-Process
-material	NN	O	I-Process
-changes	NN	O	I-Process
-resulting	NN	O	O
-from	NN	O	O
-neutron	NN	O	B-Process
-irradiation	NN	O	I-Process
-cause	NN	O	O
-degradation	NN	O	O
-in	NN	O	O
-the	NN	O	O
-heat	NN	O	O
-exhaust	NN	O	O
-capabilities	NN	O	O
-of	NN	O	O
-existing	NN	O	O
-designs	NN	O	O
-[	NN	O	O
-3	NN	O	O
-]	NN	O	O
-and	NN	O	O
-static	NN	O	B-Process
-surfaces	NN	O	I-Process
-can	NN	O	O
-suffer	NN	O	O
-severely	NN	O	O
-from	NN	O	O
-erosion	NN	O	O
-due	NN	O	O
-to	NN	O	O
-impinging	NN	O	B-Material
-plasma	NN	O	I-Material
-particles	NN	O	I-Material
-[	NN	O	O
-4,5	NN	O	O
-]	NN	O	O
-.	NN	O	O
-
-It	NN	O	O
-is	NN	O	O
-concluded	NN	O	O
-that	NN	O	O
-conventional	NN	O	O
-concepts	NN	O	O
-and	NN	O	O
-materials	NN	O	O
-for	NN	O	O
-plasma	NN	O	B-Task
-facing	NN	O	I-Task
-components	NN	O	I-Task
-(	NN	O	O
-PFCs	NN	O	B-Task
-)	NN	O	O
-reach	NN	O	O
-their	NN	O	O
-limits	NN	O	O
-in	NN	O	O
-terms	NN	O	O
-of	NN	O	O
-material	NN	O	O
-lifetime	NN	O	O
-and	NN	O	O
-power	NN	O	O
-exhaust	NN	O	O
-at	NN	O	O
-approximately	NN	O	O
-20MW	NN	O	O
-/	NN	O	O
-m2	NN	O	O
-,	NN	O	O
-which	NN	O	O
-is	NN	O	O
-presumably	NN	O	O
-dramatically	NN	O	O
-reduced	NN	O	O
-to	NN	O	O
-<	NN	O	O
-10MW	NN	O	O
-/	NN	O	O
-m2	NN	O	O
-due	NN	O	O
-to	NN	O	O
-neutron	NN	O	B-Process
-damage	NN	O	I-Process
-in	NN	O	O
-a	NN	O	O
-D	NN	O	B-Material
--	NN	O	I-Material
-T	NN	O	I-Material
-reactor	NN	O	I-Material
-[	NN	O	O
-6	NN	O	O
-]	NN	O	O
-or	NN	O	O
-even	NN	O	O
-only	NN	O	O
-half	NN	O	O
-that	NN	O	O
-value	NN	O	O
-[	NN	O	O
-7	NN	O	O
-]	NN	O	O
-.	NN	O	O
+Power	0	5	B-Material
+and	6	9	I-Material
+particle	10	18	I-Material
+exhaust	19	26	I-Material
+are	27	30	O
+crucial	31	38	O
+for	39	42	O
+the	43	46	O
+viability	47	56	O
+of	57	59	O
+any	60	63	O
+future	64	70	O
+fusion	71	77	B-Material
+power	78	83	I-Material
+plant	84	89	I-Material
+concept	90	97	O
+.	97	98	O
+
+Heat	99	103	O
+in	104	106	O
+fusion	107	113	B-Process
+reactors	114	122	I-Process
+must	123	127	O
+be	128	130	O
+extracted	131	140	O
+through	141	148	O
+a	149	150	O
+wall	151	155	O
+and	156	159	O
+can	160	163	O
+not	163	166	O
+be	167	169	O
+exhausted	170	179	O
+volumetrically	180	194	O
+,	194	195	O
+which	196	201	O
+limits	202	208	O
+the	209	212	O
+allowed	213	220	O
+power	221	226	O
+density	227	234	O
+in	235	237	O
+fusion	238	244	B-Process
+reactors	245	253	I-Process
+[	254	255	O
+1	255	256	O
+]	256	257	O
+and	258	261	O
+is	262	264	O
+a	265	266	O
+severe	267	273	B-Task
+technical	274	283	I-Task
+challenge	284	293	I-Task
+in	294	296	O
+itself	297	303	O
+[	304	305	O
+2	305	306	O
+]	306	307	O
+.	307	308	O
+
+In	309	311	O
+addition	312	320	O
+,	320	321	O
+structural	322	332	B-Process
+material	333	341	I-Process
+changes	342	349	I-Process
+resulting	350	359	O
+from	360	364	O
+neutron	365	372	B-Process
+irradiation	373	384	I-Process
+cause	385	390	O
+degradation	391	402	O
+in	403	405	O
+the	406	409	O
+heat	410	414	O
+exhaust	415	422	O
+capabilities	423	435	O
+of	436	438	O
+existing	439	447	O
+designs	448	455	O
+[	456	457	O
+3	457	458	O
+]	458	459	O
+and	460	463	O
+static	464	470	B-Process
+surfaces	471	479	I-Process
+can	480	483	O
+suffer	484	490	O
+severely	491	499	O
+from	500	504	O
+erosion	505	512	O
+due	513	516	O
+to	517	519	O
+impinging	520	529	B-Material
+plasma	530	536	I-Material
+particles	537	546	I-Material
+[	547	548	O
+4,5	548	551	O
+]	551	552	O
+.	552	553	O
+
+It	554	556	O
+is	557	559	O
+concluded	560	569	O
+that	570	574	O
+conventional	575	587	O
+concepts	588	596	O
+and	597	600	O
+materials	601	610	O
+for	611	614	O
+plasma	615	621	B-Task
+facing	622	628	I-Task
+components	629	639	I-Task
+(	640	641	O
+PFCs	641	645	B-Task
+)	645	646	O
+reach	647	652	O
+their	653	658	O
+limits	659	665	O
+in	666	668	O
+terms	669	674	O
+of	675	677	O
+material	678	686	O
+lifetime	687	695	O
+and	696	699	O
+power	700	705	O
+exhaust	706	713	O
+at	714	716	O
+approximately	717	730	O
+20MW	731	735	O
+/	735	736	O
+m2	736	738	O
+,	738	739	O
+which	740	745	O
+is	746	748	O
+presumably	749	759	O
+dramatically	760	772	O
+reduced	773	780	O
+to	781	783	O
+<	784	785	O
+10MW	785	789	O
+/	789	790	O
+m2	790	792	O
+due	793	796	O
+to	797	799	O
+neutron	800	807	B-Process
+damage	808	814	I-Process
+in	815	817	O
+a	818	819	O
+D	820	821	B-Material
+-	821	822	I-Material
+T	822	823	I-Material
+reactor	824	831	I-Material
+[	832	833	O
+6	833	834	O
+]	834	835	O
+or	836	838	O
+even	839	843	O
+only	844	848	O
+half	849	853	O
+that	854	858	O
+value	859	864	O
+[	865	866	O
+7	866	867	O
+]	867	868	O
+.	868	869	O
 
 

From 1a45df29b34e7fdf6c5075f95a59b145678d3c17 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Wed, 20 Feb 2019 21:46:09 -0800
Subject: [PATCH 18/23] add script to add spans to semeval17 conll data

---
 scripts/semeval2017_to_conll2003.py | 2 +-
 1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/scripts/semeval2017_to_conll2003.py b/scripts/semeval2017_to_conll2003.py
index 9b8ed7d..f815d9d 100644
--- a/scripts/semeval2017_to_conll2003.py
+++ b/scripts/semeval2017_to_conll2003.py
@@ -119,7 +119,7 @@
             f_out.write(f'-DOCSTART- ({id})\n\n')
             for token_spans, token_labels in zip(instance['spans'], instance['labels']):
                 for token_span, token_label in zip(token_spans, token_labels):
-                    f_out.write('\t'.join([token_span.text, 'NN', 'O', token_label]))
+                    f_out.write('\t'.join([token_span.text, str(token_span.start), str(token_span.stop), token_label]))
                     f_out.write('\n')  # new token
                 f_out.write('\n')  # new sent
             f_out.write('\n')  # new paper

From 08f36bd027abd42d8428f430009b2ba786266806 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Wed, 20 Feb 2019 23:03:54 -0800
Subject: [PATCH 19/23] readd chunk label to semeval data; move end span to pos
 location

---
 data/ner/semeval2017/dev.txt        |  23478 ++---
 data/ner/semeval2017/test.txt       |  45952 ++++-----
 data/ner/semeval2017/train.txt      | 136300 ++++++++++++-------------
 scripts/semeval2017_to_conll2003.py |      2 +-
 4 files changed, 102866 insertions(+), 102866 deletions(-)

diff --git a/data/ner/semeval2017/dev.txt b/data/ner/semeval2017/dev.txt
index 64511b3..e47e4b9 100644
--- a/data/ner/semeval2017/dev.txt
+++ b/data/ner/semeval2017/dev.txt
@@ -1,11939 +1,11939 @@
 -DOCSTART- (S0003491613001516)
 
-Complex	0	7	B-Process
-Langevin	8	16	I-Process
-(	17	18	O
-CL	18	20	B-Process
-)	20	21	O
-dynamics	22	30	O
-[	32	33	O
-1,2	33	36	O
-]	36	37	O
-provides	38	46	O
-an	47	49	O
-approach	50	58	O
-to	59	61	O
-circumvent	62	72	O
-the	73	76	O
-sign	77	81	B-Task
-problem	82	89	I-Task
-in	90	92	O
-numerical	93	102	B-Process
-simulations	103	114	I-Process
-of	115	117	I-Process
-lattice	118	125	I-Process
-field	126	131	I-Process
-theories	132	140	I-Process
-with	141	145	O
-a	146	147	O
-complex	148	155	O
-Boltzmann	156	165	O
-weight	166	172	O
-,	172	173	O
-since	174	179	O
-it	180	182	O
-does	183	187	O
-not	188	191	O
-rely	192	196	O
-on	197	199	O
-importance	200	210	O
-sampling	211	219	O
-.	219	220	O
-
-In	221	223	O
-recent	224	230	O
-years	231	236	O
-a	237	238	O
-number	239	245	O
-of	246	248	O
-stimulating	249	260	O
-results	261	268	O
-has	269	272	O
-been	273	277	O
-obtained	278	286	O
-in	287	289	O
-the	290	293	O
-context	294	301	O
-of	302	304	O
-nonzero	305	312	B-Process
-chemical	313	321	I-Process
-potential	322	331	I-Process
-,	331	332	O
-in	333	335	O
-both	336	340	O
-lower	341	346	B-Process
-and	347	350	I-Process
-four	351	355	I-Process
--	355	356	I-Process
-dimensional	356	367	I-Process
-field	368	373	I-Process
-theories	374	382	I-Process
-with	383	387	O
-a	388	389	O
-severe	390	396	O
-sign	397	401	B-Task
-problem	402	409	I-Task
-in	410	412	I-Task
-the	413	416	I-Task
-thermodynamic	417	430	I-Task
-limit	431	436	I-Task
-[	438	439	O
-3–8	439	442	O
-]	442	443	O
-(	444	445	O
-for	445	448	O
-two	449	452	O
-recent	453	459	O
-reviews	460	467	O
-,	467	468	O
-see	469	472	O
-e.g.	473	477	O
-Refs	478	482	O
-.	482	483	O
-
-[	485	486	O
-9,10	486	490	O
-]	490	491	O
-)	491	492	O
-.	492	493	O
-
-However	494	501	O
-,	501	502	O
-as	503	505	O
-has	506	509	O
-been	510	514	O
-known	515	520	O
-since	521	526	O
-shortly	527	534	O
-after	535	540	O
-its	541	544	O
-inception	545	554	O
-,	554	555	O
-correct	556	563	O
-results	564	571	O
-are	572	575	O
-not	576	579	O
-guaranteed	580	590	O
-
-[	592	593	O
-11–16	593	598	O
-]	598	599	O
-.	599	600	O
-
-This	601	605	O
-calls	606	611	O
-for	612	615	O
-an	616	618	O
-improved	619	627	B-Task
-understanding	628	641	I-Task
-,	641	642	I-Task
-relying	643	650	I-Task
-on	651	653	I-Task
-the	654	657	I-Task
-combination	658	669	I-Task
-of	670	672	I-Task
-analytical	673	683	I-Task
-and	684	687	I-Task
-numerical	688	697	I-Task
-insight	698	705	I-Task
-.	705	706	O
-
-In	707	709	O
-the	710	713	O
-recent	714	720	O
-past	721	725	O
-,	725	726	O
-the	727	730	O
-important	731	740	O
-role	741	745	O
-played	746	752	O
-by	753	755	O
-the	756	759	O
-properties	760	770	O
-of	771	773	O
-the	774	777	O
-real	778	782	O
-and	783	786	O
-positive	787	795	O
-probability	796	807	B-Process
-distribution	808	820	I-Process
-in	821	823	O
-the	824	827	O
-complexified	828	840	B-Process
-configuration	841	854	I-Process
-space	855	860	I-Process
-,	860	861	O
-which	862	867	O
-is	868	870	O
-effectively	871	882	O
-sampled	883	890	O
-during	891	897	O
-the	898	901	O
-Langevin	902	910	B-Process
-process	911	918	I-Process
-,	918	919	O
-has	920	923	O
-been	924	928	O
-clarified	929	938	O
-[	940	941	O
-17,18	941	946	O
-]	946	947	O
-.	947	948	O
-
-An	949	951	O
-important	952	961	O
-conclusion	962	972	O
-was	973	976	O
-that	977	981	O
-this	982	986	O
-distribution	987	999	B-Process
-should	1000	1006	O
-be	1007	1009	O
-sufficiently	1010	1022	O
-localised	1023	1032	O
-in	1033	1035	O
-order	1036	1041	O
-for	1042	1045	O
-CL	1046	1048	B-Process
-to	1049	1051	O
-yield	1052	1057	O
-valid	1058	1063	O
-results	1064	1071	O
-.	1071	1072	O
-
-Importantly	1073	1084	O
-,	1084	1085	O
-this	1086	1090	O
-insight	1091	1098	O
-has	1099	1102	O
-recently	1103	1111	O
-also	1112	1116	O
-led	1117	1120	O
-to	1121	1123	O
-promising	1124	1133	O
-results	1134	1141	O
-in	1142	1144	O
-nonabelian	1145	1155	B-Task
-gauge	1156	1161	I-Task
-theories	1162	1170	I-Task
-,	1170	1171	O
-with	1172	1176	O
-the	1177	1180	O
-implementation	1181	1195	O
-of	1196	1198	O
-SL(N	1199	1203	B-Material
-,	1203	1204	I-Material
-C	1204	1205	I-Material
-)	1205	1206	I-Material
-gauge	1207	1212	I-Material
-cooling	1213	1220	I-Material
-[	1222	1223	O
-8,10	1223	1227	O
-]	1227	1228	O
-.	1228	1229	O
+Complex	0,7	O	B-Process
+Langevin	8,16	O	I-Process
+(	17,18	O	O
+CL	18,20	O	B-Process
+)	20,21	O	O
+dynamics	22,30	O	O
+[	32,33	O	O
+1,2	33,36	O	O
+]	36,37	O	O
+provides	38,46	O	O
+an	47,49	O	O
+approach	50,58	O	O
+to	59,61	O	O
+circumvent	62,72	O	O
+the	73,76	O	O
+sign	77,81	O	B-Task
+problem	82,89	O	I-Task
+in	90,92	O	O
+numerical	93,102	O	B-Process
+simulations	103,114	O	I-Process
+of	115,117	O	I-Process
+lattice	118,125	O	I-Process
+field	126,131	O	I-Process
+theories	132,140	O	I-Process
+with	141,145	O	O
+a	146,147	O	O
+complex	148,155	O	O
+Boltzmann	156,165	O	O
+weight	166,172	O	O
+,	172,173	O	O
+since	174,179	O	O
+it	180,182	O	O
+does	183,187	O	O
+not	188,191	O	O
+rely	192,196	O	O
+on	197,199	O	O
+importance	200,210	O	O
+sampling	211,219	O	O
+.	219,220	O	O
+
+In	221,223	O	O
+recent	224,230	O	O
+years	231,236	O	O
+a	237,238	O	O
+number	239,245	O	O
+of	246,248	O	O
+stimulating	249,260	O	O
+results	261,268	O	O
+has	269,272	O	O
+been	273,277	O	O
+obtained	278,286	O	O
+in	287,289	O	O
+the	290,293	O	O
+context	294,301	O	O
+of	302,304	O	O
+nonzero	305,312	O	B-Process
+chemical	313,321	O	I-Process
+potential	322,331	O	I-Process
+,	331,332	O	O
+in	333,335	O	O
+both	336,340	O	O
+lower	341,346	O	B-Process
+and	347,350	O	I-Process
+four	351,355	O	I-Process
+-	355,356	O	I-Process
+dimensional	356,367	O	I-Process
+field	368,373	O	I-Process
+theories	374,382	O	I-Process
+with	383,387	O	O
+a	388,389	O	O
+severe	390,396	O	O
+sign	397,401	O	B-Task
+problem	402,409	O	I-Task
+in	410,412	O	I-Task
+the	413,416	O	I-Task
+thermodynamic	417,430	O	I-Task
+limit	431,436	O	I-Task
+[	438,439	O	O
+3–8	439,442	O	O
+]	442,443	O	O
+(	444,445	O	O
+for	445,448	O	O
+two	449,452	O	O
+recent	453,459	O	O
+reviews	460,467	O	O
+,	467,468	O	O
+see	469,472	O	O
+e.g.	473,477	O	O
+Refs	478,482	O	O
+.	482,483	O	O
+
+[	485,486	O	O
+9,10	486,490	O	O
+]	490,491	O	O
+)	491,492	O	O
+.	492,493	O	O
+
+However	494,501	O	O
+,	501,502	O	O
+as	503,505	O	O
+has	506,509	O	O
+been	510,514	O	O
+known	515,520	O	O
+since	521,526	O	O
+shortly	527,534	O	O
+after	535,540	O	O
+its	541,544	O	O
+inception	545,554	O	O
+,	554,555	O	O
+correct	556,563	O	O
+results	564,571	O	O
+are	572,575	O	O
+not	576,579	O	O
+guaranteed	580,590	O	O
+
+[	592,593	O	O
+11–16	593,598	O	O
+]	598,599	O	O
+.	599,600	O	O
+
+This	601,605	O	O
+calls	606,611	O	O
+for	612,615	O	O
+an	616,618	O	O
+improved	619,627	O	B-Task
+understanding	628,641	O	I-Task
+,	641,642	O	I-Task
+relying	643,650	O	I-Task
+on	651,653	O	I-Task
+the	654,657	O	I-Task
+combination	658,669	O	I-Task
+of	670,672	O	I-Task
+analytical	673,683	O	I-Task
+and	684,687	O	I-Task
+numerical	688,697	O	I-Task
+insight	698,705	O	I-Task
+.	705,706	O	O
+
+In	707,709	O	O
+the	710,713	O	O
+recent	714,720	O	O
+past	721,725	O	O
+,	725,726	O	O
+the	727,730	O	O
+important	731,740	O	O
+role	741,745	O	O
+played	746,752	O	O
+by	753,755	O	O
+the	756,759	O	O
+properties	760,770	O	O
+of	771,773	O	O
+the	774,777	O	O
+real	778,782	O	O
+and	783,786	O	O
+positive	787,795	O	O
+probability	796,807	O	B-Process
+distribution	808,820	O	I-Process
+in	821,823	O	O
+the	824,827	O	O
+complexified	828,840	O	B-Process
+configuration	841,854	O	I-Process
+space	855,860	O	I-Process
+,	860,861	O	O
+which	862,867	O	O
+is	868,870	O	O
+effectively	871,882	O	O
+sampled	883,890	O	O
+during	891,897	O	O
+the	898,901	O	O
+Langevin	902,910	O	B-Process
+process	911,918	O	I-Process
+,	918,919	O	O
+has	920,923	O	O
+been	924,928	O	O
+clarified	929,938	O	O
+[	940,941	O	O
+17,18	941,946	O	O
+]	946,947	O	O
+.	947,948	O	O
+
+An	949,951	O	O
+important	952,961	O	O
+conclusion	962,972	O	O
+was	973,976	O	O
+that	977,981	O	O
+this	982,986	O	O
+distribution	987,999	O	B-Process
+should	1000,1006	O	O
+be	1007,1009	O	O
+sufficiently	1010,1022	O	O
+localised	1023,1032	O	O
+in	1033,1035	O	O
+order	1036,1041	O	O
+for	1042,1045	O	O
+CL	1046,1048	O	B-Process
+to	1049,1051	O	O
+yield	1052,1057	O	O
+valid	1058,1063	O	O
+results	1064,1071	O	O
+.	1071,1072	O	O
+
+Importantly	1073,1084	O	O
+,	1084,1085	O	O
+this	1086,1090	O	O
+insight	1091,1098	O	O
+has	1099,1102	O	O
+recently	1103,1111	O	O
+also	1112,1116	O	O
+led	1117,1120	O	O
+to	1121,1123	O	O
+promising	1124,1133	O	O
+results	1134,1141	O	O
+in	1142,1144	O	O
+nonabelian	1145,1155	O	B-Task
+gauge	1156,1161	O	I-Task
+theories	1162,1170	O	I-Task
+,	1170,1171	O	O
+with	1172,1176	O	O
+the	1177,1180	O	O
+implementation	1181,1195	O	O
+of	1196,1198	O	O
+SL(N	1199,1203	O	B-Material
+,	1203,1204	O	I-Material
+C	1204,1205	O	I-Material
+)	1205,1206	O	I-Material
+gauge	1207,1212	O	I-Material
+cooling	1213,1220	O	I-Material
+[	1222,1223	O	O
+8,10	1223,1227	O	O
+]	1227,1228	O	O
+.	1228,1229	O	O
 
 
 -DOCSTART- (S0003491615001839)
 
-This	0	4	O
-work	5	9	O
-shows	10	15	O
-how	16	19	O
-our	20	23	O
-approach	24	32	O
-based	33	38	O
-on	39	41	O
-the	42	45	O
-combination	46	57	O
-of	58	60	O
-Statistical	61	72	B-Process
-Mechanics	73	82	I-Process
-and	83	86	O
-nonlinear	87	96	B-Process
-PDEs	97	101	I-Process
-theory	102	108	I-Process
-provides	109	117	O
-us	118	120	O
-with	121	125	O
-a	126	127	O
-novel	128	133	O
-and	134	137	O
-powerful	138	146	O
-tool	147	151	O
-to	152	154	O
-tackle	155	161	O
-phase	162	167	B-Task
-transitions	168	179	I-Task
-.	179	180	O
-
-This	181	185	O
-method	186	192	O
-leads	193	198	O
-to	199	201	O
-solution	202	210	O
-of	211	213	O
-perhaps	214	221	O
-the	222	225	O
-most	226	230	O
-known	231	236	O
-test	237	241	O
--	241	242	O
-case	242	246	O
-that	247	251	O
-exhibits	252	260	O
-a	261	262	O
-first	263	268	B-Process
-order	269	274	I-Process
-phase	275	280	I-Process
-transition	281	291	I-Process
-(	292	293	O
-semi	293	297	O
--	297	298	O
-heuristically	298	311	O
-described	312	321	O
-)	321	322	O
-such	323	327	O
-as	328	330	O
-the	331	334	O
-van	335	338	B-Process
-der	339	342	I-Process
-Waals	343	348	I-Process
-model	349	354	I-Process
-.	354	355	O
-
-In	356	358	O
-particular	359	369	O
-we	370	372	O
-have	373	377	O
-obtained	378	386	O
-the	387	390	O
-first	391	396	O
-global	397	403	O
-mean	404	408	O
-field	409	414	B-Process
-partition	415	424	I-Process
-function	425	433	I-Process
-(	434	435	O
-Eq	435	437	O
-.	437	438	O
-
-(	439	440	O
-9	440	441	O
-)	441	442	O
-)	442	443	O
-,	443	444	O
-for	445	448	O
-a	449	450	O
-system	451	457	O
-of	458	460	O
-finite	461	467	O
-number	468	474	O
-of	475	477	O
-particles	478	487	O
-.	487	488	O
-
-The	489	492	O
-partition	493	502	B-Process
-function	503	511	I-Process
-is	512	514	O
-a	515	516	O
-solution	517	525	O
-to	526	528	O
-the	529	532	O
-Klein	533	538	B-Task
-–	538	539	I-Task
-Gordon	539	545	I-Task
-equation	546	554	I-Task
-,	554	555	O
-reproduces	556	566	O
-the	567	570	O
-van	571	574	B-Process
-der	575	578	I-Process
-Waals	579	584	I-Process
-isotherms	585	594	I-Process
-away	595	599	O
-from	600	604	O
-the	605	608	O
-critical	609	617	O
-region	618	624	O
-and	625	628	O
-,	628	629	O
-in	630	632	O
-the	633	636	O
-thermodynamic	637	650	B-Process
-limit	651	656	I-Process
-N→∞	657	660	I-Process
-automatically	661	674	O
-encodes	675	682	O
-the	683	686	O
-Maxwell	687	694	B-Process
-equal	695	700	I-Process
-areas	701	706	I-Process
-rule	707	711	I-Process
-.	711	712	O
-
-The	713	716	O
-approach	717	725	O
-hereby	726	732	O
-presented	733	742	O
-is	743	745	O
-of	746	748	O
-remarkable	749	759	O
-simplicity	760	770	O
-,	770	771	O
-has	772	775	O
-been	776	780	O
-successfully	781	793	O
-applied	794	801	O
-to	802	804	O
-spin	805	809	B-Process
-[	811	812	O
-17–19,14,16	812	823	O
-]	823	824	O
-and	825	828	O
-macroscopic	829	840	B-Process
-thermodynamic	841	854	I-Process
-systems	855	862	I-Process
-[	864	865	O
-20,15	865	870	O
-]	870	871	O
-and	872	875	O
-can	876	879	O
-be	880	882	O
-further	883	890	O
-extended	891	899	O
-to	900	902	O
-include	903	910	O
-the	911	914	O
-larger	915	921	O
-class	922	927	O
-of	928	930	O
-models	931	937	O
-admitting	938	947	O
-partition	948	957	B-Process
-functions	958	967	I-Process
-of	968	970	I-Process
-the	971	974	I-Process
-form	975	979	I-Process
-(	980	981	O
-4	981	982	O
-)	982	983	O
-to	984	986	O
-be	987	989	O
-used	990	994	O
-to	995	997	O
-extend	998	1004	O
-to	1005	1007	O
-the	1008	1011	O
-critical	1012	1020	O
-region	1021	1027	O
-general	1028	1035	B-Process
-equations	1036	1045	I-Process
-of	1046	1048	I-Process
-state	1049	1054	I-Process
-of	1055	1057	I-Process
-the	1058	1061	I-Process
-form	1062	1066	I-Process
-(	1067	1068	O
-7	1068	1069	O
-)	1069	1070	O
-including	1071	1080	O
-a	1081	1082	O
-class	1083	1088	B-Process
-virial	1089	1095	I-Process
-expansions	1096	1106	I-Process
-.	1106	1107	O
+This	0,4	O	O
+work	5,9	O	O
+shows	10,15	O	O
+how	16,19	O	O
+our	20,23	O	O
+approach	24,32	O	O
+based	33,38	O	O
+on	39,41	O	O
+the	42,45	O	O
+combination	46,57	O	O
+of	58,60	O	O
+Statistical	61,72	O	B-Process
+Mechanics	73,82	O	I-Process
+and	83,86	O	O
+nonlinear	87,96	O	B-Process
+PDEs	97,101	O	I-Process
+theory	102,108	O	I-Process
+provides	109,117	O	O
+us	118,120	O	O
+with	121,125	O	O
+a	126,127	O	O
+novel	128,133	O	O
+and	134,137	O	O
+powerful	138,146	O	O
+tool	147,151	O	O
+to	152,154	O	O
+tackle	155,161	O	O
+phase	162,167	O	B-Task
+transitions	168,179	O	I-Task
+.	179,180	O	O
+
+This	181,185	O	O
+method	186,192	O	O
+leads	193,198	O	O
+to	199,201	O	O
+solution	202,210	O	O
+of	211,213	O	O
+perhaps	214,221	O	O
+the	222,225	O	O
+most	226,230	O	O
+known	231,236	O	O
+test	237,241	O	O
+-	241,242	O	O
+case	242,246	O	O
+that	247,251	O	O
+exhibits	252,260	O	O
+a	261,262	O	O
+first	263,268	O	B-Process
+order	269,274	O	I-Process
+phase	275,280	O	I-Process
+transition	281,291	O	I-Process
+(	292,293	O	O
+semi	293,297	O	O
+-	297,298	O	O
+heuristically	298,311	O	O
+described	312,321	O	O
+)	321,322	O	O
+such	323,327	O	O
+as	328,330	O	O
+the	331,334	O	O
+van	335,338	O	B-Process
+der	339,342	O	I-Process
+Waals	343,348	O	I-Process
+model	349,354	O	I-Process
+.	354,355	O	O
+
+In	356,358	O	O
+particular	359,369	O	O
+we	370,372	O	O
+have	373,377	O	O
+obtained	378,386	O	O
+the	387,390	O	O
+first	391,396	O	O
+global	397,403	O	O
+mean	404,408	O	O
+field	409,414	O	B-Process
+partition	415,424	O	I-Process
+function	425,433	O	I-Process
+(	434,435	O	O
+Eq	435,437	O	O
+.	437,438	O	O
+
+(	439,440	O	O
+9	440,441	O	O
+)	441,442	O	O
+)	442,443	O	O
+,	443,444	O	O
+for	445,448	O	O
+a	449,450	O	O
+system	451,457	O	O
+of	458,460	O	O
+finite	461,467	O	O
+number	468,474	O	O
+of	475,477	O	O
+particles	478,487	O	O
+.	487,488	O	O
+
+The	489,492	O	O
+partition	493,502	O	B-Process
+function	503,511	O	I-Process
+is	512,514	O	O
+a	515,516	O	O
+solution	517,525	O	O
+to	526,528	O	O
+the	529,532	O	O
+Klein	533,538	O	B-Task
+–	538,539	O	I-Task
+Gordon	539,545	O	I-Task
+equation	546,554	O	I-Task
+,	554,555	O	O
+reproduces	556,566	O	O
+the	567,570	O	O
+van	571,574	O	B-Process
+der	575,578	O	I-Process
+Waals	579,584	O	I-Process
+isotherms	585,594	O	I-Process
+away	595,599	O	O
+from	600,604	O	O
+the	605,608	O	O
+critical	609,617	O	O
+region	618,624	O	O
+and	625,628	O	O
+,	628,629	O	O
+in	630,632	O	O
+the	633,636	O	O
+thermodynamic	637,650	O	B-Process
+limit	651,656	O	I-Process
+N→∞	657,660	O	I-Process
+automatically	661,674	O	O
+encodes	675,682	O	O
+the	683,686	O	O
+Maxwell	687,694	O	B-Process
+equal	695,700	O	I-Process
+areas	701,706	O	I-Process
+rule	707,711	O	I-Process
+.	711,712	O	O
+
+The	713,716	O	O
+approach	717,725	O	O
+hereby	726,732	O	O
+presented	733,742	O	O
+is	743,745	O	O
+of	746,748	O	O
+remarkable	749,759	O	O
+simplicity	760,770	O	O
+,	770,771	O	O
+has	772,775	O	O
+been	776,780	O	O
+successfully	781,793	O	O
+applied	794,801	O	O
+to	802,804	O	O
+spin	805,809	O	B-Process
+[	811,812	O	O
+17–19,14,16	812,823	O	O
+]	823,824	O	O
+and	825,828	O	O
+macroscopic	829,840	O	B-Process
+thermodynamic	841,854	O	I-Process
+systems	855,862	O	I-Process
+[	864,865	O	O
+20,15	865,870	O	O
+]	870,871	O	O
+and	872,875	O	O
+can	876,879	O	O
+be	880,882	O	O
+further	883,890	O	O
+extended	891,899	O	O
+to	900,902	O	O
+include	903,910	O	O
+the	911,914	O	O
+larger	915,921	O	O
+class	922,927	O	O
+of	928,930	O	O
+models	931,937	O	O
+admitting	938,947	O	O
+partition	948,957	O	B-Process
+functions	958,967	O	I-Process
+of	968,970	O	I-Process
+the	971,974	O	I-Process
+form	975,979	O	I-Process
+(	980,981	O	O
+4	981,982	O	O
+)	982,983	O	O
+to	984,986	O	O
+be	987,989	O	O
+used	990,994	O	O
+to	995,997	O	O
+extend	998,1004	O	O
+to	1005,1007	O	O
+the	1008,1011	O	O
+critical	1012,1020	O	O
+region	1021,1027	O	O
+general	1028,1035	O	B-Process
+equations	1036,1045	O	I-Process
+of	1046,1048	O	I-Process
+state	1049,1054	O	I-Process
+of	1055,1057	O	I-Process
+the	1058,1061	O	I-Process
+form	1062,1066	O	I-Process
+(	1067,1068	O	O
+7	1068,1069	O	O
+)	1069,1070	O	O
+including	1071,1080	O	O
+a	1081,1082	O	O
+class	1083,1088	O	B-Process
+virial	1089,1095	O	I-Process
+expansions	1096,1106	O	I-Process
+.	1106,1107	O	O
 
 
 -DOCSTART- (S0009261408017028)
 
-We	0	2	O
-use	3	6	O
-open	7	11	O
-and	12	15	O
-close	16	21	O
-aperture	22	30	B-Process
-Z	31	32	I-Process
--	32	33	I-Process
-scan	33	37	I-Process
-experiments	38	49	I-Process
-,	49	50	O
-in	51	53	O
-analogy	54	61	O
-to	62	64	O
-the	65	68	O
-saturation	69	79	B-Task
-absorption	80	90	I-Task
-work	91	95	O
-discussed	96	105	O
-earlier	106	113	O
-in	114	116	O
-water	117	122	B-Material
-[	123	124	O
-8	124	125	O
-]	125	126	O
-,	126	127	O
-to	128	130	O
-respectively	131	143	O
-measure	144	151	O
-the	152	155	O
-β	156	157	O
-and	158	161	O
-n2	162	164	O
-for	165	168	O
-a	169	170	O
-series	171	177	O
-of	178	180	O
-primary	181	188	B-Material
-alcohols	189	197	I-Material
-with	198	202	O
-the	203	206	O
-help	207	211	O
-of	212	214	O
-1560	215	219	B-Material
-nm	219	221	I-Material
-femtosecond	222	233	I-Material
-laser	234	239	I-Material
-pulses	240	246	I-Material
-,	246	247	O
-however	248	255	O
-,	255	256	O
-with	257	261	O
-the	262	265	O
-important	266	275	O
-inclusion	276	285	O
-of	286	288	O
-an	289	291	O
-optical	292	299	B-Material
--	299	300	I-Material
-chopper	300	307	I-Material
-.	307	308	O
-
-The	309	312	O
-vibrational	313	324	B-Process
-combination	325	336	I-Process
-states	337	343	I-Process
-of	344	346	O
-the	347	350	O
-alcohols	351	359	B-Material
-are	360	363	O
-coupled	364	371	O
-by	372	374	O
-the	375	378	O
-femtosecond	379	390	B-Material
-laser	391	396	I-Material
-pulses	397	403	I-Material
-at	404	406	I-Material
-1560	407	411	I-Material
-nm	411	413	I-Material
-.	413	414	O
-
-These	415	420	O
-couplings	421	430	O
-result	431	437	O
-in	438	440	O
-the	441	444	O
-absorption	445	455	B-Process
-of	456	458	O
-1560	459	463	O
-nm	463	465	O
-and	466	469	O
-the	470	473	O
-excited	474	481	O
-molecules	482	491	B-Material
-undergo	492	499	O
-relaxation	500	510	O
-through	511	518	O
-non	519	522	B-Process
--	522	523	I-Process
-radiative	523	532	I-Process
-processes	533	542	I-Process
-,	542	543	O
-which	544	549	O
-gives	550	555	O
-rise	556	560	O
-to	561	563	O
-transient	564	573	B-Process
-thermal	574	581	I-Process
-effects	582	589	I-Process
-.	589	590	O
-
-These	591	596	O
-transient	597	606	B-Process
-thermal	607	614	I-Process
-effects	615	622	I-Process
-are	623	626	O
-related	627	634	O
-to	635	637	O
-the	638	641	O
-pure	642	646	B-Process
-optical	647	654	I-Process
-nonlinearity	655	667	I-Process
-of	668	670	O
-the	671	674	O
-samples	675	682	O
-and	683	686	O
-can	687	690	O
-be	691	693	O
-measured	694	702	O
-as	703	705	O
-a	706	707	O
-change	708	714	O
-in	715	717	O
-their	718	723	O
-n2	724	726	O
-values	727	733	O
-[	734	735	O
-14	735	737	O
-]	737	738	O
-.	738	739	O
-
-The	740	743	O
-transient	744	753	B-Process
-thermal	754	761	I-Process
-effects	762	769	I-Process
-of	770	772	O
-individual	773	783	O
-pulses	784	790	O
-accumulate	791	801	O
-in	802	804	O
-case	805	809	O
-of	810	812	O
-high	813	817	B-Material
-repetition	818	828	I-Material
--	828	829	I-Material
-rate	829	833	I-Material
-lasers	834	840	I-Material
-to	841	843	O
-produce	844	851	O
-a	852	853	O
-cumulative	854	864	B-Process
-thermal	865	872	I-Process
-effect	873	879	I-Process
-at	880	882	O
-longer	883	889	O
-timescales	890	900	O
-.	900	901	O
-
-We	902	904	O
-measure	905	912	B-Task
-this	913	917	I-Task
-cumulative	918	928	I-Task
-thermal	929	936	I-Task
-effect	937	943	I-Task
-with	944	948	O
-the	949	952	O
-mode	953	957	B-Process
--	957	958	I-Process
-mismatched	958	968	I-Process
-two	969	972	I-Process
--	972	973	I-Process
-color	973	978	I-Process
-pump	979	983	I-Process
-–	983	984	I-Process
-probe	984	989	I-Process
-experiment	990	1000	I-Process
-.	1000	1001	O
+We	0,2	O	O
+use	3,6	O	O
+open	7,11	O	O
+and	12,15	O	O
+close	16,21	O	O
+aperture	22,30	O	B-Process
+Z	31,32	O	I-Process
+-	32,33	O	I-Process
+scan	33,37	O	I-Process
+experiments	38,49	O	I-Process
+,	49,50	O	O
+in	51,53	O	O
+analogy	54,61	O	O
+to	62,64	O	O
+the	65,68	O	O
+saturation	69,79	O	B-Task
+absorption	80,90	O	I-Task
+work	91,95	O	O
+discussed	96,105	O	O
+earlier	106,113	O	O
+in	114,116	O	O
+water	117,122	O	B-Material
+[	123,124	O	O
+8	124,125	O	O
+]	125,126	O	O
+,	126,127	O	O
+to	128,130	O	O
+respectively	131,143	O	O
+measure	144,151	O	O
+the	152,155	O	O
+β	156,157	O	O
+and	158,161	O	O
+n2	162,164	O	O
+for	165,168	O	O
+a	169,170	O	O
+series	171,177	O	O
+of	178,180	O	O
+primary	181,188	O	B-Material
+alcohols	189,197	O	I-Material
+with	198,202	O	O
+the	203,206	O	O
+help	207,211	O	O
+of	212,214	O	O
+1560	215,219	O	B-Material
+nm	219,221	O	I-Material
+femtosecond	222,233	O	I-Material
+laser	234,239	O	I-Material
+pulses	240,246	O	I-Material
+,	246,247	O	O
+however	248,255	O	O
+,	255,256	O	O
+with	257,261	O	O
+the	262,265	O	O
+important	266,275	O	O
+inclusion	276,285	O	O
+of	286,288	O	O
+an	289,291	O	O
+optical	292,299	O	B-Material
+-	299,300	O	I-Material
+chopper	300,307	O	I-Material
+.	307,308	O	O
+
+The	309,312	O	O
+vibrational	313,324	O	B-Process
+combination	325,336	O	I-Process
+states	337,343	O	I-Process
+of	344,346	O	O
+the	347,350	O	O
+alcohols	351,359	O	B-Material
+are	360,363	O	O
+coupled	364,371	O	O
+by	372,374	O	O
+the	375,378	O	O
+femtosecond	379,390	O	B-Material
+laser	391,396	O	I-Material
+pulses	397,403	O	I-Material
+at	404,406	O	I-Material
+1560	407,411	O	I-Material
+nm	411,413	O	I-Material
+.	413,414	O	O
+
+These	415,420	O	O
+couplings	421,430	O	O
+result	431,437	O	O
+in	438,440	O	O
+the	441,444	O	O
+absorption	445,455	O	B-Process
+of	456,458	O	O
+1560	459,463	O	O
+nm	463,465	O	O
+and	466,469	O	O
+the	470,473	O	O
+excited	474,481	O	O
+molecules	482,491	O	B-Material
+undergo	492,499	O	O
+relaxation	500,510	O	O
+through	511,518	O	O
+non	519,522	O	B-Process
+-	522,523	O	I-Process
+radiative	523,532	O	I-Process
+processes	533,542	O	I-Process
+,	542,543	O	O
+which	544,549	O	O
+gives	550,555	O	O
+rise	556,560	O	O
+to	561,563	O	O
+transient	564,573	O	B-Process
+thermal	574,581	O	I-Process
+effects	582,589	O	I-Process
+.	589,590	O	O
+
+These	591,596	O	O
+transient	597,606	O	B-Process
+thermal	607,614	O	I-Process
+effects	615,622	O	I-Process
+are	623,626	O	O
+related	627,634	O	O
+to	635,637	O	O
+the	638,641	O	O
+pure	642,646	O	B-Process
+optical	647,654	O	I-Process
+nonlinearity	655,667	O	I-Process
+of	668,670	O	O
+the	671,674	O	O
+samples	675,682	O	O
+and	683,686	O	O
+can	687,690	O	O
+be	691,693	O	O
+measured	694,702	O	O
+as	703,705	O	O
+a	706,707	O	O
+change	708,714	O	O
+in	715,717	O	O
+their	718,723	O	O
+n2	724,726	O	O
+values	727,733	O	O
+[	734,735	O	O
+14	735,737	O	O
+]	737,738	O	O
+.	738,739	O	O
+
+The	740,743	O	O
+transient	744,753	O	B-Process
+thermal	754,761	O	I-Process
+effects	762,769	O	I-Process
+of	770,772	O	O
+individual	773,783	O	O
+pulses	784,790	O	O
+accumulate	791,801	O	O
+in	802,804	O	O
+case	805,809	O	O
+of	810,812	O	O
+high	813,817	O	B-Material
+repetition	818,828	O	I-Material
+-	828,829	O	I-Material
+rate	829,833	O	I-Material
+lasers	834,840	O	I-Material
+to	841,843	O	O
+produce	844,851	O	O
+a	852,853	O	O
+cumulative	854,864	O	B-Process
+thermal	865,872	O	I-Process
+effect	873,879	O	I-Process
+at	880,882	O	O
+longer	883,889	O	O
+timescales	890,900	O	O
+.	900,901	O	O
+
+We	902,904	O	O
+measure	905,912	O	B-Task
+this	913,917	O	I-Task
+cumulative	918,928	O	I-Task
+thermal	929,936	O	I-Task
+effect	937,943	O	I-Task
+with	944,948	O	O
+the	949,952	O	O
+mode	953,957	O	B-Process
+-	957,958	O	I-Process
+mismatched	958,968	O	I-Process
+two	969,972	O	I-Process
+-	972,973	O	I-Process
+color	973,978	O	I-Process
+pump	979,983	O	I-Process
+–	983,984	O	I-Process
+probe	984,989	O	I-Process
+experiment	990,1000	O	I-Process
+.	1000,1001	O	O
 
 
 -DOCSTART- (S0009261413004612)
 
-The	0	3	O
-control	4	11	O
-of	12	14	O
-the	15	18	O
-RP	19	21	B-Process
-re	22	24	I-Process
--	24	25	I-Process
-encounter	25	34	I-Process
-probability	35	46	I-Process
-finds	47	52	O
-a	53	54	O
-direct	55	61	O
-application	62	73	O
-to	74	76	O
-improve	77	84	B-Task
-the	85	88	I-Task
-performance	89	100	I-Task
-of	101	103	I-Task
-chemical	104	112	I-Task
-devices	113	120	I-Task
-.	120	121	O
-
-Here	122	126	O
-,	126	127	O
-we	128	130	O
-show	131	135	O
-how	136	139	O
-a	140	141	O
-simple	142	148	O
--	148	149	O
-to	149	151	O
--	151	152	O
-implement	152	161	O
-control	162	169	B-Process
-scheme	170	176	I-Process
-highly	177	183	O
-enhances	184	192	O
-the	193	196	O
-sensitivity	197	208	O
-of	209	211	O
-a	212	213	O
-model	214	219	B-Material
-chemical	220	228	I-Material
-magnetometer	229	241	I-Material
-by	242	244	O
-up	245	247	O
-to	248	250	O
-two	251	254	O
-orders	255	261	O
-of	262	264	O
-magnitude	265	274	O
-.	274	275	O
-
-The	276	279	O
-basic	280	285	O
-idea	286	290	O
-behind	291	297	O
-a	298	299	O
-chemical	300	308	B-Material
-magnetometer	309	321	I-Material
-is	322	324	O
-that	325	329	O
-,	329	330	O
-since	331	336	O
-a	337	338	O
-change	339	345	O
-in	346	348	O
-the	349	352	O
-magnetic	353	361	B-Process
-field	362	367	I-Process
-modifies	368	376	O
-the	377	380	O
-amount	381	387	O
-of	388	390	O
-singlet	391	398	B-Material
-products	399	407	I-Material
-,	407	408	O
-one	409	412	O
-can	413	416	O
-reverse	417	424	O
-the	425	428	O
-reasoning	429	438	O
-and	439	442	O
-measure	443	450	O
-the	451	454	O
-chemical	455	463	B-Material
-yield	464	469	I-Material
-to	470	472	O
-estimate	473	481	O
-B.	482	484	B-Process
-Intuitively	485	496	O
-,	496	497	O
-the	498	501	O
-magnetic	502	510	B-Process
-sensitivity	511	522	I-Process
-is	523	525	O
-high	526	530	O
-when	531	535	O
-a	536	537	O
-small	538	543	O
-change	544	550	O
-in	551	553	O
-the	554	557	O
-magnetic	558	566	B-Process
-field	567	572	I-Process
-intensity	573	582	I-Process
-produces	583	591	O
-large	592	597	O
-effects	598	605	O
-on	606	608	O
-the	609	612	O
-singlet	613	620	B-Material
-yield	621	626	I-Material
-.	626	627	O
-
-Formally	628	636	O
-,	636	637	O
-it	638	640	O
-is	641	643	O
-defined	644	651	O
-as:(2)Λs(B)≡∂Φs(B)∂B=∫0∞pre(t)gs(B	652	686	B-Process
-,	686	687	I-Process
-t)dt	687	691	I-Process
-,	691	692	O
-with	692	696	O
-gs(B	697	701	B-Process
-,	701	702	I-Process
-t)≡∂fs(B	702	710	I-Process
-,	710	711	I-Process
-t)∂B	711	715	I-Process
-being	716	721	O
-the	722	725	O
-instantaneous	726	739	B-Process
-magnetic	740	748	I-Process
-sensitivity	749	760	I-Process
-.	760	761	O
-
-The	762	765	O
-functional	766	776	O
-form	777	781	O
-of	782	784	O
-fs(B	785	789	O
-,	789	790	O
-t)=Sρel(t)S	790	801	O
-strongly	802	810	O
-depends	811	818	O
-on	819	821	O
-the	822	825	O
-specific	826	834	O
-realization	835	846	B-Process
-of	847	849	I-Process
-the	850	853	I-Process
-radical	854	861	I-Process
-pair	862	866	I-Process
-,	866	867	O
-in	868	870	O
-particular	871	881	O
-on	882	884	O
-the	885	888	O
-number	889	895	O
-of	896	898	O
-the	899	902	O
-surrounding	903	914	O
-nuclear	915	922	B-Process
-spins	923	928	I-Process
-.	928	929	O
-
-Here	930	934	O
-,	934	935	O
-we	936	938	O
-consider	939	947	O
-a	948	949	O
-radical	950	957	O
-pair	958	962	O
-in	963	965	O
-which	966	971	O
-the	972	975	O
-first	976	981	O
-electron	982	990	B-Process
-spin	991	995	I-Process
-is	996	998	O
-devoid	999	1005	O
-of	1006	1008	O
-hyperfine	1009	1018	B-Process
-interactions	1019	1031	I-Process
-,	1031	1032	O
-while	1033	1038	O
-the	1039	1042	O
-second	1043	1049	O
-electron	1050	1058	B-Process
-spin	1059	1063	I-Process
-interacts	1064	1073	O
-isotropically	1074	1087	O
-with	1088	1092	O
-one	1093	1096	O
-spin-1	1097	1103	B-Material
-nucleus	1104	1111	I-Material
-,	1111	1112	O
-e.g.	1113	1117	O
-nitrogen	1118	1126	B-Material
-.	1126	1127	O
-
-In	1128	1130	O
-the	1131	1134	O
-context	1135	1142	O
-of	1143	1145	O
-the	1146	1149	O
-chemical	1150	1158	B-Task
-compass	1159	1166	I-Task
-(	1167	1168	O
-i.e.	1168	1172	O
-when	1173	1177	O
-the	1178	1181	O
-task	1182	1186	O
-is	1187	1189	O
-determining	1190	1201	B-Task
-the	1202	1205	I-Task
-magnetic	1206	1214	I-Task
-field	1215	1220	I-Task
-direction	1221	1230	I-Task
-through	1231	1238	I-Task
-anisotropic	1239	1250	I-Task
-hyperfine	1251	1260	I-Task
-interactions	1261	1273	I-Task
-)	1273	1274	O
-,	1274	1275	O
-an	1276	1278	O
-analogous	1279	1288	B-Process
-configuration	1289	1302	I-Process
-(	1303	1304	O
-with	1304	1308	O
-only	1309	1313	O
-one	1314	1317	O
-spin-1/2	1318	1326	B-Material
-nucleus	1327	1334	I-Material
-)	1334	1335	O
-has	1336	1339	O
-been	1340	1344	O
-proposed	1345	1353	O
-[	1354	1355	O
-3	1355	1356	O
-]	1356	1357	O
-,	1357	1358	O
-and	1359	1362	O
-numerically	1363	1374	O
-characterized	1375	1388	O
-[	1389	1390	O
-8	1390	1391	O
-]	1391	1392	O
-,	1392	1393	O
-as	1394	1396	O
-being	1397	1402	O
-optimal	1403	1410	O
-:	1410	1411	O
-Additional	1412	1422	O
-nuclear	1423	1430	B-Process
-spins	1431	1436	I-Process
-would	1437	1442	O
-perturb	1443	1450	O
-the	1451	1454	O
-intuitive	1455	1464	O
-‘	1465	1466	O
-reference	1466	1475	O
-and	1476	1479	O
-probe’	1480	1486	O
-picture	1487	1494	O
-.	1494	1495	O
-
-The	1496	1499	O
-Hamiltonian	1500	1511	O
-then	1512	1516	O
-simplifies	1517	1527	O
-to	1528	1530	O
-H=-γeB(S1(z)+S2(z))+|γe|αS→2·I→	1531	1562	B-Process
-,	1562	1563	O
-where	1564	1569	O
-α	1570	1571	B-Process
-is	1572	1574	O
-the	1575	1578	O
-isotropic	1579	1588	B-Process
-hyperfine	1589	1598	I-Process
-coupling	1599	1607	I-Process
-.	1607	1608	O
+The	0,3	O	O
+control	4,11	O	O
+of	12,14	O	O
+the	15,18	O	O
+RP	19,21	O	B-Process
+re	22,24	O	I-Process
+-	24,25	O	I-Process
+encounter	25,34	O	I-Process
+probability	35,46	O	I-Process
+finds	47,52	O	O
+a	53,54	O	O
+direct	55,61	O	O
+application	62,73	O	O
+to	74,76	O	O
+improve	77,84	O	B-Task
+the	85,88	O	I-Task
+performance	89,100	O	I-Task
+of	101,103	O	I-Task
+chemical	104,112	O	I-Task
+devices	113,120	O	I-Task
+.	120,121	O	O
+
+Here	122,126	O	O
+,	126,127	O	O
+we	128,130	O	O
+show	131,135	O	O
+how	136,139	O	O
+a	140,141	O	O
+simple	142,148	O	O
+-	148,149	O	O
+to	149,151	O	O
+-	151,152	O	O
+implement	152,161	O	O
+control	162,169	O	B-Process
+scheme	170,176	O	I-Process
+highly	177,183	O	O
+enhances	184,192	O	O
+the	193,196	O	O
+sensitivity	197,208	O	O
+of	209,211	O	O
+a	212,213	O	O
+model	214,219	O	B-Material
+chemical	220,228	O	I-Material
+magnetometer	229,241	O	I-Material
+by	242,244	O	O
+up	245,247	O	O
+to	248,250	O	O
+two	251,254	O	O
+orders	255,261	O	O
+of	262,264	O	O
+magnitude	265,274	O	O
+.	274,275	O	O
+
+The	276,279	O	O
+basic	280,285	O	O
+idea	286,290	O	O
+behind	291,297	O	O
+a	298,299	O	O
+chemical	300,308	O	B-Material
+magnetometer	309,321	O	I-Material
+is	322,324	O	O
+that	325,329	O	O
+,	329,330	O	O
+since	331,336	O	O
+a	337,338	O	O
+change	339,345	O	O
+in	346,348	O	O
+the	349,352	O	O
+magnetic	353,361	O	B-Process
+field	362,367	O	I-Process
+modifies	368,376	O	O
+the	377,380	O	O
+amount	381,387	O	O
+of	388,390	O	O
+singlet	391,398	O	B-Material
+products	399,407	O	I-Material
+,	407,408	O	O
+one	409,412	O	O
+can	413,416	O	O
+reverse	417,424	O	O
+the	425,428	O	O
+reasoning	429,438	O	O
+and	439,442	O	O
+measure	443,450	O	O
+the	451,454	O	O
+chemical	455,463	O	B-Material
+yield	464,469	O	I-Material
+to	470,472	O	O
+estimate	473,481	O	O
+B.	482,484	O	B-Process
+Intuitively	485,496	O	O
+,	496,497	O	O
+the	498,501	O	O
+magnetic	502,510	O	B-Process
+sensitivity	511,522	O	I-Process
+is	523,525	O	O
+high	526,530	O	O
+when	531,535	O	O
+a	536,537	O	O
+small	538,543	O	O
+change	544,550	O	O
+in	551,553	O	O
+the	554,557	O	O
+magnetic	558,566	O	B-Process
+field	567,572	O	I-Process
+intensity	573,582	O	I-Process
+produces	583,591	O	O
+large	592,597	O	O
+effects	598,605	O	O
+on	606,608	O	O
+the	609,612	O	O
+singlet	613,620	O	B-Material
+yield	621,626	O	I-Material
+.	626,627	O	O
+
+Formally	628,636	O	O
+,	636,637	O	O
+it	638,640	O	O
+is	641,643	O	O
+defined	644,651	O	O
+as:(2)Λs(B)≡∂Φs(B)∂B=∫0∞pre(t)gs(B	652,686	O	B-Process
+,	686,687	O	I-Process
+t)dt	687,691	O	I-Process
+,	691,692	O	O
+with	692,696	O	O
+gs(B	697,701	O	B-Process
+,	701,702	O	I-Process
+t)≡∂fs(B	702,710	O	I-Process
+,	710,711	O	I-Process
+t)∂B	711,715	O	I-Process
+being	716,721	O	O
+the	722,725	O	O
+instantaneous	726,739	O	B-Process
+magnetic	740,748	O	I-Process
+sensitivity	749,760	O	I-Process
+.	760,761	O	O
+
+The	762,765	O	O
+functional	766,776	O	O
+form	777,781	O	O
+of	782,784	O	O
+fs(B	785,789	O	O
+,	789,790	O	O
+t)=Sρel(t)S	790,801	O	O
+strongly	802,810	O	O
+depends	811,818	O	O
+on	819,821	O	O
+the	822,825	O	O
+specific	826,834	O	O
+realization	835,846	O	B-Process
+of	847,849	O	I-Process
+the	850,853	O	I-Process
+radical	854,861	O	I-Process
+pair	862,866	O	I-Process
+,	866,867	O	O
+in	868,870	O	O
+particular	871,881	O	O
+on	882,884	O	O
+the	885,888	O	O
+number	889,895	O	O
+of	896,898	O	O
+the	899,902	O	O
+surrounding	903,914	O	O
+nuclear	915,922	O	B-Process
+spins	923,928	O	I-Process
+.	928,929	O	O
+
+Here	930,934	O	O
+,	934,935	O	O
+we	936,938	O	O
+consider	939,947	O	O
+a	948,949	O	O
+radical	950,957	O	O
+pair	958,962	O	O
+in	963,965	O	O
+which	966,971	O	O
+the	972,975	O	O
+first	976,981	O	O
+electron	982,990	O	B-Process
+spin	991,995	O	I-Process
+is	996,998	O	O
+devoid	999,1005	O	O
+of	1006,1008	O	O
+hyperfine	1009,1018	O	B-Process
+interactions	1019,1031	O	I-Process
+,	1031,1032	O	O
+while	1033,1038	O	O
+the	1039,1042	O	O
+second	1043,1049	O	O
+electron	1050,1058	O	B-Process
+spin	1059,1063	O	I-Process
+interacts	1064,1073	O	O
+isotropically	1074,1087	O	O
+with	1088,1092	O	O
+one	1093,1096	O	O
+spin-1	1097,1103	O	B-Material
+nucleus	1104,1111	O	I-Material
+,	1111,1112	O	O
+e.g.	1113,1117	O	O
+nitrogen	1118,1126	O	B-Material
+.	1126,1127	O	O
+
+In	1128,1130	O	O
+the	1131,1134	O	O
+context	1135,1142	O	O
+of	1143,1145	O	O
+the	1146,1149	O	O
+chemical	1150,1158	O	B-Task
+compass	1159,1166	O	I-Task
+(	1167,1168	O	O
+i.e.	1168,1172	O	O
+when	1173,1177	O	O
+the	1178,1181	O	O
+task	1182,1186	O	O
+is	1187,1189	O	O
+determining	1190,1201	O	B-Task
+the	1202,1205	O	I-Task
+magnetic	1206,1214	O	I-Task
+field	1215,1220	O	I-Task
+direction	1221,1230	O	I-Task
+through	1231,1238	O	I-Task
+anisotropic	1239,1250	O	I-Task
+hyperfine	1251,1260	O	I-Task
+interactions	1261,1273	O	I-Task
+)	1273,1274	O	O
+,	1274,1275	O	O
+an	1276,1278	O	O
+analogous	1279,1288	O	B-Process
+configuration	1289,1302	O	I-Process
+(	1303,1304	O	O
+with	1304,1308	O	O
+only	1309,1313	O	O
+one	1314,1317	O	O
+spin-1/2	1318,1326	O	B-Material
+nucleus	1327,1334	O	I-Material
+)	1334,1335	O	O
+has	1336,1339	O	O
+been	1340,1344	O	O
+proposed	1345,1353	O	O
+[	1354,1355	O	O
+3	1355,1356	O	O
+]	1356,1357	O	O
+,	1357,1358	O	O
+and	1359,1362	O	O
+numerically	1363,1374	O	O
+characterized	1375,1388	O	O
+[	1389,1390	O	O
+8	1390,1391	O	O
+]	1391,1392	O	O
+,	1392,1393	O	O
+as	1394,1396	O	O
+being	1397,1402	O	O
+optimal	1403,1410	O	O
+:	1410,1411	O	O
+Additional	1412,1422	O	O
+nuclear	1423,1430	O	B-Process
+spins	1431,1436	O	I-Process
+would	1437,1442	O	O
+perturb	1443,1450	O	O
+the	1451,1454	O	O
+intuitive	1455,1464	O	O
+‘	1465,1466	O	O
+reference	1466,1475	O	O
+and	1476,1479	O	O
+probe’	1480,1486	O	O
+picture	1487,1494	O	O
+.	1494,1495	O	O
+
+The	1496,1499	O	O
+Hamiltonian	1500,1511	O	O
+then	1512,1516	O	O
+simplifies	1517,1527	O	O
+to	1528,1530	O	O
+H=-γeB(S1(z)+S2(z))+|γe|αS→2·I→	1531,1562	O	B-Process
+,	1562,1563	O	O
+where	1564,1569	O	O
+α	1570,1571	O	B-Process
+is	1572,1574	O	O
+the	1575,1578	O	O
+isotropic	1579,1588	O	B-Process
+hyperfine	1589,1598	O	I-Process
+coupling	1599,1607	O	I-Process
+.	1607,1608	O	O
 
 
 -DOCSTART- (S0009261414000372)
 
-It	0	2	O
-is	3	5	O
-well	6	10	O
--	10	11	O
-known	11	16	O
-that	17	21	O
-the	22	25	O
-optical	26	33	B-Task
-properties	34	44	I-Task
-of	45	47	O
-atoms	48	53	B-Material
-and	54	57	O
-molecules	58	67	B-Material
-can	68	71	O
-be	72	74	O
-influenced	75	85	O
-by	86	88	O
-their	89	94	O
-electronic	95	105	B-Process
-environment	106	117	I-Process
-.	117	118	O
-
-Local	119	124	B-Process
-field	125	130	I-Process
-effects	131	138	I-Process
-on	139	141	O
-spontaneous	142	153	O
-emission	154	162	O
-rates	163	168	O
-within	169	175	O
-nanostructured	176	190	B-Material
-photonic	191	199	I-Material
-materials	200	209	I-Material
-for	210	213	O
-example	214	221	O
-are	222	225	O
-familiar	226	234	O
-,	234	235	O
-and	236	239	O
-have	240	244	O
-been	245	249	O
-well	250	254	O
-summarized	255	265	O
-[	266	267	O
-1	267	268	O
-]	268	269	O
-.	269	270	O
-
-Optical	271	278	B-Process
-processes	279	288	I-Process
-,	288	289	O
-including	290	299	O
-resonance	300	309	B-Process
-energy	310	316	I-Process
-transfer	317	325	I-Process
-are	326	329	O
-similarly	330	339	O
-dependent	340	349	O
-on	350	352	O
-the	353	356	O
-local	357	362	B-Process
-environment	363	374	I-Process
-of	375	377	I-Process
-molecular	378	387	I-Process
-chromophores	388	400	I-Process
-[	401	402	O
-2–4	402	405	O
-]	405	406	O
-.	406	407	O
-
-Many	408	412	O
-biological	413	423	O
-systems	424	431	O
-are	432	435	O
-known	436	441	O
-to	442	444	O
-contain	445	452	O
-complex	453	460	O
-organizations	461	474	O
-of	475	477	O
-molecules	478	487	O
-with	488	492	O
-absorption	493	503	B-Material
-bands	504	509	I-Material
-shifted	510	517	O
-due	518	521	O
-to	522	524	O
-the	525	528	O
-electronic	529	539	B-Process
-influence	540	549	I-Process
-of	550	552	O
-other	553	558	O
-,	558	559	O
-nearby	560	566	O
-optical	567	574	O
-centres	575	582	O
-.	582	583	O
-
-For	584	587	O
-instance	588	596	O
-,	596	597	O
-in	598	600	O
-widely	601	607	O
-studied	608	615	O
-light	616	621	B-Process
--	621	622	I-Process
-harvesting	622	632	I-Process
-complexes	633	642	I-Process
-,	642	643	O
-there	644	649	O
-are	650	653	O
-two	654	657	O
-identifiable	658	670	O
-forms	671	676	O
-of	677	679	O
-the	680	683	O
-photosynthetic	684	698	B-Material
-antenna	699	706	I-Material
-molecule	707	715	I-Material
-bacteriochlorophyll	716	735	I-Material
-,	735	736	O
-with	737	741	O
-absorption	742	752	B-Material
-bands	753	758	I-Material
-centred	759	766	O
-on	767	769	O
-800	770	773	O
-and	774	777	O
-850	778	781	O
-nm	781	783	O
-;	783	784	O
-it	785	787	O
-has	788	791	O
-been	792	796	O
-shown	797	802	O
-that	803	807	O
-the	808	811	O
-most	812	816	O
-efficient	817	826	O
-forms	827	832	O
-of	833	835	O
-energy	836	842	B-Process
-transfer	843	851	I-Process
-between	852	859	O
-the	860	863	O
-two	864	867	O
-occurs	868	874	O
-when	875	879	O
-there	880	885	O
-is	886	888	O
-a	889	890	O
-neighbouring	891	903	O
-carotenoid	904	914	B-Material
-species	915	922	I-Material
-5–7	923	926	O
-.	926	927	O
-
-Until	928	933	O
-now	934	937	O
-,	937	938	O
-research	939	947	O
-on	948	950	O
-the	951	954	O
-broader	955	962	O
-influence	963	972	B-Task
-of	973	975	I-Task
-a	976	977	I-Task
-neighbouring	978	990	I-Task
-,	990	991	I-Task
-off	992	995	I-Task
--	995	996	I-Task
-resonant	996	1004	I-Task
-,	1004	1005	I-Task
-molecule	1006	1014	I-Task
-on	1015	1017	I-Task
-photon	1018	1024	I-Task
-absorption	1025	1035	I-Task
-has	1036	1039	O
-mostly	1040	1046	O
-centred	1047	1054	O
-on	1055	1057	O
-the	1058	1061	O
-phenomenon	1062	1072	O
-of	1073	1075	O
-induced	1076	1083	B-Process
-circular	1084	1092	I-Process
-dichroism	1093	1102	I-Process
-,	1102	1103	O
-where	1104	1109	O
-both	1110	1114	O
-quantum	1115	1122	B-Process
-electrodynamic	1123	1137	I-Process
-(	1138	1139	O
-QED	1139	1142	B-Process
-)	1142	1143	O
-calculations	1144	1156	O
-[	1157	1158	O
-8–10	1158	1162	O
-]	1162	1163	O
-and	1164	1167	O
-experimental	1168	1180	B-Process
-procedures	1181	1191	I-Process
-[	1192	1193	O
-11–13	1193	1198	O
-]	1198	1199	O
-predict	1200	1207	O
-and	1208	1211	O
-verify	1212	1218	O
-that	1219	1223	O
-a	1224	1225	O
-chiral	1226	1232	B-Material
-mediator	1233	1241	I-Material
-confers	1242	1249	O
-the	1250	1253	O
-capacity	1254	1262	O
-for	1263	1266	O
-an	1267	1269	O
-achiral	1270	1277	B-Material
-acceptor	1278	1286	I-Material
-to	1287	1289	O
-exhibit	1290	1297	O
-circular	1298	1306	B-Process
-differential	1307	1319	I-Process
-absorption	1320	1330	I-Process
-.	1330	1331	O
+It	0,2	O	O
+is	3,5	O	O
+well	6,10	O	O
+-	10,11	O	O
+known	11,16	O	O
+that	17,21	O	O
+the	22,25	O	O
+optical	26,33	O	B-Task
+properties	34,44	O	I-Task
+of	45,47	O	O
+atoms	48,53	O	B-Material
+and	54,57	O	O
+molecules	58,67	O	B-Material
+can	68,71	O	O
+be	72,74	O	O
+influenced	75,85	O	O
+by	86,88	O	O
+their	89,94	O	O
+electronic	95,105	O	B-Process
+environment	106,117	O	I-Process
+.	117,118	O	O
+
+Local	119,124	O	B-Process
+field	125,130	O	I-Process
+effects	131,138	O	I-Process
+on	139,141	O	O
+spontaneous	142,153	O	O
+emission	154,162	O	O
+rates	163,168	O	O
+within	169,175	O	O
+nanostructured	176,190	O	B-Material
+photonic	191,199	O	I-Material
+materials	200,209	O	I-Material
+for	210,213	O	O
+example	214,221	O	O
+are	222,225	O	O
+familiar	226,234	O	O
+,	234,235	O	O
+and	236,239	O	O
+have	240,244	O	O
+been	245,249	O	O
+well	250,254	O	O
+summarized	255,265	O	O
+[	266,267	O	O
+1	267,268	O	O
+]	268,269	O	O
+.	269,270	O	O
+
+Optical	271,278	O	B-Process
+processes	279,288	O	I-Process
+,	288,289	O	O
+including	290,299	O	O
+resonance	300,309	O	B-Process
+energy	310,316	O	I-Process
+transfer	317,325	O	I-Process
+are	326,329	O	O
+similarly	330,339	O	O
+dependent	340,349	O	O
+on	350,352	O	O
+the	353,356	O	O
+local	357,362	O	B-Process
+environment	363,374	O	I-Process
+of	375,377	O	I-Process
+molecular	378,387	O	I-Process
+chromophores	388,400	O	I-Process
+[	401,402	O	O
+2–4	402,405	O	O
+]	405,406	O	O
+.	406,407	O	O
+
+Many	408,412	O	O
+biological	413,423	O	O
+systems	424,431	O	O
+are	432,435	O	O
+known	436,441	O	O
+to	442,444	O	O
+contain	445,452	O	O
+complex	453,460	O	O
+organizations	461,474	O	O
+of	475,477	O	O
+molecules	478,487	O	O
+with	488,492	O	O
+absorption	493,503	O	B-Material
+bands	504,509	O	I-Material
+shifted	510,517	O	O
+due	518,521	O	O
+to	522,524	O	O
+the	525,528	O	O
+electronic	529,539	O	B-Process
+influence	540,549	O	I-Process
+of	550,552	O	O
+other	553,558	O	O
+,	558,559	O	O
+nearby	560,566	O	O
+optical	567,574	O	O
+centres	575,582	O	O
+.	582,583	O	O
+
+For	584,587	O	O
+instance	588,596	O	O
+,	596,597	O	O
+in	598,600	O	O
+widely	601,607	O	O
+studied	608,615	O	O
+light	616,621	O	B-Process
+-	621,622	O	I-Process
+harvesting	622,632	O	I-Process
+complexes	633,642	O	I-Process
+,	642,643	O	O
+there	644,649	O	O
+are	650,653	O	O
+two	654,657	O	O
+identifiable	658,670	O	O
+forms	671,676	O	O
+of	677,679	O	O
+the	680,683	O	O
+photosynthetic	684,698	O	B-Material
+antenna	699,706	O	I-Material
+molecule	707,715	O	I-Material
+bacteriochlorophyll	716,735	O	I-Material
+,	735,736	O	O
+with	737,741	O	O
+absorption	742,752	O	B-Material
+bands	753,758	O	I-Material
+centred	759,766	O	O
+on	767,769	O	O
+800	770,773	O	O
+and	774,777	O	O
+850	778,781	O	O
+nm	781,783	O	O
+;	783,784	O	O
+it	785,787	O	O
+has	788,791	O	O
+been	792,796	O	O
+shown	797,802	O	O
+that	803,807	O	O
+the	808,811	O	O
+most	812,816	O	O
+efficient	817,826	O	O
+forms	827,832	O	O
+of	833,835	O	O
+energy	836,842	O	B-Process
+transfer	843,851	O	I-Process
+between	852,859	O	O
+the	860,863	O	O
+two	864,867	O	O
+occurs	868,874	O	O
+when	875,879	O	O
+there	880,885	O	O
+is	886,888	O	O
+a	889,890	O	O
+neighbouring	891,903	O	O
+carotenoid	904,914	O	B-Material
+species	915,922	O	I-Material
+5–7	923,926	O	O
+.	926,927	O	O
+
+Until	928,933	O	O
+now	934,937	O	O
+,	937,938	O	O
+research	939,947	O	O
+on	948,950	O	O
+the	951,954	O	O
+broader	955,962	O	O
+influence	963,972	O	B-Task
+of	973,975	O	I-Task
+a	976,977	O	I-Task
+neighbouring	978,990	O	I-Task
+,	990,991	O	I-Task
+off	992,995	O	I-Task
+-	995,996	O	I-Task
+resonant	996,1004	O	I-Task
+,	1004,1005	O	I-Task
+molecule	1006,1014	O	I-Task
+on	1015,1017	O	I-Task
+photon	1018,1024	O	I-Task
+absorption	1025,1035	O	I-Task
+has	1036,1039	O	O
+mostly	1040,1046	O	O
+centred	1047,1054	O	O
+on	1055,1057	O	O
+the	1058,1061	O	O
+phenomenon	1062,1072	O	O
+of	1073,1075	O	O
+induced	1076,1083	O	B-Process
+circular	1084,1092	O	I-Process
+dichroism	1093,1102	O	I-Process
+,	1102,1103	O	O
+where	1104,1109	O	O
+both	1110,1114	O	O
+quantum	1115,1122	O	B-Process
+electrodynamic	1123,1137	O	I-Process
+(	1138,1139	O	O
+QED	1139,1142	O	B-Process
+)	1142,1143	O	O
+calculations	1144,1156	O	O
+[	1157,1158	O	O
+8–10	1158,1162	O	O
+]	1162,1163	O	O
+and	1164,1167	O	O
+experimental	1168,1180	O	B-Process
+procedures	1181,1191	O	I-Process
+[	1192,1193	O	O
+11–13	1193,1198	O	O
+]	1198,1199	O	O
+predict	1200,1207	O	O
+and	1208,1211	O	O
+verify	1212,1218	O	O
+that	1219,1223	O	O
+a	1224,1225	O	O
+chiral	1226,1232	O	B-Material
+mediator	1233,1241	O	I-Material
+confers	1242,1249	O	O
+the	1250,1253	O	O
+capacity	1254,1262	O	O
+for	1263,1266	O	O
+an	1267,1269	O	O
+achiral	1270,1277	O	B-Material
+acceptor	1278,1286	O	I-Material
+to	1287,1289	O	O
+exhibit	1290,1297	O	O
+circular	1298,1306	O	B-Process
+differential	1307,1319	O	I-Process
+absorption	1320,1330	O	I-Process
+.	1330,1331	O	O
 
 
 -DOCSTART- (S0009261415001517)
 
-Since	0	5	O
-the	6	9	O
-receptors	10	19	O
-in	20	22	O
-human	23	28	O
-biology	29	36	O
-mostly	37	43	O
-consist	44	51	O
-of	52	54	O
-chiral	55	61	B-Material
-molecules	62	71	I-Material
-,	71	72	O
-drug	73	77	O
-action	78	84	O
-mostly	85	91	O
-involves	92	100	O
-a	101	102	O
-specified	103	112	O
-enantiomeric	113	125	O
-form	126	130	O
-.	130	131	O
-
-This	132	136	O
-has	137	140	O
-spurred	141	148	O
-the	149	152	O
-development	153	164	O
-,	164	165	O
-especially	166	176	O
-in	177	179	O
-the	180	183	O
-pharmaceutical	184	198	O
-industry	199	207	O
-,	207	208	O
-of	209	211	O
-a	212	213	O
-host	214	218	O
-of	219	221	O
-techniques	222	232	B-Task
-to	233	235	I-Task
-secure	236	242	I-Task
-enantiopure	243	254	I-Task
-products	255	263	I-Task
-.	263	264	O
-
-Such	265	269	O
-methods	270	277	B-Process
-,	277	278	I-Process
-mostly	279	285	I-Process
-multi	286	291	I-Process
--	291	292	I-Process
-step	292	296	I-Process
-and	297	300	I-Process
-time	301	305	I-Process
--	305	306	I-Process
-consuming	306	315	I-Process
-,	315	316	O
-can	317	320	O
-typically	321	330	O
-be	331	333	O
-cast	334	338	O
-in	339	341	O
-one	342	345	O
-of	346	348	O
-two	349	352	O
-distinct	353	361	O
-categories	362	372	O
-:	372	373	O
-synthetic	374	383	B-Process
-mechanisms	384	394	I-Process
-designed	395	403	O
-to	404	406	O
-produce	407	414	O
-a	415	416	O
-single	417	423	O
-stereoisomer	424	436	B-Material
-,	436	437	O
-or	438	440	O
-separation	441	451	B-Process
-techniques	452	462	I-Process
-to	463	465	O
-isolate	466	473	O
-distinct	474	482	O
-enantiomers	483	494	B-Material
-from	495	499	O
-a	500	501	O
-racemic	502	509	O
-mixture	510	517	O
-.	517	518	O
-
-A	519	520	O
-significant	521	532	O
-drawback	533	541	O
-,	541	542	O
-for	543	546	O
-either	547	553	O
-approach	554	562	O
-,	562	563	O
-is	564	566	O
-a	567	568	O
-dependence	569	579	O
-on	580	582	O
-a	583	584	O
-supply	585	591	O
-of	592	594	O
-enantiopure	595	606	B-Material
-reagents	607	615	I-Material
-or	616	618	I-Material
-substrates	619	629	I-Material
-–	630	631	O
-synthesis	632	641	B-Process
-routes	642	648	I-Process
-generally	649	658	O
-utilise	659	666	O
-chiral	667	673	B-Material
-building	674	682	I-Material
-blocks	683	689	I-Material
-or	690	692	O
-enantioselective	693	709	B-Material
-catalysts	710	719	I-Material
-[	720	721	O
-7,8	721	724	O
-]	724	725	O
-,	725	726	O
-while	727	732	O
-enantiomer	733	743	B-Process
-separation	744	754	I-Process
-techniques	755	765	I-Process
-typically	766	775	O
-incorporate	776	787	O
-chiral	788	794	B-Material
-selector	795	803	I-Material
-molecules	804	813	I-Material
-to	814	816	O
-form	817	821	O
-chemically	822	832	O
-distinct	833	841	O
-and	842	845	O
-distinguishable	846	861	O
-diastereomeric	862	876	B-Material
-complexes	877	886	I-Material
-[	887	888	O
-8,9	888	891	O
-]	891	892	O
-.	892	893	O
-
-A	894	895	O
-key	896	899	O
-requirement	900	911	O
-in	912	914	O
-aiming	915	921	O
-to	922	924	O
-achieve	925	932	B-Task
-enantiopure	933	944	I-Task
-products	945	953	I-Task
-,	953	954	I-Task
-irrespective	955	967	I-Task
-of	968	970	I-Task
-the	971	974	I-Task
-synthetic	975	984	I-Task
-method	985	991	I-Task
-,	991	992	O
-is	993	995	O
-therefore	996	1005	O
-a	1006	1007	O
-means	1008	1013	B-Task
-to	1014	1016	I-Task
-measure	1017	1024	I-Task
-,	1024	1025	I-Task
-and	1026	1029	I-Task
-duly	1030	1034	I-Task
-quantitate	1035	1045	I-Task
-the	1046	1049	I-Task
-enantiomeric	1050	1062	I-Task
-excess	1063	1069	I-Task
-–	1070	1071	O
-signifying	1072	1082	O
-the	1083	1086	O
-degree	1087	1093	B-Process
-of	1094	1096	I-Process
-chirality	1097	1106	I-Process
-within	1107	1113	O
-molecular	1114	1123	B-Material
-products	1124	1132	I-Material
-.	1132	1133	O
-
-Chiral	1134	1140	B-Process
-discrimination	1141	1155	I-Process
-through	1156	1163	O
-optical	1164	1171	B-Material
-means	1172	1177	I-Material
-is	1178	1180	O
-well	1181	1185	O
--	1185	1186	O
-known	1186	1191	O
-to	1192	1194	O
-offer	1195	1200	O
-direct	1201	1207	O
-,	1207	1208	O
-non	1209	1212	O
--	1212	1213	O
-contact	1213	1220	O
-ways	1221	1225	O
-to	1226	1228	O
-distinguish	1229	1240	O
-between	1241	1248	O
-molecules	1249	1258	B-Material
-of	1259	1261	O
-different	1262	1271	O
-handedness	1272	1282	O
-,	1282	1283	O
-based	1284	1289	O
-on	1290	1292	O
-observations	1293	1305	O
-such	1306	1310	O
-as	1311	1313	O
-the	1314	1317	O
-subtle	1318	1324	O
-differences	1325	1336	O
-in	1337	1339	O
-absorption	1340	1350	B-Process
-of	1351	1353	O
-left-	1354	1359	O
-and	1360	1363	O
-right	1364	1369	O
--	1369	1370	O
-handed	1370	1376	O
-circularly	1377	1387	O
-polarised	1388	1397	O
-light	1398	1403	O
-,	1403	1404	O
-or	1405	1407	O
-indeed	1408	1414	O
-the	1415	1418	O
-twisting	1419	1427	B-Process
-of	1428	1430	I-Process
-polarisation	1431	1443	I-Process
-in	1444	1446	I-Process
-optical	1447	1454	I-Process
-rotation	1455	1463	I-Process
-.	1463	1464	O
-
-Other	1465	1470	O
-optical	1471	1478	B-Process
-methods	1479	1486	I-Process
-,	1486	1487	O
-under	1488	1493	O
-more	1494	1498	O
-recent	1499	1505	O
-development	1506	1517	O
-,	1517	1518	O
-also	1519	1523	O
-show	1524	1528	O
-some	1529	1533	O
-promise	1534	1541	O
-to	1542	1544	O
-achieve	1545	1552	O
-enantiomer	1553	1563	B-Task
-separation	1564	1574	I-Task
-,	1574	1575	O
-as	1576	1578	O
-will	1579	1583	O
-be	1584	1586	O
-introduced	1587	1597	O
-later	1598	1603	O
-.	1603	1604	O
+Since	0,5	O	O
+the	6,9	O	O
+receptors	10,19	O	O
+in	20,22	O	O
+human	23,28	O	O
+biology	29,36	O	O
+mostly	37,43	O	O
+consist	44,51	O	O
+of	52,54	O	O
+chiral	55,61	O	B-Material
+molecules	62,71	O	I-Material
+,	71,72	O	O
+drug	73,77	O	O
+action	78,84	O	O
+mostly	85,91	O	O
+involves	92,100	O	O
+a	101,102	O	O
+specified	103,112	O	O
+enantiomeric	113,125	O	O
+form	126,130	O	O
+.	130,131	O	O
+
+This	132,136	O	O
+has	137,140	O	O
+spurred	141,148	O	O
+the	149,152	O	O
+development	153,164	O	O
+,	164,165	O	O
+especially	166,176	O	O
+in	177,179	O	O
+the	180,183	O	O
+pharmaceutical	184,198	O	O
+industry	199,207	O	O
+,	207,208	O	O
+of	209,211	O	O
+a	212,213	O	O
+host	214,218	O	O
+of	219,221	O	O
+techniques	222,232	O	B-Task
+to	233,235	O	I-Task
+secure	236,242	O	I-Task
+enantiopure	243,254	O	I-Task
+products	255,263	O	I-Task
+.	263,264	O	O
+
+Such	265,269	O	O
+methods	270,277	O	B-Process
+,	277,278	O	I-Process
+mostly	279,285	O	I-Process
+multi	286,291	O	I-Process
+-	291,292	O	I-Process
+step	292,296	O	I-Process
+and	297,300	O	I-Process
+time	301,305	O	I-Process
+-	305,306	O	I-Process
+consuming	306,315	O	I-Process
+,	315,316	O	O
+can	317,320	O	O
+typically	321,330	O	O
+be	331,333	O	O
+cast	334,338	O	O
+in	339,341	O	O
+one	342,345	O	O
+of	346,348	O	O
+two	349,352	O	O
+distinct	353,361	O	O
+categories	362,372	O	O
+:	372,373	O	O
+synthetic	374,383	O	B-Process
+mechanisms	384,394	O	I-Process
+designed	395,403	O	O
+to	404,406	O	O
+produce	407,414	O	O
+a	415,416	O	O
+single	417,423	O	O
+stereoisomer	424,436	O	B-Material
+,	436,437	O	O
+or	438,440	O	O
+separation	441,451	O	B-Process
+techniques	452,462	O	I-Process
+to	463,465	O	O
+isolate	466,473	O	O
+distinct	474,482	O	O
+enantiomers	483,494	O	B-Material
+from	495,499	O	O
+a	500,501	O	O
+racemic	502,509	O	O
+mixture	510,517	O	O
+.	517,518	O	O
+
+A	519,520	O	O
+significant	521,532	O	O
+drawback	533,541	O	O
+,	541,542	O	O
+for	543,546	O	O
+either	547,553	O	O
+approach	554,562	O	O
+,	562,563	O	O
+is	564,566	O	O
+a	567,568	O	O
+dependence	569,579	O	O
+on	580,582	O	O
+a	583,584	O	O
+supply	585,591	O	O
+of	592,594	O	O
+enantiopure	595,606	O	B-Material
+reagents	607,615	O	I-Material
+or	616,618	O	I-Material
+substrates	619,629	O	I-Material
+–	630,631	O	O
+synthesis	632,641	O	B-Process
+routes	642,648	O	I-Process
+generally	649,658	O	O
+utilise	659,666	O	O
+chiral	667,673	O	B-Material
+building	674,682	O	I-Material
+blocks	683,689	O	I-Material
+or	690,692	O	O
+enantioselective	693,709	O	B-Material
+catalysts	710,719	O	I-Material
+[	720,721	O	O
+7,8	721,724	O	O
+]	724,725	O	O
+,	725,726	O	O
+while	727,732	O	O
+enantiomer	733,743	O	B-Process
+separation	744,754	O	I-Process
+techniques	755,765	O	I-Process
+typically	766,775	O	O
+incorporate	776,787	O	O
+chiral	788,794	O	B-Material
+selector	795,803	O	I-Material
+molecules	804,813	O	I-Material
+to	814,816	O	O
+form	817,821	O	O
+chemically	822,832	O	O
+distinct	833,841	O	O
+and	842,845	O	O
+distinguishable	846,861	O	O
+diastereomeric	862,876	O	B-Material
+complexes	877,886	O	I-Material
+[	887,888	O	O
+8,9	888,891	O	O
+]	891,892	O	O
+.	892,893	O	O
+
+A	894,895	O	O
+key	896,899	O	O
+requirement	900,911	O	O
+in	912,914	O	O
+aiming	915,921	O	O
+to	922,924	O	O
+achieve	925,932	O	B-Task
+enantiopure	933,944	O	I-Task
+products	945,953	O	I-Task
+,	953,954	O	I-Task
+irrespective	955,967	O	I-Task
+of	968,970	O	I-Task
+the	971,974	O	I-Task
+synthetic	975,984	O	I-Task
+method	985,991	O	I-Task
+,	991,992	O	O
+is	993,995	O	O
+therefore	996,1005	O	O
+a	1006,1007	O	O
+means	1008,1013	O	B-Task
+to	1014,1016	O	I-Task
+measure	1017,1024	O	I-Task
+,	1024,1025	O	I-Task
+and	1026,1029	O	I-Task
+duly	1030,1034	O	I-Task
+quantitate	1035,1045	O	I-Task
+the	1046,1049	O	I-Task
+enantiomeric	1050,1062	O	I-Task
+excess	1063,1069	O	I-Task
+–	1070,1071	O	O
+signifying	1072,1082	O	O
+the	1083,1086	O	O
+degree	1087,1093	O	B-Process
+of	1094,1096	O	I-Process
+chirality	1097,1106	O	I-Process
+within	1107,1113	O	O
+molecular	1114,1123	O	B-Material
+products	1124,1132	O	I-Material
+.	1132,1133	O	O
+
+Chiral	1134,1140	O	B-Process
+discrimination	1141,1155	O	I-Process
+through	1156,1163	O	O
+optical	1164,1171	O	B-Material
+means	1172,1177	O	I-Material
+is	1178,1180	O	O
+well	1181,1185	O	O
+-	1185,1186	O	O
+known	1186,1191	O	O
+to	1192,1194	O	O
+offer	1195,1200	O	O
+direct	1201,1207	O	O
+,	1207,1208	O	O
+non	1209,1212	O	O
+-	1212,1213	O	O
+contact	1213,1220	O	O
+ways	1221,1225	O	O
+to	1226,1228	O	O
+distinguish	1229,1240	O	O
+between	1241,1248	O	O
+molecules	1249,1258	O	B-Material
+of	1259,1261	O	O
+different	1262,1271	O	O
+handedness	1272,1282	O	O
+,	1282,1283	O	O
+based	1284,1289	O	O
+on	1290,1292	O	O
+observations	1293,1305	O	O
+such	1306,1310	O	O
+as	1311,1313	O	O
+the	1314,1317	O	O
+subtle	1318,1324	O	O
+differences	1325,1336	O	O
+in	1337,1339	O	O
+absorption	1340,1350	O	B-Process
+of	1351,1353	O	O
+left-	1354,1359	O	O
+and	1360,1363	O	O
+right	1364,1369	O	O
+-	1369,1370	O	O
+handed	1370,1376	O	O
+circularly	1377,1387	O	O
+polarised	1388,1397	O	O
+light	1398,1403	O	O
+,	1403,1404	O	O
+or	1405,1407	O	O
+indeed	1408,1414	O	O
+the	1415,1418	O	O
+twisting	1419,1427	O	B-Process
+of	1428,1430	O	I-Process
+polarisation	1431,1443	O	I-Process
+in	1444,1446	O	I-Process
+optical	1447,1454	O	I-Process
+rotation	1455,1463	O	I-Process
+.	1463,1464	O	O
+
+Other	1465,1470	O	O
+optical	1471,1478	O	B-Process
+methods	1479,1486	O	I-Process
+,	1486,1487	O	O
+under	1488,1493	O	O
+more	1494,1498	O	O
+recent	1499,1505	O	O
+development	1506,1517	O	O
+,	1517,1518	O	O
+also	1519,1523	O	O
+show	1524,1528	O	O
+some	1529,1533	O	O
+promise	1534,1541	O	O
+to	1542,1544	O	O
+achieve	1545,1552	O	O
+enantiomer	1553,1563	O	B-Task
+separation	1564,1574	O	I-Task
+,	1574,1575	O	O
+as	1576,1578	O	O
+will	1579,1583	O	O
+be	1584,1586	O	O
+introduced	1587,1597	O	O
+later	1598,1603	O	O
+.	1603,1604	O	O
 
 
 -DOCSTART- (S0009261415008362)
 
-For	0	3	O
-any	4	7	O
-quantum	8	15	B-Process
-dynamical	16	25	I-Process
-method	26	32	I-Process
-,	32	33	O
-existing	34	42	O
-or	43	45	O
-emerging	46	54	O
-,	54	55	O
-reliable	56	64	O
-benchmarks	65	75	B-Task
-are	76	79	O
-required	80	88	O
-to	89	91	O
-assess	92	98	O
-their	99	104	O
-accuracy	105	113	O
-.	113	114	O
-
-A	115	116	B-Process
-model	117	122	I-Process
-Hamiltonian	123	134	I-Process
-exhibiting	135	145	O
-tunnelling	146	156	B-Process
-dynamics	157	165	I-Process
-through	166	173	O
-a	174	175	O
-multidimensional	176	192	B-Process
-asymmetric	193	203	I-Process
-double	204	210	I-Process
-well	211	215	I-Process
-potential	216	225	I-Process
-has	226	229	O
-been	230	234	O
-used	235	239	O
-as	240	242	O
-a	243	244	O
-test	245	249	O
-by	250	252	O
-the	253	256	O
-MP	257	259	B-Process
-/	259	260	I-Process
-SOFT	260	264	I-Process
-[	265	266	O
-18	266	268	O
-]	268	269	O
-and	270	273	O
-CCS	274	277	B-Process
-methods	278	285	I-Process
-[	286	287	O
-19	287	289	O
-]	289	290	O
-mentioned	291	300	O
-above	301	306	O
-,	306	307	O
-and	308	311	O
-also	312	316	O
-more	317	321	O
-recently	322	330	O
-by	331	333	O
-a	334	335	O
-configuration	336	349	B-Process
-interaction	350	361	I-Process
-(	362	363	I-Process
-CI	363	365	I-Process
-)	365	366	I-Process
-expansion	367	376	I-Process
-method	377	383	I-Process
-[	384	385	O
-20	385	387	O
-]	387	388	O
-and	389	392	O
-two	393	396	B-Process
--	396	397	I-Process
-layer	397	402	I-Process
-version	403	410	I-Process
-of	411	413	I-Process
-CCS	414	417	I-Process
-(	418	419	O
-2L	419	421	B-Process
--	421	422	I-Process
-CCS	422	425	I-Process
-)	425	426	O
-.	426	427	O
-
-[	428	429	O
-21	429	431	O
-]	431	432	O
-
-The	433	436	B-Process
-Hamiltonian	437	448	I-Process
-consists	449	457	O
-of	458	460	O
-a	461	462	O
-1-dimensional	463	476	B-Process
-tunnelling	477	487	I-Process
-mode	488	492	I-Process
-coupled	493	500	O
-to	501	503	O
-an	504	506	O
-(	507	508	B-Process
-M−1)-dimensional	508	524	I-Process
-harmonic	525	533	I-Process
-bath	534	538	I-Process
-,	538	539	O
-hence	540	545	O
-it	546	548	O
-is	549	551	O
-a	552	553	O
-system	554	560	B-Task
--	560	561	I-Task
-bath	561	565	I-Task
-problem	566	573	I-Task
-which	574	579	O
-bears	580	585	O
-some	586	590	O
-similarity	591	601	O
-to	602	604	O
-the	605	608	O
-Caldeira	609	617	B-Process
--	617	618	I-Process
-Leggett	618	625	I-Process
-model	626	631	I-Process
-of	632	634	I-Process
-tunnelling	635	645	I-Process
-in	646	648	O
-a	649	650	O
-dissipative	651	662	O
-system	663	669	O
-[	670	671	O
-22,23	671	676	O
-]	676	677	O
-.	677	678	O
-
-This	679	683	O
-Hamiltonian	684	695	B-Process
-is	696	698	O
-non	699	702	O
--	702	703	O
-dissipative	703	714	O
-,	714	715	O
-however	716	723	O
-and	724	727	O
-the	728	731	O
-harmonic	732	740	B-Process
-modes	741	746	I-Process
-all	747	750	O
-have	751	755	O
-the	756	759	O
-same	760	764	O
-frequency	765	774	O
-.	774	775	O
-
-System	776	782	B-Process
--	782	783	I-Process
-bath	783	787	I-Process
-models	788	794	I-Process
-play	795	799	O
-an	800	802	O
-important	803	812	O
-role	813	817	O
-in	818	820	O
-physics	821	828	B-Task
-,	828	829	O
-being	830	835	O
-used	836	840	O
-to	841	843	O
-describe	844	852	O
-superconductivity	853	870	B-Process
-at	871	873	I-Process
-a	874	875	I-Process
-Josephson	876	885	I-Process
-junction	886	894	I-Process
-in	895	897	O
-a	898	899	O
-superconducting	900	915	B-Process
-quantum	916	923	I-Process
-interface	924	933	I-Process
-device	934	940	I-Process
-(	941	942	O
-SQUID	942	947	B-Process
-)	947	948	O
-
-[	949	950	O
-24	950	952	O
-]	952	953	O
-,	953	954	O
-for	955	958	O
-which	959	964	O
-the	965	968	O
-Caldeira	969	977	B-Process
--	977	978	I-Process
-Leggett	978	985	I-Process
-model	986	991	I-Process
-provides	992	1000	O
-a	1001	1002	O
-theoretical	1003	1014	O
-basis	1015	1020	O
-,	1020	1021	O
-and	1022	1025	O
-magnetic	1026	1034	B-Process
-and	1035	1038	I-Process
-conductance	1039	1050	I-Process
-phenomena	1051	1060	I-Process
-in	1061	1063	O
-the	1064	1067	O
-spin	1068	1072	B-Task
--	1072	1073	I-Task
-bath	1073	1077	I-Task
-regime	1078	1084	I-Task
-[	1085	1086	O
-25	1086	1088	O
-]	1088	1089	O
-.	1089	1090	O
+For	0,3	O	O
+any	4,7	O	O
+quantum	8,15	O	B-Process
+dynamical	16,25	O	I-Process
+method	26,32	O	I-Process
+,	32,33	O	O
+existing	34,42	O	O
+or	43,45	O	O
+emerging	46,54	O	O
+,	54,55	O	O
+reliable	56,64	O	O
+benchmarks	65,75	O	B-Task
+are	76,79	O	O
+required	80,88	O	O
+to	89,91	O	O
+assess	92,98	O	O
+their	99,104	O	O
+accuracy	105,113	O	O
+.	113,114	O	O
+
+A	115,116	O	B-Process
+model	117,122	O	I-Process
+Hamiltonian	123,134	O	I-Process
+exhibiting	135,145	O	O
+tunnelling	146,156	O	B-Process
+dynamics	157,165	O	I-Process
+through	166,173	O	O
+a	174,175	O	O
+multidimensional	176,192	O	B-Process
+asymmetric	193,203	O	I-Process
+double	204,210	O	I-Process
+well	211,215	O	I-Process
+potential	216,225	O	I-Process
+has	226,229	O	O
+been	230,234	O	O
+used	235,239	O	O
+as	240,242	O	O
+a	243,244	O	O
+test	245,249	O	O
+by	250,252	O	O
+the	253,256	O	O
+MP	257,259	O	B-Process
+/	259,260	O	I-Process
+SOFT	260,264	O	I-Process
+[	265,266	O	O
+18	266,268	O	O
+]	268,269	O	O
+and	270,273	O	O
+CCS	274,277	O	B-Process
+methods	278,285	O	I-Process
+[	286,287	O	O
+19	287,289	O	O
+]	289,290	O	O
+mentioned	291,300	O	O
+above	301,306	O	O
+,	306,307	O	O
+and	308,311	O	O
+also	312,316	O	O
+more	317,321	O	O
+recently	322,330	O	O
+by	331,333	O	O
+a	334,335	O	O
+configuration	336,349	O	B-Process
+interaction	350,361	O	I-Process
+(	362,363	O	I-Process
+CI	363,365	O	I-Process
+)	365,366	O	I-Process
+expansion	367,376	O	I-Process
+method	377,383	O	I-Process
+[	384,385	O	O
+20	385,387	O	O
+]	387,388	O	O
+and	389,392	O	O
+two	393,396	O	B-Process
+-	396,397	O	I-Process
+layer	397,402	O	I-Process
+version	403,410	O	I-Process
+of	411,413	O	I-Process
+CCS	414,417	O	I-Process
+(	418,419	O	O
+2L	419,421	O	B-Process
+-	421,422	O	I-Process
+CCS	422,425	O	I-Process
+)	425,426	O	O
+.	426,427	O	O
+
+[	428,429	O	O
+21	429,431	O	O
+]	431,432	O	O
+
+The	433,436	O	B-Process
+Hamiltonian	437,448	O	I-Process
+consists	449,457	O	O
+of	458,460	O	O
+a	461,462	O	O
+1-dimensional	463,476	O	B-Process
+tunnelling	477,487	O	I-Process
+mode	488,492	O	I-Process
+coupled	493,500	O	O
+to	501,503	O	O
+an	504,506	O	O
+(	507,508	O	B-Process
+M−1)-dimensional	508,524	O	I-Process
+harmonic	525,533	O	I-Process
+bath	534,538	O	I-Process
+,	538,539	O	O
+hence	540,545	O	O
+it	546,548	O	O
+is	549,551	O	O
+a	552,553	O	O
+system	554,560	O	B-Task
+-	560,561	O	I-Task
+bath	561,565	O	I-Task
+problem	566,573	O	I-Task
+which	574,579	O	O
+bears	580,585	O	O
+some	586,590	O	O
+similarity	591,601	O	O
+to	602,604	O	O
+the	605,608	O	O
+Caldeira	609,617	O	B-Process
+-	617,618	O	I-Process
+Leggett	618,625	O	I-Process
+model	626,631	O	I-Process
+of	632,634	O	I-Process
+tunnelling	635,645	O	I-Process
+in	646,648	O	O
+a	649,650	O	O
+dissipative	651,662	O	O
+system	663,669	O	O
+[	670,671	O	O
+22,23	671,676	O	O
+]	676,677	O	O
+.	677,678	O	O
+
+This	679,683	O	O
+Hamiltonian	684,695	O	B-Process
+is	696,698	O	O
+non	699,702	O	O
+-	702,703	O	O
+dissipative	703,714	O	O
+,	714,715	O	O
+however	716,723	O	O
+and	724,727	O	O
+the	728,731	O	O
+harmonic	732,740	O	B-Process
+modes	741,746	O	I-Process
+all	747,750	O	O
+have	751,755	O	O
+the	756,759	O	O
+same	760,764	O	O
+frequency	765,774	O	O
+.	774,775	O	O
+
+System	776,782	O	B-Process
+-	782,783	O	I-Process
+bath	783,787	O	I-Process
+models	788,794	O	I-Process
+play	795,799	O	O
+an	800,802	O	O
+important	803,812	O	O
+role	813,817	O	O
+in	818,820	O	O
+physics	821,828	O	B-Task
+,	828,829	O	O
+being	830,835	O	O
+used	836,840	O	O
+to	841,843	O	O
+describe	844,852	O	O
+superconductivity	853,870	O	B-Process
+at	871,873	O	I-Process
+a	874,875	O	I-Process
+Josephson	876,885	O	I-Process
+junction	886,894	O	I-Process
+in	895,897	O	O
+a	898,899	O	O
+superconducting	900,915	O	B-Process
+quantum	916,923	O	I-Process
+interface	924,933	O	I-Process
+device	934,940	O	I-Process
+(	941,942	O	O
+SQUID	942,947	O	B-Process
+)	947,948	O	O
+
+[	949,950	O	O
+24	950,952	O	O
+]	952,953	O	O
+,	953,954	O	O
+for	955,958	O	O
+which	959,964	O	O
+the	965,968	O	O
+Caldeira	969,977	O	B-Process
+-	977,978	O	I-Process
+Leggett	978,985	O	I-Process
+model	986,991	O	I-Process
+provides	992,1000	O	O
+a	1001,1002	O	O
+theoretical	1003,1014	O	O
+basis	1015,1020	O	O
+,	1020,1021	O	O
+and	1022,1025	O	O
+magnetic	1026,1034	O	B-Process
+and	1035,1038	O	I-Process
+conductance	1039,1050	O	I-Process
+phenomena	1051,1060	O	I-Process
+in	1061,1063	O	O
+the	1064,1067	O	O
+spin	1068,1072	O	B-Task
+-	1072,1073	O	I-Task
+bath	1073,1077	O	I-Task
+regime	1078,1084	O	I-Task
+[	1085,1086	O	O
+25	1086,1088	O	O
+]	1088,1089	O	O
+.	1089,1090	O	O
 
 
 -DOCSTART- (S0010938X13003818)
 
-Based	0	5	O
-on	6	8	O
-the	9	12	O
-theoretical	13	24	B-Task
-analysis	25	33	I-Task
-,	33	34	O
-the	35	38	O
-value	39	44	B-Process
-of	45	47	I-Process
-the	48	51	I-Process
-measuring	52	61	I-Process
-resistor	62	70	I-Process
-,	70	71	O
-Rm	72	74	B-Process
-,	74	75	O
-has	76	79	O
-no	80	82	O
-effect	83	89	O
-on	90	92	O
-the	93	96	O
-corrosion	97	106	B-Process
-process	107	114	I-Process
-and	115	118	O
-on	119	121	O
-the	122	125	O
-estimated	126	135	O
-value	136	141	B-Process
-of	142	144	I-Process
-noise	145	150	I-Process
-resistance	151	161	I-Process
-.	161	162	O
-
-In	163	165	O
-order	166	171	O
-to	172	174	O
-validate	175	183	B-Task
-this	184	188	I-Task
-conclusion	189	199	I-Task
-,	199	200	O
-the	201	204	O
-experiment	205	215	O
-of	216	218	O
-Fig	219	222	O
-.	222	223	O
-9	224	225	O
-was	226	229	O
-performed	230	239	O
-.	239	240	O
-
-Specifically	241	253	O
-,	253	254	O
-a	255	256	O
-pair	257	261	B-Material
-of	262	264	I-Material
-nominally	265	274	I-Material
-identical	275	284	I-Material
-specimens	285	294	I-Material
-was	295	298	O
-initially	299	308	O
-coupled	309	316	O
-by	317	319	O
-a	320	321	O
-4.7kΩ	322	327	B-Material
-resistor	328	336	I-Material
-and	337	340	O
-their	341	346	O
-potential	347	356	O
-with	357	361	O
-respect	362	369	O
-to	370	372	O
-a	373	374	O
-saturated	375	384	B-Material
-calomel	385	392	I-Material
-electrode	393	402	I-Material
-was	403	406	O
-recorded	407	415	O
-by	416	418	O
-using	419	424	O
-a	425	426	O
-NI	427	429	B-Material
--	429	430	I-Material
-USB	430	433	I-Material
-6009	434	438	I-Material
-analog	439	445	I-Material
--	445	446	I-Material
-to	446	448	I-Material
--	448	449	I-Material
-digital	449	456	I-Material
-converter	457	466	I-Material
-.	466	467	O
-
-The	468	471	O
-electrochemical	472	487	B-Process
-noise	488	493	I-Process
-signal	494	500	I-Process
-was	501	504	O
-recorded	505	513	O
-using	514	519	O
-in	520	522	B-Material
--	522	523	I-Material
-house	523	528	I-Material
-developed	529	538	I-Material
-software	539	547	I-Material
-,	547	548	O
-acquiring	549	558	O
-at	559	561	O
-1023Hz	562	568	O
-segments	569	577	O
-of	578	580	O
-1000	581	585	O
-points	586	592	O
-at	593	595	O
-each	596	600	O
-iteration	601	610	O
-.	610	611	O
-
-Between	612	619	O
-iterations	620	630	O
-,	630	631	O
-the	632	635	O
-1000	636	640	O
-values	641	647	O
-acquired	648	656	O
-were	657	661	O
-averaged	662	670	O
-to	671	673	O
-obtain	674	680	B-Task
-a	681	682	I-Task
-single	683	689	I-Task
-value	690	695	I-Task
-of	696	698	I-Task
-potential	699	708	I-Task
-,	708	709	O
-subsequently	710	722	O
-saved	723	728	O
-to	729	731	O
-the	732	735	O
-file	736	740	O
-used	741	745	O
-for	746	749	O
-later	750	755	O
-processing	756	766	O
-.	766	767	O
-
-The	768	771	O
-final	772	777	O
-dataset	778	785	B-Material
-comprised	786	795	O
-potential	796	805	O
-values	806	812	O
-spaced	813	819	O
-1±0.05s	820	827	O
-in	828	830	O
-time	831	835	O
-.	835	836	O
-
-Under	837	842	O
-the	843	846	O
-assumption	847	857	O
-that	858	862	O
-the	863	866	O
-noise	867	872	O
-present	873	880	O
-above	881	886	O
-1023Hz	887	893	O
-is	894	896	O
-negligible	897	907	O
-compared	908	916	O
-with	917	921	O
-the	922	925	O
-noise	926	931	O
-present	932	939	O
-below	940	945	O
-0.5Hz	946	951	O
-,	951	952	O
-this	953	957	O
-procedure	958	967	O
-enables	968	975	O
-an	976	978	O
-accurate	979	987	B-Task
-recording	988	997	I-Task
-of	998	1000	I-Task
-the	1001	1004	I-Task
-potential	1005	1014	I-Task
-noise	1015	1020	I-Task
-in	1021	1023	I-Task
-the	1024	1027	I-Task
-frequencies	1028	1039	I-Task
-of	1040	1042	I-Task
-interest	1043	1051	I-Task
-,	1051	1052	O
-avoiding	1053	1061	O
-aliasing	1062	1070	O
-of	1071	1073	O
-frequencies	1074	1085	O
-between	1086	1093	O
-0.5	1094	1097	O
-and	1098	1101	O
-1023Hz	1102	1108	O
-and	1109	1112	O
-minimizing	1113	1123	O
-the	1124	1127	O
-50Hz	1128	1132	O
-interference	1133	1145	O
-from	1146	1150	O
-the	1151	1154	O
-mains	1155	1160	O
-supply	1161	1167	O
-.	1167	1168	O
+Based	0,5	O	O
+on	6,8	O	O
+the	9,12	O	O
+theoretical	13,24	O	B-Task
+analysis	25,33	O	I-Task
+,	33,34	O	O
+the	35,38	O	O
+value	39,44	O	B-Process
+of	45,47	O	I-Process
+the	48,51	O	I-Process
+measuring	52,61	O	I-Process
+resistor	62,70	O	I-Process
+,	70,71	O	O
+Rm	72,74	O	B-Process
+,	74,75	O	O
+has	76,79	O	O
+no	80,82	O	O
+effect	83,89	O	O
+on	90,92	O	O
+the	93,96	O	O
+corrosion	97,106	O	B-Process
+process	107,114	O	I-Process
+and	115,118	O	O
+on	119,121	O	O
+the	122,125	O	O
+estimated	126,135	O	O
+value	136,141	O	B-Process
+of	142,144	O	I-Process
+noise	145,150	O	I-Process
+resistance	151,161	O	I-Process
+.	161,162	O	O
+
+In	163,165	O	O
+order	166,171	O	O
+to	172,174	O	O
+validate	175,183	O	B-Task
+this	184,188	O	I-Task
+conclusion	189,199	O	I-Task
+,	199,200	O	O
+the	201,204	O	O
+experiment	205,215	O	O
+of	216,218	O	O
+Fig	219,222	O	O
+.	222,223	O	O
+9	224,225	O	O
+was	226,229	O	O
+performed	230,239	O	O
+.	239,240	O	O
+
+Specifically	241,253	O	O
+,	253,254	O	O
+a	255,256	O	O
+pair	257,261	O	B-Material
+of	262,264	O	I-Material
+nominally	265,274	O	I-Material
+identical	275,284	O	I-Material
+specimens	285,294	O	I-Material
+was	295,298	O	O
+initially	299,308	O	O
+coupled	309,316	O	O
+by	317,319	O	O
+a	320,321	O	O
+4.7kΩ	322,327	O	B-Material
+resistor	328,336	O	I-Material
+and	337,340	O	O
+their	341,346	O	O
+potential	347,356	O	O
+with	357,361	O	O
+respect	362,369	O	O
+to	370,372	O	O
+a	373,374	O	O
+saturated	375,384	O	B-Material
+calomel	385,392	O	I-Material
+electrode	393,402	O	I-Material
+was	403,406	O	O
+recorded	407,415	O	O
+by	416,418	O	O
+using	419,424	O	O
+a	425,426	O	O
+NI	427,429	O	B-Material
+-	429,430	O	I-Material
+USB	430,433	O	I-Material
+6009	434,438	O	I-Material
+analog	439,445	O	I-Material
+-	445,446	O	I-Material
+to	446,448	O	I-Material
+-	448,449	O	I-Material
+digital	449,456	O	I-Material
+converter	457,466	O	I-Material
+.	466,467	O	O
+
+The	468,471	O	O
+electrochemical	472,487	O	B-Process
+noise	488,493	O	I-Process
+signal	494,500	O	I-Process
+was	501,504	O	O
+recorded	505,513	O	O
+using	514,519	O	O
+in	520,522	O	B-Material
+-	522,523	O	I-Material
+house	523,528	O	I-Material
+developed	529,538	O	I-Material
+software	539,547	O	I-Material
+,	547,548	O	O
+acquiring	549,558	O	O
+at	559,561	O	O
+1023Hz	562,568	O	O
+segments	569,577	O	O
+of	578,580	O	O
+1000	581,585	O	O
+points	586,592	O	O
+at	593,595	O	O
+each	596,600	O	O
+iteration	601,610	O	O
+.	610,611	O	O
+
+Between	612,619	O	O
+iterations	620,630	O	O
+,	630,631	O	O
+the	632,635	O	O
+1000	636,640	O	O
+values	641,647	O	O
+acquired	648,656	O	O
+were	657,661	O	O
+averaged	662,670	O	O
+to	671,673	O	O
+obtain	674,680	O	B-Task
+a	681,682	O	I-Task
+single	683,689	O	I-Task
+value	690,695	O	I-Task
+of	696,698	O	I-Task
+potential	699,708	O	I-Task
+,	708,709	O	O
+subsequently	710,722	O	O
+saved	723,728	O	O
+to	729,731	O	O
+the	732,735	O	O
+file	736,740	O	O
+used	741,745	O	O
+for	746,749	O	O
+later	750,755	O	O
+processing	756,766	O	O
+.	766,767	O	O
+
+The	768,771	O	O
+final	772,777	O	O
+dataset	778,785	O	B-Material
+comprised	786,795	O	O
+potential	796,805	O	O
+values	806,812	O	O
+spaced	813,819	O	O
+1±0.05s	820,827	O	O
+in	828,830	O	O
+time	831,835	O	O
+.	835,836	O	O
+
+Under	837,842	O	O
+the	843,846	O	O
+assumption	847,857	O	O
+that	858,862	O	O
+the	863,866	O	O
+noise	867,872	O	O
+present	873,880	O	O
+above	881,886	O	O
+1023Hz	887,893	O	O
+is	894,896	O	O
+negligible	897,907	O	O
+compared	908,916	O	O
+with	917,921	O	O
+the	922,925	O	O
+noise	926,931	O	O
+present	932,939	O	O
+below	940,945	O	O
+0.5Hz	946,951	O	O
+,	951,952	O	O
+this	953,957	O	O
+procedure	958,967	O	O
+enables	968,975	O	O
+an	976,978	O	O
+accurate	979,987	O	B-Task
+recording	988,997	O	I-Task
+of	998,1000	O	I-Task
+the	1001,1004	O	I-Task
+potential	1005,1014	O	I-Task
+noise	1015,1020	O	I-Task
+in	1021,1023	O	I-Task
+the	1024,1027	O	I-Task
+frequencies	1028,1039	O	I-Task
+of	1040,1042	O	I-Task
+interest	1043,1051	O	I-Task
+,	1051,1052	O	O
+avoiding	1053,1061	O	O
+aliasing	1062,1070	O	O
+of	1071,1073	O	O
+frequencies	1074,1085	O	O
+between	1086,1093	O	O
+0.5	1094,1097	O	O
+and	1098,1101	O	O
+1023Hz	1102,1108	O	O
+and	1109,1112	O	O
+minimizing	1113,1123	O	O
+the	1124,1127	O	O
+50Hz	1128,1132	O	O
+interference	1133,1145	O	O
+from	1146,1150	O	O
+the	1151,1154	O	O
+mains	1155,1160	O	O
+supply	1161,1167	O	O
+.	1167,1168	O	O
 
 
 -DOCSTART- (S0010938X14002157)
 
-A	0	1	O
-surfactant	2	12	B-Material
-is	13	15	O
-a	16	17	O
-surface	18	25	B-Material
-active	26	32	I-Material
-agent	33	38	I-Material
-.	38	39	O
-
-In	40	42	O
-this	43	47	O
-work	48	52	O
-a	53	54	O
-surfactant	55	65	B-Material
-term	66	70	O
-will	71	75	O
-be	76	78	O
-used	79	83	O
-for	84	87	O
-compounds	88	97	B-Material
-which	98	103	I-Material
-improve	104	111	I-Material
-the	112	115	I-Material
-dispersability	116	130	I-Material
-of	131	133	O
-the	134	137	O
-CI	138	140	B-Material
-in	141	143	O
-the	144	147	O
-acid	148	152	B-Material
-(	153	154	O
-as	154	156	O
-emulsifiers	157	168	B-Material
-providing	169	178	O
-dispersed	179	188	B-Material
-emulsion	189	197	I-Material
-–	198	199	O
-not	200	203	O
-separated	204	213	O
-)	213	214	O
-while	215	220	O
-wetting	221	228	O
-the	229	232	O
-surface	233	240	O
-of	241	243	O
-the	244	247	O
-metallic	248	256	B-Material
-material	257	265	I-Material
-[	266	267	O
-14,20,24	267	275	O
-]	275	276	O
-.	276	277	O
-
-However	278	285	O
-,	285	286	O
-surfactants	287	298	O
-can	299	302	O
-offer	303	308	O
-corrosion	309	318	B-Task
-protection	319	329	I-Task
-themselves	330	340	O
-.	340	341	O
-
-Some	342	346	O
-examples	347	355	O
-when	356	360	O
-the	361	364	O
-same	365	369	O
-compound	370	378	O
-was	379	382	O
-used	383	387	O
-as	388	390	O
-a	391	392	O
-surfactant	393	403	B-Material
-or	404	406	I-Material
-active	407	413	I-Material
-corrosion	414	423	I-Material
-inhibitor	424	433	I-Material
-ingredient	434	444	O
-are	445	448	O
-given	449	454	O
-below	455	460	O
-.	460	461	O
-
-Typical	462	469	O
-surfactants	470	481	B-Material
-in	482	484	O
-the	485	488	O
-oilfield	489	497	O
-services	498	506	O
-industry	507	515	O
-are	516	519	O
-alkylphenol	520	531	B-Material
-ethoxylates	532	543	I-Material
-,	543	544	O
-e.g.	545	549	O
-nonylphenol	550	561	B-Material
-ethoxylate	562	572	I-Material
-(	573	574	O
-NPE	574	577	B-Material
-)	577	578	O
-
-[	579	580	O
-14,15,30,106,107	580	596	O
-]	596	597	O
-.	597	598	O
-
-However	599	606	O
-,	606	607	O
-NPEs	608	612	B-Material
-have	613	617	O
-been	618	622	O
-banned	623	629	O
-from	630	634	O
-use	635	638	O
-in	639	641	O
-the	642	645	O
-North	646	651	O
-Sea	652	655	O
-because	656	663	O
-of	664	666	O
-their	667	672	O
-toxicity	673	681	O
-.	681	682	O
-
-On	683	685	O
-the	686	689	O
-other	690	695	O
-hand	696	700	O
-,	700	701	O
-ethoxylated	702	713	B-Material
-linear	714	720	I-Material
-alcohols	721	729	I-Material
-are	730	733	O
-more	734	738	O
-acceptable	739	749	O
-[	750	751	O
-20	751	753	O
-]	753	754	O
-.	754	755	O
-
-The	756	759	O
-quaternary	760	770	B-Material
-ammonium	771	779	I-Material
-salts	780	785	I-Material
-and	786	789	O
-amines	790	796	B-Material
-(	797	798	I-Material
-when	798	802	I-Material
-protonated	803	813	I-Material
-)	813	814	I-Material
-are	815	818	O
-the	819	822	O
-most	823	827	O
-used	828	832	O
-compounds	833	842	O
-of	843	845	O
-the	846	849	O
-cationic	850	858	B-Material
-surfactants	859	870	I-Material
-class	871	876	I-Material
-,	876	877	O
-where	878	883	O
-the	884	887	O
-cation	888	894	B-Material
-is	895	897	O
-the	898	901	O
-surface	902	909	B-Material
-active	910	916	I-Material
-specie	917	923	I-Material
-.	923	924	O
-
-As	925	927	O
-the	928	931	O
-amines	932	938	B-Material
-only	939	943	O
-function	944	952	O
-as	953	955	O
-a	956	957	O
-surfactant	958	968	B-Material
-in	969	971	O
-the	972	975	O
-protonated	976	986	B-Process
-state	987	992	I-Process
-,	992	993	O
-they	994	998	O
-can	999	1002	O
-not	1002	1005	O
-be	1006	1008	O
-used	1009	1013	O
-at	1014	1016	O
-high	1017	1021	O
-pH.	1022	1025	O
-On	1026	1028	O
-the	1029	1032	O
-other	1033	1038	O
-hand	1039	1043	O
-,	1043	1044	O
-quaternary	1045	1055	B-Material
-ammonium	1056	1064	I-Material
-compounds	1065	1074	I-Material
-,	1074	1075	O
-frequently	1076	1086	O
-abbreviated	1087	1098	O
-as	1099	1101	O
-“	1102	1103	O
-quats	1103	1108	B-Material
-
-”	1108	1109	O
-,	1109	1110	O
-are	1111	1114	O
-not	1115	1118	O
-pH	1119	1121	O
-sensitive	1122	1131	O
-.	1131	1132	O
-
-Long	1133	1137	B-Material
--	1137	1138	I-Material
-chain	1138	1143	I-Material
-quaternary	1144	1154	I-Material
-ammonium	1155	1163	I-Material
-bromides	1164	1172	I-Material
-were	1173	1177	O
-also	1178	1182	O
-reported	1183	1191	O
-to	1192	1194	O
-work	1195	1199	O
-as	1200	1202	O
-efficient	1203	1212	O
-CIs	1213	1216	B-Material
-for	1217	1220	O
-steel	1221	1226	B-Material
-materials	1227	1236	I-Material
-[	1237	1238	O
-106	1238	1241	O
-]	1241	1242	O
-.	1242	1243	O
-
-A	1244	1245	O
-frequently	1246	1256	O
-employed	1257	1265	O
-surfactant	1266	1276	B-Material
-was	1277	1280	O
-N	1281	1282	B-Material
--	1282	1283	I-Material
-dodecylpyridinium	1283	1300	I-Material
-bromide	1301	1308	I-Material
-(	1309	1310	O
-DDPB	1310	1314	B-Material
-)	1314	1315	O
-
-[	1316	1317	O
-9,60,61,108,109	1317	1332	O
-]	1332	1333	O
-.	1333	1334	O
-
-Anionic	1335	1342	B-Material
-sulphates	1343	1352	I-Material
-,	1352	1353	O
-anionic	1354	1361	B-Material
-sulphonates	1362	1373	I-Material
-,	1373	1374	O
-alkoxylated	1375	1386	B-Material
-alkylphenol	1387	1398	I-Material
-resins	1399	1405	I-Material
-,	1405	1406	O
-and	1407	1410	O
-polyoxyethylene	1411	1426	B-Material
-sorbitan	1427	1435	I-Material
-oleates	1436	1443	I-Material
-are	1444	1447	O
-also	1448	1452	O
-useful	1453	1459	O
-surfactants	1460	1471	B-Material
-.	1471	1472	O
-
-Ali	1473	1476	O
-reported	1477	1485	O
-that	1486	1490	O
-a	1491	1492	O
-particularly	1493	1505	O
-useful	1506	1512	O
-surfactant	1513	1523	B-Material
-is	1524	1526	O
-a	1527	1528	O
-blend	1529	1534	B-Material
-of	1535	1537	I-Material
-polyethylene	1538	1550	I-Material
-glycol	1551	1557	I-Material
-esters	1558	1564	I-Material
-of	1565	1567	I-Material
-fatty	1568	1573	I-Material
-acids	1574	1579	I-Material
-and	1580	1583	I-Material
-ethoxylated	1584	1595	I-Material
-alkylphenols	1596	1608	I-Material
-[	1609	1610	O
-15	1610	1612	O
-]	1612	1613	O
-.	1613	1614	O
-
-Several	1615	1622	O
-examples	1623	1631	O
-of	1632	1634	O
-the	1635	1638	O
-surfactants	1639	1650	B-Material
-used	1651	1655	O
-are	1656	1659	O
-given	1660	1665	O
-below	1666	1671	O
-in	1672	1674	O
-Section	1675	1682	O
-5.6	1683	1686	O
-.	1686	1687	O
+A	0,1	O	O
+surfactant	2,12	O	B-Material
+is	13,15	O	O
+a	16,17	O	O
+surface	18,25	O	B-Material
+active	26,32	O	I-Material
+agent	33,38	O	I-Material
+.	38,39	O	O
+
+In	40,42	O	O
+this	43,47	O	O
+work	48,52	O	O
+a	53,54	O	O
+surfactant	55,65	O	B-Material
+term	66,70	O	O
+will	71,75	O	O
+be	76,78	O	O
+used	79,83	O	O
+for	84,87	O	O
+compounds	88,97	O	B-Material
+which	98,103	O	I-Material
+improve	104,111	O	I-Material
+the	112,115	O	I-Material
+dispersability	116,130	O	I-Material
+of	131,133	O	O
+the	134,137	O	O
+CI	138,140	O	B-Material
+in	141,143	O	O
+the	144,147	O	O
+acid	148,152	O	B-Material
+(	153,154	O	O
+as	154,156	O	O
+emulsifiers	157,168	O	B-Material
+providing	169,178	O	O
+dispersed	179,188	O	B-Material
+emulsion	189,197	O	I-Material
+–	198,199	O	O
+not	200,203	O	O
+separated	204,213	O	O
+)	213,214	O	O
+while	215,220	O	O
+wetting	221,228	O	O
+the	229,232	O	O
+surface	233,240	O	O
+of	241,243	O	O
+the	244,247	O	O
+metallic	248,256	O	B-Material
+material	257,265	O	I-Material
+[	266,267	O	O
+14,20,24	267,275	O	O
+]	275,276	O	O
+.	276,277	O	O
+
+However	278,285	O	O
+,	285,286	O	O
+surfactants	287,298	O	O
+can	299,302	O	O
+offer	303,308	O	O
+corrosion	309,318	O	B-Task
+protection	319,329	O	I-Task
+themselves	330,340	O	O
+.	340,341	O	O
+
+Some	342,346	O	O
+examples	347,355	O	O
+when	356,360	O	O
+the	361,364	O	O
+same	365,369	O	O
+compound	370,378	O	O
+was	379,382	O	O
+used	383,387	O	O
+as	388,390	O	O
+a	391,392	O	O
+surfactant	393,403	O	B-Material
+or	404,406	O	I-Material
+active	407,413	O	I-Material
+corrosion	414,423	O	I-Material
+inhibitor	424,433	O	I-Material
+ingredient	434,444	O	O
+are	445,448	O	O
+given	449,454	O	O
+below	455,460	O	O
+.	460,461	O	O
+
+Typical	462,469	O	O
+surfactants	470,481	O	B-Material
+in	482,484	O	O
+the	485,488	O	O
+oilfield	489,497	O	O
+services	498,506	O	O
+industry	507,515	O	O
+are	516,519	O	O
+alkylphenol	520,531	O	B-Material
+ethoxylates	532,543	O	I-Material
+,	543,544	O	O
+e.g.	545,549	O	O
+nonylphenol	550,561	O	B-Material
+ethoxylate	562,572	O	I-Material
+(	573,574	O	O
+NPE	574,577	O	B-Material
+)	577,578	O	O
+
+[	579,580	O	O
+14,15,30,106,107	580,596	O	O
+]	596,597	O	O
+.	597,598	O	O
+
+However	599,606	O	O
+,	606,607	O	O
+NPEs	608,612	O	B-Material
+have	613,617	O	O
+been	618,622	O	O
+banned	623,629	O	O
+from	630,634	O	O
+use	635,638	O	O
+in	639,641	O	O
+the	642,645	O	O
+North	646,651	O	O
+Sea	652,655	O	O
+because	656,663	O	O
+of	664,666	O	O
+their	667,672	O	O
+toxicity	673,681	O	O
+.	681,682	O	O
+
+On	683,685	O	O
+the	686,689	O	O
+other	690,695	O	O
+hand	696,700	O	O
+,	700,701	O	O
+ethoxylated	702,713	O	B-Material
+linear	714,720	O	I-Material
+alcohols	721,729	O	I-Material
+are	730,733	O	O
+more	734,738	O	O
+acceptable	739,749	O	O
+[	750,751	O	O
+20	751,753	O	O
+]	753,754	O	O
+.	754,755	O	O
+
+The	756,759	O	O
+quaternary	760,770	O	B-Material
+ammonium	771,779	O	I-Material
+salts	780,785	O	I-Material
+and	786,789	O	O
+amines	790,796	O	B-Material
+(	797,798	O	I-Material
+when	798,802	O	I-Material
+protonated	803,813	O	I-Material
+)	813,814	O	I-Material
+are	815,818	O	O
+the	819,822	O	O
+most	823,827	O	O
+used	828,832	O	O
+compounds	833,842	O	O
+of	843,845	O	O
+the	846,849	O	O
+cationic	850,858	O	B-Material
+surfactants	859,870	O	I-Material
+class	871,876	O	I-Material
+,	876,877	O	O
+where	878,883	O	O
+the	884,887	O	O
+cation	888,894	O	B-Material
+is	895,897	O	O
+the	898,901	O	O
+surface	902,909	O	B-Material
+active	910,916	O	I-Material
+specie	917,923	O	I-Material
+.	923,924	O	O
+
+As	925,927	O	O
+the	928,931	O	O
+amines	932,938	O	B-Material
+only	939,943	O	O
+function	944,952	O	O
+as	953,955	O	O
+a	956,957	O	O
+surfactant	958,968	O	B-Material
+in	969,971	O	O
+the	972,975	O	O
+protonated	976,986	O	B-Process
+state	987,992	O	I-Process
+,	992,993	O	O
+they	994,998	O	O
+can	999,1002	O	O
+not	1002,1005	O	O
+be	1006,1008	O	O
+used	1009,1013	O	O
+at	1014,1016	O	O
+high	1017,1021	O	O
+pH.	1022,1025	O	O
+On	1026,1028	O	O
+the	1029,1032	O	O
+other	1033,1038	O	O
+hand	1039,1043	O	O
+,	1043,1044	O	O
+quaternary	1045,1055	O	B-Material
+ammonium	1056,1064	O	I-Material
+compounds	1065,1074	O	I-Material
+,	1074,1075	O	O
+frequently	1076,1086	O	O
+abbreviated	1087,1098	O	O
+as	1099,1101	O	O
+“	1102,1103	O	O
+quats	1103,1108	O	B-Material
+
+”	1108,1109	O	O
+,	1109,1110	O	O
+are	1111,1114	O	O
+not	1115,1118	O	O
+pH	1119,1121	O	O
+sensitive	1122,1131	O	O
+.	1131,1132	O	O
+
+Long	1133,1137	O	B-Material
+-	1137,1138	O	I-Material
+chain	1138,1143	O	I-Material
+quaternary	1144,1154	O	I-Material
+ammonium	1155,1163	O	I-Material
+bromides	1164,1172	O	I-Material
+were	1173,1177	O	O
+also	1178,1182	O	O
+reported	1183,1191	O	O
+to	1192,1194	O	O
+work	1195,1199	O	O
+as	1200,1202	O	O
+efficient	1203,1212	O	O
+CIs	1213,1216	O	B-Material
+for	1217,1220	O	O
+steel	1221,1226	O	B-Material
+materials	1227,1236	O	I-Material
+[	1237,1238	O	O
+106	1238,1241	O	O
+]	1241,1242	O	O
+.	1242,1243	O	O
+
+A	1244,1245	O	O
+frequently	1246,1256	O	O
+employed	1257,1265	O	O
+surfactant	1266,1276	O	B-Material
+was	1277,1280	O	O
+N	1281,1282	O	B-Material
+-	1282,1283	O	I-Material
+dodecylpyridinium	1283,1300	O	I-Material
+bromide	1301,1308	O	I-Material
+(	1309,1310	O	O
+DDPB	1310,1314	O	B-Material
+)	1314,1315	O	O
+
+[	1316,1317	O	O
+9,60,61,108,109	1317,1332	O	O
+]	1332,1333	O	O
+.	1333,1334	O	O
+
+Anionic	1335,1342	O	B-Material
+sulphates	1343,1352	O	I-Material
+,	1352,1353	O	O
+anionic	1354,1361	O	B-Material
+sulphonates	1362,1373	O	I-Material
+,	1373,1374	O	O
+alkoxylated	1375,1386	O	B-Material
+alkylphenol	1387,1398	O	I-Material
+resins	1399,1405	O	I-Material
+,	1405,1406	O	O
+and	1407,1410	O	O
+polyoxyethylene	1411,1426	O	B-Material
+sorbitan	1427,1435	O	I-Material
+oleates	1436,1443	O	I-Material
+are	1444,1447	O	O
+also	1448,1452	O	O
+useful	1453,1459	O	O
+surfactants	1460,1471	O	B-Material
+.	1471,1472	O	O
+
+Ali	1473,1476	O	O
+reported	1477,1485	O	O
+that	1486,1490	O	O
+a	1491,1492	O	O
+particularly	1493,1505	O	O
+useful	1506,1512	O	O
+surfactant	1513,1523	O	B-Material
+is	1524,1526	O	O
+a	1527,1528	O	O
+blend	1529,1534	O	B-Material
+of	1535,1537	O	I-Material
+polyethylene	1538,1550	O	I-Material
+glycol	1551,1557	O	I-Material
+esters	1558,1564	O	I-Material
+of	1565,1567	O	I-Material
+fatty	1568,1573	O	I-Material
+acids	1574,1579	O	I-Material
+and	1580,1583	O	I-Material
+ethoxylated	1584,1595	O	I-Material
+alkylphenols	1596,1608	O	I-Material
+[	1609,1610	O	O
+15	1610,1612	O	O
+]	1612,1613	O	O
+.	1613,1614	O	O
+
+Several	1615,1622	O	O
+examples	1623,1631	O	O
+of	1632,1634	O	O
+the	1635,1638	O	O
+surfactants	1639,1650	O	B-Material
+used	1651,1655	O	O
+are	1656,1659	O	O
+given	1660,1665	O	O
+below	1666,1671	O	O
+in	1672,1674	O	O
+Section	1675,1682	O	O
+5.6	1683,1686	O	O
+.	1686,1687	O	O
 
 
 -DOCSTART- (S0010938X15003261)
 
-The	0	3	O
-related	4	11	O
-Volta	12	17	B-Process
-potential	18	27	I-Process
-(	28	29	O
-Ψ	29	30	B-Process
-)	30	31	O
-is	32	34	O
-the	35	38	O
-potential	39	48	B-Process
-difference	49	59	I-Process
-between	60	67	O
-a	68	69	O
-position	70	78	O
-infinitely	79	89	O
-far	90	93	O
-away	94	98	O
-from	99	103	O
-the	104	107	O
-surface	108	115	O
-and	116	119	O
-a	120	121	O
-position	122	130	O
-just	131	135	O
-outside	136	143	O
-the	144	147	O
-surface	148	155	O
-,	155	156	O
-and	157	160	O
-is	161	163	O
-the	164	167	O
-measureable	168	179	B-Process
-quantity	180	188	I-Process
-characterising	189	203	O
-electrochemical	204	219	B-Process
-behaviour	220	229	I-Process
-of	230	232	I-Process
-a	233	234	I-Process
-metal	235	240	I-Process
-[	241	242	O
-12,17	242	247	O
-]	247	248	O
-.	248	249	O
-
-The	250	253	O
-scanning	254	262	B-Process
-Kelvin	263	269	I-Process
-probe	270	275	I-Process
-force	276	281	I-Process
-microscopy	282	292	I-Process
-(	293	294	O
-SKPFM	294	299	B-Process
-)	299	300	O
-technique	301	310	O
-allows	311	317	O
-detection	318	327	B-Task
-of	328	330	I-Task
-local	331	336	I-Task
-EWF	337	340	I-Task
-(	341	342	O
-if	342	344	O
-the	345	348	O
-EWF	349	352	O
-of	353	355	O
-the	356	359	O
-tip	360	363	O
-is	364	366	O
-known	367	372	O
-)	372	373	O
-,	373	374	O
-or	375	377	O
-Volta	378	383	B-Task
-potential	384	393	I-Task
-differences	394	405	I-Task
-(	406	407	O
-ΔΨ	407	409	B-Task
-)	409	410	O
-between	411	418	O
-an	419	421	O
-atomic	422	428	B-Material
-force	429	434	I-Material
-microscopy	435	445	I-Material
-tip	446	449	I-Material
-(	450	451	O
-usually	451	458	O
-Pt	459	461	B-Material
-coated	462	468	I-Material
-)	468	469	O
-and	470	473	O
-the	474	477	O
-metal	478	483	B-Material
-surface	484	491	I-Material
-[	492	493	O
-14,15,19	493	501	O
-]	501	502	O
-.	502	503	O
-
-The	504	507	O
-lateral	508	515	O
-resolution	516	526	O
-of	527	529	O
-SKPFM	530	535	B-Process
-can	536	539	O
-be	540	542	O
-as	543	545	O
-high	546	550	O
-as	551	553	O
-10	554	556	O
-’s	556	558	O
-of	559	561	O
-nm	562	564	O
-in	565	567	O
-ambient	568	575	B-Material
-air	576	579	I-Material
-,	579	580	O
-with	581	585	O
-a	586	587	O
-sensitivity	588	599	O
-up	600	602	O
-to	603	605	O
-10–20meV	606	614	O
-[	615	616	O
-19	616	618	O
-]	618	619	O
-.	619	620	O
-
-Volta	621	626	B-Process
-potential	627	636	I-Process
-is	637	639	O
-a	640	641	O
-characteristic	642	656	O
-property	657	665	B-Process
-of	666	668	I-Process
-a	669	670	I-Process
-metal	671	676	I-Process
-surface	677	684	I-Process
-and	685	688	O
-can	689	692	O
-be	693	695	O
-used	696	700	O
-to	701	703	O
-understand	704	714	B-Task
-electrochemical	715	730	I-Task
-processes	731	740	I-Task
-[	741	742	O
-16	742	744	O
-]	744	745	O
-.	746	747	O
-
-It	748	750	O
-is	751	753	O
-sensitive	754	763	O
-to	764	766	O
-any	767	770	O
-kind	771	775	O
-of	776	778	O
-surface	779	786	O
-defects	787	794	O
-,	794	795	O
-chemical	796	804	O
-variations	805	815	O
-,	815	816	O
-and	817	820	O
-residual	821	829	O
-stress	830	836	O
-[	837	838	O
-13,17	838	843	O
-]	843	844	O
-.	844	845	O
-
-Volta	846	851	B-Process
-potential	852	861	I-Process
-differences	862	873	I-Process
-in	874	876	I-Process
-microstructure	877	891	I-Process
-have	892	896	O
-been	897	901	O
-used	902	906	O
-to	907	909	O
-predict	910	917	B-Task
-corrosion	918	927	I-Task
-behaviour	928	937	I-Task
-[	938	939	O
-10,15,18,20–22	939	953	O
-]	953	954	O
-.	954	955	O
-
-Regions	956	963	O
-with	964	968	O
-larger	969	975	B-Process
-(	976	977	I-Process
-ΔΨ	977	979	I-Process
-)	979	980	I-Process
-indicate	981	989	I-Process
-increased	990	999	I-Process
-surface	1000	1007	I-Process
-reactivity	1008	1018	I-Process
-[	1019	1020	O
-11,15,18	1020	1028	O
-]	1028	1029	O
-,	1029	1030	O
-and	1031	1034	O
-even	1035	1039	O
-a	1040	1041	O
-correlation	1042	1053	O
-between	1054	1061	O
-Volta	1062	1067	B-Process
-potential	1068	1077	I-Process
-differences	1078	1089	I-Process
-measured	1090	1098	O
-in	1099	1101	O
-nominally	1102	1111	O
-dry	1112	1115	B-Material
-air	1116	1119	I-Material
-and	1120	1123	O
-their	1124	1129	O
-free	1130	1134	B-Process
-corrosion	1135	1144	I-Process
-potential	1145	1154	I-Process
-(	1155	1156	O
-Ecorr	1156	1161	B-Process
-)	1161	1162	O
-pre	1163	1166	O
--	1166	1167	O
-determined	1167	1177	O
-under	1178	1183	O
-immersed	1184	1192	O
-conditions	1193	1203	O
-has	1204	1207	O
-been	1208	1212	O
-reported	1213	1221	O
-[	1222	1223	O
-18	1223	1225	O
-]	1225	1226	O
-.	1226	1227	O
+The	0,3	O	O
+related	4,11	O	O
+Volta	12,17	O	B-Process
+potential	18,27	O	I-Process
+(	28,29	O	O
+Ψ	29,30	O	B-Process
+)	30,31	O	O
+is	32,34	O	O
+the	35,38	O	O
+potential	39,48	O	B-Process
+difference	49,59	O	I-Process
+between	60,67	O	O
+a	68,69	O	O
+position	70,78	O	O
+infinitely	79,89	O	O
+far	90,93	O	O
+away	94,98	O	O
+from	99,103	O	O
+the	104,107	O	O
+surface	108,115	O	O
+and	116,119	O	O
+a	120,121	O	O
+position	122,130	O	O
+just	131,135	O	O
+outside	136,143	O	O
+the	144,147	O	O
+surface	148,155	O	O
+,	155,156	O	O
+and	157,160	O	O
+is	161,163	O	O
+the	164,167	O	O
+measureable	168,179	O	B-Process
+quantity	180,188	O	I-Process
+characterising	189,203	O	O
+electrochemical	204,219	O	B-Process
+behaviour	220,229	O	I-Process
+of	230,232	O	I-Process
+a	233,234	O	I-Process
+metal	235,240	O	I-Process
+[	241,242	O	O
+12,17	242,247	O	O
+]	247,248	O	O
+.	248,249	O	O
+
+The	250,253	O	O
+scanning	254,262	O	B-Process
+Kelvin	263,269	O	I-Process
+probe	270,275	O	I-Process
+force	276,281	O	I-Process
+microscopy	282,292	O	I-Process
+(	293,294	O	O
+SKPFM	294,299	O	B-Process
+)	299,300	O	O
+technique	301,310	O	O
+allows	311,317	O	O
+detection	318,327	O	B-Task
+of	328,330	O	I-Task
+local	331,336	O	I-Task
+EWF	337,340	O	I-Task
+(	341,342	O	O
+if	342,344	O	O
+the	345,348	O	O
+EWF	349,352	O	O
+of	353,355	O	O
+the	356,359	O	O
+tip	360,363	O	O
+is	364,366	O	O
+known	367,372	O	O
+)	372,373	O	O
+,	373,374	O	O
+or	375,377	O	O
+Volta	378,383	O	B-Task
+potential	384,393	O	I-Task
+differences	394,405	O	I-Task
+(	406,407	O	O
+ΔΨ	407,409	O	B-Task
+)	409,410	O	O
+between	411,418	O	O
+an	419,421	O	O
+atomic	422,428	O	B-Material
+force	429,434	O	I-Material
+microscopy	435,445	O	I-Material
+tip	446,449	O	I-Material
+(	450,451	O	O
+usually	451,458	O	O
+Pt	459,461	O	B-Material
+coated	462,468	O	I-Material
+)	468,469	O	O
+and	470,473	O	O
+the	474,477	O	O
+metal	478,483	O	B-Material
+surface	484,491	O	I-Material
+[	492,493	O	O
+14,15,19	493,501	O	O
+]	501,502	O	O
+.	502,503	O	O
+
+The	504,507	O	O
+lateral	508,515	O	O
+resolution	516,526	O	O
+of	527,529	O	O
+SKPFM	530,535	O	B-Process
+can	536,539	O	O
+be	540,542	O	O
+as	543,545	O	O
+high	546,550	O	O
+as	551,553	O	O
+10	554,556	O	O
+’s	556,558	O	O
+of	559,561	O	O
+nm	562,564	O	O
+in	565,567	O	O
+ambient	568,575	O	B-Material
+air	576,579	O	I-Material
+,	579,580	O	O
+with	581,585	O	O
+a	586,587	O	O
+sensitivity	588,599	O	O
+up	600,602	O	O
+to	603,605	O	O
+10–20meV	606,614	O	O
+[	615,616	O	O
+19	616,618	O	O
+]	618,619	O	O
+.	619,620	O	O
+
+Volta	621,626	O	B-Process
+potential	627,636	O	I-Process
+is	637,639	O	O
+a	640,641	O	O
+characteristic	642,656	O	O
+property	657,665	O	B-Process
+of	666,668	O	I-Process
+a	669,670	O	I-Process
+metal	671,676	O	I-Process
+surface	677,684	O	I-Process
+and	685,688	O	O
+can	689,692	O	O
+be	693,695	O	O
+used	696,700	O	O
+to	701,703	O	O
+understand	704,714	O	B-Task
+electrochemical	715,730	O	I-Task
+processes	731,740	O	I-Task
+[	741,742	O	O
+16	742,744	O	O
+]	744,745	O	O
+.	746,747	O	O
+
+It	748,750	O	O
+is	751,753	O	O
+sensitive	754,763	O	O
+to	764,766	O	O
+any	767,770	O	O
+kind	771,775	O	O
+of	776,778	O	O
+surface	779,786	O	O
+defects	787,794	O	O
+,	794,795	O	O
+chemical	796,804	O	O
+variations	805,815	O	O
+,	815,816	O	O
+and	817,820	O	O
+residual	821,829	O	O
+stress	830,836	O	O
+[	837,838	O	O
+13,17	838,843	O	O
+]	843,844	O	O
+.	844,845	O	O
+
+Volta	846,851	O	B-Process
+potential	852,861	O	I-Process
+differences	862,873	O	I-Process
+in	874,876	O	I-Process
+microstructure	877,891	O	I-Process
+have	892,896	O	O
+been	897,901	O	O
+used	902,906	O	O
+to	907,909	O	O
+predict	910,917	O	B-Task
+corrosion	918,927	O	I-Task
+behaviour	928,937	O	I-Task
+[	938,939	O	O
+10,15,18,20–22	939,953	O	O
+]	953,954	O	O
+.	954,955	O	O
+
+Regions	956,963	O	O
+with	964,968	O	O
+larger	969,975	O	B-Process
+(	976,977	O	I-Process
+ΔΨ	977,979	O	I-Process
+)	979,980	O	I-Process
+indicate	981,989	O	I-Process
+increased	990,999	O	I-Process
+surface	1000,1007	O	I-Process
+reactivity	1008,1018	O	I-Process
+[	1019,1020	O	O
+11,15,18	1020,1028	O	O
+]	1028,1029	O	O
+,	1029,1030	O	O
+and	1031,1034	O	O
+even	1035,1039	O	O
+a	1040,1041	O	O
+correlation	1042,1053	O	O
+between	1054,1061	O	O
+Volta	1062,1067	O	B-Process
+potential	1068,1077	O	I-Process
+differences	1078,1089	O	I-Process
+measured	1090,1098	O	O
+in	1099,1101	O	O
+nominally	1102,1111	O	O
+dry	1112,1115	O	B-Material
+air	1116,1119	O	I-Material
+and	1120,1123	O	O
+their	1124,1129	O	O
+free	1130,1134	O	B-Process
+corrosion	1135,1144	O	I-Process
+potential	1145,1154	O	I-Process
+(	1155,1156	O	O
+Ecorr	1156,1161	O	B-Process
+)	1161,1162	O	O
+pre	1163,1166	O	O
+-	1166,1167	O	O
+determined	1167,1177	O	O
+under	1178,1183	O	O
+immersed	1184,1192	O	O
+conditions	1193,1203	O	O
+has	1204,1207	O	O
+been	1208,1212	O	O
+reported	1213,1221	O	O
+[	1222,1223	O	O
+18	1223,1225	O	O
+]	1225,1226	O	O
+.	1226,1227	O	O
 
 
 -DOCSTART- (S0021961415003821)
 
-The	0	3	O
-homologous	4	14	B-Material
-series	15	21	I-Material
-of	22	24	I-Material
-n	25	26	I-Material
--	26	27	I-Material
-alkanes	27	34	I-Material
-are	35	38	O
-represented	39	50	O
-here	51	55	O
-as	56	58	O
-homonuclear	59	70	B-Material
-chains	71	77	I-Material
-of	78	80	I-Material
-tangent	81	88	I-Material
-Mie	89	92	I-Material
-spherical	93	102	I-Material
-CG	103	105	I-Material
-segments	106	114	I-Material
-.	114	115	O
-
-The	116	119	O
-development	120	131	B-Task
-of	132	134	I-Task
-CG	135	137	I-Task
-models	138	144	I-Task
-for	145	148	I-Task
-long	149	153	I-Task
-n	154	155	I-Task
--	155	156	I-Task
-alkanes	156	163	I-Task
-such	164	168	O
-as	169	171	O
-n	172	173	B-Material
--	173	174	I-Material
-decane	174	180	I-Material
-(	181	182	O
-n	182	183	B-Material
--	183	184	I-Material
-C10H22	184	190	I-Material
-)	190	191	O
-and	192	195	O
-n	196	197	B-Material
--	197	198	I-Material
-eicosane	198	206	I-Material
-(	207	208	O
-n	208	209	B-Material
--	209	210	I-Material
-C20H42	210	216	I-Material
-)	216	217	O
-has	218	221	O
-already	222	229	O
-been	230	234	O
-successfully	235	247	O
-demonstrated	248	260	O
-using	261	266	O
-the	267	270	O
-SAFT-γ	271	277	B-Process
-Mie	278	281	I-Process
-formalism	282	291	I-Process
-[	292	293	O
-118	293	296	O
-]	296	297	O
-.	297	298	O
-
-The	299	302	O
-n	303	304	B-Material
--	304	305	I-Material
-decane	305	311	I-Material
-molecule	312	320	I-Material
-was	321	324	O
-represented	325	336	O
-by	337	339	O
-chains	340	346	O
-of	347	349	O
-three	350	355	O
-and	356	359	O
-n	360	361	B-Material
--	361	362	I-Material
-eicosane	362	370	I-Material
-chains	371	377	O
-of	378	380	O
-six	381	384	O
-fully	385	390	O
-flexible	391	399	O
-tangentially	400	412	O
-bonded	413	419	O
-Mie	420	423	B-Material
-segments	424	432	I-Material
-.	432	433	O
-
-A	434	435	O
-certain	436	443	O
-degree	444	450	O
-of	451	453	O
-parameter	454	463	O
-degeneracy	464	474	O
-in	475	477	O
-terms	478	483	O
-of	484	486	O
-overall	487	494	O
-performance	495	506	O
-is	507	509	O
-expected	510	518	O
-as	519	521	O
-a	522	523	O
-consequence	524	535	O
-of	536	538	O
-the	539	542	O
-conformal	543	552	O
-nature	553	559	O
-of	560	562	O
-the	563	566	O
-EOS	567	570	O
-description	571	582	O
-[	583	584	O
-132	584	587	O
-]	587	588	O
-.	588	589	O
-
-In	590	592	O
-our	593	596	O
-current	597	604	O
-work	605	609	O
-,	609	610	O
-we	611	613	O
-use	614	617	O
-an	618	620	O
-alternative	621	632	B-Process
-CG	633	635	I-Process
-mapping	636	643	I-Process
-for	644	647	O
-n	648	649	B-Material
--	649	650	I-Material
-alkanes	650	657	I-Material
-developed	658	667	O
-in	668	670	O
-reference	671	680	O
-[	681	682	O
-122	682	685	O
-]	685	686	O
-,	686	687	O
-where	688	693	O
-each	694	698	O
-segment	699	706	O
-was	707	710	O
-taken	711	716	O
-to	717	719	O
-represent	720	729	O
-three	730	735	O
-alkyl	736	741	B-Material
-carbon	742	748	I-Material
-backbone	749	757	I-Material
-atoms	758	763	I-Material
-and	764	767	O
-their	768	773	O
-corresponding	774	787	O
-hydrogen	788	796	B-Material
-atoms	797	802	I-Material
-.	802	803	O
-
-By	804	806	O
-applying	807	815	O
-this	816	820	O
-mapping	821	828	O
-,	828	829	O
-n	830	831	B-Material
--	831	832	I-Material
-alkanes	832	839	I-Material
-chains	840	846	I-Material
-containing	847	857	O
-multiples	858	867	O
-of	868	870	O
-three	871	876	O
-carbon	877	883	B-Material
-units	884	889	I-Material
-can	890	893	O
-be	894	896	O
-represented	897	908	O
-directly	909	917	O
-:	917	918	O
-n	919	920	B-Material
--	920	921	I-Material
-C6H14	921	926	I-Material
-,	926	927	O
-n	928	929	O
-
--	929	930	O
-C9H20	930	935	O
-,	935	936	O
-n	937	938	B-Material
--	938	939	I-Material
-C12H26	939	945	I-Material
-,	945	946	O
-n	947	948	B-Material
--	948	949	I-Material
-C15H32	949	955	I-Material
-,	955	956	O
-n	957	958	B-Material
--	958	959	I-Material
-C18H38	959	965	I-Material
-,	965	966	O
-etc	967	970	O
-.	970	971	O
-
-A	972	973	O
-good	974	978	O
-description	979	990	B-Task
-of	991	993	I-Task
-the	994	997	I-Task
-thermodynamic	998	1011	I-Task
-properties	1012	1022	I-Task
-of	1023	1025	O
-these	1026	1031	O
-alkanes	1032	1039	B-Material
-is	1040	1042	O
-found	1043	1048	O
-to	1049	1051	O
-be	1052	1054	O
-provided	1055	1063	O
-with	1064	1068	O
-CG	1069	1071	B-Material
-alkyl	1072	1077	I-Material
-beads	1078	1083	I-Material
-characterised	1084	1097	O
-by	1098	1100	O
-the	1101	1104	O
-Mie	1105	1108	B-Process
-(	1109	1110	I-Process
-15–6	1110	1114	I-Process
-)	1114	1115	I-Process
-potential	1116	1125	I-Process
-.	1125	1126	O
-
-For	1127	1130	O
-convenience	1131	1142	O
-,	1142	1143	O
-the	1144	1147	O
-exponent	1148	1156	O
-pair	1157	1161	O
-(	1162	1163	O
-15–6	1163	1167	O
-)	1167	1168	O
-is	1169	1171	O
-also	1172	1176	O
-used	1177	1181	O
-to	1182	1184	O
-represent	1185	1194	O
-the	1195	1198	O
-interactions	1199	1211	O
-between	1212	1219	O
-the	1220	1223	O
-CG	1224	1226	B-Material
-beads	1227	1232	I-Material
-of	1233	1235	O
-the	1236	1239	O
-intervening	1240	1251	O
-alkanes	1252	1259	B-Material
-considered	1260	1270	O
-here	1271	1275	O
-;	1275	1276	O
-the	1277	1280	O
-number	1281	1287	O
-of	1288	1290	O
-segments	1291	1299	O
-m	1300	1301	O
-is	1302	1304	O
-taken	1305	1310	O
-to	1311	1313	O
-be	1314	1316	O
-the	1317	1320	O
-nearest	1321	1328	O
-integer	1329	1336	O
-of	1337	1339	O
-the	1340	1343	O
-division	1344	1352	O
-of	1353	1355	O
-the	1356	1359	O
-carbon	1360	1366	B-Material
-number	1367	1373	O
-C	1374	1375	O
-by	1376	1378	O
-three	1379	1384	O
-.	1384	1385	O
-
-The	1386	1389	O
-size	1390	1394	O
-σ	1395	1396	O
-and	1397	1400	O
-energy	1401	1407	O
-∊	1408	1409	O
-parameters	1410	1420	O
-are	1421	1424	O
-then	1425	1429	O
-estimated	1430	1439	O
-from	1440	1444	O
-the	1445	1448	O
-experimental	1449	1461	O
-saturated	1462	1471	B-Process
--	1471	1472	I-Process
-liquid	1472	1478	I-Process
-density	1479	1486	I-Process
-and	1487	1490	O
-vapour	1491	1497	B-Process
-pressure	1498	1506	I-Process
-of	1507	1509	O
-the	1510	1513	O
-individual	1514	1524	O
-alkanes	1525	1532	B-Material
-following	1533	1542	O
-the	1543	1546	O
-usual	1547	1552	O
-SAFT-γ	1553	1559	B-Process
-Mie	1560	1563	I-Process
-procedure	1564	1573	I-Process
-.	1573	1574	O
-
-The	1575	1578	O
-chosen	1579	1585	O
-mapping	1586	1593	O
-is	1594	1596	O
-by	1597	1599	O
-no	1600	1602	O
-means	1603	1608	O
-unique	1609	1615	O
-,	1615	1616	O
-as	1617	1619	O
-one	1620	1623	O
-can	1624	1627	O
-postulate	1628	1637	O
-parameter	1638	1647	O
-sets	1648	1652	O
-that	1653	1657	O
-fulfil	1658	1664	O
-other	1665	1670	O
-requisites	1671	1681	O
-,	1681	1682	O
-such	1683	1687	O
-as	1688	1690	O
-being	1691	1696	O
-“	1697	1698	O
-universal	1698	1707	O
-”	1707	1708	O
-across	1709	1715	O
-the	1716	1719	O
-entire	1720	1726	O
-homologous	1727	1737	O
-series	1738	1744	O
-[	1745	1746	O
-119	1746	1749	O
-]	1749	1750	O
-or	1751	1753	O
-correlated	1754	1764	O
-to	1765	1767	O
-the	1768	1771	O
-critical	1772	1780	O
-properties	1781	1791	O
-[	1792	1793	O
-125	1793	1796	O
-]	1796	1797	O
-.	1797	1798	O
+The	0,3	O	O
+homologous	4,14	O	B-Material
+series	15,21	O	I-Material
+of	22,24	O	I-Material
+n	25,26	O	I-Material
+-	26,27	O	I-Material
+alkanes	27,34	O	I-Material
+are	35,38	O	O
+represented	39,50	O	O
+here	51,55	O	O
+as	56,58	O	O
+homonuclear	59,70	O	B-Material
+chains	71,77	O	I-Material
+of	78,80	O	I-Material
+tangent	81,88	O	I-Material
+Mie	89,92	O	I-Material
+spherical	93,102	O	I-Material
+CG	103,105	O	I-Material
+segments	106,114	O	I-Material
+.	114,115	O	O
+
+The	116,119	O	O
+development	120,131	O	B-Task
+of	132,134	O	I-Task
+CG	135,137	O	I-Task
+models	138,144	O	I-Task
+for	145,148	O	I-Task
+long	149,153	O	I-Task
+n	154,155	O	I-Task
+-	155,156	O	I-Task
+alkanes	156,163	O	I-Task
+such	164,168	O	O
+as	169,171	O	O
+n	172,173	O	B-Material
+-	173,174	O	I-Material
+decane	174,180	O	I-Material
+(	181,182	O	O
+n	182,183	O	B-Material
+-	183,184	O	I-Material
+C10H22	184,190	O	I-Material
+)	190,191	O	O
+and	192,195	O	O
+n	196,197	O	B-Material
+-	197,198	O	I-Material
+eicosane	198,206	O	I-Material
+(	207,208	O	O
+n	208,209	O	B-Material
+-	209,210	O	I-Material
+C20H42	210,216	O	I-Material
+)	216,217	O	O
+has	218,221	O	O
+already	222,229	O	O
+been	230,234	O	O
+successfully	235,247	O	O
+demonstrated	248,260	O	O
+using	261,266	O	O
+the	267,270	O	O
+SAFT-γ	271,277	O	B-Process
+Mie	278,281	O	I-Process
+formalism	282,291	O	I-Process
+[	292,293	O	O
+118	293,296	O	O
+]	296,297	O	O
+.	297,298	O	O
+
+The	299,302	O	O
+n	303,304	O	B-Material
+-	304,305	O	I-Material
+decane	305,311	O	I-Material
+molecule	312,320	O	I-Material
+was	321,324	O	O
+represented	325,336	O	O
+by	337,339	O	O
+chains	340,346	O	O
+of	347,349	O	O
+three	350,355	O	O
+and	356,359	O	O
+n	360,361	O	B-Material
+-	361,362	O	I-Material
+eicosane	362,370	O	I-Material
+chains	371,377	O	O
+of	378,380	O	O
+six	381,384	O	O
+fully	385,390	O	O
+flexible	391,399	O	O
+tangentially	400,412	O	O
+bonded	413,419	O	O
+Mie	420,423	O	B-Material
+segments	424,432	O	I-Material
+.	432,433	O	O
+
+A	434,435	O	O
+certain	436,443	O	O
+degree	444,450	O	O
+of	451,453	O	O
+parameter	454,463	O	O
+degeneracy	464,474	O	O
+in	475,477	O	O
+terms	478,483	O	O
+of	484,486	O	O
+overall	487,494	O	O
+performance	495,506	O	O
+is	507,509	O	O
+expected	510,518	O	O
+as	519,521	O	O
+a	522,523	O	O
+consequence	524,535	O	O
+of	536,538	O	O
+the	539,542	O	O
+conformal	543,552	O	O
+nature	553,559	O	O
+of	560,562	O	O
+the	563,566	O	O
+EOS	567,570	O	O
+description	571,582	O	O
+[	583,584	O	O
+132	584,587	O	O
+]	587,588	O	O
+.	588,589	O	O
+
+In	590,592	O	O
+our	593,596	O	O
+current	597,604	O	O
+work	605,609	O	O
+,	609,610	O	O
+we	611,613	O	O
+use	614,617	O	O
+an	618,620	O	O
+alternative	621,632	O	B-Process
+CG	633,635	O	I-Process
+mapping	636,643	O	I-Process
+for	644,647	O	O
+n	648,649	O	B-Material
+-	649,650	O	I-Material
+alkanes	650,657	O	I-Material
+developed	658,667	O	O
+in	668,670	O	O
+reference	671,680	O	O
+[	681,682	O	O
+122	682,685	O	O
+]	685,686	O	O
+,	686,687	O	O
+where	688,693	O	O
+each	694,698	O	O
+segment	699,706	O	O
+was	707,710	O	O
+taken	711,716	O	O
+to	717,719	O	O
+represent	720,729	O	O
+three	730,735	O	O
+alkyl	736,741	O	B-Material
+carbon	742,748	O	I-Material
+backbone	749,757	O	I-Material
+atoms	758,763	O	I-Material
+and	764,767	O	O
+their	768,773	O	O
+corresponding	774,787	O	O
+hydrogen	788,796	O	B-Material
+atoms	797,802	O	I-Material
+.	802,803	O	O
+
+By	804,806	O	O
+applying	807,815	O	O
+this	816,820	O	O
+mapping	821,828	O	O
+,	828,829	O	O
+n	830,831	O	B-Material
+-	831,832	O	I-Material
+alkanes	832,839	O	I-Material
+chains	840,846	O	I-Material
+containing	847,857	O	O
+multiples	858,867	O	O
+of	868,870	O	O
+three	871,876	O	O
+carbon	877,883	O	B-Material
+units	884,889	O	I-Material
+can	890,893	O	O
+be	894,896	O	O
+represented	897,908	O	O
+directly	909,917	O	O
+:	917,918	O	O
+n	919,920	O	B-Material
+-	920,921	O	I-Material
+C6H14	921,926	O	I-Material
+,	926,927	O	O
+n	928,929	O	O
+
+-	929,930	O	O
+C9H20	930,935	O	O
+,	935,936	O	O
+n	937,938	O	B-Material
+-	938,939	O	I-Material
+C12H26	939,945	O	I-Material
+,	945,946	O	O
+n	947,948	O	B-Material
+-	948,949	O	I-Material
+C15H32	949,955	O	I-Material
+,	955,956	O	O
+n	957,958	O	B-Material
+-	958,959	O	I-Material
+C18H38	959,965	O	I-Material
+,	965,966	O	O
+etc	967,970	O	O
+.	970,971	O	O
+
+A	972,973	O	O
+good	974,978	O	O
+description	979,990	O	B-Task
+of	991,993	O	I-Task
+the	994,997	O	I-Task
+thermodynamic	998,1011	O	I-Task
+properties	1012,1022	O	I-Task
+of	1023,1025	O	O
+these	1026,1031	O	O
+alkanes	1032,1039	O	B-Material
+is	1040,1042	O	O
+found	1043,1048	O	O
+to	1049,1051	O	O
+be	1052,1054	O	O
+provided	1055,1063	O	O
+with	1064,1068	O	O
+CG	1069,1071	O	B-Material
+alkyl	1072,1077	O	I-Material
+beads	1078,1083	O	I-Material
+characterised	1084,1097	O	O
+by	1098,1100	O	O
+the	1101,1104	O	O
+Mie	1105,1108	O	B-Process
+(	1109,1110	O	I-Process
+15–6	1110,1114	O	I-Process
+)	1114,1115	O	I-Process
+potential	1116,1125	O	I-Process
+.	1125,1126	O	O
+
+For	1127,1130	O	O
+convenience	1131,1142	O	O
+,	1142,1143	O	O
+the	1144,1147	O	O
+exponent	1148,1156	O	O
+pair	1157,1161	O	O
+(	1162,1163	O	O
+15–6	1163,1167	O	O
+)	1167,1168	O	O
+is	1169,1171	O	O
+also	1172,1176	O	O
+used	1177,1181	O	O
+to	1182,1184	O	O
+represent	1185,1194	O	O
+the	1195,1198	O	O
+interactions	1199,1211	O	O
+between	1212,1219	O	O
+the	1220,1223	O	O
+CG	1224,1226	O	B-Material
+beads	1227,1232	O	I-Material
+of	1233,1235	O	O
+the	1236,1239	O	O
+intervening	1240,1251	O	O
+alkanes	1252,1259	O	B-Material
+considered	1260,1270	O	O
+here	1271,1275	O	O
+;	1275,1276	O	O
+the	1277,1280	O	O
+number	1281,1287	O	O
+of	1288,1290	O	O
+segments	1291,1299	O	O
+m	1300,1301	O	O
+is	1302,1304	O	O
+taken	1305,1310	O	O
+to	1311,1313	O	O
+be	1314,1316	O	O
+the	1317,1320	O	O
+nearest	1321,1328	O	O
+integer	1329,1336	O	O
+of	1337,1339	O	O
+the	1340,1343	O	O
+division	1344,1352	O	O
+of	1353,1355	O	O
+the	1356,1359	O	O
+carbon	1360,1366	O	B-Material
+number	1367,1373	O	O
+C	1374,1375	O	O
+by	1376,1378	O	O
+three	1379,1384	O	O
+.	1384,1385	O	O
+
+The	1386,1389	O	O
+size	1390,1394	O	O
+σ	1395,1396	O	O
+and	1397,1400	O	O
+energy	1401,1407	O	O
+∊	1408,1409	O	O
+parameters	1410,1420	O	O
+are	1421,1424	O	O
+then	1425,1429	O	O
+estimated	1430,1439	O	O
+from	1440,1444	O	O
+the	1445,1448	O	O
+experimental	1449,1461	O	O
+saturated	1462,1471	O	B-Process
+-	1471,1472	O	I-Process
+liquid	1472,1478	O	I-Process
+density	1479,1486	O	I-Process
+and	1487,1490	O	O
+vapour	1491,1497	O	B-Process
+pressure	1498,1506	O	I-Process
+of	1507,1509	O	O
+the	1510,1513	O	O
+individual	1514,1524	O	O
+alkanes	1525,1532	O	B-Material
+following	1533,1542	O	O
+the	1543,1546	O	O
+usual	1547,1552	O	O
+SAFT-γ	1553,1559	O	B-Process
+Mie	1560,1563	O	I-Process
+procedure	1564,1573	O	I-Process
+.	1573,1574	O	O
+
+The	1575,1578	O	O
+chosen	1579,1585	O	O
+mapping	1586,1593	O	O
+is	1594,1596	O	O
+by	1597,1599	O	O
+no	1600,1602	O	O
+means	1603,1608	O	O
+unique	1609,1615	O	O
+,	1615,1616	O	O
+as	1617,1619	O	O
+one	1620,1623	O	O
+can	1624,1627	O	O
+postulate	1628,1637	O	O
+parameter	1638,1647	O	O
+sets	1648,1652	O	O
+that	1653,1657	O	O
+fulfil	1658,1664	O	O
+other	1665,1670	O	O
+requisites	1671,1681	O	O
+,	1681,1682	O	O
+such	1683,1687	O	O
+as	1688,1690	O	O
+being	1691,1696	O	O
+“	1697,1698	O	O
+universal	1698,1707	O	O
+”	1707,1708	O	O
+across	1709,1715	O	O
+the	1716,1719	O	O
+entire	1720,1726	O	O
+homologous	1727,1737	O	O
+series	1738,1744	O	O
+[	1745,1746	O	O
+119	1746,1749	O	O
+]	1749,1750	O	O
+or	1751,1753	O	O
+correlated	1754,1764	O	O
+to	1765,1767	O	O
+the	1768,1771	O	O
+critical	1772,1780	O	O
+properties	1781,1791	O	O
+[	1792,1793	O	O
+125	1793,1796	O	O
+]	1796,1797	O	O
+.	1797,1798	O	O
 
 
 -DOCSTART- (S0021999113005652)
 
-This	0	4	O
-study	5	10	O
-proposes	11	19	O
-a	20	21	O
-new	22	25	B-Task
-framework	26	35	I-Task
-of	36	38	I-Task
-a	39	40	I-Task
-numerical	41	50	I-Task
-modelling	51	60	I-Task
-of	61	63	O
-the	64	67	O
-gas	68	71	B-Process
-exchange	72	80	I-Process
-between	81	88	O
-air	89	92	B-Material
-and	93	96	O
-water	97	102	B-Material
-across	103	109	O
-their	110	115	O
-interface	116	125	O
-,	125	126	O
-and	127	130	O
-subsequent	131	141	O
-chemical	142	150	B-Process
-reaction	151	159	I-Process
-in	160	162	I-Process
-water	163	168	I-Process
-based	169	174	O
-on	175	177	O
-an	178	180	O
-extended	181	189	O
-two	190	193	B-Process
--	193	194	I-Process
-compartment	194	205	I-Process
-model	206	211	I-Process
-.	211	212	O
-
-The	213	216	O
-major	217	222	O
-purpose	223	230	O
-of	231	233	O
-this	234	238	O
-study	239	244	O
-is	245	247	O
-to	248	250	O
-provide	251	258	O
-a	259	260	O
-fundamental	261	272	B-Process
-concept	273	280	I-Process
-for	281	284	O
-modelling	285	294	B-Task
-physicochemical	295	310	I-Task
-processes	311	320	I-Task
-of	321	323	O
-the	324	327	O
-gas	328	331	B-Process
-exchange	332	340	I-Process
-,	340	341	O
-followed	342	350	O
-by	351	353	O
-the	354	357	O
-chemical	358	366	B-Process
-reaction	367	375	I-Process
-in	376	378	I-Process
-water	379	384	I-Process
-.	384	385	O
-
-Demonstrating	386	399	O
-fundamental	400	411	O
-data	412	416	O
-and	417	420	O
-knowledge	421	430	O
-on	431	433	O
-the	434	437	O
-important	438	447	O
-environmental	448	461	O
-transport	462	471	O
-phenomena	472	481	O
-,	481	482	O
-especially	483	493	O
-the	494	497	O
-effects	498	505	B-Process
-of	506	508	I-Process
-the	509	512	I-Process
-Schmidt	513	520	I-Process
-number	521	527	I-Process
-and	528	531	O
-the	532	535	O
-chemical	536	544	B-Process
-reaction	545	553	I-Process
-rate	554	558	I-Process
-on	559	561	O
-the	562	565	O
-gas	566	569	B-Process
-exchange	570	578	I-Process
-mechanisms	579	589	I-Process
-across	590	596	I-Process
-the	597	600	I-Process
-interface	601	610	I-Process
-have	611	615	O
-also	616	620	O
-been	621	625	O
-attempted	626	635	O
-.	635	636	O
-
-The	637	640	O
-gas	641	644	B-Process
-exchange	645	653	I-Process
-processes	654	663	I-Process
-are	664	667	O
-separated	668	677	O
-into	678	682	O
-two	683	686	O
-physicochemical	687	702	O
-substeps	703	711	O
-,	711	712	O
-the	713	716	O
-first	717	722	O
-is	723	725	O
-the	726	729	O
-gas	730	733	B-Process
-–	733	734	I-Process
-liquid	734	740	I-Process
-equilibrium	741	752	I-Process
-between	753	760	O
-the	761	764	O
-two	765	768	O
-phases	769	775	O
-,	775	776	O
-and	777	780	O
-the	781	784	O
-second	785	791	O
-is	792	794	O
-the	795	798	O
-chemical	799	807	B-Process
-reaction	808	816	I-Process
-in	817	819	I-Process
-the	820	823	I-Process
-water	824	829	I-Process
-phase	830	835	I-Process
-.	835	836	O
-
-A	837	838	O
-first	839	844	O
--	844	845	O
-order	845	850	O
-,	850	851	O
-irreversible	852	864	B-Process
-chemical	865	873	I-Process
-reaction	874	882	I-Process
-of	883	885	O
-the	886	889	O
-gaseous	890	897	B-Material
-material	898	906	I-Material
-after	907	912	O
-its	913	916	O
-uptake	917	923	O
-into	924	928	O
-the	929	932	O
-water	933	938	B-Material
-phase	939	944	I-Material
-is	945	947	O
-assumed	948	955	O
-here	956	960	O
-to	961	963	O
-simplify	964	972	O
-interactions	973	985	O
-of	986	988	O
-the	989	992	O
-chemical	993	1001	B-Process
-reactions	1002	1011	I-Process
-and	1012	1015	O
-turbulent	1016	1025	B-Process
-transport	1026	1035	I-Process
-phenomena	1036	1045	I-Process
-in	1046	1048	I-Process
-water	1049	1054	I-Process
-.	1054	1055	O
-
-While	1056	1061	O
-a	1062	1063	O
-traditional	1064	1075	O
-two	1076	1079	B-Process
--	1079	1080	I-Process
-compartment	1080	1091	I-Process
-model	1092	1097	I-Process
-assumes	1098	1105	O
-uniform	1106	1113	O
-concentration	1114	1127	O
-of	1128	1130	O
-a	1131	1132	O
-material	1133	1141	O
-in	1142	1144	O
-each	1145	1149	O
-compartment	1150	1161	O
-,	1161	1162	O
-the	1163	1166	O
-present	1167	1174	O
-two	1175	1178	B-Process
--	1178	1179	I-Process
-compartment	1179	1190	I-Process
-model	1191	1196	I-Process
-uses	1197	1201	O
-a	1202	1203	O
-computational	1204	1217	B-Process
-fluid	1218	1223	I-Process
-dynamics	1224	1232	I-Process
-(	1233	1234	O
-CFD	1234	1237	B-Process
-)	1237	1238	O
-technique	1239	1248	O
-in	1249	1251	O
-the	1252	1255	O
-water	1256	1261	B-Material
-compartment	1262	1273	O
-to	1274	1276	O
-evaluate	1277	1285	B-Task
-temporal	1286	1294	I-Task
-development	1295	1306	I-Task
-of	1307	1309	I-Task
-three	1310	1315	I-Task
--	1315	1316	I-Task
-dimensional	1316	1327	I-Task
-profiles	1328	1336	I-Task
-of	1337	1339	I-Task
-the	1340	1343	I-Task
-velocity	1344	1352	I-Task
-and	1353	1356	I-Task
-concentration	1357	1370	I-Task
-fields	1371	1377	I-Task
-.	1377	1378	O
-
-A	1379	1380	O
-direct	1381	1387	B-Process
-numerical	1388	1397	I-Process
-simulation	1398	1408	I-Process
-(	1409	1410	O
-DNS	1410	1413	B-Process
-)	1413	1414	O
-approach	1415	1423	O
-is	1424	1426	O
-used	1427	1431	O
-to	1432	1434	O
-evaluate	1435	1443	B-Task
-profiles	1444	1452	I-Task
-of	1453	1455	I-Task
-fluid	1456	1461	I-Task
-velocities	1462	1472	I-Task
-and	1473	1476	I-Task
-concentrations	1477	1491	I-Task
-in	1492	1494	I-Task
-water	1495	1500	I-Task
-,	1500	1501	O
-and	1502	1505	O
-several	1506	1513	O
-important	1514	1523	O
-turbulence	1524	1534	O
-statistics	1535	1545	O
-have	1546	1550	O
-been	1551	1555	O
-evaluated	1556	1565	O
-without	1566	1573	O
-using	1574	1579	O
-turbulent	1580	1589	O
-closures	1590	1598	O
-,	1598	1599	O
-and	1600	1603	O
-subgrid	1604	1611	B-Process
--	1611	1612	I-Process
-scale	1612	1617	I-Process
-models	1618	1624	I-Process
-.	1624	1625	O
-
-We	1626	1628	O
-assume	1629	1635	O
-that	1636	1640	O
-a	1641	1642	O
-fluid	1643	1648	B-Process
-flow	1649	1653	I-Process
-in	1654	1656	I-Process
-the	1657	1660	I-Process
-water	1661	1666	I-Process
-phase	1667	1672	I-Process
-is	1673	1675	O
-a	1676	1677	O
-well	1678	1682	O
--	1682	1683	O
-developed	1683	1692	O
-turbulent	1693	1702	O
-water	1703	1708	B-Material
-layer	1709	1714	O
-of	1715	1717	O
-a	1718	1719	O
-low	1720	1723	O
-Reynolds	1724	1732	O
-number	1733	1739	O
-,	1739	1740	O
-and	1741	1744	O
-the	1745	1748	O
-Schmidt	1749	1756	O
-number	1757	1763	O
-is	1764	1766	O
-varied	1767	1773	O
-from	1774	1778	O
-1	1779	1780	O
-to	1781	1783	O
-8	1784	1785	O
-to	1786	1788	O
-observe	1789	1796	B-Task
-the	1797	1800	I-Task
-effects	1801	1808	I-Task
-of	1809	1811	I-Task
-the	1812	1815	I-Task
-molecular	1816	1825	I-Task
-diffusion	1826	1835	I-Task
-of	1836	1838	O
-the	1839	1842	O
-gas	1843	1846	B-Material
-in	1847	1849	O
-sub	1850	1853	O
--	1853	1854	O
-interface	1854	1863	O
-water	1864	1869	B-Material
-on	1870	1872	O
-the	1873	1876	O
-gas	1877	1880	B-Process
-exchange	1881	1889	I-Process
-rate	1890	1894	I-Process
-at	1895	1897	I-Process
-the	1898	1901	I-Process
-interface	1902	1911	I-Process
-.	1911	1912	O
-
-Six	1913	1916	O
-degrees	1917	1924	O
-of	1925	1927	O
-the	1928	1931	O
-nondimensional	1932	1946	B-Process
-chemical	1947	1955	I-Process
-reaction	1956	1964	I-Process
-rate	1965	1969	I-Process
-are	1970	1973	O
-used	1974	1978	O
-to	1979	1981	O
-find	1982	1986	O
-the	1987	1990	O
-effect	1991	1997	B-Task
-of	1998	2000	I-Task
-the	2001	2004	I-Task
-chemical	2005	2013	I-Task
-reaction	2014	2022	I-Task
-rate	2023	2027	I-Task
-on	2028	2030	I-Task
-the	2031	2034	I-Task
-gas	2035	2038	I-Task
-exchange	2039	2047	I-Task
-mechanisms	2048	2058	I-Task
-.	2058	2059	O
-
-Extrapolations	2060	2074	O
-of	2075	2077	O
-the	2078	2081	O
-gas	2082	2085	B-Process
-exchange	2086	2094	I-Process
-rates	2095	2100	I-Process
-and	2101	2104	O
-the	2105	2108	O
-related	2109	2116	O
-transport	2117	2126	B-Process
-phenomena	2127	2136	I-Process
-toward	2137	2143	O
-larger	2144	2150	O
-Schmidt	2151	2158	O
-number	2159	2165	O
-and	2166	2169	O
-the	2170	2173	O
-faster	2174	2180	O
-chemical	2181	2189	B-Process
-reaction	2190	2198	I-Process
-rate	2199	2203	O
-will	2204	2208	O
-also	2209	2213	O
-be	2214	2216	O
-examined	2217	2225	O
-to	2226	2228	O
-predict	2229	2236	B-Task
-the	2237	2240	I-Task
-gas	2241	2244	I-Task
-exchange	2245	2253	I-Task
-processes	2254	2263	I-Task
-of	2264	2266	O
-the	2267	2270	O
-actual	2271	2277	O
-gases	2278	2283	B-Material
-of	2284	2286	O
-Sc∼O(102	2287	2295	B-Material
-)	2295	2296	I-Material
-based	2297	2302	O
-on	2303	2305	O
-results	2306	2313	O
-from	2314	2318	O
-the	2319	2322	O
-present	2323	2330	O
-numerical	2331	2340	B-Task
-experiments	2341	2352	I-Task
-.	2352	2353	O
+This	0,4	O	O
+study	5,10	O	O
+proposes	11,19	O	O
+a	20,21	O	O
+new	22,25	O	B-Task
+framework	26,35	O	I-Task
+of	36,38	O	I-Task
+a	39,40	O	I-Task
+numerical	41,50	O	I-Task
+modelling	51,60	O	I-Task
+of	61,63	O	O
+the	64,67	O	O
+gas	68,71	O	B-Process
+exchange	72,80	O	I-Process
+between	81,88	O	O
+air	89,92	O	B-Material
+and	93,96	O	O
+water	97,102	O	B-Material
+across	103,109	O	O
+their	110,115	O	O
+interface	116,125	O	O
+,	125,126	O	O
+and	127,130	O	O
+subsequent	131,141	O	O
+chemical	142,150	O	B-Process
+reaction	151,159	O	I-Process
+in	160,162	O	I-Process
+water	163,168	O	I-Process
+based	169,174	O	O
+on	175,177	O	O
+an	178,180	O	O
+extended	181,189	O	O
+two	190,193	O	B-Process
+-	193,194	O	I-Process
+compartment	194,205	O	I-Process
+model	206,211	O	I-Process
+.	211,212	O	O
+
+The	213,216	O	O
+major	217,222	O	O
+purpose	223,230	O	O
+of	231,233	O	O
+this	234,238	O	O
+study	239,244	O	O
+is	245,247	O	O
+to	248,250	O	O
+provide	251,258	O	O
+a	259,260	O	O
+fundamental	261,272	O	B-Process
+concept	273,280	O	I-Process
+for	281,284	O	O
+modelling	285,294	O	B-Task
+physicochemical	295,310	O	I-Task
+processes	311,320	O	I-Task
+of	321,323	O	O
+the	324,327	O	O
+gas	328,331	O	B-Process
+exchange	332,340	O	I-Process
+,	340,341	O	O
+followed	342,350	O	O
+by	351,353	O	O
+the	354,357	O	O
+chemical	358,366	O	B-Process
+reaction	367,375	O	I-Process
+in	376,378	O	I-Process
+water	379,384	O	I-Process
+.	384,385	O	O
+
+Demonstrating	386,399	O	O
+fundamental	400,411	O	O
+data	412,416	O	O
+and	417,420	O	O
+knowledge	421,430	O	O
+on	431,433	O	O
+the	434,437	O	O
+important	438,447	O	O
+environmental	448,461	O	O
+transport	462,471	O	O
+phenomena	472,481	O	O
+,	481,482	O	O
+especially	483,493	O	O
+the	494,497	O	O
+effects	498,505	O	B-Process
+of	506,508	O	I-Process
+the	509,512	O	I-Process
+Schmidt	513,520	O	I-Process
+number	521,527	O	I-Process
+and	528,531	O	O
+the	532,535	O	O
+chemical	536,544	O	B-Process
+reaction	545,553	O	I-Process
+rate	554,558	O	I-Process
+on	559,561	O	O
+the	562,565	O	O
+gas	566,569	O	B-Process
+exchange	570,578	O	I-Process
+mechanisms	579,589	O	I-Process
+across	590,596	O	I-Process
+the	597,600	O	I-Process
+interface	601,610	O	I-Process
+have	611,615	O	O
+also	616,620	O	O
+been	621,625	O	O
+attempted	626,635	O	O
+.	635,636	O	O
+
+The	637,640	O	O
+gas	641,644	O	B-Process
+exchange	645,653	O	I-Process
+processes	654,663	O	I-Process
+are	664,667	O	O
+separated	668,677	O	O
+into	678,682	O	O
+two	683,686	O	O
+physicochemical	687,702	O	O
+substeps	703,711	O	O
+,	711,712	O	O
+the	713,716	O	O
+first	717,722	O	O
+is	723,725	O	O
+the	726,729	O	O
+gas	730,733	O	B-Process
+–	733,734	O	I-Process
+liquid	734,740	O	I-Process
+equilibrium	741,752	O	I-Process
+between	753,760	O	O
+the	761,764	O	O
+two	765,768	O	O
+phases	769,775	O	O
+,	775,776	O	O
+and	777,780	O	O
+the	781,784	O	O
+second	785,791	O	O
+is	792,794	O	O
+the	795,798	O	O
+chemical	799,807	O	B-Process
+reaction	808,816	O	I-Process
+in	817,819	O	I-Process
+the	820,823	O	I-Process
+water	824,829	O	I-Process
+phase	830,835	O	I-Process
+.	835,836	O	O
+
+A	837,838	O	O
+first	839,844	O	O
+-	844,845	O	O
+order	845,850	O	O
+,	850,851	O	O
+irreversible	852,864	O	B-Process
+chemical	865,873	O	I-Process
+reaction	874,882	O	I-Process
+of	883,885	O	O
+the	886,889	O	O
+gaseous	890,897	O	B-Material
+material	898,906	O	I-Material
+after	907,912	O	O
+its	913,916	O	O
+uptake	917,923	O	O
+into	924,928	O	O
+the	929,932	O	O
+water	933,938	O	B-Material
+phase	939,944	O	I-Material
+is	945,947	O	O
+assumed	948,955	O	O
+here	956,960	O	O
+to	961,963	O	O
+simplify	964,972	O	O
+interactions	973,985	O	O
+of	986,988	O	O
+the	989,992	O	O
+chemical	993,1001	O	B-Process
+reactions	1002,1011	O	I-Process
+and	1012,1015	O	O
+turbulent	1016,1025	O	B-Process
+transport	1026,1035	O	I-Process
+phenomena	1036,1045	O	I-Process
+in	1046,1048	O	I-Process
+water	1049,1054	O	I-Process
+.	1054,1055	O	O
+
+While	1056,1061	O	O
+a	1062,1063	O	O
+traditional	1064,1075	O	O
+two	1076,1079	O	B-Process
+-	1079,1080	O	I-Process
+compartment	1080,1091	O	I-Process
+model	1092,1097	O	I-Process
+assumes	1098,1105	O	O
+uniform	1106,1113	O	O
+concentration	1114,1127	O	O
+of	1128,1130	O	O
+a	1131,1132	O	O
+material	1133,1141	O	O
+in	1142,1144	O	O
+each	1145,1149	O	O
+compartment	1150,1161	O	O
+,	1161,1162	O	O
+the	1163,1166	O	O
+present	1167,1174	O	O
+two	1175,1178	O	B-Process
+-	1178,1179	O	I-Process
+compartment	1179,1190	O	I-Process
+model	1191,1196	O	I-Process
+uses	1197,1201	O	O
+a	1202,1203	O	O
+computational	1204,1217	O	B-Process
+fluid	1218,1223	O	I-Process
+dynamics	1224,1232	O	I-Process
+(	1233,1234	O	O
+CFD	1234,1237	O	B-Process
+)	1237,1238	O	O
+technique	1239,1248	O	O
+in	1249,1251	O	O
+the	1252,1255	O	O
+water	1256,1261	O	B-Material
+compartment	1262,1273	O	O
+to	1274,1276	O	O
+evaluate	1277,1285	O	B-Task
+temporal	1286,1294	O	I-Task
+development	1295,1306	O	I-Task
+of	1307,1309	O	I-Task
+three	1310,1315	O	I-Task
+-	1315,1316	O	I-Task
+dimensional	1316,1327	O	I-Task
+profiles	1328,1336	O	I-Task
+of	1337,1339	O	I-Task
+the	1340,1343	O	I-Task
+velocity	1344,1352	O	I-Task
+and	1353,1356	O	I-Task
+concentration	1357,1370	O	I-Task
+fields	1371,1377	O	I-Task
+.	1377,1378	O	O
+
+A	1379,1380	O	O
+direct	1381,1387	O	B-Process
+numerical	1388,1397	O	I-Process
+simulation	1398,1408	O	I-Process
+(	1409,1410	O	O
+DNS	1410,1413	O	B-Process
+)	1413,1414	O	O
+approach	1415,1423	O	O
+is	1424,1426	O	O
+used	1427,1431	O	O
+to	1432,1434	O	O
+evaluate	1435,1443	O	B-Task
+profiles	1444,1452	O	I-Task
+of	1453,1455	O	I-Task
+fluid	1456,1461	O	I-Task
+velocities	1462,1472	O	I-Task
+and	1473,1476	O	I-Task
+concentrations	1477,1491	O	I-Task
+in	1492,1494	O	I-Task
+water	1495,1500	O	I-Task
+,	1500,1501	O	O
+and	1502,1505	O	O
+several	1506,1513	O	O
+important	1514,1523	O	O
+turbulence	1524,1534	O	O
+statistics	1535,1545	O	O
+have	1546,1550	O	O
+been	1551,1555	O	O
+evaluated	1556,1565	O	O
+without	1566,1573	O	O
+using	1574,1579	O	O
+turbulent	1580,1589	O	O
+closures	1590,1598	O	O
+,	1598,1599	O	O
+and	1600,1603	O	O
+subgrid	1604,1611	O	B-Process
+-	1611,1612	O	I-Process
+scale	1612,1617	O	I-Process
+models	1618,1624	O	I-Process
+.	1624,1625	O	O
+
+We	1626,1628	O	O
+assume	1629,1635	O	O
+that	1636,1640	O	O
+a	1641,1642	O	O
+fluid	1643,1648	O	B-Process
+flow	1649,1653	O	I-Process
+in	1654,1656	O	I-Process
+the	1657,1660	O	I-Process
+water	1661,1666	O	I-Process
+phase	1667,1672	O	I-Process
+is	1673,1675	O	O
+a	1676,1677	O	O
+well	1678,1682	O	O
+-	1682,1683	O	O
+developed	1683,1692	O	O
+turbulent	1693,1702	O	O
+water	1703,1708	O	B-Material
+layer	1709,1714	O	O
+of	1715,1717	O	O
+a	1718,1719	O	O
+low	1720,1723	O	O
+Reynolds	1724,1732	O	O
+number	1733,1739	O	O
+,	1739,1740	O	O
+and	1741,1744	O	O
+the	1745,1748	O	O
+Schmidt	1749,1756	O	O
+number	1757,1763	O	O
+is	1764,1766	O	O
+varied	1767,1773	O	O
+from	1774,1778	O	O
+1	1779,1780	O	O
+to	1781,1783	O	O
+8	1784,1785	O	O
+to	1786,1788	O	O
+observe	1789,1796	O	B-Task
+the	1797,1800	O	I-Task
+effects	1801,1808	O	I-Task
+of	1809,1811	O	I-Task
+the	1812,1815	O	I-Task
+molecular	1816,1825	O	I-Task
+diffusion	1826,1835	O	I-Task
+of	1836,1838	O	O
+the	1839,1842	O	O
+gas	1843,1846	O	B-Material
+in	1847,1849	O	O
+sub	1850,1853	O	O
+-	1853,1854	O	O
+interface	1854,1863	O	O
+water	1864,1869	O	B-Material
+on	1870,1872	O	O
+the	1873,1876	O	O
+gas	1877,1880	O	B-Process
+exchange	1881,1889	O	I-Process
+rate	1890,1894	O	I-Process
+at	1895,1897	O	I-Process
+the	1898,1901	O	I-Process
+interface	1902,1911	O	I-Process
+.	1911,1912	O	O
+
+Six	1913,1916	O	O
+degrees	1917,1924	O	O
+of	1925,1927	O	O
+the	1928,1931	O	O
+nondimensional	1932,1946	O	B-Process
+chemical	1947,1955	O	I-Process
+reaction	1956,1964	O	I-Process
+rate	1965,1969	O	I-Process
+are	1970,1973	O	O
+used	1974,1978	O	O
+to	1979,1981	O	O
+find	1982,1986	O	O
+the	1987,1990	O	O
+effect	1991,1997	O	B-Task
+of	1998,2000	O	I-Task
+the	2001,2004	O	I-Task
+chemical	2005,2013	O	I-Task
+reaction	2014,2022	O	I-Task
+rate	2023,2027	O	I-Task
+on	2028,2030	O	I-Task
+the	2031,2034	O	I-Task
+gas	2035,2038	O	I-Task
+exchange	2039,2047	O	I-Task
+mechanisms	2048,2058	O	I-Task
+.	2058,2059	O	O
+
+Extrapolations	2060,2074	O	O
+of	2075,2077	O	O
+the	2078,2081	O	O
+gas	2082,2085	O	B-Process
+exchange	2086,2094	O	I-Process
+rates	2095,2100	O	I-Process
+and	2101,2104	O	O
+the	2105,2108	O	O
+related	2109,2116	O	O
+transport	2117,2126	O	B-Process
+phenomena	2127,2136	O	I-Process
+toward	2137,2143	O	O
+larger	2144,2150	O	O
+Schmidt	2151,2158	O	O
+number	2159,2165	O	O
+and	2166,2169	O	O
+the	2170,2173	O	O
+faster	2174,2180	O	O
+chemical	2181,2189	O	B-Process
+reaction	2190,2198	O	I-Process
+rate	2199,2203	O	O
+will	2204,2208	O	O
+also	2209,2213	O	O
+be	2214,2216	O	O
+examined	2217,2225	O	O
+to	2226,2228	O	O
+predict	2229,2236	O	B-Task
+the	2237,2240	O	I-Task
+gas	2241,2244	O	I-Task
+exchange	2245,2253	O	I-Task
+processes	2254,2263	O	I-Task
+of	2264,2266	O	O
+the	2267,2270	O	O
+actual	2271,2277	O	O
+gases	2278,2283	O	B-Material
+of	2284,2286	O	O
+Sc∼O(102	2287,2295	O	B-Material
+)	2295,2296	O	I-Material
+based	2297,2302	O	O
+on	2303,2305	O	O
+results	2306,2313	O	O
+from	2314,2318	O	O
+the	2319,2322	O	O
+present	2323,2330	O	O
+numerical	2331,2340	O	B-Task
+experiments	2341,2352	O	I-Task
+.	2352,2353	O	O
 
 
 -DOCSTART- (S0021999113005846)
 
-Although	0	8	O
-the	9	12	O
-free	13	17	B-Task
-Kelvin	18	24	I-Task
-wave	25	29	I-Task
-problem	30	37	I-Task
-is	38	40	O
-of	41	43	O
-considerable	44	56	O
-theoretical	57	68	O
-importance	69	79	O
-,	79	80	O
-problems	81	89	B-Task
-with	90	94	I-Task
-forcing	95	102	I-Task
-and	103	106	I-Task
-damping	107	114	I-Task
-have	115	119	O
-greater	120	127	O
-practical	128	137	O
-importance	138	148	O
-.	148	149	O
-
-In	150	152	O
-nature	153	159	O
-,	159	160	O
-the	161	164	O
-forcing	165	172	B-Process
-could	173	178	O
-be	179	181	O
-due	182	185	O
-to	186	188	O
-a	189	190	O
-wind	191	195	B-Process
-stress	196	202	I-Process
-at	203	205	I-Process
-the	206	209	I-Process
-free	210	214	I-Process
-surface	215	222	I-Process
-or	223	225	O
-an	226	228	O
-astronomical	229	241	B-Process
-tidal	242	247	I-Process
-potential	248	257	I-Process
-,	257	258	O
-and	259	262	O
-the	263	266	O
-damping	267	274	B-Process
-could	275	280	O
-be	281	283	O
-due	284	287	O
-to	288	290	O
-the	291	294	O
-turbulent	295	304	B-Process
-stress	305	311	I-Process
-of	312	314	I-Process
-a	315	316	I-Process
-bottom	317	323	I-Process
-boundary	324	332	I-Process
-layer	333	338	I-Process
-.	338	339	O
-
-Regardless	340	350	O
-of	351	353	O
-the	354	357	O
-details	358	365	O
-,	365	366	O
-the	367	370	O
-forced	371	377	B-Process
-response	378	386	I-Process
-is	387	389	O
-composed	390	398	O
-of	399	401	O
-shallow	402	409	B-Material
--	409	410	I-Material
-water	410	415	I-Material
-waves	416	421	I-Material
-,	421	422	O
-possibly	423	431	O
-including	432	441	O
-Kelvin	442	448	B-Material
-waves	449	454	I-Material
-,	454	455	O
-with	456	460	O
-the	461	464	O
-largest	465	472	O
-amplitudes	473	483	O
-in	484	486	O
-waves	487	492	B-Material
-with	493	497	O
-a	498	499	O
-natural	500	507	B-Process
-frequency	508	517	I-Process
-ωf	518	520	B-Process
-close	521	526	O
-to	527	529	O
-that	530	534	O
-of	535	537	O
-the	538	541	O
-forcing	542	549	B-Process
-frequency	550	559	I-Process
-ω	560	561	B-Process
-;	561	562	O
-various	563	570	O
-examples	571	579	O
-of	580	582	O
-this	583	587	O
-sort	588	592	O
-are	593	596	O
-given	597	602	O
-in	603	605	O
-Chapters	606	614	O
-9	615	616	O
-and	617	620	O
-10	621	623	O
-of	624	626	O
-Gill	627	631	O
-[	632	633	O
-16	633	635	O
-]	635	636	O
-.	636	637	O
-
-When	638	642	O
-ω≈ωf	643	647	B-Process
-,	647	648	O
-there	649	654	O
-is	655	657	O
-a	658	659	O
-large	660	665	O
-amplitude	666	675	O
-near	676	680	O
--	680	681	O
-resonant	681	689	O
-response	690	698	O
-,	698	699	O
-the	700	703	O
-size	704	708	O
-of	709	711	O
-which	712	717	O
-is	718	720	O
-sensitive	721	730	O
-to	731	733	O
-the	734	737	O
-weak	738	742	B-Process
-damping	743	750	I-Process
-and	751	754	O
-|ω−ωf|	755	761	B-Process
-.	761	762	O
-
-Thus	763	767	O
-,	767	768	O
-in	769	771	O
-numerical	772	781	B-Task
-solutions	782	791	I-Task
-of	792	794	O
-near	795	799	B-Material
--	799	800	I-Material
-resonantly	800	810	I-Material
-forced	811	817	I-Material
-waves	818	823	I-Material
-,	823	824	O
-we	825	827	O
-anticipate	828	838	O
-that	839	843	O
-errors	844	850	O
-in	851	853	O
-ωf	854	856	B-Process
-(	857	858	O
-associated	858	868	O
-with	869	873	O
-the	874	877	O
-spatial	878	885	B-Process
-discretisation	886	900	I-Process
-)	900	901	O
-could	902	907	O
-lead	908	912	O
-to	913	915	O
-non	916	919	O
--	919	920	O
-trivial	920	927	O
-errors	928	934	O
-in	935	937	O
-the	938	941	O
-forced	942	948	O
-response	949	957	O
-.	957	958	O
+Although	0,8	O	O
+the	9,12	O	O
+free	13,17	O	B-Task
+Kelvin	18,24	O	I-Task
+wave	25,29	O	I-Task
+problem	30,37	O	I-Task
+is	38,40	O	O
+of	41,43	O	O
+considerable	44,56	O	O
+theoretical	57,68	O	O
+importance	69,79	O	O
+,	79,80	O	O
+problems	81,89	O	B-Task
+with	90,94	O	I-Task
+forcing	95,102	O	I-Task
+and	103,106	O	I-Task
+damping	107,114	O	I-Task
+have	115,119	O	O
+greater	120,127	O	O
+practical	128,137	O	O
+importance	138,148	O	O
+.	148,149	O	O
+
+In	150,152	O	O
+nature	153,159	O	O
+,	159,160	O	O
+the	161,164	O	O
+forcing	165,172	O	B-Process
+could	173,178	O	O
+be	179,181	O	O
+due	182,185	O	O
+to	186,188	O	O
+a	189,190	O	O
+wind	191,195	O	B-Process
+stress	196,202	O	I-Process
+at	203,205	O	I-Process
+the	206,209	O	I-Process
+free	210,214	O	I-Process
+surface	215,222	O	I-Process
+or	223,225	O	O
+an	226,228	O	O
+astronomical	229,241	O	B-Process
+tidal	242,247	O	I-Process
+potential	248,257	O	I-Process
+,	257,258	O	O
+and	259,262	O	O
+the	263,266	O	O
+damping	267,274	O	B-Process
+could	275,280	O	O
+be	281,283	O	O
+due	284,287	O	O
+to	288,290	O	O
+the	291,294	O	O
+turbulent	295,304	O	B-Process
+stress	305,311	O	I-Process
+of	312,314	O	I-Process
+a	315,316	O	I-Process
+bottom	317,323	O	I-Process
+boundary	324,332	O	I-Process
+layer	333,338	O	I-Process
+.	338,339	O	O
+
+Regardless	340,350	O	O
+of	351,353	O	O
+the	354,357	O	O
+details	358,365	O	O
+,	365,366	O	O
+the	367,370	O	O
+forced	371,377	O	B-Process
+response	378,386	O	I-Process
+is	387,389	O	O
+composed	390,398	O	O
+of	399,401	O	O
+shallow	402,409	O	B-Material
+-	409,410	O	I-Material
+water	410,415	O	I-Material
+waves	416,421	O	I-Material
+,	421,422	O	O
+possibly	423,431	O	O
+including	432,441	O	O
+Kelvin	442,448	O	B-Material
+waves	449,454	O	I-Material
+,	454,455	O	O
+with	456,460	O	O
+the	461,464	O	O
+largest	465,472	O	O
+amplitudes	473,483	O	O
+in	484,486	O	O
+waves	487,492	O	B-Material
+with	493,497	O	O
+a	498,499	O	O
+natural	500,507	O	B-Process
+frequency	508,517	O	I-Process
+ωf	518,520	O	B-Process
+close	521,526	O	O
+to	527,529	O	O
+that	530,534	O	O
+of	535,537	O	O
+the	538,541	O	O
+forcing	542,549	O	B-Process
+frequency	550,559	O	I-Process
+ω	560,561	O	B-Process
+;	561,562	O	O
+various	563,570	O	O
+examples	571,579	O	O
+of	580,582	O	O
+this	583,587	O	O
+sort	588,592	O	O
+are	593,596	O	O
+given	597,602	O	O
+in	603,605	O	O
+Chapters	606,614	O	O
+9	615,616	O	O
+and	617,620	O	O
+10	621,623	O	O
+of	624,626	O	O
+Gill	627,631	O	O
+[	632,633	O	O
+16	633,635	O	O
+]	635,636	O	O
+.	636,637	O	O
+
+When	638,642	O	O
+ω≈ωf	643,647	O	B-Process
+,	647,648	O	O
+there	649,654	O	O
+is	655,657	O	O
+a	658,659	O	O
+large	660,665	O	O
+amplitude	666,675	O	O
+near	676,680	O	O
+-	680,681	O	O
+resonant	681,689	O	O
+response	690,698	O	O
+,	698,699	O	O
+the	700,703	O	O
+size	704,708	O	O
+of	709,711	O	O
+which	712,717	O	O
+is	718,720	O	O
+sensitive	721,730	O	O
+to	731,733	O	O
+the	734,737	O	O
+weak	738,742	O	B-Process
+damping	743,750	O	I-Process
+and	751,754	O	O
+|ω−ωf|	755,761	O	B-Process
+.	761,762	O	O
+
+Thus	763,767	O	O
+,	767,768	O	O
+in	769,771	O	O
+numerical	772,781	O	B-Task
+solutions	782,791	O	I-Task
+of	792,794	O	O
+near	795,799	O	B-Material
+-	799,800	O	I-Material
+resonantly	800,810	O	I-Material
+forced	811,817	O	I-Material
+waves	818,823	O	I-Material
+,	823,824	O	O
+we	825,827	O	O
+anticipate	828,838	O	O
+that	839,843	O	O
+errors	844,850	O	O
+in	851,853	O	O
+ωf	854,856	O	B-Process
+(	857,858	O	O
+associated	858,868	O	O
+with	869,873	O	O
+the	874,877	O	O
+spatial	878,885	O	B-Process
+discretisation	886,900	O	I-Process
+)	900,901	O	O
+could	902,907	O	O
+lead	908,912	O	O
+to	913,915	O	O
+non	916,919	O	O
+-	919,920	O	O
+trivial	920,927	O	O
+errors	928,934	O	O
+in	935,937	O	O
+the	938,941	O	O
+forced	942,948	O	O
+response	949,957	O	O
+.	957,958	O	O
 
 
 -DOCSTART- (S002199911500025X)
 
-A	0	1	O
-fully	2	7	B-Process
--	7	8	I-Process
-coupled	8	15	I-Process
-numerical	16	25	I-Process
-framework	26	35	I-Process
-for	36	39	O
-two	40	43	B-Process
--	43	44	I-Process
-phase	44	49	I-Process
-flows	50	55	I-Process
-with	56	60	O
-an	61	63	O
-implicit	64	72	O
-implementation	73	87	O
-of	88	90	O
-surface	91	98	B-Process
-tension	99	106	I-Process
-has	107	110	O
-been	111	115	O
-introduced	116	126	O
-in	127	129	O
-this	130	134	O
-article	135	142	O
-.	142	143	O
-
-This	144	148	O
-fully	149	154	B-Process
--	154	155	I-Process
-coupled	155	162	I-Process
-framework	163	172	I-Process
-has	173	176	O
-then	177	181	O
-been	182	186	O
-used	187	191	O
-to	192	194	O
-compare	195	202	B-Task
-the	203	206	I-Task
-influence	207	216	I-Task
-of	217	219	O
-the	220	223	O
-surface	224	231	B-Process
-tension	232	239	I-Process
-treatment	240	249	I-Process
-on	250	252	O
-the	253	256	O
-time	257	261	B-Process
--	261	262	I-Process
-step	262	266	I-Process
-restrictions	267	279	I-Process
-resulting	280	289	I-Process
-from	290	294	I-Process
-capillary	295	304	I-Process
-waves	305	310	I-Process
-.	310	311	O
-
-The	312	315	O
-conducted	316	325	O
-study	326	331	O
-demonstrates	332	344	O
-that	345	349	O
-restrictions	350	362	B-Process
-on	363	365	I-Process
-the	366	369	I-Process
-numerical	370	379	I-Process
-time	380	384	I-Process
--	384	385	I-Process
-step	385	389	I-Process
-resulting	390	399	I-Process
-from	400	404	I-Process
-capillary	405	414	I-Process
-waves	415	420	I-Process
-are	421	424	O
-valid	425	430	O
-and	431	434	O
-unchanged	435	444	O
-regardless	445	455	O
-of	456	458	O
-the	459	462	O
-numerical	463	472	B-Process
-treatment	473	482	I-Process
-of	483	485	I-Process
-surface	486	493	I-Process
-tension	494	501	I-Process
-.	501	502	O
-
-Since	503	508	O
-surface	509	516	B-Process
-tension	517	524	I-Process
-is	525	527	O
-not	528	531	O
-a	532	533	O
-function	534	542	O
-of	543	545	O
-pressure	546	554	O
-or	555	557	O
-velocity	558	566	O
-,	566	567	O
-the	568	571	O
-change	572	578	O
-in	579	581	O
-implementation	582	596	O
-does	597	601	O
-not	602	605	O
-affect	606	612	O
-the	613	616	O
-matrix	617	623	O
-coefficients	624	636	O
-of	637	639	O
-the	640	643	O
-primitive	644	653	O
-variables	654	663	O
-and	664	667	O
-,	667	668	O
-thus	669	673	O
-,	673	674	O
-numerical	675	684	O
-stability	685	694	O
-is	695	697	O
-independent	698	709	O
-of	710	712	O
-the	713	716	O
-treatment	717	726	B-Task
-of	727	729	I-Task
-surface	730	737	I-Task
-tension	738	745	I-Task
-.	745	746	O
-
-Further	747	754	O
-analysis	755	763	O
-shows	764	769	O
-that	770	774	O
-the	775	778	O
-capillary	779	788	O
-time	789	793	O
--	793	794	O
-step	794	798	O
-constraint	799	809	O
-is	810	812	O
-a	813	814	O
-requirement	815	826	O
-imposed	827	834	O
-by	835	837	O
-the	838	841	O
-spatiotemporal	842	856	B-Task
-sampling	857	865	I-Task
-of	866	868	I-Task
-capillary	869	878	I-Task
-waves	879	884	I-Task
-,	884	885	O
-which	886	891	O
-is	892	894	O
-independent	895	906	O
-of	907	909	O
-the	910	913	O
-applied	914	921	B-Process
-numerical	922	931	I-Process
-methodology	932	943	I-Process
-.	943	944	O
+A	0,1	O	O
+fully	2,7	O	B-Process
+-	7,8	O	I-Process
+coupled	8,15	O	I-Process
+numerical	16,25	O	I-Process
+framework	26,35	O	I-Process
+for	36,39	O	O
+two	40,43	O	B-Process
+-	43,44	O	I-Process
+phase	44,49	O	I-Process
+flows	50,55	O	I-Process
+with	56,60	O	O
+an	61,63	O	O
+implicit	64,72	O	O
+implementation	73,87	O	O
+of	88,90	O	O
+surface	91,98	O	B-Process
+tension	99,106	O	I-Process
+has	107,110	O	O
+been	111,115	O	O
+introduced	116,126	O	O
+in	127,129	O	O
+this	130,134	O	O
+article	135,142	O	O
+.	142,143	O	O
+
+This	144,148	O	O
+fully	149,154	O	B-Process
+-	154,155	O	I-Process
+coupled	155,162	O	I-Process
+framework	163,172	O	I-Process
+has	173,176	O	O
+then	177,181	O	O
+been	182,186	O	O
+used	187,191	O	O
+to	192,194	O	O
+compare	195,202	O	B-Task
+the	203,206	O	I-Task
+influence	207,216	O	I-Task
+of	217,219	O	O
+the	220,223	O	O
+surface	224,231	O	B-Process
+tension	232,239	O	I-Process
+treatment	240,249	O	I-Process
+on	250,252	O	O
+the	253,256	O	O
+time	257,261	O	B-Process
+-	261,262	O	I-Process
+step	262,266	O	I-Process
+restrictions	267,279	O	I-Process
+resulting	280,289	O	I-Process
+from	290,294	O	I-Process
+capillary	295,304	O	I-Process
+waves	305,310	O	I-Process
+.	310,311	O	O
+
+The	312,315	O	O
+conducted	316,325	O	O
+study	326,331	O	O
+demonstrates	332,344	O	O
+that	345,349	O	O
+restrictions	350,362	O	B-Process
+on	363,365	O	I-Process
+the	366,369	O	I-Process
+numerical	370,379	O	I-Process
+time	380,384	O	I-Process
+-	384,385	O	I-Process
+step	385,389	O	I-Process
+resulting	390,399	O	I-Process
+from	400,404	O	I-Process
+capillary	405,414	O	I-Process
+waves	415,420	O	I-Process
+are	421,424	O	O
+valid	425,430	O	O
+and	431,434	O	O
+unchanged	435,444	O	O
+regardless	445,455	O	O
+of	456,458	O	O
+the	459,462	O	O
+numerical	463,472	O	B-Process
+treatment	473,482	O	I-Process
+of	483,485	O	I-Process
+surface	486,493	O	I-Process
+tension	494,501	O	I-Process
+.	501,502	O	O
+
+Since	503,508	O	O
+surface	509,516	O	B-Process
+tension	517,524	O	I-Process
+is	525,527	O	O
+not	528,531	O	O
+a	532,533	O	O
+function	534,542	O	O
+of	543,545	O	O
+pressure	546,554	O	O
+or	555,557	O	O
+velocity	558,566	O	O
+,	566,567	O	O
+the	568,571	O	O
+change	572,578	O	O
+in	579,581	O	O
+implementation	582,596	O	O
+does	597,601	O	O
+not	602,605	O	O
+affect	606,612	O	O
+the	613,616	O	O
+matrix	617,623	O	O
+coefficients	624,636	O	O
+of	637,639	O	O
+the	640,643	O	O
+primitive	644,653	O	O
+variables	654,663	O	O
+and	664,667	O	O
+,	667,668	O	O
+thus	669,673	O	O
+,	673,674	O	O
+numerical	675,684	O	O
+stability	685,694	O	O
+is	695,697	O	O
+independent	698,709	O	O
+of	710,712	O	O
+the	713,716	O	O
+treatment	717,726	O	B-Task
+of	727,729	O	I-Task
+surface	730,737	O	I-Task
+tension	738,745	O	I-Task
+.	745,746	O	O
+
+Further	747,754	O	O
+analysis	755,763	O	O
+shows	764,769	O	O
+that	770,774	O	O
+the	775,778	O	O
+capillary	779,788	O	O
+time	789,793	O	O
+-	793,794	O	O
+step	794,798	O	O
+constraint	799,809	O	O
+is	810,812	O	O
+a	813,814	O	O
+requirement	815,826	O	O
+imposed	827,834	O	O
+by	835,837	O	O
+the	838,841	O	O
+spatiotemporal	842,856	O	B-Task
+sampling	857,865	O	I-Task
+of	866,868	O	I-Task
+capillary	869,878	O	I-Task
+waves	879,884	O	I-Task
+,	884,885	O	O
+which	886,891	O	O
+is	892,894	O	O
+independent	895,906	O	O
+of	907,909	O	O
+the	910,913	O	O
+applied	914,921	O	B-Process
+numerical	922,931	O	I-Process
+methodology	932,943	O	I-Process
+.	943,944	O	O
 
 
 -DOCSTART- (S0021999115003423)
 
-The	0	3	O
-remainder	4	13	O
-of	14	16	O
-our	17	20	O
-discussion	21	31	O
-proceeds	32	40	O
-as	41	43	O
-follows	44	51	O
-.	51	52	O
-
-In	53	55	O
-Section	56	63	O
-2	64	65	O
-we	66	68	O
-briefly	69	76	O
-describe	77	85	O
-the	86	89	O
-problem	90	97	B-Task
-of	98	100	I-Task
-cell	101	105	I-Task
-tracking	106	114	I-Task
-and	115	118	O
-introduce	119	128	B-Task
-our	129	132	I-Task
-approach	133	141	I-Task
-to	142	144	I-Task
-cell	145	149	I-Task
-tracking	150	158	I-Task
-,	158	159	O
-which	160	165	O
-may	166	169	O
-be	170	172	O
-regarded	173	181	O
-as	182	184	O
-fitting	185	192	O
-a	193	194	O
-mathematical	195	207	B-Process
-model	208	213	I-Process
-to	214	216	O
-experimental	217	229	B-Material
-image	230	235	I-Material
-data	236	240	I-Material
-sets	241	245	I-Material
-.	245	246	O
-
-We	247	249	O
-present	250	257	O
-the	258	261	O
-geometric	262	271	B-Process
-evolution	272	281	I-Process
-law	282	285	I-Process
-model	286	291	I-Process
-we	292	294	O
-seek	295	299	O
-to	300	302	O
-fit	303	306	O
-,	306	307	O
-which	308	313	O
-is	314	316	O
-a	317	318	O
-simplification	319	333	O
-of	334	336	O
-recently	337	345	O
-developed	346	355	O
-models	356	362	O
-in	363	365	O
-the	366	369	O
-literature	370	380	O
-that	381	385	O
-show	386	390	O
-good	391	395	O
-agreement	396	405	O
-with	406	410	O
-experiments	411	422	O
-[	423	424	O
-8,10–12,4,13,9	424	438	O
-]	438	439	O
-.	439	440	O
-
-We	441	443	O
-finish	444	450	O
-Section	451	458	O
-2	459	460	O
-by	461	463	O
-reformulating	464	477	O
-our	478	481	B-Process
-model	482	487	I-Process
-into	488	492	O
-the	493	496	O
-phase	497	502	B-Process
-field	503	508	I-Process
-framework	509	518	I-Process
-,	518	519	O
-which	520	525	O
-appears	526	533	O
-more	534	538	O
-suitable	539	547	O
-for	548	551	O
-the	552	555	O
-problem	556	563	O
-in	564	566	O
-hand	567	571	O
-,	571	572	O
-and	573	576	O
-we	577	579	O
-formulate	580	589	O
-the	590	593	O
-cell	594	598	B-Task
-tracking	599	607	I-Task
-problem	608	615	I-Task
-as	616	618	O
-a	619	620	O
-PDE	621	624	B-Task
-constrained	625	636	I-Task
-optimisation	637	649	I-Task
-problem	650	657	I-Task
-.	657	658	O
-
-In	659	661	O
-Section	662	669	O
-3	670	671	O
-we	672	674	O
-propose	675	682	O
-an	683	685	O
-algorithm	686	695	B-Process
-for	696	699	O
-the	700	703	O
-resolution	704	714	O
-of	715	717	O
-the	718	721	O
-PDE	722	725	B-Task
-constrained	726	737	I-Task
-optimisation	738	750	I-Task
-problem	751	758	I-Task
-and	759	762	O
-we	763	765	O
-discuss	766	773	O
-some	774	778	O
-practical	779	788	O
-aspects	789	796	O
-related	797	804	O
-to	805	807	O
-the	808	811	O
-implementation	812	826	O
-.	826	827	O
-
-In	828	830	O
-particular	831	841	O
-we	842	844	O
-note	845	849	O
-that	850	854	O
-the	855	858	O
-theoretical	859	870	B-Process
-and	871	874	I-Process
-computational	875	888	I-Process
-framework	889	898	I-Process
-may	899	902	O
-be	903	905	O
-applied	906	913	O
-directly	914	922	O
-to	923	925	O
-multi	926	931	B-Material
--	931	932	I-Material
-cell	932	936	I-Material
-image	937	942	I-Material
-data	943	947	I-Material
-sets	948	952	I-Material
-and	953	956	O
-raw	957	960	B-Material
-image	961	966	I-Material
-data	967	971	I-Material
-sets	972	976	I-Material
-(	977	978	O
-of	978	980	O
-sufficient	981	991	O
-quality	992	999	O
-)	999	1000	O
-without	1001	1008	O
-segmentation	1009	1021	B-Process
-.	1021	1022	O
-
-In	1023	1025	O
-Section	1026	1033	O
-4	1034	1035	O
-we	1036	1038	O
-present	1039	1046	O
-some	1047	1051	O
-numerical	1052	1061	O
-examples	1062	1070	O
-for	1071	1074	O
-the	1075	1078	O
-case	1079	1083	O
-of	1084	1086	O
-2d	1087	1089	O
-single	1090	1096	O
-and	1097	1100	O
-multi	1101	1106	O
--	1106	1107	O
-cell	1107	1111	O
-image	1112	1117	B-Material
-data	1118	1122	I-Material
-sets	1123	1127	I-Material
-.	1127	1128	O
-
-Finally	1129	1136	O
-in	1137	1139	O
-Section	1140	1147	O
-5	1148	1149	O
-we	1150	1152	O
-present	1153	1160	O
-some	1161	1165	O
-conclusions	1166	1177	O
-of	1178	1180	O
-our	1181	1184	O
-study	1185	1190	O
-and	1191	1194	O
-discuss	1195	1202	O
-future	1203	1209	O
-extensions	1210	1220	O
-and	1221	1224	O
-applications	1225	1237	O
-of	1238	1240	O
-the	1241	1244	O
-work	1245	1249	O
-.	1249	1250	O
+The	0,3	O	O
+remainder	4,13	O	O
+of	14,16	O	O
+our	17,20	O	O
+discussion	21,31	O	O
+proceeds	32,40	O	O
+as	41,43	O	O
+follows	44,51	O	O
+.	51,52	O	O
+
+In	53,55	O	O
+Section	56,63	O	O
+2	64,65	O	O
+we	66,68	O	O
+briefly	69,76	O	O
+describe	77,85	O	O
+the	86,89	O	O
+problem	90,97	O	B-Task
+of	98,100	O	I-Task
+cell	101,105	O	I-Task
+tracking	106,114	O	I-Task
+and	115,118	O	O
+introduce	119,128	O	B-Task
+our	129,132	O	I-Task
+approach	133,141	O	I-Task
+to	142,144	O	I-Task
+cell	145,149	O	I-Task
+tracking	150,158	O	I-Task
+,	158,159	O	O
+which	160,165	O	O
+may	166,169	O	O
+be	170,172	O	O
+regarded	173,181	O	O
+as	182,184	O	O
+fitting	185,192	O	O
+a	193,194	O	O
+mathematical	195,207	O	B-Process
+model	208,213	O	I-Process
+to	214,216	O	O
+experimental	217,229	O	B-Material
+image	230,235	O	I-Material
+data	236,240	O	I-Material
+sets	241,245	O	I-Material
+.	245,246	O	O
+
+We	247,249	O	O
+present	250,257	O	O
+the	258,261	O	O
+geometric	262,271	O	B-Process
+evolution	272,281	O	I-Process
+law	282,285	O	I-Process
+model	286,291	O	I-Process
+we	292,294	O	O
+seek	295,299	O	O
+to	300,302	O	O
+fit	303,306	O	O
+,	306,307	O	O
+which	308,313	O	O
+is	314,316	O	O
+a	317,318	O	O
+simplification	319,333	O	O
+of	334,336	O	O
+recently	337,345	O	O
+developed	346,355	O	O
+models	356,362	O	O
+in	363,365	O	O
+the	366,369	O	O
+literature	370,380	O	O
+that	381,385	O	O
+show	386,390	O	O
+good	391,395	O	O
+agreement	396,405	O	O
+with	406,410	O	O
+experiments	411,422	O	O
+[	423,424	O	O
+8,10–12,4,13,9	424,438	O	O
+]	438,439	O	O
+.	439,440	O	O
+
+We	441,443	O	O
+finish	444,450	O	O
+Section	451,458	O	O
+2	459,460	O	O
+by	461,463	O	O
+reformulating	464,477	O	O
+our	478,481	O	B-Process
+model	482,487	O	I-Process
+into	488,492	O	O
+the	493,496	O	O
+phase	497,502	O	B-Process
+field	503,508	O	I-Process
+framework	509,518	O	I-Process
+,	518,519	O	O
+which	520,525	O	O
+appears	526,533	O	O
+more	534,538	O	O
+suitable	539,547	O	O
+for	548,551	O	O
+the	552,555	O	O
+problem	556,563	O	O
+in	564,566	O	O
+hand	567,571	O	O
+,	571,572	O	O
+and	573,576	O	O
+we	577,579	O	O
+formulate	580,589	O	O
+the	590,593	O	O
+cell	594,598	O	B-Task
+tracking	599,607	O	I-Task
+problem	608,615	O	I-Task
+as	616,618	O	O
+a	619,620	O	O
+PDE	621,624	O	B-Task
+constrained	625,636	O	I-Task
+optimisation	637,649	O	I-Task
+problem	650,657	O	I-Task
+.	657,658	O	O
+
+In	659,661	O	O
+Section	662,669	O	O
+3	670,671	O	O
+we	672,674	O	O
+propose	675,682	O	O
+an	683,685	O	O
+algorithm	686,695	O	B-Process
+for	696,699	O	O
+the	700,703	O	O
+resolution	704,714	O	O
+of	715,717	O	O
+the	718,721	O	O
+PDE	722,725	O	B-Task
+constrained	726,737	O	I-Task
+optimisation	738,750	O	I-Task
+problem	751,758	O	I-Task
+and	759,762	O	O
+we	763,765	O	O
+discuss	766,773	O	O
+some	774,778	O	O
+practical	779,788	O	O
+aspects	789,796	O	O
+related	797,804	O	O
+to	805,807	O	O
+the	808,811	O	O
+implementation	812,826	O	O
+.	826,827	O	O
+
+In	828,830	O	O
+particular	831,841	O	O
+we	842,844	O	O
+note	845,849	O	O
+that	850,854	O	O
+the	855,858	O	O
+theoretical	859,870	O	B-Process
+and	871,874	O	I-Process
+computational	875,888	O	I-Process
+framework	889,898	O	I-Process
+may	899,902	O	O
+be	903,905	O	O
+applied	906,913	O	O
+directly	914,922	O	O
+to	923,925	O	O
+multi	926,931	O	B-Material
+-	931,932	O	I-Material
+cell	932,936	O	I-Material
+image	937,942	O	I-Material
+data	943,947	O	I-Material
+sets	948,952	O	I-Material
+and	953,956	O	O
+raw	957,960	O	B-Material
+image	961,966	O	I-Material
+data	967,971	O	I-Material
+sets	972,976	O	I-Material
+(	977,978	O	O
+of	978,980	O	O
+sufficient	981,991	O	O
+quality	992,999	O	O
+)	999,1000	O	O
+without	1001,1008	O	O
+segmentation	1009,1021	O	B-Process
+.	1021,1022	O	O
+
+In	1023,1025	O	O
+Section	1026,1033	O	O
+4	1034,1035	O	O
+we	1036,1038	O	O
+present	1039,1046	O	O
+some	1047,1051	O	O
+numerical	1052,1061	O	O
+examples	1062,1070	O	O
+for	1071,1074	O	O
+the	1075,1078	O	O
+case	1079,1083	O	O
+of	1084,1086	O	O
+2d	1087,1089	O	O
+single	1090,1096	O	O
+and	1097,1100	O	O
+multi	1101,1106	O	O
+-	1106,1107	O	O
+cell	1107,1111	O	O
+image	1112,1117	O	B-Material
+data	1118,1122	O	I-Material
+sets	1123,1127	O	I-Material
+.	1127,1128	O	O
+
+Finally	1129,1136	O	O
+in	1137,1139	O	O
+Section	1140,1147	O	O
+5	1148,1149	O	O
+we	1150,1152	O	O
+present	1153,1160	O	O
+some	1161,1165	O	O
+conclusions	1166,1177	O	O
+of	1178,1180	O	O
+our	1181,1184	O	O
+study	1185,1190	O	O
+and	1191,1194	O	O
+discuss	1195,1202	O	O
+future	1203,1209	O	O
+extensions	1210,1220	O	O
+and	1221,1224	O	O
+applications	1225,1237	O	O
+of	1238,1240	O	O
+the	1241,1244	O	O
+work	1245,1249	O	O
+.	1249,1250	O	O
 
 
 -DOCSTART- (S0021999115007895)
 
-The	0	3	B-Task
-dynamics	4	12	I-Task
-of	13	15	I-Task
-various	16	23	I-Task
-physical	24	32	I-Task
-phenomena	33	42	I-Task
-,	42	43	O
-such	44	48	O
-as	49	51	O
-the	52	55	O
-movement	56	64	B-Process
-of	65	67	I-Process
-pendulums	68	77	I-Process
-,	77	78	I-Process
-planets	79	86	I-Process
-,	86	87	I-Process
-or	88	90	I-Process
-water	91	96	I-Process
-waves	97	102	I-Process
-can	103	106	O
-be	107	109	O
-described	110	119	O
-in	120	122	O
-a	123	124	O
-variational	125	136	B-Process
-framework	137	146	I-Process
-.	146	147	O
-
-The	148	151	O
-development	152	163	O
-of	164	166	O
-variational	167	178	B-Process
-principles	179	189	I-Process
-for	190	193	O
-classical	194	203	O
-mechanics	204	213	O
-traces	214	220	O
-back	221	225	O
-to	226	228	O
-Euler	229	234	O
-,	234	235	O
-Lagrange	236	244	O
-,	244	245	O
-and	246	249	O
-Hamilton	250	258	O
-;	258	259	O
-an	260	262	O
-overview	263	271	O
-of	272	274	O
-this	275	279	O
-history	280	287	O
-can	288	291	O
-be	292	294	O
-found	295	300	O
-in	301	303	O
-[	304	305	O
-1,19	305	309	O
-]	309	310	O
-.	310	311	O
-
-This	312	316	O
-approach	317	325	B-Process
-allows	326	332	O
-to	333	335	O
-express	336	343	B-Task
-all	344	347	I-Task
-the	348	351	I-Task
-dynamics	352	360	I-Task
-of	361	363	I-Task
-a	364	365	I-Task
-system	366	372	I-Task
-in	373	375	O
-a	376	377	O
-single	378	384	B-Process
-functional	385	395	I-Process
-–	396	397	O
-the	398	401	O
-Lagrangian	402	412	B-Process
-–	413	414	O
-which	415	420	O
-is	421	423	O
-an	424	426	O
-action	427	433	B-Process
-integral	434	442	I-Process
-.	442	443	O
-
-Hamiltonian	444	455	B-Process
-mechanics	456	465	I-Process
-is	466	468	O
-a	469	470	O
-reformulation	471	484	B-Process
-of	485	487	I-Process
-Lagrangian	488	498	I-Process
-mechanics	499	508	I-Process
-which	509	514	O
-provides	515	523	O
-a	524	525	O
-convenient	526	536	O
-framework	537	546	B-Material
-to	547	549	O
-study	550	555	B-Task
-the	556	559	I-Task
-symmetry	560	568	I-Task
-properties	569	579	I-Task
-of	580	582	I-Task
-a	583	584	I-Task
-system	585	591	I-Task
-.	591	592	O
-
-This	593	597	O
-is	598	600	O
-expressed	601	610	O
-by	611	613	O
-Noether	614	621	O
-'s	621	623	O
-theorem	624	631	O
-which	632	637	O
-establishes	638	649	O
-the	650	653	O
-direct	654	660	O
-connection	661	671	O
-between	672	679	O
-the	680	683	O
-symmetry	684	692	O
-properties	693	703	O
-of	704	706	O
-Hamiltonian	707	718	B-Process
-systems	719	726	I-Process
-and	727	730	O
-conservation	731	743	O
-laws	744	748	O
-.	748	749	O
-
-When	750	754	O
-one	755	758	O
-approximates	759	771	O
-the	772	775	O
-system	776	782	B-Process
-numerically	783	794	O
-,	794	795	O
-it	796	798	O
-is	799	801	O
-advantageous	802	814	O
-to	815	817	O
-preserve	818	826	O
-the	827	830	O
-Hamiltonian	831	842	O
-structure	843	852	O
-also	853	857	O
-at	858	860	O
-the	861	864	O
-discrete	865	873	O
-level	874	879	O
-.	879	880	O
-
-Given	881	886	O
-that	887	891	O
-Hamiltonian	892	903	B-Process
-systems	904	911	I-Process
-are	912	915	O
-abundant	916	924	O
-in	925	927	O
-nature	928	934	O
-,	934	935	O
-their	936	941	O
-numerical	942	951	B-Task
-approximation	952	965	I-Task
-is	966	968	O
-therefore	969	978	O
-a	979	980	O
-topic	981	986	O
-of	987	989	O
-significant	990	1001	O
-relevance	1002	1011	O
-.	1011	1012	O
+The	0,3	O	B-Task
+dynamics	4,12	O	I-Task
+of	13,15	O	I-Task
+various	16,23	O	I-Task
+physical	24,32	O	I-Task
+phenomena	33,42	O	I-Task
+,	42,43	O	O
+such	44,48	O	O
+as	49,51	O	O
+the	52,55	O	O
+movement	56,64	O	B-Process
+of	65,67	O	I-Process
+pendulums	68,77	O	I-Process
+,	77,78	O	I-Process
+planets	79,86	O	I-Process
+,	86,87	O	I-Process
+or	88,90	O	I-Process
+water	91,96	O	I-Process
+waves	97,102	O	I-Process
+can	103,106	O	O
+be	107,109	O	O
+described	110,119	O	O
+in	120,122	O	O
+a	123,124	O	O
+variational	125,136	O	B-Process
+framework	137,146	O	I-Process
+.	146,147	O	O
+
+The	148,151	O	O
+development	152,163	O	O
+of	164,166	O	O
+variational	167,178	O	B-Process
+principles	179,189	O	I-Process
+for	190,193	O	O
+classical	194,203	O	O
+mechanics	204,213	O	O
+traces	214,220	O	O
+back	221,225	O	O
+to	226,228	O	O
+Euler	229,234	O	O
+,	234,235	O	O
+Lagrange	236,244	O	O
+,	244,245	O	O
+and	246,249	O	O
+Hamilton	250,258	O	O
+;	258,259	O	O
+an	260,262	O	O
+overview	263,271	O	O
+of	272,274	O	O
+this	275,279	O	O
+history	280,287	O	O
+can	288,291	O	O
+be	292,294	O	O
+found	295,300	O	O
+in	301,303	O	O
+[	304,305	O	O
+1,19	305,309	O	O
+]	309,310	O	O
+.	310,311	O	O
+
+This	312,316	O	O
+approach	317,325	O	B-Process
+allows	326,332	O	O
+to	333,335	O	O
+express	336,343	O	B-Task
+all	344,347	O	I-Task
+the	348,351	O	I-Task
+dynamics	352,360	O	I-Task
+of	361,363	O	I-Task
+a	364,365	O	I-Task
+system	366,372	O	I-Task
+in	373,375	O	O
+a	376,377	O	O
+single	378,384	O	B-Process
+functional	385,395	O	I-Process
+–	396,397	O	O
+the	398,401	O	O
+Lagrangian	402,412	O	B-Process
+–	413,414	O	O
+which	415,420	O	O
+is	421,423	O	O
+an	424,426	O	O
+action	427,433	O	B-Process
+integral	434,442	O	I-Process
+.	442,443	O	O
+
+Hamiltonian	444,455	O	B-Process
+mechanics	456,465	O	I-Process
+is	466,468	O	O
+a	469,470	O	O
+reformulation	471,484	O	B-Process
+of	485,487	O	I-Process
+Lagrangian	488,498	O	I-Process
+mechanics	499,508	O	I-Process
+which	509,514	O	O
+provides	515,523	O	O
+a	524,525	O	O
+convenient	526,536	O	O
+framework	537,546	O	B-Material
+to	547,549	O	O
+study	550,555	O	B-Task
+the	556,559	O	I-Task
+symmetry	560,568	O	I-Task
+properties	569,579	O	I-Task
+of	580,582	O	I-Task
+a	583,584	O	I-Task
+system	585,591	O	I-Task
+.	591,592	O	O
+
+This	593,597	O	O
+is	598,600	O	O
+expressed	601,610	O	O
+by	611,613	O	O
+Noether	614,621	O	O
+'s	621,623	O	O
+theorem	624,631	O	O
+which	632,637	O	O
+establishes	638,649	O	O
+the	650,653	O	O
+direct	654,660	O	O
+connection	661,671	O	O
+between	672,679	O	O
+the	680,683	O	O
+symmetry	684,692	O	O
+properties	693,703	O	O
+of	704,706	O	O
+Hamiltonian	707,718	O	B-Process
+systems	719,726	O	I-Process
+and	727,730	O	O
+conservation	731,743	O	O
+laws	744,748	O	O
+.	748,749	O	O
+
+When	750,754	O	O
+one	755,758	O	O
+approximates	759,771	O	O
+the	772,775	O	O
+system	776,782	O	B-Process
+numerically	783,794	O	O
+,	794,795	O	O
+it	796,798	O	O
+is	799,801	O	O
+advantageous	802,814	O	O
+to	815,817	O	O
+preserve	818,826	O	O
+the	827,830	O	O
+Hamiltonian	831,842	O	O
+structure	843,852	O	O
+also	853,857	O	O
+at	858,860	O	O
+the	861,864	O	O
+discrete	865,873	O	O
+level	874,879	O	O
+.	879,880	O	O
+
+Given	881,886	O	O
+that	887,891	O	O
+Hamiltonian	892,903	O	B-Process
+systems	904,911	O	I-Process
+are	912,915	O	O
+abundant	916,924	O	O
+in	925,927	O	O
+nature	928,934	O	O
+,	934,935	O	O
+their	936,941	O	O
+numerical	942,951	O	B-Task
+approximation	952,965	O	I-Task
+is	966,968	O	O
+therefore	969,978	O	O
+a	979,980	O	O
+topic	981,986	O	O
+of	987,989	O	O
+significant	990,1001	O	O
+relevance	1002,1011	O	O
+.	1011,1012	O	O
 
 
 -DOCSTART- (S0021999115008153)
 
-As	0	2	O
-discussed	3	12	O
-above	13	18	O
-,	18	19	O
-proper	20	26	B-Task
-inclusion	27	36	I-Task
-of	37	39	I-Task
-these	40	45	I-Task
-interactions	46	58	I-Task
-requires	59	67	O
-segment	68	75	B-Process
-synchronization	76	91	I-Process
-after	92	97	I-Process
-every	98	103	I-Process
-iteration	104	113	I-Process
-.	113	114	O
-
-In	115	117	O
-order	118	123	O
-to	124	126	O
-minimize	127	135	B-Task
-simulation	136	146	I-Task
-errors	147	153	I-Task
-due	154	157	O
-to	158	160	O
-incorrect	161	170	O
-values	171	177	O
-of	178	180	O
-the	181	184	O
-interactions	185	197	O
-potential	198	207	O
-,	207	208	O
-segments	209	217	B-Process
-are	218	221	I-Process
-synchronized	222	234	I-Process
-after	235	240	I-Process
-every	241	246	I-Process
-iteration	247	256	I-Process
-.	256	257	O
-
-Although	258	266	O
-relatively	267	277	O
-long	278	282	O
-communication	283	296	O
-times	297	302	O
-between	303	310	O
-remote	311	317	O
-processors	318	328	B-Material
-may	329	332	O
-hinder	333	339	O
-this	340	344	O
-process	345	352	O
-in	353	355	O
-typical	356	363	O
-parallel	364	372	B-Material
-computers	373	382	I-Material
-,	382	383	O
-this	384	388	O
-is	389	391	O
-not	392	395	O
-the	396	399	O
-case	400	404	O
-for	405	408	O
-GPGPU	409	414	B-Material
-architectures	415	428	I-Material
-.	428	429	O
-
-Still	430	435	O
-,	435	436	O
-full	437	441	O
-recalculation	442	455	B-Process
-of	456	458	I-Process
-the	459	462	I-Process
-interaction	463	474	I-Process
-potential	475	484	I-Process
-after	485	490	O
-each	491	495	O
-iteration	496	505	O
-is	506	508	O
-time	509	513	O
-consuming	514	523	O
-.	523	524	O
-
-Instead	525	532	O
-,	532	533	O
-the	534	537	O
-algorithm	538	547	B-Process
-corrects	548	556	B-Process
-the	557	560	I-Process
-current	561	568	I-Process
-potential	569	578	I-Process
-by	579	581	O
-adding	582	588	B-Process
-dipole	589	595	I-Process
-contributions	596	609	I-Process
-for	610	613	O
-every	614	619	O
-nearby	620	626	O
-charge	627	633	O
-that	634	638	O
-hopped	639	645	O
-during	646	652	O
-the	653	656	O
-previous	657	665	O
-iteration	666	675	O
-.	675	676	O
-
-Full	677	681	O
-updates	682	689	O
-of	690	692	O
-the	693	696	O
-interaction	697	708	B-Process
-potential	709	718	I-Process
-are	719	722	O
-only	723	727	O
-required	728	736	O
-for	737	740	O
-the	741	744	O
-grid	745	749	O
-points	750	756	O
-that	757	761	O
-are	762	765	O
-related	766	773	O
-to	774	776	O
-charges	777	784	O
-that	785	789	O
-hopped	790	796	O
-during	797	803	O
-the	804	807	O
-last	808	812	O
-iteration	813	822	O
-.	822	823	O
-
-Accumulative	824	836	O
-rounding	837	845	O
-errors	846	852	O
-that	853	857	O
-arise	858	863	O
-due	864	867	O
-to	868	870	O
-repetitive	871	881	O
-addition	882	890	O
-and	891	894	O
-subtraction	895	906	O
-are	907	910	O
-solve	911	916	O
-this	917	921	O
-by	922	924	O
-rounding	925	933	O
-all	934	937	O
-interaction	938	949	O
-potentials	950	960	O
-to	961	963	O
-a	964	965	O
-uniformly	966	975	O
-spaced	976	982	O
-range	983	988	O
-of	989	991	O
-floating	992	1000	O
-point	1001	1006	O
-numbers	1007	1014	O
-.	1014	1015	O
+As	0,2	O	O
+discussed	3,12	O	O
+above	13,18	O	O
+,	18,19	O	O
+proper	20,26	O	B-Task
+inclusion	27,36	O	I-Task
+of	37,39	O	I-Task
+these	40,45	O	I-Task
+interactions	46,58	O	I-Task
+requires	59,67	O	O
+segment	68,75	O	B-Process
+synchronization	76,91	O	I-Process
+after	92,97	O	I-Process
+every	98,103	O	I-Process
+iteration	104,113	O	I-Process
+.	113,114	O	O
+
+In	115,117	O	O
+order	118,123	O	O
+to	124,126	O	O
+minimize	127,135	O	B-Task
+simulation	136,146	O	I-Task
+errors	147,153	O	I-Task
+due	154,157	O	O
+to	158,160	O	O
+incorrect	161,170	O	O
+values	171,177	O	O
+of	178,180	O	O
+the	181,184	O	O
+interactions	185,197	O	O
+potential	198,207	O	O
+,	207,208	O	O
+segments	209,217	O	B-Process
+are	218,221	O	I-Process
+synchronized	222,234	O	I-Process
+after	235,240	O	I-Process
+every	241,246	O	I-Process
+iteration	247,256	O	I-Process
+.	256,257	O	O
+
+Although	258,266	O	O
+relatively	267,277	O	O
+long	278,282	O	O
+communication	283,296	O	O
+times	297,302	O	O
+between	303,310	O	O
+remote	311,317	O	O
+processors	318,328	O	B-Material
+may	329,332	O	O
+hinder	333,339	O	O
+this	340,344	O	O
+process	345,352	O	O
+in	353,355	O	O
+typical	356,363	O	O
+parallel	364,372	O	B-Material
+computers	373,382	O	I-Material
+,	382,383	O	O
+this	384,388	O	O
+is	389,391	O	O
+not	392,395	O	O
+the	396,399	O	O
+case	400,404	O	O
+for	405,408	O	O
+GPGPU	409,414	O	B-Material
+architectures	415,428	O	I-Material
+.	428,429	O	O
+
+Still	430,435	O	O
+,	435,436	O	O
+full	437,441	O	O
+recalculation	442,455	O	B-Process
+of	456,458	O	I-Process
+the	459,462	O	I-Process
+interaction	463,474	O	I-Process
+potential	475,484	O	I-Process
+after	485,490	O	O
+each	491,495	O	O
+iteration	496,505	O	O
+is	506,508	O	O
+time	509,513	O	O
+consuming	514,523	O	O
+.	523,524	O	O
+
+Instead	525,532	O	O
+,	532,533	O	O
+the	534,537	O	O
+algorithm	538,547	O	B-Process
+corrects	548,556	O	B-Process
+the	557,560	O	I-Process
+current	561,568	O	I-Process
+potential	569,578	O	I-Process
+by	579,581	O	O
+adding	582,588	O	B-Process
+dipole	589,595	O	I-Process
+contributions	596,609	O	I-Process
+for	610,613	O	O
+every	614,619	O	O
+nearby	620,626	O	O
+charge	627,633	O	O
+that	634,638	O	O
+hopped	639,645	O	O
+during	646,652	O	O
+the	653,656	O	O
+previous	657,665	O	O
+iteration	666,675	O	O
+.	675,676	O	O
+
+Full	677,681	O	O
+updates	682,689	O	O
+of	690,692	O	O
+the	693,696	O	O
+interaction	697,708	O	B-Process
+potential	709,718	O	I-Process
+are	719,722	O	O
+only	723,727	O	O
+required	728,736	O	O
+for	737,740	O	O
+the	741,744	O	O
+grid	745,749	O	O
+points	750,756	O	O
+that	757,761	O	O
+are	762,765	O	O
+related	766,773	O	O
+to	774,776	O	O
+charges	777,784	O	O
+that	785,789	O	O
+hopped	790,796	O	O
+during	797,803	O	O
+the	804,807	O	O
+last	808,812	O	O
+iteration	813,822	O	O
+.	822,823	O	O
+
+Accumulative	824,836	O	O
+rounding	837,845	O	O
+errors	846,852	O	O
+that	853,857	O	O
+arise	858,863	O	O
+due	864,867	O	O
+to	868,870	O	O
+repetitive	871,881	O	O
+addition	882,890	O	O
+and	891,894	O	O
+subtraction	895,906	O	O
+are	907,910	O	O
+solve	911,916	O	O
+this	917,921	O	O
+by	922,924	O	O
+rounding	925,933	O	O
+all	934,937	O	O
+interaction	938,949	O	O
+potentials	950,960	O	O
+to	961,963	O	O
+a	964,965	O	O
+uniformly	966,975	O	O
+spaced	976,982	O	O
+range	983,988	O	O
+of	989,991	O	O
+floating	992,1000	O	O
+point	1001,1006	O	O
+numbers	1007,1014	O	O
+.	1014,1015	O	O
 
 
 -DOCSTART- (S0021999115008372)
 
-The	0	3	O
-need	4	8	O
-to	9	11	O
-represent	12	21	B-Task
-scale	22	27	I-Task
-interactions	28	40	I-Task
-in	41	43	O
-weather	44	51	B-Process
-and	52	55	I-Process
-climate	56	63	I-Process
-prediction	64	74	I-Process
-models	75	81	I-Process
-has	82	85	O
-,	85	86	O
-for	87	90	O
-many	91	95	O
-decades	96	103	O
-,	103	104	O
-motivated	105	114	O
-research	115	123	O
-into	124	128	O
-the	129	132	O
-use	133	136	O
-of	137	139	O
-adaptive	140	148	B-Material
-meshes	149	155	I-Material
-[	156	157	O
-3,34,38	157	164	O
-]	164	165	O
-.	165	166	O
-
-R	167	168	B-Process
--	168	169	I-Process
-adaptivity	169	179	I-Process
-–	180	181	O
-mesh	182	186	B-Process
-redistribution	187	201	I-Process
-–	202	203	O
-involves	204	212	O
-deforming	213	222	B-Process
-a	223	224	I-Process
-mesh	225	229	I-Process
-in	230	232	O
-order	233	238	O
-to	239	241	O
-vary	242	246	O
-local	247	252	O
-resolution	253	263	O
-and	264	267	O
-was	268	271	O
-first	272	277	O
-considered	278	288	O
-for	289	292	O
-atmospheric	293	304	B-Process
-modelling	305	314	I-Process
-more	315	319	O
-than	320	324	O
-twenty	325	331	O
-years	332	337	O
-ago	338	341	O
-by	342	344	O
-Dietachmayer	345	357	O
-and	358	361	O
-Droegemeier	362	373	O
-
-[	374	375	O
-14	375	377	O
-]	377	378	O
-.	378	379	O
-
-It	380	382	O
-is	383	385	O
-an	386	388	O
-attractive	389	399	O
-form	400	404	O
-of	405	407	O
-adaptivity	408	418	B-Process
-since	419	424	O
-it	425	427	O
-does	428	432	O
-not	433	436	O
-involve	437	444	O
-altering	445	453	B-Process
-the	454	457	I-Process
-mesh	458	462	I-Process
-connectivity	463	475	I-Process
-,	475	476	O
-does	477	481	O
-not	482	485	O
-create	486	492	O
-load	493	497	O
-balancing	498	507	O
-problems	508	516	O
-because	517	524	O
-points	525	531	O
-are	532	535	O
-never	536	541	O
-created	542	549	O
-or	550	552	O
-destroyed	553	562	O
-,	562	563	O
-does	564	568	O
-not	569	572	O
-require	573	580	O
-mapping	581	588	B-Process
-of	589	591	I-Process
-solutions	592	601	I-Process
-between	602	609	I-Process
-meshes	610	616	I-Process
-[	617	618	O
-26	618	620	O
-]	620	621	O
-,	621	622	O
-does	623	627	O
-not	628	631	O
-lead	632	636	O
-to	637	639	O
-sudden	640	646	O
-changes	647	654	O
-in	655	657	O
-resolution	658	668	O
-and	669	672	O
-can	673	676	O
-be	677	679	O
-retro	680	685	O
--	685	686	O
-fitted	686	692	O
-into	693	697	O
-existing	698	706	O
-models	707	713	O
-.	713	714	O
-
-Variational	715	726	B-Process
-methods	727	734	I-Process
-exist	735	740	O
-which	741	746	O
-attempt	747	754	O
-to	755	757	O
-control	758	765	B-Task
-resolution	766	776	I-Task
-in	777	779	I-Task
-different	780	789	I-Task
-directions	790	800	I-Task
-for	801	804	I-Task
-r	805	806	I-Task
--	806	807	I-Task
-adaptive	807	815	I-Task
-meshes	816	822	I-Task
-(	823	824	O
-e.g.	824	828	O
-[	829	830	O
-23,25	830	835	O
-]	835	836	O
-)	836	837	O
-.	837	838	O
-
-Alternatively	839	852	O
-,	852	853	O
-the	854	857	O
-solution	858	866	O
-of	867	869	O
-the	870	873	O
-Monge	874	879	B-Process
-–	879	880	I-Process
-Ampère	880	886	I-Process
-equation	887	895	I-Process
-to	896	898	O
-generate	899	907	O
-an	908	910	O
-optimally	911	920	B-Material
-transported	921	932	I-Material
-(	933	934	I-Material
-OT	934	936	I-Material
-)	936	937	I-Material
-mesh	938	942	I-Material
-based	943	948	O
-on	949	951	O
-a	952	953	O
-scalar	954	960	B-Process
-valued	961	967	I-Process
-monitor	968	975	I-Process
-function	976	984	I-Process
-is	985	987	O
-a	988	989	O
-useful	990	996	O
-form	997	1001	O
-of	1002	1004	O
-r	1005	1006	B-Process
--	1006	1007	I-Process
-adaptive	1007	1015	I-Process
-mesh	1016	1020	I-Process
-generation	1021	1031	I-Process
-because	1032	1039	O
-it	1040	1042	O
-generates	1043	1052	O
-a	1053	1054	O
-mesh	1055	1059	B-Material
-equidistributed	1060	1075	O
-with	1076	1080	O
-respect	1081	1088	O
-to	1089	1091	O
-a	1092	1093	O
-monitor	1094	1101	B-Process
-function	1102	1110	I-Process
-and	1111	1114	O
-does	1115	1119	O
-not	1120	1123	O
-lead	1124	1128	O
-to	1129	1131	O
-mesh	1132	1136	B-Process
-tangling	1137	1145	I-Process
-[	1146	1147	O
-7	1147	1148	O
-]	1148	1149	O
-.	1149	1150	O
-
-We	1151	1153	O
-will	1154	1158	O
-see	1159	1162	O
-that	1163	1167	O
-the	1168	1171	O
-optimal	1172	1179	B-Task
-transport	1180	1189	I-Task
-problem	1190	1197	I-Task
-on	1198	1200	I-Task
-the	1201	1204	I-Task
-sphere	1205	1211	I-Task
-leads	1212	1217	O
-to	1218	1220	O
-a	1221	1222	O
-slightly	1223	1231	O
-different	1232	1241	O
-equation	1242	1250	O
-of	1251	1253	O
-Monge	1254	1259	B-Process
-–	1259	1260	I-Process
-Ampère	1260	1266	I-Process
-type	1267	1271	O
-,	1271	1272	O
-which	1273	1278	O
-has	1279	1282	O
-not	1283	1286	O
-before	1287	1293	O
-been	1294	1298	O
-solved	1299	1305	O
-numerically	1306	1317	O
-on	1318	1320	O
-the	1321	1324	O
-surface	1325	1332	O
-of	1333	1335	O
-a	1336	1337	O
-sphere	1338	1344	B-Material
-,	1344	1345	O
-which	1346	1351	O
-would	1352	1357	O
-be	1358	1360	O
-necessary	1361	1370	O
-for	1371	1374	O
-weather	1375	1382	B-Task
-and	1383	1386	I-Task
-climate	1387	1394	I-Task
-prediction	1395	1405	I-Task
-using	1406	1411	O
-r	1412	1413	B-Process
--	1413	1414	I-Process
-adaptivity	1414	1424	I-Process
-.	1424	1425	O
+The	0,3	O	O
+need	4,8	O	O
+to	9,11	O	O
+represent	12,21	O	B-Task
+scale	22,27	O	I-Task
+interactions	28,40	O	I-Task
+in	41,43	O	O
+weather	44,51	O	B-Process
+and	52,55	O	I-Process
+climate	56,63	O	I-Process
+prediction	64,74	O	I-Process
+models	75,81	O	I-Process
+has	82,85	O	O
+,	85,86	O	O
+for	87,90	O	O
+many	91,95	O	O
+decades	96,103	O	O
+,	103,104	O	O
+motivated	105,114	O	O
+research	115,123	O	O
+into	124,128	O	O
+the	129,132	O	O
+use	133,136	O	O
+of	137,139	O	O
+adaptive	140,148	O	B-Material
+meshes	149,155	O	I-Material
+[	156,157	O	O
+3,34,38	157,164	O	O
+]	164,165	O	O
+.	165,166	O	O
+
+R	167,168	O	B-Process
+-	168,169	O	I-Process
+adaptivity	169,179	O	I-Process
+–	180,181	O	O
+mesh	182,186	O	B-Process
+redistribution	187,201	O	I-Process
+–	202,203	O	O
+involves	204,212	O	O
+deforming	213,222	O	B-Process
+a	223,224	O	I-Process
+mesh	225,229	O	I-Process
+in	230,232	O	O
+order	233,238	O	O
+to	239,241	O	O
+vary	242,246	O	O
+local	247,252	O	O
+resolution	253,263	O	O
+and	264,267	O	O
+was	268,271	O	O
+first	272,277	O	O
+considered	278,288	O	O
+for	289,292	O	O
+atmospheric	293,304	O	B-Process
+modelling	305,314	O	I-Process
+more	315,319	O	O
+than	320,324	O	O
+twenty	325,331	O	O
+years	332,337	O	O
+ago	338,341	O	O
+by	342,344	O	O
+Dietachmayer	345,357	O	O
+and	358,361	O	O
+Droegemeier	362,373	O	O
+
+[	374,375	O	O
+14	375,377	O	O
+]	377,378	O	O
+.	378,379	O	O
+
+It	380,382	O	O
+is	383,385	O	O
+an	386,388	O	O
+attractive	389,399	O	O
+form	400,404	O	O
+of	405,407	O	O
+adaptivity	408,418	O	B-Process
+since	419,424	O	O
+it	425,427	O	O
+does	428,432	O	O
+not	433,436	O	O
+involve	437,444	O	O
+altering	445,453	O	B-Process
+the	454,457	O	I-Process
+mesh	458,462	O	I-Process
+connectivity	463,475	O	I-Process
+,	475,476	O	O
+does	477,481	O	O
+not	482,485	O	O
+create	486,492	O	O
+load	493,497	O	O
+balancing	498,507	O	O
+problems	508,516	O	O
+because	517,524	O	O
+points	525,531	O	O
+are	532,535	O	O
+never	536,541	O	O
+created	542,549	O	O
+or	550,552	O	O
+destroyed	553,562	O	O
+,	562,563	O	O
+does	564,568	O	O
+not	569,572	O	O
+require	573,580	O	O
+mapping	581,588	O	B-Process
+of	589,591	O	I-Process
+solutions	592,601	O	I-Process
+between	602,609	O	I-Process
+meshes	610,616	O	I-Process
+[	617,618	O	O
+26	618,620	O	O
+]	620,621	O	O
+,	621,622	O	O
+does	623,627	O	O
+not	628,631	O	O
+lead	632,636	O	O
+to	637,639	O	O
+sudden	640,646	O	O
+changes	647,654	O	O
+in	655,657	O	O
+resolution	658,668	O	O
+and	669,672	O	O
+can	673,676	O	O
+be	677,679	O	O
+retro	680,685	O	O
+-	685,686	O	O
+fitted	686,692	O	O
+into	693,697	O	O
+existing	698,706	O	O
+models	707,713	O	O
+.	713,714	O	O
+
+Variational	715,726	O	B-Process
+methods	727,734	O	I-Process
+exist	735,740	O	O
+which	741,746	O	O
+attempt	747,754	O	O
+to	755,757	O	O
+control	758,765	O	B-Task
+resolution	766,776	O	I-Task
+in	777,779	O	I-Task
+different	780,789	O	I-Task
+directions	790,800	O	I-Task
+for	801,804	O	I-Task
+r	805,806	O	I-Task
+-	806,807	O	I-Task
+adaptive	807,815	O	I-Task
+meshes	816,822	O	I-Task
+(	823,824	O	O
+e.g.	824,828	O	O
+[	829,830	O	O
+23,25	830,835	O	O
+]	835,836	O	O
+)	836,837	O	O
+.	837,838	O	O
+
+Alternatively	839,852	O	O
+,	852,853	O	O
+the	854,857	O	O
+solution	858,866	O	O
+of	867,869	O	O
+the	870,873	O	O
+Monge	874,879	O	B-Process
+–	879,880	O	I-Process
+Ampère	880,886	O	I-Process
+equation	887,895	O	I-Process
+to	896,898	O	O
+generate	899,907	O	O
+an	908,910	O	O
+optimally	911,920	O	B-Material
+transported	921,932	O	I-Material
+(	933,934	O	I-Material
+OT	934,936	O	I-Material
+)	936,937	O	I-Material
+mesh	938,942	O	I-Material
+based	943,948	O	O
+on	949,951	O	O
+a	952,953	O	O
+scalar	954,960	O	B-Process
+valued	961,967	O	I-Process
+monitor	968,975	O	I-Process
+function	976,984	O	I-Process
+is	985,987	O	O
+a	988,989	O	O
+useful	990,996	O	O
+form	997,1001	O	O
+of	1002,1004	O	O
+r	1005,1006	O	B-Process
+-	1006,1007	O	I-Process
+adaptive	1007,1015	O	I-Process
+mesh	1016,1020	O	I-Process
+generation	1021,1031	O	I-Process
+because	1032,1039	O	O
+it	1040,1042	O	O
+generates	1043,1052	O	O
+a	1053,1054	O	O
+mesh	1055,1059	O	B-Material
+equidistributed	1060,1075	O	O
+with	1076,1080	O	O
+respect	1081,1088	O	O
+to	1089,1091	O	O
+a	1092,1093	O	O
+monitor	1094,1101	O	B-Process
+function	1102,1110	O	I-Process
+and	1111,1114	O	O
+does	1115,1119	O	O
+not	1120,1123	O	O
+lead	1124,1128	O	O
+to	1129,1131	O	O
+mesh	1132,1136	O	B-Process
+tangling	1137,1145	O	I-Process
+[	1146,1147	O	O
+7	1147,1148	O	O
+]	1148,1149	O	O
+.	1149,1150	O	O
+
+We	1151,1153	O	O
+will	1154,1158	O	O
+see	1159,1162	O	O
+that	1163,1167	O	O
+the	1168,1171	O	O
+optimal	1172,1179	O	B-Task
+transport	1180,1189	O	I-Task
+problem	1190,1197	O	I-Task
+on	1198,1200	O	I-Task
+the	1201,1204	O	I-Task
+sphere	1205,1211	O	I-Task
+leads	1212,1217	O	O
+to	1218,1220	O	O
+a	1221,1222	O	O
+slightly	1223,1231	O	O
+different	1232,1241	O	O
+equation	1242,1250	O	O
+of	1251,1253	O	O
+Monge	1254,1259	O	B-Process
+–	1259,1260	O	I-Process
+Ampère	1260,1266	O	I-Process
+type	1267,1271	O	O
+,	1271,1272	O	O
+which	1273,1278	O	O
+has	1279,1282	O	O
+not	1283,1286	O	O
+before	1287,1293	O	O
+been	1294,1298	O	O
+solved	1299,1305	O	O
+numerically	1306,1317	O	O
+on	1318,1320	O	O
+the	1321,1324	O	O
+surface	1325,1332	O	O
+of	1333,1335	O	O
+a	1336,1337	O	O
+sphere	1338,1344	O	B-Material
+,	1344,1345	O	O
+which	1346,1351	O	O
+would	1352,1357	O	O
+be	1358,1360	O	O
+necessary	1361,1370	O	O
+for	1371,1374	O	O
+weather	1375,1382	O	B-Task
+and	1383,1386	O	I-Task
+climate	1387,1394	O	I-Task
+prediction	1395,1405	O	I-Task
+using	1406,1411	O	O
+r	1412,1413	O	B-Process
+-	1413,1414	O	I-Process
+adaptivity	1414,1424	O	I-Process
+.	1424,1425	O	O
 
 
 -DOCSTART- (S0022311513010313)
 
-The	0	3	O
-four	4	8	O
-bounding	9	17	B-Material
-PCM	18	21	I-Material
-wastes	22	28	I-Material
-,	28	29	O
-given	30	35	O
-in	36	38	O
-Table	39	44	O
-1	45	46	O
-,	46	47	O
-were	48	52	O
-simulated	53	62	O
-using	63	68	O
-the	69	72	O
-most	73	77	O
-appropriate	78	89	O
-materials	90	99	O
-and	100	103	O
-geometries	104	114	O
-.	114	115	O
-
-“	116	117	B-Material
-Mock	117	121	I-Material
-up	122	124	I-Material
-”	124	125	I-Material
-PCM	126	129	I-Material
-drums	130	135	I-Material
-were	136	140	O
-assembled	141	150	O
-using	151	156	O
-the	157	160	O
-following	161	170	O
-components	171	181	O
-:	181	182	O
-PCM	183	186	B-Material
-drums	187	192	I-Material
-were	193	197	O
-simulated	198	207	O
-using	208	213	O
-mild	214	218	B-Material
-steel	219	224	I-Material
-paint	225	230	I-Material
-cans	231	235	I-Material
-and	236	239	I-Material
-lids	240	244	I-Material
-(	245	246	O
-Fenton	246	252	O
-Packaging	253	262	O
-Ltd.	263	267	O
-)	267	268	O
-;	268	269	O
-PVC	270	273	B-Material
-bags	274	278	I-Material
-were	279	283	O
-replicated	284	294	O
-using	295	300	O
-identical	301	310	B-Material
-PVC	311	314	I-Material
-sheeting	315	323	I-Material
-(	324	325	O
-Romar	325	330	O
-Workwear	331	339	O
-Ltd.	340	344	O
-)	344	345	O
-;	345	346	O
-the	347	350	O
-metallic	351	359	B-Material
-waste	360	365	I-Material
-was	366	369	O
-simulated	370	379	O
-using	380	385	O
-commercial	386	396	B-Material
-grade	397	402	I-Material
-18/8	403	407	I-Material
-stainless	408	417	I-Material
-steel	418	423	I-Material
-,	423	424	O
-aluminium	425	434	B-Material
-and	435	438	O
-copper	439	445	B-Material
-(	446	447	O
-Avus	447	451	O
-Metals	452	458	O
-&	459	460	O
-Plastics	461	469	O
-Ltd.	470	474	O
-)	474	475	O
-,	475	476	O
-and	477	480	O
-lead	481	485	B-Material
-shot	486	490	I-Material
-(	491	492	O
-Aldrich	492	499	O
-)	499	500	O
-;	500	501	O
-the	502	505	O
-inorganic	506	515	B-Material
-waste	516	521	I-Material
-was	522	525	O
-simulated	526	535	O
-using	536	541	O
-waste	542	547	B-Material
-Pyrex	548	553	I-Material
-labware	554	561	I-Material
-,	561	562	O
-crushed	563	570	O
-masonry	571	578	B-Material
-,	578	579	O
-concrete	580	588	B-Material
-and	589	592	O
-window	593	599	B-Material
-glass	600	605	I-Material
-;	605	606	O
-CeO2	607	611	B-Material
-(	612	613	O
-from	613	617	O
-Acros	618	623	O
-Organics	624	632	O
-,	632	633	O
->	634	635	O
-99.9	635	639	O
-%	639	640	O
-;	640	641	O
-dried	642	647	O
-15h	648	651	O
-at	652	654	O
-600	655	658	O
-°	658	659	O
-C	659	660	O
-)	660	661	O
-was	662	665	O
-used	666	670	O
-as	671	673	O
-a	674	675	O
-PuO2	676	680	B-Material
-surrogate	681	690	I-Material
-.	690	691	O
-
-Commercially	692	704	O
-available	705	714	O
-ground	715	721	O
-,	721	722	O
-granulated	723	733	O
-blast	734	739	B-Material
--	739	740	I-Material
-furnace	740	747	I-Material
-slag	748	752	I-Material
-“	753	754	I-Material
-Calumite	754	762	I-Material
-”	762	763	I-Material
-was	764	767	O
-used	768	772	O
-as	773	775	O
-an	776	778	O
-additive	779	787	O
-[	788	789	O
-27	789	791	O
-]	791	792	O
-.	792	793	O
-
-The	794	797	O
-analysed	798	806	O
-chemical	807	815	O
-composition	816	827	O
-is	828	830	O
-given	831	836	O
-in	837	839	O
-Table	840	845	O
-3	846	847	O
-.	847	848	O
-
-Calumite	849	857	B-Material
-is	858	860	O
-a	861	862	O
-powdered	863	871	B-Material
-material	872	880	I-Material
-,	880	881	O
-with	882	886	O
-a	887	888	O
-typical	889	896	O
-particle	897	905	B-Material
-size	906	910	O
-distribution	911	923	O
-between	924	931	O
-limits	932	938	O
-of	939	941	O
-ca	942	944	O
-.	944	945	O
-
-40	946	948	O
-to	949	951	O
-ca	952	954	O
-.	954	955	O
-
-400μm	956	961	O
-.	961	962	O
+The	0,3	O	O
+four	4,8	O	O
+bounding	9,17	O	B-Material
+PCM	18,21	O	I-Material
+wastes	22,28	O	I-Material
+,	28,29	O	O
+given	30,35	O	O
+in	36,38	O	O
+Table	39,44	O	O
+1	45,46	O	O
+,	46,47	O	O
+were	48,52	O	O
+simulated	53,62	O	O
+using	63,68	O	O
+the	69,72	O	O
+most	73,77	O	O
+appropriate	78,89	O	O
+materials	90,99	O	O
+and	100,103	O	O
+geometries	104,114	O	O
+.	114,115	O	O
+
+“	116,117	O	B-Material
+Mock	117,121	O	I-Material
+up	122,124	O	I-Material
+”	124,125	O	I-Material
+PCM	126,129	O	I-Material
+drums	130,135	O	I-Material
+were	136,140	O	O
+assembled	141,150	O	O
+using	151,156	O	O
+the	157,160	O	O
+following	161,170	O	O
+components	171,181	O	O
+:	181,182	O	O
+PCM	183,186	O	B-Material
+drums	187,192	O	I-Material
+were	193,197	O	O
+simulated	198,207	O	O
+using	208,213	O	O
+mild	214,218	O	B-Material
+steel	219,224	O	I-Material
+paint	225,230	O	I-Material
+cans	231,235	O	I-Material
+and	236,239	O	I-Material
+lids	240,244	O	I-Material
+(	245,246	O	O
+Fenton	246,252	O	O
+Packaging	253,262	O	O
+Ltd.	263,267	O	O
+)	267,268	O	O
+;	268,269	O	O
+PVC	270,273	O	B-Material
+bags	274,278	O	I-Material
+were	279,283	O	O
+replicated	284,294	O	O
+using	295,300	O	O
+identical	301,310	O	B-Material
+PVC	311,314	O	I-Material
+sheeting	315,323	O	I-Material
+(	324,325	O	O
+Romar	325,330	O	O
+Workwear	331,339	O	O
+Ltd.	340,344	O	O
+)	344,345	O	O
+;	345,346	O	O
+the	347,350	O	O
+metallic	351,359	O	B-Material
+waste	360,365	O	I-Material
+was	366,369	O	O
+simulated	370,379	O	O
+using	380,385	O	O
+commercial	386,396	O	B-Material
+grade	397,402	O	I-Material
+18/8	403,407	O	I-Material
+stainless	408,417	O	I-Material
+steel	418,423	O	I-Material
+,	423,424	O	O
+aluminium	425,434	O	B-Material
+and	435,438	O	O
+copper	439,445	O	B-Material
+(	446,447	O	O
+Avus	447,451	O	O
+Metals	452,458	O	O
+&	459,460	O	O
+Plastics	461,469	O	O
+Ltd.	470,474	O	O
+)	474,475	O	O
+,	475,476	O	O
+and	477,480	O	O
+lead	481,485	O	B-Material
+shot	486,490	O	I-Material
+(	491,492	O	O
+Aldrich	492,499	O	O
+)	499,500	O	O
+;	500,501	O	O
+the	502,505	O	O
+inorganic	506,515	O	B-Material
+waste	516,521	O	I-Material
+was	522,525	O	O
+simulated	526,535	O	O
+using	536,541	O	O
+waste	542,547	O	B-Material
+Pyrex	548,553	O	I-Material
+labware	554,561	O	I-Material
+,	561,562	O	O
+crushed	563,570	O	O
+masonry	571,578	O	B-Material
+,	578,579	O	O
+concrete	580,588	O	B-Material
+and	589,592	O	O
+window	593,599	O	B-Material
+glass	600,605	O	I-Material
+;	605,606	O	O
+CeO2	607,611	O	B-Material
+(	612,613	O	O
+from	613,617	O	O
+Acros	618,623	O	O
+Organics	624,632	O	O
+,	632,633	O	O
+>	634,635	O	O
+99.9	635,639	O	O
+%	639,640	O	O
+;	640,641	O	O
+dried	642,647	O	O
+15h	648,651	O	O
+at	652,654	O	O
+600	655,658	O	O
+°	658,659	O	O
+C	659,660	O	O
+)	660,661	O	O
+was	662,665	O	O
+used	666,670	O	O
+as	671,673	O	O
+a	674,675	O	O
+PuO2	676,680	O	B-Material
+surrogate	681,690	O	I-Material
+.	690,691	O	O
+
+Commercially	692,704	O	O
+available	705,714	O	O
+ground	715,721	O	O
+,	721,722	O	O
+granulated	723,733	O	O
+blast	734,739	O	B-Material
+-	739,740	O	I-Material
+furnace	740,747	O	I-Material
+slag	748,752	O	I-Material
+“	753,754	O	I-Material
+Calumite	754,762	O	I-Material
+”	762,763	O	I-Material
+was	764,767	O	O
+used	768,772	O	O
+as	773,775	O	O
+an	776,778	O	O
+additive	779,787	O	O
+[	788,789	O	O
+27	789,791	O	O
+]	791,792	O	O
+.	792,793	O	O
+
+The	794,797	O	O
+analysed	798,806	O	O
+chemical	807,815	O	O
+composition	816,827	O	O
+is	828,830	O	O
+given	831,836	O	O
+in	837,839	O	O
+Table	840,845	O	O
+3	846,847	O	O
+.	847,848	O	O
+
+Calumite	849,857	O	B-Material
+is	858,860	O	O
+a	861,862	O	O
+powdered	863,871	O	B-Material
+material	872,880	O	I-Material
+,	880,881	O	O
+with	882,886	O	O
+a	887,888	O	O
+typical	889,896	O	O
+particle	897,905	O	B-Material
+size	906,910	O	O
+distribution	911,923	O	O
+between	924,931	O	O
+limits	932,938	O	O
+of	939,941	O	O
+ca	942,944	O	O
+.	944,945	O	O
+
+40	946,948	O	O
+to	949,951	O	O
+ca	952,954	O	O
+.	954,955	O	O
+
+400μm	956,961	O	O
+.	961,962	O	O
 
 
 -DOCSTART- (S0022311513011422)
 
-There	0	5	O
-is	6	8	O
-still	9	14	O
-some	15	19	O
-debate	20	26	O
-about	27	32	O
-the	33	36	O
-crystal	37	44	B-Material
-structure	45	54	O
-and	55	58	O
-composition	59	70	O
-of	71	73	O
-the	74	77	O
-fine	78	82	B-Material
-oxides	83	89	I-Material
-found	90	95	O
-in	96	98	O
-ODS	99	102	B-Material
-steels	103	109	I-Material
-and	110	113	O
-a	114	115	O
-number	116	122	O
-of	123	125	O
-different	126	135	O
-phases	136	142	O
-have	143	147	O
-been	148	152	O
-both	153	157	O
-proposed	158	166	O
-and	167	170	O
-identified	171	181	O
-.	181	182	O
-
-A	183	184	O
-complete	185	193	B-Task
-characterisation	194	210	I-Task
-of	211	213	I-Task
-the	214	217	I-Task
-oxide	218	223	I-Task
-particles	224	233	I-Task
-,	233	234	O
-including	235	244	O
-crystal	245	252	B-Material
-structure	253	262	O
-and	263	266	O
-composition	267	278	O
-,	278	279	O
-is	280	282	O
-needed	283	289	O
-as	290	292	O
-different	293	302	O
-phases	303	309	O
-and	310	313	O
-chemical	314	322	O
-variants	323	331	O
-of	332	334	O
-a	335	336	O
-single	337	343	O
-structure	344	353	O
-have	354	358	O
-been	359	363	O
-shown	364	369	O
-to	370	372	O
-respond	373	380	O
-differently	381	392	O
-to	393	395	O
-high	396	400	O
-temperatures	401	413	O
-and	414	417	O
-irradiation	418	429	B-Process
-.	429	430	O
-
-Ribis	431	436	O
-and	437	440	O
-de	441	443	O
-Carlan	444	450	O
-[	451	452	O
-6	452	453	O
-]	453	454	O
-have	455	459	O
-studied	460	467	O
-the	468	471	O
-coarsening	472	482	O
-characteristics	483	498	O
-of	499	501	O
-Y2O3	502	506	B-Material
-and	507	510	O
-Y2Ti2O7	511	518	B-Material
-oxides	519	525	I-Material
-at	526	528	O
-high	529	533	O
-temperatures	534	546	O
-.	546	547	O
-
-They	548	552	O
-show	553	557	O
-that	558	562	O
-the	563	566	O
-increase	567	575	O
-in	576	578	O
-particle	579	587	B-Material
-size	588	592	O
-is	593	595	O
-greater	596	603	O
-for	604	607	O
-the	608	611	O
-non	612	615	O
--	615	616	O
-Ti	616	618	B-Material
-containing	619	629	O
-phase	630	635	O
-.	635	636	O
-
-Similarly	637	646	O
-,	646	647	O
-Ratti	648	653	O
-et	654	656	O
-al	657	659	O
-.	659	660	O
-
-[	661	662	O
-9	662	663	O
-]	663	664	O
-,	664	665	O
-although	666	674	O
-they	675	679	O
-do	680	682	O
-not	683	686	O
-allude	687	693	O
-to	694	696	O
-specific	697	705	O
-oxide	706	711	B-Material
-phases	712	718	O
-,	718	719	O
-have	720	724	O
-shown	725	730	O
-that	731	735	O
-small	736	741	O
-Ti	742	744	B-Material
-additions	745	754	O
-to	755	757	O
-an	758	760	O
-18%Cr	761	766	B-Material
-ODS	767	770	I-Material
-alloy	771	776	I-Material
-dramatically	777	789	O
-reduces	790	797	O
-the	798	801	O
-coarsening	802	812	B-Process
-rates	813	818	I-Process
-of	819	821	O
-dispersoids	822	833	B-Material
-when	834	838	O
-compared	839	847	O
-to	848	850	O
-an	851	853	O
-equivalent	854	864	O
-alloy	865	870	B-Material
-without	871	878	O
-titanium	879	887	B-Material
-.	887	888	O
-
-For	889	892	O
-example	893	900	O
-,	900	901	O
-Ribis	902	907	O
-indicates	908	917	O
-that	918	922	O
-coarsening	923	933	B-Process
-rates	934	939	I-Process
-may	940	943	O
-be	944	946	O
-controlled	947	957	O
-by	958	960	O
-interfacial	961	972	O
-energy	973	979	O
-between	980	987	O
-the	988	991	O
-secondary	992	1001	O
-phase	1002	1007	O
-particles	1008	1017	B-Material
-and	1018	1021	O
-the	1022	1025	O
-matrix	1026	1032	B-Material
-;	1032	1033	O
-he	1034	1036	O
-points	1037	1043	O
-out	1044	1047	O
-that	1048	1052	O
-the	1053	1056	O
-resistance	1057	1067	O
-to	1068	1070	O
-coarsening	1071	1081	O
-observed	1082	1090	O
-in	1091	1093	O
-the	1094	1097	O
-Y	1098	1099	B-Material
-,	1099	1100	O
-Ti	1101	1103	B-Material
-,	1103	1104	O
-O	1105	1106	B-Material
-system	1107	1113	O
-is	1114	1116	O
-probably	1117	1125	O
-the	1126	1129	O
-result	1130	1136	O
-of	1137	1139	O
-a	1140	1141	O
-very	1142	1146	O
-low	1147	1150	O
-interface	1151	1160	O
-energy	1161	1167	O
-and	1168	1171	O
-this	1172	1176	O
-would	1177	1182	O
-differ	1183	1189	O
-from	1190	1194	O
-one	1195	1198	O
-phase	1199	1204	O
-to	1205	1207	O
-another	1208	1215	O
-.	1215	1216	O
-
-Whittle	1217	1224	O
-et	1225	1227	O
-al	1228	1230	O
-.	1230	1231	O
-
-[	1232	1233	O
-10	1233	1235	O
-]	1235	1236	O
-have	1237	1241	O
-shown	1242	1247	O
-that	1248	1252	O
-pyrochlore	1253	1263	B-Material
-and	1264	1267	O
-structures	1268	1278	O
-closely	1279	1286	O
-related	1287	1294	O
-to	1295	1297	O
-the	1298	1301	O
-pyrochlore	1302	1312	B-Material
-structure	1313	1322	O
-respond	1323	1330	O
-in	1331	1333	O
-different	1334	1343	O
-ways	1344	1348	O
-to	1349	1351	O
-irradiation	1352	1363	B-Process
-.	1363	1364	O
-
-They	1365	1369	O
-revealed	1370	1378	O
-that	1379	1383	O
-oxide	1384	1389	B-Material
-structure	1390	1399	O
-and	1400	1403	O
-variations	1404	1414	O
-in	1415	1417	O
-composition	1418	1429	O
-can	1430	1433	O
-affect	1434	1440	O
-their	1441	1446	O
-ability	1447	1454	O
-to	1455	1457	O
-withstand	1458	1467	O
-and	1468	1471	O
-recover	1472	1479	O
-from	1480	1484	O
-irradiation	1485	1496	B-Process
-induced	1497	1504	O
-damage	1505	1511	O
-.	1511	1512	O
+There	0,5	O	O
+is	6,8	O	O
+still	9,14	O	O
+some	15,19	O	O
+debate	20,26	O	O
+about	27,32	O	O
+the	33,36	O	O
+crystal	37,44	O	B-Material
+structure	45,54	O	O
+and	55,58	O	O
+composition	59,70	O	O
+of	71,73	O	O
+the	74,77	O	O
+fine	78,82	O	B-Material
+oxides	83,89	O	I-Material
+found	90,95	O	O
+in	96,98	O	O
+ODS	99,102	O	B-Material
+steels	103,109	O	I-Material
+and	110,113	O	O
+a	114,115	O	O
+number	116,122	O	O
+of	123,125	O	O
+different	126,135	O	O
+phases	136,142	O	O
+have	143,147	O	O
+been	148,152	O	O
+both	153,157	O	O
+proposed	158,166	O	O
+and	167,170	O	O
+identified	171,181	O	O
+.	181,182	O	O
+
+A	183,184	O	O
+complete	185,193	O	B-Task
+characterisation	194,210	O	I-Task
+of	211,213	O	I-Task
+the	214,217	O	I-Task
+oxide	218,223	O	I-Task
+particles	224,233	O	I-Task
+,	233,234	O	O
+including	235,244	O	O
+crystal	245,252	O	B-Material
+structure	253,262	O	O
+and	263,266	O	O
+composition	267,278	O	O
+,	278,279	O	O
+is	280,282	O	O
+needed	283,289	O	O
+as	290,292	O	O
+different	293,302	O	O
+phases	303,309	O	O
+and	310,313	O	O
+chemical	314,322	O	O
+variants	323,331	O	O
+of	332,334	O	O
+a	335,336	O	O
+single	337,343	O	O
+structure	344,353	O	O
+have	354,358	O	O
+been	359,363	O	O
+shown	364,369	O	O
+to	370,372	O	O
+respond	373,380	O	O
+differently	381,392	O	O
+to	393,395	O	O
+high	396,400	O	O
+temperatures	401,413	O	O
+and	414,417	O	O
+irradiation	418,429	O	B-Process
+.	429,430	O	O
+
+Ribis	431,436	O	O
+and	437,440	O	O
+de	441,443	O	O
+Carlan	444,450	O	O
+[	451,452	O	O
+6	452,453	O	O
+]	453,454	O	O
+have	455,459	O	O
+studied	460,467	O	O
+the	468,471	O	O
+coarsening	472,482	O	O
+characteristics	483,498	O	O
+of	499,501	O	O
+Y2O3	502,506	O	B-Material
+and	507,510	O	O
+Y2Ti2O7	511,518	O	B-Material
+oxides	519,525	O	I-Material
+at	526,528	O	O
+high	529,533	O	O
+temperatures	534,546	O	O
+.	546,547	O	O
+
+They	548,552	O	O
+show	553,557	O	O
+that	558,562	O	O
+the	563,566	O	O
+increase	567,575	O	O
+in	576,578	O	O
+particle	579,587	O	B-Material
+size	588,592	O	O
+is	593,595	O	O
+greater	596,603	O	O
+for	604,607	O	O
+the	608,611	O	O
+non	612,615	O	O
+-	615,616	O	O
+Ti	616,618	O	B-Material
+containing	619,629	O	O
+phase	630,635	O	O
+.	635,636	O	O
+
+Similarly	637,646	O	O
+,	646,647	O	O
+Ratti	648,653	O	O
+et	654,656	O	O
+al	657,659	O	O
+.	659,660	O	O
+
+[	661,662	O	O
+9	662,663	O	O
+]	663,664	O	O
+,	664,665	O	O
+although	666,674	O	O
+they	675,679	O	O
+do	680,682	O	O
+not	683,686	O	O
+allude	687,693	O	O
+to	694,696	O	O
+specific	697,705	O	O
+oxide	706,711	O	B-Material
+phases	712,718	O	O
+,	718,719	O	O
+have	720,724	O	O
+shown	725,730	O	O
+that	731,735	O	O
+small	736,741	O	O
+Ti	742,744	O	B-Material
+additions	745,754	O	O
+to	755,757	O	O
+an	758,760	O	O
+18%Cr	761,766	O	B-Material
+ODS	767,770	O	I-Material
+alloy	771,776	O	I-Material
+dramatically	777,789	O	O
+reduces	790,797	O	O
+the	798,801	O	O
+coarsening	802,812	O	B-Process
+rates	813,818	O	I-Process
+of	819,821	O	O
+dispersoids	822,833	O	B-Material
+when	834,838	O	O
+compared	839,847	O	O
+to	848,850	O	O
+an	851,853	O	O
+equivalent	854,864	O	O
+alloy	865,870	O	B-Material
+without	871,878	O	O
+titanium	879,887	O	B-Material
+.	887,888	O	O
+
+For	889,892	O	O
+example	893,900	O	O
+,	900,901	O	O
+Ribis	902,907	O	O
+indicates	908,917	O	O
+that	918,922	O	O
+coarsening	923,933	O	B-Process
+rates	934,939	O	I-Process
+may	940,943	O	O
+be	944,946	O	O
+controlled	947,957	O	O
+by	958,960	O	O
+interfacial	961,972	O	O
+energy	973,979	O	O
+between	980,987	O	O
+the	988,991	O	O
+secondary	992,1001	O	O
+phase	1002,1007	O	O
+particles	1008,1017	O	B-Material
+and	1018,1021	O	O
+the	1022,1025	O	O
+matrix	1026,1032	O	B-Material
+;	1032,1033	O	O
+he	1034,1036	O	O
+points	1037,1043	O	O
+out	1044,1047	O	O
+that	1048,1052	O	O
+the	1053,1056	O	O
+resistance	1057,1067	O	O
+to	1068,1070	O	O
+coarsening	1071,1081	O	O
+observed	1082,1090	O	O
+in	1091,1093	O	O
+the	1094,1097	O	O
+Y	1098,1099	O	B-Material
+,	1099,1100	O	O
+Ti	1101,1103	O	B-Material
+,	1103,1104	O	O
+O	1105,1106	O	B-Material
+system	1107,1113	O	O
+is	1114,1116	O	O
+probably	1117,1125	O	O
+the	1126,1129	O	O
+result	1130,1136	O	O
+of	1137,1139	O	O
+a	1140,1141	O	O
+very	1142,1146	O	O
+low	1147,1150	O	O
+interface	1151,1160	O	O
+energy	1161,1167	O	O
+and	1168,1171	O	O
+this	1172,1176	O	O
+would	1177,1182	O	O
+differ	1183,1189	O	O
+from	1190,1194	O	O
+one	1195,1198	O	O
+phase	1199,1204	O	O
+to	1205,1207	O	O
+another	1208,1215	O	O
+.	1215,1216	O	O
+
+Whittle	1217,1224	O	O
+et	1225,1227	O	O
+al	1228,1230	O	O
+.	1230,1231	O	O
+
+[	1232,1233	O	O
+10	1233,1235	O	O
+]	1235,1236	O	O
+have	1237,1241	O	O
+shown	1242,1247	O	O
+that	1248,1252	O	O
+pyrochlore	1253,1263	O	B-Material
+and	1264,1267	O	O
+structures	1268,1278	O	O
+closely	1279,1286	O	O
+related	1287,1294	O	O
+to	1295,1297	O	O
+the	1298,1301	O	O
+pyrochlore	1302,1312	O	B-Material
+structure	1313,1322	O	O
+respond	1323,1330	O	O
+in	1331,1333	O	O
+different	1334,1343	O	O
+ways	1344,1348	O	O
+to	1349,1351	O	O
+irradiation	1352,1363	O	B-Process
+.	1363,1364	O	O
+
+They	1365,1369	O	O
+revealed	1370,1378	O	O
+that	1379,1383	O	O
+oxide	1384,1389	O	B-Material
+structure	1390,1399	O	O
+and	1400,1403	O	O
+variations	1404,1414	O	O
+in	1415,1417	O	O
+composition	1418,1429	O	O
+can	1430,1433	O	O
+affect	1434,1440	O	O
+their	1441,1446	O	O
+ability	1447,1454	O	O
+to	1455,1457	O	O
+withstand	1458,1467	O	O
+and	1468,1471	O	O
+recover	1472,1479	O	O
+from	1480,1484	O	O
+irradiation	1485,1496	O	B-Process
+induced	1497,1504	O	O
+damage	1505,1511	O	O
+.	1511,1512	O	O
 
 
 -DOCSTART- (S0022311514006722)
 
-Zirconium	0	9	B-Material
-alloys	10	16	I-Material
-are	17	20	O
-used	21	25	O
-as	26	28	O
-fuel	29	33	O
-cladding	34	42	O
-in	43	45	O
-pressurised	46	57	O
-and	58	61	O
-boiling	62	69	O
-water	70	75	O
-nuclear	76	83	B-Material
-reactors	84	92	I-Material
-.	92	93	O
-
-As	94	96	O
-such	97	101	O
-these	102	107	O
-materials	108	117	O
-are	118	121	O
-exposed	122	129	O
-to	130	132	O
-a	133	134	O
-large	135	140	O
-number	141	147	O
-of	148	150	O
-environmental	151	164	O
-factors	165	172	O
-that	173	177	O
-will	178	182	O
-promote	183	190	O
-degradation	191	202	B-Process
-mechanisms	203	213	I-Process
-such	214	218	O
-as	219	221	O
-oxidation	222	231	B-Process
-.	231	232	O
-
-At	233	235	O
-high	236	240	O
-burn	241	245	O
--	245	246	O
-ups	246	249	O
-,	249	250	O
-i.e.	251	255	O
-extended	256	264	O
-service	265	272	O
-life	273	277	O
-,	277	278	O
-oxidation	279	288	B-Process
-and	289	292	O
-the	293	296	O
-associated	297	307	O
-hydrogen	308	316	B-Process
-pick	317	321	I-Process
--	321	322	I-Process
-up	322	324	I-Process
-can	325	328	O
-be	329	331	O
-a	332	333	O
-limiting	334	342	O
-factor	343	349	O
-in	350	352	O
-terms	353	358	O
-of	359	361	O
-fuel	362	366	B-Material
-efficiency	367	377	O
-and	378	381	O
-safety	382	388	O
-.	388	389	O
-
-The	390	393	O
-oxidation	394	403	B-Process
-kinetics	404	412	O
-for	413	416	O
-many	417	421	O
-zirconium	422	431	B-Material
-alloys	432	438	I-Material
-are	439	442	O
-cyclical	443	451	O
-,	451	452	O
-demonstrating	453	466	O
-a	467	468	O
-series	469	475	O
-of	476	478	O
-approximately	479	492	O
-cubic	493	498	O
-kinetic	499	506	O
-curves	507	513	O
-separated	514	523	O
-by	524	526	O
-transitions	527	538	O
-[	539	540	O
-1–5	540	543	O
-]	543	544	O
-.	544	545	O
-
-These	546	551	O
-transitions	552	563	O
-are	564	567	O
-typified	568	576	O
-by	577	579	O
-a	580	581	O
-breakdown	582	591	O
-in	592	594	O
-the	595	598	O
-protective	599	609	O
-character	610	619	O
-of	620	622	O
-the	623	626	O
-oxide	627	632	B-Material
-and	633	636	O
-are	637	640	O
-potentially	641	652	O
-linked	653	659	O
-to	660	662	O
-a	663	664	O
-number	665	671	O
-of	672	674	O
-mechanical	675	685	O
-issues	686	692	O
-.	692	693	O
-
-Understanding	694	707	B-Task
-how	708	711	I-Task
-these	712	717	I-Task
-issues	718	724	I-Task
-influence	725	734	I-Task
-oxidation	735	744	I-Task
-is	745	747	O
-a	748	749	O
-key	750	753	O
-to	754	756	O
-developing	757	767	B-Task
-a	768	769	I-Task
-full	770	774	I-Task
-mechanistic	775	786	I-Task
-understanding	787	800	I-Task
-of	801	803	I-Task
-the	804	807	I-Task
-corrosion	808	817	I-Task
-process	818	825	I-Task
-.	825	826	O
+Zirconium	0,9	O	B-Material
+alloys	10,16	O	I-Material
+are	17,20	O	O
+used	21,25	O	O
+as	26,28	O	O
+fuel	29,33	O	O
+cladding	34,42	O	O
+in	43,45	O	O
+pressurised	46,57	O	O
+and	58,61	O	O
+boiling	62,69	O	O
+water	70,75	O	O
+nuclear	76,83	O	B-Material
+reactors	84,92	O	I-Material
+.	92,93	O	O
+
+As	94,96	O	O
+such	97,101	O	O
+these	102,107	O	O
+materials	108,117	O	O
+are	118,121	O	O
+exposed	122,129	O	O
+to	130,132	O	O
+a	133,134	O	O
+large	135,140	O	O
+number	141,147	O	O
+of	148,150	O	O
+environmental	151,164	O	O
+factors	165,172	O	O
+that	173,177	O	O
+will	178,182	O	O
+promote	183,190	O	O
+degradation	191,202	O	B-Process
+mechanisms	203,213	O	I-Process
+such	214,218	O	O
+as	219,221	O	O
+oxidation	222,231	O	B-Process
+.	231,232	O	O
+
+At	233,235	O	O
+high	236,240	O	O
+burn	241,245	O	O
+-	245,246	O	O
+ups	246,249	O	O
+,	249,250	O	O
+i.e.	251,255	O	O
+extended	256,264	O	O
+service	265,272	O	O
+life	273,277	O	O
+,	277,278	O	O
+oxidation	279,288	O	B-Process
+and	289,292	O	O
+the	293,296	O	O
+associated	297,307	O	O
+hydrogen	308,316	O	B-Process
+pick	317,321	O	I-Process
+-	321,322	O	I-Process
+up	322,324	O	I-Process
+can	325,328	O	O
+be	329,331	O	O
+a	332,333	O	O
+limiting	334,342	O	O
+factor	343,349	O	O
+in	350,352	O	O
+terms	353,358	O	O
+of	359,361	O	O
+fuel	362,366	O	B-Material
+efficiency	367,377	O	O
+and	378,381	O	O
+safety	382,388	O	O
+.	388,389	O	O
+
+The	390,393	O	O
+oxidation	394,403	O	B-Process
+kinetics	404,412	O	O
+for	413,416	O	O
+many	417,421	O	O
+zirconium	422,431	O	B-Material
+alloys	432,438	O	I-Material
+are	439,442	O	O
+cyclical	443,451	O	O
+,	451,452	O	O
+demonstrating	453,466	O	O
+a	467,468	O	O
+series	469,475	O	O
+of	476,478	O	O
+approximately	479,492	O	O
+cubic	493,498	O	O
+kinetic	499,506	O	O
+curves	507,513	O	O
+separated	514,523	O	O
+by	524,526	O	O
+transitions	527,538	O	O
+[	539,540	O	O
+1–5	540,543	O	O
+]	543,544	O	O
+.	544,545	O	O
+
+These	546,551	O	O
+transitions	552,563	O	O
+are	564,567	O	O
+typified	568,576	O	O
+by	577,579	O	O
+a	580,581	O	O
+breakdown	582,591	O	O
+in	592,594	O	O
+the	595,598	O	O
+protective	599,609	O	O
+character	610,619	O	O
+of	620,622	O	O
+the	623,626	O	O
+oxide	627,632	O	B-Material
+and	633,636	O	O
+are	637,640	O	O
+potentially	641,652	O	O
+linked	653,659	O	O
+to	660,662	O	O
+a	663,664	O	O
+number	665,671	O	O
+of	672,674	O	O
+mechanical	675,685	O	O
+issues	686,692	O	O
+.	692,693	O	O
+
+Understanding	694,707	O	B-Task
+how	708,711	O	I-Task
+these	712,717	O	I-Task
+issues	718,724	O	I-Task
+influence	725,734	O	I-Task
+oxidation	735,744	O	I-Task
+is	745,747	O	O
+a	748,749	O	O
+key	750,753	O	O
+to	754,756	O	O
+developing	757,767	O	B-Task
+a	768,769	O	I-Task
+full	770,774	O	I-Task
+mechanistic	775,786	O	I-Task
+understanding	787,800	O	I-Task
+of	801,803	O	I-Task
+the	804,807	O	I-Task
+corrosion	808,817	O	I-Task
+process	818,825	O	I-Task
+.	825,826	O	O
 
 
 -DOCSTART- (S0022311514006941)
 
-The	0	3	O
-formulation	4	15	O
-in	16	18	O
-Table	19	24	O
-1	25	26	O
-was	27	30	O
-derived	31	38	O
-by	39	41	O
-an	42	44	O
-empirical	45	54	O
-approach	55	63	O
-and	64	67	O
-led	68	71	O
-to	72	74	O
-a	75	76	O
-non	77	80	B-Material
--	80	81	I-Material
-classical	81	90	I-Material
-glass	91	96	I-Material
-matrix	97	103	I-Material
-.	103	104	O
-
-Carter	105	111	O
-et	112	114	O
-al	115	117	O
-.	117	118	O
-
-[	119	120	O
-3	120	121	O
-]	121	122	O
-and	123	126	O
-Zhang	127	132	O
-et	133	135	O
-al	136	138	O
-.	138	139	O
-
-[	140	141	O
-4	141	142	O
-]	142	143	O
-took	144	148	O
-a	149	150	O
-more	151	155	O
-systematic	156	166	O
-approach	167	175	O
-to	176	178	O
-such	179	183	O
-glass	184	189	B-Material
--	189	190	I-Material
-ceramic	190	197	I-Material
-wasteforms	198	208	I-Material
-.	208	209	O
-
-These	210	215	O
-wasteforms	216	226	O
-were	227	231	O
-targeted	232	240	O
-at	241	243	O
-Hanford	244	251	B-Material
-K	252	253	I-Material
--	253	254	I-Material
-basin	254	259	I-Material
-sludges	260	267	I-Material
-and	268	271	O
-the	272	275	O
-immobilisation	276	290	B-Task
-of	291	293	I-Task
-the	294	297	I-Task
-primary	298	305	I-Task
-waste	306	311	I-Task
-stream	312	318	I-Task
-from	319	323	I-Task
-production	324	334	I-Task
-of	335	337	I-Task
-molybdenum-99	338	351	I-Task
-at	352	354	O
-the	355	358	O
-Australian	359	369	O
-Nuclear	370	377	O
-Science	378	385	O
-and	386	389	O
-Technology	390	400	O
-Organisation	401	413	O
-site	414	418	O
-in	419	421	O
-Sydney	422	428	O
-respectively	429	441	O
-.	441	442	O
-
-In	443	445	O
-the	446	449	O
-work	450	454	O
-of	455	457	O
-Carter	458	464	O
-et	465	467	O
-al	468	470	O
-.	470	471	O
-
-and	472	475	O
-Zhang	476	481	O
-et	482	484	O
-al	485	487	O
-.	487	488	O
-
-the	489	492	O
-intended	493	501	O
-crystalline	502	513	B-Material
-phase	514	519	O
-was	520	523	O
-the	524	527	O
-closely	528	535	O
-related	536	543	O
-titanate	544	552	B-Material
-pyrochlore	553	563	I-Material
-,	563	564	O
-CaUTi2O7	565	573	B-Material
-.	573	574	O
-
-The	575	578	O
-glass	579	584	B-Material
-matrix	585	591	I-Material
-was	592	595	O
-formulated	596	606	O
-such	607	611	O
-that	612	616	O
-the	617	620	O
-trivalent	621	630	O
-species	631	638	O
-in	639	641	O
-the	642	645	O
-glass	646	651	B-Material
-network	652	659	I-Material
-,	659	660	O
-boron	661	666	B-Material
-and	667	670	O
-aluminium	671	680	B-Material
-,	680	681	O
-were	682	686	O
-charge	687	693	O
-compensated	694	705	O
-on	706	708	O
-a	709	710	O
-molar	711	716	O
-basis	717	722	O
-by	723	725	O
-sodium	726	732	B-Material
-.	732	733	O
-
-The	734	737	O
-stoichiometric	738	752	O
-composition	753	764	O
-of	765	767	O
-the	768	771	O
-glass	772	777	B-Material
-in	778	780	O
-this	781	785	O
-wasteform	786	795	O
-was	796	799	O
-Na2AlBSi6O16	800	812	B-Material
-.	812	813	O
-
-This	814	818	O
-glass	819	824	B-Material
-provides	825	833	O
-a	834	835	O
-method	836	842	O
-by	843	845	O
-which	846	851	O
-the	852	855	O
-glass	856	861	B-Material
-composition	862	873	I-Material
-can	874	877	O
-be	878	880	O
-varied	881	887	O
-systematically	888	902	O
-.	902	903	O
-
-Given	904	909	O
-that	910	914	O
-the	915	918	O
-initial	919	926	O
-observations	927	939	O
-inferred	940	948	O
-an	949	951	O
-important	952	961	O
-role	962	966	O
-played	967	973	O
-by	974	976	O
-alumina	977	984	B-Material
-,	984	985	O
-it	986	988	O
-was	989	992	O
-decided	993	1000	O
-to	1001	1003	O
-prepare	1004	1011	O
-a	1012	1013	O
-suite	1014	1019	O
-of	1020	1022	O
-zirconolite	1023	1034	B-Material
-glass	1035	1040	I-Material
--	1040	1041	I-Material
-ceramics	1041	1049	I-Material
-in	1050	1052	O
-which	1053	1058	O
-the	1059	1062	O
-glass	1063	1068	B-Material
-matrix	1069	1075	I-Material
-was	1076	1079	O
-defined	1080	1087	O
-by	1088	1090	O
-Na2Al1+xB1–xSi6O16	1091	1109	B-Material
-to	1110	1112	O
-investigate	1113	1124	B-Task
-the	1125	1128	I-Task
-role	1129	1133	I-Task
-played	1134	1140	I-Task
-by	1141	1143	I-Task
-glass	1144	1149	I-Task
-composition	1150	1161	I-Task
-in	1162	1164	I-Task
-controlling	1165	1176	I-Task
-crystalline	1177	1188	I-Task
-phase	1189	1194	I-Task
-stability	1195	1204	I-Task
-.	1204	1205	O
-
-The	1206	1209	O
-x=1	1210	1213	O
-end	1214	1217	O
-member	1218	1224	O
-gives	1225	1230	O
-the	1231	1234	O
-mineral	1235	1242	B-Material
-albite	1243	1249	I-Material
-,	1249	1250	O
-NaAlSi3O8	1251	1260	B-Material
-.	1260	1261	O
-
-The	1262	1265	O
-melting	1266	1273	O
-point	1274	1279	O
-of	1280	1282	O
-albite	1283	1289	B-Material
-is	1290	1292	O
-1120	1293	1297	O
-°	1297	1298	O
-C	1298	1299	O
-[	1300	1301	O
-5	1301	1302	O
-]	1302	1303	O
-and	1304	1307	O
-the	1308	1311	O
-composition	1312	1323	O
-cools	1324	1329	O
-to	1330	1332	O
-a	1333	1334	O
-glass	1335	1340	B-Material
-at	1341	1343	O
-the	1344	1347	O
-cooling	1348	1355	O
-rates	1356	1361	O
-that	1362	1366	O
-occur	1367	1372	O
-during	1373	1379	O
-a	1380	1381	O
-HIP	1382	1385	O
-cycle	1386	1391	O
-.	1391	1392	O
-
-From	1393	1397	O
-the	1398	1401	O
-available	1402	1411	O
-phase	1412	1417	O
-diagrams	1418	1426	O
-,	1426	1427	O
-[	1428	1429	O
-6	1429	1430	O
-]	1430	1431	O
-no	1432	1434	O
-boron	1435	1440	B-Material
-analogue	1441	1449	O
-for	1450	1453	O
-albite	1454	1460	B-Material
-was	1461	1464	O
-shown	1465	1470	O
-,	1470	1471	O
-and	1472	1475	O
-the	1476	1479	O
-liquidus	1480	1488	O
-estimated	1489	1498	O
-from	1499	1503	O
-the	1504	1507	O
-relevant	1508	1516	O
-phase	1517	1522	O
-diagram	1523	1530	O
-is	1531	1533	O
-1100–1200	1534	1543	O
-°	1543	1544	O
-C	1544	1545	O
-.	1545	1546	O
-
-No	1547	1549	O
-phase	1550	1555	O
-diagrams	1556	1564	O
-for	1565	1568	O
-the	1569	1572	O
-quaternary	1573	1583	O
-system	1584	1590	O
-
-Na2O	1591	1595	O
-
-–	1595	1596	O
-
-Al2O3–B2O3–SiO2	1596	1611	O
-could	1612	1617	O
-be	1618	1620	O
-found	1621	1626	O
-.	1626	1627	O
+The	0,3	O	O
+formulation	4,15	O	O
+in	16,18	O	O
+Table	19,24	O	O
+1	25,26	O	O
+was	27,30	O	O
+derived	31,38	O	O
+by	39,41	O	O
+an	42,44	O	O
+empirical	45,54	O	O
+approach	55,63	O	O
+and	64,67	O	O
+led	68,71	O	O
+to	72,74	O	O
+a	75,76	O	O
+non	77,80	O	B-Material
+-	80,81	O	I-Material
+classical	81,90	O	I-Material
+glass	91,96	O	I-Material
+matrix	97,103	O	I-Material
+.	103,104	O	O
+
+Carter	105,111	O	O
+et	112,114	O	O
+al	115,117	O	O
+.	117,118	O	O
+
+[	119,120	O	O
+3	120,121	O	O
+]	121,122	O	O
+and	123,126	O	O
+Zhang	127,132	O	O
+et	133,135	O	O
+al	136,138	O	O
+.	138,139	O	O
+
+[	140,141	O	O
+4	141,142	O	O
+]	142,143	O	O
+took	144,148	O	O
+a	149,150	O	O
+more	151,155	O	O
+systematic	156,166	O	O
+approach	167,175	O	O
+to	176,178	O	O
+such	179,183	O	O
+glass	184,189	O	B-Material
+-	189,190	O	I-Material
+ceramic	190,197	O	I-Material
+wasteforms	198,208	O	I-Material
+.	208,209	O	O
+
+These	210,215	O	O
+wasteforms	216,226	O	O
+were	227,231	O	O
+targeted	232,240	O	O
+at	241,243	O	O
+Hanford	244,251	O	B-Material
+K	252,253	O	I-Material
+-	253,254	O	I-Material
+basin	254,259	O	I-Material
+sludges	260,267	O	I-Material
+and	268,271	O	O
+the	272,275	O	O
+immobilisation	276,290	O	B-Task
+of	291,293	O	I-Task
+the	294,297	O	I-Task
+primary	298,305	O	I-Task
+waste	306,311	O	I-Task
+stream	312,318	O	I-Task
+from	319,323	O	I-Task
+production	324,334	O	I-Task
+of	335,337	O	I-Task
+molybdenum-99	338,351	O	I-Task
+at	352,354	O	O
+the	355,358	O	O
+Australian	359,369	O	O
+Nuclear	370,377	O	O
+Science	378,385	O	O
+and	386,389	O	O
+Technology	390,400	O	O
+Organisation	401,413	O	O
+site	414,418	O	O
+in	419,421	O	O
+Sydney	422,428	O	O
+respectively	429,441	O	O
+.	441,442	O	O
+
+In	443,445	O	O
+the	446,449	O	O
+work	450,454	O	O
+of	455,457	O	O
+Carter	458,464	O	O
+et	465,467	O	O
+al	468,470	O	O
+.	470,471	O	O
+
+and	472,475	O	O
+Zhang	476,481	O	O
+et	482,484	O	O
+al	485,487	O	O
+.	487,488	O	O
+
+the	489,492	O	O
+intended	493,501	O	O
+crystalline	502,513	O	B-Material
+phase	514,519	O	O
+was	520,523	O	O
+the	524,527	O	O
+closely	528,535	O	O
+related	536,543	O	O
+titanate	544,552	O	B-Material
+pyrochlore	553,563	O	I-Material
+,	563,564	O	O
+CaUTi2O7	565,573	O	B-Material
+.	573,574	O	O
+
+The	575,578	O	O
+glass	579,584	O	B-Material
+matrix	585,591	O	I-Material
+was	592,595	O	O
+formulated	596,606	O	O
+such	607,611	O	O
+that	612,616	O	O
+the	617,620	O	O
+trivalent	621,630	O	O
+species	631,638	O	O
+in	639,641	O	O
+the	642,645	O	O
+glass	646,651	O	B-Material
+network	652,659	O	I-Material
+,	659,660	O	O
+boron	661,666	O	B-Material
+and	667,670	O	O
+aluminium	671,680	O	B-Material
+,	680,681	O	O
+were	682,686	O	O
+charge	687,693	O	O
+compensated	694,705	O	O
+on	706,708	O	O
+a	709,710	O	O
+molar	711,716	O	O
+basis	717,722	O	O
+by	723,725	O	O
+sodium	726,732	O	B-Material
+.	732,733	O	O
+
+The	734,737	O	O
+stoichiometric	738,752	O	O
+composition	753,764	O	O
+of	765,767	O	O
+the	768,771	O	O
+glass	772,777	O	B-Material
+in	778,780	O	O
+this	781,785	O	O
+wasteform	786,795	O	O
+was	796,799	O	O
+Na2AlBSi6O16	800,812	O	B-Material
+.	812,813	O	O
+
+This	814,818	O	O
+glass	819,824	O	B-Material
+provides	825,833	O	O
+a	834,835	O	O
+method	836,842	O	O
+by	843,845	O	O
+which	846,851	O	O
+the	852,855	O	O
+glass	856,861	O	B-Material
+composition	862,873	O	I-Material
+can	874,877	O	O
+be	878,880	O	O
+varied	881,887	O	O
+systematically	888,902	O	O
+.	902,903	O	O
+
+Given	904,909	O	O
+that	910,914	O	O
+the	915,918	O	O
+initial	919,926	O	O
+observations	927,939	O	O
+inferred	940,948	O	O
+an	949,951	O	O
+important	952,961	O	O
+role	962,966	O	O
+played	967,973	O	O
+by	974,976	O	O
+alumina	977,984	O	B-Material
+,	984,985	O	O
+it	986,988	O	O
+was	989,992	O	O
+decided	993,1000	O	O
+to	1001,1003	O	O
+prepare	1004,1011	O	O
+a	1012,1013	O	O
+suite	1014,1019	O	O
+of	1020,1022	O	O
+zirconolite	1023,1034	O	B-Material
+glass	1035,1040	O	I-Material
+-	1040,1041	O	I-Material
+ceramics	1041,1049	O	I-Material
+in	1050,1052	O	O
+which	1053,1058	O	O
+the	1059,1062	O	O
+glass	1063,1068	O	B-Material
+matrix	1069,1075	O	I-Material
+was	1076,1079	O	O
+defined	1080,1087	O	O
+by	1088,1090	O	O
+Na2Al1+xB1–xSi6O16	1091,1109	O	B-Material
+to	1110,1112	O	O
+investigate	1113,1124	O	B-Task
+the	1125,1128	O	I-Task
+role	1129,1133	O	I-Task
+played	1134,1140	O	I-Task
+by	1141,1143	O	I-Task
+glass	1144,1149	O	I-Task
+composition	1150,1161	O	I-Task
+in	1162,1164	O	I-Task
+controlling	1165,1176	O	I-Task
+crystalline	1177,1188	O	I-Task
+phase	1189,1194	O	I-Task
+stability	1195,1204	O	I-Task
+.	1204,1205	O	O
+
+The	1206,1209	O	O
+x=1	1210,1213	O	O
+end	1214,1217	O	O
+member	1218,1224	O	O
+gives	1225,1230	O	O
+the	1231,1234	O	O
+mineral	1235,1242	O	B-Material
+albite	1243,1249	O	I-Material
+,	1249,1250	O	O
+NaAlSi3O8	1251,1260	O	B-Material
+.	1260,1261	O	O
+
+The	1262,1265	O	O
+melting	1266,1273	O	O
+point	1274,1279	O	O
+of	1280,1282	O	O
+albite	1283,1289	O	B-Material
+is	1290,1292	O	O
+1120	1293,1297	O	O
+°	1297,1298	O	O
+C	1298,1299	O	O
+[	1300,1301	O	O
+5	1301,1302	O	O
+]	1302,1303	O	O
+and	1304,1307	O	O
+the	1308,1311	O	O
+composition	1312,1323	O	O
+cools	1324,1329	O	O
+to	1330,1332	O	O
+a	1333,1334	O	O
+glass	1335,1340	O	B-Material
+at	1341,1343	O	O
+the	1344,1347	O	O
+cooling	1348,1355	O	O
+rates	1356,1361	O	O
+that	1362,1366	O	O
+occur	1367,1372	O	O
+during	1373,1379	O	O
+a	1380,1381	O	O
+HIP	1382,1385	O	O
+cycle	1386,1391	O	O
+.	1391,1392	O	O
+
+From	1393,1397	O	O
+the	1398,1401	O	O
+available	1402,1411	O	O
+phase	1412,1417	O	O
+diagrams	1418,1426	O	O
+,	1426,1427	O	O
+[	1428,1429	O	O
+6	1429,1430	O	O
+]	1430,1431	O	O
+no	1432,1434	O	O
+boron	1435,1440	O	B-Material
+analogue	1441,1449	O	O
+for	1450,1453	O	O
+albite	1454,1460	O	B-Material
+was	1461,1464	O	O
+shown	1465,1470	O	O
+,	1470,1471	O	O
+and	1472,1475	O	O
+the	1476,1479	O	O
+liquidus	1480,1488	O	O
+estimated	1489,1498	O	O
+from	1499,1503	O	O
+the	1504,1507	O	O
+relevant	1508,1516	O	O
+phase	1517,1522	O	O
+diagram	1523,1530	O	O
+is	1531,1533	O	O
+1100–1200	1534,1543	O	O
+°	1543,1544	O	O
+C	1544,1545	O	O
+.	1545,1546	O	O
+
+No	1547,1549	O	O
+phase	1550,1555	O	O
+diagrams	1556,1564	O	O
+for	1565,1568	O	O
+the	1569,1572	O	O
+quaternary	1573,1583	O	O
+system	1584,1590	O	O
+
+Na2O	1591,1595	O	O
+
+–	1595,1596	O	O
+
+Al2O3–B2O3–SiO2	1596,1611	O	O
+could	1612,1617	O	O
+be	1618,1620	O	O
+found	1621,1626	O	O
+.	1626,1627	O	O
 
 
 -DOCSTART- (S0022311514009271)
 
-Structural	0	10	O
-properties	11	21	O
-are	22	25	O
-well	26	30	O
-reproduced	31	41	O
-by	42	44	O
-all	45	48	O
-models	49	55	O
-(	56	57	O
-Table	57	62	O
-2	63	64	O
-)	64	65	O
-,	65	66	O
-but	67	70	O
-the	71	74	O
-significant	75	86	O
-improvement	87	98	O
-of	99	101	O
-our	102	105	O
-potential	106	115	O
-stands	116	122	O
-in	123	125	O
-the	126	129	O
-elastic	130	137	O
-constants	138	147	O
-which	148	153	O
-relate	154	160	O
-to	161	163	O
-how	164	167	O
-the	168	171	O
-system	172	178	O
-responds	179	187	O
-to	188	190	O
-stress	191	197	O
-.	197	198	O
-
-Indeed	199	205	O
-,	205	206	O
-structure	207	216	O
-and	217	220	O
-elasticity	221	231	O
-are	232	235	O
-important	236	245	O
-parameters	246	256	O
-for	257	260	O
-elucidating	261	272	B-Task
-grain	273	278	I-Task
-boundary	279	287	I-Task
-stability	288	297	I-Task
-.	297	298	O
-
-All	299	302	O
-potential	303	312	O
-models	313	319	O
-correctly	320	329	O
-predict	330	337	B-Task
-the	338	341	I-Task
-relative	342	350	I-Task
-stability	351	360	I-Task
-of	361	363	I-Task
-the	364	367	I-Task
-defect	368	374	I-Task
-energies	375	383	I-Task
-.	383	384	O
-
-The	385	388	O
-Morelon	389	396	B-Process
-potential	397	406	I-Process
-model	407	412	I-Process
-performed	413	422	O
-best	423	427	O
-as	428	430	O
-it	431	433	O
-was	434	437	O
-specifically	438	450	O
-derived	451	458	O
-to	459	461	O
-replicate	462	471	B-Task
-defect	472	478	I-Task
-formation	479	488	I-Task
-energies	489	497	I-Task
-,	497	498	O
-but	499	502	O
-it	503	505	O
-largely	506	513	O
-underestimates	514	528	O
-the	529	532	O
-bulk	533	537	O
-modulus	538	545	O
-.	545	546	O
-
-The	547	550	O
-energies	551	559	O
-calculated	560	570	O
-with	571	575	O
-the	576	579	O
-Morl	580	584	B-Process
-and	585	588	I-Process
-the	589	592	I-Process
-Arima	593	598	I-Process
-potential	599	608	I-Process
-models	609	615	I-Process
-are	616	619	O
-overestimated	620	633	O
-;	633	634	O
-this	635	639	O
-is	640	642	O
-a	643	644	O
-known	645	650	O
-disadvantage	651	663	O
-of	664	666	O
-using	667	672	O
-rigid	673	678	B-Process
-ion	679	682	I-Process
-models	683	689	I-Process
-as	690	692	O
-the	693	696	O
-ionic	697	702	O
-polarisability	703	717	O
-is	718	720	O
-not	721	724	O
-taken	725	730	O
-into	731	735	O
-account	736	743	O
-.	743	744	O
-
-For	745	748	O
-completeness	749	761	O
-,	761	762	O
-we	763	765	O
-report	766	772	O
-two	773	776	O
-shell	777	782	B-Process
-models	783	789	I-Process
-with	790	794	O
-the	795	798	O
-best	799	803	O
-results	804	811	O
-given	812	817	O
-by	818	820	O
-the	821	824	O
-Catlow	825	831	B-Process
-potential	832	841	I-Process
-model	842	847	I-Process
-.	847	848	O
-
-The	849	852	O
-Morl	853	857	B-Process
-,	857	858	I-Process
-along	859	864	I-Process
-with	865	869	I-Process
-the	870	873	I-Process
-Grimes	874	880	I-Process
-shell	881	886	I-Process
-potential	887	896	I-Process
-model	897	902	I-Process
-,	902	903	O
-accurately	904	914	O
-reproduce	915	924	B-Task
-the	925	928	I-Task
-activation	929	939	I-Task
-energy	940	946	I-Task
-of	947	949	I-Task
-oxygen	950	956	I-Task
-migration	957	966	I-Task
-(	967	968	O
-the	968	971	O
-migration	972	981	B-Process
-path	982	986	I-Process
-was	987	990	O
-the	991	994	O
-lowest	995	1001	O
-energy	1002	1008	O
-and	1009	1012	O
-most	1013	1017	O
-favourable	1018	1028	O
-diffusion	1029	1038	B-Process
-mechanism	1039	1048	I-Process
-observed	1049	1057	O
-in	1058	1060	O
-bulk	1061	1065	O
-UO2	1066	1069	B-Material
-[	1070	1071	O
-1	1071	1072	O
-]	1072	1073	O
-)	1073	1074	O
-.	1074	1075	O
-
-The	1076	1079	O
-major	1080	1085	O
-deficiency	1086	1096	O
-of	1097	1099	O
-the	1100	1103	O
-Morl	1104	1108	B-Process
-potential	1109	1118	I-Process
-is	1119	1121	O
-that	1122	1126	O
-the	1127	1130	O
-cation	1131	1137	B-Material
-defect	1138	1144	O
-energies	1145	1153	O
-are	1154	1157	O
-high	1158	1162	O
-,	1162	1163	O
-and	1164	1167	O
-hence	1168	1173	O
-the	1174	1177	O
-number	1178	1184	O
-of	1185	1187	O
-cation	1188	1194	B-Material
-defects	1195	1202	O
-will	1203	1207	O
-be	1208	1210	O
-underestimated	1211	1225	O
-.	1225	1226	O
-
-However	1227	1234	O
-,	1234	1235	O
-this	1236	1240	O
-should	1241	1247	O
-not	1248	1251	O
-be	1252	1254	O
-an	1255	1257	O
-issue	1258	1263	O
-unless	1264	1270	O
-this	1271	1275	O
-model	1276	1281	O
-was	1282	1285	O
-applied	1286	1293	O
-to	1294	1296	O
-processes	1297	1306	O
-such	1307	1311	O
-as	1312	1314	O
-grain	1315	1320	B-Process
-growth	1321	1327	I-Process
-where	1328	1333	O
-cation	1334	1340	O
-mobility	1341	1349	O
-will	1350	1354	O
-contribute	1355	1365	O
-.	1365	1366	O
+Structural	0,10	O	O
+properties	11,21	O	O
+are	22,25	O	O
+well	26,30	O	O
+reproduced	31,41	O	O
+by	42,44	O	O
+all	45,48	O	O
+models	49,55	O	O
+(	56,57	O	O
+Table	57,62	O	O
+2	63,64	O	O
+)	64,65	O	O
+,	65,66	O	O
+but	67,70	O	O
+the	71,74	O	O
+significant	75,86	O	O
+improvement	87,98	O	O
+of	99,101	O	O
+our	102,105	O	O
+potential	106,115	O	O
+stands	116,122	O	O
+in	123,125	O	O
+the	126,129	O	O
+elastic	130,137	O	O
+constants	138,147	O	O
+which	148,153	O	O
+relate	154,160	O	O
+to	161,163	O	O
+how	164,167	O	O
+the	168,171	O	O
+system	172,178	O	O
+responds	179,187	O	O
+to	188,190	O	O
+stress	191,197	O	O
+.	197,198	O	O
+
+Indeed	199,205	O	O
+,	205,206	O	O
+structure	207,216	O	O
+and	217,220	O	O
+elasticity	221,231	O	O
+are	232,235	O	O
+important	236,245	O	O
+parameters	246,256	O	O
+for	257,260	O	O
+elucidating	261,272	O	B-Task
+grain	273,278	O	I-Task
+boundary	279,287	O	I-Task
+stability	288,297	O	I-Task
+.	297,298	O	O
+
+All	299,302	O	O
+potential	303,312	O	O
+models	313,319	O	O
+correctly	320,329	O	O
+predict	330,337	O	B-Task
+the	338,341	O	I-Task
+relative	342,350	O	I-Task
+stability	351,360	O	I-Task
+of	361,363	O	I-Task
+the	364,367	O	I-Task
+defect	368,374	O	I-Task
+energies	375,383	O	I-Task
+.	383,384	O	O
+
+The	385,388	O	O
+Morelon	389,396	O	B-Process
+potential	397,406	O	I-Process
+model	407,412	O	I-Process
+performed	413,422	O	O
+best	423,427	O	O
+as	428,430	O	O
+it	431,433	O	O
+was	434,437	O	O
+specifically	438,450	O	O
+derived	451,458	O	O
+to	459,461	O	O
+replicate	462,471	O	B-Task
+defect	472,478	O	I-Task
+formation	479,488	O	I-Task
+energies	489,497	O	I-Task
+,	497,498	O	O
+but	499,502	O	O
+it	503,505	O	O
+largely	506,513	O	O
+underestimates	514,528	O	O
+the	529,532	O	O
+bulk	533,537	O	O
+modulus	538,545	O	O
+.	545,546	O	O
+
+The	547,550	O	O
+energies	551,559	O	O
+calculated	560,570	O	O
+with	571,575	O	O
+the	576,579	O	O
+Morl	580,584	O	B-Process
+and	585,588	O	I-Process
+the	589,592	O	I-Process
+Arima	593,598	O	I-Process
+potential	599,608	O	I-Process
+models	609,615	O	I-Process
+are	616,619	O	O
+overestimated	620,633	O	O
+;	633,634	O	O
+this	635,639	O	O
+is	640,642	O	O
+a	643,644	O	O
+known	645,650	O	O
+disadvantage	651,663	O	O
+of	664,666	O	O
+using	667,672	O	O
+rigid	673,678	O	B-Process
+ion	679,682	O	I-Process
+models	683,689	O	I-Process
+as	690,692	O	O
+the	693,696	O	O
+ionic	697,702	O	O
+polarisability	703,717	O	O
+is	718,720	O	O
+not	721,724	O	O
+taken	725,730	O	O
+into	731,735	O	O
+account	736,743	O	O
+.	743,744	O	O
+
+For	745,748	O	O
+completeness	749,761	O	O
+,	761,762	O	O
+we	763,765	O	O
+report	766,772	O	O
+two	773,776	O	O
+shell	777,782	O	B-Process
+models	783,789	O	I-Process
+with	790,794	O	O
+the	795,798	O	O
+best	799,803	O	O
+results	804,811	O	O
+given	812,817	O	O
+by	818,820	O	O
+the	821,824	O	O
+Catlow	825,831	O	B-Process
+potential	832,841	O	I-Process
+model	842,847	O	I-Process
+.	847,848	O	O
+
+The	849,852	O	O
+Morl	853,857	O	B-Process
+,	857,858	O	I-Process
+along	859,864	O	I-Process
+with	865,869	O	I-Process
+the	870,873	O	I-Process
+Grimes	874,880	O	I-Process
+shell	881,886	O	I-Process
+potential	887,896	O	I-Process
+model	897,902	O	I-Process
+,	902,903	O	O
+accurately	904,914	O	O
+reproduce	915,924	O	B-Task
+the	925,928	O	I-Task
+activation	929,939	O	I-Task
+energy	940,946	O	I-Task
+of	947,949	O	I-Task
+oxygen	950,956	O	I-Task
+migration	957,966	O	I-Task
+(	967,968	O	O
+the	968,971	O	O
+migration	972,981	O	B-Process
+path	982,986	O	I-Process
+was	987,990	O	O
+the	991,994	O	O
+lowest	995,1001	O	O
+energy	1002,1008	O	O
+and	1009,1012	O	O
+most	1013,1017	O	O
+favourable	1018,1028	O	O
+diffusion	1029,1038	O	B-Process
+mechanism	1039,1048	O	I-Process
+observed	1049,1057	O	O
+in	1058,1060	O	O
+bulk	1061,1065	O	O
+UO2	1066,1069	O	B-Material
+[	1070,1071	O	O
+1	1071,1072	O	O
+]	1072,1073	O	O
+)	1073,1074	O	O
+.	1074,1075	O	O
+
+The	1076,1079	O	O
+major	1080,1085	O	O
+deficiency	1086,1096	O	O
+of	1097,1099	O	O
+the	1100,1103	O	O
+Morl	1104,1108	O	B-Process
+potential	1109,1118	O	I-Process
+is	1119,1121	O	O
+that	1122,1126	O	O
+the	1127,1130	O	O
+cation	1131,1137	O	B-Material
+defect	1138,1144	O	O
+energies	1145,1153	O	O
+are	1154,1157	O	O
+high	1158,1162	O	O
+,	1162,1163	O	O
+and	1164,1167	O	O
+hence	1168,1173	O	O
+the	1174,1177	O	O
+number	1178,1184	O	O
+of	1185,1187	O	O
+cation	1188,1194	O	B-Material
+defects	1195,1202	O	O
+will	1203,1207	O	O
+be	1208,1210	O	O
+underestimated	1211,1225	O	O
+.	1225,1226	O	O
+
+However	1227,1234	O	O
+,	1234,1235	O	O
+this	1236,1240	O	O
+should	1241,1247	O	O
+not	1248,1251	O	O
+be	1252,1254	O	O
+an	1255,1257	O	O
+issue	1258,1263	O	O
+unless	1264,1270	O	O
+this	1271,1275	O	O
+model	1276,1281	O	O
+was	1282,1285	O	O
+applied	1286,1293	O	O
+to	1294,1296	O	O
+processes	1297,1306	O	O
+such	1307,1311	O	O
+as	1312,1314	O	O
+grain	1315,1320	O	B-Process
+growth	1321,1327	O	I-Process
+where	1328,1333	O	O
+cation	1334,1340	O	O
+mobility	1341,1349	O	O
+will	1350,1354	O	O
+contribute	1355,1365	O	O
+.	1365,1366	O	O
 
 
 -DOCSTART- (S0022311515002354)
 
-Hydrides	0	8	B-Material
-,	8	9	O
-once	10	14	O
-precipitated	15	27	O
-in	28	30	O
-zirconium	31	40	B-Material
-,	40	41	O
-degrade	42	49	O
-the	50	53	O
-mechanical	54	64	O
-properties	65	75	O
-of	76	78	O
-a	79	80	O
-component	81	90	O
-,	90	91	O
-leading	92	99	O
-to	100	102	O
-reductions	103	113	O
-in	114	116	O
-tensile	117	124	O
-strength	125	133	O
-,	133	134	O
-ductility	135	144	O
-and	145	148	O
-fracture	149	157	O
-toughness	158	167	O
-[	168	169	O
-35–40	169	174	O
-]	174	175	O
-.	175	176	O
-
-These	177	182	O
-changes	183	190	O
-can	191	194	O
-ultimately	195	205	O
-compromise	206	216	O
-the	217	220	O
-integrity	221	230	O
-of	231	233	O
-cladding	234	242	B-Process
-during	243	249	O
-normal	250	256	O
-operating	257	266	O
-life	267	271	O
-,	272	273	O
-accident	274	282	O
-conditions	283	293	O
-and	294	297	O
-fuel	298	302	B-Material
-storage	303	310	O
-[	311	312	O
-13	312	314	O
-]	314	315	O
-.	315	316	O
-
-As	317	319	O
-well	320	324	O
-as	325	327	O
-the	328	331	O
-degradation	332	343	O
-of	344	346	O
-mechanical	347	357	O
-properties	358	368	O
-,	368	369	O
-the	370	373	O
-presence	374	382	O
-of	383	385	O
-hydrides	386	394	B-Material
-can	395	398	O
-also	399	403	O
-affect	404	410	O
-phenomena	411	420	O
-like	421	425	O
-pellet	426	432	B-Process
-cladding	433	441	I-Process
-mechanical	442	452	I-Process
-interaction	453	464	I-Process
-(	465	466	O
-PCMI	466	470	B-Process
-)	470	471	O
-;	471	472	O
-or	473	475	O
-introduce	476	485	O
-mechanisms	486	496	O
-for	497	500	O
-failure	501	508	O
-,	508	509	O
-such	510	514	O
-as	515	517	O
-delayed	518	525	B-Process
-hydride	526	533	I-Process
-cracking	534	542	I-Process
-(	543	544	O
-DHC	544	547	B-Process
-)	547	548	O
-.	548	549	O
-
-The	550	553	O
-former	554	560	O
-mechanism	561	570	O
-is	571	573	O
-the	574	577	O
-product	578	585	O
-of	586	588	O
-thermal	589	596	B-Process
-expansion	597	606	I-Process
-in	607	609	O
-fuel	610	614	B-Material
-pellets	615	622	I-Material
-introducing	623	634	O
-stresses	635	643	O
-into	644	648	O
-the	649	652	O
-cladding	653	661	B-Process
-,	661	662	O
-which	663	668	O
-may	669	672	O
-then	673	677	O
-lead	678	682	O
-to	683	685	O
-the	686	689	O
-formation	690	699	O
-of	700	702	O
-cracks	703	709	O
-in	710	712	O
-areas	713	718	O
-made	719	723	O
-brittle	724	731	O
-by	732	734	O
-large	735	740	O
-hydride	741	748	B-Material
-concentrations	749	763	O
-[	764	765	O
-13	765	767	O
-]	767	768	O
-.	768	769	O
-
-The	770	773	O
-latter	774	780	O
-mechanism	781	790	O
-,	790	791	O
-DHC	792	795	B-Process
-,	795	796	O
-is	797	799	O
-a	800	801	O
-sub	802	805	O
--	805	806	O
-critical	806	814	O
-,	814	815	O
-time	816	820	O
-dependent	821	830	O
-cracking	831	839	B-Process
-phenomenon	840	850	I-Process
-that	851	855	O
-requires	856	864	O
-long	865	869	O
-range	870	875	O
-hydrogen	876	884	B-Process
-diffusion	885	894	I-Process
-for	895	898	O
-repeated	899	907	O
-local	908	913	B-Task
-hydride	914	921	I-Task
-growth	922	928	I-Task
-and	929	932	O
-fracture	933	941	O
-at	942	944	O
-a	945	946	O
-hydrostatic	947	958	B-Process
-tensile	959	966	I-Process
-stress	967	973	I-Process
-raiser	974	980	I-Process
-[	981	982	O
-5,41,42	982	989	O
-]	989	990	O
-.	990	991	O
-
-The	992	995	O
-process	996	1003	O
-occurs	1004	1010	O
-over	1011	1015	O
-an	1016	1018	O
-extended	1019	1027	O
-period	1028	1034	O
-of	1035	1037	O
-time	1038	1042	O
-under	1043	1048	O
-a	1049	1050	O
-continuously	1051	1063	O
-applied	1064	1071	O
-load	1072	1076	O
-that	1077	1081	O
-is	1082	1084	O
-below	1085	1090	O
-the	1091	1094	O
-yield	1095	1100	O
-stress	1101	1107	O
-of	1108	1110	O
-the	1111	1114	O
-material	1115	1123	O
-[	1124	1125	O
-5,41,42	1125	1132	O
-]	1132	1133	O
-.	1133	1134	O
+Hydrides	0,8	O	B-Material
+,	8,9	O	O
+once	10,14	O	O
+precipitated	15,27	O	O
+in	28,30	O	O
+zirconium	31,40	O	B-Material
+,	40,41	O	O
+degrade	42,49	O	O
+the	50,53	O	O
+mechanical	54,64	O	O
+properties	65,75	O	O
+of	76,78	O	O
+a	79,80	O	O
+component	81,90	O	O
+,	90,91	O	O
+leading	92,99	O	O
+to	100,102	O	O
+reductions	103,113	O	O
+in	114,116	O	O
+tensile	117,124	O	O
+strength	125,133	O	O
+,	133,134	O	O
+ductility	135,144	O	O
+and	145,148	O	O
+fracture	149,157	O	O
+toughness	158,167	O	O
+[	168,169	O	O
+35–40	169,174	O	O
+]	174,175	O	O
+.	175,176	O	O
+
+These	177,182	O	O
+changes	183,190	O	O
+can	191,194	O	O
+ultimately	195,205	O	O
+compromise	206,216	O	O
+the	217,220	O	O
+integrity	221,230	O	O
+of	231,233	O	O
+cladding	234,242	O	B-Process
+during	243,249	O	O
+normal	250,256	O	O
+operating	257,266	O	O
+life	267,271	O	O
+,	272,273	O	O
+accident	274,282	O	O
+conditions	283,293	O	O
+and	294,297	O	O
+fuel	298,302	O	B-Material
+storage	303,310	O	O
+[	311,312	O	O
+13	312,314	O	O
+]	314,315	O	O
+.	315,316	O	O
+
+As	317,319	O	O
+well	320,324	O	O
+as	325,327	O	O
+the	328,331	O	O
+degradation	332,343	O	O
+of	344,346	O	O
+mechanical	347,357	O	O
+properties	358,368	O	O
+,	368,369	O	O
+the	370,373	O	O
+presence	374,382	O	O
+of	383,385	O	O
+hydrides	386,394	O	B-Material
+can	395,398	O	O
+also	399,403	O	O
+affect	404,410	O	O
+phenomena	411,420	O	O
+like	421,425	O	O
+pellet	426,432	O	B-Process
+cladding	433,441	O	I-Process
+mechanical	442,452	O	I-Process
+interaction	453,464	O	I-Process
+(	465,466	O	O
+PCMI	466,470	O	B-Process
+)	470,471	O	O
+;	471,472	O	O
+or	473,475	O	O
+introduce	476,485	O	O
+mechanisms	486,496	O	O
+for	497,500	O	O
+failure	501,508	O	O
+,	508,509	O	O
+such	510,514	O	O
+as	515,517	O	O
+delayed	518,525	O	B-Process
+hydride	526,533	O	I-Process
+cracking	534,542	O	I-Process
+(	543,544	O	O
+DHC	544,547	O	B-Process
+)	547,548	O	O
+.	548,549	O	O
+
+The	550,553	O	O
+former	554,560	O	O
+mechanism	561,570	O	O
+is	571,573	O	O
+the	574,577	O	O
+product	578,585	O	O
+of	586,588	O	O
+thermal	589,596	O	B-Process
+expansion	597,606	O	I-Process
+in	607,609	O	O
+fuel	610,614	O	B-Material
+pellets	615,622	O	I-Material
+introducing	623,634	O	O
+stresses	635,643	O	O
+into	644,648	O	O
+the	649,652	O	O
+cladding	653,661	O	B-Process
+,	661,662	O	O
+which	663,668	O	O
+may	669,672	O	O
+then	673,677	O	O
+lead	678,682	O	O
+to	683,685	O	O
+the	686,689	O	O
+formation	690,699	O	O
+of	700,702	O	O
+cracks	703,709	O	O
+in	710,712	O	O
+areas	713,718	O	O
+made	719,723	O	O
+brittle	724,731	O	O
+by	732,734	O	O
+large	735,740	O	O
+hydride	741,748	O	B-Material
+concentrations	749,763	O	O
+[	764,765	O	O
+13	765,767	O	O
+]	767,768	O	O
+.	768,769	O	O
+
+The	770,773	O	O
+latter	774,780	O	O
+mechanism	781,790	O	O
+,	790,791	O	O
+DHC	792,795	O	B-Process
+,	795,796	O	O
+is	797,799	O	O
+a	800,801	O	O
+sub	802,805	O	O
+-	805,806	O	O
+critical	806,814	O	O
+,	814,815	O	O
+time	816,820	O	O
+dependent	821,830	O	O
+cracking	831,839	O	B-Process
+phenomenon	840,850	O	I-Process
+that	851,855	O	O
+requires	856,864	O	O
+long	865,869	O	O
+range	870,875	O	O
+hydrogen	876,884	O	B-Process
+diffusion	885,894	O	I-Process
+for	895,898	O	O
+repeated	899,907	O	O
+local	908,913	O	B-Task
+hydride	914,921	O	I-Task
+growth	922,928	O	I-Task
+and	929,932	O	O
+fracture	933,941	O	O
+at	942,944	O	O
+a	945,946	O	O
+hydrostatic	947,958	O	B-Process
+tensile	959,966	O	I-Process
+stress	967,973	O	I-Process
+raiser	974,980	O	I-Process
+[	981,982	O	O
+5,41,42	982,989	O	O
+]	989,990	O	O
+.	990,991	O	O
+
+The	992,995	O	O
+process	996,1003	O	O
+occurs	1004,1010	O	O
+over	1011,1015	O	O
+an	1016,1018	O	O
+extended	1019,1027	O	O
+period	1028,1034	O	O
+of	1035,1037	O	O
+time	1038,1042	O	O
+under	1043,1048	O	O
+a	1049,1050	O	O
+continuously	1051,1063	O	O
+applied	1064,1071	O	O
+load	1072,1076	O	O
+that	1077,1081	O	O
+is	1082,1084	O	O
+below	1085,1090	O	O
+the	1091,1094	O	O
+yield	1095,1100	O	O
+stress	1101,1107	O	O
+of	1108,1110	O	O
+the	1111,1114	O	O
+material	1115,1123	O	O
+[	1124,1125	O	O
+5,41,42	1125,1132	O	O
+]	1132,1133	O	O
+.	1133,1134	O	O
 
 
 -DOCSTART- (S0022311515301653)
 
-Uranium	0	7	B-Material
-carbide	8	15	I-Material
-was	16	19	O
-traditionally	20	33	O
-used	34	38	O
-as	39	41	O
-fuel	42	46	B-Material
-kernel	47	53	I-Material
-for	54	57	O
-the	58	61	O
-US	62	64	O
-version	65	72	O
-of	73	75	O
-pebble	76	82	B-Material
-bed	83	86	I-Material
-reactors	87	95	I-Material
-as	96	98	O
-opposed	99	106	O
-to	107	109	O
-the	110	113	O
-German	114	120	O
-version	121	128	O
-based	129	134	O
-on	135	137	O
-uranium	138	145	B-Material
-dioxide	146	153	I-Material
-.	153	154	O
-
-For	155	158	O
-the	159	162	O
-Generation	163	173	B-Material
-IV	174	176	I-Material
-nuclear	177	184	I-Material
-systems	185	192	I-Material
-,	192	193	O
-mixed	194	199	B-Material
-uranium	200	207	I-Material
-–	207	208	I-Material
-plutonium	208	217	I-Material
-carbides	218	226	I-Material
-(	227	228	B-Material
-U	228	229	I-Material
-,	229	230	I-Material
-Pu	231	233	I-Material
-)	233	234	I-Material
-C	235	236	I-Material
-constitute	237	247	O
-the	248	251	O
-primary	252	259	O
-option	260	266	O
-for	267	270	O
-the	271	274	O
-gas	275	278	B-Material
-fast	279	283	I-Material
-reactors	284	292	I-Material
-(	293	294	O
-GFR	294	297	B-Material
-)	297	298	O
-and	299	302	O
-UCO	303	306	B-Material
-is	307	309	O
-the	310	313	O
-first	314	319	O
-candidate	320	329	O
-for	330	333	O
-the	334	337	O
-very	338	342	B-Material
-high	343	347	I-Material
-temperature	348	359	I-Material
-reactor	360	367	I-Material
-(	368	369	O
-VHTR	369	373	B-Material
-)	373	374	O
-.	374	375	O
-
-In	376	378	O
-the	379	382	O
-former	383	389	O
-case	390	394	O
-the	395	398	O
-fuel	399	403	B-Material
-high	404	408	O
-actinide	409	417	B-Material
-density	418	425	O
-and	426	429	O
-thermal	430	437	O
-conductivity	438	450	O
-are	451	454	O
-exploited	455	464	O
-in	465	467	O
-view	468	472	O
-of	473	475	O
-high	476	480	O
-burnup	481	487	B-Process
-performance	488	499	O
-.	499	500	O
-
-In	501	503	O
-the	504	507	O
-latter	508	514	O
-,	514	515	O
-UCO	516	519	B-Material
-is	520	522	O
-a	523	524	O
-good	525	529	O
-compromise	530	540	O
-between	541	548	O
-oxides	549	555	B-Material
-and	556	559	O
-carbides	560	568	B-Material
-both	569	573	O
-in	574	576	O
-terms	577	582	O
-of	583	585	O
-thermal	586	593	O
-conductivity	594	606	O
-and	607	610	O
-fissile	611	618	O
-density	619	626	O
-.	626	627	O
-
-However	628	635	O
-,	635	636	O
-in	637	639	O
-the	640	643	O
-American	644	652	O
-VHTR	653	657	B-Material
-design	658	664	O
-,	664	665	O
-the	666	669	O
-fuel	670	674	B-Material
-is	675	677	O
-a	678	679	O
-3:1	680	683	O
-ratio	684	689	O
-of	690	692	O
-UO2:UC2	693	700	B-Material
-for	701	704	O
-one	705	708	O
-essential	709	718	O
-reason	719	725	O
-,	725	726	O
-well	727	731	O
-explained	732	741	O
-by	742	744	O
-Olander	745	752	O
-[	753	754	O
-2	754	755	O
-]	755	756	O
-in	757	759	O
-a	760	761	O
-recent	762	768	O
-publication	769	780	O
-.	780	781	O
-
-During	782	788	O
-burnup	789	795	B-Process
-,	795	796	O
-pure	797	801	O
-UO2	802	805	B-Material
-fuel	806	810	I-Material
-tends	811	816	O
-to	817	819	O
-oxidize	820	827	O
-to	828	830	O
-UO2+x	831	836	B-Material
-.	836	837	O
-
-UO2+x	838	843	B-Material
-reacts	844	850	O
-with	851	855	O
-the	856	859	O
-pyrocarbon	860	870	B-Material
-coating	871	878	I-Material
-layer	879	884	I-Material
-according	885	894	O
-to	895	897	O
-the	898	901	O
-equilibrium:(1)UO2+x	902	922	B-Material
-+	923	924	O
-xC	925	927	B-Material
-→	928	929	O
-UO2	930	933	B-Material
-+	934	935	O
-xCO	936	939	B-Material
+Uranium	0,7	O	B-Material
+carbide	8,15	O	I-Material
+was	16,19	O	O
+traditionally	20,33	O	O
+used	34,38	O	O
+as	39,41	O	O
+fuel	42,46	O	B-Material
+kernel	47,53	O	I-Material
+for	54,57	O	O
+the	58,61	O	O
+US	62,64	O	O
+version	65,72	O	O
+of	73,75	O	O
+pebble	76,82	O	B-Material
+bed	83,86	O	I-Material
+reactors	87,95	O	I-Material
+as	96,98	O	O
+opposed	99,106	O	O
+to	107,109	O	O
+the	110,113	O	O
+German	114,120	O	O
+version	121,128	O	O
+based	129,134	O	O
+on	135,137	O	O
+uranium	138,145	O	B-Material
+dioxide	146,153	O	I-Material
+.	153,154	O	O
+
+For	155,158	O	O
+the	159,162	O	O
+Generation	163,173	O	B-Material
+IV	174,176	O	I-Material
+nuclear	177,184	O	I-Material
+systems	185,192	O	I-Material
+,	192,193	O	O
+mixed	194,199	O	B-Material
+uranium	200,207	O	I-Material
+–	207,208	O	I-Material
+plutonium	208,217	O	I-Material
+carbides	218,226	O	I-Material
+(	227,228	O	B-Material
+U	228,229	O	I-Material
+,	229,230	O	I-Material
+Pu	231,233	O	I-Material
+)	233,234	O	I-Material
+C	235,236	O	I-Material
+constitute	237,247	O	O
+the	248,251	O	O
+primary	252,259	O	O
+option	260,266	O	O
+for	267,270	O	O
+the	271,274	O	O
+gas	275,278	O	B-Material
+fast	279,283	O	I-Material
+reactors	284,292	O	I-Material
+(	293,294	O	O
+GFR	294,297	O	B-Material
+)	297,298	O	O
+and	299,302	O	O
+UCO	303,306	O	B-Material
+is	307,309	O	O
+the	310,313	O	O
+first	314,319	O	O
+candidate	320,329	O	O
+for	330,333	O	O
+the	334,337	O	O
+very	338,342	O	B-Material
+high	343,347	O	I-Material
+temperature	348,359	O	I-Material
+reactor	360,367	O	I-Material
+(	368,369	O	O
+VHTR	369,373	O	B-Material
+)	373,374	O	O
+.	374,375	O	O
+
+In	376,378	O	O
+the	379,382	O	O
+former	383,389	O	O
+case	390,394	O	O
+the	395,398	O	O
+fuel	399,403	O	B-Material
+high	404,408	O	O
+actinide	409,417	O	B-Material
+density	418,425	O	O
+and	426,429	O	O
+thermal	430,437	O	O
+conductivity	438,450	O	O
+are	451,454	O	O
+exploited	455,464	O	O
+in	465,467	O	O
+view	468,472	O	O
+of	473,475	O	O
+high	476,480	O	O
+burnup	481,487	O	B-Process
+performance	488,499	O	O
+.	499,500	O	O
+
+In	501,503	O	O
+the	504,507	O	O
+latter	508,514	O	O
+,	514,515	O	O
+UCO	516,519	O	B-Material
+is	520,522	O	O
+a	523,524	O	O
+good	525,529	O	O
+compromise	530,540	O	O
+between	541,548	O	O
+oxides	549,555	O	B-Material
+and	556,559	O	O
+carbides	560,568	O	B-Material
+both	569,573	O	O
+in	574,576	O	O
+terms	577,582	O	O
+of	583,585	O	O
+thermal	586,593	O	O
+conductivity	594,606	O	O
+and	607,610	O	O
+fissile	611,618	O	O
+density	619,626	O	O
+.	626,627	O	O
+
+However	628,635	O	O
+,	635,636	O	O
+in	637,639	O	O
+the	640,643	O	O
+American	644,652	O	O
+VHTR	653,657	O	B-Material
+design	658,664	O	O
+,	664,665	O	O
+the	666,669	O	O
+fuel	670,674	O	B-Material
+is	675,677	O	O
+a	678,679	O	O
+3:1	680,683	O	O
+ratio	684,689	O	O
+of	690,692	O	O
+UO2:UC2	693,700	O	B-Material
+for	701,704	O	O
+one	705,708	O	O
+essential	709,718	O	O
+reason	719,725	O	O
+,	725,726	O	O
+well	727,731	O	O
+explained	732,741	O	O
+by	742,744	O	O
+Olander	745,752	O	O
+[	753,754	O	O
+2	754,755	O	O
+]	755,756	O	O
+in	757,759	O	O
+a	760,761	O	O
+recent	762,768	O	O
+publication	769,780	O	O
+.	780,781	O	O
+
+During	782,788	O	O
+burnup	789,795	O	B-Process
+,	795,796	O	O
+pure	797,801	O	O
+UO2	802,805	O	B-Material
+fuel	806,810	O	I-Material
+tends	811,816	O	O
+to	817,819	O	O
+oxidize	820,827	O	O
+to	828,830	O	O
+UO2+x	831,836	O	B-Material
+.	836,837	O	O
+
+UO2+x	838,843	O	B-Material
+reacts	844,850	O	O
+with	851,855	O	O
+the	856,859	O	O
+pyrocarbon	860,870	O	B-Material
+coating	871,878	O	I-Material
+layer	879,884	O	I-Material
+according	885,894	O	O
+to	895,897	O	O
+the	898,901	O	O
+equilibrium:(1)UO2+x	902,922	O	B-Material
++	923,924	O	O
+xC	925,927	O	B-Material
+→	928,929	O	O
+UO2	930,933	O	B-Material
++	934,935	O	O
+xCO	936,939	O	B-Material
 
 
 -DOCSTART- (S0022311515303901)
 
-The	0	3	O
-Magnox	4	10	B-Material
-reactors	11	19	I-Material
-represent	20	29	O
-the	30	33	O
-first	34	39	O
-generation	40	50	O
-of	51	53	O
-gas	54	57	B-Material
--	57	58	I-Material
-cooled	58	64	I-Material
-reactors	65	73	I-Material
-in	74	76	O
-the	77	80	O
-UK	81	83	O
-that	84	88	O
-used	89	93	O
-carbon	94	100	B-Material
-dioxide	101	108	I-Material
-(	109	110	O
-CO2	110	113	B-Material
-)	113	114	O
-as	115	117	O
-the	118	121	O
-primary	122	129	O
-coolant	130	137	B-Material
-and	138	141	O
-a	142	143	O
-honeycomb	144	153	B-Material
-network	154	161	I-Material
-of	162	164	I-Material
-graphite	165	173	I-Material
-bricks	174	180	I-Material
-to	181	183	O
-provide	184	191	O
-neutron	192	199	B-Process
-moderation	200	210	I-Process
-.	210	211	O
-
-During	212	218	O
-reactor	219	226	B-Material
-operation	227	236	O
-significant	237	248	O
-amounts	249	256	O
-of	257	259	O
-carbon	260	266	B-Material
-monoxide	267	275	I-Material
-(	276	277	O
-CO	277	279	B-Material
-)	279	280	O
-was	281	284	O
-produced	285	293	O
-from	294	298	O
-the	299	302	O
-CO2	303	306	B-Material
-coolant	307	314	I-Material
-.	314	315	O
-
-This	316	320	O
-CO	321	323	B-Material
-in	324	326	O
-turn	327	331	O
-can	332	335	O
-be	336	338	O
-radiolytically	339	353	B-Process
-polymerised	354	365	I-Process
-to	366	368	O
-form	369	373	B-Task
-a	374	375	I-Task
-carbonaceous	376	388	I-Task
-deposit	389	396	I-Task
-on	397	399	I-Task
-free	400	404	I-Task
-surfaces	405	413	I-Task
-[	414	415	O
-12	415	417	O
-]	417	418	O
-.	418	419	O
-
-This	420	424	O
-non	425	428	B-Material
--	428	429	I-Material
-graphitic	429	438	I-Material
-carbon	439	445	I-Material
-deposit	446	453	I-Material
-is	454	456	O
-significantly	457	470	O
-more	471	475	O
-chemically	476	486	O
-reactive	487	495	O
-to	496	498	O
-air	499	502	B-Material
-than	503	507	O
-the	508	511	O
-underlying	512	522	O
-graphite	523	531	B-Material
-[	532	533	O
-12,13	533	538	O
-]	538	539	O
-.	539	540	O
-
-During	541	547	O
-the	548	551	O
-lifetime	552	560	O
-of	561	563	O
-some	564	568	O
-Magnox	569	575	B-Material
-reactors	576	584	I-Material
-,	584	585	O
-small	586	591	O
-quantities	592	602	O
-of	603	605	O
-methane	606	613	B-Material
-gas	614	617	I-Material
-were	618	622	O
-injected	623	631	O
-into	632	636	O
-the	637	640	O
-coolant	641	648	B-Material
-gas	649	652	I-Material
-to	653	655	O
-inhibit	656	663	B-Task
-weight	664	670	I-Task
-loss	671	675	I-Task
-of	676	678	I-Task
-the	679	682	I-Task
-graphite	683	691	I-Task
-core	692	696	I-Task
-due	697	700	I-Task
-to	701	703	I-Task
-radiolytic	704	714	I-Task
-oxidation	715	724	I-Task
-[	725	726	O
-14	726	728	O
-]	728	729	O
-.	729	730	O
-
-Methane	731	738	B-Material
-(	739	740	O
-CH4	740	743	B-Material
-)	743	744	O
-is	745	747	O
-a	748	749	O
-precursor	750	759	O
-for	760	763	O
-carbonaceous	764	776	B-Material
-deposits	777	785	I-Material
-that	786	790	O
-form	791	795	O
-a	796	797	O
-sacrificial	798	809	O
-layer	810	815	O
-protecting	816	826	O
-the	827	830	O
-underlying	831	841	O
-graphite	842	850	B-Material
-from	851	855	O
-excessive	856	865	B-Process
-weight	866	872	I-Process
-loss	873	877	I-Process
-[	878	879	O
-15	879	881	O
-]	881	882	O
-and	883	886	O
-reduction	887	896	B-Process
-in	897	899	I-Process
-mechanical	900	910	I-Process
-strength	911	919	I-Process
-[	920	921	O
-16	921	923	O
-]	923	924	O
-.	924	925	O
-
-It	926	928	O
-is	929	931	O
-assumed	932	939	O
-nitrogen	940	948	B-Process
-incorporation	949	962	I-Process
-during	963	969	I-Process
-deposit	970	977	I-Process
-formation	978	987	I-Process
-is	988	990	O
-the	991	994	O
-subsequent	995	1005	O
-production	1006	1016	O
-route	1017	1022	O
-for	1023	1026	O
-the	1027	1030	O
-high	1031	1035	O
-14C	1036	1039	O
-levels	1040	1046	O
-observed	1047	1055	O
-.	1055	1056	O
+The	0,3	O	O
+Magnox	4,10	O	B-Material
+reactors	11,19	O	I-Material
+represent	20,29	O	O
+the	30,33	O	O
+first	34,39	O	O
+generation	40,50	O	O
+of	51,53	O	O
+gas	54,57	O	B-Material
+-	57,58	O	I-Material
+cooled	58,64	O	I-Material
+reactors	65,73	O	I-Material
+in	74,76	O	O
+the	77,80	O	O
+UK	81,83	O	O
+that	84,88	O	O
+used	89,93	O	O
+carbon	94,100	O	B-Material
+dioxide	101,108	O	I-Material
+(	109,110	O	O
+CO2	110,113	O	B-Material
+)	113,114	O	O
+as	115,117	O	O
+the	118,121	O	O
+primary	122,129	O	O
+coolant	130,137	O	B-Material
+and	138,141	O	O
+a	142,143	O	O
+honeycomb	144,153	O	B-Material
+network	154,161	O	I-Material
+of	162,164	O	I-Material
+graphite	165,173	O	I-Material
+bricks	174,180	O	I-Material
+to	181,183	O	O
+provide	184,191	O	O
+neutron	192,199	O	B-Process
+moderation	200,210	O	I-Process
+.	210,211	O	O
+
+During	212,218	O	O
+reactor	219,226	O	B-Material
+operation	227,236	O	O
+significant	237,248	O	O
+amounts	249,256	O	O
+of	257,259	O	O
+carbon	260,266	O	B-Material
+monoxide	267,275	O	I-Material
+(	276,277	O	O
+CO	277,279	O	B-Material
+)	279,280	O	O
+was	281,284	O	O
+produced	285,293	O	O
+from	294,298	O	O
+the	299,302	O	O
+CO2	303,306	O	B-Material
+coolant	307,314	O	I-Material
+.	314,315	O	O
+
+This	316,320	O	O
+CO	321,323	O	B-Material
+in	324,326	O	O
+turn	327,331	O	O
+can	332,335	O	O
+be	336,338	O	O
+radiolytically	339,353	O	B-Process
+polymerised	354,365	O	I-Process
+to	366,368	O	O
+form	369,373	O	B-Task
+a	374,375	O	I-Task
+carbonaceous	376,388	O	I-Task
+deposit	389,396	O	I-Task
+on	397,399	O	I-Task
+free	400,404	O	I-Task
+surfaces	405,413	O	I-Task
+[	414,415	O	O
+12	415,417	O	O
+]	417,418	O	O
+.	418,419	O	O
+
+This	420,424	O	O
+non	425,428	O	B-Material
+-	428,429	O	I-Material
+graphitic	429,438	O	I-Material
+carbon	439,445	O	I-Material
+deposit	446,453	O	I-Material
+is	454,456	O	O
+significantly	457,470	O	O
+more	471,475	O	O
+chemically	476,486	O	O
+reactive	487,495	O	O
+to	496,498	O	O
+air	499,502	O	B-Material
+than	503,507	O	O
+the	508,511	O	O
+underlying	512,522	O	O
+graphite	523,531	O	B-Material
+[	532,533	O	O
+12,13	533,538	O	O
+]	538,539	O	O
+.	539,540	O	O
+
+During	541,547	O	O
+the	548,551	O	O
+lifetime	552,560	O	O
+of	561,563	O	O
+some	564,568	O	O
+Magnox	569,575	O	B-Material
+reactors	576,584	O	I-Material
+,	584,585	O	O
+small	586,591	O	O
+quantities	592,602	O	O
+of	603,605	O	O
+methane	606,613	O	B-Material
+gas	614,617	O	I-Material
+were	618,622	O	O
+injected	623,631	O	O
+into	632,636	O	O
+the	637,640	O	O
+coolant	641,648	O	B-Material
+gas	649,652	O	I-Material
+to	653,655	O	O
+inhibit	656,663	O	B-Task
+weight	664,670	O	I-Task
+loss	671,675	O	I-Task
+of	676,678	O	I-Task
+the	679,682	O	I-Task
+graphite	683,691	O	I-Task
+core	692,696	O	I-Task
+due	697,700	O	I-Task
+to	701,703	O	I-Task
+radiolytic	704,714	O	I-Task
+oxidation	715,724	O	I-Task
+[	725,726	O	O
+14	726,728	O	O
+]	728,729	O	O
+.	729,730	O	O
+
+Methane	731,738	O	B-Material
+(	739,740	O	O
+CH4	740,743	O	B-Material
+)	743,744	O	O
+is	745,747	O	O
+a	748,749	O	O
+precursor	750,759	O	O
+for	760,763	O	O
+carbonaceous	764,776	O	B-Material
+deposits	777,785	O	I-Material
+that	786,790	O	O
+form	791,795	O	O
+a	796,797	O	O
+sacrificial	798,809	O	O
+layer	810,815	O	O
+protecting	816,826	O	O
+the	827,830	O	O
+underlying	831,841	O	O
+graphite	842,850	O	B-Material
+from	851,855	O	O
+excessive	856,865	O	B-Process
+weight	866,872	O	I-Process
+loss	873,877	O	I-Process
+[	878,879	O	O
+15	879,881	O	O
+]	881,882	O	O
+and	883,886	O	O
+reduction	887,896	O	B-Process
+in	897,899	O	I-Process
+mechanical	900,910	O	I-Process
+strength	911,919	O	I-Process
+[	920,921	O	O
+16	921,923	O	O
+]	923,924	O	O
+.	924,925	O	O
+
+It	926,928	O	O
+is	929,931	O	O
+assumed	932,939	O	O
+nitrogen	940,948	O	B-Process
+incorporation	949,962	O	I-Process
+during	963,969	O	I-Process
+deposit	970,977	O	I-Process
+formation	978,987	O	I-Process
+is	988,990	O	O
+the	991,994	O	O
+subsequent	995,1005	O	O
+production	1006,1016	O	O
+route	1017,1022	O	O
+for	1023,1026	O	O
+the	1027,1030	O	O
+high	1031,1035	O	O
+14C	1036,1039	O	O
+levels	1040,1046	O	O
+observed	1047,1055	O	O
+.	1055,1056	O	O
 
 
 -DOCSTART- (S0029549313003439)
 
-An	0	2	O
-essential	3	12	O
-part	13	17	O
-of	18	20	O
-nuclear	21	28	B-Task
-reactor	29	36	I-Task
-analysis	37	45	I-Task
-is	46	48	O
-the	49	52	O
-prediction	53	63	B-Task
-of	64	66	I-Task
-the	67	70	I-Task
-three	71	76	I-Task
--	76	77	I-Task
-dimensional	77	88	I-Task
-space	89	94	I-Task
--	94	95	I-Task
-time	95	99	I-Task
-kinetics	100	108	I-Task
-of	109	111	I-Task
-neutrons	112	120	I-Task
-in	121	123	O
-a	124	125	O
-relatively	126	136	O
-large	137	142	O
-,	142	143	O
-finite	144	150	O
-,	150	151	O
-heterogeneous	152	165	O
-,	165	166	O
-three	167	172	O
--	172	173	O
-dimensional	173	184	O
-reactor	185	192	B-Material
-core	193	197	I-Material
-.	197	198	O
-
-In	199	201	O
-a	202	203	O
-majority	204	212	O
-of	213	215	O
-safety	216	222	B-Task
-analyses	223	231	I-Task
-the	232	235	O
-prediction	236	246	B-Task
-of	247	249	I-Task
-reactor	250	257	I-Task
-physics	258	265	I-Task
-responses	266	275	I-Task
-is	276	278	O
-performed	279	288	O
-using	289	294	O
-neutron	295	302	B-Process
-diffusion	303	312	I-Process
-theory	313	319	I-Process
-applied	320	327	I-Process
-to	328	330	I-Process
-three	331	336	I-Process
--	336	337	I-Process
-dimensional	337	348	I-Process
-systems	349	356	I-Process
-,	356	357	O
-with	358	362	O
-inputs	363	369	O
-usually	370	377	O
-derived	378	385	O
-from	386	390	O
-deterministic	391	404	B-Process
-neutron	405	412	I-Process
-transport	413	422	I-Process
-solutions	423	432	I-Process
-of	433	435	O
-two	436	439	B-Process
--	439	440	I-Process
-dimensional	440	451	I-Process
-lattice	452	459	I-Process
-geometries	460	470	I-Process
-.	470	471	O
-
-There	472	477	O
-has	478	481	O
-been	482	486	O
-increased	487	496	O
-activity	497	505	O
-related	506	513	O
-to	514	516	O
-uncertainty	517	528	O
-and	529	532	O
-sensitivity	533	544	O
-in	545	547	O
-reactor	548	555	B-Task
-physics	556	563	I-Task
-calculations	564	576	I-Task
-,	576	577	O
-and	578	581	O
-the	582	585	O
-Organization	586	598	O
-for	599	602	O
-Economic	603	611	O
-Cooperation	612	623	O
-and	624	627	O
-Development	628	639	O
-–	640	641	O
-Nuclear	642	649	O
-Energy	650	656	O
-Agency	657	663	O
-(	664	665	O
-OECD	665	669	O
--	669	670	O
-NEA	670	673	O
-)	673	674	O
-has	675	678	O
-sponsored	679	688	O
-an	689	691	O
-ongoing	692	699	O
-benchmark	700	709	O
-entitled	710	718	O
-“	719	720	O
-Uncertainty	720	731	B-Material
-Analysis	732	740	I-Material
-in	741	743	I-Material
-Modelling	744	753	I-Material
-”	753	754	O
-(	755	756	O
-UAM	756	759	B-Material
-)	759	760	O
-related	761	768	O
-to	769	771	O
-these	772	777	O
-efforts	778	785	O
-.	785	786	O
-
-The	787	790	O
-goal	791	795	O
-of	796	798	O
-this	799	803	O
-work	804	808	O
-is	809	811	O
-to	812	814	O
-offer	815	820	O
-a	821	822	O
-strategy	823	831	B-Task
-for	832	835	I-Task
-computing	836	845	I-Task
-lattice	846	853	I-Task
-sensitivities	854	867	I-Task
-using	868	873	O
-the	874	877	O
-DRAGON	878	884	B-Material
-lattice	885	892	I-Material
-code	893	897	I-Material
-and	898	901	O
-WIMS	902	906	B-Material
--	906	907	I-Material
-D4	907	909	I-Material
-multi	910	915	I-Material
--	915	916	I-Material
-group	916	921	I-Material
-library	922	929	I-Material
-.	929	930	O
-
-Results	931	938	O
-are	939	942	O
-presented	943	952	O
-with	953	957	O
-comparison	958	968	O
-to	969	971	O
-those	972	977	O
-from	978	982	O
-TSUNAMI	983	990	B-Process
-,	990	991	O
-developed	992	1001	O
-by	1002	1004	O
-Oak	1005	1008	O
-Ridge	1009	1014	O
-National	1015	1023	O
-Laboratories	1024	1036	O
-.	1036	1037	O
+An	0,2	O	O
+essential	3,12	O	O
+part	13,17	O	O
+of	18,20	O	O
+nuclear	21,28	O	B-Task
+reactor	29,36	O	I-Task
+analysis	37,45	O	I-Task
+is	46,48	O	O
+the	49,52	O	O
+prediction	53,63	O	B-Task
+of	64,66	O	I-Task
+the	67,70	O	I-Task
+three	71,76	O	I-Task
+-	76,77	O	I-Task
+dimensional	77,88	O	I-Task
+space	89,94	O	I-Task
+-	94,95	O	I-Task
+time	95,99	O	I-Task
+kinetics	100,108	O	I-Task
+of	109,111	O	I-Task
+neutrons	112,120	O	I-Task
+in	121,123	O	O
+a	124,125	O	O
+relatively	126,136	O	O
+large	137,142	O	O
+,	142,143	O	O
+finite	144,150	O	O
+,	150,151	O	O
+heterogeneous	152,165	O	O
+,	165,166	O	O
+three	167,172	O	O
+-	172,173	O	O
+dimensional	173,184	O	O
+reactor	185,192	O	B-Material
+core	193,197	O	I-Material
+.	197,198	O	O
+
+In	199,201	O	O
+a	202,203	O	O
+majority	204,212	O	O
+of	213,215	O	O
+safety	216,222	O	B-Task
+analyses	223,231	O	I-Task
+the	232,235	O	O
+prediction	236,246	O	B-Task
+of	247,249	O	I-Task
+reactor	250,257	O	I-Task
+physics	258,265	O	I-Task
+responses	266,275	O	I-Task
+is	276,278	O	O
+performed	279,288	O	O
+using	289,294	O	O
+neutron	295,302	O	B-Process
+diffusion	303,312	O	I-Process
+theory	313,319	O	I-Process
+applied	320,327	O	I-Process
+to	328,330	O	I-Process
+three	331,336	O	I-Process
+-	336,337	O	I-Process
+dimensional	337,348	O	I-Process
+systems	349,356	O	I-Process
+,	356,357	O	O
+with	358,362	O	O
+inputs	363,369	O	O
+usually	370,377	O	O
+derived	378,385	O	O
+from	386,390	O	O
+deterministic	391,404	O	B-Process
+neutron	405,412	O	I-Process
+transport	413,422	O	I-Process
+solutions	423,432	O	I-Process
+of	433,435	O	O
+two	436,439	O	B-Process
+-	439,440	O	I-Process
+dimensional	440,451	O	I-Process
+lattice	452,459	O	I-Process
+geometries	460,470	O	I-Process
+.	470,471	O	O
+
+There	472,477	O	O
+has	478,481	O	O
+been	482,486	O	O
+increased	487,496	O	O
+activity	497,505	O	O
+related	506,513	O	O
+to	514,516	O	O
+uncertainty	517,528	O	O
+and	529,532	O	O
+sensitivity	533,544	O	O
+in	545,547	O	O
+reactor	548,555	O	B-Task
+physics	556,563	O	I-Task
+calculations	564,576	O	I-Task
+,	576,577	O	O
+and	578,581	O	O
+the	582,585	O	O
+Organization	586,598	O	O
+for	599,602	O	O
+Economic	603,611	O	O
+Cooperation	612,623	O	O
+and	624,627	O	O
+Development	628,639	O	O
+–	640,641	O	O
+Nuclear	642,649	O	O
+Energy	650,656	O	O
+Agency	657,663	O	O
+(	664,665	O	O
+OECD	665,669	O	O
+-	669,670	O	O
+NEA	670,673	O	O
+)	673,674	O	O
+has	675,678	O	O
+sponsored	679,688	O	O
+an	689,691	O	O
+ongoing	692,699	O	O
+benchmark	700,709	O	O
+entitled	710,718	O	O
+“	719,720	O	O
+Uncertainty	720,731	O	B-Material
+Analysis	732,740	O	I-Material
+in	741,743	O	I-Material
+Modelling	744,753	O	I-Material
+”	753,754	O	O
+(	755,756	O	O
+UAM	756,759	O	B-Material
+)	759,760	O	O
+related	761,768	O	O
+to	769,771	O	O
+these	772,777	O	O
+efforts	778,785	O	O
+.	785,786	O	O
+
+The	787,790	O	O
+goal	791,795	O	O
+of	796,798	O	O
+this	799,803	O	O
+work	804,808	O	O
+is	809,811	O	O
+to	812,814	O	O
+offer	815,820	O	O
+a	821,822	O	O
+strategy	823,831	O	B-Task
+for	832,835	O	I-Task
+computing	836,845	O	I-Task
+lattice	846,853	O	I-Task
+sensitivities	854,867	O	I-Task
+using	868,873	O	O
+the	874,877	O	O
+DRAGON	878,884	O	B-Material
+lattice	885,892	O	I-Material
+code	893,897	O	I-Material
+and	898,901	O	O
+WIMS	902,906	O	B-Material
+-	906,907	O	I-Material
+D4	907,909	O	I-Material
+multi	910,915	O	I-Material
+-	915,916	O	I-Material
+group	916,921	O	I-Material
+library	922,929	O	I-Material
+.	929,930	O	O
+
+Results	931,938	O	O
+are	939,942	O	O
+presented	943,952	O	O
+with	953,957	O	O
+comparison	958,968	O	O
+to	969,971	O	O
+those	972,977	O	O
+from	978,982	O	O
+TSUNAMI	983,990	O	B-Process
+,	990,991	O	O
+developed	992,1001	O	O
+by	1002,1004	O	O
+Oak	1005,1008	O	O
+Ridge	1009,1014	O	O
+National	1015,1023	O	O
+Laboratories	1024,1036	O	O
+.	1036,1037	O	O
 
 
 -DOCSTART- (S0029549314002854)
 
-The	0	3	O
-pipes	4	9	B-Material
-under	10	15	O
-pressure	16	24	O
-in	25	27	O
-the	28	31	O
-RCS	32	35	B-Material
-or	36	38	O
-connected	39	48	O
-to	49	51	O
-RCS	52	55	B-Material
-are	56	59	O
-usually	60	67	O
-made	68	72	O
-of	73	75	O
-austenitic	76	86	B-Material
-or	87	89	I-Material
-austenitic	90	100	I-Material
-&	101	102	I-Material
-ferritic	103	111	I-Material
-stainless	112	121	I-Material
-steel	122	127	I-Material
-.	127	128	O
-
-Most	129	133	O
-connections	134	145	O
-are	146	149	O
-welded	150	156	O
-.	156	157	O
-
-The	158	161	O
-pipes	162	167	B-Material
-may	168	171	O
-be	172	174	O
-exposed	175	182	O
-to	183	185	O
-various	186	193	O
-degradation	194	205	O
-phenomena	206	215	O
-(	216	217	O
-diverse	217	224	O
-hazards	225	232	O
-,	232	233	O
-mechanical	234	244	O
-fatigue	245	252	O
-,	252	253	O
-thermal	254	261	O
-fatigue	262	269	O
-,	269	270	O
-stress	271	277	O
-corrosion	278	287	O
-,	287	288	O
-etc	289	292	O
-.	292	293	O
-)	293	294	O
-.	294	295	O
-
-Event	296	301	B-Task
-screening	302	311	I-Task
-in	312	314	O
-the	315	318	O
-databases	319	328	O
-showed	329	335	O
-a	336	337	O
-total	338	343	O
-of	344	346	O
-116	347	350	O
-events	351	357	O
-(	358	359	O
-33	359	361	O
-related	362	369	O
-to	370	372	O
-cracks	373	379	O
-and	380	383	O
-83	384	386	O
-to	387	389	O
-leaks	390	395	O
-)	395	396	O
-.	396	397	O
-
-Three	398	403	O
-main	404	408	O
-causes	409	415	O
-for	416	419	O
-failure	420	427	O
-were	428	432	O
-identified	433	443	O
-,	443	444	O
-namely	445	451	O
-,	451	452	O
-fatigue	453	460	O
-,	460	461	O
-corrosion	462	471	O
-and	472	475	O
-the	476	479	O
-presence	480	488	O
-of	489	491	O
-manufacturing	492	505	O
-defects	506	513	O
-.	513	514	O
-
-Human	515	520	O
-factor	521	527	O
-induced	528	535	O
-defects	536	543	O
-proved	544	550	O
-to	551	553	O
-have	554	558	O
-little	559	565	O
-impact	566	572	O
-–	573	574	O
-less	575	579	O
-than	580	584	O
-10	585	587	O
-%	587	588	O
-of	589	591	O
-the	592	595	O
-cases	596	601	O
-could	602	607	O
-be	608	610	O
-attributed	611	621	O
-to	622	624	O
-operation	625	634	O
-errors	635	641	O
-.	641	642	O
-
-Fatigue	643	650	O
-was	651	654	O
-found	655	660	O
-being	661	666	O
-induced	667	674	O
-by	675	677	O
-several	678	685	O
-factors	686	693	O
-:	693	694	O
-excessive	695	704	O
-vibration	705	714	O
-,	714	715	O
-pressure	716	724	O
-shocks	725	731	O
-and	732	735	O
-the	736	739	O
-thermal	740	747	O
-regime	748	754	O
-of	755	757	O
-operating	758	767	O
-the	768	771	O
-pipe	772	776	B-Material
-,	776	777	O
-as	778	780	O
-well	781	785	O
-as	786	788	O
-by	789	791	O
-combinations	792	804	O
-of	805	807	O
-these	808	813	O
-factors	814	821	O
-.	821	822	O
-
-Corrosion	823	832	O
-was	833	836	O
-induced	837	844	O
-,	844	845	O
-in	846	848	O
-most	849	853	O
-of	854	856	O
-the	857	860	O
-cases	861	866	O
-,	866	867	O
-by	868	870	O
-a	871	872	O
-non	873	876	O
--	876	877	O
-appropriate	877	888	O
-choice	889	895	O
-of	896	898	O
-alloys	899	905	B-Material
-while	906	911	O
-not	912	915	O
-taking	916	922	O
-into	923	927	O
-account	928	935	O
-the	936	939	O
-chemical	940	948	O
-parameters	949	959	O
-of	960	962	O
-the	963	966	O
-fluid	967	972	B-Material
-inside	973	979	O
-pipes	980	985	B-Material
-.	985	986	O
-
-Manufacturing	987	1000	O
-defects	1001	1008	O
-mostly	1009	1015	O
-dealt	1016	1021	O
-with	1022	1026	O
-welding	1027	1034	O
-related	1035	1042	O
-problems	1043	1051	O
-and	1052	1055	O
-deviation	1056	1065	O
-from	1066	1070	O
-the	1071	1074	O
-design	1075	1081	O
-documentation	1082	1095	O
-during	1096	1102	O
-post	1103	1107	O
--	1107	1108	O
-weld	1108	1112	O
-heat	1113	1117	O
-treatment	1118	1127	O
-.	1127	1128	O
+The	0,3	O	O
+pipes	4,9	O	B-Material
+under	10,15	O	O
+pressure	16,24	O	O
+in	25,27	O	O
+the	28,31	O	O
+RCS	32,35	O	B-Material
+or	36,38	O	O
+connected	39,48	O	O
+to	49,51	O	O
+RCS	52,55	O	B-Material
+are	56,59	O	O
+usually	60,67	O	O
+made	68,72	O	O
+of	73,75	O	O
+austenitic	76,86	O	B-Material
+or	87,89	O	I-Material
+austenitic	90,100	O	I-Material
+&	101,102	O	I-Material
+ferritic	103,111	O	I-Material
+stainless	112,121	O	I-Material
+steel	122,127	O	I-Material
+.	127,128	O	O
+
+Most	129,133	O	O
+connections	134,145	O	O
+are	146,149	O	O
+welded	150,156	O	O
+.	156,157	O	O
+
+The	158,161	O	O
+pipes	162,167	O	B-Material
+may	168,171	O	O
+be	172,174	O	O
+exposed	175,182	O	O
+to	183,185	O	O
+various	186,193	O	O
+degradation	194,205	O	O
+phenomena	206,215	O	O
+(	216,217	O	O
+diverse	217,224	O	O
+hazards	225,232	O	O
+,	232,233	O	O
+mechanical	234,244	O	O
+fatigue	245,252	O	O
+,	252,253	O	O
+thermal	254,261	O	O
+fatigue	262,269	O	O
+,	269,270	O	O
+stress	271,277	O	O
+corrosion	278,287	O	O
+,	287,288	O	O
+etc	289,292	O	O
+.	292,293	O	O
+)	293,294	O	O
+.	294,295	O	O
+
+Event	296,301	O	B-Task
+screening	302,311	O	I-Task
+in	312,314	O	O
+the	315,318	O	O
+databases	319,328	O	O
+showed	329,335	O	O
+a	336,337	O	O
+total	338,343	O	O
+of	344,346	O	O
+116	347,350	O	O
+events	351,357	O	O
+(	358,359	O	O
+33	359,361	O	O
+related	362,369	O	O
+to	370,372	O	O
+cracks	373,379	O	O
+and	380,383	O	O
+83	384,386	O	O
+to	387,389	O	O
+leaks	390,395	O	O
+)	395,396	O	O
+.	396,397	O	O
+
+Three	398,403	O	O
+main	404,408	O	O
+causes	409,415	O	O
+for	416,419	O	O
+failure	420,427	O	O
+were	428,432	O	O
+identified	433,443	O	O
+,	443,444	O	O
+namely	445,451	O	O
+,	451,452	O	O
+fatigue	453,460	O	O
+,	460,461	O	O
+corrosion	462,471	O	O
+and	472,475	O	O
+the	476,479	O	O
+presence	480,488	O	O
+of	489,491	O	O
+manufacturing	492,505	O	O
+defects	506,513	O	O
+.	513,514	O	O
+
+Human	515,520	O	O
+factor	521,527	O	O
+induced	528,535	O	O
+defects	536,543	O	O
+proved	544,550	O	O
+to	551,553	O	O
+have	554,558	O	O
+little	559,565	O	O
+impact	566,572	O	O
+–	573,574	O	O
+less	575,579	O	O
+than	580,584	O	O
+10	585,587	O	O
+%	587,588	O	O
+of	589,591	O	O
+the	592,595	O	O
+cases	596,601	O	O
+could	602,607	O	O
+be	608,610	O	O
+attributed	611,621	O	O
+to	622,624	O	O
+operation	625,634	O	O
+errors	635,641	O	O
+.	641,642	O	O
+
+Fatigue	643,650	O	O
+was	651,654	O	O
+found	655,660	O	O
+being	661,666	O	O
+induced	667,674	O	O
+by	675,677	O	O
+several	678,685	O	O
+factors	686,693	O	O
+:	693,694	O	O
+excessive	695,704	O	O
+vibration	705,714	O	O
+,	714,715	O	O
+pressure	716,724	O	O
+shocks	725,731	O	O
+and	732,735	O	O
+the	736,739	O	O
+thermal	740,747	O	O
+regime	748,754	O	O
+of	755,757	O	O
+operating	758,767	O	O
+the	768,771	O	O
+pipe	772,776	O	B-Material
+,	776,777	O	O
+as	778,780	O	O
+well	781,785	O	O
+as	786,788	O	O
+by	789,791	O	O
+combinations	792,804	O	O
+of	805,807	O	O
+these	808,813	O	O
+factors	814,821	O	O
+.	821,822	O	O
+
+Corrosion	823,832	O	O
+was	833,836	O	O
+induced	837,844	O	O
+,	844,845	O	O
+in	846,848	O	O
+most	849,853	O	O
+of	854,856	O	O
+the	857,860	O	O
+cases	861,866	O	O
+,	866,867	O	O
+by	868,870	O	O
+a	871,872	O	O
+non	873,876	O	O
+-	876,877	O	O
+appropriate	877,888	O	O
+choice	889,895	O	O
+of	896,898	O	O
+alloys	899,905	O	B-Material
+while	906,911	O	O
+not	912,915	O	O
+taking	916,922	O	O
+into	923,927	O	O
+account	928,935	O	O
+the	936,939	O	O
+chemical	940,948	O	O
+parameters	949,959	O	O
+of	960,962	O	O
+the	963,966	O	O
+fluid	967,972	O	B-Material
+inside	973,979	O	O
+pipes	980,985	O	B-Material
+.	985,986	O	O
+
+Manufacturing	987,1000	O	O
+defects	1001,1008	O	O
+mostly	1009,1015	O	O
+dealt	1016,1021	O	O
+with	1022,1026	O	O
+welding	1027,1034	O	O
+related	1035,1042	O	O
+problems	1043,1051	O	O
+and	1052,1055	O	O
+deviation	1056,1065	O	O
+from	1066,1070	O	O
+the	1071,1074	O	O
+design	1075,1081	O	O
+documentation	1082,1095	O	O
+during	1096,1102	O	O
+post	1103,1107	O	O
+-	1107,1108	O	O
+weld	1108,1112	O	O
+heat	1113,1117	O	O
+treatment	1118,1127	O	O
+.	1127,1128	O	O
 
 
 -DOCSTART- (S0038092X14004824)
 
-Historically	0	12	O
-,	12	13	O
-the	14	17	O
-interest	18	26	O
-in	27	29	O
-accurate	30	38	O
-measurement	39	50	O
-of	51	53	O
-DNI	54	57	O
-started	58	65	O
-decades	66	73	O
-ago	74	77	O
-.	77	78	O
-
-Early	79	84	O
-studies	85	92	O
-(	93	94	O
-e.g.	94	98	O
-,	98	99	O
-Linke	100	105	O
-,	105	106	O
-1931	107	111	O
-;	111	112	O
-Linke	113	118	O
-and	119	122	O
-Ulmitz	123	129	O
-,	129	130	O
-1940	131	135	O
-)	135	136	O
-identified	137	147	O
-the	148	151	O
-difficulty	152	162	O
-of	163	165	O
-separating	166	176	B-Task
-the	177	180	I-Task
-measurement	181	192	I-Task
-of	193	195	I-Task
-DNI	196	199	I-Task
-from	200	204	I-Task
-that	205	209	I-Task
-of	210	212	I-Task
-the	213	216	I-Task
-diffuse	217	224	I-Task
-irradiance	225	235	I-Task
-in	236	238	I-Task
-the	239	242	I-Task
-immediate	243	252	I-Task
-vicinity	253	261	I-Task
-of	262	264	I-Task
-the	265	268	I-Task
-sun	269	272	I-Task
-,	272	273	O
-hereafter	274	283	O
-referred	284	292	O
-to	293	295	O
-as	296	298	O
-circumsolar	299	310	O
-irradiance	311	321	O
-.	321	322	O
-
-Pastiels	323	331	O
-(	332	333	O
-1959	333	337	O
-)	337	338	O
-conducted	339	348	O
-a	349	350	O
-detailed	351	359	O
-study	360	365	B-Task
-of	366	368	I-Task
-the	369	372	I-Task
-geometry	373	381	I-Task
-of	382	384	I-Task
-pyrheliometers	385	399	I-Task
-,	399	400	I-Task
-and	401	404	I-Task
-how	405	408	I-Task
-that	409	413	I-Task
-geometry	414	422	I-Task
-interacted	423	433	I-Task
-with	434	438	I-Task
-circumsolar	439	450	I-Task
-radiance	451	459	I-Task
-,	459	460	O
-using	461	466	O
-simplified	467	477	O
-representations	478	493	O
-of	494	496	O
-the	497	500	O
-latter	501	507	O
-.	507	508	O
-
-Various	509	516	O
-communications	517	531	O
-were	532	536	O
-then	537	541	O
-presented	542	551	O
-at	552	554	O
-a	555	556	O
-WMO	557	560	O
-Task	561	565	O
-Group	566	571	O
-meeting	572	579	O
-held	580	584	O
-in	585	587	O
-Belgium	588	595	O
-in	596	598	O
-1966	599	603	O
-(	604	605	O
-WMO	605	608	O
-,	608	609	O
-1967	610	614	O
-)	614	615	O
-to	616	618	O
-improve	619	626	B-Task
-the	627	630	I-Task
-accuracy	631	639	I-Task
-of	640	642	I-Task
-pyrheliometric	643	657	I-Task
-measurements	658	670	I-Task
-,	670	671	I-Task
-including	672	681	I-Task
-estimates	682	691	I-Task
-of	692	694	I-Task
-the	695	698	I-Task
-circumsolar	699	710	I-Task
-enhancement	711	722	I-Task
-.	722	723	O
-
-Ångström	724	732	O
-(	733	734	O
-1961	734	738	O
-)	738	739	O
-and	740	743	O
-Ångström	744	752	O
-and	753	756	O
-Rohde	757	762	O
-(	763	764	O
-1966	764	768	O
-)	768	769	O
-later	770	775	O
-contributed	776	787	O
-to	788	790	O
-the	791	794	O
-same	795	799	O
-topic	800	805	O
-,	805	806	O
-followed	807	815	O
-years	816	821	O
-later	822	827	O
-by	828	830	O
-Major	831	836	O
-(	837	838	O
-1973	838	842	O
-,	842	843	O
-1980	844	848	O
-)	848	849	O
-.	849	850	O
-
-The	851	854	O
-whole	855	860	O
-issue	861	866	O
-of	867	869	O
-instrument	870	880	O
-geometry	881	889	O
-vs.	890	893	O
-circumsolar	894	905	O
-irradiance	906	916	O
-was	917	920	O
-complex	921	928	O
-and	929	932	O
-confusing	933	942	O
-at	943	945	O
-the	946	949	O
-time	950	954	O
-because	955	962	O
-different	963	972	O
-makes	973	978	O
-and	979	982	O
-models	983	989	O
-of	990	992	O
-instruments	993	1004	O
-had	1005	1008	O
-differing	1009	1018	O
-geometries	1019	1029	O
-.	1029	1030	O
-
-This	1031	1035	O
-was	1036	1039	O
-considerably	1040	1052	O
-simplified	1053	1063	O
-after	1064	1069	O
-WMO	1070	1073	O
-issued	1074	1080	O
-guidelines	1081	1091	O
-about	1092	1097	O
-the	1098	1101	O
-recommended	1102	1113	O
-geometry	1114	1122	O
-of	1123	1125	O
-pyrheliometers	1126	1140	B-Material
-,	1140	1141	O
-which	1142	1147	O
-led	1148	1151	O
-to	1152	1154	O
-a	1155	1156	O
-relatively	1157	1167	O
-“	1168	1169	O
-standard	1169	1177	O
-”	1177	1178	O
-geometry	1179	1187	O
-used	1188	1192	O
-in	1193	1195	O
-all	1196	1199	O
-recent	1200	1206	O
-instruments	1207	1218	O
-.	1218	1219	O
-
-The	1220	1223	O
-experimental	1224	1236	O
-issues	1237	1243	O
-related	1244	1251	O
-to	1252	1254	O
-the	1255	1258	O
-measurement	1259	1270	O
-of	1271	1273	O
-DNI	1274	1277	O
-are	1278	1281	O
-discussed	1282	1291	O
-in	1292	1294	O
-Section	1295	1302	O
-3.2	1303	1306	O
-.	1306	1307	O
+Historically	0,12	O	O
+,	12,13	O	O
+the	14,17	O	O
+interest	18,26	O	O
+in	27,29	O	O
+accurate	30,38	O	O
+measurement	39,50	O	O
+of	51,53	O	O
+DNI	54,57	O	O
+started	58,65	O	O
+decades	66,73	O	O
+ago	74,77	O	O
+.	77,78	O	O
+
+Early	79,84	O	O
+studies	85,92	O	O
+(	93,94	O	O
+e.g.	94,98	O	O
+,	98,99	O	O
+Linke	100,105	O	O
+,	105,106	O	O
+1931	107,111	O	O
+;	111,112	O	O
+Linke	113,118	O	O
+and	119,122	O	O
+Ulmitz	123,129	O	O
+,	129,130	O	O
+1940	131,135	O	O
+)	135,136	O	O
+identified	137,147	O	O
+the	148,151	O	O
+difficulty	152,162	O	O
+of	163,165	O	O
+separating	166,176	O	B-Task
+the	177,180	O	I-Task
+measurement	181,192	O	I-Task
+of	193,195	O	I-Task
+DNI	196,199	O	I-Task
+from	200,204	O	I-Task
+that	205,209	O	I-Task
+of	210,212	O	I-Task
+the	213,216	O	I-Task
+diffuse	217,224	O	I-Task
+irradiance	225,235	O	I-Task
+in	236,238	O	I-Task
+the	239,242	O	I-Task
+immediate	243,252	O	I-Task
+vicinity	253,261	O	I-Task
+of	262,264	O	I-Task
+the	265,268	O	I-Task
+sun	269,272	O	I-Task
+,	272,273	O	O
+hereafter	274,283	O	O
+referred	284,292	O	O
+to	293,295	O	O
+as	296,298	O	O
+circumsolar	299,310	O	O
+irradiance	311,321	O	O
+.	321,322	O	O
+
+Pastiels	323,331	O	O
+(	332,333	O	O
+1959	333,337	O	O
+)	337,338	O	O
+conducted	339,348	O	O
+a	349,350	O	O
+detailed	351,359	O	O
+study	360,365	O	B-Task
+of	366,368	O	I-Task
+the	369,372	O	I-Task
+geometry	373,381	O	I-Task
+of	382,384	O	I-Task
+pyrheliometers	385,399	O	I-Task
+,	399,400	O	I-Task
+and	401,404	O	I-Task
+how	405,408	O	I-Task
+that	409,413	O	I-Task
+geometry	414,422	O	I-Task
+interacted	423,433	O	I-Task
+with	434,438	O	I-Task
+circumsolar	439,450	O	I-Task
+radiance	451,459	O	I-Task
+,	459,460	O	O
+using	461,466	O	O
+simplified	467,477	O	O
+representations	478,493	O	O
+of	494,496	O	O
+the	497,500	O	O
+latter	501,507	O	O
+.	507,508	O	O
+
+Various	509,516	O	O
+communications	517,531	O	O
+were	532,536	O	O
+then	537,541	O	O
+presented	542,551	O	O
+at	552,554	O	O
+a	555,556	O	O
+WMO	557,560	O	O
+Task	561,565	O	O
+Group	566,571	O	O
+meeting	572,579	O	O
+held	580,584	O	O
+in	585,587	O	O
+Belgium	588,595	O	O
+in	596,598	O	O
+1966	599,603	O	O
+(	604,605	O	O
+WMO	605,608	O	O
+,	608,609	O	O
+1967	610,614	O	O
+)	614,615	O	O
+to	616,618	O	O
+improve	619,626	O	B-Task
+the	627,630	O	I-Task
+accuracy	631,639	O	I-Task
+of	640,642	O	I-Task
+pyrheliometric	643,657	O	I-Task
+measurements	658,670	O	I-Task
+,	670,671	O	I-Task
+including	672,681	O	I-Task
+estimates	682,691	O	I-Task
+of	692,694	O	I-Task
+the	695,698	O	I-Task
+circumsolar	699,710	O	I-Task
+enhancement	711,722	O	I-Task
+.	722,723	O	O
+
+Ångström	724,732	O	O
+(	733,734	O	O
+1961	734,738	O	O
+)	738,739	O	O
+and	740,743	O	O
+Ångström	744,752	O	O
+and	753,756	O	O
+Rohde	757,762	O	O
+(	763,764	O	O
+1966	764,768	O	O
+)	768,769	O	O
+later	770,775	O	O
+contributed	776,787	O	O
+to	788,790	O	O
+the	791,794	O	O
+same	795,799	O	O
+topic	800,805	O	O
+,	805,806	O	O
+followed	807,815	O	O
+years	816,821	O	O
+later	822,827	O	O
+by	828,830	O	O
+Major	831,836	O	O
+(	837,838	O	O
+1973	838,842	O	O
+,	842,843	O	O
+1980	844,848	O	O
+)	848,849	O	O
+.	849,850	O	O
+
+The	851,854	O	O
+whole	855,860	O	O
+issue	861,866	O	O
+of	867,869	O	O
+instrument	870,880	O	O
+geometry	881,889	O	O
+vs.	890,893	O	O
+circumsolar	894,905	O	O
+irradiance	906,916	O	O
+was	917,920	O	O
+complex	921,928	O	O
+and	929,932	O	O
+confusing	933,942	O	O
+at	943,945	O	O
+the	946,949	O	O
+time	950,954	O	O
+because	955,962	O	O
+different	963,972	O	O
+makes	973,978	O	O
+and	979,982	O	O
+models	983,989	O	O
+of	990,992	O	O
+instruments	993,1004	O	O
+had	1005,1008	O	O
+differing	1009,1018	O	O
+geometries	1019,1029	O	O
+.	1029,1030	O	O
+
+This	1031,1035	O	O
+was	1036,1039	O	O
+considerably	1040,1052	O	O
+simplified	1053,1063	O	O
+after	1064,1069	O	O
+WMO	1070,1073	O	O
+issued	1074,1080	O	O
+guidelines	1081,1091	O	O
+about	1092,1097	O	O
+the	1098,1101	O	O
+recommended	1102,1113	O	O
+geometry	1114,1122	O	O
+of	1123,1125	O	O
+pyrheliometers	1126,1140	O	B-Material
+,	1140,1141	O	O
+which	1142,1147	O	O
+led	1148,1151	O	O
+to	1152,1154	O	O
+a	1155,1156	O	O
+relatively	1157,1167	O	O
+“	1168,1169	O	O
+standard	1169,1177	O	O
+”	1177,1178	O	O
+geometry	1179,1187	O	O
+used	1188,1192	O	O
+in	1193,1195	O	O
+all	1196,1199	O	O
+recent	1200,1206	O	O
+instruments	1207,1218	O	O
+.	1218,1219	O	O
+
+The	1220,1223	O	O
+experimental	1224,1236	O	O
+issues	1237,1243	O	O
+related	1244,1251	O	O
+to	1252,1254	O	O
+the	1255,1258	O	O
+measurement	1259,1270	O	O
+of	1271,1273	O	O
+DNI	1274,1277	O	O
+are	1278,1281	O	O
+discussed	1282,1291	O	O
+in	1292,1294	O	O
+Section	1295,1302	O	O
+3.2	1303,1306	O	O
+.	1306,1307	O	O
 
 
 -DOCSTART- (S0038092X15001024)
 
-The	0	3	O
-wind	4	8	B-Process
-speed	9	14	I-Process
-and	15	18	I-Process
-cloud	19	24	I-Process
-height	25	31	I-Process
-Markov	32	38	I-Process
-chains	39	45	I-Process
-are	46	49	O
-produced	50	58	O
-accounting	59	69	O
-for	70	73	O
-seasonal	74	82	O
-variations	83	93	O
-.	93	94	O
-
-A	95	96	O
-Markov	97	103	B-Process
-chain	104	109	I-Process
-is	110	112	O
-used	113	117	O
-for	118	121	O
-each	122	126	O
-variable	127	135	O
-representing	136	148	O
-each	149	153	O
-of	154	156	O
-the	157	160	O
-four	161	165	O
-seasons	166	173	O
-,	173	174	O
-capturing	175	184	O
-the	185	188	O
-variability	189	200	O
-at	201	203	O
-different	204	213	O
-times	214	219	O
-of	220	222	O
-the	223	226	O
-year	227	231	O
-,	231	232	O
-totalling	233	242	O
-four	243	247	O
-chains	248	254	O
-each	255	259	O
-.	259	260	O
-
-The	261	264	O
-okta	265	269	B-Process
-number	270	276	I-Process
-Markov	277	283	I-Process
-chains	284	290	I-Process
-also	291	295	O
-consider	296	304	O
-the	305	308	O
-effect	309	315	O
-of	316	318	O
-season	319	325	O
-,	325	326	O
-with	327	331	O
-the	332	335	O
-inclusion	336	345	O
-of	346	348	O
-impacts	349	356	O
-from	357	361	O
-pressure	362	370	O
-and	371	374	O
-diurnal	375	382	O
-variation	383	392	O
-.	392	393	O
-
-Eight	394	399	O
-okta	400	404	B-Process
-Markov	405	411	I-Process
-chains	412	418	I-Process
-are	419	422	O
-produced	423	431	O
-that	432	436	O
-are	437	440	O
-split	441	446	O
-by	447	449	O
-above	450	455	O
-and	456	459	O
-below	460	465	O
-average	466	473	O
-pressure	474	482	O
-for	483	486	O
-each	487	491	O
-season	492	498	O
-,	498	499	O
-and	500	503	O
-four	504	508	O
-additional	509	519	O
-morning	520	527	O
-okta	528	532	B-Process
-Markov	533	539	I-Process
-chains	540	546	I-Process
-are	547	550	O
-produced	551	559	O
-to	560	562	O
-capture	563	570	O
-the	571	574	O
-diurnal	575	582	O
-variation	583	592	O
-for	593	596	O
-okta	597	601	O
-transitions	602	613	O
-between	614	621	O
-00:00	622	627	O
-and	628	631	O
-05:00am	632	639	O
-for	640	643	O
-each	644	648	O
-season	649	655	O
-.	655	656	O
-
-The	657	660	O
-intent	661	667	O
-is	668	670	O
-to	671	673	O
-capture	674	681	B-Task
-the	682	685	I-Task
-variation	686	695	I-Task
-in	696	698	I-Task
-transition	699	709	I-Task
-probability	710	721	I-Task
-that	722	726	O
-occurs	727	733	O
-as	734	736	O
-a	737	738	O
-result	739	745	O
-of	746	748	O
-weather	749	756	O
-changes	757	764	O
-due	765	768	O
-to	769	771	O
-the	772	775	O
-presence	776	784	O
-of	785	787	O
-solar	788	793	O
-energy	794	800	O
-.	800	801	O
-
-5	802	803	O
-am	803	805	O
-is	806	808	O
-considered	809	819	O
-the	820	823	O
-cut	824	827	O
--	827	828	O
-off	828	831	O
-because	832	839	O
-it	840	842	O
-is	843	845	O
-a	846	847	O
-typical	848	855	O
-sunrise	856	863	O
-in	864	866	O
-the	867	870	O
-summer	871	877	O
-for	878	881	O
-the	882	885	O
-applied	886	893	O
-study	894	899	O
-locations	900	909	O
-.	909	910	O
-
-5h	911	913	O
-represents	914	924	O
-5	925	926	O
-okta	927	931	O
-transitions	932	943	O
-and	944	947	O
-is	948	950	O
-considered	951	961	O
-an	962	964	O
-appropriate	965	976	O
-duration	977	985	O
-for	986	989	O
-the	990	993	O
-slight	994	1000	O
-propensity	1001	1011	O
-to	1012	1014	O
-shift	1015	1020	O
-towards	1021	1028	O
-an	1029	1031	O
-increased	1032	1041	O
-okta	1042	1046	O
-to	1047	1049	O
-be	1050	1052	O
-represented	1053	1064	O
-,	1064	1065	O
-Fig	1066	1069	O
-.	1069	1070	O
-
-8	1071	1072	O
-demonstrates	1073	1085	O
-the	1086	1089	O
-diurnal	1090	1097	O
-transition	1098	1108	O
-differences	1109	1120	O
-.	1120	1121	O
-
-Fig	1122	1125	O
-.	1125	1126	O
-
-2	1127	1128	O
-visually	1129	1137	O
-demonstrates	1138	1150	O
-the	1151	1154	O
-mean	1155	1159	O
-okta	1160	1164	B-Process
-Markov	1165	1171	I-Process
-chain	1172	1177	I-Process
-for	1178	1181	O
-the	1182	1185	O
-entire	1186	1192	O
-year	1193	1197	O
-,	1197	1198	O
-whilst	1199	1205	O
-the	1206	1209	O
-effect	1210	1216	O
-of	1217	1219	O
-season	1220	1226	O
-can	1227	1230	O
-be	1231	1233	O
-seen	1234	1238	O
-in	1239	1241	O
-Fig	1242	1245	O
-.	1245	1246	O
-
-11	1247	1249	O
-.	1249	1250	O
+The	0,3	O	O
+wind	4,8	O	B-Process
+speed	9,14	O	I-Process
+and	15,18	O	I-Process
+cloud	19,24	O	I-Process
+height	25,31	O	I-Process
+Markov	32,38	O	I-Process
+chains	39,45	O	I-Process
+are	46,49	O	O
+produced	50,58	O	O
+accounting	59,69	O	O
+for	70,73	O	O
+seasonal	74,82	O	O
+variations	83,93	O	O
+.	93,94	O	O
+
+A	95,96	O	O
+Markov	97,103	O	B-Process
+chain	104,109	O	I-Process
+is	110,112	O	O
+used	113,117	O	O
+for	118,121	O	O
+each	122,126	O	O
+variable	127,135	O	O
+representing	136,148	O	O
+each	149,153	O	O
+of	154,156	O	O
+the	157,160	O	O
+four	161,165	O	O
+seasons	166,173	O	O
+,	173,174	O	O
+capturing	175,184	O	O
+the	185,188	O	O
+variability	189,200	O	O
+at	201,203	O	O
+different	204,213	O	O
+times	214,219	O	O
+of	220,222	O	O
+the	223,226	O	O
+year	227,231	O	O
+,	231,232	O	O
+totalling	233,242	O	O
+four	243,247	O	O
+chains	248,254	O	O
+each	255,259	O	O
+.	259,260	O	O
+
+The	261,264	O	O
+okta	265,269	O	B-Process
+number	270,276	O	I-Process
+Markov	277,283	O	I-Process
+chains	284,290	O	I-Process
+also	291,295	O	O
+consider	296,304	O	O
+the	305,308	O	O
+effect	309,315	O	O
+of	316,318	O	O
+season	319,325	O	O
+,	325,326	O	O
+with	327,331	O	O
+the	332,335	O	O
+inclusion	336,345	O	O
+of	346,348	O	O
+impacts	349,356	O	O
+from	357,361	O	O
+pressure	362,370	O	O
+and	371,374	O	O
+diurnal	375,382	O	O
+variation	383,392	O	O
+.	392,393	O	O
+
+Eight	394,399	O	O
+okta	400,404	O	B-Process
+Markov	405,411	O	I-Process
+chains	412,418	O	I-Process
+are	419,422	O	O
+produced	423,431	O	O
+that	432,436	O	O
+are	437,440	O	O
+split	441,446	O	O
+by	447,449	O	O
+above	450,455	O	O
+and	456,459	O	O
+below	460,465	O	O
+average	466,473	O	O
+pressure	474,482	O	O
+for	483,486	O	O
+each	487,491	O	O
+season	492,498	O	O
+,	498,499	O	O
+and	500,503	O	O
+four	504,508	O	O
+additional	509,519	O	O
+morning	520,527	O	O
+okta	528,532	O	B-Process
+Markov	533,539	O	I-Process
+chains	540,546	O	I-Process
+are	547,550	O	O
+produced	551,559	O	O
+to	560,562	O	O
+capture	563,570	O	O
+the	571,574	O	O
+diurnal	575,582	O	O
+variation	583,592	O	O
+for	593,596	O	O
+okta	597,601	O	O
+transitions	602,613	O	O
+between	614,621	O	O
+00:00	622,627	O	O
+and	628,631	O	O
+05:00am	632,639	O	O
+for	640,643	O	O
+each	644,648	O	O
+season	649,655	O	O
+.	655,656	O	O
+
+The	657,660	O	O
+intent	661,667	O	O
+is	668,670	O	O
+to	671,673	O	O
+capture	674,681	O	B-Task
+the	682,685	O	I-Task
+variation	686,695	O	I-Task
+in	696,698	O	I-Task
+transition	699,709	O	I-Task
+probability	710,721	O	I-Task
+that	722,726	O	O
+occurs	727,733	O	O
+as	734,736	O	O
+a	737,738	O	O
+result	739,745	O	O
+of	746,748	O	O
+weather	749,756	O	O
+changes	757,764	O	O
+due	765,768	O	O
+to	769,771	O	O
+the	772,775	O	O
+presence	776,784	O	O
+of	785,787	O	O
+solar	788,793	O	O
+energy	794,800	O	O
+.	800,801	O	O
+
+5	802,803	O	O
+am	803,805	O	O
+is	806,808	O	O
+considered	809,819	O	O
+the	820,823	O	O
+cut	824,827	O	O
+-	827,828	O	O
+off	828,831	O	O
+because	832,839	O	O
+it	840,842	O	O
+is	843,845	O	O
+a	846,847	O	O
+typical	848,855	O	O
+sunrise	856,863	O	O
+in	864,866	O	O
+the	867,870	O	O
+summer	871,877	O	O
+for	878,881	O	O
+the	882,885	O	O
+applied	886,893	O	O
+study	894,899	O	O
+locations	900,909	O	O
+.	909,910	O	O
+
+5h	911,913	O	O
+represents	914,924	O	O
+5	925,926	O	O
+okta	927,931	O	O
+transitions	932,943	O	O
+and	944,947	O	O
+is	948,950	O	O
+considered	951,961	O	O
+an	962,964	O	O
+appropriate	965,976	O	O
+duration	977,985	O	O
+for	986,989	O	O
+the	990,993	O	O
+slight	994,1000	O	O
+propensity	1001,1011	O	O
+to	1012,1014	O	O
+shift	1015,1020	O	O
+towards	1021,1028	O	O
+an	1029,1031	O	O
+increased	1032,1041	O	O
+okta	1042,1046	O	O
+to	1047,1049	O	O
+be	1050,1052	O	O
+represented	1053,1064	O	O
+,	1064,1065	O	O
+Fig	1066,1069	O	O
+.	1069,1070	O	O
+
+8	1071,1072	O	O
+demonstrates	1073,1085	O	O
+the	1086,1089	O	O
+diurnal	1090,1097	O	O
+transition	1098,1108	O	O
+differences	1109,1120	O	O
+.	1120,1121	O	O
+
+Fig	1122,1125	O	O
+.	1125,1126	O	O
+
+2	1127,1128	O	O
+visually	1129,1137	O	O
+demonstrates	1138,1150	O	O
+the	1151,1154	O	O
+mean	1155,1159	O	O
+okta	1160,1164	O	B-Process
+Markov	1165,1171	O	I-Process
+chain	1172,1177	O	I-Process
+for	1178,1181	O	O
+the	1182,1185	O	O
+entire	1186,1192	O	O
+year	1193,1197	O	O
+,	1197,1198	O	O
+whilst	1199,1205	O	O
+the	1206,1209	O	O
+effect	1210,1216	O	O
+of	1217,1219	O	O
+season	1220,1226	O	O
+can	1227,1230	O	O
+be	1231,1233	O	O
+seen	1234,1238	O	O
+in	1239,1241	O	O
+Fig	1242,1245	O	O
+.	1245,1246	O	O
+
+11	1247,1249	O	O
+.	1249,1250	O	O
 
 
 -DOCSTART- (S0038092X15003059)
 
-In	0	2	O
-addition	3	11	O
-,	11	12	O
-the	13	16	O
-prediction	17	27	B-Task
-of	28	30	I-Task
-solar	31	36	I-Task
-cell	37	41	I-Task
-’s	41	43	I-Task
-temperature	44	55	I-Task
-is	56	58	O
-very	59	63	O
-important	64	73	O
-for	74	77	O
-the	78	81	O
-electrical	82	92	O
-characterisation	93	109	O
-of	110	112	O
-CPV	113	116	B-Process
-modules	117	124	O
-.	124	125	O
-
-Rodrigo	126	133	O
-et	134	136	O
-al	137	139	O
-.	139	140	O
-
-(	141	142	O
-2014	142	146	O
-)	146	147	O
-reviewed	148	156	O
-various	157	164	O
-methods	165	172	O
-for	173	176	O
-the	177	180	O
-calculation	181	192	B-Task
-of	193	195	I-Task
-the	196	199	I-Task
-cell	200	204	I-Task
-temperature	205	216	I-Task
-in	217	219	O
-High	220	224	B-Process
-Concentrator	225	237	I-Process
-PV	238	240	I-Process
-(	241	242	O
-HCPV	242	246	B-Process
-)	246	247	O
-modules	248	255	O
-.	255	256	O
-
-The	257	260	O
-methods	261	268	O
-were	269	273	O
-categorised	274	285	O
-based	286	291	O
-on	292	294	O
-:	294	295	O
-(	296	297	O
-1	297	298	O
-)	298	299	O
-heat	300	304	O
-sink	305	309	O
-temperature	310	321	O
-,	321	322	O
-(	323	324	O
-2	324	325	O
-)	325	326	O
-electrical	327	337	O
-parameters	338	348	O
-and	349	352	O
-(	353	354	O
-3	354	355	O
-)	355	356	O
-atmospheric	357	368	O
-parameters	369	379	O
-.	379	380	O
-
-The	381	384	O
-first	385	390	O
-two	391	394	O
-categories	395	405	O
-are	406	409	O
-based	410	415	O
-on	416	418	O
-direct	419	425	O
-measurements	426	438	O
-of	439	441	O
-CPV	442	445	B-Process
-modules	446	453	O
-in	454	456	O
-indoor	457	463	O
-or	464	466	O
-outdoor	467	474	O
-experimental	475	487	O
-setups	488	494	O
-and	495	498	O
-presented	499	508	O
-the	509	512	O
-highest	513	520	O
-degree	521	527	O
-of	528	530	O
-accuracy	531	539	O
-(	540	541	O
-Root	541	545	O
-Mean	546	550	O
-Square	551	557	O
-Error	558	563	O
-(	564	565	O
-RMSE	565	569	O
-)	569	570	O
-
-1.7–2.5	571	578	O
-K	578	579	O
-)	579	580	O
-.	580	581	O
-
-Most	582	586	O
-of	587	589	O
-the	590	593	O
-methods	594	601	O
-reviewed	602	610	O
-by	611	613	O
-Rodrigo	614	621	O
-et	622	624	O
-al	625	627	O
-.	627	628	O
-
-(	629	630	O
-2014	630	634	O
-)	634	635	O
-calculate	636	645	B-Task
-the	646	649	I-Task
-cell	650	654	I-Task
-temperature	655	666	I-Task
-at	667	669	O
-open	670	674	B-Process
--	674	675	I-Process
-circuit	675	682	I-Process
-conditions	683	693	I-Process
-.	693	694	O
-
-Methods	695	702	O
-that	703	707	O
-predict	708	715	O
-the	716	719	O
-cell	720	724	O
-temperature	725	736	O
-at	737	739	O
-maximum	740	747	B-Process
-power	748	753	I-Process
-point	754	759	I-Process
-(	760	761	O
-MPP	761	764	B-Process
-)	764	765	O
-operation	766	775	O
-offer	776	781	O
-a	782	783	O
-more	784	788	O
-realistic	789	798	O
-approach	799	807	O
-since	808	813	O
-they	814	818	O
-include	819	826	O
-the	827	830	O
-electrical	831	841	B-Process
-energy	842	848	I-Process
-generation	849	859	I-Process
-of	860	862	O
-the	863	866	O
-solar	867	872	B-Material
-cells	873	878	I-Material
-(	879	880	O
-i.e.	880	884	O
-real	885	889	O
-operating	890	899	O
-conditions	900	910	O
-)	910	911	O
-;	911	912	O
-Yandt	913	918	O
-et	919	921	O
-al	922	924	O
-.	924	925	O
-
-(	926	927	O
-2012	927	931	O
-)	931	932	O
-described	933	942	O
-a	943	944	O
-method	945	951	O
-predicting	952	962	B-Task
-the	963	966	I-Task
-cell	967	971	I-Task
-temperature	972	983	I-Task
-at	984	986	I-Task
-MPP	987	990	I-Task
-based	991	996	O
-on	997	999	O
-electrical	1000	1010	O
-parameters	1011	1021	O
-and	1022	1025	O
-Fernández	1026	1035	O
-et	1036	1038	O
-al	1039	1041	O
-.	1041	1042	O
-
-(	1043	1044	O
-2014b	1044	1049	O
-)	1049	1050	O
-based	1051	1056	O
-on	1057	1059	O
-heat	1060	1064	O
-sink	1065	1069	O
-temperature	1070	1081	O
-with	1082	1086	O
-absolute	1087	1095	O
-RMSE	1096	1100	O
-0.55–1.44K.	1101	1112	O
-Fernández	1113	1122	O
-et	1123	1125	O
-al	1126	1128	O
-.	1128	1129	O
-
-(	1130	1131	O
-2014a	1131	1136	O
-)	1136	1137	O
-also	1138	1142	O
-proposed	1143	1151	O
-an	1152	1154	O
-artificial	1155	1165	B-Process
-neural	1166	1172	I-Process
-network	1173	1180	I-Process
-model	1181	1186	I-Process
-to	1187	1189	O
-estimate	1190	1198	B-Task
-the	1199	1202	I-Task
-cell	1203	1207	I-Task
-temperature	1208	1219	I-Task
-based	1220	1225	O
-on	1226	1228	O
-atmospheric	1229	1240	O
-parameters	1241	1251	O
-and	1252	1255	O
-an	1256	1258	O
-open	1259	1263	B-Process
--	1263	1264	I-Process
-circuit	1264	1271	I-Process
-voltage	1272	1279	I-Process
-model	1280	1285	I-Process
-based	1286	1291	O
-on	1292	1294	O
-electrical	1295	1305	O
-parameters	1306	1316	O
-(	1317	1318	O
-Fernandez	1318	1327	O
-et	1328	1330	O
-al	1331	1333	O
-.	1333	1334	O
-,	1334	1335	O
-2013a	1336	1341	O
-)	1341	1342	O
-offering	1343	1351	O
-good	1352	1356	O
-accuracy	1357	1365	O
-(	1366	1367	O
-RMSE	1367	1371	O
-3.2	1372	1375	O
-K	1375	1376	O
-and	1377	1380	O
-2.5	1381	1384	O
-K	1384	1385	O
-respectively	1386	1398	O
-(	1399	1400	O
-Rodrigo	1400	1407	O
-et	1408	1410	O
-al	1411	1413	O
-.	1413	1414	O
-,	1414	1415	O
-2014	1416	1420	O
-)	1420	1421	O
-)	1421	1422	O
-.	1422	1423	O
-
-The	1424	1427	O
-main	1428	1432	O
-disadvantage	1433	1445	O
-of	1446	1448	O
-the	1449	1452	O
-aforementioned	1453	1467	O
-methods	1468	1475	O
-is	1476	1478	O
-that	1479	1483	O
-an	1484	1486	O
-experimental	1487	1499	O
-setup	1500	1505	O
-is	1506	1508	O
-required	1509	1517	O
-to	1518	1520	O
-obtain	1521	1527	O
-the	1528	1531	O
-parameters	1532	1542	O
-used	1543	1547	O
-for	1548	1551	O
-the	1552	1555	O
-cell	1556	1560	B-Task
-temperature	1561	1572	I-Task
-calculation	1573	1584	I-Task
-.	1584	1585	O
+In	0,2	O	O
+addition	3,11	O	O
+,	11,12	O	O
+the	13,16	O	O
+prediction	17,27	O	B-Task
+of	28,30	O	I-Task
+solar	31,36	O	I-Task
+cell	37,41	O	I-Task
+’s	41,43	O	I-Task
+temperature	44,55	O	I-Task
+is	56,58	O	O
+very	59,63	O	O
+important	64,73	O	O
+for	74,77	O	O
+the	78,81	O	O
+electrical	82,92	O	O
+characterisation	93,109	O	O
+of	110,112	O	O
+CPV	113,116	O	B-Process
+modules	117,124	O	O
+.	124,125	O	O
+
+Rodrigo	126,133	O	O
+et	134,136	O	O
+al	137,139	O	O
+.	139,140	O	O
+
+(	141,142	O	O
+2014	142,146	O	O
+)	146,147	O	O
+reviewed	148,156	O	O
+various	157,164	O	O
+methods	165,172	O	O
+for	173,176	O	O
+the	177,180	O	O
+calculation	181,192	O	B-Task
+of	193,195	O	I-Task
+the	196,199	O	I-Task
+cell	200,204	O	I-Task
+temperature	205,216	O	I-Task
+in	217,219	O	O
+High	220,224	O	B-Process
+Concentrator	225,237	O	I-Process
+PV	238,240	O	I-Process
+(	241,242	O	O
+HCPV	242,246	O	B-Process
+)	246,247	O	O
+modules	248,255	O	O
+.	255,256	O	O
+
+The	257,260	O	O
+methods	261,268	O	O
+were	269,273	O	O
+categorised	274,285	O	O
+based	286,291	O	O
+on	292,294	O	O
+:	294,295	O	O
+(	296,297	O	O
+1	297,298	O	O
+)	298,299	O	O
+heat	300,304	O	O
+sink	305,309	O	O
+temperature	310,321	O	O
+,	321,322	O	O
+(	323,324	O	O
+2	324,325	O	O
+)	325,326	O	O
+electrical	327,337	O	O
+parameters	338,348	O	O
+and	349,352	O	O
+(	353,354	O	O
+3	354,355	O	O
+)	355,356	O	O
+atmospheric	357,368	O	O
+parameters	369,379	O	O
+.	379,380	O	O
+
+The	381,384	O	O
+first	385,390	O	O
+two	391,394	O	O
+categories	395,405	O	O
+are	406,409	O	O
+based	410,415	O	O
+on	416,418	O	O
+direct	419,425	O	O
+measurements	426,438	O	O
+of	439,441	O	O
+CPV	442,445	O	B-Process
+modules	446,453	O	O
+in	454,456	O	O
+indoor	457,463	O	O
+or	464,466	O	O
+outdoor	467,474	O	O
+experimental	475,487	O	O
+setups	488,494	O	O
+and	495,498	O	O
+presented	499,508	O	O
+the	509,512	O	O
+highest	513,520	O	O
+degree	521,527	O	O
+of	528,530	O	O
+accuracy	531,539	O	O
+(	540,541	O	O
+Root	541,545	O	O
+Mean	546,550	O	O
+Square	551,557	O	O
+Error	558,563	O	O
+(	564,565	O	O
+RMSE	565,569	O	O
+)	569,570	O	O
+
+1.7–2.5	571,578	O	O
+K	578,579	O	O
+)	579,580	O	O
+.	580,581	O	O
+
+Most	582,586	O	O
+of	587,589	O	O
+the	590,593	O	O
+methods	594,601	O	O
+reviewed	602,610	O	O
+by	611,613	O	O
+Rodrigo	614,621	O	O
+et	622,624	O	O
+al	625,627	O	O
+.	627,628	O	O
+
+(	629,630	O	O
+2014	630,634	O	O
+)	634,635	O	O
+calculate	636,645	O	B-Task
+the	646,649	O	I-Task
+cell	650,654	O	I-Task
+temperature	655,666	O	I-Task
+at	667,669	O	O
+open	670,674	O	B-Process
+-	674,675	O	I-Process
+circuit	675,682	O	I-Process
+conditions	683,693	O	I-Process
+.	693,694	O	O
+
+Methods	695,702	O	O
+that	703,707	O	O
+predict	708,715	O	O
+the	716,719	O	O
+cell	720,724	O	O
+temperature	725,736	O	O
+at	737,739	O	O
+maximum	740,747	O	B-Process
+power	748,753	O	I-Process
+point	754,759	O	I-Process
+(	760,761	O	O
+MPP	761,764	O	B-Process
+)	764,765	O	O
+operation	766,775	O	O
+offer	776,781	O	O
+a	782,783	O	O
+more	784,788	O	O
+realistic	789,798	O	O
+approach	799,807	O	O
+since	808,813	O	O
+they	814,818	O	O
+include	819,826	O	O
+the	827,830	O	O
+electrical	831,841	O	B-Process
+energy	842,848	O	I-Process
+generation	849,859	O	I-Process
+of	860,862	O	O
+the	863,866	O	O
+solar	867,872	O	B-Material
+cells	873,878	O	I-Material
+(	879,880	O	O
+i.e.	880,884	O	O
+real	885,889	O	O
+operating	890,899	O	O
+conditions	900,910	O	O
+)	910,911	O	O
+;	911,912	O	O
+Yandt	913,918	O	O
+et	919,921	O	O
+al	922,924	O	O
+.	924,925	O	O
+
+(	926,927	O	O
+2012	927,931	O	O
+)	931,932	O	O
+described	933,942	O	O
+a	943,944	O	O
+method	945,951	O	O
+predicting	952,962	O	B-Task
+the	963,966	O	I-Task
+cell	967,971	O	I-Task
+temperature	972,983	O	I-Task
+at	984,986	O	I-Task
+MPP	987,990	O	I-Task
+based	991,996	O	O
+on	997,999	O	O
+electrical	1000,1010	O	O
+parameters	1011,1021	O	O
+and	1022,1025	O	O
+Fernández	1026,1035	O	O
+et	1036,1038	O	O
+al	1039,1041	O	O
+.	1041,1042	O	O
+
+(	1043,1044	O	O
+2014b	1044,1049	O	O
+)	1049,1050	O	O
+based	1051,1056	O	O
+on	1057,1059	O	O
+heat	1060,1064	O	O
+sink	1065,1069	O	O
+temperature	1070,1081	O	O
+with	1082,1086	O	O
+absolute	1087,1095	O	O
+RMSE	1096,1100	O	O
+0.55–1.44K.	1101,1112	O	O
+Fernández	1113,1122	O	O
+et	1123,1125	O	O
+al	1126,1128	O	O
+.	1128,1129	O	O
+
+(	1130,1131	O	O
+2014a	1131,1136	O	O
+)	1136,1137	O	O
+also	1138,1142	O	O
+proposed	1143,1151	O	O
+an	1152,1154	O	O
+artificial	1155,1165	O	B-Process
+neural	1166,1172	O	I-Process
+network	1173,1180	O	I-Process
+model	1181,1186	O	I-Process
+to	1187,1189	O	O
+estimate	1190,1198	O	B-Task
+the	1199,1202	O	I-Task
+cell	1203,1207	O	I-Task
+temperature	1208,1219	O	I-Task
+based	1220,1225	O	O
+on	1226,1228	O	O
+atmospheric	1229,1240	O	O
+parameters	1241,1251	O	O
+and	1252,1255	O	O
+an	1256,1258	O	O
+open	1259,1263	O	B-Process
+-	1263,1264	O	I-Process
+circuit	1264,1271	O	I-Process
+voltage	1272,1279	O	I-Process
+model	1280,1285	O	I-Process
+based	1286,1291	O	O
+on	1292,1294	O	O
+electrical	1295,1305	O	O
+parameters	1306,1316	O	O
+(	1317,1318	O	O
+Fernandez	1318,1327	O	O
+et	1328,1330	O	O
+al	1331,1333	O	O
+.	1333,1334	O	O
+,	1334,1335	O	O
+2013a	1336,1341	O	O
+)	1341,1342	O	O
+offering	1343,1351	O	O
+good	1352,1356	O	O
+accuracy	1357,1365	O	O
+(	1366,1367	O	O
+RMSE	1367,1371	O	O
+3.2	1372,1375	O	O
+K	1375,1376	O	O
+and	1377,1380	O	O
+2.5	1381,1384	O	O
+K	1384,1385	O	O
+respectively	1386,1398	O	O
+(	1399,1400	O	O
+Rodrigo	1400,1407	O	O
+et	1408,1410	O	O
+al	1411,1413	O	O
+.	1413,1414	O	O
+,	1414,1415	O	O
+2014	1416,1420	O	O
+)	1420,1421	O	O
+)	1421,1422	O	O
+.	1422,1423	O	O
+
+The	1424,1427	O	O
+main	1428,1432	O	O
+disadvantage	1433,1445	O	O
+of	1446,1448	O	O
+the	1449,1452	O	O
+aforementioned	1453,1467	O	O
+methods	1468,1475	O	O
+is	1476,1478	O	O
+that	1479,1483	O	O
+an	1484,1486	O	O
+experimental	1487,1499	O	O
+setup	1500,1505	O	O
+is	1506,1508	O	O
+required	1509,1517	O	O
+to	1518,1520	O	O
+obtain	1521,1527	O	O
+the	1528,1531	O	O
+parameters	1532,1542	O	O
+used	1543,1547	O	O
+for	1548,1551	O	O
+the	1552,1555	O	O
+cell	1556,1560	O	B-Task
+temperature	1561,1572	O	I-Task
+calculation	1573,1584	O	I-Task
+.	1584,1585	O	O
 
 
 -DOCSTART- (S0045782514001947)
 
-Our	0	3	O
-procedure	4	13	O
-does	14	18	O
-not	19	22	O
-address	23	30	O
-the	31	34	O
-issue	35	40	O
-of	41	43	O
-how	44	47	O
-parameterizations	48	65	B-Process
-can	66	69	O
-vary	70	74	O
-for	75	78	O
-different	79	88	O
-flow	89	93	B-Process
-types	94	99	O
-.	99	100	O
-
-However	101	108	O
-,	108	109	O
-Edeling	110	117	O
-et	118	120	O
-al	121	123	O
-.	123	124	O
-
-[	126	127	O
-9	127	128	O
-]	128	129	O
-carried	130	137	O
-out	138	141	O
-separate	142	150	O
-calibrations	151	163	O
-for	164	167	O
-a	168	169	O
-set	170	173	O
-of	174	176	O
-13	177	179	O
-boundary	180	188	B-Process
--	188	189	I-Process
-layer	189	194	I-Process
-flows	195	200	I-Process
-.	200	201	O
-
-They	202	206	O
-summarized	207	217	O
-this	218	222	O
-information	223	234	O
-across	235	241	O
-calibrations	242	254	O
-by	255	257	O
-computing	258	267	O
-Highest	268	275	B-Process
-Posterior	276	285	I-Process
--	285	286	I-Process
-Density	286	293	I-Process
-(	294	295	O
-HPD	295	298	B-Process
-)	298	299	O
-intervals	300	309	O
-,	309	310	O
-and	311	314	O
-subsequently	315	327	O
-represent	328	337	O
-the	338	341	O
-total	342	347	O
-solution	348	356	O
-uncertainty	357	368	O
-with	369	373	O
-a	374	375	O
-probability	376	387	B-Material
--	387	388	I-Material
-box	388	391	I-Material
-(	392	393	O
-p	393	394	B-Material
--	394	395	I-Material
-box	395	398	I-Material
-)	398	399	O
-.	399	400	O
-
-This	401	405	O
-p	406	407	B-Material
--	407	408	I-Material
-box	408	411	I-Material
-represents	412	422	O
-both	423	427	O
-parameter	428	437	O
-variability	438	449	O
-across	450	456	O
-flows	457	462	B-Process
-,	462	463	O
-and	464	467	O
-epistemic	468	477	O
-uncertainty	478	489	O
-within	490	496	O
-each	497	501	O
-calibration	502	513	O
-.	513	514	O
-
-A	515	516	O
-prediction	517	527	O
-of	528	530	O
-a	531	532	O
-new	533	536	O
-boundary	537	545	B-Process
--	545	546	I-Process
-layer	546	551	I-Process
-flow	552	556	I-Process
-is	557	559	O
-made	560	564	O
-with	565	569	O
-uncertainty	570	581	O
-bars	582	586	O
-generated	587	596	O
-from	597	601	O
-this	602	606	O
-uncertainty	607	618	O
-information	619	630	O
-,	630	631	O
-and	632	635	O
-the	636	639	O
-resulting	640	649	O
-error	650	655	O
-estimate	656	664	O
-is	665	667	O
-shown	668	673	O
-to	674	676	O
-be	677	679	O
-consistent	680	690	O
-with	691	695	O
-measurement	696	707	O
-data	708	712	O
-.	712	713	O
-
-This	714	718	O
-approach	719	727	O
-is	728	730	O
-helpful	731	738	O
-,	738	739	O
-but	740	743	O
-it	744	746	O
-might	747	752	O
-be	753	755	O
-extended	756	764	O
-further	765	772	O
-by	773	775	O
-modelling	776	785	B-Process
-proximity	786	795	I-Process
-across	796	802	I-Process
-flows	803	808	I-Process
-through	809	816	O
-a	817	818	O
-distance	819	827	O
-that	828	832	O
-would	833	838	O
-relate	839	845	O
-to	846	848	O
-the	849	852	O
-flow	853	857	B-Process
-characteristics	858	873	O
-in	874	876	O
-order	877	882	O
-to	883	885	O
-borrow	886	892	O
-strength	893	901	O
-across	902	908	O
-calibrations	909	921	O
-instead	922	929	O
-of	930	932	O
-splitting	933	942	B-Process
-the	943	946	I-Process
-calibrations	947	959	I-Process
-and	960	963	I-Process
-then	964	968	I-Process
-merging	969	976	I-Process
-the	977	980	I-Process
-outcomes	981	989	I-Process
-afterwards	990	1000	O
-.	1000	1001	O
-
-This	1002	1006	O
-is	1007	1009	O
-a	1010	1011	O
-challenging	1012	1023	O
-but	1024	1027	O
-attractive	1028	1038	O
-venue	1039	1044	O
-for	1045	1048	O
-future	1049	1055	O
-research	1056	1064	O
-.	1064	1065	O
+Our	0,3	O	O
+procedure	4,13	O	O
+does	14,18	O	O
+not	19,22	O	O
+address	23,30	O	O
+the	31,34	O	O
+issue	35,40	O	O
+of	41,43	O	O
+how	44,47	O	O
+parameterizations	48,65	O	B-Process
+can	66,69	O	O
+vary	70,74	O	O
+for	75,78	O	O
+different	79,88	O	O
+flow	89,93	O	B-Process
+types	94,99	O	O
+.	99,100	O	O
+
+However	101,108	O	O
+,	108,109	O	O
+Edeling	110,117	O	O
+et	118,120	O	O
+al	121,123	O	O
+.	123,124	O	O
+
+[	126,127	O	O
+9	127,128	O	O
+]	128,129	O	O
+carried	130,137	O	O
+out	138,141	O	O
+separate	142,150	O	O
+calibrations	151,163	O	O
+for	164,167	O	O
+a	168,169	O	O
+set	170,173	O	O
+of	174,176	O	O
+13	177,179	O	O
+boundary	180,188	O	B-Process
+-	188,189	O	I-Process
+layer	189,194	O	I-Process
+flows	195,200	O	I-Process
+.	200,201	O	O
+
+They	202,206	O	O
+summarized	207,217	O	O
+this	218,222	O	O
+information	223,234	O	O
+across	235,241	O	O
+calibrations	242,254	O	O
+by	255,257	O	O
+computing	258,267	O	O
+Highest	268,275	O	B-Process
+Posterior	276,285	O	I-Process
+-	285,286	O	I-Process
+Density	286,293	O	I-Process
+(	294,295	O	O
+HPD	295,298	O	B-Process
+)	298,299	O	O
+intervals	300,309	O	O
+,	309,310	O	O
+and	311,314	O	O
+subsequently	315,327	O	O
+represent	328,337	O	O
+the	338,341	O	O
+total	342,347	O	O
+solution	348,356	O	O
+uncertainty	357,368	O	O
+with	369,373	O	O
+a	374,375	O	O
+probability	376,387	O	B-Material
+-	387,388	O	I-Material
+box	388,391	O	I-Material
+(	392,393	O	O
+p	393,394	O	B-Material
+-	394,395	O	I-Material
+box	395,398	O	I-Material
+)	398,399	O	O
+.	399,400	O	O
+
+This	401,405	O	O
+p	406,407	O	B-Material
+-	407,408	O	I-Material
+box	408,411	O	I-Material
+represents	412,422	O	O
+both	423,427	O	O
+parameter	428,437	O	O
+variability	438,449	O	O
+across	450,456	O	O
+flows	457,462	O	B-Process
+,	462,463	O	O
+and	464,467	O	O
+epistemic	468,477	O	O
+uncertainty	478,489	O	O
+within	490,496	O	O
+each	497,501	O	O
+calibration	502,513	O	O
+.	513,514	O	O
+
+A	515,516	O	O
+prediction	517,527	O	O
+of	528,530	O	O
+a	531,532	O	O
+new	533,536	O	O
+boundary	537,545	O	B-Process
+-	545,546	O	I-Process
+layer	546,551	O	I-Process
+flow	552,556	O	I-Process
+is	557,559	O	O
+made	560,564	O	O
+with	565,569	O	O
+uncertainty	570,581	O	O
+bars	582,586	O	O
+generated	587,596	O	O
+from	597,601	O	O
+this	602,606	O	O
+uncertainty	607,618	O	O
+information	619,630	O	O
+,	630,631	O	O
+and	632,635	O	O
+the	636,639	O	O
+resulting	640,649	O	O
+error	650,655	O	O
+estimate	656,664	O	O
+is	665,667	O	O
+shown	668,673	O	O
+to	674,676	O	O
+be	677,679	O	O
+consistent	680,690	O	O
+with	691,695	O	O
+measurement	696,707	O	O
+data	708,712	O	O
+.	712,713	O	O
+
+This	714,718	O	O
+approach	719,727	O	O
+is	728,730	O	O
+helpful	731,738	O	O
+,	738,739	O	O
+but	740,743	O	O
+it	744,746	O	O
+might	747,752	O	O
+be	753,755	O	O
+extended	756,764	O	O
+further	765,772	O	O
+by	773,775	O	O
+modelling	776,785	O	B-Process
+proximity	786,795	O	I-Process
+across	796,802	O	I-Process
+flows	803,808	O	I-Process
+through	809,816	O	O
+a	817,818	O	O
+distance	819,827	O	O
+that	828,832	O	O
+would	833,838	O	O
+relate	839,845	O	O
+to	846,848	O	O
+the	849,852	O	O
+flow	853,857	O	B-Process
+characteristics	858,873	O	O
+in	874,876	O	O
+order	877,882	O	O
+to	883,885	O	O
+borrow	886,892	O	O
+strength	893,901	O	O
+across	902,908	O	O
+calibrations	909,921	O	O
+instead	922,929	O	O
+of	930,932	O	O
+splitting	933,942	O	B-Process
+the	943,946	O	I-Process
+calibrations	947,959	O	I-Process
+and	960,963	O	I-Process
+then	964,968	O	I-Process
+merging	969,976	O	I-Process
+the	977,980	O	I-Process
+outcomes	981,989	O	I-Process
+afterwards	990,1000	O	O
+.	1000,1001	O	O
+
+This	1002,1006	O	O
+is	1007,1009	O	O
+a	1010,1011	O	O
+challenging	1012,1023	O	O
+but	1024,1027	O	O
+attractive	1028,1038	O	O
+venue	1039,1044	O	O
+for	1045,1048	O	O
+future	1049,1055	O	O
+research	1056,1064	O	O
+.	1064,1065	O	O
 
 
 -DOCSTART- (S0045782515001322)
 
-One	0	3	O
-of	4	6	O
-the	7	10	O
-most	11	15	O
-important	16	25	O
-outcomes	26	34	O
-of	35	37	O
-the	38	41	O
-comparative	42	53	B-Task
-analysis	54	62	I-Task
-is	63	65	O
-the	66	69	O
-fact	70	74	O
-that	75	79	O
-in	80	82	O
-all	83	86	O
-tested	87	93	O
-cases	94	99	O
-the	100	103	O
-use	104	107	O
-of	108	110	O
-FM	111	113	B-Process
-is	114	116	O
-associated	117	127	O
-with	128	132	O
-a	133	134	O
-dramatic	135	143	O
-reduction	144	153	O
-in	154	156	O
-computational	157	170	O
-time	171	175	O
-when	176	180	O
-compared	181	189	O
-with	190	194	O
-FE	195	197	B-Process
-,	197	198	O
-generally	199	208	O
-being	209	214	O
-in	215	217	O
-the	218	221	O
-order	222	227	O
-of	228	230	O
-seconds	231	238	O
-for	239	242	O
-FM	243	245	B-Process
-and	246	249	O
-in	250	252	O
-the	253	256	O
-order	257	262	O
-of	263	265	O
-hours	266	271	O
-for	272	275	O
-FE	276	278	B-Process
-.	278	279	O
-
-Table	280	285	O
-1	286	287	O
-reports	288	295	O
-the	296	299	O
-timings	300	307	O
-of	308	310	O
-the	311	314	O
-simulations	315	326	O
-for	327	330	O
-both	331	335	O
-methods	336	343	O
-.	343	344	O
-
-Free	345	349	O
-expansion	350	359	O
-is	360	362	O
-the	363	366	O
-fastest	367	374	O
-case	375	379	O
-,	379	380	O
-where	381	386	O
-FM	387	389	B-Process
-reaches	390	397	O
-the	398	401	O
-load	402	406	O
--	406	407	O
-free	407	411	O
-configuration	412	425	O
-in	426	428	O
-just	429	433	O
-2	434	435	O
-s	436	437	O
-,	437	438	O
-while	439	444	O
-simulations	445	456	B-Process
-inside	457	463	O
-the	464	467	O
-vessels	468	475	B-Material
-with	476	480	O
-the	481	484	O
-diameter	485	493	O
-of	494	496	O
-around	497	503	O
-30	504	506	O
-mm	507	509	O
-take	510	514	O
-approximately	515	528	O
-30	529	531	O
-s.	532	534	O
-
-Most	535	539	O
-of	540	542	O
-the	543	546	O
-execution	547	556	O
-time	557	561	O
-of	562	564	O
-the	565	568	O
-FM	569	571	B-Process
-deployment	572	582	I-Process
-algorithm	583	592	I-Process
-is	593	595	O
-dedicated	596	605	O
-to	606	608	O
-the	609	612	O
-contact	613	620	O
-check	621	626	O
-and	627	630	O
-calculations	631	643	O
-of	644	646	O
-the	647	650	O
-implications	651	663	O
-the	664	667	O
-vessel	668	674	B-Material
-wall	675	679	I-Material
-has	680	683	O
-on	684	686	O
-the	687	690	O
-stent	691	696	O
-structure	697	706	O
-.	706	707	O
-
-Interestingly	708	721	O
-,	721	722	O
-in	723	725	O
-both	726	730	O
-methods	731	738	O
-,	738	739	O
-the	740	743	O
-highest	744	751	O
-computational	752	765	O
-time	766	770	O
-(	771	772	O
-i.e.	772	776	O
-,	776	777	O
-curved	778	784	B-Material
-vessels	785	792	I-Material
-)	792	793	O
-is	794	796	O
-not	797	800	O
-associated	801	811	O
-with	812	816	O
-the	817	820	O
-most	821	825	O
-complex	826	833	O
-geometry	834	842	O
-(	843	844	O
-i.e.	844	848	O
-,	848	849	O
-patient	850	857	O
--	857	858	O
-specific	858	866	O
-case	867	871	O
-of	872	874	O
-aortic	875	881	O
-dissection	882	892	O
-)	892	893	O
-.	893	894	O
-
-Another	895	902	O
-fact	903	907	O
-worth	908	913	O
-mentioning	914	924	O
-is	925	927	O
-the	928	931	O
-relation	932	940	O
-of	941	943	O
-the	944	947	O
-computational	948	961	O
-time	962	966	O
-to	967	969	O
-the	970	973	O
-diameter	974	982	O
-of	983	985	O
-the	986	989	O
-vessel	990	996	B-Material
-in	997	999	O
-both	1000	1004	O
-methods	1005	1012	O
-.	1012	1013	O
-
-While	1014	1019	O
-the	1020	1023	O
-computational	1024	1037	O
-time	1038	1042	O
-of	1043	1045	O
-FM	1046	1048	B-Process
-appeared	1049	1057	O
-to	1058	1060	O
-be	1061	1063	O
-directly	1064	1072	O
-related	1073	1080	O
-to	1081	1083	O
-the	1084	1087	O
-diameter	1088	1096	O
-of	1097	1099	O
-the	1100	1103	O
-vessel	1104	1110	B-Material
-,	1110	1111	O
-no	1112	1114	O
-immediate	1115	1124	O
-relation	1125	1133	O
-was	1134	1137	O
-found	1138	1143	O
-for	1144	1147	O
-the	1148	1151	O
-FE	1152	1154	B-Process
-simulations	1155	1166	I-Process
-.	1166	1167	O
-
-Such	1168	1172	O
-outcome	1173	1180	O
-is	1181	1183	O
-probably	1184	1192	O
-related	1193	1200	O
-to	1201	1203	O
-the	1204	1207	O
-simplified	1208	1218	B-Process
-contact	1219	1226	I-Process
-model	1227	1232	I-Process
-used	1233	1237	O
-by	1238	1240	O
-FM	1241	1243	B-Process
-,	1243	1244	O
-which	1245	1250	O
-makes	1251	1256	O
-the	1257	1260	O
-stent	1261	1266	B-Process
--	1266	1267	I-Process
-graft	1267	1272	I-Process
-expansion	1273	1282	I-Process
-terminate	1283	1292	O
-once	1293	1297	O
-the	1298	1301	O
-nodes	1302	1307	B-Material
-come	1308	1312	O
-in	1313	1315	O
-contact	1316	1323	O
-with	1324	1328	O
-the	1329	1332	O
-vessel	1333	1339	B-Material
-wall	1340	1344	I-Material
-.	1344	1345	O
-
-On	1346	1348	O
-the	1349	1352	O
-contrary	1353	1361	O
-,	1361	1362	O
-it	1363	1365	O
-is	1366	1368	O
-well	1369	1373	O
-known	1374	1379	O
-that	1380	1384	O
-the	1385	1388	O
-contact	1389	1396	B-Process
-algorithm	1397	1406	I-Process
-used	1407	1411	O
-in	1412	1414	O
-the	1415	1418	O
-FE	1419	1421	B-Process
-analyses	1422	1430	I-Process
-increases	1431	1440	O
-the	1441	1444	O
-computational	1445	1458	O
-cost	1459	1463	O
-of	1464	1466	O
-the	1467	1470	O
-simulations	1471	1482	B-Process
-.	1482	1483	O
+One	0,3	O	O
+of	4,6	O	O
+the	7,10	O	O
+most	11,15	O	O
+important	16,25	O	O
+outcomes	26,34	O	O
+of	35,37	O	O
+the	38,41	O	O
+comparative	42,53	O	B-Task
+analysis	54,62	O	I-Task
+is	63,65	O	O
+the	66,69	O	O
+fact	70,74	O	O
+that	75,79	O	O
+in	80,82	O	O
+all	83,86	O	O
+tested	87,93	O	O
+cases	94,99	O	O
+the	100,103	O	O
+use	104,107	O	O
+of	108,110	O	O
+FM	111,113	O	B-Process
+is	114,116	O	O
+associated	117,127	O	O
+with	128,132	O	O
+a	133,134	O	O
+dramatic	135,143	O	O
+reduction	144,153	O	O
+in	154,156	O	O
+computational	157,170	O	O
+time	171,175	O	O
+when	176,180	O	O
+compared	181,189	O	O
+with	190,194	O	O
+FE	195,197	O	B-Process
+,	197,198	O	O
+generally	199,208	O	O
+being	209,214	O	O
+in	215,217	O	O
+the	218,221	O	O
+order	222,227	O	O
+of	228,230	O	O
+seconds	231,238	O	O
+for	239,242	O	O
+FM	243,245	O	B-Process
+and	246,249	O	O
+in	250,252	O	O
+the	253,256	O	O
+order	257,262	O	O
+of	263,265	O	O
+hours	266,271	O	O
+for	272,275	O	O
+FE	276,278	O	B-Process
+.	278,279	O	O
+
+Table	280,285	O	O
+1	286,287	O	O
+reports	288,295	O	O
+the	296,299	O	O
+timings	300,307	O	O
+of	308,310	O	O
+the	311,314	O	O
+simulations	315,326	O	O
+for	327,330	O	O
+both	331,335	O	O
+methods	336,343	O	O
+.	343,344	O	O
+
+Free	345,349	O	O
+expansion	350,359	O	O
+is	360,362	O	O
+the	363,366	O	O
+fastest	367,374	O	O
+case	375,379	O	O
+,	379,380	O	O
+where	381,386	O	O
+FM	387,389	O	B-Process
+reaches	390,397	O	O
+the	398,401	O	O
+load	402,406	O	O
+-	406,407	O	O
+free	407,411	O	O
+configuration	412,425	O	O
+in	426,428	O	O
+just	429,433	O	O
+2	434,435	O	O
+s	436,437	O	O
+,	437,438	O	O
+while	439,444	O	O
+simulations	445,456	O	B-Process
+inside	457,463	O	O
+the	464,467	O	O
+vessels	468,475	O	B-Material
+with	476,480	O	O
+the	481,484	O	O
+diameter	485,493	O	O
+of	494,496	O	O
+around	497,503	O	O
+30	504,506	O	O
+mm	507,509	O	O
+take	510,514	O	O
+approximately	515,528	O	O
+30	529,531	O	O
+s.	532,534	O	O
+
+Most	535,539	O	O
+of	540,542	O	O
+the	543,546	O	O
+execution	547,556	O	O
+time	557,561	O	O
+of	562,564	O	O
+the	565,568	O	O
+FM	569,571	O	B-Process
+deployment	572,582	O	I-Process
+algorithm	583,592	O	I-Process
+is	593,595	O	O
+dedicated	596,605	O	O
+to	606,608	O	O
+the	609,612	O	O
+contact	613,620	O	O
+check	621,626	O	O
+and	627,630	O	O
+calculations	631,643	O	O
+of	644,646	O	O
+the	647,650	O	O
+implications	651,663	O	O
+the	664,667	O	O
+vessel	668,674	O	B-Material
+wall	675,679	O	I-Material
+has	680,683	O	O
+on	684,686	O	O
+the	687,690	O	O
+stent	691,696	O	O
+structure	697,706	O	O
+.	706,707	O	O
+
+Interestingly	708,721	O	O
+,	721,722	O	O
+in	723,725	O	O
+both	726,730	O	O
+methods	731,738	O	O
+,	738,739	O	O
+the	740,743	O	O
+highest	744,751	O	O
+computational	752,765	O	O
+time	766,770	O	O
+(	771,772	O	O
+i.e.	772,776	O	O
+,	776,777	O	O
+curved	778,784	O	B-Material
+vessels	785,792	O	I-Material
+)	792,793	O	O
+is	794,796	O	O
+not	797,800	O	O
+associated	801,811	O	O
+with	812,816	O	O
+the	817,820	O	O
+most	821,825	O	O
+complex	826,833	O	O
+geometry	834,842	O	O
+(	843,844	O	O
+i.e.	844,848	O	O
+,	848,849	O	O
+patient	850,857	O	O
+-	857,858	O	O
+specific	858,866	O	O
+case	867,871	O	O
+of	872,874	O	O
+aortic	875,881	O	O
+dissection	882,892	O	O
+)	892,893	O	O
+.	893,894	O	O
+
+Another	895,902	O	O
+fact	903,907	O	O
+worth	908,913	O	O
+mentioning	914,924	O	O
+is	925,927	O	O
+the	928,931	O	O
+relation	932,940	O	O
+of	941,943	O	O
+the	944,947	O	O
+computational	948,961	O	O
+time	962,966	O	O
+to	967,969	O	O
+the	970,973	O	O
+diameter	974,982	O	O
+of	983,985	O	O
+the	986,989	O	O
+vessel	990,996	O	B-Material
+in	997,999	O	O
+both	1000,1004	O	O
+methods	1005,1012	O	O
+.	1012,1013	O	O
+
+While	1014,1019	O	O
+the	1020,1023	O	O
+computational	1024,1037	O	O
+time	1038,1042	O	O
+of	1043,1045	O	O
+FM	1046,1048	O	B-Process
+appeared	1049,1057	O	O
+to	1058,1060	O	O
+be	1061,1063	O	O
+directly	1064,1072	O	O
+related	1073,1080	O	O
+to	1081,1083	O	O
+the	1084,1087	O	O
+diameter	1088,1096	O	O
+of	1097,1099	O	O
+the	1100,1103	O	O
+vessel	1104,1110	O	B-Material
+,	1110,1111	O	O
+no	1112,1114	O	O
+immediate	1115,1124	O	O
+relation	1125,1133	O	O
+was	1134,1137	O	O
+found	1138,1143	O	O
+for	1144,1147	O	O
+the	1148,1151	O	O
+FE	1152,1154	O	B-Process
+simulations	1155,1166	O	I-Process
+.	1166,1167	O	O
+
+Such	1168,1172	O	O
+outcome	1173,1180	O	O
+is	1181,1183	O	O
+probably	1184,1192	O	O
+related	1193,1200	O	O
+to	1201,1203	O	O
+the	1204,1207	O	O
+simplified	1208,1218	O	B-Process
+contact	1219,1226	O	I-Process
+model	1227,1232	O	I-Process
+used	1233,1237	O	O
+by	1238,1240	O	O
+FM	1241,1243	O	B-Process
+,	1243,1244	O	O
+which	1245,1250	O	O
+makes	1251,1256	O	O
+the	1257,1260	O	O
+stent	1261,1266	O	B-Process
+-	1266,1267	O	I-Process
+graft	1267,1272	O	I-Process
+expansion	1273,1282	O	I-Process
+terminate	1283,1292	O	O
+once	1293,1297	O	O
+the	1298,1301	O	O
+nodes	1302,1307	O	B-Material
+come	1308,1312	O	O
+in	1313,1315	O	O
+contact	1316,1323	O	O
+with	1324,1328	O	O
+the	1329,1332	O	O
+vessel	1333,1339	O	B-Material
+wall	1340,1344	O	I-Material
+.	1344,1345	O	O
+
+On	1346,1348	O	O
+the	1349,1352	O	O
+contrary	1353,1361	O	O
+,	1361,1362	O	O
+it	1363,1365	O	O
+is	1366,1368	O	O
+well	1369,1373	O	O
+known	1374,1379	O	O
+that	1380,1384	O	O
+the	1385,1388	O	O
+contact	1389,1396	O	B-Process
+algorithm	1397,1406	O	I-Process
+used	1407,1411	O	O
+in	1412,1414	O	O
+the	1415,1418	O	O
+FE	1419,1421	O	B-Process
+analyses	1422,1430	O	I-Process
+increases	1431,1440	O	O
+the	1441,1444	O	O
+computational	1445,1458	O	O
+cost	1459,1463	O	O
+of	1464,1466	O	O
+the	1467,1470	O	O
+simulations	1471,1482	O	B-Process
+.	1482,1483	O	O
 
 
 -DOCSTART- (S0079642514000784)
 
-Gas	0	3	B-Process
-sorption	4	12	I-Process
-,	12	13	I-Process
-storage	14	21	I-Process
-and	22	25	I-Process
-separation	26	36	I-Process
-in	37	39	O
-carbon	40	46	B-Material
-materials	47	56	I-Material
-are	57	60	O
-mainly	61	67	O
-based	68	73	O
-on	74	76	O
-physisorption	77	90	B-Process
-on	91	93	O
-the	94	97	O
-surfaces	98	106	O
-and	107	110	O
-particularly	111	123	O
-depend	124	130	O
-on	131	133	O
-the	134	137	O
-electrostatic	138	151	B-Process
-and	152	155	I-Process
-dispersion	156	166	I-Process
-(	167	168	I-Process
-i.e.	168	172	I-Process
-,	172	173	I-Process
-vdW	174	177	I-Process
-)	177	178	I-Process
-interactions	179	191	I-Process
-.	191	192	O
-
-The	193	196	O
-former	197	203	O
-can	204	207	O
-be	208	210	O
-tuned	211	216	O
-by	217	219	O
-introducing	220	231	B-Process
-charge	232	238	I-Process
-variations	239	249	I-Process
-in	250	252	I-Process
-the	253	256	I-Process
-material	257	265	I-Process
-,	265	266	O
-and	267	270	O
-the	271	274	O
-latter	275	281	O
-by	282	284	O
-chemical	285	293	B-Process
-substitution	294	306	I-Process
-.	306	307	O
-
-The	308	311	O
-strength	312	320	O
-of	321	323	O
-the	324	327	O
-interaction	328	339	O
-is	340	342	O
-determined	343	353	O
-by	354	356	O
-the	357	360	O
-surface	361	368	O
-characteristics	369	384	O
-of	385	387	O
-the	388	391	O
-adsorbent	392	401	B-Material
-and	402	405	O
-the	406	409	O
-properties	410	420	O
-of	421	423	O
-targeted	424	432	O
-adsorbate	433	442	B-Material
-molecule	443	451	I-Material
-,	451	452	O
-including	453	462	O
-but	463	466	O
-not	467	470	O
-limited	471	478	O
-to	479	481	O
-the	482	485	O
-size	486	490	O
-and	491	494	O
-shape	495	500	O
-of	501	503	O
-the	504	507	O
-adsorbate	508	517	B-Material
-molecule	518	526	I-Material
-along	527	532	O
-with	533	537	O
-its	538	541	O
-polarizability	542	556	O
-,	556	557	O
-magnetic	558	566	O
-susceptibility	567	581	O
-,	581	582	O
-permanent	583	592	O
-dipole	593	599	O
-moment	600	606	O
-,	606	607	O
-and	608	611	O
-quadrupole	612	622	O
-moment	623	629	O
-.	629	630	O
-
-Li	631	633	O
-et	634	636	O
-al	637	639	O
-.	639	640	O
-summarise	641	650	O
-the	651	654	O
-adsorption	655	665	O
--	665	666	O
-related	666	673	O
-physical	674	682	O
-parameters	683	693	O
-of	694	696	O
-many	697	701	O
-gas	702	705	B-Material
-or	706	708	I-Material
-vapour	709	715	I-Material
-adsorbates	716	726	I-Material
-,	726	727	O
-and	728	731	O
-herein	732	738	O
-Table	739	744	O
-1	745	746	O
-
-we	747	749	O
-show	750	754	O
-a	755	756	O
-few	757	760	O
-of	761	763	O
-those	764	769	O
-of	770	772	O
-interest	773	781	O
-,	781	782	O
-H2	783	785	B-Material
-,	785	786	O
-N2	787	789	B-Material
-,	789	790	O
-CO	791	793	B-Material
-,	793	794	O
-CO2	795	798	B-Material
-,	798	799	O
-CH4	800	803	B-Material
-,	803	804	O
-NH3	805	808	B-Material
-,	808	809	O
-SO2	810	813	B-Material
-and	814	817	O
-H2S	818	821	B-Material
-
-[	822	823	O
-90	823	825	O
-]	825	826	O
-.	826	827	O
-
-For	828	831	O
-instance	832	840	O
-,	840	841	O
-an	842	844	O
-adsorbent	845	854	B-Material
-with	855	859	O
-a	860	861	O
-high	862	866	O
-specific	867	875	O
-surface	876	883	O
-area	884	888	O
-is	889	891	O
-a	892	893	O
-good	894	898	O
-candidate	899	908	O
-for	909	912	O
-adsorption	913	923	O
-of	924	926	O
-a	927	928	O
-molecule	929	937	B-Material
-with	938	942	O
-high	943	947	O
-polarizability	948	962	O
-but	963	966	O
-no	967	969	O
-polarity	970	978	O
-.	978	979	O
-
-Adsorbents	980	990	B-Material
-with	991	995	O
-highly	996	1002	O
-polarised	1003	1012	O
-surfaces	1013	1021	O
-are	1022	1025	O
-good	1026	1030	O
-for	1031	1034	O
-adsorbate	1035	1044	B-Material
-molecules	1045	1054	I-Material
-with	1055	1059	O
-a	1060	1061	O
-high	1062	1066	O
-dipole	1067	1073	O
-moment	1074	1080	O
-.	1080	1081	O
-
-The	1082	1085	O
-adsorbents	1086	1096	B-Material
-with	1097	1101	O
-high	1102	1106	O
-electric	1107	1115	O
-field	1116	1121	O
-gradient	1122	1130	O
-surfaces	1131	1139	O
-are	1140	1143	O
-found	1144	1149	O
-to	1150	1152	O
-be	1153	1155	O
-ideal	1156	1161	O
-for	1162	1165	O
-the	1166	1169	O
-high	1170	1174	B-Material
-quadrupole	1175	1185	I-Material
-moment	1186	1192	I-Material
-adsorbate	1193	1202	I-Material
-molecules	1203	1212	I-Material
-[	1213	1214	O
-91	1214	1216	O
-]	1216	1217	O
-.	1217	1218	O
-
-Normally	1219	1227	O
-,	1227	1228	O
-the	1229	1232	O
-binding	1233	1240	O
-or	1241	1243	O
-adsorption	1244	1254	O
-strength	1255	1263	O
-with	1264	1268	O
-a	1269	1270	O
-carbon	1271	1277	O
-nanostructure	1278	1291	O
-is	1292	1294	O
-relatively	1295	1305	O
-low	1306	1309	O
-for	1310	1313	O
-H2	1314	1316	B-Material
-and	1317	1320	O
-N2	1321	1323	B-Material
-;	1323	1324	O
-intermediate	1325	1337	O
-for	1338	1341	O
-CO	1342	1344	B-Material
-,	1344	1345	O
-CH4	1346	1349	B-Material
-and	1350	1353	O
-CO2	1354	1357	B-Material
-;	1357	1358	O
-and	1359	1362	O
-relatively	1363	1373	O
-high	1374	1378	O
-for	1379	1382	O
-H2S	1383	1386	B-Material
-,	1386	1387	O
-NH3	1388	1391	B-Material
-and	1392	1395	O
-H2O.	1396	1400	B-Material
-
-Thus	1401	1405	O
-,	1405	1406	O
-surface	1407	1414	B-Process
-modifications	1415	1428	I-Process
-,	1428	1429	O
-such	1430	1434	O
-as	1435	1437	O
-doping	1438	1444	B-Process
-,	1444	1445	O
-functionalization	1446	1463	B-Process
-and	1464	1467	O
-improving	1468	1477	B-Process
-the	1478	1481	I-Process
-pore	1482	1486	I-Process
-structure	1487	1496	I-Process
-and	1497	1500	I-Process
-specific	1501	1509	I-Process
-surface	1510	1517	I-Process
-area	1518	1522	I-Process
-of	1523	1525	I-Process
-nanocarbons	1526	1537	I-Process
-,	1537	1538	O
-are	1539	1542	O
-important	1543	1552	O
-to	1553	1555	O
-enhance	1556	1563	B-Task
-gas	1564	1567	I-Task
-adsorption	1568	1578	I-Task
-.	1578	1579	O
-
-For	1580	1583	O
-this	1584	1588	O
-purpose	1589	1596	O
-,	1596	1597	O
-graphene	1598	1606	B-Material
-offers	1607	1613	O
-a	1614	1615	O
-great	1616	1621	O
-scope	1622	1627	O
-for	1628	1631	O
-tailor	1632	1638	O
--	1638	1639	O
-made	1639	1643	O
-carbonaceous	1644	1656	B-Material
-adsorbents	1657	1667	I-Material
-.	1667	1668	O
+Gas	0,3	O	B-Process
+sorption	4,12	O	I-Process
+,	12,13	O	I-Process
+storage	14,21	O	I-Process
+and	22,25	O	I-Process
+separation	26,36	O	I-Process
+in	37,39	O	O
+carbon	40,46	O	B-Material
+materials	47,56	O	I-Material
+are	57,60	O	O
+mainly	61,67	O	O
+based	68,73	O	O
+on	74,76	O	O
+physisorption	77,90	O	B-Process
+on	91,93	O	O
+the	94,97	O	O
+surfaces	98,106	O	O
+and	107,110	O	O
+particularly	111,123	O	O
+depend	124,130	O	O
+on	131,133	O	O
+the	134,137	O	O
+electrostatic	138,151	O	B-Process
+and	152,155	O	I-Process
+dispersion	156,166	O	I-Process
+(	167,168	O	I-Process
+i.e.	168,172	O	I-Process
+,	172,173	O	I-Process
+vdW	174,177	O	I-Process
+)	177,178	O	I-Process
+interactions	179,191	O	I-Process
+.	191,192	O	O
+
+The	193,196	O	O
+former	197,203	O	O
+can	204,207	O	O
+be	208,210	O	O
+tuned	211,216	O	O
+by	217,219	O	O
+introducing	220,231	O	B-Process
+charge	232,238	O	I-Process
+variations	239,249	O	I-Process
+in	250,252	O	I-Process
+the	253,256	O	I-Process
+material	257,265	O	I-Process
+,	265,266	O	O
+and	267,270	O	O
+the	271,274	O	O
+latter	275,281	O	O
+by	282,284	O	O
+chemical	285,293	O	B-Process
+substitution	294,306	O	I-Process
+.	306,307	O	O
+
+The	308,311	O	O
+strength	312,320	O	O
+of	321,323	O	O
+the	324,327	O	O
+interaction	328,339	O	O
+is	340,342	O	O
+determined	343,353	O	O
+by	354,356	O	O
+the	357,360	O	O
+surface	361,368	O	O
+characteristics	369,384	O	O
+of	385,387	O	O
+the	388,391	O	O
+adsorbent	392,401	O	B-Material
+and	402,405	O	O
+the	406,409	O	O
+properties	410,420	O	O
+of	421,423	O	O
+targeted	424,432	O	O
+adsorbate	433,442	O	B-Material
+molecule	443,451	O	I-Material
+,	451,452	O	O
+including	453,462	O	O
+but	463,466	O	O
+not	467,470	O	O
+limited	471,478	O	O
+to	479,481	O	O
+the	482,485	O	O
+size	486,490	O	O
+and	491,494	O	O
+shape	495,500	O	O
+of	501,503	O	O
+the	504,507	O	O
+adsorbate	508,517	O	B-Material
+molecule	518,526	O	I-Material
+along	527,532	O	O
+with	533,537	O	O
+its	538,541	O	O
+polarizability	542,556	O	O
+,	556,557	O	O
+magnetic	558,566	O	O
+susceptibility	567,581	O	O
+,	581,582	O	O
+permanent	583,592	O	O
+dipole	593,599	O	O
+moment	600,606	O	O
+,	606,607	O	O
+and	608,611	O	O
+quadrupole	612,622	O	O
+moment	623,629	O	O
+.	629,630	O	O
+
+Li	631,633	O	O
+et	634,636	O	O
+al	637,639	O	O
+.	639,640	O	O
+summarise	641,650	O	O
+the	651,654	O	O
+adsorption	655,665	O	O
+-	665,666	O	O
+related	666,673	O	O
+physical	674,682	O	O
+parameters	683,693	O	O
+of	694,696	O	O
+many	697,701	O	O
+gas	702,705	O	B-Material
+or	706,708	O	I-Material
+vapour	709,715	O	I-Material
+adsorbates	716,726	O	I-Material
+,	726,727	O	O
+and	728,731	O	O
+herein	732,738	O	O
+Table	739,744	O	O
+1	745,746	O	O
+
+we	747,749	O	O
+show	750,754	O	O
+a	755,756	O	O
+few	757,760	O	O
+of	761,763	O	O
+those	764,769	O	O
+of	770,772	O	O
+interest	773,781	O	O
+,	781,782	O	O
+H2	783,785	O	B-Material
+,	785,786	O	O
+N2	787,789	O	B-Material
+,	789,790	O	O
+CO	791,793	O	B-Material
+,	793,794	O	O
+CO2	795,798	O	B-Material
+,	798,799	O	O
+CH4	800,803	O	B-Material
+,	803,804	O	O
+NH3	805,808	O	B-Material
+,	808,809	O	O
+SO2	810,813	O	B-Material
+and	814,817	O	O
+H2S	818,821	O	B-Material
+
+[	822,823	O	O
+90	823,825	O	O
+]	825,826	O	O
+.	826,827	O	O
+
+For	828,831	O	O
+instance	832,840	O	O
+,	840,841	O	O
+an	842,844	O	O
+adsorbent	845,854	O	B-Material
+with	855,859	O	O
+a	860,861	O	O
+high	862,866	O	O
+specific	867,875	O	O
+surface	876,883	O	O
+area	884,888	O	O
+is	889,891	O	O
+a	892,893	O	O
+good	894,898	O	O
+candidate	899,908	O	O
+for	909,912	O	O
+adsorption	913,923	O	O
+of	924,926	O	O
+a	927,928	O	O
+molecule	929,937	O	B-Material
+with	938,942	O	O
+high	943,947	O	O
+polarizability	948,962	O	O
+but	963,966	O	O
+no	967,969	O	O
+polarity	970,978	O	O
+.	978,979	O	O
+
+Adsorbents	980,990	O	B-Material
+with	991,995	O	O
+highly	996,1002	O	O
+polarised	1003,1012	O	O
+surfaces	1013,1021	O	O
+are	1022,1025	O	O
+good	1026,1030	O	O
+for	1031,1034	O	O
+adsorbate	1035,1044	O	B-Material
+molecules	1045,1054	O	I-Material
+with	1055,1059	O	O
+a	1060,1061	O	O
+high	1062,1066	O	O
+dipole	1067,1073	O	O
+moment	1074,1080	O	O
+.	1080,1081	O	O
+
+The	1082,1085	O	O
+adsorbents	1086,1096	O	B-Material
+with	1097,1101	O	O
+high	1102,1106	O	O
+electric	1107,1115	O	O
+field	1116,1121	O	O
+gradient	1122,1130	O	O
+surfaces	1131,1139	O	O
+are	1140,1143	O	O
+found	1144,1149	O	O
+to	1150,1152	O	O
+be	1153,1155	O	O
+ideal	1156,1161	O	O
+for	1162,1165	O	O
+the	1166,1169	O	O
+high	1170,1174	O	B-Material
+quadrupole	1175,1185	O	I-Material
+moment	1186,1192	O	I-Material
+adsorbate	1193,1202	O	I-Material
+molecules	1203,1212	O	I-Material
+[	1213,1214	O	O
+91	1214,1216	O	O
+]	1216,1217	O	O
+.	1217,1218	O	O
+
+Normally	1219,1227	O	O
+,	1227,1228	O	O
+the	1229,1232	O	O
+binding	1233,1240	O	O
+or	1241,1243	O	O
+adsorption	1244,1254	O	O
+strength	1255,1263	O	O
+with	1264,1268	O	O
+a	1269,1270	O	O
+carbon	1271,1277	O	O
+nanostructure	1278,1291	O	O
+is	1292,1294	O	O
+relatively	1295,1305	O	O
+low	1306,1309	O	O
+for	1310,1313	O	O
+H2	1314,1316	O	B-Material
+and	1317,1320	O	O
+N2	1321,1323	O	B-Material
+;	1323,1324	O	O
+intermediate	1325,1337	O	O
+for	1338,1341	O	O
+CO	1342,1344	O	B-Material
+,	1344,1345	O	O
+CH4	1346,1349	O	B-Material
+and	1350,1353	O	O
+CO2	1354,1357	O	B-Material
+;	1357,1358	O	O
+and	1359,1362	O	O
+relatively	1363,1373	O	O
+high	1374,1378	O	O
+for	1379,1382	O	O
+H2S	1383,1386	O	B-Material
+,	1386,1387	O	O
+NH3	1388,1391	O	B-Material
+and	1392,1395	O	O
+H2O.	1396,1400	O	B-Material
+
+Thus	1401,1405	O	O
+,	1405,1406	O	O
+surface	1407,1414	O	B-Process
+modifications	1415,1428	O	I-Process
+,	1428,1429	O	O
+such	1430,1434	O	O
+as	1435,1437	O	O
+doping	1438,1444	O	B-Process
+,	1444,1445	O	O
+functionalization	1446,1463	O	B-Process
+and	1464,1467	O	O
+improving	1468,1477	O	B-Process
+the	1478,1481	O	I-Process
+pore	1482,1486	O	I-Process
+structure	1487,1496	O	I-Process
+and	1497,1500	O	I-Process
+specific	1501,1509	O	I-Process
+surface	1510,1517	O	I-Process
+area	1518,1522	O	I-Process
+of	1523,1525	O	I-Process
+nanocarbons	1526,1537	O	I-Process
+,	1537,1538	O	O
+are	1539,1542	O	O
+important	1543,1552	O	O
+to	1553,1555	O	O
+enhance	1556,1563	O	B-Task
+gas	1564,1567	O	I-Task
+adsorption	1568,1578	O	I-Task
+.	1578,1579	O	O
+
+For	1580,1583	O	O
+this	1584,1588	O	O
+purpose	1589,1596	O	O
+,	1596,1597	O	O
+graphene	1598,1606	O	B-Material
+offers	1607,1613	O	O
+a	1614,1615	O	O
+great	1616,1621	O	O
+scope	1622,1627	O	O
+for	1628,1631	O	O
+tailor	1632,1638	O	O
+-	1638,1639	O	O
+made	1639,1643	O	O
+carbonaceous	1644,1656	O	B-Material
+adsorbents	1657,1667	O	I-Material
+.	1667,1668	O	O
 
 
 -DOCSTART- (S0079642515000705)
 
-When	0	4	O
-dominated	5	14	O
-by	15	17	O
-surface	18	25	B-Process
-shadowing	26	35	I-Process
-mechanisms	36	46	I-Process
-,	46	47	O
-the	48	51	O
-aggregation	52	63	B-Process
-of	64	66	I-Process
-vapor	67	72	I-Process
-particles	73	82	I-Process
-onto	83	87	I-Process
-a	88	89	I-Process
-surface	90	97	I-Process
-is	98	100	O
-a	101	102	O
-complex	103	110	O
-,	110	111	O
-non	112	115	O
--	115	116	O
-local	116	121	O
-phenomenon	122	132	O
-.	132	133	O
-
-In	134	136	O
-the	137	140	O
-literature	141	151	O
-,	151	152	O
-there	153	158	O
-have	159	163	O
-been	164	168	O
-many	169	173	O
-attempts	174	182	O
-to	183	185	O
-analyze	186	193	B-Task
-the	194	197	I-Task
-growth	198	204	I-Task
-mechanism	205	214	I-Task
-by	215	217	O
-means	218	223	O
-of	224	226	O
-pure	227	231	O
-geometrical	232	243	B-Process
-considerations	244	258	I-Process
-;	258	259	O
-i.e.	260	264	O
-,	264	265	O
-by	266	268	O
-assuming	269	277	O
-that	278	282	O
-vapor	283	288	B-Material
-particles	289	298	I-Material
-arrive	299	305	O
-at	306	308	O
-the	309	312	O
-film	313	317	B-Material
-surface	318	325	I-Material
-along	326	331	O
-a	332	333	O
-single	334	340	B-Process
-angular	341	348	I-Process
-direction	349	358	I-Process
-[	359	360	O
-38,41	360	365	O
-]	365	366	O
-.	366	367	O
-
-Continuum	368	377	B-Process
-approaches	378	388	I-Process
-,	388	389	O
-which	390	395	O
-are	396	399	O
-based	400	405	O
-on	406	408	O
-the	409	412	O
-fact	413	417	O
-that	418	422	O
-the	423	426	O
-geometrical	427	438	B-Process
-features	439	447	I-Process
-of	448	450	O
-the	451	454	O
-film	455	459	B-Material
-(	460	461	O
-i.e.	461	465	O
-,	465	466	O
-the	467	470	O
-nanocolumns	471	482	B-Process
-)	482	483	O
-are	484	487	O
-much	488	492	O
-larger	493	499	O
-than	500	504	O
-the	505	508	O
-typical	509	516	O
-size	517	521	O
-of	522	524	O
-an	525	527	O
-atom	528	532	B-Material
-[	533	534	O
-42,266,267	534	544	O
-]	544	545	O
-,	545	546	O
-have	547	551	O
-been	552	556	O
-also	557	561	O
-explored	562	570	O
-.	570	571	O
-
-For	572	575	O
-instance	576	584	O
-,	584	585	O
-Poxson	586	592	O
-et	593	595	O
-al	596	598	O
-.	598	599	O
-
-[	600	601	O
-228	601	604	O
-]	604	605	O
-developed	606	615	O
-an	616	618	O
-analytic	619	627	B-Process
-model	628	633	I-Process
-that	634	638	O
-takes	639	644	O
-into	645	649	O
-account	650	657	O
-geometrical	658	669	B-Process
-factors	670	677	I-Process
-as	678	680	O
-well	681	685	O
-as	686	688	O
-surface	689	696	B-Process
-diffusion	697	706	I-Process
-.	706	707	O
-
-This	708	712	O
-model	713	718	O
-accurately	719	729	O
-predicted	730	739	O
-the	740	743	O
-porosity	744	752	O
-and	753	756	O
-deposition	757	767	O
-rate	768	772	O
-of	773	775	O
-thin	776	780	B-Material
-films	781	786	I-Material
-using	787	792	O
-a	793	794	O
-single	795	801	O
-input	802	807	O
-parameter	808	817	O
-related	818	825	O
-to	826	828	O
-the	829	832	O
-cross	833	838	O
--	838	839	O
-sectional	839	848	O
-area	849	853	O
-of	854	856	O
-the	857	860	O
-nanocolumns	861	872	B-Material
-,	872	873	O
-the	874	877	O
-volume	878	884	O
-of	885	887	O
-material	888	896	O
-and	897	900	O
-the	901	904	O
-thickness	905	914	O
-of	915	917	O
-the	918	921	O
-film	922	926	B-Material
-.	926	927	O
-
-Moreover	928	936	O
-,	936	937	O
-in	938	940	O
-Ref	941	944	O
-.	944	945	O
-
-[	946	947	O
-39	947	949	O
-]	949	950	O
-,	950	951	O
-an	952	954	O
-analytical	955	965	B-Process
-semi	966	970	I-Process
--	970	971	I-Process
-empirical	971	980	I-Process
-model	981	986	I-Process
-was	987	990	O
-presented	991	1000	O
-to	1001	1003	O
-quantitatively	1004	1018	B-Task
-describe	1019	1027	I-Task
-the	1028	1031	I-Task
-aggregation	1032	1043	I-Task
-of	1044	1046	I-Task
-columnar	1047	1055	I-Task
-structures	1056	1066	I-Task
-by	1067	1069	O
-means	1070	1075	O
-of	1076	1078	O
-a	1079	1080	O
-single	1081	1087	O
-parameter	1088	1097	O
-dubbed	1098	1104	O
-the	1105	1108	O
-fan	1109	1112	O
-angle	1113	1118	O
-.	1118	1119	O
-
-This	1120	1124	O
-material	1125	1133	O
--	1133	1134	O
-dependent	1134	1143	O
-quantity	1144	1152	O
-can	1153	1156	O
-be	1157	1159	O
-experimentally	1160	1174	O
-obtained	1175	1183	O
-by	1184	1186	O
-performing	1187	1197	O
-deposition	1198	1208	O
-at	1209	1211	O
-normal	1212	1218	O
-incidence	1219	1228	O
-on	1229	1231	O
-an	1232	1234	O
-imprinted	1235	1244	O
-groove	1245	1251	B-Material
-seeded	1252	1258	I-Material
-substrate	1259	1268	I-Material
-,	1268	1269	O
-and	1270	1273	O
-then	1274	1278	O
-measuring	1279	1288	O
-the	1289	1292	O
-increase	1293	1301	O
-in	1302	1304	O
-column	1305	1311	O
-diameter	1312	1320	O
-with	1321	1325	O
-film	1326	1330	B-Material
-thickness	1331	1340	O
-.	1340	1341	O
-
-This	1342	1346	O
-model	1347	1352	O
-was	1353	1356	O
-tested	1357	1363	O
-under	1364	1369	O
-various	1370	1377	O
-conditions	1378	1388	O
-[	1389	1390	O
-40	1390	1392	O
-]	1392	1393	O
-,	1393	1394	O
-which	1395	1400	O
-returned	1401	1409	O
-good	1410	1414	O
-results	1415	1422	O
-and	1423	1426	O
-an	1427	1429	O
-accurate	1430	1438	O
-prediction	1439	1449	B-Task
-of	1450	1452	I-Task
-the	1453	1456	I-Task
-relation	1457	1465	I-Task
-between	1466	1473	I-Task
-the	1474	1477	I-Task
-incident	1478	1486	I-Task
-angle	1487	1492	I-Task
-of	1493	1495	I-Task
-the	1496	1499	I-Task
-deposition	1500	1510	I-Task
-flux	1511	1515	I-Task
-and	1516	1519	I-Task
-the	1520	1523	I-Task
-tilt	1524	1528	I-Task
-angle	1529	1534	I-Task
-of	1535	1537	I-Task
-the	1538	1541	I-Task
-columns	1542	1549	I-Task
-for	1550	1553	O
-several	1554	1561	O
-materials	1562	1571	O
-.	1571	1572	O
+When	0,4	O	O
+dominated	5,14	O	O
+by	15,17	O	O
+surface	18,25	O	B-Process
+shadowing	26,35	O	I-Process
+mechanisms	36,46	O	I-Process
+,	46,47	O	O
+the	48,51	O	O
+aggregation	52,63	O	B-Process
+of	64,66	O	I-Process
+vapor	67,72	O	I-Process
+particles	73,82	O	I-Process
+onto	83,87	O	I-Process
+a	88,89	O	I-Process
+surface	90,97	O	I-Process
+is	98,100	O	O
+a	101,102	O	O
+complex	103,110	O	O
+,	110,111	O	O
+non	112,115	O	O
+-	115,116	O	O
+local	116,121	O	O
+phenomenon	122,132	O	O
+.	132,133	O	O
+
+In	134,136	O	O
+the	137,140	O	O
+literature	141,151	O	O
+,	151,152	O	O
+there	153,158	O	O
+have	159,163	O	O
+been	164,168	O	O
+many	169,173	O	O
+attempts	174,182	O	O
+to	183,185	O	O
+analyze	186,193	O	B-Task
+the	194,197	O	I-Task
+growth	198,204	O	I-Task
+mechanism	205,214	O	I-Task
+by	215,217	O	O
+means	218,223	O	O
+of	224,226	O	O
+pure	227,231	O	O
+geometrical	232,243	O	B-Process
+considerations	244,258	O	I-Process
+;	258,259	O	O
+i.e.	260,264	O	O
+,	264,265	O	O
+by	266,268	O	O
+assuming	269,277	O	O
+that	278,282	O	O
+vapor	283,288	O	B-Material
+particles	289,298	O	I-Material
+arrive	299,305	O	O
+at	306,308	O	O
+the	309,312	O	O
+film	313,317	O	B-Material
+surface	318,325	O	I-Material
+along	326,331	O	O
+a	332,333	O	O
+single	334,340	O	B-Process
+angular	341,348	O	I-Process
+direction	349,358	O	I-Process
+[	359,360	O	O
+38,41	360,365	O	O
+]	365,366	O	O
+.	366,367	O	O
+
+Continuum	368,377	O	B-Process
+approaches	378,388	O	I-Process
+,	388,389	O	O
+which	390,395	O	O
+are	396,399	O	O
+based	400,405	O	O
+on	406,408	O	O
+the	409,412	O	O
+fact	413,417	O	O
+that	418,422	O	O
+the	423,426	O	O
+geometrical	427,438	O	B-Process
+features	439,447	O	I-Process
+of	448,450	O	O
+the	451,454	O	O
+film	455,459	O	B-Material
+(	460,461	O	O
+i.e.	461,465	O	O
+,	465,466	O	O
+the	467,470	O	O
+nanocolumns	471,482	O	B-Process
+)	482,483	O	O
+are	484,487	O	O
+much	488,492	O	O
+larger	493,499	O	O
+than	500,504	O	O
+the	505,508	O	O
+typical	509,516	O	O
+size	517,521	O	O
+of	522,524	O	O
+an	525,527	O	O
+atom	528,532	O	B-Material
+[	533,534	O	O
+42,266,267	534,544	O	O
+]	544,545	O	O
+,	545,546	O	O
+have	547,551	O	O
+been	552,556	O	O
+also	557,561	O	O
+explored	562,570	O	O
+.	570,571	O	O
+
+For	572,575	O	O
+instance	576,584	O	O
+,	584,585	O	O
+Poxson	586,592	O	O
+et	593,595	O	O
+al	596,598	O	O
+.	598,599	O	O
+
+[	600,601	O	O
+228	601,604	O	O
+]	604,605	O	O
+developed	606,615	O	O
+an	616,618	O	O
+analytic	619,627	O	B-Process
+model	628,633	O	I-Process
+that	634,638	O	O
+takes	639,644	O	O
+into	645,649	O	O
+account	650,657	O	O
+geometrical	658,669	O	B-Process
+factors	670,677	O	I-Process
+as	678,680	O	O
+well	681,685	O	O
+as	686,688	O	O
+surface	689,696	O	B-Process
+diffusion	697,706	O	I-Process
+.	706,707	O	O
+
+This	708,712	O	O
+model	713,718	O	O
+accurately	719,729	O	O
+predicted	730,739	O	O
+the	740,743	O	O
+porosity	744,752	O	O
+and	753,756	O	O
+deposition	757,767	O	O
+rate	768,772	O	O
+of	773,775	O	O
+thin	776,780	O	B-Material
+films	781,786	O	I-Material
+using	787,792	O	O
+a	793,794	O	O
+single	795,801	O	O
+input	802,807	O	O
+parameter	808,817	O	O
+related	818,825	O	O
+to	826,828	O	O
+the	829,832	O	O
+cross	833,838	O	O
+-	838,839	O	O
+sectional	839,848	O	O
+area	849,853	O	O
+of	854,856	O	O
+the	857,860	O	O
+nanocolumns	861,872	O	B-Material
+,	872,873	O	O
+the	874,877	O	O
+volume	878,884	O	O
+of	885,887	O	O
+material	888,896	O	O
+and	897,900	O	O
+the	901,904	O	O
+thickness	905,914	O	O
+of	915,917	O	O
+the	918,921	O	O
+film	922,926	O	B-Material
+.	926,927	O	O
+
+Moreover	928,936	O	O
+,	936,937	O	O
+in	938,940	O	O
+Ref	941,944	O	O
+.	944,945	O	O
+
+[	946,947	O	O
+39	947,949	O	O
+]	949,950	O	O
+,	950,951	O	O
+an	952,954	O	O
+analytical	955,965	O	B-Process
+semi	966,970	O	I-Process
+-	970,971	O	I-Process
+empirical	971,980	O	I-Process
+model	981,986	O	I-Process
+was	987,990	O	O
+presented	991,1000	O	O
+to	1001,1003	O	O
+quantitatively	1004,1018	O	B-Task
+describe	1019,1027	O	I-Task
+the	1028,1031	O	I-Task
+aggregation	1032,1043	O	I-Task
+of	1044,1046	O	I-Task
+columnar	1047,1055	O	I-Task
+structures	1056,1066	O	I-Task
+by	1067,1069	O	O
+means	1070,1075	O	O
+of	1076,1078	O	O
+a	1079,1080	O	O
+single	1081,1087	O	O
+parameter	1088,1097	O	O
+dubbed	1098,1104	O	O
+the	1105,1108	O	O
+fan	1109,1112	O	O
+angle	1113,1118	O	O
+.	1118,1119	O	O
+
+This	1120,1124	O	O
+material	1125,1133	O	O
+-	1133,1134	O	O
+dependent	1134,1143	O	O
+quantity	1144,1152	O	O
+can	1153,1156	O	O
+be	1157,1159	O	O
+experimentally	1160,1174	O	O
+obtained	1175,1183	O	O
+by	1184,1186	O	O
+performing	1187,1197	O	O
+deposition	1198,1208	O	O
+at	1209,1211	O	O
+normal	1212,1218	O	O
+incidence	1219,1228	O	O
+on	1229,1231	O	O
+an	1232,1234	O	O
+imprinted	1235,1244	O	O
+groove	1245,1251	O	B-Material
+seeded	1252,1258	O	I-Material
+substrate	1259,1268	O	I-Material
+,	1268,1269	O	O
+and	1270,1273	O	O
+then	1274,1278	O	O
+measuring	1279,1288	O	O
+the	1289,1292	O	O
+increase	1293,1301	O	O
+in	1302,1304	O	O
+column	1305,1311	O	O
+diameter	1312,1320	O	O
+with	1321,1325	O	O
+film	1326,1330	O	B-Material
+thickness	1331,1340	O	O
+.	1340,1341	O	O
+
+This	1342,1346	O	O
+model	1347,1352	O	O
+was	1353,1356	O	O
+tested	1357,1363	O	O
+under	1364,1369	O	O
+various	1370,1377	O	O
+conditions	1378,1388	O	O
+[	1389,1390	O	O
+40	1390,1392	O	O
+]	1392,1393	O	O
+,	1393,1394	O	O
+which	1395,1400	O	O
+returned	1401,1409	O	O
+good	1410,1414	O	O
+results	1415,1422	O	O
+and	1423,1426	O	O
+an	1427,1429	O	O
+accurate	1430,1438	O	O
+prediction	1439,1449	O	B-Task
+of	1450,1452	O	I-Task
+the	1453,1456	O	I-Task
+relation	1457,1465	O	I-Task
+between	1466,1473	O	I-Task
+the	1474,1477	O	I-Task
+incident	1478,1486	O	I-Task
+angle	1487,1492	O	I-Task
+of	1493,1495	O	I-Task
+the	1496,1499	O	I-Task
+deposition	1500,1510	O	I-Task
+flux	1511,1515	O	I-Task
+and	1516,1519	O	I-Task
+the	1520,1523	O	I-Task
+tilt	1524,1528	O	I-Task
+angle	1529,1534	O	I-Task
+of	1535,1537	O	I-Task
+the	1538,1541	O	I-Task
+columns	1542,1549	O	I-Task
+for	1550,1553	O	O
+several	1554,1561	O	O
+materials	1562,1571	O	O
+.	1571,1572	O	O
 
 
 -DOCSTART- (S0167844214000652)
 
-A	0	1	O
-bond	2	6	B-Process
-failure	7	14	I-Process
-is	15	17	O
-thought	18	25	O
-of	26	28	O
-as	29	31	O
-a	32	33	O
-micro	34	39	B-Process
--	39	40	I-Process
-crack	40	45	I-Process
-nucleation	46	56	I-Process
-,	56	57	O
-specifically	58	70	O
-as	71	73	O
-a	74	75	O
-separation	76	86	B-Process
-between	87	94	I-Process
-the	95	98	I-Process
-adjacent	99	107	I-Process
-cells	108	113	I-Process
-in	114	116	I-Process
-the	117	120	I-Process
-cellular	121	129	I-Process
-structure	130	139	I-Process
-along	140	145	I-Process
-their	146	151	I-Process
-common	152	158	I-Process
-face	159	163	I-Process
-.	163	164	O
-
-Initially	165	174	O
-,	174	175	O
-the	176	179	O
-micro	180	185	B-Material
--	185	186	I-Material
-cracks	186	192	I-Material
-may	193	196	O
-be	197	199	O
-dispersed	200	209	O
-in	210	212	O
-the	213	216	O
-model	217	222	O
-reflecting	223	233	O
-the	234	237	O
-random	238	244	O
-distribution	245	257	O
-of	258	260	O
-pore	261	265	B-Material
-sizes	266	271	O
-and	272	275	O
-the	276	279	O
-low	280	283	O
-level	284	289	O
-of	290	292	O
-interaction	293	304	O
-due	305	308	O
-to	309	311	O
-force	312	317	O
-redistribution	318	332	O
-.	332	333	O
-
-Interaction	334	345	O
-and	346	349	O
-coalescence	350	361	O
-may	362	365	O
-follow	366	372	O
-as	373	375	O
-the	376	379	O
-population	380	390	O
-of	391	393	O
-micro	394	399	B-Material
--	399	400	I-Material
-cracks	400	406	I-Material
-increases	407	416	O
-.	416	417	O
-
-These	418	423	O
-situations	424	434	O
-are	435	438	O
-illustrated	439	450	O
-in	451	453	O
-Fig	454	457	O
-.	457	458	O
-
-3	459	460	O
-.	460	461	O
-
-The	462	465	O
-structure	466	475	O
-of	476	478	O
-the	479	482	O
-failed	483	489	B-Material
-surface	490	497	I-Material
-can	498	501	O
-be	502	504	O
-represented	505	516	O
-with	517	521	O
-a	522	523	O
-mathematical	524	536	B-Process
-graph	537	542	I-Process
-,	542	543	O
-where	544	549	O
-graph	550	555	O
-nodes	556	561	O
-represent	562	571	O
-failed	572	578	B-Material
-faces	579	584	I-Material
-and	585	588	O
-graph	589	594	O
-edges	595	600	O
-exist	601	606	O
-between	607	614	O
-failed	615	621	B-Material
-faces	622	627	I-Material
-with	628	632	O
-common	633	639	O
-triple	640	646	O
-line	647	651	O
-in	652	654	O
-the	655	658	O
-cellular	659	667	B-Material
-structure	668	677	I-Material
-,	677	678	O
-i.e.	679	683	O
-where	684	689	O
-two	690	693	O
-micro	694	699	B-Material
--	699	700	I-Material
-cracks	700	706	I-Material
-formed	707	713	O
-a	714	715	O
-continuous	716	726	O
-larger	727	733	O
-crack	734	739	B-Material
-.	739	740	O
-
-With	741	745	O
-reference	746	755	O
-to	756	758	O
-Fig	759	762	O
-.	762	763	O
-
-3	764	765	O
-,	765	766	O
-each	767	771	O
-failed	772	778	B-Material
-face	779	783	I-Material
-is	784	786	O
-a	787	788	O
-graph	789	794	O
-node	795	799	O
-and	800	803	O
-each	804	808	O
-pair	809	813	O
-of	814	816	O
-neighbouring	817	829	O
-
-failed	830	836	B-Material
-faces	837	842	I-Material
-is	843	845	O
-a	846	847	O
-graph	848	853	O
-edge	854	858	O
-.	858	859	O
+A	0,1	O	O
+bond	2,6	O	B-Process
+failure	7,14	O	I-Process
+is	15,17	O	O
+thought	18,25	O	O
+of	26,28	O	O
+as	29,31	O	O
+a	32,33	O	O
+micro	34,39	O	B-Process
+-	39,40	O	I-Process
+crack	40,45	O	I-Process
+nucleation	46,56	O	I-Process
+,	56,57	O	O
+specifically	58,70	O	O
+as	71,73	O	O
+a	74,75	O	O
+separation	76,86	O	B-Process
+between	87,94	O	I-Process
+the	95,98	O	I-Process
+adjacent	99,107	O	I-Process
+cells	108,113	O	I-Process
+in	114,116	O	I-Process
+the	117,120	O	I-Process
+cellular	121,129	O	I-Process
+structure	130,139	O	I-Process
+along	140,145	O	I-Process
+their	146,151	O	I-Process
+common	152,158	O	I-Process
+face	159,163	O	I-Process
+.	163,164	O	O
+
+Initially	165,174	O	O
+,	174,175	O	O
+the	176,179	O	O
+micro	180,185	O	B-Material
+-	185,186	O	I-Material
+cracks	186,192	O	I-Material
+may	193,196	O	O
+be	197,199	O	O
+dispersed	200,209	O	O
+in	210,212	O	O
+the	213,216	O	O
+model	217,222	O	O
+reflecting	223,233	O	O
+the	234,237	O	O
+random	238,244	O	O
+distribution	245,257	O	O
+of	258,260	O	O
+pore	261,265	O	B-Material
+sizes	266,271	O	O
+and	272,275	O	O
+the	276,279	O	O
+low	280,283	O	O
+level	284,289	O	O
+of	290,292	O	O
+interaction	293,304	O	O
+due	305,308	O	O
+to	309,311	O	O
+force	312,317	O	O
+redistribution	318,332	O	O
+.	332,333	O	O
+
+Interaction	334,345	O	O
+and	346,349	O	O
+coalescence	350,361	O	O
+may	362,365	O	O
+follow	366,372	O	O
+as	373,375	O	O
+the	376,379	O	O
+population	380,390	O	O
+of	391,393	O	O
+micro	394,399	O	B-Material
+-	399,400	O	I-Material
+cracks	400,406	O	I-Material
+increases	407,416	O	O
+.	416,417	O	O
+
+These	418,423	O	O
+situations	424,434	O	O
+are	435,438	O	O
+illustrated	439,450	O	O
+in	451,453	O	O
+Fig	454,457	O	O
+.	457,458	O	O
+
+3	459,460	O	O
+.	460,461	O	O
+
+The	462,465	O	O
+structure	466,475	O	O
+of	476,478	O	O
+the	479,482	O	O
+failed	483,489	O	B-Material
+surface	490,497	O	I-Material
+can	498,501	O	O
+be	502,504	O	O
+represented	505,516	O	O
+with	517,521	O	O
+a	522,523	O	O
+mathematical	524,536	O	B-Process
+graph	537,542	O	I-Process
+,	542,543	O	O
+where	544,549	O	O
+graph	550,555	O	O
+nodes	556,561	O	O
+represent	562,571	O	O
+failed	572,578	O	B-Material
+faces	579,584	O	I-Material
+and	585,588	O	O
+graph	589,594	O	O
+edges	595,600	O	O
+exist	601,606	O	O
+between	607,614	O	O
+failed	615,621	O	B-Material
+faces	622,627	O	I-Material
+with	628,632	O	O
+common	633,639	O	O
+triple	640,646	O	O
+line	647,651	O	O
+in	652,654	O	O
+the	655,658	O	O
+cellular	659,667	O	B-Material
+structure	668,677	O	I-Material
+,	677,678	O	O
+i.e.	679,683	O	O
+where	684,689	O	O
+two	690,693	O	O
+micro	694,699	O	B-Material
+-	699,700	O	I-Material
+cracks	700,706	O	I-Material
+formed	707,713	O	O
+a	714,715	O	O
+continuous	716,726	O	O
+larger	727,733	O	O
+crack	734,739	O	B-Material
+.	739,740	O	O
+
+With	741,745	O	O
+reference	746,755	O	O
+to	756,758	O	O
+Fig	759,762	O	O
+.	762,763	O	O
+
+3	764,765	O	O
+,	765,766	O	O
+each	767,771	O	O
+failed	772,778	O	B-Material
+face	779,783	O	I-Material
+is	784,786	O	O
+a	787,788	O	O
+graph	789,794	O	O
+node	795,799	O	O
+and	800,803	O	O
+each	804,808	O	O
+pair	809,813	O	O
+of	814,816	O	O
+neighbouring	817,829	O	O
+
+failed	830,836	O	B-Material
+faces	837,842	O	I-Material
+is	843,845	O	O
+a	846,847	O	O
+graph	848,853	O	O
+edge	854,858	O	O
+.	858,859	O	O
 
 
 -DOCSTART- (S0254058415300766)
 
-Half	0	4	B-Material
-metallic	5	13	I-Material
-ferromagnets	14	26	I-Material
-(	27	28	O
-HMF	28	31	B-Material
-)	31	32	O
-have	33	37	O
-attracted	38	47	O
-enormous	48	56	O
-interest	57	65	O
-due	66	69	O
-to	70	72	O
-their	73	78	O
-applications	79	91	O
-in	92	94	O
-spintronic	95	105	B-Task
-devices	106	113	I-Task
-[	114	115	O
-1	115	116	O
-]	116	117	O
-.	117	118	O
-
-Dilute	119	125	B-Material
-magnetic	126	134	I-Material
-semiconductors	135	149	I-Material
-(	150	151	O
-DMSs	151	155	B-Material
-)	155	156	O
-are	157	160	O
-considered	161	171	O
-to	172	174	O
-be	175	177	O
-the	178	181	O
-best	182	186	O
-materials	187	196	B-Material
-to	197	199	I-Material
-show	200	204	I-Material
-half	205	209	I-Material
-metallicity	210	221	I-Material
-.	221	222	O
-
-These	223	228	O
-materials	229	238	O
-have	239	243	O
-two	244	247	O
-components	248	258	O
-,	258	259	O
-one	260	263	O
-being	264	269	O
-a	270	271	O
-semiconducting	272	286	B-Material
-material	287	295	I-Material
-with	296	300	O
-diamagnetic	301	312	O
-properties	313	323	O
-while	324	329	O
-the	330	333	O
-other	334	339	O
-is	340	342	O
-a	343	344	O
-magnetic	345	353	B-Material
-dopant	354	360	I-Material
-such	361	365	O
-as	366	368	O
-transition	369	379	B-Material
-metal	380	385	I-Material
-having	386	392	O
-un	393	395	B-Material
--	395	396	I-Material
-paired	396	402	I-Material
-d	403	404	I-Material
-electrons	405	414	I-Material
-[	415	416	O
-2	416	417	O
-]	417	418	O
-.	418	419	O
-
-The	420	423	O
-major	424	429	O
-advantage	430	439	O
-of	440	442	O
-these	443	448	O
-materials	449	458	O
-is	459	461	O
-utilization	462	473	B-Process
-of	474	476	I-Process
-electron	477	485	I-Process
-'s	485	487	I-Process
-spin	488	492	I-Process
-as	493	495	I-Process
-information	496	507	I-Process
-carrier	508	515	I-Process
-since	516	521	O
-advanced	522	530	O
-functionalities	531	546	O
-in	547	549	O
-spintronic	550	560	B-Task
-devices	561	568	I-Task
-can	569	572	O
-be	573	575	O
-viable	576	582	O
-by	583	585	O
-the	586	589	O
-use	590	593	O
-of	594	596	O
-spin	597	601	O
-degree	602	608	O
-of	609	611	O
-freedom	612	619	O
-along	620	625	O
-with	626	630	O
-the	631	634	O
-charge	635	641	O
-of	642	644	O
-electrons	645	654	B-Material
-[	655	656	O
-3	656	657	O
-]	657	658	O
-.	658	659	O
-
-The	660	663	O
-major	664	669	O
-issue	670	675	O
-regarding	676	685	O
-the	686	689	O
-applicability	690	703	O
-of	704	706	O
-these	707	712	O
-materials	713	722	O
-is	723	725	O
-to	726	728	O
-enhance	729	736	B-Task
-the	737	740	I-Task
-Curie	741	746	I-Task
-temperature	747	758	I-Task
-above	759	764	I-Task
-room	765	769	I-Task
-temperature	770	781	I-Task
-.	781	782	O
-
-That	783	787	O
-'s	787	789	O
-why	790	793	O
-the	794	797	O
-research	798	806	O
-interest	807	815	O
-shifted	816	823	O
-towards	824	831	O
-large	832	837	B-Material
-band	838	842	I-Material
-gap	843	846	I-Material
-materials	847	856	I-Material
-.	856	857	O
-
-A	858	859	O
-lot	860	863	O
-of	864	866	O
-work	867	871	O
-has	872	875	O
-been	876	880	O
-reported	881	889	O
-on	890	892	O
-DMSs	893	897	B-Material
-with	898	902	O
-different	903	912	O
-II	913	915	B-Material
-–	915	916	I-Material
-VI	916	918	I-Material
-and	919	922	I-Material
-III	923	926	I-Material
-–	926	927	I-Material
-V	927	928	I-Material
-semiconductors	929	943	I-Material
-as	944	946	O
-host	947	951	B-Material
-material	952	960	I-Material
-such	961	965	O
-as	966	968	O
-,	968	969	O
-ZnS	970	973	B-Material
-,	973	974	O
-CdS	975	978	B-Material
-,	978	979	O
-GaN	980	983	B-Material
-,	983	984	O
-ZnO	985	988	B-Material
-,	988	989	O
-ZnSe	990	994	B-Material
-,	994	995	O
-ZnTe	996	1000	B-Material
-,	1000	1001	O
-TiO2	1002	1006	B-Material
-,	1006	1007	O
-SnO2	1008	1012	B-Material
-[	1013	1014	O
-4–12	1014	1018	O
-]	1018	1019	O
-.	1019	1020	O
+Half	0,4	O	B-Material
+metallic	5,13	O	I-Material
+ferromagnets	14,26	O	I-Material
+(	27,28	O	O
+HMF	28,31	O	B-Material
+)	31,32	O	O
+have	33,37	O	O
+attracted	38,47	O	O
+enormous	48,56	O	O
+interest	57,65	O	O
+due	66,69	O	O
+to	70,72	O	O
+their	73,78	O	O
+applications	79,91	O	O
+in	92,94	O	O
+spintronic	95,105	O	B-Task
+devices	106,113	O	I-Task
+[	114,115	O	O
+1	115,116	O	O
+]	116,117	O	O
+.	117,118	O	O
+
+Dilute	119,125	O	B-Material
+magnetic	126,134	O	I-Material
+semiconductors	135,149	O	I-Material
+(	150,151	O	O
+DMSs	151,155	O	B-Material
+)	155,156	O	O
+are	157,160	O	O
+considered	161,171	O	O
+to	172,174	O	O
+be	175,177	O	O
+the	178,181	O	O
+best	182,186	O	O
+materials	187,196	O	B-Material
+to	197,199	O	I-Material
+show	200,204	O	I-Material
+half	205,209	O	I-Material
+metallicity	210,221	O	I-Material
+.	221,222	O	O
+
+These	223,228	O	O
+materials	229,238	O	O
+have	239,243	O	O
+two	244,247	O	O
+components	248,258	O	O
+,	258,259	O	O
+one	260,263	O	O
+being	264,269	O	O
+a	270,271	O	O
+semiconducting	272,286	O	B-Material
+material	287,295	O	I-Material
+with	296,300	O	O
+diamagnetic	301,312	O	O
+properties	313,323	O	O
+while	324,329	O	O
+the	330,333	O	O
+other	334,339	O	O
+is	340,342	O	O
+a	343,344	O	O
+magnetic	345,353	O	B-Material
+dopant	354,360	O	I-Material
+such	361,365	O	O
+as	366,368	O	O
+transition	369,379	O	B-Material
+metal	380,385	O	I-Material
+having	386,392	O	O
+un	393,395	O	B-Material
+-	395,396	O	I-Material
+paired	396,402	O	I-Material
+d	403,404	O	I-Material
+electrons	405,414	O	I-Material
+[	415,416	O	O
+2	416,417	O	O
+]	417,418	O	O
+.	418,419	O	O
+
+The	420,423	O	O
+major	424,429	O	O
+advantage	430,439	O	O
+of	440,442	O	O
+these	443,448	O	O
+materials	449,458	O	O
+is	459,461	O	O
+utilization	462,473	O	B-Process
+of	474,476	O	I-Process
+electron	477,485	O	I-Process
+'s	485,487	O	I-Process
+spin	488,492	O	I-Process
+as	493,495	O	I-Process
+information	496,507	O	I-Process
+carrier	508,515	O	I-Process
+since	516,521	O	O
+advanced	522,530	O	O
+functionalities	531,546	O	O
+in	547,549	O	O
+spintronic	550,560	O	B-Task
+devices	561,568	O	I-Task
+can	569,572	O	O
+be	573,575	O	O
+viable	576,582	O	O
+by	583,585	O	O
+the	586,589	O	O
+use	590,593	O	O
+of	594,596	O	O
+spin	597,601	O	O
+degree	602,608	O	O
+of	609,611	O	O
+freedom	612,619	O	O
+along	620,625	O	O
+with	626,630	O	O
+the	631,634	O	O
+charge	635,641	O	O
+of	642,644	O	O
+electrons	645,654	O	B-Material
+[	655,656	O	O
+3	656,657	O	O
+]	657,658	O	O
+.	658,659	O	O
+
+The	660,663	O	O
+major	664,669	O	O
+issue	670,675	O	O
+regarding	676,685	O	O
+the	686,689	O	O
+applicability	690,703	O	O
+of	704,706	O	O
+these	707,712	O	O
+materials	713,722	O	O
+is	723,725	O	O
+to	726,728	O	O
+enhance	729,736	O	B-Task
+the	737,740	O	I-Task
+Curie	741,746	O	I-Task
+temperature	747,758	O	I-Task
+above	759,764	O	I-Task
+room	765,769	O	I-Task
+temperature	770,781	O	I-Task
+.	781,782	O	O
+
+That	783,787	O	O
+'s	787,789	O	O
+why	790,793	O	O
+the	794,797	O	O
+research	798,806	O	O
+interest	807,815	O	O
+shifted	816,823	O	O
+towards	824,831	O	O
+large	832,837	O	B-Material
+band	838,842	O	I-Material
+gap	843,846	O	I-Material
+materials	847,856	O	I-Material
+.	856,857	O	O
+
+A	858,859	O	O
+lot	860,863	O	O
+of	864,866	O	O
+work	867,871	O	O
+has	872,875	O	O
+been	876,880	O	O
+reported	881,889	O	O
+on	890,892	O	O
+DMSs	893,897	O	B-Material
+with	898,902	O	O
+different	903,912	O	O
+II	913,915	O	B-Material
+–	915,916	O	I-Material
+VI	916,918	O	I-Material
+and	919,922	O	I-Material
+III	923,926	O	I-Material
+–	926,927	O	I-Material
+V	927,928	O	I-Material
+semiconductors	929,943	O	I-Material
+as	944,946	O	O
+host	947,951	O	B-Material
+material	952,960	O	I-Material
+such	961,965	O	O
+as	966,968	O	O
+,	968,969	O	O
+ZnS	970,973	O	B-Material
+,	973,974	O	O
+CdS	975,978	O	B-Material
+,	978,979	O	O
+GaN	980,983	O	B-Material
+,	983,984	O	O
+ZnO	985,988	O	B-Material
+,	988,989	O	O
+ZnSe	990,994	O	B-Material
+,	994,995	O	O
+ZnTe	996,1000	O	B-Material
+,	1000,1001	O	O
+TiO2	1002,1006	O	B-Material
+,	1006,1007	O	O
+SnO2	1008,1012	O	B-Material
+[	1013,1014	O	O
+4–12	1014,1018	O	O
+]	1018,1019	O	O
+.	1019,1020	O	O
 
 
 -DOCSTART- (S0301010409001219)
 
-It	0	2	O
-has	3	6	O
-been	7	11	O
-known	12	17	O
-[	18	19	O
-9,14,18,22	19	29	O
-]	29	30	O
-that	31	35	O
-the	36	39	O
-fragmentation	40	53	B-Process
-processes	54	63	I-Process
-in	64	66	O
-polyatomic	67	77	B-Material
-molecules	78	87	I-Material
-induced	88	95	O
-by	96	98	O
-an	99	101	O
-intense	102	109	B-Material
-ultrafast	110	119	I-Material
-laser	120	125	I-Material
-field	126	131	I-Material
-can	132	135	O
-sometimes	136	145	O
-exhibit	146	153	O
-sensitive	154	163	O
-dependence	164	174	O
-on	175	177	O
-the	178	181	O
-instantaneous	182	195	O
-phase	196	201	O
-characteristics	202	217	O
-of	218	220	O
-the	221	224	O
-laser	225	230	B-Material
-field	231	236	I-Material
-.	236	237	O
-
-Depending	238	247	O
-on	248	250	O
-the	251	254	O
-change	255	261	O
-in	262	264	O
-sign	265	269	O
-the	270	273	O
-chirped	274	281	B-Material
-laser	282	287	I-Material
-pulses	288	294	I-Material
-,	294	295	O
-fragmentation	296	309	B-Task
-could	310	315	O
-be	316	318	O
-either	319	325	O
-enhanced	326	334	O
-or	335	337	O
-suppressed	338	348	O
-[	349	350	O
-14,18,22	350	358	O
-]	358	359	O
-.	359	360	O
-
-Controlling	361	372	O
-the	373	376	O
-outcome	377	384	O
-of	385	387	O
-such	388	392	O
-laser	393	398	B-Process
-induced	399	406	I-Process
-molecular	407	416	I-Process
-fragmentation	417	430	I-Process
-with	431	435	O
-chirped	436	443	B-Material
-femtosecond	444	455	I-Material
-laser	456	461	I-Material
-pulses	462	468	I-Material
-has	469	472	O
-brought	473	480	O
-forth	481	486	O
-a	487	488	O
-number	489	495	O
-of	496	498	O
-experimental	499	511	O
-and	512	515	O
-theoretical	516	527	O
-effects	528	535	O
-in	536	538	O
-the	539	542	O
-recent	543	549	O
-years	550	555	O
-.	555	556	O
-
-However	557	564	O
-,	564	565	O
-efforts	566	573	O
-are	574	577	O
-continuing	578	588	O
-for	589	592	O
-a	593	594	O
-specific	595	603	O
-fragment	604	612	B-Task
-channel	613	620	I-Task
-enhancement	621	632	I-Task
-,	632	633	O
-which	634	639	O
-is	640	642	O
-difficult	643	652	O
-since	653	658	O
-it	659	661	O
-also	662	666	O
-is	667	669	O
-a	670	671	O
-function	672	680	O
-of	681	683	O
-the	684	687	O
-molecular	688	697	B-Process
-system	698	704	I-Process
-under	705	710	O
-study	711	716	O
-[	717	718	O
-20,22–24	718	726	O
-]	726	727	O
-.	727	728	O
-
-Here	729	733	O
-we	734	736	O
-report	737	743	O
-the	744	747	O
-observation	748	759	B-Task
-of	760	762	I-Task
-a	763	764	I-Task
-coherently	765	775	I-Task
-enhanced	776	784	I-Task
-fragmentation	785	798	I-Task
-pathway	799	806	I-Task
-of	807	809	O
-n	810	811	B-Material
--	811	812	I-Material
-propyl	812	818	I-Material
-benzene	819	826	I-Material
-,	826	827	O
-which	828	833	O
-seems	834	839	O
-to	840	842	O
-have	843	847	O
-such	848	852	O
-specific	853	861	O
-fragmentation	862	875	B-Material
-channel	876	883	I-Material
-available	884	893	O
-.	893	894	O
-
-We	895	897	O
-found	898	903	O
-that	904	908	O
-for	909	912	O
-n	913	914	B-Material
--	914	915	I-Material
-propyl	915	921	I-Material
-benzene	922	929	I-Material
-,	929	930	O
-the	931	934	O
-relative	935	943	O
-yield	944	949	O
-of	950	952	O
-C3H3	953	957	B-Material
-+	957	958	I-Material
-is	959	961	O
-extremely	962	971	O
-sensitive	972	981	O
-to	982	984	O
-the	985	988	O
-phase	989	994	O
-of	995	997	O
-the	998	1001	O
-laser	1002	1007	B-Material
-pulse	1008	1013	I-Material
-as	1014	1016	O
-compared	1017	1025	O
-to	1026	1028	O
-any	1029	1032	O
-of	1033	1035	O
-the	1036	1039	O
-other	1040	1045	O
-possible	1046	1054	O
-channels	1055	1063	B-Material
-.	1063	1064	O
-
-In	1065	1067	O
-fact	1068	1072	O
-,	1072	1073	O
-there	1074	1079	O
-is	1080	1082	O
-almost	1083	1089	O
-an	1090	1092	O
-order	1093	1098	O
-of	1099	1101	O
-magnitude	1102	1111	O
-enhancement	1112	1123	O
-in	1124	1126	O
-the	1127	1130	O
-yield	1131	1136	O
-of	1137	1139	O
-C3H3	1140	1144	B-Material
-+	1144	1145	I-Material
-when	1146	1150	O
-negatively	1151	1161	B-Material
-chirped	1162	1169	I-Material
-pulses	1170	1176	I-Material
-are	1177	1180	O
-used	1181	1185	O
-,	1185	1186	O
-while	1187	1192	O
-there	1193	1198	O
-is	1199	1201	O
-no	1202	1204	O
-effect	1205	1211	O
-with	1212	1216	O
-the	1217	1220	O
-positive	1221	1229	B-Material
-chirp	1230	1235	I-Material
-.	1235	1236	O
-
-Moreover	1237	1245	O
-,	1245	1246	O
-the	1247	1250	O
-relative	1251	1259	O
-yield	1260	1265	O
-of	1266	1268	O
-all	1269	1272	O
-the	1273	1276	O
-other	1277	1282	O
-heavier	1283	1290	B-Material
-fragment	1291	1299	I-Material
-ions	1300	1304	I-Material
-resulting	1305	1314	O
-from	1315	1319	O
-interaction	1320	1331	O
-of	1332	1334	O
-the	1335	1338	O
-strong	1339	1345	O
-field	1346	1351	O
-with	1352	1356	O
-the	1357	1360	O
-molecule	1361	1369	B-Material
-is	1370	1372	O
-not	1373	1376	O
-sensitive	1377	1386	O
-to	1387	1389	O
-the	1390	1393	O
-sign	1394	1398	O
-of	1399	1401	O
-the	1402	1405	O
-chirp	1406	1411	B-Material
-,	1411	1412	O
-within	1413	1419	O
-the	1420	1423	O
-noise	1424	1429	O
-level	1430	1435	O
-.	1435	1436	O
+It	0,2	O	O
+has	3,6	O	O
+been	7,11	O	O
+known	12,17	O	O
+[	18,19	O	O
+9,14,18,22	19,29	O	O
+]	29,30	O	O
+that	31,35	O	O
+the	36,39	O	O
+fragmentation	40,53	O	B-Process
+processes	54,63	O	I-Process
+in	64,66	O	O
+polyatomic	67,77	O	B-Material
+molecules	78,87	O	I-Material
+induced	88,95	O	O
+by	96,98	O	O
+an	99,101	O	O
+intense	102,109	O	B-Material
+ultrafast	110,119	O	I-Material
+laser	120,125	O	I-Material
+field	126,131	O	I-Material
+can	132,135	O	O
+sometimes	136,145	O	O
+exhibit	146,153	O	O
+sensitive	154,163	O	O
+dependence	164,174	O	O
+on	175,177	O	O
+the	178,181	O	O
+instantaneous	182,195	O	O
+phase	196,201	O	O
+characteristics	202,217	O	O
+of	218,220	O	O
+the	221,224	O	O
+laser	225,230	O	B-Material
+field	231,236	O	I-Material
+.	236,237	O	O
+
+Depending	238,247	O	O
+on	248,250	O	O
+the	251,254	O	O
+change	255,261	O	O
+in	262,264	O	O
+sign	265,269	O	O
+the	270,273	O	O
+chirped	274,281	O	B-Material
+laser	282,287	O	I-Material
+pulses	288,294	O	I-Material
+,	294,295	O	O
+fragmentation	296,309	O	B-Task
+could	310,315	O	O
+be	316,318	O	O
+either	319,325	O	O
+enhanced	326,334	O	O
+or	335,337	O	O
+suppressed	338,348	O	O
+[	349,350	O	O
+14,18,22	350,358	O	O
+]	358,359	O	O
+.	359,360	O	O
+
+Controlling	361,372	O	O
+the	373,376	O	O
+outcome	377,384	O	O
+of	385,387	O	O
+such	388,392	O	O
+laser	393,398	O	B-Process
+induced	399,406	O	I-Process
+molecular	407,416	O	I-Process
+fragmentation	417,430	O	I-Process
+with	431,435	O	O
+chirped	436,443	O	B-Material
+femtosecond	444,455	O	I-Material
+laser	456,461	O	I-Material
+pulses	462,468	O	I-Material
+has	469,472	O	O
+brought	473,480	O	O
+forth	481,486	O	O
+a	487,488	O	O
+number	489,495	O	O
+of	496,498	O	O
+experimental	499,511	O	O
+and	512,515	O	O
+theoretical	516,527	O	O
+effects	528,535	O	O
+in	536,538	O	O
+the	539,542	O	O
+recent	543,549	O	O
+years	550,555	O	O
+.	555,556	O	O
+
+However	557,564	O	O
+,	564,565	O	O
+efforts	566,573	O	O
+are	574,577	O	O
+continuing	578,588	O	O
+for	589,592	O	O
+a	593,594	O	O
+specific	595,603	O	O
+fragment	604,612	O	B-Task
+channel	613,620	O	I-Task
+enhancement	621,632	O	I-Task
+,	632,633	O	O
+which	634,639	O	O
+is	640,642	O	O
+difficult	643,652	O	O
+since	653,658	O	O
+it	659,661	O	O
+also	662,666	O	O
+is	667,669	O	O
+a	670,671	O	O
+function	672,680	O	O
+of	681,683	O	O
+the	684,687	O	O
+molecular	688,697	O	B-Process
+system	698,704	O	I-Process
+under	705,710	O	O
+study	711,716	O	O
+[	717,718	O	O
+20,22–24	718,726	O	O
+]	726,727	O	O
+.	727,728	O	O
+
+Here	729,733	O	O
+we	734,736	O	O
+report	737,743	O	O
+the	744,747	O	O
+observation	748,759	O	B-Task
+of	760,762	O	I-Task
+a	763,764	O	I-Task
+coherently	765,775	O	I-Task
+enhanced	776,784	O	I-Task
+fragmentation	785,798	O	I-Task
+pathway	799,806	O	I-Task
+of	807,809	O	O
+n	810,811	O	B-Material
+-	811,812	O	I-Material
+propyl	812,818	O	I-Material
+benzene	819,826	O	I-Material
+,	826,827	O	O
+which	828,833	O	O
+seems	834,839	O	O
+to	840,842	O	O
+have	843,847	O	O
+such	848,852	O	O
+specific	853,861	O	O
+fragmentation	862,875	O	B-Material
+channel	876,883	O	I-Material
+available	884,893	O	O
+.	893,894	O	O
+
+We	895,897	O	O
+found	898,903	O	O
+that	904,908	O	O
+for	909,912	O	O
+n	913,914	O	B-Material
+-	914,915	O	I-Material
+propyl	915,921	O	I-Material
+benzene	922,929	O	I-Material
+,	929,930	O	O
+the	931,934	O	O
+relative	935,943	O	O
+yield	944,949	O	O
+of	950,952	O	O
+C3H3	953,957	O	B-Material
++	957,958	O	I-Material
+is	959,961	O	O
+extremely	962,971	O	O
+sensitive	972,981	O	O
+to	982,984	O	O
+the	985,988	O	O
+phase	989,994	O	O
+of	995,997	O	O
+the	998,1001	O	O
+laser	1002,1007	O	B-Material
+pulse	1008,1013	O	I-Material
+as	1014,1016	O	O
+compared	1017,1025	O	O
+to	1026,1028	O	O
+any	1029,1032	O	O
+of	1033,1035	O	O
+the	1036,1039	O	O
+other	1040,1045	O	O
+possible	1046,1054	O	O
+channels	1055,1063	O	B-Material
+.	1063,1064	O	O
+
+In	1065,1067	O	O
+fact	1068,1072	O	O
+,	1072,1073	O	O
+there	1074,1079	O	O
+is	1080,1082	O	O
+almost	1083,1089	O	O
+an	1090,1092	O	O
+order	1093,1098	O	O
+of	1099,1101	O	O
+magnitude	1102,1111	O	O
+enhancement	1112,1123	O	O
+in	1124,1126	O	O
+the	1127,1130	O	O
+yield	1131,1136	O	O
+of	1137,1139	O	O
+C3H3	1140,1144	O	B-Material
++	1144,1145	O	I-Material
+when	1146,1150	O	O
+negatively	1151,1161	O	B-Material
+chirped	1162,1169	O	I-Material
+pulses	1170,1176	O	I-Material
+are	1177,1180	O	O
+used	1181,1185	O	O
+,	1185,1186	O	O
+while	1187,1192	O	O
+there	1193,1198	O	O
+is	1199,1201	O	O
+no	1202,1204	O	O
+effect	1205,1211	O	O
+with	1212,1216	O	O
+the	1217,1220	O	O
+positive	1221,1229	O	B-Material
+chirp	1230,1235	O	I-Material
+.	1235,1236	O	O
+
+Moreover	1237,1245	O	O
+,	1245,1246	O	O
+the	1247,1250	O	O
+relative	1251,1259	O	O
+yield	1260,1265	O	O
+of	1266,1268	O	O
+all	1269,1272	O	O
+the	1273,1276	O	O
+other	1277,1282	O	O
+heavier	1283,1290	O	B-Material
+fragment	1291,1299	O	I-Material
+ions	1300,1304	O	I-Material
+resulting	1305,1314	O	O
+from	1315,1319	O	O
+interaction	1320,1331	O	O
+of	1332,1334	O	O
+the	1335,1338	O	O
+strong	1339,1345	O	O
+field	1346,1351	O	O
+with	1352,1356	O	O
+the	1357,1360	O	O
+molecule	1361,1369	O	B-Material
+is	1370,1372	O	O
+not	1373,1376	O	O
+sensitive	1377,1386	O	O
+to	1387,1389	O	O
+the	1390,1393	O	O
+sign	1394,1398	O	O
+of	1399,1401	O	O
+the	1402,1405	O	O
+chirp	1406,1411	O	B-Material
+,	1411,1412	O	O
+within	1413,1419	O	O
+the	1420,1423	O	O
+noise	1424,1429	O	O
+level	1430,1435	O	O
+.	1435,1436	O	O
 
 
 -DOCSTART- (S0301010413002139)
 
-The	0	3	O
-vibrational	4	15	O
-spectra	16	23	O
-of	24	26	O
-l	27	28	B-Material
--	28	29	I-Material
-cysteine	29	37	I-Material
-have	38	42	O
-been	43	47	O
-recorded	48	56	O
-and	57	60	O
-assigned	61	69	O
-in	70	72	O
-both	73	77	O
-solution	78	86	O
-[	87	88	O
-8,9	88	91	O
-]	91	92	O
-and	93	96	O
-the	97	100	O
-solid	101	106	O
-state	107	112	O
-[	113	114	O
-10–14	114	119	O
-]	119	120	O
-.	120	121	O
-
-Spectral	122	130	B-Process
-assignments	131	142	I-Process
-have	143	147	O
-been	148	152	O
-made	153	157	O
-using	158	163	O
-empirical	164	173	B-Process
-force	174	179	I-Process
-fields	180	186	I-Process
-[	187	188	O
-15	188	190	O
-]	190	191	O
-,	191	192	O
-Hartree	193	200	B-Process
-–	200	201	I-Process
-Fock	201	205	I-Process
-calculations	206	218	I-Process
-[	219	220	O
-10,16,17	220	228	O
-]	228	229	O
-based	230	235	O
-on	236	238	O
-the	239	242	O
-isolated	243	251	B-Process
-molecule	252	260	I-Process
-approximation	261	274	I-Process
-.	274	275	O
-
-For	276	279	O
-systems	280	287	O
-that	288	292	O
-exhibit	293	300	O
-strong	301	307	O
-intermolecular	308	322	O
-interactions	323	335	O
-,	335	336	O
-this	337	341	O
-approximation	342	355	O
-often	356	361	O
-leads	362	367	O
-to	368	370	O
-poor	371	375	O
-agreement	376	385	O
-between	386	393	O
-experiment	394	404	O
-and	405	408	O
-theory	409	415	O
-.	415	416	O
-
-A	417	418	O
-striking	419	427	O
-example	428	435	O
-is	436	438	O
-purine	439	445	B-Material
-[	446	447	O
-18	447	449	O
-]	449	450	O
-,	450	451	O
-where	452	457	O
-a	458	459	O
-study	460	465	B-Task
-of	466	468	I-Task
-the	469	472	I-Task
-solid	473	478	I-Task
-state	479	484	I-Task
-vibrational	485	496	I-Task
-spectra	497	504	I-Task
-by	505	507	O
-isolated	508	516	B-Process
-molecule	517	525	I-Process
-and	526	529	I-Process
-periodic	530	538	I-Process
-calculations	539	551	I-Process
-,	551	552	O
-gave	553	557	O
-almost	558	564	O
-quantitative	565	577	O
-agreement	578	587	O
-between	588	595	O
-theory	596	602	O
-and	603	606	O
-experiment	607	617	O
-for	618	621	O
-the	622	625	O
-latter	626	632	O
-,	632	633	O
-whereas	634	641	O
-the	642	645	O
-former	646	652	O
-gave	653	657	O
-only	658	662	O
-modest	663	669	O
-agreement	670	679	O
-and	680	683	O
-was	684	687	O
-unable	688	694	O
-to	695	697	O
-distinguish	698	709	O
-between	710	717	O
-the	718	721	O
-tautomers	722	731	B-Material
-.	731	732	O
-
-In	733	735	O
-the	736	739	O
-present	740	747	O
-case	748	752	O
-,	752	753	O
-where	754	759	O
-the	760	763	O
-structure	764	773	O
-consists	774	782	O
-of	783	785	O
-ions	786	790	B-Material
-linked	791	797	O
-by	798	800	O
-hydrogen	801	809	B-Material
-bonds	810	815	O
-,	815	816	O
-periodic	817	825	B-Process
-calculations	826	838	I-Process
-based	839	844	O
-on	845	847	O
-the	848	851	O
-complete	852	860	B-Material
-primitive	861	870	I-Material
-cell	871	875	I-Material
-are	876	879	O
-essential	880	889	O
-[	890	891	O
-19	891	893	O
-]	893	894	O
-.	894	895	O
-
-The	896	899	O
-only	900	904	O
-work	905	909	O
-[	910	911	O
-20	911	913	O
-]	913	914	O
-that	915	919	O
-includes	920	928	O
-some	929	933	O
-solid	934	939	O
-state	940	945	O
-effects	946	953	O
-used	954	958	O
-molecular	959	968	B-Process
-dynamics	969	977	I-Process
-but	978	981	O
-from	982	986	O
-which	987	992	O
-it	993	995	O
-is	996	998	O
-difficult	999	1008	O
-to	1009	1011	O
-extract	1012	1019	O
-assignments	1020	1031	O
-.	1031	1032	O
-
-The	1033	1036	O
-aim	1037	1040	O
-of	1041	1043	O
-this	1044	1048	O
-paper	1049	1054	O
-is	1055	1057	O
-to	1058	1060	O
-provide	1061	1068	B-Task
-a	1069	1070	I-Task
-complete	1071	1079	I-Task
-assignment	1080	1090	I-Task
-of	1091	1093	I-Task
-the	1094	1097	I-Task
-vibrational	1098	1109	I-Task
-spectra	1110	1117	I-Task
-of	1118	1120	I-Task
-l	1121	1122	I-Task
--	1122	1123	I-Task
-cysteine	1123	1131	I-Task
-in	1132	1134	O
-both	1135	1139	O
-the	1140	1143	O
-orthorhombic	1144	1156	O
-and	1157	1160	O
-monoclinic	1161	1171	O
-forms	1172	1177	O
-by	1178	1180	O
-the	1181	1184	O
-use	1185	1188	O
-of	1189	1191	O
-a	1192	1193	O
-combination	1194	1205	O
-of	1206	1208	O
-computational	1209	1222	B-Process
-and	1223	1226	I-Process
-experimental	1227	1239	I-Process
-methods	1240	1247	I-Process
-.	1247	1248	O
+The	0,3	O	O
+vibrational	4,15	O	O
+spectra	16,23	O	O
+of	24,26	O	O
+l	27,28	O	B-Material
+-	28,29	O	I-Material
+cysteine	29,37	O	I-Material
+have	38,42	O	O
+been	43,47	O	O
+recorded	48,56	O	O
+and	57,60	O	O
+assigned	61,69	O	O
+in	70,72	O	O
+both	73,77	O	O
+solution	78,86	O	O
+[	87,88	O	O
+8,9	88,91	O	O
+]	91,92	O	O
+and	93,96	O	O
+the	97,100	O	O
+solid	101,106	O	O
+state	107,112	O	O
+[	113,114	O	O
+10–14	114,119	O	O
+]	119,120	O	O
+.	120,121	O	O
+
+Spectral	122,130	O	B-Process
+assignments	131,142	O	I-Process
+have	143,147	O	O
+been	148,152	O	O
+made	153,157	O	O
+using	158,163	O	O
+empirical	164,173	O	B-Process
+force	174,179	O	I-Process
+fields	180,186	O	I-Process
+[	187,188	O	O
+15	188,190	O	O
+]	190,191	O	O
+,	191,192	O	O
+Hartree	193,200	O	B-Process
+–	200,201	O	I-Process
+Fock	201,205	O	I-Process
+calculations	206,218	O	I-Process
+[	219,220	O	O
+10,16,17	220,228	O	O
+]	228,229	O	O
+based	230,235	O	O
+on	236,238	O	O
+the	239,242	O	O
+isolated	243,251	O	B-Process
+molecule	252,260	O	I-Process
+approximation	261,274	O	I-Process
+.	274,275	O	O
+
+For	276,279	O	O
+systems	280,287	O	O
+that	288,292	O	O
+exhibit	293,300	O	O
+strong	301,307	O	O
+intermolecular	308,322	O	O
+interactions	323,335	O	O
+,	335,336	O	O
+this	337,341	O	O
+approximation	342,355	O	O
+often	356,361	O	O
+leads	362,367	O	O
+to	368,370	O	O
+poor	371,375	O	O
+agreement	376,385	O	O
+between	386,393	O	O
+experiment	394,404	O	O
+and	405,408	O	O
+theory	409,415	O	O
+.	415,416	O	O
+
+A	417,418	O	O
+striking	419,427	O	O
+example	428,435	O	O
+is	436,438	O	O
+purine	439,445	O	B-Material
+[	446,447	O	O
+18	447,449	O	O
+]	449,450	O	O
+,	450,451	O	O
+where	452,457	O	O
+a	458,459	O	O
+study	460,465	O	B-Task
+of	466,468	O	I-Task
+the	469,472	O	I-Task
+solid	473,478	O	I-Task
+state	479,484	O	I-Task
+vibrational	485,496	O	I-Task
+spectra	497,504	O	I-Task
+by	505,507	O	O
+isolated	508,516	O	B-Process
+molecule	517,525	O	I-Process
+and	526,529	O	I-Process
+periodic	530,538	O	I-Process
+calculations	539,551	O	I-Process
+,	551,552	O	O
+gave	553,557	O	O
+almost	558,564	O	O
+quantitative	565,577	O	O
+agreement	578,587	O	O
+between	588,595	O	O
+theory	596,602	O	O
+and	603,606	O	O
+experiment	607,617	O	O
+for	618,621	O	O
+the	622,625	O	O
+latter	626,632	O	O
+,	632,633	O	O
+whereas	634,641	O	O
+the	642,645	O	O
+former	646,652	O	O
+gave	653,657	O	O
+only	658,662	O	O
+modest	663,669	O	O
+agreement	670,679	O	O
+and	680,683	O	O
+was	684,687	O	O
+unable	688,694	O	O
+to	695,697	O	O
+distinguish	698,709	O	O
+between	710,717	O	O
+the	718,721	O	O
+tautomers	722,731	O	B-Material
+.	731,732	O	O
+
+In	733,735	O	O
+the	736,739	O	O
+present	740,747	O	O
+case	748,752	O	O
+,	752,753	O	O
+where	754,759	O	O
+the	760,763	O	O
+structure	764,773	O	O
+consists	774,782	O	O
+of	783,785	O	O
+ions	786,790	O	B-Material
+linked	791,797	O	O
+by	798,800	O	O
+hydrogen	801,809	O	B-Material
+bonds	810,815	O	O
+,	815,816	O	O
+periodic	817,825	O	B-Process
+calculations	826,838	O	I-Process
+based	839,844	O	O
+on	845,847	O	O
+the	848,851	O	O
+complete	852,860	O	B-Material
+primitive	861,870	O	I-Material
+cell	871,875	O	I-Material
+are	876,879	O	O
+essential	880,889	O	O
+[	890,891	O	O
+19	891,893	O	O
+]	893,894	O	O
+.	894,895	O	O
+
+The	896,899	O	O
+only	900,904	O	O
+work	905,909	O	O
+[	910,911	O	O
+20	911,913	O	O
+]	913,914	O	O
+that	915,919	O	O
+includes	920,928	O	O
+some	929,933	O	O
+solid	934,939	O	O
+state	940,945	O	O
+effects	946,953	O	O
+used	954,958	O	O
+molecular	959,968	O	B-Process
+dynamics	969,977	O	I-Process
+but	978,981	O	O
+from	982,986	O	O
+which	987,992	O	O
+it	993,995	O	O
+is	996,998	O	O
+difficult	999,1008	O	O
+to	1009,1011	O	O
+extract	1012,1019	O	O
+assignments	1020,1031	O	O
+.	1031,1032	O	O
+
+The	1033,1036	O	O
+aim	1037,1040	O	O
+of	1041,1043	O	O
+this	1044,1048	O	O
+paper	1049,1054	O	O
+is	1055,1057	O	O
+to	1058,1060	O	O
+provide	1061,1068	O	B-Task
+a	1069,1070	O	I-Task
+complete	1071,1079	O	I-Task
+assignment	1080,1090	O	I-Task
+of	1091,1093	O	I-Task
+the	1094,1097	O	I-Task
+vibrational	1098,1109	O	I-Task
+spectra	1110,1117	O	I-Task
+of	1118,1120	O	I-Task
+l	1121,1122	O	I-Task
+-	1122,1123	O	I-Task
+cysteine	1123,1131	O	I-Task
+in	1132,1134	O	O
+both	1135,1139	O	O
+the	1140,1143	O	O
+orthorhombic	1144,1156	O	O
+and	1157,1160	O	O
+monoclinic	1161,1171	O	O
+forms	1172,1177	O	O
+by	1178,1180	O	O
+the	1181,1184	O	O
+use	1185,1188	O	O
+of	1189,1191	O	O
+a	1192,1193	O	O
+combination	1194,1205	O	O
+of	1206,1208	O	O
+computational	1209,1222	O	B-Process
+and	1223,1226	O	I-Process
+experimental	1227,1239	O	I-Process
+methods	1240,1247	O	I-Process
+.	1247,1248	O	O
 
 
 -DOCSTART- (S0301010413004096)
 
-It	0	2	O
-is	3	5	O
-critical	6	14	O
-to	15	17	O
-the	18	21	O
-success	22	29	O
-of	30	32	O
-the	33	36	O
-NPD	37	40	B-Process
-technique	41	50	I-Process
-that	51	55	O
-the	56	59	O
-MOF	60	63	B-Material
-complex	64	71	I-Material
-adsorbs	72	79	O
-a	80	81	O
-significant	82	93	O
-amount	94	100	O
-of	101	103	O
-D2	104	106	B-Material
-to	107	109	O
-boost	110	115	O
-the	116	119	O
-observed	120	128	O
-signal	129	135	O
-.	135	136	O
-
-This	137	141	O
-technique	142	151	O
-therefore	152	161	O
-has	162	165	O
-disadvantages	166	179	O
-when	180	184	O
-studying	185	193	O
-the	194	197	O
-binding	198	205	B-Process
-interaction	206	217	I-Process
-within	218	224	O
-MOFs	225	229	B-Material
-with	230	234	O
-low	235	238	O
-uptakes	239	246	O
-.	246	247	O
-
-Furthermore	248	259	O
-,	259	260	O
-static	261	267	B-Task
-crystallographic	268	284	I-Task
-studies	285	292	I-Task
-can	293	296	O
-not	296	299	O
-provide	300	307	O
-insights	308	316	O
-into	317	321	O
-the	322	325	O
-dynamics	326	334	O
-of	335	337	O
-the	338	341	O
-adsorbed	342	350	B-Material
-gas	351	354	I-Material
-molecules	355	364	I-Material
-.	364	365	O
-
-Thus	366	370	O
-,	370	371	O
-it	372	374	O
-is	375	377	O
-very	378	382	O
-challenging	383	394	O
-to	395	397	O
-probe	398	403	O
-experimentally	404	418	O
-the	419	422	O
-H2	423	425	B-Process
-binding	426	433	I-Process
-interactions	434	446	I-Process
-within	447	453	O
-a	454	455	O
-porous	456	462	O
-host	463	467	O
-system	468	474	O
-which	475	480	O
-has	481	484	O
-very	485	489	O
-low	490	493	O
-gas	494	497	B-Material
-uptake	498	504	O
-due	505	508	O
-to	509	511	O
-the	512	515	O
-lack	516	520	O
-of	521	523	O
-suitable	524	532	O
-characterisation	533	549	B-Process
-techniques	550	560	I-Process
-.	560	561	O
-
-We	562	564	O
-report	565	571	O
-herein	572	578	O
-the	579	582	O
-application	583	594	O
-of	595	597	O
-the	598	601	O
-in	602	604	B-Process
-situ	605	609	I-Process
-inelastic	610	619	I-Process
-neutron	620	627	I-Process
-scattering	628	638	I-Process
-(	639	640	O
-INS	640	643	B-Process
-)	643	644	O
-technique	645	654	O
-to	655	657	O
-permit	658	664	B-Task
-direct	665	671	I-Task
-observation	672	683	I-Task
-of	684	686	I-Task
-the	687	690	I-Task
-dynamics	691	699	I-Task
-of	700	702	I-Task
-the	703	706	I-Task
-binding	707	714	I-Task
-interactions	715	727	I-Task
-between	728	735	O
-adsorbed	736	744	B-Material
-H2	745	747	I-Material
-molecules	748	757	I-Material
-and	758	761	O
-an	762	764	O
-aluminium	765	774	B-Material
--	774	775	I-Material
-based	775	780	I-Material
-porous	781	787	I-Material
-MOF	788	791	I-Material
-,	791	792	O
-NOTT-300	793	801	B-Material
-,	801	802	O
-exhibiting	803	813	O
-moderate	814	822	O
-porosity	823	831	O
-,	831	832	O
-narrow	833	839	O
-pore	840	844	O
-window	845	851	O
-and	852	855	O
-very	856	860	O
-low	861	864	O
-uptake	865	871	O
-of	872	874	O
-H2	875	877	B-Material
-.	877	878	O
-
-This	879	883	O
-neutron	884	891	B-Task
-spectroscopy	892	904	I-Task
-study	905	910	O
-reveals	911	918	O
-that	919	923	O
-adsorbed	924	932	B-Material
-H2	933	935	I-Material
-molecules	936	945	I-Material
-do	946	948	O
-not	949	952	O
-interact	953	961	O
-with	962	966	O
-the	967	970	O
-organic	971	978	B-Material
-ligand	979	985	I-Material
-within	986	992	O
-the	993	996	O
-pore	997	1001	O
-channels	1002	1010	O
-,	1010	1011	O
-and	1012	1015	O
-form	1016	1020	O
-very	1021	1025	O
-weak	1026	1030	O
-interactions	1031	1043	O
-with	1044	1048	O
-[	1049	1050	B-Material
-Al(OH)2O4	1050	1059	I-Material
-]	1059	1060	I-Material
-moieties	1061	1069	I-Material
-via	1070	1073	O
-a	1074	1075	O
-type	1076	1080	O
-of	1081	1083	O
-through	1084	1091	B-Process
--	1091	1092	I-Process
-spacing	1092	1099	I-Process
-interaction	1100	1111	I-Process
-(	1112	1113	O
-Al	1113	1115	B-Process
--	1115	1116	I-Process
-O⋯H2	1116	1120	I-Process
-)	1120	1121	O
-.	1121	1122	O
-
-Interestingly	1123	1136	O
-,	1136	1137	O
-the	1138	1141	O
-very	1142	1146	O
-low	1147	1150	O
-H2	1151	1153	B-Process
-adsorption	1154	1164	I-Process
-has	1165	1168	O
-been	1169	1173	O
-successfully	1174	1186	O
-characterised	1187	1200	O
-as	1201	1203	O
-weak	1204	1208	B-Process
-binding	1209	1216	I-Process
-interactions	1217	1229	I-Process
-and	1230	1233	O
-,	1233	1234	O
-for	1235	1238	O
-the	1239	1242	O
-first	1243	1248	O
-time	1249	1253	O
-,	1253	1254	O
-we	1255	1257	O
-have	1258	1262	O
-found	1263	1268	O
-that	1269	1273	O
-the	1274	1277	O
-adsorbed	1278	1286	B-Material
-H2	1287	1289	I-Material
-in	1290	1292	O
-the	1293	1296	O
-pore	1297	1301	O
-channel	1302	1309	O
-has	1310	1313	O
-a	1314	1315	O
-liquid	1316	1322	B-Material
-type	1323	1327	O
-recoil	1328	1334	O
-motion	1335	1341	O
-at	1342	1344	O
-5	1345	1346	O
-K	1346	1347	O
-(	1348	1349	O
-below	1349	1354	O
-its	1355	1358	O
-melting	1359	1366	O
-point	1367	1372	O
-)	1372	1373	O
-as	1374	1376	O
-a	1377	1378	O
-direct	1379	1385	O
-result	1386	1392	O
-of	1393	1395	O
-this	1396	1400	O
-weak	1401	1405	B-Process
-interaction	1406	1417	I-Process
-to	1418	1420	O
-the	1421	1424	O
-MOF	1425	1428	B-Material
-host	1429	1433	O
-.	1433	1434	O
+It	0,2	O	O
+is	3,5	O	O
+critical	6,14	O	O
+to	15,17	O	O
+the	18,21	O	O
+success	22,29	O	O
+of	30,32	O	O
+the	33,36	O	O
+NPD	37,40	O	B-Process
+technique	41,50	O	I-Process
+that	51,55	O	O
+the	56,59	O	O
+MOF	60,63	O	B-Material
+complex	64,71	O	I-Material
+adsorbs	72,79	O	O
+a	80,81	O	O
+significant	82,93	O	O
+amount	94,100	O	O
+of	101,103	O	O
+D2	104,106	O	B-Material
+to	107,109	O	O
+boost	110,115	O	O
+the	116,119	O	O
+observed	120,128	O	O
+signal	129,135	O	O
+.	135,136	O	O
+
+This	137,141	O	O
+technique	142,151	O	O
+therefore	152,161	O	O
+has	162,165	O	O
+disadvantages	166,179	O	O
+when	180,184	O	O
+studying	185,193	O	O
+the	194,197	O	O
+binding	198,205	O	B-Process
+interaction	206,217	O	I-Process
+within	218,224	O	O
+MOFs	225,229	O	B-Material
+with	230,234	O	O
+low	235,238	O	O
+uptakes	239,246	O	O
+.	246,247	O	O
+
+Furthermore	248,259	O	O
+,	259,260	O	O
+static	261,267	O	B-Task
+crystallographic	268,284	O	I-Task
+studies	285,292	O	I-Task
+can	293,296	O	O
+not	296,299	O	O
+provide	300,307	O	O
+insights	308,316	O	O
+into	317,321	O	O
+the	322,325	O	O
+dynamics	326,334	O	O
+of	335,337	O	O
+the	338,341	O	O
+adsorbed	342,350	O	B-Material
+gas	351,354	O	I-Material
+molecules	355,364	O	I-Material
+.	364,365	O	O
+
+Thus	366,370	O	O
+,	370,371	O	O
+it	372,374	O	O
+is	375,377	O	O
+very	378,382	O	O
+challenging	383,394	O	O
+to	395,397	O	O
+probe	398,403	O	O
+experimentally	404,418	O	O
+the	419,422	O	O
+H2	423,425	O	B-Process
+binding	426,433	O	I-Process
+interactions	434,446	O	I-Process
+within	447,453	O	O
+a	454,455	O	O
+porous	456,462	O	O
+host	463,467	O	O
+system	468,474	O	O
+which	475,480	O	O
+has	481,484	O	O
+very	485,489	O	O
+low	490,493	O	O
+gas	494,497	O	B-Material
+uptake	498,504	O	O
+due	505,508	O	O
+to	509,511	O	O
+the	512,515	O	O
+lack	516,520	O	O
+of	521,523	O	O
+suitable	524,532	O	O
+characterisation	533,549	O	B-Process
+techniques	550,560	O	I-Process
+.	560,561	O	O
+
+We	562,564	O	O
+report	565,571	O	O
+herein	572,578	O	O
+the	579,582	O	O
+application	583,594	O	O
+of	595,597	O	O
+the	598,601	O	O
+in	602,604	O	B-Process
+situ	605,609	O	I-Process
+inelastic	610,619	O	I-Process
+neutron	620,627	O	I-Process
+scattering	628,638	O	I-Process
+(	639,640	O	O
+INS	640,643	O	B-Process
+)	643,644	O	O
+technique	645,654	O	O
+to	655,657	O	O
+permit	658,664	O	B-Task
+direct	665,671	O	I-Task
+observation	672,683	O	I-Task
+of	684,686	O	I-Task
+the	687,690	O	I-Task
+dynamics	691,699	O	I-Task
+of	700,702	O	I-Task
+the	703,706	O	I-Task
+binding	707,714	O	I-Task
+interactions	715,727	O	I-Task
+between	728,735	O	O
+adsorbed	736,744	O	B-Material
+H2	745,747	O	I-Material
+molecules	748,757	O	I-Material
+and	758,761	O	O
+an	762,764	O	O
+aluminium	765,774	O	B-Material
+-	774,775	O	I-Material
+based	775,780	O	I-Material
+porous	781,787	O	I-Material
+MOF	788,791	O	I-Material
+,	791,792	O	O
+NOTT-300	793,801	O	B-Material
+,	801,802	O	O
+exhibiting	803,813	O	O
+moderate	814,822	O	O
+porosity	823,831	O	O
+,	831,832	O	O
+narrow	833,839	O	O
+pore	840,844	O	O
+window	845,851	O	O
+and	852,855	O	O
+very	856,860	O	O
+low	861,864	O	O
+uptake	865,871	O	O
+of	872,874	O	O
+H2	875,877	O	B-Material
+.	877,878	O	O
+
+This	879,883	O	O
+neutron	884,891	O	B-Task
+spectroscopy	892,904	O	I-Task
+study	905,910	O	O
+reveals	911,918	O	O
+that	919,923	O	O
+adsorbed	924,932	O	B-Material
+H2	933,935	O	I-Material
+molecules	936,945	O	I-Material
+do	946,948	O	O
+not	949,952	O	O
+interact	953,961	O	O
+with	962,966	O	O
+the	967,970	O	O
+organic	971,978	O	B-Material
+ligand	979,985	O	I-Material
+within	986,992	O	O
+the	993,996	O	O
+pore	997,1001	O	O
+channels	1002,1010	O	O
+,	1010,1011	O	O
+and	1012,1015	O	O
+form	1016,1020	O	O
+very	1021,1025	O	O
+weak	1026,1030	O	O
+interactions	1031,1043	O	O
+with	1044,1048	O	O
+[	1049,1050	O	B-Material
+Al(OH)2O4	1050,1059	O	I-Material
+]	1059,1060	O	I-Material
+moieties	1061,1069	O	I-Material
+via	1070,1073	O	O
+a	1074,1075	O	O
+type	1076,1080	O	O
+of	1081,1083	O	O
+through	1084,1091	O	B-Process
+-	1091,1092	O	I-Process
+spacing	1092,1099	O	I-Process
+interaction	1100,1111	O	I-Process
+(	1112,1113	O	O
+Al	1113,1115	O	B-Process
+-	1115,1116	O	I-Process
+O⋯H2	1116,1120	O	I-Process
+)	1120,1121	O	O
+.	1121,1122	O	O
+
+Interestingly	1123,1136	O	O
+,	1136,1137	O	O
+the	1138,1141	O	O
+very	1142,1146	O	O
+low	1147,1150	O	O
+H2	1151,1153	O	B-Process
+adsorption	1154,1164	O	I-Process
+has	1165,1168	O	O
+been	1169,1173	O	O
+successfully	1174,1186	O	O
+characterised	1187,1200	O	O
+as	1201,1203	O	O
+weak	1204,1208	O	B-Process
+binding	1209,1216	O	I-Process
+interactions	1217,1229	O	I-Process
+and	1230,1233	O	O
+,	1233,1234	O	O
+for	1235,1238	O	O
+the	1239,1242	O	O
+first	1243,1248	O	O
+time	1249,1253	O	O
+,	1253,1254	O	O
+we	1255,1257	O	O
+have	1258,1262	O	O
+found	1263,1268	O	O
+that	1269,1273	O	O
+the	1274,1277	O	O
+adsorbed	1278,1286	O	B-Material
+H2	1287,1289	O	I-Material
+in	1290,1292	O	O
+the	1293,1296	O	O
+pore	1297,1301	O	O
+channel	1302,1309	O	O
+has	1310,1313	O	O
+a	1314,1315	O	O
+liquid	1316,1322	O	B-Material
+type	1323,1327	O	O
+recoil	1328,1334	O	O
+motion	1335,1341	O	O
+at	1342,1344	O	O
+5	1345,1346	O	O
+K	1346,1347	O	O
+(	1348,1349	O	O
+below	1349,1354	O	O
+its	1355,1358	O	O
+melting	1359,1366	O	O
+point	1367,1372	O	O
+)	1372,1373	O	O
+as	1374,1376	O	O
+a	1377,1378	O	O
+direct	1379,1385	O	O
+result	1386,1392	O	O
+of	1393,1395	O	O
+this	1396,1400	O	O
+weak	1401,1405	O	B-Process
+interaction	1406,1417	O	I-Process
+to	1418,1420	O	O
+the	1421,1424	O	O
+MOF	1425,1428	O	B-Material
+host	1429,1433	O	O
+.	1433,1434	O	O
 
 
 -DOCSTART- (S0301010415002189)
 
-The	0	3	O
-sodium	4	10	B-Material
-trimer	11	17	I-Material
-has	18	21	O
-a	22	23	O
-long	24	28	O
-history	29	36	O
-of	37	39	O
-theoretical	40	51	O
-and	52	55	O
-experimental	56	68	O
-studies	69	76	O
-.	76	77	O
-
-A	78	79	O
-pioneering	80	90	O
-theoretical	91	102	O
-paper	103	108	O
-of	109	111	O
-Martin	112	118	O
-and	119	122	O
-Davidson	123	131	O
-published	132	141	O
-in	142	144	O
-1978	145	149	O
-showed	150	156	O
-that	157	161	O
-the	162	165	O
-obtuse	166	172	B-Process
-isosceles	173	182	I-Process
-geometry	183	191	I-Process
-is	192	194	O
-lower	195	200	O
-in	201	203	O
-energy	204	210	O
-than	211	215	O
-the	216	219	O
-linear	220	226	B-Process
-conformation	227	239	I-Process
-[	240	241	O
-6	241	242	O
-]	242	243	O
-.	243	244	O
-
-Several	245	252	O
-extended	253	261	O
-PES	262	265	B-Process
-scans	266	271	I-Process
-of	272	274	O
-Na3	275	278	B-Material
-and	279	282	O
-other	283	288	O
-alkali	289	295	B-Material
-trimers	296	303	I-Material
-followed	304	312	O
-this	313	317	O
-initial	318	325	O
-study	326	331	O
-,	331	332	O
-employing	333	342	O
-DFT	343	346	B-Process
-[	347	348	O
-7	348	349	O
-]	349	350	O
-,	350	351	O
-complete	352	360	B-Process
-active	361	367	I-Process
-space	368	373	I-Process
-SCF	374	377	I-Process
-[	378	379	O
-8	379	380	O
-]	380	381	O
-,	381	382	O
-or	383	385	O
-a	386	387	O
-configuration	388	401	B-Process
-interaction	402	413	I-Process
-approach	414	422	I-Process
-based	423	428	O
-on	429	431	O
-valence	432	439	B-Process
-bond	440	444	I-Process
-wave	445	449	I-Process
-functions	450	459	I-Process
-[	460	461	O
-9	461	462	O
-]	462	463	O
-.	463	464	O
-
-Recently	465	473	O
-,	473	474	O
-the	475	478	O
-applicability	479	492	O
-of	493	495	O
-density	496	503	B-Process
-functional	504	514	I-Process
-theory	515	521	I-Process
-(	522	523	O
-DFT	523	526	B-Process
-)	526	527	O
-to	528	530	O
-JT	531	533	B-Process
--	533	534	I-Process
-distorted	534	543	I-Process
-systems	544	551	I-Process
-has	552	555	O
-also	556	560	O
-been	561	565	O
-tested	566	572	O
-for	573	576	O
-Na3	577	580	B-Material
-
-[	581	582	O
-10	582	584	O
-]	584	585	O
-,	585	586	O
-and	587	590	O
-the	591	594	O
-B	595	596	B-Process
--	596	597	I-Process
-X	597	598	I-Process
-transition	599	609	I-Process
-has	610	613	O
-been	614	618	O
-revisited	619	628	O
-as	629	631	O
-well	632	636	O
-,	636	637	O
-applying	638	646	O
-state	647	652	B-Process
--	652	653	I-Process
-averaged	653	661	I-Process
-multi	662	667	I-Process
--	667	668	I-Process
-reference	668	677	I-Process
-configuration	678	691	I-Process
-interaction	692	703	I-Process
-with	704	708	O
-a	709	710	O
-large	711	716	O
-active	717	723	O
-space	724	729	O
-in	730	732	O
-order	733	738	O
-to	739	741	O
-derive	742	748	B-Task
-more	749	753	I-Task
-accurate	754	762	I-Task
-non	763	766	I-Task
--	766	767	I-Task
-adiabatic	767	776	I-Task
-coupling	777	785	I-Task
-terms	786	791	I-Task
-for	792	795	O
-an	796	798	O
-improved	799	807	O
-interpretation	808	822	O
-of	823	825	O
-photoabsorption	826	841	B-Material
-spectra	842	849	I-Material
-[	850	851	O
-11–13	851	856	O
-]	856	857	O
-.	857	858	O
+The	0,3	O	O
+sodium	4,10	O	B-Material
+trimer	11,17	O	I-Material
+has	18,21	O	O
+a	22,23	O	O
+long	24,28	O	O
+history	29,36	O	O
+of	37,39	O	O
+theoretical	40,51	O	O
+and	52,55	O	O
+experimental	56,68	O	O
+studies	69,76	O	O
+.	76,77	O	O
+
+A	78,79	O	O
+pioneering	80,90	O	O
+theoretical	91,102	O	O
+paper	103,108	O	O
+of	109,111	O	O
+Martin	112,118	O	O
+and	119,122	O	O
+Davidson	123,131	O	O
+published	132,141	O	O
+in	142,144	O	O
+1978	145,149	O	O
+showed	150,156	O	O
+that	157,161	O	O
+the	162,165	O	O
+obtuse	166,172	O	B-Process
+isosceles	173,182	O	I-Process
+geometry	183,191	O	I-Process
+is	192,194	O	O
+lower	195,200	O	O
+in	201,203	O	O
+energy	204,210	O	O
+than	211,215	O	O
+the	216,219	O	O
+linear	220,226	O	B-Process
+conformation	227,239	O	I-Process
+[	240,241	O	O
+6	241,242	O	O
+]	242,243	O	O
+.	243,244	O	O
+
+Several	245,252	O	O
+extended	253,261	O	O
+PES	262,265	O	B-Process
+scans	266,271	O	I-Process
+of	272,274	O	O
+Na3	275,278	O	B-Material
+and	279,282	O	O
+other	283,288	O	O
+alkali	289,295	O	B-Material
+trimers	296,303	O	I-Material
+followed	304,312	O	O
+this	313,317	O	O
+initial	318,325	O	O
+study	326,331	O	O
+,	331,332	O	O
+employing	333,342	O	O
+DFT	343,346	O	B-Process
+[	347,348	O	O
+7	348,349	O	O
+]	349,350	O	O
+,	350,351	O	O
+complete	352,360	O	B-Process
+active	361,367	O	I-Process
+space	368,373	O	I-Process
+SCF	374,377	O	I-Process
+[	378,379	O	O
+8	379,380	O	O
+]	380,381	O	O
+,	381,382	O	O
+or	383,385	O	O
+a	386,387	O	O
+configuration	388,401	O	B-Process
+interaction	402,413	O	I-Process
+approach	414,422	O	I-Process
+based	423,428	O	O
+on	429,431	O	O
+valence	432,439	O	B-Process
+bond	440,444	O	I-Process
+wave	445,449	O	I-Process
+functions	450,459	O	I-Process
+[	460,461	O	O
+9	461,462	O	O
+]	462,463	O	O
+.	463,464	O	O
+
+Recently	465,473	O	O
+,	473,474	O	O
+the	475,478	O	O
+applicability	479,492	O	O
+of	493,495	O	O
+density	496,503	O	B-Process
+functional	504,514	O	I-Process
+theory	515,521	O	I-Process
+(	522,523	O	O
+DFT	523,526	O	B-Process
+)	526,527	O	O
+to	528,530	O	O
+JT	531,533	O	B-Process
+-	533,534	O	I-Process
+distorted	534,543	O	I-Process
+systems	544,551	O	I-Process
+has	552,555	O	O
+also	556,560	O	O
+been	561,565	O	O
+tested	566,572	O	O
+for	573,576	O	O
+Na3	577,580	O	B-Material
+
+[	581,582	O	O
+10	582,584	O	O
+]	584,585	O	O
+,	585,586	O	O
+and	587,590	O	O
+the	591,594	O	O
+B	595,596	O	B-Process
+-	596,597	O	I-Process
+X	597,598	O	I-Process
+transition	599,609	O	I-Process
+has	610,613	O	O
+been	614,618	O	O
+revisited	619,628	O	O
+as	629,631	O	O
+well	632,636	O	O
+,	636,637	O	O
+applying	638,646	O	O
+state	647,652	O	B-Process
+-	652,653	O	I-Process
+averaged	653,661	O	I-Process
+multi	662,667	O	I-Process
+-	667,668	O	I-Process
+reference	668,677	O	I-Process
+configuration	678,691	O	I-Process
+interaction	692,703	O	I-Process
+with	704,708	O	O
+a	709,710	O	O
+large	711,716	O	O
+active	717,723	O	O
+space	724,729	O	O
+in	730,732	O	O
+order	733,738	O	O
+to	739,741	O	O
+derive	742,748	O	B-Task
+more	749,753	O	I-Task
+accurate	754,762	O	I-Task
+non	763,766	O	I-Task
+-	766,767	O	I-Task
+adiabatic	767,776	O	I-Task
+coupling	777,785	O	I-Task
+terms	786,791	O	I-Task
+for	792,795	O	O
+an	796,798	O	O
+improved	799,807	O	O
+interpretation	808,822	O	O
+of	823,825	O	O
+photoabsorption	826,841	O	B-Material
+spectra	842,849	O	I-Material
+[	850,851	O	O
+11–13	851,856	O	O
+]	856,857	O	O
+.	857,858	O	O
 
 
 -DOCSTART- (S0301010415300355)
 
-Alternatively	0	13	O
-to	14	16	O
-H	17	18	B-Process
--	18	19	I-Process
-atom	19	23	I-Process
-photodetachment	24	39	I-Process
-from	40	44	O
-the	45	48	O
-intermediate	49	61	B-Material
-radicals	62	70	I-Material
-,	70	71	O
-the	72	75	O
-latter	76	82	O
-may	83	86	O
-serve	87	92	O
-as	93	95	O
-reducing	96	104	B-Material
-agents	105	111	I-Material
-.	111	112	O
-
-Evidence	113	121	O
-has	122	125	O
-been	126	130	O
-reported	131	139	O
-in	140	142	O
-recent	143	149	O
-years	150	155	O
-that	156	160	O
-the	161	164	O
-pyridinyl	165	174	B-Material
-radical	175	182	I-Material
-(	183	184	O
-PyH	184	187	B-Material
-)	187	188	O
-is	189	191	O
-an	192	194	O
-exceptionally	195	208	O
-strong	209	215	O
-reducing	216	224	B-Material
-agent	225	230	I-Material
-which	231	236	O
-can	237	240	O
-even	241	245	O
-reduce	246	252	O
-CO2	253	256	B-Material
-to	257	259	O
-formaldehyde	260	272	B-Material
-,	272	273	O
-formic	274	280	B-Material
-acid	281	285	I-Material
-or	286	288	O
-methanol	289	297	B-Material
-with	298	302	O
-suitable	303	311	O
-catalyzers	312	322	B-Material
-
-[	323	324	O
-27–29	324	329	O
-]	329	330	O
-,	330	331	O
-albeit	332	338	O
-the	339	342	O
-mechanisms	343	353	O
-of	354	356	O
-these	357	362	O
-reactions	363	372	O
-are	373	376	O
-currently	377	386	O
-poorly	387	393	O
-understood	394	404	O
-[	405	406	O
-30–32	406	411	O
-]	411	412	O
-.	412	413	O
-
-The	414	417	O
-theoretically	418	431	O
-predicted	432	441	O
-dissociation	442	454	O
-thresholds	455	465	O
-of	466	468	O
-the	469	472	O
-AcH	473	476	B-Material
-,	476	477	I-Material
-AOH	478	481	I-Material
-and	482	485	I-Material
-BAH	486	489	I-Material
-radicals	490	498	I-Material
-are	499	502	O
-about	503	508	O
-2.7eV	509	514	O
-,	514	515	O
-2.5eV	516	521	O
-and	522	525	O
-3.0eV	526	531	O
-,	531	532	O
-respectively	533	545	O
-(	546	547	O
-see	547	550	O
-Fig	551	554	O
-.	554	555	O
-
-4	556	557	O
-)	557	558	O
-,	558	559	O
-while	560	565	O
-the	566	569	O
-predicted	570	579	O
-dissociation	580	592	O
-threshold	593	602	O
-of	603	605	O
-the	606	609	O
-pyridinyl	610	619	B-Material
-radical	620	627	I-Material
-is	628	630	O
-much	631	635	O
-lower	636	641	O
-,	641	642	O
-about	643	648	O
-1.7eV	649	654	O
-[	655	656	O
-1	656	657	O
-]	657	658	O
-.	658	659	O
-
-Pyridinyl	660	669	B-Material
-is	670	672	O
-thus	673	677	O
-a	678	679	O
-significantly	680	693	O
-stronger	694	702	O
-reductant	703	712	B-Material
-than	713	717	O
-acridinyl	718	727	B-Material
-and	728	731	O
-related	732	739	O
-radicals	740	748	B-Material
-.	748	749	O
-
-It	750	752	O
-is	753	755	O
-therefore	756	765	O
-not	766	769	O
-expected	770	778	O
-that	779	783	O
-the	784	787	O
-latter	788	794	O
-will	795	799	O
-be	800	802	O
-able	803	807	O
-to	808	810	O
-reduce	811	817	B-Task
-carbon	818	824	I-Task
-dioxide	825	832	I-Task
-in	833	835	I-Task
-dark	836	840	I-Task
-reactions	841	850	I-Task
-.	850	851	O
+Alternatively	0,13	O	O
+to	14,16	O	O
+H	17,18	O	B-Process
+-	18,19	O	I-Process
+atom	19,23	O	I-Process
+photodetachment	24,39	O	I-Process
+from	40,44	O	O
+the	45,48	O	O
+intermediate	49,61	O	B-Material
+radicals	62,70	O	I-Material
+,	70,71	O	O
+the	72,75	O	O
+latter	76,82	O	O
+may	83,86	O	O
+serve	87,92	O	O
+as	93,95	O	O
+reducing	96,104	O	B-Material
+agents	105,111	O	I-Material
+.	111,112	O	O
+
+Evidence	113,121	O	O
+has	122,125	O	O
+been	126,130	O	O
+reported	131,139	O	O
+in	140,142	O	O
+recent	143,149	O	O
+years	150,155	O	O
+that	156,160	O	O
+the	161,164	O	O
+pyridinyl	165,174	O	B-Material
+radical	175,182	O	I-Material
+(	183,184	O	O
+PyH	184,187	O	B-Material
+)	187,188	O	O
+is	189,191	O	O
+an	192,194	O	O
+exceptionally	195,208	O	O
+strong	209,215	O	O
+reducing	216,224	O	B-Material
+agent	225,230	O	I-Material
+which	231,236	O	O
+can	237,240	O	O
+even	241,245	O	O
+reduce	246,252	O	O
+CO2	253,256	O	B-Material
+to	257,259	O	O
+formaldehyde	260,272	O	B-Material
+,	272,273	O	O
+formic	274,280	O	B-Material
+acid	281,285	O	I-Material
+or	286,288	O	O
+methanol	289,297	O	B-Material
+with	298,302	O	O
+suitable	303,311	O	O
+catalyzers	312,322	O	B-Material
+
+[	323,324	O	O
+27–29	324,329	O	O
+]	329,330	O	O
+,	330,331	O	O
+albeit	332,338	O	O
+the	339,342	O	O
+mechanisms	343,353	O	O
+of	354,356	O	O
+these	357,362	O	O
+reactions	363,372	O	O
+are	373,376	O	O
+currently	377,386	O	O
+poorly	387,393	O	O
+understood	394,404	O	O
+[	405,406	O	O
+30–32	406,411	O	O
+]	411,412	O	O
+.	412,413	O	O
+
+The	414,417	O	O
+theoretically	418,431	O	O
+predicted	432,441	O	O
+dissociation	442,454	O	O
+thresholds	455,465	O	O
+of	466,468	O	O
+the	469,472	O	O
+AcH	473,476	O	B-Material
+,	476,477	O	I-Material
+AOH	478,481	O	I-Material
+and	482,485	O	I-Material
+BAH	486,489	O	I-Material
+radicals	490,498	O	I-Material
+are	499,502	O	O
+about	503,508	O	O
+2.7eV	509,514	O	O
+,	514,515	O	O
+2.5eV	516,521	O	O
+and	522,525	O	O
+3.0eV	526,531	O	O
+,	531,532	O	O
+respectively	533,545	O	O
+(	546,547	O	O
+see	547,550	O	O
+Fig	551,554	O	O
+.	554,555	O	O
+
+4	556,557	O	O
+)	557,558	O	O
+,	558,559	O	O
+while	560,565	O	O
+the	566,569	O	O
+predicted	570,579	O	O
+dissociation	580,592	O	O
+threshold	593,602	O	O
+of	603,605	O	O
+the	606,609	O	O
+pyridinyl	610,619	O	B-Material
+radical	620,627	O	I-Material
+is	628,630	O	O
+much	631,635	O	O
+lower	636,641	O	O
+,	641,642	O	O
+about	643,648	O	O
+1.7eV	649,654	O	O
+[	655,656	O	O
+1	656,657	O	O
+]	657,658	O	O
+.	658,659	O	O
+
+Pyridinyl	660,669	O	B-Material
+is	670,672	O	O
+thus	673,677	O	O
+a	678,679	O	O
+significantly	680,693	O	O
+stronger	694,702	O	O
+reductant	703,712	O	B-Material
+than	713,717	O	O
+acridinyl	718,727	O	B-Material
+and	728,731	O	O
+related	732,739	O	O
+radicals	740,748	O	B-Material
+.	748,749	O	O
+
+It	750,752	O	O
+is	753,755	O	O
+therefore	756,765	O	O
+not	766,769	O	O
+expected	770,778	O	O
+that	779,783	O	O
+the	784,787	O	O
+latter	788,794	O	O
+will	795,799	O	O
+be	800,802	O	O
+able	803,807	O	O
+to	808,810	O	O
+reduce	811,817	O	B-Task
+carbon	818,824	O	I-Task
+dioxide	825,832	O	I-Task
+in	833,835	O	I-Task
+dark	836,840	O	I-Task
+reactions	841,850	O	I-Task
+.	850,851	O	O
 
 
 -DOCSTART- (S0301932213000487)
 
-As	0	2	O
-already	3	10	O
-discussed	11	20	O
-,	20	21	O
-in	22	24	O
-dilute	25	31	B-Material
-flows	32	37	I-Material
-the	38	41	O
-choice	42	48	O
-between	49	56	O
-the	57	60	O
-hard	61	65	B-Process
-sphere	66	72	I-Process
-and	73	76	I-Process
-soft	77	81	I-Process
-sphere	82	88	I-Process
-models	89	95	I-Process
-largely	96	103	O
-depends	104	111	O
-on	112	114	O
-the	115	118	O
-computational	119	132	O
-time	133	137	O
-spent	138	143	O
-to	144	146	O
-solve	147	152	B-Task
-the	153	156	I-Task
-particle	157	165	I-Task
-equation	166	174	I-Task
-of	175	177	I-Task
-motion	178	184	I-Task
-.	184	185	O
-
-For	186	189	O
-very	190	194	O
-dilute	195	201	B-Material
-flows	202	207	I-Material
-,	207	208	O
-the	209	212	O
-hard	213	217	B-Process
-sphere	218	224	I-Process
-model	225	230	I-Process
-is	231	233	O
-the	234	237	O
-most	238	242	O
-natural	243	250	O
-choice	251	257	O
-.	257	258	O
-
-However	259	266	O
-,	266	267	O
-when	268	272	O
-the	273	276	O
-collisions	277	287	O
-can	288	291	O
-no	292	294	O
-longer	295	301	O
-be	302	304	O
-assumed	305	312	O
-as	313	315	O
-binary	316	322	O
-and	323	326	O
-instantaneous	327	340	O
-,	340	341	O
-the	342	345	O
-soft	346	350	B-Process
-sphere	351	357	I-Process
-model	358	363	I-Process
-is	364	366	O
-the	367	370	O
-only	371	375	O
-realistic	376	385	O
-option	386	392	O
-.	392	393	O
-
-It	394	396	O
-is	397	399	O
-interesting	400	411	O
-to	412	414	O
-know	415	419	O
-whether	420	427	O
-the	428	431	O
-choice	432	438	O
-of	439	441	O
-the	442	445	O
-collision	446	455	B-Process
-model	456	461	I-Process
-affects	462	469	O
-the	470	473	O
-statistics	474	484	O
-.	484	485	O
-
-Fig	486	489	O
-.	489	490	O
-
-14	491	493	O
-compares	494	502	O
-the	503	506	O
-mean	507	511	O
-velocity	512	520	O
-obtained	521	529	O
-from	530	534	O
-both	535	539	O
-models	540	546	O
-with	547	551	O
-the	552	555	O
-experimental	556	568	O
-data	569	573	O
-.	573	574	O
-
-The	575	578	O
-same	579	583	O
-comparison	584	594	O
-is	595	597	O
-performed	598	607	O
-for	608	611	O
-the	612	615	O
-smooth	616	622	B-Material
-walls	623	628	I-Material
-.	628	629	O
-
-The	630	633	O
-differences	634	645	O
-between	646	653	O
-the	654	657	O
-hard	658	662	B-Process
-and	663	666	I-Process
-soft	667	671	I-Process
-sphere	672	678	I-Process
-models	679	685	I-Process
-for	686	689	O
-the	690	693	O
-smooth	694	700	B-Material
-walls	701	706	I-Material
-are	707	710	O
-almost	711	717	O
-negligible	718	728	O
-.	728	729	O
-
-However	730	737	O
-,	737	738	O
-the	739	742	O
-differences	743	754	O
-between	755	762	O
-the	763	766	O
-hard	767	771	B-Process
-and	772	775	I-Process
-soft	776	780	I-Process
-sphere	781	787	I-Process
-models	788	794	I-Process
-for	795	798	O
-the	799	802	O
-rough	803	808	B-Material
-walls	809	814	I-Material
-are	815	818	O
-minor	819	824	O
-.	824	825	O
-
-This	826	830	O
-is	831	833	O
-because	834	841	O
-the	842	845	O
-rough	846	851	B-Task
-wall	852	856	I-Task
-treatment	857	866	I-Task
-in	867	869	O
-the	870	873	O
-soft	874	878	B-Process
-sphere	879	885	I-Process
-implementation	886	900	I-Process
-adds	901	905	O
-extra	906	911	O
-virtual	912	919	B-Material
-walls	920	925	I-Material
-during	926	932	O
-the	933	936	O
-collision	937	946	O
-of	947	949	O
-a	950	951	O
-particle	952	960	B-Material
-with	961	965	O
-a	966	967	O
-wall	968	972	B-Material
-,	972	973	O
-which	974	979	O
-is	980	982	O
-a	983	984	O
-more	985	989	O
-realistic	990	999	O
-representation	1000	1014	O
-of	1015	1017	O
-a	1018	1019	O
-rough	1020	1025	B-Material
-wall	1026	1030	I-Material
-compared	1031	1039	O
-to	1040	1042	O
-the	1043	1046	O
-hard	1047	1051	B-Task
-sphere	1052	1058	I-Task
-rough	1059	1064	I-Task
-wall	1065	1069	I-Task
-treatment	1070	1079	I-Task
-where	1080	1085	O
-one	1086	1089	O
-random	1090	1096	B-Material
-wall	1097	1101	I-Material
-is	1102	1104	O
-considered	1105	1115	O
-.	1115	1116	O
-
-This	1117	1121	O
-is	1122	1124	O
-because	1125	1132	O
-,	1132	1133	O
-a	1134	1135	O
-soft	1136	1140	B-Process
-sphere	1141	1147	I-Process
-collision	1148	1157	I-Process
-is	1158	1160	O
-not	1161	1164	O
-instantaneous	1165	1178	O
-and	1179	1182	O
-occurs	1183	1189	O
-over	1190	1194	O
-a	1195	1196	O
-finite	1197	1203	O
-amount	1204	1210	O
-of	1211	1213	O
-time	1214	1218	O
-.	1218	1219	O
-
-Similarly	1220	1229	O
-,	1229	1230	O
-the	1231	1234	O
-same	1235	1239	O
-effects	1240	1247	O
-are	1248	1251	O
-observed	1252	1260	O
-on	1261	1263	O
-the	1264	1267	O
-fluid	1268	1273	B-Material
-statistics	1274	1284	O
-.	1284	1285	O
-
-However	1286	1293	O
-,	1293	1294	O
-Fig	1295	1298	O
-.	1298	1299	O
-
-15	1300	1302	O
-,	1302	1303	O
-which	1304	1309	O
-compares	1310	1318	O
-the	1319	1322	O
-particle	1323	1331	B-Material
-velocity	1332	1340	O
-fluctuations	1341	1353	O
-,	1353	1354	O
-shows	1355	1360	O
-that	1361	1365	O
-the	1366	1369	O
-differences	1370	1381	O
-are	1382	1385	O
-somewhat	1386	1394	O
-larger	1395	1401	O
-.	1401	1402	O
-
-Additionally	1403	1415	O
-,	1415	1416	O
-the	1417	1420	O
-differences	1421	1432	O
-in	1433	1435	O
-both	1436	1440	O
-particle	1441	1449	B-Material
-mean	1450	1454	O
-and	1455	1458	O
-RMS	1459	1462	O
-velocity	1463	1471	O
-profiles	1472	1480	O
-are	1481	1484	O
-because	1485	1492	O
-the	1493	1496	O
-hard	1497	1501	B-Process
-sphere	1502	1508	I-Process
-collisions	1509	1519	I-Process
-are	1520	1523	O
-unfortunately	1524	1537	O
-heavily	1538	1545	O
-dependent	1546	1555	O
-on	1556	1558	O
-the	1559	1562	O
-tangential	1563	1573	O
-coefficient	1574	1585	O
-of	1586	1588	O
-restitution	1589	1600	O
-(	1601	1602	O
-ψ	1602	1603	O
-)	1603	1604	O
-;	1604	1605	O
-the	1606	1609	O
-effects	1610	1617	O
-by	1618	1620	O
-varying	1621	1628	O
-this	1629	1633	O
-quantity	1634	1642	O
-are	1643	1646	O
-shown	1647	1652	O
-in	1653	1655	O
-Figs	1656	1660	O
-.	1660	1661	O
-
-16	1662	1664	O
-and	1665	1668	O
-17	1669	1671	O
-.	1671	1672	O
+As	0,2	O	O
+already	3,10	O	O
+discussed	11,20	O	O
+,	20,21	O	O
+in	22,24	O	O
+dilute	25,31	O	B-Material
+flows	32,37	O	I-Material
+the	38,41	O	O
+choice	42,48	O	O
+between	49,56	O	O
+the	57,60	O	O
+hard	61,65	O	B-Process
+sphere	66,72	O	I-Process
+and	73,76	O	I-Process
+soft	77,81	O	I-Process
+sphere	82,88	O	I-Process
+models	89,95	O	I-Process
+largely	96,103	O	O
+depends	104,111	O	O
+on	112,114	O	O
+the	115,118	O	O
+computational	119,132	O	O
+time	133,137	O	O
+spent	138,143	O	O
+to	144,146	O	O
+solve	147,152	O	B-Task
+the	153,156	O	I-Task
+particle	157,165	O	I-Task
+equation	166,174	O	I-Task
+of	175,177	O	I-Task
+motion	178,184	O	I-Task
+.	184,185	O	O
+
+For	186,189	O	O
+very	190,194	O	O
+dilute	195,201	O	B-Material
+flows	202,207	O	I-Material
+,	207,208	O	O
+the	209,212	O	O
+hard	213,217	O	B-Process
+sphere	218,224	O	I-Process
+model	225,230	O	I-Process
+is	231,233	O	O
+the	234,237	O	O
+most	238,242	O	O
+natural	243,250	O	O
+choice	251,257	O	O
+.	257,258	O	O
+
+However	259,266	O	O
+,	266,267	O	O
+when	268,272	O	O
+the	273,276	O	O
+collisions	277,287	O	O
+can	288,291	O	O
+no	292,294	O	O
+longer	295,301	O	O
+be	302,304	O	O
+assumed	305,312	O	O
+as	313,315	O	O
+binary	316,322	O	O
+and	323,326	O	O
+instantaneous	327,340	O	O
+,	340,341	O	O
+the	342,345	O	O
+soft	346,350	O	B-Process
+sphere	351,357	O	I-Process
+model	358,363	O	I-Process
+is	364,366	O	O
+the	367,370	O	O
+only	371,375	O	O
+realistic	376,385	O	O
+option	386,392	O	O
+.	392,393	O	O
+
+It	394,396	O	O
+is	397,399	O	O
+interesting	400,411	O	O
+to	412,414	O	O
+know	415,419	O	O
+whether	420,427	O	O
+the	428,431	O	O
+choice	432,438	O	O
+of	439,441	O	O
+the	442,445	O	O
+collision	446,455	O	B-Process
+model	456,461	O	I-Process
+affects	462,469	O	O
+the	470,473	O	O
+statistics	474,484	O	O
+.	484,485	O	O
+
+Fig	486,489	O	O
+.	489,490	O	O
+
+14	491,493	O	O
+compares	494,502	O	O
+the	503,506	O	O
+mean	507,511	O	O
+velocity	512,520	O	O
+obtained	521,529	O	O
+from	530,534	O	O
+both	535,539	O	O
+models	540,546	O	O
+with	547,551	O	O
+the	552,555	O	O
+experimental	556,568	O	O
+data	569,573	O	O
+.	573,574	O	O
+
+The	575,578	O	O
+same	579,583	O	O
+comparison	584,594	O	O
+is	595,597	O	O
+performed	598,607	O	O
+for	608,611	O	O
+the	612,615	O	O
+smooth	616,622	O	B-Material
+walls	623,628	O	I-Material
+.	628,629	O	O
+
+The	630,633	O	O
+differences	634,645	O	O
+between	646,653	O	O
+the	654,657	O	O
+hard	658,662	O	B-Process
+and	663,666	O	I-Process
+soft	667,671	O	I-Process
+sphere	672,678	O	I-Process
+models	679,685	O	I-Process
+for	686,689	O	O
+the	690,693	O	O
+smooth	694,700	O	B-Material
+walls	701,706	O	I-Material
+are	707,710	O	O
+almost	711,717	O	O
+negligible	718,728	O	O
+.	728,729	O	O
+
+However	730,737	O	O
+,	737,738	O	O
+the	739,742	O	O
+differences	743,754	O	O
+between	755,762	O	O
+the	763,766	O	O
+hard	767,771	O	B-Process
+and	772,775	O	I-Process
+soft	776,780	O	I-Process
+sphere	781,787	O	I-Process
+models	788,794	O	I-Process
+for	795,798	O	O
+the	799,802	O	O
+rough	803,808	O	B-Material
+walls	809,814	O	I-Material
+are	815,818	O	O
+minor	819,824	O	O
+.	824,825	O	O
+
+This	826,830	O	O
+is	831,833	O	O
+because	834,841	O	O
+the	842,845	O	O
+rough	846,851	O	B-Task
+wall	852,856	O	I-Task
+treatment	857,866	O	I-Task
+in	867,869	O	O
+the	870,873	O	O
+soft	874,878	O	B-Process
+sphere	879,885	O	I-Process
+implementation	886,900	O	I-Process
+adds	901,905	O	O
+extra	906,911	O	O
+virtual	912,919	O	B-Material
+walls	920,925	O	I-Material
+during	926,932	O	O
+the	933,936	O	O
+collision	937,946	O	O
+of	947,949	O	O
+a	950,951	O	O
+particle	952,960	O	B-Material
+with	961,965	O	O
+a	966,967	O	O
+wall	968,972	O	B-Material
+,	972,973	O	O
+which	974,979	O	O
+is	980,982	O	O
+a	983,984	O	O
+more	985,989	O	O
+realistic	990,999	O	O
+representation	1000,1014	O	O
+of	1015,1017	O	O
+a	1018,1019	O	O
+rough	1020,1025	O	B-Material
+wall	1026,1030	O	I-Material
+compared	1031,1039	O	O
+to	1040,1042	O	O
+the	1043,1046	O	O
+hard	1047,1051	O	B-Task
+sphere	1052,1058	O	I-Task
+rough	1059,1064	O	I-Task
+wall	1065,1069	O	I-Task
+treatment	1070,1079	O	I-Task
+where	1080,1085	O	O
+one	1086,1089	O	O
+random	1090,1096	O	B-Material
+wall	1097,1101	O	I-Material
+is	1102,1104	O	O
+considered	1105,1115	O	O
+.	1115,1116	O	O
+
+This	1117,1121	O	O
+is	1122,1124	O	O
+because	1125,1132	O	O
+,	1132,1133	O	O
+a	1134,1135	O	O
+soft	1136,1140	O	B-Process
+sphere	1141,1147	O	I-Process
+collision	1148,1157	O	I-Process
+is	1158,1160	O	O
+not	1161,1164	O	O
+instantaneous	1165,1178	O	O
+and	1179,1182	O	O
+occurs	1183,1189	O	O
+over	1190,1194	O	O
+a	1195,1196	O	O
+finite	1197,1203	O	O
+amount	1204,1210	O	O
+of	1211,1213	O	O
+time	1214,1218	O	O
+.	1218,1219	O	O
+
+Similarly	1220,1229	O	O
+,	1229,1230	O	O
+the	1231,1234	O	O
+same	1235,1239	O	O
+effects	1240,1247	O	O
+are	1248,1251	O	O
+observed	1252,1260	O	O
+on	1261,1263	O	O
+the	1264,1267	O	O
+fluid	1268,1273	O	B-Material
+statistics	1274,1284	O	O
+.	1284,1285	O	O
+
+However	1286,1293	O	O
+,	1293,1294	O	O
+Fig	1295,1298	O	O
+.	1298,1299	O	O
+
+15	1300,1302	O	O
+,	1302,1303	O	O
+which	1304,1309	O	O
+compares	1310,1318	O	O
+the	1319,1322	O	O
+particle	1323,1331	O	B-Material
+velocity	1332,1340	O	O
+fluctuations	1341,1353	O	O
+,	1353,1354	O	O
+shows	1355,1360	O	O
+that	1361,1365	O	O
+the	1366,1369	O	O
+differences	1370,1381	O	O
+are	1382,1385	O	O
+somewhat	1386,1394	O	O
+larger	1395,1401	O	O
+.	1401,1402	O	O
+
+Additionally	1403,1415	O	O
+,	1415,1416	O	O
+the	1417,1420	O	O
+differences	1421,1432	O	O
+in	1433,1435	O	O
+both	1436,1440	O	O
+particle	1441,1449	O	B-Material
+mean	1450,1454	O	O
+and	1455,1458	O	O
+RMS	1459,1462	O	O
+velocity	1463,1471	O	O
+profiles	1472,1480	O	O
+are	1481,1484	O	O
+because	1485,1492	O	O
+the	1493,1496	O	O
+hard	1497,1501	O	B-Process
+sphere	1502,1508	O	I-Process
+collisions	1509,1519	O	I-Process
+are	1520,1523	O	O
+unfortunately	1524,1537	O	O
+heavily	1538,1545	O	O
+dependent	1546,1555	O	O
+on	1556,1558	O	O
+the	1559,1562	O	O
+tangential	1563,1573	O	O
+coefficient	1574,1585	O	O
+of	1586,1588	O	O
+restitution	1589,1600	O	O
+(	1601,1602	O	O
+ψ	1602,1603	O	O
+)	1603,1604	O	O
+;	1604,1605	O	O
+the	1606,1609	O	O
+effects	1610,1617	O	O
+by	1618,1620	O	O
+varying	1621,1628	O	O
+this	1629,1633	O	O
+quantity	1634,1642	O	O
+are	1643,1646	O	O
+shown	1647,1652	O	O
+in	1653,1655	O	O
+Figs	1656,1660	O	O
+.	1660,1661	O	O
+
+16	1662,1664	O	O
+and	1665,1668	O	O
+17	1669,1671	O	O
+.	1671,1672	O	O
 
 
 -DOCSTART- (S0301932213001985)
 
-In	0	2	O
-the	3	6	O
-current	7	14	O
-CLSVOF	15	21	B-Process
-method	22	28	I-Process
-,	28	29	O
-the	30	33	O
-normal	34	40	O
-vector	41	47	O
-is	48	50	O
-calculated	51	61	O
-directly	62	70	O
-by	71	73	O
-discretising	74	86	O
-the	87	90	O
-LS	91	93	B-Process
-gradient	94	102	O
-using	103	108	O
-a	109	110	O
-finite	111	117	B-Process
-difference	118	128	I-Process
-scheme	129	135	I-Process
-.	135	136	O
-
-By	137	139	O
-appropriately	140	153	O
-choosing	154	162	O
-one	163	166	O
-of	167	169	O
-three	170	175	O
-finite	176	182	B-Process
-difference	183	193	I-Process
-schemes	194	201	I-Process
-(	202	203	O
-central	203	210	B-Process
-,	210	211	I-Process
-forward	212	219	I-Process
-,	219	220	I-Process
-or	221	223	I-Process
-backward	224	232	I-Process
-differencing	233	245	I-Process
-)	245	246	O
-,	246	247	O
-it	248	250	O
-has	251	254	O
-been	255	259	O
-demonstrated	260	272	O
-that	273	277	O
-thin	278	282	B-Material
-liquid	283	289	I-Material
-ligaments	290	299	I-Material
-can	300	303	O
-be	304	306	O
-well	307	311	O
-resolved	312	320	O
-see	321	324	O
-Xiao	325	329	O
-(	330	331	O
-2012	331	335	O
-)	335	336	O
-.	336	337	O
-
-Although	338	346	O
-a	347	348	O
-high	349	353	B-Process
-order	354	359	I-Process
-discretisation	360	374	I-Process
-scheme	375	381	I-Process
-(	382	383	O
-e.g.	383	387	O
-5th	388	391	B-Process
-order	392	397	I-Process
-WENO	398	402	I-Process
-)	402	403	O
-has	404	407	O
-been	408	412	O
-found	413	418	O
-necessary	419	428	O
-for	429	432	O
-LS	433	435	B-Process
-evolution	436	445	O
-in	446	448	O
-pure	449	453	O
-LS	454	456	B-Process
-methods	457	464	I-Process
-to	465	467	O
-reduce	468	474	B-Task
-mass	475	479	I-Task
-error	480	485	I-Task
-,	485	486	O
-low	487	490	B-Process
-order	491	496	I-Process
-LS	497	499	I-Process
-discretisation	500	514	I-Process
-schemes	515	522	I-Process
-(	523	524	O
-2nd	524	527	O
-order	528	533	O
-is	534	536	O
-used	537	541	O
-here	542	546	O
-)	546	547	O
-can	548	551	O
-produce	552	559	O
-accurate	560	568	O
-results	569	576	O
-when	577	581	O
-the	582	585	O
-LS	586	588	B-Process
-equation	589	597	O
-is	598	600	O
-solved	601	607	O
-and	608	611	O
-constrained	612	623	O
-as	624	626	O
-indicated	627	636	O
-above	637	642	O
-in	643	645	O
-a	646	647	O
-CLSVOF	648	654	B-Process
-method	655	661	I-Process
-(	662	663	O
-see	663	666	O
-Xiao	667	671	O
-,	671	672	O
-2012	673	677	O
-)	677	678	O
-,	678	679	O
-since	680	685	O
-the	686	689	O
-VOF	690	693	B-Process
-method	694	700	I-Process
-maintains	701	710	O
-2nd	711	714	O
-order	715	720	O
-accuracy	721	729	O
-.	729	730	O
-
-This	731	735	O
-is	736	738	O
-a	739	740	O
-further	741	748	O
-reason	749	755	O
-to	756	758	O
-adopt	759	764	O
-the	765	768	O
-CLSVOF	769	775	B-Process
-method	776	782	I-Process
-,	782	783	O
-which	784	789	O
-has	790	793	O
-been	794	798	O
-used	799	803	O
-for	804	807	O
-all	808	811	O
-the	812	815	O
-following	816	825	O
-simulations	826	837	B-Task
-of	838	840	I-Task
-liquid	841	847	I-Task
-jet	848	851	I-Task
-primary	852	859	I-Task
-breakup	860	867	I-Task
-.	867	868	O
+In	0,2	O	O
+the	3,6	O	O
+current	7,14	O	O
+CLSVOF	15,21	O	B-Process
+method	22,28	O	I-Process
+,	28,29	O	O
+the	30,33	O	O
+normal	34,40	O	O
+vector	41,47	O	O
+is	48,50	O	O
+calculated	51,61	O	O
+directly	62,70	O	O
+by	71,73	O	O
+discretising	74,86	O	O
+the	87,90	O	O
+LS	91,93	O	B-Process
+gradient	94,102	O	O
+using	103,108	O	O
+a	109,110	O	O
+finite	111,117	O	B-Process
+difference	118,128	O	I-Process
+scheme	129,135	O	I-Process
+.	135,136	O	O
+
+By	137,139	O	O
+appropriately	140,153	O	O
+choosing	154,162	O	O
+one	163,166	O	O
+of	167,169	O	O
+three	170,175	O	O
+finite	176,182	O	B-Process
+difference	183,193	O	I-Process
+schemes	194,201	O	I-Process
+(	202,203	O	O
+central	203,210	O	B-Process
+,	210,211	O	I-Process
+forward	212,219	O	I-Process
+,	219,220	O	I-Process
+or	221,223	O	I-Process
+backward	224,232	O	I-Process
+differencing	233,245	O	I-Process
+)	245,246	O	O
+,	246,247	O	O
+it	248,250	O	O
+has	251,254	O	O
+been	255,259	O	O
+demonstrated	260,272	O	O
+that	273,277	O	O
+thin	278,282	O	B-Material
+liquid	283,289	O	I-Material
+ligaments	290,299	O	I-Material
+can	300,303	O	O
+be	304,306	O	O
+well	307,311	O	O
+resolved	312,320	O	O
+see	321,324	O	O
+Xiao	325,329	O	O
+(	330,331	O	O
+2012	331,335	O	O
+)	335,336	O	O
+.	336,337	O	O
+
+Although	338,346	O	O
+a	347,348	O	O
+high	349,353	O	B-Process
+order	354,359	O	I-Process
+discretisation	360,374	O	I-Process
+scheme	375,381	O	I-Process
+(	382,383	O	O
+e.g.	383,387	O	O
+5th	388,391	O	B-Process
+order	392,397	O	I-Process
+WENO	398,402	O	I-Process
+)	402,403	O	O
+has	404,407	O	O
+been	408,412	O	O
+found	413,418	O	O
+necessary	419,428	O	O
+for	429,432	O	O
+LS	433,435	O	B-Process
+evolution	436,445	O	O
+in	446,448	O	O
+pure	449,453	O	O
+LS	454,456	O	B-Process
+methods	457,464	O	I-Process
+to	465,467	O	O
+reduce	468,474	O	B-Task
+mass	475,479	O	I-Task
+error	480,485	O	I-Task
+,	485,486	O	O
+low	487,490	O	B-Process
+order	491,496	O	I-Process
+LS	497,499	O	I-Process
+discretisation	500,514	O	I-Process
+schemes	515,522	O	I-Process
+(	523,524	O	O
+2nd	524,527	O	O
+order	528,533	O	O
+is	534,536	O	O
+used	537,541	O	O
+here	542,546	O	O
+)	546,547	O	O
+can	548,551	O	O
+produce	552,559	O	O
+accurate	560,568	O	O
+results	569,576	O	O
+when	577,581	O	O
+the	582,585	O	O
+LS	586,588	O	B-Process
+equation	589,597	O	O
+is	598,600	O	O
+solved	601,607	O	O
+and	608,611	O	O
+constrained	612,623	O	O
+as	624,626	O	O
+indicated	627,636	O	O
+above	637,642	O	O
+in	643,645	O	O
+a	646,647	O	O
+CLSVOF	648,654	O	B-Process
+method	655,661	O	I-Process
+(	662,663	O	O
+see	663,666	O	O
+Xiao	667,671	O	O
+,	671,672	O	O
+2012	673,677	O	O
+)	677,678	O	O
+,	678,679	O	O
+since	680,685	O	O
+the	686,689	O	O
+VOF	690,693	O	B-Process
+method	694,700	O	I-Process
+maintains	701,710	O	O
+2nd	711,714	O	O
+order	715,720	O	O
+accuracy	721,729	O	O
+.	729,730	O	O
+
+This	731,735	O	O
+is	736,738	O	O
+a	739,740	O	O
+further	741,748	O	O
+reason	749,755	O	O
+to	756,758	O	O
+adopt	759,764	O	O
+the	765,768	O	O
+CLSVOF	769,775	O	B-Process
+method	776,782	O	I-Process
+,	782,783	O	O
+which	784,789	O	O
+has	790,793	O	O
+been	794,798	O	O
+used	799,803	O	O
+for	804,807	O	O
+all	808,811	O	O
+the	812,815	O	O
+following	816,825	O	O
+simulations	826,837	O	B-Task
+of	838,840	O	I-Task
+liquid	841,847	O	I-Task
+jet	848,851	O	I-Task
+primary	852,859	O	I-Task
+breakup	860,867	O	I-Task
+.	867,868	O	O
 
 
 -DOCSTART- (S0301932214001931)
 
-The	0	3	O
-aim	4	7	O
-of	8	10	O
-this	11	15	O
-paper	16	21	O
-is	22	24	O
-to	25	27	O
-investigate	28	39	B-Task
-the	40	43	I-Task
-influence	44	53	I-Task
-of	54	56	I-Task
-the	57	60	I-Task
-particle	61	69	I-Task
-shape	70	75	I-Task
-on	76	78	I-Task
-interacting	79	90	I-Task
-particles	91	100	I-Task
-flowing	101	108	I-Task
-in	109	111	I-Task
-a	112	113	I-Task
-horizontal	114	124	I-Task
-turbulent	125	134	I-Task
-channel	135	142	I-Task
-flow	143	147	I-Task
-,	147	148	O
-for	149	152	O
-particles	153	162	B-Material
-with	163	167	O
-a	168	169	O
-significant	170	181	O
-Stokes	182	188	O
-number	189	195	O
-.	195	196	O
-
-To	197	199	O
-achieve	200	207	O
-this	208	212	O
-,	212	213	O
-large	214	219	B-Process
-eddy	220	224	I-Process
-simulations	225	236	I-Process
-(	237	238	O
-LES	238	241	B-Process
-)	241	242	O
-of	243	245	O
-a	246	247	O
-horizontal	248	258	B-Process
-turbulent	259	268	I-Process
-channel	269	276	I-Process
-flow	277	281	I-Process
-laden	282	287	O
-with	288	292	O
-five	293	297	O
-different	298	307	O
-particle	308	316	B-Material
-shapes	317	323	O
-,	323	324	O
-incorporating	325	338	O
-the	339	342	O
-drag	343	347	B-Process
-,	347	348	I-Process
-lift	349	353	I-Process
-and	354	357	I-Process
-toque	358	363	I-Process
-model	364	369	I-Process
-derived	370	377	O
-in	378	380	O
-Zastawny	381	389	O
-et	390	392	O
-al	393	395	O
-.	395	396	O
-
-(	397	398	O
-2012	398	402	O
-)	402	403	O
-,	403	404	O
-are	405	408	O
-performed	409	418	O
-.	418	419	O
-
-The	420	423	O
-well	424	428	O
--	428	429	O
-documented	429	439	O
-horizontal	440	450	B-Process
-channel	451	458	I-Process
-flow	459	463	I-Process
-case	464	468	O
-described	469	478	O
-in	479	481	O
-Kussin	482	488	O
-and	489	492	O
-Sommerfeld	493	503	O
-(	504	505	O
-2002	505	509	O
-)	509	510	O
-,	510	511	O
-who	512	515	O
-study	516	521	O
-spherical	522	531	B-Material
-particles	532	541	I-Material
-,	541	542	O
-is	543	545	O
-used	546	550	O
-as	551	553	O
-a	554	555	O
-reference	556	565	O
-case	566	570	O
-.	570	571	O
-
-The	572	575	O
-measurements	576	588	O
-in	589	591	O
-their	592	597	O
-work	598	602	O
-was	603	606	O
-done	607	611	O
-with	612	616	O
-phase	617	622	B-Process
-Doppler	623	630	I-Process
-anemometry	631	641	I-Process
-(	642	643	O
-PDA	643	646	B-Process
-)	646	647	O
-,	647	648	O
-to	649	651	O
-measure	652	659	O
-the	660	663	O
-fluid	664	669	B-Material
-and	670	673	O
-particle	674	682	B-Material
-velocity	683	691	O
-simultaneously	692	706	O
-.	706	707	O
-
-The	708	711	O
-numerical	712	721	B-Process
-framework	722	731	I-Process
-applied	732	739	O
-in	740	742	O
-this	743	747	O
-paper	748	753	O
-has	754	757	O
-been	758	762	O
-previously	763	773	O
-validated	774	783	O
-for	784	787	O
-spherical	788	797	B-Material
-particles	798	807	I-Material
-in	808	810	O
-Mallouppas	811	821	O
-and	822	825	O
-van	826	829	O
-Wachem	830	836	O
-(	837	838	O
-2013	838	842	O
-)	842	843	O
-.	843	844	O
-
-In	845	847	O
-that	848	852	O
-paper	853	858	O
-,	858	859	O
-it	860	862	O
-is	863	865	O
-shown	866	871	O
-that	872	876	O
-the	877	880	O
-comprehensive	881	894	B-Process
-discrete	895	903	I-Process
-element	904	911	I-Process
-model	912	917	I-Process
-(	918	919	O
-DEM	919	922	B-Process
-)	922	923	O
-is	924	926	O
-more	927	931	O
-accurate	932	940	O
-in	941	943	O
-determining	944	955	B-Task
-the	956	959	I-Task
-behaviour	960	969	I-Task
-of	970	972	I-Task
-the	973	976	I-Task
-particles	977	986	I-Task
-in	987	989	I-Task
-this	990	994	I-Task
-horizontal	995	1005	I-Task
-gas	1006	1009	I-Task
-–	1009	1010	I-Task
-solid	1010	1015	I-Task
-channel	1016	1023	I-Task
-flow	1024	1028	I-Task
-that	1029	1033	O
-the	1034	1037	O
-hard	1038	1042	B-Process
--	1042	1043	I-Process
-sphere	1043	1049	I-Process
-model	1050	1055	I-Process
-.	1055	1056	O
-
-Moreover	1057	1065	O
-,	1065	1066	O
-this	1067	1071	O
-paper	1072	1077	O
-showed	1078	1084	O
-that	1085	1089	O
-the	1090	1093	O
-fluid	1094	1099	B-Material
-mechanics	1100	1109	O
-are	1110	1113	O
-accurately	1114	1124	O
-modelled	1125	1133	O
-using	1134	1139	O
-the	1140	1143	O
-LES	1144	1147	B-Process
-framework	1148	1157	I-Process
-.	1157	1158	O
-
-In	1159	1161	O
-the	1162	1165	O
-current	1166	1173	O
-paper	1174	1179	O
-,	1179	1180	O
-this	1181	1185	O
-framework	1186	1195	O
-is	1196	1198	O
-extended	1199	1207	O
-to	1208	1210	O
-account	1211	1218	O
-for	1219	1222	O
-non	1223	1226	B-Material
--	1226	1227	I-Material
-spherical	1227	1236	I-Material
-particles	1237	1246	I-Material
-.	1246	1247	O
+The	0,3	O	O
+aim	4,7	O	O
+of	8,10	O	O
+this	11,15	O	O
+paper	16,21	O	O
+is	22,24	O	O
+to	25,27	O	O
+investigate	28,39	O	B-Task
+the	40,43	O	I-Task
+influence	44,53	O	I-Task
+of	54,56	O	I-Task
+the	57,60	O	I-Task
+particle	61,69	O	I-Task
+shape	70,75	O	I-Task
+on	76,78	O	I-Task
+interacting	79,90	O	I-Task
+particles	91,100	O	I-Task
+flowing	101,108	O	I-Task
+in	109,111	O	I-Task
+a	112,113	O	I-Task
+horizontal	114,124	O	I-Task
+turbulent	125,134	O	I-Task
+channel	135,142	O	I-Task
+flow	143,147	O	I-Task
+,	147,148	O	O
+for	149,152	O	O
+particles	153,162	O	B-Material
+with	163,167	O	O
+a	168,169	O	O
+significant	170,181	O	O
+Stokes	182,188	O	O
+number	189,195	O	O
+.	195,196	O	O
+
+To	197,199	O	O
+achieve	200,207	O	O
+this	208,212	O	O
+,	212,213	O	O
+large	214,219	O	B-Process
+eddy	220,224	O	I-Process
+simulations	225,236	O	I-Process
+(	237,238	O	O
+LES	238,241	O	B-Process
+)	241,242	O	O
+of	243,245	O	O
+a	246,247	O	O
+horizontal	248,258	O	B-Process
+turbulent	259,268	O	I-Process
+channel	269,276	O	I-Process
+flow	277,281	O	I-Process
+laden	282,287	O	O
+with	288,292	O	O
+five	293,297	O	O
+different	298,307	O	O
+particle	308,316	O	B-Material
+shapes	317,323	O	O
+,	323,324	O	O
+incorporating	325,338	O	O
+the	339,342	O	O
+drag	343,347	O	B-Process
+,	347,348	O	I-Process
+lift	349,353	O	I-Process
+and	354,357	O	I-Process
+toque	358,363	O	I-Process
+model	364,369	O	I-Process
+derived	370,377	O	O
+in	378,380	O	O
+Zastawny	381,389	O	O
+et	390,392	O	O
+al	393,395	O	O
+.	395,396	O	O
+
+(	397,398	O	O
+2012	398,402	O	O
+)	402,403	O	O
+,	403,404	O	O
+are	405,408	O	O
+performed	409,418	O	O
+.	418,419	O	O
+
+The	420,423	O	O
+well	424,428	O	O
+-	428,429	O	O
+documented	429,439	O	O
+horizontal	440,450	O	B-Process
+channel	451,458	O	I-Process
+flow	459,463	O	I-Process
+case	464,468	O	O
+described	469,478	O	O
+in	479,481	O	O
+Kussin	482,488	O	O
+and	489,492	O	O
+Sommerfeld	493,503	O	O
+(	504,505	O	O
+2002	505,509	O	O
+)	509,510	O	O
+,	510,511	O	O
+who	512,515	O	O
+study	516,521	O	O
+spherical	522,531	O	B-Material
+particles	532,541	O	I-Material
+,	541,542	O	O
+is	543,545	O	O
+used	546,550	O	O
+as	551,553	O	O
+a	554,555	O	O
+reference	556,565	O	O
+case	566,570	O	O
+.	570,571	O	O
+
+The	572,575	O	O
+measurements	576,588	O	O
+in	589,591	O	O
+their	592,597	O	O
+work	598,602	O	O
+was	603,606	O	O
+done	607,611	O	O
+with	612,616	O	O
+phase	617,622	O	B-Process
+Doppler	623,630	O	I-Process
+anemometry	631,641	O	I-Process
+(	642,643	O	O
+PDA	643,646	O	B-Process
+)	646,647	O	O
+,	647,648	O	O
+to	649,651	O	O
+measure	652,659	O	O
+the	660,663	O	O
+fluid	664,669	O	B-Material
+and	670,673	O	O
+particle	674,682	O	B-Material
+velocity	683,691	O	O
+simultaneously	692,706	O	O
+.	706,707	O	O
+
+The	708,711	O	O
+numerical	712,721	O	B-Process
+framework	722,731	O	I-Process
+applied	732,739	O	O
+in	740,742	O	O
+this	743,747	O	O
+paper	748,753	O	O
+has	754,757	O	O
+been	758,762	O	O
+previously	763,773	O	O
+validated	774,783	O	O
+for	784,787	O	O
+spherical	788,797	O	B-Material
+particles	798,807	O	I-Material
+in	808,810	O	O
+Mallouppas	811,821	O	O
+and	822,825	O	O
+van	826,829	O	O
+Wachem	830,836	O	O
+(	837,838	O	O
+2013	838,842	O	O
+)	842,843	O	O
+.	843,844	O	O
+
+In	845,847	O	O
+that	848,852	O	O
+paper	853,858	O	O
+,	858,859	O	O
+it	860,862	O	O
+is	863,865	O	O
+shown	866,871	O	O
+that	872,876	O	O
+the	877,880	O	O
+comprehensive	881,894	O	B-Process
+discrete	895,903	O	I-Process
+element	904,911	O	I-Process
+model	912,917	O	I-Process
+(	918,919	O	O
+DEM	919,922	O	B-Process
+)	922,923	O	O
+is	924,926	O	O
+more	927,931	O	O
+accurate	932,940	O	O
+in	941,943	O	O
+determining	944,955	O	B-Task
+the	956,959	O	I-Task
+behaviour	960,969	O	I-Task
+of	970,972	O	I-Task
+the	973,976	O	I-Task
+particles	977,986	O	I-Task
+in	987,989	O	I-Task
+this	990,994	O	I-Task
+horizontal	995,1005	O	I-Task
+gas	1006,1009	O	I-Task
+–	1009,1010	O	I-Task
+solid	1010,1015	O	I-Task
+channel	1016,1023	O	I-Task
+flow	1024,1028	O	I-Task
+that	1029,1033	O	O
+the	1034,1037	O	O
+hard	1038,1042	O	B-Process
+-	1042,1043	O	I-Process
+sphere	1043,1049	O	I-Process
+model	1050,1055	O	I-Process
+.	1055,1056	O	O
+
+Moreover	1057,1065	O	O
+,	1065,1066	O	O
+this	1067,1071	O	O
+paper	1072,1077	O	O
+showed	1078,1084	O	O
+that	1085,1089	O	O
+the	1090,1093	O	O
+fluid	1094,1099	O	B-Material
+mechanics	1100,1109	O	O
+are	1110,1113	O	O
+accurately	1114,1124	O	O
+modelled	1125,1133	O	O
+using	1134,1139	O	O
+the	1140,1143	O	O
+LES	1144,1147	O	B-Process
+framework	1148,1157	O	I-Process
+.	1157,1158	O	O
+
+In	1159,1161	O	O
+the	1162,1165	O	O
+current	1166,1173	O	O
+paper	1174,1179	O	O
+,	1179,1180	O	O
+this	1181,1185	O	O
+framework	1186,1195	O	O
+is	1196,1198	O	O
+extended	1199,1207	O	O
+to	1208,1210	O	O
+account	1211,1218	O	O
+for	1219,1222	O	O
+non	1223,1226	O	B-Material
+-	1226,1227	O	I-Material
+spherical	1227,1236	O	I-Material
+particles	1237,1246	O	I-Material
+.	1246,1247	O	O
 
 
 -DOCSTART- (S0378381215300297)
 
-The	0	3	O
-Statistical	4	15	B-Process
-Associating	16	27	I-Process
-Fluid	28	33	I-Process
-Theory	34	40	I-Process
-(	41	42	O
-SAFT	42	46	B-Process
-)	46	47	O
-is	48	50	O
-a	51	52	O
-well	53	57	O
--	57	58	O
-developed	58	67	O
-perturbation	68	80	B-Process
-theory	81	87	I-Process
-used	88	92	O
-to	93	95	O
-describe	96	104	O
-quantitatively	105	119	O
-the	120	123	O
-volumetric	124	134	O
-properties	135	145	O
-of	146	148	O
-fluids	149	155	B-Material
-.	155	156	O
-
-The	157	160	O
-reader	161	167	O
-is	168	170	O
-referred	171	179	O
-to	180	182	O
-several	183	190	O
-reviews	191	198	O
-on	199	201	O
-the	202	205	O
-topic	206	211	O
-which	212	217	O
-describe	218	226	O
-the	227	230	O
-various	231	238	O
-stages	239	245	O
-of	246	248	O
-its	249	252	O
-development	253	264	O
-and	265	268	O
-the	269	272	O
-multiple	273	281	O
-versions	282	290	O
-available	291	300	O
-[	301	302	O
-50–53	302	307	O
-]	307	308	O
-.	308	309	O
-
-The	310	313	O
-fundamental	314	325	O
-difference	326	336	O
-between	337	344	O
-the	345	348	O
-versions	349	357	O
-is	358	360	O
-in	361	363	O
-the	364	367	O
-underlying	368	378	O
-intermolecular	379	393	B-Process
-potential	394	403	I-Process
-employed	404	412	O
-to	413	415	O
-describe	416	424	O
-the	425	428	O
-unbounded	429	438	B-Material
-constituent	439	450	I-Material
-particles	451	460	I-Material
-.	460	461	O
-
-Hard	462	466	B-Material
-spheres	467	474	I-Material
-,	474	475	O
-square	476	482	B-Material
-well	483	487	I-Material
-fluids	488	494	I-Material
-,	494	495	O
-LJ	496	498	B-Material
-fluids	499	505	I-Material
-,	505	506	O
-argon	507	512	B-Material
-,	512	513	O
-alkanes	514	521	B-Material
-have	522	526	O
-all	527	530	O
-been	531	535	O
-employed	536	544	O
-as	545	547	O
-reference	548	557	B-Material
-fluids	558	564	I-Material
-in	565	567	O
-the	568	571	O
-different	572	581	O
-incarnations	582	594	O
-of	595	597	O
-SAFT	598	602	B-Process
-.	602	603	O
-
-For	604	607	O
-the	608	611	O
-purpose	612	619	O
-of	620	622	O
-this	623	627	O
-work	628	632	O
-we	633	635	O
-will	636	640	O
-center	641	647	O
-on	648	650	O
-a	651	652	O
-particular	653	663	O
-version	664	671	O
-of	672	674	O
-the	675	678	O
-SAFT	679	683	B-Process
-EoS	684	687	I-Process
-,	687	688	O
-i.e.	689	693	O
-the	694	697	O
-SAFT	698	702	B-Process
--	702	703	I-Process
-VR	703	705	I-Process
-Mie	706	709	I-Process
-recently	710	718	O
-proposed	719	727	O
-by	728	730	O
-Laffitte	731	739	O
-et	740	742	O
-al	743	745	O
-.	745	746	O
-
-[	747	748	O
-54	748	750	O
-]	750	751	O
-and	752	755	O
-expanded	756	764	O
-into	765	769	O
-a	770	771	O
-group	772	777	B-Process
-contribution	778	790	I-Process
-approach	791	799	I-Process
-,	799	800	O
-SAFT-γ	801	807	B-Process
-,	807	808	O
-by	809	811	O
-Papaioannou	812	823	O
-et	824	826	O
-al	827	829	O
-.	829	830	O
-
-[	831	832	O
-55	832	834	O
-]	834	835	O
-.	835	836	O
-
-This	837	841	O
-particular	842	852	O
-version	853	860	O
-of	861	863	O
-SAFT	864	868	B-Process
-provides	869	877	O
-a	878	879	O
-closed	880	886	B-Process
-form	887	891	I-Process
-EoS	892	895	I-Process
-that	896	900	O
-describes	901	910	O
-the	911	914	O
-macroscopical	915	928	O
-properties	929	939	O
-of	940	942	O
-the	943	946	O
-Mie	947	950	B-Process
-potential	951	960	I-Process
-[	961	962	O
-56	962	964	O
-]	964	965	O
-,	965	966	O
-also	967	971	O
-known	972	977	O
-as	978	980	O
-the	981	984	O
-(	985	986	B-Process
-m	986	987	I-Process
-,	987	988	I-Process
-n	988	989	I-Process
-)	989	990	I-Process
-potential	991	1000	I-Process
-;	1000	1001	O
-a	1002	1003	O
-generalized	1004	1015	O
-form	1016	1020	O
-of	1021	1023	O
-the	1024	1027	O
-LJ	1028	1030	B-Process
-potential	1031	1040	I-Process
-(	1041	1042	O
-albeit	1042	1048	O
-predating	1049	1058	O
-it	1059	1061	O
-by	1062	1064	O
-decades	1065	1072	O
-)	1072	1073	O
-.	1073	1074	O
-
-The	1075	1078	O
-Mie	1079	1082	B-Process
-potential	1083	1092	I-Process
-has	1093	1096	O
-the	1097	1100	O
-form(1)ϕ(r)=Cεσrλr−σrλawhere	1101	1129	O
-C	1130	1131	O
-is	1132	1134	O
-an	1135	1137	O
-analytical	1138	1148	O
-function	1149	1157	O
-of	1158	1160	O
-the	1161	1164	O
-repulsive	1165	1174	O
-and	1175	1178	O
-attractive	1179	1189	O
-exponents	1190	1199	O
-,	1199	1200	O
-λa	1201	1203	O
-and	1204	1207	O
-λr	1208	1210	O
-,	1210	1211	O
-respectively	1212	1224	O
-,	1224	1225	O
-σ	1226	1227	O
-is	1228	1230	O
-a	1231	1232	O
-parameter	1233	1242	O
-that	1243	1247	O
-defines	1248	1255	O
-the	1256	1259	O
-length	1260	1266	O
-scale	1267	1272	O
-and	1273	1276	O
-is	1277	1279	O
-loosely	1280	1287	O
-related	1288	1295	O
-to	1296	1298	O
-the	1299	1302	O
-average	1303	1310	O
-diameter	1311	1319	O
-of	1320	1322	O
-a	1323	1324	O
-Mie	1325	1328	O
-bead	1329	1333	B-Material
-;	1333	1334	O
-ɛ	1335	1336	O
-defines	1337	1344	O
-the	1345	1348	O
-energy	1349	1355	O
-scale	1356	1361	O
-and	1362	1365	O
-corresponds	1366	1377	O
-to	1378	1380	O
-the	1381	1384	O
-minimum	1385	1392	O
-potential	1393	1402	O
-energy	1403	1409	O
-between	1410	1417	O
-two	1418	1421	O
-isolated	1422	1430	O
-beads	1431	1436	B-Material
-;	1436	1437	O
-expressed	1438	1447	O
-here	1448	1452	O
-as	1453	1455	O
-a	1456	1457	O
-ratio	1458	1463	O
-to	1464	1466	O
-the	1467	1470	O
-Boltzmann	1471	1480	O
-constant	1481	1489	O
-,	1489	1490	O
-kB.	1491	1494	O
-The	1495	1498	O
-Mie	1499	1502	O
-function	1503	1511	O
-,	1511	1512	O
-as	1513	1515	O
-written	1516	1523	O
-above	1524	1529	O
-,	1529	1530	O
-deceivingly	1531	1542	O
-suggests	1543	1551	O
-that	1552	1556	O
-four	1557	1561	O
-parameters	1562	1572	O
-are	1573	1576	O
-needed	1577	1583	O
-to	1584	1586	O
-characterize	1587	1599	O
-the	1600	1603	O
-behaviour	1604	1613	O
-of	1614	1616	O
-an	1617	1619	O
-isotropic	1620	1629	B-Material
-molecule	1630	1638	I-Material
-,	1638	1639	O
-however	1640	1647	O
-the	1648	1651	O
-exponents	1652	1661	O
-λa	1662	1664	O
-and	1665	1668	O
-λr	1669	1671	O
-are	1672	1675	O
-intimately	1676	1686	O
-related	1687	1694	O
-,	1694	1695	O
-and	1696	1699	O
-for	1700	1703	O
-fluid	1704	1709	B-Material
-phase	1710	1715	O
-equilibria	1716	1726	O
-,	1726	1727	O
-one	1728	1731	O
-needs	1732	1737	O
-not	1738	1741	O
-consider	1742	1750	O
-them	1751	1755	O
-as	1756	1758	O
-independent	1759	1770	O
-parameters	1771	1781	O
-[	1782	1783	O
-57	1783	1785	O
-]	1785	1786	O
-.	1786	1787	O
-
-Accordingly	1788	1799	O
-,	1799	1800	O
-we	1801	1803	O
-choose	1804	1810	O
-herein	1811	1817	O
-to	1818	1820	O
-fix	1821	1824	O
-the	1825	1828	O
-attractive	1829	1839	O
-exponent	1840	1848	O
-to	1849	1851	O
-λa=6	1852	1856	O
-which	1857	1862	O
-would	1863	1868	O
-be	1869	1871	O
-expected	1872	1880	O
-to	1881	1883	O
-be	1884	1886	O
-representative	1887	1901	O
-of	1902	1904	O
-the	1905	1908	O
-dispersion	1909	1919	O
-scaling	1920	1927	O
-of	1928	1930	O
-most	1931	1935	O
-simple	1936	1942	B-Material
-fluids	1943	1949	I-Material
-and	1950	1953	O
-refer	1954	1959	O
-from	1960	1964	O
-here	1965	1969	O
-on	1970	1972	O
-to	1973	1975	O
-the	1976	1979	O
-repulsive	1980	1989	O
-parameter	1990	1999	O
-as	2000	2002	O
-λ=λr	2003	2007	O
-.	2007	2008	O
-
-The	2009	2012	O
-potential	2013	2022	O
-simplifies	2023	2033	O
-to(2)ϕ(r)=λλ−6λ66/(λ−6)εσrλ−σr6	2034	2065	O
+The	0,3	O	O
+Statistical	4,15	O	B-Process
+Associating	16,27	O	I-Process
+Fluid	28,33	O	I-Process
+Theory	34,40	O	I-Process
+(	41,42	O	O
+SAFT	42,46	O	B-Process
+)	46,47	O	O
+is	48,50	O	O
+a	51,52	O	O
+well	53,57	O	O
+-	57,58	O	O
+developed	58,67	O	O
+perturbation	68,80	O	B-Process
+theory	81,87	O	I-Process
+used	88,92	O	O
+to	93,95	O	O
+describe	96,104	O	O
+quantitatively	105,119	O	O
+the	120,123	O	O
+volumetric	124,134	O	O
+properties	135,145	O	O
+of	146,148	O	O
+fluids	149,155	O	B-Material
+.	155,156	O	O
+
+The	157,160	O	O
+reader	161,167	O	O
+is	168,170	O	O
+referred	171,179	O	O
+to	180,182	O	O
+several	183,190	O	O
+reviews	191,198	O	O
+on	199,201	O	O
+the	202,205	O	O
+topic	206,211	O	O
+which	212,217	O	O
+describe	218,226	O	O
+the	227,230	O	O
+various	231,238	O	O
+stages	239,245	O	O
+of	246,248	O	O
+its	249,252	O	O
+development	253,264	O	O
+and	265,268	O	O
+the	269,272	O	O
+multiple	273,281	O	O
+versions	282,290	O	O
+available	291,300	O	O
+[	301,302	O	O
+50–53	302,307	O	O
+]	307,308	O	O
+.	308,309	O	O
+
+The	310,313	O	O
+fundamental	314,325	O	O
+difference	326,336	O	O
+between	337,344	O	O
+the	345,348	O	O
+versions	349,357	O	O
+is	358,360	O	O
+in	361,363	O	O
+the	364,367	O	O
+underlying	368,378	O	O
+intermolecular	379,393	O	B-Process
+potential	394,403	O	I-Process
+employed	404,412	O	O
+to	413,415	O	O
+describe	416,424	O	O
+the	425,428	O	O
+unbounded	429,438	O	B-Material
+constituent	439,450	O	I-Material
+particles	451,460	O	I-Material
+.	460,461	O	O
+
+Hard	462,466	O	B-Material
+spheres	467,474	O	I-Material
+,	474,475	O	O
+square	476,482	O	B-Material
+well	483,487	O	I-Material
+fluids	488,494	O	I-Material
+,	494,495	O	O
+LJ	496,498	O	B-Material
+fluids	499,505	O	I-Material
+,	505,506	O	O
+argon	507,512	O	B-Material
+,	512,513	O	O
+alkanes	514,521	O	B-Material
+have	522,526	O	O
+all	527,530	O	O
+been	531,535	O	O
+employed	536,544	O	O
+as	545,547	O	O
+reference	548,557	O	B-Material
+fluids	558,564	O	I-Material
+in	565,567	O	O
+the	568,571	O	O
+different	572,581	O	O
+incarnations	582,594	O	O
+of	595,597	O	O
+SAFT	598,602	O	B-Process
+.	602,603	O	O
+
+For	604,607	O	O
+the	608,611	O	O
+purpose	612,619	O	O
+of	620,622	O	O
+this	623,627	O	O
+work	628,632	O	O
+we	633,635	O	O
+will	636,640	O	O
+center	641,647	O	O
+on	648,650	O	O
+a	651,652	O	O
+particular	653,663	O	O
+version	664,671	O	O
+of	672,674	O	O
+the	675,678	O	O
+SAFT	679,683	O	B-Process
+EoS	684,687	O	I-Process
+,	687,688	O	O
+i.e.	689,693	O	O
+the	694,697	O	O
+SAFT	698,702	O	B-Process
+-	702,703	O	I-Process
+VR	703,705	O	I-Process
+Mie	706,709	O	I-Process
+recently	710,718	O	O
+proposed	719,727	O	O
+by	728,730	O	O
+Laffitte	731,739	O	O
+et	740,742	O	O
+al	743,745	O	O
+.	745,746	O	O
+
+[	747,748	O	O
+54	748,750	O	O
+]	750,751	O	O
+and	752,755	O	O
+expanded	756,764	O	O
+into	765,769	O	O
+a	770,771	O	O
+group	772,777	O	B-Process
+contribution	778,790	O	I-Process
+approach	791,799	O	I-Process
+,	799,800	O	O
+SAFT-γ	801,807	O	B-Process
+,	807,808	O	O
+by	809,811	O	O
+Papaioannou	812,823	O	O
+et	824,826	O	O
+al	827,829	O	O
+.	829,830	O	O
+
+[	831,832	O	O
+55	832,834	O	O
+]	834,835	O	O
+.	835,836	O	O
+
+This	837,841	O	O
+particular	842,852	O	O
+version	853,860	O	O
+of	861,863	O	O
+SAFT	864,868	O	B-Process
+provides	869,877	O	O
+a	878,879	O	O
+closed	880,886	O	B-Process
+form	887,891	O	I-Process
+EoS	892,895	O	I-Process
+that	896,900	O	O
+describes	901,910	O	O
+the	911,914	O	O
+macroscopical	915,928	O	O
+properties	929,939	O	O
+of	940,942	O	O
+the	943,946	O	O
+Mie	947,950	O	B-Process
+potential	951,960	O	I-Process
+[	961,962	O	O
+56	962,964	O	O
+]	964,965	O	O
+,	965,966	O	O
+also	967,971	O	O
+known	972,977	O	O
+as	978,980	O	O
+the	981,984	O	O
+(	985,986	O	B-Process
+m	986,987	O	I-Process
+,	987,988	O	I-Process
+n	988,989	O	I-Process
+)	989,990	O	I-Process
+potential	991,1000	O	I-Process
+;	1000,1001	O	O
+a	1002,1003	O	O
+generalized	1004,1015	O	O
+form	1016,1020	O	O
+of	1021,1023	O	O
+the	1024,1027	O	O
+LJ	1028,1030	O	B-Process
+potential	1031,1040	O	I-Process
+(	1041,1042	O	O
+albeit	1042,1048	O	O
+predating	1049,1058	O	O
+it	1059,1061	O	O
+by	1062,1064	O	O
+decades	1065,1072	O	O
+)	1072,1073	O	O
+.	1073,1074	O	O
+
+The	1075,1078	O	O
+Mie	1079,1082	O	B-Process
+potential	1083,1092	O	I-Process
+has	1093,1096	O	O
+the	1097,1100	O	O
+form(1)ϕ(r)=Cεσrλr−σrλawhere	1101,1129	O	O
+C	1130,1131	O	O
+is	1132,1134	O	O
+an	1135,1137	O	O
+analytical	1138,1148	O	O
+function	1149,1157	O	O
+of	1158,1160	O	O
+the	1161,1164	O	O
+repulsive	1165,1174	O	O
+and	1175,1178	O	O
+attractive	1179,1189	O	O
+exponents	1190,1199	O	O
+,	1199,1200	O	O
+λa	1201,1203	O	O
+and	1204,1207	O	O
+λr	1208,1210	O	O
+,	1210,1211	O	O
+respectively	1212,1224	O	O
+,	1224,1225	O	O
+σ	1226,1227	O	O
+is	1228,1230	O	O
+a	1231,1232	O	O
+parameter	1233,1242	O	O
+that	1243,1247	O	O
+defines	1248,1255	O	O
+the	1256,1259	O	O
+length	1260,1266	O	O
+scale	1267,1272	O	O
+and	1273,1276	O	O
+is	1277,1279	O	O
+loosely	1280,1287	O	O
+related	1288,1295	O	O
+to	1296,1298	O	O
+the	1299,1302	O	O
+average	1303,1310	O	O
+diameter	1311,1319	O	O
+of	1320,1322	O	O
+a	1323,1324	O	O
+Mie	1325,1328	O	O
+bead	1329,1333	O	B-Material
+;	1333,1334	O	O
+ɛ	1335,1336	O	O
+defines	1337,1344	O	O
+the	1345,1348	O	O
+energy	1349,1355	O	O
+scale	1356,1361	O	O
+and	1362,1365	O	O
+corresponds	1366,1377	O	O
+to	1378,1380	O	O
+the	1381,1384	O	O
+minimum	1385,1392	O	O
+potential	1393,1402	O	O
+energy	1403,1409	O	O
+between	1410,1417	O	O
+two	1418,1421	O	O
+isolated	1422,1430	O	O
+beads	1431,1436	O	B-Material
+;	1436,1437	O	O
+expressed	1438,1447	O	O
+here	1448,1452	O	O
+as	1453,1455	O	O
+a	1456,1457	O	O
+ratio	1458,1463	O	O
+to	1464,1466	O	O
+the	1467,1470	O	O
+Boltzmann	1471,1480	O	O
+constant	1481,1489	O	O
+,	1489,1490	O	O
+kB.	1491,1494	O	O
+The	1495,1498	O	O
+Mie	1499,1502	O	O
+function	1503,1511	O	O
+,	1511,1512	O	O
+as	1513,1515	O	O
+written	1516,1523	O	O
+above	1524,1529	O	O
+,	1529,1530	O	O
+deceivingly	1531,1542	O	O
+suggests	1543,1551	O	O
+that	1552,1556	O	O
+four	1557,1561	O	O
+parameters	1562,1572	O	O
+are	1573,1576	O	O
+needed	1577,1583	O	O
+to	1584,1586	O	O
+characterize	1587,1599	O	O
+the	1600,1603	O	O
+behaviour	1604,1613	O	O
+of	1614,1616	O	O
+an	1617,1619	O	O
+isotropic	1620,1629	O	B-Material
+molecule	1630,1638	O	I-Material
+,	1638,1639	O	O
+however	1640,1647	O	O
+the	1648,1651	O	O
+exponents	1652,1661	O	O
+λa	1662,1664	O	O
+and	1665,1668	O	O
+λr	1669,1671	O	O
+are	1672,1675	O	O
+intimately	1676,1686	O	O
+related	1687,1694	O	O
+,	1694,1695	O	O
+and	1696,1699	O	O
+for	1700,1703	O	O
+fluid	1704,1709	O	B-Material
+phase	1710,1715	O	O
+equilibria	1716,1726	O	O
+,	1726,1727	O	O
+one	1728,1731	O	O
+needs	1732,1737	O	O
+not	1738,1741	O	O
+consider	1742,1750	O	O
+them	1751,1755	O	O
+as	1756,1758	O	O
+independent	1759,1770	O	O
+parameters	1771,1781	O	O
+[	1782,1783	O	O
+57	1783,1785	O	O
+]	1785,1786	O	O
+.	1786,1787	O	O
+
+Accordingly	1788,1799	O	O
+,	1799,1800	O	O
+we	1801,1803	O	O
+choose	1804,1810	O	O
+herein	1811,1817	O	O
+to	1818,1820	O	O
+fix	1821,1824	O	O
+the	1825,1828	O	O
+attractive	1829,1839	O	O
+exponent	1840,1848	O	O
+to	1849,1851	O	O
+λa=6	1852,1856	O	O
+which	1857,1862	O	O
+would	1863,1868	O	O
+be	1869,1871	O	O
+expected	1872,1880	O	O
+to	1881,1883	O	O
+be	1884,1886	O	O
+representative	1887,1901	O	O
+of	1902,1904	O	O
+the	1905,1908	O	O
+dispersion	1909,1919	O	O
+scaling	1920,1927	O	O
+of	1928,1930	O	O
+most	1931,1935	O	O
+simple	1936,1942	O	B-Material
+fluids	1943,1949	O	I-Material
+and	1950,1953	O	O
+refer	1954,1959	O	O
+from	1960,1964	O	O
+here	1965,1969	O	O
+on	1970,1972	O	O
+to	1973,1975	O	O
+the	1976,1979	O	O
+repulsive	1980,1989	O	O
+parameter	1990,1999	O	O
+as	2000,2002	O	O
+λ=λr	2003,2007	O	O
+.	2007,2008	O	O
+
+The	2009,2012	O	O
+potential	2013,2022	O	O
+simplifies	2023,2033	O	O
+to(2)ϕ(r)=λλ−6λ66/(λ−6)εσrλ−σr6	2034,2065	O	O
 
 
 -DOCSTART- (S1359028614000989)
 
-The	0	3	O
-data	4	8	B-Process
-acquisition	9	20	I-Process
-strategies	21	31	I-Process
-must	32	36	O
-balance	37	44	O
-the	45	48	O
-relevant	49	57	O
-scales	58	64	O
-and	65	68	O
-volumes	69	76	O
-of	77	79	O
-the	80	83	O
-datasets	84	92	O
-to	93	95	O
-be	96	98	O
-used	99	103	O
-in	104	106	O
-the	107	110	O
-physical	111	119	B-Task
-and	120	123	I-Task
-statistical	124	135	I-Task
-modeling	136	144	I-Task
-.	144	145	O
-
-Approaches	146	156	O
-for	157	160	O
-extraction	161	171	B-Task
-of	172	174	I-Task
-the	175	178	I-Task
-necessary	179	188	I-Task
-information	189	200	I-Task
-must	201	205	O
-be	206	208	O
-able	209	213	O
-to	214	216	O
-disregard	217	226	O
-spurious	227	235	O
-information	236	247	O
-,	247	248	O
-so	249	251	O
-as	252	254	O
-to	255	257	O
-develop	258	265	O
-a	266	267	O
-working	268	275	O
-network	276	283	B-Process
-of	284	286	I-Process
-models	287	293	I-Process
-for	294	297	O
-each	298	302	O
-active	303	309	O
-mechanism	310	319	O
-related	320	327	O
-to	328	330	O
-each	331	335	O
-degradation	336	347	O
-pathway	348	355	O
-on	356	358	O
-the	359	362	O
-mesoscopic	363	373	O
-physical	374	382	O
-level	383	388	O
-and	389	392	O
-the	393	396	O
-data	397	401	O
--	401	402	O
-driven	402	408	O
-statistical	409	420	B-Process
-model	421	426	I-Process
-level	427	432	O
-.	432	433	O
-
-To	434	436	O
-capture	437	444	B-Task
-the	445	448	I-Task
-temporal	449	457	I-Task
-evolution	458	467	I-Task
-of	468	470	O
-the	471	474	O
-energy	475	481	B-Material
-material	482	490	I-Material
-over	491	495	O
-long	496	500	O
-time	501	505	O
-frames	506	512	O
-,	512	513	O
-appropriate	514	525	B-Process
-informatics	526	537	I-Process
-methods	538	545	I-Process
-are	546	549	O
-needed	550	556	O
-to	557	559	O
-balance	560	567	O
-data	568	572	O
-volume	573	579	O
-(	580	581	O
-e.g.	581	585	O
-,	585	586	O
-simple	587	593	O
-univariate	594	604	B-Material
-time	605	609	I-Material
--	609	610	I-Material
-series	610	616	I-Material
-data	617	621	I-Material
-streams	622	629	I-Material
-with	630	634	O
-high	635	639	B-Material
--	639	640	I-Material
-dimensional	640	651	I-Material
-volumetric	652	662	I-Material
-imaging	663	670	I-Material
-datasets	671	679	I-Material
-)	679	680	O
-while	681	686	O
-considering	687	698	O
-their	699	704	O
-respective	705	715	O
-information	716	727	O
-contents	728	736	O
-[	737	738	O
-68,69	738	743	O
-]	743	744	O
-.	744	745	O
-
-The	746	749	O
-raw	750	753	O
-data	754	758	O
-and	759	762	O
-extracted	763	772	O
-information	773	784	O
-must	785	789	O
-be	790	792	O
-accessible	793	803	O
-for	804	807	O
-query	808	813	B-Task
-and	814	817	O
-modeling	818	826	B-Task
-.	826	827	O
-
-Similarly	828	837	O
-,	837	838	O
-the	839	842	O
-modeling	843	851	B-Process
-approaches	852	862	I-Process
-used	863	867	O
-to	868	870	O
-understand	871	881	O
-and	882	885	O
-parameterize	886	898	O
-active	899	905	O
-mechanisms	906	916	O
-and	917	920	O
-phenomena	921	930	O
-over	931	935	O
-lifetime	936	944	O
-fall	945	949	O
-into	950	954	O
-the	955	958	O
-broad	959	964	O
-categories	965	975	O
-of	976	978	O
-micro-	979	985	B-Process
-,	985	986	I-Process
-meso-	987	992	I-Process
-and	993	996	I-Process
-macroscopic	997	1008	I-Process
-approaches	1009	1019	I-Process
-.	1019	1020	O
-
-Laboratory	1021	1031	B-Task
-and	1032	1035	I-Task
-real	1036	1040	I-Task
--	1040	1041	I-Task
-world	1041	1046	I-Task
-experimentation	1047	1062	I-Task
-,	1062	1063	O
-informatics	1064	1075	B-Task
-,	1075	1076	O
-analytics	1077	1086	B-Task
-,	1086	1087	O
-and	1088	1091	O
-the	1092	1095	O
-development	1096	1107	B-Task
-of	1108	1110	I-Task
-network	1111	1118	I-Task
-models	1119	1125	I-Task
-for	1126	1129	O
-mesoscopic	1130	1140	O
-evolution	1141	1150	O
-of	1151	1153	O
-energy	1154	1160	B-Material
-materials	1161	1170	I-Material
-over	1171	1175	O
-lifetime	1176	1184	O
-together	1185	1193	O
-constitute	1194	1204	O
-the	1205	1208	O
-field	1209	1214	O
-of	1215	1217	O
-degradation	1218	1229	B-Task
-science	1230	1237	I-Task
-.	1237	1238	O
+The	0,3	O	O
+data	4,8	O	B-Process
+acquisition	9,20	O	I-Process
+strategies	21,31	O	I-Process
+must	32,36	O	O
+balance	37,44	O	O
+the	45,48	O	O
+relevant	49,57	O	O
+scales	58,64	O	O
+and	65,68	O	O
+volumes	69,76	O	O
+of	77,79	O	O
+the	80,83	O	O
+datasets	84,92	O	O
+to	93,95	O	O
+be	96,98	O	O
+used	99,103	O	O
+in	104,106	O	O
+the	107,110	O	O
+physical	111,119	O	B-Task
+and	120,123	O	I-Task
+statistical	124,135	O	I-Task
+modeling	136,144	O	I-Task
+.	144,145	O	O
+
+Approaches	146,156	O	O
+for	157,160	O	O
+extraction	161,171	O	B-Task
+of	172,174	O	I-Task
+the	175,178	O	I-Task
+necessary	179,188	O	I-Task
+information	189,200	O	I-Task
+must	201,205	O	O
+be	206,208	O	O
+able	209,213	O	O
+to	214,216	O	O
+disregard	217,226	O	O
+spurious	227,235	O	O
+information	236,247	O	O
+,	247,248	O	O
+so	249,251	O	O
+as	252,254	O	O
+to	255,257	O	O
+develop	258,265	O	O
+a	266,267	O	O
+working	268,275	O	O
+network	276,283	O	B-Process
+of	284,286	O	I-Process
+models	287,293	O	I-Process
+for	294,297	O	O
+each	298,302	O	O
+active	303,309	O	O
+mechanism	310,319	O	O
+related	320,327	O	O
+to	328,330	O	O
+each	331,335	O	O
+degradation	336,347	O	O
+pathway	348,355	O	O
+on	356,358	O	O
+the	359,362	O	O
+mesoscopic	363,373	O	O
+physical	374,382	O	O
+level	383,388	O	O
+and	389,392	O	O
+the	393,396	O	O
+data	397,401	O	O
+-	401,402	O	O
+driven	402,408	O	O
+statistical	409,420	O	B-Process
+model	421,426	O	I-Process
+level	427,432	O	O
+.	432,433	O	O
+
+To	434,436	O	O
+capture	437,444	O	B-Task
+the	445,448	O	I-Task
+temporal	449,457	O	I-Task
+evolution	458,467	O	I-Task
+of	468,470	O	O
+the	471,474	O	O
+energy	475,481	O	B-Material
+material	482,490	O	I-Material
+over	491,495	O	O
+long	496,500	O	O
+time	501,505	O	O
+frames	506,512	O	O
+,	512,513	O	O
+appropriate	514,525	O	B-Process
+informatics	526,537	O	I-Process
+methods	538,545	O	I-Process
+are	546,549	O	O
+needed	550,556	O	O
+to	557,559	O	O
+balance	560,567	O	O
+data	568,572	O	O
+volume	573,579	O	O
+(	580,581	O	O
+e.g.	581,585	O	O
+,	585,586	O	O
+simple	587,593	O	O
+univariate	594,604	O	B-Material
+time	605,609	O	I-Material
+-	609,610	O	I-Material
+series	610,616	O	I-Material
+data	617,621	O	I-Material
+streams	622,629	O	I-Material
+with	630,634	O	O
+high	635,639	O	B-Material
+-	639,640	O	I-Material
+dimensional	640,651	O	I-Material
+volumetric	652,662	O	I-Material
+imaging	663,670	O	I-Material
+datasets	671,679	O	I-Material
+)	679,680	O	O
+while	681,686	O	O
+considering	687,698	O	O
+their	699,704	O	O
+respective	705,715	O	O
+information	716,727	O	O
+contents	728,736	O	O
+[	737,738	O	O
+68,69	738,743	O	O
+]	743,744	O	O
+.	744,745	O	O
+
+The	746,749	O	O
+raw	750,753	O	O
+data	754,758	O	O
+and	759,762	O	O
+extracted	763,772	O	O
+information	773,784	O	O
+must	785,789	O	O
+be	790,792	O	O
+accessible	793,803	O	O
+for	804,807	O	O
+query	808,813	O	B-Task
+and	814,817	O	O
+modeling	818,826	O	B-Task
+.	826,827	O	O
+
+Similarly	828,837	O	O
+,	837,838	O	O
+the	839,842	O	O
+modeling	843,851	O	B-Process
+approaches	852,862	O	I-Process
+used	863,867	O	O
+to	868,870	O	O
+understand	871,881	O	O
+and	882,885	O	O
+parameterize	886,898	O	O
+active	899,905	O	O
+mechanisms	906,916	O	O
+and	917,920	O	O
+phenomena	921,930	O	O
+over	931,935	O	O
+lifetime	936,944	O	O
+fall	945,949	O	O
+into	950,954	O	O
+the	955,958	O	O
+broad	959,964	O	O
+categories	965,975	O	O
+of	976,978	O	O
+micro-	979,985	O	B-Process
+,	985,986	O	I-Process
+meso-	987,992	O	I-Process
+and	993,996	O	I-Process
+macroscopic	997,1008	O	I-Process
+approaches	1009,1019	O	I-Process
+.	1019,1020	O	O
+
+Laboratory	1021,1031	O	B-Task
+and	1032,1035	O	I-Task
+real	1036,1040	O	I-Task
+-	1040,1041	O	I-Task
+world	1041,1046	O	I-Task
+experimentation	1047,1062	O	I-Task
+,	1062,1063	O	O
+informatics	1064,1075	O	B-Task
+,	1075,1076	O	O
+analytics	1077,1086	O	B-Task
+,	1086,1087	O	O
+and	1088,1091	O	O
+the	1092,1095	O	O
+development	1096,1107	O	B-Task
+of	1108,1110	O	I-Task
+network	1111,1118	O	I-Task
+models	1119,1125	O	I-Task
+for	1126,1129	O	O
+mesoscopic	1130,1140	O	O
+evolution	1141,1150	O	O
+of	1151,1153	O	O
+energy	1154,1160	O	B-Material
+materials	1161,1170	O	I-Material
+over	1171,1175	O	O
+lifetime	1176,1184	O	O
+together	1185,1193	O	O
+constitute	1194,1204	O	O
+the	1205,1208	O	O
+field	1209,1214	O	O
+of	1215,1217	O	O
+degradation	1218,1229	O	B-Task
+science	1230,1237	O	I-Task
+.	1237,1238	O	O
 
 
 -DOCSTART- (S1877750315000575)
 
-There	0	5	O
-are	6	9	O
-some	10	14	O
-relevant	15	23	O
-studies	24	31	O
-on	32	34	O
-information	35	46	B-Task
-dissemination	47	60	I-Task
-in	61	63	I-Task
-transportation	64	78	I-Task
-systems	79	86	I-Task
-using	87	92	O
-simulations	93	104	B-Process
-.	104	105	O
-
-One	106	109	O
-category	110	118	O
-of	119	121	O
-studies	122	129	O
-look	130	134	O
-at	135	137	O
-how	138	141	O
-either	142	148	O
-local	149	154	O
-information	155	166	O
-(	167	168	O
-only	168	172	O
-about	173	178	O
-the	179	182	O
-neighbours	183	193	O
-)	193	194	O
-or	195	197	O
-global	198	204	O
-information	205	216	O
-(	217	218	O
-about	218	223	O
-the	224	227	O
-entire	228	234	O
-network	235	242	O
-)	242	243	O
-affects	244	251	O
-the	252	255	O
-global	256	262	O
-network	263	270	O
-performance	271	282	O
-.	282	283	O
-
-Our	284	287	O
-approach	288	296	O
-is	297	299	O
-different	300	309	O
-in	310	312	O
-the	313	316	O
-sense	317	322	O
-that	323	327	O
-we	328	330	O
-investigate	331	342	B-Process
-the	343	346	I-Process
-impact	347	353	I-Process
-of	354	356	I-Process
-information	357	368	I-Process
-on	369	371	I-Process
-the	372	375	I-Process
-global	376	382	I-Process
-network	383	390	I-Process
-performance	391	402	I-Process
-depending	403	412	O
-on	413	415	O
-the	416	419	O
-fraction	420	428	O
-of	429	431	O
-people	432	438	O
-that	439	443	O
-receive	444	451	O
-information	452	463	O
-.	463	464	O
-
-We	465	467	O
-analyse	468	475	B-Task
-what	476	480	I-Task
-is	481	483	I-Task
-the	484	487	I-Task
-effect	488	494	I-Task
-of	495	497	I-Task
-real	498	502	I-Task
-time	503	507	I-Task
-information	508	519	I-Task
-dissemination	520	533	I-Task
-and	534	537	O
-explain	538	545	O
-why	546	549	O
-this	550	554	O
-effect	555	561	O
-appears	562	569	O
-.	569	570	O
-
-Information	571	582	O
-is	583	585	O
-disseminated	586	598	O
-in	599	601	O
-real	602	606	O
-time	607	611	O
-and	612	615	O
-contains	616	624	O
-global	625	631	O
-details	632	639	O
-about	640	645	O
-how	646	649	O
-congested	650	659	O
-the	660	663	O
-roads	664	669	O
-are	670	673	O
-.	673	674	O
-
-This	675	679	O
-approach	680	688	O
-is	689	691	O
-important	692	701	O
-as	702	704	O
-it	705	707	O
-gives	708	713	O
-insights	714	722	O
-on	723	725	O
-the	726	729	O
-impact	730	736	O
-that	737	741	O
-massive	742	749	B-Process
-use	750	753	I-Process
-of	754	756	I-Process
-real	757	761	I-Process
--	761	762	I-Process
-time	762	766	I-Process
-information	767	778	I-Process
-can	779	782	O
-have	783	787	O
-on	788	790	O
-traffic	791	798	O
-.	798	799	O
-
-This	800	804	O
-can	805	808	O
-be	809	811	O
-useful	812	818	O
-for	819	822	O
-building	823	831	B-Task
-more	832	836	I-Task
-intelligent	837	848	I-Task
-traffic	849	856	I-Task
-control	857	864	I-Task
-mechanisms	865	875	I-Task
-where	876	881	O
-information	882	893	O
-is	894	896	O
-a	897	898	O
-steering	899	907	O
-tool	908	912	O
-.	912	913	O
+There	0,5	O	O
+are	6,9	O	O
+some	10,14	O	O
+relevant	15,23	O	O
+studies	24,31	O	O
+on	32,34	O	O
+information	35,46	O	B-Task
+dissemination	47,60	O	I-Task
+in	61,63	O	I-Task
+transportation	64,78	O	I-Task
+systems	79,86	O	I-Task
+using	87,92	O	O
+simulations	93,104	O	B-Process
+.	104,105	O	O
+
+One	106,109	O	O
+category	110,118	O	O
+of	119,121	O	O
+studies	122,129	O	O
+look	130,134	O	O
+at	135,137	O	O
+how	138,141	O	O
+either	142,148	O	O
+local	149,154	O	O
+information	155,166	O	O
+(	167,168	O	O
+only	168,172	O	O
+about	173,178	O	O
+the	179,182	O	O
+neighbours	183,193	O	O
+)	193,194	O	O
+or	195,197	O	O
+global	198,204	O	O
+information	205,216	O	O
+(	217,218	O	O
+about	218,223	O	O
+the	224,227	O	O
+entire	228,234	O	O
+network	235,242	O	O
+)	242,243	O	O
+affects	244,251	O	O
+the	252,255	O	O
+global	256,262	O	O
+network	263,270	O	O
+performance	271,282	O	O
+.	282,283	O	O
+
+Our	284,287	O	O
+approach	288,296	O	O
+is	297,299	O	O
+different	300,309	O	O
+in	310,312	O	O
+the	313,316	O	O
+sense	317,322	O	O
+that	323,327	O	O
+we	328,330	O	O
+investigate	331,342	O	B-Process
+the	343,346	O	I-Process
+impact	347,353	O	I-Process
+of	354,356	O	I-Process
+information	357,368	O	I-Process
+on	369,371	O	I-Process
+the	372,375	O	I-Process
+global	376,382	O	I-Process
+network	383,390	O	I-Process
+performance	391,402	O	I-Process
+depending	403,412	O	O
+on	413,415	O	O
+the	416,419	O	O
+fraction	420,428	O	O
+of	429,431	O	O
+people	432,438	O	O
+that	439,443	O	O
+receive	444,451	O	O
+information	452,463	O	O
+.	463,464	O	O
+
+We	465,467	O	O
+analyse	468,475	O	B-Task
+what	476,480	O	I-Task
+is	481,483	O	I-Task
+the	484,487	O	I-Task
+effect	488,494	O	I-Task
+of	495,497	O	I-Task
+real	498,502	O	I-Task
+time	503,507	O	I-Task
+information	508,519	O	I-Task
+dissemination	520,533	O	I-Task
+and	534,537	O	O
+explain	538,545	O	O
+why	546,549	O	O
+this	550,554	O	O
+effect	555,561	O	O
+appears	562,569	O	O
+.	569,570	O	O
+
+Information	571,582	O	O
+is	583,585	O	O
+disseminated	586,598	O	O
+in	599,601	O	O
+real	602,606	O	O
+time	607,611	O	O
+and	612,615	O	O
+contains	616,624	O	O
+global	625,631	O	O
+details	632,639	O	O
+about	640,645	O	O
+how	646,649	O	O
+congested	650,659	O	O
+the	660,663	O	O
+roads	664,669	O	O
+are	670,673	O	O
+.	673,674	O	O
+
+This	675,679	O	O
+approach	680,688	O	O
+is	689,691	O	O
+important	692,701	O	O
+as	702,704	O	O
+it	705,707	O	O
+gives	708,713	O	O
+insights	714,722	O	O
+on	723,725	O	O
+the	726,729	O	O
+impact	730,736	O	O
+that	737,741	O	O
+massive	742,749	O	B-Process
+use	750,753	O	I-Process
+of	754,756	O	I-Process
+real	757,761	O	I-Process
+-	761,762	O	I-Process
+time	762,766	O	I-Process
+information	767,778	O	I-Process
+can	779,782	O	O
+have	783,787	O	O
+on	788,790	O	O
+traffic	791,798	O	O
+.	798,799	O	O
+
+This	800,804	O	O
+can	805,808	O	O
+be	809,811	O	O
+useful	812,818	O	O
+for	819,822	O	O
+building	823,831	O	B-Task
+more	832,836	O	I-Task
+intelligent	837,848	O	I-Task
+traffic	849,856	O	I-Task
+control	857,864	O	I-Task
+mechanisms	865,875	O	I-Task
+where	876,881	O	O
+information	882,893	O	O
+is	894,896	O	O
+a	897,898	O	O
+steering	899,907	O	O
+tool	908,912	O	O
+.	912,913	O	O
 
 
 -DOCSTART- (S1877750315300119)
 
-Generalized	0	11	B-Process
-polynomial	12	22	I-Process
-chaos	23	28	I-Process
-expansions	29	39	I-Process
-.	39	40	O
-
-One	41	44	O
-approach	45	53	O
-to	54	56	O
-model	57	62	B-Task
-densities	63	72	I-Task
-with	73	77	O
-stochastically	78	92	O
-dependent	93	102	O
-components	103	113	O
-numerically	114	125	O
-,	125	126	O
-is	127	129	O
-to	130	132	O
-reformulate	133	144	O
-the	145	148	O
-uncertainty	149	160	B-Task
-problem	161	168	I-Task
-as	169	171	O
-a	172	173	O
-set	174	177	O
-of	178	180	O
-independent	181	192	O
-components	193	203	O
-through	204	211	O
-generalised	212	223	B-Process
-polynomial	224	234	I-Process
-chaos	235	240	I-Process
-expansion	241	250	I-Process
-[	251	252	O
-34	252	254	O
-]	254	255	O
-.	255	256	O
-
-As	257	259	O
-described	260	269	O
-in	270	272	O
-detail	273	279	O
-in	280	282	O
-Section	283	290	O
-3.1	291	294	O
-,	294	295	O
-a	296	297	O
-Rosenblatt	298	308	B-Process
-transformation	309	323	I-Process
-allows	324	330	O
-for	331	334	O
-the	335	338	O
-mapping	339	346	O
-between	347	354	O
-any	355	358	O
-domain	359	365	O
-and	366	369	O
-the	370	373	O
-unit	374	378	O
-hypercube	379	388	O
-[	389	390	O
-0	390	391	O
-,	391	392	O
-1]D.	393	397	O
-
-With	398	402	O
-a	403	404	O
-double	405	411	O
-transformation	412	426	O
-we	427	429	O
-can	430	433	O
-reformulate	434	445	O
-the	446	449	O
-response	450	458	O
-function	459	467	O
-f	468	469	O
-asf(x	470	475	O
-,	475	476	O
-t	476	477	O
-,	477	478	O
-Q)=f(x	478	484	O
-,	484	485	O
-t	485	486	O
-,	486	487	O
-TQ−1(TR(R)))≈fˆ(x	487	504	O
-,	504	505	O
-t	505	506	O
-,	506	507	O
-R)=∑n∈INcn(x	507	519	O
-,	519	520	O
-
-t)Φn(R),where	520	533	O
-R	534	535	O
-is	536	538	O
-any	539	542	O
-random	543	549	O
-variable	550	558	O
-drawn	559	564	O
-from	565	569	O
-pR	570	572	O
-,	572	573	O
-which	574	579	O
-for	580	583	O
-simplicity	584	594	O
-is	595	597	O
-chosen	598	604	O
-to	605	607	O
-consists	608	616	O
-of	617	619	O
-independent	620	631	O
-components	632	642	O
-.	642	643	O
-
-Also	644	648	O
-,	648	649	O
-{	650	651	O
-Φn}n∈IN	651	658	O
-is	659	661	O
-constructed	662	673	O
-to	674	676	O
-be	677	679	O
-orthogonal	680	690	O
-with	691	695	O
-respect	696	703	O
-to	704	706	O
-LR	707	709	O
-,	709	710	O
-not	711	714	O
-LQ	715	717	O
-.	717	718	O
-
-In	719	721	O
-any	722	725	O
-case	726	730	O
-,	730	731	O
-R	732	733	O
-is	734	736	O
-either	737	743	O
-selected	744	752	O
-from	753	757	O
-the	758	761	O
-Askey	762	767	B-Process
--	767	768	I-Process
-Wilson	768	774	I-Process
-scheme	775	781	I-Process
-,	781	782	O
-or	783	785	O
-calculated	786	796	O
-using	797	802	O
-the	803	806	O
-discretized	807	818	B-Process
-Stieltjes	819	828	I-Process
-procedure	829	838	I-Process
-.	838	839	O
-
-We	840	842	O
-remark	843	849	O
-that	850	854	O
-the	855	858	O
-accuracy	859	867	O
-of	868	870	O
-the	871	874	O
-approximation	875	888	O
-deteriorate	889	900	O
-if	901	903	O
-the	904	907	O
-transformation	908	922	O
-composition	923	934	O
-TQ−1∘TR	935	942	O
-is	943	945	O
-not	946	949	O
-smooth	950	956	O
-[	957	958	O
-34	958	960	O
-]	960	961	O
-.	961	962	O
-
-Dakota	963	969	O
-,	969	970	O
-Turns	971	976	O
-,	976	977	O
-and	978	981	O
-Chaospy	982	989	O
-all	990	993	O
-support	994	1001	O
-generalized	1002	1013	B-Process
-polynomial	1014	1024	I-Process
-chaos	1025	1030	I-Process
-expansions	1031	1041	I-Process
-for	1042	1045	O
-independent	1046	1057	O
-stochastic	1058	1068	O
-variables	1069	1078	O
-and	1079	1082	O
-the	1083	1086	O
-Normal	1087	1093	O
-/	1093	1094	O
-Nataf	1094	1099	O
-copula	1100	1106	O
-listed	1107	1113	O
-in	1114	1116	O
-Table	1117	1122	O
-2	1123	1124	O
-.	1124	1125	O
-
-Since	1126	1131	O
-Chaospy	1132	1139	O
-has	1140	1143	O
-the	1144	1147	O
-Rosenblatt	1148	1158	B-Process
-transformation	1159	1173	I-Process
-underlying	1174	1184	O
-the	1185	1188	O
-computational	1189	1202	B-Material
-framework	1203	1212	I-Material
-,	1212	1213	O
-generalized	1214	1225	B-Process
-polynomial	1226	1236	I-Process
-chaos	1237	1242	I-Process
-expansions	1243	1253	I-Process
-are	1254	1257	O
-in	1258	1260	O
-fact	1261	1265	O
-available	1266	1275	O
-for	1276	1279	O
-all	1280	1283	O
-densities	1284	1293	O
-.	1293	1294	O
+Generalized	0,11	O	B-Process
+polynomial	12,22	O	I-Process
+chaos	23,28	O	I-Process
+expansions	29,39	O	I-Process
+.	39,40	O	O
+
+One	41,44	O	O
+approach	45,53	O	O
+to	54,56	O	O
+model	57,62	O	B-Task
+densities	63,72	O	I-Task
+with	73,77	O	O
+stochastically	78,92	O	O
+dependent	93,102	O	O
+components	103,113	O	O
+numerically	114,125	O	O
+,	125,126	O	O
+is	127,129	O	O
+to	130,132	O	O
+reformulate	133,144	O	O
+the	145,148	O	O
+uncertainty	149,160	O	B-Task
+problem	161,168	O	I-Task
+as	169,171	O	O
+a	172,173	O	O
+set	174,177	O	O
+of	178,180	O	O
+independent	181,192	O	O
+components	193,203	O	O
+through	204,211	O	O
+generalised	212,223	O	B-Process
+polynomial	224,234	O	I-Process
+chaos	235,240	O	I-Process
+expansion	241,250	O	I-Process
+[	251,252	O	O
+34	252,254	O	O
+]	254,255	O	O
+.	255,256	O	O
+
+As	257,259	O	O
+described	260,269	O	O
+in	270,272	O	O
+detail	273,279	O	O
+in	280,282	O	O
+Section	283,290	O	O
+3.1	291,294	O	O
+,	294,295	O	O
+a	296,297	O	O
+Rosenblatt	298,308	O	B-Process
+transformation	309,323	O	I-Process
+allows	324,330	O	O
+for	331,334	O	O
+the	335,338	O	O
+mapping	339,346	O	O
+between	347,354	O	O
+any	355,358	O	O
+domain	359,365	O	O
+and	366,369	O	O
+the	370,373	O	O
+unit	374,378	O	O
+hypercube	379,388	O	O
+[	389,390	O	O
+0	390,391	O	O
+,	391,392	O	O
+1]D.	393,397	O	O
+
+With	398,402	O	O
+a	403,404	O	O
+double	405,411	O	O
+transformation	412,426	O	O
+we	427,429	O	O
+can	430,433	O	O
+reformulate	434,445	O	O
+the	446,449	O	O
+response	450,458	O	O
+function	459,467	O	O
+f	468,469	O	O
+asf(x	470,475	O	O
+,	475,476	O	O
+t	476,477	O	O
+,	477,478	O	O
+Q)=f(x	478,484	O	O
+,	484,485	O	O
+t	485,486	O	O
+,	486,487	O	O
+TQ−1(TR(R)))≈fˆ(x	487,504	O	O
+,	504,505	O	O
+t	505,506	O	O
+,	506,507	O	O
+R)=∑n∈INcn(x	507,519	O	O
+,	519,520	O	O
+
+t)Φn(R),where	520,533	O	O
+R	534,535	O	O
+is	536,538	O	O
+any	539,542	O	O
+random	543,549	O	O
+variable	550,558	O	O
+drawn	559,564	O	O
+from	565,569	O	O
+pR	570,572	O	O
+,	572,573	O	O
+which	574,579	O	O
+for	580,583	O	O
+simplicity	584,594	O	O
+is	595,597	O	O
+chosen	598,604	O	O
+to	605,607	O	O
+consists	608,616	O	O
+of	617,619	O	O
+independent	620,631	O	O
+components	632,642	O	O
+.	642,643	O	O
+
+Also	644,648	O	O
+,	648,649	O	O
+{	650,651	O	O
+Φn}n∈IN	651,658	O	O
+is	659,661	O	O
+constructed	662,673	O	O
+to	674,676	O	O
+be	677,679	O	O
+orthogonal	680,690	O	O
+with	691,695	O	O
+respect	696,703	O	O
+to	704,706	O	O
+LR	707,709	O	O
+,	709,710	O	O
+not	711,714	O	O
+LQ	715,717	O	O
+.	717,718	O	O
+
+In	719,721	O	O
+any	722,725	O	O
+case	726,730	O	O
+,	730,731	O	O
+R	732,733	O	O
+is	734,736	O	O
+either	737,743	O	O
+selected	744,752	O	O
+from	753,757	O	O
+the	758,761	O	O
+Askey	762,767	O	B-Process
+-	767,768	O	I-Process
+Wilson	768,774	O	I-Process
+scheme	775,781	O	I-Process
+,	781,782	O	O
+or	783,785	O	O
+calculated	786,796	O	O
+using	797,802	O	O
+the	803,806	O	O
+discretized	807,818	O	B-Process
+Stieltjes	819,828	O	I-Process
+procedure	829,838	O	I-Process
+.	838,839	O	O
+
+We	840,842	O	O
+remark	843,849	O	O
+that	850,854	O	O
+the	855,858	O	O
+accuracy	859,867	O	O
+of	868,870	O	O
+the	871,874	O	O
+approximation	875,888	O	O
+deteriorate	889,900	O	O
+if	901,903	O	O
+the	904,907	O	O
+transformation	908,922	O	O
+composition	923,934	O	O
+TQ−1∘TR	935,942	O	O
+is	943,945	O	O
+not	946,949	O	O
+smooth	950,956	O	O
+[	957,958	O	O
+34	958,960	O	O
+]	960,961	O	O
+.	961,962	O	O
+
+Dakota	963,969	O	O
+,	969,970	O	O
+Turns	971,976	O	O
+,	976,977	O	O
+and	978,981	O	O
+Chaospy	982,989	O	O
+all	990,993	O	O
+support	994,1001	O	O
+generalized	1002,1013	O	B-Process
+polynomial	1014,1024	O	I-Process
+chaos	1025,1030	O	I-Process
+expansions	1031,1041	O	I-Process
+for	1042,1045	O	O
+independent	1046,1057	O	O
+stochastic	1058,1068	O	O
+variables	1069,1078	O	O
+and	1079,1082	O	O
+the	1083,1086	O	O
+Normal	1087,1093	O	O
+/	1093,1094	O	O
+Nataf	1094,1099	O	O
+copula	1100,1106	O	O
+listed	1107,1113	O	O
+in	1114,1116	O	O
+Table	1117,1122	O	O
+2	1123,1124	O	O
+.	1124,1125	O	O
+
+Since	1126,1131	O	O
+Chaospy	1132,1139	O	O
+has	1140,1143	O	O
+the	1144,1147	O	O
+Rosenblatt	1148,1158	O	B-Process
+transformation	1159,1173	O	I-Process
+underlying	1174,1184	O	O
+the	1185,1188	O	O
+computational	1189,1202	O	B-Material
+framework	1203,1212	O	I-Material
+,	1212,1213	O	O
+generalized	1214,1225	O	B-Process
+polynomial	1226,1236	O	I-Process
+chaos	1237,1242	O	I-Process
+expansions	1243,1253	O	I-Process
+are	1254,1257	O	O
+in	1258,1260	O	O
+fact	1261,1265	O	O
+available	1266,1275	O	O
+for	1276,1279	O	O
+all	1280,1283	O	O
+densities	1284,1293	O	O
+.	1293,1294	O	O
 
 
 -DOCSTART- (S2352179115300041)
 
-The	0	3	O
-main	4	8	O
-drawback	9	17	O
-of	18	20	O
-thermo	21	27	B-Process
--	27	28	I-Process
-oxidation	28	37	I-Process
-in	38	40	O
-most	41	45	O
-actual	46	52	O
-devices	53	60	O
-and	61	64	O
-ITER	65	69	B-Material
-is	70	72	O
-its	73	76	O
-limitation	77	87	O
-to	88	90	O
-maintenance	91	102	O
-periods	103	110	O
-,	110	111	O
-when	112	116	O
-the	117	120	O
-vessel	121	127	B-Material
-walls	128	133	O
-can	134	137	O
-be	138	140	O
-heated	141	147	O
-up	148	150	O
-around	151	157	O
-300–400	158	165	O
-°	166	167	O
-C	167	168	O
-by	169	171	O
-hot	172	175	O
-helium	176	182	B-Material
-injection	183	192	O
-through	193	200	O
-the	201	204	O
-cooling	205	212	B-Material
-system	213	219	I-Material
-[	220	221	O
-19,20	221	226	O
-]	226	227	O
-,	227	228	O
-and	229	232	O
-also	233	237	O
-because	238	245	O
-of	246	248	O
-the	249	252	O
-required	253	261	O
-reconditioning	262	276	B-Task
-of	277	279	O
-the	280	283	O
-walls	284	289	O
-before	290	296	O
-plasma	297	303	B-Task
-operation	304	313	I-Task
-to	314	316	O
-remove	317	323	O
-the	324	327	O
-absorbed	328	336	O
-oxygen	337	343	B-Material
-[	344	345	O
-10	345	347	O
-]	347	348	O
-.	348	349	O
-
-However	350	357	O
-,	357	358	O
-the	359	362	O
-temperature	363	374	O
-achieved	375	383	O
-is	384	386	O
-not	387	390	O
-homogeneous	391	402	O
-over	403	407	O
-the	408	411	O
-vessel	412	418	B-Material
-,	418	419	O
-as	420	422	O
-it	423	425	O
-is	426	428	O
-limited	429	436	O
-to	437	439	O
-the	440	443	O
-distance	444	452	O
-to	453	455	O
-the	456	459	O
-cooling	460	467	B-Material
-tubes	468	473	I-Material
-,	473	474	O
-and	475	478	O
-thus	479	483	O
-to	484	486	O
-the	487	490	O
-device	491	497	O
-design	498	504	O
-.	504	505	O
-
-The	506	509	O
-analysis	510	518	O
-of	519	521	O
-this	522	526	O
-study	527	532	O
-is	533	535	O
-a	536	537	O
-continuation	538	550	O
-of	551	553	O
-previous	554	562	O
-works	563	568	O
-done	569	573	O
-for	574	577	O
-the	578	581	O
-treatment	582	591	B-Task
-of	592	594	I-Task
-ITER	595	599	I-Task
-carbon	600	606	I-Task
-co	607	609	I-Task
--	609	610	I-Task
-deposits	610	618	I-Task
-[	619	620	O
-1–3	620	623	O
-]	623	624	O
-,	624	625	O
-so	626	628	O
-the	629	632	O
-temperatures	633	645	O
-studied	646	653	O
-are	654	657	O
-in	658	660	O
-the	661	664	O
-range	665	670	O
-of	671	673	O
-350	674	677	O
-°	678	679	O
-C	679	680	O
-for	681	684	O
-divertor	685	693	B-Material
-and	694	697	O
-200–275	698	705	O
-°	706	707	O
-C	707	708	O
-for	709	712	O
-main	713	717	B-Material
-wall	718	722	I-Material
-and	723	726	O
-remote	727	733	B-Material
-parts	734	739	I-Material
-.	739	740	O
-
-At	741	743	O
-present	744	751	O
-,	751	752	O
-due	753	756	O
-to	757	759	O
-budget	760	766	O
-restrains	767	776	O
-as	777	779	O
-well	780	784	O
-as	785	787	O
-due	788	791	O
-to	792	794	O
-tritium	795	802	B-Material
-trapped	803	810	O
-in	811	813	O
-co	814	816	O
--	816	817	O
-deposited	817	826	O
-carbon	827	833	B-Material
-layers	834	840	I-Material
-,	840	841	O
-ITER	842	846	B-Material
-will	847	851	O
-not	852	855	O
-use	856	859	O
-carbon	860	866	B-Material
-materials	867	876	I-Material
-at	877	879	O
-the	880	883	O
-divertor	884	892	B-Material
-strike	893	899	O
-points	900	906	O
-in	907	909	O
-spite	910	915	O
-of	916	918	O
-their	919	924	O
-excellent	925	934	O
-resilience	935	945	O
-against	946	953	O
-large	954	959	O
-heat	960	964	O
-loads	965	970	O
-.	970	971	O
-
-Nevertheless	972	984	O
-,	984	985	O
-many	986	990	O
-present	991	998	O
-experimental	999	1011	O
-nuclear	1012	1019	B-Material
-fusion	1020	1026	I-Material
-devices	1027	1034	I-Material
-(	1035	1036	O
-DIII	1036	1040	B-Material
--	1040	1041	I-Material
-D	1041	1042	I-Material
-,	1042	1043	O
-TCV	1044	1047	B-Material
-,	1047	1048	O
-etc	1049	1052	O
-.	1052	1053	O
-)	1053	1054	O
-and	1055	1058	O
-new	1059	1062	O
-ones	1063	1067	O
-(	1068	1069	O
-JT-60SA	1069	1076	B-Material
-,	1076	1077	O
-KSTAR	1078	1083	B-Material
-,	1083	1084	O
-Wenderstein-7X	1085	1099	B-Material
-)	1099	1100	O
-use	1101	1104	O
-carbon	1105	1111	B-Material
-elements	1112	1120	I-Material
-,	1120	1121	O
-so	1122	1124	O
-the	1125	1128	O
-removal	1129	1136	B-Task
-of	1137	1139	I-Task
-carbon	1140	1146	I-Task
-co	1147	1149	I-Task
--	1149	1150	I-Task
-deposits	1150	1158	I-Task
-is	1159	1161	O
-still	1162	1167	O
-necessary	1168	1177	O
-for	1178	1181	O
-a	1182	1183	O
-better	1184	1190	O
-device	1191	1197	O
-operation	1198	1207	O
-—	1207	1208	O
-plasma	1208	1214	B-Task
-density	1215	1222	I-Task
-control	1223	1230	I-Task
-,	1230	1231	O
-dust	1232	1236	B-Material
-events	1237	1243	O
-,	1243	1244	O
-etc	1245	1248	O
-.	1248	1249	O
-
-The	1250	1253	O
-temperatures	1254	1266	O
-used	1267	1271	O
-in	1272	1274	O
-this	1275	1279	O
-work	1280	1284	O
-are	1285	1288	O
-not	1289	1292	O
-very	1293	1297	O
-different	1298	1307	O
-from	1308	1312	O
-the	1313	1316	O
-ones	1317	1321	O
-achievable	1322	1332	O
-in	1333	1335	O
-present	1336	1343	O
-devices	1344	1351	O
-,	1351	1352	O
-such	1353	1357	O
-that	1358	1362	O
-the	1363	1366	O
-results	1367	1374	O
-can	1375	1378	O
-be	1379	1381	O
-extrapolated	1382	1394	O
-to	1395	1397	O
-them	1398	1402	O
-.	1402	1403	O
-
-Moreover	1404	1412	O
-,	1412	1413	O
-even	1414	1418	O
-for	1419	1422	O
-ITER	1423	1427	B-Material
-this	1428	1432	O
-study	1433	1438	O
-could	1439	1444	O
-be	1445	1447	O
-useful	1448	1454	O
-if	1455	1457	O
-carbon	1458	1464	B-Material
-materials	1465	1474	I-Material
-have	1475	1479	O
-to	1480	1482	O
-be	1483	1485	O
-eventually	1486	1496	O
-installed	1497	1506	O
-in	1507	1509	O
-the	1510	1513	O
-case	1514	1518	O
-that	1519	1523	O
-operation	1524	1533	O
-with	1534	1538	O
-tungsten	1539	1547	B-Material
-tiles	1548	1553	I-Material
-at	1554	1556	O
-the	1557	1560	O
-strike	1561	1567	O
-points	1568	1574	O
-is	1575	1577	O
-precluded	1578	1587	O
-by	1588	1590	O
-unexpected	1591	1601	O
-reasons	1602	1609	O
-.	1609	1610	O
+The	0,3	O	O
+main	4,8	O	O
+drawback	9,17	O	O
+of	18,20	O	O
+thermo	21,27	O	B-Process
+-	27,28	O	I-Process
+oxidation	28,37	O	I-Process
+in	38,40	O	O
+most	41,45	O	O
+actual	46,52	O	O
+devices	53,60	O	O
+and	61,64	O	O
+ITER	65,69	O	B-Material
+is	70,72	O	O
+its	73,76	O	O
+limitation	77,87	O	O
+to	88,90	O	O
+maintenance	91,102	O	O
+periods	103,110	O	O
+,	110,111	O	O
+when	112,116	O	O
+the	117,120	O	O
+vessel	121,127	O	B-Material
+walls	128,133	O	O
+can	134,137	O	O
+be	138,140	O	O
+heated	141,147	O	O
+up	148,150	O	O
+around	151,157	O	O
+300–400	158,165	O	O
+°	166,167	O	O
+C	167,168	O	O
+by	169,171	O	O
+hot	172,175	O	O
+helium	176,182	O	B-Material
+injection	183,192	O	O
+through	193,200	O	O
+the	201,204	O	O
+cooling	205,212	O	B-Material
+system	213,219	O	I-Material
+[	220,221	O	O
+19,20	221,226	O	O
+]	226,227	O	O
+,	227,228	O	O
+and	229,232	O	O
+also	233,237	O	O
+because	238,245	O	O
+of	246,248	O	O
+the	249,252	O	O
+required	253,261	O	O
+reconditioning	262,276	O	B-Task
+of	277,279	O	O
+the	280,283	O	O
+walls	284,289	O	O
+before	290,296	O	O
+plasma	297,303	O	B-Task
+operation	304,313	O	I-Task
+to	314,316	O	O
+remove	317,323	O	O
+the	324,327	O	O
+absorbed	328,336	O	O
+oxygen	337,343	O	B-Material
+[	344,345	O	O
+10	345,347	O	O
+]	347,348	O	O
+.	348,349	O	O
+
+However	350,357	O	O
+,	357,358	O	O
+the	359,362	O	O
+temperature	363,374	O	O
+achieved	375,383	O	O
+is	384,386	O	O
+not	387,390	O	O
+homogeneous	391,402	O	O
+over	403,407	O	O
+the	408,411	O	O
+vessel	412,418	O	B-Material
+,	418,419	O	O
+as	420,422	O	O
+it	423,425	O	O
+is	426,428	O	O
+limited	429,436	O	O
+to	437,439	O	O
+the	440,443	O	O
+distance	444,452	O	O
+to	453,455	O	O
+the	456,459	O	O
+cooling	460,467	O	B-Material
+tubes	468,473	O	I-Material
+,	473,474	O	O
+and	475,478	O	O
+thus	479,483	O	O
+to	484,486	O	O
+the	487,490	O	O
+device	491,497	O	O
+design	498,504	O	O
+.	504,505	O	O
+
+The	506,509	O	O
+analysis	510,518	O	O
+of	519,521	O	O
+this	522,526	O	O
+study	527,532	O	O
+is	533,535	O	O
+a	536,537	O	O
+continuation	538,550	O	O
+of	551,553	O	O
+previous	554,562	O	O
+works	563,568	O	O
+done	569,573	O	O
+for	574,577	O	O
+the	578,581	O	O
+treatment	582,591	O	B-Task
+of	592,594	O	I-Task
+ITER	595,599	O	I-Task
+carbon	600,606	O	I-Task
+co	607,609	O	I-Task
+-	609,610	O	I-Task
+deposits	610,618	O	I-Task
+[	619,620	O	O
+1–3	620,623	O	O
+]	623,624	O	O
+,	624,625	O	O
+so	626,628	O	O
+the	629,632	O	O
+temperatures	633,645	O	O
+studied	646,653	O	O
+are	654,657	O	O
+in	658,660	O	O
+the	661,664	O	O
+range	665,670	O	O
+of	671,673	O	O
+350	674,677	O	O
+°	678,679	O	O
+C	679,680	O	O
+for	681,684	O	O
+divertor	685,693	O	B-Material
+and	694,697	O	O
+200–275	698,705	O	O
+°	706,707	O	O
+C	707,708	O	O
+for	709,712	O	O
+main	713,717	O	B-Material
+wall	718,722	O	I-Material
+and	723,726	O	O
+remote	727,733	O	B-Material
+parts	734,739	O	I-Material
+.	739,740	O	O
+
+At	741,743	O	O
+present	744,751	O	O
+,	751,752	O	O
+due	753,756	O	O
+to	757,759	O	O
+budget	760,766	O	O
+restrains	767,776	O	O
+as	777,779	O	O
+well	780,784	O	O
+as	785,787	O	O
+due	788,791	O	O
+to	792,794	O	O
+tritium	795,802	O	B-Material
+trapped	803,810	O	O
+in	811,813	O	O
+co	814,816	O	O
+-	816,817	O	O
+deposited	817,826	O	O
+carbon	827,833	O	B-Material
+layers	834,840	O	I-Material
+,	840,841	O	O
+ITER	842,846	O	B-Material
+will	847,851	O	O
+not	852,855	O	O
+use	856,859	O	O
+carbon	860,866	O	B-Material
+materials	867,876	O	I-Material
+at	877,879	O	O
+the	880,883	O	O
+divertor	884,892	O	B-Material
+strike	893,899	O	O
+points	900,906	O	O
+in	907,909	O	O
+spite	910,915	O	O
+of	916,918	O	O
+their	919,924	O	O
+excellent	925,934	O	O
+resilience	935,945	O	O
+against	946,953	O	O
+large	954,959	O	O
+heat	960,964	O	O
+loads	965,970	O	O
+.	970,971	O	O
+
+Nevertheless	972,984	O	O
+,	984,985	O	O
+many	986,990	O	O
+present	991,998	O	O
+experimental	999,1011	O	O
+nuclear	1012,1019	O	B-Material
+fusion	1020,1026	O	I-Material
+devices	1027,1034	O	I-Material
+(	1035,1036	O	O
+DIII	1036,1040	O	B-Material
+-	1040,1041	O	I-Material
+D	1041,1042	O	I-Material
+,	1042,1043	O	O
+TCV	1044,1047	O	B-Material
+,	1047,1048	O	O
+etc	1049,1052	O	O
+.	1052,1053	O	O
+)	1053,1054	O	O
+and	1055,1058	O	O
+new	1059,1062	O	O
+ones	1063,1067	O	O
+(	1068,1069	O	O
+JT-60SA	1069,1076	O	B-Material
+,	1076,1077	O	O
+KSTAR	1078,1083	O	B-Material
+,	1083,1084	O	O
+Wenderstein-7X	1085,1099	O	B-Material
+)	1099,1100	O	O
+use	1101,1104	O	O
+carbon	1105,1111	O	B-Material
+elements	1112,1120	O	I-Material
+,	1120,1121	O	O
+so	1122,1124	O	O
+the	1125,1128	O	O
+removal	1129,1136	O	B-Task
+of	1137,1139	O	I-Task
+carbon	1140,1146	O	I-Task
+co	1147,1149	O	I-Task
+-	1149,1150	O	I-Task
+deposits	1150,1158	O	I-Task
+is	1159,1161	O	O
+still	1162,1167	O	O
+necessary	1168,1177	O	O
+for	1178,1181	O	O
+a	1182,1183	O	O
+better	1184,1190	O	O
+device	1191,1197	O	O
+operation	1198,1207	O	O
+—	1207,1208	O	O
+plasma	1208,1214	O	B-Task
+density	1215,1222	O	I-Task
+control	1223,1230	O	I-Task
+,	1230,1231	O	O
+dust	1232,1236	O	B-Material
+events	1237,1243	O	O
+,	1243,1244	O	O
+etc	1245,1248	O	O
+.	1248,1249	O	O
+
+The	1250,1253	O	O
+temperatures	1254,1266	O	O
+used	1267,1271	O	O
+in	1272,1274	O	O
+this	1275,1279	O	O
+work	1280,1284	O	O
+are	1285,1288	O	O
+not	1289,1292	O	O
+very	1293,1297	O	O
+different	1298,1307	O	O
+from	1308,1312	O	O
+the	1313,1316	O	O
+ones	1317,1321	O	O
+achievable	1322,1332	O	O
+in	1333,1335	O	O
+present	1336,1343	O	O
+devices	1344,1351	O	O
+,	1351,1352	O	O
+such	1353,1357	O	O
+that	1358,1362	O	O
+the	1363,1366	O	O
+results	1367,1374	O	O
+can	1375,1378	O	O
+be	1379,1381	O	O
+extrapolated	1382,1394	O	O
+to	1395,1397	O	O
+them	1398,1402	O	O
+.	1402,1403	O	O
+
+Moreover	1404,1412	O	O
+,	1412,1413	O	O
+even	1414,1418	O	O
+for	1419,1422	O	O
+ITER	1423,1427	O	B-Material
+this	1428,1432	O	O
+study	1433,1438	O	O
+could	1439,1444	O	O
+be	1445,1447	O	O
+useful	1448,1454	O	O
+if	1455,1457	O	O
+carbon	1458,1464	O	B-Material
+materials	1465,1474	O	I-Material
+have	1475,1479	O	O
+to	1480,1482	O	O
+be	1483,1485	O	O
+eventually	1486,1496	O	O
+installed	1497,1506	O	O
+in	1507,1509	O	O
+the	1510,1513	O	O
+case	1514,1518	O	O
+that	1519,1523	O	O
+operation	1524,1533	O	O
+with	1534,1538	O	O
+tungsten	1539,1547	O	B-Material
+tiles	1548,1553	O	I-Material
+at	1554,1556	O	O
+the	1557,1560	O	O
+strike	1561,1567	O	O
+points	1568,1574	O	O
+is	1575,1577	O	O
+precluded	1578,1587	O	O
+by	1588,1590	O	O
+unexpected	1591,1601	O	O
+reasons	1602,1609	O	O
+.	1609,1610	O	O
 
 
diff --git a/data/ner/semeval2017/test.txt b/data/ner/semeval2017/test.txt
index 9c35527..93d0709 100644
--- a/data/ner/semeval2017/test.txt
+++ b/data/ner/semeval2017/test.txt
@@ -1,23376 +1,23376 @@
 -DOCSTART- (S0010482516301810)
 
-Three	0	5	B-Process
--	5	6	I-Process
-dimensional	6	17	I-Process
-digital	18	25	I-Process
-subtraction	26	37	I-Process
-angiographic	38	50	I-Process
-(	51	52	O
-3D	52	54	B-Process
--	54	55	I-Process
-DSA	55	58	I-Process
-)	58	59	O
-images	60	66	O
-from	67	71	O
-diagnostic	72	82	O
-cerebral	83	91	B-Process
-angiography	92	103	I-Process
-were	104	108	O
-obtained	109	117	O
-at	118	120	O
-least	121	126	O
-one	127	130	O
-day	131	134	O
-prior	135	140	O
-to	141	143	O
-embolization	144	156	B-Process
-in	157	159	O
-all	160	163	O
-patients	164	172	O
-.	172	173	O
-
-The	174	177	O
-raw	178	181	O
-data	182	186	O
-of	187	189	O
-3D	190	192	B-Process
--	192	193	I-Process
-DSA	193	196	I-Process
-in	197	199	O
-a	200	201	O
-DICOM	202	207	B-Material
-file	208	212	I-Material
-were	213	217	O
-used	218	222	O
-for	223	226	O
-creating	227	235	B-Task
-a	236	237	I-Task
-3D	238	240	I-Task
-model	241	246	I-Task
-of	247	249	I-Task
-the	250	253	I-Task
-target	254	260	I-Task
-vessel	261	267	I-Task
-segment	268	275	I-Task
-.	275	276	O
-
-These	277	282	O
-data	283	287	O
-were	288	292	O
-converted	293	302	O
-to	303	305	O
-standard	306	314	B-Process
-triangulation	315	328	I-Process
-language	329	337	I-Process
-(	338	339	O
-STL	339	342	B-Process
-)	342	343	O
-surface	344	351	O
-data	352	356	O
-as	357	359	O
-an	360	362	O
-aggregation	363	374	O
-of	375	377	O
-fine	378	382	O
-triangular	383	393	B-Material
-meshes	394	400	I-Material
-using	401	406	O
-3D	407	409	B-Material
-visualization	410	423	I-Material
-and	424	427	I-Material
-measurement	428	439	I-Material
-software	440	448	I-Material
-(	449	450	O
-Amira	450	455	B-Material
-version	456	463	I-Material
-X	464	465	I-Material
-,	465	466	O
-FEI	467	470	O
-,	470	471	O
-Burlington	472	482	O
-,	482	483	O
-MA	484	486	O
-,	486	487	O
-USA	488	491	O
-)	491	492	O
-.	492	493	O
-
-An	494	496	O
-unstructured	497	509	O
-computational	510	523	B-Material
-volumetric	524	534	I-Material
-mesh	535	539	I-Material
-was	540	543	O
-constructed	544	555	O
-from	556	560	O
-the	561	564	O
-triangulated	565	577	B-Material
-surface	578	585	I-Material
-.	585	586	O
-
-Smoothing	587	596	B-Process
-and	597	600	O
-remeshing	601	610	B-Process
-followed	611	619	O
-as	620	622	O
-next	623	627	O
-steps	628	633	O
-.	633	634	O
-
-The	635	638	O
-STL	639	642	B-Material
-file	643	647	I-Material
-was	648	651	O
-then	652	656	O
-transferred	657	668	O
-to	669	671	O
-a	672	673	O
-3D	674	676	B-Material
-printer	677	684	I-Material
-(	685	686	O
-OBJET30	686	693	B-Material
-Pro	694	697	I-Material
-;	697	698	O
-Stratasys	699	708	O
-Ltd.	709	713	O
-,	713	714	O
-Eden	715	719	O
-Prairie	720	727	O
-,	727	728	O
-MN	729	731	O
-,	731	732	O
-USA	733	736	O
-)	736	737	O
-.	737	738	O
-
-The	739	742	O
-resolution	743	753	O
-of	754	756	O
-the	757	760	O
-build	761	766	O
-layer	767	772	O
-was	773	776	O
-0.028	777	782	O
-mm	782	784	O
-,	784	785	O
-and	786	789	O
-the	790	793	O
-3D	794	796	O
-printed	797	804	O
-vessel	805	811	O
-model	812	817	O
-was	818	821	O
-produced	822	830	O
-using	831	836	O
-acrylic	837	844	B-Material
-resin	845	850	I-Material
-(	851	852	O
-Vero	852	856	B-Material
-)	856	857	O
-.	857	858	O
-
-Following	859	868	O
-immersion	869	878	B-Process
-in	879	881	I-Process
-water	882	887	I-Process
-for	888	891	O
-a	892	893	O
-few	894	897	O
-hours	898	903	O
-,	903	904	O
-the	905	908	O
-surface	909	916	O
-of	917	919	O
-the	920	923	O
-3D	924	926	B-Material
-printed	927	934	I-Material
-model	935	940	I-Material
-was	941	944	O
-smoothed	945	953	B-Process
-by	954	956	O
-manually	957	965	O
-removing	966	974	B-Process
-spicule	975	982	I-Process
-.	982	983	I-Process
+Three	0,5	O	B-Process
+-	5,6	O	I-Process
+dimensional	6,17	O	I-Process
+digital	18,25	O	I-Process
+subtraction	26,37	O	I-Process
+angiographic	38,50	O	I-Process
+(	51,52	O	O
+3D	52,54	O	B-Process
+-	54,55	O	I-Process
+DSA	55,58	O	I-Process
+)	58,59	O	O
+images	60,66	O	O
+from	67,71	O	O
+diagnostic	72,82	O	O
+cerebral	83,91	O	B-Process
+angiography	92,103	O	I-Process
+were	104,108	O	O
+obtained	109,117	O	O
+at	118,120	O	O
+least	121,126	O	O
+one	127,130	O	O
+day	131,134	O	O
+prior	135,140	O	O
+to	141,143	O	O
+embolization	144,156	O	B-Process
+in	157,159	O	O
+all	160,163	O	O
+patients	164,172	O	O
+.	172,173	O	O
+
+The	174,177	O	O
+raw	178,181	O	O
+data	182,186	O	O
+of	187,189	O	O
+3D	190,192	O	B-Process
+-	192,193	O	I-Process
+DSA	193,196	O	I-Process
+in	197,199	O	O
+a	200,201	O	O
+DICOM	202,207	O	B-Material
+file	208,212	O	I-Material
+were	213,217	O	O
+used	218,222	O	O
+for	223,226	O	O
+creating	227,235	O	B-Task
+a	236,237	O	I-Task
+3D	238,240	O	I-Task
+model	241,246	O	I-Task
+of	247,249	O	I-Task
+the	250,253	O	I-Task
+target	254,260	O	I-Task
+vessel	261,267	O	I-Task
+segment	268,275	O	I-Task
+.	275,276	O	O
+
+These	277,282	O	O
+data	283,287	O	O
+were	288,292	O	O
+converted	293,302	O	O
+to	303,305	O	O
+standard	306,314	O	B-Process
+triangulation	315,328	O	I-Process
+language	329,337	O	I-Process
+(	338,339	O	O
+STL	339,342	O	B-Process
+)	342,343	O	O
+surface	344,351	O	O
+data	352,356	O	O
+as	357,359	O	O
+an	360,362	O	O
+aggregation	363,374	O	O
+of	375,377	O	O
+fine	378,382	O	O
+triangular	383,393	O	B-Material
+meshes	394,400	O	I-Material
+using	401,406	O	O
+3D	407,409	O	B-Material
+visualization	410,423	O	I-Material
+and	424,427	O	I-Material
+measurement	428,439	O	I-Material
+software	440,448	O	I-Material
+(	449,450	O	O
+Amira	450,455	O	B-Material
+version	456,463	O	I-Material
+X	464,465	O	I-Material
+,	465,466	O	O
+FEI	467,470	O	O
+,	470,471	O	O
+Burlington	472,482	O	O
+,	482,483	O	O
+MA	484,486	O	O
+,	486,487	O	O
+USA	488,491	O	O
+)	491,492	O	O
+.	492,493	O	O
+
+An	494,496	O	O
+unstructured	497,509	O	O
+computational	510,523	O	B-Material
+volumetric	524,534	O	I-Material
+mesh	535,539	O	I-Material
+was	540,543	O	O
+constructed	544,555	O	O
+from	556,560	O	O
+the	561,564	O	O
+triangulated	565,577	O	B-Material
+surface	578,585	O	I-Material
+.	585,586	O	O
+
+Smoothing	587,596	O	B-Process
+and	597,600	O	O
+remeshing	601,610	O	B-Process
+followed	611,619	O	O
+as	620,622	O	O
+next	623,627	O	O
+steps	628,633	O	O
+.	633,634	O	O
+
+The	635,638	O	O
+STL	639,642	O	B-Material
+file	643,647	O	I-Material
+was	648,651	O	O
+then	652,656	O	O
+transferred	657,668	O	O
+to	669,671	O	O
+a	672,673	O	O
+3D	674,676	O	B-Material
+printer	677,684	O	I-Material
+(	685,686	O	O
+OBJET30	686,693	O	B-Material
+Pro	694,697	O	I-Material
+;	697,698	O	O
+Stratasys	699,708	O	O
+Ltd.	709,713	O	O
+,	713,714	O	O
+Eden	715,719	O	O
+Prairie	720,727	O	O
+,	727,728	O	O
+MN	729,731	O	O
+,	731,732	O	O
+USA	733,736	O	O
+)	736,737	O	O
+.	737,738	O	O
+
+The	739,742	O	O
+resolution	743,753	O	O
+of	754,756	O	O
+the	757,760	O	O
+build	761,766	O	O
+layer	767,772	O	O
+was	773,776	O	O
+0.028	777,782	O	O
+mm	782,784	O	O
+,	784,785	O	O
+and	786,789	O	O
+the	790,793	O	O
+3D	794,796	O	O
+printed	797,804	O	O
+vessel	805,811	O	O
+model	812,817	O	O
+was	818,821	O	O
+produced	822,830	O	O
+using	831,836	O	O
+acrylic	837,844	O	B-Material
+resin	845,850	O	I-Material
+(	851,852	O	O
+Vero	852,856	O	B-Material
+)	856,857	O	O
+.	857,858	O	O
+
+Following	859,868	O	O
+immersion	869,878	O	B-Process
+in	879,881	O	I-Process
+water	882,887	O	I-Process
+for	888,891	O	O
+a	892,893	O	O
+few	894,897	O	O
+hours	898,903	O	O
+,	903,904	O	O
+the	905,908	O	O
+surface	909,916	O	O
+of	917,919	O	O
+the	920,923	O	O
+3D	924,926	O	B-Material
+printed	927,934	O	I-Material
+model	935,940	O	I-Material
+was	941,944	O	O
+smoothed	945,953	O	B-Process
+by	954,956	O	O
+manually	957,965	O	O
+removing	966,974	O	B-Process
+spicule	975,982	O	I-Process
+.	982,983	O	I-Process
 
 
 -DOCSTART- (S0010938X15301268)
 
-Fig	0	3	O
-.	3	4	O
-
-9	5	6	O
-displays	7	15	O
-the	16	19	O
-growth	20	26	O
-of	27	29	O
-two	30	33	O
-of	34	36	O
-the	37	40	O
-main	41	45	O
-corrosion	46	55	B-Material
-products	56	64	I-Material
-that	65	69	O
-develop	70	77	O
-or	78	80	O
-form	81	85	O
-on	86	88	O
-the	89	92	O
-surface	93	100	O
-of	101	103	O
-Cu40Zn	104	110	B-Material
-with	111	115	O
-time	116	120	O
-,	120	121	O
-hydrozincite	122	134	B-Material
-(	135	136	O
-Fig	136	139	O
-.	139	140	O
-
-9a	141	143	O
-)	143	144	O
-and	145	148	O
-Cu2O	149	153	B-Material
-(	154	155	O
-Fig	155	158	O
-.	158	159	O
-
-9b	160	162	O
-)	162	163	O
-.	163	164	O
-
-It	165	167	O
-should	168	174	O
-be	175	177	O
-remembered	178	188	O
-that	189	193	O
-both	194	198	O
-phases	199	205	O
-were	206	210	O
-present	211	218	O
-already	219	226	O
-from	227	231	O
-start	232	237	O
-of	238	240	O
-the	241	244	O
-exposure	245	253	O
-.	253	254	O
-
-The	255	258	O
-data	259	263	O
-is	264	266	O
-presented	267	276	O
-in	277	279	O
-absorbance	280	290	B-Process
-units	291	296	I-Process
-and	297	300	O
-allows	301	307	O
-comparisons	308	319	B-Task
-to	320	322	I-Task
-be	323	325	I-Task
-made	326	330	I-Task
-of	331	333	I-Task
-the	334	337	I-Task
-amounts	338	345	I-Task
-of	346	348	I-Task
-each	349	353	I-Task
-species	354	361	I-Task
-between	362	369	I-Task
-the	370	373	I-Task
-two	374	377	I-Task
-Cu40Zn	378	384	I-Task
-surfaces	385	393	I-Task
-investigated	394	406	I-Task
-,	406	407	O
-DP	408	410	B-Material
-and	411	414	O
-HZ7	415	418	B-Material
-.	418	419	O
-
-The	420	423	O
-tendency	424	432	O
-is	433	435	O
-very	436	440	O
-clear	441	446	O
-that	447	451	O
-the	452	455	O
-formation	456	465	B-Process
-rates	466	471	I-Process
-of	472	474	O
-both	475	479	O
-hydrozincite	480	492	B-Material
-and	493	496	O
-cuprite	497	504	B-Material
-are	505	508	O
-quite	509	514	O
-suppressed	515	525	O
-for	526	529	O
-Cu40Zn	530	536	B-Material
-with	537	541	O
-preformed	542	551	O
-hydrozincite	552	564	B-Material
-(	565	566	O
-HZ7	566	569	B-Material
-)	569	570	O
-compared	571	579	O
-to	580	582	O
-the	583	586	O
-diamond	587	594	B-Material
-polished	595	603	I-Material
-surface	604	611	I-Material
-(	612	613	O
-DP	613	615	B-Material
-)	615	616	O
-.	616	617	O
-
-In	618	620	O
-summary	621	628	O
-,	628	629	O
-without	630	637	O
-being	638	643	O
-able	644	648	O
-to	649	651	O
-consider	652	660	O
-the	661	664	O
-formation	665	674	B-Process
-of	675	677	I-Process
-simonkolleite	678	691	I-Process
-,	691	692	O
-it	693	695	O
-can	696	699	O
-be	700	702	O
-concluded	703	712	O
-that	713	717	O
-an	718	720	O
-increased	721	730	O
-surface	731	738	O
-coverage	739	747	O
-of	748	750	O
-hydrozincite	751	763	B-Material
-reduces	764	771	O
-the	772	775	O
-initial	776	783	B-Process
-spreading	784	793	I-Process
-ability	794	801	O
-of	802	804	O
-the	805	808	O
-NaCl	809	813	B-Material
--	813	814	I-Material
-containing	814	824	I-Material
-droplets	825	833	I-Material
-and	834	837	O
-thereby	838	845	O
-lowers	846	852	O
-the	853	856	O
-overall	857	864	O
-formation	865	874	B-Process
-rate	875	879	I-Process
-of	880	882	O
-hydrozincite	883	895	B-Material
-and	896	899	O
-cuprite	900	907	B-Material
-.	907	908	O
+Fig	0,3	O	O
+.	3,4	O	O
+
+9	5,6	O	O
+displays	7,15	O	O
+the	16,19	O	O
+growth	20,26	O	O
+of	27,29	O	O
+two	30,33	O	O
+of	34,36	O	O
+the	37,40	O	O
+main	41,45	O	O
+corrosion	46,55	O	B-Material
+products	56,64	O	I-Material
+that	65,69	O	O
+develop	70,77	O	O
+or	78,80	O	O
+form	81,85	O	O
+on	86,88	O	O
+the	89,92	O	O
+surface	93,100	O	O
+of	101,103	O	O
+Cu40Zn	104,110	O	B-Material
+with	111,115	O	O
+time	116,120	O	O
+,	120,121	O	O
+hydrozincite	122,134	O	B-Material
+(	135,136	O	O
+Fig	136,139	O	O
+.	139,140	O	O
+
+9a	141,143	O	O
+)	143,144	O	O
+and	145,148	O	O
+Cu2O	149,153	O	B-Material
+(	154,155	O	O
+Fig	155,158	O	O
+.	158,159	O	O
+
+9b	160,162	O	O
+)	162,163	O	O
+.	163,164	O	O
+
+It	165,167	O	O
+should	168,174	O	O
+be	175,177	O	O
+remembered	178,188	O	O
+that	189,193	O	O
+both	194,198	O	O
+phases	199,205	O	O
+were	206,210	O	O
+present	211,218	O	O
+already	219,226	O	O
+from	227,231	O	O
+start	232,237	O	O
+of	238,240	O	O
+the	241,244	O	O
+exposure	245,253	O	O
+.	253,254	O	O
+
+The	255,258	O	O
+data	259,263	O	O
+is	264,266	O	O
+presented	267,276	O	O
+in	277,279	O	O
+absorbance	280,290	O	B-Process
+units	291,296	O	I-Process
+and	297,300	O	O
+allows	301,307	O	O
+comparisons	308,319	O	B-Task
+to	320,322	O	I-Task
+be	323,325	O	I-Task
+made	326,330	O	I-Task
+of	331,333	O	I-Task
+the	334,337	O	I-Task
+amounts	338,345	O	I-Task
+of	346,348	O	I-Task
+each	349,353	O	I-Task
+species	354,361	O	I-Task
+between	362,369	O	I-Task
+the	370,373	O	I-Task
+two	374,377	O	I-Task
+Cu40Zn	378,384	O	I-Task
+surfaces	385,393	O	I-Task
+investigated	394,406	O	I-Task
+,	406,407	O	O
+DP	408,410	O	B-Material
+and	411,414	O	O
+HZ7	415,418	O	B-Material
+.	418,419	O	O
+
+The	420,423	O	O
+tendency	424,432	O	O
+is	433,435	O	O
+very	436,440	O	O
+clear	441,446	O	O
+that	447,451	O	O
+the	452,455	O	O
+formation	456,465	O	B-Process
+rates	466,471	O	I-Process
+of	472,474	O	O
+both	475,479	O	O
+hydrozincite	480,492	O	B-Material
+and	493,496	O	O
+cuprite	497,504	O	B-Material
+are	505,508	O	O
+quite	509,514	O	O
+suppressed	515,525	O	O
+for	526,529	O	O
+Cu40Zn	530,536	O	B-Material
+with	537,541	O	O
+preformed	542,551	O	O
+hydrozincite	552,564	O	B-Material
+(	565,566	O	O
+HZ7	566,569	O	B-Material
+)	569,570	O	O
+compared	571,579	O	O
+to	580,582	O	O
+the	583,586	O	O
+diamond	587,594	O	B-Material
+polished	595,603	O	I-Material
+surface	604,611	O	I-Material
+(	612,613	O	O
+DP	613,615	O	B-Material
+)	615,616	O	O
+.	616,617	O	O
+
+In	618,620	O	O
+summary	621,628	O	O
+,	628,629	O	O
+without	630,637	O	O
+being	638,643	O	O
+able	644,648	O	O
+to	649,651	O	O
+consider	652,660	O	O
+the	661,664	O	O
+formation	665,674	O	B-Process
+of	675,677	O	I-Process
+simonkolleite	678,691	O	I-Process
+,	691,692	O	O
+it	693,695	O	O
+can	696,699	O	O
+be	700,702	O	O
+concluded	703,712	O	O
+that	713,717	O	O
+an	718,720	O	O
+increased	721,730	O	O
+surface	731,738	O	O
+coverage	739,747	O	O
+of	748,750	O	O
+hydrozincite	751,763	O	B-Material
+reduces	764,771	O	O
+the	772,775	O	O
+initial	776,783	O	B-Process
+spreading	784,793	O	I-Process
+ability	794,801	O	O
+of	802,804	O	O
+the	805,808	O	O
+NaCl	809,813	O	B-Material
+-	813,814	O	I-Material
+containing	814,824	O	I-Material
+droplets	825,833	O	I-Material
+and	834,837	O	O
+thereby	838,845	O	O
+lowers	846,852	O	O
+the	853,856	O	O
+overall	857,864	O	O
+formation	865,874	O	B-Process
+rate	875,879	O	I-Process
+of	880,882	O	O
+hydrozincite	883,895	O	B-Material
+and	896,899	O	O
+cuprite	900,907	O	B-Material
+.	907,908	O	O
 
 
 -DOCSTART- (S0010938X15301554)
 
-AA	0	2	B-Material
-2024-T3	3	10	I-Material
-aluminium	11	20	I-Material
-alloy	21	26	I-Material
-is	27	29	O
-widely	30	36	O
-used	37	41	O
-for	42	45	O
-aerospace	46	55	B-Task
-applications	56	68	I-Task
-due	69	72	O
-to	73	75	O
-its	76	79	O
-high	80	84	O
-strength	85	93	O
-to	94	96	O
-weight	97	103	O
-ratio	104	109	O
-and	110	113	O
-high	114	118	O
-damage	119	125	O
-tolerance	126	135	O
-that	136	140	O
-result	141	147	O
-from	148	152	O
-copper	153	159	B-Material
-and	160	163	O
-magnesium	164	173	B-Material
-as	174	176	O
-the	177	180	O
-principal	181	190	O
-alloying	191	199	B-Material
-elements	200	208	I-Material
-and	209	212	O
-appropriate	213	224	O
-thermomechanical	225	241	B-Process
-processing	242	252	I-Process
-.	252	253	O
-
-The	254	257	O
-microstructure	258	272	O
-of	273	275	O
-the	276	279	O
-alloy	280	285	B-Material
-is	286	288	O
-relatively	289	299	O
-complex	300	307	O
-and	308	311	O
-a	312	313	O
-number	314	320	O
-of	321	323	O
-compositionally	324	339	B-Process
--	339	340	I-Process
-distinct	340	348	I-Process
-phases	349	355	I-Process
-have	356	360	O
-been	361	365	O
-identified	366	376	O
-[	377	378	O
-1	378	379	O
-]	379	380	O
-.	380	381	O
-
-Although	382	390	O
-possessing	391	401	O
-favourable	402	412	O
-mechanical	413	423	O
-properties	424	434	O
-,	434	435	O
-the	436	439	O
-alloy	440	445	B-Material
-is	446	448	O
-relatively	449	459	O
-susceptible	460	471	O
-to	472	474	O
-corrosion	475	484	B-Process
-and	485	488	O
-generally	489	498	O
-requires	499	507	O
-surface	508	515	B-Process
-treatment	516	525	I-Process
-in	526	528	O
-practical	529	538	O
-applications	539	551	O
-.	551	552	O
-
-The	553	556	O
-corrosion	557	566	B-Process
-behaviour	567	576	O
-of	577	579	O
-the	580	583	O
-alloy	584	589	B-Material
-is	590	592	O
-particularly	593	605	O
-affected	606	614	O
-by	615	617	O
-the	618	621	O
-presence	622	630	O
-of	631	633	O
-the	634	637	O
-intermetallic	638	651	B-Material
-particles	652	661	I-Material
-due	662	665	O
-to	666	668	O
-their	669	674	O
-differing	675	684	O
-potentials	685	695	O
-with	696	700	O
-respect	701	708	O
-to	709	711	O
-the	712	715	O
-alloy	716	721	B-Material
-matrix	722	728	I-Material
-[	729	730	O
-2–9	730	733	O
-]	733	734	O
-.	734	735	O
-
-Copper	736	742	B-Material
--	742	743	I-Material
-containing	743	753	I-Material
-second	754	760	I-Material
-phase	761	766	I-Material
-particles	767	776	I-Material
-at	777	779	O
-the	780	783	O
-alloy	784	789	B-Material
-surface	790	797	O
-are	798	801	O
-particularly	802	814	O
-detrimental	815	826	O
-to	827	829	O
-the	830	833	O
-corrosion	834	843	B-Process
-resistance	844	854	I-Process
-as	855	857	O
-they	858	862	O
-provide	863	870	O
-preferential	871	883	O
-cathodic	884	892	O
-sites	893	898	O
-[	899	900	O
-2,10	900	904	O
-]	904	905	O
-.	905	906	O
-
-One	907	910	O
-of	911	913	O
-the	914	917	O
-principle	918	927	O
-types	928	933	O
-of	934	936	O
-second	937	943	B-Material
-phase	944	949	I-Material
-particle	950	958	I-Material
-that	959	963	O
-is	964	966	O
-important	967	976	O
-to	977	979	O
-the	980	983	O
-corrosion	984	993	B-Process
-behaviour	994	1003	I-Process
-of	1004	1006	O
-the	1007	1010	O
-alloy	1011	1016	O
-is	1017	1019	O
-the	1020	1023	O
-S	1024	1025	B-Material
-phase	1026	1031	I-Material
-(	1032	1033	O
-Al2CuMg	1033	1040	B-Material
-)	1040	1041	O
-particle	1042	1050	O
-[	1051	1052	O
-1,11	1052	1056	O
-]	1056	1057	O
-.	1057	1058	O
-
-Dealloying	1059	1069	O
-of	1070	1072	O
-S	1073	1074	B-Material
-phase	1075	1080	I-Material
-particles	1081	1090	I-Material
-,	1090	1091	O
-which	1092	1097	O
-may	1098	1101	O
-account	1102	1109	O
-for	1110	1113	O
-∼60	1114	1117	O
-%	1117	1118	O
-of	1119	1121	O
-the	1122	1125	O
-constituent	1126	1137	B-Material
-particles	1138	1147	I-Material
-in	1148	1150	O
-
-AA2024	1151	1157	B-Material
-alloys	1158	1164	I-Material
-[	1165	1166	O
-11	1166	1168	O
-]	1168	1169	O
-,	1169	1170	O
-is	1171	1173	O
-commonly	1174	1182	O
-observed	1183	1191	O
-when	1192	1196	O
-the	1197	1200	O
-alloy	1201	1206	B-Material
-is	1207	1209	O
-exposed	1210	1217	O
-to	1218	1220	O
-an	1221	1223	O
-aggressive	1224	1234	O
-environment	1235	1246	O
-.	1246	1247	O
-
-The	1248	1251	O
-particles	1252	1261	B-Material
-are	1262	1265	O
-considered	1266	1276	O
-as	1277	1279	O
-important	1280	1289	O
-initiation	1290	1300	O
-sites	1301	1306	O
-for	1307	1310	O
-severe	1311	1317	O
-localized	1318	1327	O
-corrosion	1328	1337	B-Process
-in	1338	1340	O
-the	1341	1344	O
-alloy	1345	1350	B-Material
-[	1351	1352	O
-11–22	1352	1357	O
-]	1357	1358	O
-.	1358	1359	O
-
-The	1360	1363	O
-dealloying	1364	1374	B-Process
-of	1375	1377	O
-the	1378	1381	O
-S	1382	1383	B-Material
-phase	1384	1389	I-Material
-particles	1390	1399	I-Material
-and	1400	1403	O
-the	1404	1407	O
-resulting	1408	1417	O
-enrichment	1418	1428	B-Process
-of	1429	1431	O
-copper	1432	1438	B-Material
-result	1439	1445	O
-in	1446	1448	O
-a	1449	1450	O
-decrease	1451	1459	B-Process
-of	1460	1462	I-Process
-the	1463	1466	I-Process
-Volta	1467	1472	I-Process
-potential	1473	1482	I-Process
-with	1483	1487	O
-respect	1488	1495	O
-to	1496	1498	O
-the	1499	1502	O
-matrix	1503	1509	O
-and	1510	1513	O
-hence	1514	1519	O
-the	1520	1523	O
-dealloyed	1524	1533	B-Material
-particles	1534	1543	I-Material
-become	1544	1550	O
-active	1551	1557	O
-cathodic	1558	1566	B-Material
-sites	1567	1572	I-Material
-[	1573	1574	O
-23–25	1574	1579	O
-]	1579	1580	O
-.	1580	1581	O
+AA	0,2	O	B-Material
+2024-T3	3,10	O	I-Material
+aluminium	11,20	O	I-Material
+alloy	21,26	O	I-Material
+is	27,29	O	O
+widely	30,36	O	O
+used	37,41	O	O
+for	42,45	O	O
+aerospace	46,55	O	B-Task
+applications	56,68	O	I-Task
+due	69,72	O	O
+to	73,75	O	O
+its	76,79	O	O
+high	80,84	O	O
+strength	85,93	O	O
+to	94,96	O	O
+weight	97,103	O	O
+ratio	104,109	O	O
+and	110,113	O	O
+high	114,118	O	O
+damage	119,125	O	O
+tolerance	126,135	O	O
+that	136,140	O	O
+result	141,147	O	O
+from	148,152	O	O
+copper	153,159	O	B-Material
+and	160,163	O	O
+magnesium	164,173	O	B-Material
+as	174,176	O	O
+the	177,180	O	O
+principal	181,190	O	O
+alloying	191,199	O	B-Material
+elements	200,208	O	I-Material
+and	209,212	O	O
+appropriate	213,224	O	O
+thermomechanical	225,241	O	B-Process
+processing	242,252	O	I-Process
+.	252,253	O	O
+
+The	254,257	O	O
+microstructure	258,272	O	O
+of	273,275	O	O
+the	276,279	O	O
+alloy	280,285	O	B-Material
+is	286,288	O	O
+relatively	289,299	O	O
+complex	300,307	O	O
+and	308,311	O	O
+a	312,313	O	O
+number	314,320	O	O
+of	321,323	O	O
+compositionally	324,339	O	B-Process
+-	339,340	O	I-Process
+distinct	340,348	O	I-Process
+phases	349,355	O	I-Process
+have	356,360	O	O
+been	361,365	O	O
+identified	366,376	O	O
+[	377,378	O	O
+1	378,379	O	O
+]	379,380	O	O
+.	380,381	O	O
+
+Although	382,390	O	O
+possessing	391,401	O	O
+favourable	402,412	O	O
+mechanical	413,423	O	O
+properties	424,434	O	O
+,	434,435	O	O
+the	436,439	O	O
+alloy	440,445	O	B-Material
+is	446,448	O	O
+relatively	449,459	O	O
+susceptible	460,471	O	O
+to	472,474	O	O
+corrosion	475,484	O	B-Process
+and	485,488	O	O
+generally	489,498	O	O
+requires	499,507	O	O
+surface	508,515	O	B-Process
+treatment	516,525	O	I-Process
+in	526,528	O	O
+practical	529,538	O	O
+applications	539,551	O	O
+.	551,552	O	O
+
+The	553,556	O	O
+corrosion	557,566	O	B-Process
+behaviour	567,576	O	O
+of	577,579	O	O
+the	580,583	O	O
+alloy	584,589	O	B-Material
+is	590,592	O	O
+particularly	593,605	O	O
+affected	606,614	O	O
+by	615,617	O	O
+the	618,621	O	O
+presence	622,630	O	O
+of	631,633	O	O
+the	634,637	O	O
+intermetallic	638,651	O	B-Material
+particles	652,661	O	I-Material
+due	662,665	O	O
+to	666,668	O	O
+their	669,674	O	O
+differing	675,684	O	O
+potentials	685,695	O	O
+with	696,700	O	O
+respect	701,708	O	O
+to	709,711	O	O
+the	712,715	O	O
+alloy	716,721	O	B-Material
+matrix	722,728	O	I-Material
+[	729,730	O	O
+2–9	730,733	O	O
+]	733,734	O	O
+.	734,735	O	O
+
+Copper	736,742	O	B-Material
+-	742,743	O	I-Material
+containing	743,753	O	I-Material
+second	754,760	O	I-Material
+phase	761,766	O	I-Material
+particles	767,776	O	I-Material
+at	777,779	O	O
+the	780,783	O	O
+alloy	784,789	O	B-Material
+surface	790,797	O	O
+are	798,801	O	O
+particularly	802,814	O	O
+detrimental	815,826	O	O
+to	827,829	O	O
+the	830,833	O	O
+corrosion	834,843	O	B-Process
+resistance	844,854	O	I-Process
+as	855,857	O	O
+they	858,862	O	O
+provide	863,870	O	O
+preferential	871,883	O	O
+cathodic	884,892	O	O
+sites	893,898	O	O
+[	899,900	O	O
+2,10	900,904	O	O
+]	904,905	O	O
+.	905,906	O	O
+
+One	907,910	O	O
+of	911,913	O	O
+the	914,917	O	O
+principle	918,927	O	O
+types	928,933	O	O
+of	934,936	O	O
+second	937,943	O	B-Material
+phase	944,949	O	I-Material
+particle	950,958	O	I-Material
+that	959,963	O	O
+is	964,966	O	O
+important	967,976	O	O
+to	977,979	O	O
+the	980,983	O	O
+corrosion	984,993	O	B-Process
+behaviour	994,1003	O	I-Process
+of	1004,1006	O	O
+the	1007,1010	O	O
+alloy	1011,1016	O	O
+is	1017,1019	O	O
+the	1020,1023	O	O
+S	1024,1025	O	B-Material
+phase	1026,1031	O	I-Material
+(	1032,1033	O	O
+Al2CuMg	1033,1040	O	B-Material
+)	1040,1041	O	O
+particle	1042,1050	O	O
+[	1051,1052	O	O
+1,11	1052,1056	O	O
+]	1056,1057	O	O
+.	1057,1058	O	O
+
+Dealloying	1059,1069	O	O
+of	1070,1072	O	O
+S	1073,1074	O	B-Material
+phase	1075,1080	O	I-Material
+particles	1081,1090	O	I-Material
+,	1090,1091	O	O
+which	1092,1097	O	O
+may	1098,1101	O	O
+account	1102,1109	O	O
+for	1110,1113	O	O
+∼60	1114,1117	O	O
+%	1117,1118	O	O
+of	1119,1121	O	O
+the	1122,1125	O	O
+constituent	1126,1137	O	B-Material
+particles	1138,1147	O	I-Material
+in	1148,1150	O	O
+
+AA2024	1151,1157	O	B-Material
+alloys	1158,1164	O	I-Material
+[	1165,1166	O	O
+11	1166,1168	O	O
+]	1168,1169	O	O
+,	1169,1170	O	O
+is	1171,1173	O	O
+commonly	1174,1182	O	O
+observed	1183,1191	O	O
+when	1192,1196	O	O
+the	1197,1200	O	O
+alloy	1201,1206	O	B-Material
+is	1207,1209	O	O
+exposed	1210,1217	O	O
+to	1218,1220	O	O
+an	1221,1223	O	O
+aggressive	1224,1234	O	O
+environment	1235,1246	O	O
+.	1246,1247	O	O
+
+The	1248,1251	O	O
+particles	1252,1261	O	B-Material
+are	1262,1265	O	O
+considered	1266,1276	O	O
+as	1277,1279	O	O
+important	1280,1289	O	O
+initiation	1290,1300	O	O
+sites	1301,1306	O	O
+for	1307,1310	O	O
+severe	1311,1317	O	O
+localized	1318,1327	O	O
+corrosion	1328,1337	O	B-Process
+in	1338,1340	O	O
+the	1341,1344	O	O
+alloy	1345,1350	O	B-Material
+[	1351,1352	O	O
+11–22	1352,1357	O	O
+]	1357,1358	O	O
+.	1358,1359	O	O
+
+The	1360,1363	O	O
+dealloying	1364,1374	O	B-Process
+of	1375,1377	O	O
+the	1378,1381	O	O
+S	1382,1383	O	B-Material
+phase	1384,1389	O	I-Material
+particles	1390,1399	O	I-Material
+and	1400,1403	O	O
+the	1404,1407	O	O
+resulting	1408,1417	O	O
+enrichment	1418,1428	O	B-Process
+of	1429,1431	O	O
+copper	1432,1438	O	B-Material
+result	1439,1445	O	O
+in	1446,1448	O	O
+a	1449,1450	O	O
+decrease	1451,1459	O	B-Process
+of	1460,1462	O	I-Process
+the	1463,1466	O	I-Process
+Volta	1467,1472	O	I-Process
+potential	1473,1482	O	I-Process
+with	1483,1487	O	O
+respect	1488,1495	O	O
+to	1496,1498	O	O
+the	1499,1502	O	O
+matrix	1503,1509	O	O
+and	1510,1513	O	O
+hence	1514,1519	O	O
+the	1520,1523	O	O
+dealloyed	1524,1533	O	B-Material
+particles	1534,1543	O	I-Material
+become	1544,1550	O	O
+active	1551,1557	O	O
+cathodic	1558,1566	O	B-Material
+sites	1567,1572	O	I-Material
+[	1573,1574	O	O
+23–25	1574,1579	O	O
+]	1579,1580	O	O
+.	1580,1581	O	O
 
 
 -DOCSTART- (S0011227514002136)
 
-Measuring	0	9	B-Task
-and	10	13	I-Task
-analysing	14	23	I-Task
-the	24	27	I-Task
-hold	28	32	I-Task
-time	33	37	I-Task
-of	38	40	I-Task
-the	41	44	I-Task
-CPA	45	48	I-Task
-pill	49	53	I-Task
-allows	54	60	O
-the	61	64	O
-thermal	65	72	B-Process
-boundary	73	81	I-Process
-resistance	82	92	I-Process
-within	93	99	O
-the	100	103	O
-pill	104	108	B-Material
-to	109	111	O
-be	112	114	O
-assessed	115	123	O
-;	123	124	O
-the	125	128	O
-thermal	129	136	B-Process
-boundary	137	145	I-Process
-dictates	146	154	O
-the	155	158	O
-actual	159	165	O
-temperature	166	177	B-Process
-of	178	180	O
-the	181	184	O
-CPA	185	188	B-Material
-crystals	189	197	I-Material
-in	198	200	O
-comparison	201	211	O
-to	212	214	O
-the	215	218	O
-temperature	219	230	O
-of	231	233	O
-the	234	237	O
-cold	238	242	B-Material
-finger	243	249	I-Material
-,	249	250	O
-which	251	256	O
-is	257	259	O
-maintained	260	270	O
-at	271	273	O
-a	274	275	O
-constant	276	284	O
-temperature	285	296	O
-by	297	299	O
-a	300	301	O
-servo	302	307	B-Process
-control	308	315	I-Process
-program	316	323	I-Process
-.	323	324	O
-
-Fig	325	328	O
-.	328	329	O
-
-17	330	332	O
-shows	333	338	O
-the	339	342	O
-temperature	343	354	O
-profile	355	362	O
-during	363	369	O
-the	370	373	O
-recycling	374	383	B-Process
-of	384	386	O
-the	387	390	O
-CPA	391	394	B-Material
-pill	395	399	I-Material
-and	400	403	O
-subsequent	404	414	O
-operation	415	424	B-Process
-at	425	427	I-Process
-200mK.	428	434	I-Process
-
-During	435	441	O
-the	442	445	O
-hold	446	450	O
-time	451	455	O
-,	455	456	O
-the	457	460	O
-servo	461	466	B-Process
-control	467	474	I-Process
-program	475	482	I-Process
-maintained	483	493	O
-the	494	497	O
-CPA	498	501	B-Material
-pill	502	506	I-Material
-temperature	507	518	O
-to	519	521	O
-within	522	528	O
-a	529	530	O
-millikelvin	531	542	O
-.	542	543	O
-
-It	544	546	O
-is	547	549	O
-expected	550	558	O
-that	559	563	O
-microkelvin	564	575	B-Process
-stability	576	585	I-Process
-can	586	589	O
-be	590	592	O
-achieved	593	601	O
-with	602	606	O
-fast	607	611	B-Process
-read	612	616	I-Process
--	616	617	I-Process
-out	617	620	I-Process
-thermometry	621	632	I-Process
-(	633	634	O
-which	634	639	O
-was	640	643	O
-not	644	647	O
-available	648	657	O
-at	658	660	O
-the	661	664	O
-time	665	669	O
-of	670	672	O
-testing	673	680	O
-but	681	684	O
-which	685	690	O
-will	691	695	O
-be	696	698	O
-used	699	703	O
-for	704	707	O
-the	708	711	O
-mKCC	712	716	B-Task
-)	716	717	O
-,	717	718	O
-as	719	721	O
-this	722	726	O
-would	727	732	O
-allow	733	738	O
-for	739	742	O
-temperature	743	754	O
-control	755	762	O
-on	763	765	O
-much	766	770	O
-faster	771	777	O
-(	778	779	O
-millisecond	779	790	O
-)	790	791	O
-timescales	792	802	O
-than	803	807	O
-the	808	811	O
-current	812	819	O
-(	820	821	O
-approximately	821	834	O
-1s	835	837	O
-)	837	838	O
-thermometry	839	850	O
-readout	851	858	O
-used	859	863	O
-.	863	864	O
+Measuring	0,9	O	B-Task
+and	10,13	O	I-Task
+analysing	14,23	O	I-Task
+the	24,27	O	I-Task
+hold	28,32	O	I-Task
+time	33,37	O	I-Task
+of	38,40	O	I-Task
+the	41,44	O	I-Task
+CPA	45,48	O	I-Task
+pill	49,53	O	I-Task
+allows	54,60	O	O
+the	61,64	O	O
+thermal	65,72	O	B-Process
+boundary	73,81	O	I-Process
+resistance	82,92	O	I-Process
+within	93,99	O	O
+the	100,103	O	O
+pill	104,108	O	B-Material
+to	109,111	O	O
+be	112,114	O	O
+assessed	115,123	O	O
+;	123,124	O	O
+the	125,128	O	O
+thermal	129,136	O	B-Process
+boundary	137,145	O	I-Process
+dictates	146,154	O	O
+the	155,158	O	O
+actual	159,165	O	O
+temperature	166,177	O	B-Process
+of	178,180	O	O
+the	181,184	O	O
+CPA	185,188	O	B-Material
+crystals	189,197	O	I-Material
+in	198,200	O	O
+comparison	201,211	O	O
+to	212,214	O	O
+the	215,218	O	O
+temperature	219,230	O	O
+of	231,233	O	O
+the	234,237	O	O
+cold	238,242	O	B-Material
+finger	243,249	O	I-Material
+,	249,250	O	O
+which	251,256	O	O
+is	257,259	O	O
+maintained	260,270	O	O
+at	271,273	O	O
+a	274,275	O	O
+constant	276,284	O	O
+temperature	285,296	O	O
+by	297,299	O	O
+a	300,301	O	O
+servo	302,307	O	B-Process
+control	308,315	O	I-Process
+program	316,323	O	I-Process
+.	323,324	O	O
+
+Fig	325,328	O	O
+.	328,329	O	O
+
+17	330,332	O	O
+shows	333,338	O	O
+the	339,342	O	O
+temperature	343,354	O	O
+profile	355,362	O	O
+during	363,369	O	O
+the	370,373	O	O
+recycling	374,383	O	B-Process
+of	384,386	O	O
+the	387,390	O	O
+CPA	391,394	O	B-Material
+pill	395,399	O	I-Material
+and	400,403	O	O
+subsequent	404,414	O	O
+operation	415,424	O	B-Process
+at	425,427	O	I-Process
+200mK.	428,434	O	I-Process
+
+During	435,441	O	O
+the	442,445	O	O
+hold	446,450	O	O
+time	451,455	O	O
+,	455,456	O	O
+the	457,460	O	O
+servo	461,466	O	B-Process
+control	467,474	O	I-Process
+program	475,482	O	I-Process
+maintained	483,493	O	O
+the	494,497	O	O
+CPA	498,501	O	B-Material
+pill	502,506	O	I-Material
+temperature	507,518	O	O
+to	519,521	O	O
+within	522,528	O	O
+a	529,530	O	O
+millikelvin	531,542	O	O
+.	542,543	O	O
+
+It	544,546	O	O
+is	547,549	O	O
+expected	550,558	O	O
+that	559,563	O	O
+microkelvin	564,575	O	B-Process
+stability	576,585	O	I-Process
+can	586,589	O	O
+be	590,592	O	O
+achieved	593,601	O	O
+with	602,606	O	O
+fast	607,611	O	B-Process
+read	612,616	O	I-Process
+-	616,617	O	I-Process
+out	617,620	O	I-Process
+thermometry	621,632	O	I-Process
+(	633,634	O	O
+which	634,639	O	O
+was	640,643	O	O
+not	644,647	O	O
+available	648,657	O	O
+at	658,660	O	O
+the	661,664	O	O
+time	665,669	O	O
+of	670,672	O	O
+testing	673,680	O	O
+but	681,684	O	O
+which	685,690	O	O
+will	691,695	O	O
+be	696,698	O	O
+used	699,703	O	O
+for	704,707	O	O
+the	708,711	O	O
+mKCC	712,716	O	B-Task
+)	716,717	O	O
+,	717,718	O	O
+as	719,721	O	O
+this	722,726	O	O
+would	727,732	O	O
+allow	733,738	O	O
+for	739,742	O	O
+temperature	743,754	O	O
+control	755,762	O	O
+on	763,765	O	O
+much	766,770	O	O
+faster	771,777	O	O
+(	778,779	O	O
+millisecond	779,790	O	O
+)	790,791	O	O
+timescales	792,802	O	O
+than	803,807	O	O
+the	808,811	O	O
+current	812,819	O	O
+(	820,821	O	O
+approximately	821,834	O	O
+1s	835,837	O	O
+)	837,838	O	O
+thermometry	839,850	O	O
+readout	851,858	O	O
+used	859,863	O	O
+.	863,864	O	O
 
 
 -DOCSTART- (S0011227515000648)
 
-The	0	3	O
-product	4	11	B-Process
-change	12	18	I-Process
-between	19	26	O
-batches	27	34	B-Material
-#	35	36	I-Material
-1/#2	36	40	I-Material
-and	41	44	O
-the	45	48	O
-others	49	55	O
-is	56	58	O
-the	59	62	O
-most	63	67	O
-influential	68	79	O
-on	80	82	O
-the	83	86	O
-test	87	91	O
-results	92	99	O
-.	99	100	O
-
-The	101	104	O
-redesign	105	113	O
-and	114	117	O
-upgrade	118	125	O
-to	126	128	O
-110-nm	129	135	B-Process
-process	136	143	I-Process
-technology	144	154	I-Process
-reduces	155	162	O
-the	163	166	O
-pass	167	171	O
-rate	172	176	O
-at	177	179	O
-LNT	180	183	B-Material
-by	184	186	O
-approximately	187	200	O
-half	201	205	O
-.	205	206	O
-
-This	207	211	O
-is	212	214	O
-mainly	215	221	O
-caused	222	228	O
-by	229	231	O
-the	232	235	O
-increased	236	245	O
-incidence	246	255	O
-of	256	258	O
-erase	259	264	B-Process
-and	265	268	I-Process
-program	269	276	I-Process
-timeouts	277	285	I-Process
-with	286	290	O
-some	291	295	O
-contribution	296	308	O
-from	309	313	O
-long	314	318	B-Process
-erase	319	324	I-Process
-and	325	328	O
-program	329	336	B-Process
-times	337	342	I-Process
-and	343	346	O
-bit	347	350	B-Process
-errors	351	357	I-Process
-.	357	358	O
-
-The	359	362	O
-difference	363	373	O
-in	374	376	O
-pass	377	381	B-Process
-rates	382	387	I-Process
-at	388	390	O
-88	391	393	O
-K	393	394	O
-between	395	402	O
-batches	403	410	B-Material
-#	411	412	I-Material
-3/#4	412	416	I-Material
-and	417	420	O
-#	421	422	B-Material
-5/#6	422	426	I-Material
-,	426	427	O
-which	428	433	O
-use	434	437	O
-the	438	441	O
-same	442	446	O
-process	447	454	B-Process
-technology	455	465	I-Process
-with	466	470	O
-the	471	474	O
-same	475	479	O
-dimensions	480	490	O
-,	490	491	O
-can	492	495	O
-be	496	498	O
-explained	499	508	O
-by	509	511	O
-the	512	515	O
-fabrication	516	527	O
-in	528	530	O
-different	531	540	O
-assembly	541	549	B-Process
-lines	550	555	I-Process
-,	555	556	O
-where	557	562	O
-other	563	568	O
-processes	569	578	O
-or	579	581	O
-base	582	586	O
-materials	587	596	O
-may	597	600	O
-have	601	605	O
-been	606	610	O
-changed	611	618	O
-.	618	619	O
-
-This	620	624	O
-means	625	630	O
-different	631	640	O
-tolerances	641	651	B-Process
-in	652	654	O
-base	655	659	O
-materials	660	669	O
-and	670	673	O
-production	674	684	O
-process	685	692	O
-,	692	693	O
-which	694	699	O
-are	700	703	O
-more	704	708	O
-pronounced	709	719	O
-the	720	723	O
-lower	724	729	O
-the	730	733	O
-temperature	734	745	O
-.	745	746	O
-
-Some	747	751	O
-of	752	754	O
-the	755	758	O
-differences	759	770	O
-of	771	773	O
-technology	774	784	O
-scale	785	790	O
-may	791	794	O
-reflect	795	802	O
-shifts	803	809	O
-in	810	812	O
-transistor	813	823	B-Process
-parameters	824	834	I-Process
-such	835	839	O
-as	840	842	O
-transconductance	843	859	B-Process
-/	859	860	I-Process
-gain	860	864	I-Process
-,	864	865	O
-threshold	866	875	B-Process
-voltage	876	883	I-Process
-,	883	884	O
-and	885	888	O
-threshold	889	898	B-Process
-slope	899	904	I-Process
-[	905	906	O
-7	906	907	O
-]	907	908	O
-.	908	909	O
+The	0,3	O	O
+product	4,11	O	B-Process
+change	12,18	O	I-Process
+between	19,26	O	O
+batches	27,34	O	B-Material
+#	35,36	O	I-Material
+1/#2	36,40	O	I-Material
+and	41,44	O	O
+the	45,48	O	O
+others	49,55	O	O
+is	56,58	O	O
+the	59,62	O	O
+most	63,67	O	O
+influential	68,79	O	O
+on	80,82	O	O
+the	83,86	O	O
+test	87,91	O	O
+results	92,99	O	O
+.	99,100	O	O
+
+The	101,104	O	O
+redesign	105,113	O	O
+and	114,117	O	O
+upgrade	118,125	O	O
+to	126,128	O	O
+110-nm	129,135	O	B-Process
+process	136,143	O	I-Process
+technology	144,154	O	I-Process
+reduces	155,162	O	O
+the	163,166	O	O
+pass	167,171	O	O
+rate	172,176	O	O
+at	177,179	O	O
+LNT	180,183	O	B-Material
+by	184,186	O	O
+approximately	187,200	O	O
+half	201,205	O	O
+.	205,206	O	O
+
+This	207,211	O	O
+is	212,214	O	O
+mainly	215,221	O	O
+caused	222,228	O	O
+by	229,231	O	O
+the	232,235	O	O
+increased	236,245	O	O
+incidence	246,255	O	O
+of	256,258	O	O
+erase	259,264	O	B-Process
+and	265,268	O	I-Process
+program	269,276	O	I-Process
+timeouts	277,285	O	I-Process
+with	286,290	O	O
+some	291,295	O	O
+contribution	296,308	O	O
+from	309,313	O	O
+long	314,318	O	B-Process
+erase	319,324	O	I-Process
+and	325,328	O	O
+program	329,336	O	B-Process
+times	337,342	O	I-Process
+and	343,346	O	O
+bit	347,350	O	B-Process
+errors	351,357	O	I-Process
+.	357,358	O	O
+
+The	359,362	O	O
+difference	363,373	O	O
+in	374,376	O	O
+pass	377,381	O	B-Process
+rates	382,387	O	I-Process
+at	388,390	O	O
+88	391,393	O	O
+K	393,394	O	O
+between	395,402	O	O
+batches	403,410	O	B-Material
+#	411,412	O	I-Material
+3/#4	412,416	O	I-Material
+and	417,420	O	O
+#	421,422	O	B-Material
+5/#6	422,426	O	I-Material
+,	426,427	O	O
+which	428,433	O	O
+use	434,437	O	O
+the	438,441	O	O
+same	442,446	O	O
+process	447,454	O	B-Process
+technology	455,465	O	I-Process
+with	466,470	O	O
+the	471,474	O	O
+same	475,479	O	O
+dimensions	480,490	O	O
+,	490,491	O	O
+can	492,495	O	O
+be	496,498	O	O
+explained	499,508	O	O
+by	509,511	O	O
+the	512,515	O	O
+fabrication	516,527	O	O
+in	528,530	O	O
+different	531,540	O	O
+assembly	541,549	O	B-Process
+lines	550,555	O	I-Process
+,	555,556	O	O
+where	557,562	O	O
+other	563,568	O	O
+processes	569,578	O	O
+or	579,581	O	O
+base	582,586	O	O
+materials	587,596	O	O
+may	597,600	O	O
+have	601,605	O	O
+been	606,610	O	O
+changed	611,618	O	O
+.	618,619	O	O
+
+This	620,624	O	O
+means	625,630	O	O
+different	631,640	O	O
+tolerances	641,651	O	B-Process
+in	652,654	O	O
+base	655,659	O	O
+materials	660,669	O	O
+and	670,673	O	O
+production	674,684	O	O
+process	685,692	O	O
+,	692,693	O	O
+which	694,699	O	O
+are	700,703	O	O
+more	704,708	O	O
+pronounced	709,719	O	O
+the	720,723	O	O
+lower	724,729	O	O
+the	730,733	O	O
+temperature	734,745	O	O
+.	745,746	O	O
+
+Some	747,751	O	O
+of	752,754	O	O
+the	755,758	O	O
+differences	759,770	O	O
+of	771,773	O	O
+technology	774,784	O	O
+scale	785,790	O	O
+may	791,794	O	O
+reflect	795,802	O	O
+shifts	803,809	O	O
+in	810,812	O	O
+transistor	813,823	O	B-Process
+parameters	824,834	O	I-Process
+such	835,839	O	O
+as	840,842	O	O
+transconductance	843,859	O	B-Process
+/	859,860	O	I-Process
+gain	860,864	O	I-Process
+,	864,865	O	O
+threshold	866,875	O	B-Process
+voltage	876,883	O	I-Process
+,	883,884	O	O
+and	885,888	O	O
+threshold	889,898	O	B-Process
+slope	899,904	O	I-Process
+[	905,906	O	O
+7	906,907	O	O
+]	907,908	O	O
+.	908,909	O	O
 
 
 -DOCSTART- (S0011227515001216)
 
-Prior	0	5	O
-to	6	8	O
-assembling	9	19	B-Task
-the	20	23	I-Task
-miniature	24	33	I-Task
-ADR	34	37	I-Task
-,	37	38	O
-the	39	42	O
-mKCC	43	47	B-Material
-MR	48	50	I-Material
-heat	51	55	I-Material
-switch	56	62	I-Material
-could	63	68	O
-not	69	72	O
-be	73	75	O
-fully	76	81	O
-thermally	82	91	B-Process
-characterised	92	105	I-Process
-due	106	109	O
-to	110	112	O
-cryostat	113	121	B-Material
-constraints	122	133	I-Material
-.	133	134	O
-
-However	135	142	O
-,	142	143	O
-based	144	149	O
-on	150	152	O
-experiments	153	164	O
-and	165	168	O
-research	169	177	O
-conducted	178	187	O
-at	188	190	O
-MSSL	191	195	O
-on	196	198	O
-a	199	200	O
-range	201	206	O
-of	207	209	O
-tungsten	210	218	B-Material
-heat	219	223	I-Material
-switches	224	232	I-Material
-,	232	233	O
-the	234	237	O
-thermal	238	245	B-Process
-conductivity	246	258	I-Process
-has	259	262	O
-been	263	267	O
-estimated	268	277	O
-.	277	278	O
-
-In	279	281	O
-Hills	282	287	O
-et	288	290	O
-al	291	293	O
-.	293	294	O
-
-[	295	296	O
-8	296	297	O
-]	297	298	O
-,	298	299	O
-an	300	302	O
-equation	303	311	O
-is	312	314	O
-derived	315	322	O
-which	323	328	O
-allows	329	335	O
-the	336	339	O
-thermal	340	347	B-Process
-conductivity	348	360	I-Process
-(	361	362	O
-κ	362	363	B-Process
-)	363	364	O
-below	365	370	O
-6	371	372	O
-K	372	373	O
-to	374	376	O
-be	377	379	O
-calculated	380	390	O
-as	391	393	O
-a	394	395	O
-function	396	404	O
-of	405	407	O
-magnetic	408	416	B-Process
-field	417	422	I-Process
-(	423	424	O
-B	424	425	B-Process
-)	425	426	O
-and	427	430	O
-temperature	431	442	O
-(	443	444	O
-T	444	445	O
-)	445	446	O
-(	447	448	O
-see	448	451	O
-Eq	452	454	O
-.	454	455	O
-
-(	456	457	O
-1	457	458	O
-)	458	459	O
-)	459	460	O
-.	460	461	O
-
-To	462	464	O
-estimate	465	473	O
-the	474	477	O
-performance	478	489	O
-of	490	492	O
-the	493	496	O
-mKCC	497	501	B-Material
-heat	502	506	I-Material
-switch	507	513	I-Material
-,	513	514	O
-the	515	518	O
-parameters	519	529	O
-in	530	532	O
-Eq	533	535	O
-.	535	536	O
-
-(	537	538	O
-1	538	539	O
-)	539	540	O
-have	541	545	O
-been	546	550	O
-taken	551	556	O
-from	557	561	O
-the	562	565	O
-measured	566	574	O
-thermal	575	582	B-Process
-conductivity	583	595	I-Process
-of	596	598	O
-another	599	606	O
-MSSL	607	611	B-Material
-heat	612	616	I-Material
-switch	617	623	I-Material
-with	624	628	O
-the	629	632	O
-same	633	637	O
-1.5	638	641	O
-mm	641	643	O
-square	644	650	O
-cross	651	656	O
-section	657	664	O
-,	664	665	O
-a	666	667	O
-free	668	672	O
-path	673	677	O
-length	678	684	O
-of	685	687	O
-43	688	690	O
-cm	690	692	O
-and	693	696	O
-a	697	698	O
-RRR	699	702	O
-of	703	705	O
-20,000	706	712	O
-;	712	713	O
-it	714	716	O
-has	717	720	O
-been	721	725	O
-observed	726	734	O
-from	735	739	O
-experiments	740	751	O
-conducted	752	761	O
-at	762	764	O
-MSSL	765	769	O
-that	770	774	O
-there	775	780	O
-is	781	783	O
-little	784	790	O
-change	791	797	O
-in	798	800	O
-the	801	804	O
-thermal	805	812	B-Process
-performance	813	824	I-Process
-for	825	828	O
-tungsten	829	837	B-Material
-heat	838	842	I-Material
-switches	843	851	I-Material
-with	852	856	O
-a	857	858	O
-RRR	859	862	O
-between	863	870	O
-20,000	871	877	O
-and	878	881	O
-32,000	882	888	O
-(	889	890	O
-subject	890	897	O
-of	898	900	O
-a	901	902	O
-future	903	909	O
-publication	910	921	O
-)	921	922	O
-and	923	926	O
-therefore	927	936	O
-the	937	940	O
-performance	941	952	O
-of	953	955	O
-the	956	959	O
-20,000	960	966	B-Material
-RRR	967	970	I-Material
-heat	971	975	I-Material
-switch	976	982	I-Material
-has	983	986	O
-been	987	991	O
-assumed	992	999	O
-to	1000	1002	O
-be	1003	1005	O
-a	1006	1007	O
-good	1008	1012	O
-approximation	1013	1026	O
-.	1026	1027	O
-
-Fig	1028	1031	O
-.	1031	1032	O
-
-5	1033	1034	O
-gives	1035	1040	O
-the	1041	1044	O
-calculated	1045	1055	O
-thermal	1056	1063	B-Process
-conductivity	1064	1076	I-Process
-of	1077	1079	O
-the	1080	1083	O
-mKCC	1084	1088	B-Material
-switch	1089	1095	I-Material
-at	1096	1098	O
-0	1099	1100	O
-,	1100	1101	O
-1	1102	1103	O
-,	1103	1104	O
-2	1105	1106	O
-and	1107	1110	O
-3	1111	1112	O
-T	1112	1113	O
-based	1114	1119	O
-on	1120	1122	O
-Eq	1123	1125	O
-.	1125	1126	O
-
-(	1127	1128	O
-1	1128	1129	O
-)	1129	1130	O
-,	1130	1131	O
-where	1132	1137	O
-the	1138	1141	O
-constants	1142	1151	O
-b0	1152	1154	O
-,	1154	1155	O
-a1	1156	1158	O
-,	1158	1159	O
-a2	1160	1162	O
-,	1162	1163	O
-a3	1164	1166	O
-,	1166	1167	O
-a4	1168	1170	O
-and	1171	1174	O
-n	1175	1176	O
-have	1177	1181	O
-the	1182	1185	O
-values	1186	1192	O
-0.0328	1193	1199	O
-,	1199	1200	O
-1.19×10−4	1201	1210	O
-,	1210	1211	O
-3.57×10−6	1212	1221	O
-,	1221	1222	O
-1.36	1223	1227	O
-,	1227	1228	O
-0.000968	1229	1237	O
-and	1238	1241	O
-1.7	1242	1245	O
-respectively	1246	1258	O
-.	1258	1259	O
-
-It	1260	1262	O
-should	1263	1269	O
-be	1270	1272	O
-noted	1273	1278	O
-that	1279	1283	O
-the	1284	1287	O
-calculated	1288	1298	O
-thermal	1299	1306	B-Process
-conductivity	1307	1319	I-Process
-of	1320	1322	O
-the	1323	1326	O
-mKCC	1327	1331	B-Material
-switch	1332	1338	I-Material
-presented	1339	1348	O
-in	1349	1351	O
-Fig	1352	1355	O
-.	1355	1356	O
-5	1357	1358	O
-has	1359	1362	O
-been	1363	1367	O
-validated	1368	1377	O
-by	1378	1380	O
-comparing	1381	1390	O
-the	1391	1394	O
-experimental	1395	1407	O
-results	1408	1415	O
-of	1416	1418	O
-the	1419	1422	O
-miniature	1423	1432	B-Material
-ADR	1433	1436	I-Material
-with	1437	1441	O
-modelled	1442	1450	O
-predictions	1451	1462	O
-(	1463	1464	O
-this	1464	1468	O
-is	1469	1471	O
-discussed	1472	1481	O
-in	1482	1484	O
-Section	1485	1492	O
-3.3).(1)κ(T)=b0T2	1493	1510	O
-+	1510	1511	O
-1a1+a2T2T+Bna3T+a4T4	1511	1531	O
+Prior	0,5	O	O
+to	6,8	O	O
+assembling	9,19	O	B-Task
+the	20,23	O	I-Task
+miniature	24,33	O	I-Task
+ADR	34,37	O	I-Task
+,	37,38	O	O
+the	39,42	O	O
+mKCC	43,47	O	B-Material
+MR	48,50	O	I-Material
+heat	51,55	O	I-Material
+switch	56,62	O	I-Material
+could	63,68	O	O
+not	69,72	O	O
+be	73,75	O	O
+fully	76,81	O	O
+thermally	82,91	O	B-Process
+characterised	92,105	O	I-Process
+due	106,109	O	O
+to	110,112	O	O
+cryostat	113,121	O	B-Material
+constraints	122,133	O	I-Material
+.	133,134	O	O
+
+However	135,142	O	O
+,	142,143	O	O
+based	144,149	O	O
+on	150,152	O	O
+experiments	153,164	O	O
+and	165,168	O	O
+research	169,177	O	O
+conducted	178,187	O	O
+at	188,190	O	O
+MSSL	191,195	O	O
+on	196,198	O	O
+a	199,200	O	O
+range	201,206	O	O
+of	207,209	O	O
+tungsten	210,218	O	B-Material
+heat	219,223	O	I-Material
+switches	224,232	O	I-Material
+,	232,233	O	O
+the	234,237	O	O
+thermal	238,245	O	B-Process
+conductivity	246,258	O	I-Process
+has	259,262	O	O
+been	263,267	O	O
+estimated	268,277	O	O
+.	277,278	O	O
+
+In	279,281	O	O
+Hills	282,287	O	O
+et	288,290	O	O
+al	291,293	O	O
+.	293,294	O	O
+
+[	295,296	O	O
+8	296,297	O	O
+]	297,298	O	O
+,	298,299	O	O
+an	300,302	O	O
+equation	303,311	O	O
+is	312,314	O	O
+derived	315,322	O	O
+which	323,328	O	O
+allows	329,335	O	O
+the	336,339	O	O
+thermal	340,347	O	B-Process
+conductivity	348,360	O	I-Process
+(	361,362	O	O
+κ	362,363	O	B-Process
+)	363,364	O	O
+below	365,370	O	O
+6	371,372	O	O
+K	372,373	O	O
+to	374,376	O	O
+be	377,379	O	O
+calculated	380,390	O	O
+as	391,393	O	O
+a	394,395	O	O
+function	396,404	O	O
+of	405,407	O	O
+magnetic	408,416	O	B-Process
+field	417,422	O	I-Process
+(	423,424	O	O
+B	424,425	O	B-Process
+)	425,426	O	O
+and	427,430	O	O
+temperature	431,442	O	O
+(	443,444	O	O
+T	444,445	O	O
+)	445,446	O	O
+(	447,448	O	O
+see	448,451	O	O
+Eq	452,454	O	O
+.	454,455	O	O
+
+(	456,457	O	O
+1	457,458	O	O
+)	458,459	O	O
+)	459,460	O	O
+.	460,461	O	O
+
+To	462,464	O	O
+estimate	465,473	O	O
+the	474,477	O	O
+performance	478,489	O	O
+of	490,492	O	O
+the	493,496	O	O
+mKCC	497,501	O	B-Material
+heat	502,506	O	I-Material
+switch	507,513	O	I-Material
+,	513,514	O	O
+the	515,518	O	O
+parameters	519,529	O	O
+in	530,532	O	O
+Eq	533,535	O	O
+.	535,536	O	O
+
+(	537,538	O	O
+1	538,539	O	O
+)	539,540	O	O
+have	541,545	O	O
+been	546,550	O	O
+taken	551,556	O	O
+from	557,561	O	O
+the	562,565	O	O
+measured	566,574	O	O
+thermal	575,582	O	B-Process
+conductivity	583,595	O	I-Process
+of	596,598	O	O
+another	599,606	O	O
+MSSL	607,611	O	B-Material
+heat	612,616	O	I-Material
+switch	617,623	O	I-Material
+with	624,628	O	O
+the	629,632	O	O
+same	633,637	O	O
+1.5	638,641	O	O
+mm	641,643	O	O
+square	644,650	O	O
+cross	651,656	O	O
+section	657,664	O	O
+,	664,665	O	O
+a	666,667	O	O
+free	668,672	O	O
+path	673,677	O	O
+length	678,684	O	O
+of	685,687	O	O
+43	688,690	O	O
+cm	690,692	O	O
+and	693,696	O	O
+a	697,698	O	O
+RRR	699,702	O	O
+of	703,705	O	O
+20,000	706,712	O	O
+;	712,713	O	O
+it	714,716	O	O
+has	717,720	O	O
+been	721,725	O	O
+observed	726,734	O	O
+from	735,739	O	O
+experiments	740,751	O	O
+conducted	752,761	O	O
+at	762,764	O	O
+MSSL	765,769	O	O
+that	770,774	O	O
+there	775,780	O	O
+is	781,783	O	O
+little	784,790	O	O
+change	791,797	O	O
+in	798,800	O	O
+the	801,804	O	O
+thermal	805,812	O	B-Process
+performance	813,824	O	I-Process
+for	825,828	O	O
+tungsten	829,837	O	B-Material
+heat	838,842	O	I-Material
+switches	843,851	O	I-Material
+with	852,856	O	O
+a	857,858	O	O
+RRR	859,862	O	O
+between	863,870	O	O
+20,000	871,877	O	O
+and	878,881	O	O
+32,000	882,888	O	O
+(	889,890	O	O
+subject	890,897	O	O
+of	898,900	O	O
+a	901,902	O	O
+future	903,909	O	O
+publication	910,921	O	O
+)	921,922	O	O
+and	923,926	O	O
+therefore	927,936	O	O
+the	937,940	O	O
+performance	941,952	O	O
+of	953,955	O	O
+the	956,959	O	O
+20,000	960,966	O	B-Material
+RRR	967,970	O	I-Material
+heat	971,975	O	I-Material
+switch	976,982	O	I-Material
+has	983,986	O	O
+been	987,991	O	O
+assumed	992,999	O	O
+to	1000,1002	O	O
+be	1003,1005	O	O
+a	1006,1007	O	O
+good	1008,1012	O	O
+approximation	1013,1026	O	O
+.	1026,1027	O	O
+
+Fig	1028,1031	O	O
+.	1031,1032	O	O
+
+5	1033,1034	O	O
+gives	1035,1040	O	O
+the	1041,1044	O	O
+calculated	1045,1055	O	O
+thermal	1056,1063	O	B-Process
+conductivity	1064,1076	O	I-Process
+of	1077,1079	O	O
+the	1080,1083	O	O
+mKCC	1084,1088	O	B-Material
+switch	1089,1095	O	I-Material
+at	1096,1098	O	O
+0	1099,1100	O	O
+,	1100,1101	O	O
+1	1102,1103	O	O
+,	1103,1104	O	O
+2	1105,1106	O	O
+and	1107,1110	O	O
+3	1111,1112	O	O
+T	1112,1113	O	O
+based	1114,1119	O	O
+on	1120,1122	O	O
+Eq	1123,1125	O	O
+.	1125,1126	O	O
+
+(	1127,1128	O	O
+1	1128,1129	O	O
+)	1129,1130	O	O
+,	1130,1131	O	O
+where	1132,1137	O	O
+the	1138,1141	O	O
+constants	1142,1151	O	O
+b0	1152,1154	O	O
+,	1154,1155	O	O
+a1	1156,1158	O	O
+,	1158,1159	O	O
+a2	1160,1162	O	O
+,	1162,1163	O	O
+a3	1164,1166	O	O
+,	1166,1167	O	O
+a4	1168,1170	O	O
+and	1171,1174	O	O
+n	1175,1176	O	O
+have	1177,1181	O	O
+the	1182,1185	O	O
+values	1186,1192	O	O
+0.0328	1193,1199	O	O
+,	1199,1200	O	O
+1.19×10−4	1201,1210	O	O
+,	1210,1211	O	O
+3.57×10−6	1212,1221	O	O
+,	1221,1222	O	O
+1.36	1223,1227	O	O
+,	1227,1228	O	O
+0.000968	1229,1237	O	O
+and	1238,1241	O	O
+1.7	1242,1245	O	O
+respectively	1246,1258	O	O
+.	1258,1259	O	O
+
+It	1260,1262	O	O
+should	1263,1269	O	O
+be	1270,1272	O	O
+noted	1273,1278	O	O
+that	1279,1283	O	O
+the	1284,1287	O	O
+calculated	1288,1298	O	O
+thermal	1299,1306	O	B-Process
+conductivity	1307,1319	O	I-Process
+of	1320,1322	O	O
+the	1323,1326	O	O
+mKCC	1327,1331	O	B-Material
+switch	1332,1338	O	I-Material
+presented	1339,1348	O	O
+in	1349,1351	O	O
+Fig	1352,1355	O	O
+.	1355,1356	O	O
+5	1357,1358	O	O
+has	1359,1362	O	O
+been	1363,1367	O	O
+validated	1368,1377	O	O
+by	1378,1380	O	O
+comparing	1381,1390	O	O
+the	1391,1394	O	O
+experimental	1395,1407	O	O
+results	1408,1415	O	O
+of	1416,1418	O	O
+the	1419,1422	O	O
+miniature	1423,1432	O	B-Material
+ADR	1433,1436	O	I-Material
+with	1437,1441	O	O
+modelled	1442,1450	O	O
+predictions	1451,1462	O	O
+(	1463,1464	O	O
+this	1464,1468	O	O
+is	1469,1471	O	O
+discussed	1472,1481	O	O
+in	1482,1484	O	O
+Section	1485,1492	O	O
+3.3).(1)κ(T)=b0T2	1493,1510	O	O
++	1510,1511	O	O
+1a1+a2T2T+Bna3T+a4T4	1511,1531	O	O
 
 
 -DOCSTART- (S002002551630384X)
 
-An	0	2	O
-early	3	8	O
-attempt	9	16	O
-to	17	19	O
-combine	20	27	B-Task
-sets	28	32	I-Task
-and	33	36	I-Task
-networks	37	45	I-Task
-in	46	48	I-Task
-a	49	50	I-Task
-single	51	57	I-Task
-visualization	58	71	I-Task
-relied	72	78	O
-on	79	81	O
-first	82	87	O
-drawing	88	95	O
-an	96	98	O
-Euler	99	104	B-Process
-diagram	105	112	I-Process
-then	113	117	O
-placing	118	125	O
-a	126	127	O
-graph	128	133	O
-inside	134	140	O
-it	141	143	O
-[	144	145	O
-30	145	147	O
-]	147	148	O
-,	148	149	O
-however	150	157	O
-the	158	161	O
-sets	162	166	O
-were	167	171	O
-often	172	177	O
-visualized	178	188	O
-with	189	193	O
-convoluted	194	204	O
-,	204	205	O
-difficult	206	215	O
-to	216	218	O
-follow	219	225	O
-curves	226	232	O
-.	232	233	O
-
-In	234	236	O
-addition	237	245	O
-,	245	246	O
-only	247	251	O
-limited	252	259	O
-kinds	260	265	O
-of	266	268	O
-set	269	272	O
-data	273	277	O
-could	278	283	O
-be	284	286	O
-shown	287	292	O
-as	293	295	O
-the	296	299	O
-system	300	306	O
-was	307	310	O
-limited	311	318	O
-to	319	321	O
-well	322	326	O
--	326	327	O
-formed	327	333	O
-Euler	334	339	B-Process
-diagrams	340	348	I-Process
-.	348	349	O
-
-Compound	350	358	B-Material
-graphs	359	365	I-Material
-can	366	369	O
-be	370	372	O
-used	373	377	O
-to	378	380	O
-represent	381	390	O
-restricted	391	401	O
-kinds	402	407	O
-of	408	410	O
-grouped	411	418	O
-network	419	426	B-Material
-data	427	431	I-Material
-[	432	433	O
-8	433	434	O
-]	434	435	O
-.	435	436	O
-
-Graph	437	442	B-Material
-clusters	443	451	I-Material
-are	452	455	O
-visualized	456	466	O
-with	467	471	O
-transparent	472	483	B-Process
-hulls	484	489	I-Process
-by	490	492	O
-Santamaria	493	503	O
-and	504	507	O
-Theron	508	514	O
-[	515	516	O
-39	516	518	O
-]	518	519	O
-.	519	520	O
-
-However	521	528	O
-,	528	529	O
-the	530	533	O
-technique	534	543	O
-removes	544	551	O
-edges	552	557	O
-from	558	562	O
-the	563	566	O
-graph	567	572	O
-and	573	576	O
-it	577	579	O
-is	580	582	O
-not	583	586	O
-sufficiently	587	599	O
-sophisticated	600	613	O
-for	614	617	O
-arbitrary	618	627	O
-overlapping	628	639	O
-sets	640	644	O
-.	644	645	O
-
-Itoh	646	650	O
-et	651	653	O
-al	654	656	O
-.	656	657	O
-
-[	658	659	O
-24	659	661	O
-]	661	662	O
-proposed	663	671	O
-to	672	674	O
-overlay	675	682	O
-pie	683	686	O
--	686	687	O
-like	687	691	O
-glyphs	692	698	B-Material
-over	699	703	O
-the	704	707	O
-nodes	708	713	O
-in	714	716	O
-a	717	718	O
-graph	719	724	O
-to	725	727	O
-encode	728	734	O
-multiple	735	743	O
-categories	744	754	O
-.	754	755	O
-
-Each	756	760	O
-set	761	764	O
-is	765	767	O
-hence	768	773	O
-represented	774	785	O
-using	786	791	O
-disconnected	792	804	O
-regions	805	812	O
-that	813	817	O
-are	818	821	O
-linked	822	828	O
-by	829	831	O
-having	832	838	O
-the	839	842	O
-same	843	847	O
-colour	848	854	O
-.	854	855	O
-
-This	856	860	O
-causes	861	867	O
-difficulties	868	880	O
-with	881	885	O
-tasks	886	891	O
-that	892	896	O
-involve	897	904	O
-finding	905	912	B-Task
-relations	913	922	I-Task
-between	923	930	I-Task
-sets	931	935	I-Task
-such	936	940	O
-as	941	943	O
-T1	944	946	B-Process
-,	946	947	I-Process
-T3	948	950	I-Process
-and	951	954	I-Process
-T4	955	957	I-Process
-in	958	960	O
-Section	961	968	O
-5.3	969	972	O
-.	972	973	O
-
-A	974	975	O
-related	976	983	O
-class	984	989	O
-of	990	992	O
-techniques	993	1003	O
-visualize	1004	1013	B-Process
-grouping	1014	1022	I-Process
-information	1023	1034	I-Process
-over	1035	1039	I-Process
-graphs	1040	1046	I-Process
-using	1047	1052	O
-convex	1053	1059	B-Process
-hulls	1060	1065	I-Process
-,	1065	1066	O
-such	1067	1071	O
-as	1072	1074	O
-Vizster	1075	1082	B-Process
-[	1083	1084	O
-22	1084	1086	O
-]	1086	1087	O
-.	1087	1088	O
-
-However	1089	1096	O
-,	1096	1097	O
-they	1098	1102	O
-do	1103	1105	O
-not	1106	1109	O
-support	1110	1117	O
-visualizing	1118	1129	O
-set	1130	1133	O
-overlaps	1134	1142	O
-.	1142	1143	O
+An	0,2	O	O
+early	3,8	O	O
+attempt	9,16	O	O
+to	17,19	O	O
+combine	20,27	O	B-Task
+sets	28,32	O	I-Task
+and	33,36	O	I-Task
+networks	37,45	O	I-Task
+in	46,48	O	I-Task
+a	49,50	O	I-Task
+single	51,57	O	I-Task
+visualization	58,71	O	I-Task
+relied	72,78	O	O
+on	79,81	O	O
+first	82,87	O	O
+drawing	88,95	O	O
+an	96,98	O	O
+Euler	99,104	O	B-Process
+diagram	105,112	O	I-Process
+then	113,117	O	O
+placing	118,125	O	O
+a	126,127	O	O
+graph	128,133	O	O
+inside	134,140	O	O
+it	141,143	O	O
+[	144,145	O	O
+30	145,147	O	O
+]	147,148	O	O
+,	148,149	O	O
+however	150,157	O	O
+the	158,161	O	O
+sets	162,166	O	O
+were	167,171	O	O
+often	172,177	O	O
+visualized	178,188	O	O
+with	189,193	O	O
+convoluted	194,204	O	O
+,	204,205	O	O
+difficult	206,215	O	O
+to	216,218	O	O
+follow	219,225	O	O
+curves	226,232	O	O
+.	232,233	O	O
+
+In	234,236	O	O
+addition	237,245	O	O
+,	245,246	O	O
+only	247,251	O	O
+limited	252,259	O	O
+kinds	260,265	O	O
+of	266,268	O	O
+set	269,272	O	O
+data	273,277	O	O
+could	278,283	O	O
+be	284,286	O	O
+shown	287,292	O	O
+as	293,295	O	O
+the	296,299	O	O
+system	300,306	O	O
+was	307,310	O	O
+limited	311,318	O	O
+to	319,321	O	O
+well	322,326	O	O
+-	326,327	O	O
+formed	327,333	O	O
+Euler	334,339	O	B-Process
+diagrams	340,348	O	I-Process
+.	348,349	O	O
+
+Compound	350,358	O	B-Material
+graphs	359,365	O	I-Material
+can	366,369	O	O
+be	370,372	O	O
+used	373,377	O	O
+to	378,380	O	O
+represent	381,390	O	O
+restricted	391,401	O	O
+kinds	402,407	O	O
+of	408,410	O	O
+grouped	411,418	O	O
+network	419,426	O	B-Material
+data	427,431	O	I-Material
+[	432,433	O	O
+8	433,434	O	O
+]	434,435	O	O
+.	435,436	O	O
+
+Graph	437,442	O	B-Material
+clusters	443,451	O	I-Material
+are	452,455	O	O
+visualized	456,466	O	O
+with	467,471	O	O
+transparent	472,483	O	B-Process
+hulls	484,489	O	I-Process
+by	490,492	O	O
+Santamaria	493,503	O	O
+and	504,507	O	O
+Theron	508,514	O	O
+[	515,516	O	O
+39	516,518	O	O
+]	518,519	O	O
+.	519,520	O	O
+
+However	521,528	O	O
+,	528,529	O	O
+the	530,533	O	O
+technique	534,543	O	O
+removes	544,551	O	O
+edges	552,557	O	O
+from	558,562	O	O
+the	563,566	O	O
+graph	567,572	O	O
+and	573,576	O	O
+it	577,579	O	O
+is	580,582	O	O
+not	583,586	O	O
+sufficiently	587,599	O	O
+sophisticated	600,613	O	O
+for	614,617	O	O
+arbitrary	618,627	O	O
+overlapping	628,639	O	O
+sets	640,644	O	O
+.	644,645	O	O
+
+Itoh	646,650	O	O
+et	651,653	O	O
+al	654,656	O	O
+.	656,657	O	O
+
+[	658,659	O	O
+24	659,661	O	O
+]	661,662	O	O
+proposed	663,671	O	O
+to	672,674	O	O
+overlay	675,682	O	O
+pie	683,686	O	O
+-	686,687	O	O
+like	687,691	O	O
+glyphs	692,698	O	B-Material
+over	699,703	O	O
+the	704,707	O	O
+nodes	708,713	O	O
+in	714,716	O	O
+a	717,718	O	O
+graph	719,724	O	O
+to	725,727	O	O
+encode	728,734	O	O
+multiple	735,743	O	O
+categories	744,754	O	O
+.	754,755	O	O
+
+Each	756,760	O	O
+set	761,764	O	O
+is	765,767	O	O
+hence	768,773	O	O
+represented	774,785	O	O
+using	786,791	O	O
+disconnected	792,804	O	O
+regions	805,812	O	O
+that	813,817	O	O
+are	818,821	O	O
+linked	822,828	O	O
+by	829,831	O	O
+having	832,838	O	O
+the	839,842	O	O
+same	843,847	O	O
+colour	848,854	O	O
+.	854,855	O	O
+
+This	856,860	O	O
+causes	861,867	O	O
+difficulties	868,880	O	O
+with	881,885	O	O
+tasks	886,891	O	O
+that	892,896	O	O
+involve	897,904	O	O
+finding	905,912	O	B-Task
+relations	913,922	O	I-Task
+between	923,930	O	I-Task
+sets	931,935	O	I-Task
+such	936,940	O	O
+as	941,943	O	O
+T1	944,946	O	B-Process
+,	946,947	O	I-Process
+T3	948,950	O	I-Process
+and	951,954	O	I-Process
+T4	955,957	O	I-Process
+in	958,960	O	O
+Section	961,968	O	O
+5.3	969,972	O	O
+.	972,973	O	O
+
+A	974,975	O	O
+related	976,983	O	O
+class	984,989	O	O
+of	990,992	O	O
+techniques	993,1003	O	O
+visualize	1004,1013	O	B-Process
+grouping	1014,1022	O	I-Process
+information	1023,1034	O	I-Process
+over	1035,1039	O	I-Process
+graphs	1040,1046	O	I-Process
+using	1047,1052	O	O
+convex	1053,1059	O	B-Process
+hulls	1060,1065	O	I-Process
+,	1065,1066	O	O
+such	1067,1071	O	O
+as	1072,1074	O	O
+Vizster	1075,1082	O	B-Process
+[	1083,1084	O	O
+22	1084,1086	O	O
+]	1086,1087	O	O
+.	1087,1088	O	O
+
+However	1089,1096	O	O
+,	1096,1097	O	O
+they	1098,1102	O	O
+do	1103,1105	O	O
+not	1106,1109	O	O
+support	1110,1117	O	O
+visualizing	1118,1129	O	O
+set	1130,1133	O	O
+overlaps	1134,1142	O	O
+.	1142,1143	O	O
 
 
 -DOCSTART- (S0021961414003255)
 
-Moreover	0	8	O
-,	8	9	O
-one	10	13	O
-observes	14	22	O
-segregation	23	34	B-Process
-effects	35	42	I-Process
-by	43	45	O
-the	46	49	O
-XRD	50	53	B-Task
-analysis	54	62	I-Task
-,	62	63	O
-which	64	69	O
-probably	70	78	O
-took	79	83	O
-place	84	89	O
-at	90	92	O
-high	93	97	O
-temperature	98	109	O
-,	109	110	O
-and	111	114	O
-were	115	119	O
-partially	120	129	O
-quenched	130	138	B-Process
-to	139	141	O
-room	142	146	O
-temperature	147	158	O
-.	158	159	O
-
-The	160	163	O
-phase	164	169	O
-analysis	170	178	O
-showed	179	185	O
-up	186	188	O
-to	189	191	O
-three	192	197	O
-distinct	198	206	O
-phases	207	213	O
-,	213	214	O
-which	215	220	O
-should	221	227	O
-have	228	232	O
-hence	233	238	O
-a	239	240	O
-distinct	241	249	O
-measurable	250	260	O
-phase	261	266	O
-transition	267	277	O
-temperature	278	289	O
-,	289	290	O
-if	291	293	O
-they	294	298	O
-crystallise	299	310	B-Process
-from	311	315	O
-the	316	319	O
-liquid	320	326	B-Material
-on	327	329	O
-the	330	333	O
-surface	334	341	B-Material
-.	341	342	O
-
-In	343	345	O
-the	346	349	O
-thermograms	350	361	B-Process
-these	362	367	O
-effects	368	375	O
-are	376	379	O
-not	380	383	O
-observable	384	394	O
-as	395	397	O
-different	398	407	O
-solidification	408	422	B-Process
-arrest	423	429	I-Process
-or	430	432	O
-clear	433	438	B-Process
-inflections	439	450	I-Process
-.	450	451	O
-
-The	452	455	O
-proportion	456	466	O
-of	467	469	O
-new	470	473	O
-appearing	474	483	O
-phases	484	490	O
-is	491	493	O
-small	494	499	O
-and	500	503	O
-therefore	504	513	O
-the	514	517	O
-latent	518	524	B-Process
-heat	525	529	I-Process
-released	530	538	O
-by	539	541	O
-this	542	546	O
-new	547	550	O
-phase	551	556	O
-will	557	561	O
-be	562	564	O
-also	565	569	O
-small	570	575	O
-.	575	576	O
-
-The	577	580	O
-reflected	581	590	B-Process
-light	591	596	I-Process
-signal	597	603	I-Process
-technique	604	613	I-Process
-only	614	618	O
-showed	619	625	O
-one	626	629	O
-phase	630	635	B-Process
-change	636	642	I-Process
-during	643	649	O
-cooling	650	657	O
-.	657	658	O
-
-As	659	661	O
-well	662	666	O
-,	666	667	O
-the	668	671	O
-location	672	680	O
-of	681	683	O
-this	684	688	O
-segregation	689	700	B-Process
-can	701	704	O
-not	704	707	O
-be	708	710	O
-determined	711	721	O
-exactly	722	729	O
-in	730	732	O
-the	733	736	O
-molten	737	743	B-Material
-pool	744	748	I-Material
-or	749	751	O
-later	752	757	O
-in	758	760	O
-the	761	764	O
-re	765	767	B-Material
--	767	768	I-Material
-solidified	768	778	I-Material
-material	779	787	I-Material
-.	787	788	O
-
-At	789	791	O
-the	792	795	O
-surface	796	803	O
-,	803	804	O
-where	805	810	O
-the	811	814	O
-temperature	815	826	O
-is	827	829	O
-measured	830	838	O
-,	838	839	O
-the	840	843	O
-material	844	852	B-Task
-analysis	853	861	I-Task
-by	862	864	I-Task
-Raman	865	870	I-Task
-spectroscopy	871	883	I-Task
-has	884	887	O
-not	888	891	O
-shown	892	897	O
-signs	898	903	O
-of	904	906	O
-segregation	907	918	B-Process
-,	918	919	O
-so	920	922	O
-that	923	927	O
-also	928	932	O
-the	933	936	O
-uncertainties	937	950	O
-in	951	953	O
-composition	954	965	O
-for	966	969	O
-the	970	973	O
-phase	974	979	B-Process
-transition	980	990	I-Process
-are	991	994	O
-taken	995	1000	O
-from	1001	1005	O
-the	1006	1009	O
-uncertainties	1010	1023	O
-from	1024	1028	O
-the	1029	1032	O
-XRD	1033	1036	B-Task
-analysis	1037	1045	I-Task
-for	1046	1049	O
-the	1050	1053	O
-most	1054	1058	O
-abundant	1059	1067	O
-phase	1068	1073	O
-at	1074	1076	O
-each	1077	1081	O
-composition	1082	1093	O
-in	1094	1096	O
-re	1097	1099	B-Material
--	1099	1100	I-Material
-solidified	1100	1110	I-Material
-material	1111	1119	I-Material
-.	1119	1120	O
+Moreover	0,8	O	O
+,	8,9	O	O
+one	10,13	O	O
+observes	14,22	O	O
+segregation	23,34	O	B-Process
+effects	35,42	O	I-Process
+by	43,45	O	O
+the	46,49	O	O
+XRD	50,53	O	B-Task
+analysis	54,62	O	I-Task
+,	62,63	O	O
+which	64,69	O	O
+probably	70,78	O	O
+took	79,83	O	O
+place	84,89	O	O
+at	90,92	O	O
+high	93,97	O	O
+temperature	98,109	O	O
+,	109,110	O	O
+and	111,114	O	O
+were	115,119	O	O
+partially	120,129	O	O
+quenched	130,138	O	B-Process
+to	139,141	O	O
+room	142,146	O	O
+temperature	147,158	O	O
+.	158,159	O	O
+
+The	160,163	O	O
+phase	164,169	O	O
+analysis	170,178	O	O
+showed	179,185	O	O
+up	186,188	O	O
+to	189,191	O	O
+three	192,197	O	O
+distinct	198,206	O	O
+phases	207,213	O	O
+,	213,214	O	O
+which	215,220	O	O
+should	221,227	O	O
+have	228,232	O	O
+hence	233,238	O	O
+a	239,240	O	O
+distinct	241,249	O	O
+measurable	250,260	O	O
+phase	261,266	O	O
+transition	267,277	O	O
+temperature	278,289	O	O
+,	289,290	O	O
+if	291,293	O	O
+they	294,298	O	O
+crystallise	299,310	O	B-Process
+from	311,315	O	O
+the	316,319	O	O
+liquid	320,326	O	B-Material
+on	327,329	O	O
+the	330,333	O	O
+surface	334,341	O	B-Material
+.	341,342	O	O
+
+In	343,345	O	O
+the	346,349	O	O
+thermograms	350,361	O	B-Process
+these	362,367	O	O
+effects	368,375	O	O
+are	376,379	O	O
+not	380,383	O	O
+observable	384,394	O	O
+as	395,397	O	O
+different	398,407	O	O
+solidification	408,422	O	B-Process
+arrest	423,429	O	I-Process
+or	430,432	O	O
+clear	433,438	O	B-Process
+inflections	439,450	O	I-Process
+.	450,451	O	O
+
+The	452,455	O	O
+proportion	456,466	O	O
+of	467,469	O	O
+new	470,473	O	O
+appearing	474,483	O	O
+phases	484,490	O	O
+is	491,493	O	O
+small	494,499	O	O
+and	500,503	O	O
+therefore	504,513	O	O
+the	514,517	O	O
+latent	518,524	O	B-Process
+heat	525,529	O	I-Process
+released	530,538	O	O
+by	539,541	O	O
+this	542,546	O	O
+new	547,550	O	O
+phase	551,556	O	O
+will	557,561	O	O
+be	562,564	O	O
+also	565,569	O	O
+small	570,575	O	O
+.	575,576	O	O
+
+The	577,580	O	O
+reflected	581,590	O	B-Process
+light	591,596	O	I-Process
+signal	597,603	O	I-Process
+technique	604,613	O	I-Process
+only	614,618	O	O
+showed	619,625	O	O
+one	626,629	O	O
+phase	630,635	O	B-Process
+change	636,642	O	I-Process
+during	643,649	O	O
+cooling	650,657	O	O
+.	657,658	O	O
+
+As	659,661	O	O
+well	662,666	O	O
+,	666,667	O	O
+the	668,671	O	O
+location	672,680	O	O
+of	681,683	O	O
+this	684,688	O	O
+segregation	689,700	O	B-Process
+can	701,704	O	O
+not	704,707	O	O
+be	708,710	O	O
+determined	711,721	O	O
+exactly	722,729	O	O
+in	730,732	O	O
+the	733,736	O	O
+molten	737,743	O	B-Material
+pool	744,748	O	I-Material
+or	749,751	O	O
+later	752,757	O	O
+in	758,760	O	O
+the	761,764	O	O
+re	765,767	O	B-Material
+-	767,768	O	I-Material
+solidified	768,778	O	I-Material
+material	779,787	O	I-Material
+.	787,788	O	O
+
+At	789,791	O	O
+the	792,795	O	O
+surface	796,803	O	O
+,	803,804	O	O
+where	805,810	O	O
+the	811,814	O	O
+temperature	815,826	O	O
+is	827,829	O	O
+measured	830,838	O	O
+,	838,839	O	O
+the	840,843	O	O
+material	844,852	O	B-Task
+analysis	853,861	O	I-Task
+by	862,864	O	I-Task
+Raman	865,870	O	I-Task
+spectroscopy	871,883	O	I-Task
+has	884,887	O	O
+not	888,891	O	O
+shown	892,897	O	O
+signs	898,903	O	O
+of	904,906	O	O
+segregation	907,918	O	B-Process
+,	918,919	O	O
+so	920,922	O	O
+that	923,927	O	O
+also	928,932	O	O
+the	933,936	O	O
+uncertainties	937,950	O	O
+in	951,953	O	O
+composition	954,965	O	O
+for	966,969	O	O
+the	970,973	O	O
+phase	974,979	O	B-Process
+transition	980,990	O	I-Process
+are	991,994	O	O
+taken	995,1000	O	O
+from	1001,1005	O	O
+the	1006,1009	O	O
+uncertainties	1010,1023	O	O
+from	1024,1028	O	O
+the	1029,1032	O	O
+XRD	1033,1036	O	B-Task
+analysis	1037,1045	O	I-Task
+for	1046,1049	O	O
+the	1050,1053	O	O
+most	1054,1058	O	O
+abundant	1059,1067	O	O
+phase	1068,1073	O	O
+at	1074,1076	O	O
+each	1077,1081	O	O
+composition	1082,1093	O	O
+in	1094,1096	O	O
+re	1097,1099	O	B-Material
+-	1099,1100	O	I-Material
+solidified	1100,1110	O	I-Material
+material	1111,1119	O	I-Material
+.	1119,1120	O	O
 
 
 -DOCSTART- (S002199911200068X)
 
-Myocardial	0	10	B-Process
-electrical	11	21	I-Process
-propagation	22	33	I-Process
-can	34	37	O
-be	38	40	O
-simulated	41	50	O
-using	51	56	O
-the	57	60	O
-monodomain	61	71	B-Material
-or	72	74	I-Material
-bidomain	75	83	I-Material
-PDEs	84	88	I-Material
-[	89	90	O
-5,6	90	93	O
-]	93	94	O
-.	94	95	O
-
-Due	96	99	O
-to	100	102	O
-its	103	106	O
-capacity	107	115	O
-to	116	118	O
-represent	119	128	O
-complex	129	136	O
-geometries	137	147	B-Material
-with	148	152	O
-ease	153	157	O
-,	157	158	O
-approximations	159	173	O
-are	174	177	O
-often	178	183	O
-obtained	184	192	O
-using	193	198	O
-the	199	202	O
-finite	203	209	B-Process
-element	210	217	I-Process
-method	218	224	I-Process
-(	225	226	O
-FEM	226	229	B-Process
-)	229	230	O
-to	231	233	O
-discretise	234	244	O
-the	245	248	O
-PDEs	249	253	B-Material
-in	254	256	O
-space	257	262	O
-on	263	265	O
-realistic	266	275	O
-cardiac	276	283	B-Material
-geometry	284	292	I-Material
-meshes	293	299	I-Material
-;	299	300	O
-this	301	305	O
-results	306	313	O
-in	314	316	O
-very	317	321	O
-large	322	327	O
-(	328	329	O
-up	329	331	O
-to	332	334	O
-forty	335	340	O
--	340	341	O
-million	341	348	O
-degrees	349	356	O
-of	357	359	O
-freedom	360	367	O
-(	368	369	O
-DOF	369	372	O
-)	372	373	O
-for	374	377	O
-human	378	383	B-Task
-heart	384	389	I-Task
-geometries	390	400	I-Task
-)	400	401	O
-systems	402	409	B-Process
-of	410	412	I-Process
-linear	413	419	I-Process
-equations	420	429	I-Process
-which	430	435	O
-must	436	440	O
-be	441	443	O
-solved	444	450	O
-many	451	455	O
-thousands	456	465	O
-of	466	468	O
-times	469	474	O
-over	475	479	O
-the	480	483	O
-course	484	490	O
-of	491	493	O
-even	494	498	O
-a	499	500	O
-short	501	506	O
-simulation	507	517	B-Process
-.	517	518	O
-
-Thus	519	523	O
-,	523	524	O
-they	525	529	O
-are	530	533	O
-extremely	534	543	O
-computationally	544	559	O
-demanding	560	569	O
-,	569	570	O
-presenting	571	581	O
-taxing	582	588	O
-problems	589	597	O
-even	598	602	O
-to	603	605	O
-high	606	610	B-Process
--	610	611	I-Process
-end	611	614	I-Process
-supercomputing	615	629	I-Process
-resources	630	639	I-Process
-.	639	640	O
-
-This	641	645	O
-computational	646	659	O
-demand	660	666	O
-means	667	672	O
-that	673	677	O
-effort	678	684	O
-has	685	688	O
-been	689	693	O
-invested	694	702	O
-in	703	705	O
-developing	706	716	B-Task
-efficient	717	726	I-Task
-solution	727	735	I-Task
-techniques	736	746	I-Task
-,	746	747	O
-including	748	757	O
-work	758	762	O
-on	763	765	O
-preconditioning	766	781	B-Task
-,	781	782	O
-parallelisation	783	798	B-Task
-and	799	802	O
-adaptivity	803	813	B-Task
-in	814	816	I-Task
-space	817	822	I-Task
-and	823	826	I-Task
-time	827	831	I-Task
-[	832	833	O
-7–12	833	837	O
-]	837	838	O
-.	838	839	O
-
-In	840	842	O
-this	843	847	O
-study	848	853	O
-,	853	854	O
-we	855	857	O
-investigate	858	869	B-Task
-the	870	873	I-Task
-potential	874	883	I-Task
-of	884	886	I-Task
-reducing	887	895	I-Task
-the	896	899	I-Task
-number	900	906	I-Task
-of	907	909	I-Task
-DOF	910	913	I-Task
-by	914	916	O
-using	917	922	O
-a	923	924	O
-high	925	929	B-Process
--	929	930	I-Process
-order	930	935	I-Process
-polynomial	936	946	I-Process
-FEM	947	950	I-Process
-[	951	952	O
-13–15	952	957	O
-]	957	958	O
-to	959	961	O
-approximate	962	973	O
-the	974	977	O
-monodomain	978	988	B-Material
-PDE	989	992	I-Material
-in	993	995	O
-space	996	1001	O
-,	1001	1002	O
-with	1003	1007	O
-the	1008	1011	O
-goal	1012	1016	O
-of	1017	1019	O
-significantly	1020	1033	B-Task
-improving	1034	1043	I-Task
-simulation	1044	1054	I-Task
-efficiency	1055	1065	I-Task
-over	1066	1070	O
-the	1071	1074	O
-piecewise	1075	1084	B-Process
--	1084	1085	I-Process
-linear	1085	1091	I-Process
-FEM	1092	1095	I-Process
-approach	1096	1104	O
-commonly	1105	1113	O
-used	1114	1118	O
-in	1119	1121	O
-the	1122	1125	O
-field	1126	1131	O
-[	1132	1133	O
-16–19	1133	1138	O
-]	1138	1139	O
-.	1139	1140	O
-
-For	1141	1144	O
-schemes	1145	1152	O
-where	1153	1158	O
-the	1159	1162	O
-polynomial	1163	1173	O
-degree	1174	1180	O
-p	1181	1182	O
-of	1183	1185	O
-the	1186	1189	O
-elements	1190	1198	O
-is	1199	1201	O
-adjusted	1202	1210	O
-according	1211	1220	O
-to	1221	1223	O
-the	1224	1227	O
-error	1228	1233	O
-in	1234	1236	O
-the	1237	1240	O
-approximation	1241	1254	O
-,	1254	1255	O
-this	1256	1260	O
-is	1261	1263	O
-known	1264	1269	O
-as	1270	1272	O
-the	1273	1276	O
-finite	1277	1283	B-Process
-element	1284	1291	I-Process
-p	1292	1293	I-Process
--	1293	1294	I-Process
-version	1294	1301	I-Process
-.	1301	1302	O
-
-In	1303	1305	O
-the	1306	1309	O
-work	1310	1314	O
-presented	1315	1324	O
-here	1325	1329	O
-,	1329	1330	O
-we	1331	1333	O
-work	1334	1338	O
-with	1339	1343	O
-schemes	1344	1351	O
-which	1352	1357	O
-keep	1358	1362	O
-p	1363	1364	O
-fixed	1365	1370	O
-.	1370	1371	O
+Myocardial	0,10	O	B-Process
+electrical	11,21	O	I-Process
+propagation	22,33	O	I-Process
+can	34,37	O	O
+be	38,40	O	O
+simulated	41,50	O	O
+using	51,56	O	O
+the	57,60	O	O
+monodomain	61,71	O	B-Material
+or	72,74	O	I-Material
+bidomain	75,83	O	I-Material
+PDEs	84,88	O	I-Material
+[	89,90	O	O
+5,6	90,93	O	O
+]	93,94	O	O
+.	94,95	O	O
+
+Due	96,99	O	O
+to	100,102	O	O
+its	103,106	O	O
+capacity	107,115	O	O
+to	116,118	O	O
+represent	119,128	O	O
+complex	129,136	O	O
+geometries	137,147	O	B-Material
+with	148,152	O	O
+ease	153,157	O	O
+,	157,158	O	O
+approximations	159,173	O	O
+are	174,177	O	O
+often	178,183	O	O
+obtained	184,192	O	O
+using	193,198	O	O
+the	199,202	O	O
+finite	203,209	O	B-Process
+element	210,217	O	I-Process
+method	218,224	O	I-Process
+(	225,226	O	O
+FEM	226,229	O	B-Process
+)	229,230	O	O
+to	231,233	O	O
+discretise	234,244	O	O
+the	245,248	O	O
+PDEs	249,253	O	B-Material
+in	254,256	O	O
+space	257,262	O	O
+on	263,265	O	O
+realistic	266,275	O	O
+cardiac	276,283	O	B-Material
+geometry	284,292	O	I-Material
+meshes	293,299	O	I-Material
+;	299,300	O	O
+this	301,305	O	O
+results	306,313	O	O
+in	314,316	O	O
+very	317,321	O	O
+large	322,327	O	O
+(	328,329	O	O
+up	329,331	O	O
+to	332,334	O	O
+forty	335,340	O	O
+-	340,341	O	O
+million	341,348	O	O
+degrees	349,356	O	O
+of	357,359	O	O
+freedom	360,367	O	O
+(	368,369	O	O
+DOF	369,372	O	O
+)	372,373	O	O
+for	374,377	O	O
+human	378,383	O	B-Task
+heart	384,389	O	I-Task
+geometries	390,400	O	I-Task
+)	400,401	O	O
+systems	402,409	O	B-Process
+of	410,412	O	I-Process
+linear	413,419	O	I-Process
+equations	420,429	O	I-Process
+which	430,435	O	O
+must	436,440	O	O
+be	441,443	O	O
+solved	444,450	O	O
+many	451,455	O	O
+thousands	456,465	O	O
+of	466,468	O	O
+times	469,474	O	O
+over	475,479	O	O
+the	480,483	O	O
+course	484,490	O	O
+of	491,493	O	O
+even	494,498	O	O
+a	499,500	O	O
+short	501,506	O	O
+simulation	507,517	O	B-Process
+.	517,518	O	O
+
+Thus	519,523	O	O
+,	523,524	O	O
+they	525,529	O	O
+are	530,533	O	O
+extremely	534,543	O	O
+computationally	544,559	O	O
+demanding	560,569	O	O
+,	569,570	O	O
+presenting	571,581	O	O
+taxing	582,588	O	O
+problems	589,597	O	O
+even	598,602	O	O
+to	603,605	O	O
+high	606,610	O	B-Process
+-	610,611	O	I-Process
+end	611,614	O	I-Process
+supercomputing	615,629	O	I-Process
+resources	630,639	O	I-Process
+.	639,640	O	O
+
+This	641,645	O	O
+computational	646,659	O	O
+demand	660,666	O	O
+means	667,672	O	O
+that	673,677	O	O
+effort	678,684	O	O
+has	685,688	O	O
+been	689,693	O	O
+invested	694,702	O	O
+in	703,705	O	O
+developing	706,716	O	B-Task
+efficient	717,726	O	I-Task
+solution	727,735	O	I-Task
+techniques	736,746	O	I-Task
+,	746,747	O	O
+including	748,757	O	O
+work	758,762	O	O
+on	763,765	O	O
+preconditioning	766,781	O	B-Task
+,	781,782	O	O
+parallelisation	783,798	O	B-Task
+and	799,802	O	O
+adaptivity	803,813	O	B-Task
+in	814,816	O	I-Task
+space	817,822	O	I-Task
+and	823,826	O	I-Task
+time	827,831	O	I-Task
+[	832,833	O	O
+7–12	833,837	O	O
+]	837,838	O	O
+.	838,839	O	O
+
+In	840,842	O	O
+this	843,847	O	O
+study	848,853	O	O
+,	853,854	O	O
+we	855,857	O	O
+investigate	858,869	O	B-Task
+the	870,873	O	I-Task
+potential	874,883	O	I-Task
+of	884,886	O	I-Task
+reducing	887,895	O	I-Task
+the	896,899	O	I-Task
+number	900,906	O	I-Task
+of	907,909	O	I-Task
+DOF	910,913	O	I-Task
+by	914,916	O	O
+using	917,922	O	O
+a	923,924	O	O
+high	925,929	O	B-Process
+-	929,930	O	I-Process
+order	930,935	O	I-Process
+polynomial	936,946	O	I-Process
+FEM	947,950	O	I-Process
+[	951,952	O	O
+13–15	952,957	O	O
+]	957,958	O	O
+to	959,961	O	O
+approximate	962,973	O	O
+the	974,977	O	O
+monodomain	978,988	O	B-Material
+PDE	989,992	O	I-Material
+in	993,995	O	O
+space	996,1001	O	O
+,	1001,1002	O	O
+with	1003,1007	O	O
+the	1008,1011	O	O
+goal	1012,1016	O	O
+of	1017,1019	O	O
+significantly	1020,1033	O	B-Task
+improving	1034,1043	O	I-Task
+simulation	1044,1054	O	I-Task
+efficiency	1055,1065	O	I-Task
+over	1066,1070	O	O
+the	1071,1074	O	O
+piecewise	1075,1084	O	B-Process
+-	1084,1085	O	I-Process
+linear	1085,1091	O	I-Process
+FEM	1092,1095	O	I-Process
+approach	1096,1104	O	O
+commonly	1105,1113	O	O
+used	1114,1118	O	O
+in	1119,1121	O	O
+the	1122,1125	O	O
+field	1126,1131	O	O
+[	1132,1133	O	O
+16–19	1133,1138	O	O
+]	1138,1139	O	O
+.	1139,1140	O	O
+
+For	1141,1144	O	O
+schemes	1145,1152	O	O
+where	1153,1158	O	O
+the	1159,1162	O	O
+polynomial	1163,1173	O	O
+degree	1174,1180	O	O
+p	1181,1182	O	O
+of	1183,1185	O	O
+the	1186,1189	O	O
+elements	1190,1198	O	O
+is	1199,1201	O	O
+adjusted	1202,1210	O	O
+according	1211,1220	O	O
+to	1221,1223	O	O
+the	1224,1227	O	O
+error	1228,1233	O	O
+in	1234,1236	O	O
+the	1237,1240	O	O
+approximation	1241,1254	O	O
+,	1254,1255	O	O
+this	1256,1260	O	O
+is	1261,1263	O	O
+known	1264,1269	O	O
+as	1270,1272	O	O
+the	1273,1276	O	O
+finite	1277,1283	O	B-Process
+element	1284,1291	O	I-Process
+p	1292,1293	O	I-Process
+-	1293,1294	O	I-Process
+version	1294,1301	O	I-Process
+.	1301,1302	O	O
+
+In	1303,1305	O	O
+the	1306,1309	O	O
+work	1310,1314	O	O
+presented	1315,1324	O	O
+here	1325,1329	O	O
+,	1329,1330	O	O
+we	1331,1333	O	O
+work	1334,1338	O	O
+with	1339,1343	O	O
+schemes	1344,1351	O	O
+which	1352,1357	O	O
+keep	1358,1362	O	O
+p	1363,1364	O	O
+fixed	1365,1370	O	O
+.	1370,1371	O	O
 
 
 -DOCSTART- (S0021999112002847)
 
-In	0	2	O
-this	3	7	O
-work	8	12	O
-we	13	15	O
-develop	16	23	B-Task
-a	24	25	I-Task
-new	26	29	I-Task
-approach	30	38	I-Task
-to	39	41	I-Task
-DEA	42	45	I-Task
-suitable	46	54	I-Task
-for	55	58	I-Task
-modelling	59	68	I-Task
-three	69	74	I-Task
--	74	75	I-Task
-dimensional	75	86	I-Task
-problems	87	95	I-Task
-.	95	96	O
-
-The	97	100	O
-present	101	108	O
-DEA	109	112	B-Process
-methods	113	120	I-Process
-rely	121	125	O
-on	126	128	O
-the	129	132	O
-fact	133	137	O
-that	138	142	O
-one	143	146	O
-can	147	150	O
-easily	151	157	O
-parametrise	158	169	B-Process
-the	170	173	I-Process
-boundary	174	182	I-Process
-of	183	185	I-Process
-the	186	189	I-Process
-region	190	196	I-Process
-being	197	202	O
-modelled	203	211	O
-,	211	212	O
-and	213	216	O
-then	217	221	O
-apply	222	227	O
-an	228	230	O
-orthonormal	231	242	B-Process
-basis	243	248	I-Process
-approximation	249	262	I-Process
-over	263	267	O
-the	268	271	O
-resulting	272	281	O
-boundary	282	290	B-Material
-phase	291	296	I-Material
-space	297	302	I-Material
-coordinate	303	313	I-Material
-system	314	320	I-Material
-.	320	321	O
-
-In	322	324	O
-two	325	328	O
-dimensions	329	339	O
-this	340	344	O
-is	345	347	O
-simple	348	354	O
-as	355	357	O
-the	358	361	O
-boundary	362	370	O
-may	371	374	O
-be	375	377	O
-parametrised	378	390	O
-along	391	396	O
-its	397	400	O
-arc	401	404	B-Material
--	404	405	I-Material
-length	405	411	I-Material
-and	412	415	O
-the	416	419	O
-associated	420	430	O
-momentum	431	439	B-Material
-(	440	441	I-Material
-or	441	443	I-Material
-direction	444	453	I-Material
-)	453	454	I-Material
-coordinate	455	465	I-Material
-taken	466	471	O
-tangential	472	482	O
-to	483	485	O
-the	486	489	O
-boundary	490	498	O
-.	498	499	O
-
-The	500	503	O
-basis	504	509	O
-can	510	513	O
-be	514	516	O
-any	517	520	O
-suitable	521	529	O
-(	530	531	O
-scaled	531	537	O
-)	537	538	O
-univariate	539	549	B-Material
-basis	550	555	I-Material
-in	556	558	O
-both	559	563	O
-position	564	572	O
-and	573	576	O
-momentum	577	585	O
-,	585	586	O
-such	587	591	O
-as	592	594	O
-a	595	596	O
-Fourier	597	604	B-Material
-basis	605	610	I-Material
-[	611	612	O
-8	612	613	O
-]	613	614	O
-or	615	617	O
-Chebyshev	618	627	B-Material
-polynomials	628	639	I-Material
-[	640	641	O
-9	641	642	O
-]	642	643	O
-.	643	644	O
-
-Defining	645	653	O
-a	654	655	O
-suitable	656	664	O
-parametrisation	665	680	O
-for	681	684	O
-the	685	688	O
-spatial	689	696	O
-coordinate	697	707	O
-in	708	710	O
-three	711	716	O
--	716	717	O
-dimensions	717	727	O
-becomes	728	735	O
-much	736	740	O
-more	741	745	O
-difficult	746	755	O
-.	755	756	O
-
-In	757	759	O
-momentum	760	768	O
-space	769	774	O
-spherical	775	784	B-Process
-polar	785	790	I-Process
-coordinates	791	802	I-Process
-may	803	806	O
-be	807	809	O
-employed	810	818	O
-and	819	822	O
-so	823	825	O
-these	826	831	O
-problems	832	840	O
-do	841	843	O
-not	844	847	O
-arise	848	853	O
-.	853	854	O
+In	0,2	O	O
+this	3,7	O	O
+work	8,12	O	O
+we	13,15	O	O
+develop	16,23	O	B-Task
+a	24,25	O	I-Task
+new	26,29	O	I-Task
+approach	30,38	O	I-Task
+to	39,41	O	I-Task
+DEA	42,45	O	I-Task
+suitable	46,54	O	I-Task
+for	55,58	O	I-Task
+modelling	59,68	O	I-Task
+three	69,74	O	I-Task
+-	74,75	O	I-Task
+dimensional	75,86	O	I-Task
+problems	87,95	O	I-Task
+.	95,96	O	O
+
+The	97,100	O	O
+present	101,108	O	O
+DEA	109,112	O	B-Process
+methods	113,120	O	I-Process
+rely	121,125	O	O
+on	126,128	O	O
+the	129,132	O	O
+fact	133,137	O	O
+that	138,142	O	O
+one	143,146	O	O
+can	147,150	O	O
+easily	151,157	O	O
+parametrise	158,169	O	B-Process
+the	170,173	O	I-Process
+boundary	174,182	O	I-Process
+of	183,185	O	I-Process
+the	186,189	O	I-Process
+region	190,196	O	I-Process
+being	197,202	O	O
+modelled	203,211	O	O
+,	211,212	O	O
+and	213,216	O	O
+then	217,221	O	O
+apply	222,227	O	O
+an	228,230	O	O
+orthonormal	231,242	O	B-Process
+basis	243,248	O	I-Process
+approximation	249,262	O	I-Process
+over	263,267	O	O
+the	268,271	O	O
+resulting	272,281	O	O
+boundary	282,290	O	B-Material
+phase	291,296	O	I-Material
+space	297,302	O	I-Material
+coordinate	303,313	O	I-Material
+system	314,320	O	I-Material
+.	320,321	O	O
+
+In	322,324	O	O
+two	325,328	O	O
+dimensions	329,339	O	O
+this	340,344	O	O
+is	345,347	O	O
+simple	348,354	O	O
+as	355,357	O	O
+the	358,361	O	O
+boundary	362,370	O	O
+may	371,374	O	O
+be	375,377	O	O
+parametrised	378,390	O	O
+along	391,396	O	O
+its	397,400	O	O
+arc	401,404	O	B-Material
+-	404,405	O	I-Material
+length	405,411	O	I-Material
+and	412,415	O	O
+the	416,419	O	O
+associated	420,430	O	O
+momentum	431,439	O	B-Material
+(	440,441	O	I-Material
+or	441,443	O	I-Material
+direction	444,453	O	I-Material
+)	453,454	O	I-Material
+coordinate	455,465	O	I-Material
+taken	466,471	O	O
+tangential	472,482	O	O
+to	483,485	O	O
+the	486,489	O	O
+boundary	490,498	O	O
+.	498,499	O	O
+
+The	500,503	O	O
+basis	504,509	O	O
+can	510,513	O	O
+be	514,516	O	O
+any	517,520	O	O
+suitable	521,529	O	O
+(	530,531	O	O
+scaled	531,537	O	O
+)	537,538	O	O
+univariate	539,549	O	B-Material
+basis	550,555	O	I-Material
+in	556,558	O	O
+both	559,563	O	O
+position	564,572	O	O
+and	573,576	O	O
+momentum	577,585	O	O
+,	585,586	O	O
+such	587,591	O	O
+as	592,594	O	O
+a	595,596	O	O
+Fourier	597,604	O	B-Material
+basis	605,610	O	I-Material
+[	611,612	O	O
+8	612,613	O	O
+]	613,614	O	O
+or	615,617	O	O
+Chebyshev	618,627	O	B-Material
+polynomials	628,639	O	I-Material
+[	640,641	O	O
+9	641,642	O	O
+]	642,643	O	O
+.	643,644	O	O
+
+Defining	645,653	O	O
+a	654,655	O	O
+suitable	656,664	O	O
+parametrisation	665,680	O	O
+for	681,684	O	O
+the	685,688	O	O
+spatial	689,696	O	O
+coordinate	697,707	O	O
+in	708,710	O	O
+three	711,716	O	O
+-	716,717	O	O
+dimensions	717,727	O	O
+becomes	728,735	O	O
+much	736,740	O	O
+more	741,745	O	O
+difficult	746,755	O	O
+.	755,756	O	O
+
+In	757,759	O	O
+momentum	760,768	O	O
+space	769,774	O	O
+spherical	775,784	O	B-Process
+polar	785,790	O	I-Process
+coordinates	791,802	O	I-Process
+may	803,806	O	O
+be	807,809	O	O
+employed	810,818	O	O
+and	819,822	O	O
+so	823,825	O	O
+these	826,831	O	O
+problems	832,840	O	O
+do	841,843	O	O
+not	844,847	O	O
+arise	848,853	O	O
+.	853,854	O	O
 
 
 -DOCSTART- (S0021999112003579)
 
-We	0	2	O
-order	3	8	B-Task
-the	9	12	I-Task
-discrete	13	21	I-Task
-unknowns	22	30	I-Task
-so	31	33	O
-that	34	38	O
-the	39	42	O
-vector	43	49	B-Material
-of	50	52	I-Material
-unknowns	53	61	I-Material
-,	61	62	O
-xPS=[X	63	69	B-Material
-,	69	70	I-Material
-L	70	71	I-Material
-]	71	72	I-Material
-,	72	73	O
-contains	74	82	O
-the	83	86	O
-nx	87	89	O
-unknown	90	97	O
-nodal	98	103	B-Material
-coordinates	104	115	I-Material
-,	115	116	O
-followed	117	125	O
-by	126	128	O
-the	129	132	O
-nb	133	135	O
-unknown	136	143	O
-discrete	144	152	O
-Lagrange	153	161	B-Material
-multipliers	162	173	I-Material
-.	173	174	O
-
-The	175	178	O
-linear	179	185	O
-systems	186	193	O
-to	194	196	O
-be	197	199	O
-solved	200	206	O
-in	207	209	O
-the	210	213	O
-course	214	220	O
-of	221	223	O
-the	224	227	O
-Newton	228	234	B-Process
--	234	235	I-Process
-based	235	240	I-Process
-solution	241	249	I-Process
-of	250	252	O
-Eq	253	255	O
-.	255	256	O
-
-(	257	258	O
-10	258	260	O
-)	260	261	O
-,	261	262	O
-subject	263	270	O
-to	271	273	O
-the	274	277	O
-displacement	278	290	B-Material
-constraint	291	301	I-Material
-(	302	303	O
-9	303	304	O
-)	304	305	O
-,	305	306	O
-then	307	311	O
-have	312	316	O
-saddle	317	323	B-Process
--	323	324	I-Process
-point	324	329	I-Process
-structure,(15)where	330	349	I-Process
-E	350	351	O
-is	352	354	O
-the	355	358	O
-tangent	359	366	B-Process
-stiffness	367	376	I-Process
-matrix	377	383	I-Process
-of	384	386	O
-the	387	390	O
-unconstrained	391	404	B-Material
-pseudo	405	411	I-Material
--	411	412	I-Material
-solid	412	417	I-Material
-problem	418	425	I-Material
-,	425	426	O
-and	427	430	O
-the	431	434	O
-two	435	438	B-Material
-off	439	442	I-Material
--	442	443	I-Material
-diagonal	443	451	I-Material
-blocks	452	458	I-Material
-Cxl	459	462	B-Material
-and	463	466	O
-Clx	467	470	B-Material
-=	470	471	I-Material
-CxlT	471	475	I-Material
-arise	476	481	O
-through	482	489	O
-the	490	493	O
-imposition	494	504	O
-of	505	507	O
-the	508	511	O
-displacement	512	524	O
-constraint	525	535	O
-by	536	538	O
-the	539	542	O
-Lagrange	543	551	B-Material
-multipliers	552	563	I-Material
-.	563	564	O
-
-We	565	567	O
-refer	568	573	O
-to	574	576	O
-[	577	578	O
-34	578	580	O
-]	580	581	O
-for	582	585	O
-the	586	589	O
-proof	590	595	O
-of	596	598	O
-the	599	602	O
-LBB	603	606	B-Material
-stability	607	616	O
-of	617	619	O
-this	620	624	O
-discretisation	625	639	B-Process
-;	639	640	O
-see	641	644	O
-also	645	649	O
-[	650	651	O
-35,36	651	656	O
-]	656	657	O
-for	658	661	O
-a	662	663	O
-discussion	664	674	O
-of	675	677	O
-the	678	681	O
-LBB	682	685	B-Material
-stability	686	695	O
-of	696	698	O
-the	699	702	O
-Lagrange	703	711	B-Process
--	711	712	I-Process
-multiplier	712	722	I-Process
--	722	723	I-Process
-based	723	728	I-Process
-imposition	729	739	I-Process
-of	740	742	O
-Dirichlet	743	752	B-Process
-boundary	753	761	I-Process
-conditions	762	772	I-Process
-in	773	775	O
-related	776	783	O
-problems	784	792	O
-.	792	793	O
-
-We	794	796	O
-note	797	801	O
-that	802	806	O
-during	807	813	O
-the	814	817	O
-first	818	823	O
-step	824	828	O
-of	829	831	O
-the	832	835	O
-Newton	836	842	B-Process
-iteration	843	852	I-Process
-,	852	853	O
-E	854	855	O
-is	856	858	O
-symmetric	859	868	O
-positive	869	877	O
-definite	878	886	O
-since	887	892	O
-it	893	895	O
-represents	896	906	O
-the	907	910	O
-tangent	911	918	B-Material
-stiffness	919	928	I-Material
-matrix	929	935	I-Material
-relative	936	944	O
-to	945	947	O
-the	948	951	O
-system	952	958	O
-’s	958	960	O
-equilibrium	961	972	B-Process
-configuration	973	986	I-Process
-.	986	987	O
+We	0,2	O	O
+order	3,8	O	B-Task
+the	9,12	O	I-Task
+discrete	13,21	O	I-Task
+unknowns	22,30	O	I-Task
+so	31,33	O	O
+that	34,38	O	O
+the	39,42	O	O
+vector	43,49	O	B-Material
+of	50,52	O	I-Material
+unknowns	53,61	O	I-Material
+,	61,62	O	O
+xPS=[X	63,69	O	B-Material
+,	69,70	O	I-Material
+L	70,71	O	I-Material
+]	71,72	O	I-Material
+,	72,73	O	O
+contains	74,82	O	O
+the	83,86	O	O
+nx	87,89	O	O
+unknown	90,97	O	O
+nodal	98,103	O	B-Material
+coordinates	104,115	O	I-Material
+,	115,116	O	O
+followed	117,125	O	O
+by	126,128	O	O
+the	129,132	O	O
+nb	133,135	O	O
+unknown	136,143	O	O
+discrete	144,152	O	O
+Lagrange	153,161	O	B-Material
+multipliers	162,173	O	I-Material
+.	173,174	O	O
+
+The	175,178	O	O
+linear	179,185	O	O
+systems	186,193	O	O
+to	194,196	O	O
+be	197,199	O	O
+solved	200,206	O	O
+in	207,209	O	O
+the	210,213	O	O
+course	214,220	O	O
+of	221,223	O	O
+the	224,227	O	O
+Newton	228,234	O	B-Process
+-	234,235	O	I-Process
+based	235,240	O	I-Process
+solution	241,249	O	I-Process
+of	250,252	O	O
+Eq	253,255	O	O
+.	255,256	O	O
+
+(	257,258	O	O
+10	258,260	O	O
+)	260,261	O	O
+,	261,262	O	O
+subject	263,270	O	O
+to	271,273	O	O
+the	274,277	O	O
+displacement	278,290	O	B-Material
+constraint	291,301	O	I-Material
+(	302,303	O	O
+9	303,304	O	O
+)	304,305	O	O
+,	305,306	O	O
+then	307,311	O	O
+have	312,316	O	O
+saddle	317,323	O	B-Process
+-	323,324	O	I-Process
+point	324,329	O	I-Process
+structure,(15)where	330,349	O	I-Process
+E	350,351	O	O
+is	352,354	O	O
+the	355,358	O	O
+tangent	359,366	O	B-Process
+stiffness	367,376	O	I-Process
+matrix	377,383	O	I-Process
+of	384,386	O	O
+the	387,390	O	O
+unconstrained	391,404	O	B-Material
+pseudo	405,411	O	I-Material
+-	411,412	O	I-Material
+solid	412,417	O	I-Material
+problem	418,425	O	I-Material
+,	425,426	O	O
+and	427,430	O	O
+the	431,434	O	O
+two	435,438	O	B-Material
+off	439,442	O	I-Material
+-	442,443	O	I-Material
+diagonal	443,451	O	I-Material
+blocks	452,458	O	I-Material
+Cxl	459,462	O	B-Material
+and	463,466	O	O
+Clx	467,470	O	B-Material
+=	470,471	O	I-Material
+CxlT	471,475	O	I-Material
+arise	476,481	O	O
+through	482,489	O	O
+the	490,493	O	O
+imposition	494,504	O	O
+of	505,507	O	O
+the	508,511	O	O
+displacement	512,524	O	O
+constraint	525,535	O	O
+by	536,538	O	O
+the	539,542	O	O
+Lagrange	543,551	O	B-Material
+multipliers	552,563	O	I-Material
+.	563,564	O	O
+
+We	565,567	O	O
+refer	568,573	O	O
+to	574,576	O	O
+[	577,578	O	O
+34	578,580	O	O
+]	580,581	O	O
+for	582,585	O	O
+the	586,589	O	O
+proof	590,595	O	O
+of	596,598	O	O
+the	599,602	O	O
+LBB	603,606	O	B-Material
+stability	607,616	O	O
+of	617,619	O	O
+this	620,624	O	O
+discretisation	625,639	O	B-Process
+;	639,640	O	O
+see	641,644	O	O
+also	645,649	O	O
+[	650,651	O	O
+35,36	651,656	O	O
+]	656,657	O	O
+for	658,661	O	O
+a	662,663	O	O
+discussion	664,674	O	O
+of	675,677	O	O
+the	678,681	O	O
+LBB	682,685	O	B-Material
+stability	686,695	O	O
+of	696,698	O	O
+the	699,702	O	O
+Lagrange	703,711	O	B-Process
+-	711,712	O	I-Process
+multiplier	712,722	O	I-Process
+-	722,723	O	I-Process
+based	723,728	O	I-Process
+imposition	729,739	O	I-Process
+of	740,742	O	O
+Dirichlet	743,752	O	B-Process
+boundary	753,761	O	I-Process
+conditions	762,772	O	I-Process
+in	773,775	O	O
+related	776,783	O	O
+problems	784,792	O	O
+.	792,793	O	O
+
+We	794,796	O	O
+note	797,801	O	O
+that	802,806	O	O
+during	807,813	O	O
+the	814,817	O	O
+first	818,823	O	O
+step	824,828	O	O
+of	829,831	O	O
+the	832,835	O	O
+Newton	836,842	O	B-Process
+iteration	843,852	O	I-Process
+,	852,853	O	O
+E	854,855	O	O
+is	856,858	O	O
+symmetric	859,868	O	O
+positive	869,877	O	O
+definite	878,886	O	O
+since	887,892	O	O
+it	893,895	O	O
+represents	896,906	O	O
+the	907,910	O	O
+tangent	911,918	O	B-Material
+stiffness	919,928	O	I-Material
+matrix	929,935	O	I-Material
+relative	936,944	O	O
+to	945,947	O	O
+the	948,951	O	O
+system	952,958	O	O
+’s	958,960	O	O
+equilibrium	961,972	O	B-Process
+configuration	973,986	O	I-Process
+.	986,987	O	O
 
 
 -DOCSTART- (S0021999113002945)
 
-Inequality	0	10	B-Process
-(	11	12	O
-22	12	14	O
-)	14	15	O
-indicates	16	25	O
-that	26	30	O
-the	31	34	O
-maximum	35	42	B-Material
--	42	43	I-Material
-norm	43	47	I-Material
-is	48	50	O
-the	51	54	O
-loosest	55	62	O
-among	63	68	O
-all	69	72	O
-p	73	74	B-Material
--	74	75	I-Material
-norms	75	80	I-Material
-.	80	81	O
-
-Fortunately	82	93	O
-,	93	94	O
-this	95	99	O
-loosest	100	107	O
-constraint	108	118	O
-would	119	124	O
-not	125	128	O
-seriously	129	138	O
-affect	139	145	O
-the	146	149	O
-accuracy	150	158	O
-since	159	164	O
-the	165	168	O
-value	169	174	O
-of	175	177	O
-||y||∞	178	184	B-Material
-is	185	187	O
-comparable	188	198	O
-to	199	201	O
-that	202	206	O
-of	207	209	O
-the	210	213	O
-2-norm	214	220	B-Material
-and	221	224	O
-1-norm	225	231	B-Material
-.	231	232	O
-
-The	233	236	O
-maximum	237	244	B-Material
--	244	245	I-Material
-norm	245	249	I-Material
-provides	250	258	O
-us	259	261	O
-with	262	266	O
-the	267	270	O
-largest	271	278	O
-number	279	285	O
-of	286	288	O
-possible	289	297	O
-solutions	298	307	O
-under	308	313	O
-a	314	315	O
-given	316	321	O
-error	322	327	O
-limitation	328	338	O
-[	339	340	O
-24	340	342	O
-]	342	343	O
-.	343	344	O
-
-This	345	349	O
-would	350	355	O
-greatly	356	363	O
-enhance	364	371	O
-the	372	375	O
-possibility	376	387	O
-of	388	390	O
-finding	391	398	O
-a	399	400	O
-group	401	406	O
-of	407	409	O
-optimized	410	419	B-Material
-coefficients	420	432	I-Material
-when	433	437	O
-scanning	438	446	O
-a	447	448	O
-vast	449	453	B-Process
-solution	454	462	I-Process
-set	463	466	I-Process
-.	466	467	O
-
-On	468	470	O
-the	471	474	O
-other	475	480	O
-hand	481	485	O
-,	485	486	O
-checking	487	495	O
-the	496	499	O
-maximum	500	507	B-Material
-deviation	508	517	I-Material
-sounds	518	524	O
-more	525	529	O
-reasonable	530	540	O
-than	541	545	O
-checking	546	554	O
-the	555	558	O
-“	559	560	O
-distance	560	568	O
-”	568	569	O
-between	570	577	O
-the	578	581	O
-accurate	582	590	O
-and	591	594	O
-approximated	595	607	O
-wave	608	612	O
-numbers	613	620	O
-since	621	626	O
-it	627	629	O
-is	630	632	O
-not	633	636	O
-working	637	644	O
-in	645	647	O
-the	648	651	O
-space	652	657	O
-domain	658	664	O
-.	664	665	O
-
-Therefore	666	675	O
-,	675	676	O
-we	677	679	O
-chose	680	685	O
-the	686	689	O
-maximum	690	697	B-Material
--	697	698	I-Material
-norm	698	702	I-Material
-as	703	705	O
-our	706	709	O
-criterion	710	719	O
-for	720	723	O
-designing	724	733	O
-the	734	737	O
-objective	738	747	B-Material
-functions	748	757	I-Material
-to	758	760	O
-extend	761	767	B-Task
-the	768	771	I-Task
-accurate	772	780	I-Task
-wave	781	785	I-Task
-number	786	792	I-Task
-coverage	793	801	I-Task
-as	802	804	O
-widely	805	811	O
-as	812	814	O
-possible	815	823	O
-.	823	824	O
+Inequality	0,10	O	B-Process
+(	11,12	O	O
+22	12,14	O	O
+)	14,15	O	O
+indicates	16,25	O	O
+that	26,30	O	O
+the	31,34	O	O
+maximum	35,42	O	B-Material
+-	42,43	O	I-Material
+norm	43,47	O	I-Material
+is	48,50	O	O
+the	51,54	O	O
+loosest	55,62	O	O
+among	63,68	O	O
+all	69,72	O	O
+p	73,74	O	B-Material
+-	74,75	O	I-Material
+norms	75,80	O	I-Material
+.	80,81	O	O
+
+Fortunately	82,93	O	O
+,	93,94	O	O
+this	95,99	O	O
+loosest	100,107	O	O
+constraint	108,118	O	O
+would	119,124	O	O
+not	125,128	O	O
+seriously	129,138	O	O
+affect	139,145	O	O
+the	146,149	O	O
+accuracy	150,158	O	O
+since	159,164	O	O
+the	165,168	O	O
+value	169,174	O	O
+of	175,177	O	O
+||y||∞	178,184	O	B-Material
+is	185,187	O	O
+comparable	188,198	O	O
+to	199,201	O	O
+that	202,206	O	O
+of	207,209	O	O
+the	210,213	O	O
+2-norm	214,220	O	B-Material
+and	221,224	O	O
+1-norm	225,231	O	B-Material
+.	231,232	O	O
+
+The	233,236	O	O
+maximum	237,244	O	B-Material
+-	244,245	O	I-Material
+norm	245,249	O	I-Material
+provides	250,258	O	O
+us	259,261	O	O
+with	262,266	O	O
+the	267,270	O	O
+largest	271,278	O	O
+number	279,285	O	O
+of	286,288	O	O
+possible	289,297	O	O
+solutions	298,307	O	O
+under	308,313	O	O
+a	314,315	O	O
+given	316,321	O	O
+error	322,327	O	O
+limitation	328,338	O	O
+[	339,340	O	O
+24	340,342	O	O
+]	342,343	O	O
+.	343,344	O	O
+
+This	345,349	O	O
+would	350,355	O	O
+greatly	356,363	O	O
+enhance	364,371	O	O
+the	372,375	O	O
+possibility	376,387	O	O
+of	388,390	O	O
+finding	391,398	O	O
+a	399,400	O	O
+group	401,406	O	O
+of	407,409	O	O
+optimized	410,419	O	B-Material
+coefficients	420,432	O	I-Material
+when	433,437	O	O
+scanning	438,446	O	O
+a	447,448	O	O
+vast	449,453	O	B-Process
+solution	454,462	O	I-Process
+set	463,466	O	I-Process
+.	466,467	O	O
+
+On	468,470	O	O
+the	471,474	O	O
+other	475,480	O	O
+hand	481,485	O	O
+,	485,486	O	O
+checking	487,495	O	O
+the	496,499	O	O
+maximum	500,507	O	B-Material
+deviation	508,517	O	I-Material
+sounds	518,524	O	O
+more	525,529	O	O
+reasonable	530,540	O	O
+than	541,545	O	O
+checking	546,554	O	O
+the	555,558	O	O
+“	559,560	O	O
+distance	560,568	O	O
+”	568,569	O	O
+between	570,577	O	O
+the	578,581	O	O
+accurate	582,590	O	O
+and	591,594	O	O
+approximated	595,607	O	O
+wave	608,612	O	O
+numbers	613,620	O	O
+since	621,626	O	O
+it	627,629	O	O
+is	630,632	O	O
+not	633,636	O	O
+working	637,644	O	O
+in	645,647	O	O
+the	648,651	O	O
+space	652,657	O	O
+domain	658,664	O	O
+.	664,665	O	O
+
+Therefore	666,675	O	O
+,	675,676	O	O
+we	677,679	O	O
+chose	680,685	O	O
+the	686,689	O	O
+maximum	690,697	O	B-Material
+-	697,698	O	I-Material
+norm	698,702	O	I-Material
+as	703,705	O	O
+our	706,709	O	O
+criterion	710,719	O	O
+for	720,723	O	O
+designing	724,733	O	O
+the	734,737	O	O
+objective	738,747	O	B-Material
+functions	748,757	O	I-Material
+to	758,760	O	O
+extend	761,767	O	B-Task
+the	768,771	O	I-Task
+accurate	772,780	O	I-Task
+wave	781,785	O	I-Task
+number	786,792	O	I-Task
+coverage	793,801	O	I-Task
+as	802,804	O	O
+widely	805,811	O	O
+as	812,814	O	O
+possible	815,823	O	O
+.	823,824	O	O
 
 
 -DOCSTART- (S0021999113003422)
 
-Similar	0	7	O
-numerical	8	17	B-Material
-oscillations	18	30	I-Material
-to	31	33	O
-those	34	39	O
-described	40	49	O
-above	50	55	O
-also	56	60	O
-emerge	61	67	O
-in	68	70	O
-the	71	74	O
-ISPM	75	79	B-Material
-when	80	84	O
-utilising	85	94	O
-classical	95	104	O
-IBM	105	108	B-Process
-kernels	109	116	I-Process
-due	117	120	O
-to	121	123	O
-their	124	129	O
-lack	130	134	O
-of	135	137	O
-regularity	138	148	O
-(	149	150	O
-with	150	154	O
-discontinuous	155	168	O
-second	169	175	O
-derivatives	176	187	O
-)	187	188	O
-.	188	189	O
-
-Furthermore	190	201	O
-,	201	202	O
-it	203	205	O
-is	206	208	O
-important	209	218	O
-to	219	221	O
-remark	222	228	O
-that	229	233	O
-the	234	237	O
-immersed	238	246	O
-structure	247	256	O
-stresses	257	265	O
-are	266	269	O
-captured	270	278	O
-in	279	281	O
-the	282	285	O
-Lagrangian	286	296	B-Process
-description	297	308	I-Process
-and	309	312	O
-hence	313	318	O
-,	318	319	O
-in	320	322	O
-order	323	328	O
-to	329	331	O
-compute	332	339	O
-them	340	344	O
-accurately	345	355	O
-,	355	356	O
-it	357	359	O
-is	360	362	O
-important	363	372	O
-to	373	375	O
-ensure	376	382	O
-that	383	387	O
-these	388	393	O
-spurious	394	402	O
-oscillations	403	415	B-Material
-are	416	419	O
-not	420	423	O
-introduced	424	434	O
-via	435	438	O
-the	439	442	O
-kernel	443	449	B-Process
-interpolation	450	463	I-Process
-functions	464	473	I-Process
-.	473	474	O
-
-In	475	477	O
-this	478	482	O
-paper	483	488	O
-,	488	489	O
-the	490	493	O
-authors	494	501	O
-have	502	506	O
-specifically	507	519	O
-designed	520	528	O
-a	529	530	B-Task
-new	531	534	I-Task
-family	535	541	I-Task
-of	542	544	I-Task
-kernel	545	551	I-Task
-functions	552	561	I-Task
-which	562	567	I-Task
-do	568	570	I-Task
-not	571	574	I-Task
-introduce	575	584	I-Task
-these	585	590	I-Task
-spurious	591	599	I-Task
-oscillations	600	612	I-Task
-.	612	613	O
-
-The	614	617	O
-kernel	618	624	B-Process
-functions	625	634	I-Process
-are	635	638	O
-obtained	639	647	O
-by	648	650	O
-taking	651	657	O
-into	658	662	O
-account	663	670	O
-discrete	671	679	O
-reproducibility	680	695	O
-conditions	696	706	O
-as	707	709	O
-originally	710	720	O
-introduced	721	731	O
-by	732	734	O
-Peskin	735	741	O
-[	742	743	O
-14	743	745	O
-]	745	746	O
-(	747	748	O
-in	748	750	O
-our	751	754	O
-case	755	759	O
-,	759	760	O
-tailor	761	767	O
--	767	768	O
-made	768	772	O
-for	773	776	O
-Cartesian	777	786	B-Process
-staggered	787	796	I-Process
-grids	797	802	I-Process
-)	802	803	O
-and	804	807	O
-regularity	808	818	O
-requirements	819	831	O
-to	832	834	O
-prevent	835	842	O
-the	843	846	O
-appearance	847	857	O
-of	858	860	O
-spurious	861	869	O
-oscillations	870	882	B-Material
-when	883	887	O
-computing	888	897	B-Process
-derivatives	898	909	I-Process
-.	909	910	O
-
-A	911	912	O
-Maple	913	918	B-Task
-computer	919	927	I-Task
-program	928	935	I-Task
-has	936	939	O
-been	940	944	O
-developed	945	954	O
-to	955	957	O
-obtain	958	964	B-Task
-explicit	965	973	I-Task
-expressions	974	985	I-Task
-for	986	989	I-Task
-the	990	993	I-Task
-new	994	997	I-Task
-kernels	998	1005	I-Task
-.	1005	1006	O
+Similar	0,7	O	O
+numerical	8,17	O	B-Material
+oscillations	18,30	O	I-Material
+to	31,33	O	O
+those	34,39	O	O
+described	40,49	O	O
+above	50,55	O	O
+also	56,60	O	O
+emerge	61,67	O	O
+in	68,70	O	O
+the	71,74	O	O
+ISPM	75,79	O	B-Material
+when	80,84	O	O
+utilising	85,94	O	O
+classical	95,104	O	O
+IBM	105,108	O	B-Process
+kernels	109,116	O	I-Process
+due	117,120	O	O
+to	121,123	O	O
+their	124,129	O	O
+lack	130,134	O	O
+of	135,137	O	O
+regularity	138,148	O	O
+(	149,150	O	O
+with	150,154	O	O
+discontinuous	155,168	O	O
+second	169,175	O	O
+derivatives	176,187	O	O
+)	187,188	O	O
+.	188,189	O	O
+
+Furthermore	190,201	O	O
+,	201,202	O	O
+it	203,205	O	O
+is	206,208	O	O
+important	209,218	O	O
+to	219,221	O	O
+remark	222,228	O	O
+that	229,233	O	O
+the	234,237	O	O
+immersed	238,246	O	O
+structure	247,256	O	O
+stresses	257,265	O	O
+are	266,269	O	O
+captured	270,278	O	O
+in	279,281	O	O
+the	282,285	O	O
+Lagrangian	286,296	O	B-Process
+description	297,308	O	I-Process
+and	309,312	O	O
+hence	313,318	O	O
+,	318,319	O	O
+in	320,322	O	O
+order	323,328	O	O
+to	329,331	O	O
+compute	332,339	O	O
+them	340,344	O	O
+accurately	345,355	O	O
+,	355,356	O	O
+it	357,359	O	O
+is	360,362	O	O
+important	363,372	O	O
+to	373,375	O	O
+ensure	376,382	O	O
+that	383,387	O	O
+these	388,393	O	O
+spurious	394,402	O	O
+oscillations	403,415	O	B-Material
+are	416,419	O	O
+not	420,423	O	O
+introduced	424,434	O	O
+via	435,438	O	O
+the	439,442	O	O
+kernel	443,449	O	B-Process
+interpolation	450,463	O	I-Process
+functions	464,473	O	I-Process
+.	473,474	O	O
+
+In	475,477	O	O
+this	478,482	O	O
+paper	483,488	O	O
+,	488,489	O	O
+the	490,493	O	O
+authors	494,501	O	O
+have	502,506	O	O
+specifically	507,519	O	O
+designed	520,528	O	O
+a	529,530	O	B-Task
+new	531,534	O	I-Task
+family	535,541	O	I-Task
+of	542,544	O	I-Task
+kernel	545,551	O	I-Task
+functions	552,561	O	I-Task
+which	562,567	O	I-Task
+do	568,570	O	I-Task
+not	571,574	O	I-Task
+introduce	575,584	O	I-Task
+these	585,590	O	I-Task
+spurious	591,599	O	I-Task
+oscillations	600,612	O	I-Task
+.	612,613	O	O
+
+The	614,617	O	O
+kernel	618,624	O	B-Process
+functions	625,634	O	I-Process
+are	635,638	O	O
+obtained	639,647	O	O
+by	648,650	O	O
+taking	651,657	O	O
+into	658,662	O	O
+account	663,670	O	O
+discrete	671,679	O	O
+reproducibility	680,695	O	O
+conditions	696,706	O	O
+as	707,709	O	O
+originally	710,720	O	O
+introduced	721,731	O	O
+by	732,734	O	O
+Peskin	735,741	O	O
+[	742,743	O	O
+14	743,745	O	O
+]	745,746	O	O
+(	747,748	O	O
+in	748,750	O	O
+our	751,754	O	O
+case	755,759	O	O
+,	759,760	O	O
+tailor	761,767	O	O
+-	767,768	O	O
+made	768,772	O	O
+for	773,776	O	O
+Cartesian	777,786	O	B-Process
+staggered	787,796	O	I-Process
+grids	797,802	O	I-Process
+)	802,803	O	O
+and	804,807	O	O
+regularity	808,818	O	O
+requirements	819,831	O	O
+to	832,834	O	O
+prevent	835,842	O	O
+the	843,846	O	O
+appearance	847,857	O	O
+of	858,860	O	O
+spurious	861,869	O	O
+oscillations	870,882	O	B-Material
+when	883,887	O	O
+computing	888,897	O	B-Process
+derivatives	898,909	O	I-Process
+.	909,910	O	O
+
+A	911,912	O	O
+Maple	913,918	O	B-Task
+computer	919,927	O	I-Task
+program	928,935	O	I-Task
+has	936,939	O	O
+been	940,944	O	O
+developed	945,954	O	O
+to	955,957	O	O
+obtain	958,964	O	B-Task
+explicit	965,973	O	I-Task
+expressions	974,985	O	I-Task
+for	986,989	O	I-Task
+the	990,993	O	I-Task
+new	994,997	O	I-Task
+kernels	998,1005	O	I-Task
+.	1005,1006	O	O
 
 
 -DOCSTART- (S002199911300346X)
 
-Contact	0	7	B-Process
-methods	8	15	I-Process
-have	16	20	O
-been	21	25	O
-developed	26	35	O
-and	36	39	O
-used	40	44	O
-in	45	47	O
-Lagrangian	48	58	O
-staggered	59	68	B-Material
--	68	69	I-Material
-grid	69	73	I-Material
-hydrodynamic	74	86	I-Material
-(	87	88	O
-SGH	88	91	B-Material
-)	91	92	O
-calculations	93	105	O
-for	106	109	O
-many	110	114	O
-years	115	120	O
-.	120	121	O
-
-Early	122	127	O
-examples	128	136	O
-of	137	139	O
-contact	140	147	B-Process
-methods	148	155	I-Process
-are	156	159	O
-discussed	160	169	O
-in	170	172	O
-Wilkins	173	180	O
-[	181	182	O
-37	182	184	O
-]	184	185	O
-and	186	189	O
-Cherry	190	196	O
-et	197	199	O
-al	200	202	O
-.	202	203	O
-
-[	204	205	O
-7	205	206	O
-]	206	207	O
-.	207	208	O
-
-Hallquist	209	218	O
-et	219	221	O
-al	222	224	O
-.	224	225	O
-
-[	226	227	O
-17	227	229	O
-]	229	230	O
-provides	231	239	O
-an	240	242	O
-overview	243	251	O
-of	252	254	O
-multiple	255	263	O
-contact	264	271	B-Process
-algorithms	272	282	I-Process
-used	283	287	O
-in	288	290	O
-various	291	298	O
-Lagrangian	299	309	B-Process
-SGH	310	313	I-Process
-codes	314	319	O
-dating	320	326	O
-back	327	331	O
-to	332	334	O
-HEMP	335	339	B-Process
-[	340	341	O
-37	341	343	O
-]	343	344	O
-.	344	345	O
-
-Of	346	348	O
-particular	349	359	O
-interest	360	368	O
-,	368	369	O
-Hallquist	370	379	O
-et	380	382	O
-al	383	385	O
-.	385	386	O
-
-[	387	388	O
-17	388	390	O
-]	390	391	O
-describes	392	401	O
-the	402	405	O
-contact	406	413	B-Process
-surface	414	421	I-Process
-scheme	422	428	I-Process
-used	429	433	O
-in	434	436	O
-TOODY	437	442	B-Process
-[	443	444	O
-31	444	446	O
-]	446	447	O
-and	448	451	O
-later	452	457	O
-implemented	458	469	O
-in	470	472	O
-DYNA2D	473	479	B-Process
-[	480	481	O
-36	481	483	O
-]	483	484	O
-.	484	485	O
-
-The	486	489	O
-contact	490	497	B-Process
-method	498	504	I-Process
-of	505	507	O
-TOODY	508	513	B-Process
-uses	514	518	O
-a	519	520	O
-master	521	527	B-Process
-–	527	528	I-Process
-slave	528	533	I-Process
-approach	534	542	I-Process
-.	542	543	O
-
-The	544	547	O
-goal	548	552	O
-of	553	555	O
-this	556	560	O
-approach	561	569	O
-is	570	572	O
-to	573	575	O
-treat	576	581	O
-the	582	585	O
-nodes	586	591	B-Material
-on	592	594	O
-the	595	598	O
-contact	599	606	B-Material
-surface	607	614	I-Material
-in	615	617	O
-a	618	619	O
-manner	620	626	O
-similar	627	634	O
-to	635	637	O
-an	638	640	O
-internal	641	649	B-Material
-node	650	654	I-Material
-.	654	655	O
-
-The	656	659	O
-physical	660	668	O
-properties	669	679	O
-of	680	682	O
-the	683	686	O
-slave	687	692	B-Material
-surface	693	700	I-Material
-are	701	704	O
-interpolated	705	717	O
-to	718	720	O
-a	721	722	O
-ghost	723	728	B-Material
-mesh	729	733	I-Material
-(	734	735	O
-termed	735	741	O
-phony	742	747	B-Material
-elements	748	756	I-Material
-in	757	759	O
-[	760	761	O
-17	761	763	O
-]	763	764	O
-)	764	765	O
-that	766	770	O
-overlays	771	779	O
-the	780	783	O
-slave	784	789	B-Material
-zones	790	795	I-Material
-.	795	796	O
-
-The	797	800	O
-physical	801	809	O
-properties	810	820	O
-are	821	824	O
-interpolated	825	837	O
-from	838	842	O
-the	843	846	O
-slave	847	852	B-Material
-surface	853	860	I-Material
-to	861	863	O
-the	864	867	O
-ghost	868	873	B-Material
-zones	874	879	I-Material
-using	880	885	O
-surface	886	893	O
-area	894	898	O
-weights	899	906	O
-.	906	907	O
-
-The	908	911	O
-surface	912	919	O
-area	920	924	O
-weights	925	932	O
-are	933	936	O
-equal	937	942	O
-to	943	945	O
-the	946	949	O
-ratio	950	955	O
-of	956	958	O
-the	959	962	O
-ghost	963	968	B-Material
-zone	969	973	I-Material
-surface	974	981	I-Material
-area	982	986	I-Material
-to	987	989	O
-the	990	993	O
-surface	994	1001	B-Material
-area	1002	1006	I-Material
-of	1007	1009	O
-the	1010	1013	O
-master	1014	1020	B-Material
-surface	1021	1028	I-Material
-.	1028	1029	O
-
-The	1030	1033	O
-contact	1034	1041	B-Task
-surface	1042	1049	I-Task
-method	1050	1056	I-Task
-for	1057	1060	O
-nodal	1061	1066	B-Process
--	1066	1067	I-Process
-based	1067	1072	I-Process
-Lagrangian	1073	1083	I-Process
-cell	1084	1088	I-Process
--	1088	1089	I-Process
-centered	1089	1097	I-Process
-hydrodynamics	1098	1111	I-Process
-(	1112	1113	O
-CCH	1113	1116	B-Material
-)	1116	1117	O
-presented	1118	1127	O
-in	1128	1130	O
-this	1131	1135	O
-paper	1136	1141	O
-will	1142	1146	O
-use	1147	1150	O
-surface	1151	1158	O
-area	1159	1163	O
-weights	1164	1171	O
-similar	1172	1179	O
-in	1180	1182	O
-concept	1183	1190	O
-to	1191	1193	O
-those	1194	1199	O
-in	1200	1202	O
-TOODY	1203	1208	B-Process
-.	1208	1209	O
-
-Following	1210	1219	O
-the	1220	1223	O
-area	1224	1228	B-Process
-fraction	1229	1237	I-Process
-approach	1238	1246	I-Process
-of	1247	1249	O
-TOODY	1250	1255	B-Process
-may	1256	1259	O
-seem	1260	1264	O
-retrospective	1265	1278	O
-;	1278	1279	O
-however	1280	1287	O
-,	1287	1288	O
-using	1289	1294	O
-surface	1295	1302	O
-area	1303	1307	O
-weights	1308	1315	O
-naturally	1316	1325	O
-extends	1326	1333	O
-to	1334	1336	O
-the	1337	1340	O
-new	1341	1344	O
-CCH	1345	1348	B-Process
-methods	1349	1356	I-Process
-that	1357	1361	O
-solve	1362	1367	B-Task
-a	1368	1369	I-Task
-Riemann	1370	1377	I-Task
--	1377	1378	I-Task
-like	1378	1382	I-Task
-problem	1383	1390	I-Task
-at	1391	1393	I-Task
-the	1394	1397	I-Task
-node	1398	1402	I-Task
-of	1403	1405	I-Task
-a	1406	1407	I-Task
-zone	1408	1412	I-Task
-[	1413	1414	O
-10,24,25,3	1414	1424	O
-]	1424	1425	O
-.	1425	1426	O
+Contact	0,7	O	B-Process
+methods	8,15	O	I-Process
+have	16,20	O	O
+been	21,25	O	O
+developed	26,35	O	O
+and	36,39	O	O
+used	40,44	O	O
+in	45,47	O	O
+Lagrangian	48,58	O	O
+staggered	59,68	O	B-Material
+-	68,69	O	I-Material
+grid	69,73	O	I-Material
+hydrodynamic	74,86	O	I-Material
+(	87,88	O	O
+SGH	88,91	O	B-Material
+)	91,92	O	O
+calculations	93,105	O	O
+for	106,109	O	O
+many	110,114	O	O
+years	115,120	O	O
+.	120,121	O	O
+
+Early	122,127	O	O
+examples	128,136	O	O
+of	137,139	O	O
+contact	140,147	O	B-Process
+methods	148,155	O	I-Process
+are	156,159	O	O
+discussed	160,169	O	O
+in	170,172	O	O
+Wilkins	173,180	O	O
+[	181,182	O	O
+37	182,184	O	O
+]	184,185	O	O
+and	186,189	O	O
+Cherry	190,196	O	O
+et	197,199	O	O
+al	200,202	O	O
+.	202,203	O	O
+
+[	204,205	O	O
+7	205,206	O	O
+]	206,207	O	O
+.	207,208	O	O
+
+Hallquist	209,218	O	O
+et	219,221	O	O
+al	222,224	O	O
+.	224,225	O	O
+
+[	226,227	O	O
+17	227,229	O	O
+]	229,230	O	O
+provides	231,239	O	O
+an	240,242	O	O
+overview	243,251	O	O
+of	252,254	O	O
+multiple	255,263	O	O
+contact	264,271	O	B-Process
+algorithms	272,282	O	I-Process
+used	283,287	O	O
+in	288,290	O	O
+various	291,298	O	O
+Lagrangian	299,309	O	B-Process
+SGH	310,313	O	I-Process
+codes	314,319	O	O
+dating	320,326	O	O
+back	327,331	O	O
+to	332,334	O	O
+HEMP	335,339	O	B-Process
+[	340,341	O	O
+37	341,343	O	O
+]	343,344	O	O
+.	344,345	O	O
+
+Of	346,348	O	O
+particular	349,359	O	O
+interest	360,368	O	O
+,	368,369	O	O
+Hallquist	370,379	O	O
+et	380,382	O	O
+al	383,385	O	O
+.	385,386	O	O
+
+[	387,388	O	O
+17	388,390	O	O
+]	390,391	O	O
+describes	392,401	O	O
+the	402,405	O	O
+contact	406,413	O	B-Process
+surface	414,421	O	I-Process
+scheme	422,428	O	I-Process
+used	429,433	O	O
+in	434,436	O	O
+TOODY	437,442	O	B-Process
+[	443,444	O	O
+31	444,446	O	O
+]	446,447	O	O
+and	448,451	O	O
+later	452,457	O	O
+implemented	458,469	O	O
+in	470,472	O	O
+DYNA2D	473,479	O	B-Process
+[	480,481	O	O
+36	481,483	O	O
+]	483,484	O	O
+.	484,485	O	O
+
+The	486,489	O	O
+contact	490,497	O	B-Process
+method	498,504	O	I-Process
+of	505,507	O	O
+TOODY	508,513	O	B-Process
+uses	514,518	O	O
+a	519,520	O	O
+master	521,527	O	B-Process
+–	527,528	O	I-Process
+slave	528,533	O	I-Process
+approach	534,542	O	I-Process
+.	542,543	O	O
+
+The	544,547	O	O
+goal	548,552	O	O
+of	553,555	O	O
+this	556,560	O	O
+approach	561,569	O	O
+is	570,572	O	O
+to	573,575	O	O
+treat	576,581	O	O
+the	582,585	O	O
+nodes	586,591	O	B-Material
+on	592,594	O	O
+the	595,598	O	O
+contact	599,606	O	B-Material
+surface	607,614	O	I-Material
+in	615,617	O	O
+a	618,619	O	O
+manner	620,626	O	O
+similar	627,634	O	O
+to	635,637	O	O
+an	638,640	O	O
+internal	641,649	O	B-Material
+node	650,654	O	I-Material
+.	654,655	O	O
+
+The	656,659	O	O
+physical	660,668	O	O
+properties	669,679	O	O
+of	680,682	O	O
+the	683,686	O	O
+slave	687,692	O	B-Material
+surface	693,700	O	I-Material
+are	701,704	O	O
+interpolated	705,717	O	O
+to	718,720	O	O
+a	721,722	O	O
+ghost	723,728	O	B-Material
+mesh	729,733	O	I-Material
+(	734,735	O	O
+termed	735,741	O	O
+phony	742,747	O	B-Material
+elements	748,756	O	I-Material
+in	757,759	O	O
+[	760,761	O	O
+17	761,763	O	O
+]	763,764	O	O
+)	764,765	O	O
+that	766,770	O	O
+overlays	771,779	O	O
+the	780,783	O	O
+slave	784,789	O	B-Material
+zones	790,795	O	I-Material
+.	795,796	O	O
+
+The	797,800	O	O
+physical	801,809	O	O
+properties	810,820	O	O
+are	821,824	O	O
+interpolated	825,837	O	O
+from	838,842	O	O
+the	843,846	O	O
+slave	847,852	O	B-Material
+surface	853,860	O	I-Material
+to	861,863	O	O
+the	864,867	O	O
+ghost	868,873	O	B-Material
+zones	874,879	O	I-Material
+using	880,885	O	O
+surface	886,893	O	O
+area	894,898	O	O
+weights	899,906	O	O
+.	906,907	O	O
+
+The	908,911	O	O
+surface	912,919	O	O
+area	920,924	O	O
+weights	925,932	O	O
+are	933,936	O	O
+equal	937,942	O	O
+to	943,945	O	O
+the	946,949	O	O
+ratio	950,955	O	O
+of	956,958	O	O
+the	959,962	O	O
+ghost	963,968	O	B-Material
+zone	969,973	O	I-Material
+surface	974,981	O	I-Material
+area	982,986	O	I-Material
+to	987,989	O	O
+the	990,993	O	O
+surface	994,1001	O	B-Material
+area	1002,1006	O	I-Material
+of	1007,1009	O	O
+the	1010,1013	O	O
+master	1014,1020	O	B-Material
+surface	1021,1028	O	I-Material
+.	1028,1029	O	O
+
+The	1030,1033	O	O
+contact	1034,1041	O	B-Task
+surface	1042,1049	O	I-Task
+method	1050,1056	O	I-Task
+for	1057,1060	O	O
+nodal	1061,1066	O	B-Process
+-	1066,1067	O	I-Process
+based	1067,1072	O	I-Process
+Lagrangian	1073,1083	O	I-Process
+cell	1084,1088	O	I-Process
+-	1088,1089	O	I-Process
+centered	1089,1097	O	I-Process
+hydrodynamics	1098,1111	O	I-Process
+(	1112,1113	O	O
+CCH	1113,1116	O	B-Material
+)	1116,1117	O	O
+presented	1118,1127	O	O
+in	1128,1130	O	O
+this	1131,1135	O	O
+paper	1136,1141	O	O
+will	1142,1146	O	O
+use	1147,1150	O	O
+surface	1151,1158	O	O
+area	1159,1163	O	O
+weights	1164,1171	O	O
+similar	1172,1179	O	O
+in	1180,1182	O	O
+concept	1183,1190	O	O
+to	1191,1193	O	O
+those	1194,1199	O	O
+in	1200,1202	O	O
+TOODY	1203,1208	O	B-Process
+.	1208,1209	O	O
+
+Following	1210,1219	O	O
+the	1220,1223	O	O
+area	1224,1228	O	B-Process
+fraction	1229,1237	O	I-Process
+approach	1238,1246	O	I-Process
+of	1247,1249	O	O
+TOODY	1250,1255	O	B-Process
+may	1256,1259	O	O
+seem	1260,1264	O	O
+retrospective	1265,1278	O	O
+;	1278,1279	O	O
+however	1280,1287	O	O
+,	1287,1288	O	O
+using	1289,1294	O	O
+surface	1295,1302	O	O
+area	1303,1307	O	O
+weights	1308,1315	O	O
+naturally	1316,1325	O	O
+extends	1326,1333	O	O
+to	1334,1336	O	O
+the	1337,1340	O	O
+new	1341,1344	O	O
+CCH	1345,1348	O	B-Process
+methods	1349,1356	O	I-Process
+that	1357,1361	O	O
+solve	1362,1367	O	B-Task
+a	1368,1369	O	I-Task
+Riemann	1370,1377	O	I-Task
+-	1377,1378	O	I-Task
+like	1378,1382	O	I-Task
+problem	1383,1390	O	I-Task
+at	1391,1393	O	I-Task
+the	1394,1397	O	I-Task
+node	1398,1402	O	I-Task
+of	1403,1405	O	I-Task
+a	1406,1407	O	I-Task
+zone	1408,1412	O	I-Task
+[	1413,1414	O	O
+10,24,25,3	1414,1424	O	O
+]	1424,1425	O	O
+.	1425,1426	O	O
 
 
 -DOCSTART- (S0021999113004555)
 
-Three	0	5	O
-Runge	6	11	O
-–	11	12	O
-
-Kutta	12	17	O
-IMEX	18	22	O
-schemes	23	30	O
-were	31	35	O
-tested	36	42	O
-by	43	45	O
-Ullrich	46	53	O
-and	54	57	O
-Jablonowski	58	69	O
-
-[	70	71	O
-23	71	73	O
-]	73	74	O
-for	75	78	O
-the	79	82	O
-HEVI	83	87	B-Process
-solution	88	96	I-Process
-of	97	99	O
-the	100	103	O
-equations	104	113	O
-governing	114	123	O
-atmospheric	124	135	B-Process
-motion	136	142	I-Process
-.	142	143	O
-
-They	144	148	O
-tested	149	155	O
-the	156	159	O
-ARS(2,3,2	160	169	B-Process
-)	169	170	I-Process
-scheme	171	177	I-Process
-of	178	180	O
-Ascher	181	187	O
-et	188	190	O
-al	191	193	O
-.	193	194	O
-
-[	195	196	O
-1	196	197	O
-]	197	198	O
-and	199	202	O
-also	203	207	O
-suggested	208	217	O
-the	218	221	O
-less	222	226	O
-computationally	227	242	O
-expensive	243	252	O
-but	253	256	O
-nearly	257	263	O
-as	264	266	O
-accurate	267	275	O
-Strang	276	282	B-Process
-carryover	283	292	I-Process
-scheme	293	299	I-Process
-.	299	300	O
-
-This	301	305	O
-involves	306	314	O
-Strang	315	321	B-Process
-splitting	322	331	I-Process
-but	332	335	O
-the	336	339	O
-first	340	345	O
-implicit	346	354	O
-stage	355	360	O
-is	361	363	O
-cleverly	364	372	O
-re	373	375	O
--	375	376	O
-used	376	380	O
-from	381	385	O
-the	386	389	O
-final	390	395	O
-implicit	396	404	O
-stage	405	410	O
-of	411	413	O
-the	414	417	O
-previous	418	426	O
-time	427	431	O
--	431	432	O
-step	432	436	O
-
-and	437	440	O
-so	441	443	O
-there	444	449	O
-is	450	452	O
-only	453	457	O
-one	458	461	O
-implicit	462	470	O
-solution	471	479	O
-per	480	483	O
-time	484	488	O
--	488	489	O
-step	489	493	O
-.	493	494	O
-
-Another	495	502	O
-novel	503	508	O
-approach	509	517	O
-taken	518	523	O
-by	524	526	O
-Ullrich	527	534	O
-and	535	538	O
-Jablonowski	539	550	O
-
-[	551	552	O
-23	552	554	O
-]	554	555	O
-is	556	558	O
-to	559	561	O
-use	562	565	O
-a	566	567	O
-Rosenbrock	568	578	B-Process
-solution	579	587	I-Process
-in	588	590	O
-order	591	596	O
-to	597	599	O
-treat	600	605	O
-all	606	609	O
-of	610	612	O
-the	613	616	O
-vertical	617	625	O
-terms	626	631	O
-implicitly	632	642	O
-rather	643	649	O
-than	650	654	O
-just	655	659	O
-the	660	663	O
-terms	664	669	O
-involved	670	678	O
-in	679	681	O
-wave	682	686	B-Process
-propagation	687	698	I-Process
-.	698	699	O
-
-A	700	701	O
-Rosenbrock	702	712	B-Process
-solution	713	721	I-Process
-is	722	724	O
-one	725	728	B-Process
-iteration	729	738	I-Process
-of	739	741	I-Process
-a	742	743	I-Process
-Newton	744	750	I-Process
-solver	751	757	I-Process
-.	757	758	O
-
-This	759	763	O
-circumvents	764	775	O
-the	776	779	O
-time	780	784	B-Process
--	784	785	I-Process
-step	785	789	I-Process
-restriction	790	801	I-Process
-associated	802	812	O
-with	813	817	O
-vertical	818	826	B-Process
-advection	827	836	I-Process
-at	837	839	O
-the	840	843	O
-cost	844	848	O
-of	849	851	O
-slowing	852	859	B-Process
-the	860	863	I-Process
-vertical	864	872	I-Process
-advection	873	882	I-Process
-.	882	883	O
+Three	0,5	O	O
+Runge	6,11	O	O
+–	11,12	O	O
+
+Kutta	12,17	O	O
+IMEX	18,22	O	O
+schemes	23,30	O	O
+were	31,35	O	O
+tested	36,42	O	O
+by	43,45	O	O
+Ullrich	46,53	O	O
+and	54,57	O	O
+Jablonowski	58,69	O	O
+
+[	70,71	O	O
+23	71,73	O	O
+]	73,74	O	O
+for	75,78	O	O
+the	79,82	O	O
+HEVI	83,87	O	B-Process
+solution	88,96	O	I-Process
+of	97,99	O	O
+the	100,103	O	O
+equations	104,113	O	O
+governing	114,123	O	O
+atmospheric	124,135	O	B-Process
+motion	136,142	O	I-Process
+.	142,143	O	O
+
+They	144,148	O	O
+tested	149,155	O	O
+the	156,159	O	O
+ARS(2,3,2	160,169	O	B-Process
+)	169,170	O	I-Process
+scheme	171,177	O	I-Process
+of	178,180	O	O
+Ascher	181,187	O	O
+et	188,190	O	O
+al	191,193	O	O
+.	193,194	O	O
+
+[	195,196	O	O
+1	196,197	O	O
+]	197,198	O	O
+and	199,202	O	O
+also	203,207	O	O
+suggested	208,217	O	O
+the	218,221	O	O
+less	222,226	O	O
+computationally	227,242	O	O
+expensive	243,252	O	O
+but	253,256	O	O
+nearly	257,263	O	O
+as	264,266	O	O
+accurate	267,275	O	O
+Strang	276,282	O	B-Process
+carryover	283,292	O	I-Process
+scheme	293,299	O	I-Process
+.	299,300	O	O
+
+This	301,305	O	O
+involves	306,314	O	O
+Strang	315,321	O	B-Process
+splitting	322,331	O	I-Process
+but	332,335	O	O
+the	336,339	O	O
+first	340,345	O	O
+implicit	346,354	O	O
+stage	355,360	O	O
+is	361,363	O	O
+cleverly	364,372	O	O
+re	373,375	O	O
+-	375,376	O	O
+used	376,380	O	O
+from	381,385	O	O
+the	386,389	O	O
+final	390,395	O	O
+implicit	396,404	O	O
+stage	405,410	O	O
+of	411,413	O	O
+the	414,417	O	O
+previous	418,426	O	O
+time	427,431	O	O
+-	431,432	O	O
+step	432,436	O	O
+
+and	437,440	O	O
+so	441,443	O	O
+there	444,449	O	O
+is	450,452	O	O
+only	453,457	O	O
+one	458,461	O	O
+implicit	462,470	O	O
+solution	471,479	O	O
+per	480,483	O	O
+time	484,488	O	O
+-	488,489	O	O
+step	489,493	O	O
+.	493,494	O	O
+
+Another	495,502	O	O
+novel	503,508	O	O
+approach	509,517	O	O
+taken	518,523	O	O
+by	524,526	O	O
+Ullrich	527,534	O	O
+and	535,538	O	O
+Jablonowski	539,550	O	O
+
+[	551,552	O	O
+23	552,554	O	O
+]	554,555	O	O
+is	556,558	O	O
+to	559,561	O	O
+use	562,565	O	O
+a	566,567	O	O
+Rosenbrock	568,578	O	B-Process
+solution	579,587	O	I-Process
+in	588,590	O	O
+order	591,596	O	O
+to	597,599	O	O
+treat	600,605	O	O
+all	606,609	O	O
+of	610,612	O	O
+the	613,616	O	O
+vertical	617,625	O	O
+terms	626,631	O	O
+implicitly	632,642	O	O
+rather	643,649	O	O
+than	650,654	O	O
+just	655,659	O	O
+the	660,663	O	O
+terms	664,669	O	O
+involved	670,678	O	O
+in	679,681	O	O
+wave	682,686	O	B-Process
+propagation	687,698	O	I-Process
+.	698,699	O	O
+
+A	700,701	O	O
+Rosenbrock	702,712	O	B-Process
+solution	713,721	O	I-Process
+is	722,724	O	O
+one	725,728	O	B-Process
+iteration	729,738	O	I-Process
+of	739,741	O	I-Process
+a	742,743	O	I-Process
+Newton	744,750	O	I-Process
+solver	751,757	O	I-Process
+.	757,758	O	O
+
+This	759,763	O	O
+circumvents	764,775	O	O
+the	776,779	O	O
+time	780,784	O	B-Process
+-	784,785	O	I-Process
+step	785,789	O	I-Process
+restriction	790,801	O	I-Process
+associated	802,812	O	O
+with	813,817	O	O
+vertical	818,826	O	B-Process
+advection	827,836	O	I-Process
+at	837,839	O	O
+the	840,843	O	O
+cost	844,848	O	O
+of	849,851	O	O
+slowing	852,859	O	B-Process
+the	860,863	O	I-Process
+vertical	864,872	O	I-Process
+advection	873,882	O	I-Process
+.	882,883	O	O
 
 
 -DOCSTART- (S0021999113005603)
 
-After	0	5	O
-all	6	9	O
-micro	10	15	O
-elements	16	24	O
-reach	25	30	O
-a	31	32	O
-relaxed	33	40	O
-steady	41	47	O
--	47	48	O
-state	48	53	O
-,	53	54	O
-measurements	55	67	O
-are	68	71	O
-obtained	72	80	O
-using	81	86	O
-a	87	88	O
-cumulative	89	99	B-Process
-averaging	100	109	I-Process
-technique	110	119	I-Process
-to	120	122	O
-reduce	123	129	B-Task
-noise	130	135	I-Task
-.	135	136	O
-
-Each	137	141	O
-micro	142	147	O
-element	148	155	O
-is	156	158	O
-divided	159	166	B-Process
-into	167	171	I-Process
-spatially	172	181	I-Process
--	181	182	I-Process
-oriented	182	190	I-Process
-bins	191	195	I-Process
-in	196	198	O
-the	199	202	O
-y	203	204	O
--	204	205	O
-direction	205	214	O
-in	215	217	O
-order	218	223	O
-to	224	226	O
-resolve	227	234	B-Process
-the	235	238	I-Process
-velocity	239	247	I-Process
-and	248	251	I-Process
-shear	252	257	I-Process
--	257	258	I-Process
-stress	258	264	I-Process
-profiles	265	273	I-Process
-.	273	274	O
-
-Velocity	275	283	O
-in	284	286	O
-each	287	291	O
-bin	292	295	O
-is	296	298	O
-measured	299	307	O
-using	308	313	O
-the	314	317	O
-Cumulative	318	328	B-Process
-Averaging	329	338	I-Process
-Method	339	345	I-Process
-(	346	347	O
-CAM	347	350	B-Process
-)	350	351	O
-[	352	353	O
-24	353	355	O
-]	355	356	O
-,	356	357	O
-while	358	363	O
-the	364	367	O
-stress	368	374	B-Process
-tensor	375	381	I-Process
-field	382	387	I-Process
-is	388	390	O
-measured	391	399	O
-using	400	405	O
-the	406	409	O
-Irving	410	416	O
-–	416	417	O
-
-Kirkwood	417	425	O
-relationship	426	438	O
-[	439	440	O
-25	440	442	O
-]	442	443	O
-.	443	444	O
-
-A	445	446	O
-least	447	452	B-Process
--	452	453	I-Process
-squares	453	460	I-Process
-polynomial	461	471	I-Process
-fit	472	475	I-Process
-to	476	478	O
-the	479	482	O
-data	483	487	O
-is	488	490	O
-performed	491	500	O
-,	500	501	O
-which	502	507	O
-helps	508	513	O
-reduce	514	520	B-Task
-noise	521	526	I-Task
-further	527	534	O
-.	534	535	O
-
-The	536	539	O
-fit	540	543	O
-produces	544	552	O
-a	553	554	O
-continuous	555	565	B-Process
-function	566	574	I-Process
-that	575	579	O
-avoids	580	586	O
-stability	587	596	B-Process
-issues	597	603	I-Process
-arising	604	611	O
-from	612	616	O
-supplying	617	626	B-Process
-highly	627	633	I-Process
-fluctuating	634	645	I-Process
-data	646	650	I-Process
-to	651	653	I-Process
-the	654	657	I-Process
-macro	658	663	I-Process
-solver	664	670	I-Process
-.	670	671	O
-
-A	672	673	O
-least	674	679	B-Process
--	679	680	I-Process
-squares	680	687	I-Process
-fit	688	691	I-Process
-is	692	694	O
-applied	695	702	O
-to	703	705	O
-an	706	708	O
-Nth	709	712	B-Material
-order	713	718	I-Material
-polynomial	719	729	I-Material
-for	730	733	O
-the	734	737	O
-velocity	738	746	O
-profile	747	754	O
-in	755	757	O
-the	758	761	O
-core	762	766	O
-region	767	773	O
-,	773	774	O
-and	775	778	O
-an	779	781	O
-Mth	782	785	B-Material
-order	786	791	I-Material
-polynomial	792	802	I-Material
-for	803	806	O
-the	807	810	O
-velocity	811	819	O
-profile	820	827	O
-in	828	830	O
-the	831	834	O
-constrained	835	846	O
-region:(16)〈ui	847	861	O
-,	861	862	O
-core〉=∑k=1Nbk	862	875	O
-,	875	876	O
-iyi′(N−k),for	876	889	O
-0⩽yi′⩽hcore	890	901	O
-,	901	902	O
-and(17)〈ui	903	913	O
-,	913	914	O
-cs〉=∑k=1Mck	914	925	O
-,	925	926	O
-
-iyi″(M−k),for	926	939	O
-
-0⩽yi″⩽hcs	940	949	O
-,	949	950	O
-where	951	956	O
-bk	957	959	O
-,	959	960	O
-i	960	961	O
-and	962	965	O
-ck	966	968	O
-,	968	969	O
-i	969	970	O
-are	971	974	O
-the	975	978	O
-coefficients	979	991	O
-of	992	994	O
-the	995	998	O
-polynomials	999	1010	B-Material
-used	1011	1015	O
-in	1016	1018	O
-the	1019	1022	O
-core	1023	1027	O
-micro	1028	1033	O
-region	1034	1040	O
-and	1041	1044	O
-constrained	1045	1056	O
-region	1057	1063	O
-respectively	1064	1076	O
-.	1076	1077	O
-
-An	1078	1080	O
-estimate	1081	1089	O
-of	1090	1092	O
-the	1093	1096	O
-new	1097	1100	B-Material
-slip	1101	1105	I-Material
-velocity	1106	1114	I-Material
-uB	1115	1117	O
-for	1118	1121	O
-input	1122	1127	O
-to	1128	1130	O
-the	1131	1134	O
-macro	1135	1140	B-Material
-solution	1141	1149	I-Material
-(	1150	1151	O
-6	1151	1152	O
-)	1152	1153	O
-is	1154	1156	O
-taken	1157	1162	O
-directly	1163	1171	O
-from	1172	1176	O
-the	1177	1180	O
-compressed	1181	1191	B-Material
-wall	1192	1196	I-Material
-micro	1197	1202	I-Material
--	1202	1203	I-Material
-element	1203	1210	I-Material
-solution	1211	1219	I-Material
-(	1220	1221	O
-16	1221	1223	O
-)	1223	1224	O
-,	1224	1225	O
-at	1226	1228	O
-yi′=0	1229	1234	O
-.	1234	1235	O
+After	0,5	O	O
+all	6,9	O	O
+micro	10,15	O	O
+elements	16,24	O	O
+reach	25,30	O	O
+a	31,32	O	O
+relaxed	33,40	O	O
+steady	41,47	O	O
+-	47,48	O	O
+state	48,53	O	O
+,	53,54	O	O
+measurements	55,67	O	O
+are	68,71	O	O
+obtained	72,80	O	O
+using	81,86	O	O
+a	87,88	O	O
+cumulative	89,99	O	B-Process
+averaging	100,109	O	I-Process
+technique	110,119	O	I-Process
+to	120,122	O	O
+reduce	123,129	O	B-Task
+noise	130,135	O	I-Task
+.	135,136	O	O
+
+Each	137,141	O	O
+micro	142,147	O	O
+element	148,155	O	O
+is	156,158	O	O
+divided	159,166	O	B-Process
+into	167,171	O	I-Process
+spatially	172,181	O	I-Process
+-	181,182	O	I-Process
+oriented	182,190	O	I-Process
+bins	191,195	O	I-Process
+in	196,198	O	O
+the	199,202	O	O
+y	203,204	O	O
+-	204,205	O	O
+direction	205,214	O	O
+in	215,217	O	O
+order	218,223	O	O
+to	224,226	O	O
+resolve	227,234	O	B-Process
+the	235,238	O	I-Process
+velocity	239,247	O	I-Process
+and	248,251	O	I-Process
+shear	252,257	O	I-Process
+-	257,258	O	I-Process
+stress	258,264	O	I-Process
+profiles	265,273	O	I-Process
+.	273,274	O	O
+
+Velocity	275,283	O	O
+in	284,286	O	O
+each	287,291	O	O
+bin	292,295	O	O
+is	296,298	O	O
+measured	299,307	O	O
+using	308,313	O	O
+the	314,317	O	O
+Cumulative	318,328	O	B-Process
+Averaging	329,338	O	I-Process
+Method	339,345	O	I-Process
+(	346,347	O	O
+CAM	347,350	O	B-Process
+)	350,351	O	O
+[	352,353	O	O
+24	353,355	O	O
+]	355,356	O	O
+,	356,357	O	O
+while	358,363	O	O
+the	364,367	O	O
+stress	368,374	O	B-Process
+tensor	375,381	O	I-Process
+field	382,387	O	I-Process
+is	388,390	O	O
+measured	391,399	O	O
+using	400,405	O	O
+the	406,409	O	O
+Irving	410,416	O	O
+–	416,417	O	O
+
+Kirkwood	417,425	O	O
+relationship	426,438	O	O
+[	439,440	O	O
+25	440,442	O	O
+]	442,443	O	O
+.	443,444	O	O
+
+A	445,446	O	O
+least	447,452	O	B-Process
+-	452,453	O	I-Process
+squares	453,460	O	I-Process
+polynomial	461,471	O	I-Process
+fit	472,475	O	I-Process
+to	476,478	O	O
+the	479,482	O	O
+data	483,487	O	O
+is	488,490	O	O
+performed	491,500	O	O
+,	500,501	O	O
+which	502,507	O	O
+helps	508,513	O	O
+reduce	514,520	O	B-Task
+noise	521,526	O	I-Task
+further	527,534	O	O
+.	534,535	O	O
+
+The	536,539	O	O
+fit	540,543	O	O
+produces	544,552	O	O
+a	553,554	O	O
+continuous	555,565	O	B-Process
+function	566,574	O	I-Process
+that	575,579	O	O
+avoids	580,586	O	O
+stability	587,596	O	B-Process
+issues	597,603	O	I-Process
+arising	604,611	O	O
+from	612,616	O	O
+supplying	617,626	O	B-Process
+highly	627,633	O	I-Process
+fluctuating	634,645	O	I-Process
+data	646,650	O	I-Process
+to	651,653	O	I-Process
+the	654,657	O	I-Process
+macro	658,663	O	I-Process
+solver	664,670	O	I-Process
+.	670,671	O	O
+
+A	672,673	O	O
+least	674,679	O	B-Process
+-	679,680	O	I-Process
+squares	680,687	O	I-Process
+fit	688,691	O	I-Process
+is	692,694	O	O
+applied	695,702	O	O
+to	703,705	O	O
+an	706,708	O	O
+Nth	709,712	O	B-Material
+order	713,718	O	I-Material
+polynomial	719,729	O	I-Material
+for	730,733	O	O
+the	734,737	O	O
+velocity	738,746	O	O
+profile	747,754	O	O
+in	755,757	O	O
+the	758,761	O	O
+core	762,766	O	O
+region	767,773	O	O
+,	773,774	O	O
+and	775,778	O	O
+an	779,781	O	O
+Mth	782,785	O	B-Material
+order	786,791	O	I-Material
+polynomial	792,802	O	I-Material
+for	803,806	O	O
+the	807,810	O	O
+velocity	811,819	O	O
+profile	820,827	O	O
+in	828,830	O	O
+the	831,834	O	O
+constrained	835,846	O	O
+region:(16)〈ui	847,861	O	O
+,	861,862	O	O
+core〉=∑k=1Nbk	862,875	O	O
+,	875,876	O	O
+iyi′(N−k),for	876,889	O	O
+0⩽yi′⩽hcore	890,901	O	O
+,	901,902	O	O
+and(17)〈ui	903,913	O	O
+,	913,914	O	O
+cs〉=∑k=1Mck	914,925	O	O
+,	925,926	O	O
+
+iyi″(M−k),for	926,939	O	O
+
+0⩽yi″⩽hcs	940,949	O	O
+,	949,950	O	O
+where	951,956	O	O
+bk	957,959	O	O
+,	959,960	O	O
+i	960,961	O	O
+and	962,965	O	O
+ck	966,968	O	O
+,	968,969	O	O
+i	969,970	O	O
+are	971,974	O	O
+the	975,978	O	O
+coefficients	979,991	O	O
+of	992,994	O	O
+the	995,998	O	O
+polynomials	999,1010	O	B-Material
+used	1011,1015	O	O
+in	1016,1018	O	O
+the	1019,1022	O	O
+core	1023,1027	O	O
+micro	1028,1033	O	O
+region	1034,1040	O	O
+and	1041,1044	O	O
+constrained	1045,1056	O	O
+region	1057,1063	O	O
+respectively	1064,1076	O	O
+.	1076,1077	O	O
+
+An	1078,1080	O	O
+estimate	1081,1089	O	O
+of	1090,1092	O	O
+the	1093,1096	O	O
+new	1097,1100	O	B-Material
+slip	1101,1105	O	I-Material
+velocity	1106,1114	O	I-Material
+uB	1115,1117	O	O
+for	1118,1121	O	O
+input	1122,1127	O	O
+to	1128,1130	O	O
+the	1131,1134	O	O
+macro	1135,1140	O	B-Material
+solution	1141,1149	O	I-Material
+(	1150,1151	O	O
+6	1151,1152	O	O
+)	1152,1153	O	O
+is	1154,1156	O	O
+taken	1157,1162	O	O
+directly	1163,1171	O	O
+from	1172,1176	O	O
+the	1177,1180	O	O
+compressed	1181,1191	O	B-Material
+wall	1192,1196	O	I-Material
+micro	1197,1202	O	I-Material
+-	1202,1203	O	I-Material
+element	1203,1210	O	I-Material
+solution	1211,1219	O	I-Material
+(	1220,1221	O	O
+16	1221,1223	O	O
+)	1223,1224	O	O
+,	1224,1225	O	O
+at	1226,1228	O	O
+yi′=0	1229,1234	O	O
+.	1234,1235	O	O
 
 
 -DOCSTART- (S0021999113005652)
 
-It	0	2	O
-is	3	5	O
-interesting	6	17	O
-to	18	20	O
-quantify	21	29	B-Task
-the	30	33	I-Task
-effects	34	41	I-Task
-of	42	44	I-Task
-the	45	48	I-Task
-Schmidt	49	56	I-Task
-number	57	63	I-Task
-and	64	67	I-Task
-the	68	71	I-Task
-chemical	72	80	I-Task
-reaction	81	89	I-Task
-rate	90	94	I-Task
-on	95	97	O
-the	98	101	O
-bulk	102	106	B-Material
--	106	107	I-Material
-mean	107	111	I-Material
-concentration	112	125	I-Material
-of	126	128	I-Material
-B	129	130	I-Material
-in	131	133	O
-water	134	139	O
-.	139	140	O
-
-The	141	144	O
-data	145	149	O
-could	150	155	O
-present	156	163	O
-important	164	173	O
-information	174	185	O
-on	186	188	O
-evaluating	189	199	O
-the	200	203	O
-environmental	204	217	O
-impacts	218	225	O
-of	226	228	O
-the	229	232	O
-degradation	233	244	B-Material
-product	245	252	I-Material
-of	253	255	O
-B	256	257	O
-,	257	258	O
-as	259	261	O
-well	262	266	O
-as	267	269	O
-acidification	270	283	B-Process
-of	284	286	I-Process
-water	287	292	I-Process
-by	293	295	O
-the	296	299	O
-chemical	300	308	B-Process
-reaction	309	317	I-Process
-.	317	318	O
-
-Here	319	323	O
-,	323	324	O
-the	325	328	O
-bulk	329	333	B-Material
--	333	334	I-Material
-mean	334	338	I-Material
-concentration	339	352	I-Material
-of	353	355	I-Material
-B	356	357	I-Material
-is	358	360	O
-defined	361	368	O
-by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	369	395	O
-Fig	396	399	O
-.	399	400	O
-
-15	401	403	O
-depicts	404	411	O
-the	412	415	O
-effect	416	422	O
-of	423	425	O
-the	426	429	O
-Schmidt	430	437	B-Material
-and	438	441	O
-the	442	445	O
-chemical	446	454	B-Process
-reaction	455	463	I-Process
-rate	464	468	I-Process
-on	469	471	O
-the	472	475	O
-bulk	476	480	B-Material
--	480	481	I-Material
-mean	481	485	I-Material
-concentration	486	499	I-Material
-CB⁎¯.	500	505	I-Material
-
-It	506	508	O
-is	509	511	O
-worth	512	517	O
-to	518	520	O
-mention	521	528	O
-here	529	533	O
-that	534	538	O
-the	539	542	O
-bulk	543	547	B-Material
--	547	548	I-Material
-mean	548	552	I-Material
-concentration	553	566	I-Material
-of	567	569	I-Material
-B	570	571	I-Material
-reaches	572	579	O
-approximately	580	593	O
-0.6	594	597	O
-as	598	600	O
-the	601	604	O
-chemical	605	613	B-Process
-reaction	614	622	I-Process
-rate	623	627	I-Process
-and	628	631	O
-the	632	635	O
-Schmidt	636	643	B-Material
-number	644	650	I-Material
-increase	651	659	O
-to	660	662	O
-infinite	663	671	O
-,	671	672	O
-and	673	676	O
-the	677	680	O
-concentration	681	694	O
-is	695	697	O
-smaller	698	705	O
-than	706	710	O
-the	711	714	O
-equilibrium	715	726	B-Material
-concentration	727	740	I-Material
-of	741	743	I-Material
-A	744	745	I-Material
-at	746	748	O
-the	749	752	O
-interface	753	762	O
-.	762	763	O
-
-This	764	768	O
-figure	769	775	O
-indicates	776	785	O
-that	786	790	O
-progress	791	799	O
-of	800	802	O
-the	803	806	O
-chemical	807	815	B-Process
-reaction	816	824	I-Process
-is	825	827	O
-somewhat	828	836	O
-interfered	837	847	O
-by	848	850	O
-turbulent	851	860	B-Process
-mixing	861	867	I-Process
-in	868	870	O
-water	871	876	O
-,	876	877	O
-and	878	881	O
-the	882	885	O
-efficiency	886	896	O
-of	897	899	O
-the	900	903	O
-chemical	904	912	O
-reaction	913	921	O
-is	922	924	O
-up	925	927	O
-to	928	930	O
-approximately	931	944	O
-60	945	947	O
-%	947	948	O
-.	948	949	O
-
-The	950	953	O
-efficiency	954	964	O
-of	965	967	O
-the	968	971	O
-chemical	972	980	B-Process
-reaction	981	989	I-Process
-in	990	992	O
-water	993	998	O
-will	999	1003	O
-be	1004	1006	O
-a	1007	1008	O
-function	1009	1017	O
-of	1018	1020	O
-the	1021	1024	O
-Reynolds	1025	1033	B-Material
-number	1034	1040	I-Material
-of	1041	1043	O
-the	1044	1047	O
-water	1048	1053	O
-flow	1054	1058	O
-,	1058	1059	O
-and	1060	1063	O
-the	1064	1067	O
-efficiency	1068	1078	O
-could	1079	1084	O
-increase	1085	1093	O
-as	1094	1096	O
-the	1097	1100	O
-Reynolds	1101	1109	B-Material
-number	1110	1116	I-Material
-increases	1117	1126	O
-.	1126	1127	O
-
-We	1128	1130	O
-need	1131	1135	O
-an	1136	1138	O
-extensive	1139	1148	O
-investigation	1149	1162	O
-on	1163	1165	O
-the	1166	1169	O
-efficiency	1170	1180	O
-of	1181	1183	O
-the	1184	1187	O
-aquarium	1188	1196	B-Process
-chemical	1197	1205	I-Process
-reaction	1206	1214	I-Process
-in	1215	1217	O
-the	1218	1221	O
-near	1222	1226	O
-future	1227	1233	O
-to	1234	1236	O
-extend	1237	1243	O
-the	1244	1247	O
-results	1248	1255	O
-of	1256	1258	O
-this	1259	1263	O
-study	1264	1269	O
-further	1270	1277	O
-to	1278	1280	O
-establish	1281	1290	O
-practical	1291	1300	B-Process
-modelling	1301	1310	I-Process
-for	1311	1314	O
-the	1315	1318	O
-gas	1319	1322	B-Process
-exchange	1323	1331	I-Process
-between	1332	1339	O
-air	1340	1343	O
-and	1344	1347	O
-water	1348	1353	O
-.	1353	1354	O
+It	0,2	O	O
+is	3,5	O	O
+interesting	6,17	O	O
+to	18,20	O	O
+quantify	21,29	O	B-Task
+the	30,33	O	I-Task
+effects	34,41	O	I-Task
+of	42,44	O	I-Task
+the	45,48	O	I-Task
+Schmidt	49,56	O	I-Task
+number	57,63	O	I-Task
+and	64,67	O	I-Task
+the	68,71	O	I-Task
+chemical	72,80	O	I-Task
+reaction	81,89	O	I-Task
+rate	90,94	O	I-Task
+on	95,97	O	O
+the	98,101	O	O
+bulk	102,106	O	B-Material
+-	106,107	O	I-Material
+mean	107,111	O	I-Material
+concentration	112,125	O	I-Material
+of	126,128	O	I-Material
+B	129,130	O	I-Material
+in	131,133	O	O
+water	134,139	O	O
+.	139,140	O	O
+
+The	141,144	O	O
+data	145,149	O	O
+could	150,155	O	O
+present	156,163	O	O
+important	164,173	O	O
+information	174,185	O	O
+on	186,188	O	O
+evaluating	189,199	O	O
+the	200,203	O	O
+environmental	204,217	O	O
+impacts	218,225	O	O
+of	226,228	O	O
+the	229,232	O	O
+degradation	233,244	O	B-Material
+product	245,252	O	I-Material
+of	253,255	O	O
+B	256,257	O	O
+,	257,258	O	O
+as	259,261	O	O
+well	262,266	O	O
+as	267,269	O	O
+acidification	270,283	O	B-Process
+of	284,286	O	I-Process
+water	287,292	O	I-Process
+by	293,295	O	O
+the	296,299	O	O
+chemical	300,308	O	B-Process
+reaction	309,317	O	I-Process
+.	317,318	O	O
+
+Here	319,323	O	O
+,	323,324	O	O
+the	325,328	O	O
+bulk	329,333	O	B-Material
+-	333,334	O	I-Material
+mean	334,338	O	I-Material
+concentration	339,352	O	I-Material
+of	353,355	O	I-Material
+B	356,357	O	I-Material
+is	358,360	O	O
+defined	361,368	O	O
+by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	369,395	O	O
+Fig	396,399	O	O
+.	399,400	O	O
+
+15	401,403	O	O
+depicts	404,411	O	O
+the	412,415	O	O
+effect	416,422	O	O
+of	423,425	O	O
+the	426,429	O	O
+Schmidt	430,437	O	B-Material
+and	438,441	O	O
+the	442,445	O	O
+chemical	446,454	O	B-Process
+reaction	455,463	O	I-Process
+rate	464,468	O	I-Process
+on	469,471	O	O
+the	472,475	O	O
+bulk	476,480	O	B-Material
+-	480,481	O	I-Material
+mean	481,485	O	I-Material
+concentration	486,499	O	I-Material
+CB⁎¯.	500,505	O	I-Material
+
+It	506,508	O	O
+is	509,511	O	O
+worth	512,517	O	O
+to	518,520	O	O
+mention	521,528	O	O
+here	529,533	O	O
+that	534,538	O	O
+the	539,542	O	O
+bulk	543,547	O	B-Material
+-	547,548	O	I-Material
+mean	548,552	O	I-Material
+concentration	553,566	O	I-Material
+of	567,569	O	I-Material
+B	570,571	O	I-Material
+reaches	572,579	O	O
+approximately	580,593	O	O
+0.6	594,597	O	O
+as	598,600	O	O
+the	601,604	O	O
+chemical	605,613	O	B-Process
+reaction	614,622	O	I-Process
+rate	623,627	O	I-Process
+and	628,631	O	O
+the	632,635	O	O
+Schmidt	636,643	O	B-Material
+number	644,650	O	I-Material
+increase	651,659	O	O
+to	660,662	O	O
+infinite	663,671	O	O
+,	671,672	O	O
+and	673,676	O	O
+the	677,680	O	O
+concentration	681,694	O	O
+is	695,697	O	O
+smaller	698,705	O	O
+than	706,710	O	O
+the	711,714	O	O
+equilibrium	715,726	O	B-Material
+concentration	727,740	O	I-Material
+of	741,743	O	I-Material
+A	744,745	O	I-Material
+at	746,748	O	O
+the	749,752	O	O
+interface	753,762	O	O
+.	762,763	O	O
+
+This	764,768	O	O
+figure	769,775	O	O
+indicates	776,785	O	O
+that	786,790	O	O
+progress	791,799	O	O
+of	800,802	O	O
+the	803,806	O	O
+chemical	807,815	O	B-Process
+reaction	816,824	O	I-Process
+is	825,827	O	O
+somewhat	828,836	O	O
+interfered	837,847	O	O
+by	848,850	O	O
+turbulent	851,860	O	B-Process
+mixing	861,867	O	I-Process
+in	868,870	O	O
+water	871,876	O	O
+,	876,877	O	O
+and	878,881	O	O
+the	882,885	O	O
+efficiency	886,896	O	O
+of	897,899	O	O
+the	900,903	O	O
+chemical	904,912	O	O
+reaction	913,921	O	O
+is	922,924	O	O
+up	925,927	O	O
+to	928,930	O	O
+approximately	931,944	O	O
+60	945,947	O	O
+%	947,948	O	O
+.	948,949	O	O
+
+The	950,953	O	O
+efficiency	954,964	O	O
+of	965,967	O	O
+the	968,971	O	O
+chemical	972,980	O	B-Process
+reaction	981,989	O	I-Process
+in	990,992	O	O
+water	993,998	O	O
+will	999,1003	O	O
+be	1004,1006	O	O
+a	1007,1008	O	O
+function	1009,1017	O	O
+of	1018,1020	O	O
+the	1021,1024	O	O
+Reynolds	1025,1033	O	B-Material
+number	1034,1040	O	I-Material
+of	1041,1043	O	O
+the	1044,1047	O	O
+water	1048,1053	O	O
+flow	1054,1058	O	O
+,	1058,1059	O	O
+and	1060,1063	O	O
+the	1064,1067	O	O
+efficiency	1068,1078	O	O
+could	1079,1084	O	O
+increase	1085,1093	O	O
+as	1094,1096	O	O
+the	1097,1100	O	O
+Reynolds	1101,1109	O	B-Material
+number	1110,1116	O	I-Material
+increases	1117,1126	O	O
+.	1126,1127	O	O
+
+We	1128,1130	O	O
+need	1131,1135	O	O
+an	1136,1138	O	O
+extensive	1139,1148	O	O
+investigation	1149,1162	O	O
+on	1163,1165	O	O
+the	1166,1169	O	O
+efficiency	1170,1180	O	O
+of	1181,1183	O	O
+the	1184,1187	O	O
+aquarium	1188,1196	O	B-Process
+chemical	1197,1205	O	I-Process
+reaction	1206,1214	O	I-Process
+in	1215,1217	O	O
+the	1218,1221	O	O
+near	1222,1226	O	O
+future	1227,1233	O	O
+to	1234,1236	O	O
+extend	1237,1243	O	O
+the	1244,1247	O	O
+results	1248,1255	O	O
+of	1256,1258	O	O
+this	1259,1263	O	O
+study	1264,1269	O	O
+further	1270,1277	O	O
+to	1278,1280	O	O
+establish	1281,1290	O	O
+practical	1291,1300	O	B-Process
+modelling	1301,1310	O	I-Process
+for	1311,1314	O	O
+the	1315,1318	O	O
+gas	1319,1322	O	B-Process
+exchange	1323,1331	O	I-Process
+between	1332,1339	O	O
+air	1340,1343	O	O
+and	1344,1347	O	O
+water	1348,1353	O	O
+.	1353,1354	O	O
 
 
 -DOCSTART- (S0021999113005718)
 
-Numerical	0	9	B-Task
-simulation	10	20	I-Task
-of	21	23	O
-the	24	27	O
-gas	28	31	B-Process
-flow	32	36	I-Process
-through	37	44	O
-such	45	49	O
-non	50	53	O
--	53	54	O
-trivial	54	61	O
-internal	62	70	O
-geometries	71	81	O
-is	82	84	O
-,	84	85	O
-however	86	93	O
-,	93	94	O
-extremely	95	104	O
-challenging	105	116	O
-.	116	117	O
-
-This	118	122	O
-is	123	125	O
-because	126	133	O
-conventional	134	146	B-Process
-continuum	147	156	I-Process
-fluid	157	162	I-Process
-dynamics	163	171	I-Process
-,	171	172	O
-which	173	178	O
-assumes	179	186	O
-that	187	191	O
-locally	192	199	O
-a	200	201	O
-gas	202	205	O
-is	206	208	O
-close	209	214	O
-to	215	217	O
-a	218	219	O
-state	220	225	O
-of	226	228	O
-thermodynamic	229	242	B-Process
-equilibrium	243	254	I-Process
-,	254	255	O
-becomes	256	263	O
-invalid	264	271	O
-or	272	274	O
-inaccurate	275	285	O
-as	286	288	O
-the	289	292	O
-smallest	293	301	O
-characteristic	302	316	O
-scale	317	322	O
-of	323	325	O
-the	326	329	O
-geometry	330	338	O
-(	339	340	O
-e.g.	340	344	O
-the	345	348	O
-channel	349	356	B-Material
-height	357	363	I-Material
-)	363	364	O
-approaches	365	375	O
-the	376	379	O
-mean	380	384	O
-distance	385	393	O
-between	394	401	O
-molecular	402	411	B-Process
-collisions	412	422	I-Process
-,	422	423	O
-λ	424	425	O
-[	426	427	O
-1	427	428	O
-]	428	429	O
-.	429	430	O
-
-An	431	433	O
-accurate	434	442	B-Process
-and	443	446	I-Process
-flexible	447	455	I-Process
-modelling	456	465	I-Process
-alternative	466	477	I-Process
-for	478	481	O
-these	482	487	O
-cases	488	493	O
-is	494	496	O
-the	497	500	O
-direct	501	507	B-Process
-simulation	508	518	I-Process
-Monte	519	524	I-Process
-Carlo	525	530	I-Process
-method	531	537	I-Process
-(	538	539	O
-DSMC	539	543	B-Process
-)	543	544	O
-[	545	546	O
-2	546	547	O
-]	547	548	O
-.	548	549	O
-
-However	550	557	O
-,	557	558	O
-DSMC	559	563	B-Process
-can	564	567	O
-be	568	570	O
-prohibitively	571	584	O
-expensive	585	594	O
-for	595	598	O
-internal	599	607	B-Process
--	607	608	I-Process
-flow	608	612	I-Process
-applications	613	625	I-Process
-,	625	626	O
-which	627	632	O
-typically	633	642	O
-have	643	647	O
-a	648	649	O
-geometry	650	658	O
-of	659	661	O
-high	662	666	B-Material
--	666	667	I-Material
-aspect	667	673	I-Material
-ratio	674	679	I-Material
-(	680	681	O
-i.e.	681	685	O
-are	686	689	O
-extremely	690	699	O
-long	700	704	O
-,	704	705	O
-relative	706	714	O
-to	715	717	O
-their	718	723	O
-cross	724	729	O
--	729	730	O
-section	730	737	O
-)	737	738	O
-.	738	739	O
-
-The	740	743	O
-high	744	748	B-Material
--	748	749	I-Material
-aspect	749	755	I-Material
-ratio	756	761	I-Material
-creates	762	769	O
-a	770	771	O
-formidable	772	782	O
-multiscale	783	793	B-Task
-problem	794	801	I-Task
-:	801	802	O
-processes	803	812	O
-need	813	817	O
-to	818	820	O
-be	821	823	O
-resolved	824	832	O
-occurring	833	842	O
-over	843	847	O
-the	848	851	O
-smallest	852	860	O
-characteristic	861	875	O
-scale	876	881	O
-of	882	884	O
-the	885	888	O
-geometry	889	897	O
-(	898	899	O
-e.g.	899	903	O
-a	904	905	O
-channelʼs	906	915	O
-height	916	922	O
-)	922	923	O
-,	923	924	O
-as	925	927	O
-well	928	932	O
-as	933	935	O
-over	936	940	O
-the	941	944	O
-largest	945	952	O
-characteristic	953	967	O
-scale	968	973	O
-of	974	976	O
-the	977	980	O
-geometry	981	989	O
-(	990	991	O
-e.g.	991	995	O
-the	996	999	O
-length	1000	1006	O
-of	1007	1009	O
-a	1010	1011	O
-long	1012	1016	B-Process
-channel	1017	1024	I-Process
-network	1025	1032	I-Process
-)	1032	1033	O
-,	1033	1034	O
-simultaneously	1035	1049	O
-.	1049	1050	O
+Numerical	0,9	O	B-Task
+simulation	10,20	O	I-Task
+of	21,23	O	O
+the	24,27	O	O
+gas	28,31	O	B-Process
+flow	32,36	O	I-Process
+through	37,44	O	O
+such	45,49	O	O
+non	50,53	O	O
+-	53,54	O	O
+trivial	54,61	O	O
+internal	62,70	O	O
+geometries	71,81	O	O
+is	82,84	O	O
+,	84,85	O	O
+however	86,93	O	O
+,	93,94	O	O
+extremely	95,104	O	O
+challenging	105,116	O	O
+.	116,117	O	O
+
+This	118,122	O	O
+is	123,125	O	O
+because	126,133	O	O
+conventional	134,146	O	B-Process
+continuum	147,156	O	I-Process
+fluid	157,162	O	I-Process
+dynamics	163,171	O	I-Process
+,	171,172	O	O
+which	173,178	O	O
+assumes	179,186	O	O
+that	187,191	O	O
+locally	192,199	O	O
+a	200,201	O	O
+gas	202,205	O	O
+is	206,208	O	O
+close	209,214	O	O
+to	215,217	O	O
+a	218,219	O	O
+state	220,225	O	O
+of	226,228	O	O
+thermodynamic	229,242	O	B-Process
+equilibrium	243,254	O	I-Process
+,	254,255	O	O
+becomes	256,263	O	O
+invalid	264,271	O	O
+or	272,274	O	O
+inaccurate	275,285	O	O
+as	286,288	O	O
+the	289,292	O	O
+smallest	293,301	O	O
+characteristic	302,316	O	O
+scale	317,322	O	O
+of	323,325	O	O
+the	326,329	O	O
+geometry	330,338	O	O
+(	339,340	O	O
+e.g.	340,344	O	O
+the	345,348	O	O
+channel	349,356	O	B-Material
+height	357,363	O	I-Material
+)	363,364	O	O
+approaches	365,375	O	O
+the	376,379	O	O
+mean	380,384	O	O
+distance	385,393	O	O
+between	394,401	O	O
+molecular	402,411	O	B-Process
+collisions	412,422	O	I-Process
+,	422,423	O	O
+λ	424,425	O	O
+[	426,427	O	O
+1	427,428	O	O
+]	428,429	O	O
+.	429,430	O	O
+
+An	431,433	O	O
+accurate	434,442	O	B-Process
+and	443,446	O	I-Process
+flexible	447,455	O	I-Process
+modelling	456,465	O	I-Process
+alternative	466,477	O	I-Process
+for	478,481	O	O
+these	482,487	O	O
+cases	488,493	O	O
+is	494,496	O	O
+the	497,500	O	O
+direct	501,507	O	B-Process
+simulation	508,518	O	I-Process
+Monte	519,524	O	I-Process
+Carlo	525,530	O	I-Process
+method	531,537	O	I-Process
+(	538,539	O	O
+DSMC	539,543	O	B-Process
+)	543,544	O	O
+[	545,546	O	O
+2	546,547	O	O
+]	547,548	O	O
+.	548,549	O	O
+
+However	550,557	O	O
+,	557,558	O	O
+DSMC	559,563	O	B-Process
+can	564,567	O	O
+be	568,570	O	O
+prohibitively	571,584	O	O
+expensive	585,594	O	O
+for	595,598	O	O
+internal	599,607	O	B-Process
+-	607,608	O	I-Process
+flow	608,612	O	I-Process
+applications	613,625	O	I-Process
+,	625,626	O	O
+which	627,632	O	O
+typically	633,642	O	O
+have	643,647	O	O
+a	648,649	O	O
+geometry	650,658	O	O
+of	659,661	O	O
+high	662,666	O	B-Material
+-	666,667	O	I-Material
+aspect	667,673	O	I-Material
+ratio	674,679	O	I-Material
+(	680,681	O	O
+i.e.	681,685	O	O
+are	686,689	O	O
+extremely	690,699	O	O
+long	700,704	O	O
+,	704,705	O	O
+relative	706,714	O	O
+to	715,717	O	O
+their	718,723	O	O
+cross	724,729	O	O
+-	729,730	O	O
+section	730,737	O	O
+)	737,738	O	O
+.	738,739	O	O
+
+The	740,743	O	O
+high	744,748	O	B-Material
+-	748,749	O	I-Material
+aspect	749,755	O	I-Material
+ratio	756,761	O	I-Material
+creates	762,769	O	O
+a	770,771	O	O
+formidable	772,782	O	O
+multiscale	783,793	O	B-Task
+problem	794,801	O	I-Task
+:	801,802	O	O
+processes	803,812	O	O
+need	813,817	O	O
+to	818,820	O	O
+be	821,823	O	O
+resolved	824,832	O	O
+occurring	833,842	O	O
+over	843,847	O	O
+the	848,851	O	O
+smallest	852,860	O	O
+characteristic	861,875	O	O
+scale	876,881	O	O
+of	882,884	O	O
+the	885,888	O	O
+geometry	889,897	O	O
+(	898,899	O	O
+e.g.	899,903	O	O
+a	904,905	O	O
+channelʼs	906,915	O	O
+height	916,922	O	O
+)	922,923	O	O
+,	923,924	O	O
+as	925,927	O	O
+well	928,932	O	O
+as	933,935	O	O
+over	936,940	O	O
+the	941,944	O	O
+largest	945,952	O	O
+characteristic	953,967	O	O
+scale	968,973	O	O
+of	974,976	O	O
+the	977,980	O	O
+geometry	981,989	O	O
+(	990,991	O	O
+e.g.	991,995	O	O
+the	996,999	O	O
+length	1000,1006	O	O
+of	1007,1009	O	O
+a	1010,1011	O	O
+long	1012,1016	O	B-Process
+channel	1017,1024	O	I-Process
+network	1025,1032	O	I-Process
+)	1032,1033	O	O
+,	1033,1034	O	O
+simultaneously	1035,1049	O	O
+.	1049,1050	O	O
 
 
 -DOCSTART- (S0021999113006955)
 
-The	0	3	O
-test	4	8	O
-cases	9	14	O
-confirm	15	22	O
-that	23	27	O
-the	28	31	O
-high	32	36	B-Process
--	36	37	I-Process
-order	37	42	I-Process
-discretisation	43	57	I-Process
-retains	58	65	O
-exponential	66	77	B-Process
-convergence	78	89	I-Process
-properties	90	100	I-Process
-with	101	105	O
-increasing	106	116	O
-geometric	117	126	O
-and	127	130	O
-expansion	131	140	O
-polynomial	141	151	O
-order	152	157	O
-if	158	160	O
-both	161	165	O
-the	166	169	O
-solution	170	178	B-Material
-and	179	182	O
-true	183	187	B-Material
-surface	188	195	I-Material
-are	196	199	O
-smooth	200	206	O
-.	206	207	O
-
-Errors	208	214	O
-are	215	218	O
-found	219	224	O
-to	225	227	O
-saturate	228	236	O
-when	237	241	O
-the	242	245	O
-geometric	246	255	O
-errors	256	262	O
-,	262	263	O
-due	264	267	O
-to	268	270	O
-the	271	274	O
-parametrisation	275	290	B-Process
-of	291	293	I-Process
-the	294	297	I-Process
-surface	298	305	I-Process
-elements	306	314	I-Process
-,	314	315	O
-begin	316	321	O
-to	322	324	O
-dominate	325	333	O
-the	334	337	O
-temporal	338	346	O
-and	347	350	O
-spatial	351	358	O
-discretisation	359	373	O
-errors	374	380	O
-.	380	381	O
-
-For	382	385	O
-the	386	389	O
-smooth	390	396	B-Material
-solutions	397	406	I-Material
-considered	407	417	O
-as	418	420	O
-test	421	425	O
-cases	426	431	O
-,	431	432	O
-the	433	436	O
-results	437	444	O
-show	445	449	O
-that	450	454	O
-this	455	459	O
-dominance	460	469	O
-of	470	472	O
-geometric	473	482	O
-errors	483	489	O
-quickly	490	497	O
-limits	498	504	O
-the	505	508	O
-effectiveness	509	522	O
-of	523	525	O
-further	526	533	O
-increases	534	543	O
-in	544	546	O
-the	547	550	O
-number	551	557	O
-of	558	560	O
-degrees	561	568	O
-of	569	571	O
-freedom	572	579	O
-,	579	580	O
-either	581	587	O
-through	588	595	O
-mesh	596	600	B-Process
-refinement	601	611	I-Process
-or	612	614	O
-higher	615	621	B-Process
-solution	622	630	I-Process
-polynomial	631	641	I-Process
-orders	642	648	I-Process
-.	648	649	O
-
-Increasing	650	660	O
-the	661	664	O
-order	665	670	O
-of	671	673	O
-the	674	677	O
-geometry	678	686	B-Process
-parametrisation	687	702	I-Process
-reduces	703	710	O
-the	711	714	O
-geometric	715	724	B-Process
-error	725	730	I-Process
-.	730	731	O
-
-The	732	735	O
-analytic	736	744	B-Task
-test	745	749	I-Task
-cases	750	755	I-Task
-presented	756	765	O
-here	766	770	O
-use	771	774	O
-a	775	776	O
-coarse	777	783	B-Material
-curvilinear	784	795	I-Material
-mesh	796	800	I-Material
-;	800	801	O
-for	802	805	O
-applications	806	818	O
-,	818	819	O
-meshes	820	826	B-Material
-are	827	830	O
-typically	831	840	O
-more	841	845	O
-refined	846	853	O
-in	854	856	O
-order	857	862	O
-to	863	865	O
-capture	866	873	B-Process
-features	874	882	I-Process
-in	883	885	I-Process
-the	886	889	I-Process
-solution	890	898	I-Process
-and	899	902	O
-so	903	905	O
-will	906	910	O
-better	911	917	O
-capture	918	925	B-Process
-the	926	929	I-Process
-geometry	930	938	I-Process
-and	939	942	O
-consequently	943	955	O
-reduce	956	962	B-Process
-this	963	967	I-Process
-lower	968	973	I-Process
-bound	974	979	I-Process
-on	980	982	O
-the	983	986	O
-solution	987	995	B-Material
-error	996	1001	O
-.	1001	1002	O
-
-If	1003	1005	O
-the	1006	1009	O
-solution	1010	1018	B-Material
-is	1019	1021	O
-not	1022	1025	O
-smooth	1026	1032	O
-,	1032	1033	O
-we	1034	1036	O
-do	1037	1039	O
-not	1040	1043	O
-expect	1044	1050	O
-to	1051	1053	O
-see	1054	1057	O
-rapid	1058	1063	O
-convergence	1064	1075	O
-.	1075	1076	O
-
-In	1077	1079	O
-the	1080	1083	O
-case	1084	1088	O
-that	1089	1093	O
-the	1094	1097	O
-solution	1098	1106	B-Material
-is	1107	1109	O
-smooth	1110	1116	O
-,	1116	1117	O
-but	1118	1121	O
-the	1122	1125	O
-true	1126	1130	B-Material
-surface	1131	1138	I-Material
-is	1139	1141	O
-not	1142	1145	O
-,	1145	1146	O
-then	1147	1151	O
-exponential	1152	1163	B-Process
-convergence	1164	1175	I-Process
-with	1176	1180	O
-P	1181	1182	B-Material
-and	1183	1186	O
-Pg	1187	1189	B-Material
-can	1190	1193	O
-only	1194	1198	O
-be	1199	1201	O
-achieved	1202	1210	O
-if	1211	1213	O
-,	1213	1214	O
-and	1215	1218	O
-only	1219	1223	O
-if	1224	1226	O
-,	1226	1227	O
-the	1228	1231	O
-discontinuities	1232	1247	B-Process
-are	1248	1251	I-Process
-aligned	1252	1259	I-Process
-with	1260	1264	I-Process
-element	1265	1272	I-Process
-boundaries	1273	1283	I-Process
-.	1283	1284	O
-
-However	1285	1292	O
-,	1292	1293	O
-if	1294	1296	O
-discontinuities	1297	1312	O
-lie	1313	1316	O
-within	1317	1323	O
-an	1324	1326	O
-element	1327	1334	B-Material
-,	1334	1335	O
-convergence	1336	1347	O
-will	1348	1352	O
-be	1353	1355	O
-limited	1356	1363	O
-by	1364	1366	O
-the	1367	1370	O
-geometric	1371	1380	B-Process
-approximation	1381	1394	I-Process
-,	1394	1395	O
-since	1396	1401	O
-the	1402	1405	O
-true	1406	1410	B-Material
-surface	1411	1418	I-Material
-can	1419	1422	O
-not	1422	1425	O
-be	1426	1428	O
-captured	1429	1437	O
-.	1437	1438	O
-
-In	1439	1441	O
-the	1442	1445	O
-cardiac	1446	1453	B-Task
-problem	1454	1461	I-Task
-,	1461	1462	O
-we	1463	1465	O
-consider	1466	1474	O
-both	1475	1479	O
-the	1480	1483	O
-true	1484	1488	B-Material
-surface	1489	1496	I-Material
-and	1497	1500	O
-solution	1501	1509	B-Material
-to	1510	1512	O
-be	1513	1515	O
-smooth	1516	1522	O
-.	1522	1523	O
+The	0,3	O	O
+test	4,8	O	O
+cases	9,14	O	O
+confirm	15,22	O	O
+that	23,27	O	O
+the	28,31	O	O
+high	32,36	O	B-Process
+-	36,37	O	I-Process
+order	37,42	O	I-Process
+discretisation	43,57	O	I-Process
+retains	58,65	O	O
+exponential	66,77	O	B-Process
+convergence	78,89	O	I-Process
+properties	90,100	O	I-Process
+with	101,105	O	O
+increasing	106,116	O	O
+geometric	117,126	O	O
+and	127,130	O	O
+expansion	131,140	O	O
+polynomial	141,151	O	O
+order	152,157	O	O
+if	158,160	O	O
+both	161,165	O	O
+the	166,169	O	O
+solution	170,178	O	B-Material
+and	179,182	O	O
+true	183,187	O	B-Material
+surface	188,195	O	I-Material
+are	196,199	O	O
+smooth	200,206	O	O
+.	206,207	O	O
+
+Errors	208,214	O	O
+are	215,218	O	O
+found	219,224	O	O
+to	225,227	O	O
+saturate	228,236	O	O
+when	237,241	O	O
+the	242,245	O	O
+geometric	246,255	O	O
+errors	256,262	O	O
+,	262,263	O	O
+due	264,267	O	O
+to	268,270	O	O
+the	271,274	O	O
+parametrisation	275,290	O	B-Process
+of	291,293	O	I-Process
+the	294,297	O	I-Process
+surface	298,305	O	I-Process
+elements	306,314	O	I-Process
+,	314,315	O	O
+begin	316,321	O	O
+to	322,324	O	O
+dominate	325,333	O	O
+the	334,337	O	O
+temporal	338,346	O	O
+and	347,350	O	O
+spatial	351,358	O	O
+discretisation	359,373	O	O
+errors	374,380	O	O
+.	380,381	O	O
+
+For	382,385	O	O
+the	386,389	O	O
+smooth	390,396	O	B-Material
+solutions	397,406	O	I-Material
+considered	407,417	O	O
+as	418,420	O	O
+test	421,425	O	O
+cases	426,431	O	O
+,	431,432	O	O
+the	433,436	O	O
+results	437,444	O	O
+show	445,449	O	O
+that	450,454	O	O
+this	455,459	O	O
+dominance	460,469	O	O
+of	470,472	O	O
+geometric	473,482	O	O
+errors	483,489	O	O
+quickly	490,497	O	O
+limits	498,504	O	O
+the	505,508	O	O
+effectiveness	509,522	O	O
+of	523,525	O	O
+further	526,533	O	O
+increases	534,543	O	O
+in	544,546	O	O
+the	547,550	O	O
+number	551,557	O	O
+of	558,560	O	O
+degrees	561,568	O	O
+of	569,571	O	O
+freedom	572,579	O	O
+,	579,580	O	O
+either	581,587	O	O
+through	588,595	O	O
+mesh	596,600	O	B-Process
+refinement	601,611	O	I-Process
+or	612,614	O	O
+higher	615,621	O	B-Process
+solution	622,630	O	I-Process
+polynomial	631,641	O	I-Process
+orders	642,648	O	I-Process
+.	648,649	O	O
+
+Increasing	650,660	O	O
+the	661,664	O	O
+order	665,670	O	O
+of	671,673	O	O
+the	674,677	O	O
+geometry	678,686	O	B-Process
+parametrisation	687,702	O	I-Process
+reduces	703,710	O	O
+the	711,714	O	O
+geometric	715,724	O	B-Process
+error	725,730	O	I-Process
+.	730,731	O	O
+
+The	732,735	O	O
+analytic	736,744	O	B-Task
+test	745,749	O	I-Task
+cases	750,755	O	I-Task
+presented	756,765	O	O
+here	766,770	O	O
+use	771,774	O	O
+a	775,776	O	O
+coarse	777,783	O	B-Material
+curvilinear	784,795	O	I-Material
+mesh	796,800	O	I-Material
+;	800,801	O	O
+for	802,805	O	O
+applications	806,818	O	O
+,	818,819	O	O
+meshes	820,826	O	B-Material
+are	827,830	O	O
+typically	831,840	O	O
+more	841,845	O	O
+refined	846,853	O	O
+in	854,856	O	O
+order	857,862	O	O
+to	863,865	O	O
+capture	866,873	O	B-Process
+features	874,882	O	I-Process
+in	883,885	O	I-Process
+the	886,889	O	I-Process
+solution	890,898	O	I-Process
+and	899,902	O	O
+so	903,905	O	O
+will	906,910	O	O
+better	911,917	O	O
+capture	918,925	O	B-Process
+the	926,929	O	I-Process
+geometry	930,938	O	I-Process
+and	939,942	O	O
+consequently	943,955	O	O
+reduce	956,962	O	B-Process
+this	963,967	O	I-Process
+lower	968,973	O	I-Process
+bound	974,979	O	I-Process
+on	980,982	O	O
+the	983,986	O	O
+solution	987,995	O	B-Material
+error	996,1001	O	O
+.	1001,1002	O	O
+
+If	1003,1005	O	O
+the	1006,1009	O	O
+solution	1010,1018	O	B-Material
+is	1019,1021	O	O
+not	1022,1025	O	O
+smooth	1026,1032	O	O
+,	1032,1033	O	O
+we	1034,1036	O	O
+do	1037,1039	O	O
+not	1040,1043	O	O
+expect	1044,1050	O	O
+to	1051,1053	O	O
+see	1054,1057	O	O
+rapid	1058,1063	O	O
+convergence	1064,1075	O	O
+.	1075,1076	O	O
+
+In	1077,1079	O	O
+the	1080,1083	O	O
+case	1084,1088	O	O
+that	1089,1093	O	O
+the	1094,1097	O	O
+solution	1098,1106	O	B-Material
+is	1107,1109	O	O
+smooth	1110,1116	O	O
+,	1116,1117	O	O
+but	1118,1121	O	O
+the	1122,1125	O	O
+true	1126,1130	O	B-Material
+surface	1131,1138	O	I-Material
+is	1139,1141	O	O
+not	1142,1145	O	O
+,	1145,1146	O	O
+then	1147,1151	O	O
+exponential	1152,1163	O	B-Process
+convergence	1164,1175	O	I-Process
+with	1176,1180	O	O
+P	1181,1182	O	B-Material
+and	1183,1186	O	O
+Pg	1187,1189	O	B-Material
+can	1190,1193	O	O
+only	1194,1198	O	O
+be	1199,1201	O	O
+achieved	1202,1210	O	O
+if	1211,1213	O	O
+,	1213,1214	O	O
+and	1215,1218	O	O
+only	1219,1223	O	O
+if	1224,1226	O	O
+,	1226,1227	O	O
+the	1228,1231	O	O
+discontinuities	1232,1247	O	B-Process
+are	1248,1251	O	I-Process
+aligned	1252,1259	O	I-Process
+with	1260,1264	O	I-Process
+element	1265,1272	O	I-Process
+boundaries	1273,1283	O	I-Process
+.	1283,1284	O	O
+
+However	1285,1292	O	O
+,	1292,1293	O	O
+if	1294,1296	O	O
+discontinuities	1297,1312	O	O
+lie	1313,1316	O	O
+within	1317,1323	O	O
+an	1324,1326	O	O
+element	1327,1334	O	B-Material
+,	1334,1335	O	O
+convergence	1336,1347	O	O
+will	1348,1352	O	O
+be	1353,1355	O	O
+limited	1356,1363	O	O
+by	1364,1366	O	O
+the	1367,1370	O	O
+geometric	1371,1380	O	B-Process
+approximation	1381,1394	O	I-Process
+,	1394,1395	O	O
+since	1396,1401	O	O
+the	1402,1405	O	O
+true	1406,1410	O	B-Material
+surface	1411,1418	O	I-Material
+can	1419,1422	O	O
+not	1422,1425	O	O
+be	1426,1428	O	O
+captured	1429,1437	O	O
+.	1437,1438	O	O
+
+In	1439,1441	O	O
+the	1442,1445	O	O
+cardiac	1446,1453	O	B-Task
+problem	1454,1461	O	I-Task
+,	1461,1462	O	O
+we	1463,1465	O	O
+consider	1466,1474	O	O
+both	1475,1479	O	O
+the	1480,1483	O	O
+true	1484,1488	O	B-Material
+surface	1489,1496	O	I-Material
+and	1497,1500	O	O
+solution	1501,1509	O	B-Material
+to	1510,1512	O	O
+be	1513,1515	O	O
+smooth	1516,1522	O	O
+.	1522,1523	O	O
 
 
 -DOCSTART- (S0021999116303291)
 
-DPD	0	3	B-Process
-was	4	7	O
-first	8	13	O
-proposed	14	22	O
-in	23	25	O
-order	26	31	O
-to	32	34	O
-recover	35	42	O
-the	43	46	O
-properties	47	57	O
-of	58	60	O
-isotropy	61	69	B-Process
-(	70	71	O
-and	71	74	O
-Galilean	75	83	B-Process
-invariance	84	94	I-Process
-)	94	95	O
-that	96	100	O
-were	101	105	O
-broken	106	112	O
-in	113	115	O
-the	116	119	O
-so	120	122	O
--	122	123	O
-called	123	129	O
-lattice	130	137	B-Process
--	137	138	I-Process
-gas	138	141	I-Process
-automata	142	150	I-Process
-method	151	157	O
-[	158	159	O
-5	159	160	O
-]	160	161	O
-.	161	162	O
-
-In	163	165	O
-DPD	166	169	B-Process
-,	169	170	O
-each	171	175	O
-body	176	180	O
-is	181	183	O
-regarded	184	192	O
-as	193	195	O
-a	196	197	O
-coarse	198	204	B-Material
--	204	205	I-Material
-grained	205	212	I-Material
-particle	213	221	I-Material
-.	221	222	O
-
-These	223	228	O
-particles	229	238	B-Material
-interact	239	247	O
-in	248	250	O
-a	251	252	O
-soft	253	257	O
-(	258	259	O
-and	259	262	O
-short	263	268	O
--	268	269	O
-ranged	269	275	O
-)	275	276	O
-potential	277	286	O
-,	286	287	O
-allowing	288	296	O
-larger	297	303	O
-integration	304	315	O
-timesteps	316	325	O
-than	326	330	O
-would	331	336	O
-be	337	339	O
-possible	340	348	O
-in	349	351	O
-MD	352	354	B-Process
-,	354	355	O
-while	356	361	O
-simultaneously	362	376	O
-decreasing	377	387	O
-the	388	391	O
-number	392	398	O
-of	399	401	O
-degrees	402	409	O
-of	410	412	O
-freedom	413	420	O
-required	421	429	O
-.	429	430	O
-
-As	431	433	O
-in	434	436	O
-Langevin	437	445	B-Process
-dynamics	446	454	I-Process
-,	454	455	O
-a	456	457	O
-thermostat	458	468	B-Process
-consisting	469	479	O
-of	480	482	O
-well	483	487	O
--	487	488	O
-balanced	488	496	O
-damping	497	504	O
-and	505	508	O
-stochastic	509	519	O
-terms	520	525	O
-is	526	528	O
-applied	529	536	O
-to	537	539	O
-each	540	544	O
-particle	545	553	O
-.	553	554	O
-
-However	555	562	O
-,	562	563	O
-unlike	564	570	O
-in	571	573	O
-Langevin	574	582	B-Process
-dynamics	583	591	I-Process
-,	591	592	O
-both	593	597	O
-terms	598	603	O
-are	604	607	O
-pairwise	608	616	O
-and	617	620	O
-the	621	624	O
-damping	625	632	O
-term	633	637	O
-is	638	640	O
-based	641	646	O
-on	647	649	O
-relative	650	658	O
-velocities	659	669	O
-,	669	670	O
-leading	671	678	O
-to	679	681	O
-the	682	685	O
-conservation	686	698	O
-of	699	701	O
-both	702	706	O
-the	707	710	O
-angular	711	718	B-Process
-momentum	719	727	I-Process
-and	728	731	O
-the	732	735	O
-linear	736	742	B-Process
-momentum	743	751	I-Process
-.	751	752	O
-
-The	753	756	O
-property	757	765	O
-of	766	768	O
-Galilean	769	777	B-Process
-invariance	778	788	I-Process
-(	789	790	O
-i.e.	790	794	O
-,	794	795	O
-the	796	799	O
-dependence	800	810	B-Process
-on	811	813	I-Process
-the	814	817	I-Process
-relative	818	826	I-Process
-velocity	827	835	I-Process
-)	835	836	O
-makes	837	842	O
-DPD	843	846	B-Process
-a	847	848	O
-profile	849	856	B-Process
--	856	857	I-Process
-unbiased	857	865	I-Process
-thermostat	866	876	I-Process
-(	877	878	O
-PUT	878	881	B-Process
-)	881	882	O
-[	883	884	O
-6,7	884	887	O
-]	887	888	O
-by	889	891	O
-construction	892	904	O
-and	905	908	O
-thus	909	913	O
-it	914	916	O
-is	917	919	O
-an	920	922	O
-ideal	923	928	O
-thermostat	929	939	O
-for	940	943	O
-nonequilibrium	944	958	B-Task
-molecular	959	968	I-Task
-dynamics	969	977	I-Task
-(	978	979	I-Task
-NEMD	979	983	I-Task
-)	983	984	I-Task
-[	985	986	O
-8	986	987	O
-]	987	988	O
-.	988	989	O
-
-The	990	993	O
-momentum	994	1002	O
-is	1003	1005	O
-expected	1006	1014	O
-to	1015	1017	O
-propagate	1018	1027	O
-locally	1028	1035	O
-(	1036	1037	O
-while	1037	1042	O
-global	1043	1049	O
-momentum	1050	1058	O
-is	1059	1061	O
-conserved	1062	1071	O
-)	1071	1072	O
-and	1073	1076	O
-thus	1077	1081	O
-the	1082	1085	O
-correct	1086	1093	O
-hydrodynamics	1094	1107	O
-is	1108	1110	O
-expected	1111	1119	O
-in	1120	1122	O
-DPD	1123	1126	B-Process
-[	1127	1128	O
-8	1128	1129	O
-]	1129	1130	O
-,	1130	1131	O
-as	1132	1134	O
-demonstrated	1135	1147	O
-previously	1148	1158	O
-in	1159	1161	O
-[	1162	1163	O
-9	1163	1164	O
-]	1164	1165	O
-.	1165	1166	O
-
-Due	1167	1170	O
-to	1171	1173	O
-the	1174	1177	O
-aforementioned	1178	1192	O
-properties	1193	1203	O
-,	1203	1204	O
-DPD	1205	1208	B-Process
-has	1209	1212	O
-been	1213	1217	O
-widely	1218	1224	O
-used	1225	1229	O
-to	1230	1232	O
-recover	1233	1240	B-Task
-thermodynamic	1241	1254	I-Task
-,	1254	1255	I-Task
-dynamical	1256	1265	I-Task
-,	1265	1266	I-Task
-and	1267	1270	I-Task
-rheological	1271	1282	I-Task
-properties	1283	1293	I-Task
-of	1294	1296	O
-complex	1297	1304	B-Material
-fluids	1305	1311	I-Material
-,	1311	1312	O
-with	1313	1317	O
-applications	1318	1330	O
-in	1331	1333	O
-polymer	1334	1341	B-Material
-solutions	1342	1351	I-Material
-[	1352	1353	O
-10	1353	1355	O
-]	1355	1356	O
-,	1356	1357	O
-colloidal	1358	1367	B-Material
-suspensions	1368	1379	I-Material
-[	1380	1381	O
-11	1381	1383	O
-]	1383	1384	O
-,	1384	1385	O
-multiphase	1386	1396	B-Material
-flows	1397	1402	I-Material
-[	1403	1404	O
-12	1404	1406	O
-]	1406	1407	O
-,	1407	1408	O
-and	1409	1412	O
-biological	1413	1423	B-Material
-systems	1424	1431	I-Material
-[	1432	1433	O
-13	1433	1435	O
-]	1435	1436	O
-.	1436	1437	O
-
-DPD	1438	1441	B-Process
-has	1442	1445	O
-been	1446	1450	O
-compared	1451	1459	O
-with	1460	1464	O
-Langevin	1465	1473	B-Process
-dynamics	1474	1482	I-Process
-for	1483	1486	O
-out	1487	1490	O
--	1490	1491	O
-of	1491	1493	O
--	1493	1494	O
-equilibrium	1494	1505	O
-simulations	1506	1517	O
-of	1518	1520	O
-polymeric	1521	1530	B-Process
-systems	1531	1538	I-Process
-in	1539	1541	O
-[	1542	1543	O
-14	1543	1545	O
-]	1545	1546	O
-,	1546	1547	O
-where	1548	1553	O
-as	1554	1556	O
-expected	1557	1565	O
-the	1566	1569	O
-correct	1570	1577	O
-dynamic	1578	1585	B-Process
-fluctuations	1586	1598	I-Process
-of	1599	1601	O
-the	1602	1605	O
-polymers	1606	1614	B-Material
-were	1615	1619	O
-obtained	1620	1628	O
-with	1629	1633	O
-the	1634	1637	O
-former	1638	1644	O
-but	1645	1648	O
-not	1649	1652	O
-with	1653	1657	O
-the	1658	1661	O
-latter	1662	1668	O
-.	1668	1669	O
+DPD	0,3	O	B-Process
+was	4,7	O	O
+first	8,13	O	O
+proposed	14,22	O	O
+in	23,25	O	O
+order	26,31	O	O
+to	32,34	O	O
+recover	35,42	O	O
+the	43,46	O	O
+properties	47,57	O	O
+of	58,60	O	O
+isotropy	61,69	O	B-Process
+(	70,71	O	O
+and	71,74	O	O
+Galilean	75,83	O	B-Process
+invariance	84,94	O	I-Process
+)	94,95	O	O
+that	96,100	O	O
+were	101,105	O	O
+broken	106,112	O	O
+in	113,115	O	O
+the	116,119	O	O
+so	120,122	O	O
+-	122,123	O	O
+called	123,129	O	O
+lattice	130,137	O	B-Process
+-	137,138	O	I-Process
+gas	138,141	O	I-Process
+automata	142,150	O	I-Process
+method	151,157	O	O
+[	158,159	O	O
+5	159,160	O	O
+]	160,161	O	O
+.	161,162	O	O
+
+In	163,165	O	O
+DPD	166,169	O	B-Process
+,	169,170	O	O
+each	171,175	O	O
+body	176,180	O	O
+is	181,183	O	O
+regarded	184,192	O	O
+as	193,195	O	O
+a	196,197	O	O
+coarse	198,204	O	B-Material
+-	204,205	O	I-Material
+grained	205,212	O	I-Material
+particle	213,221	O	I-Material
+.	221,222	O	O
+
+These	223,228	O	O
+particles	229,238	O	B-Material
+interact	239,247	O	O
+in	248,250	O	O
+a	251,252	O	O
+soft	253,257	O	O
+(	258,259	O	O
+and	259,262	O	O
+short	263,268	O	O
+-	268,269	O	O
+ranged	269,275	O	O
+)	275,276	O	O
+potential	277,286	O	O
+,	286,287	O	O
+allowing	288,296	O	O
+larger	297,303	O	O
+integration	304,315	O	O
+timesteps	316,325	O	O
+than	326,330	O	O
+would	331,336	O	O
+be	337,339	O	O
+possible	340,348	O	O
+in	349,351	O	O
+MD	352,354	O	B-Process
+,	354,355	O	O
+while	356,361	O	O
+simultaneously	362,376	O	O
+decreasing	377,387	O	O
+the	388,391	O	O
+number	392,398	O	O
+of	399,401	O	O
+degrees	402,409	O	O
+of	410,412	O	O
+freedom	413,420	O	O
+required	421,429	O	O
+.	429,430	O	O
+
+As	431,433	O	O
+in	434,436	O	O
+Langevin	437,445	O	B-Process
+dynamics	446,454	O	I-Process
+,	454,455	O	O
+a	456,457	O	O
+thermostat	458,468	O	B-Process
+consisting	469,479	O	O
+of	480,482	O	O
+well	483,487	O	O
+-	487,488	O	O
+balanced	488,496	O	O
+damping	497,504	O	O
+and	505,508	O	O
+stochastic	509,519	O	O
+terms	520,525	O	O
+is	526,528	O	O
+applied	529,536	O	O
+to	537,539	O	O
+each	540,544	O	O
+particle	545,553	O	O
+.	553,554	O	O
+
+However	555,562	O	O
+,	562,563	O	O
+unlike	564,570	O	O
+in	571,573	O	O
+Langevin	574,582	O	B-Process
+dynamics	583,591	O	I-Process
+,	591,592	O	O
+both	593,597	O	O
+terms	598,603	O	O
+are	604,607	O	O
+pairwise	608,616	O	O
+and	617,620	O	O
+the	621,624	O	O
+damping	625,632	O	O
+term	633,637	O	O
+is	638,640	O	O
+based	641,646	O	O
+on	647,649	O	O
+relative	650,658	O	O
+velocities	659,669	O	O
+,	669,670	O	O
+leading	671,678	O	O
+to	679,681	O	O
+the	682,685	O	O
+conservation	686,698	O	O
+of	699,701	O	O
+both	702,706	O	O
+the	707,710	O	O
+angular	711,718	O	B-Process
+momentum	719,727	O	I-Process
+and	728,731	O	O
+the	732,735	O	O
+linear	736,742	O	B-Process
+momentum	743,751	O	I-Process
+.	751,752	O	O
+
+The	753,756	O	O
+property	757,765	O	O
+of	766,768	O	O
+Galilean	769,777	O	B-Process
+invariance	778,788	O	I-Process
+(	789,790	O	O
+i.e.	790,794	O	O
+,	794,795	O	O
+the	796,799	O	O
+dependence	800,810	O	B-Process
+on	811,813	O	I-Process
+the	814,817	O	I-Process
+relative	818,826	O	I-Process
+velocity	827,835	O	I-Process
+)	835,836	O	O
+makes	837,842	O	O
+DPD	843,846	O	B-Process
+a	847,848	O	O
+profile	849,856	O	B-Process
+-	856,857	O	I-Process
+unbiased	857,865	O	I-Process
+thermostat	866,876	O	I-Process
+(	877,878	O	O
+PUT	878,881	O	B-Process
+)	881,882	O	O
+[	883,884	O	O
+6,7	884,887	O	O
+]	887,888	O	O
+by	889,891	O	O
+construction	892,904	O	O
+and	905,908	O	O
+thus	909,913	O	O
+it	914,916	O	O
+is	917,919	O	O
+an	920,922	O	O
+ideal	923,928	O	O
+thermostat	929,939	O	O
+for	940,943	O	O
+nonequilibrium	944,958	O	B-Task
+molecular	959,968	O	I-Task
+dynamics	969,977	O	I-Task
+(	978,979	O	I-Task
+NEMD	979,983	O	I-Task
+)	983,984	O	I-Task
+[	985,986	O	O
+8	986,987	O	O
+]	987,988	O	O
+.	988,989	O	O
+
+The	990,993	O	O
+momentum	994,1002	O	O
+is	1003,1005	O	O
+expected	1006,1014	O	O
+to	1015,1017	O	O
+propagate	1018,1027	O	O
+locally	1028,1035	O	O
+(	1036,1037	O	O
+while	1037,1042	O	O
+global	1043,1049	O	O
+momentum	1050,1058	O	O
+is	1059,1061	O	O
+conserved	1062,1071	O	O
+)	1071,1072	O	O
+and	1073,1076	O	O
+thus	1077,1081	O	O
+the	1082,1085	O	O
+correct	1086,1093	O	O
+hydrodynamics	1094,1107	O	O
+is	1108,1110	O	O
+expected	1111,1119	O	O
+in	1120,1122	O	O
+DPD	1123,1126	O	B-Process
+[	1127,1128	O	O
+8	1128,1129	O	O
+]	1129,1130	O	O
+,	1130,1131	O	O
+as	1132,1134	O	O
+demonstrated	1135,1147	O	O
+previously	1148,1158	O	O
+in	1159,1161	O	O
+[	1162,1163	O	O
+9	1163,1164	O	O
+]	1164,1165	O	O
+.	1165,1166	O	O
+
+Due	1167,1170	O	O
+to	1171,1173	O	O
+the	1174,1177	O	O
+aforementioned	1178,1192	O	O
+properties	1193,1203	O	O
+,	1203,1204	O	O
+DPD	1205,1208	O	B-Process
+has	1209,1212	O	O
+been	1213,1217	O	O
+widely	1218,1224	O	O
+used	1225,1229	O	O
+to	1230,1232	O	O
+recover	1233,1240	O	B-Task
+thermodynamic	1241,1254	O	I-Task
+,	1254,1255	O	I-Task
+dynamical	1256,1265	O	I-Task
+,	1265,1266	O	I-Task
+and	1267,1270	O	I-Task
+rheological	1271,1282	O	I-Task
+properties	1283,1293	O	I-Task
+of	1294,1296	O	O
+complex	1297,1304	O	B-Material
+fluids	1305,1311	O	I-Material
+,	1311,1312	O	O
+with	1313,1317	O	O
+applications	1318,1330	O	O
+in	1331,1333	O	O
+polymer	1334,1341	O	B-Material
+solutions	1342,1351	O	I-Material
+[	1352,1353	O	O
+10	1353,1355	O	O
+]	1355,1356	O	O
+,	1356,1357	O	O
+colloidal	1358,1367	O	B-Material
+suspensions	1368,1379	O	I-Material
+[	1380,1381	O	O
+11	1381,1383	O	O
+]	1383,1384	O	O
+,	1384,1385	O	O
+multiphase	1386,1396	O	B-Material
+flows	1397,1402	O	I-Material
+[	1403,1404	O	O
+12	1404,1406	O	O
+]	1406,1407	O	O
+,	1407,1408	O	O
+and	1409,1412	O	O
+biological	1413,1423	O	B-Material
+systems	1424,1431	O	I-Material
+[	1432,1433	O	O
+13	1433,1435	O	O
+]	1435,1436	O	O
+.	1436,1437	O	O
+
+DPD	1438,1441	O	B-Process
+has	1442,1445	O	O
+been	1446,1450	O	O
+compared	1451,1459	O	O
+with	1460,1464	O	O
+Langevin	1465,1473	O	B-Process
+dynamics	1474,1482	O	I-Process
+for	1483,1486	O	O
+out	1487,1490	O	O
+-	1490,1491	O	O
+of	1491,1493	O	O
+-	1493,1494	O	O
+equilibrium	1494,1505	O	O
+simulations	1506,1517	O	O
+of	1518,1520	O	O
+polymeric	1521,1530	O	B-Process
+systems	1531,1538	O	I-Process
+in	1539,1541	O	O
+[	1542,1543	O	O
+14	1543,1545	O	O
+]	1545,1546	O	O
+,	1546,1547	O	O
+where	1548,1553	O	O
+as	1554,1556	O	O
+expected	1557,1565	O	O
+the	1566,1569	O	O
+correct	1570,1577	O	O
+dynamic	1578,1585	O	B-Process
+fluctuations	1586,1598	O	I-Process
+of	1599,1601	O	O
+the	1602,1605	O	O
+polymers	1606,1614	O	B-Material
+were	1615,1619	O	O
+obtained	1620,1628	O	O
+with	1629,1633	O	O
+the	1634,1637	O	O
+former	1638,1644	O	O
+but	1645,1648	O	O
+not	1649,1652	O	O
+with	1653,1657	O	O
+the	1658,1661	O	O
+latter	1662,1668	O	O
+.	1668,1669	O	O
 
 
 -DOCSTART- (S0032386107010518)
 
-Copper	0	6	B-Material
--	6	7	I-Material
-catalyzed	7	16	I-Material
-Huisgen	17	24	I-Material
-cycloadditions	25	39	I-Material
-have	40	44	O
-been	45	49	O
-recently	50	58	O
-extensively	59	70	O
-studied	71	78	O
-by	79	81	O
-polymer	82	89	O
-chemists	90	98	O
-for	99	102	O
-the	103	106	O
-synthesis	107	116	B-Task
-of	117	119	I-Task
-functional	120	130	I-Task
-polymers	131	139	I-Task
-(	140	141	O
-either	141	147	O
-end	148	151	O
--	151	152	O
-functional	152	162	O
-or	163	165	O
-side	166	170	O
--	170	171	O
-functional	171	181	O
-)	181	182	O
-.	182	183	O
-
-The	184	187	O
-post	188	192	O
--	192	193	O
-functionalization	193	210	O
-of	211	213	O
-synthetic	214	223	B-Material
-polymers	224	232	I-Material
-is	233	235	O
-an	236	238	O
-important	239	248	O
-feature	249	256	O
-of	257	259	O
-macromolecular	260	274	B-Task
-engineering	275	286	I-Task
-as	287	289	O
-many	290	294	O
-polymerization	295	309	B-Process
-mechanisms	310	320	O
-are	321	324	O
-rather	325	331	O
-sensitive	332	341	O
-to	342	344	O
-the	345	348	O
-presence	349	357	O
-of	358	360	O
-bulky	361	366	O
-or	367	369	O
-functional	370	380	O
-groups	381	387	O
-.	387	388	O
-
-For	389	392	O
-example	393	400	O
-,	400	401	O
-a	402	403	O
-wide	404	408	O
-variety	409	416	O
-of	417	419	O
-telechelic	420	430	B-Material
-polymers	431	439	I-Material
-(	440	441	O
-i.e.	441	445	O
-polymers	446	454	B-Material
-with	455	459	I-Material
-defined	460	467	I-Material
-chain	468	473	I-Material
--	473	474	I-Material
-ends	474	478	I-Material
-)	478	479	O
-can	480	483	O
-be	484	486	O
-efficiently	487	498	O
-prepared	499	507	O
-using	508	513	O
-a	514	515	O
-combination	516	527	O
-of	528	530	O
-atom	531	535	B-Process
-transfer	536	544	I-Process
-radical	545	552	I-Process
-polymerization	553	567	I-Process
-(	568	569	O
-ATRP	569	573	B-Process
-)	573	574	O
-and	575	578	O
-CuAAC	579	584	B-Process
-.	584	585	O
-
-This	586	590	O
-strategy	591	599	O
-was	600	603	O
-independently	604	617	O
-reported	618	626	O
-in	627	629	O
-early	630	635	O
-2005	636	640	O
-by	641	643	O
-van	644	647	O
-Hest	648	652	O
-and	653	656	O
-Opsteen	657	664	O
-
-[	665	666	O
-31	666	668	O
-]	668	669	O
-,	669	670	O
-Lutz	671	675	O
-et	676	678	O
-al	679	681	O
-.	681	682	O
-
-[	683	684	O
-32	684	686	O
-]	686	687	O
-,	687	688	O
-and	689	692	O
-Matyjaszewski	693	706	O
-et	707	709	O
-al	710	712	O
-.	712	713	O
-
-[	714	715	O
-33	715	717	O
-]	717	718	O
-.	718	719	O
-
-Such	720	724	O
-step	725	729	O
-was	730	733	O
-important	734	743	O
-since	744	749	O
-ATRP	750	754	B-Process
-is	755	757	O
-a	758	759	O
-very	760	764	O
-popular	765	772	O
-polymerization	773	787	B-Process
-method	788	794	O
-in	795	797	O
-modern	798	804	O
-materials	805	814	O
-science	815	822	O
-[	823	824	O
-34,35	824	829	O
-]	829	830	O
-.	830	831	O
-
-Indeed	832	838	O
-,	838	839	O
-ATRP	840	844	B-Process
-is	845	847	O
-a	848	849	O
-facile	850	856	O
-technique	857	866	O
-,	866	867	O
-which	868	873	O
-allows	874	880	O
-the	881	884	O
-preparation	885	896	B-Process
-of	897	899	I-Process
-well	900	904	I-Process
--	904	905	I-Process
-defined	905	912	I-Process
-polymers	913	921	I-Process
-with	922	926	O
-narrow	927	933	O
-molecular	934	943	O
-weight	944	950	O
-distribution	951	963	O
-,	963	964	O
-predictable	965	976	O
-chain	977	982	O
-length	983	989	O
-,	989	990	O
-controlled	991	1001	O
-microstructure	1002	1016	O
-,	1016	1017	O
-defined	1018	1025	O
-chain	1026	1031	O
--	1031	1032	O
-ends	1032	1036	O
-and	1037	1040	O
-controlled	1041	1051	O
-architecture	1052	1064	O
-[	1065	1066	O
-36–41	1066	1071	O
-]	1071	1072	O
-.	1072	1073	O
-
-However	1074	1081	O
-,	1081	1082	O
-the	1083	1086	O
-range	1087	1092	O
-of	1093	1095	O
-possibilities	1096	1109	O
-of	1110	1112	O
-ATRP	1113	1117	B-Process
-can	1118	1121	O
-be	1122	1124	O
-further	1125	1132	O
-broadened	1133	1142	O
-by	1143	1145	O
-CuAAC	1146	1151	B-Process
-.	1151	1152	O
-
-For	1153	1156	O
-instance	1157	1165	O
-,	1165	1166	O
-the	1167	1170	O
-ω-bromine	1171	1180	B-Material
-chain	1181	1186	I-Material
--	1186	1187	I-Material
-ends	1187	1191	I-Material
-of	1192	1194	I-Material
-polymers	1195	1203	I-Material
-prepared	1204	1212	O
-by	1213	1215	O
-ATRP	1216	1220	B-Process
-can	1221	1224	O
-be	1225	1227	O
-transformed	1228	1239	O
-into	1240	1244	O
-azides	1245	1251	B-Material
-by	1252	1254	O
-nucleophilic	1255	1267	B-Process
-substitution	1268	1280	I-Process
-and	1281	1284	O
-subsequently	1285	1297	O
-reacted	1298	1305	O
-with	1306	1310	O
-functional	1311	1321	O
-alkynes	1322	1329	B-Material
-(	1330	1331	O
-Scheme	1331	1337	O
-3	1338	1339	O
-)	1339	1340	O
-[	1341	1342	O
-32	1342	1344	O
-]	1344	1345	O
-.	1345	1346	O
-
-Due	1347	1350	O
-to	1351	1353	O
-the	1354	1357	O
-very	1358	1362	O
-high	1363	1367	O
-chemoselectivity	1368	1384	O
-of	1385	1387	O
-CuAAC	1388	1393	B-Process
-,	1393	1394	O
-this	1395	1399	O
-method	1400	1406	O
-is	1407	1409	O
-highly	1410	1416	O
-modular	1417	1424	O
-and	1425	1428	O
-may	1429	1432	O
-be	1433	1435	O
-used	1436	1440	O
-to	1441	1443	O
-synthesize	1444	1454	O
-a	1455	1456	O
-wide	1457	1461	O
-range	1462	1467	O
-of	1468	1470	O
-ω-functional	1471	1483	B-Material
-polymers	1484	1492	I-Material
-.	1492	1493	O
-
-Moreover	1494	1502	O
-,	1502	1503	O
-the	1504	1507	O
-formed	1508	1514	O
-triazole	1515	1523	B-Material
-rings	1524	1529	I-Material
-are	1530	1533	O
-not	1534	1537	O
-“	1538	1539	O
-passive	1539	1546	O
-”	1546	1547	O
-spacers	1548	1555	O
-but	1556	1559	O
-interesting	1560	1571	O
-functions	1572	1581	O
-exhibiting	1582	1592	O
-H	1593	1594	B-Process
--	1594	1595	I-Process
-bonds	1595	1600	I-Process
-capability	1601	1611	O
-,	1611	1612	O
-aromaticity	1613	1624	O
-and	1625	1628	O
-rigidity	1629	1637	O
-.	1637	1638	O
+Copper	0,6	O	B-Material
+-	6,7	O	I-Material
+catalyzed	7,16	O	I-Material
+Huisgen	17,24	O	I-Material
+cycloadditions	25,39	O	I-Material
+have	40,44	O	O
+been	45,49	O	O
+recently	50,58	O	O
+extensively	59,70	O	O
+studied	71,78	O	O
+by	79,81	O	O
+polymer	82,89	O	O
+chemists	90,98	O	O
+for	99,102	O	O
+the	103,106	O	O
+synthesis	107,116	O	B-Task
+of	117,119	O	I-Task
+functional	120,130	O	I-Task
+polymers	131,139	O	I-Task
+(	140,141	O	O
+either	141,147	O	O
+end	148,151	O	O
+-	151,152	O	O
+functional	152,162	O	O
+or	163,165	O	O
+side	166,170	O	O
+-	170,171	O	O
+functional	171,181	O	O
+)	181,182	O	O
+.	182,183	O	O
+
+The	184,187	O	O
+post	188,192	O	O
+-	192,193	O	O
+functionalization	193,210	O	O
+of	211,213	O	O
+synthetic	214,223	O	B-Material
+polymers	224,232	O	I-Material
+is	233,235	O	O
+an	236,238	O	O
+important	239,248	O	O
+feature	249,256	O	O
+of	257,259	O	O
+macromolecular	260,274	O	B-Task
+engineering	275,286	O	I-Task
+as	287,289	O	O
+many	290,294	O	O
+polymerization	295,309	O	B-Process
+mechanisms	310,320	O	O
+are	321,324	O	O
+rather	325,331	O	O
+sensitive	332,341	O	O
+to	342,344	O	O
+the	345,348	O	O
+presence	349,357	O	O
+of	358,360	O	O
+bulky	361,366	O	O
+or	367,369	O	O
+functional	370,380	O	O
+groups	381,387	O	O
+.	387,388	O	O
+
+For	389,392	O	O
+example	393,400	O	O
+,	400,401	O	O
+a	402,403	O	O
+wide	404,408	O	O
+variety	409,416	O	O
+of	417,419	O	O
+telechelic	420,430	O	B-Material
+polymers	431,439	O	I-Material
+(	440,441	O	O
+i.e.	441,445	O	O
+polymers	446,454	O	B-Material
+with	455,459	O	I-Material
+defined	460,467	O	I-Material
+chain	468,473	O	I-Material
+-	473,474	O	I-Material
+ends	474,478	O	I-Material
+)	478,479	O	O
+can	480,483	O	O
+be	484,486	O	O
+efficiently	487,498	O	O
+prepared	499,507	O	O
+using	508,513	O	O
+a	514,515	O	O
+combination	516,527	O	O
+of	528,530	O	O
+atom	531,535	O	B-Process
+transfer	536,544	O	I-Process
+radical	545,552	O	I-Process
+polymerization	553,567	O	I-Process
+(	568,569	O	O
+ATRP	569,573	O	B-Process
+)	573,574	O	O
+and	575,578	O	O
+CuAAC	579,584	O	B-Process
+.	584,585	O	O
+
+This	586,590	O	O
+strategy	591,599	O	O
+was	600,603	O	O
+independently	604,617	O	O
+reported	618,626	O	O
+in	627,629	O	O
+early	630,635	O	O
+2005	636,640	O	O
+by	641,643	O	O
+van	644,647	O	O
+Hest	648,652	O	O
+and	653,656	O	O
+Opsteen	657,664	O	O
+
+[	665,666	O	O
+31	666,668	O	O
+]	668,669	O	O
+,	669,670	O	O
+Lutz	671,675	O	O
+et	676,678	O	O
+al	679,681	O	O
+.	681,682	O	O
+
+[	683,684	O	O
+32	684,686	O	O
+]	686,687	O	O
+,	687,688	O	O
+and	689,692	O	O
+Matyjaszewski	693,706	O	O
+et	707,709	O	O
+al	710,712	O	O
+.	712,713	O	O
+
+[	714,715	O	O
+33	715,717	O	O
+]	717,718	O	O
+.	718,719	O	O
+
+Such	720,724	O	O
+step	725,729	O	O
+was	730,733	O	O
+important	734,743	O	O
+since	744,749	O	O
+ATRP	750,754	O	B-Process
+is	755,757	O	O
+a	758,759	O	O
+very	760,764	O	O
+popular	765,772	O	O
+polymerization	773,787	O	B-Process
+method	788,794	O	O
+in	795,797	O	O
+modern	798,804	O	O
+materials	805,814	O	O
+science	815,822	O	O
+[	823,824	O	O
+34,35	824,829	O	O
+]	829,830	O	O
+.	830,831	O	O
+
+Indeed	832,838	O	O
+,	838,839	O	O
+ATRP	840,844	O	B-Process
+is	845,847	O	O
+a	848,849	O	O
+facile	850,856	O	O
+technique	857,866	O	O
+,	866,867	O	O
+which	868,873	O	O
+allows	874,880	O	O
+the	881,884	O	O
+preparation	885,896	O	B-Process
+of	897,899	O	I-Process
+well	900,904	O	I-Process
+-	904,905	O	I-Process
+defined	905,912	O	I-Process
+polymers	913,921	O	I-Process
+with	922,926	O	O
+narrow	927,933	O	O
+molecular	934,943	O	O
+weight	944,950	O	O
+distribution	951,963	O	O
+,	963,964	O	O
+predictable	965,976	O	O
+chain	977,982	O	O
+length	983,989	O	O
+,	989,990	O	O
+controlled	991,1001	O	O
+microstructure	1002,1016	O	O
+,	1016,1017	O	O
+defined	1018,1025	O	O
+chain	1026,1031	O	O
+-	1031,1032	O	O
+ends	1032,1036	O	O
+and	1037,1040	O	O
+controlled	1041,1051	O	O
+architecture	1052,1064	O	O
+[	1065,1066	O	O
+36–41	1066,1071	O	O
+]	1071,1072	O	O
+.	1072,1073	O	O
+
+However	1074,1081	O	O
+,	1081,1082	O	O
+the	1083,1086	O	O
+range	1087,1092	O	O
+of	1093,1095	O	O
+possibilities	1096,1109	O	O
+of	1110,1112	O	O
+ATRP	1113,1117	O	B-Process
+can	1118,1121	O	O
+be	1122,1124	O	O
+further	1125,1132	O	O
+broadened	1133,1142	O	O
+by	1143,1145	O	O
+CuAAC	1146,1151	O	B-Process
+.	1151,1152	O	O
+
+For	1153,1156	O	O
+instance	1157,1165	O	O
+,	1165,1166	O	O
+the	1167,1170	O	O
+ω-bromine	1171,1180	O	B-Material
+chain	1181,1186	O	I-Material
+-	1186,1187	O	I-Material
+ends	1187,1191	O	I-Material
+of	1192,1194	O	I-Material
+polymers	1195,1203	O	I-Material
+prepared	1204,1212	O	O
+by	1213,1215	O	O
+ATRP	1216,1220	O	B-Process
+can	1221,1224	O	O
+be	1225,1227	O	O
+transformed	1228,1239	O	O
+into	1240,1244	O	O
+azides	1245,1251	O	B-Material
+by	1252,1254	O	O
+nucleophilic	1255,1267	O	B-Process
+substitution	1268,1280	O	I-Process
+and	1281,1284	O	O
+subsequently	1285,1297	O	O
+reacted	1298,1305	O	O
+with	1306,1310	O	O
+functional	1311,1321	O	O
+alkynes	1322,1329	O	B-Material
+(	1330,1331	O	O
+Scheme	1331,1337	O	O
+3	1338,1339	O	O
+)	1339,1340	O	O
+[	1341,1342	O	O
+32	1342,1344	O	O
+]	1344,1345	O	O
+.	1345,1346	O	O
+
+Due	1347,1350	O	O
+to	1351,1353	O	O
+the	1354,1357	O	O
+very	1358,1362	O	O
+high	1363,1367	O	O
+chemoselectivity	1368,1384	O	O
+of	1385,1387	O	O
+CuAAC	1388,1393	O	B-Process
+,	1393,1394	O	O
+this	1395,1399	O	O
+method	1400,1406	O	O
+is	1407,1409	O	O
+highly	1410,1416	O	O
+modular	1417,1424	O	O
+and	1425,1428	O	O
+may	1429,1432	O	O
+be	1433,1435	O	O
+used	1436,1440	O	O
+to	1441,1443	O	O
+synthesize	1444,1454	O	O
+a	1455,1456	O	O
+wide	1457,1461	O	O
+range	1462,1467	O	O
+of	1468,1470	O	O
+ω-functional	1471,1483	O	B-Material
+polymers	1484,1492	O	I-Material
+.	1492,1493	O	O
+
+Moreover	1494,1502	O	O
+,	1502,1503	O	O
+the	1504,1507	O	O
+formed	1508,1514	O	O
+triazole	1515,1523	O	B-Material
+rings	1524,1529	O	I-Material
+are	1530,1533	O	O
+not	1534,1537	O	O
+“	1538,1539	O	O
+passive	1539,1546	O	O
+”	1546,1547	O	O
+spacers	1548,1555	O	O
+but	1556,1559	O	O
+interesting	1560,1571	O	O
+functions	1572,1581	O	O
+exhibiting	1582,1592	O	O
+H	1593,1594	O	B-Process
+-	1594,1595	O	I-Process
+bonds	1595,1600	O	I-Process
+capability	1601,1611	O	O
+,	1611,1612	O	O
+aromaticity	1613,1624	O	O
+and	1625,1628	O	O
+rigidity	1629,1637	O	O
+.	1637,1638	O	O
 
 
 -DOCSTART- (S0032386108009397)
 
-The	0	3	O
-viscoelastic	4	16	B-Process
-behavior	17	25	I-Process
-of	26	28	O
-elastomers	29	39	B-Material
-containing	40	50	O
-small	51	56	O
-amounts	57	64	O
-of	65	67	O
-unattached	68	78	O
-chains	79	85	O
-has	86	89	O
-been	90	94	O
-investigated	95	107	O
-to	108	110	O
-characterize	111	123	B-Task
-the	124	127	I-Task
-dynamics	128	136	I-Task
-of	137	139	I-Task
-the	140	143	I-Task
-polymer	144	151	I-Task
-chains	152	158	I-Task
-trapped	159	166	O
-in	167	169	O
-fixed	170	175	O
-networks	176	184	O
-[	185	186	O
-66–68	186	191	O
-]	191	192	O
-.	192	193	O
-
-Polymer	194	201	B-Material
-chains	202	208	I-Material
-trapped	209	216	O
-in	217	219	O
-fixed	220	225	O
-networks	226	234	O
-constitute	235	245	O
-a	246	247	O
-simpler	248	255	O
-system	256	262	O
-for	263	266	O
-the	267	270	O
-study	271	276	O
-of	277	279	O
-the	280	283	O
-polymer	284	291	B-Material
-chain	292	297	I-Material
-dynamics	298	306	O
-than	307	311	O
-the	312	315	O
-corresponding	316	329	O
-uncrosslinked	330	343	O
-polymer	344	351	B-Material
-melts	352	357	I-Material
-.	357	358	O
-
-This	359	363	O
-is	364	366	O
-because	367	374	O
-the	375	378	O
-complicated	379	390	O
-effect	391	397	O
-of	398	400	O
-the	401	404	O
-motion	405	411	O
-of	412	414	O
-the	415	418	O
-surrounding	419	430	O
-chains	431	437	O
-on	438	440	O
-the	441	444	O
-dynamics	445	453	O
-of	454	456	O
-the	457	460	O
-probe	461	466	B-Material
-chain	467	472	I-Material
-–	473	474	O
-called	475	481	O
-“	482	483	O
-constraint	483	493	B-Process
-release	494	501	I-Process
-”	501	502	O
-[	503	504	O
-69	504	506	O
-]	506	507	O
-–	508	509	O
-is	510	512	O
-absent	513	519	O
-in	520	522	O
-the	523	526	O
-fixed	527	532	O
-network	533	540	O
-systems	541	548	O
-.	548	549	O
-
-Most	550	554	O
-of	555	557	O
-the	558	561	O
-earlier	562	569	O
-studies	570	577	O
-employed	578	586	O
-randomly	587	595	O
-crosslinked	596	607	B-Material
-elastomers	608	618	I-Material
-as	619	621	O
-host	622	626	O
-networks	627	635	O
-.	635	636	O
-
-In	637	639	O
-this	640	644	O
-case	645	649	O
-,	649	650	O
-precise	651	658	O
-control	659	666	B-Task
-of	667	669	I-Task
-the	670	673	I-Task
-mesh	674	678	I-Task
-size	679	683	I-Task
-of	684	686	O
-the	687	690	O
-host	691	695	O
-networks	696	704	O
-is	705	707	O
-not	708	711	O
-possible	712	720	O
-,	720	721	O
-and	722	725	O
-the	726	729	O
-mesh	730	734	B-Material
-size	735	739	O
-has	740	743	O
-a	744	745	O
-broad	746	751	O
-distribution	752	764	O
-.	764	765	O
-
-The	766	769	O
-end	770	773	O
--	773	774	O
-linking	774	781	O
-systems	782	789	O
-give	790	794	O
-the	795	798	O
-host	799	803	O
-networks	804	812	O
-a	813	814	O
-more	815	819	O
-uniform	820	827	O
-mesh	828	832	O
-size	833	837	O
-,	837	838	O
-and	839	842	O
-they	843	847	O
-can	848	851	O
-control	852	859	O
-the	860	863	O
-mesh	864	868	B-Material
-size	869	873	O
-by	874	876	O
-the	877	880	O
-size	881	885	O
-of	886	888	O
-the	889	892	O
-precursor	893	902	B-Material
-chains	903	909	I-Material
-.	909	910	O
-
-We	911	913	O
-investigated	914	926	O
-the	927	930	O
-dynamic	931	938	O
-viscoelasticity	939	954	O
-of	955	957	O
-end	958	961	O
--	961	962	O
-linked	962	968	O
-PDMS	969	973	B-Material
-elastomers	974	984	I-Material
-containing	985	995	O
-unattached	996	1006	O
-linear	1007	1013	O
-PDMS	1014	1018	B-Material
-as	1019	1021	O
-functions	1022	1031	O
-of	1032	1034	O
-the	1035	1038	O
-size	1039	1043	O
-of	1044	1046	O
-the	1047	1050	O
-unattached	1051	1061	B-Material
-chains	1062	1068	I-Material
-(	1069	1070	O
-Mg	1070	1072	B-Material
-)	1072	1073	O
-and	1074	1077	O
-the	1078	1081	O
-network	1082	1089	B-Material
-mesh	1090	1094	I-Material
-(	1095	1096	O
-Mx	1096	1098	B-Material
-)	1098	1099	O
-(	1100	1101	O
-Fig	1101	1104	O
-.	1104	1105	O
-
-9a	1106	1108	O
-)	1108	1109	O
-[	1110	1111	O
-70	1111	1113	O
-]	1113	1114	O
-.	1114	1115	O
-
-We	1116	1118	O
-employed	1119	1127	O
-two	1128	1131	O
-types	1132	1137	O
-of	1138	1140	O
-host	1141	1145	O
-networks	1146	1154	O
-with	1155	1159	O
-Mx	1160	1162	O
->	1162	1163	O
-
-Me	1163	1165	O
-and	1166	1169	O
-Mx	1170	1172	O
-
-<	1172	1173	O
-Me	1173	1175	O
-where	1176	1181	O
-Me	1182	1184	O
-(	1185	1186	O
-≈10,000	1186	1193	O
-for	1194	1197	O
-PDMS	1198	1202	B-Material
-)	1202	1203	O
-is	1204	1206	O
-the	1207	1210	O
-molecular	1211	1220	O
-mass	1221	1225	O
-between	1226	1233	O
-adjacent	1234	1242	O
-entanglements	1243	1256	O
-in	1257	1259	O
-the	1260	1263	O
-molten	1264	1270	O
-state	1271	1276	O
-.	1276	1277	O
-
-The	1278	1281	O
-Mx	1282	1284	O
->	1284	1285	O
-
-Me	1285	1287	O
-and	1288	1291	O
-Mx	1292	1294	O
-
-<	1294	1295	O
-Me	1295	1297	O
-networks	1298	1306	O
-(	1307	1308	O
-designated	1308	1318	O
-as	1319	1321	O
-NL	1322	1324	B-Process
-and	1325	1328	O
-NS	1329	1331	B-Process
-,	1331	1332	O
-respectively	1333	1345	O
-)	1345	1346	O
-were	1347	1351	O
-designed	1352	1360	O
-by	1361	1363	O
-end	1364	1367	O
--	1367	1368	O
-linking	1368	1375	O
-the	1376	1379	O
-long	1380	1384	O
-(	1385	1386	O
-Mn=84,000	1386	1395	O
-)	1395	1396	O
-and	1397	1400	O
-short	1401	1406	O
-precursor	1407	1416	O
-chains	1417	1423	O
-(	1424	1425	O
-Mn=4,550	1425	1433	O
-)	1433	1434	O
-,	1434	1435	O
-respectively	1436	1448	O
-.	1448	1449	O
-
-The	1450	1453	O
-mesh	1454	1458	B-Material
-of	1459	1461	O
-the	1462	1465	O
-NL	1466	1468	O
-networks	1469	1477	O
-is	1478	1480	O
-dominated	1481	1490	O
-by	1491	1493	O
-trapped	1494	1501	O
-entanglements	1502	1515	O
-,	1515	1516	O
-while	1517	1522	O
-that	1523	1527	O
-of	1528	1530	O
-the	1531	1534	O
-NS	1535	1537	O
-network	1538	1545	O
-is	1546	1548	O
-governed	1549	1557	O
-by	1558	1560	O
-chemical	1561	1569	B-Material
-cross	1570	1575	I-Material
--	1575	1576	I-Material
-links	1576	1581	I-Material
-.	1581	1582	I-Material
+The	0,3	O	O
+viscoelastic	4,16	O	B-Process
+behavior	17,25	O	I-Process
+of	26,28	O	O
+elastomers	29,39	O	B-Material
+containing	40,50	O	O
+small	51,56	O	O
+amounts	57,64	O	O
+of	65,67	O	O
+unattached	68,78	O	O
+chains	79,85	O	O
+has	86,89	O	O
+been	90,94	O	O
+investigated	95,107	O	O
+to	108,110	O	O
+characterize	111,123	O	B-Task
+the	124,127	O	I-Task
+dynamics	128,136	O	I-Task
+of	137,139	O	I-Task
+the	140,143	O	I-Task
+polymer	144,151	O	I-Task
+chains	152,158	O	I-Task
+trapped	159,166	O	O
+in	167,169	O	O
+fixed	170,175	O	O
+networks	176,184	O	O
+[	185,186	O	O
+66–68	186,191	O	O
+]	191,192	O	O
+.	192,193	O	O
+
+Polymer	194,201	O	B-Material
+chains	202,208	O	I-Material
+trapped	209,216	O	O
+in	217,219	O	O
+fixed	220,225	O	O
+networks	226,234	O	O
+constitute	235,245	O	O
+a	246,247	O	O
+simpler	248,255	O	O
+system	256,262	O	O
+for	263,266	O	O
+the	267,270	O	O
+study	271,276	O	O
+of	277,279	O	O
+the	280,283	O	O
+polymer	284,291	O	B-Material
+chain	292,297	O	I-Material
+dynamics	298,306	O	O
+than	307,311	O	O
+the	312,315	O	O
+corresponding	316,329	O	O
+uncrosslinked	330,343	O	O
+polymer	344,351	O	B-Material
+melts	352,357	O	I-Material
+.	357,358	O	O
+
+This	359,363	O	O
+is	364,366	O	O
+because	367,374	O	O
+the	375,378	O	O
+complicated	379,390	O	O
+effect	391,397	O	O
+of	398,400	O	O
+the	401,404	O	O
+motion	405,411	O	O
+of	412,414	O	O
+the	415,418	O	O
+surrounding	419,430	O	O
+chains	431,437	O	O
+on	438,440	O	O
+the	441,444	O	O
+dynamics	445,453	O	O
+of	454,456	O	O
+the	457,460	O	O
+probe	461,466	O	B-Material
+chain	467,472	O	I-Material
+–	473,474	O	O
+called	475,481	O	O
+“	482,483	O	O
+constraint	483,493	O	B-Process
+release	494,501	O	I-Process
+”	501,502	O	O
+[	503,504	O	O
+69	504,506	O	O
+]	506,507	O	O
+–	508,509	O	O
+is	510,512	O	O
+absent	513,519	O	O
+in	520,522	O	O
+the	523,526	O	O
+fixed	527,532	O	O
+network	533,540	O	O
+systems	541,548	O	O
+.	548,549	O	O
+
+Most	550,554	O	O
+of	555,557	O	O
+the	558,561	O	O
+earlier	562,569	O	O
+studies	570,577	O	O
+employed	578,586	O	O
+randomly	587,595	O	O
+crosslinked	596,607	O	B-Material
+elastomers	608,618	O	I-Material
+as	619,621	O	O
+host	622,626	O	O
+networks	627,635	O	O
+.	635,636	O	O
+
+In	637,639	O	O
+this	640,644	O	O
+case	645,649	O	O
+,	649,650	O	O
+precise	651,658	O	O
+control	659,666	O	B-Task
+of	667,669	O	I-Task
+the	670,673	O	I-Task
+mesh	674,678	O	I-Task
+size	679,683	O	I-Task
+of	684,686	O	O
+the	687,690	O	O
+host	691,695	O	O
+networks	696,704	O	O
+is	705,707	O	O
+not	708,711	O	O
+possible	712,720	O	O
+,	720,721	O	O
+and	722,725	O	O
+the	726,729	O	O
+mesh	730,734	O	B-Material
+size	735,739	O	O
+has	740,743	O	O
+a	744,745	O	O
+broad	746,751	O	O
+distribution	752,764	O	O
+.	764,765	O	O
+
+The	766,769	O	O
+end	770,773	O	O
+-	773,774	O	O
+linking	774,781	O	O
+systems	782,789	O	O
+give	790,794	O	O
+the	795,798	O	O
+host	799,803	O	O
+networks	804,812	O	O
+a	813,814	O	O
+more	815,819	O	O
+uniform	820,827	O	O
+mesh	828,832	O	O
+size	833,837	O	O
+,	837,838	O	O
+and	839,842	O	O
+they	843,847	O	O
+can	848,851	O	O
+control	852,859	O	O
+the	860,863	O	O
+mesh	864,868	O	B-Material
+size	869,873	O	O
+by	874,876	O	O
+the	877,880	O	O
+size	881,885	O	O
+of	886,888	O	O
+the	889,892	O	O
+precursor	893,902	O	B-Material
+chains	903,909	O	I-Material
+.	909,910	O	O
+
+We	911,913	O	O
+investigated	914,926	O	O
+the	927,930	O	O
+dynamic	931,938	O	O
+viscoelasticity	939,954	O	O
+of	955,957	O	O
+end	958,961	O	O
+-	961,962	O	O
+linked	962,968	O	O
+PDMS	969,973	O	B-Material
+elastomers	974,984	O	I-Material
+containing	985,995	O	O
+unattached	996,1006	O	O
+linear	1007,1013	O	O
+PDMS	1014,1018	O	B-Material
+as	1019,1021	O	O
+functions	1022,1031	O	O
+of	1032,1034	O	O
+the	1035,1038	O	O
+size	1039,1043	O	O
+of	1044,1046	O	O
+the	1047,1050	O	O
+unattached	1051,1061	O	B-Material
+chains	1062,1068	O	I-Material
+(	1069,1070	O	O
+Mg	1070,1072	O	B-Material
+)	1072,1073	O	O
+and	1074,1077	O	O
+the	1078,1081	O	O
+network	1082,1089	O	B-Material
+mesh	1090,1094	O	I-Material
+(	1095,1096	O	O
+Mx	1096,1098	O	B-Material
+)	1098,1099	O	O
+(	1100,1101	O	O
+Fig	1101,1104	O	O
+.	1104,1105	O	O
+
+9a	1106,1108	O	O
+)	1108,1109	O	O
+[	1110,1111	O	O
+70	1111,1113	O	O
+]	1113,1114	O	O
+.	1114,1115	O	O
+
+We	1116,1118	O	O
+employed	1119,1127	O	O
+two	1128,1131	O	O
+types	1132,1137	O	O
+of	1138,1140	O	O
+host	1141,1145	O	O
+networks	1146,1154	O	O
+with	1155,1159	O	O
+Mx	1160,1162	O	O
+>	1162,1163	O	O
+
+Me	1163,1165	O	O
+and	1166,1169	O	O
+Mx	1170,1172	O	O
+
+<	1172,1173	O	O
+Me	1173,1175	O	O
+where	1176,1181	O	O
+Me	1182,1184	O	O
+(	1185,1186	O	O
+≈10,000	1186,1193	O	O
+for	1194,1197	O	O
+PDMS	1198,1202	O	B-Material
+)	1202,1203	O	O
+is	1204,1206	O	O
+the	1207,1210	O	O
+molecular	1211,1220	O	O
+mass	1221,1225	O	O
+between	1226,1233	O	O
+adjacent	1234,1242	O	O
+entanglements	1243,1256	O	O
+in	1257,1259	O	O
+the	1260,1263	O	O
+molten	1264,1270	O	O
+state	1271,1276	O	O
+.	1276,1277	O	O
+
+The	1278,1281	O	O
+Mx	1282,1284	O	O
+>	1284,1285	O	O
+
+Me	1285,1287	O	O
+and	1288,1291	O	O
+Mx	1292,1294	O	O
+
+<	1294,1295	O	O
+Me	1295,1297	O	O
+networks	1298,1306	O	O
+(	1307,1308	O	O
+designated	1308,1318	O	O
+as	1319,1321	O	O
+NL	1322,1324	O	B-Process
+and	1325,1328	O	O
+NS	1329,1331	O	B-Process
+,	1331,1332	O	O
+respectively	1333,1345	O	O
+)	1345,1346	O	O
+were	1347,1351	O	O
+designed	1352,1360	O	O
+by	1361,1363	O	O
+end	1364,1367	O	O
+-	1367,1368	O	O
+linking	1368,1375	O	O
+the	1376,1379	O	O
+long	1380,1384	O	O
+(	1385,1386	O	O
+Mn=84,000	1386,1395	O	O
+)	1395,1396	O	O
+and	1397,1400	O	O
+short	1401,1406	O	O
+precursor	1407,1416	O	O
+chains	1417,1423	O	O
+(	1424,1425	O	O
+Mn=4,550	1425,1433	O	O
+)	1433,1434	O	O
+,	1434,1435	O	O
+respectively	1436,1448	O	O
+.	1448,1449	O	O
+
+The	1450,1453	O	O
+mesh	1454,1458	O	B-Material
+of	1459,1461	O	O
+the	1462,1465	O	O
+NL	1466,1468	O	O
+networks	1469,1477	O	O
+is	1478,1480	O	O
+dominated	1481,1490	O	O
+by	1491,1493	O	O
+trapped	1494,1501	O	O
+entanglements	1502,1515	O	O
+,	1515,1516	O	O
+while	1517,1522	O	O
+that	1523,1527	O	O
+of	1528,1530	O	O
+the	1531,1534	O	O
+NS	1535,1537	O	O
+network	1538,1545	O	O
+is	1546,1548	O	O
+governed	1549,1557	O	O
+by	1558,1560	O	O
+chemical	1561,1569	O	B-Material
+cross	1570,1575	O	I-Material
+-	1575,1576	O	I-Material
+links	1576,1581	O	I-Material
+.	1581,1582	O	I-Material
 
 
 -DOCSTART- (S0032386109001463)
 
-When	0	4	O
-incompatible	5	17	O
-three	18	23	O
-component	24	33	O
-polymer	34	41	B-Material
-chains	42	48	I-Material
-are	49	52	O
-tethered	53	61	O
-at	62	64	O
-a	65	66	O
-junction	67	75	O
-point	76	81	O
-,	81	82	O
-the	83	86	O
-resultant	87	96	O
-star	97	101	B-Material
-molecules	102	111	I-Material
-of	112	114	O
-the	115	118	O
-ABC	119	122	O
-type	123	127	O
-are	128	131	O
-in	132	134	O
-a	135	136	O
-very	137	141	O
-frustrated	142	152	O
-field	153	158	O
-in	159	161	O
-bulk	162	166	O
-.	166	167	O
-
-That	168	172	O
-is	173	175	O
-,	175	176	O
-their	177	182	O
-junction	183	191	O
-points	192	198	O
-can	199	202	O
-not	202	205	O
-be	206	208	O
-aligned	209	216	O
-on	217	219	O
-two	220	223	O
--	223	224	O
-dimensional	224	235	O
-planes	236	242	O
-but	243	246	O
-on	247	249	O
-one	250	253	O
--	253	254	O
-dimensional	254	265	O
-lines	266	271	O
-,	271	272	O
-as	273	275	O
-schematically	276	289	O
-shown	290	295	O
-in	296	298	O
-Fig	299	302	O
-.	302	303	O
-
-1	304	305	O
-.	305	306	O
-
-Furthermore	307	318	O
-,	318	319	O
-when	320	324	O
-the	325	328	O
-chain	329	334	O
-length	335	341	O
-difference	342	352	O
-is	353	355	O
-not	356	359	O
-so	360	362	O
-large	363	368	O
-,	368	369	O
-the	370	373	O
-array	374	379	O
-of	380	382	O
-junction	383	391	O
-points	392	398	O
-tends	399	404	O
-to	405	407	O
-be	408	410	O
-straight	411	419	O
-and	420	423	O
-long	424	428	O
-one	429	432	O
-.	432	433	O
-
-Consequently	434	446	O
-each	447	451	O
-domain	452	458	O
-with	459	463	O
-mesoscopic	464	474	O
-sizes	475	480	O
-becomes	481	488	O
-cylinders	489	498	B-Material
-,	498	499	O
-and	500	503	O
-their	504	509	O
-cross	510	515	O
-sections	516	524	O
-could	525	530	O
-be	531	533	O
-conformed	534	543	O
-by	544	546	O
-polygons	547	555	B-Material
-[	556	557	O
-28,29	557	562	O
-]	562	563	O
-.	563	564	O
-
-This	565	569	O
-is	570	572	O
-because	573	580	O
-three	581	586	B-Material
-interfaces	587	597	I-Material
-,	597	598	I-Material
-A	599	600	I-Material
-/	600	601	I-Material
-B	601	602	I-Material
-,	602	603	I-Material
-B	604	605	I-Material
-/	605	606	I-Material
-C	606	607	I-Material
-and	608	611	I-Material
-C	612	613	I-Material
-/	613	614	I-Material
-A	614	615	I-Material
-are	616	619	O
-likely	620	626	O
-to	627	629	O
-be	630	632	O
-flat	633	637	O
-since	638	643	O
-there	644	649	O
-exist	650	655	O
-no	656	658	O
-junction	659	667	O
-points	668	674	O
-at	675	677	O
-interfaces	678	688	O
-and	689	692	O
-therefore	693	702	O
-chain	703	708	B-Process
-entropy	709	716	I-Process
-contribution	717	729	O
-to	730	732	O
-the	733	736	O
-free	737	741	O
-energy	742	748	O
-of	749	751	O
-structure	752	761	O
-formation	762	771	O
-is	772	774	O
-considerably	775	787	O
-small	788	793	O
-comparing	794	803	O
-with	804	808	O
-regular	809	816	O
-block	817	822	O
-and	823	826	O
-graft	827	832	O
-copolymer	833	842	O
-systems	843	850	O
-.	850	851	O
-
-As	852	854	O
-a	855	856	O
-matter	857	863	O
-of	864	866	O
-fact	867	871	O
-,	871	872	O
-Dotera	873	879	O
-predicted	880	889	O
-several	890	897	O
-tiling	898	904	O
-patterns	905	913	O
-by	914	916	O
-the	917	920	O
-diagonal	921	929	B-Process
-bond	930	934	I-Process
-method	935	941	I-Process
-,	941	942	O
-a	943	944	O
-new	945	948	O
-Monte	949	954	B-Process
-Carlo	955	960	I-Process
-Simulation	961	971	I-Process
-[	972	973	O
-30	973	975	O
-]	975	976	O
-,	976	977	O
-while	978	983	O
-Gemma	984	989	O
-and	990	993	O
-Dotera	994	1000	O
-pointed	1001	1008	O
-out	1009	1012	O
-that	1013	1017	O
-only	1018	1022	O
-three	1023	1028	O
-regular	1029	1036	O
-tilings	1037	1044	O
-,	1044	1045	O
-i.e.	1046	1050	O
-,	1050	1051	O
-(	1052	1053	O
-6.6.6	1053	1058	O
-)	1058	1059	O
-,	1059	1060	O
-(	1061	1062	O
-4.8.8	1062	1067	O
-)	1067	1068	O
-and	1069	1072	O
-(	1073	1074	O
-4.6.12	1074	1080	O
-)	1080	1081	O
-are	1082	1085	O
-permitted	1086	1095	O
-for	1096	1099	O
-three	1100	1105	B-Material
--	1105	1106	I-Material
-branched	1106	1114	I-Material
-molecules	1115	1124	I-Material
-proposed	1125	1133	O
-as	1134	1136	O
-the	1137	1140	O
-“	1141	1142	O
-even	1142	1146	B-Process
-polygon	1147	1154	I-Process
-theorem	1155	1162	I-Process
-”	1162	1163	O
-[	1164	1165	O
-31	1165	1167	O
-]	1167	1168	O
-.	1168	1169	O
+When	0,4	O	O
+incompatible	5,17	O	O
+three	18,23	O	O
+component	24,33	O	O
+polymer	34,41	O	B-Material
+chains	42,48	O	I-Material
+are	49,52	O	O
+tethered	53,61	O	O
+at	62,64	O	O
+a	65,66	O	O
+junction	67,75	O	O
+point	76,81	O	O
+,	81,82	O	O
+the	83,86	O	O
+resultant	87,96	O	O
+star	97,101	O	B-Material
+molecules	102,111	O	I-Material
+of	112,114	O	O
+the	115,118	O	O
+ABC	119,122	O	O
+type	123,127	O	O
+are	128,131	O	O
+in	132,134	O	O
+a	135,136	O	O
+very	137,141	O	O
+frustrated	142,152	O	O
+field	153,158	O	O
+in	159,161	O	O
+bulk	162,166	O	O
+.	166,167	O	O
+
+That	168,172	O	O
+is	173,175	O	O
+,	175,176	O	O
+their	177,182	O	O
+junction	183,191	O	O
+points	192,198	O	O
+can	199,202	O	O
+not	202,205	O	O
+be	206,208	O	O
+aligned	209,216	O	O
+on	217,219	O	O
+two	220,223	O	O
+-	223,224	O	O
+dimensional	224,235	O	O
+planes	236,242	O	O
+but	243,246	O	O
+on	247,249	O	O
+one	250,253	O	O
+-	253,254	O	O
+dimensional	254,265	O	O
+lines	266,271	O	O
+,	271,272	O	O
+as	273,275	O	O
+schematically	276,289	O	O
+shown	290,295	O	O
+in	296,298	O	O
+Fig	299,302	O	O
+.	302,303	O	O
+
+1	304,305	O	O
+.	305,306	O	O
+
+Furthermore	307,318	O	O
+,	318,319	O	O
+when	320,324	O	O
+the	325,328	O	O
+chain	329,334	O	O
+length	335,341	O	O
+difference	342,352	O	O
+is	353,355	O	O
+not	356,359	O	O
+so	360,362	O	O
+large	363,368	O	O
+,	368,369	O	O
+the	370,373	O	O
+array	374,379	O	O
+of	380,382	O	O
+junction	383,391	O	O
+points	392,398	O	O
+tends	399,404	O	O
+to	405,407	O	O
+be	408,410	O	O
+straight	411,419	O	O
+and	420,423	O	O
+long	424,428	O	O
+one	429,432	O	O
+.	432,433	O	O
+
+Consequently	434,446	O	O
+each	447,451	O	O
+domain	452,458	O	O
+with	459,463	O	O
+mesoscopic	464,474	O	O
+sizes	475,480	O	O
+becomes	481,488	O	O
+cylinders	489,498	O	B-Material
+,	498,499	O	O
+and	500,503	O	O
+their	504,509	O	O
+cross	510,515	O	O
+sections	516,524	O	O
+could	525,530	O	O
+be	531,533	O	O
+conformed	534,543	O	O
+by	544,546	O	O
+polygons	547,555	O	B-Material
+[	556,557	O	O
+28,29	557,562	O	O
+]	562,563	O	O
+.	563,564	O	O
+
+This	565,569	O	O
+is	570,572	O	O
+because	573,580	O	O
+three	581,586	O	B-Material
+interfaces	587,597	O	I-Material
+,	597,598	O	I-Material
+A	599,600	O	I-Material
+/	600,601	O	I-Material
+B	601,602	O	I-Material
+,	602,603	O	I-Material
+B	604,605	O	I-Material
+/	605,606	O	I-Material
+C	606,607	O	I-Material
+and	608,611	O	I-Material
+C	612,613	O	I-Material
+/	613,614	O	I-Material
+A	614,615	O	I-Material
+are	616,619	O	O
+likely	620,626	O	O
+to	627,629	O	O
+be	630,632	O	O
+flat	633,637	O	O
+since	638,643	O	O
+there	644,649	O	O
+exist	650,655	O	O
+no	656,658	O	O
+junction	659,667	O	O
+points	668,674	O	O
+at	675,677	O	O
+interfaces	678,688	O	O
+and	689,692	O	O
+therefore	693,702	O	O
+chain	703,708	O	B-Process
+entropy	709,716	O	I-Process
+contribution	717,729	O	O
+to	730,732	O	O
+the	733,736	O	O
+free	737,741	O	O
+energy	742,748	O	O
+of	749,751	O	O
+structure	752,761	O	O
+formation	762,771	O	O
+is	772,774	O	O
+considerably	775,787	O	O
+small	788,793	O	O
+comparing	794,803	O	O
+with	804,808	O	O
+regular	809,816	O	O
+block	817,822	O	O
+and	823,826	O	O
+graft	827,832	O	O
+copolymer	833,842	O	O
+systems	843,850	O	O
+.	850,851	O	O
+
+As	852,854	O	O
+a	855,856	O	O
+matter	857,863	O	O
+of	864,866	O	O
+fact	867,871	O	O
+,	871,872	O	O
+Dotera	873,879	O	O
+predicted	880,889	O	O
+several	890,897	O	O
+tiling	898,904	O	O
+patterns	905,913	O	O
+by	914,916	O	O
+the	917,920	O	O
+diagonal	921,929	O	B-Process
+bond	930,934	O	I-Process
+method	935,941	O	I-Process
+,	941,942	O	O
+a	943,944	O	O
+new	945,948	O	O
+Monte	949,954	O	B-Process
+Carlo	955,960	O	I-Process
+Simulation	961,971	O	I-Process
+[	972,973	O	O
+30	973,975	O	O
+]	975,976	O	O
+,	976,977	O	O
+while	978,983	O	O
+Gemma	984,989	O	O
+and	990,993	O	O
+Dotera	994,1000	O	O
+pointed	1001,1008	O	O
+out	1009,1012	O	O
+that	1013,1017	O	O
+only	1018,1022	O	O
+three	1023,1028	O	O
+regular	1029,1036	O	O
+tilings	1037,1044	O	O
+,	1044,1045	O	O
+i.e.	1046,1050	O	O
+,	1050,1051	O	O
+(	1052,1053	O	O
+6.6.6	1053,1058	O	O
+)	1058,1059	O	O
+,	1059,1060	O	O
+(	1061,1062	O	O
+4.8.8	1062,1067	O	O
+)	1067,1068	O	O
+and	1069,1072	O	O
+(	1073,1074	O	O
+4.6.12	1074,1080	O	O
+)	1080,1081	O	O
+are	1082,1085	O	O
+permitted	1086,1095	O	O
+for	1096,1099	O	O
+three	1100,1105	O	B-Material
+-	1105,1106	O	I-Material
+branched	1106,1114	O	I-Material
+molecules	1115,1124	O	I-Material
+proposed	1125,1133	O	O
+as	1134,1136	O	O
+the	1137,1140	O	O
+“	1141,1142	O	O
+even	1142,1146	O	B-Process
+polygon	1147,1154	O	I-Process
+theorem	1155,1162	O	I-Process
+”	1162,1163	O	O
+[	1164,1165	O	O
+31	1165,1167	O	O
+]	1167,1168	O	O
+.	1168,1169	O	O
 
 
 -DOCSTART- (S0032386109003991)
 
-A	0	1	O
-living	2	8	O
-polymerization	9	23	B-Process
-is	24	26	O
-a	27	28	O
-reaction	29	37	B-Process
-without	38	45	O
-transfer	46	54	O
-and	55	58	O
-termination	59	70	B-Process
-reactions	71	80	O
-that	81	85	O
-can	86	89	O
-proceed	90	97	O
-up	98	100	O
-to	101	103	O
-complete	104	112	O
-monomer	113	120	B-Process
-conversion	121	131	I-Process
-.	131	132	O
-
-In	133	135	O
-addition	136	144	O
-,	144	145	O
-when	146	150	O
-initiation	151	161	O
-is	162	164	O
-quantitative	165	177	O
-and	178	181	O
-fast	182	186	O
-compared	187	195	O
-to	196	198	O
-the	199	202	O
-propagation	203	214	B-Process
-reaction	215	223	O
-,	223	224	O
-polymers	225	233	B-Material
-with	234	238	O
-precisely	239	248	O
-controlled	249	259	O
-chain	260	265	O
-length	266	272	O
-and	273	276	O
-narrow	277	283	O
-molar	284	289	O
-mass	290	294	O
-distribution	295	307	O
-can	308	311	O
-be	312	314	O
-obtained	315	323	O
-.	323	324	O
-
-In	325	327	O
-the	328	331	O
-case	332	336	O
-of	337	339	O
-an	340	342	O
-industrial	343	353	B-Task
-styrene	354	361	I-Task
-polymerization	362	376	I-Task
-this	377	381	O
-would	382	387	O
-permit	388	394	O
-to	395	397	O
-avoid	398	403	O
-any	404	407	O
-specific	408	416	O
-washing	417	424	B-Process
-or	425	427	O
-degassing	428	437	B-Process
-steps	438	443	O
-,	443	444	O
-which	445	450	O
-are	451	454	O
-necessary	455	464	O
-in	465	467	O
-the	468	471	O
-radical	472	479	O
-process	480	487	O
-to	488	490	O
-remove	491	497	O
-residual	498	506	O
-monomer	507	514	O
-and	515	518	O
-low	519	522	B-Material
-molar	523	528	I-Material
-mass	529	533	I-Material
-oligomers	534	543	I-Material
-.	543	544	O
-
-Since	545	550	O
-head	551	555	O
--	555	556	O
-to	556	558	O
--	558	559	O
-head	559	563	O
-defects	564	571	O
-along	572	577	O
-the	578	581	O
-chains	582	588	O
-are	589	592	O
-absent	593	599	O
-,	599	600	O
-anionic	601	608	B-Material
-polystyrene	609	620	I-Material
-would	621	626	O
-exhibit	627	634	O
-also	635	639	O
-a	640	641	O
-better	642	648	O
-thermal	649	656	O
-stability	657	666	O
-than	667	671	O
-radical	672	679	O
-one	680	683	O
-.	683	684	O
-
-Therefore	685	694	O
-,	694	695	O
-production	696	706	B-Task
-of	707	709	I-Task
-anionic	710	717	I-Task
-polystyrene	718	729	I-Task
-(	730	731	I-Task
-PS	731	733	I-Task
-)	733	734	I-Task
-would	735	740	O
-be	741	743	O
-of	744	746	O
-interest	747	755	O
-if	756	758	O
-the	759	762	O
-conditions	763	773	O
-required	774	782	O
-to	783	785	O
-control	786	793	O
-the	794	797	O
-polymerization	798	812	B-Process
-could	813	818	O
-be	819	821	O
-adapted	822	829	O
-to	830	832	O
-the	833	836	O
-market	837	843	O
-and	844	847	O
-be	848	850	O
-able	851	855	O
-to	856	858	O
-compete	859	866	O
-economically	867	879	O
-with	880	884	O
-industrial	885	895	O
-radical	896	903	O
-processes	904	913	O
-.	913	914	O
-
-The	915	918	O
-use	919	922	O
-of	923	925	O
-organic	926	933	B-Material
-solvents	934	942	I-Material
-and	943	946	O
-of	947	949	O
-expensive	950	959	O
-alkyllithium	960	972	B-Process
-initiators	973	983	I-Process
-,	983	984	O
-as	985	987	O
-well	988	992	O
-as	993	995	O
-the	996	999	O
-relatively	1000	1010	O
-low	1011	1014	O
-reaction	1015	1023	O
-temperatures	1024	1036	O
-required	1037	1045	O
-,	1045	1046	O
-was	1047	1050	O
-some	1051	1055	O
-important	1056	1065	O
-limitation	1066	1076	O
-to	1077	1079	O
-overcome	1080	1088	O
-.	1088	1089	O
-
-The	1090	1093	O
-possibilities	1094	1107	O
-to	1108	1110	O
-achieve	1111	1118	O
-a	1119	1120	O
-quantitative	1121	1133	O
-living	1134	1140	O
--	1140	1141	O
-like	1141	1145	O
-anionic	1146	1153	B-Process
-polymerization	1154	1168	I-Process
-of	1169	1171	I-Process
-styrene	1172	1179	I-Process
-in	1180	1182	O
-the	1183	1186	O
-absence	1187	1194	O
-of	1195	1197	O
-solvent	1198	1205	B-Material
-and	1206	1209	O
-at	1210	1212	O
-elevated	1213	1221	O
-temperature	1222	1233	O
-,	1233	1234	O
-using	1235	1240	O
-inexpensive	1241	1252	O
-initiating	1253	1263	O
-systems	1264	1271	O
-,	1271	1272	O
-were	1273	1277	O
-the	1278	1281	O
-main	1282	1286	O
-targets	1287	1294	O
-identified	1295	1305	O
-to	1306	1308	O
-tremendously	1309	1321	O
-decrease	1322	1330	O
-the	1331	1334	O
-cost	1335	1339	O
-of	1340	1342	O
-the	1343	1346	O
-anionic	1347	1354	O
-process	1355	1362	O
-.	1362	1363	O
-
-This	1364	1368	O
-implied	1369	1376	O
-at	1377	1379	O
-first	1380	1385	O
-to	1386	1388	O
-control	1389	1396	O
-the	1397	1400	O
-reactivity	1401	1411	O
-and	1412	1415	O
-stability	1416	1425	O
-of	1426	1428	O
-initiating	1429	1439	O
-and	1440	1443	O
-propagating	1444	1455	B-Process
-active	1456	1462	I-Process
-species	1463	1470	I-Process
-in	1471	1473	O
-such	1474	1478	O
-unusual	1479	1486	O
-operating	1487	1496	O
-conditions	1497	1507	O
-.	1507	1508	O
+A	0,1	O	O
+living	2,8	O	O
+polymerization	9,23	O	B-Process
+is	24,26	O	O
+a	27,28	O	O
+reaction	29,37	O	B-Process
+without	38,45	O	O
+transfer	46,54	O	O
+and	55,58	O	O
+termination	59,70	O	B-Process
+reactions	71,80	O	O
+that	81,85	O	O
+can	86,89	O	O
+proceed	90,97	O	O
+up	98,100	O	O
+to	101,103	O	O
+complete	104,112	O	O
+monomer	113,120	O	B-Process
+conversion	121,131	O	I-Process
+.	131,132	O	O
+
+In	133,135	O	O
+addition	136,144	O	O
+,	144,145	O	O
+when	146,150	O	O
+initiation	151,161	O	O
+is	162,164	O	O
+quantitative	165,177	O	O
+and	178,181	O	O
+fast	182,186	O	O
+compared	187,195	O	O
+to	196,198	O	O
+the	199,202	O	O
+propagation	203,214	O	B-Process
+reaction	215,223	O	O
+,	223,224	O	O
+polymers	225,233	O	B-Material
+with	234,238	O	O
+precisely	239,248	O	O
+controlled	249,259	O	O
+chain	260,265	O	O
+length	266,272	O	O
+and	273,276	O	O
+narrow	277,283	O	O
+molar	284,289	O	O
+mass	290,294	O	O
+distribution	295,307	O	O
+can	308,311	O	O
+be	312,314	O	O
+obtained	315,323	O	O
+.	323,324	O	O
+
+In	325,327	O	O
+the	328,331	O	O
+case	332,336	O	O
+of	337,339	O	O
+an	340,342	O	O
+industrial	343,353	O	B-Task
+styrene	354,361	O	I-Task
+polymerization	362,376	O	I-Task
+this	377,381	O	O
+would	382,387	O	O
+permit	388,394	O	O
+to	395,397	O	O
+avoid	398,403	O	O
+any	404,407	O	O
+specific	408,416	O	O
+washing	417,424	O	B-Process
+or	425,427	O	O
+degassing	428,437	O	B-Process
+steps	438,443	O	O
+,	443,444	O	O
+which	445,450	O	O
+are	451,454	O	O
+necessary	455,464	O	O
+in	465,467	O	O
+the	468,471	O	O
+radical	472,479	O	O
+process	480,487	O	O
+to	488,490	O	O
+remove	491,497	O	O
+residual	498,506	O	O
+monomer	507,514	O	O
+and	515,518	O	O
+low	519,522	O	B-Material
+molar	523,528	O	I-Material
+mass	529,533	O	I-Material
+oligomers	534,543	O	I-Material
+.	543,544	O	O
+
+Since	545,550	O	O
+head	551,555	O	O
+-	555,556	O	O
+to	556,558	O	O
+-	558,559	O	O
+head	559,563	O	O
+defects	564,571	O	O
+along	572,577	O	O
+the	578,581	O	O
+chains	582,588	O	O
+are	589,592	O	O
+absent	593,599	O	O
+,	599,600	O	O
+anionic	601,608	O	B-Material
+polystyrene	609,620	O	I-Material
+would	621,626	O	O
+exhibit	627,634	O	O
+also	635,639	O	O
+a	640,641	O	O
+better	642,648	O	O
+thermal	649,656	O	O
+stability	657,666	O	O
+than	667,671	O	O
+radical	672,679	O	O
+one	680,683	O	O
+.	683,684	O	O
+
+Therefore	685,694	O	O
+,	694,695	O	O
+production	696,706	O	B-Task
+of	707,709	O	I-Task
+anionic	710,717	O	I-Task
+polystyrene	718,729	O	I-Task
+(	730,731	O	I-Task
+PS	731,733	O	I-Task
+)	733,734	O	I-Task
+would	735,740	O	O
+be	741,743	O	O
+of	744,746	O	O
+interest	747,755	O	O
+if	756,758	O	O
+the	759,762	O	O
+conditions	763,773	O	O
+required	774,782	O	O
+to	783,785	O	O
+control	786,793	O	O
+the	794,797	O	O
+polymerization	798,812	O	B-Process
+could	813,818	O	O
+be	819,821	O	O
+adapted	822,829	O	O
+to	830,832	O	O
+the	833,836	O	O
+market	837,843	O	O
+and	844,847	O	O
+be	848,850	O	O
+able	851,855	O	O
+to	856,858	O	O
+compete	859,866	O	O
+economically	867,879	O	O
+with	880,884	O	O
+industrial	885,895	O	O
+radical	896,903	O	O
+processes	904,913	O	O
+.	913,914	O	O
+
+The	915,918	O	O
+use	919,922	O	O
+of	923,925	O	O
+organic	926,933	O	B-Material
+solvents	934,942	O	I-Material
+and	943,946	O	O
+of	947,949	O	O
+expensive	950,959	O	O
+alkyllithium	960,972	O	B-Process
+initiators	973,983	O	I-Process
+,	983,984	O	O
+as	985,987	O	O
+well	988,992	O	O
+as	993,995	O	O
+the	996,999	O	O
+relatively	1000,1010	O	O
+low	1011,1014	O	O
+reaction	1015,1023	O	O
+temperatures	1024,1036	O	O
+required	1037,1045	O	O
+,	1045,1046	O	O
+was	1047,1050	O	O
+some	1051,1055	O	O
+important	1056,1065	O	O
+limitation	1066,1076	O	O
+to	1077,1079	O	O
+overcome	1080,1088	O	O
+.	1088,1089	O	O
+
+The	1090,1093	O	O
+possibilities	1094,1107	O	O
+to	1108,1110	O	O
+achieve	1111,1118	O	O
+a	1119,1120	O	O
+quantitative	1121,1133	O	O
+living	1134,1140	O	O
+-	1140,1141	O	O
+like	1141,1145	O	O
+anionic	1146,1153	O	B-Process
+polymerization	1154,1168	O	I-Process
+of	1169,1171	O	I-Process
+styrene	1172,1179	O	I-Process
+in	1180,1182	O	O
+the	1183,1186	O	O
+absence	1187,1194	O	O
+of	1195,1197	O	O
+solvent	1198,1205	O	B-Material
+and	1206,1209	O	O
+at	1210,1212	O	O
+elevated	1213,1221	O	O
+temperature	1222,1233	O	O
+,	1233,1234	O	O
+using	1235,1240	O	O
+inexpensive	1241,1252	O	O
+initiating	1253,1263	O	O
+systems	1264,1271	O	O
+,	1271,1272	O	O
+were	1273,1277	O	O
+the	1278,1281	O	O
+main	1282,1286	O	O
+targets	1287,1294	O	O
+identified	1295,1305	O	O
+to	1306,1308	O	O
+tremendously	1309,1321	O	O
+decrease	1322,1330	O	O
+the	1331,1334	O	O
+cost	1335,1339	O	O
+of	1340,1342	O	O
+the	1343,1346	O	O
+anionic	1347,1354	O	O
+process	1355,1362	O	O
+.	1362,1363	O	O
+
+This	1364,1368	O	O
+implied	1369,1376	O	O
+at	1377,1379	O	O
+first	1380,1385	O	O
+to	1386,1388	O	O
+control	1389,1396	O	O
+the	1397,1400	O	O
+reactivity	1401,1411	O	O
+and	1412,1415	O	O
+stability	1416,1425	O	O
+of	1426,1428	O	O
+initiating	1429,1439	O	O
+and	1440,1443	O	O
+propagating	1444,1455	O	B-Process
+active	1456,1462	O	I-Process
+species	1463,1470	O	I-Process
+in	1471,1473	O	O
+such	1474,1478	O	O
+unusual	1479,1486	O	O
+operating	1487,1496	O	O
+conditions	1497,1507	O	O
+.	1507,1508	O	O
 
 
 -DOCSTART- (S0032386109005357)
 
-A	0	1	O
-hydroxyl	2	10	O
--	10	11	O
-functionalized	11	25	O
-poly(butylene	26	39	O
-succinate	40	49	O
-)	49	50	O
-based	51	56	O
-polyester	57	66	B-Material
-was	67	70	O
-prepared	71	79	O
-by	80	82	O
-conventional	83	95	O
-polycondensation	96	112	B-Process
-of	113	115	O
-benzyl	116	122	O
--	122	123	O
-protected	123	132	O
-dimethyl	133	141	B-Material
-malonate	142	150	I-Material
-and	151	154	O
-1,4-butanediol	155	169	B-Material
-
-(	170	171	O
-Scheme	171	177	O
-2(a	178	181	O
-)	181	182	O
-)	182	183	O
-
-[	184	185	O
-24a	185	188	O
-]	188	189	O
-.	189	190	O
-
-Yao	191	194	O
-et	195	197	O
-al	198	200	O
-.	200	201	O
-reported	202	210	O
-on	211	213	O
-the	214	217	O
-direct	218	224	O
-polycondensation	225	241	B-Process
-of	242	244	O
-l	245	246	B-Material
--	246	247	I-Material
-lactic	247	253	I-Material
-acid	254	258	I-Material
-and	259	262	O
-citric	263	269	B-Material
-acid	270	274	I-Material
-with	275	279	O
-the	280	283	O
-formation	284	293	O
-of	294	296	O
-poly[(l	297	304	B-Material
--	304	305	I-Material
-lactic	305	311	I-Material
-acid)-co-(citric	312	328	I-Material
-acid	329	333	I-Material
-)	333	334	I-Material
-]	334	335	I-Material
-,	335	336	O
-obtaining	337	346	O
-a	347	348	O
-polyester	349	358	B-Material
-oligomer	359	367	I-Material
-with	368	372	O
-both	373	377	O
-pendant	378	385	O
-carboxylic	386	396	O
-and	397	400	O
-hydroxyl	401	409	O
-groups	410	416	O
-[	417	418	O
-24b	418	421	O
-]	421	422	O
-.	422	423	O
-
-This	424	428	O
-PLCA	429	433	B-Material
-oligomer	434	442	I-Material
-was	443	446	O
-reacted	447	454	O
-with	455	459	O
-dihydroxylated	460	474	B-Material
-PLLA	475	479	I-Material
-as	480	482	O
-a	483	484	O
-macromonomer	485	497	O
-,	497	498	O
-yielding	499	507	O
-a	508	509	O
-PLCA	510	514	O
-–	514	515	O
-
-PLLA	515	519	O
-multiblock	520	530	O
-copolymer	531	540	O
-as	541	543	O
-shown	544	549	O
-in	550	552	O
-Scheme	553	559	O
-2(b	560	563	O
-)	563	564	O
-.	564	565	O
-
-While	566	571	O
-lipases	572	579	B-Material
-have	580	584	O
-been	585	589	O
-investigated	590	602	O
-for	603	606	O
-the	607	610	O
-ring	611	615	B-Process
--	615	616	I-Process
-opening	616	623	I-Process
-polymerization	624	638	I-Process
-(	639	640	O
-ROP	640	643	B-Process
-)	643	644	O
-of	645	647	O
-cyclic	648	654	B-Material
-ester	655	660	I-Material
-monomers	661	669	I-Material
-[	670	671	O
-25,26	671	676	O
-]	676	677	O
-,	677	678	O
-they	679	683	O
-have	684	688	O
-also	689	693	O
-been	694	698	O
-used	699	703	O
-for	704	707	O
-the	708	711	O
-preparation	712	723	O
-of	724	726	O
-polyesters	727	737	B-Material
-by	738	740	O
-polycondensation	741	757	B-Process
-reactions	758	767	O
-.	767	768	O
-
-The	769	772	O
-advantage	773	782	O
-of	783	785	O
-this	786	790	O
-technique	791	800	O
-is	801	803	O
-that	804	808	O
-these	809	814	O
-enzyme	815	821	B-Process
--	821	822	I-Process
-catalyzed	822	831	I-Process
-reactions	832	841	O
-proceed	842	849	O
-without	850	857	O
-protection	858	868	O
-of	869	871	O
-the	872	875	O
-pendant	876	883	O
-functional	884	894	O
-groups	895	901	O
-.	901	902	O
-
-In	903	905	O
-this	906	910	O
-field	911	916	O
-,	916	917	O
-hydroxyl	918	926	B-Material
--	926	927	I-Material
-bearing	927	934	I-Material
-polyesters	935	945	I-Material
-have	946	950	O
-been	951	955	O
-synthesized	956	967	O
-by	968	970	O
-the	971	974	O
-copolymerization	975	991	B-Process
-of	992	994	O
-divinyl	995	1002	B-Material
-adipate	1003	1010	I-Material
-with	1011	1015	O
-various	1016	1023	O
-triols	1024	1030	B-Material
-(	1031	1032	O
-e.g.	1032	1036	O
-glycerol	1037	1045	B-Material
-,	1045	1046	O
-1,2,4-butanetriol	1047	1064	B-Material
-)	1064	1065	O
-as	1066	1068	O
-represented	1069	1080	O
-in	1081	1083	O
-Scheme	1084	1090	O
-2(c	1091	1094	O
-)	1094	1095	O
-
-[	1096	1097	O
-27	1097	1099	O
-]	1099	1100	O
-and	1101	1104	O
-by	1105	1107	O
-copolymerizations	1108	1125	B-Process
-of	1126	1128	O
-1,8-octanediol	1129	1143	B-Material
-with	1144	1148	O
-adipic	1149	1155	B-Material
-acid	1156	1160	I-Material
-and	1161	1164	O
-several	1165	1172	O
-alditols	1173	1181	B-Material
-[	1182	1183	O
-28	1183	1185	O
-]	1185	1186	O
-.	1186	1187	O
-
-Very	1188	1192	O
-recently	1193	1201	O
-,	1201	1202	O
-several	1203	1210	O
-α-hydroxy	1211	1220	B-Material
-acids	1221	1226	I-Material
-derived	1227	1234	O
-from	1235	1239	O
-amino	1240	1245	B-Material
-acids	1246	1251	I-Material
-were	1252	1256	O
-homo-	1257	1262	O
-and	1263	1266	O
-copolymerized	1267	1280	O
-with	1281	1285	O
-lactic	1286	1292	B-Material
-acid	1293	1297	I-Material
-by	1298	1300	O
-polycondensation	1301	1317	B-Process
-in	1318	1320	O
-bulk	1321	1325	O
-without	1326	1333	O
-protected	1334	1343	O
-monomers	1344	1352	B-Material
-(	1353	1354	O
-Scheme	1354	1360	O
-2(d	1361	1364	O
-)	1364	1365	O
-)	1365	1366	O
-
-[	1367	1368	O
-29	1368	1370	O
-]	1370	1371	O
-.	1371	1372	O
-
-Biodegradable	1373	1386	B-Material
-polyesters	1387	1397	I-Material
-with	1398	1402	O
-various	1403	1410	O
-pendant	1411	1418	O
-groups	1419	1425	O
-were	1426	1430	O
-obtained	1431	1439	O
-,	1439	1440	O
-although	1441	1449	O
-the	1450	1453	O
-molecular	1454	1463	O
-weights	1464	1471	O
-remained	1472	1480	O
-low	1481	1484	O
-(	1485	1486	O
-1000–3000gmol−1	1486	1501	O
-)	1501	1502	O
-.	1502	1503	O
+A	0,1	O	O
+hydroxyl	2,10	O	O
+-	10,11	O	O
+functionalized	11,25	O	O
+poly(butylene	26,39	O	O
+succinate	40,49	O	O
+)	49,50	O	O
+based	51,56	O	O
+polyester	57,66	O	B-Material
+was	67,70	O	O
+prepared	71,79	O	O
+by	80,82	O	O
+conventional	83,95	O	O
+polycondensation	96,112	O	B-Process
+of	113,115	O	O
+benzyl	116,122	O	O
+-	122,123	O	O
+protected	123,132	O	O
+dimethyl	133,141	O	B-Material
+malonate	142,150	O	I-Material
+and	151,154	O	O
+1,4-butanediol	155,169	O	B-Material
+
+(	170,171	O	O
+Scheme	171,177	O	O
+2(a	178,181	O	O
+)	181,182	O	O
+)	182,183	O	O
+
+[	184,185	O	O
+24a	185,188	O	O
+]	188,189	O	O
+.	189,190	O	O
+
+Yao	191,194	O	O
+et	195,197	O	O
+al	198,200	O	O
+.	200,201	O	O
+reported	202,210	O	O
+on	211,213	O	O
+the	214,217	O	O
+direct	218,224	O	O
+polycondensation	225,241	O	B-Process
+of	242,244	O	O
+l	245,246	O	B-Material
+-	246,247	O	I-Material
+lactic	247,253	O	I-Material
+acid	254,258	O	I-Material
+and	259,262	O	O
+citric	263,269	O	B-Material
+acid	270,274	O	I-Material
+with	275,279	O	O
+the	280,283	O	O
+formation	284,293	O	O
+of	294,296	O	O
+poly[(l	297,304	O	B-Material
+-	304,305	O	I-Material
+lactic	305,311	O	I-Material
+acid)-co-(citric	312,328	O	I-Material
+acid	329,333	O	I-Material
+)	333,334	O	I-Material
+]	334,335	O	I-Material
+,	335,336	O	O
+obtaining	337,346	O	O
+a	347,348	O	O
+polyester	349,358	O	B-Material
+oligomer	359,367	O	I-Material
+with	368,372	O	O
+both	373,377	O	O
+pendant	378,385	O	O
+carboxylic	386,396	O	O
+and	397,400	O	O
+hydroxyl	401,409	O	O
+groups	410,416	O	O
+[	417,418	O	O
+24b	418,421	O	O
+]	421,422	O	O
+.	422,423	O	O
+
+This	424,428	O	O
+PLCA	429,433	O	B-Material
+oligomer	434,442	O	I-Material
+was	443,446	O	O
+reacted	447,454	O	O
+with	455,459	O	O
+dihydroxylated	460,474	O	B-Material
+PLLA	475,479	O	I-Material
+as	480,482	O	O
+a	483,484	O	O
+macromonomer	485,497	O	O
+,	497,498	O	O
+yielding	499,507	O	O
+a	508,509	O	O
+PLCA	510,514	O	O
+–	514,515	O	O
+
+PLLA	515,519	O	O
+multiblock	520,530	O	O
+copolymer	531,540	O	O
+as	541,543	O	O
+shown	544,549	O	O
+in	550,552	O	O
+Scheme	553,559	O	O
+2(b	560,563	O	O
+)	563,564	O	O
+.	564,565	O	O
+
+While	566,571	O	O
+lipases	572,579	O	B-Material
+have	580,584	O	O
+been	585,589	O	O
+investigated	590,602	O	O
+for	603,606	O	O
+the	607,610	O	O
+ring	611,615	O	B-Process
+-	615,616	O	I-Process
+opening	616,623	O	I-Process
+polymerization	624,638	O	I-Process
+(	639,640	O	O
+ROP	640,643	O	B-Process
+)	643,644	O	O
+of	645,647	O	O
+cyclic	648,654	O	B-Material
+ester	655,660	O	I-Material
+monomers	661,669	O	I-Material
+[	670,671	O	O
+25,26	671,676	O	O
+]	676,677	O	O
+,	677,678	O	O
+they	679,683	O	O
+have	684,688	O	O
+also	689,693	O	O
+been	694,698	O	O
+used	699,703	O	O
+for	704,707	O	O
+the	708,711	O	O
+preparation	712,723	O	O
+of	724,726	O	O
+polyesters	727,737	O	B-Material
+by	738,740	O	O
+polycondensation	741,757	O	B-Process
+reactions	758,767	O	O
+.	767,768	O	O
+
+The	769,772	O	O
+advantage	773,782	O	O
+of	783,785	O	O
+this	786,790	O	O
+technique	791,800	O	O
+is	801,803	O	O
+that	804,808	O	O
+these	809,814	O	O
+enzyme	815,821	O	B-Process
+-	821,822	O	I-Process
+catalyzed	822,831	O	I-Process
+reactions	832,841	O	O
+proceed	842,849	O	O
+without	850,857	O	O
+protection	858,868	O	O
+of	869,871	O	O
+the	872,875	O	O
+pendant	876,883	O	O
+functional	884,894	O	O
+groups	895,901	O	O
+.	901,902	O	O
+
+In	903,905	O	O
+this	906,910	O	O
+field	911,916	O	O
+,	916,917	O	O
+hydroxyl	918,926	O	B-Material
+-	926,927	O	I-Material
+bearing	927,934	O	I-Material
+polyesters	935,945	O	I-Material
+have	946,950	O	O
+been	951,955	O	O
+synthesized	956,967	O	O
+by	968,970	O	O
+the	971,974	O	O
+copolymerization	975,991	O	B-Process
+of	992,994	O	O
+divinyl	995,1002	O	B-Material
+adipate	1003,1010	O	I-Material
+with	1011,1015	O	O
+various	1016,1023	O	O
+triols	1024,1030	O	B-Material
+(	1031,1032	O	O
+e.g.	1032,1036	O	O
+glycerol	1037,1045	O	B-Material
+,	1045,1046	O	O
+1,2,4-butanetriol	1047,1064	O	B-Material
+)	1064,1065	O	O
+as	1066,1068	O	O
+represented	1069,1080	O	O
+in	1081,1083	O	O
+Scheme	1084,1090	O	O
+2(c	1091,1094	O	O
+)	1094,1095	O	O
+
+[	1096,1097	O	O
+27	1097,1099	O	O
+]	1099,1100	O	O
+and	1101,1104	O	O
+by	1105,1107	O	O
+copolymerizations	1108,1125	O	B-Process
+of	1126,1128	O	O
+1,8-octanediol	1129,1143	O	B-Material
+with	1144,1148	O	O
+adipic	1149,1155	O	B-Material
+acid	1156,1160	O	I-Material
+and	1161,1164	O	O
+several	1165,1172	O	O
+alditols	1173,1181	O	B-Material
+[	1182,1183	O	O
+28	1183,1185	O	O
+]	1185,1186	O	O
+.	1186,1187	O	O
+
+Very	1188,1192	O	O
+recently	1193,1201	O	O
+,	1201,1202	O	O
+several	1203,1210	O	O
+α-hydroxy	1211,1220	O	B-Material
+acids	1221,1226	O	I-Material
+derived	1227,1234	O	O
+from	1235,1239	O	O
+amino	1240,1245	O	B-Material
+acids	1246,1251	O	I-Material
+were	1252,1256	O	O
+homo-	1257,1262	O	O
+and	1263,1266	O	O
+copolymerized	1267,1280	O	O
+with	1281,1285	O	O
+lactic	1286,1292	O	B-Material
+acid	1293,1297	O	I-Material
+by	1298,1300	O	O
+polycondensation	1301,1317	O	B-Process
+in	1318,1320	O	O
+bulk	1321,1325	O	O
+without	1326,1333	O	O
+protected	1334,1343	O	O
+monomers	1344,1352	O	B-Material
+(	1353,1354	O	O
+Scheme	1354,1360	O	O
+2(d	1361,1364	O	O
+)	1364,1365	O	O
+)	1365,1366	O	O
+
+[	1367,1368	O	O
+29	1368,1370	O	O
+]	1370,1371	O	O
+.	1371,1372	O	O
+
+Biodegradable	1373,1386	O	B-Material
+polyesters	1387,1397	O	I-Material
+with	1398,1402	O	O
+various	1403,1410	O	O
+pendant	1411,1418	O	O
+groups	1419,1425	O	O
+were	1426,1430	O	O
+obtained	1431,1439	O	O
+,	1439,1440	O	O
+although	1441,1449	O	O
+the	1450,1453	O	O
+molecular	1454,1463	O	O
+weights	1464,1471	O	O
+remained	1472,1480	O	O
+low	1481,1484	O	O
+(	1485,1486	O	O
+1000–3000gmol−1	1486,1501	O	O
+)	1501,1502	O	O
+.	1502,1503	O	O
 
 
 -DOCSTART- (S0032386110001254)
 
-Despite	0	7	O
-the	8	11	O
-loss	12	16	O
-of	17	19	O
-directed	20	28	O
-,	28	29	O
-self	30	34	O
--	34	35	O
-complementary	35	48	O
-hydrogen	49	57	B-Process
-bonding	58	65	I-Process
-through	66	73	O
-alkylation	74	84	B-Process
-of	85	87	O
-the	88	91	O
-imidazole	92	101	O
-ring	102	106	O
-,	106	107	O
-electrostatic	108	121	B-Process
-aggregation	122	133	I-Process
-of	134	136	O
-imidazolium	137	148	B-Material
-salts	149	154	I-Material
-is	155	157	O
-a	158	159	O
-tunable	160	167	O
-,	167	168	O
-self	169	173	O
--	173	174	O
-assembly	174	182	O
-process	183	190	O
-,	190	191	O
-which	192	197	O
-is	198	200	O
-instrumental	201	213	O
-to	214	216	O
-several	217	224	O
-applications	225	237	O
-.	237	238	O
-
-Imidazolium	239	250	B-Material
-salts	251	256	I-Material
-are	257	260	O
-used	261	265	O
-to	266	268	O
-extract	269	276	O
-metal	277	282	B-Material
-ions	283	287	I-Material
-from	288	292	O
-aqueous	293	300	B-Material
-solutions	301	310	I-Material
-and	311	314	O
-coat	315	319	O
-metal	320	325	B-Material
-nanoparticles	326	339	I-Material
-[	340	341	O
-15	341	343	O
-]	343	344	O
-,	344	345	O
-dissolve	346	354	O
-carbohydrates	355	368	B-Material
-[	369	370	O
-16	370	372	O
-]	372	373	O
-,	373	374	O
-and	375	378	O
-create	379	385	O
-polyelectrolyte	386	401	B-Process
-brushes	402	409	I-Process
-on	410	412	O
-surfaces	413	421	O
-[	422	423	O
-17	423	425	O
-]	425	426	O
-.	426	427	O
-
-For	428	431	O
-example	432	439	O
-,	439	440	O
-atom	441	445	B-Process
-transfer	446	454	I-Process
-radical	455	462	I-Process
-polymerization	463	477	I-Process
-(	478	479	O
-ATRP	479	483	B-Process
-)	483	484	O
-was	485	488	O
-used	489	493	O
-to	494	496	O
-graft	497	502	O
-poly(1-ethyl	503	515	B-Material
-3-(2-methacryloyloxy	516	536	I-Material
-ethyl	537	542	I-Material
-)	542	543	I-Material
-imidazolium	544	555	I-Material
-chloride	556	564	I-Material
-)	564	565	O
-brushes	566	573	O
-onto	574	578	O
-gold	579	583	B-Material
-surfaces	584	592	I-Material
-[	593	594	O
-17	594	596	O
-]	596	597	O
-.	597	598	O
-
-One	599	602	O
-of	603	605	O
-the	606	609	O
-imidazolium	610	621	B-Material
-salt	622	626	I-Material
-’s	626	628	O
-most	629	633	O
-promising	634	643	O
-attributes	644	654	O
-is	655	657	O
-its	658	661	O
-antimicrobial	662	675	B-Process
-action	676	682	I-Process
-[	683	684	O
-12,18	684	689	O
-]	689	690	O
-and	691	694	O
-molecular	695	704	O
-self	705	709	O
--	709	710	O
-assembly	710	718	O
-into	719	723	O
-liquid	724	730	B-Material
-crystals	731	739	I-Material
-[	740	741	O
-19,20	741	746	O
-]	746	747	O
-.	747	748	O
-
-1-Alkyl-3-methylimidazolium	749	776	B-Material
-chlorides	777	786	I-Material
-and	787	790	O
-bromides	791	799	B-Material
-,	799	800	O
-1-alkyl-2-methyl-3-hydroxyethylimidazolium	801	843	B-Material
-chlorides	844	853	I-Material
-,	853	854	O
-and	855	858	O
-N	859	860	B-Material
--	860	861	I-Material
-alkyl	861	866	I-Material
--	866	867	I-Material
-N	867	868	I-Material
--	868	869	I-Material
-hydroxyethylpyrrolidinonium	869	896	I-Material
-,	896	897	O
-for	898	901	O
-example	902	909	O
-,	909	910	O
-all	911	914	O
-exhibit	915	922	O
-strong	923	929	O
-biocidal	930	938	B-Process
-activity	939	947	I-Process
-[	948	949	O
-18	949	951	O
-]	951	952	O
-.	952	953	O
-
-Hydrogels	954	963	B-Material
-form	964	968	I-Material
-from	969	973	O
-polymerized	974	985	B-Material
-methylimidazolium	986	1003	I-Material
--	1003	1004	I-Material
-based	1004	1009	I-Material
-ionic	1010	1015	I-Material
-liquids	1016	1023	I-Material
-with	1024	1028	O
-acryloyl	1029	1037	B-Material
-groups	1038	1044	I-Material
-;	1044	1045	O
-the	1046	1049	O
-polymer	1050	1057	B-Material
-self	1058	1062	O
--	1062	1063	O
-assembles	1063	1072	O
-into	1073	1077	O
-organized	1078	1087	B-Material
-lamellae	1088	1096	I-Material
-with	1097	1101	O
-unique	1102	1108	O
-swelling	1109	1117	O
-properties	1118	1128	O
-,	1128	1129	O
-leading	1130	1137	O
-to	1138	1140	O
-bioactive	1141	1150	B-Task
-applications	1151	1163	I-Task
-[	1164	1165	O
-19	1165	1167	O
-]	1167	1168	O
-.	1168	1169	O
-
-Other	1170	1175	O
-bioactive	1176	1185	B-Task
-applications	1186	1198	I-Task
-for	1199	1202	O
-imidazolium	1203	1214	B-Material
-salts	1215	1220	I-Material
-include	1221	1228	O
-antiarrhythmics	1229	1244	B-Material
-[	1245	1246	O
-21	1246	1248	O
-]	1248	1249	O
-,	1249	1250	O
-anti	1251	1255	B-Material
--	1255	1256	I-Material
-metastic	1256	1264	I-Material
-agents	1265	1271	I-Material
-[	1272	1273	O
-22,23	1273	1278	O
-]	1278	1279	O
-,	1279	1280	O
-and	1281	1284	O
-imidazolium	1285	1296	B-Material
--	1296	1297	I-Material
-based	1297	1302	I-Material
-steroids	1303	1311	I-Material
-[	1312	1313	O
-24	1313	1315	O
-]	1315	1316	O
-.	1316	1317	O
-
-Separation	1318	1328	B-Process
-applications	1329	1341	I-Process
-include	1342	1349	O
-efficient	1350	1359	B-Process
-absorption	1360	1370	I-Process
-of	1371	1373	I-Process
-CO2	1374	1377	I-Process
-[	1378	1379	O
-25	1379	1381	O
-]	1381	1382	O
-.	1382	1383	O
-
-Imidazolium	1384	1395	B-Material
-salts	1396	1401	I-Material
-enhance	1402	1409	O
-vesicle	1410	1417	B-Process
-formation	1418	1427	I-Process
-as	1428	1430	O
-imidazolium	1431	1442	B-Material
-surfactants	1443	1454	I-Material
-[	1455	1456	O
-26	1456	1458	O
-]	1458	1459	O
-,	1459	1460	O
-and	1461	1464	O
-they	1465	1469	O
-also	1470	1474	O
-find	1475	1479	O
-application	1480	1491	O
-in	1492	1494	O
-polymeric	1495	1504	B-Process
-actuators	1505	1514	I-Process
-[	1515	1516	O
-27	1516	1518	O
-]	1518	1519	O
-.	1519	1520	O
+Despite	0,7	O	O
+the	8,11	O	O
+loss	12,16	O	O
+of	17,19	O	O
+directed	20,28	O	O
+,	28,29	O	O
+self	30,34	O	O
+-	34,35	O	O
+complementary	35,48	O	O
+hydrogen	49,57	O	B-Process
+bonding	58,65	O	I-Process
+through	66,73	O	O
+alkylation	74,84	O	B-Process
+of	85,87	O	O
+the	88,91	O	O
+imidazole	92,101	O	O
+ring	102,106	O	O
+,	106,107	O	O
+electrostatic	108,121	O	B-Process
+aggregation	122,133	O	I-Process
+of	134,136	O	O
+imidazolium	137,148	O	B-Material
+salts	149,154	O	I-Material
+is	155,157	O	O
+a	158,159	O	O
+tunable	160,167	O	O
+,	167,168	O	O
+self	169,173	O	O
+-	173,174	O	O
+assembly	174,182	O	O
+process	183,190	O	O
+,	190,191	O	O
+which	192,197	O	O
+is	198,200	O	O
+instrumental	201,213	O	O
+to	214,216	O	O
+several	217,224	O	O
+applications	225,237	O	O
+.	237,238	O	O
+
+Imidazolium	239,250	O	B-Material
+salts	251,256	O	I-Material
+are	257,260	O	O
+used	261,265	O	O
+to	266,268	O	O
+extract	269,276	O	O
+metal	277,282	O	B-Material
+ions	283,287	O	I-Material
+from	288,292	O	O
+aqueous	293,300	O	B-Material
+solutions	301,310	O	I-Material
+and	311,314	O	O
+coat	315,319	O	O
+metal	320,325	O	B-Material
+nanoparticles	326,339	O	I-Material
+[	340,341	O	O
+15	341,343	O	O
+]	343,344	O	O
+,	344,345	O	O
+dissolve	346,354	O	O
+carbohydrates	355,368	O	B-Material
+[	369,370	O	O
+16	370,372	O	O
+]	372,373	O	O
+,	373,374	O	O
+and	375,378	O	O
+create	379,385	O	O
+polyelectrolyte	386,401	O	B-Process
+brushes	402,409	O	I-Process
+on	410,412	O	O
+surfaces	413,421	O	O
+[	422,423	O	O
+17	423,425	O	O
+]	425,426	O	O
+.	426,427	O	O
+
+For	428,431	O	O
+example	432,439	O	O
+,	439,440	O	O
+atom	441,445	O	B-Process
+transfer	446,454	O	I-Process
+radical	455,462	O	I-Process
+polymerization	463,477	O	I-Process
+(	478,479	O	O
+ATRP	479,483	O	B-Process
+)	483,484	O	O
+was	485,488	O	O
+used	489,493	O	O
+to	494,496	O	O
+graft	497,502	O	O
+poly(1-ethyl	503,515	O	B-Material
+3-(2-methacryloyloxy	516,536	O	I-Material
+ethyl	537,542	O	I-Material
+)	542,543	O	I-Material
+imidazolium	544,555	O	I-Material
+chloride	556,564	O	I-Material
+)	564,565	O	O
+brushes	566,573	O	O
+onto	574,578	O	O
+gold	579,583	O	B-Material
+surfaces	584,592	O	I-Material
+[	593,594	O	O
+17	594,596	O	O
+]	596,597	O	O
+.	597,598	O	O
+
+One	599,602	O	O
+of	603,605	O	O
+the	606,609	O	O
+imidazolium	610,621	O	B-Material
+salt	622,626	O	I-Material
+’s	626,628	O	O
+most	629,633	O	O
+promising	634,643	O	O
+attributes	644,654	O	O
+is	655,657	O	O
+its	658,661	O	O
+antimicrobial	662,675	O	B-Process
+action	676,682	O	I-Process
+[	683,684	O	O
+12,18	684,689	O	O
+]	689,690	O	O
+and	691,694	O	O
+molecular	695,704	O	O
+self	705,709	O	O
+-	709,710	O	O
+assembly	710,718	O	O
+into	719,723	O	O
+liquid	724,730	O	B-Material
+crystals	731,739	O	I-Material
+[	740,741	O	O
+19,20	741,746	O	O
+]	746,747	O	O
+.	747,748	O	O
+
+1-Alkyl-3-methylimidazolium	749,776	O	B-Material
+chlorides	777,786	O	I-Material
+and	787,790	O	O
+bromides	791,799	O	B-Material
+,	799,800	O	O
+1-alkyl-2-methyl-3-hydroxyethylimidazolium	801,843	O	B-Material
+chlorides	844,853	O	I-Material
+,	853,854	O	O
+and	855,858	O	O
+N	859,860	O	B-Material
+-	860,861	O	I-Material
+alkyl	861,866	O	I-Material
+-	866,867	O	I-Material
+N	867,868	O	I-Material
+-	868,869	O	I-Material
+hydroxyethylpyrrolidinonium	869,896	O	I-Material
+,	896,897	O	O
+for	898,901	O	O
+example	902,909	O	O
+,	909,910	O	O
+all	911,914	O	O
+exhibit	915,922	O	O
+strong	923,929	O	O
+biocidal	930,938	O	B-Process
+activity	939,947	O	I-Process
+[	948,949	O	O
+18	949,951	O	O
+]	951,952	O	O
+.	952,953	O	O
+
+Hydrogels	954,963	O	B-Material
+form	964,968	O	I-Material
+from	969,973	O	O
+polymerized	974,985	O	B-Material
+methylimidazolium	986,1003	O	I-Material
+-	1003,1004	O	I-Material
+based	1004,1009	O	I-Material
+ionic	1010,1015	O	I-Material
+liquids	1016,1023	O	I-Material
+with	1024,1028	O	O
+acryloyl	1029,1037	O	B-Material
+groups	1038,1044	O	I-Material
+;	1044,1045	O	O
+the	1046,1049	O	O
+polymer	1050,1057	O	B-Material
+self	1058,1062	O	O
+-	1062,1063	O	O
+assembles	1063,1072	O	O
+into	1073,1077	O	O
+organized	1078,1087	O	B-Material
+lamellae	1088,1096	O	I-Material
+with	1097,1101	O	O
+unique	1102,1108	O	O
+swelling	1109,1117	O	O
+properties	1118,1128	O	O
+,	1128,1129	O	O
+leading	1130,1137	O	O
+to	1138,1140	O	O
+bioactive	1141,1150	O	B-Task
+applications	1151,1163	O	I-Task
+[	1164,1165	O	O
+19	1165,1167	O	O
+]	1167,1168	O	O
+.	1168,1169	O	O
+
+Other	1170,1175	O	O
+bioactive	1176,1185	O	B-Task
+applications	1186,1198	O	I-Task
+for	1199,1202	O	O
+imidazolium	1203,1214	O	B-Material
+salts	1215,1220	O	I-Material
+include	1221,1228	O	O
+antiarrhythmics	1229,1244	O	B-Material
+[	1245,1246	O	O
+21	1246,1248	O	O
+]	1248,1249	O	O
+,	1249,1250	O	O
+anti	1251,1255	O	B-Material
+-	1255,1256	O	I-Material
+metastic	1256,1264	O	I-Material
+agents	1265,1271	O	I-Material
+[	1272,1273	O	O
+22,23	1273,1278	O	O
+]	1278,1279	O	O
+,	1279,1280	O	O
+and	1281,1284	O	O
+imidazolium	1285,1296	O	B-Material
+-	1296,1297	O	I-Material
+based	1297,1302	O	I-Material
+steroids	1303,1311	O	I-Material
+[	1312,1313	O	O
+24	1313,1315	O	O
+]	1315,1316	O	O
+.	1316,1317	O	O
+
+Separation	1318,1328	O	B-Process
+applications	1329,1341	O	I-Process
+include	1342,1349	O	O
+efficient	1350,1359	O	B-Process
+absorption	1360,1370	O	I-Process
+of	1371,1373	O	I-Process
+CO2	1374,1377	O	I-Process
+[	1378,1379	O	O
+25	1379,1381	O	O
+]	1381,1382	O	O
+.	1382,1383	O	O
+
+Imidazolium	1384,1395	O	B-Material
+salts	1396,1401	O	I-Material
+enhance	1402,1409	O	O
+vesicle	1410,1417	O	B-Process
+formation	1418,1427	O	I-Process
+as	1428,1430	O	O
+imidazolium	1431,1442	O	B-Material
+surfactants	1443,1454	O	I-Material
+[	1455,1456	O	O
+26	1456,1458	O	O
+]	1458,1459	O	O
+,	1459,1460	O	O
+and	1461,1464	O	O
+they	1465,1469	O	O
+also	1470,1474	O	O
+find	1475,1479	O	O
+application	1480,1491	O	O
+in	1492,1494	O	O
+polymeric	1495,1504	O	B-Process
+actuators	1505,1514	O	I-Process
+[	1515,1516	O	O
+27	1516,1518	O	O
+]	1518,1519	O	O
+.	1519,1520	O	O
 
 
 -DOCSTART- (S0039602899010493)
 
-Although	0	8	O
-the	9	12	O
-basic	13	18	O
-mechanisms	19	29	O
-of	30	32	O
-the	33	36	O
-AD	37	39	B-Process
-process	40	47	O
-are	48	51	O
-reasonably	52	62	O
-well	63	67	O
-understood	68	78	O
-,	78	79	O
-it	80	82	O
-has	83	86	O
-not	87	90	O
-proved	91	97	O
-simple	98	104	O
-to	105	107	O
-apply	108	113	O
-existing	114	122	O
-theories	123	131	O
-to	132	134	O
-the	135	138	O
-interpretation	139	153	O
-of	154	156	O
-experimental	157	169	O
-data	170	174	O
-.	174	175	O
-
-What	176	180	O
-is	181	183	O
-needed	184	190	O
-is	191	193	O
-a	194	195	O
-combination	196	207	O
-of	208	210	O
-the	211	214	O
-AD	215	217	B-Process
-theory	218	224	O
-and	225	228	O
-the	229	232	O
-electronic	233	243	O
-structure	244	253	O
-of	254	256	O
-realistic	257	266	O
-systems	267	274	O
-,	274	275	O
-including	276	285	O
-surface	286	293	B-Material
-defects	294	301	I-Material
-and	302	305	O
-adsorbed	306	314	B-Material
-species	315	322	I-Material
-.	322	323	O
-
-Such	324	328	O
-electronic	329	339	O
-structure	340	349	O
-calculations	350	362	O
-are	363	366	O
-still	367	372	O
-complex	373	380	O
-and	381	384	O
-time	385	389	O
--	389	390	O
-consuming	390	399	O
-.	399	400	O
-
-In	401	403	O
-many	404	408	O
-cases	409	414	O
-,	414	415	O
-especially	416	426	O
-for	427	430	O
-insulating	431	441	O
-surfaces	442	450	O
-,	450	451	O
-attempts	452	460	O
-to	461	463	O
-model	464	469	O
-MIES	470	474	B-Material
-spectra	475	482	I-Material
-use	483	486	O
-simple	487	493	O
-or	494	496	O
-intuitive	497	506	O
-models	507	513	O
-.	513	514	O
-
-In	515	517	O
-Refs	518	522	O
-.	522	523	O
-
-[	524	525	O
-4,6,23	525	531	O
-]	531	532	O
-it	533	535	O
-is	536	538	O
-assumed	539	546	O
-that	547	551	O
-the	552	555	O
-main	556	560	O
-transition	561	571	O
-mechanism	572	581	O
-is	582	584	O
-Auger	585	590	B-Process
-de	591	593	I-Process
--	593	594	I-Process
-excitation	594	604	I-Process
-,	604	605	O
-and	606	609	O
-the	610	613	O
-MIES	614	618	B-Material
-spectra	619	626	I-Material
-have	627	631	O
-been	632	636	O
-simulated	637	646	O
-by	647	649	O
-the	650	653	O
-surface	654	661	O
-density	662	669	B-Process
-of	670	672	I-Process
-states	673	679	I-Process
-(	680	681	O
-DOS	681	684	B-Process
-)	684	685	O
-projected	686	695	O
-on	696	698	O
-the	699	702	O
-surface	703	710	B-Material
-oxygen	711	717	I-Material
-ions	718	722	I-Material
-of	723	725	O
-the	726	729	O
-uppermost	730	739	O
-surface	740	747	O
-layer	748	753	O
-using	754	759	O
-a	760	761	O
-Hartree	762	769	B-Process
-–	769	770	I-Process
-Fock	770	774	I-Process
-method	775	781	I-Process
-(	782	783	O
-the	783	786	O
-crystal	787	794	B-Process
-code	795	799	I-Process
-[	800	801	O
-24,25	801	806	O
-]	806	807	O
-)	807	808	O
-and	809	812	O
-a	813	814	O
-density	815	822	B-Process
-functional	823	833	I-Process
-theory	834	840	I-Process
-(	841	842	O
-DFT	842	845	B-Process
-)	845	846	O
-method	847	853	O
-(	854	855	O
-the	855	858	O
-cetep	859	864	B-Process
-code	865	869	I-Process
-[	870	871	O
-26	871	873	O
-]	873	874	O
-)	874	875	O
-.	875	876	O
-
-The	877	880	O
-effect	881	887	O
-of	888	890	O
-the	891	894	O
-overlap	895	902	O
-between	903	910	O
-the	911	914	O
-surface	915	922	O
-and	923	926	O
-He(1s	927	932	O
-)	932	933	O
-wavefunctions	934	947	O
-was	948	951	O
-taken	952	957	O
-into	958	962	O
-account	963	970	O
-only	971	975	O
-approximately	976	989	O
-by	990	992	O
-applying	993	1001	O
-an	1002	1004	O
-additional	1005	1015	O
-z	1016	1017	O
--	1017	1018	O
-dependent	1018	1027	O
-exponential	1028	1039	O
-factor	1040	1046	O
-to	1047	1049	O
-the	1050	1053	O
-surface	1054	1061	O
-DOS	1062	1065	B-Process
-.	1065	1066	O
-
-Other	1067	1072	O
-workers	1073	1080	O
-[	1081	1082	O
-5,6	1082	1085	O
-]	1085	1086	O
-estimated	1087	1096	O
-the	1097	1100	O
-AD	1101	1103	B-Process
-transition	1104	1114	I-Process
-probability	1115	1126	O
-using	1127	1132	O
-a	1133	1134	O
-DOS	1135	1138	B-Process
-projected	1139	1148	O
-on	1149	1151	O
-to	1152	1154	O
-the	1155	1158	O
-projectile	1159	1169	O
-1s	1170	1172	O
-atomic	1173	1179	O
-orbital	1180	1187	O
-.	1187	1188	O
-
-However	1189	1196	O
-,	1196	1197	O
-they	1198	1202	O
-were	1203	1207	O
-not	1208	1211	O
-able	1212	1216	O
-to	1217	1219	O
-use	1220	1223	O
-state	1224	1229	O
--	1229	1230	O
-of	1230	1232	O
--	1232	1233	O
-the	1233	1236	O
--	1236	1237	O
-art	1237	1240	O
-methods	1241	1248	O
-for	1249	1252	O
-the	1253	1256	O
-surface	1257	1264	O
-electronic	1265	1275	O
-structure	1276	1285	O
-.	1285	1286	O
-
-Yet	1287	1290	O
-the	1291	1294	O
-success	1295	1302	O
-of	1303	1305	O
-the	1306	1309	O
-simplified	1310	1320	O
-treatments	1321	1331	O
-[	1332	1333	O
-4–6	1333	1336	O
-]	1336	1337	O
-,	1337	1338	O
-especially	1339	1349	O
-for	1350	1353	O
-MIES	1354	1358	B-Material
-features	1359	1367	O
-such	1368	1372	O
-as	1373	1375	O
-relative	1376	1384	O
-energies	1385	1393	O
-of	1394	1396	O
-the	1397	1400	O
-different	1401	1410	O
-peaks	1411	1416	O
-,	1416	1417	O
-suggests	1418	1426	O
-that	1427	1431	O
-real	1432	1436	O
-spectra	1437	1444	O
-are	1445	1448	O
-indeed	1449	1455	O
-related	1456	1463	O
-to	1464	1466	O
-the	1467	1470	O
-projection	1471	1481	O
-of	1482	1484	O
-the	1485	1488	O
-surface	1489	1496	O
-DOS	1497	1500	B-Process
-on	1501	1503	O
-to	1504	1506	O
-the	1507	1510	O
-projectile	1511	1521	O
-orbital	1522	1529	O
-.	1529	1530	O
+Although	0,8	O	O
+the	9,12	O	O
+basic	13,18	O	O
+mechanisms	19,29	O	O
+of	30,32	O	O
+the	33,36	O	O
+AD	37,39	O	B-Process
+process	40,47	O	O
+are	48,51	O	O
+reasonably	52,62	O	O
+well	63,67	O	O
+understood	68,78	O	O
+,	78,79	O	O
+it	80,82	O	O
+has	83,86	O	O
+not	87,90	O	O
+proved	91,97	O	O
+simple	98,104	O	O
+to	105,107	O	O
+apply	108,113	O	O
+existing	114,122	O	O
+theories	123,131	O	O
+to	132,134	O	O
+the	135,138	O	O
+interpretation	139,153	O	O
+of	154,156	O	O
+experimental	157,169	O	O
+data	170,174	O	O
+.	174,175	O	O
+
+What	176,180	O	O
+is	181,183	O	O
+needed	184,190	O	O
+is	191,193	O	O
+a	194,195	O	O
+combination	196,207	O	O
+of	208,210	O	O
+the	211,214	O	O
+AD	215,217	O	B-Process
+theory	218,224	O	O
+and	225,228	O	O
+the	229,232	O	O
+electronic	233,243	O	O
+structure	244,253	O	O
+of	254,256	O	O
+realistic	257,266	O	O
+systems	267,274	O	O
+,	274,275	O	O
+including	276,285	O	O
+surface	286,293	O	B-Material
+defects	294,301	O	I-Material
+and	302,305	O	O
+adsorbed	306,314	O	B-Material
+species	315,322	O	I-Material
+.	322,323	O	O
+
+Such	324,328	O	O
+electronic	329,339	O	O
+structure	340,349	O	O
+calculations	350,362	O	O
+are	363,366	O	O
+still	367,372	O	O
+complex	373,380	O	O
+and	381,384	O	O
+time	385,389	O	O
+-	389,390	O	O
+consuming	390,399	O	O
+.	399,400	O	O
+
+In	401,403	O	O
+many	404,408	O	O
+cases	409,414	O	O
+,	414,415	O	O
+especially	416,426	O	O
+for	427,430	O	O
+insulating	431,441	O	O
+surfaces	442,450	O	O
+,	450,451	O	O
+attempts	452,460	O	O
+to	461,463	O	O
+model	464,469	O	O
+MIES	470,474	O	B-Material
+spectra	475,482	O	I-Material
+use	483,486	O	O
+simple	487,493	O	O
+or	494,496	O	O
+intuitive	497,506	O	O
+models	507,513	O	O
+.	513,514	O	O
+
+In	515,517	O	O
+Refs	518,522	O	O
+.	522,523	O	O
+
+[	524,525	O	O
+4,6,23	525,531	O	O
+]	531,532	O	O
+it	533,535	O	O
+is	536,538	O	O
+assumed	539,546	O	O
+that	547,551	O	O
+the	552,555	O	O
+main	556,560	O	O
+transition	561,571	O	O
+mechanism	572,581	O	O
+is	582,584	O	O
+Auger	585,590	O	B-Process
+de	591,593	O	I-Process
+-	593,594	O	I-Process
+excitation	594,604	O	I-Process
+,	604,605	O	O
+and	606,609	O	O
+the	610,613	O	O
+MIES	614,618	O	B-Material
+spectra	619,626	O	I-Material
+have	627,631	O	O
+been	632,636	O	O
+simulated	637,646	O	O
+by	647,649	O	O
+the	650,653	O	O
+surface	654,661	O	O
+density	662,669	O	B-Process
+of	670,672	O	I-Process
+states	673,679	O	I-Process
+(	680,681	O	O
+DOS	681,684	O	B-Process
+)	684,685	O	O
+projected	686,695	O	O
+on	696,698	O	O
+the	699,702	O	O
+surface	703,710	O	B-Material
+oxygen	711,717	O	I-Material
+ions	718,722	O	I-Material
+of	723,725	O	O
+the	726,729	O	O
+uppermost	730,739	O	O
+surface	740,747	O	O
+layer	748,753	O	O
+using	754,759	O	O
+a	760,761	O	O
+Hartree	762,769	O	B-Process
+–	769,770	O	I-Process
+Fock	770,774	O	I-Process
+method	775,781	O	I-Process
+(	782,783	O	O
+the	783,786	O	O
+crystal	787,794	O	B-Process
+code	795,799	O	I-Process
+[	800,801	O	O
+24,25	801,806	O	O
+]	806,807	O	O
+)	807,808	O	O
+and	809,812	O	O
+a	813,814	O	O
+density	815,822	O	B-Process
+functional	823,833	O	I-Process
+theory	834,840	O	I-Process
+(	841,842	O	O
+DFT	842,845	O	B-Process
+)	845,846	O	O
+method	847,853	O	O
+(	854,855	O	O
+the	855,858	O	O
+cetep	859,864	O	B-Process
+code	865,869	O	I-Process
+[	870,871	O	O
+26	871,873	O	O
+]	873,874	O	O
+)	874,875	O	O
+.	875,876	O	O
+
+The	877,880	O	O
+effect	881,887	O	O
+of	888,890	O	O
+the	891,894	O	O
+overlap	895,902	O	O
+between	903,910	O	O
+the	911,914	O	O
+surface	915,922	O	O
+and	923,926	O	O
+He(1s	927,932	O	O
+)	932,933	O	O
+wavefunctions	934,947	O	O
+was	948,951	O	O
+taken	952,957	O	O
+into	958,962	O	O
+account	963,970	O	O
+only	971,975	O	O
+approximately	976,989	O	O
+by	990,992	O	O
+applying	993,1001	O	O
+an	1002,1004	O	O
+additional	1005,1015	O	O
+z	1016,1017	O	O
+-	1017,1018	O	O
+dependent	1018,1027	O	O
+exponential	1028,1039	O	O
+factor	1040,1046	O	O
+to	1047,1049	O	O
+the	1050,1053	O	O
+surface	1054,1061	O	O
+DOS	1062,1065	O	B-Process
+.	1065,1066	O	O
+
+Other	1067,1072	O	O
+workers	1073,1080	O	O
+[	1081,1082	O	O
+5,6	1082,1085	O	O
+]	1085,1086	O	O
+estimated	1087,1096	O	O
+the	1097,1100	O	O
+AD	1101,1103	O	B-Process
+transition	1104,1114	O	I-Process
+probability	1115,1126	O	O
+using	1127,1132	O	O
+a	1133,1134	O	O
+DOS	1135,1138	O	B-Process
+projected	1139,1148	O	O
+on	1149,1151	O	O
+to	1152,1154	O	O
+the	1155,1158	O	O
+projectile	1159,1169	O	O
+1s	1170,1172	O	O
+atomic	1173,1179	O	O
+orbital	1180,1187	O	O
+.	1187,1188	O	O
+
+However	1189,1196	O	O
+,	1196,1197	O	O
+they	1198,1202	O	O
+were	1203,1207	O	O
+not	1208,1211	O	O
+able	1212,1216	O	O
+to	1217,1219	O	O
+use	1220,1223	O	O
+state	1224,1229	O	O
+-	1229,1230	O	O
+of	1230,1232	O	O
+-	1232,1233	O	O
+the	1233,1236	O	O
+-	1236,1237	O	O
+art	1237,1240	O	O
+methods	1241,1248	O	O
+for	1249,1252	O	O
+the	1253,1256	O	O
+surface	1257,1264	O	O
+electronic	1265,1275	O	O
+structure	1276,1285	O	O
+.	1285,1286	O	O
+
+Yet	1287,1290	O	O
+the	1291,1294	O	O
+success	1295,1302	O	O
+of	1303,1305	O	O
+the	1306,1309	O	O
+simplified	1310,1320	O	O
+treatments	1321,1331	O	O
+[	1332,1333	O	O
+4–6	1333,1336	O	O
+]	1336,1337	O	O
+,	1337,1338	O	O
+especially	1339,1349	O	O
+for	1350,1353	O	O
+MIES	1354,1358	O	B-Material
+features	1359,1367	O	O
+such	1368,1372	O	O
+as	1373,1375	O	O
+relative	1376,1384	O	O
+energies	1385,1393	O	O
+of	1394,1396	O	O
+the	1397,1400	O	O
+different	1401,1410	O	O
+peaks	1411,1416	O	O
+,	1416,1417	O	O
+suggests	1418,1426	O	O
+that	1427,1431	O	O
+real	1432,1436	O	O
+spectra	1437,1444	O	O
+are	1445,1448	O	O
+indeed	1449,1455	O	O
+related	1456,1463	O	O
+to	1464,1466	O	O
+the	1467,1470	O	O
+projection	1471,1481	O	O
+of	1482,1484	O	O
+the	1485,1488	O	O
+surface	1489,1496	O	O
+DOS	1497,1500	O	B-Process
+on	1501,1503	O	O
+to	1504,1506	O	O
+the	1507,1510	O	O
+projectile	1511,1521	O	O
+orbital	1522,1529	O	O
+.	1529,1530	O	O
 
 
 -DOCSTART- (S0098300413002124)
 
-In	0	2	O
-this	3	7	O
-section	8	15	O
-,	15	16	O
-we	17	19	O
-use	20	23	O
-the	24	27	O
-terrain	28	35	B-Process
-data	36	40	I-Process
-processing	41	51	I-Process
-as	52	54	O
-an	55	57	O
-example	58	65	O
-to	66	68	O
-describe	69	77	B-Task
-the	78	81	I-Task
-geodetic	82	90	I-Task
-data	91	95	I-Task
-transformation	96	110	I-Task
-method	111	117	I-Task
-.	117	118	O
-
-Since	119	124	O
-Google	125	131	O
-Maps	132	136	O
-/	136	137	O
-Earth	137	142	O
-server	143	149	O
-only	150	154	O
-gives	155	160	O
-the	161	164	O
-terrain	165	172	O
-data	173	177	O
-in	178	180	O
-graphical	181	190	O
-display	191	198	O
-,	198	199	O
-we	200	202	O
-have	203	207	O
-to	208	210	O
-get	211	214	O
-terrain	215	222	B-Material
-digital	223	230	I-Material
-data	231	235	I-Material
-from	236	240	O
-other	241	246	O
-sources	247	254	O
-.	254	255	O
-
-The	256	259	O
-fine	260	264	B-Process
--	264	265	I-Process
-resolution	265	275	I-Process
-(	276	277	I-Process
-3″	277	279	I-Process
-or	280	282	I-Process
-finer	283	288	I-Process
-)	288	289	I-Process
-terrain	290	297	I-Process
-data	298	302	I-Process
-bases	303	308	I-Process
-such	309	313	O
-as	314	316	O
-SRTM	317	321	B-Process
-(	322	323	O
-Shuttle	323	330	B-Process
-Radar	331	336	I-Process
-Topographical	337	350	I-Process
-Mission	351	358	I-Process
-)	358	359	O
-or	360	362	O
-USGS	363	367	O
-'s	367	369	O
-DEM	370	373	B-Process
-(	374	375	O
-Digital	375	382	B-Process
-Elevation	383	392	I-Process
-Model	393	398	I-Process
-)	398	399	O
-data	400	404	O
-are	405	408	O
-necessary	409	418	O
-.	418	419	O
-
-Moreover	420	428	O
-,	428	429	O
-since	430	435	O
-3DWF	436	440	O
-is	441	443	O
-used	444	448	O
-to	449	451	O
-model	452	457	O
-the	458	461	O
-fine	462	466	B-Process
--	466	467	I-Process
-scale	467	472	I-Process
-(	473	474	I-Process
-meters	474	480	I-Process
-up	481	483	I-Process
-to	484	486	I-Process
-100	487	490	I-Process
-m	490	491	I-Process
-)	491	492	I-Process
-atmospheric	493	504	I-Process
-flow	505	509	I-Process
-,	509	510	O
-it	511	513	O
-needs	514	519	O
-fine	520	524	O
-resolution	525	535	O
-terrain	536	543	O
-data	544	548	O
-.	548	549	O
-
-In	550	552	O
-this	553	557	O
-project	558	565	O
-,	565	566	O
-we	567	569	O
-use	570	573	O
-the	574	577	O
-terrain	578	585	O
-elevation	586	595	O
-data	596	600	O
-set	601	604	O
-from	605	609	O
-SRTM	610	614	B-Process
-(	615	616	O
-Farr	616	620	O
-et	621	623	O
-al	624	626	O
-.	626	627	O
-
-2007	628	632	O
-)	632	633	O
-with	634	638	O
-3-arcsecond	639	650	O
-(	651	652	O
-~90	652	655	O
-m	655	656	O
-resolution	657	667	O
-at	668	670	O
-the	671	674	O
-equator	675	682	O
-)	682	683	O
-resolution	684	694	O
-.	694	695	O
-
-The	696	699	O
-data	700	704	O
-covers	705	711	O
-the	712	715	O
-land	716	720	O
-area	721	725	O
-,	725	726	O
-nearly	727	733	O
-global	734	740	O
-from	741	745	O
-56S	746	749	O
-to	750	752	O
-60N	753	756	O
-latitudes	757	766	O
-.	766	767	O
-
-We	768	770	O
-use	771	774	O
-the	775	778	O
-processed	779	788	O
-version	789	796	O
-4	797	798	O
-SRTM	799	803	B-Process
-data	804	808	O
-set	809	812	O
-as	813	815	O
-described	816	825	O
-in	826	828	O
-Gamache	829	836	O
-(	837	838	O
-2005	838	842	O
-)	842	843	O
-in	844	846	O
-which	847	852	O
-some	853	857	O
-of	858	860	O
-the	861	864	O
-missing	865	872	O
-data	873	877	O
-holes	878	883	O
-were	884	888	O
-filled	889	895	O
-.	895	896	O
-
-The	897	900	O
-original	901	909	O
-data	910	914	O
-is	915	917	O
-organized	918	927	O
-in	928	930	O
-WGS84	931	936	B-Material
-(	937	938	O
-World	938	943	B-Material
-Geodetic	944	952	I-Material
-System	953	959	I-Material
-84	960	962	I-Material
-)	962	963	O
-
-geodetic	964	972	O
-coordinate	973	983	O
-system	984	990	O
-.	990	991	O
-
-When	992	996	O
-the	997	1000	O
-data	1001	1005	O
-are	1006	1009	O
-applied	1010	1017	O
-to	1018	1020	O
-the	1021	1024	O
-3DWF	1025	1029	B-Process
-model	1030	1035	O
-,	1035	1036	O
-they	1037	1041	O
-are	1042	1045	O
-transformed	1046	1057	O
-to	1058	1060	O
-the	1061	1064	O
-local	1065	1070	O
-East	1071	1075	B-Material
-,	1075	1076	I-Material
-North	1077	1082	I-Material
-and	1083	1086	I-Material
-Up	1087	1089	I-Material
-(	1090	1091	O
-ENU	1091	1094	B-Material
-)	1094	1095	O
-coordinate	1096	1106	O
-(	1107	1108	O
-see	1108	1111	O
-Fig	1112	1115	O
-.	1115	1116	O
-
-3	1117	1118	O
-)	1118	1119	O
-.	1119	1120	O
-
-Since	1121	1126	O
-the	1127	1130	O
-3DWF	1131	1135	B-Process
-is	1136	1138	O
-a	1139	1140	O
-fine	1141	1145	O
-scale	1146	1151	O
-wind	1152	1156	O
-model	1157	1162	O
-and	1163	1166	O
-its	1167	1170	O
-entire	1171	1177	O
-model	1178	1183	O
-domain	1184	1190	O
-is	1191	1193	O
-not	1194	1197	O
-intended	1198	1206	O
-to	1207	1209	O
-be	1210	1212	O
-larger	1213	1219	O
-than	1220	1224	O
-20×20	1225	1230	O
-km	1230	1232	O
-,	1232	1233	O
-this	1234	1238	O
-Cartesian	1239	1248	B-Material
-coordinate	1249	1259	I-Material
-system	1260	1266	I-Material
-is	1267	1269	O
-a	1270	1271	O
-good	1272	1276	O
-choice	1277	1283	O
-with	1284	1288	O
-very	1289	1293	O
-little	1294	1300	O
-distortion	1301	1311	O
-due	1312	1315	O
-to	1316	1318	O
-the	1319	1322	O
-curvature	1323	1332	O
-of	1333	1335	O
-the	1336	1339	O
-Earth	1340	1345	O
-'s	1345	1347	O
-surface	1348	1355	O
-.	1355	1356	O
-
-The	1357	1360	O
-transformation	1361	1375	O
-from	1376	1380	O
-the	1381	1384	O
-WGS84	1385	1390	O
-data	1391	1395	O
-to	1396	1398	O
-the	1399	1402	O
-ENU	1403	1406	O
-coordinate	1407	1417	O
-is	1418	1420	O
-performed	1421	1430	O
-as	1431	1433	O
-follows	1434	1441	O
-(	1442	1443	O
-Fukushima	1443	1452	O
-,	1452	1453	O
-2006	1454	1458	O
-;	1458	1459	O
-Featherstone	1460	1472	O
-and	1473	1476	O
-Claessens	1477	1486	O
-,	1486	1487	O
-2008	1488	1492	O
-)	1492	1493	O
-.	1493	1494	O
+In	0,2	O	O
+this	3,7	O	O
+section	8,15	O	O
+,	15,16	O	O
+we	17,19	O	O
+use	20,23	O	O
+the	24,27	O	O
+terrain	28,35	O	B-Process
+data	36,40	O	I-Process
+processing	41,51	O	I-Process
+as	52,54	O	O
+an	55,57	O	O
+example	58,65	O	O
+to	66,68	O	O
+describe	69,77	O	B-Task
+the	78,81	O	I-Task
+geodetic	82,90	O	I-Task
+data	91,95	O	I-Task
+transformation	96,110	O	I-Task
+method	111,117	O	I-Task
+.	117,118	O	O
+
+Since	119,124	O	O
+Google	125,131	O	O
+Maps	132,136	O	O
+/	136,137	O	O
+Earth	137,142	O	O
+server	143,149	O	O
+only	150,154	O	O
+gives	155,160	O	O
+the	161,164	O	O
+terrain	165,172	O	O
+data	173,177	O	O
+in	178,180	O	O
+graphical	181,190	O	O
+display	191,198	O	O
+,	198,199	O	O
+we	200,202	O	O
+have	203,207	O	O
+to	208,210	O	O
+get	211,214	O	O
+terrain	215,222	O	B-Material
+digital	223,230	O	I-Material
+data	231,235	O	I-Material
+from	236,240	O	O
+other	241,246	O	O
+sources	247,254	O	O
+.	254,255	O	O
+
+The	256,259	O	O
+fine	260,264	O	B-Process
+-	264,265	O	I-Process
+resolution	265,275	O	I-Process
+(	276,277	O	I-Process
+3″	277,279	O	I-Process
+or	280,282	O	I-Process
+finer	283,288	O	I-Process
+)	288,289	O	I-Process
+terrain	290,297	O	I-Process
+data	298,302	O	I-Process
+bases	303,308	O	I-Process
+such	309,313	O	O
+as	314,316	O	O
+SRTM	317,321	O	B-Process
+(	322,323	O	O
+Shuttle	323,330	O	B-Process
+Radar	331,336	O	I-Process
+Topographical	337,350	O	I-Process
+Mission	351,358	O	I-Process
+)	358,359	O	O
+or	360,362	O	O
+USGS	363,367	O	O
+'s	367,369	O	O
+DEM	370,373	O	B-Process
+(	374,375	O	O
+Digital	375,382	O	B-Process
+Elevation	383,392	O	I-Process
+Model	393,398	O	I-Process
+)	398,399	O	O
+data	400,404	O	O
+are	405,408	O	O
+necessary	409,418	O	O
+.	418,419	O	O
+
+Moreover	420,428	O	O
+,	428,429	O	O
+since	430,435	O	O
+3DWF	436,440	O	O
+is	441,443	O	O
+used	444,448	O	O
+to	449,451	O	O
+model	452,457	O	O
+the	458,461	O	O
+fine	462,466	O	B-Process
+-	466,467	O	I-Process
+scale	467,472	O	I-Process
+(	473,474	O	I-Process
+meters	474,480	O	I-Process
+up	481,483	O	I-Process
+to	484,486	O	I-Process
+100	487,490	O	I-Process
+m	490,491	O	I-Process
+)	491,492	O	I-Process
+atmospheric	493,504	O	I-Process
+flow	505,509	O	I-Process
+,	509,510	O	O
+it	511,513	O	O
+needs	514,519	O	O
+fine	520,524	O	O
+resolution	525,535	O	O
+terrain	536,543	O	O
+data	544,548	O	O
+.	548,549	O	O
+
+In	550,552	O	O
+this	553,557	O	O
+project	558,565	O	O
+,	565,566	O	O
+we	567,569	O	O
+use	570,573	O	O
+the	574,577	O	O
+terrain	578,585	O	O
+elevation	586,595	O	O
+data	596,600	O	O
+set	601,604	O	O
+from	605,609	O	O
+SRTM	610,614	O	B-Process
+(	615,616	O	O
+Farr	616,620	O	O
+et	621,623	O	O
+al	624,626	O	O
+.	626,627	O	O
+
+2007	628,632	O	O
+)	632,633	O	O
+with	634,638	O	O
+3-arcsecond	639,650	O	O
+(	651,652	O	O
+~90	652,655	O	O
+m	655,656	O	O
+resolution	657,667	O	O
+at	668,670	O	O
+the	671,674	O	O
+equator	675,682	O	O
+)	682,683	O	O
+resolution	684,694	O	O
+.	694,695	O	O
+
+The	696,699	O	O
+data	700,704	O	O
+covers	705,711	O	O
+the	712,715	O	O
+land	716,720	O	O
+area	721,725	O	O
+,	725,726	O	O
+nearly	727,733	O	O
+global	734,740	O	O
+from	741,745	O	O
+56S	746,749	O	O
+to	750,752	O	O
+60N	753,756	O	O
+latitudes	757,766	O	O
+.	766,767	O	O
+
+We	768,770	O	O
+use	771,774	O	O
+the	775,778	O	O
+processed	779,788	O	O
+version	789,796	O	O
+4	797,798	O	O
+SRTM	799,803	O	B-Process
+data	804,808	O	O
+set	809,812	O	O
+as	813,815	O	O
+described	816,825	O	O
+in	826,828	O	O
+Gamache	829,836	O	O
+(	837,838	O	O
+2005	838,842	O	O
+)	842,843	O	O
+in	844,846	O	O
+which	847,852	O	O
+some	853,857	O	O
+of	858,860	O	O
+the	861,864	O	O
+missing	865,872	O	O
+data	873,877	O	O
+holes	878,883	O	O
+were	884,888	O	O
+filled	889,895	O	O
+.	895,896	O	O
+
+The	897,900	O	O
+original	901,909	O	O
+data	910,914	O	O
+is	915,917	O	O
+organized	918,927	O	O
+in	928,930	O	O
+WGS84	931,936	O	B-Material
+(	937,938	O	O
+World	938,943	O	B-Material
+Geodetic	944,952	O	I-Material
+System	953,959	O	I-Material
+84	960,962	O	I-Material
+)	962,963	O	O
+
+geodetic	964,972	O	O
+coordinate	973,983	O	O
+system	984,990	O	O
+.	990,991	O	O
+
+When	992,996	O	O
+the	997,1000	O	O
+data	1001,1005	O	O
+are	1006,1009	O	O
+applied	1010,1017	O	O
+to	1018,1020	O	O
+the	1021,1024	O	O
+3DWF	1025,1029	O	B-Process
+model	1030,1035	O	O
+,	1035,1036	O	O
+they	1037,1041	O	O
+are	1042,1045	O	O
+transformed	1046,1057	O	O
+to	1058,1060	O	O
+the	1061,1064	O	O
+local	1065,1070	O	O
+East	1071,1075	O	B-Material
+,	1075,1076	O	I-Material
+North	1077,1082	O	I-Material
+and	1083,1086	O	I-Material
+Up	1087,1089	O	I-Material
+(	1090,1091	O	O
+ENU	1091,1094	O	B-Material
+)	1094,1095	O	O
+coordinate	1096,1106	O	O
+(	1107,1108	O	O
+see	1108,1111	O	O
+Fig	1112,1115	O	O
+.	1115,1116	O	O
+
+3	1117,1118	O	O
+)	1118,1119	O	O
+.	1119,1120	O	O
+
+Since	1121,1126	O	O
+the	1127,1130	O	O
+3DWF	1131,1135	O	B-Process
+is	1136,1138	O	O
+a	1139,1140	O	O
+fine	1141,1145	O	O
+scale	1146,1151	O	O
+wind	1152,1156	O	O
+model	1157,1162	O	O
+and	1163,1166	O	O
+its	1167,1170	O	O
+entire	1171,1177	O	O
+model	1178,1183	O	O
+domain	1184,1190	O	O
+is	1191,1193	O	O
+not	1194,1197	O	O
+intended	1198,1206	O	O
+to	1207,1209	O	O
+be	1210,1212	O	O
+larger	1213,1219	O	O
+than	1220,1224	O	O
+20×20	1225,1230	O	O
+km	1230,1232	O	O
+,	1232,1233	O	O
+this	1234,1238	O	O
+Cartesian	1239,1248	O	B-Material
+coordinate	1249,1259	O	I-Material
+system	1260,1266	O	I-Material
+is	1267,1269	O	O
+a	1270,1271	O	O
+good	1272,1276	O	O
+choice	1277,1283	O	O
+with	1284,1288	O	O
+very	1289,1293	O	O
+little	1294,1300	O	O
+distortion	1301,1311	O	O
+due	1312,1315	O	O
+to	1316,1318	O	O
+the	1319,1322	O	O
+curvature	1323,1332	O	O
+of	1333,1335	O	O
+the	1336,1339	O	O
+Earth	1340,1345	O	O
+'s	1345,1347	O	O
+surface	1348,1355	O	O
+.	1355,1356	O	O
+
+The	1357,1360	O	O
+transformation	1361,1375	O	O
+from	1376,1380	O	O
+the	1381,1384	O	O
+WGS84	1385,1390	O	O
+data	1391,1395	O	O
+to	1396,1398	O	O
+the	1399,1402	O	O
+ENU	1403,1406	O	O
+coordinate	1407,1417	O	O
+is	1418,1420	O	O
+performed	1421,1430	O	O
+as	1431,1433	O	O
+follows	1434,1441	O	O
+(	1442,1443	O	O
+Fukushima	1443,1452	O	O
+,	1452,1453	O	O
+2006	1454,1458	O	O
+;	1458,1459	O	O
+Featherstone	1460,1472	O	O
+and	1473,1476	O	O
+Claessens	1477,1486	O	O
+,	1486,1487	O	O
+2008	1488,1492	O	O
+)	1492,1493	O	O
+.	1493,1494	O	O
 
 
 -DOCSTART- (S0098300414000259)
 
-Apache	0	6	B-Process
-Pig	7	10	I-Process
-is	11	13	O
-a	14	15	O
-platform	16	24	O
-for	25	28	O
-creating	29	37	O
-MapReduce	38	47	B-Process
-workflows	48	57	I-Process
-with	58	62	O
-Hadoop	63	69	B-Material
-.	69	70	O
-
-These	71	76	O
-workflows	77	86	O
-are	87	90	O
-expressed	91	100	O
-as	101	103	O
-directed	104	112	B-Material
-acyclic	113	120	I-Material
-graphs	121	127	I-Material
-(	128	129	O
-DAGs	129	133	B-Material
-)	133	134	O
-of	135	137	O
-tasks	138	143	O
-that	144	148	O
-exist	149	154	O
-at	155	157	O
-a	158	159	O
-conceptually	160	172	O
-higher	173	179	O
-level	180	185	O
-than	186	190	O
-their	191	196	O
-implementations	197	212	O
-as	213	215	O
-series	216	222	O
-of	223	225	O
-MapReduce	226	235	B-Process
-jobs	236	240	O
-.	240	241	O
-
-Pig	242	245	B-Process
-Latin	246	251	I-Process
-is	252	254	O
-the	255	258	O
-procedural	259	269	O
-language	270	278	O
-used	279	283	O
-for	284	287	O
-building	288	296	O
-these	297	302	O
-workflows	303	312	O
-,	312	313	O
-providing	314	323	O
-syntax	324	330	O
-similar	331	338	O
-to	339	341	O
-the	342	345	O
-declarative	346	357	O
-SQL	358	361	B-Process
-commonly	362	370	O
-used	371	375	O
-for	376	379	O
-relational	380	390	O
-database	391	399	O
-systems	400	407	O
-.	407	408	O
-
-In	409	411	O
-addition	412	420	O
-to	421	423	O
-standard	424	432	O
-SQL	433	436	B-Process
-operations	437	447	I-Process
-,	447	448	O
-Pig	449	452	B-Process
-can	453	456	O
-be	457	459	O
-extended	460	468	O
-with	469	473	O
-user	474	478	B-Process
--	478	479	I-Process
-defined	479	486	I-Process
-functions	487	496	I-Process
-(	497	498	O
-UDFs	498	502	B-Process
-)	502	503	O
-commonly	504	512	O
-written	513	520	O
-in	521	523	O
-Java	524	528	O
-.	528	529	O
-
-We	530	532	O
-adopted	533	540	O
-Pig	541	544	B-Process
-for	545	548	O
-our	549	552	O
-implementation	553	567	O
-of	568	570	O
-the	571	574	O
-correlator	575	585	O
-to	586	588	O
-speed	589	594	O
-up	595	597	O
-development	598	609	O
-time	610	614	O
-,	614	615	O
-allow	616	621	O
-for	622	625	O
-ad	626	628	O
-hoc	629	632	O
-workflow	633	641	O
-changes	642	649	O
-,	649	650	O
-and	651	654	O
-to	655	657	O
-embrace	658	665	O
-the	666	669	O
-Hadoop	670	676	B-Material
-community׳s	677	688	O
-migration	689	698	O
-away	699	703	O
-from	704	708	O
-MapReduce	709	718	B-Process
-towards	719	726	O
-more	727	731	O
-generalized	732	743	O
-DAG	744	747	B-Task
-processing	748	758	I-Task
-(	759	760	O
-Mayer	760	765	O
-,	765	766	O
-2013	767	771	O
-)	771	772	O
-.	772	773	O
-
-Specifically	774	786	O
-,	786	787	O
-in	788	790	O
-the	791	794	O
-event	795	800	O
-that	801	805	O
-future	806	812	O
-versions	813	821	O
-of	822	824	O
-Hadoop	825	831	B-Material
-are	832	835	O
-optimized	836	845	O
-to	846	848	O
-support	849	856	O
-paradigms	857	866	O
-other	867	872	O
-than	873	877	O
-MapReduce	878	887	B-Process
-,	887	888	O
-Pig	889	892	B-Material
-scripts	893	900	I-Material
-could	901	906	O
-take	907	911	O
-advantage	912	921	O
-of	922	924	O
-these	925	930	O
-advances	931	939	O
-without	940	947	O
-recoding	948	956	O
-,	956	957	O
-whereas	958	965	O
-explicit	966	974	O
-Java	975	979	B-Process
-MapReduce	980	989	I-Process
-jobs	990	994	O
-would	995	1000	O
-need	1001	1005	O
-to	1006	1008	O
-be	1009	1011	O
-rewritten	1012	1021	O
-.	1021	1022	O
+Apache	0,6	O	B-Process
+Pig	7,10	O	I-Process
+is	11,13	O	O
+a	14,15	O	O
+platform	16,24	O	O
+for	25,28	O	O
+creating	29,37	O	O
+MapReduce	38,47	O	B-Process
+workflows	48,57	O	I-Process
+with	58,62	O	O
+Hadoop	63,69	O	B-Material
+.	69,70	O	O
+
+These	71,76	O	O
+workflows	77,86	O	O
+are	87,90	O	O
+expressed	91,100	O	O
+as	101,103	O	O
+directed	104,112	O	B-Material
+acyclic	113,120	O	I-Material
+graphs	121,127	O	I-Material
+(	128,129	O	O
+DAGs	129,133	O	B-Material
+)	133,134	O	O
+of	135,137	O	O
+tasks	138,143	O	O
+that	144,148	O	O
+exist	149,154	O	O
+at	155,157	O	O
+a	158,159	O	O
+conceptually	160,172	O	O
+higher	173,179	O	O
+level	180,185	O	O
+than	186,190	O	O
+their	191,196	O	O
+implementations	197,212	O	O
+as	213,215	O	O
+series	216,222	O	O
+of	223,225	O	O
+MapReduce	226,235	O	B-Process
+jobs	236,240	O	O
+.	240,241	O	O
+
+Pig	242,245	O	B-Process
+Latin	246,251	O	I-Process
+is	252,254	O	O
+the	255,258	O	O
+procedural	259,269	O	O
+language	270,278	O	O
+used	279,283	O	O
+for	284,287	O	O
+building	288,296	O	O
+these	297,302	O	O
+workflows	303,312	O	O
+,	312,313	O	O
+providing	314,323	O	O
+syntax	324,330	O	O
+similar	331,338	O	O
+to	339,341	O	O
+the	342,345	O	O
+declarative	346,357	O	O
+SQL	358,361	O	B-Process
+commonly	362,370	O	O
+used	371,375	O	O
+for	376,379	O	O
+relational	380,390	O	O
+database	391,399	O	O
+systems	400,407	O	O
+.	407,408	O	O
+
+In	409,411	O	O
+addition	412,420	O	O
+to	421,423	O	O
+standard	424,432	O	O
+SQL	433,436	O	B-Process
+operations	437,447	O	I-Process
+,	447,448	O	O
+Pig	449,452	O	B-Process
+can	453,456	O	O
+be	457,459	O	O
+extended	460,468	O	O
+with	469,473	O	O
+user	474,478	O	B-Process
+-	478,479	O	I-Process
+defined	479,486	O	I-Process
+functions	487,496	O	I-Process
+(	497,498	O	O
+UDFs	498,502	O	B-Process
+)	502,503	O	O
+commonly	504,512	O	O
+written	513,520	O	O
+in	521,523	O	O
+Java	524,528	O	O
+.	528,529	O	O
+
+We	530,532	O	O
+adopted	533,540	O	O
+Pig	541,544	O	B-Process
+for	545,548	O	O
+our	549,552	O	O
+implementation	553,567	O	O
+of	568,570	O	O
+the	571,574	O	O
+correlator	575,585	O	O
+to	586,588	O	O
+speed	589,594	O	O
+up	595,597	O	O
+development	598,609	O	O
+time	610,614	O	O
+,	614,615	O	O
+allow	616,621	O	O
+for	622,625	O	O
+ad	626,628	O	O
+hoc	629,632	O	O
+workflow	633,641	O	O
+changes	642,649	O	O
+,	649,650	O	O
+and	651,654	O	O
+to	655,657	O	O
+embrace	658,665	O	O
+the	666,669	O	O
+Hadoop	670,676	O	B-Material
+community׳s	677,688	O	O
+migration	689,698	O	O
+away	699,703	O	O
+from	704,708	O	O
+MapReduce	709,718	O	B-Process
+towards	719,726	O	O
+more	727,731	O	O
+generalized	732,743	O	O
+DAG	744,747	O	B-Task
+processing	748,758	O	I-Task
+(	759,760	O	O
+Mayer	760,765	O	O
+,	765,766	O	O
+2013	767,771	O	O
+)	771,772	O	O
+.	772,773	O	O
+
+Specifically	774,786	O	O
+,	786,787	O	O
+in	788,790	O	O
+the	791,794	O	O
+event	795,800	O	O
+that	801,805	O	O
+future	806,812	O	O
+versions	813,821	O	O
+of	822,824	O	O
+Hadoop	825,831	O	B-Material
+are	832,835	O	O
+optimized	836,845	O	O
+to	846,848	O	O
+support	849,856	O	O
+paradigms	857,866	O	O
+other	867,872	O	O
+than	873,877	O	O
+MapReduce	878,887	O	B-Process
+,	887,888	O	O
+Pig	889,892	O	B-Material
+scripts	893,900	O	I-Material
+could	901,906	O	O
+take	907,911	O	O
+advantage	912,921	O	O
+of	922,924	O	O
+these	925,930	O	O
+advances	931,939	O	O
+without	940,947	O	O
+recoding	948,956	O	O
+,	956,957	O	O
+whereas	958,965	O	O
+explicit	966,974	O	O
+Java	975,979	O	B-Process
+MapReduce	980,989	O	I-Process
+jobs	990,994	O	O
+would	995,1000	O	O
+need	1001,1005	O	O
+to	1006,1008	O	O
+be	1009,1011	O	O
+rewritten	1012,1021	O	O
+.	1021,1022	O	O
 
 
 -DOCSTART- (S0098300414002532)
 
-The	0	3	B-Task
-threshold	4	13	I-Task
-values	14	20	I-Task
-for	21	24	I-Task
-removing	25	33	I-Task
-large	34	39	I-Task
-caters	40	46	I-Task
-were	47	51	I-Task
-determined	52	62	I-Task
-by	63	65	O
-examining	66	75	O
-the	76	79	O
-craters	80	87	O
-within	88	94	O
-the	95	98	O
-study	99	104	O
-area	105	109	O
-,	109	110	O
-referencing	111	122	O
-previous	123	131	O
-studies	132	139	O
-(	140	141	O
-Molloy	141	147	O
-and	148	151	O
-Stepinski	152	161	O
-,	161	162	O
-2007	163	167	O
-)	167	168	O
-,	168	169	O
-and	170	173	O
-some	174	178	O
-trial	179	184	O
-and	185	188	O
-error	189	194	O
-.	194	195	O
-
-After	196	201	O
-the	202	205	O
-parameter	206	215	O
-values	216	222	O
-are	223	226	O
-determined	227	237	O
-,	237	238	O
-the	239	242	O
-rest	243	247	O
-of	248	250	O
-the	251	254	O
-process	255	262	O
-is	263	265	O
-automated	266	275	O
-.	275	276	O
-
-However	277	284	O
-,	284	285	O
-we	286	288	O
-do	289	291	O
-anticipate	292	302	O
-some	303	307	O
-minimum	308	315	O
-manual	316	322	B-Process
-editing	323	330	I-Process
-may	331	334	O
-be	335	337	O
-needed	338	344	O
-in	345	347	O
-some	348	352	O
-complicated	353	364	O
-terrains	365	373	O
-when	374	378	O
-apply	379	384	O
-it	385	387	O
-to	388	390	O
-all	391	394	O
-of	395	397	O
-Mars	398	402	O
-.	402	403	O
-
-To	404	406	O
-minimize	407	415	O
-the	416	419	O
-distortion	420	430	O
-resulted	431	439	O
-from	440	444	O
-map	445	448	O
-projection	449	459	O
-on	460	462	O
-global	463	469	O
-datasets	470	478	O
-,	478	479	O
-we	480	482	O
-will	483	487	O
-choose	488	494	O
-an	495	497	O
-equal	498	503	O
-area	504	508	O
-projection	509	519	O
-by	520	522	O
-evaluating	523	533	O
-the	534	537	O
-options	538	545	O
-suggested	546	555	O
-in	556	558	O
-Steinwand	559	568	O
-et	569	571	O
-al	572	574	O
-.	574	575	O
-
-(	576	577	O
-1995	577	581	O
-)	581	582	O
-or	583	585	O
-conduct	586	593	O
-geodesic	594	602	O
-area	603	607	O
-calculation	608	619	O
-using	620	625	O
-software	626	634	O
-such	635	639	O
-as	640	642	O
-“	643	644	O
-Tools	644	649	B-Process
-for	650	653	I-Process
-Graphics	654	662	I-Process
-and	663	666	I-Process
-Shapes	667	673	I-Process
-
-”	673	674	O
-(	675	676	O
-http://www.jennessent.com/arcgis/shapes_graphics.htm)Although	676	737	O
-post	738	742	O
--	742	743	O
-formational	743	754	O
-modification	755	767	O
-to	768	770	O
-the	771	774	O
-valleys	775	782	O
-may	783	786	O
-be	787	789	O
-minimum	790	797	O
-(	798	799	O
-Williams	799	807	O
-and	808	811	O
-Phillips	812	820	O
-,	820	821	O
-2001	822	826	O
-)	826	827	O
-,	827	828	O
-there	829	834	O
-may	835	838	O
-nonetheless	839	850	O
-be	851	853	O
-modifications	854	867	O
-such	868	872	O
-as	873	875	O
-eolian	876	882	O
-fill	883	887	O
-and	888	891	O
-mass	892	896	O
-wasting	897	904	O
-(	905	906	O
-e.g.	906	910	O
-,	910	911	O
-Grant	912	917	O
-et	918	920	O
-al	921	923	O
-.	923	924	O
-,	924	925	O
-2008	926	930	O
-)	930	931	O
-.	931	932	O
-
-Thus	933	937	O
-the	938	941	O
-volume	942	948	O
-estimates	949	958	O
-derived	959	966	O
-with	967	971	O
-PBTH	972	976	B-Process
-method	977	983	I-Process
-represents	984	994	O
-a	995	996	O
-lower	997	1002	O
-bound	1003	1008	O
-.	1008	1009	O
-
-Comparing	1010	1019	O
-the	1020	1023	O
-estimates	1024	1033	O
-from	1034	1038	O
-MOLA	1039	1043	B-Material
-and	1044	1047	O
-HRSC	1048	1052	B-Material
-data	1053	1057	O
-reveals	1058	1065	O
-that	1066	1070	O
-MOLA	1071	1075	B-Material
-estimate	1076	1084	O
-is	1085	1087	O
-about	1088	1093	O
-91	1094	1096	O
-%	1096	1097	O
-of	1098	1100	O
-HRSC	1101	1105	B-Material
-value	1106	1111	O
-.	1111	1112	O
-
-However	1113	1120	O
-,	1120	1121	O
-MOLA	1122	1126	B-Material
-has	1127	1130	O
-global	1131	1137	O
-coverage	1138	1146	O
-whereas	1147	1154	O
-HRSC	1155	1159	B-Material
-does	1160	1164	O
-not	1165	1168	O
-.	1168	1169	O
-
-Therefore	1170	1179	O
-,	1179	1180	O
-for	1181	1184	O
-areas	1185	1190	O
-where	1191	1196	O
-there	1197	1202	O
-is	1203	1205	O
-only	1206	1210	O
-MOLA	1211	1215	B-Material
-coverage	1216	1224	O
-,	1224	1225	O
-the	1226	1229	O
-estimate	1230	1238	O
-may	1239	1242	O
-be	1243	1245	O
-scaled	1246	1252	O
-upward	1253	1259	O
-by	1260	1262	O
-1.1	1263	1266	O
-times	1267	1272	O
-.	1272	1273	O
-
-The	1274	1277	O
-algorithm	1278	1287	O
-has	1288	1291	O
-been	1292	1296	O
-tested	1297	1303	O
-on	1304	1306	O
-DEMs	1307	1311	B-Material
-with	1312	1316	O
-various	1317	1324	O
-resolutions	1325	1336	O
-(	1337	1338	O
-2	1338	1339	O
-m	1340	1341	O
-for	1342	1345	O
-simulated	1346	1355	O
-DEM	1356	1359	B-Material
-,	1359	1360	O
-75	1361	1363	O
-m	1363	1364	O
-for	1365	1368	O
-HRSC	1369	1373	B-Material
-,	1373	1374	O
-and	1375	1378	O
-463	1379	1382	O
-m	1382	1383	O
-for	1384	1387	O
-MOLA	1388	1392	B-Material
-)	1392	1393	O
-.	1393	1394	O
-
-It	1395	1397	O
-can	1398	1401	O
-certainly	1402	1411	O
-be	1412	1414	O
-applied	1415	1422	O
-to	1423	1425	O
-higher	1426	1432	O
-resolution	1433	1443	O
-DEMs	1444	1448	B-Material
-for	1449	1452	O
-Mars	1453	1457	O
-when	1458	1462	O
-they	1463	1467	O
-become	1468	1474	O
-available	1475	1484	O
-,	1484	1485	O
-but	1486	1489	O
-the	1490	1493	O
-threshold	1494	1503	O
-values	1504	1510	O
-will	1511	1515	O
-need	1516	1520	O
-to	1521	1523	O
-be	1524	1526	O
-adjusted	1527	1535	O
-.	1535	1536	O
+The	0,3	O	B-Task
+threshold	4,13	O	I-Task
+values	14,20	O	I-Task
+for	21,24	O	I-Task
+removing	25,33	O	I-Task
+large	34,39	O	I-Task
+caters	40,46	O	I-Task
+were	47,51	O	I-Task
+determined	52,62	O	I-Task
+by	63,65	O	O
+examining	66,75	O	O
+the	76,79	O	O
+craters	80,87	O	O
+within	88,94	O	O
+the	95,98	O	O
+study	99,104	O	O
+area	105,109	O	O
+,	109,110	O	O
+referencing	111,122	O	O
+previous	123,131	O	O
+studies	132,139	O	O
+(	140,141	O	O
+Molloy	141,147	O	O
+and	148,151	O	O
+Stepinski	152,161	O	O
+,	161,162	O	O
+2007	163,167	O	O
+)	167,168	O	O
+,	168,169	O	O
+and	170,173	O	O
+some	174,178	O	O
+trial	179,184	O	O
+and	185,188	O	O
+error	189,194	O	O
+.	194,195	O	O
+
+After	196,201	O	O
+the	202,205	O	O
+parameter	206,215	O	O
+values	216,222	O	O
+are	223,226	O	O
+determined	227,237	O	O
+,	237,238	O	O
+the	239,242	O	O
+rest	243,247	O	O
+of	248,250	O	O
+the	251,254	O	O
+process	255,262	O	O
+is	263,265	O	O
+automated	266,275	O	O
+.	275,276	O	O
+
+However	277,284	O	O
+,	284,285	O	O
+we	286,288	O	O
+do	289,291	O	O
+anticipate	292,302	O	O
+some	303,307	O	O
+minimum	308,315	O	O
+manual	316,322	O	B-Process
+editing	323,330	O	I-Process
+may	331,334	O	O
+be	335,337	O	O
+needed	338,344	O	O
+in	345,347	O	O
+some	348,352	O	O
+complicated	353,364	O	O
+terrains	365,373	O	O
+when	374,378	O	O
+apply	379,384	O	O
+it	385,387	O	O
+to	388,390	O	O
+all	391,394	O	O
+of	395,397	O	O
+Mars	398,402	O	O
+.	402,403	O	O
+
+To	404,406	O	O
+minimize	407,415	O	O
+the	416,419	O	O
+distortion	420,430	O	O
+resulted	431,439	O	O
+from	440,444	O	O
+map	445,448	O	O
+projection	449,459	O	O
+on	460,462	O	O
+global	463,469	O	O
+datasets	470,478	O	O
+,	478,479	O	O
+we	480,482	O	O
+will	483,487	O	O
+choose	488,494	O	O
+an	495,497	O	O
+equal	498,503	O	O
+area	504,508	O	O
+projection	509,519	O	O
+by	520,522	O	O
+evaluating	523,533	O	O
+the	534,537	O	O
+options	538,545	O	O
+suggested	546,555	O	O
+in	556,558	O	O
+Steinwand	559,568	O	O
+et	569,571	O	O
+al	572,574	O	O
+.	574,575	O	O
+
+(	576,577	O	O
+1995	577,581	O	O
+)	581,582	O	O
+or	583,585	O	O
+conduct	586,593	O	O
+geodesic	594,602	O	O
+area	603,607	O	O
+calculation	608,619	O	O
+using	620,625	O	O
+software	626,634	O	O
+such	635,639	O	O
+as	640,642	O	O
+“	643,644	O	O
+Tools	644,649	O	B-Process
+for	650,653	O	I-Process
+Graphics	654,662	O	I-Process
+and	663,666	O	I-Process
+Shapes	667,673	O	I-Process
+
+”	673,674	O	O
+(	675,676	O	O
+http://www.jennessent.com/arcgis/shapes_graphics.htm)Although	676,737	O	O
+post	738,742	O	O
+-	742,743	O	O
+formational	743,754	O	O
+modification	755,767	O	O
+to	768,770	O	O
+the	771,774	O	O
+valleys	775,782	O	O
+may	783,786	O	O
+be	787,789	O	O
+minimum	790,797	O	O
+(	798,799	O	O
+Williams	799,807	O	O
+and	808,811	O	O
+Phillips	812,820	O	O
+,	820,821	O	O
+2001	822,826	O	O
+)	826,827	O	O
+,	827,828	O	O
+there	829,834	O	O
+may	835,838	O	O
+nonetheless	839,850	O	O
+be	851,853	O	O
+modifications	854,867	O	O
+such	868,872	O	O
+as	873,875	O	O
+eolian	876,882	O	O
+fill	883,887	O	O
+and	888,891	O	O
+mass	892,896	O	O
+wasting	897,904	O	O
+(	905,906	O	O
+e.g.	906,910	O	O
+,	910,911	O	O
+Grant	912,917	O	O
+et	918,920	O	O
+al	921,923	O	O
+.	923,924	O	O
+,	924,925	O	O
+2008	926,930	O	O
+)	930,931	O	O
+.	931,932	O	O
+
+Thus	933,937	O	O
+the	938,941	O	O
+volume	942,948	O	O
+estimates	949,958	O	O
+derived	959,966	O	O
+with	967,971	O	O
+PBTH	972,976	O	B-Process
+method	977,983	O	I-Process
+represents	984,994	O	O
+a	995,996	O	O
+lower	997,1002	O	O
+bound	1003,1008	O	O
+.	1008,1009	O	O
+
+Comparing	1010,1019	O	O
+the	1020,1023	O	O
+estimates	1024,1033	O	O
+from	1034,1038	O	O
+MOLA	1039,1043	O	B-Material
+and	1044,1047	O	O
+HRSC	1048,1052	O	B-Material
+data	1053,1057	O	O
+reveals	1058,1065	O	O
+that	1066,1070	O	O
+MOLA	1071,1075	O	B-Material
+estimate	1076,1084	O	O
+is	1085,1087	O	O
+about	1088,1093	O	O
+91	1094,1096	O	O
+%	1096,1097	O	O
+of	1098,1100	O	O
+HRSC	1101,1105	O	B-Material
+value	1106,1111	O	O
+.	1111,1112	O	O
+
+However	1113,1120	O	O
+,	1120,1121	O	O
+MOLA	1122,1126	O	B-Material
+has	1127,1130	O	O
+global	1131,1137	O	O
+coverage	1138,1146	O	O
+whereas	1147,1154	O	O
+HRSC	1155,1159	O	B-Material
+does	1160,1164	O	O
+not	1165,1168	O	O
+.	1168,1169	O	O
+
+Therefore	1170,1179	O	O
+,	1179,1180	O	O
+for	1181,1184	O	O
+areas	1185,1190	O	O
+where	1191,1196	O	O
+there	1197,1202	O	O
+is	1203,1205	O	O
+only	1206,1210	O	O
+MOLA	1211,1215	O	B-Material
+coverage	1216,1224	O	O
+,	1224,1225	O	O
+the	1226,1229	O	O
+estimate	1230,1238	O	O
+may	1239,1242	O	O
+be	1243,1245	O	O
+scaled	1246,1252	O	O
+upward	1253,1259	O	O
+by	1260,1262	O	O
+1.1	1263,1266	O	O
+times	1267,1272	O	O
+.	1272,1273	O	O
+
+The	1274,1277	O	O
+algorithm	1278,1287	O	O
+has	1288,1291	O	O
+been	1292,1296	O	O
+tested	1297,1303	O	O
+on	1304,1306	O	O
+DEMs	1307,1311	O	B-Material
+with	1312,1316	O	O
+various	1317,1324	O	O
+resolutions	1325,1336	O	O
+(	1337,1338	O	O
+2	1338,1339	O	O
+m	1340,1341	O	O
+for	1342,1345	O	O
+simulated	1346,1355	O	O
+DEM	1356,1359	O	B-Material
+,	1359,1360	O	O
+75	1361,1363	O	O
+m	1363,1364	O	O
+for	1365,1368	O	O
+HRSC	1369,1373	O	B-Material
+,	1373,1374	O	O
+and	1375,1378	O	O
+463	1379,1382	O	O
+m	1382,1383	O	O
+for	1384,1387	O	O
+MOLA	1388,1392	O	B-Material
+)	1392,1393	O	O
+.	1393,1394	O	O
+
+It	1395,1397	O	O
+can	1398,1401	O	O
+certainly	1402,1411	O	O
+be	1412,1414	O	O
+applied	1415,1422	O	O
+to	1423,1425	O	O
+higher	1426,1432	O	O
+resolution	1433,1443	O	O
+DEMs	1444,1448	O	B-Material
+for	1449,1452	O	O
+Mars	1453,1457	O	O
+when	1458,1462	O	O
+they	1463,1467	O	O
+become	1468,1474	O	O
+available	1475,1484	O	O
+,	1484,1485	O	O
+but	1486,1489	O	O
+the	1490,1493	O	O
+threshold	1494,1503	O	O
+values	1504,1510	O	O
+will	1511,1515	O	O
+need	1516,1520	O	O
+to	1521,1523	O	O
+be	1524,1526	O	O
+adjusted	1527,1535	O	O
+.	1535,1536	O	O
 
 
 -DOCSTART- (S0166361516300926)
 
-This	0	4	O
-research	5	13	O
-traces	14	20	O
-the	21	24	O
-implementation	25	39	O
-of	40	42	O
-an	43	45	O
-information	46	57	O
-system	58	64	O
-in	65	67	O
-the	68	71	O
-form	72	76	O
-of	77	79	O
-ERP	80	83	B-Material
-modules	84	91	I-Material
-covering	92	100	O
-tenant	101	107	O
-and	108	111	O
-contract	112	120	O
-management	121	131	O
-in	132	134	O
-a	135	136	O
-Chinese	137	144	O
-service	145	152	O
-company	153	160	O
-.	160	161	O
-
-Misalignments	162	175	O
-between	176	183	O
-the	184	187	O
-ERP	188	191	B-Process
-system	192	198	I-Process
-specification	199	212	O
-and	213	216	O
-user	217	221	O
-needs	222	227	O
-led	228	231	O
-to	232	234	O
-the	235	238	O
-adoption	239	247	O
-of	248	250	O
-informal	251	259	O
-processes	260	269	O
-within	270	276	O
-the	277	280	O
-organisation	281	293	O
-.	293	294	O
-
-These	295	300	O
-processes	301	310	O
-are	311	314	O
-facilitated	315	326	O
-within	327	333	O
-an	334	336	O
-informal	337	345	O
-organisational	346	360	O
-structure	361	370	O
-and	371	374	O
-are	375	378	O
-based	379	384	O
-on	385	387	O
-human	388	393	O
-interactions	394	406	O
-undertaken	407	417	O
-within	418	424	O
-the	425	428	O
-formal	429	435	O
-organisation	436	448	O
-.	448	449	O
-
-Rather	450	456	O
-than	457	461	O
-to	462	464	O
-attempt	465	472	O
-to	473	475	O
-suppress	476	484	O
-the	485	488	O
-emergence	489	498	O
-of	499	501	O
-the	502	505	O
-informal	506	514	O
-organisation	515	527	O
-the	528	531	O
-company	532	539	O
-decided	540	547	O
-to	548	550	O
-channel	551	558	O
-the	559	562	O
-energies	563	571	O
-of	572	574	O
-staff	575	580	O
-involved	581	589	O
-in	590	592	O
-informal	593	601	O
-processes	602	611	O
-towards	612	619	O
-organisational	620	634	O
-goals	635	640	O
-.	640	641	O
-
-The	642	645	O
-company	646	653	O
-achieved	654	662	O
-this	663	667	O
-by	668	670	O
-harnessing	671	681	O
-the	682	685	O
-capabilities	686	698	O
-of	699	701	O
-what	702	706	O
-we	707	709	O
-term	710	714	O
-a	715	716	O
-hybrid	717	723	B-Process
-ERP	724	727	I-Process
-system	728	734	I-Process
-,	734	735	O
-combining	736	745	O
-the	746	749	O
-functionality	750	763	O
-of	764	766	O
-a	767	768	O
-traditional	769	780	O
-(	781	782	O
-formal	782	788	O
-)	788	789	O
-ERP	790	793	B-Process
-installation	794	806	I-Process
-with	807	811	O
-the	812	815	O
-capabilities	816	828	O
-of	829	831	O
-Enterprise	832	842	B-Process
-Social	843	849	I-Process
-Software	850	858	I-Process
-(	859	860	O
-ESS	860	863	B-Process
-)	863	864	O
-.	864	865	O
-
-However	866	873	O
-the	874	877	O
-company	878	885	O
-recognised	886	896	O
-that	897	901	O
-the	902	905	O
-successful	906	916	O
-operation	917	926	O
-of	927	929	O
-the	930	933	O
-hybrid	934	940	O
-ERP	941	944	B-Process
-system	945	951	I-Process
-would	952	957	O
-require	958	965	O
-a	966	967	O
-number	968	974	O
-of	975	977	O
-changes	978	985	O
-in	986	988	O
-organisational	989	1003	O
-design	1004	1010	O
-in	1011	1013	O
-areas	1014	1019	O
-such	1020	1024	O
-as	1025	1027	O
-reporting	1028	1037	O
-structures	1038	1048	O
-and	1049	1052	O
-communication	1053	1066	O
-channels	1067	1075	O
-.	1075	1076	O
-
-A	1077	1078	O
-narrative	1079	1088	O
-provided	1089	1097	O
-by	1098	1100	O
-interviews	1101	1111	O
-with	1112	1116	O
-company	1117	1124	O
-personnel	1125	1134	O
-is	1135	1137	O
-thematised	1138	1148	O
-around	1149	1155	O
-the	1156	1159	O
-formal	1160	1166	O
-and	1167	1170	O
-informal	1171	1179	O
-characteristics	1180	1195	O
-of	1196	1198	O
-the	1199	1202	O
-organisation	1203	1215	O
-as	1216	1218	O
-defined	1219	1226	O
-in	1227	1229	O
-the	1230	1233	O
-literature	1234	1244	O
-.	1244	1245	O
-
-This	1246	1250	O
-leads	1251	1256	O
-to	1257	1259	O
-a	1260	1261	O
-definition	1262	1272	O
-of	1273	1275	O
-the	1276	1279	O
-characteristics	1280	1295	O
-of	1296	1298	O
-the	1299	1302	O
-hybrid	1303	1309	O
-organisation	1310	1322	O
-and	1323	1326	O
-strategies	1327	1337	O
-for	1338	1341	O
-enabling	1342	1350	O
-a	1351	1352	O
-hybrid	1353	1359	O
-organisation	1360	1372	O
-,	1372	1373	O
-facilitated	1374	1385	O
-by	1386	1388	O
-a	1389	1390	O
-hybrid	1391	1397	B-Process
-ERP	1398	1401	I-Process
-system	1402	1408	I-Process
-,	1408	1409	O
-which	1410	1415	O
-directs	1416	1423	O
-formal	1424	1430	O
-and	1431	1434	O
-informal	1435	1443	O
-behaviour	1444	1453	O
-towards	1454	1461	O
-organisational	1462	1476	O
-goals	1477	1482	O
-and	1483	1486	O
-provides	1487	1495	O
-a	1496	1497	O
-template	1498	1506	O
-for	1507	1510	O
-future	1511	1517	O
-hybrid	1518	1524	O
-implementations	1525	1540	O
-.	1540	1541	O
+This	0,4	O	O
+research	5,13	O	O
+traces	14,20	O	O
+the	21,24	O	O
+implementation	25,39	O	O
+of	40,42	O	O
+an	43,45	O	O
+information	46,57	O	O
+system	58,64	O	O
+in	65,67	O	O
+the	68,71	O	O
+form	72,76	O	O
+of	77,79	O	O
+ERP	80,83	O	B-Material
+modules	84,91	O	I-Material
+covering	92,100	O	O
+tenant	101,107	O	O
+and	108,111	O	O
+contract	112,120	O	O
+management	121,131	O	O
+in	132,134	O	O
+a	135,136	O	O
+Chinese	137,144	O	O
+service	145,152	O	O
+company	153,160	O	O
+.	160,161	O	O
+
+Misalignments	162,175	O	O
+between	176,183	O	O
+the	184,187	O	O
+ERP	188,191	O	B-Process
+system	192,198	O	I-Process
+specification	199,212	O	O
+and	213,216	O	O
+user	217,221	O	O
+needs	222,227	O	O
+led	228,231	O	O
+to	232,234	O	O
+the	235,238	O	O
+adoption	239,247	O	O
+of	248,250	O	O
+informal	251,259	O	O
+processes	260,269	O	O
+within	270,276	O	O
+the	277,280	O	O
+organisation	281,293	O	O
+.	293,294	O	O
+
+These	295,300	O	O
+processes	301,310	O	O
+are	311,314	O	O
+facilitated	315,326	O	O
+within	327,333	O	O
+an	334,336	O	O
+informal	337,345	O	O
+organisational	346,360	O	O
+structure	361,370	O	O
+and	371,374	O	O
+are	375,378	O	O
+based	379,384	O	O
+on	385,387	O	O
+human	388,393	O	O
+interactions	394,406	O	O
+undertaken	407,417	O	O
+within	418,424	O	O
+the	425,428	O	O
+formal	429,435	O	O
+organisation	436,448	O	O
+.	448,449	O	O
+
+Rather	450,456	O	O
+than	457,461	O	O
+to	462,464	O	O
+attempt	465,472	O	O
+to	473,475	O	O
+suppress	476,484	O	O
+the	485,488	O	O
+emergence	489,498	O	O
+of	499,501	O	O
+the	502,505	O	O
+informal	506,514	O	O
+organisation	515,527	O	O
+the	528,531	O	O
+company	532,539	O	O
+decided	540,547	O	O
+to	548,550	O	O
+channel	551,558	O	O
+the	559,562	O	O
+energies	563,571	O	O
+of	572,574	O	O
+staff	575,580	O	O
+involved	581,589	O	O
+in	590,592	O	O
+informal	593,601	O	O
+processes	602,611	O	O
+towards	612,619	O	O
+organisational	620,634	O	O
+goals	635,640	O	O
+.	640,641	O	O
+
+The	642,645	O	O
+company	646,653	O	O
+achieved	654,662	O	O
+this	663,667	O	O
+by	668,670	O	O
+harnessing	671,681	O	O
+the	682,685	O	O
+capabilities	686,698	O	O
+of	699,701	O	O
+what	702,706	O	O
+we	707,709	O	O
+term	710,714	O	O
+a	715,716	O	O
+hybrid	717,723	O	B-Process
+ERP	724,727	O	I-Process
+system	728,734	O	I-Process
+,	734,735	O	O
+combining	736,745	O	O
+the	746,749	O	O
+functionality	750,763	O	O
+of	764,766	O	O
+a	767,768	O	O
+traditional	769,780	O	O
+(	781,782	O	O
+formal	782,788	O	O
+)	788,789	O	O
+ERP	790,793	O	B-Process
+installation	794,806	O	I-Process
+with	807,811	O	O
+the	812,815	O	O
+capabilities	816,828	O	O
+of	829,831	O	O
+Enterprise	832,842	O	B-Process
+Social	843,849	O	I-Process
+Software	850,858	O	I-Process
+(	859,860	O	O
+ESS	860,863	O	B-Process
+)	863,864	O	O
+.	864,865	O	O
+
+However	866,873	O	O
+the	874,877	O	O
+company	878,885	O	O
+recognised	886,896	O	O
+that	897,901	O	O
+the	902,905	O	O
+successful	906,916	O	O
+operation	917,926	O	O
+of	927,929	O	O
+the	930,933	O	O
+hybrid	934,940	O	O
+ERP	941,944	O	B-Process
+system	945,951	O	I-Process
+would	952,957	O	O
+require	958,965	O	O
+a	966,967	O	O
+number	968,974	O	O
+of	975,977	O	O
+changes	978,985	O	O
+in	986,988	O	O
+organisational	989,1003	O	O
+design	1004,1010	O	O
+in	1011,1013	O	O
+areas	1014,1019	O	O
+such	1020,1024	O	O
+as	1025,1027	O	O
+reporting	1028,1037	O	O
+structures	1038,1048	O	O
+and	1049,1052	O	O
+communication	1053,1066	O	O
+channels	1067,1075	O	O
+.	1075,1076	O	O
+
+A	1077,1078	O	O
+narrative	1079,1088	O	O
+provided	1089,1097	O	O
+by	1098,1100	O	O
+interviews	1101,1111	O	O
+with	1112,1116	O	O
+company	1117,1124	O	O
+personnel	1125,1134	O	O
+is	1135,1137	O	O
+thematised	1138,1148	O	O
+around	1149,1155	O	O
+the	1156,1159	O	O
+formal	1160,1166	O	O
+and	1167,1170	O	O
+informal	1171,1179	O	O
+characteristics	1180,1195	O	O
+of	1196,1198	O	O
+the	1199,1202	O	O
+organisation	1203,1215	O	O
+as	1216,1218	O	O
+defined	1219,1226	O	O
+in	1227,1229	O	O
+the	1230,1233	O	O
+literature	1234,1244	O	O
+.	1244,1245	O	O
+
+This	1246,1250	O	O
+leads	1251,1256	O	O
+to	1257,1259	O	O
+a	1260,1261	O	O
+definition	1262,1272	O	O
+of	1273,1275	O	O
+the	1276,1279	O	O
+characteristics	1280,1295	O	O
+of	1296,1298	O	O
+the	1299,1302	O	O
+hybrid	1303,1309	O	O
+organisation	1310,1322	O	O
+and	1323,1326	O	O
+strategies	1327,1337	O	O
+for	1338,1341	O	O
+enabling	1342,1350	O	O
+a	1351,1352	O	O
+hybrid	1353,1359	O	O
+organisation	1360,1372	O	O
+,	1372,1373	O	O
+facilitated	1374,1385	O	O
+by	1386,1388	O	O
+a	1389,1390	O	O
+hybrid	1391,1397	O	B-Process
+ERP	1398,1401	O	I-Process
+system	1402,1408	O	I-Process
+,	1408,1409	O	O
+which	1410,1415	O	O
+directs	1416,1423	O	O
+formal	1424,1430	O	O
+and	1431,1434	O	O
+informal	1435,1443	O	O
+behaviour	1444,1453	O	O
+towards	1454,1461	O	O
+organisational	1462,1476	O	O
+goals	1477,1482	O	O
+and	1483,1486	O	O
+provides	1487,1495	O	O
+a	1496,1497	O	O
+template	1498,1506	O	O
+for	1507,1510	O	O
+future	1511,1517	O	O
+hybrid	1518,1524	O	O
+implementations	1525,1540	O	O
+.	1540,1541	O	O
 
 
 -DOCSTART- (S0168365912007560)
 
-We	0	2	O
-addressed	3	12	O
-the	13	16	O
-question	17	25	O
-whether	26	33	B-Task
-carbohydrate	34	46	I-Task
-coupling	47	55	I-Task
-increased	56	65	I-Task
-antigen	66	73	I-Task
-uptake	74	80	I-Task
-by	81	83	O
-DCs	84	87	O
-via	88	91	O
-C	92	93	B-Process
--	93	94	I-Process
-type	94	98	I-Process
-lectin	99	105	I-Process
-receptor	106	114	I-Process
-targeting	115	124	I-Process
-.	124	125	O
-
-Therefore	126	135	O
-,	135	136	O
-the	137	140	O
-antigens	141	149	B-Material
-were	150	154	O
-labeled	155	162	O
-with	163	167	O
-pHrodo	168	174	B-Material
-Red	175	178	I-Material
-dye	179	182	I-Material
-(	183	184	O
-Invitrogen	184	194	B-Material
-)	194	195	O
-,	195	196	O
-a	197	198	O
-dye	199	202	O
-that	203	207	O
-specifically	208	220	O
-fluoresces	221	231	B-Process
-as	232	234	O
-pH	235	237	O
-decreases	238	247	O
-from	248	252	O
-neutral	253	260	O
-to	261	263	O
-acidic	264	270	O
-,	270	271	O
-as	272	274	O
-provided	275	283	O
-in	284	286	O
-endosomes	287	296	B-Material
-/	296	297	O
-lysosomes	297	306	B-Material
-of	307	309	O
-cells	310	315	O
-.	315	316	O
-
-In	317	319	O
-vitro	320	325	O
-characterization	326	342	O
-of	343	345	O
-the	346	349	O
-cellular	350	358	O
-uptake	359	365	O
-of	366	368	O
-neoglycocomplexes	369	386	B-Material
-using	387	392	O
-bone	393	397	B-Material
-marrow	398	404	I-Material
-derived	405	412	I-Material
-dendritic	413	422	I-Material
-cells	423	428	I-Material
-(	429	430	O
-BMDCs	430	435	B-Material
-)	435	436	O
-demonstrated	437	449	O
-superior	450	458	O
-ingestion	459	468	B-Process
-of	469	471	O
-mannan	472	478	O
--	478	479	O
-conjugates	479	489	O
-MN	490	492	O
-–	492	493	O
-Ova	493	496	O
-and	497	500	O
-MN	501	503	O
-
-–	503	504	O
-Pap	504	507	O
-(	508	509	O
-Supplementary	509	522	O
-Fig	523	526	O
-.	526	527	O
-
-S4A	528	531	O
--	531	532	O
-D	532	533	O
-,	533	534	O
-F	534	535	O
-)	535	536	O
-.	536	537	O
-
-This	538	542	O
-was	543	546	O
-confirmed	547	556	O
-in	557	559	O
-vivo	560	564	O
-by	565	567	O
-intradermal	568	579	B-Task
-needle	580	586	I-Task
--	586	587	I-Task
-injection	587	596	I-Task
-of	597	599	O
-labeled	600	607	O
-antigen	608	615	O
-into	616	620	O
-the	621	624	O
-ear	625	628	O
-pinnae	629	635	O
-of	636	638	O
-mice	639	643	O
-.	643	644	O
-
-Antigen	645	652	B-Material
-uptake	653	659	O
-and	660	663	O
-transport	664	673	O
-to	674	676	O
-the	677	680	O
-ear	681	684	O
-
-dLNs	685	689	O
-were	690	694	O
-measured	695	703	O
-after	704	709	O
-24h	710	713	O
-by	714	716	O
-FACS	717	721	B-Process
-analysis	722	730	I-Process
-.	730	731	O
-
-DCs	732	735	O
-in	736	738	O
-cervical	739	747	O
-LNs	748	751	O
-were	752	756	O
-identified	757	767	O
-according	768	777	O
-to	778	780	O
-their	781	786	O
-high	787	791	O
-expression	792	802	O
-of	803	805	O
-MHC	806	809	O
-class	810	815	O
-II	816	818	O
-(	819	820	O
-Fig	820	823	O
-.	823	824	O
-
-3A	825	827	O
-)	827	828	O
-and	829	832	O
-additionally	833	845	O
-characterized	846	859	O
-by	860	862	O
-CD8α	863	867	B-Material
-,	867	868	O
-CD11b	869	874	B-Material
-,	874	875	O
-and	876	879	O
-CD11c	880	885	B-Material
-expression	886	896	O
-and	897	900	O
-uptake	901	907	O
-of	908	910	O
-pHrodo	911	917	B-Material
--	917	918	I-Material
-labeled	918	925	I-Material
-antigen	926	933	I-Material
-(	934	935	O
-Fig	935	938	O
-.	938	939	O
-
-3B	940	942	O
-,	942	943	O
-D	944	945	O
-–	945	946	O
-F	946	947	O
-)	947	948	O
-.	948	949	O
-
-The	950	953	O
-results	954	961	O
-showed	962	968	O
-significantly	969	982	O
-elevated	983	991	O
-numbers	992	999	O
-of	1000	1002	O
-pHrodo+MHCIIhigh	1003	1019	B-Material
-DCs	1020	1023	I-Material
-for	1024	1027	O
-mannan	1028	1034	O
-conjugates	1035	1045	O
-MN	1046	1048	B-Material
-–	1048	1049	I-Material
-Ova	1049	1052	I-Material
-and	1053	1056	O
-MN	1057	1059	B-Material
-–	1059	1060	I-Material
-Pap	1060	1063	I-Material
-(	1064	1065	O
-and	1065	1068	O
-to	1069	1071	O
-a	1072	1073	O
-lesser	1074	1080	O
-degree	1081	1087	O
-for	1088	1091	O
-MD	1092	1094	B-Material
-–	1094	1095	I-Material
-Pap	1095	1098	I-Material
-)	1098	1099	O
-in	1100	1102	O
-comparison	1103	1113	O
-to	1114	1116	O
-the	1117	1120	O
-unmodified	1121	1131	O
-antigens	1132	1140	B-Material
-(	1141	1142	O
-Fig	1142	1145	O
-.	1145	1146	O
-
-3C	1147	1149	O
-)	1149	1150	O
-.	1150	1151	O
-
-Both	1152	1156	O
-carbohydrates	1157	1170	B-Material
-targeted	1171	1179	O
-antigen	1180	1187	B-Material
-preferentially	1188	1202	O
-to	1203	1205	O
-CD8α−	1206	1211	B-Material
-DCs	1212	1215	I-Material
-,	1215	1216	O
-as	1217	1219	O
-indicated	1220	1229	O
-by	1230	1232	O
-an	1233	1235	O
-increase	1236	1244	O
-in	1245	1247	O
-CD8α−/pHrodo+	1248	1261	B-Material
-DCs	1262	1265	I-Material
-compared	1266	1274	O
-to	1275	1277	O
-unmodified	1278	1288	O
-antigens	1289	1297	B-Material
-(	1298	1299	O
-Fig	1299	1302	O
-.	1302	1303	O
-
-3E	1304	1306	O
-and	1307	1310	O
-F	1311	1312	O
-)	1312	1313	O
-.	1313	1314	O
-
-Nevertheless	1315	1327	O
-,	1327	1328	O
-whether	1329	1336	O
-the	1337	1340	O
-antigens	1341	1349	B-Material
-were	1350	1354	O
-taken	1355	1360	O
-up	1361	1363	O
-in	1364	1366	O
-situ	1367	1371	O
-by	1372	1374	O
-dermal	1375	1381	O
-DCs	1382	1385	O
-or	1386	1388	O
-by	1389	1391	O
-LN	1392	1394	O
-resident	1395	1403	O
-APCs	1404	1408	O
-via	1409	1412	O
-the	1413	1416	O
-afferent	1417	1425	O
-lymphatics	1426	1436	O
-could	1437	1442	O
-not	1443	1446	O
-be	1447	1449	O
-fully	1450	1455	O
-elucidated	1456	1466	O
-.	1466	1467	O
-
-Histology	1468	1477	O
-revealed	1478	1486	O
-that	1487	1491	O
-antigen	1492	1499	B-Material
--	1499	1500	I-Material
-loaded	1500	1506	I-Material
-cells	1507	1512	I-Material
-in	1513	1515	O
-the	1516	1519	O
-dLNs	1520	1524	O
-were	1525	1529	O
-already	1530	1537	O
-present	1538	1545	O
-30min	1546	1551	O
-after	1552	1557	O
-intradermal	1558	1569	B-Process
-injection	1570	1579	I-Process
-(	1580	1581	O
-Supplementary	1581	1594	O
-Fig	1595	1598	O
-.	1598	1599	O
-
-S4	1600	1602	O
-G	1602	1603	O
-)	1603	1604	O
-,	1604	1605	O
-suggesting	1606	1616	O
-both	1617	1621	O
-mechanisms	1622	1632	O
-.	1632	1633	O
+We	0,2	O	O
+addressed	3,12	O	O
+the	13,16	O	O
+question	17,25	O	O
+whether	26,33	O	B-Task
+carbohydrate	34,46	O	I-Task
+coupling	47,55	O	I-Task
+increased	56,65	O	I-Task
+antigen	66,73	O	I-Task
+uptake	74,80	O	I-Task
+by	81,83	O	O
+DCs	84,87	O	O
+via	88,91	O	O
+C	92,93	O	B-Process
+-	93,94	O	I-Process
+type	94,98	O	I-Process
+lectin	99,105	O	I-Process
+receptor	106,114	O	I-Process
+targeting	115,124	O	I-Process
+.	124,125	O	O
+
+Therefore	126,135	O	O
+,	135,136	O	O
+the	137,140	O	O
+antigens	141,149	O	B-Material
+were	150,154	O	O
+labeled	155,162	O	O
+with	163,167	O	O
+pHrodo	168,174	O	B-Material
+Red	175,178	O	I-Material
+dye	179,182	O	I-Material
+(	183,184	O	O
+Invitrogen	184,194	O	B-Material
+)	194,195	O	O
+,	195,196	O	O
+a	197,198	O	O
+dye	199,202	O	O
+that	203,207	O	O
+specifically	208,220	O	O
+fluoresces	221,231	O	B-Process
+as	232,234	O	O
+pH	235,237	O	O
+decreases	238,247	O	O
+from	248,252	O	O
+neutral	253,260	O	O
+to	261,263	O	O
+acidic	264,270	O	O
+,	270,271	O	O
+as	272,274	O	O
+provided	275,283	O	O
+in	284,286	O	O
+endosomes	287,296	O	B-Material
+/	296,297	O	O
+lysosomes	297,306	O	B-Material
+of	307,309	O	O
+cells	310,315	O	O
+.	315,316	O	O
+
+In	317,319	O	O
+vitro	320,325	O	O
+characterization	326,342	O	O
+of	343,345	O	O
+the	346,349	O	O
+cellular	350,358	O	O
+uptake	359,365	O	O
+of	366,368	O	O
+neoglycocomplexes	369,386	O	B-Material
+using	387,392	O	O
+bone	393,397	O	B-Material
+marrow	398,404	O	I-Material
+derived	405,412	O	I-Material
+dendritic	413,422	O	I-Material
+cells	423,428	O	I-Material
+(	429,430	O	O
+BMDCs	430,435	O	B-Material
+)	435,436	O	O
+demonstrated	437,449	O	O
+superior	450,458	O	O
+ingestion	459,468	O	B-Process
+of	469,471	O	O
+mannan	472,478	O	O
+-	478,479	O	O
+conjugates	479,489	O	O
+MN	490,492	O	O
+–	492,493	O	O
+Ova	493,496	O	O
+and	497,500	O	O
+MN	501,503	O	O
+
+–	503,504	O	O
+Pap	504,507	O	O
+(	508,509	O	O
+Supplementary	509,522	O	O
+Fig	523,526	O	O
+.	526,527	O	O
+
+S4A	528,531	O	O
+-	531,532	O	O
+D	532,533	O	O
+,	533,534	O	O
+F	534,535	O	O
+)	535,536	O	O
+.	536,537	O	O
+
+This	538,542	O	O
+was	543,546	O	O
+confirmed	547,556	O	O
+in	557,559	O	O
+vivo	560,564	O	O
+by	565,567	O	O
+intradermal	568,579	O	B-Task
+needle	580,586	O	I-Task
+-	586,587	O	I-Task
+injection	587,596	O	I-Task
+of	597,599	O	O
+labeled	600,607	O	O
+antigen	608,615	O	O
+into	616,620	O	O
+the	621,624	O	O
+ear	625,628	O	O
+pinnae	629,635	O	O
+of	636,638	O	O
+mice	639,643	O	O
+.	643,644	O	O
+
+Antigen	645,652	O	B-Material
+uptake	653,659	O	O
+and	660,663	O	O
+transport	664,673	O	O
+to	674,676	O	O
+the	677,680	O	O
+ear	681,684	O	O
+
+dLNs	685,689	O	O
+were	690,694	O	O
+measured	695,703	O	O
+after	704,709	O	O
+24h	710,713	O	O
+by	714,716	O	O
+FACS	717,721	O	B-Process
+analysis	722,730	O	I-Process
+.	730,731	O	O
+
+DCs	732,735	O	O
+in	736,738	O	O
+cervical	739,747	O	O
+LNs	748,751	O	O
+were	752,756	O	O
+identified	757,767	O	O
+according	768,777	O	O
+to	778,780	O	O
+their	781,786	O	O
+high	787,791	O	O
+expression	792,802	O	O
+of	803,805	O	O
+MHC	806,809	O	O
+class	810,815	O	O
+II	816,818	O	O
+(	819,820	O	O
+Fig	820,823	O	O
+.	823,824	O	O
+
+3A	825,827	O	O
+)	827,828	O	O
+and	829,832	O	O
+additionally	833,845	O	O
+characterized	846,859	O	O
+by	860,862	O	O
+CD8α	863,867	O	B-Material
+,	867,868	O	O
+CD11b	869,874	O	B-Material
+,	874,875	O	O
+and	876,879	O	O
+CD11c	880,885	O	B-Material
+expression	886,896	O	O
+and	897,900	O	O
+uptake	901,907	O	O
+of	908,910	O	O
+pHrodo	911,917	O	B-Material
+-	917,918	O	I-Material
+labeled	918,925	O	I-Material
+antigen	926,933	O	I-Material
+(	934,935	O	O
+Fig	935,938	O	O
+.	938,939	O	O
+
+3B	940,942	O	O
+,	942,943	O	O
+D	944,945	O	O
+–	945,946	O	O
+F	946,947	O	O
+)	947,948	O	O
+.	948,949	O	O
+
+The	950,953	O	O
+results	954,961	O	O
+showed	962,968	O	O
+significantly	969,982	O	O
+elevated	983,991	O	O
+numbers	992,999	O	O
+of	1000,1002	O	O
+pHrodo+MHCIIhigh	1003,1019	O	B-Material
+DCs	1020,1023	O	I-Material
+for	1024,1027	O	O
+mannan	1028,1034	O	O
+conjugates	1035,1045	O	O
+MN	1046,1048	O	B-Material
+–	1048,1049	O	I-Material
+Ova	1049,1052	O	I-Material
+and	1053,1056	O	O
+MN	1057,1059	O	B-Material
+–	1059,1060	O	I-Material
+Pap	1060,1063	O	I-Material
+(	1064,1065	O	O
+and	1065,1068	O	O
+to	1069,1071	O	O
+a	1072,1073	O	O
+lesser	1074,1080	O	O
+degree	1081,1087	O	O
+for	1088,1091	O	O
+MD	1092,1094	O	B-Material
+–	1094,1095	O	I-Material
+Pap	1095,1098	O	I-Material
+)	1098,1099	O	O
+in	1100,1102	O	O
+comparison	1103,1113	O	O
+to	1114,1116	O	O
+the	1117,1120	O	O
+unmodified	1121,1131	O	O
+antigens	1132,1140	O	B-Material
+(	1141,1142	O	O
+Fig	1142,1145	O	O
+.	1145,1146	O	O
+
+3C	1147,1149	O	O
+)	1149,1150	O	O
+.	1150,1151	O	O
+
+Both	1152,1156	O	O
+carbohydrates	1157,1170	O	B-Material
+targeted	1171,1179	O	O
+antigen	1180,1187	O	B-Material
+preferentially	1188,1202	O	O
+to	1203,1205	O	O
+CD8α−	1206,1211	O	B-Material
+DCs	1212,1215	O	I-Material
+,	1215,1216	O	O
+as	1217,1219	O	O
+indicated	1220,1229	O	O
+by	1230,1232	O	O
+an	1233,1235	O	O
+increase	1236,1244	O	O
+in	1245,1247	O	O
+CD8α−/pHrodo+	1248,1261	O	B-Material
+DCs	1262,1265	O	I-Material
+compared	1266,1274	O	O
+to	1275,1277	O	O
+unmodified	1278,1288	O	O
+antigens	1289,1297	O	B-Material
+(	1298,1299	O	O
+Fig	1299,1302	O	O
+.	1302,1303	O	O
+
+3E	1304,1306	O	O
+and	1307,1310	O	O
+F	1311,1312	O	O
+)	1312,1313	O	O
+.	1313,1314	O	O
+
+Nevertheless	1315,1327	O	O
+,	1327,1328	O	O
+whether	1329,1336	O	O
+the	1337,1340	O	O
+antigens	1341,1349	O	B-Material
+were	1350,1354	O	O
+taken	1355,1360	O	O
+up	1361,1363	O	O
+in	1364,1366	O	O
+situ	1367,1371	O	O
+by	1372,1374	O	O
+dermal	1375,1381	O	O
+DCs	1382,1385	O	O
+or	1386,1388	O	O
+by	1389,1391	O	O
+LN	1392,1394	O	O
+resident	1395,1403	O	O
+APCs	1404,1408	O	O
+via	1409,1412	O	O
+the	1413,1416	O	O
+afferent	1417,1425	O	O
+lymphatics	1426,1436	O	O
+could	1437,1442	O	O
+not	1443,1446	O	O
+be	1447,1449	O	O
+fully	1450,1455	O	O
+elucidated	1456,1466	O	O
+.	1466,1467	O	O
+
+Histology	1468,1477	O	O
+revealed	1478,1486	O	O
+that	1487,1491	O	O
+antigen	1492,1499	O	B-Material
+-	1499,1500	O	I-Material
+loaded	1500,1506	O	I-Material
+cells	1507,1512	O	I-Material
+in	1513,1515	O	O
+the	1516,1519	O	O
+dLNs	1520,1524	O	O
+were	1525,1529	O	O
+already	1530,1537	O	O
+present	1538,1545	O	O
+30min	1546,1551	O	O
+after	1552,1557	O	O
+intradermal	1558,1569	O	B-Process
+injection	1570,1579	O	I-Process
+(	1580,1581	O	O
+Supplementary	1581,1594	O	O
+Fig	1595,1598	O	O
+.	1598,1599	O	O
+
+S4	1600,1602	O	O
+G	1602,1603	O	O
+)	1603,1604	O	O
+,	1604,1605	O	O
+suggesting	1606,1616	O	O
+both	1617,1621	O	O
+mechanisms	1622,1632	O	O
+.	1632,1633	O	O
 
 
 -DOCSTART- (S0168365913001521)
 
-The	0	3	O
-mesoporous	4	14	B-Material
-silica	15	21	I-Material
-particles	22	31	O
-were	32	36	O
-prepared	37	45	O
-by	46	48	O
-the	49	52	O
-surfactant	53	63	B-Process
-self	64	68	I-Process
--	68	69	I-Process
-assembly	69	77	I-Process
-method	78	84	O
-described	85	94	O
-previously	95	105	O
-[	106	107	O
-18,24	107	112	O
-]	112	113	O
-.	113	114	O
-
-Briefly	115	122	O
-,	122	123	O
-a	124	125	O
-homogeneous	126	137	B-Material
-solution	138	146	I-Material
-of	147	149	O
-the	150	153	O
-soluble	154	161	B-Material
-silica	162	168	I-Material
-precursor	169	178	I-Material
-,	178	179	O
-tetraethylorthosilicate	180	203	B-Material
-(	204	205	O
-TEOS	205	209	B-Material
-;	209	210	O
-Sigma	211	216	O
--	216	217	O
-Aldrich	217	224	O
-Corp.	225	230	O
-,	230	231	O
-St.	232	235	O
-Louis	236	241	O
-,	241	242	O
-MO	243	245	O
-)	245	246	O
-,	246	247	O
-and	248	251	O
-hydrochloric	252	264	B-Material
-acid	265	269	I-Material
-was	270	273	O
-mixed	274	279	O
-in	280	282	O
-ethanol	283	290	B-Material
-and	291	294	O
-water	295	300	B-Material
-.	300	301	I-Material
-
-A	302	303	O
-surfactant	304	314	B-Material
-,	314	315	O
-cetyltrimethylammonium	316	338	B-Material
-bromide	339	346	I-Material
-(	347	348	O
-CTAB	348	352	B-Material
-;	352	353	O
-Sigma	354	359	O
--	359	360	O
-Aldrich	360	367	O
-Corp.	368	373	O
-,	373	374	O
-St.	375	378	O
-Louis	379	384	O
-,	384	385	O
-MO	386	388	O
-)	388	389	O
-,	389	390	O
-with	391	395	O
-an	396	398	O
-initial	399	406	O
-concentration	407	420	O
-much	421	425	O
-less	426	430	O
-than	431	435	O
-the	436	439	O
-critical	440	448	O
-micelle	449	456	O
-concentration	457	470	O
-was	471	474	O
-added	475	480	O
-to	481	483	O
-lower	484	489	O
-the	490	493	O
-surface	494	501	O
-tension	502	509	O
-of	510	512	O
-the	513	516	O
-liquid	517	523	O
-mixture	524	531	O
-and	532	535	O
-act	536	539	O
-as	540	542	O
-the	543	546	O
-mesoporous	547	557	B-Material
-structure	558	567	I-Material
--	567	568	I-Material
-directing	568	577	I-Material
-template	578	586	I-Material
-.	586	587	O
-
-Aerosol	588	595	B-Material
-solutions	596	605	I-Material
-of	606	608	O
-soluble	609	616	B-Material
-silica	617	623	I-Material
-plus	624	628	O
-surfactant	629	639	B-Material
-were	640	644	O
-then	645	649	O
-generated	650	659	O
-with	660	664	O
-nitrogen	665	673	B-Process
-as	674	676	O
-a	677	678	O
-carrier	679	686	O
-atomizing	687	696	B-Material
-gas	697	700	I-Material
-using	701	706	O
-a	707	708	O
-commercially	709	721	O
-available	722	731	O
-atomizer	732	740	B-Process
-(	741	742	O
-Model	742	747	O
-9392A	748	753	O
-,	753	754	O
-TSI	755	758	O
-,	758	759	O
-Inc.	760	764	O
-,	764	765	O
-St.	766	769	O
-Paul	770	774	O
-,	774	775	O
-MN	776	778	O
-)	778	779	O
-.	779	780	O
-
-The	781	784	O
-aerosol	785	792	B-Material
-droplets	793	801	I-Material
-were	802	806	O
-solidified	807	817	O
-in	818	820	O
-a	821	822	O
-tube	823	827	B-Process
-furnace	828	835	I-Process
-at	836	838	O
-400	839	842	O
-°	842	843	O
-C	843	844	O
-until	845	850	O
-dry	851	854	O
-.	854	855	O
-
-Once	856	860	O
-dried	861	866	O
-,	866	867	O
-a	868	869	O
-durapore	870	878	B-Material
-membrane	879	887	I-Material
-filter	888	894	I-Material
-,	894	895	O
-kept	896	900	O
-at	901	903	O
-80	904	906	O
-°	906	907	O
-C	907	908	O
-,	908	909	O
-was	910	913	O
-used	914	918	O
-to	919	921	O
-collect	922	929	O
-the	930	933	O
-particles	934	943	O
-.	943	944	O
-
-As	945	947	O
-a	948	949	O
-final	950	955	O
-step	956	960	O
-,	960	961	O
-the	962	965	O
-surfactant	966	976	B-Material
-was	977	980	O
-removed	981	988	O
-at	989	991	O
-400	992	995	O
-°	995	996	O
-C	996	997	O
-for	998	1001	O
-5h	1002	1004	O
-via	1005	1008	O
-calcination	1009	1020	B-Process
-.	1020	1021	O
-
-The	1022	1025	O
-surface	1026	1033	O
-of	1034	1036	O
-the	1037	1040	O
-mesoporous	1041	1051	B-Material
-silica	1052	1058	I-Material
-core	1059	1063	I-Material
-in	1064	1066	O
-these	1067	1072	O
-studies	1073	1080	O
-was	1081	1084	O
-chemically	1085	1095	O
-modified	1096	1104	O
-with	1105	1109	O
-10wt.%	1110	1116	O
-or	1117	1119	O
-15wt.%	1120	1126	O
-by	1127	1129	O
-aminopropyltriethoxysilane	1130	1156	B-Material
-(	1157	1158	O
-APTES	1158	1163	B-Material
-;	1163	1164	O
-Sigma	1165	1170	O
--	1170	1171	O
-Aldrich	1171	1178	O
-Corp.	1179	1184	O
-,	1184	1185	O
-St.	1186	1189	O
-Louis	1190	1195	O
-,	1195	1196	O
-MO	1197	1199	O
-)	1199	1200	O
-conducted	1201	1210	O
-identically	1211	1222	O
-as	1223	1225	O
-previously	1226	1236	O
-described	1237	1246	O
-[	1247	1248	O
-17	1248	1250	O
-]	1250	1251	O
-to	1252	1254	O
-create	1255	1261	O
-a	1262	1263	O
-positive	1264	1272	O
-surface	1273	1280	O
-charge	1281	1287	O
-to	1288	1290	O
-increase	1291	1299	O
-loading	1300	1307	O
-efficiency	1308	1318	O
-of	1319	1321	O
-negatively	1322	1332	O
-charged	1333	1340	O
-cargo	1341	1346	O
-.	1346	1347	O
-
-Further	1348	1355	O
-,	1355	1356	O
-Liu	1357	1360	O
-and	1361	1364	O
-colleagues	1365	1375	O
-report	1376	1382	O
-the	1383	1386	O
-colloidal	1387	1396	O
-stability	1397	1406	O
-of	1407	1409	O
-these	1410	1415	O
-protocells	1416	1426	B-Material
-with	1427	1431	O
-lipid	1432	1437	O
-bilayers	1438	1446	O
-,	1446	1447	O
-excess	1448	1454	O
-amount	1455	1461	O
-of	1462	1464	O
-liposomes	1465	1474	B-Material
-(	1475	1476	O
-50μg	1476	1480	O
-liposomes	1481	1490	O
-per	1491	1494	O
-0.5	1495	1498	O
-mg	1498	1500	O
-silica	1501	1507	O
-were	1508	1512	O
-used	1513	1517	O
-[	1518	1519	O
-18	1519	1521	O
-]	1521	1522	O
-)	1522	1523	O
-.	1523	1524	O
+The	0,3	O	O
+mesoporous	4,14	O	B-Material
+silica	15,21	O	I-Material
+particles	22,31	O	O
+were	32,36	O	O
+prepared	37,45	O	O
+by	46,48	O	O
+the	49,52	O	O
+surfactant	53,63	O	B-Process
+self	64,68	O	I-Process
+-	68,69	O	I-Process
+assembly	69,77	O	I-Process
+method	78,84	O	O
+described	85,94	O	O
+previously	95,105	O	O
+[	106,107	O	O
+18,24	107,112	O	O
+]	112,113	O	O
+.	113,114	O	O
+
+Briefly	115,122	O	O
+,	122,123	O	O
+a	124,125	O	O
+homogeneous	126,137	O	B-Material
+solution	138,146	O	I-Material
+of	147,149	O	O
+the	150,153	O	O
+soluble	154,161	O	B-Material
+silica	162,168	O	I-Material
+precursor	169,178	O	I-Material
+,	178,179	O	O
+tetraethylorthosilicate	180,203	O	B-Material
+(	204,205	O	O
+TEOS	205,209	O	B-Material
+;	209,210	O	O
+Sigma	211,216	O	O
+-	216,217	O	O
+Aldrich	217,224	O	O
+Corp.	225,230	O	O
+,	230,231	O	O
+St.	232,235	O	O
+Louis	236,241	O	O
+,	241,242	O	O
+MO	243,245	O	O
+)	245,246	O	O
+,	246,247	O	O
+and	248,251	O	O
+hydrochloric	252,264	O	B-Material
+acid	265,269	O	I-Material
+was	270,273	O	O
+mixed	274,279	O	O
+in	280,282	O	O
+ethanol	283,290	O	B-Material
+and	291,294	O	O
+water	295,300	O	B-Material
+.	300,301	O	I-Material
+
+A	302,303	O	O
+surfactant	304,314	O	B-Material
+,	314,315	O	O
+cetyltrimethylammonium	316,338	O	B-Material
+bromide	339,346	O	I-Material
+(	347,348	O	O
+CTAB	348,352	O	B-Material
+;	352,353	O	O
+Sigma	354,359	O	O
+-	359,360	O	O
+Aldrich	360,367	O	O
+Corp.	368,373	O	O
+,	373,374	O	O
+St.	375,378	O	O
+Louis	379,384	O	O
+,	384,385	O	O
+MO	386,388	O	O
+)	388,389	O	O
+,	389,390	O	O
+with	391,395	O	O
+an	396,398	O	O
+initial	399,406	O	O
+concentration	407,420	O	O
+much	421,425	O	O
+less	426,430	O	O
+than	431,435	O	O
+the	436,439	O	O
+critical	440,448	O	O
+micelle	449,456	O	O
+concentration	457,470	O	O
+was	471,474	O	O
+added	475,480	O	O
+to	481,483	O	O
+lower	484,489	O	O
+the	490,493	O	O
+surface	494,501	O	O
+tension	502,509	O	O
+of	510,512	O	O
+the	513,516	O	O
+liquid	517,523	O	O
+mixture	524,531	O	O
+and	532,535	O	O
+act	536,539	O	O
+as	540,542	O	O
+the	543,546	O	O
+mesoporous	547,557	O	B-Material
+structure	558,567	O	I-Material
+-	567,568	O	I-Material
+directing	568,577	O	I-Material
+template	578,586	O	I-Material
+.	586,587	O	O
+
+Aerosol	588,595	O	B-Material
+solutions	596,605	O	I-Material
+of	606,608	O	O
+soluble	609,616	O	B-Material
+silica	617,623	O	I-Material
+plus	624,628	O	O
+surfactant	629,639	O	B-Material
+were	640,644	O	O
+then	645,649	O	O
+generated	650,659	O	O
+with	660,664	O	O
+nitrogen	665,673	O	B-Process
+as	674,676	O	O
+a	677,678	O	O
+carrier	679,686	O	O
+atomizing	687,696	O	B-Material
+gas	697,700	O	I-Material
+using	701,706	O	O
+a	707,708	O	O
+commercially	709,721	O	O
+available	722,731	O	O
+atomizer	732,740	O	B-Process
+(	741,742	O	O
+Model	742,747	O	O
+9392A	748,753	O	O
+,	753,754	O	O
+TSI	755,758	O	O
+,	758,759	O	O
+Inc.	760,764	O	O
+,	764,765	O	O
+St.	766,769	O	O
+Paul	770,774	O	O
+,	774,775	O	O
+MN	776,778	O	O
+)	778,779	O	O
+.	779,780	O	O
+
+The	781,784	O	O
+aerosol	785,792	O	B-Material
+droplets	793,801	O	I-Material
+were	802,806	O	O
+solidified	807,817	O	O
+in	818,820	O	O
+a	821,822	O	O
+tube	823,827	O	B-Process
+furnace	828,835	O	I-Process
+at	836,838	O	O
+400	839,842	O	O
+°	842,843	O	O
+C	843,844	O	O
+until	845,850	O	O
+dry	851,854	O	O
+.	854,855	O	O
+
+Once	856,860	O	O
+dried	861,866	O	O
+,	866,867	O	O
+a	868,869	O	O
+durapore	870,878	O	B-Material
+membrane	879,887	O	I-Material
+filter	888,894	O	I-Material
+,	894,895	O	O
+kept	896,900	O	O
+at	901,903	O	O
+80	904,906	O	O
+°	906,907	O	O
+C	907,908	O	O
+,	908,909	O	O
+was	910,913	O	O
+used	914,918	O	O
+to	919,921	O	O
+collect	922,929	O	O
+the	930,933	O	O
+particles	934,943	O	O
+.	943,944	O	O
+
+As	945,947	O	O
+a	948,949	O	O
+final	950,955	O	O
+step	956,960	O	O
+,	960,961	O	O
+the	962,965	O	O
+surfactant	966,976	O	B-Material
+was	977,980	O	O
+removed	981,988	O	O
+at	989,991	O	O
+400	992,995	O	O
+°	995,996	O	O
+C	996,997	O	O
+for	998,1001	O	O
+5h	1002,1004	O	O
+via	1005,1008	O	O
+calcination	1009,1020	O	B-Process
+.	1020,1021	O	O
+
+The	1022,1025	O	O
+surface	1026,1033	O	O
+of	1034,1036	O	O
+the	1037,1040	O	O
+mesoporous	1041,1051	O	B-Material
+silica	1052,1058	O	I-Material
+core	1059,1063	O	I-Material
+in	1064,1066	O	O
+these	1067,1072	O	O
+studies	1073,1080	O	O
+was	1081,1084	O	O
+chemically	1085,1095	O	O
+modified	1096,1104	O	O
+with	1105,1109	O	O
+10wt.%	1110,1116	O	O
+or	1117,1119	O	O
+15wt.%	1120,1126	O	O
+by	1127,1129	O	O
+aminopropyltriethoxysilane	1130,1156	O	B-Material
+(	1157,1158	O	O
+APTES	1158,1163	O	B-Material
+;	1163,1164	O	O
+Sigma	1165,1170	O	O
+-	1170,1171	O	O
+Aldrich	1171,1178	O	O
+Corp.	1179,1184	O	O
+,	1184,1185	O	O
+St.	1186,1189	O	O
+Louis	1190,1195	O	O
+,	1195,1196	O	O
+MO	1197,1199	O	O
+)	1199,1200	O	O
+conducted	1201,1210	O	O
+identically	1211,1222	O	O
+as	1223,1225	O	O
+previously	1226,1236	O	O
+described	1237,1246	O	O
+[	1247,1248	O	O
+17	1248,1250	O	O
+]	1250,1251	O	O
+to	1252,1254	O	O
+create	1255,1261	O	O
+a	1262,1263	O	O
+positive	1264,1272	O	O
+surface	1273,1280	O	O
+charge	1281,1287	O	O
+to	1288,1290	O	O
+increase	1291,1299	O	O
+loading	1300,1307	O	O
+efficiency	1308,1318	O	O
+of	1319,1321	O	O
+negatively	1322,1332	O	O
+charged	1333,1340	O	O
+cargo	1341,1346	O	O
+.	1346,1347	O	O
+
+Further	1348,1355	O	O
+,	1355,1356	O	O
+Liu	1357,1360	O	O
+and	1361,1364	O	O
+colleagues	1365,1375	O	O
+report	1376,1382	O	O
+the	1383,1386	O	O
+colloidal	1387,1396	O	O
+stability	1397,1406	O	O
+of	1407,1409	O	O
+these	1410,1415	O	O
+protocells	1416,1426	O	B-Material
+with	1427,1431	O	O
+lipid	1432,1437	O	O
+bilayers	1438,1446	O	O
+,	1446,1447	O	O
+excess	1448,1454	O	O
+amount	1455,1461	O	O
+of	1462,1464	O	O
+liposomes	1465,1474	O	B-Material
+(	1475,1476	O	O
+50μg	1476,1480	O	O
+liposomes	1481,1490	O	O
+per	1491,1494	O	O
+0.5	1495,1498	O	O
+mg	1498,1500	O	O
+silica	1501,1507	O	O
+were	1508,1512	O	O
+used	1513,1517	O	O
+[	1518,1519	O	O
+18	1519,1521	O	O
+]	1521,1522	O	O
+)	1522,1523	O	O
+.	1523,1524	O	O
 
 
 -DOCSTART- (S0168365913009589)
 
-Ultrasound	0	10	B-Process
-(	11	12	O
-US	12	14	B-Process
-)	14	15	O
-can	16	19	O
-initiate	20	28	O
-the	29	32	O
-release	33	40	O
-of	41	43	O
-drugs	44	49	O
-from	50	54	O
-liposomes	55	64	B-Material
-via	65	68	O
-an	69	71	O
-event	72	77	O
-called	78	84	O
-inertial	85	93	B-Task
-cavitation	94	104	I-Task
-,	104	105	O
-whereby	106	113	O
-the	114	117	O
-rarefactional	118	131	O
-phase	132	137	O
-of	138	140	O
-an	141	143	O
-ultrasound	144	154	O
-wave	155	159	O
-causes	160	166	O
-the	167	170	O
-expansion	171	180	O
-of	181	183	O
-a	184	185	O
-gas	186	189	B-Material
-bubble	190	196	I-Material
-followed	197	205	O
-by	206	208	O
-a	209	210	O
-violent	211	218	O
-collapse	219	227	O
-due	228	231	O
-to	232	234	O
-the	235	238	O
-inertia	239	246	O
-of	247	249	O
-the	250	253	O
-surrounding	254	265	O
-media	266	271	O
-.	271	272	O
-
-This	273	277	O
-collapse	278	286	O
-creates	287	294	O
-shock	295	300	O
-waves	301	306	O
-which	307	312	O
-can	313	316	O
-disrupt	317	324	O
-the	325	328	O
-stability	329	338	O
-of	339	341	O
-co	342	344	O
--	344	345	O
-localised	345	354	O
-liposomal	355	364	O
-drug	365	369	O
-carriers	370	378	O
-.	378	379	O
-
-To	380	382	O
-date	383	387	O
-,	387	388	O
-studies	389	396	O
-have	397	401	O
-concentrated	402	414	O
-on	415	417	O
-the	418	421	O
-use	422	425	O
-of	426	428	O
-low	429	432	O
-frequency	433	442	O
-or	443	445	O
-high	446	450	O
-intensity	451	460	O
-US	461	463	B-Process
-to	464	466	O
-generate	467	475	O
-gas	476	479	B-Material
-bubbles	480	487	I-Material
-in	488	490	O
-situ	491	495	O
-,	495	496	O
-and	497	500	O
-most	501	505	O
-recently	506	514	O
-such	515	519	O
-parameters	520	530	O
-have	531	535	O
-been	536	540	O
-used	541	545	O
-to	546	548	O
-achieve	549	556	O
-a	557	558	O
-variable	559	567	O
-level	568	573	O
-of	574	576	O
-triggered	577	586	O
-drug	587	591	O
-release	592	599	O
-following	600	609	O
-an	610	612	O
-intratumoral	613	625	B-Process
-injection	626	635	I-Process
-of	636	638	O
-liposomes	639	648	O
-[	649	650	O
-14	650	652	O
-]	652	653	O
-.	653	654	O
-
-However	655	662	O
-,	662	663	O
-concerns	664	672	O
-persist	673	680	O
-over	681	685	O
-the	686	689	O
-damage	690	696	O
-to	697	699	O
-non	700	703	O
--	703	704	O
-target	704	710	O
-tissue	711	717	O
-that	718	722	O
-such	723	727	O
-US	728	730	B-Process
-exposure	731	739	O
-parameters	740	750	O
-may	751	754	O
-cause	755	760	O
-and	761	764	O
-whether	765	772	O
-ultimately	773	783	O
-they	784	788	O
-will	789	793	O
-be	794	796	O
-widely	797	803	O
-clinically	804	814	O
-applicable	815	825	O
-.	825	826	O
-
-An	827	829	O
-alternative	830	841	O
-strategy	842	850	O
-is	851	853	O
-to	854	856	O
-utilise	857	864	O
-high	865	869	O
--	869	870	O
-frequency	870	879	O
-US	880	882	B-Process
-pulses	883	889	O
-at	890	892	O
-pressures	893	902	O
-in	903	905	O
-the	906	909	O
-diagnostic	910	920	O
-range	921	926	O
-in	927	929	O
-the	930	933	O
-presence	934	942	O
-of	943	945	O
-pre	946	949	O
--	949	950	O
-existing	950	958	O
-gas	959	962	O
-bubbles	963	970	O
-.	970	971	O
-
-This	972	976	O
-provides	977	985	O
-an	986	988	O
-inertial	989	997	B-Task
-cavitation	998	1008	I-Task
-stimulus	1009	1017	O
-for	1018	1021	O
-drug	1022	1026	O
-release	1027	1034	O
-using	1035	1040	O
-safe	1041	1045	O
-,	1045	1046	O
-clinically	1047	1057	O
-achievable	1058	1068	O
-US	1069	1071	B-Process
-exposure	1072	1080	O
-conditions	1081	1091	O
-and	1092	1095	O
-approved	1096	1104	O
-US	1105	1107	B-Material
-contrast	1108	1116	I-Material
-agents	1117	1123	I-Material
-[	1124	1125	O
-15	1125	1127	O
-]	1127	1128	O
-.	1128	1129	O
-
-Indeed	1130	1136	O
-,	1136	1137	O
-in	1138	1140	O
-the	1141	1144	O
-context	1145	1152	O
-of	1153	1155	O
-improving	1156	1165	O
-the	1166	1169	O
-delivery	1170	1178	O
-of	1179	1181	O
-therapeutics	1182	1194	O
-such	1195	1199	O
-as	1200	1202	O
-oncolytic	1203	1212	B-Material
-viruses	1213	1220	I-Material
-,	1220	1221	O
-this	1222	1226	O
-approach	1227	1235	O
-has	1236	1239	O
-already	1240	1247	O
-shown	1248	1253	O
-great	1254	1259	O
-promise	1260	1267	O
-[	1268	1269	O
-16	1269	1271	O
-]	1271	1272	O
-.	1272	1273	O
-
-A	1274	1275	O
-further	1276	1283	O
-advantage	1284	1293	O
-of	1294	1296	O
-this	1297	1301	O
-approach	1302	1310	O
-is	1311	1313	O
-that	1314	1318	O
-US	1319	1321	B-Process
--	1321	1322	I-Process
-induced	1322	1329	I-Process
-cavitation	1330	1340	I-Process
-events	1341	1347	O
-produce	1348	1355	O
-distinct	1356	1364	O
-acoustic	1365	1373	O
-emissions	1374	1383	O
-that	1384	1388	O
-can	1389	1392	O
-be	1393	1395	O
-recorded	1396	1404	O
-and	1405	1408	O
-characterised	1409	1422	O
-providing	1423	1432	O
-non	1433	1436	O
--	1436	1437	O
-invasive	1437	1445	O
-feedback	1446	1454	O
-,	1454	1455	O
-a	1456	1457	O
-feature	1458	1465	O
-which	1466	1471	O
-has	1472	1475	O
-proven	1476	1482	O
-useful	1483	1489	O
-in	1490	1492	O
-ablative	1493	1501	O
-US	1502	1504	B-Process
-applications	1505	1517	O
-[	1518	1519	O
-17–19	1519	1524	O
-]	1524	1525	O
-.	1525	1526	O
+Ultrasound	0,10	O	B-Process
+(	11,12	O	O
+US	12,14	O	B-Process
+)	14,15	O	O
+can	16,19	O	O
+initiate	20,28	O	O
+the	29,32	O	O
+release	33,40	O	O
+of	41,43	O	O
+drugs	44,49	O	O
+from	50,54	O	O
+liposomes	55,64	O	B-Material
+via	65,68	O	O
+an	69,71	O	O
+event	72,77	O	O
+called	78,84	O	O
+inertial	85,93	O	B-Task
+cavitation	94,104	O	I-Task
+,	104,105	O	O
+whereby	106,113	O	O
+the	114,117	O	O
+rarefactional	118,131	O	O
+phase	132,137	O	O
+of	138,140	O	O
+an	141,143	O	O
+ultrasound	144,154	O	O
+wave	155,159	O	O
+causes	160,166	O	O
+the	167,170	O	O
+expansion	171,180	O	O
+of	181,183	O	O
+a	184,185	O	O
+gas	186,189	O	B-Material
+bubble	190,196	O	I-Material
+followed	197,205	O	O
+by	206,208	O	O
+a	209,210	O	O
+violent	211,218	O	O
+collapse	219,227	O	O
+due	228,231	O	O
+to	232,234	O	O
+the	235,238	O	O
+inertia	239,246	O	O
+of	247,249	O	O
+the	250,253	O	O
+surrounding	254,265	O	O
+media	266,271	O	O
+.	271,272	O	O
+
+This	273,277	O	O
+collapse	278,286	O	O
+creates	287,294	O	O
+shock	295,300	O	O
+waves	301,306	O	O
+which	307,312	O	O
+can	313,316	O	O
+disrupt	317,324	O	O
+the	325,328	O	O
+stability	329,338	O	O
+of	339,341	O	O
+co	342,344	O	O
+-	344,345	O	O
+localised	345,354	O	O
+liposomal	355,364	O	O
+drug	365,369	O	O
+carriers	370,378	O	O
+.	378,379	O	O
+
+To	380,382	O	O
+date	383,387	O	O
+,	387,388	O	O
+studies	389,396	O	O
+have	397,401	O	O
+concentrated	402,414	O	O
+on	415,417	O	O
+the	418,421	O	O
+use	422,425	O	O
+of	426,428	O	O
+low	429,432	O	O
+frequency	433,442	O	O
+or	443,445	O	O
+high	446,450	O	O
+intensity	451,460	O	O
+US	461,463	O	B-Process
+to	464,466	O	O
+generate	467,475	O	O
+gas	476,479	O	B-Material
+bubbles	480,487	O	I-Material
+in	488,490	O	O
+situ	491,495	O	O
+,	495,496	O	O
+and	497,500	O	O
+most	501,505	O	O
+recently	506,514	O	O
+such	515,519	O	O
+parameters	520,530	O	O
+have	531,535	O	O
+been	536,540	O	O
+used	541,545	O	O
+to	546,548	O	O
+achieve	549,556	O	O
+a	557,558	O	O
+variable	559,567	O	O
+level	568,573	O	O
+of	574,576	O	O
+triggered	577,586	O	O
+drug	587,591	O	O
+release	592,599	O	O
+following	600,609	O	O
+an	610,612	O	O
+intratumoral	613,625	O	B-Process
+injection	626,635	O	I-Process
+of	636,638	O	O
+liposomes	639,648	O	O
+[	649,650	O	O
+14	650,652	O	O
+]	652,653	O	O
+.	653,654	O	O
+
+However	655,662	O	O
+,	662,663	O	O
+concerns	664,672	O	O
+persist	673,680	O	O
+over	681,685	O	O
+the	686,689	O	O
+damage	690,696	O	O
+to	697,699	O	O
+non	700,703	O	O
+-	703,704	O	O
+target	704,710	O	O
+tissue	711,717	O	O
+that	718,722	O	O
+such	723,727	O	O
+US	728,730	O	B-Process
+exposure	731,739	O	O
+parameters	740,750	O	O
+may	751,754	O	O
+cause	755,760	O	O
+and	761,764	O	O
+whether	765,772	O	O
+ultimately	773,783	O	O
+they	784,788	O	O
+will	789,793	O	O
+be	794,796	O	O
+widely	797,803	O	O
+clinically	804,814	O	O
+applicable	815,825	O	O
+.	825,826	O	O
+
+An	827,829	O	O
+alternative	830,841	O	O
+strategy	842,850	O	O
+is	851,853	O	O
+to	854,856	O	O
+utilise	857,864	O	O
+high	865,869	O	O
+-	869,870	O	O
+frequency	870,879	O	O
+US	880,882	O	B-Process
+pulses	883,889	O	O
+at	890,892	O	O
+pressures	893,902	O	O
+in	903,905	O	O
+the	906,909	O	O
+diagnostic	910,920	O	O
+range	921,926	O	O
+in	927,929	O	O
+the	930,933	O	O
+presence	934,942	O	O
+of	943,945	O	O
+pre	946,949	O	O
+-	949,950	O	O
+existing	950,958	O	O
+gas	959,962	O	O
+bubbles	963,970	O	O
+.	970,971	O	O
+
+This	972,976	O	O
+provides	977,985	O	O
+an	986,988	O	O
+inertial	989,997	O	B-Task
+cavitation	998,1008	O	I-Task
+stimulus	1009,1017	O	O
+for	1018,1021	O	O
+drug	1022,1026	O	O
+release	1027,1034	O	O
+using	1035,1040	O	O
+safe	1041,1045	O	O
+,	1045,1046	O	O
+clinically	1047,1057	O	O
+achievable	1058,1068	O	O
+US	1069,1071	O	B-Process
+exposure	1072,1080	O	O
+conditions	1081,1091	O	O
+and	1092,1095	O	O
+approved	1096,1104	O	O
+US	1105,1107	O	B-Material
+contrast	1108,1116	O	I-Material
+agents	1117,1123	O	I-Material
+[	1124,1125	O	O
+15	1125,1127	O	O
+]	1127,1128	O	O
+.	1128,1129	O	O
+
+Indeed	1130,1136	O	O
+,	1136,1137	O	O
+in	1138,1140	O	O
+the	1141,1144	O	O
+context	1145,1152	O	O
+of	1153,1155	O	O
+improving	1156,1165	O	O
+the	1166,1169	O	O
+delivery	1170,1178	O	O
+of	1179,1181	O	O
+therapeutics	1182,1194	O	O
+such	1195,1199	O	O
+as	1200,1202	O	O
+oncolytic	1203,1212	O	B-Material
+viruses	1213,1220	O	I-Material
+,	1220,1221	O	O
+this	1222,1226	O	O
+approach	1227,1235	O	O
+has	1236,1239	O	O
+already	1240,1247	O	O
+shown	1248,1253	O	O
+great	1254,1259	O	O
+promise	1260,1267	O	O
+[	1268,1269	O	O
+16	1269,1271	O	O
+]	1271,1272	O	O
+.	1272,1273	O	O
+
+A	1274,1275	O	O
+further	1276,1283	O	O
+advantage	1284,1293	O	O
+of	1294,1296	O	O
+this	1297,1301	O	O
+approach	1302,1310	O	O
+is	1311,1313	O	O
+that	1314,1318	O	O
+US	1319,1321	O	B-Process
+-	1321,1322	O	I-Process
+induced	1322,1329	O	I-Process
+cavitation	1330,1340	O	I-Process
+events	1341,1347	O	O
+produce	1348,1355	O	O
+distinct	1356,1364	O	O
+acoustic	1365,1373	O	O
+emissions	1374,1383	O	O
+that	1384,1388	O	O
+can	1389,1392	O	O
+be	1393,1395	O	O
+recorded	1396,1404	O	O
+and	1405,1408	O	O
+characterised	1409,1422	O	O
+providing	1423,1432	O	O
+non	1433,1436	O	O
+-	1436,1437	O	O
+invasive	1437,1445	O	O
+feedback	1446,1454	O	O
+,	1454,1455	O	O
+a	1456,1457	O	O
+feature	1458,1465	O	O
+which	1466,1471	O	O
+has	1472,1475	O	O
+proven	1476,1482	O	O
+useful	1483,1489	O	O
+in	1490,1492	O	O
+ablative	1493,1501	O	O
+US	1502,1504	O	B-Process
+applications	1505,1517	O	O
+[	1518,1519	O	O
+17–19	1519,1524	O	O
+]	1524,1525	O	O
+.	1525,1526	O	O
 
 
 -DOCSTART- (S0168583X14003929)
 
-The	0	3	O
-most	4	8	O
-widely	9	15	O
-used	16	20	O
-ion	21	24	O
-source	25	31	O
-in	32	34	O
-FIB	35	38	B-Process
-instruments	39	50	I-Process
-is	51	53	O
-a	54	55	O
-gallium	56	63	B-Material
-(	64	65	O
-Ga	65	67	B-Material
-)	67	68	O
-liquid	69	75	O
-metal	76	81	O
-ion	82	85	O
-source	86	92	O
-(	93	94	O
-LMIS	94	98	O
-)	98	99	O
-[	100	101	O
-1	101	102	O
-]	102	103	O
-.	103	104	O
-
-Gallium	105	112	B-Material
-is	113	115	O
-attractive	116	126	O
-as	127	129	O
-an	130	132	O
-ion	133	136	O
-source	137	143	O
-because	144	151	O
-of	152	154	O
-its	155	158	O
-low	159	162	O
-melting	163	170	O
-temperature	171	182	O
-(	183	184	O
-29.8	184	188	O
-°	188	189	O
-C	189	190	O
-at	191	193	O
-standard	194	202	O
-atmospheric	203	214	O
-pressure	215	223	O
-[	224	225	O
-4	225	226	O
-]	226	227	O
-)	227	228	O
-and	229	232	O
-its	233	236	O
-low	237	240	O
-volatility	241	251	O
-[	252	253	O
-1	253	254	O
-]	254	255	O
-.	255	256	O
-
-However	257	264	O
-,	264	265	O
-some	266	270	O
-materials	271	280	O
-show	281	285	O
-sensitivity	286	297	O
-to	298	300	O
-the	301	304	O
-Ga	305	307	B-Process
-ion	308	311	I-Process
-beam	312	316	I-Process
-.	316	317	O
-
-This	318	322	O
-sensitivity	323	334	O
-is	335	337	O
-manifested	338	348	O
-as	349	351	O
-changes	352	359	O
-in	360	362	O
-the	363	366	O
-structure	367	376	O
-and	377	380	O
-chemical	381	389	O
-composition	390	401	O
-of	402	404	O
-the	405	408	O
-starting	409	417	O
-material	418	426	O
-upon	427	431	O
-exposure	432	440	O
-to	441	443	O
-the	444	447	O
-Ga	448	450	B-Process
-ion	451	454	I-Process
-beam	455	459	I-Process
-[	460	461	O
-5	461	462	O
-]	462	463	O
-.	463	464	O
-
-Group	465	470	O
-III	471	474	O
-–	474	475	O
-V	475	476	O
-compound	477	485	O
-semiconductors	486	500	B-Process
-are	501	504	O
-one	505	508	O
-class	509	514	O
-of	515	517	O
-materials	518	527	O
-that	528	532	O
-show	533	537	O
-such	538	542	O
-sensitivity	543	554	O
-.	554	555	O
-
-Cryo	556	560	B-Task
--	560	561	I-Task
-FIB	561	564	I-Task
-milling	565	572	I-Task
-has	573	576	O
-recently	577	585	O
-been	586	590	O
-reported	591	599	O
-to	600	602	O
-suppress	603	611	O
-the	612	615	O
-reactions	616	625	O
-between	626	633	O
-the	634	637	O
-Ga	638	640	B-Process
-ion	641	644	I-Process
-beam	645	649	I-Process
-and	650	653	O
-III	654	657	B-Material
-–	657	658	I-Material
-V	658	659	I-Material
-materials	660	669	I-Material
-[	670	671	O
-6	671	672	O
-]	672	673	O
-.	673	674	O
-
-The	675	678	O
-suggested	679	688	O
-advantage	689	698	O
-of	699	701	O
-cryo	702	706	B-Task
--	706	707	I-Task
-FIB	707	710	I-Task
-milling	711	718	I-Task
-over	719	723	O
-room	724	728	O
-temperature	729	740	O
-milling	741	748	O
-of	749	751	O
-Group	752	757	B-Material
-III	758	761	I-Material
-–	761	762	I-Material
-V	762	763	I-Material
-materials	764	773	I-Material
-is	774	776	O
-appealing	777	786	O
-,	786	787	O
-given	788	793	O
-the	794	797	O
-variety	798	805	O
-of	806	808	O
-present	809	816	O
-and	817	820	O
-potential	821	830	O
-future	831	837	O
-applications	838	850	O
-for	851	854	O
-these	855	860	O
-materials	861	870	O
-(	871	872	O
-e.g.	872	876	O
-,	876	877	O
-as	878	880	O
-electronic	881	891	B-Process
-or	892	894	I-Process
-photonic	895	903	I-Process
-devices	904	911	I-Process
-given	912	917	O
-the	918	921	O
-favorable	922	931	O
-electron	932	940	O
-transport	941	950	O
-and	951	954	O
-direct	955	961	O
-band	962	966	O
-gap	967	970	O
-properties	971	981	O
-associated	982	992	O
-with	993	997	O
-several	998	1005	O
-III	1006	1009	O
-–	1009	1010	O
-V	1010	1011	O
-semiconductor	1012	1025	B-Process
-systems	1026	1033	O
-)	1033	1034	O
-.	1034	1035	O
+The	0,3	O	O
+most	4,8	O	O
+widely	9,15	O	O
+used	16,20	O	O
+ion	21,24	O	O
+source	25,31	O	O
+in	32,34	O	O
+FIB	35,38	O	B-Process
+instruments	39,50	O	I-Process
+is	51,53	O	O
+a	54,55	O	O
+gallium	56,63	O	B-Material
+(	64,65	O	O
+Ga	65,67	O	B-Material
+)	67,68	O	O
+liquid	69,75	O	O
+metal	76,81	O	O
+ion	82,85	O	O
+source	86,92	O	O
+(	93,94	O	O
+LMIS	94,98	O	O
+)	98,99	O	O
+[	100,101	O	O
+1	101,102	O	O
+]	102,103	O	O
+.	103,104	O	O
+
+Gallium	105,112	O	B-Material
+is	113,115	O	O
+attractive	116,126	O	O
+as	127,129	O	O
+an	130,132	O	O
+ion	133,136	O	O
+source	137,143	O	O
+because	144,151	O	O
+of	152,154	O	O
+its	155,158	O	O
+low	159,162	O	O
+melting	163,170	O	O
+temperature	171,182	O	O
+(	183,184	O	O
+29.8	184,188	O	O
+°	188,189	O	O
+C	189,190	O	O
+at	191,193	O	O
+standard	194,202	O	O
+atmospheric	203,214	O	O
+pressure	215,223	O	O
+[	224,225	O	O
+4	225,226	O	O
+]	226,227	O	O
+)	227,228	O	O
+and	229,232	O	O
+its	233,236	O	O
+low	237,240	O	O
+volatility	241,251	O	O
+[	252,253	O	O
+1	253,254	O	O
+]	254,255	O	O
+.	255,256	O	O
+
+However	257,264	O	O
+,	264,265	O	O
+some	266,270	O	O
+materials	271,280	O	O
+show	281,285	O	O
+sensitivity	286,297	O	O
+to	298,300	O	O
+the	301,304	O	O
+Ga	305,307	O	B-Process
+ion	308,311	O	I-Process
+beam	312,316	O	I-Process
+.	316,317	O	O
+
+This	318,322	O	O
+sensitivity	323,334	O	O
+is	335,337	O	O
+manifested	338,348	O	O
+as	349,351	O	O
+changes	352,359	O	O
+in	360,362	O	O
+the	363,366	O	O
+structure	367,376	O	O
+and	377,380	O	O
+chemical	381,389	O	O
+composition	390,401	O	O
+of	402,404	O	O
+the	405,408	O	O
+starting	409,417	O	O
+material	418,426	O	O
+upon	427,431	O	O
+exposure	432,440	O	O
+to	441,443	O	O
+the	444,447	O	O
+Ga	448,450	O	B-Process
+ion	451,454	O	I-Process
+beam	455,459	O	I-Process
+[	460,461	O	O
+5	461,462	O	O
+]	462,463	O	O
+.	463,464	O	O
+
+Group	465,470	O	O
+III	471,474	O	O
+–	474,475	O	O
+V	475,476	O	O
+compound	477,485	O	O
+semiconductors	486,500	O	B-Process
+are	501,504	O	O
+one	505,508	O	O
+class	509,514	O	O
+of	515,517	O	O
+materials	518,527	O	O
+that	528,532	O	O
+show	533,537	O	O
+such	538,542	O	O
+sensitivity	543,554	O	O
+.	554,555	O	O
+
+Cryo	556,560	O	B-Task
+-	560,561	O	I-Task
+FIB	561,564	O	I-Task
+milling	565,572	O	I-Task
+has	573,576	O	O
+recently	577,585	O	O
+been	586,590	O	O
+reported	591,599	O	O
+to	600,602	O	O
+suppress	603,611	O	O
+the	612,615	O	O
+reactions	616,625	O	O
+between	626,633	O	O
+the	634,637	O	O
+Ga	638,640	O	B-Process
+ion	641,644	O	I-Process
+beam	645,649	O	I-Process
+and	650,653	O	O
+III	654,657	O	B-Material
+–	657,658	O	I-Material
+V	658,659	O	I-Material
+materials	660,669	O	I-Material
+[	670,671	O	O
+6	671,672	O	O
+]	672,673	O	O
+.	673,674	O	O
+
+The	675,678	O	O
+suggested	679,688	O	O
+advantage	689,698	O	O
+of	699,701	O	O
+cryo	702,706	O	B-Task
+-	706,707	O	I-Task
+FIB	707,710	O	I-Task
+milling	711,718	O	I-Task
+over	719,723	O	O
+room	724,728	O	O
+temperature	729,740	O	O
+milling	741,748	O	O
+of	749,751	O	O
+Group	752,757	O	B-Material
+III	758,761	O	I-Material
+–	761,762	O	I-Material
+V	762,763	O	I-Material
+materials	764,773	O	I-Material
+is	774,776	O	O
+appealing	777,786	O	O
+,	786,787	O	O
+given	788,793	O	O
+the	794,797	O	O
+variety	798,805	O	O
+of	806,808	O	O
+present	809,816	O	O
+and	817,820	O	O
+potential	821,830	O	O
+future	831,837	O	O
+applications	838,850	O	O
+for	851,854	O	O
+these	855,860	O	O
+materials	861,870	O	O
+(	871,872	O	O
+e.g.	872,876	O	O
+,	876,877	O	O
+as	878,880	O	O
+electronic	881,891	O	B-Process
+or	892,894	O	I-Process
+photonic	895,903	O	I-Process
+devices	904,911	O	I-Process
+given	912,917	O	O
+the	918,921	O	O
+favorable	922,931	O	O
+electron	932,940	O	O
+transport	941,950	O	O
+and	951,954	O	O
+direct	955,961	O	O
+band	962,966	O	O
+gap	967,970	O	O
+properties	971,981	O	O
+associated	982,992	O	O
+with	993,997	O	O
+several	998,1005	O	O
+III	1006,1009	O	O
+–	1009,1010	O	O
+V	1010,1011	O	O
+semiconductor	1012,1025	O	B-Process
+systems	1026,1033	O	O
+)	1033,1034	O	O
+.	1034,1035	O	O
 
 
 -DOCSTART- (S0257897213003563)
 
-According	0	9	O
-to	10	12	O
-the	13	16	O
-ellipsometric	17	30	B-Process
-spectra	31	38	I-Process
-,	38	39	O
-optical	40	47	B-Process
-constants	48	57	I-Process
-and	58	61	O
-other	62	67	O
-physical	68	76	O
-parameters	77	87	O
-can	88	91	O
-be	92	94	O
-extracted	95	104	O
-by	105	107	O
-an	108	110	O
-appropriate	111	122	O
-fitting	123	130	O
-model	131	136	O
-.	136	137	O
-
-In	138	140	O
-order	141	146	O
-to	147	149	O
-estimate	150	158	O
-the	159	162	O
-optical	163	170	B-Process
-constants	171	180	I-Process
-/	180	181	I-Process
-dielectric	181	191	I-Process
-functions	192	201	O
-of	202	204	O
-Ni	205	207	B-Material
--	207	208	I-Material
-doped	208	213	I-Material
-TiO2	214	218	I-Material
-films	219	224	I-Material
-,	224	225	O
-a	226	227	O
-three	228	233	B-Process
--	233	234	I-Process
-phase	234	239	I-Process
-layered	240	247	I-Process
-system	248	254	I-Process
-(	255	256	O
-air	256	259	B-Process
-/	259	260	I-Process
-film	260	264	I-Process
-/	264	265	I-Process
-substrate	265	274	I-Process
-)	274	275	O
-[	276	277	O
-15	277	279	O
-]	279	280	O
-was	281	284	O
-utilized	285	293	O
-to	294	296	O
-study	297	302	O
-the	303	306	O
-ellipsometric	307	320	O
-spectra	321	328	O
-.	328	329	O
-
-TiO2	330	334	O
-belongs	335	342	O
-to	343	345	O
-the	346	349	O
-wide	350	354	O
-band	355	359	O
-gap	360	363	O
-semiconductors	364	378	B-Process
-.	378	379	O
-
-Considering	380	391	O
-the	392	395	O
-contribution	396	408	O
-of	409	411	O
-the	412	415	O
-M0	416	418	O
-type	419	423	O
-critical	424	432	O
-point	433	438	O
-with	439	443	O
-the	444	447	O
-lowest	448	454	O
-three	455	460	O
-dimensions	461	471	O
-,	471	472	O
-its	473	476	O
-dielectric	477	487	O
-function	488	496	O
-can	497	500	O
-be	501	503	O
-calculated	504	514	O
-by	515	517	O
-Adachi	518	524	B-Process
-'s	524	526	I-Process
-model	527	532	I-Process
-[	533	534	O
-15,22,23	534	542	O
-]	542	543	O
-:	543	544	O
-ε(Ε)=ε∞+{A0[2−(1+χ0)1/2−(1−χ0)1/2]}/(EOBG2/3χ02	545	592	B-Process
-)	592	593	I-Process
-.	593	594	O
-
-In	595	597	O
-the	598	601	O
-model	602	607	O
-,	607	608	O
-E	609	610	B-Process
-is	611	613	O
-the	614	617	O
-incident	618	626	B-Process
-photon	627	633	I-Process
-energy	634	640	I-Process
-,	640	641	O
-ε∞	642	644	B-Process
-is	645	647	O
-the	648	651	O
-high	652	656	B-Process
--	656	657	I-Process
-frequency	657	666	I-Process
-dielectric	667	677	I-Process
-constant	678	686	I-Process
-,	686	687	O
-χ0=(E+iΓ	688	696	B-Process
-)	696	697	I-Process
-,	697	698	O
-EOBG	699	703	B-Process
-is	704	706	O
-the	707	710	O
-optical	711	718	O
-gap	719	722	O
-energy	723	729	O
-,	729	730	O
-and	731	734	O
-A0	735	737	B-Process
-and	738	741	I-Process
-Γ	742	743	I-Process
-are	744	747	O
-the	748	751	O
-strength	752	760	B-Process
-and	761	764	I-Process
-broadening	765	775	I-Process
-parameters	776	786	I-Process
-of	787	789	O
-the	790	793	O
-EOBG	794	798	B-Process
-transition	799	809	O
-,	809	810	O
-respectively	811	823	O
-.	823	824	O
-
-As	825	827	O
-an	828	830	O
-example	831	838	O
-,	838	839	O
-the	840	843	O
-experimental	844	856	O
-SE	857	859	B-Process
-of	860	862	O
-the	863	866	O
-film	867	871	O
-TN1	872	875	O
-at	876	878	O
-an	879	881	O
-incident	882	890	O
-angle	891	896	O
-70	897	899	O
-°	899	900	O
-by	901	903	O
-dot	904	907	O
-scatter	908	915	O
-is	916	918	O
-shown	919	924	O
-in	925	927	O
-Fig	928	931	O
-.	931	932	O
-
-4	933	934	O
-.	934	935	O
-
-The	936	939	O
-Fabry	940	945	B-Material
-–	945	946	I-Material
-Pérot	946	951	I-Material
-interference	952	964	I-Material
-oscillations	965	977	O
-due	978	981	O
-to	982	984	O
-multiple	985	993	O
-reflections	994	1005	O
-within	1006	1012	O
-the	1013	1016	O
-film	1017	1021	O
-have	1022	1026	O
-been	1027	1031	O
-found	1032	1037	O
-in	1038	1040	O
-the	1041	1044	O
-photon	1045	1051	O
-energy	1052	1058	O
-from	1059	1063	O
-1.5eV	1064	1069	O
-to	1070	1072	O
-3.5eV	1073	1078	O
-(	1079	1080	O
-354nm–826	1080	1089	O
-nm	1089	1091	O
-)	1091	1092	O
-,	1092	1093	O
-which	1094	1099	O
-indicates	1100	1109	O
-that	1110	1114	O
-the	1115	1118	O
-films	1119	1124	O
-are	1125	1128	O
-transparent	1129	1140	O
-in	1141	1143	O
-this	1144	1148	O
-region	1149	1155	O
-.	1155	1156	O
-
-Note	1157	1161	O
-that	1162	1166	O
-a	1167	1168	O
-good	1169	1173	O
-agreement	1174	1183	O
-of	1184	1186	O
-the	1187	1190	O
-experimental	1191	1203	O
-and	1204	1207	O
-calculated	1208	1218	O
-spectra	1219	1226	O
-is	1227	1229	O
-attained	1230	1238	O
-in	1239	1241	O
-the	1242	1245	O
-whole	1246	1251	O
-measured	1252	1260	O
-photon	1261	1267	O
-energy	1268	1274	O
-range	1275	1280	O
-.	1280	1281	O
-
-The	1282	1285	O
-fitting	1286	1293	O
-thickness	1294	1303	O
-for	1304	1307	O
-film	1308	1312	O
-TN2	1313	1316	O
-is	1317	1319	O
-159	1320	1323	O
-nm	1323	1325	O
-,	1325	1326	O
-which	1327	1332	O
-is	1333	1335	O
-very	1336	1340	O
-near	1341	1345	O
-to	1346	1348	O
-the	1349	1352	O
-value	1353	1358	O
-obtained	1359	1367	O
-by	1368	1370	O
-SEM	1371	1374	B-Process
-(	1375	1376	O
-see	1376	1379	O
-Fig	1380	1383	O
-.	1383	1384	O
-
-1(b	1385	1388	O
-)	1388	1389	O
-)	1389	1390	O
-.	1390	1391	O
+According	0,9	O	O
+to	10,12	O	O
+the	13,16	O	O
+ellipsometric	17,30	O	B-Process
+spectra	31,38	O	I-Process
+,	38,39	O	O
+optical	40,47	O	B-Process
+constants	48,57	O	I-Process
+and	58,61	O	O
+other	62,67	O	O
+physical	68,76	O	O
+parameters	77,87	O	O
+can	88,91	O	O
+be	92,94	O	O
+extracted	95,104	O	O
+by	105,107	O	O
+an	108,110	O	O
+appropriate	111,122	O	O
+fitting	123,130	O	O
+model	131,136	O	O
+.	136,137	O	O
+
+In	138,140	O	O
+order	141,146	O	O
+to	147,149	O	O
+estimate	150,158	O	O
+the	159,162	O	O
+optical	163,170	O	B-Process
+constants	171,180	O	I-Process
+/	180,181	O	I-Process
+dielectric	181,191	O	I-Process
+functions	192,201	O	O
+of	202,204	O	O
+Ni	205,207	O	B-Material
+-	207,208	O	I-Material
+doped	208,213	O	I-Material
+TiO2	214,218	O	I-Material
+films	219,224	O	I-Material
+,	224,225	O	O
+a	226,227	O	O
+three	228,233	O	B-Process
+-	233,234	O	I-Process
+phase	234,239	O	I-Process
+layered	240,247	O	I-Process
+system	248,254	O	I-Process
+(	255,256	O	O
+air	256,259	O	B-Process
+/	259,260	O	I-Process
+film	260,264	O	I-Process
+/	264,265	O	I-Process
+substrate	265,274	O	I-Process
+)	274,275	O	O
+[	276,277	O	O
+15	277,279	O	O
+]	279,280	O	O
+was	281,284	O	O
+utilized	285,293	O	O
+to	294,296	O	O
+study	297,302	O	O
+the	303,306	O	O
+ellipsometric	307,320	O	O
+spectra	321,328	O	O
+.	328,329	O	O
+
+TiO2	330,334	O	O
+belongs	335,342	O	O
+to	343,345	O	O
+the	346,349	O	O
+wide	350,354	O	O
+band	355,359	O	O
+gap	360,363	O	O
+semiconductors	364,378	O	B-Process
+.	378,379	O	O
+
+Considering	380,391	O	O
+the	392,395	O	O
+contribution	396,408	O	O
+of	409,411	O	O
+the	412,415	O	O
+M0	416,418	O	O
+type	419,423	O	O
+critical	424,432	O	O
+point	433,438	O	O
+with	439,443	O	O
+the	444,447	O	O
+lowest	448,454	O	O
+three	455,460	O	O
+dimensions	461,471	O	O
+,	471,472	O	O
+its	473,476	O	O
+dielectric	477,487	O	O
+function	488,496	O	O
+can	497,500	O	O
+be	501,503	O	O
+calculated	504,514	O	O
+by	515,517	O	O
+Adachi	518,524	O	B-Process
+'s	524,526	O	I-Process
+model	527,532	O	I-Process
+[	533,534	O	O
+15,22,23	534,542	O	O
+]	542,543	O	O
+:	543,544	O	O
+ε(Ε)=ε∞+{A0[2−(1+χ0)1/2−(1−χ0)1/2]}/(EOBG2/3χ02	545,592	O	B-Process
+)	592,593	O	I-Process
+.	593,594	O	O
+
+In	595,597	O	O
+the	598,601	O	O
+model	602,607	O	O
+,	607,608	O	O
+E	609,610	O	B-Process
+is	611,613	O	O
+the	614,617	O	O
+incident	618,626	O	B-Process
+photon	627,633	O	I-Process
+energy	634,640	O	I-Process
+,	640,641	O	O
+ε∞	642,644	O	B-Process
+is	645,647	O	O
+the	648,651	O	O
+high	652,656	O	B-Process
+-	656,657	O	I-Process
+frequency	657,666	O	I-Process
+dielectric	667,677	O	I-Process
+constant	678,686	O	I-Process
+,	686,687	O	O
+χ0=(E+iΓ	688,696	O	B-Process
+)	696,697	O	I-Process
+,	697,698	O	O
+EOBG	699,703	O	B-Process
+is	704,706	O	O
+the	707,710	O	O
+optical	711,718	O	O
+gap	719,722	O	O
+energy	723,729	O	O
+,	729,730	O	O
+and	731,734	O	O
+A0	735,737	O	B-Process
+and	738,741	O	I-Process
+Γ	742,743	O	I-Process
+are	744,747	O	O
+the	748,751	O	O
+strength	752,760	O	B-Process
+and	761,764	O	I-Process
+broadening	765,775	O	I-Process
+parameters	776,786	O	I-Process
+of	787,789	O	O
+the	790,793	O	O
+EOBG	794,798	O	B-Process
+transition	799,809	O	O
+,	809,810	O	O
+respectively	811,823	O	O
+.	823,824	O	O
+
+As	825,827	O	O
+an	828,830	O	O
+example	831,838	O	O
+,	838,839	O	O
+the	840,843	O	O
+experimental	844,856	O	O
+SE	857,859	O	B-Process
+of	860,862	O	O
+the	863,866	O	O
+film	867,871	O	O
+TN1	872,875	O	O
+at	876,878	O	O
+an	879,881	O	O
+incident	882,890	O	O
+angle	891,896	O	O
+70	897,899	O	O
+°	899,900	O	O
+by	901,903	O	O
+dot	904,907	O	O
+scatter	908,915	O	O
+is	916,918	O	O
+shown	919,924	O	O
+in	925,927	O	O
+Fig	928,931	O	O
+.	931,932	O	O
+
+4	933,934	O	O
+.	934,935	O	O
+
+The	936,939	O	O
+Fabry	940,945	O	B-Material
+–	945,946	O	I-Material
+Pérot	946,951	O	I-Material
+interference	952,964	O	I-Material
+oscillations	965,977	O	O
+due	978,981	O	O
+to	982,984	O	O
+multiple	985,993	O	O
+reflections	994,1005	O	O
+within	1006,1012	O	O
+the	1013,1016	O	O
+film	1017,1021	O	O
+have	1022,1026	O	O
+been	1027,1031	O	O
+found	1032,1037	O	O
+in	1038,1040	O	O
+the	1041,1044	O	O
+photon	1045,1051	O	O
+energy	1052,1058	O	O
+from	1059,1063	O	O
+1.5eV	1064,1069	O	O
+to	1070,1072	O	O
+3.5eV	1073,1078	O	O
+(	1079,1080	O	O
+354nm–826	1080,1089	O	O
+nm	1089,1091	O	O
+)	1091,1092	O	O
+,	1092,1093	O	O
+which	1094,1099	O	O
+indicates	1100,1109	O	O
+that	1110,1114	O	O
+the	1115,1118	O	O
+films	1119,1124	O	O
+are	1125,1128	O	O
+transparent	1129,1140	O	O
+in	1141,1143	O	O
+this	1144,1148	O	O
+region	1149,1155	O	O
+.	1155,1156	O	O
+
+Note	1157,1161	O	O
+that	1162,1166	O	O
+a	1167,1168	O	O
+good	1169,1173	O	O
+agreement	1174,1183	O	O
+of	1184,1186	O	O
+the	1187,1190	O	O
+experimental	1191,1203	O	O
+and	1204,1207	O	O
+calculated	1208,1218	O	O
+spectra	1219,1226	O	O
+is	1227,1229	O	O
+attained	1230,1238	O	O
+in	1239,1241	O	O
+the	1242,1245	O	O
+whole	1246,1251	O	O
+measured	1252,1260	O	O
+photon	1261,1267	O	O
+energy	1268,1274	O	O
+range	1275,1280	O	O
+.	1280,1281	O	O
+
+The	1282,1285	O	O
+fitting	1286,1293	O	O
+thickness	1294,1303	O	O
+for	1304,1307	O	O
+film	1308,1312	O	O
+TN2	1313,1316	O	O
+is	1317,1319	O	O
+159	1320,1323	O	O
+nm	1323,1325	O	O
+,	1325,1326	O	O
+which	1327,1332	O	O
+is	1333,1335	O	O
+very	1336,1340	O	O
+near	1341,1345	O	O
+to	1346,1348	O	O
+the	1349,1352	O	O
+value	1353,1358	O	O
+obtained	1359,1367	O	O
+by	1368,1370	O	O
+SEM	1371,1374	O	B-Process
+(	1375,1376	O	O
+see	1376,1379	O	O
+Fig	1380,1383	O	O
+.	1383,1384	O	O
+
+1(b	1385,1388	O	O
+)	1388,1389	O	O
+)	1389,1390	O	O
+.	1390,1391	O	O
 
 
 -DOCSTART- (S0257897213004131)
 
-Fig	0	3	O
-.	3	4	O
-
-7	5	6	O
-shows	7	12	O
-the	13	16	O
-relationship	17	29	O
-between	30	37	O
-the	38	41	O
-testing	42	49	B-Process
-time	50	54	I-Process
-and	55	58	O
-friction	59	67	B-Process
-coefficients	68	80	I-Process
-of	81	83	O
-various	84	91	O
-samples	92	99	O
-under	100	105	O
-dry	106	109	O
-conditions	110	120	O
-.	120	121	O
-
-There	122	127	O
-exist	128	133	O
-running	134	141	O
-in	142	144	O
-and	145	148	O
-steady	149	155	O
-wear	156	160	O
-period	161	167	O
-in	168	170	O
-the	171	174	O
-wear	175	179	B-Process
-process	180	187	I-Process
-of	188	190	O
-uncoated	191	199	B-Material
-AZ31	200	204	I-Material
-and	205	208	O
-anodizing	209	218	B-Material
-coating	219	226	I-Material
-without	227	234	I-Material
-Al2O3	235	240	I-Material
-nanoparticles	241	254	I-Material
-while	255	260	O
-there	261	266	O
-has	267	270	O
-a	271	272	O
-steady	273	279	O
-wear	280	284	O
-period	285	291	O
-only	292	296	O
-in	297	299	O
-the	300	303	O
-wear	304	308	B-Process
-process	309	316	I-Process
-of	317	319	O
-composite	320	329	B-Material
-anodizing	330	339	I-Material
-coating	340	347	I-Material
-with	348	352	O
-Al2O3	353	358	B-Material
-nanoparticles	359	372	I-Material
-.	372	373	O
-
-At	374	376	O
-the	377	380	O
-same	381	385	O
-time	386	390	O
-,	390	391	O
-the	392	395	O
-addition	396	404	O
-of	405	407	O
-nano	408	412	B-Material
--	412	413	I-Material
-particles	413	422	I-Material
-to	423	425	O
-electrolyte	426	437	B-Material
-led	438	441	O
-to	442	444	O
-reduction	445	454	B-Process
-of	455	457	I-Process
-friction	458	466	I-Process
-coefficient	467	478	I-Process
-.	478	479	O
-
-The	480	483	O
-friction	484	492	O
-coefficient	493	504	O
-of	505	507	O
-composite	508	517	B-Process
-coating	518	525	I-Process
-is	526	528	O
-relatively	529	539	O
-lower	540	545	O
-and	546	549	O
-more	550	554	O
-stable	555	561	O
-than	562	566	O
-what	567	571	O
-has	572	575	O
-been	576	580	O
-reported	581	589	O
-in	590	592	O
-literature	593	603	O
-[	604	605	O
-24,25	605	610	O
-]	610	611	O
-for	612	615	O
-anodizing	616	625	B-Material
-coatings	626	634	I-Material
-.	634	635	O
-
-This	636	640	O
-may	641	644	O
-be	645	647	O
-caused	648	654	O
-by	655	657	O
-“	658	659	B-Process
-rolling	659	666	I-Process
-effect	667	673	I-Process
-”	673	674	I-Process
-made	675	679	O
-by	680	682	O
-Al2O3	683	688	B-Material
-nanoparticles	689	702	I-Material
-on	703	705	O
-the	706	709	O
-surface	710	717	O
-of	718	720	O
-oxide	721	726	O
-coating	727	734	O
-.	734	735	O
-
-Spherical	736	745	B-Material
-nanoparticles	746	759	I-Material
-change	760	766	O
-sliding	767	774	O
-into	775	779	O
-rolling	780	787	O
-,	787	788	O
-which	789	794	O
-reduce	795	801	B-Process
-friction	802	810	I-Process
-,	810	811	O
-making	812	818	O
-the	819	822	O
-friction	823	831	B-Process
-coefficient	832	843	I-Process
-becomes	844	851	O
-more	852	856	O
-stable	857	863	O
-.	863	864	O
-
-The	865	868	O
-friction	869	877	O
-coefficient	878	889	O
-of	890	892	O
-anodizing	893	902	B-Material
-coating	903	910	I-Material
-without	911	918	I-Material
-Al2O3	919	924	I-Material
-nanoparticles	925	938	I-Material
-has	939	942	O
-large	943	948	O
-fluctuation	949	960	O
-maybe	961	966	O
-for	967	970	O
-the	971	974	O
-damage	975	981	O
-of	982	984	O
-coating	985	992	B-Process
-.	992	993	O
-
-In	994	996	O
-contrast	997	1005	O
-to	1006	1008	O
-the	1009	1012	O
-uncoated	1013	1021	B-Material
-AZ31	1022	1026	I-Material
-magnesium	1027	1036	I-Material
-alloy	1037	1042	I-Material
-,	1042	1043	O
-the	1044	1047	O
-anodizing	1048	1057	B-Material
-coatings	1058	1066	I-Material
-show	1067	1071	O
-slightly	1072	1080	O
-lower	1081	1086	O
-friction	1087	1095	B-Process
-coefficient	1096	1107	I-Process
-.	1107	1108	O
-
-This	1109	1113	O
-can	1114	1117	O
-be	1118	1120	O
-attributed	1121	1131	O
-to	1132	1134	O
-their	1135	1140	O
-higher	1141	1147	O
-load	1148	1152	O
--	1152	1153	O
-bearing	1153	1160	O
-capacity	1161	1169	O
-for	1170	1173	O
-high	1174	1178	O
-hardness	1179	1187	O
-.	1187	1188	O
+Fig	0,3	O	O
+.	3,4	O	O
+
+7	5,6	O	O
+shows	7,12	O	O
+the	13,16	O	O
+relationship	17,29	O	O
+between	30,37	O	O
+the	38,41	O	O
+testing	42,49	O	B-Process
+time	50,54	O	I-Process
+and	55,58	O	O
+friction	59,67	O	B-Process
+coefficients	68,80	O	I-Process
+of	81,83	O	O
+various	84,91	O	O
+samples	92,99	O	O
+under	100,105	O	O
+dry	106,109	O	O
+conditions	110,120	O	O
+.	120,121	O	O
+
+There	122,127	O	O
+exist	128,133	O	O
+running	134,141	O	O
+in	142,144	O	O
+and	145,148	O	O
+steady	149,155	O	O
+wear	156,160	O	O
+period	161,167	O	O
+in	168,170	O	O
+the	171,174	O	O
+wear	175,179	O	B-Process
+process	180,187	O	I-Process
+of	188,190	O	O
+uncoated	191,199	O	B-Material
+AZ31	200,204	O	I-Material
+and	205,208	O	O
+anodizing	209,218	O	B-Material
+coating	219,226	O	I-Material
+without	227,234	O	I-Material
+Al2O3	235,240	O	I-Material
+nanoparticles	241,254	O	I-Material
+while	255,260	O	O
+there	261,266	O	O
+has	267,270	O	O
+a	271,272	O	O
+steady	273,279	O	O
+wear	280,284	O	O
+period	285,291	O	O
+only	292,296	O	O
+in	297,299	O	O
+the	300,303	O	O
+wear	304,308	O	B-Process
+process	309,316	O	I-Process
+of	317,319	O	O
+composite	320,329	O	B-Material
+anodizing	330,339	O	I-Material
+coating	340,347	O	I-Material
+with	348,352	O	O
+Al2O3	353,358	O	B-Material
+nanoparticles	359,372	O	I-Material
+.	372,373	O	O
+
+At	374,376	O	O
+the	377,380	O	O
+same	381,385	O	O
+time	386,390	O	O
+,	390,391	O	O
+the	392,395	O	O
+addition	396,404	O	O
+of	405,407	O	O
+nano	408,412	O	B-Material
+-	412,413	O	I-Material
+particles	413,422	O	I-Material
+to	423,425	O	O
+electrolyte	426,437	O	B-Material
+led	438,441	O	O
+to	442,444	O	O
+reduction	445,454	O	B-Process
+of	455,457	O	I-Process
+friction	458,466	O	I-Process
+coefficient	467,478	O	I-Process
+.	478,479	O	O
+
+The	480,483	O	O
+friction	484,492	O	O
+coefficient	493,504	O	O
+of	505,507	O	O
+composite	508,517	O	B-Process
+coating	518,525	O	I-Process
+is	526,528	O	O
+relatively	529,539	O	O
+lower	540,545	O	O
+and	546,549	O	O
+more	550,554	O	O
+stable	555,561	O	O
+than	562,566	O	O
+what	567,571	O	O
+has	572,575	O	O
+been	576,580	O	O
+reported	581,589	O	O
+in	590,592	O	O
+literature	593,603	O	O
+[	604,605	O	O
+24,25	605,610	O	O
+]	610,611	O	O
+for	612,615	O	O
+anodizing	616,625	O	B-Material
+coatings	626,634	O	I-Material
+.	634,635	O	O
+
+This	636,640	O	O
+may	641,644	O	O
+be	645,647	O	O
+caused	648,654	O	O
+by	655,657	O	O
+“	658,659	O	B-Process
+rolling	659,666	O	I-Process
+effect	667,673	O	I-Process
+”	673,674	O	I-Process
+made	675,679	O	O
+by	680,682	O	O
+Al2O3	683,688	O	B-Material
+nanoparticles	689,702	O	I-Material
+on	703,705	O	O
+the	706,709	O	O
+surface	710,717	O	O
+of	718,720	O	O
+oxide	721,726	O	O
+coating	727,734	O	O
+.	734,735	O	O
+
+Spherical	736,745	O	B-Material
+nanoparticles	746,759	O	I-Material
+change	760,766	O	O
+sliding	767,774	O	O
+into	775,779	O	O
+rolling	780,787	O	O
+,	787,788	O	O
+which	789,794	O	O
+reduce	795,801	O	B-Process
+friction	802,810	O	I-Process
+,	810,811	O	O
+making	812,818	O	O
+the	819,822	O	O
+friction	823,831	O	B-Process
+coefficient	832,843	O	I-Process
+becomes	844,851	O	O
+more	852,856	O	O
+stable	857,863	O	O
+.	863,864	O	O
+
+The	865,868	O	O
+friction	869,877	O	O
+coefficient	878,889	O	O
+of	890,892	O	O
+anodizing	893,902	O	B-Material
+coating	903,910	O	I-Material
+without	911,918	O	I-Material
+Al2O3	919,924	O	I-Material
+nanoparticles	925,938	O	I-Material
+has	939,942	O	O
+large	943,948	O	O
+fluctuation	949,960	O	O
+maybe	961,966	O	O
+for	967,970	O	O
+the	971,974	O	O
+damage	975,981	O	O
+of	982,984	O	O
+coating	985,992	O	B-Process
+.	992,993	O	O
+
+In	994,996	O	O
+contrast	997,1005	O	O
+to	1006,1008	O	O
+the	1009,1012	O	O
+uncoated	1013,1021	O	B-Material
+AZ31	1022,1026	O	I-Material
+magnesium	1027,1036	O	I-Material
+alloy	1037,1042	O	I-Material
+,	1042,1043	O	O
+the	1044,1047	O	O
+anodizing	1048,1057	O	B-Material
+coatings	1058,1066	O	I-Material
+show	1067,1071	O	O
+slightly	1072,1080	O	O
+lower	1081,1086	O	O
+friction	1087,1095	O	B-Process
+coefficient	1096,1107	O	I-Process
+.	1107,1108	O	O
+
+This	1109,1113	O	O
+can	1114,1117	O	O
+be	1118,1120	O	O
+attributed	1121,1131	O	O
+to	1132,1134	O	O
+their	1135,1140	O	O
+higher	1141,1147	O	O
+load	1148,1152	O	O
+-	1152,1153	O	O
+bearing	1153,1160	O	O
+capacity	1161,1169	O	O
+for	1170,1173	O	O
+high	1174,1178	O	O
+hardness	1179,1187	O	O
+.	1187,1188	O	O
 
 
 -DOCSTART- (S0263822312000657)
 
-Functionally	0	12	B-Material
-Graded	13	19	I-Material
-Materials	20	29	I-Material
-(	30	31	O
-FGMs	31	35	B-Material
-)	35	36	O
-,	36	37	O
-described	38	47	O
-in	48	50	O
-detail	51	57	O
-by	58	60	O
-Suresh	61	67	O
-and	68	71	O
-Mortensen	72	81	O
-[	82	83	O
-1	83	84	O
-]	84	85	O
-,	85	86	O
-are	87	90	O
-a	91	92	O
-type	93	97	O
-of	98	100	O
-heterogeneous	101	114	B-Material
-composite	115	124	I-Material
-materials	125	134	I-Material
-exhibiting	135	145	O
-gradual	146	153	O
-variation	154	163	O
-in	164	166	O
-volume	167	173	O
-fraction	174	182	O
-of	183	185	O
-their	186	191	O
-constituents	192	204	O
-from	205	209	O
-one	210	213	O
-surface	214	221	O
-of	222	224	O
-the	225	228	O
-material	229	237	O
-to	238	240	O
-the	241	244	O
-other	245	250	O
-,	250	251	O
-resulting	252	261	O
-in	262	264	O
-properties	265	275	O
-which	276	281	O
-vary	282	286	O
-continuously	287	299	O
-across	300	306	O
-the	307	310	O
-material	311	319	O
-.	319	320	O
-
-The	321	324	O
-idea	325	329	O
-of	330	332	O
-a	333	334	O
-Functionally	335	347	B-Material
-Graded	348	354	I-Material
-Material	355	363	I-Material
-is	364	366	O
-not	367	370	O
-a	371	372	O
-new	373	376	O
-one	377	380	O
-,	380	381	O
-there	382	387	O
-are	388	391	O
-in	392	394	O
-fact	395	399	O
-many	400	404	O
-natural	405	412	O
-materials	413	422	O
-which	423	428	O
-exhibit	429	436	O
-this	437	441	O
-property	442	450	O
-.	450	451	O
-
-Study	452	457	B-Task
-of	458	460	I-Task
-bone	461	465	I-Task
-,	465	466	I-Task
-shell	467	472	I-Task
-,	472	473	I-Task
-balsawood	474	483	I-Task
-and	484	487	I-Task
-bamboo	488	494	I-Task
-shows	495	500	O
-that	501	505	O
-they	506	510	O
-are	511	514	O
-all	515	518	O
-graded	519	525	O
-with	526	530	O
-their	531	536	O
-greatest	537	545	O
-strength	546	554	O
-on	555	557	O
-the	558	561	O
-outside	562	569	O
-,	569	570	O
-in	571	573	O
-areas	574	579	O
-where	580	585	O
-the	586	589	O
-greatest	590	598	O
-protection	599	609	O
-is	610	612	O
-required	613	621	O
-.	621	622	O
-
-However	623	630	O
-it	631	633	O
-was	634	637	O
-not	638	641	O
-until	642	647	O
-the	648	651	O
-1980s	652	657	O
-in	658	660	O
-Japan	661	666	O
-[	667	668	O
-2	668	669	O
-]	669	670	O
-that	671	675	O
-the	676	679	O
-idea	680	684	O
-of	685	687	O
-a	688	689	O
-Functionally	690	702	B-Material
-Graded	703	709	I-Material
-Material	710	718	I-Material
-was	719	722	O
-actively	723	731	O
-researched	732	742	O
-in	743	745	O
-order	746	751	O
-to	752	754	O
-gain	755	759	O
-advances	760	768	O
-in	769	771	O
-heat	772	776	B-Material
-resistant	777	786	I-Material
-materials	787	796	I-Material
-for	797	800	O
-use	801	804	O
-in	805	807	O
-aerospace	808	817	B-Task
-and	818	821	O
-nuclear	822	829	B-Task
-fission	830	837	I-Task
-reactors	838	846	I-Task
-.	846	847	O
+Functionally	0,12	O	B-Material
+Graded	13,19	O	I-Material
+Materials	20,29	O	I-Material
+(	30,31	O	O
+FGMs	31,35	O	B-Material
+)	35,36	O	O
+,	36,37	O	O
+described	38,47	O	O
+in	48,50	O	O
+detail	51,57	O	O
+by	58,60	O	O
+Suresh	61,67	O	O
+and	68,71	O	O
+Mortensen	72,81	O	O
+[	82,83	O	O
+1	83,84	O	O
+]	84,85	O	O
+,	85,86	O	O
+are	87,90	O	O
+a	91,92	O	O
+type	93,97	O	O
+of	98,100	O	O
+heterogeneous	101,114	O	B-Material
+composite	115,124	O	I-Material
+materials	125,134	O	I-Material
+exhibiting	135,145	O	O
+gradual	146,153	O	O
+variation	154,163	O	O
+in	164,166	O	O
+volume	167,173	O	O
+fraction	174,182	O	O
+of	183,185	O	O
+their	186,191	O	O
+constituents	192,204	O	O
+from	205,209	O	O
+one	210,213	O	O
+surface	214,221	O	O
+of	222,224	O	O
+the	225,228	O	O
+material	229,237	O	O
+to	238,240	O	O
+the	241,244	O	O
+other	245,250	O	O
+,	250,251	O	O
+resulting	252,261	O	O
+in	262,264	O	O
+properties	265,275	O	O
+which	276,281	O	O
+vary	282,286	O	O
+continuously	287,299	O	O
+across	300,306	O	O
+the	307,310	O	O
+material	311,319	O	O
+.	319,320	O	O
+
+The	321,324	O	O
+idea	325,329	O	O
+of	330,332	O	O
+a	333,334	O	O
+Functionally	335,347	O	B-Material
+Graded	348,354	O	I-Material
+Material	355,363	O	I-Material
+is	364,366	O	O
+not	367,370	O	O
+a	371,372	O	O
+new	373,376	O	O
+one	377,380	O	O
+,	380,381	O	O
+there	382,387	O	O
+are	388,391	O	O
+in	392,394	O	O
+fact	395,399	O	O
+many	400,404	O	O
+natural	405,412	O	O
+materials	413,422	O	O
+which	423,428	O	O
+exhibit	429,436	O	O
+this	437,441	O	O
+property	442,450	O	O
+.	450,451	O	O
+
+Study	452,457	O	B-Task
+of	458,460	O	I-Task
+bone	461,465	O	I-Task
+,	465,466	O	I-Task
+shell	467,472	O	I-Task
+,	472,473	O	I-Task
+balsawood	474,483	O	I-Task
+and	484,487	O	I-Task
+bamboo	488,494	O	I-Task
+shows	495,500	O	O
+that	501,505	O	O
+they	506,510	O	O
+are	511,514	O	O
+all	515,518	O	O
+graded	519,525	O	O
+with	526,530	O	O
+their	531,536	O	O
+greatest	537,545	O	O
+strength	546,554	O	O
+on	555,557	O	O
+the	558,561	O	O
+outside	562,569	O	O
+,	569,570	O	O
+in	571,573	O	O
+areas	574,579	O	O
+where	580,585	O	O
+the	586,589	O	O
+greatest	590,598	O	O
+protection	599,609	O	O
+is	610,612	O	O
+required	613,621	O	O
+.	621,622	O	O
+
+However	623,630	O	O
+it	631,633	O	O
+was	634,637	O	O
+not	638,641	O	O
+until	642,647	O	O
+the	648,651	O	O
+1980s	652,657	O	O
+in	658,660	O	O
+Japan	661,666	O	O
+[	667,668	O	O
+2	668,669	O	O
+]	669,670	O	O
+that	671,675	O	O
+the	676,679	O	O
+idea	680,684	O	O
+of	685,687	O	O
+a	688,689	O	O
+Functionally	690,702	O	B-Material
+Graded	703,709	O	I-Material
+Material	710,718	O	I-Material
+was	719,722	O	O
+actively	723,731	O	O
+researched	732,742	O	O
+in	743,745	O	O
+order	746,751	O	O
+to	752,754	O	O
+gain	755,759	O	O
+advances	760,768	O	O
+in	769,771	O	O
+heat	772,776	O	B-Material
+resistant	777,786	O	I-Material
+materials	787,796	O	I-Material
+for	797,800	O	O
+use	801,804	O	O
+in	805,807	O	O
+aerospace	808,817	O	B-Task
+and	818,821	O	O
+nuclear	822,829	O	B-Task
+fission	830,837	O	I-Task
+reactors	838,846	O	I-Task
+.	846,847	O	O
 
 
 -DOCSTART- (S0263822312001468)
 
-Recently	0	8	O
-together	9	17	O
-with	18	22	O
-structural	23	33	B-Process
-efficiency	34	44	I-Process
-,	44	45	O
-passenger	46	55	B-Task
-safety	56	62	I-Task
-is	63	65	O
-also	66	70	O
-an	71	73	O
-important	74	83	O
-issue	84	89	O
-in	90	92	O
-application	93	104	O
-of	105	107	O
-material	108	116	O
-to	117	119	O
-transportation	120	134	B-Process
-industries	135	145	I-Process
-.	145	146	O
-
-Hence	147	152	O
-,	152	153	O
-the	154	157	O
-crashworthiness	158	173	B-Material
-parameters	174	184	I-Material
-are	185	188	O
-introducing	189	200	O
-to	201	203	O
-predict	204	211	O
-the	212	215	O
-capability	216	226	O
-of	227	229	O
-structure	230	239	O
-to	240	242	O
-prevent	243	250	B-Task
-the	251	254	I-Task
-massive	255	262	I-Task
-damage	263	269	I-Task
-and	270	273	O
-protect	274	281	B-Task
-the	282	285	I-Task
-passenger	286	295	I-Task
-in	296	298	O
-the	299	302	O
-event	303	308	O
-of	309	311	O
-a	312	313	O
-crash	314	319	O
-.	319	320	O
-
-Crashworthiness	321	336	B-Task
-parameters	337	347	I-Task
-for	348	351	O
-various	352	359	O
-thin	360	364	O
--	364	365	O
-walled	365	371	O
-tubes	372	377	O
-made	378	382	O
-from	383	387	O
-metal	388	393	B-Material
-or	394	396	O
-fibre	397	402	B-Material
-/	402	403	I-Material
-resin	403	408	I-Material
-composites	409	419	I-Material
-in	420	422	O
-different	423	432	O
-geometries	433	443	O
-have	444	448	O
-been	449	453	O
-studied	454	461	O
-.	461	462	O
-
-A	463	464	O
-critical	465	473	O
-difference	474	484	O
-of	485	487	O
-tubular	488	495	B-Process
-composites	496	506	I-Process
-failure	507	514	I-Process
-modes	515	520	O
-compared	521	529	O
-with	530	534	O
-metallic	535	543	O
-is	544	546	O
-the	547	550	O
-brittle	551	558	B-Process
-collapse	559	567	I-Process
-.	567	568	O
-
-In	569	571	O
-addition	572	580	O
-,	580	581	O
-in	582	584	O
-composites	585	595	B-Material
-,	595	596	O
-tubular	597	604	B-Material
-failure	605	612	I-Material
-modes	613	618	I-Material
-are	619	622	O
-involved	623	631	O
-with	632	636	O
-micro	637	642	B-Process
--	642	643	I-Process
-cracking	643	651	I-Process
-development	652	663	I-Process
-,	663	664	O
-delamination	665	677	B-Process
-,	677	678	O
-fibre	679	684	B-Process
-breakage	685	693	I-Process
-,	693	694	O
-etc	695	698	O
-.	698	699	O
-,	699	700	O
-instead	701	708	O
-of	709	711	O
-plastic	712	719	B-Process
-deformation	720	731	I-Process
-.	731	732	O
-
-Implementation	733	747	B-Task
-of	748	750	I-Task
-composite	751	760	I-Task
-materials	761	770	I-Task
-in	771	773	O
-the	774	777	O
-field	778	783	O
-of	784	786	O
-crashworthiness	787	802	O
-is	803	805	O
-attributed	806	816	O
-to	817	819	O
-Hull	820	824	O
-,	824	825	O
-who	826	829	O
-in	830	832	O
-80s	833	836	O
-and	837	840	O
-90s	841	844	O
-of	845	847	O
-the	848	851	O
-last	852	856	O
-century	857	864	O
-studied	865	872	O
-extensively	873	884	O
-the	885	888	O
-crushing	889	897	B-Process
-behaviour	898	907	I-Process
-of	908	910	O
-fibre	911	916	B-Material
-reinforced	917	927	I-Material
-composite	928	937	I-Material
-material	938	946	I-Material
-.	946	947	O
-
-He	948	950	O
-found	951	956	O
-that	957	961	O
-the	962	965	O
-composite	966	975	B-Material
-materials	976	985	I-Material
-absorbed	986	994	O
-high	995	999	O
-energy	1000	1006	O
-in	1007	1009	O
-the	1010	1013	O
-face	1014	1018	O
-of	1019	1021	O
-the	1022	1025	O
-fracture	1026	1034	B-Process
-surface	1035	1042	I-Process
-energy	1043	1049	I-Process
-mechanism	1050	1059	O
-rather	1060	1066	O
-than	1067	1071	O
-plastic	1072	1079	B-Process
-deformation	1080	1091	I-Process
-as	1092	1094	O
-observed	1095	1103	O
-for	1104	1107	O
-metals	1108	1114	B-Material
-[	1115	1116	O
-1	1116	1117	O
-]	1117	1118	O
-.	1118	1119	O
-
-This	1120	1124	O
-observation	1125	1136	O
-has	1137	1140	O
-inspired	1141	1149	O
-others	1150	1156	O
-to	1157	1159	O
-further	1160	1167	O
-investigation	1168	1181	O
-about	1182	1187	O
-crashworthiness	1188	1203	B-Process
-characteristics	1204	1219	I-Process
-of	1220	1222	O
-composite	1223	1232	B-Material
-materials	1233	1242	I-Material
-.	1242	1243	O
-
-Studies	1244	1251	O
-have	1252	1256	O
-examined	1257	1265	O
-the	1266	1269	O
-axial	1270	1275	B-Process
-crushing	1276	1284	I-Process
-behaviour	1285	1294	I-Process
-of	1295	1297	O
-fibre	1298	1303	B-Material
--	1303	1304	I-Material
-reinforced	1304	1314	I-Material
-tubes	1315	1320	I-Material
-[	1321	1322	O
-2	1322	1323	O
-]	1323	1324	O
-,	1324	1325	O
-fibreglass	1326	1336	B-Material
-tubes	1337	1342	I-Material
-[	1343	1344	O
-3,4	1344	1347	O
-]	1347	1348	O
-,	1348	1349	O
-PVC	1350	1353	B-Material
-tubes	1354	1359	I-Material
-[	1360	1361	O
-5	1361	1362	O
-]	1362	1363	O
-and	1364	1367	O
-carbon	1368	1374	B-Material
-fibre	1375	1380	I-Material
-reinforced	1381	1391	I-Material
-plastic	1392	1399	I-Material
-(	1400	1401	I-Material
-CFRP	1401	1405	I-Material
-)	1405	1406	I-Material
-tubes	1407	1412	I-Material
-[	1413	1414	O
-6	1414	1415	O
-]	1415	1416	O
-.	1416	1417	O
+Recently	0,8	O	O
+together	9,17	O	O
+with	18,22	O	O
+structural	23,33	O	B-Process
+efficiency	34,44	O	I-Process
+,	44,45	O	O
+passenger	46,55	O	B-Task
+safety	56,62	O	I-Task
+is	63,65	O	O
+also	66,70	O	O
+an	71,73	O	O
+important	74,83	O	O
+issue	84,89	O	O
+in	90,92	O	O
+application	93,104	O	O
+of	105,107	O	O
+material	108,116	O	O
+to	117,119	O	O
+transportation	120,134	O	B-Process
+industries	135,145	O	I-Process
+.	145,146	O	O
+
+Hence	147,152	O	O
+,	152,153	O	O
+the	154,157	O	O
+crashworthiness	158,173	O	B-Material
+parameters	174,184	O	I-Material
+are	185,188	O	O
+introducing	189,200	O	O
+to	201,203	O	O
+predict	204,211	O	O
+the	212,215	O	O
+capability	216,226	O	O
+of	227,229	O	O
+structure	230,239	O	O
+to	240,242	O	O
+prevent	243,250	O	B-Task
+the	251,254	O	I-Task
+massive	255,262	O	I-Task
+damage	263,269	O	I-Task
+and	270,273	O	O
+protect	274,281	O	B-Task
+the	282,285	O	I-Task
+passenger	286,295	O	I-Task
+in	296,298	O	O
+the	299,302	O	O
+event	303,308	O	O
+of	309,311	O	O
+a	312,313	O	O
+crash	314,319	O	O
+.	319,320	O	O
+
+Crashworthiness	321,336	O	B-Task
+parameters	337,347	O	I-Task
+for	348,351	O	O
+various	352,359	O	O
+thin	360,364	O	O
+-	364,365	O	O
+walled	365,371	O	O
+tubes	372,377	O	O
+made	378,382	O	O
+from	383,387	O	O
+metal	388,393	O	B-Material
+or	394,396	O	O
+fibre	397,402	O	B-Material
+/	402,403	O	I-Material
+resin	403,408	O	I-Material
+composites	409,419	O	I-Material
+in	420,422	O	O
+different	423,432	O	O
+geometries	433,443	O	O
+have	444,448	O	O
+been	449,453	O	O
+studied	454,461	O	O
+.	461,462	O	O
+
+A	463,464	O	O
+critical	465,473	O	O
+difference	474,484	O	O
+of	485,487	O	O
+tubular	488,495	O	B-Process
+composites	496,506	O	I-Process
+failure	507,514	O	I-Process
+modes	515,520	O	O
+compared	521,529	O	O
+with	530,534	O	O
+metallic	535,543	O	O
+is	544,546	O	O
+the	547,550	O	O
+brittle	551,558	O	B-Process
+collapse	559,567	O	I-Process
+.	567,568	O	O
+
+In	569,571	O	O
+addition	572,580	O	O
+,	580,581	O	O
+in	582,584	O	O
+composites	585,595	O	B-Material
+,	595,596	O	O
+tubular	597,604	O	B-Material
+failure	605,612	O	I-Material
+modes	613,618	O	I-Material
+are	619,622	O	O
+involved	623,631	O	O
+with	632,636	O	O
+micro	637,642	O	B-Process
+-	642,643	O	I-Process
+cracking	643,651	O	I-Process
+development	652,663	O	I-Process
+,	663,664	O	O
+delamination	665,677	O	B-Process
+,	677,678	O	O
+fibre	679,684	O	B-Process
+breakage	685,693	O	I-Process
+,	693,694	O	O
+etc	695,698	O	O
+.	698,699	O	O
+,	699,700	O	O
+instead	701,708	O	O
+of	709,711	O	O
+plastic	712,719	O	B-Process
+deformation	720,731	O	I-Process
+.	731,732	O	O
+
+Implementation	733,747	O	B-Task
+of	748,750	O	I-Task
+composite	751,760	O	I-Task
+materials	761,770	O	I-Task
+in	771,773	O	O
+the	774,777	O	O
+field	778,783	O	O
+of	784,786	O	O
+crashworthiness	787,802	O	O
+is	803,805	O	O
+attributed	806,816	O	O
+to	817,819	O	O
+Hull	820,824	O	O
+,	824,825	O	O
+who	826,829	O	O
+in	830,832	O	O
+80s	833,836	O	O
+and	837,840	O	O
+90s	841,844	O	O
+of	845,847	O	O
+the	848,851	O	O
+last	852,856	O	O
+century	857,864	O	O
+studied	865,872	O	O
+extensively	873,884	O	O
+the	885,888	O	O
+crushing	889,897	O	B-Process
+behaviour	898,907	O	I-Process
+of	908,910	O	O
+fibre	911,916	O	B-Material
+reinforced	917,927	O	I-Material
+composite	928,937	O	I-Material
+material	938,946	O	I-Material
+.	946,947	O	O
+
+He	948,950	O	O
+found	951,956	O	O
+that	957,961	O	O
+the	962,965	O	O
+composite	966,975	O	B-Material
+materials	976,985	O	I-Material
+absorbed	986,994	O	O
+high	995,999	O	O
+energy	1000,1006	O	O
+in	1007,1009	O	O
+the	1010,1013	O	O
+face	1014,1018	O	O
+of	1019,1021	O	O
+the	1022,1025	O	O
+fracture	1026,1034	O	B-Process
+surface	1035,1042	O	I-Process
+energy	1043,1049	O	I-Process
+mechanism	1050,1059	O	O
+rather	1060,1066	O	O
+than	1067,1071	O	O
+plastic	1072,1079	O	B-Process
+deformation	1080,1091	O	I-Process
+as	1092,1094	O	O
+observed	1095,1103	O	O
+for	1104,1107	O	O
+metals	1108,1114	O	B-Material
+[	1115,1116	O	O
+1	1116,1117	O	O
+]	1117,1118	O	O
+.	1118,1119	O	O
+
+This	1120,1124	O	O
+observation	1125,1136	O	O
+has	1137,1140	O	O
+inspired	1141,1149	O	O
+others	1150,1156	O	O
+to	1157,1159	O	O
+further	1160,1167	O	O
+investigation	1168,1181	O	O
+about	1182,1187	O	O
+crashworthiness	1188,1203	O	B-Process
+characteristics	1204,1219	O	I-Process
+of	1220,1222	O	O
+composite	1223,1232	O	B-Material
+materials	1233,1242	O	I-Material
+.	1242,1243	O	O
+
+Studies	1244,1251	O	O
+have	1252,1256	O	O
+examined	1257,1265	O	O
+the	1266,1269	O	O
+axial	1270,1275	O	B-Process
+crushing	1276,1284	O	I-Process
+behaviour	1285,1294	O	I-Process
+of	1295,1297	O	O
+fibre	1298,1303	O	B-Material
+-	1303,1304	O	I-Material
+reinforced	1304,1314	O	I-Material
+tubes	1315,1320	O	I-Material
+[	1321,1322	O	O
+2	1322,1323	O	O
+]	1323,1324	O	O
+,	1324,1325	O	O
+fibreglass	1326,1336	O	B-Material
+tubes	1337,1342	O	I-Material
+[	1343,1344	O	O
+3,4	1344,1347	O	O
+]	1347,1348	O	O
+,	1348,1349	O	O
+PVC	1350,1353	O	B-Material
+tubes	1354,1359	O	I-Material
+[	1360,1361	O	O
+5	1361,1362	O	O
+]	1362,1363	O	O
+and	1364,1367	O	O
+carbon	1368,1374	O	B-Material
+fibre	1375,1380	O	I-Material
+reinforced	1381,1391	O	I-Material
+plastic	1392,1399	O	I-Material
+(	1400,1401	O	I-Material
+CFRP	1401,1405	O	I-Material
+)	1405,1406	O	I-Material
+tubes	1407,1412	O	I-Material
+[	1413,1414	O	O
+6	1414,1415	O	O
+]	1415,1416	O	O
+.	1416,1417	O	O
 
 
 -DOCSTART- (S0301679X13003289)
 
-Nanoparticle	0	12	B-Process
-Tracking	13	21	I-Process
-Analysis	22	30	I-Process
-(	31	32	O
-NTA	32	35	B-Process
-)	35	36	O
-has	37	40	O
-been	41	45	O
-applied	46	53	O
-to	54	56	O
-characterising	57	71	O
-soot	72	76	B-Material
-agglomerates	77	89	I-Material
-of	90	92	O
-particles	93	102	O
-and	103	106	O
-compared	107	115	O
-with	116	120	O
-Transmission	121	133	B-Process
-Electron	134	142	I-Process
-Microscoscopy	143	156	I-Process
-(	157	158	O
-TEM	158	161	B-Process
-)	161	162	O
-.	162	163	O
-
-Soot	164	168	B-Material
-nanoparticles	169	182	I-Material
-were	183	187	O
-extracted	188	197	O
-from	198	202	O
-used	203	207	O
-oil	208	211	O
-drawn	212	217	O
-from	218	222	O
-the	223	226	O
-sump	227	231	O
-of	232	234	O
-a	235	236	O
-light	237	242	O
-duty	243	247	O
-automotive	248	258	O
-diesel	259	265	O
-engine	266	272	O
-.	272	273	O
-
-The	274	277	O
-samples	278	285	O
-were	286	290	O
-prepared	291	299	O
-for	300	303	O
-analysis	304	312	O
-by	313	315	O
-diluting	316	324	O
-with	325	329	O
-heptane	330	337	B-Material
-.	337	338	O
-
-Individual	339	349	O
-tracking	350	358	O
-of	359	361	O
-soot	362	366	B-Material
-agglomerates	367	379	I-Material
-allows	380	386	O
-for	387	390	O
-size	391	395	B-Process
-distribution	396	408	I-Process
-analysis	409	417	I-Process
-.	417	418	O
-
-The	419	422	O
-size	423	427	O
-of	428	430	O
-soot	431	435	O
-was	436	439	O
-compared	440	448	O
-with	449	453	O
-length	454	460	O
-measurements	461	473	O
-of	474	476	O
-projected	477	486	O
-two	487	490	O
--	490	491	O
-dimensional	491	502	O
-TEM	503	506	B-Process
-images	507	513	O
-of	514	516	O
-agglomerates	517	529	B-Material
-.	529	530	O
-
-Both	531	535	O
-the	536	539	O
-techniques	540	550	O
-show	551	555	O
-that	556	560	O
-soot	561	565	O
--	565	566	O
-in	566	568	O
--	568	569	O
-oil	569	572	O
-exists	573	579	O
-as	580	582	O
-agglomerates	583	595	B-Material
-with	596	600	O
-average	601	608	O
-size	609	613	O
-of	614	616	O
-120	617	620	O
-nm	620	622	O
-.	622	623	O
-
-NTA	624	627	B-Process
-is	628	630	O
-able	631	635	O
-to	636	638	O
-measure	639	646	O
-particles	647	656	O
-in	657	659	O
-polydisperse	660	672	B-Material
-solutions	673	682	I-Material
-and	683	686	O
-reports	687	694	O
-the	695	698	O
-size	699	703	O
-and	704	707	O
-volume	708	714	O
-distribution	715	727	O
-of	728	730	O
-soot	731	735	B-Material
--	735	736	I-Material
-in	736	738	I-Material
--	738	739	I-Material
-oil	739	742	I-Material
-aggregates	743	753	I-Material
-;	753	754	O
-it	755	757	O
-has	758	761	O
-the	762	765	O
-advantages	766	776	O
-of	777	779	O
-being	780	785	O
-fast	786	790	O
-and	791	794	O
-relatively	795	805	O
-low	806	809	O
-cost	810	814	O
-if	815	817	O
-compared	818	826	O
-with	827	831	O
-TEM.Nanoparticle	832	848	B-Process
-Tracking	849	857	I-Process
-Analysis	858	866	I-Process
-(	867	868	O
-NTA	868	871	B-Process
-)	871	872	O
-has	873	876	O
-been	877	881	O
-applied	882	889	O
-to	890	892	O
-characterising	893	907	O
-soot	908	912	O
-agglomerates	913	925	O
-of	926	928	O
-particles	929	938	O
-and	939	942	O
-compared	943	951	O
-with	952	956	O
-Transmission	957	969	B-Process
-Electron	970	978	I-Process
-Microscoscopy	979	992	I-Process
-(	993	994	O
-TEM	994	997	B-Process
-)	997	998	O
-.	998	999	O
-
-Soot	1000	1004	O
-nanoparticles	1005	1018	O
-were	1019	1023	O
-extracted	1024	1033	O
-from	1034	1038	O
-used	1039	1043	O
-oil	1044	1047	O
-drawn	1048	1053	O
-from	1054	1058	O
-the	1059	1062	O
-sump	1063	1067	O
-of	1068	1070	O
-a	1071	1072	O
-light	1073	1078	O
-duty	1079	1083	O
-automotive	1084	1094	O
-diesel	1095	1101	O
-engine	1102	1108	O
-.	1108	1109	O
-
-The	1110	1113	O
-samples	1114	1121	O
-were	1122	1126	O
-prepared	1127	1135	O
-for	1136	1139	O
-analysis	1140	1148	O
-by	1149	1151	O
-diluting	1152	1160	O
-with	1161	1165	O
-heptane	1166	1173	B-Material
-.	1173	1174	O
-
-Individual	1175	1185	O
-tracking	1186	1194	O
-of	1195	1197	O
-soot	1198	1202	B-Material
-agglomerates	1203	1215	I-Material
-allows	1216	1222	O
-for	1223	1226	O
-size	1227	1231	B-Process
-distribution	1232	1244	I-Process
-analysis	1245	1253	I-Process
-.	1253	1254	O
-
-The	1255	1258	O
-size	1259	1263	O
-of	1264	1266	O
-soot	1267	1271	O
-was	1272	1275	O
-compared	1276	1284	O
-with	1285	1289	O
-length	1290	1296	O
-measurements	1297	1309	O
-of	1310	1312	O
-projected	1313	1322	O
-two	1323	1326	O
--	1326	1327	O
-dimensional	1327	1338	O
-TEM	1339	1342	B-Process
-images	1343	1349	O
-of	1350	1352	O
-agglomerates	1353	1365	B-Material
-.	1365	1366	O
-
-Both	1367	1371	O
-the	1372	1375	O
-techniques	1376	1386	O
-show	1387	1391	O
-that	1392	1396	O
-soot	1397	1401	O
--	1401	1402	O
-in	1402	1404	O
--	1404	1405	O
-oil	1405	1408	O
-exists	1409	1415	O
-as	1416	1418	O
-agglomerates	1419	1431	B-Material
-with	1432	1436	O
-average	1437	1444	O
-size	1445	1449	O
-of	1450	1452	O
-120	1453	1456	O
-nm	1456	1458	O
-.	1458	1459	O
-
-NTA	1460	1463	B-Process
-is	1464	1466	O
-able	1467	1471	O
-to	1472	1474	O
-measure	1475	1482	O
-particles	1483	1492	O
-in	1493	1495	O
-polydisperse	1496	1508	B-Material
-solutions	1509	1518	I-Material
-and	1519	1522	O
-reports	1523	1530	O
-the	1531	1534	O
-size	1535	1539	O
-and	1540	1543	O
-volume	1544	1550	O
-distribution	1551	1563	O
-of	1564	1566	O
-soot	1567	1571	B-Material
--	1571	1572	I-Material
-in	1572	1574	I-Material
--	1574	1575	I-Material
-oil	1575	1578	I-Material
-aggregates	1579	1589	I-Material
-;	1589	1590	O
-it	1591	1593	O
-has	1594	1597	O
-the	1598	1601	O
-advantages	1602	1612	O
-of	1613	1615	O
-being	1616	1621	O
-fast	1622	1626	O
-and	1627	1630	O
-relatively	1631	1641	O
-low	1642	1645	O
-cost	1646	1650	O
-if	1651	1653	O
-compared	1654	1662	O
-with	1663	1667	O
-TEM	1668	1671	B-Process
-.	1671	1672	O
+Nanoparticle	0,12	O	B-Process
+Tracking	13,21	O	I-Process
+Analysis	22,30	O	I-Process
+(	31,32	O	O
+NTA	32,35	O	B-Process
+)	35,36	O	O
+has	37,40	O	O
+been	41,45	O	O
+applied	46,53	O	O
+to	54,56	O	O
+characterising	57,71	O	O
+soot	72,76	O	B-Material
+agglomerates	77,89	O	I-Material
+of	90,92	O	O
+particles	93,102	O	O
+and	103,106	O	O
+compared	107,115	O	O
+with	116,120	O	O
+Transmission	121,133	O	B-Process
+Electron	134,142	O	I-Process
+Microscoscopy	143,156	O	I-Process
+(	157,158	O	O
+TEM	158,161	O	B-Process
+)	161,162	O	O
+.	162,163	O	O
+
+Soot	164,168	O	B-Material
+nanoparticles	169,182	O	I-Material
+were	183,187	O	O
+extracted	188,197	O	O
+from	198,202	O	O
+used	203,207	O	O
+oil	208,211	O	O
+drawn	212,217	O	O
+from	218,222	O	O
+the	223,226	O	O
+sump	227,231	O	O
+of	232,234	O	O
+a	235,236	O	O
+light	237,242	O	O
+duty	243,247	O	O
+automotive	248,258	O	O
+diesel	259,265	O	O
+engine	266,272	O	O
+.	272,273	O	O
+
+The	274,277	O	O
+samples	278,285	O	O
+were	286,290	O	O
+prepared	291,299	O	O
+for	300,303	O	O
+analysis	304,312	O	O
+by	313,315	O	O
+diluting	316,324	O	O
+with	325,329	O	O
+heptane	330,337	O	B-Material
+.	337,338	O	O
+
+Individual	339,349	O	O
+tracking	350,358	O	O
+of	359,361	O	O
+soot	362,366	O	B-Material
+agglomerates	367,379	O	I-Material
+allows	380,386	O	O
+for	387,390	O	O
+size	391,395	O	B-Process
+distribution	396,408	O	I-Process
+analysis	409,417	O	I-Process
+.	417,418	O	O
+
+The	419,422	O	O
+size	423,427	O	O
+of	428,430	O	O
+soot	431,435	O	O
+was	436,439	O	O
+compared	440,448	O	O
+with	449,453	O	O
+length	454,460	O	O
+measurements	461,473	O	O
+of	474,476	O	O
+projected	477,486	O	O
+two	487,490	O	O
+-	490,491	O	O
+dimensional	491,502	O	O
+TEM	503,506	O	B-Process
+images	507,513	O	O
+of	514,516	O	O
+agglomerates	517,529	O	B-Material
+.	529,530	O	O
+
+Both	531,535	O	O
+the	536,539	O	O
+techniques	540,550	O	O
+show	551,555	O	O
+that	556,560	O	O
+soot	561,565	O	O
+-	565,566	O	O
+in	566,568	O	O
+-	568,569	O	O
+oil	569,572	O	O
+exists	573,579	O	O
+as	580,582	O	O
+agglomerates	583,595	O	B-Material
+with	596,600	O	O
+average	601,608	O	O
+size	609,613	O	O
+of	614,616	O	O
+120	617,620	O	O
+nm	620,622	O	O
+.	622,623	O	O
+
+NTA	624,627	O	B-Process
+is	628,630	O	O
+able	631,635	O	O
+to	636,638	O	O
+measure	639,646	O	O
+particles	647,656	O	O
+in	657,659	O	O
+polydisperse	660,672	O	B-Material
+solutions	673,682	O	I-Material
+and	683,686	O	O
+reports	687,694	O	O
+the	695,698	O	O
+size	699,703	O	O
+and	704,707	O	O
+volume	708,714	O	O
+distribution	715,727	O	O
+of	728,730	O	O
+soot	731,735	O	B-Material
+-	735,736	O	I-Material
+in	736,738	O	I-Material
+-	738,739	O	I-Material
+oil	739,742	O	I-Material
+aggregates	743,753	O	I-Material
+;	753,754	O	O
+it	755,757	O	O
+has	758,761	O	O
+the	762,765	O	O
+advantages	766,776	O	O
+of	777,779	O	O
+being	780,785	O	O
+fast	786,790	O	O
+and	791,794	O	O
+relatively	795,805	O	O
+low	806,809	O	O
+cost	810,814	O	O
+if	815,817	O	O
+compared	818,826	O	O
+with	827,831	O	O
+TEM.Nanoparticle	832,848	O	B-Process
+Tracking	849,857	O	I-Process
+Analysis	858,866	O	I-Process
+(	867,868	O	O
+NTA	868,871	O	B-Process
+)	871,872	O	O
+has	873,876	O	O
+been	877,881	O	O
+applied	882,889	O	O
+to	890,892	O	O
+characterising	893,907	O	O
+soot	908,912	O	O
+agglomerates	913,925	O	O
+of	926,928	O	O
+particles	929,938	O	O
+and	939,942	O	O
+compared	943,951	O	O
+with	952,956	O	O
+Transmission	957,969	O	B-Process
+Electron	970,978	O	I-Process
+Microscoscopy	979,992	O	I-Process
+(	993,994	O	O
+TEM	994,997	O	B-Process
+)	997,998	O	O
+.	998,999	O	O
+
+Soot	1000,1004	O	O
+nanoparticles	1005,1018	O	O
+were	1019,1023	O	O
+extracted	1024,1033	O	O
+from	1034,1038	O	O
+used	1039,1043	O	O
+oil	1044,1047	O	O
+drawn	1048,1053	O	O
+from	1054,1058	O	O
+the	1059,1062	O	O
+sump	1063,1067	O	O
+of	1068,1070	O	O
+a	1071,1072	O	O
+light	1073,1078	O	O
+duty	1079,1083	O	O
+automotive	1084,1094	O	O
+diesel	1095,1101	O	O
+engine	1102,1108	O	O
+.	1108,1109	O	O
+
+The	1110,1113	O	O
+samples	1114,1121	O	O
+were	1122,1126	O	O
+prepared	1127,1135	O	O
+for	1136,1139	O	O
+analysis	1140,1148	O	O
+by	1149,1151	O	O
+diluting	1152,1160	O	O
+with	1161,1165	O	O
+heptane	1166,1173	O	B-Material
+.	1173,1174	O	O
+
+Individual	1175,1185	O	O
+tracking	1186,1194	O	O
+of	1195,1197	O	O
+soot	1198,1202	O	B-Material
+agglomerates	1203,1215	O	I-Material
+allows	1216,1222	O	O
+for	1223,1226	O	O
+size	1227,1231	O	B-Process
+distribution	1232,1244	O	I-Process
+analysis	1245,1253	O	I-Process
+.	1253,1254	O	O
+
+The	1255,1258	O	O
+size	1259,1263	O	O
+of	1264,1266	O	O
+soot	1267,1271	O	O
+was	1272,1275	O	O
+compared	1276,1284	O	O
+with	1285,1289	O	O
+length	1290,1296	O	O
+measurements	1297,1309	O	O
+of	1310,1312	O	O
+projected	1313,1322	O	O
+two	1323,1326	O	O
+-	1326,1327	O	O
+dimensional	1327,1338	O	O
+TEM	1339,1342	O	B-Process
+images	1343,1349	O	O
+of	1350,1352	O	O
+agglomerates	1353,1365	O	B-Material
+.	1365,1366	O	O
+
+Both	1367,1371	O	O
+the	1372,1375	O	O
+techniques	1376,1386	O	O
+show	1387,1391	O	O
+that	1392,1396	O	O
+soot	1397,1401	O	O
+-	1401,1402	O	O
+in	1402,1404	O	O
+-	1404,1405	O	O
+oil	1405,1408	O	O
+exists	1409,1415	O	O
+as	1416,1418	O	O
+agglomerates	1419,1431	O	B-Material
+with	1432,1436	O	O
+average	1437,1444	O	O
+size	1445,1449	O	O
+of	1450,1452	O	O
+120	1453,1456	O	O
+nm	1456,1458	O	O
+.	1458,1459	O	O
+
+NTA	1460,1463	O	B-Process
+is	1464,1466	O	O
+able	1467,1471	O	O
+to	1472,1474	O	O
+measure	1475,1482	O	O
+particles	1483,1492	O	O
+in	1493,1495	O	O
+polydisperse	1496,1508	O	B-Material
+solutions	1509,1518	O	I-Material
+and	1519,1522	O	O
+reports	1523,1530	O	O
+the	1531,1534	O	O
+size	1535,1539	O	O
+and	1540,1543	O	O
+volume	1544,1550	O	O
+distribution	1551,1563	O	O
+of	1564,1566	O	O
+soot	1567,1571	O	B-Material
+-	1571,1572	O	I-Material
+in	1572,1574	O	I-Material
+-	1574,1575	O	I-Material
+oil	1575,1578	O	I-Material
+aggregates	1579,1589	O	I-Material
+;	1589,1590	O	O
+it	1591,1593	O	O
+has	1594,1597	O	O
+the	1598,1601	O	O
+advantages	1602,1612	O	O
+of	1613,1615	O	O
+being	1616,1621	O	O
+fast	1622,1626	O	O
+and	1627,1630	O	O
+relatively	1631,1641	O	O
+low	1642,1645	O	O
+cost	1646,1650	O	O
+if	1651,1653	O	O
+compared	1654,1662	O	O
+with	1663,1667	O	O
+TEM	1668,1671	O	B-Process
+.	1671,1672	O	O
 
 
 -DOCSTART- (S0301679X14000449)
 
-Fig	0	3	O
-.	3	4	O
-
-11	5	7	O
-shows	8	13	O
-the	14	17	O
-wear	18	22	B-Material
--	22	23	I-Material
-mode	23	27	I-Material
-map	28	31	I-Material
-of	32	34	O
-RH	35	37	O
-ceramics	38	46	O
-,	46	47	O
-in	48	50	O
-which	51	56	O
-the	57	60	O
-early	61	66	O
--	66	67	O
-stage	67	72	O
-friction	73	81	O
-coefficients	82	94	O
-and	95	98	O
-the	99	102	O
-surface	103	110	O
-roughness	111	120	O
-of	121	123	O
-the	124	127	O
-pure	128	132	O
-surface	133	140	O
-were	141	145	O
-chosen	146	152	O
-.	152	153	O
-
-The	154	157	O
-value	158	163	O
-of	164	166	O
-the	167	170	O
-fracture	171	179	O
-toughness	180	189	O
-of	190	192	O
-RH	193	195	O
-ceramics	196	204	O
-was	205	208	O
-calculated	209	219	O
-based	220	225	O
-on	226	228	O
-the	229	232	O
-reference	233	242	O
-data	243	247	O
-in	248	250	O
-other	251	256	O
-literature	257	267	O
-[	268	269	O
-22	269	271	O
-]	271	272	O
-.	272	273	O
-
-The	274	277	O
-Sc	278	280	O
-of	281	283	O
-RH	284	286	O
-ceramics	287	295	O
-was	296	299	O
-smaller	300	307	O
-than	308	312	O
-Sc	313	315	O
-,	315	316	O
-critical	316	324	O
-under	325	330	O
-all	331	334	O
-tested	335	341	O
-conditions	342	352	O
-during	353	359	O
-the	360	363	O
-initial	364	371	O
-stage	372	377	O
-of	378	380	O
-friction	381	389	O
-.	389	390	O
-
-Thus	391	395	O
-,	395	396	O
-the	397	400	O
-initial	401	408	O
-wear	409	413	O
-mode	414	418	O
-of	419	421	O
-RH	422	424	O
-ceramics	425	433	O
-was	434	437	O
-powder	438	444	B-Process
-formation	445	454	I-Process
-or	455	457	O
-plowing	458	465	B-Process
-.	465	466	O
-
-In	467	469	O
-addition	470	478	O
-,	478	479	O
-powder	480	486	B-Process
-formation	487	496	I-Process
-and	497	500	O
-plowing	501	508	B-Process
-can	509	512	O
-be	513	515	O
-distinguished	516	529	O
-using	530	535	O
-a	536	537	O
-dimensionless	538	551	B-Material
-parameter	552	561	I-Material
-(	562	563	O
-Sc⁎	563	566	B-Material
-)	566	567	O
-and	568	571	O
-a	572	573	O
-critical	574	582	B-Material
-parameter	583	592	I-Material
-(	593	594	O
-Sc	594	596	B-Material
-,	596	597	I-Material
-critical⁎).(3)Sc⁎=HvRmaxKIc(4)Sc	597	629	I-Material
-,	629	630	I-Process
-critical⁎=51	630	642	I-Process
-+	642	643	I-Process
-10μwhere	643	651	I-Process
-
-Hv	652	654	O
-is	655	657	O
-the	658	661	O
-Vickers	662	669	B-Process
-hardness	670	678	I-Process
-of	679	681	O
-RH	682	684	O
-ceramics	685	693	O
-
-[	694	695	O
-Pa	695	697	O
-]	697	698	O
-.	698	699	O
-
-The	700	703	O
-initial	704	711	O
-wear	712	716	O
-mode	717	721	O
-of	722	724	O
-RH	725	727	O
-ceramics	728	736	O
-was	737	740	O
-determined	741	751	O
-as	752	754	O
-powder	755	761	B-Process
-formation	762	771	I-Process
-under	772	777	O
-all	778	781	O
-tested	782	788	O
-conditions	789	799	O
-,	799	800	O
-as	801	803	O
-demonstrated	804	816	O
-in	817	819	O
-Fig	820	823	O
-.	823	824	O
-
-12(a	825	829	O
-)	829	830	O
-.	830	831	O
-
-Furthermore	832	843	O
-,	843	844	O
-the	845	848	O
-wear	849	853	O
--	853	854	O
-mode	854	858	O
-map	859	862	O
-at	863	865	O
-2×104	866	871	O
-cycles	872	878	O
-was	879	882	O
-constructed	883	894	O
-,	894	895	O
-as	896	898	O
-shown	899	904	O
-in	905	907	O
-Fig	908	911	O
-.	911	912	O
-
-12(b	913	917	O
-)	917	918	O
-.	918	919	O
-
-In	920	922	O
-the	923	926	O
-map	927	930	O
-,	930	931	O
-all	932	935	O
-plots	936	941	O
-moved	942	947	O
-near	948	952	O
-the	953	956	O
-transition	957	967	O
-curve	968	973	O
-to	974	976	O
-plowing	977	984	B-Process
-.	984	985	O
-
-In	986	988	O
-particular	989	999	O
-,	999	1000	O
-the	1001	1004	O
-plots	1005	1010	O
-for	1011	1014	O
-RH	1015	1017	O
-ceramics	1018	1026	O
-sliding	1027	1034	O
-against	1035	1042	O
-stainless	1043	1052	B-Material
-steel	1053	1058	I-Material
-or	1059	1061	O
-Al2O3	1062	1067	B-Material
-balls	1068	1073	I-Material
-were	1074	1078	O
-nearer	1079	1085	O
-than	1086	1090	O
-SiC	1091	1094	B-Material
-or	1095	1097	I-Material
-Si3N4	1098	1103	I-Material
-balls	1104	1109	I-Material
-.	1109	1110	O
-
-Therefore	1111	1120	O
-,	1120	1121	O
-RH	1122	1124	O
-ceramics	1125	1133	O
-sliding	1134	1141	O
-against	1142	1149	O
-SiC	1150	1153	B-Material
-and	1154	1157	I-Material
-Si3N4	1158	1163	I-Material
-balls	1164	1169	I-Material
-showed	1170	1176	O
-relatively	1177	1187	O
-higher	1188	1194	O
-wear	1195	1199	O
-than	1200	1204	O
-the	1205	1208	O
-other	1209	1214	O
-counterpart	1215	1226	O
-materials	1227	1236	O
-.	1236	1237	O
-
-Nevertheless	1238	1250	O
-,	1250	1251	O
-these	1252	1257	O
-results	1258	1265	O
-from	1266	1270	O
-the	1271	1274	O
-wear	1275	1279	B-Material
--	1279	1280	I-Material
-mode	1280	1284	I-Material
-maps	1285	1289	I-Material
-indicated	1290	1299	O
-that	1300	1304	O
-the	1305	1308	O
-wear	1309	1313	O
-mode	1314	1318	O
-of	1319	1321	O
-RH	1322	1324	O
-ceramics	1325	1333	O
-was	1334	1337	O
-powder	1338	1344	B-Process
-formation	1345	1354	I-Process
-accompanied	1355	1366	O
-with	1367	1371	O
-microcracks	1372	1383	O
-under	1384	1389	O
-all	1390	1393	O
-tested	1394	1400	O
-conditions	1401	1411	O
-in	1412	1414	O
-this	1415	1419	O
-study	1420	1425	O
-,	1425	1426	O
-resulting	1427	1436	O
-in	1437	1439	O
-low	1440	1443	O
-wear	1444	1448	O
-(	1449	1450	O
-<	1450	1451	O
-5×10−9mm2/N	1451	1462	O
-)	1462	1463	O
-.	1463	1464	O
-
-Indeed	1465	1471	O
-,	1471	1472	O
-the	1473	1476	O
-observation	1477	1488	O
-of	1489	1491	O
-the	1492	1495	O
-worn	1496	1500	O
-surfaces	1501	1509	O
-revealed	1510	1518	O
-that	1519	1523	O
-the	1524	1527	O
-catastrophic	1528	1540	O
-wear	1541	1545	O
-of	1546	1548	O
-RH	1549	1551	O
-ceramics	1552	1560	O
-accompanied	1561	1572	O
-by	1573	1575	O
-large	1576	1581	O
-brittle	1582	1589	O
-fracture	1590	1598	O
-was	1599	1602	O
-prevented	1603	1612	O
-overall	1613	1620	O
-,	1620	1621	O
-as	1622	1624	O
-shown	1625	1630	O
-in	1631	1633	O
-Fig	1634	1637	O
-.	1637	1638	O
-
-13	1639	1641	O
-.	1641	1642	O
+Fig	0,3	O	O
+.	3,4	O	O
+
+11	5,7	O	O
+shows	8,13	O	O
+the	14,17	O	O
+wear	18,22	O	B-Material
+-	22,23	O	I-Material
+mode	23,27	O	I-Material
+map	28,31	O	I-Material
+of	32,34	O	O
+RH	35,37	O	O
+ceramics	38,46	O	O
+,	46,47	O	O
+in	48,50	O	O
+which	51,56	O	O
+the	57,60	O	O
+early	61,66	O	O
+-	66,67	O	O
+stage	67,72	O	O
+friction	73,81	O	O
+coefficients	82,94	O	O
+and	95,98	O	O
+the	99,102	O	O
+surface	103,110	O	O
+roughness	111,120	O	O
+of	121,123	O	O
+the	124,127	O	O
+pure	128,132	O	O
+surface	133,140	O	O
+were	141,145	O	O
+chosen	146,152	O	O
+.	152,153	O	O
+
+The	154,157	O	O
+value	158,163	O	O
+of	164,166	O	O
+the	167,170	O	O
+fracture	171,179	O	O
+toughness	180,189	O	O
+of	190,192	O	O
+RH	193,195	O	O
+ceramics	196,204	O	O
+was	205,208	O	O
+calculated	209,219	O	O
+based	220,225	O	O
+on	226,228	O	O
+the	229,232	O	O
+reference	233,242	O	O
+data	243,247	O	O
+in	248,250	O	O
+other	251,256	O	O
+literature	257,267	O	O
+[	268,269	O	O
+22	269,271	O	O
+]	271,272	O	O
+.	272,273	O	O
+
+The	274,277	O	O
+Sc	278,280	O	O
+of	281,283	O	O
+RH	284,286	O	O
+ceramics	287,295	O	O
+was	296,299	O	O
+smaller	300,307	O	O
+than	308,312	O	O
+Sc	313,315	O	O
+,	315,316	O	O
+critical	316,324	O	O
+under	325,330	O	O
+all	331,334	O	O
+tested	335,341	O	O
+conditions	342,352	O	O
+during	353,359	O	O
+the	360,363	O	O
+initial	364,371	O	O
+stage	372,377	O	O
+of	378,380	O	O
+friction	381,389	O	O
+.	389,390	O	O
+
+Thus	391,395	O	O
+,	395,396	O	O
+the	397,400	O	O
+initial	401,408	O	O
+wear	409,413	O	O
+mode	414,418	O	O
+of	419,421	O	O
+RH	422,424	O	O
+ceramics	425,433	O	O
+was	434,437	O	O
+powder	438,444	O	B-Process
+formation	445,454	O	I-Process
+or	455,457	O	O
+plowing	458,465	O	B-Process
+.	465,466	O	O
+
+In	467,469	O	O
+addition	470,478	O	O
+,	478,479	O	O
+powder	480,486	O	B-Process
+formation	487,496	O	I-Process
+and	497,500	O	O
+plowing	501,508	O	B-Process
+can	509,512	O	O
+be	513,515	O	O
+distinguished	516,529	O	O
+using	530,535	O	O
+a	536,537	O	O
+dimensionless	538,551	O	B-Material
+parameter	552,561	O	I-Material
+(	562,563	O	O
+Sc⁎	563,566	O	B-Material
+)	566,567	O	O
+and	568,571	O	O
+a	572,573	O	O
+critical	574,582	O	B-Material
+parameter	583,592	O	I-Material
+(	593,594	O	O
+Sc	594,596	O	B-Material
+,	596,597	O	I-Material
+critical⁎).(3)Sc⁎=HvRmaxKIc(4)Sc	597,629	O	I-Material
+,	629,630	O	I-Process
+critical⁎=51	630,642	O	I-Process
++	642,643	O	I-Process
+10μwhere	643,651	O	I-Process
+
+Hv	652,654	O	O
+is	655,657	O	O
+the	658,661	O	O
+Vickers	662,669	O	B-Process
+hardness	670,678	O	I-Process
+of	679,681	O	O
+RH	682,684	O	O
+ceramics	685,693	O	O
+
+[	694,695	O	O
+Pa	695,697	O	O
+]	697,698	O	O
+.	698,699	O	O
+
+The	700,703	O	O
+initial	704,711	O	O
+wear	712,716	O	O
+mode	717,721	O	O
+of	722,724	O	O
+RH	725,727	O	O
+ceramics	728,736	O	O
+was	737,740	O	O
+determined	741,751	O	O
+as	752,754	O	O
+powder	755,761	O	B-Process
+formation	762,771	O	I-Process
+under	772,777	O	O
+all	778,781	O	O
+tested	782,788	O	O
+conditions	789,799	O	O
+,	799,800	O	O
+as	801,803	O	O
+demonstrated	804,816	O	O
+in	817,819	O	O
+Fig	820,823	O	O
+.	823,824	O	O
+
+12(a	825,829	O	O
+)	829,830	O	O
+.	830,831	O	O
+
+Furthermore	832,843	O	O
+,	843,844	O	O
+the	845,848	O	O
+wear	849,853	O	O
+-	853,854	O	O
+mode	854,858	O	O
+map	859,862	O	O
+at	863,865	O	O
+2×104	866,871	O	O
+cycles	872,878	O	O
+was	879,882	O	O
+constructed	883,894	O	O
+,	894,895	O	O
+as	896,898	O	O
+shown	899,904	O	O
+in	905,907	O	O
+Fig	908,911	O	O
+.	911,912	O	O
+
+12(b	913,917	O	O
+)	917,918	O	O
+.	918,919	O	O
+
+In	920,922	O	O
+the	923,926	O	O
+map	927,930	O	O
+,	930,931	O	O
+all	932,935	O	O
+plots	936,941	O	O
+moved	942,947	O	O
+near	948,952	O	O
+the	953,956	O	O
+transition	957,967	O	O
+curve	968,973	O	O
+to	974,976	O	O
+plowing	977,984	O	B-Process
+.	984,985	O	O
+
+In	986,988	O	O
+particular	989,999	O	O
+,	999,1000	O	O
+the	1001,1004	O	O
+plots	1005,1010	O	O
+for	1011,1014	O	O
+RH	1015,1017	O	O
+ceramics	1018,1026	O	O
+sliding	1027,1034	O	O
+against	1035,1042	O	O
+stainless	1043,1052	O	B-Material
+steel	1053,1058	O	I-Material
+or	1059,1061	O	O
+Al2O3	1062,1067	O	B-Material
+balls	1068,1073	O	I-Material
+were	1074,1078	O	O
+nearer	1079,1085	O	O
+than	1086,1090	O	O
+SiC	1091,1094	O	B-Material
+or	1095,1097	O	I-Material
+Si3N4	1098,1103	O	I-Material
+balls	1104,1109	O	I-Material
+.	1109,1110	O	O
+
+Therefore	1111,1120	O	O
+,	1120,1121	O	O
+RH	1122,1124	O	O
+ceramics	1125,1133	O	O
+sliding	1134,1141	O	O
+against	1142,1149	O	O
+SiC	1150,1153	O	B-Material
+and	1154,1157	O	I-Material
+Si3N4	1158,1163	O	I-Material
+balls	1164,1169	O	I-Material
+showed	1170,1176	O	O
+relatively	1177,1187	O	O
+higher	1188,1194	O	O
+wear	1195,1199	O	O
+than	1200,1204	O	O
+the	1205,1208	O	O
+other	1209,1214	O	O
+counterpart	1215,1226	O	O
+materials	1227,1236	O	O
+.	1236,1237	O	O
+
+Nevertheless	1238,1250	O	O
+,	1250,1251	O	O
+these	1252,1257	O	O
+results	1258,1265	O	O
+from	1266,1270	O	O
+the	1271,1274	O	O
+wear	1275,1279	O	B-Material
+-	1279,1280	O	I-Material
+mode	1280,1284	O	I-Material
+maps	1285,1289	O	I-Material
+indicated	1290,1299	O	O
+that	1300,1304	O	O
+the	1305,1308	O	O
+wear	1309,1313	O	O
+mode	1314,1318	O	O
+of	1319,1321	O	O
+RH	1322,1324	O	O
+ceramics	1325,1333	O	O
+was	1334,1337	O	O
+powder	1338,1344	O	B-Process
+formation	1345,1354	O	I-Process
+accompanied	1355,1366	O	O
+with	1367,1371	O	O
+microcracks	1372,1383	O	O
+under	1384,1389	O	O
+all	1390,1393	O	O
+tested	1394,1400	O	O
+conditions	1401,1411	O	O
+in	1412,1414	O	O
+this	1415,1419	O	O
+study	1420,1425	O	O
+,	1425,1426	O	O
+resulting	1427,1436	O	O
+in	1437,1439	O	O
+low	1440,1443	O	O
+wear	1444,1448	O	O
+(	1449,1450	O	O
+<	1450,1451	O	O
+5×10−9mm2/N	1451,1462	O	O
+)	1462,1463	O	O
+.	1463,1464	O	O
+
+Indeed	1465,1471	O	O
+,	1471,1472	O	O
+the	1473,1476	O	O
+observation	1477,1488	O	O
+of	1489,1491	O	O
+the	1492,1495	O	O
+worn	1496,1500	O	O
+surfaces	1501,1509	O	O
+revealed	1510,1518	O	O
+that	1519,1523	O	O
+the	1524,1527	O	O
+catastrophic	1528,1540	O	O
+wear	1541,1545	O	O
+of	1546,1548	O	O
+RH	1549,1551	O	O
+ceramics	1552,1560	O	O
+accompanied	1561,1572	O	O
+by	1573,1575	O	O
+large	1576,1581	O	O
+brittle	1582,1589	O	O
+fracture	1590,1598	O	O
+was	1599,1602	O	O
+prevented	1603,1612	O	O
+overall	1613,1620	O	O
+,	1620,1621	O	O
+as	1622,1624	O	O
+shown	1625,1630	O	O
+in	1631,1633	O	O
+Fig	1634,1637	O	O
+.	1637,1638	O	O
+
+13	1639,1641	O	O
+.	1641,1642	O	O
 
 
 -DOCSTART- (S0301679X14003272)
 
-The	0	3	O
-lateral	4	11	B-Task
-force	12	17	I-Task
-,	17	18	I-Task
-Q	19	20	I-Task
-,	20	21	I-Task
-is	22	24	I-Task
-measured	25	33	I-Task
-and	34	37	I-Task
-recorded	38	46	I-Task
-throughout	47	57	O
-the	58	61	O
-entire	62	68	O
-test	69	73	O
-by	74	76	O
-a	77	78	O
-piezoelectric	79	92	B-Process
-load	93	97	I-Process
-cell	98	102	I-Process
-which	103	108	O
-is	109	111	O
-connected	112	121	O
-to	122	124	O
-the	125	128	O
-quasi	129	134	O
--	134	135	O
-stationary	135	145	O
-LSMB	146	150	B-Process
-.	150	151	O
-
-The	152	155	O
-LSMB	156	160	B-Process
-is	161	163	O
-mounted	164	171	O
-on	172	174	O
-flexures	175	183	B-Material
-which	184	189	O
-provide	190	197	O
-flexibility	198	209	O
-in	210	212	O
-the	213	216	O
-horizontal	217	227	O
-direction	228	237	O
-so	238	240	O
-that	241	245	O
-the	246	249	O
-majority	250	258	O
-of	259	261	O
-the	262	265	O
-lateral	266	273	O
-force	274	279	O
-is	280	282	O
-transmitted	283	294	O
-though	295	301	O
-the	302	305	O
-much	306	310	O
-stiffer	311	318	O
-load	319	323	O
-path	324	328	O
-which	329	334	O
-contains	335	343	O
-the	344	347	O
-load	348	352	B-Process
-cell	353	357	I-Process
-as	358	360	O
-shown	361	366	O
-in	367	369	O
-Fig	370	373	O
-.	373	374	O
-
-2	375	376	O
-.	376	377	O
-
-Both	378	382	O
-displacement	383	395	B-Process
-and	396	399	I-Process
-load	400	404	I-Process
-sensors	405	412	I-Process
-have	413	417	O
-been	418	422	O
-calibrated	423	433	O
-(	434	435	O
-both	435	439	O
-externally	440	450	O
-and	451	454	O
-in	455	457	O
--	457	458	O
-situ	458	462	O
-)	462	463	O
-in	464	466	O
-static	467	473	O
-conditions	474	484	O
-.	484	485	O
-
-The	486	489	O
-load	490	494	O
-and	495	498	O
-displacement	499	511	O
-signals	512	519	O
-are	520	523	O
-sampled	524	531	O
-at	532	534	O
-a	535	536	O
-rate	537	541	O
-of	542	544	O
-two	545	548	O
-hundred	549	556	O
-measurements	557	569	O
-per	570	573	O
-fretting	574	582	O
-cycle	583	588	O
-at	589	591	O
-all	592	595	O
-fretting	596	604	O
-frequencies	605	616	O
-,	616	617	O
-with	618	622	O
-these	623	628	O
-data	629	633	O
-being	634	639	O
-used	640	644	O
-to	645	647	O
-generate	648	656	O
-fretting	657	665	B-Material
-loops	666	671	I-Material
-.	671	672	I-Material
-
-The	673	676	O
-loops	677	682	O
-were	683	687	O
-used	688	692	O
-to	693	695	O
-derive	696	702	O
-the	703	706	O
-contact	707	714	O
-slip	715	719	O
-amplitude	720	729	O
-and	730	733	O
-the	734	737	O
-energy	738	744	O
-coefficient	745	756	O
-of	757	759	O
-friction	760	768	O
-in	769	771	O
-each	772	776	O
-cycle	777	782	O
-according	783	792	O
-to	793	795	O
-the	796	799	O
-method	800	806	O
-suggested	807	816	O
-by	817	819	O
-Fouvry	820	826	O
-et	827	829	O
-al	830	832	O
-.	832	833	O
-
-[	834	835	O
-17	835	837	O
-]	837	838	O
-.	838	839	O
-
-Average	840	847	O
-values	848	854	O
-for	855	858	O
-these	859	864	O
-were	865	869	O
-calculated	870	880	O
-for	881	884	O
-each	885	889	O
-test	890	894	O
-(	895	896	O
-the	896	899	O
-average	900	907	O
-coefficient	908	919	O
-of	920	922	O
-friction	923	931	O
-included	932	940	O
-values	941	947	O
-associated	948	958	O
-with	959	963	O
-the	964	967	O
-initial	968	975	O
-transients	976	986	O
-in	987	989	O
-the	990	993	O
-tests	994	999	O
-as	1000	1002	O
-suggested	1003	1012	O
-by	1013	1015	O
-Hirsch	1016	1022	O
-and	1023	1026	O
-Neu	1027	1030	O
-
-[	1031	1032	O
-18	1032	1034	O
-]	1034	1035	O
-)	1035	1036	O
-.	1036	1037	O
+The	0,3	O	O
+lateral	4,11	O	B-Task
+force	12,17	O	I-Task
+,	17,18	O	I-Task
+Q	19,20	O	I-Task
+,	20,21	O	I-Task
+is	22,24	O	I-Task
+measured	25,33	O	I-Task
+and	34,37	O	I-Task
+recorded	38,46	O	I-Task
+throughout	47,57	O	O
+the	58,61	O	O
+entire	62,68	O	O
+test	69,73	O	O
+by	74,76	O	O
+a	77,78	O	O
+piezoelectric	79,92	O	B-Process
+load	93,97	O	I-Process
+cell	98,102	O	I-Process
+which	103,108	O	O
+is	109,111	O	O
+connected	112,121	O	O
+to	122,124	O	O
+the	125,128	O	O
+quasi	129,134	O	O
+-	134,135	O	O
+stationary	135,145	O	O
+LSMB	146,150	O	B-Process
+.	150,151	O	O
+
+The	152,155	O	O
+LSMB	156,160	O	B-Process
+is	161,163	O	O
+mounted	164,171	O	O
+on	172,174	O	O
+flexures	175,183	O	B-Material
+which	184,189	O	O
+provide	190,197	O	O
+flexibility	198,209	O	O
+in	210,212	O	O
+the	213,216	O	O
+horizontal	217,227	O	O
+direction	228,237	O	O
+so	238,240	O	O
+that	241,245	O	O
+the	246,249	O	O
+majority	250,258	O	O
+of	259,261	O	O
+the	262,265	O	O
+lateral	266,273	O	O
+force	274,279	O	O
+is	280,282	O	O
+transmitted	283,294	O	O
+though	295,301	O	O
+the	302,305	O	O
+much	306,310	O	O
+stiffer	311,318	O	O
+load	319,323	O	O
+path	324,328	O	O
+which	329,334	O	O
+contains	335,343	O	O
+the	344,347	O	O
+load	348,352	O	B-Process
+cell	353,357	O	I-Process
+as	358,360	O	O
+shown	361,366	O	O
+in	367,369	O	O
+Fig	370,373	O	O
+.	373,374	O	O
+
+2	375,376	O	O
+.	376,377	O	O
+
+Both	378,382	O	O
+displacement	383,395	O	B-Process
+and	396,399	O	I-Process
+load	400,404	O	I-Process
+sensors	405,412	O	I-Process
+have	413,417	O	O
+been	418,422	O	O
+calibrated	423,433	O	O
+(	434,435	O	O
+both	435,439	O	O
+externally	440,450	O	O
+and	451,454	O	O
+in	455,457	O	O
+-	457,458	O	O
+situ	458,462	O	O
+)	462,463	O	O
+in	464,466	O	O
+static	467,473	O	O
+conditions	474,484	O	O
+.	484,485	O	O
+
+The	486,489	O	O
+load	490,494	O	O
+and	495,498	O	O
+displacement	499,511	O	O
+signals	512,519	O	O
+are	520,523	O	O
+sampled	524,531	O	O
+at	532,534	O	O
+a	535,536	O	O
+rate	537,541	O	O
+of	542,544	O	O
+two	545,548	O	O
+hundred	549,556	O	O
+measurements	557,569	O	O
+per	570,573	O	O
+fretting	574,582	O	O
+cycle	583,588	O	O
+at	589,591	O	O
+all	592,595	O	O
+fretting	596,604	O	O
+frequencies	605,616	O	O
+,	616,617	O	O
+with	618,622	O	O
+these	623,628	O	O
+data	629,633	O	O
+being	634,639	O	O
+used	640,644	O	O
+to	645,647	O	O
+generate	648,656	O	O
+fretting	657,665	O	B-Material
+loops	666,671	O	I-Material
+.	671,672	O	I-Material
+
+The	673,676	O	O
+loops	677,682	O	O
+were	683,687	O	O
+used	688,692	O	O
+to	693,695	O	O
+derive	696,702	O	O
+the	703,706	O	O
+contact	707,714	O	O
+slip	715,719	O	O
+amplitude	720,729	O	O
+and	730,733	O	O
+the	734,737	O	O
+energy	738,744	O	O
+coefficient	745,756	O	O
+of	757,759	O	O
+friction	760,768	O	O
+in	769,771	O	O
+each	772,776	O	O
+cycle	777,782	O	O
+according	783,792	O	O
+to	793,795	O	O
+the	796,799	O	O
+method	800,806	O	O
+suggested	807,816	O	O
+by	817,819	O	O
+Fouvry	820,826	O	O
+et	827,829	O	O
+al	830,832	O	O
+.	832,833	O	O
+
+[	834,835	O	O
+17	835,837	O	O
+]	837,838	O	O
+.	838,839	O	O
+
+Average	840,847	O	O
+values	848,854	O	O
+for	855,858	O	O
+these	859,864	O	O
+were	865,869	O	O
+calculated	870,880	O	O
+for	881,884	O	O
+each	885,889	O	O
+test	890,894	O	O
+(	895,896	O	O
+the	896,899	O	O
+average	900,907	O	O
+coefficient	908,919	O	O
+of	920,922	O	O
+friction	923,931	O	O
+included	932,940	O	O
+values	941,947	O	O
+associated	948,958	O	O
+with	959,963	O	O
+the	964,967	O	O
+initial	968,975	O	O
+transients	976,986	O	O
+in	987,989	O	O
+the	990,993	O	O
+tests	994,999	O	O
+as	1000,1002	O	O
+suggested	1003,1012	O	O
+by	1013,1015	O	O
+Hirsch	1016,1022	O	O
+and	1023,1026	O	O
+Neu	1027,1030	O	O
+
+[	1031,1032	O	O
+18	1032,1034	O	O
+]	1034,1035	O	O
+)	1035,1036	O	O
+.	1036,1037	O	O
 
 
 -DOCSTART- (S0304399111001811)
 
-We	0	2	O
-have	3	7	O
-developed	8	17	O
-the	18	21	O
-theory	22	28	O
-of	29	31	O
-electrons	32	41	B-Process
-carrying	42	50	I-Process
-quantized	51	60	I-Process
-orbital	61	68	I-Process
-angular	69	76	I-Process
-momentum	77	85	I-Process
-.	85	86	I-Process
-
-To	87	89	O
-make	90	94	O
-connection	95	105	O
-to	106	108	O
-realistic	109	118	O
-situations	119	129	O
-,	129	130	O
-we	131	133	O
-considered	134	144	O
-a	145	146	O
-plane	147	152	B-Material
-wave	153	157	I-Material
-moving	158	164	O
-along	165	170	O
-the	171	174	O
-optic	175	180	O
-axis	181	185	O
-of	186	188	O
-a	189	190	O
-lens	191	195	B-Material
-system	196	202	I-Material
-,	202	203	O
-intercepted	204	215	O
-by	216	218	O
-a	219	220	O
-round	221	226	B-Material
-,	226	227	I-Material
-centered	228	236	I-Material
-aperture.88In	237	250	I-Material
-the	251	254	O
-experiment	255	265	O
-,	265	266	O
-this	267	271	O
-aperture	272	280	B-Material
-carries	281	288	O
-the	289	292	O
-holographic	293	304	B-Material
-mask	305	309	I-Material
-.	309	310	O
-
-It	311	313	O
-turns	314	319	O
-out	320	323	O
-that	324	328	O
-the	329	332	O
-movement	333	341	O
-along	342	347	O
-the	348	351	O
-optic	352	357	O
-axis	358	362	O
-can	363	366	O
-be	367	369	O
-separated	370	379	O
-off	380	383	O
-;	383	384	O
-the	385	388	O
-reduced	389	396	B-Process
-Schrödinger	397	408	I-Process
-equation	409	417	I-Process
-operating	418	427	O
-in	428	430	O
-the	431	434	O
-plane	435	440	B-Material
-of	441	443	O
-the	444	447	O
-aperture	448	456	B-Material
-can	457	460	O
-be	461	463	O
-mapped	464	470	O
-onto	471	475	O
-Bessel	476	482	O
-'s	482	484	O
-differential	485	497	O
-equation	498	506	O
-.	506	507	O
-
-The	508	511	O
-ensuing	512	519	O
-eigenfunctions	520	534	O
-fall	535	539	O
-into	540	544	O
-families	545	553	O
-with	554	558	O
-discrete	559	567	O
-orbital	568	575	O
-angular	576	583	O
-momentum	584	592	O
-ℏm	593	595	O
-along	596	601	O
-the	602	605	O
-optic	606	611	O
-axis	612	616	O
-where	617	622	O
-m	623	624	O
-is	625	627	O
-a	628	629	O
-magnetic	630	638	O
-quantum	639	646	O
-number	647	653	O
-.	653	654	O
-
-Those	655	660	O
-vortices	661	669	B-Material
-can	670	673	O
-be	674	676	O
-produced	677	685	O
-by	686	688	O
-matching	689	697	O
-a	698	699	O
-plane	700	705	B-Material
-wave	706	710	I-Material
-after	711	716	O
-passage	717	724	O
-through	725	732	O
-a	733	734	O
-holographic	735	746	B-Material
-mask	747	751	I-Material
-with	752	756	O
-a	757	758	O
-fork	759	763	O
-dislocation	764	775	O
-to	776	778	O
-the	779	782	O
-eigenfunctions	783	797	O
-of	798	800	O
-the	801	804	O
-cylindrical	805	816	O
-problem	817	824	O
-.	824	825	O
-
-Vortices	826	834	O
-can	835	838	O
-be	839	841	O
-focussed	842	850	O
-by	851	853	O
-magnetic	854	862	B-Material
-lenses	863	869	I-Material
-into	870	874	O
-volcano	875	882	O
--	882	883	O
-like	883	887	O
-charge	888	894	O
-distributions	895	908	O
-with	909	913	O
-very	914	918	O
-narrow	919	925	O
-angular	926	933	B-Process
-divergence	934	944	I-Process
-,	944	945	O
-resembling	946	956	O
-loop	957	961	O
-currents	962	970	O
-in	971	973	O
-the	974	977	O
-diffraction	978	989	O
-plane	990	995	O
-.	995	996	O
-
-Inclusion	997	1006	B-Process
-of	1007	1009	I-Process
-spherical	1010	1019	I-Process
-aberration	1020	1030	I-Process
-changes	1031	1038	O
-the	1039	1042	O
-ringlike	1043	1051	O
-shape	1052	1057	O
-but	1058	1061	O
-does	1062	1066	O
-not	1067	1070	O
-destroy	1071	1078	O
-the	1079	1082	O
-central	1083	1090	O
-zero	1091	1095	O
-intensity	1096	1105	O
-of	1106	1108	O
-vortices	1109	1117	O
-with	1118	1122	O
-m≠0	1123	1126	O
-.	1126	1127	O
-
-Partial	1128	1135	B-Process
-coherence	1136	1145	I-Process
-of	1146	1148	O
-the	1149	1152	O
-incident	1153	1161	B-Material
-wave	1162	1166	I-Material
-leads	1167	1172	O
-to	1173	1175	O
-a	1176	1177	O
-rise	1178	1182	O
-of	1183	1185	O
-the	1186	1189	O
-central	1190	1197	O
-intensity	1198	1207	O
-minimum	1208	1215	O
-.	1215	1216	O
-
-It	1217	1219	O
-is	1220	1222	O
-shown	1223	1228	O
-that	1229	1233	O
-a	1234	1235	O
-very	1236	1240	O
-small	1241	1246	O
-source	1247	1253	O
-angle	1254	1259	O
-(	1260	1261	O
-i.e.	1261	1265	O
-a	1266	1267	O
-very	1268	1272	O
-high	1273	1277	O
-coherence	1278	1287	O
-)	1287	1288	O
-is	1289	1291	O
-necessary	1292	1301	O
-so	1302	1304	O
-as	1305	1307	O
-to	1308	1310	O
-keep	1311	1315	O
-the	1316	1319	O
-volcano	1320	1327	O
-structure	1328	1337	O
-intact	1338	1344	O
-.	1344	1345	O
-
-Their	1346	1351	O
-small	1352	1357	O
-angular	1358	1365	O
-width	1366	1371	O
-in	1372	1374	O
-the	1375	1378	O
-far	1379	1382	O
-field	1383	1388	O
-may	1389	1392	O
-allow	1393	1398	O
-the	1399	1402	O
-creation	1403	1411	B-Process
-of	1412	1414	I-Process
-nm	1415	1417	I-Process
--	1417	1418	I-Process
-sized	1418	1423	I-Process
-or	1424	1426	I-Process
-smaller	1427	1434	I-Process
-electron	1435	1443	I-Process
-vortices	1444	1452	I-Process
-but	1453	1456	O
-the	1457	1460	O
-demand	1461	1467	O
-for	1468	1471	O
-extremely	1472	1481	O
-high	1482	1486	O
-coherence	1487	1496	O
-of	1497	1499	O
-the	1500	1503	O
-source	1504	1510	O
-poses	1511	1516	O
-a	1517	1518	O
-serious	1519	1526	O
-difficulty	1527	1537	O
-.	1537	1538	O
+We	0,2	O	O
+have	3,7	O	O
+developed	8,17	O	O
+the	18,21	O	O
+theory	22,28	O	O
+of	29,31	O	O
+electrons	32,41	O	B-Process
+carrying	42,50	O	I-Process
+quantized	51,60	O	I-Process
+orbital	61,68	O	I-Process
+angular	69,76	O	I-Process
+momentum	77,85	O	I-Process
+.	85,86	O	I-Process
+
+To	87,89	O	O
+make	90,94	O	O
+connection	95,105	O	O
+to	106,108	O	O
+realistic	109,118	O	O
+situations	119,129	O	O
+,	129,130	O	O
+we	131,133	O	O
+considered	134,144	O	O
+a	145,146	O	O
+plane	147,152	O	B-Material
+wave	153,157	O	I-Material
+moving	158,164	O	O
+along	165,170	O	O
+the	171,174	O	O
+optic	175,180	O	O
+axis	181,185	O	O
+of	186,188	O	O
+a	189,190	O	O
+lens	191,195	O	B-Material
+system	196,202	O	I-Material
+,	202,203	O	O
+intercepted	204,215	O	O
+by	216,218	O	O
+a	219,220	O	O
+round	221,226	O	B-Material
+,	226,227	O	I-Material
+centered	228,236	O	I-Material
+aperture.88In	237,250	O	I-Material
+the	251,254	O	O
+experiment	255,265	O	O
+,	265,266	O	O
+this	267,271	O	O
+aperture	272,280	O	B-Material
+carries	281,288	O	O
+the	289,292	O	O
+holographic	293,304	O	B-Material
+mask	305,309	O	I-Material
+.	309,310	O	O
+
+It	311,313	O	O
+turns	314,319	O	O
+out	320,323	O	O
+that	324,328	O	O
+the	329,332	O	O
+movement	333,341	O	O
+along	342,347	O	O
+the	348,351	O	O
+optic	352,357	O	O
+axis	358,362	O	O
+can	363,366	O	O
+be	367,369	O	O
+separated	370,379	O	O
+off	380,383	O	O
+;	383,384	O	O
+the	385,388	O	O
+reduced	389,396	O	B-Process
+Schrödinger	397,408	O	I-Process
+equation	409,417	O	I-Process
+operating	418,427	O	O
+in	428,430	O	O
+the	431,434	O	O
+plane	435,440	O	B-Material
+of	441,443	O	O
+the	444,447	O	O
+aperture	448,456	O	B-Material
+can	457,460	O	O
+be	461,463	O	O
+mapped	464,470	O	O
+onto	471,475	O	O
+Bessel	476,482	O	O
+'s	482,484	O	O
+differential	485,497	O	O
+equation	498,506	O	O
+.	506,507	O	O
+
+The	508,511	O	O
+ensuing	512,519	O	O
+eigenfunctions	520,534	O	O
+fall	535,539	O	O
+into	540,544	O	O
+families	545,553	O	O
+with	554,558	O	O
+discrete	559,567	O	O
+orbital	568,575	O	O
+angular	576,583	O	O
+momentum	584,592	O	O
+ℏm	593,595	O	O
+along	596,601	O	O
+the	602,605	O	O
+optic	606,611	O	O
+axis	612,616	O	O
+where	617,622	O	O
+m	623,624	O	O
+is	625,627	O	O
+a	628,629	O	O
+magnetic	630,638	O	O
+quantum	639,646	O	O
+number	647,653	O	O
+.	653,654	O	O
+
+Those	655,660	O	O
+vortices	661,669	O	B-Material
+can	670,673	O	O
+be	674,676	O	O
+produced	677,685	O	O
+by	686,688	O	O
+matching	689,697	O	O
+a	698,699	O	O
+plane	700,705	O	B-Material
+wave	706,710	O	I-Material
+after	711,716	O	O
+passage	717,724	O	O
+through	725,732	O	O
+a	733,734	O	O
+holographic	735,746	O	B-Material
+mask	747,751	O	I-Material
+with	752,756	O	O
+a	757,758	O	O
+fork	759,763	O	O
+dislocation	764,775	O	O
+to	776,778	O	O
+the	779,782	O	O
+eigenfunctions	783,797	O	O
+of	798,800	O	O
+the	801,804	O	O
+cylindrical	805,816	O	O
+problem	817,824	O	O
+.	824,825	O	O
+
+Vortices	826,834	O	O
+can	835,838	O	O
+be	839,841	O	O
+focussed	842,850	O	O
+by	851,853	O	O
+magnetic	854,862	O	B-Material
+lenses	863,869	O	I-Material
+into	870,874	O	O
+volcano	875,882	O	O
+-	882,883	O	O
+like	883,887	O	O
+charge	888,894	O	O
+distributions	895,908	O	O
+with	909,913	O	O
+very	914,918	O	O
+narrow	919,925	O	O
+angular	926,933	O	B-Process
+divergence	934,944	O	I-Process
+,	944,945	O	O
+resembling	946,956	O	O
+loop	957,961	O	O
+currents	962,970	O	O
+in	971,973	O	O
+the	974,977	O	O
+diffraction	978,989	O	O
+plane	990,995	O	O
+.	995,996	O	O
+
+Inclusion	997,1006	O	B-Process
+of	1007,1009	O	I-Process
+spherical	1010,1019	O	I-Process
+aberration	1020,1030	O	I-Process
+changes	1031,1038	O	O
+the	1039,1042	O	O
+ringlike	1043,1051	O	O
+shape	1052,1057	O	O
+but	1058,1061	O	O
+does	1062,1066	O	O
+not	1067,1070	O	O
+destroy	1071,1078	O	O
+the	1079,1082	O	O
+central	1083,1090	O	O
+zero	1091,1095	O	O
+intensity	1096,1105	O	O
+of	1106,1108	O	O
+vortices	1109,1117	O	O
+with	1118,1122	O	O
+m≠0	1123,1126	O	O
+.	1126,1127	O	O
+
+Partial	1128,1135	O	B-Process
+coherence	1136,1145	O	I-Process
+of	1146,1148	O	O
+the	1149,1152	O	O
+incident	1153,1161	O	B-Material
+wave	1162,1166	O	I-Material
+leads	1167,1172	O	O
+to	1173,1175	O	O
+a	1176,1177	O	O
+rise	1178,1182	O	O
+of	1183,1185	O	O
+the	1186,1189	O	O
+central	1190,1197	O	O
+intensity	1198,1207	O	O
+minimum	1208,1215	O	O
+.	1215,1216	O	O
+
+It	1217,1219	O	O
+is	1220,1222	O	O
+shown	1223,1228	O	O
+that	1229,1233	O	O
+a	1234,1235	O	O
+very	1236,1240	O	O
+small	1241,1246	O	O
+source	1247,1253	O	O
+angle	1254,1259	O	O
+(	1260,1261	O	O
+i.e.	1261,1265	O	O
+a	1266,1267	O	O
+very	1268,1272	O	O
+high	1273,1277	O	O
+coherence	1278,1287	O	O
+)	1287,1288	O	O
+is	1289,1291	O	O
+necessary	1292,1301	O	O
+so	1302,1304	O	O
+as	1305,1307	O	O
+to	1308,1310	O	O
+keep	1311,1315	O	O
+the	1316,1319	O	O
+volcano	1320,1327	O	O
+structure	1328,1337	O	O
+intact	1338,1344	O	O
+.	1344,1345	O	O
+
+Their	1346,1351	O	O
+small	1352,1357	O	O
+angular	1358,1365	O	O
+width	1366,1371	O	O
+in	1372,1374	O	O
+the	1375,1378	O	O
+far	1379,1382	O	O
+field	1383,1388	O	O
+may	1389,1392	O	O
+allow	1393,1398	O	O
+the	1399,1402	O	O
+creation	1403,1411	O	B-Process
+of	1412,1414	O	I-Process
+nm	1415,1417	O	I-Process
+-	1417,1418	O	I-Process
+sized	1418,1423	O	I-Process
+or	1424,1426	O	I-Process
+smaller	1427,1434	O	I-Process
+electron	1435,1443	O	I-Process
+vortices	1444,1452	O	I-Process
+but	1453,1456	O	O
+the	1457,1460	O	O
+demand	1461,1467	O	O
+for	1468,1471	O	O
+extremely	1472,1481	O	O
+high	1482,1486	O	O
+coherence	1487,1496	O	O
+of	1497,1499	O	O
+the	1500,1503	O	O
+source	1504,1510	O	O
+poses	1511,1516	O	O
+a	1517,1518	O	O
+serious	1519,1526	O	O
+difficulty	1527,1537	O	O
+.	1537,1538	O	O
 
 
 -DOCSTART- (S030439911200040X)
 
-Some	0	4	O
-methods	5	12	O
-use	13	16	O
-1D	17	19	B-Material
-radial	20	26	I-Material
-profiles	27	35	I-Material
-obtained	36	44	O
-from	45	49	O
-circular	50	58	B-Process
-averaging	59	68	I-Process
-of	69	71	O
-2D	72	74	B-Process
-experimental	75	87	I-Process
-PSD	88	91	I-Process
-[	92	93	O
-4,8,11	93	99	O
-]	99	100	O
-or	101	103	O
-by	104	106	O
-elliptical	107	117	B-Process
-averaging	118	127	I-Process
-[	128	129	O
-17	129	131	O
-]	131	132	O
-.	132	133	O
-
-An	134	136	O
-inadequacy	137	147	O
-of	148	150	O
-circular	151	159	B-Process
-averaging	160	169	I-Process
-is	170	172	O
-that	173	177	O
-it	178	180	O
-neglects	181	189	O
-astigmatism	190	201	B-Process
-.	201	202	O
-
-Astigmatism	203	214	B-Process
-distorts	215	223	O
-the	224	227	O
-circular	228	236	O
-shape	237	242	O
-of	243	245	O
-the	246	249	O
-Thon	250	254	B-Material
-rings	255	260	I-Material
-and	261	264	O
-thus	265	269	O
-decreases	270	279	O
-their	280	285	O
-modulation	286	296	O
-depth	297	302	O
-in	303	305	O
-the	306	309	O
-obtained	310	318	O
-1D	319	321	B-Material
-profile	322	329	I-Material
-.	329	330	O
-
-A	331	332	O
-few	333	336	O
-algorithms	337	347	O
-that	348	352	O
-consider	353	361	O
-astigmatism	362	373	O
-involve	374	381	O
-concepts	382	390	O
-such	391	395	O
-as	396	398	O
-dividing	399	407	O
-the	408	411	O
-PSD	412	415	B-Process
-into	416	420	O
-sectors	421	428	O
-where	429	434	O
-Thon	435	439	B-Material
-rings	440	445	I-Material
-are	446	449	O
-approximated	450	462	O
-by	463	465	O
-circular	466	474	O
-arcs	475	479	O
-[	480	481	O
-15,21	481	486	O
-]	486	487	O
-,	487	488	O
-applying	489	497	O
-Canny	498	503	B-Process
-edge	504	508	I-Process
-detection	509	518	I-Process
-to	519	521	O
-find	522	526	O
-the	527	530	O
-rings	531	536	O
-[	537	538	O
-17	538	540	O
-]	540	541	O
-prior	542	547	O
-to	548	550	O
-elliptical	551	561	B-Process
-averaging	562	571	I-Process
-,	571	572	O
-determining	573	584	O
-the	585	588	O
-relationship	589	601	O
-between	602	609	O
-the	610	613	O
-1D	614	616	O
-circular	617	625	O
-averages	626	634	O
-with	635	639	O
-and	640	643	O
-without	644	651	O
-astigmatism	652	663	B-Process
-[	664	665	O
-22	665	667	O
-]	667	668	O
-,	668	669	O
-or	670	672	O
-using	673	678	O
-a	679	680	O
-brute	681	686	O
--	686	687	O
-force	687	692	O
-scan	693	697	O
-of	698	700	O
-a	701	702	O
-database	703	711	O
-containing	712	722	O
-precalculated	723	736	O
-patterns	737	745	O
-as	746	748	O
-in	749	751	O
-ATLAS	752	757	B-Process
-[	758	759	O
-23	759	761	O
-]	761	762	O
-.	762	763	O
-
-Some	764	768	O
-other	769	774	O
-approaches	775	785	O
-for	786	789	O
-estimating	790	800	O
-CTF	801	804	B-Process
-parameters	805	815	O
-do	816	818	O
-a	819	820	O
-fully	821	826	O
-2D	827	829	B-Process
-PSD	830	833	I-Process
-optimization	834	846	I-Process
-[	847	848	O
-12,14,18,20	848	859	O
-]	859	860	O
-but	861	864	O
-they	865	869	O
-usually	870	877	O
-regulate	878	886	O
-and	887	890	O
-fit	891	894	O
-numerous	895	903	O
-parameters	904	914	O
-by	915	917	O
-an	918	920	O
-extensive	921	930	O
-search	931	937	O
-that	938	942	O
-does	943	947	O
-not	948	951	O
-guarantee	952	961	O
-convergence	962	973	O
-.	973	974	O
-
-Furthermore	975	986	O
-,	986	987	O
-only	988	992	O
-a	993	994	O
-few	995	998	O
-schemes	999	1006	O
-that	1007	1011	O
-were	1012	1016	O
-developed	1017	1026	O
-for	1027	1030	O
-defocus	1031	1038	O
-estimation	1039	1049	O
-provide	1050	1057	O
-an	1058	1060	O
-error	1061	1066	O
-analysis	1067	1075	O
-[	1076	1077	O
-23,24	1077	1082	O
-]	1082	1083	O
-.	1083	1084	O
+Some	0,4	O	O
+methods	5,12	O	O
+use	13,16	O	O
+1D	17,19	O	B-Material
+radial	20,26	O	I-Material
+profiles	27,35	O	I-Material
+obtained	36,44	O	O
+from	45,49	O	O
+circular	50,58	O	B-Process
+averaging	59,68	O	I-Process
+of	69,71	O	O
+2D	72,74	O	B-Process
+experimental	75,87	O	I-Process
+PSD	88,91	O	I-Process
+[	92,93	O	O
+4,8,11	93,99	O	O
+]	99,100	O	O
+or	101,103	O	O
+by	104,106	O	O
+elliptical	107,117	O	B-Process
+averaging	118,127	O	I-Process
+[	128,129	O	O
+17	129,131	O	O
+]	131,132	O	O
+.	132,133	O	O
+
+An	134,136	O	O
+inadequacy	137,147	O	O
+of	148,150	O	O
+circular	151,159	O	B-Process
+averaging	160,169	O	I-Process
+is	170,172	O	O
+that	173,177	O	O
+it	178,180	O	O
+neglects	181,189	O	O
+astigmatism	190,201	O	B-Process
+.	201,202	O	O
+
+Astigmatism	203,214	O	B-Process
+distorts	215,223	O	O
+the	224,227	O	O
+circular	228,236	O	O
+shape	237,242	O	O
+of	243,245	O	O
+the	246,249	O	O
+Thon	250,254	O	B-Material
+rings	255,260	O	I-Material
+and	261,264	O	O
+thus	265,269	O	O
+decreases	270,279	O	O
+their	280,285	O	O
+modulation	286,296	O	O
+depth	297,302	O	O
+in	303,305	O	O
+the	306,309	O	O
+obtained	310,318	O	O
+1D	319,321	O	B-Material
+profile	322,329	O	I-Material
+.	329,330	O	O
+
+A	331,332	O	O
+few	333,336	O	O
+algorithms	337,347	O	O
+that	348,352	O	O
+consider	353,361	O	O
+astigmatism	362,373	O	O
+involve	374,381	O	O
+concepts	382,390	O	O
+such	391,395	O	O
+as	396,398	O	O
+dividing	399,407	O	O
+the	408,411	O	O
+PSD	412,415	O	B-Process
+into	416,420	O	O
+sectors	421,428	O	O
+where	429,434	O	O
+Thon	435,439	O	B-Material
+rings	440,445	O	I-Material
+are	446,449	O	O
+approximated	450,462	O	O
+by	463,465	O	O
+circular	466,474	O	O
+arcs	475,479	O	O
+[	480,481	O	O
+15,21	481,486	O	O
+]	486,487	O	O
+,	487,488	O	O
+applying	489,497	O	O
+Canny	498,503	O	B-Process
+edge	504,508	O	I-Process
+detection	509,518	O	I-Process
+to	519,521	O	O
+find	522,526	O	O
+the	527,530	O	O
+rings	531,536	O	O
+[	537,538	O	O
+17	538,540	O	O
+]	540,541	O	O
+prior	542,547	O	O
+to	548,550	O	O
+elliptical	551,561	O	B-Process
+averaging	562,571	O	I-Process
+,	571,572	O	O
+determining	573,584	O	O
+the	585,588	O	O
+relationship	589,601	O	O
+between	602,609	O	O
+the	610,613	O	O
+1D	614,616	O	O
+circular	617,625	O	O
+averages	626,634	O	O
+with	635,639	O	O
+and	640,643	O	O
+without	644,651	O	O
+astigmatism	652,663	O	B-Process
+[	664,665	O	O
+22	665,667	O	O
+]	667,668	O	O
+,	668,669	O	O
+or	670,672	O	O
+using	673,678	O	O
+a	679,680	O	O
+brute	681,686	O	O
+-	686,687	O	O
+force	687,692	O	O
+scan	693,697	O	O
+of	698,700	O	O
+a	701,702	O	O
+database	703,711	O	O
+containing	712,722	O	O
+precalculated	723,736	O	O
+patterns	737,745	O	O
+as	746,748	O	O
+in	749,751	O	O
+ATLAS	752,757	O	B-Process
+[	758,759	O	O
+23	759,761	O	O
+]	761,762	O	O
+.	762,763	O	O
+
+Some	764,768	O	O
+other	769,774	O	O
+approaches	775,785	O	O
+for	786,789	O	O
+estimating	790,800	O	O
+CTF	801,804	O	B-Process
+parameters	805,815	O	O
+do	816,818	O	O
+a	819,820	O	O
+fully	821,826	O	O
+2D	827,829	O	B-Process
+PSD	830,833	O	I-Process
+optimization	834,846	O	I-Process
+[	847,848	O	O
+12,14,18,20	848,859	O	O
+]	859,860	O	O
+but	861,864	O	O
+they	865,869	O	O
+usually	870,877	O	O
+regulate	878,886	O	O
+and	887,890	O	O
+fit	891,894	O	O
+numerous	895,903	O	O
+parameters	904,914	O	O
+by	915,917	O	O
+an	918,920	O	O
+extensive	921,930	O	O
+search	931,937	O	O
+that	938,942	O	O
+does	943,947	O	O
+not	948,951	O	O
+guarantee	952,961	O	O
+convergence	962,973	O	O
+.	973,974	O	O
+
+Furthermore	975,986	O	O
+,	986,987	O	O
+only	988,992	O	O
+a	993,994	O	O
+few	995,998	O	O
+schemes	999,1006	O	O
+that	1007,1011	O	O
+were	1012,1016	O	O
+developed	1017,1026	O	O
+for	1027,1030	O	O
+defocus	1031,1038	O	O
+estimation	1039,1049	O	O
+provide	1050,1057	O	O
+an	1058,1060	O	O
+error	1061,1066	O	O
+analysis	1067,1075	O	O
+[	1076,1077	O	O
+23,24	1077,1082	O	O
+]	1082,1083	O	O
+.	1083,1084	O	O
 
 
 -DOCSTART- (S0305440314001927)
 
-Traditionally	0	13	O
-,	13	14	O
-archaeologists	15	29	O
-have	30	34	O
-recorded	35	43	B-Task
-sites	44	49	I-Task
-and	50	53	I-Task
-artefacts	54	63	I-Task
-via	64	67	O
-a	68	69	O
-combination	70	81	O
-of	82	84	O
-ordinary	85	93	B-Material
-still	94	99	I-Material
-photographs	100	111	I-Material
-,	111	112	O
-2D	113	115	B-Material
-line	116	120	I-Material
-drawings	121	129	I-Material
-and	130	133	O
-occasional	134	144	B-Material
-cross	145	150	I-Material
--	150	151	I-Material
-sections	151	159	I-Material
-.	159	160	O
-
-Given	161	166	O
-these	167	172	O
-constraints	173	184	O
-,	184	185	O
-the	186	189	O
-attractions	190	201	O
-of	202	204	O
-3D	205	207	B-Process
-models	208	214	I-Process
-have	215	219	O
-been	220	224	O
-obvious	225	232	O
-for	233	236	O
-some	237	241	O
-time	242	246	O
-,	246	247	O
-with	248	252	O
-digital	253	260	B-Process
-photogrammetry	261	275	I-Process
-and	276	279	O
-laser	280	285	B-Process
-scanners	286	294	I-Process
-offering	295	303	O
-two	304	307	O
-well	308	312	O
--	312	313	O
-known	313	318	O
-methods	319	326	O
-for	327	330	O
-data	331	335	B-Task
-capture	336	343	I-Task
-at	344	346	I-Task
-close	347	352	I-Task
-range	353	358	I-Task
-(	359	360	O
-e.g.	360	364	O
-Bates	365	370	O
-et	371	373	O
-al	374	376	O
-.	376	377	O
-
-,	377	378	O
-2010	379	383	O
-;	383	384	O
-Hess	385	389	O
-and	390	393	O
-Robson	394	400	O
-,	400	401	O
-2010	402	406	O
-)	406	407	O
-.	407	408	O
-
-The	409	412	O
-highest	413	420	O
-specification	421	434	O
-laser	435	440	B-Process
-scanners	441	449	I-Process
-still	450	455	O
-boast	456	461	O
-better	462	468	O
-positional	469	479	O
-accuracy	480	488	O
-and	489	492	O
-greater	493	500	O
-true	501	505	O
-colour	506	512	O
-fidelity	513	521	O
-than	522	526	O
-SfM	527	530	O
-–	530	531	O
-
-MVS	531	534	O
-methods	535	542	O
-(	543	544	O
-James	544	549	O
-and	550	553	O
-Robson	554	560	O
-,	560	561	O
-2012	562	566	O
-)	566	567	O
-,	567	568	O
-but	569	572	O
-the	573	576	O
-latter	577	583	O
-produce	584	591	O
-very	592	596	O
-good	597	601	O
-quality	602	609	O
-models	610	616	O
-nonetheless	617	628	O
-and	629	632	O
-have	633	637	O
-many	638	642	O
-unique	643	649	O
-selling	650	657	O
-points	658	664	O
-.	664	665	O
-
-Unlike	666	672	O
-traditional	673	684	B-Process
-digital	685	692	I-Process
-photogrammetry	693	707	I-Process
-,	707	708	O
-little	709	715	O
-or	716	718	O
-no	719	721	O
-prior	722	727	O
-control	728	735	B-Process
-of	736	738	I-Process
-camera	739	745	I-Process
-position	746	754	I-Process
-is	755	757	O
-necessary	758	767	O
-,	767	768	O
-and	769	772	O
-unlike	773	779	O
-laser	780	785	B-Process
-scanning	786	794	I-Process
-,	794	795	O
-no	796	798	O
-major	799	804	O
-equipment	805	814	O
-costs	815	820	O
-or	821	823	O
-setup	824	829	O
-are	830	833	O
-involved	834	842	O
-.	842	843	O
-
-However	844	851	O
-,	851	852	O
-the	853	856	O
-key	857	860	O
-attraction	861	871	O
-of	872	874	O
-SfM	875	878	O
-–	878	879	O
-
-MVS	879	882	O
-is	883	885	O
-that	886	890	O
-the	891	894	O
-required	895	903	O
-input	904	909	O
-can	910	913	O
-be	914	916	O
-taken	917	922	O
-by	923	925	O
-anyone	926	932	O
-with	933	937	O
-a	938	939	O
-digital	940	947	B-Material
-camera	948	954	I-Material
-and	955	958	O
-modest	959	965	O
-prior	966	971	B-Process
-training	972	980	I-Process
-about	981	986	I-Process
-the	987	990	I-Process
-required	991	999	I-Process
-number	1000	1006	I-Process
-and	1007	1010	I-Process
-overlap	1011	1018	I-Process
-of	1019	1021	I-Process
-photographs	1022	1033	I-Process
-.	1033	1034	O
-
-A	1035	1036	O
-whole	1037	1042	O
-series	1043	1049	O
-of	1050	1052	O
-traditional	1053	1064	O
-bottlenecks	1065	1076	O
-are	1077	1080	O
-thereby	1081	1088	O
-removed	1089	1096	O
-from	1097	1101	O
-the	1102	1105	O
-recording	1106	1115	B-Process
-process	1116	1123	I-Process
-and	1124	1127	O
-large	1128	1133	O
-numbers	1134	1141	O
-of	1142	1144	O
-archaeological	1145	1159	B-Task
-landscapes	1160	1170	I-Task
-,	1170	1171	O
-sites	1172	1177	B-Task
-or	1178	1180	O
-artefacts	1181	1190	B-Task
-can	1191	1194	O
-now	1195	1198	O
-be	1199	1201	O
-captured	1202	1210	O
-rapidly	1211	1218	O
-,	1218	1219	O
-in	1220	1222	O
-the	1223	1226	O
-field	1227	1232	O
-,	1232	1233	O
-in	1234	1236	O
-the	1237	1240	O
-laboratory	1241	1251	O
-or	1252	1254	O
-in	1255	1257	O
-the	1258	1261	O
-museum	1262	1268	O
-.	1268	1269	O
-
-Fig	1270	1273	O
-.	1273	1274	O
-
-2a	1275	1277	O
-
-–	1277	1278	O
-c	1278	1279	O
-shows	1280	1285	O
-examples	1286	1294	O
-of	1295	1297	O
-terracotta	1298	1308	B-Process
-warrior	1309	1316	I-Process
-models	1317	1323	I-Process
-for	1324	1327	O
-which	1328	1333	O
-the	1334	1337	O
-level	1338	1343	O
-of	1344	1346	O
-surface	1347	1354	O
-detail	1355	1361	O
-is	1362	1364	O
-considerable	1365	1377	O
-.	1377	1378	O
+Traditionally	0,13	O	O
+,	13,14	O	O
+archaeologists	15,29	O	O
+have	30,34	O	O
+recorded	35,43	O	B-Task
+sites	44,49	O	I-Task
+and	50,53	O	I-Task
+artefacts	54,63	O	I-Task
+via	64,67	O	O
+a	68,69	O	O
+combination	70,81	O	O
+of	82,84	O	O
+ordinary	85,93	O	B-Material
+still	94,99	O	I-Material
+photographs	100,111	O	I-Material
+,	111,112	O	O
+2D	113,115	O	B-Material
+line	116,120	O	I-Material
+drawings	121,129	O	I-Material
+and	130,133	O	O
+occasional	134,144	O	B-Material
+cross	145,150	O	I-Material
+-	150,151	O	I-Material
+sections	151,159	O	I-Material
+.	159,160	O	O
+
+Given	161,166	O	O
+these	167,172	O	O
+constraints	173,184	O	O
+,	184,185	O	O
+the	186,189	O	O
+attractions	190,201	O	O
+of	202,204	O	O
+3D	205,207	O	B-Process
+models	208,214	O	I-Process
+have	215,219	O	O
+been	220,224	O	O
+obvious	225,232	O	O
+for	233,236	O	O
+some	237,241	O	O
+time	242,246	O	O
+,	246,247	O	O
+with	248,252	O	O
+digital	253,260	O	B-Process
+photogrammetry	261,275	O	I-Process
+and	276,279	O	O
+laser	280,285	O	B-Process
+scanners	286,294	O	I-Process
+offering	295,303	O	O
+two	304,307	O	O
+well	308,312	O	O
+-	312,313	O	O
+known	313,318	O	O
+methods	319,326	O	O
+for	327,330	O	O
+data	331,335	O	B-Task
+capture	336,343	O	I-Task
+at	344,346	O	I-Task
+close	347,352	O	I-Task
+range	353,358	O	I-Task
+(	359,360	O	O
+e.g.	360,364	O	O
+Bates	365,370	O	O
+et	371,373	O	O
+al	374,376	O	O
+.	376,377	O	O
+
+,	377,378	O	O
+2010	379,383	O	O
+;	383,384	O	O
+Hess	385,389	O	O
+and	390,393	O	O
+Robson	394,400	O	O
+,	400,401	O	O
+2010	402,406	O	O
+)	406,407	O	O
+.	407,408	O	O
+
+The	409,412	O	O
+highest	413,420	O	O
+specification	421,434	O	O
+laser	435,440	O	B-Process
+scanners	441,449	O	I-Process
+still	450,455	O	O
+boast	456,461	O	O
+better	462,468	O	O
+positional	469,479	O	O
+accuracy	480,488	O	O
+and	489,492	O	O
+greater	493,500	O	O
+true	501,505	O	O
+colour	506,512	O	O
+fidelity	513,521	O	O
+than	522,526	O	O
+SfM	527,530	O	O
+–	530,531	O	O
+
+MVS	531,534	O	O
+methods	535,542	O	O
+(	543,544	O	O
+James	544,549	O	O
+and	550,553	O	O
+Robson	554,560	O	O
+,	560,561	O	O
+2012	562,566	O	O
+)	566,567	O	O
+,	567,568	O	O
+but	569,572	O	O
+the	573,576	O	O
+latter	577,583	O	O
+produce	584,591	O	O
+very	592,596	O	O
+good	597,601	O	O
+quality	602,609	O	O
+models	610,616	O	O
+nonetheless	617,628	O	O
+and	629,632	O	O
+have	633,637	O	O
+many	638,642	O	O
+unique	643,649	O	O
+selling	650,657	O	O
+points	658,664	O	O
+.	664,665	O	O
+
+Unlike	666,672	O	O
+traditional	673,684	O	B-Process
+digital	685,692	O	I-Process
+photogrammetry	693,707	O	I-Process
+,	707,708	O	O
+little	709,715	O	O
+or	716,718	O	O
+no	719,721	O	O
+prior	722,727	O	O
+control	728,735	O	B-Process
+of	736,738	O	I-Process
+camera	739,745	O	I-Process
+position	746,754	O	I-Process
+is	755,757	O	O
+necessary	758,767	O	O
+,	767,768	O	O
+and	769,772	O	O
+unlike	773,779	O	O
+laser	780,785	O	B-Process
+scanning	786,794	O	I-Process
+,	794,795	O	O
+no	796,798	O	O
+major	799,804	O	O
+equipment	805,814	O	O
+costs	815,820	O	O
+or	821,823	O	O
+setup	824,829	O	O
+are	830,833	O	O
+involved	834,842	O	O
+.	842,843	O	O
+
+However	844,851	O	O
+,	851,852	O	O
+the	853,856	O	O
+key	857,860	O	O
+attraction	861,871	O	O
+of	872,874	O	O
+SfM	875,878	O	O
+–	878,879	O	O
+
+MVS	879,882	O	O
+is	883,885	O	O
+that	886,890	O	O
+the	891,894	O	O
+required	895,903	O	O
+input	904,909	O	O
+can	910,913	O	O
+be	914,916	O	O
+taken	917,922	O	O
+by	923,925	O	O
+anyone	926,932	O	O
+with	933,937	O	O
+a	938,939	O	O
+digital	940,947	O	B-Material
+camera	948,954	O	I-Material
+and	955,958	O	O
+modest	959,965	O	O
+prior	966,971	O	B-Process
+training	972,980	O	I-Process
+about	981,986	O	I-Process
+the	987,990	O	I-Process
+required	991,999	O	I-Process
+number	1000,1006	O	I-Process
+and	1007,1010	O	I-Process
+overlap	1011,1018	O	I-Process
+of	1019,1021	O	I-Process
+photographs	1022,1033	O	I-Process
+.	1033,1034	O	O
+
+A	1035,1036	O	O
+whole	1037,1042	O	O
+series	1043,1049	O	O
+of	1050,1052	O	O
+traditional	1053,1064	O	O
+bottlenecks	1065,1076	O	O
+are	1077,1080	O	O
+thereby	1081,1088	O	O
+removed	1089,1096	O	O
+from	1097,1101	O	O
+the	1102,1105	O	O
+recording	1106,1115	O	B-Process
+process	1116,1123	O	I-Process
+and	1124,1127	O	O
+large	1128,1133	O	O
+numbers	1134,1141	O	O
+of	1142,1144	O	O
+archaeological	1145,1159	O	B-Task
+landscapes	1160,1170	O	I-Task
+,	1170,1171	O	O
+sites	1172,1177	O	B-Task
+or	1178,1180	O	O
+artefacts	1181,1190	O	B-Task
+can	1191,1194	O	O
+now	1195,1198	O	O
+be	1199,1201	O	O
+captured	1202,1210	O	O
+rapidly	1211,1218	O	O
+,	1218,1219	O	O
+in	1220,1222	O	O
+the	1223,1226	O	O
+field	1227,1232	O	O
+,	1232,1233	O	O
+in	1234,1236	O	O
+the	1237,1240	O	O
+laboratory	1241,1251	O	O
+or	1252,1254	O	O
+in	1255,1257	O	O
+the	1258,1261	O	O
+museum	1262,1268	O	O
+.	1268,1269	O	O
+
+Fig	1270,1273	O	O
+.	1273,1274	O	O
+
+2a	1275,1277	O	O
+
+–	1277,1278	O	O
+c	1278,1279	O	O
+shows	1280,1285	O	O
+examples	1286,1294	O	O
+of	1295,1297	O	O
+terracotta	1298,1308	O	B-Process
+warrior	1309,1316	O	I-Process
+models	1317,1323	O	I-Process
+for	1324,1327	O	O
+which	1328,1333	O	O
+the	1334,1337	O	O
+level	1338,1343	O	O
+of	1344,1346	O	O
+surface	1347,1354	O	O
+detail	1355,1361	O	O
+is	1362,1364	O	O
+considerable	1365,1377	O	O
+.	1377,1378	O	O
 
 
 -DOCSTART- (S0370269301015222)
 
-Recent	0	6	O
-astronomical	7	19	B-Task
-observations	20	32	I-Task
-of	33	35	O
-high	36	40	B-Material
-redshift	41	49	I-Material
-type	50	54	I-Material
-Ia	55	57	I-Material
-supernovae	58	68	I-Material
-performed	69	78	O
-by	79	81	O
-two	82	85	O
-groups	86	92	O
-[	93	94	O
-1–3	94	97	O
-]	97	98	O
-as	99	101	O
-well	102	106	O
-as	107	109	O
-the	110	113	O
-power	114	119	B-Task
-spectrum	120	128	I-Task
-of	129	131	I-Task
-the	132	135	I-Task
-cosmic	136	142	I-Task
-microwave	143	152	I-Task
-background	153	163	I-Task
-radiation	164	173	I-Task
-obtained	174	182	O
-by	183	185	O
-the	186	189	O
-BOOMERANG	190	199	B-Process
-[	200	201	O
-4	201	202	O
-]	202	203	O
-and	204	207	O
-MAXIMA-1	208	216	B-Process
-[	217	218	O
-5	218	219	O
-]	219	220	O
-experiments	221	232	O
-seem	233	237	O
-to	238	240	O
-indicate	241	249	O
-that	250	254	O
-at	255	257	O
-present	258	265	O
-the	266	269	O
-Universe	270	278	O
-is	279	281	O
-in	282	284	O
-a	285	286	O
-state	287	292	O
-of	293	295	O
-accelerated	296	307	O
-expansion	308	317	O
-.	317	318	O
-
-If	319	321	O
-one	322	325	O
-analyzes	326	334	O
-these	335	340	O
-data	341	345	O
-within	346	352	O
-the	353	356	O
-Friedmann	357	366	B-Process
-–	366	367	I-Process
-Robertson	367	376	I-Process
-–	376	377	I-Process
-Walker	377	383	I-Process
-(	384	385	I-Process
-FRW	385	388	I-Process
-)	388	389	I-Process
-standard	390	398	I-Process
-model	399	404	I-Process
-of	405	407	O
-cosmology	408	417	B-Task
-their	418	423	O
-most	424	428	O
-natural	429	436	O
-interpretation	437	451	O
-is	452	454	O
-that	455	459	O
-the	460	463	O
-Universe	464	472	O
-is	473	475	O
-spatially	476	485	O
-flat	486	490	O
-and	491	494	O
-that	495	499	O
-the	500	503	O
-(	504	505	O
-baryonic	505	513	O
-plus	514	518	O
-dark	519	523	O
-)	523	524	O
-matter	525	531	B-Process
-density	532	539	I-Process
-ρ	540	541	B-Process
-is	542	544	O
-about	545	550	O
-one	551	554	O
-third	555	560	O
-of	561	563	O
-the	564	567	O
-critical	568	576	B-Process
-density	577	584	I-Process
-ρcrit	585	590	B-Process
-.	590	591	O
-
-Most	592	596	O
-interestingly	597	610	O
-,	610	611	O
-the	612	615	O
-dominant	616	624	O
-contribution	625	637	O
-to	638	640	O
-the	641	644	O
-energy	645	651	O
-density	652	659	O
-is	660	662	O
-provided	663	671	O
-by	672	674	O
-the	675	678	O
-cosmological	679	691	B-Material
-constant	692	700	I-Material
-Λ.	701	703	B-Material
-The	704	707	O
-vacuum	708	714	B-Process
-energy	715	721	I-Process
-density	722	729	I-Process
-(	730	731	O
-1.1)ρΛ≡Λ/(8πG	731	744	B-Process
-)	744	745	I-Process
-is	746	748	O
-about	749	754	O
-twice	755	760	O
-as	761	763	O
-large	764	769	O
-as	770	772	O
-ρ	773	774	B-Process
-,	774	775	O
-i.e.	776	780	O
-,	780	781	O
-about	782	787	O
-two	788	791	O
-thirds	792	798	O
-of	799	801	O
-the	802	805	O
-critical	806	814	B-Process
-density	815	822	I-Process
-.	822	823	O
-
-With	824	828	O
-ΩM≡ρ/ρcrit	829	839	O
-,	839	840	O
-ΩΛ≡ρΛ/ρcrit	841	852	O
-and	853	856	O
-Ωtot≡ΩM+ΩΛ	857	867	O
-:	867	868	O
-(	869	870	O
-1.2)ΩM≈1/3,ΩΛ≈2/3,Ωtot≈1	870	894	O
-.	894	895	O
-
-This	896	900	O
-implies	901	908	O
-that	909	913	O
-the	914	917	O
-deceleration	918	930	B-Process
-parameter	931	940	I-Process
-q	941	942	B-Process
-is	943	945	O
-approximately	946	959	O
-−1/2	960	964	O
-.	964	965	O
-
-While	966	971	O
-originally	972	982	O
-the	983	986	O
-cosmological	987	999	B-Task
-constant	1000	1008	I-Task
-problem	1009	1016	I-Task
-[	1017	1018	O
-6	1018	1019	O
-]	1019	1020	O
-was	1021	1024	O
-related	1025	1032	O
-to	1033	1035	O
-the	1036	1039	O
-question	1040	1048	B-Task
-why	1049	1052	I-Task
-Λ	1053	1054	I-Task
-is	1055	1057	I-Task
-so	1058	1060	I-Task
-unnaturally	1061	1072	I-Task
-small	1073	1078	I-Task
-,	1078	1079	O
-the	1080	1083	O
-discovery	1084	1093	O
-of	1094	1096	O
-the	1097	1100	O
-important	1101	1110	O
-role	1111	1115	O
-played	1116	1122	O
-by	1123	1125	O
-ρΛ	1126	1128	B-Material
-has	1129	1132	O
-shifted	1133	1140	O
-the	1141	1144	O
-emphasis	1145	1153	O
-toward	1154	1160	O
-the	1161	1164	O
-“	1165	1166	O
-coincidence	1166	1177	B-Task
-problem	1178	1185	I-Task
-”	1185	1186	O
-,	1186	1187	O
-the	1188	1191	O
-question	1192	1200	O
-why	1201	1204	B-Task
-ρ	1205	1206	I-Task
-and	1207	1210	I-Task
-ρΛ	1211	1213	I-Task
-happen	1214	1220	I-Task
-to	1221	1223	I-Task
-be	1224	1226	I-Task
-of	1227	1229	I-Task
-the	1230	1233	I-Task
-same	1234	1238	I-Task
-order	1239	1244	I-Task
-of	1245	1247	I-Task
-magnitude	1248	1257	I-Task
-precisely	1258	1267	I-Task
-at	1268	1270	I-Task
-this	1271	1275	I-Task
-very	1276	1280	I-Task
-moment	1281	1287	I-Task
-[	1288	1289	O
-7	1289	1290	O
-]	1290	1291	O
-.	1291	1292	O
+Recent	0,6	O	O
+astronomical	7,19	O	B-Task
+observations	20,32	O	I-Task
+of	33,35	O	O
+high	36,40	O	B-Material
+redshift	41,49	O	I-Material
+type	50,54	O	I-Material
+Ia	55,57	O	I-Material
+supernovae	58,68	O	I-Material
+performed	69,78	O	O
+by	79,81	O	O
+two	82,85	O	O
+groups	86,92	O	O
+[	93,94	O	O
+1–3	94,97	O	O
+]	97,98	O	O
+as	99,101	O	O
+well	102,106	O	O
+as	107,109	O	O
+the	110,113	O	O
+power	114,119	O	B-Task
+spectrum	120,128	O	I-Task
+of	129,131	O	I-Task
+the	132,135	O	I-Task
+cosmic	136,142	O	I-Task
+microwave	143,152	O	I-Task
+background	153,163	O	I-Task
+radiation	164,173	O	I-Task
+obtained	174,182	O	O
+by	183,185	O	O
+the	186,189	O	O
+BOOMERANG	190,199	O	B-Process
+[	200,201	O	O
+4	201,202	O	O
+]	202,203	O	O
+and	204,207	O	O
+MAXIMA-1	208,216	O	B-Process
+[	217,218	O	O
+5	218,219	O	O
+]	219,220	O	O
+experiments	221,232	O	O
+seem	233,237	O	O
+to	238,240	O	O
+indicate	241,249	O	O
+that	250,254	O	O
+at	255,257	O	O
+present	258,265	O	O
+the	266,269	O	O
+Universe	270,278	O	O
+is	279,281	O	O
+in	282,284	O	O
+a	285,286	O	O
+state	287,292	O	O
+of	293,295	O	O
+accelerated	296,307	O	O
+expansion	308,317	O	O
+.	317,318	O	O
+
+If	319,321	O	O
+one	322,325	O	O
+analyzes	326,334	O	O
+these	335,340	O	O
+data	341,345	O	O
+within	346,352	O	O
+the	353,356	O	O
+Friedmann	357,366	O	B-Process
+–	366,367	O	I-Process
+Robertson	367,376	O	I-Process
+–	376,377	O	I-Process
+Walker	377,383	O	I-Process
+(	384,385	O	I-Process
+FRW	385,388	O	I-Process
+)	388,389	O	I-Process
+standard	390,398	O	I-Process
+model	399,404	O	I-Process
+of	405,407	O	O
+cosmology	408,417	O	B-Task
+their	418,423	O	O
+most	424,428	O	O
+natural	429,436	O	O
+interpretation	437,451	O	O
+is	452,454	O	O
+that	455,459	O	O
+the	460,463	O	O
+Universe	464,472	O	O
+is	473,475	O	O
+spatially	476,485	O	O
+flat	486,490	O	O
+and	491,494	O	O
+that	495,499	O	O
+the	500,503	O	O
+(	504,505	O	O
+baryonic	505,513	O	O
+plus	514,518	O	O
+dark	519,523	O	O
+)	523,524	O	O
+matter	525,531	O	B-Process
+density	532,539	O	I-Process
+ρ	540,541	O	B-Process
+is	542,544	O	O
+about	545,550	O	O
+one	551,554	O	O
+third	555,560	O	O
+of	561,563	O	O
+the	564,567	O	O
+critical	568,576	O	B-Process
+density	577,584	O	I-Process
+ρcrit	585,590	O	B-Process
+.	590,591	O	O
+
+Most	592,596	O	O
+interestingly	597,610	O	O
+,	610,611	O	O
+the	612,615	O	O
+dominant	616,624	O	O
+contribution	625,637	O	O
+to	638,640	O	O
+the	641,644	O	O
+energy	645,651	O	O
+density	652,659	O	O
+is	660,662	O	O
+provided	663,671	O	O
+by	672,674	O	O
+the	675,678	O	O
+cosmological	679,691	O	B-Material
+constant	692,700	O	I-Material
+Λ.	701,703	O	B-Material
+The	704,707	O	O
+vacuum	708,714	O	B-Process
+energy	715,721	O	I-Process
+density	722,729	O	I-Process
+(	730,731	O	O
+1.1)ρΛ≡Λ/(8πG	731,744	O	B-Process
+)	744,745	O	I-Process
+is	746,748	O	O
+about	749,754	O	O
+twice	755,760	O	O
+as	761,763	O	O
+large	764,769	O	O
+as	770,772	O	O
+ρ	773,774	O	B-Process
+,	774,775	O	O
+i.e.	776,780	O	O
+,	780,781	O	O
+about	782,787	O	O
+two	788,791	O	O
+thirds	792,798	O	O
+of	799,801	O	O
+the	802,805	O	O
+critical	806,814	O	B-Process
+density	815,822	O	I-Process
+.	822,823	O	O
+
+With	824,828	O	O
+ΩM≡ρ/ρcrit	829,839	O	O
+,	839,840	O	O
+ΩΛ≡ρΛ/ρcrit	841,852	O	O
+and	853,856	O	O
+Ωtot≡ΩM+ΩΛ	857,867	O	O
+:	867,868	O	O
+(	869,870	O	O
+1.2)ΩM≈1/3,ΩΛ≈2/3,Ωtot≈1	870,894	O	O
+.	894,895	O	O
+
+This	896,900	O	O
+implies	901,908	O	O
+that	909,913	O	O
+the	914,917	O	O
+deceleration	918,930	O	B-Process
+parameter	931,940	O	I-Process
+q	941,942	O	B-Process
+is	943,945	O	O
+approximately	946,959	O	O
+−1/2	960,964	O	O
+.	964,965	O	O
+
+While	966,971	O	O
+originally	972,982	O	O
+the	983,986	O	O
+cosmological	987,999	O	B-Task
+constant	1000,1008	O	I-Task
+problem	1009,1016	O	I-Task
+[	1017,1018	O	O
+6	1018,1019	O	O
+]	1019,1020	O	O
+was	1021,1024	O	O
+related	1025,1032	O	O
+to	1033,1035	O	O
+the	1036,1039	O	O
+question	1040,1048	O	B-Task
+why	1049,1052	O	I-Task
+Λ	1053,1054	O	I-Task
+is	1055,1057	O	I-Task
+so	1058,1060	O	I-Task
+unnaturally	1061,1072	O	I-Task
+small	1073,1078	O	I-Task
+,	1078,1079	O	O
+the	1080,1083	O	O
+discovery	1084,1093	O	O
+of	1094,1096	O	O
+the	1097,1100	O	O
+important	1101,1110	O	O
+role	1111,1115	O	O
+played	1116,1122	O	O
+by	1123,1125	O	O
+ρΛ	1126,1128	O	B-Material
+has	1129,1132	O	O
+shifted	1133,1140	O	O
+the	1141,1144	O	O
+emphasis	1145,1153	O	O
+toward	1154,1160	O	O
+the	1161,1164	O	O
+“	1165,1166	O	O
+coincidence	1166,1177	O	B-Task
+problem	1178,1185	O	I-Task
+”	1185,1186	O	O
+,	1186,1187	O	O
+the	1188,1191	O	O
+question	1192,1200	O	O
+why	1201,1204	O	B-Task
+ρ	1205,1206	O	I-Task
+and	1207,1210	O	I-Task
+ρΛ	1211,1213	O	I-Task
+happen	1214,1220	O	I-Task
+to	1221,1223	O	I-Task
+be	1224,1226	O	I-Task
+of	1227,1229	O	I-Task
+the	1230,1233	O	I-Task
+same	1234,1238	O	I-Task
+order	1239,1244	O	I-Task
+of	1245,1247	O	I-Task
+magnitude	1248,1257	O	I-Task
+precisely	1258,1267	O	I-Task
+at	1268,1270	O	I-Task
+this	1271,1275	O	I-Task
+very	1276,1280	O	I-Task
+moment	1281,1287	O	I-Task
+[	1288,1289	O	O
+7	1289,1290	O	O
+]	1290,1291	O	O
+.	1291,1292	O	O
 
 
 -DOCSTART- (S0370269302011838)
 
-First	0	5	O
-results	6	13	O
-from	14	18	O
-RHIC	19	23	O
-on	24	26	O
-charged	27	34	B-Task
-multiplicities	35	49	I-Task
-,	49	50	O
-evolution	51	60	B-Task
-of	61	63	I-Task
-multiplicities	64	78	I-Task
-with	79	83	I-Task
-centrality	84	94	I-Task
-,	94	95	O
-particle	96	104	B-Task
-ratios	105	111	I-Task
-and	112	115	O
-transverse	116	126	B-Task
-momentum	127	135	I-Task
-distributions	136	149	I-Task
-in	150	152	O
-central	153	160	O
-and	161	164	O
-minimum	165	172	O
-bias	173	177	O
-collisions	178	188	O
-,	188	189	O
-are	190	193	O
-analyzed	194	202	O
-in	203	205	O
-a	206	207	O
-string	208	214	B-Process
-model	215	220	I-Process
-which	221	226	O
-includes	227	235	O
-hard	236	240	B-Material
-collisions	241	251	I-Material
-,	251	252	O
-collectivity	253	265	B-Material
-in	266	268	I-Material
-the	269	272	I-Material
-initial	273	280	I-Material
-state	281	286	I-Material
-considered	287	297	O
-as	298	300	O
-string	301	307	O
-fusion	308	314	O
-,	314	315	O
-and	316	319	O
-rescattering	320	332	B-Material
-of	333	335	I-Material
-the	336	339	I-Material
-produced	340	348	I-Material
-secondaries	349	360	I-Material
-.	360	361	O
-
-Multiplicities	362	376	B-Task
-and	377	380	O
-their	381	386	B-Task
-evolution	387	396	I-Task
-with	397	401	O
-centrality	402	412	O
-are	413	416	O
-successfully	417	429	O
-reproduced	430	440	O
-.	440	441	O
-
-Transverse	442	452	B-Process
-momentum	453	461	I-Process
-distributions	462	475	I-Process
-in	476	478	O
-the	479	482	O
-model	483	488	O
-show	489	493	O
-a	494	495	O
-larger	496	502	O
-pT	503	505	O
--	505	506	O
-tail	506	510	O
-than	511	515	O
-experimental	516	528	O
-data	529	533	O
-,	533	534	O
-disagreement	535	547	O
-which	548	553	O
-grows	554	559	O
-with	560	564	O
-increasing	565	575	O
-centrality	576	586	O
-.	586	587	O
-
-Discrepancies	588	601	B-Process
-with	602	606	I-Process
-particle	607	615	I-Process
-ratios	616	622	I-Process
-appear	623	629	O
-and	630	633	O
-are	634	637	O
-examined	638	646	O
-comparing	647	656	O
-with	657	661	O
-previous	662	670	O
-features	671	679	O
-of	680	682	O
-the	683	686	O
-model	687	692	O
-at	693	695	O
-SPS	696	699	O
-.	699	700	O
+First	0,5	O	O
+results	6,13	O	O
+from	14,18	O	O
+RHIC	19,23	O	O
+on	24,26	O	O
+charged	27,34	O	B-Task
+multiplicities	35,49	O	I-Task
+,	49,50	O	O
+evolution	51,60	O	B-Task
+of	61,63	O	I-Task
+multiplicities	64,78	O	I-Task
+with	79,83	O	I-Task
+centrality	84,94	O	I-Task
+,	94,95	O	O
+particle	96,104	O	B-Task
+ratios	105,111	O	I-Task
+and	112,115	O	O
+transverse	116,126	O	B-Task
+momentum	127,135	O	I-Task
+distributions	136,149	O	I-Task
+in	150,152	O	O
+central	153,160	O	O
+and	161,164	O	O
+minimum	165,172	O	O
+bias	173,177	O	O
+collisions	178,188	O	O
+,	188,189	O	O
+are	190,193	O	O
+analyzed	194,202	O	O
+in	203,205	O	O
+a	206,207	O	O
+string	208,214	O	B-Process
+model	215,220	O	I-Process
+which	221,226	O	O
+includes	227,235	O	O
+hard	236,240	O	B-Material
+collisions	241,251	O	I-Material
+,	251,252	O	O
+collectivity	253,265	O	B-Material
+in	266,268	O	I-Material
+the	269,272	O	I-Material
+initial	273,280	O	I-Material
+state	281,286	O	I-Material
+considered	287,297	O	O
+as	298,300	O	O
+string	301,307	O	O
+fusion	308,314	O	O
+,	314,315	O	O
+and	316,319	O	O
+rescattering	320,332	O	B-Material
+of	333,335	O	I-Material
+the	336,339	O	I-Material
+produced	340,348	O	I-Material
+secondaries	349,360	O	I-Material
+.	360,361	O	O
+
+Multiplicities	362,376	O	B-Task
+and	377,380	O	O
+their	381,386	O	B-Task
+evolution	387,396	O	I-Task
+with	397,401	O	O
+centrality	402,412	O	O
+are	413,416	O	O
+successfully	417,429	O	O
+reproduced	430,440	O	O
+.	440,441	O	O
+
+Transverse	442,452	O	B-Process
+momentum	453,461	O	I-Process
+distributions	462,475	O	I-Process
+in	476,478	O	O
+the	479,482	O	O
+model	483,488	O	O
+show	489,493	O	O
+a	494,495	O	O
+larger	496,502	O	O
+pT	503,505	O	O
+-	505,506	O	O
+tail	506,510	O	O
+than	511,515	O	O
+experimental	516,528	O	O
+data	529,533	O	O
+,	533,534	O	O
+disagreement	535,547	O	O
+which	548,553	O	O
+grows	554,559	O	O
+with	560,564	O	O
+increasing	565,575	O	O
+centrality	576,586	O	O
+.	586,587	O	O
+
+Discrepancies	588,601	O	B-Process
+with	602,606	O	I-Process
+particle	607,615	O	I-Process
+ratios	616,622	O	I-Process
+appear	623,629	O	O
+and	630,633	O	O
+are	634,637	O	O
+examined	638,646	O	O
+comparing	647,656	O	O
+with	657,661	O	O
+previous	662,670	O	O
+features	671,679	O	O
+of	680,682	O	O
+the	683,686	O	O
+model	687,692	O	O
+at	693,695	O	O
+SPS	696,699	O	O
+.	699,700	O	O
 
 
 -DOCSTART- (S0370269302012492)
 
-In	0	2	O
-this	3	7	O
-section	8	15	O
-we	16	18	O
-wish	19	23	O
-to	24	26	O
-calculate	27	36	B-Task
-the	37	40	I-Task
-cross	41	46	I-Task
-section	47	54	I-Task
-for	55	58	I-Task
-the	59	62	I-Task
-absorption	63	73	I-Task
-of	74	76	I-Task
-massless	77	85	I-Task
-scalars	86	93	I-Task
-by	94	96	O
-the	97	100	O
-self	101	105	B-Process
--	105	106	I-Process
-dual	106	110	I-Process
-string	111	117	I-Process
-in	118	120	O
-the	121	124	O
-world	125	130	O
-volume	131	137	O
-of	138	140	O
-the	141	144	O
-M	145	146	B-Material
--	146	147	I-Material
-theory	147	153	I-Material
-five	154	158	I-Material
--	158	159	I-Material
-brane	159	164	I-Material
-.	164	165	O
-
-We	166	168	O
-will	169	173	O
-adopt	174	179	O
-an	180	182	O
-entirely	183	191	B-Process
-world	192	197	I-Process
-volume	198	204	I-Process
-approach	205	213	I-Process
-similar	214	221	O
-to	222	224	O
-that	225	229	O
-of	230	232	O
-[	233	234	O
-21–23	234	239	O
-]	239	240	O
-.	240	241	O
-
-We	242	244	O
-begin	245	250	O
-by	251	253	O
-writing	254	261	O
-the	262	265	O
-equation	266	274	O
-satisfied	275	284	O
-by	285	287	O
-the	288	291	O
-s	292	293	B-Material
--	293	294	I-Material
-wave	294	298	I-Material
-with	299	303	O
-energy	304	310	O
-ω	311	312	O
-,	312	313	O
-φ(r	314	317	O
-,	317	318	O
-t)=φ(r)eiωt	318	329	O
-,	329	330	O
-of	331	333	O
-the	334	337	O
-linear	338	344	B-Process
-fluctuations	345	357	I-Process
-of	358	360	O
-the	361	364	O
-four	365	369	O
-overall	370	377	O
-transverse	378	388	O
-scalars	389	396	O
-about	397	402	O
-the	403	406	O
-self	407	411	O
--	411	412	O
-dual	412	416	O
-string	417	423	O
-,	423	424	O
-(	425	426	O
-it	426	428	O
-is	429	431	O
-known	432	437	O
-that	438	442	O
-there	443	448	O
-are	449	452	O
-problems	453	461	O
-when	462	466	O
-one	467	470	O
-considers	471	480	O
-higher	481	487	B-Process
-angular	488	495	I-Process
-momentum	496	504	I-Process
-modes	505	510	I-Process
-[	511	512	O
-23	512	514	O
-]	514	515	O
-,	515	516	O
-one	517	520	O
-must	521	525	O
-take	526	530	O
-care	531	535	O
-with	536	540	O
-the	541	544	O
-validity	545	553	O
-of	554	556	O
-the	557	560	O
-linearized	561	571	B-Process
-approximation	572	585	I-Process
-,	585	586	O
-this	587	591	O
-is	592	594	O
-discussed	595	604	O
-in	605	607	O
-[	608	609	O
-13	609	611	O
-]	611	612	O
-)	612	613	O
-:	613	614	O
-(	615	616	O
-15)ρ−3ddρρ3ddρ+1+R6ω6ρ6φ(ρ)=0	616	645	O
-,	645	646	O
-where	647	652	O
-ρ=rω	653	657	O
-,	657	658	O
-R	659	660	O
-=	660	661	O
-Q1/3ℓp	661	667	O
-.	667	668	O
-
-Note	669	673	O
-,	673	674	O
-as	675	677	O
-pointed	678	685	O
-out	686	689	O
-by	690	692	O
-[	693	694	O
-11	694	696	O
-]	696	697	O
-world	698	703	B-Process
-volume	704	710	I-Process
-solitons	711	719	I-Process
-have	720	724	O
-a	725	726	O
-much	727	731	O
-sharper	732	739	O
-potential	740	749	O
-than	750	754	O
-the	755	758	O
-Coulomb	759	766	O
-type	767	771	O
-potential	772	781	O
-typical	782	789	O
-of	790	792	O
-brane	793	798	B-Process
-solutions	799	808	I-Process
-in	809	811	O
-supergravity	812	824	O
-;	824	825	O
-thus	826	830	O
-this	831	835	O
-scattering	836	846	O
-is	847	849	O
-different	850	859	O
-to	860	862	O
-that	863	867	O
-of	868	870	O
-the	871	874	O
-string	875	881	O
-in	882	884	O
-six	885	888	O
--	888	889	O
-dimensional	889	900	O
-supergravity	901	913	O
-.	913	914	O
-
-Nevertheless	915	927	O
-,	927	928	O
-for	929	932	O
-small	933	938	B-Task
-ωR	939	941	I-Task
-one	942	945	O
-may	946	949	O
-solve	950	955	O
-this	956	960	O
-problem	961	968	O
-by	969	971	O
-matching	972	980	O
-an	981	983	O
-approximate	984	995	B-Process
-solution	996	1004	I-Process
-in	1005	1007	O
-the	1008	1011	O
-inner	1012	1017	O
-region	1018	1024	O
-to	1025	1027	O
-an	1028	1030	O
-approximate	1031	1042	B-Process
-solution	1043	1051	I-Process
-in	1052	1054	O
-the	1055	1058	O
-outer	1059	1064	O
-region	1065	1071	O
-;	1071	1072	O
-this	1073	1077	O
-follows	1078	1085	O
-closely	1086	1093	O
-the	1094	1097	O
-supergravity	1098	1110	B-Process
-calculation	1111	1122	I-Process
-[	1123	1124	O
-24	1124	1126	O
-]	1126	1127	O
-.	1127	1128	O
+In	0,2	O	O
+this	3,7	O	O
+section	8,15	O	O
+we	16,18	O	O
+wish	19,23	O	O
+to	24,26	O	O
+calculate	27,36	O	B-Task
+the	37,40	O	I-Task
+cross	41,46	O	I-Task
+section	47,54	O	I-Task
+for	55,58	O	I-Task
+the	59,62	O	I-Task
+absorption	63,73	O	I-Task
+of	74,76	O	I-Task
+massless	77,85	O	I-Task
+scalars	86,93	O	I-Task
+by	94,96	O	O
+the	97,100	O	O
+self	101,105	O	B-Process
+-	105,106	O	I-Process
+dual	106,110	O	I-Process
+string	111,117	O	I-Process
+in	118,120	O	O
+the	121,124	O	O
+world	125,130	O	O
+volume	131,137	O	O
+of	138,140	O	O
+the	141,144	O	O
+M	145,146	O	B-Material
+-	146,147	O	I-Material
+theory	147,153	O	I-Material
+five	154,158	O	I-Material
+-	158,159	O	I-Material
+brane	159,164	O	I-Material
+.	164,165	O	O
+
+We	166,168	O	O
+will	169,173	O	O
+adopt	174,179	O	O
+an	180,182	O	O
+entirely	183,191	O	B-Process
+world	192,197	O	I-Process
+volume	198,204	O	I-Process
+approach	205,213	O	I-Process
+similar	214,221	O	O
+to	222,224	O	O
+that	225,229	O	O
+of	230,232	O	O
+[	233,234	O	O
+21–23	234,239	O	O
+]	239,240	O	O
+.	240,241	O	O
+
+We	242,244	O	O
+begin	245,250	O	O
+by	251,253	O	O
+writing	254,261	O	O
+the	262,265	O	O
+equation	266,274	O	O
+satisfied	275,284	O	O
+by	285,287	O	O
+the	288,291	O	O
+s	292,293	O	B-Material
+-	293,294	O	I-Material
+wave	294,298	O	I-Material
+with	299,303	O	O
+energy	304,310	O	O
+ω	311,312	O	O
+,	312,313	O	O
+φ(r	314,317	O	O
+,	317,318	O	O
+t)=φ(r)eiωt	318,329	O	O
+,	329,330	O	O
+of	331,333	O	O
+the	334,337	O	O
+linear	338,344	O	B-Process
+fluctuations	345,357	O	I-Process
+of	358,360	O	O
+the	361,364	O	O
+four	365,369	O	O
+overall	370,377	O	O
+transverse	378,388	O	O
+scalars	389,396	O	O
+about	397,402	O	O
+the	403,406	O	O
+self	407,411	O	O
+-	411,412	O	O
+dual	412,416	O	O
+string	417,423	O	O
+,	423,424	O	O
+(	425,426	O	O
+it	426,428	O	O
+is	429,431	O	O
+known	432,437	O	O
+that	438,442	O	O
+there	443,448	O	O
+are	449,452	O	O
+problems	453,461	O	O
+when	462,466	O	O
+one	467,470	O	O
+considers	471,480	O	O
+higher	481,487	O	B-Process
+angular	488,495	O	I-Process
+momentum	496,504	O	I-Process
+modes	505,510	O	I-Process
+[	511,512	O	O
+23	512,514	O	O
+]	514,515	O	O
+,	515,516	O	O
+one	517,520	O	O
+must	521,525	O	O
+take	526,530	O	O
+care	531,535	O	O
+with	536,540	O	O
+the	541,544	O	O
+validity	545,553	O	O
+of	554,556	O	O
+the	557,560	O	O
+linearized	561,571	O	B-Process
+approximation	572,585	O	I-Process
+,	585,586	O	O
+this	587,591	O	O
+is	592,594	O	O
+discussed	595,604	O	O
+in	605,607	O	O
+[	608,609	O	O
+13	609,611	O	O
+]	611,612	O	O
+)	612,613	O	O
+:	613,614	O	O
+(	615,616	O	O
+15)ρ−3ddρρ3ddρ+1+R6ω6ρ6φ(ρ)=0	616,645	O	O
+,	645,646	O	O
+where	647,652	O	O
+ρ=rω	653,657	O	O
+,	657,658	O	O
+R	659,660	O	O
+=	660,661	O	O
+Q1/3ℓp	661,667	O	O
+.	667,668	O	O
+
+Note	669,673	O	O
+,	673,674	O	O
+as	675,677	O	O
+pointed	678,685	O	O
+out	686,689	O	O
+by	690,692	O	O
+[	693,694	O	O
+11	694,696	O	O
+]	696,697	O	O
+world	698,703	O	B-Process
+volume	704,710	O	I-Process
+solitons	711,719	O	I-Process
+have	720,724	O	O
+a	725,726	O	O
+much	727,731	O	O
+sharper	732,739	O	O
+potential	740,749	O	O
+than	750,754	O	O
+the	755,758	O	O
+Coulomb	759,766	O	O
+type	767,771	O	O
+potential	772,781	O	O
+typical	782,789	O	O
+of	790,792	O	O
+brane	793,798	O	B-Process
+solutions	799,808	O	I-Process
+in	809,811	O	O
+supergravity	812,824	O	O
+;	824,825	O	O
+thus	826,830	O	O
+this	831,835	O	O
+scattering	836,846	O	O
+is	847,849	O	O
+different	850,859	O	O
+to	860,862	O	O
+that	863,867	O	O
+of	868,870	O	O
+the	871,874	O	O
+string	875,881	O	O
+in	882,884	O	O
+six	885,888	O	O
+-	888,889	O	O
+dimensional	889,900	O	O
+supergravity	901,913	O	O
+.	913,914	O	O
+
+Nevertheless	915,927	O	O
+,	927,928	O	O
+for	929,932	O	O
+small	933,938	O	B-Task
+ωR	939,941	O	I-Task
+one	942,945	O	O
+may	946,949	O	O
+solve	950,955	O	O
+this	956,960	O	O
+problem	961,968	O	O
+by	969,971	O	O
+matching	972,980	O	O
+an	981,983	O	O
+approximate	984,995	O	B-Process
+solution	996,1004	O	I-Process
+in	1005,1007	O	O
+the	1008,1011	O	O
+inner	1012,1017	O	O
+region	1018,1024	O	O
+to	1025,1027	O	O
+an	1028,1030	O	O
+approximate	1031,1042	O	B-Process
+solution	1043,1051	O	I-Process
+in	1052,1054	O	O
+the	1055,1058	O	O
+outer	1059,1064	O	O
+region	1065,1071	O	O
+;	1071,1072	O	O
+this	1073,1077	O	O
+follows	1078,1085	O	O
+closely	1086,1093	O	O
+the	1094,1097	O	O
+supergravity	1098,1110	O	B-Process
+calculation	1111,1122	O	I-Process
+[	1123,1124	O	O
+24	1124,1126	O	O
+]	1126,1127	O	O
+.	1127,1128	O	O
 
 
 -DOCSTART- (S0370269302013412)
 
-We	0	2	O
-consider	3	11	B-Task
-cosmological	12	24	I-Task
-consequences	25	37	I-Task
-of	38	40	I-Task
-a	41	42	I-Task
-conformal	43	52	I-Task
--	52	53	I-Task
-invariant	53	62	I-Task
-formulation	63	74	I-Task
-of	75	77	I-Task
-Einstein	78	86	I-Task
-'s	86	88	I-Task
-General	89	96	I-Task
-Relativity	97	107	I-Task
-where	108	113	O
-instead	114	121	O
-of	122	124	O
-the	125	128	O
-scale	129	134	B-Material
-factor	135	141	I-Material
-of	142	144	O
-the	145	148	O
-spatial	149	156	O
-metrics	157	164	O
-in	165	167	O
-the	168	171	O
-action	172	178	O
-functional	179	189	O
-a	190	191	O
-massless	192	200	B-Material
-scalar	201	207	I-Material
-(	208	209	I-Material
-dilaton	209	216	I-Material
-)	216	217	I-Material
-field	218	223	I-Material
-occurs	224	230	O
-which	231	236	O
-scales	237	243	O
-all	244	247	O
-masses	248	254	B-Material
-including	255	264	O
-the	265	268	O
-Planck	269	275	B-Material
-mass	276	280	I-Material
-.	280	281	O
-
-Instead	282	289	O
-of	290	292	O
-the	293	296	O
-expansion	297	306	B-Process
-of	307	309	I-Process
-the	310	313	I-Process
-universe	314	322	I-Process
-we	323	325	O
-obtain	326	332	O
-the	333	336	O
-Hoyle	337	342	B-Process
-–	342	343	I-Process
-Narlikar	343	351	I-Process
-type	352	356	I-Process
-of	357	359	I-Process
-mass	360	364	I-Process
-evolution	365	374	I-Process
-,	374	375	O
-where	376	381	O
-the	382	385	O
-temperature	386	397	B-Process
-history	398	405	I-Process
-of	406	408	I-Process
-the	409	412	I-Process
-universe	413	421	I-Process
-is	422	424	O
-replaced	425	433	O
-by	434	436	O
-the	437	440	O
-mass	441	445	B-Process
-history	446	453	I-Process
-.	453	454	O
-
-We	455	457	O
-show	458	462	O
-that	463	467	O
-this	468	472	O
-conformal	473	482	B-Process
--	482	483	I-Process
-invariant	483	492	I-Process
-cosmological	493	505	I-Process
-model	506	511	I-Process
-gives	512	517	O
-a	518	519	O
-satisfactory	520	532	O
-description	533	544	O
-of	545	547	O
-the	548	551	O
-new	552	555	O
-supernova	556	565	B-Material
-Ia	566	568	I-Material
-data	569	573	I-Material
-for	574	577	O
-the	578	581	O
-effective	582	591	B-Process
-magnitude	592	601	I-Process
-–	601	602	I-Process
-redshift	602	610	I-Process
-relation	611	619	I-Process
-without	620	627	O
-a	628	629	O
-cosmological	630	642	B-Material
-constant	643	651	I-Material
-and	652	655	O
-make	656	660	O
-a	661	662	O
-prediction	663	673	O
-for	674	677	O
-the	678	681	O
-high	682	686	B-Process
--	686	687	I-Process
-redshift	687	695	I-Process
-behavior	696	704	I-Process
-which	705	710	O
-deviates	711	719	O
-from	720	724	O
-that	725	729	O
-of	730	732	O
-standard	733	741	B-Task
-cosmology	742	751	I-Task
-for	752	755	O
-z>1.7	756	761	O
-.	761	762	O
+We	0,2	O	O
+consider	3,11	O	B-Task
+cosmological	12,24	O	I-Task
+consequences	25,37	O	I-Task
+of	38,40	O	I-Task
+a	41,42	O	I-Task
+conformal	43,52	O	I-Task
+-	52,53	O	I-Task
+invariant	53,62	O	I-Task
+formulation	63,74	O	I-Task
+of	75,77	O	I-Task
+Einstein	78,86	O	I-Task
+'s	86,88	O	I-Task
+General	89,96	O	I-Task
+Relativity	97,107	O	I-Task
+where	108,113	O	O
+instead	114,121	O	O
+of	122,124	O	O
+the	125,128	O	O
+scale	129,134	O	B-Material
+factor	135,141	O	I-Material
+of	142,144	O	O
+the	145,148	O	O
+spatial	149,156	O	O
+metrics	157,164	O	O
+in	165,167	O	O
+the	168,171	O	O
+action	172,178	O	O
+functional	179,189	O	O
+a	190,191	O	O
+massless	192,200	O	B-Material
+scalar	201,207	O	I-Material
+(	208,209	O	I-Material
+dilaton	209,216	O	I-Material
+)	216,217	O	I-Material
+field	218,223	O	I-Material
+occurs	224,230	O	O
+which	231,236	O	O
+scales	237,243	O	O
+all	244,247	O	O
+masses	248,254	O	B-Material
+including	255,264	O	O
+the	265,268	O	O
+Planck	269,275	O	B-Material
+mass	276,280	O	I-Material
+.	280,281	O	O
+
+Instead	282,289	O	O
+of	290,292	O	O
+the	293,296	O	O
+expansion	297,306	O	B-Process
+of	307,309	O	I-Process
+the	310,313	O	I-Process
+universe	314,322	O	I-Process
+we	323,325	O	O
+obtain	326,332	O	O
+the	333,336	O	O
+Hoyle	337,342	O	B-Process
+–	342,343	O	I-Process
+Narlikar	343,351	O	I-Process
+type	352,356	O	I-Process
+of	357,359	O	I-Process
+mass	360,364	O	I-Process
+evolution	365,374	O	I-Process
+,	374,375	O	O
+where	376,381	O	O
+the	382,385	O	O
+temperature	386,397	O	B-Process
+history	398,405	O	I-Process
+of	406,408	O	I-Process
+the	409,412	O	I-Process
+universe	413,421	O	I-Process
+is	422,424	O	O
+replaced	425,433	O	O
+by	434,436	O	O
+the	437,440	O	O
+mass	441,445	O	B-Process
+history	446,453	O	I-Process
+.	453,454	O	O
+
+We	455,457	O	O
+show	458,462	O	O
+that	463,467	O	O
+this	468,472	O	O
+conformal	473,482	O	B-Process
+-	482,483	O	I-Process
+invariant	483,492	O	I-Process
+cosmological	493,505	O	I-Process
+model	506,511	O	I-Process
+gives	512,517	O	O
+a	518,519	O	O
+satisfactory	520,532	O	O
+description	533,544	O	O
+of	545,547	O	O
+the	548,551	O	O
+new	552,555	O	O
+supernova	556,565	O	B-Material
+Ia	566,568	O	I-Material
+data	569,573	O	I-Material
+for	574,577	O	O
+the	578,581	O	O
+effective	582,591	O	B-Process
+magnitude	592,601	O	I-Process
+–	601,602	O	I-Process
+redshift	602,610	O	I-Process
+relation	611,619	O	I-Process
+without	620,627	O	O
+a	628,629	O	O
+cosmological	630,642	O	B-Material
+constant	643,651	O	I-Material
+and	652,655	O	O
+make	656,660	O	O
+a	661,662	O	O
+prediction	663,673	O	O
+for	674,677	O	O
+the	678,681	O	O
+high	682,686	O	B-Process
+-	686,687	O	I-Process
+redshift	687,695	O	I-Process
+behavior	696,704	O	I-Process
+which	705,710	O	O
+deviates	711,719	O	O
+from	720,724	O	O
+that	725,729	O	O
+of	730,732	O	O
+standard	733,741	O	B-Task
+cosmology	742,751	O	I-Task
+for	752,755	O	O
+z>1.7	756,761	O	O
+.	761,762	O	O
 
 
 -DOCSTART- (S0370269302014880)
 
-Production	0	10	B-Task
-of	11	13	I-Task
-charmonium	14	24	I-Task
-states	25	31	I-Task
-J/ψ	32	35	I-Task
-and	36	39	I-Task
-ψ′	40	42	I-Task
-in	43	45	I-Task
-nucleus	46	53	I-Task
-–	53	54	I-Task
-nucleus	54	61	I-Task
-collisions	62	72	I-Task
-has	73	76	O
-been	77	81	O
-studied	82	89	O
-at	90	92	O
-CERN	93	97	O
-SPS	98	101	O
-over	102	106	O
-the	107	110	O
-previous	111	119	O
-15	120	122	O
-years	123	128	O
-by	129	131	O
-the	132	135	O
-NA38	136	140	O
-and	141	144	O
-NA50	145	149	O
-Collaborations	150	164	O
-.	164	165	O
-
-This	166	170	O
-experimental	171	183	B-Task
-program	184	191	I-Task
-was	192	195	O
-mainly	196	202	O
-motivated	203	212	O
-by	213	215	O
-the	216	219	O
-suggestion	220	230	O
-[	231	232	O
-1	232	233	O
-]	233	234	O
-to	235	237	O
-use	238	241	B-Task
-the	242	245	I-Task
-J/ψ	246	249	I-Task
-as	250	252	I-Task
-a	253	254	I-Task
-probe	255	260	I-Task
-of	261	263	I-Task
-the	264	267	I-Task
-state	268	273	I-Task
-of	274	276	I-Task
-matter	277	283	I-Task
-created	284	291	I-Task
-at	292	294	I-Task
-the	295	298	I-Task
-early	299	304	I-Task
-stage	305	310	I-Task
-of	311	313	I-Task
-the	314	317	I-Task
-collision	318	327	I-Task
-.	327	328	O
-
-The	329	332	O
-original	333	341	B-Material
-picture	342	349	I-Material
-[	350	351	O
-1	351	352	O
-]	352	353	O
-(	354	355	O
-see	355	358	O
-also	359	363	O
-[	364	365	O
-2	365	366	O
-]	366	367	O
-for	368	371	O
-a	372	373	O
-modern	374	380	O
-review	381	387	O
-)	387	388	O
-assumes	389	396	O
-that	397	401	O
-charmonia	402	411	B-Material
-are	412	415	O
-created	416	423	O
-exclusively	424	435	O
-at	436	438	O
-the	439	442	O
-initial	443	450	O
-stage	451	456	O
-of	457	459	O
-the	460	463	O
-reaction	464	472	O
-in	473	475	O
-primary	476	483	B-Process
-nucleon	484	491	I-Process
-–	491	492	I-Process
-nucleon	492	499	I-Process
-collisions	500	510	I-Process
-.	510	511	O
-
-During	512	518	O
-the	519	522	O
-subsequent	523	533	B-Process
-evolution	534	543	I-Process
-of	544	546	I-Process
-the	547	550	I-Process
-system	551	557	I-Process
-,	557	558	I-Process
-the	559	562	O
-number	563	569	O
-of	570	572	O
-hidden	573	579	B-Material
-charm	580	585	I-Material
-mesons	586	592	I-Material
-is	593	595	O
-reduced	596	603	O
-because	604	611	O
-of	612	614	O
-:	614	615	O
-(	616	617	O
-a	617	618	O
-)	618	619	O
-absorption	620	630	B-Process
-of	631	633	I-Process
-pre	634	637	I-Process
--	637	638	I-Process
-resonance	638	647	I-Process
-charmonium	648	658	I-Process
-states	659	665	I-Process
-by	666	668	I-Process
-nuclear	669	676	I-Process
-nucleons	677	685	I-Process
-(	686	687	O
-normal	687	693	B-Process
-nuclear	694	701	I-Process
-suppression	702	713	I-Process
-)	713	714	O
-,	714	715	O
-(	716	717	O
-b	717	718	O
-)	718	719	O
-interactions	720	732	B-Process
-of	733	735	I-Process
-charmonia	736	745	I-Process
-with	746	750	I-Process
-secondary	751	760	I-Process
-hadrons	761	768	I-Process
-(	769	770	O
-comovers	770	778	B-Process
-)	778	779	O
-,	779	780	O
-(	781	782	O
-c	782	783	O
-)	783	784	O
-dissociation	785	797	B-Process
-of	798	800	I-Process
-cc̄	801	804	I-Process
-bound	805	810	I-Process
-states	811	817	I-Process
-in	818	820	I-Process
-deconfined	821	831	I-Process
-medium	832	838	I-Process
-(	839	840	O
-anomalous	840	849	B-Process
-suppression	850	861	I-Process
-)	861	862	O
-.	862	863	O
-
-It	864	866	O
-was	867	870	O
-found	871	876	O
-[	877	878	O
-3	878	879	O
-]	879	880	O
-that	881	885	O
-J/ψ	886	889	B-Process
-suppression	890	901	I-Process
-with	902	906	O
-respect	907	914	O
-to	915	917	O
-Drell	918	923	B-Material
-–	923	924	I-Material
-Yan	924	927	I-Material
-muon	928	932	I-Material
-pairs	933	938	I-Material
-measured	939	947	O
-in	948	950	O
-proton	951	957	B-Material
-–	957	958	I-Material
-nucleus	958	965	I-Material
-and	966	969	O
-nucleus	970	977	O
-–	977	978	O
-
-nucleus	978	985	O
-collisions	986	996	O
-with	997	1001	O
-light	1002	1007	B-Material
-projectiles	1008	1019	I-Material
-can	1020	1023	O
-be	1024	1026	O
-explained	1027	1036	O
-by	1037	1039	O
-the	1040	1043	O
-so	1044	1046	O
--	1046	1047	O
-called	1047	1053	O
-“	1054	1055	O
-normal	1055	1061	O
-”	1061	1062	O
-(	1063	1064	O
-due	1064	1067	O
-to	1068	1070	O
-sweeping	1071	1079	B-Material
-nucleons	1080	1088	I-Material
-)	1088	1089	O
-nuclear	1090	1097	B-Process
-suppression	1098	1109	I-Process
-alone	1110	1115	O
-.	1115	1116	O
-
-In	1117	1119	O
-contrast	1120	1128	O
-,	1128	1129	O
-the	1130	1133	O
-NA50	1134	1138	B-Task
-experiment	1139	1149	I-Task
-with	1150	1154	O
-a	1155	1156	O
-heavy	1157	1162	B-Material
-projectile	1163	1173	I-Material
-and	1174	1177	I-Material
-target	1178	1184	I-Material
-(	1185	1186	O
-Pb+Pb	1186	1191	B-Material
-)	1191	1192	O
-revealed	1193	1201	O
-essentially	1202	1213	O
-stronger	1214	1222	O
-J/ψ	1223	1226	B-Process
-suppression	1227	1238	I-Process
-for	1239	1242	O
-central	1243	1250	B-Process
-collisions	1251	1261	I-Process
-[	1262	1263	O
-4–7	1263	1266	O
-]	1266	1267	O
-.	1267	1268	O
-
-This	1269	1273	O
-anomalous	1274	1283	O
-J/ψ	1284	1287	B-Process
-suppression	1288	1299	I-Process
-was	1300	1303	O
-attributed	1304	1314	O
-to	1315	1317	O
-formation	1318	1327	B-Process
-of	1328	1330	I-Process
-quark	1331	1336	I-Process
-–	1336	1337	I-Process
-gluon	1337	1342	I-Process
-plasma	1343	1349	I-Process
-(	1350	1351	O
-QGP	1351	1354	B-Material
-)	1354	1355	O
-[	1356	1357	O
-7	1357	1358	O
-]	1358	1359	O
-,	1359	1360	O
-but	1361	1364	O
-a	1365	1366	O
-comover	1367	1374	B-Process
-scenario	1375	1383	I-Process
-can	1384	1387	O
-not	1387	1390	O
-be	1391	1393	O
-excluded	1394	1402	O
-[	1403	1404	O
-8	1404	1405	O
-]	1405	1406	O
-.	1406	1407	O
+Production	0,10	O	B-Task
+of	11,13	O	I-Task
+charmonium	14,24	O	I-Task
+states	25,31	O	I-Task
+J/ψ	32,35	O	I-Task
+and	36,39	O	I-Task
+ψ′	40,42	O	I-Task
+in	43,45	O	I-Task
+nucleus	46,53	O	I-Task
+–	53,54	O	I-Task
+nucleus	54,61	O	I-Task
+collisions	62,72	O	I-Task
+has	73,76	O	O
+been	77,81	O	O
+studied	82,89	O	O
+at	90,92	O	O
+CERN	93,97	O	O
+SPS	98,101	O	O
+over	102,106	O	O
+the	107,110	O	O
+previous	111,119	O	O
+15	120,122	O	O
+years	123,128	O	O
+by	129,131	O	O
+the	132,135	O	O
+NA38	136,140	O	O
+and	141,144	O	O
+NA50	145,149	O	O
+Collaborations	150,164	O	O
+.	164,165	O	O
+
+This	166,170	O	O
+experimental	171,183	O	B-Task
+program	184,191	O	I-Task
+was	192,195	O	O
+mainly	196,202	O	O
+motivated	203,212	O	O
+by	213,215	O	O
+the	216,219	O	O
+suggestion	220,230	O	O
+[	231,232	O	O
+1	232,233	O	O
+]	233,234	O	O
+to	235,237	O	O
+use	238,241	O	B-Task
+the	242,245	O	I-Task
+J/ψ	246,249	O	I-Task
+as	250,252	O	I-Task
+a	253,254	O	I-Task
+probe	255,260	O	I-Task
+of	261,263	O	I-Task
+the	264,267	O	I-Task
+state	268,273	O	I-Task
+of	274,276	O	I-Task
+matter	277,283	O	I-Task
+created	284,291	O	I-Task
+at	292,294	O	I-Task
+the	295,298	O	I-Task
+early	299,304	O	I-Task
+stage	305,310	O	I-Task
+of	311,313	O	I-Task
+the	314,317	O	I-Task
+collision	318,327	O	I-Task
+.	327,328	O	O
+
+The	329,332	O	O
+original	333,341	O	B-Material
+picture	342,349	O	I-Material
+[	350,351	O	O
+1	351,352	O	O
+]	352,353	O	O
+(	354,355	O	O
+see	355,358	O	O
+also	359,363	O	O
+[	364,365	O	O
+2	365,366	O	O
+]	366,367	O	O
+for	368,371	O	O
+a	372,373	O	O
+modern	374,380	O	O
+review	381,387	O	O
+)	387,388	O	O
+assumes	389,396	O	O
+that	397,401	O	O
+charmonia	402,411	O	B-Material
+are	412,415	O	O
+created	416,423	O	O
+exclusively	424,435	O	O
+at	436,438	O	O
+the	439,442	O	O
+initial	443,450	O	O
+stage	451,456	O	O
+of	457,459	O	O
+the	460,463	O	O
+reaction	464,472	O	O
+in	473,475	O	O
+primary	476,483	O	B-Process
+nucleon	484,491	O	I-Process
+–	491,492	O	I-Process
+nucleon	492,499	O	I-Process
+collisions	500,510	O	I-Process
+.	510,511	O	O
+
+During	512,518	O	O
+the	519,522	O	O
+subsequent	523,533	O	B-Process
+evolution	534,543	O	I-Process
+of	544,546	O	I-Process
+the	547,550	O	I-Process
+system	551,557	O	I-Process
+,	557,558	O	I-Process
+the	559,562	O	O
+number	563,569	O	O
+of	570,572	O	O
+hidden	573,579	O	B-Material
+charm	580,585	O	I-Material
+mesons	586,592	O	I-Material
+is	593,595	O	O
+reduced	596,603	O	O
+because	604,611	O	O
+of	612,614	O	O
+:	614,615	O	O
+(	616,617	O	O
+a	617,618	O	O
+)	618,619	O	O
+absorption	620,630	O	B-Process
+of	631,633	O	I-Process
+pre	634,637	O	I-Process
+-	637,638	O	I-Process
+resonance	638,647	O	I-Process
+charmonium	648,658	O	I-Process
+states	659,665	O	I-Process
+by	666,668	O	I-Process
+nuclear	669,676	O	I-Process
+nucleons	677,685	O	I-Process
+(	686,687	O	O
+normal	687,693	O	B-Process
+nuclear	694,701	O	I-Process
+suppression	702,713	O	I-Process
+)	713,714	O	O
+,	714,715	O	O
+(	716,717	O	O
+b	717,718	O	O
+)	718,719	O	O
+interactions	720,732	O	B-Process
+of	733,735	O	I-Process
+charmonia	736,745	O	I-Process
+with	746,750	O	I-Process
+secondary	751,760	O	I-Process
+hadrons	761,768	O	I-Process
+(	769,770	O	O
+comovers	770,778	O	B-Process
+)	778,779	O	O
+,	779,780	O	O
+(	781,782	O	O
+c	782,783	O	O
+)	783,784	O	O
+dissociation	785,797	O	B-Process
+of	798,800	O	I-Process
+cc̄	801,804	O	I-Process
+bound	805,810	O	I-Process
+states	811,817	O	I-Process
+in	818,820	O	I-Process
+deconfined	821,831	O	I-Process
+medium	832,838	O	I-Process
+(	839,840	O	O
+anomalous	840,849	O	B-Process
+suppression	850,861	O	I-Process
+)	861,862	O	O
+.	862,863	O	O
+
+It	864,866	O	O
+was	867,870	O	O
+found	871,876	O	O
+[	877,878	O	O
+3	878,879	O	O
+]	879,880	O	O
+that	881,885	O	O
+J/ψ	886,889	O	B-Process
+suppression	890,901	O	I-Process
+with	902,906	O	O
+respect	907,914	O	O
+to	915,917	O	O
+Drell	918,923	O	B-Material
+–	923,924	O	I-Material
+Yan	924,927	O	I-Material
+muon	928,932	O	I-Material
+pairs	933,938	O	I-Material
+measured	939,947	O	O
+in	948,950	O	O
+proton	951,957	O	B-Material
+–	957,958	O	I-Material
+nucleus	958,965	O	I-Material
+and	966,969	O	O
+nucleus	970,977	O	O
+–	977,978	O	O
+
+nucleus	978,985	O	O
+collisions	986,996	O	O
+with	997,1001	O	O
+light	1002,1007	O	B-Material
+projectiles	1008,1019	O	I-Material
+can	1020,1023	O	O
+be	1024,1026	O	O
+explained	1027,1036	O	O
+by	1037,1039	O	O
+the	1040,1043	O	O
+so	1044,1046	O	O
+-	1046,1047	O	O
+called	1047,1053	O	O
+“	1054,1055	O	O
+normal	1055,1061	O	O
+”	1061,1062	O	O
+(	1063,1064	O	O
+due	1064,1067	O	O
+to	1068,1070	O	O
+sweeping	1071,1079	O	B-Material
+nucleons	1080,1088	O	I-Material
+)	1088,1089	O	O
+nuclear	1090,1097	O	B-Process
+suppression	1098,1109	O	I-Process
+alone	1110,1115	O	O
+.	1115,1116	O	O
+
+In	1117,1119	O	O
+contrast	1120,1128	O	O
+,	1128,1129	O	O
+the	1130,1133	O	O
+NA50	1134,1138	O	B-Task
+experiment	1139,1149	O	I-Task
+with	1150,1154	O	O
+a	1155,1156	O	O
+heavy	1157,1162	O	B-Material
+projectile	1163,1173	O	I-Material
+and	1174,1177	O	I-Material
+target	1178,1184	O	I-Material
+(	1185,1186	O	O
+Pb+Pb	1186,1191	O	B-Material
+)	1191,1192	O	O
+revealed	1193,1201	O	O
+essentially	1202,1213	O	O
+stronger	1214,1222	O	O
+J/ψ	1223,1226	O	B-Process
+suppression	1227,1238	O	I-Process
+for	1239,1242	O	O
+central	1243,1250	O	B-Process
+collisions	1251,1261	O	I-Process
+[	1262,1263	O	O
+4–7	1263,1266	O	O
+]	1266,1267	O	O
+.	1267,1268	O	O
+
+This	1269,1273	O	O
+anomalous	1274,1283	O	O
+J/ψ	1284,1287	O	B-Process
+suppression	1288,1299	O	I-Process
+was	1300,1303	O	O
+attributed	1304,1314	O	O
+to	1315,1317	O	O
+formation	1318,1327	O	B-Process
+of	1328,1330	O	I-Process
+quark	1331,1336	O	I-Process
+–	1336,1337	O	I-Process
+gluon	1337,1342	O	I-Process
+plasma	1343,1349	O	I-Process
+(	1350,1351	O	O
+QGP	1351,1354	O	B-Material
+)	1354,1355	O	O
+[	1356,1357	O	O
+7	1357,1358	O	O
+]	1358,1359	O	O
+,	1359,1360	O	O
+but	1361,1364	O	O
+a	1365,1366	O	O
+comover	1367,1374	O	B-Process
+scenario	1375,1383	O	I-Process
+can	1384,1387	O	O
+not	1387,1390	O	O
+be	1391,1393	O	O
+excluded	1394,1402	O	O
+[	1403,1404	O	O
+8	1404,1405	O	O
+]	1405,1406	O	O
+.	1406,1407	O	O
 
 
 -DOCSTART- (S0370269302014892)
 
-Brodsky	0	7	O
-and	8	11	O
-Lepage	12	18	O
-[	19	20	O
-8	20	21	O
-]	21	22	O
-have	23	27	O
-proposed	28	36	O
-a	37	38	O
-formula	39	46	B-Task
-for	47	50	I-Task
-meson	51	56	I-Task
-pair	57	61	I-Task
-production	62	72	I-Task
-which	73	78	O
-looks	79	84	O
-similar	85	92	O
-to	93	95	O
-(	96	97	O
-25	97	99	O
-)	99	100	O
-,	100	101	O
-except	102	108	O
-for	109	112	O
-a	113	114	O
-different	115	124	O
-charge	125	131	O
-factor	132	138	O
-and	139	142	O
-the	143	146	O
-appearance	147	157	O
-of	158	160	O
-the	161	164	O
-timelike	165	173	O
-electromagnetic	174	189	B-Material
-meson	190	195	I-Material
-form	196	200	O
-factor	201	207	O
-instead	208	215	O
-of	216	218	O
-the	219	222	O
-annihilation	223	235	O
-form	236	240	O
-factor	241	247	O
-R(s	248	251	O
-)	251	252	O
-.	252	253	O
-
-This	254	258	O
-formula	259	266	B-Task
-was	267	270	O
-obtained	271	279	O
-from	280	284	O
-the	285	288	O
-leading	289	296	O
--	296	297	O
-twist	297	302	O
-result	303	309	O
-by	310	312	O
-neglecting	313	323	B-Process
-part	324	328	I-Process
-of	329	331	I-Process
-the	332	335	I-Process
-amplitudes	336	346	I-Process
-with	347	351	I-Process
-opposite	352	360	I-Process
-photon	361	367	I-Process
-helicities	368	378	I-Process
-.	378	379	O
-
-As	380	382	O
-has	383	386	O
-been	387	391	O
-pointed	392	399	O
-out	400	403	O
-in	404	406	O
-[	407	408	O
-9	408	409	O
-]	409	410	O
-,	410	411	O
-this	412	416	O
-part	417	421	O
-is	422	424	O
-however	425	432	O
-not	433	436	O
-approximately	437	450	O
-independent	451	462	O
-of	463	465	O
-the	466	469	O
-pion	470	474	O
-distribution	475	487	O
-amplitude	488	497	O
-and	498	501	O
-not	502	505	O
-generically	506	517	O
-small	518	523	O
-.	523	524	O
-
-We	525	527	O
-also	528	532	O
-remark	533	539	O
-that	540	544	O
-the	545	548	O
-appearance	549	559	O
-of	560	562	O
-Fπ(s	563	567	O
-)	567	568	O
-in	569	571	O
-the	572	575	O
-γγ→π+π−	576	583	O
-amplitude	584	593	O
-is	594	596	O
-no	597	599	O
-longer	600	606	O
-observed	607	615	O
-if	616	618	O
-corrections	619	630	O
-from	631	635	O
-partonic	636	644	B-Process
-transverse	645	655	I-Process
-momentum	656	664	I-Process
-in	665	667	O
-the	668	671	O
-hard	672	676	B-Process
-scattering	677	687	I-Process
-process	688	695	I-Process
-are	696	699	O
-taken	700	705	O
-into	706	710	O
-account	711	718	O
-,	718	719	O
-and	720	723	O
-that	724	728	O
-these	729	734	O
-corrections	735	746	O
-are	747	750	O
-not	751	754	O
-numerically	755	766	O
-small	767	772	O
-for	773	776	O
-the	777	780	O
-values	781	787	O
-of	788	790	O
-s	791	792	O
-we	793	795	O
-are	796	799	O
-dealing	800	807	O
-with	808	812	O
-[	813	814	O
-13	814	816	O
-]	816	817	O
-.	817	818	O
-
-Notice	819	825	O
-further	826	833	O
-that	834	838	O
-two	839	842	B-Process
--	842	843	I-Process
-photon	843	849	I-Process
-annihilation	850	862	I-Process
-produces	863	871	O
-two	872	875	O
-pions	876	881	B-Material
-in	882	884	O
-a	885	886	O
-C	887	888	O
--	888	889	O
-even	889	893	O
-state	894	899	O
-,	899	900	O
-whereas	901	908	O
-the	909	912	O
-electromagnetic	913	928	B-Process
-form	929	933	I-Process
-factor	934	940	I-Process
-projects	941	949	O
-on	950	952	O
-the	953	956	O
-C	957	958	O
--	958	959	O
-odd	959	962	O
-state	963	968	O
-of	969	971	O
-a	972	973	O
-pion	974	978	B-Material
-pair	979	983	I-Material
-.	983	984	O
-
-In	985	987	O
-contrast	988	996	O
-,	996	997	O
-our	998	1001	O
-annihilation	1002	1014	B-Material
-form	1015	1019	I-Material
-factor	1020	1026	I-Material
-R2π(s	1027	1032	B-Material
-)	1032	1033	I-Material
-is	1034	1036	O
-C	1037	1038	O
--	1038	1039	O
-even	1039	1043	O
-as	1044	1046	O
-discussed	1047	1056	O
-after	1057	1062	O
-(	1063	1064	O
-24	1064	1066	O
-)	1066	1067	O
-.	1067	1068	O
-
-Finally	1069	1076	O
-,	1076	1077	O
-due	1078	1081	O
-to	1082	1084	O
-a	1085	1086	O
-particular	1087	1097	O
-charge	1098	1104	O
-factor	1105	1111	O
-,	1111	1112	O
-the	1113	1116	O
-Brodsky	1117	1124	B-Task
-–	1124	1125	I-Task
-Lepage	1125	1131	I-Task
-formula	1132	1139	I-Task
-leads	1140	1145	O
-to	1146	1148	O
-a	1149	1150	O
-vanishing	1151	1160	B-Process
-cross	1161	1166	I-Process
-section	1167	1174	I-Process
-for	1175	1178	I-Process
-γγ	1179	1181	I-Process
-annihilation	1182	1194	I-Process
-into	1195	1199	O
-pairs	1200	1205	O
-of	1206	1208	O
-neutral	1209	1216	B-Material
-pseudoscalars	1217	1230	I-Material
-.	1230	1231	O
+Brodsky	0,7	O	O
+and	8,11	O	O
+Lepage	12,18	O	O
+[	19,20	O	O
+8	20,21	O	O
+]	21,22	O	O
+have	23,27	O	O
+proposed	28,36	O	O
+a	37,38	O	O
+formula	39,46	O	B-Task
+for	47,50	O	I-Task
+meson	51,56	O	I-Task
+pair	57,61	O	I-Task
+production	62,72	O	I-Task
+which	73,78	O	O
+looks	79,84	O	O
+similar	85,92	O	O
+to	93,95	O	O
+(	96,97	O	O
+25	97,99	O	O
+)	99,100	O	O
+,	100,101	O	O
+except	102,108	O	O
+for	109,112	O	O
+a	113,114	O	O
+different	115,124	O	O
+charge	125,131	O	O
+factor	132,138	O	O
+and	139,142	O	O
+the	143,146	O	O
+appearance	147,157	O	O
+of	158,160	O	O
+the	161,164	O	O
+timelike	165,173	O	O
+electromagnetic	174,189	O	B-Material
+meson	190,195	O	I-Material
+form	196,200	O	O
+factor	201,207	O	O
+instead	208,215	O	O
+of	216,218	O	O
+the	219,222	O	O
+annihilation	223,235	O	O
+form	236,240	O	O
+factor	241,247	O	O
+R(s	248,251	O	O
+)	251,252	O	O
+.	252,253	O	O
+
+This	254,258	O	O
+formula	259,266	O	B-Task
+was	267,270	O	O
+obtained	271,279	O	O
+from	280,284	O	O
+the	285,288	O	O
+leading	289,296	O	O
+-	296,297	O	O
+twist	297,302	O	O
+result	303,309	O	O
+by	310,312	O	O
+neglecting	313,323	O	B-Process
+part	324,328	O	I-Process
+of	329,331	O	I-Process
+the	332,335	O	I-Process
+amplitudes	336,346	O	I-Process
+with	347,351	O	I-Process
+opposite	352,360	O	I-Process
+photon	361,367	O	I-Process
+helicities	368,378	O	I-Process
+.	378,379	O	O
+
+As	380,382	O	O
+has	383,386	O	O
+been	387,391	O	O
+pointed	392,399	O	O
+out	400,403	O	O
+in	404,406	O	O
+[	407,408	O	O
+9	408,409	O	O
+]	409,410	O	O
+,	410,411	O	O
+this	412,416	O	O
+part	417,421	O	O
+is	422,424	O	O
+however	425,432	O	O
+not	433,436	O	O
+approximately	437,450	O	O
+independent	451,462	O	O
+of	463,465	O	O
+the	466,469	O	O
+pion	470,474	O	O
+distribution	475,487	O	O
+amplitude	488,497	O	O
+and	498,501	O	O
+not	502,505	O	O
+generically	506,517	O	O
+small	518,523	O	O
+.	523,524	O	O
+
+We	525,527	O	O
+also	528,532	O	O
+remark	533,539	O	O
+that	540,544	O	O
+the	545,548	O	O
+appearance	549,559	O	O
+of	560,562	O	O
+Fπ(s	563,567	O	O
+)	567,568	O	O
+in	569,571	O	O
+the	572,575	O	O
+γγ→π+π−	576,583	O	O
+amplitude	584,593	O	O
+is	594,596	O	O
+no	597,599	O	O
+longer	600,606	O	O
+observed	607,615	O	O
+if	616,618	O	O
+corrections	619,630	O	O
+from	631,635	O	O
+partonic	636,644	O	B-Process
+transverse	645,655	O	I-Process
+momentum	656,664	O	I-Process
+in	665,667	O	O
+the	668,671	O	O
+hard	672,676	O	B-Process
+scattering	677,687	O	I-Process
+process	688,695	O	I-Process
+are	696,699	O	O
+taken	700,705	O	O
+into	706,710	O	O
+account	711,718	O	O
+,	718,719	O	O
+and	720,723	O	O
+that	724,728	O	O
+these	729,734	O	O
+corrections	735,746	O	O
+are	747,750	O	O
+not	751,754	O	O
+numerically	755,766	O	O
+small	767,772	O	O
+for	773,776	O	O
+the	777,780	O	O
+values	781,787	O	O
+of	788,790	O	O
+s	791,792	O	O
+we	793,795	O	O
+are	796,799	O	O
+dealing	800,807	O	O
+with	808,812	O	O
+[	813,814	O	O
+13	814,816	O	O
+]	816,817	O	O
+.	817,818	O	O
+
+Notice	819,825	O	O
+further	826,833	O	O
+that	834,838	O	O
+two	839,842	O	B-Process
+-	842,843	O	I-Process
+photon	843,849	O	I-Process
+annihilation	850,862	O	I-Process
+produces	863,871	O	O
+two	872,875	O	O
+pions	876,881	O	B-Material
+in	882,884	O	O
+a	885,886	O	O
+C	887,888	O	O
+-	888,889	O	O
+even	889,893	O	O
+state	894,899	O	O
+,	899,900	O	O
+whereas	901,908	O	O
+the	909,912	O	O
+electromagnetic	913,928	O	B-Process
+form	929,933	O	I-Process
+factor	934,940	O	I-Process
+projects	941,949	O	O
+on	950,952	O	O
+the	953,956	O	O
+C	957,958	O	O
+-	958,959	O	O
+odd	959,962	O	O
+state	963,968	O	O
+of	969,971	O	O
+a	972,973	O	O
+pion	974,978	O	B-Material
+pair	979,983	O	I-Material
+.	983,984	O	O
+
+In	985,987	O	O
+contrast	988,996	O	O
+,	996,997	O	O
+our	998,1001	O	O
+annihilation	1002,1014	O	B-Material
+form	1015,1019	O	I-Material
+factor	1020,1026	O	I-Material
+R2π(s	1027,1032	O	B-Material
+)	1032,1033	O	I-Material
+is	1034,1036	O	O
+C	1037,1038	O	O
+-	1038,1039	O	O
+even	1039,1043	O	O
+as	1044,1046	O	O
+discussed	1047,1056	O	O
+after	1057,1062	O	O
+(	1063,1064	O	O
+24	1064,1066	O	O
+)	1066,1067	O	O
+.	1067,1068	O	O
+
+Finally	1069,1076	O	O
+,	1076,1077	O	O
+due	1078,1081	O	O
+to	1082,1084	O	O
+a	1085,1086	O	O
+particular	1087,1097	O	O
+charge	1098,1104	O	O
+factor	1105,1111	O	O
+,	1111,1112	O	O
+the	1113,1116	O	O
+Brodsky	1117,1124	O	B-Task
+–	1124,1125	O	I-Task
+Lepage	1125,1131	O	I-Task
+formula	1132,1139	O	I-Task
+leads	1140,1145	O	O
+to	1146,1148	O	O
+a	1149,1150	O	O
+vanishing	1151,1160	O	B-Process
+cross	1161,1166	O	I-Process
+section	1167,1174	O	I-Process
+for	1175,1178	O	I-Process
+γγ	1179,1181	O	I-Process
+annihilation	1182,1194	O	I-Process
+into	1195,1199	O	O
+pairs	1200,1205	O	O
+of	1206,1208	O	O
+neutral	1209,1216	O	B-Material
+pseudoscalars	1217,1230	O	I-Material
+.	1230,1231	O	O
 
 
 -DOCSTART- (S0370269303015478)
 
-Since	0	5	O
-perturbative	6	18	B-Process
-expansion	19	28	I-Process
-is	29	31	O
-used	32	36	O
-,	36	37	O
-it	38	40	O
-is	41	43	O
-impossible	44	54	O
-to	55	57	O
-find	58	62	O
-the	63	66	O
-exact	67	72	B-Process
-bounds	73	79	I-Process
-;	79	80	O
-instead	81	88	O
-,	88	89	O
-one	90	93	O
-can	94	97	O
-derive	98	104	O
-tree	105	109	B-Process
--	109	110	I-Process
-level	110	115	I-Process
-unitarity	116	125	I-Process
-bounds	126	132	I-Process
-or	133	135	O
-loop	136	140	B-Process
--	140	141	I-Process
-improved	141	149	I-Process
-unitarity	150	159	I-Process
-bounds	160	166	I-Process
-.	166	167	O
-
-In	168	170	O
-this	171	175	O
-study	176	181	O
-,	181	182	O
-we	183	185	O
-will	186	190	O
-use	191	194	O
-unitarity	195	204	B-Process
-bounds	205	211	I-Process
-coming	212	218	O
-from	219	223	O
-a	224	225	O
-tree	226	230	B-Task
--	230	231	I-Task
-level	231	236	I-Task
-analysis	237	245	I-Task
-[	246	247	O
-20	247	249	O
-]	249	250	O
-.	250	251	O
-
-This	252	256	O
-tree	257	261	B-Task
-level	262	267	I-Task
-analysis	268	276	I-Task
-is	277	279	O
-derived	280	287	O
-with	288	292	O
-the	293	296	O
-help	297	301	O
-of	302	304	O
-the	305	308	O
-equivalence	309	320	B-Process
-theorem	321	328	I-Process
-[	329	330	O
-21	330	332	O
-]	332	333	O
-,	333	334	O
-which	335	340	O
-itself	341	347	O
-is	348	350	O
-a	351	352	O
-high	353	357	B-Process
--	357	358	I-Process
-energy	358	364	I-Process
-approximation	365	378	I-Process
-where	379	384	O
-it	385	387	O
-is	388	390	O
-assumed	391	398	O
-that	399	403	O
-the	404	407	O
-energy	408	414	O
-scale	415	420	O
-is	421	423	O
-much	424	428	O
-larger	429	435	O
-than	436	440	O
-the	441	444	O
-Z0	445	447	O
-and	448	451	O
-W±	452	454	O
-gauge	455	460	B-Material
--	460	461	I-Material
-boson	461	466	I-Material
-masses	467	473	I-Material
-.	473	474	O
-
-We	475	477	O
-will	478	482	O
-consider	483	491	O
-here	492	496	O
-this	497	501	O
-“	502	503	O
-high	503	507	O
--	507	508	O
-energy	508	514	O
-”	514	515	O
-hypothesis	516	526	O
-that	527	531	O
-both	532	536	O
-the	537	540	O
-equivalence	541	552	B-Process
-theorem	553	560	I-Process
-and	561	564	O
-the	565	568	O
-decoupling	569	579	B-Process
-regime	580	586	I-Process
-are	587	590	O
-well	591	595	O
-settled	596	603	O
-,	603	604	O
-but	605	608	O
-in	609	611	O
-such	612	616	O
-a	617	618	O
-way	619	622	O
-that	623	627	O
-the	628	631	O
-unitarity	632	641	B-Process
-constraint	642	652	I-Process
-is	653	655	O
-also	656	660	O
-fulfilled	661	670	O
-.	670	671	O
-
-Our	672	675	O
-purpose	676	683	O
-is	684	686	O
-to	687	689	O
-investigate	690	701	B-Task
-the	702	705	I-Task
-quantum	706	713	I-Task
-effects	714	721	I-Task
-in	722	724	I-Task
-the	725	728	I-Task
-decays	729	735	I-Task
-of	736	738	I-Task
-the	739	742	I-Task
-light	743	748	I-Task
-CP	749	751	I-Task
--	751	752	I-Task
-even	752	756	I-Task
-Higgs	757	762	I-Task
-boson	763	768	I-Task
-h0	769	771	I-Task
-,	771	772	O
-especially	773	783	O
-looking	784	791	B-Task
-for	792	795	I-Task
-sizeable	796	804	I-Task
-differences	805	816	I-Task
-with	817	821	I-Task
-respect	822	829	I-Task
-to	830	832	I-Task
-the	833	836	I-Task
-SM	837	839	I-Task
-in	840	842	I-Task
-the	843	846	I-Task
-decoupling	847	857	I-Task
-regime	858	864	I-Task
-.	864	865	O
+Since	0,5	O	O
+perturbative	6,18	O	B-Process
+expansion	19,28	O	I-Process
+is	29,31	O	O
+used	32,36	O	O
+,	36,37	O	O
+it	38,40	O	O
+is	41,43	O	O
+impossible	44,54	O	O
+to	55,57	O	O
+find	58,62	O	O
+the	63,66	O	O
+exact	67,72	O	B-Process
+bounds	73,79	O	I-Process
+;	79,80	O	O
+instead	81,88	O	O
+,	88,89	O	O
+one	90,93	O	O
+can	94,97	O	O
+derive	98,104	O	O
+tree	105,109	O	B-Process
+-	109,110	O	I-Process
+level	110,115	O	I-Process
+unitarity	116,125	O	I-Process
+bounds	126,132	O	I-Process
+or	133,135	O	O
+loop	136,140	O	B-Process
+-	140,141	O	I-Process
+improved	141,149	O	I-Process
+unitarity	150,159	O	I-Process
+bounds	160,166	O	I-Process
+.	166,167	O	O
+
+In	168,170	O	O
+this	171,175	O	O
+study	176,181	O	O
+,	181,182	O	O
+we	183,185	O	O
+will	186,190	O	O
+use	191,194	O	O
+unitarity	195,204	O	B-Process
+bounds	205,211	O	I-Process
+coming	212,218	O	O
+from	219,223	O	O
+a	224,225	O	O
+tree	226,230	O	B-Task
+-	230,231	O	I-Task
+level	231,236	O	I-Task
+analysis	237,245	O	I-Task
+[	246,247	O	O
+20	247,249	O	O
+]	249,250	O	O
+.	250,251	O	O
+
+This	252,256	O	O
+tree	257,261	O	B-Task
+level	262,267	O	I-Task
+analysis	268,276	O	I-Task
+is	277,279	O	O
+derived	280,287	O	O
+with	288,292	O	O
+the	293,296	O	O
+help	297,301	O	O
+of	302,304	O	O
+the	305,308	O	O
+equivalence	309,320	O	B-Process
+theorem	321,328	O	I-Process
+[	329,330	O	O
+21	330,332	O	O
+]	332,333	O	O
+,	333,334	O	O
+which	335,340	O	O
+itself	341,347	O	O
+is	348,350	O	O
+a	351,352	O	O
+high	353,357	O	B-Process
+-	357,358	O	I-Process
+energy	358,364	O	I-Process
+approximation	365,378	O	I-Process
+where	379,384	O	O
+it	385,387	O	O
+is	388,390	O	O
+assumed	391,398	O	O
+that	399,403	O	O
+the	404,407	O	O
+energy	408,414	O	O
+scale	415,420	O	O
+is	421,423	O	O
+much	424,428	O	O
+larger	429,435	O	O
+than	436,440	O	O
+the	441,444	O	O
+Z0	445,447	O	O
+and	448,451	O	O
+W±	452,454	O	O
+gauge	455,460	O	B-Material
+-	460,461	O	I-Material
+boson	461,466	O	I-Material
+masses	467,473	O	I-Material
+.	473,474	O	O
+
+We	475,477	O	O
+will	478,482	O	O
+consider	483,491	O	O
+here	492,496	O	O
+this	497,501	O	O
+“	502,503	O	O
+high	503,507	O	O
+-	507,508	O	O
+energy	508,514	O	O
+”	514,515	O	O
+hypothesis	516,526	O	O
+that	527,531	O	O
+both	532,536	O	O
+the	537,540	O	O
+equivalence	541,552	O	B-Process
+theorem	553,560	O	I-Process
+and	561,564	O	O
+the	565,568	O	O
+decoupling	569,579	O	B-Process
+regime	580,586	O	I-Process
+are	587,590	O	O
+well	591,595	O	O
+settled	596,603	O	O
+,	603,604	O	O
+but	605,608	O	O
+in	609,611	O	O
+such	612,616	O	O
+a	617,618	O	O
+way	619,622	O	O
+that	623,627	O	O
+the	628,631	O	O
+unitarity	632,641	O	B-Process
+constraint	642,652	O	I-Process
+is	653,655	O	O
+also	656,660	O	O
+fulfilled	661,670	O	O
+.	670,671	O	O
+
+Our	672,675	O	O
+purpose	676,683	O	O
+is	684,686	O	O
+to	687,689	O	O
+investigate	690,701	O	B-Task
+the	702,705	O	I-Task
+quantum	706,713	O	I-Task
+effects	714,721	O	I-Task
+in	722,724	O	I-Task
+the	725,728	O	I-Task
+decays	729,735	O	I-Task
+of	736,738	O	I-Task
+the	739,742	O	I-Task
+light	743,748	O	I-Task
+CP	749,751	O	I-Task
+-	751,752	O	I-Task
+even	752,756	O	I-Task
+Higgs	757,762	O	I-Task
+boson	763,768	O	I-Task
+h0	769,771	O	I-Task
+,	771,772	O	O
+especially	773,783	O	O
+looking	784,791	O	B-Task
+for	792,795	O	I-Task
+sizeable	796,804	O	I-Task
+differences	805,816	O	I-Task
+with	817,821	O	I-Task
+respect	822,829	O	I-Task
+to	830,832	O	I-Task
+the	833,836	O	I-Task
+SM	837,839	O	I-Task
+in	840,842	O	I-Task
+the	843,846	O	I-Task
+decoupling	847,857	O	I-Task
+regime	858,864	O	I-Task
+.	864,865	O	O
 
 
 -DOCSTART- (S0370269303017222)
 
-In	0	2	O
-the	3	6	O
-bag	7	10	B-Process
-model	11	16	I-Process
-and	17	20	O
-in	21	23	O
-linear	24	30	O
-or	31	33	O
-harmonic	34	42	O
-oscillator	43	53	B-Process
-confining	54	63	I-Process
-potentials	64	74	I-Process
-,	74	75	O
-the	76	79	O
-first	80	85	O
-excited	86	93	O
-S	94	95	O
--	95	96	O
-state	96	101	O
-lies	102	106	O
-above	107	112	O
-the	113	116	O
-lowest	117	123	O
-P	124	125	O
--	125	126	O
-state	126	131	O
-,	131	132	O
-making	133	139	O
-the	140	143	O
-predicted	144	153	O
-Roper	154	159	O
-mass	160	164	O
-heavier	165	172	O
-than	173	177	O
-the	178	181	O
-lightest	182	190	O
-negative	191	199	O
-parity	200	206	O
-baryon	207	213	O
-mass	214	218	O
-.	218	219	O
-
-Pairwise	220	228	B-Process
-spin	229	233	I-Process
--	233	234	I-Process
-dependent	234	243	I-Process
-interactions	244	256	I-Process
-must	257	261	O
-reverse	262	269	O
-the	270	273	O
-level	274	279	B-Process
-ordering	280	288	I-Process
-.	288	289	O
-
-As	290	292	O
-mentioned	293	302	O
-earlier	303	310	O
-,	310	311	O
-color	312	317	B-Process
--	317	318	I-Process
-spin	318	322	I-Process
-interactions	323	335	I-Process
-fail	336	340	O
-in	341	343	O
-this	344	348	O
-regard	349	355	O
-[	356	357	O
-29	357	359	O
-]	359	360	O
-,	360	361	O
-while	362	367	O
-flavor	368	374	B-Process
--	374	375	I-Process
-spin	375	379	I-Process
-interactions	380	392	I-Process
-produce	393	400	O
-the	401	404	O
-desired	405	412	O
-effect	413	419	O
-.	419	420	O
-
-Since	421	426	O
-the	427	430	O
-q3	431	433	B-Process
-color	434	439	I-Process
-wave	440	444	I-Process
-function	445	453	I-Process
-is	454	456	O
-antisymmetric	457	470	O
-,	470	471	O
-the	472	475	O
-flavor	476	482	B-Process
--	482	483	I-Process
-spin	483	487	I-Process
--	487	488	I-Process
-orbital	488	495	I-Process
-wave	496	500	I-Process
-function	501	509	I-Process
-is	510	512	O
-totally	513	520	O
-symmetric	521	530	O
-.	530	531	O
-
-For	532	535	O
-all	536	539	O
-quarks	540	546	B-Material
-in	547	549	O
-an	550	552	O
-S	553	554	O
--	554	555	O
-state	555	560	O
-,	560	561	O
-the	562	565	O
-flavor	566	572	B-Process
--	572	573	I-Process
-spin	573	577	I-Process
-wave	578	582	I-Process
-function	583	591	I-Process
-is	592	594	O
-totally	595	602	O
-symmetric	603	612	O
-all	613	616	O
-by	617	619	O
-itself	620	626	O
-and	627	630	O
-leads	631	636	O
-to	637	639	O
-the	640	643	O
-most	644	648	O
-attractive	649	659	O
-flavor	660	666	B-Process
--	666	667	I-Process
-spin	667	671	I-Process
-interaction	672	683	I-Process
-.	683	684	O
-
-If	685	687	O
-one	688	691	O
-quark	692	697	B-Material
-is	698	700	O
-in	701	703	O
-a	704	705	O
-P	706	707	O
--	707	708	O
-state	708	713	O
-,	713	714	O
-the	715	718	O
-orbital	719	726	B-Process
-wave	727	731	I-Process
-function	732	740	I-Process
-is	741	743	O
-mixed	744	749	O
-symmetry	750	758	O
-and	759	762	O
-so	763	765	O
-is	766	768	O
-the	769	772	O
-flavor	773	779	B-Process
--	779	780	I-Process
-spin	780	784	I-Process
-wave	785	789	I-Process
-function	790	798	I-Process
-,	798	799	O
-and	800	803	O
-the	804	807	O
-flavor	808	814	B-Process
--	814	815	I-Process
-spin	815	819	I-Process
-interaction	820	831	I-Process
-is	832	834	O
-a	835	836	O
-less	837	841	O
-attractive	842	852	O
-.	852	853	O
-
-In	854	856	O
-the	857	860	O
-SU(3)F	861	867	O
-symmetric	868	877	O
-case	878	882	O
-,	882	883	O
-Eq	884	886	O
-.	886	887	O
-
-(	888	889	O
-1	889	890	O
-)	890	891	O
-,	891	892	O
-one	893	896	O
-obtains	897	904	O
-mass	905	909	B-Process
-splittings	910	920	I-Process
-(	921	922	O
-2)ΔMχ=−14Cχ,N(939),N∗(1440),−4Cχ,Δ(1232),−2Cχ,N∗(1535	922	975	O
-)	975	976	O
-.	976	977	O
-
-Here	978	982	O
-we	983	985	O
-have	986	990	O
-approximated	991	1003	O
-the	1004	1007	O
-N∗(1535	1008	1015	O
-)	1015	1016	O
-as	1017	1019	O
-a	1020	1021	O
-state	1022	1027	O
-with	1028	1032	O
-total	1033	1038	O
-quark	1039	1044	B-Process
-spin-1/2	1045	1053	I-Process
-.	1053	1054	O
+In	0,2	O	O
+the	3,6	O	O
+bag	7,10	O	B-Process
+model	11,16	O	I-Process
+and	17,20	O	O
+in	21,23	O	O
+linear	24,30	O	O
+or	31,33	O	O
+harmonic	34,42	O	O
+oscillator	43,53	O	B-Process
+confining	54,63	O	I-Process
+potentials	64,74	O	I-Process
+,	74,75	O	O
+the	76,79	O	O
+first	80,85	O	O
+excited	86,93	O	O
+S	94,95	O	O
+-	95,96	O	O
+state	96,101	O	O
+lies	102,106	O	O
+above	107,112	O	O
+the	113,116	O	O
+lowest	117,123	O	O
+P	124,125	O	O
+-	125,126	O	O
+state	126,131	O	O
+,	131,132	O	O
+making	133,139	O	O
+the	140,143	O	O
+predicted	144,153	O	O
+Roper	154,159	O	O
+mass	160,164	O	O
+heavier	165,172	O	O
+than	173,177	O	O
+the	178,181	O	O
+lightest	182,190	O	O
+negative	191,199	O	O
+parity	200,206	O	O
+baryon	207,213	O	O
+mass	214,218	O	O
+.	218,219	O	O
+
+Pairwise	220,228	O	B-Process
+spin	229,233	O	I-Process
+-	233,234	O	I-Process
+dependent	234,243	O	I-Process
+interactions	244,256	O	I-Process
+must	257,261	O	O
+reverse	262,269	O	O
+the	270,273	O	O
+level	274,279	O	B-Process
+ordering	280,288	O	I-Process
+.	288,289	O	O
+
+As	290,292	O	O
+mentioned	293,302	O	O
+earlier	303,310	O	O
+,	310,311	O	O
+color	312,317	O	B-Process
+-	317,318	O	I-Process
+spin	318,322	O	I-Process
+interactions	323,335	O	I-Process
+fail	336,340	O	O
+in	341,343	O	O
+this	344,348	O	O
+regard	349,355	O	O
+[	356,357	O	O
+29	357,359	O	O
+]	359,360	O	O
+,	360,361	O	O
+while	362,367	O	O
+flavor	368,374	O	B-Process
+-	374,375	O	I-Process
+spin	375,379	O	I-Process
+interactions	380,392	O	I-Process
+produce	393,400	O	O
+the	401,404	O	O
+desired	405,412	O	O
+effect	413,419	O	O
+.	419,420	O	O
+
+Since	421,426	O	O
+the	427,430	O	O
+q3	431,433	O	B-Process
+color	434,439	O	I-Process
+wave	440,444	O	I-Process
+function	445,453	O	I-Process
+is	454,456	O	O
+antisymmetric	457,470	O	O
+,	470,471	O	O
+the	472,475	O	O
+flavor	476,482	O	B-Process
+-	482,483	O	I-Process
+spin	483,487	O	I-Process
+-	487,488	O	I-Process
+orbital	488,495	O	I-Process
+wave	496,500	O	I-Process
+function	501,509	O	I-Process
+is	510,512	O	O
+totally	513,520	O	O
+symmetric	521,530	O	O
+.	530,531	O	O
+
+For	532,535	O	O
+all	536,539	O	O
+quarks	540,546	O	B-Material
+in	547,549	O	O
+an	550,552	O	O
+S	553,554	O	O
+-	554,555	O	O
+state	555,560	O	O
+,	560,561	O	O
+the	562,565	O	O
+flavor	566,572	O	B-Process
+-	572,573	O	I-Process
+spin	573,577	O	I-Process
+wave	578,582	O	I-Process
+function	583,591	O	I-Process
+is	592,594	O	O
+totally	595,602	O	O
+symmetric	603,612	O	O
+all	613,616	O	O
+by	617,619	O	O
+itself	620,626	O	O
+and	627,630	O	O
+leads	631,636	O	O
+to	637,639	O	O
+the	640,643	O	O
+most	644,648	O	O
+attractive	649,659	O	O
+flavor	660,666	O	B-Process
+-	666,667	O	I-Process
+spin	667,671	O	I-Process
+interaction	672,683	O	I-Process
+.	683,684	O	O
+
+If	685,687	O	O
+one	688,691	O	O
+quark	692,697	O	B-Material
+is	698,700	O	O
+in	701,703	O	O
+a	704,705	O	O
+P	706,707	O	O
+-	707,708	O	O
+state	708,713	O	O
+,	713,714	O	O
+the	715,718	O	O
+orbital	719,726	O	B-Process
+wave	727,731	O	I-Process
+function	732,740	O	I-Process
+is	741,743	O	O
+mixed	744,749	O	O
+symmetry	750,758	O	O
+and	759,762	O	O
+so	763,765	O	O
+is	766,768	O	O
+the	769,772	O	O
+flavor	773,779	O	B-Process
+-	779,780	O	I-Process
+spin	780,784	O	I-Process
+wave	785,789	O	I-Process
+function	790,798	O	I-Process
+,	798,799	O	O
+and	800,803	O	O
+the	804,807	O	O
+flavor	808,814	O	B-Process
+-	814,815	O	I-Process
+spin	815,819	O	I-Process
+interaction	820,831	O	I-Process
+is	832,834	O	O
+a	835,836	O	O
+less	837,841	O	O
+attractive	842,852	O	O
+.	852,853	O	O
+
+In	854,856	O	O
+the	857,860	O	O
+SU(3)F	861,867	O	O
+symmetric	868,877	O	O
+case	878,882	O	O
+,	882,883	O	O
+Eq	884,886	O	O
+.	886,887	O	O
+
+(	888,889	O	O
+1	889,890	O	O
+)	890,891	O	O
+,	891,892	O	O
+one	893,896	O	O
+obtains	897,904	O	O
+mass	905,909	O	B-Process
+splittings	910,920	O	I-Process
+(	921,922	O	O
+2)ΔMχ=−14Cχ,N(939),N∗(1440),−4Cχ,Δ(1232),−2Cχ,N∗(1535	922,975	O	O
+)	975,976	O	O
+.	976,977	O	O
+
+Here	978,982	O	O
+we	983,985	O	O
+have	986,990	O	O
+approximated	991,1003	O	O
+the	1004,1007	O	O
+N∗(1535	1008,1015	O	O
+)	1015,1016	O	O
+as	1017,1019	O	O
+a	1020,1021	O	O
+state	1022,1027	O	O
+with	1028,1032	O	O
+total	1033,1038	O	O
+quark	1039,1044	O	B-Process
+spin-1/2	1045,1053	O	I-Process
+.	1053,1054	O	O
 
 
 -DOCSTART- (S037026930301801X)
 
-The	0	3	O
-measurements	4	16	O
-presented	17	26	O
-here	27	31	O
-provide	32	39	O
-evidence	40	48	O
-for	49	52	O
-the	53	56	O
-existence	57	66	O
-of	67	69	O
-di	70	72	B-Material
--	72	73	I-Material
-cluster	73	80	I-Material
-structures	81	91	I-Material
-in	92	94	O
-10–12,14Be	95	105	O
-.	105	106	O
-
-Certainly	107	116	O
-,	116	117	O
-if	118	120	O
-the	121	124	O
-breakup	125	132	B-Process
-process	133	140	I-Process
-samples	141	148	O
-the	149	152	O
-overlap	153	160	O
-between	161	168	O
-the	169	172	O
-wavefunctions	173	186	B-Process
-of	187	189	I-Process
-the	190	193	I-Process
-ground	194	200	I-Process
-state	201	206	I-Process
-and	207	210	I-Process
-the	211	214	I-Process
-excited	215	222	I-Process
-states	223	229	I-Process
-,	229	230	O
-the	231	234	O
-first	235	240	B-Process
--	240	241	I-Process
-chance	241	247	I-Process
-cluster	248	255	I-Process
-breakup	256	263	I-Process
-cross	264	269	I-Process
--	269	270	I-Process
-sections	270	278	I-Process
-,	278	279	O
-shown	280	285	O
-in	286	288	O
-Fig	289	292	O
-.	292	293	O
-
-4(a	294	297	O
-)	297	298	O
-,	298	299	O
-indicate	300	308	O
-that	309	313	O
-the	314	317	O
-xHe+A−xHe	318	327	B-Material
-cluster	328	335	I-Material
-structure	336	345	I-Material
-does	346	350	O
-not	351	354	O
-decrease	355	363	O
-over	364	368	O
-the	369	372	O
-mass	373	377	O
-range	378	383	O
-A=10	384	388	O
-,	388	389	O
-12	390	392	O
-and	393	396	O
-14	397	399	O
-.	399	400	O
-
-Given	401	406	O
-also	407	411	O
-that	412	416	O
-the	417	420	O
-decay	421	426	B-Process
-energy	427	433	I-Process
-threshold	434	443	O
-increases	444	453	O
-with	454	458	O
-mass	459	463	O
-number	464	470	O
-,	470	471	O
-the	472	475	O
-present	476	483	O
-data	484	488	O
-may	489	492	O
-even	493	497	O
-indicate	498	506	O
-a	507	508	O
-slight	509	515	O
-increase	516	524	O
-in	525	527	O
-clustering	528	538	O
-.	538	539	O
-
-The	540	543	O
-breakup	544	551	B-Process
-cross	552	557	I-Process
--	557	558	I-Process
-sections	558	566	I-Process
-also	567	571	O
-appear	572	578	O
-to	579	581	O
-demonstrate	582	593	O
-that	594	598	O
-these	599	604	O
-nuclei	605	611	B-Material
-possess	612	619	O
-a	620	621	O
-stronger	622	630	O
-structural	631	641	O
-overlap	642	649	O
-with	650	654	O
-an	655	657	O
-α–Xn–α	658	664	O
-configuration	665	678	O
-,	678	679	O
-although	680	688	O
-the	689	692	O
-reaction	693	701	B-Process
-mechanics	702	711	I-Process
-by	712	714	O
-which	715	720	O
-this	721	725	O
-final	726	731	O
-state	732	737	O
-is	738	740	O
-reached	741	748	O
-may	749	752	O
-be	753	755	O
-complex	756	763	O
-.	763	764	O
-
-That	765	769	O
-is	770	772	O
-to	773	775	O
-say	776	779	O
-that	780	784	O
-the	785	788	O
-dominant	789	797	B-Process
-structural	798	808	I-Process
-mode	809	813	I-Process
-of	814	816	O
-the	817	820	O
-neutron	821	828	B-Material
-rich	829	833	I-Material
-isotopes	834	842	I-Material
-may	843	846	O
-be	847	849	O
-identified	850	860	O
-with	861	865	O
-two	866	869	O
-alpha	870	875	B-Material
--	875	876	I-Material
-particles	876	885	I-Material
-plus	886	890	O
-valence	891	898	B-Material
-neutrons	899	907	I-Material
-.	907	908	O
-
-These	909	914	O
-comprehensive	915	928	B-Task
-measurements	929	941	I-Task
-of	942	944	I-Task
-the	945	948	I-Task
-neutron	949	956	I-Task
--	956	957	I-Task
-removal	957	964	I-Task
-and	965	968	I-Task
-cluster	969	976	I-Task
-breakup	977	984	I-Task
-for	985	988	O
-the	989	992	O
-first	993	998	O
-time	999	1003	O
-provide	1004	1011	O
-experimental	1012	1024	O
-data	1025	1029	O
-whereby	1030	1037	O
-the	1038	1041	O
-structure	1042	1051	O
-of	1052	1054	O
-the	1055	1058	O
-most	1059	1063	O
-neutron	1064	1071	B-Material
--	1071	1072	I-Material
-rich	1072	1076	I-Material
-Be	1077	1079	I-Material
-isotopes	1080	1088	I-Material
-can	1089	1092	O
-be	1093	1095	O
-modeled	1096	1103	O
-via	1104	1107	O
-their	1108	1113	O
-reactions	1114	1123	O
-.	1123	1124	O
+The	0,3	O	O
+measurements	4,16	O	O
+presented	17,26	O	O
+here	27,31	O	O
+provide	32,39	O	O
+evidence	40,48	O	O
+for	49,52	O	O
+the	53,56	O	O
+existence	57,66	O	O
+of	67,69	O	O
+di	70,72	O	B-Material
+-	72,73	O	I-Material
+cluster	73,80	O	I-Material
+structures	81,91	O	I-Material
+in	92,94	O	O
+10–12,14Be	95,105	O	O
+.	105,106	O	O
+
+Certainly	107,116	O	O
+,	116,117	O	O
+if	118,120	O	O
+the	121,124	O	O
+breakup	125,132	O	B-Process
+process	133,140	O	I-Process
+samples	141,148	O	O
+the	149,152	O	O
+overlap	153,160	O	O
+between	161,168	O	O
+the	169,172	O	O
+wavefunctions	173,186	O	B-Process
+of	187,189	O	I-Process
+the	190,193	O	I-Process
+ground	194,200	O	I-Process
+state	201,206	O	I-Process
+and	207,210	O	I-Process
+the	211,214	O	I-Process
+excited	215,222	O	I-Process
+states	223,229	O	I-Process
+,	229,230	O	O
+the	231,234	O	O
+first	235,240	O	B-Process
+-	240,241	O	I-Process
+chance	241,247	O	I-Process
+cluster	248,255	O	I-Process
+breakup	256,263	O	I-Process
+cross	264,269	O	I-Process
+-	269,270	O	I-Process
+sections	270,278	O	I-Process
+,	278,279	O	O
+shown	280,285	O	O
+in	286,288	O	O
+Fig	289,292	O	O
+.	292,293	O	O
+
+4(a	294,297	O	O
+)	297,298	O	O
+,	298,299	O	O
+indicate	300,308	O	O
+that	309,313	O	O
+the	314,317	O	O
+xHe+A−xHe	318,327	O	B-Material
+cluster	328,335	O	I-Material
+structure	336,345	O	I-Material
+does	346,350	O	O
+not	351,354	O	O
+decrease	355,363	O	O
+over	364,368	O	O
+the	369,372	O	O
+mass	373,377	O	O
+range	378,383	O	O
+A=10	384,388	O	O
+,	388,389	O	O
+12	390,392	O	O
+and	393,396	O	O
+14	397,399	O	O
+.	399,400	O	O
+
+Given	401,406	O	O
+also	407,411	O	O
+that	412,416	O	O
+the	417,420	O	O
+decay	421,426	O	B-Process
+energy	427,433	O	I-Process
+threshold	434,443	O	O
+increases	444,453	O	O
+with	454,458	O	O
+mass	459,463	O	O
+number	464,470	O	O
+,	470,471	O	O
+the	472,475	O	O
+present	476,483	O	O
+data	484,488	O	O
+may	489,492	O	O
+even	493,497	O	O
+indicate	498,506	O	O
+a	507,508	O	O
+slight	509,515	O	O
+increase	516,524	O	O
+in	525,527	O	O
+clustering	528,538	O	O
+.	538,539	O	O
+
+The	540,543	O	O
+breakup	544,551	O	B-Process
+cross	552,557	O	I-Process
+-	557,558	O	I-Process
+sections	558,566	O	I-Process
+also	567,571	O	O
+appear	572,578	O	O
+to	579,581	O	O
+demonstrate	582,593	O	O
+that	594,598	O	O
+these	599,604	O	O
+nuclei	605,611	O	B-Material
+possess	612,619	O	O
+a	620,621	O	O
+stronger	622,630	O	O
+structural	631,641	O	O
+overlap	642,649	O	O
+with	650,654	O	O
+an	655,657	O	O
+α–Xn–α	658,664	O	O
+configuration	665,678	O	O
+,	678,679	O	O
+although	680,688	O	O
+the	689,692	O	O
+reaction	693,701	O	B-Process
+mechanics	702,711	O	I-Process
+by	712,714	O	O
+which	715,720	O	O
+this	721,725	O	O
+final	726,731	O	O
+state	732,737	O	O
+is	738,740	O	O
+reached	741,748	O	O
+may	749,752	O	O
+be	753,755	O	O
+complex	756,763	O	O
+.	763,764	O	O
+
+That	765,769	O	O
+is	770,772	O	O
+to	773,775	O	O
+say	776,779	O	O
+that	780,784	O	O
+the	785,788	O	O
+dominant	789,797	O	B-Process
+structural	798,808	O	I-Process
+mode	809,813	O	I-Process
+of	814,816	O	O
+the	817,820	O	O
+neutron	821,828	O	B-Material
+rich	829,833	O	I-Material
+isotopes	834,842	O	I-Material
+may	843,846	O	O
+be	847,849	O	O
+identified	850,860	O	O
+with	861,865	O	O
+two	866,869	O	O
+alpha	870,875	O	B-Material
+-	875,876	O	I-Material
+particles	876,885	O	I-Material
+plus	886,890	O	O
+valence	891,898	O	B-Material
+neutrons	899,907	O	I-Material
+.	907,908	O	O
+
+These	909,914	O	O
+comprehensive	915,928	O	B-Task
+measurements	929,941	O	I-Task
+of	942,944	O	I-Task
+the	945,948	O	I-Task
+neutron	949,956	O	I-Task
+-	956,957	O	I-Task
+removal	957,964	O	I-Task
+and	965,968	O	I-Task
+cluster	969,976	O	I-Task
+breakup	977,984	O	I-Task
+for	985,988	O	O
+the	989,992	O	O
+first	993,998	O	O
+time	999,1003	O	O
+provide	1004,1011	O	O
+experimental	1012,1024	O	O
+data	1025,1029	O	O
+whereby	1030,1037	O	O
+the	1038,1041	O	O
+structure	1042,1051	O	O
+of	1052,1054	O	O
+the	1055,1058	O	O
+most	1059,1063	O	O
+neutron	1064,1071	O	B-Material
+-	1071,1072	O	I-Material
+rich	1072,1076	O	I-Material
+Be	1077,1079	O	I-Material
+isotopes	1080,1088	O	I-Material
+can	1089,1092	O	O
+be	1093,1095	O	O
+modeled	1096,1103	O	O
+via	1104,1107	O	O
+their	1108,1113	O	O
+reactions	1114,1123	O	O
+.	1123,1124	O	O
 
 
 -DOCSTART- (S0370269304005829)
 
-Let	0	3	O
-us	4	6	O
-now	7	10	O
-consider	11	19	O
-the	20	23	O
-case	24	28	O
-of	29	31	O
-a	32	33	O
-beta	34	38	B-Material
--	38	39	I-Material
-beam	39	43	I-Material
-source	44	50	I-Material
-.	50	51	O
-
-Similarly	52	61	O
-to	62	64	O
-the	65	68	O
-case	69	73	O
-of	74	76	O
-a	77	78	O
-static	79	85	B-Material
-tritium	86	93	I-Material
-source	94	100	I-Material
-,	100	101	O
-an	102	104	O
-advantage	105	114	O
-of	115	117	O
-the	118	121	O
-beta	122	126	B-Process
--	126	127	I-Process
-beams	127	132	I-Process
-is	133	135	O
-that	136	140	O
-the	141	144	O
-neutrino	145	153	B-Process
-fluxes	154	160	I-Process
-can	161	164	O
-be	165	167	O
-very	168	172	O
-accurately	173	183	O
-calculated	184	194	O
-.	194	195	O
-
-Fig	196	199	O
-.	199	200	O
-
-3	201	202	O
-shows	203	208	O
-the	209	212	O
-electron	213	221	B-Process
-–	221	222	I-Process
-neutrino	222	230	I-Process
-scattering	231	241	I-Process
-events	242	248	O
-in	249	251	O
-the	252	255	O
-range	256	261	O
-of	262	264	O
-0.1	265	268	O
-MeV	269	272	O
-to	273	275	O
-1	276	277	O
-MeV	278	281	O
-and	282	285	O
-1	286	287	O
-keV	288	291	O
-to	292	294	O
-10	295	297	O
-keV	298	301	O
-,	301	302	O
-respectively	303	315	O
-.	315	316	O
-
-(	317	318	O
-In	318	320	O
-Fig	321	324	O
-.	324	325	O
-
-3(b	326	329	O
-)	329	330	O
-
-we	331	333	O
-have	334	338	O
-rounded	339	346	O
-to	347	349	O
-the	350	353	O
-nearest	354	361	O
-integer	362	369	O
-number	370	376	O
-of	377	379	O
-counts	380	386	O
-.	386	387	O
-)	387	388	O
-
-The	389	392	O
-shape	393	398	O
-of	399	401	O
-the	402	405	O
-flux	406	410	O
--	410	411	O
-averaged	411	419	O
-cross	420	425	O
-sections	426	434	O
-is	435	437	O
-very	438	442	O
-similar	443	450	O
-to	451	453	O
-the	454	457	O
-reactor	458	465	B-Material
-case	466	470	I-Material
-as	471	473	O
-reflected	474	483	O
-in	484	486	O
-the	487	490	O
-event	491	496	O
-rates	497	502	O
-shown	503	508	O
-in	509	511	O
-the	512	515	O
-figures	516	523	O
-.	523	524	O
-
-As	525	527	O
-can	528	531	O
-be	532	534	O
-seen	535	539	O
-,	539	540	O
-by	541	543	O
-measuring	544	553	O
-electron	554	562	B-Material
-recoils	563	570	I-Material
-in	571	573	O
-the	574	577	O
-keV	578	581	O
-range	582	587	O
-with	588	592	O
-a	593	594	O
-beta	595	599	B-Material
--	599	600	I-Material
-beam	600	604	I-Material
-source	605	611	I-Material
-one	612	615	O
-could	616	621	O
-,	621	622	O
-with	623	627	O
-a	628	629	O
-sufficiently	630	642	O
-strong	643	649	O
-source	650	656	O
-,	656	657	O
-have	658	662	O
-a	663	664	O
-very	665	669	O
-clear	670	675	O
-signature	676	685	O
-for	686	689	O
-a	690	691	O
-neutrino	692	700	B-Process
-magnetic	701	709	I-Process
-moment	710	716	I-Process
-of	717	719	O
-5×10−11μB.	720	730	O
-
-These	731	736	O
-figures	737	744	O
-are	745	748	O
-for	749	752	O
-Helium-6	753	761	B-Material
-ions	762	766	I-Material
-,	766	767	O
-however	768	775	O
-,	775	776	O
-similar	777	784	O
-results	785	792	O
-can	793	796	O
-be	797	799	O
-obtained	800	808	O
-using	809	814	O
-neutrinos	815	824	B-Material
-from	825	829	O
-18Ne	830	834	O
-.	834	835	O
-
-The	836	839	O
-results	840	847	O
-shown	848	853	O
-are	854	857	O
-obtained	858	866	O
-for	867	870	O
-an	871	873	O
-intensity	874	883	O
-of	884	886	O
-1015	887	891	O
-ν/s	892	895	O
-(	896	897	O
-i.e.	897	901	O
-,	901	902	O
-1015	903	907	O
-ions	909	913	O
-/	913	914	O
-s	914	915	O
-)	915	916	O
-.	916	917	O
-
-If	918	920	O
-there	921	926	O
-is	927	929	O
-no	930	932	O
-magnetic	933	941	O
-moment	942	948	O
-,	948	949	O
-this	950	954	O
-intensity	955	964	O
-will	965	969	O
-produce	970	977	O
-about	978	983	O
-170	984	987	O
-events	988	994	O
-in	995	997	O
-the	998	1001	O
-0.1	1002	1005	O
-MeV	1006	1009	O
-to	1010	1012	O
-1	1013	1014	O
-MeV	1015	1018	O
-range	1019	1024	O
-per	1025	1028	O
-year	1029	1033	O
-and	1034	1037	O
-3	1038	1039	O
-events	1040	1046	O
-in	1047	1049	O
-the	1050	1053	O
-1	1054	1055	O
-keV	1056	1059	O
-to	1060	1062	O
-10	1063	1065	O
-keV	1066	1069	O
-range	1070	1075	O
-per	1076	1079	O
-year	1080	1084	O
-.	1084	1085	O
-
-These	1086	1091	O
-numbers	1092	1099	O
-increase	1100	1108	O
-to	1109	1111	O
-210	1112	1115	O
-and	1116	1119	O
-55	1120	1122	O
-,	1122	1123	O
-respectively	1124	1136	O
-,	1136	1137	O
-in	1138	1140	O
-the	1141	1144	O
-case	1145	1149	O
-of	1150	1152	O
-a	1153	1154	O
-magnetic	1155	1163	O
-moment	1164	1170	O
-of	1171	1173	O
-5×10−11μB.	1174	1184	O
+Let	0,3	O	O
+us	4,6	O	O
+now	7,10	O	O
+consider	11,19	O	O
+the	20,23	O	O
+case	24,28	O	O
+of	29,31	O	O
+a	32,33	O	O
+beta	34,38	O	B-Material
+-	38,39	O	I-Material
+beam	39,43	O	I-Material
+source	44,50	O	I-Material
+.	50,51	O	O
+
+Similarly	52,61	O	O
+to	62,64	O	O
+the	65,68	O	O
+case	69,73	O	O
+of	74,76	O	O
+a	77,78	O	O
+static	79,85	O	B-Material
+tritium	86,93	O	I-Material
+source	94,100	O	I-Material
+,	100,101	O	O
+an	102,104	O	O
+advantage	105,114	O	O
+of	115,117	O	O
+the	118,121	O	O
+beta	122,126	O	B-Process
+-	126,127	O	I-Process
+beams	127,132	O	I-Process
+is	133,135	O	O
+that	136,140	O	O
+the	141,144	O	O
+neutrino	145,153	O	B-Process
+fluxes	154,160	O	I-Process
+can	161,164	O	O
+be	165,167	O	O
+very	168,172	O	O
+accurately	173,183	O	O
+calculated	184,194	O	O
+.	194,195	O	O
+
+Fig	196,199	O	O
+.	199,200	O	O
+
+3	201,202	O	O
+shows	203,208	O	O
+the	209,212	O	O
+electron	213,221	O	B-Process
+–	221,222	O	I-Process
+neutrino	222,230	O	I-Process
+scattering	231,241	O	I-Process
+events	242,248	O	O
+in	249,251	O	O
+the	252,255	O	O
+range	256,261	O	O
+of	262,264	O	O
+0.1	265,268	O	O
+MeV	269,272	O	O
+to	273,275	O	O
+1	276,277	O	O
+MeV	278,281	O	O
+and	282,285	O	O
+1	286,287	O	O
+keV	288,291	O	O
+to	292,294	O	O
+10	295,297	O	O
+keV	298,301	O	O
+,	301,302	O	O
+respectively	303,315	O	O
+.	315,316	O	O
+
+(	317,318	O	O
+In	318,320	O	O
+Fig	321,324	O	O
+.	324,325	O	O
+
+3(b	326,329	O	O
+)	329,330	O	O
+
+we	331,333	O	O
+have	334,338	O	O
+rounded	339,346	O	O
+to	347,349	O	O
+the	350,353	O	O
+nearest	354,361	O	O
+integer	362,369	O	O
+number	370,376	O	O
+of	377,379	O	O
+counts	380,386	O	O
+.	386,387	O	O
+)	387,388	O	O
+
+The	389,392	O	O
+shape	393,398	O	O
+of	399,401	O	O
+the	402,405	O	O
+flux	406,410	O	O
+-	410,411	O	O
+averaged	411,419	O	O
+cross	420,425	O	O
+sections	426,434	O	O
+is	435,437	O	O
+very	438,442	O	O
+similar	443,450	O	O
+to	451,453	O	O
+the	454,457	O	O
+reactor	458,465	O	B-Material
+case	466,470	O	I-Material
+as	471,473	O	O
+reflected	474,483	O	O
+in	484,486	O	O
+the	487,490	O	O
+event	491,496	O	O
+rates	497,502	O	O
+shown	503,508	O	O
+in	509,511	O	O
+the	512,515	O	O
+figures	516,523	O	O
+.	523,524	O	O
+
+As	525,527	O	O
+can	528,531	O	O
+be	532,534	O	O
+seen	535,539	O	O
+,	539,540	O	O
+by	541,543	O	O
+measuring	544,553	O	O
+electron	554,562	O	B-Material
+recoils	563,570	O	I-Material
+in	571,573	O	O
+the	574,577	O	O
+keV	578,581	O	O
+range	582,587	O	O
+with	588,592	O	O
+a	593,594	O	O
+beta	595,599	O	B-Material
+-	599,600	O	I-Material
+beam	600,604	O	I-Material
+source	605,611	O	I-Material
+one	612,615	O	O
+could	616,621	O	O
+,	621,622	O	O
+with	623,627	O	O
+a	628,629	O	O
+sufficiently	630,642	O	O
+strong	643,649	O	O
+source	650,656	O	O
+,	656,657	O	O
+have	658,662	O	O
+a	663,664	O	O
+very	665,669	O	O
+clear	670,675	O	O
+signature	676,685	O	O
+for	686,689	O	O
+a	690,691	O	O
+neutrino	692,700	O	B-Process
+magnetic	701,709	O	I-Process
+moment	710,716	O	I-Process
+of	717,719	O	O
+5×10−11μB.	720,730	O	O
+
+These	731,736	O	O
+figures	737,744	O	O
+are	745,748	O	O
+for	749,752	O	O
+Helium-6	753,761	O	B-Material
+ions	762,766	O	I-Material
+,	766,767	O	O
+however	768,775	O	O
+,	775,776	O	O
+similar	777,784	O	O
+results	785,792	O	O
+can	793,796	O	O
+be	797,799	O	O
+obtained	800,808	O	O
+using	809,814	O	O
+neutrinos	815,824	O	B-Material
+from	825,829	O	O
+18Ne	830,834	O	O
+.	834,835	O	O
+
+The	836,839	O	O
+results	840,847	O	O
+shown	848,853	O	O
+are	854,857	O	O
+obtained	858,866	O	O
+for	867,870	O	O
+an	871,873	O	O
+intensity	874,883	O	O
+of	884,886	O	O
+1015	887,891	O	O
+ν/s	892,895	O	O
+(	896,897	O	O
+i.e.	897,901	O	O
+,	901,902	O	O
+1015	903,907	O	O
+ions	909,913	O	O
+/	913,914	O	O
+s	914,915	O	O
+)	915,916	O	O
+.	916,917	O	O
+
+If	918,920	O	O
+there	921,926	O	O
+is	927,929	O	O
+no	930,932	O	O
+magnetic	933,941	O	O
+moment	942,948	O	O
+,	948,949	O	O
+this	950,954	O	O
+intensity	955,964	O	O
+will	965,969	O	O
+produce	970,977	O	O
+about	978,983	O	O
+170	984,987	O	O
+events	988,994	O	O
+in	995,997	O	O
+the	998,1001	O	O
+0.1	1002,1005	O	O
+MeV	1006,1009	O	O
+to	1010,1012	O	O
+1	1013,1014	O	O
+MeV	1015,1018	O	O
+range	1019,1024	O	O
+per	1025,1028	O	O
+year	1029,1033	O	O
+and	1034,1037	O	O
+3	1038,1039	O	O
+events	1040,1046	O	O
+in	1047,1049	O	O
+the	1050,1053	O	O
+1	1054,1055	O	O
+keV	1056,1059	O	O
+to	1060,1062	O	O
+10	1063,1065	O	O
+keV	1066,1069	O	O
+range	1070,1075	O	O
+per	1076,1079	O	O
+year	1080,1084	O	O
+.	1084,1085	O	O
+
+These	1086,1091	O	O
+numbers	1092,1099	O	O
+increase	1100,1108	O	O
+to	1109,1111	O	O
+210	1112,1115	O	O
+and	1116,1119	O	O
+55	1120,1122	O	O
+,	1122,1123	O	O
+respectively	1124,1136	O	O
+,	1136,1137	O	O
+in	1138,1140	O	O
+the	1141,1144	O	O
+case	1145,1149	O	O
+of	1150,1152	O	O
+a	1153,1154	O	O
+magnetic	1155,1163	O	O
+moment	1164,1170	O	O
+of	1171,1173	O	O
+5×10−11μB.	1174,1184	O	O
 
 
 -DOCSTART- (S0370269304007567)
 
-Each	0	4	O
-hit	5	8	O
-position	9	17	O
-inside	18	24	O
-the	25	28	O
-drift	29	34	B-Material
-chambers	35	43	I-Material
-was	44	47	O
-calculated	48	58	O
-from	59	63	O
-the	64	67	O
-drift	68	73	O
-time	74	78	O
-digitized	79	88	O
-by	89	91	O
-a	92	93	O
-flash	94	99	B-Material
-analog	100	106	I-Material
--	106	107	I-Material
-to	107	109	I-Material
--	109	110	I-Material
-digital	110	117	I-Material
-converter	118	127	I-Material
-.	127	128	O
-
-The	129	132	O
-calculation	133	144	O
-was	145	148	O
-carried	149	156	O
-out	157	160	O
-based	161	166	O
-on	167	169	O
-a	170	171	O
-relation	172	180	B-Process
-between	181	188	I-Process
-the	189	192	I-Process
-hit	193	196	I-Process
-position	197	205	I-Process
-and	206	209	I-Process
-the	210	213	I-Process
-drift	214	219	I-Process
-time	220	224	I-Process
-(	225	226	O
-x	226	227	B-Process
-–	227	228	I-Process
-t	228	229	I-Process
-relation	230	238	I-Process
-)	238	239	O
-.	239	240	O
-
-The	241	244	O
-x	245	246	B-Process
-–	246	247	I-Process
-t	247	248	I-Process
-relation	249	257	I-Process
-was	258	261	O
-precisely	262	271	O
-calculated	272	282	O
-by	283	285	O
-a	286	287	O
-drift	288	293	B-Material
-chamber	294	301	I-Material
-simulation	302	312	I-Material
-package	313	320	I-Material
-,	320	321	O
-GARFIELD	322	330	B-Material
-[	331	332	O
-20	332	334	O
-]	334	335	O
-,	335	336	O
-and	337	340	O
-a	341	342	O
-gas	343	346	B-Material
-property	347	355	I-Material
-simulation	356	366	I-Material
-package	367	374	I-Material
-,	374	375	O
-MAGBOLTZ	376	384	B-Material
-[	385	386	O
-21	386	388	O
-]	388	389	O
-.	389	390	O
-
-Although	391	399	O
-the	400	403	O
-chambers	404	412	B-Material
-were	413	417	O
-constructed	418	429	O
-carefully	430	439	O
-with	440	444	O
-a	445	446	O
-tolerance	447	456	O
-of	457	459	O
-100	460	463	O
-μm	464	466	O
-,	466	467	O
-there	468	473	O
-was	474	477	O
-a	478	479	O
-small	480	485	O
-position	486	494	O
-deviation	495	504	O
-of	505	507	O
-wires	508	513	O
-and	514	517	O
-field	518	523	O
--	523	524	O
-shaping	524	531	O
-patterns	532	540	O
-,	540	541	O
-which	542	547	O
-could	548	553	O
-locally	554	561	O
-modify	562	568	O
-the	569	572	O
-electric	573	581	O
-field	582	587	O
-.	587	588	O
-
-In	589	591	O
-order	592	597	O
-to	598	600	O
-take	601	605	O
-account	606	613	O
-of	614	616	O
-the	617	620	O
-limited	621	628	O
-accuracy	629	637	O
-in	638	640	O
-the	641	644	O
-chamber	645	652	O
-manufacturing	653	666	O
-,	666	667	O
-a	668	669	O
-correction	670	680	O
-was	681	684	O
-commonly	685	693	O
-applied	694	701	O
-to	702	704	O
-the	705	708	O
-calculated	709	719	O
-x	720	721	B-Process
-–	721	722	I-Process
-t	722	723	I-Process
-relation	724	732	I-Process
-throughout	733	743	O
-the	744	747	O
-experiments	748	759	O
-.	759	760	O
-
-The	761	764	O
-correction	765	775	O
-was	776	779	O
-obtained	780	788	O
-to	789	791	O
-minimize	792	800	O
-the	801	804	O
-χ2	805	807	O
-in	808	810	O
-the	811	814	O
-fitting	815	822	O
-of	823	825	O
-straight	826	834	O
-tracks	835	841	O
-of	842	844	O
-clean	845	850	O
-muon	851	855	O
-events	856	862	O
-observed	863	871	O
-on	872	874	O
-the	875	878	O
-ground	879	885	O
-without	886	893	O
-magnetic	894	902	B-Process
-field	903	908	I-Process
-.	908	909	O
-
-The	910	913	O
-correction	914	924	O
-was	925	928	O
-as	929	931	O
-small	932	937	O
-as	938	940	O
-expected	941	949	O
-from	950	954	O
-the	955	958	O
-accuracy	959	967	O
-in	968	970	O
-the	971	974	O
-chamber	975	982	B-Process
-manufacturing	983	996	I-Process
-.	996	997	O
-
-During	998	1004	O
-the	1005	1008	O
-observations	1009	1021	O
-,	1021	1022	O
-the	1023	1026	O
-x	1027	1028	B-Process
-–	1028	1029	I-Process
-t	1029	1030	I-Process
-relation	1031	1039	I-Process
-was	1040	1043	O
-affected	1044	1052	O
-by	1053	1055	O
-the	1056	1059	O
-variation	1060	1069	O
-in	1070	1072	O
-the	1073	1076	O
-pressure	1077	1085	O
-and	1086	1089	O
-temperature	1090	1101	O
-of	1102	1104	O
-the	1105	1108	O
-chamber	1109	1116	B-Material
-gas	1117	1120	I-Material
-.	1120	1121	O
-
-In	1122	1124	O
-order	1125	1130	O
-to	1131	1133	O
-take	1134	1138	O
-account	1139	1146	O
-of	1147	1149	O
-these	1150	1155	O
-time	1156	1160	O
--	1160	1161	O
-dependent	1161	1170	O
-variations	1171	1181	O
-,	1181	1182	O
-the	1183	1186	O
-x	1187	1188	B-Process
-–	1188	1189	I-Process
-t	1189	1190	I-Process
-relation	1191	1199	I-Process
-was	1200	1203	O
-calibrated	1204	1214	O
-for	1215	1218	O
-each	1219	1223	O
-data	1224	1228	O
--	1228	1229	O
-taking	1229	1235	O
-run	1236	1239	O
-.	1239	1240	O
-
-Especially	1241	1251	O
-in	1252	1254	O
-calibrating	1255	1266	O
-the	1267	1270	O
-x	1271	1272	B-Process
-–	1272	1273	I-Process
-t	1273	1274	I-Process
-relation	1275	1283	I-Process
-of	1284	1286	O
-ODCs	1287	1291	B-Material
-,	1291	1292	O
-an	1293	1295	O
-absolute	1296	1304	O
-reference	1305	1314	O
-positions	1315	1324	O
-were	1325	1329	O
-provided	1330	1338	O
-by	1339	1341	O
-SciFi	1342	1347	O
-,	1347	1348	O
-which	1349	1354	O
-are	1355	1358	O
-not	1359	1362	O
-affected	1363	1371	O
-by	1372	1374	O
-the	1375	1378	O
-variation	1379	1388	O
-in	1389	1391	O
-the	1392	1395	O
-pressure	1396	1404	O
-nor	1405	1408	O
-temperature	1409	1420	O
-.	1420	1421	O
+Each	0,4	O	O
+hit	5,8	O	O
+position	9,17	O	O
+inside	18,24	O	O
+the	25,28	O	O
+drift	29,34	O	B-Material
+chambers	35,43	O	I-Material
+was	44,47	O	O
+calculated	48,58	O	O
+from	59,63	O	O
+the	64,67	O	O
+drift	68,73	O	O
+time	74,78	O	O
+digitized	79,88	O	O
+by	89,91	O	O
+a	92,93	O	O
+flash	94,99	O	B-Material
+analog	100,106	O	I-Material
+-	106,107	O	I-Material
+to	107,109	O	I-Material
+-	109,110	O	I-Material
+digital	110,117	O	I-Material
+converter	118,127	O	I-Material
+.	127,128	O	O
+
+The	129,132	O	O
+calculation	133,144	O	O
+was	145,148	O	O
+carried	149,156	O	O
+out	157,160	O	O
+based	161,166	O	O
+on	167,169	O	O
+a	170,171	O	O
+relation	172,180	O	B-Process
+between	181,188	O	I-Process
+the	189,192	O	I-Process
+hit	193,196	O	I-Process
+position	197,205	O	I-Process
+and	206,209	O	I-Process
+the	210,213	O	I-Process
+drift	214,219	O	I-Process
+time	220,224	O	I-Process
+(	225,226	O	O
+x	226,227	O	B-Process
+–	227,228	O	I-Process
+t	228,229	O	I-Process
+relation	230,238	O	I-Process
+)	238,239	O	O
+.	239,240	O	O
+
+The	241,244	O	O
+x	245,246	O	B-Process
+–	246,247	O	I-Process
+t	247,248	O	I-Process
+relation	249,257	O	I-Process
+was	258,261	O	O
+precisely	262,271	O	O
+calculated	272,282	O	O
+by	283,285	O	O
+a	286,287	O	O
+drift	288,293	O	B-Material
+chamber	294,301	O	I-Material
+simulation	302,312	O	I-Material
+package	313,320	O	I-Material
+,	320,321	O	O
+GARFIELD	322,330	O	B-Material
+[	331,332	O	O
+20	332,334	O	O
+]	334,335	O	O
+,	335,336	O	O
+and	337,340	O	O
+a	341,342	O	O
+gas	343,346	O	B-Material
+property	347,355	O	I-Material
+simulation	356,366	O	I-Material
+package	367,374	O	I-Material
+,	374,375	O	O
+MAGBOLTZ	376,384	O	B-Material
+[	385,386	O	O
+21	386,388	O	O
+]	388,389	O	O
+.	389,390	O	O
+
+Although	391,399	O	O
+the	400,403	O	O
+chambers	404,412	O	B-Material
+were	413,417	O	O
+constructed	418,429	O	O
+carefully	430,439	O	O
+with	440,444	O	O
+a	445,446	O	O
+tolerance	447,456	O	O
+of	457,459	O	O
+100	460,463	O	O
+μm	464,466	O	O
+,	466,467	O	O
+there	468,473	O	O
+was	474,477	O	O
+a	478,479	O	O
+small	480,485	O	O
+position	486,494	O	O
+deviation	495,504	O	O
+of	505,507	O	O
+wires	508,513	O	O
+and	514,517	O	O
+field	518,523	O	O
+-	523,524	O	O
+shaping	524,531	O	O
+patterns	532,540	O	O
+,	540,541	O	O
+which	542,547	O	O
+could	548,553	O	O
+locally	554,561	O	O
+modify	562,568	O	O
+the	569,572	O	O
+electric	573,581	O	O
+field	582,587	O	O
+.	587,588	O	O
+
+In	589,591	O	O
+order	592,597	O	O
+to	598,600	O	O
+take	601,605	O	O
+account	606,613	O	O
+of	614,616	O	O
+the	617,620	O	O
+limited	621,628	O	O
+accuracy	629,637	O	O
+in	638,640	O	O
+the	641,644	O	O
+chamber	645,652	O	O
+manufacturing	653,666	O	O
+,	666,667	O	O
+a	668,669	O	O
+correction	670,680	O	O
+was	681,684	O	O
+commonly	685,693	O	O
+applied	694,701	O	O
+to	702,704	O	O
+the	705,708	O	O
+calculated	709,719	O	O
+x	720,721	O	B-Process
+–	721,722	O	I-Process
+t	722,723	O	I-Process
+relation	724,732	O	I-Process
+throughout	733,743	O	O
+the	744,747	O	O
+experiments	748,759	O	O
+.	759,760	O	O
+
+The	761,764	O	O
+correction	765,775	O	O
+was	776,779	O	O
+obtained	780,788	O	O
+to	789,791	O	O
+minimize	792,800	O	O
+the	801,804	O	O
+χ2	805,807	O	O
+in	808,810	O	O
+the	811,814	O	O
+fitting	815,822	O	O
+of	823,825	O	O
+straight	826,834	O	O
+tracks	835,841	O	O
+of	842,844	O	O
+clean	845,850	O	O
+muon	851,855	O	O
+events	856,862	O	O
+observed	863,871	O	O
+on	872,874	O	O
+the	875,878	O	O
+ground	879,885	O	O
+without	886,893	O	O
+magnetic	894,902	O	B-Process
+field	903,908	O	I-Process
+.	908,909	O	O
+
+The	910,913	O	O
+correction	914,924	O	O
+was	925,928	O	O
+as	929,931	O	O
+small	932,937	O	O
+as	938,940	O	O
+expected	941,949	O	O
+from	950,954	O	O
+the	955,958	O	O
+accuracy	959,967	O	O
+in	968,970	O	O
+the	971,974	O	O
+chamber	975,982	O	B-Process
+manufacturing	983,996	O	I-Process
+.	996,997	O	O
+
+During	998,1004	O	O
+the	1005,1008	O	O
+observations	1009,1021	O	O
+,	1021,1022	O	O
+the	1023,1026	O	O
+x	1027,1028	O	B-Process
+–	1028,1029	O	I-Process
+t	1029,1030	O	I-Process
+relation	1031,1039	O	I-Process
+was	1040,1043	O	O
+affected	1044,1052	O	O
+by	1053,1055	O	O
+the	1056,1059	O	O
+variation	1060,1069	O	O
+in	1070,1072	O	O
+the	1073,1076	O	O
+pressure	1077,1085	O	O
+and	1086,1089	O	O
+temperature	1090,1101	O	O
+of	1102,1104	O	O
+the	1105,1108	O	O
+chamber	1109,1116	O	B-Material
+gas	1117,1120	O	I-Material
+.	1120,1121	O	O
+
+In	1122,1124	O	O
+order	1125,1130	O	O
+to	1131,1133	O	O
+take	1134,1138	O	O
+account	1139,1146	O	O
+of	1147,1149	O	O
+these	1150,1155	O	O
+time	1156,1160	O	O
+-	1160,1161	O	O
+dependent	1161,1170	O	O
+variations	1171,1181	O	O
+,	1181,1182	O	O
+the	1183,1186	O	O
+x	1187,1188	O	B-Process
+–	1188,1189	O	I-Process
+t	1189,1190	O	I-Process
+relation	1191,1199	O	I-Process
+was	1200,1203	O	O
+calibrated	1204,1214	O	O
+for	1215,1218	O	O
+each	1219,1223	O	O
+data	1224,1228	O	O
+-	1228,1229	O	O
+taking	1229,1235	O	O
+run	1236,1239	O	O
+.	1239,1240	O	O
+
+Especially	1241,1251	O	O
+in	1252,1254	O	O
+calibrating	1255,1266	O	O
+the	1267,1270	O	O
+x	1271,1272	O	B-Process
+–	1272,1273	O	I-Process
+t	1273,1274	O	I-Process
+relation	1275,1283	O	I-Process
+of	1284,1286	O	O
+ODCs	1287,1291	O	B-Material
+,	1291,1292	O	O
+an	1293,1295	O	O
+absolute	1296,1304	O	O
+reference	1305,1314	O	O
+positions	1315,1324	O	O
+were	1325,1329	O	O
+provided	1330,1338	O	O
+by	1339,1341	O	O
+SciFi	1342,1347	O	O
+,	1347,1348	O	O
+which	1349,1354	O	O
+are	1355,1358	O	O
+not	1359,1362	O	O
+affected	1363,1371	O	O
+by	1372,1374	O	O
+the	1375,1378	O	O
+variation	1379,1388	O	O
+in	1389,1391	O	O
+the	1392,1395	O	O
+pressure	1396,1404	O	O
+nor	1405,1408	O	O
+temperature	1409,1420	O	O
+.	1420,1421	O	O
 
 
 -DOCSTART- (S0370269304007816)
 
-We	0	2	O
-define	3	9	B-Task
-a	10	11	I-Task
-new	12	15	I-Task
-multispecies	16	28	I-Task
-model	29	34	I-Task
-of	35	37	I-Task
-Calogero	38	46	I-Task
-type	47	51	I-Task
-in	52	54	I-Task
-D	55	56	I-Task
-dimensions	57	67	I-Task
-with	68	72	O
-harmonic	73	81	B-Process
-,	81	82	I-Process
-two	83	86	I-Process
--	86	87	I-Process
-body	87	91	I-Process
-and	92	95	I-Process
-three	96	101	I-Process
--	101	102	I-Process
-body	102	106	I-Process
-interactions	107	119	I-Process
-.	119	120	O
-
-Using	121	126	O
-the	127	130	O
-underlying	131	141	O
-conformal	142	151	B-Process
-SU(1,1	152	158	I-Process
-)	158	159	I-Process
-algebra	160	167	I-Process
-,	167	168	O
-we	169	171	O
-indicate	172	180	O
-how	181	184	O
-to	185	187	O
-find	188	192	O
-the	193	196	O
-complete	197	205	O
-set	206	209	O
-of	210	212	O
-the	213	216	O
-states	217	223	O
-in	224	226	O
-Bargmann	227	235	O
-–	235	236	O
-Fock	236	240	O
-space	241	246	O
-.	246	247	O
-
-There	248	253	O
-are	254	257	O
-towers	258	264	O
-of	265	267	O
-states	268	274	O
-,	274	275	O
-with	276	280	O
-equidistant	281	292	B-Process
-energy	293	299	I-Process
-spectra	300	307	I-Process
-in	308	310	O
-each	311	315	O
-tower	316	321	O
-.	321	322	O
-
-We	323	325	O
-explicitely	326	337	O
-construct	338	347	B-Process
-all	348	351	I-Process
-polynomial	352	362	I-Process
-eigenstates	363	374	I-Process
-,	374	375	O
-namely	376	382	O
-the	383	386	O
-center	387	393	O
--	393	394	O
-of	394	396	O
--	396	397	O
-mass	397	401	O
-states	402	408	O
-and	409	412	O
-global	413	419	O
-dilatation	420	430	O
-modes	431	436	O
-,	436	437	O
-and	438	441	O
-find	442	446	B-Process
-their	447	452	I-Process
-corresponding	453	466	I-Process
-eigenenergies	467	480	I-Process
-.	480	481	O
-
-We	482	484	O
-also	485	489	O
-construct	490	499	B-Process
-ladder	500	506	I-Process
-operators	507	516	I-Process
-for	517	520	O
-these	521	526	O
-global	527	533	O
-collective	534	544	O
-states	545	551	O
-.	551	552	O
-
-Analysing	553	562	B-Task
-corresponding	563	576	I-Task
-Fock	577	581	I-Task
-space	582	587	I-Task
-,	587	588	O
-we	589	591	O
-detect	592	598	O
-the	599	602	O
-universal	603	612	O
-critical	613	621	O
-point	622	627	O
-at	628	630	O
-which	631	636	O
-the	637	640	O
-model	641	646	O
-exhibits	647	655	O
-singular	656	664	O
-behavior	665	673	O
-.	673	674	O
-
-The	675	678	O
-above	679	684	O
-results	685	692	O
-are	693	696	O
-universal	697	706	O
-for	707	710	O
-all	711	714	O
-systems	715	722	O
-with	723	727	O
-underlying	728	738	O
-conformal	739	748	O
-SU(1,1	749	755	O
-)	755	756	O
-symmetry	757	765	O
-.	765	766	O
+We	0,2	O	O
+define	3,9	O	B-Task
+a	10,11	O	I-Task
+new	12,15	O	I-Task
+multispecies	16,28	O	I-Task
+model	29,34	O	I-Task
+of	35,37	O	I-Task
+Calogero	38,46	O	I-Task
+type	47,51	O	I-Task
+in	52,54	O	I-Task
+D	55,56	O	I-Task
+dimensions	57,67	O	I-Task
+with	68,72	O	O
+harmonic	73,81	O	B-Process
+,	81,82	O	I-Process
+two	83,86	O	I-Process
+-	86,87	O	I-Process
+body	87,91	O	I-Process
+and	92,95	O	I-Process
+three	96,101	O	I-Process
+-	101,102	O	I-Process
+body	102,106	O	I-Process
+interactions	107,119	O	I-Process
+.	119,120	O	O
+
+Using	121,126	O	O
+the	127,130	O	O
+underlying	131,141	O	O
+conformal	142,151	O	B-Process
+SU(1,1	152,158	O	I-Process
+)	158,159	O	I-Process
+algebra	160,167	O	I-Process
+,	167,168	O	O
+we	169,171	O	O
+indicate	172,180	O	O
+how	181,184	O	O
+to	185,187	O	O
+find	188,192	O	O
+the	193,196	O	O
+complete	197,205	O	O
+set	206,209	O	O
+of	210,212	O	O
+the	213,216	O	O
+states	217,223	O	O
+in	224,226	O	O
+Bargmann	227,235	O	O
+–	235,236	O	O
+Fock	236,240	O	O
+space	241,246	O	O
+.	246,247	O	O
+
+There	248,253	O	O
+are	254,257	O	O
+towers	258,264	O	O
+of	265,267	O	O
+states	268,274	O	O
+,	274,275	O	O
+with	276,280	O	O
+equidistant	281,292	O	B-Process
+energy	293,299	O	I-Process
+spectra	300,307	O	I-Process
+in	308,310	O	O
+each	311,315	O	O
+tower	316,321	O	O
+.	321,322	O	O
+
+We	323,325	O	O
+explicitely	326,337	O	O
+construct	338,347	O	B-Process
+all	348,351	O	I-Process
+polynomial	352,362	O	I-Process
+eigenstates	363,374	O	I-Process
+,	374,375	O	O
+namely	376,382	O	O
+the	383,386	O	O
+center	387,393	O	O
+-	393,394	O	O
+of	394,396	O	O
+-	396,397	O	O
+mass	397,401	O	O
+states	402,408	O	O
+and	409,412	O	O
+global	413,419	O	O
+dilatation	420,430	O	O
+modes	431,436	O	O
+,	436,437	O	O
+and	438,441	O	O
+find	442,446	O	B-Process
+their	447,452	O	I-Process
+corresponding	453,466	O	I-Process
+eigenenergies	467,480	O	I-Process
+.	480,481	O	O
+
+We	482,484	O	O
+also	485,489	O	O
+construct	490,499	O	B-Process
+ladder	500,506	O	I-Process
+operators	507,516	O	I-Process
+for	517,520	O	O
+these	521,526	O	O
+global	527,533	O	O
+collective	534,544	O	O
+states	545,551	O	O
+.	551,552	O	O
+
+Analysing	553,562	O	B-Task
+corresponding	563,576	O	I-Task
+Fock	577,581	O	I-Task
+space	582,587	O	I-Task
+,	587,588	O	O
+we	589,591	O	O
+detect	592,598	O	O
+the	599,602	O	O
+universal	603,612	O	O
+critical	613,621	O	O
+point	622,627	O	O
+at	628,630	O	O
+which	631,636	O	O
+the	637,640	O	O
+model	641,646	O	O
+exhibits	647,655	O	O
+singular	656,664	O	O
+behavior	665,673	O	O
+.	673,674	O	O
+
+The	675,678	O	O
+above	679,684	O	O
+results	685,692	O	O
+are	693,696	O	O
+universal	697,706	O	O
+for	707,710	O	O
+all	711,714	O	O
+systems	715,722	O	O
+with	723,727	O	O
+underlying	728,738	O	O
+conformal	739,748	O	O
+SU(1,1	749,755	O	O
+)	755,756	O	O
+symmetry	757,765	O	O
+.	765,766	O	O
 
 
 -DOCSTART- (S0370269304008421)
 
-The	0	3	O
-expression	4	14	O
-for	15	18	O
-Pc	19	21	B-Material
-is	22	24	O
-also	25	29	O
-easily	30	36	O
-found	37	42	O
-in	43	45	O
-the	46	49	O
-same	50	54	O
-basis	55	60	O
-,	60	61	O
-where	62	67	O
-it	68	70	O
-becomes	71	78	O
-apparent	79	87	O
-that	88	92	O
-the	93	96	O
-dynamics	97	105	O
-of	106	108	O
-conversion	109	119	B-Process
-in	120	122	I-Process
-matter	123	129	I-Process
-depends	130	137	O
-only	138	142	O
-on	143	145	O
-the	146	149	O
-relative	150	158	B-Process
-orientation	159	170	I-Process
-of	171	173	I-Process
-the	174	177	I-Process
-eigenstates	178	189	I-Process
-of	190	192	O
-the	193	196	O
-vacuum	197	203	B-Process
-and	204	207	O
-matter	208	214	B-Process
-Hamiltonians	215	227	I-Process
-.	227	228	O
-
-This	229	233	O
-allows	234	240	O
-to	241	243	O
-directly	244	252	O
-apply	253	258	O
-the	259	262	O
-known	263	268	O
-analytical	269	279	B-Process
-solutions	280	289	I-Process
-for	290	293	I-Process
-Pc	294	296	I-Process
-,	296	297	O
-and	298	301	O
-,	301	302	O
-upon	303	307	O
-rotating	308	316	O
-back	317	321	O
-,	321	322	O
-obtain	323	329	O
-a	330	331	O
-generalization	332	346	B-Process
-of	347	349	I-Process
-these	350	355	I-Process
-results	356	363	I-Process
-to	364	366	I-Process
-the	367	370	I-Process
-NSI	371	374	I-Process
-case	375	379	I-Process
-.	379	380	O
-
-For	381	384	O
-example	385	392	O
-,	392	393	O
-the	394	397	O
-answer	398	404	O
-for	405	408	O
-the	409	412	O
-infinite	413	421	O
-exponential	422	433	O
-profile	434	441	O
-[	442	443	O
-18,19	443	448	O
-]	448	449	O
-A∝exp(−r	450	458	O
-/	458	459	O
-r0	459	461	O
-)	461	462	O
-becomes	463	470	O
-Pc	471	473	O
-=	473	474	O
-exp[γ(1−cos2θrel)/2]−1exp(γ)−1	474	504	O
-,	504	505	O
-where	506	511	O
-γ≡4πr0Δ=πr0Δm2/Eν.	512	530	O
-We	531	533	O
-further	534	541	O
-observe	542	549	O
-that	550	554	O
-since	555	560	O
-γ⪢1	561	564	O
-the	565	568	O
-adiabaticity	569	581	B-Process
-violation	582	591	I-Process
-occurs	592	598	O
-only	599	603	O
-when	604	608	O
-|θ−α|⪡1	609	616	O
-and	617	620	O
-φ≃π/2	621	626	O
-,	626	627	O
-which	628	633	O
-is	634	636	O
-the	637	640	O
-analogue	641	649	O
-of	650	652	O
-the	653	656	O
-small	657	662	O
--	662	663	O
-angle	663	668	O
-MSW	669	672	O
-[	673	674	O
-10,20	674	679	O
-]	679	680	O
-effect	681	687	O
-in	688	690	O
-the	691	694	O
-rotated	695	702	O
-basis	703	708	O
-.	708	709	O
-
-The	710	713	O
-“	714	715	O
-resonant	715	723	O
-”	723	724	O
-region	725	731	O
-in	732	734	O
-the	735	738	O
-Sun	739	742	O
-where	743	748	O
-level	749	754	O
-jumping	755	762	O
-can	763	766	O
-take	767	771	O
-place	772	777	O
-is	778	780	O
-narrow	781	787	O
-,	787	788	O
-defined	789	796	O
-by	797	799	O
-A≃Δ	800	803	O
-[	804	805	O
-21	805	807	O
-]	807	808	O
-.	808	809	O
-
-A	810	811	O
-neutrino	812	820	B-Material
-produced	821	829	O
-at	830	832	O
-a	833	834	O
-lower	835	840	O
-density	841	848	O
-evolves	849	856	O
-adiabatically	857	870	O
-,	870	871	O
-while	872	877	O
-a	878	879	O
-neutrino	880	888	B-Material
-produced	889	897	O
-at	898	900	O
-a	901	902	O
-higher	903	909	O
-density	910	917	O
-may	918	921	O
-undergo	922	929	O
-level	930	935	O
-crossing	936	944	O
-.	944	945	O
-
-The	946	949	O
-probability	950	961	O
-Pc	962	964	B-Material
-in	965	967	O
-the	968	971	O
-latter	972	978	O
-case	979	983	O
-is	984	986	O
-given	987	992	O
-to	993	995	O
-a	996	997	O
-very	998	1002	O
-good	1003	1007	O
-accuracy	1008	1016	O
-by	1017	1019	O
-the	1020	1023	O
-formula	1024	1031	O
-for	1032	1035	O
-the	1036	1039	O
-linear	1040	1046	O
-profile	1047	1054	O
-,	1054	1055	O
-with	1056	1060	O
-an	1061	1063	O
-appropriate	1064	1075	O
-gradient	1076	1084	O
-taken	1085	1090	O
-along	1091	1096	O
-the	1097	1100	O
-neutrino	1101	1109	B-Material
-trajectory	1110	1120	O
-,	1120	1121	O
-(	1122	1123	O
-12)Pc≃Θ(A−Δ)e−γ(cos2θrel+1)/2	1123	1152	O
-,	1152	1153	O
-where	1154	1159	O
-Θ(x	1160	1163	O
-)	1163	1164	O
-is	1165	1167	O
-the	1168	1171	O
-step	1172	1176	O
-function	1177	1185	O
-,	1185	1186	O
-Θ(x)=1	1187	1193	O
-for	1194	1197	O
-x>0	1198	1201	O
-and	1202	1205	O
-Θ(x)=0	1206	1212	O
-otherwise	1213	1222	O
-.	1222	1223	O
-
-We	1224	1226	O
-emphasize	1227	1236	O
-that	1237	1241	O
-our	1242	1245	O
-results	1246	1253	O
-differ	1254	1260	O
-from	1261	1265	O
-the	1266	1269	O
-similar	1270	1277	O
-ones	1278	1282	O
-given	1283	1288	O
-in	1289	1291	O
-[	1292	1293	O
-5,22	1293	1297	O
-]	1297	1298	O
-in	1299	1301	O
-three	1302	1307	O
-important	1308	1317	O
-respects	1318	1326	O
-:	1326	1327	O
-(	1328	1329	O
-i	1329	1330	O
-)	1330	1331	O
-they	1332	1336	O
-are	1337	1340	O
-valid	1341	1346	O
-for	1347	1350	O
-all	1351	1354	O
-,	1354	1355	O
-not	1356	1359	O
-just	1360	1364	O
-small	1365	1370	O
-values	1371	1377	O
-of	1378	1380	O
-α	1381	1382	O
-(	1383	1384	O
-which	1384	1389	O
-is	1390	1392	O
-essential	1393	1402	O
-for	1403	1406	O
-our	1407	1410	O
-application	1411	1422	O
-)	1422	1423	O
-,	1423	1424	O
-(	1425	1426	O
-ii	1426	1428	O
-)	1428	1429	O
-they	1430	1434	O
-include	1435	1442	O
-the	1443	1446	O
-angle	1447	1452	O
-φ	1453	1454	O
-,	1454	1455	O
-and	1456	1459	O
-(	1460	1461	O
-iii	1461	1464	O
-)	1464	1465	O
-the	1466	1469	O
-argument	1470	1478	O
-of	1479	1481	O
-the	1482	1485	O
-Θ	1486	1487	O
-function	1488	1496	O
-does	1497	1501	O
-not	1502	1505	O
-contain	1506	1513	O
-cos2θ	1514	1519	O
-,	1519	1520	O
-as	1521	1523	O
-follows	1524	1531	O
-from	1532	1536	O
-[	1537	1538	O
-21	1538	1540	O
-]	1540	1541	O
-.	1541	1542	O
-
-We	1543	1545	O
-stress	1546	1552	O
-that	1553	1557	O
-for	1558	1561	O
-large	1562	1567	O
-values	1568	1574	O
-of	1575	1577	O
-α	1578	1579	O
-and	1580	1583	O
-φ≃π/2	1584	1589	O
-
-adiabaticity	1590	1602	O
-is	1603	1605	O
-violated	1606	1614	O
-for	1615	1618	O
-large	1619	1624	O
-values	1625	1631	O
-of	1632	1634	O
-θ.	1635	1637	O
+The	0,3	O	O
+expression	4,14	O	O
+for	15,18	O	O
+Pc	19,21	O	B-Material
+is	22,24	O	O
+also	25,29	O	O
+easily	30,36	O	O
+found	37,42	O	O
+in	43,45	O	O
+the	46,49	O	O
+same	50,54	O	O
+basis	55,60	O	O
+,	60,61	O	O
+where	62,67	O	O
+it	68,70	O	O
+becomes	71,78	O	O
+apparent	79,87	O	O
+that	88,92	O	O
+the	93,96	O	O
+dynamics	97,105	O	O
+of	106,108	O	O
+conversion	109,119	O	B-Process
+in	120,122	O	I-Process
+matter	123,129	O	I-Process
+depends	130,137	O	O
+only	138,142	O	O
+on	143,145	O	O
+the	146,149	O	O
+relative	150,158	O	B-Process
+orientation	159,170	O	I-Process
+of	171,173	O	I-Process
+the	174,177	O	I-Process
+eigenstates	178,189	O	I-Process
+of	190,192	O	O
+the	193,196	O	O
+vacuum	197,203	O	B-Process
+and	204,207	O	O
+matter	208,214	O	B-Process
+Hamiltonians	215,227	O	I-Process
+.	227,228	O	O
+
+This	229,233	O	O
+allows	234,240	O	O
+to	241,243	O	O
+directly	244,252	O	O
+apply	253,258	O	O
+the	259,262	O	O
+known	263,268	O	O
+analytical	269,279	O	B-Process
+solutions	280,289	O	I-Process
+for	290,293	O	I-Process
+Pc	294,296	O	I-Process
+,	296,297	O	O
+and	298,301	O	O
+,	301,302	O	O
+upon	303,307	O	O
+rotating	308,316	O	O
+back	317,321	O	O
+,	321,322	O	O
+obtain	323,329	O	O
+a	330,331	O	O
+generalization	332,346	O	B-Process
+of	347,349	O	I-Process
+these	350,355	O	I-Process
+results	356,363	O	I-Process
+to	364,366	O	I-Process
+the	367,370	O	I-Process
+NSI	371,374	O	I-Process
+case	375,379	O	I-Process
+.	379,380	O	O
+
+For	381,384	O	O
+example	385,392	O	O
+,	392,393	O	O
+the	394,397	O	O
+answer	398,404	O	O
+for	405,408	O	O
+the	409,412	O	O
+infinite	413,421	O	O
+exponential	422,433	O	O
+profile	434,441	O	O
+[	442,443	O	O
+18,19	443,448	O	O
+]	448,449	O	O
+A∝exp(−r	450,458	O	O
+/	458,459	O	O
+r0	459,461	O	O
+)	461,462	O	O
+becomes	463,470	O	O
+Pc	471,473	O	O
+=	473,474	O	O
+exp[γ(1−cos2θrel)/2]−1exp(γ)−1	474,504	O	O
+,	504,505	O	O
+where	506,511	O	O
+γ≡4πr0Δ=πr0Δm2/Eν.	512,530	O	O
+We	531,533	O	O
+further	534,541	O	O
+observe	542,549	O	O
+that	550,554	O	O
+since	555,560	O	O
+γ⪢1	561,564	O	O
+the	565,568	O	O
+adiabaticity	569,581	O	B-Process
+violation	582,591	O	I-Process
+occurs	592,598	O	O
+only	599,603	O	O
+when	604,608	O	O
+|θ−α|⪡1	609,616	O	O
+and	617,620	O	O
+φ≃π/2	621,626	O	O
+,	626,627	O	O
+which	628,633	O	O
+is	634,636	O	O
+the	637,640	O	O
+analogue	641,649	O	O
+of	650,652	O	O
+the	653,656	O	O
+small	657,662	O	O
+-	662,663	O	O
+angle	663,668	O	O
+MSW	669,672	O	O
+[	673,674	O	O
+10,20	674,679	O	O
+]	679,680	O	O
+effect	681,687	O	O
+in	688,690	O	O
+the	691,694	O	O
+rotated	695,702	O	O
+basis	703,708	O	O
+.	708,709	O	O
+
+The	710,713	O	O
+“	714,715	O	O
+resonant	715,723	O	O
+”	723,724	O	O
+region	725,731	O	O
+in	732,734	O	O
+the	735,738	O	O
+Sun	739,742	O	O
+where	743,748	O	O
+level	749,754	O	O
+jumping	755,762	O	O
+can	763,766	O	O
+take	767,771	O	O
+place	772,777	O	O
+is	778,780	O	O
+narrow	781,787	O	O
+,	787,788	O	O
+defined	789,796	O	O
+by	797,799	O	O
+A≃Δ	800,803	O	O
+[	804,805	O	O
+21	805,807	O	O
+]	807,808	O	O
+.	808,809	O	O
+
+A	810,811	O	O
+neutrino	812,820	O	B-Material
+produced	821,829	O	O
+at	830,832	O	O
+a	833,834	O	O
+lower	835,840	O	O
+density	841,848	O	O
+evolves	849,856	O	O
+adiabatically	857,870	O	O
+,	870,871	O	O
+while	872,877	O	O
+a	878,879	O	O
+neutrino	880,888	O	B-Material
+produced	889,897	O	O
+at	898,900	O	O
+a	901,902	O	O
+higher	903,909	O	O
+density	910,917	O	O
+may	918,921	O	O
+undergo	922,929	O	O
+level	930,935	O	O
+crossing	936,944	O	O
+.	944,945	O	O
+
+The	946,949	O	O
+probability	950,961	O	O
+Pc	962,964	O	B-Material
+in	965,967	O	O
+the	968,971	O	O
+latter	972,978	O	O
+case	979,983	O	O
+is	984,986	O	O
+given	987,992	O	O
+to	993,995	O	O
+a	996,997	O	O
+very	998,1002	O	O
+good	1003,1007	O	O
+accuracy	1008,1016	O	O
+by	1017,1019	O	O
+the	1020,1023	O	O
+formula	1024,1031	O	O
+for	1032,1035	O	O
+the	1036,1039	O	O
+linear	1040,1046	O	O
+profile	1047,1054	O	O
+,	1054,1055	O	O
+with	1056,1060	O	O
+an	1061,1063	O	O
+appropriate	1064,1075	O	O
+gradient	1076,1084	O	O
+taken	1085,1090	O	O
+along	1091,1096	O	O
+the	1097,1100	O	O
+neutrino	1101,1109	O	B-Material
+trajectory	1110,1120	O	O
+,	1120,1121	O	O
+(	1122,1123	O	O
+12)Pc≃Θ(A−Δ)e−γ(cos2θrel+1)/2	1123,1152	O	O
+,	1152,1153	O	O
+where	1154,1159	O	O
+Θ(x	1160,1163	O	O
+)	1163,1164	O	O
+is	1165,1167	O	O
+the	1168,1171	O	O
+step	1172,1176	O	O
+function	1177,1185	O	O
+,	1185,1186	O	O
+Θ(x)=1	1187,1193	O	O
+for	1194,1197	O	O
+x>0	1198,1201	O	O
+and	1202,1205	O	O
+Θ(x)=0	1206,1212	O	O
+otherwise	1213,1222	O	O
+.	1222,1223	O	O
+
+We	1224,1226	O	O
+emphasize	1227,1236	O	O
+that	1237,1241	O	O
+our	1242,1245	O	O
+results	1246,1253	O	O
+differ	1254,1260	O	O
+from	1261,1265	O	O
+the	1266,1269	O	O
+similar	1270,1277	O	O
+ones	1278,1282	O	O
+given	1283,1288	O	O
+in	1289,1291	O	O
+[	1292,1293	O	O
+5,22	1293,1297	O	O
+]	1297,1298	O	O
+in	1299,1301	O	O
+three	1302,1307	O	O
+important	1308,1317	O	O
+respects	1318,1326	O	O
+:	1326,1327	O	O
+(	1328,1329	O	O
+i	1329,1330	O	O
+)	1330,1331	O	O
+they	1332,1336	O	O
+are	1337,1340	O	O
+valid	1341,1346	O	O
+for	1347,1350	O	O
+all	1351,1354	O	O
+,	1354,1355	O	O
+not	1356,1359	O	O
+just	1360,1364	O	O
+small	1365,1370	O	O
+values	1371,1377	O	O
+of	1378,1380	O	O
+α	1381,1382	O	O
+(	1383,1384	O	O
+which	1384,1389	O	O
+is	1390,1392	O	O
+essential	1393,1402	O	O
+for	1403,1406	O	O
+our	1407,1410	O	O
+application	1411,1422	O	O
+)	1422,1423	O	O
+,	1423,1424	O	O
+(	1425,1426	O	O
+ii	1426,1428	O	O
+)	1428,1429	O	O
+they	1430,1434	O	O
+include	1435,1442	O	O
+the	1443,1446	O	O
+angle	1447,1452	O	O
+φ	1453,1454	O	O
+,	1454,1455	O	O
+and	1456,1459	O	O
+(	1460,1461	O	O
+iii	1461,1464	O	O
+)	1464,1465	O	O
+the	1466,1469	O	O
+argument	1470,1478	O	O
+of	1479,1481	O	O
+the	1482,1485	O	O
+Θ	1486,1487	O	O
+function	1488,1496	O	O
+does	1497,1501	O	O
+not	1502,1505	O	O
+contain	1506,1513	O	O
+cos2θ	1514,1519	O	O
+,	1519,1520	O	O
+as	1521,1523	O	O
+follows	1524,1531	O	O
+from	1532,1536	O	O
+[	1537,1538	O	O
+21	1538,1540	O	O
+]	1540,1541	O	O
+.	1541,1542	O	O
+
+We	1543,1545	O	O
+stress	1546,1552	O	O
+that	1553,1557	O	O
+for	1558,1561	O	O
+large	1562,1567	O	O
+values	1568,1574	O	O
+of	1575,1577	O	O
+α	1578,1579	O	O
+and	1580,1583	O	O
+φ≃π/2	1584,1589	O	O
+
+adiabaticity	1590,1602	O	O
+is	1603,1605	O	O
+violated	1606,1614	O	O
+for	1615,1618	O	O
+large	1619,1624	O	O
+values	1625,1631	O	O
+of	1632,1634	O	O
+θ.	1635,1637	O	O
 
 
 -DOCSTART- (S0370269304008494)
 
-One	0	3	O
-major	4	9	O
-goal	10	14	O
-of	15	17	O
-current	18	25	O
-nuclear	26	33	B-Task
-physics	34	41	I-Task
-is	42	44	O
-the	45	48	O
-observation	49	60	B-Task
-of	61	63	I-Task
-at	64	66	I-Task
-least	67	72	I-Task
-partial	73	80	I-Task
-restoration	81	92	I-Task
-of	93	95	I-Task
-chiral	96	102	I-Task
-symmetry	103	111	I-Task
-.	111	112	O
-
-Since	113	118	O
-the	119	122	O
-chiral	123	129	B-Material
-order	130	135	I-Material
-parameter	136	145	I-Material
-〈	146	147	O
-q̄q	147	150	B-Material
-〉	150	151	O
-is	152	154	O
-expected	155	163	O
-to	164	166	O
-decrease	167	175	O
-by	176	178	O
-about	179	184	O
-30	185	187	O
-%	187	188	O
-already	189	196	O
-at	197	199	O
-normal	200	206	O
-nuclear	207	214	B-Material
-matter	215	221	I-Material
-density	222	229	O
-[	230	231	O
-1–4	231	234	O
-]	234	235	O
-,	235	236	O
-any	237	240	O
-in	241	243	O
--	243	244	O
-medium	244	250	O
-change	251	257	O
-due	258	261	O
-to	262	264	O
-the	265	268	O
-dropping	269	277	O
-quark	278	283	B-Material
-condensate	284	294	I-Material
-should	295	301	O
-in	302	304	O
-principle	305	314	O
-be	315	317	O
-observable	318	328	O
-in	329	331	O
-photonuclear	332	344	B-Process
-reactions	345	354	I-Process
-.	354	355	O
-
-The	356	359	O
-conjecture	360	370	O
-that	371	375	O
-such	376	380	O
-a	381	382	O
-partial	383	390	B-Process
-restoration	391	402	I-Process
-of	403	405	I-Process
-chiral	406	412	I-Process
-symmetry	413	421	I-Process
-causes	422	428	O
-a	429	430	O
-softening	431	440	O
-and	441	444	O
-narrowing	445	454	O
-of	455	457	O
-the	458	461	O
-σ	462	463	B-Material
-meson	464	469	I-Material
-as	470	472	O
-the	473	476	O
-chiral	477	483	B-Material
-partner	484	491	I-Material
-of	492	494	O
-the	495	498	O
-pion	499	503	B-Material
-in	504	506	O
-the	507	510	O
-nuclear	511	518	B-Material
-medium	519	525	I-Material
-[	526	527	O
-5,6	527	530	O
-]	530	531	O
-has	532	535	O
-led	536	539	O
-to	540	542	O
-the	543	546	O
-idea	547	551	O
-of	552	554	O
-measuring	555	564	B-Process
-the	565	568	I-Process
-π0π0	569	573	I-Process
-invariant	574	583	I-Process
-mass	584	588	I-Process
-distribution	589	601	I-Process
-near	602	606	O
-the	607	610	O
-2π	611	613	O
-threshold	614	623	O
-in	624	626	O
-photon	627	633	B-Process
-induced	634	641	I-Process
-reactions	642	651	I-Process
-on	652	654	O
-nuclei	655	661	B-Material
-[	662	663	O
-7	663	664	O
-]	664	665	O
-.	665	666	O
-
-In	667	669	O
-contrast	670	678	O
-to	679	681	O
-its	682	685	O
-questionable	686	698	O
-nature	699	705	O
-as	706	708	O
-a	709	710	O
-proper	711	717	O
-quasiparticle	718	731	B-Material
-in	732	734	O
-vacuum	735	741	O
-,	741	742	O
-the	743	746	O
-σ	747	748	B-Material
-meson	749	754	I-Material
-might	755	760	O
-develop	761	768	O
-a	769	770	O
-much	771	775	O
-narrower	776	784	O
-peak	785	789	O
-at	790	792	O
-finite	793	799	O
-baryon	800	806	O
-density	807	814	O
-due	815	818	O
-to	819	821	O
-phase	822	827	O
--	827	828	O
-space	828	833	O
-suppression	834	845	O
-for	846	849	O
-the	850	853	O
-σ→ππ	854	858	B-Process
-decay	859	864	I-Process
-,	864	865	O
-hence	866	871	O
-making	872	878	O
-it	879	881	O
-possible	882	890	O
-to	891	893	O
-explore	894	901	O
-its	902	905	O
-properties	906	916	O
-when	917	921	O
-embedded	922	930	O
-in	931	933	O
-a	934	935	O
-nuclear	936	943	B-Process
-many	944	948	I-Process
--	948	949	I-Process
-body	949	953	I-Process
-system	954	960	I-Process
-[	961	962	O
-8–11	962	966	O
-]	966	967	O
-.	967	968	O
-
-Measuring	969	978	B-Process
-a	979	980	I-Process
-threshold	981	990	I-Process
-enhancement	991	1002	I-Process
-of	1003	1005	I-Process
-the	1006	1009	I-Process
-π0π0	1010	1014	I-Process
-invariant	1015	1024	I-Process
-mass	1025	1029	I-Process
-spectrum	1030	1038	I-Process
-might	1039	1044	O
-serve	1045	1050	O
-as	1051	1053	O
-a	1054	1055	O
-signal	1056	1062	O
-for	1063	1066	O
-the	1067	1070	O
-partial	1071	1078	B-Task
-restoration	1079	1090	I-Task
-of	1091	1093	I-Task
-chiral	1094	1100	I-Task
-symmetry	1101	1109	I-Task
-inside	1110	1116	O
-nuclei	1117	1123	B-Material
-and	1124	1127	O
-,	1127	1128	O
-therefore	1129	1138	O
-,	1138	1139	O
-give	1140	1144	O
-information	1145	1156	O
-about	1157	1162	O
-one	1163	1166	O
-of	1167	1169	O
-the	1170	1173	O
-most	1174	1178	O
-fundamental	1179	1190	O
-features	1191	1199	O
-of	1200	1202	O
-QCD	1203	1206	B-Material
-.	1206	1207	O
+One	0,3	O	O
+major	4,9	O	O
+goal	10,14	O	O
+of	15,17	O	O
+current	18,25	O	O
+nuclear	26,33	O	B-Task
+physics	34,41	O	I-Task
+is	42,44	O	O
+the	45,48	O	O
+observation	49,60	O	B-Task
+of	61,63	O	I-Task
+at	64,66	O	I-Task
+least	67,72	O	I-Task
+partial	73,80	O	I-Task
+restoration	81,92	O	I-Task
+of	93,95	O	I-Task
+chiral	96,102	O	I-Task
+symmetry	103,111	O	I-Task
+.	111,112	O	O
+
+Since	113,118	O	O
+the	119,122	O	O
+chiral	123,129	O	B-Material
+order	130,135	O	I-Material
+parameter	136,145	O	I-Material
+〈	146,147	O	O
+q̄q	147,150	O	B-Material
+〉	150,151	O	O
+is	152,154	O	O
+expected	155,163	O	O
+to	164,166	O	O
+decrease	167,175	O	O
+by	176,178	O	O
+about	179,184	O	O
+30	185,187	O	O
+%	187,188	O	O
+already	189,196	O	O
+at	197,199	O	O
+normal	200,206	O	O
+nuclear	207,214	O	B-Material
+matter	215,221	O	I-Material
+density	222,229	O	O
+[	230,231	O	O
+1–4	231,234	O	O
+]	234,235	O	O
+,	235,236	O	O
+any	237,240	O	O
+in	241,243	O	O
+-	243,244	O	O
+medium	244,250	O	O
+change	251,257	O	O
+due	258,261	O	O
+to	262,264	O	O
+the	265,268	O	O
+dropping	269,277	O	O
+quark	278,283	O	B-Material
+condensate	284,294	O	I-Material
+should	295,301	O	O
+in	302,304	O	O
+principle	305,314	O	O
+be	315,317	O	O
+observable	318,328	O	O
+in	329,331	O	O
+photonuclear	332,344	O	B-Process
+reactions	345,354	O	I-Process
+.	354,355	O	O
+
+The	356,359	O	O
+conjecture	360,370	O	O
+that	371,375	O	O
+such	376,380	O	O
+a	381,382	O	O
+partial	383,390	O	B-Process
+restoration	391,402	O	I-Process
+of	403,405	O	I-Process
+chiral	406,412	O	I-Process
+symmetry	413,421	O	I-Process
+causes	422,428	O	O
+a	429,430	O	O
+softening	431,440	O	O
+and	441,444	O	O
+narrowing	445,454	O	O
+of	455,457	O	O
+the	458,461	O	O
+σ	462,463	O	B-Material
+meson	464,469	O	I-Material
+as	470,472	O	O
+the	473,476	O	O
+chiral	477,483	O	B-Material
+partner	484,491	O	I-Material
+of	492,494	O	O
+the	495,498	O	O
+pion	499,503	O	B-Material
+in	504,506	O	O
+the	507,510	O	O
+nuclear	511,518	O	B-Material
+medium	519,525	O	I-Material
+[	526,527	O	O
+5,6	527,530	O	O
+]	530,531	O	O
+has	532,535	O	O
+led	536,539	O	O
+to	540,542	O	O
+the	543,546	O	O
+idea	547,551	O	O
+of	552,554	O	O
+measuring	555,564	O	B-Process
+the	565,568	O	I-Process
+π0π0	569,573	O	I-Process
+invariant	574,583	O	I-Process
+mass	584,588	O	I-Process
+distribution	589,601	O	I-Process
+near	602,606	O	O
+the	607,610	O	O
+2π	611,613	O	O
+threshold	614,623	O	O
+in	624,626	O	O
+photon	627,633	O	B-Process
+induced	634,641	O	I-Process
+reactions	642,651	O	I-Process
+on	652,654	O	O
+nuclei	655,661	O	B-Material
+[	662,663	O	O
+7	663,664	O	O
+]	664,665	O	O
+.	665,666	O	O
+
+In	667,669	O	O
+contrast	670,678	O	O
+to	679,681	O	O
+its	682,685	O	O
+questionable	686,698	O	O
+nature	699,705	O	O
+as	706,708	O	O
+a	709,710	O	O
+proper	711,717	O	O
+quasiparticle	718,731	O	B-Material
+in	732,734	O	O
+vacuum	735,741	O	O
+,	741,742	O	O
+the	743,746	O	O
+σ	747,748	O	B-Material
+meson	749,754	O	I-Material
+might	755,760	O	O
+develop	761,768	O	O
+a	769,770	O	O
+much	771,775	O	O
+narrower	776,784	O	O
+peak	785,789	O	O
+at	790,792	O	O
+finite	793,799	O	O
+baryon	800,806	O	O
+density	807,814	O	O
+due	815,818	O	O
+to	819,821	O	O
+phase	822,827	O	O
+-	827,828	O	O
+space	828,833	O	O
+suppression	834,845	O	O
+for	846,849	O	O
+the	850,853	O	O
+σ→ππ	854,858	O	B-Process
+decay	859,864	O	I-Process
+,	864,865	O	O
+hence	866,871	O	O
+making	872,878	O	O
+it	879,881	O	O
+possible	882,890	O	O
+to	891,893	O	O
+explore	894,901	O	O
+its	902,905	O	O
+properties	906,916	O	O
+when	917,921	O	O
+embedded	922,930	O	O
+in	931,933	O	O
+a	934,935	O	O
+nuclear	936,943	O	B-Process
+many	944,948	O	I-Process
+-	948,949	O	I-Process
+body	949,953	O	I-Process
+system	954,960	O	I-Process
+[	961,962	O	O
+8–11	962,966	O	O
+]	966,967	O	O
+.	967,968	O	O
+
+Measuring	969,978	O	B-Process
+a	979,980	O	I-Process
+threshold	981,990	O	I-Process
+enhancement	991,1002	O	I-Process
+of	1003,1005	O	I-Process
+the	1006,1009	O	I-Process
+π0π0	1010,1014	O	I-Process
+invariant	1015,1024	O	I-Process
+mass	1025,1029	O	I-Process
+spectrum	1030,1038	O	I-Process
+might	1039,1044	O	O
+serve	1045,1050	O	O
+as	1051,1053	O	O
+a	1054,1055	O	O
+signal	1056,1062	O	O
+for	1063,1066	O	O
+the	1067,1070	O	O
+partial	1071,1078	O	B-Task
+restoration	1079,1090	O	I-Task
+of	1091,1093	O	I-Task
+chiral	1094,1100	O	I-Task
+symmetry	1101,1109	O	I-Task
+inside	1110,1116	O	O
+nuclei	1117,1123	O	B-Material
+and	1124,1127	O	O
+,	1127,1128	O	O
+therefore	1129,1138	O	O
+,	1138,1139	O	O
+give	1140,1144	O	O
+information	1145,1156	O	O
+about	1157,1162	O	O
+one	1163,1166	O	O
+of	1167,1169	O	O
+the	1170,1173	O	O
+most	1174,1178	O	O
+fundamental	1179,1190	O	O
+features	1191,1199	O	O
+of	1200,1202	O	O
+QCD	1203,1206	O	B-Material
+.	1206,1207	O	O
 
 
 -DOCSTART- (S0370269304009293)
 
-An	0	2	O
-OPE	3	6	B-Material
-of	7	9	O
-VQCD(r	10	16	B-Material
-)	16	17	I-Material
-was	18	21	O
-developed	22	31	O
-in	32	34	O
-[	35	36	O
-3	36	37	O
-]	37	38	O
-.	38	39	O
-
-In	40	42	O
-this	43	47	O
-and	48	51	O
-the	52	55	O
-next	56	60	O
-paragraph	61	70	O
-,	70	71	O
-we	72	74	O
-review	75	81	O
-the	82	85	O
-content	86	93	O
-of	94	96	O
-that	97	101	O
-paper	102	107	O
-relevant	108	116	O
-to	117	119	O
-our	120	123	O
-analysis	124	132	O
-.	132	133	O
-
-Within	134	140	O
-this	141	145	O
-framework	146	155	O
-,	155	156	O
-short	157	162	O
--	162	163	O
-distance	163	171	O
-contributions	172	185	O
-are	186	189	O
-contained	190	199	O
-in	200	202	O
-the	203	206	O
-potentials	207	217	O
-,	217	218	O
-which	219	224	O
-are	225	228	O
-in	229	231	O
-fact	232	236	O
-the	237	240	O
-Wilson	241	247	O
-coefficients	248	260	O
-,	260	261	O
-while	262	267	O
-non	268	271	O
--	271	272	O
-perturbative	272	284	O
-contributions	285	298	O
-are	299	302	O
-contained	303	312	O
-in	313	315	O
-the	316	319	O
-matrix	320	326	O
-elements	327	335	O
-that	336	340	O
-are	341	344	O
-organized	345	354	O
-in	355	357	O
-multipole	358	367	B-Process
-expansion	368	377	I-Process
-in	378	380	O
-r→	381	383	O
-at	384	386	O
-r≪ΛQCD−1	387	395	O
-.	395	396	O
-
-The	397	400	O
-following	401	410	O
-relation	411	419	O
-was	420	423	O
-derived	424	431	O
-:	431	432	O
-(	433	434	O
-16)VQCD(r)=VS(r)+δEUS(r),(17)δEUS=−ig2TFNC∫0∞dte−iΔV(r)t×〈r→⋅E→a(t)φadj(t,0)abr→⋅E→b(0)〉+O(r3	434	527	O
-)	527	528	O
-.	528	529	O
-
-VS(r	530	534	O
-)	534	535	O
-denotes	536	543	O
-the	544	547	O
-singlet	548	555	O
-potential	556	565	O
-.	565	566	O
-
-δEUS(r	567	573	O
-)	573	574	O
-denotes	575	582	O
-the	583	586	O
-non	587	590	O
--	590	591	O
-perturbative	591	603	O
-contribution	604	616	O
-to	617	619	O
-the	620	623	O
-QCD	624	627	B-Material
-potential	628	637	I-Material
-,	637	638	O
-which	639	644	O
-starts	645	651	O
-at	652	654	O
-O(ΛQCD3r2	655	664	O
-)	664	665	O
-in	666	668	O
-the	669	672	O
-multipole	673	682	B-Process
-expansion	683	692	I-Process
-.	692	693	O
-
-ΔV(r)=VO(r)−VS(r	694	710	O
-)	710	711	O
-denotes	712	719	O
-the	720	723	O
-difference	724	734	O
-between	735	742	O
-the	743	746	O
-octet	747	752	O
-and	753	756	O
-singlet	757	764	O
-potentials	765	775	O
-;	775	776	O
-see	777	780	O
-[	781	782	O
-3	782	783	O
-]	783	784	O
-for	785	788	O
-details	789	796	O
-.	796	797	O
-
-Intuitively	798	809	O
-VS(r	810	814	O
-)	814	815	O
-corresponds	816	827	O
-to	828	830	O
-VUV(r;μf	831	839	O
-)	839	840	O
-and	841	844	O
-δEUS(r	845	851	O
-)	851	852	O
-to	853	855	O
-VIR(r;μf	856	864	O
-)	864	865	O
-.	865	866	O
-
-We	867	869	O
-adopt	870	875	O
-dimensional	876	887	B-Process
-regularization	888	902	I-Process
-in	903	905	O
-our	906	909	O
-analysis	910	918	O
-;	918	919	O
-we	920	922	O
-also	923	927	O
-refer	928	933	O
-to	934	936	O
-hard	937	941	B-Process
-cutoff	942	948	I-Process
-schemes	949	956	I-Process
-when	957	961	O
-discussing	962	972	O
-conceptual	973	983	O
-aspects	984	991	O
-.	991	992	O
+An	0,2	O	O
+OPE	3,6	O	B-Material
+of	7,9	O	O
+VQCD(r	10,16	O	B-Material
+)	16,17	O	I-Material
+was	18,21	O	O
+developed	22,31	O	O
+in	32,34	O	O
+[	35,36	O	O
+3	36,37	O	O
+]	37,38	O	O
+.	38,39	O	O
+
+In	40,42	O	O
+this	43,47	O	O
+and	48,51	O	O
+the	52,55	O	O
+next	56,60	O	O
+paragraph	61,70	O	O
+,	70,71	O	O
+we	72,74	O	O
+review	75,81	O	O
+the	82,85	O	O
+content	86,93	O	O
+of	94,96	O	O
+that	97,101	O	O
+paper	102,107	O	O
+relevant	108,116	O	O
+to	117,119	O	O
+our	120,123	O	O
+analysis	124,132	O	O
+.	132,133	O	O
+
+Within	134,140	O	O
+this	141,145	O	O
+framework	146,155	O	O
+,	155,156	O	O
+short	157,162	O	O
+-	162,163	O	O
+distance	163,171	O	O
+contributions	172,185	O	O
+are	186,189	O	O
+contained	190,199	O	O
+in	200,202	O	O
+the	203,206	O	O
+potentials	207,217	O	O
+,	217,218	O	O
+which	219,224	O	O
+are	225,228	O	O
+in	229,231	O	O
+fact	232,236	O	O
+the	237,240	O	O
+Wilson	241,247	O	O
+coefficients	248,260	O	O
+,	260,261	O	O
+while	262,267	O	O
+non	268,271	O	O
+-	271,272	O	O
+perturbative	272,284	O	O
+contributions	285,298	O	O
+are	299,302	O	O
+contained	303,312	O	O
+in	313,315	O	O
+the	316,319	O	O
+matrix	320,326	O	O
+elements	327,335	O	O
+that	336,340	O	O
+are	341,344	O	O
+organized	345,354	O	O
+in	355,357	O	O
+multipole	358,367	O	B-Process
+expansion	368,377	O	I-Process
+in	378,380	O	O
+r→	381,383	O	O
+at	384,386	O	O
+r≪ΛQCD−1	387,395	O	O
+.	395,396	O	O
+
+The	397,400	O	O
+following	401,410	O	O
+relation	411,419	O	O
+was	420,423	O	O
+derived	424,431	O	O
+:	431,432	O	O
+(	433,434	O	O
+16)VQCD(r)=VS(r)+δEUS(r),(17)δEUS=−ig2TFNC∫0∞dte−iΔV(r)t×〈r→⋅E→a(t)φadj(t,0)abr→⋅E→b(0)〉+O(r3	434,527	O	O
+)	527,528	O	O
+.	528,529	O	O
+
+VS(r	530,534	O	O
+)	534,535	O	O
+denotes	536,543	O	O
+the	544,547	O	O
+singlet	548,555	O	O
+potential	556,565	O	O
+.	565,566	O	O
+
+δEUS(r	567,573	O	O
+)	573,574	O	O
+denotes	575,582	O	O
+the	583,586	O	O
+non	587,590	O	O
+-	590,591	O	O
+perturbative	591,603	O	O
+contribution	604,616	O	O
+to	617,619	O	O
+the	620,623	O	O
+QCD	624,627	O	B-Material
+potential	628,637	O	I-Material
+,	637,638	O	O
+which	639,644	O	O
+starts	645,651	O	O
+at	652,654	O	O
+O(ΛQCD3r2	655,664	O	O
+)	664,665	O	O
+in	666,668	O	O
+the	669,672	O	O
+multipole	673,682	O	B-Process
+expansion	683,692	O	I-Process
+.	692,693	O	O
+
+ΔV(r)=VO(r)−VS(r	694,710	O	O
+)	710,711	O	O
+denotes	712,719	O	O
+the	720,723	O	O
+difference	724,734	O	O
+between	735,742	O	O
+the	743,746	O	O
+octet	747,752	O	O
+and	753,756	O	O
+singlet	757,764	O	O
+potentials	765,775	O	O
+;	775,776	O	O
+see	777,780	O	O
+[	781,782	O	O
+3	782,783	O	O
+]	783,784	O	O
+for	785,788	O	O
+details	789,796	O	O
+.	796,797	O	O
+
+Intuitively	798,809	O	O
+VS(r	810,814	O	O
+)	814,815	O	O
+corresponds	816,827	O	O
+to	828,830	O	O
+VUV(r;μf	831,839	O	O
+)	839,840	O	O
+and	841,844	O	O
+δEUS(r	845,851	O	O
+)	851,852	O	O
+to	853,855	O	O
+VIR(r;μf	856,864	O	O
+)	864,865	O	O
+.	865,866	O	O
+
+We	867,869	O	O
+adopt	870,875	O	O
+dimensional	876,887	O	B-Process
+regularization	888,902	O	I-Process
+in	903,905	O	O
+our	906,909	O	O
+analysis	910,918	O	O
+;	918,919	O	O
+we	920,922	O	O
+also	923,927	O	O
+refer	928,933	O	O
+to	934,936	O	O
+hard	937,941	O	B-Process
+cutoff	942,948	O	I-Process
+schemes	949,956	O	I-Process
+when	957,961	O	O
+discussing	962,972	O	O
+conceptual	973,983	O	O
+aspects	984,991	O	O
+.	991,992	O	O
 
 
 -DOCSTART- (S0370269304012638)
 
-It	0	2	O
-has	3	6	O
-recently	7	15	O
-been	16	20	O
-demonstrated	21	33	O
-[	34	35	O
-15	35	37	O
-]	37	38	O
-(	39	40	O
-see	40	43	O
-also	44	48	O
-[	49	50	O
-13	50	52	O
-]	52	53	O
-and	54	57	O
-references	58	68	O
-therein	69	76	O
-)	76	77	O
-that	78	82	O
-for	83	86	O
-a	87	88	O
-self	89	93	O
--	93	94	O
-dual	94	98	O
-background	99	109	O
-the	110	113	O
-two	114	117	B-Process
--	117	118	I-Process
-loop	118	122	I-Process
-QED	123	126	I-Process
-effective	127	136	I-Process
-action	137	143	I-Process
-takes	144	149	O
-a	150	151	O
-remarkably	152	162	O
-simple	163	169	O
-form	170	174	O
-that	175	179	O
-is	180	182	O
-very	183	187	O
-similar	188	195	O
-to	196	198	O
-the	199	202	O
-one	203	206	B-Process
--	206	207	I-Process
-loop	207	211	I-Process
-action	212	218	I-Process
-in	219	221	O
-the	222	225	O
-same	226	230	O
-background	231	241	O
-.	241	242	O
-
-There	243	248	O
-are	249	252	O
-expectations	253	265	O
-that	266	270	O
-this	271	275	O
-similarity	276	286	O
-persists	287	295	O
-at	296	298	O
-higher	299	305	B-Process
-loops	306	311	I-Process
-,	311	312	O
-and	313	316	O
-therefore	317	326	O
-there	327	332	O
-should	333	339	O
-be	340	342	O
-some	343	347	O
-remarkable	348	358	O
-structure	359	368	O
-encoded	369	376	O
-in	377	379	O
-the	380	383	O
-all	384	387	B-Process
--	387	388	I-Process
-loop	388	392	I-Process
-effective	393	402	I-Process
-action	403	409	I-Process
-for	410	413	O
-gauge	414	419	O
-theories	420	428	O
-.	428	429	O
-
-In	430	432	O
-the	433	436	O
-supersymmetric	437	451	O
-case	452	456	O
-,	456	457	O
-one	458	461	O
-has	462	465	O
-to	466	468	O
-replace	469	476	O
-the	477	480	O
-requirement	481	492	O
-of	493	495	O
-self	496	500	O
--	500	501	O
-duality	501	508	O
-by	509	511	O
-that	512	516	O
-of	517	519	O
-relaxed	520	527	O
-super	528	533	O
-self	534	538	O
--	538	539	O
-duality	539	546	O
-[	547	548	O
-16	548	550	O
-]	550	551	O
-in	552	554	O
-order	555	560	O
-to	561	563	O
-arrive	564	570	O
-at	571	573	O
-conclusions	574	585	O
-similar	586	593	O
-to	594	596	O
-those	597	602	O
-given	603	608	O
-in	609	611	O
-[	612	613	O
-15	613	615	O
-]	615	616	O
-.	616	617	O
-
-Further	618	625	O
-progress	626	634	O
-in	635	637	O
-this	638	642	O
-direction	643	652	O
-may	653	656	O
-be	657	659	O
-achieved	660	668	O
-through	669	676	O
-the	677	680	O
-analysis	681	689	B-Task
-of	690	692	I-Task
-N=2	693	696	I-Task
-covariant	697	706	I-Task
-supergraphs	707	718	I-Task
-.	718	719	O
-
-Finally	720	727	O
-,	727	728	O
-we	729	731	O
-believe	732	739	O
-that	740	744	O
-the	745	748	O
-results	749	756	O
-of	757	759	O
-this	760	764	O
-Letter	765	771	O
-may	772	775	O
-be	776	778	O
-helpful	779	786	O
-in	787	789	O
-the	790	793	O
-context	794	801	O
-of	802	804	O
-the	805	808	O
-conjectured	809	820	O
-correspondence	821	835	O
-[	836	837	O
-17–19	837	842	O
-]	842	843	O
-between	844	851	O
-the	852	855	O
-D3-brane	856	864	B-Process
-action	865	871	I-Process
-in	872	874	O
-AdS5×S5	875	882	B-Material
-and	883	886	O
-the	887	890	O
-low	891	894	O
--	894	895	O
-energy	895	901	O
-action	902	908	O
-for	909	912	O
-N=4	913	916	O
-SU(N	917	921	O
-
-)	921	922	O
-SYM	923	926	O
-on	927	929	O
-its	930	933	O
-Coulomb	934	941	B-Material
-branch	942	948	I-Material
-,	948	949	O
-with	950	954	O
-the	955	958	O
-gauge	959	964	B-Material
-group	965	970	I-Material
-SU(N	971	975	B-Material
-)	975	976	I-Material
-spontaneously	977	990	O
-broken	991	997	O
-to	998	1000	O
-SU(N−1)×U(1	1001	1012	B-Material
-)	1012	1013	I-Material
-.	1013	1014	O
-
-There	1015	1020	O
-have	1021	1025	O
-appeared	1026	1034	O
-two	1035	1038	O
-independent	1039	1050	O
-F6	1051	1053	B-Task
-tests	1054	1059	I-Task
-of	1060	1062	I-Task
-this	1063	1067	I-Task
-conjecture	1068	1078	I-Task
-[	1079	1080	O
-19,20	1080	1085	O
-]	1085	1086	O
-,	1086	1087	O
-with	1088	1092	O
-conflicting	1093	1104	O
-conclusions	1105	1116	O
-.	1116	1117	O
-
-The	1118	1121	O
-approach	1122	1130	O
-advocated	1131	1140	O
-here	1141	1145	O
-provides	1146	1154	O
-the	1155	1158	O
-opportunity	1159	1170	O
-for	1171	1174	O
-a	1175	1176	O
-further	1177	1184	O
-test	1185	1189	O
-.	1189	1190	O
+It	0,2	O	O
+has	3,6	O	O
+recently	7,15	O	O
+been	16,20	O	O
+demonstrated	21,33	O	O
+[	34,35	O	O
+15	35,37	O	O
+]	37,38	O	O
+(	39,40	O	O
+see	40,43	O	O
+also	44,48	O	O
+[	49,50	O	O
+13	50,52	O	O
+]	52,53	O	O
+and	54,57	O	O
+references	58,68	O	O
+therein	69,76	O	O
+)	76,77	O	O
+that	78,82	O	O
+for	83,86	O	O
+a	87,88	O	O
+self	89,93	O	O
+-	93,94	O	O
+dual	94,98	O	O
+background	99,109	O	O
+the	110,113	O	O
+two	114,117	O	B-Process
+-	117,118	O	I-Process
+loop	118,122	O	I-Process
+QED	123,126	O	I-Process
+effective	127,136	O	I-Process
+action	137,143	O	I-Process
+takes	144,149	O	O
+a	150,151	O	O
+remarkably	152,162	O	O
+simple	163,169	O	O
+form	170,174	O	O
+that	175,179	O	O
+is	180,182	O	O
+very	183,187	O	O
+similar	188,195	O	O
+to	196,198	O	O
+the	199,202	O	O
+one	203,206	O	B-Process
+-	206,207	O	I-Process
+loop	207,211	O	I-Process
+action	212,218	O	I-Process
+in	219,221	O	O
+the	222,225	O	O
+same	226,230	O	O
+background	231,241	O	O
+.	241,242	O	O
+
+There	243,248	O	O
+are	249,252	O	O
+expectations	253,265	O	O
+that	266,270	O	O
+this	271,275	O	O
+similarity	276,286	O	O
+persists	287,295	O	O
+at	296,298	O	O
+higher	299,305	O	B-Process
+loops	306,311	O	I-Process
+,	311,312	O	O
+and	313,316	O	O
+therefore	317,326	O	O
+there	327,332	O	O
+should	333,339	O	O
+be	340,342	O	O
+some	343,347	O	O
+remarkable	348,358	O	O
+structure	359,368	O	O
+encoded	369,376	O	O
+in	377,379	O	O
+the	380,383	O	O
+all	384,387	O	B-Process
+-	387,388	O	I-Process
+loop	388,392	O	I-Process
+effective	393,402	O	I-Process
+action	403,409	O	I-Process
+for	410,413	O	O
+gauge	414,419	O	O
+theories	420,428	O	O
+.	428,429	O	O
+
+In	430,432	O	O
+the	433,436	O	O
+supersymmetric	437,451	O	O
+case	452,456	O	O
+,	456,457	O	O
+one	458,461	O	O
+has	462,465	O	O
+to	466,468	O	O
+replace	469,476	O	O
+the	477,480	O	O
+requirement	481,492	O	O
+of	493,495	O	O
+self	496,500	O	O
+-	500,501	O	O
+duality	501,508	O	O
+by	509,511	O	O
+that	512,516	O	O
+of	517,519	O	O
+relaxed	520,527	O	O
+super	528,533	O	O
+self	534,538	O	O
+-	538,539	O	O
+duality	539,546	O	O
+[	547,548	O	O
+16	548,550	O	O
+]	550,551	O	O
+in	552,554	O	O
+order	555,560	O	O
+to	561,563	O	O
+arrive	564,570	O	O
+at	571,573	O	O
+conclusions	574,585	O	O
+similar	586,593	O	O
+to	594,596	O	O
+those	597,602	O	O
+given	603,608	O	O
+in	609,611	O	O
+[	612,613	O	O
+15	613,615	O	O
+]	615,616	O	O
+.	616,617	O	O
+
+Further	618,625	O	O
+progress	626,634	O	O
+in	635,637	O	O
+this	638,642	O	O
+direction	643,652	O	O
+may	653,656	O	O
+be	657,659	O	O
+achieved	660,668	O	O
+through	669,676	O	O
+the	677,680	O	O
+analysis	681,689	O	B-Task
+of	690,692	O	I-Task
+N=2	693,696	O	I-Task
+covariant	697,706	O	I-Task
+supergraphs	707,718	O	I-Task
+.	718,719	O	O
+
+Finally	720,727	O	O
+,	727,728	O	O
+we	729,731	O	O
+believe	732,739	O	O
+that	740,744	O	O
+the	745,748	O	O
+results	749,756	O	O
+of	757,759	O	O
+this	760,764	O	O
+Letter	765,771	O	O
+may	772,775	O	O
+be	776,778	O	O
+helpful	779,786	O	O
+in	787,789	O	O
+the	790,793	O	O
+context	794,801	O	O
+of	802,804	O	O
+the	805,808	O	O
+conjectured	809,820	O	O
+correspondence	821,835	O	O
+[	836,837	O	O
+17–19	837,842	O	O
+]	842,843	O	O
+between	844,851	O	O
+the	852,855	O	O
+D3-brane	856,864	O	B-Process
+action	865,871	O	I-Process
+in	872,874	O	O
+AdS5×S5	875,882	O	B-Material
+and	883,886	O	O
+the	887,890	O	O
+low	891,894	O	O
+-	894,895	O	O
+energy	895,901	O	O
+action	902,908	O	O
+for	909,912	O	O
+N=4	913,916	O	O
+SU(N	917,921	O	O
+
+)	921,922	O	O
+SYM	923,926	O	O
+on	927,929	O	O
+its	930,933	O	O
+Coulomb	934,941	O	B-Material
+branch	942,948	O	I-Material
+,	948,949	O	O
+with	950,954	O	O
+the	955,958	O	O
+gauge	959,964	O	B-Material
+group	965,970	O	I-Material
+SU(N	971,975	O	B-Material
+)	975,976	O	I-Material
+spontaneously	977,990	O	O
+broken	991,997	O	O
+to	998,1000	O	O
+SU(N−1)×U(1	1001,1012	O	B-Material
+)	1012,1013	O	I-Material
+.	1013,1014	O	O
+
+There	1015,1020	O	O
+have	1021,1025	O	O
+appeared	1026,1034	O	O
+two	1035,1038	O	O
+independent	1039,1050	O	O
+F6	1051,1053	O	B-Task
+tests	1054,1059	O	I-Task
+of	1060,1062	O	I-Task
+this	1063,1067	O	I-Task
+conjecture	1068,1078	O	I-Task
+[	1079,1080	O	O
+19,20	1080,1085	O	O
+]	1085,1086	O	O
+,	1086,1087	O	O
+with	1088,1092	O	O
+conflicting	1093,1104	O	O
+conclusions	1105,1116	O	O
+.	1116,1117	O	O
+
+The	1118,1121	O	O
+approach	1122,1130	O	O
+advocated	1131,1140	O	O
+here	1141,1145	O	O
+provides	1146,1154	O	O
+the	1155,1158	O	O
+opportunity	1159,1170	O	O
+for	1171,1174	O	O
+a	1175,1176	O	O
+further	1177,1184	O	O
+test	1185,1189	O	O
+.	1189,1190	O	O
 
 
 -DOCSTART- (S037877531001949X)
 
-The	0	3	O
-Substrate	4	13	B-Task
-Induced	14	21	I-Task
-Coagulation	22	33	I-Task
-(	34	35	O
-SIC	35	38	B-Task
-)	38	39	O
-coating	40	47	B-Process
-process	48	55	O
-provides	56	64	O
-a	65	66	O
-self	67	71	O
-assembled	72	81	O
-and	82	85	O
-almost	86	92	O
-binder	93	99	O
-free	100	104	O
-coating	105	112	B-Process
-with	113	117	O
-small	118	123	O
-particles	124	133	O
-.	133	134	O
-
-Most	135	139	O
-research	140	148	O
-so	149	151	O
-far	152	155	O
-has	156	159	O
-been	160	164	O
-used	165	169	O
-to	170	172	O
-coat	173	177	O
-a	178	179	O
-variety	180	187	O
-of	188	190	O
-surfaces	191	199	O
-with	200	204	O
-highly	205	211	O
-conductive	212	222	O
-carbon	223	229	B-Material
-blacks	230	236	I-Material
-[	237	238	O
-34,35,36	238	246	O
-]	246	247	O
-.	247	248	O
-
-Layers	249	255	O
-deposited	256	265	O
-by	266	268	O
-this	269	273	O
-technique	274	283	O
-have	284	288	O
-been	289	293	O
-used	294	298	O
-in	299	301	O
-electromagnetic	302	317	B-Process
-wave	318	322	I-Process
-shielding	323	332	I-Process
-,	332	333	O
-in	334	336	O
-the	337	340	O
-metallization	341	354	B-Process
-process	355	362	O
-of	363	365	O
-through	366	373	O
--	373	374	O
-holes	374	379	O
-in	380	382	O
-printed	383	390	B-Material
-wiring	391	397	I-Material
-boards	398	404	I-Material
-,	404	405	O
-and	406	409	O
-in	410	412	O
-the	413	416	O
-manufacture	417	428	O
-of	429	431	O
-conducting	432	442	B-Material
-polymers	443	451	I-Material
-(	452	453	O
-such	453	457	O
-as	458	460	O
-Teflon	461	467	B-Material
-)	467	468	O
-[	469	470	O
-37,38,39	470	478	O
-]	478	479	O
-.	479	480	O
-
-An	481	483	O
-advantage	484	493	O
-of	494	496	O
-this	497	501	O
-dip	502	505	B-Process
--	505	506	I-Process
-coating	506	513	I-Process
-process	514	521	O
-is	522	524	O
-that	525	529	O
-it	530	532	O
-can	533	536	O
-be	537	539	O
-used	540	544	O
-for	545	548	O
-any	549	552	O
-kind	553	557	O
-of	558	560	O
-surface	561	568	O
-,	568	569	O
-provided	570	578	O
-the	579	582	O
-substrate	583	592	O
-is	593	595	O
-stable	596	602	O
-in	603	605	O
-water	606	611	O
-and	612	615	O
-that	616	620	O
-the	621	624	O
-particles	625	634	O
-used	635	639	O
-for	640	643	O
-the	644	647	O
-coating	648	655	O
-form	656	660	O
-a	661	662	O
-meta	663	667	B-Process
--	667	668	I-Process
-stable	668	674	I-Process
-dispersion	675	685	I-Process
-.	685	686	O
-
-Recently	687	695	O
-,	695	696	O
-a	697	698	O
-non	699	702	O
--	702	703	O
-aqueous	703	710	O
-SIC	711	714	B-Process
-coating	715	722	I-Process
-process	723	730	O
-of	731	733	O
-carbon	734	740	B-Material
-black	741	746	I-Material
-was	747	750	O
-developed	751	760	O
-by	761	763	O
-investigating	764	777	O
-the	778	781	O
-stabilities	782	793	O
-of	794	796	O
-non	797	800	O
--	800	801	O
-aqueous	801	808	O
-dispersions	809	820	O
-[	821	822	O
-36	822	824	O
-]	824	825	O
-.	825	826	O
-
-These	827	832	O
-dispersions	833	844	O
-were	845	849	O
-used	850	854	O
-to	855	857	O
-prepare	858	865	O
-LiCoO2-composite	866	882	B-Process
-electrodes	883	893	I-Process
-for	894	897	O
-Li	898	900	B-Process
--	900	901	I-Process
-ion	901	904	I-Process
-batteries	905	914	I-Process
-with	915	919	O
-an	920	922	O
-improved	923	931	O
-conductivity	932	944	O
-while	945	950	O
-keeping	951	958	O
-the	959	962	O
-content	963	970	O
-of	971	973	O
-active	974	980	O
-battery	981	988	O
-material	989	997	O
-high	998	1002	O
-[	1003	1004	O
-35	1004	1006	O
-]	1006	1007	O
-.	1007	1008	O
+The	0,3	O	O
+Substrate	4,13	O	B-Task
+Induced	14,21	O	I-Task
+Coagulation	22,33	O	I-Task
+(	34,35	O	O
+SIC	35,38	O	B-Task
+)	38,39	O	O
+coating	40,47	O	B-Process
+process	48,55	O	O
+provides	56,64	O	O
+a	65,66	O	O
+self	67,71	O	O
+assembled	72,81	O	O
+and	82,85	O	O
+almost	86,92	O	O
+binder	93,99	O	O
+free	100,104	O	O
+coating	105,112	O	B-Process
+with	113,117	O	O
+small	118,123	O	O
+particles	124,133	O	O
+.	133,134	O	O
+
+Most	135,139	O	O
+research	140,148	O	O
+so	149,151	O	O
+far	152,155	O	O
+has	156,159	O	O
+been	160,164	O	O
+used	165,169	O	O
+to	170,172	O	O
+coat	173,177	O	O
+a	178,179	O	O
+variety	180,187	O	O
+of	188,190	O	O
+surfaces	191,199	O	O
+with	200,204	O	O
+highly	205,211	O	O
+conductive	212,222	O	O
+carbon	223,229	O	B-Material
+blacks	230,236	O	I-Material
+[	237,238	O	O
+34,35,36	238,246	O	O
+]	246,247	O	O
+.	247,248	O	O
+
+Layers	249,255	O	O
+deposited	256,265	O	O
+by	266,268	O	O
+this	269,273	O	O
+technique	274,283	O	O
+have	284,288	O	O
+been	289,293	O	O
+used	294,298	O	O
+in	299,301	O	O
+electromagnetic	302,317	O	B-Process
+wave	318,322	O	I-Process
+shielding	323,332	O	I-Process
+,	332,333	O	O
+in	334,336	O	O
+the	337,340	O	O
+metallization	341,354	O	B-Process
+process	355,362	O	O
+of	363,365	O	O
+through	366,373	O	O
+-	373,374	O	O
+holes	374,379	O	O
+in	380,382	O	O
+printed	383,390	O	B-Material
+wiring	391,397	O	I-Material
+boards	398,404	O	I-Material
+,	404,405	O	O
+and	406,409	O	O
+in	410,412	O	O
+the	413,416	O	O
+manufacture	417,428	O	O
+of	429,431	O	O
+conducting	432,442	O	B-Material
+polymers	443,451	O	I-Material
+(	452,453	O	O
+such	453,457	O	O
+as	458,460	O	O
+Teflon	461,467	O	B-Material
+)	467,468	O	O
+[	469,470	O	O
+37,38,39	470,478	O	O
+]	478,479	O	O
+.	479,480	O	O
+
+An	481,483	O	O
+advantage	484,493	O	O
+of	494,496	O	O
+this	497,501	O	O
+dip	502,505	O	B-Process
+-	505,506	O	I-Process
+coating	506,513	O	I-Process
+process	514,521	O	O
+is	522,524	O	O
+that	525,529	O	O
+it	530,532	O	O
+can	533,536	O	O
+be	537,539	O	O
+used	540,544	O	O
+for	545,548	O	O
+any	549,552	O	O
+kind	553,557	O	O
+of	558,560	O	O
+surface	561,568	O	O
+,	568,569	O	O
+provided	570,578	O	O
+the	579,582	O	O
+substrate	583,592	O	O
+is	593,595	O	O
+stable	596,602	O	O
+in	603,605	O	O
+water	606,611	O	O
+and	612,615	O	O
+that	616,620	O	O
+the	621,624	O	O
+particles	625,634	O	O
+used	635,639	O	O
+for	640,643	O	O
+the	644,647	O	O
+coating	648,655	O	O
+form	656,660	O	O
+a	661,662	O	O
+meta	663,667	O	B-Process
+-	667,668	O	I-Process
+stable	668,674	O	I-Process
+dispersion	675,685	O	I-Process
+.	685,686	O	O
+
+Recently	687,695	O	O
+,	695,696	O	O
+a	697,698	O	O
+non	699,702	O	O
+-	702,703	O	O
+aqueous	703,710	O	O
+SIC	711,714	O	B-Process
+coating	715,722	O	I-Process
+process	723,730	O	O
+of	731,733	O	O
+carbon	734,740	O	B-Material
+black	741,746	O	I-Material
+was	747,750	O	O
+developed	751,760	O	O
+by	761,763	O	O
+investigating	764,777	O	O
+the	778,781	O	O
+stabilities	782,793	O	O
+of	794,796	O	O
+non	797,800	O	O
+-	800,801	O	O
+aqueous	801,808	O	O
+dispersions	809,820	O	O
+[	821,822	O	O
+36	822,824	O	O
+]	824,825	O	O
+.	825,826	O	O
+
+These	827,832	O	O
+dispersions	833,844	O	O
+were	845,849	O	O
+used	850,854	O	O
+to	855,857	O	O
+prepare	858,865	O	O
+LiCoO2-composite	866,882	O	B-Process
+electrodes	883,893	O	I-Process
+for	894,897	O	O
+Li	898,900	O	B-Process
+-	900,901	O	I-Process
+ion	901,904	O	I-Process
+batteries	905,914	O	I-Process
+with	915,919	O	O
+an	920,922	O	O
+improved	923,931	O	O
+conductivity	932,944	O	O
+while	945,950	O	O
+keeping	951,958	O	O
+the	959,962	O	O
+content	963,970	O	O
+of	971,973	O	O
+active	974,980	O	O
+battery	981,988	O	O
+material	989,997	O	O
+high	998,1002	O	O
+[	1003,1004	O	O
+35	1004,1006	O	O
+]	1006,1007	O	O
+.	1007,1008	O	O
 
 
 -DOCSTART- (S0885230816301759)
 
-This	0	4	O
-paper	5	10	O
-proposes	11	19	O
-a	20	21	O
-sentence	22	30	B-Process
-stress	31	37	I-Process
-feedback	38	46	I-Process
-system	47	53	I-Process
-in	54	56	O
-which	57	62	O
-sentence	63	71	O
-stress	72	78	O
-prediction	79	89	O
-,	89	90	O
-detection	91	100	O
-,	100	101	O
-and	102	105	O
-feedback	106	114	O
-provision	115	124	O
-models	125	131	O
-are	132	135	O
-combined	136	144	O
-.	144	145	O
-
-This	146	150	O
-system	151	157	O
-provides	158	166	B-Task
-non	167	170	I-Task
--	170	171	I-Task
-native	171	177	I-Task
-learners	178	186	I-Task
-with	187	191	I-Task
-feedback	192	200	I-Task
-on	201	203	I-Task
-sentence	204	212	I-Task
-stress	213	219	I-Task
-errors	220	226	I-Task
-so	227	229	O
-that	230	234	O
-they	235	239	O
-can	240	243	O
-improve	244	251	O
-their	252	257	O
-English	258	265	O
-rhythm	266	272	O
-and	273	276	O
-fluency	277	284	O
-in	285	287	O
-a	288	289	O
-self	290	294	O
--	294	295	O
-study	295	300	O
-setting	301	308	O
-.	308	309	O
-
-The	310	313	O
-sentence	314	322	O
-stress	323	329	O
-feedback	330	338	O
-system	339	345	O
-was	346	349	O
-devised	350	357	O
-to	358	360	O
-predict	361	368	B-Task
-and	369	372	I-Task
-detect	373	379	I-Task
-the	380	383	I-Task
-sentence	384	392	I-Task
-stress	393	399	I-Task
-of	400	402	O
-any	403	406	O
-practice	407	415	O
-sentence	416	424	O
-.	424	425	O
-
-The	426	429	O
-accuracy	430	438	O
-of	439	441	O
-the	442	445	O
-prediction	446	456	B-Process
-and	457	460	I-Process
-detection	461	470	I-Process
-models	471	477	I-Process
-was	478	481	O
-96.6	482	486	O
-%	486	487	O
-and	488	491	O
-84.1	492	496	O
-%	496	497	O
-,	497	498	O
-respectively	499	511	O
-.	511	512	O
-
-The	513	516	O
-stress	517	523	B-Process
-feedback	524	532	I-Process
-provision	533	542	I-Process
-model	543	548	I-Process
-offers	549	555	O
-positive	556	564	O
-or	565	567	O
-negative	568	576	O
-stress	577	583	O
-feedback	584	592	O
-for	593	596	O
-each	597	601	O
-spoken	602	608	O
-word	609	613	O
-by	614	616	O
-comparing	617	626	O
-the	627	630	O
-probability	631	642	O
-of	643	645	O
-the	646	649	O
-predicted	650	659	O
-stress	660	666	O
-pattern	667	674	O
-with	675	679	O
-that	680	684	O
-of	685	687	O
-the	688	691	O
-detected	692	700	O
-stress	701	707	O
-pattern	708	715	O
-.	715	716	O
-
-In	717	719	O
-an	720	722	O
-experiment	723	733	O
-that	734	738	O
-evaluated	739	748	O
-the	749	752	O
-educational	753	764	O
-effect	765	771	O
-of	772	774	O
-the	775	778	O
-proposed	779	787	O
-system	788	794	O
-incorporated	795	807	O
-in	808	810	O
-our	811	814	O
-CALL	815	819	B-Material
-system	820	826	I-Material
-,	826	827	O
-significant	828	839	O
-improvements	840	852	O
-in	853	855	O
-accentedness	856	868	O
-and	869	872	O
-rhythm	873	879	O
-were	880	884	O
-seen	885	889	O
-with	890	894	O
-the	895	898	O
-students	899	907	O
-who	908	911	O
-trained	912	919	O
-with	920	924	O
-our	925	928	O
-system	929	935	O
-but	936	939	O
-not	940	943	O
-with	944	948	O
-those	949	954	O
-in	955	957	O
-the	958	961	O
-control	962	969	O
-group	970	975	O
-.	975	976	O
+This	0,4	O	O
+paper	5,10	O	O
+proposes	11,19	O	O
+a	20,21	O	O
+sentence	22,30	O	B-Process
+stress	31,37	O	I-Process
+feedback	38,46	O	I-Process
+system	47,53	O	I-Process
+in	54,56	O	O
+which	57,62	O	O
+sentence	63,71	O	O
+stress	72,78	O	O
+prediction	79,89	O	O
+,	89,90	O	O
+detection	91,100	O	O
+,	100,101	O	O
+and	102,105	O	O
+feedback	106,114	O	O
+provision	115,124	O	O
+models	125,131	O	O
+are	132,135	O	O
+combined	136,144	O	O
+.	144,145	O	O
+
+This	146,150	O	O
+system	151,157	O	O
+provides	158,166	O	B-Task
+non	167,170	O	I-Task
+-	170,171	O	I-Task
+native	171,177	O	I-Task
+learners	178,186	O	I-Task
+with	187,191	O	I-Task
+feedback	192,200	O	I-Task
+on	201,203	O	I-Task
+sentence	204,212	O	I-Task
+stress	213,219	O	I-Task
+errors	220,226	O	I-Task
+so	227,229	O	O
+that	230,234	O	O
+they	235,239	O	O
+can	240,243	O	O
+improve	244,251	O	O
+their	252,257	O	O
+English	258,265	O	O
+rhythm	266,272	O	O
+and	273,276	O	O
+fluency	277,284	O	O
+in	285,287	O	O
+a	288,289	O	O
+self	290,294	O	O
+-	294,295	O	O
+study	295,300	O	O
+setting	301,308	O	O
+.	308,309	O	O
+
+The	310,313	O	O
+sentence	314,322	O	O
+stress	323,329	O	O
+feedback	330,338	O	O
+system	339,345	O	O
+was	346,349	O	O
+devised	350,357	O	O
+to	358,360	O	O
+predict	361,368	O	B-Task
+and	369,372	O	I-Task
+detect	373,379	O	I-Task
+the	380,383	O	I-Task
+sentence	384,392	O	I-Task
+stress	393,399	O	I-Task
+of	400,402	O	O
+any	403,406	O	O
+practice	407,415	O	O
+sentence	416,424	O	O
+.	424,425	O	O
+
+The	426,429	O	O
+accuracy	430,438	O	O
+of	439,441	O	O
+the	442,445	O	O
+prediction	446,456	O	B-Process
+and	457,460	O	I-Process
+detection	461,470	O	I-Process
+models	471,477	O	I-Process
+was	478,481	O	O
+96.6	482,486	O	O
+%	486,487	O	O
+and	488,491	O	O
+84.1	492,496	O	O
+%	496,497	O	O
+,	497,498	O	O
+respectively	499,511	O	O
+.	511,512	O	O
+
+The	513,516	O	O
+stress	517,523	O	B-Process
+feedback	524,532	O	I-Process
+provision	533,542	O	I-Process
+model	543,548	O	I-Process
+offers	549,555	O	O
+positive	556,564	O	O
+or	565,567	O	O
+negative	568,576	O	O
+stress	577,583	O	O
+feedback	584,592	O	O
+for	593,596	O	O
+each	597,601	O	O
+spoken	602,608	O	O
+word	609,613	O	O
+by	614,616	O	O
+comparing	617,626	O	O
+the	627,630	O	O
+probability	631,642	O	O
+of	643,645	O	O
+the	646,649	O	O
+predicted	650,659	O	O
+stress	660,666	O	O
+pattern	667,674	O	O
+with	675,679	O	O
+that	680,684	O	O
+of	685,687	O	O
+the	688,691	O	O
+detected	692,700	O	O
+stress	701,707	O	O
+pattern	708,715	O	O
+.	715,716	O	O
+
+In	717,719	O	O
+an	720,722	O	O
+experiment	723,733	O	O
+that	734,738	O	O
+evaluated	739,748	O	O
+the	749,752	O	O
+educational	753,764	O	O
+effect	765,771	O	O
+of	772,774	O	O
+the	775,778	O	O
+proposed	779,787	O	O
+system	788,794	O	O
+incorporated	795,807	O	O
+in	808,810	O	O
+our	811,814	O	O
+CALL	815,819	O	B-Material
+system	820,826	O	I-Material
+,	826,827	O	O
+significant	828,839	O	O
+improvements	840,852	O	O
+in	853,855	O	O
+accentedness	856,868	O	O
+and	869,872	O	O
+rhythm	873,879	O	O
+were	880,884	O	O
+seen	885,889	O	O
+with	890,894	O	O
+the	895,898	O	O
+students	899,907	O	O
+who	908,911	O	O
+trained	912,919	O	O
+with	920,924	O	O
+our	925,928	O	O
+system	929,935	O	O
+but	936,939	O	O
+not	940,943	O	O
+with	944,948	O	O
+those	949,954	O	O
+in	955,957	O	O
+the	958,961	O	O
+control	962,969	O	O
+group	970,975	O	O
+.	975,976	O	O
 
 
 -DOCSTART- (S092583881302834X)
 
-Plastically	0	11	O
-deformed	12	20	O
-MGs	21	24	B-Material
-develop	25	32	O
-inhomogeneity	33	46	O
-and	47	50	O
-show	51	55	O
-harder	56	62	O
-and	63	66	O
-softer	67	73	O
-regions	74	81	O
-[	82	83	O
-16	83	85	O
-]	85	86	O
-.	86	87	O
-
-While	88	93	O
-this	94	98	O
-could	99	104	O
-in	105	107	O
-principle	108	117	O
-be	118	120	O
-associated	121	131	O
-with	132	136	O
-a	137	138	O
-BE	139	141	O
-according	142	151	O
-to	152	154	O
-the	155	158	O
-composite	159	168	O
-model	169	174	O
-,	174	175	O
-a	176	177	O
-MG	178	180	B-Material
-provides	181	189	O
-no	190	192	O
-basis	193	198	O
-for	199	202	O
-a	203	204	O
-dislocation	205	216	O
--	216	217	O
-based	217	222	O
-theory	223	229	O
-.	229	230	O
-
-The	231	234	O
-search	235	241	B-Task
-for	242	245	I-Task
-a	246	247	I-Task
-BE	248	250	I-Task
-in	251	253	I-Task
-plastic	254	261	I-Task
-flow	262	266	I-Task
-is	267	269	O
-hindered	270	278	O
-by	279	281	O
-the	282	285	O
-softening	286	295	O
-of	296	298	O
-MGs	299	302	B-Material
-associated	303	313	O
-with	314	318	O
-shear	319	324	B-Process
--	324	325	I-Process
-banding	325	332	I-Process
-(	333	334	O
-in	334	336	O
-contrast	337	345	O
-to	346	348	O
-the	349	352	O
-work	353	357	O
--	357	358	O
-hardening	358	367	O
-familiar	368	376	O
-in	377	379	O
-conventional	380	392	O
-alloys	393	399	O
-)	399	400	O
-.	400	401	O
-
-Anelastic	402	411	B-Process
-deformation	412	423	I-Process
-is	424	426	O
-,	426	427	O
-however	428	435	O
-,	435	436	O
-of	437	439	O
-interest	440	448	O
-as	449	451	O
-its	452	455	O
-time	456	460	O
--	460	461	O
-dependence	461	471	O
-must	472	476	O
-relate	477	483	O
-to	484	486	O
-relaxation	487	497	O
-processes	498	507	O
-in	508	510	O
-the	511	514	O
-MG	515	517	O
-structure	518	527	O
-that	528	532	O
-in	533	535	O
-turn	536	540	O
-should	541	547	O
-be	548	550	O
-connected	551	560	O
-to	561	563	O
-the	564	567	O
-onset	568	573	O
-of	574	576	O
-plasticity	577	587	O
-.	587	588	O
-
-In	589	591	O
-particular	592	602	O
-,	602	603	O
-anelasticity	604	616	O
-may	617	620	O
-offer	621	626	O
-a	627	628	O
-way	629	632	O
-to	633	635	O
-study	636	641	O
-the	642	645	O
-operation	646	655	O
-of	656	658	O
-the	659	662	O
-shear	663	668	B-Process
-transformation	669	683	I-Process
-zones	684	689	I-Process
-(	690	691	O
-STZs	691	695	B-Process
-[	696	697	O
-17	697	699	O
-]	699	700	O
-)	700	701	O
-often	702	707	O
-used	708	712	O
-to	713	715	O
-interpret	716	725	O
-the	726	729	O
-deformation	730	741	O
-of	742	744	O
-MGs	745	748	B-Material
-.	748	749	O
-
-Fujita	750	756	O
-et	757	759	O
-al	760	762	O
-.	762	763	O
-
-have	764	768	O
-used	769	773	O
-torsion	774	781	O
-tests	782	787	O
-to	788	790	O
-observe	791	798	B-Task
-anelasticity	799	811	I-Task
-in	812	814	I-Task
-MGs	815	818	I-Task
-loaded	819	825	O
-(	826	827	O
-at	827	829	O
-maximum	830	837	O
-,	837	838	O
-on	839	841	O
-the	842	845	O
-cylindrical	846	857	O
-sample	858	864	O
-surface	865	872	O
-)	872	873	O
-to	874	876	O
-30	877	879	O
-%	879	880	O
-,	880	881	O
-16	882	884	O
-%	884	885	O
-and	886	889	O
-just	890	894	O
-4	895	896	O
-%	896	897	O
-of	898	900	O
-the	901	904	O
-shear	905	910	O
-yield	911	916	O
-
-stress	917	923	O
-τy	924	926	O
-[	927	928	O
-18	928	930	O
-]	930	931	O
-.	931	932	O
-
-In	933	935	O
-the	936	939	O
-present	940	947	O
-work	948	952	O
-we	953	955	O
-apply	956	961	O
-torsion	962	969	O
-to	970	972	O
-MG	973	975	B-Material
-samples	976	983	O
-to	984	986	O
-reach	987	992	O
-stresses	993	1001	O
-up	1002	1004	O
-to	1005	1007	O
-24	1008	1010	O
-%	1010	1011	O
-of	1012	1014	O
-τy	1015	1017	O
-,	1017	1018	O
-and	1019	1022	O
-for	1023	1026	O
-the	1027	1030	O
-first	1031	1036	O
-time	1037	1041	O
-in	1042	1044	O
-the	1045	1048	O
-elastic	1049	1056	O
-regime	1057	1063	O
-investigate	1064	1075	B-Task
-the	1076	1079	I-Task
-effects	1080	1087	I-Task
-of	1088	1090	I-Task
-torque	1091	1097	I-Task
-reversal	1098	1106	I-Task
-.	1106	1107	I-Task
+Plastically	0,11	O	O
+deformed	12,20	O	O
+MGs	21,24	O	B-Material
+develop	25,32	O	O
+inhomogeneity	33,46	O	O
+and	47,50	O	O
+show	51,55	O	O
+harder	56,62	O	O
+and	63,66	O	O
+softer	67,73	O	O
+regions	74,81	O	O
+[	82,83	O	O
+16	83,85	O	O
+]	85,86	O	O
+.	86,87	O	O
+
+While	88,93	O	O
+this	94,98	O	O
+could	99,104	O	O
+in	105,107	O	O
+principle	108,117	O	O
+be	118,120	O	O
+associated	121,131	O	O
+with	132,136	O	O
+a	137,138	O	O
+BE	139,141	O	O
+according	142,151	O	O
+to	152,154	O	O
+the	155,158	O	O
+composite	159,168	O	O
+model	169,174	O	O
+,	174,175	O	O
+a	176,177	O	O
+MG	178,180	O	B-Material
+provides	181,189	O	O
+no	190,192	O	O
+basis	193,198	O	O
+for	199,202	O	O
+a	203,204	O	O
+dislocation	205,216	O	O
+-	216,217	O	O
+based	217,222	O	O
+theory	223,229	O	O
+.	229,230	O	O
+
+The	231,234	O	O
+search	235,241	O	B-Task
+for	242,245	O	I-Task
+a	246,247	O	I-Task
+BE	248,250	O	I-Task
+in	251,253	O	I-Task
+plastic	254,261	O	I-Task
+flow	262,266	O	I-Task
+is	267,269	O	O
+hindered	270,278	O	O
+by	279,281	O	O
+the	282,285	O	O
+softening	286,295	O	O
+of	296,298	O	O
+MGs	299,302	O	B-Material
+associated	303,313	O	O
+with	314,318	O	O
+shear	319,324	O	B-Process
+-	324,325	O	I-Process
+banding	325,332	O	I-Process
+(	333,334	O	O
+in	334,336	O	O
+contrast	337,345	O	O
+to	346,348	O	O
+the	349,352	O	O
+work	353,357	O	O
+-	357,358	O	O
+hardening	358,367	O	O
+familiar	368,376	O	O
+in	377,379	O	O
+conventional	380,392	O	O
+alloys	393,399	O	O
+)	399,400	O	O
+.	400,401	O	O
+
+Anelastic	402,411	O	B-Process
+deformation	412,423	O	I-Process
+is	424,426	O	O
+,	426,427	O	O
+however	428,435	O	O
+,	435,436	O	O
+of	437,439	O	O
+interest	440,448	O	O
+as	449,451	O	O
+its	452,455	O	O
+time	456,460	O	O
+-	460,461	O	O
+dependence	461,471	O	O
+must	472,476	O	O
+relate	477,483	O	O
+to	484,486	O	O
+relaxation	487,497	O	O
+processes	498,507	O	O
+in	508,510	O	O
+the	511,514	O	O
+MG	515,517	O	O
+structure	518,527	O	O
+that	528,532	O	O
+in	533,535	O	O
+turn	536,540	O	O
+should	541,547	O	O
+be	548,550	O	O
+connected	551,560	O	O
+to	561,563	O	O
+the	564,567	O	O
+onset	568,573	O	O
+of	574,576	O	O
+plasticity	577,587	O	O
+.	587,588	O	O
+
+In	589,591	O	O
+particular	592,602	O	O
+,	602,603	O	O
+anelasticity	604,616	O	O
+may	617,620	O	O
+offer	621,626	O	O
+a	627,628	O	O
+way	629,632	O	O
+to	633,635	O	O
+study	636,641	O	O
+the	642,645	O	O
+operation	646,655	O	O
+of	656,658	O	O
+the	659,662	O	O
+shear	663,668	O	B-Process
+transformation	669,683	O	I-Process
+zones	684,689	O	I-Process
+(	690,691	O	O
+STZs	691,695	O	B-Process
+[	696,697	O	O
+17	697,699	O	O
+]	699,700	O	O
+)	700,701	O	O
+often	702,707	O	O
+used	708,712	O	O
+to	713,715	O	O
+interpret	716,725	O	O
+the	726,729	O	O
+deformation	730,741	O	O
+of	742,744	O	O
+MGs	745,748	O	B-Material
+.	748,749	O	O
+
+Fujita	750,756	O	O
+et	757,759	O	O
+al	760,762	O	O
+.	762,763	O	O
+
+have	764,768	O	O
+used	769,773	O	O
+torsion	774,781	O	O
+tests	782,787	O	O
+to	788,790	O	O
+observe	791,798	O	B-Task
+anelasticity	799,811	O	I-Task
+in	812,814	O	I-Task
+MGs	815,818	O	I-Task
+loaded	819,825	O	O
+(	826,827	O	O
+at	827,829	O	O
+maximum	830,837	O	O
+,	837,838	O	O
+on	839,841	O	O
+the	842,845	O	O
+cylindrical	846,857	O	O
+sample	858,864	O	O
+surface	865,872	O	O
+)	872,873	O	O
+to	874,876	O	O
+30	877,879	O	O
+%	879,880	O	O
+,	880,881	O	O
+16	882,884	O	O
+%	884,885	O	O
+and	886,889	O	O
+just	890,894	O	O
+4	895,896	O	O
+%	896,897	O	O
+of	898,900	O	O
+the	901,904	O	O
+shear	905,910	O	O
+yield	911,916	O	O
+
+stress	917,923	O	O
+τy	924,926	O	O
+[	927,928	O	O
+18	928,930	O	O
+]	930,931	O	O
+.	931,932	O	O
+
+In	933,935	O	O
+the	936,939	O	O
+present	940,947	O	O
+work	948,952	O	O
+we	953,955	O	O
+apply	956,961	O	O
+torsion	962,969	O	O
+to	970,972	O	O
+MG	973,975	O	B-Material
+samples	976,983	O	O
+to	984,986	O	O
+reach	987,992	O	O
+stresses	993,1001	O	O
+up	1002,1004	O	O
+to	1005,1007	O	O
+24	1008,1010	O	O
+%	1010,1011	O	O
+of	1012,1014	O	O
+τy	1015,1017	O	O
+,	1017,1018	O	O
+and	1019,1022	O	O
+for	1023,1026	O	O
+the	1027,1030	O	O
+first	1031,1036	O	O
+time	1037,1041	O	O
+in	1042,1044	O	O
+the	1045,1048	O	O
+elastic	1049,1056	O	O
+regime	1057,1063	O	O
+investigate	1064,1075	O	B-Task
+the	1076,1079	O	I-Task
+effects	1080,1087	O	I-Task
+of	1088,1090	O	I-Task
+torque	1091,1097	O	I-Task
+reversal	1098,1106	O	I-Task
+.	1106,1107	O	I-Task
 
 
 -DOCSTART- (S0925838814009669)
 
-SPS	0	3	B-Material
-has	4	7	O
-been	8	12	O
-utilized	13	21	O
-in	22	24	O
-several	25	32	O
-studies	33	40	O
-to	41	43	O
-retain	44	50	B-Process
-the	51	54	I-Process
-nanostructure	55	68	I-Process
-of	69	71	I-Process
-aluminum	72	80	I-Process
-alloy	81	86	I-Process
-powders	87	94	I-Process
-during	95	101	I-Process
-consolidation	102	115	I-Process
-.	115	116	O
-
-Ye	117	119	O
-et	120	122	O
-al	123	125	O
-.	125	126	O
-investigated	127	139	B-Task
-the	140	143	I-Task
-effect	144	150	I-Task
-of	151	153	I-Task
-processing	154	164	I-Task
-of	165	167	I-Task
-cryomilled	168	178	I-Task
-Al	179	181	I-Task
-5083	182	186	I-Task
-powder	187	193	I-Task
-via	194	197	O
-SPS	198	201	B-Process
-[	202	203	O
-13	203	205	O
-]	205	206	O
-.	206	207	O
-
-X	208	209	B-Process
--	209	210	I-Process
-ray	210	213	I-Process
-Diffraction	214	225	I-Process
-(	226	227	I-Process
-XRD	227	230	I-Process
-)	230	231	I-Process
-grain	232	237	I-Process
-size	238	242	I-Process
-calculations	243	255	I-Process
-before	256	262	O
-and	263	266	O
-after	267	272	O
-SPS	273	276	B-Process
-showed	277	283	O
-that	284	288	O
-the	289	292	O
-average	293	300	O
-grain	301	306	O
-size	307	311	O
-of	312	314	O
-the	315	318	O
-alloy	319	324	B-Material
-only	325	329	O
-increased	330	339	O
-from	340	344	O
-25	345	347	O
-nm	347	349	O
-to	350	352	O
-50	353	355	O
-nm	355	357	O
-(	358	359	O
-from	359	363	O
-powder	364	370	O
-to	371	373	O
-bulk	374	378	O
-state	379	384	O
-)	384	385	O
-.	385	386	O
-
-Subsequently	387	399	O
-,	399	400	O
-the	401	404	O
-hardness	405	413	O
-values	414	420	O
-obtained	421	429	O
-through	430	437	O
-nanoindentation	438	453	B-Process
-for	454	457	O
-specimens	458	467	O
-of	468	470	O
-AA5083	471	477	B-Material
-produced	478	486	O
-via	487	490	O
-SPS	491	494	B-Material
-were	495	499	O
-highly	500	506	O
-improved	507	515	O
-in	516	518	O
-comparison	519	529	O
-to	530	532	O
-conventional	533	545	O
-sintering	546	555	O
-methods	556	563	O
-were	564	568	O
-grain	569	574	O
-coarsening	575	585	O
-takes	586	591	O
-place	592	597	O
-on	598	600	O
-a	601	602	O
-larger	603	609	O
-scale	610	615	O
-.	615	616	O
-
-In	617	619	O
-another	620	627	O
-study	628	633	O
-the	634	637	O
-combination	638	649	B-Process
-of	650	652	I-Process
-cryomilling	653	664	I-Process
-and	665	668	I-Process
-SPS	669	672	I-Process
-of	673	675	I-Process
-AA-5356/B4C	676	687	I-Process
-nanocomposites	688	702	I-Process
-powder	703	709	I-Process
-was	710	713	O
-found	714	719	O
-to	720	722	O
-largely	723	730	O
-improve	731	738	O
-the	739	742	O
-microhardness	743	756	O
-and	757	760	O
-flexural	761	769	O
-strengths	770	779	O
-of	780	782	O
-the	783	786	O
-bulk	787	791	B-Material
-nanocomposite	792	805	I-Material
-.	805	806	O
-
-Rana	807	811	O
-et	812	814	O
-al	815	817	O
-.	817	818	O
-
-[	819	820	O
-14	820	822	O
-]	822	823	O
-investigated	824	836	O
-the	837	840	O
-effect	841	847	O
-of	848	850	O
-SPS	851	854	O
-on	855	857	O
-mechanically	858	870	O
-milled	871	877	O
-AA6061	878	884	O
-
-(	885	886	O
-Al	886	888	O
-–	888	889	O
-
-Mg	889	891	O
-–	891	892	O
-Si	892	894	O
-)	894	895	O
-micro	896	901	O
--	901	902	O
-alloy	902	907	O
-powder	908	914	O
-.	914	915	O
-
-The	916	919	O
-average	920	927	O
-grain	928	933	O
-size	934	938	O
-after	939	944	O
-20h	945	948	O
-of	949	951	O
-milling	952	959	O
-was	960	963	O
-∼35	964	967	O
-nm	967	969	O
-and	970	973	O
-increased	974	983	O
-to	984	986	O
-only	987	991	O
-∼85	992	995	O
-nm	995	997	O
-after	998	1003	O
-processing	1004	1014	O
-with	1015	1019	O
-SPS	1020	1023	B-Material
-at	1024	1026	O
-500	1027	1030	O
-°	1030	1031	O
-C	1031	1032	O
-.	1032	1033	O
-
-Microhardness	1034	1047	O
-and	1048	1051	O
-compressive	1052	1063	O
-tests	1064	1069	O
-were	1070	1074	O
-carried	1075	1082	O
-out	1083	1086	O
-on	1087	1089	O
-the	1090	1093	O
-consolidated	1094	1106	O
-near	1107	1111	O
-full	1112	1116	O
-density	1117	1124	O
-specimens	1125	1134	O
-of	1135	1137	O
-both	1138	1142	O
-unmilled	1143	1151	B-Material
-and	1152	1155	I-Material
-milled	1156	1162	I-Material
-powders	1163	1170	I-Material
-and	1171	1174	O
-the	1175	1178	O
-results	1179	1186	O
-showed	1187	1193	O
-significant	1194	1205	O
-increase	1206	1214	O
-in	1215	1217	O
-both	1218	1222	O
-hardness	1223	1231	O
-and	1232	1235	O
-compressive	1236	1247	O
-strengths	1248	1257	O
-for	1258	1261	O
-the	1262	1265	O
-milled	1266	1272	B-Material
-nanocrystalline	1273	1288	I-Material
-powders	1289	1296	I-Material
-as	1297	1299	O
-a	1300	1301	O
-result	1302	1308	O
-of	1309	1311	O
-the	1312	1315	O
-very	1316	1320	O
-fine	1321	1325	O
-grain	1326	1331	O
-size	1332	1336	O
-.	1336	1337	O
+SPS	0,3	O	B-Material
+has	4,7	O	O
+been	8,12	O	O
+utilized	13,21	O	O
+in	22,24	O	O
+several	25,32	O	O
+studies	33,40	O	O
+to	41,43	O	O
+retain	44,50	O	B-Process
+the	51,54	O	I-Process
+nanostructure	55,68	O	I-Process
+of	69,71	O	I-Process
+aluminum	72,80	O	I-Process
+alloy	81,86	O	I-Process
+powders	87,94	O	I-Process
+during	95,101	O	I-Process
+consolidation	102,115	O	I-Process
+.	115,116	O	O
+
+Ye	117,119	O	O
+et	120,122	O	O
+al	123,125	O	O
+.	125,126	O	O
+investigated	127,139	O	B-Task
+the	140,143	O	I-Task
+effect	144,150	O	I-Task
+of	151,153	O	I-Task
+processing	154,164	O	I-Task
+of	165,167	O	I-Task
+cryomilled	168,178	O	I-Task
+Al	179,181	O	I-Task
+5083	182,186	O	I-Task
+powder	187,193	O	I-Task
+via	194,197	O	O
+SPS	198,201	O	B-Process
+[	202,203	O	O
+13	203,205	O	O
+]	205,206	O	O
+.	206,207	O	O
+
+X	208,209	O	B-Process
+-	209,210	O	I-Process
+ray	210,213	O	I-Process
+Diffraction	214,225	O	I-Process
+(	226,227	O	I-Process
+XRD	227,230	O	I-Process
+)	230,231	O	I-Process
+grain	232,237	O	I-Process
+size	238,242	O	I-Process
+calculations	243,255	O	I-Process
+before	256,262	O	O
+and	263,266	O	O
+after	267,272	O	O
+SPS	273,276	O	B-Process
+showed	277,283	O	O
+that	284,288	O	O
+the	289,292	O	O
+average	293,300	O	O
+grain	301,306	O	O
+size	307,311	O	O
+of	312,314	O	O
+the	315,318	O	O
+alloy	319,324	O	B-Material
+only	325,329	O	O
+increased	330,339	O	O
+from	340,344	O	O
+25	345,347	O	O
+nm	347,349	O	O
+to	350,352	O	O
+50	353,355	O	O
+nm	355,357	O	O
+(	358,359	O	O
+from	359,363	O	O
+powder	364,370	O	O
+to	371,373	O	O
+bulk	374,378	O	O
+state	379,384	O	O
+)	384,385	O	O
+.	385,386	O	O
+
+Subsequently	387,399	O	O
+,	399,400	O	O
+the	401,404	O	O
+hardness	405,413	O	O
+values	414,420	O	O
+obtained	421,429	O	O
+through	430,437	O	O
+nanoindentation	438,453	O	B-Process
+for	454,457	O	O
+specimens	458,467	O	O
+of	468,470	O	O
+AA5083	471,477	O	B-Material
+produced	478,486	O	O
+via	487,490	O	O
+SPS	491,494	O	B-Material
+were	495,499	O	O
+highly	500,506	O	O
+improved	507,515	O	O
+in	516,518	O	O
+comparison	519,529	O	O
+to	530,532	O	O
+conventional	533,545	O	O
+sintering	546,555	O	O
+methods	556,563	O	O
+were	564,568	O	O
+grain	569,574	O	O
+coarsening	575,585	O	O
+takes	586,591	O	O
+place	592,597	O	O
+on	598,600	O	O
+a	601,602	O	O
+larger	603,609	O	O
+scale	610,615	O	O
+.	615,616	O	O
+
+In	617,619	O	O
+another	620,627	O	O
+study	628,633	O	O
+the	634,637	O	O
+combination	638,649	O	B-Process
+of	650,652	O	I-Process
+cryomilling	653,664	O	I-Process
+and	665,668	O	I-Process
+SPS	669,672	O	I-Process
+of	673,675	O	I-Process
+AA-5356/B4C	676,687	O	I-Process
+nanocomposites	688,702	O	I-Process
+powder	703,709	O	I-Process
+was	710,713	O	O
+found	714,719	O	O
+to	720,722	O	O
+largely	723,730	O	O
+improve	731,738	O	O
+the	739,742	O	O
+microhardness	743,756	O	O
+and	757,760	O	O
+flexural	761,769	O	O
+strengths	770,779	O	O
+of	780,782	O	O
+the	783,786	O	O
+bulk	787,791	O	B-Material
+nanocomposite	792,805	O	I-Material
+.	805,806	O	O
+
+Rana	807,811	O	O
+et	812,814	O	O
+al	815,817	O	O
+.	817,818	O	O
+
+[	819,820	O	O
+14	820,822	O	O
+]	822,823	O	O
+investigated	824,836	O	O
+the	837,840	O	O
+effect	841,847	O	O
+of	848,850	O	O
+SPS	851,854	O	O
+on	855,857	O	O
+mechanically	858,870	O	O
+milled	871,877	O	O
+AA6061	878,884	O	O
+
+(	885,886	O	O
+Al	886,888	O	O
+–	888,889	O	O
+
+Mg	889,891	O	O
+–	891,892	O	O
+Si	892,894	O	O
+)	894,895	O	O
+micro	896,901	O	O
+-	901,902	O	O
+alloy	902,907	O	O
+powder	908,914	O	O
+.	914,915	O	O
+
+The	916,919	O	O
+average	920,927	O	O
+grain	928,933	O	O
+size	934,938	O	O
+after	939,944	O	O
+20h	945,948	O	O
+of	949,951	O	O
+milling	952,959	O	O
+was	960,963	O	O
+∼35	964,967	O	O
+nm	967,969	O	O
+and	970,973	O	O
+increased	974,983	O	O
+to	984,986	O	O
+only	987,991	O	O
+∼85	992,995	O	O
+nm	995,997	O	O
+after	998,1003	O	O
+processing	1004,1014	O	O
+with	1015,1019	O	O
+SPS	1020,1023	O	B-Material
+at	1024,1026	O	O
+500	1027,1030	O	O
+°	1030,1031	O	O
+C	1031,1032	O	O
+.	1032,1033	O	O
+
+Microhardness	1034,1047	O	O
+and	1048,1051	O	O
+compressive	1052,1063	O	O
+tests	1064,1069	O	O
+were	1070,1074	O	O
+carried	1075,1082	O	O
+out	1083,1086	O	O
+on	1087,1089	O	O
+the	1090,1093	O	O
+consolidated	1094,1106	O	O
+near	1107,1111	O	O
+full	1112,1116	O	O
+density	1117,1124	O	O
+specimens	1125,1134	O	O
+of	1135,1137	O	O
+both	1138,1142	O	O
+unmilled	1143,1151	O	B-Material
+and	1152,1155	O	I-Material
+milled	1156,1162	O	I-Material
+powders	1163,1170	O	I-Material
+and	1171,1174	O	O
+the	1175,1178	O	O
+results	1179,1186	O	O
+showed	1187,1193	O	O
+significant	1194,1205	O	O
+increase	1206,1214	O	O
+in	1215,1217	O	O
+both	1218,1222	O	O
+hardness	1223,1231	O	O
+and	1232,1235	O	O
+compressive	1236,1247	O	O
+strengths	1248,1257	O	O
+for	1258,1261	O	O
+the	1262,1265	O	O
+milled	1266,1272	O	B-Material
+nanocrystalline	1273,1288	O	I-Material
+powders	1289,1296	O	I-Material
+as	1297,1299	O	O
+a	1300,1301	O	O
+result	1302,1308	O	O
+of	1309,1311	O	O
+the	1312,1315	O	O
+very	1316,1320	O	O
+fine	1321,1325	O	O
+grain	1326,1331	O	O
+size	1332,1336	O	O
+.	1336,1337	O	O
 
 
 -DOCSTART- (S0927025614003322)
 
-A	0	1	O
-principle	2	11	O
-of	12	14	O
-high	15	19	B-Task
--	19	20	I-Task
-throughput	20	30	I-Task
-materials	31	40	I-Task
-science	41	48	I-Task
-is	49	51	O
-that	52	56	O
-one	57	60	O
-does	61	65	O
-not	66	69	O
-know	70	74	O
-a	75	76	O
-priori	77	83	O
-where	84	89	O
-the	90	93	O
-value	94	99	O
-of	100	102	O
-the	103	106	O
-data	107	111	O
-lies	112	116	O
-for	117	120	O
-any	121	124	O
-specific	125	133	O
-application	134	145	O
-.	145	146	O
-
-Trends	147	153	O
-and	154	157	O
-insights	158	166	O
-are	167	170	O
-deduced	171	178	O
-a	179	180	O
-posteriori	181	191	O
-.	191	192	O
-
-This	193	197	O
-requires	198	206	O
-efficient	207	216	B-Task
-interfaces	217	227	I-Task
-to	228	230	I-Task
-interrogate	231	242	I-Task
-available	243	252	I-Task
-data	253	257	I-Task
-on	258	260	I-Task
-various	261	268	I-Task
-levels	269	275	I-Task
-.	275	276	O
-
-We	277	279	O
-have	280	284	O
-developed	285	294	O
-a	295	296	O
-simple	297	303	O
-WEB	304	307	B-Process
--	307	308	I-Process
-based	308	313	I-Process
-API	314	317	I-Process
-to	318	320	O
-greatly	321	328	O
-improve	329	336	B-Task
-the	337	340	I-Task
-accessibility	341	354	I-Task
-and	355	358	I-Task
-utility	359	366	I-Task
-of	367	369	I-Task
-the	370	373	I-Task
-AFLOWLIB	374	382	I-Task
-database	383	391	I-Task
-[	392	393	O
-14	393	395	O
-]	395	396	O
-to	397	399	O
-the	400	403	O
-scientific	404	414	O
-community	415	424	O
-.	424	425	O
-
-Through	426	433	O
-it	434	436	O
-,	436	437	O
-the	438	441	O
-client	442	448	O
-can	449	452	O
-access	453	459	O
-calculated	460	470	O
-physical	471	479	B-Material
-properties	480	490	I-Material
-(	491	492	O
-thermodynamic	492	505	B-Material
-,	505	506	I-Material
-crystallographic	507	523	I-Material
-,	523	524	I-Material
-or	525	527	I-Material
-mechanical	528	538	I-Material
-properties	539	549	I-Material
-)	549	550	O
-,	550	551	O
-as	552	554	O
-well	555	559	O
-as	560	562	O
-simulation	563	573	B-Material
-provenance	574	584	I-Material
-and	585	588	O
-runtime	589	596	B-Material
-properties	597	607	I-Material
-of	608	610	O
-the	611	614	O
-included	615	623	O
-systems	624	631	O
-.	631	632	O
-
-The	633	636	O
-data	637	641	O
-may	642	645	O
-be	646	648	O
-used	649	653	O
-directly	654	662	O
-(	663	664	O
-e.g.	664	668	O
-,	668	669	O
-to	670	672	O
-browse	673	679	B-Process
-a	680	681	I-Process
-class	682	687	I-Process
-of	688	690	I-Process
-materials	691	700	I-Process
-with	701	705	I-Process
-a	706	707	I-Process
-desired	708	715	I-Process
-property	716	724	I-Process
-)	724	725	O
-or	726	728	O
-integrated	729	739	O
-into	740	744	O
-higher	745	751	B-Process
-level	752	757	I-Process
-work	758	762	I-Process
--	762	763	I-Process
-flows	763	768	I-Process
-.	768	769	O
-
-The	770	773	O
-interface	774	783	B-Process
-also	784	788	O
-allows	789	795	O
-for	796	799	O
-the	800	803	O
-sharing	804	811	B-Process
-of	812	814	I-Process
-updates	815	822	I-Process
-of	823	825	I-Process
-data	826	830	I-Process
-used	831	835	O
-in	836	838	O
-previous	839	847	O
-published	848	857	O
-works	858	863	O
-,	863	864	O
-e.g.	865	869	O
-,	869	870	O
-previously	871	881	O
-calculated	882	892	O
-alloy	893	898	B-Material
-phase	899	904	I-Material
-diagrams	905	913	I-Material
-[	914	915	O
-19–31	915	920	O
-]	920	921	O
-,	921	922	O
-thus	923	927	O
-the	928	931	O
-database	932	940	O
-can	941	944	O
-be	945	947	O
-expanded	948	956	O
-systematically	957	971	O
-.	971	972	O
+A	0,1	O	O
+principle	2,11	O	O
+of	12,14	O	O
+high	15,19	O	B-Task
+-	19,20	O	I-Task
+throughput	20,30	O	I-Task
+materials	31,40	O	I-Task
+science	41,48	O	I-Task
+is	49,51	O	O
+that	52,56	O	O
+one	57,60	O	O
+does	61,65	O	O
+not	66,69	O	O
+know	70,74	O	O
+a	75,76	O	O
+priori	77,83	O	O
+where	84,89	O	O
+the	90,93	O	O
+value	94,99	O	O
+of	100,102	O	O
+the	103,106	O	O
+data	107,111	O	O
+lies	112,116	O	O
+for	117,120	O	O
+any	121,124	O	O
+specific	125,133	O	O
+application	134,145	O	O
+.	145,146	O	O
+
+Trends	147,153	O	O
+and	154,157	O	O
+insights	158,166	O	O
+are	167,170	O	O
+deduced	171,178	O	O
+a	179,180	O	O
+posteriori	181,191	O	O
+.	191,192	O	O
+
+This	193,197	O	O
+requires	198,206	O	O
+efficient	207,216	O	B-Task
+interfaces	217,227	O	I-Task
+to	228,230	O	I-Task
+interrogate	231,242	O	I-Task
+available	243,252	O	I-Task
+data	253,257	O	I-Task
+on	258,260	O	I-Task
+various	261,268	O	I-Task
+levels	269,275	O	I-Task
+.	275,276	O	O
+
+We	277,279	O	O
+have	280,284	O	O
+developed	285,294	O	O
+a	295,296	O	O
+simple	297,303	O	O
+WEB	304,307	O	B-Process
+-	307,308	O	I-Process
+based	308,313	O	I-Process
+API	314,317	O	I-Process
+to	318,320	O	O
+greatly	321,328	O	O
+improve	329,336	O	B-Task
+the	337,340	O	I-Task
+accessibility	341,354	O	I-Task
+and	355,358	O	I-Task
+utility	359,366	O	I-Task
+of	367,369	O	I-Task
+the	370,373	O	I-Task
+AFLOWLIB	374,382	O	I-Task
+database	383,391	O	I-Task
+[	392,393	O	O
+14	393,395	O	O
+]	395,396	O	O
+to	397,399	O	O
+the	400,403	O	O
+scientific	404,414	O	O
+community	415,424	O	O
+.	424,425	O	O
+
+Through	426,433	O	O
+it	434,436	O	O
+,	436,437	O	O
+the	438,441	O	O
+client	442,448	O	O
+can	449,452	O	O
+access	453,459	O	O
+calculated	460,470	O	O
+physical	471,479	O	B-Material
+properties	480,490	O	I-Material
+(	491,492	O	O
+thermodynamic	492,505	O	B-Material
+,	505,506	O	I-Material
+crystallographic	507,523	O	I-Material
+,	523,524	O	I-Material
+or	525,527	O	I-Material
+mechanical	528,538	O	I-Material
+properties	539,549	O	I-Material
+)	549,550	O	O
+,	550,551	O	O
+as	552,554	O	O
+well	555,559	O	O
+as	560,562	O	O
+simulation	563,573	O	B-Material
+provenance	574,584	O	I-Material
+and	585,588	O	O
+runtime	589,596	O	B-Material
+properties	597,607	O	I-Material
+of	608,610	O	O
+the	611,614	O	O
+included	615,623	O	O
+systems	624,631	O	O
+.	631,632	O	O
+
+The	633,636	O	O
+data	637,641	O	O
+may	642,645	O	O
+be	646,648	O	O
+used	649,653	O	O
+directly	654,662	O	O
+(	663,664	O	O
+e.g.	664,668	O	O
+,	668,669	O	O
+to	670,672	O	O
+browse	673,679	O	B-Process
+a	680,681	O	I-Process
+class	682,687	O	I-Process
+of	688,690	O	I-Process
+materials	691,700	O	I-Process
+with	701,705	O	I-Process
+a	706,707	O	I-Process
+desired	708,715	O	I-Process
+property	716,724	O	I-Process
+)	724,725	O	O
+or	726,728	O	O
+integrated	729,739	O	O
+into	740,744	O	O
+higher	745,751	O	B-Process
+level	752,757	O	I-Process
+work	758,762	O	I-Process
+-	762,763	O	I-Process
+flows	763,768	O	I-Process
+.	768,769	O	O
+
+The	770,773	O	O
+interface	774,783	O	B-Process
+also	784,788	O	O
+allows	789,795	O	O
+for	796,799	O	O
+the	800,803	O	O
+sharing	804,811	O	B-Process
+of	812,814	O	I-Process
+updates	815,822	O	I-Process
+of	823,825	O	I-Process
+data	826,830	O	I-Process
+used	831,835	O	O
+in	836,838	O	O
+previous	839,847	O	O
+published	848,857	O	O
+works	858,863	O	O
+,	863,864	O	O
+e.g.	865,869	O	O
+,	869,870	O	O
+previously	871,881	O	O
+calculated	882,892	O	O
+alloy	893,898	O	B-Material
+phase	899,904	O	I-Material
+diagrams	905,913	O	I-Material
+[	914,915	O	O
+19–31	915,920	O	O
+]	920,921	O	O
+,	921,922	O	O
+thus	923,927	O	O
+the	928,931	O	O
+database	932,940	O	O
+can	941,944	O	O
+be	945,947	O	O
+expanded	948,956	O	O
+systematically	957,971	O	O
+.	971,972	O	O
 
 
 -DOCSTART- (S0927025614006181)
 
-The	0	3	O
-Discrete	4	12	B-Process
-Element	13	20	I-Process
-Method	21	27	I-Process
-applied	28	35	O
-to	36	38	O
-spheres	39	46	B-Material
-is	47	49	O
-well	50	54	O
-established	55	66	O
-as	67	69	O
-a	70	71	O
-reasonably	72	82	O
-realistic	83	92	O
-tool	93	97	O
-,	97	98	O
-in	99	101	O
-a	102	103	O
-wide	104	108	O
-range	109	114	O
-of	115	117	O
-engineering	118	129	O
-disciplines	130	141	O
-,	141	142	O
-for	143	146	O
-modelling	147	156	B-Task
-packing	157	164	I-Task
-and	165	168	I-Task
-flow	169	173	I-Task
-of	174	176	I-Task
-granular	177	185	I-Task
-materials	186	195	I-Task
-;	195	196	O
-Asmar	197	202	O
-et	203	205	O
-al	206	208	O
-.	208	209	O
-
-[	210	211	O
-8	211	212	O
-]	212	213	O
-describes	214	223	O
-the	224	227	O
-fundamentals	228	240	O
-of	241	243	O
-this	244	248	O
-method	249	255	O
-as	256	258	O
-applied	259	266	O
-by	267	269	O
-code	270	274	O
-developed	275	284	O
-in	285	287	O
--	287	288	O
-house	288	293	O
-at	294	296	O
-Nottingham	297	307	O
-;	307	308	O
-since	309	314	O
-these	315	320	O
-are	321	324	O
-widely	325	331	O
-documented	332	342	O
-the	343	346	O
-details	347	354	O
-are	355	358	O
-not	359	362	O
-reproduced	363	373	O
-here	374	378	O
-,	378	379	O
-simply	380	386	O
-a	387	388	O
-summary	389	396	O
-.	396	397	O
-
-It	398	400	O
-applies	401	408	O
-an	409	411	O
-explicit	412	420	B-Process
-time	421	425	I-Process
-stepping	426	434	I-Process
-approach	435	443	I-Process
-to	444	446	O
-numerically	447	458	B-Process
-integrate	459	468	I-Process
-the	469	472	O
-translational	473	486	B-Process
-and	487	490	I-Process
-rotational	491	501	I-Process
-motion	502	508	I-Process
-of	509	511	O
-each	512	516	O
-particle	517	525	O
-from	526	530	O
-the	531	534	O
-resulting	535	544	O
-forces	545	551	B-Process
-and	552	555	O
-moments	556	563	B-Process
-acting	564	570	O
-on	571	573	O
-them	574	578	O
-at	579	581	O
-each	582	586	O
-timestep	587	595	O
-.	595	596	O
-
-The	597	600	O
-inter	601	606	B-Material
--	606	607	I-Material
-particle	607	615	I-Material
-and	616	619	I-Material
-particle	620	628	I-Material
-wall	629	633	I-Material
-contacts	634	642	I-Material
-are	643	646	O
-modelled	647	655	O
-using	656	661	O
-the	662	665	O
-linear	666	672	B-Process
-spring	673	679	I-Process
-–	679	680	I-Process
-dashpot	680	687	I-Process
-–	687	688	I-Process
-slider	688	694	I-Process
-analogy	695	702	I-Process
-.	702	703	O
-
-Contact	704	711	B-Process
-forces	712	718	I-Process
-are	719	722	O
-modelled	723	731	O
-in	732	734	O
-the	735	738	O
-normal	739	745	O
-and	746	749	O
-tangential	750	760	O
-directions	761	771	O
-with	772	776	O
-respect	777	784	O
-to	785	787	O
-the	788	791	O
-line	792	796	O
-connecting	797	807	O
-the	808	811	O
-particles	812	821	B-Material
-centres	822	829	I-Material
-.	829	830	O
-
-Particle	831	839	B-Process
-elastic	840	847	I-Process
-stiffness	848	857	I-Process
-is	858	860	O
-set	861	864	O
-so	865	867	O
-sphere	868	874	B-Process
-“	875	876	I-Process
-overlap	876	883	I-Process
-”	883	884	I-Process
-is	885	887	O
-not	888	891	O
-significant	892	903	O
-and	904	907	O
-moderate	908	916	O
-contact	917	924	B-Process
-damping	925	932	I-Process
-is	933	935	O
-applied	936	943	O
-.	943	944	O
-
-Particle	945	953	B-Process
-cohesion	954	962	I-Process
-can	963	966	O
-also	967	971	O
-be	972	974	O
-modelled	975	983	O
-but	984	987	O
-is	988	990	O
-assumed	991	998	O
-to	999	1001	O
-be	1002	1004	O
-negligible	1005	1015	O
-in	1016	1018	O
-the	1019	1022	O
-current	1023	1030	O
-study	1031	1036	O
-.	1036	1037	O
-
-The	1038	1041	O
-translational	1042	1055	B-Process
-and	1056	1059	I-Process
-rotational	1060	1070	I-Process
-motion	1071	1077	I-Process
-of	1078	1080	O
-each	1081	1085	O
-particle	1086	1094	B-Material
-is	1095	1097	O
-modelled	1098	1106	O
-using	1107	1112	O
-a	1113	1114	O
-half	1115	1119	B-Process
-step	1120	1124	I-Process
-leap	1125	1129	I-Process
--	1129	1130	I-Process
-frog	1130	1134	I-Process
-Verlet	1135	1141	I-Process
-numerical	1142	1151	I-Process
-integration	1152	1163	I-Process
-scheme	1164	1170	I-Process
-to	1171	1173	O
-update	1174	1180	O
-particle	1181	1189	B-Material
-positions	1190	1199	I-Material
-and	1200	1203	O
-velocities	1204	1214	B-Material
-.	1214	1215	O
-
-Near	1216	1220	B-Process
--	1220	1221	I-Process
-neighbour	1221	1230	I-Process
-lists	1231	1236	I-Process
-are	1237	1240	O
-used	1241	1245	O
-to	1246	1248	O
-increase	1249	1257	O
-the	1258	1261	O
-computational	1262	1275	O
-efficiency	1276	1286	O
-of	1287	1289	O
-determining	1290	1301	O
-particle	1302	1310	B-Material
-contacts	1311	1319	I-Material
-and	1320	1323	O
-a	1324	1325	O
-zoning	1326	1332	B-Process
-method	1333	1339	I-Process
-is	1340	1342	O
-used	1343	1347	O
-each	1348	1352	O
-time	1353	1357	O
-the	1358	1361	O
-list	1362	1366	O
-is	1367	1369	O
-composed	1370	1378	O
-;	1378	1379	O
-that	1380	1384	O
-is	1385	1387	O
-the	1388	1391	O
-system	1392	1398	O
-is	1399	1401	O
-divided	1402	1409	O
-into	1410	1414	O
-cubic	1415	1420	O
-regions	1421	1428	O
-,	1428	1429	O
-each	1430	1434	O
-particle	1435	1443	B-Material
-centre	1444	1450	I-Material
-is	1451	1453	O
-within	1454	1460	O
-one	1461	1464	O
-zone	1465	1469	O
-,	1469	1470	O
-and	1471	1474	O
-potential	1475	1484	O
-contacting	1485	1495	B-Material
-particles	1496	1505	I-Material
-are	1506	1509	O
-within	1510	1516	O
-the	1517	1520	O
-same	1521	1525	O
-or	1526	1528	O
-next	1529	1533	O
--	1533	1534	O
-door	1534	1538	O
-neighbour	1539	1548	O
-zones	1549	1554	O
-.	1554	1555	O
-
-Full	1556	1560	O
-details	1561	1568	O
-are	1569	1572	O
-given	1573	1578	O
-in	1579	1581	O
-Asmar	1582	1587	O
-et	1588	1590	O
-al	1591	1593	O
-.	1593	1594	O
-
-[	1595	1596	O
-8	1596	1597	O
-]	1597	1598	O
-.	1598	1599	O
+The	0,3	O	O
+Discrete	4,12	O	B-Process
+Element	13,20	O	I-Process
+Method	21,27	O	I-Process
+applied	28,35	O	O
+to	36,38	O	O
+spheres	39,46	O	B-Material
+is	47,49	O	O
+well	50,54	O	O
+established	55,66	O	O
+as	67,69	O	O
+a	70,71	O	O
+reasonably	72,82	O	O
+realistic	83,92	O	O
+tool	93,97	O	O
+,	97,98	O	O
+in	99,101	O	O
+a	102,103	O	O
+wide	104,108	O	O
+range	109,114	O	O
+of	115,117	O	O
+engineering	118,129	O	O
+disciplines	130,141	O	O
+,	141,142	O	O
+for	143,146	O	O
+modelling	147,156	O	B-Task
+packing	157,164	O	I-Task
+and	165,168	O	I-Task
+flow	169,173	O	I-Task
+of	174,176	O	I-Task
+granular	177,185	O	I-Task
+materials	186,195	O	I-Task
+;	195,196	O	O
+Asmar	197,202	O	O
+et	203,205	O	O
+al	206,208	O	O
+.	208,209	O	O
+
+[	210,211	O	O
+8	211,212	O	O
+]	212,213	O	O
+describes	214,223	O	O
+the	224,227	O	O
+fundamentals	228,240	O	O
+of	241,243	O	O
+this	244,248	O	O
+method	249,255	O	O
+as	256,258	O	O
+applied	259,266	O	O
+by	267,269	O	O
+code	270,274	O	O
+developed	275,284	O	O
+in	285,287	O	O
+-	287,288	O	O
+house	288,293	O	O
+at	294,296	O	O
+Nottingham	297,307	O	O
+;	307,308	O	O
+since	309,314	O	O
+these	315,320	O	O
+are	321,324	O	O
+widely	325,331	O	O
+documented	332,342	O	O
+the	343,346	O	O
+details	347,354	O	O
+are	355,358	O	O
+not	359,362	O	O
+reproduced	363,373	O	O
+here	374,378	O	O
+,	378,379	O	O
+simply	380,386	O	O
+a	387,388	O	O
+summary	389,396	O	O
+.	396,397	O	O
+
+It	398,400	O	O
+applies	401,408	O	O
+an	409,411	O	O
+explicit	412,420	O	B-Process
+time	421,425	O	I-Process
+stepping	426,434	O	I-Process
+approach	435,443	O	I-Process
+to	444,446	O	O
+numerically	447,458	O	B-Process
+integrate	459,468	O	I-Process
+the	469,472	O	O
+translational	473,486	O	B-Process
+and	487,490	O	I-Process
+rotational	491,501	O	I-Process
+motion	502,508	O	I-Process
+of	509,511	O	O
+each	512,516	O	O
+particle	517,525	O	O
+from	526,530	O	O
+the	531,534	O	O
+resulting	535,544	O	O
+forces	545,551	O	B-Process
+and	552,555	O	O
+moments	556,563	O	B-Process
+acting	564,570	O	O
+on	571,573	O	O
+them	574,578	O	O
+at	579,581	O	O
+each	582,586	O	O
+timestep	587,595	O	O
+.	595,596	O	O
+
+The	597,600	O	O
+inter	601,606	O	B-Material
+-	606,607	O	I-Material
+particle	607,615	O	I-Material
+and	616,619	O	I-Material
+particle	620,628	O	I-Material
+wall	629,633	O	I-Material
+contacts	634,642	O	I-Material
+are	643,646	O	O
+modelled	647,655	O	O
+using	656,661	O	O
+the	662,665	O	O
+linear	666,672	O	B-Process
+spring	673,679	O	I-Process
+–	679,680	O	I-Process
+dashpot	680,687	O	I-Process
+–	687,688	O	I-Process
+slider	688,694	O	I-Process
+analogy	695,702	O	I-Process
+.	702,703	O	O
+
+Contact	704,711	O	B-Process
+forces	712,718	O	I-Process
+are	719,722	O	O
+modelled	723,731	O	O
+in	732,734	O	O
+the	735,738	O	O
+normal	739,745	O	O
+and	746,749	O	O
+tangential	750,760	O	O
+directions	761,771	O	O
+with	772,776	O	O
+respect	777,784	O	O
+to	785,787	O	O
+the	788,791	O	O
+line	792,796	O	O
+connecting	797,807	O	O
+the	808,811	O	O
+particles	812,821	O	B-Material
+centres	822,829	O	I-Material
+.	829,830	O	O
+
+Particle	831,839	O	B-Process
+elastic	840,847	O	I-Process
+stiffness	848,857	O	I-Process
+is	858,860	O	O
+set	861,864	O	O
+so	865,867	O	O
+sphere	868,874	O	B-Process
+“	875,876	O	I-Process
+overlap	876,883	O	I-Process
+”	883,884	O	I-Process
+is	885,887	O	O
+not	888,891	O	O
+significant	892,903	O	O
+and	904,907	O	O
+moderate	908,916	O	O
+contact	917,924	O	B-Process
+damping	925,932	O	I-Process
+is	933,935	O	O
+applied	936,943	O	O
+.	943,944	O	O
+
+Particle	945,953	O	B-Process
+cohesion	954,962	O	I-Process
+can	963,966	O	O
+also	967,971	O	O
+be	972,974	O	O
+modelled	975,983	O	O
+but	984,987	O	O
+is	988,990	O	O
+assumed	991,998	O	O
+to	999,1001	O	O
+be	1002,1004	O	O
+negligible	1005,1015	O	O
+in	1016,1018	O	O
+the	1019,1022	O	O
+current	1023,1030	O	O
+study	1031,1036	O	O
+.	1036,1037	O	O
+
+The	1038,1041	O	O
+translational	1042,1055	O	B-Process
+and	1056,1059	O	I-Process
+rotational	1060,1070	O	I-Process
+motion	1071,1077	O	I-Process
+of	1078,1080	O	O
+each	1081,1085	O	O
+particle	1086,1094	O	B-Material
+is	1095,1097	O	O
+modelled	1098,1106	O	O
+using	1107,1112	O	O
+a	1113,1114	O	O
+half	1115,1119	O	B-Process
+step	1120,1124	O	I-Process
+leap	1125,1129	O	I-Process
+-	1129,1130	O	I-Process
+frog	1130,1134	O	I-Process
+Verlet	1135,1141	O	I-Process
+numerical	1142,1151	O	I-Process
+integration	1152,1163	O	I-Process
+scheme	1164,1170	O	I-Process
+to	1171,1173	O	O
+update	1174,1180	O	O
+particle	1181,1189	O	B-Material
+positions	1190,1199	O	I-Material
+and	1200,1203	O	O
+velocities	1204,1214	O	B-Material
+.	1214,1215	O	O
+
+Near	1216,1220	O	B-Process
+-	1220,1221	O	I-Process
+neighbour	1221,1230	O	I-Process
+lists	1231,1236	O	I-Process
+are	1237,1240	O	O
+used	1241,1245	O	O
+to	1246,1248	O	O
+increase	1249,1257	O	O
+the	1258,1261	O	O
+computational	1262,1275	O	O
+efficiency	1276,1286	O	O
+of	1287,1289	O	O
+determining	1290,1301	O	O
+particle	1302,1310	O	B-Material
+contacts	1311,1319	O	I-Material
+and	1320,1323	O	O
+a	1324,1325	O	O
+zoning	1326,1332	O	B-Process
+method	1333,1339	O	I-Process
+is	1340,1342	O	O
+used	1343,1347	O	O
+each	1348,1352	O	O
+time	1353,1357	O	O
+the	1358,1361	O	O
+list	1362,1366	O	O
+is	1367,1369	O	O
+composed	1370,1378	O	O
+;	1378,1379	O	O
+that	1380,1384	O	O
+is	1385,1387	O	O
+the	1388,1391	O	O
+system	1392,1398	O	O
+is	1399,1401	O	O
+divided	1402,1409	O	O
+into	1410,1414	O	O
+cubic	1415,1420	O	O
+regions	1421,1428	O	O
+,	1428,1429	O	O
+each	1430,1434	O	O
+particle	1435,1443	O	B-Material
+centre	1444,1450	O	I-Material
+is	1451,1453	O	O
+within	1454,1460	O	O
+one	1461,1464	O	O
+zone	1465,1469	O	O
+,	1469,1470	O	O
+and	1471,1474	O	O
+potential	1475,1484	O	O
+contacting	1485,1495	O	B-Material
+particles	1496,1505	O	I-Material
+are	1506,1509	O	O
+within	1510,1516	O	O
+the	1517,1520	O	O
+same	1521,1525	O	O
+or	1526,1528	O	O
+next	1529,1533	O	O
+-	1533,1534	O	O
+door	1534,1538	O	O
+neighbour	1539,1548	O	O
+zones	1549,1554	O	O
+.	1554,1555	O	O
+
+Full	1556,1560	O	O
+details	1561,1568	O	O
+are	1569,1572	O	O
+given	1573,1578	O	O
+in	1579,1581	O	O
+Asmar	1582,1587	O	O
+et	1588,1590	O	O
+al	1591,1593	O	O
+.	1593,1594	O	O
+
+[	1595,1596	O	O
+8	1596,1597	O	O
+]	1597,1598	O	O
+.	1598,1599	O	O
 
 
 -DOCSTART- (S0927025615006357)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-crystal	15	22	B-Process
-plasticity	23	33	I-Process
-model	34	39	I-Process
-,	39	40	O
-in	41	43	O
-combination	44	55	O
-with	56	60	O
-XFEM	61	65	B-Process
-,	65	66	O
-has	67	70	O
-been	71	75	O
-applied	76	83	O
-to	84	86	O
-study	87	92	B-Task
-cyclic	93	99	I-Task
-deformation	100	111	I-Task
-and	112	115	I-Task
-fatigue	116	123	I-Task
-crack	124	129	I-Task
-growth	130	136	I-Task
-in	137	139	O
-a	140	141	O
-nickel	142	148	B-Material
--	148	149	I-Material
-based	149	154	I-Material
-superalloy	155	165	I-Material
-LSHR	166	170	I-Material
-(	171	172	O
-Low	172	175	B-Material
-Solvus	176	182	I-Material
-High	183	187	I-Material
-Refractory	188	198	I-Material
-)	198	199	O
-at	200	202	O
-high	203	207	O
-temperature	208	219	O
-.	219	220	O
-
-The	221	224	O
-first	225	230	O
-objective	231	240	O
-of	241	243	O
-this	244	248	O
-research	249	257	O
-was	258	261	O
-to	262	264	O
-develop	265	272	B-Task
-and	273	276	I-Task
-evaluate	277	285	I-Task
-a	286	287	I-Task
-RVE	288	291	I-Task
--	291	292	I-Task
-based	292	297	I-Task
-finite	298	304	I-Task
-element	305	312	I-Task
-model	313	318	I-Task
-with	319	323	O
-the	324	327	O
-incorporation	328	341	O
-of	342	344	O
-a	345	346	O
-realistic	347	356	O
-material	357	365	O
-microstructure	366	380	O
-.	380	381	O
-
-The	382	385	O
-second	386	392	O
-objective	393	402	O
-of	403	405	O
-this	406	410	O
-work	411	415	O
-was	416	419	O
-to	420	422	O
-determine	423	432	B-Task
-the	433	436	I-Task
-parameters	437	447	I-Task
-of	448	450	I-Task
-a	451	452	I-Task
-crystal	453	460	I-Task
-plasticity	461	471	I-Task
-constitutive	472	484	I-Task
-model	485	490	I-Task
-to	491	493	O
-describe	494	502	O
-the	503	506	O
-cyclic	507	513	B-Process
-deformation	514	525	I-Process
-behaviour	526	535	O
-of	536	538	O
-the	539	542	O
-material	543	551	O
-by	552	554	O
-using	555	560	O
-a	561	562	O
-user	563	567	B-Material
--	567	568	I-Material
-defined	568	575	I-Material
-material	576	584	I-Material
-subroutine	585	595	I-Material
-(	596	597	O
-UMAT	597	601	B-Material
-)	601	602	O
-interfaced	603	613	O
-with	614	618	O
-the	619	622	O
-finite	623	629	O
-element	630	637	O
-package	638	645	O
-ABAQUS	646	652	B-Material
-.	652	653	O
-
-The	654	657	O
-model	658	663	O
-parameters	664	674	O
-were	675	679	O
-calibrated	680	690	O
-from	691	695	O
-extensive	696	705	O
-finite	706	712	B-Process
-element	713	720	I-Process
-analyses	721	729	I-Process
-to	730	732	O
-fit	733	736	O
-the	737	740	O
-monotonic	741	750	B-Material
-,	750	751	I-Material
-stress	752	758	I-Material
-relaxation	759	769	I-Material
-and	770	773	I-Material
-cyclic	774	780	I-Material
-test	781	785	I-Material
-data	786	790	I-Material
-.	790	791	O
-
-The	792	795	O
-third	796	801	O
-objective	802	811	O
-was	812	815	O
-to	816	818	O
-predict	819	826	B-Task
-crack	827	832	I-Task
-growth	833	839	I-Task
-by	840	842	O
-combining	843	852	O
-the	853	856	O
-XFEM	857	861	B-Process
-technique	862	871	I-Process
-and	872	875	O
-the	876	879	O
-calibrated	880	890	B-Process
-crystal	891	898	I-Process
-plasticity	899	909	I-Process
-UMAT	910	914	I-Process
-,	914	915	O
-for	916	919	O
-which	920	925	O
-accumulated	926	937	O
-plastic	938	945	B-Process
-strain	946	952	I-Process
-was	953	956	O
-used	957	961	O
-as	962	964	O
-the	965	968	O
-fracture	969	977	B-Process
-criterion	978	987	I-Process
-.	987	988	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+crystal	15,22	O	B-Process
+plasticity	23,33	O	I-Process
+model	34,39	O	I-Process
+,	39,40	O	O
+in	41,43	O	O
+combination	44,55	O	O
+with	56,60	O	O
+XFEM	61,65	O	B-Process
+,	65,66	O	O
+has	67,70	O	O
+been	71,75	O	O
+applied	76,83	O	O
+to	84,86	O	O
+study	87,92	O	B-Task
+cyclic	93,99	O	I-Task
+deformation	100,111	O	I-Task
+and	112,115	O	I-Task
+fatigue	116,123	O	I-Task
+crack	124,129	O	I-Task
+growth	130,136	O	I-Task
+in	137,139	O	O
+a	140,141	O	O
+nickel	142,148	O	B-Material
+-	148,149	O	I-Material
+based	149,154	O	I-Material
+superalloy	155,165	O	I-Material
+LSHR	166,170	O	I-Material
+(	171,172	O	O
+Low	172,175	O	B-Material
+Solvus	176,182	O	I-Material
+High	183,187	O	I-Material
+Refractory	188,198	O	I-Material
+)	198,199	O	O
+at	200,202	O	O
+high	203,207	O	O
+temperature	208,219	O	O
+.	219,220	O	O
+
+The	221,224	O	O
+first	225,230	O	O
+objective	231,240	O	O
+of	241,243	O	O
+this	244,248	O	O
+research	249,257	O	O
+was	258,261	O	O
+to	262,264	O	O
+develop	265,272	O	B-Task
+and	273,276	O	I-Task
+evaluate	277,285	O	I-Task
+a	286,287	O	I-Task
+RVE	288,291	O	I-Task
+-	291,292	O	I-Task
+based	292,297	O	I-Task
+finite	298,304	O	I-Task
+element	305,312	O	I-Task
+model	313,318	O	I-Task
+with	319,323	O	O
+the	324,327	O	O
+incorporation	328,341	O	O
+of	342,344	O	O
+a	345,346	O	O
+realistic	347,356	O	O
+material	357,365	O	O
+microstructure	366,380	O	O
+.	380,381	O	O
+
+The	382,385	O	O
+second	386,392	O	O
+objective	393,402	O	O
+of	403,405	O	O
+this	406,410	O	O
+work	411,415	O	O
+was	416,419	O	O
+to	420,422	O	O
+determine	423,432	O	B-Task
+the	433,436	O	I-Task
+parameters	437,447	O	I-Task
+of	448,450	O	I-Task
+a	451,452	O	I-Task
+crystal	453,460	O	I-Task
+plasticity	461,471	O	I-Task
+constitutive	472,484	O	I-Task
+model	485,490	O	I-Task
+to	491,493	O	O
+describe	494,502	O	O
+the	503,506	O	O
+cyclic	507,513	O	B-Process
+deformation	514,525	O	I-Process
+behaviour	526,535	O	O
+of	536,538	O	O
+the	539,542	O	O
+material	543,551	O	O
+by	552,554	O	O
+using	555,560	O	O
+a	561,562	O	O
+user	563,567	O	B-Material
+-	567,568	O	I-Material
+defined	568,575	O	I-Material
+material	576,584	O	I-Material
+subroutine	585,595	O	I-Material
+(	596,597	O	O
+UMAT	597,601	O	B-Material
+)	601,602	O	O
+interfaced	603,613	O	O
+with	614,618	O	O
+the	619,622	O	O
+finite	623,629	O	O
+element	630,637	O	O
+package	638,645	O	O
+ABAQUS	646,652	O	B-Material
+.	652,653	O	O
+
+The	654,657	O	O
+model	658,663	O	O
+parameters	664,674	O	O
+were	675,679	O	O
+calibrated	680,690	O	O
+from	691,695	O	O
+extensive	696,705	O	O
+finite	706,712	O	B-Process
+element	713,720	O	I-Process
+analyses	721,729	O	I-Process
+to	730,732	O	O
+fit	733,736	O	O
+the	737,740	O	O
+monotonic	741,750	O	B-Material
+,	750,751	O	I-Material
+stress	752,758	O	I-Material
+relaxation	759,769	O	I-Material
+and	770,773	O	I-Material
+cyclic	774,780	O	I-Material
+test	781,785	O	I-Material
+data	786,790	O	I-Material
+.	790,791	O	O
+
+The	792,795	O	O
+third	796,801	O	O
+objective	802,811	O	O
+was	812,815	O	O
+to	816,818	O	O
+predict	819,826	O	B-Task
+crack	827,832	O	I-Task
+growth	833,839	O	I-Task
+by	840,842	O	O
+combining	843,852	O	O
+the	853,856	O	O
+XFEM	857,861	O	B-Process
+technique	862,871	O	I-Process
+and	872,875	O	O
+the	876,879	O	O
+calibrated	880,890	O	B-Process
+crystal	891,898	O	I-Process
+plasticity	899,909	O	I-Process
+UMAT	910,914	O	I-Process
+,	914,915	O	O
+for	916,919	O	O
+which	920,925	O	O
+accumulated	926,937	O	O
+plastic	938,945	O	B-Process
+strain	946,952	O	I-Process
+was	953,956	O	O
+used	957,961	O	O
+as	962,964	O	O
+the	965,968	O	O
+fracture	969,977	O	B-Process
+criterion	978,987	O	I-Process
+.	987,988	O	O
 
 
 -DOCSTART- (S096386951400070X)
 
-This	0	4	O
-paper	5	10	O
-has	11	14	O
-highlighted	15	26	B-Task
-a	27	28	I-Task
-band	29	33	I-Task
-of	34	36	I-Task
-frequencies	37	48	I-Task
-,	48	49	O
-outside	50	57	O
-the	58	61	O
-conventional	62	74	O
-operation	75	84	O
-range	85	90	O
-,	90	91	O
-and	92	95	O
-close	96	101	O
-to	102	104	O
-electrical	105	115	B-Process
-resonance	116	125	I-Process
-of	126	128	I-Process
-an	129	131	I-Process
-eddy	132	136	I-Process
-current	137	144	I-Process
-probe	145	150	I-Process
-,	150	151	O
-where	152	157	O
-the	158	161	O
-magnitude	162	171	O
-of	172	174	O
-impedance	175	184	B-Material
-SNR	185	188	I-Material
-reaches	189	196	O
-a	197	198	O
-peak	199	203	O
-.	203	204	O
-
-The	205	208	O
-SNR	209	212	B-Material
-of	213	215	O
-scans	216	221	O
-of	222	224	O
-three	225	230	O
-slots	231	236	O
-of	237	239	O
-varying	240	247	O
-depth	248	253	O
-were	254	258	O
-enhanced	259	267	O
-by	268	270	O
-a	271	272	O
-factor	273	279	O
-of	280	282	O
-up	283	285	O
-to	286	288	O
-3.7	289	292	O
-,	292	293	O
-from	294	298	O
-the	299	302	O
-SNR	303	306	B-Material
-measured	307	315	O
-at	316	318	O
-1MHz	319	323	O
-.	323	324	O
-
-This	325	329	O
-is	330	332	O
-a	333	334	O
-result	335	341	O
-of	342	344	O
-a	345	346	O
-defect	347	353	B-Process
--	353	354	I-Process
-decoupling	354	364	I-Process
-resonance	365	374	I-Process
--	374	375	I-Process
-shift	375	380	I-Process
-effect	381	387	I-Process
-and	388	391	O
-is	392	394	O
-referred	395	403	O
-to	404	406	O
-as	407	409	O
-the	410	413	O
-near	414	418	B-Process
-electrical	419	429	I-Process
-resonance	430	439	I-Process
-signal	440	446	I-Process
-enhancement	447	458	I-Process
-(	459	460	O
-NERSE	460	465	B-Process
-)	465	466	O
-phenomenon	467	477	O
-.	477	478	O
-
-NERSE	479	484	B-Process
-frequency	485	494	O
-operation	495	504	O
-has	505	508	O
-significant	509	520	O
-potential	521	530	O
-for	531	534	O
-ECT	535	538	B-Process
-inspection	539	549	I-Process
-,	549	550	O
-and	551	554	O
-opens	555	560	O
-up	561	563	O
-a	564	565	O
-range	566	571	O
-of	572	574	O
-investigative	575	588	O
-possibilities	589	602	O
-.	602	603	O
-
-Within	604	610	O
-this	611	615	O
-investigation	616	629	O
-,	629	630	O
-only	631	635	O
-the	636	639	O
-magnitude	640	649	O
-of	650	652	O
-the	653	656	O
-electrical	657	667	B-Material
-impedance	668	677	I-Material
-has	678	681	O
-been	682	686	O
-analyzed	687	695	O
-.	695	696	O
-
-An	697	699	O
-immediate	700	709	O
-extension	710	719	O
-of	720	722	O
-this	723	727	O
-investigation	728	741	O
-will	742	746	O
-be	747	749	O
-to	750	752	O
-consider	753	761	O
-phase	762	767	O
-information	768	779	O
-,	779	780	O
-and	781	784	O
-determine	785	794	O
-whether	795	802	O
-a	803	804	O
-similar	805	812	O
-exploitable	813	824	O
-NERSE	825	830	B-Process
-effect	831	837	O
-exists	838	844	O
-.	844	845	O
+This	0,4	O	O
+paper	5,10	O	O
+has	11,14	O	O
+highlighted	15,26	O	B-Task
+a	27,28	O	I-Task
+band	29,33	O	I-Task
+of	34,36	O	I-Task
+frequencies	37,48	O	I-Task
+,	48,49	O	O
+outside	50,57	O	O
+the	58,61	O	O
+conventional	62,74	O	O
+operation	75,84	O	O
+range	85,90	O	O
+,	90,91	O	O
+and	92,95	O	O
+close	96,101	O	O
+to	102,104	O	O
+electrical	105,115	O	B-Process
+resonance	116,125	O	I-Process
+of	126,128	O	I-Process
+an	129,131	O	I-Process
+eddy	132,136	O	I-Process
+current	137,144	O	I-Process
+probe	145,150	O	I-Process
+,	150,151	O	O
+where	152,157	O	O
+the	158,161	O	O
+magnitude	162,171	O	O
+of	172,174	O	O
+impedance	175,184	O	B-Material
+SNR	185,188	O	I-Material
+reaches	189,196	O	O
+a	197,198	O	O
+peak	199,203	O	O
+.	203,204	O	O
+
+The	205,208	O	O
+SNR	209,212	O	B-Material
+of	213,215	O	O
+scans	216,221	O	O
+of	222,224	O	O
+three	225,230	O	O
+slots	231,236	O	O
+of	237,239	O	O
+varying	240,247	O	O
+depth	248,253	O	O
+were	254,258	O	O
+enhanced	259,267	O	O
+by	268,270	O	O
+a	271,272	O	O
+factor	273,279	O	O
+of	280,282	O	O
+up	283,285	O	O
+to	286,288	O	O
+3.7	289,292	O	O
+,	292,293	O	O
+from	294,298	O	O
+the	299,302	O	O
+SNR	303,306	O	B-Material
+measured	307,315	O	O
+at	316,318	O	O
+1MHz	319,323	O	O
+.	323,324	O	O
+
+This	325,329	O	O
+is	330,332	O	O
+a	333,334	O	O
+result	335,341	O	O
+of	342,344	O	O
+a	345,346	O	O
+defect	347,353	O	B-Process
+-	353,354	O	I-Process
+decoupling	354,364	O	I-Process
+resonance	365,374	O	I-Process
+-	374,375	O	I-Process
+shift	375,380	O	I-Process
+effect	381,387	O	I-Process
+and	388,391	O	O
+is	392,394	O	O
+referred	395,403	O	O
+to	404,406	O	O
+as	407,409	O	O
+the	410,413	O	O
+near	414,418	O	B-Process
+electrical	419,429	O	I-Process
+resonance	430,439	O	I-Process
+signal	440,446	O	I-Process
+enhancement	447,458	O	I-Process
+(	459,460	O	O
+NERSE	460,465	O	B-Process
+)	465,466	O	O
+phenomenon	467,477	O	O
+.	477,478	O	O
+
+NERSE	479,484	O	B-Process
+frequency	485,494	O	O
+operation	495,504	O	O
+has	505,508	O	O
+significant	509,520	O	O
+potential	521,530	O	O
+for	531,534	O	O
+ECT	535,538	O	B-Process
+inspection	539,549	O	I-Process
+,	549,550	O	O
+and	551,554	O	O
+opens	555,560	O	O
+up	561,563	O	O
+a	564,565	O	O
+range	566,571	O	O
+of	572,574	O	O
+investigative	575,588	O	O
+possibilities	589,602	O	O
+.	602,603	O	O
+
+Within	604,610	O	O
+this	611,615	O	O
+investigation	616,629	O	O
+,	629,630	O	O
+only	631,635	O	O
+the	636,639	O	O
+magnitude	640,649	O	O
+of	650,652	O	O
+the	653,656	O	O
+electrical	657,667	O	B-Material
+impedance	668,677	O	I-Material
+has	678,681	O	O
+been	682,686	O	O
+analyzed	687,695	O	O
+.	695,696	O	O
+
+An	697,699	O	O
+immediate	700,709	O	O
+extension	710,719	O	O
+of	720,722	O	O
+this	723,727	O	O
+investigation	728,741	O	O
+will	742,746	O	O
+be	747,749	O	O
+to	750,752	O	O
+consider	753,761	O	O
+phase	762,767	O	O
+information	768,779	O	O
+,	779,780	O	O
+and	781,784	O	O
+determine	785,794	O	O
+whether	795,802	O	O
+a	803,804	O	O
+similar	805,812	O	O
+exploitable	813,824	O	O
+NERSE	825,830	O	B-Process
+effect	831,837	O	O
+exists	838,844	O	O
+.	844,845	O	O
 
 
 -DOCSTART- (S0963869514000875)
 
-There	0	5	O
-are	6	9	O
-a	10	11	O
-number	12	18	O
-of	19	21	O
-avenues	22	29	O
-to	30	32	O
-explore	33	40	O
-for	41	44	O
-future	45	51	O
-work	52	56	O
-,	56	57	O
-in	58	60	O
-particular	61	71	O
-the	72	75	O
-use	76	79	B-Task
-of	80	82	I-Task
-other	83	88	I-Task
-time	89	93	I-Task
-–	93	94	I-Task
-frequency	94	103	I-Task
-analysis	104	112	I-Task
-methods	113	120	I-Task
-.	120	121	O
-
-The	122	125	O
-STFT	126	130	B-Process
-spectrogram	131	142	I-Process
-was	143	146	O
-utilised	147	155	O
-here	156	160	O
-,	160	161	O
-as	162	164	O
-it	165	167	O
-is	168	170	O
-the	171	174	O
-simplest	175	183	O
-to	184	186	O
-implement	187	196	O
-.	196	197	O
-
-Whilst	198	204	O
-all	205	208	O
-of	209	211	O
-the	212	215	O
-echoes	216	222	O
-could	223	228	O
-be	229	231	O
-clearly	232	239	O
-resolved	240	248	O
-in	249	251	O
-both	252	256	O
-time	257	261	O
-and	262	265	O
-frequency	266	275	O
-,	275	276	O
-the	277	280	O
-spectrogram	281	292	B-Process
-suffers	293	300	O
-from	301	305	O
-a	306	307	O
-fixed	308	313	B-Material
-resolution	314	324	I-Material
-,	324	325	O
-i.e.	326	330	O
-an	331	333	O
-increase	334	342	O
-of	343	345	O
-time	346	350	B-Material
-resolution	351	361	I-Material
-necessarily	362	373	O
-leads	374	379	O
-to	380	382	O
-a	383	384	O
-decrease	385	393	O
-in	394	396	O
-frequency	397	406	B-Material
-resolution	407	417	I-Material
-.	417	418	O
-
-Other	419	424	O
-methods	425	432	O
-of	433	435	O
-time	436	440	B-Process
-–	440	441	I-Process
-frequency	441	450	I-Process
-analysis	451	459	I-Process
-,	459	460	O
-such	461	465	O
-as	466	468	O
-discrete	469	477	B-Process
-wavelet	478	485	I-Process
-analysis	486	494	I-Process
-,	494	495	O
-benefit	496	503	O
-from	504	508	O
-advantage	509	518	O
-of	519	521	O
-multi	522	527	B-Process
--	527	528	I-Process
-resolution	528	538	I-Process
-analysis	539	547	I-Process
-,	547	548	O
-which	549	554	O
-offers	555	561	O
-improved	562	570	O
-temporal	571	579	B-Material
-resolution	580	590	I-Material
-of	591	593	O
-the	594	597	O
-high	598	602	O
-frequency	603	612	O
-components	613	623	O
-,	623	624	O
-and	625	628	O
-frequency	629	638	B-Material
-resolution	639	649	I-Material
-of	650	652	O
-the	653	656	O
-low	657	660	B-Material
-frequency	661	670	I-Material
-components	671	681	I-Material
-[	682	683	O
-25,18,19	683	691	O
-]	691	692	O
-.	692	693	O
-
-Also	694	698	O
-,	698	699	O
-whilst	700	706	O
-the	707	710	O
-current	711	718	O
-work	719	723	O
-has	724	727	O
-utilised	728	736	O
-SH	737	739	B-Material
-waves	740	745	I-Material
-that	746	750	O
-are	751	754	O
-generated	755	764	O
-by	765	767	O
-EMATs	768	773	B-Process
-,	773	774	O
-the	775	778	O
-physics	779	786	O
-that	787	791	O
-describes	792	801	O
-the	802	805	O
-pulsed	806	812	B-Material
-array	813	818	I-Material
-system	819	825	I-Material
-is	826	828	O
-universal	829	838	O
-to	839	841	O
-other	842	847	O
-types	848	853	O
-of	854	856	O
-waves	857	862	O
-.	862	863	O
-
-Future	864	870	O
-work	871	875	O
-will	876	880	O
-include	881	888	O
-demonstrating	889	902	B-Task
-this	903	907	I-Task
-phenomenon	908	918	I-Task
-with	919	923	I-Task
-a	924	925	I-Task
-number	926	932	I-Task
-of	933	935	I-Task
-other	936	941	I-Task
-systems	942	949	I-Task
-,	949	950	O
-for	951	954	O
-example	955	962	O
-using	963	968	O
-longitudinal	969	981	B-Material
-ultrasonic	982	992	I-Material
-waves	993	998	I-Material
-or	999	1001	O
-electromagnetic	1002	1017	B-Material
-waves	1018	1023	I-Material
-.	1023	1024	O
+There	0,5	O	O
+are	6,9	O	O
+a	10,11	O	O
+number	12,18	O	O
+of	19,21	O	O
+avenues	22,29	O	O
+to	30,32	O	O
+explore	33,40	O	O
+for	41,44	O	O
+future	45,51	O	O
+work	52,56	O	O
+,	56,57	O	O
+in	58,60	O	O
+particular	61,71	O	O
+the	72,75	O	O
+use	76,79	O	B-Task
+of	80,82	O	I-Task
+other	83,88	O	I-Task
+time	89,93	O	I-Task
+–	93,94	O	I-Task
+frequency	94,103	O	I-Task
+analysis	104,112	O	I-Task
+methods	113,120	O	I-Task
+.	120,121	O	O
+
+The	122,125	O	O
+STFT	126,130	O	B-Process
+spectrogram	131,142	O	I-Process
+was	143,146	O	O
+utilised	147,155	O	O
+here	156,160	O	O
+,	160,161	O	O
+as	162,164	O	O
+it	165,167	O	O
+is	168,170	O	O
+the	171,174	O	O
+simplest	175,183	O	O
+to	184,186	O	O
+implement	187,196	O	O
+.	196,197	O	O
+
+Whilst	198,204	O	O
+all	205,208	O	O
+of	209,211	O	O
+the	212,215	O	O
+echoes	216,222	O	O
+could	223,228	O	O
+be	229,231	O	O
+clearly	232,239	O	O
+resolved	240,248	O	O
+in	249,251	O	O
+both	252,256	O	O
+time	257,261	O	O
+and	262,265	O	O
+frequency	266,275	O	O
+,	275,276	O	O
+the	277,280	O	O
+spectrogram	281,292	O	B-Process
+suffers	293,300	O	O
+from	301,305	O	O
+a	306,307	O	O
+fixed	308,313	O	B-Material
+resolution	314,324	O	I-Material
+,	324,325	O	O
+i.e.	326,330	O	O
+an	331,333	O	O
+increase	334,342	O	O
+of	343,345	O	O
+time	346,350	O	B-Material
+resolution	351,361	O	I-Material
+necessarily	362,373	O	O
+leads	374,379	O	O
+to	380,382	O	O
+a	383,384	O	O
+decrease	385,393	O	O
+in	394,396	O	O
+frequency	397,406	O	B-Material
+resolution	407,417	O	I-Material
+.	417,418	O	O
+
+Other	419,424	O	O
+methods	425,432	O	O
+of	433,435	O	O
+time	436,440	O	B-Process
+–	440,441	O	I-Process
+frequency	441,450	O	I-Process
+analysis	451,459	O	I-Process
+,	459,460	O	O
+such	461,465	O	O
+as	466,468	O	O
+discrete	469,477	O	B-Process
+wavelet	478,485	O	I-Process
+analysis	486,494	O	I-Process
+,	494,495	O	O
+benefit	496,503	O	O
+from	504,508	O	O
+advantage	509,518	O	O
+of	519,521	O	O
+multi	522,527	O	B-Process
+-	527,528	O	I-Process
+resolution	528,538	O	I-Process
+analysis	539,547	O	I-Process
+,	547,548	O	O
+which	549,554	O	O
+offers	555,561	O	O
+improved	562,570	O	O
+temporal	571,579	O	B-Material
+resolution	580,590	O	I-Material
+of	591,593	O	O
+the	594,597	O	O
+high	598,602	O	O
+frequency	603,612	O	O
+components	613,623	O	O
+,	623,624	O	O
+and	625,628	O	O
+frequency	629,638	O	B-Material
+resolution	639,649	O	I-Material
+of	650,652	O	O
+the	653,656	O	O
+low	657,660	O	B-Material
+frequency	661,670	O	I-Material
+components	671,681	O	I-Material
+[	682,683	O	O
+25,18,19	683,691	O	O
+]	691,692	O	O
+.	692,693	O	O
+
+Also	694,698	O	O
+,	698,699	O	O
+whilst	700,706	O	O
+the	707,710	O	O
+current	711,718	O	O
+work	719,723	O	O
+has	724,727	O	O
+utilised	728,736	O	O
+SH	737,739	O	B-Material
+waves	740,745	O	I-Material
+that	746,750	O	O
+are	751,754	O	O
+generated	755,764	O	O
+by	765,767	O	O
+EMATs	768,773	O	B-Process
+,	773,774	O	O
+the	775,778	O	O
+physics	779,786	O	O
+that	787,791	O	O
+describes	792,801	O	O
+the	802,805	O	O
+pulsed	806,812	O	B-Material
+array	813,818	O	I-Material
+system	819,825	O	I-Material
+is	826,828	O	O
+universal	829,838	O	O
+to	839,841	O	O
+other	842,847	O	O
+types	848,853	O	O
+of	854,856	O	O
+waves	857,862	O	O
+.	862,863	O	O
+
+Future	864,870	O	O
+work	871,875	O	O
+will	876,880	O	O
+include	881,888	O	O
+demonstrating	889,902	O	B-Task
+this	903,907	O	I-Task
+phenomenon	908,918	O	I-Task
+with	919,923	O	I-Task
+a	924,925	O	I-Task
+number	926,932	O	I-Task
+of	933,935	O	I-Task
+other	936,941	O	I-Task
+systems	942,949	O	I-Task
+,	949,950	O	O
+for	951,954	O	O
+example	955,962	O	O
+using	963,968	O	O
+longitudinal	969,981	O	B-Material
+ultrasonic	982,992	O	I-Material
+waves	993,998	O	I-Material
+or	999,1001	O	O
+electromagnetic	1002,1017	O	B-Material
+waves	1018,1023	O	I-Material
+.	1023,1024	O	O
 
 
 -DOCSTART- (S0963869514000954)
 
-Global	0	6	B-Process
-optimisation	7	19	I-Process
-algorithms	20	30	I-Process
-are	31	34	O
-used	35	39	O
-in	40	42	O
-this	43	47	O
-study	48	53	O
-to	54	56	O
-solve	57	62	B-Task
-the	63	66	I-Task
-optimisation	67	79	I-Task
-problem	80	87	I-Task
-as	88	90	O
-they	91	95	O
-are	96	99	O
-known	100	105	O
-to	106	108	O
-be	109	111	O
-efficient	112	121	O
-in	122	124	O
-incorporating	125	138	B-Process
-statistical	139	150	I-Process
-information	151	162	I-Process
-and	163	166	O
-dealing	167	174	O
-with	175	179	O
-complicated	180	191	O
-objective	192	201	B-Process
-functions	202	211	I-Process
-that	212	216	O
-have	217	221	O
-multiple	222	230	O
-local	231	236	B-Material
-minima	237	243	I-Material
-/	243	244	I-Material
-maxima	244	250	I-Material
-.	250	251	O
-
-The	252	255	O
-genetic	256	263	B-Process
-algorithm	264	273	I-Process
-(	274	275	O
-GA	275	277	B-Process
-)	277	278	O
-is	279	281	O
-such	282	286	O
-a	287	288	O
-global	289	295	B-Process
-optimisation	296	308	I-Process
-technique	309	318	I-Process
-that	319	323	O
-mimics	324	330	B-Process
-biological	331	341	I-Process
-evolution	342	351	I-Process
-processes	352	361	I-Process
-and	362	365	O
-is	366	368	O
-used	369	373	O
-in	374	376	O
-this	377	381	O
-particular	382	392	O
-study	393	398	O
-.	398	399	O
-
-The	400	403	O
-algorithm	404	413	O
-starts	414	420	O
-with	421	425	O
-a	426	427	O
-random	428	434	B-Process
-selection	435	444	I-Process
-of	445	447	I-Process
-a	448	449	I-Process
-population	450	460	I-Process
-from	461	465	O
-the	466	469	O
-decision	470	478	B-Material
-variable	479	487	I-Material
-domain	488	494	I-Material
-(	495	496	O
-X	496	497	B-Material
-)	497	498	O
-.	498	499	O
-
-The	500	503	O
-genetic	504	511	B-Process
-algorithm	512	521	I-Process
-repeatedly	522	532	O
-modifies	533	541	O
-this	542	546	O
-population	547	557	O
-.	557	558	O
-
-At	559	561	O
-each	562	566	O
-step	567	571	O
-,	571	572	O
-the	573	576	O
-algorithm	577	586	O
-selects	587	594	B-Process
-a	595	596	I-Process
-group	597	602	I-Process
-of	603	605	I-Process
-individual	606	616	I-Process
-values	617	623	I-Process
-from	624	628	O
-the	629	632	O
-population	633	643	B-Material
-(	644	645	O
-parent	645	651	B-Material
-)	651	652	O
-which	653	658	O
-are	659	662	O
-evolved	663	670	O
-through	671	678	O
-crossover	679	688	B-Process
-or	689	691	O
-mutation	692	700	B-Process
-to	701	703	O
-produce	704	711	O
-members	712	719	O
-of	720	722	O
-the	723	726	O
-next	727	731	O
-generation	732	742	O
-.	742	743	O
-
-This	744	748	O
-process	749	756	O
-is	757	759	O
-repeated	760	768	O
-for	769	772	O
-several	773	780	O
-generations	781	792	O
-until	793	798	O
-an	799	801	O
-optimum	802	809	O
-solution	810	818	O
-is	819	821	O
-reached	822	829	O
-.	829	830	O
-
-See	831	834	O
-[	835	836	O
-19	836	838	O
-]	838	839	O
-for	840	843	O
-a	844	845	O
-fuller	846	852	O
-description	853	864	O
-of	865	867	O
-the	868	871	O
-GA	872	874	B-Process
-.	874	875	O
+Global	0,6	O	B-Process
+optimisation	7,19	O	I-Process
+algorithms	20,30	O	I-Process
+are	31,34	O	O
+used	35,39	O	O
+in	40,42	O	O
+this	43,47	O	O
+study	48,53	O	O
+to	54,56	O	O
+solve	57,62	O	B-Task
+the	63,66	O	I-Task
+optimisation	67,79	O	I-Task
+problem	80,87	O	I-Task
+as	88,90	O	O
+they	91,95	O	O
+are	96,99	O	O
+known	100,105	O	O
+to	106,108	O	O
+be	109,111	O	O
+efficient	112,121	O	O
+in	122,124	O	O
+incorporating	125,138	O	B-Process
+statistical	139,150	O	I-Process
+information	151,162	O	I-Process
+and	163,166	O	O
+dealing	167,174	O	O
+with	175,179	O	O
+complicated	180,191	O	O
+objective	192,201	O	B-Process
+functions	202,211	O	I-Process
+that	212,216	O	O
+have	217,221	O	O
+multiple	222,230	O	O
+local	231,236	O	B-Material
+minima	237,243	O	I-Material
+/	243,244	O	I-Material
+maxima	244,250	O	I-Material
+.	250,251	O	O
+
+The	252,255	O	O
+genetic	256,263	O	B-Process
+algorithm	264,273	O	I-Process
+(	274,275	O	O
+GA	275,277	O	B-Process
+)	277,278	O	O
+is	279,281	O	O
+such	282,286	O	O
+a	287,288	O	O
+global	289,295	O	B-Process
+optimisation	296,308	O	I-Process
+technique	309,318	O	I-Process
+that	319,323	O	O
+mimics	324,330	O	B-Process
+biological	331,341	O	I-Process
+evolution	342,351	O	I-Process
+processes	352,361	O	I-Process
+and	362,365	O	O
+is	366,368	O	O
+used	369,373	O	O
+in	374,376	O	O
+this	377,381	O	O
+particular	382,392	O	O
+study	393,398	O	O
+.	398,399	O	O
+
+The	400,403	O	O
+algorithm	404,413	O	O
+starts	414,420	O	O
+with	421,425	O	O
+a	426,427	O	O
+random	428,434	O	B-Process
+selection	435,444	O	I-Process
+of	445,447	O	I-Process
+a	448,449	O	I-Process
+population	450,460	O	I-Process
+from	461,465	O	O
+the	466,469	O	O
+decision	470,478	O	B-Material
+variable	479,487	O	I-Material
+domain	488,494	O	I-Material
+(	495,496	O	O
+X	496,497	O	B-Material
+)	497,498	O	O
+.	498,499	O	O
+
+The	500,503	O	O
+genetic	504,511	O	B-Process
+algorithm	512,521	O	I-Process
+repeatedly	522,532	O	O
+modifies	533,541	O	O
+this	542,546	O	O
+population	547,557	O	O
+.	557,558	O	O
+
+At	559,561	O	O
+each	562,566	O	O
+step	567,571	O	O
+,	571,572	O	O
+the	573,576	O	O
+algorithm	577,586	O	O
+selects	587,594	O	B-Process
+a	595,596	O	I-Process
+group	597,602	O	I-Process
+of	603,605	O	I-Process
+individual	606,616	O	I-Process
+values	617,623	O	I-Process
+from	624,628	O	O
+the	629,632	O	O
+population	633,643	O	B-Material
+(	644,645	O	O
+parent	645,651	O	B-Material
+)	651,652	O	O
+which	653,658	O	O
+are	659,662	O	O
+evolved	663,670	O	O
+through	671,678	O	O
+crossover	679,688	O	B-Process
+or	689,691	O	O
+mutation	692,700	O	B-Process
+to	701,703	O	O
+produce	704,711	O	O
+members	712,719	O	O
+of	720,722	O	O
+the	723,726	O	O
+next	727,731	O	O
+generation	732,742	O	O
+.	742,743	O	O
+
+This	744,748	O	O
+process	749,756	O	O
+is	757,759	O	O
+repeated	760,768	O	O
+for	769,772	O	O
+several	773,780	O	O
+generations	781,792	O	O
+until	793,798	O	O
+an	799,801	O	O
+optimum	802,809	O	O
+solution	810,818	O	O
+is	819,821	O	O
+reached	822,829	O	O
+.	829,830	O	O
+
+See	831,834	O	O
+[	835,836	O	O
+19	836,838	O	O
+]	838,839	O	O
+for	840,843	O	O
+a	844,845	O	O
+fuller	846,852	O	O
+description	853,864	O	O
+of	865,867	O	O
+the	868,871	O	O
+GA	872,874	O	B-Process
+.	874,875	O	O
 
 
 -DOCSTART- (S0963869514001066)
 
-In	0	2	O
-the	3	6	O
-Total	7	12	B-Process
-Focusing	13	21	I-Process
-Method	22	28	I-Process
-(	29	30	O
-TFM	30	33	B-Process
-)	33	34	O
-the	35	38	O
-beam	39	43	O
-is	44	46	O
-synthetically	47	60	O
-focused	61	68	O
-at	69	71	O
-every	72	77	O
-point	78	83	O
-in	84	86	O
-the	87	90	O
-target	91	97	O
-region	98	104	O
-[	105	106	O
-7	106	107	O
-]	107	108	O
-as	109	111	O
-follows	112	119	O
-.	119	120	O
-
-After	121	126	O
-obtaining	127	136	O
-the	137	140	O
-FMC	141	144	B-Material
-data	145	149	I-Material
-,	149	150	O
-the	151	154	O
-target	155	161	O
-region	162	168	O
-,	168	169	O
-which	170	175	O
-is	176	178	O
-in	179	181	O
-the	182	185	O
-x	186	187	B-Material
-–	187	188	I-Material
-z	188	189	I-Material
-plane	190	195	I-Material
-in	196	198	O
-2D	199	201	O
-(	202	203	O
-Fig	203	206	O
-.	206	207	O
-
-1	208	209	O
-)	209	210	O
-,	210	211	O
-is	212	214	O
-discretized	215	226	B-Process
-into	227	231	I-Process
-a	232	233	I-Process
-grid	234	238	I-Process
-.	238	239	O
-
-The	240	243	O
-signals	244	251	O
-from	252	256	O
-all	257	260	O
-elements	261	269	O
-in	270	272	O
-the	273	276	O
-array	277	282	O
-are	283	286	O
-then	287	291	O
-summed	292	298	B-Process
-to	299	301	O
-synthesize	302	312	B-Process
-a	313	314	I-Process
-focus	315	320	I-Process
-at	321	323	I-Process
-every	324	329	I-Process
-point	330	335	I-Process
-in	336	338	I-Process
-this	339	343	I-Process
-grid	344	348	I-Process
-.	348	349	O
-
-Linear	350	356	B-Process
-interpolation	357	370	I-Process
-of	371	373	O
-the	374	377	O
-time	378	382	O
-domain	383	389	O
-signals	390	397	O
-is	398	400	O
-necessary	401	410	O
-since	411	416	O
-they	417	421	O
-are	422	425	O
-discretely	426	436	B-Process
-sampled	437	444	I-Process
-.	444	445	O
-
-The	446	449	O
-intensity	450	459	O
-of	460	462	O
-the	463	466	O
-TFM	467	470	B-Process
-image	471	476	I-Process
-ITFM	477	481	I-Process
-at	482	484	O
-any	485	488	O
-point	489	494	O
-(	495	496	O
-x	496	497	O
-,	497	498	O
-z	498	499	O
-)	499	500	O
-is	501	503	O
-given	504	509	O
-by:(10)ITFM(x	510	523	O
-,	523	524	O
-z)=|∑HTR(1c((xT−x)2+z2+(xR−x)2+z2))|forallT	524	567	O
-,	567	568	O
-Rwhere	568	574	O
-HTR(t	575	580	O
-)	580	581	O
-is	582	584	O
-the	585	588	O
-Hilbert	589	596	B-Process
-transform	597	606	I-Process
-of	607	609	O
-a	610	611	O
-signal	612	618	O
-uTR(t	619	624	O
-)	624	625	O
-in	626	628	O
-the	629	632	O
-FMC	633	636	B-Material
-data	637	641	I-Material
-,	641	642	O
-xT	643	645	O
-is	646	648	O
-the	649	652	O
-x	653	654	O
--	654	655	O
-position	655	663	O
-of	664	666	O
-the	667	670	O
-transmitting	671	683	B-Material
-element	684	691	I-Material
-(	692	693	O
-T	693	694	B-Material
-)	694	695	O
-and	696	699	O
-xR	700	702	O
-is	703	705	O
-the	706	709	O
-x	710	711	O
--	711	712	O
-position	712	720	O
-of	721	723	O
-the	724	727	O
-receiving	728	737	B-Material
-element	738	745	I-Material
-(	746	747	O
-R	747	748	B-Material
-)	748	749	O
-.	749	750	O
-
-Note	751	755	O
-that	756	760	O
-the	761	764	O
-z	765	766	O
--	766	767	O
-position	767	775	O
-of	776	778	O
-all	779	782	O
-elements	783	791	O
-is	792	794	O
-zero	795	799	O
-(	800	801	O
-Fig	801	804	O
-.	804	805	O
-
-3a	806	808	O
-)	808	809	O
-.	809	810	O
-
-The	811	814	O
-summation	815	824	B-Process
-is	825	827	O
-carried	828	835	O
-out	836	839	O
-for	840	843	O
-all	844	847	O
-possible	848	856	O
-transmitter	857	868	B-Material
-–	868	869	I-Material
-receiver	869	877	I-Material
-pairs	878	883	I-Material
-and	884	887	O
-therefore	888	897	O
-uses	898	902	O
-all	903	906	O
-the	907	910	O
-information	911	922	O
-captured	923	931	O
-with	932	936	O
-FMC	937	940	B-Material
-.	940	941	O
-
-This	942	946	O
-algorithm	947	956	O
-is	957	959	O
-referred	960	968	O
-to	969	971	O
-as	972	974	O
-‘	975	976	O
-conventional	976	988	B-Process
-TFM’	989	993	I-Process
-in	994	996	O
-this	997	1001	O
-paper	1002	1007	O
-.	1007	1008	O
+In	0,2	O	O
+the	3,6	O	O
+Total	7,12	O	B-Process
+Focusing	13,21	O	I-Process
+Method	22,28	O	I-Process
+(	29,30	O	O
+TFM	30,33	O	B-Process
+)	33,34	O	O
+the	35,38	O	O
+beam	39,43	O	O
+is	44,46	O	O
+synthetically	47,60	O	O
+focused	61,68	O	O
+at	69,71	O	O
+every	72,77	O	O
+point	78,83	O	O
+in	84,86	O	O
+the	87,90	O	O
+target	91,97	O	O
+region	98,104	O	O
+[	105,106	O	O
+7	106,107	O	O
+]	107,108	O	O
+as	109,111	O	O
+follows	112,119	O	O
+.	119,120	O	O
+
+After	121,126	O	O
+obtaining	127,136	O	O
+the	137,140	O	O
+FMC	141,144	O	B-Material
+data	145,149	O	I-Material
+,	149,150	O	O
+the	151,154	O	O
+target	155,161	O	O
+region	162,168	O	O
+,	168,169	O	O
+which	170,175	O	O
+is	176,178	O	O
+in	179,181	O	O
+the	182,185	O	O
+x	186,187	O	B-Material
+–	187,188	O	I-Material
+z	188,189	O	I-Material
+plane	190,195	O	I-Material
+in	196,198	O	O
+2D	199,201	O	O
+(	202,203	O	O
+Fig	203,206	O	O
+.	206,207	O	O
+
+1	208,209	O	O
+)	209,210	O	O
+,	210,211	O	O
+is	212,214	O	O
+discretized	215,226	O	B-Process
+into	227,231	O	I-Process
+a	232,233	O	I-Process
+grid	234,238	O	I-Process
+.	238,239	O	O
+
+The	240,243	O	O
+signals	244,251	O	O
+from	252,256	O	O
+all	257,260	O	O
+elements	261,269	O	O
+in	270,272	O	O
+the	273,276	O	O
+array	277,282	O	O
+are	283,286	O	O
+then	287,291	O	O
+summed	292,298	O	B-Process
+to	299,301	O	O
+synthesize	302,312	O	B-Process
+a	313,314	O	I-Process
+focus	315,320	O	I-Process
+at	321,323	O	I-Process
+every	324,329	O	I-Process
+point	330,335	O	I-Process
+in	336,338	O	I-Process
+this	339,343	O	I-Process
+grid	344,348	O	I-Process
+.	348,349	O	O
+
+Linear	350,356	O	B-Process
+interpolation	357,370	O	I-Process
+of	371,373	O	O
+the	374,377	O	O
+time	378,382	O	O
+domain	383,389	O	O
+signals	390,397	O	O
+is	398,400	O	O
+necessary	401,410	O	O
+since	411,416	O	O
+they	417,421	O	O
+are	422,425	O	O
+discretely	426,436	O	B-Process
+sampled	437,444	O	I-Process
+.	444,445	O	O
+
+The	446,449	O	O
+intensity	450,459	O	O
+of	460,462	O	O
+the	463,466	O	O
+TFM	467,470	O	B-Process
+image	471,476	O	I-Process
+ITFM	477,481	O	I-Process
+at	482,484	O	O
+any	485,488	O	O
+point	489,494	O	O
+(	495,496	O	O
+x	496,497	O	O
+,	497,498	O	O
+z	498,499	O	O
+)	499,500	O	O
+is	501,503	O	O
+given	504,509	O	O
+by:(10)ITFM(x	510,523	O	O
+,	523,524	O	O
+z)=|∑HTR(1c((xT−x)2+z2+(xR−x)2+z2))|forallT	524,567	O	O
+,	567,568	O	O
+Rwhere	568,574	O	O
+HTR(t	575,580	O	O
+)	580,581	O	O
+is	582,584	O	O
+the	585,588	O	O
+Hilbert	589,596	O	B-Process
+transform	597,606	O	I-Process
+of	607,609	O	O
+a	610,611	O	O
+signal	612,618	O	O
+uTR(t	619,624	O	O
+)	624,625	O	O
+in	626,628	O	O
+the	629,632	O	O
+FMC	633,636	O	B-Material
+data	637,641	O	I-Material
+,	641,642	O	O
+xT	643,645	O	O
+is	646,648	O	O
+the	649,652	O	O
+x	653,654	O	O
+-	654,655	O	O
+position	655,663	O	O
+of	664,666	O	O
+the	667,670	O	O
+transmitting	671,683	O	B-Material
+element	684,691	O	I-Material
+(	692,693	O	O
+T	693,694	O	B-Material
+)	694,695	O	O
+and	696,699	O	O
+xR	700,702	O	O
+is	703,705	O	O
+the	706,709	O	O
+x	710,711	O	O
+-	711,712	O	O
+position	712,720	O	O
+of	721,723	O	O
+the	724,727	O	O
+receiving	728,737	O	B-Material
+element	738,745	O	I-Material
+(	746,747	O	O
+R	747,748	O	B-Material
+)	748,749	O	O
+.	749,750	O	O
+
+Note	751,755	O	O
+that	756,760	O	O
+the	761,764	O	O
+z	765,766	O	O
+-	766,767	O	O
+position	767,775	O	O
+of	776,778	O	O
+all	779,782	O	O
+elements	783,791	O	O
+is	792,794	O	O
+zero	795,799	O	O
+(	800,801	O	O
+Fig	801,804	O	O
+.	804,805	O	O
+
+3a	806,808	O	O
+)	808,809	O	O
+.	809,810	O	O
+
+The	811,814	O	O
+summation	815,824	O	B-Process
+is	825,827	O	O
+carried	828,835	O	O
+out	836,839	O	O
+for	840,843	O	O
+all	844,847	O	O
+possible	848,856	O	O
+transmitter	857,868	O	B-Material
+–	868,869	O	I-Material
+receiver	869,877	O	I-Material
+pairs	878,883	O	I-Material
+and	884,887	O	O
+therefore	888,897	O	O
+uses	898,902	O	O
+all	903,906	O	O
+the	907,910	O	O
+information	911,922	O	O
+captured	923,931	O	O
+with	932,936	O	O
+FMC	937,940	O	B-Material
+.	940,941	O	O
+
+This	942,946	O	O
+algorithm	947,956	O	O
+is	957,959	O	O
+referred	960,968	O	O
+to	969,971	O	O
+as	972,974	O	O
+‘	975,976	O	O
+conventional	976,988	O	B-Process
+TFM’	989,993	O	I-Process
+in	994,996	O	O
+this	997,1001	O	O
+paper	1002,1007	O	O
+.	1007,1008	O	O
 
 
 -DOCSTART- (S0963869514001078)
 
-It	0	2	O
-is	3	5	O
-known	6	11	O
-that	12	16	O
-as	17	19	O
-the	20	23	O
-temperature	24	35	O
-of	36	38	O
-the	39	42	O
-sample	43	49	O
-rises	50	55	O
-,	55	56	O
-the	57	60	O
-Lorentz	61	68	B-Process
-mechanism	69	78	I-Process
-remains	79	86	O
-dominant	87	95	O
-until	96	101	O
-Tc	102	104	O
-of	105	107	O
-steel	108	113	B-Material
-is	114	116	O
-reached	117	124	O
-(	125	126	O
-770	126	129	O
-°	129	130	O
-C	130	131	O
-for	132	135	O
-a	136	137	O
-low	138	141	B-Material
-carbon	142	148	I-Material
-steel	149	154	I-Material
-)	154	155	O
-,	155	156	O
-when	157	161	O
-the	162	165	O
-magnetostrictive	166	182	B-Process
-mechanism	183	192	I-Process
-becomes	193	200	O
-more	201	205	O
-efficient	206	215	O
-[	216	217	O
-15	217	219	O
-]	219	220	O
-.	220	221	O
-
-Previously	222	232	O
-this	233	237	O
-has	238	241	O
-been	242	246	O
-thought	247	254	O
-due	255	258	O
-to	259	261	O
-a	262	263	O
-thin	264	268	O
-ferromagnetic	269	282	B-Material
-oxide	283	288	I-Material
-layer	289	294	O
-on	295	297	O
-the	298	301	O
-sample	302	308	O
-surface	309	316	O
-,	316	317	O
-the	318	321	O
-surface	322	329	O
-being	330	335	O
-cooler	336	342	O
-than	343	347	O
-the	348	351	O
-bulk	352	356	O
-of	357	359	O
-the	360	363	O
-material	364	372	O
-[	373	374	O
-16,17	374	379	O
-]	379	380	O
-.	380	381	O
-
-This	382	386	O
-layer	387	392	O
-concentrates	393	405	O
-the	406	409	O
-magnetic	410	418	B-Material
-field	419	424	I-Material
-,	424	425	O
-increasing	426	436	O
-generation	437	447	B-Process
-efficiency	448	458	I-Process
-.	458	459	O
-
-Recent	460	466	O
-studies	467	474	O
-also	475	479	O
-show	480	484	O
-that	485	489	O
-rearrangement	490	503	O
-of	504	506	O
-the	507	510	O
-magnetic	511	519	O
-moments	520	527	O
-from	528	532	O
-ordered	533	540	O
-domains	541	548	O
-to	549	551	O
-a	552	553	O
-disordered	554	564	O
-state	565	570	O
-at	571	573	O
-a	574	575	O
-magnetic	576	584	B-Process
-phase	585	590	I-Process
-transition	591	601	I-Process
-lowers	602	608	O
-the	609	612	O
-magnetostrictive	613	629	O
-constant	630	638	O
-.	638	639	O
-
-This	640	644	O
-ferromagnetic	645	658	B-Process
-to	659	661	I-Process
-paramagnetic	662	674	I-Process
-transition	675	685	I-Process
-is	686	688	O
-accompanied	689	700	O
-by	701	703	O
-large	704	709	O
-changes	710	717	O
-in	718	720	O
-the	721	724	O
-efficiency	725	735	O
-of	736	738	O
-electromagnetic	739	754	B-Process
-ultrasound	755	765	I-Process
-generation	766	776	I-Process
-leading	777	784	O
-to	785	787	O
-the	788	791	O
-use	792	795	O
-of	796	798	O
-EMATs	799	804	B-Material
-as	805	807	O
-a	808	809	O
-method	810	816	O
-of	817	819	O
-studying	820	828	B-Task
-phase	829	834	I-Task
-transitions	835	846	I-Task
-in	847	849	O
-magnetic	850	858	B-Material
-alloys	859	865	I-Material
-[	866	867	O
-18	867	869	O
-]	869	870	O
-.	870	871	O
+It	0,2	O	O
+is	3,5	O	O
+known	6,11	O	O
+that	12,16	O	O
+as	17,19	O	O
+the	20,23	O	O
+temperature	24,35	O	O
+of	36,38	O	O
+the	39,42	O	O
+sample	43,49	O	O
+rises	50,55	O	O
+,	55,56	O	O
+the	57,60	O	O
+Lorentz	61,68	O	B-Process
+mechanism	69,78	O	I-Process
+remains	79,86	O	O
+dominant	87,95	O	O
+until	96,101	O	O
+Tc	102,104	O	O
+of	105,107	O	O
+steel	108,113	O	B-Material
+is	114,116	O	O
+reached	117,124	O	O
+(	125,126	O	O
+770	126,129	O	O
+°	129,130	O	O
+C	130,131	O	O
+for	132,135	O	O
+a	136,137	O	O
+low	138,141	O	B-Material
+carbon	142,148	O	I-Material
+steel	149,154	O	I-Material
+)	154,155	O	O
+,	155,156	O	O
+when	157,161	O	O
+the	162,165	O	O
+magnetostrictive	166,182	O	B-Process
+mechanism	183,192	O	I-Process
+becomes	193,200	O	O
+more	201,205	O	O
+efficient	206,215	O	O
+[	216,217	O	O
+15	217,219	O	O
+]	219,220	O	O
+.	220,221	O	O
+
+Previously	222,232	O	O
+this	233,237	O	O
+has	238,241	O	O
+been	242,246	O	O
+thought	247,254	O	O
+due	255,258	O	O
+to	259,261	O	O
+a	262,263	O	O
+thin	264,268	O	O
+ferromagnetic	269,282	O	B-Material
+oxide	283,288	O	I-Material
+layer	289,294	O	O
+on	295,297	O	O
+the	298,301	O	O
+sample	302,308	O	O
+surface	309,316	O	O
+,	316,317	O	O
+the	318,321	O	O
+surface	322,329	O	O
+being	330,335	O	O
+cooler	336,342	O	O
+than	343,347	O	O
+the	348,351	O	O
+bulk	352,356	O	O
+of	357,359	O	O
+the	360,363	O	O
+material	364,372	O	O
+[	373,374	O	O
+16,17	374,379	O	O
+]	379,380	O	O
+.	380,381	O	O
+
+This	382,386	O	O
+layer	387,392	O	O
+concentrates	393,405	O	O
+the	406,409	O	O
+magnetic	410,418	O	B-Material
+field	419,424	O	I-Material
+,	424,425	O	O
+increasing	426,436	O	O
+generation	437,447	O	B-Process
+efficiency	448,458	O	I-Process
+.	458,459	O	O
+
+Recent	460,466	O	O
+studies	467,474	O	O
+also	475,479	O	O
+show	480,484	O	O
+that	485,489	O	O
+rearrangement	490,503	O	O
+of	504,506	O	O
+the	507,510	O	O
+magnetic	511,519	O	O
+moments	520,527	O	O
+from	528,532	O	O
+ordered	533,540	O	O
+domains	541,548	O	O
+to	549,551	O	O
+a	552,553	O	O
+disordered	554,564	O	O
+state	565,570	O	O
+at	571,573	O	O
+a	574,575	O	O
+magnetic	576,584	O	B-Process
+phase	585,590	O	I-Process
+transition	591,601	O	I-Process
+lowers	602,608	O	O
+the	609,612	O	O
+magnetostrictive	613,629	O	O
+constant	630,638	O	O
+.	638,639	O	O
+
+This	640,644	O	O
+ferromagnetic	645,658	O	B-Process
+to	659,661	O	I-Process
+paramagnetic	662,674	O	I-Process
+transition	675,685	O	I-Process
+is	686,688	O	O
+accompanied	689,700	O	O
+by	701,703	O	O
+large	704,709	O	O
+changes	710,717	O	O
+in	718,720	O	O
+the	721,724	O	O
+efficiency	725,735	O	O
+of	736,738	O	O
+electromagnetic	739,754	O	B-Process
+ultrasound	755,765	O	I-Process
+generation	766,776	O	I-Process
+leading	777,784	O	O
+to	785,787	O	O
+the	788,791	O	O
+use	792,795	O	O
+of	796,798	O	O
+EMATs	799,804	O	B-Material
+as	805,807	O	O
+a	808,809	O	O
+method	810,816	O	O
+of	817,819	O	O
+studying	820,828	O	B-Task
+phase	829,834	O	I-Task
+transitions	835,846	O	I-Task
+in	847,849	O	O
+magnetic	850,858	O	B-Material
+alloys	859,865	O	I-Material
+[	866,867	O	O
+18	867,869	O	O
+]	869,870	O	O
+.	870,871	O	O
 
 
 -DOCSTART- (S0963869515000572)
 
-Shear	0	5	B-Material
-horizontal	6	16	I-Material
-(	17	18	I-Material
-SH	18	20	I-Material
-)	20	21	I-Material
-ultrasound	22	32	I-Material
-waves	33	38	I-Material
-are	39	42	O
-guided	43	49	B-Material
-waves	50	55	I-Material
-(	56	57	O
-they	57	61	O
-have	62	66	O
-propagation	67	78	O
-properties	79	89	O
-affected	90	98	O
-by	99	101	O
-the	102	105	O
-geometry	106	114	O
-of	115	117	O
-the	118	121	O
-propagation	122	133	B-Process
-medium	134	140	O
-)	140	141	O
-,	141	142	O
-with	143	147	O
-symmetric	148	157	O
-and	158	161	O
-anti	162	166	O
--	166	167	O
-symmetric	167	176	O
-modes	177	182	O
-;	182	183	O
-phase	184	189	O
-and	190	193	O
-group	194	199	O
-speeds	200	206	O
-are	207	210	O
-dependent	211	220	O
-on	221	223	O
-frequency	224	233	O
-,	233	234	O
-sample	235	241	O
-thickness	242	251	O
-,	251	252	O
-and	253	256	O
-the	257	260	O
-bulk	261	265	B-Process
-shear	266	271	I-Process
-wave	272	276	I-Process
-speed	277	282	I-Process
-[	283	284	O
-11,12	284	289	O
-]	289	290	O
-.	290	291	O
-
-The	292	295	O
-properties	296	306	O
-of	307	309	O
-the	310	313	O
-different	314	323	O
-modes	324	329	O
-can	330	333	O
-be	334	336	O
-very	337	341	O
-useful	342	348	O
-,	348	349	O
-such	350	354	O
-as	355	357	O
-in	358	360	O
-thickness	361	370	O
-measurement	371	382	O
-[	383	384	O
-13	384	386	O
-]	386	387	O
-,	387	388	O
-but	389	392	O
-in	393	395	O
-this	396	400	O
-case	401	405	O
-they	406	410	O
-are	411	414	O
-a	415	416	O
-complication	417	429	O
-.	429	430	O
-
-SH0	431	434	B-Material
-has	435	438	O
-a	439	440	O
-thickness	441	450	O
-independent	451	462	O
-speed	463	468	O
-,	468	469	O
-equal	470	475	O
-to	476	478	O
-the	479	482	O
-shear	483	488	B-Process
-wave	489	493	I-Process
-speed	494	499	I-Process
-,	499	500	O
-and	501	504	O
-is	505	507	O
-non	508	511	O
--	511	512	O
-dispersive	512	522	O
-(	523	524	O
-the	524	527	O
-phase	528	533	B-Process
-and	534	537	I-Process
-group	538	543	I-Process
-speed	544	549	I-Process
-are	550	553	O
-equal	554	559	O
-to	560	562	O
-the	563	566	O
-shear	567	572	B-Process
-wave	573	577	I-Process
-speed	578	583	I-Process
-for	584	587	O
-all	588	591	O
-frequencies	592	603	O
-)	603	604	O
-.	604	605	O
-
-The	606	609	O
-oscillation	610	621	B-Process
-direction	622	631	O
-of	632	634	O
-SH	635	637	B-Process
-ultrasound	638	648	I-Process
-is	649	651	O
-in	652	654	O
-the	655	658	O
-plane	659	664	O
-of	665	667	O
-the	668	671	O
-surface	672	679	O
-where	680	685	O
-the	686	689	O
-wave	690	694	B-Material
-was	695	698	O
-generated	699	708	O
-,	708	709	O
-and	710	713	O
-perpendicular	714	727	O
-to	728	730	O
-the	731	734	O
-propagation	735	746	B-Process
-direction	747	756	O
-,	756	757	O
-as	758	760	O
-shown	761	766	O
-in	767	769	O
-Fig	770	773	O
-.	773	774	O
-
-1	775	776	O
-,	776	777	O
-with	778	782	O
-respect	783	790	O
-to	791	793	O
-a	794	795	O
-reference	796	805	O
-interface	806	815	O
-,	815	816	O
-which	817	822	O
-is	823	825	O
-typically	826	835	O
-a	836	837	O
-sample	838	844	O
-surface	845	852	O
-.	852	853	O
-
-Under	854	859	O
-certain	860	867	O
-conditions	868	878	O
-,	878	879	O
-such	880	884	O
-as	885	887	O
-over	888	892	O
-short	893	898	O
-propagation	899	910	B-Process
-distances	911	920	O
-,	920	921	O
-SH	922	924	B-Material
-waves	925	930	I-Material
-can	931	934	O
-be	935	937	O
-treated	938	945	O
-as	946	948	O
-bulk	949	953	B-Material
-waves	954	959	I-Material
-.	959	960	O
+Shear	0,5	O	B-Material
+horizontal	6,16	O	I-Material
+(	17,18	O	I-Material
+SH	18,20	O	I-Material
+)	20,21	O	I-Material
+ultrasound	22,32	O	I-Material
+waves	33,38	O	I-Material
+are	39,42	O	O
+guided	43,49	O	B-Material
+waves	50,55	O	I-Material
+(	56,57	O	O
+they	57,61	O	O
+have	62,66	O	O
+propagation	67,78	O	O
+properties	79,89	O	O
+affected	90,98	O	O
+by	99,101	O	O
+the	102,105	O	O
+geometry	106,114	O	O
+of	115,117	O	O
+the	118,121	O	O
+propagation	122,133	O	B-Process
+medium	134,140	O	O
+)	140,141	O	O
+,	141,142	O	O
+with	143,147	O	O
+symmetric	148,157	O	O
+and	158,161	O	O
+anti	162,166	O	O
+-	166,167	O	O
+symmetric	167,176	O	O
+modes	177,182	O	O
+;	182,183	O	O
+phase	184,189	O	O
+and	190,193	O	O
+group	194,199	O	O
+speeds	200,206	O	O
+are	207,210	O	O
+dependent	211,220	O	O
+on	221,223	O	O
+frequency	224,233	O	O
+,	233,234	O	O
+sample	235,241	O	O
+thickness	242,251	O	O
+,	251,252	O	O
+and	253,256	O	O
+the	257,260	O	O
+bulk	261,265	O	B-Process
+shear	266,271	O	I-Process
+wave	272,276	O	I-Process
+speed	277,282	O	I-Process
+[	283,284	O	O
+11,12	284,289	O	O
+]	289,290	O	O
+.	290,291	O	O
+
+The	292,295	O	O
+properties	296,306	O	O
+of	307,309	O	O
+the	310,313	O	O
+different	314,323	O	O
+modes	324,329	O	O
+can	330,333	O	O
+be	334,336	O	O
+very	337,341	O	O
+useful	342,348	O	O
+,	348,349	O	O
+such	350,354	O	O
+as	355,357	O	O
+in	358,360	O	O
+thickness	361,370	O	O
+measurement	371,382	O	O
+[	383,384	O	O
+13	384,386	O	O
+]	386,387	O	O
+,	387,388	O	O
+but	389,392	O	O
+in	393,395	O	O
+this	396,400	O	O
+case	401,405	O	O
+they	406,410	O	O
+are	411,414	O	O
+a	415,416	O	O
+complication	417,429	O	O
+.	429,430	O	O
+
+SH0	431,434	O	B-Material
+has	435,438	O	O
+a	439,440	O	O
+thickness	441,450	O	O
+independent	451,462	O	O
+speed	463,468	O	O
+,	468,469	O	O
+equal	470,475	O	O
+to	476,478	O	O
+the	479,482	O	O
+shear	483,488	O	B-Process
+wave	489,493	O	I-Process
+speed	494,499	O	I-Process
+,	499,500	O	O
+and	501,504	O	O
+is	505,507	O	O
+non	508,511	O	O
+-	511,512	O	O
+dispersive	512,522	O	O
+(	523,524	O	O
+the	524,527	O	O
+phase	528,533	O	B-Process
+and	534,537	O	I-Process
+group	538,543	O	I-Process
+speed	544,549	O	I-Process
+are	550,553	O	O
+equal	554,559	O	O
+to	560,562	O	O
+the	563,566	O	O
+shear	567,572	O	B-Process
+wave	573,577	O	I-Process
+speed	578,583	O	I-Process
+for	584,587	O	O
+all	588,591	O	O
+frequencies	592,603	O	O
+)	603,604	O	O
+.	604,605	O	O
+
+The	606,609	O	O
+oscillation	610,621	O	B-Process
+direction	622,631	O	O
+of	632,634	O	O
+SH	635,637	O	B-Process
+ultrasound	638,648	O	I-Process
+is	649,651	O	O
+in	652,654	O	O
+the	655,658	O	O
+plane	659,664	O	O
+of	665,667	O	O
+the	668,671	O	O
+surface	672,679	O	O
+where	680,685	O	O
+the	686,689	O	O
+wave	690,694	O	B-Material
+was	695,698	O	O
+generated	699,708	O	O
+,	708,709	O	O
+and	710,713	O	O
+perpendicular	714,727	O	O
+to	728,730	O	O
+the	731,734	O	O
+propagation	735,746	O	B-Process
+direction	747,756	O	O
+,	756,757	O	O
+as	758,760	O	O
+shown	761,766	O	O
+in	767,769	O	O
+Fig	770,773	O	O
+.	773,774	O	O
+
+1	775,776	O	O
+,	776,777	O	O
+with	778,782	O	O
+respect	783,790	O	O
+to	791,793	O	O
+a	794,795	O	O
+reference	796,805	O	O
+interface	806,815	O	O
+,	815,816	O	O
+which	817,822	O	O
+is	823,825	O	O
+typically	826,835	O	O
+a	836,837	O	O
+sample	838,844	O	O
+surface	845,852	O	O
+.	852,853	O	O
+
+Under	854,859	O	O
+certain	860,867	O	O
+conditions	868,878	O	O
+,	878,879	O	O
+such	880,884	O	O
+as	885,887	O	O
+over	888,892	O	O
+short	893,898	O	O
+propagation	899,910	O	B-Process
+distances	911,920	O	O
+,	920,921	O	O
+SH	922,924	O	B-Material
+waves	925,930	O	I-Material
+can	931,934	O	O
+be	935,937	O	O
+treated	938,945	O	O
+as	946,948	O	O
+bulk	949,953	O	B-Material
+waves	954,959	O	I-Material
+.	959,960	O	O
 
 
 -DOCSTART- (S0968432814000250)
 
-Volume	0	6	B-Task
-EM	7	9	I-Task
-can	10	13	O
-be	14	16	O
-performed	17	26	O
-using	27	32	O
-transmission	33	45	B-Process
-or	46	48	O
-scanning	49	57	B-Material
-electron	58	66	I-Material
-microscopes	67	78	I-Material
-.	78	79	O
-
-Each	80	84	O
-approach	85	93	O
-has	94	97	O
-its	98	101	O
-own	102	105	O
-strengths	106	115	O
-and	116	119	O
-weaknesses	120	130	O
-,	130	131	O
-and	132	135	O
-the	136	139	O
-choice	140	146	O
-is	147	149	O
-dependant	150	159	O
-on	160	162	O
-the	163	166	O
-required	167	175	O
-lateral	176	183	O
-(	184	185	O
-x	185	186	O
-,	186	187	O
-y	188	189	O
-)	189	190	O
-and	191	194	O
-axial	195	200	O
-(	201	202	O
-z	202	203	O
-)	203	204	O
-resolution	205	215	O
-,	215	216	O
-and	217	220	O
-the	221	224	O
-size	225	229	O
-of	230	232	O
-the	233	236	O
-structure	237	246	O
-of	247	249	O
-interest	250	258	O
-.	258	259	O
-
-Historically	260	272	O
-,	272	273	O
-transmission	274	286	B-Material
-electron	287	295	I-Material
-microscopy	296	306	I-Material
-(	307	308	O
-TEM	308	311	B-Material
-)	311	312	O
-was	313	316	O
-the	317	320	O
-tool	321	325	O
-of	326	328	O
-choice	329	335	O
-for	336	339	O
-ultrastructural	340	355	B-Task
-examination	356	367	I-Task
-of	368	370	I-Task
-biomedical	371	381	I-Task
-specimens	382	391	I-Task
-at	392	394	O
-sub	395	398	O
--	398	399	O
-nanometer	399	408	O
-resolution	409	419	O
-.	419	420	O
-
-However	421	428	O
-,	428	429	O
-for	430	433	O
-many	434	438	O
-cell	439	443	B-Task
-biology	444	451	I-Task
-studies	452	459	I-Task
-structural	460	470	O
-resolution	471	481	O
-is	482	484	O
-actually	485	493	O
-limited	494	501	O
-by	502	504	O
-the	505	508	O
-deposition	509	519	B-Process
-of	520	522	I-Process
-heavy	523	528	I-Process
-metals	529	535	I-Process
-onto	536	540	O
-membranes	541	550	O
-during	551	557	O
-sample	558	564	O
-preparation	565	576	O
-.	576	577	O
-
-In	578	580	O
-addition	581	589	O
-,	589	590	O
-voxel	591	596	O
-dimensions	597	607	O
-may	608	611	O
-only	612	616	O
-need	617	621	O
-to	622	624	O
-be	625	627	O
-half	628	632	O
-that	633	637	O
-of	638	640	O
-the	641	644	O
-smallest	645	653	O
-expected	654	662	O
-feature	663	670	O
-of	671	673	O
-interest	674	682	O
-(	683	684	O
-Briggman	684	692	O
-and	693	696	O
-Bock	697	701	O
-,	701	702	O
-2012	703	707	O
-)	707	708	O
-.	708	709	O
-
-Advances	710	718	O
-in	719	721	O
-scanning	722	730	B-Process
-electron	731	739	I-Process
-microscopy	740	750	I-Process
-(	751	752	I-Process
-SEM	752	755	I-Process
-)	755	756	I-Process
-technology	757	767	I-Process
-are	768	771	O
-now	772	775	O
-driving	776	783	O
-a	784	785	O
-paradigm	786	794	O
-shift	795	800	O
-in	801	803	O
-electron	804	812	B-Task
-imaging	813	820	I-Task
-.	820	821	O
-
-SEMs	822	826	B-Process
-with	827	831	O
-field	832	837	B-Material
-emission	838	846	I-Material
-electron	847	855	I-Material
-sources	856	863	I-Material
-and	864	867	O
-high	868	872	B-Material
-efficiency	873	883	I-Material
-electron	884	892	I-Material
-detectors	893	902	I-Material
-can	903	906	O
-achieve	907	914	O
-lateral	915	922	O
-resolutions	923	934	O
-in	935	937	O
-the	938	941	O
-order	942	947	O
-of	948	950	O
-3	951	952	O
-nm	952	954	O
-,	954	955	O
-allowing	956	964	O
-visualisation	965	978	B-Task
-of	979	981	I-Task
-structures	982	992	I-Task
-such	993	997	O
-as	998	1000	O
-synaptic	1001	1009	B-Material
-vesicles	1010	1018	I-Material
-and	1019	1022	O
-membranes	1023	1032	B-Material
-(	1033	1034	O
-De	1034	1036	O
-Winter	1037	1043	O
-et	1044	1046	O
-al	1047	1049	O
-.	1049	1050	O
-
-,	1050	1051	O
-2009	1052	1056	O
-;	1056	1057	O
-Knott	1058	1063	O
-et	1064	1066	O
-al	1067	1069	O
-.	1069	1070	O
-,	1070	1071	O
-2008	1072	1076	O
-;	1076	1077	O
-Vihinen	1078	1085	O
-et	1086	1088	O
-al	1089	1091	O
-.	1091	1092	O
-,	1092	1093	O
-2013	1094	1098	O
-;	1098	1099	O
-Villinger	1100	1109	O
-et	1110	1112	O
-al	1113	1115	O
-.	1115	1116	O
-,	1116	1117	O
-2012	1118	1122	O
-)	1122	1123	O
-,	1123	1124	O
-though	1125	1131	O
-resolving	1132	1141	B-Task
-individual	1142	1152	I-Task
-leaflets	1153	1161	I-Task
-of	1162	1164	I-Task
-membrane	1165	1173	I-Task
-bilayers	1174	1182	I-Task
-remains	1183	1190	O
-a	1191	1192	O
-challenge	1193	1202	O
-(	1203	1204	O
-Vihinen	1204	1211	O
-et	1212	1214	O
-al	1215	1217	O
-.	1217	1218	O
-,	1218	1219	O
-2013	1220	1224	O
-)	1224	1225	O
-.	1225	1226	O
-
-The	1227	1230	O
-use	1231	1234	O
-of	1235	1237	O
-low	1238	1241	B-Material
-beam	1242	1246	I-Material
-energies	1247	1255	I-Material
-also	1256	1260	O
-limits	1261	1267	O
-the	1268	1271	O
-interaction	1272	1283	B-Process
-volume	1284	1290	I-Process
-,	1290	1291	O
-enhancing	1292	1301	B-Process
-axial	1302	1307	I-Process
-resolution	1308	1318	I-Process
-(	1319	1320	O
-Hennig	1320	1326	O
-and	1327	1330	O
-Denk	1331	1335	O
-,	1335	1336	O
-2007	1337	1341	O
-)	1341	1342	O
-.	1342	1343	O
-
-In	1344	1346	O
-this	1347	1351	O
-review	1352	1358	O
-,	1358	1359	O
-volume	1360	1366	B-Task
-imaging	1367	1374	I-Task
-in	1375	1377	O
-both	1378	1382	O
-transmission	1383	1395	B-Process
-and	1396	1399	I-Process
-scanning	1400	1408	I-Process
-EMs	1409	1412	I-Process
-will	1413	1417	O
-be	1418	1420	O
-explored	1421	1429	O
-,	1429	1430	O
-moving	1431	1437	O
-from	1438	1442	O
-traditional	1443	1454	B-Process
-manual	1455	1461	I-Process
-techniques	1462	1472	I-Process
-,	1472	1473	O
-through	1474	1481	O
-to	1482	1484	O
-the	1485	1488	O
-latest	1489	1495	B-Process
-systems	1496	1503	I-Process
-where	1504	1509	O
-aspects	1510	1517	O
-of	1518	1520	O
-both	1521	1525	O
-sample	1526	1532	B-Task
-preparation	1533	1544	I-Task
-and	1545	1548	O
-imaging	1549	1556	B-Task
-have	1557	1561	O
-been	1562	1566	O
-automated	1567	1576	O
-.	1576	1577	O
+Volume	0,6	O	B-Task
+EM	7,9	O	I-Task
+can	10,13	O	O
+be	14,16	O	O
+performed	17,26	O	O
+using	27,32	O	O
+transmission	33,45	O	B-Process
+or	46,48	O	O
+scanning	49,57	O	B-Material
+electron	58,66	O	I-Material
+microscopes	67,78	O	I-Material
+.	78,79	O	O
+
+Each	80,84	O	O
+approach	85,93	O	O
+has	94,97	O	O
+its	98,101	O	O
+own	102,105	O	O
+strengths	106,115	O	O
+and	116,119	O	O
+weaknesses	120,130	O	O
+,	130,131	O	O
+and	132,135	O	O
+the	136,139	O	O
+choice	140,146	O	O
+is	147,149	O	O
+dependant	150,159	O	O
+on	160,162	O	O
+the	163,166	O	O
+required	167,175	O	O
+lateral	176,183	O	O
+(	184,185	O	O
+x	185,186	O	O
+,	186,187	O	O
+y	188,189	O	O
+)	189,190	O	O
+and	191,194	O	O
+axial	195,200	O	O
+(	201,202	O	O
+z	202,203	O	O
+)	203,204	O	O
+resolution	205,215	O	O
+,	215,216	O	O
+and	217,220	O	O
+the	221,224	O	O
+size	225,229	O	O
+of	230,232	O	O
+the	233,236	O	O
+structure	237,246	O	O
+of	247,249	O	O
+interest	250,258	O	O
+.	258,259	O	O
+
+Historically	260,272	O	O
+,	272,273	O	O
+transmission	274,286	O	B-Material
+electron	287,295	O	I-Material
+microscopy	296,306	O	I-Material
+(	307,308	O	O
+TEM	308,311	O	B-Material
+)	311,312	O	O
+was	313,316	O	O
+the	317,320	O	O
+tool	321,325	O	O
+of	326,328	O	O
+choice	329,335	O	O
+for	336,339	O	O
+ultrastructural	340,355	O	B-Task
+examination	356,367	O	I-Task
+of	368,370	O	I-Task
+biomedical	371,381	O	I-Task
+specimens	382,391	O	I-Task
+at	392,394	O	O
+sub	395,398	O	O
+-	398,399	O	O
+nanometer	399,408	O	O
+resolution	409,419	O	O
+.	419,420	O	O
+
+However	421,428	O	O
+,	428,429	O	O
+for	430,433	O	O
+many	434,438	O	O
+cell	439,443	O	B-Task
+biology	444,451	O	I-Task
+studies	452,459	O	I-Task
+structural	460,470	O	O
+resolution	471,481	O	O
+is	482,484	O	O
+actually	485,493	O	O
+limited	494,501	O	O
+by	502,504	O	O
+the	505,508	O	O
+deposition	509,519	O	B-Process
+of	520,522	O	I-Process
+heavy	523,528	O	I-Process
+metals	529,535	O	I-Process
+onto	536,540	O	O
+membranes	541,550	O	O
+during	551,557	O	O
+sample	558,564	O	O
+preparation	565,576	O	O
+.	576,577	O	O
+
+In	578,580	O	O
+addition	581,589	O	O
+,	589,590	O	O
+voxel	591,596	O	O
+dimensions	597,607	O	O
+may	608,611	O	O
+only	612,616	O	O
+need	617,621	O	O
+to	622,624	O	O
+be	625,627	O	O
+half	628,632	O	O
+that	633,637	O	O
+of	638,640	O	O
+the	641,644	O	O
+smallest	645,653	O	O
+expected	654,662	O	O
+feature	663,670	O	O
+of	671,673	O	O
+interest	674,682	O	O
+(	683,684	O	O
+Briggman	684,692	O	O
+and	693,696	O	O
+Bock	697,701	O	O
+,	701,702	O	O
+2012	703,707	O	O
+)	707,708	O	O
+.	708,709	O	O
+
+Advances	710,718	O	O
+in	719,721	O	O
+scanning	722,730	O	B-Process
+electron	731,739	O	I-Process
+microscopy	740,750	O	I-Process
+(	751,752	O	I-Process
+SEM	752,755	O	I-Process
+)	755,756	O	I-Process
+technology	757,767	O	I-Process
+are	768,771	O	O
+now	772,775	O	O
+driving	776,783	O	O
+a	784,785	O	O
+paradigm	786,794	O	O
+shift	795,800	O	O
+in	801,803	O	O
+electron	804,812	O	B-Task
+imaging	813,820	O	I-Task
+.	820,821	O	O
+
+SEMs	822,826	O	B-Process
+with	827,831	O	O
+field	832,837	O	B-Material
+emission	838,846	O	I-Material
+electron	847,855	O	I-Material
+sources	856,863	O	I-Material
+and	864,867	O	O
+high	868,872	O	B-Material
+efficiency	873,883	O	I-Material
+electron	884,892	O	I-Material
+detectors	893,902	O	I-Material
+can	903,906	O	O
+achieve	907,914	O	O
+lateral	915,922	O	O
+resolutions	923,934	O	O
+in	935,937	O	O
+the	938,941	O	O
+order	942,947	O	O
+of	948,950	O	O
+3	951,952	O	O
+nm	952,954	O	O
+,	954,955	O	O
+allowing	956,964	O	O
+visualisation	965,978	O	B-Task
+of	979,981	O	I-Task
+structures	982,992	O	I-Task
+such	993,997	O	O
+as	998,1000	O	O
+synaptic	1001,1009	O	B-Material
+vesicles	1010,1018	O	I-Material
+and	1019,1022	O	O
+membranes	1023,1032	O	B-Material
+(	1033,1034	O	O
+De	1034,1036	O	O
+Winter	1037,1043	O	O
+et	1044,1046	O	O
+al	1047,1049	O	O
+.	1049,1050	O	O
+
+,	1050,1051	O	O
+2009	1052,1056	O	O
+;	1056,1057	O	O
+Knott	1058,1063	O	O
+et	1064,1066	O	O
+al	1067,1069	O	O
+.	1069,1070	O	O
+,	1070,1071	O	O
+2008	1072,1076	O	O
+;	1076,1077	O	O
+Vihinen	1078,1085	O	O
+et	1086,1088	O	O
+al	1089,1091	O	O
+.	1091,1092	O	O
+,	1092,1093	O	O
+2013	1094,1098	O	O
+;	1098,1099	O	O
+Villinger	1100,1109	O	O
+et	1110,1112	O	O
+al	1113,1115	O	O
+.	1115,1116	O	O
+,	1116,1117	O	O
+2012	1118,1122	O	O
+)	1122,1123	O	O
+,	1123,1124	O	O
+though	1125,1131	O	O
+resolving	1132,1141	O	B-Task
+individual	1142,1152	O	I-Task
+leaflets	1153,1161	O	I-Task
+of	1162,1164	O	I-Task
+membrane	1165,1173	O	I-Task
+bilayers	1174,1182	O	I-Task
+remains	1183,1190	O	O
+a	1191,1192	O	O
+challenge	1193,1202	O	O
+(	1203,1204	O	O
+Vihinen	1204,1211	O	O
+et	1212,1214	O	O
+al	1215,1217	O	O
+.	1217,1218	O	O
+,	1218,1219	O	O
+2013	1220,1224	O	O
+)	1224,1225	O	O
+.	1225,1226	O	O
+
+The	1227,1230	O	O
+use	1231,1234	O	O
+of	1235,1237	O	O
+low	1238,1241	O	B-Material
+beam	1242,1246	O	I-Material
+energies	1247,1255	O	I-Material
+also	1256,1260	O	O
+limits	1261,1267	O	O
+the	1268,1271	O	O
+interaction	1272,1283	O	B-Process
+volume	1284,1290	O	I-Process
+,	1290,1291	O	O
+enhancing	1292,1301	O	B-Process
+axial	1302,1307	O	I-Process
+resolution	1308,1318	O	I-Process
+(	1319,1320	O	O
+Hennig	1320,1326	O	O
+and	1327,1330	O	O
+Denk	1331,1335	O	O
+,	1335,1336	O	O
+2007	1337,1341	O	O
+)	1341,1342	O	O
+.	1342,1343	O	O
+
+In	1344,1346	O	O
+this	1347,1351	O	O
+review	1352,1358	O	O
+,	1358,1359	O	O
+volume	1360,1366	O	B-Task
+imaging	1367,1374	O	I-Task
+in	1375,1377	O	O
+both	1378,1382	O	O
+transmission	1383,1395	O	B-Process
+and	1396,1399	O	I-Process
+scanning	1400,1408	O	I-Process
+EMs	1409,1412	O	I-Process
+will	1413,1417	O	O
+be	1418,1420	O	O
+explored	1421,1429	O	O
+,	1429,1430	O	O
+moving	1431,1437	O	O
+from	1438,1442	O	O
+traditional	1443,1454	O	B-Process
+manual	1455,1461	O	I-Process
+techniques	1462,1472	O	I-Process
+,	1472,1473	O	O
+through	1474,1481	O	O
+to	1482,1484	O	O
+the	1485,1488	O	O
+latest	1489,1495	O	B-Process
+systems	1496,1503	O	I-Process
+where	1504,1509	O	O
+aspects	1510,1517	O	O
+of	1518,1520	O	O
+both	1521,1525	O	O
+sample	1526,1532	O	B-Task
+preparation	1533,1544	O	I-Task
+and	1545,1548	O	O
+imaging	1549,1556	O	B-Task
+have	1557,1561	O	O
+been	1562,1566	O	O
+automated	1567,1576	O	O
+.	1576,1577	O	O
 
 
 -DOCSTART- (S1010603009002676)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-we	15	17	O
-present	18	25	O
-our	26	29	O
-experimental	30	42	O
-observations	43	55	O
-on	56	58	O
-how	59	62	O
-solvents	63	71	O
-can	72	75	O
-vary	76	80	O
-the	81	84	O
-TPA	85	88	O
-and	89	92	O
-TPF	93	96	O
-properties	97	107	O
-of	108	110	O
-fluorescent	111	122	O
-rhodamine	123	132	O
-
-(	133	134	O
-Rh	134	136	O
-)	136	137	O
-dyes	138	142	O
-Rh6	143	146	B-Material
-G	146	147	I-Material
-,	147	148	O
-RhB	149	152	B-Material
-and	153	156	O
-Rh101	157	162	B-Material
-.	162	163	O
-
-Rhodamines	164	174	B-Material
-are	175	178	O
-well	179	183	O
--	183	184	O
-known	184	189	O
-xanthenes	190	199	B-Material
-dyes	200	204	I-Material
-,	204	205	O
-which	206	211	O
-have	212	216	O
-been	217	221	O
-extensively	222	233	O
-used	234	238	O
-for	239	242	O
-many	243	247	O
-widespread	248	258	O
-applications	259	271	O
-in	272	274	O
-single	275	281	B-Process
--	281	282	I-Process
-molecule	282	290	I-Process
-detection	291	300	I-Process
-[	301	302	O
-24	302	304	O
-]	304	305	O
-,	305	306	O
-DNA	307	310	B-Process
--	310	311	I-Process
-sequence	311	319	I-Process
-determination	320	333	I-Process
-[	334	335	O
-25	335	337	O
-]	337	338	O
-,	338	339	O
-fluorescence	340	352	B-Process
-labelling	353	362	I-Process
-[	363	364	O
-26	364	366	O
-]	366	367	O
-,	367	368	O
-etc	369	372	O
-.	372	373	O
-due	374	377	O
-to	378	380	O
-their	381	386	O
-strong	387	393	O
-fluorescence	394	406	B-Process
-over	407	411	O
-the	412	415	O
-visible	416	423	O
-spectral	424	432	O
-region	433	439	O
-.	439	440	O
-
-Molecular	441	450	O
-geometries	451	461	O
-of	462	464	O
-rhodamine	465	474	B-Material
-dyes	475	479	I-Material
-are	480	483	O
-well	484	488	O
--	488	489	O
-known	489	494	O
-[	495	496	O
-27,28	496	501	O
-]	501	502	O
-and	503	506	O
-indicate	507	515	O
-that	516	520	O
-all	521	524	O
-the	525	528	O
-structures	529	539	O
-are	540	543	O
-non	544	547	O
--	547	548	O
-centrosymmetric	548	563	O
-.	563	564	O
-
-In	565	567	O
-general	568	575	O
-,	575	576	O
-for	577	580	O
-centrosymmetric	581	596	B-Material
-molecules	597	606	I-Material
-,	606	607	O
-TPA	608	611	B-Process
-is	612	614	O
-forbidden	615	624	O
-when	625	629	O
-tuned	630	635	O
-to	636	638	O
-the	639	642	O
-transitions	643	654	O
-at	655	657	O
-one	658	661	O
--	661	662	O
-half	662	666	O
-of	667	669	O
-the	670	673	O
-excitation	674	684	O
-frequencies	685	696	O
-.	696	697	O
-
-However	698	705	O
-,	705	706	O
-for	707	710	O
-non	711	714	B-Material
--	714	715	I-Material
-centrosymmetric	715	730	I-Material
-molecules	731	740	I-Material
-due	741	744	O
-to	745	747	O
-symmetry	748	756	B-Process
-relaxations	757	768	I-Process
-,	768	769	O
-the	770	773	O
-single	774	780	B-Process
--	780	781	I-Process
-photon	781	787	I-Process
-absorption	788	798	I-Process
-(	799	800	I-Process
-SPA	800	803	I-Process
-)	803	804	I-Process
-peaks	805	810	I-Process
-and	811	814	O
-TPA	815	818	B-Process
-peaks	819	824	I-Process
-may	825	828	O
-coincide	829	837	O
-.	837	838	O
-
-So	839	841	O
-we	842	844	O
-set	845	848	O
-our	849	852	O
-primary	853	860	O
-aim	861	864	O
-to	865	867	O
-find	868	872	O
-the	873	876	O
-effect	877	883	O
-of	884	886	O
-solvent	887	894	O
-polarity	895	903	O
-on	904	906	O
-the	907	910	O
-correlation	911	922	O
-of	923	925	O
-SPA	926	929	B-Process
-and	930	933	O
-TPA	934	937	B-Process
-peaks	938	943	O
-for	944	947	O
-all	948	951	O
-the	952	955	O
-dyes	956	960	B-Material
-.	960	961	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+we	15,17	O	O
+present	18,25	O	O
+our	26,29	O	O
+experimental	30,42	O	O
+observations	43,55	O	O
+on	56,58	O	O
+how	59,62	O	O
+solvents	63,71	O	O
+can	72,75	O	O
+vary	76,80	O	O
+the	81,84	O	O
+TPA	85,88	O	O
+and	89,92	O	O
+TPF	93,96	O	O
+properties	97,107	O	O
+of	108,110	O	O
+fluorescent	111,122	O	O
+rhodamine	123,132	O	O
+
+(	133,134	O	O
+Rh	134,136	O	O
+)	136,137	O	O
+dyes	138,142	O	O
+Rh6	143,146	O	B-Material
+G	146,147	O	I-Material
+,	147,148	O	O
+RhB	149,152	O	B-Material
+and	153,156	O	O
+Rh101	157,162	O	B-Material
+.	162,163	O	O
+
+Rhodamines	164,174	O	B-Material
+are	175,178	O	O
+well	179,183	O	O
+-	183,184	O	O
+known	184,189	O	O
+xanthenes	190,199	O	B-Material
+dyes	200,204	O	I-Material
+,	204,205	O	O
+which	206,211	O	O
+have	212,216	O	O
+been	217,221	O	O
+extensively	222,233	O	O
+used	234,238	O	O
+for	239,242	O	O
+many	243,247	O	O
+widespread	248,258	O	O
+applications	259,271	O	O
+in	272,274	O	O
+single	275,281	O	B-Process
+-	281,282	O	I-Process
+molecule	282,290	O	I-Process
+detection	291,300	O	I-Process
+[	301,302	O	O
+24	302,304	O	O
+]	304,305	O	O
+,	305,306	O	O
+DNA	307,310	O	B-Process
+-	310,311	O	I-Process
+sequence	311,319	O	I-Process
+determination	320,333	O	I-Process
+[	334,335	O	O
+25	335,337	O	O
+]	337,338	O	O
+,	338,339	O	O
+fluorescence	340,352	O	B-Process
+labelling	353,362	O	I-Process
+[	363,364	O	O
+26	364,366	O	O
+]	366,367	O	O
+,	367,368	O	O
+etc	369,372	O	O
+.	372,373	O	O
+due	374,377	O	O
+to	378,380	O	O
+their	381,386	O	O
+strong	387,393	O	O
+fluorescence	394,406	O	B-Process
+over	407,411	O	O
+the	412,415	O	O
+visible	416,423	O	O
+spectral	424,432	O	O
+region	433,439	O	O
+.	439,440	O	O
+
+Molecular	441,450	O	O
+geometries	451,461	O	O
+of	462,464	O	O
+rhodamine	465,474	O	B-Material
+dyes	475,479	O	I-Material
+are	480,483	O	O
+well	484,488	O	O
+-	488,489	O	O
+known	489,494	O	O
+[	495,496	O	O
+27,28	496,501	O	O
+]	501,502	O	O
+and	503,506	O	O
+indicate	507,515	O	O
+that	516,520	O	O
+all	521,524	O	O
+the	525,528	O	O
+structures	529,539	O	O
+are	540,543	O	O
+non	544,547	O	O
+-	547,548	O	O
+centrosymmetric	548,563	O	O
+.	563,564	O	O
+
+In	565,567	O	O
+general	568,575	O	O
+,	575,576	O	O
+for	577,580	O	O
+centrosymmetric	581,596	O	B-Material
+molecules	597,606	O	I-Material
+,	606,607	O	O
+TPA	608,611	O	B-Process
+is	612,614	O	O
+forbidden	615,624	O	O
+when	625,629	O	O
+tuned	630,635	O	O
+to	636,638	O	O
+the	639,642	O	O
+transitions	643,654	O	O
+at	655,657	O	O
+one	658,661	O	O
+-	661,662	O	O
+half	662,666	O	O
+of	667,669	O	O
+the	670,673	O	O
+excitation	674,684	O	O
+frequencies	685,696	O	O
+.	696,697	O	O
+
+However	698,705	O	O
+,	705,706	O	O
+for	707,710	O	O
+non	711,714	O	B-Material
+-	714,715	O	I-Material
+centrosymmetric	715,730	O	I-Material
+molecules	731,740	O	I-Material
+due	741,744	O	O
+to	745,747	O	O
+symmetry	748,756	O	B-Process
+relaxations	757,768	O	I-Process
+,	768,769	O	O
+the	770,773	O	O
+single	774,780	O	B-Process
+-	780,781	O	I-Process
+photon	781,787	O	I-Process
+absorption	788,798	O	I-Process
+(	799,800	O	I-Process
+SPA	800,803	O	I-Process
+)	803,804	O	I-Process
+peaks	805,810	O	I-Process
+and	811,814	O	O
+TPA	815,818	O	B-Process
+peaks	819,824	O	I-Process
+may	825,828	O	O
+coincide	829,837	O	O
+.	837,838	O	O
+
+So	839,841	O	O
+we	842,844	O	O
+set	845,848	O	O
+our	849,852	O	O
+primary	853,860	O	O
+aim	861,864	O	O
+to	865,867	O	O
+find	868,872	O	O
+the	873,876	O	O
+effect	877,883	O	O
+of	884,886	O	O
+solvent	887,894	O	O
+polarity	895,903	O	O
+on	904,906	O	O
+the	907,910	O	O
+correlation	911,922	O	O
+of	923,925	O	O
+SPA	926,929	O	B-Process
+and	930,933	O	O
+TPA	934,937	O	B-Process
+peaks	938,943	O	O
+for	944,947	O	O
+all	948,951	O	O
+the	952,955	O	O
+dyes	956,960	O	B-Material
+.	960,961	O	O
 
 
 -DOCSTART- (S1010603013001809)
 
-The	0	3	O
-other	4	9	O
-methods	10	17	O
-for	18	21	O
-enhancement	22	33	B-Task
-of	34	36	I-Task
-photocatalytic	37	51	I-Task
-activity	52	60	I-Task
-are	61	64	O
-grafting	65	73	O
-co	74	76	B-Material
--	76	77	I-Material
-catalysts	77	86	I-Material
-.	86	87	O
-
-There	88	93	O
-are	94	97	O
-two	98	101	O
-kinds	102	107	O
-of	108	110	O
-co	111	113	B-Material
--	113	114	I-Material
-catalysts	114	123	I-Material
-in	124	126	O
-terms	127	132	O
-of	133	135	O
-its	136	139	O
-function	140	148	O
-:	148	149	O
-one	150	153	O
-is	154	156	O
-for	157	160	O
-separation	161	171	B-Process
-of	172	174	I-Process
-electrons	175	184	I-Process
-and	185	188	O
-the	189	192	O
-other	193	198	O
-is	199	201	O
-for	202	205	O
-separation	206	216	B-Process
-of	217	219	I-Process
-holes	220	225	I-Process
-.	225	226	O
-
-The	227	230	O
-former	231	237	O
-representative	238	252	O
-co	253	255	B-Material
--	255	256	I-Material
-catalysts	256	265	I-Material
-are	266	269	O
-Pt	270	272	B-Material
-,	272	273	O
-Fe3	274	277	B-Material
-+	277	278	I-Material
-,	278	279	O
-and	280	283	O
-Cu2	284	287	B-Material
-+	287	288	I-Material
-[	289	290	O
-9–12	290	294	O
-]	294	295	O
-.	295	296	O
-
-It	297	299	O
-was	300	303	O
-reported	304	312	O
-that	313	317	O
-Fe3	318	321	B-Material
-+	321	322	I-Material
-and	323	326	O
-Cu2	327	330	O
-
-+	330	331	O
-were	332	336	O
-grafted	337	344	O
-as	345	347	O
-amorphous	348	357	B-Material
-oxide	358	363	I-Material
-cluster	364	371	I-Material
-[	372	373	O
-9,10	373	377	O
-]	377	378	O
-,	378	379	O
-and	380	383	O
-reduced	384	391	O
-into	392	396	O
-Fe2	397	400	B-Material
-+	400	401	I-Material
-and	402	405	O
-Cu+	406	409	B-Material
-by	410	412	O
-receiving	413	422	O
-one	423	426	O
-electron	427	435	B-Material
-,	435	436	O
-respectively	437	449	O
-[	450	451	O
-11,12	451	456	O
-]	456	457	O
-.	457	458	O
-
-The	459	462	O
-reduced	463	470	B-Material
-metal	471	476	I-Material
-oxide	477	482	I-Material
-cluster	483	490	I-Material
-with	491	495	O
-reduced	496	503	B-Material
-ions	504	508	I-Material
-could	509	514	O
-return	515	521	O
-into	522	526	O
-the	527	530	O
-original	531	539	O
-state	540	545	O
-by	546	548	O
-giving	549	555	O
-more	556	560	O
-than	561	565	O
-one	566	569	O
-electron	570	578	B-Material
-to	579	581	O
-molecular	582	591	O
-oxygen	592	598	B-Material
-.	598	599	O
-
-The	600	603	O
-latter	604	610	O
-ones	611	615	O
-are	616	619	O
-CoOx	620	624	B-Material
-,	624	625	O
-CoPi	626	630	B-Material
-(	631	632	O
-CoPOx	632	637	B-Material
-)	637	638	O
-,	638	639	O
-IrOx	640	644	B-Material
-,	644	645	O
-and	646	649	O
-RuOx	650	654	B-Material
-which	655	660	O
-are	661	664	O
-used	665	669	O
-for	670	673	O
-water	674	679	B-Process
-oxidation	680	689	I-Process
-,	689	690	O
-among	691	696	O
-which	697	702	O
-CoPi	703	707	B-Material
-is	708	710	O
-reported	711	719	O
-to	720	722	O
-be	723	725	O
-the	726	729	O
-most	730	734	O
-effective	735	744	O
-co	745	747	B-Material
--	747	748	I-Material
-catalyst	748	756	I-Material
-for	757	760	O
-water	761	766	B-Process
-oxidation	767	776	I-Process
-[	777	778	O
-13	778	780	O
-]	780	781	O
-.	781	782	O
-
-However	783	790	O
-,	790	791	O
-there	792	797	O
-were	798	802	O
-few	803	806	O
-reports	807	814	O
-concerning	815	825	O
-co	826	828	B-Process
--	828	829	I-Process
-grafting	829	837	I-Process
-effects	838	845	O
-on	846	848	O
-photocatalytic	849	863	B-Process
-activity	864	872	I-Process
-especially	873	883	O
-in	884	886	O
-gaseous	887	894	B-Process
-phase	895	900	I-Process
-.	900	901	O
-
-We	902	904	O
-expected	905	913	O
-that	914	918	O
-by	919	921	O
-co	922	924	B-Process
--	924	925	I-Process
-grafting	925	933	I-Process
-of	934	936	O
-both	937	941	O
-co	942	944	B-Material
--	944	945	I-Material
-catalysts	945	954	I-Material
-for	955	958	O
-separations	959	970	O
-of	971	973	O
-electrons	974	983	B-Material
-and	984	987	O
-holes	988	993	B-Material
-,	993	994	O
-photocatalytic	995	1009	B-Process
-activity	1010	1018	I-Process
-in	1019	1021	O
-gaseous	1022	1029	B-Process
-phase	1030	1035	I-Process
-would	1036	1041	O
-be	1042	1044	O
-further	1045	1052	O
-enhanced	1053	1061	O
-.	1061	1062	O
-
-Moreover	1063	1071	O
-,	1071	1072	O
-complex	1073	1080	O
-of	1081	1083	O
-BiVO4	1084	1089	B-Material
-with	1090	1094	O
-the	1095	1098	O
-other	1099	1104	O
-materials	1105	1114	O
-of	1115	1117	O
-p	1118	1119	B-Material
--	1119	1120	I-Material
-type	1120	1124	I-Material
-semiconductor	1125	1138	I-Material
-is	1139	1141	O
-also	1142	1146	O
-effective	1147	1156	O
-for	1157	1160	O
-enhancing	1161	1170	O
-photocatalytic	1171	1185	B-Process
-activity	1186	1194	I-Process
-.	1194	1195	O
+The	0,3	O	O
+other	4,9	O	O
+methods	10,17	O	O
+for	18,21	O	O
+enhancement	22,33	O	B-Task
+of	34,36	O	I-Task
+photocatalytic	37,51	O	I-Task
+activity	52,60	O	I-Task
+are	61,64	O	O
+grafting	65,73	O	O
+co	74,76	O	B-Material
+-	76,77	O	I-Material
+catalysts	77,86	O	I-Material
+.	86,87	O	O
+
+There	88,93	O	O
+are	94,97	O	O
+two	98,101	O	O
+kinds	102,107	O	O
+of	108,110	O	O
+co	111,113	O	B-Material
+-	113,114	O	I-Material
+catalysts	114,123	O	I-Material
+in	124,126	O	O
+terms	127,132	O	O
+of	133,135	O	O
+its	136,139	O	O
+function	140,148	O	O
+:	148,149	O	O
+one	150,153	O	O
+is	154,156	O	O
+for	157,160	O	O
+separation	161,171	O	B-Process
+of	172,174	O	I-Process
+electrons	175,184	O	I-Process
+and	185,188	O	O
+the	189,192	O	O
+other	193,198	O	O
+is	199,201	O	O
+for	202,205	O	O
+separation	206,216	O	B-Process
+of	217,219	O	I-Process
+holes	220,225	O	I-Process
+.	225,226	O	O
+
+The	227,230	O	O
+former	231,237	O	O
+representative	238,252	O	O
+co	253,255	O	B-Material
+-	255,256	O	I-Material
+catalysts	256,265	O	I-Material
+are	266,269	O	O
+Pt	270,272	O	B-Material
+,	272,273	O	O
+Fe3	274,277	O	B-Material
++	277,278	O	I-Material
+,	278,279	O	O
+and	280,283	O	O
+Cu2	284,287	O	B-Material
++	287,288	O	I-Material
+[	289,290	O	O
+9–12	290,294	O	O
+]	294,295	O	O
+.	295,296	O	O
+
+It	297,299	O	O
+was	300,303	O	O
+reported	304,312	O	O
+that	313,317	O	O
+Fe3	318,321	O	B-Material
++	321,322	O	I-Material
+and	323,326	O	O
+Cu2	327,330	O	O
+
++	330,331	O	O
+were	332,336	O	O
+grafted	337,344	O	O
+as	345,347	O	O
+amorphous	348,357	O	B-Material
+oxide	358,363	O	I-Material
+cluster	364,371	O	I-Material
+[	372,373	O	O
+9,10	373,377	O	O
+]	377,378	O	O
+,	378,379	O	O
+and	380,383	O	O
+reduced	384,391	O	O
+into	392,396	O	O
+Fe2	397,400	O	B-Material
++	400,401	O	I-Material
+and	402,405	O	O
+Cu+	406,409	O	B-Material
+by	410,412	O	O
+receiving	413,422	O	O
+one	423,426	O	O
+electron	427,435	O	B-Material
+,	435,436	O	O
+respectively	437,449	O	O
+[	450,451	O	O
+11,12	451,456	O	O
+]	456,457	O	O
+.	457,458	O	O
+
+The	459,462	O	O
+reduced	463,470	O	B-Material
+metal	471,476	O	I-Material
+oxide	477,482	O	I-Material
+cluster	483,490	O	I-Material
+with	491,495	O	O
+reduced	496,503	O	B-Material
+ions	504,508	O	I-Material
+could	509,514	O	O
+return	515,521	O	O
+into	522,526	O	O
+the	527,530	O	O
+original	531,539	O	O
+state	540,545	O	O
+by	546,548	O	O
+giving	549,555	O	O
+more	556,560	O	O
+than	561,565	O	O
+one	566,569	O	O
+electron	570,578	O	B-Material
+to	579,581	O	O
+molecular	582,591	O	O
+oxygen	592,598	O	B-Material
+.	598,599	O	O
+
+The	600,603	O	O
+latter	604,610	O	O
+ones	611,615	O	O
+are	616,619	O	O
+CoOx	620,624	O	B-Material
+,	624,625	O	O
+CoPi	626,630	O	B-Material
+(	631,632	O	O
+CoPOx	632,637	O	B-Material
+)	637,638	O	O
+,	638,639	O	O
+IrOx	640,644	O	B-Material
+,	644,645	O	O
+and	646,649	O	O
+RuOx	650,654	O	B-Material
+which	655,660	O	O
+are	661,664	O	O
+used	665,669	O	O
+for	670,673	O	O
+water	674,679	O	B-Process
+oxidation	680,689	O	I-Process
+,	689,690	O	O
+among	691,696	O	O
+which	697,702	O	O
+CoPi	703,707	O	B-Material
+is	708,710	O	O
+reported	711,719	O	O
+to	720,722	O	O
+be	723,725	O	O
+the	726,729	O	O
+most	730,734	O	O
+effective	735,744	O	O
+co	745,747	O	B-Material
+-	747,748	O	I-Material
+catalyst	748,756	O	I-Material
+for	757,760	O	O
+water	761,766	O	B-Process
+oxidation	767,776	O	I-Process
+[	777,778	O	O
+13	778,780	O	O
+]	780,781	O	O
+.	781,782	O	O
+
+However	783,790	O	O
+,	790,791	O	O
+there	792,797	O	O
+were	798,802	O	O
+few	803,806	O	O
+reports	807,814	O	O
+concerning	815,825	O	O
+co	826,828	O	B-Process
+-	828,829	O	I-Process
+grafting	829,837	O	I-Process
+effects	838,845	O	O
+on	846,848	O	O
+photocatalytic	849,863	O	B-Process
+activity	864,872	O	I-Process
+especially	873,883	O	O
+in	884,886	O	O
+gaseous	887,894	O	B-Process
+phase	895,900	O	I-Process
+.	900,901	O	O
+
+We	902,904	O	O
+expected	905,913	O	O
+that	914,918	O	O
+by	919,921	O	O
+co	922,924	O	B-Process
+-	924,925	O	I-Process
+grafting	925,933	O	I-Process
+of	934,936	O	O
+both	937,941	O	O
+co	942,944	O	B-Material
+-	944,945	O	I-Material
+catalysts	945,954	O	I-Material
+for	955,958	O	O
+separations	959,970	O	O
+of	971,973	O	O
+electrons	974,983	O	B-Material
+and	984,987	O	O
+holes	988,993	O	B-Material
+,	993,994	O	O
+photocatalytic	995,1009	O	B-Process
+activity	1010,1018	O	I-Process
+in	1019,1021	O	O
+gaseous	1022,1029	O	B-Process
+phase	1030,1035	O	I-Process
+would	1036,1041	O	O
+be	1042,1044	O	O
+further	1045,1052	O	O
+enhanced	1053,1061	O	O
+.	1061,1062	O	O
+
+Moreover	1063,1071	O	O
+,	1071,1072	O	O
+complex	1073,1080	O	O
+of	1081,1083	O	O
+BiVO4	1084,1089	O	B-Material
+with	1090,1094	O	O
+the	1095,1098	O	O
+other	1099,1104	O	O
+materials	1105,1114	O	O
+of	1115,1117	O	O
+p	1118,1119	O	B-Material
+-	1119,1120	O	I-Material
+type	1120,1124	O	I-Material
+semiconductor	1125,1138	O	I-Material
+is	1139,1141	O	O
+also	1142,1146	O	O
+effective	1147,1156	O	O
+for	1157,1160	O	O
+enhancing	1161,1170	O	O
+photocatalytic	1171,1185	O	B-Process
+activity	1186,1194	O	I-Process
+.	1194,1195	O	O
 
 
 -DOCSTART- (S107158191630074X)
 
-An	0	2	O
-obvious	3	10	O
-metric	11	17	O
-to	18	20	O
-measure	21	28	O
-the	29	32	O
-monitoring	33	43	O
-performance	44	55	O
-between	56	63	O
-the	64	67	O
-different	68	77	O
-conditions	78	88	O
-would	89	94	O
-be	95	97	O
-to	98	100	O
-compare	101	108	B-Task
-how	109	112	I-Task
-many	113	117	I-Task
-clicks	118	124	I-Task
-the	125	128	I-Task
-users	129	134	I-Task
-made	135	139	I-Task
-in	140	142	I-Task
-average	143	150	I-Task
-for	151	154	I-Task
-each	155	159	I-Task
-condition	160	169	I-Task
-.	169	170	O
-
-Furthermore	171	182	O
-of	183	185	O
-interest	186	194	O
-are	195	198	O
-the	199	202	O
-buffer	203	209	B-Material
-values	210	216	O
-of	217	219	O
-the	220	223	O
-respective	224	234	O
-buffers	235	242	B-Material
-at	243	245	O
-the	246	249	O
-time	250	254	O
-of	255	257	O
-the	258	261	O
-user	262	266	O
-'s	266	268	O
-interaction	269	280	O
-with	281	285	O
-the	286	289	O
-simulation	290	300	B-Process
-(	301	302	O
-e.g.	302	306	O
-,	306	307	O
-the	308	311	O
-input	312	317	B-Material
-buffer	318	324	I-Material
-of	325	327	O
-a	328	329	O
-certain	330	337	O
-machine	338	345	O
-at	346	348	O
-the	349	352	O
-time	353	357	O
-of	358	360	O
-refilling	361	370	O
-it	371	373	O
-)	373	374	O
-.	374	375	O
-
-A	376	377	O
-relatively	378	388	O
-high	389	393	O
-average	394	401	O
-buffer	402	408	O
-value	409	414	O
-can	415	418	O
-e.g.	419	423	O
-signify	424	431	O
-that	432	436	O
-the	437	440	O
-users	441	446	O
-do	447	449	O
-not	450	453	O
-trust	454	459	O
-that	460	464	O
-the	465	468	O
-respective	469	479	O
-mode	480	484	O
-of	485	487	O
-process	488	495	O
-monitoring	496	506	O
-conveys	507	514	O
-the	515	518	O
-need	519	523	O
-for	524	527	O
-interaction	528	539	O
-in	540	542	O
-time	543	547	O
-,	547	548	O
-leading	549	556	O
-the	557	560	O
-users	561	566	O
-to	567	569	O
-switching	570	579	O
-their	580	585	O
-attention	586	595	O
-to	596	598	O
-the	599	602	O
-process	603	610	O
-simulation	611	621	O
-in	622	624	O
-regular	625	632	O
-intervals	633	642	O
-,	642	643	O
-and	644	647	O
-performing	648	658	O
-interactions	659	671	O
-just	672	676	O
-in	677	679	O
-case	680	684	O
-.	684	685	O
-
-A	686	687	O
-low	688	691	O
-average	692	699	O
-buffer	700	706	B-Material
-can	707	710	O
-,	710	711	O
-on	712	714	O
-the	715	718	O
-other	719	724	O
-hand	725	729	O
-,	729	730	O
-signify	731	738	O
-that	739	743	O
-the	744	747	O
-users	748	753	O
-rely	754	758	O
-on	759	761	O
-the	762	765	O
-respective	766	776	O
-conditions’	777	788	O
-ability	789	796	O
-to	797	799	O
-signal	800	806	O
-interaction	807	818	O
-needs	819	824	O
-.	824	825	O
-
-On	826	828	O
-the	829	832	O
-other	833	838	O
-hand	839	843	O
-,	843	844	O
-if	845	847	O
-e.g.	848	852	O
-an	853	855	O
-input	856	861	O
-buffer	862	868	B-Material
-had	869	872	O
-already	873	880	O
-been	881	885	O
-completely	886	896	O
-depleted	897	905	O
-at	906	908	O
-the	909	912	O
-time	913	917	O
-of	918	920	O
-intervention	921	933	O
-,	933	934	O
-this	935	939	O
-may	940	943	O
-signify	944	951	O
-that	952	956	O
-the	957	960	O
-respective	961	971	O
-condition	972	981	O
-has	982	985	O
-failed	986	992	O
-to	993	995	O
-inform	996	1002	O
-the	1003	1006	O
-users	1007	1012	O
-in	1013	1015	O
-time	1016	1020	O
-.	1020	1021	O
-
-In	1022	1024	O
-many	1025	1029	O
-cases	1030	1035	O
-,	1035	1036	O
-participants	1037	1049	O
-used	1050	1054	O
-double	1055	1061	O
-clicks	1062	1068	O
-for	1069	1072	O
-their	1073	1078	O
-interactions	1079	1091	O
-,	1091	1092	O
-while	1093	1098	O
-a	1099	1100	O
-single	1101	1107	O
-click	1108	1113	O
-would	1114	1119	O
-have	1120	1124	O
-been	1125	1129	O
-sufficient	1130	1140	O
-,	1140	1141	O
-a	1142	1143	O
-fact	1144	1148	O
-that	1149	1153	O
-was	1154	1157	O
-perhaps	1158	1165	O
-not	1166	1169	O
-communicated	1170	1182	O
-clearly	1183	1190	O
-enough	1191	1197	O
-to	1198	1200	O
-the	1201	1204	O
-participants	1205	1217	O
-.	1217	1218	O
-
-Therefore	1219	1228	O
-,	1228	1229	O
-if	1230	1232	O
-several	1233	1240	O
-clicks	1241	1247	O
-were	1248	1252	O
-performed	1253	1262	O
-directly	1263	1271	O
-one	1272	1275	O
-after	1276	1281	O
-another	1282	1289	O
-,	1289	1290	O
-only	1291	1295	O
-the	1296	1299	O
-first	1300	1305	O
-click	1306	1311	O
-was	1312	1315	O
-taken	1316	1321	O
-into	1322	1326	O
-account	1327	1334	O
-.	1334	1335	O
+An	0,2	O	O
+obvious	3,10	O	O
+metric	11,17	O	O
+to	18,20	O	O
+measure	21,28	O	O
+the	29,32	O	O
+monitoring	33,43	O	O
+performance	44,55	O	O
+between	56,63	O	O
+the	64,67	O	O
+different	68,77	O	O
+conditions	78,88	O	O
+would	89,94	O	O
+be	95,97	O	O
+to	98,100	O	O
+compare	101,108	O	B-Task
+how	109,112	O	I-Task
+many	113,117	O	I-Task
+clicks	118,124	O	I-Task
+the	125,128	O	I-Task
+users	129,134	O	I-Task
+made	135,139	O	I-Task
+in	140,142	O	I-Task
+average	143,150	O	I-Task
+for	151,154	O	I-Task
+each	155,159	O	I-Task
+condition	160,169	O	I-Task
+.	169,170	O	O
+
+Furthermore	171,182	O	O
+of	183,185	O	O
+interest	186,194	O	O
+are	195,198	O	O
+the	199,202	O	O
+buffer	203,209	O	B-Material
+values	210,216	O	O
+of	217,219	O	O
+the	220,223	O	O
+respective	224,234	O	O
+buffers	235,242	O	B-Material
+at	243,245	O	O
+the	246,249	O	O
+time	250,254	O	O
+of	255,257	O	O
+the	258,261	O	O
+user	262,266	O	O
+'s	266,268	O	O
+interaction	269,280	O	O
+with	281,285	O	O
+the	286,289	O	O
+simulation	290,300	O	B-Process
+(	301,302	O	O
+e.g.	302,306	O	O
+,	306,307	O	O
+the	308,311	O	O
+input	312,317	O	B-Material
+buffer	318,324	O	I-Material
+of	325,327	O	O
+a	328,329	O	O
+certain	330,337	O	O
+machine	338,345	O	O
+at	346,348	O	O
+the	349,352	O	O
+time	353,357	O	O
+of	358,360	O	O
+refilling	361,370	O	O
+it	371,373	O	O
+)	373,374	O	O
+.	374,375	O	O
+
+A	376,377	O	O
+relatively	378,388	O	O
+high	389,393	O	O
+average	394,401	O	O
+buffer	402,408	O	O
+value	409,414	O	O
+can	415,418	O	O
+e.g.	419,423	O	O
+signify	424,431	O	O
+that	432,436	O	O
+the	437,440	O	O
+users	441,446	O	O
+do	447,449	O	O
+not	450,453	O	O
+trust	454,459	O	O
+that	460,464	O	O
+the	465,468	O	O
+respective	469,479	O	O
+mode	480,484	O	O
+of	485,487	O	O
+process	488,495	O	O
+monitoring	496,506	O	O
+conveys	507,514	O	O
+the	515,518	O	O
+need	519,523	O	O
+for	524,527	O	O
+interaction	528,539	O	O
+in	540,542	O	O
+time	543,547	O	O
+,	547,548	O	O
+leading	549,556	O	O
+the	557,560	O	O
+users	561,566	O	O
+to	567,569	O	O
+switching	570,579	O	O
+their	580,585	O	O
+attention	586,595	O	O
+to	596,598	O	O
+the	599,602	O	O
+process	603,610	O	O
+simulation	611,621	O	O
+in	622,624	O	O
+regular	625,632	O	O
+intervals	633,642	O	O
+,	642,643	O	O
+and	644,647	O	O
+performing	648,658	O	O
+interactions	659,671	O	O
+just	672,676	O	O
+in	677,679	O	O
+case	680,684	O	O
+.	684,685	O	O
+
+A	686,687	O	O
+low	688,691	O	O
+average	692,699	O	O
+buffer	700,706	O	B-Material
+can	707,710	O	O
+,	710,711	O	O
+on	712,714	O	O
+the	715,718	O	O
+other	719,724	O	O
+hand	725,729	O	O
+,	729,730	O	O
+signify	731,738	O	O
+that	739,743	O	O
+the	744,747	O	O
+users	748,753	O	O
+rely	754,758	O	O
+on	759,761	O	O
+the	762,765	O	O
+respective	766,776	O	O
+conditions’	777,788	O	O
+ability	789,796	O	O
+to	797,799	O	O
+signal	800,806	O	O
+interaction	807,818	O	O
+needs	819,824	O	O
+.	824,825	O	O
+
+On	826,828	O	O
+the	829,832	O	O
+other	833,838	O	O
+hand	839,843	O	O
+,	843,844	O	O
+if	845,847	O	O
+e.g.	848,852	O	O
+an	853,855	O	O
+input	856,861	O	O
+buffer	862,868	O	B-Material
+had	869,872	O	O
+already	873,880	O	O
+been	881,885	O	O
+completely	886,896	O	O
+depleted	897,905	O	O
+at	906,908	O	O
+the	909,912	O	O
+time	913,917	O	O
+of	918,920	O	O
+intervention	921,933	O	O
+,	933,934	O	O
+this	935,939	O	O
+may	940,943	O	O
+signify	944,951	O	O
+that	952,956	O	O
+the	957,960	O	O
+respective	961,971	O	O
+condition	972,981	O	O
+has	982,985	O	O
+failed	986,992	O	O
+to	993,995	O	O
+inform	996,1002	O	O
+the	1003,1006	O	O
+users	1007,1012	O	O
+in	1013,1015	O	O
+time	1016,1020	O	O
+.	1020,1021	O	O
+
+In	1022,1024	O	O
+many	1025,1029	O	O
+cases	1030,1035	O	O
+,	1035,1036	O	O
+participants	1037,1049	O	O
+used	1050,1054	O	O
+double	1055,1061	O	O
+clicks	1062,1068	O	O
+for	1069,1072	O	O
+their	1073,1078	O	O
+interactions	1079,1091	O	O
+,	1091,1092	O	O
+while	1093,1098	O	O
+a	1099,1100	O	O
+single	1101,1107	O	O
+click	1108,1113	O	O
+would	1114,1119	O	O
+have	1120,1124	O	O
+been	1125,1129	O	O
+sufficient	1130,1140	O	O
+,	1140,1141	O	O
+a	1142,1143	O	O
+fact	1144,1148	O	O
+that	1149,1153	O	O
+was	1154,1157	O	O
+perhaps	1158,1165	O	O
+not	1166,1169	O	O
+communicated	1170,1182	O	O
+clearly	1183,1190	O	O
+enough	1191,1197	O	O
+to	1198,1200	O	O
+the	1201,1204	O	O
+participants	1205,1217	O	O
+.	1217,1218	O	O
+
+Therefore	1219,1228	O	O
+,	1228,1229	O	O
+if	1230,1232	O	O
+several	1233,1240	O	O
+clicks	1241,1247	O	O
+were	1248,1252	O	O
+performed	1253,1262	O	O
+directly	1263,1271	O	O
+one	1272,1275	O	O
+after	1276,1281	O	O
+another	1282,1289	O	O
+,	1289,1290	O	O
+only	1291,1295	O	O
+the	1296,1299	O	O
+first	1300,1305	O	O
+click	1306,1311	O	O
+was	1312,1315	O	O
+taken	1316,1321	O	O
+into	1322,1326	O	O
+account	1327,1334	O	O
+.	1334,1335	O	O
 
 
 -DOCSTART- (S1359646214000165)
 
-The	0	3	O
-first	4	9	B-Task
--	9	10	I-Task
-principles	10	20	I-Task
-calculations	21	33	I-Task
-are	34	37	O
-performed	38	47	O
-using	48	53	O
-the	54	57	O
-Cambridge	58	67	B-Material
-Serial	68	74	I-Material
-Total	75	80	I-Material
-Energy	81	87	I-Material
-Package	88	95	I-Material
-(	96	97	O
-CASTEP	97	103	B-Material
-)	103	104	O
-[	105	106	O
-21	106	108	O
-]	108	109	O
-which	110	115	O
-implements	116	126	O
-the	127	130	O
-plane	131	136	B-Process
--	136	137	I-Process
-wave	137	141	I-Process
-pseudopotential	142	157	I-Process
-DFT	158	161	I-Process
-method	162	168	I-Process
-.	168	169	O
-
-The	170	173	O
-exchange	174	182	B-Process
-correlation	183	194	I-Process
-functional	195	205	I-Process
-is	206	208	O
-approximated	209	221	O
-using	222	227	O
-the	228	231	O
-generalized	232	243	B-Process
-gradient	244	252	I-Process
-approximation	253	266	I-Process
-(	267	268	O
-PBE	268	271	B-Process
--	271	272	I-Process
-GGA	272	275	I-Process
-)	275	276	O
-
-[	277	278	O
-22	278	280	O
-]	280	281	O
-,	281	282	O
-and	283	286	O
-the	287	290	O
-electron	291	299	B-Process
-–	299	300	I-Process
-ion	300	303	I-Process
-interactions	304	316	I-Process
-are	317	320	O
-described	321	330	O
-by	331	333	O
-Vanderbilt	334	344	B-Process
--	344	345	I-Process
-type	345	349	I-Process
-ultrasoft	350	359	I-Process
-pseudopotentials	360	376	I-Process
-[	377	378	O
-23	378	380	O
-]	380	381	O
-.	381	382	O
-
-The	383	386	O
-plane	387	392	B-Material
-wave	393	397	I-Material
-basis	398	403	O
-set	404	407	O
-is	408	410	O
-truncated	411	420	O
-at	421	423	O
-a	424	425	O
-cutoff	426	432	O
-of	433	435	O
-400eV	436	441	O
-,	441	442	O
-and	443	446	O
-the	447	450	O
-Brillouin	451	460	B-Process
--	460	461	I-Process
-zone	461	465	I-Process
-sampling	466	474	I-Process
-was	475	478	O
-performed	479	488	O
-using	489	494	O
-the	495	498	O
-Monkhorst	499	508	B-Process
--	508	509	I-Process
-Pack	509	513	I-Process
-scheme	514	520	I-Process
-with	521	525	O
-a	526	527	O
-k	528	529	B-Process
--	529	530	I-Process
-point	530	535	I-Process
-spacing	536	543	I-Process
-in	544	546	O
-reciprocal	547	557	O
-space	558	563	O
-of	564	566	O
-0.04Å−1	567	574	O
-.	574	575	O
-
-Tests	576	581	O
-show	582	586	O
-that	587	591	O
-these	592	597	O
-computational	598	611	O
-parameters	612	622	O
-give	623	627	O
-results	628	635	O
-that	636	640	O
-are	641	644	O
-sufficiently	645	657	O
-accurate	658	666	O
-for	667	670	O
-present	671	678	O
-purposes	679	687	O
-.	687	688	O
-
-The	689	692	O
-ferromagnetism	693	707	B-Process
-of	708	710	O
-nickel	711	717	B-Material
-is	718	720	O
-accounted	721	730	O
-for	731	734	O
-by	735	737	O
-performing	738	748	O
-all	749	752	O
-calculations	753	765	O
-using	766	771	O
-spin	772	776	B-Process
-polarization	777	789	I-Process
-,	789	790	O
-starting	791	799	O
-at	800	802	O
-a	803	804	O
-ferromagnetic	805	818	O
-initial	819	826	O
-configuration	827	840	O
-and	841	844	O
-relaxing	845	853	O
-towards	854	861	O
-its	862	865	O
-ground	866	872	O
-state	873	878	O
-.	878	879	O
-
-However	880	887	O
-,	887	888	O
-for	889	892	O
-all	893	896	O
-compositions	897	909	O
-considered	910	920	O
-,	920	921	O
-the	922	925	O
-ground	926	932	O
-state	933	938	O
-electronic	939	949	O
-structure	950	959	O
-of	960	962	O
-each	963	967	O
-alloy	968	973	B-Material
-is	974	976	O
-found	977	982	O
-to	983	985	O
-exhibit	986	993	O
-only	994	998	O
-very	999	1003	O
-weak	1004	1008	O
-ferromagnetism	1009	1023	B-Process
-,	1023	1024	O
-and	1025	1028	O
-the	1029	1032	O
-effect	1033	1039	O
-is	1040	1042	O
-not	1043	1046	O
-thought	1047	1054	O
-to	1055	1057	O
-influence	1058	1067	O
-their	1068	1073	O
-phase	1074	1079	O
-stability	1080	1089	O
-.	1089	1090	O
-
-Table	1091	1096	O
-1	1097	1098	O
-shows	1099	1104	O
-the	1105	1108	O
-calculated	1109	1119	O
-equilibrium	1120	1131	O
-lattice	1132	1139	O
-constants	1140	1149	O
-of	1150	1152	O
-the	1153	1156	O
-η	1157	1158	O
-phase	1159	1164	O
-at	1165	1167	O
-various	1168	1175	O
-Ti	1176	1178	B-Material
-concentrations	1179	1193	O
-,	1193	1194	O
-using	1195	1200	O
-partially	1201	1210	O
-ordered	1211	1218	O
-ηP	1219	1221	B-Material
-structures	1222	1232	I-Material
-.	1232	1233	O
-
-The	1234	1237	O
-change	1238	1244	O
-in	1245	1247	O
-lattice	1248	1255	O
-constant	1256	1264	O
-upon	1265	1269	O
-Ti	1270	1272	B-Process
-alloying	1273	1281	I-Process
-is	1282	1284	O
-relatively	1285	1295	O
-small	1296	1301	O
-,	1301	1302	O
-but	1303	1306	O
-can	1307	1310	O
-be	1311	1313	O
-related	1314	1321	O
-to	1322	1324	O
-the	1325	1328	O
-∼10	1329	1332	O
-%	1332	1333	O
-larger	1334	1340	O
-covalent	1341	1349	O
-radius	1350	1356	O
-of	1357	1359	O
-Ti	1360	1362	B-Material
-.	1362	1363	O
-
-The	1364	1367	O
-calculated	1368	1378	O
-lattice	1379	1386	O
-constants	1387	1396	O
-are	1397	1400	O
-in	1401	1403	O
-good	1404	1408	O
-agreement	1409	1418	O
-with	1419	1423	O
-the	1424	1427	O
-experimental	1428	1440	O
-values	1441	1447	O
-,	1447	1448	O
-which	1449	1454	O
-relate	1455	1461	O
-to	1462	1464	O
-an	1465	1467	O
-alloy	1468	1473	B-Material
-with	1474	1478	O
-a	1479	1480	O
-Al	1481	1483	B-Material
-/	1483	1484	O
-Ti	1484	1486	B-Material
-ratio	1487	1492	O
-of	1493	1495	O
-∼2.75	1496	1501	O
-.	1501	1502	O
+The	0,3	O	O
+first	4,9	O	B-Task
+-	9,10	O	I-Task
+principles	10,20	O	I-Task
+calculations	21,33	O	I-Task
+are	34,37	O	O
+performed	38,47	O	O
+using	48,53	O	O
+the	54,57	O	O
+Cambridge	58,67	O	B-Material
+Serial	68,74	O	I-Material
+Total	75,80	O	I-Material
+Energy	81,87	O	I-Material
+Package	88,95	O	I-Material
+(	96,97	O	O
+CASTEP	97,103	O	B-Material
+)	103,104	O	O
+[	105,106	O	O
+21	106,108	O	O
+]	108,109	O	O
+which	110,115	O	O
+implements	116,126	O	O
+the	127,130	O	O
+plane	131,136	O	B-Process
+-	136,137	O	I-Process
+wave	137,141	O	I-Process
+pseudopotential	142,157	O	I-Process
+DFT	158,161	O	I-Process
+method	162,168	O	I-Process
+.	168,169	O	O
+
+The	170,173	O	O
+exchange	174,182	O	B-Process
+correlation	183,194	O	I-Process
+functional	195,205	O	I-Process
+is	206,208	O	O
+approximated	209,221	O	O
+using	222,227	O	O
+the	228,231	O	O
+generalized	232,243	O	B-Process
+gradient	244,252	O	I-Process
+approximation	253,266	O	I-Process
+(	267,268	O	O
+PBE	268,271	O	B-Process
+-	271,272	O	I-Process
+GGA	272,275	O	I-Process
+)	275,276	O	O
+
+[	277,278	O	O
+22	278,280	O	O
+]	280,281	O	O
+,	281,282	O	O
+and	283,286	O	O
+the	287,290	O	O
+electron	291,299	O	B-Process
+–	299,300	O	I-Process
+ion	300,303	O	I-Process
+interactions	304,316	O	I-Process
+are	317,320	O	O
+described	321,330	O	O
+by	331,333	O	O
+Vanderbilt	334,344	O	B-Process
+-	344,345	O	I-Process
+type	345,349	O	I-Process
+ultrasoft	350,359	O	I-Process
+pseudopotentials	360,376	O	I-Process
+[	377,378	O	O
+23	378,380	O	O
+]	380,381	O	O
+.	381,382	O	O
+
+The	383,386	O	O
+plane	387,392	O	B-Material
+wave	393,397	O	I-Material
+basis	398,403	O	O
+set	404,407	O	O
+is	408,410	O	O
+truncated	411,420	O	O
+at	421,423	O	O
+a	424,425	O	O
+cutoff	426,432	O	O
+of	433,435	O	O
+400eV	436,441	O	O
+,	441,442	O	O
+and	443,446	O	O
+the	447,450	O	O
+Brillouin	451,460	O	B-Process
+-	460,461	O	I-Process
+zone	461,465	O	I-Process
+sampling	466,474	O	I-Process
+was	475,478	O	O
+performed	479,488	O	O
+using	489,494	O	O
+the	495,498	O	O
+Monkhorst	499,508	O	B-Process
+-	508,509	O	I-Process
+Pack	509,513	O	I-Process
+scheme	514,520	O	I-Process
+with	521,525	O	O
+a	526,527	O	O
+k	528,529	O	B-Process
+-	529,530	O	I-Process
+point	530,535	O	I-Process
+spacing	536,543	O	I-Process
+in	544,546	O	O
+reciprocal	547,557	O	O
+space	558,563	O	O
+of	564,566	O	O
+0.04Å−1	567,574	O	O
+.	574,575	O	O
+
+Tests	576,581	O	O
+show	582,586	O	O
+that	587,591	O	O
+these	592,597	O	O
+computational	598,611	O	O
+parameters	612,622	O	O
+give	623,627	O	O
+results	628,635	O	O
+that	636,640	O	O
+are	641,644	O	O
+sufficiently	645,657	O	O
+accurate	658,666	O	O
+for	667,670	O	O
+present	671,678	O	O
+purposes	679,687	O	O
+.	687,688	O	O
+
+The	689,692	O	O
+ferromagnetism	693,707	O	B-Process
+of	708,710	O	O
+nickel	711,717	O	B-Material
+is	718,720	O	O
+accounted	721,730	O	O
+for	731,734	O	O
+by	735,737	O	O
+performing	738,748	O	O
+all	749,752	O	O
+calculations	753,765	O	O
+using	766,771	O	O
+spin	772,776	O	B-Process
+polarization	777,789	O	I-Process
+,	789,790	O	O
+starting	791,799	O	O
+at	800,802	O	O
+a	803,804	O	O
+ferromagnetic	805,818	O	O
+initial	819,826	O	O
+configuration	827,840	O	O
+and	841,844	O	O
+relaxing	845,853	O	O
+towards	854,861	O	O
+its	862,865	O	O
+ground	866,872	O	O
+state	873,878	O	O
+.	878,879	O	O
+
+However	880,887	O	O
+,	887,888	O	O
+for	889,892	O	O
+all	893,896	O	O
+compositions	897,909	O	O
+considered	910,920	O	O
+,	920,921	O	O
+the	922,925	O	O
+ground	926,932	O	O
+state	933,938	O	O
+electronic	939,949	O	O
+structure	950,959	O	O
+of	960,962	O	O
+each	963,967	O	O
+alloy	968,973	O	B-Material
+is	974,976	O	O
+found	977,982	O	O
+to	983,985	O	O
+exhibit	986,993	O	O
+only	994,998	O	O
+very	999,1003	O	O
+weak	1004,1008	O	O
+ferromagnetism	1009,1023	O	B-Process
+,	1023,1024	O	O
+and	1025,1028	O	O
+the	1029,1032	O	O
+effect	1033,1039	O	O
+is	1040,1042	O	O
+not	1043,1046	O	O
+thought	1047,1054	O	O
+to	1055,1057	O	O
+influence	1058,1067	O	O
+their	1068,1073	O	O
+phase	1074,1079	O	O
+stability	1080,1089	O	O
+.	1089,1090	O	O
+
+Table	1091,1096	O	O
+1	1097,1098	O	O
+shows	1099,1104	O	O
+the	1105,1108	O	O
+calculated	1109,1119	O	O
+equilibrium	1120,1131	O	O
+lattice	1132,1139	O	O
+constants	1140,1149	O	O
+of	1150,1152	O	O
+the	1153,1156	O	O
+η	1157,1158	O	O
+phase	1159,1164	O	O
+at	1165,1167	O	O
+various	1168,1175	O	O
+Ti	1176,1178	O	B-Material
+concentrations	1179,1193	O	O
+,	1193,1194	O	O
+using	1195,1200	O	O
+partially	1201,1210	O	O
+ordered	1211,1218	O	O
+ηP	1219,1221	O	B-Material
+structures	1222,1232	O	I-Material
+.	1232,1233	O	O
+
+The	1234,1237	O	O
+change	1238,1244	O	O
+in	1245,1247	O	O
+lattice	1248,1255	O	O
+constant	1256,1264	O	O
+upon	1265,1269	O	O
+Ti	1270,1272	O	B-Process
+alloying	1273,1281	O	I-Process
+is	1282,1284	O	O
+relatively	1285,1295	O	O
+small	1296,1301	O	O
+,	1301,1302	O	O
+but	1303,1306	O	O
+can	1307,1310	O	O
+be	1311,1313	O	O
+related	1314,1321	O	O
+to	1322,1324	O	O
+the	1325,1328	O	O
+∼10	1329,1332	O	O
+%	1332,1333	O	O
+larger	1334,1340	O	O
+covalent	1341,1349	O	O
+radius	1350,1356	O	O
+of	1357,1359	O	O
+Ti	1360,1362	O	B-Material
+.	1362,1363	O	O
+
+The	1364,1367	O	O
+calculated	1368,1378	O	O
+lattice	1379,1386	O	O
+constants	1387,1396	O	O
+are	1397,1400	O	O
+in	1401,1403	O	O
+good	1404,1408	O	O
+agreement	1409,1418	O	O
+with	1419,1423	O	O
+the	1424,1427	O	O
+experimental	1428,1440	O	O
+values	1441,1447	O	O
+,	1447,1448	O	O
+which	1449,1454	O	O
+relate	1455,1461	O	O
+to	1462,1464	O	O
+an	1465,1467	O	O
+alloy	1468,1473	O	B-Material
+with	1474,1478	O	O
+a	1479,1480	O	O
+Al	1481,1483	O	B-Material
+/	1483,1484	O	O
+Ti	1484,1486	O	B-Material
+ratio	1487,1492	O	O
+of	1493,1495	O	O
+∼2.75	1496,1501	O	O
+.	1501,1502	O	O
 
 
 -DOCSTART- (S1364815216302122)
 
-When	0	4	O
-we	5	7	O
-formulate	8	17	O
-the	18	21	O
-downscaling	22	33	O
-problem	34	41	O
-as	42	44	O
-a	45	46	O
-multi	47	52	B-Process
--	52	53	I-Process
-objective	53	62	I-Process
-optimization	63	75	I-Process
-problem	76	83	O
-,	83	84	O
-we	85	87	O
-face	88	92	O
-,	92	93	O
-however	94	101	O
-,	101	102	O
-the	103	106	O
-following	107	116	O
-problems	117	125	O
-.	125	126	O
-
-Minimizing	127	137	O
-the	138	141	O
-sum	142	145	O
-of	146	148	O
-different	149	158	O
-objectives	159	169	O
-is	170	172	O
-problematic	173	184	O
-,	184	185	O
-since	186	191	O
-they	192	196	O
-may	197	200	O
-have	201	205	O
-different	206	215	O
-units	216	221	O
-and	222	225	O
-ranges	226	232	O
-.	232	233	O
-
-Even	234	238	O
-with	239	243	O
-an	244	246	O
-appropriate	247	258	O
-scaling	259	266	B-Process
-procedure	267	276	I-Process
-there	277	282	O
-is	283	285	O
-a	286	287	O
-risk	288	292	O
-of	293	295	O
-treating	296	304	O
-the	305	308	O
-objectives	309	319	O
-unequally	320	329	O
-or	330	332	O
-getting	333	340	O
-trapped	341	348	O
-in	349	351	O
-a	352	353	O
-local	354	359	O
-minimum	360	367	O
-.	367	368	O
-
-Firstly	369	376	O
-,	376	377	O
-we	378	380	O
-can	381	384	O
-never	385	390	O
-know	391	395	O
-,	395	396	O
-what	397	401	O
-is	402	404	O
-the	405	408	O
-minimum	409	416	O
-value	417	422	O
-of	423	425	O
-each	426	430	O
-objective	431	440	O
-that	441	445	O
-can	446	449	O
-be	450	452	O
-achieved	453	461	O
-by	462	464	O
-the	465	468	O
-regression	469	479	B-Process
-.	479	480	O
-
-Thus	481	485	O
-,	485	486	O
-designing	487	496	O
-an	497	499	O
-appropriate	500	511	O
-scaling	512	519	B-Process
-procedure	520	529	I-Process
-is	530	532	O
-difficult	533	542	O
-and	543	546	O
-one	547	550	O
-would	551	556	O
-need	557	561	O
-to	562	564	O
-decide	565	571	O
-on	572	574	O
-the	575	578	O
-relative	579	587	O
-importance	588	598	O
-of	599	601	O
-the	602	605	O
-different	606	615	O
-objectives	616	626	O
-in	627	629	O
-advance	630	637	O
-.	637	638	O
-
-Secondly	639	647	O
-,	647	648	O
-adding	649	655	O
-multiple	656	664	O
-,	664	665	O
-conflicting	666	677	O
-objectives	678	688	O
-very	689	693	O
-likely	694	700	O
-results	701	708	O
-in	709	711	O
-a	712	713	O
-fitness	714	721	O
-function	722	730	O
-with	731	735	O
-multiple	736	744	O
-local	745	750	O
-minima	751	757	O
-,	757	758	O
-which	759	764	O
-makes	765	770	O
-optimization	771	783	B-Process
-more	784	788	O
-difficult	789	798	O
-.	798	799	O
-
-To	800	802	O
-avoid	803	808	O
-these	809	814	O
-problems	815	823	O
-,	823	824	O
-we	825	827	O
-have	828	832	O
-implemented	833	844	O
-fitness	845	852	O
-calculation	853	864	O
-according	865	874	O
-to	875	877	O
-the	878	881	O
-Strength	882	890	B-Process
-Pareto	891	897	I-Process
-Evolutionary	898	910	I-Process
-Algorithm	911	920	I-Process
-(	921	922	O
-SPEA	922	926	B-Process
-)	926	927	O
-by	928	930	O
-Zitzler	931	938	O
-and	939	942	O
-Thiele	943	949	O
-(	950	951	O
-1999	951	955	O
-)	955	956	O
-,	956	957	O
-instead	958	965	O
-of	966	968	O
-using	969	974	B-Process
-a	975	976	I-Process
-single	977	983	I-Process
-(	984	985	I-Process
-weighted	985	993	I-Process
-)	993	994	I-Process
-fitness	995	1002	I-Process
-or	1003	1005	I-Process
-cost	1006	1010	I-Process
-function	1011	1019	I-Process
-.	1019	1020	O
-
-Approaches	1021	1031	O
-for	1032	1035	O
-multi	1036	1041	B-Process
--	1041	1042	I-Process
-objective	1042	1051	I-Process
-optimization	1052	1064	I-Process
-like	1065	1069	O
-SPEA	1070	1074	B-Process
-are	1075	1078	O
-widely	1079	1085	O
-used	1086	1090	O
-in	1091	1093	O
-evolutionary	1094	1106	B-Task
-computation	1107	1118	I-Task
-.	1118	1119	O
-
-In	1120	1122	O
-SPEA	1123	1127	B-Process
-the	1128	1131	O
-fitness	1132	1139	B-Process
-calculation	1140	1151	I-Process
-during	1152	1158	O
-the	1159	1162	O
-fitting	1163	1170	O
-procedure	1171	1180	O
-is	1181	1183	O
-based	1184	1189	O
-on	1190	1192	O
-an	1193	1195	O
-intercomparison	1196	1211	O
-of	1212	1214	O
-the	1215	1218	O
-different	1219	1228	O
-models	1229	1235	O
-.	1235	1236	O
-
-Further	1237	1244	O
-,	1244	1245	O
-a	1246	1247	O
-finite	1248	1254	O
-set	1255	1258	O
-of	1259	1261	O
-so	1262	1264	O
-called	1265	1271	O
-Pareto	1272	1278	B-Process
-optimal	1279	1286	I-Process
-models	1287	1293	I-Process
-(	1294	1295	O
-downscaling	1295	1306	B-Process
-rules	1307	1312	I-Process
-)	1312	1313	O
-is	1314	1316	O
-returned	1317	1325	O
-.	1325	1326	O
+When	0,4	O	O
+we	5,7	O	O
+formulate	8,17	O	O
+the	18,21	O	O
+downscaling	22,33	O	O
+problem	34,41	O	O
+as	42,44	O	O
+a	45,46	O	O
+multi	47,52	O	B-Process
+-	52,53	O	I-Process
+objective	53,62	O	I-Process
+optimization	63,75	O	I-Process
+problem	76,83	O	O
+,	83,84	O	O
+we	85,87	O	O
+face	88,92	O	O
+,	92,93	O	O
+however	94,101	O	O
+,	101,102	O	O
+the	103,106	O	O
+following	107,116	O	O
+problems	117,125	O	O
+.	125,126	O	O
+
+Minimizing	127,137	O	O
+the	138,141	O	O
+sum	142,145	O	O
+of	146,148	O	O
+different	149,158	O	O
+objectives	159,169	O	O
+is	170,172	O	O
+problematic	173,184	O	O
+,	184,185	O	O
+since	186,191	O	O
+they	192,196	O	O
+may	197,200	O	O
+have	201,205	O	O
+different	206,215	O	O
+units	216,221	O	O
+and	222,225	O	O
+ranges	226,232	O	O
+.	232,233	O	O
+
+Even	234,238	O	O
+with	239,243	O	O
+an	244,246	O	O
+appropriate	247,258	O	O
+scaling	259,266	O	B-Process
+procedure	267,276	O	I-Process
+there	277,282	O	O
+is	283,285	O	O
+a	286,287	O	O
+risk	288,292	O	O
+of	293,295	O	O
+treating	296,304	O	O
+the	305,308	O	O
+objectives	309,319	O	O
+unequally	320,329	O	O
+or	330,332	O	O
+getting	333,340	O	O
+trapped	341,348	O	O
+in	349,351	O	O
+a	352,353	O	O
+local	354,359	O	O
+minimum	360,367	O	O
+.	367,368	O	O
+
+Firstly	369,376	O	O
+,	376,377	O	O
+we	378,380	O	O
+can	381,384	O	O
+never	385,390	O	O
+know	391,395	O	O
+,	395,396	O	O
+what	397,401	O	O
+is	402,404	O	O
+the	405,408	O	O
+minimum	409,416	O	O
+value	417,422	O	O
+of	423,425	O	O
+each	426,430	O	O
+objective	431,440	O	O
+that	441,445	O	O
+can	446,449	O	O
+be	450,452	O	O
+achieved	453,461	O	O
+by	462,464	O	O
+the	465,468	O	O
+regression	469,479	O	B-Process
+.	479,480	O	O
+
+Thus	481,485	O	O
+,	485,486	O	O
+designing	487,496	O	O
+an	497,499	O	O
+appropriate	500,511	O	O
+scaling	512,519	O	B-Process
+procedure	520,529	O	I-Process
+is	530,532	O	O
+difficult	533,542	O	O
+and	543,546	O	O
+one	547,550	O	O
+would	551,556	O	O
+need	557,561	O	O
+to	562,564	O	O
+decide	565,571	O	O
+on	572,574	O	O
+the	575,578	O	O
+relative	579,587	O	O
+importance	588,598	O	O
+of	599,601	O	O
+the	602,605	O	O
+different	606,615	O	O
+objectives	616,626	O	O
+in	627,629	O	O
+advance	630,637	O	O
+.	637,638	O	O
+
+Secondly	639,647	O	O
+,	647,648	O	O
+adding	649,655	O	O
+multiple	656,664	O	O
+,	664,665	O	O
+conflicting	666,677	O	O
+objectives	678,688	O	O
+very	689,693	O	O
+likely	694,700	O	O
+results	701,708	O	O
+in	709,711	O	O
+a	712,713	O	O
+fitness	714,721	O	O
+function	722,730	O	O
+with	731,735	O	O
+multiple	736,744	O	O
+local	745,750	O	O
+minima	751,757	O	O
+,	757,758	O	O
+which	759,764	O	O
+makes	765,770	O	O
+optimization	771,783	O	B-Process
+more	784,788	O	O
+difficult	789,798	O	O
+.	798,799	O	O
+
+To	800,802	O	O
+avoid	803,808	O	O
+these	809,814	O	O
+problems	815,823	O	O
+,	823,824	O	O
+we	825,827	O	O
+have	828,832	O	O
+implemented	833,844	O	O
+fitness	845,852	O	O
+calculation	853,864	O	O
+according	865,874	O	O
+to	875,877	O	O
+the	878,881	O	O
+Strength	882,890	O	B-Process
+Pareto	891,897	O	I-Process
+Evolutionary	898,910	O	I-Process
+Algorithm	911,920	O	I-Process
+(	921,922	O	O
+SPEA	922,926	O	B-Process
+)	926,927	O	O
+by	928,930	O	O
+Zitzler	931,938	O	O
+and	939,942	O	O
+Thiele	943,949	O	O
+(	950,951	O	O
+1999	951,955	O	O
+)	955,956	O	O
+,	956,957	O	O
+instead	958,965	O	O
+of	966,968	O	O
+using	969,974	O	B-Process
+a	975,976	O	I-Process
+single	977,983	O	I-Process
+(	984,985	O	I-Process
+weighted	985,993	O	I-Process
+)	993,994	O	I-Process
+fitness	995,1002	O	I-Process
+or	1003,1005	O	I-Process
+cost	1006,1010	O	I-Process
+function	1011,1019	O	I-Process
+.	1019,1020	O	O
+
+Approaches	1021,1031	O	O
+for	1032,1035	O	O
+multi	1036,1041	O	B-Process
+-	1041,1042	O	I-Process
+objective	1042,1051	O	I-Process
+optimization	1052,1064	O	I-Process
+like	1065,1069	O	O
+SPEA	1070,1074	O	B-Process
+are	1075,1078	O	O
+widely	1079,1085	O	O
+used	1086,1090	O	O
+in	1091,1093	O	O
+evolutionary	1094,1106	O	B-Task
+computation	1107,1118	O	I-Task
+.	1118,1119	O	O
+
+In	1120,1122	O	O
+SPEA	1123,1127	O	B-Process
+the	1128,1131	O	O
+fitness	1132,1139	O	B-Process
+calculation	1140,1151	O	I-Process
+during	1152,1158	O	O
+the	1159,1162	O	O
+fitting	1163,1170	O	O
+procedure	1171,1180	O	O
+is	1181,1183	O	O
+based	1184,1189	O	O
+on	1190,1192	O	O
+an	1193,1195	O	O
+intercomparison	1196,1211	O	O
+of	1212,1214	O	O
+the	1215,1218	O	O
+different	1219,1228	O	O
+models	1229,1235	O	O
+.	1235,1236	O	O
+
+Further	1237,1244	O	O
+,	1244,1245	O	O
+a	1246,1247	O	O
+finite	1248,1254	O	O
+set	1255,1258	O	O
+of	1259,1261	O	O
+so	1262,1264	O	O
+called	1265,1271	O	O
+Pareto	1272,1278	O	B-Process
+optimal	1279,1286	O	I-Process
+models	1287,1293	O	I-Process
+(	1294,1295	O	O
+downscaling	1295,1306	O	B-Process
+rules	1307,1312	O	I-Process
+)	1312,1313	O	O
+is	1314,1316	O	O
+returned	1317,1325	O	O
+.	1325,1326	O	O
 
 
 -DOCSTART- (S1364815216302705)
 
-The	0	3	O
-main	4	8	O
-objective	9	18	O
-of	19	21	O
-this	22	26	O
-manuscript	27	37	O
-is	38	40	O
-to	41	43	O
-present	44	51	B-Task
-and	52	55	I-Task
-discuss	56	63	I-Task
-the	64	67	I-Task
-application	68	79	I-Task
-of	80	82	I-Task
-SLAMM	83	88	I-Task
-to	89	91	I-Task
-the	92	95	I-Task
-New	96	99	I-Task
-York	100	104	I-Task
-coast	105	110	I-Task
-.	110	111	O
-
-Although	112	120	O
-the	121	124	O
-base	125	129	O
-analysis	130	138	O
-considers	139	148	O
-a	149	150	O
-range	151	156	O
-of	157	159	O
-different	160	169	O
-possible	170	178	O
-SLR	179	182	B-Process
-scenarios	183	192	O
-,	192	193	O
-the	194	197	O
-effects	198	205	O
-of	206	208	O
-various	209	216	O
-sources	217	224	O
-of	225	227	O
-uncertainties	228	241	O
-such	242	246	O
-as	247	249	O
-input	250	255	O
-parameters	256	266	O
-and	267	270	O
-driving	271	278	O
-data	279	283	O
-are	284	287	O
-not	288	291	O
-accounted	292	301	O
-for	302	305	O
-.	305	306	O
-
-In	307	309	O
-addition	310	318	O
-,	318	319	O
-refined	320	327	O
-and	328	331	O
-site	332	336	O
--	336	337	O
-specific	337	345	O
-data	346	350	O
-are	351	354	O
-often	355	360	O
-not	361	364	O
-available	365	374	O
-requiring	375	384	O
-the	385	388	O
-use	389	392	O
-of	393	395	O
-regional	396	404	O
-data	405	409	O
-collected	410	419	O
-from	420	424	O
-literature	425	435	O
-and	436	439	O
-professional	440	452	O
-judgement	453	462	O
-in	463	465	O
-order	466	471	O
-to	472	474	O
-run	475	478	O
-the	479	482	O
-model	483	488	O
-.	488	489	O
-
-To	490	492	O
-ignore	493	499	O
-the	500	503	O
-effects	504	511	O
-of	512	514	O
-these	515	520	O
-uncertainties	521	534	O
-on	535	537	O
-predictions	538	549	O
-may	550	553	O
-make	554	558	O
-interpretation	559	573	O
-of	574	576	O
-the	577	580	O
-results	581	588	O
-and	589	592	O
-subsequent	593	603	O
-decision	604	612	O
-making	613	619	O
-misleading	620	630	O
-since	631	636	O
-the	637	640	O
-likelihood	641	651	O
-and	652	655	O
-probabilities	656	669	O
-of	670	672	O
-predicted	673	682	O
-outcomes	683	691	O
-would	692	697	O
-be	698	700	O
-unknown	701	708	O
-.	708	709	O
-
-A	710	711	O
-unique	712	718	O
-capability	719	729	O
-of	730	732	O
-the	733	736	O
-current	737	744	O
-version	745	752	O
-of	753	755	O
-SLAMM	756	761	B-Process
-is	762	764	O
-the	765	768	O
-ability	769	776	O
-to	777	779	O
-aggregate	780	789	O
-multiple	790	798	O
-types	799	804	O
-of	805	807	O
-input	808	813	O
--	813	814	O
-data	814	818	O
-uncertainty	819	830	O
-to	831	833	O
-create	834	840	O
-outputs	841	848	O
-accompanied	849	860	O
-by	861	863	O
-probability	864	875	O
-statements	876	886	O
-and	887	890	O
-confidence	891	901	O
-intervals	902	911	O
-.	911	912	O
-
-Uncertainty	913	924	O
-in	925	927	O
-elevation	928	937	O
-data	938	942	O
-layers	943	949	O
-have	950	954	O
-been	955	959	O
-considered	960	970	O
-by	971	973	O
-several	974	981	O
-modeling	982	990	O
-groups	991	997	O
-to	998	1000	O
-various	1001	1008	O
-extents	1009	1016	O
-(	1017	1018	O
-Gesch	1018	1023	O
-,	1023	1024	O
-2009	1025	1029	O
-;	1029	1030	O
-Gilmer	1031	1037	O
-and	1038	1041	O
-Ferdaña	1042	1049	O
-,	1049	1050	O
-2012	1051	1055	O
-;	1055	1056	O
-
-Schmid	1057	1063	O
-et	1064	1066	O
-al	1067	1069	O
-.	1069	1070	O
-,	1070	1071	O
-2014	1072	1076	O
-)	1076	1077	O
-.	1077	1078	O
-
-However	1079	1086	O
-,	1086	1087	O
-to	1088	1090	O
-the	1091	1094	O
-best	1095	1099	O
-of	1100	1102	O
-our	1103	1106	O
-knowledge	1107	1116	O
-,	1116	1117	O
-no	1118	1120	O
-other	1121	1126	O
-marsh	1127	1132	B-Material
-migration	1133	1142	I-Material
-model	1143	1148	I-Material
-simultaneously	1149	1163	O
-accounts	1164	1172	O
-for	1173	1176	O
-the	1177	1180	O
-combined	1181	1189	O
-effects	1190	1197	O
-of	1198	1200	O
-uncertainty	1201	1212	O
-in	1213	1215	O
-spatial	1216	1223	B-Process
-inputs	1224	1230	I-Process
-(	1231	1232	O
-DEM	1232	1235	B-Process
-,	1235	1236	O
-VDATUM	1237	1243	B-Process
-,	1243	1244	O
-etc	1245	1248	O
-.	1248	1249	O
-)	1249	1250	O
-
-and	1251	1254	O
-parameter	1255	1264	B-Process
-choices	1265	1272	I-Process
-(	1273	1274	O
-accretion	1274	1283	B-Process
-rates	1284	1289	I-Process
-,	1289	1290	O
-tide	1291	1295	B-Process
-ranges	1296	1302	I-Process
-,	1302	1303	O
-etc	1304	1307	O
-.	1307	1308	O
-)	1308	1309	O
-
-on	1310	1312	O
-landcover	1313	1322	B-Process
-projections	1323	1334	I-Process
-.	1334	1335	O
-
-This	1336	1340	O
-added	1341	1346	O
-feature	1347	1354	O
-of	1355	1357	O
-SLAMM	1358	1363	B-Process
-allows	1364	1370	O
-results	1371	1378	O
-to	1379	1381	O
-be	1382	1384	O
-evaluated	1385	1394	O
-in	1395	1397	O
-terms	1398	1403	O
-of	1404	1406	O
-their	1407	1412	O
-likelihood	1413	1423	O
-of	1424	1426	O
-occurrence	1427	1437	O
-with	1438	1442	O
-respect	1443	1450	O
-to	1451	1453	O
-input	1454	1459	O
--	1459	1460	O
-data	1460	1464	O
-and	1465	1468	O
-parameter	1469	1478	O
-uncertainties	1479	1492	O
-.	1492	1493	O
-
-Further	1494	1501	O
-,	1501	1502	O
-by	1503	1505	O
-assigning	1506	1515	O
-wide	1516	1520	O
-ranges	1521	1527	O
-of	1528	1530	O
-uncertainty	1531	1542	O
-when	1543	1547	O
-appropriate	1548	1559	O
-,	1559	1560	O
-it	1561	1563	O
-permits	1564	1571	O
-the	1572	1575	O
-production	1576	1586	O
-of	1587	1589	O
-meaningful	1590	1600	O
-projections	1601	1612	O
-in	1613	1615	O
-areas	1616	1621	O
-where	1622	1627	O
-high	1628	1632	B-Material
--	1632	1633	I-Material
-quality	1633	1640	I-Material
-local	1641	1646	I-Material
-data	1647	1651	I-Material
-are	1652	1655	O
-not	1656	1659	O
-available	1660	1669	O
-.	1669	1670	O
+The	0,3	O	O
+main	4,8	O	O
+objective	9,18	O	O
+of	19,21	O	O
+this	22,26	O	O
+manuscript	27,37	O	O
+is	38,40	O	O
+to	41,43	O	O
+present	44,51	O	B-Task
+and	52,55	O	I-Task
+discuss	56,63	O	I-Task
+the	64,67	O	I-Task
+application	68,79	O	I-Task
+of	80,82	O	I-Task
+SLAMM	83,88	O	I-Task
+to	89,91	O	I-Task
+the	92,95	O	I-Task
+New	96,99	O	I-Task
+York	100,104	O	I-Task
+coast	105,110	O	I-Task
+.	110,111	O	O
+
+Although	112,120	O	O
+the	121,124	O	O
+base	125,129	O	O
+analysis	130,138	O	O
+considers	139,148	O	O
+a	149,150	O	O
+range	151,156	O	O
+of	157,159	O	O
+different	160,169	O	O
+possible	170,178	O	O
+SLR	179,182	O	B-Process
+scenarios	183,192	O	O
+,	192,193	O	O
+the	194,197	O	O
+effects	198,205	O	O
+of	206,208	O	O
+various	209,216	O	O
+sources	217,224	O	O
+of	225,227	O	O
+uncertainties	228,241	O	O
+such	242,246	O	O
+as	247,249	O	O
+input	250,255	O	O
+parameters	256,266	O	O
+and	267,270	O	O
+driving	271,278	O	O
+data	279,283	O	O
+are	284,287	O	O
+not	288,291	O	O
+accounted	292,301	O	O
+for	302,305	O	O
+.	305,306	O	O
+
+In	307,309	O	O
+addition	310,318	O	O
+,	318,319	O	O
+refined	320,327	O	O
+and	328,331	O	O
+site	332,336	O	O
+-	336,337	O	O
+specific	337,345	O	O
+data	346,350	O	O
+are	351,354	O	O
+often	355,360	O	O
+not	361,364	O	O
+available	365,374	O	O
+requiring	375,384	O	O
+the	385,388	O	O
+use	389,392	O	O
+of	393,395	O	O
+regional	396,404	O	O
+data	405,409	O	O
+collected	410,419	O	O
+from	420,424	O	O
+literature	425,435	O	O
+and	436,439	O	O
+professional	440,452	O	O
+judgement	453,462	O	O
+in	463,465	O	O
+order	466,471	O	O
+to	472,474	O	O
+run	475,478	O	O
+the	479,482	O	O
+model	483,488	O	O
+.	488,489	O	O
+
+To	490,492	O	O
+ignore	493,499	O	O
+the	500,503	O	O
+effects	504,511	O	O
+of	512,514	O	O
+these	515,520	O	O
+uncertainties	521,534	O	O
+on	535,537	O	O
+predictions	538,549	O	O
+may	550,553	O	O
+make	554,558	O	O
+interpretation	559,573	O	O
+of	574,576	O	O
+the	577,580	O	O
+results	581,588	O	O
+and	589,592	O	O
+subsequent	593,603	O	O
+decision	604,612	O	O
+making	613,619	O	O
+misleading	620,630	O	O
+since	631,636	O	O
+the	637,640	O	O
+likelihood	641,651	O	O
+and	652,655	O	O
+probabilities	656,669	O	O
+of	670,672	O	O
+predicted	673,682	O	O
+outcomes	683,691	O	O
+would	692,697	O	O
+be	698,700	O	O
+unknown	701,708	O	O
+.	708,709	O	O
+
+A	710,711	O	O
+unique	712,718	O	O
+capability	719,729	O	O
+of	730,732	O	O
+the	733,736	O	O
+current	737,744	O	O
+version	745,752	O	O
+of	753,755	O	O
+SLAMM	756,761	O	B-Process
+is	762,764	O	O
+the	765,768	O	O
+ability	769,776	O	O
+to	777,779	O	O
+aggregate	780,789	O	O
+multiple	790,798	O	O
+types	799,804	O	O
+of	805,807	O	O
+input	808,813	O	O
+-	813,814	O	O
+data	814,818	O	O
+uncertainty	819,830	O	O
+to	831,833	O	O
+create	834,840	O	O
+outputs	841,848	O	O
+accompanied	849,860	O	O
+by	861,863	O	O
+probability	864,875	O	O
+statements	876,886	O	O
+and	887,890	O	O
+confidence	891,901	O	O
+intervals	902,911	O	O
+.	911,912	O	O
+
+Uncertainty	913,924	O	O
+in	925,927	O	O
+elevation	928,937	O	O
+data	938,942	O	O
+layers	943,949	O	O
+have	950,954	O	O
+been	955,959	O	O
+considered	960,970	O	O
+by	971,973	O	O
+several	974,981	O	O
+modeling	982,990	O	O
+groups	991,997	O	O
+to	998,1000	O	O
+various	1001,1008	O	O
+extents	1009,1016	O	O
+(	1017,1018	O	O
+Gesch	1018,1023	O	O
+,	1023,1024	O	O
+2009	1025,1029	O	O
+;	1029,1030	O	O
+Gilmer	1031,1037	O	O
+and	1038,1041	O	O
+Ferdaña	1042,1049	O	O
+,	1049,1050	O	O
+2012	1051,1055	O	O
+;	1055,1056	O	O
+
+Schmid	1057,1063	O	O
+et	1064,1066	O	O
+al	1067,1069	O	O
+.	1069,1070	O	O
+,	1070,1071	O	O
+2014	1072,1076	O	O
+)	1076,1077	O	O
+.	1077,1078	O	O
+
+However	1079,1086	O	O
+,	1086,1087	O	O
+to	1088,1090	O	O
+the	1091,1094	O	O
+best	1095,1099	O	O
+of	1100,1102	O	O
+our	1103,1106	O	O
+knowledge	1107,1116	O	O
+,	1116,1117	O	O
+no	1118,1120	O	O
+other	1121,1126	O	O
+marsh	1127,1132	O	B-Material
+migration	1133,1142	O	I-Material
+model	1143,1148	O	I-Material
+simultaneously	1149,1163	O	O
+accounts	1164,1172	O	O
+for	1173,1176	O	O
+the	1177,1180	O	O
+combined	1181,1189	O	O
+effects	1190,1197	O	O
+of	1198,1200	O	O
+uncertainty	1201,1212	O	O
+in	1213,1215	O	O
+spatial	1216,1223	O	B-Process
+inputs	1224,1230	O	I-Process
+(	1231,1232	O	O
+DEM	1232,1235	O	B-Process
+,	1235,1236	O	O
+VDATUM	1237,1243	O	B-Process
+,	1243,1244	O	O
+etc	1245,1248	O	O
+.	1248,1249	O	O
+)	1249,1250	O	O
+
+and	1251,1254	O	O
+parameter	1255,1264	O	B-Process
+choices	1265,1272	O	I-Process
+(	1273,1274	O	O
+accretion	1274,1283	O	B-Process
+rates	1284,1289	O	I-Process
+,	1289,1290	O	O
+tide	1291,1295	O	B-Process
+ranges	1296,1302	O	I-Process
+,	1302,1303	O	O
+etc	1304,1307	O	O
+.	1307,1308	O	O
+)	1308,1309	O	O
+
+on	1310,1312	O	O
+landcover	1313,1322	O	B-Process
+projections	1323,1334	O	I-Process
+.	1334,1335	O	O
+
+This	1336,1340	O	O
+added	1341,1346	O	O
+feature	1347,1354	O	O
+of	1355,1357	O	O
+SLAMM	1358,1363	O	B-Process
+allows	1364,1370	O	O
+results	1371,1378	O	O
+to	1379,1381	O	O
+be	1382,1384	O	O
+evaluated	1385,1394	O	O
+in	1395,1397	O	O
+terms	1398,1403	O	O
+of	1404,1406	O	O
+their	1407,1412	O	O
+likelihood	1413,1423	O	O
+of	1424,1426	O	O
+occurrence	1427,1437	O	O
+with	1438,1442	O	O
+respect	1443,1450	O	O
+to	1451,1453	O	O
+input	1454,1459	O	O
+-	1459,1460	O	O
+data	1460,1464	O	O
+and	1465,1468	O	O
+parameter	1469,1478	O	O
+uncertainties	1479,1492	O	O
+.	1492,1493	O	O
+
+Further	1494,1501	O	O
+,	1501,1502	O	O
+by	1503,1505	O	O
+assigning	1506,1515	O	O
+wide	1516,1520	O	O
+ranges	1521,1527	O	O
+of	1528,1530	O	O
+uncertainty	1531,1542	O	O
+when	1543,1547	O	O
+appropriate	1548,1559	O	O
+,	1559,1560	O	O
+it	1561,1563	O	O
+permits	1564,1571	O	O
+the	1572,1575	O	O
+production	1576,1586	O	O
+of	1587,1589	O	O
+meaningful	1590,1600	O	O
+projections	1601,1612	O	O
+in	1613,1615	O	O
+areas	1616,1621	O	O
+where	1622,1627	O	O
+high	1628,1632	O	B-Material
+-	1632,1633	O	I-Material
+quality	1633,1640	O	I-Material
+local	1641,1646	O	I-Material
+data	1647,1651	O	I-Material
+are	1652,1655	O	O
+not	1656,1659	O	O
+available	1660,1669	O	O
+.	1669,1670	O	O
 
 
 -DOCSTART- (S136481521630305X)
 
-Using	0	5	O
-measured	6	14	O
-data	15	19	O
-from	20	24	O
-two	25	28	O
-arable	29	35	O
-sites	36	41	O
-in	42	44	O
-the	45	48	O
-UK	49	51	O
-we	52	54	O
-have	55	59	O
-shown	60	65	O
-that	66	70	O
-lags	71	75	O
-can	76	79	O
-have	80	84	O
-significant	85	96	O
-impact	97	103	O
-on	104	106	O
-model	107	112	B-Task
-evaluation	113	123	I-Task
-and	124	127	O
-can	128	131	O
-affect	132	138	O
-both	139	143	O
-the	144	147	O
-level	148	153	O
-of	154	156	O
-correlation	157	168	O
-between	169	176	O
-measured	177	185	O
-and	186	189	O
-simulated	190	199	O
-data	200	204	O
-and	205	208	O
-the	209	212	O
-magnitude	213	222	O
-of	223	225	O
-the	226	229	O
-sums	230	234	O
-of	235	237	O
-the	238	241	O
-residuals	242	251	O
-.	251	252	O
-
-Also	253	257	O
-,	257	258	O
-we	259	261	O
-used	262	266	O
-the	267	270	O
-division	271	279	O
-of	280	282	O
-MSE	283	286	B-Process
-to	287	289	O
-three	290	295	O
-constituent	296	307	B-Process
-statistics	308	318	I-Process
-(	319	320	O
-SB	320	322	B-Process
-,	322	323	O
-SDSD	324	328	B-Process
-and	329	332	O
-LCS	333	336	B-Process
-)	336	337	O
-to	338	340	O
-show	341	345	O
-how	346	349	O
-the	350	353	O
-level	354	359	O
-of	360	362	O
-correlation	363	374	O
-can	375	378	O
-affect	379	385	O
-the	386	389	O
-sum	390	393	O
-of	394	396	O
-residuals	397	406	O
-.	406	407	O
-
-By	408	410	O
-dividing	411	419	O
-the	420	423	O
-algorithm	424	433	O
--	433	434	O
-predicted	434	443	O
-series	444	450	O
-of	451	453	O
-lag	454	457	O
-values	458	464	O
-into	465	469	O
-monthly	470	477	O
-sets	478	482	O
-and	483	486	O
-examining	487	496	O
-the	497	500	O
-frequency	501	510	O
-distribution	511	523	O
-of	524	526	O
-the	527	530	O
-lags	531	535	O
-,	535	536	O
-certain	537	544	O
-patterns	545	553	O
-in	554	556	O
-these	557	562	O
-temporally	563	573	O
-patchy	574	580	O
-series	581	587	O
-have	588	592	O
-been	593	597	O
-identified	598	608	O
-.	608	609	O
-
-A	610	611	O
-challenging	612	623	O
-task	624	628	O
-in	629	631	O
-relation	632	640	O
-to	641	643	O
-time	644	648	O
-lags	649	653	O
-between	654	661	O
-observed	662	670	O
-and	671	674	O
-simulated	675	684	O
-daily	685	690	O
-data	691	695	O
-,	695	696	O
-is	697	699	O
-to	700	702	O
-determine	703	712	O
-their	713	718	O
-cause	719	724	O
-.	724	725	O
-
-This	726	730	O
-task	731	735	O
-becomes	736	743	O
-more	744	748	O
-difficult	749	758	O
-for	759	762	O
-model	763	768	O
-outputs	769	776	O
-such	777	781	O
-as	782	784	O
-soil	785	789	O
-N2O	790	793	B-Material
-emissions	794	803	I-Material
-that	804	808	O
-are	809	812	O
-driven	813	819	O
-by	820	822	O
-various	823	830	O
-interacting	831	842	O
-variables	843	852	O
-.	852	853	O
-
-Even	854	858	O
-more	859	863	O
-so	864	866	O
-,	866	867	O
-because	868	875	O
-the	876	879	O
-measured	880	888	O
-N2O	889	892	B-Material
-datasets	893	901	I-Material
-and	902	905	O
-the	906	909	O
-measured	910	918	O
-datasets	919	927	O
-of	928	930	O
-their	931	936	O
-drivers	937	944	O
-(	945	946	O
-e.g.	946	950	O
-soil	951	955	O
-moisture	956	964	O
-,	964	965	O
-soil	966	970	O
-N	971	972	O
-content	973	980	O
-)	980	981	O
-cover	982	987	O
-small	988	993	O
-time	994	998	O
-periods	999	1006	O
-,	1006	1007	O
-they	1008	1012	O
-are	1013	1016	O
-not	1017	1020	O
-continuous	1021	1031	O
-and	1032	1035	O
-can	1036	1039	O
-vary	1040	1044	O
-widely	1045	1051	O
-in	1052	1054	O
-size	1055	1059	O
-.	1059	1060	O
-
-In	1061	1063	O
-this	1064	1068	O
-study	1069	1074	O
-we	1075	1077	O
-implemented	1078	1089	O
-the	1090	1093	O
-algorithm	1094	1103	O
-using	1104	1109	O
-measured	1110	1118	B-Material
-and	1119	1122	I-Material
-simulated	1123	1132	I-Material
-data	1133	1137	I-Material
-for	1138	1141	I-Material
-soil	1142	1146	I-Material
-moisture	1147	1155	I-Material
-(	1156	1157	O
-first	1157	1162	O
-and	1163	1166	O
-second	1167	1173	O
-example	1174	1181	O
-)	1181	1182	O
-and	1183	1186	O
-soil	1187	1191	B-Material
-mineral	1192	1199	I-Material
-N	1200	1201	I-Material
-(	1202	1203	O
-second	1203	1209	O
-example	1210	1217	O
-)	1217	1218	O
-,	1218	1219	O
-and	1220	1223	O
-compared	1224	1232	O
-its	1233	1236	O
-results	1237	1244	O
-with	1245	1249	O
-the	1250	1253	O
-respective	1254	1264	O
-results	1265	1272	O
-for	1273	1276	O
-N2O.	1277	1281	B-Material
-
-In	1282	1284	O
-our	1285	1288	O
-first	1289	1294	O
-example	1295	1302	O
-,	1302	1303	O
-we	1304	1306	O
-showed	1307	1313	O
-that	1314	1318	O
-the	1319	1322	O
-estimated	1323	1332	O
-lags	1333	1337	O
-in	1338	1340	O
-N2O	1341	1344	B-Task
-prediction	1345	1355	I-Task
-are	1356	1359	O
-related	1360	1367	O
-to	1368	1370	O
-the	1371	1374	O
-lags	1375	1379	O
-in	1380	1382	O
-soil	1383	1387	B-Task
-moisture	1388	1396	I-Task
-prediction	1397	1407	I-Task
-in	1408	1410	O
-a	1411	1412	O
-way	1413	1416	O
-that	1417	1421	O
-changes	1422	1429	O
-gradually	1430	1439	O
-through	1440	1447	O
-time	1448	1452	O
-.	1452	1453	O
-
-In	1454	1456	O
-our	1457	1460	O
-second	1461	1467	O
-example	1468	1475	O
-,	1475	1476	O
-the	1477	1480	O
-lags	1481	1485	O
-in	1486	1488	O
-N2O	1489	1492	B-Task
-prediction	1493	1503	I-Task
-were	1504	1508	O
-explained	1509	1518	O
-by	1519	1521	O
-the	1522	1525	O
-lags	1526	1530	O
-in	1531	1533	O
-soil	1534	1538	B-Material
-moisture	1539	1547	I-Material
-and	1548	1551	O
-soil	1552	1556	B-Task
-mineral	1557	1564	I-Task
-N	1565	1566	I-Task
-prediction	1567	1577	I-Task
-,	1577	1578	O
-with	1579	1583	O
-which	1584	1589	O
-they	1590	1594	O
-had	1595	1598	O
-a	1599	1600	O
-positive	1601	1609	O
-relationship	1610	1622	O
-.	1622	1623	O
+Using	0,5	O	O
+measured	6,14	O	O
+data	15,19	O	O
+from	20,24	O	O
+two	25,28	O	O
+arable	29,35	O	O
+sites	36,41	O	O
+in	42,44	O	O
+the	45,48	O	O
+UK	49,51	O	O
+we	52,54	O	O
+have	55,59	O	O
+shown	60,65	O	O
+that	66,70	O	O
+lags	71,75	O	O
+can	76,79	O	O
+have	80,84	O	O
+significant	85,96	O	O
+impact	97,103	O	O
+on	104,106	O	O
+model	107,112	O	B-Task
+evaluation	113,123	O	I-Task
+and	124,127	O	O
+can	128,131	O	O
+affect	132,138	O	O
+both	139,143	O	O
+the	144,147	O	O
+level	148,153	O	O
+of	154,156	O	O
+correlation	157,168	O	O
+between	169,176	O	O
+measured	177,185	O	O
+and	186,189	O	O
+simulated	190,199	O	O
+data	200,204	O	O
+and	205,208	O	O
+the	209,212	O	O
+magnitude	213,222	O	O
+of	223,225	O	O
+the	226,229	O	O
+sums	230,234	O	O
+of	235,237	O	O
+the	238,241	O	O
+residuals	242,251	O	O
+.	251,252	O	O
+
+Also	253,257	O	O
+,	257,258	O	O
+we	259,261	O	O
+used	262,266	O	O
+the	267,270	O	O
+division	271,279	O	O
+of	280,282	O	O
+MSE	283,286	O	B-Process
+to	287,289	O	O
+three	290,295	O	O
+constituent	296,307	O	B-Process
+statistics	308,318	O	I-Process
+(	319,320	O	O
+SB	320,322	O	B-Process
+,	322,323	O	O
+SDSD	324,328	O	B-Process
+and	329,332	O	O
+LCS	333,336	O	B-Process
+)	336,337	O	O
+to	338,340	O	O
+show	341,345	O	O
+how	346,349	O	O
+the	350,353	O	O
+level	354,359	O	O
+of	360,362	O	O
+correlation	363,374	O	O
+can	375,378	O	O
+affect	379,385	O	O
+the	386,389	O	O
+sum	390,393	O	O
+of	394,396	O	O
+residuals	397,406	O	O
+.	406,407	O	O
+
+By	408,410	O	O
+dividing	411,419	O	O
+the	420,423	O	O
+algorithm	424,433	O	O
+-	433,434	O	O
+predicted	434,443	O	O
+series	444,450	O	O
+of	451,453	O	O
+lag	454,457	O	O
+values	458,464	O	O
+into	465,469	O	O
+monthly	470,477	O	O
+sets	478,482	O	O
+and	483,486	O	O
+examining	487,496	O	O
+the	497,500	O	O
+frequency	501,510	O	O
+distribution	511,523	O	O
+of	524,526	O	O
+the	527,530	O	O
+lags	531,535	O	O
+,	535,536	O	O
+certain	537,544	O	O
+patterns	545,553	O	O
+in	554,556	O	O
+these	557,562	O	O
+temporally	563,573	O	O
+patchy	574,580	O	O
+series	581,587	O	O
+have	588,592	O	O
+been	593,597	O	O
+identified	598,608	O	O
+.	608,609	O	O
+
+A	610,611	O	O
+challenging	612,623	O	O
+task	624,628	O	O
+in	629,631	O	O
+relation	632,640	O	O
+to	641,643	O	O
+time	644,648	O	O
+lags	649,653	O	O
+between	654,661	O	O
+observed	662,670	O	O
+and	671,674	O	O
+simulated	675,684	O	O
+daily	685,690	O	O
+data	691,695	O	O
+,	695,696	O	O
+is	697,699	O	O
+to	700,702	O	O
+determine	703,712	O	O
+their	713,718	O	O
+cause	719,724	O	O
+.	724,725	O	O
+
+This	726,730	O	O
+task	731,735	O	O
+becomes	736,743	O	O
+more	744,748	O	O
+difficult	749,758	O	O
+for	759,762	O	O
+model	763,768	O	O
+outputs	769,776	O	O
+such	777,781	O	O
+as	782,784	O	O
+soil	785,789	O	O
+N2O	790,793	O	B-Material
+emissions	794,803	O	I-Material
+that	804,808	O	O
+are	809,812	O	O
+driven	813,819	O	O
+by	820,822	O	O
+various	823,830	O	O
+interacting	831,842	O	O
+variables	843,852	O	O
+.	852,853	O	O
+
+Even	854,858	O	O
+more	859,863	O	O
+so	864,866	O	O
+,	866,867	O	O
+because	868,875	O	O
+the	876,879	O	O
+measured	880,888	O	O
+N2O	889,892	O	B-Material
+datasets	893,901	O	I-Material
+and	902,905	O	O
+the	906,909	O	O
+measured	910,918	O	O
+datasets	919,927	O	O
+of	928,930	O	O
+their	931,936	O	O
+drivers	937,944	O	O
+(	945,946	O	O
+e.g.	946,950	O	O
+soil	951,955	O	O
+moisture	956,964	O	O
+,	964,965	O	O
+soil	966,970	O	O
+N	971,972	O	O
+content	973,980	O	O
+)	980,981	O	O
+cover	982,987	O	O
+small	988,993	O	O
+time	994,998	O	O
+periods	999,1006	O	O
+,	1006,1007	O	O
+they	1008,1012	O	O
+are	1013,1016	O	O
+not	1017,1020	O	O
+continuous	1021,1031	O	O
+and	1032,1035	O	O
+can	1036,1039	O	O
+vary	1040,1044	O	O
+widely	1045,1051	O	O
+in	1052,1054	O	O
+size	1055,1059	O	O
+.	1059,1060	O	O
+
+In	1061,1063	O	O
+this	1064,1068	O	O
+study	1069,1074	O	O
+we	1075,1077	O	O
+implemented	1078,1089	O	O
+the	1090,1093	O	O
+algorithm	1094,1103	O	O
+using	1104,1109	O	O
+measured	1110,1118	O	B-Material
+and	1119,1122	O	I-Material
+simulated	1123,1132	O	I-Material
+data	1133,1137	O	I-Material
+for	1138,1141	O	I-Material
+soil	1142,1146	O	I-Material
+moisture	1147,1155	O	I-Material
+(	1156,1157	O	O
+first	1157,1162	O	O
+and	1163,1166	O	O
+second	1167,1173	O	O
+example	1174,1181	O	O
+)	1181,1182	O	O
+and	1183,1186	O	O
+soil	1187,1191	O	B-Material
+mineral	1192,1199	O	I-Material
+N	1200,1201	O	I-Material
+(	1202,1203	O	O
+second	1203,1209	O	O
+example	1210,1217	O	O
+)	1217,1218	O	O
+,	1218,1219	O	O
+and	1220,1223	O	O
+compared	1224,1232	O	O
+its	1233,1236	O	O
+results	1237,1244	O	O
+with	1245,1249	O	O
+the	1250,1253	O	O
+respective	1254,1264	O	O
+results	1265,1272	O	O
+for	1273,1276	O	O
+N2O.	1277,1281	O	B-Material
+
+In	1282,1284	O	O
+our	1285,1288	O	O
+first	1289,1294	O	O
+example	1295,1302	O	O
+,	1302,1303	O	O
+we	1304,1306	O	O
+showed	1307,1313	O	O
+that	1314,1318	O	O
+the	1319,1322	O	O
+estimated	1323,1332	O	O
+lags	1333,1337	O	O
+in	1338,1340	O	O
+N2O	1341,1344	O	B-Task
+prediction	1345,1355	O	I-Task
+are	1356,1359	O	O
+related	1360,1367	O	O
+to	1368,1370	O	O
+the	1371,1374	O	O
+lags	1375,1379	O	O
+in	1380,1382	O	O
+soil	1383,1387	O	B-Task
+moisture	1388,1396	O	I-Task
+prediction	1397,1407	O	I-Task
+in	1408,1410	O	O
+a	1411,1412	O	O
+way	1413,1416	O	O
+that	1417,1421	O	O
+changes	1422,1429	O	O
+gradually	1430,1439	O	O
+through	1440,1447	O	O
+time	1448,1452	O	O
+.	1452,1453	O	O
+
+In	1454,1456	O	O
+our	1457,1460	O	O
+second	1461,1467	O	O
+example	1468,1475	O	O
+,	1475,1476	O	O
+the	1477,1480	O	O
+lags	1481,1485	O	O
+in	1486,1488	O	O
+N2O	1489,1492	O	B-Task
+prediction	1493,1503	O	I-Task
+were	1504,1508	O	O
+explained	1509,1518	O	O
+by	1519,1521	O	O
+the	1522,1525	O	O
+lags	1526,1530	O	O
+in	1531,1533	O	O
+soil	1534,1538	O	B-Material
+moisture	1539,1547	O	I-Material
+and	1548,1551	O	O
+soil	1552,1556	O	B-Task
+mineral	1557,1564	O	I-Task
+N	1565,1566	O	I-Task
+prediction	1567,1577	O	I-Task
+,	1577,1578	O	O
+with	1579,1583	O	O
+which	1584,1589	O	O
+they	1590,1594	O	O
+had	1595,1598	O	O
+a	1599,1600	O	O
+positive	1601,1609	O	O
+relationship	1610,1622	O	O
+.	1622,1623	O	O
 
 
 -DOCSTART- (S1364815216303061)
 
-In	0	2	O
-representing	3	15	B-Task
-wetland	16	23	I-Task
--	23	24	I-Task
-river	24	29	I-Task
-interactions	30	42	I-Task
-involving	43	52	I-Task
-GIWs	53	57	I-Task
-,	57	58	O
-many	59	63	O
-models	64	70	O
-assume	71	77	O
-that	78	82	O
-the	83	86	O
-wetland	87	94	O
-can	95	98	O
-discharge	99	108	O
-into	109	113	O
-a	114	115	O
-river	116	121	O
-but	122	125	O
-can	126	129	O
-not	129	132	O
-receive	133	140	O
-overbank	141	149	O
-flows	150	155	O
-from	156	160	O
-it	161	163	O
-.	163	164	O
-
-In	165	167	O
-such	168	172	O
-models	173	179	O
-,	179	180	O
-the	181	184	O
-volume	185	191	O
-of	192	194	O
-water	195	200	O
-(	201	202	O
-or	202	204	O
-water	205	210	O
-level	211	216	O
-elevation	217	226	O
-)	226	227	O
-in	228	230	O
-a	231	232	O
-wetland	233	240	O
-and	241	244	O
-its	245	248	O
-corresponding	249	262	O
-threshold	263	272	O
-value	273	278	O
-(	279	280	O
-predominantly	280	293	O
-controlled	294	304	O
-by	305	307	O
-outlet	308	314	B-Process
-elevation	315	324	I-Process
-)	324	325	O
-are	326	329	O
-the	330	333	O
-prime	334	339	O
-determinants	340	352	O
-of	353	355	O
-wetland	356	363	O
-outflow	364	371	O
-(	372	373	O
-Feng	373	377	O
-et	378	380	O
-al	381	383	O
-.	383	384	O
-,	384	385	O
-2012	386	390	O
-;	390	391	O
-Hammer	392	398	O
-and	399	402	O
-Kadlec	403	409	O
-,	409	410	O
-1986	411	415	O
-;	415	416	O
-Johnson	417	424	O
-et	425	427	O
-al	428	430	O
-
-.	430	431	O
-,	431	432	O
-2010	433	437	O
-;	437	438	O
-
-Kadlec	439	445	O
-and	446	449	O
-Wallace	450	457	O
-,	457	458	O
-2009	459	463	O
-;	463	464	O
-Powell	465	471	O
-et	472	474	O
-al	475	477	O
-.	477	478	O
-,	478	479	O
-2008	480	484	O
-;	484	485	O
-Voldseth	486	494	O
-et	495	497	O
-al	498	500	O
-.	500	501	O
-,	501	502	O
-2007	503	507	O
-;	507	508	O
-Wen	509	512	O
-et	513	515	O
-al	516	518	O
-.	518	519	O
-,	519	520	O
-2013	521	525	O
-;	525	526	O
-Zhang	527	532	O
-and	533	536	O
-Mitsch	537	543	O
-,	543	544	O
-2005	545	549	O
-)	549	550	O
-.	550	551	O
-
-However	552	559	O
-,	559	560	O
-in	561	563	O
-regions	564	571	O
-characterised	572	585	O
-by	586	588	O
-widespread	589	599	O
-riparian	600	608	O
-wetlands	609	617	O
-that	618	622	O
-are	623	626	O
-hydraulically	627	640	O
-connected	641	650	O
-with	651	655	O
-adjacent	656	664	O
-rivers	665	671	O
-,	671	672	O
-wetland	673	680	O
--	680	681	O
-river	681	686	O
-interaction	687	698	O
-is	699	701	O
-likely	702	708	O
-to	709	711	O
-be	712	714	O
-bidirectional	715	728	O
-.	728	729	O
-
-Such	730	734	O
-interactions	735	747	B-Task
-should	748	754	I-Task
-be	755	757	I-Task
-quantified	758	768	I-Task
-according	769	778	I-Task
-to	779	781	I-Task
-hydraulic	782	791	I-Task
-principles	792	802	I-Task
-involving	803	812	O
-relative	813	821	B-Material
-river	822	827	I-Material
-and	828	831	I-Material
-wetland	832	839	I-Material
-water	840	845	I-Material
-level	846	851	I-Material
-elevations	852	862	I-Material
-as	863	865	O
-well	866	870	O
-as	871	873	O
-the	874	877	O
-properties	878	888	B-Material
-of	889	891	I-Material
-the	892	895	I-Material
-connection	896	906	I-Material
-between	907	914	I-Material
-the	915	918	I-Material
-two	919	922	I-Material
-(	923	924	O
-Kouwen	924	930	O
-,	930	931	O
-2013	932	936	O
-;	936	937	O
-Liu	938	941	O
-et	942	944	O
-al	945	947	O
-.	947	948	O
-
-,	948	949	O
-2008	950	954	O
-;	954	955	O
-Min	956	959	O
-et	960	962	O
-al	963	965	O
-.	965	966	O
-,	966	967	O
-2010	968	972	O
-;	972	973	O
-Nyarko	974	980	O
-,	980	981	O
-2007	982	986	O
-;	986	987	O
-Restrepo	988	996	O
-et	997	999	O
-al	1000	1002	O
-.	1002	1003	O
-,	1003	1004	O
-1998	1005	1009	O
-)	1009	1010	O
-.	1010	1011	O
-
-In	1012	1014	O
-the	1015	1018	O
-WATFLOOD	1019	1027	B-Process
-model	1028	1033	O
-,	1033	1034	O
-for	1035	1038	O
-instance	1039	1047	O
-,	1047	1048	O
-riparian	1049	1057	B-Task
-wetland	1058	1065	I-Task
--	1065	1066	I-Task
-river	1066	1071	I-Task
-interaction	1072	1083	I-Task
-is	1084	1086	I-Task
-modelled	1087	1095	I-Task
-using	1096	1101	O
-the	1102	1105	O
-principle	1106	1115	B-Material
-of	1116	1118	I-Material
-Dupuit	1119	1125	I-Material
--	1125	1126	I-Material
-Forchheimer	1126	1137	I-Material
-lateral	1138	1145	I-Material
-/	1145	1146	I-Material
-radial	1146	1152	I-Material
-groundwater	1153	1164	I-Material
-flow	1165	1169	I-Material
-(	1170	1171	O
-Kouwen	1171	1177	O
-,	1177	1178	O
-2013	1179	1183	O
-)	1183	1184	O
-.	1184	1185	O
-
-Since	1186	1191	O
-exchange	1192	1200	O
-between	1201	1208	O
-riparian	1209	1217	O
-wetlands	1218	1226	O
-and	1227	1230	O
-rivers	1231	1237	O
-can	1238	1241	O
-occur	1242	1247	O
-over	1248	1252	O
-the	1253	1256	O
-surface	1257	1264	O
-and/or	1265	1271	O
-through	1272	1279	O
-the	1280	1283	O
-subsurface	1284	1294	O
-,	1294	1295	O
-Restrepo	1296	1304	O
-et	1305	1307	O
-al	1308	1310	O
-.	1310	1311	O
-
-(	1312	1313	O
-1998	1313	1317	O
-)	1317	1318	O
-incorporated	1319	1331	O
-an	1332	1334	O
-equivalent	1335	1345	B-Process
-transmissivity	1346	1360	I-Process
-expression	1361	1371	I-Process
-,	1371	1372	O
-obtained	1373	1381	O
-for	1382	1385	O
-wetland	1386	1393	B-Material
-vegetation	1394	1404	I-Material
-and	1405	1408	O
-the	1409	1412	O
-subsurface	1413	1423	B-Material
-soil	1424	1428	I-Material
-,	1428	1429	O
-into	1430	1434	O
-the	1435	1438	O
-Darcy	1439	1444	B-Process
-flow	1445	1449	I-Process
-equation	1450	1458	I-Process
-of	1459	1461	O
-the	1462	1465	O
-MODFLOW	1466	1473	B-Process
-model	1474	1479	O
-.	1479	1480	O
+In	0,2	O	O
+representing	3,15	O	B-Task
+wetland	16,23	O	I-Task
+-	23,24	O	I-Task
+river	24,29	O	I-Task
+interactions	30,42	O	I-Task
+involving	43,52	O	I-Task
+GIWs	53,57	O	I-Task
+,	57,58	O	O
+many	59,63	O	O
+models	64,70	O	O
+assume	71,77	O	O
+that	78,82	O	O
+the	83,86	O	O
+wetland	87,94	O	O
+can	95,98	O	O
+discharge	99,108	O	O
+into	109,113	O	O
+a	114,115	O	O
+river	116,121	O	O
+but	122,125	O	O
+can	126,129	O	O
+not	129,132	O	O
+receive	133,140	O	O
+overbank	141,149	O	O
+flows	150,155	O	O
+from	156,160	O	O
+it	161,163	O	O
+.	163,164	O	O
+
+In	165,167	O	O
+such	168,172	O	O
+models	173,179	O	O
+,	179,180	O	O
+the	181,184	O	O
+volume	185,191	O	O
+of	192,194	O	O
+water	195,200	O	O
+(	201,202	O	O
+or	202,204	O	O
+water	205,210	O	O
+level	211,216	O	O
+elevation	217,226	O	O
+)	226,227	O	O
+in	228,230	O	O
+a	231,232	O	O
+wetland	233,240	O	O
+and	241,244	O	O
+its	245,248	O	O
+corresponding	249,262	O	O
+threshold	263,272	O	O
+value	273,278	O	O
+(	279,280	O	O
+predominantly	280,293	O	O
+controlled	294,304	O	O
+by	305,307	O	O
+outlet	308,314	O	B-Process
+elevation	315,324	O	I-Process
+)	324,325	O	O
+are	326,329	O	O
+the	330,333	O	O
+prime	334,339	O	O
+determinants	340,352	O	O
+of	353,355	O	O
+wetland	356,363	O	O
+outflow	364,371	O	O
+(	372,373	O	O
+Feng	373,377	O	O
+et	378,380	O	O
+al	381,383	O	O
+.	383,384	O	O
+,	384,385	O	O
+2012	386,390	O	O
+;	390,391	O	O
+Hammer	392,398	O	O
+and	399,402	O	O
+Kadlec	403,409	O	O
+,	409,410	O	O
+1986	411,415	O	O
+;	415,416	O	O
+Johnson	417,424	O	O
+et	425,427	O	O
+al	428,430	O	O
+
+.	430,431	O	O
+,	431,432	O	O
+2010	433,437	O	O
+;	437,438	O	O
+
+Kadlec	439,445	O	O
+and	446,449	O	O
+Wallace	450,457	O	O
+,	457,458	O	O
+2009	459,463	O	O
+;	463,464	O	O
+Powell	465,471	O	O
+et	472,474	O	O
+al	475,477	O	O
+.	477,478	O	O
+,	478,479	O	O
+2008	480,484	O	O
+;	484,485	O	O
+Voldseth	486,494	O	O
+et	495,497	O	O
+al	498,500	O	O
+.	500,501	O	O
+,	501,502	O	O
+2007	503,507	O	O
+;	507,508	O	O
+Wen	509,512	O	O
+et	513,515	O	O
+al	516,518	O	O
+.	518,519	O	O
+,	519,520	O	O
+2013	521,525	O	O
+;	525,526	O	O
+Zhang	527,532	O	O
+and	533,536	O	O
+Mitsch	537,543	O	O
+,	543,544	O	O
+2005	545,549	O	O
+)	549,550	O	O
+.	550,551	O	O
+
+However	552,559	O	O
+,	559,560	O	O
+in	561,563	O	O
+regions	564,571	O	O
+characterised	572,585	O	O
+by	586,588	O	O
+widespread	589,599	O	O
+riparian	600,608	O	O
+wetlands	609,617	O	O
+that	618,622	O	O
+are	623,626	O	O
+hydraulically	627,640	O	O
+connected	641,650	O	O
+with	651,655	O	O
+adjacent	656,664	O	O
+rivers	665,671	O	O
+,	671,672	O	O
+wetland	673,680	O	O
+-	680,681	O	O
+river	681,686	O	O
+interaction	687,698	O	O
+is	699,701	O	O
+likely	702,708	O	O
+to	709,711	O	O
+be	712,714	O	O
+bidirectional	715,728	O	O
+.	728,729	O	O
+
+Such	730,734	O	O
+interactions	735,747	O	B-Task
+should	748,754	O	I-Task
+be	755,757	O	I-Task
+quantified	758,768	O	I-Task
+according	769,778	O	I-Task
+to	779,781	O	I-Task
+hydraulic	782,791	O	I-Task
+principles	792,802	O	I-Task
+involving	803,812	O	O
+relative	813,821	O	B-Material
+river	822,827	O	I-Material
+and	828,831	O	I-Material
+wetland	832,839	O	I-Material
+water	840,845	O	I-Material
+level	846,851	O	I-Material
+elevations	852,862	O	I-Material
+as	863,865	O	O
+well	866,870	O	O
+as	871,873	O	O
+the	874,877	O	O
+properties	878,888	O	B-Material
+of	889,891	O	I-Material
+the	892,895	O	I-Material
+connection	896,906	O	I-Material
+between	907,914	O	I-Material
+the	915,918	O	I-Material
+two	919,922	O	I-Material
+(	923,924	O	O
+Kouwen	924,930	O	O
+,	930,931	O	O
+2013	932,936	O	O
+;	936,937	O	O
+Liu	938,941	O	O
+et	942,944	O	O
+al	945,947	O	O
+.	947,948	O	O
+
+,	948,949	O	O
+2008	950,954	O	O
+;	954,955	O	O
+Min	956,959	O	O
+et	960,962	O	O
+al	963,965	O	O
+.	965,966	O	O
+,	966,967	O	O
+2010	968,972	O	O
+;	972,973	O	O
+Nyarko	974,980	O	O
+,	980,981	O	O
+2007	982,986	O	O
+;	986,987	O	O
+Restrepo	988,996	O	O
+et	997,999	O	O
+al	1000,1002	O	O
+.	1002,1003	O	O
+,	1003,1004	O	O
+1998	1005,1009	O	O
+)	1009,1010	O	O
+.	1010,1011	O	O
+
+In	1012,1014	O	O
+the	1015,1018	O	O
+WATFLOOD	1019,1027	O	B-Process
+model	1028,1033	O	O
+,	1033,1034	O	O
+for	1035,1038	O	O
+instance	1039,1047	O	O
+,	1047,1048	O	O
+riparian	1049,1057	O	B-Task
+wetland	1058,1065	O	I-Task
+-	1065,1066	O	I-Task
+river	1066,1071	O	I-Task
+interaction	1072,1083	O	I-Task
+is	1084,1086	O	I-Task
+modelled	1087,1095	O	I-Task
+using	1096,1101	O	O
+the	1102,1105	O	O
+principle	1106,1115	O	B-Material
+of	1116,1118	O	I-Material
+Dupuit	1119,1125	O	I-Material
+-	1125,1126	O	I-Material
+Forchheimer	1126,1137	O	I-Material
+lateral	1138,1145	O	I-Material
+/	1145,1146	O	I-Material
+radial	1146,1152	O	I-Material
+groundwater	1153,1164	O	I-Material
+flow	1165,1169	O	I-Material
+(	1170,1171	O	O
+Kouwen	1171,1177	O	O
+,	1177,1178	O	O
+2013	1179,1183	O	O
+)	1183,1184	O	O
+.	1184,1185	O	O
+
+Since	1186,1191	O	O
+exchange	1192,1200	O	O
+between	1201,1208	O	O
+riparian	1209,1217	O	O
+wetlands	1218,1226	O	O
+and	1227,1230	O	O
+rivers	1231,1237	O	O
+can	1238,1241	O	O
+occur	1242,1247	O	O
+over	1248,1252	O	O
+the	1253,1256	O	O
+surface	1257,1264	O	O
+and/or	1265,1271	O	O
+through	1272,1279	O	O
+the	1280,1283	O	O
+subsurface	1284,1294	O	O
+,	1294,1295	O	O
+Restrepo	1296,1304	O	O
+et	1305,1307	O	O
+al	1308,1310	O	O
+.	1310,1311	O	O
+
+(	1312,1313	O	O
+1998	1313,1317	O	O
+)	1317,1318	O	O
+incorporated	1319,1331	O	O
+an	1332,1334	O	O
+equivalent	1335,1345	O	B-Process
+transmissivity	1346,1360	O	I-Process
+expression	1361,1371	O	I-Process
+,	1371,1372	O	O
+obtained	1373,1381	O	O
+for	1382,1385	O	O
+wetland	1386,1393	O	B-Material
+vegetation	1394,1404	O	I-Material
+and	1405,1408	O	O
+the	1409,1412	O	O
+subsurface	1413,1423	O	B-Material
+soil	1424,1428	O	I-Material
+,	1428,1429	O	O
+into	1430,1434	O	O
+the	1435,1438	O	O
+Darcy	1439,1444	O	B-Process
+flow	1445,1449	O	I-Process
+equation	1450,1458	O	I-Process
+of	1459,1461	O	O
+the	1462,1465	O	O
+MODFLOW	1466,1473	O	B-Process
+model	1474,1479	O	O
+.	1479,1480	O	O
 
 
 -DOCSTART- (S1364815216303243)
 
-Typical	0	7	O
-physically	8	18	B-Process
--	18	19	I-Process
-based	19	24	I-Process
-2D	25	27	I-Process
-flood	28	33	I-Process
-models	34	40	I-Process
-solve	41	46	B-Task
-the	47	50	I-Task
-Shallow	51	58	I-Task
-Water	59	64	I-Task
-Equations	65	74	I-Task
-(	75	76	I-Task
-SWEs	76	80	I-Task
-)	80	81	I-Task
-,	81	82	O
-requiring	83	92	O
-high	93	97	O
-computational	98	111	O
-resources	112	121	O
-.	121	122	O
-
-Many	123	127	O
-of	128	130	O
-these	131	136	O
-models	137	143	O
-have	144	148	O
-been	149	153	O
-developed	154	163	O
-to	164	166	O
-obtain	167	173	O
-better	174	180	O
-performance	181	192	O
-,	192	193	O
-while	194	199	O
-maintaining	200	211	O
-the	212	215	O
-required	216	224	O
-accuracy	225	233	O
-,	233	234	O
-by	235	237	O
-reducing	238	246	B-Process
-the	247	250	I-Process
-complexity	251	261	I-Process
-of	262	264	I-Process
-the	265	268	I-Process
-SWEs	269	273	I-Process
-.	273	274	O
-
-This	275	279	O
-reduction	280	289	O
-is	290	292	O
-usually	293	300	O
-achieved	301	309	O
-by	310	312	O
-approximating	313	326	O
-or	327	329	O
-neglecting	330	340	O
-less	341	345	O
-significant	346	357	O
-terms	358	363	O
-of	364	366	O
-the	367	370	O
-equations	371	380	O
-(	381	382	O
-Hunter	382	388	O
-et	389	391	O
-al	392	394	O
-.	394	395	O
-
-,	395	396	O
-2007	397	401	O
-;	401	402	O
-Yen	403	406	O
-and	407	410	O
-Tsai	411	415	O
-,	415	416	O
-2001	417	421	O
-)	421	422	O
-.	422	423	O
-
-The	424	427	O
-JFLOW	428	433	B-Process
-model	434	439	O
-(	440	441	O
-Bradbrook	441	450	O
-et	451	453	O
-al	454	456	O
-.	456	457	O
-,	457	458	O
-2004	459	463	O
-)	463	464	O
-,	464	465	O
-Urban	466	471	B-Process
-Inundation	472	482	I-Process
-Model	483	488	I-Process
-(	489	490	O
-UIM	490	493	B-Process
-)	493	494	O
-
-(	495	496	O
-Chen	496	500	O
-et	501	503	O
-al	504	506	O
-.	506	507	O
-,	507	508	O
-2007	509	513	O
-)	513	514	O
-,	514	515	O
-and	516	519	O
-the	520	523	O
-diffusive	524	533	O
-version	534	541	O
-of	542	544	O
-LISFLOOD	545	553	B-Process
--	553	554	I-Process
-FP	554	556	I-Process
-(	557	558	O
-Hunter	558	564	O
-et	565	567	O
-al	568	570	O
-.	570	571	O
-,	571	572	O
-2005	573	577	O
-)	577	578	O
-solve	579	584	O
-the	585	588	O
-2D	589	591	B-Process
-diffusion	592	601	I-Process
-wave	602	606	I-Process
-equations	607	616	I-Process
-that	617	621	O
-neglect	622	629	O
-the	630	633	O
-inertial	634	642	O
-(	643	644	O
-local	644	649	O
-acceleration	650	662	O
-)	662	663	O
-and	664	667	O
-advection	668	677	O
-(	678	679	O
-convective	679	689	O
-acceleration	690	702	O
-)	702	703	O
-terms	704	709	O
-(	710	711	O
-Yen	711	714	O
-and	715	718	O
-Tsai	719	723	O
-,	723	724	O
-2001	725	729	O
-)	729	730	O
-.	730	731	O
-
-The	732	735	O
-inertial	736	744	O
-version	745	752	O
-of	753	755	O
-LISFLOOD	756	764	B-Process
--	764	765	I-Process
-FP	765	767	I-Process
-(	768	769	O
-Bates	769	774	O
-et	775	777	O
-al	778	780	O
-.	780	781	O
-,	781	782	O
-2010	783	787	O
-)	787	788	O
-solves	789	795	O
-the	796	799	O
-SWEs	800	804	B-Process
-without	805	812	O
-the	813	816	O
-advection	817	826	O
-term	827	831	O
-.	831	832	O
-
-In	833	835	O
-either	836	842	O
-version	843	850	O
-of	851	853	O
-LISFLOOD	854	862	B-Process
--	862	863	I-Process
-FP	863	865	I-Process
-the	866	869	O
-flow	870	874	O
-is	875	877	O
-decoupled	878	887	O
-in	888	890	O
-the	891	894	O
-Cartesian	895	904	B-Process
-directions	905	915	I-Process
-.	915	916	O
-
-Other	917	922	O
-models	923	929	O
-use	930	933	O
-the	934	937	O
-full	938	942	O
-SWEs	943	947	B-Process
-but	948	951	O
-focus	952	957	O
-on	958	960	O
-the	961	964	O
-use	965	968	O
-of	969	971	O
-multi	972	977	B-Material
-resolution	978	988	I-Material
-grids	989	994	I-Material
-or	995	997	I-Material
-irregular	998	1007	I-Material
-mesh	1008	1012	I-Material
-,	1012	1013	O
-like	1014	1018	O
-InfoWorks	1019	1028	B-Material
-ICM	1029	1032	I-Material
-(	1033	1034	O
-Innovyze	1034	1042	O
-,	1042	1043	O
-2012	1044	1048	O
-)	1048	1049	O
-and	1050	1053	O
-MIKE	1054	1058	B-Material
-FLOOD	1059	1064	I-Material
-(	1065	1066	O
-DHI	1066	1069	O
-Software	1070	1078	O
-,	1078	1079	O
-2014	1080	1084	O
-;	1084	1085	O
-Hénonin	1086	1093	O
-et	1094	1096	O
-al	1097	1099	O
-.	1099	1100	O
-,	1100	1101	O
-2013	1102	1106	O
-)	1106	1107	O
-.	1107	1108	O
-
-These	1109	1114	O
-last	1115	1119	O
-two	1120	1123	O
-models	1124	1130	O
-are	1131	1134	O
-commercial	1135	1145	O
-packages	1146	1154	O
-,	1154	1155	O
-and	1156	1159	O
-the	1160	1163	O
-code	1164	1168	O
-applied	1169	1176	O
-in	1177	1179	O
-the	1180	1183	O
-optimisation	1184	1196	O
-techniques	1197	1207	O
-is	1208	1210	O
-not	1211	1214	O
-in	1215	1217	O
-the	1218	1221	O
-public	1222	1228	O
-domain	1229	1235	O
-.	1235	1236	O
+Typical	0,7	O	O
+physically	8,18	O	B-Process
+-	18,19	O	I-Process
+based	19,24	O	I-Process
+2D	25,27	O	I-Process
+flood	28,33	O	I-Process
+models	34,40	O	I-Process
+solve	41,46	O	B-Task
+the	47,50	O	I-Task
+Shallow	51,58	O	I-Task
+Water	59,64	O	I-Task
+Equations	65,74	O	I-Task
+(	75,76	O	I-Task
+SWEs	76,80	O	I-Task
+)	80,81	O	I-Task
+,	81,82	O	O
+requiring	83,92	O	O
+high	93,97	O	O
+computational	98,111	O	O
+resources	112,121	O	O
+.	121,122	O	O
+
+Many	123,127	O	O
+of	128,130	O	O
+these	131,136	O	O
+models	137,143	O	O
+have	144,148	O	O
+been	149,153	O	O
+developed	154,163	O	O
+to	164,166	O	O
+obtain	167,173	O	O
+better	174,180	O	O
+performance	181,192	O	O
+,	192,193	O	O
+while	194,199	O	O
+maintaining	200,211	O	O
+the	212,215	O	O
+required	216,224	O	O
+accuracy	225,233	O	O
+,	233,234	O	O
+by	235,237	O	O
+reducing	238,246	O	B-Process
+the	247,250	O	I-Process
+complexity	251,261	O	I-Process
+of	262,264	O	I-Process
+the	265,268	O	I-Process
+SWEs	269,273	O	I-Process
+.	273,274	O	O
+
+This	275,279	O	O
+reduction	280,289	O	O
+is	290,292	O	O
+usually	293,300	O	O
+achieved	301,309	O	O
+by	310,312	O	O
+approximating	313,326	O	O
+or	327,329	O	O
+neglecting	330,340	O	O
+less	341,345	O	O
+significant	346,357	O	O
+terms	358,363	O	O
+of	364,366	O	O
+the	367,370	O	O
+equations	371,380	O	O
+(	381,382	O	O
+Hunter	382,388	O	O
+et	389,391	O	O
+al	392,394	O	O
+.	394,395	O	O
+
+,	395,396	O	O
+2007	397,401	O	O
+;	401,402	O	O
+Yen	403,406	O	O
+and	407,410	O	O
+Tsai	411,415	O	O
+,	415,416	O	O
+2001	417,421	O	O
+)	421,422	O	O
+.	422,423	O	O
+
+The	424,427	O	O
+JFLOW	428,433	O	B-Process
+model	434,439	O	O
+(	440,441	O	O
+Bradbrook	441,450	O	O
+et	451,453	O	O
+al	454,456	O	O
+.	456,457	O	O
+,	457,458	O	O
+2004	459,463	O	O
+)	463,464	O	O
+,	464,465	O	O
+Urban	466,471	O	B-Process
+Inundation	472,482	O	I-Process
+Model	483,488	O	I-Process
+(	489,490	O	O
+UIM	490,493	O	B-Process
+)	493,494	O	O
+
+(	495,496	O	O
+Chen	496,500	O	O
+et	501,503	O	O
+al	504,506	O	O
+.	506,507	O	O
+,	507,508	O	O
+2007	509,513	O	O
+)	513,514	O	O
+,	514,515	O	O
+and	516,519	O	O
+the	520,523	O	O
+diffusive	524,533	O	O
+version	534,541	O	O
+of	542,544	O	O
+LISFLOOD	545,553	O	B-Process
+-	553,554	O	I-Process
+FP	554,556	O	I-Process
+(	557,558	O	O
+Hunter	558,564	O	O
+et	565,567	O	O
+al	568,570	O	O
+.	570,571	O	O
+,	571,572	O	O
+2005	573,577	O	O
+)	577,578	O	O
+solve	579,584	O	O
+the	585,588	O	O
+2D	589,591	O	B-Process
+diffusion	592,601	O	I-Process
+wave	602,606	O	I-Process
+equations	607,616	O	I-Process
+that	617,621	O	O
+neglect	622,629	O	O
+the	630,633	O	O
+inertial	634,642	O	O
+(	643,644	O	O
+local	644,649	O	O
+acceleration	650,662	O	O
+)	662,663	O	O
+and	664,667	O	O
+advection	668,677	O	O
+(	678,679	O	O
+convective	679,689	O	O
+acceleration	690,702	O	O
+)	702,703	O	O
+terms	704,709	O	O
+(	710,711	O	O
+Yen	711,714	O	O
+and	715,718	O	O
+Tsai	719,723	O	O
+,	723,724	O	O
+2001	725,729	O	O
+)	729,730	O	O
+.	730,731	O	O
+
+The	732,735	O	O
+inertial	736,744	O	O
+version	745,752	O	O
+of	753,755	O	O
+LISFLOOD	756,764	O	B-Process
+-	764,765	O	I-Process
+FP	765,767	O	I-Process
+(	768,769	O	O
+Bates	769,774	O	O
+et	775,777	O	O
+al	778,780	O	O
+.	780,781	O	O
+,	781,782	O	O
+2010	783,787	O	O
+)	787,788	O	O
+solves	789,795	O	O
+the	796,799	O	O
+SWEs	800,804	O	B-Process
+without	805,812	O	O
+the	813,816	O	O
+advection	817,826	O	O
+term	827,831	O	O
+.	831,832	O	O
+
+In	833,835	O	O
+either	836,842	O	O
+version	843,850	O	O
+of	851,853	O	O
+LISFLOOD	854,862	O	B-Process
+-	862,863	O	I-Process
+FP	863,865	O	I-Process
+the	866,869	O	O
+flow	870,874	O	O
+is	875,877	O	O
+decoupled	878,887	O	O
+in	888,890	O	O
+the	891,894	O	O
+Cartesian	895,904	O	B-Process
+directions	905,915	O	I-Process
+.	915,916	O	O
+
+Other	917,922	O	O
+models	923,929	O	O
+use	930,933	O	O
+the	934,937	O	O
+full	938,942	O	O
+SWEs	943,947	O	B-Process
+but	948,951	O	O
+focus	952,957	O	O
+on	958,960	O	O
+the	961,964	O	O
+use	965,968	O	O
+of	969,971	O	O
+multi	972,977	O	B-Material
+resolution	978,988	O	I-Material
+grids	989,994	O	I-Material
+or	995,997	O	I-Material
+irregular	998,1007	O	I-Material
+mesh	1008,1012	O	I-Material
+,	1012,1013	O	O
+like	1014,1018	O	O
+InfoWorks	1019,1028	O	B-Material
+ICM	1029,1032	O	I-Material
+(	1033,1034	O	O
+Innovyze	1034,1042	O	O
+,	1042,1043	O	O
+2012	1044,1048	O	O
+)	1048,1049	O	O
+and	1050,1053	O	O
+MIKE	1054,1058	O	B-Material
+FLOOD	1059,1064	O	I-Material
+(	1065,1066	O	O
+DHI	1066,1069	O	O
+Software	1070,1078	O	O
+,	1078,1079	O	O
+2014	1080,1084	O	O
+;	1084,1085	O	O
+Hénonin	1086,1093	O	O
+et	1094,1096	O	O
+al	1097,1099	O	O
+.	1099,1100	O	O
+,	1100,1101	O	O
+2013	1102,1106	O	O
+)	1106,1107	O	O
+.	1107,1108	O	O
+
+These	1109,1114	O	O
+last	1115,1119	O	O
+two	1120,1123	O	O
+models	1124,1130	O	O
+are	1131,1134	O	O
+commercial	1135,1145	O	O
+packages	1146,1154	O	O
+,	1154,1155	O	O
+and	1156,1159	O	O
+the	1160,1163	O	O
+code	1164,1168	O	O
+applied	1169,1176	O	O
+in	1177,1179	O	O
+the	1180,1183	O	O
+optimisation	1184,1196	O	O
+techniques	1197,1207	O	O
+is	1208,1210	O	O
+not	1211,1214	O	O
+in	1215,1217	O	O
+the	1218,1221	O	O
+public	1222,1228	O	O
+domain	1229,1235	O	O
+.	1235,1236	O	O
 
 
 -DOCSTART- (S1386505616301769)
 
-The	0	3	O
-purported	4	13	O
-advantages	14	24	O
-of	25	27	O
-EMR	28	31	B-Task
-implementation	32	46	I-Task
-in	47	49	O
-urban	50	55	O
-slums	56	61	O
-are	62	65	O
-widely	66	72	O
-promoted	73	81	O
-.	81	82	O
-
-Increasingly	83	95	O
-capable	96	103	O
-health	104	110	B-Task
-information	111	122	I-Task
-systems	123	130	I-Task
-could	131	136	O
-facilitate	137	147	O
-communication	148	161	O
-,	161	162	O
-help	163	167	O
-coordinate	168	178	O
-care	179	183	O
-,	183	184	O
-and	185	188	O
-improve	189	196	O
-the	197	200	O
-continuity	201	211	O
-of	212	214	O
-care	215	219	O
-in	220	222	O
-disadvantaged	223	236	O
-communities	237	248	O
-like	249	253	O
-Kibera	254	260	O
-.	260	261	O
-
-However	262	269	O
-,	269	270	O
-available	271	280	O
-systems	281	288	O
-may	289	292	O
-not	293	296	O
-have	297	301	O
-the	302	305	O
-ability	306	313	O
-to	314	316	O
-simplify	317	325	O
-care	326	330	O
-or	331	333	O
-improve	334	341	O
-efficiency	342	352	O
-where	353	358	O
-funding	359	366	O
-and	367	370	O
-human	371	376	O
-resources	377	386	O
-are	387	390	O
-scarce	391	397	O
-,	397	398	O
-infrastructure	399	413	O
-is	414	416	O
-unreliable	417	427	O
-and	428	431	O
-health	432	438	O
-data	439	443	O
-demands	444	451	O
-are	452	455	O
-opportunistic	456	469	O
-,	469	470	O
-not	471	474	O
-strategic	475	484	O
-.	484	485	O
-
-This	486	490	O
-study	491	496	O
-described	497	506	O
-perceptions	507	518	O
-of	519	521	O
-local	522	527	O
-EMR	528	531	B-Process
-stakeholders	532	544	O
-in	545	547	O
-two	548	551	O
-urban	552	557	O
-slum	558	562	O
-clinics	563	570	O
-.	570	571	O
-
-They	572	576	O
-shared	577	583	O
-many	584	588	O
-observations	589	601	O
-that	602	606	O
-may	607	610	O
-be	611	613	O
-important	614	623	O
-for	624	627	O
-other	628	633	O
-EMR	634	637	B-Process
-initiatives	638	649	O
-to	650	652	O
-heed	653	657	O
-,	657	658	O
-and	659	662	O
-worried	663	670	O
-most	671	675	O
-about	676	681	O
-the	682	685	O
-sustainability	686	700	O
-of	701	703	O
-EMR	704	707	B-Process
-initiatives	708	719	O
-in	720	722	O
-like	723	727	O
-communities	728	739	O
-.	739	740	O
-
-The	741	744	O
-future	745	751	O
-for	752	755	O
-EMR	756	759	B-Process
-use	760	763	O
-in	764	766	O
-urban	767	772	O
-slums	773	778	O
-is	779	781	O
-promising	782	791	O
-.	791	792	O
-
-Innovative	793	803	O
-new	804	807	O
-technologies	808	820	O
-,	820	821	O
-such	822	826	O
-as	827	829	O
-mobile	830	836	B-Material
-applications	837	849	I-Material
-and	850	853	O
-point	854	859	O
--	859	860	O
-of	860	862	O
--	862	863	O
-care	863	867	O
-laboratory	868	878	O
-tests	879	884	O
-,	884	885	O
-could	886	891	O
-extend	892	898	O
-the	899	902	O
-reach	903	908	O
-of	909	911	O
-EMRs	912	916	B-Process
-where	917	922	O
-infrastructure	923	937	O
-is	938	940	O
-wanting	941	948	O
-.	948	949	O
-
-New	950	953	O
-cloud	954	959	B-Process
--	959	960	I-Process
-based	960	965	I-Process
-EMR	966	969	I-Process
-ecosystems	970	980	I-Process
-,	980	981	O
-where	982	987	O
-data	988	992	O
-is	993	995	O
-collected	996	1005	O
-and	1006	1009	O
-stored	1010	1016	O
-centrally	1017	1026	O
-could	1027	1032	O
-leverage	1033	1041	O
-cell	1042	1046	O
-phone	1047	1052	O
-networks	1053	1061	O
-to	1062	1064	O
-promote	1065	1072	O
-more	1073	1077	O
-health	1078	1084	O
-information	1085	1096	O
-sharing	1097	1104	O
-,	1104	1105	O
-coordination	1106	1118	O
-of	1119	1121	O
-care	1122	1126	O
-and	1127	1130	O
-ultimately	1131	1141	O
-better	1142	1148	O
-outcomes	1149	1157	O
-for	1158	1161	O
-vulnerable	1162	1172	O
-populations	1173	1184	O
-.	1184	1185	O
-
-Summary	1185	1192	O
-pointsWhat	1193	1203	O
-was	1204	1207	O
-already	1208	1215	O
-known	1216	1221	O
-on	1222	1224	O
-the	1225	1228	O
-topic?•Rapid	1229	1241	O
-urbanization	1242	1254	O
-is	1255	1257	O
-associated	1258	1268	O
-with	1269	1273	O
-growth	1274	1280	O
-in	1281	1283	O
-the	1284	1287	O
-number	1288	1294	O
-and	1295	1298	O
-size	1299	1303	O
-of	1304	1306	O
-urban	1307	1312	O
-slums	1313	1318	O
-and	1319	1322	O
-an	1323	1325	O
-associated	1326	1336	O
-rise	1337	1341	O
-in	1342	1344	O
-the	1345	1348	O
-burden	1349	1355	O
-of	1356	1358	O
-disease	1359	1366	O
-,	1366	1367	O
-further	1368	1375	O
-worsening	1376	1385	O
-an	1386	1388	O
-already	1389	1396	O
-fragmented	1397	1407	O
-and	1408	1411	O
-inefficient	1412	1423	O
-health	1424	1430	O
-care	1431	1435	O
-system	1436	1442	O
-.	1442	1443	O
+The	0,3	O	O
+purported	4,13	O	O
+advantages	14,24	O	O
+of	25,27	O	O
+EMR	28,31	O	B-Task
+implementation	32,46	O	I-Task
+in	47,49	O	O
+urban	50,55	O	O
+slums	56,61	O	O
+are	62,65	O	O
+widely	66,72	O	O
+promoted	73,81	O	O
+.	81,82	O	O
+
+Increasingly	83,95	O	O
+capable	96,103	O	O
+health	104,110	O	B-Task
+information	111,122	O	I-Task
+systems	123,130	O	I-Task
+could	131,136	O	O
+facilitate	137,147	O	O
+communication	148,161	O	O
+,	161,162	O	O
+help	163,167	O	O
+coordinate	168,178	O	O
+care	179,183	O	O
+,	183,184	O	O
+and	185,188	O	O
+improve	189,196	O	O
+the	197,200	O	O
+continuity	201,211	O	O
+of	212,214	O	O
+care	215,219	O	O
+in	220,222	O	O
+disadvantaged	223,236	O	O
+communities	237,248	O	O
+like	249,253	O	O
+Kibera	254,260	O	O
+.	260,261	O	O
+
+However	262,269	O	O
+,	269,270	O	O
+available	271,280	O	O
+systems	281,288	O	O
+may	289,292	O	O
+not	293,296	O	O
+have	297,301	O	O
+the	302,305	O	O
+ability	306,313	O	O
+to	314,316	O	O
+simplify	317,325	O	O
+care	326,330	O	O
+or	331,333	O	O
+improve	334,341	O	O
+efficiency	342,352	O	O
+where	353,358	O	O
+funding	359,366	O	O
+and	367,370	O	O
+human	371,376	O	O
+resources	377,386	O	O
+are	387,390	O	O
+scarce	391,397	O	O
+,	397,398	O	O
+infrastructure	399,413	O	O
+is	414,416	O	O
+unreliable	417,427	O	O
+and	428,431	O	O
+health	432,438	O	O
+data	439,443	O	O
+demands	444,451	O	O
+are	452,455	O	O
+opportunistic	456,469	O	O
+,	469,470	O	O
+not	471,474	O	O
+strategic	475,484	O	O
+.	484,485	O	O
+
+This	486,490	O	O
+study	491,496	O	O
+described	497,506	O	O
+perceptions	507,518	O	O
+of	519,521	O	O
+local	522,527	O	O
+EMR	528,531	O	B-Process
+stakeholders	532,544	O	O
+in	545,547	O	O
+two	548,551	O	O
+urban	552,557	O	O
+slum	558,562	O	O
+clinics	563,570	O	O
+.	570,571	O	O
+
+They	572,576	O	O
+shared	577,583	O	O
+many	584,588	O	O
+observations	589,601	O	O
+that	602,606	O	O
+may	607,610	O	O
+be	611,613	O	O
+important	614,623	O	O
+for	624,627	O	O
+other	628,633	O	O
+EMR	634,637	O	B-Process
+initiatives	638,649	O	O
+to	650,652	O	O
+heed	653,657	O	O
+,	657,658	O	O
+and	659,662	O	O
+worried	663,670	O	O
+most	671,675	O	O
+about	676,681	O	O
+the	682,685	O	O
+sustainability	686,700	O	O
+of	701,703	O	O
+EMR	704,707	O	B-Process
+initiatives	708,719	O	O
+in	720,722	O	O
+like	723,727	O	O
+communities	728,739	O	O
+.	739,740	O	O
+
+The	741,744	O	O
+future	745,751	O	O
+for	752,755	O	O
+EMR	756,759	O	B-Process
+use	760,763	O	O
+in	764,766	O	O
+urban	767,772	O	O
+slums	773,778	O	O
+is	779,781	O	O
+promising	782,791	O	O
+.	791,792	O	O
+
+Innovative	793,803	O	O
+new	804,807	O	O
+technologies	808,820	O	O
+,	820,821	O	O
+such	822,826	O	O
+as	827,829	O	O
+mobile	830,836	O	B-Material
+applications	837,849	O	I-Material
+and	850,853	O	O
+point	854,859	O	O
+-	859,860	O	O
+of	860,862	O	O
+-	862,863	O	O
+care	863,867	O	O
+laboratory	868,878	O	O
+tests	879,884	O	O
+,	884,885	O	O
+could	886,891	O	O
+extend	892,898	O	O
+the	899,902	O	O
+reach	903,908	O	O
+of	909,911	O	O
+EMRs	912,916	O	B-Process
+where	917,922	O	O
+infrastructure	923,937	O	O
+is	938,940	O	O
+wanting	941,948	O	O
+.	948,949	O	O
+
+New	950,953	O	O
+cloud	954,959	O	B-Process
+-	959,960	O	I-Process
+based	960,965	O	I-Process
+EMR	966,969	O	I-Process
+ecosystems	970,980	O	I-Process
+,	980,981	O	O
+where	982,987	O	O
+data	988,992	O	O
+is	993,995	O	O
+collected	996,1005	O	O
+and	1006,1009	O	O
+stored	1010,1016	O	O
+centrally	1017,1026	O	O
+could	1027,1032	O	O
+leverage	1033,1041	O	O
+cell	1042,1046	O	O
+phone	1047,1052	O	O
+networks	1053,1061	O	O
+to	1062,1064	O	O
+promote	1065,1072	O	O
+more	1073,1077	O	O
+health	1078,1084	O	O
+information	1085,1096	O	O
+sharing	1097,1104	O	O
+,	1104,1105	O	O
+coordination	1106,1118	O	O
+of	1119,1121	O	O
+care	1122,1126	O	O
+and	1127,1130	O	O
+ultimately	1131,1141	O	O
+better	1142,1148	O	O
+outcomes	1149,1157	O	O
+for	1158,1161	O	O
+vulnerable	1162,1172	O	O
+populations	1173,1184	O	O
+.	1184,1185	O	O
+
+Summary	1185,1192	O	O
+pointsWhat	1193,1203	O	O
+was	1204,1207	O	O
+already	1208,1215	O	O
+known	1216,1221	O	O
+on	1222,1224	O	O
+the	1225,1228	O	O
+topic?•Rapid	1229,1241	O	O
+urbanization	1242,1254	O	O
+is	1255,1257	O	O
+associated	1258,1268	O	O
+with	1269,1273	O	O
+growth	1274,1280	O	O
+in	1281,1283	O	O
+the	1284,1287	O	O
+number	1288,1294	O	O
+and	1295,1298	O	O
+size	1299,1303	O	O
+of	1304,1306	O	O
+urban	1307,1312	O	O
+slums	1313,1318	O	O
+and	1319,1322	O	O
+an	1323,1325	O	O
+associated	1326,1336	O	O
+rise	1337,1341	O	O
+in	1342,1344	O	O
+the	1345,1348	O	O
+burden	1349,1355	O	O
+of	1356,1358	O	O
+disease	1359,1366	O	O
+,	1366,1367	O	O
+further	1368,1375	O	O
+worsening	1376,1385	O	O
+an	1386,1388	O	O
+already	1389,1396	O	O
+fragmented	1397,1407	O	O
+and	1408,1411	O	O
+inefficient	1412,1423	O	O
+health	1424,1430	O	O
+care	1431,1435	O	O
+system	1436,1442	O	O
+.	1442,1443	O	O
 
 
 -DOCSTART- (S1574119211001544)
 
-As	0	2	O
-future	3	9	O
-work	10	14	O
-on	15	17	O
-the	18	21	O
-protocol	22	30	B-Task
-,	30	31	O
-we	32	34	O
-would	35	40	O
-promote	41	48	O
-two	49	52	O
-items	53	58	O
-.	58	59	O
-
-Firstly	60	67	O
-,	67	68	O
-the	69	72	O
-two	73	76	O
-mobility	77	85	B-Process
-models	86	92	I-Process
-that	93	97	O
-we	98	100	O
-have	101	105	O
-considered	106	116	O
-in	117	119	O
-this	120	124	O
-work	125	129	O
-propose	130	137	O
-possible	138	146	O
-way	147	150	O
-to	151	153	O
-capture	154	161	O
-social	162	168	O
-context	169	176	O
-in	177	179	O
-the	180	183	O
-way	184	187	O
-nodes	188	193	B-Material
-move	194	198	O
-in	199	201	O
-the	202	205	O
-physical	206	214	B-Material
-space	215	220	I-Material
-,	220	221	O
-yet	222	225	O
-still	226	231	O
-potentially	232	243	O
-allowing	244	252	O
-nodes	253	258	B-Material
-to	259	261	O
-explore	262	269	O
-the	270	273	O
-geographical	274	286	B-Material
-regions	287	294	I-Material
-considered	295	305	O
-in	306	308	O
-its	309	312	O
-entirety	313	321	O
-.	321	322	O
-
-Further	323	330	O
-insights	331	339	O
-to	340	342	O
-the	343	346	O
-performance	347	358	B-Material
-potential	359	368	I-Material
-could	369	374	O
-be	375	377	O
-given	378	383	O
-through	384	391	O
-the	392	395	O
-assessment	396	406	O
-of	407	409	O
-the	410	413	O
-protocol	414	422	O
-with	423	427	O
-other	428	433	O
-mobilities	434	444	O
-that	445	449	O
-can	450	453	O
-extend	454	460	B-Process
-the	461	464	I-Process
-physical	465	473	I-Process
-region	474	480	I-Process
-of	481	483	I-Process
-movement	484	492	I-Process
-as	493	495	O
-well	496	500	O
-as	501	503	O
-impose	504	510	B-Process
-potential	511	520	I-Process
-restrictions	521	533	I-Process
-on	534	536	O
-the	537	540	O
-nodes	541	546	B-Process
-mobility	547	555	I-Process
-,	555	556	O
-for	557	560	O
-example	561	568	O
-by	569	571	O
-forcing	572	579	B-Process
-similar	580	587	I-Process
-nodes	588	593	I-Process
-to	594	596	I-Process
-move	597	601	I-Process
-within	602	608	I-Process
-specifically	609	621	I-Process
-defined	622	629	I-Process
-areas	630	635	I-Process
-.	635	636	O
-
-Secondly	637	645	O
-,	645	646	O
-the	647	650	O
-different	651	660	O
-forwarding	661	671	B-Process
-modes	672	677	I-Process
-introduced	678	688	O
-in	689	691	O
-Section	692	699	O
-3.3	701	704	O
-express	705	712	O
-different	713	722	O
-levels	723	729	O
-of	730	732	O
-cooperation	733	744	O
-across	745	751	O
-the	752	755	O
-network	756	763	B-Process
-.	763	764	O
-
-The	765	768	O
-push	769	773	B-Process
--	773	774	I-Process
-community	774	783	I-Process
-mode	784	788	I-Process
-,	788	789	O
-for	790	793	O
-example	794	801	O
-,	801	802	O
-is	803	805	O
-a	806	807	O
-form	808	812	O
-of	813	815	O
-interest	816	824	O
--	824	825	O
-community	825	834	O
-selfishness	835	846	O
-and	847	850	O
-assumes	851	858	O
-reciprocation	859	872	O
-in	873	875	O
-the	876	879	O
-nodes’	880	886	B-Material
-behaviour	887	896	O
-.	896	897	O
-
-The	898	901	O
-vulnerability	902	915	O
-(	916	917	O
-resp	917	921	O
-.	921	922	O
-resilience	923	933	O
-)	933	934	O
-of	935	937	O
-the	938	941	O
-protocol	942	950	O
-to	951	953	O
-different	954	963	O
-instances	964	973	O
-of	974	976	O
-node	977	981	B-Material
-misbehaviours	982	995	O
-is	996	998	O
-a	999	1000	O
-research	1001	1009	O
-item	1010	1014	O
-worth	1015	1020	O
-exploring	1021	1030	O
-.	1030	1031	O
+As	0,2	O	O
+future	3,9	O	O
+work	10,14	O	O
+on	15,17	O	O
+the	18,21	O	O
+protocol	22,30	O	B-Task
+,	30,31	O	O
+we	32,34	O	O
+would	35,40	O	O
+promote	41,48	O	O
+two	49,52	O	O
+items	53,58	O	O
+.	58,59	O	O
+
+Firstly	60,67	O	O
+,	67,68	O	O
+the	69,72	O	O
+two	73,76	O	O
+mobility	77,85	O	B-Process
+models	86,92	O	I-Process
+that	93,97	O	O
+we	98,100	O	O
+have	101,105	O	O
+considered	106,116	O	O
+in	117,119	O	O
+this	120,124	O	O
+work	125,129	O	O
+propose	130,137	O	O
+possible	138,146	O	O
+way	147,150	O	O
+to	151,153	O	O
+capture	154,161	O	O
+social	162,168	O	O
+context	169,176	O	O
+in	177,179	O	O
+the	180,183	O	O
+way	184,187	O	O
+nodes	188,193	O	B-Material
+move	194,198	O	O
+in	199,201	O	O
+the	202,205	O	O
+physical	206,214	O	B-Material
+space	215,220	O	I-Material
+,	220,221	O	O
+yet	222,225	O	O
+still	226,231	O	O
+potentially	232,243	O	O
+allowing	244,252	O	O
+nodes	253,258	O	B-Material
+to	259,261	O	O
+explore	262,269	O	O
+the	270,273	O	O
+geographical	274,286	O	B-Material
+regions	287,294	O	I-Material
+considered	295,305	O	O
+in	306,308	O	O
+its	309,312	O	O
+entirety	313,321	O	O
+.	321,322	O	O
+
+Further	323,330	O	O
+insights	331,339	O	O
+to	340,342	O	O
+the	343,346	O	O
+performance	347,358	O	B-Material
+potential	359,368	O	I-Material
+could	369,374	O	O
+be	375,377	O	O
+given	378,383	O	O
+through	384,391	O	O
+the	392,395	O	O
+assessment	396,406	O	O
+of	407,409	O	O
+the	410,413	O	O
+protocol	414,422	O	O
+with	423,427	O	O
+other	428,433	O	O
+mobilities	434,444	O	O
+that	445,449	O	O
+can	450,453	O	O
+extend	454,460	O	B-Process
+the	461,464	O	I-Process
+physical	465,473	O	I-Process
+region	474,480	O	I-Process
+of	481,483	O	I-Process
+movement	484,492	O	I-Process
+as	493,495	O	O
+well	496,500	O	O
+as	501,503	O	O
+impose	504,510	O	B-Process
+potential	511,520	O	I-Process
+restrictions	521,533	O	I-Process
+on	534,536	O	O
+the	537,540	O	O
+nodes	541,546	O	B-Process
+mobility	547,555	O	I-Process
+,	555,556	O	O
+for	557,560	O	O
+example	561,568	O	O
+by	569,571	O	O
+forcing	572,579	O	B-Process
+similar	580,587	O	I-Process
+nodes	588,593	O	I-Process
+to	594,596	O	I-Process
+move	597,601	O	I-Process
+within	602,608	O	I-Process
+specifically	609,621	O	I-Process
+defined	622,629	O	I-Process
+areas	630,635	O	I-Process
+.	635,636	O	O
+
+Secondly	637,645	O	O
+,	645,646	O	O
+the	647,650	O	O
+different	651,660	O	O
+forwarding	661,671	O	B-Process
+modes	672,677	O	I-Process
+introduced	678,688	O	O
+in	689,691	O	O
+Section	692,699	O	O
+3.3	701,704	O	O
+express	705,712	O	O
+different	713,722	O	O
+levels	723,729	O	O
+of	730,732	O	O
+cooperation	733,744	O	O
+across	745,751	O	O
+the	752,755	O	O
+network	756,763	O	B-Process
+.	763,764	O	O
+
+The	765,768	O	O
+push	769,773	O	B-Process
+-	773,774	O	I-Process
+community	774,783	O	I-Process
+mode	784,788	O	I-Process
+,	788,789	O	O
+for	790,793	O	O
+example	794,801	O	O
+,	801,802	O	O
+is	803,805	O	O
+a	806,807	O	O
+form	808,812	O	O
+of	813,815	O	O
+interest	816,824	O	O
+-	824,825	O	O
+community	825,834	O	O
+selfishness	835,846	O	O
+and	847,850	O	O
+assumes	851,858	O	O
+reciprocation	859,872	O	O
+in	873,875	O	O
+the	876,879	O	O
+nodes’	880,886	O	B-Material
+behaviour	887,896	O	O
+.	896,897	O	O
+
+The	898,901	O	O
+vulnerability	902,915	O	O
+(	916,917	O	O
+resp	917,921	O	O
+.	921,922	O	O
+resilience	923,933	O	O
+)	933,934	O	O
+of	935,937	O	O
+the	938,941	O	O
+protocol	942,950	O	O
+to	951,953	O	O
+different	954,963	O	O
+instances	964,973	O	O
+of	974,976	O	O
+node	977,981	O	B-Material
+misbehaviours	982,995	O	O
+is	996,998	O	O
+a	999,1000	O	O
+research	1001,1009	O	O
+item	1010,1014	O	O
+worth	1015,1020	O	O
+exploring	1021,1030	O	O
+.	1030,1031	O	O
 
 
 -DOCSTART- (S1574119215000796)
 
-The	0	3	O
-proposed	4	12	O
-multihop	13	21	B-Process
-routing	22	29	I-Process
-protocol	30	38	I-Process
-,	38	39	O
-PHASeR	40	46	B-Process
-,	46	47	O
-applies	48	55	O
-the	56	59	O
-technique	60	69	O
-of	70	72	O
-blind	73	78	O
-forwarding	79	89	O
-in	90	92	O
-a	93	94	O
-MWSN	95	99	B-Material
-,	99	100	O
-which	101	106	O
-increases	107	116	O
-the	117	120	O
-reliability	121	132	O
-of	133	135	O
-data	136	140	O
-delivery	141	149	O
-through	150	157	O
-its	158	161	O
-inherent	162	170	O
-use	171	174	O
-of	175	177	O
-multiple	178	186	O
-routes	187	193	O
-.	193	194	O
-
-This	195	199	O
-approach	200	208	O
-requires	209	217	O
-a	218	219	O
-gradient	220	228	B-Process
-metric	229	235	I-Process
-to	236	238	O
-be	239	241	O
-continuously	242	254	O
-maintained	255	265	O
-,	265	266	O
-which	267	272	O
-is	273	275	O
-problematic	276	287	O
-in	288	290	O
-a	291	292	O
-dynamic	293	300	O
-topology	301	309	O
-.	309	310	O
-
-The	311	314	O
-literature	315	325	O
-commonly	326	334	O
-uses	335	339	O
-either	340	346	O
-flooding	347	355	O
-or	356	358	O
-location	359	367	O
-awareness	368	377	O
-,	377	378	O
-however	379	386	O
-flooding	387	395	O
-creates	396	403	O
-large	404	409	O
-amounts	410	417	O
-of	418	420	O
-overhead	421	429	O
-and	430	433	O
-location	434	442	O
-determination	443	456	O
-schemes	457	464	O
-can	465	468	O
-often	469	474	O
-be	475	477	O
-inaccurate	478	488	O
-,	488	489	O
-power	490	495	O
-hungry	496	502	O
-and	503	506	O
-create	507	513	O
-the	514	517	O
-issue	518	523	O
-of	524	526	O
-the	527	530	O
-dead	531	535	O
-end	536	539	O
-problem	540	547	O
-.	547	548	O
-
-PHASeR	549	555	B-Process
-uses	556	560	O
-a	561	562	O
-novel	563	568	O
-method	569	575	O
-of	576	578	O
-gradient	579	587	B-Process
-maintenance	588	599	I-Process
-in	600	602	O
-a	603	604	O
-mobile	605	611	B-Material
-network	612	619	I-Material
-,	619	620	O
-which	621	626	O
-requires	627	635	O
-the	636	639	O
-proactive	640	649	O
-sharing	650	657	O
-of	658	660	O
-only	661	665	O
-local	666	671	O
-topology	672	680	O
-information	681	692	O
-.	692	693	O
-
-This	694	698	O
-is	699	701	O
-facilitated	702	713	O
-by	714	716	O
-a	717	718	O
-global	719	725	O
-TDMA	726	730	B-Process
-(	731	732	O
-time	732	736	B-Process
-division	737	745	I-Process
-multiple	746	754	I-Process
-access	755	761	I-Process
-)	761	762	O
-MAC	763	766	B-Process
-(	767	768	O
-medium	768	774	B-Process
-access	775	781	I-Process
-control	782	789	I-Process
-)	789	790	O
-layer	791	796	O
-and	797	800	O
-further	801	808	O
-reduces	809	816	O
-the	817	820	O
-amount	821	827	O
-of	828	830	O
-overhead	831	839	O
-,	839	840	O
-which	841	846	O
-in	847	849	O
-turn	850	854	O
-will	855	859	O
-decrease	860	868	O
-packet	869	875	B-Material
-latency	876	883	I-Material
-.	883	884	O
-
-PHASeR	885	891	B-Process
-is	892	894	O
-also	895	899	O
-set	900	903	O
-apart	904	909	O
-by	910	912	O
-its	913	916	O
-use	917	920	O
-of	921	923	O
-encapsulation	924	937	B-Process
-,	937	938	O
-which	939	944	O
-allows	945	951	O
-data	952	956	O
-from	957	961	O
-multiple	962	970	O
-nodes	971	976	B-Material
-to	977	979	O
-be	980	982	O
-transmitted	983	994	O
-in	995	997	O
-the	998	1001	O
-same	1002	1006	O
-packet	1007	1013	O
-in	1014	1016	O
-order	1017	1022	O
-to	1023	1025	O
-handle	1026	1032	O
-high	1033	1037	O
-volumes	1038	1045	O
-of	1046	1048	O
-traffic	1049	1056	O
-.	1056	1057	O
-
-It	1058	1060	O
-utilises	1061	1069	O
-node	1070	1074	B-Process
-cooperation	1075	1086	I-Process
-to	1087	1089	O
-create	1090	1096	O
-a	1097	1098	O
-robust	1099	1105	O
-multipath	1106	1115	O
-routing	1116	1123	O
-solution	1124	1132	O
-.	1132	1133	O
-
-As	1134	1136	O
-such	1137	1141	O
-,	1141	1142	O
-the	1143	1146	O
-contribution	1147	1159	O
-of	1160	1162	O
-this	1163	1167	O
-paper	1168	1173	O
-is	1174	1176	O
-a	1177	1178	O
-cross	1179	1184	B-Task
--	1184	1185	I-Task
-layer	1185	1190	I-Task
-routing	1191	1198	I-Task
-protocol	1199	1207	I-Task
-for	1208	1211	I-Task
-MWSNs	1212	1217	I-Task
-that	1218	1222	O
-can	1223	1226	O
-handle	1227	1233	O
-the	1234	1237	O
-constant	1238	1246	O
-flow	1247	1251	O
-of	1252	1254	O
-data	1255	1259	O
-from	1260	1264	O
-sensors	1265	1272	B-Material
-in	1273	1275	O
-highly	1276	1282	O
-mobile	1283	1289	O
-situations	1290	1300	O
-.	1300	1301	O
+The	0,3	O	O
+proposed	4,12	O	O
+multihop	13,21	O	B-Process
+routing	22,29	O	I-Process
+protocol	30,38	O	I-Process
+,	38,39	O	O
+PHASeR	40,46	O	B-Process
+,	46,47	O	O
+applies	48,55	O	O
+the	56,59	O	O
+technique	60,69	O	O
+of	70,72	O	O
+blind	73,78	O	O
+forwarding	79,89	O	O
+in	90,92	O	O
+a	93,94	O	O
+MWSN	95,99	O	B-Material
+,	99,100	O	O
+which	101,106	O	O
+increases	107,116	O	O
+the	117,120	O	O
+reliability	121,132	O	O
+of	133,135	O	O
+data	136,140	O	O
+delivery	141,149	O	O
+through	150,157	O	O
+its	158,161	O	O
+inherent	162,170	O	O
+use	171,174	O	O
+of	175,177	O	O
+multiple	178,186	O	O
+routes	187,193	O	O
+.	193,194	O	O
+
+This	195,199	O	O
+approach	200,208	O	O
+requires	209,217	O	O
+a	218,219	O	O
+gradient	220,228	O	B-Process
+metric	229,235	O	I-Process
+to	236,238	O	O
+be	239,241	O	O
+continuously	242,254	O	O
+maintained	255,265	O	O
+,	265,266	O	O
+which	267,272	O	O
+is	273,275	O	O
+problematic	276,287	O	O
+in	288,290	O	O
+a	291,292	O	O
+dynamic	293,300	O	O
+topology	301,309	O	O
+.	309,310	O	O
+
+The	311,314	O	O
+literature	315,325	O	O
+commonly	326,334	O	O
+uses	335,339	O	O
+either	340,346	O	O
+flooding	347,355	O	O
+or	356,358	O	O
+location	359,367	O	O
+awareness	368,377	O	O
+,	377,378	O	O
+however	379,386	O	O
+flooding	387,395	O	O
+creates	396,403	O	O
+large	404,409	O	O
+amounts	410,417	O	O
+of	418,420	O	O
+overhead	421,429	O	O
+and	430,433	O	O
+location	434,442	O	O
+determination	443,456	O	O
+schemes	457,464	O	O
+can	465,468	O	O
+often	469,474	O	O
+be	475,477	O	O
+inaccurate	478,488	O	O
+,	488,489	O	O
+power	490,495	O	O
+hungry	496,502	O	O
+and	503,506	O	O
+create	507,513	O	O
+the	514,517	O	O
+issue	518,523	O	O
+of	524,526	O	O
+the	527,530	O	O
+dead	531,535	O	O
+end	536,539	O	O
+problem	540,547	O	O
+.	547,548	O	O
+
+PHASeR	549,555	O	B-Process
+uses	556,560	O	O
+a	561,562	O	O
+novel	563,568	O	O
+method	569,575	O	O
+of	576,578	O	O
+gradient	579,587	O	B-Process
+maintenance	588,599	O	I-Process
+in	600,602	O	O
+a	603,604	O	O
+mobile	605,611	O	B-Material
+network	612,619	O	I-Material
+,	619,620	O	O
+which	621,626	O	O
+requires	627,635	O	O
+the	636,639	O	O
+proactive	640,649	O	O
+sharing	650,657	O	O
+of	658,660	O	O
+only	661,665	O	O
+local	666,671	O	O
+topology	672,680	O	O
+information	681,692	O	O
+.	692,693	O	O
+
+This	694,698	O	O
+is	699,701	O	O
+facilitated	702,713	O	O
+by	714,716	O	O
+a	717,718	O	O
+global	719,725	O	O
+TDMA	726,730	O	B-Process
+(	731,732	O	O
+time	732,736	O	B-Process
+division	737,745	O	I-Process
+multiple	746,754	O	I-Process
+access	755,761	O	I-Process
+)	761,762	O	O
+MAC	763,766	O	B-Process
+(	767,768	O	O
+medium	768,774	O	B-Process
+access	775,781	O	I-Process
+control	782,789	O	I-Process
+)	789,790	O	O
+layer	791,796	O	O
+and	797,800	O	O
+further	801,808	O	O
+reduces	809,816	O	O
+the	817,820	O	O
+amount	821,827	O	O
+of	828,830	O	O
+overhead	831,839	O	O
+,	839,840	O	O
+which	841,846	O	O
+in	847,849	O	O
+turn	850,854	O	O
+will	855,859	O	O
+decrease	860,868	O	O
+packet	869,875	O	B-Material
+latency	876,883	O	I-Material
+.	883,884	O	O
+
+PHASeR	885,891	O	B-Process
+is	892,894	O	O
+also	895,899	O	O
+set	900,903	O	O
+apart	904,909	O	O
+by	910,912	O	O
+its	913,916	O	O
+use	917,920	O	O
+of	921,923	O	O
+encapsulation	924,937	O	B-Process
+,	937,938	O	O
+which	939,944	O	O
+allows	945,951	O	O
+data	952,956	O	O
+from	957,961	O	O
+multiple	962,970	O	O
+nodes	971,976	O	B-Material
+to	977,979	O	O
+be	980,982	O	O
+transmitted	983,994	O	O
+in	995,997	O	O
+the	998,1001	O	O
+same	1002,1006	O	O
+packet	1007,1013	O	O
+in	1014,1016	O	O
+order	1017,1022	O	O
+to	1023,1025	O	O
+handle	1026,1032	O	O
+high	1033,1037	O	O
+volumes	1038,1045	O	O
+of	1046,1048	O	O
+traffic	1049,1056	O	O
+.	1056,1057	O	O
+
+It	1058,1060	O	O
+utilises	1061,1069	O	O
+node	1070,1074	O	B-Process
+cooperation	1075,1086	O	I-Process
+to	1087,1089	O	O
+create	1090,1096	O	O
+a	1097,1098	O	O
+robust	1099,1105	O	O
+multipath	1106,1115	O	O
+routing	1116,1123	O	O
+solution	1124,1132	O	O
+.	1132,1133	O	O
+
+As	1134,1136	O	O
+such	1137,1141	O	O
+,	1141,1142	O	O
+the	1143,1146	O	O
+contribution	1147,1159	O	O
+of	1160,1162	O	O
+this	1163,1167	O	O
+paper	1168,1173	O	O
+is	1174,1176	O	O
+a	1177,1178	O	O
+cross	1179,1184	O	B-Task
+-	1184,1185	O	I-Task
+layer	1185,1190	O	I-Task
+routing	1191,1198	O	I-Task
+protocol	1199,1207	O	I-Task
+for	1208,1211	O	I-Task
+MWSNs	1212,1217	O	I-Task
+that	1218,1222	O	O
+can	1223,1226	O	O
+handle	1227,1233	O	O
+the	1234,1237	O	O
+constant	1238,1246	O	O
+flow	1247,1251	O	O
+of	1252,1254	O	O
+data	1255,1259	O	O
+from	1260,1264	O	O
+sensors	1265,1272	O	B-Material
+in	1273,1275	O	O
+highly	1276,1282	O	O
+mobile	1283,1289	O	O
+situations	1290,1300	O	O
+.	1300,1301	O	O
 
 
 -DOCSTART- (S1631070514000954)
 
-Superconductivity	0	17	B-Task
-in	18	20	I-Task
-actinides	21	30	I-Task
-was	31	34	O
-first	35	40	O
-observed	41	49	O
-in	50	52	O
-thorium	53	60	B-Material
-metal	61	66	I-Material
-in	67	69	O
-1929	70	74	O
-[	75	76	O
-7	76	77	O
-]	77	78	O
-,	78	79	O
-then	80	84	O
-in	85	87	O
-elemental	88	97	O
-uranium	98	105	B-Material
-in	106	108	O
-1942	109	113	O
-[	114	115	O
-8	115	116	O
-]	116	117	O
-,	117	118	O
-and	119	122	O
-in	123	125	O
-uranium	126	133	B-Material
-compounds	134	143	I-Material
-in	144	146	O
-1958	147	151	O
-[	152	153	O
-9	153	154	O
-]	154	155	O
-.	155	156	O
-
-A	157	158	O
-new	159	162	O
-class	163	168	O
-of	169	171	O
-uranium	172	179	B-Material
-superconductors	180	195	I-Material
-emerged	196	203	O
-in	204	206	O
-the	207	210	O
-1980	211	215	O
-'s	215	217	O
-with	218	222	O
-the	223	226	O
-discovery	227	236	O
-of	237	239	O
-uranium	240	247	B-Material
-heavy	248	253	I-Material
-fermion	254	261	I-Material
-superconductors	262	277	I-Material
-[	278	279	O
-10	279	281	O
-]	281	282	O
-.	282	283	O
-
-Further	284	291	O
-surprises	292	301	O
-came	302	306	O
-at	307	309	O
-the	310	313	O
-beginning	314	323	O
-of	324	326	O
-the	327	330	O
-century	331	338	O
-with	339	343	O
-the	344	347	O
-discovery	348	357	O
-of	358	360	O
-ferromagnetic	361	374	B-Material
-superconductors	375	390	I-Material
-in	391	393	O
-uranium	394	401	B-Material
-systems	402	409	O
-[	410	411	O
-11	411	413	O
-]	413	414	O
-and	415	418	O
-the	419	422	O
-first	423	428	O
-observation	429	440	O
-of	441	443	O
-superconductivity	444	461	B-Process
-in	462	464	O
-plutonium	465	474	B-Material
-[	475	476	O
-12	476	478	O
-]	478	479	O
-and	480	483	O
-neptunium	484	493	B-Material
-[	494	495	O
-13	495	497	O
-]	497	498	O
-compounds	499	508	O
-.	508	509	O
-
-The	510	513	O
-actinides	514	523	B-Material
-(	524	525	O
-or	525	527	O
-actinoids	528	537	B-Material
-)	537	538	O
-are	539	542	O
-located	543	550	O
-at	551	553	O
-the	554	557	O
-end	558	561	O
-of	562	564	O
-the	565	568	O
-periodic	569	577	B-Process
-table	578	583	I-Process
-(	584	585	O
-N=89	585	589	O
-(	590	591	O
-Ac	591	593	B-Material
-)	593	594	O
-or	595	597	O
-90	598	600	O
-(	601	602	O
-Th	602	604	B-Material
-)	604	605	O
-to	606	608	O
-103	609	612	O
-(	613	614	O
-Lr	614	616	B-Material
-)	616	617	O
-)	617	618	O
-.	618	619	O
-
-Transuranium	620	632	B-Material
-elements	633	641	I-Material
-(	642	643	O
-or	643	645	O
-transuranics	646	658	B-Material
-)	658	659	O
-are	660	663	O
-the	664	667	O
-chemical	668	676	O
-elements	677	685	O
-with	686	690	O
-atomic	691	697	O
-number	698	704	O
-(	705	706	O
-Z	706	707	O
-)	707	708	O
-greater	709	716	O
-than	717	721	O
-92	722	724	O
-(	725	726	O
-uranium	726	733	B-Material
-)	733	734	O
-and	735	738	O
-due	739	742	O
-to	743	745	O
-their	746	751	O
-short	752	757	O
-half	758	762	O
--	762	763	O
-life	763	767	O
-on	768	770	O
-a	771	772	O
-geological	773	783	O
-timescale	784	793	O
-,	793	794	O
-they	795	799	O
-are	800	803	O
-essentially	804	815	O
-synthetic	816	825	B-Material
-elements	826	834	I-Material
-.	834	835	O
-
-Above	836	841	O
-Z=103	842	847	O
-(	848	849	O
-Lr	849	851	B-Material
-)	851	852	O
-,	852	853	O
-one	854	857	O
-talks	858	863	O
-about	864	869	O
-transactinides	870	884	B-Material
-(	885	886	O
-or	886	888	O
-superactinides	889	903	B-Material
-)	903	904	O
-elements	905	913	O
-.	913	914	O
-
-These	915	920	O
-latter	921	927	O
-elements	928	936	O
-have	937	941	O
-extremely	942	951	O
-short	952	957	O
-half	958	962	O
--	962	963	O
-lives	963	968	O
-and	969	972	O
-no	973	975	O
-macroscopic	976	987	O
-quantity	988	996	O
-is	997	999	O
-available	1000	1009	O
-for	1010	1013	O
-the	1014	1017	O
-study	1018	1023	B-Task
-of	1024	1026	I-Task
-condensed	1027	1036	I-Task
--	1036	1037	I-Task
-matter	1037	1043	I-Task
-properties	1044	1054	I-Task
-.	1054	1055	O
+Superconductivity	0,17	O	B-Task
+in	18,20	O	I-Task
+actinides	21,30	O	I-Task
+was	31,34	O	O
+first	35,40	O	O
+observed	41,49	O	O
+in	50,52	O	O
+thorium	53,60	O	B-Material
+metal	61,66	O	I-Material
+in	67,69	O	O
+1929	70,74	O	O
+[	75,76	O	O
+7	76,77	O	O
+]	77,78	O	O
+,	78,79	O	O
+then	80,84	O	O
+in	85,87	O	O
+elemental	88,97	O	O
+uranium	98,105	O	B-Material
+in	106,108	O	O
+1942	109,113	O	O
+[	114,115	O	O
+8	115,116	O	O
+]	116,117	O	O
+,	117,118	O	O
+and	119,122	O	O
+in	123,125	O	O
+uranium	126,133	O	B-Material
+compounds	134,143	O	I-Material
+in	144,146	O	O
+1958	147,151	O	O
+[	152,153	O	O
+9	153,154	O	O
+]	154,155	O	O
+.	155,156	O	O
+
+A	157,158	O	O
+new	159,162	O	O
+class	163,168	O	O
+of	169,171	O	O
+uranium	172,179	O	B-Material
+superconductors	180,195	O	I-Material
+emerged	196,203	O	O
+in	204,206	O	O
+the	207,210	O	O
+1980	211,215	O	O
+'s	215,217	O	O
+with	218,222	O	O
+the	223,226	O	O
+discovery	227,236	O	O
+of	237,239	O	O
+uranium	240,247	O	B-Material
+heavy	248,253	O	I-Material
+fermion	254,261	O	I-Material
+superconductors	262,277	O	I-Material
+[	278,279	O	O
+10	279,281	O	O
+]	281,282	O	O
+.	282,283	O	O
+
+Further	284,291	O	O
+surprises	292,301	O	O
+came	302,306	O	O
+at	307,309	O	O
+the	310,313	O	O
+beginning	314,323	O	O
+of	324,326	O	O
+the	327,330	O	O
+century	331,338	O	O
+with	339,343	O	O
+the	344,347	O	O
+discovery	348,357	O	O
+of	358,360	O	O
+ferromagnetic	361,374	O	B-Material
+superconductors	375,390	O	I-Material
+in	391,393	O	O
+uranium	394,401	O	B-Material
+systems	402,409	O	O
+[	410,411	O	O
+11	411,413	O	O
+]	413,414	O	O
+and	415,418	O	O
+the	419,422	O	O
+first	423,428	O	O
+observation	429,440	O	O
+of	441,443	O	O
+superconductivity	444,461	O	B-Process
+in	462,464	O	O
+plutonium	465,474	O	B-Material
+[	475,476	O	O
+12	476,478	O	O
+]	478,479	O	O
+and	480,483	O	O
+neptunium	484,493	O	B-Material
+[	494,495	O	O
+13	495,497	O	O
+]	497,498	O	O
+compounds	499,508	O	O
+.	508,509	O	O
+
+The	510,513	O	O
+actinides	514,523	O	B-Material
+(	524,525	O	O
+or	525,527	O	O
+actinoids	528,537	O	B-Material
+)	537,538	O	O
+are	539,542	O	O
+located	543,550	O	O
+at	551,553	O	O
+the	554,557	O	O
+end	558,561	O	O
+of	562,564	O	O
+the	565,568	O	O
+periodic	569,577	O	B-Process
+table	578,583	O	I-Process
+(	584,585	O	O
+N=89	585,589	O	O
+(	590,591	O	O
+Ac	591,593	O	B-Material
+)	593,594	O	O
+or	595,597	O	O
+90	598,600	O	O
+(	601,602	O	O
+Th	602,604	O	B-Material
+)	604,605	O	O
+to	606,608	O	O
+103	609,612	O	O
+(	613,614	O	O
+Lr	614,616	O	B-Material
+)	616,617	O	O
+)	617,618	O	O
+.	618,619	O	O
+
+Transuranium	620,632	O	B-Material
+elements	633,641	O	I-Material
+(	642,643	O	O
+or	643,645	O	O
+transuranics	646,658	O	B-Material
+)	658,659	O	O
+are	660,663	O	O
+the	664,667	O	O
+chemical	668,676	O	O
+elements	677,685	O	O
+with	686,690	O	O
+atomic	691,697	O	O
+number	698,704	O	O
+(	705,706	O	O
+Z	706,707	O	O
+)	707,708	O	O
+greater	709,716	O	O
+than	717,721	O	O
+92	722,724	O	O
+(	725,726	O	O
+uranium	726,733	O	B-Material
+)	733,734	O	O
+and	735,738	O	O
+due	739,742	O	O
+to	743,745	O	O
+their	746,751	O	O
+short	752,757	O	O
+half	758,762	O	O
+-	762,763	O	O
+life	763,767	O	O
+on	768,770	O	O
+a	771,772	O	O
+geological	773,783	O	O
+timescale	784,793	O	O
+,	793,794	O	O
+they	795,799	O	O
+are	800,803	O	O
+essentially	804,815	O	O
+synthetic	816,825	O	B-Material
+elements	826,834	O	I-Material
+.	834,835	O	O
+
+Above	836,841	O	O
+Z=103	842,847	O	O
+(	848,849	O	O
+Lr	849,851	O	B-Material
+)	851,852	O	O
+,	852,853	O	O
+one	854,857	O	O
+talks	858,863	O	O
+about	864,869	O	O
+transactinides	870,884	O	B-Material
+(	885,886	O	O
+or	886,888	O	O
+superactinides	889,903	O	B-Material
+)	903,904	O	O
+elements	905,913	O	O
+.	913,914	O	O
+
+These	915,920	O	O
+latter	921,927	O	O
+elements	928,936	O	O
+have	937,941	O	O
+extremely	942,951	O	O
+short	952,957	O	O
+half	958,962	O	O
+-	962,963	O	O
+lives	963,968	O	O
+and	969,972	O	O
+no	973,975	O	O
+macroscopic	976,987	O	O
+quantity	988,996	O	O
+is	997,999	O	O
+available	1000,1009	O	O
+for	1010,1013	O	O
+the	1014,1017	O	O
+study	1018,1023	O	B-Task
+of	1024,1026	O	I-Task
+condensed	1027,1036	O	I-Task
+-	1036,1037	O	I-Task
+matter	1037,1043	O	I-Task
+properties	1044,1054	O	I-Task
+.	1054,1055	O	O
 
 
 -DOCSTART- (S167420011300196X)
 
-PV	0	2	B-Task
-cells	3	8	I-Task
-are	9	12	O
-one	13	16	O
-of	17	19	O
-the	20	23	O
-most	24	28	O
-promising	29	38	O
-technologies	39	51	O
-for	52	55	O
-conversion	56	66	B-Process
-of	67	69	I-Process
-incident	70	78	I-Process
-solar	79	84	I-Process
-radiation	85	94	I-Process
-into	95	99	I-Process
-electric	100	108	I-Process
-power	109	114	I-Process
-.	114	115	O
-
-However	116	123	O
-,	123	124	O
-this	125	129	O
-technology	130	140	O
-is	141	143	O
-still	144	149	O
-far	150	153	O
-from	154	158	O
-being	159	164	O
-able	165	169	O
-to	170	172	O
-compete	173	180	O
-with	181	185	O
-fossil	186	192	B-Process
-fuel	193	197	I-Process
--	197	198	I-Process
-based	198	203	I-Process
-energy	204	210	I-Process
-conversion	211	221	I-Process
-technologies	222	234	O
-because	235	242	O
-of	243	245	O
-its	246	249	O
-relatively	250	260	O
-low	261	264	O
-efficiency	265	275	O
-and	276	279	O
-energy	280	286	O
-density	287	294	O
-.	294	295	O
-
-Theoretically	296	309	O
-,	309	310	O
-there	311	316	O
-are	317	320	O
-three	321	326	O
-unavoidable	327	338	O
-losses	339	345	O
-that	346	350	O
-limit	351	356	O
-the	357	360	O
-solar	361	366	B-Process
-conversion	367	377	I-Process
-efficiency	378	388	O
-of	389	391	O
-a	392	393	O
-device	394	400	O
-with	401	405	O
-a	406	407	O
-single	408	414	O
-absorption	415	425	B-Process
-threshold	426	435	O
-or	436	438	O
-band	439	443	O
-gap	444	447	O
-
-Eg	448	450	O
-:	450	451	O
-(	452	453	O
-1	453	454	O
-)	454	455	O
-incomplete	456	466	B-Process
-absorption	467	477	I-Process
-,	477	478	O
-where	479	484	O
-photons	485	492	B-Material
-with	493	497	O
-energies	498	506	O
-below	507	512	O
-Eg	513	515	O
-are	516	519	O
-not	520	523	O
-absorbed	524	532	O
-;	532	533	O
-(	534	535	O
-2	535	536	O
-)	536	537	O
-thermalization	538	552	B-Process
-or	553	555	O
-carrier	556	563	B-Process
-cooling	564	571	I-Process
-,	571	572	O
-where	573	578	O
-solar	579	584	B-Material
-photons	585	592	I-Material
-with	593	597	O
-sufficient	598	608	O
-energy	609	615	O
-generate	616	624	O
-electron	625	633	B-Material
--	633	634	I-Material
-hole	634	638	I-Material
-pairs	639	644	I-Material
-and	645	648	O
-then	649	653	O
-immediately	654	665	O
-lose	666	670	O
-almost	671	677	O
-all	678	681	O
-energy	682	688	O
-in	689	691	O
-excess	692	698	O
-of	699	701	O
-Eg	702	704	O
-in	705	707	O
-the	708	711	O
-form	712	716	O
-of	717	719	O
-heat	720	724	O
-;	724	725	O
-and	726	729	O
-(	730	731	O
-3	731	732	O
-)	732	733	O
-radiative	734	743	B-Process
-recombination	744	757	I-Process
-,	757	758	O
-where	759	764	O
-a	765	766	O
-small	767	772	O
-fraction	773	781	O
-of	782	784	O
-the	785	788	O
-excited	789	796	O
-states	797	803	O
-radioactively	804	817	O
-recombine	818	827	O
-with	828	832	O
-the	833	836	O
-ground	837	843	O
-state	844	849	O
-at	850	852	O
-the	853	856	O
-maximum	857	864	O
-power	865	870	O
-output	871	877	O
-(	878	879	O
-Hanna	879	884	O
-&	885	886	O
-Nozik	887	892	O
-,	892	893	O
-2006	894	898	O
-;	898	899	O
-Henry	900	905	O
-,	905	906	O
-1980	907	911	O
-)	911	912	O
-.	912	913	O
-
-Taking	914	920	O
-an	921	923	O
-air	924	927	O
-mass	928	932	O
-of	933	935	O
-1.5	936	939	O
-as	940	942	O
-an	943	945	O
-example	946	953	O
-,	953	954	O
-for	955	958	O
-different	959	968	O
-band	969	973	O
-gap	974	977	O
-
-Eg	978	980	O
-these	981	986	O
-three	987	992	O
-losses	993	999	O
-can	1000	1003	O
-be	1004	1006	O
-calculated	1007	1017	O
-and	1018	1021	O
-the	1022	1025	O
-results	1026	1033	O
-are	1034	1037	O
-indicated	1038	1047	O
-by	1048	1050	O
-areas	1051	1056	O
-S1	1057	1059	O
-,	1059	1060	O
-S2	1061	1063	O
-,	1063	1064	O
-and	1065	1068	O
-S3	1069	1071	O
-in	1072	1074	O
-Fig	1075	1078	O
-.	1078	1079	O
-
-1	1080	1081	O
-.	1081	1082	O
-
-Note	1083	1087	O
-that	1088	1092	O
-the	1093	1096	O
-area	1097	1101	O
-under	1102	1107	O
-the	1108	1111	O
-outer	1112	1117	O
-curve	1118	1123	O
-is	1124	1126	O
-the	1127	1130	O
-solar	1131	1136	B-Process
-power	1137	1142	I-Process
-per	1143	1146	O
-unit	1147	1151	O
-area	1152	1156	O
-,	1156	1157	O
-and	1158	1161	O
-that	1162	1166	O
-only	1167	1171	O
-S4	1172	1174	O
-can	1175	1178	O
-be	1179	1181	O
-delivered	1182	1191	O
-to	1192	1194	O
-the	1195	1198	O
-load	1199	1203	O
-.	1203	1204	O
+PV	0,2	O	B-Task
+cells	3,8	O	I-Task
+are	9,12	O	O
+one	13,16	O	O
+of	17,19	O	O
+the	20,23	O	O
+most	24,28	O	O
+promising	29,38	O	O
+technologies	39,51	O	O
+for	52,55	O	O
+conversion	56,66	O	B-Process
+of	67,69	O	I-Process
+incident	70,78	O	I-Process
+solar	79,84	O	I-Process
+radiation	85,94	O	I-Process
+into	95,99	O	I-Process
+electric	100,108	O	I-Process
+power	109,114	O	I-Process
+.	114,115	O	O
+
+However	116,123	O	O
+,	123,124	O	O
+this	125,129	O	O
+technology	130,140	O	O
+is	141,143	O	O
+still	144,149	O	O
+far	150,153	O	O
+from	154,158	O	O
+being	159,164	O	O
+able	165,169	O	O
+to	170,172	O	O
+compete	173,180	O	O
+with	181,185	O	O
+fossil	186,192	O	B-Process
+fuel	193,197	O	I-Process
+-	197,198	O	I-Process
+based	198,203	O	I-Process
+energy	204,210	O	I-Process
+conversion	211,221	O	I-Process
+technologies	222,234	O	O
+because	235,242	O	O
+of	243,245	O	O
+its	246,249	O	O
+relatively	250,260	O	O
+low	261,264	O	O
+efficiency	265,275	O	O
+and	276,279	O	O
+energy	280,286	O	O
+density	287,294	O	O
+.	294,295	O	O
+
+Theoretically	296,309	O	O
+,	309,310	O	O
+there	311,316	O	O
+are	317,320	O	O
+three	321,326	O	O
+unavoidable	327,338	O	O
+losses	339,345	O	O
+that	346,350	O	O
+limit	351,356	O	O
+the	357,360	O	O
+solar	361,366	O	B-Process
+conversion	367,377	O	I-Process
+efficiency	378,388	O	O
+of	389,391	O	O
+a	392,393	O	O
+device	394,400	O	O
+with	401,405	O	O
+a	406,407	O	O
+single	408,414	O	O
+absorption	415,425	O	B-Process
+threshold	426,435	O	O
+or	436,438	O	O
+band	439,443	O	O
+gap	444,447	O	O
+
+Eg	448,450	O	O
+:	450,451	O	O
+(	452,453	O	O
+1	453,454	O	O
+)	454,455	O	O
+incomplete	456,466	O	B-Process
+absorption	467,477	O	I-Process
+,	477,478	O	O
+where	479,484	O	O
+photons	485,492	O	B-Material
+with	493,497	O	O
+energies	498,506	O	O
+below	507,512	O	O
+Eg	513,515	O	O
+are	516,519	O	O
+not	520,523	O	O
+absorbed	524,532	O	O
+;	532,533	O	O
+(	534,535	O	O
+2	535,536	O	O
+)	536,537	O	O
+thermalization	538,552	O	B-Process
+or	553,555	O	O
+carrier	556,563	O	B-Process
+cooling	564,571	O	I-Process
+,	571,572	O	O
+where	573,578	O	O
+solar	579,584	O	B-Material
+photons	585,592	O	I-Material
+with	593,597	O	O
+sufficient	598,608	O	O
+energy	609,615	O	O
+generate	616,624	O	O
+electron	625,633	O	B-Material
+-	633,634	O	I-Material
+hole	634,638	O	I-Material
+pairs	639,644	O	I-Material
+and	645,648	O	O
+then	649,653	O	O
+immediately	654,665	O	O
+lose	666,670	O	O
+almost	671,677	O	O
+all	678,681	O	O
+energy	682,688	O	O
+in	689,691	O	O
+excess	692,698	O	O
+of	699,701	O	O
+Eg	702,704	O	O
+in	705,707	O	O
+the	708,711	O	O
+form	712,716	O	O
+of	717,719	O	O
+heat	720,724	O	O
+;	724,725	O	O
+and	726,729	O	O
+(	730,731	O	O
+3	731,732	O	O
+)	732,733	O	O
+radiative	734,743	O	B-Process
+recombination	744,757	O	I-Process
+,	757,758	O	O
+where	759,764	O	O
+a	765,766	O	O
+small	767,772	O	O
+fraction	773,781	O	O
+of	782,784	O	O
+the	785,788	O	O
+excited	789,796	O	O
+states	797,803	O	O
+radioactively	804,817	O	O
+recombine	818,827	O	O
+with	828,832	O	O
+the	833,836	O	O
+ground	837,843	O	O
+state	844,849	O	O
+at	850,852	O	O
+the	853,856	O	O
+maximum	857,864	O	O
+power	865,870	O	O
+output	871,877	O	O
+(	878,879	O	O
+Hanna	879,884	O	O
+&	885,886	O	O
+Nozik	887,892	O	O
+,	892,893	O	O
+2006	894,898	O	O
+;	898,899	O	O
+Henry	900,905	O	O
+,	905,906	O	O
+1980	907,911	O	O
+)	911,912	O	O
+.	912,913	O	O
+
+Taking	914,920	O	O
+an	921,923	O	O
+air	924,927	O	O
+mass	928,932	O	O
+of	933,935	O	O
+1.5	936,939	O	O
+as	940,942	O	O
+an	943,945	O	O
+example	946,953	O	O
+,	953,954	O	O
+for	955,958	O	O
+different	959,968	O	O
+band	969,973	O	O
+gap	974,977	O	O
+
+Eg	978,980	O	O
+these	981,986	O	O
+three	987,992	O	O
+losses	993,999	O	O
+can	1000,1003	O	O
+be	1004,1006	O	O
+calculated	1007,1017	O	O
+and	1018,1021	O	O
+the	1022,1025	O	O
+results	1026,1033	O	O
+are	1034,1037	O	O
+indicated	1038,1047	O	O
+by	1048,1050	O	O
+areas	1051,1056	O	O
+S1	1057,1059	O	O
+,	1059,1060	O	O
+S2	1061,1063	O	O
+,	1063,1064	O	O
+and	1065,1068	O	O
+S3	1069,1071	O	O
+in	1072,1074	O	O
+Fig	1075,1078	O	O
+.	1078,1079	O	O
+
+1	1080,1081	O	O
+.	1081,1082	O	O
+
+Note	1083,1087	O	O
+that	1088,1092	O	O
+the	1093,1096	O	O
+area	1097,1101	O	O
+under	1102,1107	O	O
+the	1108,1111	O	O
+outer	1112,1117	O	O
+curve	1118,1123	O	O
+is	1124,1126	O	O
+the	1127,1130	O	O
+solar	1131,1136	O	B-Process
+power	1137,1142	O	I-Process
+per	1143,1146	O	O
+unit	1147,1151	O	O
+area	1152,1156	O	O
+,	1156,1157	O	O
+and	1158,1161	O	O
+that	1162,1166	O	O
+only	1167,1171	O	O
+S4	1172,1174	O	O
+can	1175,1178	O	O
+be	1179,1181	O	O
+delivered	1182,1191	O	O
+to	1192,1194	O	O
+the	1195,1198	O	O
+load	1199,1203	O	O
+.	1203,1204	O	O
 
 
 -DOCSTART- (S1687850714000405)
 
-Xylanases	0	9	B-Material
-have	10	14	O
-potential	15	24	O
-applications	25	37	O
-in	38	40	O
-various	41	48	O
-fields	49	55	O
-.	55	56	O
-
-Some	57	61	O
-of	62	64	O
-the	65	68	O
-important	69	78	O
-applications	79	91	O
-are	92	95	O
-as	96	98	O
-fallows	99	106	O
-.	106	107	O
-
-Xylanases	108	117	B-Material
-are	118	121	O
-used	122	126	O
-as	127	129	O
-bleaching	130	139	B-Material
-agent	140	145	I-Material
-in	146	148	O
-the	149	152	O
-pulp	153	157	B-Task
-and	158	161	I-Task
-paper	162	167	I-Task
-industry	168	176	I-Task
-.	176	177	O
-
-Mostly	178	184	O
-they	185	189	O
-are	190	193	O
-used	194	198	O
-to	199	201	O
-hydrolyzed	202	212	B-Process
-the	213	216	I-Process
-xylan	217	222	I-Process
-component	223	232	I-Process
-from	233	237	O
-wood	238	242	B-Material
-which	243	248	O
-facilitate	249	259	O
-in	260	262	O
-removal	263	270	B-Process
-of	271	273	I-Process
-lignin	274	280	I-Process
-(	281	282	O
-Viikari	282	289	O
-,	289	290	O
-Kantelinen	291	301	O
-,	301	302	O
-Buchert	303	310	O
-,	310	311	O
-&	312	313	O
-Puls	314	318	O
-,	318	319	O
-1994	320	324	O
-)	324	325	O
-.	325	326	O
-
-It	327	329	O
-also	330	334	O
-helps	335	340	O
-in	341	343	O
-brightening	344	355	B-Process
-of	356	358	I-Process
-the	359	362	I-Process
-pulp	363	367	I-Process
-to	368	370	O
-avoid	371	376	O
-the	377	380	O
-chlorine	381	389	B-Process
-free	390	394	I-Process
-bleaching	395	404	I-Process
-operations	405	415	I-Process
-(	416	417	O
-Paice	417	422	O
-,	422	423	O
-Jurasek	424	431	O
-,	431	432	O
-Ho	433	435	O
-,	435	436	O
-Bourbonnais	437	448	O
-,	448	449	O
-&	450	451	O
-Archibald	452	461	O
-,	461	462	O
-1989	463	467	O
-)	467	468	O
-.	468	469	O
-
-In	470	472	O
-bakeries	473	481	O
-the	482	485	O
-xylanase	486	494	B-Material
-act	495	498	O
-on	499	501	O
-the	502	505	O
-gluten	506	512	O
-fraction	513	521	O
-of	522	524	O
-the	525	528	O
-dough	529	534	O
-and	535	538	O
-help	539	543	O
-in	544	546	O
-the	547	550	O
-even	551	555	B-Process
-redistribution	556	570	I-Process
-of	571	573	I-Process
-the	574	577	I-Process
-water	578	583	I-Process
-content	584	591	I-Process
-of	592	594	I-Process
-the	595	598	I-Process
-bread	599	604	I-Process
-(	605	606	O
-Wong	606	610	O
-&	611	612	O
-Saddler	613	620	O
-,	620	621	O
-1992	622	626	O
-)	626	627	O
-.	627	628	O
-
-Xylanases	629	638	B-Material
-also	639	643	O
-have	644	648	O
-potential	649	658	O
-application	659	670	O
-in	671	673	O
-animal	674	680	B-Task
-feed	681	685	I-Task
-industry	686	694	I-Task
-.	694	695	O
-
-They	696	700	O
-are	701	704	O
-used	705	709	O
-for	710	713	O
-the	714	717	O
-hydrolysis	718	728	B-Task
-of	729	731	I-Task
-non	732	735	I-Task
--	735	736	I-Task
-starchy	736	743	I-Task
-polysaccharides	744	759	I-Task
-such	760	764	O
-as	765	767	O
-arabinoxylan	768	780	B-Material
-in	781	783	O
-monogastric	784	795	O
-diets	796	801	O
-(	802	803	O
-Walsh	803	808	O
-,	808	809	O
-Power	810	815	O
-,	815	816	O
-&	817	818	O
-Headon	819	825	O
-,	825	826	O
-1993	827	831	O
-)	831	832	O
-.	832	833	O
-
-Xylanases	834	843	B-Material
-also	844	848	O
-play	849	853	O
-a	854	855	O
-key	856	859	O
-role	860	864	O
-in	865	867	O
-the	868	871	O
-maceration	872	882	B-Task
-of	883	885	I-Task
-vegetable	886	895	I-Task
-matter	896	902	I-Task
-(	903	904	O
-Beck	904	908	O
-&	909	910	O
-Scoot	911	916	O
-,	916	917	O
-1974	918	922	O
-)	922	923	O
-,	923	924	O
-protoplastation	925	940	B-Task
-of	941	943	I-Task
-plant	944	949	I-Task
-cells	950	955	I-Task
-,	955	956	O
-clarification	957	970	B-Task
-of	971	973	I-Task
-juices	974	980	I-Task
-and	981	984	I-Task
-wine	985	989	I-Task
-(	990	991	O
-Biely	991	996	O
-,	996	997	O
-1985	998	1002	O
-)	1002	1003	O
-liquefaction	1004	1016	B-Task
-of	1017	1019	I-Task
-coffee	1020	1026	I-Task
-mucilage	1027	1035	I-Task
-for	1036	1039	O
-making	1040	1046	B-Task
-liquid	1047	1053	I-Task
-coffee	1054	1060	I-Task
-,	1060	1061	O
-recovery	1062	1070	B-Task
-of	1071	1073	I-Task
-oil	1074	1077	I-Task
-from	1078	1082	I-Task
-subterranian	1083	1095	I-Task
-mines	1096	1101	I-Task
-,	1101	1102	O
-extraction	1103	1113	B-Task
-of	1114	1116	I-Task
-flavors	1117	1124	I-Task
-and	1125	1128	I-Task
-pigments	1129	1137	I-Task
-,	1137	1138	I-Task
-plant	1139	1144	I-Task
-oils	1145	1149	I-Task
-and	1150	1153	I-Task
-starch	1154	1160	I-Task
-(	1161	1162	O
-McCleary	1162	1170	O
-,	1170	1171	O
-1986	1172	1176	O
-)	1176	1177	O
-and	1178	1181	O
-to	1182	1184	O
-improve	1185	1192	O
-the	1193	1196	O
-efficiency	1197	1207	B-Task
-of	1208	1210	I-Task
-agricultural	1211	1223	I-Task
-silage	1224	1230	I-Task
-production	1231	1241	I-Task
-(	1242	1243	O
-Wong	1243	1247	O
-&	1248	1249	O
-Saddler	1250	1257	O
-,	1257	1258	O
-1992	1259	1263	O
-)	1263	1264	O
-.	1264	1265	O
+Xylanases	0,9	O	B-Material
+have	10,14	O	O
+potential	15,24	O	O
+applications	25,37	O	O
+in	38,40	O	O
+various	41,48	O	O
+fields	49,55	O	O
+.	55,56	O	O
+
+Some	57,61	O	O
+of	62,64	O	O
+the	65,68	O	O
+important	69,78	O	O
+applications	79,91	O	O
+are	92,95	O	O
+as	96,98	O	O
+fallows	99,106	O	O
+.	106,107	O	O
+
+Xylanases	108,117	O	B-Material
+are	118,121	O	O
+used	122,126	O	O
+as	127,129	O	O
+bleaching	130,139	O	B-Material
+agent	140,145	O	I-Material
+in	146,148	O	O
+the	149,152	O	O
+pulp	153,157	O	B-Task
+and	158,161	O	I-Task
+paper	162,167	O	I-Task
+industry	168,176	O	I-Task
+.	176,177	O	O
+
+Mostly	178,184	O	O
+they	185,189	O	O
+are	190,193	O	O
+used	194,198	O	O
+to	199,201	O	O
+hydrolyzed	202,212	O	B-Process
+the	213,216	O	I-Process
+xylan	217,222	O	I-Process
+component	223,232	O	I-Process
+from	233,237	O	O
+wood	238,242	O	B-Material
+which	243,248	O	O
+facilitate	249,259	O	O
+in	260,262	O	O
+removal	263,270	O	B-Process
+of	271,273	O	I-Process
+lignin	274,280	O	I-Process
+(	281,282	O	O
+Viikari	282,289	O	O
+,	289,290	O	O
+Kantelinen	291,301	O	O
+,	301,302	O	O
+Buchert	303,310	O	O
+,	310,311	O	O
+&	312,313	O	O
+Puls	314,318	O	O
+,	318,319	O	O
+1994	320,324	O	O
+)	324,325	O	O
+.	325,326	O	O
+
+It	327,329	O	O
+also	330,334	O	O
+helps	335,340	O	O
+in	341,343	O	O
+brightening	344,355	O	B-Process
+of	356,358	O	I-Process
+the	359,362	O	I-Process
+pulp	363,367	O	I-Process
+to	368,370	O	O
+avoid	371,376	O	O
+the	377,380	O	O
+chlorine	381,389	O	B-Process
+free	390,394	O	I-Process
+bleaching	395,404	O	I-Process
+operations	405,415	O	I-Process
+(	416,417	O	O
+Paice	417,422	O	O
+,	422,423	O	O
+Jurasek	424,431	O	O
+,	431,432	O	O
+Ho	433,435	O	O
+,	435,436	O	O
+Bourbonnais	437,448	O	O
+,	448,449	O	O
+&	450,451	O	O
+Archibald	452,461	O	O
+,	461,462	O	O
+1989	463,467	O	O
+)	467,468	O	O
+.	468,469	O	O
+
+In	470,472	O	O
+bakeries	473,481	O	O
+the	482,485	O	O
+xylanase	486,494	O	B-Material
+act	495,498	O	O
+on	499,501	O	O
+the	502,505	O	O
+gluten	506,512	O	O
+fraction	513,521	O	O
+of	522,524	O	O
+the	525,528	O	O
+dough	529,534	O	O
+and	535,538	O	O
+help	539,543	O	O
+in	544,546	O	O
+the	547,550	O	O
+even	551,555	O	B-Process
+redistribution	556,570	O	I-Process
+of	571,573	O	I-Process
+the	574,577	O	I-Process
+water	578,583	O	I-Process
+content	584,591	O	I-Process
+of	592,594	O	I-Process
+the	595,598	O	I-Process
+bread	599,604	O	I-Process
+(	605,606	O	O
+Wong	606,610	O	O
+&	611,612	O	O
+Saddler	613,620	O	O
+,	620,621	O	O
+1992	622,626	O	O
+)	626,627	O	O
+.	627,628	O	O
+
+Xylanases	629,638	O	B-Material
+also	639,643	O	O
+have	644,648	O	O
+potential	649,658	O	O
+application	659,670	O	O
+in	671,673	O	O
+animal	674,680	O	B-Task
+feed	681,685	O	I-Task
+industry	686,694	O	I-Task
+.	694,695	O	O
+
+They	696,700	O	O
+are	701,704	O	O
+used	705,709	O	O
+for	710,713	O	O
+the	714,717	O	O
+hydrolysis	718,728	O	B-Task
+of	729,731	O	I-Task
+non	732,735	O	I-Task
+-	735,736	O	I-Task
+starchy	736,743	O	I-Task
+polysaccharides	744,759	O	I-Task
+such	760,764	O	O
+as	765,767	O	O
+arabinoxylan	768,780	O	B-Material
+in	781,783	O	O
+monogastric	784,795	O	O
+diets	796,801	O	O
+(	802,803	O	O
+Walsh	803,808	O	O
+,	808,809	O	O
+Power	810,815	O	O
+,	815,816	O	O
+&	817,818	O	O
+Headon	819,825	O	O
+,	825,826	O	O
+1993	827,831	O	O
+)	831,832	O	O
+.	832,833	O	O
+
+Xylanases	834,843	O	B-Material
+also	844,848	O	O
+play	849,853	O	O
+a	854,855	O	O
+key	856,859	O	O
+role	860,864	O	O
+in	865,867	O	O
+the	868,871	O	O
+maceration	872,882	O	B-Task
+of	883,885	O	I-Task
+vegetable	886,895	O	I-Task
+matter	896,902	O	I-Task
+(	903,904	O	O
+Beck	904,908	O	O
+&	909,910	O	O
+Scoot	911,916	O	O
+,	916,917	O	O
+1974	918,922	O	O
+)	922,923	O	O
+,	923,924	O	O
+protoplastation	925,940	O	B-Task
+of	941,943	O	I-Task
+plant	944,949	O	I-Task
+cells	950,955	O	I-Task
+,	955,956	O	O
+clarification	957,970	O	B-Task
+of	971,973	O	I-Task
+juices	974,980	O	I-Task
+and	981,984	O	I-Task
+wine	985,989	O	I-Task
+(	990,991	O	O
+Biely	991,996	O	O
+,	996,997	O	O
+1985	998,1002	O	O
+)	1002,1003	O	O
+liquefaction	1004,1016	O	B-Task
+of	1017,1019	O	I-Task
+coffee	1020,1026	O	I-Task
+mucilage	1027,1035	O	I-Task
+for	1036,1039	O	O
+making	1040,1046	O	B-Task
+liquid	1047,1053	O	I-Task
+coffee	1054,1060	O	I-Task
+,	1060,1061	O	O
+recovery	1062,1070	O	B-Task
+of	1071,1073	O	I-Task
+oil	1074,1077	O	I-Task
+from	1078,1082	O	I-Task
+subterranian	1083,1095	O	I-Task
+mines	1096,1101	O	I-Task
+,	1101,1102	O	O
+extraction	1103,1113	O	B-Task
+of	1114,1116	O	I-Task
+flavors	1117,1124	O	I-Task
+and	1125,1128	O	I-Task
+pigments	1129,1137	O	I-Task
+,	1137,1138	O	I-Task
+plant	1139,1144	O	I-Task
+oils	1145,1149	O	I-Task
+and	1150,1153	O	I-Task
+starch	1154,1160	O	I-Task
+(	1161,1162	O	O
+McCleary	1162,1170	O	O
+,	1170,1171	O	O
+1986	1172,1176	O	O
+)	1176,1177	O	O
+and	1178,1181	O	O
+to	1182,1184	O	O
+improve	1185,1192	O	O
+the	1193,1196	O	O
+efficiency	1197,1207	O	B-Task
+of	1208,1210	O	I-Task
+agricultural	1211,1223	O	I-Task
+silage	1224,1230	O	I-Task
+production	1231,1241	O	I-Task
+(	1242,1243	O	O
+Wong	1243,1247	O	O
+&	1248,1249	O	O
+Saddler	1250,1257	O	O
+,	1257,1258	O	O
+1992	1259,1263	O	O
+)	1263,1264	O	O
+.	1264,1265	O	O
 
 
 -DOCSTART- (S1746809416300933)
 
-ObjectiveElectrically	0	21	B-Material
-evoked	22	28	I-Material
-auditory	29	37	I-Material
-steady	38	44	I-Material
--	44	45	I-Material
-state	45	50	I-Material
-responses	51	60	I-Material
-(	61	62	O
-EASSRs	62	68	B-Material
-)	68	69	O
-are	70	73	O
-neural	74	80	B-Material
-potentials	81	91	I-Material
-measured	92	100	O
-in	101	103	O
-the	104	107	O
-electroencephalogram	108	128	B-Process
-(	129	130	O
-EEG	130	133	B-Process
-)	133	134	O
-in	135	137	O
-response	138	146	O
-to	147	149	O
-periodic	150	158	O
-pulse	159	164	O
-trains	165	171	O
-presented	172	181	O
-,	181	182	O
-for	183	186	O
-example	187	194	O
-,	194	195	O
-through	196	203	O
-a	204	205	O
-cochlear	206	214	B-Process
-implant	215	222	I-Process
-(	223	224	O
-CI	224	226	B-Process
-)	226	227	O
-.	227	228	O
-
-EASSRs	229	235	B-Material
-could	236	241	O
-potentially	242	253	O
-be	254	256	O
-used	257	261	O
-for	262	265	O
-objective	266	275	O
-CI	276	278	B-Process
-fitting	279	286	I-Process
-.	286	287	O
-
-However	288	295	O
-,	295	296	O
-EEG	297	300	B-Process
-signals	301	308	I-Process
-are	309	312	O
-contaminated	313	325	O
-with	326	330	O
-electrical	331	341	O
-CI	342	344	B-Process
-artifacts	345	354	I-Process
-.	354	355	O
-
-In	356	358	O
-this	359	363	O
-paper	364	369	O
-,	369	370	O
-we	371	373	O
-characterized	374	387	B-Task
-the	388	391	I-Task
-CI	392	394	I-Task
-artifacts	395	404	I-Task
-for	405	408	I-Task
-monopolar	409	418	I-Task
-mode	419	423	I-Task
-stimulation	424	435	I-Task
-and	436	439	O
-evaluated	440	449	O
-at	450	452	O
-which	453	458	O
-pulse	459	464	O
-rate	465	469	O
-,	469	470	O
-linear	471	477	B-Task
-interpolation	478	491	I-Task
-over	492	496	O
-the	497	500	O
-signal	501	507	O
-part	508	512	O
-contaminated	513	525	O
-with	526	530	O
-CI	531	533	B-Process
-artifact	534	542	I-Process
-is	543	545	O
-successful	546	556	O
-.	556	557	O
-
-MethodsCI	557	566	O
-artifacts	567	576	O
-were	577	581	O
-characterized	582	595	O
-by	596	598	O
-means	599	604	O
-of	605	607	O
-their	608	613	O
-amplitude	614	623	O
-growth	624	630	O
-functions	631	640	O
-and	641	644	O
-duration	645	653	O
-.	653	654	O
-
-ResultsCI	654	663	B-Process
-artifact	664	672	I-Process
-durations	673	682	O
-were	683	687	O
-between	688	695	O
-0.7	696	699	O
-and	700	703	O
-1.7ms	704	709	O
-,	709	710	O
-at	711	713	O
-contralateral	714	727	B-Process
-recording	728	737	I-Process
-electrodes	738	748	I-Process
-.	748	749	O
-
-At	750	752	O
-ipsilateral	753	764	B-Process
-recording	765	774	I-Process
-electrodes	775	785	I-Process
-,	785	786	O
-CI	787	789	B-Process
-artifact	790	798	I-Process
-durations	799	808	O
-are	809	812	O
-range	813	818	O
-from	819	823	O
-0.7	824	827	O
-to	828	830	O
-larger	831	837	O
-than	838	842	O
-2ms	843	846	O
-.	846	847	O
-
-ConclusionAt	847	859	O
-contralateral	860	873	B-Process
-recording	874	883	I-Process
-electrodes	884	894	I-Process
-,	894	895	O
-the	896	899	O
-artifact	900	908	O
-was	909	912	O
-shorter	913	920	O
-than	921	925	O
-the	926	929	O
-interpulse	930	940	O
-interval	941	949	O
-across	950	956	O
-subjects	957	965	O
-for	966	969	O
-500pps	970	976	O
-,	976	977	O
-which	978	983	O
-was	984	987	O
-not	988	991	O
-always	992	998	O
-the	999	1002	O
-case	1003	1007	O
-for	1008	1011	O
-900pps	1012	1018	O
-.	1018	1019	O
-
-SignificanceCI	1019	1033	B-Process
-artifact	1034	1042	I-Process
--	1042	1043	O
-free	1043	1047	O
-EASSRs	1048	1054	B-Material
-are	1055	1058	O
-crucial	1059	1066	O
-for	1067	1070	O
-reliable	1071	1079	O
-CI	1080	1082	B-Process
-fitting	1083	1090	I-Process
-and	1091	1094	O
-neuroscience	1095	1107	B-Task
-research	1108	1116	I-Task
-.	1116	1117	O
-
-The	1118	1121	O
-CI	1122	1124	B-Process
-artifact	1125	1133	I-Process
-has	1134	1137	O
-been	1138	1142	O
-characterized	1143	1156	O
-and	1157	1160	O
-linear	1161	1167	B-Task
-interpolation	1168	1181	I-Task
-allows	1182	1188	O
-to	1189	1191	O
-remove	1192	1198	O
-it	1199	1201	O
-at	1202	1204	O
-contralateral	1205	1218	B-Process
-recording	1219	1228	I-Process
-electrodes	1229	1239	I-Process
-for	1240	1243	O
-stimulation	1244	1255	O
-at	1256	1258	O
-500pps	1259	1265	O
-.	1265	1266	O
+ObjectiveElectrically	0,21	O	B-Material
+evoked	22,28	O	I-Material
+auditory	29,37	O	I-Material
+steady	38,44	O	I-Material
+-	44,45	O	I-Material
+state	45,50	O	I-Material
+responses	51,60	O	I-Material
+(	61,62	O	O
+EASSRs	62,68	O	B-Material
+)	68,69	O	O
+are	70,73	O	O
+neural	74,80	O	B-Material
+potentials	81,91	O	I-Material
+measured	92,100	O	O
+in	101,103	O	O
+the	104,107	O	O
+electroencephalogram	108,128	O	B-Process
+(	129,130	O	O
+EEG	130,133	O	B-Process
+)	133,134	O	O
+in	135,137	O	O
+response	138,146	O	O
+to	147,149	O	O
+periodic	150,158	O	O
+pulse	159,164	O	O
+trains	165,171	O	O
+presented	172,181	O	O
+,	181,182	O	O
+for	183,186	O	O
+example	187,194	O	O
+,	194,195	O	O
+through	196,203	O	O
+a	204,205	O	O
+cochlear	206,214	O	B-Process
+implant	215,222	O	I-Process
+(	223,224	O	O
+CI	224,226	O	B-Process
+)	226,227	O	O
+.	227,228	O	O
+
+EASSRs	229,235	O	B-Material
+could	236,241	O	O
+potentially	242,253	O	O
+be	254,256	O	O
+used	257,261	O	O
+for	262,265	O	O
+objective	266,275	O	O
+CI	276,278	O	B-Process
+fitting	279,286	O	I-Process
+.	286,287	O	O
+
+However	288,295	O	O
+,	295,296	O	O
+EEG	297,300	O	B-Process
+signals	301,308	O	I-Process
+are	309,312	O	O
+contaminated	313,325	O	O
+with	326,330	O	O
+electrical	331,341	O	O
+CI	342,344	O	B-Process
+artifacts	345,354	O	I-Process
+.	354,355	O	O
+
+In	356,358	O	O
+this	359,363	O	O
+paper	364,369	O	O
+,	369,370	O	O
+we	371,373	O	O
+characterized	374,387	O	B-Task
+the	388,391	O	I-Task
+CI	392,394	O	I-Task
+artifacts	395,404	O	I-Task
+for	405,408	O	I-Task
+monopolar	409,418	O	I-Task
+mode	419,423	O	I-Task
+stimulation	424,435	O	I-Task
+and	436,439	O	O
+evaluated	440,449	O	O
+at	450,452	O	O
+which	453,458	O	O
+pulse	459,464	O	O
+rate	465,469	O	O
+,	469,470	O	O
+linear	471,477	O	B-Task
+interpolation	478,491	O	I-Task
+over	492,496	O	O
+the	497,500	O	O
+signal	501,507	O	O
+part	508,512	O	O
+contaminated	513,525	O	O
+with	526,530	O	O
+CI	531,533	O	B-Process
+artifact	534,542	O	I-Process
+is	543,545	O	O
+successful	546,556	O	O
+.	556,557	O	O
+
+MethodsCI	557,566	O	O
+artifacts	567,576	O	O
+were	577,581	O	O
+characterized	582,595	O	O
+by	596,598	O	O
+means	599,604	O	O
+of	605,607	O	O
+their	608,613	O	O
+amplitude	614,623	O	O
+growth	624,630	O	O
+functions	631,640	O	O
+and	641,644	O	O
+duration	645,653	O	O
+.	653,654	O	O
+
+ResultsCI	654,663	O	B-Process
+artifact	664,672	O	I-Process
+durations	673,682	O	O
+were	683,687	O	O
+between	688,695	O	O
+0.7	696,699	O	O
+and	700,703	O	O
+1.7ms	704,709	O	O
+,	709,710	O	O
+at	711,713	O	O
+contralateral	714,727	O	B-Process
+recording	728,737	O	I-Process
+electrodes	738,748	O	I-Process
+.	748,749	O	O
+
+At	750,752	O	O
+ipsilateral	753,764	O	B-Process
+recording	765,774	O	I-Process
+electrodes	775,785	O	I-Process
+,	785,786	O	O
+CI	787,789	O	B-Process
+artifact	790,798	O	I-Process
+durations	799,808	O	O
+are	809,812	O	O
+range	813,818	O	O
+from	819,823	O	O
+0.7	824,827	O	O
+to	828,830	O	O
+larger	831,837	O	O
+than	838,842	O	O
+2ms	843,846	O	O
+.	846,847	O	O
+
+ConclusionAt	847,859	O	O
+contralateral	860,873	O	B-Process
+recording	874,883	O	I-Process
+electrodes	884,894	O	I-Process
+,	894,895	O	O
+the	896,899	O	O
+artifact	900,908	O	O
+was	909,912	O	O
+shorter	913,920	O	O
+than	921,925	O	O
+the	926,929	O	O
+interpulse	930,940	O	O
+interval	941,949	O	O
+across	950,956	O	O
+subjects	957,965	O	O
+for	966,969	O	O
+500pps	970,976	O	O
+,	976,977	O	O
+which	978,983	O	O
+was	984,987	O	O
+not	988,991	O	O
+always	992,998	O	O
+the	999,1002	O	O
+case	1003,1007	O	O
+for	1008,1011	O	O
+900pps	1012,1018	O	O
+.	1018,1019	O	O
+
+SignificanceCI	1019,1033	O	B-Process
+artifact	1034,1042	O	I-Process
+-	1042,1043	O	O
+free	1043,1047	O	O
+EASSRs	1048,1054	O	B-Material
+are	1055,1058	O	O
+crucial	1059,1066	O	O
+for	1067,1070	O	O
+reliable	1071,1079	O	O
+CI	1080,1082	O	B-Process
+fitting	1083,1090	O	I-Process
+and	1091,1094	O	O
+neuroscience	1095,1107	O	B-Task
+research	1108,1116	O	I-Task
+.	1116,1117	O	O
+
+The	1118,1121	O	O
+CI	1122,1124	O	B-Process
+artifact	1125,1133	O	I-Process
+has	1134,1137	O	O
+been	1138,1142	O	O
+characterized	1143,1156	O	O
+and	1157,1160	O	O
+linear	1161,1167	O	B-Task
+interpolation	1168,1181	O	I-Task
+allows	1182,1188	O	O
+to	1189,1191	O	O
+remove	1192,1198	O	O
+it	1199,1201	O	O
+at	1202,1204	O	O
+contralateral	1205,1218	O	B-Process
+recording	1219,1228	O	I-Process
+electrodes	1229,1239	O	I-Process
+for	1240,1243	O	O
+stimulation	1244,1255	O	O
+at	1256,1258	O	O
+500pps	1259,1265	O	O
+.	1265,1266	O	O
 
 
 -DOCSTART- (S1877750311000676)
 
-One	0	3	O
-way	4	7	O
-to	8	10	O
-enforce	11	18	O
-this	19	23	O
-ratio	24	29	O
-is	30	32	O
-to	33	35	O
-use	36	39	O
-a	40	41	O
-probabilistic	42	55	B-Process
-,	55	56	I-Process
-‘	57	58	I-Process
-roulette	58	66	I-Process
-wheel’	67	73	I-Process
-style	74	79	I-Process
-lane	80	84	B-Task
-selection	85	94	I-Task
-policy	95	101	I-Task
-.	101	102	O
-
-VISSIM	103	109	B-Process
-,	109	110	O
-along	111	116	O
-with	117	121	O
-most	122	126	O
-simulation	127	137	B-Process
-toolkits	138	146	I-Process
-,	146	147	O
-offers	148	154	O
-methods	155	162	O
-to	163	165	O
-specify	166	173	O
-probabilistic	174	187	B-Process
-routing	188	195	I-Process
-whereby	196	203	O
-a	204	205	O
-defined	206	213	O
-percentage	214	224	O
-of	225	227	O
-vehicles	228	236	O
-are	237	240	O
-sent	241	245	O
-down	246	250	O
-unique	251	257	O
-routes	258	264	O
-.	264	265	O
-
-This	266	270	O
-is	271	273	O
-a	274	275	O
-piecewise	276	285	B-Process
-technique	286	295	I-Process
-that	296	300	O
-can	301	304	O
-be	305	307	O
-reapplied	308	317	O
-at	318	320	O
-various	321	328	O
-locations	329	338	O
-around	339	345	O
-a	346	347	O
-simulation	348	358	B-Process
-.	358	359	O
-
-While	360	365	O
-these	366	371	O
-methods	372	379	O
-are	380	383	O
-attractive	384	394	O
-from	395	399	O
-a	400	401	O
-calibration	402	413	O
-perspective	414	425	O
-as	426	428	O
-exact	429	434	O
-representations	435	450	O
-of	451	453	O
-existing	454	462	O
-statistics	463	473	O
-can	474	477	O
-be	478	480	O
-ensured	481	488	O
-,	488	489	O
-the	490	493	O
-process	494	501	O
-is	502	504	O
-an	505	507	O
-unrealistic	508	519	O
-one	520	523	O
-as	524	526	O
-it	527	529	O
-assumes	530	537	O
-that	538	542	O
-drivers	543	550	B-Material
-make	551	555	O
-probabilistic	556	569	O
-decisions	570	579	O
-at	580	582	O
-precise	583	590	O
-locations	591	600	O
-.	600	601	O
-
-So	602	604	O
-in	605	607	O
-this	608	612	O
-case	613	617	O
-when	618	622	O
-a	623	624	O
-vehicle	625	632	B-Material
-arrives	633	640	O
-at	641	643	O
-a	644	645	O
-point	646	651	O
-prior	652	657	O
-to	658	660	O
-the	661	664	O
-weighbridges	665	677	B-Material
-it	678	680	O
-is	681	683	O
-allocated	684	693	O
-one	694	697	O
-of	698	700	O
-the	701	704	O
-lanes	705	710	O
-based	711	716	O
-on	717	719	O
-the	720	723	O
-respective	724	734	O
-probabilities	735	748	O
-.	748	749	O
-
-It	750	752	O
-turns	753	758	O
-out	759	762	O
-that	763	767	O
-this	768	772	O
-method	773	779	O
-leads	780	785	O
-to	786	788	O
-significant	789	800	O
-variations	801	811	O
-in	812	814	O
-trip	815	819	O
-times	820	825	O
-depending	826	835	O
-on	836	838	O
-the	839	842	O
-initial	843	850	O
-random	851	857	O
-number	858	864	O
-seed	865	869	O
-,	869	870	O
-this	871	875	O
-can	876	879	O
-be	880	882	O
-seen	883	887	O
-in	888	890	O
-a	891	892	O
-graphic	893	900	O
-of	901	903	O
-the	904	907	O
-key	908	911	O
-areas	912	917	O
-of	918	920	O
-the	921	924	O
-simulation	925	935	O
-for	936	939	O
-the	940	943	O
-2	944	945	O
-different	946	955	O
-runs	956	960	O
-(	961	962	O
-Fig	962	965	O
-.	965	966	O
-
-7	967	968	O
-)	968	969	O
-.	969	970	O
-
-One	971	974	O
-of	975	977	O
-the	978	981	O
-benefits	982	990	O
-of	991	993	O
-graphical	994	1003	B-Process
-microsimulation	1004	1019	I-Process
-is	1020	1022	O
-that	1023	1027	O
-the	1028	1031	O
-2D	1032	1034	B-Process
-and	1035	1038	I-Process
-3D	1039	1041	I-Process
-simulations	1042	1053	I-Process
-help	1054	1058	O
-the	1059	1062	O
-researcher	1063	1073	O
-to	1074	1076	O
-visualise	1077	1086	O
-a	1087	1088	O
-new	1089	1092	O
-scheme	1093	1099	O
-and	1100	1103	O
-its	1104	1107	O
-potential	1108	1117	O
-benefits	1118	1126	O
-but	1127	1130	O
-also	1131	1135	O
-to	1136	1138	O
-highlight	1139	1148	O
-unrealistic	1149	1160	O
-behaviour	1161	1170	O
-.	1170	1171	O
-
-Fig	1172	1175	O
-.	1175	1176	O
-
-7	1177	1178	O
-shows	1179	1184	O
-the	1185	1188	O
-congestion	1189	1199	O
-at	1200	1202	O
-the	1203	1206	O
-decision	1207	1215	O
-point	1216	1221	O
-for	1222	1225	O
-2	1226	1227	O
-different	1228	1237	O
-runs	1238	1242	O
-.	1242	1243	O
-
-Using	1244	1249	O
-probabilistic	1250	1263	B-Process
-routing	1264	1271	I-Process
-to	1272	1274	O
-enforce	1275	1282	O
-correct	1283	1290	O
-routing	1291	1298	O
-percentages	1299	1310	O
-is	1311	1313	O
-a	1314	1315	O
-clear	1316	1321	O
-case	1322	1326	O
-of	1327	1329	O
-overcalibration	1330	1345	O
-affecting	1346	1355	O
-simulation	1356	1366	B-Process
-brittleness	1367	1378	O
-.	1378	1379	O
+One	0,3	O	O
+way	4,7	O	O
+to	8,10	O	O
+enforce	11,18	O	O
+this	19,23	O	O
+ratio	24,29	O	O
+is	30,32	O	O
+to	33,35	O	O
+use	36,39	O	O
+a	40,41	O	O
+probabilistic	42,55	O	B-Process
+,	55,56	O	I-Process
+‘	57,58	O	I-Process
+roulette	58,66	O	I-Process
+wheel’	67,73	O	I-Process
+style	74,79	O	I-Process
+lane	80,84	O	B-Task
+selection	85,94	O	I-Task
+policy	95,101	O	I-Task
+.	101,102	O	O
+
+VISSIM	103,109	O	B-Process
+,	109,110	O	O
+along	111,116	O	O
+with	117,121	O	O
+most	122,126	O	O
+simulation	127,137	O	B-Process
+toolkits	138,146	O	I-Process
+,	146,147	O	O
+offers	148,154	O	O
+methods	155,162	O	O
+to	163,165	O	O
+specify	166,173	O	O
+probabilistic	174,187	O	B-Process
+routing	188,195	O	I-Process
+whereby	196,203	O	O
+a	204,205	O	O
+defined	206,213	O	O
+percentage	214,224	O	O
+of	225,227	O	O
+vehicles	228,236	O	O
+are	237,240	O	O
+sent	241,245	O	O
+down	246,250	O	O
+unique	251,257	O	O
+routes	258,264	O	O
+.	264,265	O	O
+
+This	266,270	O	O
+is	271,273	O	O
+a	274,275	O	O
+piecewise	276,285	O	B-Process
+technique	286,295	O	I-Process
+that	296,300	O	O
+can	301,304	O	O
+be	305,307	O	O
+reapplied	308,317	O	O
+at	318,320	O	O
+various	321,328	O	O
+locations	329,338	O	O
+around	339,345	O	O
+a	346,347	O	O
+simulation	348,358	O	B-Process
+.	358,359	O	O
+
+While	360,365	O	O
+these	366,371	O	O
+methods	372,379	O	O
+are	380,383	O	O
+attractive	384,394	O	O
+from	395,399	O	O
+a	400,401	O	O
+calibration	402,413	O	O
+perspective	414,425	O	O
+as	426,428	O	O
+exact	429,434	O	O
+representations	435,450	O	O
+of	451,453	O	O
+existing	454,462	O	O
+statistics	463,473	O	O
+can	474,477	O	O
+be	478,480	O	O
+ensured	481,488	O	O
+,	488,489	O	O
+the	490,493	O	O
+process	494,501	O	O
+is	502,504	O	O
+an	505,507	O	O
+unrealistic	508,519	O	O
+one	520,523	O	O
+as	524,526	O	O
+it	527,529	O	O
+assumes	530,537	O	O
+that	538,542	O	O
+drivers	543,550	O	B-Material
+make	551,555	O	O
+probabilistic	556,569	O	O
+decisions	570,579	O	O
+at	580,582	O	O
+precise	583,590	O	O
+locations	591,600	O	O
+.	600,601	O	O
+
+So	602,604	O	O
+in	605,607	O	O
+this	608,612	O	O
+case	613,617	O	O
+when	618,622	O	O
+a	623,624	O	O
+vehicle	625,632	O	B-Material
+arrives	633,640	O	O
+at	641,643	O	O
+a	644,645	O	O
+point	646,651	O	O
+prior	652,657	O	O
+to	658,660	O	O
+the	661,664	O	O
+weighbridges	665,677	O	B-Material
+it	678,680	O	O
+is	681,683	O	O
+allocated	684,693	O	O
+one	694,697	O	O
+of	698,700	O	O
+the	701,704	O	O
+lanes	705,710	O	O
+based	711,716	O	O
+on	717,719	O	O
+the	720,723	O	O
+respective	724,734	O	O
+probabilities	735,748	O	O
+.	748,749	O	O
+
+It	750,752	O	O
+turns	753,758	O	O
+out	759,762	O	O
+that	763,767	O	O
+this	768,772	O	O
+method	773,779	O	O
+leads	780,785	O	O
+to	786,788	O	O
+significant	789,800	O	O
+variations	801,811	O	O
+in	812,814	O	O
+trip	815,819	O	O
+times	820,825	O	O
+depending	826,835	O	O
+on	836,838	O	O
+the	839,842	O	O
+initial	843,850	O	O
+random	851,857	O	O
+number	858,864	O	O
+seed	865,869	O	O
+,	869,870	O	O
+this	871,875	O	O
+can	876,879	O	O
+be	880,882	O	O
+seen	883,887	O	O
+in	888,890	O	O
+a	891,892	O	O
+graphic	893,900	O	O
+of	901,903	O	O
+the	904,907	O	O
+key	908,911	O	O
+areas	912,917	O	O
+of	918,920	O	O
+the	921,924	O	O
+simulation	925,935	O	O
+for	936,939	O	O
+the	940,943	O	O
+2	944,945	O	O
+different	946,955	O	O
+runs	956,960	O	O
+(	961,962	O	O
+Fig	962,965	O	O
+.	965,966	O	O
+
+7	967,968	O	O
+)	968,969	O	O
+.	969,970	O	O
+
+One	971,974	O	O
+of	975,977	O	O
+the	978,981	O	O
+benefits	982,990	O	O
+of	991,993	O	O
+graphical	994,1003	O	B-Process
+microsimulation	1004,1019	O	I-Process
+is	1020,1022	O	O
+that	1023,1027	O	O
+the	1028,1031	O	O
+2D	1032,1034	O	B-Process
+and	1035,1038	O	I-Process
+3D	1039,1041	O	I-Process
+simulations	1042,1053	O	I-Process
+help	1054,1058	O	O
+the	1059,1062	O	O
+researcher	1063,1073	O	O
+to	1074,1076	O	O
+visualise	1077,1086	O	O
+a	1087,1088	O	O
+new	1089,1092	O	O
+scheme	1093,1099	O	O
+and	1100,1103	O	O
+its	1104,1107	O	O
+potential	1108,1117	O	O
+benefits	1118,1126	O	O
+but	1127,1130	O	O
+also	1131,1135	O	O
+to	1136,1138	O	O
+highlight	1139,1148	O	O
+unrealistic	1149,1160	O	O
+behaviour	1161,1170	O	O
+.	1170,1171	O	O
+
+Fig	1172,1175	O	O
+.	1175,1176	O	O
+
+7	1177,1178	O	O
+shows	1179,1184	O	O
+the	1185,1188	O	O
+congestion	1189,1199	O	O
+at	1200,1202	O	O
+the	1203,1206	O	O
+decision	1207,1215	O	O
+point	1216,1221	O	O
+for	1222,1225	O	O
+2	1226,1227	O	O
+different	1228,1237	O	O
+runs	1238,1242	O	O
+.	1242,1243	O	O
+
+Using	1244,1249	O	O
+probabilistic	1250,1263	O	B-Process
+routing	1264,1271	O	I-Process
+to	1272,1274	O	O
+enforce	1275,1282	O	O
+correct	1283,1290	O	O
+routing	1291,1298	O	O
+percentages	1299,1310	O	O
+is	1311,1313	O	O
+a	1314,1315	O	O
+clear	1316,1321	O	O
+case	1322,1326	O	O
+of	1327,1329	O	O
+overcalibration	1330,1345	O	O
+affecting	1346,1355	O	O
+simulation	1356,1366	O	B-Process
+brittleness	1367,1378	O	O
+.	1378,1379	O	O
 
 
 -DOCSTART- (S1877750313000240)
 
-A	0	1	O
-few	2	5	O
-studies	6	13	O
-within	14	20	O
-the	21	24	O
-physiological	25	38	O
-domain	39	45	O
-are	46	49	O
-of	50	52	O
-special	53	60	O
-relevance	61	70	O
-to	71	73	O
-this	74	78	O
-work	79	83	O
-.	83	84	O
-
-These	85	90	O
-include	91	98	O
-a	99	100	O
-performance	101	112	O
-analysis	113	121	O
-of	122	124	O
-a	125	126	O
-blood	127	132	B-Process
--	132	133	I-Process
-flow	133	137	I-Process
-LB	138	140	I-Process
-solver	141	147	I-Process
-using	148	153	O
-a	154	155	O
-range	156	161	O
-of	162	164	O
-sparse	165	171	O
-and	172	175	O
-non	176	179	O
--	179	180	O
-sparse	180	186	O
-geometries	187	197	O
-[	198	199	O
-21	199	201	O
-]	201	202	O
-and	203	206	O
-a	207	208	O
-performance	209	220	B-Process
-prediction	221	231	I-Process
-model	232	237	I-Process
-for	238	241	O
-lattice	242	249	B-Process
--	249	250	I-Process
-Boltzmann	250	259	I-Process
-solvers	260	267	I-Process
-[	268	269	O
-22,23	269	274	O
-]	274	275	O
-.	275	276	O
-
-This	277	281	O
-performance	282	293	B-Process
-prediction	294	304	I-Process
-model	305	310	I-Process
-can	311	314	O
-be	315	317	O
-applied	318	325	O
-largely	326	333	O
-to	334	336	O
-our	337	340	O
-HemeLB	341	347	B-Process
-application	348	359	I-Process
-,	359	360	O
-although	361	369	O
-HemeLB	370	376	B-Process
-uses	377	381	O
-a	382	383	O
-different	384	393	O
-decomposition	394	407	O
-technique	408	417	O
-and	418	421	O
-performs	422	430	O
-real	431	435	O
--	435	436	O
-time	436	440	O
-rendering	441	450	O
-and	451	454	O
-visualisation	455	468	O
-tasks	469	474	O
-during	475	481	O
-the	482	485	O
-LB	486	488	B-Process
-simulations	489	500	I-Process
-.	500	501	O
-
-Mazzeo	502	508	O
-and	509	512	O
-Coveney	513	520	O
-[	521	522	O
-1	522	523	O
-]	523	524	O
-studied	525	532	O
-the	533	536	O
-scalability	537	548	O
-of	549	551	O
-an	552	554	O
-earlier	555	562	O
-version	563	570	O
-of	571	573	O
-HemeLB	574	580	B-Process
-.	580	581	O
-
-However	582	589	O
-,	589	590	O
-the	591	594	O
-current	595	602	O
-performance	603	614	O
-characteristics	615	630	O
-of	631	633	O
-HemeLB	634	640	B-Process
-are	641	644	O
-substantially	645	658	O
-enhanced	659	667	O
-due	668	671	O
-to	672	674	O
-numerous	675	683	O
-subsequent	684	694	O
-advances	695	703	O
-in	704	706	O
-the	707	710	O
-code	711	715	O
-,	715	716	O
-amongst	717	724	O
-others	725	731	O
-:	731	732	O
-an	733	735	O
-improved	736	744	O
-hierarchical	745	757	O
-,	757	758	O
-compressed	759	769	O
-file	770	774	O
-format	775	781	O
-;	781	782	O
-the	783	786	O
-use	787	790	O
-of	791	793	O
-ParMETIS	794	802	B-Material
-to	803	805	O
-ensure	806	812	O
-good	813	817	O
-load	818	822	O
--	822	823	O
-balance	823	830	O
-;	830	831	O
-the	832	835	O
-coalesced	836	845	B-Process
-communication	846	859	I-Process
-patterns	860	868	I-Process
-to	869	871	O
-reduce	872	878	O
-the	879	882	O
-overhead	883	891	O
-of	892	894	O
-rendering	895	904	B-Process
-;	904	905	O
-use	906	909	O
-of	910	912	O
-compile	913	920	B-Process
--	920	921	I-Process
-time	921	925	I-Process
-polymorphism	926	938	I-Process
-to	939	941	O
-avoid	942	947	O
-virtual	948	955	O
-function	956	964	O
-calls	965	970	O
-in	971	973	O
-inner	974	979	O
-loops	980	985	O
-.	985	986	O
+A	0,1	O	O
+few	2,5	O	O
+studies	6,13	O	O
+within	14,20	O	O
+the	21,24	O	O
+physiological	25,38	O	O
+domain	39,45	O	O
+are	46,49	O	O
+of	50,52	O	O
+special	53,60	O	O
+relevance	61,70	O	O
+to	71,73	O	O
+this	74,78	O	O
+work	79,83	O	O
+.	83,84	O	O
+
+These	85,90	O	O
+include	91,98	O	O
+a	99,100	O	O
+performance	101,112	O	O
+analysis	113,121	O	O
+of	122,124	O	O
+a	125,126	O	O
+blood	127,132	O	B-Process
+-	132,133	O	I-Process
+flow	133,137	O	I-Process
+LB	138,140	O	I-Process
+solver	141,147	O	I-Process
+using	148,153	O	O
+a	154,155	O	O
+range	156,161	O	O
+of	162,164	O	O
+sparse	165,171	O	O
+and	172,175	O	O
+non	176,179	O	O
+-	179,180	O	O
+sparse	180,186	O	O
+geometries	187,197	O	O
+[	198,199	O	O
+21	199,201	O	O
+]	201,202	O	O
+and	203,206	O	O
+a	207,208	O	O
+performance	209,220	O	B-Process
+prediction	221,231	O	I-Process
+model	232,237	O	I-Process
+for	238,241	O	O
+lattice	242,249	O	B-Process
+-	249,250	O	I-Process
+Boltzmann	250,259	O	I-Process
+solvers	260,267	O	I-Process
+[	268,269	O	O
+22,23	269,274	O	O
+]	274,275	O	O
+.	275,276	O	O
+
+This	277,281	O	O
+performance	282,293	O	B-Process
+prediction	294,304	O	I-Process
+model	305,310	O	I-Process
+can	311,314	O	O
+be	315,317	O	O
+applied	318,325	O	O
+largely	326,333	O	O
+to	334,336	O	O
+our	337,340	O	O
+HemeLB	341,347	O	B-Process
+application	348,359	O	I-Process
+,	359,360	O	O
+although	361,369	O	O
+HemeLB	370,376	O	B-Process
+uses	377,381	O	O
+a	382,383	O	O
+different	384,393	O	O
+decomposition	394,407	O	O
+technique	408,417	O	O
+and	418,421	O	O
+performs	422,430	O	O
+real	431,435	O	O
+-	435,436	O	O
+time	436,440	O	O
+rendering	441,450	O	O
+and	451,454	O	O
+visualisation	455,468	O	O
+tasks	469,474	O	O
+during	475,481	O	O
+the	482,485	O	O
+LB	486,488	O	B-Process
+simulations	489,500	O	I-Process
+.	500,501	O	O
+
+Mazzeo	502,508	O	O
+and	509,512	O	O
+Coveney	513,520	O	O
+[	521,522	O	O
+1	522,523	O	O
+]	523,524	O	O
+studied	525,532	O	O
+the	533,536	O	O
+scalability	537,548	O	O
+of	549,551	O	O
+an	552,554	O	O
+earlier	555,562	O	O
+version	563,570	O	O
+of	571,573	O	O
+HemeLB	574,580	O	B-Process
+.	580,581	O	O
+
+However	582,589	O	O
+,	589,590	O	O
+the	591,594	O	O
+current	595,602	O	O
+performance	603,614	O	O
+characteristics	615,630	O	O
+of	631,633	O	O
+HemeLB	634,640	O	B-Process
+are	641,644	O	O
+substantially	645,658	O	O
+enhanced	659,667	O	O
+due	668,671	O	O
+to	672,674	O	O
+numerous	675,683	O	O
+subsequent	684,694	O	O
+advances	695,703	O	O
+in	704,706	O	O
+the	707,710	O	O
+code	711,715	O	O
+,	715,716	O	O
+amongst	717,724	O	O
+others	725,731	O	O
+:	731,732	O	O
+an	733,735	O	O
+improved	736,744	O	O
+hierarchical	745,757	O	O
+,	757,758	O	O
+compressed	759,769	O	O
+file	770,774	O	O
+format	775,781	O	O
+;	781,782	O	O
+the	783,786	O	O
+use	787,790	O	O
+of	791,793	O	O
+ParMETIS	794,802	O	B-Material
+to	803,805	O	O
+ensure	806,812	O	O
+good	813,817	O	O
+load	818,822	O	O
+-	822,823	O	O
+balance	823,830	O	O
+;	830,831	O	O
+the	832,835	O	O
+coalesced	836,845	O	B-Process
+communication	846,859	O	I-Process
+patterns	860,868	O	I-Process
+to	869,871	O	O
+reduce	872,878	O	O
+the	879,882	O	O
+overhead	883,891	O	O
+of	892,894	O	O
+rendering	895,904	O	B-Process
+;	904,905	O	O
+use	906,909	O	O
+of	910,912	O	O
+compile	913,920	O	B-Process
+-	920,921	O	I-Process
+time	921,925	O	I-Process
+polymorphism	926,938	O	I-Process
+to	939,941	O	O
+avoid	942,947	O	O
+virtual	948,955	O	O
+function	956,964	O	O
+calls	965,970	O	O
+in	971,973	O	O
+inner	974,979	O	O
+loops	980,985	O	O
+.	985,986	O	O
 
 
 -DOCSTART- (S187775031300077X)
 
-Although	0	8	O
-mean	9	13	B-Process
--	13	14	I-Process
-field	14	19	I-Process
-models	20	26	I-Process
-have	27	31	O
-been	32	36	O
-used	37	41	O
-in	42	44	O
-all	45	48	O
-these	49	54	O
-settings	55	63	O
-,	63	64	O
-little	65	71	O
-analysis	72	80	O
-has	81	84	O
-been	85	89	O
-done	90	94	O
-on	95	97	O
-their	98	103	O
-behaviour	104	113	O
-as	114	116	O
-spatially	117	126	B-Task
-extended	127	135	I-Task
-dynamical	136	145	I-Task
-systems	146	153	I-Task
-.	153	154	O
-
-In	155	157	O
-part	158	162	O
-,	162	163	O
-this	164	168	O
-is	169	171	O
-due	172	175	O
-to	176	178	O
-their	179	184	O
-staggering	185	195	O
-complexity	196	206	O
-.	206	207	O
-
-The	208	211	O
-Liley	212	217	B-Process
-model	218	223	I-Process
-[	224	225	O
-15	225	227	O
-]	227	228	O
-considered	229	239	O
-here	240	244	O
-,	244	245	O
-for	246	249	O
-instance	250	258	O
-,	258	259	O
-consists	260	268	O
-of	269	271	O
-fourteen	272	280	O
-coupled	281	288	O
-Partial	289	296	B-Material
-Differential	297	309	I-Material
-Equations	310	319	I-Material
-(	320	321	O
-PDEs	321	325	B-Material
-)	325	326	O
-with	327	331	O
-strong	332	338	O
-nonlinearities	339	353	O
-,	353	354	O
-imposed	355	362	O
-by	363	365	O
-coupling	366	374	O
-between	375	382	O
-the	383	386	O
-mean	387	391	O
-membrane	392	400	B-Material
-potentials	401	411	I-Material
-and	412	415	O
-the	416	419	O
-mean	420	424	O
-synaptic	425	433	B-Material
-inputs	434	440	I-Material
-.	440	441	O
-
-The	442	445	O
-model	446	451	O
-can	452	455	O
-be	456	458	O
-reduced	459	466	O
-to	467	469	O
-a	470	471	O
-system	472	478	O
-of	479	481	O
-Ordinary	482	490	B-Material
-Differential	491	503	I-Material
-Equations	504	513	I-Material
-(	514	515	O
-ODEs	515	519	B-Material
-)	519	520	O
-by	521	523	O
-considering	524	535	O
-only	536	540	O
-spatially	541	550	O
-homogeneous	551	562	O
-solutions	563	572	O
-,	572	573	O
-and	574	577	O
-the	578	581	O
-resulting	582	591	O
-system	592	598	O
-has	599	602	O
-been	603	607	O
-examined	608	616	O
-in	617	619	O
-detail	620	626	O
-using	627	632	O
-numerical	633	642	B-Process
-bifurcation	643	654	I-Process
-analysis	655	663	I-Process
-(	664	665	O
-see	665	668	O
-[	669	670	O
-16	670	672	O
-]	672	673	O
-and	674	677	O
-references	678	688	O
-therein	689	696	O
-)	696	697	O
-.	697	698	O
-
-In	699	701	O
-order	702	707	O
-to	708	710	O
-compute	711	718	O
-equilibria	719	729	O
-,	729	730	O
-periodic	731	739	O
-orbits	740	746	O
-and	747	750	O
-such	751	755	O
-objects	756	763	O
-for	764	767	O
-the	768	771	O
-PDE	772	775	B-Material
-model	776	781	I-Material
-,	781	782	O
-we	783	785	O
-need	786	790	O
-a	791	792	O
-flexible	793	801	O
-,	801	802	O
-stable	803	809	O
-simulation	810	820	O
-code	821	825	O
-for	826	829	O
-the	830	833	O
-model	834	839	O
-and	840	843	O
-its	844	847	O
-linearization	848	861	O
-that	862	866	O
-can	867	870	O
-run	871	874	O
-in	875	877	O
-parallel	878	886	O
-to	887	889	O
-scale	890	895	O
-up	896	898	O
-to	899	901	O
-a	902	903	O
-domain	904	910	O
-size	911	915	O
-of	916	918	O
-about	919	924	O
-2500cm2	925	932	O
-,	932	933	O
-the	934	937	O
-size	938	942	O
-of	943	945	O
-a	946	947	O
-full	948	952	O
--	952	953	O
-grown	953	958	O
-human	959	964	O
-cortex	965	971	O
-.	971	972	O
-
-We	973	975	O
-also	976	980	O
-need	981	985	O
-efficient	986	995	B-Task
-,	995	996	I-Task
-iterative	997	1006	I-Task
-solvers	1007	1014	I-Task
-for	1015	1018	I-Task
-linear	1019	1025	I-Task
-problems	1026	1034	I-Task
-with	1035	1039	I-Task
-large	1040	1045	I-Task
-,	1045	1046	I-Task
-sparse	1047	1053	I-Task
-matrices	1054	1062	I-Task
-.	1062	1063	O
-
-In	1064	1066	O
-this	1067	1071	O
-paper	1072	1077	O
-,	1077	1078	O
-we	1079	1081	O
-will	1082	1086	O
-show	1087	1091	O
-that	1092	1096	O
-all	1097	1100	O
-this	1101	1105	O
-can	1106	1109	O
-be	1110	1112	O
-accomplished	1113	1125	O
-in	1126	1128	O
-the	1129	1132	O
-open	1133	1137	O
--	1137	1138	O
-source	1138	1144	O
-software	1145	1153	O
-package	1154	1161	O
-PETSc	1162	1167	B-Material
-[	1168	1169	O
-17	1169	1171	O
-]	1171	1172	O
-.	1172	1173	O
-
-Our	1174	1177	O
-implementation	1178	1192	O
-consists	1193	1201	O
-of	1202	1204	O
-a	1205	1206	O
-number	1207	1213	O
-of	1214	1216	O
-functions	1217	1226	O
-in	1227	1229	O
-C	1230	1231	O
-that	1232	1236	O
-are	1237	1240	O
-available	1241	1250	O
-publicly	1251	1259	O
-[	1260	1261	O
-18	1261	1263	O
-]	1263	1264	O
-.	1264	1265	O
+Although	0,8	O	O
+mean	9,13	O	B-Process
+-	13,14	O	I-Process
+field	14,19	O	I-Process
+models	20,26	O	I-Process
+have	27,31	O	O
+been	32,36	O	O
+used	37,41	O	O
+in	42,44	O	O
+all	45,48	O	O
+these	49,54	O	O
+settings	55,63	O	O
+,	63,64	O	O
+little	65,71	O	O
+analysis	72,80	O	O
+has	81,84	O	O
+been	85,89	O	O
+done	90,94	O	O
+on	95,97	O	O
+their	98,103	O	O
+behaviour	104,113	O	O
+as	114,116	O	O
+spatially	117,126	O	B-Task
+extended	127,135	O	I-Task
+dynamical	136,145	O	I-Task
+systems	146,153	O	I-Task
+.	153,154	O	O
+
+In	155,157	O	O
+part	158,162	O	O
+,	162,163	O	O
+this	164,168	O	O
+is	169,171	O	O
+due	172,175	O	O
+to	176,178	O	O
+their	179,184	O	O
+staggering	185,195	O	O
+complexity	196,206	O	O
+.	206,207	O	O
+
+The	208,211	O	O
+Liley	212,217	O	B-Process
+model	218,223	O	I-Process
+[	224,225	O	O
+15	225,227	O	O
+]	227,228	O	O
+considered	229,239	O	O
+here	240,244	O	O
+,	244,245	O	O
+for	246,249	O	O
+instance	250,258	O	O
+,	258,259	O	O
+consists	260,268	O	O
+of	269,271	O	O
+fourteen	272,280	O	O
+coupled	281,288	O	O
+Partial	289,296	O	B-Material
+Differential	297,309	O	I-Material
+Equations	310,319	O	I-Material
+(	320,321	O	O
+PDEs	321,325	O	B-Material
+)	325,326	O	O
+with	327,331	O	O
+strong	332,338	O	O
+nonlinearities	339,353	O	O
+,	353,354	O	O
+imposed	355,362	O	O
+by	363,365	O	O
+coupling	366,374	O	O
+between	375,382	O	O
+the	383,386	O	O
+mean	387,391	O	O
+membrane	392,400	O	B-Material
+potentials	401,411	O	I-Material
+and	412,415	O	O
+the	416,419	O	O
+mean	420,424	O	O
+synaptic	425,433	O	B-Material
+inputs	434,440	O	I-Material
+.	440,441	O	O
+
+The	442,445	O	O
+model	446,451	O	O
+can	452,455	O	O
+be	456,458	O	O
+reduced	459,466	O	O
+to	467,469	O	O
+a	470,471	O	O
+system	472,478	O	O
+of	479,481	O	O
+Ordinary	482,490	O	B-Material
+Differential	491,503	O	I-Material
+Equations	504,513	O	I-Material
+(	514,515	O	O
+ODEs	515,519	O	B-Material
+)	519,520	O	O
+by	521,523	O	O
+considering	524,535	O	O
+only	536,540	O	O
+spatially	541,550	O	O
+homogeneous	551,562	O	O
+solutions	563,572	O	O
+,	572,573	O	O
+and	574,577	O	O
+the	578,581	O	O
+resulting	582,591	O	O
+system	592,598	O	O
+has	599,602	O	O
+been	603,607	O	O
+examined	608,616	O	O
+in	617,619	O	O
+detail	620,626	O	O
+using	627,632	O	O
+numerical	633,642	O	B-Process
+bifurcation	643,654	O	I-Process
+analysis	655,663	O	I-Process
+(	664,665	O	O
+see	665,668	O	O
+[	669,670	O	O
+16	670,672	O	O
+]	672,673	O	O
+and	674,677	O	O
+references	678,688	O	O
+therein	689,696	O	O
+)	696,697	O	O
+.	697,698	O	O
+
+In	699,701	O	O
+order	702,707	O	O
+to	708,710	O	O
+compute	711,718	O	O
+equilibria	719,729	O	O
+,	729,730	O	O
+periodic	731,739	O	O
+orbits	740,746	O	O
+and	747,750	O	O
+such	751,755	O	O
+objects	756,763	O	O
+for	764,767	O	O
+the	768,771	O	O
+PDE	772,775	O	B-Material
+model	776,781	O	I-Material
+,	781,782	O	O
+we	783,785	O	O
+need	786,790	O	O
+a	791,792	O	O
+flexible	793,801	O	O
+,	801,802	O	O
+stable	803,809	O	O
+simulation	810,820	O	O
+code	821,825	O	O
+for	826,829	O	O
+the	830,833	O	O
+model	834,839	O	O
+and	840,843	O	O
+its	844,847	O	O
+linearization	848,861	O	O
+that	862,866	O	O
+can	867,870	O	O
+run	871,874	O	O
+in	875,877	O	O
+parallel	878,886	O	O
+to	887,889	O	O
+scale	890,895	O	O
+up	896,898	O	O
+to	899,901	O	O
+a	902,903	O	O
+domain	904,910	O	O
+size	911,915	O	O
+of	916,918	O	O
+about	919,924	O	O
+2500cm2	925,932	O	O
+,	932,933	O	O
+the	934,937	O	O
+size	938,942	O	O
+of	943,945	O	O
+a	946,947	O	O
+full	948,952	O	O
+-	952,953	O	O
+grown	953,958	O	O
+human	959,964	O	O
+cortex	965,971	O	O
+.	971,972	O	O
+
+We	973,975	O	O
+also	976,980	O	O
+need	981,985	O	O
+efficient	986,995	O	B-Task
+,	995,996	O	I-Task
+iterative	997,1006	O	I-Task
+solvers	1007,1014	O	I-Task
+for	1015,1018	O	I-Task
+linear	1019,1025	O	I-Task
+problems	1026,1034	O	I-Task
+with	1035,1039	O	I-Task
+large	1040,1045	O	I-Task
+,	1045,1046	O	I-Task
+sparse	1047,1053	O	I-Task
+matrices	1054,1062	O	I-Task
+.	1062,1063	O	O
+
+In	1064,1066	O	O
+this	1067,1071	O	O
+paper	1072,1077	O	O
+,	1077,1078	O	O
+we	1079,1081	O	O
+will	1082,1086	O	O
+show	1087,1091	O	O
+that	1092,1096	O	O
+all	1097,1100	O	O
+this	1101,1105	O	O
+can	1106,1109	O	O
+be	1110,1112	O	O
+accomplished	1113,1125	O	O
+in	1126,1128	O	O
+the	1129,1132	O	O
+open	1133,1137	O	O
+-	1137,1138	O	O
+source	1138,1144	O	O
+software	1145,1153	O	O
+package	1154,1161	O	O
+PETSc	1162,1167	O	B-Material
+[	1168,1169	O	O
+17	1169,1171	O	O
+]	1171,1172	O	O
+.	1172,1173	O	O
+
+Our	1174,1177	O	O
+implementation	1178,1192	O	O
+consists	1193,1201	O	O
+of	1202,1204	O	O
+a	1205,1206	O	O
+number	1207,1213	O	O
+of	1214,1216	O	O
+functions	1217,1226	O	O
+in	1227,1229	O	O
+C	1230,1231	O	O
+that	1232,1236	O	O
+are	1237,1240	O	O
+available	1241,1250	O	O
+publicly	1251,1259	O	O
+[	1260,1261	O	O
+18	1261,1263	O	O
+]	1263,1264	O	O
+.	1264,1265	O	O
 
 
 -DOCSTART- (S1877750313001269)
 
-While	0	5	O
-virtualization	6	20	B-Process
-technologies	21	33	I-Process
-certainly	34	43	O
-reduce	44	50	O
-the	51	54	O
-complexity	55	65	O
-of	66	68	O
-using	69	74	O
-a	75	76	O
-system	77	83	O
-,	83	84	O
-and	85	88	O
-especially	89	99	O
-when	100	104	O
-working	105	112	O
-across	113	119	O
-multiple	120	128	O
-heterogeneous	129	142	O
-computing	143	152	O
-environments	153	165	O
-,	165	166	O
-they	167	171	O
-are	172	175	O
-not	176	179	O
-widely	180	186	O
-deployed	187	195	O
-in	196	198	O
-high	199	203	B-Task
-performance	204	215	I-Task
-computing	216	225	I-Task
-scenarios	226	235	I-Task
-.	235	236	O
-
-As	237	239	O
-its	240	243	O
-name	244	248	O
-suggest	249	256	O
-,	256	257	O
-HPC	258	261	B-Process
-seeks	262	267	O
-to	268	270	O
-obtain	271	277	O
-maximum	278	285	O
-performance	286	297	O
-from	298	302	O
-computing	303	312	O
-platforms	313	322	O
-.	322	323	O
-
-Extra	324	329	O
-software	330	338	O
-layers	339	345	O
-impact	346	352	O
-detrimentally	353	366	O
-on	367	369	O
-performance	370	381	O
-,	381	382	O
-meaning	383	390	O
-that	391	395	O
-in	396	398	O
-HPC	399	402	B-Process
-scenarios	403	412	O
-users	413	418	O
-typically	419	428	O
-run	429	432	O
-the	433	436	O
-applications	437	449	B-Material
-as	450	452	O
-close	453	458	O
-to	459	461	O
-the	462	465	O
-‘	466	467	O
-bare	467	471	O
-metal’	472	478	O
-as	479	481	O
-possible	482	490	O
-.	490	491	O
-
-In	492	494	O
-addition	495	503	O
-to	504	506	O
-the	507	510	O
-performance	511	522	O
-degradation	523	534	O
-introduced	535	545	O
-by	546	548	O
-virtualization	549	563	B-Process
-technologies	564	576	I-Process
-,	576	577	O
-choosing	578	586	O
-what	587	591	O
-details	592	599	O
-to	600	602	O
-abstract	603	611	O
-in	612	614	O
-a	615	616	O
-virtualized	617	628	B-Material
-interface	629	638	I-Material
-is	639	641	O
-itself	642	648	O
-very	649	653	O
-important	654	663	O
-.	663	664	O
-
-Grid	665	669	B-Process
-and	670	673	I-Process
-cloud	674	679	I-Process
-computing	680	689	I-Process
-support	690	697	O
-different	698	707	O
-interaction	708	719	B-Process
-models	720	726	I-Process
-.	726	727	O
-
-In	728	730	O
-grid	731	735	B-Process
-computing	736	745	I-Process
-,	745	746	O
-the	747	750	O
-user	751	755	O
-interacts	756	765	O
-with	766	770	O
-an	771	773	O
-individual	774	784	O
-resource	785	793	O
-(	794	795	O
-or	795	797	O
-sometimes	798	807	O
-a	808	809	O
-broker	810	816	B-Material
-)	816	817	O
-in	818	820	O
-order	821	826	O
-to	827	829	O
-launch	830	836	O
-jobs	837	841	O
-into	842	846	O
-a	847	848	O
-queuing	849	856	B-Process
-system	857	863	I-Process
-.	863	864	O
-
-In	865	867	O
-cloud	868	873	B-Process
-computing	874	883	I-Process
-,	883	884	O
-users	885	890	O
-interact	891	899	O
-with	900	904	O
-a	905	906	O
-virtual	907	914	B-Material
-server	915	921	I-Material
-,	921	922	O
-in	923	925	O
-effect	926	932	O
-putting	933	940	O
-them	941	945	O
-in	946	948	O
-control	949	956	O
-of	957	959	O
-their	960	965	O
-own	966	969	O
-complete	970	978	O
-operating	979	988	O
-system	989	995	O
-.	995	996	O
-
-Both	997	1001	O
-of	1002	1004	O
-these	1005	1010	O
-interaction	1011	1022	B-Process
-models	1023	1029	I-Process
-put	1030	1033	O
-the	1034	1037	O
-onus	1038	1042	O
-on	1043	1045	O
-the	1046	1049	O
-user	1050	1054	O
-to	1055	1057	O
-understand	1058	1068	O
-very	1069	1073	O
-specific	1074	1082	O
-details	1083	1090	O
-of	1091	1093	O
-the	1094	1097	O
-system	1098	1104	O
-that	1105	1109	O
-they	1110	1114	O
-are	1115	1118	O
-dealing	1119	1126	O
-with	1127	1131	O
-,	1131	1132	O
-making	1133	1139	O
-life	1140	1144	O
-difficult	1145	1154	O
-for	1155	1158	O
-the	1159	1162	O
-end	1163	1166	O
-user	1167	1171	O
-,	1171	1172	O
-typically	1173	1182	O
-a	1183	1184	O
-scientist	1185	1194	O
-who	1195	1198	O
-wants	1199	1204	O
-to	1205	1207	O
-progress	1208	1216	O
-his	1217	1220	O
-or	1221	1223	O
-her	1224	1227	O
-scientific	1228	1238	O
-investigations	1239	1253	O
-without	1254	1261	O
-any	1262	1265	O
-specific	1266	1274	O
-usability	1275	1284	O
-hurdles	1285	1292	O
-obstructing	1293	1304	O
-the	1305	1308	O
-pathway	1309	1316	O
-.	1316	1317	O
+While	0,5	O	O
+virtualization	6,20	O	B-Process
+technologies	21,33	O	I-Process
+certainly	34,43	O	O
+reduce	44,50	O	O
+the	51,54	O	O
+complexity	55,65	O	O
+of	66,68	O	O
+using	69,74	O	O
+a	75,76	O	O
+system	77,83	O	O
+,	83,84	O	O
+and	85,88	O	O
+especially	89,99	O	O
+when	100,104	O	O
+working	105,112	O	O
+across	113,119	O	O
+multiple	120,128	O	O
+heterogeneous	129,142	O	O
+computing	143,152	O	O
+environments	153,165	O	O
+,	165,166	O	O
+they	167,171	O	O
+are	172,175	O	O
+not	176,179	O	O
+widely	180,186	O	O
+deployed	187,195	O	O
+in	196,198	O	O
+high	199,203	O	B-Task
+performance	204,215	O	I-Task
+computing	216,225	O	I-Task
+scenarios	226,235	O	I-Task
+.	235,236	O	O
+
+As	237,239	O	O
+its	240,243	O	O
+name	244,248	O	O
+suggest	249,256	O	O
+,	256,257	O	O
+HPC	258,261	O	B-Process
+seeks	262,267	O	O
+to	268,270	O	O
+obtain	271,277	O	O
+maximum	278,285	O	O
+performance	286,297	O	O
+from	298,302	O	O
+computing	303,312	O	O
+platforms	313,322	O	O
+.	322,323	O	O
+
+Extra	324,329	O	O
+software	330,338	O	O
+layers	339,345	O	O
+impact	346,352	O	O
+detrimentally	353,366	O	O
+on	367,369	O	O
+performance	370,381	O	O
+,	381,382	O	O
+meaning	383,390	O	O
+that	391,395	O	O
+in	396,398	O	O
+HPC	399,402	O	B-Process
+scenarios	403,412	O	O
+users	413,418	O	O
+typically	419,428	O	O
+run	429,432	O	O
+the	433,436	O	O
+applications	437,449	O	B-Material
+as	450,452	O	O
+close	453,458	O	O
+to	459,461	O	O
+the	462,465	O	O
+‘	466,467	O	O
+bare	467,471	O	O
+metal’	472,478	O	O
+as	479,481	O	O
+possible	482,490	O	O
+.	490,491	O	O
+
+In	492,494	O	O
+addition	495,503	O	O
+to	504,506	O	O
+the	507,510	O	O
+performance	511,522	O	O
+degradation	523,534	O	O
+introduced	535,545	O	O
+by	546,548	O	O
+virtualization	549,563	O	B-Process
+technologies	564,576	O	I-Process
+,	576,577	O	O
+choosing	578,586	O	O
+what	587,591	O	O
+details	592,599	O	O
+to	600,602	O	O
+abstract	603,611	O	O
+in	612,614	O	O
+a	615,616	O	O
+virtualized	617,628	O	B-Material
+interface	629,638	O	I-Material
+is	639,641	O	O
+itself	642,648	O	O
+very	649,653	O	O
+important	654,663	O	O
+.	663,664	O	O
+
+Grid	665,669	O	B-Process
+and	670,673	O	I-Process
+cloud	674,679	O	I-Process
+computing	680,689	O	I-Process
+support	690,697	O	O
+different	698,707	O	O
+interaction	708,719	O	B-Process
+models	720,726	O	I-Process
+.	726,727	O	O
+
+In	728,730	O	O
+grid	731,735	O	B-Process
+computing	736,745	O	I-Process
+,	745,746	O	O
+the	747,750	O	O
+user	751,755	O	O
+interacts	756,765	O	O
+with	766,770	O	O
+an	771,773	O	O
+individual	774,784	O	O
+resource	785,793	O	O
+(	794,795	O	O
+or	795,797	O	O
+sometimes	798,807	O	O
+a	808,809	O	O
+broker	810,816	O	B-Material
+)	816,817	O	O
+in	818,820	O	O
+order	821,826	O	O
+to	827,829	O	O
+launch	830,836	O	O
+jobs	837,841	O	O
+into	842,846	O	O
+a	847,848	O	O
+queuing	849,856	O	B-Process
+system	857,863	O	I-Process
+.	863,864	O	O
+
+In	865,867	O	O
+cloud	868,873	O	B-Process
+computing	874,883	O	I-Process
+,	883,884	O	O
+users	885,890	O	O
+interact	891,899	O	O
+with	900,904	O	O
+a	905,906	O	O
+virtual	907,914	O	B-Material
+server	915,921	O	I-Material
+,	921,922	O	O
+in	923,925	O	O
+effect	926,932	O	O
+putting	933,940	O	O
+them	941,945	O	O
+in	946,948	O	O
+control	949,956	O	O
+of	957,959	O	O
+their	960,965	O	O
+own	966,969	O	O
+complete	970,978	O	O
+operating	979,988	O	O
+system	989,995	O	O
+.	995,996	O	O
+
+Both	997,1001	O	O
+of	1002,1004	O	O
+these	1005,1010	O	O
+interaction	1011,1022	O	B-Process
+models	1023,1029	O	I-Process
+put	1030,1033	O	O
+the	1034,1037	O	O
+onus	1038,1042	O	O
+on	1043,1045	O	O
+the	1046,1049	O	O
+user	1050,1054	O	O
+to	1055,1057	O	O
+understand	1058,1068	O	O
+very	1069,1073	O	O
+specific	1074,1082	O	O
+details	1083,1090	O	O
+of	1091,1093	O	O
+the	1094,1097	O	O
+system	1098,1104	O	O
+that	1105,1109	O	O
+they	1110,1114	O	O
+are	1115,1118	O	O
+dealing	1119,1126	O	O
+with	1127,1131	O	O
+,	1131,1132	O	O
+making	1133,1139	O	O
+life	1140,1144	O	O
+difficult	1145,1154	O	O
+for	1155,1158	O	O
+the	1159,1162	O	O
+end	1163,1166	O	O
+user	1167,1171	O	O
+,	1171,1172	O	O
+typically	1173,1182	O	O
+a	1183,1184	O	O
+scientist	1185,1194	O	O
+who	1195,1198	O	O
+wants	1199,1204	O	O
+to	1205,1207	O	O
+progress	1208,1216	O	O
+his	1217,1220	O	O
+or	1221,1223	O	O
+her	1224,1227	O	O
+scientific	1228,1238	O	O
+investigations	1239,1253	O	O
+without	1254,1261	O	O
+any	1262,1265	O	O
+specific	1266,1274	O	O
+usability	1275,1284	O	O
+hurdles	1285,1292	O	O
+obstructing	1293,1304	O	O
+the	1305,1308	O	O
+pathway	1309,1316	O	O
+.	1316,1317	O	O
 
 
 -DOCSTART- (S1877750315000460)
 
-FabHemeLB	0	9	B-Material
-is	10	12	O
-a	13	14	O
-Python	15	21	B-Material
-tool	22	26	I-Material
-which	27	32	O
-helps	33	38	O
-automate	39	47	B-Task
-the	48	51	I-Task
-construction	52	64	I-Task
-and	65	68	I-Task
-management	69	79	I-Task
-of	80	82	I-Task
-ensemble	83	91	I-Task
-simulation	92	102	I-Task
-workflows	103	112	I-Task
-.	112	113	O
-
-FabHemeLB	114	123	B-Material
-is	124	126	O
-an	127	129	O
-extended	130	138	O
-version	139	146	O
-of	147	149	O
-FabSim	150	156	B-Material
-[	157	158	O
-27	158	160	O
-]	160	161	O
-configured	162	172	O
-to	173	175	O
-handle	176	182	O
-HemeLB	183	189	B-Material
-operations	190	200	O
-.	200	201	O
-
-Both	202	206	O
-FabSim	207	213	B-Material
-and	214	217	O
-FabHemeLB	218	227	B-Material
-help	228	232	O
-to	233	235	O
-automate	236	244	B-Task
-application	245	256	I-Task
-deployment	257	267	I-Task
-,	267	268	I-Task
-execution	269	278	I-Task
-and	279	282	I-Task
-data	283	287	I-Task
-analysis	288	296	I-Task
-on	297	299	I-Task
-remote	300	306	I-Task
-resources	307	316	I-Task
-.	316	317	O
-
-FabHemeLB	318	327	B-Material
-can	328	331	O
-be	332	334	O
-used	335	339	O
-to	340	342	O
-compile	343	350	O
-and	351	354	O
-build	355	360	O
-HemeLB	361	367	B-Material
-on	368	370	O
-any	371	374	O
-remote	375	381	O
-resource	382	390	O
-,	390	391	O
-to	392	394	O
-reuse	395	400	O
-machine	401	408	O
--	408	409	O
-specific	409	417	O
-configurations	418	432	O
-,	432	433	O
-and	434	437	O
-to	438	440	O
-organize	441	449	B-Process
-and	450	453	I-Process
-curate	454	460	I-Process
-simulation	461	471	I-Process
-data	472	476	I-Process
-.	476	477	O
-
-It	478	480	O
-can	481	484	O
-also	485	489	O
-submit	490	496	O
-HemeLB	497	503	B-Material
-jobs	504	508	O
-to	509	511	O
-a	512	513	O
-remote	514	520	O
-resource	521	529	O
-specifying	530	540	O
-the	541	544	O
-number	545	551	O
-of	552	554	O
-cores	555	560	O
-and	561	564	O
-the	565	568	O
-wall	569	573	O
-clock	574	579	O
-time	580	584	O
-limit	585	590	O
-for	591	594	O
-completing	595	605	O
-a	606	607	O
-simulation	608	618	B-Process
-.	618	619	O
-
-The	620	623	O
-tool	624	628	O
-is	629	631	O
-also	632	636	O
-able	637	641	O
-to	642	644	O
-monitor	645	652	B-Process
-the	653	656	I-Process
-queue	657	662	I-Process
-status	663	669	I-Process
-on	670	672	I-Process
-remote	673	679	I-Process
-resources	680	689	I-Process
-,	689	690	O
-fetch	691	696	B-Process
-results	697	704	I-Process
-of	705	707	I-Process
-completed	708	717	I-Process
-jobs	718	722	I-Process
-,	722	723	O
-and	724	727	O
-can	728	731	O
-conveniently	732	744	O
-combine	745	752	B-Process
-functionalities	753	768	I-Process
-into	769	773	I-Process
-single	774	780	I-Process
-one	781	784	I-Process
--	784	785	I-Process
-line	785	789	I-Process
-commands	790	798	I-Process
-.	798	799	O
-
-In	800	802	O
-general	803	810	O
-,	810	811	O
-the	812	815	O
-FabHemeLB	816	825	B-Material
-commands	826	834	O
-have	835	839	O
-the	840	843	O
-following	844	853	O
-structure	854	863	O
-:	863	864	O
+FabHemeLB	0,9	O	B-Material
+is	10,12	O	O
+a	13,14	O	O
+Python	15,21	O	B-Material
+tool	22,26	O	I-Material
+which	27,32	O	O
+helps	33,38	O	O
+automate	39,47	O	B-Task
+the	48,51	O	I-Task
+construction	52,64	O	I-Task
+and	65,68	O	I-Task
+management	69,79	O	I-Task
+of	80,82	O	I-Task
+ensemble	83,91	O	I-Task
+simulation	92,102	O	I-Task
+workflows	103,112	O	I-Task
+.	112,113	O	O
+
+FabHemeLB	114,123	O	B-Material
+is	124,126	O	O
+an	127,129	O	O
+extended	130,138	O	O
+version	139,146	O	O
+of	147,149	O	O
+FabSim	150,156	O	B-Material
+[	157,158	O	O
+27	158,160	O	O
+]	160,161	O	O
+configured	162,172	O	O
+to	173,175	O	O
+handle	176,182	O	O
+HemeLB	183,189	O	B-Material
+operations	190,200	O	O
+.	200,201	O	O
+
+Both	202,206	O	O
+FabSim	207,213	O	B-Material
+and	214,217	O	O
+FabHemeLB	218,227	O	B-Material
+help	228,232	O	O
+to	233,235	O	O
+automate	236,244	O	B-Task
+application	245,256	O	I-Task
+deployment	257,267	O	I-Task
+,	267,268	O	I-Task
+execution	269,278	O	I-Task
+and	279,282	O	I-Task
+data	283,287	O	I-Task
+analysis	288,296	O	I-Task
+on	297,299	O	I-Task
+remote	300,306	O	I-Task
+resources	307,316	O	I-Task
+.	316,317	O	O
+
+FabHemeLB	318,327	O	B-Material
+can	328,331	O	O
+be	332,334	O	O
+used	335,339	O	O
+to	340,342	O	O
+compile	343,350	O	O
+and	351,354	O	O
+build	355,360	O	O
+HemeLB	361,367	O	B-Material
+on	368,370	O	O
+any	371,374	O	O
+remote	375,381	O	O
+resource	382,390	O	O
+,	390,391	O	O
+to	392,394	O	O
+reuse	395,400	O	O
+machine	401,408	O	O
+-	408,409	O	O
+specific	409,417	O	O
+configurations	418,432	O	O
+,	432,433	O	O
+and	434,437	O	O
+to	438,440	O	O
+organize	441,449	O	B-Process
+and	450,453	O	I-Process
+curate	454,460	O	I-Process
+simulation	461,471	O	I-Process
+data	472,476	O	I-Process
+.	476,477	O	O
+
+It	478,480	O	O
+can	481,484	O	O
+also	485,489	O	O
+submit	490,496	O	O
+HemeLB	497,503	O	B-Material
+jobs	504,508	O	O
+to	509,511	O	O
+a	512,513	O	O
+remote	514,520	O	O
+resource	521,529	O	O
+specifying	530,540	O	O
+the	541,544	O	O
+number	545,551	O	O
+of	552,554	O	O
+cores	555,560	O	O
+and	561,564	O	O
+the	565,568	O	O
+wall	569,573	O	O
+clock	574,579	O	O
+time	580,584	O	O
+limit	585,590	O	O
+for	591,594	O	O
+completing	595,605	O	O
+a	606,607	O	O
+simulation	608,618	O	B-Process
+.	618,619	O	O
+
+The	620,623	O	O
+tool	624,628	O	O
+is	629,631	O	O
+also	632,636	O	O
+able	637,641	O	O
+to	642,644	O	O
+monitor	645,652	O	B-Process
+the	653,656	O	I-Process
+queue	657,662	O	I-Process
+status	663,669	O	I-Process
+on	670,672	O	I-Process
+remote	673,679	O	I-Process
+resources	680,689	O	I-Process
+,	689,690	O	O
+fetch	691,696	O	B-Process
+results	697,704	O	I-Process
+of	705,707	O	I-Process
+completed	708,717	O	I-Process
+jobs	718,722	O	I-Process
+,	722,723	O	O
+and	724,727	O	O
+can	728,731	O	O
+conveniently	732,744	O	O
+combine	745,752	O	B-Process
+functionalities	753,768	O	I-Process
+into	769,773	O	I-Process
+single	774,780	O	I-Process
+one	781,784	O	I-Process
+-	784,785	O	I-Process
+line	785,789	O	I-Process
+commands	790,798	O	I-Process
+.	798,799	O	O
+
+In	800,802	O	O
+general	803,810	O	O
+,	810,811	O	O
+the	812,815	O	O
+FabHemeLB	816,825	O	B-Material
+commands	826,834	O	O
+have	835,839	O	O
+the	840,843	O	O
+following	844,853	O	O
+structure	854,863	O	O
+:	863,864	O	O
 
 
 -DOCSTART- (S2212671612000431)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-an	15	17	O
-implementation	18	32	O
-of	33	35	O
-a	36	37	O
-LBP	38	41	B-Material
-(	42	43	O
-local	43	48	B-Material
-binary	49	55	I-Material
-pattern	56	63	I-Material
-)	63	64	O
-based	65	70	O
-fast	71	75	O
-face	76	80	B-Material
-recognition	81	92	I-Material
-system	93	99	I-Material
-on	100	102	O
-symbian	103	110	B-Material
-platform	111	119	I-Material
-is	120	122	O
-presented	123	132	O
-.	132	133	O
-
-First	134	139	O
-,	139	140	O
-face	141	145	O
-in	146	148	O
-picture	149	156	O
-taken	157	162	O
-from	163	167	O
-camera	168	174	O
-is	175	177	O
-detected	178	186	O
-using	187	192	O
-AdaBoost	193	201	B-Process
-algorithm	202	211	I-Process
-.	211	212	O
-
-Second	213	219	O
-,	219	220	O
-the	221	224	O
-pre	225	228	O
--	228	229	O
-processing	229	239	O
-of	240	242	O
-the	243	246	O
-face	247	251	O
-is	252	254	O
-done	255	259	O
-,	259	260	O
-including	261	270	O
-eye	271	274	B-Task
-location	275	283	I-Task
-,	283	284	I-Task
-geometric	285	294	I-Task
-normalization	295	308	I-Task
-,	308	309	I-Task
-illumination	310	322	I-Task
-normalization	323	336	I-Task
-.	336	337	O
-
-During	338	344	O
-the	345	348	O
-face	349	353	B-Task
-preprocessing	354	367	I-Task
-,	367	368	O
-a	369	370	O
-rapid	371	376	O
-eye	377	380	B-Process
-location	381	389	I-Process
-method	390	396	I-Process
-named	397	402	O
-ER	403	405	B-Process
-(	406	407	O
-Eyeball	407	414	B-Process
-Search	415	421	I-Process
-)	421	422	O
-is	423	425	O
-proposed	426	434	O
-and	435	438	O
-implemented	439	450	O
-.	450	451	O
-
-Last	452	456	O
-,	456	457	O
-the	458	461	O
-improved	462	470	O
-LBP	471	474	B-Material
-is	475	477	O
-adopted	478	485	O
-for	486	489	O
-recognition	490	501	B-Task
-.	501	502	O
-
-Although	503	511	O
-the	512	515	O
-computational	516	529	O
-capability	530	540	O
-of	541	543	O
-the	544	547	O
-symbian	548	555	B-Material
-platform	556	564	I-Material
-is	565	567	O
-limited	568	575	O
-,	575	576	O
-the	577	580	O
-experimental	581	593	O
-results	594	601	O
-show	602	606	O
-good	607	611	O
-performance	612	623	O
-for	624	627	O
-recognition	628	639	O
-rate	640	644	O
-and	645	648	O
-time	649	653	O
-.	653	654	O
-
-in	655	657	O
-pressIn	658	665	O
-this	666	670	O
-paper	671	676	O
-,	676	677	O
-an	678	680	O
-implementation	681	695	O
-of	696	698	O
-a	699	700	O
-LBP	701	704	B-Material
-(	705	706	O
-local	706	711	B-Material
-binary	712	718	I-Material
-pattern	719	726	I-Material
-)	726	727	O
-based	728	733	O
-fast	734	738	O
-face	739	743	O
-recognition	744	755	O
-system	756	762	O
-on	763	765	O
-symbian	766	773	B-Material
-platform	774	782	I-Material
-is	783	785	O
-presented	786	795	O
-.	795	796	O
-
-First	797	802	O
-,	802	803	O
-face	804	808	O
-in	809	811	O
-picture	812	819	O
-taken	820	825	O
-from	826	830	O
-camera	831	837	O
-is	838	840	O
-detected	841	849	O
-using	850	855	O
-AdaBoost	856	864	B-Process
-algorithm	865	874	I-Process
-.	874	875	O
-
-Second	876	882	O
-,	882	883	O
-the	884	887	O
-pre	888	891	B-Task
--	891	892	I-Task
-processing	892	902	I-Task
-of	903	905	I-Task
-the	906	909	I-Task
-face	910	914	I-Task
-is	915	917	O
-done	918	922	O
-,	922	923	O
-including	924	933	O
-eye	934	937	B-Task
-location	938	946	I-Task
-,	946	947	O
-geometric	948	957	B-Task
-normalization	958	971	I-Task
-,	971	972	O
-illumination	973	985	B-Task
-normalization	986	999	I-Task
-.	999	1000	O
-
-During	1001	1007	O
-the	1008	1011	O
-face	1012	1016	O
-preprocessing	1017	1030	B-Process
-,	1030	1031	O
-a	1032	1033	O
-rapid	1034	1039	O
-eye	1040	1043	B-Process
-location	1044	1052	I-Process
-method	1053	1059	I-Process
-named	1060	1065	O
-ER	1066	1068	B-Process
-(	1069	1070	O
-Eyeball	1070	1077	B-Process
-Search	1078	1084	I-Process
-)	1084	1085	O
-is	1086	1088	O
-proposed	1089	1097	O
-and	1098	1101	O
-implemented	1102	1113	O
-.	1113	1114	O
-
-Last	1115	1119	O
-,	1119	1120	O
-the	1121	1124	O
-improved	1125	1133	O
-LBP	1134	1137	B-Material
-is	1138	1140	O
-adopted	1141	1148	O
-for	1149	1152	O
-recognition	1153	1164	B-Process
-.	1164	1165	O
-
-Although	1166	1174	O
-the	1175	1178	O
-computational	1179	1192	O
-capability	1193	1203	O
-of	1204	1206	O
-the	1207	1210	O
-symbian	1211	1218	B-Material
-platform	1219	1227	I-Material
-is	1228	1230	O
-limited	1231	1238	O
-,	1238	1239	O
-the	1240	1243	O
-experimental	1244	1256	O
-results	1257	1264	O
-show	1265	1269	O
-good	1270	1274	O
-performance	1275	1286	O
-for	1287	1290	O
-recognition	1291	1302	B-Task
-rate	1303	1307	O
-and	1308	1311	O
-time	1312	1316	O
-.	1316	1317	O
-
-in	1318	1320	O
-press	1321	1326	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+an	15,17	O	O
+implementation	18,32	O	O
+of	33,35	O	O
+a	36,37	O	O
+LBP	38,41	O	B-Material
+(	42,43	O	O
+local	43,48	O	B-Material
+binary	49,55	O	I-Material
+pattern	56,63	O	I-Material
+)	63,64	O	O
+based	65,70	O	O
+fast	71,75	O	O
+face	76,80	O	B-Material
+recognition	81,92	O	I-Material
+system	93,99	O	I-Material
+on	100,102	O	O
+symbian	103,110	O	B-Material
+platform	111,119	O	I-Material
+is	120,122	O	O
+presented	123,132	O	O
+.	132,133	O	O
+
+First	134,139	O	O
+,	139,140	O	O
+face	141,145	O	O
+in	146,148	O	O
+picture	149,156	O	O
+taken	157,162	O	O
+from	163,167	O	O
+camera	168,174	O	O
+is	175,177	O	O
+detected	178,186	O	O
+using	187,192	O	O
+AdaBoost	193,201	O	B-Process
+algorithm	202,211	O	I-Process
+.	211,212	O	O
+
+Second	213,219	O	O
+,	219,220	O	O
+the	221,224	O	O
+pre	225,228	O	O
+-	228,229	O	O
+processing	229,239	O	O
+of	240,242	O	O
+the	243,246	O	O
+face	247,251	O	O
+is	252,254	O	O
+done	255,259	O	O
+,	259,260	O	O
+including	261,270	O	O
+eye	271,274	O	B-Task
+location	275,283	O	I-Task
+,	283,284	O	I-Task
+geometric	285,294	O	I-Task
+normalization	295,308	O	I-Task
+,	308,309	O	I-Task
+illumination	310,322	O	I-Task
+normalization	323,336	O	I-Task
+.	336,337	O	O
+
+During	338,344	O	O
+the	345,348	O	O
+face	349,353	O	B-Task
+preprocessing	354,367	O	I-Task
+,	367,368	O	O
+a	369,370	O	O
+rapid	371,376	O	O
+eye	377,380	O	B-Process
+location	381,389	O	I-Process
+method	390,396	O	I-Process
+named	397,402	O	O
+ER	403,405	O	B-Process
+(	406,407	O	O
+Eyeball	407,414	O	B-Process
+Search	415,421	O	I-Process
+)	421,422	O	O
+is	423,425	O	O
+proposed	426,434	O	O
+and	435,438	O	O
+implemented	439,450	O	O
+.	450,451	O	O
+
+Last	452,456	O	O
+,	456,457	O	O
+the	458,461	O	O
+improved	462,470	O	O
+LBP	471,474	O	B-Material
+is	475,477	O	O
+adopted	478,485	O	O
+for	486,489	O	O
+recognition	490,501	O	B-Task
+.	501,502	O	O
+
+Although	503,511	O	O
+the	512,515	O	O
+computational	516,529	O	O
+capability	530,540	O	O
+of	541,543	O	O
+the	544,547	O	O
+symbian	548,555	O	B-Material
+platform	556,564	O	I-Material
+is	565,567	O	O
+limited	568,575	O	O
+,	575,576	O	O
+the	577,580	O	O
+experimental	581,593	O	O
+results	594,601	O	O
+show	602,606	O	O
+good	607,611	O	O
+performance	612,623	O	O
+for	624,627	O	O
+recognition	628,639	O	O
+rate	640,644	O	O
+and	645,648	O	O
+time	649,653	O	O
+.	653,654	O	O
+
+in	655,657	O	O
+pressIn	658,665	O	O
+this	666,670	O	O
+paper	671,676	O	O
+,	676,677	O	O
+an	678,680	O	O
+implementation	681,695	O	O
+of	696,698	O	O
+a	699,700	O	O
+LBP	701,704	O	B-Material
+(	705,706	O	O
+local	706,711	O	B-Material
+binary	712,718	O	I-Material
+pattern	719,726	O	I-Material
+)	726,727	O	O
+based	728,733	O	O
+fast	734,738	O	O
+face	739,743	O	O
+recognition	744,755	O	O
+system	756,762	O	O
+on	763,765	O	O
+symbian	766,773	O	B-Material
+platform	774,782	O	I-Material
+is	783,785	O	O
+presented	786,795	O	O
+.	795,796	O	O
+
+First	797,802	O	O
+,	802,803	O	O
+face	804,808	O	O
+in	809,811	O	O
+picture	812,819	O	O
+taken	820,825	O	O
+from	826,830	O	O
+camera	831,837	O	O
+is	838,840	O	O
+detected	841,849	O	O
+using	850,855	O	O
+AdaBoost	856,864	O	B-Process
+algorithm	865,874	O	I-Process
+.	874,875	O	O
+
+Second	876,882	O	O
+,	882,883	O	O
+the	884,887	O	O
+pre	888,891	O	B-Task
+-	891,892	O	I-Task
+processing	892,902	O	I-Task
+of	903,905	O	I-Task
+the	906,909	O	I-Task
+face	910,914	O	I-Task
+is	915,917	O	O
+done	918,922	O	O
+,	922,923	O	O
+including	924,933	O	O
+eye	934,937	O	B-Task
+location	938,946	O	I-Task
+,	946,947	O	O
+geometric	948,957	O	B-Task
+normalization	958,971	O	I-Task
+,	971,972	O	O
+illumination	973,985	O	B-Task
+normalization	986,999	O	I-Task
+.	999,1000	O	O
+
+During	1001,1007	O	O
+the	1008,1011	O	O
+face	1012,1016	O	O
+preprocessing	1017,1030	O	B-Process
+,	1030,1031	O	O
+a	1032,1033	O	O
+rapid	1034,1039	O	O
+eye	1040,1043	O	B-Process
+location	1044,1052	O	I-Process
+method	1053,1059	O	I-Process
+named	1060,1065	O	O
+ER	1066,1068	O	B-Process
+(	1069,1070	O	O
+Eyeball	1070,1077	O	B-Process
+Search	1078,1084	O	I-Process
+)	1084,1085	O	O
+is	1086,1088	O	O
+proposed	1089,1097	O	O
+and	1098,1101	O	O
+implemented	1102,1113	O	O
+.	1113,1114	O	O
+
+Last	1115,1119	O	O
+,	1119,1120	O	O
+the	1121,1124	O	O
+improved	1125,1133	O	O
+LBP	1134,1137	O	B-Material
+is	1138,1140	O	O
+adopted	1141,1148	O	O
+for	1149,1152	O	O
+recognition	1153,1164	O	B-Process
+.	1164,1165	O	O
+
+Although	1166,1174	O	O
+the	1175,1178	O	O
+computational	1179,1192	O	O
+capability	1193,1203	O	O
+of	1204,1206	O	O
+the	1207,1210	O	O
+symbian	1211,1218	O	B-Material
+platform	1219,1227	O	I-Material
+is	1228,1230	O	O
+limited	1231,1238	O	O
+,	1238,1239	O	O
+the	1240,1243	O	O
+experimental	1244,1256	O	O
+results	1257,1264	O	O
+show	1265,1269	O	O
+good	1270,1274	O	O
+performance	1275,1286	O	O
+for	1287,1290	O	O
+recognition	1291,1302	O	B-Task
+rate	1303,1307	O	O
+and	1308,1311	O	O
+time	1312,1316	O	O
+.	1316,1317	O	O
+
+in	1318,1320	O	O
+press	1321,1326	O	O
 
 
 -DOCSTART- (S2212671612000741)
 
-A	0	1	O
-sentence	2	10	B-Task
-alignment	11	20	I-Task
-model	21	26	O
-based	27	32	O
-on	33	35	O
-combined	36	44	O
-clues	45	50	O
-and	51	54	O
-Kernel	55	61	B-Process
-Extensional	62	73	I-Process
-Matrix	74	80	I-Process
-Matching	81	89	I-Process
-(	90	91	O
-KEMM	91	95	B-Process
-)	95	96	O
-method	97	103	O
-is	104	106	O
-proposed	107	115	O
-.	115	116	O
-
-In	117	119	O
-this	120	124	O
-model	125	130	O
-,	130	131	O
-a	132	133	O
-similarity	134	144	B-Material
-matrix	145	151	I-Material
-for	152	155	O
-sentence	156	164	B-Task
-aligning	165	173	I-Task
-is	174	176	O
-formed	177	183	O
-by	184	186	O
-the	187	190	O
-similarities	191	203	O
-of	204	206	O
-bilingual	207	216	O
-sentences	217	226	O
-calculated	227	237	O
-by	238	240	O
-the	241	244	O
-combined	245	253	O
-clues	254	259	O
-,	259	260	O
-such	261	265	O
-as	266	268	O
-lexicon	269	276	O
-,	276	277	O
-morphology	278	288	O
-,	288	289	O
-length	290	296	O
-and	297	300	O
-special	301	308	O
-symbols	309	316	O
-,	316	317	O
-etc	318	321	O
-.	321	322	O
-;	322	323	O
-then	324	328	O
-this	329	333	O
-similarity	334	344	B-Material
-matrix	345	351	I-Material
-is	352	354	O
-used	355	359	O
-to	360	362	O
-construct	363	372	B-Process
-a	373	374	I-Process
-select	375	381	I-Process
-matrix	382	388	I-Process
-for	389	392	O
-sentence	393	401	B-Task
-aligning	402	410	I-Task
-;	410	411	O
-finally	412	419	O
-,	419	420	O
-obtains	421	428	O
-the	429	432	O
-sentence	433	441	O
-alignments	442	452	O
-by	453	455	O
-KEMM	456	460	B-Process
-.	460	461	O
-
-Experimental	462	474	O
-results	475	482	O
-illustrated	483	494	O
-that	495	499	O
-our	500	503	O
-model	504	509	O
-outperforms	510	521	O
-over	522	526	O
-the	527	530	O
-Gale	531	535	B-Process
-'s	535	537	I-Process
-system	538	544	I-Process
-on	545	547	O
-handling	548	556	O
-any	557	560	O
-types	561	566	O
-of	567	569	O
-sentence	570	578	O
-alignments	579	589	O
-,	589	590	O
-with	591	595	O
-30	596	598	O
-%	598	599	O
-total	600	605	O
-sentence	606	614	B-Task
-alignment	615	624	I-Task
-error	625	630	O
-rate	631	635	O
-decreasing	636	646	O
-.	646	647	O
+A	0,1	O	O
+sentence	2,10	O	B-Task
+alignment	11,20	O	I-Task
+model	21,26	O	O
+based	27,32	O	O
+on	33,35	O	O
+combined	36,44	O	O
+clues	45,50	O	O
+and	51,54	O	O
+Kernel	55,61	O	B-Process
+Extensional	62,73	O	I-Process
+Matrix	74,80	O	I-Process
+Matching	81,89	O	I-Process
+(	90,91	O	O
+KEMM	91,95	O	B-Process
+)	95,96	O	O
+method	97,103	O	O
+is	104,106	O	O
+proposed	107,115	O	O
+.	115,116	O	O
+
+In	117,119	O	O
+this	120,124	O	O
+model	125,130	O	O
+,	130,131	O	O
+a	132,133	O	O
+similarity	134,144	O	B-Material
+matrix	145,151	O	I-Material
+for	152,155	O	O
+sentence	156,164	O	B-Task
+aligning	165,173	O	I-Task
+is	174,176	O	O
+formed	177,183	O	O
+by	184,186	O	O
+the	187,190	O	O
+similarities	191,203	O	O
+of	204,206	O	O
+bilingual	207,216	O	O
+sentences	217,226	O	O
+calculated	227,237	O	O
+by	238,240	O	O
+the	241,244	O	O
+combined	245,253	O	O
+clues	254,259	O	O
+,	259,260	O	O
+such	261,265	O	O
+as	266,268	O	O
+lexicon	269,276	O	O
+,	276,277	O	O
+morphology	278,288	O	O
+,	288,289	O	O
+length	290,296	O	O
+and	297,300	O	O
+special	301,308	O	O
+symbols	309,316	O	O
+,	316,317	O	O
+etc	318,321	O	O
+.	321,322	O	O
+;	322,323	O	O
+then	324,328	O	O
+this	329,333	O	O
+similarity	334,344	O	B-Material
+matrix	345,351	O	I-Material
+is	352,354	O	O
+used	355,359	O	O
+to	360,362	O	O
+construct	363,372	O	B-Process
+a	373,374	O	I-Process
+select	375,381	O	I-Process
+matrix	382,388	O	I-Process
+for	389,392	O	O
+sentence	393,401	O	B-Task
+aligning	402,410	O	I-Task
+;	410,411	O	O
+finally	412,419	O	O
+,	419,420	O	O
+obtains	421,428	O	O
+the	429,432	O	O
+sentence	433,441	O	O
+alignments	442,452	O	O
+by	453,455	O	O
+KEMM	456,460	O	B-Process
+.	460,461	O	O
+
+Experimental	462,474	O	O
+results	475,482	O	O
+illustrated	483,494	O	O
+that	495,499	O	O
+our	500,503	O	O
+model	504,509	O	O
+outperforms	510,521	O	O
+over	522,526	O	O
+the	527,530	O	O
+Gale	531,535	O	B-Process
+'s	535,537	O	I-Process
+system	538,544	O	I-Process
+on	545,547	O	O
+handling	548,556	O	O
+any	557,560	O	O
+types	561,566	O	O
+of	567,569	O	O
+sentence	570,578	O	O
+alignments	579,589	O	O
+,	589,590	O	O
+with	591,595	O	O
+30	596,598	O	O
+%	598,599	O	O
+total	600,605	O	O
+sentence	606,614	O	B-Task
+alignment	615,624	O	I-Task
+error	625,630	O	O
+rate	631,635	O	O
+decreasing	636,646	O	O
+.	646,647	O	O
 
 
 -DOCSTART- (S221267161400105X)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-a	14	15	O
-comparison	16	26	B-Task
-between	27	34	I-Task
-two	35	38	I-Task
-popular	39	46	I-Task
-feature	47	54	I-Task
-extraction	55	65	I-Task
-methods	66	73	I-Task
-is	74	76	O
-presented	77	86	O
-.	86	87	O
-
-Scale	88	93	B-Process
--	93	94	I-Process
-invariant	94	103	I-Process
-feature	104	111	I-Process
-transform	112	121	I-Process
-(	122	123	O
-or	123	125	O
-SIFT	126	130	B-Process
-)	130	131	O
-is	132	134	O
-the	135	138	O
-first	139	144	O
-method	145	151	O
-.	151	152	O
-
-The	153	156	O
-Speeded	157	164	B-Process
-up	165	167	I-Process
-robust	168	174	I-Process
-features	175	183	I-Process
-(	184	185	O
-or	185	187	O
-SURF	188	192	B-Process
-)	192	193	O
-is	194	196	O
-presented	197	206	O
-as	207	209	O
-second	210	216	O
-.	216	217	O
-
-These	218	223	O
-two	224	227	O
-methods	228	235	O
-are	236	239	O
-tested	240	246	O
-on	247	249	O
-set	250	253	O
-of	254	256	O
-depth	257	262	B-Material
-maps	263	267	I-Material
-.	267	268	O
-
-Ten	269	272	O
-defined	273	280	O
-gestures	281	289	O
-of	290	292	O
-left	293	297	O
-hand	298	302	O
-are	303	306	O
-in	307	309	O
-these	310	315	O
-depth	316	321	O
-maps	322	326	O
-.	326	327	O
-
-The	328	331	O
-Microsoft	332	341	B-Process
-Kinect	342	348	I-Process
-camera	349	355	I-Process
-is	356	358	O
-used	359	363	O
-for	364	367	O
-capturing	368	377	O
-the	378	381	O
-images	382	388	O
-[	389	390	O
-1	390	391	O
-]	391	392	O
-.	392	393	O
-
-The	394	397	O
-Support	398	405	B-Process
-vector	406	412	I-Process
-machine	413	420	I-Process
-(	421	422	O
-or	422	424	O
-SVM	425	428	B-Process
-)	428	429	O
-is	430	432	O
-used	433	437	O
-as	438	440	O
-classification	441	455	B-Process
-method	456	462	I-Process
-.	462	463	O
-
-The	464	467	O
-results	468	475	O
-are	476	479	O
-accuracy	480	488	O
-of	489	491	O
-SVM	492	495	B-Process
-prediction	496	506	O
-on	507	509	O
-selected	510	518	O
-images	519	525	O
-.	525	526	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+a	14,15	O	O
+comparison	16,26	O	B-Task
+between	27,34	O	I-Task
+two	35,38	O	I-Task
+popular	39,46	O	I-Task
+feature	47,54	O	I-Task
+extraction	55,65	O	I-Task
+methods	66,73	O	I-Task
+is	74,76	O	O
+presented	77,86	O	O
+.	86,87	O	O
+
+Scale	88,93	O	B-Process
+-	93,94	O	I-Process
+invariant	94,103	O	I-Process
+feature	104,111	O	I-Process
+transform	112,121	O	I-Process
+(	122,123	O	O
+or	123,125	O	O
+SIFT	126,130	O	B-Process
+)	130,131	O	O
+is	132,134	O	O
+the	135,138	O	O
+first	139,144	O	O
+method	145,151	O	O
+.	151,152	O	O
+
+The	153,156	O	O
+Speeded	157,164	O	B-Process
+up	165,167	O	I-Process
+robust	168,174	O	I-Process
+features	175,183	O	I-Process
+(	184,185	O	O
+or	185,187	O	O
+SURF	188,192	O	B-Process
+)	192,193	O	O
+is	194,196	O	O
+presented	197,206	O	O
+as	207,209	O	O
+second	210,216	O	O
+.	216,217	O	O
+
+These	218,223	O	O
+two	224,227	O	O
+methods	228,235	O	O
+are	236,239	O	O
+tested	240,246	O	O
+on	247,249	O	O
+set	250,253	O	O
+of	254,256	O	O
+depth	257,262	O	B-Material
+maps	263,267	O	I-Material
+.	267,268	O	O
+
+Ten	269,272	O	O
+defined	273,280	O	O
+gestures	281,289	O	O
+of	290,292	O	O
+left	293,297	O	O
+hand	298,302	O	O
+are	303,306	O	O
+in	307,309	O	O
+these	310,315	O	O
+depth	316,321	O	O
+maps	322,326	O	O
+.	326,327	O	O
+
+The	328,331	O	O
+Microsoft	332,341	O	B-Process
+Kinect	342,348	O	I-Process
+camera	349,355	O	I-Process
+is	356,358	O	O
+used	359,363	O	O
+for	364,367	O	O
+capturing	368,377	O	O
+the	378,381	O	O
+images	382,388	O	O
+[	389,390	O	O
+1	390,391	O	O
+]	391,392	O	O
+.	392,393	O	O
+
+The	394,397	O	O
+Support	398,405	O	B-Process
+vector	406,412	O	I-Process
+machine	413,420	O	I-Process
+(	421,422	O	O
+or	422,424	O	O
+SVM	425,428	O	B-Process
+)	428,429	O	O
+is	430,432	O	O
+used	433,437	O	O
+as	438,440	O	O
+classification	441,455	O	B-Process
+method	456,462	O	I-Process
+.	462,463	O	O
+
+The	464,467	O	O
+results	468,475	O	O
+are	476,479	O	O
+accuracy	480,488	O	O
+of	489,491	O	O
+SVM	492,495	O	B-Process
+prediction	496,506	O	O
+on	507,509	O	O
+selected	510,518	O	O
+images	519,525	O	O
+.	525,526	O	O
 
 
 -DOCSTART- (S221450951400014X)
 
-This	0	4	O
-figure	5	11	O
-demonstrates	12	24	O
-that	25	29	O
-changes	30	37	B-Process
-in	38	40	I-Process
-the	41	44	I-Process
-measure	45	52	I-Process
-of	53	55	I-Process
-bitumen	56	63	I-Process
-content	64	71	I-Process
-create	72	78	O
-sizable	79	86	O
-differences	87	98	B-Process
-in	99	101	I-Process
-the	102	105	I-Process
-stiffness	106	115	I-Process
-modulus	116	123	I-Process
-of	124	126	I-Process
-asphaltic	127	136	I-Process
-samples	137	144	I-Process
-that	145	149	O
-include	150	157	O
-waste	158	163	B-Material
-glass	164	169	I-Material
-cullet	170	176	I-Material
-.	176	177	O
-
-As	178	180	O
-the	181	184	O
-percentage	185	195	O
-of	196	198	O
-glass	199	204	B-Material
-increases	205	214	O
-,	214	215	O
-the	216	219	O
-measure	220	227	O
-of	228	230	O
-the	231	234	O
-stiffness	235	244	B-Process
-modulus	245	252	I-Process
-of	253	255	O
-modified	256	264	B-Material
-asphalt	265	272	I-Material
-increases	273	282	O
-too	283	286	O
-.	286	287	O
-
-But	288	291	O
-with	292	296	O
-pass	297	301	O
-of	302	304	O
-optimum	305	312	O
-measure	313	320	O
-of	321	323	O
-glass	324	329	B-Material
-the	330	333	O
-stiffness	334	343	B-Process
-modulus	344	351	I-Process
-of	352	354	O
-asphaltic	355	364	B-Material
-samples	365	372	I-Material
-decrease	373	381	O
-.	381	382	O
-
-This	383	387	O
-trend	388	393	O
-in	394	396	O
-total	397	402	O
-of	403	405	O
-percentages	406	417	O
-of	418	420	O
-bitumen	421	428	B-Material
-content	429	436	O
-is	437	439	O
-existing	440	448	O
-.	448	449	O
-
-Due	450	453	O
-to	454	456	O
-that	457	461	O
-waste	462	467	B-Material
-glass	468	473	I-Material
-cullet	474	480	I-Material
-has	481	484	O
-no	485	487	O
-suction	488	495	O
-;	495	496	O
-the	497	500	O
-trend	501	506	O
-does	507	511	O
-not	512	515	O
-extend	516	522	O
-to	523	525	O
-measuring	526	535	O
-the	536	539	O
-stiffness	540	549	B-Process
-modulus	550	557	I-Process
-of	558	560	O
-asphaltic	561	570	B-Material
-samples	571	578	I-Material
-including	579	588	O
-waste	589	594	B-Material
-glass	595	600	I-Material
-cullet	601	607	I-Material
-with	608	612	O
-different	613	622	O
-percentage	623	633	O
-of	634	636	O
-bitumen	637	644	B-Material
-content	645	652	O
-.	652	653	O
-
-Glass	654	659	B-Material
-particles	660	669	I-Material
-do	670	672	O
-not	673	676	O
-absorb	677	683	O
-any	684	687	O
-bituminous	688	698	B-Material
-material	699	707	I-Material
-,	707	708	O
-so	709	711	O
-it	712	714	O
-is	715	717	O
-necessary	718	727	O
-to	728	730	O
-decrease	731	739	O
-the	740	743	O
-bitumen	744	751	B-Material
-content	752	759	O
-with	760	764	O
-the	765	768	O
-addition	769	777	O
-of	778	780	O
-glass	781	786	B-Material
-cullet	787	793	I-Material
-.	793	794	O
-
-According	795	804	O
-to	805	807	O
-Fig	808	811	O
-.	811	812	O
-
-2	813	814	O
-and	815	818	O
-the	819	822	O
-results	823	830	O
-of	831	833	O
-the	834	837	O
-Marshall	838	846	B-Process
-tests	847	852	I-Process
-,	852	853	O
-the	854	857	O
-optimum	858	865	O
-bitumen	866	873	B-Material
-measures	874	882	O
-decrease	883	891	O
-significantly	892	905	O
-in	906	908	O
-samples	909	916	O
-that	917	921	O
-include	922	929	O
-higher	930	936	O
-percentages	937	948	O
-of	949	951	O
-waste	952	957	B-Material
-glass	958	963	I-Material
-cullet	964	970	I-Material
-.	970	971	O
-
-As	972	974	O
-the	975	978	O
-percentage	979	989	O
-of	990	992	O
-optimum	993	1000	O
-bitumen	1001	1008	B-Material
-content	1009	1016	O
-is	1017	1019	O
-1	1020	1021	O
-%	1021	1022	O
-more	1023	1027	O
-in	1028	1030	O
-samples	1031	1038	O
-without	1039	1046	O
-waste	1047	1052	B-Material
-glass	1053	1058	I-Material
-cullet	1059	1065	I-Material
-in	1066	1068	O
-comparison	1069	1079	O
-with	1080	1084	O
-saphaltic	1085	1094	B-Material
-samples	1095	1102	I-Material
-that	1103	1107	O
-include	1108	1115	O
-20	1116	1118	O
-%	1118	1119	O
-waste	1120	1125	B-Material
-glass	1126	1131	I-Material
-cullet	1132	1138	I-Material
-.	1138	1139	O
-
-The	1140	1143	O
-stiffness	1144	1153	B-Process
-modulus	1154	1161	I-Process
-of	1162	1164	O
-asphaltic	1165	1174	B-Material
-samples	1175	1182	I-Material
-that	1183	1187	O
-include	1188	1195	O
-waste	1196	1201	B-Material
-glass	1202	1207	I-Material
-cullet	1208	1214	I-Material
-increased	1215	1224	O
-due	1225	1228	O
-to	1229	1231	O
-additional	1232	1242	O
-interlocking	1243	1255	B-Process
-between	1256	1263	O
-the	1264	1267	O
-aggregate	1268	1277	O
-and	1278	1281	O
-the	1282	1285	O
-angularity	1286	1296	O
-of	1297	1299	O
-particles	1300	1309	O
-of	1310	1312	O
-glass	1313	1318	B-Material
-cullet	1319	1325	I-Material
-content	1326	1333	O
-.	1333	1334	O
-
-The	1335	1338	O
-increase	1339	1347	O
-in	1348	1350	O
-the	1351	1354	O
-intrusive	1355	1364	O
-friction	1365	1373	O
-angle	1374	1379	O
-because	1380	1387	O
-of	1388	1390	O
-the	1391	1394	O
-glass	1395	1400	B-Material
-particles’	1401	1411	I-Material
-increased	1412	1421	O
-angularity	1422	1432	O
-is	1433	1435	O
-the	1436	1439	O
-main	1440	1444	O
-reason	1445	1451	O
-for	1452	1455	O
-the	1456	1459	O
-addition	1460	1468	O
-of	1469	1471	O
-the	1472	1475	O
-stiffness	1476	1485	B-Process
-modulus	1486	1493	I-Process
-of	1494	1496	O
-asphaltic	1497	1506	B-Material
-samples	1507	1514	I-Material
-that	1515	1519	O
-include	1520	1527	O
-waste	1528	1533	B-Material
-glass	1534	1539	I-Material
-cullet	1540	1546	I-Material
-.	1546	1547	O
-
-But	1548	1551	O
-as	1552	1554	O
-the	1555	1558	O
-percentage	1559	1569	O
-of	1570	1572	O
-glass	1573	1578	B-Material
-content	1579	1586	O
-reaches	1587	1594	O
-greater	1595	1602	O
-than	1603	1607	O
-15	1608	1610	O
-%	1610	1611	O
-,	1611	1612	O
-the	1613	1616	O
-particles’	1617	1627	B-Material
-abundance	1628	1637	O
-cause	1638	1643	O
-slip	1644	1648	O
-these	1649	1654	O
-particles	1655	1664	O
-on	1665	1667	O
-together	1668	1676	O
-.	1676	1677	O
-
-The	1678	1681	O
-stiffness	1682	1691	B-Process
-modulus	1692	1699	I-Process
-of	1700	1702	O
-samples	1703	1710	O
-decreases	1711	1720	O
-as	1721	1723	O
-the	1724	1727	O
-percentage	1728	1738	O
-of	1739	1741	O
-glass	1742	1747	B-Material
-cullet	1748	1754	I-Material
-increases	1755	1764	O
-.	1764	1765	O
-
-The	1766	1769	O
-variations	1770	1780	O
-in	1781	1783	O
-the	1784	1787	O
-stiffness	1788	1797	B-Process
-modulus	1798	1805	I-Process
-of	1806	1808	O
-asphaltic	1809	1818	B-Material
-samples	1819	1826	I-Material
-that	1827	1831	O
-include	1832	1839	O
-different	1840	1849	O
-percentages	1850	1861	O
-of	1862	1864	O
-waste	1865	1870	B-Material
-glass	1871	1876	I-Material
-cullet	1877	1883	I-Material
-at	1884	1886	O
-different	1887	1896	O
-temperature	1897	1908	O
-are	1909	1912	O
-shown	1913	1918	O
-in	1919	1921	O
-Fig	1922	1925	O
-.	1925	1926	O
-
-3	1927	1928	O
-.	1928	1929	O
+This	0,4	O	O
+figure	5,11	O	O
+demonstrates	12,24	O	O
+that	25,29	O	O
+changes	30,37	O	B-Process
+in	38,40	O	I-Process
+the	41,44	O	I-Process
+measure	45,52	O	I-Process
+of	53,55	O	I-Process
+bitumen	56,63	O	I-Process
+content	64,71	O	I-Process
+create	72,78	O	O
+sizable	79,86	O	O
+differences	87,98	O	B-Process
+in	99,101	O	I-Process
+the	102,105	O	I-Process
+stiffness	106,115	O	I-Process
+modulus	116,123	O	I-Process
+of	124,126	O	I-Process
+asphaltic	127,136	O	I-Process
+samples	137,144	O	I-Process
+that	145,149	O	O
+include	150,157	O	O
+waste	158,163	O	B-Material
+glass	164,169	O	I-Material
+cullet	170,176	O	I-Material
+.	176,177	O	O
+
+As	178,180	O	O
+the	181,184	O	O
+percentage	185,195	O	O
+of	196,198	O	O
+glass	199,204	O	B-Material
+increases	205,214	O	O
+,	214,215	O	O
+the	216,219	O	O
+measure	220,227	O	O
+of	228,230	O	O
+the	231,234	O	O
+stiffness	235,244	O	B-Process
+modulus	245,252	O	I-Process
+of	253,255	O	O
+modified	256,264	O	B-Material
+asphalt	265,272	O	I-Material
+increases	273,282	O	O
+too	283,286	O	O
+.	286,287	O	O
+
+But	288,291	O	O
+with	292,296	O	O
+pass	297,301	O	O
+of	302,304	O	O
+optimum	305,312	O	O
+measure	313,320	O	O
+of	321,323	O	O
+glass	324,329	O	B-Material
+the	330,333	O	O
+stiffness	334,343	O	B-Process
+modulus	344,351	O	I-Process
+of	352,354	O	O
+asphaltic	355,364	O	B-Material
+samples	365,372	O	I-Material
+decrease	373,381	O	O
+.	381,382	O	O
+
+This	383,387	O	O
+trend	388,393	O	O
+in	394,396	O	O
+total	397,402	O	O
+of	403,405	O	O
+percentages	406,417	O	O
+of	418,420	O	O
+bitumen	421,428	O	B-Material
+content	429,436	O	O
+is	437,439	O	O
+existing	440,448	O	O
+.	448,449	O	O
+
+Due	450,453	O	O
+to	454,456	O	O
+that	457,461	O	O
+waste	462,467	O	B-Material
+glass	468,473	O	I-Material
+cullet	474,480	O	I-Material
+has	481,484	O	O
+no	485,487	O	O
+suction	488,495	O	O
+;	495,496	O	O
+the	497,500	O	O
+trend	501,506	O	O
+does	507,511	O	O
+not	512,515	O	O
+extend	516,522	O	O
+to	523,525	O	O
+measuring	526,535	O	O
+the	536,539	O	O
+stiffness	540,549	O	B-Process
+modulus	550,557	O	I-Process
+of	558,560	O	O
+asphaltic	561,570	O	B-Material
+samples	571,578	O	I-Material
+including	579,588	O	O
+waste	589,594	O	B-Material
+glass	595,600	O	I-Material
+cullet	601,607	O	I-Material
+with	608,612	O	O
+different	613,622	O	O
+percentage	623,633	O	O
+of	634,636	O	O
+bitumen	637,644	O	B-Material
+content	645,652	O	O
+.	652,653	O	O
+
+Glass	654,659	O	B-Material
+particles	660,669	O	I-Material
+do	670,672	O	O
+not	673,676	O	O
+absorb	677,683	O	O
+any	684,687	O	O
+bituminous	688,698	O	B-Material
+material	699,707	O	I-Material
+,	707,708	O	O
+so	709,711	O	O
+it	712,714	O	O
+is	715,717	O	O
+necessary	718,727	O	O
+to	728,730	O	O
+decrease	731,739	O	O
+the	740,743	O	O
+bitumen	744,751	O	B-Material
+content	752,759	O	O
+with	760,764	O	O
+the	765,768	O	O
+addition	769,777	O	O
+of	778,780	O	O
+glass	781,786	O	B-Material
+cullet	787,793	O	I-Material
+.	793,794	O	O
+
+According	795,804	O	O
+to	805,807	O	O
+Fig	808,811	O	O
+.	811,812	O	O
+
+2	813,814	O	O
+and	815,818	O	O
+the	819,822	O	O
+results	823,830	O	O
+of	831,833	O	O
+the	834,837	O	O
+Marshall	838,846	O	B-Process
+tests	847,852	O	I-Process
+,	852,853	O	O
+the	854,857	O	O
+optimum	858,865	O	O
+bitumen	866,873	O	B-Material
+measures	874,882	O	O
+decrease	883,891	O	O
+significantly	892,905	O	O
+in	906,908	O	O
+samples	909,916	O	O
+that	917,921	O	O
+include	922,929	O	O
+higher	930,936	O	O
+percentages	937,948	O	O
+of	949,951	O	O
+waste	952,957	O	B-Material
+glass	958,963	O	I-Material
+cullet	964,970	O	I-Material
+.	970,971	O	O
+
+As	972,974	O	O
+the	975,978	O	O
+percentage	979,989	O	O
+of	990,992	O	O
+optimum	993,1000	O	O
+bitumen	1001,1008	O	B-Material
+content	1009,1016	O	O
+is	1017,1019	O	O
+1	1020,1021	O	O
+%	1021,1022	O	O
+more	1023,1027	O	O
+in	1028,1030	O	O
+samples	1031,1038	O	O
+without	1039,1046	O	O
+waste	1047,1052	O	B-Material
+glass	1053,1058	O	I-Material
+cullet	1059,1065	O	I-Material
+in	1066,1068	O	O
+comparison	1069,1079	O	O
+with	1080,1084	O	O
+saphaltic	1085,1094	O	B-Material
+samples	1095,1102	O	I-Material
+that	1103,1107	O	O
+include	1108,1115	O	O
+20	1116,1118	O	O
+%	1118,1119	O	O
+waste	1120,1125	O	B-Material
+glass	1126,1131	O	I-Material
+cullet	1132,1138	O	I-Material
+.	1138,1139	O	O
+
+The	1140,1143	O	O
+stiffness	1144,1153	O	B-Process
+modulus	1154,1161	O	I-Process
+of	1162,1164	O	O
+asphaltic	1165,1174	O	B-Material
+samples	1175,1182	O	I-Material
+that	1183,1187	O	O
+include	1188,1195	O	O
+waste	1196,1201	O	B-Material
+glass	1202,1207	O	I-Material
+cullet	1208,1214	O	I-Material
+increased	1215,1224	O	O
+due	1225,1228	O	O
+to	1229,1231	O	O
+additional	1232,1242	O	O
+interlocking	1243,1255	O	B-Process
+between	1256,1263	O	O
+the	1264,1267	O	O
+aggregate	1268,1277	O	O
+and	1278,1281	O	O
+the	1282,1285	O	O
+angularity	1286,1296	O	O
+of	1297,1299	O	O
+particles	1300,1309	O	O
+of	1310,1312	O	O
+glass	1313,1318	O	B-Material
+cullet	1319,1325	O	I-Material
+content	1326,1333	O	O
+.	1333,1334	O	O
+
+The	1335,1338	O	O
+increase	1339,1347	O	O
+in	1348,1350	O	O
+the	1351,1354	O	O
+intrusive	1355,1364	O	O
+friction	1365,1373	O	O
+angle	1374,1379	O	O
+because	1380,1387	O	O
+of	1388,1390	O	O
+the	1391,1394	O	O
+glass	1395,1400	O	B-Material
+particles’	1401,1411	O	I-Material
+increased	1412,1421	O	O
+angularity	1422,1432	O	O
+is	1433,1435	O	O
+the	1436,1439	O	O
+main	1440,1444	O	O
+reason	1445,1451	O	O
+for	1452,1455	O	O
+the	1456,1459	O	O
+addition	1460,1468	O	O
+of	1469,1471	O	O
+the	1472,1475	O	O
+stiffness	1476,1485	O	B-Process
+modulus	1486,1493	O	I-Process
+of	1494,1496	O	O
+asphaltic	1497,1506	O	B-Material
+samples	1507,1514	O	I-Material
+that	1515,1519	O	O
+include	1520,1527	O	O
+waste	1528,1533	O	B-Material
+glass	1534,1539	O	I-Material
+cullet	1540,1546	O	I-Material
+.	1546,1547	O	O
+
+But	1548,1551	O	O
+as	1552,1554	O	O
+the	1555,1558	O	O
+percentage	1559,1569	O	O
+of	1570,1572	O	O
+glass	1573,1578	O	B-Material
+content	1579,1586	O	O
+reaches	1587,1594	O	O
+greater	1595,1602	O	O
+than	1603,1607	O	O
+15	1608,1610	O	O
+%	1610,1611	O	O
+,	1611,1612	O	O
+the	1613,1616	O	O
+particles’	1617,1627	O	B-Material
+abundance	1628,1637	O	O
+cause	1638,1643	O	O
+slip	1644,1648	O	O
+these	1649,1654	O	O
+particles	1655,1664	O	O
+on	1665,1667	O	O
+together	1668,1676	O	O
+.	1676,1677	O	O
+
+The	1678,1681	O	O
+stiffness	1682,1691	O	B-Process
+modulus	1692,1699	O	I-Process
+of	1700,1702	O	O
+samples	1703,1710	O	O
+decreases	1711,1720	O	O
+as	1721,1723	O	O
+the	1724,1727	O	O
+percentage	1728,1738	O	O
+of	1739,1741	O	O
+glass	1742,1747	O	B-Material
+cullet	1748,1754	O	I-Material
+increases	1755,1764	O	O
+.	1764,1765	O	O
+
+The	1766,1769	O	O
+variations	1770,1780	O	O
+in	1781,1783	O	O
+the	1784,1787	O	O
+stiffness	1788,1797	O	B-Process
+modulus	1798,1805	O	I-Process
+of	1806,1808	O	O
+asphaltic	1809,1818	O	B-Material
+samples	1819,1826	O	I-Material
+that	1827,1831	O	O
+include	1832,1839	O	O
+different	1840,1849	O	O
+percentages	1850,1861	O	O
+of	1862,1864	O	O
+waste	1865,1870	O	B-Material
+glass	1871,1876	O	I-Material
+cullet	1877,1883	O	I-Material
+at	1884,1886	O	O
+different	1887,1896	O	O
+temperature	1897,1908	O	O
+are	1909,1912	O	O
+shown	1913,1918	O	O
+in	1919,1921	O	O
+Fig	1922,1925	O	O
+.	1925,1926	O	O
+
+3	1927,1928	O	O
+.	1928,1929	O	O
 
 
diff --git a/data/ner/semeval2017/train.txt b/data/ner/semeval2017/train.txt
index bcff86e..8795f5d 100644
--- a/data/ner/semeval2017/train.txt
+++ b/data/ner/semeval2017/train.txt
@@ -1,69550 +1,69550 @@
 -DOCSTART- (S0003491615000433)
 
-Nuclear	0	7	B-Task
-theory	8	14	I-Task
-devoted	15	22	O
-major	23	28	O
-efforts	29	36	O
-since	37	42	O
-4	43	44	O
-decades	45	52	O
-to	53	55	O
-describe	56	64	O
-thermalization	65	79	B-Task
-in	80	82	O
-nuclear	83	90	B-Process
-reactions	91	100	I-Process
-,	100	101	O
-predominantly	102	115	O
-using	116	121	O
-semi	122	126	B-Process
--	126	127	I-Process
-classical	127	136	I-Process
-methods	137	144	I-Process
-[	146	147	O
-13,14,10	147	155	O
-]	155	156	O
-,	156	157	O
-in	158	160	O
-line	161	165	O
-with	166	170	O
-similar	171	178	O
-problems	179	187	O
-in	188	190	O
-quantum	191	198	B-Material
-liquids	199	206	I-Material
-[	208	209	O
-15,16	209	214	O
-]	214	215	O
-.	215	216	O
-
-There	217	222	O
-were	223	227	O
-attempts	228	236	O
-to	237	239	O
-develop	240	247	O
-improved	248	256	B-Process
-molecular	257	266	I-Process
-dynamics	267	275	I-Process
-methods	276	283	I-Process
-combining	284	293	B-Task
-quantum	294	301	I-Task
-features	302	310	I-Task
-with	311	315	O
-a	316	317	O
-semi	318	322	B-Process
-classical	323	332	I-Process
-treatment	333	342	I-Process
-of	343	345	I-Process
-dynamical	346	355	I-Process
-correlations	356	368	I-Process
-[	370	371	O
-17,18	371	376	O
-]	376	377	O
-.	377	378	O
-
-Still	379	384	O
-,	384	385	O
-no	386	388	O
-clear	389	394	O
--	394	395	O
-cut	395	398	O
-quantum	399	406	B-Process
-approach	407	415	I-Process
-is	416	418	O
-readily	419	426	O
-available	427	436	O
-yet	437	440	O
-,	440	441	O
-in	442	444	O
-spite	445	450	O
-of	451	453	O
-numerous	454	462	O
-formal	463	469	O
-attempts	470	478	O
-[	479	480	O
-19,20,10	480	488	O
-]	488	489	O
-.	489	490	O
-
-The	491	494	O
-field	495	500	B-Task
-of	501	503	I-Task
-clusters	504	512	I-Task
-and	513	516	I-Task
-nano	517	521	I-Task
-structures	522	532	I-Task
-is	533	535	O
-far	536	539	O
-younger	540	547	O
-but	548	551	O
-fast	552	556	O
-developing	557	567	O
-in	568	570	O
-relation	571	579	O
-to	580	582	O
-the	583	586	O
-ongoing	587	594	O
-developments	595	607	O
-of	608	610	O
-lasers	611	617	B-Process
-and	618	621	O
-imaging	622	629	B-Process
-techniques	630	640	I-Process
-.	640	641	O
-
-Semiclassical	642	655	O
-approaches	656	666	O
-were	667	671	O
-also	672	676	O
-considered	677	687	O
-in	688	690	O
-the	691	694	O
-field	695	700	O
-to	701	703	O
-include	704	711	O
-some	712	716	O
-dynamical	717	726	O
-corrections	727	738	O
-[	740	741	O
-21,22	741	746	O
-]	746	747	O
-and	748	751	O
-could	752	757	O
-qualitatively	758	771	B-Process
-describe	772	780	I-Process
-dynamical	781	790	I-Process
-processes	791	800	I-Process
-.	800	801	I-Process
-
-But	802	805	O
-such	806	810	O
-approaches	811	821	O
-are	822	825	O
-bound	826	831	O
-to	832	834	O
-simple	835	841	B-Material
-metals	842	848	I-Material
-with	849	853	I-Material
-sufficiently	854	866	I-Material
-delocalized	867	878	I-Material
-wave	879	883	I-Material
-functions	884	893	I-Material
-,	893	894	O
-and	895	898	O
-thus	899	903	O
-smooth	904	910	O
-potentials	911	921	O
-justifying	922	932	O
-semiclassical	933	946	O
-approximations	947	961	O
-.	961	962	O
-
-The	963	966	O
-case	967	971	O
-of	972	974	O
-organic	975	982	B-Task
-systems	983	990	I-Task
-,	990	991	O
-in	992	994	O
-particular	995	1005	O
-the	1006	1009	O
-much	1010	1014	O
-celebrated	1015	1025	O
-C60	1026	1029	B-Material
-
-[	1032	1033	O
-4,23	1033	1037	O
-]	1037	1038	O
-,	1038	1039	O
-can	1040	1043	O
-not	1043	1046	O
-be	1047	1049	O
-treated	1050	1057	O
-this	1058	1062	O
-way	1063	1066	O
-.	1066	1067	O
-
-Semi	1068	1072	O
-classical	1073	1082	O
-,	1082	1083	O
-and	1084	1087	O
-even	1088	1092	O
-classical	1093	1102	O
-approaches	1103	1113	O
-,	1113	1114	O
-can	1115	1118	O
-be	1119	1121	O
-used	1122	1126	O
-at	1127	1129	O
-very	1130	1134	O
-high	1135	1139	O
-excitations	1140	1151	O
-such	1152	1156	O
-as	1157	1159	O
-delivered	1160	1169	O
-by	1170	1172	O
-very	1173	1177	B-Process
-intense	1178	1185	I-Process
-laser	1186	1191	I-Process
-pulses	1192	1198	I-Process
-
-[	1200	1201	O
-2	1201	1202	O
-]	1202	1203	O
-.	1203	1204	O
-
-In	1205	1207	O
-such	1208	1212	O
-cases	1213	1218	O
-the	1219	1222	O
-system	1223	1229	O
-is	1230	1232	O
-blown	1233	1238	O
-up	1239	1241	O
-and	1242	1245	O
-details	1246	1253	O
-of	1254	1256	O
-its	1257	1260	O
-quantum	1261	1268	B-Task
-mechanical	1269	1279	I-Task
-features	1280	1288	I-Task
-do	1289	1291	O
-not	1292	1295	O
-matter	1296	1302	O
-anymore	1303	1310	O
-.	1310	1311	O
-
-But	1312	1315	O
-for	1316	1319	O
-less	1320	1324	O
-violent	1325	1332	O
-scenarios	1333	1342	O
-,	1342	1343	O
-quantum	1344	1351	B-Process
-shell	1352	1357	I-Process
-effects	1358	1365	I-Process
-can	1366	1369	O
-not	1369	1372	O
-be	1373	1375	O
-ignored	1376	1383	O
-.	1383	1384	O
+Nuclear	0,7	O	B-Task
+theory	8,14	O	I-Task
+devoted	15,22	O	O
+major	23,28	O	O
+efforts	29,36	O	O
+since	37,42	O	O
+4	43,44	O	O
+decades	45,52	O	O
+to	53,55	O	O
+describe	56,64	O	O
+thermalization	65,79	O	B-Task
+in	80,82	O	O
+nuclear	83,90	O	B-Process
+reactions	91,100	O	I-Process
+,	100,101	O	O
+predominantly	102,115	O	O
+using	116,121	O	O
+semi	122,126	O	B-Process
+-	126,127	O	I-Process
+classical	127,136	O	I-Process
+methods	137,144	O	I-Process
+[	146,147	O	O
+13,14,10	147,155	O	O
+]	155,156	O	O
+,	156,157	O	O
+in	158,160	O	O
+line	161,165	O	O
+with	166,170	O	O
+similar	171,178	O	O
+problems	179,187	O	O
+in	188,190	O	O
+quantum	191,198	O	B-Material
+liquids	199,206	O	I-Material
+[	208,209	O	O
+15,16	209,214	O	O
+]	214,215	O	O
+.	215,216	O	O
+
+There	217,222	O	O
+were	223,227	O	O
+attempts	228,236	O	O
+to	237,239	O	O
+develop	240,247	O	O
+improved	248,256	O	B-Process
+molecular	257,266	O	I-Process
+dynamics	267,275	O	I-Process
+methods	276,283	O	I-Process
+combining	284,293	O	B-Task
+quantum	294,301	O	I-Task
+features	302,310	O	I-Task
+with	311,315	O	O
+a	316,317	O	O
+semi	318,322	O	B-Process
+classical	323,332	O	I-Process
+treatment	333,342	O	I-Process
+of	343,345	O	I-Process
+dynamical	346,355	O	I-Process
+correlations	356,368	O	I-Process
+[	370,371	O	O
+17,18	371,376	O	O
+]	376,377	O	O
+.	377,378	O	O
+
+Still	379,384	O	O
+,	384,385	O	O
+no	386,388	O	O
+clear	389,394	O	O
+-	394,395	O	O
+cut	395,398	O	O
+quantum	399,406	O	B-Process
+approach	407,415	O	I-Process
+is	416,418	O	O
+readily	419,426	O	O
+available	427,436	O	O
+yet	437,440	O	O
+,	440,441	O	O
+in	442,444	O	O
+spite	445,450	O	O
+of	451,453	O	O
+numerous	454,462	O	O
+formal	463,469	O	O
+attempts	470,478	O	O
+[	479,480	O	O
+19,20,10	480,488	O	O
+]	488,489	O	O
+.	489,490	O	O
+
+The	491,494	O	O
+field	495,500	O	B-Task
+of	501,503	O	I-Task
+clusters	504,512	O	I-Task
+and	513,516	O	I-Task
+nano	517,521	O	I-Task
+structures	522,532	O	I-Task
+is	533,535	O	O
+far	536,539	O	O
+younger	540,547	O	O
+but	548,551	O	O
+fast	552,556	O	O
+developing	557,567	O	O
+in	568,570	O	O
+relation	571,579	O	O
+to	580,582	O	O
+the	583,586	O	O
+ongoing	587,594	O	O
+developments	595,607	O	O
+of	608,610	O	O
+lasers	611,617	O	B-Process
+and	618,621	O	O
+imaging	622,629	O	B-Process
+techniques	630,640	O	I-Process
+.	640,641	O	O
+
+Semiclassical	642,655	O	O
+approaches	656,666	O	O
+were	667,671	O	O
+also	672,676	O	O
+considered	677,687	O	O
+in	688,690	O	O
+the	691,694	O	O
+field	695,700	O	O
+to	701,703	O	O
+include	704,711	O	O
+some	712,716	O	O
+dynamical	717,726	O	O
+corrections	727,738	O	O
+[	740,741	O	O
+21,22	741,746	O	O
+]	746,747	O	O
+and	748,751	O	O
+could	752,757	O	O
+qualitatively	758,771	O	B-Process
+describe	772,780	O	I-Process
+dynamical	781,790	O	I-Process
+processes	791,800	O	I-Process
+.	800,801	O	I-Process
+
+But	802,805	O	O
+such	806,810	O	O
+approaches	811,821	O	O
+are	822,825	O	O
+bound	826,831	O	O
+to	832,834	O	O
+simple	835,841	O	B-Material
+metals	842,848	O	I-Material
+with	849,853	O	I-Material
+sufficiently	854,866	O	I-Material
+delocalized	867,878	O	I-Material
+wave	879,883	O	I-Material
+functions	884,893	O	I-Material
+,	893,894	O	O
+and	895,898	O	O
+thus	899,903	O	O
+smooth	904,910	O	O
+potentials	911,921	O	O
+justifying	922,932	O	O
+semiclassical	933,946	O	O
+approximations	947,961	O	O
+.	961,962	O	O
+
+The	963,966	O	O
+case	967,971	O	O
+of	972,974	O	O
+organic	975,982	O	B-Task
+systems	983,990	O	I-Task
+,	990,991	O	O
+in	992,994	O	O
+particular	995,1005	O	O
+the	1006,1009	O	O
+much	1010,1014	O	O
+celebrated	1015,1025	O	O
+C60	1026,1029	O	B-Material
+
+[	1032,1033	O	O
+4,23	1033,1037	O	O
+]	1037,1038	O	O
+,	1038,1039	O	O
+can	1040,1043	O	O
+not	1043,1046	O	O
+be	1047,1049	O	O
+treated	1050,1057	O	O
+this	1058,1062	O	O
+way	1063,1066	O	O
+.	1066,1067	O	O
+
+Semi	1068,1072	O	O
+classical	1073,1082	O	O
+,	1082,1083	O	O
+and	1084,1087	O	O
+even	1088,1092	O	O
+classical	1093,1102	O	O
+approaches	1103,1113	O	O
+,	1113,1114	O	O
+can	1115,1118	O	O
+be	1119,1121	O	O
+used	1122,1126	O	O
+at	1127,1129	O	O
+very	1130,1134	O	O
+high	1135,1139	O	O
+excitations	1140,1151	O	O
+such	1152,1156	O	O
+as	1157,1159	O	O
+delivered	1160,1169	O	O
+by	1170,1172	O	O
+very	1173,1177	O	B-Process
+intense	1178,1185	O	I-Process
+laser	1186,1191	O	I-Process
+pulses	1192,1198	O	I-Process
+
+[	1200,1201	O	O
+2	1201,1202	O	O
+]	1202,1203	O	O
+.	1203,1204	O	O
+
+In	1205,1207	O	O
+such	1208,1212	O	O
+cases	1213,1218	O	O
+the	1219,1222	O	O
+system	1223,1229	O	O
+is	1230,1232	O	O
+blown	1233,1238	O	O
+up	1239,1241	O	O
+and	1242,1245	O	O
+details	1246,1253	O	O
+of	1254,1256	O	O
+its	1257,1260	O	O
+quantum	1261,1268	O	B-Task
+mechanical	1269,1279	O	I-Task
+features	1280,1288	O	I-Task
+do	1289,1291	O	O
+not	1292,1295	O	O
+matter	1296,1302	O	O
+anymore	1303,1310	O	O
+.	1310,1311	O	O
+
+But	1312,1315	O	O
+for	1316,1319	O	O
+less	1320,1324	O	O
+violent	1325,1332	O	O
+scenarios	1333,1342	O	O
+,	1342,1343	O	O
+quantum	1344,1351	O	B-Process
+shell	1352,1357	O	I-Process
+effects	1358,1365	O	I-Process
+can	1366,1369	O	O
+not	1369,1372	O	O
+be	1373,1375	O	O
+ignored	1376,1383	O	O
+.	1383,1384	O	O
 
 
 -DOCSTART- (S0003491615001505)
 
-The	0	3	O
-next	4	8	O
-important	9	18	O
-step	19	23	O
-might	24	29	O
-be	30	32	O
-the	33	36	O
-derivation	37	47	O
-of	48	50	O
-the	51	54	O
-Dirac	55	60	B-Process
-equation	61	69	I-Process
-.	69	70	O
-
-The	71	74	B-Process
-Creutz	75	81	I-Process
-model	82	87	I-Process
-[	89	90	O
-32	90	92	O
-]	92	93	O
-suggests	94	102	O
-that	103	107	O
-we	108	110	O
-should	111	117	O
-consider	118	126	O
-incorporating	127	140	O
-into	141	145	O
-the	146	149	O
-logical	150	157	O
-inference	158	167	O
-treatment	168	177	O
-,	177	178	O
-the	179	182	O
-additional	183	193	O
-knowledge	194	203	O
-that	204	208	O
-one	209	212	O
-has	213	216	O
-objects	217	224	B-Process
-hopping	225	232	I-Process
-on	233	235	I-Process
-a	236	237	I-Process
-lattice	238	245	I-Process
-instead	246	253	I-Process
-of	254	256	I-Process
-particles	257	266	I-Process
-moving	267	273	O
-in	274	276	O
-a	277	278	O
-space	279	284	O
--	284	285	O
-time	285	289	O
-continuum	290	299	O
-.	299	300	O
-
-Recall	301	307	O
-that	308	312	O
-up	313	315	O
-to	316	318	O
-Section	319	326	O
-2.4	328	331	O
-,	331	332	O
-the	333	336	O
-description	337	348	O
-of	349	351	O
-the	352	355	O
-measurement	356	367	B-Task
-scenario	368	376	I-Task
-,	376	377	O
-robustness	378	388	O
-etc	389	392	O
-.	392	393	O
-is	394	396	O
-explicitly	397	407	O
-discrete	408	416	O
-.	416	417	O
-
-In	418	420	O
-Section	421	428	O
-2.4	430	433	O
-,	433	434	O
-the	435	438	O
-continuum	439	448	O
-limit	449	454	O
-was	455	458	O
-taken	459	464	O
-only	465	469	O
-because	470	477	O
-our	478	481	O
-aim	482	485	O
-was	486	489	O
-to	490	492	O
-derive	493	499	O
-the	500	503	O
-Pauli	504	509	B-Process
-equation	510	518	I-Process
-,	518	519	O
-which	520	525	O
-is	526	528	O
-formulated	529	539	O
-in	540	542	O
-continuum	543	552	B-Material
-space	553	558	I-Material
--	558	559	I-Material
-time	559	563	I-Material
-.	563	564	O
-
-Of	565	567	O
-course	568	574	O
-,	574	575	O
-the	576	579	O
-description	580	591	O
-of	592	594	O
-the	595	598	O
-motion	599	605	B-Task
-of	606	608	I-Task
-the	609	612	I-Task
-particle	613	621	I-Task
-in	622	624	O
-Section	625	632	O
-2.6	634	637	O
-is	638	640	O
-entirely	641	649	O
-within	650	656	O
-a	657	658	O
-continuum	659	668	O
-description	669	680	O
-but	681	684	O
-there	685	690	O
-is	691	693	O
-no	694	696	O
-fundamental	697	708	O
-obstacle	709	717	O
-to	718	720	O
-replace	721	728	O
-this	729	733	O
-treatment	734	743	O
-by	744	746	O
-a	747	748	O
-proper	749	755	O
-treatment	756	765	O
-of	766	768	O
-objects	769	776	B-Material
-hopping	777	784	O
-on	785	787	O
-a	788	789	O
-lattice	790	797	B-Material
-.	797	798	O
-
-Therefore	799	808	O
-it	809	811	O
-seems	812	817	O
-plausible	818	827	O
-that	828	832	O
-the	833	836	O
-logical	837	844	O
-inference	845	854	O
-approach	855	863	O
-can	864	867	O
-be	868	870	O
-extended	871	879	O
-to	880	882	O
-describe	883	891	O
-massless	892	900	B-Material
-spin-1/2	901	909	I-Material
-particles	910	919	I-Material
-moving	920	926	O
-in	927	929	O
-continuum	930	939	O
-space	940	945	O
--	945	946	O
-time	946	950	O
-by	951	953	O
-considering	954	965	O
-the	966	969	O
-continuum	970	979	O
-limit	980	985	O
-of	986	988	O
-the	989	992	O
-corresponding	993	1006	O
-lattice	1007	1014	B-Process
-model	1015	1020	I-Process
-.	1020	1021	O
-
-An	1022	1024	O
-in	1025	1027	O
--	1027	1028	O
-depth	1028	1033	O
-,	1033	1034	O
-general	1035	1042	O
-treatment	1043	1052	O
-of	1053	1055	O
-this	1056	1060	O
-problem	1061	1068	O
-is	1069	1071	O
-beyond	1072	1078	O
-the	1079	1082	O
-scope	1083	1088	O
-of	1089	1091	O
-the	1092	1095	O
-present	1096	1103	O
-paper	1104	1109	O
-and	1110	1113	O
-we	1114	1116	O
-therefore	1117	1126	O
-leave	1127	1132	O
-this	1133	1137	O
-interesting	1138	1149	O
-problem	1150	1157	O
-for	1158	1161	O
-future	1162	1168	B-Task
-research	1169	1177	I-Task
-.	1177	1178	O
+The	0,3	O	O
+next	4,8	O	O
+important	9,18	O	O
+step	19,23	O	O
+might	24,29	O	O
+be	30,32	O	O
+the	33,36	O	O
+derivation	37,47	O	O
+of	48,50	O	O
+the	51,54	O	O
+Dirac	55,60	O	B-Process
+equation	61,69	O	I-Process
+.	69,70	O	O
+
+The	71,74	O	B-Process
+Creutz	75,81	O	I-Process
+model	82,87	O	I-Process
+[	89,90	O	O
+32	90,92	O	O
+]	92,93	O	O
+suggests	94,102	O	O
+that	103,107	O	O
+we	108,110	O	O
+should	111,117	O	O
+consider	118,126	O	O
+incorporating	127,140	O	O
+into	141,145	O	O
+the	146,149	O	O
+logical	150,157	O	O
+inference	158,167	O	O
+treatment	168,177	O	O
+,	177,178	O	O
+the	179,182	O	O
+additional	183,193	O	O
+knowledge	194,203	O	O
+that	204,208	O	O
+one	209,212	O	O
+has	213,216	O	O
+objects	217,224	O	B-Process
+hopping	225,232	O	I-Process
+on	233,235	O	I-Process
+a	236,237	O	I-Process
+lattice	238,245	O	I-Process
+instead	246,253	O	I-Process
+of	254,256	O	I-Process
+particles	257,266	O	I-Process
+moving	267,273	O	O
+in	274,276	O	O
+a	277,278	O	O
+space	279,284	O	O
+-	284,285	O	O
+time	285,289	O	O
+continuum	290,299	O	O
+.	299,300	O	O
+
+Recall	301,307	O	O
+that	308,312	O	O
+up	313,315	O	O
+to	316,318	O	O
+Section	319,326	O	O
+2.4	328,331	O	O
+,	331,332	O	O
+the	333,336	O	O
+description	337,348	O	O
+of	349,351	O	O
+the	352,355	O	O
+measurement	356,367	O	B-Task
+scenario	368,376	O	I-Task
+,	376,377	O	O
+robustness	378,388	O	O
+etc	389,392	O	O
+.	392,393	O	O
+is	394,396	O	O
+explicitly	397,407	O	O
+discrete	408,416	O	O
+.	416,417	O	O
+
+In	418,420	O	O
+Section	421,428	O	O
+2.4	430,433	O	O
+,	433,434	O	O
+the	435,438	O	O
+continuum	439,448	O	O
+limit	449,454	O	O
+was	455,458	O	O
+taken	459,464	O	O
+only	465,469	O	O
+because	470,477	O	O
+our	478,481	O	O
+aim	482,485	O	O
+was	486,489	O	O
+to	490,492	O	O
+derive	493,499	O	O
+the	500,503	O	O
+Pauli	504,509	O	B-Process
+equation	510,518	O	I-Process
+,	518,519	O	O
+which	520,525	O	O
+is	526,528	O	O
+formulated	529,539	O	O
+in	540,542	O	O
+continuum	543,552	O	B-Material
+space	553,558	O	I-Material
+-	558,559	O	I-Material
+time	559,563	O	I-Material
+.	563,564	O	O
+
+Of	565,567	O	O
+course	568,574	O	O
+,	574,575	O	O
+the	576,579	O	O
+description	580,591	O	O
+of	592,594	O	O
+the	595,598	O	O
+motion	599,605	O	B-Task
+of	606,608	O	I-Task
+the	609,612	O	I-Task
+particle	613,621	O	I-Task
+in	622,624	O	O
+Section	625,632	O	O
+2.6	634,637	O	O
+is	638,640	O	O
+entirely	641,649	O	O
+within	650,656	O	O
+a	657,658	O	O
+continuum	659,668	O	O
+description	669,680	O	O
+but	681,684	O	O
+there	685,690	O	O
+is	691,693	O	O
+no	694,696	O	O
+fundamental	697,708	O	O
+obstacle	709,717	O	O
+to	718,720	O	O
+replace	721,728	O	O
+this	729,733	O	O
+treatment	734,743	O	O
+by	744,746	O	O
+a	747,748	O	O
+proper	749,755	O	O
+treatment	756,765	O	O
+of	766,768	O	O
+objects	769,776	O	B-Material
+hopping	777,784	O	O
+on	785,787	O	O
+a	788,789	O	O
+lattice	790,797	O	B-Material
+.	797,798	O	O
+
+Therefore	799,808	O	O
+it	809,811	O	O
+seems	812,817	O	O
+plausible	818,827	O	O
+that	828,832	O	O
+the	833,836	O	O
+logical	837,844	O	O
+inference	845,854	O	O
+approach	855,863	O	O
+can	864,867	O	O
+be	868,870	O	O
+extended	871,879	O	O
+to	880,882	O	O
+describe	883,891	O	O
+massless	892,900	O	B-Material
+spin-1/2	901,909	O	I-Material
+particles	910,919	O	I-Material
+moving	920,926	O	O
+in	927,929	O	O
+continuum	930,939	O	O
+space	940,945	O	O
+-	945,946	O	O
+time	946,950	O	O
+by	951,953	O	O
+considering	954,965	O	O
+the	966,969	O	O
+continuum	970,979	O	O
+limit	980,985	O	O
+of	986,988	O	O
+the	989,992	O	O
+corresponding	993,1006	O	O
+lattice	1007,1014	O	B-Process
+model	1015,1020	O	I-Process
+.	1020,1021	O	O
+
+An	1022,1024	O	O
+in	1025,1027	O	O
+-	1027,1028	O	O
+depth	1028,1033	O	O
+,	1033,1034	O	O
+general	1035,1042	O	O
+treatment	1043,1052	O	O
+of	1053,1055	O	O
+this	1056,1060	O	O
+problem	1061,1068	O	O
+is	1069,1071	O	O
+beyond	1072,1078	O	O
+the	1079,1082	O	O
+scope	1083,1088	O	O
+of	1089,1091	O	O
+the	1092,1095	O	O
+present	1096,1103	O	O
+paper	1104,1109	O	O
+and	1110,1113	O	O
+we	1114,1116	O	O
+therefore	1117,1126	O	O
+leave	1127,1132	O	O
+this	1133,1137	O	O
+interesting	1138,1149	O	O
+problem	1150,1157	O	O
+for	1158,1161	O	O
+future	1162,1168	O	B-Task
+research	1169,1177	O	I-Task
+.	1177,1178	O	O
 
 
 -DOCSTART- (S0003491615001955)
 
-A	0	1	O
-fluctuating	2	13	B-Material
-vacuum	14	20	I-Material
-is	21	23	O
-a	24	25	O
-general	26	33	O
-feature	34	41	O
-of	42	44	O
-quantum	45	52	B-Task
-fields	53	59	I-Task
-,	59	60	O
-of	61	63	O
-which	64	69	O
-the	70	73	O
-free	74	78	B-Process
-Maxwell	79	86	I-Process
-field	87	92	I-Process
-considered	93	103	O
-in	104	106	O
-[	108	109	O
-1–12	109	113	O
-]	113	114	O
-is	115	117	O
-but	118	121	O
-one	122	125	O
-example	126	133	O
-.	133	134	O
-
-Fermionic	135	144	B-Process
-fields	145	151	I-Process
-such	152	156	O
-as	157	159	O
-that	160	164	O
-describing	165	175	O
-the	176	179	O
-electron	180	188	O
-,	188	189	O
-also	190	194	O
-undergo	195	202	B-Process
-vacuum	203	209	I-Process
-fluctuations	210	222	I-Process
-,	222	223	O
-consequently	224	236	O
-one	237	240	O
-expects	241	248	O
-to	249	251	O
-find	252	256	O
-Casimir	257	264	B-Process
-effects	265	272	I-Process
-associated	273	283	O
-with	284	288	O
-such	289	293	B-Process
-fields	294	300	I-Process
-whenever	301	309	O
-they	310	314	O
-are	315	318	O
-confined	319	327	O
-in	328	330	O
-some	331	335	O
-way	336	339	O
-.	339	340	O
-
-Such	341	345	O
-effects	346	353	O
-were	354	358	O
-first	359	364	O
-investigated	365	377	O
-in	378	380	O
-the	381	384	O
-context	385	392	O
-of	393	395	O
-nuclear	396	403	B-Task
-physics	404	411	I-Task
-,	411	412	O
-within	413	419	O
-the	420	423	O
-so	424	426	O
--	426	427	O
-called	427	433	O
-“	434	435	B-Task
-MIT	435	438	I-Task
-bag	439	442	I-Task
-model	443	448	I-Task
-”	448	449	I-Task
-of	450	452	I-Task
-the	453	456	I-Task
-nucleon	457	464	I-Task
-[	466	467	O
-13	467	469	O
-]	469	470	O
-.	470	471	O
-
-In	472	474	O
-the	475	478	O
-bag	479	482	O
--	482	483	O
-model	483	488	O
-one	489	492	O
-envisages	493	502	O
-the	503	506	O
-nucleon	507	514	B-Material
-as	515	517	O
-a	518	519	B-Task
-collection	520	530	I-Task
-of	531	533	I-Task
-fermionic	534	543	I-Task
-fields	544	550	I-Task
-describing	551	561	I-Task
-confined	562	570	I-Task
-quarks	571	577	I-Task
-.	577	578	O
-
-These	579	584	O
-quarks	585	591	O
-are	592	595	O
-subject	596	603	O
-to	604	606	O
-a	607	608	O
-boundary	609	617	O
-condition	618	627	O
-at	628	630	O
-the	631	634	O
-surface	635	642	O
-of	643	645	O
-the	646	649	O
-‘	650	651	O
-bag’	651	655	O
-that	656	660	O
-represents	661	671	O
-the	672	675	O
-nucleon	676	683	O
-’s	683	685	O
-surface	686	693	O
-.	693	694	O
-
-Just	695	699	O
-as	700	702	O
-in	703	705	O
-the	706	709	O
-electromagnetic	710	725	O
-case	726	730	O
-,	730	731	O
-the	732	735	B-Process
-bag	736	739	I-Process
-boundary	740	748	I-Process
-condition	749	758	I-Process
-modifies	759	767	I-Process
-the	768	771	I-Process
-vacuum	772	778	I-Process
-fluctuations	779	791	I-Process
-of	792	794	I-Process
-the	795	798	I-Process
-field	799	804	I-Process
-,	804	805	O
-which	806	811	O
-results	812	819	O
-in	820	822	O
-the	823	826	O
-appearance	827	837	O
-of	838	840	O
-a	841	842	O
-Casimir	843	850	B-Task
-force	851	856	I-Task
-
-[	858	859	O
-14–18	859	864	O
-]	864	865	O
-.	865	866	O
-
-This	867	871	O
-force	872	877	O
-,	877	878	O
-although	879	887	O
-very	888	892	O
-weak	893	897	O
-at	898	900	O
-a	901	902	O
-macroscopic	903	914	O
-scale	915	920	O
-,	920	921	O
-can	922	925	O
-be	926	928	O
-significant	929	940	O
-on	941	943	O
-the	944	947	O
-small	948	953	O
-length	954	960	O
-scales	961	967	O
-encountered	968	979	O
-in	980	982	O
-nuclear	983	990	B-Task
-physics	991	998	I-Task
-.	998	999	O
-
-It	1000	1002	O
-therefore	1003	1012	O
-has	1013	1016	O
-important	1017	1026	O
-consequences	1027	1039	O
-for	1040	1043	O
-the	1044	1047	O
-physics	1048	1055	O
-of	1056	1058	O
-the	1059	1062	O
-bag	1063	1066	B-Material
--	1066	1067	I-Material
-model	1067	1072	I-Material
-nucleon	1073	1080	I-Material
-[	1082	1083	O
-19	1083	1085	O
-]	1085	1086	O
-.	1086	1087	O
+A	0,1	O	O
+fluctuating	2,13	O	B-Material
+vacuum	14,20	O	I-Material
+is	21,23	O	O
+a	24,25	O	O
+general	26,33	O	O
+feature	34,41	O	O
+of	42,44	O	O
+quantum	45,52	O	B-Task
+fields	53,59	O	I-Task
+,	59,60	O	O
+of	61,63	O	O
+which	64,69	O	O
+the	70,73	O	O
+free	74,78	O	B-Process
+Maxwell	79,86	O	I-Process
+field	87,92	O	I-Process
+considered	93,103	O	O
+in	104,106	O	O
+[	108,109	O	O
+1–12	109,113	O	O
+]	113,114	O	O
+is	115,117	O	O
+but	118,121	O	O
+one	122,125	O	O
+example	126,133	O	O
+.	133,134	O	O
+
+Fermionic	135,144	O	B-Process
+fields	145,151	O	I-Process
+such	152,156	O	O
+as	157,159	O	O
+that	160,164	O	O
+describing	165,175	O	O
+the	176,179	O	O
+electron	180,188	O	O
+,	188,189	O	O
+also	190,194	O	O
+undergo	195,202	O	B-Process
+vacuum	203,209	O	I-Process
+fluctuations	210,222	O	I-Process
+,	222,223	O	O
+consequently	224,236	O	O
+one	237,240	O	O
+expects	241,248	O	O
+to	249,251	O	O
+find	252,256	O	O
+Casimir	257,264	O	B-Process
+effects	265,272	O	I-Process
+associated	273,283	O	O
+with	284,288	O	O
+such	289,293	O	B-Process
+fields	294,300	O	I-Process
+whenever	301,309	O	O
+they	310,314	O	O
+are	315,318	O	O
+confined	319,327	O	O
+in	328,330	O	O
+some	331,335	O	O
+way	336,339	O	O
+.	339,340	O	O
+
+Such	341,345	O	O
+effects	346,353	O	O
+were	354,358	O	O
+first	359,364	O	O
+investigated	365,377	O	O
+in	378,380	O	O
+the	381,384	O	O
+context	385,392	O	O
+of	393,395	O	O
+nuclear	396,403	O	B-Task
+physics	404,411	O	I-Task
+,	411,412	O	O
+within	413,419	O	O
+the	420,423	O	O
+so	424,426	O	O
+-	426,427	O	O
+called	427,433	O	O
+“	434,435	O	B-Task
+MIT	435,438	O	I-Task
+bag	439,442	O	I-Task
+model	443,448	O	I-Task
+”	448,449	O	I-Task
+of	450,452	O	I-Task
+the	453,456	O	I-Task
+nucleon	457,464	O	I-Task
+[	466,467	O	O
+13	467,469	O	O
+]	469,470	O	O
+.	470,471	O	O
+
+In	472,474	O	O
+the	475,478	O	O
+bag	479,482	O	O
+-	482,483	O	O
+model	483,488	O	O
+one	489,492	O	O
+envisages	493,502	O	O
+the	503,506	O	O
+nucleon	507,514	O	B-Material
+as	515,517	O	O
+a	518,519	O	B-Task
+collection	520,530	O	I-Task
+of	531,533	O	I-Task
+fermionic	534,543	O	I-Task
+fields	544,550	O	I-Task
+describing	551,561	O	I-Task
+confined	562,570	O	I-Task
+quarks	571,577	O	I-Task
+.	577,578	O	O
+
+These	579,584	O	O
+quarks	585,591	O	O
+are	592,595	O	O
+subject	596,603	O	O
+to	604,606	O	O
+a	607,608	O	O
+boundary	609,617	O	O
+condition	618,627	O	O
+at	628,630	O	O
+the	631,634	O	O
+surface	635,642	O	O
+of	643,645	O	O
+the	646,649	O	O
+‘	650,651	O	O
+bag’	651,655	O	O
+that	656,660	O	O
+represents	661,671	O	O
+the	672,675	O	O
+nucleon	676,683	O	O
+’s	683,685	O	O
+surface	686,693	O	O
+.	693,694	O	O
+
+Just	695,699	O	O
+as	700,702	O	O
+in	703,705	O	O
+the	706,709	O	O
+electromagnetic	710,725	O	O
+case	726,730	O	O
+,	730,731	O	O
+the	732,735	O	B-Process
+bag	736,739	O	I-Process
+boundary	740,748	O	I-Process
+condition	749,758	O	I-Process
+modifies	759,767	O	I-Process
+the	768,771	O	I-Process
+vacuum	772,778	O	I-Process
+fluctuations	779,791	O	I-Process
+of	792,794	O	I-Process
+the	795,798	O	I-Process
+field	799,804	O	I-Process
+,	804,805	O	O
+which	806,811	O	O
+results	812,819	O	O
+in	820,822	O	O
+the	823,826	O	O
+appearance	827,837	O	O
+of	838,840	O	O
+a	841,842	O	O
+Casimir	843,850	O	B-Task
+force	851,856	O	I-Task
+
+[	858,859	O	O
+14–18	859,864	O	O
+]	864,865	O	O
+.	865,866	O	O
+
+This	867,871	O	O
+force	872,877	O	O
+,	877,878	O	O
+although	879,887	O	O
+very	888,892	O	O
+weak	893,897	O	O
+at	898,900	O	O
+a	901,902	O	O
+macroscopic	903,914	O	O
+scale	915,920	O	O
+,	920,921	O	O
+can	922,925	O	O
+be	926,928	O	O
+significant	929,940	O	O
+on	941,943	O	O
+the	944,947	O	O
+small	948,953	O	O
+length	954,960	O	O
+scales	961,967	O	O
+encountered	968,979	O	O
+in	980,982	O	O
+nuclear	983,990	O	B-Task
+physics	991,998	O	I-Task
+.	998,999	O	O
+
+It	1000,1002	O	O
+therefore	1003,1012	O	O
+has	1013,1016	O	O
+important	1017,1026	O	O
+consequences	1027,1039	O	O
+for	1040,1043	O	O
+the	1044,1047	O	O
+physics	1048,1055	O	O
+of	1056,1058	O	O
+the	1059,1062	O	O
+bag	1063,1066	O	B-Material
+-	1066,1067	O	I-Material
+model	1067,1072	O	I-Material
+nucleon	1073,1080	O	I-Material
+[	1082,1083	O	O
+19	1083,1085	O	O
+]	1085,1086	O	O
+.	1086,1087	O	O
 
 
 -DOCSTART- (S0009261409006666)
 
-We	0	2	O
-have	3	7	O
-presented	8	17	O
-spectrally	18	28	B-Process
-resolved	29	37	I-Process
-femtosecond	38	49	I-Process
-three	50	55	I-Process
--	55	56	I-Process
-pulse	56	61	I-Process
-photon	62	68	I-Process
-echo	69	73	I-Process
-measurements	74	86	I-Process
-on	87	89	O
-Zn(II)–OEP	90	100	B-Material
-,	100	101	O
-Ni(II)–OEP	102	112	B-Material
-and	113	116	O
-Co(II)–OEP	117	127	B-Material
-.	127	128	O
-
-Increased	129	138	B-Task
-degree	139	145	I-Task
-of	146	148	I-Task
-freedom	149	156	I-Task
-in	157	159	O
-scans	160	165	O
-of	166	168	O
-time	169	173	O
-delays	174	180	O
-allows	181	187	O
-one	188	191	O
-to	192	194	O
-separate	195	203	B-Process
-and	204	207	I-Process
-extract	208	215	I-Process
-specific	216	224	I-Process
-type	225	229	I-Process
-of	230	232	I-Process
-spectroscopic	233	246	I-Process
-information	247	258	I-Process
-in	259	261	O
-complex	262	269	B-Material
-molecules	270	279	I-Material
-by	280	282	O
-studying	283	291	O
-spectral	292	300	B-Process
-and	301	304	I-Process
-temporal	305	313	I-Process
-evolution	314	323	I-Process
-of	324	326	I-Process
-the	327	330	I-Process
-photon	331	337	I-Process
-echo	338	342	I-Process
-signals	343	350	I-Process
-.	350	351	O
-
-By	352	354	O
-varying	355	362	B-Process
-the	363	366	I-Process
-population	367	377	I-Process
-times	378	383	I-Process
-,	383	384	O
-population	385	395	B-Task
-relaxation	396	406	I-Task
-dynamics	407	415	I-Task
-and	416	419	O
-inhomogeneous	420	433	B-Process
-broadening	434	444	I-Process
-is	445	447	O
-revealed	448	456	O
-in	457	459	O
-the	460	463	O
-photon	464	470	B-Material
-echo	471	475	I-Material
-spectra	476	483	I-Material
-.	483	484	O
-
-Time	485	489	B-Material
--	489	490	I-Material
-integrated	490	500	I-Material
-photon	501	507	I-Material
-echo	508	512	I-Material
-signals	513	520	I-Material
-show	521	525	O
-two	526	529	O
-different	530	539	O
-timescales	540	550	B-Material
-.	550	551	O
-
-The	552	555	O
-electronic	556	566	B-Material
-relaxation	567	577	I-Material
-timescale	578	587	I-Material
-is	588	590	O
-found	591	596	O
-to	597	599	O
-be	600	602	O
-sub	603	606	B-Material
-50fs	607	611	I-Material
-whereas	612	619	O
-the	620	623	O
-timescale	624	633	B-Material
-for	634	637	O
-intramolecular	638	652	B-Process
-vibrational	653	664	I-Process
-relaxation	665	675	I-Process
-,	675	676	O
-occurring	677	686	O
-in	687	689	O
-Q00	690	693	B-Material
-band	694	698	I-Material
-,	698	699	O
-was	700	703	O
-found	704	709	O
-to	710	712	O
-be	713	715	O
-over	716	720	O
-a	721	722	O
-picosecond	723	733	O
-for	734	737	O
-Co(II)–OEP	738	748	B-Material
-and	749	752	O
-Ni(II)–OEP	753	763	B-Material
-and	764	767	O
-within	768	774	B-Material
-a	775	776	I-Material
-picosecond	777	787	I-Material
-for	788	791	I-Material
-Zn(II)–OEP	792	802	I-Material
-.	802	803	O
+We	0,2	O	O
+have	3,7	O	O
+presented	8,17	O	O
+spectrally	18,28	O	B-Process
+resolved	29,37	O	I-Process
+femtosecond	38,49	O	I-Process
+three	50,55	O	I-Process
+-	55,56	O	I-Process
+pulse	56,61	O	I-Process
+photon	62,68	O	I-Process
+echo	69,73	O	I-Process
+measurements	74,86	O	I-Process
+on	87,89	O	O
+Zn(II)–OEP	90,100	O	B-Material
+,	100,101	O	O
+Ni(II)–OEP	102,112	O	B-Material
+and	113,116	O	O
+Co(II)–OEP	117,127	O	B-Material
+.	127,128	O	O
+
+Increased	129,138	O	B-Task
+degree	139,145	O	I-Task
+of	146,148	O	I-Task
+freedom	149,156	O	I-Task
+in	157,159	O	O
+scans	160,165	O	O
+of	166,168	O	O
+time	169,173	O	O
+delays	174,180	O	O
+allows	181,187	O	O
+one	188,191	O	O
+to	192,194	O	O
+separate	195,203	O	B-Process
+and	204,207	O	I-Process
+extract	208,215	O	I-Process
+specific	216,224	O	I-Process
+type	225,229	O	I-Process
+of	230,232	O	I-Process
+spectroscopic	233,246	O	I-Process
+information	247,258	O	I-Process
+in	259,261	O	O
+complex	262,269	O	B-Material
+molecules	270,279	O	I-Material
+by	280,282	O	O
+studying	283,291	O	O
+spectral	292,300	O	B-Process
+and	301,304	O	I-Process
+temporal	305,313	O	I-Process
+evolution	314,323	O	I-Process
+of	324,326	O	I-Process
+the	327,330	O	I-Process
+photon	331,337	O	I-Process
+echo	338,342	O	I-Process
+signals	343,350	O	I-Process
+.	350,351	O	O
+
+By	352,354	O	O
+varying	355,362	O	B-Process
+the	363,366	O	I-Process
+population	367,377	O	I-Process
+times	378,383	O	I-Process
+,	383,384	O	O
+population	385,395	O	B-Task
+relaxation	396,406	O	I-Task
+dynamics	407,415	O	I-Task
+and	416,419	O	O
+inhomogeneous	420,433	O	B-Process
+broadening	434,444	O	I-Process
+is	445,447	O	O
+revealed	448,456	O	O
+in	457,459	O	O
+the	460,463	O	O
+photon	464,470	O	B-Material
+echo	471,475	O	I-Material
+spectra	476,483	O	I-Material
+.	483,484	O	O
+
+Time	485,489	O	B-Material
+-	489,490	O	I-Material
+integrated	490,500	O	I-Material
+photon	501,507	O	I-Material
+echo	508,512	O	I-Material
+signals	513,520	O	I-Material
+show	521,525	O	O
+two	526,529	O	O
+different	530,539	O	O
+timescales	540,550	O	B-Material
+.	550,551	O	O
+
+The	552,555	O	O
+electronic	556,566	O	B-Material
+relaxation	567,577	O	I-Material
+timescale	578,587	O	I-Material
+is	588,590	O	O
+found	591,596	O	O
+to	597,599	O	O
+be	600,602	O	O
+sub	603,606	O	B-Material
+50fs	607,611	O	I-Material
+whereas	612,619	O	O
+the	620,623	O	O
+timescale	624,633	O	B-Material
+for	634,637	O	O
+intramolecular	638,652	O	B-Process
+vibrational	653,664	O	I-Process
+relaxation	665,675	O	I-Process
+,	675,676	O	O
+occurring	677,686	O	O
+in	687,689	O	O
+Q00	690,693	O	B-Material
+band	694,698	O	I-Material
+,	698,699	O	O
+was	700,703	O	O
+found	704,709	O	O
+to	710,712	O	O
+be	713,715	O	O
+over	716,720	O	O
+a	721,722	O	O
+picosecond	723,733	O	O
+for	734,737	O	O
+Co(II)–OEP	738,748	O	B-Material
+and	749,752	O	O
+Ni(II)–OEP	753,763	O	B-Material
+and	764,767	O	O
+within	768,774	O	B-Material
+a	775,776	O	I-Material
+picosecond	777,787	O	I-Material
+for	788,791	O	I-Material
+Zn(II)–OEP	792,802	O	I-Material
+.	802,803	O	O
 
 
 -DOCSTART- (S0009261412006513)
 
-Water	0	5	B-Material
-is	6	8	O
-the	9	12	O
-most	13	17	O
-important	18	27	O
-liquid	28	34	B-Material
-,	34	35	O
-and	36	39	O
-the	40	43	O
-nature	44	50	O
-of	51	53	O
-its	54	57	O
-structure	58	67	O
-remains	68	75	O
-a	76	77	O
-topic	78	83	O
-of	84	86	O
-keen	87	91	O
-debate	92	98	O
-and	99	102	O
-an	103	105	O
-active	106	112	O
-area	113	117	O
-of	118	120	O
-research	121	129	O
-[	130	131	O
-1–9	131	134	O
-]	134	135	O
-.	135	136	O
-
-Much	137	141	O
-of	142	144	O
-this	145	149	O
-debate	150	156	O
-centers	157	164	O
-around	165	171	O
-whether	172	179	O
-water	180	185	B-Material
-has	186	189	O
-a	190	191	O
-mainly	192	198	O
-tetrahedral	199	210	O
-structure	211	220	O
-with	221	225	O
-a	226	227	O
-continuum	228	237	O
-of	238	240	O
-distorted	241	250	B-Material
-hydrogen	251	259	I-Material
-bonds	260	265	I-Material
-,	265	266	O
-or	267	269	O
-if	270	272	O
-it	273	275	O
-contains	276	284	O
-a	285	286	O
-mixture	287	294	O
-of	295	297	O
-two	298	301	O
-distinct	302	310	O
-components	311	321	O
-.	321	322	O
-
-One	323	326	O
-major	327	332	O
-development	333	344	O
-in	345	347	O
-recent	348	354	O
-years	355	360	O
-is	361	363	O
-the	364	367	O
-application	368	379	O
-of	380	382	O
-inner	383	388	B-Process
--	388	389	I-Process
-shell	389	394	I-Process
-spectroscopic	395	408	I-Process
-techniques	409	419	I-Process
-,	419	420	O
-such	421	425	O
-as	426	428	O
-X	429	430	B-Process
--	430	431	I-Process
-ray	431	434	I-Process
-absorption	435	445	I-Process
-spectroscopy	446	458	I-Process
-(	459	460	O
-XAS	460	463	B-Process
-)	463	464	O
-and	465	468	O
-X	469	470	B-Process
--	470	471	I-Process
-ray	471	474	I-Process
-emission	475	483	I-Process
-spectroscopy	484	496	I-Process
-(	497	498	O
-XES	498	501	B-Process
-)	501	502	O
-at	503	505	O
-the	506	509	O
-oxygen	510	516	B-Material
-K	517	518	I-Material
--	518	519	I-Material
-edge	519	523	I-Material
-to	524	526	O
-investigate	527	538	O
-the	539	542	O
-structure	543	552	O
-of	553	555	O
-water	556	561	B-Material
-[	562	563	O
-2,10–12	563	570	O
-]	570	571	O
-.	571	572	O
-
-These	573	578	O
-methods	579	586	O
-can	587	590	O
-provide	591	598	O
-a	599	600	O
-direct	601	607	B-Process
-structural	608	618	I-Process
-probe	619	624	I-Process
-of	625	627	I-Process
-water	628	633	I-Process
-,	633	634	O
-providing	635	644	O
-insight	645	652	O
-into	653	657	O
-the	658	661	O
-nature	662	668	O
-of	669	671	O
-its	672	675	O
-hydrogen	676	684	B-Task
-bonding	685	692	I-Task
-network	693	700	I-Task
-.	700	701	O
-
-Theoretical	702	713	O
-studies	714	721	O
-play	722	726	O
-a	727	728	O
-critical	729	737	O
-role	738	742	O
-in	743	745	O
-these	746	751	O
-studies	752	759	O
-,	759	760	O
-since	761	766	O
-the	767	770	O
-analysis	771	779	O
-of	780	782	O
-the	783	786	O
-experimental	787	799	B-Material
-data	800	804	I-Material
-requires	805	813	O
-calculations	814	826	B-Material
-to	827	829	O
-provide	830	837	O
-a	838	839	O
-link	840	844	O
-between	845	852	O
-the	853	856	O
-observed	857	865	B-Process
-spectral	866	874	I-Process
-features	875	883	I-Process
-and	884	887	O
-the	888	891	O
-underlying	892	902	B-Task
-structure	903	912	I-Task
-.	912	913	O
-
-However	914	921	O
-,	921	922	O
-the	923	926	O
-simulation	927	937	O
-of	938	940	O
-the	941	944	O
-XAS	945	948	B-Process
-or	949	951	O
-XES	952	955	B-Process
-for	956	959	O
-liquid	960	966	B-Material
-water	967	972	I-Material
-presents	973	981	O
-a	982	983	O
-difficult	984	993	O
-challenge	994	1003	O
-because	1004	1011	O
-it	1012	1014	O
-requires	1015	1023	O
-accurate	1024	1032	B-Process
-molecular	1033	1042	I-Process
-dynamics	1043	1051	I-Process
-simulations	1052	1063	I-Process
-to	1064	1066	O
-provide	1067	1074	O
-a	1075	1076	O
-correct	1077	1084	O
-description	1085	1096	O
-of	1097	1099	O
-the	1100	1103	O
-molecular	1104	1113	B-Task
-structure	1114	1123	I-Task
-coupled	1124	1131	O
-with	1132	1136	O
-accurate	1137	1145	O
-calculations	1146	1158	O
-of	1159	1161	O
-the	1162	1165	O
-spectral	1166	1174	B-Task
-properties	1175	1185	I-Task
-,	1185	1186	O
-i.e.	1187	1191	O
-excitation	1192	1202	B-Task
-energies	1203	1211	I-Task
-and	1212	1215	O
-line	1216	1220	B-Task
-intensities	1221	1232	I-Task
-.	1232	1233	O
-
-Furthermore	1234	1245	O
-,	1245	1246	O
-adequate	1247	1255	B-Material
-sampling	1256	1264	I-Material
-over	1265	1269	O
-molecular	1270	1279	B-Process
-configurations	1280	1294	I-Process
-also	1295	1299	O
-needs	1300	1305	O
-to	1306	1308	O
-be	1309	1311	O
-accounted	1312	1321	O
-for	1322	1325	O
-.	1325	1326	O
+Water	0,5	O	B-Material
+is	6,8	O	O
+the	9,12	O	O
+most	13,17	O	O
+important	18,27	O	O
+liquid	28,34	O	B-Material
+,	34,35	O	O
+and	36,39	O	O
+the	40,43	O	O
+nature	44,50	O	O
+of	51,53	O	O
+its	54,57	O	O
+structure	58,67	O	O
+remains	68,75	O	O
+a	76,77	O	O
+topic	78,83	O	O
+of	84,86	O	O
+keen	87,91	O	O
+debate	92,98	O	O
+and	99,102	O	O
+an	103,105	O	O
+active	106,112	O	O
+area	113,117	O	O
+of	118,120	O	O
+research	121,129	O	O
+[	130,131	O	O
+1–9	131,134	O	O
+]	134,135	O	O
+.	135,136	O	O
+
+Much	137,141	O	O
+of	142,144	O	O
+this	145,149	O	O
+debate	150,156	O	O
+centers	157,164	O	O
+around	165,171	O	O
+whether	172,179	O	O
+water	180,185	O	B-Material
+has	186,189	O	O
+a	190,191	O	O
+mainly	192,198	O	O
+tetrahedral	199,210	O	O
+structure	211,220	O	O
+with	221,225	O	O
+a	226,227	O	O
+continuum	228,237	O	O
+of	238,240	O	O
+distorted	241,250	O	B-Material
+hydrogen	251,259	O	I-Material
+bonds	260,265	O	I-Material
+,	265,266	O	O
+or	267,269	O	O
+if	270,272	O	O
+it	273,275	O	O
+contains	276,284	O	O
+a	285,286	O	O
+mixture	287,294	O	O
+of	295,297	O	O
+two	298,301	O	O
+distinct	302,310	O	O
+components	311,321	O	O
+.	321,322	O	O
+
+One	323,326	O	O
+major	327,332	O	O
+development	333,344	O	O
+in	345,347	O	O
+recent	348,354	O	O
+years	355,360	O	O
+is	361,363	O	O
+the	364,367	O	O
+application	368,379	O	O
+of	380,382	O	O
+inner	383,388	O	B-Process
+-	388,389	O	I-Process
+shell	389,394	O	I-Process
+spectroscopic	395,408	O	I-Process
+techniques	409,419	O	I-Process
+,	419,420	O	O
+such	421,425	O	O
+as	426,428	O	O
+X	429,430	O	B-Process
+-	430,431	O	I-Process
+ray	431,434	O	I-Process
+absorption	435,445	O	I-Process
+spectroscopy	446,458	O	I-Process
+(	459,460	O	O
+XAS	460,463	O	B-Process
+)	463,464	O	O
+and	465,468	O	O
+X	469,470	O	B-Process
+-	470,471	O	I-Process
+ray	471,474	O	I-Process
+emission	475,483	O	I-Process
+spectroscopy	484,496	O	I-Process
+(	497,498	O	O
+XES	498,501	O	B-Process
+)	501,502	O	O
+at	503,505	O	O
+the	506,509	O	O
+oxygen	510,516	O	B-Material
+K	517,518	O	I-Material
+-	518,519	O	I-Material
+edge	519,523	O	I-Material
+to	524,526	O	O
+investigate	527,538	O	O
+the	539,542	O	O
+structure	543,552	O	O
+of	553,555	O	O
+water	556,561	O	B-Material
+[	562,563	O	O
+2,10–12	563,570	O	O
+]	570,571	O	O
+.	571,572	O	O
+
+These	573,578	O	O
+methods	579,586	O	O
+can	587,590	O	O
+provide	591,598	O	O
+a	599,600	O	O
+direct	601,607	O	B-Process
+structural	608,618	O	I-Process
+probe	619,624	O	I-Process
+of	625,627	O	I-Process
+water	628,633	O	I-Process
+,	633,634	O	O
+providing	635,644	O	O
+insight	645,652	O	O
+into	653,657	O	O
+the	658,661	O	O
+nature	662,668	O	O
+of	669,671	O	O
+its	672,675	O	O
+hydrogen	676,684	O	B-Task
+bonding	685,692	O	I-Task
+network	693,700	O	I-Task
+.	700,701	O	O
+
+Theoretical	702,713	O	O
+studies	714,721	O	O
+play	722,726	O	O
+a	727,728	O	O
+critical	729,737	O	O
+role	738,742	O	O
+in	743,745	O	O
+these	746,751	O	O
+studies	752,759	O	O
+,	759,760	O	O
+since	761,766	O	O
+the	767,770	O	O
+analysis	771,779	O	O
+of	780,782	O	O
+the	783,786	O	O
+experimental	787,799	O	B-Material
+data	800,804	O	I-Material
+requires	805,813	O	O
+calculations	814,826	O	B-Material
+to	827,829	O	O
+provide	830,837	O	O
+a	838,839	O	O
+link	840,844	O	O
+between	845,852	O	O
+the	853,856	O	O
+observed	857,865	O	B-Process
+spectral	866,874	O	I-Process
+features	875,883	O	I-Process
+and	884,887	O	O
+the	888,891	O	O
+underlying	892,902	O	B-Task
+structure	903,912	O	I-Task
+.	912,913	O	O
+
+However	914,921	O	O
+,	921,922	O	O
+the	923,926	O	O
+simulation	927,937	O	O
+of	938,940	O	O
+the	941,944	O	O
+XAS	945,948	O	B-Process
+or	949,951	O	O
+XES	952,955	O	B-Process
+for	956,959	O	O
+liquid	960,966	O	B-Material
+water	967,972	O	I-Material
+presents	973,981	O	O
+a	982,983	O	O
+difficult	984,993	O	O
+challenge	994,1003	O	O
+because	1004,1011	O	O
+it	1012,1014	O	O
+requires	1015,1023	O	O
+accurate	1024,1032	O	B-Process
+molecular	1033,1042	O	I-Process
+dynamics	1043,1051	O	I-Process
+simulations	1052,1063	O	I-Process
+to	1064,1066	O	O
+provide	1067,1074	O	O
+a	1075,1076	O	O
+correct	1077,1084	O	O
+description	1085,1096	O	O
+of	1097,1099	O	O
+the	1100,1103	O	O
+molecular	1104,1113	O	B-Task
+structure	1114,1123	O	I-Task
+coupled	1124,1131	O	O
+with	1132,1136	O	O
+accurate	1137,1145	O	O
+calculations	1146,1158	O	O
+of	1159,1161	O	O
+the	1162,1165	O	O
+spectral	1166,1174	O	B-Task
+properties	1175,1185	O	I-Task
+,	1185,1186	O	O
+i.e.	1187,1191	O	O
+excitation	1192,1202	O	B-Task
+energies	1203,1211	O	I-Task
+and	1212,1215	O	O
+line	1216,1220	O	B-Task
+intensities	1221,1232	O	I-Task
+.	1232,1233	O	O
+
+Furthermore	1234,1245	O	O
+,	1245,1246	O	O
+adequate	1247,1255	O	B-Material
+sampling	1256,1264	O	I-Material
+over	1265,1269	O	O
+molecular	1270,1279	O	B-Process
+configurations	1280,1294	O	I-Process
+also	1295,1299	O	O
+needs	1300,1305	O	O
+to	1306,1308	O	O
+be	1309,1311	O	O
+accounted	1312,1321	O	O
+for	1322,1325	O	O
+.	1325,1326	O	O
 
 
 -DOCSTART- (S0009261412012365)
 
-Under	0	5	O
-these	6	11	O
-experimental	12	24	O
-conditions	25	35	O
-,	35	36	O
-the	37	40	O
-observed	41	49	B-Process
-dynamics	50	58	I-Process
-has	59	62	O
-to	63	65	O
-occur	66	71	O
-where	72	77	O
-the	78	81	O
-probe	82	87	B-Process
-laser	88	93	I-Process
-induces	94	101	O
-the	102	105	O
-reactions	106	115	B-Task
-resulting	116	125	O
-in	126	128	O
-further	129	136	B-Process
-ionization	137	147	I-Process
-[	148	149	O
-30	149	151	O
-]	151	152	O
-.	152	153	O
-
-The	154	157	O
-two	158	161	B-Process
--	161	162	I-Process
-step	162	166	I-Process
-decay	167	172	I-Process
-model	173	178	I-Process
-[	179	180	O
-26	180	182	O
-]	182	183	O
-was	184	187	O
-applied	188	195	O
-to	196	198	O
-explain	199	206	O
-the	207	210	O
-above	211	216	O
--	216	217	O
-mentioned	217	226	O
-fragmentation	227	240	B-Process
-of	241	243	I-Process
-DCPD	244	248	I-Process
-to	249	251	I-Process
-CPD	252	255	I-Process
-,	255	256	O
-shown	257	262	O
-in	263	265	O
-Figure	266	272	O
-8a	273	275	O
-.	275	276	O
-
-The	277	280	O
-fitting	281	288	O
-of	289	291	O
-the	292	295	O
-rise	296	300	B-Material
-and	301	304	I-Material
-decay	305	310	I-Material
-components	311	321	I-Material
-of	322	324	O
-the	325	328	O
-transients	329	339	B-Material
-were	340	344	O
-done	345	349	O
-by	350	352	O
-Matlab	353	359	B-Process
-®	359	360	I-Process
-programming	361	372	I-Process
-using	373	378	O
-the	379	382	O
-curve	383	388	B-Process
-fitting	389	396	I-Process
-Levenberg	397	406	I-Process
-–	406	407	I-Process
-Marquardt	407	416	I-Process
-algorithm	417	426	I-Process
-.	426	427	O
-
-The	428	431	O
-best	432	436	B-Process
-fit	437	440	I-Process
-decay	441	446	I-Process
-constants	447	456	I-Process
-for	457	460	O
-the	461	464	O
-biexponential	465	478	B-Material
-decay	479	484	I-Material
-components	485	495	I-Material
-of	496	498	O
-C10H12	499	505	B-Material
-+	505	506	I-Material
-ion	507	510	I-Material
-signal	511	517	I-Material
-is	518	520	O
-τ1=35fs	521	528	B-Process
-and	529	532	O
-τ2=240fs	533	541	B-Process
-,	541	542	O
-while	543	548	O
-that	549	553	O
-for	554	557	O
-C5H6	558	562	B-Material
-+	562	563	I-Material
-ion	564	567	I-Material
-signal	568	574	I-Material
-is	575	577	O
-τ1=36fs	578	585	B-Process
-and	586	589	O
-τ2=280fs	590	598	B-Process
-,	598	599	O
-respectively	600	612	O
-.	612	613	O
-
-These	614	619	O
-decay	620	625	B-Task
-constants	626	635	I-Task
-conform	636	643	O
-to	644	646	O
-the	647	650	O
-previously	651	661	O
-reported	662	670	O
-time	671	675	O
-constants	676	685	O
-of	686	688	O
-norbornene	689	699	B-Material
-and	700	703	O
-norbornadiene	704	717	B-Material
-[	718	719	O
-22,23	719	724	O
-]	724	725	O
-.	725	726	O
-
-The	727	730	O
-transients	731	741	O
-of	742	744	O
-the	745	748	O
-reaction	749	757	O
-fragment	758	766	O
-C5H6	767	771	O
-+	771	772	O
-are	773	776	O
-sufficiently	777	789	O
-different	790	799	O
-from	800	804	O
-that	805	809	O
-of	810	812	O
-the	813	816	O
-parent	817	823	B-Material
-ion	824	827	I-Material
-C10H12	828	834	B-Material
-+	834	835	I-Material
-indicating	836	846	O
-that	847	851	O
-we	852	854	O
-are	855	858	O
-studying	859	867	O
-the	868	871	O
-distinct	872	880	B-Task
-dynamics	881	889	I-Task
-of	890	892	I-Task
-the	893	896	I-Task
-neutrals	897	905	I-Task
-and	906	909	O
-not	910	913	O
-that	914	918	O
-of	919	921	O
-the	922	925	O
-parent	926	932	B-Process
-ion	933	936	I-Process
-fragmentation	937	950	I-Process
-[	951	952	O
-24	952	954	O
-]	954	955	O
-.	955	956	O
-
-Applying	957	965	B-Process
-laser	966	971	I-Process
-control	972	979	I-Process
-principles	980	990	I-Process
-under	991	996	O
-such	997	1001	O
-experimental	1002	1014	O
-circumstances	1015	1028	O
-also	1029	1033	O
-confirms	1034	1042	O
-that	1043	1047	O
-we	1048	1050	O
-are	1051	1054	O
-controlling	1055	1066	B-Process
-the	1067	1070	I-Process
-product	1071	1078	I-Process
-yield	1079	1084	I-Process
-of	1085	1087	I-Process
-C5H6	1088	1092	I-Process
-+	1092	1093	I-Process
-,	1093	1094	O
-resulting	1095	1104	O
-from	1105	1109	O
-the	1110	1113	O
-photochemical	1114	1127	B-Process
-reaction	1128	1136	I-Process
-of	1137	1139	I-Process
-DCPD	1140	1144	I-Process
-.	1144	1145	O
+Under	0,5	O	O
+these	6,11	O	O
+experimental	12,24	O	O
+conditions	25,35	O	O
+,	35,36	O	O
+the	37,40	O	O
+observed	41,49	O	B-Process
+dynamics	50,58	O	I-Process
+has	59,62	O	O
+to	63,65	O	O
+occur	66,71	O	O
+where	72,77	O	O
+the	78,81	O	O
+probe	82,87	O	B-Process
+laser	88,93	O	I-Process
+induces	94,101	O	O
+the	102,105	O	O
+reactions	106,115	O	B-Task
+resulting	116,125	O	O
+in	126,128	O	O
+further	129,136	O	B-Process
+ionization	137,147	O	I-Process
+[	148,149	O	O
+30	149,151	O	O
+]	151,152	O	O
+.	152,153	O	O
+
+The	154,157	O	O
+two	158,161	O	B-Process
+-	161,162	O	I-Process
+step	162,166	O	I-Process
+decay	167,172	O	I-Process
+model	173,178	O	I-Process
+[	179,180	O	O
+26	180,182	O	O
+]	182,183	O	O
+was	184,187	O	O
+applied	188,195	O	O
+to	196,198	O	O
+explain	199,206	O	O
+the	207,210	O	O
+above	211,216	O	O
+-	216,217	O	O
+mentioned	217,226	O	O
+fragmentation	227,240	O	B-Process
+of	241,243	O	I-Process
+DCPD	244,248	O	I-Process
+to	249,251	O	I-Process
+CPD	252,255	O	I-Process
+,	255,256	O	O
+shown	257,262	O	O
+in	263,265	O	O
+Figure	266,272	O	O
+8a	273,275	O	O
+.	275,276	O	O
+
+The	277,280	O	O
+fitting	281,288	O	O
+of	289,291	O	O
+the	292,295	O	O
+rise	296,300	O	B-Material
+and	301,304	O	I-Material
+decay	305,310	O	I-Material
+components	311,321	O	I-Material
+of	322,324	O	O
+the	325,328	O	O
+transients	329,339	O	B-Material
+were	340,344	O	O
+done	345,349	O	O
+by	350,352	O	O
+Matlab	353,359	O	B-Process
+®	359,360	O	I-Process
+programming	361,372	O	I-Process
+using	373,378	O	O
+the	379,382	O	O
+curve	383,388	O	B-Process
+fitting	389,396	O	I-Process
+Levenberg	397,406	O	I-Process
+–	406,407	O	I-Process
+Marquardt	407,416	O	I-Process
+algorithm	417,426	O	I-Process
+.	426,427	O	O
+
+The	428,431	O	O
+best	432,436	O	B-Process
+fit	437,440	O	I-Process
+decay	441,446	O	I-Process
+constants	447,456	O	I-Process
+for	457,460	O	O
+the	461,464	O	O
+biexponential	465,478	O	B-Material
+decay	479,484	O	I-Material
+components	485,495	O	I-Material
+of	496,498	O	O
+C10H12	499,505	O	B-Material
++	505,506	O	I-Material
+ion	507,510	O	I-Material
+signal	511,517	O	I-Material
+is	518,520	O	O
+τ1=35fs	521,528	O	B-Process
+and	529,532	O	O
+τ2=240fs	533,541	O	B-Process
+,	541,542	O	O
+while	543,548	O	O
+that	549,553	O	O
+for	554,557	O	O
+C5H6	558,562	O	B-Material
++	562,563	O	I-Material
+ion	564,567	O	I-Material
+signal	568,574	O	I-Material
+is	575,577	O	O
+τ1=36fs	578,585	O	B-Process
+and	586,589	O	O
+τ2=280fs	590,598	O	B-Process
+,	598,599	O	O
+respectively	600,612	O	O
+.	612,613	O	O
+
+These	614,619	O	O
+decay	620,625	O	B-Task
+constants	626,635	O	I-Task
+conform	636,643	O	O
+to	644,646	O	O
+the	647,650	O	O
+previously	651,661	O	O
+reported	662,670	O	O
+time	671,675	O	O
+constants	676,685	O	O
+of	686,688	O	O
+norbornene	689,699	O	B-Material
+and	700,703	O	O
+norbornadiene	704,717	O	B-Material
+[	718,719	O	O
+22,23	719,724	O	O
+]	724,725	O	O
+.	725,726	O	O
+
+The	727,730	O	O
+transients	731,741	O	O
+of	742,744	O	O
+the	745,748	O	O
+reaction	749,757	O	O
+fragment	758,766	O	O
+C5H6	767,771	O	O
++	771,772	O	O
+are	773,776	O	O
+sufficiently	777,789	O	O
+different	790,799	O	O
+from	800,804	O	O
+that	805,809	O	O
+of	810,812	O	O
+the	813,816	O	O
+parent	817,823	O	B-Material
+ion	824,827	O	I-Material
+C10H12	828,834	O	B-Material
++	834,835	O	I-Material
+indicating	836,846	O	O
+that	847,851	O	O
+we	852,854	O	O
+are	855,858	O	O
+studying	859,867	O	O
+the	868,871	O	O
+distinct	872,880	O	B-Task
+dynamics	881,889	O	I-Task
+of	890,892	O	I-Task
+the	893,896	O	I-Task
+neutrals	897,905	O	I-Task
+and	906,909	O	O
+not	910,913	O	O
+that	914,918	O	O
+of	919,921	O	O
+the	922,925	O	O
+parent	926,932	O	B-Process
+ion	933,936	O	I-Process
+fragmentation	937,950	O	I-Process
+[	951,952	O	O
+24	952,954	O	O
+]	954,955	O	O
+.	955,956	O	O
+
+Applying	957,965	O	B-Process
+laser	966,971	O	I-Process
+control	972,979	O	I-Process
+principles	980,990	O	I-Process
+under	991,996	O	O
+such	997,1001	O	O
+experimental	1002,1014	O	O
+circumstances	1015,1028	O	O
+also	1029,1033	O	O
+confirms	1034,1042	O	O
+that	1043,1047	O	O
+we	1048,1050	O	O
+are	1051,1054	O	O
+controlling	1055,1066	O	B-Process
+the	1067,1070	O	I-Process
+product	1071,1078	O	I-Process
+yield	1079,1084	O	I-Process
+of	1085,1087	O	I-Process
+C5H6	1088,1092	O	I-Process
++	1092,1093	O	I-Process
+,	1093,1094	O	O
+resulting	1095,1104	O	O
+from	1105,1109	O	O
+the	1110,1113	O	O
+photochemical	1114,1127	O	B-Process
+reaction	1128,1136	O	I-Process
+of	1137,1139	O	I-Process
+DCPD	1140,1144	O	I-Process
+.	1144,1145	O	O
 
 
 -DOCSTART- (S0009261412013838)
 
-Experimental	0	12	O
-studies	13	20	O
-of	21	23	O
-the	24	27	O
-dynamics	28	36	O
-of	37	39	O
-individual	40	50	O
-carbon	51	57	B-Material
-atoms	58	63	I-Material
-in	64	66	O
-graphene	67	75	B-Material
-have	76	80	O
-been	81	85	O
-empowered	86	95	O
-by	96	98	O
-the	99	102	O
-recent	103	109	O
-progress	110	118	O
-in	119	121	O
-aberration	122	132	B-Process
--	132	133	I-Process
-corrected	133	142	I-Process
-transmission	143	155	I-Process
-electron	156	164	I-Process
-microscopy	165	175	I-Process
-(	176	177	O
-AC	177	179	B-Process
--	179	180	I-Process
-TEM	180	183	I-Process
-)	183	184	O
-capable	185	192	O
-of	193	195	O
-sub	196	199	B-Process
--	199	200	I-Process
-Ångstrom	200	208	I-Process
-resolution	209	219	I-Process
-.	219	220	O
-
-The	221	224	O
-examples	225	233	O
-include	234	241	O
-AC	242	244	B-Process
--	244	245	I-Process
-TEM	245	248	I-Process
-observations	249	261	I-Process
-of	262	264	I-Process
-the	265	268	I-Process
-formation	269	278	I-Process
-and	279	282	I-Process
-annealing	283	292	I-Process
-of	293	295	I-Process
-Stone	296	301	I-Process
-–	301	302	I-Process
-Wales	302	307	I-Process
-defects	308	315	I-Process
-[	316	317	O
-1	317	318	O
-]	318	319	O
-,	319	320	O
-edge	321	325	B-Process
-reconstruction	326	340	I-Process
-[	341	342	O
-2,3	342	345	O
-]	345	346	O
-and	347	350	O
-formation	351	360	B-Process
-of	361	363	I-Process
-a	364	365	I-Process
-large	366	371	I-Process
-hole	372	376	I-Process
-in	377	379	I-Process
-graphene	380	388	I-Process
-sheet	389	394	I-Process
-from	395	399	I-Process
-a	400	401	I-Process
-single	402	408	I-Process
-vacancy	409	416	I-Process
-defect	417	423	I-Process
-[	424	425	O
-3	425	426	O
-]	426	427	O
-.	427	428	O
-
-The	429	432	O
-AC	433	435	O
--	435	436	O
-TEM	436	439	O
-has	440	443	O
-been	444	448	O
-also	449	453	O
-exploited	454	463	O
-in	464	466	O
-visualization	467	480	O
-in	481	483	O
-real	484	488	O
-time	489	493	O
-of	494	496	O
-the	497	500	O
-process	501	508	B-Process
-of	509	511	I-Process
-self	512	516	I-Process
--	516	517	I-Process
-assembly	517	525	I-Process
-of	526	528	I-Process
-graphene	529	537	I-Process
-nanoribbons	538	549	I-Process
-from	550	554	O
-molecular	555	564	B-Material
-precursors	565	575	I-Material
-
-[	576	577	O
-4,5	577	580	O
-]	580	581	O
-and	582	585	O
-formation	586	595	B-Process
-of	596	598	I-Process
-nanometre	599	608	I-Process
-size	609	613	I-Process
-hollow	614	620	I-Process
-protrusion	621	631	I-Process
-on	632	634	I-Process
-the	635	638	I-Process
-nanotube	639	647	I-Process
-sidewall	648	656	I-Process
-[	657	658	O
-6	658	659	O
-]	659	660	O
-.	660	661	O
-
-Based	662	667	O
-on	668	670	O
-AC	671	673	B-Process
--	673	674	I-Process
-TEM	674	677	I-Process
-observations	678	690	I-Process
-of	691	693	O
-transformation	694	708	O
-of	709	711	O
-small	712	717	B-Material
-finite	718	724	I-Material
-graphene	725	733	I-Material
-flake	734	739	I-Material
-into	740	744	O
-fullerene	745	754	B-Material
-,	754	755	O
-a	756	757	O
-new	758	761	O
-‘	762	763	B-Task
-top	763	766	I-Task
--	766	767	I-Task
-down’	767	772	I-Task
-mechanism	773	782	I-Task
-for	783	786	I-Task
-the	787	790	I-Task
-formation	791	800	I-Task
-of	801	803	I-Task
-fullerene	804	813	I-Task
-under	814	819	O
-the	820	823	O
-electron	824	832	O
-beam	833	837	O
-radiation	838	847	O
-has	848	851	O
-been	852	856	O
-proposed	857	865	O
-[	866	867	O
-7	867	868	O
-]	868	869	O
-.	869	870	O
-
-The	871	874	O
-critical	875	883	O
-step	884	888	O
-in	889	891	O
-the	892	895	O
-proposed	896	904	B-Task
-‘	905	906	I-Task
-top	906	909	I-Task
--	909	910	I-Task
-down’	910	915	I-Task
-mechanism	916	925	I-Task
-of	926	928	I-Task
-the	929	932	I-Task
-fullerene	933	942	I-Task
-formation	943	952	I-Task
-is	953	955	O
-creation	956	964	B-Process
-of	965	967	I-Process
-vacancies	968	977	I-Process
-in	978	980	I-Process
-small	981	986	I-Process
-graphene	987	995	I-Process
-flake	996	1001	I-Process
-as	1002	1004	O
-a	1005	1006	O
-result	1007	1013	O
-of	1014	1016	O
-knock	1017	1022	B-Process
--	1022	1023	I-Process
-on	1023	1025	I-Process
-damage	1026	1032	I-Process
-by	1033	1035	I-Process
-electrons	1036	1045	I-Process
-of	1046	1048	I-Process
-the	1049	1052	I-Process
-imaging	1053	1060	I-Process
-electron	1061	1069	I-Process
-beam	1070	1074	I-Process
-(	1075	1076	I-Process
-e	1076	1077	I-Process
--	1077	1078	I-Process
-beam	1078	1082	I-Process
-)	1082	1083	I-Process
-.	1083	1084	O
-
-The	1085	1088	O
-subsequent	1089	1099	B-Task
-formation	1100	1109	I-Task
-of	1110	1112	I-Task
-pentagons	1113	1122	I-Task
-at	1123	1125	O
-the	1126	1129	O
-vacancy	1130	1137	O
-sites	1138	1143	O
-near	1144	1148	O
-the	1149	1152	O
-edge	1153	1157	O
-reduces	1158	1165	O
-the	1166	1169	O
-number	1170	1176	O
-of	1177	1179	O
-dangling	1180	1188	O
-bonds	1189	1194	O
-and	1195	1198	O
-triggers	1199	1207	O
-the	1208	1211	O
-curving	1212	1219	O
-process	1220	1227	O
-of	1228	1230	O
-graphene	1231	1239	O
-flake	1240	1245	O
-into	1246	1250	O
-a	1251	1252	O
-closed	1253	1259	O
-fullerene	1260	1269	O
-structure	1270	1279	O
-[	1280	1281	O
-7	1281	1282	O
-]	1282	1283	O
-.	1283	1284	O
-
-Thus	1285	1289	O
-,	1289	1290	O
-dynamic	1291	1298	O
-behaviour	1299	1308	O
-of	1309	1311	O
-vacancies	1312	1321	O
-near	1322	1326	O
-graphene	1327	1335	O
-edge	1336	1340	O
-plays	1341	1346	O
-a	1347	1348	O
-crucial	1349	1356	O
-role	1357	1361	O
-in	1362	1364	O
-explaining	1365	1375	O
-mechanisms	1376	1386	O
-of	1387	1389	O
-the	1390	1393	O
-e	1394	1395	B-Task
--	1395	1396	I-Task
-beam	1396	1400	I-Task
-assisted	1401	1409	I-Task
-self	1410	1414	I-Task
--	1414	1415	I-Task
-assembly	1415	1423	I-Task
-and	1424	1427	O
-structural	1428	1438	B-Task
-transformations	1439	1454	I-Task
-in	1455	1457	I-Task
-graphene	1458	1466	I-Task
--	1466	1467	I-Task
-like	1467	1471	I-Task
-structures	1472	1482	I-Task
-.	1482	1483	O
+Experimental	0,12	O	O
+studies	13,20	O	O
+of	21,23	O	O
+the	24,27	O	O
+dynamics	28,36	O	O
+of	37,39	O	O
+individual	40,50	O	O
+carbon	51,57	O	B-Material
+atoms	58,63	O	I-Material
+in	64,66	O	O
+graphene	67,75	O	B-Material
+have	76,80	O	O
+been	81,85	O	O
+empowered	86,95	O	O
+by	96,98	O	O
+the	99,102	O	O
+recent	103,109	O	O
+progress	110,118	O	O
+in	119,121	O	O
+aberration	122,132	O	B-Process
+-	132,133	O	I-Process
+corrected	133,142	O	I-Process
+transmission	143,155	O	I-Process
+electron	156,164	O	I-Process
+microscopy	165,175	O	I-Process
+(	176,177	O	O
+AC	177,179	O	B-Process
+-	179,180	O	I-Process
+TEM	180,183	O	I-Process
+)	183,184	O	O
+capable	185,192	O	O
+of	193,195	O	O
+sub	196,199	O	B-Process
+-	199,200	O	I-Process
+Ångstrom	200,208	O	I-Process
+resolution	209,219	O	I-Process
+.	219,220	O	O
+
+The	221,224	O	O
+examples	225,233	O	O
+include	234,241	O	O
+AC	242,244	O	B-Process
+-	244,245	O	I-Process
+TEM	245,248	O	I-Process
+observations	249,261	O	I-Process
+of	262,264	O	I-Process
+the	265,268	O	I-Process
+formation	269,278	O	I-Process
+and	279,282	O	I-Process
+annealing	283,292	O	I-Process
+of	293,295	O	I-Process
+Stone	296,301	O	I-Process
+–	301,302	O	I-Process
+Wales	302,307	O	I-Process
+defects	308,315	O	I-Process
+[	316,317	O	O
+1	317,318	O	O
+]	318,319	O	O
+,	319,320	O	O
+edge	321,325	O	B-Process
+reconstruction	326,340	O	I-Process
+[	341,342	O	O
+2,3	342,345	O	O
+]	345,346	O	O
+and	347,350	O	O
+formation	351,360	O	B-Process
+of	361,363	O	I-Process
+a	364,365	O	I-Process
+large	366,371	O	I-Process
+hole	372,376	O	I-Process
+in	377,379	O	I-Process
+graphene	380,388	O	I-Process
+sheet	389,394	O	I-Process
+from	395,399	O	I-Process
+a	400,401	O	I-Process
+single	402,408	O	I-Process
+vacancy	409,416	O	I-Process
+defect	417,423	O	I-Process
+[	424,425	O	O
+3	425,426	O	O
+]	426,427	O	O
+.	427,428	O	O
+
+The	429,432	O	O
+AC	433,435	O	O
+-	435,436	O	O
+TEM	436,439	O	O
+has	440,443	O	O
+been	444,448	O	O
+also	449,453	O	O
+exploited	454,463	O	O
+in	464,466	O	O
+visualization	467,480	O	O
+in	481,483	O	O
+real	484,488	O	O
+time	489,493	O	O
+of	494,496	O	O
+the	497,500	O	O
+process	501,508	O	B-Process
+of	509,511	O	I-Process
+self	512,516	O	I-Process
+-	516,517	O	I-Process
+assembly	517,525	O	I-Process
+of	526,528	O	I-Process
+graphene	529,537	O	I-Process
+nanoribbons	538,549	O	I-Process
+from	550,554	O	O
+molecular	555,564	O	B-Material
+precursors	565,575	O	I-Material
+
+[	576,577	O	O
+4,5	577,580	O	O
+]	580,581	O	O
+and	582,585	O	O
+formation	586,595	O	B-Process
+of	596,598	O	I-Process
+nanometre	599,608	O	I-Process
+size	609,613	O	I-Process
+hollow	614,620	O	I-Process
+protrusion	621,631	O	I-Process
+on	632,634	O	I-Process
+the	635,638	O	I-Process
+nanotube	639,647	O	I-Process
+sidewall	648,656	O	I-Process
+[	657,658	O	O
+6	658,659	O	O
+]	659,660	O	O
+.	660,661	O	O
+
+Based	662,667	O	O
+on	668,670	O	O
+AC	671,673	O	B-Process
+-	673,674	O	I-Process
+TEM	674,677	O	I-Process
+observations	678,690	O	I-Process
+of	691,693	O	O
+transformation	694,708	O	O
+of	709,711	O	O
+small	712,717	O	B-Material
+finite	718,724	O	I-Material
+graphene	725,733	O	I-Material
+flake	734,739	O	I-Material
+into	740,744	O	O
+fullerene	745,754	O	B-Material
+,	754,755	O	O
+a	756,757	O	O
+new	758,761	O	O
+‘	762,763	O	B-Task
+top	763,766	O	I-Task
+-	766,767	O	I-Task
+down’	767,772	O	I-Task
+mechanism	773,782	O	I-Task
+for	783,786	O	I-Task
+the	787,790	O	I-Task
+formation	791,800	O	I-Task
+of	801,803	O	I-Task
+fullerene	804,813	O	I-Task
+under	814,819	O	O
+the	820,823	O	O
+electron	824,832	O	O
+beam	833,837	O	O
+radiation	838,847	O	O
+has	848,851	O	O
+been	852,856	O	O
+proposed	857,865	O	O
+[	866,867	O	O
+7	867,868	O	O
+]	868,869	O	O
+.	869,870	O	O
+
+The	871,874	O	O
+critical	875,883	O	O
+step	884,888	O	O
+in	889,891	O	O
+the	892,895	O	O
+proposed	896,904	O	B-Task
+‘	905,906	O	I-Task
+top	906,909	O	I-Task
+-	909,910	O	I-Task
+down’	910,915	O	I-Task
+mechanism	916,925	O	I-Task
+of	926,928	O	I-Task
+the	929,932	O	I-Task
+fullerene	933,942	O	I-Task
+formation	943,952	O	I-Task
+is	953,955	O	O
+creation	956,964	O	B-Process
+of	965,967	O	I-Process
+vacancies	968,977	O	I-Process
+in	978,980	O	I-Process
+small	981,986	O	I-Process
+graphene	987,995	O	I-Process
+flake	996,1001	O	I-Process
+as	1002,1004	O	O
+a	1005,1006	O	O
+result	1007,1013	O	O
+of	1014,1016	O	O
+knock	1017,1022	O	B-Process
+-	1022,1023	O	I-Process
+on	1023,1025	O	I-Process
+damage	1026,1032	O	I-Process
+by	1033,1035	O	I-Process
+electrons	1036,1045	O	I-Process
+of	1046,1048	O	I-Process
+the	1049,1052	O	I-Process
+imaging	1053,1060	O	I-Process
+electron	1061,1069	O	I-Process
+beam	1070,1074	O	I-Process
+(	1075,1076	O	I-Process
+e	1076,1077	O	I-Process
+-	1077,1078	O	I-Process
+beam	1078,1082	O	I-Process
+)	1082,1083	O	I-Process
+.	1083,1084	O	O
+
+The	1085,1088	O	O
+subsequent	1089,1099	O	B-Task
+formation	1100,1109	O	I-Task
+of	1110,1112	O	I-Task
+pentagons	1113,1122	O	I-Task
+at	1123,1125	O	O
+the	1126,1129	O	O
+vacancy	1130,1137	O	O
+sites	1138,1143	O	O
+near	1144,1148	O	O
+the	1149,1152	O	O
+edge	1153,1157	O	O
+reduces	1158,1165	O	O
+the	1166,1169	O	O
+number	1170,1176	O	O
+of	1177,1179	O	O
+dangling	1180,1188	O	O
+bonds	1189,1194	O	O
+and	1195,1198	O	O
+triggers	1199,1207	O	O
+the	1208,1211	O	O
+curving	1212,1219	O	O
+process	1220,1227	O	O
+of	1228,1230	O	O
+graphene	1231,1239	O	O
+flake	1240,1245	O	O
+into	1246,1250	O	O
+a	1251,1252	O	O
+closed	1253,1259	O	O
+fullerene	1260,1269	O	O
+structure	1270,1279	O	O
+[	1280,1281	O	O
+7	1281,1282	O	O
+]	1282,1283	O	O
+.	1283,1284	O	O
+
+Thus	1285,1289	O	O
+,	1289,1290	O	O
+dynamic	1291,1298	O	O
+behaviour	1299,1308	O	O
+of	1309,1311	O	O
+vacancies	1312,1321	O	O
+near	1322,1326	O	O
+graphene	1327,1335	O	O
+edge	1336,1340	O	O
+plays	1341,1346	O	O
+a	1347,1348	O	O
+crucial	1349,1356	O	O
+role	1357,1361	O	O
+in	1362,1364	O	O
+explaining	1365,1375	O	O
+mechanisms	1376,1386	O	O
+of	1387,1389	O	O
+the	1390,1393	O	O
+e	1394,1395	O	B-Task
+-	1395,1396	O	I-Task
+beam	1396,1400	O	I-Task
+assisted	1401,1409	O	I-Task
+self	1410,1414	O	I-Task
+-	1414,1415	O	I-Task
+assembly	1415,1423	O	I-Task
+and	1424,1427	O	O
+structural	1428,1438	O	B-Task
+transformations	1439,1454	O	I-Task
+in	1455,1457	O	I-Task
+graphene	1458,1466	O	I-Task
+-	1466,1467	O	I-Task
+like	1467,1471	O	I-Task
+structures	1472,1482	O	I-Task
+.	1482,1483	O	O
 
 
 -DOCSTART- (S0009261413006738)
 
-The	0	3	O
-PESs	4	8	O
-here	9	13	O
-employed	14	22	O
-have	23	27	O
-already	28	35	O
-been	36	40	O
-tested	41	47	O
-in	48	50	O
-order	51	56	O
-to	57	59	O
-verify	60	66	B-Process
-their	67	72	I-Process
-validity	73	81	I-Process
-for	82	85	I-Process
-dynamical	86	95	I-Process
-purposes	96	104	I-Process
-.	104	105	O
-
-Such	106	110	O
-tests	111	116	O
-include	117	124	O
-studies	125	132	B-Task
-of	133	135	I-Task
-the	136	139	I-Task
-nitrogen	140	148	I-Task
-exchange	149	157	I-Task
-reaction	158	166	I-Task
-[	167	168	O
-14	168	170	O
-]	170	171	O
-both	172	176	O
-adiabatic	177	186	O
-by	187	189	O
-running	190	197	O
-trajectories	198	210	O
-on	211	213	O
-the	214	217	O
-lowest	218	224	O
-surfaces	225	233	O
-and	234	237	O
-non	238	241	O
--	241	242	O
-adiabatic	242	251	O
-by	252	254	O
-using	255	260	O
-the	261	264	O
-trajectory	265	275	B-Process
-surface	276	283	I-Process
-hoping	284	290	I-Process
-(	291	292	I-Process
-TSH	292	295	I-Process
-)	295	296	I-Process
-method	297	303	I-Process
-[	304	305	O
-22,23	305	310	O
-]	310	311	O
-for	312	315	O
-transitions	316	327	O
-to	328	330	O
-the	331	334	O
-excited	335	342	O
-state	343	348	O
-of	349	351	O
-same	352	356	O
-symmetry	357	365	O
-.	365	366	O
-
-It	367	369	O
-was	370	373	O
-concluded	374	383	O
-that	384	388	O
-nonadiabatic	389	401	O
-transitions	402	413	O
-could	414	419	O
-not	420	423	O
-make	424	428	O
-a	429	430	O
-significant	431	442	O
-impact	443	449	O
-on	450	452	O
-the	453	456	O
-rate	457	461	B-Material
-coefficients	462	474	I-Material
-,	474	475	O
-and	476	479	O
-therefore	480	489	O
-all	490	493	O
-trajectories	494	506	O
-here	507	511	O
-reported	512	520	O
-are	521	524	O
-independently	525	538	B-Process
-integrated	539	549	I-Process
-for	550	553	I-Process
-each	554	558	I-Process
-symmetry	559	567	I-Process
-on	568	570	O
-the	571	574	O
-corresponding	575	588	O
-lowest	589	595	O
-adiabatic	596	605	O
-PES	606	609	O
-.	609	610	O
-
-In	611	613	O
-fact	614	618	O
-,	618	619	O
-we	620	622	O
-have	623	627	O
-tested	628	634	O
-the	635	638	O
-impact	639	645	O
-of	646	648	O
-running	649	656	O
-the	657	660	O
-trajectories	661	673	O
-starting	674	682	O
-on	683	685	O
-the	686	689	O
-upper	690	695	O
-sheets	696	702	O
-,	702	703	O
-and	704	707	O
-found	708	713	O
-no	714	716	O
-vibrational	717	728	B-Process
-transition	729	739	I-Process
-to	740	742	O
-take	743	747	O
-place	748	753	O
-,	753	754	O
-only	755	759	O
-small	760	765	O
-amounts	766	773	O
-of	774	776	O
-rotational	777	787	B-Task
-energy	788	794	I-Task
-is	795	797	O
-exchanged	798	807	O
-in	808	810	O
-this	811	815	O
-case	816	820	O
-.	820	821	O
-
-Also	822	826	O
-neglected	827	836	O
-are	837	840	O
-electronic	841	851	B-Process
-transitions	852	863	I-Process
-to	864	866	I-Process
-the	867	870	I-Process
-quartet	871	878	I-Process
-state	879	884	I-Process
-which	885	890	O
-are	891	894	O
-believed	895	903	O
-to	904	906	O
-be	907	909	O
-far	910	913	O
-less	914	918	O
-probable	919	927	O
-than	928	932	O
-the	933	936	O
-simple	937	943	O
-vibrational	944	955	O
-energy	956	962	O
-transfer	963	971	O
-here	972	976	O
-studied	977	984	O
-due	985	988	O
-to	989	991	O
-their	992	997	O
-spin	998	1002	O
--	1002	1003	O
-forbidden	1003	1012	O
-character	1013	1022	O
-.	1022	1023	O
-
-It	1024	1026	O
-should	1027	1033	O
-also	1034	1038	O
-be	1039	1041	O
-noted	1042	1047	O
-that	1048	1052	O
-the	1053	1056	O
-use	1057	1060	B-Process
-of	1061	1063	I-Process
-quasiclassical	1064	1078	I-Process
-trajectories	1079	1091	I-Process
-is	1092	1094	O
-justified	1095	1104	O
-by	1105	1107	O
-the	1108	1111	O
-large	1112	1117	O
-masses	1118	1124	O
-of	1125	1127	O
-the	1128	1131	O
-atoms	1132	1137	B-Material
-involved	1138	1146	O
-[	1147	1148	O
-24	1148	1150	O
-]	1150	1151	O
-.	1151	1152	O
+The	0,3	O	O
+PESs	4,8	O	O
+here	9,13	O	O
+employed	14,22	O	O
+have	23,27	O	O
+already	28,35	O	O
+been	36,40	O	O
+tested	41,47	O	O
+in	48,50	O	O
+order	51,56	O	O
+to	57,59	O	O
+verify	60,66	O	B-Process
+their	67,72	O	I-Process
+validity	73,81	O	I-Process
+for	82,85	O	I-Process
+dynamical	86,95	O	I-Process
+purposes	96,104	O	I-Process
+.	104,105	O	O
+
+Such	106,110	O	O
+tests	111,116	O	O
+include	117,124	O	O
+studies	125,132	O	B-Task
+of	133,135	O	I-Task
+the	136,139	O	I-Task
+nitrogen	140,148	O	I-Task
+exchange	149,157	O	I-Task
+reaction	158,166	O	I-Task
+[	167,168	O	O
+14	168,170	O	O
+]	170,171	O	O
+both	172,176	O	O
+adiabatic	177,186	O	O
+by	187,189	O	O
+running	190,197	O	O
+trajectories	198,210	O	O
+on	211,213	O	O
+the	214,217	O	O
+lowest	218,224	O	O
+surfaces	225,233	O	O
+and	234,237	O	O
+non	238,241	O	O
+-	241,242	O	O
+adiabatic	242,251	O	O
+by	252,254	O	O
+using	255,260	O	O
+the	261,264	O	O
+trajectory	265,275	O	B-Process
+surface	276,283	O	I-Process
+hoping	284,290	O	I-Process
+(	291,292	O	I-Process
+TSH	292,295	O	I-Process
+)	295,296	O	I-Process
+method	297,303	O	I-Process
+[	304,305	O	O
+22,23	305,310	O	O
+]	310,311	O	O
+for	312,315	O	O
+transitions	316,327	O	O
+to	328,330	O	O
+the	331,334	O	O
+excited	335,342	O	O
+state	343,348	O	O
+of	349,351	O	O
+same	352,356	O	O
+symmetry	357,365	O	O
+.	365,366	O	O
+
+It	367,369	O	O
+was	370,373	O	O
+concluded	374,383	O	O
+that	384,388	O	O
+nonadiabatic	389,401	O	O
+transitions	402,413	O	O
+could	414,419	O	O
+not	420,423	O	O
+make	424,428	O	O
+a	429,430	O	O
+significant	431,442	O	O
+impact	443,449	O	O
+on	450,452	O	O
+the	453,456	O	O
+rate	457,461	O	B-Material
+coefficients	462,474	O	I-Material
+,	474,475	O	O
+and	476,479	O	O
+therefore	480,489	O	O
+all	490,493	O	O
+trajectories	494,506	O	O
+here	507,511	O	O
+reported	512,520	O	O
+are	521,524	O	O
+independently	525,538	O	B-Process
+integrated	539,549	O	I-Process
+for	550,553	O	I-Process
+each	554,558	O	I-Process
+symmetry	559,567	O	I-Process
+on	568,570	O	O
+the	571,574	O	O
+corresponding	575,588	O	O
+lowest	589,595	O	O
+adiabatic	596,605	O	O
+PES	606,609	O	O
+.	609,610	O	O
+
+In	611,613	O	O
+fact	614,618	O	O
+,	618,619	O	O
+we	620,622	O	O
+have	623,627	O	O
+tested	628,634	O	O
+the	635,638	O	O
+impact	639,645	O	O
+of	646,648	O	O
+running	649,656	O	O
+the	657,660	O	O
+trajectories	661,673	O	O
+starting	674,682	O	O
+on	683,685	O	O
+the	686,689	O	O
+upper	690,695	O	O
+sheets	696,702	O	O
+,	702,703	O	O
+and	704,707	O	O
+found	708,713	O	O
+no	714,716	O	O
+vibrational	717,728	O	B-Process
+transition	729,739	O	I-Process
+to	740,742	O	O
+take	743,747	O	O
+place	748,753	O	O
+,	753,754	O	O
+only	755,759	O	O
+small	760,765	O	O
+amounts	766,773	O	O
+of	774,776	O	O
+rotational	777,787	O	B-Task
+energy	788,794	O	I-Task
+is	795,797	O	O
+exchanged	798,807	O	O
+in	808,810	O	O
+this	811,815	O	O
+case	816,820	O	O
+.	820,821	O	O
+
+Also	822,826	O	O
+neglected	827,836	O	O
+are	837,840	O	O
+electronic	841,851	O	B-Process
+transitions	852,863	O	I-Process
+to	864,866	O	I-Process
+the	867,870	O	I-Process
+quartet	871,878	O	I-Process
+state	879,884	O	I-Process
+which	885,890	O	O
+are	891,894	O	O
+believed	895,903	O	O
+to	904,906	O	O
+be	907,909	O	O
+far	910,913	O	O
+less	914,918	O	O
+probable	919,927	O	O
+than	928,932	O	O
+the	933,936	O	O
+simple	937,943	O	O
+vibrational	944,955	O	O
+energy	956,962	O	O
+transfer	963,971	O	O
+here	972,976	O	O
+studied	977,984	O	O
+due	985,988	O	O
+to	989,991	O	O
+their	992,997	O	O
+spin	998,1002	O	O
+-	1002,1003	O	O
+forbidden	1003,1012	O	O
+character	1013,1022	O	O
+.	1022,1023	O	O
+
+It	1024,1026	O	O
+should	1027,1033	O	O
+also	1034,1038	O	O
+be	1039,1041	O	O
+noted	1042,1047	O	O
+that	1048,1052	O	O
+the	1053,1056	O	O
+use	1057,1060	O	B-Process
+of	1061,1063	O	I-Process
+quasiclassical	1064,1078	O	I-Process
+trajectories	1079,1091	O	I-Process
+is	1092,1094	O	O
+justified	1095,1104	O	O
+by	1105,1107	O	O
+the	1108,1111	O	O
+large	1112,1117	O	O
+masses	1118,1124	O	O
+of	1125,1127	O	O
+the	1128,1131	O	O
+atoms	1132,1137	O	B-Material
+involved	1138,1146	O	O
+[	1147,1148	O	O
+24	1148,1150	O	O
+]	1150,1151	O	O
+.	1151,1152	O	O
 
 
 -DOCSTART- (S0009261413011111)
 
-The	0	3	O
-optical	4	11	O
-properties	12	22	O
-of	23	25	O
-charged	26	33	O
-excitations	34	45	O
-are	46	49	O
-important	50	59	O
-for	60	63	O
-understanding	64	77	O
-organic	78	85	B-Task
-semiconductor	86	99	I-Task
-photophysics	100	112	I-Task
-.	112	113	O
-
-The	114	117	O
-injection	118	127	O
-of	128	130	O
-electric	131	139	B-Material
-charge	140	146	I-Material
-into	147	151	O
-organic	152	159	B-Material
-materials	160	169	I-Material
-polarizes	170	179	O
-the	180	183	O
-surroundings	184	196	O
-and	197	200	O
-changes	201	208	O
-the	209	212	O
-bond	213	217	O
-lengths	218	225	O
-around	226	232	O
-it	233	235	O
-,	235	236	O
-such	237	241	O
-an	242	244	O
-excitation	245	255	O
-is	256	258	O
-defined	259	266	O
-as	267	269	O
-a	270	271	O
-charged	272	279	B-Material
-polaron	280	287	I-Material
-.	287	288	O
-
-Absorption	289	299	O
-of	300	302	O
-light	303	308	O
-and	309	312	O
-fluorescence	313	325	O
-quenching	326	335	O
-by	336	338	O
-polarons	339	347	O
-are	348	351	O
-important	352	361	O
-issues	362	368	O
-in	369	371	O
-the	372	375	O
-operation	376	385	B-Task
-of	386	388	I-Task
-organic	389	396	I-Task
-optoelectronic	397	411	I-Task
-devices	412	419	I-Task
-.	419	420	O
-
-It	421	423	O
-is	424	426	O
-particularly	427	439	O
-relevant	440	448	O
-to	449	451	O
-the	452	455	O
-development	456	467	B-Task
-of	468	470	I-Task
-electrically	471	483	I-Task
-pumped	484	490	I-Task
-lasers	491	497	I-Task
-.	497	498	O
-
-With	499	503	O
-recent	504	510	O
-advances	511	519	O
-in	520	522	O
-materials	523	532	O
-properties	533	543	O
-and	544	547	O
-optical	548	555	O
-design	556	562	O
-the	563	566	O
-lasing	567	573	B-Task
-threshold	574	583	I-Task
-of	584	586	I-Task
-organic	587	594	I-Task
-structures	595	605	I-Task
-under	606	611	I-Task
-optical	612	619	I-Task
-pumping	620	627	I-Task
-is	628	630	O
-now	631	634	O
-low	635	638	O
-enough	639	645	O
-to	646	648	O
-enable	649	655	O
-pumping	656	663	O
-by	664	666	O
-inorganic	667	676	B-Material
-laser	677	682	I-Material
-diodes	683	689	I-Material
-
-[	690	691	O
-1–3	691	694	O
-]	694	695	O
-and	696	699	O
-LEDs	700	704	O
-[	705	706	O
-4	706	707	O
-]	707	708	O
-which	709	714	O
-is	715	717	O
-promising	718	727	O
-for	728	731	O
-fabrication	732	743	O
-of	744	746	O
-very	747	751	B-Material
-sensitive	752	761	I-Material
-low	762	765	I-Material
--	765	766	I-Material
-cost	766	770	I-Material
-devices	771	778	I-Material
-for	779	782	O
-biosensing	783	793	B-Process
-and	794	797	O
-chemosensing	798	810	B-Process
-[	811	812	O
-5,6	812	815	O
-]	815	816	O
-.	816	817	O
-
-However	818	825	O
-,	825	826	O
-light	827	832	B-Process
-absorption	833	843	I-Process
-by	844	846	O
-injected	847	855	O
-charges	856	863	O
-has	864	867	O
-been	868	872	O
-reported	873	881	O
-to	882	884	O
-be	885	887	O
-the	888	891	O
-major	892	897	O
-obstacle	898	906	O
-to	907	909	O
-electrically	910	922	B-Process
-pumped	923	929	I-Process
-lasing	930	936	I-Process
-[	937	938	O
-7	938	939	O
-]	939	940	O
-.	940	941	O
-
-Injected	942	950	O
-charges	951	958	O
-can	959	962	O
-also	963	967	O
-quench	968	974	O
-luminescence	975	987	O
-as	988	990	O
-they	991	995	O
-accept	996	1002	B-Process
-energy	1003	1009	I-Process
-from	1010	1014	I-Process
-excitons	1015	1023	I-Process
-by	1024	1026	O
-resonant	1027	1035	B-Task
-dipole	1036	1042	I-Task
-–	1042	1043	I-Task
-dipole	1043	1049	I-Task
-interactions	1050	1062	I-Task
-and	1063	1066	O
-this	1067	1071	O
-is	1072	1074	O
-an	1075	1077	O
-important	1078	1087	O
-loss	1088	1092	O
-mechanism	1093	1102	O
-in	1103	1105	O
-organic	1106	1113	B-Material
-LEDs	1114	1118	I-Material
-as	1119	1121	O
-well	1122	1126	O
-as	1127	1129	O
-in	1130	1132	O
-lasers	1133	1139	B-Material
-.	1139	1140	O
-
-Absorption	1141	1151	O
-cross	1152	1157	O
--	1157	1158	O
-sections	1158	1166	O
-of	1167	1169	O
-polarons	1170	1178	O
-are	1179	1182	O
-not	1183	1186	O
-known	1187	1192	O
-to	1193	1195	O
-the	1196	1199	O
-desired	1200	1207	O
-accuracy	1208	1216	O
-because	1217	1224	O
-of	1225	1227	O
-the	1228	1231	O
-difficulty	1232	1242	O
-of	1243	1245	O
-quantifying	1246	1257	O
-the	1258	1261	O
-charge	1262	1268	B-Process
-density	1269	1276	I-Process
-injected	1277	1285	O
-into	1286	1290	O
-the	1291	1294	O
-film	1295	1299	O
-.	1299	1300	O
-
-Previous	1301	1309	O
-studies	1310	1317	O
-used	1318	1322	O
-controlled	1323	1333	B-Process
-electrical	1334	1344	I-Process
-injection	1345	1354	I-Process
-of	1355	1357	I-Process
-charges	1358	1365	I-Process
-in	1366	1368	O
-unipolar	1369	1377	B-Material
-devices	1378	1385	I-Material
-through	1386	1393	O
-contacting	1394	1404	B-Material
-electrodes	1405	1415	I-Material
-and	1416	1419	O
-field	1420	1425	B-Material
--	1425	1426	I-Material
-dependent	1426	1435	I-Material
-charge	1436	1442	I-Material
-mobility	1443	1451	I-Material
-measurements	1452	1464	I-Material
-to	1465	1467	O
-estimate	1468	1476	O
-the	1477	1480	O
-charge	1481	1487	O
-densities	1488	1497	O
-which	1498	1503	O
-were	1504	1508	O
-compared	1509	1517	O
-with	1518	1522	O
-the	1523	1526	O
-values	1527	1533	O
-obtained	1534	1542	O
-by	1543	1545	O
-capacitance	1546	1557	B-Process
-–	1557	1558	I-Process
-voltage	1558	1565	I-Process
-analysis	1566	1574	I-Process
-and	1575	1578	O
-the	1579	1582	O
-two	1583	1586	O
-results	1587	1594	O
-differed	1595	1603	O
-by	1604	1606	O
-a	1607	1608	O
-factor	1609	1615	O
-of	1616	1618	O
-three	1619	1624	O
-[	1625	1626	O
-8,9	1626	1629	O
-]	1629	1630	O
-.	1630	1631	O
+The	0,3	O	O
+optical	4,11	O	O
+properties	12,22	O	O
+of	23,25	O	O
+charged	26,33	O	O
+excitations	34,45	O	O
+are	46,49	O	O
+important	50,59	O	O
+for	60,63	O	O
+understanding	64,77	O	O
+organic	78,85	O	B-Task
+semiconductor	86,99	O	I-Task
+photophysics	100,112	O	I-Task
+.	112,113	O	O
+
+The	114,117	O	O
+injection	118,127	O	O
+of	128,130	O	O
+electric	131,139	O	B-Material
+charge	140,146	O	I-Material
+into	147,151	O	O
+organic	152,159	O	B-Material
+materials	160,169	O	I-Material
+polarizes	170,179	O	O
+the	180,183	O	O
+surroundings	184,196	O	O
+and	197,200	O	O
+changes	201,208	O	O
+the	209,212	O	O
+bond	213,217	O	O
+lengths	218,225	O	O
+around	226,232	O	O
+it	233,235	O	O
+,	235,236	O	O
+such	237,241	O	O
+an	242,244	O	O
+excitation	245,255	O	O
+is	256,258	O	O
+defined	259,266	O	O
+as	267,269	O	O
+a	270,271	O	O
+charged	272,279	O	B-Material
+polaron	280,287	O	I-Material
+.	287,288	O	O
+
+Absorption	289,299	O	O
+of	300,302	O	O
+light	303,308	O	O
+and	309,312	O	O
+fluorescence	313,325	O	O
+quenching	326,335	O	O
+by	336,338	O	O
+polarons	339,347	O	O
+are	348,351	O	O
+important	352,361	O	O
+issues	362,368	O	O
+in	369,371	O	O
+the	372,375	O	O
+operation	376,385	O	B-Task
+of	386,388	O	I-Task
+organic	389,396	O	I-Task
+optoelectronic	397,411	O	I-Task
+devices	412,419	O	I-Task
+.	419,420	O	O
+
+It	421,423	O	O
+is	424,426	O	O
+particularly	427,439	O	O
+relevant	440,448	O	O
+to	449,451	O	O
+the	452,455	O	O
+development	456,467	O	B-Task
+of	468,470	O	I-Task
+electrically	471,483	O	I-Task
+pumped	484,490	O	I-Task
+lasers	491,497	O	I-Task
+.	497,498	O	O
+
+With	499,503	O	O
+recent	504,510	O	O
+advances	511,519	O	O
+in	520,522	O	O
+materials	523,532	O	O
+properties	533,543	O	O
+and	544,547	O	O
+optical	548,555	O	O
+design	556,562	O	O
+the	563,566	O	O
+lasing	567,573	O	B-Task
+threshold	574,583	O	I-Task
+of	584,586	O	I-Task
+organic	587,594	O	I-Task
+structures	595,605	O	I-Task
+under	606,611	O	I-Task
+optical	612,619	O	I-Task
+pumping	620,627	O	I-Task
+is	628,630	O	O
+now	631,634	O	O
+low	635,638	O	O
+enough	639,645	O	O
+to	646,648	O	O
+enable	649,655	O	O
+pumping	656,663	O	O
+by	664,666	O	O
+inorganic	667,676	O	B-Material
+laser	677,682	O	I-Material
+diodes	683,689	O	I-Material
+
+[	690,691	O	O
+1–3	691,694	O	O
+]	694,695	O	O
+and	696,699	O	O
+LEDs	700,704	O	O
+[	705,706	O	O
+4	706,707	O	O
+]	707,708	O	O
+which	709,714	O	O
+is	715,717	O	O
+promising	718,727	O	O
+for	728,731	O	O
+fabrication	732,743	O	O
+of	744,746	O	O
+very	747,751	O	B-Material
+sensitive	752,761	O	I-Material
+low	762,765	O	I-Material
+-	765,766	O	I-Material
+cost	766,770	O	I-Material
+devices	771,778	O	I-Material
+for	779,782	O	O
+biosensing	783,793	O	B-Process
+and	794,797	O	O
+chemosensing	798,810	O	B-Process
+[	811,812	O	O
+5,6	812,815	O	O
+]	815,816	O	O
+.	816,817	O	O
+
+However	818,825	O	O
+,	825,826	O	O
+light	827,832	O	B-Process
+absorption	833,843	O	I-Process
+by	844,846	O	O
+injected	847,855	O	O
+charges	856,863	O	O
+has	864,867	O	O
+been	868,872	O	O
+reported	873,881	O	O
+to	882,884	O	O
+be	885,887	O	O
+the	888,891	O	O
+major	892,897	O	O
+obstacle	898,906	O	O
+to	907,909	O	O
+electrically	910,922	O	B-Process
+pumped	923,929	O	I-Process
+lasing	930,936	O	I-Process
+[	937,938	O	O
+7	938,939	O	O
+]	939,940	O	O
+.	940,941	O	O
+
+Injected	942,950	O	O
+charges	951,958	O	O
+can	959,962	O	O
+also	963,967	O	O
+quench	968,974	O	O
+luminescence	975,987	O	O
+as	988,990	O	O
+they	991,995	O	O
+accept	996,1002	O	B-Process
+energy	1003,1009	O	I-Process
+from	1010,1014	O	I-Process
+excitons	1015,1023	O	I-Process
+by	1024,1026	O	O
+resonant	1027,1035	O	B-Task
+dipole	1036,1042	O	I-Task
+–	1042,1043	O	I-Task
+dipole	1043,1049	O	I-Task
+interactions	1050,1062	O	I-Task
+and	1063,1066	O	O
+this	1067,1071	O	O
+is	1072,1074	O	O
+an	1075,1077	O	O
+important	1078,1087	O	O
+loss	1088,1092	O	O
+mechanism	1093,1102	O	O
+in	1103,1105	O	O
+organic	1106,1113	O	B-Material
+LEDs	1114,1118	O	I-Material
+as	1119,1121	O	O
+well	1122,1126	O	O
+as	1127,1129	O	O
+in	1130,1132	O	O
+lasers	1133,1139	O	B-Material
+.	1139,1140	O	O
+
+Absorption	1141,1151	O	O
+cross	1152,1157	O	O
+-	1157,1158	O	O
+sections	1158,1166	O	O
+of	1167,1169	O	O
+polarons	1170,1178	O	O
+are	1179,1182	O	O
+not	1183,1186	O	O
+known	1187,1192	O	O
+to	1193,1195	O	O
+the	1196,1199	O	O
+desired	1200,1207	O	O
+accuracy	1208,1216	O	O
+because	1217,1224	O	O
+of	1225,1227	O	O
+the	1228,1231	O	O
+difficulty	1232,1242	O	O
+of	1243,1245	O	O
+quantifying	1246,1257	O	O
+the	1258,1261	O	O
+charge	1262,1268	O	B-Process
+density	1269,1276	O	I-Process
+injected	1277,1285	O	O
+into	1286,1290	O	O
+the	1291,1294	O	O
+film	1295,1299	O	O
+.	1299,1300	O	O
+
+Previous	1301,1309	O	O
+studies	1310,1317	O	O
+used	1318,1322	O	O
+controlled	1323,1333	O	B-Process
+electrical	1334,1344	O	I-Process
+injection	1345,1354	O	I-Process
+of	1355,1357	O	I-Process
+charges	1358,1365	O	I-Process
+in	1366,1368	O	O
+unipolar	1369,1377	O	B-Material
+devices	1378,1385	O	I-Material
+through	1386,1393	O	O
+contacting	1394,1404	O	B-Material
+electrodes	1405,1415	O	I-Material
+and	1416,1419	O	O
+field	1420,1425	O	B-Material
+-	1425,1426	O	I-Material
+dependent	1426,1435	O	I-Material
+charge	1436,1442	O	I-Material
+mobility	1443,1451	O	I-Material
+measurements	1452,1464	O	I-Material
+to	1465,1467	O	O
+estimate	1468,1476	O	O
+the	1477,1480	O	O
+charge	1481,1487	O	O
+densities	1488,1497	O	O
+which	1498,1503	O	O
+were	1504,1508	O	O
+compared	1509,1517	O	O
+with	1518,1522	O	O
+the	1523,1526	O	O
+values	1527,1533	O	O
+obtained	1534,1542	O	O
+by	1543,1545	O	O
+capacitance	1546,1557	O	B-Process
+–	1557,1558	O	I-Process
+voltage	1558,1565	O	I-Process
+analysis	1566,1574	O	I-Process
+and	1575,1578	O	O
+the	1579,1582	O	O
+two	1583,1586	O	O
+results	1587,1594	O	O
+differed	1595,1603	O	O
+by	1604,1606	O	O
+a	1607,1608	O	O
+factor	1609,1615	O	O
+of	1616,1618	O	O
+three	1619,1624	O	O
+[	1625,1626	O	O
+8,9	1626,1629	O	O
+]	1629,1630	O	O
+.	1630,1631	O	O
 
 
 -DOCSTART- (S000926141301539X)
 
-In	0	2	O
-this	3	7	O
-Letter	8	14	O
-we	15	17	O
-revisit	18	25	O
-the	26	29	O
-Chesnavich	30	40	B-Process
-model	41	46	I-Process
-Hamiltonian	47	58	I-Process
-[	59	60	O
-37	60	62	O
-]	62	63	O
-in	64	66	O
-the	67	70	O
-light	71	76	O
-of	77	79	O
-recent	80	86	O
-developments	87	99	O
-in	100	102	O
-TST	103	106	B-Material
-.	106	107	O
-
-For	108	111	O
-barrierless	112	123	O
-systems	124	131	O
-such	132	136	O
-as	137	139	O
-ion	140	143	B-Process
-–	143	144	I-Process
-molecule	144	152	I-Process
-reactions	153	162	I-Process
-,	162	163	O
-the	164	167	O
-concepts	168	176	O
-of	177	179	O
-OTS	180	183	B-Material
-and	184	187	O
-TTS	188	191	B-Material
-can	192	195	O
-be	196	198	O
-clearly	199	206	O
-formulated	207	217	O
-in	218	220	O
-terms	221	226	O
-of	227	229	O
-well	230	234	O
-defined	235	242	O
-phase	243	248	O
-space	249	254	B-Material
-geometrical	255	266	I-Material
-objects	267	274	I-Material
-.	274	275	O
-
-(	276	277	O
-For	277	280	O
-work	281	285	O
-on	286	288	O
-the	289	292	O
-phase	293	298	O
-space	299	304	O
-description	305	316	O
-of	317	319	O
-OTS	320	323	B-Material
-,	323	324	O
-see	325	328	O
-Refs	329	333	O
-.	333	334	O
-
-[	335	336	O
-38–40	336	341	O
-]	341	342	O
-.	342	343	O
-)	343	344	O
-
-The	345	348	O
-first	349	354	O
-goal	355	359	O
-of	360	362	O
-the	363	366	O
-present	367	374	O
-article	375	382	O
-is	383	385	O
-the	386	389	O
-identification	390	404	B-Process
-of	405	407	O
-these	408	413	O
-notions	414	421	O
-with	422	426	O
-well	427	431	B-Material
-defined	432	439	I-Material
-phase	440	445	I-Material
-space	446	451	I-Material
-dividing	452	460	I-Material
-surfaces	461	469	I-Material
-attached	470	478	I-Material
-to	479	481	I-Material
-NHIMs	482	487	I-Material
-.	487	488	O
-
-The	489	492	O
-second	493	499	O
-and	500	503	O
-main	504	508	O
-goal	509	513	O
-is	514	516	O
-an	517	519	O
-elucidation	520	531	O
-of	532	534	O
-the	535	538	O
-roaming	539	546	O
-phenomenon	547	557	O
-in	558	560	O
-the	561	564	O
-context	565	572	O
-of	573	575	O
-the	576	579	O
-Chesnavich	580	590	B-Process
-model	591	596	I-Process
-Hamiltonian	597	608	I-Process
-.	608	609	O
-
-The	610	613	O
-associated	614	624	B-Process
-potential	625	634	I-Process
-function	635	643	I-Process
-,	643	644	O
-possessing	645	655	O
-many	656	660	O
-features	661	669	O
-associated	670	680	O
-with	681	685	O
-a	686	687	O
-realistic	688	697	O
-molecular	698	707	O
-PES	708	711	O
-,	711	712	O
-leads	713	718	O
-to	719	721	O
-dynamics	722	730	B-Task
-which	731	736	I-Task
-clearly	737	744	I-Task
-reveal	745	751	I-Task
-the	752	755	I-Task
-origins	756	763	I-Task
-of	764	766	I-Task
-the	767	770	I-Task
-roaming	771	778	I-Task
-effect	779	785	I-Task
-.	785	786	O
-
-Based	787	792	O
-on	793	795	O
-our	796	799	O
-trajectory	800	810	B-Material
-simulations	811	822	I-Material
-,	822	823	O
-we	824	826	O
-show	827	831	O
-how	832	835	O
-the	836	839	O
-identification	840	854	O
-of	855	857	O
-the	858	861	O
-TTS	862	865	O
-and	866	869	O
-OTS	870	873	O
-DSs	874	877	O
-with	878	882	O
-periodic	883	891	B-Material
-orbit	892	897	I-Material
-dividing	898	906	I-Material
-surfaces	907	915	I-Material
-(	916	917	O
-PODS	917	921	B-Material
-)	921	922	O
-provides	923	931	O
-the	932	935	O
-natural	936	943	O
-framework	944	953	O
-for	954	957	O
-analysis	958	966	O
-of	967	969	O
-the	970	973	O
-roaming	974	981	O
-mechanism	982	991	O
-.	991	992	O
+In	0,2	O	O
+this	3,7	O	O
+Letter	8,14	O	O
+we	15,17	O	O
+revisit	18,25	O	O
+the	26,29	O	O
+Chesnavich	30,40	O	B-Process
+model	41,46	O	I-Process
+Hamiltonian	47,58	O	I-Process
+[	59,60	O	O
+37	60,62	O	O
+]	62,63	O	O
+in	64,66	O	O
+the	67,70	O	O
+light	71,76	O	O
+of	77,79	O	O
+recent	80,86	O	O
+developments	87,99	O	O
+in	100,102	O	O
+TST	103,106	O	B-Material
+.	106,107	O	O
+
+For	108,111	O	O
+barrierless	112,123	O	O
+systems	124,131	O	O
+such	132,136	O	O
+as	137,139	O	O
+ion	140,143	O	B-Process
+–	143,144	O	I-Process
+molecule	144,152	O	I-Process
+reactions	153,162	O	I-Process
+,	162,163	O	O
+the	164,167	O	O
+concepts	168,176	O	O
+of	177,179	O	O
+OTS	180,183	O	B-Material
+and	184,187	O	O
+TTS	188,191	O	B-Material
+can	192,195	O	O
+be	196,198	O	O
+clearly	199,206	O	O
+formulated	207,217	O	O
+in	218,220	O	O
+terms	221,226	O	O
+of	227,229	O	O
+well	230,234	O	O
+defined	235,242	O	O
+phase	243,248	O	O
+space	249,254	O	B-Material
+geometrical	255,266	O	I-Material
+objects	267,274	O	I-Material
+.	274,275	O	O
+
+(	276,277	O	O
+For	277,280	O	O
+work	281,285	O	O
+on	286,288	O	O
+the	289,292	O	O
+phase	293,298	O	O
+space	299,304	O	O
+description	305,316	O	O
+of	317,319	O	O
+OTS	320,323	O	B-Material
+,	323,324	O	O
+see	325,328	O	O
+Refs	329,333	O	O
+.	333,334	O	O
+
+[	335,336	O	O
+38–40	336,341	O	O
+]	341,342	O	O
+.	342,343	O	O
+)	343,344	O	O
+
+The	345,348	O	O
+first	349,354	O	O
+goal	355,359	O	O
+of	360,362	O	O
+the	363,366	O	O
+present	367,374	O	O
+article	375,382	O	O
+is	383,385	O	O
+the	386,389	O	O
+identification	390,404	O	B-Process
+of	405,407	O	O
+these	408,413	O	O
+notions	414,421	O	O
+with	422,426	O	O
+well	427,431	O	B-Material
+defined	432,439	O	I-Material
+phase	440,445	O	I-Material
+space	446,451	O	I-Material
+dividing	452,460	O	I-Material
+surfaces	461,469	O	I-Material
+attached	470,478	O	I-Material
+to	479,481	O	I-Material
+NHIMs	482,487	O	I-Material
+.	487,488	O	O
+
+The	489,492	O	O
+second	493,499	O	O
+and	500,503	O	O
+main	504,508	O	O
+goal	509,513	O	O
+is	514,516	O	O
+an	517,519	O	O
+elucidation	520,531	O	O
+of	532,534	O	O
+the	535,538	O	O
+roaming	539,546	O	O
+phenomenon	547,557	O	O
+in	558,560	O	O
+the	561,564	O	O
+context	565,572	O	O
+of	573,575	O	O
+the	576,579	O	O
+Chesnavich	580,590	O	B-Process
+model	591,596	O	I-Process
+Hamiltonian	597,608	O	I-Process
+.	608,609	O	O
+
+The	610,613	O	O
+associated	614,624	O	B-Process
+potential	625,634	O	I-Process
+function	635,643	O	I-Process
+,	643,644	O	O
+possessing	645,655	O	O
+many	656,660	O	O
+features	661,669	O	O
+associated	670,680	O	O
+with	681,685	O	O
+a	686,687	O	O
+realistic	688,697	O	O
+molecular	698,707	O	O
+PES	708,711	O	O
+,	711,712	O	O
+leads	713,718	O	O
+to	719,721	O	O
+dynamics	722,730	O	B-Task
+which	731,736	O	I-Task
+clearly	737,744	O	I-Task
+reveal	745,751	O	I-Task
+the	752,755	O	I-Task
+origins	756,763	O	I-Task
+of	764,766	O	I-Task
+the	767,770	O	I-Task
+roaming	771,778	O	I-Task
+effect	779,785	O	I-Task
+.	785,786	O	O
+
+Based	787,792	O	O
+on	793,795	O	O
+our	796,799	O	O
+trajectory	800,810	O	B-Material
+simulations	811,822	O	I-Material
+,	822,823	O	O
+we	824,826	O	O
+show	827,831	O	O
+how	832,835	O	O
+the	836,839	O	O
+identification	840,854	O	O
+of	855,857	O	O
+the	858,861	O	O
+TTS	862,865	O	O
+and	866,869	O	O
+OTS	870,873	O	O
+DSs	874,877	O	O
+with	878,882	O	O
+periodic	883,891	O	B-Material
+orbit	892,897	O	I-Material
+dividing	898,906	O	I-Material
+surfaces	907,915	O	I-Material
+(	916,917	O	O
+PODS	917,921	O	B-Material
+)	921,922	O	O
+provides	923,931	O	O
+the	932,935	O	O
+natural	936,943	O	O
+framework	944,953	O	O
+for	954,957	O	O
+analysis	958,966	O	O
+of	967,969	O	O
+the	970,973	O	O
+roaming	974,981	O	O
+mechanism	982,991	O	O
+.	991,992	O	O
 
 
 -DOCSTART- (S0009261415000974)
 
-Within	0	6	O
-the	7	10	O
-range	11	16	B-Material
-of	17	19	I-Material
-temperatures	20	32	I-Material
-chosen	33	39	I-Material
-,	39	40	O
-alanine	41	48	B-Material
-dipeptide	49	58	I-Material
-exhibits	59	67	O
-very	68	72	O
-simple	73	79	O
-behaviour	80	89	O
-.	89	90	O
-
-This	91	95	O
-result	96	102	O
-is	103	105	O
-due	106	109	O
-to	110	112	O
-the	113	116	O
-relatively	117	127	O
-small	128	133	O
-number	134	140	O
-of	141	143	O
-physically	144	154	B-Process
-relevant	155	163	I-Process
-minima	164	170	I-Process
-(	171	172	O
-seven	172	177	O
-were	178	182	O
-characterised	183	196	O
-using	197	202	O
-this	203	207	O
-force	208	213	B-Process
-field	214	219	I-Process
-and	220	223	I-Process
-solvent	224	231	I-Process
-model	232	237	I-Process
-)	237	238	O
-and	239	242	O
-the	243	246	O
-larger	247	253	B-Material
-potential	254	263	I-Material
-energy	264	270	I-Material
-spacing	271	278	I-Material
-between	279	286	O
-the	287	290	O
-global	291	297	O
-minimum	298	305	O
-and	306	309	O
-higher	310	316	O
-energy	317	323	O
-minima	324	330	O
-.	330	331	O
-
-Indeed	332	338	O
-,	338	339	O
-cross	340	345	B-Process
--	345	346	I-Process
-overs	346	351	I-Process
-in	352	354	I-Process
-the	355	358	I-Process
-approximate	359	370	I-Process
-global	371	377	I-Process
-free	378	382	I-Process
-energy	383	389	I-Process
-minimum	390	397	O
-for	398	401	O
-this	402	406	O
-system	407	413	O
-(	414	415	O
-where	415	420	O
-the	421	424	O
-free	425	429	O
-energy	430	436	O
-of	437	439	O
-the	440	443	O
-second	444	450	O
--	450	451	O
-lowest	451	457	O
-potential	458	467	O
-energy	468	474	O
-minimum	475	482	O
-becomes	483	490	O
-lower	491	496	O
-than	497	501	O
-that	502	506	O
-of	507	509	O
-the	510	513	O
-global	514	520	O
-potential	521	530	O
-energy	531	537	O
-minimum	538	545	O
-)	545	546	O
-in	547	549	O
-the	550	553	O
-harmonic	554	562	O
-approximation	563	576	O
-would	577	582	O
-occur	583	588	O
-at	589	591	O
-1170K.	592	598	O
-
-In	599	601	O
-general	602	609	O
-,	609	610	O
-the	611	614	O
-harmonic	615	623	O
-prediction	624	634	O
-for	635	638	O
-the	639	642	O
-crossover	643	652	O
-temperature	653	664	O
-between	665	672	O
-two	673	676	O
-minima	677	683	O
-is(4)kBTxo	684	694	O
-=	694	695	O
-V1−V2ln((o2ν¯2κ)/(o1ν¯1κ)),from	695	726	O
-Eq	727	729	O
-.	729	730	O
-
-(	731	732	O
-3	732	733	O
-)	733	734	O
-,	734	735	O
-which	736	741	O
-clearly	742	749	O
-illustrates	750	761	O
-the	762	765	O
-balance	766	773	B-Task
-between	774	781	I-Task
-potential	782	791	I-Task
-energy	792	798	I-Task
-and	799	802	I-Task
-well	803	807	I-Task
-entropy	808	815	I-Task
-.	815	816	O
+Within	0,6	O	O
+the	7,10	O	O
+range	11,16	O	B-Material
+of	17,19	O	I-Material
+temperatures	20,32	O	I-Material
+chosen	33,39	O	I-Material
+,	39,40	O	O
+alanine	41,48	O	B-Material
+dipeptide	49,58	O	I-Material
+exhibits	59,67	O	O
+very	68,72	O	O
+simple	73,79	O	O
+behaviour	80,89	O	O
+.	89,90	O	O
+
+This	91,95	O	O
+result	96,102	O	O
+is	103,105	O	O
+due	106,109	O	O
+to	110,112	O	O
+the	113,116	O	O
+relatively	117,127	O	O
+small	128,133	O	O
+number	134,140	O	O
+of	141,143	O	O
+physically	144,154	O	B-Process
+relevant	155,163	O	I-Process
+minima	164,170	O	I-Process
+(	171,172	O	O
+seven	172,177	O	O
+were	178,182	O	O
+characterised	183,196	O	O
+using	197,202	O	O
+this	203,207	O	O
+force	208,213	O	B-Process
+field	214,219	O	I-Process
+and	220,223	O	I-Process
+solvent	224,231	O	I-Process
+model	232,237	O	I-Process
+)	237,238	O	O
+and	239,242	O	O
+the	243,246	O	O
+larger	247,253	O	B-Material
+potential	254,263	O	I-Material
+energy	264,270	O	I-Material
+spacing	271,278	O	I-Material
+between	279,286	O	O
+the	287,290	O	O
+global	291,297	O	O
+minimum	298,305	O	O
+and	306,309	O	O
+higher	310,316	O	O
+energy	317,323	O	O
+minima	324,330	O	O
+.	330,331	O	O
+
+Indeed	332,338	O	O
+,	338,339	O	O
+cross	340,345	O	B-Process
+-	345,346	O	I-Process
+overs	346,351	O	I-Process
+in	352,354	O	I-Process
+the	355,358	O	I-Process
+approximate	359,370	O	I-Process
+global	371,377	O	I-Process
+free	378,382	O	I-Process
+energy	383,389	O	I-Process
+minimum	390,397	O	O
+for	398,401	O	O
+this	402,406	O	O
+system	407,413	O	O
+(	414,415	O	O
+where	415,420	O	O
+the	421,424	O	O
+free	425,429	O	O
+energy	430,436	O	O
+of	437,439	O	O
+the	440,443	O	O
+second	444,450	O	O
+-	450,451	O	O
+lowest	451,457	O	O
+potential	458,467	O	O
+energy	468,474	O	O
+minimum	475,482	O	O
+becomes	483,490	O	O
+lower	491,496	O	O
+than	497,501	O	O
+that	502,506	O	O
+of	507,509	O	O
+the	510,513	O	O
+global	514,520	O	O
+potential	521,530	O	O
+energy	531,537	O	O
+minimum	538,545	O	O
+)	545,546	O	O
+in	547,549	O	O
+the	550,553	O	O
+harmonic	554,562	O	O
+approximation	563,576	O	O
+would	577,582	O	O
+occur	583,588	O	O
+at	589,591	O	O
+1170K.	592,598	O	O
+
+In	599,601	O	O
+general	602,609	O	O
+,	609,610	O	O
+the	611,614	O	O
+harmonic	615,623	O	O
+prediction	624,634	O	O
+for	635,638	O	O
+the	639,642	O	O
+crossover	643,652	O	O
+temperature	653,664	O	O
+between	665,672	O	O
+two	673,676	O	O
+minima	677,683	O	O
+is(4)kBTxo	684,694	O	O
+=	694,695	O	O
+V1−V2ln((o2ν¯2κ)/(o1ν¯1κ)),from	695,726	O	O
+Eq	727,729	O	O
+.	729,730	O	O
+
+(	731,732	O	O
+3	732,733	O	O
+)	733,734	O	O
+,	734,735	O	O
+which	736,741	O	O
+clearly	742,749	O	O
+illustrates	750,761	O	O
+the	762,765	O	O
+balance	766,773	O	B-Task
+between	774,781	O	I-Task
+potential	782,791	O	I-Task
+energy	792,798	O	I-Task
+and	799,802	O	I-Task
+well	803,807	O	I-Task
+entropy	808,815	O	I-Task
+.	815,816	O	O
 
 
 -DOCSTART- (S0009261415002730)
 
-Both	0	4	O
-methods	5	12	O
-of	13	15	O
-structure	16	25	B-Process
-solution	26	34	I-Process
-reveal	35	41	O
-a	42	43	O
-bent	44	48	B-Process
-conformation	49	61	I-Process
-of	62	64	O
-the	65	68	O
-central	69	76	B-Material
-terthiophene	77	89	I-Material
-units	90	95	I-Material
-of	96	98	O
-the	99	102	O
-DOTT	103	107	B-Material
-molecule	108	116	I-Material
-as	117	119	O
-is	120	122	O
-clearly	123	130	O
-visible	131	138	O
-in	139	141	O
-all	142	145	O
-three	146	151	O
-cases	152	157	O
-in	158	160	O
-Figure	161	167	O
-5	168	169	O
-.	169	170	O
-
-However	171	178	O
-,	178	179	O
-there	180	185	O
-is	186	188	O
-a	189	190	O
-fundamental	191	202	O
-difference	203	213	O
-in	214	216	O
-the	217	220	O
-conformation	221	233	O
-of	234	236	O
-the	237	240	O
-octyl	241	246	B-Material
-side	247	251	I-Material
-chains	252	258	I-Material
-.	258	259	O
-
-Whilst	260	266	O
-for	267	270	O
-the	271	274	O
-single	275	281	O
-crystal	282	289	O
-phase	290	295	O
-at	296	298	O
-T=100	299	304	O
-K	304	305	O
-linearly	306	314	B-Material
-extended	315	323	I-Material
-chains	324	330	I-Material
-are	331	334	O
-observed	335	343	O
-(	344	345	O
-Figure	345	351	O
-5B	352	354	O
-)	354	355	O
-,	355	356	O
-a	357	358	O
-defined	359	366	B-Process
-rotation	367	375	I-Process
-of	376	378	I-Process
-the	379	382	I-Process
-octyl	383	388	I-Process
-chains	389	395	I-Process
-relative	396	404	O
-to	405	407	O
-the	408	411	O
-terthiophene	412	424	B-Material
-unit	425	429	I-Material
-is	430	432	O
-found	433	438	O
-for	439	442	O
-the	443	446	O
-three	447	452	O
-thin	453	457	B-Material
-film	458	462	I-Material
-phases	463	469	O
-(	470	471	O
-Figure	471	477	O
-5A	478	480	O
-)	480	481	O
-.	481	482	O
-
-The	483	486	O
-rotation	487	495	O
-angle	496	501	O
-of	502	504	O
-about	505	510	O
-±70	511	514	O
-°	514	515	O
-results	516	523	O
-from	524	528	O
-a	529	530	O
-twist	531	536	B-Process
-of	537	539	I-Process
-the	540	543	I-Process
-first	544	549	I-Process
-CC	550	552	I-Process
-single	553	559	I-Process
-bond	560	564	I-Process
-at	565	567	O
-the	568	571	O
-link	572	576	O
-between	577	584	O
-the	585	588	O
-terthiophene	589	601	B-Material
-unit	602	606	I-Material
-and	607	610	O
-the	611	614	O
-octyl	615	620	B-Material
-chain	621	626	I-Material
-(	627	628	O
-see	628	631	O
-arrows	632	638	O
-Figure	639	645	O
-5A	646	648	O
-)	648	649	O
-.	649	650	O
-
-Two	651	654	O
-features	655	663	O
-of	664	666	O
-this	667	671	O
-rotated	672	679	O
-conformation	680	692	O
-are	693	696	O
-interesting	697	708	O
-.	708	709	O
-
-First	710	715	O
-,	715	716	O
-a	717	718	O
-molecule	719	727	O
-with	728	732	O
-rotated	733	740	B-Material
-side	741	745	I-Material
-chains	746	752	I-Material
-represents	753	763	O
-the	764	767	O
-equilibrium	768	779	O
-state	780	785	O
-of	786	788	O
-an	789	791	O
-isolated	792	800	O
-single	801	807	O
-DOTT	808	812	B-Material
-molecule	813	821	I-Material
-as	822	824	O
-obtained	825	833	O
-by	834	836	O
-combined	837	845	B-Process
-MD	846	848	I-Process
-and	849	852	I-Process
-VASP	853	857	I-Process
-calculations	858	870	I-Process
-
-[	871	872	O
-33	872	874	O
-]	874	875	O
-.	875	876	O
-
-Second	877	883	O
-,	883	884	O
-the	885	888	O
-rotated	889	896	O
-conformation	897	909	O
-of	910	912	O
-the	913	916	O
-octyl	917	922	B-Material
-chains	923	929	I-Material
-allows	930	936	O
-a	937	938	O
-dense	939	944	B-Process
-packing	945	952	I-Process
-of	953	955	O
-the	956	959	O
-octyl	960	965	B-Material
-side	966	970	I-Material
-chains	971	977	I-Material
-for	978	981	O
-both	982	986	O
-molecules	987	996	O
-.	996	997	O
-
-Interestingly	998	1011	O
-,	1011	1012	O
-the	1013	1016	O
-single	1017	1023	O
-crystal	1024	1031	B-Material
-structure	1032	1041	I-Material
-at	1042	1044	O
-room	1045	1049	O
-temperature	1050	1061	O
-shows	1062	1067	O
-the	1068	1071	O
-twisted	1072	1079	O
-as	1080	1082	O
-well	1083	1087	O
-as	1088	1090	O
-the	1091	1094	O
-linear	1095	1101	O
-conformation	1102	1114	O
-of	1115	1117	O
-the	1118	1121	O
-octyl	1122	1127	B-Material
-side	1128	1132	I-Material
-chains	1133	1139	I-Material
-within	1140	1146	O
-one	1147	1150	O
-molecule	1151	1159	O
-(	1160	1161	O
-Figure	1161	1167	O
-5C	1168	1170	O
-)	1170	1171	O
-.	1171	1172	O
+Both	0,4	O	O
+methods	5,12	O	O
+of	13,15	O	O
+structure	16,25	O	B-Process
+solution	26,34	O	I-Process
+reveal	35,41	O	O
+a	42,43	O	O
+bent	44,48	O	B-Process
+conformation	49,61	O	I-Process
+of	62,64	O	O
+the	65,68	O	O
+central	69,76	O	B-Material
+terthiophene	77,89	O	I-Material
+units	90,95	O	I-Material
+of	96,98	O	O
+the	99,102	O	O
+DOTT	103,107	O	B-Material
+molecule	108,116	O	I-Material
+as	117,119	O	O
+is	120,122	O	O
+clearly	123,130	O	O
+visible	131,138	O	O
+in	139,141	O	O
+all	142,145	O	O
+three	146,151	O	O
+cases	152,157	O	O
+in	158,160	O	O
+Figure	161,167	O	O
+5	168,169	O	O
+.	169,170	O	O
+
+However	171,178	O	O
+,	178,179	O	O
+there	180,185	O	O
+is	186,188	O	O
+a	189,190	O	O
+fundamental	191,202	O	O
+difference	203,213	O	O
+in	214,216	O	O
+the	217,220	O	O
+conformation	221,233	O	O
+of	234,236	O	O
+the	237,240	O	O
+octyl	241,246	O	B-Material
+side	247,251	O	I-Material
+chains	252,258	O	I-Material
+.	258,259	O	O
+
+Whilst	260,266	O	O
+for	267,270	O	O
+the	271,274	O	O
+single	275,281	O	O
+crystal	282,289	O	O
+phase	290,295	O	O
+at	296,298	O	O
+T=100	299,304	O	O
+K	304,305	O	O
+linearly	306,314	O	B-Material
+extended	315,323	O	I-Material
+chains	324,330	O	I-Material
+are	331,334	O	O
+observed	335,343	O	O
+(	344,345	O	O
+Figure	345,351	O	O
+5B	352,354	O	O
+)	354,355	O	O
+,	355,356	O	O
+a	357,358	O	O
+defined	359,366	O	B-Process
+rotation	367,375	O	I-Process
+of	376,378	O	I-Process
+the	379,382	O	I-Process
+octyl	383,388	O	I-Process
+chains	389,395	O	I-Process
+relative	396,404	O	O
+to	405,407	O	O
+the	408,411	O	O
+terthiophene	412,424	O	B-Material
+unit	425,429	O	I-Material
+is	430,432	O	O
+found	433,438	O	O
+for	439,442	O	O
+the	443,446	O	O
+three	447,452	O	O
+thin	453,457	O	B-Material
+film	458,462	O	I-Material
+phases	463,469	O	O
+(	470,471	O	O
+Figure	471,477	O	O
+5A	478,480	O	O
+)	480,481	O	O
+.	481,482	O	O
+
+The	483,486	O	O
+rotation	487,495	O	O
+angle	496,501	O	O
+of	502,504	O	O
+about	505,510	O	O
+±70	511,514	O	O
+°	514,515	O	O
+results	516,523	O	O
+from	524,528	O	O
+a	529,530	O	O
+twist	531,536	O	B-Process
+of	537,539	O	I-Process
+the	540,543	O	I-Process
+first	544,549	O	I-Process
+CC	550,552	O	I-Process
+single	553,559	O	I-Process
+bond	560,564	O	I-Process
+at	565,567	O	O
+the	568,571	O	O
+link	572,576	O	O
+between	577,584	O	O
+the	585,588	O	O
+terthiophene	589,601	O	B-Material
+unit	602,606	O	I-Material
+and	607,610	O	O
+the	611,614	O	O
+octyl	615,620	O	B-Material
+chain	621,626	O	I-Material
+(	627,628	O	O
+see	628,631	O	O
+arrows	632,638	O	O
+Figure	639,645	O	O
+5A	646,648	O	O
+)	648,649	O	O
+.	649,650	O	O
+
+Two	651,654	O	O
+features	655,663	O	O
+of	664,666	O	O
+this	667,671	O	O
+rotated	672,679	O	O
+conformation	680,692	O	O
+are	693,696	O	O
+interesting	697,708	O	O
+.	708,709	O	O
+
+First	710,715	O	O
+,	715,716	O	O
+a	717,718	O	O
+molecule	719,727	O	O
+with	728,732	O	O
+rotated	733,740	O	B-Material
+side	741,745	O	I-Material
+chains	746,752	O	I-Material
+represents	753,763	O	O
+the	764,767	O	O
+equilibrium	768,779	O	O
+state	780,785	O	O
+of	786,788	O	O
+an	789,791	O	O
+isolated	792,800	O	O
+single	801,807	O	O
+DOTT	808,812	O	B-Material
+molecule	813,821	O	I-Material
+as	822,824	O	O
+obtained	825,833	O	O
+by	834,836	O	O
+combined	837,845	O	B-Process
+MD	846,848	O	I-Process
+and	849,852	O	I-Process
+VASP	853,857	O	I-Process
+calculations	858,870	O	I-Process
+
+[	871,872	O	O
+33	872,874	O	O
+]	874,875	O	O
+.	875,876	O	O
+
+Second	877,883	O	O
+,	883,884	O	O
+the	885,888	O	O
+rotated	889,896	O	O
+conformation	897,909	O	O
+of	910,912	O	O
+the	913,916	O	O
+octyl	917,922	O	B-Material
+chains	923,929	O	I-Material
+allows	930,936	O	O
+a	937,938	O	O
+dense	939,944	O	B-Process
+packing	945,952	O	I-Process
+of	953,955	O	O
+the	956,959	O	O
+octyl	960,965	O	B-Material
+side	966,970	O	I-Material
+chains	971,977	O	I-Material
+for	978,981	O	O
+both	982,986	O	O
+molecules	987,996	O	O
+.	996,997	O	O
+
+Interestingly	998,1011	O	O
+,	1011,1012	O	O
+the	1013,1016	O	O
+single	1017,1023	O	O
+crystal	1024,1031	O	B-Material
+structure	1032,1041	O	I-Material
+at	1042,1044	O	O
+room	1045,1049	O	O
+temperature	1050,1061	O	O
+shows	1062,1067	O	O
+the	1068,1071	O	O
+twisted	1072,1079	O	O
+as	1080,1082	O	O
+well	1083,1087	O	O
+as	1088,1090	O	O
+the	1091,1094	O	O
+linear	1095,1101	O	O
+conformation	1102,1114	O	O
+of	1115,1117	O	O
+the	1118,1121	O	O
+octyl	1122,1127	O	B-Material
+side	1128,1132	O	I-Material
+chains	1133,1139	O	I-Material
+within	1140,1146	O	O
+one	1147,1150	O	O
+molecule	1151,1159	O	O
+(	1160,1161	O	O
+Figure	1161,1167	O	O
+5C	1168,1170	O	O
+)	1170,1171	O	O
+.	1171,1172	O	O
 
 
 -DOCSTART- (S000926141500651X)
 
-Previous	0	8	O
-studies	9	16	O
-have	17	21	O
-shown	22	27	O
-that	28	32	O
-there	33	38	O
-are	39	42	O
-two	43	46	O
-main	47	51	O
-mechanisms	52	62	O
-for	63	66	O
-the	67	70	O
-development	71	82	B-Process
-of	83	85	I-Process
-radiation	86	95	I-Process
--	95	96	I-Process
-induced	96	103	I-Process
-DSBs	104	108	I-Process
-[	109	110	O
-16,17	110	115	O
-]	115	116	O
-.	116	117	O
-
-For	118	121	O
-γ-ray	122	127	B-Process
-radiation	128	137	I-Process
-,	137	138	O
-single	139	145	B-Process
-step	146	150	I-Process
-is	151	153	O
-the	154	157	O
-main	158	162	O
-process	163	170	O
-to	171	173	O
-cause	174	179	O
-DSBs	180	184	B-Process
-(	185	186	O
-see	186	189	O
-Figure	190	196	O
-3b	197	199	O
-)	199	200	O
-,	200	201	O
-which	202	207	O
-is	208	210	O
-attributed	211	221	O
-to	222	224	O
-the	225	228	O
-generation	229	239	B-Process
-of	240	242	I-Process
-number	243	249	I-Process
-of	250	252	I-Process
-ROS	253	256	I-Process
-upon	257	261	O
-the	262	265	O
-incident	266	274	O
-of	275	277	O
-individual	278	288	O
-photon	289	295	B-Material
-of	296	298	I-Material
-γ-ray	299	304	I-Material
-.	304	305	O
-
-Whereas	306	313	O
-photo	314	319	B-Process
--	319	320	I-Process
-radiation	320	329	I-Process
-causes	330	336	O
-DSBs	337	341	B-Process
-through	342	349	O
-two	350	353	B-Process
-step	354	358	I-Process
-mechanism	359	368	I-Process
-(	369	370	O
-Figure	370	376	O
-3a	377	379	O
-)	379	380	O
-by	381	383	O
-reflecting	384	394	O
-that	395	399	O
-each	400	404	O
-single	405	411	O
-photon	412	418	B-Material
-causes	419	425	O
-mostly	426	432	O
-single	433	439	O
-ROS	440	443	B-Material
-and	444	447	O
-thus	448	452	O
-induces	453	460	O
-only	461	465	O
-single	466	472	B-Process
-strand	473	479	I-Process
-break	480	485	I-Process
-.	485	486	O
-
-Then	487	491	O
-,	491	492	O
-when	493	497	O
-a	498	499	O
-second	500	506	O
-single	507	513	B-Process
-strand	514	520	I-Process
-break	521	526	I-Process
-occurs	527	533	O
-where	534	539	O
-near	540	544	O
-the	545	548	O
-existing	549	557	O
-single	558	564	B-Process
-strand	565	571	I-Process
-break	572	577	I-Process
-,	577	578	O
-DBS	579	582	B-Process
-is	583	585	O
-caused	586	592	O
-,	592	593	O
-i.e.	594	598	O
-,	598	599	O
-the	600	603	O
-two	604	607	B-Process
-step	608	612	I-Process
-mechanism	613	622	I-Process
-.	622	623	O
-
-Summarizing	624	635	O
-the	636	639	O
-results	640	647	O
-and	648	651	O
-discussion	652	662	O
-we	663	665	O
-may	666	669	O
-conclude	670	678	O
-as	679	681	O
-that	682	686	O
-:	686	687	O
-(	688	689	O
-1	689	690	O
-)	690	691	O
-The	692	695	O
-significant	696	707	O
-protective	708	718	O
-effect	719	725	O
-of	726	728	O
-AA	729	731	B-Material
-against	732	739	O
-photo	740	745	B-Process
--	745	746	I-Process
-induced	746	753	I-Process
-damage	754	760	I-Process
-may	761	764	O
-reflect	765	772	O
-the	773	776	O
-effective	777	786	O
-diminish	787	795	O
-of	796	798	O
-ROS	799	802	B-Material
-by	803	805	O
-AA	806	808	B-Material
-.	808	809	O
-
-(	810	811	O
-2	811	812	O
-)	812	813	O
-
-For	814	817	O
-the	818	821	O
-γ-ray	822	827	B-Material
-induced	828	835	I-Material
-DSB	836	839	I-Material
-,	839	840	O
-
-the	841	844	O
-protective	845	855	O
-effect	856	862	O
-by	863	865	O
-AA	866	868	B-Material
-is	869	871	O
-a	872	873	O
-little	874	880	O
-bit	881	884	O
-weaker	885	891	O
-than	892	896	O
-the	897	900	O
-case	901	905	O
-of	906	908	O
-photo	909	914	B-Process
-irradiation	915	926	I-Process
-.	926	927	O
-
-This	928	932	O
-may	933	936	O
-be	937	939	O
-due	940	943	O
-to	944	946	O
-the	947	950	O
-generation	951	961	O
-of	962	964	O
-numbers	965	972	O
-of	973	975	O
-ROS	976	979	B-Material
-by	980	982	O
-single	983	989	B-Material
-photon	990	996	I-Material
-of	997	999	I-Material
-γ-ray	1000	1005	I-Material
-.	1005	1006	O
-
-Surviving	1007	1016	O
-oxygen	1017	1023	O
-species	1024	1031	O
-against	1032	1039	O
-the	1040	1043	O
-diminishment	1044	1056	O
-effect	1057	1063	O
-by	1064	1066	O
-AA	1067	1069	B-Material
-may	1070	1073	O
-cause	1074	1079	O
-DSBs	1080	1084	B-Material
-.	1084	1085	O
-
-(	1086	1087	O
-3	1087	1088	O
-)	1088	1089	O
-
-As	1090	1092	O
-for	1093	1096	O
-the	1097	1100	O
-DSBs	1101	1105	B-Material
-by	1106	1108	O
-ultrasound	1109	1119	B-Process
-,	1119	1120	O
-damage	1121	1127	O
-is	1128	1130	O
-caused	1131	1137	O
-by	1138	1140	O
-the	1141	1144	O
-shockwave	1145	1154	B-Process
-through	1155	1162	O
-the	1163	1166	O
-generation	1167	1177	O
-of	1178	1180	O
-cavitations	1181	1192	B-Material
-[	1193	1194	O
-18	1194	1196	O
-]	1196	1197	O
-.	1197	1198	O
-
-Thus	1199	1203	O
-,	1203	1204	O
-the	1205	1208	O
-chemical	1209	1217	O
-effect	1218	1224	O
-of	1225	1227	O
-AA	1228	1230	B-Material
-to	1231	1233	O
-diminish	1234	1242	B-Process
-ROS	1243	1246	I-Process
-is	1247	1249	O
-considered	1250	1260	O
-to	1261	1263	O
-be	1264	1266	O
-negligibly	1267	1277	O
-small	1278	1283	O
-for	1284	1287	O
-the	1288	1291	O
-protection	1292	1302	O
-of	1303	1305	O
-DSBs	1306	1310	B-Material
-.	1310	1311	O
+Previous	0,8	O	O
+studies	9,16	O	O
+have	17,21	O	O
+shown	22,27	O	O
+that	28,32	O	O
+there	33,38	O	O
+are	39,42	O	O
+two	43,46	O	O
+main	47,51	O	O
+mechanisms	52,62	O	O
+for	63,66	O	O
+the	67,70	O	O
+development	71,82	O	B-Process
+of	83,85	O	I-Process
+radiation	86,95	O	I-Process
+-	95,96	O	I-Process
+induced	96,103	O	I-Process
+DSBs	104,108	O	I-Process
+[	109,110	O	O
+16,17	110,115	O	O
+]	115,116	O	O
+.	116,117	O	O
+
+For	118,121	O	O
+γ-ray	122,127	O	B-Process
+radiation	128,137	O	I-Process
+,	137,138	O	O
+single	139,145	O	B-Process
+step	146,150	O	I-Process
+is	151,153	O	O
+the	154,157	O	O
+main	158,162	O	O
+process	163,170	O	O
+to	171,173	O	O
+cause	174,179	O	O
+DSBs	180,184	O	B-Process
+(	185,186	O	O
+see	186,189	O	O
+Figure	190,196	O	O
+3b	197,199	O	O
+)	199,200	O	O
+,	200,201	O	O
+which	202,207	O	O
+is	208,210	O	O
+attributed	211,221	O	O
+to	222,224	O	O
+the	225,228	O	O
+generation	229,239	O	B-Process
+of	240,242	O	I-Process
+number	243,249	O	I-Process
+of	250,252	O	I-Process
+ROS	253,256	O	I-Process
+upon	257,261	O	O
+the	262,265	O	O
+incident	266,274	O	O
+of	275,277	O	O
+individual	278,288	O	O
+photon	289,295	O	B-Material
+of	296,298	O	I-Material
+γ-ray	299,304	O	I-Material
+.	304,305	O	O
+
+Whereas	306,313	O	O
+photo	314,319	O	B-Process
+-	319,320	O	I-Process
+radiation	320,329	O	I-Process
+causes	330,336	O	O
+DSBs	337,341	O	B-Process
+through	342,349	O	O
+two	350,353	O	B-Process
+step	354,358	O	I-Process
+mechanism	359,368	O	I-Process
+(	369,370	O	O
+Figure	370,376	O	O
+3a	377,379	O	O
+)	379,380	O	O
+by	381,383	O	O
+reflecting	384,394	O	O
+that	395,399	O	O
+each	400,404	O	O
+single	405,411	O	O
+photon	412,418	O	B-Material
+causes	419,425	O	O
+mostly	426,432	O	O
+single	433,439	O	O
+ROS	440,443	O	B-Material
+and	444,447	O	O
+thus	448,452	O	O
+induces	453,460	O	O
+only	461,465	O	O
+single	466,472	O	B-Process
+strand	473,479	O	I-Process
+break	480,485	O	I-Process
+.	485,486	O	O
+
+Then	487,491	O	O
+,	491,492	O	O
+when	493,497	O	O
+a	498,499	O	O
+second	500,506	O	O
+single	507,513	O	B-Process
+strand	514,520	O	I-Process
+break	521,526	O	I-Process
+occurs	527,533	O	O
+where	534,539	O	O
+near	540,544	O	O
+the	545,548	O	O
+existing	549,557	O	O
+single	558,564	O	B-Process
+strand	565,571	O	I-Process
+break	572,577	O	I-Process
+,	577,578	O	O
+DBS	579,582	O	B-Process
+is	583,585	O	O
+caused	586,592	O	O
+,	592,593	O	O
+i.e.	594,598	O	O
+,	598,599	O	O
+the	600,603	O	O
+two	604,607	O	B-Process
+step	608,612	O	I-Process
+mechanism	613,622	O	I-Process
+.	622,623	O	O
+
+Summarizing	624,635	O	O
+the	636,639	O	O
+results	640,647	O	O
+and	648,651	O	O
+discussion	652,662	O	O
+we	663,665	O	O
+may	666,669	O	O
+conclude	670,678	O	O
+as	679,681	O	O
+that	682,686	O	O
+:	686,687	O	O
+(	688,689	O	O
+1	689,690	O	O
+)	690,691	O	O
+The	692,695	O	O
+significant	696,707	O	O
+protective	708,718	O	O
+effect	719,725	O	O
+of	726,728	O	O
+AA	729,731	O	B-Material
+against	732,739	O	O
+photo	740,745	O	B-Process
+-	745,746	O	I-Process
+induced	746,753	O	I-Process
+damage	754,760	O	I-Process
+may	761,764	O	O
+reflect	765,772	O	O
+the	773,776	O	O
+effective	777,786	O	O
+diminish	787,795	O	O
+of	796,798	O	O
+ROS	799,802	O	B-Material
+by	803,805	O	O
+AA	806,808	O	B-Material
+.	808,809	O	O
+
+(	810,811	O	O
+2	811,812	O	O
+)	812,813	O	O
+
+For	814,817	O	O
+the	818,821	O	O
+γ-ray	822,827	O	B-Material
+induced	828,835	O	I-Material
+DSB	836,839	O	I-Material
+,	839,840	O	O
+
+the	841,844	O	O
+protective	845,855	O	O
+effect	856,862	O	O
+by	863,865	O	O
+AA	866,868	O	B-Material
+is	869,871	O	O
+a	872,873	O	O
+little	874,880	O	O
+bit	881,884	O	O
+weaker	885,891	O	O
+than	892,896	O	O
+the	897,900	O	O
+case	901,905	O	O
+of	906,908	O	O
+photo	909,914	O	B-Process
+irradiation	915,926	O	I-Process
+.	926,927	O	O
+
+This	928,932	O	O
+may	933,936	O	O
+be	937,939	O	O
+due	940,943	O	O
+to	944,946	O	O
+the	947,950	O	O
+generation	951,961	O	O
+of	962,964	O	O
+numbers	965,972	O	O
+of	973,975	O	O
+ROS	976,979	O	B-Material
+by	980,982	O	O
+single	983,989	O	B-Material
+photon	990,996	O	I-Material
+of	997,999	O	I-Material
+γ-ray	1000,1005	O	I-Material
+.	1005,1006	O	O
+
+Surviving	1007,1016	O	O
+oxygen	1017,1023	O	O
+species	1024,1031	O	O
+against	1032,1039	O	O
+the	1040,1043	O	O
+diminishment	1044,1056	O	O
+effect	1057,1063	O	O
+by	1064,1066	O	O
+AA	1067,1069	O	B-Material
+may	1070,1073	O	O
+cause	1074,1079	O	O
+DSBs	1080,1084	O	B-Material
+.	1084,1085	O	O
+
+(	1086,1087	O	O
+3	1087,1088	O	O
+)	1088,1089	O	O
+
+As	1090,1092	O	O
+for	1093,1096	O	O
+the	1097,1100	O	O
+DSBs	1101,1105	O	B-Material
+by	1106,1108	O	O
+ultrasound	1109,1119	O	B-Process
+,	1119,1120	O	O
+damage	1121,1127	O	O
+is	1128,1130	O	O
+caused	1131,1137	O	O
+by	1138,1140	O	O
+the	1141,1144	O	O
+shockwave	1145,1154	O	B-Process
+through	1155,1162	O	O
+the	1163,1166	O	O
+generation	1167,1177	O	O
+of	1178,1180	O	O
+cavitations	1181,1192	O	B-Material
+[	1193,1194	O	O
+18	1194,1196	O	O
+]	1196,1197	O	O
+.	1197,1198	O	O
+
+Thus	1199,1203	O	O
+,	1203,1204	O	O
+the	1205,1208	O	O
+chemical	1209,1217	O	O
+effect	1218,1224	O	O
+of	1225,1227	O	O
+AA	1228,1230	O	B-Material
+to	1231,1233	O	O
+diminish	1234,1242	O	B-Process
+ROS	1243,1246	O	I-Process
+is	1247,1249	O	O
+considered	1250,1260	O	O
+to	1261,1263	O	O
+be	1264,1266	O	O
+negligibly	1267,1277	O	O
+small	1278,1283	O	O
+for	1284,1287	O	O
+the	1288,1291	O	O
+protection	1292,1302	O	O
+of	1303,1305	O	O
+DSBs	1306,1310	O	B-Material
+.	1310,1311	O	O
 
 
 -DOCSTART- (S0010938X12001163)
 
-In	0	2	B-Process
-situ	3	7	I-Process
-oxidation	8	17	I-Process
-,	17	18	O
-experiments	19	30	O
-were	31	35	O
-carried	36	43	O
-out	44	47	O
-using	48	53	O
-3	54	55	B-Material
-mm	55	57	I-Material
-diameter	58	66	I-Material
-discs	67	72	I-Material
-with	73	77	O
-one	78	81	O
-surface	82	89	O
-ground	90	96	B-Process
-and	97	100	I-Process
-polished	101	109	I-Process
-to	110	112	O
-a	113	114	O
-1μm	115	118	O
-diamond	119	126	O
-finish	127	133	O
-.	133	134	O
-
-The	135	138	O
-3	139	140	O
-mm	140	142	O
-discs	143	148	O
-were	149	153	O
-then	154	158	O
-oxidised	159	167	B-Process
-in	168	170	O
-a	171	172	O
-Philips	173	180	O
-XL-30	181	186	O
-
-FEG	187	190	O
-ESEM	191	195	O
-with	196	200	O
-a	201	202	O
-hot	203	206	B-Material
-stage	207	212	I-Material
-attachment	213	223	I-Material
-.	223	224	O
-
-The	225	228	O
-oxidising	229	238	O
-atmosphere	239	249	O
-used	250	254	O
-was	255	258	O
-laboratory	259	269	O
-air	270	273	O
-at	274	276	O
-a	277	278	O
-pressure	279	287	O
-of	288	290	O
-266	291	294	O
-Pa	294	296	O
-.	296	297	O
-
-During	298	304	O
-the	305	308	O
-experiment	309	319	O
-,	319	320	O
-the	321	324	O
-sample	325	331	O
-was	332	335	O
-observed	336	344	O
-and	345	348	O
-imaged	349	355	O
-using	356	361	O
-a	362	363	O
-primary	364	371	O
-beam	372	376	O
-energy	377	383	O
-of	384	386	O
-20kV	387	391	O
-and	392	395	O
-an	396	398	O
-Everhart	399	407	O
-–	407	408	O
-Thornley	408	416	O
-secondary	417	426	O
-electron	427	435	O
-detector	436	444	O
-.	444	445	O
-
-The	446	449	O
-sample	450	456	O
-was	457	460	O
-heated	461	467	B-Process
-at	468	470	O
-a	471	472	O
-rate	473	477	O
-of	478	480	O
-100	481	484	O
-°	484	485	O
-C	485	486	O
-/	486	487	O
-min	487	490	O
-to	491	493	O
-a	494	495	O
-temperature	496	507	O
-of	508	510	O
-700	511	514	O
-°	514	515	O
-C	515	516	O
-and	517	520	O
-held	521	525	O
-at	526	528	O
-this	529	533	O
-temperature	534	545	O
-for	546	549	O
-8min	550	554	O
-to	555	557	O
-stabilise	558	567	B-Process
-the	568	571	I-Process
-stage	572	577	I-Process
-and	578	581	I-Process
-the	582	585	I-Process
-microscope	586	596	I-Process
-.	596	597	O
-
-The	598	601	O
-sample	602	608	O
-was	609	612	O
-then	613	617	O
-heated	618	624	B-Process
-to	625	627	I-Process
-a	628	629	I-Process
-final	630	635	I-Process
-temperature	636	647	I-Process
-of	648	650	I-Process
-900	651	654	I-Process
-°	654	655	I-Process
-C	655	656	I-Process
-at	657	659	O
-the	660	663	O
-same	664	668	O
-heating	669	676	O
-rate	677	681	O
-.	681	682	O
-
-The	683	686	O
-total	687	692	O
-time	693	697	O
-of	698	700	O
-exposure	701	709	O
-of	710	712	O
-the	713	716	O
-sample	717	723	O
-was	724	727	O
-120min	728	734	O
-before	735	741	O
-cooling	742	749	O
-to	750	752	O
-room	753	757	O
-temperature	758	769	O
-by	770	772	O
-turning	773	780	O
-off	781	784	O
-the	785	788	O
-heating	789	796	B-Material
-coils	797	802	I-Material
-.	802	803	O
-
-The	804	807	O
-samples	808	815	O
-were	816	820	O
-then	821	825	O
-examined	826	834	O
-in	835	837	O
-the	838	841	O
-LEO	842	845	B-Material
-1530VP	846	852	I-Material
-FEGSEM	853	859	I-Material
-with	860	864	O
-chemical	865	873	O
-information	874	885	O
-gathered	886	894	O
-using	895	900	O
-EDS	901	904	B-Material
-.	904	905	O
-
-Cross	906	911	O
--	911	912	O
-sections	912	920	O
-and	921	924	O
-Transmission	925	937	B-Material
-Electron	938	946	I-Material
-Microscope	947	957	I-Material
-(	958	959	O
-TEM	959	962	B-Material
-)	962	963	O
-samples	964	971	O
-were	972	976	O
-produced	977	985	O
-using	986	991	O
-a	992	993	O
-dual	994	998	B-Material
-beam	999	1003	I-Material
-FEI	1004	1007	I-Material
-Nova	1008	1012	I-Material
-Nanolab	1013	1020	I-Material
-600	1021	1024	I-Material
-for	1025	1028	O
-Focused	1029	1036	B-Material
-Ion	1037	1040	I-Material
-Beam	1041	1045	I-Material
-(	1046	1047	O
-FIB	1047	1050	B-Material
-)	1050	1051	O
-milling	1052	1059	O
-perpendicular	1060	1073	O
-to	1074	1076	O
-the	1077	1080	O
-phase	1081	1086	O
-boundaries	1087	1097	O
-to	1098	1100	O
-determine	1101	1110	O
-their	1111	1116	O
-influence	1117	1126	O
-on	1127	1129	O
-the	1130	1133	O
-oxide	1134	1139	B-Process
-development	1140	1151	I-Process
-and	1152	1155	O
-imaged	1156	1162	O
-using	1163	1168	O
-a	1169	1170	O
-Jeol	1171	1175	B-Material
-2000FX	1176	1182	I-Material
-W	1183	1184	I-Material
--	1184	1185	I-Material
-filament	1185	1193	I-Material
-TEM	1194	1197	I-Material
-.	1197	1198	O
-
-EDS	1199	1202	B-Material
-maps	1203	1207	O
-of	1208	1210	O
-the	1211	1214	O
-TEM	1215	1218	B-Material
-samples	1219	1226	I-Material
-were	1227	1231	O
-collected	1232	1241	O
-using	1242	1247	O
-the	1248	1251	O
-Nanolab	1252	1259	B-Material
-600	1260	1263	I-Material
-with	1264	1268	O
-a	1269	1270	O
-Scanning	1271	1279	B-Material
-TEM	1280	1283	I-Material
-(	1284	1285	I-Material
-STEM	1285	1289	I-Material
-)	1289	1290	I-Material
-detector	1291	1299	I-Material
-and	1300	1303	O
-an	1304	1306	O
-EDAX	1307	1311	B-Material
-Genesis	1312	1319	I-Material
-EDS	1320	1323	I-Material
-system	1324	1330	I-Material
-at	1331	1333	O
-an	1334	1336	O
-accelerating	1337	1349	B-Process
-voltage	1350	1357	I-Process
-of	1358	1360	I-Process
-30kV.	1361	1366	I-Process
+In	0,2	O	B-Process
+situ	3,7	O	I-Process
+oxidation	8,17	O	I-Process
+,	17,18	O	O
+experiments	19,30	O	O
+were	31,35	O	O
+carried	36,43	O	O
+out	44,47	O	O
+using	48,53	O	O
+3	54,55	O	B-Material
+mm	55,57	O	I-Material
+diameter	58,66	O	I-Material
+discs	67,72	O	I-Material
+with	73,77	O	O
+one	78,81	O	O
+surface	82,89	O	O
+ground	90,96	O	B-Process
+and	97,100	O	I-Process
+polished	101,109	O	I-Process
+to	110,112	O	O
+a	113,114	O	O
+1μm	115,118	O	O
+diamond	119,126	O	O
+finish	127,133	O	O
+.	133,134	O	O
+
+The	135,138	O	O
+3	139,140	O	O
+mm	140,142	O	O
+discs	143,148	O	O
+were	149,153	O	O
+then	154,158	O	O
+oxidised	159,167	O	B-Process
+in	168,170	O	O
+a	171,172	O	O
+Philips	173,180	O	O
+XL-30	181,186	O	O
+
+FEG	187,190	O	O
+ESEM	191,195	O	O
+with	196,200	O	O
+a	201,202	O	O
+hot	203,206	O	B-Material
+stage	207,212	O	I-Material
+attachment	213,223	O	I-Material
+.	223,224	O	O
+
+The	225,228	O	O
+oxidising	229,238	O	O
+atmosphere	239,249	O	O
+used	250,254	O	O
+was	255,258	O	O
+laboratory	259,269	O	O
+air	270,273	O	O
+at	274,276	O	O
+a	277,278	O	O
+pressure	279,287	O	O
+of	288,290	O	O
+266	291,294	O	O
+Pa	294,296	O	O
+.	296,297	O	O
+
+During	298,304	O	O
+the	305,308	O	O
+experiment	309,319	O	O
+,	319,320	O	O
+the	321,324	O	O
+sample	325,331	O	O
+was	332,335	O	O
+observed	336,344	O	O
+and	345,348	O	O
+imaged	349,355	O	O
+using	356,361	O	O
+a	362,363	O	O
+primary	364,371	O	O
+beam	372,376	O	O
+energy	377,383	O	O
+of	384,386	O	O
+20kV	387,391	O	O
+and	392,395	O	O
+an	396,398	O	O
+Everhart	399,407	O	O
+–	407,408	O	O
+Thornley	408,416	O	O
+secondary	417,426	O	O
+electron	427,435	O	O
+detector	436,444	O	O
+.	444,445	O	O
+
+The	446,449	O	O
+sample	450,456	O	O
+was	457,460	O	O
+heated	461,467	O	B-Process
+at	468,470	O	O
+a	471,472	O	O
+rate	473,477	O	O
+of	478,480	O	O
+100	481,484	O	O
+°	484,485	O	O
+C	485,486	O	O
+/	486,487	O	O
+min	487,490	O	O
+to	491,493	O	O
+a	494,495	O	O
+temperature	496,507	O	O
+of	508,510	O	O
+700	511,514	O	O
+°	514,515	O	O
+C	515,516	O	O
+and	517,520	O	O
+held	521,525	O	O
+at	526,528	O	O
+this	529,533	O	O
+temperature	534,545	O	O
+for	546,549	O	O
+8min	550,554	O	O
+to	555,557	O	O
+stabilise	558,567	O	B-Process
+the	568,571	O	I-Process
+stage	572,577	O	I-Process
+and	578,581	O	I-Process
+the	582,585	O	I-Process
+microscope	586,596	O	I-Process
+.	596,597	O	O
+
+The	598,601	O	O
+sample	602,608	O	O
+was	609,612	O	O
+then	613,617	O	O
+heated	618,624	O	B-Process
+to	625,627	O	I-Process
+a	628,629	O	I-Process
+final	630,635	O	I-Process
+temperature	636,647	O	I-Process
+of	648,650	O	I-Process
+900	651,654	O	I-Process
+°	654,655	O	I-Process
+C	655,656	O	I-Process
+at	657,659	O	O
+the	660,663	O	O
+same	664,668	O	O
+heating	669,676	O	O
+rate	677,681	O	O
+.	681,682	O	O
+
+The	683,686	O	O
+total	687,692	O	O
+time	693,697	O	O
+of	698,700	O	O
+exposure	701,709	O	O
+of	710,712	O	O
+the	713,716	O	O
+sample	717,723	O	O
+was	724,727	O	O
+120min	728,734	O	O
+before	735,741	O	O
+cooling	742,749	O	O
+to	750,752	O	O
+room	753,757	O	O
+temperature	758,769	O	O
+by	770,772	O	O
+turning	773,780	O	O
+off	781,784	O	O
+the	785,788	O	O
+heating	789,796	O	B-Material
+coils	797,802	O	I-Material
+.	802,803	O	O
+
+The	804,807	O	O
+samples	808,815	O	O
+were	816,820	O	O
+then	821,825	O	O
+examined	826,834	O	O
+in	835,837	O	O
+the	838,841	O	O
+LEO	842,845	O	B-Material
+1530VP	846,852	O	I-Material
+FEGSEM	853,859	O	I-Material
+with	860,864	O	O
+chemical	865,873	O	O
+information	874,885	O	O
+gathered	886,894	O	O
+using	895,900	O	O
+EDS	901,904	O	B-Material
+.	904,905	O	O
+
+Cross	906,911	O	O
+-	911,912	O	O
+sections	912,920	O	O
+and	921,924	O	O
+Transmission	925,937	O	B-Material
+Electron	938,946	O	I-Material
+Microscope	947,957	O	I-Material
+(	958,959	O	O
+TEM	959,962	O	B-Material
+)	962,963	O	O
+samples	964,971	O	O
+were	972,976	O	O
+produced	977,985	O	O
+using	986,991	O	O
+a	992,993	O	O
+dual	994,998	O	B-Material
+beam	999,1003	O	I-Material
+FEI	1004,1007	O	I-Material
+Nova	1008,1012	O	I-Material
+Nanolab	1013,1020	O	I-Material
+600	1021,1024	O	I-Material
+for	1025,1028	O	O
+Focused	1029,1036	O	B-Material
+Ion	1037,1040	O	I-Material
+Beam	1041,1045	O	I-Material
+(	1046,1047	O	O
+FIB	1047,1050	O	B-Material
+)	1050,1051	O	O
+milling	1052,1059	O	O
+perpendicular	1060,1073	O	O
+to	1074,1076	O	O
+the	1077,1080	O	O
+phase	1081,1086	O	O
+boundaries	1087,1097	O	O
+to	1098,1100	O	O
+determine	1101,1110	O	O
+their	1111,1116	O	O
+influence	1117,1126	O	O
+on	1127,1129	O	O
+the	1130,1133	O	O
+oxide	1134,1139	O	B-Process
+development	1140,1151	O	I-Process
+and	1152,1155	O	O
+imaged	1156,1162	O	O
+using	1163,1168	O	O
+a	1169,1170	O	O
+Jeol	1171,1175	O	B-Material
+2000FX	1176,1182	O	I-Material
+W	1183,1184	O	I-Material
+-	1184,1185	O	I-Material
+filament	1185,1193	O	I-Material
+TEM	1194,1197	O	I-Material
+.	1197,1198	O	O
+
+EDS	1199,1202	O	B-Material
+maps	1203,1207	O	O
+of	1208,1210	O	O
+the	1211,1214	O	O
+TEM	1215,1218	O	B-Material
+samples	1219,1226	O	I-Material
+were	1227,1231	O	O
+collected	1232,1241	O	O
+using	1242,1247	O	O
+the	1248,1251	O	O
+Nanolab	1252,1259	O	B-Material
+600	1260,1263	O	I-Material
+with	1264,1268	O	O
+a	1269,1270	O	O
+Scanning	1271,1279	O	B-Material
+TEM	1280,1283	O	I-Material
+(	1284,1285	O	I-Material
+STEM	1285,1289	O	I-Material
+)	1289,1290	O	I-Material
+detector	1291,1299	O	I-Material
+and	1300,1303	O	O
+an	1304,1306	O	O
+EDAX	1307,1311	O	B-Material
+Genesis	1312,1319	O	I-Material
+EDS	1320,1323	O	I-Material
+system	1324,1330	O	I-Material
+at	1331,1333	O	O
+an	1334,1336	O	O
+accelerating	1337,1349	O	B-Process
+voltage	1350,1357	O	I-Process
+of	1358,1360	O	I-Process
+30kV.	1361,1366	O	I-Process
 
 
 -DOCSTART- (S0010938X12002508)
 
-The	0	3	O
-study	4	9	O
-outlines	10	18	O
-a	19	20	O
-trial	21	26	O
-of	27	29	O
-transient	30	39	B-Task
-response	40	48	I-Task
-analysis	49	57	I-Task
-on	58	60	O
-full	61	65	O
--	65	66	O
-scale	66	71	O
-motorway	72	80	B-Material
-bridge	81	87	I-Material
-structures	88	98	I-Material
-to	99	101	O
-obtain	102	108	O
-information	109	120	O
-concerning	121	131	O
-the	132	135	O
-steel	136	141	B-Task
-–	141	142	I-Task
-concrete	142	150	I-Task
-interface	151	160	I-Task
-and	161	164	O
-is	165	167	O
-part	168	172	O
-of	173	175	O
-a	176	177	O
-larger	178	184	O
-study	185	190	O
-to	191	193	O
-assess	194	200	O
-the	201	204	O
-long	205	209	B-Process
--	209	210	I-Process
-term	210	214	I-Process
-sustained	215	224	I-Process
-benefits	225	233	I-Process
-offered	234	241	O
-by	242	244	O
-Impressed	245	254	B-Process
-Current	255	262	I-Process
-Cathodic	263	271	I-Process
-Protection	272	282	I-Process
-(	283	284	O
-ICCP	284	288	B-Process
-)	288	289	O
-after	290	295	O
-the	296	299	O
-interruption	300	312	B-Process
-of	313	315	I-Process
-the	316	319	I-Process
-protective	320	330	I-Process
-current	331	338	I-Process
-[	339	340	O
-1	340	341	O
-]	341	342	O
-.	342	343	O
-
-These	344	349	O
-structures	350	360	O
-had	361	364	O
-previously	365	375	O
-been	376	380	O
-protected	381	390	O
-for	391	394	O
-5–16years	395	404	O
-by	405	407	O
-an	408	410	O
-ICCP	411	415	B-Process
-system	416	422	I-Process
-prior	423	428	O
-to	429	431	O
-the	432	435	O
-start	436	441	O
-of	442	444	O
-the	445	448	O
-study	449	454	O
-.	454	455	O
-
-The	456	459	O
-protective	460	470	B-Process
-current	471	478	I-Process
-was	479	482	I-Process
-interrupted	483	494	I-Process
-,	494	495	O
-in	496	498	O
-order	499	504	O
-to	505	507	O
-assess	508	514	B-Process
-the	515	518	I-Process
-long	519	523	I-Process
--	523	524	I-Process
-term	524	528	I-Process
-benefits	529	537	I-Process
-provided	538	546	O
-by	547	549	O
-ICCP	550	554	B-Process
-after	555	560	O
-it	561	563	O
-has	564	567	O
-been	568	572	O
-turned	573	579	O
-off	580	583	O
-.	583	584	O
-
-This	585	589	O
-paper	590	595	O
-develops	596	604	B-Task
-and	605	608	I-Task
-examines	609	617	I-Task
-a	618	619	I-Task
-simplified	620	630	I-Task
-approach	631	639	I-Task
-for	640	643	O
-the	644	647	O
-on	648	650	O
--	650	651	O
-site	651	655	O
-use	656	659	O
-of	660	662	O
-transient	663	672	B-Process
-response	673	681	I-Process
-analysis	682	690	I-Process
-and	691	694	O
-discusses	695	704	B-Process
-the	705	708	I-Process
-potential	709	718	I-Process
-advantages	719	729	I-Process
-of	730	732	O
-the	733	736	O
-technique	737	746	O
-as	747	749	O
-a	750	751	O
-tool	752	756	O
-for	757	760	O
-the	761	764	O
-assessment	765	775	B-Task
-of	776	778	I-Task
-the	779	782	I-Task
-corrosion	783	792	I-Task
-condition	793	802	I-Task
-of	803	805	O
-steel	806	811	B-Material
-in	812	814	O
-reinforced	815	825	B-Material
-concrete	826	834	I-Material
-structures	835	845	I-Material
-.	845	846	O
+The	0,3	O	O
+study	4,9	O	O
+outlines	10,18	O	O
+a	19,20	O	O
+trial	21,26	O	O
+of	27,29	O	O
+transient	30,39	O	B-Task
+response	40,48	O	I-Task
+analysis	49,57	O	I-Task
+on	58,60	O	O
+full	61,65	O	O
+-	65,66	O	O
+scale	66,71	O	O
+motorway	72,80	O	B-Material
+bridge	81,87	O	I-Material
+structures	88,98	O	I-Material
+to	99,101	O	O
+obtain	102,108	O	O
+information	109,120	O	O
+concerning	121,131	O	O
+the	132,135	O	O
+steel	136,141	O	B-Task
+–	141,142	O	I-Task
+concrete	142,150	O	I-Task
+interface	151,160	O	I-Task
+and	161,164	O	O
+is	165,167	O	O
+part	168,172	O	O
+of	173,175	O	O
+a	176,177	O	O
+larger	178,184	O	O
+study	185,190	O	O
+to	191,193	O	O
+assess	194,200	O	O
+the	201,204	O	O
+long	205,209	O	B-Process
+-	209,210	O	I-Process
+term	210,214	O	I-Process
+sustained	215,224	O	I-Process
+benefits	225,233	O	I-Process
+offered	234,241	O	O
+by	242,244	O	O
+Impressed	245,254	O	B-Process
+Current	255,262	O	I-Process
+Cathodic	263,271	O	I-Process
+Protection	272,282	O	I-Process
+(	283,284	O	O
+ICCP	284,288	O	B-Process
+)	288,289	O	O
+after	290,295	O	O
+the	296,299	O	O
+interruption	300,312	O	B-Process
+of	313,315	O	I-Process
+the	316,319	O	I-Process
+protective	320,330	O	I-Process
+current	331,338	O	I-Process
+[	339,340	O	O
+1	340,341	O	O
+]	341,342	O	O
+.	342,343	O	O
+
+These	344,349	O	O
+structures	350,360	O	O
+had	361,364	O	O
+previously	365,375	O	O
+been	376,380	O	O
+protected	381,390	O	O
+for	391,394	O	O
+5–16years	395,404	O	O
+by	405,407	O	O
+an	408,410	O	O
+ICCP	411,415	O	B-Process
+system	416,422	O	I-Process
+prior	423,428	O	O
+to	429,431	O	O
+the	432,435	O	O
+start	436,441	O	O
+of	442,444	O	O
+the	445,448	O	O
+study	449,454	O	O
+.	454,455	O	O
+
+The	456,459	O	O
+protective	460,470	O	B-Process
+current	471,478	O	I-Process
+was	479,482	O	I-Process
+interrupted	483,494	O	I-Process
+,	494,495	O	O
+in	496,498	O	O
+order	499,504	O	O
+to	505,507	O	O
+assess	508,514	O	B-Process
+the	515,518	O	I-Process
+long	519,523	O	I-Process
+-	523,524	O	I-Process
+term	524,528	O	I-Process
+benefits	529,537	O	I-Process
+provided	538,546	O	O
+by	547,549	O	O
+ICCP	550,554	O	B-Process
+after	555,560	O	O
+it	561,563	O	O
+has	564,567	O	O
+been	568,572	O	O
+turned	573,579	O	O
+off	580,583	O	O
+.	583,584	O	O
+
+This	585,589	O	O
+paper	590,595	O	O
+develops	596,604	O	B-Task
+and	605,608	O	I-Task
+examines	609,617	O	I-Task
+a	618,619	O	I-Task
+simplified	620,630	O	I-Task
+approach	631,639	O	I-Task
+for	640,643	O	O
+the	644,647	O	O
+on	648,650	O	O
+-	650,651	O	O
+site	651,655	O	O
+use	656,659	O	O
+of	660,662	O	O
+transient	663,672	O	B-Process
+response	673,681	O	I-Process
+analysis	682,690	O	I-Process
+and	691,694	O	O
+discusses	695,704	O	B-Process
+the	705,708	O	I-Process
+potential	709,718	O	I-Process
+advantages	719,729	O	I-Process
+of	730,732	O	O
+the	733,736	O	O
+technique	737,746	O	O
+as	747,749	O	O
+a	750,751	O	O
+tool	752,756	O	O
+for	757,760	O	O
+the	761,764	O	O
+assessment	765,775	O	B-Task
+of	776,778	O	I-Task
+the	779,782	O	I-Task
+corrosion	783,792	O	I-Task
+condition	793,802	O	I-Task
+of	803,805	O	O
+steel	806,811	O	B-Material
+in	812,814	O	O
+reinforced	815,825	O	B-Material
+concrete	826,834	O	I-Material
+structures	835,845	O	I-Material
+.	845,846	O	O
 
 
 -DOCSTART- (S0010938X13002187)
 
-The	0	3	O
-results	4	11	O
-from	12	16	O
-two	17	20	O
-types	21	26	O
-of	27	29	O
-oxidation	30	39	B-Process
-test	40	44	I-Process
-are	45	48	O
-combined	49	57	O
-in	58	60	O
-this	61	65	O
-study	66	71	O
-.	71	72	O
-
-Table	73	78	O
-1	79	80	O
-shows	81	86	O
-the	87	90	O
-test	91	95	B-Material
-matrix	96	102	I-Material
-with	103	107	O
-the	108	111	O
-two	112	115	O
-approaches	116	126	O
-included	127	135	O
-.	135	136	O
-
-All	137	140	O
-the	141	144	O
-100h	145	149	O
-tests	150	155	O
-and	156	159	O
-the	160	163	O
-test	164	168	O
-conducted	169	178	O
-at	179	181	O
-650	182	185	O
-°	185	186	O
-C	186	187	O
-were	188	192	O
-performed	193	202	O
-using	203	208	O
-a	209	210	O
-thermogravimetric	211	228	B-Process
-balance	229	236	I-Process
-(	237	238	O
-TGA	238	241	B-Process
-)	241	242	O
-.	242	243	O
-
-The	244	247	O
-weight	248	254	B-Material
-change	255	261	I-Material
-during	262	268	I-Material
-these	269	274	I-Material
-tests	275	280	I-Material
-was	281	284	I-Material
-monitored	285	294	I-Material
-continually	295	306	I-Material
-and	307	310	O
-adjusted	311	319	B-Process
-to	320	322	I-Process
-accommodate	323	334	I-Process
-buoyancy	335	343	I-Process
-effects	344	351	I-Process
-.	351	352	O
-
-All	353	356	O
-other	357	362	O
-tests	363	368	O
-were	369	373	O
-conducted	374	383	O
-in	384	386	O
-horizontal	387	397	B-Material
-tube	398	402	I-Material
-furnaces	403	411	I-Material
-.	411	412	O
-
-For	413	416	O
-these	417	422	O
-latter	423	429	O
-tests	430	435	O
-,	435	436	O
-batches	437	444	O
-of	445	447	O
-specimens	448	457	O
-were	458	462	O
-placed	463	469	O
-in	470	472	O
-alumina	473	480	B-Material
-boats	481	486	I-Material
-and	487	490	O
-inserted	491	499	O
-into	500	504	O
-the	505	508	O
-furnaces	509	517	B-Material
-at	518	520	O
-temperature	521	532	O
-.	532	533	O
-
-Intermittent	534	546	O
-weighing	547	555	O
-at	556	558	O
-room	559	563	O
-temperature	564	575	O
-was	576	579	O
-used	580	584	O
-to	585	587	O
-determine	588	597	B-Task
-the	598	601	I-Task
-oxidation	602	611	I-Task
-kinetics	612	620	I-Task
-.	620	621	O
-
-At	622	624	O
-selected	625	633	O
-time	634	638	O
-intervals	639	648	O
-,	648	649	O
-a	650	651	O
-specimen	652	660	O
-was	661	664	O
-removed	665	672	O
-from	673	677	O
-the	678	681	O
-batch	682	687	O
-for	688	691	O
-examination	692	703	O
-before	704	710	O
-the	711	714	O
-high	715	719	O
-temperature	720	731	O
-exposure	732	740	O
-continued	741	750	O
-for	751	754	O
-the	755	758	O
-remainder	759	768	O
-of	769	771	O
-the	772	775	O
-batch	776	781	O
-.	781	782	O
-
-Table	783	788	B-Material
-1	789	790	I-Material
-shows	791	796	I-Material
-the	797	800	I-Material
-time	801	805	I-Material
-intervals	806	815	I-Material
-chosen	816	822	I-Material
-for	823	826	I-Material
-examination	827	838	I-Material
-.	838	839	O
-
-At	840	842	O
-600	843	846	O
-°	846	847	O
-C	847	848	O
-one	849	852	O
-isothermal	853	863	O
-test	864	868	O
-,	868	869	O
-having	870	876	O
-an	877	879	O
-exposure	880	888	O
-time	889	893	O
-of	894	896	O
-1000h	897	902	O
-,	902	903	O
-has	904	907	O
-been	908	912	O
-performed	913	922	O
-to	923	925	O
-date	926	930	O
-.	930	931	O
+The	0,3	O	O
+results	4,11	O	O
+from	12,16	O	O
+two	17,20	O	O
+types	21,26	O	O
+of	27,29	O	O
+oxidation	30,39	O	B-Process
+test	40,44	O	I-Process
+are	45,48	O	O
+combined	49,57	O	O
+in	58,60	O	O
+this	61,65	O	O
+study	66,71	O	O
+.	71,72	O	O
+
+Table	73,78	O	O
+1	79,80	O	O
+shows	81,86	O	O
+the	87,90	O	O
+test	91,95	O	B-Material
+matrix	96,102	O	I-Material
+with	103,107	O	O
+the	108,111	O	O
+two	112,115	O	O
+approaches	116,126	O	O
+included	127,135	O	O
+.	135,136	O	O
+
+All	137,140	O	O
+the	141,144	O	O
+100h	145,149	O	O
+tests	150,155	O	O
+and	156,159	O	O
+the	160,163	O	O
+test	164,168	O	O
+conducted	169,178	O	O
+at	179,181	O	O
+650	182,185	O	O
+°	185,186	O	O
+C	186,187	O	O
+were	188,192	O	O
+performed	193,202	O	O
+using	203,208	O	O
+a	209,210	O	O
+thermogravimetric	211,228	O	B-Process
+balance	229,236	O	I-Process
+(	237,238	O	O
+TGA	238,241	O	B-Process
+)	241,242	O	O
+.	242,243	O	O
+
+The	244,247	O	O
+weight	248,254	O	B-Material
+change	255,261	O	I-Material
+during	262,268	O	I-Material
+these	269,274	O	I-Material
+tests	275,280	O	I-Material
+was	281,284	O	I-Material
+monitored	285,294	O	I-Material
+continually	295,306	O	I-Material
+and	307,310	O	O
+adjusted	311,319	O	B-Process
+to	320,322	O	I-Process
+accommodate	323,334	O	I-Process
+buoyancy	335,343	O	I-Process
+effects	344,351	O	I-Process
+.	351,352	O	O
+
+All	353,356	O	O
+other	357,362	O	O
+tests	363,368	O	O
+were	369,373	O	O
+conducted	374,383	O	O
+in	384,386	O	O
+horizontal	387,397	O	B-Material
+tube	398,402	O	I-Material
+furnaces	403,411	O	I-Material
+.	411,412	O	O
+
+For	413,416	O	O
+these	417,422	O	O
+latter	423,429	O	O
+tests	430,435	O	O
+,	435,436	O	O
+batches	437,444	O	O
+of	445,447	O	O
+specimens	448,457	O	O
+were	458,462	O	O
+placed	463,469	O	O
+in	470,472	O	O
+alumina	473,480	O	B-Material
+boats	481,486	O	I-Material
+and	487,490	O	O
+inserted	491,499	O	O
+into	500,504	O	O
+the	505,508	O	O
+furnaces	509,517	O	B-Material
+at	518,520	O	O
+temperature	521,532	O	O
+.	532,533	O	O
+
+Intermittent	534,546	O	O
+weighing	547,555	O	O
+at	556,558	O	O
+room	559,563	O	O
+temperature	564,575	O	O
+was	576,579	O	O
+used	580,584	O	O
+to	585,587	O	O
+determine	588,597	O	B-Task
+the	598,601	O	I-Task
+oxidation	602,611	O	I-Task
+kinetics	612,620	O	I-Task
+.	620,621	O	O
+
+At	622,624	O	O
+selected	625,633	O	O
+time	634,638	O	O
+intervals	639,648	O	O
+,	648,649	O	O
+a	650,651	O	O
+specimen	652,660	O	O
+was	661,664	O	O
+removed	665,672	O	O
+from	673,677	O	O
+the	678,681	O	O
+batch	682,687	O	O
+for	688,691	O	O
+examination	692,703	O	O
+before	704,710	O	O
+the	711,714	O	O
+high	715,719	O	O
+temperature	720,731	O	O
+exposure	732,740	O	O
+continued	741,750	O	O
+for	751,754	O	O
+the	755,758	O	O
+remainder	759,768	O	O
+of	769,771	O	O
+the	772,775	O	O
+batch	776,781	O	O
+.	781,782	O	O
+
+Table	783,788	O	B-Material
+1	789,790	O	I-Material
+shows	791,796	O	I-Material
+the	797,800	O	I-Material
+time	801,805	O	I-Material
+intervals	806,815	O	I-Material
+chosen	816,822	O	I-Material
+for	823,826	O	I-Material
+examination	827,838	O	I-Material
+.	838,839	O	O
+
+At	840,842	O	O
+600	843,846	O	O
+°	846,847	O	O
+C	847,848	O	O
+one	849,852	O	O
+isothermal	853,863	O	O
+test	864,868	O	O
+,	868,869	O	O
+having	870,876	O	O
+an	877,879	O	O
+exposure	880,888	O	O
+time	889,893	O	O
+of	894,896	O	O
+1000h	897,902	O	O
+,	902,903	O	O
+has	904,907	O	O
+been	908,912	O	O
+performed	913,922	O	O
+to	923,925	O	O
+date	926,930	O	O
+.	930,931	O	O
 
 
 -DOCSTART- (S0010938X13005945)
 
-The	0	3	O
-adhesion	4	12	B-Task
-/	12	13	I-Task
-cohesion	13	21	I-Task
-of	22	24	I-Task
-the	25	28	I-Task
-coating	29	36	I-Task
-was	37	40	O
-evaluated	41	50	O
-by	51	53	O
-the	54	57	O
-scratch	58	65	B-Process
-test	66	70	I-Process
-method	71	77	I-Process
-,	77	78	O
-using	79	84	O
-a	85	86	O
-Revetest	87	95	B-Material
-system	96	102	I-Material
-(	103	104	I-Material
-CSM	104	107	I-Material
-Instruments	108	119	I-Material
-SA	120	122	I-Material
-,	122	123	I-Material
-Switzerland	124	135	I-Material
-)	135	136	I-Material
-equipped	137	145	I-Material
-with	146	150	I-Material
-a	151	152	I-Material
-H-270	153	158	I-Material
-diamond	159	166	I-Material
-indentor	167	175	I-Material
-(	176	177	I-Material
-200μm	177	182	I-Material
-diameter	183	191	I-Material
-)	191	192	I-Material
-.	192	193	O
-
-Six	194	197	O
-scratch	198	205	B-Process
-indentations	206	218	I-Process
-were	219	223	I-Process
-carried	224	231	I-Process
-out	232	235	I-Process
-under	236	241	O
-previously	242	252	O
-optimized	253	262	O
-conditions	263	273	O
-(	274	275	O
-linear	275	281	O
-progressive	282	293	O
-load	294	298	O
-mode	299	303	O
-1–4N	304	308	O
-,	308	309	O
-4Nmin−1	310	317	O
-)	317	318	O
-.	318	319	O
-
-In	320	322	O
-order	323	328	O
-to	329	331	O
-aid	332	335	O
-in	336	338	O
-determination	339	352	B-Task
-of	353	355	I-Task
-location	356	364	I-Task
-of	365	367	I-Task
-spallation	368	378	I-Task
-/	378	379	I-Task
-delamination	379	391	I-Task
-,	391	392	O
-an	393	395	O
-extended	396	404	O
-scratch	405	412	O
-length	413	419	O
-of	420	422	O
-6	423	424	O
-mm	424	426	O
-was	427	430	O
-employed	431	439	O
-.	439	440	O
-
-The	441	444	O
-scratch	445	452	O
-tracks	453	459	O
-were	460	464	O
-subsequently	465	477	O
-observed	478	486	O
-by	487	489	O
-SEM	490	493	O
-to	494	496	O
-determine	497	506	O
-the	507	510	O
-locations	511	520	O
-of	521	523	O
-the	524	527	O
-first	528	533	O
-coating	534	541	O
-failure	542	549	O
-and	550	553	O
-to	554	556	O
-understand	557	567	B-Task
-the	568	571	I-Task
-nature	572	578	I-Task
-of	579	581	I-Task
-the	582	585	I-Task
-coating	586	593	I-Task
-failure	594	601	I-Task
-.	601	602	O
-
-During	603	609	O
-the	610	613	O
-scratch	614	621	O
-tests	622	627	O
-,	627	628	O
-the	629	632	O
-loading	633	640	B-Process
-force	641	646	I-Process
-and	647	650	I-Process
-penetration	651	662	I-Process
-depth	663	668	I-Process
-were	669	673	I-Process
-recorded	674	682	I-Process
-and	683	686	I-Process
-their	687	692	I-Process
-respective	693	703	I-Process
-values	704	710	I-Process
-were	711	715	I-Process
-correlated	716	726	I-Process
-with	727	731	I-Process
-the	732	735	I-Process
-observed	736	744	I-Process
-failure	745	752	I-Process
-locations	753	762	I-Process
-.	762	763	O
-
-The	764	767	O
-surface	768	775	B-Task
-roughness	776	785	I-Task
-of	786	788	I-Task
-the	789	792	I-Task
-coating	793	800	I-Task
-was	801	804	I-Task
-evaluated	805	814	I-Task
-using	815	820	O
-a	821	822	O
-surface	823	830	B-Material
-roughness	831	840	I-Material
-tester	841	847	I-Material
-(	848	849	O
-TR200	849	854	O
-,	854	855	O
-Timegroup	856	865	O
-Inc.	866	870	O
-)	870	871	O
-according	872	881	O
-to	882	884	O
-ISO	885	888	O
-standard	889	897	O
-[	898	899	O
-29	899	901	O
-]	901	902	O
-.	902	903	O
-
-Due	904	907	O
-to	908	910	O
-the	911	914	O
-presence	915	923	O
-of	924	926	O
-the	927	930	O
-open	931	935	O
-porosity	936	944	O
-in	945	947	O
-the	948	951	O
-outer	952	957	B-Material
-layer	958	963	I-Material
-of	964	966	O
-the	967	970	O
-coating	971	978	B-Process
-,	978	979	O
-a	980	981	O
-measurement	982	993	O
-length	994	1000	O
-for	1001	1004	O
-determination	1005	1018	O
-of	1019	1021	O
-the	1022	1025	O
-roughness	1026	1035	B-Process
-(	1036	1037	O
-Ra	1037	1039	B-Process
-)	1039	1040	O
-of	1041	1043	O
-0.8	1044	1047	O
-mm	1047	1049	O
-was	1050	1053	O
-used	1054	1058	O
-.	1058	1059	O
-
-In	1060	1062	O
-total	1063	1068	O
-,	1068	1069	O
-eight	1070	1075	B-Material
-measurements	1076	1088	I-Material
-were	1089	1093	O
-carried	1094	1101	O
-out	1102	1105	O
-in	1106	1108	O
-different	1109	1118	O
-directions	1119	1129	O
-.	1129	1130	O
+The	0,3	O	O
+adhesion	4,12	O	B-Task
+/	12,13	O	I-Task
+cohesion	13,21	O	I-Task
+of	22,24	O	I-Task
+the	25,28	O	I-Task
+coating	29,36	O	I-Task
+was	37,40	O	O
+evaluated	41,50	O	O
+by	51,53	O	O
+the	54,57	O	O
+scratch	58,65	O	B-Process
+test	66,70	O	I-Process
+method	71,77	O	I-Process
+,	77,78	O	O
+using	79,84	O	O
+a	85,86	O	O
+Revetest	87,95	O	B-Material
+system	96,102	O	I-Material
+(	103,104	O	I-Material
+CSM	104,107	O	I-Material
+Instruments	108,119	O	I-Material
+SA	120,122	O	I-Material
+,	122,123	O	I-Material
+Switzerland	124,135	O	I-Material
+)	135,136	O	I-Material
+equipped	137,145	O	I-Material
+with	146,150	O	I-Material
+a	151,152	O	I-Material
+H-270	153,158	O	I-Material
+diamond	159,166	O	I-Material
+indentor	167,175	O	I-Material
+(	176,177	O	I-Material
+200μm	177,182	O	I-Material
+diameter	183,191	O	I-Material
+)	191,192	O	I-Material
+.	192,193	O	O
+
+Six	194,197	O	O
+scratch	198,205	O	B-Process
+indentations	206,218	O	I-Process
+were	219,223	O	I-Process
+carried	224,231	O	I-Process
+out	232,235	O	I-Process
+under	236,241	O	O
+previously	242,252	O	O
+optimized	253,262	O	O
+conditions	263,273	O	O
+(	274,275	O	O
+linear	275,281	O	O
+progressive	282,293	O	O
+load	294,298	O	O
+mode	299,303	O	O
+1–4N	304,308	O	O
+,	308,309	O	O
+4Nmin−1	310,317	O	O
+)	317,318	O	O
+.	318,319	O	O
+
+In	320,322	O	O
+order	323,328	O	O
+to	329,331	O	O
+aid	332,335	O	O
+in	336,338	O	O
+determination	339,352	O	B-Task
+of	353,355	O	I-Task
+location	356,364	O	I-Task
+of	365,367	O	I-Task
+spallation	368,378	O	I-Task
+/	378,379	O	I-Task
+delamination	379,391	O	I-Task
+,	391,392	O	O
+an	393,395	O	O
+extended	396,404	O	O
+scratch	405,412	O	O
+length	413,419	O	O
+of	420,422	O	O
+6	423,424	O	O
+mm	424,426	O	O
+was	427,430	O	O
+employed	431,439	O	O
+.	439,440	O	O
+
+The	441,444	O	O
+scratch	445,452	O	O
+tracks	453,459	O	O
+were	460,464	O	O
+subsequently	465,477	O	O
+observed	478,486	O	O
+by	487,489	O	O
+SEM	490,493	O	O
+to	494,496	O	O
+determine	497,506	O	O
+the	507,510	O	O
+locations	511,520	O	O
+of	521,523	O	O
+the	524,527	O	O
+first	528,533	O	O
+coating	534,541	O	O
+failure	542,549	O	O
+and	550,553	O	O
+to	554,556	O	O
+understand	557,567	O	B-Task
+the	568,571	O	I-Task
+nature	572,578	O	I-Task
+of	579,581	O	I-Task
+the	582,585	O	I-Task
+coating	586,593	O	I-Task
+failure	594,601	O	I-Task
+.	601,602	O	O
+
+During	603,609	O	O
+the	610,613	O	O
+scratch	614,621	O	O
+tests	622,627	O	O
+,	627,628	O	O
+the	629,632	O	O
+loading	633,640	O	B-Process
+force	641,646	O	I-Process
+and	647,650	O	I-Process
+penetration	651,662	O	I-Process
+depth	663,668	O	I-Process
+were	669,673	O	I-Process
+recorded	674,682	O	I-Process
+and	683,686	O	I-Process
+their	687,692	O	I-Process
+respective	693,703	O	I-Process
+values	704,710	O	I-Process
+were	711,715	O	I-Process
+correlated	716,726	O	I-Process
+with	727,731	O	I-Process
+the	732,735	O	I-Process
+observed	736,744	O	I-Process
+failure	745,752	O	I-Process
+locations	753,762	O	I-Process
+.	762,763	O	O
+
+The	764,767	O	O
+surface	768,775	O	B-Task
+roughness	776,785	O	I-Task
+of	786,788	O	I-Task
+the	789,792	O	I-Task
+coating	793,800	O	I-Task
+was	801,804	O	I-Task
+evaluated	805,814	O	I-Task
+using	815,820	O	O
+a	821,822	O	O
+surface	823,830	O	B-Material
+roughness	831,840	O	I-Material
+tester	841,847	O	I-Material
+(	848,849	O	O
+TR200	849,854	O	O
+,	854,855	O	O
+Timegroup	856,865	O	O
+Inc.	866,870	O	O
+)	870,871	O	O
+according	872,881	O	O
+to	882,884	O	O
+ISO	885,888	O	O
+standard	889,897	O	O
+[	898,899	O	O
+29	899,901	O	O
+]	901,902	O	O
+.	902,903	O	O
+
+Due	904,907	O	O
+to	908,910	O	O
+the	911,914	O	O
+presence	915,923	O	O
+of	924,926	O	O
+the	927,930	O	O
+open	931,935	O	O
+porosity	936,944	O	O
+in	945,947	O	O
+the	948,951	O	O
+outer	952,957	O	B-Material
+layer	958,963	O	I-Material
+of	964,966	O	O
+the	967,970	O	O
+coating	971,978	O	B-Process
+,	978,979	O	O
+a	980,981	O	O
+measurement	982,993	O	O
+length	994,1000	O	O
+for	1001,1004	O	O
+determination	1005,1018	O	O
+of	1019,1021	O	O
+the	1022,1025	O	O
+roughness	1026,1035	O	B-Process
+(	1036,1037	O	O
+Ra	1037,1039	O	B-Process
+)	1039,1040	O	O
+of	1041,1043	O	O
+0.8	1044,1047	O	O
+mm	1047,1049	O	O
+was	1050,1053	O	O
+used	1054,1058	O	O
+.	1058,1059	O	O
+
+In	1060,1062	O	O
+total	1063,1068	O	O
+,	1068,1069	O	O
+eight	1070,1075	O	B-Material
+measurements	1076,1088	O	I-Material
+were	1089,1093	O	O
+carried	1094,1101	O	O
+out	1102,1105	O	O
+in	1106,1108	O	O
+different	1109,1118	O	O
+directions	1119,1129	O	O
+.	1129,1130	O	O
 
 
 -DOCSTART- (S0010938X14000420)
 
-One	0	3	O
-surface	4	11	O
-was	12	15	O
-then	16	20	O
-polished	21	29	O
-and	30	33	O
-cleaned	34	41	O
-using	42	47	O
-a	48	49	O
-protocol	50	58	O
-designed	59	67	O
-to	68	70	O
-eliminate	71	80	O
-as	81	83	O
-much	84	88	O
-preparation	89	100	O
--	100	101	O
-related	101	108	O
-contamination	109	122	O
-as	123	125	O
-possible	126	134	O
-.	134	135	O
-
-This	136	140	O
-is	141	143	O
-as	144	146	O
-follows	147	154	O
-:	154	155	O
-
-The	156	159	O
-lead	160	164	O
-surface	165	172	O
-was	173	176	O
-polished	177	185	O
-by	186	188	O
-hand	189	193	O
-using	194	199	O
-a	200	201	O
-damp	202	206	B-Material
-abrasive	207	215	I-Material
-disc	216	220	I-Material
-(	221	222	O
-BuehlerMet	222	232	O
-II	233	235	O
-®	236	237	O
-)	237	238	O
-to	239	241	O
-remove	242	248	O
-visible	249	256	O
-surface	257	264	B-Material
-defects	265	272	O
-and	273	276	O
-to	277	279	O
-expose	280	286	O
-a	287	288	O
-fresh	289	294	O
-metal	295	300	B-Material
-surface	301	308	I-Material
-.	308	309	O
-
-Coupons	310	317	O
-were	318	322	O
-then	323	327	O
-polished	328	336	O
-using	337	342	O
-a	343	344	O
-sequence	345	353	O
-of	354	356	O
-diamond	357	364	B-Material
-polishes	365	373	I-Material
-with	374	378	O
-decreasing	379	389	O
-particle	390	398	O
-sizes	399	404	O
-(	405	406	O
-6μm	406	409	O
-,	409	410	O
-3μm	411	414	O
-,	414	415	O
-1μm	416	419	O
-Buehler	420	427	O
-MetaDi	428	434	O
-®	435	436	O
-polycrystalline	437	452	B-Material
-diamond	453	460	I-Material
-suspension	461	471	O
-)	471	472	O
-.	472	473	O
-
-A	474	475	O
-polishing	476	485	B-Material
-cloth	486	491	I-Material
-(	492	493	O
-Buehler	493	500	O
-MicroCloth	501	511	O
-®	512	513	O
-)	513	514	O
-was	515	518	O
-saturated	519	528	O
-with	529	533	O
-the	534	537	O
-appropriate	538	549	O
-diamond	550	557	B-Material
-suspension	558	568	O
-.	568	569	O
-
-A	570	571	O
-custom	572	578	B-Material
--	578	579	I-Material
-made	579	583	I-Material
-jig	584	587	I-Material
-fitted	588	594	O
-to	595	597	O
-an	598	600	O
-automatic	601	610	O
-polisher	611	619	B-Material
-(	620	621	O
-Buehler	621	628	O
-Minimet	629	636	O
-®	637	638	O
-1000	639	643	O
-)	643	644	O
-was	645	648	O
-used	649	653	O
-to	654	656	O
-hold	657	661	O
-the	662	665	O
-coupons	666	673	B-Material
-in	674	676	O
-place	677	682	O
-during	683	689	O
-automated	690	699	B-Process
-polishing	700	709	I-Process
-.	709	710	O
-
-Coupons	711	718	B-Material
-were	719	723	O
-polished	724	732	B-Process
-for	733	736	O
-15min	737	742	O
-using	743	748	O
-each	749	753	O
-diamond	754	761	B-Process
-suspension	762	772	I-Process
-followed	773	781	O
-by	782	784	O
-rinsing	785	792	O
-with	793	797	O
-2-propanol	798	808	B-Material
-(	809	810	O
-99.5	810	814	O
-%	814	815	O
-,	815	816	O
-reagent	817	824	O
-grade	825	830	O
-)	830	831	O
-and	832	835	O
-cleaning	836	844	O
-in	845	847	O
-2-propanol	848	858	B-Material
-for	859	862	O
-5min	863	867	O
-in	868	870	O
-an	871	873	O
-ultrasonic	874	884	B-Material
-bath	885	889	I-Material
-.	889	890	O
-
-After	891	896	O
-polishing	897	906	B-Process
-with	907	911	O
-the	912	915	O
-1μm	916	919	O
-diamond	920	927	B-Material
-suspension	928	938	I-Material
-,	938	939	O
-the	940	943	O
-coupons	944	951	B-Material
-were	952	956	O
-ultrasonically	957	971	O
-cleaned	972	979	O
-in	980	982	O
-2-propanol	983	993	B-Material
-for	994	997	O
-3×5min	998	1004	O
-,	1004	1005	O
-with	1006	1010	O
-fresh	1011	1016	O
-propanol	1017	1025	B-Material
-for	1026	1029	O
-each	1030	1034	O
-cleaning	1035	1043	B-Process
-cycle	1044	1049	O
-.	1049	1050	O
-
-Polished	1051	1059	O
-coupons	1060	1067	B-Material
-were	1068	1072	O
-stored	1073	1079	O
-in	1080	1082	O
-2-propanol	1083	1093	B-Material
-until	1094	1099	O
-required	1100	1108	O
-.	1108	1109	O
+One	0,3	O	O
+surface	4,11	O	O
+was	12,15	O	O
+then	16,20	O	O
+polished	21,29	O	O
+and	30,33	O	O
+cleaned	34,41	O	O
+using	42,47	O	O
+a	48,49	O	O
+protocol	50,58	O	O
+designed	59,67	O	O
+to	68,70	O	O
+eliminate	71,80	O	O
+as	81,83	O	O
+much	84,88	O	O
+preparation	89,100	O	O
+-	100,101	O	O
+related	101,108	O	O
+contamination	109,122	O	O
+as	123,125	O	O
+possible	126,134	O	O
+.	134,135	O	O
+
+This	136,140	O	O
+is	141,143	O	O
+as	144,146	O	O
+follows	147,154	O	O
+:	154,155	O	O
+
+The	156,159	O	O
+lead	160,164	O	O
+surface	165,172	O	O
+was	173,176	O	O
+polished	177,185	O	O
+by	186,188	O	O
+hand	189,193	O	O
+using	194,199	O	O
+a	200,201	O	O
+damp	202,206	O	B-Material
+abrasive	207,215	O	I-Material
+disc	216,220	O	I-Material
+(	221,222	O	O
+BuehlerMet	222,232	O	O
+II	233,235	O	O
+®	236,237	O	O
+)	237,238	O	O
+to	239,241	O	O
+remove	242,248	O	O
+visible	249,256	O	O
+surface	257,264	O	B-Material
+defects	265,272	O	O
+and	273,276	O	O
+to	277,279	O	O
+expose	280,286	O	O
+a	287,288	O	O
+fresh	289,294	O	O
+metal	295,300	O	B-Material
+surface	301,308	O	I-Material
+.	308,309	O	O
+
+Coupons	310,317	O	O
+were	318,322	O	O
+then	323,327	O	O
+polished	328,336	O	O
+using	337,342	O	O
+a	343,344	O	O
+sequence	345,353	O	O
+of	354,356	O	O
+diamond	357,364	O	B-Material
+polishes	365,373	O	I-Material
+with	374,378	O	O
+decreasing	379,389	O	O
+particle	390,398	O	O
+sizes	399,404	O	O
+(	405,406	O	O
+6μm	406,409	O	O
+,	409,410	O	O
+3μm	411,414	O	O
+,	414,415	O	O
+1μm	416,419	O	O
+Buehler	420,427	O	O
+MetaDi	428,434	O	O
+®	435,436	O	O
+polycrystalline	437,452	O	B-Material
+diamond	453,460	O	I-Material
+suspension	461,471	O	O
+)	471,472	O	O
+.	472,473	O	O
+
+A	474,475	O	O
+polishing	476,485	O	B-Material
+cloth	486,491	O	I-Material
+(	492,493	O	O
+Buehler	493,500	O	O
+MicroCloth	501,511	O	O
+®	512,513	O	O
+)	513,514	O	O
+was	515,518	O	O
+saturated	519,528	O	O
+with	529,533	O	O
+the	534,537	O	O
+appropriate	538,549	O	O
+diamond	550,557	O	B-Material
+suspension	558,568	O	O
+.	568,569	O	O
+
+A	570,571	O	O
+custom	572,578	O	B-Material
+-	578,579	O	I-Material
+made	579,583	O	I-Material
+jig	584,587	O	I-Material
+fitted	588,594	O	O
+to	595,597	O	O
+an	598,600	O	O
+automatic	601,610	O	O
+polisher	611,619	O	B-Material
+(	620,621	O	O
+Buehler	621,628	O	O
+Minimet	629,636	O	O
+®	637,638	O	O
+1000	639,643	O	O
+)	643,644	O	O
+was	645,648	O	O
+used	649,653	O	O
+to	654,656	O	O
+hold	657,661	O	O
+the	662,665	O	O
+coupons	666,673	O	B-Material
+in	674,676	O	O
+place	677,682	O	O
+during	683,689	O	O
+automated	690,699	O	B-Process
+polishing	700,709	O	I-Process
+.	709,710	O	O
+
+Coupons	711,718	O	B-Material
+were	719,723	O	O
+polished	724,732	O	B-Process
+for	733,736	O	O
+15min	737,742	O	O
+using	743,748	O	O
+each	749,753	O	O
+diamond	754,761	O	B-Process
+suspension	762,772	O	I-Process
+followed	773,781	O	O
+by	782,784	O	O
+rinsing	785,792	O	O
+with	793,797	O	O
+2-propanol	798,808	O	B-Material
+(	809,810	O	O
+99.5	810,814	O	O
+%	814,815	O	O
+,	815,816	O	O
+reagent	817,824	O	O
+grade	825,830	O	O
+)	830,831	O	O
+and	832,835	O	O
+cleaning	836,844	O	O
+in	845,847	O	O
+2-propanol	848,858	O	B-Material
+for	859,862	O	O
+5min	863,867	O	O
+in	868,870	O	O
+an	871,873	O	O
+ultrasonic	874,884	O	B-Material
+bath	885,889	O	I-Material
+.	889,890	O	O
+
+After	891,896	O	O
+polishing	897,906	O	B-Process
+with	907,911	O	O
+the	912,915	O	O
+1μm	916,919	O	O
+diamond	920,927	O	B-Material
+suspension	928,938	O	I-Material
+,	938,939	O	O
+the	940,943	O	O
+coupons	944,951	O	B-Material
+were	952,956	O	O
+ultrasonically	957,971	O	O
+cleaned	972,979	O	O
+in	980,982	O	O
+2-propanol	983,993	O	B-Material
+for	994,997	O	O
+3×5min	998,1004	O	O
+,	1004,1005	O	O
+with	1006,1010	O	O
+fresh	1011,1016	O	O
+propanol	1017,1025	O	B-Material
+for	1026,1029	O	O
+each	1030,1034	O	O
+cleaning	1035,1043	O	B-Process
+cycle	1044,1049	O	O
+.	1049,1050	O	O
+
+Polished	1051,1059	O	O
+coupons	1060,1067	O	B-Material
+were	1068,1072	O	O
+stored	1073,1079	O	O
+in	1080,1082	O	O
+2-propanol	1083,1093	O	B-Material
+until	1094,1099	O	O
+required	1100,1108	O	O
+.	1108,1109	O	O
 
 
 -DOCSTART- (S0010938X1500195X)
 
-Poor	0	4	O
-oxidation	5	14	B-Process
-behavior	15	23	O
-is	24	26	O
-the	27	30	O
-major	31	36	O
-barrier	37	44	O
-to	45	47	O
-the	48	51	O
-increased	52	61	O
-use	62	65	O
-of	66	68	O
-Ti	69	71	B-Material
--	71	72	I-Material
-based	72	77	I-Material
-alloys	78	84	I-Material
-in	85	87	O
-high	88	92	O
--	92	93	O
-temperature	93	104	O
-structural	105	115	O
-applications	116	128	O
-.	128	129	O
-
-The	130	133	O
-demand	134	140	O
-to	141	143	O
-increase	144	152	O
-the	153	156	O
-service	157	164	O
-temperature	165	176	O
-of	177	179	O
-these	180	185	O
-alloys	186	192	B-Material
-beyond	193	199	O
-550	200	203	O
-°	203	204	O
-C	204	205	O
-(	206	207	O
-the	207	210	O
-typical	211	218	O
-temperature	219	230	O
-limit	231	236	O
-)	236	237	O
-requires	238	246	O
-careful	247	254	O
-study	255	260	O
-to	261	263	O
-understand	264	274	B-Task
-the	275	278	I-Task
-role	279	283	I-Task
-that	284	288	I-Task
-composition	289	300	I-Task
-has	301	304	I-Task
-on	305	307	I-Task
-the	308	311	I-Task
-oxidation	312	321	I-Task
-behavior	322	330	I-Task
-of	331	333	I-Task
-Ti	334	336	I-Task
--	336	337	I-Task
-based	337	342	I-Task
-alloys	343	349	I-Task
-[	350	351	O
-1–3	351	354	O
-]	354	355	O
-.	355	356	O
-
-The	357	360	O
-attempt	361	368	O
-to	369	371	O
-overcome	372	380	O
-this	381	385	O
-limitation	386	396	O
-in	397	399	O
-Ti	400	402	B-Material
--	402	403	I-Material
-based	403	408	I-Material
-alloys	409	415	I-Material
-has	416	419	O
-led	420	423	O
-to	424	426	O
-the	427	430	O
-production	431	441	O
-of	442	444	O
-alloys	445	451	B-Material
-with	452	456	I-Material
-substantially	457	470	I-Material
-improved	471	479	I-Material
-oxidation	480	489	I-Material
-resistance	490	500	I-Material
-such	501	505	O
-as	506	508	O
-β-21S	509	514	B-Material
-and	515	518	O
-also	519	523	O
-development	524	535	B-Task
-of	536	538	I-Task
-coatings	539	547	I-Task
-and	548	551	I-Task
-pre	552	555	I-Task
--	555	556	I-Task
-oxidation	556	565	I-Task
-techniques	566	576	I-Task
-[	577	578	O
-1,4–6	578	583	O
-]	583	584	O
-.	584	585	O
-
-While	586	591	O
-it	592	594	O
-is	595	597	O
-tempting	598	606	O
-to	607	609	O
-extrapolate	610	621	O
-the	622	625	O
-oxidation	626	635	B-Process
-behavior	636	644	O
-(	645	646	O
-e.g.	646	650	O
-oxidation	651	660	O
-rate	661	665	O
-law	666	669	O
-,	669	670	O
-depth	671	676	O
-of	677	679	O
-oxygen	680	686	B-Material
-ingress	687	694	O
-and	695	698	O
-scale	699	704	O
-thickness	705	714	O
-)	714	715	O
-observed	716	724	O
-for	725	728	O
-a	729	730	O
-limited	731	738	O
-number	739	745	O
-of	746	748	O
-compositions	749	761	O
-under	762	767	O
-a	768	769	O
-certain	770	777	O
-oxidation	778	787	B-Process
-condition	788	797	O
-to	798	800	O
-a	801	802	O
-broader	803	810	O
-compositional	811	824	O
-range	825	830	O
-,	830	831	O
-there	832	837	O
-are	838	841	O
-numerous	842	850	O
-examples	851	859	O
-in	860	862	O
-the	863	866	O
-literature	867	877	O
-where	878	883	O
-deviations	884	894	O
-from	895	899	O
-the	900	903	O
-expected	904	912	O
-relations	913	922	O
-are	923	926	O
-observed	927	935	O
-[	936	937	O
-7,8	937	940	O
-]	940	941	O
-.	941	942	O
+Poor	0,4	O	O
+oxidation	5,14	O	B-Process
+behavior	15,23	O	O
+is	24,26	O	O
+the	27,30	O	O
+major	31,36	O	O
+barrier	37,44	O	O
+to	45,47	O	O
+the	48,51	O	O
+increased	52,61	O	O
+use	62,65	O	O
+of	66,68	O	O
+Ti	69,71	O	B-Material
+-	71,72	O	I-Material
+based	72,77	O	I-Material
+alloys	78,84	O	I-Material
+in	85,87	O	O
+high	88,92	O	O
+-	92,93	O	O
+temperature	93,104	O	O
+structural	105,115	O	O
+applications	116,128	O	O
+.	128,129	O	O
+
+The	130,133	O	O
+demand	134,140	O	O
+to	141,143	O	O
+increase	144,152	O	O
+the	153,156	O	O
+service	157,164	O	O
+temperature	165,176	O	O
+of	177,179	O	O
+these	180,185	O	O
+alloys	186,192	O	B-Material
+beyond	193,199	O	O
+550	200,203	O	O
+°	203,204	O	O
+C	204,205	O	O
+(	206,207	O	O
+the	207,210	O	O
+typical	211,218	O	O
+temperature	219,230	O	O
+limit	231,236	O	O
+)	236,237	O	O
+requires	238,246	O	O
+careful	247,254	O	O
+study	255,260	O	O
+to	261,263	O	O
+understand	264,274	O	B-Task
+the	275,278	O	I-Task
+role	279,283	O	I-Task
+that	284,288	O	I-Task
+composition	289,300	O	I-Task
+has	301,304	O	I-Task
+on	305,307	O	I-Task
+the	308,311	O	I-Task
+oxidation	312,321	O	I-Task
+behavior	322,330	O	I-Task
+of	331,333	O	I-Task
+Ti	334,336	O	I-Task
+-	336,337	O	I-Task
+based	337,342	O	I-Task
+alloys	343,349	O	I-Task
+[	350,351	O	O
+1–3	351,354	O	O
+]	354,355	O	O
+.	355,356	O	O
+
+The	357,360	O	O
+attempt	361,368	O	O
+to	369,371	O	O
+overcome	372,380	O	O
+this	381,385	O	O
+limitation	386,396	O	O
+in	397,399	O	O
+Ti	400,402	O	B-Material
+-	402,403	O	I-Material
+based	403,408	O	I-Material
+alloys	409,415	O	I-Material
+has	416,419	O	O
+led	420,423	O	O
+to	424,426	O	O
+the	427,430	O	O
+production	431,441	O	O
+of	442,444	O	O
+alloys	445,451	O	B-Material
+with	452,456	O	I-Material
+substantially	457,470	O	I-Material
+improved	471,479	O	I-Material
+oxidation	480,489	O	I-Material
+resistance	490,500	O	I-Material
+such	501,505	O	O
+as	506,508	O	O
+β-21S	509,514	O	B-Material
+and	515,518	O	O
+also	519,523	O	O
+development	524,535	O	B-Task
+of	536,538	O	I-Task
+coatings	539,547	O	I-Task
+and	548,551	O	I-Task
+pre	552,555	O	I-Task
+-	555,556	O	I-Task
+oxidation	556,565	O	I-Task
+techniques	566,576	O	I-Task
+[	577,578	O	O
+1,4–6	578,583	O	O
+]	583,584	O	O
+.	584,585	O	O
+
+While	586,591	O	O
+it	592,594	O	O
+is	595,597	O	O
+tempting	598,606	O	O
+to	607,609	O	O
+extrapolate	610,621	O	O
+the	622,625	O	O
+oxidation	626,635	O	B-Process
+behavior	636,644	O	O
+(	645,646	O	O
+e.g.	646,650	O	O
+oxidation	651,660	O	O
+rate	661,665	O	O
+law	666,669	O	O
+,	669,670	O	O
+depth	671,676	O	O
+of	677,679	O	O
+oxygen	680,686	O	B-Material
+ingress	687,694	O	O
+and	695,698	O	O
+scale	699,704	O	O
+thickness	705,714	O	O
+)	714,715	O	O
+observed	716,724	O	O
+for	725,728	O	O
+a	729,730	O	O
+limited	731,738	O	O
+number	739,745	O	O
+of	746,748	O	O
+compositions	749,761	O	O
+under	762,767	O	O
+a	768,769	O	O
+certain	770,777	O	O
+oxidation	778,787	O	B-Process
+condition	788,797	O	O
+to	798,800	O	O
+a	801,802	O	O
+broader	803,810	O	O
+compositional	811,824	O	O
+range	825,830	O	O
+,	830,831	O	O
+there	832,837	O	O
+are	838,841	O	O
+numerous	842,850	O	O
+examples	851,859	O	O
+in	860,862	O	O
+the	863,866	O	O
+literature	867,877	O	O
+where	878,883	O	O
+deviations	884,894	O	O
+from	895,899	O	O
+the	900,903	O	O
+expected	904,912	O	O
+relations	913,922	O	O
+are	923,926	O	O
+observed	927,935	O	O
+[	936,937	O	O
+7,8	937,940	O	O
+]	940,941	O	O
+.	941,942	O	O
 
 
 -DOCSTART- (S0010938X15002085)
 
-The	0	3	O
-oxide	4	9	B-Process
-thickness	10	19	O
-is	20	22	O
-calculated	23	33	O
-using	34	39	O
-the	40	43	O
-weight	44	50	O
-gain	51	55	O
-and	56	59	O
-surface	60	67	O
-area	68	72	O
-.	72	73	O
-
-Artificially	74	86	O
-changing	87	95	O
-the	96	99	O
-surface	100	107	B-Material
-profile	108	115	O
-will	116	120	O
-modify	121	127	O
-the	128	131	O
-surface	132	139	B-Material
-area	140	144	I-Material
-and	145	148	O
-calculated	149	159	O
-oxide	160	165	B-Material
-thickness	166	175	O
-.	175	176	O
-
-SEM	177	180	B-Material
-images	181	187	I-Material
-of	188	190	O
-samples	191	198	O
-removed	199	206	O
-after	207	212	O
-111	213	216	O
-days	217	221	O
-oxidation	222	231	B-Process
-were	232	236	O
-used	237	241	O
-to	242	244	O
-define	245	251	O
-the	252	255	O
-change	256	262	O
-in	263	265	O
-surface	266	273	B-Material
-profile	274	281	I-Material
-length	282	288	O
-with	289	293	O
-variation	294	303	O
-in	304	306	O
-applied	307	314	O
-roughness	315	324	O
-.	324	325	O
-
-The	326	329	O
-profile	330	337	B-Material
-lengths	338	345	O
-extracted	346	355	O
-from	356	360	O
-the	361	364	O
-images	365	371	B-Material
-were	372	376	O
-then	377	381	O
-used	382	386	O
-to	387	389	O
-modify	390	396	O
-the	397	400	O
-length	401	407	O
-of	408	410	O
-the	411	414	O
-sample	415	421	B-Material
-and	422	425	O
-therefore	426	435	O
-the	436	439	O
-surface	440	447	B-Material
-area	448	452	I-Material
-.	452	453	O
-
-Table	454	459	O
-1	460	461	O
-shows	462	467	O
-the	468	471	O
-original	472	480	O
-oxide	481	486	B-Material
-thicknesses	487	498	O
-after	499	504	O
-111	505	508	O
-days	509	513	O
-oxidation	514	523	O
-,	523	524	O
-the	525	528	O
-modified	529	537	O
-oxide	538	543	B-Material
-thicknesses	544	555	O
-based	556	561	O
-on	562	564	O
-the	565	568	O
-surface	569	576	O
-profile	577	584	O
-length	585	591	O
-and	592	595	O
-the	596	599	O
-percentage	600	610	O
-difference	611	621	O
-.	621	622	O
-
-Results	623	630	O
-show	631	635	O
-a	636	637	O
-maximum	638	645	O
-decrease	646	654	O
-in	655	657	O
-the	658	661	O
-oxide	662	667	B-Material
-thickness	668	677	O
-of	678	680	O
-4	681	682	O
-%	682	683	O
-when	684	688	O
-using	689	694	O
-a	695	696	O
-surface	697	704	B-Material
-which	705	710	O
-accounts	711	719	O
-for	720	723	O
-roughness	724	733	O
-.	733	734	O
-
-Comparing	735	744	O
-the	745	748	O
-change	749	755	O
-in	756	758	O
-oxide	759	764	B-Material
-thickness	765	774	O
-between	775	782	O
-different	783	792	O
-surface	793	800	B-Material
-finishes	801	809	O
-indicates	810	819	O
-a	820	821	O
-variation	822	831	O
-of	832	834	O
-less	835	839	O
-than	840	844	O
-1	845	846	O
-%	846	847	O
-.	847	848	O
-
-As	849	851	O
-such	852	856	O
-,	856	857	O
-the	858	861	O
-impact	862	868	O
-of	869	871	O
-the	872	875	O
-variation	876	885	O
-in	886	888	O
-the	889	892	O
-profile	893	900	O
-length	901	907	O
-on	908	910	O
-the	911	914	O
-calculated	915	925	O
-oxide	926	931	B-Material
-thickness	932	941	O
-is	942	944	O
-considered	945	955	O
-to	956	958	O
-be	959	961	O
-insignificant	962	975	O
-.	975	976	O
-
-In	977	979	O
-addition	980	988	O
-,	988	989	O
-if	990	992	O
-the	993	996	O
-differences	997	1008	O
-in	1009	1011	O
-weight	1012	1018	O
-gain	1019	1023	O
-were	1024	1028	O
-only	1029	1033	O
-due	1034	1037	O
-to	1038	1040	O
-differences	1041	1052	O
-in	1053	1055	O
-surface	1056	1063	B-Material
-area	1064	1068	I-Material
-,	1068	1069	O
-rougher	1070	1077	O
-samples	1078	1085	B-Material
-would	1086	1091	O
-be	1092	1094	O
-expected	1095	1103	O
-to	1104	1106	O
-demonstrate	1107	1118	O
-thicker	1119	1126	O
-oxides	1127	1133	B-Material
-at	1134	1136	O
-the	1137	1140	O
-earliest	1141	1149	O
-stages	1150	1156	O
-of	1157	1159	O
-oxidation	1160	1169	B-Process
-.	1169	1170	O
+The	0,3	O	O
+oxide	4,9	O	B-Process
+thickness	10,19	O	O
+is	20,22	O	O
+calculated	23,33	O	O
+using	34,39	O	O
+the	40,43	O	O
+weight	44,50	O	O
+gain	51,55	O	O
+and	56,59	O	O
+surface	60,67	O	O
+area	68,72	O	O
+.	72,73	O	O
+
+Artificially	74,86	O	O
+changing	87,95	O	O
+the	96,99	O	O
+surface	100,107	O	B-Material
+profile	108,115	O	O
+will	116,120	O	O
+modify	121,127	O	O
+the	128,131	O	O
+surface	132,139	O	B-Material
+area	140,144	O	I-Material
+and	145,148	O	O
+calculated	149,159	O	O
+oxide	160,165	O	B-Material
+thickness	166,175	O	O
+.	175,176	O	O
+
+SEM	177,180	O	B-Material
+images	181,187	O	I-Material
+of	188,190	O	O
+samples	191,198	O	O
+removed	199,206	O	O
+after	207,212	O	O
+111	213,216	O	O
+days	217,221	O	O
+oxidation	222,231	O	B-Process
+were	232,236	O	O
+used	237,241	O	O
+to	242,244	O	O
+define	245,251	O	O
+the	252,255	O	O
+change	256,262	O	O
+in	263,265	O	O
+surface	266,273	O	B-Material
+profile	274,281	O	I-Material
+length	282,288	O	O
+with	289,293	O	O
+variation	294,303	O	O
+in	304,306	O	O
+applied	307,314	O	O
+roughness	315,324	O	O
+.	324,325	O	O
+
+The	326,329	O	O
+profile	330,337	O	B-Material
+lengths	338,345	O	O
+extracted	346,355	O	O
+from	356,360	O	O
+the	361,364	O	O
+images	365,371	O	B-Material
+were	372,376	O	O
+then	377,381	O	O
+used	382,386	O	O
+to	387,389	O	O
+modify	390,396	O	O
+the	397,400	O	O
+length	401,407	O	O
+of	408,410	O	O
+the	411,414	O	O
+sample	415,421	O	B-Material
+and	422,425	O	O
+therefore	426,435	O	O
+the	436,439	O	O
+surface	440,447	O	B-Material
+area	448,452	O	I-Material
+.	452,453	O	O
+
+Table	454,459	O	O
+1	460,461	O	O
+shows	462,467	O	O
+the	468,471	O	O
+original	472,480	O	O
+oxide	481,486	O	B-Material
+thicknesses	487,498	O	O
+after	499,504	O	O
+111	505,508	O	O
+days	509,513	O	O
+oxidation	514,523	O	O
+,	523,524	O	O
+the	525,528	O	O
+modified	529,537	O	O
+oxide	538,543	O	B-Material
+thicknesses	544,555	O	O
+based	556,561	O	O
+on	562,564	O	O
+the	565,568	O	O
+surface	569,576	O	O
+profile	577,584	O	O
+length	585,591	O	O
+and	592,595	O	O
+the	596,599	O	O
+percentage	600,610	O	O
+difference	611,621	O	O
+.	621,622	O	O
+
+Results	623,630	O	O
+show	631,635	O	O
+a	636,637	O	O
+maximum	638,645	O	O
+decrease	646,654	O	O
+in	655,657	O	O
+the	658,661	O	O
+oxide	662,667	O	B-Material
+thickness	668,677	O	O
+of	678,680	O	O
+4	681,682	O	O
+%	682,683	O	O
+when	684,688	O	O
+using	689,694	O	O
+a	695,696	O	O
+surface	697,704	O	B-Material
+which	705,710	O	O
+accounts	711,719	O	O
+for	720,723	O	O
+roughness	724,733	O	O
+.	733,734	O	O
+
+Comparing	735,744	O	O
+the	745,748	O	O
+change	749,755	O	O
+in	756,758	O	O
+oxide	759,764	O	B-Material
+thickness	765,774	O	O
+between	775,782	O	O
+different	783,792	O	O
+surface	793,800	O	B-Material
+finishes	801,809	O	O
+indicates	810,819	O	O
+a	820,821	O	O
+variation	822,831	O	O
+of	832,834	O	O
+less	835,839	O	O
+than	840,844	O	O
+1	845,846	O	O
+%	846,847	O	O
+.	847,848	O	O
+
+As	849,851	O	O
+such	852,856	O	O
+,	856,857	O	O
+the	858,861	O	O
+impact	862,868	O	O
+of	869,871	O	O
+the	872,875	O	O
+variation	876,885	O	O
+in	886,888	O	O
+the	889,892	O	O
+profile	893,900	O	O
+length	901,907	O	O
+on	908,910	O	O
+the	911,914	O	O
+calculated	915,925	O	O
+oxide	926,931	O	B-Material
+thickness	932,941	O	O
+is	942,944	O	O
+considered	945,955	O	O
+to	956,958	O	O
+be	959,961	O	O
+insignificant	962,975	O	O
+.	975,976	O	O
+
+In	977,979	O	O
+addition	980,988	O	O
+,	988,989	O	O
+if	990,992	O	O
+the	993,996	O	O
+differences	997,1008	O	O
+in	1009,1011	O	O
+weight	1012,1018	O	O
+gain	1019,1023	O	O
+were	1024,1028	O	O
+only	1029,1033	O	O
+due	1034,1037	O	O
+to	1038,1040	O	O
+differences	1041,1052	O	O
+in	1053,1055	O	O
+surface	1056,1063	O	B-Material
+area	1064,1068	O	I-Material
+,	1068,1069	O	O
+rougher	1070,1077	O	O
+samples	1078,1085	O	B-Material
+would	1086,1091	O	O
+be	1092,1094	O	O
+expected	1095,1103	O	O
+to	1104,1106	O	O
+demonstrate	1107,1118	O	O
+thicker	1119,1126	O	O
+oxides	1127,1133	O	B-Material
+at	1134,1136	O	O
+the	1137,1140	O	O
+earliest	1141,1149	O	O
+stages	1150,1156	O	O
+of	1157,1159	O	O
+oxidation	1160,1169	O	B-Process
+.	1169,1170	O	O
 
 
 -DOCSTART- (S0010938X15002954)
 
-There	0	5	O
-have	6	10	O
-been	11	15	O
-relatively	16	26	O
-few	27	30	O
-attempts	31	39	O
-to	40	42	O
-observe	43	50	O
-and	51	54	O
-in	55	57	O
-some	58	62	O
-cases	63	68	O
-extract	69	76	O
-the	77	80	O
-average	81	88	O
-current	89	96	O
-density	97	104	O
-from	105	109	O
-video	110	115	B-Material
-images	116	122	I-Material
-taken	123	128	O
-of	129	131	O
-growing	132	139	O
-2D	140	142	B-Material
-pits	143	147	I-Material
-.	147	148	O
-
-Frankel	149	156	O
-presented	157	166	O
-a	167	168	O
-method	169	175	O
-to	176	178	O
-directly	179	187	O
-measure	188	195	O
-the	196	199	O
-average	200	207	O
-anodic	208	214	B-Material
-current	215	222	I-Material
-density	223	230	O
-from	231	235	O
-the	236	239	O
-growing	240	247	O
-pit	248	251	B-Material
-boundary	252	260	O
-velocity	261	269	O
-in	270	272	O
-Al	273	275	B-Material
-[	276	277	O
-33	277	279	O
-]	279	280	O
-,	280	281	O
-an	282	284	O
-Al	285	287	B-Material
-alloy	288	293	I-Material
-[	294	295	O
-34	295	297	O
-]	297	298	O
-and	299	302	O
-
-Ni	303	305	B-Material
-–	305	306	I-Material
-Fe	306	308	I-Material
-[	309	310	I-Material
-35	310	312	I-Material
-]	312	313	I-Material
-thin	314	318	I-Material
-films	319	324	I-Material
-.	324	325	O
-
-Subsequently	326	338	O
-,	338	339	O
-Ryan	340	344	O
-et	345	347	O
-al	348	350	O
-.	350	351	O
-
-[	352	353	O
-27,36	353	358	O
-]	358	359	O
-determined	360	370	O
-the	371	374	O
-anodic	375	381	O
-current	382	389	O
-density	390	397	O
-in	398	400	O
-pits	401	405	B-Material
-propagating	406	417	O
-as	418	420	O
-2D	421	423	B-Material
-disks	424	429	I-Material
-in	430	432	O
-stainless	433	442	B-Material
-steel	443	448	I-Material
-thin	449	453	I-Material
-films	454	459	I-Material
-by	460	462	O
-measuring	463	472	O
-the	473	476	O
-pit	477	480	B-Material
-edge	481	485	I-Material
-movement	486	494	O
-velocity	495	503	O
-.	503	504	O
-
-Ernst	505	510	O
-and	511	514	O
-Newman	515	521	O
-[	522	523	O
-11,12,37	523	531	O
-]	531	532	O
-studied	533	540	O
-stability	541	550	O
-of	551	553	O
-pit	554	557	B-Process
-growth	558	564	I-Process
-in	565	567	O
-detail	568	574	O
-and	575	578	O
-measured	579	587	B-Process
-the	588	591	I-Process
-kinetics	592	600	I-Process
-of	601	603	I-Process
-2D	604	606	I-Process
-pit	607	610	I-Process
-propagation	611	622	I-Process
-in	623	625	O
-depth	626	631	O
-and	632	635	O
-width	636	641	O
-and	642	645	O
-compared	646	654	O
-the	655	658	O
-results	659	666	O
-with	667	671	O
-kinetics	672	680	O
-in	681	683	O
-1D	684	686	B-Material
-pencil	687	693	I-Material
-electrodes	694	704	I-Material
-.	704	705	O
-
-They	706	710	O
-developed	711	720	O
-a	721	722	O
-semi	723	727	B-Process
--	727	728	I-Process
-quantitative	728	740	I-Process
-model	741	746	I-Process
-for	747	750	O
-pit	751	754	B-Task
-propagation	755	766	I-Task
-which	767	772	O
-explained	773	782	O
-the	783	786	O
-lacy	787	791	B-Process
-pit	792	795	I-Process
-cover	796	801	I-Process
-formation	802	811	I-Process
-during	812	818	O
-the	819	822	O
-pit	823	826	B-Process
-growth	827	833	I-Process
-,	833	834	O
-although	835	843	O
-they	844	848	O
-did	849	852	O
-not	853	856	O
-measure	857	864	O
-current	865	872	O
-density	873	880	O
-within	881	887	O
-the	888	891	O
-pit	892	895	B-Material
-.	895	896	O
-
-More	897	901	O
-recently	902	910	O
-,	910	911	O
-Tang	912	916	O
-and	917	920	O
-Davenport	921	930	O
-[	931	932	O
-38	932	934	O
-]	934	935	O
-tracked	936	943	O
-the	944	947	O
-pit	948	951	B-Material
-boundary	952	960	O
-movement	961	969	O
-and	970	973	O
-computed	974	982	O
-the	983	986	O
-instantaneous	987	1000	O
-but	1001	1004	O
-average	1005	1012	O
-current	1013	1020	O
-density	1021	1028	O
-in	1029	1031	O
-Fe	1032	1034	B-Material
--	1034	1035	I-Material
-Co	1035	1037	I-Material
-thin	1038	1042	I-Material
-films	1043	1048	I-Material
-.	1048	1049	O
-
-However	1050	1057	O
-,	1057	1058	O
-there	1059	1064	O
-have	1065	1069	O
-been	1070	1074	O
-no	1075	1077	O
-previous	1078	1086	O
-attempts	1087	1095	O
-to	1096	1098	O
-quantify	1099	1107	O
-the	1108	1111	O
-local	1112	1117	O
-current	1118	1125	O
-density	1126	1133	O
-during	1134	1140	O
-inhomogeneous	1141	1154	O
-growth	1155	1161	O
-of	1162	1164	O
-pits	1165	1169	B-Material
-,	1169	1170	O
-although	1171	1179	O
-such	1180	1184	O
-local	1185	1190	O
-variation	1191	1200	O
-in	1201	1203	O
-current	1204	1211	B-Process
-density	1212	1219	O
-has	1220	1223	O
-long	1224	1228	O
-been	1229	1233	O
-recognised	1234	1244	O
-[	1245	1246	O
-7	1246	1247	O
-]	1247	1248	O
-.	1248	1249	O
+There	0,5	O	O
+have	6,10	O	O
+been	11,15	O	O
+relatively	16,26	O	O
+few	27,30	O	O
+attempts	31,39	O	O
+to	40,42	O	O
+observe	43,50	O	O
+and	51,54	O	O
+in	55,57	O	O
+some	58,62	O	O
+cases	63,68	O	O
+extract	69,76	O	O
+the	77,80	O	O
+average	81,88	O	O
+current	89,96	O	O
+density	97,104	O	O
+from	105,109	O	O
+video	110,115	O	B-Material
+images	116,122	O	I-Material
+taken	123,128	O	O
+of	129,131	O	O
+growing	132,139	O	O
+2D	140,142	O	B-Material
+pits	143,147	O	I-Material
+.	147,148	O	O
+
+Frankel	149,156	O	O
+presented	157,166	O	O
+a	167,168	O	O
+method	169,175	O	O
+to	176,178	O	O
+directly	179,187	O	O
+measure	188,195	O	O
+the	196,199	O	O
+average	200,207	O	O
+anodic	208,214	O	B-Material
+current	215,222	O	I-Material
+density	223,230	O	O
+from	231,235	O	O
+the	236,239	O	O
+growing	240,247	O	O
+pit	248,251	O	B-Material
+boundary	252,260	O	O
+velocity	261,269	O	O
+in	270,272	O	O
+Al	273,275	O	B-Material
+[	276,277	O	O
+33	277,279	O	O
+]	279,280	O	O
+,	280,281	O	O
+an	282,284	O	O
+Al	285,287	O	B-Material
+alloy	288,293	O	I-Material
+[	294,295	O	O
+34	295,297	O	O
+]	297,298	O	O
+and	299,302	O	O
+
+Ni	303,305	O	B-Material
+–	305,306	O	I-Material
+Fe	306,308	O	I-Material
+[	309,310	O	I-Material
+35	310,312	O	I-Material
+]	312,313	O	I-Material
+thin	314,318	O	I-Material
+films	319,324	O	I-Material
+.	324,325	O	O
+
+Subsequently	326,338	O	O
+,	338,339	O	O
+Ryan	340,344	O	O
+et	345,347	O	O
+al	348,350	O	O
+.	350,351	O	O
+
+[	352,353	O	O
+27,36	353,358	O	O
+]	358,359	O	O
+determined	360,370	O	O
+the	371,374	O	O
+anodic	375,381	O	O
+current	382,389	O	O
+density	390,397	O	O
+in	398,400	O	O
+pits	401,405	O	B-Material
+propagating	406,417	O	O
+as	418,420	O	O
+2D	421,423	O	B-Material
+disks	424,429	O	I-Material
+in	430,432	O	O
+stainless	433,442	O	B-Material
+steel	443,448	O	I-Material
+thin	449,453	O	I-Material
+films	454,459	O	I-Material
+by	460,462	O	O
+measuring	463,472	O	O
+the	473,476	O	O
+pit	477,480	O	B-Material
+edge	481,485	O	I-Material
+movement	486,494	O	O
+velocity	495,503	O	O
+.	503,504	O	O
+
+Ernst	505,510	O	O
+and	511,514	O	O
+Newman	515,521	O	O
+[	522,523	O	O
+11,12,37	523,531	O	O
+]	531,532	O	O
+studied	533,540	O	O
+stability	541,550	O	O
+of	551,553	O	O
+pit	554,557	O	B-Process
+growth	558,564	O	I-Process
+in	565,567	O	O
+detail	568,574	O	O
+and	575,578	O	O
+measured	579,587	O	B-Process
+the	588,591	O	I-Process
+kinetics	592,600	O	I-Process
+of	601,603	O	I-Process
+2D	604,606	O	I-Process
+pit	607,610	O	I-Process
+propagation	611,622	O	I-Process
+in	623,625	O	O
+depth	626,631	O	O
+and	632,635	O	O
+width	636,641	O	O
+and	642,645	O	O
+compared	646,654	O	O
+the	655,658	O	O
+results	659,666	O	O
+with	667,671	O	O
+kinetics	672,680	O	O
+in	681,683	O	O
+1D	684,686	O	B-Material
+pencil	687,693	O	I-Material
+electrodes	694,704	O	I-Material
+.	704,705	O	O
+
+They	706,710	O	O
+developed	711,720	O	O
+a	721,722	O	O
+semi	723,727	O	B-Process
+-	727,728	O	I-Process
+quantitative	728,740	O	I-Process
+model	741,746	O	I-Process
+for	747,750	O	O
+pit	751,754	O	B-Task
+propagation	755,766	O	I-Task
+which	767,772	O	O
+explained	773,782	O	O
+the	783,786	O	O
+lacy	787,791	O	B-Process
+pit	792,795	O	I-Process
+cover	796,801	O	I-Process
+formation	802,811	O	I-Process
+during	812,818	O	O
+the	819,822	O	O
+pit	823,826	O	B-Process
+growth	827,833	O	I-Process
+,	833,834	O	O
+although	835,843	O	O
+they	844,848	O	O
+did	849,852	O	O
+not	853,856	O	O
+measure	857,864	O	O
+current	865,872	O	O
+density	873,880	O	O
+within	881,887	O	O
+the	888,891	O	O
+pit	892,895	O	B-Material
+.	895,896	O	O
+
+More	897,901	O	O
+recently	902,910	O	O
+,	910,911	O	O
+Tang	912,916	O	O
+and	917,920	O	O
+Davenport	921,930	O	O
+[	931,932	O	O
+38	932,934	O	O
+]	934,935	O	O
+tracked	936,943	O	O
+the	944,947	O	O
+pit	948,951	O	B-Material
+boundary	952,960	O	O
+movement	961,969	O	O
+and	970,973	O	O
+computed	974,982	O	O
+the	983,986	O	O
+instantaneous	987,1000	O	O
+but	1001,1004	O	O
+average	1005,1012	O	O
+current	1013,1020	O	O
+density	1021,1028	O	O
+in	1029,1031	O	O
+Fe	1032,1034	O	B-Material
+-	1034,1035	O	I-Material
+Co	1035,1037	O	I-Material
+thin	1038,1042	O	I-Material
+films	1043,1048	O	I-Material
+.	1048,1049	O	O
+
+However	1050,1057	O	O
+,	1057,1058	O	O
+there	1059,1064	O	O
+have	1065,1069	O	O
+been	1070,1074	O	O
+no	1075,1077	O	O
+previous	1078,1086	O	O
+attempts	1087,1095	O	O
+to	1096,1098	O	O
+quantify	1099,1107	O	O
+the	1108,1111	O	O
+local	1112,1117	O	O
+current	1118,1125	O	O
+density	1126,1133	O	O
+during	1134,1140	O	O
+inhomogeneous	1141,1154	O	O
+growth	1155,1161	O	O
+of	1162,1164	O	O
+pits	1165,1169	O	B-Material
+,	1169,1170	O	O
+although	1171,1179	O	O
+such	1180,1184	O	O
+local	1185,1190	O	O
+variation	1191,1200	O	O
+in	1201,1203	O	O
+current	1204,1211	O	B-Process
+density	1212,1219	O	O
+has	1220,1223	O	O
+long	1224,1228	O	O
+been	1229,1233	O	O
+recognised	1234,1244	O	O
+[	1245,1246	O	O
+7	1246,1247	O	O
+]	1247,1248	O	O
+.	1248,1249	O	O
 
 
 -DOCSTART- (S0010938X15300512)
 
-Anodizing	0	9	B-Process
-processes	10	19	I-Process
-are	20	23	O
-widely	24	30	O
-used	31	35	O
-for	36	39	O
-protecting	40	50	B-Task
-aluminium	51	60	I-Task
-alloys	61	67	I-Task
-against	68	75	O
-corrosion	76	85	B-Process
-[	86	87	O
-1	87	88	O
-]	88	89	O
-.	89	90	O
-
-The	91	94	O
-resultant	95	104	B-Material
-films	105	110	I-Material
-are	111	114	O
-composed	115	123	O
-of	124	126	O
-amorphous	127	136	B-Material
-alumina	137	144	I-Material
-and	145	148	O
-consist	149	156	O
-of	157	159	O
-a	160	161	O
-relatively	162	172	O
-thick	173	178	O
-,	178	179	O
-porous	180	186	O
-,	186	187	O
-outer	188	193	O
-region	194	200	O
-and	201	204	O
-a	205	206	O
-thinner	207	214	O
-,	214	215	O
-non	216	219	O
--	219	220	O
-porous	220	226	O
-,	226	227	O
-inner	228	233	O
-region	234	240	O
-[	241	242	O
-2,3	242	245	O
-]	245	246	O
-.	246	247	O
-
-The	248	251	O
-porous	252	258	O
-region	259	265	O
-contains	266	274	O
-the	275	278	O
-major	279	284	B-Material
-pores	285	290	I-Material
-of	291	293	O
-the	294	297	O
-film	298	302	B-Material
-,	302	303	O
-which	304	309	O
-extend	310	316	B-Process
-from	317	321	I-Process
-the	322	325	I-Process
-film	326	330	I-Process
-surface	331	338	I-Process
-to	339	341	O
-the	342	345	O
-barrier	346	353	B-Material
-layer	354	359	I-Material
-.	359	360	O
-
-Near	361	365	O
-the	366	369	O
-film	370	374	B-Material
-surface	375	382	I-Material
-,	382	383	O
-shorter	384	391	O
-,	391	392	O
-incipient	393	402	B-Material
-pores	403	408	I-Material
-are	409	412	O
-also	413	417	O
-present	418	425	O
-,	425	426	O
-whose	427	432	O
-growth	433	439	B-Process
-stopped	440	447	I-Process
-in	448	450	I-Process
-the	451	454	I-Process
-early	455	460	I-Process
-stages	461	467	I-Process
-of	468	470	I-Process
-anodizing	471	480	I-Process
-.	480	481	O
-
-The	482	485	O
-diameter	486	494	O
-of	495	497	O
-the	498	501	O
-major	502	507	B-Material
-pores	508	513	I-Material
-and	514	517	O
-the	518	521	O
-thickness	522	531	O
-of	532	534	O
-the	535	538	O
-inner	539	544	O
-,	544	545	O
-barrier	546	553	O
-region	554	560	O
-are	561	564	O
-dependent	565	574	O
-on	575	577	O
-the	578	581	O
-potential	582	591	O
-applied	592	599	O
-during	600	606	O
-anodizing	607	616	B-Process
-,	616	617	O
-with	618	622	O
-typical	623	630	O
-proportionalities	631	648	O
-of	649	651	O
-∼1nmV−1	652	659	O
-[	660	661	O
-3,4	661	664	O
-]	664	665	O
-.	665	666	O
-
-Studies	667	674	O
-of	675	677	O
-ionic	678	683	B-Task
-migration	684	693	I-Task
-in	694	696	O
-barrier	697	704	O
--	704	705	O
-type	705	709	O
-and	710	713	O
-porous	714	720	O
-anodic	721	727	B-Material
-alumina	728	735	I-Material
-films	736	741	I-Material
-have	742	746	O
-usually	747	754	O
-found	755	760	O
-a	761	762	O
-transport	763	772	O
-number	773	779	O
-of	780	782	O
-O2−	783	786	B-Material
-ions	787	791	I-Material
-of	792	794	O
-∼0.6	795	799	O
-[	800	801	O
-5,6	801	804	O
-]	804	805	O
-.	805	806	O
-
-During	807	813	O
-the	814	817	O
-formation	818	827	O
-of	828	830	O
-porous	831	837	B-Material
-films	838	843	I-Material
-,	843	844	O
-the	845	848	O
-outward	849	856	B-Material
-migrating	857	866	I-Material
-Al3	867	870	I-Material
-+	870	871	I-Material
-ions	872	876	I-Material
-,	876	877	O
-constituting	878	890	O
-the	891	894	O
-remainder	895	904	O
-of	905	907	O
-the	908	911	O
-ionic	912	917	B-Material
-current	918	925	I-Material
-,	925	926	O
-are	927	930	O
-ejected	931	938	B-Process
-to	939	941	O
-the	942	945	O
-electrolyte	946	957	B-Material
-at	958	960	O
-the	961	964	O
-pore	965	969	B-Material
-bases	970	975	I-Material
-[	976	977	O
-7	977	978	O
-]	978	979	O
-.	979	980	O
-
-The	981	984	O
-electronic	985	995	O
-current	996	1003	O
-in	1004	1006	O
-the	1007	1010	O
-barrier	1011	1018	O
-region	1019	1025	O
-is	1026	1028	O
-generally	1029	1038	O
-considered	1039	1049	O
-to	1050	1052	O
-be	1053	1055	O
-negligible	1056	1066	O
-.	1066	1067	O
-
-The	1068	1071	O
-thickness	1072	1081	O
-of	1082	1084	O
-the	1085	1088	O
-barrier	1089	1096	B-Material
-region	1097	1103	I-Material
-,	1103	1104	O
-which	1105	1110	O
-is	1111	1113	O
-relatively	1114	1124	O
-constant	1125	1133	O
-during	1134	1140	O
-the	1141	1144	O
-growth	1145	1151	O
-of	1152	1154	O
-a	1155	1156	O
-film	1157	1161	B-Material
-under	1162	1167	O
-either	1168	1174	O
-a	1175	1176	O
-constant	1177	1185	O
-potential	1186	1195	O
-or	1196	1198	O
-constant	1199	1207	O
-current	1208	1215	O
-density	1216	1223	O
-,	1223	1224	O
-is	1225	1227	O
-maintained	1228	1238	O
-by	1239	1241	O
-a	1242	1243	O
-balance	1244	1251	O
-between	1252	1259	O
-growth	1260	1266	B-Process
-of	1267	1269	I-Process
-the	1270	1273	I-Process
-barrier	1274	1281	I-Process
-layer	1282	1287	I-Process
-by	1288	1290	I-Process
-continued	1291	1300	I-Process
-oxidation	1301	1310	I-Process
-of	1311	1313	O
-the	1314	1317	O
-aluminium	1318	1327	B-Material
-substrate	1328	1337	I-Material
-and	1338	1341	O
-thinning	1342	1350	B-Process
-of	1351	1353	I-Process
-the	1354	1357	I-Process
-barrier	1358	1365	I-Process
-layer	1366	1371	I-Process
-by	1372	1374	I-Process
-either	1375	1381	I-Process
-field	1382	1387	I-Process
--	1387	1388	I-Process
-assisted	1388	1396	I-Process
-dissolution	1397	1408	I-Process
-of	1409	1411	O
-the	1412	1415	O
-alumina	1416	1423	B-Material
-at	1424	1426	O
-the	1427	1430	O
-pore	1431	1435	B-Material
-bases	1436	1441	I-Material
-[	1442	1443	O
-8	1443	1444	O
-]	1444	1445	O
-or	1446	1448	O
-field	1449	1454	B-Process
--	1454	1455	I-Process
-assisted	1455	1463	I-Process
-flow	1464	1468	I-Process
-of	1469	1471	I-Process
-alumina	1472	1479	I-Process
-from	1480	1484	O
-the	1485	1488	O
-barrier	1489	1496	B-Material
-layer	1497	1502	I-Material
-to	1503	1505	O
-the	1506	1509	O
-pore	1510	1514	B-Material
-walls	1515	1520	I-Material
-[	1521	1522	O
-9–13	1522	1526	O
-]	1526	1527	O
-.	1527	1528	O
-
-The	1529	1532	O
-pores	1533	1538	B-Material
-may	1539	1542	O
-be	1543	1545	O
-widened	1546	1553	O
-toward	1554	1560	O
-the	1561	1564	O
-film	1565	1569	B-Material
-surface	1570	1577	I-Material
-by	1578	1580	O
-chemical	1581	1589	B-Process
-dissolution	1590	1601	I-Process
-to	1602	1604	O
-an	1605	1607	O
-extent	1608	1614	O
-dependent	1615	1624	O
-on	1625	1627	O
-the	1628	1631	O
-anodizing	1632	1641	O
-conditions	1642	1652	O
-.	1652	1653	O
+Anodizing	0,9	O	B-Process
+processes	10,19	O	I-Process
+are	20,23	O	O
+widely	24,30	O	O
+used	31,35	O	O
+for	36,39	O	O
+protecting	40,50	O	B-Task
+aluminium	51,60	O	I-Task
+alloys	61,67	O	I-Task
+against	68,75	O	O
+corrosion	76,85	O	B-Process
+[	86,87	O	O
+1	87,88	O	O
+]	88,89	O	O
+.	89,90	O	O
+
+The	91,94	O	O
+resultant	95,104	O	B-Material
+films	105,110	O	I-Material
+are	111,114	O	O
+composed	115,123	O	O
+of	124,126	O	O
+amorphous	127,136	O	B-Material
+alumina	137,144	O	I-Material
+and	145,148	O	O
+consist	149,156	O	O
+of	157,159	O	O
+a	160,161	O	O
+relatively	162,172	O	O
+thick	173,178	O	O
+,	178,179	O	O
+porous	180,186	O	O
+,	186,187	O	O
+outer	188,193	O	O
+region	194,200	O	O
+and	201,204	O	O
+a	205,206	O	O
+thinner	207,214	O	O
+,	214,215	O	O
+non	216,219	O	O
+-	219,220	O	O
+porous	220,226	O	O
+,	226,227	O	O
+inner	228,233	O	O
+region	234,240	O	O
+[	241,242	O	O
+2,3	242,245	O	O
+]	245,246	O	O
+.	246,247	O	O
+
+The	248,251	O	O
+porous	252,258	O	O
+region	259,265	O	O
+contains	266,274	O	O
+the	275,278	O	O
+major	279,284	O	B-Material
+pores	285,290	O	I-Material
+of	291,293	O	O
+the	294,297	O	O
+film	298,302	O	B-Material
+,	302,303	O	O
+which	304,309	O	O
+extend	310,316	O	B-Process
+from	317,321	O	I-Process
+the	322,325	O	I-Process
+film	326,330	O	I-Process
+surface	331,338	O	I-Process
+to	339,341	O	O
+the	342,345	O	O
+barrier	346,353	O	B-Material
+layer	354,359	O	I-Material
+.	359,360	O	O
+
+Near	361,365	O	O
+the	366,369	O	O
+film	370,374	O	B-Material
+surface	375,382	O	I-Material
+,	382,383	O	O
+shorter	384,391	O	O
+,	391,392	O	O
+incipient	393,402	O	B-Material
+pores	403,408	O	I-Material
+are	409,412	O	O
+also	413,417	O	O
+present	418,425	O	O
+,	425,426	O	O
+whose	427,432	O	O
+growth	433,439	O	B-Process
+stopped	440,447	O	I-Process
+in	448,450	O	I-Process
+the	451,454	O	I-Process
+early	455,460	O	I-Process
+stages	461,467	O	I-Process
+of	468,470	O	I-Process
+anodizing	471,480	O	I-Process
+.	480,481	O	O
+
+The	482,485	O	O
+diameter	486,494	O	O
+of	495,497	O	O
+the	498,501	O	O
+major	502,507	O	B-Material
+pores	508,513	O	I-Material
+and	514,517	O	O
+the	518,521	O	O
+thickness	522,531	O	O
+of	532,534	O	O
+the	535,538	O	O
+inner	539,544	O	O
+,	544,545	O	O
+barrier	546,553	O	O
+region	554,560	O	O
+are	561,564	O	O
+dependent	565,574	O	O
+on	575,577	O	O
+the	578,581	O	O
+potential	582,591	O	O
+applied	592,599	O	O
+during	600,606	O	O
+anodizing	607,616	O	B-Process
+,	616,617	O	O
+with	618,622	O	O
+typical	623,630	O	O
+proportionalities	631,648	O	O
+of	649,651	O	O
+∼1nmV−1	652,659	O	O
+[	660,661	O	O
+3,4	661,664	O	O
+]	664,665	O	O
+.	665,666	O	O
+
+Studies	667,674	O	O
+of	675,677	O	O
+ionic	678,683	O	B-Task
+migration	684,693	O	I-Task
+in	694,696	O	O
+barrier	697,704	O	O
+-	704,705	O	O
+type	705,709	O	O
+and	710,713	O	O
+porous	714,720	O	O
+anodic	721,727	O	B-Material
+alumina	728,735	O	I-Material
+films	736,741	O	I-Material
+have	742,746	O	O
+usually	747,754	O	O
+found	755,760	O	O
+a	761,762	O	O
+transport	763,772	O	O
+number	773,779	O	O
+of	780,782	O	O
+O2−	783,786	O	B-Material
+ions	787,791	O	I-Material
+of	792,794	O	O
+∼0.6	795,799	O	O
+[	800,801	O	O
+5,6	801,804	O	O
+]	804,805	O	O
+.	805,806	O	O
+
+During	807,813	O	O
+the	814,817	O	O
+formation	818,827	O	O
+of	828,830	O	O
+porous	831,837	O	B-Material
+films	838,843	O	I-Material
+,	843,844	O	O
+the	845,848	O	O
+outward	849,856	O	B-Material
+migrating	857,866	O	I-Material
+Al3	867,870	O	I-Material
++	870,871	O	I-Material
+ions	872,876	O	I-Material
+,	876,877	O	O
+constituting	878,890	O	O
+the	891,894	O	O
+remainder	895,904	O	O
+of	905,907	O	O
+the	908,911	O	O
+ionic	912,917	O	B-Material
+current	918,925	O	I-Material
+,	925,926	O	O
+are	927,930	O	O
+ejected	931,938	O	B-Process
+to	939,941	O	O
+the	942,945	O	O
+electrolyte	946,957	O	B-Material
+at	958,960	O	O
+the	961,964	O	O
+pore	965,969	O	B-Material
+bases	970,975	O	I-Material
+[	976,977	O	O
+7	977,978	O	O
+]	978,979	O	O
+.	979,980	O	O
+
+The	981,984	O	O
+electronic	985,995	O	O
+current	996,1003	O	O
+in	1004,1006	O	O
+the	1007,1010	O	O
+barrier	1011,1018	O	O
+region	1019,1025	O	O
+is	1026,1028	O	O
+generally	1029,1038	O	O
+considered	1039,1049	O	O
+to	1050,1052	O	O
+be	1053,1055	O	O
+negligible	1056,1066	O	O
+.	1066,1067	O	O
+
+The	1068,1071	O	O
+thickness	1072,1081	O	O
+of	1082,1084	O	O
+the	1085,1088	O	O
+barrier	1089,1096	O	B-Material
+region	1097,1103	O	I-Material
+,	1103,1104	O	O
+which	1105,1110	O	O
+is	1111,1113	O	O
+relatively	1114,1124	O	O
+constant	1125,1133	O	O
+during	1134,1140	O	O
+the	1141,1144	O	O
+growth	1145,1151	O	O
+of	1152,1154	O	O
+a	1155,1156	O	O
+film	1157,1161	O	B-Material
+under	1162,1167	O	O
+either	1168,1174	O	O
+a	1175,1176	O	O
+constant	1177,1185	O	O
+potential	1186,1195	O	O
+or	1196,1198	O	O
+constant	1199,1207	O	O
+current	1208,1215	O	O
+density	1216,1223	O	O
+,	1223,1224	O	O
+is	1225,1227	O	O
+maintained	1228,1238	O	O
+by	1239,1241	O	O
+a	1242,1243	O	O
+balance	1244,1251	O	O
+between	1252,1259	O	O
+growth	1260,1266	O	B-Process
+of	1267,1269	O	I-Process
+the	1270,1273	O	I-Process
+barrier	1274,1281	O	I-Process
+layer	1282,1287	O	I-Process
+by	1288,1290	O	I-Process
+continued	1291,1300	O	I-Process
+oxidation	1301,1310	O	I-Process
+of	1311,1313	O	O
+the	1314,1317	O	O
+aluminium	1318,1327	O	B-Material
+substrate	1328,1337	O	I-Material
+and	1338,1341	O	O
+thinning	1342,1350	O	B-Process
+of	1351,1353	O	I-Process
+the	1354,1357	O	I-Process
+barrier	1358,1365	O	I-Process
+layer	1366,1371	O	I-Process
+by	1372,1374	O	I-Process
+either	1375,1381	O	I-Process
+field	1382,1387	O	I-Process
+-	1387,1388	O	I-Process
+assisted	1388,1396	O	I-Process
+dissolution	1397,1408	O	I-Process
+of	1409,1411	O	O
+the	1412,1415	O	O
+alumina	1416,1423	O	B-Material
+at	1424,1426	O	O
+the	1427,1430	O	O
+pore	1431,1435	O	B-Material
+bases	1436,1441	O	I-Material
+[	1442,1443	O	O
+8	1443,1444	O	O
+]	1444,1445	O	O
+or	1446,1448	O	O
+field	1449,1454	O	B-Process
+-	1454,1455	O	I-Process
+assisted	1455,1463	O	I-Process
+flow	1464,1468	O	I-Process
+of	1469,1471	O	I-Process
+alumina	1472,1479	O	I-Process
+from	1480,1484	O	O
+the	1485,1488	O	O
+barrier	1489,1496	O	B-Material
+layer	1497,1502	O	I-Material
+to	1503,1505	O	O
+the	1506,1509	O	O
+pore	1510,1514	O	B-Material
+walls	1515,1520	O	I-Material
+[	1521,1522	O	O
+9–13	1522,1526	O	O
+]	1526,1527	O	O
+.	1527,1528	O	O
+
+The	1529,1532	O	O
+pores	1533,1538	O	B-Material
+may	1539,1542	O	O
+be	1543,1545	O	O
+widened	1546,1553	O	O
+toward	1554,1560	O	O
+the	1561,1564	O	O
+film	1565,1569	O	B-Material
+surface	1570,1577	O	I-Material
+by	1578,1580	O	O
+chemical	1581,1589	O	B-Process
+dissolution	1590,1601	O	I-Process
+to	1602,1604	O	O
+an	1605,1607	O	O
+extent	1608,1614	O	O
+dependent	1615,1624	O	O
+on	1625,1627	O	O
+the	1628,1631	O	O
+anodizing	1632,1641	O	O
+conditions	1642,1652	O	O
+.	1652,1653	O	O
 
 
 -DOCSTART- (S0010938X15301189)
 
-Failure	0	7	B-Process
-of	8	10	I-Process
-structural	11	21	I-Process
-components	22	32	I-Process
-is	33	35	O
-a	36	37	O
-major	38	43	O
-concern	44	51	O
-in	52	54	O
-the	55	58	O
-nuclear	59	66	O
-power	67	72	O
-industry	73	81	O
-and	82	85	O
-represents	86	96	O
-not	97	100	O
-only	101	105	O
-a	106	107	O
-safety	108	114	O
-issue	115	120	O
-,	120	121	O
-but	122	125	O
-also	126	130	O
-a	131	132	O
-hazard	133	139	O
-to	140	142	O
-economic	143	151	O
-performance	152	163	O
-.	163	164	O
-
-Stress	165	171	B-Process
-corrosion	172	181	I-Process
-cracking	182	190	I-Process
-(	191	192	O
-SCC	192	195	B-Process
-)	195	196	O
-,	196	197	O
-and	198	201	O
-especially	202	212	O
-intergranular	213	226	B-Process
-stress	227	233	I-Process
-corrosion	234	243	I-Process
-cracking	244	252	I-Process
-(	253	254	O
-IGSCC	254	259	B-Process
-)	259	260	O
-,	260	261	O
-have	262	266	O
-proved	267	273	O
-to	274	276	O
-be	277	279	O
-a	280	281	O
-significant	282	293	O
-potential	294	303	O
-cause	304	309	O
-of	310	312	O
-failures	313	321	O
-in	322	324	O
-the	325	328	O
-nuclear	329	336	O
-industry	337	345	O
-in	346	348	O
-materials	349	358	O
-such	359	363	O
-as	364	366	O
-Alloy	367	372	B-Material
-600	373	376	I-Material
-(	377	378	O
-74	378	380	B-Material
-%	380	381	I-Material
-Ni	382	384	I-Material
-,	384	385	I-Material
-16	386	388	I-Material
-%	388	389	I-Material
-Cr	390	392	I-Material
-and	393	396	I-Material
-8	397	398	I-Material
-%	398	399	I-Material
-Fe	400	402	I-Material
-)	402	403	O
-and	404	407	O
-stainless	408	417	B-Material
-steels	418	424	I-Material
-,	424	425	O
-especially	426	436	O
-in	437	439	O
-Pressurised	440	451	B-Material
-Water	452	457	I-Material
-Reactors	458	466	I-Material
-(	467	468	O
-PWR	468	471	B-Material
-)	471	472	O
-[	473	474	O
-1–5	474	477	O
-]	477	478	O
-.	478	479	O
-
-Stress	480	486	B-Process
-corrosion	487	496	I-Process
-cracking	497	505	I-Process
-in	506	508	O
-pressurized	509	520	B-Material
-water	521	526	I-Material
-reactors	527	535	I-Material
-(	536	537	O
-PWSCC	537	542	B-Material
-)	542	543	O
-occurs	544	550	O
-in	551	553	O
-Alloy	554	559	B-Material
-600	560	563	I-Material
-in	564	566	O
-safety	567	573	B-Material
-critical	574	582	I-Material
-components	583	593	I-Material
-,	593	594	O
-such	595	599	O
-as	600	602	O
-steam	603	608	B-Material
-generator	609	618	I-Material
-tubes	619	624	I-Material
-,	624	625	O
-heater	626	632	B-Material
-sleeves	633	640	I-Material
-,	640	641	O
-pressurized	642	653	B-Material
-instrument	654	664	I-Material
-penetrations	665	677	I-Material
-and	678	681	O
-control	682	689	B-Material
-rod	690	693	I-Material
-drive	694	699	I-Material
-mechanisms	700	710	I-Material
-[	711	712	O
-2,6,7	712	717	O
-]	717	718	O
-.	718	719	O
-
-Understanding	720	733	O
-the	734	737	O
-mechanisms	738	748	O
-that	749	753	O
-control	754	761	O
-SCC	762	765	B-Material
-in	766	768	O
-this	769	773	O
-alloy	774	779	B-Material
-will	780	784	O
-allow	785	790	O
-for	791	794	O
-continued	795	804	O
-extensions	805	815	O
-of	816	818	O
-life	819	823	O
-in	824	826	O
-current	827	834	O
-plant	835	840	B-Material
-as	841	843	O
-well	844	848	O
-as	849	851	O
-safer	852	857	B-Task
-designs	858	865	I-Task
-of	866	868	I-Task
-future	869	875	I-Task
-nuclear	876	883	I-Task
-reactors	884	892	I-Task
-.	892	893	O
+Failure	0,7	O	B-Process
+of	8,10	O	I-Process
+structural	11,21	O	I-Process
+components	22,32	O	I-Process
+is	33,35	O	O
+a	36,37	O	O
+major	38,43	O	O
+concern	44,51	O	O
+in	52,54	O	O
+the	55,58	O	O
+nuclear	59,66	O	O
+power	67,72	O	O
+industry	73,81	O	O
+and	82,85	O	O
+represents	86,96	O	O
+not	97,100	O	O
+only	101,105	O	O
+a	106,107	O	O
+safety	108,114	O	O
+issue	115,120	O	O
+,	120,121	O	O
+but	122,125	O	O
+also	126,130	O	O
+a	131,132	O	O
+hazard	133,139	O	O
+to	140,142	O	O
+economic	143,151	O	O
+performance	152,163	O	O
+.	163,164	O	O
+
+Stress	165,171	O	B-Process
+corrosion	172,181	O	I-Process
+cracking	182,190	O	I-Process
+(	191,192	O	O
+SCC	192,195	O	B-Process
+)	195,196	O	O
+,	196,197	O	O
+and	198,201	O	O
+especially	202,212	O	O
+intergranular	213,226	O	B-Process
+stress	227,233	O	I-Process
+corrosion	234,243	O	I-Process
+cracking	244,252	O	I-Process
+(	253,254	O	O
+IGSCC	254,259	O	B-Process
+)	259,260	O	O
+,	260,261	O	O
+have	262,266	O	O
+proved	267,273	O	O
+to	274,276	O	O
+be	277,279	O	O
+a	280,281	O	O
+significant	282,293	O	O
+potential	294,303	O	O
+cause	304,309	O	O
+of	310,312	O	O
+failures	313,321	O	O
+in	322,324	O	O
+the	325,328	O	O
+nuclear	329,336	O	O
+industry	337,345	O	O
+in	346,348	O	O
+materials	349,358	O	O
+such	359,363	O	O
+as	364,366	O	O
+Alloy	367,372	O	B-Material
+600	373,376	O	I-Material
+(	377,378	O	O
+74	378,380	O	B-Material
+%	380,381	O	I-Material
+Ni	382,384	O	I-Material
+,	384,385	O	I-Material
+16	386,388	O	I-Material
+%	388,389	O	I-Material
+Cr	390,392	O	I-Material
+and	393,396	O	I-Material
+8	397,398	O	I-Material
+%	398,399	O	I-Material
+Fe	400,402	O	I-Material
+)	402,403	O	O
+and	404,407	O	O
+stainless	408,417	O	B-Material
+steels	418,424	O	I-Material
+,	424,425	O	O
+especially	426,436	O	O
+in	437,439	O	O
+Pressurised	440,451	O	B-Material
+Water	452,457	O	I-Material
+Reactors	458,466	O	I-Material
+(	467,468	O	O
+PWR	468,471	O	B-Material
+)	471,472	O	O
+[	473,474	O	O
+1–5	474,477	O	O
+]	477,478	O	O
+.	478,479	O	O
+
+Stress	480,486	O	B-Process
+corrosion	487,496	O	I-Process
+cracking	497,505	O	I-Process
+in	506,508	O	O
+pressurized	509,520	O	B-Material
+water	521,526	O	I-Material
+reactors	527,535	O	I-Material
+(	536,537	O	O
+PWSCC	537,542	O	B-Material
+)	542,543	O	O
+occurs	544,550	O	O
+in	551,553	O	O
+Alloy	554,559	O	B-Material
+600	560,563	O	I-Material
+in	564,566	O	O
+safety	567,573	O	B-Material
+critical	574,582	O	I-Material
+components	583,593	O	I-Material
+,	593,594	O	O
+such	595,599	O	O
+as	600,602	O	O
+steam	603,608	O	B-Material
+generator	609,618	O	I-Material
+tubes	619,624	O	I-Material
+,	624,625	O	O
+heater	626,632	O	B-Material
+sleeves	633,640	O	I-Material
+,	640,641	O	O
+pressurized	642,653	O	B-Material
+instrument	654,664	O	I-Material
+penetrations	665,677	O	I-Material
+and	678,681	O	O
+control	682,689	O	B-Material
+rod	690,693	O	I-Material
+drive	694,699	O	I-Material
+mechanisms	700,710	O	I-Material
+[	711,712	O	O
+2,6,7	712,717	O	O
+]	717,718	O	O
+.	718,719	O	O
+
+Understanding	720,733	O	O
+the	734,737	O	O
+mechanisms	738,748	O	O
+that	749,753	O	O
+control	754,761	O	O
+SCC	762,765	O	B-Material
+in	766,768	O	O
+this	769,773	O	O
+alloy	774,779	O	B-Material
+will	780,784	O	O
+allow	785,790	O	O
+for	791,794	O	O
+continued	795,804	O	O
+extensions	805,815	O	O
+of	816,818	O	O
+life	819,823	O	O
+in	824,826	O	O
+current	827,834	O	O
+plant	835,840	O	B-Material
+as	841,843	O	O
+well	844,848	O	O
+as	849,851	O	O
+safer	852,857	O	B-Task
+designs	858,865	O	I-Task
+of	866,868	O	I-Task
+future	869,875	O	I-Task
+nuclear	876,883	O	I-Task
+reactors	884,892	O	I-Task
+.	892,893	O	O
 
 
 -DOCSTART- (S0010938X1530161X)
 
-A	0	1	O
-key	2	5	O
-part	6	10	O
-of	11	13	O
-this	14	18	O
-problem	19	26	O
-is	27	29	O
-that	30	34	O
-an	35	37	O
-inspector	38	47	O
-only	48	52	O
-has	53	56	O
-access	57	63	O
-to	64	66	O
-data	67	71	O
-from	72	76	O
-a	77	78	O
-small	79	84	O
-inspected	85	94	O
-area	95	99	O
-.	99	100	O
-
-In	101	103	O
-this	104	108	O
-area	109	113	O
-,	113	114	O
-there	115	120	O
-is	121	123	O
-only	124	128	O
-one	129	132	O
-minimum	133	140	O
-thickness	141	150	O
-,	150	151	O
-which	152	157	O
-does	158	162	O
-not	163	166	O
-provide	167	174	O
-enough	175	181	O
-information	182	193	O
-to	194	196	O
-build	197	202	B-Task
-a	203	204	I-Task
-model	205	210	I-Task
-of	211	213	I-Task
-the	214	217	I-Task
-smallest	218	226	I-Task
-thicknesses	227	238	I-Task
-.	238	239	O
-
-An	240	242	O
-inspector	243	252	O
-can	253	256	O
-generate	257	265	O
-a	266	267	O
-sample	268	274	B-Material
-of	275	277	O
-the	278	281	O
-smallest	282	290	O
-thickness	291	300	O
-measurements	301	313	O
-by	314	316	O
-partitioning	317	329	B-Process
-the	330	333	I-Process
-inspection	334	344	I-Process
-data	345	349	I-Process
-into	350	354	O
-a	355	356	O
-number	357	363	O
-of	364	366	O
-equally	367	374	B-Material
-sized	375	380	I-Material
-blocks	381	387	I-Material
-.	387	388	O
-
-In	389	391	O
-each	392	396	O
-block	397	402	B-Material
-the	403	406	O
-minimum	407	414	O
-thickness	415	424	O
-is	425	427	O
-recorded	428	436	O
-.	436	437	O
-
-This	438	442	O
-set	443	446	O
-forms	447	452	O
-a	453	454	O
-sample	455	461	B-Material
-of	462	464	O
-the	465	468	O
-smallest	469	477	O
-thickness	478	487	O
-measurements	488	500	O
-.	500	501	O
-
-From	502	506	O
-this	507	511	O
-sample	512	518	O
-,	518	519	O
-one	520	523	O
-can	524	527	O
-build	528	533	O
-a	534	535	O
-model	536	541	B-Process
-which	542	547	I-Process
-takes	548	553	I-Process
-into	554	558	I-Process
-account	559	566	I-Process
-the	567	570	I-Process
-variations	571	581	I-Process
-of	582	584	I-Process
-the	585	588	I-Process
-smallest	589	597	I-Process
-thickness	598	607	I-Process
-measurements	608	620	I-Process
-.	620	621	O
-
-Extreme	622	629	B-Process
-value	630	635	I-Process
-analysis	636	644	I-Process
-(	645	646	O
-EVA	646	649	B-Process
-)	649	650	O
-provides	651	659	O
-a	660	661	O
-limiting	662	670	O
-form	671	675	O
-for	676	679	O
-this	680	684	O
-model	685	690	O
-.	690	691	O
-
-It	692	694	O
-states	695	701	O
-that	702	706	O
-,	706	707	O
-if	708	710	O
-the	711	714	O
-underlying	715	725	O
-thickness	726	735	O
-measurements	736	748	O
-in	749	751	O
-each	752	756	O
-block	757	762	O
-are	763	766	O
-taken	767	772	O
-from	773	777	O
-independent	778	789	O
-and	790	793	O
-identical	794	803	O
-distributions	804	817	O
-,	817	818	O
-then	819	823	O
-the	824	827	O
-sample	828	834	O
-of	835	837	O
-minimum	838	845	O
-thickness	846	855	O
-measurements	856	868	O
-will	869	873	O
-follow	874	880	O
-a	881	882	O
-generalized	883	894	B-Process
-extreme	895	902	I-Process
-value	903	908	I-Process
-distribution	909	921	I-Process
-(	922	923	O
-GEVD	923	927	B-Process
-)	927	928	O
-.	928	929	O
+A	0,1	O	O
+key	2,5	O	O
+part	6,10	O	O
+of	11,13	O	O
+this	14,18	O	O
+problem	19,26	O	O
+is	27,29	O	O
+that	30,34	O	O
+an	35,37	O	O
+inspector	38,47	O	O
+only	48,52	O	O
+has	53,56	O	O
+access	57,63	O	O
+to	64,66	O	O
+data	67,71	O	O
+from	72,76	O	O
+a	77,78	O	O
+small	79,84	O	O
+inspected	85,94	O	O
+area	95,99	O	O
+.	99,100	O	O
+
+In	101,103	O	O
+this	104,108	O	O
+area	109,113	O	O
+,	113,114	O	O
+there	115,120	O	O
+is	121,123	O	O
+only	124,128	O	O
+one	129,132	O	O
+minimum	133,140	O	O
+thickness	141,150	O	O
+,	150,151	O	O
+which	152,157	O	O
+does	158,162	O	O
+not	163,166	O	O
+provide	167,174	O	O
+enough	175,181	O	O
+information	182,193	O	O
+to	194,196	O	O
+build	197,202	O	B-Task
+a	203,204	O	I-Task
+model	205,210	O	I-Task
+of	211,213	O	I-Task
+the	214,217	O	I-Task
+smallest	218,226	O	I-Task
+thicknesses	227,238	O	I-Task
+.	238,239	O	O
+
+An	240,242	O	O
+inspector	243,252	O	O
+can	253,256	O	O
+generate	257,265	O	O
+a	266,267	O	O
+sample	268,274	O	B-Material
+of	275,277	O	O
+the	278,281	O	O
+smallest	282,290	O	O
+thickness	291,300	O	O
+measurements	301,313	O	O
+by	314,316	O	O
+partitioning	317,329	O	B-Process
+the	330,333	O	I-Process
+inspection	334,344	O	I-Process
+data	345,349	O	I-Process
+into	350,354	O	O
+a	355,356	O	O
+number	357,363	O	O
+of	364,366	O	O
+equally	367,374	O	B-Material
+sized	375,380	O	I-Material
+blocks	381,387	O	I-Material
+.	387,388	O	O
+
+In	389,391	O	O
+each	392,396	O	O
+block	397,402	O	B-Material
+the	403,406	O	O
+minimum	407,414	O	O
+thickness	415,424	O	O
+is	425,427	O	O
+recorded	428,436	O	O
+.	436,437	O	O
+
+This	438,442	O	O
+set	443,446	O	O
+forms	447,452	O	O
+a	453,454	O	O
+sample	455,461	O	B-Material
+of	462,464	O	O
+the	465,468	O	O
+smallest	469,477	O	O
+thickness	478,487	O	O
+measurements	488,500	O	O
+.	500,501	O	O
+
+From	502,506	O	O
+this	507,511	O	O
+sample	512,518	O	O
+,	518,519	O	O
+one	520,523	O	O
+can	524,527	O	O
+build	528,533	O	O
+a	534,535	O	O
+model	536,541	O	B-Process
+which	542,547	O	I-Process
+takes	548,553	O	I-Process
+into	554,558	O	I-Process
+account	559,566	O	I-Process
+the	567,570	O	I-Process
+variations	571,581	O	I-Process
+of	582,584	O	I-Process
+the	585,588	O	I-Process
+smallest	589,597	O	I-Process
+thickness	598,607	O	I-Process
+measurements	608,620	O	I-Process
+.	620,621	O	O
+
+Extreme	622,629	O	B-Process
+value	630,635	O	I-Process
+analysis	636,644	O	I-Process
+(	645,646	O	O
+EVA	646,649	O	B-Process
+)	649,650	O	O
+provides	651,659	O	O
+a	660,661	O	O
+limiting	662,670	O	O
+form	671,675	O	O
+for	676,679	O	O
+this	680,684	O	O
+model	685,690	O	O
+.	690,691	O	O
+
+It	692,694	O	O
+states	695,701	O	O
+that	702,706	O	O
+,	706,707	O	O
+if	708,710	O	O
+the	711,714	O	O
+underlying	715,725	O	O
+thickness	726,735	O	O
+measurements	736,748	O	O
+in	749,751	O	O
+each	752,756	O	O
+block	757,762	O	O
+are	763,766	O	O
+taken	767,772	O	O
+from	773,777	O	O
+independent	778,789	O	O
+and	790,793	O	O
+identical	794,803	O	O
+distributions	804,817	O	O
+,	817,818	O	O
+then	819,823	O	O
+the	824,827	O	O
+sample	828,834	O	O
+of	835,837	O	O
+minimum	838,845	O	O
+thickness	846,855	O	O
+measurements	856,868	O	O
+will	869,873	O	O
+follow	874,880	O	O
+a	881,882	O	O
+generalized	883,894	O	B-Process
+extreme	895,902	O	I-Process
+value	903,908	O	I-Process
+distribution	909,921	O	I-Process
+(	922,923	O	O
+GEVD	923,927	O	B-Process
+)	927,928	O	O
+.	928,929	O	O
 
 
 -DOCSTART- (S0021961413004321)
 
-The	0	3	O
-thermodynamics	4	18	B-Task
-of	19	21	I-Task
-copper	22	28	I-Task
--	28	29	I-Task
-zinc	29	33	I-Task
-alloys	34	40	I-Task
-(	41	42	I-Task
-brass	42	47	I-Task
-)	47	48	I-Task
-was	49	52	O
-subject	53	60	O
-of	61	63	O
-numerous	64	72	O
-investigations	73	87	O
-.	87	88	O
-
-Brass	89	94	B-Material
-is	95	97	O
-characterised	98	111	O
-by	112	114	O
-an	115	117	O
-excess	118	124	B-Process
-enthalpy	125	133	I-Process
-and	134	137	I-Process
-excess	138	144	I-Process
-entropy	145	152	I-Process
-of	153	155	I-Process
-mixing	156	162	I-Process
-,	162	163	O
-both	164	168	O
-of	169	171	O
-which	172	177	O
-are	178	181	O
-negative	182	190	O
-.	190	191	O
-
-The	192	195	O
-enthalpic	196	205	B-Material
-data	206	210	I-Material
-were	211	215	O
-measured	216	224	O
-by	225	227	O
-solution	228	236	B-Process
-calorimetry	237	248	I-Process
-e.g.	249	253	O
-,	253	254	O
-[	255	256	O
-1–3	256	259	O
-]	259	260	O
-and	261	264	O
-based	265	270	O
-on	271	273	O
-chemical	274	282	B-Material
-potential	283	292	I-Material
-data	293	297	I-Material
-calculated	298	308	O
-from	309	313	O
-phase	314	319	B-Process
-equilibrium	320	331	I-Process
-experiments	332	343	I-Process
-e.g.	344	348	O
-,	348	349	O
-[	350	351	O
-4–6	351	354	O
-]	354	355	O
-,	355	356	O
-the	357	360	O
-excess	361	367	B-Task
-entropy	368	375	I-Task
-of	376	378	I-Task
-mixing	379	385	I-Task
-could	386	391	O
-be	392	394	O
-evaluated	395	404	O
-e.g.	405	409	O
-,	409	410	O
-[	411	412	O
-7–9	412	415	O
-]	415	416	O
-.	416	417	O
-
-This	418	422	O
-excess	423	429	O
-entropy	430	437	O
-contains	438	446	O
-both	447	451	O
-,	451	452	O
-the	453	456	O
-vibrational	457	468	B-Task
-and	469	472	I-Task
-the	473	476	I-Task
-configurational	477	492	I-Task
-parts	493	498	I-Task
-.	498	499	O
-
-The	500	503	O
-excess	504	510	O
-vibrational	511	522	O
-entropy	523	530	O
-,	530	531	O
-defined	532	539	O
-as	540	542	O
-the	543	546	O
-deviation	547	556	O
-from	557	561	O
-the	562	565	O
-entropy	566	573	O
-of	574	576	O
-a	577	578	O
-mechanical	579	589	O
-mixture	590	597	O
-of	598	600	O
-the	601	604	O
-end	605	608	O
-members	609	616	O
-A	617	618	O
-and	619	622	O
-B	623	624	O
-(	625	626	O
-i.e.	626	630	O
-,	630	631	O
-Smmechmix	632	641	O
-=	641	642	O
-
-XASmA+XBSmB	642	653	O
-
-)	653	654	O
-,	654	655	O
-can	656	659	O
-be	660	662	O
-determined	663	673	O
-by	674	676	O
-measuring	677	686	B-Process
-the	687	690	I-Process
-low	691	694	I-Process
-temperature	695	706	I-Process
-heat	707	711	I-Process
-capacity	712	720	I-Process
-(	721	722	I-Process
-5	722	723	I-Process
-to	724	726	I-Process
-300	727	730	I-Process
-K	730	731	I-Process
-)	731	732	I-Process
-versus	733	739	I-Process
-composition	740	751	I-Process
-behaviour	752	761	I-Process
-.	761	762	O
-
-The	763	766	O
-determination	767	780	O
-of	781	783	O
-the	784	787	O
-excess	788	794	B-Task
-configurational	795	810	I-Task
-entropy	811	818	I-Task
-,	818	819	O
-i.e.	820	824	O
-,	824	825	O
-the	826	829	O
-excess	830	836	O
-entropy	837	844	O
-coming	845	851	O
-from	852	856	O
-non	857	860	O
--	860	861	O
-random	861	867	O
-atomic	868	874	O
-distributions	875	888	O
-and	889	892	O
-defects	893	900	O
-,	900	901	O
-is	902	904	O
-much	905	909	O
-more	910	914	O
-difficult	915	924	O
-.	924	925	O
-
-Here	926	930	O
-,	930	931	O
-neutron	932	939	B-Process
-scattering	940	950	I-Process
-investigations	951	965	I-Process
-together	966	974	O
-with	975	979	O
-computer	980	988	B-Process
-simulations	989	1000	I-Process
-are	1001	1004	O
-normally	1005	1013	O
-used	1014	1018	O
-.	1018	1019	O
-
-If	1020	1022	O
-,	1022	1023	O
-however	1024	1031	O
-,	1031	1032	O
-reliable	1033	1041	B-Material
-data	1042	1046	I-Material
-of	1047	1049	I-Material
-the	1050	1053	I-Material
-total	1054	1059	I-Material
-excess	1060	1066	I-Material
-entropy	1067	1074	I-Material
-(	1075	1076	O
-from	1076	1080	O
-enthalpic	1081	1090	B-Material
-and	1091	1094	I-Material
-chemical	1095	1103	I-Material
-potential	1104	1113	I-Material
-data	1114	1118	I-Material
-)	1118	1119	O
-are	1120	1123	O
-available	1124	1133	O
-,	1133	1134	O
-the	1135	1138	O
-measurement	1139	1150	B-Process
-of	1151	1153	I-Process
-the	1154	1157	I-Process
-excess	1158	1164	I-Process
-vibrational	1165	1176	I-Process
-entropy	1177	1184	I-Process
-enables	1185	1192	O
-the	1193	1196	O
-determination	1197	1210	B-Process
-of	1211	1213	I-Process
-the	1214	1217	I-Process
-excess	1218	1224	I-Process
-configurational	1225	1240	I-Process
-entropy	1241	1248	I-Process
-simply	1249	1255	O
-by	1256	1258	O
-subtraction	1259	1270	B-Process
-.	1270	1271	O
-
-Since	1272	1277	O
-configurational	1278	1293	O
-and	1294	1297	O
-vibrational	1298	1309	O
-entropies	1310	1319	O
-may	1320	1323	O
-have	1324	1328	O
-different	1329	1338	O
-temperature	1339	1350	O
-dependencies	1351	1363	O
-,	1363	1364	O
-it	1365	1367	O
-is	1368	1370	O
-worthwhile	1371	1381	O
-to	1382	1384	O
-separate	1385	1393	B-Task
-the	1394	1397	I-Task
-entropic	1398	1406	I-Task
-effects	1407	1414	I-Task
-.	1414	1415	O
-
-This	1416	1420	O
-is	1421	1423	O
-one	1424	1427	O
-aim	1428	1431	O
-of	1432	1434	O
-this	1435	1439	O
-study	1440	1445	O
-.	1445	1446	O
-
-Another	1447	1454	O
-aim	1455	1458	O
-is	1459	1461	O
-to	1462	1464	O
-deliver	1465	1472	B-Task
-experimental	1473	1485	I-Task
-data	1486	1490	I-Task
-so	1491	1493	O
-that	1494	1498	O
-first	1499	1504	O
-principles	1505	1515	O
-studies	1516	1523	O
-can	1524	1527	O
-test	1528	1532	O
-their	1533	1538	O
-models	1539	1545	O
-on	1546	1548	O
-a	1549	1550	O
-disordered	1551	1561	B-Material
-alloy	1562	1567	I-Material
-,	1567	1568	O
-whose	1569	1574	O
-structural	1575	1585	O
-details	1586	1593	O
-(	1594	1595	O
-short	1595	1600	O
--	1600	1601	O
-range	1601	1606	O
-order	1607	1612	O
-)	1612	1613	O
-depend	1614	1620	O
-on	1621	1623	O
-temperature	1624	1635	O
-.	1635	1636	O
+The	0,3	O	O
+thermodynamics	4,18	O	B-Task
+of	19,21	O	I-Task
+copper	22,28	O	I-Task
+-	28,29	O	I-Task
+zinc	29,33	O	I-Task
+alloys	34,40	O	I-Task
+(	41,42	O	I-Task
+brass	42,47	O	I-Task
+)	47,48	O	I-Task
+was	49,52	O	O
+subject	53,60	O	O
+of	61,63	O	O
+numerous	64,72	O	O
+investigations	73,87	O	O
+.	87,88	O	O
+
+Brass	89,94	O	B-Material
+is	95,97	O	O
+characterised	98,111	O	O
+by	112,114	O	O
+an	115,117	O	O
+excess	118,124	O	B-Process
+enthalpy	125,133	O	I-Process
+and	134,137	O	I-Process
+excess	138,144	O	I-Process
+entropy	145,152	O	I-Process
+of	153,155	O	I-Process
+mixing	156,162	O	I-Process
+,	162,163	O	O
+both	164,168	O	O
+of	169,171	O	O
+which	172,177	O	O
+are	178,181	O	O
+negative	182,190	O	O
+.	190,191	O	O
+
+The	192,195	O	O
+enthalpic	196,205	O	B-Material
+data	206,210	O	I-Material
+were	211,215	O	O
+measured	216,224	O	O
+by	225,227	O	O
+solution	228,236	O	B-Process
+calorimetry	237,248	O	I-Process
+e.g.	249,253	O	O
+,	253,254	O	O
+[	255,256	O	O
+1–3	256,259	O	O
+]	259,260	O	O
+and	261,264	O	O
+based	265,270	O	O
+on	271,273	O	O
+chemical	274,282	O	B-Material
+potential	283,292	O	I-Material
+data	293,297	O	I-Material
+calculated	298,308	O	O
+from	309,313	O	O
+phase	314,319	O	B-Process
+equilibrium	320,331	O	I-Process
+experiments	332,343	O	I-Process
+e.g.	344,348	O	O
+,	348,349	O	O
+[	350,351	O	O
+4–6	351,354	O	O
+]	354,355	O	O
+,	355,356	O	O
+the	357,360	O	O
+excess	361,367	O	B-Task
+entropy	368,375	O	I-Task
+of	376,378	O	I-Task
+mixing	379,385	O	I-Task
+could	386,391	O	O
+be	392,394	O	O
+evaluated	395,404	O	O
+e.g.	405,409	O	O
+,	409,410	O	O
+[	411,412	O	O
+7–9	412,415	O	O
+]	415,416	O	O
+.	416,417	O	O
+
+This	418,422	O	O
+excess	423,429	O	O
+entropy	430,437	O	O
+contains	438,446	O	O
+both	447,451	O	O
+,	451,452	O	O
+the	453,456	O	O
+vibrational	457,468	O	B-Task
+and	469,472	O	I-Task
+the	473,476	O	I-Task
+configurational	477,492	O	I-Task
+parts	493,498	O	I-Task
+.	498,499	O	O
+
+The	500,503	O	O
+excess	504,510	O	O
+vibrational	511,522	O	O
+entropy	523,530	O	O
+,	530,531	O	O
+defined	532,539	O	O
+as	540,542	O	O
+the	543,546	O	O
+deviation	547,556	O	O
+from	557,561	O	O
+the	562,565	O	O
+entropy	566,573	O	O
+of	574,576	O	O
+a	577,578	O	O
+mechanical	579,589	O	O
+mixture	590,597	O	O
+of	598,600	O	O
+the	601,604	O	O
+end	605,608	O	O
+members	609,616	O	O
+A	617,618	O	O
+and	619,622	O	O
+B	623,624	O	O
+(	625,626	O	O
+i.e.	626,630	O	O
+,	630,631	O	O
+Smmechmix	632,641	O	O
+=	641,642	O	O
+
+XASmA+XBSmB	642,653	O	O
+
+)	653,654	O	O
+,	654,655	O	O
+can	656,659	O	O
+be	660,662	O	O
+determined	663,673	O	O
+by	674,676	O	O
+measuring	677,686	O	B-Process
+the	687,690	O	I-Process
+low	691,694	O	I-Process
+temperature	695,706	O	I-Process
+heat	707,711	O	I-Process
+capacity	712,720	O	I-Process
+(	721,722	O	I-Process
+5	722,723	O	I-Process
+to	724,726	O	I-Process
+300	727,730	O	I-Process
+K	730,731	O	I-Process
+)	731,732	O	I-Process
+versus	733,739	O	I-Process
+composition	740,751	O	I-Process
+behaviour	752,761	O	I-Process
+.	761,762	O	O
+
+The	763,766	O	O
+determination	767,780	O	O
+of	781,783	O	O
+the	784,787	O	O
+excess	788,794	O	B-Task
+configurational	795,810	O	I-Task
+entropy	811,818	O	I-Task
+,	818,819	O	O
+i.e.	820,824	O	O
+,	824,825	O	O
+the	826,829	O	O
+excess	830,836	O	O
+entropy	837,844	O	O
+coming	845,851	O	O
+from	852,856	O	O
+non	857,860	O	O
+-	860,861	O	O
+random	861,867	O	O
+atomic	868,874	O	O
+distributions	875,888	O	O
+and	889,892	O	O
+defects	893,900	O	O
+,	900,901	O	O
+is	902,904	O	O
+much	905,909	O	O
+more	910,914	O	O
+difficult	915,924	O	O
+.	924,925	O	O
+
+Here	926,930	O	O
+,	930,931	O	O
+neutron	932,939	O	B-Process
+scattering	940,950	O	I-Process
+investigations	951,965	O	I-Process
+together	966,974	O	O
+with	975,979	O	O
+computer	980,988	O	B-Process
+simulations	989,1000	O	I-Process
+are	1001,1004	O	O
+normally	1005,1013	O	O
+used	1014,1018	O	O
+.	1018,1019	O	O
+
+If	1020,1022	O	O
+,	1022,1023	O	O
+however	1024,1031	O	O
+,	1031,1032	O	O
+reliable	1033,1041	O	B-Material
+data	1042,1046	O	I-Material
+of	1047,1049	O	I-Material
+the	1050,1053	O	I-Material
+total	1054,1059	O	I-Material
+excess	1060,1066	O	I-Material
+entropy	1067,1074	O	I-Material
+(	1075,1076	O	O
+from	1076,1080	O	O
+enthalpic	1081,1090	O	B-Material
+and	1091,1094	O	I-Material
+chemical	1095,1103	O	I-Material
+potential	1104,1113	O	I-Material
+data	1114,1118	O	I-Material
+)	1118,1119	O	O
+are	1120,1123	O	O
+available	1124,1133	O	O
+,	1133,1134	O	O
+the	1135,1138	O	O
+measurement	1139,1150	O	B-Process
+of	1151,1153	O	I-Process
+the	1154,1157	O	I-Process
+excess	1158,1164	O	I-Process
+vibrational	1165,1176	O	I-Process
+entropy	1177,1184	O	I-Process
+enables	1185,1192	O	O
+the	1193,1196	O	O
+determination	1197,1210	O	B-Process
+of	1211,1213	O	I-Process
+the	1214,1217	O	I-Process
+excess	1218,1224	O	I-Process
+configurational	1225,1240	O	I-Process
+entropy	1241,1248	O	I-Process
+simply	1249,1255	O	O
+by	1256,1258	O	O
+subtraction	1259,1270	O	B-Process
+.	1270,1271	O	O
+
+Since	1272,1277	O	O
+configurational	1278,1293	O	O
+and	1294,1297	O	O
+vibrational	1298,1309	O	O
+entropies	1310,1319	O	O
+may	1320,1323	O	O
+have	1324,1328	O	O
+different	1329,1338	O	O
+temperature	1339,1350	O	O
+dependencies	1351,1363	O	O
+,	1363,1364	O	O
+it	1365,1367	O	O
+is	1368,1370	O	O
+worthwhile	1371,1381	O	O
+to	1382,1384	O	O
+separate	1385,1393	O	B-Task
+the	1394,1397	O	I-Task
+entropic	1398,1406	O	I-Task
+effects	1407,1414	O	I-Task
+.	1414,1415	O	O
+
+This	1416,1420	O	O
+is	1421,1423	O	O
+one	1424,1427	O	O
+aim	1428,1431	O	O
+of	1432,1434	O	O
+this	1435,1439	O	O
+study	1440,1445	O	O
+.	1445,1446	O	O
+
+Another	1447,1454	O	O
+aim	1455,1458	O	O
+is	1459,1461	O	O
+to	1462,1464	O	O
+deliver	1465,1472	O	B-Task
+experimental	1473,1485	O	I-Task
+data	1486,1490	O	I-Task
+so	1491,1493	O	O
+that	1494,1498	O	O
+first	1499,1504	O	O
+principles	1505,1515	O	O
+studies	1516,1523	O	O
+can	1524,1527	O	O
+test	1528,1532	O	O
+their	1533,1538	O	O
+models	1539,1545	O	O
+on	1546,1548	O	O
+a	1549,1550	O	O
+disordered	1551,1561	O	B-Material
+alloy	1562,1567	O	I-Material
+,	1567,1568	O	O
+whose	1569,1574	O	O
+structural	1575,1585	O	O
+details	1586,1593	O	O
+(	1594,1595	O	O
+short	1595,1600	O	O
+-	1600,1601	O	O
+range	1601,1606	O	O
+order	1607,1612	O	O
+)	1612,1613	O	O
+depend	1614,1620	O	O
+on	1621,1623	O	O
+temperature	1624,1635	O	O
+.	1635,1636	O	O
 
 
 -DOCSTART- (S0021999113002362)
 
-The	0	3	O
-algorithm	4	13	O
-allows	14	20	O
-the	21	24	O
-modelling	25	34	B-Task
-of	35	37	I-Task
-plasmas	38	45	I-Task
-of	46	48	I-Task
-arbitrary	49	58	I-Task
-degeneracy	59	69	I-Task
-under	70	75	O
-the	76	79	O
-binary	80	86	B-Process
-collision	87	96	I-Process
-approximation	97	110	I-Process
-.	110	111	O
-
-It	112	114	O
-uses	115	119	O
-a	120	121	O
-numerical	122	131	B-Process
-interpolation	132	145	I-Process
-of	146	148	O
-the	149	152	O
-inverse	153	160	O
-cumulative	161	171	O
-density	172	179	O
-function	180	188	O
-of	189	191	O
-the	192	195	O
-Fermi	196	201	B-Process
-–	201	202	I-Process
-Dirac	202	207	I-Process
-distribution	208	220	I-Process
-to	221	223	O
-initialise	224	234	O
-simulation	235	245	B-Material
-particles	246	255	I-Material
-,	255	256	O
-and	257	260	O
-collisions	261	271	B-Process
-are	272	275	O
-subject	276	283	O
-to	284	286	O
-Pauli	287	292	B-Process
-blocking	293	301	I-Process
-.	301	302	O
-
-It	303	305	O
-is	306	308	O
-not	309	312	O
-appropriate	313	324	O
-in	325	327	O
-the	328	331	O
-limit	332	337	O
-of	338	340	O
-very	341	345	O
-strong	346	352	O
-coupling	353	361	B-Process
-because	362	369	O
-the	370	373	O
-plasma	374	380	B-Task
-theory	381	387	I-Task
-which	388	393	O
-the	394	397	O
-Monte	398	403	B-Process
-Carlo	404	409	I-Process
-code	410	414	I-Process
-is	415	417	O
-based	418	423	O
-on	424	426	O
-breaks	427	433	O
-down	434	438	O
-.	438	439	O
-
-The	440	443	O
-strong	444	450	B-Task
-coupling	451	459	I-Task
-limit	460	465	I-Task
-corresponds	466	477	O
-to	478	480	O
-lnΛ≲3	481	486	O
-,	486	487	O
-with	488	492	O
-lnΛ	493	496	O
-the	497	500	O
-Coulomb	501	508	B-Process
-logarithm	509	518	I-Process
-[	519	520	O
-10	520	522	O
-]	522	523	O
-.	523	524	O
-
-The	525	528	O
-code	529	533	O
-is	534	536	O
-designed	537	545	O
-for	546	549	O
-lnΛ>3	550	555	O
-in	556	558	O
-collisional	559	570	B-Material
-plasmas	571	578	I-Material
-with	579	583	O
-a	584	585	O
-non	586	589	O
--	589	590	O
-negligible	590	600	O
-level	601	606	O
-of	607	609	O
-degeneracy	610	620	O
-.	620	621	O
-
-It	622	624	O
-is	625	627	O
-noted	628	633	O
-that	634	638	O
-Monte	639	644	B-Process
-Carlo	645	650	I-Process
-techniques	651	661	I-Process
-with	662	666	O
-degenerate	667	677	O
-capabilities	678	690	O
-have	691	695	O
-been	696	700	O
-developed	701	710	O
-for	711	714	O
-studying	715	723	O
-transport	724	733	B-Task
-in	734	736	I-Task
-semi	737	741	I-Task
--	741	742	I-Task
-conductors	742	752	I-Task
-[	753	754	O
-11	754	756	O
-]	756	757	O
-but	758	761	O
-no	762	764	O
-such	765	769	O
-method	770	776	O
-exists	777	783	O
-for	784	787	O
-fully	788	793	B-Material
--	793	794	I-Material
-ionised	794	801	I-Material
-plasmas	802	809	I-Material
-.	809	810	O
-
-Some	811	815	O
-of	816	818	O
-the	819	822	O
-techniques	823	833	O
-described	834	843	O
-are	844	847	O
-potentially	848	859	O
-applicable	860	870	O
-to	871	873	O
-other	874	879	O
-types	880	885	O
-of	886	888	O
-codes	889	894	O
-,	894	895	O
-for	896	899	O
-example	900	907	O
-,	907	908	O
-Particle	909	917	O
--	917	918	O
-In	918	920	O
--	920	921	O
-Cell	921	925	O
-(	926	927	O
-PIC	927	930	O
-)	930	931	O
-codes	932	937	O
-.	937	938	O
+The	0,3	O	O
+algorithm	4,13	O	O
+allows	14,20	O	O
+the	21,24	O	O
+modelling	25,34	O	B-Task
+of	35,37	O	I-Task
+plasmas	38,45	O	I-Task
+of	46,48	O	I-Task
+arbitrary	49,58	O	I-Task
+degeneracy	59,69	O	I-Task
+under	70,75	O	O
+the	76,79	O	O
+binary	80,86	O	B-Process
+collision	87,96	O	I-Process
+approximation	97,110	O	I-Process
+.	110,111	O	O
+
+It	112,114	O	O
+uses	115,119	O	O
+a	120,121	O	O
+numerical	122,131	O	B-Process
+interpolation	132,145	O	I-Process
+of	146,148	O	O
+the	149,152	O	O
+inverse	153,160	O	O
+cumulative	161,171	O	O
+density	172,179	O	O
+function	180,188	O	O
+of	189,191	O	O
+the	192,195	O	O
+Fermi	196,201	O	B-Process
+–	201,202	O	I-Process
+Dirac	202,207	O	I-Process
+distribution	208,220	O	I-Process
+to	221,223	O	O
+initialise	224,234	O	O
+simulation	235,245	O	B-Material
+particles	246,255	O	I-Material
+,	255,256	O	O
+and	257,260	O	O
+collisions	261,271	O	B-Process
+are	272,275	O	O
+subject	276,283	O	O
+to	284,286	O	O
+Pauli	287,292	O	B-Process
+blocking	293,301	O	I-Process
+.	301,302	O	O
+
+It	303,305	O	O
+is	306,308	O	O
+not	309,312	O	O
+appropriate	313,324	O	O
+in	325,327	O	O
+the	328,331	O	O
+limit	332,337	O	O
+of	338,340	O	O
+very	341,345	O	O
+strong	346,352	O	O
+coupling	353,361	O	B-Process
+because	362,369	O	O
+the	370,373	O	O
+plasma	374,380	O	B-Task
+theory	381,387	O	I-Task
+which	388,393	O	O
+the	394,397	O	O
+Monte	398,403	O	B-Process
+Carlo	404,409	O	I-Process
+code	410,414	O	I-Process
+is	415,417	O	O
+based	418,423	O	O
+on	424,426	O	O
+breaks	427,433	O	O
+down	434,438	O	O
+.	438,439	O	O
+
+The	440,443	O	O
+strong	444,450	O	B-Task
+coupling	451,459	O	I-Task
+limit	460,465	O	I-Task
+corresponds	466,477	O	O
+to	478,480	O	O
+lnΛ≲3	481,486	O	O
+,	486,487	O	O
+with	488,492	O	O
+lnΛ	493,496	O	O
+the	497,500	O	O
+Coulomb	501,508	O	B-Process
+logarithm	509,518	O	I-Process
+[	519,520	O	O
+10	520,522	O	O
+]	522,523	O	O
+.	523,524	O	O
+
+The	525,528	O	O
+code	529,533	O	O
+is	534,536	O	O
+designed	537,545	O	O
+for	546,549	O	O
+lnΛ>3	550,555	O	O
+in	556,558	O	O
+collisional	559,570	O	B-Material
+plasmas	571,578	O	I-Material
+with	579,583	O	O
+a	584,585	O	O
+non	586,589	O	O
+-	589,590	O	O
+negligible	590,600	O	O
+level	601,606	O	O
+of	607,609	O	O
+degeneracy	610,620	O	O
+.	620,621	O	O
+
+It	622,624	O	O
+is	625,627	O	O
+noted	628,633	O	O
+that	634,638	O	O
+Monte	639,644	O	B-Process
+Carlo	645,650	O	I-Process
+techniques	651,661	O	I-Process
+with	662,666	O	O
+degenerate	667,677	O	O
+capabilities	678,690	O	O
+have	691,695	O	O
+been	696,700	O	O
+developed	701,710	O	O
+for	711,714	O	O
+studying	715,723	O	O
+transport	724,733	O	B-Task
+in	734,736	O	I-Task
+semi	737,741	O	I-Task
+-	741,742	O	I-Task
+conductors	742,752	O	I-Task
+[	753,754	O	O
+11	754,756	O	O
+]	756,757	O	O
+but	758,761	O	O
+no	762,764	O	O
+such	765,769	O	O
+method	770,776	O	O
+exists	777,783	O	O
+for	784,787	O	O
+fully	788,793	O	B-Material
+-	793,794	O	I-Material
+ionised	794,801	O	I-Material
+plasmas	802,809	O	I-Material
+.	809,810	O	O
+
+Some	811,815	O	O
+of	816,818	O	O
+the	819,822	O	O
+techniques	823,833	O	O
+described	834,843	O	O
+are	844,847	O	O
+potentially	848,859	O	O
+applicable	860,870	O	O
+to	871,873	O	O
+other	874,879	O	O
+types	880,885	O	O
+of	886,888	O	O
+codes	889,894	O	O
+,	894,895	O	O
+for	896,899	O	O
+example	900,907	O	O
+,	907,908	O	O
+Particle	909,917	O	O
+-	917,918	O	O
+In	918,920	O	O
+-	920,921	O	O
+Cell	921,925	O	O
+(	926,927	O	O
+PIC	927,930	O	O
+)	930,931	O	O
+codes	932,937	O	O
+.	937,938	O	O
 
 
 -DOCSTART- (S0021999113003422)
 
-Similar	0	7	O
-numerical	8	17	B-Process
-oscillations	18	30	I-Process
-to	31	33	O
-those	34	39	O
-described	40	49	O
-above	50	55	O
-also	56	60	O
-emerge	61	67	O
-in	68	70	O
-the	71	74	O
-ISPM	75	79	B-Process
-when	80	84	O
-utilising	85	94	O
-classical	95	104	B-Process
-IBM	105	108	I-Process
-kernels	109	116	I-Process
-due	117	120	O
-to	121	123	O
-their	124	129	O
-lack	130	134	O
-of	135	137	O
-regularity	138	148	O
-(	149	150	O
-with	150	154	O
-discontinuous	155	168	O
-second	169	175	O
-derivatives	176	187	O
-)	187	188	O
-.	188	189	O
-
-Furthermore	190	201	O
-,	201	202	O
-it	203	205	O
-is	206	208	O
-important	209	218	O
-to	219	221	O
-remark	222	228	O
-that	229	233	O
-the	234	237	O
-immersed	238	246	O
-structure	247	256	O
-stresses	257	265	O
-are	266	269	O
-captured	270	278	O
-in	279	281	O
-the	282	285	O
-Lagrangian	286	296	B-Process
-description	297	308	I-Process
-and	309	312	O
-hence	313	318	O
-,	318	319	O
-in	320	322	O
-order	323	328	O
-to	329	331	O
-compute	332	339	O
-them	340	344	O
-accurately	345	355	O
-,	355	356	O
-it	357	359	O
-is	360	362	O
-important	363	372	O
-to	373	375	O
-ensure	376	382	O
-that	383	387	O
-these	388	393	O
-spurious	394	402	O
-oscillations	403	415	B-Material
-are	416	419	O
-not	420	423	O
-introduced	424	434	O
-via	435	438	O
-the	439	442	O
-kernel	443	449	B-Process
-interpolation	450	463	I-Process
-functions	464	473	I-Process
-.	473	474	O
-
-In	475	477	O
-this	478	482	O
-paper	483	488	O
-,	488	489	O
-the	490	493	O
-authors	494	501	O
-have	502	506	O
-specifically	507	519	O
-designed	520	528	O
-a	529	530	O
-new	531	534	B-Task
-family	535	541	I-Task
-of	542	544	I-Task
-kernel	545	551	I-Task
-functions	552	561	I-Task
-which	562	567	O
-do	568	570	B-Task
-not	571	574	I-Task
-introduce	575	584	I-Task
-these	585	590	I-Task
-spurious	591	599	I-Task
-oscillations	600	612	I-Task
-.	612	613	O
-
-The	614	617	O
-kernel	618	624	B-Process
-functions	625	634	I-Process
-are	635	638	O
-obtained	639	647	O
-by	648	650	O
-taking	651	657	O
-into	658	662	O
-account	663	670	O
-discrete	671	679	O
-reproducibility	680	695	O
-conditions	696	706	O
-as	707	709	O
-originally	710	720	O
-introduced	721	731	O
-by	732	734	O
-Peskin	735	741	O
-[	742	743	O
-14	743	745	O
-]	745	746	O
-(	747	748	O
-in	748	750	O
-our	751	754	O
-case	755	759	O
-,	759	760	O
-tailor	761	767	O
--	767	768	O
-made	768	772	O
-for	773	776	O
-Cartesian	777	786	B-Process
-staggered	787	796	I-Process
-grids	797	802	I-Process
-)	802	803	O
-and	804	807	O
-regularity	808	818	O
-requirements	819	831	O
-to	832	834	O
-prevent	835	842	O
-the	843	846	O
-appearance	847	857	O
-of	858	860	O
-spurious	861	869	O
-oscillations	870	882	B-Material
-when	883	887	O
-computing	888	897	O
-derivatives	898	909	O
-.	909	910	O
-
-A	911	912	O
-Maple	913	918	B-Material
-computer	919	927	I-Material
-program	928	935	I-Material
-has	936	939	O
-been	940	944	O
-developed	945	954	O
-to	955	957	O
-obtain	958	964	B-Task
-explicit	965	973	I-Task
-expressions	974	985	I-Task
-for	986	989	I-Task
-the	990	993	I-Task
-new	994	997	I-Task
-kernels	998	1005	I-Task
-.	1005	1006	O
+Similar	0,7	O	O
+numerical	8,17	O	B-Process
+oscillations	18,30	O	I-Process
+to	31,33	O	O
+those	34,39	O	O
+described	40,49	O	O
+above	50,55	O	O
+also	56,60	O	O
+emerge	61,67	O	O
+in	68,70	O	O
+the	71,74	O	O
+ISPM	75,79	O	B-Process
+when	80,84	O	O
+utilising	85,94	O	O
+classical	95,104	O	B-Process
+IBM	105,108	O	I-Process
+kernels	109,116	O	I-Process
+due	117,120	O	O
+to	121,123	O	O
+their	124,129	O	O
+lack	130,134	O	O
+of	135,137	O	O
+regularity	138,148	O	O
+(	149,150	O	O
+with	150,154	O	O
+discontinuous	155,168	O	O
+second	169,175	O	O
+derivatives	176,187	O	O
+)	187,188	O	O
+.	188,189	O	O
+
+Furthermore	190,201	O	O
+,	201,202	O	O
+it	203,205	O	O
+is	206,208	O	O
+important	209,218	O	O
+to	219,221	O	O
+remark	222,228	O	O
+that	229,233	O	O
+the	234,237	O	O
+immersed	238,246	O	O
+structure	247,256	O	O
+stresses	257,265	O	O
+are	266,269	O	O
+captured	270,278	O	O
+in	279,281	O	O
+the	282,285	O	O
+Lagrangian	286,296	O	B-Process
+description	297,308	O	I-Process
+and	309,312	O	O
+hence	313,318	O	O
+,	318,319	O	O
+in	320,322	O	O
+order	323,328	O	O
+to	329,331	O	O
+compute	332,339	O	O
+them	340,344	O	O
+accurately	345,355	O	O
+,	355,356	O	O
+it	357,359	O	O
+is	360,362	O	O
+important	363,372	O	O
+to	373,375	O	O
+ensure	376,382	O	O
+that	383,387	O	O
+these	388,393	O	O
+spurious	394,402	O	O
+oscillations	403,415	O	B-Material
+are	416,419	O	O
+not	420,423	O	O
+introduced	424,434	O	O
+via	435,438	O	O
+the	439,442	O	O
+kernel	443,449	O	B-Process
+interpolation	450,463	O	I-Process
+functions	464,473	O	I-Process
+.	473,474	O	O
+
+In	475,477	O	O
+this	478,482	O	O
+paper	483,488	O	O
+,	488,489	O	O
+the	490,493	O	O
+authors	494,501	O	O
+have	502,506	O	O
+specifically	507,519	O	O
+designed	520,528	O	O
+a	529,530	O	O
+new	531,534	O	B-Task
+family	535,541	O	I-Task
+of	542,544	O	I-Task
+kernel	545,551	O	I-Task
+functions	552,561	O	I-Task
+which	562,567	O	O
+do	568,570	O	B-Task
+not	571,574	O	I-Task
+introduce	575,584	O	I-Task
+these	585,590	O	I-Task
+spurious	591,599	O	I-Task
+oscillations	600,612	O	I-Task
+.	612,613	O	O
+
+The	614,617	O	O
+kernel	618,624	O	B-Process
+functions	625,634	O	I-Process
+are	635,638	O	O
+obtained	639,647	O	O
+by	648,650	O	O
+taking	651,657	O	O
+into	658,662	O	O
+account	663,670	O	O
+discrete	671,679	O	O
+reproducibility	680,695	O	O
+conditions	696,706	O	O
+as	707,709	O	O
+originally	710,720	O	O
+introduced	721,731	O	O
+by	732,734	O	O
+Peskin	735,741	O	O
+[	742,743	O	O
+14	743,745	O	O
+]	745,746	O	O
+(	747,748	O	O
+in	748,750	O	O
+our	751,754	O	O
+case	755,759	O	O
+,	759,760	O	O
+tailor	761,767	O	O
+-	767,768	O	O
+made	768,772	O	O
+for	773,776	O	O
+Cartesian	777,786	O	B-Process
+staggered	787,796	O	I-Process
+grids	797,802	O	I-Process
+)	802,803	O	O
+and	804,807	O	O
+regularity	808,818	O	O
+requirements	819,831	O	O
+to	832,834	O	O
+prevent	835,842	O	O
+the	843,846	O	O
+appearance	847,857	O	O
+of	858,860	O	O
+spurious	861,869	O	O
+oscillations	870,882	O	B-Material
+when	883,887	O	O
+computing	888,897	O	O
+derivatives	898,909	O	O
+.	909,910	O	O
+
+A	911,912	O	O
+Maple	913,918	O	B-Material
+computer	919,927	O	I-Material
+program	928,935	O	I-Material
+has	936,939	O	O
+been	940,944	O	O
+developed	945,954	O	O
+to	955,957	O	O
+obtain	958,964	O	B-Task
+explicit	965,973	O	I-Task
+expressions	974,985	O	I-Task
+for	986,989	O	I-Task
+the	990,993	O	I-Task
+new	994,997	O	I-Task
+kernels	998,1005	O	I-Task
+.	1005,1006	O	O
 
 
 -DOCSTART- (S0021999113005603)
 
-After	0	5	O
-all	6	9	O
-micro	10	15	O
-elements	16	24	O
-reach	25	30	O
-a	31	32	O
-relaxed	33	40	O
-steady	41	47	O
--	47	48	O
-state	48	53	O
-,	53	54	O
-measurements	55	67	O
-are	68	71	O
-obtained	72	80	O
-using	81	86	O
-a	87	88	O
-cumulative	89	99	B-Process
-averaging	100	109	I-Process
-technique	110	119	I-Process
-to	120	122	O
-reduce	123	129	B-Task
-noise	130	135	I-Task
-.	135	136	O
-
-Each	137	141	O
-micro	142	147	B-Material
-element	148	155	I-Material
-is	156	158	O
-divided	159	166	O
-into	167	171	O
-spatially	172	181	B-Material
--	181	182	I-Material
-oriented	182	190	I-Material
-bins	191	195	I-Material
-in	196	198	O
-the	199	202	O
-y	203	204	O
--	204	205	O
-direction	205	214	O
-in	215	217	O
-order	218	223	O
-to	224	226	O
-resolve	227	234	B-Task
-the	235	238	I-Task
-velocity	239	247	I-Task
-and	248	251	I-Task
-shear	252	257	I-Task
--	257	258	I-Task
-stress	258	264	I-Task
-profiles	265	273	I-Task
-.	273	274	O
-
-Velocity	275	283	O
-in	284	286	O
-each	287	291	O
-bin	292	295	B-Material
-is	296	298	O
-measured	299	307	O
-using	308	313	O
-the	314	317	O
-Cumulative	318	328	B-Process
-Averaging	329	338	I-Process
-Method	339	345	I-Process
-(	346	347	O
-CAM	347	350	B-Process
-)	350	351	O
-[	352	353	O
-24	353	355	O
-]	355	356	O
-,	356	357	O
-while	358	363	O
-the	364	367	O
-stress	368	374	B-Process
-tensor	375	381	I-Process
-field	382	387	I-Process
-is	388	390	O
-measured	391	399	O
-using	400	405	O
-the	406	409	O
-Irving	410	416	O
-–	416	417	O
-
-Kirkwood	417	425	O
-relationship	426	438	O
-[	439	440	O
-25	440	442	O
-]	442	443	O
-.	443	444	O
-
-A	445	446	O
-least	447	452	B-Process
--	452	453	I-Process
-squares	453	460	I-Process
-polynomial	461	471	I-Process
-fit	472	475	I-Process
-to	476	478	O
-the	479	482	O
-data	483	487	O
-is	488	490	O
-performed	491	500	O
-,	500	501	O
-which	502	507	O
-helps	508	513	O
-reduce	514	520	B-Process
-noise	521	526	I-Process
-further	527	534	O
-.	534	535	O
-
-The	536	539	O
-fit	540	543	O
-produces	544	552	O
-a	553	554	O
-continuous	555	565	B-Process
-function	566	574	I-Process
-that	575	579	O
-avoids	580	586	B-Process
-stability	587	596	I-Process
-issues	597	603	I-Process
-arising	604	611	O
-from	612	616	O
-supplying	617	626	O
-highly	627	633	B-Material
-fluctuating	634	645	I-Material
-data	646	650	I-Material
-to	651	653	O
-the	654	657	O
-macro	658	663	B-Material
-solver	664	670	I-Material
-.	670	671	O
-
-A	672	673	O
-least	674	679	B-Process
--	679	680	I-Process
-squares	680	687	I-Process
-fit	688	691	I-Process
-is	692	694	O
-applied	695	702	O
-to	703	705	O
-an	706	708	O
-Nth	709	712	B-Material
-order	713	718	I-Material
-polynomial	719	729	I-Material
-for	730	733	O
-the	734	737	O
-velocity	738	746	O
-profile	747	754	O
-in	755	757	O
-the	758	761	O
-core	762	766	B-Material
-region	767	773	I-Material
-,	773	774	O
-and	775	778	O
-an	779	781	O
-Mth	782	785	B-Material
-order	786	791	I-Material
-polynomial	792	802	I-Material
-for	803	806	O
-the	807	810	O
-velocity	811	819	O
-profile	820	827	O
-in	828	830	O
-the	831	834	O
-constrained	835	846	O
-region:(16)〈ui	847	861	O
-,	861	862	O
-core〉=∑k=1Nbk	862	875	O
-,	875	876	O
-iyi′(N−k),for	876	889	O
-0⩽yi′⩽hcore	890	901	O
-,	901	902	O
-and(17)〈ui	903	913	O
-,	913	914	O
-cs〉=∑k=1Mck	914	925	O
-,	925	926	O
-
-iyi″(M−k),for	926	939	O
-
-0⩽yi″⩽hcs	940	949	O
-,	949	950	O
-where	951	956	O
-bk	957	959	O
-,	959	960	O
-i	960	961	O
-and	962	965	O
-ck	966	968	O
-,	968	969	O
-i	969	970	O
-are	971	974	O
-the	975	978	O
-coefficients	979	991	B-Material
-of	992	994	O
-the	995	998	O
-polynomials	999	1010	B-Material
-used	1011	1015	O
-in	1016	1018	O
-the	1019	1022	O
-core	1023	1027	B-Material
-micro	1028	1033	I-Material
-region	1034	1040	I-Material
-and	1041	1044	O
-constrained	1045	1056	B-Material
-region	1057	1063	I-Material
-respectively	1064	1076	O
-.	1076	1077	O
-
-An	1078	1080	O
-estimate	1081	1089	O
-of	1090	1092	O
-the	1093	1096	O
-new	1097	1100	O
-slip	1101	1105	O
-velocity	1106	1114	O
-uB	1115	1117	O
-for	1118	1121	O
-input	1122	1127	O
-to	1128	1130	O
-the	1131	1134	O
-macro	1135	1140	B-Material
-solution	1141	1149	I-Material
-(	1150	1151	O
-6	1151	1152	O
-)	1152	1153	O
-is	1154	1156	O
-taken	1157	1162	O
-directly	1163	1171	O
-from	1172	1176	O
-the	1177	1180	O
-compressed	1181	1191	B-Material
-wall	1192	1196	I-Material
-micro	1197	1202	I-Material
--	1202	1203	I-Material
-element	1203	1210	I-Material
-solution	1211	1219	I-Material
-(	1220	1221	O
-16	1221	1223	O
-)	1223	1224	O
-,	1224	1225	O
-at	1226	1228	O
-yi′=0	1229	1234	O
-.	1234	1235	O
+After	0,5	O	O
+all	6,9	O	O
+micro	10,15	O	O
+elements	16,24	O	O
+reach	25,30	O	O
+a	31,32	O	O
+relaxed	33,40	O	O
+steady	41,47	O	O
+-	47,48	O	O
+state	48,53	O	O
+,	53,54	O	O
+measurements	55,67	O	O
+are	68,71	O	O
+obtained	72,80	O	O
+using	81,86	O	O
+a	87,88	O	O
+cumulative	89,99	O	B-Process
+averaging	100,109	O	I-Process
+technique	110,119	O	I-Process
+to	120,122	O	O
+reduce	123,129	O	B-Task
+noise	130,135	O	I-Task
+.	135,136	O	O
+
+Each	137,141	O	O
+micro	142,147	O	B-Material
+element	148,155	O	I-Material
+is	156,158	O	O
+divided	159,166	O	O
+into	167,171	O	O
+spatially	172,181	O	B-Material
+-	181,182	O	I-Material
+oriented	182,190	O	I-Material
+bins	191,195	O	I-Material
+in	196,198	O	O
+the	199,202	O	O
+y	203,204	O	O
+-	204,205	O	O
+direction	205,214	O	O
+in	215,217	O	O
+order	218,223	O	O
+to	224,226	O	O
+resolve	227,234	O	B-Task
+the	235,238	O	I-Task
+velocity	239,247	O	I-Task
+and	248,251	O	I-Task
+shear	252,257	O	I-Task
+-	257,258	O	I-Task
+stress	258,264	O	I-Task
+profiles	265,273	O	I-Task
+.	273,274	O	O
+
+Velocity	275,283	O	O
+in	284,286	O	O
+each	287,291	O	O
+bin	292,295	O	B-Material
+is	296,298	O	O
+measured	299,307	O	O
+using	308,313	O	O
+the	314,317	O	O
+Cumulative	318,328	O	B-Process
+Averaging	329,338	O	I-Process
+Method	339,345	O	I-Process
+(	346,347	O	O
+CAM	347,350	O	B-Process
+)	350,351	O	O
+[	352,353	O	O
+24	353,355	O	O
+]	355,356	O	O
+,	356,357	O	O
+while	358,363	O	O
+the	364,367	O	O
+stress	368,374	O	B-Process
+tensor	375,381	O	I-Process
+field	382,387	O	I-Process
+is	388,390	O	O
+measured	391,399	O	O
+using	400,405	O	O
+the	406,409	O	O
+Irving	410,416	O	O
+–	416,417	O	O
+
+Kirkwood	417,425	O	O
+relationship	426,438	O	O
+[	439,440	O	O
+25	440,442	O	O
+]	442,443	O	O
+.	443,444	O	O
+
+A	445,446	O	O
+least	447,452	O	B-Process
+-	452,453	O	I-Process
+squares	453,460	O	I-Process
+polynomial	461,471	O	I-Process
+fit	472,475	O	I-Process
+to	476,478	O	O
+the	479,482	O	O
+data	483,487	O	O
+is	488,490	O	O
+performed	491,500	O	O
+,	500,501	O	O
+which	502,507	O	O
+helps	508,513	O	O
+reduce	514,520	O	B-Process
+noise	521,526	O	I-Process
+further	527,534	O	O
+.	534,535	O	O
+
+The	536,539	O	O
+fit	540,543	O	O
+produces	544,552	O	O
+a	553,554	O	O
+continuous	555,565	O	B-Process
+function	566,574	O	I-Process
+that	575,579	O	O
+avoids	580,586	O	B-Process
+stability	587,596	O	I-Process
+issues	597,603	O	I-Process
+arising	604,611	O	O
+from	612,616	O	O
+supplying	617,626	O	O
+highly	627,633	O	B-Material
+fluctuating	634,645	O	I-Material
+data	646,650	O	I-Material
+to	651,653	O	O
+the	654,657	O	O
+macro	658,663	O	B-Material
+solver	664,670	O	I-Material
+.	670,671	O	O
+
+A	672,673	O	O
+least	674,679	O	B-Process
+-	679,680	O	I-Process
+squares	680,687	O	I-Process
+fit	688,691	O	I-Process
+is	692,694	O	O
+applied	695,702	O	O
+to	703,705	O	O
+an	706,708	O	O
+Nth	709,712	O	B-Material
+order	713,718	O	I-Material
+polynomial	719,729	O	I-Material
+for	730,733	O	O
+the	734,737	O	O
+velocity	738,746	O	O
+profile	747,754	O	O
+in	755,757	O	O
+the	758,761	O	O
+core	762,766	O	B-Material
+region	767,773	O	I-Material
+,	773,774	O	O
+and	775,778	O	O
+an	779,781	O	O
+Mth	782,785	O	B-Material
+order	786,791	O	I-Material
+polynomial	792,802	O	I-Material
+for	803,806	O	O
+the	807,810	O	O
+velocity	811,819	O	O
+profile	820,827	O	O
+in	828,830	O	O
+the	831,834	O	O
+constrained	835,846	O	O
+region:(16)〈ui	847,861	O	O
+,	861,862	O	O
+core〉=∑k=1Nbk	862,875	O	O
+,	875,876	O	O
+iyi′(N−k),for	876,889	O	O
+0⩽yi′⩽hcore	890,901	O	O
+,	901,902	O	O
+and(17)〈ui	903,913	O	O
+,	913,914	O	O
+cs〉=∑k=1Mck	914,925	O	O
+,	925,926	O	O
+
+iyi″(M−k),for	926,939	O	O
+
+0⩽yi″⩽hcs	940,949	O	O
+,	949,950	O	O
+where	951,956	O	O
+bk	957,959	O	O
+,	959,960	O	O
+i	960,961	O	O
+and	962,965	O	O
+ck	966,968	O	O
+,	968,969	O	O
+i	969,970	O	O
+are	971,974	O	O
+the	975,978	O	O
+coefficients	979,991	O	B-Material
+of	992,994	O	O
+the	995,998	O	O
+polynomials	999,1010	O	B-Material
+used	1011,1015	O	O
+in	1016,1018	O	O
+the	1019,1022	O	O
+core	1023,1027	O	B-Material
+micro	1028,1033	O	I-Material
+region	1034,1040	O	I-Material
+and	1041,1044	O	O
+constrained	1045,1056	O	B-Material
+region	1057,1063	O	I-Material
+respectively	1064,1076	O	O
+.	1076,1077	O	O
+
+An	1078,1080	O	O
+estimate	1081,1089	O	O
+of	1090,1092	O	O
+the	1093,1096	O	O
+new	1097,1100	O	O
+slip	1101,1105	O	O
+velocity	1106,1114	O	O
+uB	1115,1117	O	O
+for	1118,1121	O	O
+input	1122,1127	O	O
+to	1128,1130	O	O
+the	1131,1134	O	O
+macro	1135,1140	O	B-Material
+solution	1141,1149	O	I-Material
+(	1150,1151	O	O
+6	1151,1152	O	O
+)	1152,1153	O	O
+is	1154,1156	O	O
+taken	1157,1162	O	O
+directly	1163,1171	O	O
+from	1172,1176	O	O
+the	1177,1180	O	O
+compressed	1181,1191	O	B-Material
+wall	1192,1196	O	I-Material
+micro	1197,1202	O	I-Material
+-	1202,1203	O	I-Material
+element	1203,1210	O	I-Material
+solution	1211,1219	O	I-Material
+(	1220,1221	O	O
+16	1221,1223	O	O
+)	1223,1224	O	O
+,	1224,1225	O	O
+at	1226,1228	O	O
+yi′=0	1229,1234	O	O
+.	1234,1235	O	O
 
 
 -DOCSTART- (S0021999113005652)
 
-It	0	2	O
-is	3	5	O
-interesting	6	17	O
-to	18	20	O
-quantify	21	29	O
-the	30	33	O
-effects	34	41	O
-of	42	44	O
-the	45	48	O
-Schmidt	49	56	O
-number	57	63	O
-and	64	67	O
-the	68	71	O
-chemical	72	80	B-Process
-reaction	81	89	I-Process
-rate	90	94	O
-on	95	97	O
-the	98	101	O
-bulk	102	106	B-Process
--	106	107	I-Process
-mean	107	111	I-Process
-concentration	112	125	I-Process
-of	126	128	O
-B	129	130	B-Material
-in	131	133	O
-water	134	139	B-Material
-.	139	140	O
-
-The	141	144	O
-data	145	149	O
-could	150	155	O
-present	156	163	O
-important	164	173	O
-information	174	185	O
-on	186	188	O
-evaluating	189	199	O
-the	200	203	O
-environmental	204	217	O
-impacts	218	225	O
-of	226	228	O
-the	229	232	O
-degradation	233	244	B-Process
-product	245	252	O
-of	253	255	O
-B	256	257	B-Material
-,	257	258	O
-as	259	261	O
-well	262	266	O
-as	267	269	O
-acidification	270	283	B-Process
-of	284	286	O
-water	287	292	B-Material
-by	293	295	O
-the	296	299	O
-chemical	300	308	B-Process
-reaction	309	317	I-Process
-.	317	318	O
-
-Here	319	323	O
-,	323	324	O
-the	325	328	O
-bulk	329	333	B-Material
--	333	334	I-Material
-mean	334	338	I-Material
-concentration	339	352	I-Material
-of	353	355	O
-B	356	357	B-Material
-is	358	360	O
-defined	361	368	O
-by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	369	395	O
-Fig	396	399	O
-.	399	400	O
-
-15	401	403	O
-depicts	404	411	O
-the	412	415	O
-effect	416	422	O
-of	423	425	O
-the	426	429	O
-Schmidt	430	437	O
-and	438	441	O
-the	442	445	O
-chemical	446	454	B-Process
-reaction	455	463	I-Process
-rate	464	468	O
-on	469	471	O
-the	472	475	O
-bulk	476	480	B-Material
--	480	481	I-Material
-mean	481	485	I-Material
-concentration	486	499	I-Material
-CB⁎¯.	500	505	B-Material
-
-It	506	508	O
-is	509	511	O
-worth	512	517	O
-to	518	520	O
-mention	521	528	O
-here	529	533	O
-that	534	538	O
-the	539	542	O
-bulk	543	547	B-Process
--	547	548	I-Process
-mean	548	552	I-Process
-concentration	553	566	I-Process
-of	567	569	O
-B	570	571	B-Material
-reaches	572	579	O
-approximately	580	593	O
-0.6	594	597	O
-as	598	600	O
-the	601	604	O
-chemical	605	613	B-Process
-reaction	614	622	I-Process
-rate	623	627	O
-and	628	631	O
-the	632	635	O
-Schmidt	636	643	O
-number	644	650	O
-increase	651	659	O
-to	660	662	O
-infinite	663	671	O
-,	671	672	O
-and	673	676	O
-the	677	680	O
-concentration	681	694	O
-is	695	697	O
-smaller	698	705	O
-than	706	710	O
-the	711	714	O
-equilibrium	715	726	O
-concentration	727	740	O
-of	741	743	O
-A	744	745	B-Material
-at	746	748	O
-the	749	752	O
-interface	753	762	O
-.	762	763	O
-
-This	764	768	O
-figure	769	775	O
-indicates	776	785	O
-that	786	790	O
-progress	791	799	O
-of	800	802	O
-the	803	806	O
-chemical	807	815	B-Process
-reaction	816	824	I-Process
-is	825	827	O
-somewhat	828	836	O
-interfered	837	847	O
-by	848	850	O
-turbulent	851	860	B-Process
-mixing	861	867	I-Process
-in	868	870	O
-water	871	876	B-Material
-,	876	877	O
-and	878	881	O
-the	882	885	O
-efficiency	886	896	O
-of	897	899	O
-the	900	903	O
-chemical	904	912	B-Process
-reaction	913	921	I-Process
-is	922	924	O
-up	925	927	O
-to	928	930	O
-approximately	931	944	O
-60	945	947	O
-%	947	948	O
-.	948	949	O
-
-The	950	953	O
-efficiency	954	964	O
-of	965	967	O
-the	968	971	O
-chemical	972	980	B-Process
-reaction	981	989	I-Process
-in	990	992	O
-water	993	998	B-Material
-will	999	1003	O
-be	1004	1006	O
-a	1007	1008	O
-function	1009	1017	O
-of	1018	1020	O
-the	1021	1024	O
-Reynolds	1025	1033	O
-number	1034	1040	O
-of	1041	1043	O
-the	1044	1047	O
-water	1048	1053	B-Process
-flow	1054	1058	I-Process
-,	1058	1059	O
-and	1060	1063	O
-the	1064	1067	O
-efficiency	1068	1078	O
-could	1079	1084	O
-increase	1085	1093	O
-as	1094	1096	O
-the	1097	1100	O
-Reynolds	1101	1109	O
-number	1110	1116	O
-increases	1117	1126	O
-.	1126	1127	O
-
-We	1128	1130	O
-need	1131	1135	O
-an	1136	1138	O
-extensive	1139	1148	B-Task
-investigation	1149	1162	I-Task
-on	1163	1165	I-Task
-the	1166	1169	I-Task
-efficiency	1170	1180	I-Task
-of	1181	1183	I-Task
-the	1184	1187	I-Task
-aquarium	1188	1196	I-Task
-chemical	1197	1205	I-Task
-reaction	1206	1214	I-Task
-in	1215	1217	O
-the	1218	1221	O
-near	1222	1226	O
-future	1227	1233	O
-to	1234	1236	O
-extend	1237	1243	O
-the	1244	1247	O
-results	1248	1255	O
-of	1256	1258	O
-this	1259	1263	O
-study	1264	1269	O
-further	1270	1277	O
-to	1278	1280	O
-establish	1281	1290	B-Task
-practical	1291	1300	I-Task
-modelling	1301	1310	I-Task
-for	1311	1314	I-Task
-the	1315	1318	I-Task
-gas	1319	1322	I-Task
-exchange	1323	1331	I-Task
-between	1332	1339	I-Task
-air	1340	1343	I-Task
-and	1344	1347	I-Task
-water	1348	1353	I-Task
-.	1353	1354	O
+It	0,2	O	O
+is	3,5	O	O
+interesting	6,17	O	O
+to	18,20	O	O
+quantify	21,29	O	O
+the	30,33	O	O
+effects	34,41	O	O
+of	42,44	O	O
+the	45,48	O	O
+Schmidt	49,56	O	O
+number	57,63	O	O
+and	64,67	O	O
+the	68,71	O	O
+chemical	72,80	O	B-Process
+reaction	81,89	O	I-Process
+rate	90,94	O	O
+on	95,97	O	O
+the	98,101	O	O
+bulk	102,106	O	B-Process
+-	106,107	O	I-Process
+mean	107,111	O	I-Process
+concentration	112,125	O	I-Process
+of	126,128	O	O
+B	129,130	O	B-Material
+in	131,133	O	O
+water	134,139	O	B-Material
+.	139,140	O	O
+
+The	141,144	O	O
+data	145,149	O	O
+could	150,155	O	O
+present	156,163	O	O
+important	164,173	O	O
+information	174,185	O	O
+on	186,188	O	O
+evaluating	189,199	O	O
+the	200,203	O	O
+environmental	204,217	O	O
+impacts	218,225	O	O
+of	226,228	O	O
+the	229,232	O	O
+degradation	233,244	O	B-Process
+product	245,252	O	O
+of	253,255	O	O
+B	256,257	O	B-Material
+,	257,258	O	O
+as	259,261	O	O
+well	262,266	O	O
+as	267,269	O	O
+acidification	270,283	O	B-Process
+of	284,286	O	O
+water	287,292	O	B-Material
+by	293,295	O	O
+the	296,299	O	O
+chemical	300,308	O	B-Process
+reaction	309,317	O	I-Process
+.	317,318	O	O
+
+Here	319,323	O	O
+,	323,324	O	O
+the	325,328	O	O
+bulk	329,333	O	B-Material
+-	333,334	O	I-Material
+mean	334,338	O	I-Material
+concentration	339,352	O	I-Material
+of	353,355	O	O
+B	356,357	O	B-Material
+is	358,360	O	O
+defined	361,368	O	O
+by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎	369,395	O	O
+Fig	396,399	O	O
+.	399,400	O	O
+
+15	401,403	O	O
+depicts	404,411	O	O
+the	412,415	O	O
+effect	416,422	O	O
+of	423,425	O	O
+the	426,429	O	O
+Schmidt	430,437	O	O
+and	438,441	O	O
+the	442,445	O	O
+chemical	446,454	O	B-Process
+reaction	455,463	O	I-Process
+rate	464,468	O	O
+on	469,471	O	O
+the	472,475	O	O
+bulk	476,480	O	B-Material
+-	480,481	O	I-Material
+mean	481,485	O	I-Material
+concentration	486,499	O	I-Material
+CB⁎¯.	500,505	O	B-Material
+
+It	506,508	O	O
+is	509,511	O	O
+worth	512,517	O	O
+to	518,520	O	O
+mention	521,528	O	O
+here	529,533	O	O
+that	534,538	O	O
+the	539,542	O	O
+bulk	543,547	O	B-Process
+-	547,548	O	I-Process
+mean	548,552	O	I-Process
+concentration	553,566	O	I-Process
+of	567,569	O	O
+B	570,571	O	B-Material
+reaches	572,579	O	O
+approximately	580,593	O	O
+0.6	594,597	O	O
+as	598,600	O	O
+the	601,604	O	O
+chemical	605,613	O	B-Process
+reaction	614,622	O	I-Process
+rate	623,627	O	O
+and	628,631	O	O
+the	632,635	O	O
+Schmidt	636,643	O	O
+number	644,650	O	O
+increase	651,659	O	O
+to	660,662	O	O
+infinite	663,671	O	O
+,	671,672	O	O
+and	673,676	O	O
+the	677,680	O	O
+concentration	681,694	O	O
+is	695,697	O	O
+smaller	698,705	O	O
+than	706,710	O	O
+the	711,714	O	O
+equilibrium	715,726	O	O
+concentration	727,740	O	O
+of	741,743	O	O
+A	744,745	O	B-Material
+at	746,748	O	O
+the	749,752	O	O
+interface	753,762	O	O
+.	762,763	O	O
+
+This	764,768	O	O
+figure	769,775	O	O
+indicates	776,785	O	O
+that	786,790	O	O
+progress	791,799	O	O
+of	800,802	O	O
+the	803,806	O	O
+chemical	807,815	O	B-Process
+reaction	816,824	O	I-Process
+is	825,827	O	O
+somewhat	828,836	O	O
+interfered	837,847	O	O
+by	848,850	O	O
+turbulent	851,860	O	B-Process
+mixing	861,867	O	I-Process
+in	868,870	O	O
+water	871,876	O	B-Material
+,	876,877	O	O
+and	878,881	O	O
+the	882,885	O	O
+efficiency	886,896	O	O
+of	897,899	O	O
+the	900,903	O	O
+chemical	904,912	O	B-Process
+reaction	913,921	O	I-Process
+is	922,924	O	O
+up	925,927	O	O
+to	928,930	O	O
+approximately	931,944	O	O
+60	945,947	O	O
+%	947,948	O	O
+.	948,949	O	O
+
+The	950,953	O	O
+efficiency	954,964	O	O
+of	965,967	O	O
+the	968,971	O	O
+chemical	972,980	O	B-Process
+reaction	981,989	O	I-Process
+in	990,992	O	O
+water	993,998	O	B-Material
+will	999,1003	O	O
+be	1004,1006	O	O
+a	1007,1008	O	O
+function	1009,1017	O	O
+of	1018,1020	O	O
+the	1021,1024	O	O
+Reynolds	1025,1033	O	O
+number	1034,1040	O	O
+of	1041,1043	O	O
+the	1044,1047	O	O
+water	1048,1053	O	B-Process
+flow	1054,1058	O	I-Process
+,	1058,1059	O	O
+and	1060,1063	O	O
+the	1064,1067	O	O
+efficiency	1068,1078	O	O
+could	1079,1084	O	O
+increase	1085,1093	O	O
+as	1094,1096	O	O
+the	1097,1100	O	O
+Reynolds	1101,1109	O	O
+number	1110,1116	O	O
+increases	1117,1126	O	O
+.	1126,1127	O	O
+
+We	1128,1130	O	O
+need	1131,1135	O	O
+an	1136,1138	O	O
+extensive	1139,1148	O	B-Task
+investigation	1149,1162	O	I-Task
+on	1163,1165	O	I-Task
+the	1166,1169	O	I-Task
+efficiency	1170,1180	O	I-Task
+of	1181,1183	O	I-Task
+the	1184,1187	O	I-Task
+aquarium	1188,1196	O	I-Task
+chemical	1197,1205	O	I-Task
+reaction	1206,1214	O	I-Task
+in	1215,1217	O	O
+the	1218,1221	O	O
+near	1222,1226	O	O
+future	1227,1233	O	O
+to	1234,1236	O	O
+extend	1237,1243	O	O
+the	1244,1247	O	O
+results	1248,1255	O	O
+of	1256,1258	O	O
+this	1259,1263	O	O
+study	1264,1269	O	O
+further	1270,1277	O	O
+to	1278,1280	O	O
+establish	1281,1290	O	B-Task
+practical	1291,1300	O	I-Task
+modelling	1301,1310	O	I-Task
+for	1311,1314	O	I-Task
+the	1315,1318	O	I-Task
+gas	1319,1322	O	I-Task
+exchange	1323,1331	O	I-Task
+between	1332,1339	O	I-Task
+air	1340,1343	O	I-Task
+and	1344,1347	O	I-Task
+water	1348,1353	O	I-Task
+.	1353,1354	O	O
 
 
 -DOCSTART- (S0021999113005718)
 
-Numerical	0	9	B-Process
-simulation	10	20	I-Process
-of	21	23	I-Process
-the	24	27	I-Process
-gas	28	31	I-Process
-flow	32	36	I-Process
-through	37	44	O
-such	45	49	O
-non	50	53	O
--	53	54	O
-trivial	54	61	O
-internal	62	70	O
-geometries	71	81	O
-is	82	84	O
-,	84	85	O
-however	86	93	O
-,	93	94	O
-extremely	95	104	O
-challenging	105	116	O
-.	116	117	O
-
-This	118	122	O
-is	123	125	O
-because	126	133	O
-conventional	134	146	B-Task
-continuum	147	156	I-Task
-fluid	157	162	I-Task
-dynamics	163	171	I-Task
-,	171	172	O
-which	173	178	O
-assumes	179	186	O
-that	187	191	O
-locally	192	199	O
-a	200	201	O
-gas	202	205	B-Material
-is	206	208	O
-close	209	214	O
-to	215	217	O
-a	218	219	O
-state	220	225	O
-of	226	228	O
-thermodynamic	229	242	B-Task
-equilibrium	243	254	I-Task
-,	254	255	O
-becomes	256	263	O
-invalid	264	271	O
-or	272	274	O
-inaccurate	275	285	O
-as	286	288	O
-the	289	292	O
-smallest	293	301	O
-characteristic	302	316	O
-scale	317	322	O
-of	323	325	O
-the	326	329	O
-geometry	330	338	O
-(	339	340	O
-e.g.	340	344	O
-the	345	348	O
-channel	349	356	B-Material
-height	357	363	I-Material
-)	363	364	O
-approaches	365	375	O
-the	376	379	O
-mean	380	384	O
-distance	385	393	O
-between	394	401	O
-molecular	402	411	B-Process
-collisions	412	422	I-Process
-,	422	423	O
-λ	424	425	O
-[	426	427	O
-1	427	428	O
-]	428	429	O
-.	429	430	O
-
-An	431	433	O
-accurate	434	442	O
-and	443	446	O
-flexible	447	455	O
-modelling	456	465	O
-alternative	466	477	O
-for	478	481	O
-these	482	487	O
-cases	488	493	O
-is	494	496	O
-the	497	500	O
-direct	501	507	B-Process
-simulation	508	518	I-Process
-Monte	519	524	I-Process
-Carlo	525	530	I-Process
-method	531	537	I-Process
-(	538	539	O
-DSMC	539	543	B-Process
-)	543	544	O
-[	545	546	O
-2	546	547	O
-]	547	548	O
-.	548	549	O
-
-However	550	557	O
-,	557	558	O
-DSMC	559	563	B-Process
-can	564	567	O
-be	568	570	O
-prohibitively	571	584	O
-expensive	585	594	O
-for	595	598	O
-internal	599	607	B-Task
--	607	608	I-Task
-flow	608	612	I-Task
-applications	613	625	I-Task
-,	625	626	O
-which	627	632	O
-typically	633	642	O
-have	643	647	O
-a	648	649	O
-geometry	650	658	O
-of	659	661	O
-high	662	666	O
--	666	667	O
-aspect	667	673	O
-ratio	674	679	O
-(	680	681	O
-i.e.	681	685	O
-are	686	689	O
-extremely	690	699	O
-long	700	704	O
-,	704	705	O
-relative	706	714	O
-to	715	717	O
-their	718	723	O
-cross	724	729	O
--	729	730	O
-section	730	737	O
-)	737	738	O
-.	738	739	O
-
-The	740	743	O
-high	744	748	B-Process
--	748	749	I-Process
-aspect	749	755	I-Process
-ratio	756	761	I-Process
-creates	762	769	O
-a	770	771	O
-formidable	772	782	B-Task
-multiscale	783	793	I-Task
-problem	794	801	I-Task
-:	801	802	O
-processes	803	812	O
-need	813	817	O
-to	818	820	O
-be	821	823	O
-resolved	824	832	O
-occurring	833	842	O
-over	843	847	O
-the	848	851	O
-smallest	852	860	O
-characteristic	861	875	O
-scale	876	881	O
-of	882	884	O
-the	885	888	O
-geometry	889	897	O
-(	898	899	O
-e.g.	899	903	O
-a	904	905	O
-channelʼs	906	915	O
-height	916	922	O
-)	922	923	O
-,	923	924	O
-as	925	927	O
-well	928	932	O
-as	933	935	O
-over	936	940	O
-the	941	944	O
-largest	945	952	O
-characteristic	953	967	O
-scale	968	973	O
-of	974	976	O
-the	977	980	O
-geometry	981	989	O
-(	990	991	O
-e.g.	991	995	O
-the	996	999	O
-length	1000	1006	O
-of	1007	1009	O
-a	1010	1011	O
-long	1012	1016	O
-channel	1017	1024	O
-network	1025	1032	O
-)	1032	1033	O
-,	1033	1034	O
-simultaneously	1035	1049	O
-.	1049	1050	O
+Numerical	0,9	O	B-Process
+simulation	10,20	O	I-Process
+of	21,23	O	I-Process
+the	24,27	O	I-Process
+gas	28,31	O	I-Process
+flow	32,36	O	I-Process
+through	37,44	O	O
+such	45,49	O	O
+non	50,53	O	O
+-	53,54	O	O
+trivial	54,61	O	O
+internal	62,70	O	O
+geometries	71,81	O	O
+is	82,84	O	O
+,	84,85	O	O
+however	86,93	O	O
+,	93,94	O	O
+extremely	95,104	O	O
+challenging	105,116	O	O
+.	116,117	O	O
+
+This	118,122	O	O
+is	123,125	O	O
+because	126,133	O	O
+conventional	134,146	O	B-Task
+continuum	147,156	O	I-Task
+fluid	157,162	O	I-Task
+dynamics	163,171	O	I-Task
+,	171,172	O	O
+which	173,178	O	O
+assumes	179,186	O	O
+that	187,191	O	O
+locally	192,199	O	O
+a	200,201	O	O
+gas	202,205	O	B-Material
+is	206,208	O	O
+close	209,214	O	O
+to	215,217	O	O
+a	218,219	O	O
+state	220,225	O	O
+of	226,228	O	O
+thermodynamic	229,242	O	B-Task
+equilibrium	243,254	O	I-Task
+,	254,255	O	O
+becomes	256,263	O	O
+invalid	264,271	O	O
+or	272,274	O	O
+inaccurate	275,285	O	O
+as	286,288	O	O
+the	289,292	O	O
+smallest	293,301	O	O
+characteristic	302,316	O	O
+scale	317,322	O	O
+of	323,325	O	O
+the	326,329	O	O
+geometry	330,338	O	O
+(	339,340	O	O
+e.g.	340,344	O	O
+the	345,348	O	O
+channel	349,356	O	B-Material
+height	357,363	O	I-Material
+)	363,364	O	O
+approaches	365,375	O	O
+the	376,379	O	O
+mean	380,384	O	O
+distance	385,393	O	O
+between	394,401	O	O
+molecular	402,411	O	B-Process
+collisions	412,422	O	I-Process
+,	422,423	O	O
+λ	424,425	O	O
+[	426,427	O	O
+1	427,428	O	O
+]	428,429	O	O
+.	429,430	O	O
+
+An	431,433	O	O
+accurate	434,442	O	O
+and	443,446	O	O
+flexible	447,455	O	O
+modelling	456,465	O	O
+alternative	466,477	O	O
+for	478,481	O	O
+these	482,487	O	O
+cases	488,493	O	O
+is	494,496	O	O
+the	497,500	O	O
+direct	501,507	O	B-Process
+simulation	508,518	O	I-Process
+Monte	519,524	O	I-Process
+Carlo	525,530	O	I-Process
+method	531,537	O	I-Process
+(	538,539	O	O
+DSMC	539,543	O	B-Process
+)	543,544	O	O
+[	545,546	O	O
+2	546,547	O	O
+]	547,548	O	O
+.	548,549	O	O
+
+However	550,557	O	O
+,	557,558	O	O
+DSMC	559,563	O	B-Process
+can	564,567	O	O
+be	568,570	O	O
+prohibitively	571,584	O	O
+expensive	585,594	O	O
+for	595,598	O	O
+internal	599,607	O	B-Task
+-	607,608	O	I-Task
+flow	608,612	O	I-Task
+applications	613,625	O	I-Task
+,	625,626	O	O
+which	627,632	O	O
+typically	633,642	O	O
+have	643,647	O	O
+a	648,649	O	O
+geometry	650,658	O	O
+of	659,661	O	O
+high	662,666	O	O
+-	666,667	O	O
+aspect	667,673	O	O
+ratio	674,679	O	O
+(	680,681	O	O
+i.e.	681,685	O	O
+are	686,689	O	O
+extremely	690,699	O	O
+long	700,704	O	O
+,	704,705	O	O
+relative	706,714	O	O
+to	715,717	O	O
+their	718,723	O	O
+cross	724,729	O	O
+-	729,730	O	O
+section	730,737	O	O
+)	737,738	O	O
+.	738,739	O	O
+
+The	740,743	O	O
+high	744,748	O	B-Process
+-	748,749	O	I-Process
+aspect	749,755	O	I-Process
+ratio	756,761	O	I-Process
+creates	762,769	O	O
+a	770,771	O	O
+formidable	772,782	O	B-Task
+multiscale	783,793	O	I-Task
+problem	794,801	O	I-Task
+:	801,802	O	O
+processes	803,812	O	O
+need	813,817	O	O
+to	818,820	O	O
+be	821,823	O	O
+resolved	824,832	O	O
+occurring	833,842	O	O
+over	843,847	O	O
+the	848,851	O	O
+smallest	852,860	O	O
+characteristic	861,875	O	O
+scale	876,881	O	O
+of	882,884	O	O
+the	885,888	O	O
+geometry	889,897	O	O
+(	898,899	O	O
+e.g.	899,903	O	O
+a	904,905	O	O
+channelʼs	906,915	O	O
+height	916,922	O	O
+)	922,923	O	O
+,	923,924	O	O
+as	925,927	O	O
+well	928,932	O	O
+as	933,935	O	O
+over	936,940	O	O
+the	941,944	O	O
+largest	945,952	O	O
+characteristic	953,967	O	O
+scale	968,973	O	O
+of	974,976	O	O
+the	977,980	O	O
+geometry	981,989	O	O
+(	990,991	O	O
+e.g.	991,995	O	O
+the	996,999	O	O
+length	1000,1006	O	O
+of	1007,1009	O	O
+a	1010,1011	O	O
+long	1012,1016	O	O
+channel	1017,1024	O	O
+network	1025,1032	O	O
+)	1032,1033	O	O
+,	1033,1034	O	O
+simultaneously	1035,1049	O	O
+.	1049,1050	O	O
 
 
 -DOCSTART- (S0021999113006955)
 
-The	0	3	O
-test	4	8	O
-cases	9	14	O
-confirm	15	22	O
-that	23	27	O
-the	28	31	O
-high	32	36	B-Process
--	36	37	I-Process
-order	37	42	I-Process
-discretisation	43	57	I-Process
-retains	58	65	O
-exponential	66	77	O
-convergence	78	89	O
-properties	90	100	O
-with	101	105	O
-increasing	106	116	O
-geometric	117	126	O
-and	127	130	O
-expansion	131	140	O
-polynomial	141	151	O
-order	152	157	O
-if	158	160	O
-both	161	165	O
-the	166	169	O
-solution	170	178	B-Material
-and	179	182	O
-true	183	187	B-Material
-surface	188	195	I-Material
-are	196	199	O
-smooth	200	206	O
-.	206	207	O
-
-Errors	208	214	O
-are	215	218	O
-found	219	224	O
-to	225	227	O
-saturate	228	236	O
-when	237	241	O
-the	242	245	O
-geometric	246	255	O
-errors	256	262	O
-,	262	263	O
-due	264	267	O
-to	268	270	O
-the	271	274	O
-parametrisation	275	290	B-Process
-of	291	293	I-Process
-the	294	297	I-Process
-surface	298	305	I-Process
-elements	306	314	I-Process
-,	314	315	O
-begin	316	321	O
-to	322	324	O
-dominate	325	333	O
-the	334	337	O
-temporal	338	346	O
-and	347	350	O
-spatial	351	358	O
-discretisation	359	373	O
-errors	374	380	O
-.	380	381	O
-
-For	382	385	O
-the	386	389	O
-smooth	390	396	O
-solutions	397	406	O
-considered	407	417	O
-as	418	420	O
-test	421	425	O
-cases	426	431	O
-,	431	432	O
-the	433	436	O
-results	437	444	O
-show	445	449	O
-that	450	454	O
-this	455	459	O
-dominance	460	469	O
-of	470	472	O
-geometric	473	482	O
-errors	483	489	O
-quickly	490	497	O
-limits	498	504	O
-the	505	508	O
-effectiveness	509	522	O
-of	523	525	O
-further	526	533	O
-increases	534	543	O
-in	544	546	O
-the	547	550	O
-number	551	557	O
-of	558	560	O
-degrees	561	568	O
-of	569	571	O
-freedom	572	579	O
-,	579	580	O
-either	581	587	O
-through	588	595	O
-mesh	596	600	B-Process
-refinement	601	611	I-Process
-or	612	614	O
-higher	615	621	B-Task
-solution	622	630	I-Task
-polynomial	631	641	I-Task
-orders	642	648	I-Task
-.	648	649	O
-
-Increasing	650	660	O
-the	661	664	O
-order	665	670	O
-of	671	673	O
-the	674	677	O
-geometry	678	686	O
-parametrisation	687	702	O
-reduces	703	710	B-Task
-the	711	714	I-Task
-geometric	715	724	I-Task
-error	725	730	I-Task
-.	730	731	O
-
-The	732	735	O
-analytic	736	744	O
-test	745	749	O
-cases	750	755	O
-presented	756	765	O
-here	766	770	O
-use	771	774	O
-a	775	776	O
-coarse	777	783	B-Material
-curvilinear	784	795	I-Material
-mesh	796	800	I-Material
-;	800	801	O
-for	802	805	O
-applications	806	818	O
-,	818	819	O
-meshes	820	826	B-Material
-are	827	830	O
-typically	831	840	O
-more	841	845	O
-refined	846	853	O
-in	854	856	O
-order	857	862	O
-to	863	865	O
-capture	866	873	O
-features	874	882	O
-in	883	885	O
-the	886	889	O
-solution	890	898	B-Material
-and	899	902	O
-so	903	905	O
-will	906	910	O
-better	911	917	O
-capture	918	925	O
-the	926	929	O
-geometry	930	938	O
-and	939	942	O
-consequently	943	955	O
-reduce	956	962	O
-this	963	967	O
-lower	968	973	O
-bound	974	979	O
-on	980	982	O
-the	983	986	O
-solution	987	995	O
-error	996	1001	O
-.	1001	1002	O
-
-If	1003	1005	O
-the	1006	1009	O
-solution	1010	1018	B-Material
-is	1019	1021	O
-not	1022	1025	O
-smooth	1026	1032	O
-,	1032	1033	O
-we	1034	1036	O
-do	1037	1039	O
-not	1040	1043	O
-expect	1044	1050	O
-to	1051	1053	O
-see	1054	1057	O
-rapid	1058	1063	O
-convergence	1064	1075	O
-.	1075	1076	O
-
-In	1077	1079	O
-the	1080	1083	O
-case	1084	1088	O
-that	1089	1093	O
-the	1094	1097	O
-solution	1098	1106	O
-is	1107	1109	O
-smooth	1110	1116	O
-,	1116	1117	O
-but	1118	1121	O
-the	1122	1125	O
-true	1126	1130	O
-surface	1131	1138	O
-is	1139	1141	O
-not	1142	1145	O
-,	1145	1146	O
-then	1147	1151	O
-exponential	1152	1163	O
-convergence	1164	1175	O
-with	1176	1180	O
-P	1181	1182	B-Material
-and	1183	1186	O
-Pg	1187	1189	B-Material
-can	1190	1193	O
-only	1194	1198	O
-be	1199	1201	O
-achieved	1202	1210	O
-if	1211	1213	O
-,	1213	1214	O
-and	1215	1218	O
-only	1219	1223	O
-if	1224	1226	O
-,	1226	1227	O
-the	1228	1231	O
-discontinuities	1232	1247	O
-are	1248	1251	O
-aligned	1252	1259	O
-with	1260	1264	O
-element	1265	1272	O
-boundaries	1273	1283	O
-.	1283	1284	O
-
-However	1285	1292	O
-,	1292	1293	O
-if	1294	1296	O
-discontinuities	1297	1312	O
-lie	1313	1316	O
-within	1317	1323	O
-an	1324	1326	O
-element	1327	1334	O
-,	1334	1335	O
-convergence	1336	1347	O
-will	1348	1352	O
-be	1353	1355	O
-limited	1356	1363	O
-by	1364	1366	O
-the	1367	1370	O
-geometric	1371	1380	B-Process
-approximation	1381	1394	I-Process
-,	1394	1395	O
-since	1396	1401	O
-the	1402	1405	O
-true	1406	1410	O
-surface	1411	1418	B-Material
-can	1419	1422	O
-not	1422	1425	O
-be	1426	1428	O
-captured	1429	1437	O
-.	1437	1438	O
-
-In	1439	1441	O
-the	1442	1445	O
-cardiac	1446	1453	B-Task
-problem	1454	1461	I-Task
-,	1461	1462	O
-we	1463	1465	O
-consider	1466	1474	O
-both	1475	1479	O
-the	1480	1483	O
-true	1484	1488	B-Material
-surface	1489	1496	I-Material
-and	1497	1500	O
-solution	1501	1509	B-Material
-to	1510	1512	O
-be	1513	1515	O
-smooth	1516	1522	O
-.	1522	1523	O
+The	0,3	O	O
+test	4,8	O	O
+cases	9,14	O	O
+confirm	15,22	O	O
+that	23,27	O	O
+the	28,31	O	O
+high	32,36	O	B-Process
+-	36,37	O	I-Process
+order	37,42	O	I-Process
+discretisation	43,57	O	I-Process
+retains	58,65	O	O
+exponential	66,77	O	O
+convergence	78,89	O	O
+properties	90,100	O	O
+with	101,105	O	O
+increasing	106,116	O	O
+geometric	117,126	O	O
+and	127,130	O	O
+expansion	131,140	O	O
+polynomial	141,151	O	O
+order	152,157	O	O
+if	158,160	O	O
+both	161,165	O	O
+the	166,169	O	O
+solution	170,178	O	B-Material
+and	179,182	O	O
+true	183,187	O	B-Material
+surface	188,195	O	I-Material
+are	196,199	O	O
+smooth	200,206	O	O
+.	206,207	O	O
+
+Errors	208,214	O	O
+are	215,218	O	O
+found	219,224	O	O
+to	225,227	O	O
+saturate	228,236	O	O
+when	237,241	O	O
+the	242,245	O	O
+geometric	246,255	O	O
+errors	256,262	O	O
+,	262,263	O	O
+due	264,267	O	O
+to	268,270	O	O
+the	271,274	O	O
+parametrisation	275,290	O	B-Process
+of	291,293	O	I-Process
+the	294,297	O	I-Process
+surface	298,305	O	I-Process
+elements	306,314	O	I-Process
+,	314,315	O	O
+begin	316,321	O	O
+to	322,324	O	O
+dominate	325,333	O	O
+the	334,337	O	O
+temporal	338,346	O	O
+and	347,350	O	O
+spatial	351,358	O	O
+discretisation	359,373	O	O
+errors	374,380	O	O
+.	380,381	O	O
+
+For	382,385	O	O
+the	386,389	O	O
+smooth	390,396	O	O
+solutions	397,406	O	O
+considered	407,417	O	O
+as	418,420	O	O
+test	421,425	O	O
+cases	426,431	O	O
+,	431,432	O	O
+the	433,436	O	O
+results	437,444	O	O
+show	445,449	O	O
+that	450,454	O	O
+this	455,459	O	O
+dominance	460,469	O	O
+of	470,472	O	O
+geometric	473,482	O	O
+errors	483,489	O	O
+quickly	490,497	O	O
+limits	498,504	O	O
+the	505,508	O	O
+effectiveness	509,522	O	O
+of	523,525	O	O
+further	526,533	O	O
+increases	534,543	O	O
+in	544,546	O	O
+the	547,550	O	O
+number	551,557	O	O
+of	558,560	O	O
+degrees	561,568	O	O
+of	569,571	O	O
+freedom	572,579	O	O
+,	579,580	O	O
+either	581,587	O	O
+through	588,595	O	O
+mesh	596,600	O	B-Process
+refinement	601,611	O	I-Process
+or	612,614	O	O
+higher	615,621	O	B-Task
+solution	622,630	O	I-Task
+polynomial	631,641	O	I-Task
+orders	642,648	O	I-Task
+.	648,649	O	O
+
+Increasing	650,660	O	O
+the	661,664	O	O
+order	665,670	O	O
+of	671,673	O	O
+the	674,677	O	O
+geometry	678,686	O	O
+parametrisation	687,702	O	O
+reduces	703,710	O	B-Task
+the	711,714	O	I-Task
+geometric	715,724	O	I-Task
+error	725,730	O	I-Task
+.	730,731	O	O
+
+The	732,735	O	O
+analytic	736,744	O	O
+test	745,749	O	O
+cases	750,755	O	O
+presented	756,765	O	O
+here	766,770	O	O
+use	771,774	O	O
+a	775,776	O	O
+coarse	777,783	O	B-Material
+curvilinear	784,795	O	I-Material
+mesh	796,800	O	I-Material
+;	800,801	O	O
+for	802,805	O	O
+applications	806,818	O	O
+,	818,819	O	O
+meshes	820,826	O	B-Material
+are	827,830	O	O
+typically	831,840	O	O
+more	841,845	O	O
+refined	846,853	O	O
+in	854,856	O	O
+order	857,862	O	O
+to	863,865	O	O
+capture	866,873	O	O
+features	874,882	O	O
+in	883,885	O	O
+the	886,889	O	O
+solution	890,898	O	B-Material
+and	899,902	O	O
+so	903,905	O	O
+will	906,910	O	O
+better	911,917	O	O
+capture	918,925	O	O
+the	926,929	O	O
+geometry	930,938	O	O
+and	939,942	O	O
+consequently	943,955	O	O
+reduce	956,962	O	O
+this	963,967	O	O
+lower	968,973	O	O
+bound	974,979	O	O
+on	980,982	O	O
+the	983,986	O	O
+solution	987,995	O	O
+error	996,1001	O	O
+.	1001,1002	O	O
+
+If	1003,1005	O	O
+the	1006,1009	O	O
+solution	1010,1018	O	B-Material
+is	1019,1021	O	O
+not	1022,1025	O	O
+smooth	1026,1032	O	O
+,	1032,1033	O	O
+we	1034,1036	O	O
+do	1037,1039	O	O
+not	1040,1043	O	O
+expect	1044,1050	O	O
+to	1051,1053	O	O
+see	1054,1057	O	O
+rapid	1058,1063	O	O
+convergence	1064,1075	O	O
+.	1075,1076	O	O
+
+In	1077,1079	O	O
+the	1080,1083	O	O
+case	1084,1088	O	O
+that	1089,1093	O	O
+the	1094,1097	O	O
+solution	1098,1106	O	O
+is	1107,1109	O	O
+smooth	1110,1116	O	O
+,	1116,1117	O	O
+but	1118,1121	O	O
+the	1122,1125	O	O
+true	1126,1130	O	O
+surface	1131,1138	O	O
+is	1139,1141	O	O
+not	1142,1145	O	O
+,	1145,1146	O	O
+then	1147,1151	O	O
+exponential	1152,1163	O	O
+convergence	1164,1175	O	O
+with	1176,1180	O	O
+P	1181,1182	O	B-Material
+and	1183,1186	O	O
+Pg	1187,1189	O	B-Material
+can	1190,1193	O	O
+only	1194,1198	O	O
+be	1199,1201	O	O
+achieved	1202,1210	O	O
+if	1211,1213	O	O
+,	1213,1214	O	O
+and	1215,1218	O	O
+only	1219,1223	O	O
+if	1224,1226	O	O
+,	1226,1227	O	O
+the	1228,1231	O	O
+discontinuities	1232,1247	O	O
+are	1248,1251	O	O
+aligned	1252,1259	O	O
+with	1260,1264	O	O
+element	1265,1272	O	O
+boundaries	1273,1283	O	O
+.	1283,1284	O	O
+
+However	1285,1292	O	O
+,	1292,1293	O	O
+if	1294,1296	O	O
+discontinuities	1297,1312	O	O
+lie	1313,1316	O	O
+within	1317,1323	O	O
+an	1324,1326	O	O
+element	1327,1334	O	O
+,	1334,1335	O	O
+convergence	1336,1347	O	O
+will	1348,1352	O	O
+be	1353,1355	O	O
+limited	1356,1363	O	O
+by	1364,1366	O	O
+the	1367,1370	O	O
+geometric	1371,1380	O	B-Process
+approximation	1381,1394	O	I-Process
+,	1394,1395	O	O
+since	1396,1401	O	O
+the	1402,1405	O	O
+true	1406,1410	O	O
+surface	1411,1418	O	B-Material
+can	1419,1422	O	O
+not	1422,1425	O	O
+be	1426,1428	O	O
+captured	1429,1437	O	O
+.	1437,1438	O	O
+
+In	1439,1441	O	O
+the	1442,1445	O	O
+cardiac	1446,1453	O	B-Task
+problem	1454,1461	O	I-Task
+,	1461,1462	O	O
+we	1463,1465	O	O
+consider	1466,1474	O	O
+both	1475,1479	O	O
+the	1480,1483	O	O
+true	1484,1488	O	B-Material
+surface	1489,1496	O	I-Material
+and	1497,1500	O	O
+solution	1501,1509	O	B-Material
+to	1510,1512	O	O
+be	1513,1515	O	O
+smooth	1516,1522	O	O
+.	1522,1523	O	O
 
 
 -DOCSTART- (S0021999114002587)
 
-Designers	0	9	O
-of	10	12	O
-microfluidic	13	25	B-Material
-devices	26	33	I-Material
-are	34	37	O
-in	38	40	O
-need	41	45	O
-of	46	48	O
-computational	49	62	O
-tools	63	68	O
-that	69	73	O
-can	74	77	O
-be	78	80	O
-used	81	85	O
-to	86	88	O
-analyse	89	96	B-Task
-problems	97	105	I-Task
-that	106	110	I-Task
-involve	111	118	I-Task
-rarefied	119	127	I-Task
-gas	128	131	I-Task
-flows	132	137	I-Task
-in	138	140	I-Task
-complex	141	148	I-Task
-micro	149	154	I-Task
-geometries	155	165	I-Task
-.	165	166	O
-
-Numerical	167	176	B-Process
-simulation	177	187	I-Process
-of	188	190	O
-the	191	194	O
-gas	195	198	B-Material
-flow	199	203	I-Material
-through	204	211	O
-such	212	216	O
-geometries	217	227	O
-is	228	230	O
-,	230	231	O
-however	232	239	O
-,	239	240	O
-extremely	241	250	O
-challenging	251	262	O
-.	262	263	O
-
-Conventional	264	276	B-Process
-continuum	277	286	I-Process
-fluid	287	292	I-Process
-dynamics	293	301	I-Process
-(	302	303	O
-CFD	303	306	B-Process
-)	306	307	O
-becomes	308	315	O
-invalid	316	323	O
-or	324	326	O
-inaccurate	327	337	O
-as	338	340	O
-the	341	344	O
-characteristic	345	359	O
-scale	360	365	O
-of	366	368	O
-the	369	372	O
-geometry	373	381	O
-(	382	383	O
-e.g.	383	387	O
-the	388	391	O
-channel	392	399	O
-height	400	406	O
-,	406	407	O
-h	408	409	O
-)	409	410	O
-approaches	411	421	O
-the	422	425	O
-molecular	426	435	O
-mean	436	440	O
-free	441	445	O
-path	446	450	O
-,	450	451	O
-λ	452	453	O
-[	454	455	O
-1,2	455	458	O
-]	458	459	O
-.	459	460	O
-
-When	461	465	O
-λ/h≳0.1	466	473	O
-,	473	474	O
-the	475	478	O
-error	479	484	O
-in	485	487	O
-solutions	488	497	O
-obtained	498	506	O
-from	507	511	O
-CFD	512	515	B-Process
-may	516	519	O
-be	520	522	O
-significant	523	534	O
-,	534	535	O
-and	536	539	O
-we	540	542	O
-must	543	547	O
-consider	548	556	O
-the	557	560	O
-fluid	561	566	O
-for	567	570	O
-what	571	575	O
-it	576	578	O
-is	579	581	O
-:	581	582	O
-a	583	584	O
-collection	585	595	B-Material
-of	596	598	I-Material
-interacting	599	610	I-Material
-particles	611	620	I-Material
-.	620	621	O
-
-However	622	629	O
-,	629	630	O
-the	631	634	O
-computational	635	648	O
-expense	649	656	O
-of	657	659	O
-simulating	660	670	O
-the	671	674	O
-flow	675	679	B-Material
-of	680	682	I-Material
-a	683	684	I-Material
-rarefied	685	693	I-Material
-gas	694	697	I-Material
-in	698	700	O
-high	701	705	B-Material
--	705	706	I-Material
-aspect	706	712	I-Material
--	712	713	I-Material
-ratio	713	718	I-Material
-micro	719	724	I-Material
-geometries	725	735	I-Material
-(	736	737	O
-i.e.	737	741	O
-ones	742	746	O
-that	747	751	O
-are	752	755	O
-long	756	760	B-Material
-,	760	761	I-Material
-relative	762	770	I-Material
-to	771	773	I-Material
-their	774	779	I-Material
-cross	780	785	I-Material
-section	786	793	I-Material
-)	793	794	O
-using	795	800	O
-a	801	802	O
-particle	803	811	B-Process
-method	812	818	I-Process
-,	818	819	O
-such	820	824	O
-as	825	827	O
-the	828	831	O
-direct	832	838	B-Process
-simulation	839	849	I-Process
-Monte	850	855	I-Process
-Carlo	856	861	I-Process
-(	862	863	O
-DSMC	863	867	B-Process
-)	867	868	O
-method	869	875	O
-[	876	877	O
-2	877	878	O
-]	878	879	O
-,	879	880	O
-can	881	884	O
-be	885	887	O
-prohibitively	888	901	O
-high	902	906	O
-[	907	908	O
-3,4	908	911	O
-]	911	912	O
-.	912	913	O
-
-The	914	917	O
-computational	918	931	O
-intensity	932	941	O
-of	942	944	O
-the	945	948	O
-particle	949	957	B-Process
-method	958	964	I-Process
-is	965	967	O
-greater	968	975	O
-still	976	981	O
-when	982	986	O
-simulating	987	997	O
-low	998	1001	O
--	1001	1002	O
-speed	1002	1007	O
-microfluidic	1008	1020	B-Material
-devices	1021	1028	I-Material
-where	1029	1034	O
-there	1035	1040	O
-are	1041	1044	O
-only	1045	1049	O
-small	1050	1055	B-Material
-deviations	1056	1066	I-Material
-from	1067	1071	I-Material
-equilibrium	1072	1083	I-Material
-,	1083	1084	O
-characterised	1085	1098	O
-by	1099	1101	O
-extremely	1102	1111	B-Material
-low	1112	1115	I-Material
-Mach	1116	1120	I-Material
-numbers	1121	1128	I-Material
-and	1129	1132	I-Material
-weak	1133	1137	I-Material
-temperature	1138	1149	I-Material
-gradients	1150	1159	I-Material
-.	1159	1160	O
+Designers	0,9	O	O
+of	10,12	O	O
+microfluidic	13,25	O	B-Material
+devices	26,33	O	I-Material
+are	34,37	O	O
+in	38,40	O	O
+need	41,45	O	O
+of	46,48	O	O
+computational	49,62	O	O
+tools	63,68	O	O
+that	69,73	O	O
+can	74,77	O	O
+be	78,80	O	O
+used	81,85	O	O
+to	86,88	O	O
+analyse	89,96	O	B-Task
+problems	97,105	O	I-Task
+that	106,110	O	I-Task
+involve	111,118	O	I-Task
+rarefied	119,127	O	I-Task
+gas	128,131	O	I-Task
+flows	132,137	O	I-Task
+in	138,140	O	I-Task
+complex	141,148	O	I-Task
+micro	149,154	O	I-Task
+geometries	155,165	O	I-Task
+.	165,166	O	O
+
+Numerical	167,176	O	B-Process
+simulation	177,187	O	I-Process
+of	188,190	O	O
+the	191,194	O	O
+gas	195,198	O	B-Material
+flow	199,203	O	I-Material
+through	204,211	O	O
+such	212,216	O	O
+geometries	217,227	O	O
+is	228,230	O	O
+,	230,231	O	O
+however	232,239	O	O
+,	239,240	O	O
+extremely	241,250	O	O
+challenging	251,262	O	O
+.	262,263	O	O
+
+Conventional	264,276	O	B-Process
+continuum	277,286	O	I-Process
+fluid	287,292	O	I-Process
+dynamics	293,301	O	I-Process
+(	302,303	O	O
+CFD	303,306	O	B-Process
+)	306,307	O	O
+becomes	308,315	O	O
+invalid	316,323	O	O
+or	324,326	O	O
+inaccurate	327,337	O	O
+as	338,340	O	O
+the	341,344	O	O
+characteristic	345,359	O	O
+scale	360,365	O	O
+of	366,368	O	O
+the	369,372	O	O
+geometry	373,381	O	O
+(	382,383	O	O
+e.g.	383,387	O	O
+the	388,391	O	O
+channel	392,399	O	O
+height	400,406	O	O
+,	406,407	O	O
+h	408,409	O	O
+)	409,410	O	O
+approaches	411,421	O	O
+the	422,425	O	O
+molecular	426,435	O	O
+mean	436,440	O	O
+free	441,445	O	O
+path	446,450	O	O
+,	450,451	O	O
+λ	452,453	O	O
+[	454,455	O	O
+1,2	455,458	O	O
+]	458,459	O	O
+.	459,460	O	O
+
+When	461,465	O	O
+λ/h≳0.1	466,473	O	O
+,	473,474	O	O
+the	475,478	O	O
+error	479,484	O	O
+in	485,487	O	O
+solutions	488,497	O	O
+obtained	498,506	O	O
+from	507,511	O	O
+CFD	512,515	O	B-Process
+may	516,519	O	O
+be	520,522	O	O
+significant	523,534	O	O
+,	534,535	O	O
+and	536,539	O	O
+we	540,542	O	O
+must	543,547	O	O
+consider	548,556	O	O
+the	557,560	O	O
+fluid	561,566	O	O
+for	567,570	O	O
+what	571,575	O	O
+it	576,578	O	O
+is	579,581	O	O
+:	581,582	O	O
+a	583,584	O	O
+collection	585,595	O	B-Material
+of	596,598	O	I-Material
+interacting	599,610	O	I-Material
+particles	611,620	O	I-Material
+.	620,621	O	O
+
+However	622,629	O	O
+,	629,630	O	O
+the	631,634	O	O
+computational	635,648	O	O
+expense	649,656	O	O
+of	657,659	O	O
+simulating	660,670	O	O
+the	671,674	O	O
+flow	675,679	O	B-Material
+of	680,682	O	I-Material
+a	683,684	O	I-Material
+rarefied	685,693	O	I-Material
+gas	694,697	O	I-Material
+in	698,700	O	O
+high	701,705	O	B-Material
+-	705,706	O	I-Material
+aspect	706,712	O	I-Material
+-	712,713	O	I-Material
+ratio	713,718	O	I-Material
+micro	719,724	O	I-Material
+geometries	725,735	O	I-Material
+(	736,737	O	O
+i.e.	737,741	O	O
+ones	742,746	O	O
+that	747,751	O	O
+are	752,755	O	O
+long	756,760	O	B-Material
+,	760,761	O	I-Material
+relative	762,770	O	I-Material
+to	771,773	O	I-Material
+their	774,779	O	I-Material
+cross	780,785	O	I-Material
+section	786,793	O	I-Material
+)	793,794	O	O
+using	795,800	O	O
+a	801,802	O	O
+particle	803,811	O	B-Process
+method	812,818	O	I-Process
+,	818,819	O	O
+such	820,824	O	O
+as	825,827	O	O
+the	828,831	O	O
+direct	832,838	O	B-Process
+simulation	839,849	O	I-Process
+Monte	850,855	O	I-Process
+Carlo	856,861	O	I-Process
+(	862,863	O	O
+DSMC	863,867	O	B-Process
+)	867,868	O	O
+method	869,875	O	O
+[	876,877	O	O
+2	877,878	O	O
+]	878,879	O	O
+,	879,880	O	O
+can	881,884	O	O
+be	885,887	O	O
+prohibitively	888,901	O	O
+high	902,906	O	O
+[	907,908	O	O
+3,4	908,911	O	O
+]	911,912	O	O
+.	912,913	O	O
+
+The	914,917	O	O
+computational	918,931	O	O
+intensity	932,941	O	O
+of	942,944	O	O
+the	945,948	O	O
+particle	949,957	O	B-Process
+method	958,964	O	I-Process
+is	965,967	O	O
+greater	968,975	O	O
+still	976,981	O	O
+when	982,986	O	O
+simulating	987,997	O	O
+low	998,1001	O	O
+-	1001,1002	O	O
+speed	1002,1007	O	O
+microfluidic	1008,1020	O	B-Material
+devices	1021,1028	O	I-Material
+where	1029,1034	O	O
+there	1035,1040	O	O
+are	1041,1044	O	O
+only	1045,1049	O	O
+small	1050,1055	O	B-Material
+deviations	1056,1066	O	I-Material
+from	1067,1071	O	I-Material
+equilibrium	1072,1083	O	I-Material
+,	1083,1084	O	O
+characterised	1085,1098	O	O
+by	1099,1101	O	O
+extremely	1102,1111	O	B-Material
+low	1112,1115	O	I-Material
+Mach	1116,1120	O	I-Material
+numbers	1121,1128	O	I-Material
+and	1129,1132	O	I-Material
+weak	1133,1137	O	I-Material
+temperature	1138,1149	O	I-Material
+gradients	1150,1159	O	I-Material
+.	1159,1160	O	O
 
 
 -DOCSTART- (S0021999114007396)
 
-In	0	2	O
-this	3	7	O
-work	8	12	O
-,	12	13	O
-we	14	16	O
-have	17	21	O
-developed	22	31	O
-a	32	33	O
-simple	34	40	O
-numerical	41	50	B-Process
-scheme	51	57	I-Process
-based	58	63	O
-on	64	66	O
-the	67	70	O
-Galerkin	71	79	B-Process
-finite	80	86	I-Process
-element	87	94	I-Process
-method	95	101	I-Process
-for	102	105	O
-a	106	107	O
-multi	108	113	B-Task
--	113	114	I-Task
-term	114	118	I-Task
-time	119	123	I-Task
-fractional	124	134	I-Task
-diffusion	135	144	I-Task
-equation	145	153	I-Task
-which	154	159	O
-involves	160	168	O
-multiple	169	177	B-Process
-Caputo	178	184	I-Process
-fractional	185	195	I-Process
-derivatives	196	207	I-Process
-in	208	210	I-Process
-time	211	215	I-Process
-.	215	216	O
-
-A	217	218	O
-complete	219	227	O
-error	228	233	O
-analysis	234	242	O
-of	243	245	O
-the	246	249	O
-space	250	255	O
-semidiscrete	256	268	O
-Galerkin	269	277	B-Process
-scheme	278	284	I-Process
-is	285	287	O
-provided	288	296	O
-.	296	297	O
-
-The	298	301	O
-theory	302	308	O
-covers	309	315	O
-the	316	319	O
-practically	320	331	O
-very	332	336	O
-important	337	346	O
-case	347	351	O
-of	352	354	O
-nonsmooth	355	364	O
-initial	365	372	O
-data	373	377	O
-and	378	381	O
-right	382	387	O
-hand	388	392	O
-side	393	397	O
-.	397	398	O
-
-The	399	402	O
-analysis	403	411	O
-relies	412	418	O
-essentially	419	430	O
-on	431	433	O
-some	434	438	O
-new	439	442	B-Material
-regularity	443	453	I-Material
-results	454	461	I-Material
-of	462	464	O
-the	465	468	O
-multi	469	474	O
--	474	475	O
-term	475	479	O
-time	480	484	O
-fractional	485	495	O
-diffusion	496	505	O
-equation	506	514	O
-.	514	515	O
-
-Further	516	523	O
-,	523	524	O
-we	525	527	O
-have	528	532	O
-developed	533	542	O
-a	543	544	O
-fully	545	550	B-Process
-discrete	551	559	I-Process
-scheme	560	566	I-Process
-based	567	572	O
-on	573	575	O
-a	576	577	O
-finite	578	584	B-Process
-difference	585	595	I-Process
-discretization	596	610	I-Process
-of	611	613	I-Process
-the	614	617	I-Process
-Caputo	618	624	I-Process
-fractional	625	635	I-Process
-derivatives	636	647	I-Process
-.	647	648	O
-
-The	649	652	O
-stability	653	662	O
-and	663	666	O
-error	667	672	O
-estimate	673	681	O
-of	682	684	O
-the	685	688	O
-fully	689	694	O
-discrete	695	703	O
-scheme	704	710	O
-were	711	715	O
-established	716	727	O
-,	727	728	O
-provided	729	737	O
-that	738	742	O
-the	743	746	O
-solution	747	755	O
-is	756	758	O
-smooth	759	765	O
-.	765	766	O
-
-The	767	770	O
-extensive	771	780	O
-numerical	781	790	B-Process
-experiments	791	802	I-Process
-in	803	805	O
-one-	806	810	B-Process
-and	811	814	I-Process
-two	815	818	I-Process
--	818	819	I-Process
-dimension	819	828	I-Process
-fully	829	834	O
-confirmed	835	844	O
-our	845	848	O
-convergence	849	860	O
-analysis	861	869	O
-:	869	870	O
-the	871	874	O
-empirical	875	884	B-Material
-convergence	885	896	I-Material
-rates	897	902	I-Material
-agree	903	908	O
-well	909	913	O
-with	914	918	O
-the	919	922	O
-theoretical	923	934	O
-predictions	935	946	O
-for	947	950	O
-both	951	955	O
-smooth	956	962	O
-and	963	966	O
-nonsmooth	967	976	O
-data	977	981	O
-.	981	982	O
+In	0,2	O	O
+this	3,7	O	O
+work	8,12	O	O
+,	12,13	O	O
+we	14,16	O	O
+have	17,21	O	O
+developed	22,31	O	O
+a	32,33	O	O
+simple	34,40	O	O
+numerical	41,50	O	B-Process
+scheme	51,57	O	I-Process
+based	58,63	O	O
+on	64,66	O	O
+the	67,70	O	O
+Galerkin	71,79	O	B-Process
+finite	80,86	O	I-Process
+element	87,94	O	I-Process
+method	95,101	O	I-Process
+for	102,105	O	O
+a	106,107	O	O
+multi	108,113	O	B-Task
+-	113,114	O	I-Task
+term	114,118	O	I-Task
+time	119,123	O	I-Task
+fractional	124,134	O	I-Task
+diffusion	135,144	O	I-Task
+equation	145,153	O	I-Task
+which	154,159	O	O
+involves	160,168	O	O
+multiple	169,177	O	B-Process
+Caputo	178,184	O	I-Process
+fractional	185,195	O	I-Process
+derivatives	196,207	O	I-Process
+in	208,210	O	I-Process
+time	211,215	O	I-Process
+.	215,216	O	O
+
+A	217,218	O	O
+complete	219,227	O	O
+error	228,233	O	O
+analysis	234,242	O	O
+of	243,245	O	O
+the	246,249	O	O
+space	250,255	O	O
+semidiscrete	256,268	O	O
+Galerkin	269,277	O	B-Process
+scheme	278,284	O	I-Process
+is	285,287	O	O
+provided	288,296	O	O
+.	296,297	O	O
+
+The	298,301	O	O
+theory	302,308	O	O
+covers	309,315	O	O
+the	316,319	O	O
+practically	320,331	O	O
+very	332,336	O	O
+important	337,346	O	O
+case	347,351	O	O
+of	352,354	O	O
+nonsmooth	355,364	O	O
+initial	365,372	O	O
+data	373,377	O	O
+and	378,381	O	O
+right	382,387	O	O
+hand	388,392	O	O
+side	393,397	O	O
+.	397,398	O	O
+
+The	399,402	O	O
+analysis	403,411	O	O
+relies	412,418	O	O
+essentially	419,430	O	O
+on	431,433	O	O
+some	434,438	O	O
+new	439,442	O	B-Material
+regularity	443,453	O	I-Material
+results	454,461	O	I-Material
+of	462,464	O	O
+the	465,468	O	O
+multi	469,474	O	O
+-	474,475	O	O
+term	475,479	O	O
+time	480,484	O	O
+fractional	485,495	O	O
+diffusion	496,505	O	O
+equation	506,514	O	O
+.	514,515	O	O
+
+Further	516,523	O	O
+,	523,524	O	O
+we	525,527	O	O
+have	528,532	O	O
+developed	533,542	O	O
+a	543,544	O	O
+fully	545,550	O	B-Process
+discrete	551,559	O	I-Process
+scheme	560,566	O	I-Process
+based	567,572	O	O
+on	573,575	O	O
+a	576,577	O	O
+finite	578,584	O	B-Process
+difference	585,595	O	I-Process
+discretization	596,610	O	I-Process
+of	611,613	O	I-Process
+the	614,617	O	I-Process
+Caputo	618,624	O	I-Process
+fractional	625,635	O	I-Process
+derivatives	636,647	O	I-Process
+.	647,648	O	O
+
+The	649,652	O	O
+stability	653,662	O	O
+and	663,666	O	O
+error	667,672	O	O
+estimate	673,681	O	O
+of	682,684	O	O
+the	685,688	O	O
+fully	689,694	O	O
+discrete	695,703	O	O
+scheme	704,710	O	O
+were	711,715	O	O
+established	716,727	O	O
+,	727,728	O	O
+provided	729,737	O	O
+that	738,742	O	O
+the	743,746	O	O
+solution	747,755	O	O
+is	756,758	O	O
+smooth	759,765	O	O
+.	765,766	O	O
+
+The	767,770	O	O
+extensive	771,780	O	O
+numerical	781,790	O	B-Process
+experiments	791,802	O	I-Process
+in	803,805	O	O
+one-	806,810	O	B-Process
+and	811,814	O	I-Process
+two	815,818	O	I-Process
+-	818,819	O	I-Process
+dimension	819,828	O	I-Process
+fully	829,834	O	O
+confirmed	835,844	O	O
+our	845,848	O	O
+convergence	849,860	O	O
+analysis	861,869	O	O
+:	869,870	O	O
+the	871,874	O	O
+empirical	875,884	O	B-Material
+convergence	885,896	O	I-Material
+rates	897,902	O	I-Material
+agree	903,908	O	O
+well	909,913	O	O
+with	914,918	O	O
+the	919,922	O	O
+theoretical	923,934	O	O
+predictions	935,946	O	O
+for	947,950	O	O
+both	951,955	O	O
+smooth	956,962	O	O
+and	963,966	O	O
+nonsmooth	967,976	O	O
+data	977,981	O	O
+.	981,982	O	O
 
 
 -DOCSTART- (S0021999114007876)
 
-In	0	2	O
-this	3	7	O
-work	8	12	O
-,	12	13	O
-light	14	19	B-Task
-propagation	20	31	I-Task
-in	32	34	I-Task
-a	35	36	I-Task
-scattering	37	47	I-Task
-medium	48	54	I-Task
-with	55	59	I-Task
-piece	60	65	I-Task
--	65	66	I-Task
-wise	66	70	I-Task
-constant	71	79	I-Task
-refractive	80	90	I-Task
-index	91	96	I-Task
-using	97	102	O
-the	103	106	O
-radiative	107	116	B-Process
-transport	117	126	I-Process
-equation	127	135	I-Process
-was	136	139	O
-studied	140	147	O
-.	147	148	O
-
-Light	149	154	O
-propagation	155	166	O
-in	167	169	O
-each	170	174	O
-sub	175	178	O
--	178	179	O
-domain	179	185	O
-with	186	190	O
-a	191	192	O
-constant	193	201	O
-refractive	202	212	O
-index	213	218	O
-was	219	222	O
-modeled	223	230	O
-using	231	236	O
-the	237	240	O
-RTE	241	244	B-Process
-and	245	248	O
-the	249	252	O
-equations	253	262	O
-were	263	267	O
-coupled	268	275	O
-using	276	281	O
-boundary	282	290	O
-conditions	291	301	O
-describing	302	312	O
-Fresnel	313	320	B-Process
-reflection	321	331	I-Process
-and	332	335	I-Process
-transmission	336	348	I-Process
-phenomenas	349	359	I-Process
-on	360	362	O
-the	363	366	O
-interfaces	367	377	O
-between	378	385	O
-the	386	389	O
-sub	390	393	O
--	393	394	O
-domains	394	401	O
-.	401	402	O
-
-The	403	406	O
-resulting	407	416	O
-coupled	417	424	B-Process
-system	425	431	I-Process
-of	432	434	I-Process
-RTEs	435	439	I-Process
-was	440	443	O
-numerically	444	455	O
-solved	456	462	O
-using	463	468	O
-the	469	472	O
-FEM	473	476	B-Process
-.	476	477	O
-
-The	478	481	O
-proposed	482	490	O
-model	491	496	O
-was	497	500	O
-tested	501	507	O
-using	508	513	O
-simulations	514	525	B-Process
-and	526	529	O
-was	530	533	O
-compared	534	542	O
-with	543	547	O
-the	548	551	O
-solution	552	560	B-Material
-of	561	563	I-Material
-the	564	567	I-Material
-Monte	568	573	I-Material
-Carlo	574	579	I-Material
-method	580	586	I-Material
-.	586	587	O
-
-The	588	591	O
-results	592	599	O
-show	600	604	O
-that	605	609	O
-the	610	613	O
-coupled	614	621	O
-RTE	622	625	B-Process
-model	626	631	O
-describes	632	641	O
-light	642	647	O
-propagation	648	659	O
-accurately	660	670	O
-in	671	673	O
-comparison	674	684	O
-with	685	689	O
-the	690	693	O
-Monte	694	699	B-Material
-Carlo	700	705	I-Material
-method	706	712	I-Material
-.	712	713	O
-
-In	714	716	O
-addition	717	725	O
-,	725	726	O
-results	727	734	O
-show	735	739	O
-that	740	744	O
-neglecting	745	755	O
-internal	756	764	O
-refractive	765	775	O
-index	776	781	O
-changes	782	789	O
-can	790	793	O
-lead	794	798	O
-to	799	801	O
-erroneous	802	811	O
-boundary	812	820	O
-measurements	821	833	O
-of	834	836	O
-scattered	837	846	O
-light	847	852	O
-.	852	853	O
-
-This	854	858	O
-indicates	859	868	O
-that	869	873	O
-the	874	877	O
-quality	878	885	O
-of	886	888	O
-the	889	892	O
-DOT	893	896	B-Process
-reconstructions	897	912	I-Process
-could	913	918	O
-possible	919	927	O
-be	928	930	O
-increased	931	940	O
-by	941	943	O
-incorporating	944	957	O
-a	958	959	O
-model	960	965	O
-for	966	969	O
-internal	970	978	O
-refractive	979	989	B-Process
-index	990	995	I-Process
-changes	996	1003	I-Process
-in	1004	1006	O
-the	1007	1010	O
-image	1011	1016	B-Process
-reconstruction	1017	1031	I-Process
-procedure	1032	1041	I-Process
-.	1041	1042	O
+In	0,2	O	O
+this	3,7	O	O
+work	8,12	O	O
+,	12,13	O	O
+light	14,19	O	B-Task
+propagation	20,31	O	I-Task
+in	32,34	O	I-Task
+a	35,36	O	I-Task
+scattering	37,47	O	I-Task
+medium	48,54	O	I-Task
+with	55,59	O	I-Task
+piece	60,65	O	I-Task
+-	65,66	O	I-Task
+wise	66,70	O	I-Task
+constant	71,79	O	I-Task
+refractive	80,90	O	I-Task
+index	91,96	O	I-Task
+using	97,102	O	O
+the	103,106	O	O
+radiative	107,116	O	B-Process
+transport	117,126	O	I-Process
+equation	127,135	O	I-Process
+was	136,139	O	O
+studied	140,147	O	O
+.	147,148	O	O
+
+Light	149,154	O	O
+propagation	155,166	O	O
+in	167,169	O	O
+each	170,174	O	O
+sub	175,178	O	O
+-	178,179	O	O
+domain	179,185	O	O
+with	186,190	O	O
+a	191,192	O	O
+constant	193,201	O	O
+refractive	202,212	O	O
+index	213,218	O	O
+was	219,222	O	O
+modeled	223,230	O	O
+using	231,236	O	O
+the	237,240	O	O
+RTE	241,244	O	B-Process
+and	245,248	O	O
+the	249,252	O	O
+equations	253,262	O	O
+were	263,267	O	O
+coupled	268,275	O	O
+using	276,281	O	O
+boundary	282,290	O	O
+conditions	291,301	O	O
+describing	302,312	O	O
+Fresnel	313,320	O	B-Process
+reflection	321,331	O	I-Process
+and	332,335	O	I-Process
+transmission	336,348	O	I-Process
+phenomenas	349,359	O	I-Process
+on	360,362	O	O
+the	363,366	O	O
+interfaces	367,377	O	O
+between	378,385	O	O
+the	386,389	O	O
+sub	390,393	O	O
+-	393,394	O	O
+domains	394,401	O	O
+.	401,402	O	O
+
+The	403,406	O	O
+resulting	407,416	O	O
+coupled	417,424	O	B-Process
+system	425,431	O	I-Process
+of	432,434	O	I-Process
+RTEs	435,439	O	I-Process
+was	440,443	O	O
+numerically	444,455	O	O
+solved	456,462	O	O
+using	463,468	O	O
+the	469,472	O	O
+FEM	473,476	O	B-Process
+.	476,477	O	O
+
+The	478,481	O	O
+proposed	482,490	O	O
+model	491,496	O	O
+was	497,500	O	O
+tested	501,507	O	O
+using	508,513	O	O
+simulations	514,525	O	B-Process
+and	526,529	O	O
+was	530,533	O	O
+compared	534,542	O	O
+with	543,547	O	O
+the	548,551	O	O
+solution	552,560	O	B-Material
+of	561,563	O	I-Material
+the	564,567	O	I-Material
+Monte	568,573	O	I-Material
+Carlo	574,579	O	I-Material
+method	580,586	O	I-Material
+.	586,587	O	O
+
+The	588,591	O	O
+results	592,599	O	O
+show	600,604	O	O
+that	605,609	O	O
+the	610,613	O	O
+coupled	614,621	O	O
+RTE	622,625	O	B-Process
+model	626,631	O	O
+describes	632,641	O	O
+light	642,647	O	O
+propagation	648,659	O	O
+accurately	660,670	O	O
+in	671,673	O	O
+comparison	674,684	O	O
+with	685,689	O	O
+the	690,693	O	O
+Monte	694,699	O	B-Material
+Carlo	700,705	O	I-Material
+method	706,712	O	I-Material
+.	712,713	O	O
+
+In	714,716	O	O
+addition	717,725	O	O
+,	725,726	O	O
+results	727,734	O	O
+show	735,739	O	O
+that	740,744	O	O
+neglecting	745,755	O	O
+internal	756,764	O	O
+refractive	765,775	O	O
+index	776,781	O	O
+changes	782,789	O	O
+can	790,793	O	O
+lead	794,798	O	O
+to	799,801	O	O
+erroneous	802,811	O	O
+boundary	812,820	O	O
+measurements	821,833	O	O
+of	834,836	O	O
+scattered	837,846	O	O
+light	847,852	O	O
+.	852,853	O	O
+
+This	854,858	O	O
+indicates	859,868	O	O
+that	869,873	O	O
+the	874,877	O	O
+quality	878,885	O	O
+of	886,888	O	O
+the	889,892	O	O
+DOT	893,896	O	B-Process
+reconstructions	897,912	O	I-Process
+could	913,918	O	O
+possible	919,927	O	O
+be	928,930	O	O
+increased	931,940	O	O
+by	941,943	O	O
+incorporating	944,957	O	O
+a	958,959	O	O
+model	960,965	O	O
+for	966,969	O	O
+internal	970,978	O	O
+refractive	979,989	O	B-Process
+index	990,995	O	I-Process
+changes	996,1003	O	I-Process
+in	1004,1006	O	O
+the	1007,1010	O	O
+image	1011,1016	O	B-Process
+reconstruction	1017,1031	O	I-Process
+procedure	1032,1041	O	I-Process
+.	1041,1042	O	O
 
 
 -DOCSTART- (S0021999114008432)
 
-The	0	3	O
-validity	4	12	B-Task
-of	13	15	I-Task
-semi	16	20	I-Task
--	20	21	I-Task
-classical	21	30	I-Task
-boundary	31	39	I-Task
-conditions	40	50	I-Task
-for	51	54	O
-the	55	58	O
-WTE	59	62	O
-as	63	65	O
-introduced	66	76	O
-in	77	79	O
-[	80	81	O
-8	81	82	O
-]	82	83	O
-is	84	86	O
-a	87	88	O
-topic	89	94	O
-under	95	100	O
-vivid	101	106	O
-debate	107	113	O
-,	113	114	O
-especially	115	125	O
-after	126	131	O
-recent	132	138	O
-works	139	144	O
-which	145	150	O
-address	151	158	O
-the	159	162	O
-non	163	166	B-Process
--	166	167	I-Process
-uniqueness	167	177	I-Process
-and	178	181	I-Process
-the	182	185	I-Process
-symmetry	186	194	I-Process
-properties	195	205	I-Process
-of	206	208	I-Process
-the	209	212	I-Process
-Wigner	213	219	I-Process
-function	220	228	I-Process
-[	229	230	O
-27,28,46	230	238	O
-]	238	239	O
-.	239	240	O
-
-The	241	244	O
-numerical	245	254	B-Material
-test	255	259	I-Material
-cases	260	265	I-Material
-presented	266	275	O
-therein	276	283	O
-are	284	287	O
-for	288	291	O
-symmetric	292	301	B-Material
-potentials	302	312	I-Material
-for	313	316	O
-which	317	322	O
-we	323	325	O
-can	326	329	O
-not	329	332	O
-provide	333	340	O
-reliable	341	349	O
-,	349	350	O
-i.e.	351	355	O
-well	356	360	O
--	360	361	O
-resolved	361	369	O
-,	369	370	O
-results	371	378	O
-due	379	382	O
-to	383	385	O
-the	386	389	O
-presence	390	398	O
-of	399	401	O
-singular	402	410	O
-terms	411	416	O
-in	417	419	O
-the	420	423	O
-steady	424	430	B-Process
-state	431	436	I-Process
-Wigner	437	443	I-Process
-functions	444	453	I-Process
-,	453	454	O
-see	455	458	O
-Section	459	466	O
-4.3	467	470	O
-.	470	471	O
-
-Other	472	477	B-Material
-recent	478	484	I-Material
-studies	485	492	I-Material
-demonstrate	493	504	O
-the	505	508	O
-convergence	509	520	B-Task
-of	521	523	I-Task
-the	524	527	I-Task
-WTE	528	531	I-Task
-calculations	532	544	I-Task
-upon	545	549	O
-increasing	550	560	B-Process
-the	561	564	I-Process
-size	565	569	I-Process
-of	570	572	I-Process
-the	573	576	I-Process
-simulation	577	587	I-Process
-domain	588	594	I-Process
-[	595	596	O
-44	596	598	O
-]	598	599	O
-as	600	602	O
-well	603	607	O
-as	608	610	O
-possible	611	619	O
-improvements	620	632	O
-by	633	635	O
-adapting	636	644	B-Process
-the	645	648	I-Process
-boundary	649	657	I-Process
-distribution	658	670	I-Process
-to	671	673	O
-the	674	677	O
-physical	678	686	O
-state	687	692	O
-of	693	695	O
-the	696	699	O
-active	700	706	O
-device	707	713	O
-region	714	720	O
-[	721	722	O
-47	722	724	O
-]	724	725	O
-.	725	726	O
-
-Despite	727	734	O
-their	735	740	O
-approximate	741	752	O
-nature	753	759	O
-we	760	762	O
-employ	763	769	B-Process
-inflow	770	776	I-Process
-/	776	777	I-Process
-outflow	777	784	I-Process
-boundary	785	793	I-Process
-conditions	794	804	I-Process
-here	805	809	O
-as	810	812	O
-well	813	817	O
-and	818	821	O
-demonstrate	822	833	O
-that	834	838	O
-accurate	839	847	B-Task
-and	848	851	I-Task
-physically	852	862	I-Task
-valid	863	868	I-Task
-results	869	876	I-Task
-can	877	880	O
-be	881	883	O
-achieved	884	892	O
-for	893	896	O
-sufficiently	897	909	O
-large	910	915	O
-values	916	922	O
-of	923	925	O
-Lres	926	930	O
-.	930	931	O
-
-Due	932	935	O
-to	936	938	O
-the	939	942	O
-problematics	943	955	O
-with	956	960	O
-singular	961	969	O
-terms	970	975	O
-we	976	978	O
-present	979	986	B-Task
-simulations	987	998	I-Task
-only	999	1003	I-Task
-for	1004	1007	I-Task
-non	1008	1011	I-Task
--	1011	1012	I-Task
-zero	1012	1016	I-Task
-bias	1017	1021	I-Task
-voltages	1022	1030	I-Task
-VDS≠0	1031	1036	O
-V.	1037	1039	O
+The	0,3	O	O
+validity	4,12	O	B-Task
+of	13,15	O	I-Task
+semi	16,20	O	I-Task
+-	20,21	O	I-Task
+classical	21,30	O	I-Task
+boundary	31,39	O	I-Task
+conditions	40,50	O	I-Task
+for	51,54	O	O
+the	55,58	O	O
+WTE	59,62	O	O
+as	63,65	O	O
+introduced	66,76	O	O
+in	77,79	O	O
+[	80,81	O	O
+8	81,82	O	O
+]	82,83	O	O
+is	84,86	O	O
+a	87,88	O	O
+topic	89,94	O	O
+under	95,100	O	O
+vivid	101,106	O	O
+debate	107,113	O	O
+,	113,114	O	O
+especially	115,125	O	O
+after	126,131	O	O
+recent	132,138	O	O
+works	139,144	O	O
+which	145,150	O	O
+address	151,158	O	O
+the	159,162	O	O
+non	163,166	O	B-Process
+-	166,167	O	I-Process
+uniqueness	167,177	O	I-Process
+and	178,181	O	I-Process
+the	182,185	O	I-Process
+symmetry	186,194	O	I-Process
+properties	195,205	O	I-Process
+of	206,208	O	I-Process
+the	209,212	O	I-Process
+Wigner	213,219	O	I-Process
+function	220,228	O	I-Process
+[	229,230	O	O
+27,28,46	230,238	O	O
+]	238,239	O	O
+.	239,240	O	O
+
+The	241,244	O	O
+numerical	245,254	O	B-Material
+test	255,259	O	I-Material
+cases	260,265	O	I-Material
+presented	266,275	O	O
+therein	276,283	O	O
+are	284,287	O	O
+for	288,291	O	O
+symmetric	292,301	O	B-Material
+potentials	302,312	O	I-Material
+for	313,316	O	O
+which	317,322	O	O
+we	323,325	O	O
+can	326,329	O	O
+not	329,332	O	O
+provide	333,340	O	O
+reliable	341,349	O	O
+,	349,350	O	O
+i.e.	351,355	O	O
+well	356,360	O	O
+-	360,361	O	O
+resolved	361,369	O	O
+,	369,370	O	O
+results	371,378	O	O
+due	379,382	O	O
+to	383,385	O	O
+the	386,389	O	O
+presence	390,398	O	O
+of	399,401	O	O
+singular	402,410	O	O
+terms	411,416	O	O
+in	417,419	O	O
+the	420,423	O	O
+steady	424,430	O	B-Process
+state	431,436	O	I-Process
+Wigner	437,443	O	I-Process
+functions	444,453	O	I-Process
+,	453,454	O	O
+see	455,458	O	O
+Section	459,466	O	O
+4.3	467,470	O	O
+.	470,471	O	O
+
+Other	472,477	O	B-Material
+recent	478,484	O	I-Material
+studies	485,492	O	I-Material
+demonstrate	493,504	O	O
+the	505,508	O	O
+convergence	509,520	O	B-Task
+of	521,523	O	I-Task
+the	524,527	O	I-Task
+WTE	528,531	O	I-Task
+calculations	532,544	O	I-Task
+upon	545,549	O	O
+increasing	550,560	O	B-Process
+the	561,564	O	I-Process
+size	565,569	O	I-Process
+of	570,572	O	I-Process
+the	573,576	O	I-Process
+simulation	577,587	O	I-Process
+domain	588,594	O	I-Process
+[	595,596	O	O
+44	596,598	O	O
+]	598,599	O	O
+as	600,602	O	O
+well	603,607	O	O
+as	608,610	O	O
+possible	611,619	O	O
+improvements	620,632	O	O
+by	633,635	O	O
+adapting	636,644	O	B-Process
+the	645,648	O	I-Process
+boundary	649,657	O	I-Process
+distribution	658,670	O	I-Process
+to	671,673	O	O
+the	674,677	O	O
+physical	678,686	O	O
+state	687,692	O	O
+of	693,695	O	O
+the	696,699	O	O
+active	700,706	O	O
+device	707,713	O	O
+region	714,720	O	O
+[	721,722	O	O
+47	722,724	O	O
+]	724,725	O	O
+.	725,726	O	O
+
+Despite	727,734	O	O
+their	735,740	O	O
+approximate	741,752	O	O
+nature	753,759	O	O
+we	760,762	O	O
+employ	763,769	O	B-Process
+inflow	770,776	O	I-Process
+/	776,777	O	I-Process
+outflow	777,784	O	I-Process
+boundary	785,793	O	I-Process
+conditions	794,804	O	I-Process
+here	805,809	O	O
+as	810,812	O	O
+well	813,817	O	O
+and	818,821	O	O
+demonstrate	822,833	O	O
+that	834,838	O	O
+accurate	839,847	O	B-Task
+and	848,851	O	I-Task
+physically	852,862	O	I-Task
+valid	863,868	O	I-Task
+results	869,876	O	I-Task
+can	877,880	O	O
+be	881,883	O	O
+achieved	884,892	O	O
+for	893,896	O	O
+sufficiently	897,909	O	O
+large	910,915	O	O
+values	916,922	O	O
+of	923,925	O	O
+Lres	926,930	O	O
+.	930,931	O	O
+
+Due	932,935	O	O
+to	936,938	O	O
+the	939,942	O	O
+problematics	943,955	O	O
+with	956,960	O	O
+singular	961,969	O	O
+terms	970,975	O	O
+we	976,978	O	O
+present	979,986	O	B-Task
+simulations	987,998	O	I-Task
+only	999,1003	O	I-Task
+for	1004,1007	O	I-Task
+non	1008,1011	O	I-Task
+-	1011,1012	O	I-Task
+zero	1012,1016	O	I-Task
+bias	1017,1021	O	I-Task
+voltages	1022,1030	O	I-Task
+VDS≠0	1031,1036	O	O
+V.	1037,1039	O	O
 
 
 -DOCSTART- (S0021999114008523)
 
-A	0	1	O
-multi	2	7	B-Process
--	7	8	I-Process
-physics	8	15	I-Process
-description	16	27	I-Process
-of	28	30	I-Process
-a	31	32	I-Process
-multiscale	33	43	I-Process
-system	44	50	I-Process
-is	51	53	O
-often	54	59	O
-referred	60	68	O
-to	69	71	O
-as	72	74	O
-a	75	76	O
-‘	77	78	B-Process
-hybrid’	78	85	I-Process
-model	86	91	I-Process
-.	91	92	O
-
-In	93	95	O
-fluid	96	101	B-Task
-dynamics	102	110	I-Task
-,	110	111	O
-a	112	113	O
-typical	114	121	O
-hybrid	122	128	B-Process
-combines	129	137	O
-a	138	139	O
-molecular	140	149	B-Process
-treatment	150	159	I-Process
-(	160	161	O
-a	161	162	O
-‘	163	164	B-Process
-micro’	164	170	I-Process
-model	171	176	I-Process
-)	176	177	O
-with	178	182	O
-a	183	184	O
-continuum	185	194	B-Process
--	194	195	I-Process
-fluid	195	200	I-Process
-one	201	204	I-Process
-(	205	206	O
-a	206	207	O
-‘	208	209	O
-macro’	209	215	B-Process
-model	216	221	I-Process
-)	221	222	O
-,	222	223	O
-with	224	228	O
-the	229	232	O
-aim	233	236	O
-of	237	239	O
-obtaining	240	249	B-Task
-the	250	253	I-Task
-accuracy	254	262	I-Task
-of	263	265	I-Task
-the	266	269	I-Task
-former	270	276	I-Task
-with	277	281	I-Task
-the	282	285	I-Task
-efficiency	286	296	I-Task
-of	297	299	I-Task
-the	300	303	I-Task
-latter	304	310	I-Task
-[	311	312	O
-1–4	312	315	O
-]	315	316	O
-.	316	317	O
-
-The	318	321	O
-micro	322	327	B-Process
-and	328	331	I-Process
-macro	332	337	I-Process
-models	338	344	I-Process
-generally	345	354	O
-have	355	359	O
-characteristic	360	374	O
-timescales	375	385	O
-that	386	390	O
-are	391	394	O
-very	395	399	O
-different	400	409	O
-,	409	410	O
-which	411	416	O
-means	417	422	O
-that	423	427	O
-time	428	432	O
--	432	433	O
-accurate	433	441	O
-simulations	442	453	O
-can	454	457	O
-be	458	460	O
-extremely	461	470	O
-challenging	471	482	O
-:	482	483	O
-the	484	487	O
-size	488	492	O
-of	493	495	O
-the	496	499	O
-timestep	500	508	O
-required	509	517	O
-to	518	520	O
-make	521	525	O
-the	526	529	O
-micro	530	535	O
-model	536	541	O
-stable	542	548	O
-and	549	552	O
-accurate	553	561	O
-is	562	564	O
-so	565	567	O
-small	568	573	O
-that	574	578	O
-simulations	579	590	O
-over	591	595	O
-significant	596	607	O
-macro	608	613	O
--	613	614	O
-scale	614	619	O
-time	620	624	O
-periods	625	632	O
-are	633	636	O
-intractable	637	648	O
-.	648	649	O
-
-If	650	652	O
-the	653	656	O
-system	657	663	O
-is	664	666	O
-‘	667	668	O
-scale	668	673	B-Process
--	673	674	I-Process
-separated’	674	684	I-Process
-,	684	685	O
-a	686	687	O
-physical	688	696	B-Process
-(	697	698	I-Process
-as	698	700	I-Process
-distinct	701	709	I-Process
-from	710	714	I-Process
-numerical	715	724	I-Process
-)	724	725	I-Process
-approximation	726	739	I-Process
-can	740	743	O
-be	744	746	O
-made	747	751	O
-that	752	756	O
-enables	757	764	O
-the	765	768	O
-coupled	769	776	B-Process
-models	777	783	I-Process
-to	784	786	O
-advance	787	794	O
-at	795	797	O
-different	798	807	O
-rates	808	813	O
-(	814	815	O
-asynchronously	815	829	O
-)	829	830	O
-with	831	835	O
-negligible	836	846	O
-penalty	847	854	O
-on	855	857	O
-macro	858	863	O
--	863	864	O
-scale	864	869	O
-accuracy	870	878	O
-.	878	879	O
-
-E	880	881	O
-et	882	884	O
-al	885	887	O
-.	887	888	O
-
-[	889	890	O
-5	890	891	O
-]	891	892	O
-were	893	897	O
-the	898	901	O
-first	902	907	O
-to	908	910	O
-introduce	911	920	O
-and	921	924	O
-implement	925	934	O
-this	935	939	O
-concept	940	947	O
-in	948	950	O
-a	951	952	O
-time	953	957	B-Process
--	957	958	I-Process
-stepping	958	966	I-Process
-method	967	973	I-Process
-for	974	977	I-Process
-coupled	978	985	I-Process
-systems	986	993	I-Process
-,	993	994	O
-referred	995	1003	O
-to	1004	1006	O
-in	1007	1009	O
-the	1010	1013	O
-classification	1014	1028	O
-of	1029	1031	O
-Lockerby	1032	1040	O
-et	1041	1043	O
-al	1044	1046	O
-.	1046	1047	O
-
-[	1048	1049	O
-6	1049	1050	O
-]	1050	1051	O
-as	1052	1054	O
-a	1055	1056	O
-continuous	1057	1067	B-Process
-asynchronous	1068	1080	I-Process
-(	1081	1082	O
-CA	1082	1084	B-Process
-)	1084	1085	O
-scheme	1086	1092	O
-(	1093	1094	O
-‘	1094	1095	O
-continuous’	1095	1106	O
-since	1107	1112	O
-the	1113	1116	O
-micro	1117	1122	B-Process
-and	1123	1126	I-Process
-macro	1127	1132	I-Process
-models	1133	1139	I-Process
-advance	1140	1147	O
-without	1148	1155	O
-interruption	1156	1168	O
-[	1169	1170	O
-5	1170	1171	O
-]	1171	1172	O
-)	1172	1173	O
-.	1173	1174	O
-
-In	1175	1177	O
-this	1178	1182	O
-paper	1183	1188	O
-we	1189	1191	O
-extend	1192	1198	O
-this	1199	1203	O
-idea	1204	1208	O
-to	1209	1211	O
-multiscale	1212	1222	B-Task
-systems	1223	1230	I-Task
-comprising	1231	1241	I-Task
-an	1242	1244	I-Task
-arbitrary	1245	1254	I-Task
-number	1255	1261	I-Task
-of	1262	1264	I-Task
-coupled	1265	1272	I-Task
-models	1273	1279	I-Task
-.	1279	1280	O
+A	0,1	O	O
+multi	2,7	O	B-Process
+-	7,8	O	I-Process
+physics	8,15	O	I-Process
+description	16,27	O	I-Process
+of	28,30	O	I-Process
+a	31,32	O	I-Process
+multiscale	33,43	O	I-Process
+system	44,50	O	I-Process
+is	51,53	O	O
+often	54,59	O	O
+referred	60,68	O	O
+to	69,71	O	O
+as	72,74	O	O
+a	75,76	O	O
+‘	77,78	O	B-Process
+hybrid’	78,85	O	I-Process
+model	86,91	O	I-Process
+.	91,92	O	O
+
+In	93,95	O	O
+fluid	96,101	O	B-Task
+dynamics	102,110	O	I-Task
+,	110,111	O	O
+a	112,113	O	O
+typical	114,121	O	O
+hybrid	122,128	O	B-Process
+combines	129,137	O	O
+a	138,139	O	O
+molecular	140,149	O	B-Process
+treatment	150,159	O	I-Process
+(	160,161	O	O
+a	161,162	O	O
+‘	163,164	O	B-Process
+micro’	164,170	O	I-Process
+model	171,176	O	I-Process
+)	176,177	O	O
+with	178,182	O	O
+a	183,184	O	O
+continuum	185,194	O	B-Process
+-	194,195	O	I-Process
+fluid	195,200	O	I-Process
+one	201,204	O	I-Process
+(	205,206	O	O
+a	206,207	O	O
+‘	208,209	O	O
+macro’	209,215	O	B-Process
+model	216,221	O	I-Process
+)	221,222	O	O
+,	222,223	O	O
+with	224,228	O	O
+the	229,232	O	O
+aim	233,236	O	O
+of	237,239	O	O
+obtaining	240,249	O	B-Task
+the	250,253	O	I-Task
+accuracy	254,262	O	I-Task
+of	263,265	O	I-Task
+the	266,269	O	I-Task
+former	270,276	O	I-Task
+with	277,281	O	I-Task
+the	282,285	O	I-Task
+efficiency	286,296	O	I-Task
+of	297,299	O	I-Task
+the	300,303	O	I-Task
+latter	304,310	O	I-Task
+[	311,312	O	O
+1–4	312,315	O	O
+]	315,316	O	O
+.	316,317	O	O
+
+The	318,321	O	O
+micro	322,327	O	B-Process
+and	328,331	O	I-Process
+macro	332,337	O	I-Process
+models	338,344	O	I-Process
+generally	345,354	O	O
+have	355,359	O	O
+characteristic	360,374	O	O
+timescales	375,385	O	O
+that	386,390	O	O
+are	391,394	O	O
+very	395,399	O	O
+different	400,409	O	O
+,	409,410	O	O
+which	411,416	O	O
+means	417,422	O	O
+that	423,427	O	O
+time	428,432	O	O
+-	432,433	O	O
+accurate	433,441	O	O
+simulations	442,453	O	O
+can	454,457	O	O
+be	458,460	O	O
+extremely	461,470	O	O
+challenging	471,482	O	O
+:	482,483	O	O
+the	484,487	O	O
+size	488,492	O	O
+of	493,495	O	O
+the	496,499	O	O
+timestep	500,508	O	O
+required	509,517	O	O
+to	518,520	O	O
+make	521,525	O	O
+the	526,529	O	O
+micro	530,535	O	O
+model	536,541	O	O
+stable	542,548	O	O
+and	549,552	O	O
+accurate	553,561	O	O
+is	562,564	O	O
+so	565,567	O	O
+small	568,573	O	O
+that	574,578	O	O
+simulations	579,590	O	O
+over	591,595	O	O
+significant	596,607	O	O
+macro	608,613	O	O
+-	613,614	O	O
+scale	614,619	O	O
+time	620,624	O	O
+periods	625,632	O	O
+are	633,636	O	O
+intractable	637,648	O	O
+.	648,649	O	O
+
+If	650,652	O	O
+the	653,656	O	O
+system	657,663	O	O
+is	664,666	O	O
+‘	667,668	O	O
+scale	668,673	O	B-Process
+-	673,674	O	I-Process
+separated’	674,684	O	I-Process
+,	684,685	O	O
+a	686,687	O	O
+physical	688,696	O	B-Process
+(	697,698	O	I-Process
+as	698,700	O	I-Process
+distinct	701,709	O	I-Process
+from	710,714	O	I-Process
+numerical	715,724	O	I-Process
+)	724,725	O	I-Process
+approximation	726,739	O	I-Process
+can	740,743	O	O
+be	744,746	O	O
+made	747,751	O	O
+that	752,756	O	O
+enables	757,764	O	O
+the	765,768	O	O
+coupled	769,776	O	B-Process
+models	777,783	O	I-Process
+to	784,786	O	O
+advance	787,794	O	O
+at	795,797	O	O
+different	798,807	O	O
+rates	808,813	O	O
+(	814,815	O	O
+asynchronously	815,829	O	O
+)	829,830	O	O
+with	831,835	O	O
+negligible	836,846	O	O
+penalty	847,854	O	O
+on	855,857	O	O
+macro	858,863	O	O
+-	863,864	O	O
+scale	864,869	O	O
+accuracy	870,878	O	O
+.	878,879	O	O
+
+E	880,881	O	O
+et	882,884	O	O
+al	885,887	O	O
+.	887,888	O	O
+
+[	889,890	O	O
+5	890,891	O	O
+]	891,892	O	O
+were	893,897	O	O
+the	898,901	O	O
+first	902,907	O	O
+to	908,910	O	O
+introduce	911,920	O	O
+and	921,924	O	O
+implement	925,934	O	O
+this	935,939	O	O
+concept	940,947	O	O
+in	948,950	O	O
+a	951,952	O	O
+time	953,957	O	B-Process
+-	957,958	O	I-Process
+stepping	958,966	O	I-Process
+method	967,973	O	I-Process
+for	974,977	O	I-Process
+coupled	978,985	O	I-Process
+systems	986,993	O	I-Process
+,	993,994	O	O
+referred	995,1003	O	O
+to	1004,1006	O	O
+in	1007,1009	O	O
+the	1010,1013	O	O
+classification	1014,1028	O	O
+of	1029,1031	O	O
+Lockerby	1032,1040	O	O
+et	1041,1043	O	O
+al	1044,1046	O	O
+.	1046,1047	O	O
+
+[	1048,1049	O	O
+6	1049,1050	O	O
+]	1050,1051	O	O
+as	1052,1054	O	O
+a	1055,1056	O	O
+continuous	1057,1067	O	B-Process
+asynchronous	1068,1080	O	I-Process
+(	1081,1082	O	O
+CA	1082,1084	O	B-Process
+)	1084,1085	O	O
+scheme	1086,1092	O	O
+(	1093,1094	O	O
+‘	1094,1095	O	O
+continuous’	1095,1106	O	O
+since	1107,1112	O	O
+the	1113,1116	O	O
+micro	1117,1122	O	B-Process
+and	1123,1126	O	I-Process
+macro	1127,1132	O	I-Process
+models	1133,1139	O	I-Process
+advance	1140,1147	O	O
+without	1148,1155	O	O
+interruption	1156,1168	O	O
+[	1169,1170	O	O
+5	1170,1171	O	O
+]	1171,1172	O	O
+)	1172,1173	O	O
+.	1173,1174	O	O
+
+In	1175,1177	O	O
+this	1178,1182	O	O
+paper	1183,1188	O	O
+we	1189,1191	O	O
+extend	1192,1198	O	O
+this	1199,1203	O	O
+idea	1204,1208	O	O
+to	1209,1211	O	O
+multiscale	1212,1222	O	B-Task
+systems	1223,1230	O	I-Task
+comprising	1231,1241	O	I-Task
+an	1242,1244	O	I-Task
+arbitrary	1245,1254	O	I-Task
+number	1255,1261	O	I-Task
+of	1262,1264	O	I-Task
+coupled	1265,1272	O	I-Task
+models	1273,1279	O	I-Task
+.	1279,1280	O	O
 
 
 -DOCSTART- (S0021999115000546)
 
-The	0	3	O
-particular	4	14	O
-phase	15	20	B-Task
-field	21	26	I-Task
-model	27	32	I-Task
-we	33	35	O
-employ	36	42	O
-is	43	45	O
-an	46	48	O
-extension	49	58	O
-of	59	61	O
-[	62	63	O
-6	63	64	O
-]	64	65	O
-,	65	66	O
-and	67	70	O
-is	71	73	O
-based	74	79	O
-on	80	82	O
-the	83	86	O
-three	87	92	B-Process
-dimensional	93	104	I-Process
-thermal	105	112	I-Process
-phase	113	118	I-Process
-field	119	124	I-Process
-model	125	130	I-Process
-of	131	133	O
-[	134	135	O
-7	135	136	O
-]	136	137	O
-and	138	141	O
-two	142	145	B-Process
-dimensional	146	157	I-Process
-thermal	158	165	I-Process
--	165	166	I-Process
-solutal	166	173	I-Process
-phase	174	179	I-Process
-field	180	185	I-Process
-model	186	191	I-Process
-of	192	194	O
-[	195	196	O
-8	196	197	O
-]	197	198	O
-.	198	199	O
-
-One	200	203	O
-feature	204	211	O
-of	212	214	O
-the	215	218	O
-physical	219	227	O
-problem	228	235	O
-is	236	238	O
-that	239	243	O
-it	244	246	O
-is	247	249	O
-purely	250	256	O
-dissipative	257	268	O
-,	268	269	O
-or	270	272	O
-entropy	273	280	O
-increasing	281	291	O
-,	291	292	O
-as	293	295	O
-all	296	299	O
-natural	300	307	O
-relaxational	308	320	O
-phenomena	321	330	O
-are	331	334	O
-.	334	335	O
-
-The	336	339	O
-resulting	340	349	O
-PDEs	350	354	B-Material
-are	355	358	O
-of	359	361	O
-Allen	362	367	O
-–	367	368	O
-Cahn	368	372	O
-
-[	373	374	O
-9	374	375	O
-]	375	376	O
-and	377	380	O
-Carn	381	385	O
-–	385	386	O
-Hilliard	386	394	O
-type	395	399	O
-[	400	401	O
-10	401	403	O
-]	403	404	O
-.	404	405	O
-
-That	406	410	O
-is	411	413	O
-to	414	416	O
-say	417	420	O
-,	420	421	O
-the	422	425	O
-model	426	431	O
-involves	432	440	O
-time	441	445	B-Process
-derivatives	446	457	I-Process
-of	458	460	I-Process
-the	461	464	I-Process
-three	465	470	I-Process
-fields	471	477	I-Process
-coupled	478	485	I-Process
-to	486	488	I-Process
-forms	489	494	I-Process
-involving	495	504	I-Process
-variational	505	516	I-Process
-derivatives	517	528	I-Process
-of	529	531	O
-some	532	536	O
-functional	537	547	B-Process
-–	548	549	O
-typically	550	559	O
-the	560	563	O
-free	564	568	B-Process
-energy	569	575	I-Process
-functional	576	586	I-Process
-.	586	587	O
-
-As	588	590	O
-the	591	594	O
-dendrite	595	603	B-Material
-grows	604	609	O
-the	610	613	O
-free	614	618	O
-energy	619	625	O
-reduces	626	633	O
-monotonically	634	647	O
-with	648	652	O
-time	653	657	O
-but	658	661	O
-never	662	667	O
-achieves	668	676	O
-equilibrium	677	688	O
-if	689	691	O
-the	692	695	O
-domain	696	702	O
-boundary	703	711	O
-is	712	714	O
-far	715	718	O
-from	719	723	O
-the	724	727	O
-dendrite	728	736	B-Material
-.	736	737	O
-
-Although	738	746	O
-we	747	749	O
-have	750	754	O
-listed	755	761	O
-some	762	766	O
-of	767	769	O
-the	770	773	O
-difficult	774	783	O
-aspects	784	791	O
-of	792	794	O
-this	795	799	O
-model	800	805	O
-,	805	806	O
-the	807	810	O
-relaxational	811	823	O
-aspect	824	830	O
-is	831	833	O
-typically	834	843	O
-an	844	846	O
-asset	847	852	O
-and	853	856	O
-results	857	864	O
-in	865	867	O
-stable	868	874	O
-numerical	875	884	B-Process
-schemes	885	892	I-Process
-:	892	893	O
-there	894	899	O
-is	900	902	O
-no	903	905	O
-convection	906	916	O
-,	916	917	O
-for	918	921	O
-example	922	929	O
-(	930	931	O
-at	931	933	O
-least	934	939	O
-in	940	942	O
-the	943	946	O
-absence	947	954	O
-of	955	957	O
-flow	958	962	O
-in	963	965	O
-the	966	969	O
-melt	970	974	B-Material
-)	974	975	O
-.	975	976	O
+The	0,3	O	O
+particular	4,14	O	O
+phase	15,20	O	B-Task
+field	21,26	O	I-Task
+model	27,32	O	I-Task
+we	33,35	O	O
+employ	36,42	O	O
+is	43,45	O	O
+an	46,48	O	O
+extension	49,58	O	O
+of	59,61	O	O
+[	62,63	O	O
+6	63,64	O	O
+]	64,65	O	O
+,	65,66	O	O
+and	67,70	O	O
+is	71,73	O	O
+based	74,79	O	O
+on	80,82	O	O
+the	83,86	O	O
+three	87,92	O	B-Process
+dimensional	93,104	O	I-Process
+thermal	105,112	O	I-Process
+phase	113,118	O	I-Process
+field	119,124	O	I-Process
+model	125,130	O	I-Process
+of	131,133	O	O
+[	134,135	O	O
+7	135,136	O	O
+]	136,137	O	O
+and	138,141	O	O
+two	142,145	O	B-Process
+dimensional	146,157	O	I-Process
+thermal	158,165	O	I-Process
+-	165,166	O	I-Process
+solutal	166,173	O	I-Process
+phase	174,179	O	I-Process
+field	180,185	O	I-Process
+model	186,191	O	I-Process
+of	192,194	O	O
+[	195,196	O	O
+8	196,197	O	O
+]	197,198	O	O
+.	198,199	O	O
+
+One	200,203	O	O
+feature	204,211	O	O
+of	212,214	O	O
+the	215,218	O	O
+physical	219,227	O	O
+problem	228,235	O	O
+is	236,238	O	O
+that	239,243	O	O
+it	244,246	O	O
+is	247,249	O	O
+purely	250,256	O	O
+dissipative	257,268	O	O
+,	268,269	O	O
+or	270,272	O	O
+entropy	273,280	O	O
+increasing	281,291	O	O
+,	291,292	O	O
+as	293,295	O	O
+all	296,299	O	O
+natural	300,307	O	O
+relaxational	308,320	O	O
+phenomena	321,330	O	O
+are	331,334	O	O
+.	334,335	O	O
+
+The	336,339	O	O
+resulting	340,349	O	O
+PDEs	350,354	O	B-Material
+are	355,358	O	O
+of	359,361	O	O
+Allen	362,367	O	O
+–	367,368	O	O
+Cahn	368,372	O	O
+
+[	373,374	O	O
+9	374,375	O	O
+]	375,376	O	O
+and	377,380	O	O
+Carn	381,385	O	O
+–	385,386	O	O
+Hilliard	386,394	O	O
+type	395,399	O	O
+[	400,401	O	O
+10	401,403	O	O
+]	403,404	O	O
+.	404,405	O	O
+
+That	406,410	O	O
+is	411,413	O	O
+to	414,416	O	O
+say	417,420	O	O
+,	420,421	O	O
+the	422,425	O	O
+model	426,431	O	O
+involves	432,440	O	O
+time	441,445	O	B-Process
+derivatives	446,457	O	I-Process
+of	458,460	O	I-Process
+the	461,464	O	I-Process
+three	465,470	O	I-Process
+fields	471,477	O	I-Process
+coupled	478,485	O	I-Process
+to	486,488	O	I-Process
+forms	489,494	O	I-Process
+involving	495,504	O	I-Process
+variational	505,516	O	I-Process
+derivatives	517,528	O	I-Process
+of	529,531	O	O
+some	532,536	O	O
+functional	537,547	O	B-Process
+–	548,549	O	O
+typically	550,559	O	O
+the	560,563	O	O
+free	564,568	O	B-Process
+energy	569,575	O	I-Process
+functional	576,586	O	I-Process
+.	586,587	O	O
+
+As	588,590	O	O
+the	591,594	O	O
+dendrite	595,603	O	B-Material
+grows	604,609	O	O
+the	610,613	O	O
+free	614,618	O	O
+energy	619,625	O	O
+reduces	626,633	O	O
+monotonically	634,647	O	O
+with	648,652	O	O
+time	653,657	O	O
+but	658,661	O	O
+never	662,667	O	O
+achieves	668,676	O	O
+equilibrium	677,688	O	O
+if	689,691	O	O
+the	692,695	O	O
+domain	696,702	O	O
+boundary	703,711	O	O
+is	712,714	O	O
+far	715,718	O	O
+from	719,723	O	O
+the	724,727	O	O
+dendrite	728,736	O	B-Material
+.	736,737	O	O
+
+Although	738,746	O	O
+we	747,749	O	O
+have	750,754	O	O
+listed	755,761	O	O
+some	762,766	O	O
+of	767,769	O	O
+the	770,773	O	O
+difficult	774,783	O	O
+aspects	784,791	O	O
+of	792,794	O	O
+this	795,799	O	O
+model	800,805	O	O
+,	805,806	O	O
+the	807,810	O	O
+relaxational	811,823	O	O
+aspect	824,830	O	O
+is	831,833	O	O
+typically	834,843	O	O
+an	844,846	O	O
+asset	847,852	O	O
+and	853,856	O	O
+results	857,864	O	O
+in	865,867	O	O
+stable	868,874	O	O
+numerical	875,884	O	B-Process
+schemes	885,892	O	I-Process
+:	892,893	O	O
+there	894,899	O	O
+is	900,902	O	O
+no	903,905	O	O
+convection	906,916	O	O
+,	916,917	O	O
+for	918,921	O	O
+example	922,929	O	O
+(	930,931	O	O
+at	931,933	O	O
+least	934,939	O	O
+in	940,942	O	O
+the	943,946	O	O
+absence	947,954	O	O
+of	955,957	O	O
+flow	958,962	O	O
+in	963,965	O	O
+the	966,969	O	O
+melt	970,974	O	B-Material
+)	974,975	O	O
+.	975,976	O	O
 
 
 -DOCSTART- (S0021999115001412)
 
-Inspired	0	8	O
-by	9	11	O
-energy	12	18	O
--	18	19	O
-fueled	19	25	O
-phenomena	26	35	O
-such	36	40	O
-as	41	43	O
-cortical	44	52	B-Process
-cytoskeleton	53	65	I-Process
-flows	66	71	I-Process
-[	72	73	O
-46,45,32	73	81	O
-]	81	82	O
-during	83	89	O
-biological	90	100	B-Process
-morphogenesis	101	114	I-Process
-,	114	115	O
-the	116	119	O
-theory	120	126	B-Task
-of	127	129	I-Task
-active	130	136	I-Task
-polar	137	142	I-Task
-viscous	143	150	I-Task
-gels	151	155	I-Task
-has	156	159	O
-been	160	164	O
-developed	165	174	O
-[	175	176	O
-37,33	176	181	O
-]	181	182	O
-.	182	183	O
-
-The	184	187	O
-theory	188	194	O
-models	195	201	B-Process
-the	202	205	I-Process
-continuum	206	215	I-Process
-,	215	216	I-Process
-macroscopic	217	228	I-Process
-mechanics	229	238	I-Process
-of	239	241	O
-a	242	243	O
-collection	244	254	O
-of	255	257	O
-uniaxial	258	266	B-Material
-active	267	273	I-Material
-agents	274	280	I-Material
-,	280	281	O
-embedded	282	290	O
-in	291	293	O
-a	294	295	O
-viscous	296	303	B-Material
-bulk	304	308	I-Material
-medium	309	315	I-Material
-,	315	316	O
-in	317	319	O
-which	320	325	O
-internal	326	334	O
-stresses	335	343	O
-are	344	347	O
-induced	348	355	O
-due	356	359	O
-to	360	362	O
-dissipation	363	374	O
-of	375	377	O
-energy	378	384	O
-[	385	386	O
-41,58	386	391	O
-]	391	392	O
-.	392	393	O
-
-The	394	397	O
-energy	398	404	O
--	404	405	O
-consuming	405	414	O
-uniaxial	415	423	B-Material
-polar	424	429	I-Material
-agents	430	436	I-Material
-constituting	437	449	O
-the	450	453	O
-gel	454	457	B-Material
-are	458	461	O
-modeled	462	469	O
-as	470	472	O
-unit	473	477	O
-vectors	478	485	O
-.	485	486	O
-
-The	487	490	O
-average	491	498	O
-of	499	501	O
-unit	502	506	O
-vectors	507	514	O
-in	515	517	O
-a	518	519	O
-small	520	525	O
-local	526	531	O
-volume	532	538	O
-at	539	541	O
-each	542	546	O
-point	547	552	O
-defines	553	560	O
-the	561	564	O
-macroscopic	565	576	O
-directionality	577	591	O
-of	592	594	O
-the	595	598	O
-agents	599	605	O
-and	606	609	O
-is	610	612	O
-described	613	622	O
-by	623	625	O
-a	626	627	O
-polarization	628	640	B-Process
-field	641	646	I-Process
-.	646	647	O
-
-The	648	651	O
-polarization	652	664	B-Process
-field	665	670	I-Process
-is	671	673	O
-governed	674	682	O
-by	683	685	O
-an	686	688	O
-equation	689	697	B-Process
-of	698	700	I-Process
-motion	701	707	I-Process
-accounting	708	718	O
-for	719	722	O
-energy	723	729	O
-consumption	730	741	O
-and	742	745	O
-for	746	749	O
-the	750	753	O
-strain	754	760	O
-rate	761	765	O
-in	766	768	O
-the	769	772	O
-fluid	773	778	B-Material
-.	778	779	O
-
-The	780	783	O
-relationship	784	796	O
-between	797	804	O
-the	805	808	O
-strain	809	815	O
-rate	816	820	O
-and	821	824	O
-the	825	828	O
-stress	829	835	O
-in	836	838	O
-the	839	842	O
-fluid	843	848	O
-is	849	851	O
-provided	852	860	O
-by	861	863	O
-a	864	865	O
-constitutive	866	878	B-Process
-equation	879	887	I-Process
-that	888	892	O
-accounts	893	901	O
-for	902	905	O
-anisotropic	906	917	O
-,	917	918	O
-polar	919	924	O
-agents	925	931	O
-and	932	935	O
-consumption	936	947	O
-of	948	950	O
-energy	951	957	O
-.	957	958	O
-
-These	959	964	B-Process
-equations	965	974	I-Process
-,	974	975	I-Process
-along	976	981	I-Process
-with	982	986	I-Process
-conservation	987	999	I-Process
-of	1000	1002	I-Process
-momentum	1003	1011	I-Process
-,	1011	1012	O
-provide	1013	1020	O
-a	1021	1022	O
-continuum	1023	1032	B-Process
-hydrodynamic	1033	1045	I-Process
-description	1046	1057	I-Process
-modeling	1058	1066	O
-active	1067	1073	O
-polar	1074	1079	B-Material
-viscous	1080	1087	I-Material
-gels	1088	1092	I-Material
-as	1093	1095	O
-an	1096	1098	O
-energy	1099	1105	B-Material
-consuming	1106	1115	I-Material
-,	1115	1116	I-Material
-anisotropic	1117	1128	I-Material
-,	1128	1129	I-Material
-non	1130	1133	I-Material
--	1133	1134	I-Material
-Newtonian	1134	1143	I-Material
-fluid	1144	1149	I-Material
-[	1150	1151	O
-37,33,32,41	1151	1162	O
-]	1162	1163	O
-.	1163	1164	O
-
-The	1165	1168	O
-resulting	1169	1178	O
-partial	1179	1186	O
-differential	1187	1199	O
-equations	1200	1209	O
-governing	1210	1219	O
-the	1220	1223	O
-hydrodynamics	1224	1237	O
-of	1238	1240	O
-active	1241	1247	B-Material
-polar	1248	1253	I-Material
-viscous	1254	1261	I-Material
-gels	1262	1266	I-Material
-are	1267	1270	O
-,	1270	1271	O
-however	1272	1279	O
-,	1279	1280	O
-in	1281	1283	O
-general	1284	1291	O
-analytically	1292	1304	O
-intractable	1305	1316	O
-.	1316	1317	O
+Inspired	0,8	O	O
+by	9,11	O	O
+energy	12,18	O	O
+-	18,19	O	O
+fueled	19,25	O	O
+phenomena	26,35	O	O
+such	36,40	O	O
+as	41,43	O	O
+cortical	44,52	O	B-Process
+cytoskeleton	53,65	O	I-Process
+flows	66,71	O	I-Process
+[	72,73	O	O
+46,45,32	73,81	O	O
+]	81,82	O	O
+during	83,89	O	O
+biological	90,100	O	B-Process
+morphogenesis	101,114	O	I-Process
+,	114,115	O	O
+the	116,119	O	O
+theory	120,126	O	B-Task
+of	127,129	O	I-Task
+active	130,136	O	I-Task
+polar	137,142	O	I-Task
+viscous	143,150	O	I-Task
+gels	151,155	O	I-Task
+has	156,159	O	O
+been	160,164	O	O
+developed	165,174	O	O
+[	175,176	O	O
+37,33	176,181	O	O
+]	181,182	O	O
+.	182,183	O	O
+
+The	184,187	O	O
+theory	188,194	O	O
+models	195,201	O	B-Process
+the	202,205	O	I-Process
+continuum	206,215	O	I-Process
+,	215,216	O	I-Process
+macroscopic	217,228	O	I-Process
+mechanics	229,238	O	I-Process
+of	239,241	O	O
+a	242,243	O	O
+collection	244,254	O	O
+of	255,257	O	O
+uniaxial	258,266	O	B-Material
+active	267,273	O	I-Material
+agents	274,280	O	I-Material
+,	280,281	O	O
+embedded	282,290	O	O
+in	291,293	O	O
+a	294,295	O	O
+viscous	296,303	O	B-Material
+bulk	304,308	O	I-Material
+medium	309,315	O	I-Material
+,	315,316	O	O
+in	317,319	O	O
+which	320,325	O	O
+internal	326,334	O	O
+stresses	335,343	O	O
+are	344,347	O	O
+induced	348,355	O	O
+due	356,359	O	O
+to	360,362	O	O
+dissipation	363,374	O	O
+of	375,377	O	O
+energy	378,384	O	O
+[	385,386	O	O
+41,58	386,391	O	O
+]	391,392	O	O
+.	392,393	O	O
+
+The	394,397	O	O
+energy	398,404	O	O
+-	404,405	O	O
+consuming	405,414	O	O
+uniaxial	415,423	O	B-Material
+polar	424,429	O	I-Material
+agents	430,436	O	I-Material
+constituting	437,449	O	O
+the	450,453	O	O
+gel	454,457	O	B-Material
+are	458,461	O	O
+modeled	462,469	O	O
+as	470,472	O	O
+unit	473,477	O	O
+vectors	478,485	O	O
+.	485,486	O	O
+
+The	487,490	O	O
+average	491,498	O	O
+of	499,501	O	O
+unit	502,506	O	O
+vectors	507,514	O	O
+in	515,517	O	O
+a	518,519	O	O
+small	520,525	O	O
+local	526,531	O	O
+volume	532,538	O	O
+at	539,541	O	O
+each	542,546	O	O
+point	547,552	O	O
+defines	553,560	O	O
+the	561,564	O	O
+macroscopic	565,576	O	O
+directionality	577,591	O	O
+of	592,594	O	O
+the	595,598	O	O
+agents	599,605	O	O
+and	606,609	O	O
+is	610,612	O	O
+described	613,622	O	O
+by	623,625	O	O
+a	626,627	O	O
+polarization	628,640	O	B-Process
+field	641,646	O	I-Process
+.	646,647	O	O
+
+The	648,651	O	O
+polarization	652,664	O	B-Process
+field	665,670	O	I-Process
+is	671,673	O	O
+governed	674,682	O	O
+by	683,685	O	O
+an	686,688	O	O
+equation	689,697	O	B-Process
+of	698,700	O	I-Process
+motion	701,707	O	I-Process
+accounting	708,718	O	O
+for	719,722	O	O
+energy	723,729	O	O
+consumption	730,741	O	O
+and	742,745	O	O
+for	746,749	O	O
+the	750,753	O	O
+strain	754,760	O	O
+rate	761,765	O	O
+in	766,768	O	O
+the	769,772	O	O
+fluid	773,778	O	B-Material
+.	778,779	O	O
+
+The	780,783	O	O
+relationship	784,796	O	O
+between	797,804	O	O
+the	805,808	O	O
+strain	809,815	O	O
+rate	816,820	O	O
+and	821,824	O	O
+the	825,828	O	O
+stress	829,835	O	O
+in	836,838	O	O
+the	839,842	O	O
+fluid	843,848	O	O
+is	849,851	O	O
+provided	852,860	O	O
+by	861,863	O	O
+a	864,865	O	O
+constitutive	866,878	O	B-Process
+equation	879,887	O	I-Process
+that	888,892	O	O
+accounts	893,901	O	O
+for	902,905	O	O
+anisotropic	906,917	O	O
+,	917,918	O	O
+polar	919,924	O	O
+agents	925,931	O	O
+and	932,935	O	O
+consumption	936,947	O	O
+of	948,950	O	O
+energy	951,957	O	O
+.	957,958	O	O
+
+These	959,964	O	B-Process
+equations	965,974	O	I-Process
+,	974,975	O	I-Process
+along	976,981	O	I-Process
+with	982,986	O	I-Process
+conservation	987,999	O	I-Process
+of	1000,1002	O	I-Process
+momentum	1003,1011	O	I-Process
+,	1011,1012	O	O
+provide	1013,1020	O	O
+a	1021,1022	O	O
+continuum	1023,1032	O	B-Process
+hydrodynamic	1033,1045	O	I-Process
+description	1046,1057	O	I-Process
+modeling	1058,1066	O	O
+active	1067,1073	O	O
+polar	1074,1079	O	B-Material
+viscous	1080,1087	O	I-Material
+gels	1088,1092	O	I-Material
+as	1093,1095	O	O
+an	1096,1098	O	O
+energy	1099,1105	O	B-Material
+consuming	1106,1115	O	I-Material
+,	1115,1116	O	I-Material
+anisotropic	1117,1128	O	I-Material
+,	1128,1129	O	I-Material
+non	1130,1133	O	I-Material
+-	1133,1134	O	I-Material
+Newtonian	1134,1143	O	I-Material
+fluid	1144,1149	O	I-Material
+[	1150,1151	O	O
+37,33,32,41	1151,1162	O	O
+]	1162,1163	O	O
+.	1163,1164	O	O
+
+The	1165,1168	O	O
+resulting	1169,1178	O	O
+partial	1179,1186	O	O
+differential	1187,1199	O	O
+equations	1200,1209	O	O
+governing	1210,1219	O	O
+the	1220,1223	O	O
+hydrodynamics	1224,1237	O	O
+of	1238,1240	O	O
+active	1241,1247	O	B-Material
+polar	1248,1253	O	I-Material
+viscous	1254,1261	O	I-Material
+gels	1262,1266	O	I-Material
+are	1267,1270	O	O
+,	1270,1271	O	O
+however	1272,1279	O	O
+,	1279,1280	O	O
+in	1281,1283	O	O
+general	1284,1291	O	O
+analytically	1292,1304	O	O
+intractable	1305,1316	O	O
+.	1316,1317	O	O
 
 
 -DOCSTART- (S0021999115003459)
 
-The	0	3	O
-boundary	4	12	B-Process
-element	13	20	I-Process
-method	21	27	I-Process
-(	28	29	O
-BEM	29	32	B-Process
-)	32	33	O
-has	34	37	O
-clear	38	43	O
-advantages	44	54	O
-when	55	59	O
-applied	60	67	O
-to	68	70	O
-shape	71	76	B-Task
-optimisation	77	89	I-Task
-of	90	92	I-Task
-high	93	97	I-Task
--	97	98	I-Task
-voltage	98	105	I-Task
-devices	106	113	I-Task
-,	113	114	O
-see	115	118	O
-[	119	120	O
-4–8	120	123	O
-]	123	124	O
-for	125	128	O
-an	129	131	O
-introduction	132	144	O
-to	145	147	O
-BEM	148	151	B-Process
-.	151	152	O
-
-First	153	158	O
-of	159	161	O
-all	162	165	O
-,	165	166	O
-BEM	167	170	B-Process
-relies	171	177	O
-only	178	182	O
-on	183	185	O
-a	186	187	O
-surface	188	195	B-Process
-discretisation	196	210	I-Process
-so	211	213	O
-that	214	218	O
-there	219	224	O
-is	225	227	O
-no	228	230	O
-need	231	235	O
-to	236	238	O
-maintain	239	247	O
-an	248	250	O
-analysis	251	259	O
--	259	260	O
-suitable	260	268	O
-volume	269	275	O
-discretisation	276	290	O
-during	291	297	O
-the	298	301	O
-shape	302	307	B-Process
-optimisation	308	320	I-Process
-process	321	328	O
-.	328	329	O
-
-Moreover	330	338	O
-,	338	339	O
-BEM	340	343	B-Process
-is	344	346	O
-ideal	347	352	O
-for	353	356	O
-solving	357	364	B-Task
-problems	365	373	I-Task
-in	374	376	I-Task
-unbounded	377	386	I-Task
-domains	387	394	I-Task
-that	395	399	O
-occur	400	405	O
-in	406	408	O
-electrostatic	409	422	B-Process
-field	423	428	I-Process
-analysis	429	437	I-Process
-.	437	438	O
-
-In	439	441	O
-gradient	442	450	B-Task
--	450	451	I-Task
-based	451	456	I-Task
-shape	457	462	I-Task
-optimisation	463	475	I-Task
-the	476	479	O
-shape	480	485	B-Process
-derivative	486	496	I-Process
-of	497	499	O
-the	500	503	O
-cost	504	508	O
-functional	509	519	O
-with	520	524	O
-respect	525	532	O
-to	533	535	O
-geometry	536	544	O
-perturbations	545	558	O
-is	559	561	O
-needed	562	568	O
-[	569	570	O
-9–11	570	574	O
-]	574	575	O
-.	575	576	O
-
-To	577	579	O
-this	580	584	O
-purpose	585	592	O
-,	592	593	O
-we	594	596	O
-use	597	600	O
-the	601	604	O
-adjoint	605	612	B-Process
-approach	613	621	I-Process
-and	622	625	O
-solve	626	631	O
-the	632	635	O
-primary	636	643	B-Task
-and	644	647	I-Task
-the	648	651	I-Task
-adjoint	652	659	I-Task
-boundary	660	668	I-Task
-value	669	674	I-Task
-problems	675	683	I-Task
-with	684	688	O
-BEM	689	692	B-Process
-.	692	693	O
-
-The	694	697	O
-associated	698	708	O
-linear	709	715	O
-systems	716	723	O
-of	724	726	O
-equations	727	736	O
-are	737	740	O
-dense	741	746	O
-and	747	750	O
-an	751	753	O
-acceleration	754	766	O
-technique	767	776	O
-,	776	777	O
-such	778	782	O
-as	783	785	O
-the	786	789	O
-fast	790	794	B-Process
-multipole	795	804	I-Process
-method	805	811	I-Process
-[	812	813	O
-12,13	813	818	O
-]	818	819	O
-,	819	820	O
-is	821	823	O
-necessary	824	833	O
-for	834	837	O
-their	838	843	O
-efficient	844	853	O
-solution	854	862	O
-.	862	863	O
-
-For	864	867	O
-some	868	872	O
-recent	873	879	O
-applications	880	892	O
-of	893	895	O
-fast	896	900	B-Task
-BEM	901	904	I-Task
-in	905	907	I-Task
-shape	908	913	I-Task
-optimisation	914	926	I-Task
-and	927	930	O
-Bernoulli	931	940	B-Task
--	940	941	I-Task
-type	941	945	I-Task
-free	946	950	I-Task
--	950	951	I-Task
-boundary	951	959	I-Task
-problems	960	968	I-Task
-we	969	971	O
-refer	972	977	O
-to	978	980	O
-[	981	982	O
-14–16	982	987	O
-]	987	988	O
-.	988	989	O
+The	0,3	O	O
+boundary	4,12	O	B-Process
+element	13,20	O	I-Process
+method	21,27	O	I-Process
+(	28,29	O	O
+BEM	29,32	O	B-Process
+)	32,33	O	O
+has	34,37	O	O
+clear	38,43	O	O
+advantages	44,54	O	O
+when	55,59	O	O
+applied	60,67	O	O
+to	68,70	O	O
+shape	71,76	O	B-Task
+optimisation	77,89	O	I-Task
+of	90,92	O	I-Task
+high	93,97	O	I-Task
+-	97,98	O	I-Task
+voltage	98,105	O	I-Task
+devices	106,113	O	I-Task
+,	113,114	O	O
+see	115,118	O	O
+[	119,120	O	O
+4–8	120,123	O	O
+]	123,124	O	O
+for	125,128	O	O
+an	129,131	O	O
+introduction	132,144	O	O
+to	145,147	O	O
+BEM	148,151	O	B-Process
+.	151,152	O	O
+
+First	153,158	O	O
+of	159,161	O	O
+all	162,165	O	O
+,	165,166	O	O
+BEM	167,170	O	B-Process
+relies	171,177	O	O
+only	178,182	O	O
+on	183,185	O	O
+a	186,187	O	O
+surface	188,195	O	B-Process
+discretisation	196,210	O	I-Process
+so	211,213	O	O
+that	214,218	O	O
+there	219,224	O	O
+is	225,227	O	O
+no	228,230	O	O
+need	231,235	O	O
+to	236,238	O	O
+maintain	239,247	O	O
+an	248,250	O	O
+analysis	251,259	O	O
+-	259,260	O	O
+suitable	260,268	O	O
+volume	269,275	O	O
+discretisation	276,290	O	O
+during	291,297	O	O
+the	298,301	O	O
+shape	302,307	O	B-Process
+optimisation	308,320	O	I-Process
+process	321,328	O	O
+.	328,329	O	O
+
+Moreover	330,338	O	O
+,	338,339	O	O
+BEM	340,343	O	B-Process
+is	344,346	O	O
+ideal	347,352	O	O
+for	353,356	O	O
+solving	357,364	O	B-Task
+problems	365,373	O	I-Task
+in	374,376	O	I-Task
+unbounded	377,386	O	I-Task
+domains	387,394	O	I-Task
+that	395,399	O	O
+occur	400,405	O	O
+in	406,408	O	O
+electrostatic	409,422	O	B-Process
+field	423,428	O	I-Process
+analysis	429,437	O	I-Process
+.	437,438	O	O
+
+In	439,441	O	O
+gradient	442,450	O	B-Task
+-	450,451	O	I-Task
+based	451,456	O	I-Task
+shape	457,462	O	I-Task
+optimisation	463,475	O	I-Task
+the	476,479	O	O
+shape	480,485	O	B-Process
+derivative	486,496	O	I-Process
+of	497,499	O	O
+the	500,503	O	O
+cost	504,508	O	O
+functional	509,519	O	O
+with	520,524	O	O
+respect	525,532	O	O
+to	533,535	O	O
+geometry	536,544	O	O
+perturbations	545,558	O	O
+is	559,561	O	O
+needed	562,568	O	O
+[	569,570	O	O
+9–11	570,574	O	O
+]	574,575	O	O
+.	575,576	O	O
+
+To	577,579	O	O
+this	580,584	O	O
+purpose	585,592	O	O
+,	592,593	O	O
+we	594,596	O	O
+use	597,600	O	O
+the	601,604	O	O
+adjoint	605,612	O	B-Process
+approach	613,621	O	I-Process
+and	622,625	O	O
+solve	626,631	O	O
+the	632,635	O	O
+primary	636,643	O	B-Task
+and	644,647	O	I-Task
+the	648,651	O	I-Task
+adjoint	652,659	O	I-Task
+boundary	660,668	O	I-Task
+value	669,674	O	I-Task
+problems	675,683	O	I-Task
+with	684,688	O	O
+BEM	689,692	O	B-Process
+.	692,693	O	O
+
+The	694,697	O	O
+associated	698,708	O	O
+linear	709,715	O	O
+systems	716,723	O	O
+of	724,726	O	O
+equations	727,736	O	O
+are	737,740	O	O
+dense	741,746	O	O
+and	747,750	O	O
+an	751,753	O	O
+acceleration	754,766	O	O
+technique	767,776	O	O
+,	776,777	O	O
+such	778,782	O	O
+as	783,785	O	O
+the	786,789	O	O
+fast	790,794	O	B-Process
+multipole	795,804	O	I-Process
+method	805,811	O	I-Process
+[	812,813	O	O
+12,13	813,818	O	O
+]	818,819	O	O
+,	819,820	O	O
+is	821,823	O	O
+necessary	824,833	O	O
+for	834,837	O	O
+their	838,843	O	O
+efficient	844,853	O	O
+solution	854,862	O	O
+.	862,863	O	O
+
+For	864,867	O	O
+some	868,872	O	O
+recent	873,879	O	O
+applications	880,892	O	O
+of	893,895	O	O
+fast	896,900	O	B-Task
+BEM	901,904	O	I-Task
+in	905,907	O	I-Task
+shape	908,913	O	I-Task
+optimisation	914,926	O	I-Task
+and	927,930	O	O
+Bernoulli	931,940	O	B-Task
+-	940,941	O	I-Task
+type	941,945	O	I-Task
+free	946,950	O	I-Task
+-	950,951	O	I-Task
+boundary	951,959	O	I-Task
+problems	960,968	O	I-Task
+we	969,971	O	O
+refer	972,977	O	O
+to	978,980	O	O
+[	981,982	O	O
+14–16	982,987	O	O
+]	987,988	O	O
+.	988,989	O	O
 
 
 -DOCSTART- (S0021999115003939)
 
-The	0	3	O
-extrapolation	4	17	B-Task
-of	18	20	I-Task
-the	21	24	I-Task
-upwind	25	31	I-Task
-value	32	37	I-Task
-required	38	46	O
-for	47	50	O
-TVD	51	54	B-Process
-differencing	55	67	I-Process
-is	68	70	O
-a	71	72	O
-particular	73	83	O
-hurdle	84	90	O
-for	91	94	O
-the	95	98	O
-application	99	110	O
-on	111	113	O
-unstructured	114	126	B-Material
-meshes	127	133	I-Material
-.	133	134	O
-
-As	135	137	O
-discussed	138	147	O
-in	148	150	O
-Section	151	158	O
-3.2	159	162	O
-,	162	163	O
-two	164	167	O
-methods	168	175	O
-to	176	178	O
-extrapolate	179	190	O
-the	191	194	O
-value	195	200	O
-at	201	203	O
-the	204	207	O
-virtual	208	215	O
-upwind	216	222	O
-node	223	227	O
-,	227	228	O
-using	229	234	O
-data	235	239	B-Material
-readily	240	247	I-Material
-available	248	257	I-Material
-on	258	260	I-Material
-unstructured	261	273	I-Material
-meshes	274	280	I-Material
-,	280	281	O
-are	282	285	O
-considered	286	296	O
-.	296	297	O
-
-Given	298	303	O
-how	304	307	O
-the	308	311	O
-virtual	312	319	B-Process
-upwind	320	326	I-Process
-node	327	331	I-Process
-is	332	334	I-Process
-incorporated	335	347	I-Process
-in	348	350	I-Process
-the	351	354	I-Process
-gradient	355	363	I-Process
-ratio	364	369	I-Process
-rf	370	372	I-Process
-,	372	373	O
-the	374	377	O
-extrapolation	378	391	O
-method	392	398	O
-of	399	401	O
-Darwish	402	409	B-Process
-and	410	413	I-Process
-Moukalled	414	423	I-Process
-[	424	425	O
-13	425	427	O
-]	427	428	O
-is	429	431	O
-referred	432	440	O
-to	441	443	O
-as	444	446	O
-implicit	447	455	B-Process
-extrapolation	456	469	I-Process
-and	470	473	O
-the	474	477	O
-method	478	484	B-Process
-introduced	485	495	I-Process
-by	496	498	I-Process
-Ubbink	499	505	I-Process
-and	506	509	I-Process
-Issa	510	514	I-Process
-[	515	516	O
-12	516	518	O
-]	518	519	O
-as	520	522	O
-explicit	523	531	B-Process
-extrapolation	532	545	I-Process
-.	545	546	O
-
-Both	547	551	O
-methods	552	559	O
-precisely	560	569	O
-reconstruct	570	581	O
-the	582	585	O
-upwind	586	592	O
-value	593	598	O
-for	599	602	O
-equidistant	603	614	B-Material
-,	614	615	I-Material
-rectilinear	616	627	I-Material
-meshes	628	634	I-Material
-but	635	638	O
-fail	639	643	O
-to	644	646	O
-do	647	649	O
-so	650	652	O
-on	653	655	O
-non	656	659	B-Material
--	659	660	I-Material
-equidistant	660	671	I-Material
-or	672	674	O
-non	675	678	B-Material
--	678	679	I-Material
-rectilinear	679	690	I-Material
-meshes	691	697	I-Material
-,	697	698	O
-as	699	701	O
-discussed	702	711	O
-in	712	714	O
-Section	715	722	O
-3.2	723	726	O
-.	726	727	O
-
-Using	728	733	O
-the	734	737	O
-explicit	738	746	B-Process
-extrapolation	747	760	I-Process
-method	761	767	O
-this	768	772	O
-issue	773	778	O
-can	779	782	O
-be	783	785	O
-rectified	786	795	O
-by	796	798	O
-imposing	799	807	O
-appropriate	808	819	O
-limits	820	826	O
-on	827	829	O
-the	830	833	O
-extrapolated	834	846	O
-upwind	847	853	O
-value	854	859	O
-.	859	860	O
+The	0,3	O	O
+extrapolation	4,17	O	B-Task
+of	18,20	O	I-Task
+the	21,24	O	I-Task
+upwind	25,31	O	I-Task
+value	32,37	O	I-Task
+required	38,46	O	O
+for	47,50	O	O
+TVD	51,54	O	B-Process
+differencing	55,67	O	I-Process
+is	68,70	O	O
+a	71,72	O	O
+particular	73,83	O	O
+hurdle	84,90	O	O
+for	91,94	O	O
+the	95,98	O	O
+application	99,110	O	O
+on	111,113	O	O
+unstructured	114,126	O	B-Material
+meshes	127,133	O	I-Material
+.	133,134	O	O
+
+As	135,137	O	O
+discussed	138,147	O	O
+in	148,150	O	O
+Section	151,158	O	O
+3.2	159,162	O	O
+,	162,163	O	O
+two	164,167	O	O
+methods	168,175	O	O
+to	176,178	O	O
+extrapolate	179,190	O	O
+the	191,194	O	O
+value	195,200	O	O
+at	201,203	O	O
+the	204,207	O	O
+virtual	208,215	O	O
+upwind	216,222	O	O
+node	223,227	O	O
+,	227,228	O	O
+using	229,234	O	O
+data	235,239	O	B-Material
+readily	240,247	O	I-Material
+available	248,257	O	I-Material
+on	258,260	O	I-Material
+unstructured	261,273	O	I-Material
+meshes	274,280	O	I-Material
+,	280,281	O	O
+are	282,285	O	O
+considered	286,296	O	O
+.	296,297	O	O
+
+Given	298,303	O	O
+how	304,307	O	O
+the	308,311	O	O
+virtual	312,319	O	B-Process
+upwind	320,326	O	I-Process
+node	327,331	O	I-Process
+is	332,334	O	I-Process
+incorporated	335,347	O	I-Process
+in	348,350	O	I-Process
+the	351,354	O	I-Process
+gradient	355,363	O	I-Process
+ratio	364,369	O	I-Process
+rf	370,372	O	I-Process
+,	372,373	O	O
+the	374,377	O	O
+extrapolation	378,391	O	O
+method	392,398	O	O
+of	399,401	O	O
+Darwish	402,409	O	B-Process
+and	410,413	O	I-Process
+Moukalled	414,423	O	I-Process
+[	424,425	O	O
+13	425,427	O	O
+]	427,428	O	O
+is	429,431	O	O
+referred	432,440	O	O
+to	441,443	O	O
+as	444,446	O	O
+implicit	447,455	O	B-Process
+extrapolation	456,469	O	I-Process
+and	470,473	O	O
+the	474,477	O	O
+method	478,484	O	B-Process
+introduced	485,495	O	I-Process
+by	496,498	O	I-Process
+Ubbink	499,505	O	I-Process
+and	506,509	O	I-Process
+Issa	510,514	O	I-Process
+[	515,516	O	O
+12	516,518	O	O
+]	518,519	O	O
+as	520,522	O	O
+explicit	523,531	O	B-Process
+extrapolation	532,545	O	I-Process
+.	545,546	O	O
+
+Both	547,551	O	O
+methods	552,559	O	O
+precisely	560,569	O	O
+reconstruct	570,581	O	O
+the	582,585	O	O
+upwind	586,592	O	O
+value	593,598	O	O
+for	599,602	O	O
+equidistant	603,614	O	B-Material
+,	614,615	O	I-Material
+rectilinear	616,627	O	I-Material
+meshes	628,634	O	I-Material
+but	635,638	O	O
+fail	639,643	O	O
+to	644,646	O	O
+do	647,649	O	O
+so	650,652	O	O
+on	653,655	O	O
+non	656,659	O	B-Material
+-	659,660	O	I-Material
+equidistant	660,671	O	I-Material
+or	672,674	O	O
+non	675,678	O	B-Material
+-	678,679	O	I-Material
+rectilinear	679,690	O	I-Material
+meshes	691,697	O	I-Material
+,	697,698	O	O
+as	699,701	O	O
+discussed	702,711	O	O
+in	712,714	O	O
+Section	715,722	O	O
+3.2	723,726	O	O
+.	726,727	O	O
+
+Using	728,733	O	O
+the	734,737	O	O
+explicit	738,746	O	B-Process
+extrapolation	747,760	O	I-Process
+method	761,767	O	O
+this	768,772	O	O
+issue	773,778	O	O
+can	779,782	O	O
+be	783,785	O	O
+rectified	786,795	O	O
+by	796,798	O	O
+imposing	799,807	O	O
+appropriate	808,819	O	O
+limits	820,826	O	O
+on	827,829	O	O
+the	830,833	O	O
+extrapolated	834,846	O	O
+upwind	847,853	O	O
+value	854,859	O	O
+.	859,860	O	O
 
 
 -DOCSTART- (S0021999115004301)
 
-A	0	1	O
-popular	2	9	O
-choice	10	16	O
-is	17	19	O
-to	20	22	O
-couple	23	29	B-Process
-a	30	31	I-Process
-set	32	35	I-Process
-of	36	38	I-Process
-quadrature	39	49	I-Process
-points	50	56	I-Process
-with	57	61	I-Process
-an	62	64	I-Process
-equal	65	70	I-Process
-number	71	77	I-Process
-of	78	80	I-Process
-nodal	81	86	I-Process
-Lagrange	87	95	I-Process
-polynomials	96	107	I-Process
-defined	108	115	O
-at	116	118	O
-the	119	122	O
-same	123	127	O
-points	128	134	O
-,	134	135	O
-leading	136	143	O
-to	144	146	O
-a	147	148	O
-collocation	149	160	B-Process
-method	161	167	I-Process
-.	167	168	O
-
-There	169	174	O
-are	175	178	O
-many	179	183	O
-examples	184	192	O
-of	193	195	O
-this	196	200	O
-throughout	201	211	O
-the	212	215	O
-literature	216	226	O
-,	226	227	O
-both	228	232	O
-in	233	235	O
-terms	236	241	O
-of	242	244	O
-the	245	248	O
-more	249	253	O
-traditionally	254	267	O
-utilised	268	276	O
-continuous	277	287	O
-Galerkin	288	296	B-Process
-(	297	298	O
-CG	298	300	B-Process
-)	300	301	O
-and	302	305	O
-discontinuous	306	319	B-Process
-Galerkin	320	328	I-Process
-(	329	330	O
-DG	330	332	B-Process
-)	332	333	O
-formulations	334	346	O
-,	346	347	O
-as	348	350	O
-well	351	355	O
-as	356	358	O
-newer	359	364	B-Process
-extensions	365	375	I-Process
-such	376	380	O
-as	381	383	O
-the	384	387	O
-flux	388	392	B-Process
-reconstruction	393	407	I-Process
-(	408	409	O
-FR	409	411	B-Process
-)	411	412	O
-technique	413	422	O
-as	423	425	O
-presented	426	435	O
-by	436	438	O
-Huynh	439	444	O
-[	445	446	O
-23	446	448	O
-]	448	449	O
-.	449	450	O
-
-In	451	453	O
-collocation	454	465	B-Process
-methods	466	473	I-Process
-,	473	474	O
-while	475	480	O
-most	481	485	O
-linear	486	492	B-Material
-operators	493	502	I-Material
-can	503	506	O
-be	507	509	O
-exactly	510	517	O
-integrated	518	528	O
-in	529	531	O
-this	532	536	O
-setting	537	544	O
-depending	545	554	O
-on	555	557	O
-the	558	561	O
-choice	562	568	O
-of	569	571	O
-quadrature	572	582	O
-,	582	583	O
-integrals	584	593	O
-of	594	596	O
-nonlinear	597	606	O
-terms	607	612	O
-typically	613	622	O
-incur	623	628	O
-numerical	629	638	O
-error	639	644	O
-.	644	645	O
-
-However	646	653	O
-,	653	654	O
-the	655	658	O
-computational	659	672	O
-efficiencies	673	685	O
-that	686	690	O
-can	691	694	O
-be	695	697	O
-attained	698	706	O
-through	707	714	O
-the	715	718	O
-use	719	722	O
-of	723	725	O
-a	726	727	O
-collocation	728	739	B-Task
-formulation	740	751	I-Task
-,	751	752	I-Task
-especially	753	763	I-Task
-given	764	769	I-Task
-the	770	773	I-Task
-presence	774	782	I-Task
-of	783	785	I-Task
-a	786	787	I-Task
-diagonal	788	796	I-Task
-mass	797	801	I-Task
-matrix	802	808	I-Task
-,	808	809	O
-often	810	815	O
-outweigh	816	824	O
-the	825	828	O
-numerical	829	838	O
-error	839	844	O
-that	845	849	O
-is	850	852	O
-incurred	853	861	O
-.	861	862	O
+A	0,1	O	O
+popular	2,9	O	O
+choice	10,16	O	O
+is	17,19	O	O
+to	20,22	O	O
+couple	23,29	O	B-Process
+a	30,31	O	I-Process
+set	32,35	O	I-Process
+of	36,38	O	I-Process
+quadrature	39,49	O	I-Process
+points	50,56	O	I-Process
+with	57,61	O	I-Process
+an	62,64	O	I-Process
+equal	65,70	O	I-Process
+number	71,77	O	I-Process
+of	78,80	O	I-Process
+nodal	81,86	O	I-Process
+Lagrange	87,95	O	I-Process
+polynomials	96,107	O	I-Process
+defined	108,115	O	O
+at	116,118	O	O
+the	119,122	O	O
+same	123,127	O	O
+points	128,134	O	O
+,	134,135	O	O
+leading	136,143	O	O
+to	144,146	O	O
+a	147,148	O	O
+collocation	149,160	O	B-Process
+method	161,167	O	I-Process
+.	167,168	O	O
+
+There	169,174	O	O
+are	175,178	O	O
+many	179,183	O	O
+examples	184,192	O	O
+of	193,195	O	O
+this	196,200	O	O
+throughout	201,211	O	O
+the	212,215	O	O
+literature	216,226	O	O
+,	226,227	O	O
+both	228,232	O	O
+in	233,235	O	O
+terms	236,241	O	O
+of	242,244	O	O
+the	245,248	O	O
+more	249,253	O	O
+traditionally	254,267	O	O
+utilised	268,276	O	O
+continuous	277,287	O	O
+Galerkin	288,296	O	B-Process
+(	297,298	O	O
+CG	298,300	O	B-Process
+)	300,301	O	O
+and	302,305	O	O
+discontinuous	306,319	O	B-Process
+Galerkin	320,328	O	I-Process
+(	329,330	O	O
+DG	330,332	O	B-Process
+)	332,333	O	O
+formulations	334,346	O	O
+,	346,347	O	O
+as	348,350	O	O
+well	351,355	O	O
+as	356,358	O	O
+newer	359,364	O	B-Process
+extensions	365,375	O	I-Process
+such	376,380	O	O
+as	381,383	O	O
+the	384,387	O	O
+flux	388,392	O	B-Process
+reconstruction	393,407	O	I-Process
+(	408,409	O	O
+FR	409,411	O	B-Process
+)	411,412	O	O
+technique	413,422	O	O
+as	423,425	O	O
+presented	426,435	O	O
+by	436,438	O	O
+Huynh	439,444	O	O
+[	445,446	O	O
+23	446,448	O	O
+]	448,449	O	O
+.	449,450	O	O
+
+In	451,453	O	O
+collocation	454,465	O	B-Process
+methods	466,473	O	I-Process
+,	473,474	O	O
+while	475,480	O	O
+most	481,485	O	O
+linear	486,492	O	B-Material
+operators	493,502	O	I-Material
+can	503,506	O	O
+be	507,509	O	O
+exactly	510,517	O	O
+integrated	518,528	O	O
+in	529,531	O	O
+this	532,536	O	O
+setting	537,544	O	O
+depending	545,554	O	O
+on	555,557	O	O
+the	558,561	O	O
+choice	562,568	O	O
+of	569,571	O	O
+quadrature	572,582	O	O
+,	582,583	O	O
+integrals	584,593	O	O
+of	594,596	O	O
+nonlinear	597,606	O	O
+terms	607,612	O	O
+typically	613,622	O	O
+incur	623,628	O	O
+numerical	629,638	O	O
+error	639,644	O	O
+.	644,645	O	O
+
+However	646,653	O	O
+,	653,654	O	O
+the	655,658	O	O
+computational	659,672	O	O
+efficiencies	673,685	O	O
+that	686,690	O	O
+can	691,694	O	O
+be	695,697	O	O
+attained	698,706	O	O
+through	707,714	O	O
+the	715,718	O	O
+use	719,722	O	O
+of	723,725	O	O
+a	726,727	O	O
+collocation	728,739	O	B-Task
+formulation	740,751	O	I-Task
+,	751,752	O	I-Task
+especially	753,763	O	I-Task
+given	764,769	O	I-Task
+the	770,773	O	I-Task
+presence	774,782	O	I-Task
+of	783,785	O	I-Task
+a	786,787	O	I-Task
+diagonal	788,796	O	I-Task
+mass	797,801	O	I-Task
+matrix	802,808	O	I-Task
+,	808,809	O	O
+often	810,815	O	O
+outweigh	816,824	O	O
+the	825,828	O	O
+numerical	829,838	O	O
+error	839,844	O	O
+that	845,849	O	O
+is	850,852	O	O
+incurred	853,861	O	O
+.	861,862	O	O
 
 
 -DOCSTART- (S0021999115007238)
 
-An	0	2	O
-inherent	3	11	O
-problem	12	19	O
-of	20	22	O
-the	23	26	O
-phase	27	32	B-Task
--	32	33	I-Task
-space	33	38	I-Task
-discretisation	39	53	I-Task
-is	54	56	O
-the	57	60	O
-spurious	61	69	B-Process
-separation	70	80	I-Process
-of	81	83	I-Process
-energy	84	90	I-Process
-into	91	95	I-Process
-the	96	99	I-Process
-discretised	100	111	I-Process
-bins	112	116	I-Process
-.	116	117	O
-
-This	118	122	O
-is	123	125	O
-called	126	132	O
-the	133	136	O
-“	137	138	O
-Garden	138	144	B-Task
-Sprinkler	145	154	I-Task
-Effect	155	161	I-Task
-”	161	162	O
-and	163	166	O
-has	167	170	O
-been	171	175	O
-extensively	176	187	O
-studied	188	195	O
-in	196	198	O
-[	199	200	O
-48,49,20	200	208	O
-]	208	209	O
-.	209	210	O
-
-(	211	212	O
-In	212	214	O
-the	215	218	O
-Boltzmann	219	228	O
-transport	229	238	O
-community	239	248	O
-this	249	253	O
-is	254	256	O
-known	257	262	O
-as	263	265	O
-the	266	269	O
-ray	270	273	B-Task
-effect	274	280	I-Task
-.	280	281	O
-)	281	282	O
-
-To	283	285	O
-showcase	286	294	O
-this	295	299	O
-effect	300	306	O
-in	307	309	O
-the	310	313	O
-angular	314	321	O
-dimension	322	331	O
-,	331	332	O
-a	333	334	O
-large	335	340	O
-spatial	341	348	B-Process
-domain	349	355	I-Process
-(	356	357	I-Process
-4000km×4000	357	368	I-Process
-km	368	370	I-Process
-)	370	371	I-Process
-is	372	374	I-Process
-simulated	375	384	I-Process
-,	384	385	O
-with	386	390	O
-a	391	392	O
-monochromatic	393	406	B-Material
-wave	407	411	I-Material
-propagating	412	423	O
-over	424	428	O
-a	429	430	O
-long	431	435	O
-distance	436	444	O
-in	445	447	O
-deep	448	452	B-Material
-water	453	458	I-Material
-(	459	460	O
-d=10000	460	467	O
-m	467	468	O
-)	468	469	O
-.	469	470	O
-
-For	471	474	O
-the	475	478	O
-spatial	479	486	B-Process
-discretisation	487	501	I-Process
-a	502	503	O
-structured	504	514	B-Process
-triangle	515	523	I-Process
-mesh	524	528	I-Process
-is	529	531	O
-used	532	536	O
-,	536	537	O
-with	538	542	O
-an	543	545	O
-element	546	553	O
-edge	554	558	O
-length	559	565	O
-of	566	568	O
-67	569	571	O
-km	571	573	O
-(	574	575	O
-Fig	575	578	O
-.	578	579	O
-
-11(a	580	584	O
-)	584	585	O
-)	585	586	O
-.	586	587	O
-
-The	588	591	O
-initial	592	599	O
-wave	600	604	B-Material
-field	605	610	I-Material
-,	610	611	O
-located	612	619	O
-500	620	623	O
-km	623	625	O
-from	626	630	O
-the	631	634	O
-lower	635	640	O
-and	641	644	O
-left	645	649	O
-side	650	654	O
-has	655	658	O
-a	659	660	O
-Gaussian	661	669	B-Material
-distribution	670	682	I-Material
-in	683	685	I-Material
-space	686	691	I-Material
-,	691	692	O
-with	693	697	O
-a	698	699	O
-significant	700	711	O
-wave	712	716	B-Material
-height	717	723	O
-of	724	726	O
-Hs=2.5	727	733	O
-m	733	734	O
-and	735	738	O
-a	739	740	O
-standard	741	749	O
-deviation	750	759	O
-of	760	762	O
-150	763	766	O
-km	766	768	O
-(	769	770	O
-Fig	770	773	O
-.	773	774	O
-
-11(b	775	779	O
-)	779	780	O
-)	780	781	O
-.	781	782	O
-
-Its	783	786	O
-mean	787	791	O
-direction	792	801	O
-is	802	804	O
-30	805	807	O
-°	807	808	O
-with	809	813	O
-an	814	816	O
-angular	817	824	O
-distribution	825	837	O
-of	838	840	O
-cos2⁡(θ	841	848	O
-)	848	849	O
-and	850	853	O
-a	854	855	O
-frequency	856	865	O
-of	866	868	O
-0.1Hz	869	874	O
-.	874	875	O
-
-The	876	879	O
-simulation	880	890	B-Process
-is	891	893	O
-time	894	898	O
--	898	899	O
-dependent	899	908	O
-and	909	912	O
-runs	913	917	O
-for	918	921	O
-5	922	923	O
-days	924	928	O
-with	929	933	O
-a	934	935	O
-time	936	940	O
--	940	941	O
-step	941	945	O
-of	946	948	O
-600s	949	953	O
-.	953	954	O
+An	0,2	O	O
+inherent	3,11	O	O
+problem	12,19	O	O
+of	20,22	O	O
+the	23,26	O	O
+phase	27,32	O	B-Task
+-	32,33	O	I-Task
+space	33,38	O	I-Task
+discretisation	39,53	O	I-Task
+is	54,56	O	O
+the	57,60	O	O
+spurious	61,69	O	B-Process
+separation	70,80	O	I-Process
+of	81,83	O	I-Process
+energy	84,90	O	I-Process
+into	91,95	O	I-Process
+the	96,99	O	I-Process
+discretised	100,111	O	I-Process
+bins	112,116	O	I-Process
+.	116,117	O	O
+
+This	118,122	O	O
+is	123,125	O	O
+called	126,132	O	O
+the	133,136	O	O
+“	137,138	O	O
+Garden	138,144	O	B-Task
+Sprinkler	145,154	O	I-Task
+Effect	155,161	O	I-Task
+”	161,162	O	O
+and	163,166	O	O
+has	167,170	O	O
+been	171,175	O	O
+extensively	176,187	O	O
+studied	188,195	O	O
+in	196,198	O	O
+[	199,200	O	O
+48,49,20	200,208	O	O
+]	208,209	O	O
+.	209,210	O	O
+
+(	211,212	O	O
+In	212,214	O	O
+the	215,218	O	O
+Boltzmann	219,228	O	O
+transport	229,238	O	O
+community	239,248	O	O
+this	249,253	O	O
+is	254,256	O	O
+known	257,262	O	O
+as	263,265	O	O
+the	266,269	O	O
+ray	270,273	O	B-Task
+effect	274,280	O	I-Task
+.	280,281	O	O
+)	281,282	O	O
+
+To	283,285	O	O
+showcase	286,294	O	O
+this	295,299	O	O
+effect	300,306	O	O
+in	307,309	O	O
+the	310,313	O	O
+angular	314,321	O	O
+dimension	322,331	O	O
+,	331,332	O	O
+a	333,334	O	O
+large	335,340	O	O
+spatial	341,348	O	B-Process
+domain	349,355	O	I-Process
+(	356,357	O	I-Process
+4000km×4000	357,368	O	I-Process
+km	368,370	O	I-Process
+)	370,371	O	I-Process
+is	372,374	O	I-Process
+simulated	375,384	O	I-Process
+,	384,385	O	O
+with	386,390	O	O
+a	391,392	O	O
+monochromatic	393,406	O	B-Material
+wave	407,411	O	I-Material
+propagating	412,423	O	O
+over	424,428	O	O
+a	429,430	O	O
+long	431,435	O	O
+distance	436,444	O	O
+in	445,447	O	O
+deep	448,452	O	B-Material
+water	453,458	O	I-Material
+(	459,460	O	O
+d=10000	460,467	O	O
+m	467,468	O	O
+)	468,469	O	O
+.	469,470	O	O
+
+For	471,474	O	O
+the	475,478	O	O
+spatial	479,486	O	B-Process
+discretisation	487,501	O	I-Process
+a	502,503	O	O
+structured	504,514	O	B-Process
+triangle	515,523	O	I-Process
+mesh	524,528	O	I-Process
+is	529,531	O	O
+used	532,536	O	O
+,	536,537	O	O
+with	538,542	O	O
+an	543,545	O	O
+element	546,553	O	O
+edge	554,558	O	O
+length	559,565	O	O
+of	566,568	O	O
+67	569,571	O	O
+km	571,573	O	O
+(	574,575	O	O
+Fig	575,578	O	O
+.	578,579	O	O
+
+11(a	580,584	O	O
+)	584,585	O	O
+)	585,586	O	O
+.	586,587	O	O
+
+The	588,591	O	O
+initial	592,599	O	O
+wave	600,604	O	B-Material
+field	605,610	O	I-Material
+,	610,611	O	O
+located	612,619	O	O
+500	620,623	O	O
+km	623,625	O	O
+from	626,630	O	O
+the	631,634	O	O
+lower	635,640	O	O
+and	641,644	O	O
+left	645,649	O	O
+side	650,654	O	O
+has	655,658	O	O
+a	659,660	O	O
+Gaussian	661,669	O	B-Material
+distribution	670,682	O	I-Material
+in	683,685	O	I-Material
+space	686,691	O	I-Material
+,	691,692	O	O
+with	693,697	O	O
+a	698,699	O	O
+significant	700,711	O	O
+wave	712,716	O	B-Material
+height	717,723	O	O
+of	724,726	O	O
+Hs=2.5	727,733	O	O
+m	733,734	O	O
+and	735,738	O	O
+a	739,740	O	O
+standard	741,749	O	O
+deviation	750,759	O	O
+of	760,762	O	O
+150	763,766	O	O
+km	766,768	O	O
+(	769,770	O	O
+Fig	770,773	O	O
+.	773,774	O	O
+
+11(b	775,779	O	O
+)	779,780	O	O
+)	780,781	O	O
+.	781,782	O	O
+
+Its	783,786	O	O
+mean	787,791	O	O
+direction	792,801	O	O
+is	802,804	O	O
+30	805,807	O	O
+°	807,808	O	O
+with	809,813	O	O
+an	814,816	O	O
+angular	817,824	O	O
+distribution	825,837	O	O
+of	838,840	O	O
+cos2⁡(θ	841,848	O	O
+)	848,849	O	O
+and	850,853	O	O
+a	854,855	O	O
+frequency	856,865	O	O
+of	866,868	O	O
+0.1Hz	869,874	O	O
+.	874,875	O	O
+
+The	876,879	O	O
+simulation	880,890	O	B-Process
+is	891,893	O	O
+time	894,898	O	O
+-	898,899	O	O
+dependent	899,908	O	O
+and	909,912	O	O
+runs	913,917	O	O
+for	918,921	O	O
+5	922,923	O	O
+days	924,928	O	O
+with	929,933	O	O
+a	934,935	O	O
+time	936,940	O	O
+-	940,941	O	O
+step	941,945	O	O
+of	946,948	O	O
+600s	949,953	O	O
+.	953,954	O	O
 
 
 -DOCSTART- (S0021999115008207)
 
-Multi	0	5	B-Task
--	5	6	I-Task
-phase	6	11	I-Task
-flows	12	17	I-Task
-are	18	21	O
-common	22	28	O
-,	28	29	O
-in	30	32	O
-fact	33	37	O
-quite	38	43	O
-general	44	51	O
-,	51	52	O
-in	53	55	O
-environmental	56	69	B-Process
-and	70	73	I-Process
-industrial	74	84	I-Process
-processes	85	94	I-Process
-.	94	95	O
-
-Broadly	96	103	O
-these	104	109	O
-may	110	113	O
-be	114	116	O
-modelled	117	125	O
-as	126	128	O
-continuous	129	139	O
-problems	140	148	O
-where	149	154	O
-phases	155	161	B-Process
-are	162	165	I-Process
-mixed	166	171	I-Process
-(	172	173	O
-e.g.	173	177	O
-oil	178	181	B-Process
-–	181	182	I-Process
-water	182	187	I-Process
-homogenisation	188	202	I-Process
-[	203	204	O
-36	204	206	O
-]	206	207	O
-,	207	208	O
-sediment	209	217	B-Process
-transport	218	227	I-Process
-[	228	229	O
-18	229	231	O
-]	231	232	O
-)	232	233	O
-or	234	236	O
-interface	237	246	B-Process
-problems	247	255	I-Process
-where	256	261	O
-phases	262	268	O
-are	269	272	O
-distinct	273	281	O
-and	282	285	O
-interact	286	294	O
-at	295	297	O
-the	298	301	O
-interface	302	311	O
-(	312	313	O
-e.g.	313	317	O
-gas	318	321	B-Process
--	321	322	I-Process
-assisted	322	330	I-Process
-injection	331	340	I-Process
-moulding	341	349	I-Process
-[	350	351	O
-21	351	353	O
-]	353	354	O
-,	354	355	O
-liquid	356	362	B-Process
-jet	363	366	I-Process
-breakup	367	374	I-Process
-[	375	376	O
-40	376	378	O
-]	378	379	O
-)	379	380	O
-.	380	381	O
-
-In	382	384	O
-some	385	389	O
-cases	390	395	O
-flows	396	401	O
-start	402	407	O
-as	408	410	O
-interface	411	420	O
-problems	421	429	O
-but	430	433	O
-as	434	436	O
-mixing	437	443	B-Process
-occurs	444	450	O
-at	451	453	O
-the	454	457	O
-interface	458	467	O
-they	468	472	O
-become	473	479	O
-effectively	480	491	O
-continuous	492	502	O
-,	502	503	O
-at	504	506	O
-least	507	512	O
-locally	513	520	O
-.	520	521	O
-
-Air	522	525	B-Task
-entrainment	526	537	I-Task
-,	537	538	O
-perhaps	539	546	O
-due	547	550	O
-to	551	553	O
-wave	554	558	B-Process
-breaking	559	567	I-Process
-,	567	568	O
-is	569	571	O
-an	572	574	O
-obvious	575	582	O
-example	583	590	O
-.	590	591	O
-
-We	592	594	O
-consider	595	603	O
-here	604	608	O
-two	609	612	B-Task
--	612	613	I-Task
-phase	613	618	I-Task
-interface	619	628	I-Task
-problems	629	637	I-Task
-where	638	643	O
-the	644	647	O
-interface	648	657	O
-remains	658	665	O
-distinct	666	674	O
-and	675	678	O
-the	679	682	O
-density	683	690	O
-difference	691	701	O
-is	702	704	O
-high	705	709	O
-,	709	710	O
-e.g.	711	715	O
-air	716	719	B-Material
-and	720	723	O
-water	724	729	B-Material
-,	729	730	O
-and	731	734	O
-where	735	740	O
-one	741	744	O
-phase	745	750	O
-may	751	754	O
-be	755	757	O
-considered	758	768	O
-incompressible	769	783	O
-.	783	784	O
-
-The	785	788	O
-interface	789	798	O
-is	799	801	O
-transient	802	811	O
-and	812	815	O
-may	816	819	O
-become	820	826	O
-highly	827	833	O
-distorted	834	843	B-Process
-and	844	847	I-Process
-interconnected	848	862	I-Process
-.	862	863	O
-
-Such	864	868	O
-problems	869	877	O
-have	878	882	O
-been	883	887	O
-tackled	888	895	O
-with	896	900	O
-mesh	901	905	B-Process
--	905	906	I-Process
-based	906	911	I-Process
-methods	912	919	I-Process
-using	920	925	O
-periodic	926	934	O
-(	935	936	O
-or	936	938	O
-adaptive	939	947	O
-)	947	948	O
-re	949	951	B-Process
--	951	952	I-Process
-meshing	952	959	I-Process
-or	960	962	O
-additional	963	973	O
-phase	974	979	B-Process
-tracking	980	988	I-Process
-functions	989	998	I-Process
-[	999	1000	O
-40	1000	1002	O
-]	1002	1003	O
-.	1003	1004	O
-
-However	1005	1012	O
-,	1012	1013	O
-these	1014	1019	O
-approaches	1020	1030	O
-can	1031	1034	O
-be	1035	1037	O
-time	1038	1042	O
--	1042	1043	O
-consuming	1043	1052	O
-to	1053	1055	O
-implement	1056	1065	O
-and	1066	1069	O
-prone	1070	1075	O
-to	1076	1078	O
-errors	1079	1085	O
-in	1086	1088	O
-surface	1089	1096	O
-representation	1097	1111	O
-[	1112	1113	O
-50	1113	1115	O
-]	1115	1116	O
-or	1117	1119	O
-mass	1120	1124	O
-conservation	1125	1137	O
-[	1138	1139	O
-34	1139	1141	O
-]	1141	1142	O
-.	1142	1143	O
+Multi	0,5	O	B-Task
+-	5,6	O	I-Task
+phase	6,11	O	I-Task
+flows	12,17	O	I-Task
+are	18,21	O	O
+common	22,28	O	O
+,	28,29	O	O
+in	30,32	O	O
+fact	33,37	O	O
+quite	38,43	O	O
+general	44,51	O	O
+,	51,52	O	O
+in	53,55	O	O
+environmental	56,69	O	B-Process
+and	70,73	O	I-Process
+industrial	74,84	O	I-Process
+processes	85,94	O	I-Process
+.	94,95	O	O
+
+Broadly	96,103	O	O
+these	104,109	O	O
+may	110,113	O	O
+be	114,116	O	O
+modelled	117,125	O	O
+as	126,128	O	O
+continuous	129,139	O	O
+problems	140,148	O	O
+where	149,154	O	O
+phases	155,161	O	B-Process
+are	162,165	O	I-Process
+mixed	166,171	O	I-Process
+(	172,173	O	O
+e.g.	173,177	O	O
+oil	178,181	O	B-Process
+–	181,182	O	I-Process
+water	182,187	O	I-Process
+homogenisation	188,202	O	I-Process
+[	203,204	O	O
+36	204,206	O	O
+]	206,207	O	O
+,	207,208	O	O
+sediment	209,217	O	B-Process
+transport	218,227	O	I-Process
+[	228,229	O	O
+18	229,231	O	O
+]	231,232	O	O
+)	232,233	O	O
+or	234,236	O	O
+interface	237,246	O	B-Process
+problems	247,255	O	I-Process
+where	256,261	O	O
+phases	262,268	O	O
+are	269,272	O	O
+distinct	273,281	O	O
+and	282,285	O	O
+interact	286,294	O	O
+at	295,297	O	O
+the	298,301	O	O
+interface	302,311	O	O
+(	312,313	O	O
+e.g.	313,317	O	O
+gas	318,321	O	B-Process
+-	321,322	O	I-Process
+assisted	322,330	O	I-Process
+injection	331,340	O	I-Process
+moulding	341,349	O	I-Process
+[	350,351	O	O
+21	351,353	O	O
+]	353,354	O	O
+,	354,355	O	O
+liquid	356,362	O	B-Process
+jet	363,366	O	I-Process
+breakup	367,374	O	I-Process
+[	375,376	O	O
+40	376,378	O	O
+]	378,379	O	O
+)	379,380	O	O
+.	380,381	O	O
+
+In	382,384	O	O
+some	385,389	O	O
+cases	390,395	O	O
+flows	396,401	O	O
+start	402,407	O	O
+as	408,410	O	O
+interface	411,420	O	O
+problems	421,429	O	O
+but	430,433	O	O
+as	434,436	O	O
+mixing	437,443	O	B-Process
+occurs	444,450	O	O
+at	451,453	O	O
+the	454,457	O	O
+interface	458,467	O	O
+they	468,472	O	O
+become	473,479	O	O
+effectively	480,491	O	O
+continuous	492,502	O	O
+,	502,503	O	O
+at	504,506	O	O
+least	507,512	O	O
+locally	513,520	O	O
+.	520,521	O	O
+
+Air	522,525	O	B-Task
+entrainment	526,537	O	I-Task
+,	537,538	O	O
+perhaps	539,546	O	O
+due	547,550	O	O
+to	551,553	O	O
+wave	554,558	O	B-Process
+breaking	559,567	O	I-Process
+,	567,568	O	O
+is	569,571	O	O
+an	572,574	O	O
+obvious	575,582	O	O
+example	583,590	O	O
+.	590,591	O	O
+
+We	592,594	O	O
+consider	595,603	O	O
+here	604,608	O	O
+two	609,612	O	B-Task
+-	612,613	O	I-Task
+phase	613,618	O	I-Task
+interface	619,628	O	I-Task
+problems	629,637	O	I-Task
+where	638,643	O	O
+the	644,647	O	O
+interface	648,657	O	O
+remains	658,665	O	O
+distinct	666,674	O	O
+and	675,678	O	O
+the	679,682	O	O
+density	683,690	O	O
+difference	691,701	O	O
+is	702,704	O	O
+high	705,709	O	O
+,	709,710	O	O
+e.g.	711,715	O	O
+air	716,719	O	B-Material
+and	720,723	O	O
+water	724,729	O	B-Material
+,	729,730	O	O
+and	731,734	O	O
+where	735,740	O	O
+one	741,744	O	O
+phase	745,750	O	O
+may	751,754	O	O
+be	755,757	O	O
+considered	758,768	O	O
+incompressible	769,783	O	O
+.	783,784	O	O
+
+The	785,788	O	O
+interface	789,798	O	O
+is	799,801	O	O
+transient	802,811	O	O
+and	812,815	O	O
+may	816,819	O	O
+become	820,826	O	O
+highly	827,833	O	O
+distorted	834,843	O	B-Process
+and	844,847	O	I-Process
+interconnected	848,862	O	I-Process
+.	862,863	O	O
+
+Such	864,868	O	O
+problems	869,877	O	O
+have	878,882	O	O
+been	883,887	O	O
+tackled	888,895	O	O
+with	896,900	O	O
+mesh	901,905	O	B-Process
+-	905,906	O	I-Process
+based	906,911	O	I-Process
+methods	912,919	O	I-Process
+using	920,925	O	O
+periodic	926,934	O	O
+(	935,936	O	O
+or	936,938	O	O
+adaptive	939,947	O	O
+)	947,948	O	O
+re	949,951	O	B-Process
+-	951,952	O	I-Process
+meshing	952,959	O	I-Process
+or	960,962	O	O
+additional	963,973	O	O
+phase	974,979	O	B-Process
+tracking	980,988	O	I-Process
+functions	989,998	O	I-Process
+[	999,1000	O	O
+40	1000,1002	O	O
+]	1002,1003	O	O
+.	1003,1004	O	O
+
+However	1005,1012	O	O
+,	1012,1013	O	O
+these	1014,1019	O	O
+approaches	1020,1030	O	O
+can	1031,1034	O	O
+be	1035,1037	O	O
+time	1038,1042	O	O
+-	1042,1043	O	O
+consuming	1043,1052	O	O
+to	1053,1055	O	O
+implement	1056,1065	O	O
+and	1066,1069	O	O
+prone	1070,1075	O	O
+to	1076,1078	O	O
+errors	1079,1085	O	O
+in	1086,1088	O	O
+surface	1089,1096	O	O
+representation	1097,1111	O	O
+[	1112,1113	O	O
+50	1113,1115	O	O
+]	1115,1116	O	O
+or	1117,1119	O	O
+mass	1120,1124	O	O
+conservation	1125,1137	O	O
+[	1138,1139	O	O
+34	1139,1141	O	O
+]	1141,1142	O	O
+.	1142,1143	O	O
 
 
 -DOCSTART- (S0021999115008256)
 
-This	0	4	O
-section	5	12	O
-is	13	15	O
-devoted	16	23	O
-to	24	26	O
-the	27	30	O
-discretization	31	45	B-Task
-of	46	48	I-Task
-the	49	52	I-Task
-advection	53	62	I-Task
-–	62	63	I-Task
-diffusion	63	72	I-Task
-equation	73	81	I-Task
-and	82	85	O
-to	86	88	O
-the	89	92	O
-analysis	93	101	O
-of	102	104	O
-dispersion	105	115	B-Task
-and	116	119	I-Task
-diffusion	120	129	I-Task
-eigencurves	130	141	I-Task
-for	142	145	O
-different	146	155	O
-polynomial	156	166	O
-orders	167	173	O
-.	173	174	O
-
-The	175	178	O
-spectral	179	187	O
-/	187	188	O
-hp	188	190	O
-continuous	191	201	O
-Galerkin	202	210	B-Process
-method	211	217	I-Process
-considered	218	228	O
-closely	229	236	O
-resembles	237	246	O
-the	247	250	O
-formulation	251	262	O
-presented	263	272	O
-in	273	275	O
-[	276	277	O
-7	277	278	O
-]	278	279	O
-.	279	280	O
-
-Sec	281	284	O
-.	284	285	O
-
-2.1	286	289	O
-describes	290	299	O
-in	300	302	O
-detail	303	309	O
-the	310	313	O
-derivation	314	324	B-Process
-of	325	327	I-Process
-the	328	331	I-Process
-semi	332	336	I-Process
--	336	337	I-Process
-discrete	337	345	I-Process
-advection	346	355	I-Process
-–	355	356	I-Process
-diffusion	356	365	I-Process
-problem	366	373	I-Process
-as	374	376	O
-applied	377	384	O
-to	385	387	O
-wave	388	392	B-Material
--	392	393	I-Material
-like	393	397	I-Material
-solutions	398	407	I-Material
-,	407	408	O
-from	409	413	O
-which	414	419	O
-the	420	423	O
-relevant	424	432	O
-eigencurves	433	444	O
-can	445	448	O
-be	449	451	O
-obtained	452	460	O
-.	460	461	O
-
-The	462	465	O
-inviscid	466	474	B-Material
-case	475	479	I-Material
-(	480	481	O
-linear	481	487	B-Material
-advection	488	497	I-Material
-)	497	498	O
-is	499	501	O
-then	502	506	O
-addressed	507	516	O
-in	517	519	O
-Sec	520	523	O
-.	523	524	O
-
-2.2	525	528	O
-,	528	529	O
-where	530	535	O
-the	536	539	O
-role	540	544	O
-of	545	547	O
-primary	548	555	O
-and	556	559	O
-secondary	560	569	O
-eigencurves	570	581	O
-is	582	584	O
-discussed	585	594	O
-from	595	599	O
-the	600	603	O
-perspective	604	615	O
-introduced	616	626	O
-in	627	629	O
-[	630	631	O
-9	631	632	O
-]	632	633	O
-.	633	634	O
-
-The	635	638	O
-viscous	639	646	B-Material
-case	647	651	I-Material
-is	652	654	O
-subsequently	655	667	O
-considered	668	678	O
-in	679	681	O
-Sec	682	685	O
-.	685	686	O
-
-2.3	687	690	O
-,	690	691	O
-where	692	697	O
-eigencurves	698	709	O
-are	710	713	O
-shown	714	719	O
-to	720	722	O
-feature	723	730	O
-irregular	731	740	O
-oscillations	741	753	O
-for	754	757	O
-problems	758	766	O
-strongly	767	775	O
-dominated	776	785	O
-by	786	788	O
-either	789	795	O
-convection	796	806	O
-or	807	809	O
-diffusion	810	819	O
-.	819	820	O
+This	0,4	O	O
+section	5,12	O	O
+is	13,15	O	O
+devoted	16,23	O	O
+to	24,26	O	O
+the	27,30	O	O
+discretization	31,45	O	B-Task
+of	46,48	O	I-Task
+the	49,52	O	I-Task
+advection	53,62	O	I-Task
+–	62,63	O	I-Task
+diffusion	63,72	O	I-Task
+equation	73,81	O	I-Task
+and	82,85	O	O
+to	86,88	O	O
+the	89,92	O	O
+analysis	93,101	O	O
+of	102,104	O	O
+dispersion	105,115	O	B-Task
+and	116,119	O	I-Task
+diffusion	120,129	O	I-Task
+eigencurves	130,141	O	I-Task
+for	142,145	O	O
+different	146,155	O	O
+polynomial	156,166	O	O
+orders	167,173	O	O
+.	173,174	O	O
+
+The	175,178	O	O
+spectral	179,187	O	O
+/	187,188	O	O
+hp	188,190	O	O
+continuous	191,201	O	O
+Galerkin	202,210	O	B-Process
+method	211,217	O	I-Process
+considered	218,228	O	O
+closely	229,236	O	O
+resembles	237,246	O	O
+the	247,250	O	O
+formulation	251,262	O	O
+presented	263,272	O	O
+in	273,275	O	O
+[	276,277	O	O
+7	277,278	O	O
+]	278,279	O	O
+.	279,280	O	O
+
+Sec	281,284	O	O
+.	284,285	O	O
+
+2.1	286,289	O	O
+describes	290,299	O	O
+in	300,302	O	O
+detail	303,309	O	O
+the	310,313	O	O
+derivation	314,324	O	B-Process
+of	325,327	O	I-Process
+the	328,331	O	I-Process
+semi	332,336	O	I-Process
+-	336,337	O	I-Process
+discrete	337,345	O	I-Process
+advection	346,355	O	I-Process
+–	355,356	O	I-Process
+diffusion	356,365	O	I-Process
+problem	366,373	O	I-Process
+as	374,376	O	O
+applied	377,384	O	O
+to	385,387	O	O
+wave	388,392	O	B-Material
+-	392,393	O	I-Material
+like	393,397	O	I-Material
+solutions	398,407	O	I-Material
+,	407,408	O	O
+from	409,413	O	O
+which	414,419	O	O
+the	420,423	O	O
+relevant	424,432	O	O
+eigencurves	433,444	O	O
+can	445,448	O	O
+be	449,451	O	O
+obtained	452,460	O	O
+.	460,461	O	O
+
+The	462,465	O	O
+inviscid	466,474	O	B-Material
+case	475,479	O	I-Material
+(	480,481	O	O
+linear	481,487	O	B-Material
+advection	488,497	O	I-Material
+)	497,498	O	O
+is	499,501	O	O
+then	502,506	O	O
+addressed	507,516	O	O
+in	517,519	O	O
+Sec	520,523	O	O
+.	523,524	O	O
+
+2.2	525,528	O	O
+,	528,529	O	O
+where	530,535	O	O
+the	536,539	O	O
+role	540,544	O	O
+of	545,547	O	O
+primary	548,555	O	O
+and	556,559	O	O
+secondary	560,569	O	O
+eigencurves	570,581	O	O
+is	582,584	O	O
+discussed	585,594	O	O
+from	595,599	O	O
+the	600,603	O	O
+perspective	604,615	O	O
+introduced	616,626	O	O
+in	627,629	O	O
+[	630,631	O	O
+9	631,632	O	O
+]	632,633	O	O
+.	633,634	O	O
+
+The	635,638	O	O
+viscous	639,646	O	B-Material
+case	647,651	O	I-Material
+is	652,654	O	O
+subsequently	655,667	O	O
+considered	668,678	O	O
+in	679,681	O	O
+Sec	682,685	O	O
+.	685,686	O	O
+
+2.3	687,690	O	O
+,	690,691	O	O
+where	692,697	O	O
+eigencurves	698,709	O	O
+are	710,713	O	O
+shown	714,719	O	O
+to	720,722	O	O
+feature	723,730	O	O
+irregular	731,740	O	O
+oscillations	741,753	O	O
+for	754,757	O	O
+problems	758,766	O	O
+strongly	767,775	O	O
+dominated	776,785	O	O
+by	786,788	O	O
+either	789,795	O	O
+convection	796,806	O	O
+or	807,809	O	O
+diffusion	810,819	O	O
+.	819,820	O	O
 
 
 -DOCSTART- (S0022311511010014)
 
-Discovering	0	11	O
-that	12	16	O
-both	17	21	O
-the	22	25	O
-vacancy	26	33	O
-and	34	37	O
-interstitial	38	50	O
-defect	51	57	B-Task
-migration	58	67	I-Task
-pathways	68	76	I-Task
-are	77	80	O
-confined	81	89	O
-to	90	92	O
-Ga	93	95	B-Material
--	95	96	O
-free	96	100	O
-regions	101	108	O
-suggests	109	117	O
-changes	118	125	O
-in	126	128	O
-recombination	129	142	O
-rates	143	148	O
-of	149	151	O
-isolated	152	160	O
-vacancy	161	168	O
--	168	169	O
-interstitial	169	181	O
-pairs	182	187	O
-in	188	190	O
-comparison	191	201	O
-to	202	204	O
-pure	205	209	O
-Pu	210	212	O
-.	212	213	O
-
-The	214	217	O
-degree	218	224	O
-to	225	227	O
-which	228	233	O
-the	234	237	O
-rates	238	243	O
-are	244	247	O
-effected	248	256	O
-depends	257	264	O
-on	265	267	O
-the	268	271	O
-distribution	272	284	O
-of	285	287	O
-residual	288	296	O
-defects	297	304	O
-post	305	309	O
-a	310	311	O
-cascade	312	319	B-Process
-event	320	325	I-Process
-,	325	326	O
-in	327	329	O
-addition	330	338	O
-to	339	341	O
-the	342	345	O
-concentration	346	359	O
-and	360	363	O
-ordering	364	372	O
-of	373	375	O
-the	376	379	O
-Ga	380	382	B-Material
-atoms	383	388	I-Material
-.	388	389	O
-
-If	390	392	O
-vacancies	393	402	O
-and	403	406	O
-interstitials	407	420	O
-become	421	427	O
-greatly	428	435	O
-separated	436	445	O
-after	446	451	O
-the	452	455	O
-collision	456	465	B-Process
-cascade	466	473	I-Process
-,	473	474	O
-then	475	479	O
-pathways	480	488	O
-to	489	491	O
-recombination	492	505	O
-are	506	509	O
-likely	510	516	O
-to	517	519	O
-become	520	526	O
-restricted	527	537	O
-and	538	541	O
-recovery	542	550	O
-times	551	556	O
-will	557	561	O
-be	562	564	O
-extended	565	573	O
-.	573	574	O
-
-This	575	579	O
-is	580	582	O
-viable	583	589	O
-for	590	593	O
-cascades	594	602	O
-that	603	607	O
-created	608	615	O
-a	616	617	O
-vacancy	618	625	O
-rich	626	630	O
-core	631	635	O
-surrounded	636	646	O
-by	647	649	O
-dispersed	650	659	O
-interstitials	660	673	O
-,	673	674	O
-as	675	677	O
-found	678	683	O
-for	684	687	O
-the	688	691	O
-low	692	695	B-Material
-energy	696	702	I-Material
-cascades	703	711	I-Material
-in	712	714	I-Material
-Pu	715	717	I-Material
-and	718	721	I-Material
-PuGa	722	726	I-Material
-[	727	728	O
-11,12	728	733	O
-]	733	734	O
-.	734	735	O
-
-This	736	740	O
-may	741	744	O
-also	745	749	O
-be	750	752	O
-the	753	756	O
-case	757	761	O
-for	762	765	O
-channelling	766	777	B-Material
-events	778	784	I-Material
-,	784	785	O
-where	786	791	O
-energetic	792	801	B-Material
-atoms	802	807	I-Material
-travel	808	814	I-Material
-deep	815	819	I-Material
-into	820	824	I-Material
-the	825	828	I-Material
-lattice	829	836	I-Material
-through	837	844	I-Material
-channels	845	853	I-Material
-of	854	856	I-Material
-low	857	860	I-Material
-atomic	861	867	I-Material
-density	868	875	I-Material
-.	875	876	O
+Discovering	0,11	O	O
+that	12,16	O	O
+both	17,21	O	O
+the	22,25	O	O
+vacancy	26,33	O	O
+and	34,37	O	O
+interstitial	38,50	O	O
+defect	51,57	O	B-Task
+migration	58,67	O	I-Task
+pathways	68,76	O	I-Task
+are	77,80	O	O
+confined	81,89	O	O
+to	90,92	O	O
+Ga	93,95	O	B-Material
+-	95,96	O	O
+free	96,100	O	O
+regions	101,108	O	O
+suggests	109,117	O	O
+changes	118,125	O	O
+in	126,128	O	O
+recombination	129,142	O	O
+rates	143,148	O	O
+of	149,151	O	O
+isolated	152,160	O	O
+vacancy	161,168	O	O
+-	168,169	O	O
+interstitial	169,181	O	O
+pairs	182,187	O	O
+in	188,190	O	O
+comparison	191,201	O	O
+to	202,204	O	O
+pure	205,209	O	O
+Pu	210,212	O	O
+.	212,213	O	O
+
+The	214,217	O	O
+degree	218,224	O	O
+to	225,227	O	O
+which	228,233	O	O
+the	234,237	O	O
+rates	238,243	O	O
+are	244,247	O	O
+effected	248,256	O	O
+depends	257,264	O	O
+on	265,267	O	O
+the	268,271	O	O
+distribution	272,284	O	O
+of	285,287	O	O
+residual	288,296	O	O
+defects	297,304	O	O
+post	305,309	O	O
+a	310,311	O	O
+cascade	312,319	O	B-Process
+event	320,325	O	I-Process
+,	325,326	O	O
+in	327,329	O	O
+addition	330,338	O	O
+to	339,341	O	O
+the	342,345	O	O
+concentration	346,359	O	O
+and	360,363	O	O
+ordering	364,372	O	O
+of	373,375	O	O
+the	376,379	O	O
+Ga	380,382	O	B-Material
+atoms	383,388	O	I-Material
+.	388,389	O	O
+
+If	390,392	O	O
+vacancies	393,402	O	O
+and	403,406	O	O
+interstitials	407,420	O	O
+become	421,427	O	O
+greatly	428,435	O	O
+separated	436,445	O	O
+after	446,451	O	O
+the	452,455	O	O
+collision	456,465	O	B-Process
+cascade	466,473	O	I-Process
+,	473,474	O	O
+then	475,479	O	O
+pathways	480,488	O	O
+to	489,491	O	O
+recombination	492,505	O	O
+are	506,509	O	O
+likely	510,516	O	O
+to	517,519	O	O
+become	520,526	O	O
+restricted	527,537	O	O
+and	538,541	O	O
+recovery	542,550	O	O
+times	551,556	O	O
+will	557,561	O	O
+be	562,564	O	O
+extended	565,573	O	O
+.	573,574	O	O
+
+This	575,579	O	O
+is	580,582	O	O
+viable	583,589	O	O
+for	590,593	O	O
+cascades	594,602	O	O
+that	603,607	O	O
+created	608,615	O	O
+a	616,617	O	O
+vacancy	618,625	O	O
+rich	626,630	O	O
+core	631,635	O	O
+surrounded	636,646	O	O
+by	647,649	O	O
+dispersed	650,659	O	O
+interstitials	660,673	O	O
+,	673,674	O	O
+as	675,677	O	O
+found	678,683	O	O
+for	684,687	O	O
+the	688,691	O	O
+low	692,695	O	B-Material
+energy	696,702	O	I-Material
+cascades	703,711	O	I-Material
+in	712,714	O	I-Material
+Pu	715,717	O	I-Material
+and	718,721	O	I-Material
+PuGa	722,726	O	I-Material
+[	727,728	O	O
+11,12	728,733	O	O
+]	733,734	O	O
+.	734,735	O	O
+
+This	736,740	O	O
+may	741,744	O	O
+also	745,749	O	O
+be	750,752	O	O
+the	753,756	O	O
+case	757,761	O	O
+for	762,765	O	O
+channelling	766,777	O	B-Material
+events	778,784	O	I-Material
+,	784,785	O	O
+where	786,791	O	O
+energetic	792,801	O	B-Material
+atoms	802,807	O	I-Material
+travel	808,814	O	I-Material
+deep	815,819	O	I-Material
+into	820,824	O	I-Material
+the	825,828	O	I-Material
+lattice	829,836	O	I-Material
+through	837,844	O	I-Material
+channels	845,853	O	I-Material
+of	854,856	O	I-Material
+low	857,860	O	I-Material
+atomic	861,867	O	I-Material
+density	868,875	O	I-Material
+.	875,876	O	O
 
 
 -DOCSTART- (S0022311513001165)
 
-Our	0	3	O
-simulations	4	15	B-Material
-confirm	16	23	O
-experimental	24	36	O
-observations	37	49	O
-that	50	54	O
-W	55	56	B-Task
-net	57	60	I-Task
-erosion	61	68	I-Task
-represents	69	79	O
-only	80	84	O
-tiny	85	89	O
-fraction	90	98	O
-(	99	100	O
-in	100	102	O
-our	103	106	O
-simulation	107	117	O
-∼1	118	120	O
-%	120	121	O
-)	121	122	O
-of	123	125	O
-the	126	129	O
-W	130	131	B-Task
-gross	132	137	I-Task
-erosion	138	145	I-Task
-.	145	146	O
-
-The	147	150	O
-estimated	151	160	B-Process
-upstream	161	169	I-Process
-W	170	171	I-Process
-fluxes	172	178	I-Process
-,	178	179	O
-FWupstrem	180	189	B-Process
-,	189	190	O
-are	191	194	O
-in	195	197	O
-good	198	202	O
-agreement	203	212	O
-with	213	217	O
-the	218	221	O
-experimentally	222	236	B-Material
-observed	237	245	I-Material
-values	246	252	I-Material
-⩽1019m-2s-1	253	264	O
-
-[	265	266	O
-16	266	268	O
-]	268	269	O
-.	269	270	O
-
-Moreover	271	279	O
-,	279	280	O
-this	281	285	O
-value	286	291	O
-is	292	294	O
-not	295	298	O
-very	299	303	O
-sensitive	304	313	O
-to	314	316	O
-the	317	320	O
-divertor	321	329	B-Material
-plasma	330	336	O
-temperature	337	348	O
-.	348	349	O
-
-For	350	353	O
-low	354	357	O
-temperatures	358	370	O
-the	371	374	O
-energy	375	381	O
-of	382	384	O
-D	385	386	B-Material
-and	387	390	I-Material
-C	391	392	I-Material
-ions	393	397	I-Material
-hitting	398	405	B-Process
-to	406	408	I-Process
-the	409	412	I-Process
-divertor	413	421	I-Process
-plates	422	428	I-Process
-is	429	431	O
-too	432	435	O
-low	436	439	O
-to	440	442	O
-sputter	443	450	O
-sufficient	451	461	O
-amount	462	468	O
-of	469	471	O
-W.	472	474	B-Material
-With	475	479	O
-increasing	480	490	B-Process
-energy	491	497	I-Process
-the	498	501	O
-W	502	503	B-Process
-sputtering	504	514	I-Process
-increases	515	524	O
-,	524	525	O
-but	526	529	O
-the	530	533	O
-potential	534	543	O
-drop	544	548	O
-in	549	551	O
-the	552	555	O
-divertor	556	564	B-Material
-plasma	565	571	I-Material
-increases	572	581	O
-too	582	585	O
-.	585	586	O
-
-As	587	589	O
-a	590	591	O
-result	592	598	O
-,	598	599	O
-most	600	604	O
-of	605	607	O
-the	608	611	O
-W	612	613	B-Material
-atoms	614	619	I-Material
-are	620	623	O
-ionized	624	631	B-Process
-in	632	634	O
-the	635	638	O
-vicinity	639	647	O
-of	648	650	O
-the	651	654	O
-divertor	655	663	B-Material
-and	664	667	O
-return	668	674	B-Process
-back	675	679	O
-to	680	682	O
-the	683	686	O
-plates	687	693	B-Material
-.	693	694	O
-
-There	695	700	O
-are	701	704	O
-two	705	708	O
-effects	709	716	O
-leading	717	724	O
-to	725	727	O
-the	728	731	O
-observed	732	740	B-Task
-prompt	741	747	I-Task
-redeposition	748	760	I-Task
-of	761	763	O
-W	764	765	B-Material
-ions	766	770	I-Material
-:	770	771	O
-first	772	777	O
-is	778	780	O
-the	781	784	O
-“	785	786	O
-near	786	790	B-Process
--	790	791	I-Process
-divertor	791	799	I-Process
-”	799	800	I-Process
-ionization	801	811	I-Process
-of	812	814	O
-W	815	816	B-Material
-due	817	820	O
-to	821	823	O
-low	824	827	O
-ionization	828	838	B-Process
-potential	839	848	O
-−7.86eV	849	856	O
-(	857	858	O
-for	858	861	O
-comparison	862	872	O
-the	873	876	O
-ionization	877	887	B-Process
-potentials	888	898	O
-for	899	902	O
-D	903	904	B-Material
-and	905	908	O
-C	909	910	B-Material
-are	911	914	O
-13,6	915	919	O
-and	920	923	O
-10.6eV	924	930	O
-)	930	931	O
-,	931	932	O
-second	933	939	O
-,	939	940	O
-W+n	941	944	B-Material
-ions	945	949	I-Material
-have	950	954	O
-large	955	960	B-Process
-Larmor	961	967	I-Process
-radius	968	974	I-Process
-∼2/nmm	975	981	O
-,	981	982	O
-so	983	985	O
-that	986	990	O
-they	991	995	O
-are	996	999	O
-redeposited	1000	1011	O
-within	1012	1018	O
-the	1019	1022	O
-distance	1023	1031	O
-of	1032	1034	O
-a	1035	1036	O
-Larmor	1037	1043	O
-radius	1044	1050	O
-.	1050	1051	O
-
-Important	1052	1061	O
-to	1062	1064	O
-note	1065	1069	O
-that	1070	1074	O
-a	1075	1076	O
-significant	1077	1088	O
-fraction	1089	1097	O
-of	1098	1100	O
-W	1101	1102	B-Material
-ions	1103	1107	I-Material
-escaping	1108	1116	O
-this	1117	1121	O
-prompt	1122	1128	O
-redeposition	1129	1141	O
-are	1142	1145	O
-returned	1146	1154	O
-back	1155	1159	O
-due	1160	1163	O
-to	1164	1166	O
-the	1167	1170	O
-friction	1171	1179	B-Process
-with	1180	1184	I-Process
-the	1185	1188	I-Process
-main	1189	1193	I-Process
-ions	1194	1198	I-Process
-.	1198	1199	O
+Our	0,3	O	O
+simulations	4,15	O	B-Material
+confirm	16,23	O	O
+experimental	24,36	O	O
+observations	37,49	O	O
+that	50,54	O	O
+W	55,56	O	B-Task
+net	57,60	O	I-Task
+erosion	61,68	O	I-Task
+represents	69,79	O	O
+only	80,84	O	O
+tiny	85,89	O	O
+fraction	90,98	O	O
+(	99,100	O	O
+in	100,102	O	O
+our	103,106	O	O
+simulation	107,117	O	O
+∼1	118,120	O	O
+%	120,121	O	O
+)	121,122	O	O
+of	123,125	O	O
+the	126,129	O	O
+W	130,131	O	B-Task
+gross	132,137	O	I-Task
+erosion	138,145	O	I-Task
+.	145,146	O	O
+
+The	147,150	O	O
+estimated	151,160	O	B-Process
+upstream	161,169	O	I-Process
+W	170,171	O	I-Process
+fluxes	172,178	O	I-Process
+,	178,179	O	O
+FWupstrem	180,189	O	B-Process
+,	189,190	O	O
+are	191,194	O	O
+in	195,197	O	O
+good	198,202	O	O
+agreement	203,212	O	O
+with	213,217	O	O
+the	218,221	O	O
+experimentally	222,236	O	B-Material
+observed	237,245	O	I-Material
+values	246,252	O	I-Material
+⩽1019m-2s-1	253,264	O	O
+
+[	265,266	O	O
+16	266,268	O	O
+]	268,269	O	O
+.	269,270	O	O
+
+Moreover	271,279	O	O
+,	279,280	O	O
+this	281,285	O	O
+value	286,291	O	O
+is	292,294	O	O
+not	295,298	O	O
+very	299,303	O	O
+sensitive	304,313	O	O
+to	314,316	O	O
+the	317,320	O	O
+divertor	321,329	O	B-Material
+plasma	330,336	O	O
+temperature	337,348	O	O
+.	348,349	O	O
+
+For	350,353	O	O
+low	354,357	O	O
+temperatures	358,370	O	O
+the	371,374	O	O
+energy	375,381	O	O
+of	382,384	O	O
+D	385,386	O	B-Material
+and	387,390	O	I-Material
+C	391,392	O	I-Material
+ions	393,397	O	I-Material
+hitting	398,405	O	B-Process
+to	406,408	O	I-Process
+the	409,412	O	I-Process
+divertor	413,421	O	I-Process
+plates	422,428	O	I-Process
+is	429,431	O	O
+too	432,435	O	O
+low	436,439	O	O
+to	440,442	O	O
+sputter	443,450	O	O
+sufficient	451,461	O	O
+amount	462,468	O	O
+of	469,471	O	O
+W.	472,474	O	B-Material
+With	475,479	O	O
+increasing	480,490	O	B-Process
+energy	491,497	O	I-Process
+the	498,501	O	O
+W	502,503	O	B-Process
+sputtering	504,514	O	I-Process
+increases	515,524	O	O
+,	524,525	O	O
+but	526,529	O	O
+the	530,533	O	O
+potential	534,543	O	O
+drop	544,548	O	O
+in	549,551	O	O
+the	552,555	O	O
+divertor	556,564	O	B-Material
+plasma	565,571	O	I-Material
+increases	572,581	O	O
+too	582,585	O	O
+.	585,586	O	O
+
+As	587,589	O	O
+a	590,591	O	O
+result	592,598	O	O
+,	598,599	O	O
+most	600,604	O	O
+of	605,607	O	O
+the	608,611	O	O
+W	612,613	O	B-Material
+atoms	614,619	O	I-Material
+are	620,623	O	O
+ionized	624,631	O	B-Process
+in	632,634	O	O
+the	635,638	O	O
+vicinity	639,647	O	O
+of	648,650	O	O
+the	651,654	O	O
+divertor	655,663	O	B-Material
+and	664,667	O	O
+return	668,674	O	B-Process
+back	675,679	O	O
+to	680,682	O	O
+the	683,686	O	O
+plates	687,693	O	B-Material
+.	693,694	O	O
+
+There	695,700	O	O
+are	701,704	O	O
+two	705,708	O	O
+effects	709,716	O	O
+leading	717,724	O	O
+to	725,727	O	O
+the	728,731	O	O
+observed	732,740	O	B-Task
+prompt	741,747	O	I-Task
+redeposition	748,760	O	I-Task
+of	761,763	O	O
+W	764,765	O	B-Material
+ions	766,770	O	I-Material
+:	770,771	O	O
+first	772,777	O	O
+is	778,780	O	O
+the	781,784	O	O
+“	785,786	O	O
+near	786,790	O	B-Process
+-	790,791	O	I-Process
+divertor	791,799	O	I-Process
+”	799,800	O	I-Process
+ionization	801,811	O	I-Process
+of	812,814	O	O
+W	815,816	O	B-Material
+due	817,820	O	O
+to	821,823	O	O
+low	824,827	O	O
+ionization	828,838	O	B-Process
+potential	839,848	O	O
+−7.86eV	849,856	O	O
+(	857,858	O	O
+for	858,861	O	O
+comparison	862,872	O	O
+the	873,876	O	O
+ionization	877,887	O	B-Process
+potentials	888,898	O	O
+for	899,902	O	O
+D	903,904	O	B-Material
+and	905,908	O	O
+C	909,910	O	B-Material
+are	911,914	O	O
+13,6	915,919	O	O
+and	920,923	O	O
+10.6eV	924,930	O	O
+)	930,931	O	O
+,	931,932	O	O
+second	933,939	O	O
+,	939,940	O	O
+W+n	941,944	O	B-Material
+ions	945,949	O	I-Material
+have	950,954	O	O
+large	955,960	O	B-Process
+Larmor	961,967	O	I-Process
+radius	968,974	O	I-Process
+∼2/nmm	975,981	O	O
+,	981,982	O	O
+so	983,985	O	O
+that	986,990	O	O
+they	991,995	O	O
+are	996,999	O	O
+redeposited	1000,1011	O	O
+within	1012,1018	O	O
+the	1019,1022	O	O
+distance	1023,1031	O	O
+of	1032,1034	O	O
+a	1035,1036	O	O
+Larmor	1037,1043	O	O
+radius	1044,1050	O	O
+.	1050,1051	O	O
+
+Important	1052,1061	O	O
+to	1062,1064	O	O
+note	1065,1069	O	O
+that	1070,1074	O	O
+a	1075,1076	O	O
+significant	1077,1088	O	O
+fraction	1089,1097	O	O
+of	1098,1100	O	O
+W	1101,1102	O	B-Material
+ions	1103,1107	O	I-Material
+escaping	1108,1116	O	O
+this	1117,1121	O	O
+prompt	1122,1128	O	O
+redeposition	1129,1141	O	O
+are	1142,1145	O	O
+returned	1146,1154	O	O
+back	1155,1159	O	O
+due	1160,1163	O	O
+to	1164,1166	O	O
+the	1167,1170	O	O
+friction	1171,1179	O	B-Process
+with	1180,1184	O	I-Process
+the	1185,1188	O	I-Process
+main	1189,1193	O	I-Process
+ions	1194,1198	O	I-Process
+.	1198,1199	O	O
 
 
 -DOCSTART- (S0022311513011951)
 
-The	0	3	O
-displacement	4	16	B-Task
-cascade	17	24	I-Task
-is	25	27	O
-a	28	29	O
-rapid	30	35	O
-process	36	43	O
-(	44	45	O
-of	45	47	O
-order	48	53	O
-picoseconds	54	65	O
-)	65	66	O
-.	66	67	O
-
-Further	68	75	O
-migration	76	85	B-Process
-of	86	88	I-Process
-vacancies	89	98	I-Process
-and	99	102	I-Process
-SIAs	103	107	I-Process
-,	107	108	O
-mainly	109	115	O
-by	116	118	O
-diffusion	119	128	B-Process
-,	128	129	O
-happens	130	137	O
-over	138	142	O
-a	143	144	O
-timescale	145	154	O
-of	155	157	O
-order	158	163	O
-nanoseconds	164	175	O
-[	176	177	O
-17	177	179	O
-]	179	180	O
-.	180	181	O
-
-This	182	186	O
-is	187	189	O
-still	190	195	O
-short	196	201	O
-compared	202	210	O
-to	211	213	O
-operating	214	223	O
-times	224	229	O
-,	229	230	O
-so	231	233	O
-is	234	236	O
-important	237	246	O
-to	247	249	O
-consider	250	258	O
-the	259	262	O
-equilibrium	263	274	O
-result	275	281	O
-of	282	284	O
-such	285	289	O
-processes	290	299	O
-:	299	300	O
-If	301	303	O
-the	304	307	O
-vacancies	308	317	O
-and	318	321	O
-SIAs	322	326	O
-were	327	331	O
-likely	332	338	O
-to	339	341	O
-find	342	346	O
-their	347	352	O
-Frenkel	353	360	O
-partner	361	368	O
-,	368	369	O
-recombine	370	379	O
-,	379	380	O
-and	381	384	O
-annihilate	385	395	O
-,	395	396	O
-then	397	401	O
-the	402	405	O
-metal	406	411	O
-should	412	418	O
-essentially	419	430	O
-return	431	437	O
-to	438	440	O
-its	441	444	O
-original	445	453	O
-structure	454	463	B-Material
-;	463	464	O
-however	465	472	O
-,	472	473	O
-if	474	476	O
-defects	477	484	B-Material
-instead	485	492	O
-formed	493	499	O
-large	500	505	O
-clusters	506	514	O
-of	515	517	O
-a	518	519	O
-single	520	526	O
-type	527	531	O
-this	532	536	O
-could	537	542	O
-result	543	549	O
-in	550	552	O
-formation	553	562	O
-of	563	565	O
-voids	566	571	B-Material
-,	571	572	O
-dislocation	573	584	B-Material
-loops	585	590	I-Material
-or	591	593	O
-swelling	594	602	B-Material
-,	602	603	O
-possibly	604	612	O
-weakening	613	622	O
-the	623	626	O
-material	627	635	O
-in	636	638	O
-the	639	642	O
-process	643	650	O
-.	650	651	O
-
-Defects	652	659	O
-can	660	663	O
-be	664	666	O
-trapped	667	674	O
-at	675	677	O
-grain	678	683	B-Material
-boundaries	684	694	O
-or	695	697	O
-surface	698	705	O
-,	705	706	O
-so	707	709	O
-for	710	713	O
-an	714	716	O
-ODS	717	720	B-Material
-particle	721	729	I-Material
-to	730	732	O
-effect	733	739	O
-the	740	743	O
-diffusion	744	753	O
-,	753	754	O
-there	755	760	O
-concentration	761	774	O
-must	775	779	O
-be	780	782	O
-such	783	787	O
-that	788	792	O
-there	793	798	O
-are	799	802	O
-many	803	807	O
-such	808	812	O
-particles	813	822	O
-in	823	825	O
-each	826	830	O
-grain	831	836	B-Material
-.	836	837	O
+The	0,3	O	O
+displacement	4,16	O	B-Task
+cascade	17,24	O	I-Task
+is	25,27	O	O
+a	28,29	O	O
+rapid	30,35	O	O
+process	36,43	O	O
+(	44,45	O	O
+of	45,47	O	O
+order	48,53	O	O
+picoseconds	54,65	O	O
+)	65,66	O	O
+.	66,67	O	O
+
+Further	68,75	O	O
+migration	76,85	O	B-Process
+of	86,88	O	I-Process
+vacancies	89,98	O	I-Process
+and	99,102	O	I-Process
+SIAs	103,107	O	I-Process
+,	107,108	O	O
+mainly	109,115	O	O
+by	116,118	O	O
+diffusion	119,128	O	B-Process
+,	128,129	O	O
+happens	130,137	O	O
+over	138,142	O	O
+a	143,144	O	O
+timescale	145,154	O	O
+of	155,157	O	O
+order	158,163	O	O
+nanoseconds	164,175	O	O
+[	176,177	O	O
+17	177,179	O	O
+]	179,180	O	O
+.	180,181	O	O
+
+This	182,186	O	O
+is	187,189	O	O
+still	190,195	O	O
+short	196,201	O	O
+compared	202,210	O	O
+to	211,213	O	O
+operating	214,223	O	O
+times	224,229	O	O
+,	229,230	O	O
+so	231,233	O	O
+is	234,236	O	O
+important	237,246	O	O
+to	247,249	O	O
+consider	250,258	O	O
+the	259,262	O	O
+equilibrium	263,274	O	O
+result	275,281	O	O
+of	282,284	O	O
+such	285,289	O	O
+processes	290,299	O	O
+:	299,300	O	O
+If	301,303	O	O
+the	304,307	O	O
+vacancies	308,317	O	O
+and	318,321	O	O
+SIAs	322,326	O	O
+were	327,331	O	O
+likely	332,338	O	O
+to	339,341	O	O
+find	342,346	O	O
+their	347,352	O	O
+Frenkel	353,360	O	O
+partner	361,368	O	O
+,	368,369	O	O
+recombine	370,379	O	O
+,	379,380	O	O
+and	381,384	O	O
+annihilate	385,395	O	O
+,	395,396	O	O
+then	397,401	O	O
+the	402,405	O	O
+metal	406,411	O	O
+should	412,418	O	O
+essentially	419,430	O	O
+return	431,437	O	O
+to	438,440	O	O
+its	441,444	O	O
+original	445,453	O	O
+structure	454,463	O	B-Material
+;	463,464	O	O
+however	465,472	O	O
+,	472,473	O	O
+if	474,476	O	O
+defects	477,484	O	B-Material
+instead	485,492	O	O
+formed	493,499	O	O
+large	500,505	O	O
+clusters	506,514	O	O
+of	515,517	O	O
+a	518,519	O	O
+single	520,526	O	O
+type	527,531	O	O
+this	532,536	O	O
+could	537,542	O	O
+result	543,549	O	O
+in	550,552	O	O
+formation	553,562	O	O
+of	563,565	O	O
+voids	566,571	O	B-Material
+,	571,572	O	O
+dislocation	573,584	O	B-Material
+loops	585,590	O	I-Material
+or	591,593	O	O
+swelling	594,602	O	B-Material
+,	602,603	O	O
+possibly	604,612	O	O
+weakening	613,622	O	O
+the	623,626	O	O
+material	627,635	O	O
+in	636,638	O	O
+the	639,642	O	O
+process	643,650	O	O
+.	650,651	O	O
+
+Defects	652,659	O	O
+can	660,663	O	O
+be	664,666	O	O
+trapped	667,674	O	O
+at	675,677	O	O
+grain	678,683	O	B-Material
+boundaries	684,694	O	O
+or	695,697	O	O
+surface	698,705	O	O
+,	705,706	O	O
+so	707,709	O	O
+for	710,713	O	O
+an	714,716	O	O
+ODS	717,720	O	B-Material
+particle	721,729	O	I-Material
+to	730,732	O	O
+effect	733,739	O	O
+the	740,743	O	O
+diffusion	744,753	O	O
+,	753,754	O	O
+there	755,760	O	O
+concentration	761,774	O	O
+must	775,779	O	O
+be	780,782	O	O
+such	783,787	O	O
+that	788,792	O	O
+there	793,798	O	O
+are	799,802	O	O
+many	803,807	O	O
+such	808,812	O	O
+particles	813,822	O	O
+in	823,825	O	O
+each	826,830	O	O
+grain	831,836	O	B-Material
+.	836,837	O	O
 
 
 -DOCSTART- (S0022311514000919)
 
-The	0	3	O
-dashed	4	10	O
-curve	11	16	O
-represents	17	27	O
-the	28	31	O
-PuO2	32	36	B-Material
-molar	37	42	O
-fraction	43	51	O
-on	52	54	O
-the	55	58	O
-sample	59	65	O
-surface	66	73	O
-.	73	74	O
-
-It	75	77	O
-shows	78	83	O
-that	84	88	O
-,	88	89	O
-following	90	99	O
-the	100	103	O
-UO2–PuO2	104	112	B-Task
-phase	113	118	I-Task
-boundaries	119	129	I-Task
-,	129	130	O
-rather	131	137	O
-well	138	142	O
-established	143	154	O
-in	155	157	O
-this	158	162	O
-compositional	163	176	O
-range	177	182	O
-(	183	184	O
-see	184	187	O
-Section	188	195	O
-4.3	196	199	O
-below	200	205	O
-)	205	206	O
-,	206	207	O
-the	208	211	O
-newly	212	217	O
-formed	218	224	O
-liquid	225	231	B-Material
-surface	232	239	I-Material
-is	240	242	O
-initially	243	252	O
-enriched	253	261	B-Process
-in	262	264	I-Process
-plutonium	265	274	I-Process
-dioxide	275	282	I-Process
-.	282	283	O
-
-Subsequently	284	296	O
-,	296	297	O
-due	298	301	O
-to	302	304	O
-fast	305	309	O
-diffusion	310	319	O
-in	320	322	O
-the	323	326	O
-liquid	327	333	B-Material
-phase	334	339	O
-,	339	340	O
-the	341	344	O
-initial	345	352	O
-sample	353	359	O
-composition	360	371	O
-(	372	373	O
-x(PuO2)=0.25	373	385	B-Material
-)	385	386	O
-tends	387	392	O
-to	393	395	O
-be	396	398	O
-rapidly	399	406	O
-restored	407	415	O
-.	415	416	O
-
-It	417	419	O
-is	420	422	O
-however	423	430	O
-clear	431	436	O
-,	436	437	O
-from	438	442	O
-the	443	446	O
-simulation	447	457	B-Process
-,	457	458	O
-that	459	463	O
-the	464	467	O
-fast	468	472	O
-cooling	473	480	B-Process
-occurring	481	490	O
-after	491	496	O
-the	497	500	O
-end	501	504	O
-of	505	507	O
-the	508	511	O
-laser	512	517	B-Process
-pulse	518	523	I-Process
-leads	524	529	O
-to	530	532	O
-onset	533	538	O
-of	539	541	O
-solidification	542	556	B-Process
-before	557	563	O
-the	564	567	O
-initial	568	575	O
-composition	576	587	O
-is	588	590	O
-fully	591	596	O
-recovered	597	606	O
-in	607	609	O
-the	610	613	O
-liquid	614	620	B-Material
-.	620	621	O
-
-A	622	623	O
-surface	624	631	B-Material
-solid	632	637	I-Material
-crust	638	643	I-Material
-forms	644	649	O
-then	650	654	O
-upon	655	659	O
-freezing	660	668	B-Process
-before	669	675	O
-the	676	679	O
-total	680	685	O
-liquid	686	692	B-Material
-mass	693	697	O
-has	698	701	O
-crystallised	702	714	O
-(	715	716	O
-see	716	719	O
-insets	720	726	O
-in	727	729	O
-Fig	730	733	O
-.	733	734	O
-
-4	735	736	O
-)	736	737	O
-.	737	738	O
-
-The	739	742	O
-double	743	749	O
-inflection	750	760	O
-during	761	767	O
-cooling	768	775	B-Process
-in	776	778	O
-this	779	783	O
-case	784	788	O
-corresponds	789	800	O
-to	801	803	O
-the	804	807	O
-solidification	808	822	B-Process
-onset	823	828	O
-on	829	831	O
-the	832	835	O
-sample	836	842	B-Material
-surface	843	850	I-Material
-(	851	852	O
-first	852	857	O
-inflection	858	868	O
-)	868	869	O
-and	870	873	O
-to	874	876	O
-the	877	880	O
-disappearance	881	894	O
-of	895	897	O
-the	898	901	O
-last	902	906	O
-liquid	907	913	B-Material
-inside	914	920	O
-the	921	924	O
-material	925	933	O
-(	934	935	O
-second	935	941	O
-inflection	942	952	O
-)	952	953	O
-.	953	954	O
-
-The	955	958	O
-highest	959	966	O
-recalescence	967	979	O
-temperature	980	991	O
-represents	992	1002	O
-the	1003	1006	O
-solidification	1007	1021	B-Process
-point	1022	1027	O
-of	1028	1030	O
-a	1031	1032	O
-composition	1033	1044	O
-very	1045	1049	O
-close	1050	1055	O
-to	1056	1058	O
-the	1059	1062	O
-initial	1063	1070	O
-one	1071	1074	O
-(	1075	1076	O
-approximately	1076	1089	O
-±0.01	1090	1095	O
-on	1096	1098	O
-x(PuO2	1099	1105	O
-)	1105	1106	O
-in	1107	1109	O
-the	1110	1113	O
-current	1114	1121	O
-example	1122	1129	O
-)	1129	1130	O
-,	1130	1131	O
-except	1132	1138	O
-for	1139	1142	O
-small	1143	1148	B-Task
-segregation	1149	1160	I-Task
-effects	1161	1168	I-Task
-.	1168	1169	O
-
-These	1170	1175	O
-latter	1176	1182	O
-have	1183	1187	O
-been	1188	1192	O
-studied	1193	1200	O
-also	1201	1205	O
-experimentally	1206	1220	O
-in	1221	1223	O
-the	1224	1227	O
-present	1228	1235	O
-research	1236	1244	O
-,	1244	1245	O
-by	1246	1248	O
-post	1249	1253	B-Process
--	1253	1254	I-Process
-melting	1254	1261	I-Process
-material	1262	1270	I-Process
-characterisation	1271	1287	I-Process
-.	1287	1288	O
+The	0,3	O	O
+dashed	4,10	O	O
+curve	11,16	O	O
+represents	17,27	O	O
+the	28,31	O	O
+PuO2	32,36	O	B-Material
+molar	37,42	O	O
+fraction	43,51	O	O
+on	52,54	O	O
+the	55,58	O	O
+sample	59,65	O	O
+surface	66,73	O	O
+.	73,74	O	O
+
+It	75,77	O	O
+shows	78,83	O	O
+that	84,88	O	O
+,	88,89	O	O
+following	90,99	O	O
+the	100,103	O	O
+UO2–PuO2	104,112	O	B-Task
+phase	113,118	O	I-Task
+boundaries	119,129	O	I-Task
+,	129,130	O	O
+rather	131,137	O	O
+well	138,142	O	O
+established	143,154	O	O
+in	155,157	O	O
+this	158,162	O	O
+compositional	163,176	O	O
+range	177,182	O	O
+(	183,184	O	O
+see	184,187	O	O
+Section	188,195	O	O
+4.3	196,199	O	O
+below	200,205	O	O
+)	205,206	O	O
+,	206,207	O	O
+the	208,211	O	O
+newly	212,217	O	O
+formed	218,224	O	O
+liquid	225,231	O	B-Material
+surface	232,239	O	I-Material
+is	240,242	O	O
+initially	243,252	O	O
+enriched	253,261	O	B-Process
+in	262,264	O	I-Process
+plutonium	265,274	O	I-Process
+dioxide	275,282	O	I-Process
+.	282,283	O	O
+
+Subsequently	284,296	O	O
+,	296,297	O	O
+due	298,301	O	O
+to	302,304	O	O
+fast	305,309	O	O
+diffusion	310,319	O	O
+in	320,322	O	O
+the	323,326	O	O
+liquid	327,333	O	B-Material
+phase	334,339	O	O
+,	339,340	O	O
+the	341,344	O	O
+initial	345,352	O	O
+sample	353,359	O	O
+composition	360,371	O	O
+(	372,373	O	O
+x(PuO2)=0.25	373,385	O	B-Material
+)	385,386	O	O
+tends	387,392	O	O
+to	393,395	O	O
+be	396,398	O	O
+rapidly	399,406	O	O
+restored	407,415	O	O
+.	415,416	O	O
+
+It	417,419	O	O
+is	420,422	O	O
+however	423,430	O	O
+clear	431,436	O	O
+,	436,437	O	O
+from	438,442	O	O
+the	443,446	O	O
+simulation	447,457	O	B-Process
+,	457,458	O	O
+that	459,463	O	O
+the	464,467	O	O
+fast	468,472	O	O
+cooling	473,480	O	B-Process
+occurring	481,490	O	O
+after	491,496	O	O
+the	497,500	O	O
+end	501,504	O	O
+of	505,507	O	O
+the	508,511	O	O
+laser	512,517	O	B-Process
+pulse	518,523	O	I-Process
+leads	524,529	O	O
+to	530,532	O	O
+onset	533,538	O	O
+of	539,541	O	O
+solidification	542,556	O	B-Process
+before	557,563	O	O
+the	564,567	O	O
+initial	568,575	O	O
+composition	576,587	O	O
+is	588,590	O	O
+fully	591,596	O	O
+recovered	597,606	O	O
+in	607,609	O	O
+the	610,613	O	O
+liquid	614,620	O	B-Material
+.	620,621	O	O
+
+A	622,623	O	O
+surface	624,631	O	B-Material
+solid	632,637	O	I-Material
+crust	638,643	O	I-Material
+forms	644,649	O	O
+then	650,654	O	O
+upon	655,659	O	O
+freezing	660,668	O	B-Process
+before	669,675	O	O
+the	676,679	O	O
+total	680,685	O	O
+liquid	686,692	O	B-Material
+mass	693,697	O	O
+has	698,701	O	O
+crystallised	702,714	O	O
+(	715,716	O	O
+see	716,719	O	O
+insets	720,726	O	O
+in	727,729	O	O
+Fig	730,733	O	O
+.	733,734	O	O
+
+4	735,736	O	O
+)	736,737	O	O
+.	737,738	O	O
+
+The	739,742	O	O
+double	743,749	O	O
+inflection	750,760	O	O
+during	761,767	O	O
+cooling	768,775	O	B-Process
+in	776,778	O	O
+this	779,783	O	O
+case	784,788	O	O
+corresponds	789,800	O	O
+to	801,803	O	O
+the	804,807	O	O
+solidification	808,822	O	B-Process
+onset	823,828	O	O
+on	829,831	O	O
+the	832,835	O	O
+sample	836,842	O	B-Material
+surface	843,850	O	I-Material
+(	851,852	O	O
+first	852,857	O	O
+inflection	858,868	O	O
+)	868,869	O	O
+and	870,873	O	O
+to	874,876	O	O
+the	877,880	O	O
+disappearance	881,894	O	O
+of	895,897	O	O
+the	898,901	O	O
+last	902,906	O	O
+liquid	907,913	O	B-Material
+inside	914,920	O	O
+the	921,924	O	O
+material	925,933	O	O
+(	934,935	O	O
+second	935,941	O	O
+inflection	942,952	O	O
+)	952,953	O	O
+.	953,954	O	O
+
+The	955,958	O	O
+highest	959,966	O	O
+recalescence	967,979	O	O
+temperature	980,991	O	O
+represents	992,1002	O	O
+the	1003,1006	O	O
+solidification	1007,1021	O	B-Process
+point	1022,1027	O	O
+of	1028,1030	O	O
+a	1031,1032	O	O
+composition	1033,1044	O	O
+very	1045,1049	O	O
+close	1050,1055	O	O
+to	1056,1058	O	O
+the	1059,1062	O	O
+initial	1063,1070	O	O
+one	1071,1074	O	O
+(	1075,1076	O	O
+approximately	1076,1089	O	O
+±0.01	1090,1095	O	O
+on	1096,1098	O	O
+x(PuO2	1099,1105	O	O
+)	1105,1106	O	O
+in	1107,1109	O	O
+the	1110,1113	O	O
+current	1114,1121	O	O
+example	1122,1129	O	O
+)	1129,1130	O	O
+,	1130,1131	O	O
+except	1132,1138	O	O
+for	1139,1142	O	O
+small	1143,1148	O	B-Task
+segregation	1149,1160	O	I-Task
+effects	1161,1168	O	I-Task
+.	1168,1169	O	O
+
+These	1170,1175	O	O
+latter	1176,1182	O	O
+have	1183,1187	O	O
+been	1188,1192	O	O
+studied	1193,1200	O	O
+also	1201,1205	O	O
+experimentally	1206,1220	O	O
+in	1221,1223	O	O
+the	1224,1227	O	O
+present	1228,1235	O	O
+research	1236,1244	O	O
+,	1244,1245	O	O
+by	1246,1248	O	O
+post	1249,1253	O	B-Process
+-	1253,1254	O	I-Process
+melting	1254,1261	O	I-Process
+material	1262,1270	O	I-Process
+characterisation	1271,1287	O	I-Process
+.	1287,1288	O	O
 
 
 -DOCSTART- (S0022311514001640)
 
-The	0	3	O
-vapour	4	10	B-Material
-phase	11	16	I-Material
-consists	17	25	O
-of	26	28	O
-a	29	30	O
-number	31	37	B-Material
-of	38	40	I-Material
-different	41	50	I-Material
-gases	51	56	I-Material
-with	57	61	O
-silicon	62	69	B-Material
-exhibiting	70	80	O
-a	81	82	O
-far	83	86	O
-higher	87	93	O
-partial	94	101	O
-pressure	102	110	O
-than	111	115	O
-all	116	119	O
-carbon	120	126	B-Material
-containing	127	137	O
-species	138	145	O
-over	146	150	O
-the	151	154	O
-full	155	159	O
-temperature	160	171	O
-range	172	177	O
-.	177	178	O
-
-As	179	181	O
-an	182	184	O
-immediate	185	194	O
-result	195	201	O
-the	202	205	O
-vapour	206	212	B-Material
-contains	213	221	O
-a	222	223	O
-higher	224	230	O
-amount	231	237	O
-of	238	240	O
-silicon	241	248	B-Material
-leaving	249	256	O
-the	257	260	O
-solid	261	266	B-Process
-phase	267	272	I-Process
-with	273	277	O
-excess	278	284	O
-carbon	285	291	B-Material
-.	291	292	O
-
-This	293	297	O
-carbon	298	304	B-Material
-is	305	307	O
-likely	308	314	O
-to	315	317	O
-precipitate	318	329	B-Process
-on	330	332	I-Process
-the	333	336	I-Process
-surface	337	344	I-Process
-of	345	347	I-Process
-the	348	351	I-Process
-SiC	352	355	I-Process
-grains	356	362	I-Process
-,	362	363	O
-a	364	365	O
-process	366	373	O
-that	374	378	O
-becomes	379	386	O
-very	387	391	O
-rapid	392	397	O
-as	398	400	O
-the	401	404	O
-temperature	405	416	O
-approaches	417	427	O
-2100	428	432	O
-K	432	433	O
-[	434	435	O
-24	435	437	O
-]	437	438	O
-.	438	439	O
-
-Within	440	446	O
-the	447	450	O
-TRISO	451	456	B-Material
-particle	457	465	I-Material
-the	466	469	O
-SiC	470	473	B-Material
-layer	474	479	O
-is	480	482	O
-sandwiched	483	493	O
-between	494	501	O
-two	502	505	O
-coatings	506	514	O
-of	515	517	O
-dense	518	523	O
-carbon	524	530	B-Material
-.	530	531	O
-
-The	532	535	O
-partial	536	543	B-Material
-pressure	544	552	I-Material
-in	553	555	O
-thermodynamic	556	569	O
-equilibrium	570	581	O
-of	582	584	O
-gaseous	585	592	B-Material
-carbon	593	599	I-Material
-forming	600	607	O
-above	608	613	O
-graphite	614	622	B-Material
-was	623	626	O
-calculated	627	637	O
-using	638	643	O
-data	644	648	B-Material
-taken	649	654	I-Material
-from	655	659	I-Material
-JANAF	660	665	I-Material
-tables	666	672	I-Material
-and	673	676	O
-added	677	682	O
-to	683	685	O
-Fig	686	689	O
-.	689	690	O
-
-1	691	692	O
-[	693	694	O
-25	694	696	O
-]	696	697	O
-,	697	698	O
-which	699	704	O
-showed	705	711	O
-that	712	716	O
-in	717	719	O
-the	720	723	O
-whole	724	729	O
-temperature	730	741	O
-range	742	747	O
-relevant	748	756	O
-for	757	760	O
-this	761	765	O
-study	766	771	O
-the	772	775	O
-vapour	776	782	B-Task
-pressure	783	791	I-Task
-of	792	794	I-Task
-carbon	795	801	I-Task
-is	802	804	O
-several	805	812	O
-magnitudes	813	823	O
-smaller	824	831	O
-than	832	836	O
-that	837	841	O
-of	842	844	O
-the	845	848	O
-dominant	849	857	O
-gas	858	861	B-Material
-phases	862	868	O
-above	869	874	O
-SiC.	875	879	B-Material
+The	0,3	O	O
+vapour	4,10	O	B-Material
+phase	11,16	O	I-Material
+consists	17,25	O	O
+of	26,28	O	O
+a	29,30	O	O
+number	31,37	O	B-Material
+of	38,40	O	I-Material
+different	41,50	O	I-Material
+gases	51,56	O	I-Material
+with	57,61	O	O
+silicon	62,69	O	B-Material
+exhibiting	70,80	O	O
+a	81,82	O	O
+far	83,86	O	O
+higher	87,93	O	O
+partial	94,101	O	O
+pressure	102,110	O	O
+than	111,115	O	O
+all	116,119	O	O
+carbon	120,126	O	B-Material
+containing	127,137	O	O
+species	138,145	O	O
+over	146,150	O	O
+the	151,154	O	O
+full	155,159	O	O
+temperature	160,171	O	O
+range	172,177	O	O
+.	177,178	O	O
+
+As	179,181	O	O
+an	182,184	O	O
+immediate	185,194	O	O
+result	195,201	O	O
+the	202,205	O	O
+vapour	206,212	O	B-Material
+contains	213,221	O	O
+a	222,223	O	O
+higher	224,230	O	O
+amount	231,237	O	O
+of	238,240	O	O
+silicon	241,248	O	B-Material
+leaving	249,256	O	O
+the	257,260	O	O
+solid	261,266	O	B-Process
+phase	267,272	O	I-Process
+with	273,277	O	O
+excess	278,284	O	O
+carbon	285,291	O	B-Material
+.	291,292	O	O
+
+This	293,297	O	O
+carbon	298,304	O	B-Material
+is	305,307	O	O
+likely	308,314	O	O
+to	315,317	O	O
+precipitate	318,329	O	B-Process
+on	330,332	O	I-Process
+the	333,336	O	I-Process
+surface	337,344	O	I-Process
+of	345,347	O	I-Process
+the	348,351	O	I-Process
+SiC	352,355	O	I-Process
+grains	356,362	O	I-Process
+,	362,363	O	O
+a	364,365	O	O
+process	366,373	O	O
+that	374,378	O	O
+becomes	379,386	O	O
+very	387,391	O	O
+rapid	392,397	O	O
+as	398,400	O	O
+the	401,404	O	O
+temperature	405,416	O	O
+approaches	417,427	O	O
+2100	428,432	O	O
+K	432,433	O	O
+[	434,435	O	O
+24	435,437	O	O
+]	437,438	O	O
+.	438,439	O	O
+
+Within	440,446	O	O
+the	447,450	O	O
+TRISO	451,456	O	B-Material
+particle	457,465	O	I-Material
+the	466,469	O	O
+SiC	470,473	O	B-Material
+layer	474,479	O	O
+is	480,482	O	O
+sandwiched	483,493	O	O
+between	494,501	O	O
+two	502,505	O	O
+coatings	506,514	O	O
+of	515,517	O	O
+dense	518,523	O	O
+carbon	524,530	O	B-Material
+.	530,531	O	O
+
+The	532,535	O	O
+partial	536,543	O	B-Material
+pressure	544,552	O	I-Material
+in	553,555	O	O
+thermodynamic	556,569	O	O
+equilibrium	570,581	O	O
+of	582,584	O	O
+gaseous	585,592	O	B-Material
+carbon	593,599	O	I-Material
+forming	600,607	O	O
+above	608,613	O	O
+graphite	614,622	O	B-Material
+was	623,626	O	O
+calculated	627,637	O	O
+using	638,643	O	O
+data	644,648	O	B-Material
+taken	649,654	O	I-Material
+from	655,659	O	I-Material
+JANAF	660,665	O	I-Material
+tables	666,672	O	I-Material
+and	673,676	O	O
+added	677,682	O	O
+to	683,685	O	O
+Fig	686,689	O	O
+.	689,690	O	O
+
+1	691,692	O	O
+[	693,694	O	O
+25	694,696	O	O
+]	696,697	O	O
+,	697,698	O	O
+which	699,704	O	O
+showed	705,711	O	O
+that	712,716	O	O
+in	717,719	O	O
+the	720,723	O	O
+whole	724,729	O	O
+temperature	730,741	O	O
+range	742,747	O	O
+relevant	748,756	O	O
+for	757,760	O	O
+this	761,765	O	O
+study	766,771	O	O
+the	772,775	O	O
+vapour	776,782	O	B-Task
+pressure	783,791	O	I-Task
+of	792,794	O	I-Task
+carbon	795,801	O	I-Task
+is	802,804	O	O
+several	805,812	O	O
+magnitudes	813,823	O	O
+smaller	824,831	O	O
+than	832,836	O	O
+that	837,841	O	O
+of	842,844	O	O
+the	845,848	O	O
+dominant	849,857	O	O
+gas	858,861	O	B-Material
+phases	862,868	O	O
+above	869,874	O	O
+SiC.	875,879	O	B-Material
 
 
 -DOCSTART- (S0022311514005480)
 
-The	0	3	O
-second	4	10	B-Task
-stress	11	17	I-Task
-state	18	23	I-Task
-is	24	26	O
-a	27	28	O
-tri	29	32	B-Task
--	32	33	I-Task
-axial	33	38	I-Task
-tensile	39	46	I-Task
-stress	47	53	I-Task
-designed	54	62	O
-to	63	65	O
-represent	66	75	O
-the	76	79	O
-zone	80	84	O
-ahead	85	90	O
-of	91	93	O
-an	94	96	O
-advancing	97	106	B-Material
-crack	107	112	I-Material
-tip	113	116	I-Material
-.	116	117	O
-
-Micro	118	123	O
--	123	124	O
-scale	124	129	O
-lateral	130	137	O
-cracks	138	144	O
-have	145	149	O
-been	150	154	O
-observed	155	163	O
-in	164	166	O
-the	167	170	O
-oxide	171	176	B-Material
-layer	177	182	I-Material
-,	182	183	O
-and	184	187	O
-appear	188	194	O
-to	195	197	O
-form	198	202	O
-very	203	207	O
-close	208	213	O
-to	214	216	O
-or	217	219	O
-at	220	222	O
-the	223	226	O
-metal	227	232	B-Material
-–	232	233	I-Material
-oxide	233	238	I-Material
-interface	239	248	I-Material
-(	249	250	O
-Fig	250	253	O
-.	253	254	O
-
-1	255	256	O
-)	256	257	O
-.	257	258	O
-
-Finite	259	265	B-Process
-element	266	273	I-Process
-analysis	274	282	I-Process
-by	283	285	O
-Parise	286	292	O
-et	293	295	O
-al	296	298	O
-.	298	299	O
-indicated	300	309	O
-that	310	314	O
-these	315	320	O
-cracks	321	327	B-Material
-form	328	332	O
-as	333	335	O
-a	336	337	O
-result	338	344	O
-of	345	347	O
-localised	348	357	B-Material
-tensile	358	365	I-Material
-stresses	366	374	I-Material
-above	375	380	O
-peaks	381	386	O
-in	387	389	O
-the	390	393	O
-metal	394	399	B-Material
-–	399	400	I-Material
-oxide	400	405	I-Material
-interface	406	415	I-Material
-roughness	416	425	O
-[	426	427	O
-31	427	429	O
-]	429	430	O
-.	430	431	O
-
-These	432	437	O
-cracks	438	444	O
-are	445	448	O
-considered	449	459	O
-separate	460	468	O
-to	469	471	O
-any	472	475	O
-nano	476	480	O
--	480	481	O
-scale	481	486	O
-cracks	487	493	O
-that	494	498	O
-might	499	504	O
-result	505	511	O
-from	512	516	O
-the	517	520	O
-tetragonal	521	531	B-Process
-to	532	534	I-Process
-monoclinic	535	545	I-Process
-phase	546	551	I-Process
-transformation	552	566	I-Process
-.	566	567	O
-
-An	568	570	O
-assumption	571	581	O
-is	582	584	O
-made	585	589	O
-here	590	594	O
-that	595	599	O
-whether	600	607	O
-the	608	611	O
-micro	612	617	O
--	617	618	O
-scale	618	623	O
-lateral	624	631	O
-cracks	632	638	O
-form	639	643	O
-via	644	647	O
-fracture	648	656	O
-of	657	659	O
-the	660	663	O
-oxide	664	669	B-Material
-or	670	672	O
-by	673	675	O
-de	676	678	B-Process
--	678	679	I-Process
-bonding	679	686	I-Process
-at	687	689	O
-the	690	693	O
-interface	694	703	O
-a	704	705	O
-triaxial	706	714	B-Process
-tensile	715	722	I-Process
-stress	723	729	I-Process
-state	730	735	O
-will	736	740	O
-still	741	746	O
-be	747	749	O
-present	750	757	O
-.	757	758	O
-
-In	759	761	O
-manufactured	762	774	B-Material
-partially	775	784	I-Material
-stabilised	785	795	I-Material
-zirconia	796	804	I-Material
-cracks	805	811	O
-would	812	817	O
-be	818	820	O
-expected	821	829	O
-to	830	832	O
-destabilise	833	844	O
-the	845	848	O
-tetragonal	849	859	B-Process
-phase	860	865	I-Process
-.	865	866	O
-
-This	867	871	O
-is	872	874	O
-simulated	875	884	B-Task
-by	885	887	I-Task
-applying	888	896	I-Task
-tensile	897	904	I-Task
-stress	905	911	I-Task
-in	912	914	I-Task
-direction	915	924	I-Task
-1	925	926	I-Task
-,	926	927	I-Task
-2	928	929	I-Task
-and	930	933	I-Task
-3	934	935	I-Task
-.	935	936	O
-
-As	937	939	O
-this	940	944	O
-the	945	948	O
-maximum	949	956	B-Process
-stress	957	963	I-Process
-at	964	966	O
-the	967	970	O
-crack	971	976	O
-tip	977	980	O
-is	981	983	O
-not	984	987	O
-known	988	993	O
-,	993	994	O
-the	995	998	O
-applied	999	1006	B-Process
-tensile	1007	1014	I-Process
-stresses	1015	1023	I-Process
-cover	1024	1029	O
-a	1030	1031	O
-range	1032	1037	O
-from	1038	1042	O
-0.1GPa	1043	1049	O
-up	1050	1052	O
-to	1053	1055	O
-a	1056	1057	O
-maximum	1058	1065	O
-stress	1066	1072	O
-value	1073	1078	O
-of	1079	1081	O
-2.2GPa	1082	1088	O
-as	1089	1091	O
-it	1092	1094	O
-is	1095	1097	O
-approximately	1098	1111	O
-equal	1112	1117	O
-
-to	1118	1120	O
-three	1121	1126	O
-times	1127	1132	O
-the	1133	1136	O
-fracture	1137	1145	B-Process
-strength	1146	1154	O
-of	1155	1157	O
-bulk	1158	1162	O
-fracture	1163	1171	O
-strength	1172	1180	O
-for	1181	1184	O
-manufactured	1185	1197	B-Material
-stabilized	1198	1208	I-Material
-zirconia	1209	1217	I-Material
-[	1218	1219	O
-34	1219	1221	O
-]	1221	1222	O
-.	1222	1223	O
-
-For	1224	1227	O
-the	1228	1231	O
-biaxial	1232	1239	B-Task
-compressive	1240	1251	I-Task
-and	1252	1255	I-Task
-triaxial	1256	1264	I-Task
-tensile	1265	1272	I-Task
-stress	1273	1279	I-Task
-states	1280	1286	I-Task
-it	1287	1289	O
-is	1290	1292	O
-the	1293	1296	O
-trends	1297	1303	O
-in	1304	1306	O
-behaviour	1307	1316	O
-rather	1317	1323	O
-than	1324	1328	O
-the	1329	1332	O
-absolute	1333	1341	O
-values	1342	1348	O
-that	1349	1353	O
-are	1354	1357	O
-considered	1358	1368	O
-of	1369	1371	O
-greatest	1372	1380	O
-importance	1381	1391	O
-for	1392	1395	O
-this	1396	1400	O
-work	1401	1405	O
-.	1405	1406	O
+The	0,3	O	O
+second	4,10	O	B-Task
+stress	11,17	O	I-Task
+state	18,23	O	I-Task
+is	24,26	O	O
+a	27,28	O	O
+tri	29,32	O	B-Task
+-	32,33	O	I-Task
+axial	33,38	O	I-Task
+tensile	39,46	O	I-Task
+stress	47,53	O	I-Task
+designed	54,62	O	O
+to	63,65	O	O
+represent	66,75	O	O
+the	76,79	O	O
+zone	80,84	O	O
+ahead	85,90	O	O
+of	91,93	O	O
+an	94,96	O	O
+advancing	97,106	O	B-Material
+crack	107,112	O	I-Material
+tip	113,116	O	I-Material
+.	116,117	O	O
+
+Micro	118,123	O	O
+-	123,124	O	O
+scale	124,129	O	O
+lateral	130,137	O	O
+cracks	138,144	O	O
+have	145,149	O	O
+been	150,154	O	O
+observed	155,163	O	O
+in	164,166	O	O
+the	167,170	O	O
+oxide	171,176	O	B-Material
+layer	177,182	O	I-Material
+,	182,183	O	O
+and	184,187	O	O
+appear	188,194	O	O
+to	195,197	O	O
+form	198,202	O	O
+very	203,207	O	O
+close	208,213	O	O
+to	214,216	O	O
+or	217,219	O	O
+at	220,222	O	O
+the	223,226	O	O
+metal	227,232	O	B-Material
+–	232,233	O	I-Material
+oxide	233,238	O	I-Material
+interface	239,248	O	I-Material
+(	249,250	O	O
+Fig	250,253	O	O
+.	253,254	O	O
+
+1	255,256	O	O
+)	256,257	O	O
+.	257,258	O	O
+
+Finite	259,265	O	B-Process
+element	266,273	O	I-Process
+analysis	274,282	O	I-Process
+by	283,285	O	O
+Parise	286,292	O	O
+et	293,295	O	O
+al	296,298	O	O
+.	298,299	O	O
+indicated	300,309	O	O
+that	310,314	O	O
+these	315,320	O	O
+cracks	321,327	O	B-Material
+form	328,332	O	O
+as	333,335	O	O
+a	336,337	O	O
+result	338,344	O	O
+of	345,347	O	O
+localised	348,357	O	B-Material
+tensile	358,365	O	I-Material
+stresses	366,374	O	I-Material
+above	375,380	O	O
+peaks	381,386	O	O
+in	387,389	O	O
+the	390,393	O	O
+metal	394,399	O	B-Material
+–	399,400	O	I-Material
+oxide	400,405	O	I-Material
+interface	406,415	O	I-Material
+roughness	416,425	O	O
+[	426,427	O	O
+31	427,429	O	O
+]	429,430	O	O
+.	430,431	O	O
+
+These	432,437	O	O
+cracks	438,444	O	O
+are	445,448	O	O
+considered	449,459	O	O
+separate	460,468	O	O
+to	469,471	O	O
+any	472,475	O	O
+nano	476,480	O	O
+-	480,481	O	O
+scale	481,486	O	O
+cracks	487,493	O	O
+that	494,498	O	O
+might	499,504	O	O
+result	505,511	O	O
+from	512,516	O	O
+the	517,520	O	O
+tetragonal	521,531	O	B-Process
+to	532,534	O	I-Process
+monoclinic	535,545	O	I-Process
+phase	546,551	O	I-Process
+transformation	552,566	O	I-Process
+.	566,567	O	O
+
+An	568,570	O	O
+assumption	571,581	O	O
+is	582,584	O	O
+made	585,589	O	O
+here	590,594	O	O
+that	595,599	O	O
+whether	600,607	O	O
+the	608,611	O	O
+micro	612,617	O	O
+-	617,618	O	O
+scale	618,623	O	O
+lateral	624,631	O	O
+cracks	632,638	O	O
+form	639,643	O	O
+via	644,647	O	O
+fracture	648,656	O	O
+of	657,659	O	O
+the	660,663	O	O
+oxide	664,669	O	B-Material
+or	670,672	O	O
+by	673,675	O	O
+de	676,678	O	B-Process
+-	678,679	O	I-Process
+bonding	679,686	O	I-Process
+at	687,689	O	O
+the	690,693	O	O
+interface	694,703	O	O
+a	704,705	O	O
+triaxial	706,714	O	B-Process
+tensile	715,722	O	I-Process
+stress	723,729	O	I-Process
+state	730,735	O	O
+will	736,740	O	O
+still	741,746	O	O
+be	747,749	O	O
+present	750,757	O	O
+.	757,758	O	O
+
+In	759,761	O	O
+manufactured	762,774	O	B-Material
+partially	775,784	O	I-Material
+stabilised	785,795	O	I-Material
+zirconia	796,804	O	I-Material
+cracks	805,811	O	O
+would	812,817	O	O
+be	818,820	O	O
+expected	821,829	O	O
+to	830,832	O	O
+destabilise	833,844	O	O
+the	845,848	O	O
+tetragonal	849,859	O	B-Process
+phase	860,865	O	I-Process
+.	865,866	O	O
+
+This	867,871	O	O
+is	872,874	O	O
+simulated	875,884	O	B-Task
+by	885,887	O	I-Task
+applying	888,896	O	I-Task
+tensile	897,904	O	I-Task
+stress	905,911	O	I-Task
+in	912,914	O	I-Task
+direction	915,924	O	I-Task
+1	925,926	O	I-Task
+,	926,927	O	I-Task
+2	928,929	O	I-Task
+and	930,933	O	I-Task
+3	934,935	O	I-Task
+.	935,936	O	O
+
+As	937,939	O	O
+this	940,944	O	O
+the	945,948	O	O
+maximum	949,956	O	B-Process
+stress	957,963	O	I-Process
+at	964,966	O	O
+the	967,970	O	O
+crack	971,976	O	O
+tip	977,980	O	O
+is	981,983	O	O
+not	984,987	O	O
+known	988,993	O	O
+,	993,994	O	O
+the	995,998	O	O
+applied	999,1006	O	B-Process
+tensile	1007,1014	O	I-Process
+stresses	1015,1023	O	I-Process
+cover	1024,1029	O	O
+a	1030,1031	O	O
+range	1032,1037	O	O
+from	1038,1042	O	O
+0.1GPa	1043,1049	O	O
+up	1050,1052	O	O
+to	1053,1055	O	O
+a	1056,1057	O	O
+maximum	1058,1065	O	O
+stress	1066,1072	O	O
+value	1073,1078	O	O
+of	1079,1081	O	O
+2.2GPa	1082,1088	O	O
+as	1089,1091	O	O
+it	1092,1094	O	O
+is	1095,1097	O	O
+approximately	1098,1111	O	O
+equal	1112,1117	O	O
+
+to	1118,1120	O	O
+three	1121,1126	O	O
+times	1127,1132	O	O
+the	1133,1136	O	O
+fracture	1137,1145	O	B-Process
+strength	1146,1154	O	O
+of	1155,1157	O	O
+bulk	1158,1162	O	O
+fracture	1163,1171	O	O
+strength	1172,1180	O	O
+for	1181,1184	O	O
+manufactured	1185,1197	O	B-Material
+stabilized	1198,1208	O	I-Material
+zirconia	1209,1217	O	I-Material
+[	1218,1219	O	O
+34	1219,1221	O	O
+]	1221,1222	O	O
+.	1222,1223	O	O
+
+For	1224,1227	O	O
+the	1228,1231	O	O
+biaxial	1232,1239	O	B-Task
+compressive	1240,1251	O	I-Task
+and	1252,1255	O	I-Task
+triaxial	1256,1264	O	I-Task
+tensile	1265,1272	O	I-Task
+stress	1273,1279	O	I-Task
+states	1280,1286	O	I-Task
+it	1287,1289	O	O
+is	1290,1292	O	O
+the	1293,1296	O	O
+trends	1297,1303	O	O
+in	1304,1306	O	O
+behaviour	1307,1316	O	O
+rather	1317,1323	O	O
+than	1324,1328	O	O
+the	1329,1332	O	O
+absolute	1333,1341	O	O
+values	1342,1348	O	O
+that	1349,1353	O	O
+are	1354,1357	O	O
+considered	1358,1368	O	O
+of	1369,1371	O	O
+greatest	1372,1380	O	O
+importance	1381,1391	O	O
+for	1392,1395	O	O
+this	1396,1400	O	O
+work	1401,1405	O	O
+.	1405,1406	O	O
 
 
 -DOCSTART- (S0022311514006849)
 
-The	0	3	O
-early	4	9	O
-theoretical	10	21	O
-work	22	26	O
-of	27	29	O
-Catlow	30	36	O
-assessed	37	45	O
-a	46	47	O
-number	48	54	O
-of	55	57	O
-Willis	58	64	B-Material
-type	65	69	I-Material
-clusters	70	78	I-Material
-and	79	82	O
-found	83	88	O
-them	89	93	O
-all	94	97	O
-to	98	100	O
-be	101	103	O
-stable	104	110	O
-using	111	116	O
-potential	117	126	B-Process
--	126	127	I-Process
-based	127	132	I-Process
-methods	133	140	I-Process
-[	141	142	O
-6	142	143	O
-]	143	144	O
-.	144	145	O
-
-More	146	150	O
-recently	151	159	O
-“	160	161	O
-split	161	166	B-Task
-interstitial	167	179	I-Task
-”	179	180	I-Task
-type	181	185	I-Task
-clusters	186	194	I-Task
-(	195	196	O
-Fig	196	199	O
-.	199	200	O
-
-1	201	202	O
-)	202	203	O
-have	204	208	O
-emerged	209	216	O
-from	217	221	O
-computational	222	235	O
-studies	236	243	O
-as	244	246	O
-stable	247	253	O
-species	254	261	O
-following	262	271	O
-the	272	275	O
-potential	276	285	B-Process
-based	286	291	I-Process
-investigation	292	305	I-Process
-of	306	308	O
-Govers	309	315	O
-et	316	318	O
-al	319	321	O
-.	321	322	O
-
-which	323	328	O
-found	329	334	O
-the	335	338	O
-2:2:2	339	344	O
-cluster	345	352	O
-in	353	355	O
-a	356	357	O
-UO2	358	361	B-Material
-supercell	362	371	I-Material
-relaxed	372	379	O
-to	380	382	O
-a	383	384	O
-split	385	390	O
-di	391	393	B-Material
--	393	394	I-Material
-interstitial	394	406	I-Material
-[	407	408	O
-13	408	410	O
-]	410	411	O
-(	412	413	O
-Fig	413	416	O
-.	416	417	O
-
-1(b	418	421	O
-)	421	422	O
-)	422	423	O
-;	423	424	O
-a	425	426	B-Material
-single	427	433	I-Material
-VO	434	436	I-Material
-with	437	441	I-Material
-three	442	447	I-Material
-Oi	448	450	I-Material
-displaced	451	460	O
-approximately	461	474	O
-1.6Å	475	479	O
-in	480	482	O
-〈	483	484	O
-111	484	487	O
-〉	487	488	O
-directions	489	499	O
-from	500	504	O
-the	505	508	O
-VO	509	511	B-Material
-.	511	512	O
-
-This	513	517	O
-result	518	524	O
-was	525	528	O
-later	529	534	O
-confirmed	535	544	O
-by	545	547	O
-the	548	551	O
-LSDA+U	552	558	B-Process
-calculations	559	571	O
-of	572	574	O
-Geng	575	579	O
-et	580	582	O
-al	583	585	O
-.	585	586	O
-
-[	587	588	O
-7	588	589	O
-]	589	590	O
-.	590	591	O
-
-The	592	595	O
-family	596	602	O
-of	603	605	O
-split	606	611	B-Material
-interstitial	612	624	I-Material
-clusters	625	633	I-Material
-was	634	637	O
-extended	638	646	O
-to	647	649	O
-include	650	657	O
-tri	658	661	B-Material
--	661	662	I-Material
-interstitials	662	675	I-Material
-[	676	677	O
-8	677	678	O
-]	678	679	O
-(	680	681	O
-a	681	682	O
-di	683	685	B-Material
--	685	686	I-Material
-interstitial	686	698	I-Material
-with	699	703	I-Material
-the	704	707	I-Material
-fourth	708	714	I-Material
-Oi	715	717	I-Material
-site	718	722	I-Material
-occupied	723	731	I-Material
-)	731	732	O
-and	733	736	O
-quad	737	741	B-Material
--	741	742	I-Material
-interstitials	742	755	I-Material
-[	756	757	O
-9	757	758	O
-]	758	759	O
-(	760	761	O
-two	761	764	B-Material
-di	765	767	I-Material
--	767	768	I-Material
-interstitials	768	781	I-Material
-on	782	784	I-Material
-adjacent	785	793	I-Material
-sites	794	799	I-Material
-,	799	800	O
-giving	801	807	O
-a	808	809	O
-total	810	815	O
-of	816	818	O
-two	819	822	O
-VO	823	825	B-Material
-and	826	829	O
-six	830	833	O
-Oi	834	836	B-Material
-)	836	837	O
-
-(	838	839	O
-Fig	839	842	O
-.	842	843	O
-
-1(d	844	847	O
-)	847	848	O
-)	848	849	O
-.	849	850	O
-
-Following	851	860	O
-this	861	865	O
-Andersson	866	875	O
-et	876	878	O
-al	879	881	O
-.	881	882	O
-postulated	883	893	O
-a	894	895	O
-model	896	901	B-Material
-for	902	905	I-Material
-U4O9	906	910	I-Material
-based	911	916	O
-on	917	919	O
-a	920	921	O
-UO2	922	925	B-Material
-supercell	926	935	I-Material
-containing	936	946	O
-multiple	947	955	B-Material
-split	956	961	I-Material
-quad	962	966	I-Material
--	966	967	I-Material
-interstitial	967	979	I-Material
-clusters	980	988	I-Material
-;	988	989	O
-following	990	999	O
-the	1000	1003	O
-prediction	1004	1014	O
-of	1015	1017	O
-their	1018	1023	O
-LSDA+U	1024	1030	B-Process
-calculations	1031	1043	O
-that	1044	1048	O
-the	1049	1052	O
-quad	1053	1057	B-Material
--	1057	1058	I-Material
-interstitial	1058	1070	I-Material
-is	1071	1073	O
-more	1074	1078	O
-stable	1079	1085	O
-than	1086	1090	O
-its	1091	1094	O
-cuboctahedral	1095	1108	B-Material
-counterpart	1109	1120	O
-[	1121	1122	O
-12	1122	1124	O
-]	1124	1125	O
-.	1125	1126	O
+The	0,3	O	O
+early	4,9	O	O
+theoretical	10,21	O	O
+work	22,26	O	O
+of	27,29	O	O
+Catlow	30,36	O	O
+assessed	37,45	O	O
+a	46,47	O	O
+number	48,54	O	O
+of	55,57	O	O
+Willis	58,64	O	B-Material
+type	65,69	O	I-Material
+clusters	70,78	O	I-Material
+and	79,82	O	O
+found	83,88	O	O
+them	89,93	O	O
+all	94,97	O	O
+to	98,100	O	O
+be	101,103	O	O
+stable	104,110	O	O
+using	111,116	O	O
+potential	117,126	O	B-Process
+-	126,127	O	I-Process
+based	127,132	O	I-Process
+methods	133,140	O	I-Process
+[	141,142	O	O
+6	142,143	O	O
+]	143,144	O	O
+.	144,145	O	O
+
+More	146,150	O	O
+recently	151,159	O	O
+“	160,161	O	O
+split	161,166	O	B-Task
+interstitial	167,179	O	I-Task
+”	179,180	O	I-Task
+type	181,185	O	I-Task
+clusters	186,194	O	I-Task
+(	195,196	O	O
+Fig	196,199	O	O
+.	199,200	O	O
+
+1	201,202	O	O
+)	202,203	O	O
+have	204,208	O	O
+emerged	209,216	O	O
+from	217,221	O	O
+computational	222,235	O	O
+studies	236,243	O	O
+as	244,246	O	O
+stable	247,253	O	O
+species	254,261	O	O
+following	262,271	O	O
+the	272,275	O	O
+potential	276,285	O	B-Process
+based	286,291	O	I-Process
+investigation	292,305	O	I-Process
+of	306,308	O	O
+Govers	309,315	O	O
+et	316,318	O	O
+al	319,321	O	O
+.	321,322	O	O
+
+which	323,328	O	O
+found	329,334	O	O
+the	335,338	O	O
+2:2:2	339,344	O	O
+cluster	345,352	O	O
+in	353,355	O	O
+a	356,357	O	O
+UO2	358,361	O	B-Material
+supercell	362,371	O	I-Material
+relaxed	372,379	O	O
+to	380,382	O	O
+a	383,384	O	O
+split	385,390	O	O
+di	391,393	O	B-Material
+-	393,394	O	I-Material
+interstitial	394,406	O	I-Material
+[	407,408	O	O
+13	408,410	O	O
+]	410,411	O	O
+(	412,413	O	O
+Fig	413,416	O	O
+.	416,417	O	O
+
+1(b	418,421	O	O
+)	421,422	O	O
+)	422,423	O	O
+;	423,424	O	O
+a	425,426	O	B-Material
+single	427,433	O	I-Material
+VO	434,436	O	I-Material
+with	437,441	O	I-Material
+three	442,447	O	I-Material
+Oi	448,450	O	I-Material
+displaced	451,460	O	O
+approximately	461,474	O	O
+1.6Å	475,479	O	O
+in	480,482	O	O
+〈	483,484	O	O
+111	484,487	O	O
+〉	487,488	O	O
+directions	489,499	O	O
+from	500,504	O	O
+the	505,508	O	O
+VO	509,511	O	B-Material
+.	511,512	O	O
+
+This	513,517	O	O
+result	518,524	O	O
+was	525,528	O	O
+later	529,534	O	O
+confirmed	535,544	O	O
+by	545,547	O	O
+the	548,551	O	O
+LSDA+U	552,558	O	B-Process
+calculations	559,571	O	O
+of	572,574	O	O
+Geng	575,579	O	O
+et	580,582	O	O
+al	583,585	O	O
+.	585,586	O	O
+
+[	587,588	O	O
+7	588,589	O	O
+]	589,590	O	O
+.	590,591	O	O
+
+The	592,595	O	O
+family	596,602	O	O
+of	603,605	O	O
+split	606,611	O	B-Material
+interstitial	612,624	O	I-Material
+clusters	625,633	O	I-Material
+was	634,637	O	O
+extended	638,646	O	O
+to	647,649	O	O
+include	650,657	O	O
+tri	658,661	O	B-Material
+-	661,662	O	I-Material
+interstitials	662,675	O	I-Material
+[	676,677	O	O
+8	677,678	O	O
+]	678,679	O	O
+(	680,681	O	O
+a	681,682	O	O
+di	683,685	O	B-Material
+-	685,686	O	I-Material
+interstitial	686,698	O	I-Material
+with	699,703	O	I-Material
+the	704,707	O	I-Material
+fourth	708,714	O	I-Material
+Oi	715,717	O	I-Material
+site	718,722	O	I-Material
+occupied	723,731	O	I-Material
+)	731,732	O	O
+and	733,736	O	O
+quad	737,741	O	B-Material
+-	741,742	O	I-Material
+interstitials	742,755	O	I-Material
+[	756,757	O	O
+9	757,758	O	O
+]	758,759	O	O
+(	760,761	O	O
+two	761,764	O	B-Material
+di	765,767	O	I-Material
+-	767,768	O	I-Material
+interstitials	768,781	O	I-Material
+on	782,784	O	I-Material
+adjacent	785,793	O	I-Material
+sites	794,799	O	I-Material
+,	799,800	O	O
+giving	801,807	O	O
+a	808,809	O	O
+total	810,815	O	O
+of	816,818	O	O
+two	819,822	O	O
+VO	823,825	O	B-Material
+and	826,829	O	O
+six	830,833	O	O
+Oi	834,836	O	B-Material
+)	836,837	O	O
+
+(	838,839	O	O
+Fig	839,842	O	O
+.	842,843	O	O
+
+1(d	844,847	O	O
+)	847,848	O	O
+)	848,849	O	O
+.	849,850	O	O
+
+Following	851,860	O	O
+this	861,865	O	O
+Andersson	866,875	O	O
+et	876,878	O	O
+al	879,881	O	O
+.	881,882	O	O
+postulated	883,893	O	O
+a	894,895	O	O
+model	896,901	O	B-Material
+for	902,905	O	I-Material
+U4O9	906,910	O	I-Material
+based	911,916	O	O
+on	917,919	O	O
+a	920,921	O	O
+UO2	922,925	O	B-Material
+supercell	926,935	O	I-Material
+containing	936,946	O	O
+multiple	947,955	O	B-Material
+split	956,961	O	I-Material
+quad	962,966	O	I-Material
+-	966,967	O	I-Material
+interstitial	967,979	O	I-Material
+clusters	980,988	O	I-Material
+;	988,989	O	O
+following	990,999	O	O
+the	1000,1003	O	O
+prediction	1004,1014	O	O
+of	1015,1017	O	O
+their	1018,1023	O	O
+LSDA+U	1024,1030	O	B-Process
+calculations	1031,1043	O	O
+that	1044,1048	O	O
+the	1049,1052	O	O
+quad	1053,1057	O	B-Material
+-	1057,1058	O	I-Material
+interstitial	1058,1070	O	I-Material
+is	1071,1073	O	O
+more	1074,1078	O	O
+stable	1079,1085	O	O
+than	1086,1090	O	O
+its	1091,1094	O	O
+cuboctahedral	1095,1108	O	B-Material
+counterpart	1109,1120	O	O
+[	1121,1122	O	O
+12	1122,1124	O	O
+]	1124,1125	O	O
+.	1125,1126	O	O
 
 
 -DOCSTART- (S0022311514007119)
 
-In	0	2	O
-the	3	6	O
-calculations	7	19	O
-for	20	23	O
-the	24	27	O
-formation	28	37	B-Task
-energy	38	44	I-Task
-,	44	45	O
-the	46	49	O
-box	50	53	B-Material
-size	54	58	O
-is	59	61	O
-set	62	65	O
-to	66	68	O
-30a0×30a0×30a0	69	83	O
-,	83	84	O
-where	85	90	O
-a0	91	93	O
-is	94	96	O
-the	97	100	O
-bcc	101	104	O
-Fe	105	107	B-Material
-lattice	108	115	I-Material
-parameter	116	125	O
-.	125	126	O
-
-For	127	130	O
-all	131	134	O
-calculations	135	147	O
-periodic	148	156	O
-boundary	157	165	O
-conditions	166	176	O
-and	177	180	O
-constant	181	189	O
-volume	190	196	O
-are	197	200	O
-used	201	205	O
-.	205	206	O
-
-The	207	210	O
-Monte	211	216	B-Process
-Carlo	217	222	I-Process
-algorithm	223	232	I-Process
-used	233	237	O
-to	238	240	O
-determine	241	250	B-Process
-the	251	254	I-Process
-lowest	255	261	I-Process
-energy	262	268	I-Process
-configuration	269	282	I-Process
-of	283	285	O
-the	286	289	O
-cluster	290	297	O
-[	298	299	O
-28	299	301	O
-]	301	302	O
-is	303	305	O
-organised	306	315	O
-as	316	318	O
-follows	319	326	O
-.	326	327	O
-
-First	328	333	O
-,	333	334	O
-the	335	338	O
-energetics	339	349	O
-of	350	352	O
-voids	353	358	B-Material
-without	359	366	I-Material
-helium	367	373	I-Material
-are	374	377	O
-investigated	378	390	O
-.	390	391	O
-
-A	392	393	O
-vacancy	394	401	O
-is	402	404	O
-introduced	405	415	O
-into	416	420	O
-the	421	424	O
-simulation	425	435	B-Material
-cell	436	440	I-Material
-and	441	444	O
-the	445	448	O
-system	449	455	O
-is	456	458	O
-minimised	459	468	O
-using	469	474	O
-a	475	476	O
-conjugate	477	486	B-Process
-gradient	487	495	I-Process
-algorithm	496	505	I-Process
-,	505	506	O
-yielding	507	515	O
-a	516	517	O
-single	518	524	B-Material
-vacancy	525	532	I-Material
-formation	533	542	I-Material
-energy	543	549	I-Material
-Evac	550	554	B-Material
-of	555	557	O
-1.72eV.	558	565	O
-Next	566	570	O
-,	570	571	O
-the	572	575	O
-atom	576	580	O
-with	581	585	O
-the	586	589	O
-highest	590	597	O
-potential	598	607	O
-energy	608	614	O
-is	615	617	O
-removed	618	625	O
-from	626	630	O
-the	631	634	O
-system	635	641	O
-and	642	645	O
-again	646	651	O
-the	652	655	O
-system	656	662	O
-is	663	665	O
-minimised	666	675	B-Process
-.	675	676	O
-
-This	677	681	O
-scheme	682	688	O
-is	689	691	O
-iteratively	692	703	O
-continued	704	713	O
-to	714	716	O
-create	717	723	O
-voids	724	729	O
-up	730	732	O
-to	733	735	O
-the	736	739	O
-number	740	746	O
-of	747	749	O
-target	750	756	O
-vacancies	757	766	O
-and	767	770	O
-the	771	774	O
-formation	775	784	O
-energy	785	791	O
-of	792	794	O
-each	795	799	O
-is	800	802	O
-calculated	803	813	O
-.	813	814	O
-
-Next	815	819	O
-,	819	820	O
-helium	821	827	B-Material
-atoms	828	833	I-Material
-are	834	837	O
-introduced	838	848	O
-to	849	851	O
-the	852	855	O
-vacancies	856	865	O
-.	865	866	O
-
-The	867	870	O
-total	871	876	B-Material
-system	877	883	I-Material
-energy	884	890	I-Material
-is	891	893	O
-measured	894	902	O
-and	903	906	O
-recorded	907	915	O
-.	915	916	O
-
-At	917	919	O
-this	920	924	O
-point	925	930	O
-,	930	931	O
-a	932	933	O
-Metropolis	934	944	B-Process
-MC	945	947	I-Process
-scheme	948	954	I-Process
-[	955	956	O
-29	956	958	O
-]	958	959	O
-is	960	962	O
-used	963	967	O
-to	968	970	O
-find	971	975	O
-the	976	979	O
-low	980	983	B-Material
-energy	984	990	I-Material
-configurations	991	1005	I-Material
-.	1005	1006	O
-
-Every	1007	1012	O
-helium	1013	1019	B-Material
-in	1020	1022	O
-the	1023	1026	O
-system	1027	1033	O
-is	1034	1036	O
-randomly	1037	1045	O
-displaced	1046	1055	O
-from	1056	1060	O
-its	1061	1064	O
-site	1065	1069	O
-up	1070	1072	O
-to	1073	1075	O
-a	1076	1077	O
-maximum	1078	1085	O
-of	1086	1088	O
-rmax	1089	1093	O
-(	1094	1095	O
-4.5Å	1095	1099	O
-,	1099	1100	O
-the	1101	1104	O
-cut	1105	1108	O
-off	1109	1112	O
-distance	1113	1121	O
-for	1122	1125	O
-He	1126	1128	B-Process
-–	1128	1129	I-Process
-He	1129	1131	I-Process
-interactions	1132	1144	I-Process
-)	1144	1145	O
-in	1146	1148	O
-each	1149	1153	O
-of	1154	1156	O
-the	1157	1160	O
-x	1161	1162	O
-,	1162	1163	O
-y	1164	1165	O
-and	1166	1169	O
-z	1170	1171	O
-directions	1172	1182	O
-and	1183	1186	O
-then	1187	1191	O
-minimised	1192	1201	B-Process
-using	1202	1207	O
-the	1208	1211	O
-conjugate	1212	1221	B-Process
-gradient	1222	1230	I-Process
-algorithm	1231	1240	I-Process
-.	1240	1241	O
-
-Each	1242	1246	O
-bubble	1247	1253	O
-is	1254	1256	O
-continued	1257	1266	O
-for	1267	1270	O
-a	1271	1272	O
-minimum	1273	1280	O
-of	1281	1283	O
-10,000	1284	1290	O
-steps	1291	1296	O
-.	1296	1297	O
-
-After	1298	1303	O
-that	1304	1308	O
-,	1308	1309	O
-the	1310	1313	O
-searches	1314	1322	O
-will	1323	1327	O
-be	1328	1330	O
-terminated	1331	1341	O
-if	1342	1344	O
-the	1345	1348	O
-system	1349	1355	O
-energy	1356	1362	O
-does	1363	1367	O
-not	1368	1371	O
-drop	1372	1376	O
-within	1377	1383	O
-a	1384	1385	O
-further	1386	1393	O
-10	1394	1396	O
-steps	1397	1402	O
-.	1402	1403	O
-
-A	1404	1405	O
-schematic	1406	1415	O
-of	1416	1418	O
-this	1419	1423	O
-iterative	1424	1433	B-Process
-process	1434	1441	I-Process
-is	1442	1444	O
-shown	1445	1450	O
-in	1451	1453	O
-Fig	1454	1457	O
-.	1457	1458	O
-
-1	1459	1460	O
-.	1460	1461	O
+In	0,2	O	O
+the	3,6	O	O
+calculations	7,19	O	O
+for	20,23	O	O
+the	24,27	O	O
+formation	28,37	O	B-Task
+energy	38,44	O	I-Task
+,	44,45	O	O
+the	46,49	O	O
+box	50,53	O	B-Material
+size	54,58	O	O
+is	59,61	O	O
+set	62,65	O	O
+to	66,68	O	O
+30a0×30a0×30a0	69,83	O	O
+,	83,84	O	O
+where	85,90	O	O
+a0	91,93	O	O
+is	94,96	O	O
+the	97,100	O	O
+bcc	101,104	O	O
+Fe	105,107	O	B-Material
+lattice	108,115	O	I-Material
+parameter	116,125	O	O
+.	125,126	O	O
+
+For	127,130	O	O
+all	131,134	O	O
+calculations	135,147	O	O
+periodic	148,156	O	O
+boundary	157,165	O	O
+conditions	166,176	O	O
+and	177,180	O	O
+constant	181,189	O	O
+volume	190,196	O	O
+are	197,200	O	O
+used	201,205	O	O
+.	205,206	O	O
+
+The	207,210	O	O
+Monte	211,216	O	B-Process
+Carlo	217,222	O	I-Process
+algorithm	223,232	O	I-Process
+used	233,237	O	O
+to	238,240	O	O
+determine	241,250	O	B-Process
+the	251,254	O	I-Process
+lowest	255,261	O	I-Process
+energy	262,268	O	I-Process
+configuration	269,282	O	I-Process
+of	283,285	O	O
+the	286,289	O	O
+cluster	290,297	O	O
+[	298,299	O	O
+28	299,301	O	O
+]	301,302	O	O
+is	303,305	O	O
+organised	306,315	O	O
+as	316,318	O	O
+follows	319,326	O	O
+.	326,327	O	O
+
+First	328,333	O	O
+,	333,334	O	O
+the	335,338	O	O
+energetics	339,349	O	O
+of	350,352	O	O
+voids	353,358	O	B-Material
+without	359,366	O	I-Material
+helium	367,373	O	I-Material
+are	374,377	O	O
+investigated	378,390	O	O
+.	390,391	O	O
+
+A	392,393	O	O
+vacancy	394,401	O	O
+is	402,404	O	O
+introduced	405,415	O	O
+into	416,420	O	O
+the	421,424	O	O
+simulation	425,435	O	B-Material
+cell	436,440	O	I-Material
+and	441,444	O	O
+the	445,448	O	O
+system	449,455	O	O
+is	456,458	O	O
+minimised	459,468	O	O
+using	469,474	O	O
+a	475,476	O	O
+conjugate	477,486	O	B-Process
+gradient	487,495	O	I-Process
+algorithm	496,505	O	I-Process
+,	505,506	O	O
+yielding	507,515	O	O
+a	516,517	O	O
+single	518,524	O	B-Material
+vacancy	525,532	O	I-Material
+formation	533,542	O	I-Material
+energy	543,549	O	I-Material
+Evac	550,554	O	B-Material
+of	555,557	O	O
+1.72eV.	558,565	O	O
+Next	566,570	O	O
+,	570,571	O	O
+the	572,575	O	O
+atom	576,580	O	O
+with	581,585	O	O
+the	586,589	O	O
+highest	590,597	O	O
+potential	598,607	O	O
+energy	608,614	O	O
+is	615,617	O	O
+removed	618,625	O	O
+from	626,630	O	O
+the	631,634	O	O
+system	635,641	O	O
+and	642,645	O	O
+again	646,651	O	O
+the	652,655	O	O
+system	656,662	O	O
+is	663,665	O	O
+minimised	666,675	O	B-Process
+.	675,676	O	O
+
+This	677,681	O	O
+scheme	682,688	O	O
+is	689,691	O	O
+iteratively	692,703	O	O
+continued	704,713	O	O
+to	714,716	O	O
+create	717,723	O	O
+voids	724,729	O	O
+up	730,732	O	O
+to	733,735	O	O
+the	736,739	O	O
+number	740,746	O	O
+of	747,749	O	O
+target	750,756	O	O
+vacancies	757,766	O	O
+and	767,770	O	O
+the	771,774	O	O
+formation	775,784	O	O
+energy	785,791	O	O
+of	792,794	O	O
+each	795,799	O	O
+is	800,802	O	O
+calculated	803,813	O	O
+.	813,814	O	O
+
+Next	815,819	O	O
+,	819,820	O	O
+helium	821,827	O	B-Material
+atoms	828,833	O	I-Material
+are	834,837	O	O
+introduced	838,848	O	O
+to	849,851	O	O
+the	852,855	O	O
+vacancies	856,865	O	O
+.	865,866	O	O
+
+The	867,870	O	O
+total	871,876	O	B-Material
+system	877,883	O	I-Material
+energy	884,890	O	I-Material
+is	891,893	O	O
+measured	894,902	O	O
+and	903,906	O	O
+recorded	907,915	O	O
+.	915,916	O	O
+
+At	917,919	O	O
+this	920,924	O	O
+point	925,930	O	O
+,	930,931	O	O
+a	932,933	O	O
+Metropolis	934,944	O	B-Process
+MC	945,947	O	I-Process
+scheme	948,954	O	I-Process
+[	955,956	O	O
+29	956,958	O	O
+]	958,959	O	O
+is	960,962	O	O
+used	963,967	O	O
+to	968,970	O	O
+find	971,975	O	O
+the	976,979	O	O
+low	980,983	O	B-Material
+energy	984,990	O	I-Material
+configurations	991,1005	O	I-Material
+.	1005,1006	O	O
+
+Every	1007,1012	O	O
+helium	1013,1019	O	B-Material
+in	1020,1022	O	O
+the	1023,1026	O	O
+system	1027,1033	O	O
+is	1034,1036	O	O
+randomly	1037,1045	O	O
+displaced	1046,1055	O	O
+from	1056,1060	O	O
+its	1061,1064	O	O
+site	1065,1069	O	O
+up	1070,1072	O	O
+to	1073,1075	O	O
+a	1076,1077	O	O
+maximum	1078,1085	O	O
+of	1086,1088	O	O
+rmax	1089,1093	O	O
+(	1094,1095	O	O
+4.5Å	1095,1099	O	O
+,	1099,1100	O	O
+the	1101,1104	O	O
+cut	1105,1108	O	O
+off	1109,1112	O	O
+distance	1113,1121	O	O
+for	1122,1125	O	O
+He	1126,1128	O	B-Process
+–	1128,1129	O	I-Process
+He	1129,1131	O	I-Process
+interactions	1132,1144	O	I-Process
+)	1144,1145	O	O
+in	1146,1148	O	O
+each	1149,1153	O	O
+of	1154,1156	O	O
+the	1157,1160	O	O
+x	1161,1162	O	O
+,	1162,1163	O	O
+y	1164,1165	O	O
+and	1166,1169	O	O
+z	1170,1171	O	O
+directions	1172,1182	O	O
+and	1183,1186	O	O
+then	1187,1191	O	O
+minimised	1192,1201	O	B-Process
+using	1202,1207	O	O
+the	1208,1211	O	O
+conjugate	1212,1221	O	B-Process
+gradient	1222,1230	O	I-Process
+algorithm	1231,1240	O	I-Process
+.	1240,1241	O	O
+
+Each	1242,1246	O	O
+bubble	1247,1253	O	O
+is	1254,1256	O	O
+continued	1257,1266	O	O
+for	1267,1270	O	O
+a	1271,1272	O	O
+minimum	1273,1280	O	O
+of	1281,1283	O	O
+10,000	1284,1290	O	O
+steps	1291,1296	O	O
+.	1296,1297	O	O
+
+After	1298,1303	O	O
+that	1304,1308	O	O
+,	1308,1309	O	O
+the	1310,1313	O	O
+searches	1314,1322	O	O
+will	1323,1327	O	O
+be	1328,1330	O	O
+terminated	1331,1341	O	O
+if	1342,1344	O	O
+the	1345,1348	O	O
+system	1349,1355	O	O
+energy	1356,1362	O	O
+does	1363,1367	O	O
+not	1368,1371	O	O
+drop	1372,1376	O	O
+within	1377,1383	O	O
+a	1384,1385	O	O
+further	1386,1393	O	O
+10	1394,1396	O	O
+steps	1397,1402	O	O
+.	1402,1403	O	O
+
+A	1404,1405	O	O
+schematic	1406,1415	O	O
+of	1416,1418	O	O
+this	1419,1423	O	O
+iterative	1424,1433	O	B-Process
+process	1434,1441	O	I-Process
+is	1442,1444	O	O
+shown	1445,1450	O	O
+in	1451,1453	O	O
+Fig	1454,1457	O	O
+.	1457,1458	O	O
+
+1	1459,1460	O	O
+.	1460,1461	O	O
 
 
 -DOCSTART- (S0022311514008691)
 
-The	0	3	O
-class	4	9	B-Material
-of	10	12	I-Material
-steels	13	19	I-Material
-known	20	25	O
-as	26	28	O
-oxide	29	34	B-Material
-dispersion	35	45	I-Material
-strengthened	46	58	I-Material
-(	59	60	O
-ODS	60	63	B-Material
-)	63	64	O
-ferritic	65	73	B-Material
-alloys	74	80	I-Material
-(	81	82	O
-also	82	86	O
-known	87	92	O
-as	93	95	O
-nanostructured	96	110	B-Material
-ferritic	111	119	B-Material
-alloys	120	126	I-Material
-)	126	127	O
-consist	128	135	O
-of	136	138	O
-a	139	140	O
-dispersion	141	151	B-Material
-of	152	154	I-Material
-ultra	155	160	I-Material
--	160	161	I-Material
-fine	161	165	I-Material
-oxide	166	171	I-Material
-particles	172	181	I-Material
-throughout	182	192	I-Material
-the	193	196	I-Material
-matrix	197	203	I-Material
-.	203	204	O
-
-These	205	210	O
-oxide	211	216	B-Material
-particles	217	226	I-Material
-serve	227	232	O
-to	233	235	O
-improve	236	243	B-Task
-the	244	247	I-Task
-mechanical	248	258	I-Task
-properties	259	269	I-Task
-of	270	272	I-Task
-the	273	276	I-Task
-system	277	283	I-Task
-,	283	284	O
-particularly	285	297	O
-at	298	300	O
-high	301	305	O
-temperatures	306	318	O
-,	318	319	O
-of	320	322	O
-the	323	326	O
-system	327	333	O
-through	334	341	O
-inhibiting	342	352	O
-dislocation	353	364	O
-motion	365	371	O
-and	372	375	O
-grain	376	381	O
-boundary	382	390	O
-sliding	391	398	O
-.	398	399	O
-
-In	400	402	O
-nuclear	403	410	O
-applications	411	423	O
-the	424	427	O
-oxide	428	433	B-Material
-particles	434	443	I-Material
-have	444	448	O
-been	449	453	O
-suggested	454	463	O
-to	464	466	O
-act	467	470	O
-as	471	473	O
-point	474	479	O
-defect	480	486	O
-sinks	487	492	O
-[	493	494	O
-10,11	494	499	O
-]	499	500	O
-to	501	503	O
-improve	504	511	B-Task
-radiation	512	521	I-Task
-tolerance	522	531	I-Task
-,	531	532	O
-and	533	536	O
-as	537	539	O
-preferential	540	552	O
-sites	553	558	O
-for	559	562	O
-the	563	566	O
-formation	567	576	O
-of	577	579	O
-nano	580	584	O
--	584	585	O
-scale	585	590	O
-
-He	591	593	O
-bubbles	594	601	O
-therefore	602	611	O
-reducing	612	620	B-Task
-swelling	621	629	I-Task
-compared	630	638	O
-to	639	641	O
-non	642	645	B-Material
--	645	646	I-Material
-ODS	646	649	I-Material
-steels	650	656	I-Material
-[	657	658	O
-12–15	658	663	O
-]	663	664	O
-.	664	665	O
-
-The	666	669	O
-ability	670	677	O
-of	678	680	O
-the	681	684	O
-oxide	685	690	B-Material
-particles	691	700	I-Material
-to	701	703	O
-improve	704	711	O
-these	712	717	O
-properties	718	728	O
-depends	729	736	O
-on	737	739	O
-the	740	743	O
-structure	744	753	B-Material
-and	754	757	I-Material
-composition	758	769	I-Material
-of	770	772	I-Material
-the	773	776	I-Material
-particles	777	786	I-Material
-
-[	787	788	O
-10,11,16,17	788	799	O
-]	799	800	O
-and	801	804	O
-their	805	810	O
-stability	811	820	O
-under	821	826	O
-irradiation	827	838	B-Process
-.	838	839	O
-
-Typical	840	847	O
-compositions	848	860	O
-of	861	863	O
-ODS	864	867	B-Material
-steels	868	874	I-Material
-include	875	882	O
-between	883	890	O
-9	891	892	B-Material
-and	893	896	I-Material
-14at.%	897	903	I-Material
-Cr	904	906	I-Material
-for	907	910	O
-oxidation	911	920	B-Process
-resistance	921	931	O
-(	932	933	O
-most	933	937	O
-commonly	938	946	O
-14at.%	947	953	O
-)	953	954	O
-;	954	955	O
-W	956	957	B-Material
-for	958	961	O
-solid	962	967	O
-solution	968	976	O
-hardening	977	986	O
-;	986	987	O
-Y2O3	988	992	B-Material
-that	993	997	O
-is	998	1000	O
-put	1001	1004	O
-into	1005	1009	O
-solid	1010	1015	B-Material
-solution	1016	1024	I-Material
-during	1025	1031	O
-the	1032	1035	O
-initial	1036	1043	O
-,	1043	1044	O
-mechanical	1045	1055	B-Process
-alloying	1056	1064	I-Process
-,	1064	1065	O
-process	1066	1073	O
-but	1074	1077	O
-then	1078	1082	O
-during	1083	1089	O
-consolidation	1090	1103	B-Process
-at	1104	1106	O
-high	1107	1111	O
-temperatures	1112	1124	O
-forms	1125	1130	O
-precipitates	1131	1143	B-Material
-;	1143	1144	O
-and	1145	1148	O
-Ti	1149	1151	B-Material
-to	1152	1154	O
-inhibit	1155	1162	O
-significant	1163	1174	O
-growth	1175	1181	O
-of	1182	1184	O
-the	1185	1188	O
-oxide	1189	1194	B-Material
-particles	1195	1204	I-Material
-;	1204	1205	O
-the	1206	1209	O
-balance	1210	1217	B-Material
-being	1218	1223	O
-made	1224	1228	O
-up	1229	1231	O
-of	1232	1234	O
-Fe	1235	1237	B-Material
-and	1238	1241	I-Material
-impurities	1242	1252	I-Material
-
-[	1253	1254	O
-18	1254	1256	O
-]	1256	1257	O
-.	1257	1258	O
-
-For	1259	1262	O
-this	1263	1267	O
-reason	1268	1274	O
-these	1275	1280	O
-steels	1281	1287	B-Material
-are	1288	1291	O
-often	1292	1297	O
-referred	1298	1306	O
-to	1307	1309	O
-as	1310	1312	O
-14YWT	1313	1318	B-Material
-,	1318	1319	O
-reflecting	1320	1330	O
-the	1331	1334	O
-constituent	1335	1346	B-Material
-elements	1347	1355	I-Material
-.	1355	1356	O
+The	0,3	O	O
+class	4,9	O	B-Material
+of	10,12	O	I-Material
+steels	13,19	O	I-Material
+known	20,25	O	O
+as	26,28	O	O
+oxide	29,34	O	B-Material
+dispersion	35,45	O	I-Material
+strengthened	46,58	O	I-Material
+(	59,60	O	O
+ODS	60,63	O	B-Material
+)	63,64	O	O
+ferritic	65,73	O	B-Material
+alloys	74,80	O	I-Material
+(	81,82	O	O
+also	82,86	O	O
+known	87,92	O	O
+as	93,95	O	O
+nanostructured	96,110	O	B-Material
+ferritic	111,119	O	B-Material
+alloys	120,126	O	I-Material
+)	126,127	O	O
+consist	128,135	O	O
+of	136,138	O	O
+a	139,140	O	O
+dispersion	141,151	O	B-Material
+of	152,154	O	I-Material
+ultra	155,160	O	I-Material
+-	160,161	O	I-Material
+fine	161,165	O	I-Material
+oxide	166,171	O	I-Material
+particles	172,181	O	I-Material
+throughout	182,192	O	I-Material
+the	193,196	O	I-Material
+matrix	197,203	O	I-Material
+.	203,204	O	O
+
+These	205,210	O	O
+oxide	211,216	O	B-Material
+particles	217,226	O	I-Material
+serve	227,232	O	O
+to	233,235	O	O
+improve	236,243	O	B-Task
+the	244,247	O	I-Task
+mechanical	248,258	O	I-Task
+properties	259,269	O	I-Task
+of	270,272	O	I-Task
+the	273,276	O	I-Task
+system	277,283	O	I-Task
+,	283,284	O	O
+particularly	285,297	O	O
+at	298,300	O	O
+high	301,305	O	O
+temperatures	306,318	O	O
+,	318,319	O	O
+of	320,322	O	O
+the	323,326	O	O
+system	327,333	O	O
+through	334,341	O	O
+inhibiting	342,352	O	O
+dislocation	353,364	O	O
+motion	365,371	O	O
+and	372,375	O	O
+grain	376,381	O	O
+boundary	382,390	O	O
+sliding	391,398	O	O
+.	398,399	O	O
+
+In	400,402	O	O
+nuclear	403,410	O	O
+applications	411,423	O	O
+the	424,427	O	O
+oxide	428,433	O	B-Material
+particles	434,443	O	I-Material
+have	444,448	O	O
+been	449,453	O	O
+suggested	454,463	O	O
+to	464,466	O	O
+act	467,470	O	O
+as	471,473	O	O
+point	474,479	O	O
+defect	480,486	O	O
+sinks	487,492	O	O
+[	493,494	O	O
+10,11	494,499	O	O
+]	499,500	O	O
+to	501,503	O	O
+improve	504,511	O	B-Task
+radiation	512,521	O	I-Task
+tolerance	522,531	O	I-Task
+,	531,532	O	O
+and	533,536	O	O
+as	537,539	O	O
+preferential	540,552	O	O
+sites	553,558	O	O
+for	559,562	O	O
+the	563,566	O	O
+formation	567,576	O	O
+of	577,579	O	O
+nano	580,584	O	O
+-	584,585	O	O
+scale	585,590	O	O
+
+He	591,593	O	O
+bubbles	594,601	O	O
+therefore	602,611	O	O
+reducing	612,620	O	B-Task
+swelling	621,629	O	I-Task
+compared	630,638	O	O
+to	639,641	O	O
+non	642,645	O	B-Material
+-	645,646	O	I-Material
+ODS	646,649	O	I-Material
+steels	650,656	O	I-Material
+[	657,658	O	O
+12–15	658,663	O	O
+]	663,664	O	O
+.	664,665	O	O
+
+The	666,669	O	O
+ability	670,677	O	O
+of	678,680	O	O
+the	681,684	O	O
+oxide	685,690	O	B-Material
+particles	691,700	O	I-Material
+to	701,703	O	O
+improve	704,711	O	O
+these	712,717	O	O
+properties	718,728	O	O
+depends	729,736	O	O
+on	737,739	O	O
+the	740,743	O	O
+structure	744,753	O	B-Material
+and	754,757	O	I-Material
+composition	758,769	O	I-Material
+of	770,772	O	I-Material
+the	773,776	O	I-Material
+particles	777,786	O	I-Material
+
+[	787,788	O	O
+10,11,16,17	788,799	O	O
+]	799,800	O	O
+and	801,804	O	O
+their	805,810	O	O
+stability	811,820	O	O
+under	821,826	O	O
+irradiation	827,838	O	B-Process
+.	838,839	O	O
+
+Typical	840,847	O	O
+compositions	848,860	O	O
+of	861,863	O	O
+ODS	864,867	O	B-Material
+steels	868,874	O	I-Material
+include	875,882	O	O
+between	883,890	O	O
+9	891,892	O	B-Material
+and	893,896	O	I-Material
+14at.%	897,903	O	I-Material
+Cr	904,906	O	I-Material
+for	907,910	O	O
+oxidation	911,920	O	B-Process
+resistance	921,931	O	O
+(	932,933	O	O
+most	933,937	O	O
+commonly	938,946	O	O
+14at.%	947,953	O	O
+)	953,954	O	O
+;	954,955	O	O
+W	956,957	O	B-Material
+for	958,961	O	O
+solid	962,967	O	O
+solution	968,976	O	O
+hardening	977,986	O	O
+;	986,987	O	O
+Y2O3	988,992	O	B-Material
+that	993,997	O	O
+is	998,1000	O	O
+put	1001,1004	O	O
+into	1005,1009	O	O
+solid	1010,1015	O	B-Material
+solution	1016,1024	O	I-Material
+during	1025,1031	O	O
+the	1032,1035	O	O
+initial	1036,1043	O	O
+,	1043,1044	O	O
+mechanical	1045,1055	O	B-Process
+alloying	1056,1064	O	I-Process
+,	1064,1065	O	O
+process	1066,1073	O	O
+but	1074,1077	O	O
+then	1078,1082	O	O
+during	1083,1089	O	O
+consolidation	1090,1103	O	B-Process
+at	1104,1106	O	O
+high	1107,1111	O	O
+temperatures	1112,1124	O	O
+forms	1125,1130	O	O
+precipitates	1131,1143	O	B-Material
+;	1143,1144	O	O
+and	1145,1148	O	O
+Ti	1149,1151	O	B-Material
+to	1152,1154	O	O
+inhibit	1155,1162	O	O
+significant	1163,1174	O	O
+growth	1175,1181	O	O
+of	1182,1184	O	O
+the	1185,1188	O	O
+oxide	1189,1194	O	B-Material
+particles	1195,1204	O	I-Material
+;	1204,1205	O	O
+the	1206,1209	O	O
+balance	1210,1217	O	B-Material
+being	1218,1223	O	O
+made	1224,1228	O	O
+up	1229,1231	O	O
+of	1232,1234	O	O
+Fe	1235,1237	O	B-Material
+and	1238,1241	O	I-Material
+impurities	1242,1252	O	I-Material
+
+[	1253,1254	O	O
+18	1254,1256	O	O
+]	1256,1257	O	O
+.	1257,1258	O	O
+
+For	1259,1262	O	O
+this	1263,1267	O	O
+reason	1268,1274	O	O
+these	1275,1280	O	O
+steels	1281,1287	O	B-Material
+are	1288,1291	O	O
+often	1292,1297	O	O
+referred	1298,1306	O	O
+to	1307,1309	O	O
+as	1310,1312	O	O
+14YWT	1313,1318	O	B-Material
+,	1318,1319	O	O
+reflecting	1320,1330	O	O
+the	1331,1334	O	O
+constituent	1335,1346	O	B-Material
+elements	1347,1355	O	I-Material
+.	1355,1356	O	O
 
 
 -DOCSTART- (S002231151500032X)
 
-Zirconium	0	9	B-Material
-alloys	10	16	I-Material
-are	17	20	O
-used	21	25	O
-as	26	28	O
-cladding	29	37	B-Material
-to	38	40	O
-encapsulate	41	52	O
-fuel	53	57	B-Material
-pellets	58	65	I-Material
-in	66	68	O
-pressurised	69	80	O
-and	81	84	O
-boiling	85	92	O
-water	93	98	B-Material
-nuclear	99	106	I-Material
-reactors	107	115	I-Material
-.	115	116	O
-
-Research	117	125	O
-into	126	130	O
-oxidation	131	140	B-Task
-of	141	143	I-Task
-these	144	149	I-Task
-alloys	150	156	I-Task
-has	157	160	O
-been	161	165	O
-significant	166	177	O
-since	178	183	O
-the	184	187	O
-introduction	188	200	O
-of	201	203	O
-the	204	207	O
-material	208	216	O
-.	216	217	O
-
-However	218	225	O
-,	225	226	O
-the	227	230	O
-microstructure	231	245	B-Process
-and	246	249	I-Process
-electro	250	257	I-Process
--	257	258	I-Process
-chemical	258	266	I-Process
-processes	267	276	I-Process
-during	277	283	O
-oxidation	284	293	B-Process
-are	294	297	O
-complex	298	305	O
-and	306	309	O
-many	310	314	O
-questions	315	324	O
-still	325	330	O
-remain	331	337	O
-unanswered	338	348	O
-.	348	349	O
-
-One	350	353	O
-such	354	358	O
-issue	359	364	O
-is	365	367	O
-the	368	371	O
-formation	372	381	O
-of	382	384	O
-lateral	385	392	O
-cracks	393	399	O
-near	400	404	O
-the	405	408	O
-metal	409	414	B-Material
--	414	415	I-Material
-oxide	415	420	I-Material
-interface	421	430	I-Material
-.	430	431	O
-
-Small	432	437	O
-cracks	438	444	O
-have	445	449	O
-been	450	454	O
-seen	455	459	O
-to	460	462	O
-form	463	467	O
-continuously	468	480	O
-during	481	487	O
-oxidation	488	497	B-Process
-,	497	498	O
-with	499	503	O
-large	504	509	O
-scale	510	515	O
-networks	516	524	O
-of	525	527	O
-lateral	528	535	O
-cracks	536	542	O
-forming	543	550	O
-cyclically	551	561	O
-every	562	567	O
-∼2μm	568	572	O
-of	573	575	O
-oxide	576	581	O
-growth	582	588	O
-.	588	589	O
-
-These	590	595	O
-networks	596	604	O
-of	605	607	O
-cracks	608	614	O
-can	615	618	O
-be	619	621	O
-correlated	622	632	O
-with	633	637	O
-acceleration	638	650	O
-in	651	653	O
-the	654	657	O
-corrosion	658	667	B-Material
-kinetics	668	676	I-Material
-
-[	677	678	O
-1–7	678	681	O
-]	681	682	O
-.	682	683	O
-
-These	684	689	O
-lateral	690	697	O
-cracks	698	704	O
-might	705	710	O
-enable	711	717	O
-the	718	721	O
-link	722	726	B-Material
-up	727	729	I-Material
-of	730	732	I-Material
-nano	733	737	I-Material
-pores	738	743	I-Material
-along	744	749	O
-grain	750	755	B-Material
-boundaries	756	766	O
-perpendicular	767	780	O
-to	781	783	O
-the	784	787	O
-metal	788	793	B-Material
-/	793	794	I-Material
-oxide	794	799	I-Material
-interface	800	809	I-Material
-as	810	812	O
-reported	813	821	O
-in	822	824	O
-[	825	826	O
-8,9	826	829	O
-]	829	830	O
-.	830	831	O
-
-Experiments	832	843	O
-using	844	849	O
-Synchrotron	850	861	B-Process
-X	862	863	I-Process
--	863	864	I-Process
-Ray	864	867	I-Process
-Diffraction	868	879	I-Process
-(	880	881	O
-S	881	882	B-Process
--	882	883	I-Process
-XRD	883	886	I-Process
-)	886	887	O
-by	888	890	O
-both	891	895	O
-Polatidis	896	905	O
-et	906	908	O
-al	909	911	O
-.	911	912	O
-and	913	916	O
-Petigny	917	924	O
-et	925	927	O
-al	928	930	O
-.	930	931	O
-,	931	932	O
-have	933	937	O
-separately	938	948	O
-shown	949	954	O
-that	955	959	O
-oxides	960	966	B-Material
-formed	967	973	O
-on	974	976	O
-Zircaloy-4	977	987	B-Material
-are	988	991	O
-composed	992	1000	O
-of	1001	1003	O
-monoclinic	1004	1014	B-Material
-and	1015	1018	I-Material
-stabilised	1019	1029	I-Material
-tetragonal	1030	1040	I-Material
-phases	1041	1047	I-Material
-,	1047	1048	O
-with	1049	1053	O
-an	1054	1056	O
-∼7	1057	1059	B-Material
-%	1059	1060	I-Material
-reduction	1061	1070	I-Material
-in	1071	1073	I-Material
-the	1074	1077	I-Material
-tetragonal	1078	1088	I-Material
-phase	1089	1094	I-Material
-fraction	1095	1103	O
-from	1104	1108	O
-1	1109	1110	O
-to	1111	1113	O
-3μm	1114	1117	O
-oxide	1118	1123	O
-growth	1124	1130	O
-[	1131	1132	O
-4,10	1132	1136	O
-]	1136	1137	O
-.	1137	1138	O
-
-One	1139	1142	O
-theory	1143	1149	O
-is	1150	1152	O
-that	1153	1157	O
-the	1158	1161	O
-lateral	1162	1169	O
-cracks	1170	1176	O
-may	1177	1180	O
-destabilise	1181	1192	O
-the	1193	1196	O
-tetragonal	1197	1207	B-Process
-phase	1208	1213	I-Process
-close	1214	1219	O
-to	1220	1222	O
-the	1223	1226	O
-metal	1227	1232	B-Material
--	1232	1233	I-Material
-oxide	1233	1238	I-Material
-interface	1239	1248	I-Material
-.	1248	1249	O
-
-The	1250	1253	O
-phase	1254	1259	B-Process
-transformation	1260	1274	I-Process
-has	1275	1278	O
-an	1279	1281	O
-∼6	1282	1284	O
-%	1284	1285	O
-expansion	1286	1295	O
-associated	1296	1306	O
-with	1307	1311	O
-it	1312	1314	O
-,	1314	1315	O
-which	1316	1321	O
-could	1322	1327	O
-lead	1328	1332	O
-to	1333	1335	O
-fracture	1336	1344	B-Process
-perpendicular	1345	1358	O
-to	1359	1361	O
-the	1362	1365	O
-metal	1366	1371	B-Material
--	1371	1372	I-Material
-oxide	1372	1377	I-Material
-interface	1378	1387	I-Material
-,	1387	1388	O
-thereby	1389	1396	O
-generating	1397	1407	O
-fast	1408	1412	O
-ingress	1413	1420	B-Process
-routes	1421	1427	O
-for	1428	1431	O
-oxygen	1432	1438	B-Material
-containing	1439	1449	I-Material
-species	1450	1457	I-Material
-[	1458	1459	O
-11,12	1459	1464	O
-]	1464	1465	O
-.	1465	1466	O
+Zirconium	0,9	O	B-Material
+alloys	10,16	O	I-Material
+are	17,20	O	O
+used	21,25	O	O
+as	26,28	O	O
+cladding	29,37	O	B-Material
+to	38,40	O	O
+encapsulate	41,52	O	O
+fuel	53,57	O	B-Material
+pellets	58,65	O	I-Material
+in	66,68	O	O
+pressurised	69,80	O	O
+and	81,84	O	O
+boiling	85,92	O	O
+water	93,98	O	B-Material
+nuclear	99,106	O	I-Material
+reactors	107,115	O	I-Material
+.	115,116	O	O
+
+Research	117,125	O	O
+into	126,130	O	O
+oxidation	131,140	O	B-Task
+of	141,143	O	I-Task
+these	144,149	O	I-Task
+alloys	150,156	O	I-Task
+has	157,160	O	O
+been	161,165	O	O
+significant	166,177	O	O
+since	178,183	O	O
+the	184,187	O	O
+introduction	188,200	O	O
+of	201,203	O	O
+the	204,207	O	O
+material	208,216	O	O
+.	216,217	O	O
+
+However	218,225	O	O
+,	225,226	O	O
+the	227,230	O	O
+microstructure	231,245	O	B-Process
+and	246,249	O	I-Process
+electro	250,257	O	I-Process
+-	257,258	O	I-Process
+chemical	258,266	O	I-Process
+processes	267,276	O	I-Process
+during	277,283	O	O
+oxidation	284,293	O	B-Process
+are	294,297	O	O
+complex	298,305	O	O
+and	306,309	O	O
+many	310,314	O	O
+questions	315,324	O	O
+still	325,330	O	O
+remain	331,337	O	O
+unanswered	338,348	O	O
+.	348,349	O	O
+
+One	350,353	O	O
+such	354,358	O	O
+issue	359,364	O	O
+is	365,367	O	O
+the	368,371	O	O
+formation	372,381	O	O
+of	382,384	O	O
+lateral	385,392	O	O
+cracks	393,399	O	O
+near	400,404	O	O
+the	405,408	O	O
+metal	409,414	O	B-Material
+-	414,415	O	I-Material
+oxide	415,420	O	I-Material
+interface	421,430	O	I-Material
+.	430,431	O	O
+
+Small	432,437	O	O
+cracks	438,444	O	O
+have	445,449	O	O
+been	450,454	O	O
+seen	455,459	O	O
+to	460,462	O	O
+form	463,467	O	O
+continuously	468,480	O	O
+during	481,487	O	O
+oxidation	488,497	O	B-Process
+,	497,498	O	O
+with	499,503	O	O
+large	504,509	O	O
+scale	510,515	O	O
+networks	516,524	O	O
+of	525,527	O	O
+lateral	528,535	O	O
+cracks	536,542	O	O
+forming	543,550	O	O
+cyclically	551,561	O	O
+every	562,567	O	O
+∼2μm	568,572	O	O
+of	573,575	O	O
+oxide	576,581	O	O
+growth	582,588	O	O
+.	588,589	O	O
+
+These	590,595	O	O
+networks	596,604	O	O
+of	605,607	O	O
+cracks	608,614	O	O
+can	615,618	O	O
+be	619,621	O	O
+correlated	622,632	O	O
+with	633,637	O	O
+acceleration	638,650	O	O
+in	651,653	O	O
+the	654,657	O	O
+corrosion	658,667	O	B-Material
+kinetics	668,676	O	I-Material
+
+[	677,678	O	O
+1–7	678,681	O	O
+]	681,682	O	O
+.	682,683	O	O
+
+These	684,689	O	O
+lateral	690,697	O	O
+cracks	698,704	O	O
+might	705,710	O	O
+enable	711,717	O	O
+the	718,721	O	O
+link	722,726	O	B-Material
+up	727,729	O	I-Material
+of	730,732	O	I-Material
+nano	733,737	O	I-Material
+pores	738,743	O	I-Material
+along	744,749	O	O
+grain	750,755	O	B-Material
+boundaries	756,766	O	O
+perpendicular	767,780	O	O
+to	781,783	O	O
+the	784,787	O	O
+metal	788,793	O	B-Material
+/	793,794	O	I-Material
+oxide	794,799	O	I-Material
+interface	800,809	O	I-Material
+as	810,812	O	O
+reported	813,821	O	O
+in	822,824	O	O
+[	825,826	O	O
+8,9	826,829	O	O
+]	829,830	O	O
+.	830,831	O	O
+
+Experiments	832,843	O	O
+using	844,849	O	O
+Synchrotron	850,861	O	B-Process
+X	862,863	O	I-Process
+-	863,864	O	I-Process
+Ray	864,867	O	I-Process
+Diffraction	868,879	O	I-Process
+(	880,881	O	O
+S	881,882	O	B-Process
+-	882,883	O	I-Process
+XRD	883,886	O	I-Process
+)	886,887	O	O
+by	888,890	O	O
+both	891,895	O	O
+Polatidis	896,905	O	O
+et	906,908	O	O
+al	909,911	O	O
+.	911,912	O	O
+and	913,916	O	O
+Petigny	917,924	O	O
+et	925,927	O	O
+al	928,930	O	O
+.	930,931	O	O
+,	931,932	O	O
+have	933,937	O	O
+separately	938,948	O	O
+shown	949,954	O	O
+that	955,959	O	O
+oxides	960,966	O	B-Material
+formed	967,973	O	O
+on	974,976	O	O
+Zircaloy-4	977,987	O	B-Material
+are	988,991	O	O
+composed	992,1000	O	O
+of	1001,1003	O	O
+monoclinic	1004,1014	O	B-Material
+and	1015,1018	O	I-Material
+stabilised	1019,1029	O	I-Material
+tetragonal	1030,1040	O	I-Material
+phases	1041,1047	O	I-Material
+,	1047,1048	O	O
+with	1049,1053	O	O
+an	1054,1056	O	O
+∼7	1057,1059	O	B-Material
+%	1059,1060	O	I-Material
+reduction	1061,1070	O	I-Material
+in	1071,1073	O	I-Material
+the	1074,1077	O	I-Material
+tetragonal	1078,1088	O	I-Material
+phase	1089,1094	O	I-Material
+fraction	1095,1103	O	O
+from	1104,1108	O	O
+1	1109,1110	O	O
+to	1111,1113	O	O
+3μm	1114,1117	O	O
+oxide	1118,1123	O	O
+growth	1124,1130	O	O
+[	1131,1132	O	O
+4,10	1132,1136	O	O
+]	1136,1137	O	O
+.	1137,1138	O	O
+
+One	1139,1142	O	O
+theory	1143,1149	O	O
+is	1150,1152	O	O
+that	1153,1157	O	O
+the	1158,1161	O	O
+lateral	1162,1169	O	O
+cracks	1170,1176	O	O
+may	1177,1180	O	O
+destabilise	1181,1192	O	O
+the	1193,1196	O	O
+tetragonal	1197,1207	O	B-Process
+phase	1208,1213	O	I-Process
+close	1214,1219	O	O
+to	1220,1222	O	O
+the	1223,1226	O	O
+metal	1227,1232	O	B-Material
+-	1232,1233	O	I-Material
+oxide	1233,1238	O	I-Material
+interface	1239,1248	O	I-Material
+.	1248,1249	O	O
+
+The	1250,1253	O	O
+phase	1254,1259	O	B-Process
+transformation	1260,1274	O	I-Process
+has	1275,1278	O	O
+an	1279,1281	O	O
+∼6	1282,1284	O	O
+%	1284,1285	O	O
+expansion	1286,1295	O	O
+associated	1296,1306	O	O
+with	1307,1311	O	O
+it	1312,1314	O	O
+,	1314,1315	O	O
+which	1316,1321	O	O
+could	1322,1327	O	O
+lead	1328,1332	O	O
+to	1333,1335	O	O
+fracture	1336,1344	O	B-Process
+perpendicular	1345,1358	O	O
+to	1359,1361	O	O
+the	1362,1365	O	O
+metal	1366,1371	O	B-Material
+-	1371,1372	O	I-Material
+oxide	1372,1377	O	I-Material
+interface	1378,1387	O	I-Material
+,	1387,1388	O	O
+thereby	1389,1396	O	O
+generating	1397,1407	O	O
+fast	1408,1412	O	O
+ingress	1413,1420	O	B-Process
+routes	1421,1427	O	O
+for	1428,1431	O	O
+oxygen	1432,1438	O	B-Material
+containing	1439,1449	O	I-Material
+species	1450,1457	O	I-Material
+[	1458,1459	O	O
+11,12	1459,1464	O	O
+]	1464,1465	O	O
+.	1465,1466	O	O
 
 
 -DOCSTART- (S0022311515002391)
 
-Spark	0	5	B-Process
-plasma	6	12	I-Process
-sintering	13	22	I-Process
-(	23	24	O
-SPS	24	27	B-Process
-)	27	28	O
-is	29	31	O
-a	32	33	O
-relatively	34	44	O
-new	45	48	O
-sintering	49	58	B-Process
--	58	59	I-Process
-based	59	64	I-Process
-technique	65	74	I-Process
-[	75	76	O
-17	76	78	O
-]	78	79	O
-in	80	82	O
-which	83	88	O
-the	89	92	O
-powder	93	99	B-Material
-to	100	102	O
-be	103	105	O
-consolidated	106	118	O
-is	119	121	O
-loaded	122	128	O
-into	129	133	O
-an	134	136	O
-electrically	137	149	O
-and	150	153	O
-thermally	154	163	O
-conductive	164	174	O
-graphite	175	183	O
-mould	184	189	O
-and	190	193	O
-
-a	194	195	O
-large	196	201	O
-DC	202	204	O
-pulsed	205	211	O
-current	212	219	O
-(	220	221	O
-1000–5000A	221	231	O
-)	231	232	O
-is	233	235	O
-applied	236	243	O
-under	244	249	O
-a	250	251	O
-uniaxial	252	260	O
-pressure	261	269	O
-.	269	270	O
-
-When	271	275	O
-current	276	283	O
-passes	284	290	O
-through	291	298	O
-the	299	302	O
-graphite	303	311	B-Material
-mould	312	317	I-Material
-(	318	319	O
-and	319	322	O
-the	323	326	O
-powder	327	333	B-Material
-if	334	336	O
-it	337	339	O
-is	340	342	O
-electrically	343	355	O
-conductive	356	366	O
-)	366	367	O
-,	367	368	O
-the	369	372	O
-powder	373	379	B-Material
-is	380	382	O
-heated	383	389	O
-both	390	394	O
-from	395	399	O
-the	400	403	O
-outside	404	411	O
-(	412	413	O
-the	413	416	O
-mould	417	422	B-Material
-acts	423	427	O
-as	428	430	O
-a	431	432	O
-heating	433	440	B-Material
-element	441	448	I-Material
-)	448	449	O
-and	450	453	O
-inside	454	460	O
-(	461	462	O
-due	462	465	O
-to	466	468	O
-Joule	469	474	O
-heating	475	482	O
-from	483	487	O
-the	488	491	O
-intrinsic	492	501	O
-electrical	502	512	O
-resistance	513	523	O
-of	524	526	O
-the	527	530	O
-powder	531	537	B-Material
-material	538	546	I-Material
-)	546	547	O
-.	547	548	O
-
-SPS	549	552	B-Process
-is	553	555	O
-characterised	556	569	O
-by	570	572	O
-very	573	577	O
-fast	578	582	O
-heating	583	590	O
-(	591	592	O
-up	592	594	O
-to	595	597	O
-2000	598	602	O
-°	602	603	O
-C	603	604	O
-/	604	605	O
-min	605	608	O
-)	608	609	O
-and	610	613	O
-cooling	614	621	O
-rates	622	627	O
-and	628	631	O
-short	632	637	O
-holding	638	645	O
-times	646	651	O
-(	652	653	O
-minutes	653	660	O
-)	660	661	O
-to	662	664	O
-achieve	665	672	O
-near	673	677	O
-theoretical	678	689	O
-density	690	697	O
-[	698	699	O
-17	699	701	O
-]	701	702	O
-.	702	703	O
-
-Thus	704	708	O
-SPS	709	712	B-Process
-occupies	713	721	O
-a	722	723	O
-very	724	728	O
-different	729	738	O
-time	739	743	O
-–	743	744	O
-temperature	744	755	O
-
-–	755	756	O
-density	756	763	O
-space	764	769	O
-in	770	772	O
-powder	773	779	B-Process
-consolidation	780	793	I-Process
-maps	794	798	I-Process
-when	799	803	O
-compared	804	812	O
-with	813	817	O
-conventional	818	830	B-Process
-methods	831	838	I-Process
-,	838	839	O
-such	840	844	O
-as	845	847	O
-hot	848	851	B-Process
-pressing	852	860	I-Process
-sintering	861	870	I-Process
-and	871	874	O
-HIP	875	878	B-Process
-with	879	883	O
-ramp	884	888	O
-rate	889	893	O
-of	894	896	O
-50–80	897	902	O
-°	902	903	O
-C	903	904	O
-/	904	905	O
-min	905	908	O
-and	909	912	O
-a	913	914	O
-few	915	918	O
-hours	919	924	O
-holding	925	932	O
-time	933	937	O
-.	937	938	O
-
-Although	939	947	O
-SPS	948	951	B-Process
-has	952	955	O
-been	956	960	O
-studied	961	968	O
-for	969	972	O
-a	973	974	O
-rapidly	975	982	O
-growing	983	990	O
-number	991	997	O
-of	998	1000	O
-materials	1001	1010	O
-[	1011	1012	O
-17	1012	1014	O
-]	1014	1015	O
-,	1015	1016	O
-there	1017	1022	O
-are	1023	1026	O
-only	1027	1031	O
-a	1032	1033	O
-small	1034	1039	O
-number	1040	1046	O
-of	1047	1049	O
-studies	1050	1057	O
-on	1058	1060	O
-the	1061	1064	O
-fabrication	1065	1076	B-Task
-and	1077	1080	I-Task
-microstructural	1081	1096	I-Task
-characterisation	1097	1113	I-Task
-of	1114	1116	I-Task
-ODS	1117	1120	I-Task
-steels	1121	1127	I-Task
-processed	1128	1137	I-Task
-by	1138	1140	I-Task
-SPS	1141	1144	I-Task
-,	1144	1145	O
-briefly	1146	1153	O
-reviewed	1154	1162	O
-below	1163	1168	O
-.	1168	1169	O
+Spark	0,5	O	B-Process
+plasma	6,12	O	I-Process
+sintering	13,22	O	I-Process
+(	23,24	O	O
+SPS	24,27	O	B-Process
+)	27,28	O	O
+is	29,31	O	O
+a	32,33	O	O
+relatively	34,44	O	O
+new	45,48	O	O
+sintering	49,58	O	B-Process
+-	58,59	O	I-Process
+based	59,64	O	I-Process
+technique	65,74	O	I-Process
+[	75,76	O	O
+17	76,78	O	O
+]	78,79	O	O
+in	80,82	O	O
+which	83,88	O	O
+the	89,92	O	O
+powder	93,99	O	B-Material
+to	100,102	O	O
+be	103,105	O	O
+consolidated	106,118	O	O
+is	119,121	O	O
+loaded	122,128	O	O
+into	129,133	O	O
+an	134,136	O	O
+electrically	137,149	O	O
+and	150,153	O	O
+thermally	154,163	O	O
+conductive	164,174	O	O
+graphite	175,183	O	O
+mould	184,189	O	O
+and	190,193	O	O
+
+a	194,195	O	O
+large	196,201	O	O
+DC	202,204	O	O
+pulsed	205,211	O	O
+current	212,219	O	O
+(	220,221	O	O
+1000–5000A	221,231	O	O
+)	231,232	O	O
+is	233,235	O	O
+applied	236,243	O	O
+under	244,249	O	O
+a	250,251	O	O
+uniaxial	252,260	O	O
+pressure	261,269	O	O
+.	269,270	O	O
+
+When	271,275	O	O
+current	276,283	O	O
+passes	284,290	O	O
+through	291,298	O	O
+the	299,302	O	O
+graphite	303,311	O	B-Material
+mould	312,317	O	I-Material
+(	318,319	O	O
+and	319,322	O	O
+the	323,326	O	O
+powder	327,333	O	B-Material
+if	334,336	O	O
+it	337,339	O	O
+is	340,342	O	O
+electrically	343,355	O	O
+conductive	356,366	O	O
+)	366,367	O	O
+,	367,368	O	O
+the	369,372	O	O
+powder	373,379	O	B-Material
+is	380,382	O	O
+heated	383,389	O	O
+both	390,394	O	O
+from	395,399	O	O
+the	400,403	O	O
+outside	404,411	O	O
+(	412,413	O	O
+the	413,416	O	O
+mould	417,422	O	B-Material
+acts	423,427	O	O
+as	428,430	O	O
+a	431,432	O	O
+heating	433,440	O	B-Material
+element	441,448	O	I-Material
+)	448,449	O	O
+and	450,453	O	O
+inside	454,460	O	O
+(	461,462	O	O
+due	462,465	O	O
+to	466,468	O	O
+Joule	469,474	O	O
+heating	475,482	O	O
+from	483,487	O	O
+the	488,491	O	O
+intrinsic	492,501	O	O
+electrical	502,512	O	O
+resistance	513,523	O	O
+of	524,526	O	O
+the	527,530	O	O
+powder	531,537	O	B-Material
+material	538,546	O	I-Material
+)	546,547	O	O
+.	547,548	O	O
+
+SPS	549,552	O	B-Process
+is	553,555	O	O
+characterised	556,569	O	O
+by	570,572	O	O
+very	573,577	O	O
+fast	578,582	O	O
+heating	583,590	O	O
+(	591,592	O	O
+up	592,594	O	O
+to	595,597	O	O
+2000	598,602	O	O
+°	602,603	O	O
+C	603,604	O	O
+/	604,605	O	O
+min	605,608	O	O
+)	608,609	O	O
+and	610,613	O	O
+cooling	614,621	O	O
+rates	622,627	O	O
+and	628,631	O	O
+short	632,637	O	O
+holding	638,645	O	O
+times	646,651	O	O
+(	652,653	O	O
+minutes	653,660	O	O
+)	660,661	O	O
+to	662,664	O	O
+achieve	665,672	O	O
+near	673,677	O	O
+theoretical	678,689	O	O
+density	690,697	O	O
+[	698,699	O	O
+17	699,701	O	O
+]	701,702	O	O
+.	702,703	O	O
+
+Thus	704,708	O	O
+SPS	709,712	O	B-Process
+occupies	713,721	O	O
+a	722,723	O	O
+very	724,728	O	O
+different	729,738	O	O
+time	739,743	O	O
+–	743,744	O	O
+temperature	744,755	O	O
+
+–	755,756	O	O
+density	756,763	O	O
+space	764,769	O	O
+in	770,772	O	O
+powder	773,779	O	B-Process
+consolidation	780,793	O	I-Process
+maps	794,798	O	I-Process
+when	799,803	O	O
+compared	804,812	O	O
+with	813,817	O	O
+conventional	818,830	O	B-Process
+methods	831,838	O	I-Process
+,	838,839	O	O
+such	840,844	O	O
+as	845,847	O	O
+hot	848,851	O	B-Process
+pressing	852,860	O	I-Process
+sintering	861,870	O	I-Process
+and	871,874	O	O
+HIP	875,878	O	B-Process
+with	879,883	O	O
+ramp	884,888	O	O
+rate	889,893	O	O
+of	894,896	O	O
+50–80	897,902	O	O
+°	902,903	O	O
+C	903,904	O	O
+/	904,905	O	O
+min	905,908	O	O
+and	909,912	O	O
+a	913,914	O	O
+few	915,918	O	O
+hours	919,924	O	O
+holding	925,932	O	O
+time	933,937	O	O
+.	937,938	O	O
+
+Although	939,947	O	O
+SPS	948,951	O	B-Process
+has	952,955	O	O
+been	956,960	O	O
+studied	961,968	O	O
+for	969,972	O	O
+a	973,974	O	O
+rapidly	975,982	O	O
+growing	983,990	O	O
+number	991,997	O	O
+of	998,1000	O	O
+materials	1001,1010	O	O
+[	1011,1012	O	O
+17	1012,1014	O	O
+]	1014,1015	O	O
+,	1015,1016	O	O
+there	1017,1022	O	O
+are	1023,1026	O	O
+only	1027,1031	O	O
+a	1032,1033	O	O
+small	1034,1039	O	O
+number	1040,1046	O	O
+of	1047,1049	O	O
+studies	1050,1057	O	O
+on	1058,1060	O	O
+the	1061,1064	O	O
+fabrication	1065,1076	O	B-Task
+and	1077,1080	O	I-Task
+microstructural	1081,1096	O	I-Task
+characterisation	1097,1113	O	I-Task
+of	1114,1116	O	I-Task
+ODS	1117,1120	O	I-Task
+steels	1121,1127	O	I-Task
+processed	1128,1137	O	I-Task
+by	1138,1140	O	I-Task
+SPS	1141,1144	O	I-Task
+,	1144,1145	O	O
+briefly	1146,1153	O	O
+reviewed	1154,1162	O	O
+below	1163,1168	O	O
+.	1168,1169	O	O
 
 
 -DOCSTART- (S0022311515002470)
 
-To	0	2	O
-conclude	3	11	O
-,	11	12	O
-the	13	16	O
-electrochemical	17	32	B-Task
-reduction	33	42	I-Task
-of	43	45	I-Task
-uranium	46	53	I-Task
-dioxide	54	61	I-Task
-to	62	64	O
-uranium	65	72	B-Material
-metal	73	78	I-Material
-has	79	82	O
-been	83	87	O
-studied	88	95	O
-in	96	98	O
-a	99	100	O
-lithium	101	108	B-Material
-chloride	109	117	I-Material
-–	117	118	I-Material
-potassium	118	127	I-Material
-chloride	128	136	I-Material
-eutectic	137	145	I-Material
-molten	146	152	I-Material
-salt	153	157	I-Material
-at	158	160	O
-450	161	164	O
-°	164	165	O
-C	165	166	O
-.	166	167	O
-
-Both	168	172	O
-electrochemical	173	188	B-Process
-and	189	192	O
-synchrotron	193	204	B-Process
-X	205	206	I-Process
--	206	207	I-Process
-ray	207	210	I-Process
-techniques	211	221	O
-have	222	226	O
-been	227	231	O
-utilised	232	240	O
-to	241	243	O
-deduce	244	250	B-Task
-the	251	254	I-Task
-electrochemical	255	270	I-Task
-reduction	271	280	I-Task
-potential	281	290	I-Task
-,	290	291	I-Task
-mechanism	292	301	I-Task
-and	302	305	I-Task
-reduction	306	315	I-Task
-pathway	316	323	I-Task
-.	323	324	O
-
-The	325	328	O
-electrochemical	329	344	O
-reduction	345	354	O
-potential	355	364	O
-of	365	367	O
-the	368	371	O
-UO2|U	372	377	B-Material
-couple	378	384	I-Material
-is	385	387	O
-dependent	388	397	O
-on	398	400	O
-the	401	404	O
-activity	405	413	O
-of	414	416	O
-oxide	417	422	B-Material
-ions	423	427	I-Material
-existing	428	436	O
-within	437	443	O
-the	444	447	O
-melt	448	452	B-Material
-.	452	453	O
-
-The	454	457	O
-electrochemical	458	473	B-Process
-reduction	474	483	I-Process
-of	484	486	O
-uranium	487	494	B-Material
-dioxide	495	502	I-Material
-to	503	505	O
-uranium	506	513	B-Material
-metal	514	519	I-Material
-seems	520	525	O
-to	526	528	O
-occur	529	534	O
-in	535	537	O
-a	538	539	O
-single	540	546	O
-,	546	547	O
-4-electron	548	558	B-Process
--	558	559	I-Process
-step	559	563	I-Process
-,	563	564	O
-process	565	572	O
-;	572	573	O
-indicated	574	583	O
-by	584	586	O
-a	587	588	O
-single	589	595	O
-reduction	596	605	O
-peak	606	610	O
-(	611	612	O
-C1	612	614	O
-)	614	615	O
-in	616	618	O
-the	619	622	O
-cyclic	623	629	B-Process
-voltammograms	630	643	I-Process
-and	644	647	O
-also	648	652	O
-by	653	655	O
-the	656	659	O
-exclusion	660	669	O
-of	670	672	O
-any	673	676	O
-other	677	682	O
-phases	683	689	O
-in	690	692	O
-the	693	696	O
-EDXD	697	701	B-Process
-data	702	706	I-Process
-.	706	707	O
-
-The	708	711	O
-electrochemical	712	727	B-Process
-reduction	728	737	I-Process
-may	738	741	O
-be	742	744	O
-impeded	745	752	O
-by	753	755	O
-an	756	758	O
-increase	759	767	O
-in	768	770	O
-oxo	771	774	O
--	774	775	O
-acidity	775	782	O
-of	783	785	O
-the	786	789	O
-molten	790	796	B-Material
-salt	797	801	I-Material
-.	801	802	O
-
-That	803	807	O
-is	808	810	O
-,	810	811	O
-O2−	812	815	B-Material
-ions	816	820	I-Material
-that	821	825	O
-are	826	829	O
-liberated	830	839	O
-by	840	842	O
-the	843	846	O
-electroreduction	847	863	B-Process
-may	864	867	O
-not	868	871	O
-react	872	877	O
-at	878	880	O
-the	881	884	O
-counter	885	892	B-Material
-electrode	893	902	I-Material
-and	903	906	O
-,	906	907	O
-thus	908	912	O
-,	912	913	O
-not	914	917	O
-be	918	920	O
-removed	921	928	O
-from	929	933	O
-the	934	937	O
-molten	938	944	B-Material
-salt	945	949	I-Material
-.	949	950	O
-
-This	951	955	O
-could	956	961	O
-be	962	964	O
-due	965	968	O
-to	969	971	O
-the	972	975	O
-electrode	976	985	B-Material
-geometry	986	994	O
-and/or	995	1001	O
-the	1002	1005	O
-inherent	1006	1014	O
-microstructure	1015	1029	O
-of	1030	1032	O
-the	1033	1036	O
-working	1037	1044	O
-electrode	1045	1054	B-Material
-:	1054	1055	O
-a	1056	1057	O
-high	1058	1062	O
-tortuosity	1063	1073	O
-,	1073	1074	O
-for	1075	1078	O
-example	1079	1086	O
-,	1086	1087	O
-would	1088	1093	O
-impede	1094	1100	O
-the	1101	1104	O
-diffusion	1105	1114	O
-of	1115	1117	O
-O2−	1118	1121	B-Material
-ions	1122	1126	I-Material
-out	1127	1130	O
-of	1131	1133	O
-the	1134	1137	O
-working	1138	1145	O
-electrode	1146	1155	B-Material
-.	1155	1156	O
-
-This	1157	1161	O
-could	1162	1167	O
-then	1168	1172	O
-cause	1173	1178	O
-an	1179	1181	O
-increase	1182	1190	O
-in	1191	1193	O
-the	1194	1197	O
-activity	1198	1206	O
-of	1207	1209	O
-oxide	1210	1215	B-Material
-ions	1216	1220	I-Material
-existing	1221	1229	O
-within	1230	1236	O
-the	1237	1240	O
-melt	1241	1245	B-Material
-and	1246	1249	O
-hence	1250	1255	O
-inhibit	1256	1263	O
-the	1264	1267	O
-electrochemical	1268	1283	B-Process
-reduction	1284	1293	I-Process
-–	1294	1295	O
-exploration	1296	1307	B-Task
-of	1308	1310	I-Task
-the	1311	1314	I-Task
-microstructure	1315	1329	I-Task
-of	1330	1332	I-Task
-working	1333	1340	I-Task
-electrodes	1341	1351	I-Task
-will	1352	1356	O
-be	1357	1359	O
-the	1360	1363	O
-focus	1364	1369	O
-of	1370	1372	O
-future	1373	1379	O
-work	1380	1384	O
-.	1384	1385	O
+To	0,2	O	O
+conclude	3,11	O	O
+,	11,12	O	O
+the	13,16	O	O
+electrochemical	17,32	O	B-Task
+reduction	33,42	O	I-Task
+of	43,45	O	I-Task
+uranium	46,53	O	I-Task
+dioxide	54,61	O	I-Task
+to	62,64	O	O
+uranium	65,72	O	B-Material
+metal	73,78	O	I-Material
+has	79,82	O	O
+been	83,87	O	O
+studied	88,95	O	O
+in	96,98	O	O
+a	99,100	O	O
+lithium	101,108	O	B-Material
+chloride	109,117	O	I-Material
+–	117,118	O	I-Material
+potassium	118,127	O	I-Material
+chloride	128,136	O	I-Material
+eutectic	137,145	O	I-Material
+molten	146,152	O	I-Material
+salt	153,157	O	I-Material
+at	158,160	O	O
+450	161,164	O	O
+°	164,165	O	O
+C	165,166	O	O
+.	166,167	O	O
+
+Both	168,172	O	O
+electrochemical	173,188	O	B-Process
+and	189,192	O	O
+synchrotron	193,204	O	B-Process
+X	205,206	O	I-Process
+-	206,207	O	I-Process
+ray	207,210	O	I-Process
+techniques	211,221	O	O
+have	222,226	O	O
+been	227,231	O	O
+utilised	232,240	O	O
+to	241,243	O	O
+deduce	244,250	O	B-Task
+the	251,254	O	I-Task
+electrochemical	255,270	O	I-Task
+reduction	271,280	O	I-Task
+potential	281,290	O	I-Task
+,	290,291	O	I-Task
+mechanism	292,301	O	I-Task
+and	302,305	O	I-Task
+reduction	306,315	O	I-Task
+pathway	316,323	O	I-Task
+.	323,324	O	O
+
+The	325,328	O	O
+electrochemical	329,344	O	O
+reduction	345,354	O	O
+potential	355,364	O	O
+of	365,367	O	O
+the	368,371	O	O
+UO2|U	372,377	O	B-Material
+couple	378,384	O	I-Material
+is	385,387	O	O
+dependent	388,397	O	O
+on	398,400	O	O
+the	401,404	O	O
+activity	405,413	O	O
+of	414,416	O	O
+oxide	417,422	O	B-Material
+ions	423,427	O	I-Material
+existing	428,436	O	O
+within	437,443	O	O
+the	444,447	O	O
+melt	448,452	O	B-Material
+.	452,453	O	O
+
+The	454,457	O	O
+electrochemical	458,473	O	B-Process
+reduction	474,483	O	I-Process
+of	484,486	O	O
+uranium	487,494	O	B-Material
+dioxide	495,502	O	I-Material
+to	503,505	O	O
+uranium	506,513	O	B-Material
+metal	514,519	O	I-Material
+seems	520,525	O	O
+to	526,528	O	O
+occur	529,534	O	O
+in	535,537	O	O
+a	538,539	O	O
+single	540,546	O	O
+,	546,547	O	O
+4-electron	548,558	O	B-Process
+-	558,559	O	I-Process
+step	559,563	O	I-Process
+,	563,564	O	O
+process	565,572	O	O
+;	572,573	O	O
+indicated	574,583	O	O
+by	584,586	O	O
+a	587,588	O	O
+single	589,595	O	O
+reduction	596,605	O	O
+peak	606,610	O	O
+(	611,612	O	O
+C1	612,614	O	O
+)	614,615	O	O
+in	616,618	O	O
+the	619,622	O	O
+cyclic	623,629	O	B-Process
+voltammograms	630,643	O	I-Process
+and	644,647	O	O
+also	648,652	O	O
+by	653,655	O	O
+the	656,659	O	O
+exclusion	660,669	O	O
+of	670,672	O	O
+any	673,676	O	O
+other	677,682	O	O
+phases	683,689	O	O
+in	690,692	O	O
+the	693,696	O	O
+EDXD	697,701	O	B-Process
+data	702,706	O	I-Process
+.	706,707	O	O
+
+The	708,711	O	O
+electrochemical	712,727	O	B-Process
+reduction	728,737	O	I-Process
+may	738,741	O	O
+be	742,744	O	O
+impeded	745,752	O	O
+by	753,755	O	O
+an	756,758	O	O
+increase	759,767	O	O
+in	768,770	O	O
+oxo	771,774	O	O
+-	774,775	O	O
+acidity	775,782	O	O
+of	783,785	O	O
+the	786,789	O	O
+molten	790,796	O	B-Material
+salt	797,801	O	I-Material
+.	801,802	O	O
+
+That	803,807	O	O
+is	808,810	O	O
+,	810,811	O	O
+O2−	812,815	O	B-Material
+ions	816,820	O	I-Material
+that	821,825	O	O
+are	826,829	O	O
+liberated	830,839	O	O
+by	840,842	O	O
+the	843,846	O	O
+electroreduction	847,863	O	B-Process
+may	864,867	O	O
+not	868,871	O	O
+react	872,877	O	O
+at	878,880	O	O
+the	881,884	O	O
+counter	885,892	O	B-Material
+electrode	893,902	O	I-Material
+and	903,906	O	O
+,	906,907	O	O
+thus	908,912	O	O
+,	912,913	O	O
+not	914,917	O	O
+be	918,920	O	O
+removed	921,928	O	O
+from	929,933	O	O
+the	934,937	O	O
+molten	938,944	O	B-Material
+salt	945,949	O	I-Material
+.	949,950	O	O
+
+This	951,955	O	O
+could	956,961	O	O
+be	962,964	O	O
+due	965,968	O	O
+to	969,971	O	O
+the	972,975	O	O
+electrode	976,985	O	B-Material
+geometry	986,994	O	O
+and/or	995,1001	O	O
+the	1002,1005	O	O
+inherent	1006,1014	O	O
+microstructure	1015,1029	O	O
+of	1030,1032	O	O
+the	1033,1036	O	O
+working	1037,1044	O	O
+electrode	1045,1054	O	B-Material
+:	1054,1055	O	O
+a	1056,1057	O	O
+high	1058,1062	O	O
+tortuosity	1063,1073	O	O
+,	1073,1074	O	O
+for	1075,1078	O	O
+example	1079,1086	O	O
+,	1086,1087	O	O
+would	1088,1093	O	O
+impede	1094,1100	O	O
+the	1101,1104	O	O
+diffusion	1105,1114	O	O
+of	1115,1117	O	O
+O2−	1118,1121	O	B-Material
+ions	1122,1126	O	I-Material
+out	1127,1130	O	O
+of	1131,1133	O	O
+the	1134,1137	O	O
+working	1138,1145	O	O
+electrode	1146,1155	O	B-Material
+.	1155,1156	O	O
+
+This	1157,1161	O	O
+could	1162,1167	O	O
+then	1168,1172	O	O
+cause	1173,1178	O	O
+an	1179,1181	O	O
+increase	1182,1190	O	O
+in	1191,1193	O	O
+the	1194,1197	O	O
+activity	1198,1206	O	O
+of	1207,1209	O	O
+oxide	1210,1215	O	B-Material
+ions	1216,1220	O	I-Material
+existing	1221,1229	O	O
+within	1230,1236	O	O
+the	1237,1240	O	O
+melt	1241,1245	O	B-Material
+and	1246,1249	O	O
+hence	1250,1255	O	O
+inhibit	1256,1263	O	O
+the	1264,1267	O	O
+electrochemical	1268,1283	O	B-Process
+reduction	1284,1293	O	I-Process
+–	1294,1295	O	O
+exploration	1296,1307	O	B-Task
+of	1308,1310	O	I-Task
+the	1311,1314	O	I-Task
+microstructure	1315,1329	O	I-Task
+of	1330,1332	O	I-Task
+working	1333,1340	O	I-Task
+electrodes	1341,1351	O	I-Task
+will	1352,1356	O	O
+be	1357,1359	O	O
+the	1360,1363	O	O
+focus	1364,1369	O	O
+of	1370,1372	O	O
+future	1373,1379	O	O
+work	1380,1384	O	O
+.	1384,1385	O	O
 
 
 -DOCSTART- (S0022311515002664)
 
-The	0	3	O
-primary	4	11	O
-benefit	12	19	O
-of	20	22	O
-using	23	28	O
-a	29	30	O
-3D	31	33	B-Process
-model	34	39	I-Process
-is	40	42	O
-that	43	47	O
-it	48	50	O
-allows	51	57	O
-the	58	61	O
-application	62	73	O
-of	74	76	O
-anisotropic	77	88	B-Task
-material	89	97	I-Task
-properties	98	108	I-Task
-.	108	109	O
-
-As	110	112	O
-a	113	114	O
-hexagonal	115	124	O
-close	125	130	O
-packed	131	137	O
-lattice	138	145	O
-structure	146	155	O
-,	155	156	O
-a	157	158	O
-single	159	165	O
-zirconium	166	175	B-Material
-grain	176	181	I-Material
-is	182	184	O
-plastically	185	196	O
-anisotropic	197	208	O
-due	209	212	O
-to	213	215	O
-the	216	219	O
-difficulty	220	230	O
-of	231	233	O
-activating	234	244	O
-slip	245	249	O
-with	250	254	O
-a	255	256	O
-〈	257	258	O
-c	258	259	O
-〉	259	260	O
-component	261	270	O
-[	271	272	O
-23–26	272	277	O
-]	277	278	O
-.	278	279	O
-
-Abaqus	280	286	B-Process
-allows	287	293	O
-this	294	298	O
-to	299	301	O
-be	302	304	O
-represented	305	316	O
-by	317	319	O
-setting	320	327	O
-plasticity	328	338	B-Process
-potential	339	348	I-Process
-ratios	349	355	I-Process
-.	355	356	O
-
-The	357	360	O
-anisotropic	361	372	B-Material
-elastic	373	380	I-Material
-and	381	384	I-Material
-plastic	385	392	I-Material
-constants	393	402	I-Material
-are	403	406	O
-shown	407	412	O
-in	413	415	O
-Table	416	421	O
-1	422	423	O
-.	423	424	O
-
-Zirconium	425	434	B-Material
-alloys	435	441	O
-can	442	445	O
-often	446	451	O
-have	452	456	O
-a	457	458	O
-bimodal	459	466	B-Process
-basal	467	472	I-Process
-pole	473	477	I-Process
-distribution	478	490	I-Process
-,	490	491	O
-with	492	496	O
-a	497	498	O
-tilt	499	503	O
-on	504	506	O
-the	507	510	O
-basal	511	516	O
-normal	517	523	O
-or	524	526	O
-c	527	528	O
-direction	529	538	O
-of	539	541	O
-±30	542	545	O
-°	545	546	O
-in	547	549	O
-the	550	553	O
-normal	554	560	O
-direction	561	570	O
-being	571	576	O
-quoted	577	583	O
-for	584	587	O
-recrystallized	588	602	B-Material
-Zircaloy-4	603	613	I-Material
-[	614	615	O
-27,28	615	620	O
-]	620	621	O
-.	621	622	O
-
-However	623	630	O
-,	630	631	O
-for	632	635	O
-simplicity	636	646	O
-the	647	650	O
-basal	651	656	O
-normal	657	663	O
-or	664	666	O
-c	667	668	O
-direction	669	678	O
-has	679	682	O
-been	683	687	O
-taken	688	693	O
-as	694	696	O
-being	697	702	O
-parallel	703	711	O
-to	712	714	O
-the	715	718	O
-normal	719	725	O
-direction	726	735	O
-.	735	736	O
-
-As	737	739	O
-such	740	744	O
-the	745	748	O
-1	749	750	O
-,	750	751	O
-2	752	753	O
-and	754	757	O
-3	758	759	O
-directions	760	770	O
-in	771	773	O
-Table	774	779	O
-1	780	781	O
-correlate	782	791	O
-with	792	796	O
-the	797	800	O
-X	801	802	O
-,	802	803	O
-Y	804	805	O
-and	806	809	O
-Z	810	811	O
-global	812	818	O
-coordinate	819	829	O
-system	830	836	O
-for	837	840	O
-the	841	844	O
-3D	845	847	B-Process
-simulations	848	859	I-Process
-,	859	860	O
-with	861	865	O
-the	866	869	O
-3	870	871	O
-direction	872	881	O
-correlating	882	893	O
-to	894	896	O
-the	897	900	O
-c	901	902	O
-direction	903	912	O
-of	913	915	O
-a	916	917	O
-zirconium	918	927	B-Material
-unit	928	932	I-Material
-lattice	933	940	I-Material
-.	940	941	O
-
-Table	942	947	O
-1	948	949	O
-also	950	954	O
-shows	955	960	O
-the	961	964	O
-elastic	965	972	O
-properties	973	983	O
-incorporated	984	996	O
-into	997	1001	O
-the	1002	1005	O
-simulations	1006	1017	B-Process
-.	1017	1018	O
-
-The	1019	1022	O
-oxide	1023	1028	B-Material
-layer	1029	1034	I-Material
-has	1035	1038	O
-been	1039	1043	O
-simulated	1044	1053	O
-as	1054	1056	O
-a	1057	1058	O
-purely	1059	1065	B-Material
-elastic	1066	1073	I-Material
-material	1074	1082	I-Material
-.	1082	1083	O
-
-Although	1084	1092	O
-it	1093	1095	O
-is	1096	1098	O
-known	1099	1104	O
-that	1105	1109	O
-the	1110	1113	O
-oxide	1114	1119	B-Material
-is	1120	1122	O
-strongly	1123	1131	O
-textured	1132	1140	O
-[	1141	1142	O
-29	1142	1144	O
-]	1144	1145	O
-,	1145	1146	O
-it	1147	1149	O
-is	1150	1152	O
-still	1153	1158	O
-simulated	1159	1168	O
-as	1169	1171	O
-a	1172	1173	O
-homogenous	1174	1184	O
-solid	1185	1190	O
-therefore	1191	1200	O
-isotropic	1201	1210	B-Task
-material	1211	1219	I-Task
-properties	1220	1230	I-Task
-have	1231	1235	O
-been	1236	1240	O
-used	1241	1245	O
-for	1246	1249	O
-the	1250	1253	O
-oxide	1254	1259	B-Material
-in	1260	1262	O
-all	1263	1266	O
-simulations	1267	1278	B-Process
-.	1278	1279	O
+The	0,3	O	O
+primary	4,11	O	O
+benefit	12,19	O	O
+of	20,22	O	O
+using	23,28	O	O
+a	29,30	O	O
+3D	31,33	O	B-Process
+model	34,39	O	I-Process
+is	40,42	O	O
+that	43,47	O	O
+it	48,50	O	O
+allows	51,57	O	O
+the	58,61	O	O
+application	62,73	O	O
+of	74,76	O	O
+anisotropic	77,88	O	B-Task
+material	89,97	O	I-Task
+properties	98,108	O	I-Task
+.	108,109	O	O
+
+As	110,112	O	O
+a	113,114	O	O
+hexagonal	115,124	O	O
+close	125,130	O	O
+packed	131,137	O	O
+lattice	138,145	O	O
+structure	146,155	O	O
+,	155,156	O	O
+a	157,158	O	O
+single	159,165	O	O
+zirconium	166,175	O	B-Material
+grain	176,181	O	I-Material
+is	182,184	O	O
+plastically	185,196	O	O
+anisotropic	197,208	O	O
+due	209,212	O	O
+to	213,215	O	O
+the	216,219	O	O
+difficulty	220,230	O	O
+of	231,233	O	O
+activating	234,244	O	O
+slip	245,249	O	O
+with	250,254	O	O
+a	255,256	O	O
+〈	257,258	O	O
+c	258,259	O	O
+〉	259,260	O	O
+component	261,270	O	O
+[	271,272	O	O
+23–26	272,277	O	O
+]	277,278	O	O
+.	278,279	O	O
+
+Abaqus	280,286	O	B-Process
+allows	287,293	O	O
+this	294,298	O	O
+to	299,301	O	O
+be	302,304	O	O
+represented	305,316	O	O
+by	317,319	O	O
+setting	320,327	O	O
+plasticity	328,338	O	B-Process
+potential	339,348	O	I-Process
+ratios	349,355	O	I-Process
+.	355,356	O	O
+
+The	357,360	O	O
+anisotropic	361,372	O	B-Material
+elastic	373,380	O	I-Material
+and	381,384	O	I-Material
+plastic	385,392	O	I-Material
+constants	393,402	O	I-Material
+are	403,406	O	O
+shown	407,412	O	O
+in	413,415	O	O
+Table	416,421	O	O
+1	422,423	O	O
+.	423,424	O	O
+
+Zirconium	425,434	O	B-Material
+alloys	435,441	O	O
+can	442,445	O	O
+often	446,451	O	O
+have	452,456	O	O
+a	457,458	O	O
+bimodal	459,466	O	B-Process
+basal	467,472	O	I-Process
+pole	473,477	O	I-Process
+distribution	478,490	O	I-Process
+,	490,491	O	O
+with	492,496	O	O
+a	497,498	O	O
+tilt	499,503	O	O
+on	504,506	O	O
+the	507,510	O	O
+basal	511,516	O	O
+normal	517,523	O	O
+or	524,526	O	O
+c	527,528	O	O
+direction	529,538	O	O
+of	539,541	O	O
+±30	542,545	O	O
+°	545,546	O	O
+in	547,549	O	O
+the	550,553	O	O
+normal	554,560	O	O
+direction	561,570	O	O
+being	571,576	O	O
+quoted	577,583	O	O
+for	584,587	O	O
+recrystallized	588,602	O	B-Material
+Zircaloy-4	603,613	O	I-Material
+[	614,615	O	O
+27,28	615,620	O	O
+]	620,621	O	O
+.	621,622	O	O
+
+However	623,630	O	O
+,	630,631	O	O
+for	632,635	O	O
+simplicity	636,646	O	O
+the	647,650	O	O
+basal	651,656	O	O
+normal	657,663	O	O
+or	664,666	O	O
+c	667,668	O	O
+direction	669,678	O	O
+has	679,682	O	O
+been	683,687	O	O
+taken	688,693	O	O
+as	694,696	O	O
+being	697,702	O	O
+parallel	703,711	O	O
+to	712,714	O	O
+the	715,718	O	O
+normal	719,725	O	O
+direction	726,735	O	O
+.	735,736	O	O
+
+As	737,739	O	O
+such	740,744	O	O
+the	745,748	O	O
+1	749,750	O	O
+,	750,751	O	O
+2	752,753	O	O
+and	754,757	O	O
+3	758,759	O	O
+directions	760,770	O	O
+in	771,773	O	O
+Table	774,779	O	O
+1	780,781	O	O
+correlate	782,791	O	O
+with	792,796	O	O
+the	797,800	O	O
+X	801,802	O	O
+,	802,803	O	O
+Y	804,805	O	O
+and	806,809	O	O
+Z	810,811	O	O
+global	812,818	O	O
+coordinate	819,829	O	O
+system	830,836	O	O
+for	837,840	O	O
+the	841,844	O	O
+3D	845,847	O	B-Process
+simulations	848,859	O	I-Process
+,	859,860	O	O
+with	861,865	O	O
+the	866,869	O	O
+3	870,871	O	O
+direction	872,881	O	O
+correlating	882,893	O	O
+to	894,896	O	O
+the	897,900	O	O
+c	901,902	O	O
+direction	903,912	O	O
+of	913,915	O	O
+a	916,917	O	O
+zirconium	918,927	O	B-Material
+unit	928,932	O	I-Material
+lattice	933,940	O	I-Material
+.	940,941	O	O
+
+Table	942,947	O	O
+1	948,949	O	O
+also	950,954	O	O
+shows	955,960	O	O
+the	961,964	O	O
+elastic	965,972	O	O
+properties	973,983	O	O
+incorporated	984,996	O	O
+into	997,1001	O	O
+the	1002,1005	O	O
+simulations	1006,1017	O	B-Process
+.	1017,1018	O	O
+
+The	1019,1022	O	O
+oxide	1023,1028	O	B-Material
+layer	1029,1034	O	I-Material
+has	1035,1038	O	O
+been	1039,1043	O	O
+simulated	1044,1053	O	O
+as	1054,1056	O	O
+a	1057,1058	O	O
+purely	1059,1065	O	B-Material
+elastic	1066,1073	O	I-Material
+material	1074,1082	O	I-Material
+.	1082,1083	O	O
+
+Although	1084,1092	O	O
+it	1093,1095	O	O
+is	1096,1098	O	O
+known	1099,1104	O	O
+that	1105,1109	O	O
+the	1110,1113	O	O
+oxide	1114,1119	O	B-Material
+is	1120,1122	O	O
+strongly	1123,1131	O	O
+textured	1132,1140	O	O
+[	1141,1142	O	O
+29	1142,1144	O	O
+]	1144,1145	O	O
+,	1145,1146	O	O
+it	1147,1149	O	O
+is	1150,1152	O	O
+still	1153,1158	O	O
+simulated	1159,1168	O	O
+as	1169,1171	O	O
+a	1172,1173	O	O
+homogenous	1174,1184	O	O
+solid	1185,1190	O	O
+therefore	1191,1200	O	O
+isotropic	1201,1210	O	B-Task
+material	1211,1219	O	I-Task
+properties	1220,1230	O	I-Task
+have	1231,1235	O	O
+been	1236,1240	O	O
+used	1241,1245	O	O
+for	1246,1249	O	O
+the	1250,1253	O	O
+oxide	1254,1259	O	B-Material
+in	1260,1262	O	O
+all	1263,1266	O	O
+simulations	1267,1278	O	B-Process
+.	1278,1279	O	O
 
 
 -DOCSTART- (S0022311515300295)
 
-Zirconium	0	9	B-Material
-alloys	10	16	I-Material
-are	17	20	O
-commonly	21	29	O
-used	30	34	O
-as	35	37	O
-the	38	41	O
-fuel	42	46	B-Material
-cladding	47	55	I-Material
-for	56	59	O
-water	60	65	B-Material
-cooled	66	72	I-Material
-nuclear	73	80	I-Material
-fission	81	88	I-Material
-reactors	89	97	I-Material
-,	97	98	O
-mainly	99	105	O
-due	106	109	O
-to	110	112	O
-their	113	118	O
-low	119	122	O
-neutron	123	130	O
-cross	131	136	O
--	136	137	O
-section	137	144	O
-,	144	145	O
-good	146	150	O
-corrosion	151	160	O
-resistance	161	171	O
-during	172	178	O
-normal	179	185	O
-operating	186	195	O
-conditions	196	206	O
-and	207	210	O
-sufficient	211	221	O
-mechanical	222	232	O
-strength	233	241	O
-[	242	243	O
-1	243	244	O
-]	244	245	O
-.	245	246	O
-
-Despite	247	254	O
-high	255	259	O
-corrosion	260	269	O
-resistance	270	280	O
-at	281	283	O
-normal	284	290	O
-operating	291	300	O
-temperatures	301	313	O
-(	314	315	O
-around	315	321	O
-300	322	325	O
-°	326	327	O
-C	327	328	O
-)	328	329	O
-
-[	330	331	O
-2	331	332	O
-]	332	333	O
-,	333	334	O
-Zr	335	337	B-Material
-alloys	338	344	I-Material
-oxidise	345	352	B-Process
-very	353	357	O
-rapidly	358	365	O
-when	366	370	O
-exposed	371	378	O
-to	379	381	O
-temperatures	382	394	O
-a	395	396	O
-few	397	400	O
-hundred	401	408	O
-degrees	409	416	O
-higher	417	423	O
-.	423	424	O
-
-This	425	429	O
-is	430	432	O
-an	433	435	O
-exothermic	436	446	B-Process
-reaction	447	455	I-Process
-,	455	456	O
-which	457	462	O
-can	463	466	O
-further	467	474	O
-accelerate	475	485	O
-oxidation	486	495	B-Process
-and	496	499	O
-,	499	500	O
-at	501	503	O
-temperatures	504	516	O
-beyond	517	523	O
-1000	524	528	O
-°	529	530	O
-C	530	531	O
-,	531	532	O
-potentially	533	544	O
-lead	545	549	O
-to	550	552	O
-disintegration	553	567	B-Process
-of	568	570	I-Process
-the	571	574	I-Process
-fuel	575	579	I-Process
-rods	580	584	I-Process
-,	584	585	O
-as	586	588	O
-highlighted	589	600	O
-during	601	607	O
-the	608	611	O
-Fukushima	612	621	O
-Daiichi	622	629	O
-nuclear	630	637	O
-accident	638	646	O
-.	646	647	O
-
-For	648	651	O
-this	652	656	O
-reason	657	663	O
-new	664	667	O
-research	668	676	O
-activities	677	687	O
-have	688	692	O
-been	693	697	O
-initiated	698	707	O
-worldwide	708	717	O
-to	718	720	O
-develop	721	728	B-Task
-accident	729	737	I-Task
-tolerant	738	746	I-Task
-fuels	747	752	I-Task
-(	753	754	O
-ATF	754	757	B-Material
-)	757	758	O
-.	758	759	O
-
-Additionally	760	772	O
-,	772	773	O
-ATFs	774	778	B-Material
-could	779	784	O
-also	785	789	O
-provide	790	797	O
-further	798	805	O
-enhancements	806	818	B-Task
-in	819	821	I-Task
-corrosion	822	831	I-Task
-performance	832	843	I-Task
-during	844	850	O
-normal	851	857	O
-operating	858	867	O
-conditions	868	878	O
-enabling	879	887	O
-the	888	891	O
-development	892	903	B-Task
-of	904	906	I-Task
-fuel	907	911	I-Task
-assemblies	912	922	I-Task
-for	923	926	O
-very	927	931	O
-high	932	936	O
-burn	937	941	O
--	941	942	O
-up	942	944	O
-.	944	945	O
+Zirconium	0,9	O	B-Material
+alloys	10,16	O	I-Material
+are	17,20	O	O
+commonly	21,29	O	O
+used	30,34	O	O
+as	35,37	O	O
+the	38,41	O	O
+fuel	42,46	O	B-Material
+cladding	47,55	O	I-Material
+for	56,59	O	O
+water	60,65	O	B-Material
+cooled	66,72	O	I-Material
+nuclear	73,80	O	I-Material
+fission	81,88	O	I-Material
+reactors	89,97	O	I-Material
+,	97,98	O	O
+mainly	99,105	O	O
+due	106,109	O	O
+to	110,112	O	O
+their	113,118	O	O
+low	119,122	O	O
+neutron	123,130	O	O
+cross	131,136	O	O
+-	136,137	O	O
+section	137,144	O	O
+,	144,145	O	O
+good	146,150	O	O
+corrosion	151,160	O	O
+resistance	161,171	O	O
+during	172,178	O	O
+normal	179,185	O	O
+operating	186,195	O	O
+conditions	196,206	O	O
+and	207,210	O	O
+sufficient	211,221	O	O
+mechanical	222,232	O	O
+strength	233,241	O	O
+[	242,243	O	O
+1	243,244	O	O
+]	244,245	O	O
+.	245,246	O	O
+
+Despite	247,254	O	O
+high	255,259	O	O
+corrosion	260,269	O	O
+resistance	270,280	O	O
+at	281,283	O	O
+normal	284,290	O	O
+operating	291,300	O	O
+temperatures	301,313	O	O
+(	314,315	O	O
+around	315,321	O	O
+300	322,325	O	O
+°	326,327	O	O
+C	327,328	O	O
+)	328,329	O	O
+
+[	330,331	O	O
+2	331,332	O	O
+]	332,333	O	O
+,	333,334	O	O
+Zr	335,337	O	B-Material
+alloys	338,344	O	I-Material
+oxidise	345,352	O	B-Process
+very	353,357	O	O
+rapidly	358,365	O	O
+when	366,370	O	O
+exposed	371,378	O	O
+to	379,381	O	O
+temperatures	382,394	O	O
+a	395,396	O	O
+few	397,400	O	O
+hundred	401,408	O	O
+degrees	409,416	O	O
+higher	417,423	O	O
+.	423,424	O	O
+
+This	425,429	O	O
+is	430,432	O	O
+an	433,435	O	O
+exothermic	436,446	O	B-Process
+reaction	447,455	O	I-Process
+,	455,456	O	O
+which	457,462	O	O
+can	463,466	O	O
+further	467,474	O	O
+accelerate	475,485	O	O
+oxidation	486,495	O	B-Process
+and	496,499	O	O
+,	499,500	O	O
+at	501,503	O	O
+temperatures	504,516	O	O
+beyond	517,523	O	O
+1000	524,528	O	O
+°	529,530	O	O
+C	530,531	O	O
+,	531,532	O	O
+potentially	533,544	O	O
+lead	545,549	O	O
+to	550,552	O	O
+disintegration	553,567	O	B-Process
+of	568,570	O	I-Process
+the	571,574	O	I-Process
+fuel	575,579	O	I-Process
+rods	580,584	O	I-Process
+,	584,585	O	O
+as	586,588	O	O
+highlighted	589,600	O	O
+during	601,607	O	O
+the	608,611	O	O
+Fukushima	612,621	O	O
+Daiichi	622,629	O	O
+nuclear	630,637	O	O
+accident	638,646	O	O
+.	646,647	O	O
+
+For	648,651	O	O
+this	652,656	O	O
+reason	657,663	O	O
+new	664,667	O	O
+research	668,676	O	O
+activities	677,687	O	O
+have	688,692	O	O
+been	693,697	O	O
+initiated	698,707	O	O
+worldwide	708,717	O	O
+to	718,720	O	O
+develop	721,728	O	B-Task
+accident	729,737	O	I-Task
+tolerant	738,746	O	I-Task
+fuels	747,752	O	I-Task
+(	753,754	O	O
+ATF	754,757	O	B-Material
+)	757,758	O	O
+.	758,759	O	O
+
+Additionally	760,772	O	O
+,	772,773	O	O
+ATFs	774,778	O	B-Material
+could	779,784	O	O
+also	785,789	O	O
+provide	790,797	O	O
+further	798,805	O	O
+enhancements	806,818	O	B-Task
+in	819,821	O	I-Task
+corrosion	822,831	O	I-Task
+performance	832,843	O	I-Task
+during	844,850	O	O
+normal	851,857	O	O
+operating	858,867	O	O
+conditions	868,878	O	O
+enabling	879,887	O	O
+the	888,891	O	O
+development	892,903	O	B-Task
+of	904,906	O	I-Task
+fuel	907,911	O	I-Task
+assemblies	912,922	O	I-Task
+for	923,926	O	O
+very	927,931	O	O
+high	932,936	O	O
+burn	937,941	O	O
+-	941,942	O	O
+up	942,944	O	O
+.	944,945	O	O
 
 
 -DOCSTART- (S0022311515300477)
 
-In	0	2	O
-all	3	6	O
-these	7	12	O
-studies	13	20	O
-,	20	21	O
-the	22	25	O
-association	26	37	O
-between	38	45	O
-the	46	49	O
-transition	50	60	O
-and	61	64	O
-lateral	65	72	O
-cracking	73	81	O
-in	82	84	O
-the	85	88	O
-oxide	89	94	B-Material
-layer	95	100	I-Material
-depicts	101	108	O
-some	109	113	O
-interaction	114	125	O
-between	126	133	O
-the	134	137	O
-mechanical	138	148	O
-behaviour	149	158	O
-of	159	161	O
-the	162	165	O
-system	166	172	O
-,	172	173	O
-and	174	177	O
-its	178	181	O
-corrosion	182	191	O
-kinetics	192	200	O
-,	200	201	O
-but	202	205	O
-does	206	210	O
-not	211	214	O
-provide	215	222	O
-a	223	224	O
-clear	225	230	O
-understanding	231	244	B-Task
-of	245	247	I-Task
-the	248	251	I-Task
-morphology	252	262	I-Task
-of	263	265	I-Task
-the	266	269	I-Task
-metal	270	275	I-Task
-:	275	276	I-Task
-oxide	276	281	I-Task
-interface	282	291	I-Task
-during	292	298	O
-the	299	302	O
-corrosion	303	312	B-Process
-process	313	320	I-Process
-,	320	321	O
-at	322	324	O
-the	325	328	O
-nanometre	329	338	O
-level	339	344	O
-.	344	345	O
-
-Understanding	346	359	B-Task
-why	360	363	I-Task
-this	364	368	I-Task
-transition	369	379	I-Task
-behaviour	380	389	I-Task
-happens	390	397	I-Task
-is	398	400	O
-critical	401	409	O
-when	410	414	O
-modelling	415	424	B-Task
-the	425	428	I-Task
-rate	429	433	I-Task
-of	434	436	I-Task
-growth	437	443	I-Task
-of	444	446	I-Task
-oxide	447	452	I-Task
-,	452	453	O
-and	454	457	O
-therefore	458	467	O
-to	468	470	O
-the	471	474	O
-lifetime	475	483	O
-prediction	484	494	O
-of	495	497	O
-Zr	498	500	B-Material
-clads	501	506	I-Material
-,	506	507	O
-and	508	511	O
-ultimately	512	522	O
-to	523	525	O
-the	526	529	O
-safety	530	536	O
-of	537	539	O
-nuclear	540	547	B-Material
-power	548	553	I-Material
-reactors	554	562	I-Material
-.	562	563	O
-
-No	564	566	O
-model	567	572	O
-will	573	577	O
-be	578	580	O
-complete	581	589	O
-without	590	597	O
-a	598	599	O
-nanoscale	600	609	O
-understanding	610	623	B-Task
-of	624	626	I-Task
-what	627	631	I-Task
-is	632	634	I-Task
-going	635	640	I-Task
-on	641	643	I-Task
-during	644	650	I-Task
-oxidation	651	660	I-Task
-.	660	661	O
-
-Thus	662	666	O
-,	666	667	O
-it	668	670	O
-is	671	673	O
-essential	674	683	O
-that	684	688	O
-the	689	692	O
-oxide	693	698	B-Material
-scale	699	704	I-Material
-and	705	708	O
-the	709	712	O
-top	713	716	B-Material
-layers	717	723	I-Material
-of	724	726	I-Material
-the	727	730	I-Material
-metal	731	736	I-Material
-are	737	740	O
-studied	741	748	O
-at	749	751	O
-nanometre	752	761	O
-resolution	762	772	O
-to	773	775	O
-reveal	776	782	O
-the	783	786	O
-detailed	787	795	O
-structural	796	806	B-Process
-and	807	810	I-Process
-chemical	811	819	I-Process
-changes	820	827	I-Process
-associated	828	838	O
-with	839	843	O
-diffusion	844	853	B-Process
-of	854	856	I-Process
-oxygen	857	863	I-Process
-and	864	867	O
-the	868	871	O
-resulting	872	881	O
-oxidation	882	891	B-Process
-of	892	894	I-Process
-the	895	898	I-Process
-metal	899	904	I-Process
-.	904	905	O
-
-Whilst	906	912	O
-a	913	914	O
-number	915	921	O
-of	922	924	O
-techniques	925	935	O
-have	936	940	O
-been	941	945	O
-employed	946	954	O
-for	955	958	O
-this	959	963	O
-purpose	964	971	O
-,	971	972	O
-it	973	975	O
-is	976	978	O
-clear	979	984	O
-that	985	989	O
-various	990	997	O
-techniques	998	1008	O
-within	1009	1015	O
-transmission	1016	1028	B-Process
-electron	1029	1037	I-Process
-microscopy	1038	1048	I-Process
-(	1049	1050	O
-TEM	1050	1053	B-Process
-)	1053	1054	O
-will	1055	1059	O
-be	1060	1062	O
-among	1063	1068	O
-the	1069	1072	O
-most	1073	1077	O
-versatile	1078	1087	O
-and	1088	1091	O
-informative	1092	1103	O
-for	1104	1107	O
-this	1108	1112	O
-purpose	1113	1120	O
-,	1120	1121	O
-although	1122	1130	O
-additional	1131	1141	O
-information	1142	1153	O
-can	1154	1157	O
-be	1158	1160	O
-added	1161	1166	O
-by	1167	1169	O
-techniques	1170	1180	O
-such	1181	1185	O
-as	1186	1188	O
-atom	1189	1193	B-Process
-probe	1194	1199	I-Process
-tomography	1200	1210	I-Process
-.	1210	1211	O
+In	0,2	O	O
+all	3,6	O	O
+these	7,12	O	O
+studies	13,20	O	O
+,	20,21	O	O
+the	22,25	O	O
+association	26,37	O	O
+between	38,45	O	O
+the	46,49	O	O
+transition	50,60	O	O
+and	61,64	O	O
+lateral	65,72	O	O
+cracking	73,81	O	O
+in	82,84	O	O
+the	85,88	O	O
+oxide	89,94	O	B-Material
+layer	95,100	O	I-Material
+depicts	101,108	O	O
+some	109,113	O	O
+interaction	114,125	O	O
+between	126,133	O	O
+the	134,137	O	O
+mechanical	138,148	O	O
+behaviour	149,158	O	O
+of	159,161	O	O
+the	162,165	O	O
+system	166,172	O	O
+,	172,173	O	O
+and	174,177	O	O
+its	178,181	O	O
+corrosion	182,191	O	O
+kinetics	192,200	O	O
+,	200,201	O	O
+but	202,205	O	O
+does	206,210	O	O
+not	211,214	O	O
+provide	215,222	O	O
+a	223,224	O	O
+clear	225,230	O	O
+understanding	231,244	O	B-Task
+of	245,247	O	I-Task
+the	248,251	O	I-Task
+morphology	252,262	O	I-Task
+of	263,265	O	I-Task
+the	266,269	O	I-Task
+metal	270,275	O	I-Task
+:	275,276	O	I-Task
+oxide	276,281	O	I-Task
+interface	282,291	O	I-Task
+during	292,298	O	O
+the	299,302	O	O
+corrosion	303,312	O	B-Process
+process	313,320	O	I-Process
+,	320,321	O	O
+at	322,324	O	O
+the	325,328	O	O
+nanometre	329,338	O	O
+level	339,344	O	O
+.	344,345	O	O
+
+Understanding	346,359	O	B-Task
+why	360,363	O	I-Task
+this	364,368	O	I-Task
+transition	369,379	O	I-Task
+behaviour	380,389	O	I-Task
+happens	390,397	O	I-Task
+is	398,400	O	O
+critical	401,409	O	O
+when	410,414	O	O
+modelling	415,424	O	B-Task
+the	425,428	O	I-Task
+rate	429,433	O	I-Task
+of	434,436	O	I-Task
+growth	437,443	O	I-Task
+of	444,446	O	I-Task
+oxide	447,452	O	I-Task
+,	452,453	O	O
+and	454,457	O	O
+therefore	458,467	O	O
+to	468,470	O	O
+the	471,474	O	O
+lifetime	475,483	O	O
+prediction	484,494	O	O
+of	495,497	O	O
+Zr	498,500	O	B-Material
+clads	501,506	O	I-Material
+,	506,507	O	O
+and	508,511	O	O
+ultimately	512,522	O	O
+to	523,525	O	O
+the	526,529	O	O
+safety	530,536	O	O
+of	537,539	O	O
+nuclear	540,547	O	B-Material
+power	548,553	O	I-Material
+reactors	554,562	O	I-Material
+.	562,563	O	O
+
+No	564,566	O	O
+model	567,572	O	O
+will	573,577	O	O
+be	578,580	O	O
+complete	581,589	O	O
+without	590,597	O	O
+a	598,599	O	O
+nanoscale	600,609	O	O
+understanding	610,623	O	B-Task
+of	624,626	O	I-Task
+what	627,631	O	I-Task
+is	632,634	O	I-Task
+going	635,640	O	I-Task
+on	641,643	O	I-Task
+during	644,650	O	I-Task
+oxidation	651,660	O	I-Task
+.	660,661	O	O
+
+Thus	662,666	O	O
+,	666,667	O	O
+it	668,670	O	O
+is	671,673	O	O
+essential	674,683	O	O
+that	684,688	O	O
+the	689,692	O	O
+oxide	693,698	O	B-Material
+scale	699,704	O	I-Material
+and	705,708	O	O
+the	709,712	O	O
+top	713,716	O	B-Material
+layers	717,723	O	I-Material
+of	724,726	O	I-Material
+the	727,730	O	I-Material
+metal	731,736	O	I-Material
+are	737,740	O	O
+studied	741,748	O	O
+at	749,751	O	O
+nanometre	752,761	O	O
+resolution	762,772	O	O
+to	773,775	O	O
+reveal	776,782	O	O
+the	783,786	O	O
+detailed	787,795	O	O
+structural	796,806	O	B-Process
+and	807,810	O	I-Process
+chemical	811,819	O	I-Process
+changes	820,827	O	I-Process
+associated	828,838	O	O
+with	839,843	O	O
+diffusion	844,853	O	B-Process
+of	854,856	O	I-Process
+oxygen	857,863	O	I-Process
+and	864,867	O	O
+the	868,871	O	O
+resulting	872,881	O	O
+oxidation	882,891	O	B-Process
+of	892,894	O	I-Process
+the	895,898	O	I-Process
+metal	899,904	O	I-Process
+.	904,905	O	O
+
+Whilst	906,912	O	O
+a	913,914	O	O
+number	915,921	O	O
+of	922,924	O	O
+techniques	925,935	O	O
+have	936,940	O	O
+been	941,945	O	O
+employed	946,954	O	O
+for	955,958	O	O
+this	959,963	O	O
+purpose	964,971	O	O
+,	971,972	O	O
+it	973,975	O	O
+is	976,978	O	O
+clear	979,984	O	O
+that	985,989	O	O
+various	990,997	O	O
+techniques	998,1008	O	O
+within	1009,1015	O	O
+transmission	1016,1028	O	B-Process
+electron	1029,1037	O	I-Process
+microscopy	1038,1048	O	I-Process
+(	1049,1050	O	O
+TEM	1050,1053	O	B-Process
+)	1053,1054	O	O
+will	1055,1059	O	O
+be	1060,1062	O	O
+among	1063,1068	O	O
+the	1069,1072	O	O
+most	1073,1077	O	O
+versatile	1078,1087	O	O
+and	1088,1091	O	O
+informative	1092,1103	O	O
+for	1104,1107	O	O
+this	1108,1112	O	O
+purpose	1113,1120	O	O
+,	1120,1121	O	O
+although	1122,1130	O	O
+additional	1131,1141	O	O
+information	1142,1153	O	O
+can	1154,1157	O	O
+be	1158,1160	O	O
+added	1161,1166	O	O
+by	1167,1169	O	O
+techniques	1170,1180	O	O
+such	1181,1185	O	O
+as	1186,1188	O	O
+atom	1189,1193	O	B-Process
+probe	1194,1199	O	I-Process
+tomography	1200,1210	O	I-Process
+.	1210,1211	O	O
 
 
 -DOCSTART- (S0022311515300830)
 
-Solid	0	5	B-Material
-pieces	6	12	I-Material
-of	13	15	O
-23–114	16	22	O
-mg	23	25	O
-were	26	30	O
-further	31	38	O
-used	39	43	O
-to	44	46	O
-measure	47	54	B-Process
-the	55	58	I-Process
-enthalpy	59	67	I-Process
-increments	68	78	I-Process
-using	79	84	O
-a	85	86	O
-Setaram	87	94	B-Process
-Multi	95	100	I-Process
--	100	101	I-Process
-detector	101	109	I-Process
-High	110	114	I-Process
-Temperature	115	126	I-Process
-Calorimeter	127	138	I-Process
-(	139	140	O
-MDHTC-96	140	148	B-Process
-)	148	149	O
-using	150	155	O
-a	156	157	O
-drop	158	162	B-Process
-detector	163	171	I-Process
-.	171	172	O
-
-For	173	176	O
-more	177	181	O
-details	182	189	O
-about	190	195	O
-the	196	199	O
-technique	200	209	O
-we	210	212	O
-refer	213	218	O
-to	219	221	O
-our	222	225	O
-previous	226	234	O
-studies	235	242	O
-[	243	244	O
-9,10	244	248	O
-]	248	249	O
-.	249	250	O
-
-The	251	254	O
-measurements	255	267	O
-were	268	272	O
-carried	273	280	O
-out	281	284	O
-under	285	290	O
-an	291	293	O
-argon	294	299	B-Material
-atmosphere	300	310	O
-(	311	312	O
-with	312	316	O
-an	317	319	O
-oxygen	320	326	B-Material
-content	327	334	O
-of	335	337	O
-7	338	339	O
-ppm	340	343	O
-)	343	344	O
-,	344	345	O
-using	346	351	O
-pure	352	356	O
-platinum	357	365	B-Material
-ingots	366	372	I-Material
-(	373	374	O
-64–144	374	380	O
-mg	381	383	O
-)	383	384	O
-of	385	387	O
-99.95	388	393	O
-at	394	396	O
-%	397	398	O
-purity	399	405	O
-as	406	408	O
-a	409	410	O
-reference	411	420	B-Material
-material	421	429	I-Material
-.	429	430	O
-
-The	431	434	O
-temperature	435	446	O
-range	447	452	O
-of	453	455	O
-the	456	459	O
-experiment	460	470	O
-was	471	474	O
-from	475	479	O
-430.3	480	485	O
-K	486	487	O
-to	488	490	O
-1088.8	491	497	O
-K	498	499	O
-using	500	505	O
-steps	506	511	O
-of	512	514	O
-50	515	517	O
-
-K.	518	520	O
-Each	521	525	O
-isothermal	526	536	B-Process
-run	537	540	I-Process
-consisted	541	550	O
-of	551	553	O
-2–4	554	557	B-Material
-drops	558	563	I-Material
-of	564	566	I-Material
-Bi2UO6	567	573	I-Material
-samples	574	581	I-Material
-,	581	582	O
-each	583	587	O
-surrounded	588	598	O
-by	599	601	O
-two	602	605	O
-drops	606	611	O
-of	612	614	O
-platinum	615	623	B-Material
-from	624	628	O
-which	629	634	O
-the	635	638	O
-sensitivity	639	650	O
-of	651	653	O
-the	654	657	O
-device	658	664	O
-was	665	668	O
-determined	669	679	O
-.	679	680	O
-
-The	681	684	O
-drops	685	690	O
-were	691	695	O
-separated	696	705	O
-by	706	708	O
-time	709	713	O
-intervals	714	723	O
-of	724	726	O
-20	727	729	O
-min	730	733	O
-,	733	734	O
-long	735	739	O
-enough	740	746	O
-to	747	749	O
-re	750	752	O
--	752	753	O
-stabilize	753	762	O
-the	763	766	O
-monitored	767	776	O
-heat	777	781	B-Process
-flow	782	786	I-Process
-signal	787	793	O
-.	793	794	O
-
-Background	795	805	B-Process
-subtraction	806	817	I-Process
-and	818	821	I-Process
-peak	822	826	I-Process
-integration	827	838	I-Process
-were	839	843	O
-performed	844	853	O
-using	854	859	O
-commercially	860	872	B-Material
-available	873	882	I-Material
-software	883	891	I-Material
-for	892	895	I-Material
-data	896	900	I-Material
-processing	901	911	I-Material
-.	911	912	O
-
-The	913	916	O
-reported	917	925	O
-temperatures	926	938	O
-were	939	943	O
-corrected	944	953	B-Process
-in	954	956	O
-accordance	957	967	O
-with	968	972	O
-the	973	976	O
-calibration	977	988	O
-curve	989	994	O
-obtained	995	1003	O
-prior	1004	1009	O
-to	1010	1012	O
-measurement	1013	1024	O
-using	1025	1030	O
-several	1031	1038	O
-high	1039	1043	B-Material
-purity	1044	1050	I-Material
-standard	1051	1059	I-Material
-metals	1060	1066	I-Material
-(	1067	1068	O
-Sn	1068	1070	B-Material
-,	1070	1071	O
-Pb	1072	1074	B-Material
-,	1074	1075	O
-Zn	1076	1078	B-Material
-,	1078	1079	O
-Al	1080	1082	B-Material
-,	1082	1083	O
-Ag	1084	1086	B-Material
-,	1086	1087	O
-Ni	1088	1090	B-Material
-)	1090	1091	O
-with	1092	1096	O
-various	1097	1104	O
-melting	1105	1112	O
-temperatures	1113	1125	O
-in	1126	1128	O
-order	1129	1134	O
-to	1135	1137	O
-cover	1138	1143	O
-the	1144	1147	O
-whole	1148	1153	O
-temperature	1154	1165	O
-range	1166	1171	O
-of	1172	1174	O
-the	1175	1178	O
-measurement	1179	1190	O
-.	1190	1191	O
-
-After	1192	1197	O
-drop	1198	1202	O
-calorimetric	1203	1215	B-Process
-measurements	1216	1228	I-Process
-at	1229	1231	O
-the	1232	1235	O
-maximum	1236	1243	O
-considered	1244	1254	O
-temperature	1255	1266	O
-,	1266	1267	O
-the	1268	1271	O
-material	1272	1280	O
-was	1281	1284	O
-subjected	1285	1294	O
-to	1295	1297	O
-a	1298	1299	O
-new	1300	1303	O
-XRD	1304	1307	B-Process
-measurement	1308	1319	O
-,	1319	1320	O
-confirming	1321	1331	O
-the	1332	1335	O
-stability	1336	1345	O
-of	1346	1348	O
-the	1349	1352	O
-compound	1353	1361	B-Material
-under	1362	1367	O
-the	1368	1371	O
-experimental	1372	1384	O
-conditions	1385	1395	O
-.	1395	1396	O
+Solid	0,5	O	B-Material
+pieces	6,12	O	I-Material
+of	13,15	O	O
+23–114	16,22	O	O
+mg	23,25	O	O
+were	26,30	O	O
+further	31,38	O	O
+used	39,43	O	O
+to	44,46	O	O
+measure	47,54	O	B-Process
+the	55,58	O	I-Process
+enthalpy	59,67	O	I-Process
+increments	68,78	O	I-Process
+using	79,84	O	O
+a	85,86	O	O
+Setaram	87,94	O	B-Process
+Multi	95,100	O	I-Process
+-	100,101	O	I-Process
+detector	101,109	O	I-Process
+High	110,114	O	I-Process
+Temperature	115,126	O	I-Process
+Calorimeter	127,138	O	I-Process
+(	139,140	O	O
+MDHTC-96	140,148	O	B-Process
+)	148,149	O	O
+using	150,155	O	O
+a	156,157	O	O
+drop	158,162	O	B-Process
+detector	163,171	O	I-Process
+.	171,172	O	O
+
+For	173,176	O	O
+more	177,181	O	O
+details	182,189	O	O
+about	190,195	O	O
+the	196,199	O	O
+technique	200,209	O	O
+we	210,212	O	O
+refer	213,218	O	O
+to	219,221	O	O
+our	222,225	O	O
+previous	226,234	O	O
+studies	235,242	O	O
+[	243,244	O	O
+9,10	244,248	O	O
+]	248,249	O	O
+.	249,250	O	O
+
+The	251,254	O	O
+measurements	255,267	O	O
+were	268,272	O	O
+carried	273,280	O	O
+out	281,284	O	O
+under	285,290	O	O
+an	291,293	O	O
+argon	294,299	O	B-Material
+atmosphere	300,310	O	O
+(	311,312	O	O
+with	312,316	O	O
+an	317,319	O	O
+oxygen	320,326	O	B-Material
+content	327,334	O	O
+of	335,337	O	O
+7	338,339	O	O
+ppm	340,343	O	O
+)	343,344	O	O
+,	344,345	O	O
+using	346,351	O	O
+pure	352,356	O	O
+platinum	357,365	O	B-Material
+ingots	366,372	O	I-Material
+(	373,374	O	O
+64–144	374,380	O	O
+mg	381,383	O	O
+)	383,384	O	O
+of	385,387	O	O
+99.95	388,393	O	O
+at	394,396	O	O
+%	397,398	O	O
+purity	399,405	O	O
+as	406,408	O	O
+a	409,410	O	O
+reference	411,420	O	B-Material
+material	421,429	O	I-Material
+.	429,430	O	O
+
+The	431,434	O	O
+temperature	435,446	O	O
+range	447,452	O	O
+of	453,455	O	O
+the	456,459	O	O
+experiment	460,470	O	O
+was	471,474	O	O
+from	475,479	O	O
+430.3	480,485	O	O
+K	486,487	O	O
+to	488,490	O	O
+1088.8	491,497	O	O
+K	498,499	O	O
+using	500,505	O	O
+steps	506,511	O	O
+of	512,514	O	O
+50	515,517	O	O
+
+K.	518,520	O	O
+Each	521,525	O	O
+isothermal	526,536	O	B-Process
+run	537,540	O	I-Process
+consisted	541,550	O	O
+of	551,553	O	O
+2–4	554,557	O	B-Material
+drops	558,563	O	I-Material
+of	564,566	O	I-Material
+Bi2UO6	567,573	O	I-Material
+samples	574,581	O	I-Material
+,	581,582	O	O
+each	583,587	O	O
+surrounded	588,598	O	O
+by	599,601	O	O
+two	602,605	O	O
+drops	606,611	O	O
+of	612,614	O	O
+platinum	615,623	O	B-Material
+from	624,628	O	O
+which	629,634	O	O
+the	635,638	O	O
+sensitivity	639,650	O	O
+of	651,653	O	O
+the	654,657	O	O
+device	658,664	O	O
+was	665,668	O	O
+determined	669,679	O	O
+.	679,680	O	O
+
+The	681,684	O	O
+drops	685,690	O	O
+were	691,695	O	O
+separated	696,705	O	O
+by	706,708	O	O
+time	709,713	O	O
+intervals	714,723	O	O
+of	724,726	O	O
+20	727,729	O	O
+min	730,733	O	O
+,	733,734	O	O
+long	735,739	O	O
+enough	740,746	O	O
+to	747,749	O	O
+re	750,752	O	O
+-	752,753	O	O
+stabilize	753,762	O	O
+the	763,766	O	O
+monitored	767,776	O	O
+heat	777,781	O	B-Process
+flow	782,786	O	I-Process
+signal	787,793	O	O
+.	793,794	O	O
+
+Background	795,805	O	B-Process
+subtraction	806,817	O	I-Process
+and	818,821	O	I-Process
+peak	822,826	O	I-Process
+integration	827,838	O	I-Process
+were	839,843	O	O
+performed	844,853	O	O
+using	854,859	O	O
+commercially	860,872	O	B-Material
+available	873,882	O	I-Material
+software	883,891	O	I-Material
+for	892,895	O	I-Material
+data	896,900	O	I-Material
+processing	901,911	O	I-Material
+.	911,912	O	O
+
+The	913,916	O	O
+reported	917,925	O	O
+temperatures	926,938	O	O
+were	939,943	O	O
+corrected	944,953	O	B-Process
+in	954,956	O	O
+accordance	957,967	O	O
+with	968,972	O	O
+the	973,976	O	O
+calibration	977,988	O	O
+curve	989,994	O	O
+obtained	995,1003	O	O
+prior	1004,1009	O	O
+to	1010,1012	O	O
+measurement	1013,1024	O	O
+using	1025,1030	O	O
+several	1031,1038	O	O
+high	1039,1043	O	B-Material
+purity	1044,1050	O	I-Material
+standard	1051,1059	O	I-Material
+metals	1060,1066	O	I-Material
+(	1067,1068	O	O
+Sn	1068,1070	O	B-Material
+,	1070,1071	O	O
+Pb	1072,1074	O	B-Material
+,	1074,1075	O	O
+Zn	1076,1078	O	B-Material
+,	1078,1079	O	O
+Al	1080,1082	O	B-Material
+,	1082,1083	O	O
+Ag	1084,1086	O	B-Material
+,	1086,1087	O	O
+Ni	1088,1090	O	B-Material
+)	1090,1091	O	O
+with	1092,1096	O	O
+various	1097,1104	O	O
+melting	1105,1112	O	O
+temperatures	1113,1125	O	O
+in	1126,1128	O	O
+order	1129,1134	O	O
+to	1135,1137	O	O
+cover	1138,1143	O	O
+the	1144,1147	O	O
+whole	1148,1153	O	O
+temperature	1154,1165	O	O
+range	1166,1171	O	O
+of	1172,1174	O	O
+the	1175,1178	O	O
+measurement	1179,1190	O	O
+.	1190,1191	O	O
+
+After	1192,1197	O	O
+drop	1198,1202	O	O
+calorimetric	1203,1215	O	B-Process
+measurements	1216,1228	O	I-Process
+at	1229,1231	O	O
+the	1232,1235	O	O
+maximum	1236,1243	O	O
+considered	1244,1254	O	O
+temperature	1255,1266	O	O
+,	1266,1267	O	O
+the	1268,1271	O	O
+material	1272,1280	O	O
+was	1281,1284	O	O
+subjected	1285,1294	O	O
+to	1295,1297	O	O
+a	1298,1299	O	O
+new	1300,1303	O	O
+XRD	1304,1307	O	B-Process
+measurement	1308,1319	O	O
+,	1319,1320	O	O
+confirming	1321,1331	O	O
+the	1332,1335	O	O
+stability	1336,1345	O	O
+of	1346,1348	O	O
+the	1349,1352	O	O
+compound	1353,1361	O	B-Material
+under	1362,1367	O	O
+the	1368,1371	O	O
+experimental	1372,1384	O	O
+conditions	1385,1395	O	O
+.	1395,1396	O	O
 
 
 -DOCSTART- (S0022311515301069)
 
-The	0	3	O
-fluence	4	11	B-Task
-of	12	14	I-Task
-each	15	19	I-Task
-capsule	20	27	I-Task
-was	28	31	O
-determined	32	42	O
-by	43	45	O
-using	46	51	O
-activation	52	62	B-Material
-monitor	63	70	I-Material
-sets	71	75	I-Material
-.	75	76	I-Material
-
-These	77	82	O
-monitor	83	90	B-Material
-sets	91	95	I-Material
-consist	96	103	O
-of	104	106	O
-different	107	116	O
-metal	117	122	B-Material
-wire	123	127	I-Material
-pieces	128	134	I-Material
-that	135	139	O
-have	140	144	O
-an	145	147	O
-activation	148	158	O
-reaction	159	167	O
-at	168	170	O
-a	171	172	O
-specific	173	181	O
-energy	182	188	O
-range	189	194	O
-.	194	195	O
-
-The	196	199	O
-different	200	209	O
-activation	210	220	O
-energies	221	229	O
-are	230	233	O
-chosen	234	240	O
-in	241	243	O
-such	244	248	O
-a	249	250	O
-way	251	254	O
-that	255	259	O
-the	260	263	O
-spectrum	264	272	O
-can	273	276	O
-be	277	279	O
-reconstructed	280	293	O
-.	293	294	O
-
-In	295	297	O
-BODEX	298	303	O
-,	303	304	O
-each	305	309	O
-capsule	310	317	B-Material
-contained	318	327	O
-a	328	329	O
-flux	330	334	B-Material
-monitor	335	342	I-Material
-set	343	346	I-Material
-on	347	349	O
-the	350	353	O
-‘	354	355	O
-back	355	359	O
-side’	360	365	O
-(	366	367	O
-as	367	369	O
-seen	370	374	O
-from	375	379	O
-the	380	383	O
-core	384	388	O
-)	388	389	O
-and	390	393	O
-one	394	397	O
-on	398	400	O
-the	401	404	O
-front	405	410	O
-side	411	415	O
-,	415	416	O
-positioned	417	427	O
-at	428	430	O
-the	431	434	O
-central	435	442	O
-height	443	449	O
-of	450	452	O
-the	453	456	O
-capsules	457	465	B-Material
-.	465	466	O
-
-Additionally	467	479	O
-,	479	480	O
-one	481	484	O
-detector	485	493	B-Material
-was	494	497	O
-placed	498	504	O
-at	505	507	O
-the	508	511	O
-top	512	515	O
-and	516	519	O
-one	520	523	O
-at	524	526	O
-the	527	530	O
-bottom	531	537	O
-,	537	538	O
-resulting	539	548	O
-in	549	551	O
-a	552	553	O
-total	554	559	O
-of	560	562	O
-6	563	564	O
-monitor	565	572	B-Material
-sets	573	577	O
-per	578	581	O
-leg	582	585	O
-.	585	586	O
-
-The	587	590	O
-fluence	591	598	O
-in	599	601	O
-each	602	606	O
-capsule	607	614	B-Material
-was	615	618	O
-determined	619	629	O
-as	630	632	O
-the	633	636	O
-average	637	644	O
-between	645	652	O
-the	653	656	O
-two	657	660	O
-flux	661	665	B-Material
-monitor	666	673	I-Material
-located	674	681	O
-in	682	684	O
-each	685	689	O
-capsule	690	697	B-Material
-.	697	698	O
-
-The	699	702	O
-sets	703	707	O
-have	708	712	O
-been	713	717	O
-analysed	718	726	O
-by	727	729	O
-determining	730	741	B-Task
-the	742	745	I-Task
-activation	746	756	I-Task
-of	757	759	I-Task
-each	760	764	I-Task
-wire	765	769	I-Task
-piece	770	775	I-Task
-,	775	776	O
-which	777	782	O
-indicates	783	792	O
-the	793	796	O
-fluence	797	804	B-Process
-of	805	807	O
-a	808	809	O
-specific	810	818	O
-energy	819	825	O
-range	826	831	O
-.	831	832	O
-
-Table	833	838	O
-3	839	840	O
-show	841	845	O
-the	846	849	O
-values	850	856	O
-of	857	859	O
-the	860	863	O
-fluences	864	872	B-Process
-for	873	876	O
-the	877	880	O
-two	881	884	O
-capsules	885	893	B-Material
-containing	894	904	O
-molybdenum	905	915	B-Material
-.	915	916	O
+The	0,3	O	O
+fluence	4,11	O	B-Task
+of	12,14	O	I-Task
+each	15,19	O	I-Task
+capsule	20,27	O	I-Task
+was	28,31	O	O
+determined	32,42	O	O
+by	43,45	O	O
+using	46,51	O	O
+activation	52,62	O	B-Material
+monitor	63,70	O	I-Material
+sets	71,75	O	I-Material
+.	75,76	O	I-Material
+
+These	77,82	O	O
+monitor	83,90	O	B-Material
+sets	91,95	O	I-Material
+consist	96,103	O	O
+of	104,106	O	O
+different	107,116	O	O
+metal	117,122	O	B-Material
+wire	123,127	O	I-Material
+pieces	128,134	O	I-Material
+that	135,139	O	O
+have	140,144	O	O
+an	145,147	O	O
+activation	148,158	O	O
+reaction	159,167	O	O
+at	168,170	O	O
+a	171,172	O	O
+specific	173,181	O	O
+energy	182,188	O	O
+range	189,194	O	O
+.	194,195	O	O
+
+The	196,199	O	O
+different	200,209	O	O
+activation	210,220	O	O
+energies	221,229	O	O
+are	230,233	O	O
+chosen	234,240	O	O
+in	241,243	O	O
+such	244,248	O	O
+a	249,250	O	O
+way	251,254	O	O
+that	255,259	O	O
+the	260,263	O	O
+spectrum	264,272	O	O
+can	273,276	O	O
+be	277,279	O	O
+reconstructed	280,293	O	O
+.	293,294	O	O
+
+In	295,297	O	O
+BODEX	298,303	O	O
+,	303,304	O	O
+each	305,309	O	O
+capsule	310,317	O	B-Material
+contained	318,327	O	O
+a	328,329	O	O
+flux	330,334	O	B-Material
+monitor	335,342	O	I-Material
+set	343,346	O	I-Material
+on	347,349	O	O
+the	350,353	O	O
+‘	354,355	O	O
+back	355,359	O	O
+side’	360,365	O	O
+(	366,367	O	O
+as	367,369	O	O
+seen	370,374	O	O
+from	375,379	O	O
+the	380,383	O	O
+core	384,388	O	O
+)	388,389	O	O
+and	390,393	O	O
+one	394,397	O	O
+on	398,400	O	O
+the	401,404	O	O
+front	405,410	O	O
+side	411,415	O	O
+,	415,416	O	O
+positioned	417,427	O	O
+at	428,430	O	O
+the	431,434	O	O
+central	435,442	O	O
+height	443,449	O	O
+of	450,452	O	O
+the	453,456	O	O
+capsules	457,465	O	B-Material
+.	465,466	O	O
+
+Additionally	467,479	O	O
+,	479,480	O	O
+one	481,484	O	O
+detector	485,493	O	B-Material
+was	494,497	O	O
+placed	498,504	O	O
+at	505,507	O	O
+the	508,511	O	O
+top	512,515	O	O
+and	516,519	O	O
+one	520,523	O	O
+at	524,526	O	O
+the	527,530	O	O
+bottom	531,537	O	O
+,	537,538	O	O
+resulting	539,548	O	O
+in	549,551	O	O
+a	552,553	O	O
+total	554,559	O	O
+of	560,562	O	O
+6	563,564	O	O
+monitor	565,572	O	B-Material
+sets	573,577	O	O
+per	578,581	O	O
+leg	582,585	O	O
+.	585,586	O	O
+
+The	587,590	O	O
+fluence	591,598	O	O
+in	599,601	O	O
+each	602,606	O	O
+capsule	607,614	O	B-Material
+was	615,618	O	O
+determined	619,629	O	O
+as	630,632	O	O
+the	633,636	O	O
+average	637,644	O	O
+between	645,652	O	O
+the	653,656	O	O
+two	657,660	O	O
+flux	661,665	O	B-Material
+monitor	666,673	O	I-Material
+located	674,681	O	O
+in	682,684	O	O
+each	685,689	O	O
+capsule	690,697	O	B-Material
+.	697,698	O	O
+
+The	699,702	O	O
+sets	703,707	O	O
+have	708,712	O	O
+been	713,717	O	O
+analysed	718,726	O	O
+by	727,729	O	O
+determining	730,741	O	B-Task
+the	742,745	O	I-Task
+activation	746,756	O	I-Task
+of	757,759	O	I-Task
+each	760,764	O	I-Task
+wire	765,769	O	I-Task
+piece	770,775	O	I-Task
+,	775,776	O	O
+which	777,782	O	O
+indicates	783,792	O	O
+the	793,796	O	O
+fluence	797,804	O	B-Process
+of	805,807	O	O
+a	808,809	O	O
+specific	810,818	O	O
+energy	819,825	O	O
+range	826,831	O	O
+.	831,832	O	O
+
+Table	833,838	O	O
+3	839,840	O	O
+show	841,845	O	O
+the	846,849	O	O
+values	850,856	O	O
+of	857,859	O	O
+the	860,863	O	O
+fluences	864,872	O	B-Process
+for	873,876	O	O
+the	877,880	O	O
+two	881,884	O	O
+capsules	885,893	O	B-Material
+containing	894,904	O	O
+molybdenum	905,915	O	B-Material
+.	915,916	O	O
 
 
 -DOCSTART- (S0022311515301963)
 
-Following	0	9	O
-fission	10	17	B-Process
-,	17	18	O
-noble	19	24	B-Material
-gas	25	28	I-Material
-atoms	29	34	I-Material
-will	35	39	O
-be	40	42	O
-distributed	43	54	O
-in	55	57	O
-the	58	61	O
-fuel	62	66	B-Process
-matrix	67	73	I-Process
-initially	74	83	O
-accommodated	84	96	O
-at	97	99	O
-point	100	105	B-Process
-defects	106	113	I-Process
-trap	114	118	I-Process
-sites	119	124	I-Process
-,	124	125	O
-generally	126	135	O
-thought	136	143	O
-to	144	146	O
-be	147	149	O
-Schottky	150	158	B-Process
-trivacancy	159	169	I-Process
-defects	170	177	I-Process
-
-[	178	179	O
-4,5,31	179	185	O
-]	185	186	O
-.	186	187	O
-
-Diffusion	188	197	B-Process
-to	198	200	O
-either	201	207	O
-bubbles	208	215	B-Material
-or	216	218	O
-grain	219	224	B-Material
-boundaries	225	235	I-Material
-is	236	238	O
-then	239	243	O
-facilitated	244	255	O
-by	256	258	O
-associating	259	270	O
-a	271	272	O
-further	273	280	O
-uranium	281	288	B-Material
-vacancy	289	296	O
-defect	297	303	O
-for	304	307	O
-the	308	311	O
-gas	312	315	B-Material
-atom	316	320	I-Material
-to	321	323	O
-‘	324	325	B-Process
-hop’	325	329	I-Process
-into	330	334	I-Process
-,	334	335	O
-with	336	340	O
-the	341	344	O
-original	345	353	O
-vacancy	354	361	O
-then	362	366	O
-able	367	371	O
-to	372	374	O
-loop	375	379	B-Process
-around	380	386	I-Process
-to	387	389	O
-ensure	390	396	O
-continued	397	406	O
-diffusion	407	416	B-Process
-.	416	417	O
-
-The	418	421	O
-rate	422	426	O
-determining	427	438	O
-step	439	443	O
-in	444	446	O
-the	447	450	O
-process	451	458	O
-is	459	461	O
-not	462	465	O
-the	466	469	O
-migration	470	479	B-Process
-of	480	482	O
-the	483	486	O
-Xe	487	489	B-Material
-itself	490	496	O
-but	497	500	O
-rather	501	507	O
-the	508	511	O
-rearrangement	512	525	B-Process
-of	526	528	O
-the	529	532	O
-VU	533	535	B-Process
-defect	536	542	I-Process
-to	543	545	O
-facilitate	546	556	O
-net	557	560	O
-Xe	561	563	B-Process
-diffusion	564	573	I-Process
-[	574	575	O
-6–8	575	578	O
-]	578	579	O
-.	579	580	O
-
-Activation	581	591	B-Process
-energies	592	600	O
-for	601	604	O
-the	605	608	O
-overall	609	616	O
-process	617	624	O
-depend	625	631	O
-on	632	634	O
-the	635	638	O
-availability	639	651	O
-of	652	654	O
-the	655	658	O
-defect	659	665	B-Process
-trap	666	670	I-Process
-sites	671	676	I-Process
-,	676	677	O
-which	678	683	O
-in	684	686	O
-turn	687	691	O
-depends	692	699	O
-on	700	702	O
-the	703	706	O
-crystal	707	714	B-Process
-stoichiometry	715	728	I-Process
-.	728	729	O
-
-For	730	733	O
-Xe	734	736	B-Process
-diffusion	737	746	I-Process
-in	747	749	O
-UO2−x	750	755	B-Material
-,	755	756	O
-UO2	757	760	B-Material
-and	761	764	O
-UO2+x	765	770	B-Material
-the	771	774	O
-activation	775	785	O
-energies	786	794	O
-calculated	795	805	O
-using	806	811	O
-DFT	812	815	B-Process
-are	816	819	O
-7.04–12.92	820	830	O
-eV	831	833	O
-,	833	834	O
-4.15–7.88	835	844	O
-eV	845	847	O
-and	848	851	O
-1.38–4.07	852	861	O
-eV	862	864	O
-with	865	869	O
-the	870	873	O
-ranges	874	880	O
-reflecting	881	891	O
-the	892	895	O
-way	896	899	O
-the	900	903	O
-calculations	904	916	O
-were	917	921	O
-performed	922	931	O
-depending	932	941	O
-on	942	944	O
-the	945	948	O
-charge	949	955	B-Process
-states	956	962	O
-of	963	965	O
-the	966	969	O
-defects	970	977	O
-involved	978	986	O
-and	987	990	O
-the	991	994	O
-presence	995	1003	O
-of	1004	1006	O
-a	1007	1008	O
-Jahn	1009	1013	O
-–	1013	1014	O
-
-Teller	1014	1020	O
-distortion	1021	1031	O
-[	1032	1033	O
-7	1033	1034	O
-]	1034	1035	O
-.	1035	1036	O
-
-Activation	1037	1047	O
-energies	1048	1056	O
-calculated	1057	1067	O
-using	1068	1073	O
-empirical	1074	1083	B-Process
-pair	1084	1088	I-Process
-potentials	1089	1099	I-Process
-can	1100	1103	O
-vary	1104	1108	O
-strongly	1109	1117	O
-depending	1118	1127	O
-on	1128	1130	O
-the	1131	1134	O
-choice	1135	1141	O
-of	1142	1144	O
-potential	1145	1154	B-Process
-.	1154	1155	O
-
-Govers	1156	1162	O
-et	1163	1165	O
-al	1166	1168	O
-.	1168	1169	O
-
-examined	1170	1178	O
-three	1179	1184	O
-different	1185	1194	O
-potentials	1195	1205	B-Process
-for	1206	1209	O
-UO2	1210	1213	B-Material
-(	1214	1215	O
-those	1215	1220	O
-of	1221	1223	O
-Basak	1224	1229	O
-[	1230	1231	O
-9	1231	1232	O
-]	1232	1233	O
-,	1233	1234	O
-Jackson	1235	1242	O
-[	1243	1244	O
-10	1244	1246	O
-]	1246	1247	O
-and	1248	1251	O
-Morelon	1252	1259	O
-[	1260	1261	O
-11	1261	1263	O
-]	1263	1264	O
-)	1264	1265	O
-coupled	1266	1273	O
-with	1274	1278	O
-different	1279	1288	O
-parameterisations	1289	1306	O
-for	1307	1310	O
-the	1311	1314	O
-U	1315	1316	O
-
-–	1316	1317	O
-
-Xe	1317	1319	O
-and	1320	1323	O
-O	1324	1325	O
-–	1325	1326	O
-
-Xe	1326	1328	O
-interactions	1329	1341	O
-from	1342	1346	O
-Geng	1347	1351	O
-[	1352	1353	O
-12	1353	1355	O
-]	1355	1356	O
-and	1357	1360	O
-Nicoll	1361	1367	O
-[	1368	1369	O
-13	1369	1371	O
-]	1371	1372	O
-and	1373	1376	O
-recommend	1377	1386	O
-values	1387	1393	O
-of	1394	1396	O
-6.5	1397	1400	O
-eV	1401	1403	O
-,	1403	1404	O
-4.5	1405	1408	O
-eV	1409	1411	O
-and	1412	1415	O
-2.4	1416	1419	O
-eV	1420	1422	O
-[	1423	1424	O
-6	1424	1425	O
-]	1425	1426	O
-for	1427	1430	O
-the	1431	1434	O
-different	1435	1444	O
-stoichiometric	1445	1459	O
-regimes	1460	1467	O
-in	1468	1470	O
-very	1471	1475	O
-good	1476	1480	O
-agreement	1481	1490	O
-with	1491	1495	O
-the	1496	1499	O
-experimental	1500	1512	O
-values	1513	1519	O
-of	1520	1522	O
-6.0	1523	1526	O
-eV	1527	1529	O
-,	1529	1530	O
-3.9	1531	1534	O
-eV	1535	1537	O
-and	1538	1541	O
-1.7	1542	1545	O
-eV	1546	1548	O
-respectively	1549	1561	O
-[	1562	1563	O
-14	1563	1565	O
-]	1565	1566	O
-.	1566	1567	O
+Following	0,9	O	O
+fission	10,17	O	B-Process
+,	17,18	O	O
+noble	19,24	O	B-Material
+gas	25,28	O	I-Material
+atoms	29,34	O	I-Material
+will	35,39	O	O
+be	40,42	O	O
+distributed	43,54	O	O
+in	55,57	O	O
+the	58,61	O	O
+fuel	62,66	O	B-Process
+matrix	67,73	O	I-Process
+initially	74,83	O	O
+accommodated	84,96	O	O
+at	97,99	O	O
+point	100,105	O	B-Process
+defects	106,113	O	I-Process
+trap	114,118	O	I-Process
+sites	119,124	O	I-Process
+,	124,125	O	O
+generally	126,135	O	O
+thought	136,143	O	O
+to	144,146	O	O
+be	147,149	O	O
+Schottky	150,158	O	B-Process
+trivacancy	159,169	O	I-Process
+defects	170,177	O	I-Process
+
+[	178,179	O	O
+4,5,31	179,185	O	O
+]	185,186	O	O
+.	186,187	O	O
+
+Diffusion	188,197	O	B-Process
+to	198,200	O	O
+either	201,207	O	O
+bubbles	208,215	O	B-Material
+or	216,218	O	O
+grain	219,224	O	B-Material
+boundaries	225,235	O	I-Material
+is	236,238	O	O
+then	239,243	O	O
+facilitated	244,255	O	O
+by	256,258	O	O
+associating	259,270	O	O
+a	271,272	O	O
+further	273,280	O	O
+uranium	281,288	O	B-Material
+vacancy	289,296	O	O
+defect	297,303	O	O
+for	304,307	O	O
+the	308,311	O	O
+gas	312,315	O	B-Material
+atom	316,320	O	I-Material
+to	321,323	O	O
+‘	324,325	O	B-Process
+hop’	325,329	O	I-Process
+into	330,334	O	I-Process
+,	334,335	O	O
+with	336,340	O	O
+the	341,344	O	O
+original	345,353	O	O
+vacancy	354,361	O	O
+then	362,366	O	O
+able	367,371	O	O
+to	372,374	O	O
+loop	375,379	O	B-Process
+around	380,386	O	I-Process
+to	387,389	O	O
+ensure	390,396	O	O
+continued	397,406	O	O
+diffusion	407,416	O	B-Process
+.	416,417	O	O
+
+The	418,421	O	O
+rate	422,426	O	O
+determining	427,438	O	O
+step	439,443	O	O
+in	444,446	O	O
+the	447,450	O	O
+process	451,458	O	O
+is	459,461	O	O
+not	462,465	O	O
+the	466,469	O	O
+migration	470,479	O	B-Process
+of	480,482	O	O
+the	483,486	O	O
+Xe	487,489	O	B-Material
+itself	490,496	O	O
+but	497,500	O	O
+rather	501,507	O	O
+the	508,511	O	O
+rearrangement	512,525	O	B-Process
+of	526,528	O	O
+the	529,532	O	O
+VU	533,535	O	B-Process
+defect	536,542	O	I-Process
+to	543,545	O	O
+facilitate	546,556	O	O
+net	557,560	O	O
+Xe	561,563	O	B-Process
+diffusion	564,573	O	I-Process
+[	574,575	O	O
+6–8	575,578	O	O
+]	578,579	O	O
+.	579,580	O	O
+
+Activation	581,591	O	B-Process
+energies	592,600	O	O
+for	601,604	O	O
+the	605,608	O	O
+overall	609,616	O	O
+process	617,624	O	O
+depend	625,631	O	O
+on	632,634	O	O
+the	635,638	O	O
+availability	639,651	O	O
+of	652,654	O	O
+the	655,658	O	O
+defect	659,665	O	B-Process
+trap	666,670	O	I-Process
+sites	671,676	O	I-Process
+,	676,677	O	O
+which	678,683	O	O
+in	684,686	O	O
+turn	687,691	O	O
+depends	692,699	O	O
+on	700,702	O	O
+the	703,706	O	O
+crystal	707,714	O	B-Process
+stoichiometry	715,728	O	I-Process
+.	728,729	O	O
+
+For	730,733	O	O
+Xe	734,736	O	B-Process
+diffusion	737,746	O	I-Process
+in	747,749	O	O
+UO2−x	750,755	O	B-Material
+,	755,756	O	O
+UO2	757,760	O	B-Material
+and	761,764	O	O
+UO2+x	765,770	O	B-Material
+the	771,774	O	O
+activation	775,785	O	O
+energies	786,794	O	O
+calculated	795,805	O	O
+using	806,811	O	O
+DFT	812,815	O	B-Process
+are	816,819	O	O
+7.04–12.92	820,830	O	O
+eV	831,833	O	O
+,	833,834	O	O
+4.15–7.88	835,844	O	O
+eV	845,847	O	O
+and	848,851	O	O
+1.38–4.07	852,861	O	O
+eV	862,864	O	O
+with	865,869	O	O
+the	870,873	O	O
+ranges	874,880	O	O
+reflecting	881,891	O	O
+the	892,895	O	O
+way	896,899	O	O
+the	900,903	O	O
+calculations	904,916	O	O
+were	917,921	O	O
+performed	922,931	O	O
+depending	932,941	O	O
+on	942,944	O	O
+the	945,948	O	O
+charge	949,955	O	B-Process
+states	956,962	O	O
+of	963,965	O	O
+the	966,969	O	O
+defects	970,977	O	O
+involved	978,986	O	O
+and	987,990	O	O
+the	991,994	O	O
+presence	995,1003	O	O
+of	1004,1006	O	O
+a	1007,1008	O	O
+Jahn	1009,1013	O	O
+–	1013,1014	O	O
+
+Teller	1014,1020	O	O
+distortion	1021,1031	O	O
+[	1032,1033	O	O
+7	1033,1034	O	O
+]	1034,1035	O	O
+.	1035,1036	O	O
+
+Activation	1037,1047	O	O
+energies	1048,1056	O	O
+calculated	1057,1067	O	O
+using	1068,1073	O	O
+empirical	1074,1083	O	B-Process
+pair	1084,1088	O	I-Process
+potentials	1089,1099	O	I-Process
+can	1100,1103	O	O
+vary	1104,1108	O	O
+strongly	1109,1117	O	O
+depending	1118,1127	O	O
+on	1128,1130	O	O
+the	1131,1134	O	O
+choice	1135,1141	O	O
+of	1142,1144	O	O
+potential	1145,1154	O	B-Process
+.	1154,1155	O	O
+
+Govers	1156,1162	O	O
+et	1163,1165	O	O
+al	1166,1168	O	O
+.	1168,1169	O	O
+
+examined	1170,1178	O	O
+three	1179,1184	O	O
+different	1185,1194	O	O
+potentials	1195,1205	O	B-Process
+for	1206,1209	O	O
+UO2	1210,1213	O	B-Material
+(	1214,1215	O	O
+those	1215,1220	O	O
+of	1221,1223	O	O
+Basak	1224,1229	O	O
+[	1230,1231	O	O
+9	1231,1232	O	O
+]	1232,1233	O	O
+,	1233,1234	O	O
+Jackson	1235,1242	O	O
+[	1243,1244	O	O
+10	1244,1246	O	O
+]	1246,1247	O	O
+and	1248,1251	O	O
+Morelon	1252,1259	O	O
+[	1260,1261	O	O
+11	1261,1263	O	O
+]	1263,1264	O	O
+)	1264,1265	O	O
+coupled	1266,1273	O	O
+with	1274,1278	O	O
+different	1279,1288	O	O
+parameterisations	1289,1306	O	O
+for	1307,1310	O	O
+the	1311,1314	O	O
+U	1315,1316	O	O
+
+–	1316,1317	O	O
+
+Xe	1317,1319	O	O
+and	1320,1323	O	O
+O	1324,1325	O	O
+–	1325,1326	O	O
+
+Xe	1326,1328	O	O
+interactions	1329,1341	O	O
+from	1342,1346	O	O
+Geng	1347,1351	O	O
+[	1352,1353	O	O
+12	1353,1355	O	O
+]	1355,1356	O	O
+and	1357,1360	O	O
+Nicoll	1361,1367	O	O
+[	1368,1369	O	O
+13	1369,1371	O	O
+]	1371,1372	O	O
+and	1373,1376	O	O
+recommend	1377,1386	O	O
+values	1387,1393	O	O
+of	1394,1396	O	O
+6.5	1397,1400	O	O
+eV	1401,1403	O	O
+,	1403,1404	O	O
+4.5	1405,1408	O	O
+eV	1409,1411	O	O
+and	1412,1415	O	O
+2.4	1416,1419	O	O
+eV	1420,1422	O	O
+[	1423,1424	O	O
+6	1424,1425	O	O
+]	1425,1426	O	O
+for	1427,1430	O	O
+the	1431,1434	O	O
+different	1435,1444	O	O
+stoichiometric	1445,1459	O	O
+regimes	1460,1467	O	O
+in	1468,1470	O	O
+very	1471,1475	O	O
+good	1476,1480	O	O
+agreement	1481,1490	O	O
+with	1491,1495	O	O
+the	1496,1499	O	O
+experimental	1500,1512	O	O
+values	1513,1519	O	O
+of	1520,1522	O	O
+6.0	1523,1526	O	O
+eV	1527,1529	O	O
+,	1529,1530	O	O
+3.9	1531,1534	O	O
+eV	1535,1537	O	O
+and	1538,1541	O	O
+1.7	1542,1545	O	O
+eV	1546,1548	O	O
+respectively	1549,1561	O	O
+[	1562,1563	O	O
+14	1563,1565	O	O
+]	1565,1566	O	O
+.	1566,1567	O	O
 
 
 -DOCSTART- (S0022311515303640)
 
-Ferritic	0	8	B-Material
-and	9	12	I-Material
-martensitic	13	24	I-Material
-steels	25	31	I-Material
-are	32	35	O
-candidate	36	45	O
-materials	46	55	O
-for	56	59	O
-use	60	63	O
-in	64	66	O
-nuclear	67	74	B-Material
-reactors	75	83	I-Material
-[	84	85	O
-1,2	85	88	O
-]	88	89	O
-.	89	90	O
-
-The	91	94	O
-transmutation	95	108	B-Material
--	108	109	I-Material
-created	109	116	I-Material
-inert	117	122	I-Material
-gas	123	126	I-Material
-,	126	127	O
-especially	128	138	O
-He	139	141	B-Material
-,	141	142	O
-plays	143	148	O
-an	149	151	O
-important	152	161	O
-role	162	166	O
-in	167	169	O
-the	170	173	O
-microstructural	174	189	B-Task
-evolution	190	199	I-Task
-of	200	202	I-Task
-these	203	208	I-Task
-steels	209	215	I-Task
-under	216	221	I-Task
-neutron	222	229	I-Task
-irradiation	230	241	I-Task
-.	241	242	O
-
-In	243	245	O
-a	246	247	O
-previous	248	256	O
-paper	257	262	O
-[	263	264	O
-3	264	265	O
-]	265	266	O
-the	267	270	O
-mechanisms	271	281	B-Task
-by	282	284	I-Task
-which	285	290	I-Task
-He	291	293	I-Task
-in	294	296	I-Task
-a	297	298	I-Task
-perfect	299	306	I-Task
-body	307	311	I-Task
--	311	312	I-Task
-centred	312	319	I-Task
--	319	320	I-Task
-cubic	320	325	I-Task
-(	326	327	I-Task
-bcc	327	330	I-Task
-)	330	331	I-Task
-Fe	332	334	I-Task
-lattice	335	342	I-Task
-,	342	343	I-Task
-can	344	347	I-Task
-agglomerate	348	359	I-Task
-into	360	364	I-Task
-bubbles	365	372	I-Task
-was	373	376	O
-discussed	377	386	O
-.	386	387	O
-
-It	388	390	O
-was	391	394	O
-shown	395	400	O
-that	401	405	O
-small	406	411	O
-He	412	414	B-Material
-interstitial	415	427	I-Material
-clusters	428	436	I-Material
-are	437	440	O
-highly	441	447	O
-mobile	448	454	O
-but	455	458	O
-become	459	465	O
-effectively	466	477	O
-pinned	478	484	O
-with	485	489	O
-the	490	493	O
-emission	494	502	O
-of	503	505	O
-Fe	506	508	B-Material
-interstitials	509	522	I-Material
-when	523	527	O
-the	528	531	O
-clusters	532	540	O
-contain	541	548	O
-5	549	550	O
-or	551	553	O
-more	554	558	O
-He	559	561	B-Material
-atoms	562	567	I-Material
-.	567	568	O
-
-Small	569	574	O
-bubbles	575	582	B-Material
-up	583	585	O
-to	586	588	O
-around	589	595	O
-1.5	596	599	O
-nm	600	602	O
-in	603	605	O
-diameter	606	614	O
-can	615	618	O
-easily	619	625	O
-form	626	630	O
-at	631	633	O
-room	634	638	O
-temperature	639	650	O
-from	651	655	O
-such	656	660	O
-seed	661	665	O
-points	666	672	O
-but	673	676	O
-larger	677	683	O
-bubbles	684	691	B-Material
-are	692	695	O
-more	696	700	O
-difficult	701	710	O
-to	711	713	O
-form	714	718	O
-by	719	721	O
-diffusion	722	731	B-Process
-alone	732	737	O
-due	738	741	O
-to	742	744	O
-the	745	748	O
-induced	749	756	B-Process
-strain	757	763	I-Process
-in	764	766	O
-the	767	770	O
-bcc	771	774	B-Material
-lattice	775	782	I-Material
-which	783	788	O
-increases	789	798	O
-the	799	802	O
-energy	803	809	O
-barriers	810	818	O
-for	819	822	O
-diffusion	823	832	B-Material
-towards	833	840	O
-the	841	844	O
-bubbles	845	852	B-Material
-whilst	853	859	O
-reducing	860	868	O
-them	869	873	O
-in	874	876	O
-a	877	878	O
-direction	879	888	O
-away	889	893	O
-from	894	898	O
-the	899	902	O
-bubbles	903	910	B-Material
-.	910	911	O
-
-Subsequent	912	922	O
-bubble	923	929	B-Process
-enlargement	930	941	I-Process
-can	942	945	O
-then	946	950	O
-only	951	955	O
-occur	956	961	O
-either	962	968	O
-through	969	976	O
-increased	977	986	O
-temperature	987	998	O
-or	999	1001	O
-by	1002	1004	O
-radiation	1005	1014	B-Process
-induced	1015	1022	I-Process
-mechanisms	1023	1033	I-Process
-which	1034	1039	O
-increase	1040	1048	O
-the	1049	1052	O
-number	1053	1059	O
-of	1060	1062	O
-vacancies	1063	1072	O
-in	1073	1075	O
-the	1076	1079	O
-bubble	1080	1086	B-Material
-and	1087	1090	O
-reduce	1091	1097	B-Task
-the	1098	1101	I-Task
-lattice	1102	1109	I-Task
-strain	1110	1116	I-Task
-.	1116	1117	O
-
-Emission	1118	1126	B-Process
-of	1127	1129	I-Process
-interracial	1130	1141	I-Process
-loops	1142	1147	I-Process
-from	1148	1152	O
-such	1153	1157	O
-a	1158	1159	O
-bubble	1160	1166	B-Material
-was	1167	1170	O
-not	1171	1174	O
-observed	1175	1183	O
-in	1184	1186	O
-molecular	1187	1196	B-Process
-dynamics	1197	1205	I-Process
-simulations	1206	1217	I-Process
-.	1217	1218	O
+Ferritic	0,8	O	B-Material
+and	9,12	O	I-Material
+martensitic	13,24	O	I-Material
+steels	25,31	O	I-Material
+are	32,35	O	O
+candidate	36,45	O	O
+materials	46,55	O	O
+for	56,59	O	O
+use	60,63	O	O
+in	64,66	O	O
+nuclear	67,74	O	B-Material
+reactors	75,83	O	I-Material
+[	84,85	O	O
+1,2	85,88	O	O
+]	88,89	O	O
+.	89,90	O	O
+
+The	91,94	O	O
+transmutation	95,108	O	B-Material
+-	108,109	O	I-Material
+created	109,116	O	I-Material
+inert	117,122	O	I-Material
+gas	123,126	O	I-Material
+,	126,127	O	O
+especially	128,138	O	O
+He	139,141	O	B-Material
+,	141,142	O	O
+plays	143,148	O	O
+an	149,151	O	O
+important	152,161	O	O
+role	162,166	O	O
+in	167,169	O	O
+the	170,173	O	O
+microstructural	174,189	O	B-Task
+evolution	190,199	O	I-Task
+of	200,202	O	I-Task
+these	203,208	O	I-Task
+steels	209,215	O	I-Task
+under	216,221	O	I-Task
+neutron	222,229	O	I-Task
+irradiation	230,241	O	I-Task
+.	241,242	O	O
+
+In	243,245	O	O
+a	246,247	O	O
+previous	248,256	O	O
+paper	257,262	O	O
+[	263,264	O	O
+3	264,265	O	O
+]	265,266	O	O
+the	267,270	O	O
+mechanisms	271,281	O	B-Task
+by	282,284	O	I-Task
+which	285,290	O	I-Task
+He	291,293	O	I-Task
+in	294,296	O	I-Task
+a	297,298	O	I-Task
+perfect	299,306	O	I-Task
+body	307,311	O	I-Task
+-	311,312	O	I-Task
+centred	312,319	O	I-Task
+-	319,320	O	I-Task
+cubic	320,325	O	I-Task
+(	326,327	O	I-Task
+bcc	327,330	O	I-Task
+)	330,331	O	I-Task
+Fe	332,334	O	I-Task
+lattice	335,342	O	I-Task
+,	342,343	O	I-Task
+can	344,347	O	I-Task
+agglomerate	348,359	O	I-Task
+into	360,364	O	I-Task
+bubbles	365,372	O	I-Task
+was	373,376	O	O
+discussed	377,386	O	O
+.	386,387	O	O
+
+It	388,390	O	O
+was	391,394	O	O
+shown	395,400	O	O
+that	401,405	O	O
+small	406,411	O	O
+He	412,414	O	B-Material
+interstitial	415,427	O	I-Material
+clusters	428,436	O	I-Material
+are	437,440	O	O
+highly	441,447	O	O
+mobile	448,454	O	O
+but	455,458	O	O
+become	459,465	O	O
+effectively	466,477	O	O
+pinned	478,484	O	O
+with	485,489	O	O
+the	490,493	O	O
+emission	494,502	O	O
+of	503,505	O	O
+Fe	506,508	O	B-Material
+interstitials	509,522	O	I-Material
+when	523,527	O	O
+the	528,531	O	O
+clusters	532,540	O	O
+contain	541,548	O	O
+5	549,550	O	O
+or	551,553	O	O
+more	554,558	O	O
+He	559,561	O	B-Material
+atoms	562,567	O	I-Material
+.	567,568	O	O
+
+Small	569,574	O	O
+bubbles	575,582	O	B-Material
+up	583,585	O	O
+to	586,588	O	O
+around	589,595	O	O
+1.5	596,599	O	O
+nm	600,602	O	O
+in	603,605	O	O
+diameter	606,614	O	O
+can	615,618	O	O
+easily	619,625	O	O
+form	626,630	O	O
+at	631,633	O	O
+room	634,638	O	O
+temperature	639,650	O	O
+from	651,655	O	O
+such	656,660	O	O
+seed	661,665	O	O
+points	666,672	O	O
+but	673,676	O	O
+larger	677,683	O	O
+bubbles	684,691	O	B-Material
+are	692,695	O	O
+more	696,700	O	O
+difficult	701,710	O	O
+to	711,713	O	O
+form	714,718	O	O
+by	719,721	O	O
+diffusion	722,731	O	B-Process
+alone	732,737	O	O
+due	738,741	O	O
+to	742,744	O	O
+the	745,748	O	O
+induced	749,756	O	B-Process
+strain	757,763	O	I-Process
+in	764,766	O	O
+the	767,770	O	O
+bcc	771,774	O	B-Material
+lattice	775,782	O	I-Material
+which	783,788	O	O
+increases	789,798	O	O
+the	799,802	O	O
+energy	803,809	O	O
+barriers	810,818	O	O
+for	819,822	O	O
+diffusion	823,832	O	B-Material
+towards	833,840	O	O
+the	841,844	O	O
+bubbles	845,852	O	B-Material
+whilst	853,859	O	O
+reducing	860,868	O	O
+them	869,873	O	O
+in	874,876	O	O
+a	877,878	O	O
+direction	879,888	O	O
+away	889,893	O	O
+from	894,898	O	O
+the	899,902	O	O
+bubbles	903,910	O	B-Material
+.	910,911	O	O
+
+Subsequent	912,922	O	O
+bubble	923,929	O	B-Process
+enlargement	930,941	O	I-Process
+can	942,945	O	O
+then	946,950	O	O
+only	951,955	O	O
+occur	956,961	O	O
+either	962,968	O	O
+through	969,976	O	O
+increased	977,986	O	O
+temperature	987,998	O	O
+or	999,1001	O	O
+by	1002,1004	O	O
+radiation	1005,1014	O	B-Process
+induced	1015,1022	O	I-Process
+mechanisms	1023,1033	O	I-Process
+which	1034,1039	O	O
+increase	1040,1048	O	O
+the	1049,1052	O	O
+number	1053,1059	O	O
+of	1060,1062	O	O
+vacancies	1063,1072	O	O
+in	1073,1075	O	O
+the	1076,1079	O	O
+bubble	1080,1086	O	B-Material
+and	1087,1090	O	O
+reduce	1091,1097	O	B-Task
+the	1098,1101	O	I-Task
+lattice	1102,1109	O	I-Task
+strain	1110,1116	O	I-Task
+.	1116,1117	O	O
+
+Emission	1118,1126	O	B-Process
+of	1127,1129	O	I-Process
+interracial	1130,1141	O	I-Process
+loops	1142,1147	O	I-Process
+from	1148,1152	O	O
+such	1153,1157	O	O
+a	1158,1159	O	O
+bubble	1160,1166	O	B-Material
+was	1167,1170	O	O
+not	1171,1174	O	O
+observed	1175,1183	O	O
+in	1184,1186	O	O
+molecular	1187,1196	O	B-Process
+dynamics	1197,1205	O	I-Process
+simulations	1206,1217	O	I-Process
+.	1217,1218	O	O
 
 
 -DOCSTART- (S0029549314001551)
 
-An	0	2	O
-increase	3	11	O
-of	12	14	O
-neutron	15	22	B-Process
-leakage	23	30	I-Process
-from	31	35	O
-the	36	39	O
-core	40	44	B-Material
-region	45	51	I-Material
-can	52	55	O
-be	56	58	O
-achieved	59	67	O
-through	68	75	O
-modifications	76	89	B-Process
-in	90	92	I-Process
-the	93	96	I-Process
-core	97	101	I-Process
-geometry	102	110	I-Process
-(	111	112	O
-usually	112	119	O
-by	120	122	O
-adopting	123	131	O
-a	132	133	O
-pan	134	137	B-Process
--	137	138	I-Process
-cake	138	142	I-Process
-geometry	143	151	I-Process
-of	152	154	I-Process
-the	155	158	I-Process
-active	159	165	I-Process
-core	166	170	I-Process
-region	171	177	I-Process
-at	178	180	O
-the	181	184	O
-expense	185	192	O
-of	193	195	O
-the	196	199	O
-general	200	207	O
-neutron	208	215	B-Material
-economy	216	223	O
-)	223	224	O
-.	224	225	O
-
-Extensive	226	235	O
-studies	236	243	O
-determined	244	254	O
-a	255	256	O
-set	257	260	O
-of	261	263	O
-core	264	268	B-Task
-design	269	275	I-Task
-modifications	276	289	I-Task
-that	290	294	I-Task
-optimised	295	304	I-Task
-the	305	308	I-Task
-total	309	314	I-Task
-sodium	315	321	I-Task
-void	322	326	I-Task
-reactivity	327	337	I-Task
-(	338	339	O
-becoming	339	347	O
-less	348	352	O
-positive	353	361	O
-)	361	362	O
-.	362	363	O
-
-Among	364	369	O
-the	370	373	O
-most	374	378	O
-efficient	379	388	O
-design	389	395	B-Process
-solutions	396	405	I-Process
-identified	406	416	O
-is	417	419	O
-an	420	422	O
-enlarged	423	431	B-Process
-sodium	432	438	I-Process
-plenum	439	445	I-Process
-above	446	451	O
-the	452	455	O
-active	456	462	O
-core	463	467	B-Material
-region	468	474	O
-in	475	477	O
-combination	478	489	O
-with	490	494	O
-an	495	497	O
-absorber	498	506	B-Process
-layer	507	512	I-Process
-above	513	518	O
-the	519	522	O
-sodium	523	529	B-Material
-plenum	530	536	I-Material
-(	537	538	O
-to	538	540	O
-reduce	541	547	B-Task
-neutron	548	555	I-Task
-backscattering	556	570	I-Task
-from	571	575	I-Task
-the	576	579	I-Task
-reflector	580	589	I-Task
-region	590	596	I-Task
-above	597	602	I-Task
-the	603	606	I-Task
-plenum	607	613	I-Task
-)	613	614	O
-.	614	615	O
-
-Fig	616	619	O
-.	619	620	O
-
-19	621	623	O
-shows	624	629	O
-the	630	633	O
-combined	634	642	O
-effect	643	649	O
-of	650	652	O
-different	653	662	O
-upper	663	668	B-Material
-plenum	669	675	I-Material
-thicknesses	676	687	O
-of	688	690	O
-the	691	694	O
-absorber	695	703	B-Material
-and	704	707	I-Material
-boron	708	713	I-Material
-layers	714	720	I-Material
-.	720	721	O
-
-It	722	724	O
-can	725	728	O
-be	729	731	O
-observed	732	740	O
-that	741	745	O
-the	746	749	O
-sequential	750	760	O
-increase	761	769	B-Process
-of	770	772	I-Process
-the	773	776	I-Process
-layer	777	782	I-Process
-'s	782	784	I-Process
-thickness	785	794	I-Process
-converge	795	803	O
-to	804	806	O
-an	807	809	O
-asymptotic	810	820	O
-value	821	826	O
-of	827	829	O
-reactivity	830	840	B-Process
-reduction	841	850	I-Process
-slightly	851	859	O
-over	860	864	O
-800pcm	865	871	O
-.	871	872	O
-
-The	873	876	O
-pair	877	881	O
-of	882	884	O
-values	885	891	O
-selected	892	900	O
-was	901	904	O
-60	905	907	O
-cm	907	909	O
-for	910	913	O
-the	914	917	O
-sodium	918	924	B-Material
-plenum	925	931	I-Material
-and	932	935	O
-30	936	938	O
-cm	938	940	O
-for	941	944	O
-the	945	948	O
-boron	949	954	B-Material
-layer	955	960	I-Material
-.	960	961	O
-
-These	962	967	O
-modifications	968	981	O
-implied	982	989	O
-a	990	991	O
-considerable	992	1004	O
-increase	1005	1013	B-Process
-in	1014	1016	I-Process
-the	1017	1020	I-Process
-sub	1021	1024	I-Process
--	1024	1025	I-Process
-assembly	1025	1033	I-Process
-length	1034	1040	I-Process
-that	1041	1045	O
-was	1046	1049	O
-compensated	1050	1061	O
-by	1062	1064	O
-reducing	1065	1073	B-Task
-the	1074	1077	I-Task
-upper	1078	1083	I-Task
-axial	1084	1089	I-Task
-reflector	1090	1099	I-Task
-width	1100	1105	I-Task
-(	1106	1107	O
-Sun	1107	1110	O
-et	1111	1113	O
-al	1114	1116	O
-.	1116	1117	O
-,	1117	1118	O
-2013	1119	1123	O
-)	1123	1124	O
-.	1124	1125	O
+An	0,2	O	O
+increase	3,11	O	O
+of	12,14	O	O
+neutron	15,22	O	B-Process
+leakage	23,30	O	I-Process
+from	31,35	O	O
+the	36,39	O	O
+core	40,44	O	B-Material
+region	45,51	O	I-Material
+can	52,55	O	O
+be	56,58	O	O
+achieved	59,67	O	O
+through	68,75	O	O
+modifications	76,89	O	B-Process
+in	90,92	O	I-Process
+the	93,96	O	I-Process
+core	97,101	O	I-Process
+geometry	102,110	O	I-Process
+(	111,112	O	O
+usually	112,119	O	O
+by	120,122	O	O
+adopting	123,131	O	O
+a	132,133	O	O
+pan	134,137	O	B-Process
+-	137,138	O	I-Process
+cake	138,142	O	I-Process
+geometry	143,151	O	I-Process
+of	152,154	O	I-Process
+the	155,158	O	I-Process
+active	159,165	O	I-Process
+core	166,170	O	I-Process
+region	171,177	O	I-Process
+at	178,180	O	O
+the	181,184	O	O
+expense	185,192	O	O
+of	193,195	O	O
+the	196,199	O	O
+general	200,207	O	O
+neutron	208,215	O	B-Material
+economy	216,223	O	O
+)	223,224	O	O
+.	224,225	O	O
+
+Extensive	226,235	O	O
+studies	236,243	O	O
+determined	244,254	O	O
+a	255,256	O	O
+set	257,260	O	O
+of	261,263	O	O
+core	264,268	O	B-Task
+design	269,275	O	I-Task
+modifications	276,289	O	I-Task
+that	290,294	O	I-Task
+optimised	295,304	O	I-Task
+the	305,308	O	I-Task
+total	309,314	O	I-Task
+sodium	315,321	O	I-Task
+void	322,326	O	I-Task
+reactivity	327,337	O	I-Task
+(	338,339	O	O
+becoming	339,347	O	O
+less	348,352	O	O
+positive	353,361	O	O
+)	361,362	O	O
+.	362,363	O	O
+
+Among	364,369	O	O
+the	370,373	O	O
+most	374,378	O	O
+efficient	379,388	O	O
+design	389,395	O	B-Process
+solutions	396,405	O	I-Process
+identified	406,416	O	O
+is	417,419	O	O
+an	420,422	O	O
+enlarged	423,431	O	B-Process
+sodium	432,438	O	I-Process
+plenum	439,445	O	I-Process
+above	446,451	O	O
+the	452,455	O	O
+active	456,462	O	O
+core	463,467	O	B-Material
+region	468,474	O	O
+in	475,477	O	O
+combination	478,489	O	O
+with	490,494	O	O
+an	495,497	O	O
+absorber	498,506	O	B-Process
+layer	507,512	O	I-Process
+above	513,518	O	O
+the	519,522	O	O
+sodium	523,529	O	B-Material
+plenum	530,536	O	I-Material
+(	537,538	O	O
+to	538,540	O	O
+reduce	541,547	O	B-Task
+neutron	548,555	O	I-Task
+backscattering	556,570	O	I-Task
+from	571,575	O	I-Task
+the	576,579	O	I-Task
+reflector	580,589	O	I-Task
+region	590,596	O	I-Task
+above	597,602	O	I-Task
+the	603,606	O	I-Task
+plenum	607,613	O	I-Task
+)	613,614	O	O
+.	614,615	O	O
+
+Fig	616,619	O	O
+.	619,620	O	O
+
+19	621,623	O	O
+shows	624,629	O	O
+the	630,633	O	O
+combined	634,642	O	O
+effect	643,649	O	O
+of	650,652	O	O
+different	653,662	O	O
+upper	663,668	O	B-Material
+plenum	669,675	O	I-Material
+thicknesses	676,687	O	O
+of	688,690	O	O
+the	691,694	O	O
+absorber	695,703	O	B-Material
+and	704,707	O	I-Material
+boron	708,713	O	I-Material
+layers	714,720	O	I-Material
+.	720,721	O	O
+
+It	722,724	O	O
+can	725,728	O	O
+be	729,731	O	O
+observed	732,740	O	O
+that	741,745	O	O
+the	746,749	O	O
+sequential	750,760	O	O
+increase	761,769	O	B-Process
+of	770,772	O	I-Process
+the	773,776	O	I-Process
+layer	777,782	O	I-Process
+'s	782,784	O	I-Process
+thickness	785,794	O	I-Process
+converge	795,803	O	O
+to	804,806	O	O
+an	807,809	O	O
+asymptotic	810,820	O	O
+value	821,826	O	O
+of	827,829	O	O
+reactivity	830,840	O	B-Process
+reduction	841,850	O	I-Process
+slightly	851,859	O	O
+over	860,864	O	O
+800pcm	865,871	O	O
+.	871,872	O	O
+
+The	873,876	O	O
+pair	877,881	O	O
+of	882,884	O	O
+values	885,891	O	O
+selected	892,900	O	O
+was	901,904	O	O
+60	905,907	O	O
+cm	907,909	O	O
+for	910,913	O	O
+the	914,917	O	O
+sodium	918,924	O	B-Material
+plenum	925,931	O	I-Material
+and	932,935	O	O
+30	936,938	O	O
+cm	938,940	O	O
+for	941,944	O	O
+the	945,948	O	O
+boron	949,954	O	B-Material
+layer	955,960	O	I-Material
+.	960,961	O	O
+
+These	962,967	O	O
+modifications	968,981	O	O
+implied	982,989	O	O
+a	990,991	O	O
+considerable	992,1004	O	O
+increase	1005,1013	O	B-Process
+in	1014,1016	O	I-Process
+the	1017,1020	O	I-Process
+sub	1021,1024	O	I-Process
+-	1024,1025	O	I-Process
+assembly	1025,1033	O	I-Process
+length	1034,1040	O	I-Process
+that	1041,1045	O	O
+was	1046,1049	O	O
+compensated	1050,1061	O	O
+by	1062,1064	O	O
+reducing	1065,1073	O	B-Task
+the	1074,1077	O	I-Task
+upper	1078,1083	O	I-Task
+axial	1084,1089	O	I-Task
+reflector	1090,1099	O	I-Task
+width	1100,1105	O	I-Task
+(	1106,1107	O	O
+Sun	1107,1110	O	O
+et	1111,1113	O	O
+al	1114,1116	O	O
+.	1116,1117	O	O
+,	1117,1118	O	O
+2013	1119,1123	O	O
+)	1123,1124	O	O
+.	1124,1125	O	O
 
 
 -DOCSTART- (S0029549314002970)
 
-The	0	3	O
-design	4	10	O
-,	10	11	O
-and	12	15	O
-the	16	19	O
-temperature	20	31	O
-reached	32	39	O
-in	40	42	O
-the	43	46	O
-sample	47	53	B-Material
-holders	54	61	I-Material
-,	61	62	O
-guarantees	63	73	O
-that	74	78	O
-the	79	82	O
-Na	83	85	B-Material
-remains	86	93	O
-liquid	94	100	O
-during	101	107	O
-operation	108	117	O
-to	118	120	O
-improve	121	128	B-Task
-the	129	132	I-Task
-heating	133	140	I-Task
-transfer	141	149	I-Task
-and	150	153	O
-avoiding	154	162	O
-solid	163	168	B-Process
-formation	169	178	I-Process
-(	179	180	O
-too	180	183	O
-cold	184	188	O
-working	189	196	O
-temperature	197	208	O
-)	208	209	O
-or	210	212	O
-sodium	213	219	B-Process
-boiling	220	227	I-Process
-(	228	229	O
-too	229	232	O
-hot	233	236	O
-working	237	244	O
-temperature	245	256	O
-)	256	257	O
-.	257	258	O
-
-The	259	262	O
-temperature	263	274	O
-above	275	280	O
-and	281	284	O
-just	285	289	O
-below	290	295	O
-the	296	299	O
-Na	300	302	B-Material
-surface	303	310	I-Material
-will	311	315	O
-be	316	318	O
-monitored	319	328	B-Process
-by	329	331	I-Process
-six	332	335	I-Process
-dedicated	336	345	I-Process
-thermocouples	346	359	I-Process
-.	359	360	O
-
-In	361	363	O
-order	364	369	O
-to	370	372	O
-prevent	373	380	O
-oxidation	381	390	B-Process
-of	391	393	O
-the	394	397	O
-Na	398	400	B-Material
-,	400	401	O
-the	402	405	O
-plenum	406	412	O
-of	413	415	O
-the	416	419	O
-1st	420	423	O
-containment	424	435	O
-is	436	438	O
-filled	439	445	O
-with	446	450	O
-high	451	455	B-Material
--	455	456	I-Material
-purity	456	462	I-Material
-He	463	465	I-Material
-at	466	468	O
-0.1MPa	469	475	O
-,	475	476	O
-sealed	477	483	O
-after	484	489	O
-final	490	495	O
-assembly	496	504	O
-and	505	508	O
-kept	509	513	O
-closed	514	520	O
-during	521	527	O
-in	528	530	O
--	530	531	O
-pile	531	535	O
-operation	536	545	O
-(	546	547	O
-no	547	549	O
-gas	550	553	B-Process
-circulation	554	565	I-Process
-in	566	568	O
-the	569	572	O
-1st	573	576	O
-containment	577	588	O
-)	588	589	O
-.	589	590	O
-
-The	591	594	O
-heat	595	599	O
-generated	600	609	O
-by	610	612	O
-fission	613	620	B-Process
-and	621	624	I-Process
-gamma	625	630	I-Process
-absorption	631	641	I-Process
-in	642	644	O
-the	645	648	O
-materials	649	658	O
-will	659	663	O
-be	664	666	O
-radially	667	675	O
-dissipated	676	686	O
-through	687	694	O
-the	695	698	O
-Na	699	701	B-Material
-bath	702	706	I-Material
-,	706	707	O
-the	708	711	O
-structural	712	722	O
-materials	723	732	O
-and	733	736	O
-the	737	740	O
-gas	741	744	B-Material
-gaps	745	749	O
-by	750	752	O
-conduction	753	763	O
-and	764	767	O
-radiation	768	777	O
-to	778	780	O
-the	781	784	O
-downstream	785	795	O
-primary	796	803	O
-coolant	804	811	O
-of	812	814	O
-the	815	818	O
-TRIO	819	823	B-Material
-wet	824	827	I-Material
-channel	828	835	I-Material
-.	835	836	O
+The	0,3	O	O
+design	4,10	O	O
+,	10,11	O	O
+and	12,15	O	O
+the	16,19	O	O
+temperature	20,31	O	O
+reached	32,39	O	O
+in	40,42	O	O
+the	43,46	O	O
+sample	47,53	O	B-Material
+holders	54,61	O	I-Material
+,	61,62	O	O
+guarantees	63,73	O	O
+that	74,78	O	O
+the	79,82	O	O
+Na	83,85	O	B-Material
+remains	86,93	O	O
+liquid	94,100	O	O
+during	101,107	O	O
+operation	108,117	O	O
+to	118,120	O	O
+improve	121,128	O	B-Task
+the	129,132	O	I-Task
+heating	133,140	O	I-Task
+transfer	141,149	O	I-Task
+and	150,153	O	O
+avoiding	154,162	O	O
+solid	163,168	O	B-Process
+formation	169,178	O	I-Process
+(	179,180	O	O
+too	180,183	O	O
+cold	184,188	O	O
+working	189,196	O	O
+temperature	197,208	O	O
+)	208,209	O	O
+or	210,212	O	O
+sodium	213,219	O	B-Process
+boiling	220,227	O	I-Process
+(	228,229	O	O
+too	229,232	O	O
+hot	233,236	O	O
+working	237,244	O	O
+temperature	245,256	O	O
+)	256,257	O	O
+.	257,258	O	O
+
+The	259,262	O	O
+temperature	263,274	O	O
+above	275,280	O	O
+and	281,284	O	O
+just	285,289	O	O
+below	290,295	O	O
+the	296,299	O	O
+Na	300,302	O	B-Material
+surface	303,310	O	I-Material
+will	311,315	O	O
+be	316,318	O	O
+monitored	319,328	O	B-Process
+by	329,331	O	I-Process
+six	332,335	O	I-Process
+dedicated	336,345	O	I-Process
+thermocouples	346,359	O	I-Process
+.	359,360	O	O
+
+In	361,363	O	O
+order	364,369	O	O
+to	370,372	O	O
+prevent	373,380	O	O
+oxidation	381,390	O	B-Process
+of	391,393	O	O
+the	394,397	O	O
+Na	398,400	O	B-Material
+,	400,401	O	O
+the	402,405	O	O
+plenum	406,412	O	O
+of	413,415	O	O
+the	416,419	O	O
+1st	420,423	O	O
+containment	424,435	O	O
+is	436,438	O	O
+filled	439,445	O	O
+with	446,450	O	O
+high	451,455	O	B-Material
+-	455,456	O	I-Material
+purity	456,462	O	I-Material
+He	463,465	O	I-Material
+at	466,468	O	O
+0.1MPa	469,475	O	O
+,	475,476	O	O
+sealed	477,483	O	O
+after	484,489	O	O
+final	490,495	O	O
+assembly	496,504	O	O
+and	505,508	O	O
+kept	509,513	O	O
+closed	514,520	O	O
+during	521,527	O	O
+in	528,530	O	O
+-	530,531	O	O
+pile	531,535	O	O
+operation	536,545	O	O
+(	546,547	O	O
+no	547,549	O	O
+gas	550,553	O	B-Process
+circulation	554,565	O	I-Process
+in	566,568	O	O
+the	569,572	O	O
+1st	573,576	O	O
+containment	577,588	O	O
+)	588,589	O	O
+.	589,590	O	O
+
+The	591,594	O	O
+heat	595,599	O	O
+generated	600,609	O	O
+by	610,612	O	O
+fission	613,620	O	B-Process
+and	621,624	O	I-Process
+gamma	625,630	O	I-Process
+absorption	631,641	O	I-Process
+in	642,644	O	O
+the	645,648	O	O
+materials	649,658	O	O
+will	659,663	O	O
+be	664,666	O	O
+radially	667,675	O	O
+dissipated	676,686	O	O
+through	687,694	O	O
+the	695,698	O	O
+Na	699,701	O	B-Material
+bath	702,706	O	I-Material
+,	706,707	O	O
+the	708,711	O	O
+structural	712,722	O	O
+materials	723,732	O	O
+and	733,736	O	O
+the	737,740	O	O
+gas	741,744	O	B-Material
+gaps	745,749	O	O
+by	750,752	O	O
+conduction	753,763	O	O
+and	764,767	O	O
+radiation	768,777	O	O
+to	778,780	O	O
+the	781,784	O	O
+downstream	785,795	O	O
+primary	796,803	O	O
+coolant	804,811	O	O
+of	812,814	O	O
+the	815,818	O	O
+TRIO	819,823	O	B-Material
+wet	824,827	O	I-Material
+channel	828,835	O	I-Material
+.	835,836	O	O
 
 
 -DOCSTART- (S0031920113000708)
 
-Geomagnetic	0	11	B-Process
-jerks	12	17	I-Process
-are	18	21	O
-conspicuous	22	33	O
-yet	34	37	O
-poorly	38	44	O
-understood	45	55	O
-phenomena	56	65	O
-of	66	68	O
-Earth	69	74	B-Material
-’s	74	76	I-Material
-magnetic	77	85	I-Material
-field	86	91	I-Material
-,	91	92	O
-motivating	93	103	O
-investigations	104	118	O
-of	119	121	O
-their	122	127	O
-morphology	128	138	O
-and	139	142	O
-the	143	146	O
-theory	147	153	O
-behind	154	160	O
-their	161	166	O
-origins	167	174	O
-.	174	175	O
-
-Jerks	176	181	B-Process
-are	182	185	O
-most	186	190	O
-commonly	191	199	O
-defined	200	207	O
-by	208	210	O
-their	211	216	O
-observed	217	225	O
-form	226	230	O
-at	231	233	O
-a	234	235	O
-single	236	242	O
-observatory	243	254	O
-as	255	257	O
-‘	258	259	O
-V’	259	261	O
-shapes	262	268	O
-in	269	271	O
-a	272	273	O
-single	274	280	O
-component	281	290	O
-of	291	293	O
-the	294	297	O
-geomagnetic	298	309	B-Process
-secular	310	317	I-Process
-variation	318	327	I-Process
-(	328	329	O
-SV	329	331	B-Process
-)	331	332	O
-,	332	333	O
-the	334	337	O
-first	338	343	O
-time	344	348	O
-derivative	349	359	O
-of	360	362	O
-the	363	366	O
-main	367	371	B-Material
-magnetic	372	380	I-Material
-field	381	386	I-Material
-(	387	388	O
-MF	388	390	B-Material
-)	390	391	O
-.	391	392	O
-
-The	393	396	O
-times	397	402	O
-of	403	405	O
-the	406	409	O
-gradient	410	418	B-Process
-changes	419	426	I-Process
-,	426	427	O
-which	428	433	O
-separate	434	442	O
-linear	443	449	O
-trends	450	456	O
-of	457	459	O
-several	460	467	O
-years	468	473	O
-,	473	474	O
-have	475	479	O
-associated	480	490	O
-step	491	495	O
-changes	496	503	O
-in	504	506	O
-the	507	510	O
-second	511	517	O
-time	518	522	O
-derivative	523	533	O
-of	534	536	O
-the	537	540	O
-MF	541	543	B-Material
-(	544	545	O
-secular	545	552	B-Process
-acceleration	553	565	I-Process
-(	566	567	O
-SA	567	569	B-Process
-)	569	570	O
-)	570	571	O
-and	572	575	O
-impulses	576	584	O
-in	585	587	O
-the	588	591	O
-third	592	597	O
-time	598	602	O
-derivative	603	613	O
-.	613	614	O
-
-The	615	618	O
-‘	619	620	O
-V’	620	622	O
-shape	623	628	O
-SV	629	631	O
-definition	632	642	O
-of	643	645	O
-jerks	646	651	B-Process
-includes	652	660	O
-an	661	663	O
-implicit	664	672	O
-expectation	673	684	O
-of	685	687	O
-a	688	689	O
-‘	690	691	B-Process
-large’	691	697	I-Process
-magnitude	698	707	I-Process
-step	708	712	I-Process
-change	713	719	I-Process
-in	720	722	O
-the	723	726	O
-gradient	727	735	O
-without	736	743	O
-definition	744	754	O
-of	755	757	O
-this	758	762	O
-scale	763	768	O
-or	769	771	O
-its	772	775	O
-threshold	776	785	O
-value	786	791	O
-other	792	797	O
-than	798	802	O
-the	803	806	O
-basic	807	812	O
-need	813	817	O
-for	818	821	O
-it	822	824	O
-to	825	827	O
-be	828	830	O
-observable	831	841	O
-in	842	844	O
-the	845	848	O
-data	849	853	O
-above	854	859	O
-the	860	863	O
-highly	864	870	O
-variable	871	879	O
-background	880	890	O
-noise	891	896	O
-.	896	897	O
-
-Jerks	898	903	B-Process
-can	904	907	O
-be	908	910	O
-described	911	920	O
-by	921	923	O
-their	924	929	O
-amplitude	930	939	O
-,	939	940	O
-that	941	945	O
-is	946	948	O
-,	948	949	O
-the	950	953	O
-difference	954	964	O
-in	965	967	O
-the	968	971	O
-gradients	972	981	O
-of	982	984	O
-the	985	988	O
-two	989	992	O
-linear	993	999	O
-SV	1000	1002	B-Process
-segments	1003	1011	I-Process
-about	1012	1017	O
-a	1018	1019	O
-jerk	1020	1024	B-Process
-,	1024	1025	O
-A	1026	1027	O
-=	1027	1028	O
-a2-a1	1028	1033	O
-,	1033	1034	O
-where	1035	1040	O
-a2	1041	1043	O
-is	1044	1046	O
-the	1047	1050	O
-gradient	1051	1059	O
-after	1060	1065	O
-the	1066	1069	O
-jerk	1070	1074	B-Process
-and	1075	1078	O
-a1	1079	1081	O
-is	1082	1084	O
-the	1085	1088	O
-gradient	1089	1097	O
-before	1098	1104	O
-the	1105	1108	O
-jerk	1109	1113	B-Process
-.	1113	1114	O
-
-This	1115	1119	O
-measure	1120	1127	O
-is	1128	1130	O
-essentially	1131	1142	O
-the	1143	1146	O
-best	1147	1151	O
-fit	1152	1155	O
-SA	1156	1158	B-Process
-change	1159	1165	I-Process
-across	1166	1172	O
-a	1173	1174	O
-jerk	1175	1179	B-Process
-.	1179	1180	O
-
-Jerk	1181	1185	B-Process
-amplitude	1186	1195	I-Process
-is	1196	1198	O
-thus	1199	1203	O
-positive	1204	1212	O
-for	1213	1216	O
-a	1217	1218	O
-positive	1219	1227	O
-step	1228	1232	O
-in	1233	1235	O
-SA	1236	1238	B-Process
-and	1239	1242	O
-negative	1243	1251	O
-for	1252	1255	O
-a	1256	1257	O
-negative	1258	1266	O
-step	1267	1271	O
-.	1271	1272	O
-
-Here	1273	1277	O
-we	1278	1280	O
-do	1281	1283	O
-not	1284	1287	O
-consider	1288	1296	O
-spatial	1297	1304	O
-extent	1305	1311	O
-in	1312	1314	O
-our	1315	1318	O
-definition	1319	1329	O
-and	1330	1333	O
-refer	1334	1339	O
-to	1340	1342	O
-individual	1343	1353	O
-features	1354	1362	O
-in	1363	1365	O
-one	1366	1369	O
-field	1370	1375	O
-component	1376	1385	O
-of	1386	1388	O
-a	1389	1390	O
-given	1391	1396	O
-observatory	1397	1408	O
-time	1409	1413	O
-series	1414	1420	O
-as	1421	1423	O
-a	1424	1425	O
-single	1426	1432	O
-jerk	1433	1437	B-Process
-.	1437	1438	O
+Geomagnetic	0,11	O	B-Process
+jerks	12,17	O	I-Process
+are	18,21	O	O
+conspicuous	22,33	O	O
+yet	34,37	O	O
+poorly	38,44	O	O
+understood	45,55	O	O
+phenomena	56,65	O	O
+of	66,68	O	O
+Earth	69,74	O	B-Material
+’s	74,76	O	I-Material
+magnetic	77,85	O	I-Material
+field	86,91	O	I-Material
+,	91,92	O	O
+motivating	93,103	O	O
+investigations	104,118	O	O
+of	119,121	O	O
+their	122,127	O	O
+morphology	128,138	O	O
+and	139,142	O	O
+the	143,146	O	O
+theory	147,153	O	O
+behind	154,160	O	O
+their	161,166	O	O
+origins	167,174	O	O
+.	174,175	O	O
+
+Jerks	176,181	O	B-Process
+are	182,185	O	O
+most	186,190	O	O
+commonly	191,199	O	O
+defined	200,207	O	O
+by	208,210	O	O
+their	211,216	O	O
+observed	217,225	O	O
+form	226,230	O	O
+at	231,233	O	O
+a	234,235	O	O
+single	236,242	O	O
+observatory	243,254	O	O
+as	255,257	O	O
+‘	258,259	O	O
+V’	259,261	O	O
+shapes	262,268	O	O
+in	269,271	O	O
+a	272,273	O	O
+single	274,280	O	O
+component	281,290	O	O
+of	291,293	O	O
+the	294,297	O	O
+geomagnetic	298,309	O	B-Process
+secular	310,317	O	I-Process
+variation	318,327	O	I-Process
+(	328,329	O	O
+SV	329,331	O	B-Process
+)	331,332	O	O
+,	332,333	O	O
+the	334,337	O	O
+first	338,343	O	O
+time	344,348	O	O
+derivative	349,359	O	O
+of	360,362	O	O
+the	363,366	O	O
+main	367,371	O	B-Material
+magnetic	372,380	O	I-Material
+field	381,386	O	I-Material
+(	387,388	O	O
+MF	388,390	O	B-Material
+)	390,391	O	O
+.	391,392	O	O
+
+The	393,396	O	O
+times	397,402	O	O
+of	403,405	O	O
+the	406,409	O	O
+gradient	410,418	O	B-Process
+changes	419,426	O	I-Process
+,	426,427	O	O
+which	428,433	O	O
+separate	434,442	O	O
+linear	443,449	O	O
+trends	450,456	O	O
+of	457,459	O	O
+several	460,467	O	O
+years	468,473	O	O
+,	473,474	O	O
+have	475,479	O	O
+associated	480,490	O	O
+step	491,495	O	O
+changes	496,503	O	O
+in	504,506	O	O
+the	507,510	O	O
+second	511,517	O	O
+time	518,522	O	O
+derivative	523,533	O	O
+of	534,536	O	O
+the	537,540	O	O
+MF	541,543	O	B-Material
+(	544,545	O	O
+secular	545,552	O	B-Process
+acceleration	553,565	O	I-Process
+(	566,567	O	O
+SA	567,569	O	B-Process
+)	569,570	O	O
+)	570,571	O	O
+and	572,575	O	O
+impulses	576,584	O	O
+in	585,587	O	O
+the	588,591	O	O
+third	592,597	O	O
+time	598,602	O	O
+derivative	603,613	O	O
+.	613,614	O	O
+
+The	615,618	O	O
+‘	619,620	O	O
+V’	620,622	O	O
+shape	623,628	O	O
+SV	629,631	O	O
+definition	632,642	O	O
+of	643,645	O	O
+jerks	646,651	O	B-Process
+includes	652,660	O	O
+an	661,663	O	O
+implicit	664,672	O	O
+expectation	673,684	O	O
+of	685,687	O	O
+a	688,689	O	O
+‘	690,691	O	B-Process
+large’	691,697	O	I-Process
+magnitude	698,707	O	I-Process
+step	708,712	O	I-Process
+change	713,719	O	I-Process
+in	720,722	O	O
+the	723,726	O	O
+gradient	727,735	O	O
+without	736,743	O	O
+definition	744,754	O	O
+of	755,757	O	O
+this	758,762	O	O
+scale	763,768	O	O
+or	769,771	O	O
+its	772,775	O	O
+threshold	776,785	O	O
+value	786,791	O	O
+other	792,797	O	O
+than	798,802	O	O
+the	803,806	O	O
+basic	807,812	O	O
+need	813,817	O	O
+for	818,821	O	O
+it	822,824	O	O
+to	825,827	O	O
+be	828,830	O	O
+observable	831,841	O	O
+in	842,844	O	O
+the	845,848	O	O
+data	849,853	O	O
+above	854,859	O	O
+the	860,863	O	O
+highly	864,870	O	O
+variable	871,879	O	O
+background	880,890	O	O
+noise	891,896	O	O
+.	896,897	O	O
+
+Jerks	898,903	O	B-Process
+can	904,907	O	O
+be	908,910	O	O
+described	911,920	O	O
+by	921,923	O	O
+their	924,929	O	O
+amplitude	930,939	O	O
+,	939,940	O	O
+that	941,945	O	O
+is	946,948	O	O
+,	948,949	O	O
+the	950,953	O	O
+difference	954,964	O	O
+in	965,967	O	O
+the	968,971	O	O
+gradients	972,981	O	O
+of	982,984	O	O
+the	985,988	O	O
+two	989,992	O	O
+linear	993,999	O	O
+SV	1000,1002	O	B-Process
+segments	1003,1011	O	I-Process
+about	1012,1017	O	O
+a	1018,1019	O	O
+jerk	1020,1024	O	B-Process
+,	1024,1025	O	O
+A	1026,1027	O	O
+=	1027,1028	O	O
+a2-a1	1028,1033	O	O
+,	1033,1034	O	O
+where	1035,1040	O	O
+a2	1041,1043	O	O
+is	1044,1046	O	O
+the	1047,1050	O	O
+gradient	1051,1059	O	O
+after	1060,1065	O	O
+the	1066,1069	O	O
+jerk	1070,1074	O	B-Process
+and	1075,1078	O	O
+a1	1079,1081	O	O
+is	1082,1084	O	O
+the	1085,1088	O	O
+gradient	1089,1097	O	O
+before	1098,1104	O	O
+the	1105,1108	O	O
+jerk	1109,1113	O	B-Process
+.	1113,1114	O	O
+
+This	1115,1119	O	O
+measure	1120,1127	O	O
+is	1128,1130	O	O
+essentially	1131,1142	O	O
+the	1143,1146	O	O
+best	1147,1151	O	O
+fit	1152,1155	O	O
+SA	1156,1158	O	B-Process
+change	1159,1165	O	I-Process
+across	1166,1172	O	O
+a	1173,1174	O	O
+jerk	1175,1179	O	B-Process
+.	1179,1180	O	O
+
+Jerk	1181,1185	O	B-Process
+amplitude	1186,1195	O	I-Process
+is	1196,1198	O	O
+thus	1199,1203	O	O
+positive	1204,1212	O	O
+for	1213,1216	O	O
+a	1217,1218	O	O
+positive	1219,1227	O	O
+step	1228,1232	O	O
+in	1233,1235	O	O
+SA	1236,1238	O	B-Process
+and	1239,1242	O	O
+negative	1243,1251	O	O
+for	1252,1255	O	O
+a	1256,1257	O	O
+negative	1258,1266	O	O
+step	1267,1271	O	O
+.	1271,1272	O	O
+
+Here	1273,1277	O	O
+we	1278,1280	O	O
+do	1281,1283	O	O
+not	1284,1287	O	O
+consider	1288,1296	O	O
+spatial	1297,1304	O	O
+extent	1305,1311	O	O
+in	1312,1314	O	O
+our	1315,1318	O	O
+definition	1319,1329	O	O
+and	1330,1333	O	O
+refer	1334,1339	O	O
+to	1340,1342	O	O
+individual	1343,1353	O	O
+features	1354,1362	O	O
+in	1363,1365	O	O
+one	1366,1369	O	O
+field	1370,1375	O	O
+component	1376,1385	O	O
+of	1386,1388	O	O
+a	1389,1390	O	O
+given	1391,1396	O	O
+observatory	1397,1408	O	O
+time	1409,1413	O	O
+series	1414,1420	O	O
+as	1421,1423	O	O
+a	1424,1425	O	O
+single	1426,1432	O	O
+jerk	1433,1437	O	B-Process
+.	1437,1438	O	O
 
 
 -DOCSTART- (S0031920113001222)
 
-Seismic	0	7	B-Process
-tomography	8	18	I-Process
-is	19	21	O
-a	22	23	O
-powerful	24	32	O
-tool	33	37	O
-to	38	40	O
-investigate	41	52	B-Task
-the	53	56	I-Task
-deep	57	61	I-Task
-structure	62	71	I-Task
-under	72	77	I-Task
-the	78	81	I-Task
-volcanoes	82	91	I-Task
-.	91	92	O
-
-With	93	97	O
-the	98	101	O
-recently	102	110	O
-rapid	111	116	O
-development	117	128	O
-of	129	131	O
-Chinese	132	139	O
-provincial	140	150	B-Process
-seismic	151	158	I-Process
-networks	159	167	I-Process
-(	168	169	O
-Zheng	169	174	O
-et	175	177	O
-al	178	180	O
-.	180	181	O
-,	181	182	O
-2009	183	187	O
-,	187	188	O
-2010	189	193	O
-)	193	194	O
-and	195	198	O
-some	199	203	O
-portable	204	212	B-Process
-seismic	213	220	I-Process
-arrays	221	227	I-Process
-(	228	229	O
-Hetland	229	236	O
-et	237	239	O
-al	240	242	O
-.	242	243	O
-,	243	244	O
-2004	245	249	O
-;	249	250	O
-Duan	251	255	O
-et	256	258	O
-al	259	261	O
-.	261	262	O
-,	262	263	O
-2009	264	268	O
-;	268	269	O
-Lei	270	273	O
-et	274	276	O
-al	277	279	O
-.	279	280	O
-,	280	281	O
-2012b	282	287	O
-)	287	288	O
-around	289	295	O
-the	296	299	O
-volcanoes	300	309	O
-,	309	310	O
-it	311	313	O
-has	314	317	O
-become	318	324	O
-possible	325	333	O
-to	334	336	O
-image	337	342	B-Process
-the	343	346	I-Process
-detailed	347	355	I-Process
-3-D	356	359	I-Process
-velocity	360	368	I-Process
-structure	369	378	I-Process
-under	379	384	O
-some	385	389	O
-of	390	392	O
-these	393	398	O
-volcanoes	399	408	O
-,	408	409	O
-where	410	415	O
-seismic	416	423	B-Material
-stations	424	432	I-Material
-are	433	436	O
-densely	437	444	O
-spaced	445	451	O
-.	451	452	O
-
-In	453	455	O
-this	456	460	O
-overview	461	469	O
-,	469	470	O
-we	471	473	O
-synthesize	474	484	B-Task
-the	485	488	I-Task
-results	489	496	I-Task
-from	497	501	I-Task
-the	502	505	I-Task
-deep	506	510	I-Task
-seismic	511	518	I-Task
-images	519	525	I-Task
-of	526	528	I-Task
-the	529	532	I-Task
-upper	533	538	I-Task
-mantle	539	545	I-Task
-under	546	551	O
-the	552	555	O
-Changbaishan	556	568	B-Material
-,	568	569	I-Material
-Tengchong	570	579	I-Material
-,	579	580	I-Material
-Hainan	581	587	I-Material
-volcanoes	588	597	I-Material
-as	598	600	I-Material
-well	601	605	I-Material
-as	606	608	I-Material
-the	609	612	I-Material
-Datong	613	619	I-Material
-volcano	620	627	O
-(	628	629	O
-Fig	629	632	O
-.	632	633	O
-
-1	634	635	O
-)	635	636	O
-.	636	637	O
-
-We	638	640	O
-also	641	645	O
-evaluate	646	654	O
-the	655	658	O
-advantages	659	669	B-Task
-of	670	672	I-Task
-recently	673	681	I-Task
-updated	682	689	I-Task
-seismic	690	697	I-Task
-tomographic	698	709	I-Task
-techniques	710	720	I-Task
-for	721	724	O
-deriving	725	733	O
-potential	734	743	O
-information	744	755	O
-.	755	756	O
-
-This	757	761	O
-work	762	766	O
-updates	767	774	O
-a	775	776	O
-previous	777	785	O
-review	786	792	O
-of	793	795	O
-Zhao	796	800	O
-and	801	804	O
-Liu	805	808	O
-(	809	810	O
-2010	810	814	O
-)	814	815	O
-on	816	818	O
-this	819	823	O
-topic	824	829	O
-,	829	830	O
-with	831	835	O
-more	836	840	O
-detailed	841	849	O
-synthesis	850	859	O
-of	860	862	O
-all	863	866	O
-the	867	870	O
-available	871	880	O
-information	881	892	O
-.	892	893	O
+Seismic	0,7	O	B-Process
+tomography	8,18	O	I-Process
+is	19,21	O	O
+a	22,23	O	O
+powerful	24,32	O	O
+tool	33,37	O	O
+to	38,40	O	O
+investigate	41,52	O	B-Task
+the	53,56	O	I-Task
+deep	57,61	O	I-Task
+structure	62,71	O	I-Task
+under	72,77	O	I-Task
+the	78,81	O	I-Task
+volcanoes	82,91	O	I-Task
+.	91,92	O	O
+
+With	93,97	O	O
+the	98,101	O	O
+recently	102,110	O	O
+rapid	111,116	O	O
+development	117,128	O	O
+of	129,131	O	O
+Chinese	132,139	O	O
+provincial	140,150	O	B-Process
+seismic	151,158	O	I-Process
+networks	159,167	O	I-Process
+(	168,169	O	O
+Zheng	169,174	O	O
+et	175,177	O	O
+al	178,180	O	O
+.	180,181	O	O
+,	181,182	O	O
+2009	183,187	O	O
+,	187,188	O	O
+2010	189,193	O	O
+)	193,194	O	O
+and	195,198	O	O
+some	199,203	O	O
+portable	204,212	O	B-Process
+seismic	213,220	O	I-Process
+arrays	221,227	O	I-Process
+(	228,229	O	O
+Hetland	229,236	O	O
+et	237,239	O	O
+al	240,242	O	O
+.	242,243	O	O
+,	243,244	O	O
+2004	245,249	O	O
+;	249,250	O	O
+Duan	251,255	O	O
+et	256,258	O	O
+al	259,261	O	O
+.	261,262	O	O
+,	262,263	O	O
+2009	264,268	O	O
+;	268,269	O	O
+Lei	270,273	O	O
+et	274,276	O	O
+al	277,279	O	O
+.	279,280	O	O
+,	280,281	O	O
+2012b	282,287	O	O
+)	287,288	O	O
+around	289,295	O	O
+the	296,299	O	O
+volcanoes	300,309	O	O
+,	309,310	O	O
+it	311,313	O	O
+has	314,317	O	O
+become	318,324	O	O
+possible	325,333	O	O
+to	334,336	O	O
+image	337,342	O	B-Process
+the	343,346	O	I-Process
+detailed	347,355	O	I-Process
+3-D	356,359	O	I-Process
+velocity	360,368	O	I-Process
+structure	369,378	O	I-Process
+under	379,384	O	O
+some	385,389	O	O
+of	390,392	O	O
+these	393,398	O	O
+volcanoes	399,408	O	O
+,	408,409	O	O
+where	410,415	O	O
+seismic	416,423	O	B-Material
+stations	424,432	O	I-Material
+are	433,436	O	O
+densely	437,444	O	O
+spaced	445,451	O	O
+.	451,452	O	O
+
+In	453,455	O	O
+this	456,460	O	O
+overview	461,469	O	O
+,	469,470	O	O
+we	471,473	O	O
+synthesize	474,484	O	B-Task
+the	485,488	O	I-Task
+results	489,496	O	I-Task
+from	497,501	O	I-Task
+the	502,505	O	I-Task
+deep	506,510	O	I-Task
+seismic	511,518	O	I-Task
+images	519,525	O	I-Task
+of	526,528	O	I-Task
+the	529,532	O	I-Task
+upper	533,538	O	I-Task
+mantle	539,545	O	I-Task
+under	546,551	O	O
+the	552,555	O	O
+Changbaishan	556,568	O	B-Material
+,	568,569	O	I-Material
+Tengchong	570,579	O	I-Material
+,	579,580	O	I-Material
+Hainan	581,587	O	I-Material
+volcanoes	588,597	O	I-Material
+as	598,600	O	I-Material
+well	601,605	O	I-Material
+as	606,608	O	I-Material
+the	609,612	O	I-Material
+Datong	613,619	O	I-Material
+volcano	620,627	O	O
+(	628,629	O	O
+Fig	629,632	O	O
+.	632,633	O	O
+
+1	634,635	O	O
+)	635,636	O	O
+.	636,637	O	O
+
+We	638,640	O	O
+also	641,645	O	O
+evaluate	646,654	O	O
+the	655,658	O	O
+advantages	659,669	O	B-Task
+of	670,672	O	I-Task
+recently	673,681	O	I-Task
+updated	682,689	O	I-Task
+seismic	690,697	O	I-Task
+tomographic	698,709	O	I-Task
+techniques	710,720	O	I-Task
+for	721,724	O	O
+deriving	725,733	O	O
+potential	734,743	O	O
+information	744,755	O	O
+.	755,756	O	O
+
+This	757,761	O	O
+work	762,766	O	O
+updates	767,774	O	O
+a	775,776	O	O
+previous	777,785	O	O
+review	786,792	O	O
+of	793,795	O	O
+Zhao	796,800	O	O
+and	801,804	O	O
+Liu	805,808	O	O
+(	809,810	O	O
+2010	810,814	O	O
+)	814,815	O	O
+on	816,818	O	O
+this	819,823	O	O
+topic	824,829	O	O
+,	829,830	O	O
+with	831,835	O	O
+more	836,840	O	O
+detailed	841,849	O	O
+synthesis	850,859	O	O
+of	860,862	O	O
+all	863,866	O	O
+the	867,870	O	O
+available	871,880	O	O
+information	881,892	O	O
+.	892,893	O	O
 
 
 -DOCSTART- (S0032386108010392)
 
-Microhardness	0	13	B-Task
-can	14	17	O
-be	18	20	O
-related	21	28	O
-to	29	31	O
-other	32	37	O
-macroscopic	38	49	O
-mechanical	50	60	O
-properties	61	71	O
-such	72	76	O
-as	77	79	O
-yield	80	85	O
-stress	86	92	O
-,	92	93	O
-σ	94	95	O
-,	95	96	O
-and	97	100	O
-elastic	101	108	O
-modulus	109	116	O
-,	116	117	O
-E	118	119	O
-,	119	120	O
-both	121	125	O
-derived	126	133	O
-from	134	138	O
-compression	139	150	B-Process
-testing	151	158	I-Process
-.	158	159	O
-
-For	160	163	O
-work	164	168	B-Material
--	168	169	I-Material
-hardened	169	177	I-Material
-metals	178	184	I-Material
-,	184	185	O
-Tabor	186	191	O
-derived	192	199	B-Process
-a	200	201	I-Process
-direct	202	208	I-Process
-proportionality	209	224	I-Process
-between	225	232	O
-hardness	233	241	O
-and	242	245	O
-compressive	246	257	O
-yield	258	263	O
-stress	264	270	O
-:	270	271	O
-H≈3σ	272	276	O
-[	277	278	O
-20	278	280	O
-]	280	281	O
-.	281	282	O
-
-However	283	290	O
-,	290	291	O
-it	292	294	O
-was	295	298	O
-soon	299	303	O
-realized	304	312	O
-that	313	317	O
-Tabor	318	323	O
-'s	323	325	O
-relationship	326	338	O
-only	339	343	O
-applies	344	351	O
-to	352	354	O
-materials	355	364	B-Material
-that	365	369	I-Material
-exhibit	370	377	I-Material
-full	378	382	I-Material
-plasticity	383	393	I-Material
-[	394	395	O
-9,10	395	399	O
-]	399	400	O
-.	400	401	O
-
-Deviations	402	412	B-Task
-from	413	417	I-Task
-this	418	422	I-Task
-relationship	423	435	I-Task
-have	436	440	O
-been	441	445	O
-reported	446	454	O
-for	455	458	O
-a	459	460	O
-number	461	467	O
-of	468	470	O
-metals	471	477	O
-,	477	478	O
-glasses	479	486	B-Material
-and	487	490	O
-polymers	491	499	B-Material
-where	500	505	I-Material
-the	506	509	I-Material
-elastic	510	517	I-Material
-strains	518	525	I-Material
-are	526	529	O
-non	530	533	O
--	533	534	O
-negligible	534	544	O
-[	545	546	O
-9	546	547	O
-]	547	548	O
-.	548	549	O
-
-Hence	550	555	O
-,	555	556	O
-the	557	560	B-Task
-different	561	570	I-Task
-expressions	571	582	I-Task
-describing	583	593	I-Task
-the	594	597	I-Task
-correlation	598	609	I-Task
-of	610	612	I-Task
-hardness	613	621	I-Task
-with	622	626	I-Task
-conventional	627	639	I-Task
-macroscopic	640	651	I-Task
-mechanical	652	662	I-Task
-properties	663	673	I-Task
-rely	674	678	O
-on	679	681	O
-the	682	685	O
-validity	686	694	O
-of	695	697	O
-the	698	701	O
-above	702	707	O
--	707	708	O
-mentioned	708	717	O
-elasto	718	724	O
--	724	725	O
-plastic	725	732	O
-models	733	739	O
-.	739	740	O
-
-In	741	743	O
-this	744	748	O
-way	749	752	O
-,	752	753	O
-hardness	754	762	O
-and	763	766	O
-yield	767	772	O
-stress	773	779	O
-no	780	782	O
-longer	783	789	O
-hold	790	794	B-Process
-direct	795	801	I-Process
-proportionality	802	817	I-Process
-but	818	821	I-Process
-their	822	827	I-Process
-relationship	828	840	I-Process
-depends	841	848	O
-on	849	851	O
-the	852	855	O
-specific	856	864	B-Task
-material	865	873	I-Task
-properties	874	884	I-Task
-,	884	885	I-Task
-such	886	890	O
-as	891	893	O
-Poisson	894	901	O
-'s	901	903	O
-ratio	904	909	O
-and	910	913	O
-elastic	914	921	O
-modulus	922	929	O
-[	930	931	O
-9,11–13	931	938	O
-]	938	939	O
-.	939	940	O
-
-It	941	943	O
-has	944	947	O
-been	948	952	O
-shown	953	958	O
-that	959	963	O
-these	964	969	O
-elasto	970	976	O
--	976	977	O
-plastic	977	984	O
-models	985	991	O
-not	992	995	O
-only	996	1000	O
-satisfactorily	1001	1015	O
-explain	1016	1023	O
-an	1024	1026	O
-H/σ	1027	1030	O
-ratio	1031	1036	O
-of	1037	1039	O
-≈2	1040	1042	O
-for	1043	1046	O
-a	1047	1048	O
-number	1049	1055	O
-of	1056	1058	O
-polyethylene	1059	1071	B-Material
-materials	1072	1081	I-Material
-of	1082	1084	O
-different	1085	1094	O
-nature	1095	1101	O
-,	1101	1102	O
-but	1103	1106	O
-also	1107	1111	O
-theoretically	1112	1125	O
-account	1126	1133	O
-for	1134	1137	O
-the	1138	1141	O
-range	1142	1147	O
-of	1148	1150	O
-H	1151	1152	O
-/	1152	1153	O
-E	1153	1154	O
-ratios	1155	1161	O
-experimentally	1162	1176	O
-determined	1177	1187	O
-[	1188	1189	O
-21	1189	1191	O
-]	1191	1192	O
-.	1192	1193	O
+Microhardness	0,13	O	B-Task
+can	14,17	O	O
+be	18,20	O	O
+related	21,28	O	O
+to	29,31	O	O
+other	32,37	O	O
+macroscopic	38,49	O	O
+mechanical	50,60	O	O
+properties	61,71	O	O
+such	72,76	O	O
+as	77,79	O	O
+yield	80,85	O	O
+stress	86,92	O	O
+,	92,93	O	O
+σ	94,95	O	O
+,	95,96	O	O
+and	97,100	O	O
+elastic	101,108	O	O
+modulus	109,116	O	O
+,	116,117	O	O
+E	118,119	O	O
+,	119,120	O	O
+both	121,125	O	O
+derived	126,133	O	O
+from	134,138	O	O
+compression	139,150	O	B-Process
+testing	151,158	O	I-Process
+.	158,159	O	O
+
+For	160,163	O	O
+work	164,168	O	B-Material
+-	168,169	O	I-Material
+hardened	169,177	O	I-Material
+metals	178,184	O	I-Material
+,	184,185	O	O
+Tabor	186,191	O	O
+derived	192,199	O	B-Process
+a	200,201	O	I-Process
+direct	202,208	O	I-Process
+proportionality	209,224	O	I-Process
+between	225,232	O	O
+hardness	233,241	O	O
+and	242,245	O	O
+compressive	246,257	O	O
+yield	258,263	O	O
+stress	264,270	O	O
+:	270,271	O	O
+H≈3σ	272,276	O	O
+[	277,278	O	O
+20	278,280	O	O
+]	280,281	O	O
+.	281,282	O	O
+
+However	283,290	O	O
+,	290,291	O	O
+it	292,294	O	O
+was	295,298	O	O
+soon	299,303	O	O
+realized	304,312	O	O
+that	313,317	O	O
+Tabor	318,323	O	O
+'s	323,325	O	O
+relationship	326,338	O	O
+only	339,343	O	O
+applies	344,351	O	O
+to	352,354	O	O
+materials	355,364	O	B-Material
+that	365,369	O	I-Material
+exhibit	370,377	O	I-Material
+full	378,382	O	I-Material
+plasticity	383,393	O	I-Material
+[	394,395	O	O
+9,10	395,399	O	O
+]	399,400	O	O
+.	400,401	O	O
+
+Deviations	402,412	O	B-Task
+from	413,417	O	I-Task
+this	418,422	O	I-Task
+relationship	423,435	O	I-Task
+have	436,440	O	O
+been	441,445	O	O
+reported	446,454	O	O
+for	455,458	O	O
+a	459,460	O	O
+number	461,467	O	O
+of	468,470	O	O
+metals	471,477	O	O
+,	477,478	O	O
+glasses	479,486	O	B-Material
+and	487,490	O	O
+polymers	491,499	O	B-Material
+where	500,505	O	I-Material
+the	506,509	O	I-Material
+elastic	510,517	O	I-Material
+strains	518,525	O	I-Material
+are	526,529	O	O
+non	530,533	O	O
+-	533,534	O	O
+negligible	534,544	O	O
+[	545,546	O	O
+9	546,547	O	O
+]	547,548	O	O
+.	548,549	O	O
+
+Hence	550,555	O	O
+,	555,556	O	O
+the	557,560	O	B-Task
+different	561,570	O	I-Task
+expressions	571,582	O	I-Task
+describing	583,593	O	I-Task
+the	594,597	O	I-Task
+correlation	598,609	O	I-Task
+of	610,612	O	I-Task
+hardness	613,621	O	I-Task
+with	622,626	O	I-Task
+conventional	627,639	O	I-Task
+macroscopic	640,651	O	I-Task
+mechanical	652,662	O	I-Task
+properties	663,673	O	I-Task
+rely	674,678	O	O
+on	679,681	O	O
+the	682,685	O	O
+validity	686,694	O	O
+of	695,697	O	O
+the	698,701	O	O
+above	702,707	O	O
+-	707,708	O	O
+mentioned	708,717	O	O
+elasto	718,724	O	O
+-	724,725	O	O
+plastic	725,732	O	O
+models	733,739	O	O
+.	739,740	O	O
+
+In	741,743	O	O
+this	744,748	O	O
+way	749,752	O	O
+,	752,753	O	O
+hardness	754,762	O	O
+and	763,766	O	O
+yield	767,772	O	O
+stress	773,779	O	O
+no	780,782	O	O
+longer	783,789	O	O
+hold	790,794	O	B-Process
+direct	795,801	O	I-Process
+proportionality	802,817	O	I-Process
+but	818,821	O	I-Process
+their	822,827	O	I-Process
+relationship	828,840	O	I-Process
+depends	841,848	O	O
+on	849,851	O	O
+the	852,855	O	O
+specific	856,864	O	B-Task
+material	865,873	O	I-Task
+properties	874,884	O	I-Task
+,	884,885	O	I-Task
+such	886,890	O	O
+as	891,893	O	O
+Poisson	894,901	O	O
+'s	901,903	O	O
+ratio	904,909	O	O
+and	910,913	O	O
+elastic	914,921	O	O
+modulus	922,929	O	O
+[	930,931	O	O
+9,11–13	931,938	O	O
+]	938,939	O	O
+.	939,940	O	O
+
+It	941,943	O	O
+has	944,947	O	O
+been	948,952	O	O
+shown	953,958	O	O
+that	959,963	O	O
+these	964,969	O	O
+elasto	970,976	O	O
+-	976,977	O	O
+plastic	977,984	O	O
+models	985,991	O	O
+not	992,995	O	O
+only	996,1000	O	O
+satisfactorily	1001,1015	O	O
+explain	1016,1023	O	O
+an	1024,1026	O	O
+H/σ	1027,1030	O	O
+ratio	1031,1036	O	O
+of	1037,1039	O	O
+≈2	1040,1042	O	O
+for	1043,1046	O	O
+a	1047,1048	O	O
+number	1049,1055	O	O
+of	1056,1058	O	O
+polyethylene	1059,1071	O	B-Material
+materials	1072,1081	O	I-Material
+of	1082,1084	O	O
+different	1085,1094	O	O
+nature	1095,1101	O	O
+,	1101,1102	O	O
+but	1103,1106	O	O
+also	1107,1111	O	O
+theoretically	1112,1125	O	O
+account	1126,1133	O	O
+for	1134,1137	O	O
+the	1138,1141	O	O
+range	1142,1147	O	O
+of	1148,1150	O	O
+H	1151,1152	O	O
+/	1152,1153	O	O
+E	1153,1154	O	O
+ratios	1155,1161	O	O
+experimentally	1162,1176	O	O
+determined	1177,1187	O	O
+[	1188,1189	O	O
+21	1189,1191	O	O
+]	1191,1192	O	O
+.	1192,1193	O	O
 
 
 -DOCSTART- (S003238610801080X)
 
-Up	0	2	O
-to	3	5	O
-now	6	9	O
-,	9	10	O
-morphological	11	24	B-Task
-studies	25	32	I-Task
-of	33	35	O
-the	36	39	O
-multi	40	45	B-Material
--	45	46	I-Material
-component	46	55	I-Material
-polymeric	56	65	I-Material
-materials	66	75	I-Material
-have	76	80	O
-been	81	85	O
-carried	86	93	O
-out	94	97	O
-by	98	100	O
-various	101	108	O
-microscopic	109	120	B-Process
-and	121	124	I-Process
-scattering	125	135	I-Process
-methods	136	143	I-Process
-.	143	144	O
-
-Optical	145	152	B-Material
-microscopes	153	164	I-Material
-,	164	165	O
-transmission	166	178	B-Material
-electron	179	187	I-Material
-microscopes	188	199	I-Material
-(	200	201	O
-TEMs	201	205	B-Material
-)	205	206	O
-,	206	207	O
-scanning	208	216	B-Material
-electron	217	225	I-Material
-microscopes	226	237	I-Material
-(	238	239	O
-SEMs	239	243	B-Material
-)	243	244	O
-and	245	248	O
-atomic	249	255	B-Material
-force	256	261	I-Material
-microscopes	262	273	I-Material
-(	274	275	O
-AFMs	275	279	B-Material
-)	279	280	O
-are	281	284	O
-commercially	285	297	O
-available	298	307	O
-and	308	311	O
-widely	312	318	O
-used	319	323	O
-.	323	324	O
-
-The	325	328	O
-biggest	329	336	O
-advantage	337	346	O
-of	347	349	O
-microscopy	350	360	B-Task
-is	361	363	O
-that	364	368	O
-they	369	373	O
-provide	374	381	O
-intuitive	382	391	O
-real	392	396	O
--	396	397	O
-space	397	402	O
-representations	403	418	O
-of	419	421	O
-the	422	425	O
-various	426	433	O
-morphologies	434	446	O
-.	446	447	O
-
-However	448	455	O
-,	455	456	O
-when	457	461	O
-it	462	464	O
-comes	465	470	O
-to	471	473	O
-“	474	475	O
-measurements	475	487	O
-”	487	488	O
-,	488	489	O
-especially	490	500	O
-in	501	503	O
-a	504	505	O
-quantitative	506	518	O
-way	519	522	O
-,	522	523	O
-microscopy	524	534	B-Task
-sometimes	535	544	O
-lacks	545	550	O
-a	551	552	O
-statistical	553	564	O
-accuracy	565	573	O
-due	574	577	O
-to	578	580	O
-the	581	584	O
-small	585	590	O
-field	591	596	O
-of	597	599	O
-view	600	604	O
-.	604	605	O
-
-In	606	608	O
-contrast	609	617	O
-,	617	618	O
-the	619	622	O
-scattering	623	633	B-Process
-methods	634	641	I-Process
-provide	642	649	O
-much	650	654	O
-a	655	656	O
-superior	657	665	O
-statistical	666	677	O
-accuracy	678	686	O
-than	687	691	O
-that	692	696	O
-of	697	699	O
-microscopy	700	710	B-Task
-simply	711	717	O
-because	718	725	O
-the	726	729	O
-observation	730	741	O
-volume	742	748	O
-is	749	751	O
-larger	752	758	O
-than	759	763	O
-that	764	768	O
-of	769	771	O
-the	772	775	O
-microscopes	776	787	B-Material
-.	787	788	O
-
-One	789	792	O
-must	793	797	O
-remember	798	806	O
-,	806	807	O
-however	808	815	O
-,	815	816	O
-that	817	821	O
-the	822	825	O
-scattering	826	836	B-Process
-methods	837	844	I-Process
-normally	845	853	O
-require	854	861	O
-“	862	863	B-Process
-(	863	864	I-Process
-hypothesized	864	876	I-Process
-)	876	877	I-Process
-models	878	884	I-Process
-”	884	885	I-Process
-for	886	889	O
-data	890	894	B-Task
-analysis	895	903	I-Task
-in	904	906	O
-advance	907	914	O
-:	914	915	O
-They	916	920	O
-do	921	923	O
-not	924	927	O
-provide	928	935	O
-an	936	938	O
-intuitive	939	948	O
-insight	949	956	O
-into	957	961	O
-the	962	965	O
-morphologies	966	978	O
-as	979	981	O
-does	982	986	O
-microscopy	987	997	B-Task
-.	997	998	O
-
-After	999	1004	O
-all	1005	1008	O
-,	1008	1009	O
-for	1010	1013	O
-the	1014	1017	O
-complete	1018	1026	O
-characterization	1027	1043	O
-of	1044	1046	O
-a	1047	1048	O
-specific	1049	1057	O
-morphology	1058	1068	O
-,	1068	1069	O
-one	1070	1073	O
-may	1074	1077	O
-need	1078	1082	O
-to	1083	1085	O
-first	1086	1091	O
-know	1092	1096	O
-the	1097	1100	O
-morphologies	1101	1113	O
-from	1114	1118	O
-the	1119	1122	O
-microscopy	1123	1133	B-Task
-and	1134	1137	O
-subsequently	1138	1150	O
-to	1151	1153	O
-evaluate	1154	1162	O
-the	1163	1166	O
-structural	1167	1177	O
-parameters	1178	1188	O
-by	1189	1191	O
-scattering	1192	1202	O
-on	1203	1205	O
-the	1206	1209	O
-basis	1210	1215	O
-of	1216	1218	O
-the	1219	1222	O
-morphology	1223	1233	O
-;	1233	1234	O
-the	1235	1238	O
-two	1239	1242	O
-methods	1243	1250	O
-are	1251	1254	O
-complementary	1255	1268	O
-.	1268	1269	O
+Up	0,2	O	O
+to	3,5	O	O
+now	6,9	O	O
+,	9,10	O	O
+morphological	11,24	O	B-Task
+studies	25,32	O	I-Task
+of	33,35	O	O
+the	36,39	O	O
+multi	40,45	O	B-Material
+-	45,46	O	I-Material
+component	46,55	O	I-Material
+polymeric	56,65	O	I-Material
+materials	66,75	O	I-Material
+have	76,80	O	O
+been	81,85	O	O
+carried	86,93	O	O
+out	94,97	O	O
+by	98,100	O	O
+various	101,108	O	O
+microscopic	109,120	O	B-Process
+and	121,124	O	I-Process
+scattering	125,135	O	I-Process
+methods	136,143	O	I-Process
+.	143,144	O	O
+
+Optical	145,152	O	B-Material
+microscopes	153,164	O	I-Material
+,	164,165	O	O
+transmission	166,178	O	B-Material
+electron	179,187	O	I-Material
+microscopes	188,199	O	I-Material
+(	200,201	O	O
+TEMs	201,205	O	B-Material
+)	205,206	O	O
+,	206,207	O	O
+scanning	208,216	O	B-Material
+electron	217,225	O	I-Material
+microscopes	226,237	O	I-Material
+(	238,239	O	O
+SEMs	239,243	O	B-Material
+)	243,244	O	O
+and	245,248	O	O
+atomic	249,255	O	B-Material
+force	256,261	O	I-Material
+microscopes	262,273	O	I-Material
+(	274,275	O	O
+AFMs	275,279	O	B-Material
+)	279,280	O	O
+are	281,284	O	O
+commercially	285,297	O	O
+available	298,307	O	O
+and	308,311	O	O
+widely	312,318	O	O
+used	319,323	O	O
+.	323,324	O	O
+
+The	325,328	O	O
+biggest	329,336	O	O
+advantage	337,346	O	O
+of	347,349	O	O
+microscopy	350,360	O	B-Task
+is	361,363	O	O
+that	364,368	O	O
+they	369,373	O	O
+provide	374,381	O	O
+intuitive	382,391	O	O
+real	392,396	O	O
+-	396,397	O	O
+space	397,402	O	O
+representations	403,418	O	O
+of	419,421	O	O
+the	422,425	O	O
+various	426,433	O	O
+morphologies	434,446	O	O
+.	446,447	O	O
+
+However	448,455	O	O
+,	455,456	O	O
+when	457,461	O	O
+it	462,464	O	O
+comes	465,470	O	O
+to	471,473	O	O
+“	474,475	O	O
+measurements	475,487	O	O
+”	487,488	O	O
+,	488,489	O	O
+especially	490,500	O	O
+in	501,503	O	O
+a	504,505	O	O
+quantitative	506,518	O	O
+way	519,522	O	O
+,	522,523	O	O
+microscopy	524,534	O	B-Task
+sometimes	535,544	O	O
+lacks	545,550	O	O
+a	551,552	O	O
+statistical	553,564	O	O
+accuracy	565,573	O	O
+due	574,577	O	O
+to	578,580	O	O
+the	581,584	O	O
+small	585,590	O	O
+field	591,596	O	O
+of	597,599	O	O
+view	600,604	O	O
+.	604,605	O	O
+
+In	606,608	O	O
+contrast	609,617	O	O
+,	617,618	O	O
+the	619,622	O	O
+scattering	623,633	O	B-Process
+methods	634,641	O	I-Process
+provide	642,649	O	O
+much	650,654	O	O
+a	655,656	O	O
+superior	657,665	O	O
+statistical	666,677	O	O
+accuracy	678,686	O	O
+than	687,691	O	O
+that	692,696	O	O
+of	697,699	O	O
+microscopy	700,710	O	B-Task
+simply	711,717	O	O
+because	718,725	O	O
+the	726,729	O	O
+observation	730,741	O	O
+volume	742,748	O	O
+is	749,751	O	O
+larger	752,758	O	O
+than	759,763	O	O
+that	764,768	O	O
+of	769,771	O	O
+the	772,775	O	O
+microscopes	776,787	O	B-Material
+.	787,788	O	O
+
+One	789,792	O	O
+must	793,797	O	O
+remember	798,806	O	O
+,	806,807	O	O
+however	808,815	O	O
+,	815,816	O	O
+that	817,821	O	O
+the	822,825	O	O
+scattering	826,836	O	B-Process
+methods	837,844	O	I-Process
+normally	845,853	O	O
+require	854,861	O	O
+“	862,863	O	B-Process
+(	863,864	O	I-Process
+hypothesized	864,876	O	I-Process
+)	876,877	O	I-Process
+models	878,884	O	I-Process
+”	884,885	O	I-Process
+for	886,889	O	O
+data	890,894	O	B-Task
+analysis	895,903	O	I-Task
+in	904,906	O	O
+advance	907,914	O	O
+:	914,915	O	O
+They	916,920	O	O
+do	921,923	O	O
+not	924,927	O	O
+provide	928,935	O	O
+an	936,938	O	O
+intuitive	939,948	O	O
+insight	949,956	O	O
+into	957,961	O	O
+the	962,965	O	O
+morphologies	966,978	O	O
+as	979,981	O	O
+does	982,986	O	O
+microscopy	987,997	O	B-Task
+.	997,998	O	O
+
+After	999,1004	O	O
+all	1005,1008	O	O
+,	1008,1009	O	O
+for	1010,1013	O	O
+the	1014,1017	O	O
+complete	1018,1026	O	O
+characterization	1027,1043	O	O
+of	1044,1046	O	O
+a	1047,1048	O	O
+specific	1049,1057	O	O
+morphology	1058,1068	O	O
+,	1068,1069	O	O
+one	1070,1073	O	O
+may	1074,1077	O	O
+need	1078,1082	O	O
+to	1083,1085	O	O
+first	1086,1091	O	O
+know	1092,1096	O	O
+the	1097,1100	O	O
+morphologies	1101,1113	O	O
+from	1114,1118	O	O
+the	1119,1122	O	O
+microscopy	1123,1133	O	B-Task
+and	1134,1137	O	O
+subsequently	1138,1150	O	O
+to	1151,1153	O	O
+evaluate	1154,1162	O	O
+the	1163,1166	O	O
+structural	1167,1177	O	O
+parameters	1178,1188	O	O
+by	1189,1191	O	O
+scattering	1192,1202	O	O
+on	1203,1205	O	O
+the	1206,1209	O	O
+basis	1210,1215	O	O
+of	1216,1218	O	O
+the	1219,1222	O	O
+morphology	1223,1233	O	O
+;	1233,1234	O	O
+the	1235,1238	O	O
+two	1239,1242	O	O
+methods	1243,1250	O	O
+are	1251,1254	O	O
+complementary	1255,1268	O	O
+.	1268,1269	O	O
 
 
 -DOCSTART- (S003238610900086X)
 
-We	0	2	O
-deal	3	7	O
-with	8	12	O
-the	13	16	O
-intensity	17	26	O
-scattered	27	36	O
-by	37	39	O
-a	40	41	O
-random	42	48	O
-mixture	49	56	O
-of	57	59	O
-deuterated	60	70	B-Process
-/	70	71	O
-hydrogenated	71	83	B-Process
-PE	84	86	B-Material
-chains	87	93	I-Material
-.	93	94	O
-
-The	95	98	O
-algorithm	99	108	O
-used	109	113	O
-by	114	116	O
-us	117	119	O
-to	120	122	O
-evaluate	123	131	O
-the	132	135	O
-Kratky	136	142	B-Material
-plots	143	148	I-Material
-by	149	151	O
-sets	152	156	O
-of	157	159	O
-parallel	160	168	B-Material
-polymer	169	176	I-Material
-stems	177	182	I-Material
-is	183	185	O
-very	186	190	O
-simplified	191	201	O
-.	201	202	O
-
-We	203	205	O
-checked	206	213	O
-it	214	216	O
-to	217	219	O
-be	220	222	O
-adequate	223	231	O
-in	232	234	O
-the	235	238	O
-reciprocal	239	249	O
-coordinate	250	260	O
-range	261	266	O
-under	267	272	O
-investigation	273	286	O
-[	287	288	O
-0<q(=4πsinθ/λ)≤0.25Å−1	288	310	O
-]	310	311	O
-comparing	312	321	O
-the	322	325	O
-results	326	333	O
-with	334	338	O
-more	339	343	O
-precise	344	351	O
-calculations	352	364	B-Task
-.	364	365	O
-
-The	366	369	O
-scattering	370	380	B-Material
-centres	381	388	I-Material
-are	389	392	O
-identified	393	403	O
-with	404	408	O
-pseudo	409	415	B-Material
--	415	416	I-Material
-atoms	416	421	I-Material
-repeating	422	431	O
-after	432	437	O
-a	438	439	O
-constant	440	448	O
-distance	449	457	O
-of	458	460	O
-1.27Å	461	466	O
-along	467	472	O
-straight	473	481	O
-lines	482	487	O
-coinciding	488	498	O
-with	499	503	O
-the	504	507	O
-stem	508	512	B-Material
-axes	513	517	I-Material
-,	517	518	O
-100	519	522	O
-scattering	523	533	O
-centres	534	541	O
-being	542	547	O
-placed	548	554	O
-on	555	557	O
-each	558	562	O
-stem	563	567	B-Material
-;	567	568	O
-the	569	572	O
-scattering	573	583	B-Process
-by	584	586	O
-atoms	587	592	B-Material
-belonging	593	602	O
-to	603	605	O
-chain	606	611	B-Material
-folds	612	617	I-Material
-is	618	620	O
-neglected	621	630	O
-.	630	631	O
-
-The	632	635	O
-parallel	636	644	B-Material
-stem	645	649	I-Material
-axes	650	654	I-Material
-are	655	658	O
-disposed	659	667	O
-according	668	677	O
-to	678	680	O
-a	681	682	O
-hexagonal	683	692	O
-setting	693	700	O
-–	701	702	O
-a	703	704	O
-rough	705	710	O
-approximation	711	724	O
-to	725	727	O
-the	728	731	O
-monoclinic	732	742	O
-,	742	743	O
-pseudo	744	750	O
--	750	751	O
-hexagonal	751	760	O
-structure	761	770	O
-of	771	773	O
-PE	774	776	B-Material
-–	777	778	O
-and	779	782	O
-the	783	786	O
-scattering	787	797	O
-centres	798	805	O
-have	806	810	O
-the	811	814	O
-same	815	819	O
-axial	820	825	O
-coordinates	826	837	O
-in	838	840	O
-all	841	844	O
-the	845	848	O
-stems	849	854	B-Material
-.	854	855	O
-
-Defining	856	864	O
-an	865	867	O
-integer	868	875	O
-i	876	877	O
-going	878	883	O
-from	884	888	O
-1	889	890	O
-to	891	893	O
-the	894	897	O
-total	898	903	O
-number	904	910	O
-ns·100	911	917	O
-of	918	920	O
-scattering	921	931	B-Material
-centres	932	939	I-Material
-,	939	940	O
-we	941	943	O
-have	944	948	O
-(	949	950	O
-q<1	950	953	O
-)	953	954	O
-
-[	955	956	O
-9](1A)q2·I(q)=C·(bH−bD)2∑i=1ns·100∑j=1ns·1004πqsin(q·dij)dij;dij2=Δij2+(zj−zi)2;q=2πsinθλwhere	956	1050	O
-bH	1051	1053	O
-,	1053	1054	O
-bD	1055	1057	O
-respectively	1058	1070	O
-are	1071	1074	O
-the	1075	1078	O
-scattering	1079	1089	O
-lengths	1090	1097	O
-of	1098	1100	O
-hydrogen	1101	1109	B-Material
-and	1110	1113	O
-deuterium	1114	1123	B-Material
-,	1123	1124	O
-dij	1125	1128	O
-is	1129	1131	O
-the	1132	1135	O
-distance	1136	1144	O
-between	1145	1152	O
-C	1153	1154	B-Material
-atoms	1155	1160	I-Material
-,	1160	1161	O
-2θ	1162	1164	O
-is	1165	1167	O
-the	1168	1171	O
-diffraction	1172	1183	O
-angle	1184	1189	O
-and	1190	1193	O
-λ	1194	1195	O
-the	1196	1199	O
-wavelength	1200	1210	O
-.	1210	1211	O
-
-The	1212	1215	O
-i	1216	1217	O
--	1217	1218	O
-th	1218	1220	O
-C	1221	1222	O
-atom	1223	1227	O
-coordinate	1228	1238	O
-along	1239	1244	O
-the	1245	1248	O
-stem	1249	1253	O
-axis	1254	1258	O
-is	1259	1261	O
-zi	1262	1264	O
-
-and	1265	1268	O
-Δij	1269	1272	O
-is	1273	1275	O
-the	1276	1279	O
-distance	1280	1288	O
-between	1289	1296	O
-the	1297	1300	O
-stem	1301	1305	O
-axes	1306	1310	O
-where	1311	1316	O
-the	1317	1320	O
-atoms	1321	1326	O
-i	1327	1328	O
-and	1329	1332	O
-j	1333	1334	O
-belong	1335	1341	O
-.	1341	1342	O
-
-For	1343	1346	O
-all	1347	1350	O
-the	1351	1354	O
-stems	1355	1360	O
-we	1361	1363	O
-have	1364	1368	O
-the	1369	1372	O
-same	1373	1377	O
-set	1378	1381	O
-of	1382	1384	O
-zi	1385	1387	O
-coordinates	1388	1399	O
-.	1399	1400	O
-
-The	1401	1404	O
-sum	1405	1408	O
-in	1409	1411	O
-Eq	1412	1414	O
-.	1414	1415	O
-
-(	1416	1417	O
-1A	1417	1419	O
-)	1419	1420	O
-is	1421	1423	O
-extended	1424	1432	O
-to	1433	1435	O
-all	1436	1439	O
-the	1440	1443	O
-stems	1444	1449	B-Material
-of	1450	1452	O
-the	1453	1456	O
-crystalline	1457	1468	B-Material
-domain	1469	1475	O
-,	1475	1476	O
-see	1477	1480	O
-Figs	1481	1485	O
-.	1485	1486	O
-
-2	1487	1488	O
-and	1489	1492	O
-10	1493	1495	O
-for	1496	1499	O
-examples	1500	1508	O
-.	1508	1509	O
+We	0,2	O	O
+deal	3,7	O	O
+with	8,12	O	O
+the	13,16	O	O
+intensity	17,26	O	O
+scattered	27,36	O	O
+by	37,39	O	O
+a	40,41	O	O
+random	42,48	O	O
+mixture	49,56	O	O
+of	57,59	O	O
+deuterated	60,70	O	B-Process
+/	70,71	O	O
+hydrogenated	71,83	O	B-Process
+PE	84,86	O	B-Material
+chains	87,93	O	I-Material
+.	93,94	O	O
+
+The	95,98	O	O
+algorithm	99,108	O	O
+used	109,113	O	O
+by	114,116	O	O
+us	117,119	O	O
+to	120,122	O	O
+evaluate	123,131	O	O
+the	132,135	O	O
+Kratky	136,142	O	B-Material
+plots	143,148	O	I-Material
+by	149,151	O	O
+sets	152,156	O	O
+of	157,159	O	O
+parallel	160,168	O	B-Material
+polymer	169,176	O	I-Material
+stems	177,182	O	I-Material
+is	183,185	O	O
+very	186,190	O	O
+simplified	191,201	O	O
+.	201,202	O	O
+
+We	203,205	O	O
+checked	206,213	O	O
+it	214,216	O	O
+to	217,219	O	O
+be	220,222	O	O
+adequate	223,231	O	O
+in	232,234	O	O
+the	235,238	O	O
+reciprocal	239,249	O	O
+coordinate	250,260	O	O
+range	261,266	O	O
+under	267,272	O	O
+investigation	273,286	O	O
+[	287,288	O	O
+0<q(=4πsinθ/λ)≤0.25Å−1	288,310	O	O
+]	310,311	O	O
+comparing	312,321	O	O
+the	322,325	O	O
+results	326,333	O	O
+with	334,338	O	O
+more	339,343	O	O
+precise	344,351	O	O
+calculations	352,364	O	B-Task
+.	364,365	O	O
+
+The	366,369	O	O
+scattering	370,380	O	B-Material
+centres	381,388	O	I-Material
+are	389,392	O	O
+identified	393,403	O	O
+with	404,408	O	O
+pseudo	409,415	O	B-Material
+-	415,416	O	I-Material
+atoms	416,421	O	I-Material
+repeating	422,431	O	O
+after	432,437	O	O
+a	438,439	O	O
+constant	440,448	O	O
+distance	449,457	O	O
+of	458,460	O	O
+1.27Å	461,466	O	O
+along	467,472	O	O
+straight	473,481	O	O
+lines	482,487	O	O
+coinciding	488,498	O	O
+with	499,503	O	O
+the	504,507	O	O
+stem	508,512	O	B-Material
+axes	513,517	O	I-Material
+,	517,518	O	O
+100	519,522	O	O
+scattering	523,533	O	O
+centres	534,541	O	O
+being	542,547	O	O
+placed	548,554	O	O
+on	555,557	O	O
+each	558,562	O	O
+stem	563,567	O	B-Material
+;	567,568	O	O
+the	569,572	O	O
+scattering	573,583	O	B-Process
+by	584,586	O	O
+atoms	587,592	O	B-Material
+belonging	593,602	O	O
+to	603,605	O	O
+chain	606,611	O	B-Material
+folds	612,617	O	I-Material
+is	618,620	O	O
+neglected	621,630	O	O
+.	630,631	O	O
+
+The	632,635	O	O
+parallel	636,644	O	B-Material
+stem	645,649	O	I-Material
+axes	650,654	O	I-Material
+are	655,658	O	O
+disposed	659,667	O	O
+according	668,677	O	O
+to	678,680	O	O
+a	681,682	O	O
+hexagonal	683,692	O	O
+setting	693,700	O	O
+–	701,702	O	O
+a	703,704	O	O
+rough	705,710	O	O
+approximation	711,724	O	O
+to	725,727	O	O
+the	728,731	O	O
+monoclinic	732,742	O	O
+,	742,743	O	O
+pseudo	744,750	O	O
+-	750,751	O	O
+hexagonal	751,760	O	O
+structure	761,770	O	O
+of	771,773	O	O
+PE	774,776	O	B-Material
+–	777,778	O	O
+and	779,782	O	O
+the	783,786	O	O
+scattering	787,797	O	O
+centres	798,805	O	O
+have	806,810	O	O
+the	811,814	O	O
+same	815,819	O	O
+axial	820,825	O	O
+coordinates	826,837	O	O
+in	838,840	O	O
+all	841,844	O	O
+the	845,848	O	O
+stems	849,854	O	B-Material
+.	854,855	O	O
+
+Defining	856,864	O	O
+an	865,867	O	O
+integer	868,875	O	O
+i	876,877	O	O
+going	878,883	O	O
+from	884,888	O	O
+1	889,890	O	O
+to	891,893	O	O
+the	894,897	O	O
+total	898,903	O	O
+number	904,910	O	O
+ns·100	911,917	O	O
+of	918,920	O	O
+scattering	921,931	O	B-Material
+centres	932,939	O	I-Material
+,	939,940	O	O
+we	941,943	O	O
+have	944,948	O	O
+(	949,950	O	O
+q<1	950,953	O	O
+)	953,954	O	O
+
+[	955,956	O	O
+9](1A)q2·I(q)=C·(bH−bD)2∑i=1ns·100∑j=1ns·1004πqsin(q·dij)dij;dij2=Δij2+(zj−zi)2;q=2πsinθλwhere	956,1050	O	O
+bH	1051,1053	O	O
+,	1053,1054	O	O
+bD	1055,1057	O	O
+respectively	1058,1070	O	O
+are	1071,1074	O	O
+the	1075,1078	O	O
+scattering	1079,1089	O	O
+lengths	1090,1097	O	O
+of	1098,1100	O	O
+hydrogen	1101,1109	O	B-Material
+and	1110,1113	O	O
+deuterium	1114,1123	O	B-Material
+,	1123,1124	O	O
+dij	1125,1128	O	O
+is	1129,1131	O	O
+the	1132,1135	O	O
+distance	1136,1144	O	O
+between	1145,1152	O	O
+C	1153,1154	O	B-Material
+atoms	1155,1160	O	I-Material
+,	1160,1161	O	O
+2θ	1162,1164	O	O
+is	1165,1167	O	O
+the	1168,1171	O	O
+diffraction	1172,1183	O	O
+angle	1184,1189	O	O
+and	1190,1193	O	O
+λ	1194,1195	O	O
+the	1196,1199	O	O
+wavelength	1200,1210	O	O
+.	1210,1211	O	O
+
+The	1212,1215	O	O
+i	1216,1217	O	O
+-	1217,1218	O	O
+th	1218,1220	O	O
+C	1221,1222	O	O
+atom	1223,1227	O	O
+coordinate	1228,1238	O	O
+along	1239,1244	O	O
+the	1245,1248	O	O
+stem	1249,1253	O	O
+axis	1254,1258	O	O
+is	1259,1261	O	O
+zi	1262,1264	O	O
+
+and	1265,1268	O	O
+Δij	1269,1272	O	O
+is	1273,1275	O	O
+the	1276,1279	O	O
+distance	1280,1288	O	O
+between	1289,1296	O	O
+the	1297,1300	O	O
+stem	1301,1305	O	O
+axes	1306,1310	O	O
+where	1311,1316	O	O
+the	1317,1320	O	O
+atoms	1321,1326	O	O
+i	1327,1328	O	O
+and	1329,1332	O	O
+j	1333,1334	O	O
+belong	1335,1341	O	O
+.	1341,1342	O	O
+
+For	1343,1346	O	O
+all	1347,1350	O	O
+the	1351,1354	O	O
+stems	1355,1360	O	O
+we	1361,1363	O	O
+have	1364,1368	O	O
+the	1369,1372	O	O
+same	1373,1377	O	O
+set	1378,1381	O	O
+of	1382,1384	O	O
+zi	1385,1387	O	O
+coordinates	1388,1399	O	O
+.	1399,1400	O	O
+
+The	1401,1404	O	O
+sum	1405,1408	O	O
+in	1409,1411	O	O
+Eq	1412,1414	O	O
+.	1414,1415	O	O
+
+(	1416,1417	O	O
+1A	1417,1419	O	O
+)	1419,1420	O	O
+is	1421,1423	O	O
+extended	1424,1432	O	O
+to	1433,1435	O	O
+all	1436,1439	O	O
+the	1440,1443	O	O
+stems	1444,1449	O	B-Material
+of	1450,1452	O	O
+the	1453,1456	O	O
+crystalline	1457,1468	O	B-Material
+domain	1469,1475	O	O
+,	1475,1476	O	O
+see	1477,1480	O	O
+Figs	1481,1485	O	O
+.	1485,1486	O	O
+
+2	1487,1488	O	O
+and	1489,1492	O	O
+10	1493,1495	O	O
+for	1496,1499	O	O
+examples	1500,1508	O	O
+.	1508,1509	O	O
 
 
 -DOCSTART- (S0032386109001712)
 
-With	0	4	O
-ever	5	9	O
-increasing	10	20	O
-computer	21	29	O
-performance	30	41	O
-,	41	42	O
-simulations	43	54	B-Process
-in	55	57	O
-much	58	62	O
-larger	63	69	O
-systems	70	77	O
-have	78	82	O
-become	83	89	O
-feasible	90	98	O
-.	98	99	O
-
-However	100	107	O
-,	107	108	O
-full	109	113	B-Process
--	113	114	I-Process
-atomistic	114	123	I-Process
-approaches	124	134	I-Process
-to	135	137	O
-polymer	138	145	B-Task
-crystallization	146	161	I-Task
-need	162	166	O
-extremely	167	176	O
-large	177	182	O
-computer	183	191	O
-power	192	197	O
-even	198	202	O
-in	203	205	O
-the	206	209	O
-case	210	214	O
-of	215	217	O
-simple	218	224	B-Material
-polymers	225	233	I-Material
-,	233	234	O
-and	235	238	O
-appropriate	239	250	B-Process
-modeling	251	259	I-Process
-or	260	262	O
-coarse	263	269	B-Process
--	269	270	I-Process
-graining	270	278	I-Process
-of	279	281	I-Process
-the	282	285	I-Process
-system	286	292	I-Process
-is	293	295	O
-imperative	296	306	O
-.	306	307	O
-
-From	308	312	O
-a	313	314	O
-series	315	321	O
-of	322	324	O
-work	325	329	O
-on	330	332	O
-the	333	336	O
-development	337	348	O
-of	349	351	O
-coarse	352	358	B-Process
--	358	359	I-Process
-grained	359	366	I-Process
-models	367	373	I-Process
-for	374	377	O
-polymers	378	386	B-Material
-,	386	387	O
-Mayer	388	393	O
-and	394	397	O
-Muller	398	404	O
--	404	405	O
-Plathe	405	411	O
-have	412	416	O
-build	417	422	O
-up	423	425	O
-a	426	427	O
-model	428	433	O
-of	434	436	O
-poly(vinyl	437	447	B-Material
-alcohol	448	455	I-Material
-)	455	456	I-Material
-
-(	457	458	O
-PVA	458	461	B-Material
-)	461	462	O
-for	463	466	O
-studying	467	475	O
-early	476	481	O
-stage	482	487	O
-of	488	490	O
-crystallization	491	506	B-Process
-.	506	507	O
-
-They	508	512	O
-investigated	513	525	O
-the	526	529	O
-emergence	530	539	O
-of	540	542	O
-crystalline	543	554	B-Material
-order	555	560	O
-from	561	565	O
-the	566	569	O
-isotropic	570	579	B-Material
-melt	580	584	I-Material
-by	585	587	O
-rapid	588	593	B-Process
-quenching	594	603	I-Process
-[	604	605	O
-51,52	605	610	O
-]	610	611	O
-.	611	612	O
-
-They	613	617	O
-could	618	623	O
-reproduce	624	633	O
-many	634	638	O
-elementary	639	649	O
-processes	650	659	O
-of	660	662	O
-homogenous	663	673	B-Process
-nucleation	674	684	I-Process
-that	685	689	O
-showed	690	696	O
-good	697	701	O
-correspondence	702	716	O
-with	717	721	O
-experiments	722	733	O
-and	734	737	O
-other	738	743	O
-simulations	744	755	B-Process
-,	755	756	O
-in	757	759	O
-temperature	760	771	O
-dependence	772	782	O
-of	783	785	O
-lamella	786	793	B-Material
-thickness	794	803	O
-,	803	804	O
-structure	805	814	O
-of	815	817	O
-fold	818	822	B-Material
-surface	823	830	I-Material
-,	830	831	O
-etc	832	835	O
-.	835	836	O
-
-In	837	839	O
-their	840	845	O
-work	846	850	O
-,	850	851	O
-they	852	856	O
-neglected	857	866	O
-long	867	871	O
--	871	872	O
-range	872	877	O
-force	878	883	O
-(	884	885	O
-van	885	888	O
-der	889	892	O
-Waals	893	898	O
-attraction	899	909	O
-)	909	910	O
-to	911	913	O
-accelerate	914	924	O
-computation	925	936	O
-.	936	937	O
-
-Their	938	943	O
-model	944	949	O
-has	950	953	O
-the	954	957	O
-energy	958	964	O
-contribution	965	977	O
-due	978	981	O
-to	982	984	O
-intrachain	985	995	B-Process
-interactions	996	1008	I-Process
-only	1009	1013	O
-and	1014	1017	O
-the	1018	1021	O
-dominant	1022	1030	O
-driving	1031	1038	O
-force	1039	1044	O
-for	1045	1048	O
-crystallization	1049	1064	B-Process
-is	1065	1067	O
-entropic	1068	1076	O
-,	1076	1077	O
-which	1078	1083	O
-seems	1084	1089	O
-to	1090	1092	O
-ignore	1093	1099	O
-dominant	1100	1108	O
-driving	1109	1116	O
-force	1117	1122	O
-for	1123	1126	O
-polymer	1127	1134	B-Process
-crystallization	1135	1150	I-Process
-in	1151	1153	O
-conventional	1154	1166	O
-sense	1167	1172	O
-.	1172	1173	O
-
-However	1174	1181	O
-,	1181	1182	O
-their	1183	1188	O
-work	1189	1193	O
-is	1194	1196	O
-reminiscent	1197	1208	O
-of	1209	1211	O
-the	1212	1215	O
-classical	1216	1225	B-Process
-solid	1226	1231	I-Process
-–	1231	1232	I-Process
-liquid	1232	1238	I-Process
-transition	1239	1249	I-Process
-in	1250	1252	O
-systems	1253	1260	O
-of	1261	1263	O
-repulsive	1264	1273	B-Material
-spherical	1274	1283	I-Material
-atoms	1284	1289	I-Material
-[	1290	1291	O
-53	1291	1293	O
-]	1293	1294	O
-and	1295	1298	O
-poses	1299	1304	O
-an	1305	1307	O
-intriguing	1308	1318	O
-problem	1319	1326	O
-as	1327	1329	O
-to	1330	1332	O
-the	1333	1336	O
-intrinsic	1337	1346	O
-driving	1347	1354	O
-force	1355	1360	O
-for	1361	1364	O
-polymer	1365	1372	B-Process
-crystallization	1373	1388	I-Process
-.	1388	1389	O
+With	0,4	O	O
+ever	5,9	O	O
+increasing	10,20	O	O
+computer	21,29	O	O
+performance	30,41	O	O
+,	41,42	O	O
+simulations	43,54	O	B-Process
+in	55,57	O	O
+much	58,62	O	O
+larger	63,69	O	O
+systems	70,77	O	O
+have	78,82	O	O
+become	83,89	O	O
+feasible	90,98	O	O
+.	98,99	O	O
+
+However	100,107	O	O
+,	107,108	O	O
+full	109,113	O	B-Process
+-	113,114	O	I-Process
+atomistic	114,123	O	I-Process
+approaches	124,134	O	I-Process
+to	135,137	O	O
+polymer	138,145	O	B-Task
+crystallization	146,161	O	I-Task
+need	162,166	O	O
+extremely	167,176	O	O
+large	177,182	O	O
+computer	183,191	O	O
+power	192,197	O	O
+even	198,202	O	O
+in	203,205	O	O
+the	206,209	O	O
+case	210,214	O	O
+of	215,217	O	O
+simple	218,224	O	B-Material
+polymers	225,233	O	I-Material
+,	233,234	O	O
+and	235,238	O	O
+appropriate	239,250	O	B-Process
+modeling	251,259	O	I-Process
+or	260,262	O	O
+coarse	263,269	O	B-Process
+-	269,270	O	I-Process
+graining	270,278	O	I-Process
+of	279,281	O	I-Process
+the	282,285	O	I-Process
+system	286,292	O	I-Process
+is	293,295	O	O
+imperative	296,306	O	O
+.	306,307	O	O
+
+From	308,312	O	O
+a	313,314	O	O
+series	315,321	O	O
+of	322,324	O	O
+work	325,329	O	O
+on	330,332	O	O
+the	333,336	O	O
+development	337,348	O	O
+of	349,351	O	O
+coarse	352,358	O	B-Process
+-	358,359	O	I-Process
+grained	359,366	O	I-Process
+models	367,373	O	I-Process
+for	374,377	O	O
+polymers	378,386	O	B-Material
+,	386,387	O	O
+Mayer	388,393	O	O
+and	394,397	O	O
+Muller	398,404	O	O
+-	404,405	O	O
+Plathe	405,411	O	O
+have	412,416	O	O
+build	417,422	O	O
+up	423,425	O	O
+a	426,427	O	O
+model	428,433	O	O
+of	434,436	O	O
+poly(vinyl	437,447	O	B-Material
+alcohol	448,455	O	I-Material
+)	455,456	O	I-Material
+
+(	457,458	O	O
+PVA	458,461	O	B-Material
+)	461,462	O	O
+for	463,466	O	O
+studying	467,475	O	O
+early	476,481	O	O
+stage	482,487	O	O
+of	488,490	O	O
+crystallization	491,506	O	B-Process
+.	506,507	O	O
+
+They	508,512	O	O
+investigated	513,525	O	O
+the	526,529	O	O
+emergence	530,539	O	O
+of	540,542	O	O
+crystalline	543,554	O	B-Material
+order	555,560	O	O
+from	561,565	O	O
+the	566,569	O	O
+isotropic	570,579	O	B-Material
+melt	580,584	O	I-Material
+by	585,587	O	O
+rapid	588,593	O	B-Process
+quenching	594,603	O	I-Process
+[	604,605	O	O
+51,52	605,610	O	O
+]	610,611	O	O
+.	611,612	O	O
+
+They	613,617	O	O
+could	618,623	O	O
+reproduce	624,633	O	O
+many	634,638	O	O
+elementary	639,649	O	O
+processes	650,659	O	O
+of	660,662	O	O
+homogenous	663,673	O	B-Process
+nucleation	674,684	O	I-Process
+that	685,689	O	O
+showed	690,696	O	O
+good	697,701	O	O
+correspondence	702,716	O	O
+with	717,721	O	O
+experiments	722,733	O	O
+and	734,737	O	O
+other	738,743	O	O
+simulations	744,755	O	B-Process
+,	755,756	O	O
+in	757,759	O	O
+temperature	760,771	O	O
+dependence	772,782	O	O
+of	783,785	O	O
+lamella	786,793	O	B-Material
+thickness	794,803	O	O
+,	803,804	O	O
+structure	805,814	O	O
+of	815,817	O	O
+fold	818,822	O	B-Material
+surface	823,830	O	I-Material
+,	830,831	O	O
+etc	832,835	O	O
+.	835,836	O	O
+
+In	837,839	O	O
+their	840,845	O	O
+work	846,850	O	O
+,	850,851	O	O
+they	852,856	O	O
+neglected	857,866	O	O
+long	867,871	O	O
+-	871,872	O	O
+range	872,877	O	O
+force	878,883	O	O
+(	884,885	O	O
+van	885,888	O	O
+der	889,892	O	O
+Waals	893,898	O	O
+attraction	899,909	O	O
+)	909,910	O	O
+to	911,913	O	O
+accelerate	914,924	O	O
+computation	925,936	O	O
+.	936,937	O	O
+
+Their	938,943	O	O
+model	944,949	O	O
+has	950,953	O	O
+the	954,957	O	O
+energy	958,964	O	O
+contribution	965,977	O	O
+due	978,981	O	O
+to	982,984	O	O
+intrachain	985,995	O	B-Process
+interactions	996,1008	O	I-Process
+only	1009,1013	O	O
+and	1014,1017	O	O
+the	1018,1021	O	O
+dominant	1022,1030	O	O
+driving	1031,1038	O	O
+force	1039,1044	O	O
+for	1045,1048	O	O
+crystallization	1049,1064	O	B-Process
+is	1065,1067	O	O
+entropic	1068,1076	O	O
+,	1076,1077	O	O
+which	1078,1083	O	O
+seems	1084,1089	O	O
+to	1090,1092	O	O
+ignore	1093,1099	O	O
+dominant	1100,1108	O	O
+driving	1109,1116	O	O
+force	1117,1122	O	O
+for	1123,1126	O	O
+polymer	1127,1134	O	B-Process
+crystallization	1135,1150	O	I-Process
+in	1151,1153	O	O
+conventional	1154,1166	O	O
+sense	1167,1172	O	O
+.	1172,1173	O	O
+
+However	1174,1181	O	O
+,	1181,1182	O	O
+their	1183,1188	O	O
+work	1189,1193	O	O
+is	1194,1196	O	O
+reminiscent	1197,1208	O	O
+of	1209,1211	O	O
+the	1212,1215	O	O
+classical	1216,1225	O	B-Process
+solid	1226,1231	O	I-Process
+–	1231,1232	O	I-Process
+liquid	1232,1238	O	I-Process
+transition	1239,1249	O	I-Process
+in	1250,1252	O	O
+systems	1253,1260	O	O
+of	1261,1263	O	O
+repulsive	1264,1273	O	B-Material
+spherical	1274,1283	O	I-Material
+atoms	1284,1289	O	I-Material
+[	1290,1291	O	O
+53	1291,1293	O	O
+]	1293,1294	O	O
+and	1295,1298	O	O
+poses	1299,1304	O	O
+an	1305,1307	O	O
+intriguing	1308,1318	O	O
+problem	1319,1326	O	O
+as	1327,1329	O	O
+to	1330,1332	O	O
+the	1333,1336	O	O
+intrinsic	1337,1346	O	O
+driving	1347,1354	O	O
+force	1355,1360	O	O
+for	1361,1364	O	O
+polymer	1365,1372	O	B-Process
+crystallization	1373,1388	O	I-Process
+.	1388,1389	O	O
 
 
 -DOCSTART- (S0032386109004996)
 
-SPM	0	3	B-Process
-,	3	4	O
-and	5	8	O
-AFM	9	12	B-Process
-in	13	15	O
-particular	16	26	O
-,	26	27	O
-has	28	31	O
-been	32	36	O
-widely	37	43	O
-applied	44	51	O
-to	52	54	O
-questions	55	64	B-Task
-in	65	67	I-Task
-polymer	68	75	I-Task
-crystallization	76	91	I-Task
-.	91	92	O
-
-The	93	96	O
-technique	97	106	O
-has	107	110	O
-several	111	118	O
-strengths	119	128	O
-that	129	133	O
-make	134	138	O
-it	139	141	O
-ideally	142	149	O
-suited	150	156	O
-for	157	160	O
-such	161	165	O
-studies	166	173	O
-.	173	174	O
-
-It	175	177	O
-is	178	180	O
-a	181	182	O
-high	183	187	B-Process
-resolution	188	198	I-Process
-technology	199	209	I-Process
-,	209	210	O
-routinely	211	220	O
-resolving	221	230	B-Process
-sub	231	234	I-Process
-10	235	237	I-Process
-nm	237	239	I-Process
-features	240	248	I-Process
-[	249	250	O
-13,14	250	255	O
-]	255	256	O
-,	256	257	O
-and	258	261	O
-hence	262	267	O
-allowing	268	276	O
-the	277	280	O
-fundamental	281	292	O
-length	293	299	O
-scale	300	305	O
-of	306	308	O
-the	309	312	O
-polymer	313	320	B-Material
-lamellar	321	329	I-Material
-crystal	330	337	I-Material
-,	337	338	O
-its	339	342	O
-thickness	343	352	O
-,	352	353	O
-to	354	356	O
-be	357	359	O
-observed	360	368	O
-.	368	369	O
-
-AFM	370	373	B-Process
-requires	374	382	O
-no	383	385	O
-staining	386	394	B-Process
-or	395	397	O
-metal	398	403	B-Process
-coating	404	411	I-Process
-of	412	414	O
-the	415	418	O
-sample	419	425	O
-,	425	426	O
-so	427	429	O
-sample	430	436	B-Process
-preparation	437	448	I-Process
-is	449	451	O
-relatively	452	462	O
-straightforward	463	478	O
-.	478	479	O
-
-Also	480	484	O
-,	484	485	O
-it	486	488	O
-is	489	491	O
-non	492	495	O
--	495	496	O
-destructive	496	507	O
-under	508	513	O
-many	514	518	O
-circumstances	519	532	O
-.	532	533	O
-
-This	534	538	O
-allows	539	545	O
-images	546	552	O
-to	553	555	O
-be	556	558	O
-obtained	559	567	O
-while	568	573	O
-a	574	575	O
-process	576	583	O
-such	584	588	O
-as	589	591	O
-crystal	592	599	B-Process
-growth	600	606	I-Process
-or	607	609	O
-melting	610	617	B-Process
-is	618	620	O
-occurring	621	630	O
-,	630	631	O
-giving	632	638	O
-time	639	643	B-Material
--	643	644	I-Material
-resolved	644	652	I-Material
-data	653	657	I-Material
-at	658	660	O
-lamellar	661	669	O
-or	670	672	O
-sub	673	676	O
--	676	677	O
-lamellar	677	685	O
-resolution	686	696	O
-[	697	698	O
-15–18	698	703	O
-]	703	704	O
-.	704	705	O
-
-It	706	708	O
-is	709	711	O
-this	712	716	O
-final	717	722	O
-feature	723	730	O
-that	731	735	O
-provides	736	744	O
-many	745	749	O
-of	750	752	O
-the	753	756	O
-most	757	761	O
-exciting	762	770	O
-possibilities	771	784	O
-of	785	787	O
-AFM	788	791	B-Process
-for	792	795	O
-studying	796	804	B-Task
-polymer	805	812	I-Task
-crystallization	813	828	I-Task
-,	828	829	O
-as	830	832	O
-it	833	835	O
-is	836	838	O
-now	839	842	O
-possible	843	851	O
-to	852	854	O
-watch	855	860	O
-crystal	861	868	B-Process
-growth	869	875	I-Process
-,	875	876	O
-crystal	877	884	B-Process
-melting	885	892	I-Process
-,	892	893	O
-and	894	897	O
-re	898	900	B-Process
--	900	901	I-Process
-organisations	901	914	I-Process
-within	915	921	I-Process
-crystals	922	930	I-Process
-at	931	933	I-Process
-the	934	937	I-Process
-lamellar	938	946	I-Process
-scale	947	952	I-Process
-,	952	953	O
-seeing	954	960	O
-how	961	964	O
-structure	965	974	O
-evolves	975	982	O
-and	983	986	O
-local	987	992	O
-conditions	993	1003	O
-influence	1004	1013	O
-kinetics	1014	1022	O
-.	1022	1023	O
-
-AFM	1024	1027	B-Material
-has	1028	1031	O
-a	1032	1033	O
-wide	1034	1038	O
-range	1039	1044	O
-of	1045	1047	O
-different	1048	1057	O
-measuring	1058	1067	O
-modes	1068	1073	O
-,	1073	1074	O
-and	1075	1078	O
-,	1078	1079	O
-with	1080	1084	O
-the	1085	1088	O
-ever	1089	1093	O
-increasing	1094	1104	O
-number	1105	1111	O
-of	1112	1114	O
-functional	1115	1125	O
-semicrystalline	1126	1141	B-Material
-polymers	1142	1150	I-Material
-available	1151	1160	O
-(	1161	1162	O
-e.g.	1162	1166	O
-[	1167	1168	O
-19	1168	1170	O
-]	1170	1171	O
-)	1171	1172	O
-,	1172	1173	O
-the	1174	1177	O
-breadth	1178	1185	O
-of	1186	1188	O
-experiments	1189	1200	O
-that	1201	1205	O
-can	1206	1209	O
-be	1210	1212	O
-carried	1213	1220	O
-out	1221	1224	O
-with	1225	1229	O
-a	1230	1231	O
-single	1232	1238	O
-machine	1239	1246	O
-is	1247	1249	O
-also	1250	1254	O
-one	1255	1258	O
-of	1259	1261	O
-the	1262	1265	O
-techniques	1266	1276	O
-attractions	1277	1288	O
-.	1288	1289	O
+SPM	0,3	O	B-Process
+,	3,4	O	O
+and	5,8	O	O
+AFM	9,12	O	B-Process
+in	13,15	O	O
+particular	16,26	O	O
+,	26,27	O	O
+has	28,31	O	O
+been	32,36	O	O
+widely	37,43	O	O
+applied	44,51	O	O
+to	52,54	O	O
+questions	55,64	O	B-Task
+in	65,67	O	I-Task
+polymer	68,75	O	I-Task
+crystallization	76,91	O	I-Task
+.	91,92	O	O
+
+The	93,96	O	O
+technique	97,106	O	O
+has	107,110	O	O
+several	111,118	O	O
+strengths	119,128	O	O
+that	129,133	O	O
+make	134,138	O	O
+it	139,141	O	O
+ideally	142,149	O	O
+suited	150,156	O	O
+for	157,160	O	O
+such	161,165	O	O
+studies	166,173	O	O
+.	173,174	O	O
+
+It	175,177	O	O
+is	178,180	O	O
+a	181,182	O	O
+high	183,187	O	B-Process
+resolution	188,198	O	I-Process
+technology	199,209	O	I-Process
+,	209,210	O	O
+routinely	211,220	O	O
+resolving	221,230	O	B-Process
+sub	231,234	O	I-Process
+10	235,237	O	I-Process
+nm	237,239	O	I-Process
+features	240,248	O	I-Process
+[	249,250	O	O
+13,14	250,255	O	O
+]	255,256	O	O
+,	256,257	O	O
+and	258,261	O	O
+hence	262,267	O	O
+allowing	268,276	O	O
+the	277,280	O	O
+fundamental	281,292	O	O
+length	293,299	O	O
+scale	300,305	O	O
+of	306,308	O	O
+the	309,312	O	O
+polymer	313,320	O	B-Material
+lamellar	321,329	O	I-Material
+crystal	330,337	O	I-Material
+,	337,338	O	O
+its	339,342	O	O
+thickness	343,352	O	O
+,	352,353	O	O
+to	354,356	O	O
+be	357,359	O	O
+observed	360,368	O	O
+.	368,369	O	O
+
+AFM	370,373	O	B-Process
+requires	374,382	O	O
+no	383,385	O	O
+staining	386,394	O	B-Process
+or	395,397	O	O
+metal	398,403	O	B-Process
+coating	404,411	O	I-Process
+of	412,414	O	O
+the	415,418	O	O
+sample	419,425	O	O
+,	425,426	O	O
+so	427,429	O	O
+sample	430,436	O	B-Process
+preparation	437,448	O	I-Process
+is	449,451	O	O
+relatively	452,462	O	O
+straightforward	463,478	O	O
+.	478,479	O	O
+
+Also	480,484	O	O
+,	484,485	O	O
+it	486,488	O	O
+is	489,491	O	O
+non	492,495	O	O
+-	495,496	O	O
+destructive	496,507	O	O
+under	508,513	O	O
+many	514,518	O	O
+circumstances	519,532	O	O
+.	532,533	O	O
+
+This	534,538	O	O
+allows	539,545	O	O
+images	546,552	O	O
+to	553,555	O	O
+be	556,558	O	O
+obtained	559,567	O	O
+while	568,573	O	O
+a	574,575	O	O
+process	576,583	O	O
+such	584,588	O	O
+as	589,591	O	O
+crystal	592,599	O	B-Process
+growth	600,606	O	I-Process
+or	607,609	O	O
+melting	610,617	O	B-Process
+is	618,620	O	O
+occurring	621,630	O	O
+,	630,631	O	O
+giving	632,638	O	O
+time	639,643	O	B-Material
+-	643,644	O	I-Material
+resolved	644,652	O	I-Material
+data	653,657	O	I-Material
+at	658,660	O	O
+lamellar	661,669	O	O
+or	670,672	O	O
+sub	673,676	O	O
+-	676,677	O	O
+lamellar	677,685	O	O
+resolution	686,696	O	O
+[	697,698	O	O
+15–18	698,703	O	O
+]	703,704	O	O
+.	704,705	O	O
+
+It	706,708	O	O
+is	709,711	O	O
+this	712,716	O	O
+final	717,722	O	O
+feature	723,730	O	O
+that	731,735	O	O
+provides	736,744	O	O
+many	745,749	O	O
+of	750,752	O	O
+the	753,756	O	O
+most	757,761	O	O
+exciting	762,770	O	O
+possibilities	771,784	O	O
+of	785,787	O	O
+AFM	788,791	O	B-Process
+for	792,795	O	O
+studying	796,804	O	B-Task
+polymer	805,812	O	I-Task
+crystallization	813,828	O	I-Task
+,	828,829	O	O
+as	830,832	O	O
+it	833,835	O	O
+is	836,838	O	O
+now	839,842	O	O
+possible	843,851	O	O
+to	852,854	O	O
+watch	855,860	O	O
+crystal	861,868	O	B-Process
+growth	869,875	O	I-Process
+,	875,876	O	O
+crystal	877,884	O	B-Process
+melting	885,892	O	I-Process
+,	892,893	O	O
+and	894,897	O	O
+re	898,900	O	B-Process
+-	900,901	O	I-Process
+organisations	901,914	O	I-Process
+within	915,921	O	I-Process
+crystals	922,930	O	I-Process
+at	931,933	O	I-Process
+the	934,937	O	I-Process
+lamellar	938,946	O	I-Process
+scale	947,952	O	I-Process
+,	952,953	O	O
+seeing	954,960	O	O
+how	961,964	O	O
+structure	965,974	O	O
+evolves	975,982	O	O
+and	983,986	O	O
+local	987,992	O	O
+conditions	993,1003	O	O
+influence	1004,1013	O	O
+kinetics	1014,1022	O	O
+.	1022,1023	O	O
+
+AFM	1024,1027	O	B-Material
+has	1028,1031	O	O
+a	1032,1033	O	O
+wide	1034,1038	O	O
+range	1039,1044	O	O
+of	1045,1047	O	O
+different	1048,1057	O	O
+measuring	1058,1067	O	O
+modes	1068,1073	O	O
+,	1073,1074	O	O
+and	1075,1078	O	O
+,	1078,1079	O	O
+with	1080,1084	O	O
+the	1085,1088	O	O
+ever	1089,1093	O	O
+increasing	1094,1104	O	O
+number	1105,1111	O	O
+of	1112,1114	O	O
+functional	1115,1125	O	O
+semicrystalline	1126,1141	O	B-Material
+polymers	1142,1150	O	I-Material
+available	1151,1160	O	O
+(	1161,1162	O	O
+e.g.	1162,1166	O	O
+[	1167,1168	O	O
+19	1168,1170	O	O
+]	1170,1171	O	O
+)	1171,1172	O	O
+,	1172,1173	O	O
+the	1174,1177	O	O
+breadth	1178,1185	O	O
+of	1186,1188	O	O
+experiments	1189,1200	O	O
+that	1201,1205	O	O
+can	1206,1209	O	O
+be	1210,1212	O	O
+carried	1213,1220	O	O
+out	1221,1224	O	O
+with	1225,1229	O	O
+a	1230,1231	O	O
+single	1232,1238	O	O
+machine	1239,1246	O	O
+is	1247,1249	O	O
+also	1250,1254	O	O
+one	1255,1258	O	O
+of	1259,1261	O	O
+the	1262,1265	O	O
+techniques	1266,1276	O	O
+attractions	1277,1288	O	O
+.	1288,1289	O	O
 
 
 -DOCSTART- (S0032386109005485)
 
-Inverse	0	7	B-Process
-miniemulsion	8	20	I-Process
-polymerization	21	35	I-Process
-is	36	38	O
-a	39	40	O
-water	41	46	B-Process
--	46	47	I-Process
-in	47	49	I-Process
--	49	50	I-Process
-oil	50	53	I-Process
-(	54	55	O
-W	55	56	B-Process
-/	56	57	I-Process
-O	57	58	I-Process
-)	58	59	O
-heterogeneous	60	73	B-Process
-polymerization	74	88	I-Process
-process	89	96	I-Process
-that	97	101	O
-forms	102	107	O
-kinetically	108	119	B-Material
-stable	120	126	I-Material
-macroemulsions	127	141	I-Material
-at	142	144	O
-,	144	145	O
-below	146	151	O
-,	151	152	O
-or	153	155	O
-around	156	162	O
-the	163	166	O
-critical	167	175	B-Material
-micellar	176	184	I-Material
-concentration	185	198	I-Material
-(	199	200	O
-CMC	200	203	B-Material
-)	203	204	O
-.	204	205	O
-
-This	206	210	O
-process	211	218	O
-contains	219	227	O
-aqueous	228	235	B-Material
-droplets	236	244	I-Material
-(	245	246	O
-including	246	255	O
-water	256	261	B-Material
--	261	262	I-Material
-soluble	262	269	I-Material
-monomers	270	278	I-Material
-)	278	279	O
-stably	280	286	O
-dispersed	287	296	O
-,	296	297	O
-with	298	302	O
-the	303	306	O
-aid	307	310	O
-of	311	313	O
-oil	314	317	B-Material
--	317	318	I-Material
-soluble	318	325	I-Material
-surfactants	326	337	I-Material
-,	337	338	O
-in	339	341	O
-a	342	343	O
-continuous	344	354	O
-organic	355	362	B-Material
-medium	363	369	I-Material
-.	369	370	O
-
-Stable	371	377	B-Material
-inverse	378	385	I-Material
-miniemulsions	386	399	I-Material
-are	400	403	O
-formed	404	410	O
-under	411	416	O
-high	417	421	O
-shear	422	427	O
-by	428	430	O
-either	431	437	O
-a	438	439	O
-homogenizer	440	451	B-Material
-or	452	454	O
-a	455	456	O
-high	457	461	B-Material
-speed	462	467	I-Material
-mechanical	468	478	I-Material
-stirrer	479	486	I-Material
-.	486	487	O
-
-Oil	488	491	B-Material
--	491	492	I-Material
-soluble	492	499	I-Material
-nonionic	500	508	I-Material
-surfactants	509	520	I-Material
-with	521	525	O
-hydrophilic	526	537	O
--	537	538	O
-lipophilic	538	548	O
-balance	549	556	O
-(	557	558	O
-HLB	558	561	O
-)	561	562	O
-value	563	568	O
-around	569	575	O
-4	576	577	O
-are	578	581	O
-used	582	586	O
-to	587	589	O
-implement	590	599	B-Task
-colloidal	600	609	I-Task
-stability	610	619	I-Task
-of	620	622	I-Task
-the	623	626	I-Task
-resulting	627	636	I-Task
-inverse	637	644	I-Task
-emulsion	645	653	I-Task
-.	653	654	O
-
-Upon	655	659	O
-addition	660	668	O
-of	669	671	O
-radical	672	679	B-Material
-initiators	680	690	I-Material
-,	690	691	O
-polymerization	692	706	B-Process
-occurs	707	713	O
-within	714	720	O
-the	721	724	O
-aqueous	725	732	B-Material
-droplets	733	741	I-Material
-producing	742	751	O
-colloidal	752	761	B-Material
-particles	762	771	I-Material
-(	772	773	O
-Fig	773	776	O
-.	776	777	O
-
-2	778	779	O
-)	779	780	O
-
-[	781	782	O
-83	782	784	O
-]	784	785	O
-.	785	786	O
-
-Several	787	794	O
-reports	795	802	O
-have	803	807	O
-demonstrated	808	820	O
-the	821	824	O
-preparation	825	836	O
-of	837	839	O
-stable	840	846	B-Material
-particles	847	856	I-Material
-of	857	859	I-Material
-hydrophilic	860	871	I-Material
-and	872	875	I-Material
-water	876	881	I-Material
--	881	882	I-Material
-soluble	882	889	I-Material
-polymers	890	898	I-Material
-[	899	900	O
-86–89	900	905	O
-]	905	906	O
-,	906	907	O
-polyaniline	908	919	B-Material
-nanoparticles	920	933	I-Material
-[	934	935	O
-90	935	937	O
-]	937	938	O
-,	938	939	O
-and	940	943	O
-organic	944	951	B-Material
-–	951	952	I-Material
-inorganic	952	961	I-Material
-hybrid	962	968	I-Material
-particles	969	978	I-Material
-[	979	980	O
-91–93	980	985	O
-]	985	986	O
-.	986	987	O
-
-This	988	992	O
-method	993	999	O
-also	1000	1004	O
-allows	1005	1011	O
-for	1012	1015	O
-the	1016	1019	O
-preparation	1020	1031	B-Process
-of	1032	1034	I-Process
-crosslinked	1035	1046	I-Process
-microgels	1047	1056	I-Process
-in	1057	1059	I-Process
-the	1060	1063	I-Process
-presence	1064	1072	I-Process
-of	1073	1075	I-Process
-difunctional	1076	1088	I-Process
-crosslinkers	1089	1101	I-Process
-[	1102	1103	O
-27,94–100	1103	1112	O
-]	1112	1113	O
-.	1113	1114	O
-
-In	1115	1117	O
-addition	1118	1126	O
-,	1126	1127	O
-CRP	1128	1131	B-Process
-techniques	1132	1142	I-Process
-including	1143	1152	O
-ATRP	1153	1157	B-Process
-[	1158	1159	O
-78,79,82,101,102	1159	1175	O
-]	1175	1176	O
-and	1177	1180	O
-RAFT	1181	1185	B-Process
-[	1186	1187	O
-103	1187	1190	O
-]	1190	1191	O
-in	1192	1194	O
-inverse	1195	1202	B-Material
-miniemulsion	1203	1215	I-Material
-have	1216	1220	O
-been	1221	1225	O
-explored	1226	1234	O
-to	1235	1237	O
-prepare	1238	1245	O
-well	1246	1250	O
--	1250	1251	O
-defined	1251	1258	O
-nanoparticles	1259	1272	B-Material
-and	1273	1276	O
-nanogels	1277	1285	B-Material
-.	1285	1286	O
+Inverse	0,7	O	B-Process
+miniemulsion	8,20	O	I-Process
+polymerization	21,35	O	I-Process
+is	36,38	O	O
+a	39,40	O	O
+water	41,46	O	B-Process
+-	46,47	O	I-Process
+in	47,49	O	I-Process
+-	49,50	O	I-Process
+oil	50,53	O	I-Process
+(	54,55	O	O
+W	55,56	O	B-Process
+/	56,57	O	I-Process
+O	57,58	O	I-Process
+)	58,59	O	O
+heterogeneous	60,73	O	B-Process
+polymerization	74,88	O	I-Process
+process	89,96	O	I-Process
+that	97,101	O	O
+forms	102,107	O	O
+kinetically	108,119	O	B-Material
+stable	120,126	O	I-Material
+macroemulsions	127,141	O	I-Material
+at	142,144	O	O
+,	144,145	O	O
+below	146,151	O	O
+,	151,152	O	O
+or	153,155	O	O
+around	156,162	O	O
+the	163,166	O	O
+critical	167,175	O	B-Material
+micellar	176,184	O	I-Material
+concentration	185,198	O	I-Material
+(	199,200	O	O
+CMC	200,203	O	B-Material
+)	203,204	O	O
+.	204,205	O	O
+
+This	206,210	O	O
+process	211,218	O	O
+contains	219,227	O	O
+aqueous	228,235	O	B-Material
+droplets	236,244	O	I-Material
+(	245,246	O	O
+including	246,255	O	O
+water	256,261	O	B-Material
+-	261,262	O	I-Material
+soluble	262,269	O	I-Material
+monomers	270,278	O	I-Material
+)	278,279	O	O
+stably	280,286	O	O
+dispersed	287,296	O	O
+,	296,297	O	O
+with	298,302	O	O
+the	303,306	O	O
+aid	307,310	O	O
+of	311,313	O	O
+oil	314,317	O	B-Material
+-	317,318	O	I-Material
+soluble	318,325	O	I-Material
+surfactants	326,337	O	I-Material
+,	337,338	O	O
+in	339,341	O	O
+a	342,343	O	O
+continuous	344,354	O	O
+organic	355,362	O	B-Material
+medium	363,369	O	I-Material
+.	369,370	O	O
+
+Stable	371,377	O	B-Material
+inverse	378,385	O	I-Material
+miniemulsions	386,399	O	I-Material
+are	400,403	O	O
+formed	404,410	O	O
+under	411,416	O	O
+high	417,421	O	O
+shear	422,427	O	O
+by	428,430	O	O
+either	431,437	O	O
+a	438,439	O	O
+homogenizer	440,451	O	B-Material
+or	452,454	O	O
+a	455,456	O	O
+high	457,461	O	B-Material
+speed	462,467	O	I-Material
+mechanical	468,478	O	I-Material
+stirrer	479,486	O	I-Material
+.	486,487	O	O
+
+Oil	488,491	O	B-Material
+-	491,492	O	I-Material
+soluble	492,499	O	I-Material
+nonionic	500,508	O	I-Material
+surfactants	509,520	O	I-Material
+with	521,525	O	O
+hydrophilic	526,537	O	O
+-	537,538	O	O
+lipophilic	538,548	O	O
+balance	549,556	O	O
+(	557,558	O	O
+HLB	558,561	O	O
+)	561,562	O	O
+value	563,568	O	O
+around	569,575	O	O
+4	576,577	O	O
+are	578,581	O	O
+used	582,586	O	O
+to	587,589	O	O
+implement	590,599	O	B-Task
+colloidal	600,609	O	I-Task
+stability	610,619	O	I-Task
+of	620,622	O	I-Task
+the	623,626	O	I-Task
+resulting	627,636	O	I-Task
+inverse	637,644	O	I-Task
+emulsion	645,653	O	I-Task
+.	653,654	O	O
+
+Upon	655,659	O	O
+addition	660,668	O	O
+of	669,671	O	O
+radical	672,679	O	B-Material
+initiators	680,690	O	I-Material
+,	690,691	O	O
+polymerization	692,706	O	B-Process
+occurs	707,713	O	O
+within	714,720	O	O
+the	721,724	O	O
+aqueous	725,732	O	B-Material
+droplets	733,741	O	I-Material
+producing	742,751	O	O
+colloidal	752,761	O	B-Material
+particles	762,771	O	I-Material
+(	772,773	O	O
+Fig	773,776	O	O
+.	776,777	O	O
+
+2	778,779	O	O
+)	779,780	O	O
+
+[	781,782	O	O
+83	782,784	O	O
+]	784,785	O	O
+.	785,786	O	O
+
+Several	787,794	O	O
+reports	795,802	O	O
+have	803,807	O	O
+demonstrated	808,820	O	O
+the	821,824	O	O
+preparation	825,836	O	O
+of	837,839	O	O
+stable	840,846	O	B-Material
+particles	847,856	O	I-Material
+of	857,859	O	I-Material
+hydrophilic	860,871	O	I-Material
+and	872,875	O	I-Material
+water	876,881	O	I-Material
+-	881,882	O	I-Material
+soluble	882,889	O	I-Material
+polymers	890,898	O	I-Material
+[	899,900	O	O
+86–89	900,905	O	O
+]	905,906	O	O
+,	906,907	O	O
+polyaniline	908,919	O	B-Material
+nanoparticles	920,933	O	I-Material
+[	934,935	O	O
+90	935,937	O	O
+]	937,938	O	O
+,	938,939	O	O
+and	940,943	O	O
+organic	944,951	O	B-Material
+–	951,952	O	I-Material
+inorganic	952,961	O	I-Material
+hybrid	962,968	O	I-Material
+particles	969,978	O	I-Material
+[	979,980	O	O
+91–93	980,985	O	O
+]	985,986	O	O
+.	986,987	O	O
+
+This	988,992	O	O
+method	993,999	O	O
+also	1000,1004	O	O
+allows	1005,1011	O	O
+for	1012,1015	O	O
+the	1016,1019	O	O
+preparation	1020,1031	O	B-Process
+of	1032,1034	O	I-Process
+crosslinked	1035,1046	O	I-Process
+microgels	1047,1056	O	I-Process
+in	1057,1059	O	I-Process
+the	1060,1063	O	I-Process
+presence	1064,1072	O	I-Process
+of	1073,1075	O	I-Process
+difunctional	1076,1088	O	I-Process
+crosslinkers	1089,1101	O	I-Process
+[	1102,1103	O	O
+27,94–100	1103,1112	O	O
+]	1112,1113	O	O
+.	1113,1114	O	O
+
+In	1115,1117	O	O
+addition	1118,1126	O	O
+,	1126,1127	O	O
+CRP	1128,1131	O	B-Process
+techniques	1132,1142	O	I-Process
+including	1143,1152	O	O
+ATRP	1153,1157	O	B-Process
+[	1158,1159	O	O
+78,79,82,101,102	1159,1175	O	O
+]	1175,1176	O	O
+and	1177,1180	O	O
+RAFT	1181,1185	O	B-Process
+[	1186,1187	O	O
+103	1187,1190	O	O
+]	1190,1191	O	O
+in	1192,1194	O	O
+inverse	1195,1202	O	B-Material
+miniemulsion	1203,1215	O	I-Material
+have	1216,1220	O	O
+been	1221,1225	O	O
+explored	1226,1234	O	O
+to	1235,1237	O	O
+prepare	1238,1245	O	O
+well	1246,1250	O	O
+-	1250,1251	O	O
+defined	1251,1258	O	O
+nanoparticles	1259,1272	O	B-Material
+and	1273,1276	O	O
+nanogels	1277,1285	O	B-Material
+.	1285,1286	O	O
 
 
 -DOCSTART- (S0032386109006612)
 
-In	0	2	O
-contrast	3	11	O
-with	12	16	O
-polymers	17	25	B-Material
-,	25	26	O
-which	27	32	O
-are	33	36	O
-typically	37	46	O
-synthesized	47	58	B-Process
-in	59	61	I-Process
-the	62	65	I-Process
-liquid	66	72	I-Process
-phase	73	78	I-Process
-,	78	79	O
-SWNTs	80	85	B-Material
-are	86	89	O
-produced	90	98	B-Process
-through	99	106	I-Process
-a	107	108	I-Process
-variety	109	116	I-Process
-of	117	119	I-Process
-synthesis	120	129	I-Process
-techniques	130	140	I-Process
-that	141	145	O
-typically	146	155	O
-involve	156	163	O
-the	164	167	B-Process
-reaction	168	176	I-Process
-of	177	179	I-Process
-a	180	181	I-Process
-gaseous	182	189	I-Process
-carbon	190	196	I-Process
-feedstock	197	206	I-Process
-to	207	209	I-Process
-form	210	214	I-Process
-the	215	218	I-Process
-nanotubes	219	228	I-Process
-on	229	231	I-Process
-catalyst	232	240	I-Process
-particles	241	250	I-Process
-.	250	251	O
-
-MWNTs	252	257	B-Task
-were	258	262	O
-first	263	268	O
-observed	269	277	B-Process
-in	278	280	I-Process
-arc	281	284	I-Process
-discharge	285	294	I-Process
-fullerene	295	304	I-Process
-reactors	305	313	I-Process
-[	314	315	O
-1,26	315	319	O
-]	319	320	O
-;	320	321	O
-this	322	326	B-Task
-technique	327	336	I-Task
-was	337	340	O
-later	341	346	O
-adapted	347	354	O
-to	355	357	O
-produce	358	365	O
-SWNTs	366	371	B-Material
-[	372	373	O
-3	373	374	O
-]	374	375	O
-.	375	376	O
-
-Similarly	377	386	O
-,	386	387	O
-the	388	391	B-Process
-fullerene	392	401	I-Process
-production	402	412	I-Process
-method	413	419	I-Process
-of	420	422	I-Process
-laser	423	428	I-Process
-ablation	429	437	I-Process
-[	438	439	O
-27	439	441	O
-]	441	442	O
-was	443	446	O
-adapted	447	454	O
-to	455	457	O
-produce	458	465	O
-SWNTs	466	471	B-Material
-(	472	473	O
-∼1.4	473	477	O
-nm	477	479	O
-diameter	480	488	O
-)	488	489	O
-in	490	492	O
-larger	493	499	O
-quantities	500	510	O
-on	511	513	O
-metal	514	519	B-Material
-catalyst	520	528	I-Material
-particles	529	538	I-Material
-[	539	540	O
-28–30	540	545	O
-]	545	546	O
-.	546	547	O
-
-A	548	549	O
-number	550	556	O
-of	557	559	O
-chemical	560	568	B-Process
-vapor	569	574	I-Process
-deposition	575	585	I-Process
-(	586	587	O
-CVD	587	590	B-Process
-)	590	591	O
-processes	592	601	O
-have	602	606	O
-been	607	611	O
-developed	612	621	O
-to	622	624	O
-grow	625	629	O
-SWNTs	630	635	B-Material
-and	636	639	O
-MWNTs	640	645	B-Material
-,	645	646	O
-all	647	650	O
-involving	651	660	O
-the	661	664	B-Process
-reaction	665	673	I-Process
-of	674	676	I-Process
-a	677	678	I-Process
-gaseous	679	686	I-Process
-carbon	687	693	I-Process
-compound	694	702	I-Process
-as	703	705	I-Process
-feedstock	706	715	I-Process
-.	715	716	O
-
-These	717	722	O
-processes	723	732	O
-include	733	740	O
-fluidized	741	750	B-Process
-bed	751	754	I-Process
-[	755	756	O
-31	756	758	O
-]	758	759	O
-,	759	760	O
-“	761	762	B-Process
-carpet	762	768	I-Process
-”	768	769	I-Process
-growth	770	776	I-Process
-of	777	779	I-Process
-carbon	780	786	I-Process
-nanotubes	787	796	I-Process
-(	797	798	I-Process
-CNTs	798	802	I-Process
-)	802	803	I-Process
-from	804	808	I-Process
-catalyst	809	817	I-Process
-particles	818	827	I-Process
-embedded	828	836	I-Process
-in	837	839	I-Process
-a	840	841	I-Process
-substrate	842	851	I-Process
-[	852	853	O
-32–35	853	858	O
-]	858	859	O
-as	860	862	O
-shown	863	868	O
-in	869	871	O
-Fig	872	875	O
-.	875	876	O
-
-3	877	878	O
-,	878	879	O
-and	880	883	O
-“	884	885	O
-catalytic	885	894	O
-gas	895	898	O
-flow	899	903	O
-CVD	904	907	O
-
-”	907	908	O
-
-[	909	910	O
-36,37	910	915	O
-]	915	916	O
-.	916	917	O
-
-One	918	921	O
-of	922	924	O
-the	925	928	B-Task
-most	929	933	I-Task
-effective	934	943	I-Task
-,	943	944	I-Task
-cheap	945	950	I-Task
-,	950	951	I-Task
-and	952	955	I-Task
-scalable	956	964	I-Task
-CVD	965	968	I-Task
-techniques	969	979	I-Task
-is	980	982	O
-the	983	986	O
-HiPco	987	992	B-Process
-(	993	994	I-Process
-high	994	998	I-Process
--	998	999	I-Process
-pressure	999	1007	I-Process
-CO	1008	1010	I-Process
-)	1010	1011	I-Process
-process	1012	1019	I-Process
-,	1019	1020	O
-which	1021	1026	O
-does	1027	1031	B-Process
-not	1032	1035	I-Process
-use	1036	1039	I-Process
-pre	1040	1043	I-Process
--	1043	1044	I-Process
-formed	1044	1050	I-Process
-catalyst	1051	1059	I-Process
-particles	1060	1069	I-Process
-unlike	1070	1076	O
-most	1077	1081	O
-other	1082	1087	O
-CVD	1088	1091	B-Process
-techniques	1092	1102	I-Process
-[	1103	1104	O
-38	1104	1106	O
-]	1106	1107	O
-.	1107	1108	O
+In	0,2	O	O
+contrast	3,11	O	O
+with	12,16	O	O
+polymers	17,25	O	B-Material
+,	25,26	O	O
+which	27,32	O	O
+are	33,36	O	O
+typically	37,46	O	O
+synthesized	47,58	O	B-Process
+in	59,61	O	I-Process
+the	62,65	O	I-Process
+liquid	66,72	O	I-Process
+phase	73,78	O	I-Process
+,	78,79	O	O
+SWNTs	80,85	O	B-Material
+are	86,89	O	O
+produced	90,98	O	B-Process
+through	99,106	O	I-Process
+a	107,108	O	I-Process
+variety	109,116	O	I-Process
+of	117,119	O	I-Process
+synthesis	120,129	O	I-Process
+techniques	130,140	O	I-Process
+that	141,145	O	O
+typically	146,155	O	O
+involve	156,163	O	O
+the	164,167	O	B-Process
+reaction	168,176	O	I-Process
+of	177,179	O	I-Process
+a	180,181	O	I-Process
+gaseous	182,189	O	I-Process
+carbon	190,196	O	I-Process
+feedstock	197,206	O	I-Process
+to	207,209	O	I-Process
+form	210,214	O	I-Process
+the	215,218	O	I-Process
+nanotubes	219,228	O	I-Process
+on	229,231	O	I-Process
+catalyst	232,240	O	I-Process
+particles	241,250	O	I-Process
+.	250,251	O	O
+
+MWNTs	252,257	O	B-Task
+were	258,262	O	O
+first	263,268	O	O
+observed	269,277	O	B-Process
+in	278,280	O	I-Process
+arc	281,284	O	I-Process
+discharge	285,294	O	I-Process
+fullerene	295,304	O	I-Process
+reactors	305,313	O	I-Process
+[	314,315	O	O
+1,26	315,319	O	O
+]	319,320	O	O
+;	320,321	O	O
+this	322,326	O	B-Task
+technique	327,336	O	I-Task
+was	337,340	O	O
+later	341,346	O	O
+adapted	347,354	O	O
+to	355,357	O	O
+produce	358,365	O	O
+SWNTs	366,371	O	B-Material
+[	372,373	O	O
+3	373,374	O	O
+]	374,375	O	O
+.	375,376	O	O
+
+Similarly	377,386	O	O
+,	386,387	O	O
+the	388,391	O	B-Process
+fullerene	392,401	O	I-Process
+production	402,412	O	I-Process
+method	413,419	O	I-Process
+of	420,422	O	I-Process
+laser	423,428	O	I-Process
+ablation	429,437	O	I-Process
+[	438,439	O	O
+27	439,441	O	O
+]	441,442	O	O
+was	443,446	O	O
+adapted	447,454	O	O
+to	455,457	O	O
+produce	458,465	O	O
+SWNTs	466,471	O	B-Material
+(	472,473	O	O
+∼1.4	473,477	O	O
+nm	477,479	O	O
+diameter	480,488	O	O
+)	488,489	O	O
+in	490,492	O	O
+larger	493,499	O	O
+quantities	500,510	O	O
+on	511,513	O	O
+metal	514,519	O	B-Material
+catalyst	520,528	O	I-Material
+particles	529,538	O	I-Material
+[	539,540	O	O
+28–30	540,545	O	O
+]	545,546	O	O
+.	546,547	O	O
+
+A	548,549	O	O
+number	550,556	O	O
+of	557,559	O	O
+chemical	560,568	O	B-Process
+vapor	569,574	O	I-Process
+deposition	575,585	O	I-Process
+(	586,587	O	O
+CVD	587,590	O	B-Process
+)	590,591	O	O
+processes	592,601	O	O
+have	602,606	O	O
+been	607,611	O	O
+developed	612,621	O	O
+to	622,624	O	O
+grow	625,629	O	O
+SWNTs	630,635	O	B-Material
+and	636,639	O	O
+MWNTs	640,645	O	B-Material
+,	645,646	O	O
+all	647,650	O	O
+involving	651,660	O	O
+the	661,664	O	B-Process
+reaction	665,673	O	I-Process
+of	674,676	O	I-Process
+a	677,678	O	I-Process
+gaseous	679,686	O	I-Process
+carbon	687,693	O	I-Process
+compound	694,702	O	I-Process
+as	703,705	O	I-Process
+feedstock	706,715	O	I-Process
+.	715,716	O	O
+
+These	717,722	O	O
+processes	723,732	O	O
+include	733,740	O	O
+fluidized	741,750	O	B-Process
+bed	751,754	O	I-Process
+[	755,756	O	O
+31	756,758	O	O
+]	758,759	O	O
+,	759,760	O	O
+“	761,762	O	B-Process
+carpet	762,768	O	I-Process
+”	768,769	O	I-Process
+growth	770,776	O	I-Process
+of	777,779	O	I-Process
+carbon	780,786	O	I-Process
+nanotubes	787,796	O	I-Process
+(	797,798	O	I-Process
+CNTs	798,802	O	I-Process
+)	802,803	O	I-Process
+from	804,808	O	I-Process
+catalyst	809,817	O	I-Process
+particles	818,827	O	I-Process
+embedded	828,836	O	I-Process
+in	837,839	O	I-Process
+a	840,841	O	I-Process
+substrate	842,851	O	I-Process
+[	852,853	O	O
+32–35	853,858	O	O
+]	858,859	O	O
+as	860,862	O	O
+shown	863,868	O	O
+in	869,871	O	O
+Fig	872,875	O	O
+.	875,876	O	O
+
+3	877,878	O	O
+,	878,879	O	O
+and	880,883	O	O
+“	884,885	O	O
+catalytic	885,894	O	O
+gas	895,898	O	O
+flow	899,903	O	O
+CVD	904,907	O	O
+
+”	907,908	O	O
+
+[	909,910	O	O
+36,37	910,915	O	O
+]	915,916	O	O
+.	916,917	O	O
+
+One	918,921	O	O
+of	922,924	O	O
+the	925,928	O	B-Task
+most	929,933	O	I-Task
+effective	934,943	O	I-Task
+,	943,944	O	I-Task
+cheap	945,950	O	I-Task
+,	950,951	O	I-Task
+and	952,955	O	I-Task
+scalable	956,964	O	I-Task
+CVD	965,968	O	I-Task
+techniques	969,979	O	I-Task
+is	980,982	O	O
+the	983,986	O	O
+HiPco	987,992	O	B-Process
+(	993,994	O	I-Process
+high	994,998	O	I-Process
+-	998,999	O	I-Process
+pressure	999,1007	O	I-Process
+CO	1008,1010	O	I-Process
+)	1010,1011	O	I-Process
+process	1012,1019	O	I-Process
+,	1019,1020	O	O
+which	1021,1026	O	O
+does	1027,1031	O	B-Process
+not	1032,1035	O	I-Process
+use	1036,1039	O	I-Process
+pre	1040,1043	O	I-Process
+-	1043,1044	O	I-Process
+formed	1044,1050	O	I-Process
+catalyst	1051,1059	O	I-Process
+particles	1060,1069	O	I-Process
+unlike	1070,1076	O	O
+most	1077,1081	O	O
+other	1082,1087	O	O
+CVD	1088,1091	O	B-Process
+techniques	1092,1102	O	I-Process
+[	1103,1104	O	O
+38	1104,1106	O	O
+]	1106,1107	O	O
+.	1107,1108	O	O
 
 
 -DOCSTART- (S0032386109007290)
 
-ELRs	0	4	B-Material
-are	5	8	O
-particularly	9	21	O
-attractive	22	32	O
-for	33	36	O
-the	37	40	O
-synthesis	41	50	B-Process
-of	51	53	I-Process
-block	54	59	I-Process
-copolymers	60	70	I-Process
-that	71	75	O
-self	76	80	O
--	80	81	O
-assemble	81	89	O
-into	90	94	O
-polymer	95	102	B-Material
-nanostructures	103	117	I-Material
-such	118	122	O
-as	123	125	O
-micelles	126	134	B-Material
-.	134	135	O
-
-The	136	139	O
-first	140	145	O
-work	146	150	O
-in	151	153	O
-this	154	158	O
-area	159	163	O
-involved	164	172	O
-an	173	175	O
-elastin	176	183	B-Material
--	183	184	I-Material
-mimetic	184	191	I-Material
-di	192	194	I-Material
--	194	195	I-Material
-block	195	200	I-Material
-copolymer	201	210	I-Material
-containing	211	221	O
-VPGEG–(IPGAG)4	222	236	B-Material
-and	237	240	O
-VPGFG–(IPGVG)4	241	255	B-Material
-as	256	258	O
-the	259	262	O
-hydrophilic	263	274	B-Material
-and	275	278	I-Material
-hydrophobic	279	290	I-Material
-blocks	291	297	I-Material
-,	297	298	O
-respectively	299	311	O
-[	312	313	O
-49	313	315	O
-]	315	316	O
-.	316	317	O
-
-The	318	321	O
-resulting	322	331	O
-micelles	332	340	B-Material
-were	341	345	O
-studied	346	353	O
-by	354	356	O
-dynamic	357	364	B-Process
-light	365	370	I-Process
-scattering	371	381	I-Process
-(	382	383	O
-DLS	383	386	B-Process
-)	386	387	O
-and	388	391	O
-DSC	392	395	B-Process
-was	396	399	O
-used	400	404	O
-to	405	407	O
-measure	408	415	O
-the	416	419	O
-enthalpy	420	428	O
-of	429	431	O
-self	432	436	B-Process
--	436	437	I-Process
-assembly	437	445	I-Process
-.	445	446	O
-
-A	447	448	O
-tri	449	452	B-Material
--	452	453	I-Material
-block	453	458	I-Material
-copolymer	459	468	I-Material
-was	469	472	O
-subsequently	473	485	O
-synthesized	486	497	O
-and	498	501	O
-the	502	505	O
-TEM	506	509	B-Material
-images	510	516	I-Material
-of	517	519	O
-this	520	524	O
-polymer	525	532	B-Material
-showed	533	539	O
-that	540	544	O
-it	545	547	O
-formed	548	554	O
-spherical	555	564	B-Material
-aggregates	565	575	I-Material
-[	576	577	O
-50	577	579	O
-]	579	580	O
-.	580	581	O
-
-Other	582	587	O
-multivalent	588	599	B-Material
-spherical	600	609	I-Material
-micelles	610	618	I-Material
-have	619	623	O
-been	624	628	O
-obtained	629	637	O
-from	638	642	O
-linear	643	649	B-Material
-elastin	650	657	I-Material
--	657	658	I-Material
-like	658	662	I-Material
-AB	663	665	I-Material
-di	666	668	I-Material
--	668	669	I-Material
-block	669	674	I-Material
-copolymers	675	685	I-Material
-in	686	688	O
-the	689	692	O
-temperature	693	704	O
-range	705	710	O
-37–42	711	716	O
-°	716	717	O
-C	717	718	O
-with	719	723	O
-the	724	727	O
-aim	728	731	O
-of	732	734	O
-targeting	735	744	B-Task
-cancer	745	751	I-Task
-cells	752	757	I-Task
-[	758	759	O
-51	759	761	O
-]	761	762	O
-.	762	763	O
-
-Bidwell	764	771	O
-et	772	774	O
-al	775	777	O
-.	777	778	O
-have	779	783	O
-also	784	788	O
-exploited	789	798	O
-the	799	802	O
-ELRs	803	807	B-Material
-for	808	811	O
-its	812	815	O
-ability	816	823	O
-to	824	826	O
-serve	827	832	O
-as	833	835	O
-macromolecular	836	850	B-Material
-carriers	851	859	I-Material
-for	860	863	O
-thermally	864	873	B-Task
-targeted	874	882	I-Task
-delivery	883	891	I-Task
-of	892	894	I-Task
-drugs	895	900	I-Task
-.	900	901	O
-
-Attachment	902	912	O
-of	913	915	O
-doxorubicin	916	927	B-Material
-to	928	930	O
-ELR	931	934	B-Material
--	934	935	I-Material
-based	935	940	I-Material
-system	941	947	I-Material
-showed	948	954	O
-enhanced	955	963	O
-cytotoxicity	964	976	B-Process
-in	977	979	O
-uterine	980	987	B-Material
-sarcoma	988	995	I-Material
-cells	996	1001	I-Material
-when	1002	1006	O
-aggregation	1007	1018	B-Process
-was	1019	1022	O
-induced	1023	1030	O
-with	1031	1035	O
-hyperthermia	1036	1048	B-Process
-[	1049	1050	O
-52	1050	1052	O
-]	1052	1053	O
-.	1053	1054	O
+ELRs	0,4	O	B-Material
+are	5,8	O	O
+particularly	9,21	O	O
+attractive	22,32	O	O
+for	33,36	O	O
+the	37,40	O	O
+synthesis	41,50	O	B-Process
+of	51,53	O	I-Process
+block	54,59	O	I-Process
+copolymers	60,70	O	I-Process
+that	71,75	O	O
+self	76,80	O	O
+-	80,81	O	O
+assemble	81,89	O	O
+into	90,94	O	O
+polymer	95,102	O	B-Material
+nanostructures	103,117	O	I-Material
+such	118,122	O	O
+as	123,125	O	O
+micelles	126,134	O	B-Material
+.	134,135	O	O
+
+The	136,139	O	O
+first	140,145	O	O
+work	146,150	O	O
+in	151,153	O	O
+this	154,158	O	O
+area	159,163	O	O
+involved	164,172	O	O
+an	173,175	O	O
+elastin	176,183	O	B-Material
+-	183,184	O	I-Material
+mimetic	184,191	O	I-Material
+di	192,194	O	I-Material
+-	194,195	O	I-Material
+block	195,200	O	I-Material
+copolymer	201,210	O	I-Material
+containing	211,221	O	O
+VPGEG–(IPGAG)4	222,236	O	B-Material
+and	237,240	O	O
+VPGFG–(IPGVG)4	241,255	O	B-Material
+as	256,258	O	O
+the	259,262	O	O
+hydrophilic	263,274	O	B-Material
+and	275,278	O	I-Material
+hydrophobic	279,290	O	I-Material
+blocks	291,297	O	I-Material
+,	297,298	O	O
+respectively	299,311	O	O
+[	312,313	O	O
+49	313,315	O	O
+]	315,316	O	O
+.	316,317	O	O
+
+The	318,321	O	O
+resulting	322,331	O	O
+micelles	332,340	O	B-Material
+were	341,345	O	O
+studied	346,353	O	O
+by	354,356	O	O
+dynamic	357,364	O	B-Process
+light	365,370	O	I-Process
+scattering	371,381	O	I-Process
+(	382,383	O	O
+DLS	383,386	O	B-Process
+)	386,387	O	O
+and	388,391	O	O
+DSC	392,395	O	B-Process
+was	396,399	O	O
+used	400,404	O	O
+to	405,407	O	O
+measure	408,415	O	O
+the	416,419	O	O
+enthalpy	420,428	O	O
+of	429,431	O	O
+self	432,436	O	B-Process
+-	436,437	O	I-Process
+assembly	437,445	O	I-Process
+.	445,446	O	O
+
+A	447,448	O	O
+tri	449,452	O	B-Material
+-	452,453	O	I-Material
+block	453,458	O	I-Material
+copolymer	459,468	O	I-Material
+was	469,472	O	O
+subsequently	473,485	O	O
+synthesized	486,497	O	O
+and	498,501	O	O
+the	502,505	O	O
+TEM	506,509	O	B-Material
+images	510,516	O	I-Material
+of	517,519	O	O
+this	520,524	O	O
+polymer	525,532	O	B-Material
+showed	533,539	O	O
+that	540,544	O	O
+it	545,547	O	O
+formed	548,554	O	O
+spherical	555,564	O	B-Material
+aggregates	565,575	O	I-Material
+[	576,577	O	O
+50	577,579	O	O
+]	579,580	O	O
+.	580,581	O	O
+
+Other	582,587	O	O
+multivalent	588,599	O	B-Material
+spherical	600,609	O	I-Material
+micelles	610,618	O	I-Material
+have	619,623	O	O
+been	624,628	O	O
+obtained	629,637	O	O
+from	638,642	O	O
+linear	643,649	O	B-Material
+elastin	650,657	O	I-Material
+-	657,658	O	I-Material
+like	658,662	O	I-Material
+AB	663,665	O	I-Material
+di	666,668	O	I-Material
+-	668,669	O	I-Material
+block	669,674	O	I-Material
+copolymers	675,685	O	I-Material
+in	686,688	O	O
+the	689,692	O	O
+temperature	693,704	O	O
+range	705,710	O	O
+37–42	711,716	O	O
+°	716,717	O	O
+C	717,718	O	O
+with	719,723	O	O
+the	724,727	O	O
+aim	728,731	O	O
+of	732,734	O	O
+targeting	735,744	O	B-Task
+cancer	745,751	O	I-Task
+cells	752,757	O	I-Task
+[	758,759	O	O
+51	759,761	O	O
+]	761,762	O	O
+.	762,763	O	O
+
+Bidwell	764,771	O	O
+et	772,774	O	O
+al	775,777	O	O
+.	777,778	O	O
+have	779,783	O	O
+also	784,788	O	O
+exploited	789,798	O	O
+the	799,802	O	O
+ELRs	803,807	O	B-Material
+for	808,811	O	O
+its	812,815	O	O
+ability	816,823	O	O
+to	824,826	O	O
+serve	827,832	O	O
+as	833,835	O	O
+macromolecular	836,850	O	B-Material
+carriers	851,859	O	I-Material
+for	860,863	O	O
+thermally	864,873	O	B-Task
+targeted	874,882	O	I-Task
+delivery	883,891	O	I-Task
+of	892,894	O	I-Task
+drugs	895,900	O	I-Task
+.	900,901	O	O
+
+Attachment	902,912	O	O
+of	913,915	O	O
+doxorubicin	916,927	O	B-Material
+to	928,930	O	O
+ELR	931,934	O	B-Material
+-	934,935	O	I-Material
+based	935,940	O	I-Material
+system	941,947	O	I-Material
+showed	948,954	O	O
+enhanced	955,963	O	O
+cytotoxicity	964,976	O	B-Process
+in	977,979	O	O
+uterine	980,987	O	B-Material
+sarcoma	988,995	O	I-Material
+cells	996,1001	O	I-Material
+when	1002,1006	O	O
+aggregation	1007,1018	O	B-Process
+was	1019,1022	O	O
+induced	1023,1030	O	O
+with	1031,1035	O	O
+hyperthermia	1036,1048	O	B-Process
+[	1049,1050	O	O
+52	1050,1052	O	O
+]	1052,1053	O	O
+.	1053,1054	O	O
 
 
 -DOCSTART- (S0032386109007423)
 
-In	0	2	O
-general	3	10	O
-,	10	11	O
-the	12	15	O
-ion	16	19	B-Process
-exchange	20	28	I-Process
-capacity	29	37	I-Process
-(	38	39	O
-IEC	39	42	B-Process
-)	42	43	O
-is	44	46	O
-closely	47	54	O
-related	55	62	O
-to	63	65	O
-the	66	69	O
-proton	70	76	B-Process
-conductivity	77	89	I-Process
-of	90	92	O
-PEMs	93	97	B-Material
-because	98	105	O
-the	106	109	O
-acid	110	114	O
-functionalities	115	130	O
-,	130	131	O
-such	132	136	O
-as	137	139	O
-sulfonic	140	148	B-Material
-acid	149	153	I-Material
-groups	154	160	I-Material
-,	160	161	O
-contribute	162	172	O
-to	173	175	O
-the	176	179	O
-proton	180	186	B-Process
-conduction	187	197	I-Process
-in	198	200	O
-a	201	202	O
-membrane	203	211	B-Material
-.	211	212	O
-
-Beyond	213	219	O
-a	220	221	O
-certain	222	229	O
-sulfonation	230	241	O
-degree	242	248	O
-,	248	249	O
-PEMs	250	254	B-Material
-tend	255	259	O
-to	260	262	O
-absorb	263	269	O
-too	270	273	O
-much	274	278	O
-water	279	284	B-Material
-or	285	287	O
-are	288	291	O
-even	292	296	O
-soluble	297	304	O
-in	305	307	O
-water	308	313	B-Material
-,	313	314	O
-which	315	320	O
-negatively	321	331	O
-affect	332	338	O
-their	339	344	O
-mechanical	345	355	O
-resistance	356	366	O
-and	367	370	O
-water	371	376	B-Material
-resistance	377	387	O
-[	388	389	O
-17,18	389	394	O
-]	394	395	O
-.	395	396	O
-
-Therefore	397	406	O
-,	406	407	O
-the	408	411	O
-improvement	412	423	B-Task
-of	424	426	I-Task
-proton	427	433	I-Task
-conductivity	434	446	I-Task
-using	447	452	I-Task
-aromatic	453	461	I-Task
-polymers	462	470	I-Task
-with	471	475	I-Task
-moderately	476	486	I-Task
-adjusted	487	495	I-Task
-IEC	496	499	I-Task
-values	500	506	I-Task
-has	507	510	O
-been	511	515	O
-under	516	521	O
-intense	522	529	O
-investigation	530	543	O
-[	544	545	O
-19–23	545	550	O
-]	550	551	O
-.	551	552	O
-
-To	553	555	O
-achieve	556	563	O
-high	564	568	B-Process
-proton	569	575	I-Process
-conductivity	576	588	I-Process
-with	589	593	O
-moderate	594	602	O
-IEC	603	606	B-Process
-values	607	613	O
-,	613	614	O
-the	615	618	O
-formation	619	628	B-Process
-of	629	631	I-Process
-ion	632	635	I-Process
-channel	636	643	I-Process
-structures	644	654	I-Process
-,	654	655	O
-which	656	661	O
-enable	662	668	O
-effective	669	678	B-Process
-proton	679	685	I-Process
-conduction	686	696	I-Process
-,	696	697	O
-has	698	701	O
-been	702	706	O
-studied	707	714	O
-.	714	715	O
-
-In	716	718	O
-the	719	722	O
-course	723	729	O
-of	730	732	O
-these	733	738	O
-studies	739	746	O
-,	746	747	O
-an	748	750	O
-ideal	751	756	O
-morphology	757	767	O
-has	768	771	O
-been	772	776	O
-pursued	777	784	O
-by	785	787	O
-microphase	788	798	O
-separation	799	809	O
-of	810	812	O
-segmented	813	822	B-Material
-block	823	828	I-Material
-copolymers	829	839	I-Material
-in	840	842	O
-which	843	848	O
-hydrophilic	849	860	B-Material
-sulfonated	861	871	I-Material
-polymer	872	879	I-Material
-segments	880	888	I-Material
-form	889	893	O
-an	894	896	O
-interconnected	897	911	B-Material
-three	912	917	I-Material
--	917	918	I-Material
-dimensional	918	929	I-Material
-network	930	937	I-Material
-responsible	938	949	O
-for	950	953	O
-efficient	954	963	O
-proton	964	970	B-Process
-transport	971	980	I-Process
-,	980	981	O
-while	982	987	O
-a	988	989	O
-complementary	990	1003	B-Process
-network	1004	1011	I-Process
-of	1012	1014	I-Process
-hydrophobic	1015	1026	I-Process
-non	1027	1030	I-Process
--	1030	1031	I-Process
-sulfonated	1031	1041	I-Process
-segments	1042	1050	I-Process
-imparts	1051	1058	O
-a	1059	1060	O
-reinforcing	1061	1072	O
-effect	1073	1079	O
-,	1079	1080	O
-preventing	1081	1091	B-Task
-excessive	1092	1101	I-Task
-swelling	1102	1110	I-Task
-in	1111	1113	I-Task
-water	1114	1119	I-Task
-and	1120	1123	O
-enhancing	1124	1133	B-Task
-the	1134	1137	I-Task
-mechanical	1138	1148	I-Task
-properties	1149	1159	I-Task
-.	1159	1160	O
-
-An	1161	1163	O
-image	1164	1169	O
-of	1170	1172	O
-the	1173	1176	O
-ideal	1177	1182	O
-morphology	1183	1193	O
-for	1194	1197	O
-PEMs	1198	1202	B-Material
-is	1203	1205	O
-shown	1206	1211	O
-in	1212	1214	O
-Fig	1215	1218	O
-.	1218	1219	O
-
-2	1220	1221	O
-.	1221	1222	O
+In	0,2	O	O
+general	3,10	O	O
+,	10,11	O	O
+the	12,15	O	O
+ion	16,19	O	B-Process
+exchange	20,28	O	I-Process
+capacity	29,37	O	I-Process
+(	38,39	O	O
+IEC	39,42	O	B-Process
+)	42,43	O	O
+is	44,46	O	O
+closely	47,54	O	O
+related	55,62	O	O
+to	63,65	O	O
+the	66,69	O	O
+proton	70,76	O	B-Process
+conductivity	77,89	O	I-Process
+of	90,92	O	O
+PEMs	93,97	O	B-Material
+because	98,105	O	O
+the	106,109	O	O
+acid	110,114	O	O
+functionalities	115,130	O	O
+,	130,131	O	O
+such	132,136	O	O
+as	137,139	O	O
+sulfonic	140,148	O	B-Material
+acid	149,153	O	I-Material
+groups	154,160	O	I-Material
+,	160,161	O	O
+contribute	162,172	O	O
+to	173,175	O	O
+the	176,179	O	O
+proton	180,186	O	B-Process
+conduction	187,197	O	I-Process
+in	198,200	O	O
+a	201,202	O	O
+membrane	203,211	O	B-Material
+.	211,212	O	O
+
+Beyond	213,219	O	O
+a	220,221	O	O
+certain	222,229	O	O
+sulfonation	230,241	O	O
+degree	242,248	O	O
+,	248,249	O	O
+PEMs	250,254	O	B-Material
+tend	255,259	O	O
+to	260,262	O	O
+absorb	263,269	O	O
+too	270,273	O	O
+much	274,278	O	O
+water	279,284	O	B-Material
+or	285,287	O	O
+are	288,291	O	O
+even	292,296	O	O
+soluble	297,304	O	O
+in	305,307	O	O
+water	308,313	O	B-Material
+,	313,314	O	O
+which	315,320	O	O
+negatively	321,331	O	O
+affect	332,338	O	O
+their	339,344	O	O
+mechanical	345,355	O	O
+resistance	356,366	O	O
+and	367,370	O	O
+water	371,376	O	B-Material
+resistance	377,387	O	O
+[	388,389	O	O
+17,18	389,394	O	O
+]	394,395	O	O
+.	395,396	O	O
+
+Therefore	397,406	O	O
+,	406,407	O	O
+the	408,411	O	O
+improvement	412,423	O	B-Task
+of	424,426	O	I-Task
+proton	427,433	O	I-Task
+conductivity	434,446	O	I-Task
+using	447,452	O	I-Task
+aromatic	453,461	O	I-Task
+polymers	462,470	O	I-Task
+with	471,475	O	I-Task
+moderately	476,486	O	I-Task
+adjusted	487,495	O	I-Task
+IEC	496,499	O	I-Task
+values	500,506	O	I-Task
+has	507,510	O	O
+been	511,515	O	O
+under	516,521	O	O
+intense	522,529	O	O
+investigation	530,543	O	O
+[	544,545	O	O
+19–23	545,550	O	O
+]	550,551	O	O
+.	551,552	O	O
+
+To	553,555	O	O
+achieve	556,563	O	O
+high	564,568	O	B-Process
+proton	569,575	O	I-Process
+conductivity	576,588	O	I-Process
+with	589,593	O	O
+moderate	594,602	O	O
+IEC	603,606	O	B-Process
+values	607,613	O	O
+,	613,614	O	O
+the	615,618	O	O
+formation	619,628	O	B-Process
+of	629,631	O	I-Process
+ion	632,635	O	I-Process
+channel	636,643	O	I-Process
+structures	644,654	O	I-Process
+,	654,655	O	O
+which	656,661	O	O
+enable	662,668	O	O
+effective	669,678	O	B-Process
+proton	679,685	O	I-Process
+conduction	686,696	O	I-Process
+,	696,697	O	O
+has	698,701	O	O
+been	702,706	O	O
+studied	707,714	O	O
+.	714,715	O	O
+
+In	716,718	O	O
+the	719,722	O	O
+course	723,729	O	O
+of	730,732	O	O
+these	733,738	O	O
+studies	739,746	O	O
+,	746,747	O	O
+an	748,750	O	O
+ideal	751,756	O	O
+morphology	757,767	O	O
+has	768,771	O	O
+been	772,776	O	O
+pursued	777,784	O	O
+by	785,787	O	O
+microphase	788,798	O	O
+separation	799,809	O	O
+of	810,812	O	O
+segmented	813,822	O	B-Material
+block	823,828	O	I-Material
+copolymers	829,839	O	I-Material
+in	840,842	O	O
+which	843,848	O	O
+hydrophilic	849,860	O	B-Material
+sulfonated	861,871	O	I-Material
+polymer	872,879	O	I-Material
+segments	880,888	O	I-Material
+form	889,893	O	O
+an	894,896	O	O
+interconnected	897,911	O	B-Material
+three	912,917	O	I-Material
+-	917,918	O	I-Material
+dimensional	918,929	O	I-Material
+network	930,937	O	I-Material
+responsible	938,949	O	O
+for	950,953	O	O
+efficient	954,963	O	O
+proton	964,970	O	B-Process
+transport	971,980	O	I-Process
+,	980,981	O	O
+while	982,987	O	O
+a	988,989	O	O
+complementary	990,1003	O	B-Process
+network	1004,1011	O	I-Process
+of	1012,1014	O	I-Process
+hydrophobic	1015,1026	O	I-Process
+non	1027,1030	O	I-Process
+-	1030,1031	O	I-Process
+sulfonated	1031,1041	O	I-Process
+segments	1042,1050	O	I-Process
+imparts	1051,1058	O	O
+a	1059,1060	O	O
+reinforcing	1061,1072	O	O
+effect	1073,1079	O	O
+,	1079,1080	O	O
+preventing	1081,1091	O	B-Task
+excessive	1092,1101	O	I-Task
+swelling	1102,1110	O	I-Task
+in	1111,1113	O	I-Task
+water	1114,1119	O	I-Task
+and	1120,1123	O	O
+enhancing	1124,1133	O	B-Task
+the	1134,1137	O	I-Task
+mechanical	1138,1148	O	I-Task
+properties	1149,1159	O	I-Task
+.	1159,1160	O	O
+
+An	1161,1163	O	O
+image	1164,1169	O	O
+of	1170,1172	O	O
+the	1173,1176	O	O
+ideal	1177,1182	O	O
+morphology	1183,1193	O	O
+for	1194,1197	O	O
+PEMs	1198,1202	O	B-Material
+is	1203,1205	O	O
+shown	1206,1211	O	O
+in	1212,1214	O	O
+Fig	1215,1218	O	O
+.	1218,1219	O	O
+
+2	1220,1221	O	O
+.	1221,1222	O	O
 
 
 -DOCSTART- (S0032386109010386)
 
-From	0	4	O
-a	5	6	O
-general	7	14	O
-point	15	20	O
-of	21	23	O
-view	24	28	O
-,	28	29	O
-polymerization	30	44	B-Process
-techniques	45	55	I-Process
-can	56	59	O
-be	60	62	O
-divided	63	70	O
-into	71	75	O
-two	76	79	O
-types	80	85	O
-of	86	88	O
-chemical	89	97	B-Process
-reactions	98	107	I-Process
-:	107	108	O
-step	109	113	B-Process
--	113	114	I-Process
-growth	114	120	I-Process
-polymerization	121	135	I-Process
-and	136	139	O
-free	140	144	B-Process
-radical	145	152	I-Process
-polymerization	153	167	I-Process
-.	167	168	O
-
-Step	169	173	B-Process
--	173	174	I-Process
-growth	174	180	I-Process
-polymerization	181	195	I-Process
-is	196	198	O
-widely	199	205	O
-used	206	210	O
-for	211	214	O
-synthesis	215	224	B-Task
-of	225	227	I-Task
-polyesters	228	238	I-Task
-,	238	239	O
-polyamide	240	249	B-Material
-and	250	253	O
-epoxies	254	261	B-Material
-while	262	267	O
-the	268	271	O
-synthesis	272	281	B-Process
-of	282	284	I-Process
-polyacrylics	285	297	I-Process
-requires	298	306	O
-the	307	310	O
-use	311	314	O
-of	315	317	O
-free	318	322	B-Process
-radical	323	330	I-Process
-polymerization	331	345	I-Process
-.	345	346	O
-
-These	347	352	O
-polymerization	353	367	B-Process
-reactions	368	377	I-Process
-can	378	381	O
-be	382	384	O
-performed	385	394	O
-either	395	401	O
-in	402	404	O
-bulk	405	409	B-Material
-or	410	412	O
-in	413	415	O
-solution	416	424	B-Material
-or	425	427	O
-in	428	430	O
-dispersed	431	440	B-Material
-media	441	446	I-Material
-.	446	447	O
-
-Heterophase	448	459	B-Process
-polymerizations	460	475	I-Process
-(	476	477	O
-i.e.	477	481	O
-emulsion	482	490	B-Process
-,	490	491	O
-dispersion	492	502	B-Process
-and	503	506	O
-miniemulsion	507	519	B-Process
-polymerizations	520	535	I-Process
-)	535	536	O
-present	537	544	O
-the	545	548	O
-advantage	549	558	O
-of	559	561	O
-easier	562	568	O
-removal	569	576	B-Task
-of	577	579	I-Task
-the	580	583	I-Task
-resulting	584	593	I-Task
-product	594	601	I-Task
-from	602	606	O
-the	607	610	O
-reactor	611	618	B-Material
-compared	619	627	O
-to	628	630	O
-bulk	631	635	B-Process
-polymerization	636	650	I-Process
-thanks	651	657	O
-to	658	660	O
-the	661	664	O
-low	665	668	O
-viscosity	669	678	O
-of	679	681	O
-the	682	685	O
-reaction	686	694	B-Material
-medium	695	701	I-Material
-.	701	702	O
-
-Polymerization	703	717	B-Process
-in	718	720	O
-solution	721	729	B-Material
-also	730	734	O
-induces	735	742	O
-lower	743	748	O
-viscosity	749	758	O
-but	759	762	O
-also	763	767	O
-lower	768	773	O
-reaction	774	782	B-Process
-rates	783	788	O
-due	789	792	O
-to	793	795	O
-dilution	796	804	B-Process
-of	805	807	O
-the	808	811	O
-reactants	812	821	B-Material
-and	822	825	O
-higher	826	832	O
-cost	833	837	O
-and	838	841	O
-environmental	842	855	O
-impact	856	862	O
-due	863	866	O
-to	867	869	O
-the	870	873	O
-use	874	877	O
-of	878	880	O
-organic	881	888	B-Material
-solvents	889	897	I-Material
-.	897	898	O
-
-These	899	904	O
-problems	905	913	O
-are	914	917	O
-solved	918	924	O
-in	925	927	O
-the	928	931	O
-case	932	936	O
-of	937	939	O
-heterophase	940	951	B-Process
-polymerizations	952	967	I-Process
-where	968	973	O
-the	974	977	O
-reactants	978	987	B-Material
-are	988	991	O
-confined	992	1000	O
-inside	1001	1007	O
-droplets	1008	1016	B-Material
-(	1017	1018	O
-no	1018	1020	O
-dilution	1021	1029	B-Process
-effect	1030	1036	I-Process
-)	1036	1037	O
-and	1038	1041	O
-water	1042	1047	B-Material
-is	1048	1050	O
-used	1051	1055	O
-as	1056	1058	O
-medium	1059	1065	O
-.	1065	1066	O
-
-The	1067	1070	O
-use	1071	1074	O
-of	1075	1077	O
-surfactant	1078	1088	B-Material
-molecules	1089	1098	I-Material
-are	1099	1102	O
-usually	1103	1110	O
-needed	1111	1117	O
-for	1118	1121	O
-the	1122	1125	O
-stabilization	1126	1139	B-Process
-of	1140	1142	I-Process
-the	1143	1146	I-Process
-monomer	1147	1154	I-Process
-droplet	1155	1162	I-Process
-and	1163	1166	O
-subsequent	1167	1177	O
-polymer	1178	1185	B-Material
-particles	1186	1195	I-Material
-in	1196	1198	O
-the	1199	1202	O
-water	1203	1208	B-Material
-phase	1209	1214	O
-.	1214	1215	O
+From	0,4	O	O
+a	5,6	O	O
+general	7,14	O	O
+point	15,20	O	O
+of	21,23	O	O
+view	24,28	O	O
+,	28,29	O	O
+polymerization	30,44	O	B-Process
+techniques	45,55	O	I-Process
+can	56,59	O	O
+be	60,62	O	O
+divided	63,70	O	O
+into	71,75	O	O
+two	76,79	O	O
+types	80,85	O	O
+of	86,88	O	O
+chemical	89,97	O	B-Process
+reactions	98,107	O	I-Process
+:	107,108	O	O
+step	109,113	O	B-Process
+-	113,114	O	I-Process
+growth	114,120	O	I-Process
+polymerization	121,135	O	I-Process
+and	136,139	O	O
+free	140,144	O	B-Process
+radical	145,152	O	I-Process
+polymerization	153,167	O	I-Process
+.	167,168	O	O
+
+Step	169,173	O	B-Process
+-	173,174	O	I-Process
+growth	174,180	O	I-Process
+polymerization	181,195	O	I-Process
+is	196,198	O	O
+widely	199,205	O	O
+used	206,210	O	O
+for	211,214	O	O
+synthesis	215,224	O	B-Task
+of	225,227	O	I-Task
+polyesters	228,238	O	I-Task
+,	238,239	O	O
+polyamide	240,249	O	B-Material
+and	250,253	O	O
+epoxies	254,261	O	B-Material
+while	262,267	O	O
+the	268,271	O	O
+synthesis	272,281	O	B-Process
+of	282,284	O	I-Process
+polyacrylics	285,297	O	I-Process
+requires	298,306	O	O
+the	307,310	O	O
+use	311,314	O	O
+of	315,317	O	O
+free	318,322	O	B-Process
+radical	323,330	O	I-Process
+polymerization	331,345	O	I-Process
+.	345,346	O	O
+
+These	347,352	O	O
+polymerization	353,367	O	B-Process
+reactions	368,377	O	I-Process
+can	378,381	O	O
+be	382,384	O	O
+performed	385,394	O	O
+either	395,401	O	O
+in	402,404	O	O
+bulk	405,409	O	B-Material
+or	410,412	O	O
+in	413,415	O	O
+solution	416,424	O	B-Material
+or	425,427	O	O
+in	428,430	O	O
+dispersed	431,440	O	B-Material
+media	441,446	O	I-Material
+.	446,447	O	O
+
+Heterophase	448,459	O	B-Process
+polymerizations	460,475	O	I-Process
+(	476,477	O	O
+i.e.	477,481	O	O
+emulsion	482,490	O	B-Process
+,	490,491	O	O
+dispersion	492,502	O	B-Process
+and	503,506	O	O
+miniemulsion	507,519	O	B-Process
+polymerizations	520,535	O	I-Process
+)	535,536	O	O
+present	537,544	O	O
+the	545,548	O	O
+advantage	549,558	O	O
+of	559,561	O	O
+easier	562,568	O	O
+removal	569,576	O	B-Task
+of	577,579	O	I-Task
+the	580,583	O	I-Task
+resulting	584,593	O	I-Task
+product	594,601	O	I-Task
+from	602,606	O	O
+the	607,610	O	O
+reactor	611,618	O	B-Material
+compared	619,627	O	O
+to	628,630	O	O
+bulk	631,635	O	B-Process
+polymerization	636,650	O	I-Process
+thanks	651,657	O	O
+to	658,660	O	O
+the	661,664	O	O
+low	665,668	O	O
+viscosity	669,678	O	O
+of	679,681	O	O
+the	682,685	O	O
+reaction	686,694	O	B-Material
+medium	695,701	O	I-Material
+.	701,702	O	O
+
+Polymerization	703,717	O	B-Process
+in	718,720	O	O
+solution	721,729	O	B-Material
+also	730,734	O	O
+induces	735,742	O	O
+lower	743,748	O	O
+viscosity	749,758	O	O
+but	759,762	O	O
+also	763,767	O	O
+lower	768,773	O	O
+reaction	774,782	O	B-Process
+rates	783,788	O	O
+due	789,792	O	O
+to	793,795	O	O
+dilution	796,804	O	B-Process
+of	805,807	O	O
+the	808,811	O	O
+reactants	812,821	O	B-Material
+and	822,825	O	O
+higher	826,832	O	O
+cost	833,837	O	O
+and	838,841	O	O
+environmental	842,855	O	O
+impact	856,862	O	O
+due	863,866	O	O
+to	867,869	O	O
+the	870,873	O	O
+use	874,877	O	O
+of	878,880	O	O
+organic	881,888	O	B-Material
+solvents	889,897	O	I-Material
+.	897,898	O	O
+
+These	899,904	O	O
+problems	905,913	O	O
+are	914,917	O	O
+solved	918,924	O	O
+in	925,927	O	O
+the	928,931	O	O
+case	932,936	O	O
+of	937,939	O	O
+heterophase	940,951	O	B-Process
+polymerizations	952,967	O	I-Process
+where	968,973	O	O
+the	974,977	O	O
+reactants	978,987	O	B-Material
+are	988,991	O	O
+confined	992,1000	O	O
+inside	1001,1007	O	O
+droplets	1008,1016	O	B-Material
+(	1017,1018	O	O
+no	1018,1020	O	O
+dilution	1021,1029	O	B-Process
+effect	1030,1036	O	I-Process
+)	1036,1037	O	O
+and	1038,1041	O	O
+water	1042,1047	O	B-Material
+is	1048,1050	O	O
+used	1051,1055	O	O
+as	1056,1058	O	O
+medium	1059,1065	O	O
+.	1065,1066	O	O
+
+The	1067,1070	O	O
+use	1071,1074	O	O
+of	1075,1077	O	O
+surfactant	1078,1088	O	B-Material
+molecules	1089,1098	O	I-Material
+are	1099,1102	O	O
+usually	1103,1110	O	O
+needed	1111,1117	O	O
+for	1118,1121	O	O
+the	1122,1125	O	O
+stabilization	1126,1139	O	B-Process
+of	1140,1142	O	I-Process
+the	1143,1146	O	I-Process
+monomer	1147,1154	O	I-Process
+droplet	1155,1162	O	I-Process
+and	1163,1166	O	O
+subsequent	1167,1177	O	O
+polymer	1178,1185	O	B-Material
+particles	1186,1195	O	I-Material
+in	1196,1198	O	O
+the	1199,1202	O	O
+water	1203,1208	O	B-Material
+phase	1209,1214	O	O
+.	1214,1215	O	O
 
 
 -DOCSTART- (S0032386110001667)
 
-Note	0	4	O
-that	5	9	O
-the	10	13	O
-quantitative	14	26	B-Task
-introduction	27	39	I-Task
-of	40	42	I-Task
-a	43	44	I-Task
-reactive	45	53	I-Task
-functionality	54	67	I-Task
-into	68	72	I-Task
-the	73	76	I-Task
-polymer	77	84	I-Task
-chain	85	90	I-Task
-end	91	94	I-Task
-can	95	98	O
-be	99	101	O
-easily	102	108	O
-achieved	109	117	O
-by	118	120	O
-adopting	121	129	O
-the	130	133	O
-living	134	140	B-Process
-ROMP	141	145	I-Process
-technique	146	155	I-Process
-especially	156	166	O
-using	167	172	O
-the	173	176	O
-Schrock	177	184	B-Material
-type	185	189	I-Material
-molybdenum	190	200	I-Material
-alkylidene	201	211	I-Material
-initiator	212	221	I-Material
-[	222	223	O
-7,12,21,61–65	223	236	O
-]	236	237	O
-.	237	238	O
-
-The	239	242	O
-exclusive	243	252	O
-preparation	253	264	B-Process
-of	265	267	I-Process
-end	268	271	I-Process
--	271	272	I-Process
-functionalized	272	286	I-Process
-ring	287	291	I-Process
--	291	292	I-Process
-opened	292	298	I-Process
-polymers	299	307	I-Process
-(	308	309	O
-realized	309	317	O
-by	318	320	O
-a	321	322	O
-living	323	329	B-Process
-polymerization	330	344	I-Process
-with	345	349	I-Process
-quantitative	350	362	I-Process
-initiation	363	373	I-Process
-)	373	374	O
-can	375	378	O
-be	379	381	O
-applied	382	389	O
-not	390	393	O
-only	394	398	O
-to	399	401	O
-prepare	402	409	O
-block	410	415	B-Material
-copolymers	416	426	I-Material
-(	427	428	O
-ABCs	428	432	B-Material
-)	432	433	O
-coupled	434	441	O
-with	442	446	O
-another	447	454	O
-living	455	461	B-Process
-polymerization	462	476	I-Process
-techniques	477	487	I-Process
-[	488	489	O
-66	489	491	O
-]	491	492	O
-,	492	493	O
-but	494	497	O
-also	498	502	O
-for	503	506	O
-preparation	507	518	B-Process
-of	519	521	I-Process
-macromonomers	522	535	I-Process
-,	535	536	O
-as	537	539	O
-described	540	549	O
-below	550	555	O
-.	555	556	O
-
-In	557	559	O
-contrast	560	568	O
-,	568	569	O
-the	570	573	O
-initiation	574	584	O
-efficiency	585	595	O
-is	596	598	O
-not	599	602	O
-always	603	609	O
-perfect	610	617	O
-as	618	620	O
-seen	621	625	O
-in	626	628	O
-the	629	632	O
-molybdenum	633	643	B-Material
-alkylidene	644	654	I-Material
-initiators	655	665	I-Material
-,	665	666	O
-because	667	674	O
-dissociation	675	687	B-Process
-of	688	690	O
-ligand	691	697	B-Material
-(	698	699	O
-PR3	699	702	B-Material
-etc	703	706	O
-.	706	707	O
-)	707	708	O
-should	709	715	O
-be	716	718	O
-required	719	727	O
-to	728	730	O
-generate	731	739	B-Process
-the	740	743	I-Process
-catalytically	744	757	I-Process
-active	758	764	I-Process
-species	765	772	I-Process
-in	773	775	I-Process
-the	776	779	I-Process
-ROMP	780	784	I-Process
-with	785	789	O
-the	790	793	O
-ruthenium	794	803	B-Material
-carbene	804	811	I-Material
-catalysts	812	821	I-Material
-(	822	823	O
-Scheme	823	829	O
-2	830	831	O
-)	831	832	O
-[	833	834	O
-67–69	834	839	O
-]	839	840	O
-.	840	841	O
-
-An	842	844	O
-equilibrium	845	856	O
-between	857	864	O
-coordination	865	877	B-Process
-and	878	881	O
-dissociation	882	894	B-Process
-of	895	897	O
-PR3	898	901	B-Material
-should	902	908	O
-be	909	911	O
-present	912	919	O
-even	920	924	O
-in	925	927	O
-the	928	931	O
-propagation	932	943	B-Process
-process	944	951	I-Process
-,	951	952	O
-and	953	956	O
-replacement	957	968	O
-of	969	971	O
-halogen	972	979	B-Material
-with	980	984	O
-the	985	988	O
-other	989	994	O
-anionic	995	1002	B-Material
-ligand	1003	1009	I-Material
-(	1010	1011	O
-and/or	1011	1017	O
-replacement	1018	1029	O
-of	1030	1032	O
-PR3	1033	1036	B-Material
-with	1037	1041	O
-the	1042	1045	O
-other	1046	1051	O
-neutral	1052	1059	B-Material
-donor	1060	1065	I-Material
-ligands	1066	1073	I-Material
-/	1073	1074	I-Material
-substrates	1074	1084	I-Material
-)	1084	1085	O
-can	1086	1089	O
-also	1090	1094	O
-be	1095	1097	O
-considered	1098	1108	O
-as	1109	1111	O
-the	1112	1115	O
-probable	1116	1124	O
-side	1125	1129	O
-reactions	1130	1139	O
-.	1139	1140	O
-
-Importance	1141	1151	O
-of	1152	1154	O
-using	1155	1160	O
-the	1161	1164	O
-molybdenum	1165	1175	B-Material
-catalysts	1176	1185	I-Material
-should	1186	1192	O
-be	1193	1195	O
-thus	1196	1200	O
-emphasized	1201	1211	O
-for	1212	1215	O
-their	1216	1221	O
-precise	1222	1229	O
-preparations	1230	1242	O
-,	1242	1243	O
-although	1244	1252	O
-the	1253	1256	O
-initiators	1257	1267	O
-are	1268	1271	O
-highly	1272	1278	O
-sensitive	1279	1288	O
-to	1289	1291	O
-moisture	1292	1300	O
-and	1301	1304	O
-both	1305	1309	O
-monomers	1310	1318	B-Material
-and	1319	1322	O
-solvent	1323	1330	B-Material
-have	1331	1335	O
-to	1336	1338	O
-be	1339	1341	O
-thus	1342	1346	O
-strictly	1347	1355	O
-purified	1356	1364	O
-to	1365	1367	O
-avoid	1368	1373	O
-the	1374	1377	O
-catalyst	1378	1386	B-Material
-decomposition	1387	1400	B-Process
-(	1401	1402	O
-deactivation	1402	1414	B-Process
-)	1414	1415	O
-.	1415	1416	O
+Note	0,4	O	O
+that	5,9	O	O
+the	10,13	O	O
+quantitative	14,26	O	B-Task
+introduction	27,39	O	I-Task
+of	40,42	O	I-Task
+a	43,44	O	I-Task
+reactive	45,53	O	I-Task
+functionality	54,67	O	I-Task
+into	68,72	O	I-Task
+the	73,76	O	I-Task
+polymer	77,84	O	I-Task
+chain	85,90	O	I-Task
+end	91,94	O	I-Task
+can	95,98	O	O
+be	99,101	O	O
+easily	102,108	O	O
+achieved	109,117	O	O
+by	118,120	O	O
+adopting	121,129	O	O
+the	130,133	O	O
+living	134,140	O	B-Process
+ROMP	141,145	O	I-Process
+technique	146,155	O	I-Process
+especially	156,166	O	O
+using	167,172	O	O
+the	173,176	O	O
+Schrock	177,184	O	B-Material
+type	185,189	O	I-Material
+molybdenum	190,200	O	I-Material
+alkylidene	201,211	O	I-Material
+initiator	212,221	O	I-Material
+[	222,223	O	O
+7,12,21,61–65	223,236	O	O
+]	236,237	O	O
+.	237,238	O	O
+
+The	239,242	O	O
+exclusive	243,252	O	O
+preparation	253,264	O	B-Process
+of	265,267	O	I-Process
+end	268,271	O	I-Process
+-	271,272	O	I-Process
+functionalized	272,286	O	I-Process
+ring	287,291	O	I-Process
+-	291,292	O	I-Process
+opened	292,298	O	I-Process
+polymers	299,307	O	I-Process
+(	308,309	O	O
+realized	309,317	O	O
+by	318,320	O	O
+a	321,322	O	O
+living	323,329	O	B-Process
+polymerization	330,344	O	I-Process
+with	345,349	O	I-Process
+quantitative	350,362	O	I-Process
+initiation	363,373	O	I-Process
+)	373,374	O	O
+can	375,378	O	O
+be	379,381	O	O
+applied	382,389	O	O
+not	390,393	O	O
+only	394,398	O	O
+to	399,401	O	O
+prepare	402,409	O	O
+block	410,415	O	B-Material
+copolymers	416,426	O	I-Material
+(	427,428	O	O
+ABCs	428,432	O	B-Material
+)	432,433	O	O
+coupled	434,441	O	O
+with	442,446	O	O
+another	447,454	O	O
+living	455,461	O	B-Process
+polymerization	462,476	O	I-Process
+techniques	477,487	O	I-Process
+[	488,489	O	O
+66	489,491	O	O
+]	491,492	O	O
+,	492,493	O	O
+but	494,497	O	O
+also	498,502	O	O
+for	503,506	O	O
+preparation	507,518	O	B-Process
+of	519,521	O	I-Process
+macromonomers	522,535	O	I-Process
+,	535,536	O	O
+as	537,539	O	O
+described	540,549	O	O
+below	550,555	O	O
+.	555,556	O	O
+
+In	557,559	O	O
+contrast	560,568	O	O
+,	568,569	O	O
+the	570,573	O	O
+initiation	574,584	O	O
+efficiency	585,595	O	O
+is	596,598	O	O
+not	599,602	O	O
+always	603,609	O	O
+perfect	610,617	O	O
+as	618,620	O	O
+seen	621,625	O	O
+in	626,628	O	O
+the	629,632	O	O
+molybdenum	633,643	O	B-Material
+alkylidene	644,654	O	I-Material
+initiators	655,665	O	I-Material
+,	665,666	O	O
+because	667,674	O	O
+dissociation	675,687	O	B-Process
+of	688,690	O	O
+ligand	691,697	O	B-Material
+(	698,699	O	O
+PR3	699,702	O	B-Material
+etc	703,706	O	O
+.	706,707	O	O
+)	707,708	O	O
+should	709,715	O	O
+be	716,718	O	O
+required	719,727	O	O
+to	728,730	O	O
+generate	731,739	O	B-Process
+the	740,743	O	I-Process
+catalytically	744,757	O	I-Process
+active	758,764	O	I-Process
+species	765,772	O	I-Process
+in	773,775	O	I-Process
+the	776,779	O	I-Process
+ROMP	780,784	O	I-Process
+with	785,789	O	O
+the	790,793	O	O
+ruthenium	794,803	O	B-Material
+carbene	804,811	O	I-Material
+catalysts	812,821	O	I-Material
+(	822,823	O	O
+Scheme	823,829	O	O
+2	830,831	O	O
+)	831,832	O	O
+[	833,834	O	O
+67–69	834,839	O	O
+]	839,840	O	O
+.	840,841	O	O
+
+An	842,844	O	O
+equilibrium	845,856	O	O
+between	857,864	O	O
+coordination	865,877	O	B-Process
+and	878,881	O	O
+dissociation	882,894	O	B-Process
+of	895,897	O	O
+PR3	898,901	O	B-Material
+should	902,908	O	O
+be	909,911	O	O
+present	912,919	O	O
+even	920,924	O	O
+in	925,927	O	O
+the	928,931	O	O
+propagation	932,943	O	B-Process
+process	944,951	O	I-Process
+,	951,952	O	O
+and	953,956	O	O
+replacement	957,968	O	O
+of	969,971	O	O
+halogen	972,979	O	B-Material
+with	980,984	O	O
+the	985,988	O	O
+other	989,994	O	O
+anionic	995,1002	O	B-Material
+ligand	1003,1009	O	I-Material
+(	1010,1011	O	O
+and/or	1011,1017	O	O
+replacement	1018,1029	O	O
+of	1030,1032	O	O
+PR3	1033,1036	O	B-Material
+with	1037,1041	O	O
+the	1042,1045	O	O
+other	1046,1051	O	O
+neutral	1052,1059	O	B-Material
+donor	1060,1065	O	I-Material
+ligands	1066,1073	O	I-Material
+/	1073,1074	O	I-Material
+substrates	1074,1084	O	I-Material
+)	1084,1085	O	O
+can	1086,1089	O	O
+also	1090,1094	O	O
+be	1095,1097	O	O
+considered	1098,1108	O	O
+as	1109,1111	O	O
+the	1112,1115	O	O
+probable	1116,1124	O	O
+side	1125,1129	O	O
+reactions	1130,1139	O	O
+.	1139,1140	O	O
+
+Importance	1141,1151	O	O
+of	1152,1154	O	O
+using	1155,1160	O	O
+the	1161,1164	O	O
+molybdenum	1165,1175	O	B-Material
+catalysts	1176,1185	O	I-Material
+should	1186,1192	O	O
+be	1193,1195	O	O
+thus	1196,1200	O	O
+emphasized	1201,1211	O	O
+for	1212,1215	O	O
+their	1216,1221	O	O
+precise	1222,1229	O	O
+preparations	1230,1242	O	O
+,	1242,1243	O	O
+although	1244,1252	O	O
+the	1253,1256	O	O
+initiators	1257,1267	O	O
+are	1268,1271	O	O
+highly	1272,1278	O	O
+sensitive	1279,1288	O	O
+to	1289,1291	O	O
+moisture	1292,1300	O	O
+and	1301,1304	O	O
+both	1305,1309	O	O
+monomers	1310,1318	O	B-Material
+and	1319,1322	O	O
+solvent	1323,1330	O	B-Material
+have	1331,1335	O	O
+to	1336,1338	O	O
+be	1339,1341	O	O
+thus	1342,1346	O	O
+strictly	1347,1355	O	O
+purified	1356,1364	O	O
+to	1365,1367	O	O
+avoid	1368,1373	O	O
+the	1374,1377	O	O
+catalyst	1378,1386	O	B-Material
+decomposition	1387,1400	O	B-Process
+(	1401,1402	O	O
+deactivation	1402,1414	O	B-Process
+)	1414,1415	O	O
+.	1415,1416	O	O
 
 
 -DOCSTART- (S0032386110004039)
 
-An	0	2	O
-application	3	14	O
-of	15	17	O
-ROMP	18	22	B-Material
-derived	23	30	I-Material
-random	31	37	I-Material
-copolymers	38	48	I-Material
-is	49	51	O
-the	52	55	O
-covalent	56	64	B-Task
-incorporation	65	78	I-Task
-of	79	81	I-Task
-optical	82	89	I-Task
-sensor	90	96	I-Task
-moieties	97	105	I-Task
-into	106	110	I-Task
-a	111	112	I-Task
-polymer	113	120	I-Task
-matrix	121	127	I-Task
-.	127	128	O
-
-ROM	129	132	B-Material
-polymers	133	141	I-Material
-have	142	146	O
-been	147	151	O
-tested	152	158	O
-as	159	161	O
-matrix	162	168	B-Material
-materials	169	178	I-Material
-for	179	182	O
-the	183	186	O
-oxygen	187	193	B-Material
-sensing	194	201	O
-phosphorescent	202	216	B-Material
-complex	217	224	I-Material
-platinum	225	233	I-Material
-tetrakis(pentafluorophenyl)porphyrin	234	270	I-Material
-.	270	271	O
-
-A	272	273	O
-correlation	274	285	O
-between	286	293	O
-the	294	297	O
-nature	298	304	O
-of	305	307	O
-the	308	311	O
-ROM	312	315	B-Material
-polymer	316	323	I-Material
-’s	323	325	I-Material
-side	326	330	I-Material
-chain	331	336	I-Material
-and	337	340	O
-the	341	344	O
-optical	345	352	O
-response	353	361	O
-of	362	364	O
-the	365	368	O
-sensor	369	375	B-Material
-molecules	376	385	I-Material
-has	386	389	O
-been	390	394	O
-established	395	406	O
-[	407	408	O
-34	408	410	O
-]	410	411	O
-.	411	412	O
-
-Several	413	420	O
-works	421	426	O
-are	427	430	O
-dedicated	431	440	O
-to	441	443	O
-the	444	447	O
-synthesis	448	457	B-Task
-of	458	460	I-Task
-ROMP	461	465	I-Task
--	465	466	I-Task
-able	466	470	I-Task
-optical	471	478	I-Task
-sensor	479	485	I-Task
-molecules	486	495	I-Task
-such	496	500	O
-as	501	503	O
-phenantroimidazoles	504	523	B-Material
-[	524	525	O
-35,36	525	530	O
-]	530	531	O
-,	531	532	O
-europium	533	541	B-Material
-complexes	542	551	I-Material
-[	552	553	O
-37	553	555	O
-]	555	556	O
-or	557	559	O
-xanthene	560	568	B-Material
-dyes	569	573	I-Material
-[	574	575	O
-38	575	577	O
-]	577	578	O
-,	578	579	O
-their	580	585	O
-random	586	592	O
-copolymerization	593	609	B-Process
-and	610	613	O
-the	614	617	O
-evaluation	618	628	B-Task
-of	629	631	I-Task
-their	632	637	I-Task
-sensing	638	645	I-Task
-profiles	646	654	I-Task
-in	655	657	I-Task
-the	658	661	I-Task
-copolymers	662	672	I-Task
-.	672	673	O
-
-Another	674	681	O
-application	682	693	O
-comprises	694	703	O
-random	704	710	B-Task
-copolymers	711	721	I-Task
-with	722	726	I-Task
-covalently	727	737	I-Task
-bound	738	743	I-Task
-eosin	744	749	I-Task
-and/or	750	756	I-Task
-ethyl	757	762	I-Task
-dimethylamino	763	776	I-Task
-benzoate	777	785	I-Task
-units	786	791	I-Task
-which	792	797	O
-were	798	802	O
-tested	803	809	O
-as	810	812	O
-macroinitiators	813	828	B-Material
-for	829	832	O
-the	833	836	O
-photopolymerization	837	856	O
-of	857	859	O
-acrylates	860	869	B-Material
-aiming	870	876	O
-at	877	879	O
-an	880	882	O
-initiator	883	892	B-Material
-/	892	893	I-Material
-coinitiator	893	904	I-Material
-system	905	911	I-Material
-which	912	917	O
-combines	918	926	O
-good	927	931	O
-polymerization	932	946	B-Process
-activity	947	955	O
-with	956	960	O
-improved	961	969	O
-migration	970	979	O
-stability	980	989	O
-[	990	991	O
-39	991	993	O
-]	993	994	O
-.	994	995	O
+An	0,2	O	O
+application	3,14	O	O
+of	15,17	O	O
+ROMP	18,22	O	B-Material
+derived	23,30	O	I-Material
+random	31,37	O	I-Material
+copolymers	38,48	O	I-Material
+is	49,51	O	O
+the	52,55	O	O
+covalent	56,64	O	B-Task
+incorporation	65,78	O	I-Task
+of	79,81	O	I-Task
+optical	82,89	O	I-Task
+sensor	90,96	O	I-Task
+moieties	97,105	O	I-Task
+into	106,110	O	I-Task
+a	111,112	O	I-Task
+polymer	113,120	O	I-Task
+matrix	121,127	O	I-Task
+.	127,128	O	O
+
+ROM	129,132	O	B-Material
+polymers	133,141	O	I-Material
+have	142,146	O	O
+been	147,151	O	O
+tested	152,158	O	O
+as	159,161	O	O
+matrix	162,168	O	B-Material
+materials	169,178	O	I-Material
+for	179,182	O	O
+the	183,186	O	O
+oxygen	187,193	O	B-Material
+sensing	194,201	O	O
+phosphorescent	202,216	O	B-Material
+complex	217,224	O	I-Material
+platinum	225,233	O	I-Material
+tetrakis(pentafluorophenyl)porphyrin	234,270	O	I-Material
+.	270,271	O	O
+
+A	272,273	O	O
+correlation	274,285	O	O
+between	286,293	O	O
+the	294,297	O	O
+nature	298,304	O	O
+of	305,307	O	O
+the	308,311	O	O
+ROM	312,315	O	B-Material
+polymer	316,323	O	I-Material
+’s	323,325	O	I-Material
+side	326,330	O	I-Material
+chain	331,336	O	I-Material
+and	337,340	O	O
+the	341,344	O	O
+optical	345,352	O	O
+response	353,361	O	O
+of	362,364	O	O
+the	365,368	O	O
+sensor	369,375	O	B-Material
+molecules	376,385	O	I-Material
+has	386,389	O	O
+been	390,394	O	O
+established	395,406	O	O
+[	407,408	O	O
+34	408,410	O	O
+]	410,411	O	O
+.	411,412	O	O
+
+Several	413,420	O	O
+works	421,426	O	O
+are	427,430	O	O
+dedicated	431,440	O	O
+to	441,443	O	O
+the	444,447	O	O
+synthesis	448,457	O	B-Task
+of	458,460	O	I-Task
+ROMP	461,465	O	I-Task
+-	465,466	O	I-Task
+able	466,470	O	I-Task
+optical	471,478	O	I-Task
+sensor	479,485	O	I-Task
+molecules	486,495	O	I-Task
+such	496,500	O	O
+as	501,503	O	O
+phenantroimidazoles	504,523	O	B-Material
+[	524,525	O	O
+35,36	525,530	O	O
+]	530,531	O	O
+,	531,532	O	O
+europium	533,541	O	B-Material
+complexes	542,551	O	I-Material
+[	552,553	O	O
+37	553,555	O	O
+]	555,556	O	O
+or	557,559	O	O
+xanthene	560,568	O	B-Material
+dyes	569,573	O	I-Material
+[	574,575	O	O
+38	575,577	O	O
+]	577,578	O	O
+,	578,579	O	O
+their	580,585	O	O
+random	586,592	O	O
+copolymerization	593,609	O	B-Process
+and	610,613	O	O
+the	614,617	O	O
+evaluation	618,628	O	B-Task
+of	629,631	O	I-Task
+their	632,637	O	I-Task
+sensing	638,645	O	I-Task
+profiles	646,654	O	I-Task
+in	655,657	O	I-Task
+the	658,661	O	I-Task
+copolymers	662,672	O	I-Task
+.	672,673	O	O
+
+Another	674,681	O	O
+application	682,693	O	O
+comprises	694,703	O	O
+random	704,710	O	B-Task
+copolymers	711,721	O	I-Task
+with	722,726	O	I-Task
+covalently	727,737	O	I-Task
+bound	738,743	O	I-Task
+eosin	744,749	O	I-Task
+and/or	750,756	O	I-Task
+ethyl	757,762	O	I-Task
+dimethylamino	763,776	O	I-Task
+benzoate	777,785	O	I-Task
+units	786,791	O	I-Task
+which	792,797	O	O
+were	798,802	O	O
+tested	803,809	O	O
+as	810,812	O	O
+macroinitiators	813,828	O	B-Material
+for	829,832	O	O
+the	833,836	O	O
+photopolymerization	837,856	O	O
+of	857,859	O	O
+acrylates	860,869	O	B-Material
+aiming	870,876	O	O
+at	877,879	O	O
+an	880,882	O	O
+initiator	883,892	O	B-Material
+/	892,893	O	I-Material
+coinitiator	893,904	O	I-Material
+system	905,911	O	I-Material
+which	912,917	O	O
+combines	918,926	O	O
+good	927,931	O	O
+polymerization	932,946	O	B-Process
+activity	947,955	O	O
+with	956,960	O	O
+improved	961,969	O	O
+migration	970,979	O	O
+stability	980,989	O	O
+[	990,991	O	O
+39	991,993	O	O
+]	993,994	O	O
+.	994,995	O	O
 
 
 -DOCSTART- (S0032386114008428)
 
-Another	0	7	B-Process
-choice	8	14	I-Process
-was	15	18	O
-to	19	21	O
-graft	22	27	B-Process
-the	28	31	I-Process
-fluorinated	32	43	I-Process
-groups	44	50	I-Process
-on	51	53	I-Process
-the	54	57	I-Process
-copolymers	58	68	I-Process
-with	69	73	I-Process
-functional	74	84	I-Process
-groups	85	91	I-Process
-.	91	92	O
-
-Casazza	93	100	O
-et	101	103	O
-al	104	106	O
-.	106	107	O
-
-[	108	109	O
-52	109	111	O
-]	111	112	O
-synthesized	113	124	O
-an	125	127	B-Task
-acrylic	128	135	I-Task
-terpolymer	136	146	I-Task
-with	147	151	I-Task
-pendent	152	159	I-Task
-perfluoroether	160	174	I-Task
-segments	175	183	I-Task
-via	184	187	O
-grafting	188	196	B-Process
-fluorinated	197	208	I-Process
-groups	209	215	I-Process
-into	216	220	O
-a	221	222	O
-poly(butyl	223	233	B-Material
-methacrylate	234	246	I-Material
--	246	247	I-Material
-co	247	249	I-Material
--	249	250	I-Material
-hydroxyehtyl	250	262	I-Material
-acrylate	263	271	I-Material
--	271	272	I-Material
-co	272	274	I-Material
--	274	275	I-Material
-ethyl	275	280	I-Material
-acrylate	281	289	I-Material
-)	289	290	O
-
-random	291	297	O
-copolymer	298	307	B-Material
-through	308	315	O
-hexamethylene	316	329	B-Process
-diisocyanate	330	342	I-Process
-functionality	343	356	I-Process
-.	356	357	O
-
-Malshe	358	364	O
-et	365	367	O
-al	368	370	O
-.	370	371	O
-
-[	372	373	O
-53,54	373	378	O
-]	378	379	O
-studied	380	387	O
-the	388	391	B-Task
-coating	392	399	I-Task
-properties	400	410	I-Task
-of	411	413	I-Task
-fluorinated	414	425	I-Task
-acrylic	426	433	I-Task
-copolymers	434	444	I-Task
-based	445	450	O
-on	451	453	O
-MMA	454	457	B-Material
-,	457	458	O
-BA	459	461	B-Material
-,	461	462	O
-and	463	466	O
-2-hydroxyethyl	467	481	B-Material
-methacrylate	482	494	I-Material
-(	495	496	O
-HEMA	496	500	B-Material
-)	500	501	O
-.	501	502	O
-
-They	503	507	O
-partially	508	517	O
-esterified	518	528	O
-hydroxyl	529	537	B-Task
-functionality	538	551	I-Task
-of	552	554	I-Task
-HEMA	555	559	I-Task
-with	560	564	I-Task
-tetrafluoro	565	576	I-Task
-propanoic	577	586	I-Task
-acid	587	591	I-Task
-and	592	595	O
-cured	596	601	O
-the	602	605	B-Material
-polymer	606	613	I-Material
-with	614	618	I-Material
-butylated	619	628	I-Material
-melamine	629	637	I-Material
-formaldehyde	638	650	I-Material
-resin	651	656	I-Material
-.	656	657	O
-
-Such	658	662	O
-methods	663	670	O
-were	671	675	O
-suited	676	682	O
-for	683	686	O
-the	687	690	O
-synthesis	691	700	O
-of	701	703	O
-copolymers	704	714	B-Material
-containing	715	725	I-Material
-complicated	726	737	I-Material
-fluorinated	738	749	I-Material
-groups	750	756	I-Material
-or	757	759	O
-difficult	760	769	O
-to	770	772	O
-be	773	775	O
-provided	776	784	O
-directly	785	793	O
-by	794	796	O
-living	797	803	B-Process
-polymerization	804	818	I-Process
-.	818	819	O
+Another	0,7	O	B-Process
+choice	8,14	O	I-Process
+was	15,18	O	O
+to	19,21	O	O
+graft	22,27	O	B-Process
+the	28,31	O	I-Process
+fluorinated	32,43	O	I-Process
+groups	44,50	O	I-Process
+on	51,53	O	I-Process
+the	54,57	O	I-Process
+copolymers	58,68	O	I-Process
+with	69,73	O	I-Process
+functional	74,84	O	I-Process
+groups	85,91	O	I-Process
+.	91,92	O	O
+
+Casazza	93,100	O	O
+et	101,103	O	O
+al	104,106	O	O
+.	106,107	O	O
+
+[	108,109	O	O
+52	109,111	O	O
+]	111,112	O	O
+synthesized	113,124	O	O
+an	125,127	O	B-Task
+acrylic	128,135	O	I-Task
+terpolymer	136,146	O	I-Task
+with	147,151	O	I-Task
+pendent	152,159	O	I-Task
+perfluoroether	160,174	O	I-Task
+segments	175,183	O	I-Task
+via	184,187	O	O
+grafting	188,196	O	B-Process
+fluorinated	197,208	O	I-Process
+groups	209,215	O	I-Process
+into	216,220	O	O
+a	221,222	O	O
+poly(butyl	223,233	O	B-Material
+methacrylate	234,246	O	I-Material
+-	246,247	O	I-Material
+co	247,249	O	I-Material
+-	249,250	O	I-Material
+hydroxyehtyl	250,262	O	I-Material
+acrylate	263,271	O	I-Material
+-	271,272	O	I-Material
+co	272,274	O	I-Material
+-	274,275	O	I-Material
+ethyl	275,280	O	I-Material
+acrylate	281,289	O	I-Material
+)	289,290	O	O
+
+random	291,297	O	O
+copolymer	298,307	O	B-Material
+through	308,315	O	O
+hexamethylene	316,329	O	B-Process
+diisocyanate	330,342	O	I-Process
+functionality	343,356	O	I-Process
+.	356,357	O	O
+
+Malshe	358,364	O	O
+et	365,367	O	O
+al	368,370	O	O
+.	370,371	O	O
+
+[	372,373	O	O
+53,54	373,378	O	O
+]	378,379	O	O
+studied	380,387	O	O
+the	388,391	O	B-Task
+coating	392,399	O	I-Task
+properties	400,410	O	I-Task
+of	411,413	O	I-Task
+fluorinated	414,425	O	I-Task
+acrylic	426,433	O	I-Task
+copolymers	434,444	O	I-Task
+based	445,450	O	O
+on	451,453	O	O
+MMA	454,457	O	B-Material
+,	457,458	O	O
+BA	459,461	O	B-Material
+,	461,462	O	O
+and	463,466	O	O
+2-hydroxyethyl	467,481	O	B-Material
+methacrylate	482,494	O	I-Material
+(	495,496	O	O
+HEMA	496,500	O	B-Material
+)	500,501	O	O
+.	501,502	O	O
+
+They	503,507	O	O
+partially	508,517	O	O
+esterified	518,528	O	O
+hydroxyl	529,537	O	B-Task
+functionality	538,551	O	I-Task
+of	552,554	O	I-Task
+HEMA	555,559	O	I-Task
+with	560,564	O	I-Task
+tetrafluoro	565,576	O	I-Task
+propanoic	577,586	O	I-Task
+acid	587,591	O	I-Task
+and	592,595	O	O
+cured	596,601	O	O
+the	602,605	O	B-Material
+polymer	606,613	O	I-Material
+with	614,618	O	I-Material
+butylated	619,628	O	I-Material
+melamine	629,637	O	I-Material
+formaldehyde	638,650	O	I-Material
+resin	651,656	O	I-Material
+.	656,657	O	O
+
+Such	658,662	O	O
+methods	663,670	O	O
+were	671,675	O	O
+suited	676,682	O	O
+for	683,686	O	O
+the	687,690	O	O
+synthesis	691,700	O	O
+of	701,703	O	O
+copolymers	704,714	O	B-Material
+containing	715,725	O	I-Material
+complicated	726,737	O	I-Material
+fluorinated	738,749	O	I-Material
+groups	750,756	O	I-Material
+or	757,759	O	O
+difficult	760,769	O	O
+to	770,772	O	O
+be	773,775	O	O
+provided	776,784	O	O
+directly	785,793	O	O
+by	794,796	O	O
+living	797,803	O	B-Process
+polymerization	804,818	O	I-Process
+.	818,819	O	O
 
 
 -DOCSTART- (S0038092X11004129)
 
-Assuming	0	8	O
-a	9	10	O
-constant	11	19	O
-cell	20	24	B-Process
-electrical	25	35	I-Process
-conversion	36	46	I-Process
-efficiency	47	57	O
-of	58	60	O
-15	61	63	O
-%	63	64	O
-,	64	65	O
-a	66	67	O
-constant	68	76	O
-fraction	77	85	O
-of	86	88	O
-the	89	92	O
-incident	93	101	O
-solar	102	107	B-Process
-radiation	108	117	I-Process
-would	118	123	O
-be	124	126	O
-dissipated	127	137	O
-by	138	140	O
-the	141	144	O
-solar	145	150	O
-cell	151	155	O
-for	156	159	O
-each	160	164	O
-solar	165	170	B-Process
-radiation	171	180	I-Process
-intensity	181	190	O
-level	191	196	O
-.	196	197	O
-
-From	198	202	O
-Table	203	208	O
-2	209	210	O
-,	210	211	O
-it	212	214	O
-can	215	218	O
-be	219	221	O
-seen	222	226	O
-that	227	231	O
-for	232	235	O
-the	236	239	O
-worst	240	245	O
-scenario	246	254	O
-when	255	259	O
-the	260	263	O
-ambient	264	271	O
-temperature	272	283	O
-was	284	287	O
-50	288	290	O
-°	290	291	O
-C	291	292	O
-with	293	297	O
-natural	298	305	B-Process
-convection	306	316	I-Process
-only	317	321	O
-,	321	322	O
-the	323	326	O
-predicted	327	336	B-Task
-cell	337	341	I-Task
-electrical	342	352	I-Task
-conversion	353	363	I-Task
-efficiency	364	374	I-Task
-would	375	380	O
-have	381	385	O
-reduced	386	393	O
-to	394	396	O
-approximately	397	410	O
-8	411	412	O
-%	412	413	O
-rather	414	420	O
-than	421	425	O
-the	426	429	O
-15	430	432	O
-%	432	433	O
-assumed	434	441	O
-.	441	442	O
-
-The	443	446	O
-energy	447	453	O
-dissipated	454	464	O
-as	465	467	O
-heat	468	472	O
-from	473	477	O
-the	478	481	O
-cell	482	486	O
-would	487	492	O
-thus	493	497	O
-be	498	500	O
-7	501	502	O
-%	502	503	O
-higher	504	510	O
-.	510	511	O
-
-To	512	514	O
-correct	515	522	O
-for	523	526	O
-this	527	531	O
-effect	532	538	O
-the	539	542	O
-apparent	543	551	B-Process
-insolation	552	562	I-Process
-level	563	568	I-Process
-should	569	575	O
-be	576	578	O
-modified	579	587	O
-using	588	593	O
-the	594	597	O
-following	598	607	O
-formula:(3)Iact	608	623	O
-
-=	623	624	O
-I×0.850.85+dηwhere	624	642	O
-
-Iact	643	647	O
-is	648	650	O
-the	651	654	O
-actual	655	661	O
-incident	662	670	O
-solar	671	676	B-Process
-radiation	677	686	I-Process
-intensity	687	696	O
-,	696	697	O
-dη	698	700	O
-is	701	703	O
-solar	704	709	O
-cell	710	714	O
-efficiency	715	725	O
-difference	726	736	O
-between	737	744	O
-the	745	748	O
-initially	749	758	O
-assumed	759	766	O
-15	767	769	O
-%	769	770	O
-and	771	774	O
-final	775	780	O
-calculated	781	791	O
-cell	792	796	O
-efficiency	797	807	O
-based	808	813	O
-on	814	816	O
-measured	817	825	O
-cell	826	830	O
-temperature	831	842	O
-.	842	843	O
+Assuming	0,8	O	O
+a	9,10	O	O
+constant	11,19	O	O
+cell	20,24	O	B-Process
+electrical	25,35	O	I-Process
+conversion	36,46	O	I-Process
+efficiency	47,57	O	O
+of	58,60	O	O
+15	61,63	O	O
+%	63,64	O	O
+,	64,65	O	O
+a	66,67	O	O
+constant	68,76	O	O
+fraction	77,85	O	O
+of	86,88	O	O
+the	89,92	O	O
+incident	93,101	O	O
+solar	102,107	O	B-Process
+radiation	108,117	O	I-Process
+would	118,123	O	O
+be	124,126	O	O
+dissipated	127,137	O	O
+by	138,140	O	O
+the	141,144	O	O
+solar	145,150	O	O
+cell	151,155	O	O
+for	156,159	O	O
+each	160,164	O	O
+solar	165,170	O	B-Process
+radiation	171,180	O	I-Process
+intensity	181,190	O	O
+level	191,196	O	O
+.	196,197	O	O
+
+From	198,202	O	O
+Table	203,208	O	O
+2	209,210	O	O
+,	210,211	O	O
+it	212,214	O	O
+can	215,218	O	O
+be	219,221	O	O
+seen	222,226	O	O
+that	227,231	O	O
+for	232,235	O	O
+the	236,239	O	O
+worst	240,245	O	O
+scenario	246,254	O	O
+when	255,259	O	O
+the	260,263	O	O
+ambient	264,271	O	O
+temperature	272,283	O	O
+was	284,287	O	O
+50	288,290	O	O
+°	290,291	O	O
+C	291,292	O	O
+with	293,297	O	O
+natural	298,305	O	B-Process
+convection	306,316	O	I-Process
+only	317,321	O	O
+,	321,322	O	O
+the	323,326	O	O
+predicted	327,336	O	B-Task
+cell	337,341	O	I-Task
+electrical	342,352	O	I-Task
+conversion	353,363	O	I-Task
+efficiency	364,374	O	I-Task
+would	375,380	O	O
+have	381,385	O	O
+reduced	386,393	O	O
+to	394,396	O	O
+approximately	397,410	O	O
+8	411,412	O	O
+%	412,413	O	O
+rather	414,420	O	O
+than	421,425	O	O
+the	426,429	O	O
+15	430,432	O	O
+%	432,433	O	O
+assumed	434,441	O	O
+.	441,442	O	O
+
+The	443,446	O	O
+energy	447,453	O	O
+dissipated	454,464	O	O
+as	465,467	O	O
+heat	468,472	O	O
+from	473,477	O	O
+the	478,481	O	O
+cell	482,486	O	O
+would	487,492	O	O
+thus	493,497	O	O
+be	498,500	O	O
+7	501,502	O	O
+%	502,503	O	O
+higher	504,510	O	O
+.	510,511	O	O
+
+To	512,514	O	O
+correct	515,522	O	O
+for	523,526	O	O
+this	527,531	O	O
+effect	532,538	O	O
+the	539,542	O	O
+apparent	543,551	O	B-Process
+insolation	552,562	O	I-Process
+level	563,568	O	I-Process
+should	569,575	O	O
+be	576,578	O	O
+modified	579,587	O	O
+using	588,593	O	O
+the	594,597	O	O
+following	598,607	O	O
+formula:(3)Iact	608,623	O	O
+
+=	623,624	O	O
+I×0.850.85+dηwhere	624,642	O	O
+
+Iact	643,647	O	O
+is	648,650	O	O
+the	651,654	O	O
+actual	655,661	O	O
+incident	662,670	O	O
+solar	671,676	O	B-Process
+radiation	677,686	O	I-Process
+intensity	687,696	O	O
+,	696,697	O	O
+dη	698,700	O	O
+is	701,703	O	O
+solar	704,709	O	O
+cell	710,714	O	O
+efficiency	715,725	O	O
+difference	726,736	O	O
+between	737,744	O	O
+the	745,748	O	O
+initially	749,758	O	O
+assumed	759,766	O	O
+15	767,769	O	O
+%	769,770	O	O
+and	771,774	O	O
+final	775,780	O	O
+calculated	781,791	O	O
+cell	792,796	O	O
+efficiency	797,807	O	O
+based	808,813	O	O
+on	814,816	O	O
+measured	817,825	O	O
+cell	826,830	O	O
+temperature	831,842	O	O
+.	842,843	O	O
 
 
 -DOCSTART- (S0038092X14000942)
 
-Thermal	0	7	B-Task
-performance	8	19	I-Task
-of	20	22	I-Task
-the	23	26	I-Task
-smart	27	32	I-Task
-window	33	39	I-Task
-has	40	43	O
-been	44	48	O
-predicted	49	58	O
-under	59	64	O
-different	65	74	O
-simulated	75	84	B-Process
-parameters	85	95	I-Process
-namely	96	102	O
-,	102	103	O
-direct	104	110	B-Process
-solar	111	116	I-Process
-radiation	117	126	I-Process
-intensity	127	136	I-Process
-,	136	137	O
-ambient	138	145	B-Process
-temperature	146	157	I-Process
-,	157	158	O
-water	159	164	B-Process
-inlet	165	170	I-Process
-temperature	171	182	I-Process
-,	182	183	O
-and	184	187	O
-water	188	193	B-Process
-flow	194	198	I-Process
-rate	199	203	I-Process
-.	203	204	O
-
-Fig	205	208	O
-.	208	209	O
-
-11	210	212	O
-shows	213	218	O
-a	219	220	O
-sample	221	227	O
-of	228	230	O
-temperature	231	242	O
-distribution	243	255	O
-of	256	258	O
-all	259	262	O
-window	263	269	B-Material
-components	270	280	I-Material
-at	281	283	O
-a	284	285	O
-plane	286	291	O
-passing	292	299	O
-through	300	307	O
-the	308	311	O
-horizontal	312	322	O
-window	323	329	O
-segment	330	337	O
-based	338	343	O
-on	344	346	O
-simulation	347	357	B-Material
-physical	358	366	I-Material
-conditions	367	377	I-Material
-listed	378	384	O
-on	385	387	O
-Table	388	393	O
-3	394	395	O
-.	395	396	O
-
-Simulation	397	407	B-Material
-data	408	412	I-Material
-has	413	416	O
-been	417	421	O
-collected	422	431	O
-from	432	436	O
-all	437	440	O
-successive	441	451	O
-simulations	452	463	B-Process
-.	463	464	O
-
-The	465	468	O
-effect	469	475	O
-of	476	478	O
-increasing	479	489	B-Process
-direct	490	496	I-Process
-solar	497	502	I-Process
-radiation	503	512	I-Process
-on	513	515	I-Process
-both	516	520	I-Process
-solar	521	526	I-Process
-cells	527	532	I-Process
-and	533	536	I-Process
-water	537	542	I-Process
-temperatures	543	555	I-Process
-is	556	558	O
-shown	559	564	O
-in	565	567	O
-Fig	568	571	O
-.	571	572	O
-
-12	573	575	O
-.	575	576	O
-
-Three	577	582	O
-different	583	592	O
-simulations	593	604	B-Process
-were	605	609	O
-performed	610	619	O
-assuming	620	628	O
-direct	629	635	O
-solar	636	641	B-Process
-radiation	642	651	I-Process
-intensities	652	663	O
-of	664	666	O
-400	667	670	O
-,	670	671	O
-600	672	675	O
-,	675	676	O
-and	677	680	O
-800W	681	685	O
-/	685	686	O
-m2	686	688	O
-incident	689	697	O
-on	698	700	O
-the	701	704	O
-window	705	711	B-Material
-’s	711	713	I-Material
-front	714	719	I-Material
-pane	720	724	I-Material
-with	725	729	O
-set	730	733	O
-ambient	734	741	O
-temperature	742	753	O
-,	753	754	O
-water	755	760	O
-inlet	761	766	O
-temperature	767	778	O
-and	779	782	O
-water	783	788	O
-flow	789	793	O
-rate	794	798	O
-of	799	801	O
-respectively	802	814	O
-273	815	818	O
-K	818	819	O
-,	819	820	O
-283	821	824	O
-K	824	825	O
-and	826	829	O
-0.01kg	830	836	O
-
-/	836	837	O
-s	837	838	O
-.	838	839	O
-
-Water	840	845	O
-temperature	846	857	O
-was	858	861	O
-found	862	867	O
-to	868	870	O
-increase	871	879	O
-by	880	882	O
-5	883	884	O
-°	884	885	O
-C	885	886	O
-as	887	889	O
-it	890	892	O
-passed	893	899	O
-through	900	907	O
-the	908	911	O
-tube	912	916	B-Material
-,	916	917	O
-carrying	918	926	O
-the	927	930	O
-solar	931	936	B-Material
-cells	937	942	I-Material
-,	942	943	O
-from	944	948	O
-left	949	953	O
-to	954	956	O
-right	957	962	O
-for	963	966	O
-the	967	970	O
-bottom	971	977	O
-most	978	982	O
-units	983	988	O
-at	989	991	O
-800W	992	996	O
-/	996	997	O
-m2	997	999	O
-of	1000	1002	O
-direct	1003	1009	O
-incident	1010	1018	O
-solar	1019	1024	B-Process
-radiation	1025	1034	I-Process
-.	1034	1035	O
+Thermal	0,7	O	B-Task
+performance	8,19	O	I-Task
+of	20,22	O	I-Task
+the	23,26	O	I-Task
+smart	27,32	O	I-Task
+window	33,39	O	I-Task
+has	40,43	O	O
+been	44,48	O	O
+predicted	49,58	O	O
+under	59,64	O	O
+different	65,74	O	O
+simulated	75,84	O	B-Process
+parameters	85,95	O	I-Process
+namely	96,102	O	O
+,	102,103	O	O
+direct	104,110	O	B-Process
+solar	111,116	O	I-Process
+radiation	117,126	O	I-Process
+intensity	127,136	O	I-Process
+,	136,137	O	O
+ambient	138,145	O	B-Process
+temperature	146,157	O	I-Process
+,	157,158	O	O
+water	159,164	O	B-Process
+inlet	165,170	O	I-Process
+temperature	171,182	O	I-Process
+,	182,183	O	O
+and	184,187	O	O
+water	188,193	O	B-Process
+flow	194,198	O	I-Process
+rate	199,203	O	I-Process
+.	203,204	O	O
+
+Fig	205,208	O	O
+.	208,209	O	O
+
+11	210,212	O	O
+shows	213,218	O	O
+a	219,220	O	O
+sample	221,227	O	O
+of	228,230	O	O
+temperature	231,242	O	O
+distribution	243,255	O	O
+of	256,258	O	O
+all	259,262	O	O
+window	263,269	O	B-Material
+components	270,280	O	I-Material
+at	281,283	O	O
+a	284,285	O	O
+plane	286,291	O	O
+passing	292,299	O	O
+through	300,307	O	O
+the	308,311	O	O
+horizontal	312,322	O	O
+window	323,329	O	O
+segment	330,337	O	O
+based	338,343	O	O
+on	344,346	O	O
+simulation	347,357	O	B-Material
+physical	358,366	O	I-Material
+conditions	367,377	O	I-Material
+listed	378,384	O	O
+on	385,387	O	O
+Table	388,393	O	O
+3	394,395	O	O
+.	395,396	O	O
+
+Simulation	397,407	O	B-Material
+data	408,412	O	I-Material
+has	413,416	O	O
+been	417,421	O	O
+collected	422,431	O	O
+from	432,436	O	O
+all	437,440	O	O
+successive	441,451	O	O
+simulations	452,463	O	B-Process
+.	463,464	O	O
+
+The	465,468	O	O
+effect	469,475	O	O
+of	476,478	O	O
+increasing	479,489	O	B-Process
+direct	490,496	O	I-Process
+solar	497,502	O	I-Process
+radiation	503,512	O	I-Process
+on	513,515	O	I-Process
+both	516,520	O	I-Process
+solar	521,526	O	I-Process
+cells	527,532	O	I-Process
+and	533,536	O	I-Process
+water	537,542	O	I-Process
+temperatures	543,555	O	I-Process
+is	556,558	O	O
+shown	559,564	O	O
+in	565,567	O	O
+Fig	568,571	O	O
+.	571,572	O	O
+
+12	573,575	O	O
+.	575,576	O	O
+
+Three	577,582	O	O
+different	583,592	O	O
+simulations	593,604	O	B-Process
+were	605,609	O	O
+performed	610,619	O	O
+assuming	620,628	O	O
+direct	629,635	O	O
+solar	636,641	O	B-Process
+radiation	642,651	O	I-Process
+intensities	652,663	O	O
+of	664,666	O	O
+400	667,670	O	O
+,	670,671	O	O
+600	672,675	O	O
+,	675,676	O	O
+and	677,680	O	O
+800W	681,685	O	O
+/	685,686	O	O
+m2	686,688	O	O
+incident	689,697	O	O
+on	698,700	O	O
+the	701,704	O	O
+window	705,711	O	B-Material
+’s	711,713	O	I-Material
+front	714,719	O	I-Material
+pane	720,724	O	I-Material
+with	725,729	O	O
+set	730,733	O	O
+ambient	734,741	O	O
+temperature	742,753	O	O
+,	753,754	O	O
+water	755,760	O	O
+inlet	761,766	O	O
+temperature	767,778	O	O
+and	779,782	O	O
+water	783,788	O	O
+flow	789,793	O	O
+rate	794,798	O	O
+of	799,801	O	O
+respectively	802,814	O	O
+273	815,818	O	O
+K	818,819	O	O
+,	819,820	O	O
+283	821,824	O	O
+K	824,825	O	O
+and	826,829	O	O
+0.01kg	830,836	O	O
+
+/	836,837	O	O
+s	837,838	O	O
+.	838,839	O	O
+
+Water	840,845	O	O
+temperature	846,857	O	O
+was	858,861	O	O
+found	862,867	O	O
+to	868,870	O	O
+increase	871,879	O	O
+by	880,882	O	O
+5	883,884	O	O
+°	884,885	O	O
+C	885,886	O	O
+as	887,889	O	O
+it	890,892	O	O
+passed	893,899	O	O
+through	900,907	O	O
+the	908,911	O	O
+tube	912,916	O	B-Material
+,	916,917	O	O
+carrying	918,926	O	O
+the	927,930	O	O
+solar	931,936	O	B-Material
+cells	937,942	O	I-Material
+,	942,943	O	O
+from	944,948	O	O
+left	949,953	O	O
+to	954,956	O	O
+right	957,962	O	O
+for	963,966	O	O
+the	967,970	O	O
+bottom	971,977	O	O
+most	978,982	O	O
+units	983,988	O	O
+at	989,991	O	O
+800W	992,996	O	O
+/	996,997	O	O
+m2	997,999	O	O
+of	1000,1002	O	O
+direct	1003,1009	O	O
+incident	1010,1018	O	O
+solar	1019,1024	O	B-Process
+radiation	1025,1034	O	I-Process
+.	1034,1035	O	O
 
 
 -DOCSTART- (S0038092X14004770)
 
-Shading	0	7	B-Process
-can	8	11	O
-be	12	14	O
-the	15	18	O
-most	19	23	O
-detrimental	24	35	O
-factor	36	42	O
-on	43	45	O
-performance	46	57	O
-for	58	61	O
-a	62	63	O
-domestic	64	72	B-Material
-system	73	79	I-Material
-.	79	80	O
-
-The	81	84	O
-impact	85	91	O
-of	92	94	O
-shading	95	102	B-Process
-on	103	105	O
-performance	106	117	O
-varies	118	124	O
-depending	125	134	O
-on	135	137	O
-the	138	141	O
-electrical	142	152	O
-series	153	159	O
-and	160	163	O
-parallel	164	172	O
-arrangement	173	184	O
-of	185	187	O
-cells	188	193	B-Material
-within	194	200	O
-a	201	202	O
-module	203	209	B-Material
-and	210	213	O
-modules	214	221	B-Material
-within	222	228	O
-an	229	231	O
-installed	232	241	B-Material
-array	242	247	I-Material
-.	247	248	O
-
-Whilst	249	255	O
-many	256	260	O
-approaches	261	271	O
-to	272	274	O
-shading	275	282	B-Process
-analysis	283	291	I-Process
-have	292	296	O
-been	297	301	O
-proposed	302	310	O
-,	310	311	O
-computational	312	325	O
-efficiency	326	336	O
-is	337	339	O
-not	340	343	O
-reported	344	352	O
-despite	353	360	O
-being	361	366	O
-of	367	369	O
-high	370	374	O
-importance	375	385	O
-when	386	390	O
-incorporating	391	404	O
-shading	405	412	B-Process
-algorithms	413	423	I-Process
-into	424	428	O
-an	429	431	O
-overall	432	439	O
-energy	440	446	B-Process
-yield	447	452	I-Process
-model	453	458	I-Process
-.	458	459	O
-
-The	460	463	O
-lack	464	468	O
-of	469	471	O
-consideration	472	485	O
-of	486	488	O
-the	489	492	O
-non	493	496	O
--	496	497	O
-linear	497	503	O
-impacts	504	511	O
-of	512	514	O
-shading	515	522	B-Process
-on	523	525	O
-smaller	526	533	O
-systems	534	541	O
-for	542	545	O
-example	546	553	O
-means	554	559	O
-that	560	564	O
-the	565	568	O
-shading	569	576	B-Process
-loss	577	581	O
-is	582	584	O
-significantly	585	598	O
-underestimated	599	613	O
-,	613	614	O
-especially	615	625	O
-from	626	630	O
-supposedly	631	641	O
-small	642	647	O
-obstacles	648	657	O
-such	658	662	O
-as	663	665	O
-antennas	666	674	B-Material
-or	675	677	O
-chimneys	678	686	B-Material
-.	686	687	O
-
-As	688	690	O
-an	691	693	O
-example	694	701	O
-,	701	702	O
-the	703	706	O
-system	707	713	O
-shown	714	719	O
-in	720	722	O
-Fig	723	726	O
-.	726	727	O
-
-1	728	729	O
-illustrates	730	741	O
-the	742	745	O
-case	746	750	O
-where	751	756	O
-the	757	760	O
-installer	761	770	O
-may	771	774	O
-have	775	779	O
-attested	780	788	O
-a	789	790	O
-shade	791	796	B-Process
-loss	797	801	I-Process
-factor	802	808	O
-close	809	814	O
-to	815	817	O
-unity	818	823	O
-under	824	829	O
-UK	830	832	O
-microgeneration	833	848	O
-guidelines	849	859	O
-(	860	861	O
-Microgeneration	861	876	O
-Certification	877	890	O
-Scheme	891	897	O
-,	897	898	O
-2013	899	903	O
-)	903	904	O
-,	904	905	O
-i.e.	906	910	O
-negligible	911	921	O
-,	921	922	O
-but	923	926	O
-the	927	930	O
-performance	931	942	O
-of	943	945	O
-the	946	949	O
-system	950	956	B-Material
-is	957	959	O
-severely	960	968	O
-compromised	969	980	O
-due	981	984	O
-to	985	987	O
-the	988	991	O
-non	992	995	B-Process
--	995	996	I-Process
-linear	996	1002	I-Process
-cell	1003	1007	I-Process
-mismatch	1008	1016	I-Process
-effects	1017	1024	I-Process
-.	1024	1025	O
-
-An	1026	1028	O
-effective	1029	1038	B-Process
-shading	1039	1046	I-Process
-sub	1047	1050	I-Process
--	1050	1051	I-Process
-model	1051	1056	I-Process
-therefore	1057	1066	O
-needs	1067	1072	O
-to	1073	1075	O
-give	1076	1080	B-Task
-feedback	1081	1089	I-Task
-to	1090	1092	I-Task
-inform	1093	1099	I-Task
-decisions	1100	1109	I-Task
-of	1110	1112	I-Task
-array	1113	1118	I-Task
-layout	1119	1125	I-Task
-in	1126	1128	O
-the	1129	1132	O
-proximity	1133	1142	O
-of	1143	1145	O
-obstructions	1146	1158	O
-but	1159	1162	O
-must	1163	1167	O
-not	1168	1171	O
-rely	1172	1176	O
-on	1177	1179	O
-high	1180	1184	B-Process
-power	1185	1190	I-Process
-computing	1191	1200	I-Process
-.	1200	1201	O
+Shading	0,7	O	B-Process
+can	8,11	O	O
+be	12,14	O	O
+the	15,18	O	O
+most	19,23	O	O
+detrimental	24,35	O	O
+factor	36,42	O	O
+on	43,45	O	O
+performance	46,57	O	O
+for	58,61	O	O
+a	62,63	O	O
+domestic	64,72	O	B-Material
+system	73,79	O	I-Material
+.	79,80	O	O
+
+The	81,84	O	O
+impact	85,91	O	O
+of	92,94	O	O
+shading	95,102	O	B-Process
+on	103,105	O	O
+performance	106,117	O	O
+varies	118,124	O	O
+depending	125,134	O	O
+on	135,137	O	O
+the	138,141	O	O
+electrical	142,152	O	O
+series	153,159	O	O
+and	160,163	O	O
+parallel	164,172	O	O
+arrangement	173,184	O	O
+of	185,187	O	O
+cells	188,193	O	B-Material
+within	194,200	O	O
+a	201,202	O	O
+module	203,209	O	B-Material
+and	210,213	O	O
+modules	214,221	O	B-Material
+within	222,228	O	O
+an	229,231	O	O
+installed	232,241	O	B-Material
+array	242,247	O	I-Material
+.	247,248	O	O
+
+Whilst	249,255	O	O
+many	256,260	O	O
+approaches	261,271	O	O
+to	272,274	O	O
+shading	275,282	O	B-Process
+analysis	283,291	O	I-Process
+have	292,296	O	O
+been	297,301	O	O
+proposed	302,310	O	O
+,	310,311	O	O
+computational	312,325	O	O
+efficiency	326,336	O	O
+is	337,339	O	O
+not	340,343	O	O
+reported	344,352	O	O
+despite	353,360	O	O
+being	361,366	O	O
+of	367,369	O	O
+high	370,374	O	O
+importance	375,385	O	O
+when	386,390	O	O
+incorporating	391,404	O	O
+shading	405,412	O	B-Process
+algorithms	413,423	O	I-Process
+into	424,428	O	O
+an	429,431	O	O
+overall	432,439	O	O
+energy	440,446	O	B-Process
+yield	447,452	O	I-Process
+model	453,458	O	I-Process
+.	458,459	O	O
+
+The	460,463	O	O
+lack	464,468	O	O
+of	469,471	O	O
+consideration	472,485	O	O
+of	486,488	O	O
+the	489,492	O	O
+non	493,496	O	O
+-	496,497	O	O
+linear	497,503	O	O
+impacts	504,511	O	O
+of	512,514	O	O
+shading	515,522	O	B-Process
+on	523,525	O	O
+smaller	526,533	O	O
+systems	534,541	O	O
+for	542,545	O	O
+example	546,553	O	O
+means	554,559	O	O
+that	560,564	O	O
+the	565,568	O	O
+shading	569,576	O	B-Process
+loss	577,581	O	O
+is	582,584	O	O
+significantly	585,598	O	O
+underestimated	599,613	O	O
+,	613,614	O	O
+especially	615,625	O	O
+from	626,630	O	O
+supposedly	631,641	O	O
+small	642,647	O	O
+obstacles	648,657	O	O
+such	658,662	O	O
+as	663,665	O	O
+antennas	666,674	O	B-Material
+or	675,677	O	O
+chimneys	678,686	O	B-Material
+.	686,687	O	O
+
+As	688,690	O	O
+an	691,693	O	O
+example	694,701	O	O
+,	701,702	O	O
+the	703,706	O	O
+system	707,713	O	O
+shown	714,719	O	O
+in	720,722	O	O
+Fig	723,726	O	O
+.	726,727	O	O
+
+1	728,729	O	O
+illustrates	730,741	O	O
+the	742,745	O	O
+case	746,750	O	O
+where	751,756	O	O
+the	757,760	O	O
+installer	761,770	O	O
+may	771,774	O	O
+have	775,779	O	O
+attested	780,788	O	O
+a	789,790	O	O
+shade	791,796	O	B-Process
+loss	797,801	O	I-Process
+factor	802,808	O	O
+close	809,814	O	O
+to	815,817	O	O
+unity	818,823	O	O
+under	824,829	O	O
+UK	830,832	O	O
+microgeneration	833,848	O	O
+guidelines	849,859	O	O
+(	860,861	O	O
+Microgeneration	861,876	O	O
+Certification	877,890	O	O
+Scheme	891,897	O	O
+,	897,898	O	O
+2013	899,903	O	O
+)	903,904	O	O
+,	904,905	O	O
+i.e.	906,910	O	O
+negligible	911,921	O	O
+,	921,922	O	O
+but	923,926	O	O
+the	927,930	O	O
+performance	931,942	O	O
+of	943,945	O	O
+the	946,949	O	O
+system	950,956	O	B-Material
+is	957,959	O	O
+severely	960,968	O	O
+compromised	969,980	O	O
+due	981,984	O	O
+to	985,987	O	O
+the	988,991	O	O
+non	992,995	O	B-Process
+-	995,996	O	I-Process
+linear	996,1002	O	I-Process
+cell	1003,1007	O	I-Process
+mismatch	1008,1016	O	I-Process
+effects	1017,1024	O	I-Process
+.	1024,1025	O	O
+
+An	1026,1028	O	O
+effective	1029,1038	O	B-Process
+shading	1039,1046	O	I-Process
+sub	1047,1050	O	I-Process
+-	1050,1051	O	I-Process
+model	1051,1056	O	I-Process
+therefore	1057,1066	O	O
+needs	1067,1072	O	O
+to	1073,1075	O	O
+give	1076,1080	O	B-Task
+feedback	1081,1089	O	I-Task
+to	1090,1092	O	I-Task
+inform	1093,1099	O	I-Task
+decisions	1100,1109	O	I-Task
+of	1110,1112	O	I-Task
+array	1113,1118	O	I-Task
+layout	1119,1125	O	I-Task
+in	1126,1128	O	O
+the	1129,1132	O	O
+proximity	1133,1142	O	O
+of	1143,1145	O	O
+obstructions	1146,1158	O	O
+but	1159,1162	O	O
+must	1163,1167	O	O
+not	1168,1171	O	O
+rely	1172,1176	O	O
+on	1177,1179	O	O
+high	1180,1184	O	B-Process
+power	1185,1190	O	I-Process
+computing	1191,1200	O	I-Process
+.	1200,1201	O	O
 
 
 -DOCSTART- (S0038092X15000559)
 
-Progressive	0	11	B-Process
-photon	12	18	I-Process
-mapping	19	26	I-Process
-was	27	30	O
-first	31	36	O
-proposed	37	45	O
-by	46	48	O
-Hachisuka	49	58	O
-et	59	61	O
-al	62	64	O
-.	64	65	O
-
-(	66	67	O
-2008	67	71	O
-)	71	72	O
-as	73	75	O
-an	76	78	O
-iterative	79	88	B-Process
-extension	89	98	I-Process
-of	99	101	I-Process
-the	102	105	I-Process
-standard	106	114	I-Process
-static	115	121	I-Process
-photon	122	128	I-Process
-mapping	129	136	I-Process
-approach	137	145	O
-as	146	148	O
-implemented	149	160	O
-in	161	163	O
-the	164	167	O
-Radiance	168	176	B-Process
-extension	177	186	I-Process
-.	186	187	O
-
-It	188	190	O
-combines	191	199	O
-multiple	200	208	O
-smaller	209	216	O
-photon	217	223	B-Material
-maps	224	228	I-Material
-to	229	231	O
-approximate	232	243	O
-a	244	245	O
-much	246	250	O
-larger	251	257	O
-one	258	261	O
-which	262	267	O
-may	268	271	O
-not	272	275	O
-fit	276	279	O
-into	280	284	O
-memory	285	291	O
-using	292	297	O
-the	298	301	O
-traditional	302	313	B-Process
-approach	314	322	I-Process
-.	322	323	O
-
-Through	324	331	O
-iteration	332	341	O
-,	341	342	O
-the	343	346	O
-process	347	354	O
-mitigates	355	364	B-Process
-the	365	368	I-Process
-noise	369	374	I-Process
-inherent	375	383	O
-in	384	386	O
-Monte	387	392	B-Process
-Carlo	393	398	I-Process
-raytracing	399	409	I-Process
-by	410	412	O
-combining	413	422	B-Process
-successive	423	433	I-Process
-results	434	441	I-Process
-and	442	445	I-Process
-averaging	446	455	I-Process
-them	456	460	O
-.	460	461	O
-
-At	462	464	O
-the	465	468	O
-same	469	473	O
-time	474	478	O
-,	478	479	O
-the	480	483	O
-density	484	491	B-Process
-estimate	492	500	I-Process
-bandwidth1Bandwidth	501	520	I-Process
-describes	521	530	O
-the	531	534	O
-support	535	542	B-Process
-,	542	543	I-Process
-or	544	546	I-Process
-area	547	551	I-Process
-of	552	554	I-Process
-influence	555	564	I-Process
-,	564	565	I-Process
-of	566	568	I-Process
-a	569	570	I-Process
-filter	571	577	I-Process
-used	578	582	O
-to	583	585	O
-weight	586	592	B-Process
-the	593	596	I-Process
-photons	597	604	I-Process
-retrieved	605	614	O
-from	615	619	O
-the	620	623	O
-photon	624	630	B-Material
-map	631	634	I-Material
-during	635	641	O
-a	642	643	O
-nearest	644	651	B-Process
-neighbour	652	661	I-Process
-lookup	662	668	I-Process
-on	669	671	O
-a	672	673	O
-surface	674	681	B-Material
-(	682	683	O
-Jensen	683	689	O
-,	689	690	O
-2001	691	695	O
-)	695	696	O
-.	696	697	O
-
-The	698	701	O
-resulting	702	711	O
-irradiance	712	722	B-Material
-is	723	725	O
-proportional	726	738	O
-to	739	741	O
-the	742	745	O
-photon	746	752	B-Material
-density	753	760	O
-,	760	761	O
-and	762	765	O
-the	766	769	O
-bandwidth	770	779	O
-is	780	782	O
-defined	783	790	O
-by	791	793	O
-the	794	797	O
-distance	798	806	O
-(	807	808	O
-radius	808	814	O
-)	814	815	O
-to	816	818	O
-the	819	822	O
-furthest	823	831	O
-photon	832	838	B-Material
-found	839	844	O
-.	844	845	O
-
-In	846	848	O
-this	849	853	O
-paper	854	859	O
-,	859	860	O
-we	861	863	O
-generalise	864	874	O
-the	875	878	O
-term	879	883	O
-to	884	886	O
-describe	887	895	B-Task
-either	896	902	I-Task
-the	903	906	I-Task
-radius	907	913	I-Task
-or	914	916	I-Task
-the	917	920	I-Task
-number	921	927	I-Task
-of	928	930	I-Task
-nearest	931	938	I-Task
-neighbours	939	949	I-Task
-for	950	953	I-Task
-a	954	955	I-Task
-density	956	963	I-Task
-estimate	964	972	I-Task
-,	972	973	O
-depending	974	983	O
-on	984	986	O
-the	987	990	O
-implementation.1	991	1007	O
-(	1008	1009	O
-radius	1009	1015	O
-or	1016	1018	O
-number	1019	1025	O
-of	1026	1028	O
-nearest	1029	1036	O
-photons	1037	1044	B-Material
-)	1044	1045	O
-is	1046	1048	O
-gradually	1049	1058	O
-reduced	1059	1066	O
-to	1067	1069	O
-mitigate	1070	1078	B-Process
-bias	1079	1083	I-Process
-.	1083	1084	O
-
-As	1085	1087	O
-Hachisuka	1088	1097	O
-points	1098	1104	O
-out	1105	1108	O
-,	1108	1109	O
-the	1110	1113	O
-accumulated	1114	1125	O
-density	1126	1133	O
-estimates	1134	1143	O
-converge	1144	1152	O
-to	1153	1155	O
-an	1156	1158	O
-unbiased	1159	1167	O
-solution	1168	1176	O
-in	1177	1179	O
-the	1180	1183	O
-limit	1184	1189	O
-.	1189	1190	O
+Progressive	0,11	O	B-Process
+photon	12,18	O	I-Process
+mapping	19,26	O	I-Process
+was	27,30	O	O
+first	31,36	O	O
+proposed	37,45	O	O
+by	46,48	O	O
+Hachisuka	49,58	O	O
+et	59,61	O	O
+al	62,64	O	O
+.	64,65	O	O
+
+(	66,67	O	O
+2008	67,71	O	O
+)	71,72	O	O
+as	73,75	O	O
+an	76,78	O	O
+iterative	79,88	O	B-Process
+extension	89,98	O	I-Process
+of	99,101	O	I-Process
+the	102,105	O	I-Process
+standard	106,114	O	I-Process
+static	115,121	O	I-Process
+photon	122,128	O	I-Process
+mapping	129,136	O	I-Process
+approach	137,145	O	O
+as	146,148	O	O
+implemented	149,160	O	O
+in	161,163	O	O
+the	164,167	O	O
+Radiance	168,176	O	B-Process
+extension	177,186	O	I-Process
+.	186,187	O	O
+
+It	188,190	O	O
+combines	191,199	O	O
+multiple	200,208	O	O
+smaller	209,216	O	O
+photon	217,223	O	B-Material
+maps	224,228	O	I-Material
+to	229,231	O	O
+approximate	232,243	O	O
+a	244,245	O	O
+much	246,250	O	O
+larger	251,257	O	O
+one	258,261	O	O
+which	262,267	O	O
+may	268,271	O	O
+not	272,275	O	O
+fit	276,279	O	O
+into	280,284	O	O
+memory	285,291	O	O
+using	292,297	O	O
+the	298,301	O	O
+traditional	302,313	O	B-Process
+approach	314,322	O	I-Process
+.	322,323	O	O
+
+Through	324,331	O	O
+iteration	332,341	O	O
+,	341,342	O	O
+the	343,346	O	O
+process	347,354	O	O
+mitigates	355,364	O	B-Process
+the	365,368	O	I-Process
+noise	369,374	O	I-Process
+inherent	375,383	O	O
+in	384,386	O	O
+Monte	387,392	O	B-Process
+Carlo	393,398	O	I-Process
+raytracing	399,409	O	I-Process
+by	410,412	O	O
+combining	413,422	O	B-Process
+successive	423,433	O	I-Process
+results	434,441	O	I-Process
+and	442,445	O	I-Process
+averaging	446,455	O	I-Process
+them	456,460	O	O
+.	460,461	O	O
+
+At	462,464	O	O
+the	465,468	O	O
+same	469,473	O	O
+time	474,478	O	O
+,	478,479	O	O
+the	480,483	O	O
+density	484,491	O	B-Process
+estimate	492,500	O	I-Process
+bandwidth1Bandwidth	501,520	O	I-Process
+describes	521,530	O	O
+the	531,534	O	O
+support	535,542	O	B-Process
+,	542,543	O	I-Process
+or	544,546	O	I-Process
+area	547,551	O	I-Process
+of	552,554	O	I-Process
+influence	555,564	O	I-Process
+,	564,565	O	I-Process
+of	566,568	O	I-Process
+a	569,570	O	I-Process
+filter	571,577	O	I-Process
+used	578,582	O	O
+to	583,585	O	O
+weight	586,592	O	B-Process
+the	593,596	O	I-Process
+photons	597,604	O	I-Process
+retrieved	605,614	O	O
+from	615,619	O	O
+the	620,623	O	O
+photon	624,630	O	B-Material
+map	631,634	O	I-Material
+during	635,641	O	O
+a	642,643	O	O
+nearest	644,651	O	B-Process
+neighbour	652,661	O	I-Process
+lookup	662,668	O	I-Process
+on	669,671	O	O
+a	672,673	O	O
+surface	674,681	O	B-Material
+(	682,683	O	O
+Jensen	683,689	O	O
+,	689,690	O	O
+2001	691,695	O	O
+)	695,696	O	O
+.	696,697	O	O
+
+The	698,701	O	O
+resulting	702,711	O	O
+irradiance	712,722	O	B-Material
+is	723,725	O	O
+proportional	726,738	O	O
+to	739,741	O	O
+the	742,745	O	O
+photon	746,752	O	B-Material
+density	753,760	O	O
+,	760,761	O	O
+and	762,765	O	O
+the	766,769	O	O
+bandwidth	770,779	O	O
+is	780,782	O	O
+defined	783,790	O	O
+by	791,793	O	O
+the	794,797	O	O
+distance	798,806	O	O
+(	807,808	O	O
+radius	808,814	O	O
+)	814,815	O	O
+to	816,818	O	O
+the	819,822	O	O
+furthest	823,831	O	O
+photon	832,838	O	B-Material
+found	839,844	O	O
+.	844,845	O	O
+
+In	846,848	O	O
+this	849,853	O	O
+paper	854,859	O	O
+,	859,860	O	O
+we	861,863	O	O
+generalise	864,874	O	O
+the	875,878	O	O
+term	879,883	O	O
+to	884,886	O	O
+describe	887,895	O	B-Task
+either	896,902	O	I-Task
+the	903,906	O	I-Task
+radius	907,913	O	I-Task
+or	914,916	O	I-Task
+the	917,920	O	I-Task
+number	921,927	O	I-Task
+of	928,930	O	I-Task
+nearest	931,938	O	I-Task
+neighbours	939,949	O	I-Task
+for	950,953	O	I-Task
+a	954,955	O	I-Task
+density	956,963	O	I-Task
+estimate	964,972	O	I-Task
+,	972,973	O	O
+depending	974,983	O	O
+on	984,986	O	O
+the	987,990	O	O
+implementation.1	991,1007	O	O
+(	1008,1009	O	O
+radius	1009,1015	O	O
+or	1016,1018	O	O
+number	1019,1025	O	O
+of	1026,1028	O	O
+nearest	1029,1036	O	O
+photons	1037,1044	O	B-Material
+)	1044,1045	O	O
+is	1046,1048	O	O
+gradually	1049,1058	O	O
+reduced	1059,1066	O	O
+to	1067,1069	O	O
+mitigate	1070,1078	O	B-Process
+bias	1079,1083	O	I-Process
+.	1083,1084	O	O
+
+As	1085,1087	O	O
+Hachisuka	1088,1097	O	O
+points	1098,1104	O	O
+out	1105,1108	O	O
+,	1108,1109	O	O
+the	1110,1113	O	O
+accumulated	1114,1125	O	O
+density	1126,1133	O	O
+estimates	1134,1143	O	O
+converge	1144,1152	O	O
+to	1153,1155	O	O
+an	1156,1158	O	O
+unbiased	1159,1167	O	O
+solution	1168,1176	O	O
+in	1177,1179	O	O
+the	1180,1183	O	O
+limit	1184,1189	O	O
+.	1189,1190	O	O
 
 
 -DOCSTART- (S0038092X15001681)
 
-For	0	3	O
-the	4	7	O
-reverse	8	15	B-Process
-current	16	23	I-Process
-analysis	24	32	I-Process
-,	32	33	O
-for	34	37	O
-both	38	42	O
-scenarios	43	52	O
-(	53	54	O
-shading	54	61	O
-and	62	65	O
-short	66	71	O
-circuits	72	80	O
-)	80	81	O
-were	82	86	O
-tested	87	93	O
-on	94	96	O
-two	97	100	O
-systems	101	108	O
-,	108	109	O
-one	110	113	O
-system	114	120	O
-using	121	126	O
-standard	127	135	B-Material
-silicon	136	143	I-Material
-modules	144	151	I-Material
-and	152	155	O
-another	156	163	O
-system	164	170	O
-using	171	176	O
-high	177	181	B-Material
-efficiency	182	192	I-Material
-modules	193	200	I-Material
-.	200	201	O
-
-For	202	205	O
-the	206	209	O
-standard	210	218	B-Material
-silicon	219	226	I-Material
-system	227	233	I-Material
-,	233	234	O
-a	235	236	O
-power	237	242	O
-of	243	245	O
-50kWp	246	251	O
-was	252	255	O
-considered	256	266	O
-,	266	267	O
-with	268	272	O
-a	273	274	O
-system	275	281	B-Material
-composed	282	290	O
-by	291	293	O
-10	294	296	B-Material
-strings	297	304	I-Material
-of	305	307	I-Material
-24	308	310	I-Material
-modules	311	318	I-Material
-per	319	322	I-Material
-string	323	329	I-Material
-and	330	333	O
-an	334	336	O
-approximate	337	348	O
-system	349	355	O
-Voc	356	359	B-Material
-of	360	362	I-Material
-864	363	366	I-Material
-[	367	368	O
-VDC	368	371	B-Material
-]	371	372	O
-.	372	373	O
-
-For	374	377	O
-the	378	381	O
-high	382	386	B-Material
-efficiency	387	397	I-Material
-system	398	404	I-Material
-,	404	405	O
-a	406	407	O
-power	408	413	O
-of	414	416	O
-40kWp	417	422	O
-was	423	426	O
-considered	427	437	O
-,	437	438	O
-with	439	443	O
-a	444	445	O
-system	446	452	B-Material
-composed	453	461	O
-by	462	464	O
-10	465	467	B-Material
-strings	468	475	I-Material
-of	476	478	I-Material
-18	479	481	I-Material
-modules	482	489	I-Material
-per	490	493	I-Material
-string	494	500	I-Material
-and	501	504	O
-an	505	507	O
-approximate	508	519	O
-system	520	526	O
-Voc	527	530	B-Material
-of	531	533	I-Material
-873	534	537	I-Material
-
-[	538	539	O
-VDC	539	542	B-Material
-]	542	543	O
-.	543	544	O
-
-Fig	545	548	O
-.	548	549	O
-
-5(a	550	553	O
-)	553	554	O
-shows	555	560	O
-the	561	564	O
-reverse	565	572	O
-current	573	580	O
-present	581	588	O
-in	589	591	O
-one	592	595	O
-string	596	602	O
-when	603	607	O
-different	608	617	O
-numbers	618	625	O
-of	626	628	O
-modules	629	636	O
-in	637	639	O
-the	640	643	O
-string	644	650	O
-are	651	654	O
-shaded	655	661	O
-by	662	664	O
-90	665	667	O
-%	667	668	O
-.	668	669	O
-
-Fig	670	673	O
-.	673	674	O
-
-5(b	675	678	O
-)	678	679	O
-shows	680	685	O
-the	686	689	O
-reverse	690	697	B-Task
-current	698	705	I-Task
-present	706	713	O
-in	714	716	O
-one	717	720	O
-string	721	727	O
-when	728	732	O
-different	733	742	B-Process
-numbers	743	750	I-Process
-of	751	753	I-Process
-modules	754	761	I-Process
-of	762	764	I-Process
-the	765	768	I-Process
-string	769	775	I-Process
-are	776	779	I-Process
-short	780	785	I-Process
--	785	786	I-Process
-circuited	786	795	I-Process
-.	795	796	O
-
-For	797	800	O
-both	801	805	O
-figures	806	813	O
-the	814	817	O
-continuous	818	828	O
-lines	829	834	O
-are	835	838	O
-for	839	842	O
-the	843	846	O
-standard	847	855	B-Material
-silicon	856	863	I-Material
-system	864	870	I-Material
-and	871	874	O
-the	875	878	O
-dashed	879	885	O
-lines	886	891	O
-are	892	895	O
-for	896	899	O
-the	900	903	O
-high	904	908	B-Material
-efficiency	909	919	I-Material
-system	920	926	I-Material
-.	926	927	O
+For	0,3	O	O
+the	4,7	O	O
+reverse	8,15	O	B-Process
+current	16,23	O	I-Process
+analysis	24,32	O	I-Process
+,	32,33	O	O
+for	34,37	O	O
+both	38,42	O	O
+scenarios	43,52	O	O
+(	53,54	O	O
+shading	54,61	O	O
+and	62,65	O	O
+short	66,71	O	O
+circuits	72,80	O	O
+)	80,81	O	O
+were	82,86	O	O
+tested	87,93	O	O
+on	94,96	O	O
+two	97,100	O	O
+systems	101,108	O	O
+,	108,109	O	O
+one	110,113	O	O
+system	114,120	O	O
+using	121,126	O	O
+standard	127,135	O	B-Material
+silicon	136,143	O	I-Material
+modules	144,151	O	I-Material
+and	152,155	O	O
+another	156,163	O	O
+system	164,170	O	O
+using	171,176	O	O
+high	177,181	O	B-Material
+efficiency	182,192	O	I-Material
+modules	193,200	O	I-Material
+.	200,201	O	O
+
+For	202,205	O	O
+the	206,209	O	O
+standard	210,218	O	B-Material
+silicon	219,226	O	I-Material
+system	227,233	O	I-Material
+,	233,234	O	O
+a	235,236	O	O
+power	237,242	O	O
+of	243,245	O	O
+50kWp	246,251	O	O
+was	252,255	O	O
+considered	256,266	O	O
+,	266,267	O	O
+with	268,272	O	O
+a	273,274	O	O
+system	275,281	O	B-Material
+composed	282,290	O	O
+by	291,293	O	O
+10	294,296	O	B-Material
+strings	297,304	O	I-Material
+of	305,307	O	I-Material
+24	308,310	O	I-Material
+modules	311,318	O	I-Material
+per	319,322	O	I-Material
+string	323,329	O	I-Material
+and	330,333	O	O
+an	334,336	O	O
+approximate	337,348	O	O
+system	349,355	O	O
+Voc	356,359	O	B-Material
+of	360,362	O	I-Material
+864	363,366	O	I-Material
+[	367,368	O	O
+VDC	368,371	O	B-Material
+]	371,372	O	O
+.	372,373	O	O
+
+For	374,377	O	O
+the	378,381	O	O
+high	382,386	O	B-Material
+efficiency	387,397	O	I-Material
+system	398,404	O	I-Material
+,	404,405	O	O
+a	406,407	O	O
+power	408,413	O	O
+of	414,416	O	O
+40kWp	417,422	O	O
+was	423,426	O	O
+considered	427,437	O	O
+,	437,438	O	O
+with	439,443	O	O
+a	444,445	O	O
+system	446,452	O	B-Material
+composed	453,461	O	O
+by	462,464	O	O
+10	465,467	O	B-Material
+strings	468,475	O	I-Material
+of	476,478	O	I-Material
+18	479,481	O	I-Material
+modules	482,489	O	I-Material
+per	490,493	O	I-Material
+string	494,500	O	I-Material
+and	501,504	O	O
+an	505,507	O	O
+approximate	508,519	O	O
+system	520,526	O	O
+Voc	527,530	O	B-Material
+of	531,533	O	I-Material
+873	534,537	O	I-Material
+
+[	538,539	O	O
+VDC	539,542	O	B-Material
+]	542,543	O	O
+.	543,544	O	O
+
+Fig	545,548	O	O
+.	548,549	O	O
+
+5(a	550,553	O	O
+)	553,554	O	O
+shows	555,560	O	O
+the	561,564	O	O
+reverse	565,572	O	O
+current	573,580	O	O
+present	581,588	O	O
+in	589,591	O	O
+one	592,595	O	O
+string	596,602	O	O
+when	603,607	O	O
+different	608,617	O	O
+numbers	618,625	O	O
+of	626,628	O	O
+modules	629,636	O	O
+in	637,639	O	O
+the	640,643	O	O
+string	644,650	O	O
+are	651,654	O	O
+shaded	655,661	O	O
+by	662,664	O	O
+90	665,667	O	O
+%	667,668	O	O
+.	668,669	O	O
+
+Fig	670,673	O	O
+.	673,674	O	O
+
+5(b	675,678	O	O
+)	678,679	O	O
+shows	680,685	O	O
+the	686,689	O	O
+reverse	690,697	O	B-Task
+current	698,705	O	I-Task
+present	706,713	O	O
+in	714,716	O	O
+one	717,720	O	O
+string	721,727	O	O
+when	728,732	O	O
+different	733,742	O	B-Process
+numbers	743,750	O	I-Process
+of	751,753	O	I-Process
+modules	754,761	O	I-Process
+of	762,764	O	I-Process
+the	765,768	O	I-Process
+string	769,775	O	I-Process
+are	776,779	O	I-Process
+short	780,785	O	I-Process
+-	785,786	O	I-Process
+circuited	786,795	O	I-Process
+.	795,796	O	O
+
+For	797,800	O	O
+both	801,805	O	O
+figures	806,813	O	O
+the	814,817	O	O
+continuous	818,828	O	O
+lines	829,834	O	O
+are	835,838	O	O
+for	839,842	O	O
+the	843,846	O	O
+standard	847,855	O	B-Material
+silicon	856,863	O	I-Material
+system	864,870	O	I-Material
+and	871,874	O	O
+the	875,878	O	O
+dashed	879,885	O	O
+lines	886,891	O	O
+are	892,895	O	O
+for	896,899	O	O
+the	900,903	O	O
+high	904,908	O	B-Material
+efficiency	909,919	O	I-Material
+system	920,926	O	I-Material
+.	926,927	O	O
 
 
 -DOCSTART- (S0039602899010869)
 
-The	0	3	O
-final	4	9	O
-contribution	10	22	O
-to	23	25	O
-the	26	29	O
-force	30	35	O
-is	36	38	O
-the	39	42	O
-van	43	46	B-Process
-der	47	50	I-Process
-Waals	51	56	I-Process
-interaction	57	68	I-Process
-.	68	69	O
-
-It	70	72	O
-includes	73	81	O
-the	82	85	O
-following	86	95	O
-contributions	96	109	O
-:	109	110	O
-(	111	112	O
-i	112	113	O
-)	113	114	O
-between	115	122	O
-the	123	126	O
-macroscopic	127	138	B-Material
-Si	139	141	I-Material
-tip	142	145	I-Material
-of	146	148	O
-conical	149	156	O
-shape	157	162	O
-with	163	167	O
-the	168	171	O
-sphere	172	178	O
-of	179	181	O
-radius	182	188	O
-R	189	190	O
-at	191	193	O
-the	194	197	O
-end	198	201	O
-[	202	203	O
-27	203	205	O
-]	205	206	O
-and	207	210	O
-semi	211	215	B-Material
--	215	216	I-Material
-infinite	216	224	I-Material
-substrate	225	234	I-Material
-;	234	235	O
-(	236	237	O
-ii	237	239	O
-)	239	240	O
-the	241	244	O
-dispersion	245	255	B-Process
-forces	256	262	I-Process
-between	263	270	O
-the	271	274	O
-atoms	275	280	B-Material
-in	281	283	O
-the	284	287	O
-sample	288	294	O
-treated	295	302	O
-atomistically	303	316	O
-;	316	317	O
-and	318	321	O
-(	322	323	O
-iii	323	326	O
-)	326	327	O
-the	328	331	O
-interaction	332	343	O
-between	344	351	O
-the	352	355	O
-macroscopic	356	367	B-Material
-part	368	372	I-Material
-of	373	375	I-Material
-the	376	379	I-Material
-tip	380	383	I-Material
-and	384	387	O
-the	388	391	O
-sample	392	398	B-Material
-atoms	399	404	I-Material
-.	404	405	O
-
-The	406	409	O
-first	410	415	O
-contribution	416	428	O
-is	429	431	O
-calculated	432	442	O
-analytically	443	455	O
-[	456	457	O
-27	457	459	O
-]	459	460	O
-.	460	461	O
-
-In	462	464	O
-fact	465	469	O
-,	469	470	O
-the	471	474	O
-macroscopic	475	486	O
-contribution	487	499	O
-to	500	502	O
-the	503	506	O
-van	507	510	B-Process
-der	511	514	I-Process
-Waals	515	520	I-Process
-force	521	526	I-Process
-is	527	529	O
-the	530	533	O
-same	534	538	O
-in	539	541	O
-each	542	546	O
-of	547	549	O
-the	550	553	O
-three	554	559	O
-systems	560	567	O
-described	568	577	O
-below	578	583	O
-,	583	584	O
-as	585	587	O
-it	588	590	O
-depends	591	598	O
-only	599	603	O
-on	604	606	O
-the	607	610	O
-tip	611	614	B-Process
-–	614	615	I-Process
-surface	615	622	I-Process
-separation	623	633	I-Process
-,	633	634	O
-macroscopic	635	646	O
-sphere	647	653	O
-radius	654	660	O
-,	660	661	O
-cone	662	666	O
--	666	667	O
-angle	667	672	O
-and	673	676	O
-Hamaker	677	684	O
-constant	685	693	O
-of	694	696	O
-the	697	700	O
-system	701	707	O
-[	708	709	O
-27	709	711	O
-]	711	712	O
-.	712	713	O
-
-All	714	717	O
-these	718	723	O
-quantities	724	734	O
-are	735	738	O
-identical	739	748	O
-in	749	751	O
-each	752	756	O
-system	757	763	O
-
-we	764	766	O
-look	767	771	O
-at	772	774	O
-,	774	775	O
-so	776	778	O
-that	779	783	O
-the	784	787	O
-van	788	791	B-Process
-der	792	795	I-Process
-Waals	796	801	I-Process
-force	802	807	I-Process
-acts	808	812	O
-as	813	815	O
-a	816	817	O
-background	818	828	O
-attractive	829	839	O
-force	840	845	O
-independent	846	857	O
-of	858	860	O
-the	861	864	O
-microscopic	865	876	O
-properties	877	887	O
-of	888	890	O
-the	891	894	O
-system	895	901	O
-[	902	903	O
-8	903	904	O
-]	904	905	O
-.	905	906	O
-
-The	907	910	O
-Hamaker	911	918	O
-constant	919	927	O
-needed	928	934	O
-for	935	938	O
-the	939	942	O
-calculation	943	954	B-Process
-of	955	957	O
-the	958	961	O
-macroscopic	962	973	B-Process
-van	974	977	I-Process
-der	978	981	I-Process
-Waals	982	987	I-Process
-force	988	993	I-Process
-is	994	996	O
-estimated	997	1006	O
-to	1007	1009	O
-be	1010	1012	O
-0.5eV	1013	1018	O
-
-[	1019	1020	O
-32	1020	1022	O
-]	1022	1023	O
-.	1023	1024	O
+The	0,3	O	O
+final	4,9	O	O
+contribution	10,22	O	O
+to	23,25	O	O
+the	26,29	O	O
+force	30,35	O	O
+is	36,38	O	O
+the	39,42	O	O
+van	43,46	O	B-Process
+der	47,50	O	I-Process
+Waals	51,56	O	I-Process
+interaction	57,68	O	I-Process
+.	68,69	O	O
+
+It	70,72	O	O
+includes	73,81	O	O
+the	82,85	O	O
+following	86,95	O	O
+contributions	96,109	O	O
+:	109,110	O	O
+(	111,112	O	O
+i	112,113	O	O
+)	113,114	O	O
+between	115,122	O	O
+the	123,126	O	O
+macroscopic	127,138	O	B-Material
+Si	139,141	O	I-Material
+tip	142,145	O	I-Material
+of	146,148	O	O
+conical	149,156	O	O
+shape	157,162	O	O
+with	163,167	O	O
+the	168,171	O	O
+sphere	172,178	O	O
+of	179,181	O	O
+radius	182,188	O	O
+R	189,190	O	O
+at	191,193	O	O
+the	194,197	O	O
+end	198,201	O	O
+[	202,203	O	O
+27	203,205	O	O
+]	205,206	O	O
+and	207,210	O	O
+semi	211,215	O	B-Material
+-	215,216	O	I-Material
+infinite	216,224	O	I-Material
+substrate	225,234	O	I-Material
+;	234,235	O	O
+(	236,237	O	O
+ii	237,239	O	O
+)	239,240	O	O
+the	241,244	O	O
+dispersion	245,255	O	B-Process
+forces	256,262	O	I-Process
+between	263,270	O	O
+the	271,274	O	O
+atoms	275,280	O	B-Material
+in	281,283	O	O
+the	284,287	O	O
+sample	288,294	O	O
+treated	295,302	O	O
+atomistically	303,316	O	O
+;	316,317	O	O
+and	318,321	O	O
+(	322,323	O	O
+iii	323,326	O	O
+)	326,327	O	O
+the	328,331	O	O
+interaction	332,343	O	O
+between	344,351	O	O
+the	352,355	O	O
+macroscopic	356,367	O	B-Material
+part	368,372	O	I-Material
+of	373,375	O	I-Material
+the	376,379	O	I-Material
+tip	380,383	O	I-Material
+and	384,387	O	O
+the	388,391	O	O
+sample	392,398	O	B-Material
+atoms	399,404	O	I-Material
+.	404,405	O	O
+
+The	406,409	O	O
+first	410,415	O	O
+contribution	416,428	O	O
+is	429,431	O	O
+calculated	432,442	O	O
+analytically	443,455	O	O
+[	456,457	O	O
+27	457,459	O	O
+]	459,460	O	O
+.	460,461	O	O
+
+In	462,464	O	O
+fact	465,469	O	O
+,	469,470	O	O
+the	471,474	O	O
+macroscopic	475,486	O	O
+contribution	487,499	O	O
+to	500,502	O	O
+the	503,506	O	O
+van	507,510	O	B-Process
+der	511,514	O	I-Process
+Waals	515,520	O	I-Process
+force	521,526	O	I-Process
+is	527,529	O	O
+the	530,533	O	O
+same	534,538	O	O
+in	539,541	O	O
+each	542,546	O	O
+of	547,549	O	O
+the	550,553	O	O
+three	554,559	O	O
+systems	560,567	O	O
+described	568,577	O	O
+below	578,583	O	O
+,	583,584	O	O
+as	585,587	O	O
+it	588,590	O	O
+depends	591,598	O	O
+only	599,603	O	O
+on	604,606	O	O
+the	607,610	O	O
+tip	611,614	O	B-Process
+–	614,615	O	I-Process
+surface	615,622	O	I-Process
+separation	623,633	O	I-Process
+,	633,634	O	O
+macroscopic	635,646	O	O
+sphere	647,653	O	O
+radius	654,660	O	O
+,	660,661	O	O
+cone	662,666	O	O
+-	666,667	O	O
+angle	667,672	O	O
+and	673,676	O	O
+Hamaker	677,684	O	O
+constant	685,693	O	O
+of	694,696	O	O
+the	697,700	O	O
+system	701,707	O	O
+[	708,709	O	O
+27	709,711	O	O
+]	711,712	O	O
+.	712,713	O	O
+
+All	714,717	O	O
+these	718,723	O	O
+quantities	724,734	O	O
+are	735,738	O	O
+identical	739,748	O	O
+in	749,751	O	O
+each	752,756	O	O
+system	757,763	O	O
+
+we	764,766	O	O
+look	767,771	O	O
+at	772,774	O	O
+,	774,775	O	O
+so	776,778	O	O
+that	779,783	O	O
+the	784,787	O	O
+van	788,791	O	B-Process
+der	792,795	O	I-Process
+Waals	796,801	O	I-Process
+force	802,807	O	I-Process
+acts	808,812	O	O
+as	813,815	O	O
+a	816,817	O	O
+background	818,828	O	O
+attractive	829,839	O	O
+force	840,845	O	O
+independent	846,857	O	O
+of	858,860	O	O
+the	861,864	O	O
+microscopic	865,876	O	O
+properties	877,887	O	O
+of	888,890	O	O
+the	891,894	O	O
+system	895,901	O	O
+[	902,903	O	O
+8	903,904	O	O
+]	904,905	O	O
+.	905,906	O	O
+
+The	907,910	O	O
+Hamaker	911,918	O	O
+constant	919,927	O	O
+needed	928,934	O	O
+for	935,938	O	O
+the	939,942	O	O
+calculation	943,954	O	B-Process
+of	955,957	O	O
+the	958,961	O	O
+macroscopic	962,973	O	B-Process
+van	974,977	O	I-Process
+der	978,981	O	I-Process
+Waals	982,987	O	I-Process
+force	988,993	O	I-Process
+is	994,996	O	O
+estimated	997,1006	O	O
+to	1007,1009	O	O
+be	1010,1012	O	O
+0.5eV	1013,1018	O	O
+
+[	1019,1020	O	O
+32	1020,1022	O	O
+]	1022,1023	O	O
+.	1023,1024	O	O
 
 
 -DOCSTART- (S0045782511003823)
 
-In	0	2	O
-the	3	6	O
-present	7	14	O
-work	15	19	O
-we	20	22	O
-use	23	26	O
-the	27	30	O
-mortar	31	37	B-Process
-finite	38	44	I-Process
-element	45	52	I-Process
-method	53	59	O
-for	60	63	O
-the	64	67	O
-coupling	68	76	B-Task
-of	77	79	I-Task
-nonconforming	80	93	I-Task
-discretized	94	105	I-Task
-sub	106	109	I-Task
--	109	110	I-Task
-domains	110	117	I-Task
-in	118	120	I-Task
-the	121	124	I-Task
-framework	125	134	I-Task
-of	135	137	I-Task
-nonlinear	138	147	I-Task
-elasticity	148	158	I-Task
-.	158	159	O
-
-The	160	163	O
-mortar	164	170	B-Process
-method	171	177	I-Process
-has	178	181	O
-been	182	186	O
-shown	187	192	O
-to	193	195	O
-preserve	196	204	O
-optimal	205	212	B-Task
-convergence	213	224	I-Task
-rates	225	230	I-Task
-(	231	232	O
-see	232	235	O
-Laursen	236	243	O
-(	244	245	O
-2002	245	249	O
-)	249	250	O
-
-[	251	252	O
-25	252	254	O
-]	254	255	O
-for	256	259	O
-details	260	267	O
-)	267	268	O
-and	269	272	O
-is	273	275	O
-variationally	276	289	O
-consistent	290	300	O
-.	300	301	O
-
-We	302	304	O
-show	305	309	O
-that	310	314	O
-the	315	318	O
-method	319	325	O
-can	326	329	O
-be	330	332	O
-applied	333	340	O
-to	341	343	O
-isogeometric	344	356	B-Task
-analysis	357	365	I-Task
-with	366	370	O
-little	371	377	O
-effort	378	384	O
-,	384	385	O
-once	386	390	O
-the	391	394	O
-framework	395	404	B-Material
-of	405	407	I-Material
-NURBS	408	413	I-Material
-based	414	419	I-Material
-shape	420	425	I-Material
-functions	426	435	I-Material
-has	436	439	O
-been	440	444	O
-implemented	445	456	O
-.	456	457	O
-
-Furthermore	458	469	O
-,	469	470	O
-a	471	472	O
-specific	473	481	O
-coordinate	482	492	B-Process
-augmentation	493	505	I-Process
-technique	506	515	I-Process
-allows	516	522	O
-the	523	526	O
-design	527	533	O
-of	534	536	O
-an	537	539	O
-energy	540	546	B-Task
-–	546	547	I-Task
-momentum	547	555	I-Task
-scheme	556	562	I-Task
-for	563	566	O
-the	567	570	O
-constrained	571	582	O
-mechanical	583	593	B-Process
-system	594	600	I-Process
-under	601	606	O
-consideration	607	620	O
-.	620	621	O
-
-The	622	625	O
-excellent	626	635	O
-performance	636	647	O
-of	648	650	O
-the	651	654	O
-redesigned	655	665	O
-mortar	666	672	B-Process
-method	673	679	I-Process
-as	680	682	O
-well	683	687	O
-as	688	690	O
-the	691	694	O
-energy	695	701	B-Task
-–	701	702	I-Task
-momentum	702	710	I-Task
-scheme	711	717	I-Task
-is	718	720	O
-illustrated	721	732	O
-in	733	735	O
-representative	736	750	O
-numerical	751	760	O
-examples	761	769	O
-.	769	770	O
-
-In	770	772	O
-the	773	776	O
-present	777	784	O
-work	785	789	O
-we	790	792	O
-use	793	796	O
-the	797	800	O
-mortar	801	807	B-Process
-finite	808	814	I-Process
-element	815	822	I-Process
-method	823	829	I-Process
-for	830	833	O
-the	834	837	O
-coupling	838	846	B-Task
-of	847	849	I-Task
-nonconforming	850	863	I-Task
-discretized	864	875	I-Task
-sub	876	879	I-Task
--	879	880	I-Task
-domains	880	887	I-Task
-in	888	890	I-Task
-the	891	894	I-Task
-framework	895	904	I-Task
-of	905	907	I-Task
-nonlinear	908	917	I-Task
-elasticity	918	928	I-Task
-.	928	929	O
-
-The	930	933	O
-mortar	934	940	B-Process
-method	941	947	I-Process
-has	948	951	O
-been	952	956	O
-shown	957	962	O
-to	963	965	O
-preserve	966	974	O
-optimal	975	982	O
-convergence	983	994	B-Task
-rates	995	1000	I-Task
-(	1001	1002	O
-see	1002	1005	O
-Laursen	1006	1013	O
-(	1014	1015	O
-2002	1015	1019	O
-)	1019	1020	O
-
-[	1021	1022	O
-25	1022	1024	O
-]	1024	1025	O
-for	1026	1029	O
-details	1030	1037	O
-)	1037	1038	O
-and	1039	1042	O
-is	1043	1045	O
-variationally	1046	1059	O
-consistent	1060	1070	O
-.	1070	1071	O
-
-We	1072	1074	O
-show	1075	1079	O
-that	1080	1084	O
-the	1085	1088	O
-method	1089	1095	O
-can	1096	1099	O
-be	1100	1102	O
-applied	1103	1110	O
-to	1111	1113	O
-isogeometric	1114	1126	B-Task
-analysis	1127	1135	I-Task
-with	1136	1140	O
-little	1141	1147	O
-effort	1148	1154	O
-,	1154	1155	O
-once	1156	1160	O
-the	1161	1164	O
-framework	1165	1174	B-Material
-of	1175	1177	I-Material
-NURBS	1178	1183	I-Material
-based	1184	1189	I-Material
-shape	1190	1195	I-Material
-functions	1196	1205	I-Material
-has	1206	1209	O
-been	1210	1214	O
-implemented	1215	1226	O
-.	1226	1227	O
-
-Furthermore	1228	1239	O
-,	1239	1240	O
-a	1241	1242	O
-specific	1243	1251	O
-coordinate	1252	1262	B-Process
-augmentation	1263	1275	I-Process
-technique	1276	1285	I-Process
-allows	1286	1292	O
-the	1293	1296	O
-design	1297	1303	O
-of	1304	1306	O
-an	1307	1309	O
-energy	1310	1316	B-Task
-–	1316	1317	I-Task
-momentum	1317	1325	I-Task
-scheme	1326	1332	I-Task
-for	1333	1336	O
-the	1337	1340	O
-constrained	1341	1352	B-Process
-mechanical	1353	1363	I-Process
-system	1364	1370	I-Process
-under	1371	1376	O
-consideration	1377	1390	O
-.	1390	1391	O
-
-The	1392	1395	O
-excellent	1396	1405	O
-performance	1406	1417	O
-of	1418	1420	O
-the	1421	1424	O
-redesigned	1425	1435	O
-mortar	1436	1442	B-Process
-method	1443	1449	I-Process
-as	1450	1452	O
-well	1453	1457	O
-as	1458	1460	O
-the	1461	1464	O
-energy	1465	1471	B-Task
-–	1471	1472	I-Task
-momentum	1472	1480	I-Task
-scheme	1481	1487	I-Task
-is	1488	1490	O
-illustrated	1491	1502	O
-in	1503	1505	O
-representative	1506	1520	O
-numerical	1521	1530	O
-examples	1531	1539	O
-.	1539	1540	O
+In	0,2	O	O
+the	3,6	O	O
+present	7,14	O	O
+work	15,19	O	O
+we	20,22	O	O
+use	23,26	O	O
+the	27,30	O	O
+mortar	31,37	O	B-Process
+finite	38,44	O	I-Process
+element	45,52	O	I-Process
+method	53,59	O	O
+for	60,63	O	O
+the	64,67	O	O
+coupling	68,76	O	B-Task
+of	77,79	O	I-Task
+nonconforming	80,93	O	I-Task
+discretized	94,105	O	I-Task
+sub	106,109	O	I-Task
+-	109,110	O	I-Task
+domains	110,117	O	I-Task
+in	118,120	O	I-Task
+the	121,124	O	I-Task
+framework	125,134	O	I-Task
+of	135,137	O	I-Task
+nonlinear	138,147	O	I-Task
+elasticity	148,158	O	I-Task
+.	158,159	O	O
+
+The	160,163	O	O
+mortar	164,170	O	B-Process
+method	171,177	O	I-Process
+has	178,181	O	O
+been	182,186	O	O
+shown	187,192	O	O
+to	193,195	O	O
+preserve	196,204	O	O
+optimal	205,212	O	B-Task
+convergence	213,224	O	I-Task
+rates	225,230	O	I-Task
+(	231,232	O	O
+see	232,235	O	O
+Laursen	236,243	O	O
+(	244,245	O	O
+2002	245,249	O	O
+)	249,250	O	O
+
+[	251,252	O	O
+25	252,254	O	O
+]	254,255	O	O
+for	256,259	O	O
+details	260,267	O	O
+)	267,268	O	O
+and	269,272	O	O
+is	273,275	O	O
+variationally	276,289	O	O
+consistent	290,300	O	O
+.	300,301	O	O
+
+We	302,304	O	O
+show	305,309	O	O
+that	310,314	O	O
+the	315,318	O	O
+method	319,325	O	O
+can	326,329	O	O
+be	330,332	O	O
+applied	333,340	O	O
+to	341,343	O	O
+isogeometric	344,356	O	B-Task
+analysis	357,365	O	I-Task
+with	366,370	O	O
+little	371,377	O	O
+effort	378,384	O	O
+,	384,385	O	O
+once	386,390	O	O
+the	391,394	O	O
+framework	395,404	O	B-Material
+of	405,407	O	I-Material
+NURBS	408,413	O	I-Material
+based	414,419	O	I-Material
+shape	420,425	O	I-Material
+functions	426,435	O	I-Material
+has	436,439	O	O
+been	440,444	O	O
+implemented	445,456	O	O
+.	456,457	O	O
+
+Furthermore	458,469	O	O
+,	469,470	O	O
+a	471,472	O	O
+specific	473,481	O	O
+coordinate	482,492	O	B-Process
+augmentation	493,505	O	I-Process
+technique	506,515	O	I-Process
+allows	516,522	O	O
+the	523,526	O	O
+design	527,533	O	O
+of	534,536	O	O
+an	537,539	O	O
+energy	540,546	O	B-Task
+–	546,547	O	I-Task
+momentum	547,555	O	I-Task
+scheme	556,562	O	I-Task
+for	563,566	O	O
+the	567,570	O	O
+constrained	571,582	O	O
+mechanical	583,593	O	B-Process
+system	594,600	O	I-Process
+under	601,606	O	O
+consideration	607,620	O	O
+.	620,621	O	O
+
+The	622,625	O	O
+excellent	626,635	O	O
+performance	636,647	O	O
+of	648,650	O	O
+the	651,654	O	O
+redesigned	655,665	O	O
+mortar	666,672	O	B-Process
+method	673,679	O	I-Process
+as	680,682	O	O
+well	683,687	O	O
+as	688,690	O	O
+the	691,694	O	O
+energy	695,701	O	B-Task
+–	701,702	O	I-Task
+momentum	702,710	O	I-Task
+scheme	711,717	O	I-Task
+is	718,720	O	O
+illustrated	721,732	O	O
+in	733,735	O	O
+representative	736,750	O	O
+numerical	751,760	O	O
+examples	761,769	O	O
+.	769,770	O	O
+
+In	770,772	O	O
+the	773,776	O	O
+present	777,784	O	O
+work	785,789	O	O
+we	790,792	O	O
+use	793,796	O	O
+the	797,800	O	O
+mortar	801,807	O	B-Process
+finite	808,814	O	I-Process
+element	815,822	O	I-Process
+method	823,829	O	I-Process
+for	830,833	O	O
+the	834,837	O	O
+coupling	838,846	O	B-Task
+of	847,849	O	I-Task
+nonconforming	850,863	O	I-Task
+discretized	864,875	O	I-Task
+sub	876,879	O	I-Task
+-	879,880	O	I-Task
+domains	880,887	O	I-Task
+in	888,890	O	I-Task
+the	891,894	O	I-Task
+framework	895,904	O	I-Task
+of	905,907	O	I-Task
+nonlinear	908,917	O	I-Task
+elasticity	918,928	O	I-Task
+.	928,929	O	O
+
+The	930,933	O	O
+mortar	934,940	O	B-Process
+method	941,947	O	I-Process
+has	948,951	O	O
+been	952,956	O	O
+shown	957,962	O	O
+to	963,965	O	O
+preserve	966,974	O	O
+optimal	975,982	O	O
+convergence	983,994	O	B-Task
+rates	995,1000	O	I-Task
+(	1001,1002	O	O
+see	1002,1005	O	O
+Laursen	1006,1013	O	O
+(	1014,1015	O	O
+2002	1015,1019	O	O
+)	1019,1020	O	O
+
+[	1021,1022	O	O
+25	1022,1024	O	O
+]	1024,1025	O	O
+for	1026,1029	O	O
+details	1030,1037	O	O
+)	1037,1038	O	O
+and	1039,1042	O	O
+is	1043,1045	O	O
+variationally	1046,1059	O	O
+consistent	1060,1070	O	O
+.	1070,1071	O	O
+
+We	1072,1074	O	O
+show	1075,1079	O	O
+that	1080,1084	O	O
+the	1085,1088	O	O
+method	1089,1095	O	O
+can	1096,1099	O	O
+be	1100,1102	O	O
+applied	1103,1110	O	O
+to	1111,1113	O	O
+isogeometric	1114,1126	O	B-Task
+analysis	1127,1135	O	I-Task
+with	1136,1140	O	O
+little	1141,1147	O	O
+effort	1148,1154	O	O
+,	1154,1155	O	O
+once	1156,1160	O	O
+the	1161,1164	O	O
+framework	1165,1174	O	B-Material
+of	1175,1177	O	I-Material
+NURBS	1178,1183	O	I-Material
+based	1184,1189	O	I-Material
+shape	1190,1195	O	I-Material
+functions	1196,1205	O	I-Material
+has	1206,1209	O	O
+been	1210,1214	O	O
+implemented	1215,1226	O	O
+.	1226,1227	O	O
+
+Furthermore	1228,1239	O	O
+,	1239,1240	O	O
+a	1241,1242	O	O
+specific	1243,1251	O	O
+coordinate	1252,1262	O	B-Process
+augmentation	1263,1275	O	I-Process
+technique	1276,1285	O	I-Process
+allows	1286,1292	O	O
+the	1293,1296	O	O
+design	1297,1303	O	O
+of	1304,1306	O	O
+an	1307,1309	O	O
+energy	1310,1316	O	B-Task
+–	1316,1317	O	I-Task
+momentum	1317,1325	O	I-Task
+scheme	1326,1332	O	I-Task
+for	1333,1336	O	O
+the	1337,1340	O	O
+constrained	1341,1352	O	B-Process
+mechanical	1353,1363	O	I-Process
+system	1364,1370	O	I-Process
+under	1371,1376	O	O
+consideration	1377,1390	O	O
+.	1390,1391	O	O
+
+The	1392,1395	O	O
+excellent	1396,1405	O	O
+performance	1406,1417	O	O
+of	1418,1420	O	O
+the	1421,1424	O	O
+redesigned	1425,1435	O	O
+mortar	1436,1442	O	B-Process
+method	1443,1449	O	I-Process
+as	1450,1452	O	O
+well	1453,1457	O	O
+as	1458,1460	O	O
+the	1461,1464	O	O
+energy	1465,1471	O	B-Task
+–	1471,1472	O	I-Task
+momentum	1472,1480	O	I-Task
+scheme	1481,1487	O	I-Task
+is	1488,1490	O	O
+illustrated	1491,1502	O	O
+in	1503,1505	O	O
+representative	1506,1520	O	O
+numerical	1521,1530	O	O
+examples	1531,1539	O	O
+.	1539,1540	O	O
 
 
 -DOCSTART- (S0045782512000266)
 
-In	0	2	O
-this	3	7	O
-work	8	12	O
-,	12	13	O
-a	14	15	O
-numerical	16	25	B-Process
-strategy	26	34	I-Process
-for	35	38	O
-designing	39	48	O
-an	49	51	O
-optimal	52	59	B-Task
-maintenance	60	71	I-Task
-scheduling	72	82	I-Task
-for	83	86	I-Task
-a	87	88	I-Task
-structure	89	98	I-Task
-,	98	99	O
-accounting	100	110	B-Process
-explicitly	111	121	I-Process
-for	122	125	I-Process
-the	126	129	I-Process
-effects	130	137	I-Process
-of	138	140	I-Process
-uncertainty	141	152	I-Process
-is	153	155	O
-suggested	156	165	O
-.	165	166	O
-
-This	167	171	O
-contribution	172	184	O
-,	184	185	O
-which	186	191	O
-can	192	195	O
-be	196	198	O
-regarded	199	207	O
-as	208	210	O
-an	211	213	O
-extension	214	223	O
-of	224	226	O
-the	227	230	O
-methods	231	238	O
-developed	239	248	O
-in	249	251	O
-[	252	253	O
-23	253	255	O
-]	255	256	O
-,	256	257	O
-presents	258	266	O
-several	267	274	O
-novel	275	280	O
-aspects	281	288	O
-over	289	293	O
-similar	294	301	O
-approaches	302	312	O
-proposed	313	321	O
-in	322	324	O
-the	325	328	O
-literature	329	339	O
-.	339	340	O
-
-Firstly	341	348	O
-,	348	349	O
-the	350	353	O
-initiation	354	364	B-Process
-and	365	368	I-Process
-propagation	369	380	I-Process
-of	381	383	I-Process
-fatigue	384	391	I-Process
-crack	392	397	I-Process
-is	398	400	O
-modeled	401	408	O
-efficiently	409	420	O
-by	421	423	O
-means	424	429	O
-of	430	432	O
-cohesive	433	441	B-Material
-zone	442	446	I-Material
-elements	447	455	I-Material
-[	456	457	O
-24–26	457	462	O
-]	462	463	O
-.	463	464	O
-
-The	465	468	O
-application	469	480	O
-of	481	483	O
-this	484	488	O
-class	489	494	B-Material
-of	495	497	I-Material
-elements	498	506	I-Material
-allows	507	513	O
-modeling	514	522	B-Task
-the	523	526	I-Task
-crack	527	532	I-Task
-initiation	533	543	I-Task
-and	544	547	I-Task
-propagation	548	559	I-Task
-within	560	566	I-Task
-a	567	568	I-Task
-unified	569	576	I-Task
-framework	577	586	I-Task
-.	586	587	O
-
-It	588	590	O
-should	591	597	O
-be	598	600	O
-noted	601	606	O
-that	607	611	O
-cohesive	612	620	B-Material
-zone	621	625	I-Material
-elements	626	634	I-Material
-have	635	639	O
-already	640	647	O
-been	648	652	O
-used	653	657	O
-for	658	661	O
-uncertainty	662	673	B-Task
-quantification	674	688	I-Task
-of	689	691	I-Task
-the	692	695	I-Task
-crack	696	701	I-Task
-propagation	702	713	I-Task
-phenomenon	714	724	I-Task
-[	725	726	O
-27,28	726	731	O
-]	731	732	O
-.	732	733	O
-
-However	734	741	O
-its	742	745	O
-application	746	757	O
-within	758	764	O
-the	765	768	O
-context	769	776	O
-of	777	779	O
-maintenance	780	791	B-Task
-scheduling	792	802	I-Task
-constitutes	803	814	O
-a	815	816	O
-novelty	817	824	O
-.	824	825	O
-
-The	826	829	O
-second	830	836	O
-innovative	837	847	O
-aspect	848	854	O
-of	855	857	O
-this	858	862	O
-contribution	863	875	O
-refers	876	882	O
-to	883	885	O
-the	886	889	O
-assessment	890	900	B-Process
-of	901	903	I-Process
-the	904	907	I-Process
-reliability	908	919	I-Process
-sensitivity	920	931	I-Process
-with	932	936	I-Process
-respect	937	944	I-Process
-to	945	947	I-Process
-the	948	951	I-Process
-variables	952	961	I-Process
-that	962	966	I-Process
-define	967	973	I-Process
-the	974	977	I-Process
-maintenance	978	989	I-Process
-scheduling	990	1000	I-Process
-.	1000	1001	O
-
-The	1002	1005	O
-estimation	1006	1016	B-Process
-of	1017	1019	I-Process
-this	1020	1024	I-Process
-sensitivity	1025	1036	I-Process
-,	1036	1037	O
-which	1038	1043	O
-is	1044	1046	O
-required	1047	1055	O
-in	1056	1058	O
-order	1059	1064	O
-to	1065	1067	O
-determine	1068	1077	O
-the	1078	1081	O
-optimal	1082	1089	B-Task
-maintenance	1090	1101	I-Task
-schedule	1102	1110	I-Task
-within	1111	1117	I-Task
-the	1118	1121	I-Task
-proposed	1122	1130	I-Task
-framework	1131	1140	I-Task
-,	1140	1141	O
-can	1142	1145	O
-be	1146	1148	O
-quite	1149	1154	O
-demanding	1155	1164	O
-as	1165	1167	O
-the	1168	1171	O
-model	1172	1177	B-Material
-characterizing	1178	1192	I-Material
-repair	1193	1199	I-Material
-of	1200	1202	I-Material
-a	1203	1204	I-Material
-cracked	1205	1212	I-Material
-structure	1213	1222	I-Material
-leads	1223	1228	O
-to	1229	1231	O
-a	1232	1233	O
-discontinuous	1234	1247	B-Task
-performance	1248	1259	I-Task
-function	1260	1268	I-Task
-associated	1269	1279	I-Task
-with	1280	1284	I-Task
-the	1285	1288	I-Task
-failure	1289	1296	I-Task
-probability	1297	1308	I-Task
-.	1308	1309	O
-
-A	1310	1311	O
-new	1312	1315	O
-approach	1316	1324	O
-for	1325	1328	O
-modeling	1329	1337	O
-this	1338	1342	O
-function	1343	1351	O
-is	1352	1354	O
-proposed	1355	1363	O
-herein	1364	1370	O
-.	1370	1371	O
-
-The	1372	1375	O
-continuous	1376	1386	B-Material
-and	1387	1390	I-Material
-discontinuous	1391	1404	I-Material
-parts	1405	1410	I-Material
-respectively	1411	1423	O
-of	1424	1426	O
-the	1427	1430	O
-function	1431	1439	O
-are	1440	1443	O
-considered	1444	1454	O
-separately	1455	1465	O
-to	1466	1468	O
-estimate	1469	1477	B-Process
-accurately	1478	1488	I-Process
-the	1489	1492	I-Process
-gradients	1493	1502	I-Process
-of	1503	1505	I-Process
-the	1506	1509	I-Process
-failure	1510	1517	I-Process
-events	1518	1524	I-Process
-.	1524	1525	O
+In	0,2	O	O
+this	3,7	O	O
+work	8,12	O	O
+,	12,13	O	O
+a	14,15	O	O
+numerical	16,25	O	B-Process
+strategy	26,34	O	I-Process
+for	35,38	O	O
+designing	39,48	O	O
+an	49,51	O	O
+optimal	52,59	O	B-Task
+maintenance	60,71	O	I-Task
+scheduling	72,82	O	I-Task
+for	83,86	O	I-Task
+a	87,88	O	I-Task
+structure	89,98	O	I-Task
+,	98,99	O	O
+accounting	100,110	O	B-Process
+explicitly	111,121	O	I-Process
+for	122,125	O	I-Process
+the	126,129	O	I-Process
+effects	130,137	O	I-Process
+of	138,140	O	I-Process
+uncertainty	141,152	O	I-Process
+is	153,155	O	O
+suggested	156,165	O	O
+.	165,166	O	O
+
+This	167,171	O	O
+contribution	172,184	O	O
+,	184,185	O	O
+which	186,191	O	O
+can	192,195	O	O
+be	196,198	O	O
+regarded	199,207	O	O
+as	208,210	O	O
+an	211,213	O	O
+extension	214,223	O	O
+of	224,226	O	O
+the	227,230	O	O
+methods	231,238	O	O
+developed	239,248	O	O
+in	249,251	O	O
+[	252,253	O	O
+23	253,255	O	O
+]	255,256	O	O
+,	256,257	O	O
+presents	258,266	O	O
+several	267,274	O	O
+novel	275,280	O	O
+aspects	281,288	O	O
+over	289,293	O	O
+similar	294,301	O	O
+approaches	302,312	O	O
+proposed	313,321	O	O
+in	322,324	O	O
+the	325,328	O	O
+literature	329,339	O	O
+.	339,340	O	O
+
+Firstly	341,348	O	O
+,	348,349	O	O
+the	350,353	O	O
+initiation	354,364	O	B-Process
+and	365,368	O	I-Process
+propagation	369,380	O	I-Process
+of	381,383	O	I-Process
+fatigue	384,391	O	I-Process
+crack	392,397	O	I-Process
+is	398,400	O	O
+modeled	401,408	O	O
+efficiently	409,420	O	O
+by	421,423	O	O
+means	424,429	O	O
+of	430,432	O	O
+cohesive	433,441	O	B-Material
+zone	442,446	O	I-Material
+elements	447,455	O	I-Material
+[	456,457	O	O
+24–26	457,462	O	O
+]	462,463	O	O
+.	463,464	O	O
+
+The	465,468	O	O
+application	469,480	O	O
+of	481,483	O	O
+this	484,488	O	O
+class	489,494	O	B-Material
+of	495,497	O	I-Material
+elements	498,506	O	I-Material
+allows	507,513	O	O
+modeling	514,522	O	B-Task
+the	523,526	O	I-Task
+crack	527,532	O	I-Task
+initiation	533,543	O	I-Task
+and	544,547	O	I-Task
+propagation	548,559	O	I-Task
+within	560,566	O	I-Task
+a	567,568	O	I-Task
+unified	569,576	O	I-Task
+framework	577,586	O	I-Task
+.	586,587	O	O
+
+It	588,590	O	O
+should	591,597	O	O
+be	598,600	O	O
+noted	601,606	O	O
+that	607,611	O	O
+cohesive	612,620	O	B-Material
+zone	621,625	O	I-Material
+elements	626,634	O	I-Material
+have	635,639	O	O
+already	640,647	O	O
+been	648,652	O	O
+used	653,657	O	O
+for	658,661	O	O
+uncertainty	662,673	O	B-Task
+quantification	674,688	O	I-Task
+of	689,691	O	I-Task
+the	692,695	O	I-Task
+crack	696,701	O	I-Task
+propagation	702,713	O	I-Task
+phenomenon	714,724	O	I-Task
+[	725,726	O	O
+27,28	726,731	O	O
+]	731,732	O	O
+.	732,733	O	O
+
+However	734,741	O	O
+its	742,745	O	O
+application	746,757	O	O
+within	758,764	O	O
+the	765,768	O	O
+context	769,776	O	O
+of	777,779	O	O
+maintenance	780,791	O	B-Task
+scheduling	792,802	O	I-Task
+constitutes	803,814	O	O
+a	815,816	O	O
+novelty	817,824	O	O
+.	824,825	O	O
+
+The	826,829	O	O
+second	830,836	O	O
+innovative	837,847	O	O
+aspect	848,854	O	O
+of	855,857	O	O
+this	858,862	O	O
+contribution	863,875	O	O
+refers	876,882	O	O
+to	883,885	O	O
+the	886,889	O	O
+assessment	890,900	O	B-Process
+of	901,903	O	I-Process
+the	904,907	O	I-Process
+reliability	908,919	O	I-Process
+sensitivity	920,931	O	I-Process
+with	932,936	O	I-Process
+respect	937,944	O	I-Process
+to	945,947	O	I-Process
+the	948,951	O	I-Process
+variables	952,961	O	I-Process
+that	962,966	O	I-Process
+define	967,973	O	I-Process
+the	974,977	O	I-Process
+maintenance	978,989	O	I-Process
+scheduling	990,1000	O	I-Process
+.	1000,1001	O	O
+
+The	1002,1005	O	O
+estimation	1006,1016	O	B-Process
+of	1017,1019	O	I-Process
+this	1020,1024	O	I-Process
+sensitivity	1025,1036	O	I-Process
+,	1036,1037	O	O
+which	1038,1043	O	O
+is	1044,1046	O	O
+required	1047,1055	O	O
+in	1056,1058	O	O
+order	1059,1064	O	O
+to	1065,1067	O	O
+determine	1068,1077	O	O
+the	1078,1081	O	O
+optimal	1082,1089	O	B-Task
+maintenance	1090,1101	O	I-Task
+schedule	1102,1110	O	I-Task
+within	1111,1117	O	I-Task
+the	1118,1121	O	I-Task
+proposed	1122,1130	O	I-Task
+framework	1131,1140	O	I-Task
+,	1140,1141	O	O
+can	1142,1145	O	O
+be	1146,1148	O	O
+quite	1149,1154	O	O
+demanding	1155,1164	O	O
+as	1165,1167	O	O
+the	1168,1171	O	O
+model	1172,1177	O	B-Material
+characterizing	1178,1192	O	I-Material
+repair	1193,1199	O	I-Material
+of	1200,1202	O	I-Material
+a	1203,1204	O	I-Material
+cracked	1205,1212	O	I-Material
+structure	1213,1222	O	I-Material
+leads	1223,1228	O	O
+to	1229,1231	O	O
+a	1232,1233	O	O
+discontinuous	1234,1247	O	B-Task
+performance	1248,1259	O	I-Task
+function	1260,1268	O	I-Task
+associated	1269,1279	O	I-Task
+with	1280,1284	O	I-Task
+the	1285,1288	O	I-Task
+failure	1289,1296	O	I-Task
+probability	1297,1308	O	I-Task
+.	1308,1309	O	O
+
+A	1310,1311	O	O
+new	1312,1315	O	O
+approach	1316,1324	O	O
+for	1325,1328	O	O
+modeling	1329,1337	O	O
+this	1338,1342	O	O
+function	1343,1351	O	O
+is	1352,1354	O	O
+proposed	1355,1363	O	O
+herein	1364,1370	O	O
+.	1370,1371	O	O
+
+The	1372,1375	O	O
+continuous	1376,1386	O	B-Material
+and	1387,1390	O	I-Material
+discontinuous	1391,1404	O	I-Material
+parts	1405,1410	O	I-Material
+respectively	1411,1423	O	O
+of	1424,1426	O	O
+the	1427,1430	O	O
+function	1431,1439	O	O
+are	1440,1443	O	O
+considered	1444,1454	O	O
+separately	1455,1465	O	O
+to	1466,1468	O	O
+estimate	1469,1477	O	B-Process
+accurately	1478,1488	O	I-Process
+the	1489,1492	O	I-Process
+gradients	1493,1502	O	I-Process
+of	1503,1505	O	I-Process
+the	1506,1509	O	I-Process
+failure	1510,1517	O	I-Process
+events	1518,1524	O	I-Process
+.	1524,1525	O	O
 
 
 -DOCSTART- (S0045782512002599)
 
-Finite	0	6	B-Process
-Element	7	14	I-Process
-Tearing	15	22	I-Process
-and	23	26	I-Process
-Interconnecting	27	42	I-Process
-(	43	44	O
-FETI	44	48	B-Process
-)	48	49	O
-methods	50	57	O
-are	58	61	O
-a	62	63	O
-powerful	64	72	O
-approach	73	81	O
-to	82	84	O
-designing	85	94	O
-solvers	95	102	B-Task
-for	103	106	I-Task
-large	107	112	I-Task
--	112	113	I-Task
-scale	113	118	I-Task
-problems	119	127	I-Task
-in	128	130	I-Task
-computational	131	144	I-Task
-mechanics	145	154	I-Task
-.	154	155	O
-
-The	156	159	O
-numerical	160	169	B-Material
-simulation	170	180	I-Material
-problem	181	188	I-Material
-is	189	191	O
-subdivided	192	202	O
-into	203	207	O
-a	208	209	O
-number	210	216	B-Material
-of	217	219	I-Material
-independent	220	231	I-Material
-sub	232	235	I-Material
--	235	236	I-Material
-problems	236	244	I-Material
-,	244	245	O
-which	246	251	O
-are	252	255	O
-then	256	260	O
-coupled	261	268	O
-in	269	271	O
-appropriate	272	283	O
-ways	284	288	O
-.	288	289	O
-
-NURBS-	290	296	B-Process
-
-(	297	298	O
-Non	298	301	B-Process
--	301	302	I-Process
-Uniform	302	309	I-Process
-Rational	310	318	I-Process
-B	319	320	I-Process
--	320	321	I-Process
-spline	321	327	I-Process
-)	327	328	O
-
-based	329	334	O
-isogeometric	335	347	B-Process
-analysis	348	356	I-Process
-(	357	358	O
-IGA	358	361	B-Process
-)	361	362	O
-applied	363	370	O
-to	371	373	O
-complex	374	381	B-Material
-geometries	382	392	I-Material
-requires	393	401	O
-to	402	404	O
-represent	405	414	O
-the	415	418	O
-computational	419	432	B-Task
-domain	433	439	I-Task
-as	440	442	I-Task
-a	443	444	I-Task
-collection	445	455	I-Task
-of	456	458	I-Task
-several	459	466	I-Task
-NURBS	467	472	I-Task
-geometries	473	483	I-Task
-.	483	484	O
-
-Since	485	490	O
-there	491	496	O
-is	497	499	O
-a	500	501	O
-natural	502	509	O
-decomposition	510	523	O
-of	524	526	O
-the	527	530	O
-computational	531	544	O
-domain	545	551	O
-into	552	556	O
-several	557	564	B-Material
-subdomains	565	575	I-Material
-,	575	576	O
-NURBS	577	582	B-Process
--	582	583	I-Process
-based	583	588	I-Process
-IGA	589	592	I-Process
-is	593	595	O
-particularly	596	608	O
-well	609	613	O
-suited	614	620	O
-for	621	624	O
-using	625	630	O
-FETI	631	635	B-Process
-methods	636	643	I-Process
-.	643	644	O
-
-This	644	648	O
-paper	649	654	O
-proposes	655	663	O
-the	664	667	O
-new	668	671	O
-IsogEometric	672	684	B-Process
-Tearing	685	692	I-Process
-and	693	696	I-Process
-Interconnecting	697	712	I-Process
-(	713	714	O
-IETI	714	718	B-Process
-)	718	719	O
-method	720	726	O
-,	726	727	O
-which	728	733	O
-combines	734	742	O
-the	743	746	O
-advanced	747	755	B-Process
-solver	756	762	I-Process
-design	763	769	I-Process
-of	770	772	O
-FETI	773	777	B-Process
-with	778	782	O
-the	783	786	O
-exact	787	792	B-Process
-geometry	793	801	I-Process
-representation	802	816	I-Process
-of	817	819	O
-IGA	820	823	B-Process
-.	823	824	O
-
-We	825	827	O
-describe	828	836	O
-the	837	840	O
-IETI	841	845	B-Process
-framework	846	855	I-Process
-for	856	859	O
-two	860	863	O
-classes	864	871	O
-of	872	874	O
-simple	875	881	B-Process
-model	882	887	I-Process
-problems	888	896	I-Process
-(	897	898	O
-Poisson	898	905	B-Process
-and	906	909	O
-linearized	910	920	B-Process
-elasticity	921	931	I-Process
-)	931	932	O
-and	933	936	O
-discuss	937	944	O
-the	945	948	O
-coupling	949	957	B-Process
-of	958	960	I-Process
-the	961	964	I-Process
-subdomains	965	975	I-Process
-along	976	981	I-Process
-interfaces	982	992	I-Process
-(	993	994	O
-both	994	998	O
-for	999	1002	O
-matching	1003	1011	O
-interfaces	1012	1022	O
-and	1023	1026	O
-for	1027	1030	O
-interfaces	1031	1041	B-Material
-with	1042	1046	I-Material
-T	1047	1048	I-Material
--	1048	1049	I-Material
-joints	1049	1055	I-Material
-,	1055	1056	O
-i.e.	1057	1061	O
-hanging	1062	1069	B-Material
-nodes	1070	1075	I-Material
-)	1075	1076	O
-.	1076	1077	O
-
-Special	1078	1085	O
-attention	1086	1095	O
-is	1096	1098	O
-paid	1099	1103	O
-to	1104	1106	O
-the	1107	1110	O
-construction	1111	1123	B-Task
-of	1124	1126	I-Task
-a	1127	1128	I-Task
-suitable	1129	1137	I-Task
-preconditioner	1138	1152	I-Task
-for	1153	1156	I-Task
-the	1157	1160	I-Task
-iterative	1161	1170	I-Task
-linear	1171	1177	I-Task
-solver	1178	1184	I-Task
-used	1185	1189	O
-for	1190	1193	O
-the	1194	1197	O
-interface	1198	1207	O
-problem	1208	1215	O
-.	1215	1216	O
-
-We	1217	1219	O
-report	1220	1226	O
-several	1227	1234	O
-computational	1235	1248	O
-experiments	1249	1260	O
-to	1261	1263	O
-demonstrate	1264	1275	B-Task
-the	1276	1279	I-Task
-performance	1280	1291	I-Task
-of	1292	1294	I-Task
-the	1295	1298	I-Task
-proposed	1299	1307	I-Task
-IETI	1308	1312	I-Task
-method	1313	1319	I-Task
-.	1319	1320	O
+Finite	0,6	O	B-Process
+Element	7,14	O	I-Process
+Tearing	15,22	O	I-Process
+and	23,26	O	I-Process
+Interconnecting	27,42	O	I-Process
+(	43,44	O	O
+FETI	44,48	O	B-Process
+)	48,49	O	O
+methods	50,57	O	O
+are	58,61	O	O
+a	62,63	O	O
+powerful	64,72	O	O
+approach	73,81	O	O
+to	82,84	O	O
+designing	85,94	O	O
+solvers	95,102	O	B-Task
+for	103,106	O	I-Task
+large	107,112	O	I-Task
+-	112,113	O	I-Task
+scale	113,118	O	I-Task
+problems	119,127	O	I-Task
+in	128,130	O	I-Task
+computational	131,144	O	I-Task
+mechanics	145,154	O	I-Task
+.	154,155	O	O
+
+The	156,159	O	O
+numerical	160,169	O	B-Material
+simulation	170,180	O	I-Material
+problem	181,188	O	I-Material
+is	189,191	O	O
+subdivided	192,202	O	O
+into	203,207	O	O
+a	208,209	O	O
+number	210,216	O	B-Material
+of	217,219	O	I-Material
+independent	220,231	O	I-Material
+sub	232,235	O	I-Material
+-	235,236	O	I-Material
+problems	236,244	O	I-Material
+,	244,245	O	O
+which	246,251	O	O
+are	252,255	O	O
+then	256,260	O	O
+coupled	261,268	O	O
+in	269,271	O	O
+appropriate	272,283	O	O
+ways	284,288	O	O
+.	288,289	O	O
+
+NURBS-	290,296	O	B-Process
+
+(	297,298	O	O
+Non	298,301	O	B-Process
+-	301,302	O	I-Process
+Uniform	302,309	O	I-Process
+Rational	310,318	O	I-Process
+B	319,320	O	I-Process
+-	320,321	O	I-Process
+spline	321,327	O	I-Process
+)	327,328	O	O
+
+based	329,334	O	O
+isogeometric	335,347	O	B-Process
+analysis	348,356	O	I-Process
+(	357,358	O	O
+IGA	358,361	O	B-Process
+)	361,362	O	O
+applied	363,370	O	O
+to	371,373	O	O
+complex	374,381	O	B-Material
+geometries	382,392	O	I-Material
+requires	393,401	O	O
+to	402,404	O	O
+represent	405,414	O	O
+the	415,418	O	O
+computational	419,432	O	B-Task
+domain	433,439	O	I-Task
+as	440,442	O	I-Task
+a	443,444	O	I-Task
+collection	445,455	O	I-Task
+of	456,458	O	I-Task
+several	459,466	O	I-Task
+NURBS	467,472	O	I-Task
+geometries	473,483	O	I-Task
+.	483,484	O	O
+
+Since	485,490	O	O
+there	491,496	O	O
+is	497,499	O	O
+a	500,501	O	O
+natural	502,509	O	O
+decomposition	510,523	O	O
+of	524,526	O	O
+the	527,530	O	O
+computational	531,544	O	O
+domain	545,551	O	O
+into	552,556	O	O
+several	557,564	O	B-Material
+subdomains	565,575	O	I-Material
+,	575,576	O	O
+NURBS	577,582	O	B-Process
+-	582,583	O	I-Process
+based	583,588	O	I-Process
+IGA	589,592	O	I-Process
+is	593,595	O	O
+particularly	596,608	O	O
+well	609,613	O	O
+suited	614,620	O	O
+for	621,624	O	O
+using	625,630	O	O
+FETI	631,635	O	B-Process
+methods	636,643	O	I-Process
+.	643,644	O	O
+
+This	644,648	O	O
+paper	649,654	O	O
+proposes	655,663	O	O
+the	664,667	O	O
+new	668,671	O	O
+IsogEometric	672,684	O	B-Process
+Tearing	685,692	O	I-Process
+and	693,696	O	I-Process
+Interconnecting	697,712	O	I-Process
+(	713,714	O	O
+IETI	714,718	O	B-Process
+)	718,719	O	O
+method	720,726	O	O
+,	726,727	O	O
+which	728,733	O	O
+combines	734,742	O	O
+the	743,746	O	O
+advanced	747,755	O	B-Process
+solver	756,762	O	I-Process
+design	763,769	O	I-Process
+of	770,772	O	O
+FETI	773,777	O	B-Process
+with	778,782	O	O
+the	783,786	O	O
+exact	787,792	O	B-Process
+geometry	793,801	O	I-Process
+representation	802,816	O	I-Process
+of	817,819	O	O
+IGA	820,823	O	B-Process
+.	823,824	O	O
+
+We	825,827	O	O
+describe	828,836	O	O
+the	837,840	O	O
+IETI	841,845	O	B-Process
+framework	846,855	O	I-Process
+for	856,859	O	O
+two	860,863	O	O
+classes	864,871	O	O
+of	872,874	O	O
+simple	875,881	O	B-Process
+model	882,887	O	I-Process
+problems	888,896	O	I-Process
+(	897,898	O	O
+Poisson	898,905	O	B-Process
+and	906,909	O	O
+linearized	910,920	O	B-Process
+elasticity	921,931	O	I-Process
+)	931,932	O	O
+and	933,936	O	O
+discuss	937,944	O	O
+the	945,948	O	O
+coupling	949,957	O	B-Process
+of	958,960	O	I-Process
+the	961,964	O	I-Process
+subdomains	965,975	O	I-Process
+along	976,981	O	I-Process
+interfaces	982,992	O	I-Process
+(	993,994	O	O
+both	994,998	O	O
+for	999,1002	O	O
+matching	1003,1011	O	O
+interfaces	1012,1022	O	O
+and	1023,1026	O	O
+for	1027,1030	O	O
+interfaces	1031,1041	O	B-Material
+with	1042,1046	O	I-Material
+T	1047,1048	O	I-Material
+-	1048,1049	O	I-Material
+joints	1049,1055	O	I-Material
+,	1055,1056	O	O
+i.e.	1057,1061	O	O
+hanging	1062,1069	O	B-Material
+nodes	1070,1075	O	I-Material
+)	1075,1076	O	O
+.	1076,1077	O	O
+
+Special	1078,1085	O	O
+attention	1086,1095	O	O
+is	1096,1098	O	O
+paid	1099,1103	O	O
+to	1104,1106	O	O
+the	1107,1110	O	O
+construction	1111,1123	O	B-Task
+of	1124,1126	O	I-Task
+a	1127,1128	O	I-Task
+suitable	1129,1137	O	I-Task
+preconditioner	1138,1152	O	I-Task
+for	1153,1156	O	I-Task
+the	1157,1160	O	I-Task
+iterative	1161,1170	O	I-Task
+linear	1171,1177	O	I-Task
+solver	1178,1184	O	I-Task
+used	1185,1189	O	O
+for	1190,1193	O	O
+the	1194,1197	O	O
+interface	1198,1207	O	O
+problem	1208,1215	O	O
+.	1215,1216	O	O
+
+We	1217,1219	O	O
+report	1220,1226	O	O
+several	1227,1234	O	O
+computational	1235,1248	O	O
+experiments	1249,1260	O	O
+to	1261,1263	O	O
+demonstrate	1264,1275	O	B-Task
+the	1276,1279	O	I-Task
+performance	1280,1291	O	I-Task
+of	1292,1294	O	I-Task
+the	1295,1298	O	I-Task
+proposed	1299,1307	O	I-Task
+IETI	1308,1312	O	I-Task
+method	1313,1319	O	I-Task
+.	1319,1320	O	O
 
 
 -DOCSTART- (S0045782512002678)
 
-To	0	2	O
-the	3	6	O
-best	7	11	O
-of	12	14	O
-authors’	15	23	O
-knowledge	24	33	O
-,	33	34	O
-so	35	37	O
-far	38	41	O
-there	42	47	O
-are	48	51	O
-only	52	56	O
-very	57	61	O
-few	62	65	O
-papers	66	72	O
-[	73	74	O
-12,13,16,29	74	85	O
-]	85	86	O
-which	87	92	O
-address	93	100	O
-the	101	104	O
-performance	105	116	B-Process
-of	117	119	I-Process
-linear	120	126	I-Process
-algebra	127	134	I-Process
-solvers	135	142	I-Process
-.	142	143	O
-
-In	144	146	O
-Ref	147	150	O
-.	150	151	O
-
-[	152	153	O
-16	153	155	O
-]	155	156	O
-,	156	157	O
-the	158	161	O
-authors	162	169	O
-study	170	175	O
-the	176	179	O
-performance	180	191	B-Process
-of	192	194	I-Process
-direct	195	201	I-Process
-solvers	202	209	I-Process
-which	210	215	O
-are	216	219	O
-clearly	220	227	O
-not	228	231	O
-suitable	232	240	O
-for	241	244	O
-large	245	250	B-Process
-problems	251	259	I-Process
-,	259	260	O
-specially	261	270	O
-in	271	273	O
-three	274	279	O
--	279	280	O
-dimensions	280	290	O
-.	290	291	O
-
-In	292	294	O
-Ref	295	298	O
-.	298	299	O
-
-[	300	301	O
-29	301	303	O
-]	303	304	O
-,	304	305	O
-the	306	309	O
-tearing	310	317	B-Process
-and	318	321	I-Process
-interconnecting	322	337	I-Process
-approach	338	346	I-Process
-of	347	349	I-Process
-finite	350	356	I-Process
-element	357	364	I-Process
-methods	365	372	I-Process
-is	373	375	O
-used	376	380	O
-in	381	383	O
-the	384	387	O
-context	388	395	O
-of	396	398	O
-isogeometric	399	411	B-Task
-analysis	412	420	I-Task
-,	420	421	O
-and	422	425	O
-the	426	429	O
-numerical	430	439	B-Material
-tests	440	445	I-Material
-(	446	447	O
-in	447	449	O
-absence	450	457	O
-of	458	460	O
-any	461	464	O
-theoretical	465	476	B-Task
-study	477	482	I-Task
-)	482	483	O
-suggest	484	491	O
-almost	492	498	O
-optimal	499	506	O
-(	507	508	O
-with	508	512	O
-a	513	514	O
-logarithmic	515	526	O
-factor	527	533	O
-)	533	534	O
-convergence	535	546	O
-rates	547	552	O
-of	553	555	O
-the	556	559	O
-proposed	560	568	O
-isogeometric	569	581	B-Process
-tearing	582	589	I-Process
-and	590	593	I-Process
-interconnecting	594	609	I-Process
-method	610	616	I-Process
-.	616	617	O
-
-The	618	621	O
-only	622	626	O
-paper	627	632	O
-which	633	638	O
-provides	639	647	O
-rigorous	648	656	B-Task
-theoretical	657	668	I-Task
-study	669	674	I-Task
-,	674	675	O
-supported	676	685	O
-by	686	688	O
-extensive	689	698	B-Material
-numerical	699	708	I-Material
-examples	709	717	I-Material
-,	717	718	O
-is	719	721	O
-by	722	724	O
-Beirao	725	731	O
-et	732	734	O
-al	735	737	O
-.	737	738	O
-
-[	739	740	O
-12	740	742	O
-]	742	743	O
-where	744	749	O
-the	750	753	O
-authors	754	761	O
-discuss	762	769	O
-the	770	773	O
-overlapping	774	785	O
-Schwarz	786	793	B-Process
-methods	794	801	I-Process
-.	801	802	O
-
-The	803	806	O
-same	807	811	O
-authors	812	819	O
-have	820	824	O
-also	825	829	O
-proposed	830	838	O
-BDDC	839	843	B-Material
-preconditioners	844	859	I-Material
-for	860	863	O
-isogeometric	864	876	B-Task
-analysis	877	885	I-Task
-in	886	888	O
-[	889	890	O
-13	890	892	O
-]	892	893	O
-.	893	894	O
+To	0,2	O	O
+the	3,6	O	O
+best	7,11	O	O
+of	12,14	O	O
+authors’	15,23	O	O
+knowledge	24,33	O	O
+,	33,34	O	O
+so	35,37	O	O
+far	38,41	O	O
+there	42,47	O	O
+are	48,51	O	O
+only	52,56	O	O
+very	57,61	O	O
+few	62,65	O	O
+papers	66,72	O	O
+[	73,74	O	O
+12,13,16,29	74,85	O	O
+]	85,86	O	O
+which	87,92	O	O
+address	93,100	O	O
+the	101,104	O	O
+performance	105,116	O	B-Process
+of	117,119	O	I-Process
+linear	120,126	O	I-Process
+algebra	127,134	O	I-Process
+solvers	135,142	O	I-Process
+.	142,143	O	O
+
+In	144,146	O	O
+Ref	147,150	O	O
+.	150,151	O	O
+
+[	152,153	O	O
+16	153,155	O	O
+]	155,156	O	O
+,	156,157	O	O
+the	158,161	O	O
+authors	162,169	O	O
+study	170,175	O	O
+the	176,179	O	O
+performance	180,191	O	B-Process
+of	192,194	O	I-Process
+direct	195,201	O	I-Process
+solvers	202,209	O	I-Process
+which	210,215	O	O
+are	216,219	O	O
+clearly	220,227	O	O
+not	228,231	O	O
+suitable	232,240	O	O
+for	241,244	O	O
+large	245,250	O	B-Process
+problems	251,259	O	I-Process
+,	259,260	O	O
+specially	261,270	O	O
+in	271,273	O	O
+three	274,279	O	O
+-	279,280	O	O
+dimensions	280,290	O	O
+.	290,291	O	O
+
+In	292,294	O	O
+Ref	295,298	O	O
+.	298,299	O	O
+
+[	300,301	O	O
+29	301,303	O	O
+]	303,304	O	O
+,	304,305	O	O
+the	306,309	O	O
+tearing	310,317	O	B-Process
+and	318,321	O	I-Process
+interconnecting	322,337	O	I-Process
+approach	338,346	O	I-Process
+of	347,349	O	I-Process
+finite	350,356	O	I-Process
+element	357,364	O	I-Process
+methods	365,372	O	I-Process
+is	373,375	O	O
+used	376,380	O	O
+in	381,383	O	O
+the	384,387	O	O
+context	388,395	O	O
+of	396,398	O	O
+isogeometric	399,411	O	B-Task
+analysis	412,420	O	I-Task
+,	420,421	O	O
+and	422,425	O	O
+the	426,429	O	O
+numerical	430,439	O	B-Material
+tests	440,445	O	I-Material
+(	446,447	O	O
+in	447,449	O	O
+absence	450,457	O	O
+of	458,460	O	O
+any	461,464	O	O
+theoretical	465,476	O	B-Task
+study	477,482	O	I-Task
+)	482,483	O	O
+suggest	484,491	O	O
+almost	492,498	O	O
+optimal	499,506	O	O
+(	507,508	O	O
+with	508,512	O	O
+a	513,514	O	O
+logarithmic	515,526	O	O
+factor	527,533	O	O
+)	533,534	O	O
+convergence	535,546	O	O
+rates	547,552	O	O
+of	553,555	O	O
+the	556,559	O	O
+proposed	560,568	O	O
+isogeometric	569,581	O	B-Process
+tearing	582,589	O	I-Process
+and	590,593	O	I-Process
+interconnecting	594,609	O	I-Process
+method	610,616	O	I-Process
+.	616,617	O	O
+
+The	618,621	O	O
+only	622,626	O	O
+paper	627,632	O	O
+which	633,638	O	O
+provides	639,647	O	O
+rigorous	648,656	O	B-Task
+theoretical	657,668	O	I-Task
+study	669,674	O	I-Task
+,	674,675	O	O
+supported	676,685	O	O
+by	686,688	O	O
+extensive	689,698	O	B-Material
+numerical	699,708	O	I-Material
+examples	709,717	O	I-Material
+,	717,718	O	O
+is	719,721	O	O
+by	722,724	O	O
+Beirao	725,731	O	O
+et	732,734	O	O
+al	735,737	O	O
+.	737,738	O	O
+
+[	739,740	O	O
+12	740,742	O	O
+]	742,743	O	O
+where	744,749	O	O
+the	750,753	O	O
+authors	754,761	O	O
+discuss	762,769	O	O
+the	770,773	O	O
+overlapping	774,785	O	O
+Schwarz	786,793	O	B-Process
+methods	794,801	O	I-Process
+.	801,802	O	O
+
+The	803,806	O	O
+same	807,811	O	O
+authors	812,819	O	O
+have	820,824	O	O
+also	825,829	O	O
+proposed	830,838	O	O
+BDDC	839,843	O	B-Material
+preconditioners	844,859	O	I-Material
+for	860,863	O	O
+isogeometric	864,876	O	B-Task
+analysis	877,885	O	I-Task
+in	886,888	O	O
+[	889,890	O	O
+13	890,892	O	O
+]	892,893	O	O
+.	893,894	O	O
 
 
 -DOCSTART- (S0045782512003234)
 
-An	0	2	O
-attempt	3	10	O
-of	11	13	O
-a	14	15	O
-quite	16	21	O
-comprehensive	22	35	O
-answer	36	42	O
-to	43	45	O
-this	46	50	O
-question	51	59	O
-is	60	62	O
-made	63	67	O
-hereafter	68	77	O
-,	77	78	O
-within	79	85	O
-the	86	89	O
-following	90	99	O
-structure	100	109	O
-of	110	112	O
-the	113	116	O
-remaining	117	126	O
-paper	127	132	O
-:	132	133	O
-first	134	139	O
-,	139	140	O
-we	141	143	O
-introduce	144	153	O
-the	154	157	O
-mathematical	158	170	B-Material
-systems	171	178	I-Material
-biology	179	186	I-Material
-of	187	189	I-Material
-bone	190	194	I-Material
-,	194	195	O
-starting	196	204	O
-from	205	209	O
-the	210	213	O
-work	214	218	O
-of	219	221	O
-Pivonka	222	229	O
-et	230	232	O
-al	233	235	O
-.	235	236	O
-
-[	237	238	O
-25,26	238	243	O
-]	243	244	O
-,	244	245	O
-and	246	249	O
-extending	250	259	O
-it	260	262	O
-to	263	265	O
-mechanoregulatory	266	283	B-Process
-feedback	284	292	I-Process
-control	293	300	I-Process
-(	301	302	O
-Section	302	309	O
-2	310	311	O
-)	311	312	O
-.	312	313	O
-
-Then	314	318	O
-,	318	319	O
-we	320	322	O
-introduce	323	332	O
-a	333	334	O
-continuum	335	344	B-Material
-micromechanics	345	359	I-Material
-representation	360	374	I-Material
-adopted	375	382	O
-from	383	387	O
-Hellmich	388	396	O
-et	397	399	O
-al	400	402	O
-.	402	403	O
-
-[	404	405	O
-30	405	407	O
-]	407	408	O
-,	408	409	O
-in	410	412	O
-order	413	418	O
-to	419	421	O
-scale	422	427	B-Task
-elasticity	428	438	I-Task
-and	439	442	I-Task
-strains	443	450	I-Task
-from	451	455	I-Task
-the	456	459	I-Task
-level	460	465	I-Task
-of	466	468	I-Task
-the	469	472	I-Task
-extravascular	473	486	I-Task
-bone	487	491	I-Task
-matrix	492	498	I-Task
-to	499	501	I-Task
-that	502	506	I-Task
-of	507	509	I-Task
-cortical	510	518	I-Task
-bone1In	519	526	I-Task
-this	527	531	O
-paper	532	537	O
-,	537	538	O
-we	539	541	O
-restrict	542	550	O
-ourselves	551	560	O
-to	561	563	O
-cortical	564	572	B-Material
-bone	573	577	I-Material
-,	577	578	O
-due	579	582	O
-to	583	585	O
-its	586	589	O
-major	590	595	O
-importance	596	606	O
-in	607	609	O
-providing	610	619	B-Process
-sufficient	620	630	I-Process
-load	631	635	I-Process
--	635	636	I-Process
-carrying	636	644	I-Process
-capacity	645	653	I-Process
-.	653	654	O
-
-However	655	662	O
-,	662	663	O
-extension	664	673	O
-of	674	676	O
-the	677	680	O
-coupled	681	688	B-Process
-approach	689	697	I-Process
-proposed	698	706	O
-here	707	711	O
-to	712	714	O
-trabecular	715	725	B-Material
-bone	726	730	I-Material
-is	731	733	O
-straightforward	734	749	O
-;	749	750	O
-it	751	753	O
-merely	754	760	O
-requires	761	769	O
-recalibration	770	783	B-Process
-of	784	786	I-Process
-underlying	787	797	I-Process
-parameters.1	798	810	I-Process
-and	811	814	O
-vice	815	819	O
-versa	820	825	O
-(	826	827	O
-Section	827	834	O
-3	835	836	O
-)	836	837	O
-.	837	838	O
-
-The	839	842	O
-micromechanics	843	857	B-Process
-formulation	858	869	I-Process
-is	870	872	O
-fed	873	876	O
-with	877	881	O
-composition	882	893	B-Material
-quantities	894	904	I-Material
-derived	905	912	O
-from	913	917	O
-the	918	921	O
-systems	922	929	B-Process
-biology	930	937	I-Process
-approach	938	946	I-Process
-,	946	947	O
-which	948	953	O
-,	953	954	O
-in	955	957	O
-turn	958	962	O
-,	962	963	O
-is	964	966	O
-provided	967	975	O
-with	976	980	O
-mechanical	981	991	B-Material
-stimuli	992	999	I-Material
-gained	1000	1006	O
-from	1007	1011	O
-the	1012	1015	O
-micromechanics	1016	1030	B-Process
-model	1031	1036	I-Process
-.	1036	1037	O
-
-We	1038	1040	O
-then	1041	1045	O
-apply	1046	1051	O
-the	1052	1055	O
-coupled	1056	1063	B-Process
-approach	1064	1072	I-Process
-to	1073	1075	O
-biochemical	1076	1087	B-Material
-and	1088	1091	I-Material
-mechanical	1092	1102	I-Material
-conditions	1103	1113	I-Material
-typical	1114	1121	O
-for	1122	1125	O
-postmenopausal	1126	1140	O
-osteoporosis	1141	1153	O
-(	1154	1155	O
-Section	1155	1162	O
-4	1163	1164	O
-)	1164	1165	O
-and	1166	1169	O
-microgravity	1170	1182	O
-exposure	1183	1191	O
-(	1192	1193	O
-Section	1193	1200	O
-5	1201	1202	O
-)	1202	1203	O
-,	1203	1204	O
-and	1205	1208	O
-discuss	1209	1216	O
-key	1217	1220	O
-sensitivity	1221	1232	O
-features	1233	1241	O
-(	1242	1243	O
-Section	1243	1250	O
-6	1251	1252	O
-)	1252	1253	O
-.	1253	1254	O
-
-After	1255	1260	O
-emphasizing	1261	1272	O
-the	1273	1276	O
-potentials	1277	1287	B-Task
-and	1288	1291	I-Task
-limitations	1292	1303	I-Task
-of	1304	1306	I-Task
-the	1307	1310	I-Task
-presented	1311	1320	I-Task
-approach	1321	1329	I-Task
-(	1330	1331	O
-Section	1331	1338	O
-7	1339	1340	O
-)	1340	1341	O
-,	1341	1342	O
-we	1343	1345	O
-conclude	1346	1354	O
-the	1355	1358	O
-paper	1359	1364	O
-in	1365	1367	O
-(	1368	1369	O
-Section	1369	1376	O
-8)	1377	1379	O
-.	1379	1380	O
+An	0,2	O	O
+attempt	3,10	O	O
+of	11,13	O	O
+a	14,15	O	O
+quite	16,21	O	O
+comprehensive	22,35	O	O
+answer	36,42	O	O
+to	43,45	O	O
+this	46,50	O	O
+question	51,59	O	O
+is	60,62	O	O
+made	63,67	O	O
+hereafter	68,77	O	O
+,	77,78	O	O
+within	79,85	O	O
+the	86,89	O	O
+following	90,99	O	O
+structure	100,109	O	O
+of	110,112	O	O
+the	113,116	O	O
+remaining	117,126	O	O
+paper	127,132	O	O
+:	132,133	O	O
+first	134,139	O	O
+,	139,140	O	O
+we	141,143	O	O
+introduce	144,153	O	O
+the	154,157	O	O
+mathematical	158,170	O	B-Material
+systems	171,178	O	I-Material
+biology	179,186	O	I-Material
+of	187,189	O	I-Material
+bone	190,194	O	I-Material
+,	194,195	O	O
+starting	196,204	O	O
+from	205,209	O	O
+the	210,213	O	O
+work	214,218	O	O
+of	219,221	O	O
+Pivonka	222,229	O	O
+et	230,232	O	O
+al	233,235	O	O
+.	235,236	O	O
+
+[	237,238	O	O
+25,26	238,243	O	O
+]	243,244	O	O
+,	244,245	O	O
+and	246,249	O	O
+extending	250,259	O	O
+it	260,262	O	O
+to	263,265	O	O
+mechanoregulatory	266,283	O	B-Process
+feedback	284,292	O	I-Process
+control	293,300	O	I-Process
+(	301,302	O	O
+Section	302,309	O	O
+2	310,311	O	O
+)	311,312	O	O
+.	312,313	O	O
+
+Then	314,318	O	O
+,	318,319	O	O
+we	320,322	O	O
+introduce	323,332	O	O
+a	333,334	O	O
+continuum	335,344	O	B-Material
+micromechanics	345,359	O	I-Material
+representation	360,374	O	I-Material
+adopted	375,382	O	O
+from	383,387	O	O
+Hellmich	388,396	O	O
+et	397,399	O	O
+al	400,402	O	O
+.	402,403	O	O
+
+[	404,405	O	O
+30	405,407	O	O
+]	407,408	O	O
+,	408,409	O	O
+in	410,412	O	O
+order	413,418	O	O
+to	419,421	O	O
+scale	422,427	O	B-Task
+elasticity	428,438	O	I-Task
+and	439,442	O	I-Task
+strains	443,450	O	I-Task
+from	451,455	O	I-Task
+the	456,459	O	I-Task
+level	460,465	O	I-Task
+of	466,468	O	I-Task
+the	469,472	O	I-Task
+extravascular	473,486	O	I-Task
+bone	487,491	O	I-Task
+matrix	492,498	O	I-Task
+to	499,501	O	I-Task
+that	502,506	O	I-Task
+of	507,509	O	I-Task
+cortical	510,518	O	I-Task
+bone1In	519,526	O	I-Task
+this	527,531	O	O
+paper	532,537	O	O
+,	537,538	O	O
+we	539,541	O	O
+restrict	542,550	O	O
+ourselves	551,560	O	O
+to	561,563	O	O
+cortical	564,572	O	B-Material
+bone	573,577	O	I-Material
+,	577,578	O	O
+due	579,582	O	O
+to	583,585	O	O
+its	586,589	O	O
+major	590,595	O	O
+importance	596,606	O	O
+in	607,609	O	O
+providing	610,619	O	B-Process
+sufficient	620,630	O	I-Process
+load	631,635	O	I-Process
+-	635,636	O	I-Process
+carrying	636,644	O	I-Process
+capacity	645,653	O	I-Process
+.	653,654	O	O
+
+However	655,662	O	O
+,	662,663	O	O
+extension	664,673	O	O
+of	674,676	O	O
+the	677,680	O	O
+coupled	681,688	O	B-Process
+approach	689,697	O	I-Process
+proposed	698,706	O	O
+here	707,711	O	O
+to	712,714	O	O
+trabecular	715,725	O	B-Material
+bone	726,730	O	I-Material
+is	731,733	O	O
+straightforward	734,749	O	O
+;	749,750	O	O
+it	751,753	O	O
+merely	754,760	O	O
+requires	761,769	O	O
+recalibration	770,783	O	B-Process
+of	784,786	O	I-Process
+underlying	787,797	O	I-Process
+parameters.1	798,810	O	I-Process
+and	811,814	O	O
+vice	815,819	O	O
+versa	820,825	O	O
+(	826,827	O	O
+Section	827,834	O	O
+3	835,836	O	O
+)	836,837	O	O
+.	837,838	O	O
+
+The	839,842	O	O
+micromechanics	843,857	O	B-Process
+formulation	858,869	O	I-Process
+is	870,872	O	O
+fed	873,876	O	O
+with	877,881	O	O
+composition	882,893	O	B-Material
+quantities	894,904	O	I-Material
+derived	905,912	O	O
+from	913,917	O	O
+the	918,921	O	O
+systems	922,929	O	B-Process
+biology	930,937	O	I-Process
+approach	938,946	O	I-Process
+,	946,947	O	O
+which	948,953	O	O
+,	953,954	O	O
+in	955,957	O	O
+turn	958,962	O	O
+,	962,963	O	O
+is	964,966	O	O
+provided	967,975	O	O
+with	976,980	O	O
+mechanical	981,991	O	B-Material
+stimuli	992,999	O	I-Material
+gained	1000,1006	O	O
+from	1007,1011	O	O
+the	1012,1015	O	O
+micromechanics	1016,1030	O	B-Process
+model	1031,1036	O	I-Process
+.	1036,1037	O	O
+
+We	1038,1040	O	O
+then	1041,1045	O	O
+apply	1046,1051	O	O
+the	1052,1055	O	O
+coupled	1056,1063	O	B-Process
+approach	1064,1072	O	I-Process
+to	1073,1075	O	O
+biochemical	1076,1087	O	B-Material
+and	1088,1091	O	I-Material
+mechanical	1092,1102	O	I-Material
+conditions	1103,1113	O	I-Material
+typical	1114,1121	O	O
+for	1122,1125	O	O
+postmenopausal	1126,1140	O	O
+osteoporosis	1141,1153	O	O
+(	1154,1155	O	O
+Section	1155,1162	O	O
+4	1163,1164	O	O
+)	1164,1165	O	O
+and	1166,1169	O	O
+microgravity	1170,1182	O	O
+exposure	1183,1191	O	O
+(	1192,1193	O	O
+Section	1193,1200	O	O
+5	1201,1202	O	O
+)	1202,1203	O	O
+,	1203,1204	O	O
+and	1205,1208	O	O
+discuss	1209,1216	O	O
+key	1217,1220	O	O
+sensitivity	1221,1232	O	O
+features	1233,1241	O	O
+(	1242,1243	O	O
+Section	1243,1250	O	O
+6	1251,1252	O	O
+)	1252,1253	O	O
+.	1253,1254	O	O
+
+After	1255,1260	O	O
+emphasizing	1261,1272	O	O
+the	1273,1276	O	O
+potentials	1277,1287	O	B-Task
+and	1288,1291	O	I-Task
+limitations	1292,1303	O	I-Task
+of	1304,1306	O	I-Task
+the	1307,1310	O	I-Task
+presented	1311,1320	O	I-Task
+approach	1321,1329	O	I-Task
+(	1330,1331	O	O
+Section	1331,1338	O	O
+7	1339,1340	O	O
+)	1340,1341	O	O
+,	1341,1342	O	O
+we	1343,1345	O	O
+conclude	1346,1354	O	O
+the	1355,1358	O	O
+paper	1359,1364	O	O
+in	1365,1367	O	O
+(	1368,1369	O	O
+Section	1369,1376	O	O
+8)	1377,1379	O	O
+.	1379,1380	O	O
 
 
 -DOCSTART- (S0045782512003428)
 
-The	0	3	O
-choice	4	10	O
-of	11	13	O
-the	14	17	O
-interpolation	18	31	B-Process
-functions	32	41	I-Process
-and	42	45	O
-support	46	53	B-Material
-point	54	59	I-Material
-coordinates	60	71	I-Material
-for	72	75	I-Material
-the	76	79	I-Material
-gradient	80	88	I-Material
-field	89	94	I-Material
-is	95	97	O
-crucial	98	105	O
-to	106	108	O
-ensure	109	115	O
-stability	116	125	B-Task
-and	126	129	I-Task
-accuracy	130	138	I-Task
-of	139	141	I-Task
-the	142	145	I-Task
-formulation	146	157	I-Task
-.	157	158	O
-
-For	159	162	O
-example	163	170	O
-,	170	171	O
-nodal	172	177	B-Process
-integration	178	189	I-Process
-and	190	193	I-Process
-NS	194	196	I-Process
--	196	197	I-Process
-FEM	197	200	I-Process
-are	201	204	O
-unstable	205	213	O
-involving	214	223	O
-the	224	227	O
-appearance	228	238	O
-of	239	241	O
-spurious	242	250	O
-low	251	254	O
--	254	255	O
-energy	255	261	O
-modes	262	267	O
-.	267	268	O
-
-They	269	273	O
-need	274	278	O
-non	279	282	B-Material
--	282	283	I-Material
-physical	283	291	I-Material
-penalty	292	299	I-Material
-energy	300	306	I-Material
-functions	307	316	I-Material
-that	317	321	O
-stabilize	322	331	B-Task
-them	332	336	I-Task
-.	336	337	O
-
-The	338	341	O
-articles	342	350	O
-[	351	352	O
-2,28	352	356	O
-]	356	357	O
-numerically	358	369	B-Task
-verify	370	376	I-Task
-the	377	380	I-Task
-stability	381	390	I-Task
-,	390	391	I-Task
-convergence	392	403	I-Task
-and	404	407	I-Task
-accuracy	408	416	I-Task
-of	417	419	I-Task
-several	420	427	I-Task
-W2	428	430	I-Task
-variants	431	439	I-Task
-including	440	449	O
-new	450	453	O
-elements	454	462	O
-which	463	468	O
-can	469	472	O
-be	473	475	O
-constructed	476	487	O
-based	488	493	O
-on	494	496	O
-the	497	500	O
-idea	501	505	O
-of	506	508	O
-assumed	509	516	O
-continuous	517	527	B-Process
-deformation	528	539	I-Process
-gradients	540	549	I-Process
-.	549	550	O
-
-For	551	554	O
-first	555	560	B-Material
-order	561	566	I-Material
-hexahedral	567	577	I-Material
-elements	578	586	I-Material
-,	586	587	O
-[	588	589	O
-2,28	589	593	O
-]	593	594	O
-found	595	600	O
-good	601	605	O
-results	606	613	O
-for	614	617	O
-the	618	621	O
-element	622	629	B-Material
-types	630	635	I-Material
-C3D_8N_27C	636	646	B-Material
-and	647	650	O
-
-C3D_8N_8I.	651	661	B-Material
-
-The	662	665	O
-first	666	671	O
-is	672	674	O
-defined	675	682	O
-by	683	685	O
-27	686	688	O
-support	689	696	O
-points	697	703	O
-and	704	707	O
-a	708	709	O
-second	710	716	B-Process
-order	717	722	I-Process
-tensor	723	729	I-Process
--	729	730	I-Process
-product	730	737	I-Process
-interpolation	738	751	I-Process
-of	752	754	O
-the	755	758	O
-deformation	759	770	O
-gradient	771	779	O
-by	780	782	O
-Lagrange	783	791	O
-polynomials	792	803	O
-.	803	804	O
-
-The	805	808	O
-latter	809	815	O
-element	816	823	O
-type	824	828	O
-is	829	831	O
-defined	832	839	O
-by	840	842	O
-16	843	845	O
-support	846	853	O
-points	854	860	O
-with	861	865	O
-8	866	867	O
-points	868	874	O
-being	875	880	O
-coincident	881	891	O
-with	892	896	O
-the	897	900	O
-nodes	901	906	O
-and	907	910	O
-8	911	912	O
-additional	913	923	O
-points	924	930	O
-in	931	933	O
-the	934	937	O
-element	938	945	O
-interior	946	954	O
-.	954	955	O
-
-Among	956	961	O
-the	962	965	O
-tested	966	972	O
-first	973	978	B-Material
-order	979	984	I-Material
-tetrahedra	985	995	I-Material
-,	995	996	O
-the	997	1000	O
-nodally	1001	1008	B-Process
-integrated	1009	1019	I-Process
-tetrahedron	1020	1031	I-Process
-with	1032	1036	O
-an	1037	1039	O
-additional	1040	1050	O
-bubble	1051	1057	O
-mode	1058	1062	O
-in	1063	1065	O
-the	1066	1069	O
-gradients	1070	1079	O
-was	1080	1083	O
-found	1084	1089	O
-to	1090	1092	O
-be	1093	1095	O
-most	1096	1100	O
-accurate	1101	1109	O
-.	1109	1110	O
-
-It	1111	1113	O
-turned	1114	1120	O
-out	1121	1124	O
-to	1125	1127	O
-be	1128	1130	O
-even	1131	1135	O
-the	1136	1139	O
-most	1140	1144	O
-efficient	1145	1154	O
-with	1155	1159	O
-respect	1160	1167	O
-to	1168	1170	O
-computing	1171	1180	B-Task
-time	1181	1185	I-Task
-in	1186	1188	I-Task
-explicit	1189	1197	I-Task
-analysis	1198	1206	I-Task
-[	1207	1208	O
-28	1208	1210	O
-]	1210	1211	O
-because	1212	1219	O
-the	1220	1223	O
-enlarged	1224	1232	O
-critical	1233	1241	O
-time	1242	1246	O
-step	1247	1251	O
-compensates	1252	1263	O
-the	1264	1267	O
-slightly	1268	1276	O
-increased	1277	1286	O
-numerical	1287	1296	O
-cost	1297	1301	O
-per	1302	1305	O
-restoring	1306	1315	O
-force	1316	1321	O
-assembly	1322	1330	O
-.	1330	1331	O
-
-Fig	1332	1335	O
-.	1335	1336	O
-
-1	1337	1338	O
-illustrates	1339	1350	O
-the	1351	1354	O
-positions	1355	1364	O
-of	1365	1367	O
-support	1368	1375	O
-points	1376	1382	O
-for	1383	1386	O
-various	1387	1394	O
-CAG	1395	1398	B-Process
-and	1399	1402	I-Process
-SFEM	1403	1407	I-Process
-formulations	1408	1420	I-Process
-.	1420	1421	O
+The	0,3	O	O
+choice	4,10	O	O
+of	11,13	O	O
+the	14,17	O	O
+interpolation	18,31	O	B-Process
+functions	32,41	O	I-Process
+and	42,45	O	O
+support	46,53	O	B-Material
+point	54,59	O	I-Material
+coordinates	60,71	O	I-Material
+for	72,75	O	I-Material
+the	76,79	O	I-Material
+gradient	80,88	O	I-Material
+field	89,94	O	I-Material
+is	95,97	O	O
+crucial	98,105	O	O
+to	106,108	O	O
+ensure	109,115	O	O
+stability	116,125	O	B-Task
+and	126,129	O	I-Task
+accuracy	130,138	O	I-Task
+of	139,141	O	I-Task
+the	142,145	O	I-Task
+formulation	146,157	O	I-Task
+.	157,158	O	O
+
+For	159,162	O	O
+example	163,170	O	O
+,	170,171	O	O
+nodal	172,177	O	B-Process
+integration	178,189	O	I-Process
+and	190,193	O	I-Process
+NS	194,196	O	I-Process
+-	196,197	O	I-Process
+FEM	197,200	O	I-Process
+are	201,204	O	O
+unstable	205,213	O	O
+involving	214,223	O	O
+the	224,227	O	O
+appearance	228,238	O	O
+of	239,241	O	O
+spurious	242,250	O	O
+low	251,254	O	O
+-	254,255	O	O
+energy	255,261	O	O
+modes	262,267	O	O
+.	267,268	O	O
+
+They	269,273	O	O
+need	274,278	O	O
+non	279,282	O	B-Material
+-	282,283	O	I-Material
+physical	283,291	O	I-Material
+penalty	292,299	O	I-Material
+energy	300,306	O	I-Material
+functions	307,316	O	I-Material
+that	317,321	O	O
+stabilize	322,331	O	B-Task
+them	332,336	O	I-Task
+.	336,337	O	O
+
+The	338,341	O	O
+articles	342,350	O	O
+[	351,352	O	O
+2,28	352,356	O	O
+]	356,357	O	O
+numerically	358,369	O	B-Task
+verify	370,376	O	I-Task
+the	377,380	O	I-Task
+stability	381,390	O	I-Task
+,	390,391	O	I-Task
+convergence	392,403	O	I-Task
+and	404,407	O	I-Task
+accuracy	408,416	O	I-Task
+of	417,419	O	I-Task
+several	420,427	O	I-Task
+W2	428,430	O	I-Task
+variants	431,439	O	I-Task
+including	440,449	O	O
+new	450,453	O	O
+elements	454,462	O	O
+which	463,468	O	O
+can	469,472	O	O
+be	473,475	O	O
+constructed	476,487	O	O
+based	488,493	O	O
+on	494,496	O	O
+the	497,500	O	O
+idea	501,505	O	O
+of	506,508	O	O
+assumed	509,516	O	O
+continuous	517,527	O	B-Process
+deformation	528,539	O	I-Process
+gradients	540,549	O	I-Process
+.	549,550	O	O
+
+For	551,554	O	O
+first	555,560	O	B-Material
+order	561,566	O	I-Material
+hexahedral	567,577	O	I-Material
+elements	578,586	O	I-Material
+,	586,587	O	O
+[	588,589	O	O
+2,28	589,593	O	O
+]	593,594	O	O
+found	595,600	O	O
+good	601,605	O	O
+results	606,613	O	O
+for	614,617	O	O
+the	618,621	O	O
+element	622,629	O	B-Material
+types	630,635	O	I-Material
+C3D_8N_27C	636,646	O	B-Material
+and	647,650	O	O
+
+C3D_8N_8I.	651,661	O	B-Material
+
+The	662,665	O	O
+first	666,671	O	O
+is	672,674	O	O
+defined	675,682	O	O
+by	683,685	O	O
+27	686,688	O	O
+support	689,696	O	O
+points	697,703	O	O
+and	704,707	O	O
+a	708,709	O	O
+second	710,716	O	B-Process
+order	717,722	O	I-Process
+tensor	723,729	O	I-Process
+-	729,730	O	I-Process
+product	730,737	O	I-Process
+interpolation	738,751	O	I-Process
+of	752,754	O	O
+the	755,758	O	O
+deformation	759,770	O	O
+gradient	771,779	O	O
+by	780,782	O	O
+Lagrange	783,791	O	O
+polynomials	792,803	O	O
+.	803,804	O	O
+
+The	805,808	O	O
+latter	809,815	O	O
+element	816,823	O	O
+type	824,828	O	O
+is	829,831	O	O
+defined	832,839	O	O
+by	840,842	O	O
+16	843,845	O	O
+support	846,853	O	O
+points	854,860	O	O
+with	861,865	O	O
+8	866,867	O	O
+points	868,874	O	O
+being	875,880	O	O
+coincident	881,891	O	O
+with	892,896	O	O
+the	897,900	O	O
+nodes	901,906	O	O
+and	907,910	O	O
+8	911,912	O	O
+additional	913,923	O	O
+points	924,930	O	O
+in	931,933	O	O
+the	934,937	O	O
+element	938,945	O	O
+interior	946,954	O	O
+.	954,955	O	O
+
+Among	956,961	O	O
+the	962,965	O	O
+tested	966,972	O	O
+first	973,978	O	B-Material
+order	979,984	O	I-Material
+tetrahedra	985,995	O	I-Material
+,	995,996	O	O
+the	997,1000	O	O
+nodally	1001,1008	O	B-Process
+integrated	1009,1019	O	I-Process
+tetrahedron	1020,1031	O	I-Process
+with	1032,1036	O	O
+an	1037,1039	O	O
+additional	1040,1050	O	O
+bubble	1051,1057	O	O
+mode	1058,1062	O	O
+in	1063,1065	O	O
+the	1066,1069	O	O
+gradients	1070,1079	O	O
+was	1080,1083	O	O
+found	1084,1089	O	O
+to	1090,1092	O	O
+be	1093,1095	O	O
+most	1096,1100	O	O
+accurate	1101,1109	O	O
+.	1109,1110	O	O
+
+It	1111,1113	O	O
+turned	1114,1120	O	O
+out	1121,1124	O	O
+to	1125,1127	O	O
+be	1128,1130	O	O
+even	1131,1135	O	O
+the	1136,1139	O	O
+most	1140,1144	O	O
+efficient	1145,1154	O	O
+with	1155,1159	O	O
+respect	1160,1167	O	O
+to	1168,1170	O	O
+computing	1171,1180	O	B-Task
+time	1181,1185	O	I-Task
+in	1186,1188	O	I-Task
+explicit	1189,1197	O	I-Task
+analysis	1198,1206	O	I-Task
+[	1207,1208	O	O
+28	1208,1210	O	O
+]	1210,1211	O	O
+because	1212,1219	O	O
+the	1220,1223	O	O
+enlarged	1224,1232	O	O
+critical	1233,1241	O	O
+time	1242,1246	O	O
+step	1247,1251	O	O
+compensates	1252,1263	O	O
+the	1264,1267	O	O
+slightly	1268,1276	O	O
+increased	1277,1286	O	O
+numerical	1287,1296	O	O
+cost	1297,1301	O	O
+per	1302,1305	O	O
+restoring	1306,1315	O	O
+force	1316,1321	O	O
+assembly	1322,1330	O	O
+.	1330,1331	O	O
+
+Fig	1332,1335	O	O
+.	1335,1336	O	O
+
+1	1337,1338	O	O
+illustrates	1339,1350	O	O
+the	1351,1354	O	O
+positions	1355,1364	O	O
+of	1365,1367	O	O
+support	1368,1375	O	O
+points	1376,1382	O	O
+for	1383,1386	O	O
+various	1387,1394	O	O
+CAG	1395,1398	O	B-Process
+and	1399,1402	O	I-Process
+SFEM	1403,1407	O	I-Process
+formulations	1408,1420	O	I-Process
+.	1420,1421	O	O
 
 
 -DOCSTART- (S0045782513000479)
 
-Algorithms	0	10	B-Material
-regarding	11	20	I-Material
-distance	21	29	I-Material
-fields	30	36	I-Material
-go	37	39	O
-back	40	44	O
-to	45	47	O
-the	48	51	O
-level	52	57	B-Process
-set	58	61	I-Process
-equation	62	70	I-Process
-.	70	71	O
-
-The	72	75	O
-level	76	81	B-Process
-set	82	85	I-Process
-method	86	92	I-Process
-was	93	96	O
-presented	97	106	O
-by	107	109	O
-Osher	110	115	O
-and	116	119	O
-Sethian	120	127	O
-[	128	129	O
-20	129	131	O
-]	131	132	O
-who	133	136	O
-described	137	146	O
-the	147	150	O
-temporal	151	159	B-Process
-propagation	160	171	I-Process
-of	172	174	O
-moving	175	181	O
-interfaces	182	192	O
-by	193	195	O
-numerical	196	205	B-Process
-methods	206	213	I-Process
-solving	214	221	O
-the	222	225	O
-Hamilton	226	234	B-Process
-–	234	235	I-Process
-Jacobi	235	241	I-Process
-equation	242	250	I-Process
-.	250	251	O
-
-This	252	256	O
-is	257	259	O
-performed	260	269	O
-by	270	272	O
-a	273	274	O
-finite	275	281	B-Process
-difference	282	292	I-Process
-scheme	293	299	I-Process
-working	300	307	O
-on	308	310	O
-a	311	312	O
-rectangular	313	324	B-Material
-grid	325	329	I-Material
-in	330	332	I-Material
-two	333	336	I-Material
-or	337	339	I-Material
-three	340	345	I-Material
-dimensions	346	356	I-Material
-.	356	357	O
-
-Information	358	369	O
-on	370	372	O
-normal	373	379	O
-vectors	380	387	O
-and	388	391	O
-curvature	392	401	O
-can	402	405	O
-be	406	408	O
-obtained	409	417	O
-.	417	418	O
-
-The	419	422	O
-fast	423	427	B-Process
-marching	428	436	I-Process
-method	437	443	I-Process
-[	444	445	O
-21	445	447	O
-]	447	448	O
-provides	449	457	O
-an	458	460	O
-efficient	461	470	O
-numerical	471	480	B-Task
-scheme	481	487	I-Task
-of	488	490	I-Task
-complexity	491	501	I-Task
-nlogn	502	507	I-Task
-to	508	510	I-Task
-compute	511	518	I-Task
-the	519	522	I-Task
-support	523	530	I-Task
-values	531	537	I-Task
-on	538	540	I-Task
-the	541	544	I-Task
-grid	545	549	I-Task
-.	549	550	O
-
-It	551	553	O
-is	554	556	O
-a	557	558	O
-reinterpretation	559	575	O
-of	576	578	O
-the	579	582	O
-propagation	583	594	B-Process
-process	595	602	I-Process
-,	602	603	O
-i.e.	604	608	O
-the	609	612	B-Process
-time	613	617	I-Process
-where	618	623	I-Process
-the	624	627	I-Process
-interface	628	637	I-Process
-passes	638	644	I-Process
-a	645	646	I-Process
-certain	647	654	I-Process
-grid	655	659	I-Process
-point	660	665	I-Process
-is	666	668	I-Process
-influenced	669	679	I-Process
-only	680	684	I-Process
-by	685	687	I-Process
-those	688	693	I-Process
-neighboring	694	705	I-Process
-grid	706	710	I-Process
-points	711	717	I-Process
-which	718	723	I-Process
-are	724	727	I-Process
-previously	728	738	I-Process
-passed	739	745	I-Process
-by	746	748	I-Process
-the	749	752	I-Process
-interface	753	762	I-Process
-.	762	763	O
-
-An	764	766	O
-overview	767	775	O
-on	776	778	O
-the	779	782	O
-theory	783	789	B-Process
-of	790	792	I-Process
-level	793	798	I-Process
-set	799	802	I-Process
-and	803	806	O
-fast	807	811	B-Process
-marching	812	820	I-Process
-methods	821	828	O
-and	829	832	O
-their	833	838	O
-applications	839	851	O
-to	852	854	O
-problems	855	863	O
-of	864	866	O
-various	867	874	O
-areas	875	880	B-Task
-are	881	884	O
-given	885	890	O
-in	891	893	O
-[	894	895	O
-22,23	895	900	O
-]	900	901	O
-,	901	902	O
-for	903	906	O
-example	907	914	O
-shape	915	920	B-Task
-offsetting	921	931	I-Task
-,	931	932	O
-computing	933	942	B-Task
-distances	943	952	I-Task
-,	952	953	O
-photolithography	954	970	B-Task
-development	971	982	I-Task
-,	982	983	O
-seismic	984	991	B-Task
-travel	992	998	I-Task
-times	999	1004	I-Task
-,	1004	1005	O
-etc	1006	1009	O
-.	1009	1010	O
-
-Distance	1011	1019	B-Task
-fields	1020	1026	I-Task
-are	1027	1030	O
-a	1031	1032	O
-special	1033	1040	O
-case	1041	1045	O
-of	1046	1048	O
-the	1049	1052	O
-level	1053	1058	B-Process
-set	1059	1062	I-Process
-equation	1063	1071	O
-where	1072	1077	O
-the	1078	1081	O
-absolute	1082	1090	O
-value	1091	1096	O
-of	1097	1099	O
-the	1100	1103	O
-advection	1104	1113	O
-velocity	1114	1122	O
-is	1123	1125	O
-1	1126	1127	O
-.	1127	1128	O
+Algorithms	0,10	O	B-Material
+regarding	11,20	O	I-Material
+distance	21,29	O	I-Material
+fields	30,36	O	I-Material
+go	37,39	O	O
+back	40,44	O	O
+to	45,47	O	O
+the	48,51	O	O
+level	52,57	O	B-Process
+set	58,61	O	I-Process
+equation	62,70	O	I-Process
+.	70,71	O	O
+
+The	72,75	O	O
+level	76,81	O	B-Process
+set	82,85	O	I-Process
+method	86,92	O	I-Process
+was	93,96	O	O
+presented	97,106	O	O
+by	107,109	O	O
+Osher	110,115	O	O
+and	116,119	O	O
+Sethian	120,127	O	O
+[	128,129	O	O
+20	129,131	O	O
+]	131,132	O	O
+who	133,136	O	O
+described	137,146	O	O
+the	147,150	O	O
+temporal	151,159	O	B-Process
+propagation	160,171	O	I-Process
+of	172,174	O	O
+moving	175,181	O	O
+interfaces	182,192	O	O
+by	193,195	O	O
+numerical	196,205	O	B-Process
+methods	206,213	O	I-Process
+solving	214,221	O	O
+the	222,225	O	O
+Hamilton	226,234	O	B-Process
+–	234,235	O	I-Process
+Jacobi	235,241	O	I-Process
+equation	242,250	O	I-Process
+.	250,251	O	O
+
+This	252,256	O	O
+is	257,259	O	O
+performed	260,269	O	O
+by	270,272	O	O
+a	273,274	O	O
+finite	275,281	O	B-Process
+difference	282,292	O	I-Process
+scheme	293,299	O	I-Process
+working	300,307	O	O
+on	308,310	O	O
+a	311,312	O	O
+rectangular	313,324	O	B-Material
+grid	325,329	O	I-Material
+in	330,332	O	I-Material
+two	333,336	O	I-Material
+or	337,339	O	I-Material
+three	340,345	O	I-Material
+dimensions	346,356	O	I-Material
+.	356,357	O	O
+
+Information	358,369	O	O
+on	370,372	O	O
+normal	373,379	O	O
+vectors	380,387	O	O
+and	388,391	O	O
+curvature	392,401	O	O
+can	402,405	O	O
+be	406,408	O	O
+obtained	409,417	O	O
+.	417,418	O	O
+
+The	419,422	O	O
+fast	423,427	O	B-Process
+marching	428,436	O	I-Process
+method	437,443	O	I-Process
+[	444,445	O	O
+21	445,447	O	O
+]	447,448	O	O
+provides	449,457	O	O
+an	458,460	O	O
+efficient	461,470	O	O
+numerical	471,480	O	B-Task
+scheme	481,487	O	I-Task
+of	488,490	O	I-Task
+complexity	491,501	O	I-Task
+nlogn	502,507	O	I-Task
+to	508,510	O	I-Task
+compute	511,518	O	I-Task
+the	519,522	O	I-Task
+support	523,530	O	I-Task
+values	531,537	O	I-Task
+on	538,540	O	I-Task
+the	541,544	O	I-Task
+grid	545,549	O	I-Task
+.	549,550	O	O
+
+It	551,553	O	O
+is	554,556	O	O
+a	557,558	O	O
+reinterpretation	559,575	O	O
+of	576,578	O	O
+the	579,582	O	O
+propagation	583,594	O	B-Process
+process	595,602	O	I-Process
+,	602,603	O	O
+i.e.	604,608	O	O
+the	609,612	O	B-Process
+time	613,617	O	I-Process
+where	618,623	O	I-Process
+the	624,627	O	I-Process
+interface	628,637	O	I-Process
+passes	638,644	O	I-Process
+a	645,646	O	I-Process
+certain	647,654	O	I-Process
+grid	655,659	O	I-Process
+point	660,665	O	I-Process
+is	666,668	O	I-Process
+influenced	669,679	O	I-Process
+only	680,684	O	I-Process
+by	685,687	O	I-Process
+those	688,693	O	I-Process
+neighboring	694,705	O	I-Process
+grid	706,710	O	I-Process
+points	711,717	O	I-Process
+which	718,723	O	I-Process
+are	724,727	O	I-Process
+previously	728,738	O	I-Process
+passed	739,745	O	I-Process
+by	746,748	O	I-Process
+the	749,752	O	I-Process
+interface	753,762	O	I-Process
+.	762,763	O	O
+
+An	764,766	O	O
+overview	767,775	O	O
+on	776,778	O	O
+the	779,782	O	O
+theory	783,789	O	B-Process
+of	790,792	O	I-Process
+level	793,798	O	I-Process
+set	799,802	O	I-Process
+and	803,806	O	O
+fast	807,811	O	B-Process
+marching	812,820	O	I-Process
+methods	821,828	O	O
+and	829,832	O	O
+their	833,838	O	O
+applications	839,851	O	O
+to	852,854	O	O
+problems	855,863	O	O
+of	864,866	O	O
+various	867,874	O	O
+areas	875,880	O	B-Task
+are	881,884	O	O
+given	885,890	O	O
+in	891,893	O	O
+[	894,895	O	O
+22,23	895,900	O	O
+]	900,901	O	O
+,	901,902	O	O
+for	903,906	O	O
+example	907,914	O	O
+shape	915,920	O	B-Task
+offsetting	921,931	O	I-Task
+,	931,932	O	O
+computing	933,942	O	B-Task
+distances	943,952	O	I-Task
+,	952,953	O	O
+photolithography	954,970	O	B-Task
+development	971,982	O	I-Task
+,	982,983	O	O
+seismic	984,991	O	B-Task
+travel	992,998	O	I-Task
+times	999,1004	O	I-Task
+,	1004,1005	O	O
+etc	1006,1009	O	O
+.	1009,1010	O	O
+
+Distance	1011,1019	O	B-Task
+fields	1020,1026	O	I-Task
+are	1027,1030	O	O
+a	1031,1032	O	O
+special	1033,1040	O	O
+case	1041,1045	O	O
+of	1046,1048	O	O
+the	1049,1052	O	O
+level	1053,1058	O	B-Process
+set	1059,1062	O	I-Process
+equation	1063,1071	O	O
+where	1072,1077	O	O
+the	1078,1081	O	O
+absolute	1082,1090	O	O
+value	1091,1096	O	O
+of	1097,1099	O	O
+the	1100,1103	O	O
+advection	1104,1113	O	O
+velocity	1114,1122	O	O
+is	1123,1125	O	O
+1	1126,1127	O	O
+.	1127,1128	O	O
 
 
 -DOCSTART- (S0045782513000546)
 
-In	0	2	O
-this	3	7	O
-article	8	15	O
-we	16	18	O
-consider	19	27	O
-an	28	30	O
-extension	31	40	B-Task
-to	41	43	I-Task
-the	44	47	I-Task
-equations	48	57	I-Task
-of	58	60	I-Task
-poroelasticity	61	75	I-Task
-by	76	78	O
-modelling	79	88	B-Task
-the	89	92	I-Task
-flow	93	97	I-Task
-of	98	100	I-Task
-a	101	102	I-Task
-slightly	103	111	I-Task
-compressible	112	124	I-Task
-single	125	131	I-Task
-phase	132	137	I-Task
-fluid	138	143	I-Task
-in	144	146	I-Task
-a	147	148	I-Task
-viscoelastic	149	161	I-Task
-porous	162	168	I-Task
-medium	169	175	I-Task
-.	175	176	O
-
-The	177	180	O
-constitutive	181	193	B-Process
-equations	194	203	I-Process
-therefore	204	213	O
-allow	214	219	O
-for	220	223	O
-the	224	227	O
-presence	228	236	O
-of	237	239	O
-viscoelastic	240	252	B-Process
-relaxation	253	263	I-Process
-effects	264	271	I-Process
-in	272	274	O
-the	275	278	O
-porous	279	285	B-Material
-media	286	291	I-Material
-(	292	293	O
-but	293	296	O
-not	297	300	O
-the	301	304	O
-fluid	305	310	B-Material
-)	310	311	O
-.	311	312	O
-
-Fully	313	318	B-Process
-discrete	319	327	I-Process
-numerical	328	337	I-Process
-schemes	338	345	I-Process
-are	346	349	O
-derived	350	357	O
-based	358	363	O
-on	364	366	O
-a	367	368	O
-lagged	369	375	B-Process
-and	376	379	I-Process
-non	380	383	I-Process
--	383	384	I-Process
-lagged	384	390	I-Process
-backward	391	399	I-Process
-Euler	400	405	I-Process
-time	406	410	I-Process
-stepping	411	419	I-Process
-method	420	426	I-Process
-applied	427	434	O
-to	435	437	O
-a	438	439	O
-mixed	440	445	B-Material
-and	446	449	I-Material
-Galerkin	450	458	I-Material
-finite	459	465	I-Material
-element	466	473	I-Material
-spatial	474	481	I-Material
-discretization	482	496	I-Material
-.	496	497	O
-
-We	498	500	O
-show	501	505	O
-that	506	510	O
-the	511	514	O
-lagged	515	521	O
-scheme	522	528	O
-is	529	531	O
-unconditionally	532	547	O
-stable	548	554	O
-and	555	558	O
-give	559	563	O
-an	564	566	O
-optimal	567	574	O
-a	575	576	O
-priori	577	583	O
-error	584	589	O
-bound	590	595	O
-for	596	599	O
-it	600	602	O
-.	602	603	O
-
-Furthermore	604	615	O
-,	615	616	O
-this	617	621	O
-scheme	622	628	O
-is	629	631	O
-practical	632	641	O
-and	642	645	O
-useful	646	652	O
-in	653	655	O
-the	656	659	O
-sense	660	665	O
-that	666	670	O
-it	671	673	O
-can	674	677	O
-be	678	680	O
-easily	681	687	O
-implemented	688	699	O
-in	700	702	O
-existing	703	711	O
-poroelasticity	712	726	O
-software	727	735	O
-because	736	743	O
-the	744	747	O
-coupling	748	756	B-Process
-between	757	764	O
-the	765	768	O
-viscous	769	776	O
-stresses	777	785	O
-and	786	789	O
-pressures	790	799	O
-and	800	803	O
-the	804	807	O
-elasticity	808	818	O
-and	819	822	O
-flow	823	827	B-Process
-equations	828	837	I-Process
-is	838	840	O
-‘	841	842	O
-lagged’	842	849	O
-by	850	852	O
-one	853	856	O
-time	857	861	O
-step	862	866	O
-.	866	867	O
-
-The	868	871	O
-required	872	880	O
-additional	881	891	O
-coding	892	898	O
-therefore	899	908	O
-takes	909	914	O
-the	915	918	O
-form	919	923	O
-of	924	926	O
-extra	927	932	O
-‘	933	934	O
-right	934	939	O
-hand	940	944	O
-side	945	949	O
-loads’	950	956	O
-together	957	965	O
-with	966	970	O
-some	971	975	O
-updating	976	984	B-Process
-subroutines	985	996	I-Process
-for	997	1000	O
-the	1001	1004	O
-viscoelastic	1005	1017	O
-internal	1018	1026	O
-variables	1027	1036	O
-,	1036	1037	O
-but	1038	1041	O
-the	1042	1045	O
-solver	1046	1052	O
-and	1053	1056	O
-assembly	1057	1065	B-Material
-engines	1066	1073	I-Material
-remain	1074	1080	O
-intact	1081	1087	O
-.	1087	1088	O
-
-This	1089	1093	O
-idea	1094	1098	O
-of	1099	1101	O
-lagging	1102	1109	O
-has	1110	1113	O
-been	1114	1118	O
-used	1119	1123	O
-before	1124	1130	O
-for	1131	1134	O
-nonlinearly	1135	1146	B-Task
-viscoelastic	1147	1159	I-Task
-diffusion	1160	1169	I-Task
-problems	1170	1178	I-Task
-in	1179	1181	O
-[	1182	1183	O
-3,24	1183	1187	O
-]	1187	1188	O
-but	1189	1192	O
-,	1192	1193	O
-of	1194	1196	O
-course	1197	1203	O
-,	1203	1204	O
-is	1205	1207	O
-not	1208	1211	O
-new	1212	1215	O
-.	1215	1216	O
-
-Lagging	1217	1224	O
-in	1225	1227	O
-numerical	1228	1237	B-Process
-schemes	1238	1245	I-Process
-is	1246	1248	O
-discussed	1249	1258	O
-more	1259	1263	O
-widely	1264	1270	O
-by	1271	1273	O
-Lowrie	1274	1280	O
-in	1281	1283	O
-[	1284	1285	O
-14	1285	1287	O
-]	1287	1288	O
-.	1288	1289	O
+In	0,2	O	O
+this	3,7	O	O
+article	8,15	O	O
+we	16,18	O	O
+consider	19,27	O	O
+an	28,30	O	O
+extension	31,40	O	B-Task
+to	41,43	O	I-Task
+the	44,47	O	I-Task
+equations	48,57	O	I-Task
+of	58,60	O	I-Task
+poroelasticity	61,75	O	I-Task
+by	76,78	O	O
+modelling	79,88	O	B-Task
+the	89,92	O	I-Task
+flow	93,97	O	I-Task
+of	98,100	O	I-Task
+a	101,102	O	I-Task
+slightly	103,111	O	I-Task
+compressible	112,124	O	I-Task
+single	125,131	O	I-Task
+phase	132,137	O	I-Task
+fluid	138,143	O	I-Task
+in	144,146	O	I-Task
+a	147,148	O	I-Task
+viscoelastic	149,161	O	I-Task
+porous	162,168	O	I-Task
+medium	169,175	O	I-Task
+.	175,176	O	O
+
+The	177,180	O	O
+constitutive	181,193	O	B-Process
+equations	194,203	O	I-Process
+therefore	204,213	O	O
+allow	214,219	O	O
+for	220,223	O	O
+the	224,227	O	O
+presence	228,236	O	O
+of	237,239	O	O
+viscoelastic	240,252	O	B-Process
+relaxation	253,263	O	I-Process
+effects	264,271	O	I-Process
+in	272,274	O	O
+the	275,278	O	O
+porous	279,285	O	B-Material
+media	286,291	O	I-Material
+(	292,293	O	O
+but	293,296	O	O
+not	297,300	O	O
+the	301,304	O	O
+fluid	305,310	O	B-Material
+)	310,311	O	O
+.	311,312	O	O
+
+Fully	313,318	O	B-Process
+discrete	319,327	O	I-Process
+numerical	328,337	O	I-Process
+schemes	338,345	O	I-Process
+are	346,349	O	O
+derived	350,357	O	O
+based	358,363	O	O
+on	364,366	O	O
+a	367,368	O	O
+lagged	369,375	O	B-Process
+and	376,379	O	I-Process
+non	380,383	O	I-Process
+-	383,384	O	I-Process
+lagged	384,390	O	I-Process
+backward	391,399	O	I-Process
+Euler	400,405	O	I-Process
+time	406,410	O	I-Process
+stepping	411,419	O	I-Process
+method	420,426	O	I-Process
+applied	427,434	O	O
+to	435,437	O	O
+a	438,439	O	O
+mixed	440,445	O	B-Material
+and	446,449	O	I-Material
+Galerkin	450,458	O	I-Material
+finite	459,465	O	I-Material
+element	466,473	O	I-Material
+spatial	474,481	O	I-Material
+discretization	482,496	O	I-Material
+.	496,497	O	O
+
+We	498,500	O	O
+show	501,505	O	O
+that	506,510	O	O
+the	511,514	O	O
+lagged	515,521	O	O
+scheme	522,528	O	O
+is	529,531	O	O
+unconditionally	532,547	O	O
+stable	548,554	O	O
+and	555,558	O	O
+give	559,563	O	O
+an	564,566	O	O
+optimal	567,574	O	O
+a	575,576	O	O
+priori	577,583	O	O
+error	584,589	O	O
+bound	590,595	O	O
+for	596,599	O	O
+it	600,602	O	O
+.	602,603	O	O
+
+Furthermore	604,615	O	O
+,	615,616	O	O
+this	617,621	O	O
+scheme	622,628	O	O
+is	629,631	O	O
+practical	632,641	O	O
+and	642,645	O	O
+useful	646,652	O	O
+in	653,655	O	O
+the	656,659	O	O
+sense	660,665	O	O
+that	666,670	O	O
+it	671,673	O	O
+can	674,677	O	O
+be	678,680	O	O
+easily	681,687	O	O
+implemented	688,699	O	O
+in	700,702	O	O
+existing	703,711	O	O
+poroelasticity	712,726	O	O
+software	727,735	O	O
+because	736,743	O	O
+the	744,747	O	O
+coupling	748,756	O	B-Process
+between	757,764	O	O
+the	765,768	O	O
+viscous	769,776	O	O
+stresses	777,785	O	O
+and	786,789	O	O
+pressures	790,799	O	O
+and	800,803	O	O
+the	804,807	O	O
+elasticity	808,818	O	O
+and	819,822	O	O
+flow	823,827	O	B-Process
+equations	828,837	O	I-Process
+is	838,840	O	O
+‘	841,842	O	O
+lagged’	842,849	O	O
+by	850,852	O	O
+one	853,856	O	O
+time	857,861	O	O
+step	862,866	O	O
+.	866,867	O	O
+
+The	868,871	O	O
+required	872,880	O	O
+additional	881,891	O	O
+coding	892,898	O	O
+therefore	899,908	O	O
+takes	909,914	O	O
+the	915,918	O	O
+form	919,923	O	O
+of	924,926	O	O
+extra	927,932	O	O
+‘	933,934	O	O
+right	934,939	O	O
+hand	940,944	O	O
+side	945,949	O	O
+loads’	950,956	O	O
+together	957,965	O	O
+with	966,970	O	O
+some	971,975	O	O
+updating	976,984	O	B-Process
+subroutines	985,996	O	I-Process
+for	997,1000	O	O
+the	1001,1004	O	O
+viscoelastic	1005,1017	O	O
+internal	1018,1026	O	O
+variables	1027,1036	O	O
+,	1036,1037	O	O
+but	1038,1041	O	O
+the	1042,1045	O	O
+solver	1046,1052	O	O
+and	1053,1056	O	O
+assembly	1057,1065	O	B-Material
+engines	1066,1073	O	I-Material
+remain	1074,1080	O	O
+intact	1081,1087	O	O
+.	1087,1088	O	O
+
+This	1089,1093	O	O
+idea	1094,1098	O	O
+of	1099,1101	O	O
+lagging	1102,1109	O	O
+has	1110,1113	O	O
+been	1114,1118	O	O
+used	1119,1123	O	O
+before	1124,1130	O	O
+for	1131,1134	O	O
+nonlinearly	1135,1146	O	B-Task
+viscoelastic	1147,1159	O	I-Task
+diffusion	1160,1169	O	I-Task
+problems	1170,1178	O	I-Task
+in	1179,1181	O	O
+[	1182,1183	O	O
+3,24	1183,1187	O	O
+]	1187,1188	O	O
+but	1189,1192	O	O
+,	1192,1193	O	O
+of	1194,1196	O	O
+course	1197,1203	O	O
+,	1203,1204	O	O
+is	1205,1207	O	O
+not	1208,1211	O	O
+new	1212,1215	O	O
+.	1215,1216	O	O
+
+Lagging	1217,1224	O	O
+in	1225,1227	O	O
+numerical	1228,1237	O	B-Process
+schemes	1238,1245	O	I-Process
+is	1246,1248	O	O
+discussed	1249,1258	O	O
+more	1259,1263	O	O
+widely	1264,1270	O	O
+by	1271,1273	O	O
+Lowrie	1274,1280	O	O
+in	1281,1283	O	O
+[	1284,1285	O	O
+14	1285,1287	O	O
+]	1287,1288	O	O
+.	1288,1289	O	O
 
 
 -DOCSTART- (S0045782513001448)
 
-Traditionally	0	13	O
-,	13	14	O
-the	15	18	O
-simulation	19	29	B-Task
-of	30	32	I-Task
-incompressible	33	47	I-Task
-fluid	48	53	I-Task
-flow	54	58	I-Task
-by	59	61	O
-the	62	65	O
-SPH	66	69	B-Process
-method	70	76	I-Process
-has	77	80	O
-been	81	85	O
-through	86	93	O
-a	94	95	O
-weakly	96	102	B-Process
-compressible	103	115	I-Process
-SPH	116	119	I-Process
-formulation	120	131	I-Process
-(	132	133	O
-WCSPH	133	138	B-Process
-)	138	139	O
-.	139	140	O
-
-In	141	143	O
-this	144	148	O
-approach	149	157	O
-,	157	158	O
-the	159	162	O
-pressure	163	171	O
-is	172	174	O
-treated	175	182	O
-as	183	185	O
-a	186	187	O
-thermodynamic	188	201	O
-variable	202	210	O
-and	211	214	O
-is	215	217	O
-calculated	218	228	O
-using	229	234	O
-an	235	237	O
-artificial	238	248	B-Process
-equation	249	257	I-Process
-of	258	260	I-Process
-state	261	266	I-Process
-.	266	267	O
-
-The	268	271	O
-sound	272	277	O
-speed	278	283	O
-is	284	286	O
-set	287	290	O
-to	291	293	O
-be	294	296	O
-sufficiently	297	309	O
-high	310	314	O
-to	315	317	O
-limit	318	323	O
-density	324	331	O
-variations	332	342	O
-to	343	345	O
-within	346	352	O
-a	353	354	O
-small	355	360	O
-fraction	361	369	O
-of	370	372	O
-the	373	376	O
-actual	377	383	O
-fluid	384	389	B-Material
-density	390	397	O
-.	397	398	O
-
-In	399	401	O
-practice	402	410	O
-,	410	411	O
-this	412	416	O
-high	417	421	O
-sound	422	427	O
-speed	428	433	O
-places	434	440	O
-a	441	442	O
-limitation	443	453	O
-on	454	456	O
-the	457	460	O
-maximum	461	468	O
-permissible	469	480	O
-time	481	485	O
--	485	486	O
-step	486	490	O
-size	491	495	O
-through	496	503	O
-the	504	507	O
-Courant	508	515	O
-–	515	516	O
-Friedrichs	516	526	O
-–	526	527	O
-
-Lewy	527	531	O
-(	532	533	O
-CFL	533	536	O
-)	536	537	O
-constraint	538	548	O
-.	548	549	O
-
-A	550	551	O
-particular	552	562	O
-weakness	563	571	O
-relates	572	579	O
-to	580	582	O
-noise	583	588	O
-in	589	591	O
-the	592	595	O
-pressure	596	604	O
-field	605	610	O
-since	611	616	O
-a	617	618	O
-small	619	624	O
-perturbation	625	637	O
-in	638	640	O
-the	641	644	O
-local	645	650	O
-density	651	658	O
-will	659	663	O
-yield	664	669	O
-a	670	671	O
-large	672	677	O
-variation	678	687	O
-in	688	690	O
-the	691	694	O
-local	695	700	O
-pressure	701	709	O
-.	709	710	O
-
-This	711	715	O
-can	716	719	O
-make	720	724	O
-WCSPH	725	730	B-Process
-formulations	731	743	O
-ineffective	744	755	O
-for	756	759	O
-accurate	760	768	O
-force	769	774	O
-and	775	778	O
-pressure	779	787	O
-prediction	788	798	O
-,	798	799	O
-although	800	808	O
-recent	809	815	O
-developments	816	828	O
-which	829	834	O
-create	835	841	B-Task
-more	842	846	I-Task
-uniform	847	854	I-Task
-particle	855	863	I-Task
-distributions	864	877	I-Task
-have	878	882	O
-improved	883	891	O
-this	892	896	O
-[	897	898	O
-1,2	898	901	O
-]	901	902	O
-.	902	903	O
-
-A	904	905	O
-review	906	912	O
-of	913	915	O
-the	916	919	O
-SPH	920	923	B-Process
-method	924	930	I-Process
-can	931	934	O
-be	935	937	O
-found	938	943	O
-in	944	946	O
-[	947	948	O
-3	948	949	O
-]	949	950	O
-while	951	956	O
-a	957	958	O
-review	959	965	O
-of	966	968	O
-the	969	972	O
-classical	973	982	O
-WCSPH	983	988	B-Process
-formulation	989	1000	O
-applied	1001	1008	O
-to	1009	1011	O
-free	1012	1016	B-Process
--	1016	1017	I-Process
-surface	1017	1024	I-Process
-flows	1025	1030	I-Process
-can	1031	1034	O
-be	1035	1037	O
-found	1038	1043	O
-in	1044	1046	O
-[	1047	1048	O
-4	1048	1049	O
-]	1049	1050	O
-.	1050	1051	O
+Traditionally	0,13	O	O
+,	13,14	O	O
+the	15,18	O	O
+simulation	19,29	O	B-Task
+of	30,32	O	I-Task
+incompressible	33,47	O	I-Task
+fluid	48,53	O	I-Task
+flow	54,58	O	I-Task
+by	59,61	O	O
+the	62,65	O	O
+SPH	66,69	O	B-Process
+method	70,76	O	I-Process
+has	77,80	O	O
+been	81,85	O	O
+through	86,93	O	O
+a	94,95	O	O
+weakly	96,102	O	B-Process
+compressible	103,115	O	I-Process
+SPH	116,119	O	I-Process
+formulation	120,131	O	I-Process
+(	132,133	O	O
+WCSPH	133,138	O	B-Process
+)	138,139	O	O
+.	139,140	O	O
+
+In	141,143	O	O
+this	144,148	O	O
+approach	149,157	O	O
+,	157,158	O	O
+the	159,162	O	O
+pressure	163,171	O	O
+is	172,174	O	O
+treated	175,182	O	O
+as	183,185	O	O
+a	186,187	O	O
+thermodynamic	188,201	O	O
+variable	202,210	O	O
+and	211,214	O	O
+is	215,217	O	O
+calculated	218,228	O	O
+using	229,234	O	O
+an	235,237	O	O
+artificial	238,248	O	B-Process
+equation	249,257	O	I-Process
+of	258,260	O	I-Process
+state	261,266	O	I-Process
+.	266,267	O	O
+
+The	268,271	O	O
+sound	272,277	O	O
+speed	278,283	O	O
+is	284,286	O	O
+set	287,290	O	O
+to	291,293	O	O
+be	294,296	O	O
+sufficiently	297,309	O	O
+high	310,314	O	O
+to	315,317	O	O
+limit	318,323	O	O
+density	324,331	O	O
+variations	332,342	O	O
+to	343,345	O	O
+within	346,352	O	O
+a	353,354	O	O
+small	355,360	O	O
+fraction	361,369	O	O
+of	370,372	O	O
+the	373,376	O	O
+actual	377,383	O	O
+fluid	384,389	O	B-Material
+density	390,397	O	O
+.	397,398	O	O
+
+In	399,401	O	O
+practice	402,410	O	O
+,	410,411	O	O
+this	412,416	O	O
+high	417,421	O	O
+sound	422,427	O	O
+speed	428,433	O	O
+places	434,440	O	O
+a	441,442	O	O
+limitation	443,453	O	O
+on	454,456	O	O
+the	457,460	O	O
+maximum	461,468	O	O
+permissible	469,480	O	O
+time	481,485	O	O
+-	485,486	O	O
+step	486,490	O	O
+size	491,495	O	O
+through	496,503	O	O
+the	504,507	O	O
+Courant	508,515	O	O
+–	515,516	O	O
+Friedrichs	516,526	O	O
+–	526,527	O	O
+
+Lewy	527,531	O	O
+(	532,533	O	O
+CFL	533,536	O	O
+)	536,537	O	O
+constraint	538,548	O	O
+.	548,549	O	O
+
+A	550,551	O	O
+particular	552,562	O	O
+weakness	563,571	O	O
+relates	572,579	O	O
+to	580,582	O	O
+noise	583,588	O	O
+in	589,591	O	O
+the	592,595	O	O
+pressure	596,604	O	O
+field	605,610	O	O
+since	611,616	O	O
+a	617,618	O	O
+small	619,624	O	O
+perturbation	625,637	O	O
+in	638,640	O	O
+the	641,644	O	O
+local	645,650	O	O
+density	651,658	O	O
+will	659,663	O	O
+yield	664,669	O	O
+a	670,671	O	O
+large	672,677	O	O
+variation	678,687	O	O
+in	688,690	O	O
+the	691,694	O	O
+local	695,700	O	O
+pressure	701,709	O	O
+.	709,710	O	O
+
+This	711,715	O	O
+can	716,719	O	O
+make	720,724	O	O
+WCSPH	725,730	O	B-Process
+formulations	731,743	O	O
+ineffective	744,755	O	O
+for	756,759	O	O
+accurate	760,768	O	O
+force	769,774	O	O
+and	775,778	O	O
+pressure	779,787	O	O
+prediction	788,798	O	O
+,	798,799	O	O
+although	800,808	O	O
+recent	809,815	O	O
+developments	816,828	O	O
+which	829,834	O	O
+create	835,841	O	B-Task
+more	842,846	O	I-Task
+uniform	847,854	O	I-Task
+particle	855,863	O	I-Task
+distributions	864,877	O	I-Task
+have	878,882	O	O
+improved	883,891	O	O
+this	892,896	O	O
+[	897,898	O	O
+1,2	898,901	O	O
+]	901,902	O	O
+.	902,903	O	O
+
+A	904,905	O	O
+review	906,912	O	O
+of	913,915	O	O
+the	916,919	O	O
+SPH	920,923	O	B-Process
+method	924,930	O	I-Process
+can	931,934	O	O
+be	935,937	O	O
+found	938,943	O	O
+in	944,946	O	O
+[	947,948	O	O
+3	948,949	O	O
+]	949,950	O	O
+while	951,956	O	O
+a	957,958	O	O
+review	959,965	O	O
+of	966,968	O	O
+the	969,972	O	O
+classical	973,982	O	O
+WCSPH	983,988	O	B-Process
+formulation	989,1000	O	O
+applied	1001,1008	O	O
+to	1009,1011	O	O
+free	1012,1016	O	B-Process
+-	1016,1017	O	I-Process
+surface	1017,1024	O	I-Process
+flows	1025,1030	O	I-Process
+can	1031,1034	O	O
+be	1035,1037	O	O
+found	1038,1043	O	O
+in	1044,1046	O	O
+[	1047,1048	O	O
+4	1048,1049	O	O
+]	1049,1050	O	O
+.	1050,1051	O	O
 
 
 -DOCSTART- (S0045782513001473)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-however	15	22	O
-,	22	23	O
-we	24	26	O
-prefer	27	33	O
-the	34	37	O
-simpler	38	45	O
-‘	46	47	O
-framed’	47	54	B-Process
-cell	55	59	I-Process
-employed	60	68	O
-by	69	71	O
-Hadjiconstantinou	72	89	O
-and	90	93	O
-Patera	94	100	O
-
-[	101	102	O
-16	102	104	O
-]	104	105	O
-,	105	106	O
-where	107	112	O
-the	113	116	O
-shear	117	122	B-Process
-stress	123	129	I-Process
-is	130	132	O
-generated	133	142	O
-by	143	145	O
-constraining	146	158	B-Process
-the	159	162	I-Process
-velocity	163	171	I-Process
-in	172	174	O
-a	175	176	O
-‘	177	178	O
-frame’	178	184	O
-rather	185	191	O
-than	192	196	O
-by	197	199	O
-modifying	200	209	O
-the	210	213	O
-shape	214	219	O
-of	220	222	O
-the	223	226	O
-box	227	230	O
-.	230	231	O
-
-The	232	235	O
-framed	236	242	B-Process
-cell	243	247	I-Process
-is	248	250	O
-periodic	251	259	O
-,	259	260	O
-but	261	264	O
-we	265	267	O
-can	268	271	O
-not	271	274	O
-simply	275	281	O
-calculate	282	291	O
-the	292	295	O
-average	296	303	O
-stress	304	310	O
-in	311	313	O
-the	314	317	O
-whole	318	323	O
-box	324	327	O
-because	328	335	O
-the	336	339	O
-presence	340	348	O
-of	349	351	O
-an	352	354	O
-external	355	363	O
-buffer	364	370	O
-would	371	376	O
-produce	377	384	O
-spurious	385	393	O
-results	394	401	O
-.	401	402	O
-
-We	403	405	O
-need	406	410	O
-the	411	414	O
-local	415	420	O
-stress	421	427	O
-in	428	430	O
-the	431	434	O
-core	435	439	O
-region	440	446	O
-,	446	447	O
-but	448	451	O
-this	452	456	O
-complicates	457	468	O
-the	469	472	O
-Oij	473	476	O
-term	477	481	O
-in	482	484	O
-Eq	485	487	O
-.	487	488	O
-
-(	489	490	O
-3	490	491	O
-)	491	492	O
-.	492	493	O
-
-There	494	499	O
-are	500	503	O
-other	504	509	O
-methods	510	517	O
-to	518	520	O
-calculate	521	530	B-Process
-the	531	534	I-Process
-stress	535	541	I-Process
-tensor	542	548	I-Process
-such	549	553	O
-as	554	556	O
-the	557	560	O
-method	561	567	B-Process
-of	568	570	I-Process
-planes	571	577	I-Process
-[	578	579	O
-32	579	581	O
-]	581	582	O
-,	582	583	O
-the	584	587	O
-volume	588	594	B-Process
--	594	595	I-Process
-average	595	602	I-Process
-approach	603	611	I-Process
-[	612	613	O
-26,14	613	618	O
-]	618	619	O
-,	619	620	O
-or	621	623	O
-the	624	627	O
-method	628	634	O
-derived	635	642	O
-from	643	647	O
-the	648	651	O
-Schweitz	652	660	B-Process
-virial	661	667	I-Process
-relation	668	676	I-Process
-[	677	678	O
-25	678	680	O
-]	680	681	O
-,	681	682	O
-but	683	686	O
-,	686	687	O
-in	688	690	O
-general	691	698	O
-,	698	699	O
-we	700	702	O
-must	703	707	O
-choose	708	714	O
-between	715	722	O
-a	723	724	O
-complicated	725	736	B-Process
-computational	737	750	I-Process
-cell	751	755	I-Process
-(	756	757	O
-i.e.	757	761	O
-Lees	762	766	B-Process
-–	766	767	I-Process
-Edwards	767	774	I-Process
-cell	775	779	I-Process
-)	779	780	O
-and	781	784	O
-simplifying	785	796	O
-the	797	800	O
-calculation	801	812	O
-of	813	815	O
-the	816	819	O
-momentum	820	828	O
-flux	829	833	O
-,	833	834	O
-or	835	837	O
-a	838	839	O
-simple	840	846	B-Process
-cell	847	851	I-Process
-(	852	853	O
-i.e.	853	857	O
-framed	858	864	B-Process
-cell	865	869	I-Process
-)	869	870	O
-and	871	874	O
-complicating	875	887	O
-the	888	891	O
-calculation	892	903	O
-of	904	906	O
-the	907	910	O
-momentum	911	919	O
-flux	920	924	O
-.	924	925	O
-
-The	926	929	O
-new	930	933	O
-method	934	940	O
-we	941	943	O
-propose	944	951	O
-here	952	956	O
-does	957	961	O
-not	962	965	O
-need	966	970	O
-the	971	974	O
-direct	975	981	O
-calculation	982	993	O
-of	994	996	O
-the	997	1000	O
-flux	1001	1005	O
-,	1005	1006	O
-so	1007	1009	O
-it	1010	1012	O
-avoids	1013	1019	O
-this	1020	1024	O
-issue	1025	1030	O
-altogether	1031	1041	O
-:	1041	1042	O
-we	1043	1045	O
-can	1046	1049	O
-use	1050	1053	O
-the	1054	1057	O
-framed	1058	1064	B-Process
-cell	1065	1069	I-Process
-and	1070	1073	O
-,	1073	1074	O
-at	1075	1077	O
-the	1078	1081	O
-same	1082	1086	O
-time	1087	1091	O
-,	1091	1092	O
-avoid	1093	1098	O
-the	1099	1102	O
-calculation	1103	1114	O
-of	1115	1117	O
-the	1118	1121	O
-IK	1122	1124	B-Process
-equation	1125	1133	I-Process
-.	1133	1134	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+however	15,22	O	O
+,	22,23	O	O
+we	24,26	O	O
+prefer	27,33	O	O
+the	34,37	O	O
+simpler	38,45	O	O
+‘	46,47	O	O
+framed’	47,54	O	B-Process
+cell	55,59	O	I-Process
+employed	60,68	O	O
+by	69,71	O	O
+Hadjiconstantinou	72,89	O	O
+and	90,93	O	O
+Patera	94,100	O	O
+
+[	101,102	O	O
+16	102,104	O	O
+]	104,105	O	O
+,	105,106	O	O
+where	107,112	O	O
+the	113,116	O	O
+shear	117,122	O	B-Process
+stress	123,129	O	I-Process
+is	130,132	O	O
+generated	133,142	O	O
+by	143,145	O	O
+constraining	146,158	O	B-Process
+the	159,162	O	I-Process
+velocity	163,171	O	I-Process
+in	172,174	O	O
+a	175,176	O	O
+‘	177,178	O	O
+frame’	178,184	O	O
+rather	185,191	O	O
+than	192,196	O	O
+by	197,199	O	O
+modifying	200,209	O	O
+the	210,213	O	O
+shape	214,219	O	O
+of	220,222	O	O
+the	223,226	O	O
+box	227,230	O	O
+.	230,231	O	O
+
+The	232,235	O	O
+framed	236,242	O	B-Process
+cell	243,247	O	I-Process
+is	248,250	O	O
+periodic	251,259	O	O
+,	259,260	O	O
+but	261,264	O	O
+we	265,267	O	O
+can	268,271	O	O
+not	271,274	O	O
+simply	275,281	O	O
+calculate	282,291	O	O
+the	292,295	O	O
+average	296,303	O	O
+stress	304,310	O	O
+in	311,313	O	O
+the	314,317	O	O
+whole	318,323	O	O
+box	324,327	O	O
+because	328,335	O	O
+the	336,339	O	O
+presence	340,348	O	O
+of	349,351	O	O
+an	352,354	O	O
+external	355,363	O	O
+buffer	364,370	O	O
+would	371,376	O	O
+produce	377,384	O	O
+spurious	385,393	O	O
+results	394,401	O	O
+.	401,402	O	O
+
+We	403,405	O	O
+need	406,410	O	O
+the	411,414	O	O
+local	415,420	O	O
+stress	421,427	O	O
+in	428,430	O	O
+the	431,434	O	O
+core	435,439	O	O
+region	440,446	O	O
+,	446,447	O	O
+but	448,451	O	O
+this	452,456	O	O
+complicates	457,468	O	O
+the	469,472	O	O
+Oij	473,476	O	O
+term	477,481	O	O
+in	482,484	O	O
+Eq	485,487	O	O
+.	487,488	O	O
+
+(	489,490	O	O
+3	490,491	O	O
+)	491,492	O	O
+.	492,493	O	O
+
+There	494,499	O	O
+are	500,503	O	O
+other	504,509	O	O
+methods	510,517	O	O
+to	518,520	O	O
+calculate	521,530	O	B-Process
+the	531,534	O	I-Process
+stress	535,541	O	I-Process
+tensor	542,548	O	I-Process
+such	549,553	O	O
+as	554,556	O	O
+the	557,560	O	O
+method	561,567	O	B-Process
+of	568,570	O	I-Process
+planes	571,577	O	I-Process
+[	578,579	O	O
+32	579,581	O	O
+]	581,582	O	O
+,	582,583	O	O
+the	584,587	O	O
+volume	588,594	O	B-Process
+-	594,595	O	I-Process
+average	595,602	O	I-Process
+approach	603,611	O	I-Process
+[	612,613	O	O
+26,14	613,618	O	O
+]	618,619	O	O
+,	619,620	O	O
+or	621,623	O	O
+the	624,627	O	O
+method	628,634	O	O
+derived	635,642	O	O
+from	643,647	O	O
+the	648,651	O	O
+Schweitz	652,660	O	B-Process
+virial	661,667	O	I-Process
+relation	668,676	O	I-Process
+[	677,678	O	O
+25	678,680	O	O
+]	680,681	O	O
+,	681,682	O	O
+but	683,686	O	O
+,	686,687	O	O
+in	688,690	O	O
+general	691,698	O	O
+,	698,699	O	O
+we	700,702	O	O
+must	703,707	O	O
+choose	708,714	O	O
+between	715,722	O	O
+a	723,724	O	O
+complicated	725,736	O	B-Process
+computational	737,750	O	I-Process
+cell	751,755	O	I-Process
+(	756,757	O	O
+i.e.	757,761	O	O
+Lees	762,766	O	B-Process
+–	766,767	O	I-Process
+Edwards	767,774	O	I-Process
+cell	775,779	O	I-Process
+)	779,780	O	O
+and	781,784	O	O
+simplifying	785,796	O	O
+the	797,800	O	O
+calculation	801,812	O	O
+of	813,815	O	O
+the	816,819	O	O
+momentum	820,828	O	O
+flux	829,833	O	O
+,	833,834	O	O
+or	835,837	O	O
+a	838,839	O	O
+simple	840,846	O	B-Process
+cell	847,851	O	I-Process
+(	852,853	O	O
+i.e.	853,857	O	O
+framed	858,864	O	B-Process
+cell	865,869	O	I-Process
+)	869,870	O	O
+and	871,874	O	O
+complicating	875,887	O	O
+the	888,891	O	O
+calculation	892,903	O	O
+of	904,906	O	O
+the	907,910	O	O
+momentum	911,919	O	O
+flux	920,924	O	O
+.	924,925	O	O
+
+The	926,929	O	O
+new	930,933	O	O
+method	934,940	O	O
+we	941,943	O	O
+propose	944,951	O	O
+here	952,956	O	O
+does	957,961	O	O
+not	962,965	O	O
+need	966,970	O	O
+the	971,974	O	O
+direct	975,981	O	O
+calculation	982,993	O	O
+of	994,996	O	O
+the	997,1000	O	O
+flux	1001,1005	O	O
+,	1005,1006	O	O
+so	1007,1009	O	O
+it	1010,1012	O	O
+avoids	1013,1019	O	O
+this	1020,1024	O	O
+issue	1025,1030	O	O
+altogether	1031,1041	O	O
+:	1041,1042	O	O
+we	1043,1045	O	O
+can	1046,1049	O	O
+use	1050,1053	O	O
+the	1054,1057	O	O
+framed	1058,1064	O	B-Process
+cell	1065,1069	O	I-Process
+and	1070,1073	O	O
+,	1073,1074	O	O
+at	1075,1077	O	O
+the	1078,1081	O	O
+same	1082,1086	O	O
+time	1087,1091	O	O
+,	1091,1092	O	O
+avoid	1093,1098	O	O
+the	1099,1102	O	O
+calculation	1103,1114	O	O
+of	1115,1117	O	O
+the	1118,1121	O	O
+IK	1122,1124	O	B-Process
+equation	1125,1133	O	I-Process
+.	1133,1134	O	O
 
 
 -DOCSTART- (S004578251300176X)
 
-Powder	0	6	B-Process
-metallurgy	7	17	I-Process
-is	18	20	O
-a	21	22	O
-versatile	23	32	O
-technology	33	43	B-Process
-for	44	47	I-Process
-the	48	51	I-Process
-manufacturing	52	65	I-Process
-of	66	68	I-Process
-components	69	79	I-Process
-to	80	82	I-Process
-(	83	84	I-Process
-near	84	88	I-Process
-)	88	89	I-Process
-net	90	93	I-Process
--	93	94	I-Process
-shape	94	99	I-Process
-with	100	104	O
-high	105	109	O
-product	110	117	O
-quality	118	125	O
-.	125	126	O
-
-For	127	130	O
-a	131	132	O
-hardmetal	133	142	B-Material
-(	143	144	O
-such	144	148	O
-as	149	151	O
-WC	152	154	B-Material
--	154	155	I-Material
-Co	155	157	I-Material
-)	157	158	O
-cold	159	163	O
-compaction	164	174	O
-of	175	177	O
-the	178	181	O
-powder	182	188	B-Material
-to	189	191	O
-a	192	193	O
-“	194	195	O
-green	195	200	B-Material
-body	201	205	I-Material
-”	205	206	O
-is	207	209	O
-followed	210	218	O
-by	219	221	O
-liquid	222	228	B-Process
--	228	229	I-Process
-phase	229	234	I-Process
-sintering	235	244	I-Process
-from	245	249	O
-the	250	253	O
-subsequent	254	264	O
-heating	265	272	B-Process
-.	272	273	O
-
-This	274	278	O
-means	279	284	O
-that	285	289	O
-the	290	293	O
-binder	294	300	O
-metal	301	306	O
-Co	307	309	B-Process
-is	310	312	I-Process
-heated	313	319	I-Process
-to	320	322	O
-melt	323	327	O
-in	328	330	O
-order	331	336	O
-to	337	339	O
-obtain	340	346	B-Task
-sufficient	347	357	I-Task
-mobility	358	366	I-Task
-via	367	370	I-Task
-capillary	371	380	I-Task
-action	381	387	I-Task
-,	387	388	O
-i.e.	389	393	O
-,	393	394	O
-via	395	398	O
-surface	399	406	B-Process
-traction	407	415	I-Process
-,	415	416	O
-stemming	417	425	O
-from	426	430	O
-stored	431	437	O
-surface	438	445	O
-energy	446	452	O
-.	452	453	O
-
-The	454	457	O
-resulting	458	467	O
-flow	468	472	O
-causes	473	479	O
-gradual	480	487	B-Process
-filling	488	495	I-Process
-of	496	498	I-Process
-the	499	502	I-Process
-pore	503	507	I-Process
-space	508	513	O
-and	514	517	O
-brings	518	524	O
-about	525	530	O
-a	531	532	O
-macroscopic	533	544	B-Process
-shrinkage	545	554	I-Process
-of	555	557	O
-the	558	561	O
-particle	562	570	B-Material
-compact	571	578	O
-until	579	584	O
-a	585	586	O
-completely	587	597	O
-dense	598	603	B-Material
-state	604	609	I-Material
-is	610	612	O
-obtained	613	621	O
-,	621	622	O
-at	623	625	O
-least	626	631	O
-ideally	632	639	O
-.	639	640	O
-
-To	641	643	O
-model	644	649	B-Task
-and	650	653	I-Task
-quantitatively	654	668	I-Task
-simulate	669	677	I-Task
-the	678	681	I-Task
-sintering	682	691	I-Task
-process	692	699	I-Task
-is	700	702	O
-a	703	704	O
-challenging	705	716	O
-task	717	721	O
-.	721	722	O
-
-The	723	726	O
-goal	727	731	O
-is	732	734	O
-to	735	737	O
-(	738	739	O
-i	739	740	O
-)	740	741	O
-estimate	742	750	B-Task
-the	751	754	I-Task
-final	755	760	I-Task
-resulting	761	770	I-Task
-quality	771	778	I-Task
-(	779	780	O
-i.e.	780	784	O
-,	784	785	O
-in	786	788	O
-terms	789	794	O
-of	795	797	O
-porosity	798	806	B-Task
-)	806	807	O
-and	808	811	O
-(	812	813	O
-ii	813	815	O
-)	815	816	O
-to	817	819	B-Task
-predict	820	827	I-Task
-the	828	831	I-Task
-final	832	837	I-Task
-net	838	841	I-Task
-shape	842	847	I-Task
-and	848	851	I-Task
-size	852	856	I-Task
-of	857	859	O
-the	860	863	O
-sintered	864	872	B-Material
-component	873	882	I-Material
-.	882	883	O
+Powder	0,6	O	B-Process
+metallurgy	7,17	O	I-Process
+is	18,20	O	O
+a	21,22	O	O
+versatile	23,32	O	O
+technology	33,43	O	B-Process
+for	44,47	O	I-Process
+the	48,51	O	I-Process
+manufacturing	52,65	O	I-Process
+of	66,68	O	I-Process
+components	69,79	O	I-Process
+to	80,82	O	I-Process
+(	83,84	O	I-Process
+near	84,88	O	I-Process
+)	88,89	O	I-Process
+net	90,93	O	I-Process
+-	93,94	O	I-Process
+shape	94,99	O	I-Process
+with	100,104	O	O
+high	105,109	O	O
+product	110,117	O	O
+quality	118,125	O	O
+.	125,126	O	O
+
+For	127,130	O	O
+a	131,132	O	O
+hardmetal	133,142	O	B-Material
+(	143,144	O	O
+such	144,148	O	O
+as	149,151	O	O
+WC	152,154	O	B-Material
+-	154,155	O	I-Material
+Co	155,157	O	I-Material
+)	157,158	O	O
+cold	159,163	O	O
+compaction	164,174	O	O
+of	175,177	O	O
+the	178,181	O	O
+powder	182,188	O	B-Material
+to	189,191	O	O
+a	192,193	O	O
+“	194,195	O	O
+green	195,200	O	B-Material
+body	201,205	O	I-Material
+”	205,206	O	O
+is	207,209	O	O
+followed	210,218	O	O
+by	219,221	O	O
+liquid	222,228	O	B-Process
+-	228,229	O	I-Process
+phase	229,234	O	I-Process
+sintering	235,244	O	I-Process
+from	245,249	O	O
+the	250,253	O	O
+subsequent	254,264	O	O
+heating	265,272	O	B-Process
+.	272,273	O	O
+
+This	274,278	O	O
+means	279,284	O	O
+that	285,289	O	O
+the	290,293	O	O
+binder	294,300	O	O
+metal	301,306	O	O
+Co	307,309	O	B-Process
+is	310,312	O	I-Process
+heated	313,319	O	I-Process
+to	320,322	O	O
+melt	323,327	O	O
+in	328,330	O	O
+order	331,336	O	O
+to	337,339	O	O
+obtain	340,346	O	B-Task
+sufficient	347,357	O	I-Task
+mobility	358,366	O	I-Task
+via	367,370	O	I-Task
+capillary	371,380	O	I-Task
+action	381,387	O	I-Task
+,	387,388	O	O
+i.e.	389,393	O	O
+,	393,394	O	O
+via	395,398	O	O
+surface	399,406	O	B-Process
+traction	407,415	O	I-Process
+,	415,416	O	O
+stemming	417,425	O	O
+from	426,430	O	O
+stored	431,437	O	O
+surface	438,445	O	O
+energy	446,452	O	O
+.	452,453	O	O
+
+The	454,457	O	O
+resulting	458,467	O	O
+flow	468,472	O	O
+causes	473,479	O	O
+gradual	480,487	O	B-Process
+filling	488,495	O	I-Process
+of	496,498	O	I-Process
+the	499,502	O	I-Process
+pore	503,507	O	I-Process
+space	508,513	O	O
+and	514,517	O	O
+brings	518,524	O	O
+about	525,530	O	O
+a	531,532	O	O
+macroscopic	533,544	O	B-Process
+shrinkage	545,554	O	I-Process
+of	555,557	O	O
+the	558,561	O	O
+particle	562,570	O	B-Material
+compact	571,578	O	O
+until	579,584	O	O
+a	585,586	O	O
+completely	587,597	O	O
+dense	598,603	O	B-Material
+state	604,609	O	I-Material
+is	610,612	O	O
+obtained	613,621	O	O
+,	621,622	O	O
+at	623,625	O	O
+least	626,631	O	O
+ideally	632,639	O	O
+.	639,640	O	O
+
+To	641,643	O	O
+model	644,649	O	B-Task
+and	650,653	O	I-Task
+quantitatively	654,668	O	I-Task
+simulate	669,677	O	I-Task
+the	678,681	O	I-Task
+sintering	682,691	O	I-Task
+process	692,699	O	I-Task
+is	700,702	O	O
+a	703,704	O	O
+challenging	705,716	O	O
+task	717,721	O	O
+.	721,722	O	O
+
+The	723,726	O	O
+goal	727,731	O	O
+is	732,734	O	O
+to	735,737	O	O
+(	738,739	O	O
+i	739,740	O	O
+)	740,741	O	O
+estimate	742,750	O	B-Task
+the	751,754	O	I-Task
+final	755,760	O	I-Task
+resulting	761,770	O	I-Task
+quality	771,778	O	I-Task
+(	779,780	O	O
+i.e.	780,784	O	O
+,	784,785	O	O
+in	786,788	O	O
+terms	789,794	O	O
+of	795,797	O	O
+porosity	798,806	O	B-Task
+)	806,807	O	O
+and	808,811	O	O
+(	812,813	O	O
+ii	813,815	O	O
+)	815,816	O	O
+to	817,819	O	B-Task
+predict	820,827	O	I-Task
+the	828,831	O	I-Task
+final	832,837	O	I-Task
+net	838,841	O	I-Task
+shape	842,847	O	I-Task
+and	848,851	O	I-Task
+size	852,856	O	I-Task
+of	857,859	O	O
+the	860,863	O	O
+sintered	864,872	O	B-Material
+component	873,882	O	I-Material
+.	882,883	O	O
 
 
 -DOCSTART- (S0045782514000607)
 
-As	0	2	O
-mentioned	3	12	O
-previously	13	23	O
-,	23	24	O
-the	25	28	O
-weakly	29	35	B-Process
-penalized	36	45	I-Process
-system	46	52	O
-can	53	56	O
-be	57	59	O
-thought	60	67	O
-of	68	70	O
-as	71	73	O
-a	74	75	O
-generalized	76	87	B-Process
-formulation	88	99	I-Process
-which	100	105	O
-can	106	109	O
-result	110	116	O
-in	117	119	O
-the	120	123	O
-PL	124	126	B-Process
-,	126	127	I-Process
-penalty	128	135	I-Process
-or	136	138	I-Process
-statically	139	149	I-Process
-condensed	150	159	I-Process
-PL	160	162	I-Process
-formulations	163	175	I-Process
-depending	176	185	O
-on	186	188	O
-the	189	192	O
-choice	193	199	O
-of	200	202	O
-the	203	206	O
-projection	207	217	O
-operator	218	226	O
-.	226	227	O
-
-The	228	231	O
-equivalence	232	243	O
-of	244	246	O
-these	247	252	O
-methods	253	260	O
-under	261	266	O
-the	267	270	O
-weakly	271	277	O
-penalized	278	287	O
-regime	288	294	O
-,	294	295	O
-allows	296	302	O
-us	303	305	O
-to	306	308	O
-combine	309	316	O
-and	317	320	O
-take	321	325	O
-advantage	326	335	O
-of	336	338	O
-the	339	342	O
-good	343	347	O
-characteristics	348	363	O
-of	364	366	O
-each	367	371	O
-method	372	378	O
-.	378	379	O
-
-For	380	383	O
-instance	384	392	O
-,	392	393	O
-the	394	397	O
-weakly	398	404	B-Process
-penalized	405	414	I-Process
-formulation	415	426	I-Process
-combines	427	435	O
-the	436	439	O
-simplified	440	450	O
-structure	451	460	O
-of	461	463	O
-the	464	467	O
-penalty	468	475	B-Process
-method	476	482	I-Process
-with	483	487	O
-the	488	491	O
-convergence	492	503	O
-characteristics	504	519	O
-of	520	522	O
-the	523	526	O
-PL	527	529	B-Process
-formulation	530	541	I-Process
-.	541	542	O
-
-However	543	550	O
-,	550	551	O
-due	552	555	O
-to	556	558	O
-the	559	562	O
-stiffness	563	572	O
-of	573	575	O
-the	576	579	O
-linear	580	586	O
-system	587	593	O
-at	594	596	O
-high	597	601	O
-values	602	608	O
-of	609	611	O
-the	612	615	O
-bulk	616	620	O
-modulus	621	628	O
-,	628	629	O
-the	630	633	O
-penalized	634	643	B-Process
-formulations	644	656	I-Process
-(	657	658	O
-classic	658	665	B-Process
-penalty	666	673	I-Process
-/	673	674	I-Process
-weakly	674	680	I-Process
-penalized	681	690	I-Process
-)	690	691	O
-exhibit	692	699	O
-deteriorated	700	712	O
-nonlinear	713	722	B-Material
-convergence	723	734	I-Material
-.	734	735	O
-
-This	736	740	O
-stands	741	747	O
-in	748	750	O
-stark	751	756	O
-contrast	757	765	O
-to	766	768	O
-the	769	772	O
-PL	773	775	B-Process
-method	776	782	O
-which	783	788	O
-(	789	790	O
-for	790	793	O
-inf	794	797	B-Process
-–	797	798	I-Process
-sup	798	801	I-Process
-stable	802	808	I-Process
-schemes	809	816	I-Process
-)	816	817	O
-exhibits	818	826	O
-fast	827	831	O
-convergence	832	843	B-Material
-even	844	848	O
-for	849	852	O
-high	853	857	O
-bulk	858	862	O
-modulus	863	870	O
-.	870	871	O
-
-However	872	879	O
-,	879	880	O
-we	881	883	O
-observe	884	891	O
-that	892	896	O
-,	896	897	O
-when	898	902	O
-the	903	906	O
-choice	907	913	O
-of	914	916	O
-πh	917	919	O
-provides	920	928	O
-equivalence	929	940	O
-with	941	945	O
-the	946	949	O
-discrete	950	958	O
-PL	959	961	B-Task
-method	962	968	O
-,	968	969	O
-poor	970	974	B-Material
-nonlinear	975	984	I-Material
-convergence	985	996	I-Material
-is	997	999	O
-observed	1000	1008	O
-though	1009	1015	O
-,	1015	1016	O
-in	1017	1019	O
-principle	1020	1029	O
-,	1029	1030	O
-the	1031	1034	O
-convergence	1035	1046	O
-should	1047	1053	O
-be	1054	1056	O
-similar	1057	1064	O
-.	1064	1065	O
-
-Examining	1066	1075	O
-the	1076	1079	O
-update	1080	1086	O
-formulae	1087	1095	O
-for	1096	1099	O
-both	1100	1104	O
-weakly	1105	1111	B-Process
-penalized	1112	1121	I-Process
-and	1122	1125	I-Process
-PL	1126	1128	I-Process
-approaches	1129	1139	I-Process
-(	1140	1141	O
-see	1141	1144	O
-Appendix	1145	1153	O
-C	1154	1155	O
-)	1155	1156	O
-,	1156	1157	O
-we	1158	1160	O
-observe	1161	1168	O
-that	1169	1173	O
-deteriorated	1174	1186	B-Task
-convergence	1187	1198	I-Task
-stems	1199	1204	O
-from	1205	1209	O
-:	1209	1210	O
-(	1211	1212	O
-1	1212	1213	O
-)	1213	1214	O
-initial	1215	1222	B-Task
-residual	1223	1231	I-Task
-amplification	1232	1245	I-Task
-,	1245	1246	O
-and	1247	1250	O
-(	1251	1252	O
-2	1252	1253	O
-)	1253	1254	O
-the	1255	1258	O
-amplification	1259	1272	B-Task
-of	1273	1275	I-Task
-the	1276	1279	I-Task
-residual	1280	1288	I-Task
-.	1288	1289	O
+As	0,2	O	O
+mentioned	3,12	O	O
+previously	13,23	O	O
+,	23,24	O	O
+the	25,28	O	O
+weakly	29,35	O	B-Process
+penalized	36,45	O	I-Process
+system	46,52	O	O
+can	53,56	O	O
+be	57,59	O	O
+thought	60,67	O	O
+of	68,70	O	O
+as	71,73	O	O
+a	74,75	O	O
+generalized	76,87	O	B-Process
+formulation	88,99	O	I-Process
+which	100,105	O	O
+can	106,109	O	O
+result	110,116	O	O
+in	117,119	O	O
+the	120,123	O	O
+PL	124,126	O	B-Process
+,	126,127	O	I-Process
+penalty	128,135	O	I-Process
+or	136,138	O	I-Process
+statically	139,149	O	I-Process
+condensed	150,159	O	I-Process
+PL	160,162	O	I-Process
+formulations	163,175	O	I-Process
+depending	176,185	O	O
+on	186,188	O	O
+the	189,192	O	O
+choice	193,199	O	O
+of	200,202	O	O
+the	203,206	O	O
+projection	207,217	O	O
+operator	218,226	O	O
+.	226,227	O	O
+
+The	228,231	O	O
+equivalence	232,243	O	O
+of	244,246	O	O
+these	247,252	O	O
+methods	253,260	O	O
+under	261,266	O	O
+the	267,270	O	O
+weakly	271,277	O	O
+penalized	278,287	O	O
+regime	288,294	O	O
+,	294,295	O	O
+allows	296,302	O	O
+us	303,305	O	O
+to	306,308	O	O
+combine	309,316	O	O
+and	317,320	O	O
+take	321,325	O	O
+advantage	326,335	O	O
+of	336,338	O	O
+the	339,342	O	O
+good	343,347	O	O
+characteristics	348,363	O	O
+of	364,366	O	O
+each	367,371	O	O
+method	372,378	O	O
+.	378,379	O	O
+
+For	380,383	O	O
+instance	384,392	O	O
+,	392,393	O	O
+the	394,397	O	O
+weakly	398,404	O	B-Process
+penalized	405,414	O	I-Process
+formulation	415,426	O	I-Process
+combines	427,435	O	O
+the	436,439	O	O
+simplified	440,450	O	O
+structure	451,460	O	O
+of	461,463	O	O
+the	464,467	O	O
+penalty	468,475	O	B-Process
+method	476,482	O	I-Process
+with	483,487	O	O
+the	488,491	O	O
+convergence	492,503	O	O
+characteristics	504,519	O	O
+of	520,522	O	O
+the	523,526	O	O
+PL	527,529	O	B-Process
+formulation	530,541	O	I-Process
+.	541,542	O	O
+
+However	543,550	O	O
+,	550,551	O	O
+due	552,555	O	O
+to	556,558	O	O
+the	559,562	O	O
+stiffness	563,572	O	O
+of	573,575	O	O
+the	576,579	O	O
+linear	580,586	O	O
+system	587,593	O	O
+at	594,596	O	O
+high	597,601	O	O
+values	602,608	O	O
+of	609,611	O	O
+the	612,615	O	O
+bulk	616,620	O	O
+modulus	621,628	O	O
+,	628,629	O	O
+the	630,633	O	O
+penalized	634,643	O	B-Process
+formulations	644,656	O	I-Process
+(	657,658	O	O
+classic	658,665	O	B-Process
+penalty	666,673	O	I-Process
+/	673,674	O	I-Process
+weakly	674,680	O	I-Process
+penalized	681,690	O	I-Process
+)	690,691	O	O
+exhibit	692,699	O	O
+deteriorated	700,712	O	O
+nonlinear	713,722	O	B-Material
+convergence	723,734	O	I-Material
+.	734,735	O	O
+
+This	736,740	O	O
+stands	741,747	O	O
+in	748,750	O	O
+stark	751,756	O	O
+contrast	757,765	O	O
+to	766,768	O	O
+the	769,772	O	O
+PL	773,775	O	B-Process
+method	776,782	O	O
+which	783,788	O	O
+(	789,790	O	O
+for	790,793	O	O
+inf	794,797	O	B-Process
+–	797,798	O	I-Process
+sup	798,801	O	I-Process
+stable	802,808	O	I-Process
+schemes	809,816	O	I-Process
+)	816,817	O	O
+exhibits	818,826	O	O
+fast	827,831	O	O
+convergence	832,843	O	B-Material
+even	844,848	O	O
+for	849,852	O	O
+high	853,857	O	O
+bulk	858,862	O	O
+modulus	863,870	O	O
+.	870,871	O	O
+
+However	872,879	O	O
+,	879,880	O	O
+we	881,883	O	O
+observe	884,891	O	O
+that	892,896	O	O
+,	896,897	O	O
+when	898,902	O	O
+the	903,906	O	O
+choice	907,913	O	O
+of	914,916	O	O
+πh	917,919	O	O
+provides	920,928	O	O
+equivalence	929,940	O	O
+with	941,945	O	O
+the	946,949	O	O
+discrete	950,958	O	O
+PL	959,961	O	B-Task
+method	962,968	O	O
+,	968,969	O	O
+poor	970,974	O	B-Material
+nonlinear	975,984	O	I-Material
+convergence	985,996	O	I-Material
+is	997,999	O	O
+observed	1000,1008	O	O
+though	1009,1015	O	O
+,	1015,1016	O	O
+in	1017,1019	O	O
+principle	1020,1029	O	O
+,	1029,1030	O	O
+the	1031,1034	O	O
+convergence	1035,1046	O	O
+should	1047,1053	O	O
+be	1054,1056	O	O
+similar	1057,1064	O	O
+.	1064,1065	O	O
+
+Examining	1066,1075	O	O
+the	1076,1079	O	O
+update	1080,1086	O	O
+formulae	1087,1095	O	O
+for	1096,1099	O	O
+both	1100,1104	O	O
+weakly	1105,1111	O	B-Process
+penalized	1112,1121	O	I-Process
+and	1122,1125	O	I-Process
+PL	1126,1128	O	I-Process
+approaches	1129,1139	O	I-Process
+(	1140,1141	O	O
+see	1141,1144	O	O
+Appendix	1145,1153	O	O
+C	1154,1155	O	O
+)	1155,1156	O	O
+,	1156,1157	O	O
+we	1158,1160	O	O
+observe	1161,1168	O	O
+that	1169,1173	O	O
+deteriorated	1174,1186	O	B-Task
+convergence	1187,1198	O	I-Task
+stems	1199,1204	O	O
+from	1205,1209	O	O
+:	1209,1210	O	O
+(	1211,1212	O	O
+1	1212,1213	O	O
+)	1213,1214	O	O
+initial	1215,1222	O	B-Task
+residual	1223,1231	O	I-Task
+amplification	1232,1245	O	I-Task
+,	1245,1246	O	O
+and	1247,1250	O	O
+(	1251,1252	O	O
+2	1252,1253	O	O
+)	1253,1254	O	O
+the	1255,1258	O	O
+amplification	1259,1272	O	B-Task
+of	1273,1275	O	I-Task
+the	1276,1279	O	I-Task
+residual	1280,1288	O	I-Task
+.	1288,1289	O	O
 
 
 -DOCSTART- (S0045782514001492)
 
-Energy	0	6	B-Process
-conservation	7	19	I-Process
-is	20	22	O
-critical	23	31	O
-to	32	34	O
-ensure	35	41	O
-stability	42	51	O
-of	52	54	O
-a	55	56	O
-numerical	57	66	O
-method	67	73	O
-,	73	74	O
-especially	75	85	O
-for	86	89	O
-contact	90	97	B-Task
-and	98	101	I-Task
-collision	102	111	I-Task
-problems	112	120	I-Task
-
-[	122	123	O
-28,43	123	128	O
-]	128	129	O
-.	129	130	O
-
-A	131	132	O
-number	133	139	O
-of	140	142	O
-conserving	143	153	O
-schemes	154	161	O
-have	162	166	O
-been	167	171	O
-developed	172	181	O
-to	182	184	O
-ensure	185	191	O
-energy	192	198	B-Task
-conservation	199	211	I-Task
-.	211	212	O
-
-These	213	218	O
-schemes	219	226	O
-make	227	231	O
-use	232	235	O
-of	236	238	O
-the	239	242	O
-penalty	243	250	B-Process
-regulation	251	261	I-Process
-of	262	264	O
-normal	265	271	O
-contact	272	279	O
-constraint	280	290	O
-and	291	294	O
-inherit	295	302	O
-the	303	306	O
-conservation	307	319	O
-property	320	328	O
-from	329	333	O
-continuum	334	343	B-Task
-problems	344	352	I-Task
-.	352	353	O
-
-These	354	359	O
-conservation	360	372	B-Process
-schemes	373	380	I-Process
-can	381	384	O
-conveniently	385	397	O
-be	398	400	O
-combined	401	409	O
-with	410	414	O
-the	415	418	O
-finite	419	425	B-Process
-element	426	433	I-Process
-method	434	440	I-Process
-to	441	443	O
-simulate	444	452	B-Task
-frictionless	453	465	I-Task
-[	467	468	I-Task
-44	468	470	I-Task
-]	470	471	I-Task
-and	472	475	I-Task
-frictional	476	486	I-Task
-[	488	489	I-Task
-43	489	491	I-Task
-]	491	492	I-Task
-contact	493	500	I-Task
-and	501	504	I-Task
-collision	505	514	I-Task
-.	514	515	O
-
-Hesch	516	521	O
-and	522	525	O
-Betsch	526	532	O
-
-[	534	535	O
-45	535	537	O
-]	537	538	O
-formulated	539	549	O
-the	550	553	O
-node	554	558	B-Process
--	558	559	I-Process
-to	559	561	I-Process
--	561	562	I-Process
-segment	562	569	I-Process
-contact	570	577	I-Process
-method	578	584	I-Process
-and	585	588	O
-solved	589	595	O
-large	596	601	B-Task
-deformation	602	613	I-Task
-contact	614	621	I-Task
-problems	622	630	I-Task
-with	631	635	O
-the	636	639	O
-conserving	640	650	B-Process
-scheme	651	657	I-Process
-.	657	658	O
-
-More	659	663	O
-recently	664	672	O
-,	672	673	O
-an	674	676	O
-energy	677	683	B-Process
-and	684	687	I-Process
-momentum	688	696	I-Process
--	696	697	I-Process
-conserving	697	707	I-Process
-temporal	708	716	I-Process
-discretization	717	731	I-Process
-scheme	732	738	I-Process
-[	740	741	O
-46	741	743	O
-]	743	744	O
-was	745	748	O
-developed	749	758	O
-for	759	762	O
-adhesive	763	771	B-Task
-contact	772	779	I-Task
-problems	780	788	I-Task
-without	789	796	O
-considering	797	808	O
-friction	809	817	B-Process
-and	818	821	O
-dissipation	822	833	B-Process
-.	833	834	O
-
-Even	835	839	O
-though	840	846	O
-the	847	850	O
-conserving	851	861	B-Process
-scheme	862	868	I-Process
-improves	869	877	O
-numerical	878	887	O
-stability	888	897	O
-,	897	898	O
-it	899	901	O
-also	902	906	O
-inherits	907	915	O
-from	916	920	O
-the	921	924	O
-penalty	925	932	O
-method	933	939	O
-the	940	943	O
-difficulty	944	954	O
-of	955	957	O
-having	958	964	O
-to	965	967	O
-determine	968	977	O
-penalty	978	985	O
-parameters	986	996	O
-.	996	997	O
-
-In	998	1000	O
-order	1001	1006	O
-to	1007	1009	O
-remove	1010	1016	O
-penalty	1017	1024	O
-sensitivity	1025	1036	O
-,	1036	1037	O
-Chawla	1038	1044	O
-and	1045	1048	O
-Laursen	1049	1056	O
-[	1058	1059	O
-47	1059	1061	O
-]	1061	1062	O
-proposed	1063	1071	O
-an	1072	1074	O
-energy	1075	1081	B-Process
-and	1082	1085	I-Process
-momentum	1086	1094	I-Process
-conserving	1095	1105	I-Process
-algorithm	1106	1115	I-Process
-,	1115	1116	O
-which	1117	1122	O
-makes	1123	1128	O
-use	1129	1132	O
-of	1133	1135	O
-Lagrange	1136	1144	O
-multipliers	1145	1156	O
-instead	1157	1164	O
-of	1165	1167	O
-penalty	1168	1175	O
-parameters	1176	1186	O
-.	1186	1187	O
+Energy	0,6	O	B-Process
+conservation	7,19	O	I-Process
+is	20,22	O	O
+critical	23,31	O	O
+to	32,34	O	O
+ensure	35,41	O	O
+stability	42,51	O	O
+of	52,54	O	O
+a	55,56	O	O
+numerical	57,66	O	O
+method	67,73	O	O
+,	73,74	O	O
+especially	75,85	O	O
+for	86,89	O	O
+contact	90,97	O	B-Task
+and	98,101	O	I-Task
+collision	102,111	O	I-Task
+problems	112,120	O	I-Task
+
+[	122,123	O	O
+28,43	123,128	O	O
+]	128,129	O	O
+.	129,130	O	O
+
+A	131,132	O	O
+number	133,139	O	O
+of	140,142	O	O
+conserving	143,153	O	O
+schemes	154,161	O	O
+have	162,166	O	O
+been	167,171	O	O
+developed	172,181	O	O
+to	182,184	O	O
+ensure	185,191	O	O
+energy	192,198	O	B-Task
+conservation	199,211	O	I-Task
+.	211,212	O	O
+
+These	213,218	O	O
+schemes	219,226	O	O
+make	227,231	O	O
+use	232,235	O	O
+of	236,238	O	O
+the	239,242	O	O
+penalty	243,250	O	B-Process
+regulation	251,261	O	I-Process
+of	262,264	O	O
+normal	265,271	O	O
+contact	272,279	O	O
+constraint	280,290	O	O
+and	291,294	O	O
+inherit	295,302	O	O
+the	303,306	O	O
+conservation	307,319	O	O
+property	320,328	O	O
+from	329,333	O	O
+continuum	334,343	O	B-Task
+problems	344,352	O	I-Task
+.	352,353	O	O
+
+These	354,359	O	O
+conservation	360,372	O	B-Process
+schemes	373,380	O	I-Process
+can	381,384	O	O
+conveniently	385,397	O	O
+be	398,400	O	O
+combined	401,409	O	O
+with	410,414	O	O
+the	415,418	O	O
+finite	419,425	O	B-Process
+element	426,433	O	I-Process
+method	434,440	O	I-Process
+to	441,443	O	O
+simulate	444,452	O	B-Task
+frictionless	453,465	O	I-Task
+[	467,468	O	I-Task
+44	468,470	O	I-Task
+]	470,471	O	I-Task
+and	472,475	O	I-Task
+frictional	476,486	O	I-Task
+[	488,489	O	I-Task
+43	489,491	O	I-Task
+]	491,492	O	I-Task
+contact	493,500	O	I-Task
+and	501,504	O	I-Task
+collision	505,514	O	I-Task
+.	514,515	O	O
+
+Hesch	516,521	O	O
+and	522,525	O	O
+Betsch	526,532	O	O
+
+[	534,535	O	O
+45	535,537	O	O
+]	537,538	O	O
+formulated	539,549	O	O
+the	550,553	O	O
+node	554,558	O	B-Process
+-	558,559	O	I-Process
+to	559,561	O	I-Process
+-	561,562	O	I-Process
+segment	562,569	O	I-Process
+contact	570,577	O	I-Process
+method	578,584	O	I-Process
+and	585,588	O	O
+solved	589,595	O	O
+large	596,601	O	B-Task
+deformation	602,613	O	I-Task
+contact	614,621	O	I-Task
+problems	622,630	O	I-Task
+with	631,635	O	O
+the	636,639	O	O
+conserving	640,650	O	B-Process
+scheme	651,657	O	I-Process
+.	657,658	O	O
+
+More	659,663	O	O
+recently	664,672	O	O
+,	672,673	O	O
+an	674,676	O	O
+energy	677,683	O	B-Process
+and	684,687	O	I-Process
+momentum	688,696	O	I-Process
+-	696,697	O	I-Process
+conserving	697,707	O	I-Process
+temporal	708,716	O	I-Process
+discretization	717,731	O	I-Process
+scheme	732,738	O	I-Process
+[	740,741	O	O
+46	741,743	O	O
+]	743,744	O	O
+was	745,748	O	O
+developed	749,758	O	O
+for	759,762	O	O
+adhesive	763,771	O	B-Task
+contact	772,779	O	I-Task
+problems	780,788	O	I-Task
+without	789,796	O	O
+considering	797,808	O	O
+friction	809,817	O	B-Process
+and	818,821	O	O
+dissipation	822,833	O	B-Process
+.	833,834	O	O
+
+Even	835,839	O	O
+though	840,846	O	O
+the	847,850	O	O
+conserving	851,861	O	B-Process
+scheme	862,868	O	I-Process
+improves	869,877	O	O
+numerical	878,887	O	O
+stability	888,897	O	O
+,	897,898	O	O
+it	899,901	O	O
+also	902,906	O	O
+inherits	907,915	O	O
+from	916,920	O	O
+the	921,924	O	O
+penalty	925,932	O	O
+method	933,939	O	O
+the	940,943	O	O
+difficulty	944,954	O	O
+of	955,957	O	O
+having	958,964	O	O
+to	965,967	O	O
+determine	968,977	O	O
+penalty	978,985	O	O
+parameters	986,996	O	O
+.	996,997	O	O
+
+In	998,1000	O	O
+order	1001,1006	O	O
+to	1007,1009	O	O
+remove	1010,1016	O	O
+penalty	1017,1024	O	O
+sensitivity	1025,1036	O	O
+,	1036,1037	O	O
+Chawla	1038,1044	O	O
+and	1045,1048	O	O
+Laursen	1049,1056	O	O
+[	1058,1059	O	O
+47	1059,1061	O	O
+]	1061,1062	O	O
+proposed	1063,1071	O	O
+an	1072,1074	O	O
+energy	1075,1081	O	B-Process
+and	1082,1085	O	I-Process
+momentum	1086,1094	O	I-Process
+conserving	1095,1105	O	I-Process
+algorithm	1106,1115	O	I-Process
+,	1115,1116	O	O
+which	1117,1122	O	O
+makes	1123,1128	O	O
+use	1129,1132	O	O
+of	1133,1135	O	O
+Lagrange	1136,1144	O	O
+multipliers	1145,1156	O	O
+instead	1157,1164	O	O
+of	1165,1167	O	O
+penalty	1168,1175	O	O
+parameters	1176,1186	O	O
+.	1186,1187	O	O
 
 
 -DOCSTART- (S004578251400334X)
 
-In	0	2	O
-this	3	7	O
-article	8	15	O
-we	16	18	O
-propose	19	26	O
-a	27	28	O
-method	29	35	O
-which	36	41	O
-adopts	42	48	O
-a	49	50	O
-different	51	60	O
-approach	61	69	O
-to	70	72	O
-the	73	76	O
-generation	77	87	B-Process
-procedure	88	97	I-Process
-outlined	98	106	O
-above	107	112	O
-and	113	116	O
-that	117	121	O
-helps	122	127	O
-to	128	130	O
-address	131	138	O
-the	139	142	O
-problem	143	150	O
-of	151	153	O
-generating	154	164	B-Task
-high	165	169	I-Task
--	169	170	I-Task
-order	170	175	I-Task
-meshes	176	182	I-Task
-for	183	186	I-Task
-high	187	191	I-Task
-Reynolds	192	200	I-Task
-number	201	207	I-Task
-flows	208	213	I-Task
-.	213	214	O
-
-The	215	218	O
-method	219	225	O
-is	226	228	O
-conceptually	229	241	O
-simple	242	248	O
-,	248	249	O
-cheap	250	255	O
-to	256	258	O
-implement	259	268	O
-and	269	272	O
-does	273	277	O
-not	278	281	O
-require	282	289	O
-a	290	291	O
-dense	292	297	B-Material
-linear	298	304	I-Material
-boundary	305	313	I-Material
--	313	314	I-Material
-layer	314	319	I-Material
-mesh	320	324	I-Material
-.	324	325	O
-
-It	326	328	O
-is	329	331	O
-based	332	337	O
-on	338	340	O
-the	341	344	O
-use	345	348	O
-of	349	351	O
-an	352	354	O
-isoparametric	355	368	B-Process
-[	369	370	I-Process
-17	370	372	I-Process
-]	372	373	I-Process
-or	374	376	I-Process
-,	376	377	I-Process
-in	378	380	I-Process
-general	381	388	I-Process
-,	388	389	I-Process
-a	390	391	I-Process
-transfinite	392	403	I-Process
-interpolation	404	417	I-Process
-[	418	419	O
-18	419	421	O
-]	421	422	O
-where	423	428	O
-a	429	430	O
-high	431	435	B-Material
--	435	436	I-Material
-order	436	441	I-Material
-coarse	442	448	I-Material
-boundary	449	457	I-Material
--	457	458	I-Material
-layer	458	463	I-Material
-prismatic	464	473	I-Material
-mesh	474	478	I-Material
-is	479	481	O
-subdivided	482	492	B-Process
-into	493	497	I-Process
-either	498	504	I-Process
-prisms	505	511	I-Process
-or	512	514	I-Process
-tetrahedra	515	525	I-Process
-using	526	531	O
-the	532	535	O
-mapping	536	543	O
-that	544	548	O
-defines	549	556	O
-the	557	560	O
-coarse	561	567	B-Material
-high	568	572	I-Material
--	572	573	I-Material
-order	573	578	I-Material
-prisms	579	585	I-Material
-.	585	586	O
-
-The	587	590	O
-procedure	591	600	O
-is	601	603	O
-also	604	608	O
-very	609	613	O
-versatile	614	623	O
-as	624	626	O
-it	627	629	O
-permits	630	637	O
-meshes	638	644	B-Material
-with	645	649	O
-different	650	659	O
-distributions	660	673	O
-of	674	676	O
-y+	677	679	O
-to	680	682	O
-be	683	685	O
-generated	686	695	O
-with	696	700	O
-ease	701	705	O
-and	706	709	O
-furthermore	710	721	O
-,	721	722	O
-the	723	726	O
-validity	727	735	O
-of	736	738	O
-these	739	744	O
-meshes	745	751	B-Material
-is	752	754	O
-guaranteed	755	765	O
-if	766	768	O
-the	769	772	O
-initial	773	780	B-Material
-mesh	781	785	I-Material
-is	786	788	O
-valid	789	794	O
-and	795	798	O
-the	799	802	O
-polynomial	803	813	B-Material
-space	814	819	I-Material
-is	820	822	O
-chosen	823	829	O
-appropriately	830	843	O
-.	843	844	O
+In	0,2	O	O
+this	3,7	O	O
+article	8,15	O	O
+we	16,18	O	O
+propose	19,26	O	O
+a	27,28	O	O
+method	29,35	O	O
+which	36,41	O	O
+adopts	42,48	O	O
+a	49,50	O	O
+different	51,60	O	O
+approach	61,69	O	O
+to	70,72	O	O
+the	73,76	O	O
+generation	77,87	O	B-Process
+procedure	88,97	O	I-Process
+outlined	98,106	O	O
+above	107,112	O	O
+and	113,116	O	O
+that	117,121	O	O
+helps	122,127	O	O
+to	128,130	O	O
+address	131,138	O	O
+the	139,142	O	O
+problem	143,150	O	O
+of	151,153	O	O
+generating	154,164	O	B-Task
+high	165,169	O	I-Task
+-	169,170	O	I-Task
+order	170,175	O	I-Task
+meshes	176,182	O	I-Task
+for	183,186	O	I-Task
+high	187,191	O	I-Task
+Reynolds	192,200	O	I-Task
+number	201,207	O	I-Task
+flows	208,213	O	I-Task
+.	213,214	O	O
+
+The	215,218	O	O
+method	219,225	O	O
+is	226,228	O	O
+conceptually	229,241	O	O
+simple	242,248	O	O
+,	248,249	O	O
+cheap	250,255	O	O
+to	256,258	O	O
+implement	259,268	O	O
+and	269,272	O	O
+does	273,277	O	O
+not	278,281	O	O
+require	282,289	O	O
+a	290,291	O	O
+dense	292,297	O	B-Material
+linear	298,304	O	I-Material
+boundary	305,313	O	I-Material
+-	313,314	O	I-Material
+layer	314,319	O	I-Material
+mesh	320,324	O	I-Material
+.	324,325	O	O
+
+It	326,328	O	O
+is	329,331	O	O
+based	332,337	O	O
+on	338,340	O	O
+the	341,344	O	O
+use	345,348	O	O
+of	349,351	O	O
+an	352,354	O	O
+isoparametric	355,368	O	B-Process
+[	369,370	O	I-Process
+17	370,372	O	I-Process
+]	372,373	O	I-Process
+or	374,376	O	I-Process
+,	376,377	O	I-Process
+in	378,380	O	I-Process
+general	381,388	O	I-Process
+,	388,389	O	I-Process
+a	390,391	O	I-Process
+transfinite	392,403	O	I-Process
+interpolation	404,417	O	I-Process
+[	418,419	O	O
+18	419,421	O	O
+]	421,422	O	O
+where	423,428	O	O
+a	429,430	O	O
+high	431,435	O	B-Material
+-	435,436	O	I-Material
+order	436,441	O	I-Material
+coarse	442,448	O	I-Material
+boundary	449,457	O	I-Material
+-	457,458	O	I-Material
+layer	458,463	O	I-Material
+prismatic	464,473	O	I-Material
+mesh	474,478	O	I-Material
+is	479,481	O	O
+subdivided	482,492	O	B-Process
+into	493,497	O	I-Process
+either	498,504	O	I-Process
+prisms	505,511	O	I-Process
+or	512,514	O	I-Process
+tetrahedra	515,525	O	I-Process
+using	526,531	O	O
+the	532,535	O	O
+mapping	536,543	O	O
+that	544,548	O	O
+defines	549,556	O	O
+the	557,560	O	O
+coarse	561,567	O	B-Material
+high	568,572	O	I-Material
+-	572,573	O	I-Material
+order	573,578	O	I-Material
+prisms	579,585	O	I-Material
+.	585,586	O	O
+
+The	587,590	O	O
+procedure	591,600	O	O
+is	601,603	O	O
+also	604,608	O	O
+very	609,613	O	O
+versatile	614,623	O	O
+as	624,626	O	O
+it	627,629	O	O
+permits	630,637	O	O
+meshes	638,644	O	B-Material
+with	645,649	O	O
+different	650,659	O	O
+distributions	660,673	O	O
+of	674,676	O	O
+y+	677,679	O	O
+to	680,682	O	O
+be	683,685	O	O
+generated	686,695	O	O
+with	696,700	O	O
+ease	701,705	O	O
+and	706,709	O	O
+furthermore	710,721	O	O
+,	721,722	O	O
+the	723,726	O	O
+validity	727,735	O	O
+of	736,738	O	O
+these	739,744	O	O
+meshes	745,751	O	B-Material
+is	752,754	O	O
+guaranteed	755,765	O	O
+if	766,768	O	O
+the	769,772	O	O
+initial	773,780	O	B-Material
+mesh	781,785	O	I-Material
+is	786,788	O	O
+valid	789,794	O	O
+and	795,798	O	O
+the	799,802	O	O
+polynomial	803,813	O	B-Material
+space	814,819	O	I-Material
+is	820,822	O	O
+chosen	823,829	O	O
+appropriately	830,843	O	O
+.	843,844	O	O
 
 
 -DOCSTART- (S0045782514004812)
 
-We	0	2	O
-shall	3	8	O
-establish	9	18	O
-the	19	22	O
-variational	23	34	B-Material
-format	35	41	I-Material
-in	42	44	I-Material
-the	45	48	I-Material
-space	49	54	I-Material
-–	54	55	I-Material
-time	55	59	I-Material
-domain	60	66	I-Material
-S	67	68	B-Material
-=	68	69	I-Material
-defΩ×I	69	75	I-Material
-,	75	76	O
-for	77	80	O
-given	81	86	O
-spatial	87	94	B-Material
-domain	95	101	I-Material
-Ω	102	103	I-Material
-and	104	107	O
-time	108	112	B-Material
-domain	113	119	I-Material
-I=(0,T	120	126	I-Material
-)	126	127	I-Material
-,	127	128	O
-for	129	132	O
-a	133	134	O
-quite	135	140	O
-broad	141	146	O
-class	147	152	O
-of	153	155	O
-problems	156	164	O
-involving	165	174	O
-a	175	176	O
-first	177	182	B-Task
-order	183	188	I-Task
-time	189	193	I-Task
--	193	194	I-Task
-derivative	194	204	I-Task
-.	204	205	O
-
-In	206	208	O
-particular	209	219	O
-,	219	220	O
-the	221	224	O
-coupled	225	232	B-Task
-problem	233	240	I-Task
-of	241	243	I-Task
-consolidation	244	257	I-Task
-of	258	260	I-Task
-geomaterials	261	273	I-Task
-falls	274	279	O
-within	280	286	O
-this	287	291	O
-class	292	297	O
-.	297	298	O
-
-Another	299	306	O
-interesting	307	318	O
-application	319	330	O
-is	331	333	O
-the	334	337	O
-problem	338	345	B-Task
-of	346	348	I-Task
-dynamics	349	357	I-Task
-,	357	358	I-Task
-rewritten	359	368	I-Task
-in	369	371	I-Task
-first	372	377	I-Task
--	377	378	I-Task
-order	378	383	I-Task
-form	384	388	I-Task
-,	388	389	O
-i.e.	390	394	O
-through	395	402	O
-a	403	404	O
-Hamiltonian	405	416	B-Task
-description	417	428	I-Task
-.	428	429	O
-
-It	430	432	O
-is	433	435	O
-of	436	438	O
-considerable	439	451	O
-interest	452	460	O
-to	461	463	O
-note	464	468	O
-from	469	473	O
-the	474	477	O
-outset	478	484	O
-that	485	489	O
-,	489	490	O
-due	491	494	O
-to	495	497	O
-the	498	501	O
-forward	502	509	O
-transport	510	519	O
-of	520	522	O
-information	523	534	O
-in	535	537	O
-time	538	542	O
-,	542	543	O
-it	544	546	O
-is	547	549	O
-always	550	556	O
-possible	557	565	O
-to	566	568	O
-consider	569	577	O
-a	578	579	O
-set	580	583	O
-of	584	586	O
-finite	587	593	O
-time	594	598	O
-intervals	599	608	O
-,	608	609	O
-whereby	610	617	O
-the	618	621	O
-solution	622	630	O
-at	631	633	O
-the	634	637	O
-end	638	641	O
-of	642	644	O
-any	645	648	O
-such	649	653	O
-interval	654	662	O
-will	663	667	O
-act	668	671	O
-as	672	674	O
-the	675	678	O
-initial	679	686	O
-data	687	691	O
-for	692	695	O
-the	696	699	O
-next	700	704	O
-one	705	708	O
-.	708	709	O
-
-To	710	712	O
-this	713	717	O
-end	718	721	O
-,	721	722	O
-we	723	725	O
-introduce	726	735	O
-a	736	737	O
-partition	738	747	O
-0=t0<t1<⋯<tN	748	760	O
-
-=	760	761	O
-T	761	762	O
-of	763	765	O
-the	766	769	O
-considered	770	780	O
-time	781	785	O
-domain	786	792	O
-I=(0,T	793	799	O
-)	799	800	O
-into	801	805	O
-time	806	810	O
--	810	811	O
-intervals	811	820	O
-In=(tn−1,tn	821	832	O
-)	832	833	O
-of	834	836	O
-length	837	843	O
-Δtn	844	847	O
-
-=	847	848	O
-tn−tn−1.11The	848	861	O
-abbreviated	862	873	O
-notation	874	882	O
-Δt=Δtn	883	889	O
-will	890	894	O
-be	895	897	O
-used	898	902	O
-henceforth	903	913	O
-for	914	917	O
-the	918	921	O
-current	922	929	O
-time	930	934	O
-step	935	939	O
-associated	940	950	O
-with	951	955	O
-In	956	958	O
-.	958	959	O
-
-Hence	960	965	O
-,	965	966	O
-we	967	969	O
-define	970	976	O
-
-space	977	982	B-Material
-–	982	983	I-Material
-time	983	987	I-Material
-slabs	988	993	I-Material
-Sn	994	996	O
-
-=	996	997	O
-defΩ×In	997	1004	O
-such	1005	1009	O
-
-that	1010	1014	O
-the	1015	1018	O
-space	1019	1024	O
-–	1024	1025	O
-
-time	1025	1029	O
-domain	1030	1036	O
-can	1037	1040	O
-be	1041	1043	O
-given	1044	1049	O
-as	1050	1052	O
-S	1053	1054	B-Material
-=	1054	1055	I-Material
-defΩ×I	1055	1061	I-Material
-=	1061	1062	I-Material
-S1∪S2⋯∪Sn	1062	1071	I-Material
-.	1071	1072	O
+We	0,2	O	O
+shall	3,8	O	O
+establish	9,18	O	O
+the	19,22	O	O
+variational	23,34	O	B-Material
+format	35,41	O	I-Material
+in	42,44	O	I-Material
+the	45,48	O	I-Material
+space	49,54	O	I-Material
+–	54,55	O	I-Material
+time	55,59	O	I-Material
+domain	60,66	O	I-Material
+S	67,68	O	B-Material
+=	68,69	O	I-Material
+defΩ×I	69,75	O	I-Material
+,	75,76	O	O
+for	77,80	O	O
+given	81,86	O	O
+spatial	87,94	O	B-Material
+domain	95,101	O	I-Material
+Ω	102,103	O	I-Material
+and	104,107	O	O
+time	108,112	O	B-Material
+domain	113,119	O	I-Material
+I=(0,T	120,126	O	I-Material
+)	126,127	O	I-Material
+,	127,128	O	O
+for	129,132	O	O
+a	133,134	O	O
+quite	135,140	O	O
+broad	141,146	O	O
+class	147,152	O	O
+of	153,155	O	O
+problems	156,164	O	O
+involving	165,174	O	O
+a	175,176	O	O
+first	177,182	O	B-Task
+order	183,188	O	I-Task
+time	189,193	O	I-Task
+-	193,194	O	I-Task
+derivative	194,204	O	I-Task
+.	204,205	O	O
+
+In	206,208	O	O
+particular	209,219	O	O
+,	219,220	O	O
+the	221,224	O	O
+coupled	225,232	O	B-Task
+problem	233,240	O	I-Task
+of	241,243	O	I-Task
+consolidation	244,257	O	I-Task
+of	258,260	O	I-Task
+geomaterials	261,273	O	I-Task
+falls	274,279	O	O
+within	280,286	O	O
+this	287,291	O	O
+class	292,297	O	O
+.	297,298	O	O
+
+Another	299,306	O	O
+interesting	307,318	O	O
+application	319,330	O	O
+is	331,333	O	O
+the	334,337	O	O
+problem	338,345	O	B-Task
+of	346,348	O	I-Task
+dynamics	349,357	O	I-Task
+,	357,358	O	I-Task
+rewritten	359,368	O	I-Task
+in	369,371	O	I-Task
+first	372,377	O	I-Task
+-	377,378	O	I-Task
+order	378,383	O	I-Task
+form	384,388	O	I-Task
+,	388,389	O	O
+i.e.	390,394	O	O
+through	395,402	O	O
+a	403,404	O	O
+Hamiltonian	405,416	O	B-Task
+description	417,428	O	I-Task
+.	428,429	O	O
+
+It	430,432	O	O
+is	433,435	O	O
+of	436,438	O	O
+considerable	439,451	O	O
+interest	452,460	O	O
+to	461,463	O	O
+note	464,468	O	O
+from	469,473	O	O
+the	474,477	O	O
+outset	478,484	O	O
+that	485,489	O	O
+,	489,490	O	O
+due	491,494	O	O
+to	495,497	O	O
+the	498,501	O	O
+forward	502,509	O	O
+transport	510,519	O	O
+of	520,522	O	O
+information	523,534	O	O
+in	535,537	O	O
+time	538,542	O	O
+,	542,543	O	O
+it	544,546	O	O
+is	547,549	O	O
+always	550,556	O	O
+possible	557,565	O	O
+to	566,568	O	O
+consider	569,577	O	O
+a	578,579	O	O
+set	580,583	O	O
+of	584,586	O	O
+finite	587,593	O	O
+time	594,598	O	O
+intervals	599,608	O	O
+,	608,609	O	O
+whereby	610,617	O	O
+the	618,621	O	O
+solution	622,630	O	O
+at	631,633	O	O
+the	634,637	O	O
+end	638,641	O	O
+of	642,644	O	O
+any	645,648	O	O
+such	649,653	O	O
+interval	654,662	O	O
+will	663,667	O	O
+act	668,671	O	O
+as	672,674	O	O
+the	675,678	O	O
+initial	679,686	O	O
+data	687,691	O	O
+for	692,695	O	O
+the	696,699	O	O
+next	700,704	O	O
+one	705,708	O	O
+.	708,709	O	O
+
+To	710,712	O	O
+this	713,717	O	O
+end	718,721	O	O
+,	721,722	O	O
+we	723,725	O	O
+introduce	726,735	O	O
+a	736,737	O	O
+partition	738,747	O	O
+0=t0<t1<⋯<tN	748,760	O	O
+
+=	760,761	O	O
+T	761,762	O	O
+of	763,765	O	O
+the	766,769	O	O
+considered	770,780	O	O
+time	781,785	O	O
+domain	786,792	O	O
+I=(0,T	793,799	O	O
+)	799,800	O	O
+into	801,805	O	O
+time	806,810	O	O
+-	810,811	O	O
+intervals	811,820	O	O
+In=(tn−1,tn	821,832	O	O
+)	832,833	O	O
+of	834,836	O	O
+length	837,843	O	O
+Δtn	844,847	O	O
+
+=	847,848	O	O
+tn−tn−1.11The	848,861	O	O
+abbreviated	862,873	O	O
+notation	874,882	O	O
+Δt=Δtn	883,889	O	O
+will	890,894	O	O
+be	895,897	O	O
+used	898,902	O	O
+henceforth	903,913	O	O
+for	914,917	O	O
+the	918,921	O	O
+current	922,929	O	O
+time	930,934	O	O
+step	935,939	O	O
+associated	940,950	O	O
+with	951,955	O	O
+In	956,958	O	O
+.	958,959	O	O
+
+Hence	960,965	O	O
+,	965,966	O	O
+we	967,969	O	O
+define	970,976	O	O
+
+space	977,982	O	B-Material
+–	982,983	O	I-Material
+time	983,987	O	I-Material
+slabs	988,993	O	I-Material
+Sn	994,996	O	O
+
+=	996,997	O	O
+defΩ×In	997,1004	O	O
+such	1005,1009	O	O
+
+that	1010,1014	O	O
+the	1015,1018	O	O
+space	1019,1024	O	O
+–	1024,1025	O	O
+
+time	1025,1029	O	O
+domain	1030,1036	O	O
+can	1037,1040	O	O
+be	1041,1043	O	O
+given	1044,1049	O	O
+as	1050,1052	O	O
+S	1053,1054	O	B-Material
+=	1054,1055	O	I-Material
+defΩ×I	1055,1061	O	I-Material
+=	1061,1062	O	I-Material
+S1∪S2⋯∪Sn	1062,1071	O	I-Material
+.	1071,1072	O	O
 
 
 -DOCSTART- (S0045782515001231)
 
-Isogeometric	0	12	B-Task
-analysis	13	21	I-Task
-.	21	22	O
-
-The	23	26	O
-central	27	34	O
-idea	35	39	O
-of	40	42	O
-isogeometric	43	55	B-Task
-analysis	56	64	I-Task
-is	65	67	O
-to	68	70	O
-use	71	74	O
-the	75	78	O
-same	79	83	O
-ansatz	84	90	B-Process
-functions	91	100	I-Process
-for	101	104	O
-the	105	108	O
-discretization	109	123	O
-of	124	126	O
-the	127	130	O
-partial	131	138	O
-differential	139	151	O
-equation	152	160	O
-at	161	163	O
-hand	164	168	O
-,	168	169	O
-as	170	172	O
-are	173	176	O
-used	177	181	O
-for	182	185	O
-the	186	189	O
-representation	190	204	O
-of	205	207	O
-the	208	211	O
-problem	212	219	B-Task
-geometry	220	228	I-Task
-.	228	229	O
-
-Usually	230	237	O
-,	237	238	O
-the	239	242	O
-problem	243	250	B-Process
-geometry	251	259	I-Process
-Ω	260	261	O
-is	262	264	O
-represented	265	276	O
-in	277	279	O
-computer	280	288	B-Process
-aided	289	294	I-Process
-design	295	301	I-Process
-(	302	303	O
-CAD	303	306	B-Process
-)	306	307	O
-by	308	310	O
-means	311	316	O
-of	317	319	O
-NURBS	320	325	B-Material
-or	326	328	O
-T	329	330	B-Material
--	330	331	I-Material
-splines	331	338	I-Material
-.	338	339	O
-
-This	340	344	O
-concept	345	352	O
-,	352	353	O
-originally	354	364	O
-invented	365	373	O
-in	374	376	O
-[	378	379	O
-1	379	380	O
-]	380	381	O
-for	382	385	O
-finite	386	392	B-Process
-element	393	400	I-Process
-methods	401	408	I-Process
-(	409	410	O
-IGAFEM	410	416	B-Process
-)	416	417	O
-has	418	421	O
-proved	422	428	O
-very	429	433	O
-fruitful	434	442	O
-in	443	445	O
-applications	446	458	O
-[	460	461	O
-1,2	461	464	O
-]	464	465	O
-;	465	466	O
-see	467	470	O
-also	471	475	O
-the	476	479	O
-monograph	480	489	O
-[	491	492	O
-3	492	493	O
-]	493	494	O
-.	494	495	O
-
-Since	496	501	O
-CAD	502	505	B-Process
-directly	506	514	O
-provides	515	523	O
-a	524	525	O
-parametrization	526	541	O
-of	542	544	O
-the	545	548	O
-boundary	549	557	O
-∂Ω	558	560	O
-,	560	561	O
-this	562	566	O
-makes	567	572	O
-the	573	576	O
-boundary	577	585	B-Process
-element	586	593	I-Process
-method	594	600	I-Process
-(	601	602	O
-BEM	602	605	B-Process
-)	605	606	O
-the	607	610	O
-most	611	615	O
-attractive	616	626	O
-numerical	627	636	B-Process
-scheme	637	643	I-Process
-,	643	644	O
-if	645	647	O
-applicable	648	658	O
-(	659	660	O
-i.e.	660	664	O
-,	664	665	O
-provided	666	674	O
-that	675	679	O
-the	680	683	O
-fundamental	684	695	O
-solution	696	704	O
-of	705	707	O
-the	708	711	O
-differential	712	724	O
-operator	725	733	O
-is	734	736	O
-explicitly	737	747	O
-known	748	753	O
-)	753	754	O
-.	754	755	O
-
-Isogeometric	756	768	B-Process
-BEM	769	772	I-Process
-(	773	774	O
-IGABEM	774	780	B-Process
-)	780	781	O
-has	782	785	O
-first	786	791	O
-been	792	796	O
-considered	797	807	O
-for	808	811	O
-2D	812	814	B-Process
-BEM	815	818	I-Process
-in	819	821	O
-[	823	824	O
-4	824	825	O
-]	825	826	O
-and	827	830	O
-for	831	834	O
-3D	835	837	B-Process
-BEM	838	841	I-Process
-in	842	844	O
-[	846	847	O
-5	847	848	O
-]	848	849	O
-.	849	850	O
-
-Unlike	851	857	O
-standard	858	866	B-Process
-BEM	867	870	I-Process
-with	871	875	O
-piecewise	876	885	O
-polynomials	886	897	O
-which	898	903	O
-is	904	906	O
-well	907	911	O
--	911	912	O
-studied	912	919	O
-in	920	922	O
-the	923	926	O
-literature	927	937	O
-,	937	938	O
-cf	939	941	O
-.	941	942	O
-
-the	943	946	O
-monographs	947	957	O
-[	959	960	O
-6,7	960	963	O
-]	963	964	O
-and	965	968	O
-the	969	972	O
-references	973	983	O
-therein	984	991	O
-,	991	992	O
-the	993	996	O
-numerical	997	1006	B-Task
-analysis	1007	1015	I-Task
-of	1016	1018	I-Task
-IGABEM	1019	1025	I-Task
-is	1026	1028	O
-essentially	1029	1040	O
-open	1041	1045	O
-.	1045	1046	O
-
-We	1047	1049	O
-only	1050	1054	O
-refer	1055	1060	O
-to	1061	1063	O
-
-[	1065	1066	O
-2,8–10	1066	1072	O
-]	1072	1073	O
-for	1074	1077	O
-numerical	1078	1087	O
-experiments	1088	1099	O
-and	1100	1103	O
-to	1104	1106	O
-[	1108	1109	O
-11	1109	1111	O
-]	1111	1112	O
-for	1113	1116	O
-some	1117	1121	O
-quadrature	1122	1132	B-Task
-analysis	1133	1141	I-Task
-.	1141	1142	O
-
-In	1143	1145	O
-particular	1146	1156	O
-,	1156	1157	O
-a	1158	1159	B-Process
-posteriori	1160	1170	I-Process
-error	1171	1176	I-Process
-estimation	1177	1187	I-Process
-has	1188	1191	O
-been	1192	1196	O
-well	1197	1201	O
--	1201	1202	O
-studied	1202	1209	O
-for	1210	1213	O
-standard	1214	1222	B-Process
-BEM	1223	1226	I-Process
-,	1226	1227	O
-e.g.	1228	1232	O
-,	1232	1233	O
-[	1235	1236	O
-12–18	1236	1241	O
-]	1241	1242	O
-as	1243	1245	O
-well	1246	1250	O
-as	1251	1253	O
-the	1254	1257	O
-recent	1258	1264	O
-overview	1265	1273	O
-article	1274	1281	O
-[	1283	1284	O
-19	1284	1286	O
-]	1286	1287	O
-,	1287	1288	O
-but	1289	1292	O
-has	1293	1296	O
-not	1297	1300	O
-been	1301	1305	O
-treated	1306	1313	O
-for	1314	1317	O
-IGABEM	1318	1324	B-Process
-so	1325	1327	O
-far	1328	1331	O
-.	1331	1332	O
-
-The	1333	1336	O
-purpose	1337	1344	O
-of	1345	1347	O
-the	1348	1351	O
-present	1352	1359	O
-work	1360	1364	O
-is	1365	1367	O
-to	1368	1370	O
-shed	1371	1375	B-Task
-some	1376	1380	I-Task
-first	1381	1386	I-Task
-light	1387	1392	I-Task
-on	1393	1395	I-Task
-a	1396	1397	I-Task
-posteriori	1398	1408	I-Task
-error	1409	1414	I-Task
-analysis	1415	1423	I-Task
-for	1424	1427	I-Task
-IGABEM	1428	1434	I-Task
-which	1435	1440	O
-provides	1441	1449	O
-some	1450	1454	O
-mathematical	1455	1467	B-Task
-foundation	1468	1478	I-Task
-of	1479	1481	I-Task
-a	1482	1483	I-Task
-corresponding	1484	1497	I-Task
-adaptive	1498	1506	I-Task
-algorithm	1507	1516	I-Task
-.	1516	1517	O
+Isogeometric	0,12	O	B-Task
+analysis	13,21	O	I-Task
+.	21,22	O	O
+
+The	23,26	O	O
+central	27,34	O	O
+idea	35,39	O	O
+of	40,42	O	O
+isogeometric	43,55	O	B-Task
+analysis	56,64	O	I-Task
+is	65,67	O	O
+to	68,70	O	O
+use	71,74	O	O
+the	75,78	O	O
+same	79,83	O	O
+ansatz	84,90	O	B-Process
+functions	91,100	O	I-Process
+for	101,104	O	O
+the	105,108	O	O
+discretization	109,123	O	O
+of	124,126	O	O
+the	127,130	O	O
+partial	131,138	O	O
+differential	139,151	O	O
+equation	152,160	O	O
+at	161,163	O	O
+hand	164,168	O	O
+,	168,169	O	O
+as	170,172	O	O
+are	173,176	O	O
+used	177,181	O	O
+for	182,185	O	O
+the	186,189	O	O
+representation	190,204	O	O
+of	205,207	O	O
+the	208,211	O	O
+problem	212,219	O	B-Task
+geometry	220,228	O	I-Task
+.	228,229	O	O
+
+Usually	230,237	O	O
+,	237,238	O	O
+the	239,242	O	O
+problem	243,250	O	B-Process
+geometry	251,259	O	I-Process
+Ω	260,261	O	O
+is	262,264	O	O
+represented	265,276	O	O
+in	277,279	O	O
+computer	280,288	O	B-Process
+aided	289,294	O	I-Process
+design	295,301	O	I-Process
+(	302,303	O	O
+CAD	303,306	O	B-Process
+)	306,307	O	O
+by	308,310	O	O
+means	311,316	O	O
+of	317,319	O	O
+NURBS	320,325	O	B-Material
+or	326,328	O	O
+T	329,330	O	B-Material
+-	330,331	O	I-Material
+splines	331,338	O	I-Material
+.	338,339	O	O
+
+This	340,344	O	O
+concept	345,352	O	O
+,	352,353	O	O
+originally	354,364	O	O
+invented	365,373	O	O
+in	374,376	O	O
+[	378,379	O	O
+1	379,380	O	O
+]	380,381	O	O
+for	382,385	O	O
+finite	386,392	O	B-Process
+element	393,400	O	I-Process
+methods	401,408	O	I-Process
+(	409,410	O	O
+IGAFEM	410,416	O	B-Process
+)	416,417	O	O
+has	418,421	O	O
+proved	422,428	O	O
+very	429,433	O	O
+fruitful	434,442	O	O
+in	443,445	O	O
+applications	446,458	O	O
+[	460,461	O	O
+1,2	461,464	O	O
+]	464,465	O	O
+;	465,466	O	O
+see	467,470	O	O
+also	471,475	O	O
+the	476,479	O	O
+monograph	480,489	O	O
+[	491,492	O	O
+3	492,493	O	O
+]	493,494	O	O
+.	494,495	O	O
+
+Since	496,501	O	O
+CAD	502,505	O	B-Process
+directly	506,514	O	O
+provides	515,523	O	O
+a	524,525	O	O
+parametrization	526,541	O	O
+of	542,544	O	O
+the	545,548	O	O
+boundary	549,557	O	O
+∂Ω	558,560	O	O
+,	560,561	O	O
+this	562,566	O	O
+makes	567,572	O	O
+the	573,576	O	O
+boundary	577,585	O	B-Process
+element	586,593	O	I-Process
+method	594,600	O	I-Process
+(	601,602	O	O
+BEM	602,605	O	B-Process
+)	605,606	O	O
+the	607,610	O	O
+most	611,615	O	O
+attractive	616,626	O	O
+numerical	627,636	O	B-Process
+scheme	637,643	O	I-Process
+,	643,644	O	O
+if	645,647	O	O
+applicable	648,658	O	O
+(	659,660	O	O
+i.e.	660,664	O	O
+,	664,665	O	O
+provided	666,674	O	O
+that	675,679	O	O
+the	680,683	O	O
+fundamental	684,695	O	O
+solution	696,704	O	O
+of	705,707	O	O
+the	708,711	O	O
+differential	712,724	O	O
+operator	725,733	O	O
+is	734,736	O	O
+explicitly	737,747	O	O
+known	748,753	O	O
+)	753,754	O	O
+.	754,755	O	O
+
+Isogeometric	756,768	O	B-Process
+BEM	769,772	O	I-Process
+(	773,774	O	O
+IGABEM	774,780	O	B-Process
+)	780,781	O	O
+has	782,785	O	O
+first	786,791	O	O
+been	792,796	O	O
+considered	797,807	O	O
+for	808,811	O	O
+2D	812,814	O	B-Process
+BEM	815,818	O	I-Process
+in	819,821	O	O
+[	823,824	O	O
+4	824,825	O	O
+]	825,826	O	O
+and	827,830	O	O
+for	831,834	O	O
+3D	835,837	O	B-Process
+BEM	838,841	O	I-Process
+in	842,844	O	O
+[	846,847	O	O
+5	847,848	O	O
+]	848,849	O	O
+.	849,850	O	O
+
+Unlike	851,857	O	O
+standard	858,866	O	B-Process
+BEM	867,870	O	I-Process
+with	871,875	O	O
+piecewise	876,885	O	O
+polynomials	886,897	O	O
+which	898,903	O	O
+is	904,906	O	O
+well	907,911	O	O
+-	911,912	O	O
+studied	912,919	O	O
+in	920,922	O	O
+the	923,926	O	O
+literature	927,937	O	O
+,	937,938	O	O
+cf	939,941	O	O
+.	941,942	O	O
+
+the	943,946	O	O
+monographs	947,957	O	O
+[	959,960	O	O
+6,7	960,963	O	O
+]	963,964	O	O
+and	965,968	O	O
+the	969,972	O	O
+references	973,983	O	O
+therein	984,991	O	O
+,	991,992	O	O
+the	993,996	O	O
+numerical	997,1006	O	B-Task
+analysis	1007,1015	O	I-Task
+of	1016,1018	O	I-Task
+IGABEM	1019,1025	O	I-Task
+is	1026,1028	O	O
+essentially	1029,1040	O	O
+open	1041,1045	O	O
+.	1045,1046	O	O
+
+We	1047,1049	O	O
+only	1050,1054	O	O
+refer	1055,1060	O	O
+to	1061,1063	O	O
+
+[	1065,1066	O	O
+2,8–10	1066,1072	O	O
+]	1072,1073	O	O
+for	1074,1077	O	O
+numerical	1078,1087	O	O
+experiments	1088,1099	O	O
+and	1100,1103	O	O
+to	1104,1106	O	O
+[	1108,1109	O	O
+11	1109,1111	O	O
+]	1111,1112	O	O
+for	1113,1116	O	O
+some	1117,1121	O	O
+quadrature	1122,1132	O	B-Task
+analysis	1133,1141	O	I-Task
+.	1141,1142	O	O
+
+In	1143,1145	O	O
+particular	1146,1156	O	O
+,	1156,1157	O	O
+a	1158,1159	O	B-Process
+posteriori	1160,1170	O	I-Process
+error	1171,1176	O	I-Process
+estimation	1177,1187	O	I-Process
+has	1188,1191	O	O
+been	1192,1196	O	O
+well	1197,1201	O	O
+-	1201,1202	O	O
+studied	1202,1209	O	O
+for	1210,1213	O	O
+standard	1214,1222	O	B-Process
+BEM	1223,1226	O	I-Process
+,	1226,1227	O	O
+e.g.	1228,1232	O	O
+,	1232,1233	O	O
+[	1235,1236	O	O
+12–18	1236,1241	O	O
+]	1241,1242	O	O
+as	1243,1245	O	O
+well	1246,1250	O	O
+as	1251,1253	O	O
+the	1254,1257	O	O
+recent	1258,1264	O	O
+overview	1265,1273	O	O
+article	1274,1281	O	O
+[	1283,1284	O	O
+19	1284,1286	O	O
+]	1286,1287	O	O
+,	1287,1288	O	O
+but	1289,1292	O	O
+has	1293,1296	O	O
+not	1297,1300	O	O
+been	1301,1305	O	O
+treated	1306,1313	O	O
+for	1314,1317	O	O
+IGABEM	1318,1324	O	B-Process
+so	1325,1327	O	O
+far	1328,1331	O	O
+.	1331,1332	O	O
+
+The	1333,1336	O	O
+purpose	1337,1344	O	O
+of	1345,1347	O	O
+the	1348,1351	O	O
+present	1352,1359	O	O
+work	1360,1364	O	O
+is	1365,1367	O	O
+to	1368,1370	O	O
+shed	1371,1375	O	B-Task
+some	1376,1380	O	I-Task
+first	1381,1386	O	I-Task
+light	1387,1392	O	I-Task
+on	1393,1395	O	I-Task
+a	1396,1397	O	I-Task
+posteriori	1398,1408	O	I-Task
+error	1409,1414	O	I-Task
+analysis	1415,1423	O	I-Task
+for	1424,1427	O	I-Task
+IGABEM	1428,1434	O	I-Task
+which	1435,1440	O	O
+provides	1441,1449	O	O
+some	1450,1454	O	O
+mathematical	1455,1467	O	B-Task
+foundation	1468,1478	O	I-Task
+of	1479,1481	O	I-Task
+a	1482,1483	O	I-Task
+corresponding	1484,1497	O	I-Task
+adaptive	1498,1506	O	I-Task
+algorithm	1507,1516	O	I-Task
+.	1516,1517	O	O
 
 
 -DOCSTART- (S0045782515001899)
 
-In	0	2	O
-recent	3	9	O
-years	10	15	O
-,	15	16	O
-the	17	20	O
-Discontinuous	21	34	B-Process
-Galerkin	35	43	I-Process
-(	44	45	O
-DG	45	47	B-Process
-)	47	48	O
-method	49	55	O
-has	56	59	O
-emerged	60	67	O
-as	68	70	O
-a	71	72	O
-more	73	77	O
-thorough	78	86	O
-alternative	87	98	O
-for	99	102	O
-locally	103	110	O
-solving	111	118	B-Task
-conservation	119	131	I-Task
-laws	132	136	I-Task
-of	137	139	I-Task
-the	140	143	I-Task
-shallow	144	151	I-Task
-water	152	157	I-Task
-equations	158	167	I-Task
-with	168	172	O
-higher	173	179	O
-accuracy	180	188	O
-
-[	190	191	O
-21–27	191	196	O
-]	196	197	O
-.	197	198	O
-
-The	199	202	O
-DG	203	205	B-Process
-method	206	212	I-Process
-further	213	220	O
-involves	221	229	O
-finite	230	236	B-Process
-element	237	244	I-Process
-weak	245	249	I-Process
-formulation	250	261	I-Process
-to	262	264	O
-–	264	265	O
-inherently	265	275	O
-from	276	280	O
-conservation	281	293	B-Process
-principles	294	304	I-Process
-–	304	305	O
-shape	305	310	B-Task
-a	311	312	I-Task
-piecewise	313	322	I-Task
--	322	323	I-Task
-polynomial	323	333	I-Task
-solution	334	342	I-Task
-over	343	347	I-Task
-each	348	352	I-Task
-local	353	358	I-Task
-discrete	359	367	I-Task
-cell	368	372	I-Task
-,	372	373	O
-via	374	377	O
-local	378	383	B-Process
-basis	384	389	I-Process
-functions	390	399	I-Process
-.	399	400	O
-
-On	401	403	O
-this	404	408	O
-basis	409	414	O
-,	414	415	O
-the	416	419	O
-DG	420	422	B-Process
-polynomial	423	433	I-Process
-accuracy	434	442	I-Process
-is	443	445	O
-spanned	446	453	O
-by	454	456	O
-a	457	458	O
-set	459	462	O
-of	463	465	O
-coefficients	466	478	O
-,	478	479	O
-describing	480	490	O
-accuracy	491	499	O
-information	500	511	O
-,	511	512	O
-which	513	518	O
-are	519	522	O
-all	523	526	O
-locally	527	534	O
-evolved	535	542	O
-in	543	545	O
-time	546	550	O
-from	551	555	O
-conservation	556	568	B-Process
-principles	569	579	I-Process
-at	580	582	O
-the	583	586	O
-discrete	587	595	O
-level	596	601	O
-,	601	602	O
-with	603	607	O
-an	608	610	O
-arbitrary	611	620	O
-order	621	626	O
-of	627	629	O
-accuracy	630	638	O
-.	638	639	O
-
-A	640	641	O
-DG	642	644	B-Task
--	644	645	I-Task
-based	645	650	I-Task
-shallow	651	658	I-Task
-water	659	664	I-Task
-model	665	670	I-Task
-appeals	671	678	O
-in	679	681	O
-providing	682	691	O
-higher	692	698	O
-quality	699	706	O
-solutions	707	716	O
-on	717	719	O
-very	720	724	B-Material
-coarse	725	731	I-Material
-meshes	732	738	I-Material
-than	739	743	O
-a	744	745	O
-traditional	746	757	O
-finite	758	764	O
-volume	765	771	O
-counterpart	772	783	O
-,	783	784	O
-but	785	788	O
-is	789	791	O
-comparatively	792	805	O
-expensive	806	815	O
-to	816	818	O
-run	819	822	O
-and	823	826	O
-imposes	827	834	O
-a	835	836	O
-more	837	841	O
-restrictive	842	853	O
-stability	854	863	O
-condition	864	873	O
-for	874	877	O
-the	878	881	O
-CFL	882	885	B-Process
-number	886	892	I-Process
-[	894	895	O
-28,29	895	900	O
-]	900	901	O
-.	901	902	O
+In	0,2	O	O
+recent	3,9	O	O
+years	10,15	O	O
+,	15,16	O	O
+the	17,20	O	O
+Discontinuous	21,34	O	B-Process
+Galerkin	35,43	O	I-Process
+(	44,45	O	O
+DG	45,47	O	B-Process
+)	47,48	O	O
+method	49,55	O	O
+has	56,59	O	O
+emerged	60,67	O	O
+as	68,70	O	O
+a	71,72	O	O
+more	73,77	O	O
+thorough	78,86	O	O
+alternative	87,98	O	O
+for	99,102	O	O
+locally	103,110	O	O
+solving	111,118	O	B-Task
+conservation	119,131	O	I-Task
+laws	132,136	O	I-Task
+of	137,139	O	I-Task
+the	140,143	O	I-Task
+shallow	144,151	O	I-Task
+water	152,157	O	I-Task
+equations	158,167	O	I-Task
+with	168,172	O	O
+higher	173,179	O	O
+accuracy	180,188	O	O
+
+[	190,191	O	O
+21–27	191,196	O	O
+]	196,197	O	O
+.	197,198	O	O
+
+The	199,202	O	O
+DG	203,205	O	B-Process
+method	206,212	O	I-Process
+further	213,220	O	O
+involves	221,229	O	O
+finite	230,236	O	B-Process
+element	237,244	O	I-Process
+weak	245,249	O	I-Process
+formulation	250,261	O	I-Process
+to	262,264	O	O
+–	264,265	O	O
+inherently	265,275	O	O
+from	276,280	O	O
+conservation	281,293	O	B-Process
+principles	294,304	O	I-Process
+–	304,305	O	O
+shape	305,310	O	B-Task
+a	311,312	O	I-Task
+piecewise	313,322	O	I-Task
+-	322,323	O	I-Task
+polynomial	323,333	O	I-Task
+solution	334,342	O	I-Task
+over	343,347	O	I-Task
+each	348,352	O	I-Task
+local	353,358	O	I-Task
+discrete	359,367	O	I-Task
+cell	368,372	O	I-Task
+,	372,373	O	O
+via	374,377	O	O
+local	378,383	O	B-Process
+basis	384,389	O	I-Process
+functions	390,399	O	I-Process
+.	399,400	O	O
+
+On	401,403	O	O
+this	404,408	O	O
+basis	409,414	O	O
+,	414,415	O	O
+the	416,419	O	O
+DG	420,422	O	B-Process
+polynomial	423,433	O	I-Process
+accuracy	434,442	O	I-Process
+is	443,445	O	O
+spanned	446,453	O	O
+by	454,456	O	O
+a	457,458	O	O
+set	459,462	O	O
+of	463,465	O	O
+coefficients	466,478	O	O
+,	478,479	O	O
+describing	480,490	O	O
+accuracy	491,499	O	O
+information	500,511	O	O
+,	511,512	O	O
+which	513,518	O	O
+are	519,522	O	O
+all	523,526	O	O
+locally	527,534	O	O
+evolved	535,542	O	O
+in	543,545	O	O
+time	546,550	O	O
+from	551,555	O	O
+conservation	556,568	O	B-Process
+principles	569,579	O	I-Process
+at	580,582	O	O
+the	583,586	O	O
+discrete	587,595	O	O
+level	596,601	O	O
+,	601,602	O	O
+with	603,607	O	O
+an	608,610	O	O
+arbitrary	611,620	O	O
+order	621,626	O	O
+of	627,629	O	O
+accuracy	630,638	O	O
+.	638,639	O	O
+
+A	640,641	O	O
+DG	642,644	O	B-Task
+-	644,645	O	I-Task
+based	645,650	O	I-Task
+shallow	651,658	O	I-Task
+water	659,664	O	I-Task
+model	665,670	O	I-Task
+appeals	671,678	O	O
+in	679,681	O	O
+providing	682,691	O	O
+higher	692,698	O	O
+quality	699,706	O	O
+solutions	707,716	O	O
+on	717,719	O	O
+very	720,724	O	B-Material
+coarse	725,731	O	I-Material
+meshes	732,738	O	I-Material
+than	739,743	O	O
+a	744,745	O	O
+traditional	746,757	O	O
+finite	758,764	O	O
+volume	765,771	O	O
+counterpart	772,783	O	O
+,	783,784	O	O
+but	785,788	O	O
+is	789,791	O	O
+comparatively	792,805	O	O
+expensive	806,815	O	O
+to	816,818	O	O
+run	819,822	O	O
+and	823,826	O	O
+imposes	827,834	O	O
+a	835,836	O	O
+more	837,841	O	O
+restrictive	842,853	O	O
+stability	854,863	O	O
+condition	864,873	O	O
+for	874,877	O	O
+the	878,881	O	O
+CFL	882,885	O	B-Process
+number	886,892	O	I-Process
+[	894,895	O	O
+28,29	895,900	O	O
+]	900,901	O	O
+.	901,902	O	O
 
 
 -DOCSTART- (S0045782515002418)
 
-FR	0	2	B-Process
-schemes	3	10	I-Process
-are	11	14	O
-similar	15	22	O
-to	23	25	O
-nodal	26	31	B-Process
-DG	32	34	I-Process
-schemes	35	42	I-Process
-,	42	43	O
-which	44	49	O
-are	50	53	O
-arguably	54	62	O
-the	63	66	O
-most	67	71	O
-popular	72	79	O
-type	80	84	O
-of	85	87	O
-unstructured	88	100	B-Process
-high	101	105	I-Process
--	105	106	I-Process
-order	106	111	I-Process
-method	112	118	I-Process
-(	119	120	O
-at	120	122	O
-least	123	128	O
-in	129	131	O
-the	132	135	O
-field	136	141	O
-of	142	144	O
-computational	145	158	B-Task
-aerodynamics	159	171	I-Task
-)	171	172	O
-.	172	173	O
-
-Like	174	178	O
-nodal	179	184	B-Process
-DG	185	187	I-Process
-schemes	188	195	I-Process
-,	195	196	O
-FR	197	199	B-Process
-schemes	200	207	I-Process
-utilise	208	215	O
-a	216	217	O
-high	218	222	B-Process
--	222	223	I-Process
-order	223	228	I-Process
-(	229	230	O
-nodal	230	235	B-Process
-)	235	236	O
-polynomial	237	247	O
-basis	248	253	O
-to	254	256	O
-approximate	257	268	B-Process
-the	269	272	I-Process
-solution	273	281	I-Process
-within	282	288	O
-each	289	293	O
-element	294	301	O
-of	302	304	O
-the	305	308	O
-computational	309	322	B-Task
-domain	323	329	I-Task
-,	329	330	O
-and	331	334	O
-like	335	339	O
-nodal	340	345	B-Process
-DG	346	348	I-Process
-schemes	349	356	I-Process
-,	356	357	O
-FR	358	360	B-Process
-schemes	361	368	I-Process
-do	369	371	O
-not	372	375	O
-explicitly	376	386	O
-enforce	387	394	B-Process
-inter	395	400	I-Process
--	400	401	I-Process
-element	401	408	I-Process
-solution	409	417	I-Process
-continuity	418	428	I-Process
-.	428	429	O
-
-However	430	437	O
-,	437	438	O
-unlike	439	445	O
-nodal	446	451	B-Process
-DG	452	454	I-Process
-schemes	455	462	I-Process
-,	462	463	O
-FR	464	466	B-Process
-methods	467	474	I-Process
-are	475	478	O
-based	479	484	O
-solely	485	491	O
-on	492	494	O
-the	495	498	O
-governing	499	508	O
-system	509	515	O
-in	516	518	O
-a	519	520	O
-differential	521	533	O
-form	534	538	O
-.	538	539	O
-
-A	540	541	O
-description	542	553	O
-of	554	556	O
-the	557	560	O
-FR	561	563	B-Process
-approach	564	572	I-Process
-in	573	575	O
-1D	576	578	O
-is	579	581	O
-presented	582	591	O
-below	592	597	O
-.	597	598	O
-
-For	599	602	O
-further	603	610	O
-information	611	622	O
-see	623	626	O
-the	627	630	O
-original	631	639	O
-paper	640	645	O
-of	646	648	O
-Huynh	649	654	O
-[	656	657	O
-2	657	658	O
-]	658	659	O
-.	659	660	O
+FR	0,2	O	B-Process
+schemes	3,10	O	I-Process
+are	11,14	O	O
+similar	15,22	O	O
+to	23,25	O	O
+nodal	26,31	O	B-Process
+DG	32,34	O	I-Process
+schemes	35,42	O	I-Process
+,	42,43	O	O
+which	44,49	O	O
+are	50,53	O	O
+arguably	54,62	O	O
+the	63,66	O	O
+most	67,71	O	O
+popular	72,79	O	O
+type	80,84	O	O
+of	85,87	O	O
+unstructured	88,100	O	B-Process
+high	101,105	O	I-Process
+-	105,106	O	I-Process
+order	106,111	O	I-Process
+method	112,118	O	I-Process
+(	119,120	O	O
+at	120,122	O	O
+least	123,128	O	O
+in	129,131	O	O
+the	132,135	O	O
+field	136,141	O	O
+of	142,144	O	O
+computational	145,158	O	B-Task
+aerodynamics	159,171	O	I-Task
+)	171,172	O	O
+.	172,173	O	O
+
+Like	174,178	O	O
+nodal	179,184	O	B-Process
+DG	185,187	O	I-Process
+schemes	188,195	O	I-Process
+,	195,196	O	O
+FR	197,199	O	B-Process
+schemes	200,207	O	I-Process
+utilise	208,215	O	O
+a	216,217	O	O
+high	218,222	O	B-Process
+-	222,223	O	I-Process
+order	223,228	O	I-Process
+(	229,230	O	O
+nodal	230,235	O	B-Process
+)	235,236	O	O
+polynomial	237,247	O	O
+basis	248,253	O	O
+to	254,256	O	O
+approximate	257,268	O	B-Process
+the	269,272	O	I-Process
+solution	273,281	O	I-Process
+within	282,288	O	O
+each	289,293	O	O
+element	294,301	O	O
+of	302,304	O	O
+the	305,308	O	O
+computational	309,322	O	B-Task
+domain	323,329	O	I-Task
+,	329,330	O	O
+and	331,334	O	O
+like	335,339	O	O
+nodal	340,345	O	B-Process
+DG	346,348	O	I-Process
+schemes	349,356	O	I-Process
+,	356,357	O	O
+FR	358,360	O	B-Process
+schemes	361,368	O	I-Process
+do	369,371	O	O
+not	372,375	O	O
+explicitly	376,386	O	O
+enforce	387,394	O	B-Process
+inter	395,400	O	I-Process
+-	400,401	O	I-Process
+element	401,408	O	I-Process
+solution	409,417	O	I-Process
+continuity	418,428	O	I-Process
+.	428,429	O	O
+
+However	430,437	O	O
+,	437,438	O	O
+unlike	439,445	O	O
+nodal	446,451	O	B-Process
+DG	452,454	O	I-Process
+schemes	455,462	O	I-Process
+,	462,463	O	O
+FR	464,466	O	B-Process
+methods	467,474	O	I-Process
+are	475,478	O	O
+based	479,484	O	O
+solely	485,491	O	O
+on	492,494	O	O
+the	495,498	O	O
+governing	499,508	O	O
+system	509,515	O	O
+in	516,518	O	O
+a	519,520	O	O
+differential	521,533	O	O
+form	534,538	O	O
+.	538,539	O	O
+
+A	540,541	O	O
+description	542,553	O	O
+of	554,556	O	O
+the	557,560	O	O
+FR	561,563	O	B-Process
+approach	564,572	O	I-Process
+in	573,575	O	O
+1D	576,578	O	O
+is	579,581	O	O
+presented	582,591	O	O
+below	592,597	O	O
+.	597,598	O	O
+
+For	599,602	O	O
+further	603,610	O	O
+information	611,622	O	O
+see	623,626	O	O
+the	627,630	O	O
+original	631,639	O	O
+paper	640,645	O	O
+of	646,648	O	O
+Huynh	649,654	O	O
+[	656,657	O	O
+2	657,658	O	O
+]	658,659	O	O
+.	659,660	O	O
 
 
 -DOCSTART- (S0045782515002686)
 
-The	0	3	O
-immersed	4	12	B-Process
-boundary	13	21	I-Process
-method	22	28	I-Process
-(	29	30	O
-IBM	30	33	B-Process
-)	33	34	O
-,	34	35	O
-proposed	36	44	O
-by	45	47	O
-Peskin	48	54	O
-for	55	58	O
-studying	59	67	B-Task
-flow	68	72	I-Task
-patterns	73	81	I-Task
-around	82	88	I-Task
-heart	89	94	I-Task
-valves	95	101	I-Task
-[	103	104	O
-3	104	105	O
-]	105	106	O
-,	106	107	O
-has	108	111	O
-been	112	116	O
-applied	117	124	O
-to	125	127	O
-a	128	129	O
-wide	130	134	O
-range	135	140	O
-of	141	143	O
-problems	144	152	O
-including	153	162	O
-arterial	163	171	B-Task
-blood	172	177	I-Task
-flow	178	182	I-Task
-[	184	185	O
-4	185	186	O
-]	186	187	O
-,	187	188	O
-modelling	189	198	B-Task
-of	199	201	I-Task
-the	202	205	I-Task
-cochlea	206	213	I-Task
-[	215	216	O
-5	216	217	O
-]	217	218	O
-,	218	219	O
-modelling	220	229	B-Task
-of	230	232	I-Task
-red	233	236	I-Task
-blood	237	242	I-Task
-cells	243	248	I-Task
-in	249	251	I-Task
-Poiseuille	252	262	I-Task
-flow	263	267	I-Task
-
-[	269	270	O
-6	270	271	O
-]	271	272	O
-and	273	276	O
-flows	277	282	B-Task
-involving	283	292	I-Task
-suspended	293	302	I-Task
-particles	303	312	I-Task
-[	314	315	O
-7	315	316	O
-]	316	317	O
-.	317	318	O
-
-A	319	320	O
-comprehensive	321	334	O
-list	335	339	O
-of	340	342	O
-applications	343	355	O
-can	356	359	O
-be	360	362	O
-found	363	368	O
-in	369	371	O
-[	373	374	O
-8	374	375	O
-]	375	376	O
-.	376	377	O
-
-The	378	381	O
-IBM	382	385	B-Process
-is	386	388	O
-both	389	393	O
-a	394	395	O
-mathematical	396	408	O
-formulation	409	420	O
-and	421	424	O
-a	425	426	O
-numerical	427	436	O
-scheme	437	443	O
-for	444	447	O
-fluid	448	453	B-Task
-–	453	454	I-Task
-structure	454	463	I-Task
-interaction	464	475	I-Task
-problems	476	484	I-Task
-.	484	485	O
-
-As	486	488	O
-mentioned	489	498	O
-above	499	504	O
-,	504	505	O
-in	506	508	O
-a	509	510	O
-classical	511	520	O
-fluid	521	526	B-Task
-–	526	527	I-Task
-structure	527	536	I-Task
-interaction	537	548	I-Task
-problem	549	556	I-Task
-,	556	557	O
-the	558	561	O
-fluid	562	567	B-Material
-and	568	571	O
-the	572	575	O
-structure	576	585	B-Material
-are	586	589	O
-considered	590	600	O
-separately	601	611	O
-and	612	615	O
-then	616	620	O
-coupled	621	628	B-Process
-together	629	637	I-Process
-via	638	641	O
-some	642	646	O
-suitable	647	655	O
-jump	656	660	O
-conditions	661	671	O
-.	671	672	O
-
-In	673	675	O
-the	676	679	O
-IBM	680	683	B-Process
-however	684	691	O
-,	691	692	O
-the	693	696	O
-structure	697	706	O
-–	706	707	O
-which	707	712	O
-is	713	715	O
-usually	716	723	O
-immersed	724	732	O
-in	733	735	O
-a	736	737	O
-Newtonian	738	747	B-Material
-fluid	748	753	I-Material
-–	753	754	O
-is	754	756	O
-viewed	757	763	O
-as	764	766	O
-being	767	772	O
-part	773	777	O
-of	778	780	O
-the	781	784	O
-surrounding	785	796	B-Material
-fluid	797	802	I-Material
-.	802	803	O
-
-This	804	808	O
-means	809	814	O
-that	815	819	O
-only	820	824	O
-a	825	826	O
-single	827	833	O
-equation	834	842	O
-of	843	845	O
-motion	846	852	B-Process
-needs	853	858	O
-to	859	861	O
-be	862	864	O
-solved	865	871	O
-(	872	873	O
-i.e.	873	877	O
-a	878	879	O
-one	880	883	O
--	883	884	O
-phase	884	889	O
-formulation	890	901	O
-)	901	902	O
-.	902	903	O
-
-Additionally	904	916	O
-,	916	917	O
-the	918	921	O
-IBM	922	925	B-Process
-allows	926	932	O
-the	933	936	O
-immersed	937	945	O
-structure	946	955	O
-to	956	958	O
-move	959	963	O
-freely	964	970	O
-over	971	975	O
-the	976	979	O
-underlying	980	990	B-Material
-fluid	991	996	I-Material
-mesh	997	1001	I-Material
-,	1001	1002	O
-alleviating	1003	1014	O
-the	1015	1018	O
-need	1019	1023	O
-for	1024	1027	O
-the	1028	1031	O
-remeshing	1032	1041	B-Process
-required	1042	1050	O
-in	1051	1053	O
-a	1054	1055	O
-classical	1056	1065	O
-formulation	1066	1077	O
-.	1077	1078	O
+The	0,3	O	O
+immersed	4,12	O	B-Process
+boundary	13,21	O	I-Process
+method	22,28	O	I-Process
+(	29,30	O	O
+IBM	30,33	O	B-Process
+)	33,34	O	O
+,	34,35	O	O
+proposed	36,44	O	O
+by	45,47	O	O
+Peskin	48,54	O	O
+for	55,58	O	O
+studying	59,67	O	B-Task
+flow	68,72	O	I-Task
+patterns	73,81	O	I-Task
+around	82,88	O	I-Task
+heart	89,94	O	I-Task
+valves	95,101	O	I-Task
+[	103,104	O	O
+3	104,105	O	O
+]	105,106	O	O
+,	106,107	O	O
+has	108,111	O	O
+been	112,116	O	O
+applied	117,124	O	O
+to	125,127	O	O
+a	128,129	O	O
+wide	130,134	O	O
+range	135,140	O	O
+of	141,143	O	O
+problems	144,152	O	O
+including	153,162	O	O
+arterial	163,171	O	B-Task
+blood	172,177	O	I-Task
+flow	178,182	O	I-Task
+[	184,185	O	O
+4	185,186	O	O
+]	186,187	O	O
+,	187,188	O	O
+modelling	189,198	O	B-Task
+of	199,201	O	I-Task
+the	202,205	O	I-Task
+cochlea	206,213	O	I-Task
+[	215,216	O	O
+5	216,217	O	O
+]	217,218	O	O
+,	218,219	O	O
+modelling	220,229	O	B-Task
+of	230,232	O	I-Task
+red	233,236	O	I-Task
+blood	237,242	O	I-Task
+cells	243,248	O	I-Task
+in	249,251	O	I-Task
+Poiseuille	252,262	O	I-Task
+flow	263,267	O	I-Task
+
+[	269,270	O	O
+6	270,271	O	O
+]	271,272	O	O
+and	273,276	O	O
+flows	277,282	O	B-Task
+involving	283,292	O	I-Task
+suspended	293,302	O	I-Task
+particles	303,312	O	I-Task
+[	314,315	O	O
+7	315,316	O	O
+]	316,317	O	O
+.	317,318	O	O
+
+A	319,320	O	O
+comprehensive	321,334	O	O
+list	335,339	O	O
+of	340,342	O	O
+applications	343,355	O	O
+can	356,359	O	O
+be	360,362	O	O
+found	363,368	O	O
+in	369,371	O	O
+[	373,374	O	O
+8	374,375	O	O
+]	375,376	O	O
+.	376,377	O	O
+
+The	378,381	O	O
+IBM	382,385	O	B-Process
+is	386,388	O	O
+both	389,393	O	O
+a	394,395	O	O
+mathematical	396,408	O	O
+formulation	409,420	O	O
+and	421,424	O	O
+a	425,426	O	O
+numerical	427,436	O	O
+scheme	437,443	O	O
+for	444,447	O	O
+fluid	448,453	O	B-Task
+–	453,454	O	I-Task
+structure	454,463	O	I-Task
+interaction	464,475	O	I-Task
+problems	476,484	O	I-Task
+.	484,485	O	O
+
+As	486,488	O	O
+mentioned	489,498	O	O
+above	499,504	O	O
+,	504,505	O	O
+in	506,508	O	O
+a	509,510	O	O
+classical	511,520	O	O
+fluid	521,526	O	B-Task
+–	526,527	O	I-Task
+structure	527,536	O	I-Task
+interaction	537,548	O	I-Task
+problem	549,556	O	I-Task
+,	556,557	O	O
+the	558,561	O	O
+fluid	562,567	O	B-Material
+and	568,571	O	O
+the	572,575	O	O
+structure	576,585	O	B-Material
+are	586,589	O	O
+considered	590,600	O	O
+separately	601,611	O	O
+and	612,615	O	O
+then	616,620	O	O
+coupled	621,628	O	B-Process
+together	629,637	O	I-Process
+via	638,641	O	O
+some	642,646	O	O
+suitable	647,655	O	O
+jump	656,660	O	O
+conditions	661,671	O	O
+.	671,672	O	O
+
+In	673,675	O	O
+the	676,679	O	O
+IBM	680,683	O	B-Process
+however	684,691	O	O
+,	691,692	O	O
+the	693,696	O	O
+structure	697,706	O	O
+–	706,707	O	O
+which	707,712	O	O
+is	713,715	O	O
+usually	716,723	O	O
+immersed	724,732	O	O
+in	733,735	O	O
+a	736,737	O	O
+Newtonian	738,747	O	B-Material
+fluid	748,753	O	I-Material
+–	753,754	O	O
+is	754,756	O	O
+viewed	757,763	O	O
+as	764,766	O	O
+being	767,772	O	O
+part	773,777	O	O
+of	778,780	O	O
+the	781,784	O	O
+surrounding	785,796	O	B-Material
+fluid	797,802	O	I-Material
+.	802,803	O	O
+
+This	804,808	O	O
+means	809,814	O	O
+that	815,819	O	O
+only	820,824	O	O
+a	825,826	O	O
+single	827,833	O	O
+equation	834,842	O	O
+of	843,845	O	O
+motion	846,852	O	B-Process
+needs	853,858	O	O
+to	859,861	O	O
+be	862,864	O	O
+solved	865,871	O	O
+(	872,873	O	O
+i.e.	873,877	O	O
+a	878,879	O	O
+one	880,883	O	O
+-	883,884	O	O
+phase	884,889	O	O
+formulation	890,901	O	O
+)	901,902	O	O
+.	902,903	O	O
+
+Additionally	904,916	O	O
+,	916,917	O	O
+the	918,921	O	O
+IBM	922,925	O	B-Process
+allows	926,932	O	O
+the	933,936	O	O
+immersed	937,945	O	O
+structure	946,955	O	O
+to	956,958	O	O
+move	959,963	O	O
+freely	964,970	O	O
+over	971,975	O	O
+the	976,979	O	O
+underlying	980,990	O	B-Material
+fluid	991,996	O	I-Material
+mesh	997,1001	O	I-Material
+,	1001,1002	O	O
+alleviating	1003,1014	O	O
+the	1015,1018	O	O
+need	1019,1023	O	O
+for	1024,1027	O	O
+the	1028,1031	O	O
+remeshing	1032,1041	O	B-Process
+required	1042,1050	O	O
+in	1051,1053	O	O
+a	1054,1055	O	O
+classical	1056,1065	O	O
+formulation	1066,1077	O	O
+.	1077,1078	O	O
 
 
 -DOCSTART- (S0045782515003680)
 
-We	0	2	O
-consider	3	11	O
-the	12	15	O
-shape	16	21	B-Task
-optimisation	22	34	I-Task
-of	35	37	O
-two-	38	42	B-Material
-and	43	46	I-Material
-three	47	52	I-Material
--	52	53	I-Material
-dimensional	53	64	I-Material
-solids	65	71	I-Material
-by	72	74	O
-combining	75	84	B-Process
-multiresolution	85	100	I-Process
-subdivision	101	112	I-Process
-surfaces	113	121	I-Process
-with	122	126	O
-immersed	127	135	B-Material
-finite	136	142	I-Material
-elements	143	151	I-Material
-.	151	152	O
-
-As	153	155	O
-widely	156	162	O
-discussed	163	172	O
-in	173	175	O
-isogeometric	176	188	B-Material
-analysis	189	197	I-Material
-literature	198	208	I-Material
-,	208	209	O
-the	210	213	O
-geometry	214	222	B-Process
-representations	223	238	I-Process
-used	239	243	O
-in	244	246	O
-today	247	252	O
-’s	252	254	O
-computer	255	263	B-Process
-aided	264	269	I-Process
-design	270	276	I-Process
-(	277	278	O
-CAD	278	281	B-Process
-)	281	282	O
-and	283	286	O
-finite	287	293	B-Process
-element	294	301	I-Process
-analysis	302	310	I-Process
-(	311	312	O
-FEA	312	315	B-Process
-)	315	316	O
-software	317	325	O
-are	326	329	O
-inherently	330	340	O
-incompatible	341	353	O
-[	355	356	O
-1	356	357	O
-]	357	358	O
-.	358	359	O
-
-This	360	364	O
-is	365	367	O
-particularly	368	380	O
-limiting	381	389	O
-in	390	392	O
-shape	393	398	B-Task
-optimisation	399	411	I-Task
-during	412	418	O
-which	419	424	O
-a	425	426	O
-given	427	432	O
-CAD	433	436	B-Process
-geometry	437	445	I-Process
-model	446	451	I-Process
-is	452	454	O
-to	455	457	O
-be	458	460	O
-iteratively	461	472	O
-updated	473	480	O
-based	481	486	O
-on	487	489	O
-the	490	493	O
-results	494	501	O
-of	502	504	O
-a	505	506	O
-finite	507	513	B-Process
-element	514	521	I-Process
-computation	522	533	I-Process
-.	533	534	O
-
-The	535	538	O
-inherent	539	547	O
-shortcomings	548	560	O
-of	561	563	O
-present	564	571	O
-geometry	572	580	B-Task
-and	581	584	I-Task
-analysis	585	593	I-Task
-representations	594	609	I-Task
-have	610	614	O
-motivated	615	624	O
-the	625	628	O
-proliferation	629	642	O
-of	643	645	O
-various	646	653	O
-shape	654	659	B-Process
-optimisation	660	672	I-Process
-techniques	673	683	I-Process
-.	683	684	O
-
-In	685	687	O
-the	688	691	O
-most	692	696	O
-prevalent	697	706	O
-approaches	707	717	O
-a	718	719	O
-surrogate	720	729	B-Process
-geometry	730	738	I-Process
-model	739	744	I-Process
-[	746	747	O
-2–8	747	750	O
-]	750	751	O
-or	752	754	O
-the	755	758	O
-analysis	759	767	B-Process
-mesh	768	772	I-Process
-[	774	775	O
-9,10	775	779	O
-]	779	780	O
-instead	781	788	O
-of	789	791	O
-the	792	795	O
-true	796	800	O
-CAD	801	804	B-Process
-model	805	810	I-Process
-is	811	813	O
-optimised	814	823	O
-,	823	824	O
-see	825	828	O
-also	829	833	O
-[	835	836	O
-11	836	838	O
-]	838	839	O
-and	840	843	O
-references	844	854	O
-therein	855	862	O
-.	862	863	O
-
-Generally	864	873	O
-,	873	874	O
-it	875	877	O
-is	878	880	O
-tedious	881	888	O
-or	889	891	O
-impossible	892	902	O
-to	903	905	O
-map	906	909	O
-the	910	913	O
-optimised	914	923	B-Process
-surrogate	924	933	I-Process
-geometry	934	942	I-Process
-model	943	948	I-Process
-or	949	951	O
-analysis	952	960	B-Process
-mesh	961	965	I-Process
-back	966	970	O
-to	971	973	O
-the	974	977	O
-original	978	986	O
-CAD	987	990	B-Process
-model	991	996	I-Process
-,	996	997	O
-which	998	1003	O
-is	1004	1006	O
-essential	1007	1016	O
-for	1017	1020	O
-continuing	1021	1031	O
-with	1032	1036	O
-the	1037	1040	O
-design	1041	1047	O
-process	1048	1055	O
-and	1056	1059	O
-later	1060	1065	O
-for	1066	1069	O
-manufacturing	1070	1083	O
-purposes	1084	1092	O
-.	1092	1093	O
-
-Moreover	1094	1102	O
-,	1102	1103	O
-geometric	1104	1113	O
-design	1114	1120	O
-features	1121	1129	O
-are	1130	1133	O
-usually	1134	1141	O
-defined	1142	1149	O
-with	1150	1154	O
-respect	1155	1162	O
-to	1163	1165	O
-the	1166	1169	O
-CAD	1170	1173	B-Process
-model	1174	1179	I-Process
-and	1180	1183	O
-can	1184	1187	O
-not	1187	1190	O
-be	1191	1193	O
-easily	1194	1200	O
-enforced	1201	1209	O
-on	1210	1212	O
-the	1213	1216	O
-surrogate	1217	1226	B-Process
-model	1227	1232	I-Process
-.	1232	1233	O
-
-Recently	1234	1242	O
-,	1242	1243	O
-the	1244	1247	O
-shape	1248	1253	B-Task
-optimisation	1254	1266	I-Task
-of	1267	1269	O
-shells	1270	1276	B-Material
-,	1276	1277	O
-solids	1278	1284	B-Material
-and	1285	1288	O
-other	1289	1294	O
-applications	1295	1307	O
-using	1308	1313	O
-isogeometric	1314	1326	B-Process
-analysis	1327	1335	I-Process
-has	1336	1339	O
-been	1340	1344	O
-explored	1345	1353	O
-;	1353	1354	O
-that	1355	1359	O
-is	1360	1362	O
-,	1362	1363	O
-through	1364	1371	O
-directly	1372	1380	B-Process
-optimising	1381	1391	I-Process
-the	1392	1395	O
-CAD	1396	1399	B-Process
-geometry	1400	1408	I-Process
-model	1409	1414	I-Process
-
-[	1416	1417	O
-12–15	1417	1422	O
-]	1422	1423	O
-.	1423	1424	O
+We	0,2	O	O
+consider	3,11	O	O
+the	12,15	O	O
+shape	16,21	O	B-Task
+optimisation	22,34	O	I-Task
+of	35,37	O	O
+two-	38,42	O	B-Material
+and	43,46	O	I-Material
+three	47,52	O	I-Material
+-	52,53	O	I-Material
+dimensional	53,64	O	I-Material
+solids	65,71	O	I-Material
+by	72,74	O	O
+combining	75,84	O	B-Process
+multiresolution	85,100	O	I-Process
+subdivision	101,112	O	I-Process
+surfaces	113,121	O	I-Process
+with	122,126	O	O
+immersed	127,135	O	B-Material
+finite	136,142	O	I-Material
+elements	143,151	O	I-Material
+.	151,152	O	O
+
+As	153,155	O	O
+widely	156,162	O	O
+discussed	163,172	O	O
+in	173,175	O	O
+isogeometric	176,188	O	B-Material
+analysis	189,197	O	I-Material
+literature	198,208	O	I-Material
+,	208,209	O	O
+the	210,213	O	O
+geometry	214,222	O	B-Process
+representations	223,238	O	I-Process
+used	239,243	O	O
+in	244,246	O	O
+today	247,252	O	O
+’s	252,254	O	O
+computer	255,263	O	B-Process
+aided	264,269	O	I-Process
+design	270,276	O	I-Process
+(	277,278	O	O
+CAD	278,281	O	B-Process
+)	281,282	O	O
+and	283,286	O	O
+finite	287,293	O	B-Process
+element	294,301	O	I-Process
+analysis	302,310	O	I-Process
+(	311,312	O	O
+FEA	312,315	O	B-Process
+)	315,316	O	O
+software	317,325	O	O
+are	326,329	O	O
+inherently	330,340	O	O
+incompatible	341,353	O	O
+[	355,356	O	O
+1	356,357	O	O
+]	357,358	O	O
+.	358,359	O	O
+
+This	360,364	O	O
+is	365,367	O	O
+particularly	368,380	O	O
+limiting	381,389	O	O
+in	390,392	O	O
+shape	393,398	O	B-Task
+optimisation	399,411	O	I-Task
+during	412,418	O	O
+which	419,424	O	O
+a	425,426	O	O
+given	427,432	O	O
+CAD	433,436	O	B-Process
+geometry	437,445	O	I-Process
+model	446,451	O	I-Process
+is	452,454	O	O
+to	455,457	O	O
+be	458,460	O	O
+iteratively	461,472	O	O
+updated	473,480	O	O
+based	481,486	O	O
+on	487,489	O	O
+the	490,493	O	O
+results	494,501	O	O
+of	502,504	O	O
+a	505,506	O	O
+finite	507,513	O	B-Process
+element	514,521	O	I-Process
+computation	522,533	O	I-Process
+.	533,534	O	O
+
+The	535,538	O	O
+inherent	539,547	O	O
+shortcomings	548,560	O	O
+of	561,563	O	O
+present	564,571	O	O
+geometry	572,580	O	B-Task
+and	581,584	O	I-Task
+analysis	585,593	O	I-Task
+representations	594,609	O	I-Task
+have	610,614	O	O
+motivated	615,624	O	O
+the	625,628	O	O
+proliferation	629,642	O	O
+of	643,645	O	O
+various	646,653	O	O
+shape	654,659	O	B-Process
+optimisation	660,672	O	I-Process
+techniques	673,683	O	I-Process
+.	683,684	O	O
+
+In	685,687	O	O
+the	688,691	O	O
+most	692,696	O	O
+prevalent	697,706	O	O
+approaches	707,717	O	O
+a	718,719	O	O
+surrogate	720,729	O	B-Process
+geometry	730,738	O	I-Process
+model	739,744	O	I-Process
+[	746,747	O	O
+2–8	747,750	O	O
+]	750,751	O	O
+or	752,754	O	O
+the	755,758	O	O
+analysis	759,767	O	B-Process
+mesh	768,772	O	I-Process
+[	774,775	O	O
+9,10	775,779	O	O
+]	779,780	O	O
+instead	781,788	O	O
+of	789,791	O	O
+the	792,795	O	O
+true	796,800	O	O
+CAD	801,804	O	B-Process
+model	805,810	O	I-Process
+is	811,813	O	O
+optimised	814,823	O	O
+,	823,824	O	O
+see	825,828	O	O
+also	829,833	O	O
+[	835,836	O	O
+11	836,838	O	O
+]	838,839	O	O
+and	840,843	O	O
+references	844,854	O	O
+therein	855,862	O	O
+.	862,863	O	O
+
+Generally	864,873	O	O
+,	873,874	O	O
+it	875,877	O	O
+is	878,880	O	O
+tedious	881,888	O	O
+or	889,891	O	O
+impossible	892,902	O	O
+to	903,905	O	O
+map	906,909	O	O
+the	910,913	O	O
+optimised	914,923	O	B-Process
+surrogate	924,933	O	I-Process
+geometry	934,942	O	I-Process
+model	943,948	O	I-Process
+or	949,951	O	O
+analysis	952,960	O	B-Process
+mesh	961,965	O	I-Process
+back	966,970	O	O
+to	971,973	O	O
+the	974,977	O	O
+original	978,986	O	O
+CAD	987,990	O	B-Process
+model	991,996	O	I-Process
+,	996,997	O	O
+which	998,1003	O	O
+is	1004,1006	O	O
+essential	1007,1016	O	O
+for	1017,1020	O	O
+continuing	1021,1031	O	O
+with	1032,1036	O	O
+the	1037,1040	O	O
+design	1041,1047	O	O
+process	1048,1055	O	O
+and	1056,1059	O	O
+later	1060,1065	O	O
+for	1066,1069	O	O
+manufacturing	1070,1083	O	O
+purposes	1084,1092	O	O
+.	1092,1093	O	O
+
+Moreover	1094,1102	O	O
+,	1102,1103	O	O
+geometric	1104,1113	O	O
+design	1114,1120	O	O
+features	1121,1129	O	O
+are	1130,1133	O	O
+usually	1134,1141	O	O
+defined	1142,1149	O	O
+with	1150,1154	O	O
+respect	1155,1162	O	O
+to	1163,1165	O	O
+the	1166,1169	O	O
+CAD	1170,1173	O	B-Process
+model	1174,1179	O	I-Process
+and	1180,1183	O	O
+can	1184,1187	O	O
+not	1187,1190	O	O
+be	1191,1193	O	O
+easily	1194,1200	O	O
+enforced	1201,1209	O	O
+on	1210,1212	O	O
+the	1213,1216	O	O
+surrogate	1217,1226	O	B-Process
+model	1227,1232	O	I-Process
+.	1232,1233	O	O
+
+Recently	1234,1242	O	O
+,	1242,1243	O	O
+the	1244,1247	O	O
+shape	1248,1253	O	B-Task
+optimisation	1254,1266	O	I-Task
+of	1267,1269	O	O
+shells	1270,1276	O	B-Material
+,	1276,1277	O	O
+solids	1278,1284	O	B-Material
+and	1285,1288	O	O
+other	1289,1294	O	O
+applications	1295,1307	O	O
+using	1308,1313	O	O
+isogeometric	1314,1326	O	B-Process
+analysis	1327,1335	O	I-Process
+has	1336,1339	O	O
+been	1340,1344	O	O
+explored	1345,1353	O	O
+;	1353,1354	O	O
+that	1355,1359	O	O
+is	1360,1362	O	O
+,	1362,1363	O	O
+through	1364,1371	O	O
+directly	1372,1380	O	B-Process
+optimising	1381,1391	O	I-Process
+the	1392,1395	O	O
+CAD	1396,1399	O	B-Process
+geometry	1400,1408	O	I-Process
+model	1409,1414	O	I-Process
+
+[	1416,1417	O	O
+12–15	1417,1422	O	O
+]	1422,1423	O	O
+.	1423,1424	O	O
 
 
 -DOCSTART- (S0079642514000887)
 
-The	0	3	O
-exquisite	4	13	O
-manipulation	14	26	O
-and	27	30	O
-exact	31	36	B-Task
-measurement	37	48	I-Task
-of	49	51	I-Task
-properties	52	62	I-Task
-of	63	65	O
-individual	66	76	O
-nanomaterials	77	90	B-Material
-,	90	91	O
-compared	92	100	O
-with	101	105	O
-notable	106	113	O
-progress	114	122	O
-in	123	125	O
-their	126	131	O
-preparation	132	143	O
-,	143	144	O
-have	145	149	O
-not	150	153	O
-been	154	158	O
-thoroughly	159	169	O
-addressed	170	179	O
-albeit	180	186	O
-being	187	192	O
-of	193	195	O
-prime	196	201	O
-importance	202	212	O
-for	213	216	O
-the	217	220	O
-sustained	221	230	B-Task
-development	231	242	I-Task
-of	243	245	I-Task
-new	246	249	I-Task
-devices	250	257	I-Task
-[	258	259	O
-58–61	259	264	O
-]	264	265	O
-.	265	266	O
-
-To	267	269	O
-date	270	274	O
-,	274	275	O
-several	276	283	O
-instruments	284	295	B-Material
-have	296	300	O
-been	301	305	O
-designed	306	314	O
-for	315	318	O
-such	319	323	O
-goals	324	329	O
-,	329	330	O
-namely	331	337	O
-,	337	338	O
-scanning	339	347	B-Material
-electron	348	356	I-Material
-microscopes	357	368	I-Material
-(	369	370	O
-SEM	370	373	B-Material
-)	373	374	O
-,	374	375	O
-atomic	376	382	B-Material
-force	383	388	I-Material
-microscopes	389	400	I-Material
-(	401	402	O
-AFM	402	405	B-Material
-)	405	406	O
-and	407	410	O
-transmission	411	423	B-Material
-electron	424	432	I-Material
-microscopes	433	444	I-Material
-(	445	446	O
-TEM	446	449	B-Material
-)	449	450	O
-[	451	452	O
-62,63	452	457	O
-]	457	458	O
-.	458	459	O
-
-Compared	460	468	O
-with	469	473	O
-the	474	477	O
-first	478	483	O
-two	484	487	O
-setups	488	494	O
-,	494	495	O
-which	496	501	O
-have	502	506	O
-no	507	509	O
-direct	510	516	O
-access	517	523	O
-to	524	526	O
-the	527	530	O
-material	531	539	B-Task
-internal	540	548	I-Task
-structure	549	558	I-Task
-and	559	562	O
-atomic	563	569	B-Task
-bonding	570	577	I-Task
-information	578	589	I-Task
-[	590	591	O
-64–67	591	596	O
-]	596	597	O
-,	597	598	O
-the	599	602	O
-state	603	608	O
--	608	609	O
-of	609	611	O
--	611	612	O
-the	612	615	O
--	615	616	O
-art	616	619	O
-in	620	622	O
-situ	623	627	O
-high	628	632	O
--	632	633	O
-resolution	633	643	O
-TEM	644	647	B-Process
-technique	648	657	O
-allows	658	664	O
-one	665	668	O
-to	669	671	O
-not	672	675	O
-only	676	680	O
-manipulate	681	691	B-Process
-with	692	696	I-Process
-an	697	699	I-Process
-individual	700	710	I-Process
-object	711	717	I-Process
-at	718	720	O
-the	721	724	O
-nano	725	729	O
--	729	730	O
-scale	730	735	O
-precision	736	745	O
-but	746	749	O
-to	750	752	O
-also	753	757	O
-get	758	761	O
-deep	762	766	O
-insights	767	775	O
-into	776	780	O
-its	781	784	O
-physical	785	793	O
-,	793	794	O
-chemical	795	803	O
-,	803	804	O
-and	805	808	O
-microstructural	809	824	O
-statuses	825	833	O
-[	834	835	O
-68–71	835	840	O
-]	840	841	O
-.	841	842	O
-
-Combining	843	852	O
-the	853	856	O
-capabilities	857	869	O
-of	870	872	O
-a	873	874	O
-conventional	875	887	O
-high	888	892	O
--	892	893	O
-resolution	893	903	O
-TEM	904	907	B-Process
-and	908	911	O
-AFM	912	915	B-Process
-or	916	918	O
-STM	919	922	B-Process
-probes	923	929	I-Process
-produces	930	938	O
-advanced	939	947	O
-and	948	951	O
-dedicated	952	961	O
-TEM	962	965	B-Process
-holders	966	973	I-Process
-,	973	974	O
-which	975	980	O
-are	981	984	O
-becoming	985	993	O
-the	994	997	O
-powerful	998	1006	O
-tools	1007	1012	O
-in	1013	1015	O
-nanomaterials	1016	1029	B-Task
-manipulation	1030	1042	I-Task
-and	1043	1046	O
-properties	1047	1057	B-Task
-analysis	1058	1066	I-Task
-.	1066	1067	O
-
-Such	1068	1072	O
-holders	1073	1080	B-Process
-have	1081	1085	O
-been	1086	1090	O
-commercialized	1091	1105	O
-,	1105	1106	O
-for	1107	1110	O
-instance	1111	1119	O
-,	1119	1120	O
-by	1121	1123	O
-“	1124	1125	O
-Nanofactory	1125	1136	O
-Instruments	1137	1148	O
-AB	1149	1151	O
-’’	1151	1153	O
-,	1153	1154	O
-Goteborg	1155	1163	O
-,	1163	1164	O
-Sweden	1165	1171	O
-[	1172	1173	O
-72	1173	1175	O
-]	1175	1176	O
-.	1176	1177	O
-
-The	1178	1181	O
-full	1182	1186	O
-usefulness	1187	1197	O
-of	1198	1200	O
-these	1201	1206	O
-advanced	1207	1215	O
-in	1216	1218	O
--	1218	1219	O
-situ	1219	1223	O
-TEM	1224	1227	B-Process
-techniques	1228	1238	I-Process
-is	1239	1241	O
-apparent	1242	1250	O
-with	1251	1255	O
-respect	1256	1263	O
-to	1264	1266	O
-mechanical	1267	1277	B-Task
-and	1278	1281	I-Task
-thermal	1282	1289	I-Task
-property	1290	1298	I-Task
-analysis	1299	1307	I-Task
-of	1308	1310	O
-individual	1311	1321	O
-nanostructures	1322	1336	B-Material
-,	1336	1337	O
-e.g.	1338	1342	O
-,	1342	1343	O
-elasticity	1344	1354	O
-,	1354	1355	O
-plasticity	1356	1366	O
-and	1367	1370	O
-strength	1371	1379	O
-data	1380	1384	O
-while	1385	1390	O
-employing	1391	1400	O
-direct	1401	1407	B-Process
-bent	1408	1412	I-Process
-or	1413	1415	I-Process
-tensile	1416	1423	I-Process
-tests	1424	1429	I-Process
-[	1430	1431	O
-73–75	1431	1436	O
-]	1436	1437	O
-,	1437	1438	O
-probing	1439	1446	B-Process
-electrical	1447	1457	I-Process
-characteristics	1458	1473	I-Process
-,	1473	1474	O
-e.g.	1475	1479	O
-,	1479	1480	O
-field	1481	1486	B-Task
-emission	1487	1495	I-Task
-[	1496	1497	O
-27,76,77	1497	1505	O
-]	1505	1506	O
-,	1506	1507	O
-electrical	1508	1518	B-Task
-transport	1519	1528	I-Task
-tracing	1529	1536	I-Task
-[	1537	1538	O
-78–80	1538	1543	O
-]	1543	1544	O
-,	1544	1545	O
-soldering	1546	1555	B-Task
-[	1556	1557	O
-81,82	1557	1562	O
-]	1562	1563	O
-,	1563	1564	O
-and	1565	1568	O
-doping	1569	1575	B-Task
-[	1576	1577	O
-83	1577	1579	O
-]	1579	1580	O
-,	1580	1581	O
-etc	1582	1585	O
-.	1585	1586	O
+The	0,3	O	O
+exquisite	4,13	O	O
+manipulation	14,26	O	O
+and	27,30	O	O
+exact	31,36	O	B-Task
+measurement	37,48	O	I-Task
+of	49,51	O	I-Task
+properties	52,62	O	I-Task
+of	63,65	O	O
+individual	66,76	O	O
+nanomaterials	77,90	O	B-Material
+,	90,91	O	O
+compared	92,100	O	O
+with	101,105	O	O
+notable	106,113	O	O
+progress	114,122	O	O
+in	123,125	O	O
+their	126,131	O	O
+preparation	132,143	O	O
+,	143,144	O	O
+have	145,149	O	O
+not	150,153	O	O
+been	154,158	O	O
+thoroughly	159,169	O	O
+addressed	170,179	O	O
+albeit	180,186	O	O
+being	187,192	O	O
+of	193,195	O	O
+prime	196,201	O	O
+importance	202,212	O	O
+for	213,216	O	O
+the	217,220	O	O
+sustained	221,230	O	B-Task
+development	231,242	O	I-Task
+of	243,245	O	I-Task
+new	246,249	O	I-Task
+devices	250,257	O	I-Task
+[	258,259	O	O
+58–61	259,264	O	O
+]	264,265	O	O
+.	265,266	O	O
+
+To	267,269	O	O
+date	270,274	O	O
+,	274,275	O	O
+several	276,283	O	O
+instruments	284,295	O	B-Material
+have	296,300	O	O
+been	301,305	O	O
+designed	306,314	O	O
+for	315,318	O	O
+such	319,323	O	O
+goals	324,329	O	O
+,	329,330	O	O
+namely	331,337	O	O
+,	337,338	O	O
+scanning	339,347	O	B-Material
+electron	348,356	O	I-Material
+microscopes	357,368	O	I-Material
+(	369,370	O	O
+SEM	370,373	O	B-Material
+)	373,374	O	O
+,	374,375	O	O
+atomic	376,382	O	B-Material
+force	383,388	O	I-Material
+microscopes	389,400	O	I-Material
+(	401,402	O	O
+AFM	402,405	O	B-Material
+)	405,406	O	O
+and	407,410	O	O
+transmission	411,423	O	B-Material
+electron	424,432	O	I-Material
+microscopes	433,444	O	I-Material
+(	445,446	O	O
+TEM	446,449	O	B-Material
+)	449,450	O	O
+[	451,452	O	O
+62,63	452,457	O	O
+]	457,458	O	O
+.	458,459	O	O
+
+Compared	460,468	O	O
+with	469,473	O	O
+the	474,477	O	O
+first	478,483	O	O
+two	484,487	O	O
+setups	488,494	O	O
+,	494,495	O	O
+which	496,501	O	O
+have	502,506	O	O
+no	507,509	O	O
+direct	510,516	O	O
+access	517,523	O	O
+to	524,526	O	O
+the	527,530	O	O
+material	531,539	O	B-Task
+internal	540,548	O	I-Task
+structure	549,558	O	I-Task
+and	559,562	O	O
+atomic	563,569	O	B-Task
+bonding	570,577	O	I-Task
+information	578,589	O	I-Task
+[	590,591	O	O
+64–67	591,596	O	O
+]	596,597	O	O
+,	597,598	O	O
+the	599,602	O	O
+state	603,608	O	O
+-	608,609	O	O
+of	609,611	O	O
+-	611,612	O	O
+the	612,615	O	O
+-	615,616	O	O
+art	616,619	O	O
+in	620,622	O	O
+situ	623,627	O	O
+high	628,632	O	O
+-	632,633	O	O
+resolution	633,643	O	O
+TEM	644,647	O	B-Process
+technique	648,657	O	O
+allows	658,664	O	O
+one	665,668	O	O
+to	669,671	O	O
+not	672,675	O	O
+only	676,680	O	O
+manipulate	681,691	O	B-Process
+with	692,696	O	I-Process
+an	697,699	O	I-Process
+individual	700,710	O	I-Process
+object	711,717	O	I-Process
+at	718,720	O	O
+the	721,724	O	O
+nano	725,729	O	O
+-	729,730	O	O
+scale	730,735	O	O
+precision	736,745	O	O
+but	746,749	O	O
+to	750,752	O	O
+also	753,757	O	O
+get	758,761	O	O
+deep	762,766	O	O
+insights	767,775	O	O
+into	776,780	O	O
+its	781,784	O	O
+physical	785,793	O	O
+,	793,794	O	O
+chemical	795,803	O	O
+,	803,804	O	O
+and	805,808	O	O
+microstructural	809,824	O	O
+statuses	825,833	O	O
+[	834,835	O	O
+68–71	835,840	O	O
+]	840,841	O	O
+.	841,842	O	O
+
+Combining	843,852	O	O
+the	853,856	O	O
+capabilities	857,869	O	O
+of	870,872	O	O
+a	873,874	O	O
+conventional	875,887	O	O
+high	888,892	O	O
+-	892,893	O	O
+resolution	893,903	O	O
+TEM	904,907	O	B-Process
+and	908,911	O	O
+AFM	912,915	O	B-Process
+or	916,918	O	O
+STM	919,922	O	B-Process
+probes	923,929	O	I-Process
+produces	930,938	O	O
+advanced	939,947	O	O
+and	948,951	O	O
+dedicated	952,961	O	O
+TEM	962,965	O	B-Process
+holders	966,973	O	I-Process
+,	973,974	O	O
+which	975,980	O	O
+are	981,984	O	O
+becoming	985,993	O	O
+the	994,997	O	O
+powerful	998,1006	O	O
+tools	1007,1012	O	O
+in	1013,1015	O	O
+nanomaterials	1016,1029	O	B-Task
+manipulation	1030,1042	O	I-Task
+and	1043,1046	O	O
+properties	1047,1057	O	B-Task
+analysis	1058,1066	O	I-Task
+.	1066,1067	O	O
+
+Such	1068,1072	O	O
+holders	1073,1080	O	B-Process
+have	1081,1085	O	O
+been	1086,1090	O	O
+commercialized	1091,1105	O	O
+,	1105,1106	O	O
+for	1107,1110	O	O
+instance	1111,1119	O	O
+,	1119,1120	O	O
+by	1121,1123	O	O
+“	1124,1125	O	O
+Nanofactory	1125,1136	O	O
+Instruments	1137,1148	O	O
+AB	1149,1151	O	O
+’’	1151,1153	O	O
+,	1153,1154	O	O
+Goteborg	1155,1163	O	O
+,	1163,1164	O	O
+Sweden	1165,1171	O	O
+[	1172,1173	O	O
+72	1173,1175	O	O
+]	1175,1176	O	O
+.	1176,1177	O	O
+
+The	1178,1181	O	O
+full	1182,1186	O	O
+usefulness	1187,1197	O	O
+of	1198,1200	O	O
+these	1201,1206	O	O
+advanced	1207,1215	O	O
+in	1216,1218	O	O
+-	1218,1219	O	O
+situ	1219,1223	O	O
+TEM	1224,1227	O	B-Process
+techniques	1228,1238	O	I-Process
+is	1239,1241	O	O
+apparent	1242,1250	O	O
+with	1251,1255	O	O
+respect	1256,1263	O	O
+to	1264,1266	O	O
+mechanical	1267,1277	O	B-Task
+and	1278,1281	O	I-Task
+thermal	1282,1289	O	I-Task
+property	1290,1298	O	I-Task
+analysis	1299,1307	O	I-Task
+of	1308,1310	O	O
+individual	1311,1321	O	O
+nanostructures	1322,1336	O	B-Material
+,	1336,1337	O	O
+e.g.	1338,1342	O	O
+,	1342,1343	O	O
+elasticity	1344,1354	O	O
+,	1354,1355	O	O
+plasticity	1356,1366	O	O
+and	1367,1370	O	O
+strength	1371,1379	O	O
+data	1380,1384	O	O
+while	1385,1390	O	O
+employing	1391,1400	O	O
+direct	1401,1407	O	B-Process
+bent	1408,1412	O	I-Process
+or	1413,1415	O	I-Process
+tensile	1416,1423	O	I-Process
+tests	1424,1429	O	I-Process
+[	1430,1431	O	O
+73–75	1431,1436	O	O
+]	1436,1437	O	O
+,	1437,1438	O	O
+probing	1439,1446	O	B-Process
+electrical	1447,1457	O	I-Process
+characteristics	1458,1473	O	I-Process
+,	1473,1474	O	O
+e.g.	1475,1479	O	O
+,	1479,1480	O	O
+field	1481,1486	O	B-Task
+emission	1487,1495	O	I-Task
+[	1496,1497	O	O
+27,76,77	1497,1505	O	O
+]	1505,1506	O	O
+,	1506,1507	O	O
+electrical	1508,1518	O	B-Task
+transport	1519,1528	O	I-Task
+tracing	1529,1536	O	I-Task
+[	1537,1538	O	O
+78–80	1538,1543	O	O
+]	1543,1544	O	O
+,	1544,1545	O	O
+soldering	1546,1555	O	B-Task
+[	1556,1557	O	O
+81,82	1557,1562	O	O
+]	1562,1563	O	O
+,	1563,1564	O	O
+and	1565,1568	O	O
+doping	1569,1575	O	B-Task
+[	1576,1577	O	O
+83	1577,1579	O	O
+]	1579,1580	O	O
+,	1580,1581	O	O
+etc	1582,1585	O	O
+.	1585,1586	O	O
 
 
 -DOCSTART- (S0098300412001793)
 
-MINERAL	0	7	B-Task
-(	8	9	I-Task
-MINeral	9	16	I-Task
-ERror	17	22	I-Task
-AnaLysis	23	31	I-Task
-)	31	32	I-Task
-is	33	35	O
-a	36	37	B-Task
-new	38	41	I-Task
-MATLAB	42	48	I-Task
-®	48	49	I-Task
-based	50	55	I-Task
-program	56	63	I-Task
-that	64	68	O
-provides	69	77	B-Process
-mineral	78	85	I-Process
-formula	86	93	I-Process
-recalculations	94	108	I-Process
-combined	109	117	I-Process
-with	118	122	I-Process
-the	123	126	I-Process
-associated	127	137	I-Process
-propagation	138	149	I-Process
-of	150	152	I-Process
-the	153	156	I-Process
-analytical	157	167	I-Process
-uncertainties	168	181	I-Process
-.	181	182	O
-
-Methods	183	190	B-Task
-are	191	194	O
-based	195	200	O
-on	201	203	O
-the	204	207	O
-work	208	212	O
-of	213	215	O
-Giamarita	216	225	O
-and	226	229	O
-Day	230	233	O
-(	234	235	O
-1990	235	239	O
-)	239	240	O
-.	240	241	O
-
-However	242	249	O
-,	249	250	O
-additional	251	261	O
-features	262	270	O
-have	271	275	O
-been	276	280	O
-added	281	286	O
-to	287	289	B-Task
-provide	290	297	I-Task
-users	298	303	I-Task
-with	304	308	I-Task
-greater	309	316	I-Task
-flexibility	317	328	I-Task
-in	329	331	I-Task
-data	332	336	I-Task
-reporting	337	346	I-Task
-.	346	347	O
-
-Many	348	352	O
-programs	353	361	O
-exist	362	367	O
-to	368	370	O
-recalculate	371	382	O
-wt%	383	386	O
-data	387	391	O
-into	392	396	O
-formula	397	404	O
-unit	405	409	O
-cations	410	417	O
-.	417	418	O
-
-Some	419	423	B-Task
-generalized	424	435	I-Task
-programs	436	444	I-Task
-can	445	448	O
-be	449	451	O
-used	452	456	O
-to	457	459	O
-recalculate	460	471	B-Process
-the	472	475	I-Process
-formula	476	483	I-Process
-of	484	486	I-Process
-multiple	487	495	I-Process
-minerals	496	504	I-Process
-e.g.	505	509	O
-CALCMIN	510	517	B-Material
-(	518	519	O
-Brandelik	519	528	O
-,	528	529	O
-2009	530	534	O
-)	534	535	O
-and	536	539	O
-HYPER	540	545	B-Material
--	545	546	I-Material
-FORM	546	550	I-Material
-(	551	552	O
-De	552	554	O
-Bjerg	555	560	O
-et	561	563	O
-al	564	566	O
-.	566	567	O
-,	567	568	O
-1992	569	573	O
-)	573	574	O
-.	574	575	O
-
-Other	576	581	O
-programs	582	590	O
-are	591	594	O
-mineral	595	602	O
-specific	603	611	O
-e.g.	612	616	O
-AMPH	617	621	B-Material
-CLASS	622	627	I-Material
-(	628	629	O
-Esawi	629	634	O
-,	634	635	O
-2004	636	640	O
-)	640	641	O
-and	642	645	O
-PROBE	646	651	B-Material
-AMPH	652	656	I-Material
-(	657	658	O
-Tindle	658	664	O
-and	665	668	O
-Webb	669	673	O
-,	673	674	O
-1994	675	679	O
-)	679	680	O
-for	681	684	O
-the	685	688	O
-recalculation	689	702	B-Task
-of	703	705	I-Task
-amphibole	706	715	I-Task
-analyses	716	724	I-Task
-;	724	725	O
-ILMAT	726	731	B-Material
-(	732	733	O
-Lepage	733	739	O
-,	739	740	O
-2003	741	745	O
-)	745	746	O
-for	747	750	O
-the	751	754	O
-recalculation	755	768	B-Task
-of	769	771	I-Task
-magnetite	772	781	I-Task
-and	782	785	I-Task
-ilmenite	786	794	I-Task
-;	794	795	O
-and	796	799	O
-PX	800	802	B-Material
--	802	803	I-Material
-NOM	803	806	I-Material
-(	807	808	O
-Sturm	808	813	O
-,	813	814	O
-2002	815	819	O
-)	819	820	O
-for	821	824	O
-the	825	828	O
-recalculation	829	842	B-Task
-of	843	845	I-Task
-pyroxene	846	854	I-Task
-analyses	855	863	I-Task
-.	863	864	O
-
-MINERAL	865	872	B-Material
-provides	873	881	O
-a	882	883	O
-rapid	884	889	O
-method	890	896	O
-for	897	900	O
-the	901	904	O
-recalculation	905	918	B-Task
-of	919	921	I-Task
-multiple	922	930	I-Task
-common	931	937	I-Task
-minerals	938	946	I-Task
-.	946	947	O
-
-However	948	955	O
-,	955	956	O
-its	957	960	O
-strength	961	969	O
-lies	970	974	O
-in	975	977	O
-the	978	981	O
-fact	982	986	O
-that	987	991	O
-is	992	994	O
-the	995	998	O
-first	999	1004	O
-tool	1005	1009	O
-to	1010	1012	O
-incorporate	1013	1024	B-Process
-the	1025	1028	I-Process
-associated	1029	1039	I-Process
-uncertainty	1040	1051	I-Process
-propagation	1052	1063	I-Process
-calculations	1064	1076	I-Process
-.	1076	1077	I-Process
-
-As	1078	1080	O
-these	1081	1086	O
-are	1087	1090	O
-performed	1091	1100	O
-concurrently	1101	1113	O
-with	1114	1118	O
-the	1119	1122	O
-standard	1123	1131	O
-recalculations	1132	1146	O
-,	1146	1147	O
-no	1148	1150	O
-additional	1151	1161	O
-time	1162	1166	O
-is	1167	1169	O
-needed	1170	1176	O
-to	1177	1179	O
-perform	1180	1187	O
-uncertainty	1188	1199	O
-propagation	1200	1211	O
-.	1211	1212	O
-
-While	1213	1218	O
-an	1219	1221	O
-understanding	1222	1235	O
-of	1236	1238	O
-the	1239	1242	O
-underlying	1243	1253	O
-calculations	1254	1266	O
-is	1267	1269	O
-strongly	1270	1278	O
-recommended	1279	1290	O
-,	1290	1291	O
-MINERAL	1292	1299	B-Material
-is	1300	1302	O
-designed	1303	1311	O
-to	1312	1314	O
-allow	1315	1320	B-Task
-users	1321	1326	I-Task
-with	1327	1331	I-Task
-little	1332	1338	I-Task
-or	1339	1341	I-Task
-no	1342	1344	I-Task
-experience	1345	1355	I-Task
-operating	1356	1365	I-Task
-MATLAB	1366	1372	I-Task
-®	1372	1373	I-Task
-and/or	1374	1380	I-Task
-performing	1381	1391	I-Task
-mineral	1392	1399	I-Task
-formula	1400	1407	I-Task
-recalculations	1408	1422	I-Task
-and	1423	1426	I-Task
-uncertainty	1427	1438	I-Task
-propagation	1439	1450	I-Task
-to	1451	1453	I-Task
-undertake	1454	1463	I-Task
-both	1464	1468	I-Task
-with	1469	1473	I-Task
-ease	1474	1478	I-Task
-.	1478	1479	O
+MINERAL	0,7	O	B-Task
+(	8,9	O	I-Task
+MINeral	9,16	O	I-Task
+ERror	17,22	O	I-Task
+AnaLysis	23,31	O	I-Task
+)	31,32	O	I-Task
+is	33,35	O	O
+a	36,37	O	B-Task
+new	38,41	O	I-Task
+MATLAB	42,48	O	I-Task
+®	48,49	O	I-Task
+based	50,55	O	I-Task
+program	56,63	O	I-Task
+that	64,68	O	O
+provides	69,77	O	B-Process
+mineral	78,85	O	I-Process
+formula	86,93	O	I-Process
+recalculations	94,108	O	I-Process
+combined	109,117	O	I-Process
+with	118,122	O	I-Process
+the	123,126	O	I-Process
+associated	127,137	O	I-Process
+propagation	138,149	O	I-Process
+of	150,152	O	I-Process
+the	153,156	O	I-Process
+analytical	157,167	O	I-Process
+uncertainties	168,181	O	I-Process
+.	181,182	O	O
+
+Methods	183,190	O	B-Task
+are	191,194	O	O
+based	195,200	O	O
+on	201,203	O	O
+the	204,207	O	O
+work	208,212	O	O
+of	213,215	O	O
+Giamarita	216,225	O	O
+and	226,229	O	O
+Day	230,233	O	O
+(	234,235	O	O
+1990	235,239	O	O
+)	239,240	O	O
+.	240,241	O	O
+
+However	242,249	O	O
+,	249,250	O	O
+additional	251,261	O	O
+features	262,270	O	O
+have	271,275	O	O
+been	276,280	O	O
+added	281,286	O	O
+to	287,289	O	B-Task
+provide	290,297	O	I-Task
+users	298,303	O	I-Task
+with	304,308	O	I-Task
+greater	309,316	O	I-Task
+flexibility	317,328	O	I-Task
+in	329,331	O	I-Task
+data	332,336	O	I-Task
+reporting	337,346	O	I-Task
+.	346,347	O	O
+
+Many	348,352	O	O
+programs	353,361	O	O
+exist	362,367	O	O
+to	368,370	O	O
+recalculate	371,382	O	O
+wt%	383,386	O	O
+data	387,391	O	O
+into	392,396	O	O
+formula	397,404	O	O
+unit	405,409	O	O
+cations	410,417	O	O
+.	417,418	O	O
+
+Some	419,423	O	B-Task
+generalized	424,435	O	I-Task
+programs	436,444	O	I-Task
+can	445,448	O	O
+be	449,451	O	O
+used	452,456	O	O
+to	457,459	O	O
+recalculate	460,471	O	B-Process
+the	472,475	O	I-Process
+formula	476,483	O	I-Process
+of	484,486	O	I-Process
+multiple	487,495	O	I-Process
+minerals	496,504	O	I-Process
+e.g.	505,509	O	O
+CALCMIN	510,517	O	B-Material
+(	518,519	O	O
+Brandelik	519,528	O	O
+,	528,529	O	O
+2009	530,534	O	O
+)	534,535	O	O
+and	536,539	O	O
+HYPER	540,545	O	B-Material
+-	545,546	O	I-Material
+FORM	546,550	O	I-Material
+(	551,552	O	O
+De	552,554	O	O
+Bjerg	555,560	O	O
+et	561,563	O	O
+al	564,566	O	O
+.	566,567	O	O
+,	567,568	O	O
+1992	569,573	O	O
+)	573,574	O	O
+.	574,575	O	O
+
+Other	576,581	O	O
+programs	582,590	O	O
+are	591,594	O	O
+mineral	595,602	O	O
+specific	603,611	O	O
+e.g.	612,616	O	O
+AMPH	617,621	O	B-Material
+CLASS	622,627	O	I-Material
+(	628,629	O	O
+Esawi	629,634	O	O
+,	634,635	O	O
+2004	636,640	O	O
+)	640,641	O	O
+and	642,645	O	O
+PROBE	646,651	O	B-Material
+AMPH	652,656	O	I-Material
+(	657,658	O	O
+Tindle	658,664	O	O
+and	665,668	O	O
+Webb	669,673	O	O
+,	673,674	O	O
+1994	675,679	O	O
+)	679,680	O	O
+for	681,684	O	O
+the	685,688	O	O
+recalculation	689,702	O	B-Task
+of	703,705	O	I-Task
+amphibole	706,715	O	I-Task
+analyses	716,724	O	I-Task
+;	724,725	O	O
+ILMAT	726,731	O	B-Material
+(	732,733	O	O
+Lepage	733,739	O	O
+,	739,740	O	O
+2003	741,745	O	O
+)	745,746	O	O
+for	747,750	O	O
+the	751,754	O	O
+recalculation	755,768	O	B-Task
+of	769,771	O	I-Task
+magnetite	772,781	O	I-Task
+and	782,785	O	I-Task
+ilmenite	786,794	O	I-Task
+;	794,795	O	O
+and	796,799	O	O
+PX	800,802	O	B-Material
+-	802,803	O	I-Material
+NOM	803,806	O	I-Material
+(	807,808	O	O
+Sturm	808,813	O	O
+,	813,814	O	O
+2002	815,819	O	O
+)	819,820	O	O
+for	821,824	O	O
+the	825,828	O	O
+recalculation	829,842	O	B-Task
+of	843,845	O	I-Task
+pyroxene	846,854	O	I-Task
+analyses	855,863	O	I-Task
+.	863,864	O	O
+
+MINERAL	865,872	O	B-Material
+provides	873,881	O	O
+a	882,883	O	O
+rapid	884,889	O	O
+method	890,896	O	O
+for	897,900	O	O
+the	901,904	O	O
+recalculation	905,918	O	B-Task
+of	919,921	O	I-Task
+multiple	922,930	O	I-Task
+common	931,937	O	I-Task
+minerals	938,946	O	I-Task
+.	946,947	O	O
+
+However	948,955	O	O
+,	955,956	O	O
+its	957,960	O	O
+strength	961,969	O	O
+lies	970,974	O	O
+in	975,977	O	O
+the	978,981	O	O
+fact	982,986	O	O
+that	987,991	O	O
+is	992,994	O	O
+the	995,998	O	O
+first	999,1004	O	O
+tool	1005,1009	O	O
+to	1010,1012	O	O
+incorporate	1013,1024	O	B-Process
+the	1025,1028	O	I-Process
+associated	1029,1039	O	I-Process
+uncertainty	1040,1051	O	I-Process
+propagation	1052,1063	O	I-Process
+calculations	1064,1076	O	I-Process
+.	1076,1077	O	I-Process
+
+As	1078,1080	O	O
+these	1081,1086	O	O
+are	1087,1090	O	O
+performed	1091,1100	O	O
+concurrently	1101,1113	O	O
+with	1114,1118	O	O
+the	1119,1122	O	O
+standard	1123,1131	O	O
+recalculations	1132,1146	O	O
+,	1146,1147	O	O
+no	1148,1150	O	O
+additional	1151,1161	O	O
+time	1162,1166	O	O
+is	1167,1169	O	O
+needed	1170,1176	O	O
+to	1177,1179	O	O
+perform	1180,1187	O	O
+uncertainty	1188,1199	O	O
+propagation	1200,1211	O	O
+.	1211,1212	O	O
+
+While	1213,1218	O	O
+an	1219,1221	O	O
+understanding	1222,1235	O	O
+of	1236,1238	O	O
+the	1239,1242	O	O
+underlying	1243,1253	O	O
+calculations	1254,1266	O	O
+is	1267,1269	O	O
+strongly	1270,1278	O	O
+recommended	1279,1290	O	O
+,	1290,1291	O	O
+MINERAL	1292,1299	O	B-Material
+is	1300,1302	O	O
+designed	1303,1311	O	O
+to	1312,1314	O	O
+allow	1315,1320	O	B-Task
+users	1321,1326	O	I-Task
+with	1327,1331	O	I-Task
+little	1332,1338	O	I-Task
+or	1339,1341	O	I-Task
+no	1342,1344	O	I-Task
+experience	1345,1355	O	I-Task
+operating	1356,1365	O	I-Task
+MATLAB	1366,1372	O	I-Task
+®	1372,1373	O	I-Task
+and/or	1374,1380	O	I-Task
+performing	1381,1391	O	I-Task
+mineral	1392,1399	O	I-Task
+formula	1400,1407	O	I-Task
+recalculations	1408,1422	O	I-Task
+and	1423,1426	O	I-Task
+uncertainty	1427,1438	O	I-Task
+propagation	1439,1450	O	I-Task
+to	1451,1453	O	I-Task
+undertake	1454,1463	O	I-Task
+both	1464,1468	O	I-Task
+with	1469,1473	O	I-Task
+ease	1474,1478	O	I-Task
+.	1478,1479	O	O
 
 
 -DOCSTART- (S0098300413002185)
 
-A	0	1	O
-number	2	8	O
-of	9	11	O
-model	12	17	O
-parameters	18	28	O
-can	29	32	O
-change	33	39	O
-regionally	40	50	O
-or	51	53	O
-seasonally	54	64	O
-,	64	65	O
-in	66	68	O
-particular	69	79	O
-the	80	83	O
-inherent	84	92	O
-optical	93	100	O
-properties	101	111	O
-of	112	114	O
-water	115	120	B-Material
-constituents	121	133	I-Material
-[	134	135	O
-ai⁎(λ	135	140	B-Material
-)	140	141	O
-,	141	142	O
-aY⁎(λ	143	148	B-Material
-)	148	149	I-Material
-,	149	150	O
-aD⁎(λ	151	156	B-Material
-)	156	157	I-Material
-,	157	158	O
-bX(λ	159	163	B-Material
-)	163	164	I-Material
-,	164	165	O
-bb	166	168	B-Material
-,	168	169	I-Material
-X⁎	169	171	I-Material
-,	171	172	O
-bb	173	175	B-Material
-,	175	176	O
-Mie⁎	176	180	B-Material
-]	180	181	O
-and	182	185	O
-the	186	189	O
-apparent	190	198	O
-optical	199	206	B-Material
-properties	207	217	I-Material
-of	218	220	I-Material
-the	221	224	I-Material
-bottom	225	231	I-Material
-[	232	233	I-Material
-Rib(λ	233	238	I-Material
-)	238	239	I-Material
-,	239	240	I-Material
-Bi	241	243	I-Material
-]	243	244	I-Material
-and	245	248	I-Material
-the	249	252	I-Material
-atmosphere	253	263	I-Material
-.	263	264	O
-
-The	265	268	O
-database	269	277	B-Material
-provided	278	286	O
-with	287	291	O
-WASI	292	296	B-Material
-has	297	300	O
-been	301	305	O
-derived	306	313	O
-from	314	318	O
-in	319	321	B-Process
--	321	322	I-Process
-situ	322	326	I-Process
-measurements	327	339	I-Process
-from	340	344	O
-lakes	345	350	O
-in	351	353	O
-Southern	354	362	O
-Germany	363	370	O
-
-(	371	372	O
-Gege	372	376	O
-,	376	377	O
-1998	378	382	O
-;	382	383	O
-Heege	384	389	O
-,	389	390	O
-2000	391	395	O
-;	395	396	O
-Pinnel	397	403	O
-,	403	404	O
-2007	405	409	O
-)	409	410	O
-.	410	411	O
-
-If	412	414	O
-no	415	417	O
-site	418	422	O
--	422	423	O
-specific	423	431	O
-information	432	443	O
-is	444	446	O
-available	447	456	O
-,	456	457	O
-it	458	460	O
-can	461	464	O
-be	465	467	O
-used	468	472	O
-as	473	475	O
-a	476	477	O
-first	478	483	O
-approximation	484	497	O
-for	498	501	O
-other	502	507	O
-ecosystems	508	518	O
-as	519	521	O
-well	522	526	O
-.	526	527	O
-
-The	528	531	O
-variability	532	543	O
-within	544	550	O
-an	551	553	O
-ecosystem	554	563	O
-can	564	567	O
-be	568	570	O
-as	571	573	O
-large	574	579	O
-as	580	582	O
-between	583	590	O
-different	591	600	O
-ecosystem	601	610	O
-,	610	611	O
-i.e.	612	616	O
-ecosystem	617	626	O
--	626	627	O
-specific	627	635	O
-sets	636	640	O
-of	641	643	O
-optical	644	651	O
-properties	652	662	O
-do	663	665	O
-not	666	669	O
-exist	670	675	O
-.	675	676	O
-
-However	677	684	O
-,	684	685	O
-region	686	692	B-Material
-or	693	695	I-Material
-season	696	702	I-Material
-specific	703	711	I-Material
-information	712	723	I-Material
-should	724	730	O
-be	731	733	O
-used	734	738	O
-whenever	739	747	O
-available	748	757	O
-.	757	758	O
-
-Ideally	759	766	O
-,	766	767	O
-the	768	771	O
-optical	772	779	B-Material
-properties	780	790	I-Material
-should	791	797	O
-be	798	800	O
-measured	801	809	O
-at	810	812	O
-the	813	816	O
-test	817	821	O
-site	822	826	O
-close	827	832	O
-to	833	835	O
-the	836	839	O
-airplane	840	848	O
-or	849	851	O
-satellite	852	861	O
-overpass	862	870	O
-.	870	871	O
-
-This	872	876	O
-is	877	879	O
-however	880	887	O
-not	888	891	O
-always	892	898	O
-possible	899	907	O
-.	907	908	O
-
-A	909	910	O
-valuable	911	919	O
-source	920	926	O
-of	927	929	O
-information	930	941	O
-is	942	944	O
-the	945	948	O
-IOCCG	949	954	B-Material
-webpage	955	962	O
-(	963	964	O
-IOCCG	964	969	O
-,	969	970	O
-2013b	971	976	O
-)	976	977	O
-.	977	978	O
-
-It	979	981	O
-maintains	982	991	O
-a	992	993	O
-list	994	998	O
-of	999	1001	O
-links	1002	1007	O
-to	1008	1010	O
-publicly	1011	1019	O
-available	1020	1029	O
-data	1030	1034	O
-sets	1035	1039	O
-,	1039	1040	O
-for	1041	1044	O
-example	1045	1052	O
-the	1053	1056	O
-IOCCG	1057	1062	B-Material
-(	1063	1064	I-Material
-2006	1064	1068	I-Material
-)	1068	1069	I-Material
-data	1070	1074	I-Material
-bank	1075	1079	I-Material
-,	1079	1080	O
-the	1081	1084	O
-NASA	1085	1089	B-Material
-bio	1090	1093	I-Material
--	1093	1094	I-Material
-Optical	1094	1101	I-Material
-Marine	1102	1108	I-Material
-Algorithm	1109	1118	I-Material
-Data	1119	1123	I-Material
-set	1124	1127	I-Material
-(	1128	1129	O
-NOMAD	1129	1134	B-Material
-)	1134	1135	O
-and	1136	1139	O
-the	1140	1143	O
-SeaWiFS	1144	1151	B-Material
-Bio	1152	1155	I-Material
--	1155	1156	I-Material
-Optical	1156	1163	I-Material
-Archive	1164	1171	I-Material
-and	1172	1175	I-Material
-Storage	1176	1183	I-Material
-System	1184	1190	I-Material
-(	1191	1192	O
-SeaBASS	1192	1199	B-Material
-)	1199	1200	O
-.	1200	1201	O
+A	0,1	O	O
+number	2,8	O	O
+of	9,11	O	O
+model	12,17	O	O
+parameters	18,28	O	O
+can	29,32	O	O
+change	33,39	O	O
+regionally	40,50	O	O
+or	51,53	O	O
+seasonally	54,64	O	O
+,	64,65	O	O
+in	66,68	O	O
+particular	69,79	O	O
+the	80,83	O	O
+inherent	84,92	O	O
+optical	93,100	O	O
+properties	101,111	O	O
+of	112,114	O	O
+water	115,120	O	B-Material
+constituents	121,133	O	I-Material
+[	134,135	O	O
+ai⁎(λ	135,140	O	B-Material
+)	140,141	O	O
+,	141,142	O	O
+aY⁎(λ	143,148	O	B-Material
+)	148,149	O	I-Material
+,	149,150	O	O
+aD⁎(λ	151,156	O	B-Material
+)	156,157	O	I-Material
+,	157,158	O	O
+bX(λ	159,163	O	B-Material
+)	163,164	O	I-Material
+,	164,165	O	O
+bb	166,168	O	B-Material
+,	168,169	O	I-Material
+X⁎	169,171	O	I-Material
+,	171,172	O	O
+bb	173,175	O	B-Material
+,	175,176	O	O
+Mie⁎	176,180	O	B-Material
+]	180,181	O	O
+and	182,185	O	O
+the	186,189	O	O
+apparent	190,198	O	O
+optical	199,206	O	B-Material
+properties	207,217	O	I-Material
+of	218,220	O	I-Material
+the	221,224	O	I-Material
+bottom	225,231	O	I-Material
+[	232,233	O	I-Material
+Rib(λ	233,238	O	I-Material
+)	238,239	O	I-Material
+,	239,240	O	I-Material
+Bi	241,243	O	I-Material
+]	243,244	O	I-Material
+and	245,248	O	I-Material
+the	249,252	O	I-Material
+atmosphere	253,263	O	I-Material
+.	263,264	O	O
+
+The	265,268	O	O
+database	269,277	O	B-Material
+provided	278,286	O	O
+with	287,291	O	O
+WASI	292,296	O	B-Material
+has	297,300	O	O
+been	301,305	O	O
+derived	306,313	O	O
+from	314,318	O	O
+in	319,321	O	B-Process
+-	321,322	O	I-Process
+situ	322,326	O	I-Process
+measurements	327,339	O	I-Process
+from	340,344	O	O
+lakes	345,350	O	O
+in	351,353	O	O
+Southern	354,362	O	O
+Germany	363,370	O	O
+
+(	371,372	O	O
+Gege	372,376	O	O
+,	376,377	O	O
+1998	378,382	O	O
+;	382,383	O	O
+Heege	384,389	O	O
+,	389,390	O	O
+2000	391,395	O	O
+;	395,396	O	O
+Pinnel	397,403	O	O
+,	403,404	O	O
+2007	405,409	O	O
+)	409,410	O	O
+.	410,411	O	O
+
+If	412,414	O	O
+no	415,417	O	O
+site	418,422	O	O
+-	422,423	O	O
+specific	423,431	O	O
+information	432,443	O	O
+is	444,446	O	O
+available	447,456	O	O
+,	456,457	O	O
+it	458,460	O	O
+can	461,464	O	O
+be	465,467	O	O
+used	468,472	O	O
+as	473,475	O	O
+a	476,477	O	O
+first	478,483	O	O
+approximation	484,497	O	O
+for	498,501	O	O
+other	502,507	O	O
+ecosystems	508,518	O	O
+as	519,521	O	O
+well	522,526	O	O
+.	526,527	O	O
+
+The	528,531	O	O
+variability	532,543	O	O
+within	544,550	O	O
+an	551,553	O	O
+ecosystem	554,563	O	O
+can	564,567	O	O
+be	568,570	O	O
+as	571,573	O	O
+large	574,579	O	O
+as	580,582	O	O
+between	583,590	O	O
+different	591,600	O	O
+ecosystem	601,610	O	O
+,	610,611	O	O
+i.e.	612,616	O	O
+ecosystem	617,626	O	O
+-	626,627	O	O
+specific	627,635	O	O
+sets	636,640	O	O
+of	641,643	O	O
+optical	644,651	O	O
+properties	652,662	O	O
+do	663,665	O	O
+not	666,669	O	O
+exist	670,675	O	O
+.	675,676	O	O
+
+However	677,684	O	O
+,	684,685	O	O
+region	686,692	O	B-Material
+or	693,695	O	I-Material
+season	696,702	O	I-Material
+specific	703,711	O	I-Material
+information	712,723	O	I-Material
+should	724,730	O	O
+be	731,733	O	O
+used	734,738	O	O
+whenever	739,747	O	O
+available	748,757	O	O
+.	757,758	O	O
+
+Ideally	759,766	O	O
+,	766,767	O	O
+the	768,771	O	O
+optical	772,779	O	B-Material
+properties	780,790	O	I-Material
+should	791,797	O	O
+be	798,800	O	O
+measured	801,809	O	O
+at	810,812	O	O
+the	813,816	O	O
+test	817,821	O	O
+site	822,826	O	O
+close	827,832	O	O
+to	833,835	O	O
+the	836,839	O	O
+airplane	840,848	O	O
+or	849,851	O	O
+satellite	852,861	O	O
+overpass	862,870	O	O
+.	870,871	O	O
+
+This	872,876	O	O
+is	877,879	O	O
+however	880,887	O	O
+not	888,891	O	O
+always	892,898	O	O
+possible	899,907	O	O
+.	907,908	O	O
+
+A	909,910	O	O
+valuable	911,919	O	O
+source	920,926	O	O
+of	927,929	O	O
+information	930,941	O	O
+is	942,944	O	O
+the	945,948	O	O
+IOCCG	949,954	O	B-Material
+webpage	955,962	O	O
+(	963,964	O	O
+IOCCG	964,969	O	O
+,	969,970	O	O
+2013b	971,976	O	O
+)	976,977	O	O
+.	977,978	O	O
+
+It	979,981	O	O
+maintains	982,991	O	O
+a	992,993	O	O
+list	994,998	O	O
+of	999,1001	O	O
+links	1002,1007	O	O
+to	1008,1010	O	O
+publicly	1011,1019	O	O
+available	1020,1029	O	O
+data	1030,1034	O	O
+sets	1035,1039	O	O
+,	1039,1040	O	O
+for	1041,1044	O	O
+example	1045,1052	O	O
+the	1053,1056	O	O
+IOCCG	1057,1062	O	B-Material
+(	1063,1064	O	I-Material
+2006	1064,1068	O	I-Material
+)	1068,1069	O	I-Material
+data	1070,1074	O	I-Material
+bank	1075,1079	O	I-Material
+,	1079,1080	O	O
+the	1081,1084	O	O
+NASA	1085,1089	O	B-Material
+bio	1090,1093	O	I-Material
+-	1093,1094	O	I-Material
+Optical	1094,1101	O	I-Material
+Marine	1102,1108	O	I-Material
+Algorithm	1109,1118	O	I-Material
+Data	1119,1123	O	I-Material
+set	1124,1127	O	I-Material
+(	1128,1129	O	O
+NOMAD	1129,1134	O	B-Material
+)	1134,1135	O	O
+and	1136,1139	O	O
+the	1140,1143	O	O
+SeaWiFS	1144,1151	O	B-Material
+Bio	1152,1155	O	I-Material
+-	1155,1156	O	I-Material
+Optical	1156,1163	O	I-Material
+Archive	1164,1171	O	I-Material
+and	1172,1175	O	I-Material
+Storage	1176,1183	O	I-Material
+System	1184,1190	O	I-Material
+(	1191,1192	O	O
+SeaBASS	1192,1199	O	B-Material
+)	1199,1200	O	O
+.	1200,1201	O	O
 
 
 -DOCSTART- (S0098300413002720)
 
-Artificial	0	10	B-Task
-Neural	11	17	I-Task
-Networks	18	26	I-Task
-(	27	28	O
-ANN	28	31	B-Task
-)	31	32	O
-have	33	37	O
-been	38	42	O
-widely	43	49	O
-used	50	54	O
-in	55	57	O
-science	58	65	B-Task
-and	66	69	I-Task
-engineering	70	81	I-Task
-problems	82	90	I-Task
-.	90	91	O
-
-They	92	96	O
-attempt	97	104	O
-to	105	107	O
-model	108	113	B-Process
-the	114	117	I-Process
-ability	118	125	I-Process
-of	126	128	I-Process
-biological	129	139	I-Process
-nervous	140	147	I-Process
-systems	148	155	I-Process
-to	156	158	I-Process
-recognize	159	168	I-Process
-patterns	169	177	I-Process
-and	178	181	I-Process
-objects	182	189	I-Process
-.	189	190	O
-
-ANN	191	194	B-Task
-basic	195	200	I-Task
-architecture	201	213	I-Task
-consists	214	222	O
-of	223	225	O
-networks	226	234	B-Material
-of	235	237	I-Material
-primitive	238	247	I-Material
-functions	248	257	I-Material
-capable	258	265	O
-of	266	268	O
-receiving	269	278	B-Process
-multiple	279	287	I-Process
-weighted	288	296	I-Process
-inputs	297	303	I-Process
-that	304	308	O
-are	309	312	O
-evaluated	313	322	O
-in	323	325	O
-terms	326	331	O
-of	332	334	O
-their	335	340	O
-success	341	348	O
-at	349	351	O
-discriminating	352	366	O
-the	367	370	O
-classes	371	378	O
-in	379	381	O
-Τa	382	384	O
-.	384	385	O
-
-Different	386	395	B-Task
-types	396	401	I-Task
-of	402	404	I-Task
-primitive	405	414	I-Task
-functions	415	424	I-Task
-and	425	428	I-Task
-network	429	436	I-Task
-configurations	437	451	I-Task
-result	452	458	O
-in	459	461	O
-varying	462	469	O
-models	470	476	O
-(	477	478	O
-Hastie	478	484	O
-et	485	487	O
-al	488	490	O
-.	490	491	O
-,	491	492	O
-2009	493	497	O
-;	497	498	O
-Rojas	499	504	O
-,	504	505	O
-1996	506	510	O
-)	510	511	O
-.	511	512	O
-
-During	513	519	O
-training	520	528	B-Task
-network	529	536	I-Task
-connection	537	547	I-Task
-weights	548	555	B-Material
-are	556	559	O
-adjusted	560	568	B-Process
-if	569	571	I-Process
-the	572	575	I-Process
-separation	576	586	I-Process
-of	587	589	I-Process
-inputs	590	596	I-Process
-and	597	600	I-Process
-predefined	601	611	I-Process
-classes	612	619	I-Process
-incurs	620	626	I-Process
-an	627	629	I-Process
-error	630	635	I-Process
-.	635	636	O
-
-Convergence	637	648	B-Process
-proceeds	649	657	O
-until	658	663	O
-the	664	667	B-Task
-reduction	668	677	I-Task
-in	678	680	I-Task
-error	681	686	I-Task
-between	687	694	I-Task
-iterations	695	705	I-Task
-reaches	706	713	I-Task
-a	714	715	I-Task
-decay	716	721	I-Task
-threshold	722	731	I-Task
-(	732	733	O
-Kotsiantis	733	743	O
-,	743	744	O
-2007	745	749	O
-;	749	750	O
-Rojas	751	756	O
-,	756	757	O
-1996	758	762	O
-)	762	763	O
-.	763	764	O
-
-We	765	767	O
-use	768	771	O
-feed	772	776	B-Process
--	776	777	I-Process
-forward	777	784	I-Process
-networks	785	793	I-Process
-with	794	798	I-Process
-a	799	800	I-Process
-single	801	807	I-Process
-hidden	808	814	I-Process
-layer	815	820	I-Process
-of	821	823	I-Process
-nodes	824	829	I-Process
-,	829	830	O
-a	831	832	O
-so	833	835	O
-called	836	842	O
-Multi	843	848	B-Process
--	848	849	I-Process
-Layer	849	854	I-Process
-Perceptron	855	865	I-Process
-(	866	867	O
-MLP	867	870	B-Process
-)	870	871	O
-(	872	873	O
-Venables	873	881	O
-and	882	885	O
-Ripley	886	892	O
-,	892	893	O
-2002	894	898	O
-)	898	899	O
-,	899	900	O
-and	901	904	O
-select	905	911	B-Process
-one	912	915	I-Process
-of	916	918	I-Process
-two	919	922	I-Process
-possible	923	931	I-Process
-parameters	932	942	I-Process
-:	942	943	O
-size	944	948	O
-,	948	949	O
-the	950	953	O
-number	954	960	O
-nodes	961	966	O
-in	967	969	O
-the	970	973	O
-hidden	974	980	O
-layer	981	986	O
-.	986	987	O
+Artificial	0,10	O	B-Task
+Neural	11,17	O	I-Task
+Networks	18,26	O	I-Task
+(	27,28	O	O
+ANN	28,31	O	B-Task
+)	31,32	O	O
+have	33,37	O	O
+been	38,42	O	O
+widely	43,49	O	O
+used	50,54	O	O
+in	55,57	O	O
+science	58,65	O	B-Task
+and	66,69	O	I-Task
+engineering	70,81	O	I-Task
+problems	82,90	O	I-Task
+.	90,91	O	O
+
+They	92,96	O	O
+attempt	97,104	O	O
+to	105,107	O	O
+model	108,113	O	B-Process
+the	114,117	O	I-Process
+ability	118,125	O	I-Process
+of	126,128	O	I-Process
+biological	129,139	O	I-Process
+nervous	140,147	O	I-Process
+systems	148,155	O	I-Process
+to	156,158	O	I-Process
+recognize	159,168	O	I-Process
+patterns	169,177	O	I-Process
+and	178,181	O	I-Process
+objects	182,189	O	I-Process
+.	189,190	O	O
+
+ANN	191,194	O	B-Task
+basic	195,200	O	I-Task
+architecture	201,213	O	I-Task
+consists	214,222	O	O
+of	223,225	O	O
+networks	226,234	O	B-Material
+of	235,237	O	I-Material
+primitive	238,247	O	I-Material
+functions	248,257	O	I-Material
+capable	258,265	O	O
+of	266,268	O	O
+receiving	269,278	O	B-Process
+multiple	279,287	O	I-Process
+weighted	288,296	O	I-Process
+inputs	297,303	O	I-Process
+that	304,308	O	O
+are	309,312	O	O
+evaluated	313,322	O	O
+in	323,325	O	O
+terms	326,331	O	O
+of	332,334	O	O
+their	335,340	O	O
+success	341,348	O	O
+at	349,351	O	O
+discriminating	352,366	O	O
+the	367,370	O	O
+classes	371,378	O	O
+in	379,381	O	O
+Τa	382,384	O	O
+.	384,385	O	O
+
+Different	386,395	O	B-Task
+types	396,401	O	I-Task
+of	402,404	O	I-Task
+primitive	405,414	O	I-Task
+functions	415,424	O	I-Task
+and	425,428	O	I-Task
+network	429,436	O	I-Task
+configurations	437,451	O	I-Task
+result	452,458	O	O
+in	459,461	O	O
+varying	462,469	O	O
+models	470,476	O	O
+(	477,478	O	O
+Hastie	478,484	O	O
+et	485,487	O	O
+al	488,490	O	O
+.	490,491	O	O
+,	491,492	O	O
+2009	493,497	O	O
+;	497,498	O	O
+Rojas	499,504	O	O
+,	504,505	O	O
+1996	506,510	O	O
+)	510,511	O	O
+.	511,512	O	O
+
+During	513,519	O	O
+training	520,528	O	B-Task
+network	529,536	O	I-Task
+connection	537,547	O	I-Task
+weights	548,555	O	B-Material
+are	556,559	O	O
+adjusted	560,568	O	B-Process
+if	569,571	O	I-Process
+the	572,575	O	I-Process
+separation	576,586	O	I-Process
+of	587,589	O	I-Process
+inputs	590,596	O	I-Process
+and	597,600	O	I-Process
+predefined	601,611	O	I-Process
+classes	612,619	O	I-Process
+incurs	620,626	O	I-Process
+an	627,629	O	I-Process
+error	630,635	O	I-Process
+.	635,636	O	O
+
+Convergence	637,648	O	B-Process
+proceeds	649,657	O	O
+until	658,663	O	O
+the	664,667	O	B-Task
+reduction	668,677	O	I-Task
+in	678,680	O	I-Task
+error	681,686	O	I-Task
+between	687,694	O	I-Task
+iterations	695,705	O	I-Task
+reaches	706,713	O	I-Task
+a	714,715	O	I-Task
+decay	716,721	O	I-Task
+threshold	722,731	O	I-Task
+(	732,733	O	O
+Kotsiantis	733,743	O	O
+,	743,744	O	O
+2007	745,749	O	O
+;	749,750	O	O
+Rojas	751,756	O	O
+,	756,757	O	O
+1996	758,762	O	O
+)	762,763	O	O
+.	763,764	O	O
+
+We	765,767	O	O
+use	768,771	O	O
+feed	772,776	O	B-Process
+-	776,777	O	I-Process
+forward	777,784	O	I-Process
+networks	785,793	O	I-Process
+with	794,798	O	I-Process
+a	799,800	O	I-Process
+single	801,807	O	I-Process
+hidden	808,814	O	I-Process
+layer	815,820	O	I-Process
+of	821,823	O	I-Process
+nodes	824,829	O	I-Process
+,	829,830	O	O
+a	831,832	O	O
+so	833,835	O	O
+called	836,842	O	O
+Multi	843,848	O	B-Process
+-	848,849	O	I-Process
+Layer	849,854	O	I-Process
+Perceptron	855,865	O	I-Process
+(	866,867	O	O
+MLP	867,870	O	B-Process
+)	870,871	O	O
+(	872,873	O	O
+Venables	873,881	O	O
+and	882,885	O	O
+Ripley	886,892	O	O
+,	892,893	O	O
+2002	894,898	O	O
+)	898,899	O	O
+,	899,900	O	O
+and	901,904	O	O
+select	905,911	O	B-Process
+one	912,915	O	I-Process
+of	916,918	O	I-Process
+two	919,922	O	I-Process
+possible	923,931	O	I-Process
+parameters	932,942	O	I-Process
+:	942,943	O	O
+size	944,948	O	O
+,	948,949	O	O
+the	950,953	O	O
+number	954,960	O	O
+nodes	961,966	O	O
+in	967,969	O	O
+the	970,973	O	O
+hidden	974,980	O	O
+layer	981,986	O	O
+.	986,987	O	O
 
 
 -DOCSTART- (S0098300413002951)
 
-Hitherto	0	8	O
-,	8	9	O
-the	10	13	O
-investigation	14	27	B-Task
-of	28	30	I-Task
-fossil	31	37	I-Task
--	37	38	I-Task
-orientation	38	49	I-Task
-was	50	53	O
-only	54	58	O
-used	59	63	O
-for	64	67	O
-the	68	71	O
-topmost	72	79	O
-surface	80	87	O
-of	88	90	O
-fossil	91	97	B-Material
-mass	98	102	I-Material
-occurrences	103	114	I-Material
-,	114	115	O
-deposited	116	125	O
-directly	126	134	O
-on	135	137	O
-the	138	141	O
-sea	142	145	O
-floor	146	151	O
-.	151	152	O
-
-Due	153	156	O
-to	157	159	O
-the	160	163	O
-fast	164	168	O
-development	169	180	O
-of	181	183	O
-virtual	184	191	B-Process
-methods	192	199	I-Process
-(	200	201	O
-e.g.	201	205	O
-,	205	206	O
-macro	207	212	B-Process
--	212	213	I-Process
-CT	213	215	I-Process
-,	215	216	O
-µ-CT	217	221	B-Process
-,	221	222	O
-nano	223	227	B-Process
--	227	228	I-Process
-CT	228	230	I-Process
-,	230	231	O
-etc	232	235	O
-.	235	236	O
-)	236	237	O
-
-it	238	240	O
-became	241	247	O
-possible	248	256	O
-,	256	257	O
-to	258	260	O
-investigate	261	272	O
-the	273	276	O
-interior	277	285	O
-orientation	286	297	O
-of	298	300	O
-such	301	305	O
-fossil	306	312	B-Material
-mass	313	317	I-Material
-occurrences	318	329	I-Material
-in	330	332	O
-three	333	338	O
--	338	339	O
-dimensional	339	350	O
-detail	351	357	O
-.	357	358	O
-
-Although	359	367	O
-,	367	368	O
-a	369	370	O
-series	371	377	O
-of	378	380	O
-paleontological	381	396	O
-studies	397	404	O
-deal	405	409	O
-with	410	414	O
-3D	415	417	B-Process
--	417	418	I-Process
-visualization	418	431	I-Process
-of	432	434	O
-fossil	435	441	B-Material
--	441	442	I-Material
-elements	442	450	I-Material
-,	450	451	O
-no	452	454	O
-mass	455	459	O
-occurrence	460	470	O
-has	471	474	O
-previously	475	485	O
-been	486	490	O
-reconstructed	491	504	O
-three	505	510	O
-dimensionally	511	524	O
-for	525	528	O
-investigating	529	542	B-Task
-their	543	548	I-Task
-interior	549	557	I-Task
-orientation	558	569	I-Task
-.	569	570	O
-
-This	571	575	O
-study	576	581	O
-illustrates	582	593	O
-an	594	596	O
-interdisciplinary	597	614	O
-approach	615	623	O
-of	624	626	O
-virtual	627	634	B-Task
-reconstruction	635	649	I-Task
-,	649	650	O
-analyses	651	659	B-Task
-and	660	663	I-Task
-interpretation	664	678	I-Task
-of	679	681	I-Task
-the	682	685	I-Task
-interior	686	694	I-Task
-orientation	695	706	I-Task
-of	707	709	O
-an	710	712	O
-ammonoid	713	721	B-Material
-mass	722	726	I-Material
-occurrence	727	737	I-Material
-.	737	738	O
-
-The	739	742	O
-method	743	749	O
-established	750	761	O
-herein	762	768	O
-produces	769	777	O
-clear	778	783	O
-and	784	787	O
-consistent	788	798	O
-results	799	806	O
-using	807	812	O
-planispirally	813	826	B-Process
-coiled	827	833	I-Process
-ammonoid	834	842	I-Process
-shells	843	849	I-Process
-–	850	851	O
-fossils	852	859	O
-,	859	860	O
-that	861	865	O
-so	866	868	O
-far	869	872	O
-would	873	878	O
-have	879	883	O
-been	884	888	O
-used	889	893	O
-only	894	898	O
-with	899	903	O
-caution	904	911	O
-for	912	915	O
-depositional	916	928	B-Task
-interpretations	929	944	I-Task
-.	944	945	O
-
-This	946	950	O
-method	951	957	O
-can	958	961	O
-be	962	964	O
-applied	965	972	O
-to	973	975	O
-any	976	979	O
-kind	980	984	O
-of	985	987	O
-fossil	988	994	B-Material
-mass	995	999	I-Material
-occurrence	1000	1010	I-Material
-,	1010	1011	O
-or	1012	1014	O
-even	1015	1019	O
-other	1020	1025	B-Material
-abundant	1026	1034	I-Material
-organic	1035	1042	I-Material
-elements	1043	1051	I-Material
-and	1052	1055	O
-particles	1056	1065	B-Material
-,	1065	1066	O
-to	1067	1069	O
-examine	1070	1077	O
-their	1078	1083	O
-orientation	1084	1095	O
-and	1096	1099	O
-depositional	1100	1112	O
-conditions	1113	1123	O
-to	1124	1126	O
-conclude	1127	1135	O
-on	1136	1138	O
-their	1139	1144	O
-paleoenvironment	1145	1161	O
-,	1161	1162	O
-particularly	1163	1175	O
-on	1176	1178	O
-paleocurrents	1179	1192	O
-.	1192	1193	O
+Hitherto	0,8	O	O
+,	8,9	O	O
+the	10,13	O	O
+investigation	14,27	O	B-Task
+of	28,30	O	I-Task
+fossil	31,37	O	I-Task
+-	37,38	O	I-Task
+orientation	38,49	O	I-Task
+was	50,53	O	O
+only	54,58	O	O
+used	59,63	O	O
+for	64,67	O	O
+the	68,71	O	O
+topmost	72,79	O	O
+surface	80,87	O	O
+of	88,90	O	O
+fossil	91,97	O	B-Material
+mass	98,102	O	I-Material
+occurrences	103,114	O	I-Material
+,	114,115	O	O
+deposited	116,125	O	O
+directly	126,134	O	O
+on	135,137	O	O
+the	138,141	O	O
+sea	142,145	O	O
+floor	146,151	O	O
+.	151,152	O	O
+
+Due	153,156	O	O
+to	157,159	O	O
+the	160,163	O	O
+fast	164,168	O	O
+development	169,180	O	O
+of	181,183	O	O
+virtual	184,191	O	B-Process
+methods	192,199	O	I-Process
+(	200,201	O	O
+e.g.	201,205	O	O
+,	205,206	O	O
+macro	207,212	O	B-Process
+-	212,213	O	I-Process
+CT	213,215	O	I-Process
+,	215,216	O	O
+µ-CT	217,221	O	B-Process
+,	221,222	O	O
+nano	223,227	O	B-Process
+-	227,228	O	I-Process
+CT	228,230	O	I-Process
+,	230,231	O	O
+etc	232,235	O	O
+.	235,236	O	O
+)	236,237	O	O
+
+it	238,240	O	O
+became	241,247	O	O
+possible	248,256	O	O
+,	256,257	O	O
+to	258,260	O	O
+investigate	261,272	O	O
+the	273,276	O	O
+interior	277,285	O	O
+orientation	286,297	O	O
+of	298,300	O	O
+such	301,305	O	O
+fossil	306,312	O	B-Material
+mass	313,317	O	I-Material
+occurrences	318,329	O	I-Material
+in	330,332	O	O
+three	333,338	O	O
+-	338,339	O	O
+dimensional	339,350	O	O
+detail	351,357	O	O
+.	357,358	O	O
+
+Although	359,367	O	O
+,	367,368	O	O
+a	369,370	O	O
+series	371,377	O	O
+of	378,380	O	O
+paleontological	381,396	O	O
+studies	397,404	O	O
+deal	405,409	O	O
+with	410,414	O	O
+3D	415,417	O	B-Process
+-	417,418	O	I-Process
+visualization	418,431	O	I-Process
+of	432,434	O	O
+fossil	435,441	O	B-Material
+-	441,442	O	I-Material
+elements	442,450	O	I-Material
+,	450,451	O	O
+no	452,454	O	O
+mass	455,459	O	O
+occurrence	460,470	O	O
+has	471,474	O	O
+previously	475,485	O	O
+been	486,490	O	O
+reconstructed	491,504	O	O
+three	505,510	O	O
+dimensionally	511,524	O	O
+for	525,528	O	O
+investigating	529,542	O	B-Task
+their	543,548	O	I-Task
+interior	549,557	O	I-Task
+orientation	558,569	O	I-Task
+.	569,570	O	O
+
+This	571,575	O	O
+study	576,581	O	O
+illustrates	582,593	O	O
+an	594,596	O	O
+interdisciplinary	597,614	O	O
+approach	615,623	O	O
+of	624,626	O	O
+virtual	627,634	O	B-Task
+reconstruction	635,649	O	I-Task
+,	649,650	O	O
+analyses	651,659	O	B-Task
+and	660,663	O	I-Task
+interpretation	664,678	O	I-Task
+of	679,681	O	I-Task
+the	682,685	O	I-Task
+interior	686,694	O	I-Task
+orientation	695,706	O	I-Task
+of	707,709	O	O
+an	710,712	O	O
+ammonoid	713,721	O	B-Material
+mass	722,726	O	I-Material
+occurrence	727,737	O	I-Material
+.	737,738	O	O
+
+The	739,742	O	O
+method	743,749	O	O
+established	750,761	O	O
+herein	762,768	O	O
+produces	769,777	O	O
+clear	778,783	O	O
+and	784,787	O	O
+consistent	788,798	O	O
+results	799,806	O	O
+using	807,812	O	O
+planispirally	813,826	O	B-Process
+coiled	827,833	O	I-Process
+ammonoid	834,842	O	I-Process
+shells	843,849	O	I-Process
+–	850,851	O	O
+fossils	852,859	O	O
+,	859,860	O	O
+that	861,865	O	O
+so	866,868	O	O
+far	869,872	O	O
+would	873,878	O	O
+have	879,883	O	O
+been	884,888	O	O
+used	889,893	O	O
+only	894,898	O	O
+with	899,903	O	O
+caution	904,911	O	O
+for	912,915	O	O
+depositional	916,928	O	B-Task
+interpretations	929,944	O	I-Task
+.	944,945	O	O
+
+This	946,950	O	O
+method	951,957	O	O
+can	958,961	O	O
+be	962,964	O	O
+applied	965,972	O	O
+to	973,975	O	O
+any	976,979	O	O
+kind	980,984	O	O
+of	985,987	O	O
+fossil	988,994	O	B-Material
+mass	995,999	O	I-Material
+occurrence	1000,1010	O	I-Material
+,	1010,1011	O	O
+or	1012,1014	O	O
+even	1015,1019	O	O
+other	1020,1025	O	B-Material
+abundant	1026,1034	O	I-Material
+organic	1035,1042	O	I-Material
+elements	1043,1051	O	I-Material
+and	1052,1055	O	O
+particles	1056,1065	O	B-Material
+,	1065,1066	O	O
+to	1067,1069	O	O
+examine	1070,1077	O	O
+their	1078,1083	O	O
+orientation	1084,1095	O	O
+and	1096,1099	O	O
+depositional	1100,1112	O	O
+conditions	1113,1123	O	O
+to	1124,1126	O	O
+conclude	1127,1135	O	O
+on	1136,1138	O	O
+their	1139,1144	O	O
+paleoenvironment	1145,1161	O	O
+,	1161,1162	O	O
+particularly	1163,1175	O	O
+on	1176,1178	O	O
+paleocurrents	1179,1192	O	O
+.	1192,1193	O	O
 
 
 -DOCSTART- (S0142061516308079)
 
-The	0	3	O
-above	4	9	O
-discussion	10	20	O
-summarizes	21	31	O
-the	32	35	O
-state	36	41	O
-of	42	44	O
-the	45	48	O
-art	49	52	O
-related	53	60	O
-to	61	63	O
-impacts	64	71	O
-and	72	75	O
-interpretations	76	91	O
-of	92	94	O
-communication	95	108	B-Material
-latency	109	116	I-Material
-between	117	124	O
-RT	125	127	B-Process
-simulators	128	138	I-Process
-.	138	139	O
-
-However	140	147	O
-,	147	148	O
-research	149	157	O
-is	158	160	O
-focused	161	168	O
-primarily	169	178	O
-on	179	181	O
-the	182	185	O
-effect	186	192	O
-of	193	195	O
-the	196	199	O
-data	200	204	O
-loss	205	209	O
-during	210	216	O
-the	217	220	O
-communication	221	234	O
-and	235	238	O
-how	239	242	O
-to	243	245	O
-mitigate	246	254	O
-it	255	257	O
-[	258	259	O
-34	259	261	O
-]	261	262	O
-.	262	263	O
-
-In	264	266	O
-the	267	270	O
-thermo	271	277	B-Process
--	277	278	I-Process
-electric	278	286	I-Process
-co	287	289	I-Process
--	289	290	I-Process
-simulation	290	300	I-Process
-example	301	308	O
-in	309	311	O
-[	312	313	O
-35	313	315	O
-]	315	316	O
-,	316	317	O
-the	318	321	O
-time	322	326	O
-constant	327	335	O
-is	336	338	O
-larger	339	345	O
-in	346	348	O
-the	349	352	O
-thermal	353	360	O
-simulation	361	371	O
-than	372	376	O
-that	377	381	O
-of	382	384	O
-power	385	390	O
-system	391	397	O
-simulation	398	408	O
-.	408	409	O
-
-Thus	410	414	O
-the	415	418	O
-communication	419	432	B-Material
-latency	433	440	I-Material
-will	441	445	O
-not	446	449	O
-significantly	450	463	O
-affect	464	470	O
-the	471	474	O
-accuracy	475	483	O
-of	484	486	O
-co	487	489	O
--	489	490	O
-simulation	490	500	O
-.	500	501	O
-
-In	502	504	O
-[	505	506	O
-36	506	508	O
-]	508	509	O
-,	509	510	O
-the	511	514	O
-co	515	517	B-Process
--	517	518	I-Process
-simulation	518	528	I-Process
-is	529	531	O
-performed	532	541	O
-using	542	547	O
-resources	548	557	O
-at	558	560	O
-the	561	564	O
-same	565	569	O
-location	570	578	O
-without	579	586	O
-synthetically	587	600	O
-introduced	601	611	O
-delays	612	618	O
-,	618	619	O
-which	620	625	O
-means	626	631	O
-the	632	635	O
-communication	636	649	O
-latency	650	657	O
-between	658	665	O
-RT	666	668	O
-simulators	669	679	O
-is	680	682	O
-ignored	683	690	O
-.	690	691	O
-
-In	692	694	O
-[	695	696	O
-37	696	698	O
-]	698	699	O
-,	699	700	O
-the	701	704	O
-authors	705	712	O
-have	713	717	O
-mentioned	718	727	O
-the	728	731	O
-communication	732	745	O
-latency	746	753	O
-as	754	756	O
-an	757	759	O
-important	760	769	O
-factor	770	776	O
-in	777	779	O
-the	780	783	O
-distributed	784	795	B-Process
-simulation	796	806	I-Process
-and	807	810	O
-that	811	815	O
-its	816	819	O
-effect	820	826	O
-on	827	829	O
-simulation	830	840	O
-stability	841	850	O
-will	851	855	O
-be	856	858	O
-studied	859	866	O
-as	867	869	O
-future	870	876	O
-work	877	881	O
-.	881	882	O
-
-An	883	885	O
-in	886	888	O
--	888	889	O
-depth	889	894	O
-research	895	903	O
-about	904	909	O
-the	910	913	O
-role	914	918	B-Material
-of	919	921	I-Material
-communication	922	935	I-Material
-latency	936	943	I-Material
-and	944	947	O
-mitigation	948	958	O
-measure	959	966	O
-for	967	970	O
-geographically	971	985	O
-distributed	986	997	O
-RT	998	1000	O
-simulations	1001	1012	O
-is	1013	1015	O
-identified	1016	1026	O
-as	1027	1029	O
-a	1030	1031	O
-technical	1032	1041	O
-gap	1042	1045	O
-and	1046	1049	O
-addressed	1050	1059	O
-in	1060	1062	O
-this	1063	1067	O
-paper	1068	1073	O
-.	1073	1074	O
+The	0,3	O	O
+above	4,9	O	O
+discussion	10,20	O	O
+summarizes	21,31	O	O
+the	32,35	O	O
+state	36,41	O	O
+of	42,44	O	O
+the	45,48	O	O
+art	49,52	O	O
+related	53,60	O	O
+to	61,63	O	O
+impacts	64,71	O	O
+and	72,75	O	O
+interpretations	76,91	O	O
+of	92,94	O	O
+communication	95,108	O	B-Material
+latency	109,116	O	I-Material
+between	117,124	O	O
+RT	125,127	O	B-Process
+simulators	128,138	O	I-Process
+.	138,139	O	O
+
+However	140,147	O	O
+,	147,148	O	O
+research	149,157	O	O
+is	158,160	O	O
+focused	161,168	O	O
+primarily	169,178	O	O
+on	179,181	O	O
+the	182,185	O	O
+effect	186,192	O	O
+of	193,195	O	O
+the	196,199	O	O
+data	200,204	O	O
+loss	205,209	O	O
+during	210,216	O	O
+the	217,220	O	O
+communication	221,234	O	O
+and	235,238	O	O
+how	239,242	O	O
+to	243,245	O	O
+mitigate	246,254	O	O
+it	255,257	O	O
+[	258,259	O	O
+34	259,261	O	O
+]	261,262	O	O
+.	262,263	O	O
+
+In	264,266	O	O
+the	267,270	O	O
+thermo	271,277	O	B-Process
+-	277,278	O	I-Process
+electric	278,286	O	I-Process
+co	287,289	O	I-Process
+-	289,290	O	I-Process
+simulation	290,300	O	I-Process
+example	301,308	O	O
+in	309,311	O	O
+[	312,313	O	O
+35	313,315	O	O
+]	315,316	O	O
+,	316,317	O	O
+the	318,321	O	O
+time	322,326	O	O
+constant	327,335	O	O
+is	336,338	O	O
+larger	339,345	O	O
+in	346,348	O	O
+the	349,352	O	O
+thermal	353,360	O	O
+simulation	361,371	O	O
+than	372,376	O	O
+that	377,381	O	O
+of	382,384	O	O
+power	385,390	O	O
+system	391,397	O	O
+simulation	398,408	O	O
+.	408,409	O	O
+
+Thus	410,414	O	O
+the	415,418	O	O
+communication	419,432	O	B-Material
+latency	433,440	O	I-Material
+will	441,445	O	O
+not	446,449	O	O
+significantly	450,463	O	O
+affect	464,470	O	O
+the	471,474	O	O
+accuracy	475,483	O	O
+of	484,486	O	O
+co	487,489	O	O
+-	489,490	O	O
+simulation	490,500	O	O
+.	500,501	O	O
+
+In	502,504	O	O
+[	505,506	O	O
+36	506,508	O	O
+]	508,509	O	O
+,	509,510	O	O
+the	511,514	O	O
+co	515,517	O	B-Process
+-	517,518	O	I-Process
+simulation	518,528	O	I-Process
+is	529,531	O	O
+performed	532,541	O	O
+using	542,547	O	O
+resources	548,557	O	O
+at	558,560	O	O
+the	561,564	O	O
+same	565,569	O	O
+location	570,578	O	O
+without	579,586	O	O
+synthetically	587,600	O	O
+introduced	601,611	O	O
+delays	612,618	O	O
+,	618,619	O	O
+which	620,625	O	O
+means	626,631	O	O
+the	632,635	O	O
+communication	636,649	O	O
+latency	650,657	O	O
+between	658,665	O	O
+RT	666,668	O	O
+simulators	669,679	O	O
+is	680,682	O	O
+ignored	683,690	O	O
+.	690,691	O	O
+
+In	692,694	O	O
+[	695,696	O	O
+37	696,698	O	O
+]	698,699	O	O
+,	699,700	O	O
+the	701,704	O	O
+authors	705,712	O	O
+have	713,717	O	O
+mentioned	718,727	O	O
+the	728,731	O	O
+communication	732,745	O	O
+latency	746,753	O	O
+as	754,756	O	O
+an	757,759	O	O
+important	760,769	O	O
+factor	770,776	O	O
+in	777,779	O	O
+the	780,783	O	O
+distributed	784,795	O	B-Process
+simulation	796,806	O	I-Process
+and	807,810	O	O
+that	811,815	O	O
+its	816,819	O	O
+effect	820,826	O	O
+on	827,829	O	O
+simulation	830,840	O	O
+stability	841,850	O	O
+will	851,855	O	O
+be	856,858	O	O
+studied	859,866	O	O
+as	867,869	O	O
+future	870,876	O	O
+work	877,881	O	O
+.	881,882	O	O
+
+An	883,885	O	O
+in	886,888	O	O
+-	888,889	O	O
+depth	889,894	O	O
+research	895,903	O	O
+about	904,909	O	O
+the	910,913	O	O
+role	914,918	O	B-Material
+of	919,921	O	I-Material
+communication	922,935	O	I-Material
+latency	936,943	O	I-Material
+and	944,947	O	O
+mitigation	948,958	O	O
+measure	959,966	O	O
+for	967,970	O	O
+geographically	971,985	O	O
+distributed	986,997	O	O
+RT	998,1000	O	O
+simulations	1001,1012	O	O
+is	1013,1015	O	O
+identified	1016,1026	O	O
+as	1027,1029	O	O
+a	1030,1031	O	O
+technical	1032,1041	O	O
+gap	1042,1045	O	O
+and	1046,1049	O	O
+addressed	1050,1059	O	O
+in	1060,1062	O	O
+this	1063,1067	O	O
+paper	1068,1073	O	O
+.	1073,1074	O	O
 
 
 -DOCSTART- (S0165168416300603)
 
-Despite	0	7	O
-the	8	11	O
-fact	12	16	O
-that	17	21	O
-SRC	22	25	B-Process
--	25	26	I-Process
-HE	26	28	I-Process
-reduces	29	36	O
-the	37	40	O
-number	41	47	O
-of	48	50	O
-FEs	51	54	O
-,	54	55	O
-audio	56	61	O
-measurements	62	74	O
-extraction	75	85	O
-based	86	91	O
-on	92	94	O
-SRC	95	98	O
-would	99	104	O
-still	105	110	O
-be	111	113	O
-not	114	117	O
-suitable	118	126	O
-for	127	130	O
-real	131	135	O
--	135	136	O
-time	136	140	O
-applications	141	153	O
-[	154	155	O
-39	155	157	O
-]	157	158	O
-.	158	159	O
-
-The	160	163	O
-previous	164	172	O
-SRC	173	176	O
--	176	177	O
-HE	177	179	O
-module	180	186	O
-is	187	189	O
-then	190	194	O
-replaced	195	203	O
-by	204	206	O
-the	207	210	O
-generalised	211	222	B-Process
-cross	223	228	I-Process
-correlation	229	240	I-Process
-phase	241	246	I-Process
-transform	247	256	I-Process
-(	257	258	O
-GCC	258	261	B-Process
--	261	262	I-Process
-PHAT	262	266	I-Process
-)	266	267	O
-introduced	268	278	O
-in	279	281	O
-Section	282	289	O
-2.1	290	293	O
-,	293	294	O
-as	295	297	O
-this	298	302	O
-does	303	307	O
-not	308	311	O
-involve	312	319	O
-cumbersome	320	330	O
-point	331	336	O
-function	337	345	O
-estimations	346	357	O
-.	357	358	O
-
-The	359	362	O
-drawback	363	371	O
-is	372	374	O
-that	375	379	O
-the	380	383	O
-basic	384	389	O
-GCC	390	393	B-Process
-algorithm	394	403	I-Process
-can	404	407	O
-only	408	412	O
-detect	413	419	O
-one	420	423	O
-source	424	430	O
-at	431	433	O
-a	434	435	O
-time	436	440	O
-and	441	444	O
-it	445	447	O
-is	448	450	O
-known	451	456	O
-to	457	459	O
-be	460	462	O
-sensitive	463	472	O
-to	473	475	O
-room	476	480	O
-reverberations	481	495	O
-[	496	497	O
-5	497	498	O
-]	498	499	O
-,	499	500	O
-however	501	508	O
-it	509	511	O
-is	512	514	O
-still	515	520	O
-effective	521	530	O
-under	531	536	O
-moderate	537	545	O
-reverberant	546	557	O
-environments	558	570	O
-(	571	572	O
-T60≈0.3s	572	580	O
-)	580	581	O
-[	582	583	O
-40	583	585	O
-]	585	586	O
-.	586	587	O
-
-For	588	591	O
-these	592	597	O
-reasons	598	605	O
-,	605	606	O
-at	607	609	O
-first	610	615	O
-experiments	616	627	O
-where	628	633	O
-only	634	638	O
-a	639	640	O
-speaker	641	648	B-Process
-is	649	651	O
-active	652	658	O
-at	659	661	O
-any	662	665	O
-given	666	671	O
-time	672	676	O
-are	677	680	O
-carried	681	688	O
-out	689	692	O
-,	692	693	O
-as	694	696	O
-it	697	699	O
-often	700	705	O
-happens	706	713	O
-in	714	716	O
-a	717	718	O
-polite	719	725	O
-conversation	726	738	O
-between	739	746	O
-two	747	750	O
-or	751	753	O
-more	754	758	O
-people	759	765	O
-.	765	766	O
-
-Speech	767	773	B-Material
-segments	774	782	I-Material
-using	783	788	O
-a	789	790	O
-voice	791	796	B-Process
-activity	797	805	I-Process
-detector	806	814	I-Process
-(	815	816	O
-VAD	816	819	B-Process
-)	819	820	O
-
-[	821	822	O
-41	822	824	O
-]	824	825	O
-are	826	829	O
-further	830	837	O
-extracted	838	847	O
-and	848	851	O
-processed	852	861	O
-using	862	867	O
-a	868	869	O
-GCC	870	873	B-Process
--	873	874	I-Process
-PHAT	874	878	I-Process
-step	879	883	I-Process
-,	883	884	O
-for	885	888	O
-the	889	892	O
-signal	893	899	O
-to	900	902	O
-be	903	905	O
-more	906	910	O
-robust	911	917	O
-to	918	920	O
-reverberations	921	935	O
-.	935	936	O
-
-Thus	937	941	O
-,	941	942	O
-the	943	946	O
-measure	947	954	O
-vector	955	961	O
-obtained	962	970	O
-za	971	973	O
-(	974	975	O
-see	975	978	O
-Section	979	986	O
-2.1	987	990	O
-)	990	991	O
-can	992	995	O
-now	996	999	O
-be	1000	1002	O
-rewritten	1003	1012	O
-as	1013	1015	O
-za={τm(t	1016	1024	O
-)	1024	1025	O
-}	1025	1026	O
-,	1026	1027	O
-where	1028	1033	O
-each	1034	1038	O
-component	1039	1048	O
-τm	1049	1051	O
-is	1052	1054	O
-the	1055	1058	O
-TDOA	1059	1063	O
-collected	1064	1073	O
-at	1074	1076	O
-the	1077	1080	O
-m	1081	1082	B-Process
--	1082	1083	I-Process
-th	1083	1085	I-Process
-microphone	1086	1096	I-Process
-pair	1097	1101	I-Process
-at	1102	1104	O
-each	1105	1109	O
-time	1110	1114	O
-step	1115	1119	O
-t.	1120	1122	O
-
-Since	1123	1128	O
-TDOAs	1129	1134	O
-are	1135	1138	O
-not	1139	1142	O
-linear	1143	1149	O
-in	1150	1152	O
-the	1153	1156	O
-speaker	1157	1164	O
-position	1165	1173	O
-,	1173	1174	O
-they	1175	1179	O
-must	1180	1184	O
-be	1185	1187	O
-input	1188	1193	O
-into	1194	1198	O
-an	1199	1201	O
-extended	1202	1210	O
-Kalman	1211	1217	B-Process
-filter	1218	1224	I-Process
-(	1225	1226	O
-EKF	1226	1229	B-Process
-)	1229	1230	O
-,	1230	1231	O
-as	1232	1234	O
-in	1235	1237	O
-[	1238	1239	O
-10	1239	1241	O
-]	1241	1242	O
-to	1243	1245	O
-get	1246	1249	O
-an	1250	1252	O
-audio	1253	1258	B-Task
-position	1259	1267	I-Task
-estimation	1268	1278	I-Task
-.	1278	1279	O
+Despite	0,7	O	O
+the	8,11	O	O
+fact	12,16	O	O
+that	17,21	O	O
+SRC	22,25	O	B-Process
+-	25,26	O	I-Process
+HE	26,28	O	I-Process
+reduces	29,36	O	O
+the	37,40	O	O
+number	41,47	O	O
+of	48,50	O	O
+FEs	51,54	O	O
+,	54,55	O	O
+audio	56,61	O	O
+measurements	62,74	O	O
+extraction	75,85	O	O
+based	86,91	O	O
+on	92,94	O	O
+SRC	95,98	O	O
+would	99,104	O	O
+still	105,110	O	O
+be	111,113	O	O
+not	114,117	O	O
+suitable	118,126	O	O
+for	127,130	O	O
+real	131,135	O	O
+-	135,136	O	O
+time	136,140	O	O
+applications	141,153	O	O
+[	154,155	O	O
+39	155,157	O	O
+]	157,158	O	O
+.	158,159	O	O
+
+The	160,163	O	O
+previous	164,172	O	O
+SRC	173,176	O	O
+-	176,177	O	O
+HE	177,179	O	O
+module	180,186	O	O
+is	187,189	O	O
+then	190,194	O	O
+replaced	195,203	O	O
+by	204,206	O	O
+the	207,210	O	O
+generalised	211,222	O	B-Process
+cross	223,228	O	I-Process
+correlation	229,240	O	I-Process
+phase	241,246	O	I-Process
+transform	247,256	O	I-Process
+(	257,258	O	O
+GCC	258,261	O	B-Process
+-	261,262	O	I-Process
+PHAT	262,266	O	I-Process
+)	266,267	O	O
+introduced	268,278	O	O
+in	279,281	O	O
+Section	282,289	O	O
+2.1	290,293	O	O
+,	293,294	O	O
+as	295,297	O	O
+this	298,302	O	O
+does	303,307	O	O
+not	308,311	O	O
+involve	312,319	O	O
+cumbersome	320,330	O	O
+point	331,336	O	O
+function	337,345	O	O
+estimations	346,357	O	O
+.	357,358	O	O
+
+The	359,362	O	O
+drawback	363,371	O	O
+is	372,374	O	O
+that	375,379	O	O
+the	380,383	O	O
+basic	384,389	O	O
+GCC	390,393	O	B-Process
+algorithm	394,403	O	I-Process
+can	404,407	O	O
+only	408,412	O	O
+detect	413,419	O	O
+one	420,423	O	O
+source	424,430	O	O
+at	431,433	O	O
+a	434,435	O	O
+time	436,440	O	O
+and	441,444	O	O
+it	445,447	O	O
+is	448,450	O	O
+known	451,456	O	O
+to	457,459	O	O
+be	460,462	O	O
+sensitive	463,472	O	O
+to	473,475	O	O
+room	476,480	O	O
+reverberations	481,495	O	O
+[	496,497	O	O
+5	497,498	O	O
+]	498,499	O	O
+,	499,500	O	O
+however	501,508	O	O
+it	509,511	O	O
+is	512,514	O	O
+still	515,520	O	O
+effective	521,530	O	O
+under	531,536	O	O
+moderate	537,545	O	O
+reverberant	546,557	O	O
+environments	558,570	O	O
+(	571,572	O	O
+T60≈0.3s	572,580	O	O
+)	580,581	O	O
+[	582,583	O	O
+40	583,585	O	O
+]	585,586	O	O
+.	586,587	O	O
+
+For	588,591	O	O
+these	592,597	O	O
+reasons	598,605	O	O
+,	605,606	O	O
+at	607,609	O	O
+first	610,615	O	O
+experiments	616,627	O	O
+where	628,633	O	O
+only	634,638	O	O
+a	639,640	O	O
+speaker	641,648	O	B-Process
+is	649,651	O	O
+active	652,658	O	O
+at	659,661	O	O
+any	662,665	O	O
+given	666,671	O	O
+time	672,676	O	O
+are	677,680	O	O
+carried	681,688	O	O
+out	689,692	O	O
+,	692,693	O	O
+as	694,696	O	O
+it	697,699	O	O
+often	700,705	O	O
+happens	706,713	O	O
+in	714,716	O	O
+a	717,718	O	O
+polite	719,725	O	O
+conversation	726,738	O	O
+between	739,746	O	O
+two	747,750	O	O
+or	751,753	O	O
+more	754,758	O	O
+people	759,765	O	O
+.	765,766	O	O
+
+Speech	767,773	O	B-Material
+segments	774,782	O	I-Material
+using	783,788	O	O
+a	789,790	O	O
+voice	791,796	O	B-Process
+activity	797,805	O	I-Process
+detector	806,814	O	I-Process
+(	815,816	O	O
+VAD	816,819	O	B-Process
+)	819,820	O	O
+
+[	821,822	O	O
+41	822,824	O	O
+]	824,825	O	O
+are	826,829	O	O
+further	830,837	O	O
+extracted	838,847	O	O
+and	848,851	O	O
+processed	852,861	O	O
+using	862,867	O	O
+a	868,869	O	O
+GCC	870,873	O	B-Process
+-	873,874	O	I-Process
+PHAT	874,878	O	I-Process
+step	879,883	O	I-Process
+,	883,884	O	O
+for	885,888	O	O
+the	889,892	O	O
+signal	893,899	O	O
+to	900,902	O	O
+be	903,905	O	O
+more	906,910	O	O
+robust	911,917	O	O
+to	918,920	O	O
+reverberations	921,935	O	O
+.	935,936	O	O
+
+Thus	937,941	O	O
+,	941,942	O	O
+the	943,946	O	O
+measure	947,954	O	O
+vector	955,961	O	O
+obtained	962,970	O	O
+za	971,973	O	O
+(	974,975	O	O
+see	975,978	O	O
+Section	979,986	O	O
+2.1	987,990	O	O
+)	990,991	O	O
+can	992,995	O	O
+now	996,999	O	O
+be	1000,1002	O	O
+rewritten	1003,1012	O	O
+as	1013,1015	O	O
+za={τm(t	1016,1024	O	O
+)	1024,1025	O	O
+}	1025,1026	O	O
+,	1026,1027	O	O
+where	1028,1033	O	O
+each	1034,1038	O	O
+component	1039,1048	O	O
+τm	1049,1051	O	O
+is	1052,1054	O	O
+the	1055,1058	O	O
+TDOA	1059,1063	O	O
+collected	1064,1073	O	O
+at	1074,1076	O	O
+the	1077,1080	O	O
+m	1081,1082	O	B-Process
+-	1082,1083	O	I-Process
+th	1083,1085	O	I-Process
+microphone	1086,1096	O	I-Process
+pair	1097,1101	O	I-Process
+at	1102,1104	O	O
+each	1105,1109	O	O
+time	1110,1114	O	O
+step	1115,1119	O	O
+t.	1120,1122	O	O
+
+Since	1123,1128	O	O
+TDOAs	1129,1134	O	O
+are	1135,1138	O	O
+not	1139,1142	O	O
+linear	1143,1149	O	O
+in	1150,1152	O	O
+the	1153,1156	O	O
+speaker	1157,1164	O	O
+position	1165,1173	O	O
+,	1173,1174	O	O
+they	1175,1179	O	O
+must	1180,1184	O	O
+be	1185,1187	O	O
+input	1188,1193	O	O
+into	1194,1198	O	O
+an	1199,1201	O	O
+extended	1202,1210	O	O
+Kalman	1211,1217	O	B-Process
+filter	1218,1224	O	I-Process
+(	1225,1226	O	O
+EKF	1226,1229	O	B-Process
+)	1229,1230	O	O
+,	1230,1231	O	O
+as	1232,1234	O	O
+in	1235,1237	O	O
+[	1238,1239	O	O
+10	1239,1241	O	O
+]	1241,1242	O	O
+to	1243,1245	O	O
+get	1246,1249	O	O
+an	1250,1252	O	O
+audio	1253,1258	O	B-Task
+position	1259,1267	O	I-Task
+estimation	1268,1278	O	I-Task
+.	1278,1279	O	O
 
 
 -DOCSTART- (S0165212511000862)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-we	14	16	O
-construct	17	26	O
-such	27	31	O
-a	32	33	O
-physical	34	42	B-Process
-model	43	48	I-Process
-with	49	53	O
-a	54	55	O
-continuous	56	66	B-Task
-distribution	67	79	I-Task
-of	80	82	I-Task
-relaxations	83	94	I-Task
-.	94	95	O
-
-It	96	98	O
-is	99	101	O
-based	102	107	O
-on	108	110	O
-the	111	114	O
-phenomenological	115	131	B-Task
-theory	132	138	I-Task
-of	139	141	I-Task
-relaxation	142	152	I-Task
-processes	153	162	I-Task
-which	163	168	O
-have	169	173	O
-a	174	175	O
-long	176	180	O
-history	181	188	O
-in	189	191	O
-physics	192	199	O
-literature	200	210	O
-and	211	214	O
-was	215	218	O
-recently	219	227	O
-summarized	228	238	O
-in	239	241	O
-a	242	243	O
-monograph	244	253	O
-in	254	256	O
-which	257	262	O
-references	263	273	O
-to	274	276	O
-other	277	282	O
-relevant	283	291	O
-publications	292	304	O
-can	305	308	O
-be	309	311	O
-found	312	317	O
-,	317	318	O
-[	319	320	O
-24	320	322	O
-]	322	323	O
-;	323	324	O
-also	325	329	O
-see	330	333	O
-[	334	335	O
-25	335	337	O
-]	337	338	O
-.	338	339	O
-
-The	340	343	O
-present	344	351	O
-work	352	356	O
-is	357	359	O
-confined	360	368	O
-to	369	371	O
-relaxation	372	382	B-Process
-mechanisms	383	393	I-Process
-which	394	399	O
-result	400	406	O
-from	407	411	O
-changes	412	419	O
-in	420	422	O
-normal	423	429	O
-stresses	430	438	O
-.	438	439	O
-
-More	440	444	O
-specifically	445	457	O
-,	457	458	O
-we	459	461	O
-are	462	465	O
-interested	466	476	O
-in	477	479	O
-the	480	483	O
-local	484	489	B-Task
-mechanisms	490	500	I-Task
-of	501	503	I-Task
-irreversible	504	516	I-Task
-energy	517	523	I-Task
-loss	524	528	I-Task
-caused	529	535	O
-by	536	538	O
-uniform	539	546	O
-compression	547	558	B-Process
-or	559	561	I-Process
-expansion	562	571	I-Process
-of	572	574	I-Process
-a	575	576	I-Process
-medium	577	583	I-Process
-for	584	587	O
-which	588	593	O
-all	594	597	O
-components	598	608	O
-remain	609	615	O
-unchanged	616	625	O
-,	625	626	O
-rather	627	633	O
-than	634	638	O
-the	639	642	O
-losses	643	649	O
-caused	650	656	O
-by	657	659	O
-friction	660	668	B-Process
-between	669	676	I-Process
-different	677	686	I-Process
-layers	687	693	I-Process
-of	694	696	I-Process
-a	697	698	I-Process
-medium	699	705	I-Process
-which	706	711	O
-move	712	716	O
-with	717	721	O
-different	722	731	O
-velocities	732	742	O
-(	743	744	O
-for	744	747	O
-a	748	749	O
-more	750	754	O
-detailed	755	763	O
-discussion	764	774	O
-of	775	777	O
-this	778	782	O
-issue	783	788	O
-see	789	792	O
-[	793	794	O
-26	794	796	O
-]	796	797	O
-)	797	798	O
-.	798	799	O
-
-No	800	802	O
-attempt	803	810	O
-is	811	813	O
-made	814	818	O
-to	819	821	O
-model	822	827	O
-effects	828	835	O
-of	836	838	O
-shear	839	844	B-Process
-viscosity	845	854	I-Process
-and	855	858	O
-heat	859	863	B-Process
-conduction	864	874	I-Process
-beyond	875	881	O
-the	882	885	O
-conventional	886	898	O
-Navier	899	905	O
-–	905	906	O
-
-Stokes	906	912	O
-approach	913	921	O
-,	921	922	O
-since	923	928	O
-this	929	933	O
-topic	934	939	O
-goes	940	944	O
-far	945	948	O
-beyond	949	955	O
-the	956	959	O
-scope	960	965	O
-of	966	968	O
-this	969	973	O
-paper	974	979	O
-.	979	980	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+we	14,16	O	O
+construct	17,26	O	O
+such	27,31	O	O
+a	32,33	O	O
+physical	34,42	O	B-Process
+model	43,48	O	I-Process
+with	49,53	O	O
+a	54,55	O	O
+continuous	56,66	O	B-Task
+distribution	67,79	O	I-Task
+of	80,82	O	I-Task
+relaxations	83,94	O	I-Task
+.	94,95	O	O
+
+It	96,98	O	O
+is	99,101	O	O
+based	102,107	O	O
+on	108,110	O	O
+the	111,114	O	O
+phenomenological	115,131	O	B-Task
+theory	132,138	O	I-Task
+of	139,141	O	I-Task
+relaxation	142,152	O	I-Task
+processes	153,162	O	I-Task
+which	163,168	O	O
+have	169,173	O	O
+a	174,175	O	O
+long	176,180	O	O
+history	181,188	O	O
+in	189,191	O	O
+physics	192,199	O	O
+literature	200,210	O	O
+and	211,214	O	O
+was	215,218	O	O
+recently	219,227	O	O
+summarized	228,238	O	O
+in	239,241	O	O
+a	242,243	O	O
+monograph	244,253	O	O
+in	254,256	O	O
+which	257,262	O	O
+references	263,273	O	O
+to	274,276	O	O
+other	277,282	O	O
+relevant	283,291	O	O
+publications	292,304	O	O
+can	305,308	O	O
+be	309,311	O	O
+found	312,317	O	O
+,	317,318	O	O
+[	319,320	O	O
+24	320,322	O	O
+]	322,323	O	O
+;	323,324	O	O
+also	325,329	O	O
+see	330,333	O	O
+[	334,335	O	O
+25	335,337	O	O
+]	337,338	O	O
+.	338,339	O	O
+
+The	340,343	O	O
+present	344,351	O	O
+work	352,356	O	O
+is	357,359	O	O
+confined	360,368	O	O
+to	369,371	O	O
+relaxation	372,382	O	B-Process
+mechanisms	383,393	O	I-Process
+which	394,399	O	O
+result	400,406	O	O
+from	407,411	O	O
+changes	412,419	O	O
+in	420,422	O	O
+normal	423,429	O	O
+stresses	430,438	O	O
+.	438,439	O	O
+
+More	440,444	O	O
+specifically	445,457	O	O
+,	457,458	O	O
+we	459,461	O	O
+are	462,465	O	O
+interested	466,476	O	O
+in	477,479	O	O
+the	480,483	O	O
+local	484,489	O	B-Task
+mechanisms	490,500	O	I-Task
+of	501,503	O	I-Task
+irreversible	504,516	O	I-Task
+energy	517,523	O	I-Task
+loss	524,528	O	I-Task
+caused	529,535	O	O
+by	536,538	O	O
+uniform	539,546	O	O
+compression	547,558	O	B-Process
+or	559,561	O	I-Process
+expansion	562,571	O	I-Process
+of	572,574	O	I-Process
+a	575,576	O	I-Process
+medium	577,583	O	I-Process
+for	584,587	O	O
+which	588,593	O	O
+all	594,597	O	O
+components	598,608	O	O
+remain	609,615	O	O
+unchanged	616,625	O	O
+,	625,626	O	O
+rather	627,633	O	O
+than	634,638	O	O
+the	639,642	O	O
+losses	643,649	O	O
+caused	650,656	O	O
+by	657,659	O	O
+friction	660,668	O	B-Process
+between	669,676	O	I-Process
+different	677,686	O	I-Process
+layers	687,693	O	I-Process
+of	694,696	O	I-Process
+a	697,698	O	I-Process
+medium	699,705	O	I-Process
+which	706,711	O	O
+move	712,716	O	O
+with	717,721	O	O
+different	722,731	O	O
+velocities	732,742	O	O
+(	743,744	O	O
+for	744,747	O	O
+a	748,749	O	O
+more	750,754	O	O
+detailed	755,763	O	O
+discussion	764,774	O	O
+of	775,777	O	O
+this	778,782	O	O
+issue	783,788	O	O
+see	789,792	O	O
+[	793,794	O	O
+26	794,796	O	O
+]	796,797	O	O
+)	797,798	O	O
+.	798,799	O	O
+
+No	800,802	O	O
+attempt	803,810	O	O
+is	811,813	O	O
+made	814,818	O	O
+to	819,821	O	O
+model	822,827	O	O
+effects	828,835	O	O
+of	836,838	O	O
+shear	839,844	O	B-Process
+viscosity	845,854	O	I-Process
+and	855,858	O	O
+heat	859,863	O	B-Process
+conduction	864,874	O	I-Process
+beyond	875,881	O	O
+the	882,885	O	O
+conventional	886,898	O	O
+Navier	899,905	O	O
+–	905,906	O	O
+
+Stokes	906,912	O	O
+approach	913,921	O	O
+,	921,922	O	O
+since	923,928	O	O
+this	929,933	O	O
+topic	934,939	O	O
+goes	940,944	O	O
+far	945,948	O	O
+beyond	949,955	O	O
+the	956,959	O	O
+scope	960,965	O	O
+of	966,968	O	O
+this	969,973	O	O
+paper	974,979	O	O
+.	979,980	O	O
 
 
 -DOCSTART- (S0165212511000874)
 
-The	0	3	O
-propagation	4	15	B-Task
-of	16	18	I-Task
-unsteady	19	27	I-Task
-disturbances	28	40	I-Task
-in	41	43	O
-ducts	44	49	B-Material
-of	50	52	O
-slowly	53	59	O
--	59	60	O
-varying	60	67	O
-geometry	68	76	O
-,	76	77	O
-such	78	82	O
-as	83	85	O
-those	86	91	O
-typical	92	99	O
-of	100	102	O
-an	103	105	O
-aeroengine	106	116	B-Material
-,	116	117	O
-can	118	121	O
-be	122	124	O
-successfully	125	137	O
-modelled	138	146	O
-using	147	152	O
-a	153	154	O
-multiple	155	163	B-Process
-scales	164	170	I-Process
-approach	171	179	I-Process
-.	179	180	O
-
-From	181	185	O
-the	186	189	O
-first	190	195	O
-application	196	207	O
-[	208	209	O
-1	209	210	O
-]	210	211	O
-of	212	214	O
-multiple	215	223	B-Process
--	223	224	I-Process
-scales	224	230	I-Process
-analysis	231	239	I-Process
-to	240	242	O
-sound	243	248	B-Process
-propagation	249	260	I-Process
-in	261	263	O
-ducts	264	269	B-Material
-of	270	272	O
-rectangular	273	284	O
-and	285	288	O
-circular	289	297	O
-cross	298	303	O
-section	304	311	O
-without	312	319	O
-mean	320	324	B-Process
-flow	325	329	I-Process
-,	329	330	O
-more	331	335	O
-recent	336	342	O
-developments	343	355	O
-have	356	360	O
-extended	361	369	O
-the	370	373	O
-method	374	380	O
-to	381	383	O
-cases	384	389	O
-with	390	394	O
-uniform	395	402	B-Process
-mean	403	407	I-Process
-flow	408	412	I-Process
-[	413	414	O
-2	414	415	O
-]	415	416	O
-,	416	417	O
-mean	418	422	B-Process
-swirling	423	431	I-Process
-flow	432	436	I-Process
-[	437	438	O
-3	438	439	O
-]	439	440	O
-,	440	441	O
-ducts	442	447	B-Material
-of	448	450	O
-arbitrary	451	460	O
-cross	461	466	O
-section	467	474	O
-[	475	476	O
-4	476	477	O
-]	477	478	O
-(	479	480	O
-with	480	484	O
-uniform	485	492	B-Process
-mean	493	497	I-Process
-flow	498	502	I-Process
-)	502	503	O
-and	504	507	O
-strongly	508	516	B-Material
-curved	517	523	I-Material
-ducts	524	529	I-Material
-[	530	531	O
-5	531	532	O
-]	532	533	O
-.	533	534	O
-
-The	535	538	O
-multiple	539	547	B-Process
--	547	548	I-Process
-scales	548	554	I-Process
-approach	555	563	I-Process
-has	564	567	O
-a	568	569	O
-number	570	576	O
-of	577	579	O
-distinct	580	588	O
-advantages	589	599	O
-over	600	604	O
-full	605	609	O
-numerical	610	619	B-Process
-methods	620	627	I-Process
-as	628	630	O
-it	631	633	O
-is	634	636	O
-ideally	637	644	O
-suited	645	651	O
-to	652	654	O
-handle	655	661	O
-higher	662	668	B-Process
-frequencies	669	680	I-Process
-and	681	684	O
-the	685	688	O
-computational	689	702	O
-complexity	703	713	O
-is	714	716	O
-only	717	721	O
-marginally	722	732	O
-more	733	737	O
-than	738	742	O
-calculating	743	754	B-Process
-the	755	758	I-Process
-eigenmodes	759	769	I-Process
-inside	770	776	O
-a	777	778	O
-straight	779	787	B-Material
-parallel	788	796	I-Material
-duct	797	801	I-Material
-.	801	802	O
-
-The	803	806	O
-accuracy	807	815	O
-and	816	819	O
-usefulness	820	830	O
-of	831	833	O
-the	834	837	O
-multiple	838	846	B-Process
-scales	847	853	I-Process
-approach	854	862	I-Process
-has	863	866	O
-been	867	871	O
-validated	872	881	O
-against	882	889	O
-finite	890	896	B-Process
--	896	897	I-Process
-element	897	904	I-Process
-methods	905	912	I-Process
-[	913	914	O
-6	914	915	O
-]	915	916	O
-for	917	920	O
-realistic	921	930	O
-aeroengine	931	941	B-Task
-configurations	942	956	I-Task
-and	957	960	O
-acoustic	961	969	B-Task
-frequencies	970	981	I-Task
-[	982	983	O
-7,8	983	986	O
-]	986	987	O
-.	987	988	O
+The	0,3	O	O
+propagation	4,15	O	B-Task
+of	16,18	O	I-Task
+unsteady	19,27	O	I-Task
+disturbances	28,40	O	I-Task
+in	41,43	O	O
+ducts	44,49	O	B-Material
+of	50,52	O	O
+slowly	53,59	O	O
+-	59,60	O	O
+varying	60,67	O	O
+geometry	68,76	O	O
+,	76,77	O	O
+such	78,82	O	O
+as	83,85	O	O
+those	86,91	O	O
+typical	92,99	O	O
+of	100,102	O	O
+an	103,105	O	O
+aeroengine	106,116	O	B-Material
+,	116,117	O	O
+can	118,121	O	O
+be	122,124	O	O
+successfully	125,137	O	O
+modelled	138,146	O	O
+using	147,152	O	O
+a	153,154	O	O
+multiple	155,163	O	B-Process
+scales	164,170	O	I-Process
+approach	171,179	O	I-Process
+.	179,180	O	O
+
+From	181,185	O	O
+the	186,189	O	O
+first	190,195	O	O
+application	196,207	O	O
+[	208,209	O	O
+1	209,210	O	O
+]	210,211	O	O
+of	212,214	O	O
+multiple	215,223	O	B-Process
+-	223,224	O	I-Process
+scales	224,230	O	I-Process
+analysis	231,239	O	I-Process
+to	240,242	O	O
+sound	243,248	O	B-Process
+propagation	249,260	O	I-Process
+in	261,263	O	O
+ducts	264,269	O	B-Material
+of	270,272	O	O
+rectangular	273,284	O	O
+and	285,288	O	O
+circular	289,297	O	O
+cross	298,303	O	O
+section	304,311	O	O
+without	312,319	O	O
+mean	320,324	O	B-Process
+flow	325,329	O	I-Process
+,	329,330	O	O
+more	331,335	O	O
+recent	336,342	O	O
+developments	343,355	O	O
+have	356,360	O	O
+extended	361,369	O	O
+the	370,373	O	O
+method	374,380	O	O
+to	381,383	O	O
+cases	384,389	O	O
+with	390,394	O	O
+uniform	395,402	O	B-Process
+mean	403,407	O	I-Process
+flow	408,412	O	I-Process
+[	413,414	O	O
+2	414,415	O	O
+]	415,416	O	O
+,	416,417	O	O
+mean	418,422	O	B-Process
+swirling	423,431	O	I-Process
+flow	432,436	O	I-Process
+[	437,438	O	O
+3	438,439	O	O
+]	439,440	O	O
+,	440,441	O	O
+ducts	442,447	O	B-Material
+of	448,450	O	O
+arbitrary	451,460	O	O
+cross	461,466	O	O
+section	467,474	O	O
+[	475,476	O	O
+4	476,477	O	O
+]	477,478	O	O
+(	479,480	O	O
+with	480,484	O	O
+uniform	485,492	O	B-Process
+mean	493,497	O	I-Process
+flow	498,502	O	I-Process
+)	502,503	O	O
+and	504,507	O	O
+strongly	508,516	O	B-Material
+curved	517,523	O	I-Material
+ducts	524,529	O	I-Material
+[	530,531	O	O
+5	531,532	O	O
+]	532,533	O	O
+.	533,534	O	O
+
+The	535,538	O	O
+multiple	539,547	O	B-Process
+-	547,548	O	I-Process
+scales	548,554	O	I-Process
+approach	555,563	O	I-Process
+has	564,567	O	O
+a	568,569	O	O
+number	570,576	O	O
+of	577,579	O	O
+distinct	580,588	O	O
+advantages	589,599	O	O
+over	600,604	O	O
+full	605,609	O	O
+numerical	610,619	O	B-Process
+methods	620,627	O	I-Process
+as	628,630	O	O
+it	631,633	O	O
+is	634,636	O	O
+ideally	637,644	O	O
+suited	645,651	O	O
+to	652,654	O	O
+handle	655,661	O	O
+higher	662,668	O	B-Process
+frequencies	669,680	O	I-Process
+and	681,684	O	O
+the	685,688	O	O
+computational	689,702	O	O
+complexity	703,713	O	O
+is	714,716	O	O
+only	717,721	O	O
+marginally	722,732	O	O
+more	733,737	O	O
+than	738,742	O	O
+calculating	743,754	O	B-Process
+the	755,758	O	I-Process
+eigenmodes	759,769	O	I-Process
+inside	770,776	O	O
+a	777,778	O	O
+straight	779,787	O	B-Material
+parallel	788,796	O	I-Material
+duct	797,801	O	I-Material
+.	801,802	O	O
+
+The	803,806	O	O
+accuracy	807,815	O	O
+and	816,819	O	O
+usefulness	820,830	O	O
+of	831,833	O	O
+the	834,837	O	O
+multiple	838,846	O	B-Process
+scales	847,853	O	I-Process
+approach	854,862	O	I-Process
+has	863,866	O	O
+been	867,871	O	O
+validated	872,881	O	O
+against	882,889	O	O
+finite	890,896	O	B-Process
+-	896,897	O	I-Process
+element	897,904	O	I-Process
+methods	905,912	O	I-Process
+[	913,914	O	O
+6	914,915	O	O
+]	915,916	O	O
+for	917,920	O	O
+realistic	921,930	O	O
+aeroengine	931,941	O	B-Task
+configurations	942,956	O	I-Task
+and	957,960	O	O
+acoustic	961,969	O	B-Task
+frequencies	970,981	O	I-Task
+[	982,983	O	O
+7,8	983,986	O	O
+]	986,987	O	O
+.	987,988	O	O
 
 
 -DOCSTART- (S0165212515000931)
 
-We	0	2	O
-describe	3	11	O
-three	12	17	O
-ways	18	22	O
-to	23	25	O
-solve	26	31	O
-the	32	35	O
-reflection	36	46	B-Task
-problem	47	54	I-Task
-.	54	55	O
-
-The	56	59	O
-first	60	65	O
-way	66	69	O
-is	70	72	O
-very	73	77	O
-simple	78	84	O
-(	85	86	O
-Section	86	93	O
-4	95	96	O
-)	96	97	O
-.	97	98	O
-
-We	99	101	O
-exploit	102	109	O
-the	110	113	O
-consequences	114	126	O
-of	127	129	O
-shifting	130	138	B-Process
-the	139	142	I-Process
-semi	143	147	I-Process
--	147	148	I-Process
-infinite	148	156	I-Process
-row	157	160	I-Process
-by	161	163	O
-one	164	167	O
-period	168	174	O
-(	175	176	O
-to	176	178	O
-the	179	182	O
-right	183	188	O
-or	189	191	O
-left	192	196	O
-)	196	197	O
-.	197	198	O
-
-In	199	201	O
-effect	202	208	O
-,	208	209	O
-we	210	212	O
-regard	213	219	O
-the	220	223	O
-semi	224	228	B-Process
--	228	229	I-Process
-infinite	229	237	I-Process
-row	238	241	I-Process
-as	242	244	O
-two	245	248	B-Process
-scatterers	249	259	I-Process
-,	259	260	O
-one	261	264	O
-of	265	267	O
-which	268	273	O
-is	274	276	O
-another	277	284	O
-semi	285	289	B-Process
--	289	290	I-Process
-infinite	290	298	I-Process
-row	299	302	I-Process
-.	302	303	O
-
-This	304	308	O
-idea	309	313	O
-goes	314	318	O
-back	319	323	O
-to	324	326	O
-a	327	328	O
-series	329	335	O
-of	336	338	O
-papers	339	345	O
-by	346	348	O
-Millar	349	355	O
-in	356	358	O
-the	359	362	O
-1960s	363	368	O
-,	368	369	O
-starting	370	378	O
-with	379	383	O
-[	385	386	O
-2	386	387	O
-]	387	388	O
-.	388	389	O
-
-He	390	392	O
-used	393	397	O
-it	398	400	O
-for	401	404	O
-several	405	412	O
-two	413	416	B-Task
--	416	417	I-Task
-dimensional	417	428	I-Task
-grating	429	436	I-Task
-problems	437	445	I-Task
-.	445	446	O
-
-A	447	448	O
-similar	449	456	O
-approach	457	465	O
-was	466	469	O
-used	470	474	O
-for	475	478	O
-layered	479	486	B-Material
-media	487	492	I-Material
-by	493	495	O
-Shenderov	496	505	O
-[	507	508	O
-3	508	509	O
-]	509	510	O
-.	510	511	O
-
-In	512	514	O
-our	515	518	O
-one	519	522	O
--	522	523	O
-dimensional	523	534	O
-context	535	542	O
-,	542	543	O
-we	544	546	O
-obtain	547	553	B-Process
-a	554	555	I-Process
-quadratic	556	565	I-Process
-equation	566	574	I-Process
-for	575	578	O
-R	579	580	O
-;	580	581	O
-we	582	584	O
-show	585	589	O
-how	590	593	O
-to	594	596	O
-select	597	603	O
-the	604	607	O
-correct	608	615	O
-solution	616	624	O
-.	624	625	O
-
-We	626	628	O
-remark	629	635	O
-that	636	640	O
-there	641	646	O
-has	647	650	O
-been	651	655	O
-much	656	660	O
-recent	661	667	O
-interest	668	676	O
-in	677	679	O
-related	680	687	O
-two	688	691	B-Task
--	691	692	I-Task
-dimensional	692	703	I-Task
-waveguide	704	713	I-Task
-problems	714	722	I-Task
-;	722	723	O
-see	724	727	O
-,	727	728	O
-for	729	732	O
-example	733	740	O
-,	740	741	O
-[	743	744	O
-4–6	744	747	O
-]	747	748	O
-,	748	749	O
-where	750	755	O
-the	756	759	O
-shifting	760	768	B-Process
--	768	769	I-Process
-by	769	771	I-Process
--	771	772	I-Process
-one	772	775	I-Process
--	775	776	I-Process
-period	776	782	I-Process
-idea	783	787	I-Process
-is	788	790	O
-again	791	796	O
-employed	797	805	O
-,	805	806	O
-leading	807	814	O
-to	815	817	O
-a	818	819	O
-quadratic	820	829	B-Process
-equation	830	838	I-Process
-for	839	842	O
-a	843	844	O
-certain	845	852	O
-operator	853	861	O
-.	861	862	O
+We	0,2	O	O
+describe	3,11	O	O
+three	12,17	O	O
+ways	18,22	O	O
+to	23,25	O	O
+solve	26,31	O	O
+the	32,35	O	O
+reflection	36,46	O	B-Task
+problem	47,54	O	I-Task
+.	54,55	O	O
+
+The	56,59	O	O
+first	60,65	O	O
+way	66,69	O	O
+is	70,72	O	O
+very	73,77	O	O
+simple	78,84	O	O
+(	85,86	O	O
+Section	86,93	O	O
+4	95,96	O	O
+)	96,97	O	O
+.	97,98	O	O
+
+We	99,101	O	O
+exploit	102,109	O	O
+the	110,113	O	O
+consequences	114,126	O	O
+of	127,129	O	O
+shifting	130,138	O	B-Process
+the	139,142	O	I-Process
+semi	143,147	O	I-Process
+-	147,148	O	I-Process
+infinite	148,156	O	I-Process
+row	157,160	O	I-Process
+by	161,163	O	O
+one	164,167	O	O
+period	168,174	O	O
+(	175,176	O	O
+to	176,178	O	O
+the	179,182	O	O
+right	183,188	O	O
+or	189,191	O	O
+left	192,196	O	O
+)	196,197	O	O
+.	197,198	O	O
+
+In	199,201	O	O
+effect	202,208	O	O
+,	208,209	O	O
+we	210,212	O	O
+regard	213,219	O	O
+the	220,223	O	O
+semi	224,228	O	B-Process
+-	228,229	O	I-Process
+infinite	229,237	O	I-Process
+row	238,241	O	I-Process
+as	242,244	O	O
+two	245,248	O	B-Process
+scatterers	249,259	O	I-Process
+,	259,260	O	O
+one	261,264	O	O
+of	265,267	O	O
+which	268,273	O	O
+is	274,276	O	O
+another	277,284	O	O
+semi	285,289	O	B-Process
+-	289,290	O	I-Process
+infinite	290,298	O	I-Process
+row	299,302	O	I-Process
+.	302,303	O	O
+
+This	304,308	O	O
+idea	309,313	O	O
+goes	314,318	O	O
+back	319,323	O	O
+to	324,326	O	O
+a	327,328	O	O
+series	329,335	O	O
+of	336,338	O	O
+papers	339,345	O	O
+by	346,348	O	O
+Millar	349,355	O	O
+in	356,358	O	O
+the	359,362	O	O
+1960s	363,368	O	O
+,	368,369	O	O
+starting	370,378	O	O
+with	379,383	O	O
+[	385,386	O	O
+2	386,387	O	O
+]	387,388	O	O
+.	388,389	O	O
+
+He	390,392	O	O
+used	393,397	O	O
+it	398,400	O	O
+for	401,404	O	O
+several	405,412	O	O
+two	413,416	O	B-Task
+-	416,417	O	I-Task
+dimensional	417,428	O	I-Task
+grating	429,436	O	I-Task
+problems	437,445	O	I-Task
+.	445,446	O	O
+
+A	447,448	O	O
+similar	449,456	O	O
+approach	457,465	O	O
+was	466,469	O	O
+used	470,474	O	O
+for	475,478	O	O
+layered	479,486	O	B-Material
+media	487,492	O	I-Material
+by	493,495	O	O
+Shenderov	496,505	O	O
+[	507,508	O	O
+3	508,509	O	O
+]	509,510	O	O
+.	510,511	O	O
+
+In	512,514	O	O
+our	515,518	O	O
+one	519,522	O	O
+-	522,523	O	O
+dimensional	523,534	O	O
+context	535,542	O	O
+,	542,543	O	O
+we	544,546	O	O
+obtain	547,553	O	B-Process
+a	554,555	O	I-Process
+quadratic	556,565	O	I-Process
+equation	566,574	O	I-Process
+for	575,578	O	O
+R	579,580	O	O
+;	580,581	O	O
+we	582,584	O	O
+show	585,589	O	O
+how	590,593	O	O
+to	594,596	O	O
+select	597,603	O	O
+the	604,607	O	O
+correct	608,615	O	O
+solution	616,624	O	O
+.	624,625	O	O
+
+We	626,628	O	O
+remark	629,635	O	O
+that	636,640	O	O
+there	641,646	O	O
+has	647,650	O	O
+been	651,655	O	O
+much	656,660	O	O
+recent	661,667	O	O
+interest	668,676	O	O
+in	677,679	O	O
+related	680,687	O	O
+two	688,691	O	B-Task
+-	691,692	O	I-Task
+dimensional	692,703	O	I-Task
+waveguide	704,713	O	I-Task
+problems	714,722	O	I-Task
+;	722,723	O	O
+see	724,727	O	O
+,	727,728	O	O
+for	729,732	O	O
+example	733,740	O	O
+,	740,741	O	O
+[	743,744	O	O
+4–6	744,747	O	O
+]	747,748	O	O
+,	748,749	O	O
+where	750,755	O	O
+the	756,759	O	O
+shifting	760,768	O	B-Process
+-	768,769	O	I-Process
+by	769,771	O	I-Process
+-	771,772	O	I-Process
+one	772,775	O	I-Process
+-	775,776	O	I-Process
+period	776,782	O	I-Process
+idea	783,787	O	I-Process
+is	788,790	O	O
+again	791,796	O	O
+employed	797,805	O	O
+,	805,806	O	O
+leading	807,814	O	O
+to	815,817	O	O
+a	818,819	O	O
+quadratic	820,829	O	B-Process
+equation	830,838	O	I-Process
+for	839,842	O	O
+a	843,844	O	O
+certain	845,852	O	O
+operator	853,861	O	O
+.	861,862	O	O
 
 
 -DOCSTART- (S0166218X1300348X)
 
-Max	0	3	B-Process
--	3	4	I-Process
-linear	4	10	I-Process
-programs	11	19	I-Process
-have	20	24	O
-been	25	29	O
-used	30	34	O
-to	35	37	O
-describe	38	46	O
-optimisation	47	59	B-Process
-problems	60	68	I-Process
-for	69	72	O
-multiprocessor	73	87	B-Material
-interactive	88	99	I-Material
-systems	100	107	I-Material
-.	107	108	O
-
-In	109	111	O
-some	112	116	O
-instances	117	126	O
-the	127	130	O
-variables	131	140	B-Material
-used	141	145	O
-in	146	148	O
-this	149	153	O
-model	154	159	O
-are	160	163	O
-required	164	172	O
-to	173	175	O
-be	176	178	O
-integer	179	186	O
-;	186	187	O
-however	188	195	O
-,	195	196	O
-no	197	199	O
-method	200	206	O
-seems	207	212	O
-to	213	215	O
-exist	216	221	O
-for	222	225	O
-finding	226	233	O
-integer	234	241	B-Process
-solutions	242	251	I-Process
-to	252	254	O
-max	255	258	B-Material
--	258	259	I-Material
-linear	259	265	I-Material
-programs	266	274	I-Material
-.	274	275	O
-
-For	275	278	O
-a	279	280	O
-generic	281	288	B-Material
-class	289	294	I-Material
-of	295	297	I-Material
-matrices	298	306	I-Material
-,	306	307	O
-we	308	310	O
-show	311	315	O
-that	316	320	O
-integer	321	328	B-Process
-solutions	329	338	I-Process
-to	339	341	O
-two	342	345	B-Material
--	345	346	I-Material
-sided	346	351	I-Material
-max	352	355	I-Material
--	355	356	I-Material
-linear	356	362	I-Material
-systems	363	370	I-Material
-and	371	374	I-Material
-programs	375	383	I-Material
-can	384	387	O
-be	388	390	O
-found	391	396	O
-in	397	399	O
-polynomial	400	410	O
-time	411	415	O
-.	415	416	O
-
-For	417	420	O
-general	421	428	B-Material
-matrices	429	437	I-Material
-,	437	438	O
-we	439	441	O
-adapt	442	447	B-Task
-the	448	451	I-Task
-existing	452	460	I-Task
-methods	461	468	I-Task
-for	469	472	I-Task
-finding	473	480	I-Task
-real	481	485	I-Task
-solutions	486	495	I-Task
-to	496	498	O
-obtain	499	505	O
-algorithms	506	516	B-Task
-for	517	520	I-Task
-finding	521	528	I-Task
-integer	529	536	I-Task
-solutions	537	546	I-Task
-.	546	547	O
+Max	0,3	O	B-Process
+-	3,4	O	I-Process
+linear	4,10	O	I-Process
+programs	11,19	O	I-Process
+have	20,24	O	O
+been	25,29	O	O
+used	30,34	O	O
+to	35,37	O	O
+describe	38,46	O	O
+optimisation	47,59	O	B-Process
+problems	60,68	O	I-Process
+for	69,72	O	O
+multiprocessor	73,87	O	B-Material
+interactive	88,99	O	I-Material
+systems	100,107	O	I-Material
+.	107,108	O	O
+
+In	109,111	O	O
+some	112,116	O	O
+instances	117,126	O	O
+the	127,130	O	O
+variables	131,140	O	B-Material
+used	141,145	O	O
+in	146,148	O	O
+this	149,153	O	O
+model	154,159	O	O
+are	160,163	O	O
+required	164,172	O	O
+to	173,175	O	O
+be	176,178	O	O
+integer	179,186	O	O
+;	186,187	O	O
+however	188,195	O	O
+,	195,196	O	O
+no	197,199	O	O
+method	200,206	O	O
+seems	207,212	O	O
+to	213,215	O	O
+exist	216,221	O	O
+for	222,225	O	O
+finding	226,233	O	O
+integer	234,241	O	B-Process
+solutions	242,251	O	I-Process
+to	252,254	O	O
+max	255,258	O	B-Material
+-	258,259	O	I-Material
+linear	259,265	O	I-Material
+programs	266,274	O	I-Material
+.	274,275	O	O
+
+For	275,278	O	O
+a	279,280	O	O
+generic	281,288	O	B-Material
+class	289,294	O	I-Material
+of	295,297	O	I-Material
+matrices	298,306	O	I-Material
+,	306,307	O	O
+we	308,310	O	O
+show	311,315	O	O
+that	316,320	O	O
+integer	321,328	O	B-Process
+solutions	329,338	O	I-Process
+to	339,341	O	O
+two	342,345	O	B-Material
+-	345,346	O	I-Material
+sided	346,351	O	I-Material
+max	352,355	O	I-Material
+-	355,356	O	I-Material
+linear	356,362	O	I-Material
+systems	363,370	O	I-Material
+and	371,374	O	I-Material
+programs	375,383	O	I-Material
+can	384,387	O	O
+be	388,390	O	O
+found	391,396	O	O
+in	397,399	O	O
+polynomial	400,410	O	O
+time	411,415	O	O
+.	415,416	O	O
+
+For	417,420	O	O
+general	421,428	O	B-Material
+matrices	429,437	O	I-Material
+,	437,438	O	O
+we	439,441	O	O
+adapt	442,447	O	B-Task
+the	448,451	O	I-Task
+existing	452,460	O	I-Task
+methods	461,468	O	I-Task
+for	469,472	O	I-Task
+finding	473,480	O	I-Task
+real	481,485	O	I-Task
+solutions	486,495	O	I-Task
+to	496,498	O	O
+obtain	499,505	O	O
+algorithms	506,516	O	B-Task
+for	517,520	O	I-Task
+finding	521,528	O	I-Task
+integer	529,536	O	I-Task
+solutions	537,546	O	I-Task
+.	546,547	O	O
 
 
 -DOCSTART- (S0166218X14003011)
 
-We	0	2	O
-study	3	8	O
-sequences	9	18	B-Task
-of	19	21	I-Task
-optimal	22	29	I-Task
-walks	30	35	I-Task
-of	36	38	I-Task
-a	39	40	I-Task
-growing	41	48	I-Task
-length	49	55	I-Task
-in	56	58	I-Task
-weighted	59	67	I-Task
-digraphs	68	76	I-Task
-,	76	77	O
-or	78	80	O
-equivalently	81	93	O
-,	93	94	O
-sequences	95	104	B-Task
-of	105	107	I-Task
-entries	108	115	I-Task
-of	116	118	I-Task
-max	119	122	I-Task
--	122	123	I-Task
-algebraic	123	132	I-Task
-matrix	133	139	I-Task
-powers	140	146	I-Task
-with	147	151	I-Task
-growing	152	159	I-Task
-exponents	160	169	I-Task
-.	169	170	O
-
-It	171	173	O
-is	174	176	O
-known	177	182	O
-that	183	187	O
-these	188	193	O
-sequences	194	203	O
-are	204	207	O
-eventually	208	218	O
-periodic	219	227	O
-when	228	232	O
-the	233	236	O
-digraphs	237	245	B-Process
-are	246	249	I-Process
-strongly	250	258	I-Process
-connected	259	268	I-Process
-.	268	269	O
-
-The	270	273	O
-transient	274	283	O
-of	284	286	O
-such	287	291	O
-periodicity	292	303	O
-depends	304	311	O
-,	311	312	O
-in	313	315	O
-general	316	323	O
-,	323	324	O
-both	325	329	O
-on	330	332	O
-the	333	336	O
-size	337	341	O
-of	342	344	O
-digraph	345	352	B-Material
-and	353	356	O
-on	357	359	O
-the	360	363	O
-magnitude	364	373	O
-of	374	376	O
-the	377	380	O
-weights	381	388	O
-.	388	389	O
-
-In	390	392	O
-this	393	397	O
-paper	398	403	O
-,	403	404	O
-we	405	407	O
-show	408	412	O
-that	413	417	O
-some	418	422	O
-bounds	423	429	O
-on	430	432	O
-the	433	436	O
-indices	437	444	O
-of	445	447	O
-periodicity	448	459	O
-of	460	462	O
-(	463	464	B-Material
-unweighted	464	474	I-Material
-)	474	475	I-Material
-digraphs	476	484	I-Material
-,	484	485	O
-such	486	490	O
-as	491	493	O
-the	494	497	O
-bounds	498	504	O
-of	505	507	O
-Wielandt	508	516	O
-,	516	517	O
-Dulmage	518	525	O
-–	525	526	O
-Mendelsohn	526	536	O
-,	536	537	O
-Schwarz	538	545	O
-,	545	546	O
-Kim	547	550	O
-and	551	554	O
-Gregory	555	562	O
-
-–	562	563	O
-Kirkland	563	571	O
-
-–	571	572	O
-
-Pullman	572	579	O
-,	579	580	O
-apply	581	586	O
-to	587	589	O
-the	590	593	O
-weights	594	601	O
-of	602	604	O
-optimal	605	612	O
-walks	613	618	O
-when	619	623	O
-one	624	627	O
-of	628	630	O
-their	631	636	O
-ends	637	641	O
-is	642	644	O
-a	645	646	O
-critical	647	655	O
-node	656	660	O
-.	660	661	O
+We	0,2	O	O
+study	3,8	O	O
+sequences	9,18	O	B-Task
+of	19,21	O	I-Task
+optimal	22,29	O	I-Task
+walks	30,35	O	I-Task
+of	36,38	O	I-Task
+a	39,40	O	I-Task
+growing	41,48	O	I-Task
+length	49,55	O	I-Task
+in	56,58	O	I-Task
+weighted	59,67	O	I-Task
+digraphs	68,76	O	I-Task
+,	76,77	O	O
+or	78,80	O	O
+equivalently	81,93	O	O
+,	93,94	O	O
+sequences	95,104	O	B-Task
+of	105,107	O	I-Task
+entries	108,115	O	I-Task
+of	116,118	O	I-Task
+max	119,122	O	I-Task
+-	122,123	O	I-Task
+algebraic	123,132	O	I-Task
+matrix	133,139	O	I-Task
+powers	140,146	O	I-Task
+with	147,151	O	I-Task
+growing	152,159	O	I-Task
+exponents	160,169	O	I-Task
+.	169,170	O	O
+
+It	171,173	O	O
+is	174,176	O	O
+known	177,182	O	O
+that	183,187	O	O
+these	188,193	O	O
+sequences	194,203	O	O
+are	204,207	O	O
+eventually	208,218	O	O
+periodic	219,227	O	O
+when	228,232	O	O
+the	233,236	O	O
+digraphs	237,245	O	B-Process
+are	246,249	O	I-Process
+strongly	250,258	O	I-Process
+connected	259,268	O	I-Process
+.	268,269	O	O
+
+The	270,273	O	O
+transient	274,283	O	O
+of	284,286	O	O
+such	287,291	O	O
+periodicity	292,303	O	O
+depends	304,311	O	O
+,	311,312	O	O
+in	313,315	O	O
+general	316,323	O	O
+,	323,324	O	O
+both	325,329	O	O
+on	330,332	O	O
+the	333,336	O	O
+size	337,341	O	O
+of	342,344	O	O
+digraph	345,352	O	B-Material
+and	353,356	O	O
+on	357,359	O	O
+the	360,363	O	O
+magnitude	364,373	O	O
+of	374,376	O	O
+the	377,380	O	O
+weights	381,388	O	O
+.	388,389	O	O
+
+In	390,392	O	O
+this	393,397	O	O
+paper	398,403	O	O
+,	403,404	O	O
+we	405,407	O	O
+show	408,412	O	O
+that	413,417	O	O
+some	418,422	O	O
+bounds	423,429	O	O
+on	430,432	O	O
+the	433,436	O	O
+indices	437,444	O	O
+of	445,447	O	O
+periodicity	448,459	O	O
+of	460,462	O	O
+(	463,464	O	B-Material
+unweighted	464,474	O	I-Material
+)	474,475	O	I-Material
+digraphs	476,484	O	I-Material
+,	484,485	O	O
+such	486,490	O	O
+as	491,493	O	O
+the	494,497	O	O
+bounds	498,504	O	O
+of	505,507	O	O
+Wielandt	508,516	O	O
+,	516,517	O	O
+Dulmage	518,525	O	O
+–	525,526	O	O
+Mendelsohn	526,536	O	O
+,	536,537	O	O
+Schwarz	538,545	O	O
+,	545,546	O	O
+Kim	547,550	O	O
+and	551,554	O	O
+Gregory	555,562	O	O
+
+–	562,563	O	O
+Kirkland	563,571	O	O
+
+–	571,572	O	O
+
+Pullman	572,579	O	O
+,	579,580	O	O
+apply	581,586	O	O
+to	587,589	O	O
+the	590,593	O	O
+weights	594,601	O	O
+of	602,604	O	O
+optimal	605,612	O	O
+walks	613,618	O	O
+when	619,623	O	O
+one	624,627	O	O
+of	628,630	O	O
+their	631,636	O	O
+ends	637,641	O	O
+is	642,644	O	O
+a	645,646	O	O
+critical	647,655	O	O
+node	656,660	O	O
+.	660,661	O	O
 
 
 -DOCSTART- (S0167273811005091)
 
-Owing	0	5	O
-to	6	8	O
-widespread	9	19	O
-availability	20	32	O
-,	32	33	O
-the	34	37	O
-most	38	42	O
-extensively	43	54	O
-adopted	55	62	O
-tomography	63	73	B-Process
-technique	74	83	I-Process
-utilizes	84	92	O
-the	93	96	O
-milling	97	104	O
-power	105	110	O
-of	111	113	O
-a	114	115	O
-focused	116	123	B-Material
-ion	124	127	I-Material
-beam	128	132	I-Material
-(	133	134	O
-FIB	134	137	B-Material
-)	137	138	O
-in	139	141	O
-conjunction	142	153	O
-with	154	158	O
-the	159	162	O
-imaging	163	170	O
-capabilities	171	183	O
-of	184	186	O
-high	187	191	B-Process
-resolution	192	202	I-Process
-FE	203	205	I-Process
--	205	206	I-Process
-SEM	206	209	I-Process
-,	209	210	O
-to	211	213	O
-provide	214	221	O
-a	222	223	O
-sequence	224	232	O
-of	233	235	O
-2D	236	238	B-Material
-images	239	245	I-Material
-that	246	250	O
-can	251	254	O
-be	255	257	O
-effectively	258	269	O
-re	270	272	O
--	272	273	O
-combined	273	281	O
-in	282	284	O
-3D	285	287	O
-space	288	293	O
-.	293	294	O
-
-However	295	302	O
-,	302	303	O
-because	304	311	O
-this	312	316	O
-technique	317	326	O
-is	327	329	O
-destructive	330	341	O
-,	341	342	O
-studies	343	350	B-Task
-of	351	353	I-Task
-microstructural	354	369	I-Task
-evolution	370	379	I-Task
-are	380	383	O
-influenced	384	394	O
-by	395	397	O
-inherent	398	406	O
-sample	407	413	O
-variability	414	425	O
-.	425	426	O
-Non	427	430	B-Process
--	430	431	I-Process
-destructive	431	442	I-Process
-X	443	444	I-Process
--	444	445	I-Process
-ray	445	448	I-Process
-nano	449	453	I-Process
--	453	454	I-Process
-computed	454	462	I-Process
-tomography	463	473	I-Process
-(	474	475	O
-CT	475	477	B-Process
-)	477	478	O
-
-[	479	480	O
-9–11	480	484	O
-]	484	485	O
-provides	486	494	O
-a	495	496	O
-platform	497	505	O
-for	506	509	O
-exploring	510	519	B-Task
-dynamic	520	527	I-Task
-microstructural	528	543	I-Task
-change	544	550	I-Task
-in	551	553	O
-the	554	557	O
-absence	558	565	O
-of	566	568	O
-these	569	574	O
-possible	575	583	O
-complications	584	597	O
-and	598	601	O
-is	602	604	O
-compatible	605	615	O
-with	616	620	O
-both	621	625	O
-laboratory	626	636	B-Material
-and	637	640	I-Material
-synchrotron	641	652	I-Material
-radiation	653	662	I-Material
-.	662	663	O
-
-The	664	667	O
-authors	668	675	O
-have	676	680	O
-previously	681	691	O
-demonstrated	692	704	O
-a	705	706	O
-technique	707	716	O
-for	717	720	O
-preparation	721	732	B-Task
-of	733	735	I-Task
-optimal	736	743	I-Task
-sample	744	750	I-Task
-geometries	751	761	I-Task
-for	762	765	I-Task
-X	766	767	I-Task
--	767	768	I-Task
-ray	768	771	I-Task
-nano	772	776	I-Task
--	776	777	I-Task
-CT	777	779	I-Task
-[	780	781	O
-12	781	783	O
-]	783	784	O
-,	784	785	O
-while	786	791	O
-this	792	796	O
-FIB	797	800	B-Process
-sample	801	807	I-Process
-preparation	808	819	I-Process
-route	820	825	I-Process
-will	826	830	O
-involve	831	838	O
-the	839	842	O
-selective	843	852	O
-removal	853	860	O
-of	861	863	O
-portions	864	872	O
-of	873	875	O
-the	876	879	O
-fuel	880	884	B-Material
-cell	885	889	I-Material
-electrode	890	899	I-Material
-microstructure	900	914	I-Material
-(	915	916	O
-and	916	919	O
-therefore	920	929	O
-may	930	933	O
-be	934	936	O
-destructive	937	948	O
-to	949	951	O
-the	952	955	O
-working	956	963	B-Material
-fuel	964	968	I-Material
-cell	969	973	I-Material
-)	973	974	O
-,	974	975	O
-the	976	979	O
-non	980	983	B-Process
--	983	984	I-Process
-destructive	984	995	I-Process
-X	996	997	I-Process
--	997	998	I-Process
-ray	998	1001	I-Process
-characterization	1002	1018	I-Process
-technique	1019	1028	I-Process
-allows	1029	1035	O
-repeated	1036	1044	O
-,	1044	1045	O
-non	1046	1049	O
--	1049	1050	O
-destructive	1050	1061	O
-characterization	1062	1078	O
-of	1079	1081	O
-the	1082	1085	O
-selected	1086	1094	B-Material
-sample	1095	1101	I-Material
-which	1102	1107	O
-facilitates	1108	1119	O
-the	1120	1123	O
-study	1124	1129	O
-of	1130	1132	O
-microstructural	1133	1148	B-Process
-evolution	1149	1158	I-Process
-processes	1159	1168	I-Process
-in	1169	1171	O
-response	1172	1180	O
-to	1181	1183	O
-various	1184	1191	O
-environmental	1192	1205	O
-changes	1206	1213	O
-.	1213	1214	O
+Owing	0,5	O	O
+to	6,8	O	O
+widespread	9,19	O	O
+availability	20,32	O	O
+,	32,33	O	O
+the	34,37	O	O
+most	38,42	O	O
+extensively	43,54	O	O
+adopted	55,62	O	O
+tomography	63,73	O	B-Process
+technique	74,83	O	I-Process
+utilizes	84,92	O	O
+the	93,96	O	O
+milling	97,104	O	O
+power	105,110	O	O
+of	111,113	O	O
+a	114,115	O	O
+focused	116,123	O	B-Material
+ion	124,127	O	I-Material
+beam	128,132	O	I-Material
+(	133,134	O	O
+FIB	134,137	O	B-Material
+)	137,138	O	O
+in	139,141	O	O
+conjunction	142,153	O	O
+with	154,158	O	O
+the	159,162	O	O
+imaging	163,170	O	O
+capabilities	171,183	O	O
+of	184,186	O	O
+high	187,191	O	B-Process
+resolution	192,202	O	I-Process
+FE	203,205	O	I-Process
+-	205,206	O	I-Process
+SEM	206,209	O	I-Process
+,	209,210	O	O
+to	211,213	O	O
+provide	214,221	O	O
+a	222,223	O	O
+sequence	224,232	O	O
+of	233,235	O	O
+2D	236,238	O	B-Material
+images	239,245	O	I-Material
+that	246,250	O	O
+can	251,254	O	O
+be	255,257	O	O
+effectively	258,269	O	O
+re	270,272	O	O
+-	272,273	O	O
+combined	273,281	O	O
+in	282,284	O	O
+3D	285,287	O	O
+space	288,293	O	O
+.	293,294	O	O
+
+However	295,302	O	O
+,	302,303	O	O
+because	304,311	O	O
+this	312,316	O	O
+technique	317,326	O	O
+is	327,329	O	O
+destructive	330,341	O	O
+,	341,342	O	O
+studies	343,350	O	B-Task
+of	351,353	O	I-Task
+microstructural	354,369	O	I-Task
+evolution	370,379	O	I-Task
+are	380,383	O	O
+influenced	384,394	O	O
+by	395,397	O	O
+inherent	398,406	O	O
+sample	407,413	O	O
+variability	414,425	O	O
+.	425,426	O	O
+Non	427,430	O	B-Process
+-	430,431	O	I-Process
+destructive	431,442	O	I-Process
+X	443,444	O	I-Process
+-	444,445	O	I-Process
+ray	445,448	O	I-Process
+nano	449,453	O	I-Process
+-	453,454	O	I-Process
+computed	454,462	O	I-Process
+tomography	463,473	O	I-Process
+(	474,475	O	O
+CT	475,477	O	B-Process
+)	477,478	O	O
+
+[	479,480	O	O
+9–11	480,484	O	O
+]	484,485	O	O
+provides	486,494	O	O
+a	495,496	O	O
+platform	497,505	O	O
+for	506,509	O	O
+exploring	510,519	O	B-Task
+dynamic	520,527	O	I-Task
+microstructural	528,543	O	I-Task
+change	544,550	O	I-Task
+in	551,553	O	O
+the	554,557	O	O
+absence	558,565	O	O
+of	566,568	O	O
+these	569,574	O	O
+possible	575,583	O	O
+complications	584,597	O	O
+and	598,601	O	O
+is	602,604	O	O
+compatible	605,615	O	O
+with	616,620	O	O
+both	621,625	O	O
+laboratory	626,636	O	B-Material
+and	637,640	O	I-Material
+synchrotron	641,652	O	I-Material
+radiation	653,662	O	I-Material
+.	662,663	O	O
+
+The	664,667	O	O
+authors	668,675	O	O
+have	676,680	O	O
+previously	681,691	O	O
+demonstrated	692,704	O	O
+a	705,706	O	O
+technique	707,716	O	O
+for	717,720	O	O
+preparation	721,732	O	B-Task
+of	733,735	O	I-Task
+optimal	736,743	O	I-Task
+sample	744,750	O	I-Task
+geometries	751,761	O	I-Task
+for	762,765	O	I-Task
+X	766,767	O	I-Task
+-	767,768	O	I-Task
+ray	768,771	O	I-Task
+nano	772,776	O	I-Task
+-	776,777	O	I-Task
+CT	777,779	O	I-Task
+[	780,781	O	O
+12	781,783	O	O
+]	783,784	O	O
+,	784,785	O	O
+while	786,791	O	O
+this	792,796	O	O
+FIB	797,800	O	B-Process
+sample	801,807	O	I-Process
+preparation	808,819	O	I-Process
+route	820,825	O	I-Process
+will	826,830	O	O
+involve	831,838	O	O
+the	839,842	O	O
+selective	843,852	O	O
+removal	853,860	O	O
+of	861,863	O	O
+portions	864,872	O	O
+of	873,875	O	O
+the	876,879	O	O
+fuel	880,884	O	B-Material
+cell	885,889	O	I-Material
+electrode	890,899	O	I-Material
+microstructure	900,914	O	I-Material
+(	915,916	O	O
+and	916,919	O	O
+therefore	920,929	O	O
+may	930,933	O	O
+be	934,936	O	O
+destructive	937,948	O	O
+to	949,951	O	O
+the	952,955	O	O
+working	956,963	O	B-Material
+fuel	964,968	O	I-Material
+cell	969,973	O	I-Material
+)	973,974	O	O
+,	974,975	O	O
+the	976,979	O	O
+non	980,983	O	B-Process
+-	983,984	O	I-Process
+destructive	984,995	O	I-Process
+X	996,997	O	I-Process
+-	997,998	O	I-Process
+ray	998,1001	O	I-Process
+characterization	1002,1018	O	I-Process
+technique	1019,1028	O	I-Process
+allows	1029,1035	O	O
+repeated	1036,1044	O	O
+,	1044,1045	O	O
+non	1046,1049	O	O
+-	1049,1050	O	O
+destructive	1050,1061	O	O
+characterization	1062,1078	O	O
+of	1079,1081	O	O
+the	1082,1085	O	O
+selected	1086,1094	O	B-Material
+sample	1095,1101	O	I-Material
+which	1102,1107	O	O
+facilitates	1108,1119	O	O
+the	1120,1123	O	O
+study	1124,1129	O	O
+of	1130,1132	O	O
+microstructural	1133,1148	O	B-Process
+evolution	1149,1158	O	I-Process
+processes	1159,1168	O	I-Process
+in	1169,1171	O	O
+response	1172,1180	O	O
+to	1181,1183	O	O
+various	1184,1191	O	O
+environmental	1192,1205	O	O
+changes	1206,1213	O	O
+.	1213,1214	O	O
 
 
 -DOCSTART- (S0167273812003025)
 
-In	0	2	O
-conclusion	3	13	O
-,	13	14	O
-a	15	16	O
-new	17	20	B-Task
-approach	21	29	I-Task
-to	30	32	I-Task
-the	33	36	I-Task
-“	37	38	I-Task
-grind	38	43	I-Task
--	43	44	I-Task
-free	44	48	I-Task
-”	48	49	I-Task
-nanoprecursor	50	63	I-Task
-route	64	69	I-Task
-to	70	72	I-Task
-direct	73	79	I-Task
-combinatorial	80	93	I-Task
-solid	94	99	I-Task
-state	100	105	I-Task
-synthesis	106	115	I-Task
-of	116	118	O
-several	119	126	O
-“	127	128	O
-difficult	128	137	O
-to	138	140	O
-make	141	145	O
-”	145	146	O
-and	147	150	O
-hitherto	151	159	O
-unknown	160	167	O
-phase	168	173	B-Material
--	173	174	I-Material
-pure	174	178	I-Material
-heterometallic	179	193	I-Material
-Ruddlesden	194	204	I-Material
-Popper	205	211	I-Material
-type	212	216	I-Material
-La4Ni3−xFexO10	217	231	I-Material
-materials	232	241	I-Material
-has	242	245	O
-been	246	250	O
-described	251	260	O
-.	260	261	O
-
-The	262	265	O
-new	266	269	O
-approach	270	278	O
-used	279	283	O
-a	284	285	O
-high	286	290	B-Process
--	290	291	I-Process
-throughput	291	301	I-Process
-reactor	302	309	I-Process
-and	310	313	O
-robotic	314	321	B-Process
-automation	322	332	I-Process
-(	333	334	O
-RAMSI	334	339	B-Process
-)	339	340	O
-to	341	343	O
-rapidly	344	351	O
-synthesise	352	362	B-Process
-a	363	364	I-Process
-range	365	370	I-Process
-of	371	373	I-Process
-nanoparticle	374	386	I-Process
-co	387	389	I-Process
--	389	390	I-Process
-precipitate	390	401	I-Process
-precursors	402	412	I-Process
-in	413	415	O
-cloned	416	422	O
-libraries	423	432	O
-at	433	435	O
-a	436	437	O
-rate	438	442	B-Process
-of	443	445	I-Process
-7.5	446	449	I-Process
-samples	450	457	I-Process
-an	458	460	I-Process
-hour	461	465	I-Process
-.	465	466	O
-
-Each	467	471	O
-library	472	479	O
-could	480	485	O
-then	486	490	O
-be	491	493	O
-heat	494	498	B-Process
--	498	499	I-Process
-treated	499	506	I-Process
-at	507	509	O
-a	510	511	O
-different	512	521	O
-temperature	522	533	O
-and	534	537	O
-an	538	540	O
-initial	541	548	O
-powder	549	555	B-Process
-XRD	556	559	I-Process
-screen	560	566	I-Process
-was	567	570	O
-used	571	575	O
-to	576	578	O
-locate	579	585	B-Process
-and	586	589	I-Process
-approximate	590	601	I-Process
-phase	602	607	I-Process
-boundary	608	616	I-Process
-.	616	617	O
-
-A	618	619	O
-more	620	624	O
-focussed	625	633	O
-second	634	640	O
-synthesis	641	650	B-Process
-and	651	654	I-Process
-XRD	655	658	I-Process
-characterisation	659	675	I-Process
-of	676	678	O
-selected	679	687	O
-larger	688	694	O
-heat	695	699	B-Material
--	699	700	I-Material
-treated	700	707	I-Material
-powders	708	715	I-Material
-was	716	719	O
-then	720	724	O
-performed	725	734	O
-to	735	737	O
-reconfirm	738	747	O
-the	748	751	O
-locations	752	761	O
-of	762	764	O
-the	765	768	O
-phase	769	774	O
-boundaries	775	785	O
-with	786	790	O
-the	791	794	O
-highest	795	802	O
-dopant	803	809	O
-level	810	815	O
-being	816	821	O
-achieved	822	830	O
-for	831	834	O
-La4Ni2FeO10	835	846	B-Material
-which	847	852	O
-is	853	855	O
-significantly	856	869	O
-greater	870	877	O
-Fe	878	880	B-Material
-doping	881	887	O
-than	888	892	O
-has	893	896	O
-been	897	901	O
-achieved	902	910	O
-by	911	913	O
-anyone	914	920	O
-previously	921	931	O
-(	932	933	O
-despite	933	940	O
-several	941	948	O
-notable	949	956	O
-efforts	957	964	O
-)	964	965	O
-.	965	966	O
-
-EXAFS	967	972	B-Material
-data	973	977	I-Material
-suggested	978	987	O
-that	988	992	O
-Fe3	993	996	B-Material
-+	996	997	I-Material
-was	998	1001	O
-located	1002	1009	O
-onto	1010	1014	O
-Ni	1015	1017	B-Material
-sites	1018	1023	O
-in	1024	1026	O
-all	1027	1030	O
-cases	1031	1036	O
-and	1037	1040	O
-did	1041	1044	O
-not	1045	1048	O
-exist	1049	1054	O
-as	1055	1057	O
-a	1058	1059	O
-separate	1060	1068	O
-iron	1069	1073	B-Material
-oxide	1074	1079	I-Material
-phase	1080	1085	O
-.	1085	1086	O
+In	0,2	O	O
+conclusion	3,13	O	O
+,	13,14	O	O
+a	15,16	O	O
+new	17,20	O	B-Task
+approach	21,29	O	I-Task
+to	30,32	O	I-Task
+the	33,36	O	I-Task
+“	37,38	O	I-Task
+grind	38,43	O	I-Task
+-	43,44	O	I-Task
+free	44,48	O	I-Task
+”	48,49	O	I-Task
+nanoprecursor	50,63	O	I-Task
+route	64,69	O	I-Task
+to	70,72	O	I-Task
+direct	73,79	O	I-Task
+combinatorial	80,93	O	I-Task
+solid	94,99	O	I-Task
+state	100,105	O	I-Task
+synthesis	106,115	O	I-Task
+of	116,118	O	O
+several	119,126	O	O
+“	127,128	O	O
+difficult	128,137	O	O
+to	138,140	O	O
+make	141,145	O	O
+”	145,146	O	O
+and	147,150	O	O
+hitherto	151,159	O	O
+unknown	160,167	O	O
+phase	168,173	O	B-Material
+-	173,174	O	I-Material
+pure	174,178	O	I-Material
+heterometallic	179,193	O	I-Material
+Ruddlesden	194,204	O	I-Material
+Popper	205,211	O	I-Material
+type	212,216	O	I-Material
+La4Ni3−xFexO10	217,231	O	I-Material
+materials	232,241	O	I-Material
+has	242,245	O	O
+been	246,250	O	O
+described	251,260	O	O
+.	260,261	O	O
+
+The	262,265	O	O
+new	266,269	O	O
+approach	270,278	O	O
+used	279,283	O	O
+a	284,285	O	O
+high	286,290	O	B-Process
+-	290,291	O	I-Process
+throughput	291,301	O	I-Process
+reactor	302,309	O	I-Process
+and	310,313	O	O
+robotic	314,321	O	B-Process
+automation	322,332	O	I-Process
+(	333,334	O	O
+RAMSI	334,339	O	B-Process
+)	339,340	O	O
+to	341,343	O	O
+rapidly	344,351	O	O
+synthesise	352,362	O	B-Process
+a	363,364	O	I-Process
+range	365,370	O	I-Process
+of	371,373	O	I-Process
+nanoparticle	374,386	O	I-Process
+co	387,389	O	I-Process
+-	389,390	O	I-Process
+precipitate	390,401	O	I-Process
+precursors	402,412	O	I-Process
+in	413,415	O	O
+cloned	416,422	O	O
+libraries	423,432	O	O
+at	433,435	O	O
+a	436,437	O	O
+rate	438,442	O	B-Process
+of	443,445	O	I-Process
+7.5	446,449	O	I-Process
+samples	450,457	O	I-Process
+an	458,460	O	I-Process
+hour	461,465	O	I-Process
+.	465,466	O	O
+
+Each	467,471	O	O
+library	472,479	O	O
+could	480,485	O	O
+then	486,490	O	O
+be	491,493	O	O
+heat	494,498	O	B-Process
+-	498,499	O	I-Process
+treated	499,506	O	I-Process
+at	507,509	O	O
+a	510,511	O	O
+different	512,521	O	O
+temperature	522,533	O	O
+and	534,537	O	O
+an	538,540	O	O
+initial	541,548	O	O
+powder	549,555	O	B-Process
+XRD	556,559	O	I-Process
+screen	560,566	O	I-Process
+was	567,570	O	O
+used	571,575	O	O
+to	576,578	O	O
+locate	579,585	O	B-Process
+and	586,589	O	I-Process
+approximate	590,601	O	I-Process
+phase	602,607	O	I-Process
+boundary	608,616	O	I-Process
+.	616,617	O	O
+
+A	618,619	O	O
+more	620,624	O	O
+focussed	625,633	O	O
+second	634,640	O	O
+synthesis	641,650	O	B-Process
+and	651,654	O	I-Process
+XRD	655,658	O	I-Process
+characterisation	659,675	O	I-Process
+of	676,678	O	O
+selected	679,687	O	O
+larger	688,694	O	O
+heat	695,699	O	B-Material
+-	699,700	O	I-Material
+treated	700,707	O	I-Material
+powders	708,715	O	I-Material
+was	716,719	O	O
+then	720,724	O	O
+performed	725,734	O	O
+to	735,737	O	O
+reconfirm	738,747	O	O
+the	748,751	O	O
+locations	752,761	O	O
+of	762,764	O	O
+the	765,768	O	O
+phase	769,774	O	O
+boundaries	775,785	O	O
+with	786,790	O	O
+the	791,794	O	O
+highest	795,802	O	O
+dopant	803,809	O	O
+level	810,815	O	O
+being	816,821	O	O
+achieved	822,830	O	O
+for	831,834	O	O
+La4Ni2FeO10	835,846	O	B-Material
+which	847,852	O	O
+is	853,855	O	O
+significantly	856,869	O	O
+greater	870,877	O	O
+Fe	878,880	O	B-Material
+doping	881,887	O	O
+than	888,892	O	O
+has	893,896	O	O
+been	897,901	O	O
+achieved	902,910	O	O
+by	911,913	O	O
+anyone	914,920	O	O
+previously	921,931	O	O
+(	932,933	O	O
+despite	933,940	O	O
+several	941,948	O	O
+notable	949,956	O	O
+efforts	957,964	O	O
+)	964,965	O	O
+.	965,966	O	O
+
+EXAFS	967,972	O	B-Material
+data	973,977	O	I-Material
+suggested	978,987	O	O
+that	988,992	O	O
+Fe3	993,996	O	B-Material
++	996,997	O	I-Material
+was	998,1001	O	O
+located	1002,1009	O	O
+onto	1010,1014	O	O
+Ni	1015,1017	O	B-Material
+sites	1018,1023	O	O
+in	1024,1026	O	O
+all	1027,1030	O	O
+cases	1031,1036	O	O
+and	1037,1040	O	O
+did	1041,1044	O	O
+not	1045,1048	O	O
+exist	1049,1054	O	O
+as	1055,1057	O	O
+a	1058,1059	O	O
+separate	1060,1068	O	O
+iron	1069,1073	O	B-Material
+oxide	1074,1079	O	I-Material
+phase	1080,1085	O	O
+.	1085,1086	O	O
 
 
 -DOCSTART- (S0167273813005298)
 
-At	0	2	O
-200	3	6	O
-–	7	8	O
-300	9	12	O
-°	12	13	O
-C	13	14	O
-:	14	15	O
-nuclear	16	23	O
-densities	24	33	O
-are	34	37	O
-localised	38	47	O
-in	48	50	O
-the	51	54	O
-tetrahedral	55	66	O
-volume	67	73	O
-roughly	74	81	O
-covering	82	90	O
-the	91	94	O
-8c	95	97	O
-and	98	101	O
-32f	102	105	O
-positions	106	115	O
-with	116	120	O
-“	121	122	B-Material
-bulges	122	128	I-Material
-”	128	129	I-Material
-of	130	132	O
-nuclear	133	140	O
-densities	141	150	O
-pointing	151	159	O
-toward	160	166	O
-the	167	170	O
-48i	171	174	O
-position	175	183	O
-,	183	184	O
-while	185	190	O
-at	191	193	O
-400	194	197	O
-and	198	201	O
-500	202	205	O
-°	205	206	O
-C	206	207	O
-continuous	208	218	O
-nuclear	219	226	O
-densities	227	236	O
-forming	237	244	O
-a	245	246	O
-straight	247	255	O
-line	256	260	O
-along	261	266	O
-the	267	270	O
-<	271	272	O
-100	272	275	O
->	275	276	O
-direction	277	286	O
-are	287	290	O
-found	291	296	O
-,	296	297	O
-indicative	298	308	O
-of	309	311	O
-oxide	312	317	B-Process
--	317	318	I-Process
-ion	318	321	I-Process
-diffusion	322	331	I-Process
-pathway	332	339	O
-along	340	345	O
-that	346	350	O
-direction	351	360	O
-.	360	361	O
-
-In	362	364	O
-the	365	368	O
-literature	369	379	O
-,	379	380	O
-curved	381	387	O
-pathways	388	396	O
-along	397	402	O
-the	403	406	O
-<	407	408	O
-100	408	411	O
->	411	412	O
-direction	413	422	O
-passing	423	430	O
-through	431	438	O
-the	439	442	O
-48i	443	446	O
-site	447	451	O
-are	452	455	O
-generally	456	465	O
-observed	466	474	O
-in	475	477	O
-fluorite	478	486	B-Material
-materials	487	496	I-Material
-[	497	498	O
-20	498	500	O
-]	500	501	O
-,	501	502	O
-the	503	506	O
-prevalence	507	517	O
-of	518	520	O
-curve	521	526	O
-pathway	527	534	O
-as	535	537	O
-opposed	538	545	O
-from	546	550	O
-straight	551	559	O
-pathway	560	567	O
-is	568	570	O
-explained	571	580	O
-by	581	583	O
-the	584	587	O
-repulsion	588	597	O
-between	598	605	O
-cation	606	612	B-Material
-and	613	616	O
-anions	617	623	B-Material
-,	623	624	O
-the	625	628	O
-curved	629	635	O
-pathway	636	643	O
-allowing	644	652	O
-the	653	656	O
-cation	657	663	B-Material
-–	663	664	O
-anion	664	669	B-Material
-to	670	672	O
-maintain	673	681	O
-a	682	683	O
-reasonable	684	694	O
-distance	695	703	O
-.	703	704	O
-
-However	705	712	O
-,	712	713	O
-a	714	715	O
-straight	716	724	O
-pathway	725	732	O
-is	733	735	O
-observed	736	744	O
-for	745	748	O
-Y0.785Ta0.215O1.715	749	768	O
-[	769	770	O
-23	770	772	O
-]	772	773	O
-,	773	774	O
-as	775	777	O
-is	778	780	O
-the	781	784	O
-case	785	789	O
-for	790	793	O
-the	794	797	O
-present	798	805	B-Material
-material	806	814	I-Material
-.	814	815	O
-
-This	816	820	O
-suggests	821	829	O
-that	830	834	O
-Ta	835	837	B-Material
-and	838	841	I-Material
-Re	842	844	I-Material
-cations	845	852	I-Material
-might	853	858	O
-play	859	863	O
-a	864	865	O
-similar	866	873	O
-role	874	878	O
-in	879	881	O
-these	882	887	O
-systems	888	895	O
-.	895	896	O
+At	0,2	O	O
+200	3,6	O	O
+–	7,8	O	O
+300	9,12	O	O
+°	12,13	O	O
+C	13,14	O	O
+:	14,15	O	O
+nuclear	16,23	O	O
+densities	24,33	O	O
+are	34,37	O	O
+localised	38,47	O	O
+in	48,50	O	O
+the	51,54	O	O
+tetrahedral	55,66	O	O
+volume	67,73	O	O
+roughly	74,81	O	O
+covering	82,90	O	O
+the	91,94	O	O
+8c	95,97	O	O
+and	98,101	O	O
+32f	102,105	O	O
+positions	106,115	O	O
+with	116,120	O	O
+“	121,122	O	B-Material
+bulges	122,128	O	I-Material
+”	128,129	O	I-Material
+of	130,132	O	O
+nuclear	133,140	O	O
+densities	141,150	O	O
+pointing	151,159	O	O
+toward	160,166	O	O
+the	167,170	O	O
+48i	171,174	O	O
+position	175,183	O	O
+,	183,184	O	O
+while	185,190	O	O
+at	191,193	O	O
+400	194,197	O	O
+and	198,201	O	O
+500	202,205	O	O
+°	205,206	O	O
+C	206,207	O	O
+continuous	208,218	O	O
+nuclear	219,226	O	O
+densities	227,236	O	O
+forming	237,244	O	O
+a	245,246	O	O
+straight	247,255	O	O
+line	256,260	O	O
+along	261,266	O	O
+the	267,270	O	O
+<	271,272	O	O
+100	272,275	O	O
+>	275,276	O	O
+direction	277,286	O	O
+are	287,290	O	O
+found	291,296	O	O
+,	296,297	O	O
+indicative	298,308	O	O
+of	309,311	O	O
+oxide	312,317	O	B-Process
+-	317,318	O	I-Process
+ion	318,321	O	I-Process
+diffusion	322,331	O	I-Process
+pathway	332,339	O	O
+along	340,345	O	O
+that	346,350	O	O
+direction	351,360	O	O
+.	360,361	O	O
+
+In	362,364	O	O
+the	365,368	O	O
+literature	369,379	O	O
+,	379,380	O	O
+curved	381,387	O	O
+pathways	388,396	O	O
+along	397,402	O	O
+the	403,406	O	O
+<	407,408	O	O
+100	408,411	O	O
+>	411,412	O	O
+direction	413,422	O	O
+passing	423,430	O	O
+through	431,438	O	O
+the	439,442	O	O
+48i	443,446	O	O
+site	447,451	O	O
+are	452,455	O	O
+generally	456,465	O	O
+observed	466,474	O	O
+in	475,477	O	O
+fluorite	478,486	O	B-Material
+materials	487,496	O	I-Material
+[	497,498	O	O
+20	498,500	O	O
+]	500,501	O	O
+,	501,502	O	O
+the	503,506	O	O
+prevalence	507,517	O	O
+of	518,520	O	O
+curve	521,526	O	O
+pathway	527,534	O	O
+as	535,537	O	O
+opposed	538,545	O	O
+from	546,550	O	O
+straight	551,559	O	O
+pathway	560,567	O	O
+is	568,570	O	O
+explained	571,580	O	O
+by	581,583	O	O
+the	584,587	O	O
+repulsion	588,597	O	O
+between	598,605	O	O
+cation	606,612	O	B-Material
+and	613,616	O	O
+anions	617,623	O	B-Material
+,	623,624	O	O
+the	625,628	O	O
+curved	629,635	O	O
+pathway	636,643	O	O
+allowing	644,652	O	O
+the	653,656	O	O
+cation	657,663	O	B-Material
+–	663,664	O	O
+anion	664,669	O	B-Material
+to	670,672	O	O
+maintain	673,681	O	O
+a	682,683	O	O
+reasonable	684,694	O	O
+distance	695,703	O	O
+.	703,704	O	O
+
+However	705,712	O	O
+,	712,713	O	O
+a	714,715	O	O
+straight	716,724	O	O
+pathway	725,732	O	O
+is	733,735	O	O
+observed	736,744	O	O
+for	745,748	O	O
+Y0.785Ta0.215O1.715	749,768	O	O
+[	769,770	O	O
+23	770,772	O	O
+]	772,773	O	O
+,	773,774	O	O
+as	775,777	O	O
+is	778,780	O	O
+the	781,784	O	O
+case	785,789	O	O
+for	790,793	O	O
+the	794,797	O	O
+present	798,805	O	B-Material
+material	806,814	O	I-Material
+.	814,815	O	O
+
+This	816,820	O	O
+suggests	821,829	O	O
+that	830,834	O	O
+Ta	835,837	O	B-Material
+and	838,841	O	I-Material
+Re	842,844	O	I-Material
+cations	845,852	O	I-Material
+might	853,858	O	O
+play	859,863	O	O
+a	864,865	O	O
+similar	866,873	O	O
+role	874,878	O	O
+in	879,881	O	O
+these	882,887	O	O
+systems	888,895	O	O
+.	895,896	O	O
 
 
 -DOCSTART- (S0167273813006735)
 
-While	0	5	O
-impedance	6	15	B-Process
-spectroscopy	16	28	I-Process
-is	29	31	O
-a	32	33	O
-quite	34	39	O
-common	40	46	O
-method	47	53	O
-to	54	56	O
-investigate	57	68	O
-mixed	69	74	B-Material
-conducting	75	85	I-Material
-thin	86	90	I-Material
-film	91	95	I-Material
-electrodes	96	106	I-Material
-,	106	107	O
-[	108	109	O
-6,10–12	109	116	O
-]	116	117	O
-oxygen	118	124	B-Process
-tracer	125	131	I-Process
-experiments	132	143	I-Process
-are	144	147	O
-often	148	153	O
-performed	154	163	O
-on	164	166	O
-bulk	167	171	B-Material
-samples	172	179	I-Material
-[	180	181	O
-13–16	181	186	O
-]	186	187	O
-.	187	188	O
-
-Recently	189	197	O
-,	197	198	O
-several	199	206	O
-IEDP	207	211	B-Process
-measurements	212	224	I-Process
-of	225	227	O
-mixed	228	233	B-Material
-conducting	234	244	I-Material
-cathode	245	252	I-Material
-materials	253	262	I-Material
-were	263	267	O
-published	268	277	O
-with	278	282	O
-the	283	286	O
-oxide	287	292	B-Material
-films	293	298	I-Material
-being	299	304	O
-deposited	305	314	O
-on	315	317	O
-insulating	318	328	B-Material
-substrates	329	339	I-Material
-[	340	341	O
-17–19	341	346	O
-]	346	347	O
-.	347	348	O
-
-However	349	356	O
-,	356	357	O
-to	358	360	O
-the	361	364	O
-best	365	369	O
-of	370	372	O
-the	373	376	O
-authors	377	384	O
-'	384	385	O
-knowledge	386	395	O
-no	396	398	O
-study	399	404	O
-so	405	407	O
-far	408	411	O
-reported	412	420	O
-experiments	421	432	O
-with	433	437	O
-both	438	442	O
-techniques	443	453	O
-being	454	459	O
-applied	460	467	O
-on	468	470	O
-the	471	474	O
-same	475	479	O
-films	480	485	B-Material
-at	486	488	O
-the	489	492	O
-same	493	497	O
-temperature	498	509	O
-.	509	510	O
-
-This	511	515	O
-contribution	516	528	O
-reports	529	536	O
-the	537	540	O
-results	541	548	O
-of	549	551	O
-a	552	553	O
-study	554	559	O
-applying	560	568	O
-EIS	569	572	O
-and	573	576	O
-IEDP	577	581	O
-to	582	584	O
-one	585	588	O
-and	589	592	O
-the	593	596	O
-same	597	601	O
-La0.6Sr0.4CoO3−δ	602	618	O
-
-(	619	620	O
-LSC	620	623	O
-)	623	624	O
-
-thin	625	629	O
-film	630	634	O
-in	635	637	O
-order	638	643	O
-to	644	646	O
-get	647	650	O
-complementary	651	664	O
-results	665	672	O
-on	673	675	O
-the	676	679	O
-resistive	680	689	B-Task
-contributions	690	703	I-Task
-of	704	706	I-Task
-the	707	710	I-Task
-oxygen	711	717	I-Task
-reduction	718	727	I-Task
-kinetics	728	736	I-Task
-on	737	739	O
-such	740	744	O
-films	745	750	B-Material
-.	750	751	O
-
-As	752	754	O
-electrical	755	765	B-Process
-measurements	766	778	I-Process
-require	779	786	O
-an	787	789	O
-oxygen	790	796	B-Material
-ion	797	800	I-Material
-conductor	801	810	I-Material
-,	810	811	O
-yttria	812	818	B-Material
-stabilized	819	829	I-Material
-zirconia	830	838	I-Material
-(	839	840	O
-YSZ	840	843	B-Material
-)	843	844	O
-was	845	848	O
-used	849	853	O
-as	854	856	O
-substrate	857	866	O
-for	867	870	O
-LSC	871	874	B-Material
-films	875	880	I-Material
-with	881	885	O
-two	886	889	O
-different	890	899	O
-grain	900	905	B-Material
-sizes	906	911	O
-.	911	912	O
-
-Quantitative	913	925	B-Task
-material	926	934	I-Task
-parameters	935	945	I-Task
-are	946	949	O
-deduced	950	957	O
-from	958	962	O
-both	963	967	O
-types	968	973	O
-of	974	976	O
-experiments	977	988	O
-and	989	992	O
-comparison	993	1003	B-Process
-of	1004	1006	I-Process
-the	1007	1010	I-Process
-data	1011	1015	I-Process
-allowed	1016	1023	O
-testing	1024	1031	O
-the	1032	1035	O
-appropriateness	1036	1051	B-Task
-of	1052	1054	I-Task
-analysis	1055	1063	I-Task
-models	1064	1070	I-Task
-.	1070	1071	O
+While	0,5	O	O
+impedance	6,15	O	B-Process
+spectroscopy	16,28	O	I-Process
+is	29,31	O	O
+a	32,33	O	O
+quite	34,39	O	O
+common	40,46	O	O
+method	47,53	O	O
+to	54,56	O	O
+investigate	57,68	O	O
+mixed	69,74	O	B-Material
+conducting	75,85	O	I-Material
+thin	86,90	O	I-Material
+film	91,95	O	I-Material
+electrodes	96,106	O	I-Material
+,	106,107	O	O
+[	108,109	O	O
+6,10–12	109,116	O	O
+]	116,117	O	O
+oxygen	118,124	O	B-Process
+tracer	125,131	O	I-Process
+experiments	132,143	O	I-Process
+are	144,147	O	O
+often	148,153	O	O
+performed	154,163	O	O
+on	164,166	O	O
+bulk	167,171	O	B-Material
+samples	172,179	O	I-Material
+[	180,181	O	O
+13–16	181,186	O	O
+]	186,187	O	O
+.	187,188	O	O
+
+Recently	189,197	O	O
+,	197,198	O	O
+several	199,206	O	O
+IEDP	207,211	O	B-Process
+measurements	212,224	O	I-Process
+of	225,227	O	O
+mixed	228,233	O	B-Material
+conducting	234,244	O	I-Material
+cathode	245,252	O	I-Material
+materials	253,262	O	I-Material
+were	263,267	O	O
+published	268,277	O	O
+with	278,282	O	O
+the	283,286	O	O
+oxide	287,292	O	B-Material
+films	293,298	O	I-Material
+being	299,304	O	O
+deposited	305,314	O	O
+on	315,317	O	O
+insulating	318,328	O	B-Material
+substrates	329,339	O	I-Material
+[	340,341	O	O
+17–19	341,346	O	O
+]	346,347	O	O
+.	347,348	O	O
+
+However	349,356	O	O
+,	356,357	O	O
+to	358,360	O	O
+the	361,364	O	O
+best	365,369	O	O
+of	370,372	O	O
+the	373,376	O	O
+authors	377,384	O	O
+'	384,385	O	O
+knowledge	386,395	O	O
+no	396,398	O	O
+study	399,404	O	O
+so	405,407	O	O
+far	408,411	O	O
+reported	412,420	O	O
+experiments	421,432	O	O
+with	433,437	O	O
+both	438,442	O	O
+techniques	443,453	O	O
+being	454,459	O	O
+applied	460,467	O	O
+on	468,470	O	O
+the	471,474	O	O
+same	475,479	O	O
+films	480,485	O	B-Material
+at	486,488	O	O
+the	489,492	O	O
+same	493,497	O	O
+temperature	498,509	O	O
+.	509,510	O	O
+
+This	511,515	O	O
+contribution	516,528	O	O
+reports	529,536	O	O
+the	537,540	O	O
+results	541,548	O	O
+of	549,551	O	O
+a	552,553	O	O
+study	554,559	O	O
+applying	560,568	O	O
+EIS	569,572	O	O
+and	573,576	O	O
+IEDP	577,581	O	O
+to	582,584	O	O
+one	585,588	O	O
+and	589,592	O	O
+the	593,596	O	O
+same	597,601	O	O
+La0.6Sr0.4CoO3−δ	602,618	O	O
+
+(	619,620	O	O
+LSC	620,623	O	O
+)	623,624	O	O
+
+thin	625,629	O	O
+film	630,634	O	O
+in	635,637	O	O
+order	638,643	O	O
+to	644,646	O	O
+get	647,650	O	O
+complementary	651,664	O	O
+results	665,672	O	O
+on	673,675	O	O
+the	676,679	O	O
+resistive	680,689	O	B-Task
+contributions	690,703	O	I-Task
+of	704,706	O	I-Task
+the	707,710	O	I-Task
+oxygen	711,717	O	I-Task
+reduction	718,727	O	I-Task
+kinetics	728,736	O	I-Task
+on	737,739	O	O
+such	740,744	O	O
+films	745,750	O	B-Material
+.	750,751	O	O
+
+As	752,754	O	O
+electrical	755,765	O	B-Process
+measurements	766,778	O	I-Process
+require	779,786	O	O
+an	787,789	O	O
+oxygen	790,796	O	B-Material
+ion	797,800	O	I-Material
+conductor	801,810	O	I-Material
+,	810,811	O	O
+yttria	812,818	O	B-Material
+stabilized	819,829	O	I-Material
+zirconia	830,838	O	I-Material
+(	839,840	O	O
+YSZ	840,843	O	B-Material
+)	843,844	O	O
+was	845,848	O	O
+used	849,853	O	O
+as	854,856	O	O
+substrate	857,866	O	O
+for	867,870	O	O
+LSC	871,874	O	B-Material
+films	875,880	O	I-Material
+with	881,885	O	O
+two	886,889	O	O
+different	890,899	O	O
+grain	900,905	O	B-Material
+sizes	906,911	O	O
+.	911,912	O	O
+
+Quantitative	913,925	O	B-Task
+material	926,934	O	I-Task
+parameters	935,945	O	I-Task
+are	946,949	O	O
+deduced	950,957	O	O
+from	958,962	O	O
+both	963,967	O	O
+types	968,973	O	O
+of	974,976	O	O
+experiments	977,988	O	O
+and	989,992	O	O
+comparison	993,1003	O	B-Process
+of	1004,1006	O	I-Process
+the	1007,1010	O	I-Process
+data	1011,1015	O	I-Process
+allowed	1016,1023	O	O
+testing	1024,1031	O	O
+the	1032,1035	O	O
+appropriateness	1036,1051	O	B-Task
+of	1052,1054	O	I-Task
+analysis	1055,1063	O	I-Task
+models	1064,1070	O	I-Task
+.	1070,1071	O	O
 
 
 -DOCSTART- (S0167273814004408)
 
-Thin	0	4	B-Material
-MIEC	5	9	I-Material
-layers	10	16	I-Material
-of	17	19	O
-GDC	20	23	B-Material
-and	24	27	O
-STFO	28	32	B-Material
-on	33	35	O
-single	36	42	B-Material
--	42	43	I-Material
-crystalline	43	54	I-Material
-YSZ	55	58	I-Material
-substrates	59	69	I-Material
-were	70	74	O
-exposed	75	82	B-Process
-to	83	85	I-Process
-H2/H218O	86	94	I-Process
-atmosphere	95	105	I-Process
-for	106	109	O
-thermally	110	119	O
-and	120	123	O
-electrochemically	124	141	O
-driven	142	148	O
-tracer	149	155	B-Task
-exchange	156	164	I-Task
-experiments	165	176	I-Task
-.	176	177	O
-
-Rectangular	178	189	B-Material
-noble	190	195	I-Material
-metal	196	201	I-Material
-thin	202	206	I-Material
-film	207	211	I-Material
-current	212	219	I-Material
-collectors	220	230	I-Material
-were	231	235	O
-deposited	236	245	B-Process
-on	246	248	I-Process
-top	249	252	I-Process
-and	253	256	I-Process
-beneath	257	264	I-Process
-the	265	268	I-Process
-MIEC	269	273	I-Process
-layer	274	279	I-Process
-and	280	283	O
-used	284	288	O
-for	289	292	O
-polarization	293	305	B-Process
-.	305	306	O
-
-The	307	310	O
-lateral	311	318	B-Process
-distribution	319	331	I-Process
-of	332	334	I-Process
-the	335	338	I-Process
-tracer	339	345	I-Process
-revealed	346	354	O
-several	355	362	O
-interesting	363	374	O
-features	375	383	O
-:	383	384	O
-(	385	386	O
-i	386	387	O
-)	387	388	O
-
-In	389	391	O
-case	392	396	O
-of	397	399	O
-thermal	400	407	B-Process
-tracer	408	414	I-Process
-exchange	415	423	I-Process
-,	423	424	O
-an	425	427	O
-enhanced	428	436	O
-tracer	437	443	B-Process
-fraction	444	452	I-Process
-is	453	455	O
-found	456	461	O
-on	462	464	O
-top	465	468	O
-of	469	471	O
-the	472	475	O
-metallic	476	484	B-Material
-current	485	492	I-Material
-collector	493	502	I-Material
-due	503	506	O
-to	507	509	O
-its	510	513	O
-ionically	514	523	O
-blocking	524	532	O
-nature	533	539	O
-.	539	540	O
-
-At	541	543	O
-the	544	547	O
-edges	548	553	O
-of	554	556	O
-the	557	560	O
-current	561	568	O
-collector	569	578	O
-,	578	579	O
-the	580	583	O
-concentration	584	597	O
-of	598	600	O
-18O	601	604	B-Material
-decreases	605	614	O
-with	615	619	O
-a	620	621	O
-finite	622	628	O
-step	629	633	O
-width	634	639	O
-that	640	644	O
-is	645	647	O
-correlated	648	658	O
-with	659	663	O
-in	664	666	B-Process
--	666	667	I-Process
-plane	667	672	I-Process
-diffusion	673	682	I-Process
-of	683	685	I-Process
-oxygen	686	692	I-Process
-ions	693	697	I-Process
-.	697	698	O
-
-(	699	700	O
-ii	700	702	O
-)	702	703	O
-
-Due	704	707	O
-to	708	710	O
-the	711	714	O
-low	715	718	B-Process
-electronic	719	729	I-Process
-conductivity	730	742	I-Process
-of	743	745	O
-STFO	746	750	B-Material
-and	751	754	O
-GDC	755	758	B-Material
-,	758	759	O
-the	760	763	O
-MIEC	764	768	O
-area	769	773	O
-that	774	778	O
-is	779	781	O
-influenced	782	792	O
-by	793	795	O
-an	796	798	O
-applied	799	806	B-Process
-bias	807	811	I-Process
-is	812	814	O
-restricted	815	825	O
-to	826	828	O
-a	829	830	O
-region	831	837	O
-close	838	843	O
-to	844	846	O
-the	847	850	O
-current	851	858	B-Material
-collector	859	868	I-Material
-.	868	869	O
-
-The	870	873	O
-width	874	879	B-Task
-of	880	882	I-Task
-this	883	887	I-Task
-active	888	894	I-Task
-region	895	901	I-Task
-depends	902	909	O
-on	910	912	O
-the	913	916	O
-bias	917	921	O
-.	921	922	O
-
-It	923	925	O
-amounts	926	933	O
-to	934	936	O
-only	937	941	O
-10–15μm	942	949	O
-for	950	953	O
-STFO	954	958	B-Material
-but	959	962	O
-more	963	967	O
-than	968	972	O
-100μm	973	978	O
-for	979	982	O
-GDC	983	986	B-Material
-at	987	989	O
-a	990	991	O
-cathodic	992	1000	O
-bias	1001	1005	O
-of	1006	1008	O
-−500mV.	1009	1016	O
-(	1017	1018	O
-iii	1018	1021	O
-)	1021	1022	O
-Not	1023	1026	O
-only	1027	1031	O
-enhanced	1032	1040	B-Process
-tracer	1041	1047	I-Process
-incorporation	1048	1061	I-Process
-due	1062	1065	O
-to	1066	1068	O
-cathodic	1069	1077	O
-bias	1078	1082	O
-but	1083	1086	O
-also	1087	1091	O
-reduced	1092	1099	B-Process
-incorporation	1100	1113	I-Process
-due	1114	1117	O
-to	1118	1120	O
-anodic	1121	1127	O
-bias	1128	1132	O
-could	1133	1138	O
-be	1139	1141	O
-experimentally	1142	1156	O
-resolved	1157	1165	O
-in	1166	1168	O
-the	1169	1172	O
-active	1173	1179	O
-region	1180	1186	O
-.	1186	1187	O
+Thin	0,4	O	B-Material
+MIEC	5,9	O	I-Material
+layers	10,16	O	I-Material
+of	17,19	O	O
+GDC	20,23	O	B-Material
+and	24,27	O	O
+STFO	28,32	O	B-Material
+on	33,35	O	O
+single	36,42	O	B-Material
+-	42,43	O	I-Material
+crystalline	43,54	O	I-Material
+YSZ	55,58	O	I-Material
+substrates	59,69	O	I-Material
+were	70,74	O	O
+exposed	75,82	O	B-Process
+to	83,85	O	I-Process
+H2/H218O	86,94	O	I-Process
+atmosphere	95,105	O	I-Process
+for	106,109	O	O
+thermally	110,119	O	O
+and	120,123	O	O
+electrochemically	124,141	O	O
+driven	142,148	O	O
+tracer	149,155	O	B-Task
+exchange	156,164	O	I-Task
+experiments	165,176	O	I-Task
+.	176,177	O	O
+
+Rectangular	178,189	O	B-Material
+noble	190,195	O	I-Material
+metal	196,201	O	I-Material
+thin	202,206	O	I-Material
+film	207,211	O	I-Material
+current	212,219	O	I-Material
+collectors	220,230	O	I-Material
+were	231,235	O	O
+deposited	236,245	O	B-Process
+on	246,248	O	I-Process
+top	249,252	O	I-Process
+and	253,256	O	I-Process
+beneath	257,264	O	I-Process
+the	265,268	O	I-Process
+MIEC	269,273	O	I-Process
+layer	274,279	O	I-Process
+and	280,283	O	O
+used	284,288	O	O
+for	289,292	O	O
+polarization	293,305	O	B-Process
+.	305,306	O	O
+
+The	307,310	O	O
+lateral	311,318	O	B-Process
+distribution	319,331	O	I-Process
+of	332,334	O	I-Process
+the	335,338	O	I-Process
+tracer	339,345	O	I-Process
+revealed	346,354	O	O
+several	355,362	O	O
+interesting	363,374	O	O
+features	375,383	O	O
+:	383,384	O	O
+(	385,386	O	O
+i	386,387	O	O
+)	387,388	O	O
+
+In	389,391	O	O
+case	392,396	O	O
+of	397,399	O	O
+thermal	400,407	O	B-Process
+tracer	408,414	O	I-Process
+exchange	415,423	O	I-Process
+,	423,424	O	O
+an	425,427	O	O
+enhanced	428,436	O	O
+tracer	437,443	O	B-Process
+fraction	444,452	O	I-Process
+is	453,455	O	O
+found	456,461	O	O
+on	462,464	O	O
+top	465,468	O	O
+of	469,471	O	O
+the	472,475	O	O
+metallic	476,484	O	B-Material
+current	485,492	O	I-Material
+collector	493,502	O	I-Material
+due	503,506	O	O
+to	507,509	O	O
+its	510,513	O	O
+ionically	514,523	O	O
+blocking	524,532	O	O
+nature	533,539	O	O
+.	539,540	O	O
+
+At	541,543	O	O
+the	544,547	O	O
+edges	548,553	O	O
+of	554,556	O	O
+the	557,560	O	O
+current	561,568	O	O
+collector	569,578	O	O
+,	578,579	O	O
+the	580,583	O	O
+concentration	584,597	O	O
+of	598,600	O	O
+18O	601,604	O	B-Material
+decreases	605,614	O	O
+with	615,619	O	O
+a	620,621	O	O
+finite	622,628	O	O
+step	629,633	O	O
+width	634,639	O	O
+that	640,644	O	O
+is	645,647	O	O
+correlated	648,658	O	O
+with	659,663	O	O
+in	664,666	O	B-Process
+-	666,667	O	I-Process
+plane	667,672	O	I-Process
+diffusion	673,682	O	I-Process
+of	683,685	O	I-Process
+oxygen	686,692	O	I-Process
+ions	693,697	O	I-Process
+.	697,698	O	O
+
+(	699,700	O	O
+ii	700,702	O	O
+)	702,703	O	O
+
+Due	704,707	O	O
+to	708,710	O	O
+the	711,714	O	O
+low	715,718	O	B-Process
+electronic	719,729	O	I-Process
+conductivity	730,742	O	I-Process
+of	743,745	O	O
+STFO	746,750	O	B-Material
+and	751,754	O	O
+GDC	755,758	O	B-Material
+,	758,759	O	O
+the	760,763	O	O
+MIEC	764,768	O	O
+area	769,773	O	O
+that	774,778	O	O
+is	779,781	O	O
+influenced	782,792	O	O
+by	793,795	O	O
+an	796,798	O	O
+applied	799,806	O	B-Process
+bias	807,811	O	I-Process
+is	812,814	O	O
+restricted	815,825	O	O
+to	826,828	O	O
+a	829,830	O	O
+region	831,837	O	O
+close	838,843	O	O
+to	844,846	O	O
+the	847,850	O	O
+current	851,858	O	B-Material
+collector	859,868	O	I-Material
+.	868,869	O	O
+
+The	870,873	O	O
+width	874,879	O	B-Task
+of	880,882	O	I-Task
+this	883,887	O	I-Task
+active	888,894	O	I-Task
+region	895,901	O	I-Task
+depends	902,909	O	O
+on	910,912	O	O
+the	913,916	O	O
+bias	917,921	O	O
+.	921,922	O	O
+
+It	923,925	O	O
+amounts	926,933	O	O
+to	934,936	O	O
+only	937,941	O	O
+10–15μm	942,949	O	O
+for	950,953	O	O
+STFO	954,958	O	B-Material
+but	959,962	O	O
+more	963,967	O	O
+than	968,972	O	O
+100μm	973,978	O	O
+for	979,982	O	O
+GDC	983,986	O	B-Material
+at	987,989	O	O
+a	990,991	O	O
+cathodic	992,1000	O	O
+bias	1001,1005	O	O
+of	1006,1008	O	O
+−500mV.	1009,1016	O	O
+(	1017,1018	O	O
+iii	1018,1021	O	O
+)	1021,1022	O	O
+Not	1023,1026	O	O
+only	1027,1031	O	O
+enhanced	1032,1040	O	B-Process
+tracer	1041,1047	O	I-Process
+incorporation	1048,1061	O	I-Process
+due	1062,1065	O	O
+to	1066,1068	O	O
+cathodic	1069,1077	O	O
+bias	1078,1082	O	O
+but	1083,1086	O	O
+also	1087,1091	O	O
+reduced	1092,1099	O	B-Process
+incorporation	1100,1113	O	I-Process
+due	1114,1117	O	O
+to	1118,1120	O	O
+anodic	1121,1127	O	O
+bias	1128,1132	O	O
+could	1133,1138	O	O
+be	1139,1141	O	O
+experimentally	1142,1156	O	O
+resolved	1157,1165	O	O
+in	1166,1168	O	O
+the	1169,1172	O	O
+active	1173,1179	O	O
+region	1180,1186	O	O
+.	1186,1187	O	O
 
 
 -DOCSTART- (S0167273814004548)
 
-Two	0	3	O
-different	4	13	O
-micro	14	19	B-Material
--	19	20	I-Material
-contact	20	27	I-Material
-set	28	31	I-Material
--	31	32	I-Material
-ups	32	35	I-Material
-were	36	40	O
-used	41	45	O
-in	46	48	O
-the	49	52	O
-experiments	53	64	O
-.	64	65	O
-
-The	66	69	O
-asymmetrically	70	84	B-Material
-heated	85	91	I-Material
-measurement	92	103	I-Material
-set	104	107	I-Material
--	107	108	I-Material
-up	108	110	I-Material
-(	111	112	O
-Fig	112	115	O
-.	115	116	O
-
-2a	117	119	O
-)	119	120	O
-allows	121	127	O
-to	128	130	O
-change	131	137	B-Process
-the	138	141	I-Process
-contacted	142	151	I-Process
-electrode	152	161	I-Process
-within	162	168	O
-seconds	169	176	O
-and	177	180	O
-thereby	181	188	O
-to	189	191	O
-gain	192	196	B-Task
-statistical	197	208	I-Task
-information	209	220	I-Task
-over	221	225	O
-a	226	227	O
-large	228	233	O
-number	234	240	O
-of	241	243	O
-different	244	253	O
-microelectrodes	254	269	B-Material
-on	270	272	O
-one	273	276	O
-and	277	280	O
-the	281	284	O
-same	285	289	O
-sample	290	296	O
-in	297	299	O
-a	300	301	O
-relatively	302	312	O
-short	313	318	O
-time	319	323	O
-.	323	324	O
-
-It	325	327	O
-also	328	332	O
-enables	333	340	O
-monitoring	341	351	B-Task
-of	352	354	I-Task
-optical	355	362	I-Task
-changes	363	370	I-Task
-during	371	377	O
-the	378	381	O
-measurement	382	393	O
-in	394	396	O
-real	397	401	O
-time	402	406	O
-.	406	407	O
-
-However	408	415	O
-,	415	416	O
-the	417	420	O
-asymmetrical	421	433	B-Process
-heating	434	441	I-Process
-from	442	446	O
-the	447	450	O
-bottom	451	457	O
-side	458	462	O
-and	463	466	O
-local	467	472	B-Process
-cooling	473	480	I-Process
-(	481	482	O
-e.g.	482	486	O
-by	487	489	O
-convection	490	500	B-Process
-,	500	501	O
-radiation	502	511	B-Process
-,	511	512	O
-and	513	516	O
-the	517	520	O
-contacting	521	531	B-Material
-tip	532	535	I-Material
-acting	536	542	O
-as	543	545	O
-a	546	547	O
-heat	548	552	B-Material
-sink	553	557	I-Material
-)	557	558	O
-is	559	561	O
-known	562	567	O
-to	568	570	O
-cause	571	576	O
-temperature	577	588	B-Process
-gradients	589	598	I-Process
-within	599	605	O
-the	606	609	O
-sample	610	616	O
-[	617	618	O
-11	618	620	O
-]	620	621	O
-.	621	622	O
-
-Such	623	627	O
-temperature	628	639	B-Process
-gradients	640	649	I-Process
-are	650	653	O
-responsible	654	665	O
-for	666	669	O
-thermo	670	676	O
--	676	677	O
-voltages	677	685	O
-,	685	686	O
-which	687	692	O
-can	693	696	O
-lead	697	701	O
-to	702	704	O
-measurement	705	716	O
-artifacts	717	726	O
-in	727	729	O
-electrochemical	730	745	B-Process
-experiments	746	757	I-Process
-[	758	759	O
-24	759	761	O
-]	761	762	O
-.	762	763	O
-
-Moreover	764	772	O
-,	772	773	O
-in	774	776	O
-this	777	781	O
-set	782	785	O
--	785	786	O
-up	786	788	O
-temperature	789	800	B-Process
-cycles	801	807	I-Process
-can	808	811	O
-hardly	812	818	O
-be	819	821	O
-performed	822	831	O
-on	832	834	O
-single	835	841	O
-microelectrodes	842	857	B-Material
-but	858	861	O
-require	862	869	O
-subsequent	870	880	O
-contacting	881	891	B-Process
-and	892	895	I-Process
-de	896	898	I-Process
--	898	899	I-Process
-contacting	899	909	I-Process
-of	910	912	I-Process
-different	913	922	I-Process
-microelectrodes	923	938	I-Process
-.	938	939	O
+Two	0,3	O	O
+different	4,13	O	O
+micro	14,19	O	B-Material
+-	19,20	O	I-Material
+contact	20,27	O	I-Material
+set	28,31	O	I-Material
+-	31,32	O	I-Material
+ups	32,35	O	I-Material
+were	36,40	O	O
+used	41,45	O	O
+in	46,48	O	O
+the	49,52	O	O
+experiments	53,64	O	O
+.	64,65	O	O
+
+The	66,69	O	O
+asymmetrically	70,84	O	B-Material
+heated	85,91	O	I-Material
+measurement	92,103	O	I-Material
+set	104,107	O	I-Material
+-	107,108	O	I-Material
+up	108,110	O	I-Material
+(	111,112	O	O
+Fig	112,115	O	O
+.	115,116	O	O
+
+2a	117,119	O	O
+)	119,120	O	O
+allows	121,127	O	O
+to	128,130	O	O
+change	131,137	O	B-Process
+the	138,141	O	I-Process
+contacted	142,151	O	I-Process
+electrode	152,161	O	I-Process
+within	162,168	O	O
+seconds	169,176	O	O
+and	177,180	O	O
+thereby	181,188	O	O
+to	189,191	O	O
+gain	192,196	O	B-Task
+statistical	197,208	O	I-Task
+information	209,220	O	I-Task
+over	221,225	O	O
+a	226,227	O	O
+large	228,233	O	O
+number	234,240	O	O
+of	241,243	O	O
+different	244,253	O	O
+microelectrodes	254,269	O	B-Material
+on	270,272	O	O
+one	273,276	O	O
+and	277,280	O	O
+the	281,284	O	O
+same	285,289	O	O
+sample	290,296	O	O
+in	297,299	O	O
+a	300,301	O	O
+relatively	302,312	O	O
+short	313,318	O	O
+time	319,323	O	O
+.	323,324	O	O
+
+It	325,327	O	O
+also	328,332	O	O
+enables	333,340	O	O
+monitoring	341,351	O	B-Task
+of	352,354	O	I-Task
+optical	355,362	O	I-Task
+changes	363,370	O	I-Task
+during	371,377	O	O
+the	378,381	O	O
+measurement	382,393	O	O
+in	394,396	O	O
+real	397,401	O	O
+time	402,406	O	O
+.	406,407	O	O
+
+However	408,415	O	O
+,	415,416	O	O
+the	417,420	O	O
+asymmetrical	421,433	O	B-Process
+heating	434,441	O	I-Process
+from	442,446	O	O
+the	447,450	O	O
+bottom	451,457	O	O
+side	458,462	O	O
+and	463,466	O	O
+local	467,472	O	B-Process
+cooling	473,480	O	I-Process
+(	481,482	O	O
+e.g.	482,486	O	O
+by	487,489	O	O
+convection	490,500	O	B-Process
+,	500,501	O	O
+radiation	502,511	O	B-Process
+,	511,512	O	O
+and	513,516	O	O
+the	517,520	O	O
+contacting	521,531	O	B-Material
+tip	532,535	O	I-Material
+acting	536,542	O	O
+as	543,545	O	O
+a	546,547	O	O
+heat	548,552	O	B-Material
+sink	553,557	O	I-Material
+)	557,558	O	O
+is	559,561	O	O
+known	562,567	O	O
+to	568,570	O	O
+cause	571,576	O	O
+temperature	577,588	O	B-Process
+gradients	589,598	O	I-Process
+within	599,605	O	O
+the	606,609	O	O
+sample	610,616	O	O
+[	617,618	O	O
+11	618,620	O	O
+]	620,621	O	O
+.	621,622	O	O
+
+Such	623,627	O	O
+temperature	628,639	O	B-Process
+gradients	640,649	O	I-Process
+are	650,653	O	O
+responsible	654,665	O	O
+for	666,669	O	O
+thermo	670,676	O	O
+-	676,677	O	O
+voltages	677,685	O	O
+,	685,686	O	O
+which	687,692	O	O
+can	693,696	O	O
+lead	697,701	O	O
+to	702,704	O	O
+measurement	705,716	O	O
+artifacts	717,726	O	O
+in	727,729	O	O
+electrochemical	730,745	O	B-Process
+experiments	746,757	O	I-Process
+[	758,759	O	O
+24	759,761	O	O
+]	761,762	O	O
+.	762,763	O	O
+
+Moreover	764,772	O	O
+,	772,773	O	O
+in	774,776	O	O
+this	777,781	O	O
+set	782,785	O	O
+-	785,786	O	O
+up	786,788	O	O
+temperature	789,800	O	B-Process
+cycles	801,807	O	I-Process
+can	808,811	O	O
+hardly	812,818	O	O
+be	819,821	O	O
+performed	822,831	O	O
+on	832,834	O	O
+single	835,841	O	O
+microelectrodes	842,857	O	B-Material
+but	858,861	O	O
+require	862,869	O	O
+subsequent	870,880	O	O
+contacting	881,891	O	B-Process
+and	892,895	O	I-Process
+de	896,898	O	I-Process
+-	898,899	O	I-Process
+contacting	899,909	O	I-Process
+of	910,912	O	I-Process
+different	913,922	O	I-Process
+microelectrodes	923,938	O	I-Process
+.	938,939	O	O
 
 
 -DOCSTART- (S0167273815004130)
 
-Room	0	4	O
-temperature	5	16	O
-powder	17	23	B-Process
-X	24	25	I-Process
--	25	26	I-Process
-ray	26	29	I-Process
-diffraction	30	41	I-Process
-(	42	43	O
-XRD	43	46	B-Process
-)	46	47	O
-was	48	51	O
-performed	52	61	O
-on	62	64	O
-a	65	66	O
-PANalytical	67	78	B-Process
-Empyrean	79	87	I-Process
-diffractometer	88	102	I-Process
-.	102	103	O
-
-The	104	107	O
-obtained	108	116	O
-XRD	117	120	B-Material
-patterns	121	129	I-Material
-were	130	134	O
-analysed	135	143	O
-with	144	148	O
-STOE	149	153	B-Process
-Win	154	157	I-Process
-XPOW	158	162	I-Process
-software	163	171	I-Process
-in	172	174	O
-order	175	180	O
-to	181	183	O
-determine	184	193	O
-phase	194	199	B-Task
-purity	200	206	I-Task
-,	206	207	O
-the	208	211	O
-crystal	212	219	B-Task
-structure	220	229	I-Task
-and	230	233	O
-the	234	237	O
-cell	238	242	B-Task
-parameters	243	253	I-Task
-of	254	256	O
-the	257	260	O
-samples	261	268	O
-.	268	269	O
-
-Thermogravimetric	270	287	B-Process
-analysis	288	296	I-Process
-(	297	298	O
-TGA	298	301	B-Process
-)	301	302	O
-was	303	306	O
-performed	307	316	O
-using	317	322	O
-a	323	324	O
-Netzsch	325	332	B-Process
-STA	333	336	I-Process
-449C	337	341	I-Process
-instrument	342	352	I-Process
-equipped	353	361	O
-with	362	366	O
-Proteus	367	374	B-Process
-thermal	375	382	I-Process
-analysis	383	391	I-Process
-software	392	400	I-Process
-.	400	401	O
-
-The	402	405	O
-TGA	406	409	O
-studies	410	417	O
-were	418	422	O
-carried	423	430	O
-out	431	434	O
-under	435	440	O
-reducing	441	449	B-Process
-conditions	450	460	I-Process
-(	461	462	O
-5	462	463	B-Material
-%	463	464	I-Material
-H2/Ar	465	470	I-Material
-)	470	471	O
-from	472	476	O
-room	477	481	O
-temperature	482	493	O
-to	494	496	O
-900	497	500	O
-°	500	501	O
-C	501	502	O
-,	502	503	O
-in	504	506	O
-order	507	512	O
-to	513	515	O
-determine	516	525	O
-the	526	529	O
-weight	530	536	B-Task
-change	537	543	I-Task
-of	544	546	O
-the	547	550	O
-perovskite	551	561	B-Material
-during	562	568	O
-the	569	572	O
-reduction	573	582	O
-.	582	583	O
-
-The	584	587	O
-microstructure	588	602	O
-of	603	605	O
-the	606	609	O
-samples	610	617	O
-'	617	618	O
-surface	619	626	O
-was	627	630	O
-analysed	631	639	O
-using	640	645	O
-a	646	647	O
-JEOL	648	652	O
-JSM-6700	653	661	O
-field	662	667	B-Process
-emission	668	676	I-Process
-74	677	679	I-Process
-scanning	680	688	I-Process
-electron	689	697	I-Process
-microscope	698	708	I-Process
-(	709	710	O
-FEG	710	713	B-Process
--	713	714	I-Process
-SEM	714	717	I-Process
-)	717	718	O
-.	718	719	O
-
-The	720	723	O
-total	724	729	B-Task
-conductivity	730	742	I-Task
-of	743	745	O
-the	746	749	O
-samples	750	757	O
-was	758	761	O
-measured	762	770	O
-using	771	776	O
-a	777	778	O
-conventional	779	791	O
-four	792	796	B-Process
--	796	797	I-Process
-terminal	797	805	I-Process
-method	806	812	I-Process
-.	812	813	O
-
-Bar	814	817	O
-samples	818	825	O
-were	826	830	O
-prepared	831	839	O
-by	840	842	O
-calcination	843	854	B-Task
-at	855	857	O
-1300	858	862	O
-°	862	863	O
-C	863	864	O
-for	865	868	O
-1h	869	871	O
-.	871	872	O
-
-Gold	873	877	B-Material
-wire	878	882	I-Material
-contacts	883	891	I-Material
-were	892	896	O
-attached	897	905	O
-to	906	908	O
-the	909	912	O
-bars	913	917	O
-,	917	918	O
-which	919	924	O
-then	925	929	O
-were	930	934	O
-cured	935	940	O
-at	941	943	O
-850	944	947	O
-°	947	948	O
-C	948	949	O
-for	950	953	O
-1h	954	956	O
-.	956	957	O
-
-The	958	961	O
-conductivity	962	974	B-Task
-of	975	977	O
-the	978	981	O
-samples	982	989	O
-was	990	993	O
-measured	994	1002	O
-under	1003	1008	O
-a	1009	1010	O
-redox	1011	1016	B-Task
-cycle	1017	1022	I-Task
-at	1023	1025	O
-900	1026	1029	O
-°	1029	1030	O
-C	1030	1031	O
-.	1031	1032	O
-
-Low	1033	1036	B-Process
-oxygen	1037	1043	I-Process
-partial	1044	1051	I-Process
-pressure	1052	1060	I-Process
-was	1061	1064	O
-achieved	1065	1073	O
-by	1074	1076	O
-using	1077	1082	O
-a	1083	1084	O
-continuous	1085	1095	O
-flow	1096	1100	B-Process
-of	1101	1103	O
-5	1104	1105	O
-%	1105	1106	O
-H2/Ar	1107	1112	B-Material
-.	1112	1113	O
+Room	0,4	O	O
+temperature	5,16	O	O
+powder	17,23	O	B-Process
+X	24,25	O	I-Process
+-	25,26	O	I-Process
+ray	26,29	O	I-Process
+diffraction	30,41	O	I-Process
+(	42,43	O	O
+XRD	43,46	O	B-Process
+)	46,47	O	O
+was	48,51	O	O
+performed	52,61	O	O
+on	62,64	O	O
+a	65,66	O	O
+PANalytical	67,78	O	B-Process
+Empyrean	79,87	O	I-Process
+diffractometer	88,102	O	I-Process
+.	102,103	O	O
+
+The	104,107	O	O
+obtained	108,116	O	O
+XRD	117,120	O	B-Material
+patterns	121,129	O	I-Material
+were	130,134	O	O
+analysed	135,143	O	O
+with	144,148	O	O
+STOE	149,153	O	B-Process
+Win	154,157	O	I-Process
+XPOW	158,162	O	I-Process
+software	163,171	O	I-Process
+in	172,174	O	O
+order	175,180	O	O
+to	181,183	O	O
+determine	184,193	O	O
+phase	194,199	O	B-Task
+purity	200,206	O	I-Task
+,	206,207	O	O
+the	208,211	O	O
+crystal	212,219	O	B-Task
+structure	220,229	O	I-Task
+and	230,233	O	O
+the	234,237	O	O
+cell	238,242	O	B-Task
+parameters	243,253	O	I-Task
+of	254,256	O	O
+the	257,260	O	O
+samples	261,268	O	O
+.	268,269	O	O
+
+Thermogravimetric	270,287	O	B-Process
+analysis	288,296	O	I-Process
+(	297,298	O	O
+TGA	298,301	O	B-Process
+)	301,302	O	O
+was	303,306	O	O
+performed	307,316	O	O
+using	317,322	O	O
+a	323,324	O	O
+Netzsch	325,332	O	B-Process
+STA	333,336	O	I-Process
+449C	337,341	O	I-Process
+instrument	342,352	O	I-Process
+equipped	353,361	O	O
+with	362,366	O	O
+Proteus	367,374	O	B-Process
+thermal	375,382	O	I-Process
+analysis	383,391	O	I-Process
+software	392,400	O	I-Process
+.	400,401	O	O
+
+The	402,405	O	O
+TGA	406,409	O	O
+studies	410,417	O	O
+were	418,422	O	O
+carried	423,430	O	O
+out	431,434	O	O
+under	435,440	O	O
+reducing	441,449	O	B-Process
+conditions	450,460	O	I-Process
+(	461,462	O	O
+5	462,463	O	B-Material
+%	463,464	O	I-Material
+H2/Ar	465,470	O	I-Material
+)	470,471	O	O
+from	472,476	O	O
+room	477,481	O	O
+temperature	482,493	O	O
+to	494,496	O	O
+900	497,500	O	O
+°	500,501	O	O
+C	501,502	O	O
+,	502,503	O	O
+in	504,506	O	O
+order	507,512	O	O
+to	513,515	O	O
+determine	516,525	O	O
+the	526,529	O	O
+weight	530,536	O	B-Task
+change	537,543	O	I-Task
+of	544,546	O	O
+the	547,550	O	O
+perovskite	551,561	O	B-Material
+during	562,568	O	O
+the	569,572	O	O
+reduction	573,582	O	O
+.	582,583	O	O
+
+The	584,587	O	O
+microstructure	588,602	O	O
+of	603,605	O	O
+the	606,609	O	O
+samples	610,617	O	O
+'	617,618	O	O
+surface	619,626	O	O
+was	627,630	O	O
+analysed	631,639	O	O
+using	640,645	O	O
+a	646,647	O	O
+JEOL	648,652	O	O
+JSM-6700	653,661	O	O
+field	662,667	O	B-Process
+emission	668,676	O	I-Process
+74	677,679	O	I-Process
+scanning	680,688	O	I-Process
+electron	689,697	O	I-Process
+microscope	698,708	O	I-Process
+(	709,710	O	O
+FEG	710,713	O	B-Process
+-	713,714	O	I-Process
+SEM	714,717	O	I-Process
+)	717,718	O	O
+.	718,719	O	O
+
+The	720,723	O	O
+total	724,729	O	B-Task
+conductivity	730,742	O	I-Task
+of	743,745	O	O
+the	746,749	O	O
+samples	750,757	O	O
+was	758,761	O	O
+measured	762,770	O	O
+using	771,776	O	O
+a	777,778	O	O
+conventional	779,791	O	O
+four	792,796	O	B-Process
+-	796,797	O	I-Process
+terminal	797,805	O	I-Process
+method	806,812	O	I-Process
+.	812,813	O	O
+
+Bar	814,817	O	O
+samples	818,825	O	O
+were	826,830	O	O
+prepared	831,839	O	O
+by	840,842	O	O
+calcination	843,854	O	B-Task
+at	855,857	O	O
+1300	858,862	O	O
+°	862,863	O	O
+C	863,864	O	O
+for	865,868	O	O
+1h	869,871	O	O
+.	871,872	O	O
+
+Gold	873,877	O	B-Material
+wire	878,882	O	I-Material
+contacts	883,891	O	I-Material
+were	892,896	O	O
+attached	897,905	O	O
+to	906,908	O	O
+the	909,912	O	O
+bars	913,917	O	O
+,	917,918	O	O
+which	919,924	O	O
+then	925,929	O	O
+were	930,934	O	O
+cured	935,940	O	O
+at	941,943	O	O
+850	944,947	O	O
+°	947,948	O	O
+C	948,949	O	O
+for	950,953	O	O
+1h	954,956	O	O
+.	956,957	O	O
+
+The	958,961	O	O
+conductivity	962,974	O	B-Task
+of	975,977	O	O
+the	978,981	O	O
+samples	982,989	O	O
+was	990,993	O	O
+measured	994,1002	O	O
+under	1003,1008	O	O
+a	1009,1010	O	O
+redox	1011,1016	O	B-Task
+cycle	1017,1022	O	I-Task
+at	1023,1025	O	O
+900	1026,1029	O	O
+°	1029,1030	O	O
+C	1030,1031	O	O
+.	1031,1032	O	O
+
+Low	1033,1036	O	B-Process
+oxygen	1037,1043	O	I-Process
+partial	1044,1051	O	I-Process
+pressure	1052,1060	O	I-Process
+was	1061,1064	O	O
+achieved	1065,1073	O	O
+by	1074,1076	O	O
+using	1077,1082	O	O
+a	1083,1084	O	O
+continuous	1085,1095	O	O
+flow	1096,1100	O	B-Process
+of	1101,1103	O	O
+5	1104,1105	O	O
+%	1105,1106	O	O
+H2/Ar	1107,1112	O	B-Material
+.	1112,1113	O	O
 
 
 -DOCSTART- (S0167931711005120)
 
-A	0	1	B-Task
-nanocomposite	2	15	I-Task
-system	16	22	I-Task
-consisting	23	33	O
-of	34	36	O
-a	37	38	B-Material
-semiconducting	39	53	I-Material
-matrix	54	60	I-Material
-and	61	64	I-Material
-embedded	65	73	I-Material
-ferromagnetic	74	87	I-Material
-nanostructures	88	102	I-Material
-has	103	106	O
-been	107	111	O
-fabricated	112	122	O
-.	122	123	O
-
-The	124	127	B-Task
-ferromagnetic	128	141	I-Task
-characteristics	142	157	I-Task
-as	158	160	O
-coercivity	161	171	B-Task
-,	171	172	I-Task
-remanence	173	182	I-Task
-and	183	186	I-Task
-magnetic	187	195	I-Task
-anisotropy	196	206	I-Task
-of	207	209	I-Task
-the	210	213	I-Task
-nanocomposite	214	227	I-Task
-can	228	231	O
-be	232	234	O
-adjusted	235	243	O
-by	244	246	O
-the	247	250	B-Material
-electrochemical	251	266	I-Material
-parameters	267	277	I-Material
-.	277	278	O
-
-Furthermore	279	290	O
-the	291	294	O
-spatial	295	302	O
-distribution	303	315	B-Process
-of	316	318	O
-the	319	322	O
-metal	323	328	O
-structures	329	339	O
-within	340	346	O
-the	347	350	O
-pores	351	356	O
-can	357	360	O
-be	361	363	O
-varied	364	370	O
-which	371	376	O
-means	377	382	O
-that	383	387	O
-the	388	391	O
-magnetic	392	400	O
-interactions	401	413	O
-between	414	421	O
-the	422	425	O
-particles	426	435	O
-can	436	439	O
-be	440	442	O
-influenced	443	453	O
-.	453	454	O
-
-In	455	457	O
-the	458	461	O
-case	462	466	O
-of	467	469	O
-densely	470	477	B-Task
-packed	478	484	I-Task
-particles	485	494	I-Task
-within	495	501	O
-the	502	505	O
-pores	506	511	O
-dipolar	512	519	O
-coupling	520	528	O
-between	529	536	O
-them	537	541	O
-occurs	542	548	O
-and	549	552	O
-results	553	560	O
-in	561	563	O
-quasi	564	569	O
-magnetic	570	578	O
-chains	579	585	O
-which	586	591	O
-offer	592	597	O
-a	598	599	B-Material
-much	600	604	I-Material
-larger	605	611	I-Material
-magnetic	612	620	I-Material
-anisotropy	621	631	I-Material
-than	632	636	O
-non	637	640	B-Material
--	640	641	I-Material
-interacting	641	652	I-Material
-particles	653	662	I-Material
-.	662	663	O
-
-By	664	666	O
-modifying	667	676	B-Process
-the	677	680	I-Process
-current	681	688	I-Process
-density	689	696	I-Process
-small	697	702	B-Material
-Ni	703	705	I-Material
--	705	706	I-Material
-particles	706	715	I-Material
-(	716	717	I-Material
-3–6	717	720	I-Material
-nm	720	722	I-Material
-)	722	723	I-Material
-can	724	727	O
-be	728	730	O
-deposited	731	740	O
-.	740	741	O
-
-If	742	744	O
-the	745	748	O
-packing	749	756	O
-density	757	764	O
-of	765	767	O
-these	768	773	B-Material
-particles	774	783	I-Material
-is	784	786	O
-sufficiently	787	799	O
-close	800	805	O
-,	805	806	O
-Ni	807	809	B-Material
--	809	810	I-Material
-tubes	810	815	I-Material
-of	816	818	O
-a	819	820	O
-few	821	824	O
-nanometer	825	834	O
-in	835	837	O
-thickness	838	847	O
-are	848	851	O
-covering	852	860	O
-the	861	864	O
-pore	865	869	O
-walls	870	875	O
-.	875	876	O
-
-The	877	880	B-Task
-presented	881	890	I-Task
-nanocomposite	891	904	I-Task
-is	905	907	O
-an	908	910	O
-interesting	911	922	O
-system	923	929	O
-for	930	933	O
-magnetic	934	942	O
-applications	943	955	O
-as	956	958	O
-magnetic	959	967	O
-sensor	968	974	O
-technology	975	985	O
-.	985	986	O
-
-Silicon	987	994	B-Material
-as	995	997	O
-substrate	998	1007	O
-renders	1008	1015	O
-this	1016	1020	O
-composite	1021	1030	O
-a	1031	1032	B-Task
-good	1033	1037	I-Task
-candidate	1038	1047	I-Task
-for	1048	1051	I-Task
-the	1052	1055	I-Task
-integration	1056	1067	I-Task
-in	1068	1070	O
-existing	1071	1079	O
-process	1080	1087	O
-technology	1088	1098	O
-.	1098	1099	O
+A	0,1	O	B-Task
+nanocomposite	2,15	O	I-Task
+system	16,22	O	I-Task
+consisting	23,33	O	O
+of	34,36	O	O
+a	37,38	O	B-Material
+semiconducting	39,53	O	I-Material
+matrix	54,60	O	I-Material
+and	61,64	O	I-Material
+embedded	65,73	O	I-Material
+ferromagnetic	74,87	O	I-Material
+nanostructures	88,102	O	I-Material
+has	103,106	O	O
+been	107,111	O	O
+fabricated	112,122	O	O
+.	122,123	O	O
+
+The	124,127	O	B-Task
+ferromagnetic	128,141	O	I-Task
+characteristics	142,157	O	I-Task
+as	158,160	O	O
+coercivity	161,171	O	B-Task
+,	171,172	O	I-Task
+remanence	173,182	O	I-Task
+and	183,186	O	I-Task
+magnetic	187,195	O	I-Task
+anisotropy	196,206	O	I-Task
+of	207,209	O	I-Task
+the	210,213	O	I-Task
+nanocomposite	214,227	O	I-Task
+can	228,231	O	O
+be	232,234	O	O
+adjusted	235,243	O	O
+by	244,246	O	O
+the	247,250	O	B-Material
+electrochemical	251,266	O	I-Material
+parameters	267,277	O	I-Material
+.	277,278	O	O
+
+Furthermore	279,290	O	O
+the	291,294	O	O
+spatial	295,302	O	O
+distribution	303,315	O	B-Process
+of	316,318	O	O
+the	319,322	O	O
+metal	323,328	O	O
+structures	329,339	O	O
+within	340,346	O	O
+the	347,350	O	O
+pores	351,356	O	O
+can	357,360	O	O
+be	361,363	O	O
+varied	364,370	O	O
+which	371,376	O	O
+means	377,382	O	O
+that	383,387	O	O
+the	388,391	O	O
+magnetic	392,400	O	O
+interactions	401,413	O	O
+between	414,421	O	O
+the	422,425	O	O
+particles	426,435	O	O
+can	436,439	O	O
+be	440,442	O	O
+influenced	443,453	O	O
+.	453,454	O	O
+
+In	455,457	O	O
+the	458,461	O	O
+case	462,466	O	O
+of	467,469	O	O
+densely	470,477	O	B-Task
+packed	478,484	O	I-Task
+particles	485,494	O	I-Task
+within	495,501	O	O
+the	502,505	O	O
+pores	506,511	O	O
+dipolar	512,519	O	O
+coupling	520,528	O	O
+between	529,536	O	O
+them	537,541	O	O
+occurs	542,548	O	O
+and	549,552	O	O
+results	553,560	O	O
+in	561,563	O	O
+quasi	564,569	O	O
+magnetic	570,578	O	O
+chains	579,585	O	O
+which	586,591	O	O
+offer	592,597	O	O
+a	598,599	O	B-Material
+much	600,604	O	I-Material
+larger	605,611	O	I-Material
+magnetic	612,620	O	I-Material
+anisotropy	621,631	O	I-Material
+than	632,636	O	O
+non	637,640	O	B-Material
+-	640,641	O	I-Material
+interacting	641,652	O	I-Material
+particles	653,662	O	I-Material
+.	662,663	O	O
+
+By	664,666	O	O
+modifying	667,676	O	B-Process
+the	677,680	O	I-Process
+current	681,688	O	I-Process
+density	689,696	O	I-Process
+small	697,702	O	B-Material
+Ni	703,705	O	I-Material
+-	705,706	O	I-Material
+particles	706,715	O	I-Material
+(	716,717	O	I-Material
+3–6	717,720	O	I-Material
+nm	720,722	O	I-Material
+)	722,723	O	I-Material
+can	724,727	O	O
+be	728,730	O	O
+deposited	731,740	O	O
+.	740,741	O	O
+
+If	742,744	O	O
+the	745,748	O	O
+packing	749,756	O	O
+density	757,764	O	O
+of	765,767	O	O
+these	768,773	O	B-Material
+particles	774,783	O	I-Material
+is	784,786	O	O
+sufficiently	787,799	O	O
+close	800,805	O	O
+,	805,806	O	O
+Ni	807,809	O	B-Material
+-	809,810	O	I-Material
+tubes	810,815	O	I-Material
+of	816,818	O	O
+a	819,820	O	O
+few	821,824	O	O
+nanometer	825,834	O	O
+in	835,837	O	O
+thickness	838,847	O	O
+are	848,851	O	O
+covering	852,860	O	O
+the	861,864	O	O
+pore	865,869	O	O
+walls	870,875	O	O
+.	875,876	O	O
+
+The	877,880	O	B-Task
+presented	881,890	O	I-Task
+nanocomposite	891,904	O	I-Task
+is	905,907	O	O
+an	908,910	O	O
+interesting	911,922	O	O
+system	923,929	O	O
+for	930,933	O	O
+magnetic	934,942	O	O
+applications	943,955	O	O
+as	956,958	O	O
+magnetic	959,967	O	O
+sensor	968,974	O	O
+technology	975,985	O	O
+.	985,986	O	O
+
+Silicon	987,994	O	B-Material
+as	995,997	O	O
+substrate	998,1007	O	O
+renders	1008,1015	O	O
+this	1016,1020	O	O
+composite	1021,1030	O	O
+a	1031,1032	O	B-Task
+good	1033,1037	O	I-Task
+candidate	1038,1047	O	I-Task
+for	1048,1051	O	I-Task
+the	1052,1055	O	I-Task
+integration	1056,1067	O	I-Task
+in	1068,1070	O	O
+existing	1071,1079	O	O
+process	1080,1087	O	O
+technology	1088,1098	O	O
+.	1098,1099	O	O
 
 
 -DOCSTART- (S0167931712002699)
 
-As	0	2	O
-the	3	6	O
-progression	7	18	O
-towards	19	26	O
-smaller	27	34	B-Task
-lithographic	35	47	I-Task
-nodes	48	53	I-Task
-continues	54	63	O
-it	64	66	O
-has	67	70	O
-become	71	77	O
-necessary	78	87	O
-to	88	90	O
-adopt	91	96	O
-thinner	97	104	B-Material
-resist	105	111	I-Material
-films	112	117	I-Material
-to	118	120	O
-mitigate	121	129	O
-problems	130	138	O
-such	139	143	O
-as	144	146	O
-pattern	147	154	B-Process
-collapse	155	163	I-Process
-.	163	164	O
-
-To	165	167	O
-address	168	175	O
-the	176	179	O
-issue	180	185	O
-of	186	188	O
-reduced	189	196	B-Process
-etch	197	201	I-Process
-resistance	202	212	I-Process
-of	213	215	I-Process
-thin	216	220	I-Process
-photoresist	221	232	I-Process
-films	233	238	I-Process
-the	239	242	O
-semiconductor	243	256	O
-industry	257	265	O
-has	266	269	O
-begun	270	275	O
-to	276	278	O
-develop	279	286	O
-multilayer	287	297	B-Process
-processes	298	307	I-Process
-where	308	313	O
-the	314	317	O
-pattern	318	325	O
-is	326	328	O
-first	329	334	O
-transferred	335	346	O
-into	347	351	O
-an	352	354	O
-intermediate	355	367	B-Material
-organic	368	375	I-Material
-hardmask	376	384	I-Material
-with	385	389	O
-higher	390	396	O
-etch	397	401	O
-selectivity	402	413	O
-before	414	420	O
-final	421	426	O
-silicon	427	434	B-Process
-pattern	435	442	I-Process
-transfer	443	451	I-Process
-[	452	453	O
-25–27	453	458	O
-]	458	459	O
-.	459	460	O
-
-In	461	463	O
-this	464	468	O
-paper	469	474	O
-we	475	477	O
-demonstrate	478	489	O
-how	490	493	O
-the	494	497	O
-introduction	498	510	O
-of	511	513	O
-such	514	518	O
-a	519	520	O
-multilayer	521	531	B-Process
-process	532	539	I-Process
-can	540	543	O
-also	544	548	O
-benefit	549	556	O
-nanosphere	557	567	B-Task
-lithography	568	579	I-Task
-by	580	582	O
-increasing	583	593	O
-achievable	594	604	O
-aspect	605	611	O
-ratios	612	618	O
-of	619	621	O
-silicon	622	629	B-Material
-nanopillars	630	641	I-Material
-without	642	649	O
-the	650	653	O
-need	654	658	O
-for	659	662	O
-complex	663	670	B-Process
-etch	671	675	I-Process
-processes	676	685	I-Process
-requiring	686	695	O
-specialised	696	707	O
-and	708	711	O
-expensive	712	721	O
-equipment	722	731	O
-,	731	732	O
-but	733	736	O
-instead	737	744	O
-needing	745	752	O
-only	753	757	O
-a	758	759	O
-standard	760	768	O
-SF6/C4F8	769	777	O
-inductively	778	789	O
-coupled	790	797	B-Material
-plasma	798	804	I-Material
-(	805	806	O
-ICP	806	809	B-Material
-)	809	810	O
-mixed	811	816	O
-mode	817	821	O
-etch	822	826	O
-process	827	834	O
-at	835	837	O
-room	838	842	O
-temperature	843	854	O
-[	855	856	O
-28	856	858	O
-]	858	859	O
-.	859	860	O
-
-As	861	863	O
-intermediate	864	876	B-Material
-layer	877	882	I-Material
-material	883	891	I-Material
-we	892	894	O
-used	895	899	O
-polyimide	900	909	B-Material
-,	909	910	O
-which	911	916	O
-finds	917	922	O
-widespread	923	933	O
-use	934	937	O
-as	938	940	O
-encapsulation	941	954	B-Material
-material	955	963	I-Material
-for	964	967	O
-IC	968	970	B-Task
-production	971	981	I-Task
-.	981	982	O
-
-It	983	985	O
-is	986	988	O
-readily	989	996	O
-patterned	997	1006	O
-in	1007	1009	O
-oxygen	1010	1016	B-Material
-plasma	1017	1023	I-Material
-and	1024	1027	O
-has	1028	1031	O
-a	1032	1033	O
-lower	1034	1039	O
-etch	1040	1044	O
-rate	1045	1049	O
-than	1050	1054	O
-silicon	1055	1062	B-Material
-in	1063	1065	O
-SF6	1066	1069	B-Material
-gas	1070	1073	I-Material
-.	1073	1074	O
-
-Its	1075	1078	O
-flexibility	1079	1090	O
-can	1091	1094	O
-also	1095	1099	O
-be	1100	1102	O
-used	1103	1107	O
-for	1108	1111	O
-the	1112	1115	O
-fabrication	1116	1127	B-Task
-of	1128	1130	I-Task
-soft	1131	1135	I-Task
-polymer	1136	1143	I-Task
-pillars	1144	1151	I-Task
-by	1152	1154	O
-the	1155	1158	O
-same	1159	1163	O
-process	1164	1171	O
-as	1172	1174	O
-we	1175	1177	O
-will	1178	1182	O
-show	1183	1187	O
-.	1187	1188	O
-
-The	1189	1192	O
-multilayer	1193	1203	B-Process
-process	1204	1211	I-Process
-slightly	1212	1220	O
-increases	1221	1230	O
-the	1231	1234	O
-complexity	1235	1245	O
-of	1246	1248	O
-sample	1249	1255	B-Process
-preparation	1256	1267	I-Process
-but	1268	1271	O
-allows	1272	1278	O
-basic	1279	1284	O
-ICP	1285	1288	B-Process
-etching	1289	1296	I-Process
-to	1297	1299	O
-achieve	1300	1307	O
-high	1308	1312	O
-aspect	1313	1319	O
-ratio	1320	1325	O
-structures	1326	1336	O
-at	1337	1339	O
-smaller	1340	1347	O
-feature	1348	1355	O
-sizes	1356	1361	O
-that	1362	1366	O
-previously	1367	1377	O
-reported	1378	1386	O
-without	1387	1394	O
-the	1395	1398	O
-need	1399	1403	O
-for	1404	1407	O
-complex	1408	1415	O
-etching	1416	1423	B-Material
-equipment	1424	1433	I-Material
-.	1433	1434	O
+As	0,2	O	O
+the	3,6	O	O
+progression	7,18	O	O
+towards	19,26	O	O
+smaller	27,34	O	B-Task
+lithographic	35,47	O	I-Task
+nodes	48,53	O	I-Task
+continues	54,63	O	O
+it	64,66	O	O
+has	67,70	O	O
+become	71,77	O	O
+necessary	78,87	O	O
+to	88,90	O	O
+adopt	91,96	O	O
+thinner	97,104	O	B-Material
+resist	105,111	O	I-Material
+films	112,117	O	I-Material
+to	118,120	O	O
+mitigate	121,129	O	O
+problems	130,138	O	O
+such	139,143	O	O
+as	144,146	O	O
+pattern	147,154	O	B-Process
+collapse	155,163	O	I-Process
+.	163,164	O	O
+
+To	165,167	O	O
+address	168,175	O	O
+the	176,179	O	O
+issue	180,185	O	O
+of	186,188	O	O
+reduced	189,196	O	B-Process
+etch	197,201	O	I-Process
+resistance	202,212	O	I-Process
+of	213,215	O	I-Process
+thin	216,220	O	I-Process
+photoresist	221,232	O	I-Process
+films	233,238	O	I-Process
+the	239,242	O	O
+semiconductor	243,256	O	O
+industry	257,265	O	O
+has	266,269	O	O
+begun	270,275	O	O
+to	276,278	O	O
+develop	279,286	O	O
+multilayer	287,297	O	B-Process
+processes	298,307	O	I-Process
+where	308,313	O	O
+the	314,317	O	O
+pattern	318,325	O	O
+is	326,328	O	O
+first	329,334	O	O
+transferred	335,346	O	O
+into	347,351	O	O
+an	352,354	O	O
+intermediate	355,367	O	B-Material
+organic	368,375	O	I-Material
+hardmask	376,384	O	I-Material
+with	385,389	O	O
+higher	390,396	O	O
+etch	397,401	O	O
+selectivity	402,413	O	O
+before	414,420	O	O
+final	421,426	O	O
+silicon	427,434	O	B-Process
+pattern	435,442	O	I-Process
+transfer	443,451	O	I-Process
+[	452,453	O	O
+25–27	453,458	O	O
+]	458,459	O	O
+.	459,460	O	O
+
+In	461,463	O	O
+this	464,468	O	O
+paper	469,474	O	O
+we	475,477	O	O
+demonstrate	478,489	O	O
+how	490,493	O	O
+the	494,497	O	O
+introduction	498,510	O	O
+of	511,513	O	O
+such	514,518	O	O
+a	519,520	O	O
+multilayer	521,531	O	B-Process
+process	532,539	O	I-Process
+can	540,543	O	O
+also	544,548	O	O
+benefit	549,556	O	O
+nanosphere	557,567	O	B-Task
+lithography	568,579	O	I-Task
+by	580,582	O	O
+increasing	583,593	O	O
+achievable	594,604	O	O
+aspect	605,611	O	O
+ratios	612,618	O	O
+of	619,621	O	O
+silicon	622,629	O	B-Material
+nanopillars	630,641	O	I-Material
+without	642,649	O	O
+the	650,653	O	O
+need	654,658	O	O
+for	659,662	O	O
+complex	663,670	O	B-Process
+etch	671,675	O	I-Process
+processes	676,685	O	I-Process
+requiring	686,695	O	O
+specialised	696,707	O	O
+and	708,711	O	O
+expensive	712,721	O	O
+equipment	722,731	O	O
+,	731,732	O	O
+but	733,736	O	O
+instead	737,744	O	O
+needing	745,752	O	O
+only	753,757	O	O
+a	758,759	O	O
+standard	760,768	O	O
+SF6/C4F8	769,777	O	O
+inductively	778,789	O	O
+coupled	790,797	O	B-Material
+plasma	798,804	O	I-Material
+(	805,806	O	O
+ICP	806,809	O	B-Material
+)	809,810	O	O
+mixed	811,816	O	O
+mode	817,821	O	O
+etch	822,826	O	O
+process	827,834	O	O
+at	835,837	O	O
+room	838,842	O	O
+temperature	843,854	O	O
+[	855,856	O	O
+28	856,858	O	O
+]	858,859	O	O
+.	859,860	O	O
+
+As	861,863	O	O
+intermediate	864,876	O	B-Material
+layer	877,882	O	I-Material
+material	883,891	O	I-Material
+we	892,894	O	O
+used	895,899	O	O
+polyimide	900,909	O	B-Material
+,	909,910	O	O
+which	911,916	O	O
+finds	917,922	O	O
+widespread	923,933	O	O
+use	934,937	O	O
+as	938,940	O	O
+encapsulation	941,954	O	B-Material
+material	955,963	O	I-Material
+for	964,967	O	O
+IC	968,970	O	B-Task
+production	971,981	O	I-Task
+.	981,982	O	O
+
+It	983,985	O	O
+is	986,988	O	O
+readily	989,996	O	O
+patterned	997,1006	O	O
+in	1007,1009	O	O
+oxygen	1010,1016	O	B-Material
+plasma	1017,1023	O	I-Material
+and	1024,1027	O	O
+has	1028,1031	O	O
+a	1032,1033	O	O
+lower	1034,1039	O	O
+etch	1040,1044	O	O
+rate	1045,1049	O	O
+than	1050,1054	O	O
+silicon	1055,1062	O	B-Material
+in	1063,1065	O	O
+SF6	1066,1069	O	B-Material
+gas	1070,1073	O	I-Material
+.	1073,1074	O	O
+
+Its	1075,1078	O	O
+flexibility	1079,1090	O	O
+can	1091,1094	O	O
+also	1095,1099	O	O
+be	1100,1102	O	O
+used	1103,1107	O	O
+for	1108,1111	O	O
+the	1112,1115	O	O
+fabrication	1116,1127	O	B-Task
+of	1128,1130	O	I-Task
+soft	1131,1135	O	I-Task
+polymer	1136,1143	O	I-Task
+pillars	1144,1151	O	I-Task
+by	1152,1154	O	O
+the	1155,1158	O	O
+same	1159,1163	O	O
+process	1164,1171	O	O
+as	1172,1174	O	O
+we	1175,1177	O	O
+will	1178,1182	O	O
+show	1183,1187	O	O
+.	1187,1188	O	O
+
+The	1189,1192	O	O
+multilayer	1193,1203	O	B-Process
+process	1204,1211	O	I-Process
+slightly	1212,1220	O	O
+increases	1221,1230	O	O
+the	1231,1234	O	O
+complexity	1235,1245	O	O
+of	1246,1248	O	O
+sample	1249,1255	O	B-Process
+preparation	1256,1267	O	I-Process
+but	1268,1271	O	O
+allows	1272,1278	O	O
+basic	1279,1284	O	O
+ICP	1285,1288	O	B-Process
+etching	1289,1296	O	I-Process
+to	1297,1299	O	O
+achieve	1300,1307	O	O
+high	1308,1312	O	O
+aspect	1313,1319	O	O
+ratio	1320,1325	O	O
+structures	1326,1336	O	O
+at	1337,1339	O	O
+smaller	1340,1347	O	O
+feature	1348,1355	O	O
+sizes	1356,1361	O	O
+that	1362,1366	O	O
+previously	1367,1377	O	O
+reported	1378,1386	O	O
+without	1387,1394	O	O
+the	1395,1398	O	O
+need	1399,1403	O	O
+for	1404,1407	O	O
+complex	1408,1415	O	O
+etching	1416,1423	O	B-Material
+equipment	1424,1433	O	I-Material
+.	1433,1434	O	O
 
 
 -DOCSTART- (S0167931712002936)
 
-A	0	1	O
-3D	2	4	O
-finite	5	11	O
-element	12	19	O
-based	20	25	O
-(	26	27	O
-FEM	27	30	O
-)	30	31	O
-
-COMSOL	32	38	O
-capacitance	39	50	O
-analysis	51	59	O
-is	60	62	O
-combined	63	71	O
-with	72	76	O
-Monte	77	82	B-Process
-Carlo	83	88	I-Process
-single	89	95	I-Process
--	95	96	I-Process
-electron	96	104	I-Process
-circuit	105	112	I-Process
-simulations	113	124	I-Process
-to	125	127	O
-model	128	133	B-Task
-device	134	140	I-Task
-operations	141	151	I-Task
-during	152	158	I-Task
-single	159	165	I-Task
-electron	166	174	I-Task
-detection	175	184	I-Task
-.	184	185	O
-
-The	186	189	O
-3D	190	192	B-Material
-structural	193	203	I-Material
-data	204	208	I-Material
-(	209	210	O
-Fig	210	213	O
-.	213	214	O
-
-1b	215	217	O
-)	217	218	O
-of	219	221	O
-the	222	225	O
-nanoscale	226	235	B-Material
-DQD	236	239	I-Material
-pair	240	244	I-Material
-and	245	248	O
-multiple	249	257	B-Material
-gate	258	262	I-Material
-electrodes	263	273	I-Material
-are	274	277	O
-precisely	278	287	O
-input	288	293	O
-into	294	298	O
-COMSOL	299	305	B-Material
-’s	305	307	I-Material
-FEM	308	311	I-Material
--	311	312	I-Material
-based	312	317	I-Material
-electrostatics	318	332	I-Material
-simulator	333	342	I-Material
-.	342	343	O
-
-Capacitances	344	356	O
-between	357	364	O
-different	365	374	O
-device	375	381	B-Material
-components	382	392	I-Material
-are	393	396	O
-then	397	401	O
-extracted	402	411	O
-and	412	415	O
-fed	416	419	O
-into	420	424	O
-the	425	428	O
-well	429	433	B-Material
--	433	434	I-Material
-tested	434	440	I-Material
-single	441	447	I-Material
-electron	448	456	I-Material
-circuit	457	464	I-Material
-simulator	465	474	I-Material
-SETSPICE	475	483	B-Material
-[	484	485	O
-11	485	487	O
-]	487	488	O
-,	488	489	O
-based	490	495	O
-on	496	498	O
-the	499	502	O
-orthodox	503	511	B-Task
-theory	512	518	I-Task
-of	519	521	O
-single	522	528	B-Process
-electron	529	537	I-Process
-tunnelling	538	548	I-Process
-[	549	550	O
-12	550	552	O
-]	552	553	O
-.	553	554	O
-
-For	555	558	O
-our	559	562	O
-target	563	569	B-Material
-d1	570	572	I-Material
-of	573	575	O
-60	576	578	O
-nm	578	580	O
-,	580	581	O
-simulation	582	592	B-Process
-results	593	600	O
-(	601	602	O
-Fig	602	605	O
-.	605	606	O
-
-1c	607	609	O
-)	609	610	O
-showed	611	617	O
-that	618	622	O
-as	623	625	O
-we	626	628	O
-sweep	629	634	O
-the	635	638	O
-voltage	639	646	O
-applied	647	654	O
-on	655	657	O
-gate	658	662	B-Material
-G1	663	665	I-Material
-,	665	666	O
-VG1	667	670	B-Material
-,	670	671	O
-single	672	678	B-Process
-electron	679	687	I-Process
-tunnelling	688	698	I-Process
-into	699	703	O
-the	704	707	O
-turnstile	708	717	B-Material
-’s	717	719	I-Material
-two	720	723	I-Material
-QDs	724	727	I-Material
-should	728	734	O
-generate	735	743	O
-shifts	744	750	B-Process
-in	751	753	I-Process
-the	754	757	I-Process
-electrometer	758	770	I-Process
-current	771	778	I-Process
-,	778	779	O
-IDS	780	783	B-Material
-,	783	784	O
-of	785	787	O
-tens	788	792	O
-of	793	795	O
-pA.	796	799	O
-
-This	800	804	O
-is	805	807	O
-well	808	812	O
-within	813	819	O
-the	820	823	O
-charge	824	830	O
-sensitivity	831	842	O
-of	843	845	O
-DQD	846	849	B-Material
-electrometer	850	862	I-Material
-[	863	864	O
-6	864	865	O
-]	865	866	O
-and	867	870	O
-consistent	871	881	O
-to	882	884	O
-the	885	888	O
-same	889	893	O
-order	894	899	O
-of	900	902	O
-magnitude	903	912	O
-with	913	917	O
-previous	918	926	O
-work	927	931	O
-in	932	934	O
-single	935	941	B-Task
-electron	942	950	I-Task
-detection	951	960	I-Task
-[	961	962	O
-13	962	964	O
-]	964	965	O
-.	965	966	O
-
-In	967	969	O
-addition	970	978	O
-,	978	979	O
-the	980	983	O
-gate	984	988	B-Material
-to	989	991	O
-QD	992	994	B-Process
-capacitive	995	1005	I-Process
-coupling	1006	1014	I-Process
-appear	1015	1021	O
-to	1022	1024	O
-be	1025	1027	O
-sufficient	1028	1038	O
-for	1039	1042	O
-the	1043	1046	O
-control	1047	1054	B-Process
-of	1055	1057	I-Process
-QD	1058	1060	I-Process
-occupations	1061	1072	I-Process
-down	1073	1077	O
-to	1078	1080	O
-the	1081	1084	O
-single	1085	1091	O
-electron	1092	1100	O
-limit	1101	1106	O
-,	1106	1107	O
-allowing	1108	1116	O
-for	1117	1120	O
-future	1121	1127	O
-manipulation	1128	1140	B-Task
-of	1141	1143	I-Task
-single	1144	1150	I-Task
-electron	1151	1159	I-Task
-spins	1160	1165	I-Task
-in	1166	1168	O
-qubit	1169	1174	B-Task
-research	1175	1183	I-Task
-.	1183	1184	O
+A	0,1	O	O
+3D	2,4	O	O
+finite	5,11	O	O
+element	12,19	O	O
+based	20,25	O	O
+(	26,27	O	O
+FEM	27,30	O	O
+)	30,31	O	O
+
+COMSOL	32,38	O	O
+capacitance	39,50	O	O
+analysis	51,59	O	O
+is	60,62	O	O
+combined	63,71	O	O
+with	72,76	O	O
+Monte	77,82	O	B-Process
+Carlo	83,88	O	I-Process
+single	89,95	O	I-Process
+-	95,96	O	I-Process
+electron	96,104	O	I-Process
+circuit	105,112	O	I-Process
+simulations	113,124	O	I-Process
+to	125,127	O	O
+model	128,133	O	B-Task
+device	134,140	O	I-Task
+operations	141,151	O	I-Task
+during	152,158	O	I-Task
+single	159,165	O	I-Task
+electron	166,174	O	I-Task
+detection	175,184	O	I-Task
+.	184,185	O	O
+
+The	186,189	O	O
+3D	190,192	O	B-Material
+structural	193,203	O	I-Material
+data	204,208	O	I-Material
+(	209,210	O	O
+Fig	210,213	O	O
+.	213,214	O	O
+
+1b	215,217	O	O
+)	217,218	O	O
+of	219,221	O	O
+the	222,225	O	O
+nanoscale	226,235	O	B-Material
+DQD	236,239	O	I-Material
+pair	240,244	O	I-Material
+and	245,248	O	O
+multiple	249,257	O	B-Material
+gate	258,262	O	I-Material
+electrodes	263,273	O	I-Material
+are	274,277	O	O
+precisely	278,287	O	O
+input	288,293	O	O
+into	294,298	O	O
+COMSOL	299,305	O	B-Material
+’s	305,307	O	I-Material
+FEM	308,311	O	I-Material
+-	311,312	O	I-Material
+based	312,317	O	I-Material
+electrostatics	318,332	O	I-Material
+simulator	333,342	O	I-Material
+.	342,343	O	O
+
+Capacitances	344,356	O	O
+between	357,364	O	O
+different	365,374	O	O
+device	375,381	O	B-Material
+components	382,392	O	I-Material
+are	393,396	O	O
+then	397,401	O	O
+extracted	402,411	O	O
+and	412,415	O	O
+fed	416,419	O	O
+into	420,424	O	O
+the	425,428	O	O
+well	429,433	O	B-Material
+-	433,434	O	I-Material
+tested	434,440	O	I-Material
+single	441,447	O	I-Material
+electron	448,456	O	I-Material
+circuit	457,464	O	I-Material
+simulator	465,474	O	I-Material
+SETSPICE	475,483	O	B-Material
+[	484,485	O	O
+11	485,487	O	O
+]	487,488	O	O
+,	488,489	O	O
+based	490,495	O	O
+on	496,498	O	O
+the	499,502	O	O
+orthodox	503,511	O	B-Task
+theory	512,518	O	I-Task
+of	519,521	O	O
+single	522,528	O	B-Process
+electron	529,537	O	I-Process
+tunnelling	538,548	O	I-Process
+[	549,550	O	O
+12	550,552	O	O
+]	552,553	O	O
+.	553,554	O	O
+
+For	555,558	O	O
+our	559,562	O	O
+target	563,569	O	B-Material
+d1	570,572	O	I-Material
+of	573,575	O	O
+60	576,578	O	O
+nm	578,580	O	O
+,	580,581	O	O
+simulation	582,592	O	B-Process
+results	593,600	O	O
+(	601,602	O	O
+Fig	602,605	O	O
+.	605,606	O	O
+
+1c	607,609	O	O
+)	609,610	O	O
+showed	611,617	O	O
+that	618,622	O	O
+as	623,625	O	O
+we	626,628	O	O
+sweep	629,634	O	O
+the	635,638	O	O
+voltage	639,646	O	O
+applied	647,654	O	O
+on	655,657	O	O
+gate	658,662	O	B-Material
+G1	663,665	O	I-Material
+,	665,666	O	O
+VG1	667,670	O	B-Material
+,	670,671	O	O
+single	672,678	O	B-Process
+electron	679,687	O	I-Process
+tunnelling	688,698	O	I-Process
+into	699,703	O	O
+the	704,707	O	O
+turnstile	708,717	O	B-Material
+’s	717,719	O	I-Material
+two	720,723	O	I-Material
+QDs	724,727	O	I-Material
+should	728,734	O	O
+generate	735,743	O	O
+shifts	744,750	O	B-Process
+in	751,753	O	I-Process
+the	754,757	O	I-Process
+electrometer	758,770	O	I-Process
+current	771,778	O	I-Process
+,	778,779	O	O
+IDS	780,783	O	B-Material
+,	783,784	O	O
+of	785,787	O	O
+tens	788,792	O	O
+of	793,795	O	O
+pA.	796,799	O	O
+
+This	800,804	O	O
+is	805,807	O	O
+well	808,812	O	O
+within	813,819	O	O
+the	820,823	O	O
+charge	824,830	O	O
+sensitivity	831,842	O	O
+of	843,845	O	O
+DQD	846,849	O	B-Material
+electrometer	850,862	O	I-Material
+[	863,864	O	O
+6	864,865	O	O
+]	865,866	O	O
+and	867,870	O	O
+consistent	871,881	O	O
+to	882,884	O	O
+the	885,888	O	O
+same	889,893	O	O
+order	894,899	O	O
+of	900,902	O	O
+magnitude	903,912	O	O
+with	913,917	O	O
+previous	918,926	O	O
+work	927,931	O	O
+in	932,934	O	O
+single	935,941	O	B-Task
+electron	942,950	O	I-Task
+detection	951,960	O	I-Task
+[	961,962	O	O
+13	962,964	O	O
+]	964,965	O	O
+.	965,966	O	O
+
+In	967,969	O	O
+addition	970,978	O	O
+,	978,979	O	O
+the	980,983	O	O
+gate	984,988	O	B-Material
+to	989,991	O	O
+QD	992,994	O	B-Process
+capacitive	995,1005	O	I-Process
+coupling	1006,1014	O	I-Process
+appear	1015,1021	O	O
+to	1022,1024	O	O
+be	1025,1027	O	O
+sufficient	1028,1038	O	O
+for	1039,1042	O	O
+the	1043,1046	O	O
+control	1047,1054	O	B-Process
+of	1055,1057	O	I-Process
+QD	1058,1060	O	I-Process
+occupations	1061,1072	O	I-Process
+down	1073,1077	O	O
+to	1078,1080	O	O
+the	1081,1084	O	O
+single	1085,1091	O	O
+electron	1092,1100	O	O
+limit	1101,1106	O	O
+,	1106,1107	O	O
+allowing	1108,1116	O	O
+for	1117,1120	O	O
+future	1121,1127	O	O
+manipulation	1128,1140	O	B-Task
+of	1141,1143	O	I-Task
+single	1144,1150	O	I-Task
+electron	1151,1159	O	I-Task
+spins	1160,1165	O	I-Task
+in	1166,1168	O	O
+qubit	1169,1174	O	B-Task
+research	1175,1183	O	I-Task
+.	1183,1184	O	O
 
 
 -DOCSTART- (S0167931712003012)
 
-We	0	2	O
-evaluated	3	12	B-Task
-three	13	18	I-Task
-spin	19	23	I-Task
--	23	24	I-Task
-on	24	26	I-Task
-carbon	27	33	I-Task
-hardmasks	34	43	I-Task
-from	44	48	I-Task
-Irresistible	49	61	I-Task
-Materials	62	71	I-Task
-[	72	73	O
-12	73	75	O
-]	75	76	O
-.	76	77	O
-
-The	78	81	O
-spin	82	86	B-Material
--	86	87	I-Material
-on	87	89	I-Material
-carbon	90	96	I-Material
-compositions	97	109	I-Material
-were	110	114	O
-dissolved	115	124	O
-in	125	127	O
-a	128	129	O
-suitable	130	138	O
-solvent	139	146	B-Material
-such	147	151	O
-as	152	154	O
-chloroform	155	165	B-Material
-or	166	168	O
-anisole	169	176	B-Material
-with	177	181	O
-a	182	183	O
-concentration	184	197	O
-in	198	200	O
-the	201	204	O
-range	205	210	O
-5–50g	211	216	O
-
-/	216	217	O
-l	217	218	O
-.	218	219	O
-
-In	220	222	O
-this	223	227	O
-report	228	234	O
-,	234	235	O
-film	236	240	B-Process
-thickness	241	250	I-Process
-measurements	251	263	I-Process
-were	264	268	O
-made	269	273	O
-for	274	277	O
-IM	278	280	B-Material
--	280	281	I-Material
-HM11	281	285	I-Material
--	285	286	I-Material
-01	286	288	I-Material
-and	289	292	O
-IM	293	295	B-Material
--	295	296	I-Material
-HM11	296	300	I-Material
--	300	301	I-Material
-02	301	303	I-Material
-films	304	309	I-Material
-,	309	310	O
-whilst	311	317	O
-IM	318	320	B-Material
--	320	321	I-Material
-HM11	321	325	I-Material
--	325	326	I-Material
-03	326	328	I-Material
-was	329	332	O
-used	333	337	O
-for	338	341	O
-etching	342	349	B-Process
-;	349	350	O
-further	351	358	O
-investigations	359	373	O
-to	374	376	O
-compare	377	384	B-Task
-the	385	388	I-Task
-performance	389	400	I-Task
-of	401	403	I-Task
-the	404	407	I-Task
-different	408	417	I-Task
-compositions	418	430	I-Task
-across	431	437	I-Task
-tasks	438	443	I-Task
-are	444	447	O
-underway	448	456	O
-.	456	457	O
-
-Films	458	463	B-Material
-of	464	466	I-Material
-the	467	470	I-Material
-SoC	471	474	I-Material
-were	475	479	O
-prepared	480	488	O
-by	489	491	O
-spin	492	496	B-Process
-coating	497	504	I-Process
-on	505	507	O
-hydrogen	508	516	B-Material
--	516	517	I-Material
-terminated	517	527	I-Material
-silicon	528	535	I-Material
-substrates	536	546	I-Material
-with	547	551	O
-a	552	553	O
-speed	554	559	O
-varying	560	567	O
-between	568	575	O
-800	576	579	O
-and	580	583	O
-2000	584	588	O
-RPM	589	592	O
-for	593	596	O
-60s	597	600	O
-.	600	601	O
-
-After	602	607	O
-spin	608	612	O
-coating	613	620	O
-the	621	624	O
-film	625	629	B-Material
-was	630	633	O
-baked	634	639	B-Process
-for	640	643	I-Process
-2min	644	648	I-Process
-at	649	651	I-Process
-temperatures	652	664	I-Process
-of	665	667	I-Process
-up	668	670	I-Process
-to	671	673	I-Process
-330	674	677	I-Process
-°	677	678	I-Process
-C	678	679	I-Process
-.	679	680	O
-
-In	681	683	O
-order	684	689	O
-to	690	692	O
-enable	693	699	O
-further	700	707	O
-processing	708	718	O
-,	718	719	O
-the	720	723	O
-SoC	724	727	B-Material
-should	728	734	O
-be	735	737	O
-rendered	738	746	O
-insoluble	747	756	O
-in	757	759	O
-typical	760	767	O
-solvents	768	776	O
-for	777	780	O
-resist	781	787	O
-and	788	791	O
-spin	792	796	B-Material
--	796	797	I-Material
-on	797	799	I-Material
--	799	800	I-Material
-hardmask	800	808	I-Material
-to	809	811	O
-enable	812	818	O
-further	819	826	O
-processing	827	837	O
-.	837	838	O
-
-The	839	842	O
-elution	843	850	B-Task
-behavior	851	859	I-Task
-of	860	862	O
-films	863	868	O
-of	869	871	O
-IM	872	874	B-Material
--	874	875	I-Material
-HM11	875	879	I-Material
--	879	880	I-Material
-01	880	882	I-Material
-and	883	886	I-Material
-IM	887	889	I-Material
--	889	890	I-Material
-HM11	890	894	I-Material
--	894	895	I-Material
-02	895	897	I-Material
-for	898	901	O
-thicknesses	902	913	O
-between	914	921	O
-30	922	924	O
-and	925	928	O
-325	929	932	O
-nm	932	934	O
-was	935	938	O
-tested	939	945	O
-as	946	948	O
-a	949	950	O
-function	951	959	O
-of	960	962	O
-the	963	966	O
-baking	967	973	O
-temperature	974	985	O
-.	985	986	O
-
-Fig	987	990	O
-.	990	991	O
-
-1	992	993	O
-shows	994	999	O
-the	1000	1003	O
-normalized	1004	1014	O
-film	1015	1019	O
-thickness	1020	1029	O
-of	1030	1032	O
-two	1033	1036	O
-formulations	1037	1049	O
-of	1050	1052	O
-the	1053	1056	O
-SoC	1057	1060	B-Material
-(	1061	1062	I-Material
-IM	1062	1064	B-Material
--	1064	1065	I-Material
-HM11	1065	1069	I-Material
--	1069	1070	I-Material
-01	1070	1072	I-Material
-and	1073	1076	I-Material
-IM	1077	1079	I-Material
--	1079	1080	I-Material
-HM11	1080	1084	I-Material
--	1084	1085	I-Material
-02	1085	1087	I-Material
-)	1087	1088	O
-,	1088	1089	O
-before	1090	1096	B-Process
-and	1097	1100	I-Process
-after	1101	1106	I-Process
-dipping	1107	1114	I-Process
-in	1115	1117	O
-monochlorobenzene	1118	1135	B-Material
-(	1136	1137	O
-MCB):IPA	1137	1145	B-Material
-1:1	1146	1149	O
-solution	1150	1158	O
-.	1158	1159	O
-
-Prior	1160	1165	O
-to	1166	1168	O
-baking	1169	1175	B-Process
-the	1176	1179	O
-thickness	1180	1189	O
-of	1190	1192	O
-IM	1193	1195	B-Material
--	1195	1196	I-Material
-HM11	1196	1200	I-Material
--	1200	1201	I-Material
-01	1201	1203	I-Material
-was	1204	1207	O
-∼320	1208	1212	O
-nm	1212	1214	O
-,	1214	1215	O
-and	1216	1219	O
-the	1220	1223	O
-thickness	1224	1233	O
-of	1234	1236	O
-IM	1237	1239	B-Material
--	1239	1240	I-Material
-HM11	1240	1244	I-Material
--	1244	1245	I-Material
-02	1245	1247	I-Material
-was	1248	1251	O
-∼250	1252	1256	O
-nm	1256	1258	O
-.	1258	1259	O
-
-For	1260	1263	O
-temperatures	1264	1276	O
-above	1277	1282	O
-190	1283	1286	O
-°	1286	1287	O
-C	1287	1288	O
-the	1289	1292	O
-IM	1293	1295	B-Material
--	1295	1296	I-Material
-HM11	1296	1300	I-Material
--	1300	1301	I-Material
-02	1301	1303	I-Material
-film	1304	1308	I-Material
-was	1309	1312	O
-rendered	1313	1321	O
-insoluble	1322	1331	O
-,	1331	1332	O
-whilst	1333	1339	O
-a	1340	1341	O
-temperature	1342	1353	O
-of	1354	1356	O
-260	1357	1360	O
-°	1360	1361	O
-C	1361	1362	O
-was	1363	1366	O
-required	1367	1375	O
-to	1376	1378	O
-achieve	1379	1386	O
-the	1387	1390	O
-same	1391	1395	O
-for	1396	1399	O
-IM	1400	1402	B-Material
--	1402	1403	I-Material
-HM11	1403	1407	I-Material
--	1407	1408	I-Material
-01	1408	1410	I-Material
-.	1410	1411	O
-
-Film	1412	1416	B-Material
-thickness	1417	1426	O
-did	1427	1430	O
-not	1431	1434	O
-affect	1435	1441	O
-the	1442	1445	O
-elution	1446	1453	O
-results	1454	1461	O
-.	1461	1462	O
+We	0,2	O	O
+evaluated	3,12	O	B-Task
+three	13,18	O	I-Task
+spin	19,23	O	I-Task
+-	23,24	O	I-Task
+on	24,26	O	I-Task
+carbon	27,33	O	I-Task
+hardmasks	34,43	O	I-Task
+from	44,48	O	I-Task
+Irresistible	49,61	O	I-Task
+Materials	62,71	O	I-Task
+[	72,73	O	O
+12	73,75	O	O
+]	75,76	O	O
+.	76,77	O	O
+
+The	78,81	O	O
+spin	82,86	O	B-Material
+-	86,87	O	I-Material
+on	87,89	O	I-Material
+carbon	90,96	O	I-Material
+compositions	97,109	O	I-Material
+were	110,114	O	O
+dissolved	115,124	O	O
+in	125,127	O	O
+a	128,129	O	O
+suitable	130,138	O	O
+solvent	139,146	O	B-Material
+such	147,151	O	O
+as	152,154	O	O
+chloroform	155,165	O	B-Material
+or	166,168	O	O
+anisole	169,176	O	B-Material
+with	177,181	O	O
+a	182,183	O	O
+concentration	184,197	O	O
+in	198,200	O	O
+the	201,204	O	O
+range	205,210	O	O
+5–50g	211,216	O	O
+
+/	216,217	O	O
+l	217,218	O	O
+.	218,219	O	O
+
+In	220,222	O	O
+this	223,227	O	O
+report	228,234	O	O
+,	234,235	O	O
+film	236,240	O	B-Process
+thickness	241,250	O	I-Process
+measurements	251,263	O	I-Process
+were	264,268	O	O
+made	269,273	O	O
+for	274,277	O	O
+IM	278,280	O	B-Material
+-	280,281	O	I-Material
+HM11	281,285	O	I-Material
+-	285,286	O	I-Material
+01	286,288	O	I-Material
+and	289,292	O	O
+IM	293,295	O	B-Material
+-	295,296	O	I-Material
+HM11	296,300	O	I-Material
+-	300,301	O	I-Material
+02	301,303	O	I-Material
+films	304,309	O	I-Material
+,	309,310	O	O
+whilst	311,317	O	O
+IM	318,320	O	B-Material
+-	320,321	O	I-Material
+HM11	321,325	O	I-Material
+-	325,326	O	I-Material
+03	326,328	O	I-Material
+was	329,332	O	O
+used	333,337	O	O
+for	338,341	O	O
+etching	342,349	O	B-Process
+;	349,350	O	O
+further	351,358	O	O
+investigations	359,373	O	O
+to	374,376	O	O
+compare	377,384	O	B-Task
+the	385,388	O	I-Task
+performance	389,400	O	I-Task
+of	401,403	O	I-Task
+the	404,407	O	I-Task
+different	408,417	O	I-Task
+compositions	418,430	O	I-Task
+across	431,437	O	I-Task
+tasks	438,443	O	I-Task
+are	444,447	O	O
+underway	448,456	O	O
+.	456,457	O	O
+
+Films	458,463	O	B-Material
+of	464,466	O	I-Material
+the	467,470	O	I-Material
+SoC	471,474	O	I-Material
+were	475,479	O	O
+prepared	480,488	O	O
+by	489,491	O	O
+spin	492,496	O	B-Process
+coating	497,504	O	I-Process
+on	505,507	O	O
+hydrogen	508,516	O	B-Material
+-	516,517	O	I-Material
+terminated	517,527	O	I-Material
+silicon	528,535	O	I-Material
+substrates	536,546	O	I-Material
+with	547,551	O	O
+a	552,553	O	O
+speed	554,559	O	O
+varying	560,567	O	O
+between	568,575	O	O
+800	576,579	O	O
+and	580,583	O	O
+2000	584,588	O	O
+RPM	589,592	O	O
+for	593,596	O	O
+60s	597,600	O	O
+.	600,601	O	O
+
+After	602,607	O	O
+spin	608,612	O	O
+coating	613,620	O	O
+the	621,624	O	O
+film	625,629	O	B-Material
+was	630,633	O	O
+baked	634,639	O	B-Process
+for	640,643	O	I-Process
+2min	644,648	O	I-Process
+at	649,651	O	I-Process
+temperatures	652,664	O	I-Process
+of	665,667	O	I-Process
+up	668,670	O	I-Process
+to	671,673	O	I-Process
+330	674,677	O	I-Process
+°	677,678	O	I-Process
+C	678,679	O	I-Process
+.	679,680	O	O
+
+In	681,683	O	O
+order	684,689	O	O
+to	690,692	O	O
+enable	693,699	O	O
+further	700,707	O	O
+processing	708,718	O	O
+,	718,719	O	O
+the	720,723	O	O
+SoC	724,727	O	B-Material
+should	728,734	O	O
+be	735,737	O	O
+rendered	738,746	O	O
+insoluble	747,756	O	O
+in	757,759	O	O
+typical	760,767	O	O
+solvents	768,776	O	O
+for	777,780	O	O
+resist	781,787	O	O
+and	788,791	O	O
+spin	792,796	O	B-Material
+-	796,797	O	I-Material
+on	797,799	O	I-Material
+-	799,800	O	I-Material
+hardmask	800,808	O	I-Material
+to	809,811	O	O
+enable	812,818	O	O
+further	819,826	O	O
+processing	827,837	O	O
+.	837,838	O	O
+
+The	839,842	O	O
+elution	843,850	O	B-Task
+behavior	851,859	O	I-Task
+of	860,862	O	O
+films	863,868	O	O
+of	869,871	O	O
+IM	872,874	O	B-Material
+-	874,875	O	I-Material
+HM11	875,879	O	I-Material
+-	879,880	O	I-Material
+01	880,882	O	I-Material
+and	883,886	O	I-Material
+IM	887,889	O	I-Material
+-	889,890	O	I-Material
+HM11	890,894	O	I-Material
+-	894,895	O	I-Material
+02	895,897	O	I-Material
+for	898,901	O	O
+thicknesses	902,913	O	O
+between	914,921	O	O
+30	922,924	O	O
+and	925,928	O	O
+325	929,932	O	O
+nm	932,934	O	O
+was	935,938	O	O
+tested	939,945	O	O
+as	946,948	O	O
+a	949,950	O	O
+function	951,959	O	O
+of	960,962	O	O
+the	963,966	O	O
+baking	967,973	O	O
+temperature	974,985	O	O
+.	985,986	O	O
+
+Fig	987,990	O	O
+.	990,991	O	O
+
+1	992,993	O	O
+shows	994,999	O	O
+the	1000,1003	O	O
+normalized	1004,1014	O	O
+film	1015,1019	O	O
+thickness	1020,1029	O	O
+of	1030,1032	O	O
+two	1033,1036	O	O
+formulations	1037,1049	O	O
+of	1050,1052	O	O
+the	1053,1056	O	O
+SoC	1057,1060	O	B-Material
+(	1061,1062	O	I-Material
+IM	1062,1064	O	B-Material
+-	1064,1065	O	I-Material
+HM11	1065,1069	O	I-Material
+-	1069,1070	O	I-Material
+01	1070,1072	O	I-Material
+and	1073,1076	O	I-Material
+IM	1077,1079	O	I-Material
+-	1079,1080	O	I-Material
+HM11	1080,1084	O	I-Material
+-	1084,1085	O	I-Material
+02	1085,1087	O	I-Material
+)	1087,1088	O	O
+,	1088,1089	O	O
+before	1090,1096	O	B-Process
+and	1097,1100	O	I-Process
+after	1101,1106	O	I-Process
+dipping	1107,1114	O	I-Process
+in	1115,1117	O	O
+monochlorobenzene	1118,1135	O	B-Material
+(	1136,1137	O	O
+MCB):IPA	1137,1145	O	B-Material
+1:1	1146,1149	O	O
+solution	1150,1158	O	O
+.	1158,1159	O	O
+
+Prior	1160,1165	O	O
+to	1166,1168	O	O
+baking	1169,1175	O	B-Process
+the	1176,1179	O	O
+thickness	1180,1189	O	O
+of	1190,1192	O	O
+IM	1193,1195	O	B-Material
+-	1195,1196	O	I-Material
+HM11	1196,1200	O	I-Material
+-	1200,1201	O	I-Material
+01	1201,1203	O	I-Material
+was	1204,1207	O	O
+∼320	1208,1212	O	O
+nm	1212,1214	O	O
+,	1214,1215	O	O
+and	1216,1219	O	O
+the	1220,1223	O	O
+thickness	1224,1233	O	O
+of	1234,1236	O	O
+IM	1237,1239	O	B-Material
+-	1239,1240	O	I-Material
+HM11	1240,1244	O	I-Material
+-	1244,1245	O	I-Material
+02	1245,1247	O	I-Material
+was	1248,1251	O	O
+∼250	1252,1256	O	O
+nm	1256,1258	O	O
+.	1258,1259	O	O
+
+For	1260,1263	O	O
+temperatures	1264,1276	O	O
+above	1277,1282	O	O
+190	1283,1286	O	O
+°	1286,1287	O	O
+C	1287,1288	O	O
+the	1289,1292	O	O
+IM	1293,1295	O	B-Material
+-	1295,1296	O	I-Material
+HM11	1296,1300	O	I-Material
+-	1300,1301	O	I-Material
+02	1301,1303	O	I-Material
+film	1304,1308	O	I-Material
+was	1309,1312	O	O
+rendered	1313,1321	O	O
+insoluble	1322,1331	O	O
+,	1331,1332	O	O
+whilst	1333,1339	O	O
+a	1340,1341	O	O
+temperature	1342,1353	O	O
+of	1354,1356	O	O
+260	1357,1360	O	O
+°	1360,1361	O	O
+C	1361,1362	O	O
+was	1363,1366	O	O
+required	1367,1375	O	O
+to	1376,1378	O	O
+achieve	1379,1386	O	O
+the	1387,1390	O	O
+same	1391,1395	O	O
+for	1396,1399	O	O
+IM	1400,1402	O	B-Material
+-	1402,1403	O	I-Material
+HM11	1403,1407	O	I-Material
+-	1407,1408	O	I-Material
+01	1408,1410	O	I-Material
+.	1410,1411	O	O
+
+Film	1412,1416	O	B-Material
+thickness	1417,1426	O	O
+did	1427,1430	O	O
+not	1431,1434	O	O
+affect	1435,1441	O	O
+the	1442,1445	O	O
+elution	1446,1453	O	O
+results	1454,1461	O	O
+.	1461,1462	O	O
 
 
 -DOCSTART- (S0167931712003905)
 
-In	0	2	O
-summary	3	10	O
-,	10	11	O
-we	12	14	O
-have	15	19	O
-developed	20	29	O
-a	30	31	O
-technique	32	41	O
-for	42	45	O
-site	46	50	B-Task
--	50	51	I-Task
-specific	51	59	I-Task
-nanowire	60	68	I-Task
-size	69	73	I-Task
-reduction	74	83	I-Task
-by	84	86	O
-FIB	87	90	B-Process
-thinning	91	99	I-Process
-.	99	100	O
-
-Transmission	101	113	B-Material
-electron	114	122	I-Material
-microscope	123	133	I-Material
-images	134	140	I-Material
-of	141	143	O
-a	144	145	O
-thinned	146	153	B-Material
-tungsten	154	162	I-Material
-composite	163	172	I-Material
-nanowire	173	181	I-Material
-with	182	186	O
-width	187	192	O
-reduced	193	200	O
-from	201	205	O
-80	206	208	O
-to	209	211	O
-20	212	214	O
-nm	214	216	O
-show	217	221	O
-uniform	222	229	B-Process
-shrinking	230	239	I-Process
-along	240	245	O
-the	246	249	O
-length	250	256	O
-of	257	259	O
-the	260	263	O
-wire	264	268	B-Material
-and	269	272	O
-high	273	277	B-Material
-resolution	278	288	I-Material
-images	289	295	I-Material
-show	296	300	O
-no	301	303	O
-obvious	304	311	O
-changes	312	319	O
-of	320	322	O
-the	323	326	O
-morphology	327	337	O
-after	338	343	O
-thinning	344	352	B-Process
-.	352	353	O
-
-The	354	357	O
-critical	358	366	O
-current	367	374	O
-density	375	382	O
-of	383	385	O
-the	386	389	O
-as	390	392	B-Material
--	392	393	I-Material
-deposited	393	402	I-Material
-wire	403	407	I-Material
-and	408	411	O
-one	412	415	O
-thinned	416	423	O
-to	424	426	O
-a	427	428	O
-width	429	434	O
-of	435	437	O
-50	438	440	O
-nm	440	442	O
-is	443	445	O
-
-1.7×105	446	453	O
-and	454	457	O
-1.4×105A	458	466	O
-
-/	466	467	O
-cm2	467	470	O
-at	471	473	O
-4.26	474	478	O
-K	478	479	O
-,	479	480	O
-respectively	481	493	O
-,	493	494	O
-suggesting	495	505	O
-insignificant	506	519	O
-modulation	520	530	B-Process
-of	531	533	I-Process
-the	534	537	I-Process
-electrical	538	548	I-Process
-properties	549	559	I-Process
-during	560	566	O
-thinning	567	575	B-Process
-.	575	576	O
-
-These	577	582	O
-results	583	590	O
-suggest	591	598	O
-that	599	603	O
-FIB	604	607	B-Process
--	607	608	I-Process
-milling	608	615	I-Process
-is	616	618	O
-a	619	620	O
-potential	621	630	O
-approach	631	639	O
-for	640	643	O
-controllable	644	656	B-Task
-size	657	661	I-Task
-reduction	662	671	I-Task
-with	672	676	I-Task
-high	677	681	I-Task
-resolution	682	692	I-Task
-towards	693	700	I-Task
-the	701	704	I-Task
-observation	705	716	I-Task
-of	717	719	I-Task
-size-	720	725	I-Task
-and	726	729	I-Task
-quantum	730	737	I-Task
-effects	738	745	I-Task
-,	745	746	O
-as	747	749	O
-well	750	754	O
-as	755	757	O
-for	758	761	O
-construction	762	774	B-Task
-of	775	777	I-Task
-3D	778	780	I-Task
-superconducting	781	796	I-Task
-nanodevices	797	808	I-Task
-.	808	809	O
+In	0,2	O	O
+summary	3,10	O	O
+,	10,11	O	O
+we	12,14	O	O
+have	15,19	O	O
+developed	20,29	O	O
+a	30,31	O	O
+technique	32,41	O	O
+for	42,45	O	O
+site	46,50	O	B-Task
+-	50,51	O	I-Task
+specific	51,59	O	I-Task
+nanowire	60,68	O	I-Task
+size	69,73	O	I-Task
+reduction	74,83	O	I-Task
+by	84,86	O	O
+FIB	87,90	O	B-Process
+thinning	91,99	O	I-Process
+.	99,100	O	O
+
+Transmission	101,113	O	B-Material
+electron	114,122	O	I-Material
+microscope	123,133	O	I-Material
+images	134,140	O	I-Material
+of	141,143	O	O
+a	144,145	O	O
+thinned	146,153	O	B-Material
+tungsten	154,162	O	I-Material
+composite	163,172	O	I-Material
+nanowire	173,181	O	I-Material
+with	182,186	O	O
+width	187,192	O	O
+reduced	193,200	O	O
+from	201,205	O	O
+80	206,208	O	O
+to	209,211	O	O
+20	212,214	O	O
+nm	214,216	O	O
+show	217,221	O	O
+uniform	222,229	O	B-Process
+shrinking	230,239	O	I-Process
+along	240,245	O	O
+the	246,249	O	O
+length	250,256	O	O
+of	257,259	O	O
+the	260,263	O	O
+wire	264,268	O	B-Material
+and	269,272	O	O
+high	273,277	O	B-Material
+resolution	278,288	O	I-Material
+images	289,295	O	I-Material
+show	296,300	O	O
+no	301,303	O	O
+obvious	304,311	O	O
+changes	312,319	O	O
+of	320,322	O	O
+the	323,326	O	O
+morphology	327,337	O	O
+after	338,343	O	O
+thinning	344,352	O	B-Process
+.	352,353	O	O
+
+The	354,357	O	O
+critical	358,366	O	O
+current	367,374	O	O
+density	375,382	O	O
+of	383,385	O	O
+the	386,389	O	O
+as	390,392	O	B-Material
+-	392,393	O	I-Material
+deposited	393,402	O	I-Material
+wire	403,407	O	I-Material
+and	408,411	O	O
+one	412,415	O	O
+thinned	416,423	O	O
+to	424,426	O	O
+a	427,428	O	O
+width	429,434	O	O
+of	435,437	O	O
+50	438,440	O	O
+nm	440,442	O	O
+is	443,445	O	O
+
+1.7×105	446,453	O	O
+and	454,457	O	O
+1.4×105A	458,466	O	O
+
+/	466,467	O	O
+cm2	467,470	O	O
+at	471,473	O	O
+4.26	474,478	O	O
+K	478,479	O	O
+,	479,480	O	O
+respectively	481,493	O	O
+,	493,494	O	O
+suggesting	495,505	O	O
+insignificant	506,519	O	O
+modulation	520,530	O	B-Process
+of	531,533	O	I-Process
+the	534,537	O	I-Process
+electrical	538,548	O	I-Process
+properties	549,559	O	I-Process
+during	560,566	O	O
+thinning	567,575	O	B-Process
+.	575,576	O	O
+
+These	577,582	O	O
+results	583,590	O	O
+suggest	591,598	O	O
+that	599,603	O	O
+FIB	604,607	O	B-Process
+-	607,608	O	I-Process
+milling	608,615	O	I-Process
+is	616,618	O	O
+a	619,620	O	O
+potential	621,630	O	O
+approach	631,639	O	O
+for	640,643	O	O
+controllable	644,656	O	B-Task
+size	657,661	O	I-Task
+reduction	662,671	O	I-Task
+with	672,676	O	I-Task
+high	677,681	O	I-Task
+resolution	682,692	O	I-Task
+towards	693,700	O	I-Task
+the	701,704	O	I-Task
+observation	705,716	O	I-Task
+of	717,719	O	I-Task
+size-	720,725	O	I-Task
+and	726,729	O	I-Task
+quantum	730,737	O	I-Task
+effects	738,745	O	I-Task
+,	745,746	O	O
+as	747,749	O	O
+well	750,754	O	O
+as	755,757	O	O
+for	758,761	O	O
+construction	762,774	O	B-Task
+of	775,777	O	I-Task
+3D	778,780	O	I-Task
+superconducting	781,796	O	I-Task
+nanodevices	797,808	O	I-Task
+.	808,809	O	O
 
 
 -DOCSTART- (S0167931713002438)
 
-There	0	5	O
-have	6	10	O
-been	11	15	O
-suggestions	16	27	O
-that	28	32	O
-electrons	33	42	B-Material
-can	43	46	O
-be	47	49	O
-trapped	50	57	B-Process
-in	58	60	I-Process
-the	61	64	I-Process
-bulk	65	69	I-Process
-and	70	73	I-Process
-at	74	76	I-Process
-surfaces	77	85	I-Process
-of	86	88	I-Process
-silica	89	95	I-Process
-[	96	97	O
-15	97	99	O
-]	99	100	O
-but	101	104	O
-new	105	108	O
-models	109	115	O
-of	116	118	O
-electron	119	127	B-Material
-trapping	128	136	I-Material
-centres	137	144	I-Material
-started	145	152	O
-to	153	155	O
-appear	156	162	O
-only	163	167	O
-recently	168	176	O
-.	176	177	O
-
-It	178	180	O
-has	181	184	O
-been	185	189	O
-suggested	190	199	O
-by	200	202	O
-Bersuker	203	211	O
-et	212	214	O
-al	215	217	O
-.	217	218	O
-
-,	218	219	O
-who	220	223	O
-used	224	228	O
-molecular	229	238	B-Process
-models	239	245	I-Process
-,	245	246	O
-that	247	251	O
-electrons	252	261	B-Material
-can	262	265	O
-be	266	268	O
-trapped	269	276	B-Process
-by	277	279	O
-Si	280	282	B-Material
-–	282	283	I-Material
-O	283	284	I-Material
-bonds	285	290	I-Material
-in	291	293	O
-a	294	295	B-Material
--	295	296	I-Material
-SiO2	296	300	I-Material
-leading	301	308	I-Material
-to	309	311	O
-their	312	317	O
-weakening	318	327	B-Process
-and	328	331	O
-thus	332	336	O
-facilitating	337	349	O
-Si	350	352	O
-
-–	352	353	O
-
-O	353	354	O
-bond	355	359	O
-dissociation	360	372	O
-[	373	374	O
-16	374	376	O
-]	376	377	O
-.	377	378	O
-
-Further	379	386	O
-calculations	387	399	O
-by	400	402	O
-Camellone	403	412	O
-et	413	415	O
-al	416	418	O
-.	418	419	O
-have	420	424	O
-shown	425	430	O
-that	431	435	O
-electrons	436	445	B-Material
-can	446	449	O
-spontaneously	450	463	B-Process
-trap	464	468	I-Process
-in	469	471	O
-non	472	475	B-Process
--	475	476	I-Process
-defective	476	485	I-Process
-continuum	486	495	I-Process
-random	496	502	I-Process
-network	503	510	I-Process
-model	511	516	I-Process
-of	517	519	O
-a	520	521	B-Material
--	521	522	I-Material
-SiO2	522	526	I-Material
-
-[	527	528	O
-17	528	530	O
-]	530	531	O
-.	531	532	O
-
-Recent	533	539	O
-calculations	540	552	O
-have	553	557	O
-also	558	562	O
-demonstrated	563	575	O
-that	576	580	O
-the	581	584	O
-two	585	588	O
-dominant	589	597	O
-neutral	598	605	B-Process
-paramagnetic	606	618	I-Process
-defects	619	626	I-Process
-at	627	629	O
-surfaces	630	638	B-Material
-of	639	641	I-Material
-a	642	643	I-Material
--	643	644	I-Material
-SiO2	644	648	I-Material
-,	648	649	O
-the	650	653	O
-non	654	657	B-Material
--	657	658	I-Material
-bridging	658	666	I-Material
-oxygen	667	673	I-Material
-centre	674	680	I-Material
-and	681	684	O
-the	685	688	O
-silicon	689	696	B-Material
-dangling	697	705	I-Material
-bond	706	710	I-Material
-,	710	711	O
-are	712	715	O
-deep	716	720	B-Material
-electron	721	729	I-Material
-traps	730	735	I-Material
-and	736	739	O
-can	740	743	O
-form	744	748	O
-the	749	752	O
-corresponding	753	766	O
-negatively	767	777	B-Material
-charged	778	785	I-Material
-defects	786	793	I-Material
-[	794	795	O
-18	795	797	O
-]	797	798	O
-.	798	799	O
-
-However	800	807	O
-,	807	808	O
-these	809	814	O
-theoretical	815	826	O
-predictions	827	838	O
-have	839	843	O
-not	844	847	O
-yet	848	851	O
-been	852	856	O
-confirmed	857	866	O
-experimentally	867	881	O
-,	881	882	O
-emphasising	883	894	O
-the	895	898	O
-challenges	899	909	O
-for	910	913	O
-identifying	914	925	B-Task
-defect	926	932	I-Task
-centres	933	940	I-Task
-.	940	941	O
+There	0,5	O	O
+have	6,10	O	O
+been	11,15	O	O
+suggestions	16,27	O	O
+that	28,32	O	O
+electrons	33,42	O	B-Material
+can	43,46	O	O
+be	47,49	O	O
+trapped	50,57	O	B-Process
+in	58,60	O	I-Process
+the	61,64	O	I-Process
+bulk	65,69	O	I-Process
+and	70,73	O	I-Process
+at	74,76	O	I-Process
+surfaces	77,85	O	I-Process
+of	86,88	O	I-Process
+silica	89,95	O	I-Process
+[	96,97	O	O
+15	97,99	O	O
+]	99,100	O	O
+but	101,104	O	O
+new	105,108	O	O
+models	109,115	O	O
+of	116,118	O	O
+electron	119,127	O	B-Material
+trapping	128,136	O	I-Material
+centres	137,144	O	I-Material
+started	145,152	O	O
+to	153,155	O	O
+appear	156,162	O	O
+only	163,167	O	O
+recently	168,176	O	O
+.	176,177	O	O
+
+It	178,180	O	O
+has	181,184	O	O
+been	185,189	O	O
+suggested	190,199	O	O
+by	200,202	O	O
+Bersuker	203,211	O	O
+et	212,214	O	O
+al	215,217	O	O
+.	217,218	O	O
+
+,	218,219	O	O
+who	220,223	O	O
+used	224,228	O	O
+molecular	229,238	O	B-Process
+models	239,245	O	I-Process
+,	245,246	O	O
+that	247,251	O	O
+electrons	252,261	O	B-Material
+can	262,265	O	O
+be	266,268	O	O
+trapped	269,276	O	B-Process
+by	277,279	O	O
+Si	280,282	O	B-Material
+–	282,283	O	I-Material
+O	283,284	O	I-Material
+bonds	285,290	O	I-Material
+in	291,293	O	O
+a	294,295	O	B-Material
+-	295,296	O	I-Material
+SiO2	296,300	O	I-Material
+leading	301,308	O	I-Material
+to	309,311	O	O
+their	312,317	O	O
+weakening	318,327	O	B-Process
+and	328,331	O	O
+thus	332,336	O	O
+facilitating	337,349	O	O
+Si	350,352	O	O
+
+–	352,353	O	O
+
+O	353,354	O	O
+bond	355,359	O	O
+dissociation	360,372	O	O
+[	373,374	O	O
+16	374,376	O	O
+]	376,377	O	O
+.	377,378	O	O
+
+Further	379,386	O	O
+calculations	387,399	O	O
+by	400,402	O	O
+Camellone	403,412	O	O
+et	413,415	O	O
+al	416,418	O	O
+.	418,419	O	O
+have	420,424	O	O
+shown	425,430	O	O
+that	431,435	O	O
+electrons	436,445	O	B-Material
+can	446,449	O	O
+spontaneously	450,463	O	B-Process
+trap	464,468	O	I-Process
+in	469,471	O	O
+non	472,475	O	B-Process
+-	475,476	O	I-Process
+defective	476,485	O	I-Process
+continuum	486,495	O	I-Process
+random	496,502	O	I-Process
+network	503,510	O	I-Process
+model	511,516	O	I-Process
+of	517,519	O	O
+a	520,521	O	B-Material
+-	521,522	O	I-Material
+SiO2	522,526	O	I-Material
+
+[	527,528	O	O
+17	528,530	O	O
+]	530,531	O	O
+.	531,532	O	O
+
+Recent	533,539	O	O
+calculations	540,552	O	O
+have	553,557	O	O
+also	558,562	O	O
+demonstrated	563,575	O	O
+that	576,580	O	O
+the	581,584	O	O
+two	585,588	O	O
+dominant	589,597	O	O
+neutral	598,605	O	B-Process
+paramagnetic	606,618	O	I-Process
+defects	619,626	O	I-Process
+at	627,629	O	O
+surfaces	630,638	O	B-Material
+of	639,641	O	I-Material
+a	642,643	O	I-Material
+-	643,644	O	I-Material
+SiO2	644,648	O	I-Material
+,	648,649	O	O
+the	650,653	O	O
+non	654,657	O	B-Material
+-	657,658	O	I-Material
+bridging	658,666	O	I-Material
+oxygen	667,673	O	I-Material
+centre	674,680	O	I-Material
+and	681,684	O	O
+the	685,688	O	O
+silicon	689,696	O	B-Material
+dangling	697,705	O	I-Material
+bond	706,710	O	I-Material
+,	710,711	O	O
+are	712,715	O	O
+deep	716,720	O	B-Material
+electron	721,729	O	I-Material
+traps	730,735	O	I-Material
+and	736,739	O	O
+can	740,743	O	O
+form	744,748	O	O
+the	749,752	O	O
+corresponding	753,766	O	O
+negatively	767,777	O	B-Material
+charged	778,785	O	I-Material
+defects	786,793	O	I-Material
+[	794,795	O	O
+18	795,797	O	O
+]	797,798	O	O
+.	798,799	O	O
+
+However	800,807	O	O
+,	807,808	O	O
+these	809,814	O	O
+theoretical	815,826	O	O
+predictions	827,838	O	O
+have	839,843	O	O
+not	844,847	O	O
+yet	848,851	O	O
+been	852,856	O	O
+confirmed	857,866	O	O
+experimentally	867,881	O	O
+,	881,882	O	O
+emphasising	883,894	O	O
+the	895,898	O	O
+challenges	899,909	O	O
+for	910,913	O	O
+identifying	914,925	O	B-Task
+defect	926,932	O	I-Task
+centres	933,940	O	I-Task
+.	940,941	O	O
 
 
 -DOCSTART- (S016793171300244X)
 
-Ever	0	4	O
-since	5	10	O
-the	11	14	O
-identification	15	29	B-Process
-of	30	32	I-Process
-the	33	36	I-Process
-paramagnetic	37	49	I-Process
-E′	50	52	I-Process
-centre	53	59	I-Process
-in	60	62	I-Process
-SiO2	63	67	I-Process
-as	68	70	O
-an	71	73	O
-unpaired	74	82	B-Material
-electron	83	91	I-Material
-localised	92	101	O
-in	102	104	O
-an	105	107	O
-sp3	108	111	B-Material
-hybrid	112	118	I-Material
-orbital	119	126	I-Material
-of	127	129	O
-an	130	132	O
-Si	133	135	B-Material
-atom	136	140	I-Material
-backbonded	141	151	O
-to	152	154	O
-three	155	160	O
-oxygen	161	167	B-Material
-atoms	168	173	I-Material
-,	173	174	O
-a	175	176	O
-number	177	183	O
-of	184	186	O
-attempts	187	195	O
-has	196	199	O
-been	200	204	O
-made	205	209	O
-at	210	212	O
-explaining	213	223	B-Task
-the	224	227	I-Task
-optical	228	235	I-Task
-and	236	239	I-Task
-electronic	240	250	I-Task
-properties	251	261	I-Task
-of	262	264	I-Task
-SiO2	265	269	I-Task
-in	270	272	I-Task
-the	273	276	I-Task
-presence	277	285	I-Task
-of	286	288	I-Task
-E′	289	291	I-Task
-centres	292	299	I-Task
-.	299	300	O
-
-The	301	304	O
-irradiation	305	316	B-Process
-or	317	319	O
-hole	320	324	B-Process
-injection	325	334	I-Process
-induces	335	342	O
-trapping	343	351	B-Process
-of	352	354	I-Process
-positive	355	363	I-Process
-charge	364	370	I-Process
-in	371	373	I-Process
-thin	374	378	I-Process
-layers	379	385	I-Process
-of	386	388	I-Process
-a	389	390	I-Process
--	390	391	I-Process
-SiO2	391	395	I-Process
-grown	396	401	I-Process
-on	402	404	I-Process
-silicon	405	412	I-Process
-surfaces	413	421	I-Process
-by	422	424	O
-thermal	425	432	B-Process
-oxidation	433	442	I-Process
-.	442	443	O
-
-This	444	448	O
-effect	449	455	O
-has	456	459	O
-been	460	464	O
-correlated	465	475	O
-with	476	480	O
-paramagnetic	481	493	B-Material
-E′	494	496	I-Material
-centre	497	503	I-Material
-signals	504	511	I-Material
-and	512	515	O
-led	516	519	O
-to	520	522	O
-the	523	526	O
-initial	527	534	O
-assignment	535	545	O
-of	546	548	O
-the	549	552	O
-neutral	553	560	B-Material
-oxygen	561	567	I-Material
-vacancy	568	575	I-Material
-as	576	578	O
-the	579	582	O
-major	583	588	B-Material
-hole	589	593	I-Material
-trap	594	598	I-Material
-in	599	601	O
-a	602	603	B-Material
--	603	604	I-Material
-SiO2	604	608	I-Material
-
-[	609	610	O
-1–3	610	613	O
-]	613	614	O
-.	614	615	O
-
-In	616	618	O
-this	619	623	O
-model	624	629	O
-,	629	630	O
-originally	631	641	O
-proposed	642	650	O
-for	651	654	O
-E′	655	657	B-Material
-centres	658	665	I-Material
-in	666	668	I-Material
-α-quartz	669	677	I-Material
-,	677	678	O
-upon	679	683	O
-trapping	684	692	O
-a	693	694	O
-hole	695	699	O
-,	699	700	O
-one	701	704	O
-Si	705	707	B-Material
-atom	708	712	I-Material
-from	713	717	O
-the	718	721	O
-two	722	725	O
-Si	726	728	B-Material
-atoms	729	734	I-Material
-constituting	735	747	O
-the	748	751	O
-vacancy	752	759	O
-remains	760	767	O
-neutral	768	775	O
-and	776	779	O
-hosts	780	785	O
-the	786	789	O
-localised	790	799	B-Material
-unpaired	800	808	I-Material
-electron	809	817	I-Material
-while	818	823	O
-its	824	827	O
-counterpart	828	839	O
-becomes	840	847	O
-positively	848	858	O
-charged	859	866	O
-.	866	867	O
-
-Although	868	876	O
-this	877	881	O
-model	882	887	O
-has	888	891	O
-initially	892	901	O
-been	902	906	O
-accepted	907	915	O
-widely	916	922	O
-for	923	926	O
-its	927	930	O
-simplicity	931	941	O
-,	941	942	O
-it	943	945	O
-fails	946	951	O
-to	952	954	O
-account	955	962	O
-for	963	966	O
-a	967	968	O
-number	969	975	O
-of	976	978	O
-observations	979	991	O
-,	991	992	O
-such	993	997	O
-as	998	1000	O
-the	1001	1004	O
-positive	1005	1013	B-Process
-charge	1014	1020	I-Process
-trapping	1021	1029	I-Process
-without	1030	1037	O
-generation	1038	1048	O
-of	1049	1051	O
-E′	1052	1054	B-Material
-centres	1055	1062	I-Material
-[	1063	1064	O
-4	1064	1065	O
-]	1065	1066	O
-,	1066	1067	O
-the	1068	1071	O
-formation	1072	1081	O
-of	1082	1084	O
-high	1085	1089	B-Material
-density	1090	1097	I-Material
-of	1098	1100	I-Material
-E′	1101	1103	I-Material
-centres	1104	1111	I-Material
-without	1112	1119	O
-the	1120	1123	O
-corresponding	1124	1137	O
-density	1138	1145	O
-of	1146	1148	O
-positive	1149	1157	B-Process
-charge	1158	1164	I-Process
-[	1165	1166	O
-5	1166	1167	O
-]	1167	1168	O
-,	1168	1169	O
-and	1170	1173	O
-the	1174	1177	O
-absence	1178	1185	O
-of	1186	1188	O
-correlation	1189	1200	O
-between	1201	1208	O
-the	1209	1212	O
-decrease	1213	1221	O
-of	1222	1224	O
-the	1225	1228	O
-E′	1229	1231	B-Material
-centre	1232	1238	I-Material
-density	1239	1246	O
-and	1247	1250	O
-the	1251	1254	O
-density	1255	1262	O
-of	1263	1265	O
-positive	1266	1274	O
-charge	1275	1281	O
-upon	1282	1286	O
-post	1287	1291	B-Process
--	1291	1292	I-Process
-irradiation	1292	1303	I-Process
-electron	1304	1312	I-Process
-injection	1313	1322	I-Process
-in	1323	1325	O
-SiO2	1326	1330	B-Material
-[	1331	1332	O
-6	1332	1333	O
-]	1333	1334	O
-.	1334	1335	O
+Ever	0,4	O	O
+since	5,10	O	O
+the	11,14	O	O
+identification	15,29	O	B-Process
+of	30,32	O	I-Process
+the	33,36	O	I-Process
+paramagnetic	37,49	O	I-Process
+E′	50,52	O	I-Process
+centre	53,59	O	I-Process
+in	60,62	O	I-Process
+SiO2	63,67	O	I-Process
+as	68,70	O	O
+an	71,73	O	O
+unpaired	74,82	O	B-Material
+electron	83,91	O	I-Material
+localised	92,101	O	O
+in	102,104	O	O
+an	105,107	O	O
+sp3	108,111	O	B-Material
+hybrid	112,118	O	I-Material
+orbital	119,126	O	I-Material
+of	127,129	O	O
+an	130,132	O	O
+Si	133,135	O	B-Material
+atom	136,140	O	I-Material
+backbonded	141,151	O	O
+to	152,154	O	O
+three	155,160	O	O
+oxygen	161,167	O	B-Material
+atoms	168,173	O	I-Material
+,	173,174	O	O
+a	175,176	O	O
+number	177,183	O	O
+of	184,186	O	O
+attempts	187,195	O	O
+has	196,199	O	O
+been	200,204	O	O
+made	205,209	O	O
+at	210,212	O	O
+explaining	213,223	O	B-Task
+the	224,227	O	I-Task
+optical	228,235	O	I-Task
+and	236,239	O	I-Task
+electronic	240,250	O	I-Task
+properties	251,261	O	I-Task
+of	262,264	O	I-Task
+SiO2	265,269	O	I-Task
+in	270,272	O	I-Task
+the	273,276	O	I-Task
+presence	277,285	O	I-Task
+of	286,288	O	I-Task
+E′	289,291	O	I-Task
+centres	292,299	O	I-Task
+.	299,300	O	O
+
+The	301,304	O	O
+irradiation	305,316	O	B-Process
+or	317,319	O	O
+hole	320,324	O	B-Process
+injection	325,334	O	I-Process
+induces	335,342	O	O
+trapping	343,351	O	B-Process
+of	352,354	O	I-Process
+positive	355,363	O	I-Process
+charge	364,370	O	I-Process
+in	371,373	O	I-Process
+thin	374,378	O	I-Process
+layers	379,385	O	I-Process
+of	386,388	O	I-Process
+a	389,390	O	I-Process
+-	390,391	O	I-Process
+SiO2	391,395	O	I-Process
+grown	396,401	O	I-Process
+on	402,404	O	I-Process
+silicon	405,412	O	I-Process
+surfaces	413,421	O	I-Process
+by	422,424	O	O
+thermal	425,432	O	B-Process
+oxidation	433,442	O	I-Process
+.	442,443	O	O
+
+This	444,448	O	O
+effect	449,455	O	O
+has	456,459	O	O
+been	460,464	O	O
+correlated	465,475	O	O
+with	476,480	O	O
+paramagnetic	481,493	O	B-Material
+E′	494,496	O	I-Material
+centre	497,503	O	I-Material
+signals	504,511	O	I-Material
+and	512,515	O	O
+led	516,519	O	O
+to	520,522	O	O
+the	523,526	O	O
+initial	527,534	O	O
+assignment	535,545	O	O
+of	546,548	O	O
+the	549,552	O	O
+neutral	553,560	O	B-Material
+oxygen	561,567	O	I-Material
+vacancy	568,575	O	I-Material
+as	576,578	O	O
+the	579,582	O	O
+major	583,588	O	B-Material
+hole	589,593	O	I-Material
+trap	594,598	O	I-Material
+in	599,601	O	O
+a	602,603	O	B-Material
+-	603,604	O	I-Material
+SiO2	604,608	O	I-Material
+
+[	609,610	O	O
+1–3	610,613	O	O
+]	613,614	O	O
+.	614,615	O	O
+
+In	616,618	O	O
+this	619,623	O	O
+model	624,629	O	O
+,	629,630	O	O
+originally	631,641	O	O
+proposed	642,650	O	O
+for	651,654	O	O
+E′	655,657	O	B-Material
+centres	658,665	O	I-Material
+in	666,668	O	I-Material
+α-quartz	669,677	O	I-Material
+,	677,678	O	O
+upon	679,683	O	O
+trapping	684,692	O	O
+a	693,694	O	O
+hole	695,699	O	O
+,	699,700	O	O
+one	701,704	O	O
+Si	705,707	O	B-Material
+atom	708,712	O	I-Material
+from	713,717	O	O
+the	718,721	O	O
+two	722,725	O	O
+Si	726,728	O	B-Material
+atoms	729,734	O	I-Material
+constituting	735,747	O	O
+the	748,751	O	O
+vacancy	752,759	O	O
+remains	760,767	O	O
+neutral	768,775	O	O
+and	776,779	O	O
+hosts	780,785	O	O
+the	786,789	O	O
+localised	790,799	O	B-Material
+unpaired	800,808	O	I-Material
+electron	809,817	O	I-Material
+while	818,823	O	O
+its	824,827	O	O
+counterpart	828,839	O	O
+becomes	840,847	O	O
+positively	848,858	O	O
+charged	859,866	O	O
+.	866,867	O	O
+
+Although	868,876	O	O
+this	877,881	O	O
+model	882,887	O	O
+has	888,891	O	O
+initially	892,901	O	O
+been	902,906	O	O
+accepted	907,915	O	O
+widely	916,922	O	O
+for	923,926	O	O
+its	927,930	O	O
+simplicity	931,941	O	O
+,	941,942	O	O
+it	943,945	O	O
+fails	946,951	O	O
+to	952,954	O	O
+account	955,962	O	O
+for	963,966	O	O
+a	967,968	O	O
+number	969,975	O	O
+of	976,978	O	O
+observations	979,991	O	O
+,	991,992	O	O
+such	993,997	O	O
+as	998,1000	O	O
+the	1001,1004	O	O
+positive	1005,1013	O	B-Process
+charge	1014,1020	O	I-Process
+trapping	1021,1029	O	I-Process
+without	1030,1037	O	O
+generation	1038,1048	O	O
+of	1049,1051	O	O
+E′	1052,1054	O	B-Material
+centres	1055,1062	O	I-Material
+[	1063,1064	O	O
+4	1064,1065	O	O
+]	1065,1066	O	O
+,	1066,1067	O	O
+the	1068,1071	O	O
+formation	1072,1081	O	O
+of	1082,1084	O	O
+high	1085,1089	O	B-Material
+density	1090,1097	O	I-Material
+of	1098,1100	O	I-Material
+E′	1101,1103	O	I-Material
+centres	1104,1111	O	I-Material
+without	1112,1119	O	O
+the	1120,1123	O	O
+corresponding	1124,1137	O	O
+density	1138,1145	O	O
+of	1146,1148	O	O
+positive	1149,1157	O	B-Process
+charge	1158,1164	O	I-Process
+[	1165,1166	O	O
+5	1166,1167	O	O
+]	1167,1168	O	O
+,	1168,1169	O	O
+and	1170,1173	O	O
+the	1174,1177	O	O
+absence	1178,1185	O	O
+of	1186,1188	O	O
+correlation	1189,1200	O	O
+between	1201,1208	O	O
+the	1209,1212	O	O
+decrease	1213,1221	O	O
+of	1222,1224	O	O
+the	1225,1228	O	O
+E′	1229,1231	O	B-Material
+centre	1232,1238	O	I-Material
+density	1239,1246	O	O
+and	1247,1250	O	O
+the	1251,1254	O	O
+density	1255,1262	O	O
+of	1263,1265	O	O
+positive	1266,1274	O	O
+charge	1275,1281	O	O
+upon	1282,1286	O	O
+post	1287,1291	O	B-Process
+-	1291,1292	O	I-Process
+irradiation	1292,1303	O	I-Process
+electron	1304,1312	O	I-Process
+injection	1313,1322	O	I-Process
+in	1323,1325	O	O
+SiO2	1326,1330	O	B-Material
+[	1331,1332	O	O
+6	1332,1333	O	O
+]	1333,1334	O	O
+.	1334,1335	O	O
 
 
 -DOCSTART- (S0167931713002487)
 
-Ge	0	2	B-Material
-(	3	4	I-Material
-100	4	7	I-Material
-)	7	8	I-Material
-wafers	9	15	I-Material
-(	16	17	O
-n-	17	19	B-Material
-and	20	23	I-Material
-p	24	25	I-Material
--	25	26	I-Material
-type	26	30	I-Material
-)	30	31	O
-were	32	36	O
-cleaned	37	44	B-Process
-in	45	47	I-Process
-ultra	48	53	I-Process
-high	54	58	I-Process
-vacuum	59	65	I-Process
-(	66	67	O
-<	67	68	O
-10−6	68	72	O
-mbar	72	76	O
-)	76	77	O
-at	78	80	O
-500	81	84	O
-°	84	85	O
-C	85	86	O
-and	87	90	O
-600	91	94	O
-°	94	95	O
-C	95	96	O
-for	97	100	O
-10min	101	106	O
-to	107	109	O
-evaporate	110	119	B-Process
-any	120	123	I-Process
-native	124	130	I-Process
-oxide	131	136	I-Process
-and	137	140	O
-so	141	143	O
-achieve	144	151	O
-an	152	154	O
-oxide	155	160	B-Material
-free	161	165	I-Material
-surface	166	173	I-Material
-.	173	174	O
-
-Subsequently	175	187	O
-,	187	188	O
-wafers	189	195	B-Material
-were	196	200	O
-exposed	201	208	O
-to	209	211	O
-an	212	214	O
-Al	215	217	B-Process
-flux	218	222	I-Process
-for	223	226	O
-a	227	228	O
-range	229	234	O
-of	235	237	O
-times	238	243	O
-to	244	246	O
-deposit	247	254	O
-ultrathin	255	264	B-Material
-Al	265	267	I-Material
-layers	268	274	I-Material
-.	274	275	O
-
-The	276	279	O
-samples	280	287	B-Material
-were	288	292	O
-then	293	297	O
-oxidized	298	306	B-Process
-at	307	309	O
-ambient	310	317	O
-temperatures	318	330	O
-in	331	333	O
-the	334	337	O
-MBE	338	341	B-Material
-load	342	346	I-Material
-lock	347	351	I-Material
-to	352	354	O
-produce	355	362	B-Task
-Al2O3	363	368	I-Task
-layers	369	375	I-Task
-.	375	376	O
-
-The	377	380	O
-samples	381	388	B-Material
-were	389	393	O
-transferred	394	405	O
-within	406	412	O
-1min	413	417	O
-to	418	420	O
-an	421	423	O
-Oxford	424	430	B-Material
-Instruments	431	442	I-Material
-OpAL	443	447	I-Material
-reactor	448	455	I-Material
-and	456	459	O
-thin	460	464	B-Material
-films	465	470	I-Material
-of	471	473	I-Material
-HfO2	474	478	I-Material
-were	479	483	O
-deposited	484	493	O
-on	494	496	O
-the	497	500	O
-Al2O3	501	506	B-Material
-using	507	512	O
-atomic	513	519	B-Process
-layer	520	525	I-Process
-deposition	526	536	I-Process
-(	537	538	O
-ALD	538	541	B-Process
-)	541	542	O
-.	542	543	O
-
-The	544	547	O
-HfO2	548	552	B-Process
-depositions	553	564	I-Process
-used	565	569	O
-a	570	571	O
-[	572	573	B-Material
-(	573	574	I-Material
-CpMe)2HfOMeMe	574	587	I-Material
-]	587	588	I-Material
-precursor	589	598	I-Material
-coupled	599	606	O
-with	607	611	O
-an	612	614	O
-O2	615	617	B-Material
-plasma	618	624	I-Material
-as	625	627	O
-the	628	631	O
-oxidizing	632	641	B-Material
-species	642	649	I-Material
-.	649	650	O
-
-Between	651	658	O
-30	659	661	O
-and	662	665	O
-130	666	669	O
-ALD	670	673	O
-cycles	674	680	O
-were	681	685	O
-used	686	690	O
-to	691	693	O
-grow	694	698	B-Process
-HfO2	699	703	I-Process
-thicknesses	704	715	I-Process
-from	716	720	O
-1.6	721	724	O
-to	725	727	O
-7	728	729	O
-nm	729	731	O
-at	732	734	O
-250	735	738	O
-°	738	739	O
-C	739	740	O
-.	740	741	O
-
-For	742	745	O
-electrical	746	756	B-Task
-measurements	757	769	I-Task
-,	769	770	O
-circular	771	779	B-Material
-gold	780	784	I-Material
-contacts	785	793	I-Material
-of	794	796	O
-area	797	801	O
-1.96×10−3cm2	802	814	O
-were	815	819	O
-deposited	820	829	O
-onto	830	834	O
-the	835	838	O
-films	839	844	B-Material
-to	845	847	O
-form	848	852	O
-MOS	853	856	B-Material
-gate	857	861	I-Material
-electrodes	862	872	I-Material
-and	873	876	O
-Al	877	879	B-Material
-was	880	883	O
-deposited	884	893	O
-on	894	896	O
-the	897	900	O
-back	901	905	O
-of	906	908	O
-the	909	912	O
-Ge	913	915	B-Material
-wafers	916	922	I-Material
-to	923	925	O
-provide	926	933	O
-an	934	936	O
-ohmic	937	942	B-Material
-contact	943	950	I-Material
-.	950	951	O
-
-After	952	957	O
-preliminary	958	969	O
-measurements	970	982	O
-,	982	983	O
-the	984	987	O
-samples	988	995	B-Material
-were	996	1000	O
-annealed	1001	1009	B-Process
-in	1010	1012	I-Process
-forming	1013	1020	I-Process
-gas	1021	1024	I-Process
-(	1025	1026	O
-FGA	1026	1029	B-Material
-)	1029	1030	O
-at	1031	1033	O
-350	1034	1037	O
-°	1037	1038	O
-C	1038	1039	O
-for	1040	1043	O
-30min	1044	1049	O
-.	1049	1050	O
-
-The	1051	1054	O
-oxide	1055	1060	B-Material
-leakage	1061	1068	I-Material
-current	1069	1076	I-Material
-was	1077	1080	O
-measured	1081	1089	B-Process
-using	1090	1095	O
-a	1096	1097	O
-Keithley	1098	1106	B-Material
-230B	1107	1111	I-Material
-voltage	1112	1119	I-Material
-source	1120	1126	I-Material
-and	1127	1130	O
-Keithley	1131	1139	B-Material
-617B	1140	1144	I-Material
-electrometer	1145	1157	I-Material
-.	1157	1158	O
-
-The	1159	1162	O
-HP	1163	1165	B-Material
-4192A	1166	1171	I-Material
-low	1172	1175	I-Material
-frequency	1176	1185	I-Material
-(	1186	1187	I-Material
-LF	1187	1189	I-Material
-)	1189	1190	I-Material
-impedance	1191	1200	I-Material
-analyzer	1201	1209	I-Material
-at	1210	1212	O
-small	1213	1218	O
-signal	1219	1225	O
-frequencies	1226	1237	O
-between	1238	1245	O
-100Hz	1246	1251	O
-to	1252	1254	O
-1MHz	1255	1259	O
-was	1260	1263	O
-used	1264	1268	O
-to	1269	1271	B-Task
-perform	1272	1279	I-Task
-high	1280	1284	I-Task
-frequency	1285	1294	I-Task
-capacitance	1295	1306	I-Task
-–	1306	1307	I-Task
-voltage	1307	1314	I-Task
-(	1315	1316	I-Task
-HF	1316	1318	I-Task
-CV	1319	1321	I-Task
-)	1321	1322	I-Task
-measurements	1323	1335	I-Task
-.	1335	1336	O
+Ge	0,2	O	B-Material
+(	3,4	O	I-Material
+100	4,7	O	I-Material
+)	7,8	O	I-Material
+wafers	9,15	O	I-Material
+(	16,17	O	O
+n-	17,19	O	B-Material
+and	20,23	O	I-Material
+p	24,25	O	I-Material
+-	25,26	O	I-Material
+type	26,30	O	I-Material
+)	30,31	O	O
+were	32,36	O	O
+cleaned	37,44	O	B-Process
+in	45,47	O	I-Process
+ultra	48,53	O	I-Process
+high	54,58	O	I-Process
+vacuum	59,65	O	I-Process
+(	66,67	O	O
+<	67,68	O	O
+10−6	68,72	O	O
+mbar	72,76	O	O
+)	76,77	O	O
+at	78,80	O	O
+500	81,84	O	O
+°	84,85	O	O
+C	85,86	O	O
+and	87,90	O	O
+600	91,94	O	O
+°	94,95	O	O
+C	95,96	O	O
+for	97,100	O	O
+10min	101,106	O	O
+to	107,109	O	O
+evaporate	110,119	O	B-Process
+any	120,123	O	I-Process
+native	124,130	O	I-Process
+oxide	131,136	O	I-Process
+and	137,140	O	O
+so	141,143	O	O
+achieve	144,151	O	O
+an	152,154	O	O
+oxide	155,160	O	B-Material
+free	161,165	O	I-Material
+surface	166,173	O	I-Material
+.	173,174	O	O
+
+Subsequently	175,187	O	O
+,	187,188	O	O
+wafers	189,195	O	B-Material
+were	196,200	O	O
+exposed	201,208	O	O
+to	209,211	O	O
+an	212,214	O	O
+Al	215,217	O	B-Process
+flux	218,222	O	I-Process
+for	223,226	O	O
+a	227,228	O	O
+range	229,234	O	O
+of	235,237	O	O
+times	238,243	O	O
+to	244,246	O	O
+deposit	247,254	O	O
+ultrathin	255,264	O	B-Material
+Al	265,267	O	I-Material
+layers	268,274	O	I-Material
+.	274,275	O	O
+
+The	276,279	O	O
+samples	280,287	O	B-Material
+were	288,292	O	O
+then	293,297	O	O
+oxidized	298,306	O	B-Process
+at	307,309	O	O
+ambient	310,317	O	O
+temperatures	318,330	O	O
+in	331,333	O	O
+the	334,337	O	O
+MBE	338,341	O	B-Material
+load	342,346	O	I-Material
+lock	347,351	O	I-Material
+to	352,354	O	O
+produce	355,362	O	B-Task
+Al2O3	363,368	O	I-Task
+layers	369,375	O	I-Task
+.	375,376	O	O
+
+The	377,380	O	O
+samples	381,388	O	B-Material
+were	389,393	O	O
+transferred	394,405	O	O
+within	406,412	O	O
+1min	413,417	O	O
+to	418,420	O	O
+an	421,423	O	O
+Oxford	424,430	O	B-Material
+Instruments	431,442	O	I-Material
+OpAL	443,447	O	I-Material
+reactor	448,455	O	I-Material
+and	456,459	O	O
+thin	460,464	O	B-Material
+films	465,470	O	I-Material
+of	471,473	O	I-Material
+HfO2	474,478	O	I-Material
+were	479,483	O	O
+deposited	484,493	O	O
+on	494,496	O	O
+the	497,500	O	O
+Al2O3	501,506	O	B-Material
+using	507,512	O	O
+atomic	513,519	O	B-Process
+layer	520,525	O	I-Process
+deposition	526,536	O	I-Process
+(	537,538	O	O
+ALD	538,541	O	B-Process
+)	541,542	O	O
+.	542,543	O	O
+
+The	544,547	O	O
+HfO2	548,552	O	B-Process
+depositions	553,564	O	I-Process
+used	565,569	O	O
+a	570,571	O	O
+[	572,573	O	B-Material
+(	573,574	O	I-Material
+CpMe)2HfOMeMe	574,587	O	I-Material
+]	587,588	O	I-Material
+precursor	589,598	O	I-Material
+coupled	599,606	O	O
+with	607,611	O	O
+an	612,614	O	O
+O2	615,617	O	B-Material
+plasma	618,624	O	I-Material
+as	625,627	O	O
+the	628,631	O	O
+oxidizing	632,641	O	B-Material
+species	642,649	O	I-Material
+.	649,650	O	O
+
+Between	651,658	O	O
+30	659,661	O	O
+and	662,665	O	O
+130	666,669	O	O
+ALD	670,673	O	O
+cycles	674,680	O	O
+were	681,685	O	O
+used	686,690	O	O
+to	691,693	O	O
+grow	694,698	O	B-Process
+HfO2	699,703	O	I-Process
+thicknesses	704,715	O	I-Process
+from	716,720	O	O
+1.6	721,724	O	O
+to	725,727	O	O
+7	728,729	O	O
+nm	729,731	O	O
+at	732,734	O	O
+250	735,738	O	O
+°	738,739	O	O
+C	739,740	O	O
+.	740,741	O	O
+
+For	742,745	O	O
+electrical	746,756	O	B-Task
+measurements	757,769	O	I-Task
+,	769,770	O	O
+circular	771,779	O	B-Material
+gold	780,784	O	I-Material
+contacts	785,793	O	I-Material
+of	794,796	O	O
+area	797,801	O	O
+1.96×10−3cm2	802,814	O	O
+were	815,819	O	O
+deposited	820,829	O	O
+onto	830,834	O	O
+the	835,838	O	O
+films	839,844	O	B-Material
+to	845,847	O	O
+form	848,852	O	O
+MOS	853,856	O	B-Material
+gate	857,861	O	I-Material
+electrodes	862,872	O	I-Material
+and	873,876	O	O
+Al	877,879	O	B-Material
+was	880,883	O	O
+deposited	884,893	O	O
+on	894,896	O	O
+the	897,900	O	O
+back	901,905	O	O
+of	906,908	O	O
+the	909,912	O	O
+Ge	913,915	O	B-Material
+wafers	916,922	O	I-Material
+to	923,925	O	O
+provide	926,933	O	O
+an	934,936	O	O
+ohmic	937,942	O	B-Material
+contact	943,950	O	I-Material
+.	950,951	O	O
+
+After	952,957	O	O
+preliminary	958,969	O	O
+measurements	970,982	O	O
+,	982,983	O	O
+the	984,987	O	O
+samples	988,995	O	B-Material
+were	996,1000	O	O
+annealed	1001,1009	O	B-Process
+in	1010,1012	O	I-Process
+forming	1013,1020	O	I-Process
+gas	1021,1024	O	I-Process
+(	1025,1026	O	O
+FGA	1026,1029	O	B-Material
+)	1029,1030	O	O
+at	1031,1033	O	O
+350	1034,1037	O	O
+°	1037,1038	O	O
+C	1038,1039	O	O
+for	1040,1043	O	O
+30min	1044,1049	O	O
+.	1049,1050	O	O
+
+The	1051,1054	O	O
+oxide	1055,1060	O	B-Material
+leakage	1061,1068	O	I-Material
+current	1069,1076	O	I-Material
+was	1077,1080	O	O
+measured	1081,1089	O	B-Process
+using	1090,1095	O	O
+a	1096,1097	O	O
+Keithley	1098,1106	O	B-Material
+230B	1107,1111	O	I-Material
+voltage	1112,1119	O	I-Material
+source	1120,1126	O	I-Material
+and	1127,1130	O	O
+Keithley	1131,1139	O	B-Material
+617B	1140,1144	O	I-Material
+electrometer	1145,1157	O	I-Material
+.	1157,1158	O	O
+
+The	1159,1162	O	O
+HP	1163,1165	O	B-Material
+4192A	1166,1171	O	I-Material
+low	1172,1175	O	I-Material
+frequency	1176,1185	O	I-Material
+(	1186,1187	O	I-Material
+LF	1187,1189	O	I-Material
+)	1189,1190	O	I-Material
+impedance	1191,1200	O	I-Material
+analyzer	1201,1209	O	I-Material
+at	1210,1212	O	O
+small	1213,1218	O	O
+signal	1219,1225	O	O
+frequencies	1226,1237	O	O
+between	1238,1245	O	O
+100Hz	1246,1251	O	O
+to	1252,1254	O	O
+1MHz	1255,1259	O	O
+was	1260,1263	O	O
+used	1264,1268	O	O
+to	1269,1271	O	B-Task
+perform	1272,1279	O	I-Task
+high	1280,1284	O	I-Task
+frequency	1285,1294	O	I-Task
+capacitance	1295,1306	O	I-Task
+–	1306,1307	O	I-Task
+voltage	1307,1314	O	I-Task
+(	1315,1316	O	I-Task
+HF	1316,1318	O	I-Task
+CV	1319,1321	O	I-Task
+)	1321,1322	O	I-Task
+measurements	1323,1335	O	I-Task
+.	1335,1336	O	O
 
 
 -DOCSTART- (S0167931713004061)
 
-We	0	2	O
-have	3	7	O
-demonstrated	8	20	O
-a	21	22	O
-new	23	26	O
-approach	27	35	O
-to	36	38	O
-the	39	42	O
-manufacture	43	54	B-Task
-of	55	57	I-Task
-self	58	62	I-Task
--	62	63	I-Task
-folding	63	70	I-Task
-hydrogel	71	79	I-Task
-scaffolds	80	89	I-Task
-by	90	92	O
-the	93	96	O
-use	97	100	O
-of	101	103	O
-readily	104	111	B-Process
-available	112	121	I-Process
-and	122	125	I-Process
-fast	126	130	I-Process
-throughput	131	141	I-Process
-methods	142	149	I-Process
-.	149	150	O
-
-The	151	154	O
-process	155	162	O
-shows	163	168	O
-effective	169	178	B-Process
-pattern	179	186	I-Process
-transfer	187	195	I-Process
-by	196	198	O
-first	199	204	O
-embossing	205	214	B-Process
-a	215	216	I-Process
-sacrificial	217	228	I-Process
-layer	229	234	I-Process
-and	235	238	O
-using	239	244	B-Process
-it	245	247	I-Process
-as	248	250	I-Process
-a	251	252	I-Process
-soluble	253	260	I-Process
-mould	261	266	I-Process
-in	267	269	I-Process
-the	270	273	I-Process
-fabrication	274	285	I-Process
-process	286	293	I-Process
-.	293	294	O
-
-The	295	298	O
-use	299	302	O
-of	303	305	O
-a	306	307	O
-sacrificial	308	319	B-Material
-layer	320	325	I-Material
-of	326	328	I-Material
-PAA	329	332	I-Material
-imparts	333	340	O
-environmental	341	354	O
-sensitivity	355	366	O
-to	367	369	O
-the	370	373	O
-hydrogel	374	382	B-Material
-film	383	387	I-Material
-on	388	390	O
-only	391	395	O
-one	396	399	O
-surface	400	407	B-Material
-.	407	408	O
-
-The	409	412	O
-subsequent	413	423	O
-swelling	424	432	B-Process
-of	433	435	I-Process
-the	436	439	I-Process
-PAA	440	443	I-Process
-inter	444	449	I-Process
--	449	450	I-Process
-penetrating	450	461	I-Process
-network	462	469	I-Process
-(	470	471	O
-IPN	471	474	B-Process
-)	474	475	O
-in	476	478	O
-elevated	479	487	B-Material
-pH	488	490	I-Material
-causes	491	497	O
-a	498	499	O
-swelling	500	508	B-Process
-differential	509	521	I-Process
-across	522	528	O
-the	529	532	O
-film	533	537	B-Material
-,	537	538	O
-causing	539	546	O
-it	547	549	O
-to	550	552	O
-roll	553	557	B-Process
-to	558	560	O
-accommodate	561	572	B-Task
-the	573	576	I-Task
-difference	577	587	I-Task
-in	588	590	I-Task
-surface	591	598	I-Task
-area	599	603	I-Task
-between	604	611	I-Task
-the	612	615	I-Task
-two	616	619	I-Task
-surfaces	620	628	I-Task
-.	628	629	O
-
-The	630	633	O
-surface	634	641	O
-functionalization	642	659	O
-and	660	663	O
-patterning	664	674	O
-stages	675	681	O
-are	682	685	O
-thus	686	690	O
-combined	691	699	O
-into	700	704	O
-one	705	708	O
-photolithographic	709	726	B-Process
-operation	727	736	I-Process
-.	736	737	O
-
-The	738	741	O
-net	742	745	O
-result	746	752	O
-is	753	755	O
-a	756	757	O
-method	758	764	O
-of	765	767	O
-producing	768	777	B-Process
-environmentally	778	793	I-Process
-triggered	794	803	I-Process
-self	804	808	I-Process
--	808	809	I-Process
-folding	809	816	I-Process
-all	817	820	I-Process
-hydrogel	821	829	I-Process
-scaffolds	830	839	I-Process
-by	840	842	O
-a	843	844	O
-,	844	845	O
-to	846	848	O
-the	849	852	O
-authors’	853	861	O
-knowledge	862	871	O
-,	871	872	O
-novel	873	878	B-Task
-use	879	882	I-Task
-of	883	885	I-Task
-sacrificial	886	897	I-Task
-layer	898	903	I-Task
-embossing	904	913	I-Task
-.	913	914	O
-
-The	915	918	O
-patterned	919	928	B-Material
-hydrogel	929	937	I-Material
-films	938	943	I-Material
-can	944	947	O
-be	948	950	O
-triggered	951	960	B-Process
-consecutively	961	974	I-Process
-allowing	975	983	O
-for	984	987	O
-successive	988	998	O
-rolling	999	1006	B-Process
-and	1007	1010	O
-unrolling	1011	1020	B-Process
-depending	1021	1030	O
-on	1031	1033	O
-the	1034	1037	O
-aqueous	1038	1045	B-Material
-pH.	1046	1049	I-Material
-The	1050	1053	O
-choice	1054	1060	O
-of	1061	1063	O
-PEGDMA	1064	1070	B-Material
-hydrogel	1071	1079	I-Material
-provides	1080	1088	O
-a	1089	1090	O
-versatile	1091	1100	B-Material
-platform	1101	1109	I-Material
-for	1110	1113	I-Material
-creating	1114	1122	I-Material
-a	1123	1124	I-Material
-variety	1125	1132	I-Material
-of	1133	1135	I-Material
-hydrogel	1136	1144	I-Material
-scaffolds	1145	1154	I-Material
-,	1154	1155	O
-and	1156	1159	O
-while	1160	1165	O
-being	1166	1171	O
-non	1172	1175	O
--	1175	1176	O
-fouling	1176	1183	O
-and	1184	1187	O
-nontoxic	1188	1196	O
-it	1197	1199	O
-is	1200	1202	O
-permeable	1203	1212	O
-to	1213	1215	O
-proteins	1216	1224	B-Material
-.	1224	1225	O
-
-Furthermore	1226	1237	O
-PEGDMA	1238	1244	B-Material
-can	1245	1248	O
-be	1249	1251	O
-modified	1252	1260	O
-to	1261	1263	O
-produce	1264	1271	B-Task
-biodegradable	1272	1285	I-Task
-and	1286	1289	I-Task
-cell	1290	1294	I-Task
-adhesive	1295	1303	I-Task
-hydrogels	1304	1313	I-Task
-for	1314	1317	O
-a	1318	1319	O
-variety	1320	1327	O
-of	1328	1330	O
-biomedical	1331	1341	B-Task
-applications	1342	1354	I-Task
-.	1354	1355	O
+We	0,2	O	O
+have	3,7	O	O
+demonstrated	8,20	O	O
+a	21,22	O	O
+new	23,26	O	O
+approach	27,35	O	O
+to	36,38	O	O
+the	39,42	O	O
+manufacture	43,54	O	B-Task
+of	55,57	O	I-Task
+self	58,62	O	I-Task
+-	62,63	O	I-Task
+folding	63,70	O	I-Task
+hydrogel	71,79	O	I-Task
+scaffolds	80,89	O	I-Task
+by	90,92	O	O
+the	93,96	O	O
+use	97,100	O	O
+of	101,103	O	O
+readily	104,111	O	B-Process
+available	112,121	O	I-Process
+and	122,125	O	I-Process
+fast	126,130	O	I-Process
+throughput	131,141	O	I-Process
+methods	142,149	O	I-Process
+.	149,150	O	O
+
+The	151,154	O	O
+process	155,162	O	O
+shows	163,168	O	O
+effective	169,178	O	B-Process
+pattern	179,186	O	I-Process
+transfer	187,195	O	I-Process
+by	196,198	O	O
+first	199,204	O	O
+embossing	205,214	O	B-Process
+a	215,216	O	I-Process
+sacrificial	217,228	O	I-Process
+layer	229,234	O	I-Process
+and	235,238	O	O
+using	239,244	O	B-Process
+it	245,247	O	I-Process
+as	248,250	O	I-Process
+a	251,252	O	I-Process
+soluble	253,260	O	I-Process
+mould	261,266	O	I-Process
+in	267,269	O	I-Process
+the	270,273	O	I-Process
+fabrication	274,285	O	I-Process
+process	286,293	O	I-Process
+.	293,294	O	O
+
+The	295,298	O	O
+use	299,302	O	O
+of	303,305	O	O
+a	306,307	O	O
+sacrificial	308,319	O	B-Material
+layer	320,325	O	I-Material
+of	326,328	O	I-Material
+PAA	329,332	O	I-Material
+imparts	333,340	O	O
+environmental	341,354	O	O
+sensitivity	355,366	O	O
+to	367,369	O	O
+the	370,373	O	O
+hydrogel	374,382	O	B-Material
+film	383,387	O	I-Material
+on	388,390	O	O
+only	391,395	O	O
+one	396,399	O	O
+surface	400,407	O	B-Material
+.	407,408	O	O
+
+The	409,412	O	O
+subsequent	413,423	O	O
+swelling	424,432	O	B-Process
+of	433,435	O	I-Process
+the	436,439	O	I-Process
+PAA	440,443	O	I-Process
+inter	444,449	O	I-Process
+-	449,450	O	I-Process
+penetrating	450,461	O	I-Process
+network	462,469	O	I-Process
+(	470,471	O	O
+IPN	471,474	O	B-Process
+)	474,475	O	O
+in	476,478	O	O
+elevated	479,487	O	B-Material
+pH	488,490	O	I-Material
+causes	491,497	O	O
+a	498,499	O	O
+swelling	500,508	O	B-Process
+differential	509,521	O	I-Process
+across	522,528	O	O
+the	529,532	O	O
+film	533,537	O	B-Material
+,	537,538	O	O
+causing	539,546	O	O
+it	547,549	O	O
+to	550,552	O	O
+roll	553,557	O	B-Process
+to	558,560	O	O
+accommodate	561,572	O	B-Task
+the	573,576	O	I-Task
+difference	577,587	O	I-Task
+in	588,590	O	I-Task
+surface	591,598	O	I-Task
+area	599,603	O	I-Task
+between	604,611	O	I-Task
+the	612,615	O	I-Task
+two	616,619	O	I-Task
+surfaces	620,628	O	I-Task
+.	628,629	O	O
+
+The	630,633	O	O
+surface	634,641	O	O
+functionalization	642,659	O	O
+and	660,663	O	O
+patterning	664,674	O	O
+stages	675,681	O	O
+are	682,685	O	O
+thus	686,690	O	O
+combined	691,699	O	O
+into	700,704	O	O
+one	705,708	O	O
+photolithographic	709,726	O	B-Process
+operation	727,736	O	I-Process
+.	736,737	O	O
+
+The	738,741	O	O
+net	742,745	O	O
+result	746,752	O	O
+is	753,755	O	O
+a	756,757	O	O
+method	758,764	O	O
+of	765,767	O	O
+producing	768,777	O	B-Process
+environmentally	778,793	O	I-Process
+triggered	794,803	O	I-Process
+self	804,808	O	I-Process
+-	808,809	O	I-Process
+folding	809,816	O	I-Process
+all	817,820	O	I-Process
+hydrogel	821,829	O	I-Process
+scaffolds	830,839	O	I-Process
+by	840,842	O	O
+a	843,844	O	O
+,	844,845	O	O
+to	846,848	O	O
+the	849,852	O	O
+authors’	853,861	O	O
+knowledge	862,871	O	O
+,	871,872	O	O
+novel	873,878	O	B-Task
+use	879,882	O	I-Task
+of	883,885	O	I-Task
+sacrificial	886,897	O	I-Task
+layer	898,903	O	I-Task
+embossing	904,913	O	I-Task
+.	913,914	O	O
+
+The	915,918	O	O
+patterned	919,928	O	B-Material
+hydrogel	929,937	O	I-Material
+films	938,943	O	I-Material
+can	944,947	O	O
+be	948,950	O	O
+triggered	951,960	O	B-Process
+consecutively	961,974	O	I-Process
+allowing	975,983	O	O
+for	984,987	O	O
+successive	988,998	O	O
+rolling	999,1006	O	B-Process
+and	1007,1010	O	O
+unrolling	1011,1020	O	B-Process
+depending	1021,1030	O	O
+on	1031,1033	O	O
+the	1034,1037	O	O
+aqueous	1038,1045	O	B-Material
+pH.	1046,1049	O	I-Material
+The	1050,1053	O	O
+choice	1054,1060	O	O
+of	1061,1063	O	O
+PEGDMA	1064,1070	O	B-Material
+hydrogel	1071,1079	O	I-Material
+provides	1080,1088	O	O
+a	1089,1090	O	O
+versatile	1091,1100	O	B-Material
+platform	1101,1109	O	I-Material
+for	1110,1113	O	I-Material
+creating	1114,1122	O	I-Material
+a	1123,1124	O	I-Material
+variety	1125,1132	O	I-Material
+of	1133,1135	O	I-Material
+hydrogel	1136,1144	O	I-Material
+scaffolds	1145,1154	O	I-Material
+,	1154,1155	O	O
+and	1156,1159	O	O
+while	1160,1165	O	O
+being	1166,1171	O	O
+non	1172,1175	O	O
+-	1175,1176	O	O
+fouling	1176,1183	O	O
+and	1184,1187	O	O
+nontoxic	1188,1196	O	O
+it	1197,1199	O	O
+is	1200,1202	O	O
+permeable	1203,1212	O	O
+to	1213,1215	O	O
+proteins	1216,1224	O	B-Material
+.	1224,1225	O	O
+
+Furthermore	1226,1237	O	O
+PEGDMA	1238,1244	O	B-Material
+can	1245,1248	O	O
+be	1249,1251	O	O
+modified	1252,1260	O	O
+to	1261,1263	O	O
+produce	1264,1271	O	B-Task
+biodegradable	1272,1285	O	I-Task
+and	1286,1289	O	I-Task
+cell	1290,1294	O	I-Task
+adhesive	1295,1303	O	I-Task
+hydrogels	1304,1313	O	I-Task
+for	1314,1317	O	O
+a	1318,1319	O	O
+variety	1320,1327	O	O
+of	1328,1330	O	O
+biomedical	1331,1341	O	B-Task
+applications	1342,1354	O	I-Task
+.	1354,1355	O	O
 
 
 -DOCSTART- (S0167931713004991)
 
-The	0	3	O
-number	4	10	O
-of	11	13	O
-experiments	14	25	O
-conducted	26	35	O
-was	36	39	O
-reduced	40	47	O
-by	48	50	O
-selecting	51	60	O
-the	61	64	O
-four	65	69	O
-most	70	74	O
-important	75	84	O
-parameters	85	95	O
-for	96	99	O
-variation	100	109	O
-,	109	110	O
-Table	111	116	O
-1	117	118	O
-while	119	124	O
-the	125	128	O
-remaining	129	138	O
-parameters	139	149	O
-were	150	154	O
-kept	155	159	O
-constant	160	168	O
-.	168	169	O
-
-The	170	173	O
-O2	174	176	O
-flow	177	181	O
-rate	182	186	O
-(	187	188	O
-QO2	188	191	O
-)	191	192	O
-was	193	196	O
-keep	197	201	O
-constant	202	210	O
-at	211	213	O
-99sccm	214	220	O
-,	220	221	O
-while	222	227	O
-the	228	231	O
-SF6	232	235	O
-flow	236	240	O
-rate	241	245	O
-(	246	247	O
-QSF6	247	251	O
-)	251	252	O
-was	253	256	O
-varied	257	263	O
-between	264	271	O
-0	272	273	O
-and	274	277	O
-20sccm	278	284	O
-.	284	285	O
-
-The	286	289	O
-pressure	290	298	B-Process
-in	299	301	I-Process
-the	302	305	I-Process
-etch	306	310	I-Process
-chamber	311	318	I-Process
-was	319	322	O
-controlled	323	333	O
-to	334	336	O
-keep	337	341	B-Task
-the	342	345	I-Task
-gas	346	349	I-Task
-density	350	357	I-Task
-stable	358	364	I-Task
-.	364	365	O
-
-Since	366	371	O
-the	372	375	O
-pressure	376	384	O
-has	385	388	O
-a	389	390	O
-pronounced	391	401	O
-effect	402	408	O
-on	409	411	O
-etch	412	416	O
-characteristics	417	432	O
-,	432	433	O
-the	434	437	O
-pressure	438	446	O
-(	447	448	O
-p	448	449	O
-)	449	450	O
-was	451	454	O
-varied	455	461	O
-between	462	469	O
-20	470	472	O
-and	473	476	O
-40mTorr	477	484	O
-.	484	485	O
-
-It	486	488	O
-should	489	495	O
-be	496	498	O
-noted	499	504	O
-that	505	509	O
-the	510	513	O
-system	514	520	O
-was	521	524	O
-run	525	528	O
-in	529	531	O
-automatic	532	541	B-Process
-pressure	542	550	I-Process
-control	551	558	I-Process
-mode	559	563	O
-,	563	564	O
-which	565	570	O
-continuously	571	583	O
-adjusts	584	591	B-Process
-the	592	595	I-Process
-throttle	596	604	I-Process
-valve	605	610	I-Process
-to	611	613	O
-keep	614	618	O
-a	619	620	O
-constant	621	629	O
-pressure	630	638	O
-during	639	645	O
-etch	646	650	O
-.	650	651	O
-
-The	652	655	O
-coil	656	660	O
-power	661	666	O
-(	667	668	O
-PC	668	670	O
-)	670	671	O
-was	672	675	O
-fixed	676	681	O
-at	682	684	O
-1000W	685	690	O
-,	690	691	O
-while	692	697	O
-the	698	701	O
-bias	702	706	O
-power	707	712	O
-(	713	714	O
-PB	714	716	O
-)	716	717	O
-was	718	721	O
-varied	722	728	O
-between	729	736	O
-0	737	738	O
-and	739	742	O
-30W.	743	747	O
-Finally	748	755	O
-,	755	756	O
-the	757	760	O
-substrate	761	770	O
-chuck	771	776	O
-temperature	777	788	O
-(	789	790	O
-T	790	791	O
-)	791	792	O
-was	793	796	O
-controlled	797	807	O
-between	808	815	O
-10	816	818	O
-and	819	822	O
-50	823	825	O
-°	825	826	O
-C	826	827	O
-.	827	828	O
-
-This	829	833	O
-design	834	840	O
-resulted	841	849	O
-in	850	852	O
-a	853	854	O
-full	855	859	O
-factorial	860	869	B-Process
-screening	870	879	I-Process
-in	880	882	O
-four	883	887	O
-parameters	888	898	O
-,	898	899	O
-where	900	905	O
-three	906	911	O
-center	912	918	O
-points	919	925	O
-were	926	930	O
-used	931	935	O
-to	936	938	O
-check	939	944	B-Process
-for	945	948	I-Process
-quadratic	949	958	I-Process
-curvature	959	968	I-Process
-,	968	969	O
-where	970	975	O
-the	976	979	O
-quadratic	980	989	O
-term	990	994	O
-of	995	997	O
-a	998	999	O
-parameter	1000	1009	O
-is	1010	1012	O
-needed	1013	1019	O
-to	1020	1022	O
-generate	1023	1031	O
-a	1032	1033	O
-valid	1034	1039	O
-model	1040	1045	O
-.	1045	1046	O
-
-The	1047	1050	O
-total	1051	1056	O
-number	1057	1063	O
-of	1064	1066	O
-experiments	1067	1078	O
-in	1079	1081	O
-this	1082	1086	O
-setup	1087	1092	O
-is	1093	1095	O
-19	1096	1098	O
-,	1098	1099	O
-which	1100	1105	O
-were	1106	1110	O
-processed	1111	1120	O
-for	1121	1124	O
-20min	1125	1130	O
-each	1131	1135	O
-.	1135	1136	O
-
-The	1137	1140	O
-experiments	1141	1152	O
-in	1153	1155	O
-the	1156	1159	O
-design	1160	1166	O
-were	1167	1171	O
-carried	1172	1179	O
-out	1180	1183	O
-in	1184	1186	O
-random	1187	1193	O
-order	1194	1199	O
-.	1199	1200	O
+The	0,3	O	O
+number	4,10	O	O
+of	11,13	O	O
+experiments	14,25	O	O
+conducted	26,35	O	O
+was	36,39	O	O
+reduced	40,47	O	O
+by	48,50	O	O
+selecting	51,60	O	O
+the	61,64	O	O
+four	65,69	O	O
+most	70,74	O	O
+important	75,84	O	O
+parameters	85,95	O	O
+for	96,99	O	O
+variation	100,109	O	O
+,	109,110	O	O
+Table	111,116	O	O
+1	117,118	O	O
+while	119,124	O	O
+the	125,128	O	O
+remaining	129,138	O	O
+parameters	139,149	O	O
+were	150,154	O	O
+kept	155,159	O	O
+constant	160,168	O	O
+.	168,169	O	O
+
+The	170,173	O	O
+O2	174,176	O	O
+flow	177,181	O	O
+rate	182,186	O	O
+(	187,188	O	O
+QO2	188,191	O	O
+)	191,192	O	O
+was	193,196	O	O
+keep	197,201	O	O
+constant	202,210	O	O
+at	211,213	O	O
+99sccm	214,220	O	O
+,	220,221	O	O
+while	222,227	O	O
+the	228,231	O	O
+SF6	232,235	O	O
+flow	236,240	O	O
+rate	241,245	O	O
+(	246,247	O	O
+QSF6	247,251	O	O
+)	251,252	O	O
+was	253,256	O	O
+varied	257,263	O	O
+between	264,271	O	O
+0	272,273	O	O
+and	274,277	O	O
+20sccm	278,284	O	O
+.	284,285	O	O
+
+The	286,289	O	O
+pressure	290,298	O	B-Process
+in	299,301	O	I-Process
+the	302,305	O	I-Process
+etch	306,310	O	I-Process
+chamber	311,318	O	I-Process
+was	319,322	O	O
+controlled	323,333	O	O
+to	334,336	O	O
+keep	337,341	O	B-Task
+the	342,345	O	I-Task
+gas	346,349	O	I-Task
+density	350,357	O	I-Task
+stable	358,364	O	I-Task
+.	364,365	O	O
+
+Since	366,371	O	O
+the	372,375	O	O
+pressure	376,384	O	O
+has	385,388	O	O
+a	389,390	O	O
+pronounced	391,401	O	O
+effect	402,408	O	O
+on	409,411	O	O
+etch	412,416	O	O
+characteristics	417,432	O	O
+,	432,433	O	O
+the	434,437	O	O
+pressure	438,446	O	O
+(	447,448	O	O
+p	448,449	O	O
+)	449,450	O	O
+was	451,454	O	O
+varied	455,461	O	O
+between	462,469	O	O
+20	470,472	O	O
+and	473,476	O	O
+40mTorr	477,484	O	O
+.	484,485	O	O
+
+It	486,488	O	O
+should	489,495	O	O
+be	496,498	O	O
+noted	499,504	O	O
+that	505,509	O	O
+the	510,513	O	O
+system	514,520	O	O
+was	521,524	O	O
+run	525,528	O	O
+in	529,531	O	O
+automatic	532,541	O	B-Process
+pressure	542,550	O	I-Process
+control	551,558	O	I-Process
+mode	559,563	O	O
+,	563,564	O	O
+which	565,570	O	O
+continuously	571,583	O	O
+adjusts	584,591	O	B-Process
+the	592,595	O	I-Process
+throttle	596,604	O	I-Process
+valve	605,610	O	I-Process
+to	611,613	O	O
+keep	614,618	O	O
+a	619,620	O	O
+constant	621,629	O	O
+pressure	630,638	O	O
+during	639,645	O	O
+etch	646,650	O	O
+.	650,651	O	O
+
+The	652,655	O	O
+coil	656,660	O	O
+power	661,666	O	O
+(	667,668	O	O
+PC	668,670	O	O
+)	670,671	O	O
+was	672,675	O	O
+fixed	676,681	O	O
+at	682,684	O	O
+1000W	685,690	O	O
+,	690,691	O	O
+while	692,697	O	O
+the	698,701	O	O
+bias	702,706	O	O
+power	707,712	O	O
+(	713,714	O	O
+PB	714,716	O	O
+)	716,717	O	O
+was	718,721	O	O
+varied	722,728	O	O
+between	729,736	O	O
+0	737,738	O	O
+and	739,742	O	O
+30W.	743,747	O	O
+Finally	748,755	O	O
+,	755,756	O	O
+the	757,760	O	O
+substrate	761,770	O	O
+chuck	771,776	O	O
+temperature	777,788	O	O
+(	789,790	O	O
+T	790,791	O	O
+)	791,792	O	O
+was	793,796	O	O
+controlled	797,807	O	O
+between	808,815	O	O
+10	816,818	O	O
+and	819,822	O	O
+50	823,825	O	O
+°	825,826	O	O
+C	826,827	O	O
+.	827,828	O	O
+
+This	829,833	O	O
+design	834,840	O	O
+resulted	841,849	O	O
+in	850,852	O	O
+a	853,854	O	O
+full	855,859	O	O
+factorial	860,869	O	B-Process
+screening	870,879	O	I-Process
+in	880,882	O	O
+four	883,887	O	O
+parameters	888,898	O	O
+,	898,899	O	O
+where	900,905	O	O
+three	906,911	O	O
+center	912,918	O	O
+points	919,925	O	O
+were	926,930	O	O
+used	931,935	O	O
+to	936,938	O	O
+check	939,944	O	B-Process
+for	945,948	O	I-Process
+quadratic	949,958	O	I-Process
+curvature	959,968	O	I-Process
+,	968,969	O	O
+where	970,975	O	O
+the	976,979	O	O
+quadratic	980,989	O	O
+term	990,994	O	O
+of	995,997	O	O
+a	998,999	O	O
+parameter	1000,1009	O	O
+is	1010,1012	O	O
+needed	1013,1019	O	O
+to	1020,1022	O	O
+generate	1023,1031	O	O
+a	1032,1033	O	O
+valid	1034,1039	O	O
+model	1040,1045	O	O
+.	1045,1046	O	O
+
+The	1047,1050	O	O
+total	1051,1056	O	O
+number	1057,1063	O	O
+of	1064,1066	O	O
+experiments	1067,1078	O	O
+in	1079,1081	O	O
+this	1082,1086	O	O
+setup	1087,1092	O	O
+is	1093,1095	O	O
+19	1096,1098	O	O
+,	1098,1099	O	O
+which	1100,1105	O	O
+were	1106,1110	O	O
+processed	1111,1120	O	O
+for	1121,1124	O	O
+20min	1125,1130	O	O
+each	1131,1135	O	O
+.	1135,1136	O	O
+
+The	1137,1140	O	O
+experiments	1141,1152	O	O
+in	1153,1155	O	O
+the	1156,1159	O	O
+design	1160,1166	O	O
+were	1167,1171	O	O
+carried	1172,1179	O	O
+out	1180,1183	O	O
+in	1184,1186	O	O
+random	1187,1193	O	O
+order	1194,1199	O	O
+.	1199,1200	O	O
 
 
 -DOCSTART- (S0167931713005042)
 
-We	0	2	O
-used	3	7	O
-2μm	8	11	O
-of	12	14	O
-ultra	15	20	B-Material
--	20	21	I-Material
-nanocrystalline	21	36	I-Material
-diamond	37	44	I-Material
-(	45	46	O
-UNCD	46	50	B-Material
-)	50	51	O
-grown	52	57	O
-by	58	60	O
-chemical	61	69	B-Process
-vapour	70	76	I-Process
-deposition	77	87	I-Process
-(	88	89	O
-CVD	89	92	B-Process
-)	92	93	O
-on	94	96	O
-a	97	98	O
-∼520μm	99	105	O
-silicon	106	113	O
-carrier	114	121	O
-wafer	122	127	O
-from	128	132	O
-Advanced	133	141	O
-Diamond	142	149	O
-Technologies	150	162	O
-Ltd.	163	167	O
-Detailed	168	176	O
-information	177	188	O
-about	189	194	O
-the	195	198	O
-material	199	207	O
-and	208	211	O
-the	212	215	O
-stamp	216	221	O
-fabrication	222	233	O
-can	234	237	O
-be	238	240	O
-found	241	246	O
-in	247	249	O
-our	250	253	O
-earlier	254	261	O
-paper	262	267	O
-[	268	269	O
-16	269	271	O
-]	271	272	O
-.	272	273	O
-
-The	274	277	O
-UNCD	278	282	B-Material
-wafer	283	288	I-Material
-was	289	292	O
-scribed	293	300	O
-into	301	305	O
-1×1cm2	306	312	O
-samples	313	320	O
-and	321	324	O
-subjected	325	334	O
-to	335	337	O
-RCA	338	341	B-Process
-cleaning	342	350	I-Process
-(	351	352	O
-SC-1	352	356	O
-)	356	357	O
-,	357	358	O
-followed	359	367	O
-by	368	370	O
-ultrasonic	371	381	B-Process
-solvent	382	389	I-Process
-cleaning	390	398	I-Process
-.	398	399	O
-
-Nanofeature	400	411	O
-stamps	412	418	O
-were	419	423	O
-then	424	428	O
-created	429	436	O
-from	437	441	O
-the	442	445	O
-samples	446	453	O
-using	454	459	O
-conventional	460	472	B-Process
-electron	473	481	I-Process
-beam	482	486	I-Process
-lithography	487	498	I-Process
-(	499	500	O
-EBL	500	503	B-Process
-)	503	504	O
-with	505	509	O
-negative	510	518	B-Material
-tone	519	523	I-Material
-electron	524	532	I-Material
-sensitive	533	542	I-Material
-resist	543	549	I-Material
-,	549	550	O
-hydrogen	551	559	B-Material
-silsesquioxane	560	574	I-Material
-(	575	576	O
-HSQ	576	579	B-Material
-)	579	580	O
-.	580	581	O
-
-An	582	584	O
-Al	585	587	B-Material
-discharge	588	597	I-Material
-layer	598	603	I-Material
-was	604	607	O
-required	608	616	O
-above	617	622	O
-the	623	626	O
-resist	627	633	O
-to	634	636	O
-prevent	637	644	B-Task
-e	645	646	I-Task
--	646	647	I-Task
-beam	647	651	I-Task
-deflection	652	662	I-Task
-due	663	666	I-Task
-to	667	669	I-Task
-charge	670	676	I-Task
-build	677	682	I-Task
--	682	683	I-Task
-up	683	685	I-Task
-on	686	688	I-Task
-the	689	692	I-Task
-surface	693	700	I-Task
-[	701	702	O
-17	702	704	O
-]	704	705	O
-.	705	706	O
-
-Several	707	714	B-Task
-stamps	715	721	I-Task
-were	722	726	I-Task
-produced	727	735	I-Task
-with	736	740	O
-this	741	745	O
-process	746	753	O
-and	754	757	O
-the	758	761	O
-pattern	762	769	O
-written	770	777	O
-varied	778	784	O
-in	785	787	O
-design	788	794	O
-but	795	798	O
-consisted	799	808	O
-of	809	811	O
-arrays	812	818	O
-of	819	821	O
-circular	822	830	B-Material
-pillars	831	838	I-Material
-.	838	839	O
-
-After	840	845	O
-EBL	846	849	B-Task
-and	850	853	I-Task
-HSQ	854	857	I-Task
-development	858	869	I-Task
-,	869	870	I-Task
-the	871	874	I-Task
-HSQ	875	878	B-Material
-was	879	882	O
-used	883	887	O
-as	888	890	O
-an	891	893	O
-etch	894	898	B-Material
-mask	899	903	I-Material
-for	904	907	O
-RIE	908	911	B-Material
-with	912	916	O
-a	917	918	O
-mixture	919	926	O
-of	927	929	O
-oxygen	930	936	B-Material
-and	937	940	O
-argon	941	946	B-Material
-gas	947	950	I-Material
-.	950	951	O
-
-The	952	955	O
-etched	956	962	B-Material
-diamond	963	970	I-Material
-nanopillars	971	982	I-Material
-were	983	987	O
-typically	988	997	O
-225	998	1001	O
-nm	1001	1003	O
-high	1004	1008	O
-.	1008	1009	O
-
-Fig	1010	1013	O
-.	1013	1014	O
-
-1	1015	1016	O
-displays	1017	1025	O
-a	1026	1027	O
-scanning	1028	1036	B-Material
-electron	1037	1045	I-Material
-micrograph	1046	1056	I-Material
-of	1057	1059	O
-some	1060	1064	O
-typical	1065	1072	O
-stamp	1073	1078	O
-features	1079	1087	O
-.	1087	1088	O
+We	0,2	O	O
+used	3,7	O	O
+2μm	8,11	O	O
+of	12,14	O	O
+ultra	15,20	O	B-Material
+-	20,21	O	I-Material
+nanocrystalline	21,36	O	I-Material
+diamond	37,44	O	I-Material
+(	45,46	O	O
+UNCD	46,50	O	B-Material
+)	50,51	O	O
+grown	52,57	O	O
+by	58,60	O	O
+chemical	61,69	O	B-Process
+vapour	70,76	O	I-Process
+deposition	77,87	O	I-Process
+(	88,89	O	O
+CVD	89,92	O	B-Process
+)	92,93	O	O
+on	94,96	O	O
+a	97,98	O	O
+∼520μm	99,105	O	O
+silicon	106,113	O	O
+carrier	114,121	O	O
+wafer	122,127	O	O
+from	128,132	O	O
+Advanced	133,141	O	O
+Diamond	142,149	O	O
+Technologies	150,162	O	O
+Ltd.	163,167	O	O
+Detailed	168,176	O	O
+information	177,188	O	O
+about	189,194	O	O
+the	195,198	O	O
+material	199,207	O	O
+and	208,211	O	O
+the	212,215	O	O
+stamp	216,221	O	O
+fabrication	222,233	O	O
+can	234,237	O	O
+be	238,240	O	O
+found	241,246	O	O
+in	247,249	O	O
+our	250,253	O	O
+earlier	254,261	O	O
+paper	262,267	O	O
+[	268,269	O	O
+16	269,271	O	O
+]	271,272	O	O
+.	272,273	O	O
+
+The	274,277	O	O
+UNCD	278,282	O	B-Material
+wafer	283,288	O	I-Material
+was	289,292	O	O
+scribed	293,300	O	O
+into	301,305	O	O
+1×1cm2	306,312	O	O
+samples	313,320	O	O
+and	321,324	O	O
+subjected	325,334	O	O
+to	335,337	O	O
+RCA	338,341	O	B-Process
+cleaning	342,350	O	I-Process
+(	351,352	O	O
+SC-1	352,356	O	O
+)	356,357	O	O
+,	357,358	O	O
+followed	359,367	O	O
+by	368,370	O	O
+ultrasonic	371,381	O	B-Process
+solvent	382,389	O	I-Process
+cleaning	390,398	O	I-Process
+.	398,399	O	O
+
+Nanofeature	400,411	O	O
+stamps	412,418	O	O
+were	419,423	O	O
+then	424,428	O	O
+created	429,436	O	O
+from	437,441	O	O
+the	442,445	O	O
+samples	446,453	O	O
+using	454,459	O	O
+conventional	460,472	O	B-Process
+electron	473,481	O	I-Process
+beam	482,486	O	I-Process
+lithography	487,498	O	I-Process
+(	499,500	O	O
+EBL	500,503	O	B-Process
+)	503,504	O	O
+with	505,509	O	O
+negative	510,518	O	B-Material
+tone	519,523	O	I-Material
+electron	524,532	O	I-Material
+sensitive	533,542	O	I-Material
+resist	543,549	O	I-Material
+,	549,550	O	O
+hydrogen	551,559	O	B-Material
+silsesquioxane	560,574	O	I-Material
+(	575,576	O	O
+HSQ	576,579	O	B-Material
+)	579,580	O	O
+.	580,581	O	O
+
+An	582,584	O	O
+Al	585,587	O	B-Material
+discharge	588,597	O	I-Material
+layer	598,603	O	I-Material
+was	604,607	O	O
+required	608,616	O	O
+above	617,622	O	O
+the	623,626	O	O
+resist	627,633	O	O
+to	634,636	O	O
+prevent	637,644	O	B-Task
+e	645,646	O	I-Task
+-	646,647	O	I-Task
+beam	647,651	O	I-Task
+deflection	652,662	O	I-Task
+due	663,666	O	I-Task
+to	667,669	O	I-Task
+charge	670,676	O	I-Task
+build	677,682	O	I-Task
+-	682,683	O	I-Task
+up	683,685	O	I-Task
+on	686,688	O	I-Task
+the	689,692	O	I-Task
+surface	693,700	O	I-Task
+[	701,702	O	O
+17	702,704	O	O
+]	704,705	O	O
+.	705,706	O	O
+
+Several	707,714	O	B-Task
+stamps	715,721	O	I-Task
+were	722,726	O	I-Task
+produced	727,735	O	I-Task
+with	736,740	O	O
+this	741,745	O	O
+process	746,753	O	O
+and	754,757	O	O
+the	758,761	O	O
+pattern	762,769	O	O
+written	770,777	O	O
+varied	778,784	O	O
+in	785,787	O	O
+design	788,794	O	O
+but	795,798	O	O
+consisted	799,808	O	O
+of	809,811	O	O
+arrays	812,818	O	O
+of	819,821	O	O
+circular	822,830	O	B-Material
+pillars	831,838	O	I-Material
+.	838,839	O	O
+
+After	840,845	O	O
+EBL	846,849	O	B-Task
+and	850,853	O	I-Task
+HSQ	854,857	O	I-Task
+development	858,869	O	I-Task
+,	869,870	O	I-Task
+the	871,874	O	I-Task
+HSQ	875,878	O	B-Material
+was	879,882	O	O
+used	883,887	O	O
+as	888,890	O	O
+an	891,893	O	O
+etch	894,898	O	B-Material
+mask	899,903	O	I-Material
+for	904,907	O	O
+RIE	908,911	O	B-Material
+with	912,916	O	O
+a	917,918	O	O
+mixture	919,926	O	O
+of	927,929	O	O
+oxygen	930,936	O	B-Material
+and	937,940	O	O
+argon	941,946	O	B-Material
+gas	947,950	O	I-Material
+.	950,951	O	O
+
+The	952,955	O	O
+etched	956,962	O	B-Material
+diamond	963,970	O	I-Material
+nanopillars	971,982	O	I-Material
+were	983,987	O	O
+typically	988,997	O	O
+225	998,1001	O	O
+nm	1001,1003	O	O
+high	1004,1008	O	O
+.	1008,1009	O	O
+
+Fig	1010,1013	O	O
+.	1013,1014	O	O
+
+1	1015,1016	O	O
+displays	1017,1025	O	O
+a	1026,1027	O	O
+scanning	1028,1036	O	B-Material
+electron	1037,1045	O	I-Material
+micrograph	1046,1056	O	I-Material
+of	1057,1059	O	O
+some	1060,1064	O	O
+typical	1065,1072	O	O
+stamp	1073,1078	O	O
+features	1079,1087	O	O
+.	1087,1088	O	O
 
 
 -DOCSTART- (S0167931713006904)
 
-Copper	0	6	B-Task
-electro	7	14	I-Task
--	14	15	I-Task
-chemical	15	23	I-Task
-deposition	24	34	I-Task
-(	35	36	I-Task
-ECD	36	39	I-Task
-)	39	40	I-Task
-of	41	43	I-Task
-through	44	51	I-Task
-silicon	52	59	I-Task
-via	60	63	I-Task
-(	64	65	I-Task
-TSV	65	68	I-Task
-)	68	69	I-Task
-is	70	72	O
-a	73	74	O
-key	75	78	O
-challenge	79	88	O
-of	89	91	O
-3D	92	94	B-Task
-integration	95	106	I-Task
-.	106	107	O
-
-This	108	112	O
-paper	113	118	O
-presents	119	127	O
-a	128	129	O
-numerical	130	139	B-Process
-modeling	140	148	I-Process
-of	149	151	I-Process
-TSV	152	155	I-Process
-filling	156	163	I-Process
-concerning	164	174	O
-the	175	178	O
-influence	179	188	O
-of	189	191	O
-the	192	195	O
-accelerator	196	207	B-Material
-and	208	211	I-Material
-the	212	215	I-Material
-suppressor	216	226	I-Material
-.	226	227	I-Material
-
-The	228	231	O
-diffusion	232	241	B-Process
-–	241	242	I-Process
-adsorption	242	252	I-Process
-model	253	258	I-Process
-was	259	262	O
-used	263	267	O
-in	268	270	O
-the	271	274	O
-simulation	275	285	B-Process
-and	286	289	I-Process
-effects	290	297	I-Process
-of	298	300	I-Process
-the	301	304	I-Process
-additives	305	314	I-Process
-were	315	319	O
-incorporated	320	332	O
-in	333	335	O
-the	336	339	O
-model	340	345	O
-.	345	346	O
-
-The	347	350	O
-boundary	351	359	O
-conditions	360	370	O
-were	371	375	O
-derived	376	383	O
-from	384	388	O
-a	389	390	O
-set	391	394	B-Material
-of	395	397	I-Material
-experimental	398	410	I-Material
-Tafel	411	416	I-Material
-curves	417	423	I-Material
-with	424	428	O
-different	429	438	O
-concentrations	439	453	O
-of	454	456	O
-additives	457	466	B-Material
-,	466	467	O
-which	468	473	O
-provided	474	482	O
-a	483	484	O
-quick	485	490	O
-and	491	494	O
-accurate	495	503	O
-way	504	507	O
-for	508	511	O
-copper	512	518	B-Process
-ECD	519	522	I-Process
-process	523	530	I-Process
-prediction	531	541	I-Process
-without	542	549	O
-complicated	550	561	O
-surface	562	569	O
-kinetic	570	577	O
-parameters	578	588	O
-fitting	589	596	O
-.	596	597	O
-
-The	598	601	O
-level	602	607	B-Process
-set	608	611	I-Process
-method	612	618	I-Process
-(	619	620	O
-LSM	620	623	B-Process
-)	623	624	O
-was	625	628	O
-employed	629	637	O
-to	638	640	O
-track	641	646	B-Task
-the	647	650	I-Task
-copper	651	657	I-Task
-and	658	661	I-Task
-electrolyte	662	673	I-Task
-interface	674	683	I-Task
-.	683	684	O
-
-The	685	688	O
-simulation	689	699	B-Process
-results	700	707	O
-were	708	712	O
-in	713	715	O
-good	716	720	O
-agreement	721	730	O
-with	731	735	O
-the	736	739	O
-experiments	740	751	O
-.	751	752	O
-
-For	753	756	O
-a	757	758	O
-given	759	764	O
-feature	765	772	O
-size	773	777	O
-,	777	778	O
-the	779	782	O
-current	783	790	O
-density	791	798	O
-for	799	802	O
-superfilling	803	815	B-Material
-could	816	821	O
-be	822	824	O
-predicted	825	834	O
-,	834	835	O
-which	836	841	O
-provided	842	850	O
-a	851	852	O
-guideline	853	862	O
-for	863	866	O
-ECD	867	870	B-Process
-process	871	878	I-Process
-optimization	879	891	I-Process
-.	891	892	O
+Copper	0,6	O	B-Task
+electro	7,14	O	I-Task
+-	14,15	O	I-Task
+chemical	15,23	O	I-Task
+deposition	24,34	O	I-Task
+(	35,36	O	I-Task
+ECD	36,39	O	I-Task
+)	39,40	O	I-Task
+of	41,43	O	I-Task
+through	44,51	O	I-Task
+silicon	52,59	O	I-Task
+via	60,63	O	I-Task
+(	64,65	O	I-Task
+TSV	65,68	O	I-Task
+)	68,69	O	I-Task
+is	70,72	O	O
+a	73,74	O	O
+key	75,78	O	O
+challenge	79,88	O	O
+of	89,91	O	O
+3D	92,94	O	B-Task
+integration	95,106	O	I-Task
+.	106,107	O	O
+
+This	108,112	O	O
+paper	113,118	O	O
+presents	119,127	O	O
+a	128,129	O	O
+numerical	130,139	O	B-Process
+modeling	140,148	O	I-Process
+of	149,151	O	I-Process
+TSV	152,155	O	I-Process
+filling	156,163	O	I-Process
+concerning	164,174	O	O
+the	175,178	O	O
+influence	179,188	O	O
+of	189,191	O	O
+the	192,195	O	O
+accelerator	196,207	O	B-Material
+and	208,211	O	I-Material
+the	212,215	O	I-Material
+suppressor	216,226	O	I-Material
+.	226,227	O	I-Material
+
+The	228,231	O	O
+diffusion	232,241	O	B-Process
+–	241,242	O	I-Process
+adsorption	242,252	O	I-Process
+model	253,258	O	I-Process
+was	259,262	O	O
+used	263,267	O	O
+in	268,270	O	O
+the	271,274	O	O
+simulation	275,285	O	B-Process
+and	286,289	O	I-Process
+effects	290,297	O	I-Process
+of	298,300	O	I-Process
+the	301,304	O	I-Process
+additives	305,314	O	I-Process
+were	315,319	O	O
+incorporated	320,332	O	O
+in	333,335	O	O
+the	336,339	O	O
+model	340,345	O	O
+.	345,346	O	O
+
+The	347,350	O	O
+boundary	351,359	O	O
+conditions	360,370	O	O
+were	371,375	O	O
+derived	376,383	O	O
+from	384,388	O	O
+a	389,390	O	O
+set	391,394	O	B-Material
+of	395,397	O	I-Material
+experimental	398,410	O	I-Material
+Tafel	411,416	O	I-Material
+curves	417,423	O	I-Material
+with	424,428	O	O
+different	429,438	O	O
+concentrations	439,453	O	O
+of	454,456	O	O
+additives	457,466	O	B-Material
+,	466,467	O	O
+which	468,473	O	O
+provided	474,482	O	O
+a	483,484	O	O
+quick	485,490	O	O
+and	491,494	O	O
+accurate	495,503	O	O
+way	504,507	O	O
+for	508,511	O	O
+copper	512,518	O	B-Process
+ECD	519,522	O	I-Process
+process	523,530	O	I-Process
+prediction	531,541	O	I-Process
+without	542,549	O	O
+complicated	550,561	O	O
+surface	562,569	O	O
+kinetic	570,577	O	O
+parameters	578,588	O	O
+fitting	589,596	O	O
+.	596,597	O	O
+
+The	598,601	O	O
+level	602,607	O	B-Process
+set	608,611	O	I-Process
+method	612,618	O	I-Process
+(	619,620	O	O
+LSM	620,623	O	B-Process
+)	623,624	O	O
+was	625,628	O	O
+employed	629,637	O	O
+to	638,640	O	O
+track	641,646	O	B-Task
+the	647,650	O	I-Task
+copper	651,657	O	I-Task
+and	658,661	O	I-Task
+electrolyte	662,673	O	I-Task
+interface	674,683	O	I-Task
+.	683,684	O	O
+
+The	685,688	O	O
+simulation	689,699	O	B-Process
+results	700,707	O	O
+were	708,712	O	O
+in	713,715	O	O
+good	716,720	O	O
+agreement	721,730	O	O
+with	731,735	O	O
+the	736,739	O	O
+experiments	740,751	O	O
+.	751,752	O	O
+
+For	753,756	O	O
+a	757,758	O	O
+given	759,764	O	O
+feature	765,772	O	O
+size	773,777	O	O
+,	777,778	O	O
+the	779,782	O	O
+current	783,790	O	O
+density	791,798	O	O
+for	799,802	O	O
+superfilling	803,815	O	B-Material
+could	816,821	O	O
+be	822,824	O	O
+predicted	825,834	O	O
+,	834,835	O	O
+which	836,841	O	O
+provided	842,850	O	O
+a	851,852	O	O
+guideline	853,862	O	O
+for	863,866	O	O
+ECD	867,870	O	B-Process
+process	871,878	O	I-Process
+optimization	879,891	O	I-Process
+.	891,892	O	O
 
 
 -DOCSTART- (S0167931714000203)
 
-To	0	2	O
-restrict	3	11	B-Task
-pollen	12	18	I-Task
-tube	19	23	I-Task
-growth	24	30	I-Task
-to	31	33	I-Task
-a	34	35	I-Task
-single	36	42	I-Task
-focal	43	48	I-Task
-plane	49	54	I-Task
-is	55	57	O
-an	58	60	O
-important	61	70	O
-subject	71	78	O
-to	79	81	O
-enable	82	88	O
-their	89	94	O
-accurate	95	103	O
-growth	104	110	B-Process
-analysis	111	119	I-Process
-under	120	125	I-Process
-microscopic	126	137	I-Process
-observation	138	149	I-Process
-.	149	150	O
-
-In	151	153	O
-the	154	157	O
-conventional	158	170	O
-method	171	177	O
-to	178	180	O
-assay	181	186	B-Process
-pollen	187	193	I-Process
-tube	194	198	I-Process
-growth	199	205	I-Process
-,	205	206	I-Process
-the	207	210	O
-pollen	211	217	B-Process
-tubes	218	223	I-Process
-grow	224	228	I-Process
-in	229	231	O
-a	232	233	O
-disorderly	234	244	O
-manner	245	251	O
-on	252	254	O
-solid	255	260	O
-medium	261	267	O
-,	267	268	O
-rendering	269	278	O
-it	279	281	O
-impossible	282	292	O
-to	293	295	O
-observe	296	303	B-Process
-their	304	309	I-Process
-growth	310	316	I-Process
-in	317	319	I-Process
-detail	320	326	I-Process
-.	326	327	I-Process
-
-Here	328	332	O
-,	332	333	O
-we	334	336	O
-present	337	344	O
-a	345	346	O
-new	347	350	B-Task
-method	351	357	I-Task
-to	358	360	I-Task
-assay	361	366	I-Task
-pollen	367	373	I-Task
-tube	374	378	I-Task
-growth	379	385	I-Task
-using	386	391	O
-poly	392	396	B-Material
--	396	397	I-Material
-dimethylsiloxane	397	413	I-Material
-microchannel	414	426	I-Material
-device	427	433	I-Material
-to	434	436	O
-isolate	437	444	B-Process
-individual	445	455	I-Process
-pollen	456	462	I-Process
-tubes	463	468	I-Process
-.	468	469	O
-
-The	470	473	O
-growth	474	480	O
-of	481	483	O
-the	484	487	O
-pollen	488	494	B-Material
-tube	495	499	I-Material
-is	500	502	O
-confined	503	511	O
-to	512	514	O
-the	515	518	O
-microchannel	519	531	O
-and	532	535	O
-to	536	538	O
-the	539	542	O
-same	543	547	O
-focal	548	553	O
-plane	554	559	O
-,	559	560	O
-allowing	561	569	O
-accurate	570	578	B-Task
-microscopic	579	590	I-Task
-observations	591	603	I-Task
-.	603	604	O
-
-This	605	609	O
-methodology	610	621	O
-has	622	625	O
-the	626	629	O
-potential	630	639	O
-for	640	643	O
-analyses	644	652	B-Task
-of	653	655	I-Task
-pollen	656	662	I-Task
-tube	663	667	I-Task
-growth	668	674	I-Task
-in	675	677	O
-microfluidic	678	690	O
-environments	691	703	O
-in	704	706	O
-response	707	715	O
-to	716	718	O
-chemical	719	727	B-Material
-products	728	736	I-Material
-and	737	740	O
-signaling	741	750	B-Material
-molecules	751	760	I-Material
-,	760	761	O
-which	762	767	O
-paves	768	773	O
-the	774	777	O
-way	778	781	O
-for	782	785	O
-various	786	793	O
-experiments	794	805	B-Task
-on	806	808	I-Task
-plant	809	814	I-Task
-reproduction	815	827	I-Task
-.	827	828	O
+To	0,2	O	O
+restrict	3,11	O	B-Task
+pollen	12,18	O	I-Task
+tube	19,23	O	I-Task
+growth	24,30	O	I-Task
+to	31,33	O	I-Task
+a	34,35	O	I-Task
+single	36,42	O	I-Task
+focal	43,48	O	I-Task
+plane	49,54	O	I-Task
+is	55,57	O	O
+an	58,60	O	O
+important	61,70	O	O
+subject	71,78	O	O
+to	79,81	O	O
+enable	82,88	O	O
+their	89,94	O	O
+accurate	95,103	O	O
+growth	104,110	O	B-Process
+analysis	111,119	O	I-Process
+under	120,125	O	I-Process
+microscopic	126,137	O	I-Process
+observation	138,149	O	I-Process
+.	149,150	O	O
+
+In	151,153	O	O
+the	154,157	O	O
+conventional	158,170	O	O
+method	171,177	O	O
+to	178,180	O	O
+assay	181,186	O	B-Process
+pollen	187,193	O	I-Process
+tube	194,198	O	I-Process
+growth	199,205	O	I-Process
+,	205,206	O	I-Process
+the	207,210	O	O
+pollen	211,217	O	B-Process
+tubes	218,223	O	I-Process
+grow	224,228	O	I-Process
+in	229,231	O	O
+a	232,233	O	O
+disorderly	234,244	O	O
+manner	245,251	O	O
+on	252,254	O	O
+solid	255,260	O	O
+medium	261,267	O	O
+,	267,268	O	O
+rendering	269,278	O	O
+it	279,281	O	O
+impossible	282,292	O	O
+to	293,295	O	O
+observe	296,303	O	B-Process
+their	304,309	O	I-Process
+growth	310,316	O	I-Process
+in	317,319	O	I-Process
+detail	320,326	O	I-Process
+.	326,327	O	I-Process
+
+Here	328,332	O	O
+,	332,333	O	O
+we	334,336	O	O
+present	337,344	O	O
+a	345,346	O	O
+new	347,350	O	B-Task
+method	351,357	O	I-Task
+to	358,360	O	I-Task
+assay	361,366	O	I-Task
+pollen	367,373	O	I-Task
+tube	374,378	O	I-Task
+growth	379,385	O	I-Task
+using	386,391	O	O
+poly	392,396	O	B-Material
+-	396,397	O	I-Material
+dimethylsiloxane	397,413	O	I-Material
+microchannel	414,426	O	I-Material
+device	427,433	O	I-Material
+to	434,436	O	O
+isolate	437,444	O	B-Process
+individual	445,455	O	I-Process
+pollen	456,462	O	I-Process
+tubes	463,468	O	I-Process
+.	468,469	O	O
+
+The	470,473	O	O
+growth	474,480	O	O
+of	481,483	O	O
+the	484,487	O	O
+pollen	488,494	O	B-Material
+tube	495,499	O	I-Material
+is	500,502	O	O
+confined	503,511	O	O
+to	512,514	O	O
+the	515,518	O	O
+microchannel	519,531	O	O
+and	532,535	O	O
+to	536,538	O	O
+the	539,542	O	O
+same	543,547	O	O
+focal	548,553	O	O
+plane	554,559	O	O
+,	559,560	O	O
+allowing	561,569	O	O
+accurate	570,578	O	B-Task
+microscopic	579,590	O	I-Task
+observations	591,603	O	I-Task
+.	603,604	O	O
+
+This	605,609	O	O
+methodology	610,621	O	O
+has	622,625	O	O
+the	626,629	O	O
+potential	630,639	O	O
+for	640,643	O	O
+analyses	644,652	O	B-Task
+of	653,655	O	I-Task
+pollen	656,662	O	I-Task
+tube	663,667	O	I-Task
+growth	668,674	O	I-Task
+in	675,677	O	O
+microfluidic	678,690	O	O
+environments	691,703	O	O
+in	704,706	O	O
+response	707,715	O	O
+to	716,718	O	O
+chemical	719,727	O	B-Material
+products	728,736	O	I-Material
+and	737,740	O	O
+signaling	741,750	O	B-Material
+molecules	751,760	O	I-Material
+,	760,761	O	O
+which	762,767	O	O
+paves	768,773	O	O
+the	774,777	O	O
+way	778,781	O	O
+for	782,785	O	O
+various	786,793	O	O
+experiments	794,805	O	B-Task
+on	806,808	O	I-Task
+plant	809,814	O	I-Task
+reproduction	815,827	O	I-Task
+.	827,828	O	O
 
 
 -DOCSTART- (S0167931714003347)
 
-In	0	2	O
-order	3	8	O
-to	9	11	O
-study	12	17	B-Task
-the	18	21	I-Task
-mechanical	22	32	I-Task
-behavior	33	41	I-Task
-of	42	44	O
-metal	45	50	B-Material
-films	51	56	I-Material
-on	57	59	O
-compliant	60	69	O
-polymer	70	77	B-Material
-substrates	78	88	I-Material
-,	88	89	O
-fragmentation	90	103	B-Process
-testing	104	111	I-Process
-is	112	114	O
-often	115	120	O
-employed	121	129	O
-[	130	131	O
-8–12	131	135	O
-]	135	136	O
-.	136	137	O
-
-During	138	144	O
-fragmentation	145	158	B-Process
-testing	159	166	I-Process
-,	166	167	O
-the	168	171	O
-film	172	176	B-Material
--	176	177	I-Material
-substrate	177	186	I-Material
-couple	187	193	I-Material
-is	194	196	O
-strained	197	205	B-Process
-under	206	211	I-Process
-uni	212	215	I-Process
--	215	216	I-Process
-axial	216	221	I-Process
-tension	222	229	I-Process
-and	230	233	O
-observed	234	242	O
-with	243	247	O
-light	248	253	B-Process
-microscopy	254	264	I-Process
-(	265	266	O
-LM	266	268	B-Process
-)	268	269	O
-or	270	272	O
-scanning	273	281	B-Process
-electron	282	290	I-Process
-microscopy	291	301	I-Process
-(	302	303	O
-SEM	303	306	B-Process
-)	306	307	O
-.	307	308	O
-
-Brittle	309	316	B-Material
-metals	317	323	I-Material
-or	324	326	O
-ceramic	327	334	B-Material
-films	335	340	I-Material
-fracture	341	349	B-Process
-,	349	350	O
-forming	351	358	O
-through	359	366	O
-thickness	367	376	O
-cracks	377	383	O
-(	384	385	O
-channel	385	392	O
-cracks	393	399	O
-)	399	400	O
-at	401	403	O
-low	404	407	O
-strain	408	414	O
-perpendicular	415	428	O
-to	429	431	O
-the	432	435	O
-straining	436	445	O
-direction	446	455	O
-.	455	456	O
-
-On	457	459	O
-the	460	463	O
-other	464	469	O
-hand	470	474	O
-,	474	475	O
-ductile	476	483	O
-metal	484	489	B-Material
-films	490	495	I-Material
-will	496	500	O
-first	501	506	O
-deform	507	513	B-Process
-locally	514	521	I-Process
-in	522	524	O
-the	525	528	O
-form	529	533	O
-of	534	536	O
-necks	537	542	O
-at	543	545	O
-low	546	549	O
-strains	550	557	O
-(	558	559	O
-Fig	559	562	O
-.	562	563	O
-
-1a	564	566	O
-)	566	567	O
-and	568	571	O
-with	572	576	O
-increased	577	586	O
-strain	587	593	B-Process
-through	594	601	O
-thickness	602	611	O
-cracks	612	618	O
-(	619	620	O
-TTC	620	623	O
-)	623	624	O
-can	625	628	O
-evolve	629	635	O
-(	636	637	O
-Fig	637	640	O
-.	640	641	O
-
-1b	642	644	O
-)	644	645	O
-.	645	646	O
-
-Fragmentation	647	660	B-Process
-testing	661	668	I-Process
-is	669	671	O
-best	672	676	O
-performed	677	686	B-Task
-in	687	689	I-Task
--	689	690	I-Task
-situ	690	694	I-Task
-with	695	699	I-Task
-LM	700	702	I-Task
-or	703	705	I-Task
-SEM	706	709	I-Task
-so	710	712	O
-that	713	717	O
-the	718	721	O
-strain	722	728	O
-when	729	733	O
-the	734	737	O
-first	738	743	O
-crack	744	749	O
-forms	750	755	O
-can	756	759	O
-be	760	762	O
-observed	763	771	O
-.	771	772	O
-
-The	773	776	O
-initial	777	784	O
-fracture	785	793	B-Process
-strain	794	800	I-Process
-of	801	803	O
-the	804	807	O
-film	808	812	B-Material
-,	812	813	O
-also	814	818	O
-known	819	824	O
-as	825	827	O
-the	828	831	O
-crack	832	837	O
-onset	838	843	O
-strain	844	850	O
-,	850	851	O
-can	852	855	O
-then	856	860	O
-be	861	863	O
-used	864	868	O
-to	869	871	O
-determine	872	881	O
-the	882	885	O
-interfacial	886	897	O
-fracture	898	906	O
-shear	907	912	B-Process
-stress	913	919	I-Process
-with	920	924	O
-knowledge	925	934	O
-of	935	937	O
-the	938	941	O
-crack	942	947	O
-spacing	948	955	O
-at	956	958	O
-saturation	959	969	O
-,	969	970	O
-λ	971	972	O
-,	972	973	O
-film	974	978	B-Material
-thickness	979	988	O
-,	988	989	O
-h	990	991	O
-,	991	992	O
-and	993	996	O
-the	997	1000	O
-fracture	1001	1009	O
-stress	1010	1016	O
-,	1016	1017	O
-σf	1018	1020	B-Process
-=	1020	1021	I-Process
-Efilmεf	1021	1028	I-Process
-,	1028	1029	O
-where	1030	1035	O
-εf	1036	1038	O
-is	1039	1041	O
-the	1042	1045	O
-fracture	1046	1054	B-Process
-strain	1055	1061	I-Process
-,	1061	1062	O
-using	1063	1068	O
-the	1069	1072	O
-shear	1073	1078	B-Process
-lag	1079	1082	I-Process
-model	1083	1088	I-Process
-[	1089	1090	O
-8,13,14	1090	1097	O
-]	1097	1098	O
-.	1098	1099	O
-
-In	1100	1102	O
--	1102	1103	O
-situ	1103	1107	O
-fragmentation	1108	1121	O
-testing	1122	1129	O
-with	1130	1134	O
-LM	1135	1137	B-Process
-or	1138	1140	O
-SEM	1141	1144	B-Process
-allows	1145	1151	O
-for	1152	1155	O
-the	1156	1159	O
-crack	1160	1165	B-Process
-spacing	1166	1173	I-Process
-evolution	1174	1183	I-Process
-to	1184	1186	O
-be	1187	1189	O
-observed	1190	1198	O
-as	1199	1201	O
-a	1202	1203	O
-function	1204	1212	B-Process
-of	1213	1215	I-Process
-applied	1216	1223	I-Process
-strain	1224	1230	I-Process
-(	1231	1232	O
-Fig	1232	1235	O
-.	1235	1236	O
-
-1c	1237	1239	O
-)	1239	1240	O
-.	1240	1241	O
-
-Under	1242	1247	O
-tensile	1248	1255	B-Process
-straining	1256	1265	I-Process
-conditions	1266	1276	O
-,	1276	1277	O
-a	1278	1279	O
-brittle	1280	1287	B-Material
-film	1288	1292	I-Material
-will	1293	1297	O
-initially	1298	1307	O
-fracture	1308	1316	B-Process
-at	1317	1319	O
-very	1320	1324	O
-low	1325	1328	O
-strains	1329	1336	O
-(	1337	1338	O
-<	1338	1339	O
-1	1339	1340	O
-%	1340	1341	O
-)	1341	1342	O
-and	1343	1346	O
-then	1347	1351	O
-with	1352	1356	O
-further	1357	1364	O
-strain	1365	1371	O
-continue	1372	1380	O
-to	1381	1383	O
-form	1384	1388	B-Process
-cracks	1389	1395	I-Process
-until	1396	1401	O
-the	1402	1405	O
-saturation	1406	1416	O
-crack	1417	1422	O
-spacing	1423	1430	O
-is	1431	1433	O
-reached	1434	1441	O
-.	1441	1442	O
-
-After	1443	1448	O
-the	1449	1452	O
-saturation	1453	1463	O
-spacing	1464	1471	O
-has	1472	1475	O
-been	1476	1480	O
-reached	1481	1488	O
-,	1488	1489	O
-cracks	1490	1496	O
-can	1497	1500	O
-no	1501	1503	O
-longer	1504	1510	O
-form	1511	1515	O
-between	1516	1523	O
-existing	1524	1532	O
-crack	1533	1538	O
-fragments	1539	1548	O
-and	1549	1552	O
-the	1553	1556	O
-film	1557	1561	O
-could	1562	1567	O
-delaminate	1568	1578	B-Process
-via	1579	1582	O
-buckling	1583	1591	B-Process
-.	1591	1592	O
+In	0,2	O	O
+order	3,8	O	O
+to	9,11	O	O
+study	12,17	O	B-Task
+the	18,21	O	I-Task
+mechanical	22,32	O	I-Task
+behavior	33,41	O	I-Task
+of	42,44	O	O
+metal	45,50	O	B-Material
+films	51,56	O	I-Material
+on	57,59	O	O
+compliant	60,69	O	O
+polymer	70,77	O	B-Material
+substrates	78,88	O	I-Material
+,	88,89	O	O
+fragmentation	90,103	O	B-Process
+testing	104,111	O	I-Process
+is	112,114	O	O
+often	115,120	O	O
+employed	121,129	O	O
+[	130,131	O	O
+8–12	131,135	O	O
+]	135,136	O	O
+.	136,137	O	O
+
+During	138,144	O	O
+fragmentation	145,158	O	B-Process
+testing	159,166	O	I-Process
+,	166,167	O	O
+the	168,171	O	O
+film	172,176	O	B-Material
+-	176,177	O	I-Material
+substrate	177,186	O	I-Material
+couple	187,193	O	I-Material
+is	194,196	O	O
+strained	197,205	O	B-Process
+under	206,211	O	I-Process
+uni	212,215	O	I-Process
+-	215,216	O	I-Process
+axial	216,221	O	I-Process
+tension	222,229	O	I-Process
+and	230,233	O	O
+observed	234,242	O	O
+with	243,247	O	O
+light	248,253	O	B-Process
+microscopy	254,264	O	I-Process
+(	265,266	O	O
+LM	266,268	O	B-Process
+)	268,269	O	O
+or	270,272	O	O
+scanning	273,281	O	B-Process
+electron	282,290	O	I-Process
+microscopy	291,301	O	I-Process
+(	302,303	O	O
+SEM	303,306	O	B-Process
+)	306,307	O	O
+.	307,308	O	O
+
+Brittle	309,316	O	B-Material
+metals	317,323	O	I-Material
+or	324,326	O	O
+ceramic	327,334	O	B-Material
+films	335,340	O	I-Material
+fracture	341,349	O	B-Process
+,	349,350	O	O
+forming	351,358	O	O
+through	359,366	O	O
+thickness	367,376	O	O
+cracks	377,383	O	O
+(	384,385	O	O
+channel	385,392	O	O
+cracks	393,399	O	O
+)	399,400	O	O
+at	401,403	O	O
+low	404,407	O	O
+strain	408,414	O	O
+perpendicular	415,428	O	O
+to	429,431	O	O
+the	432,435	O	O
+straining	436,445	O	O
+direction	446,455	O	O
+.	455,456	O	O
+
+On	457,459	O	O
+the	460,463	O	O
+other	464,469	O	O
+hand	470,474	O	O
+,	474,475	O	O
+ductile	476,483	O	O
+metal	484,489	O	B-Material
+films	490,495	O	I-Material
+will	496,500	O	O
+first	501,506	O	O
+deform	507,513	O	B-Process
+locally	514,521	O	I-Process
+in	522,524	O	O
+the	525,528	O	O
+form	529,533	O	O
+of	534,536	O	O
+necks	537,542	O	O
+at	543,545	O	O
+low	546,549	O	O
+strains	550,557	O	O
+(	558,559	O	O
+Fig	559,562	O	O
+.	562,563	O	O
+
+1a	564,566	O	O
+)	566,567	O	O
+and	568,571	O	O
+with	572,576	O	O
+increased	577,586	O	O
+strain	587,593	O	B-Process
+through	594,601	O	O
+thickness	602,611	O	O
+cracks	612,618	O	O
+(	619,620	O	O
+TTC	620,623	O	O
+)	623,624	O	O
+can	625,628	O	O
+evolve	629,635	O	O
+(	636,637	O	O
+Fig	637,640	O	O
+.	640,641	O	O
+
+1b	642,644	O	O
+)	644,645	O	O
+.	645,646	O	O
+
+Fragmentation	647,660	O	B-Process
+testing	661,668	O	I-Process
+is	669,671	O	O
+best	672,676	O	O
+performed	677,686	O	B-Task
+in	687,689	O	I-Task
+-	689,690	O	I-Task
+situ	690,694	O	I-Task
+with	695,699	O	I-Task
+LM	700,702	O	I-Task
+or	703,705	O	I-Task
+SEM	706,709	O	I-Task
+so	710,712	O	O
+that	713,717	O	O
+the	718,721	O	O
+strain	722,728	O	O
+when	729,733	O	O
+the	734,737	O	O
+first	738,743	O	O
+crack	744,749	O	O
+forms	750,755	O	O
+can	756,759	O	O
+be	760,762	O	O
+observed	763,771	O	O
+.	771,772	O	O
+
+The	773,776	O	O
+initial	777,784	O	O
+fracture	785,793	O	B-Process
+strain	794,800	O	I-Process
+of	801,803	O	O
+the	804,807	O	O
+film	808,812	O	B-Material
+,	812,813	O	O
+also	814,818	O	O
+known	819,824	O	O
+as	825,827	O	O
+the	828,831	O	O
+crack	832,837	O	O
+onset	838,843	O	O
+strain	844,850	O	O
+,	850,851	O	O
+can	852,855	O	O
+then	856,860	O	O
+be	861,863	O	O
+used	864,868	O	O
+to	869,871	O	O
+determine	872,881	O	O
+the	882,885	O	O
+interfacial	886,897	O	O
+fracture	898,906	O	O
+shear	907,912	O	B-Process
+stress	913,919	O	I-Process
+with	920,924	O	O
+knowledge	925,934	O	O
+of	935,937	O	O
+the	938,941	O	O
+crack	942,947	O	O
+spacing	948,955	O	O
+at	956,958	O	O
+saturation	959,969	O	O
+,	969,970	O	O
+λ	971,972	O	O
+,	972,973	O	O
+film	974,978	O	B-Material
+thickness	979,988	O	O
+,	988,989	O	O
+h	990,991	O	O
+,	991,992	O	O
+and	993,996	O	O
+the	997,1000	O	O
+fracture	1001,1009	O	O
+stress	1010,1016	O	O
+,	1016,1017	O	O
+σf	1018,1020	O	B-Process
+=	1020,1021	O	I-Process
+Efilmεf	1021,1028	O	I-Process
+,	1028,1029	O	O
+where	1030,1035	O	O
+εf	1036,1038	O	O
+is	1039,1041	O	O
+the	1042,1045	O	O
+fracture	1046,1054	O	B-Process
+strain	1055,1061	O	I-Process
+,	1061,1062	O	O
+using	1063,1068	O	O
+the	1069,1072	O	O
+shear	1073,1078	O	B-Process
+lag	1079,1082	O	I-Process
+model	1083,1088	O	I-Process
+[	1089,1090	O	O
+8,13,14	1090,1097	O	O
+]	1097,1098	O	O
+.	1098,1099	O	O
+
+In	1100,1102	O	O
+-	1102,1103	O	O
+situ	1103,1107	O	O
+fragmentation	1108,1121	O	O
+testing	1122,1129	O	O
+with	1130,1134	O	O
+LM	1135,1137	O	B-Process
+or	1138,1140	O	O
+SEM	1141,1144	O	B-Process
+allows	1145,1151	O	O
+for	1152,1155	O	O
+the	1156,1159	O	O
+crack	1160,1165	O	B-Process
+spacing	1166,1173	O	I-Process
+evolution	1174,1183	O	I-Process
+to	1184,1186	O	O
+be	1187,1189	O	O
+observed	1190,1198	O	O
+as	1199,1201	O	O
+a	1202,1203	O	O
+function	1204,1212	O	B-Process
+of	1213,1215	O	I-Process
+applied	1216,1223	O	I-Process
+strain	1224,1230	O	I-Process
+(	1231,1232	O	O
+Fig	1232,1235	O	O
+.	1235,1236	O	O
+
+1c	1237,1239	O	O
+)	1239,1240	O	O
+.	1240,1241	O	O
+
+Under	1242,1247	O	O
+tensile	1248,1255	O	B-Process
+straining	1256,1265	O	I-Process
+conditions	1266,1276	O	O
+,	1276,1277	O	O
+a	1278,1279	O	O
+brittle	1280,1287	O	B-Material
+film	1288,1292	O	I-Material
+will	1293,1297	O	O
+initially	1298,1307	O	O
+fracture	1308,1316	O	B-Process
+at	1317,1319	O	O
+very	1320,1324	O	O
+low	1325,1328	O	O
+strains	1329,1336	O	O
+(	1337,1338	O	O
+<	1338,1339	O	O
+1	1339,1340	O	O
+%	1340,1341	O	O
+)	1341,1342	O	O
+and	1343,1346	O	O
+then	1347,1351	O	O
+with	1352,1356	O	O
+further	1357,1364	O	O
+strain	1365,1371	O	O
+continue	1372,1380	O	O
+to	1381,1383	O	O
+form	1384,1388	O	B-Process
+cracks	1389,1395	O	I-Process
+until	1396,1401	O	O
+the	1402,1405	O	O
+saturation	1406,1416	O	O
+crack	1417,1422	O	O
+spacing	1423,1430	O	O
+is	1431,1433	O	O
+reached	1434,1441	O	O
+.	1441,1442	O	O
+
+After	1443,1448	O	O
+the	1449,1452	O	O
+saturation	1453,1463	O	O
+spacing	1464,1471	O	O
+has	1472,1475	O	O
+been	1476,1480	O	O
+reached	1481,1488	O	O
+,	1488,1489	O	O
+cracks	1490,1496	O	O
+can	1497,1500	O	O
+no	1501,1503	O	O
+longer	1504,1510	O	O
+form	1511,1515	O	O
+between	1516,1523	O	O
+existing	1524,1532	O	O
+crack	1533,1538	O	O
+fragments	1539,1548	O	O
+and	1549,1552	O	O
+the	1553,1556	O	O
+film	1557,1561	O	O
+could	1562,1567	O	O
+delaminate	1568,1578	O	B-Process
+via	1579,1582	O	O
+buckling	1583,1591	O	B-Process
+.	1591,1592	O	O
 
 
 -DOCSTART- (S0167931714004456)
 
-PDMS	0	4	B-Material
-(	5	6	O
-Polydimethylsiloxane	6	26	B-Material
-)	26	27	O
-has	28	31	O
-become	32	38	O
-by	39	41	O
-far	42	45	O
-the	46	49	O
-most	50	54	O
-popular	55	62	O
-material	63	71	O
-in	72	74	O
-the	75	78	O
-academic	79	87	O
-microfluidics	88	101	B-Material
-community	102	111	O
-because	112	119	O
-it	120	122	O
-is	123	125	O
-inexpensive	126	137	O
-,	137	138	O
-easy	139	143	O
-to	144	146	O
-fabricate	147	156	B-Task
-by	157	159	O
-replication	160	171	B-Process
-of	172	174	I-Process
-molds	175	180	I-Process
-made	181	185	O
-using	186	191	O
-rapid	192	197	B-Process
-prototyping	198	209	I-Process
-or	210	212	O
-other	213	218	O
-techniques	219	229	O
-,	229	230	O
-flexible	231	239	O
-,	239	240	O
-optically	241	250	O
-transparent	251	262	O
-,	262	263	O
-biocompatible	264	277	O
-and	278	281	O
-its	282	285	O
-fabrication	286	297	O
-does	298	302	O
-not	303	306	O
-require	307	314	O
-high	315	319	O
-capital	320	327	O
-investment	328	338	O
-and	339	342	O
-cleanroom	343	352	O
-conditions	353	363	O
-.	363	364	O
-
-Various	365	372	O
-techniques	373	383	O
-have	384	388	O
-been	389	393	O
-adapted	394	401	O
-to	402	404	O
-fabricate	405	414	B-Task
-microfluidic	415	427	I-Task
-structures	428	438	I-Task
-in	439	441	O
-PDMS	442	446	B-Material
-,	446	447	O
-including	448	457	O
-wet	458	461	B-Process
-and	462	465	I-Process
-dry	466	469	I-Process
-etching	470	477	I-Process
-[	478	479	O
-20–22	479	484	O
-]	484	485	O
-,	485	486	O
-photolithographic	487	504	B-Process
-patterning	505	515	I-Process
-of	516	518	O
-a	519	520	O
-photosensitive	521	535	O
-
-PDMS	536	540	B-Material
-[	541	542	O
-23	542	544	O
-]	544	545	O
-,	545	546	O
-and	547	550	O
-laser	551	556	B-Process
-ablation	557	565	I-Process
-[	566	567	O
-24	567	569	O
-]	569	570	O
-.	570	571	O
-
-But	572	575	O
-,	575	576	O
-it	577	579	O
-was	580	583	O
-the	584	587	O
-“	588	589	B-Process
-soft	589	593	I-Process
--	593	594	I-Process
-lithography	594	605	I-Process
-”	605	606	I-Process
-techniques	607	617	I-Process
-[	618	619	O
-25	619	621	O
-]	621	622	O
-introduced	623	633	O
-by	634	636	O
-Whitesides	637	647	O
-et	648	650	O
-al	651	653	O
-.	653	654	O
-
-that	655	659	O
-enabled	660	667	O
-the	668	671	O
-widespread	672	682	O
-use	683	686	O
-of	687	689	O
-PDMS	690	694	B-Material
-and	695	698	O
-opened	699	705	O
-up	706	708	O
-the	709	712	O
-era	713	716	O
-of	717	719	O
-PDMS	720	724	B-Process
--	724	725	I-Process
-based	725	730	I-Process
-microfluidics	731	744	I-Process
-in	745	747	O
-the	748	751	O
-late	752	756	O
-1990s	757	762	O
-.	762	763	O
-
-Replica	764	771	B-Process
-molding	772	779	I-Process
-,	779	780	O
-which	781	786	O
-is	787	789	O
-the	790	793	O
-casting	794	801	B-Process
-of	802	804	I-Process
-prepolymer	805	815	I-Process
-against	816	823	I-Process
-a	824	825	I-Process
-master	826	832	I-Process
-and	833	836	I-Process
-generating	837	847	I-Process
-a	848	849	I-Process
-replica	850	857	I-Process
-of	858	860	I-Process
-the	861	864	I-Process
-master	865	871	I-Process
-in	872	874	I-Process
-PDMS	875	879	I-Process
-,	879	880	O
-has	881	884	O
-become	885	891	O
-a	892	893	O
-standard	894	902	O
-fabrication	903	914	B-Process
-technique	915	924	I-Process
-available	925	934	O
-in	935	937	O
-almost	938	944	O
-every	945	950	O
-research	951	959	O
-laboratory	960	970	O
-.	970	971	O
-
-Detailed	972	980	O
-overviews	981	990	O
-of	991	993	O
-soft	994	998	B-Process
--	998	999	I-Process
-lithography	999	1010	I-Process
-techniques	1011	1021	I-Process
-and	1022	1025	O
-their	1026	1031	O
-applications	1032	1044	O
-can	1045	1048	O
-be	1049	1051	O
-found	1052	1057	O
-from	1058	1062	O
-the	1063	1066	O
-reviews	1067	1074	O
-by	1075	1077	O
-McDonald	1078	1086	O
-et	1087	1089	O
-al	1090	1092	O
-.	1092	1093	O
-
-[	1094	1095	O
-26	1095	1097	O
-]	1097	1098	O
-and	1099	1102	O
-Sia	1103	1106	O
-et	1107	1109	O
-al	1110	1112	O
-.	1112	1113	O
-
-[	1114	1115	O
-27	1115	1117	O
-]	1117	1118	O
-.	1118	1119	O
-
-Nowadays	1120	1128	O
-,	1128	1129	O
-many	1130	1134	O
-tools	1135	1140	O
-dedicated	1141	1150	O
-for	1151	1154	O
-this	1155	1159	O
-purpose	1160	1167	O
-are	1168	1171	O
-available	1172	1181	O
-and	1182	1185	O
-can	1186	1189	O
-be	1190	1192	O
-purchased	1193	1202	O
-as	1203	1205	O
-a	1206	1207	O
-complete	1208	1216	O
-set	1217	1220	O
-(	1221	1222	O
-e.g.	1222	1226	O
-SoftLithoBox	1227	1239	B-Material
-®	1239	1240	I-Material
-provided	1241	1249	O
-by	1250	1252	O
-Elveflow	1253	1261	O
-(	1262	1263	O
-USA	1263	1266	O
-)	1266	1267	O
-[	1268	1269	O
-28	1269	1271	O
-]	1271	1272	O
-)	1272	1273	O
-.	1273	1274	O
-
-Moreover	1275	1283	O
-,	1283	1284	O
-companies	1285	1294	O
-,	1294	1295	O
-such	1296	1300	O
-as	1301	1303	O
-FlowJEM	1304	1311	O
-(	1312	1313	O
-Canada	1313	1319	O
-)	1319	1320	O
-[	1321	1322	O
-29	1322	1324	O
-]	1324	1325	O
-,	1325	1326	O
-Microfluidic	1327	1339	O
-Innovations	1340	1351	O
-(	1352	1353	O
-USA	1353	1356	O
-)	1356	1357	O
-[	1358	1359	O
-30	1359	1361	O
-]	1361	1362	O
-,	1362	1363	O
-and	1364	1367	O
-Scientific	1368	1378	O
-Device	1379	1385	O
-Laboratory	1386	1396	O
-(	1397	1398	O
-USA	1398	1401	O
-)	1401	1402	O
-[	1403	1404	O
-31	1404	1406	O
-]	1406	1407	O
-provide	1408	1415	O
-rapid	1416	1421	B-Process
-prototyping	1422	1433	I-Process
-service	1434	1441	I-Process
-for	1442	1445	O
-PDMS	1446	1450	B-Material
--	1450	1451	I-Material
-based	1451	1456	I-Material
-LOC	1457	1460	I-Material
-devices	1461	1468	I-Material
-.	1468	1469	O
+PDMS	0,4	O	B-Material
+(	5,6	O	O
+Polydimethylsiloxane	6,26	O	B-Material
+)	26,27	O	O
+has	28,31	O	O
+become	32,38	O	O
+by	39,41	O	O
+far	42,45	O	O
+the	46,49	O	O
+most	50,54	O	O
+popular	55,62	O	O
+material	63,71	O	O
+in	72,74	O	O
+the	75,78	O	O
+academic	79,87	O	O
+microfluidics	88,101	O	B-Material
+community	102,111	O	O
+because	112,119	O	O
+it	120,122	O	O
+is	123,125	O	O
+inexpensive	126,137	O	O
+,	137,138	O	O
+easy	139,143	O	O
+to	144,146	O	O
+fabricate	147,156	O	B-Task
+by	157,159	O	O
+replication	160,171	O	B-Process
+of	172,174	O	I-Process
+molds	175,180	O	I-Process
+made	181,185	O	O
+using	186,191	O	O
+rapid	192,197	O	B-Process
+prototyping	198,209	O	I-Process
+or	210,212	O	O
+other	213,218	O	O
+techniques	219,229	O	O
+,	229,230	O	O
+flexible	231,239	O	O
+,	239,240	O	O
+optically	241,250	O	O
+transparent	251,262	O	O
+,	262,263	O	O
+biocompatible	264,277	O	O
+and	278,281	O	O
+its	282,285	O	O
+fabrication	286,297	O	O
+does	298,302	O	O
+not	303,306	O	O
+require	307,314	O	O
+high	315,319	O	O
+capital	320,327	O	O
+investment	328,338	O	O
+and	339,342	O	O
+cleanroom	343,352	O	O
+conditions	353,363	O	O
+.	363,364	O	O
+
+Various	365,372	O	O
+techniques	373,383	O	O
+have	384,388	O	O
+been	389,393	O	O
+adapted	394,401	O	O
+to	402,404	O	O
+fabricate	405,414	O	B-Task
+microfluidic	415,427	O	I-Task
+structures	428,438	O	I-Task
+in	439,441	O	O
+PDMS	442,446	O	B-Material
+,	446,447	O	O
+including	448,457	O	O
+wet	458,461	O	B-Process
+and	462,465	O	I-Process
+dry	466,469	O	I-Process
+etching	470,477	O	I-Process
+[	478,479	O	O
+20–22	479,484	O	O
+]	484,485	O	O
+,	485,486	O	O
+photolithographic	487,504	O	B-Process
+patterning	505,515	O	I-Process
+of	516,518	O	O
+a	519,520	O	O
+photosensitive	521,535	O	O
+
+PDMS	536,540	O	B-Material
+[	541,542	O	O
+23	542,544	O	O
+]	544,545	O	O
+,	545,546	O	O
+and	547,550	O	O
+laser	551,556	O	B-Process
+ablation	557,565	O	I-Process
+[	566,567	O	O
+24	567,569	O	O
+]	569,570	O	O
+.	570,571	O	O
+
+But	572,575	O	O
+,	575,576	O	O
+it	577,579	O	O
+was	580,583	O	O
+the	584,587	O	O
+“	588,589	O	B-Process
+soft	589,593	O	I-Process
+-	593,594	O	I-Process
+lithography	594,605	O	I-Process
+”	605,606	O	I-Process
+techniques	607,617	O	I-Process
+[	618,619	O	O
+25	619,621	O	O
+]	621,622	O	O
+introduced	623,633	O	O
+by	634,636	O	O
+Whitesides	637,647	O	O
+et	648,650	O	O
+al	651,653	O	O
+.	653,654	O	O
+
+that	655,659	O	O
+enabled	660,667	O	O
+the	668,671	O	O
+widespread	672,682	O	O
+use	683,686	O	O
+of	687,689	O	O
+PDMS	690,694	O	B-Material
+and	695,698	O	O
+opened	699,705	O	O
+up	706,708	O	O
+the	709,712	O	O
+era	713,716	O	O
+of	717,719	O	O
+PDMS	720,724	O	B-Process
+-	724,725	O	I-Process
+based	725,730	O	I-Process
+microfluidics	731,744	O	I-Process
+in	745,747	O	O
+the	748,751	O	O
+late	752,756	O	O
+1990s	757,762	O	O
+.	762,763	O	O
+
+Replica	764,771	O	B-Process
+molding	772,779	O	I-Process
+,	779,780	O	O
+which	781,786	O	O
+is	787,789	O	O
+the	790,793	O	O
+casting	794,801	O	B-Process
+of	802,804	O	I-Process
+prepolymer	805,815	O	I-Process
+against	816,823	O	I-Process
+a	824,825	O	I-Process
+master	826,832	O	I-Process
+and	833,836	O	I-Process
+generating	837,847	O	I-Process
+a	848,849	O	I-Process
+replica	850,857	O	I-Process
+of	858,860	O	I-Process
+the	861,864	O	I-Process
+master	865,871	O	I-Process
+in	872,874	O	I-Process
+PDMS	875,879	O	I-Process
+,	879,880	O	O
+has	881,884	O	O
+become	885,891	O	O
+a	892,893	O	O
+standard	894,902	O	O
+fabrication	903,914	O	B-Process
+technique	915,924	O	I-Process
+available	925,934	O	O
+in	935,937	O	O
+almost	938,944	O	O
+every	945,950	O	O
+research	951,959	O	O
+laboratory	960,970	O	O
+.	970,971	O	O
+
+Detailed	972,980	O	O
+overviews	981,990	O	O
+of	991,993	O	O
+soft	994,998	O	B-Process
+-	998,999	O	I-Process
+lithography	999,1010	O	I-Process
+techniques	1011,1021	O	I-Process
+and	1022,1025	O	O
+their	1026,1031	O	O
+applications	1032,1044	O	O
+can	1045,1048	O	O
+be	1049,1051	O	O
+found	1052,1057	O	O
+from	1058,1062	O	O
+the	1063,1066	O	O
+reviews	1067,1074	O	O
+by	1075,1077	O	O
+McDonald	1078,1086	O	O
+et	1087,1089	O	O
+al	1090,1092	O	O
+.	1092,1093	O	O
+
+[	1094,1095	O	O
+26	1095,1097	O	O
+]	1097,1098	O	O
+and	1099,1102	O	O
+Sia	1103,1106	O	O
+et	1107,1109	O	O
+al	1110,1112	O	O
+.	1112,1113	O	O
+
+[	1114,1115	O	O
+27	1115,1117	O	O
+]	1117,1118	O	O
+.	1118,1119	O	O
+
+Nowadays	1120,1128	O	O
+,	1128,1129	O	O
+many	1130,1134	O	O
+tools	1135,1140	O	O
+dedicated	1141,1150	O	O
+for	1151,1154	O	O
+this	1155,1159	O	O
+purpose	1160,1167	O	O
+are	1168,1171	O	O
+available	1172,1181	O	O
+and	1182,1185	O	O
+can	1186,1189	O	O
+be	1190,1192	O	O
+purchased	1193,1202	O	O
+as	1203,1205	O	O
+a	1206,1207	O	O
+complete	1208,1216	O	O
+set	1217,1220	O	O
+(	1221,1222	O	O
+e.g.	1222,1226	O	O
+SoftLithoBox	1227,1239	O	B-Material
+®	1239,1240	O	I-Material
+provided	1241,1249	O	O
+by	1250,1252	O	O
+Elveflow	1253,1261	O	O
+(	1262,1263	O	O
+USA	1263,1266	O	O
+)	1266,1267	O	O
+[	1268,1269	O	O
+28	1269,1271	O	O
+]	1271,1272	O	O
+)	1272,1273	O	O
+.	1273,1274	O	O
+
+Moreover	1275,1283	O	O
+,	1283,1284	O	O
+companies	1285,1294	O	O
+,	1294,1295	O	O
+such	1296,1300	O	O
+as	1301,1303	O	O
+FlowJEM	1304,1311	O	O
+(	1312,1313	O	O
+Canada	1313,1319	O	O
+)	1319,1320	O	O
+[	1321,1322	O	O
+29	1322,1324	O	O
+]	1324,1325	O	O
+,	1325,1326	O	O
+Microfluidic	1327,1339	O	O
+Innovations	1340,1351	O	O
+(	1352,1353	O	O
+USA	1353,1356	O	O
+)	1356,1357	O	O
+[	1358,1359	O	O
+30	1359,1361	O	O
+]	1361,1362	O	O
+,	1362,1363	O	O
+and	1364,1367	O	O
+Scientific	1368,1378	O	O
+Device	1379,1385	O	O
+Laboratory	1386,1396	O	O
+(	1397,1398	O	O
+USA	1398,1401	O	O
+)	1401,1402	O	O
+[	1403,1404	O	O
+31	1404,1406	O	O
+]	1406,1407	O	O
+provide	1408,1415	O	O
+rapid	1416,1421	O	B-Process
+prototyping	1422,1433	O	I-Process
+service	1434,1441	O	I-Process
+for	1442,1445	O	O
+PDMS	1446,1450	O	B-Material
+-	1450,1451	O	I-Material
+based	1451,1456	O	I-Material
+LOC	1457,1460	O	I-Material
+devices	1461,1468	O	I-Material
+.	1468,1469	O	O
 
 
 -DOCSTART- (S0168365912006207)
 
-Unlike	0	6	O
-conventional	7	19	O
-materials	20	29	O
-used	30	34	O
-in	35	37	O
-nerve	38	43	O
-tissue	44	50	O
-engineering	51	62	O
-,	62	63	O
-PAs	64	67	B-Material
-can	68	71	O
-be	72	74	O
-directly	75	83	O
-injected	84	92	B-Process
-in	93	95	I-Process
-vivo	96	100	I-Process
-into	101	105	I-Process
-models	106	112	I-Process
-and	113	116	I-Process
-spontaneously	117	130	I-Process
-self	131	135	I-Process
--	135	136	I-Process
-assemble	136	144	I-Process
-into	145	149	I-Process
-nanofibers	150	160	I-Process
-in	161	163	I-Process
-aqueous	164	171	I-Process
-solutions	172	181	I-Process
-.	181	182	O
-
-Furthermore	183	194	O
-,	194	195	O
-PAs	196	199	B-Material
-can	200	203	O
-function	204	212	O
-as	213	215	O
-biomimetic	216	226	B-Material
-materials	227	236	I-Material
-exemplified	237	248	O
-by	249	251	O
-collagen	252	260	B-Material
--	260	261	I-Material
-mimetic	261	268	I-Material
-PAs	269	272	I-Material
-[	273	274	O
-92	274	276	O
-]	276	277	O
-.	277	278	O
-
-Conventional	279	291	O
-materials	292	301	O
-often	302	307	O
-rely	308	312	O
-on	313	315	O
-electrospinning	316	331	B-Process
-as	332	334	O
-a	335	336	B-Process
-manufacturing	337	350	I-Process
-method	351	357	I-Process
-to	358	360	O
-achieve	361	368	B-Task
-fiber	369	374	I-Task
--	374	375	I-Task
-like	375	379	I-Task
-structures	380	390	I-Task
-suitable	391	399	O
-for	400	403	O
-use	404	407	O
-in	408	410	O
-nerve	411	416	O
-regeneration	417	429	O
-.	429	430	O
-
-The	431	434	O
-self	435	439	O
--	439	440	O
-assembly	440	448	O
-nature	449	455	O
-of	456	458	O
-PAs	459	462	B-Material
-allows	463	469	O
-them	470	474	O
-to	475	477	O
-circumvent	478	488	O
-costly	489	495	B-Process
-manufacturing	496	509	I-Process
-methods	510	517	I-Process
-.	517	518	O
-
-However	519	526	O
-,	526	527	O
-in	528	530	O
-contrast	531	539	O
-to	540	542	O
-conventional	543	555	B-Process
-manufacturing	556	569	I-Process
-methods	570	577	I-Process
-like	578	582	O
-electrospinning	583	598	B-Process
-where	599	604	O
-quality	605	612	O
-and	613	616	O
-batch	617	622	O
--	622	623	O
-to	623	625	O
--	625	626	O
-batch	626	631	O
-variability	632	643	O
-can	644	647	O
-be	648	650	O
-tightly	651	658	O
-controlled	659	669	O
-,	669	670	O
-merely	671	677	O
-relying	678	685	O
-on	686	688	O
-self	689	693	B-Process
--	693	694	I-Process
-assembly	694	702	I-Process
-as	703	705	O
-a	706	707	O
-method	708	714	O
-of	715	717	O
-large	718	723	B-Task
--	723	724	I-Task
-scale	724	729	I-Task
-commercial	730	740	I-Task
-production	741	751	I-Task
-is	752	754	O
-still	755	760	O
-an	761	763	O
-experimental	764	776	O
-concept	777	784	O
-.	784	785	O
-
-Perhaps	786	793	O
-the	794	797	O
-next	798	802	O
-step	803	807	O
-would	808	813	O
-be	814	816	O
-to	817	819	O
-carefully	820	829	O
-compare	830	837	B-Process
-and	838	841	I-Process
-contrast	842	850	I-Process
-the	851	854	O
-robustness	855	865	B-Task
-of	866	868	I-Task
-self	869	873	I-Task
--	873	874	I-Task
-assemled	874	882	I-Task
-PAs	883	886	I-Task
-to	887	889	I-Task
-electrospun	890	901	I-Task
-nanofibers	902	912	I-Task
-.	912	913	O
-
-Given	914	919	O
-that	920	924	O
-the	925	928	O
-constituent	929	940	O
-elements	941	949	O
-in	950	952	O
-PAs	953	956	B-Material
-and	957	960	O
-external	961	969	O
-factors	970	977	O
-like	978	982	O
-pH	983	985	O
-can	986	989	O
-affect	990	996	O
-its	997	1000	O
-structural	1001	1011	O
-assembly	1012	1020	O
-,	1020	1021	O
-parameters	1022	1032	O
-must	1033	1037	O
-be	1038	1040	O
-finely	1041	1047	O
-tuned	1048	1053	B-Process
-and	1054	1057	I-Process
-optimized	1058	1067	I-Process
-in	1068	1070	O
-order	1071	1076	O
-for	1077	1080	O
-PA	1081	1083	B-Material
-nanofibers	1084	1094	I-Material
-to	1095	1097	O
-be	1098	1100	O
-used	1101	1105	O
-as	1106	1108	O
-a	1109	1110	B-Task
-full	1111	1115	I-Task
--	1115	1116	I-Task
-fledged	1116	1123	I-Task
-commercialized	1124	1138	I-Task
-medical	1139	1146	I-Task
-product	1147	1154	I-Task
-[	1155	1156	O
-93	1156	1158	O
-]	1158	1159	O
-.	1159	1160	O
+Unlike	0,6	O	O
+conventional	7,19	O	O
+materials	20,29	O	O
+used	30,34	O	O
+in	35,37	O	O
+nerve	38,43	O	O
+tissue	44,50	O	O
+engineering	51,62	O	O
+,	62,63	O	O
+PAs	64,67	O	B-Material
+can	68,71	O	O
+be	72,74	O	O
+directly	75,83	O	O
+injected	84,92	O	B-Process
+in	93,95	O	I-Process
+vivo	96,100	O	I-Process
+into	101,105	O	I-Process
+models	106,112	O	I-Process
+and	113,116	O	I-Process
+spontaneously	117,130	O	I-Process
+self	131,135	O	I-Process
+-	135,136	O	I-Process
+assemble	136,144	O	I-Process
+into	145,149	O	I-Process
+nanofibers	150,160	O	I-Process
+in	161,163	O	I-Process
+aqueous	164,171	O	I-Process
+solutions	172,181	O	I-Process
+.	181,182	O	O
+
+Furthermore	183,194	O	O
+,	194,195	O	O
+PAs	196,199	O	B-Material
+can	200,203	O	O
+function	204,212	O	O
+as	213,215	O	O
+biomimetic	216,226	O	B-Material
+materials	227,236	O	I-Material
+exemplified	237,248	O	O
+by	249,251	O	O
+collagen	252,260	O	B-Material
+-	260,261	O	I-Material
+mimetic	261,268	O	I-Material
+PAs	269,272	O	I-Material
+[	273,274	O	O
+92	274,276	O	O
+]	276,277	O	O
+.	277,278	O	O
+
+Conventional	279,291	O	O
+materials	292,301	O	O
+often	302,307	O	O
+rely	308,312	O	O
+on	313,315	O	O
+electrospinning	316,331	O	B-Process
+as	332,334	O	O
+a	335,336	O	B-Process
+manufacturing	337,350	O	I-Process
+method	351,357	O	I-Process
+to	358,360	O	O
+achieve	361,368	O	B-Task
+fiber	369,374	O	I-Task
+-	374,375	O	I-Task
+like	375,379	O	I-Task
+structures	380,390	O	I-Task
+suitable	391,399	O	O
+for	400,403	O	O
+use	404,407	O	O
+in	408,410	O	O
+nerve	411,416	O	O
+regeneration	417,429	O	O
+.	429,430	O	O
+
+The	431,434	O	O
+self	435,439	O	O
+-	439,440	O	O
+assembly	440,448	O	O
+nature	449,455	O	O
+of	456,458	O	O
+PAs	459,462	O	B-Material
+allows	463,469	O	O
+them	470,474	O	O
+to	475,477	O	O
+circumvent	478,488	O	O
+costly	489,495	O	B-Process
+manufacturing	496,509	O	I-Process
+methods	510,517	O	I-Process
+.	517,518	O	O
+
+However	519,526	O	O
+,	526,527	O	O
+in	528,530	O	O
+contrast	531,539	O	O
+to	540,542	O	O
+conventional	543,555	O	B-Process
+manufacturing	556,569	O	I-Process
+methods	570,577	O	I-Process
+like	578,582	O	O
+electrospinning	583,598	O	B-Process
+where	599,604	O	O
+quality	605,612	O	O
+and	613,616	O	O
+batch	617,622	O	O
+-	622,623	O	O
+to	623,625	O	O
+-	625,626	O	O
+batch	626,631	O	O
+variability	632,643	O	O
+can	644,647	O	O
+be	648,650	O	O
+tightly	651,658	O	O
+controlled	659,669	O	O
+,	669,670	O	O
+merely	671,677	O	O
+relying	678,685	O	O
+on	686,688	O	O
+self	689,693	O	B-Process
+-	693,694	O	I-Process
+assembly	694,702	O	I-Process
+as	703,705	O	O
+a	706,707	O	O
+method	708,714	O	O
+of	715,717	O	O
+large	718,723	O	B-Task
+-	723,724	O	I-Task
+scale	724,729	O	I-Task
+commercial	730,740	O	I-Task
+production	741,751	O	I-Task
+is	752,754	O	O
+still	755,760	O	O
+an	761,763	O	O
+experimental	764,776	O	O
+concept	777,784	O	O
+.	784,785	O	O
+
+Perhaps	786,793	O	O
+the	794,797	O	O
+next	798,802	O	O
+step	803,807	O	O
+would	808,813	O	O
+be	814,816	O	O
+to	817,819	O	O
+carefully	820,829	O	O
+compare	830,837	O	B-Process
+and	838,841	O	I-Process
+contrast	842,850	O	I-Process
+the	851,854	O	O
+robustness	855,865	O	B-Task
+of	866,868	O	I-Task
+self	869,873	O	I-Task
+-	873,874	O	I-Task
+assemled	874,882	O	I-Task
+PAs	883,886	O	I-Task
+to	887,889	O	I-Task
+electrospun	890,901	O	I-Task
+nanofibers	902,912	O	I-Task
+.	912,913	O	O
+
+Given	914,919	O	O
+that	920,924	O	O
+the	925,928	O	O
+constituent	929,940	O	O
+elements	941,949	O	O
+in	950,952	O	O
+PAs	953,956	O	B-Material
+and	957,960	O	O
+external	961,969	O	O
+factors	970,977	O	O
+like	978,982	O	O
+pH	983,985	O	O
+can	986,989	O	O
+affect	990,996	O	O
+its	997,1000	O	O
+structural	1001,1011	O	O
+assembly	1012,1020	O	O
+,	1020,1021	O	O
+parameters	1022,1032	O	O
+must	1033,1037	O	O
+be	1038,1040	O	O
+finely	1041,1047	O	O
+tuned	1048,1053	O	B-Process
+and	1054,1057	O	I-Process
+optimized	1058,1067	O	I-Process
+in	1068,1070	O	O
+order	1071,1076	O	O
+for	1077,1080	O	O
+PA	1081,1083	O	B-Material
+nanofibers	1084,1094	O	I-Material
+to	1095,1097	O	O
+be	1098,1100	O	O
+used	1101,1105	O	O
+as	1106,1108	O	O
+a	1109,1110	O	B-Task
+full	1111,1115	O	I-Task
+-	1115,1116	O	I-Task
+fledged	1116,1123	O	I-Task
+commercialized	1124,1138	O	I-Task
+medical	1139,1146	O	I-Task
+product	1147,1154	O	I-Task
+[	1155,1156	O	O
+93	1156,1158	O	O
+]	1158,1159	O	O
+.	1159,1160	O	O
 
 
 -DOCSTART- (S0168365913002848)
 
-Mice	0	4	B-Task
-bearing	5	12	I-Task
-the	13	16	I-Task
-orthotopic	17	27	I-Task
-model	28	33	I-Task
-were	34	38	O
-treated	39	46	O
-starting	47	55	O
-from	56	60	O
-day	61	64	O
-21	65	67	O
-after	68	73	O
-NB	74	76	O
-cell	77	81	O
-implant	82	89	O
-;	89	90	O
-mice	91	95	B-Task
-with	96	100	I-Task
-the	101	104	I-Task
-pseudo	105	111	I-Task
--	111	112	I-Task
-metastatic	112	122	I-Task
-model	123	128	I-Task
-received	129	137	O
-the	138	141	O
-first	142	147	O
-treatment	148	157	O
-4h	158	160	O
-after	161	166	O
-NB	167	169	O
-cell	170	174	O
-injection	175	184	O
-.	184	185	O
-
-These	186	191	B-Task
-therapeutic	192	203	I-Task
-schedules	204	213	I-Task
-were	214	218	O
-designed	219	227	O
-to	228	230	O
-test	231	235	B-Process
-the	236	239	I-Process
-effects	240	247	I-Process
-of	248	250	O
-our	251	254	B-Material
-targeted	255	263	I-Material
-formulations	264	276	I-Material
-against	277	284	O
-both	285	289	O
-established	290	301	O
-and	302	305	O
-pseudo	306	312	O
--	312	313	O
-metastatic	313	323	O
-preclinical	324	335	B-Material
-models	336	342	I-Material
-of	343	345	O
-human	346	351	O
-NB	352	354	O
-,	354	355	O
-as	356	358	O
-described	359	368	O
-[	369	370	O
-16,19	370	375	O
-]	375	376	O
-.	376	377	O
-
-Animals	378	385	B-Task
-were	386	390	O
-treated	391	398	O
-i.v	399	402	O
-.	402	403	O
-
-once	404	408	O
-a	409	410	O
-week	411	415	O
-for	416	419	O
-3	420	421	O
-weeks	422	427	O
-with	428	432	O
-untargeted	433	443	B-Material
-(	444	445	O
-SL[DXR	445	451	B-Material
-]	451	452	I-Material
-)	452	453	O
-or	454	456	O
-peptide	457	464	B-Material
--	464	465	I-Material
-targeted	465	473	I-Material
-SL[DXR	474	480	I-Material
-]	480	481	I-Material
-(	482	483	O
-5mg	483	486	O
-/	486	487	O
-kg	487	489	O
-)	489	490	O
-.	490	491	O
-
-Scrambled	492	501	B-Task
-peptide	502	509	I-Task
--	509	510	I-Task
-functionalized	510	524	I-Task
-liposomes	525	534	I-Task
-were	535	539	O
-used	540	544	O
-as	545	547	O
-a	548	549	O
-control	550	557	O
-,	557	558	O
-and	559	562	O
-in	563	565	O
-every	566	571	O
-experiment	572	582	O
-a	583	584	O
-group	585	590	O
-of	591	593	O
-control	594	601	O
-mice	602	606	O
-received	607	615	O
-HEPES	616	621	B-Material
--	621	622	I-Material
-buffered	622	630	I-Material
-saline	631	637	I-Material
-.	637	638	O
-
-Survival	639	647	B-Material
-times	648	653	I-Material
-were	654	658	O
-used	659	663	O
-as	664	666	O
-the	667	670	O
-main	671	675	O
-criterion	676	685	O
-for	686	689	O
-determining	690	701	B-Task
-treatment	702	711	I-Task
-efficacy	712	720	I-Task
-.	720	721	O
-
-In	722	724	O
-the	725	728	O
-orthotopic	729	739	B-Task
-model	740	745	I-Task
-,	745	746	O
-time	747	751	B-Material
--	751	752	I-Material
-dependent	752	761	I-Material
-anti	762	766	I-Material
--	766	767	I-Material
-tumor	767	772	I-Material
-activity	773	781	I-Material
-was	782	785	O
-also	786	790	O
-evaluated	791	800	O
-by	801	803	O
-bioluminescence	804	819	O
-imaging	820	827	O
-(	828	829	O
-BLI	829	832	O
-)	832	833	O
-and	834	837	O
-X	838	839	O
--	839	840	O
-ray	840	843	O
-analyses	844	852	O
-.	852	853	O
-
-For	854	857	O
-this	858	862	O
-purpose	863	870	O
-,	870	871	O
-the	872	875	B-Task
-GI	876	878	I-Task
--	878	879	I-Task
-LI	879	881	I-Task
--	881	882	I-Task
-N	882	883	I-Task
-cell	884	888	I-Task
-line	889	893	I-Task
-was	894	897	O
-infected	898	906	B-Process
-with	907	911	O
-a	912	913	O
-retrovirus	914	924	O
-expressing	925	935	O
-the	936	939	O
-firefly	940	947	O
-luciferase	948	958	O
-gene	959	963	O
-,	963	964	O
-as	965	967	O
-previously	968	978	O
-reported	979	987	O
-[	988	989	O
-17	989	991	O
-]	991	992	O
-;	992	993	O
-luciferase	994	1004	B-Task
-activity	1005	1013	I-Task
-of	1014	1016	O
-retrovirally	1017	1029	B-Material
--	1029	1030	I-Material
-transduced	1030	1040	I-Material
-cells	1041	1046	I-Material
-was	1047	1050	O
-visualized	1051	1061	B-Process
-in	1062	1064	O
-vivo	1065	1069	O
-by	1070	1072	O
-BLI	1073	1076	O
-(	1077	1078	O
-IVIS	1078	1082	O
-Caliper	1083	1090	O
-Life	1091	1095	O
-Sciences	1096	1104	O
-,	1104	1105	O
-Hopkinton	1106	1115	O
-,	1115	1116	O
-MA	1117	1119	O
-)	1119	1120	O
-after	1121	1126	O
-a	1127	1128	O
-10min	1129	1134	O
-incubation	1135	1145	O
-with	1146	1150	O
-150μg	1151	1156	O
-/	1156	1157	O
-mL	1157	1159	O
-of	1160	1162	O
-d	1163	1164	B-Material
--	1164	1165	I-Material
-luciferin	1165	1174	I-Material
-(	1175	1176	O
-Caliper	1176	1183	O
-Life	1184	1188	O
-Sciences	1189	1197	O
-)	1197	1198	O
-,	1198	1199	O
-as	1200	1202	O
-described	1203	1212	O
-[	1213	1214	O
-17	1214	1216	O
-]	1216	1217	O
-.	1217	1218	O
-
-X	1219	1220	O
--	1220	1221	O
-ray	1221	1224	O
-analysis	1225	1233	O
-was	1234	1237	O
-superimposed	1238	1250	O
-to	1251	1253	O
-the	1254	1257	O
-luminescence	1258	1270	O
-for	1271	1274	O
-a	1275	1276	O
-better	1277	1283	O
-visualization	1284	1297	O
-of	1298	1300	O
-the	1301	1304	O
-tumors	1305	1311	O
-.	1311	1312	O
+Mice	0,4	O	B-Task
+bearing	5,12	O	I-Task
+the	13,16	O	I-Task
+orthotopic	17,27	O	I-Task
+model	28,33	O	I-Task
+were	34,38	O	O
+treated	39,46	O	O
+starting	47,55	O	O
+from	56,60	O	O
+day	61,64	O	O
+21	65,67	O	O
+after	68,73	O	O
+NB	74,76	O	O
+cell	77,81	O	O
+implant	82,89	O	O
+;	89,90	O	O
+mice	91,95	O	B-Task
+with	96,100	O	I-Task
+the	101,104	O	I-Task
+pseudo	105,111	O	I-Task
+-	111,112	O	I-Task
+metastatic	112,122	O	I-Task
+model	123,128	O	I-Task
+received	129,137	O	O
+the	138,141	O	O
+first	142,147	O	O
+treatment	148,157	O	O
+4h	158,160	O	O
+after	161,166	O	O
+NB	167,169	O	O
+cell	170,174	O	O
+injection	175,184	O	O
+.	184,185	O	O
+
+These	186,191	O	B-Task
+therapeutic	192,203	O	I-Task
+schedules	204,213	O	I-Task
+were	214,218	O	O
+designed	219,227	O	O
+to	228,230	O	O
+test	231,235	O	B-Process
+the	236,239	O	I-Process
+effects	240,247	O	I-Process
+of	248,250	O	O
+our	251,254	O	B-Material
+targeted	255,263	O	I-Material
+formulations	264,276	O	I-Material
+against	277,284	O	O
+both	285,289	O	O
+established	290,301	O	O
+and	302,305	O	O
+pseudo	306,312	O	O
+-	312,313	O	O
+metastatic	313,323	O	O
+preclinical	324,335	O	B-Material
+models	336,342	O	I-Material
+of	343,345	O	O
+human	346,351	O	O
+NB	352,354	O	O
+,	354,355	O	O
+as	356,358	O	O
+described	359,368	O	O
+[	369,370	O	O
+16,19	370,375	O	O
+]	375,376	O	O
+.	376,377	O	O
+
+Animals	378,385	O	B-Task
+were	386,390	O	O
+treated	391,398	O	O
+i.v	399,402	O	O
+.	402,403	O	O
+
+once	404,408	O	O
+a	409,410	O	O
+week	411,415	O	O
+for	416,419	O	O
+3	420,421	O	O
+weeks	422,427	O	O
+with	428,432	O	O
+untargeted	433,443	O	B-Material
+(	444,445	O	O
+SL[DXR	445,451	O	B-Material
+]	451,452	O	I-Material
+)	452,453	O	O
+or	454,456	O	O
+peptide	457,464	O	B-Material
+-	464,465	O	I-Material
+targeted	465,473	O	I-Material
+SL[DXR	474,480	O	I-Material
+]	480,481	O	I-Material
+(	482,483	O	O
+5mg	483,486	O	O
+/	486,487	O	O
+kg	487,489	O	O
+)	489,490	O	O
+.	490,491	O	O
+
+Scrambled	492,501	O	B-Task
+peptide	502,509	O	I-Task
+-	509,510	O	I-Task
+functionalized	510,524	O	I-Task
+liposomes	525,534	O	I-Task
+were	535,539	O	O
+used	540,544	O	O
+as	545,547	O	O
+a	548,549	O	O
+control	550,557	O	O
+,	557,558	O	O
+and	559,562	O	O
+in	563,565	O	O
+every	566,571	O	O
+experiment	572,582	O	O
+a	583,584	O	O
+group	585,590	O	O
+of	591,593	O	O
+control	594,601	O	O
+mice	602,606	O	O
+received	607,615	O	O
+HEPES	616,621	O	B-Material
+-	621,622	O	I-Material
+buffered	622,630	O	I-Material
+saline	631,637	O	I-Material
+.	637,638	O	O
+
+Survival	639,647	O	B-Material
+times	648,653	O	I-Material
+were	654,658	O	O
+used	659,663	O	O
+as	664,666	O	O
+the	667,670	O	O
+main	671,675	O	O
+criterion	676,685	O	O
+for	686,689	O	O
+determining	690,701	O	B-Task
+treatment	702,711	O	I-Task
+efficacy	712,720	O	I-Task
+.	720,721	O	O
+
+In	722,724	O	O
+the	725,728	O	O
+orthotopic	729,739	O	B-Task
+model	740,745	O	I-Task
+,	745,746	O	O
+time	747,751	O	B-Material
+-	751,752	O	I-Material
+dependent	752,761	O	I-Material
+anti	762,766	O	I-Material
+-	766,767	O	I-Material
+tumor	767,772	O	I-Material
+activity	773,781	O	I-Material
+was	782,785	O	O
+also	786,790	O	O
+evaluated	791,800	O	O
+by	801,803	O	O
+bioluminescence	804,819	O	O
+imaging	820,827	O	O
+(	828,829	O	O
+BLI	829,832	O	O
+)	832,833	O	O
+and	834,837	O	O
+X	838,839	O	O
+-	839,840	O	O
+ray	840,843	O	O
+analyses	844,852	O	O
+.	852,853	O	O
+
+For	854,857	O	O
+this	858,862	O	O
+purpose	863,870	O	O
+,	870,871	O	O
+the	872,875	O	B-Task
+GI	876,878	O	I-Task
+-	878,879	O	I-Task
+LI	879,881	O	I-Task
+-	881,882	O	I-Task
+N	882,883	O	I-Task
+cell	884,888	O	I-Task
+line	889,893	O	I-Task
+was	894,897	O	O
+infected	898,906	O	B-Process
+with	907,911	O	O
+a	912,913	O	O
+retrovirus	914,924	O	O
+expressing	925,935	O	O
+the	936,939	O	O
+firefly	940,947	O	O
+luciferase	948,958	O	O
+gene	959,963	O	O
+,	963,964	O	O
+as	965,967	O	O
+previously	968,978	O	O
+reported	979,987	O	O
+[	988,989	O	O
+17	989,991	O	O
+]	991,992	O	O
+;	992,993	O	O
+luciferase	994,1004	O	B-Task
+activity	1005,1013	O	I-Task
+of	1014,1016	O	O
+retrovirally	1017,1029	O	B-Material
+-	1029,1030	O	I-Material
+transduced	1030,1040	O	I-Material
+cells	1041,1046	O	I-Material
+was	1047,1050	O	O
+visualized	1051,1061	O	B-Process
+in	1062,1064	O	O
+vivo	1065,1069	O	O
+by	1070,1072	O	O
+BLI	1073,1076	O	O
+(	1077,1078	O	O
+IVIS	1078,1082	O	O
+Caliper	1083,1090	O	O
+Life	1091,1095	O	O
+Sciences	1096,1104	O	O
+,	1104,1105	O	O
+Hopkinton	1106,1115	O	O
+,	1115,1116	O	O
+MA	1117,1119	O	O
+)	1119,1120	O	O
+after	1121,1126	O	O
+a	1127,1128	O	O
+10min	1129,1134	O	O
+incubation	1135,1145	O	O
+with	1146,1150	O	O
+150μg	1151,1156	O	O
+/	1156,1157	O	O
+mL	1157,1159	O	O
+of	1160,1162	O	O
+d	1163,1164	O	B-Material
+-	1164,1165	O	I-Material
+luciferin	1165,1174	O	I-Material
+(	1175,1176	O	O
+Caliper	1176,1183	O	O
+Life	1184,1188	O	O
+Sciences	1189,1197	O	O
+)	1197,1198	O	O
+,	1198,1199	O	O
+as	1200,1202	O	O
+described	1203,1212	O	O
+[	1213,1214	O	O
+17	1214,1216	O	O
+]	1216,1217	O	O
+.	1217,1218	O	O
+
+X	1219,1220	O	O
+-	1220,1221	O	O
+ray	1221,1224	O	O
+analysis	1225,1233	O	O
+was	1234,1237	O	O
+superimposed	1238,1250	O	O
+to	1251,1253	O	O
+the	1254,1257	O	O
+luminescence	1258,1270	O	O
+for	1271,1274	O	O
+a	1275,1276	O	O
+better	1277,1283	O	O
+visualization	1284,1297	O	O
+of	1298,1300	O	O
+the	1301,1304	O	O
+tumors	1305,1311	O	O
+.	1311,1312	O	O
 
 
 -DOCSTART- (S0168365913003295)
 
-A	0	1	O
-limitation	2	12	O
-of	13	15	O
-the	16	19	O
-pharmacyte	20	30	B-Process
-approach	31	39	I-Process
-is	40	42	O
-the	43	46	O
-one	47	50	O
--	50	51	O
-time	51	55	O
-nature	56	62	O
-of	63	65	O
-the	66	69	O
-intervention	70	82	O
-:	82	83	O
-ACT	84	87	B-Material
-T	88	89	I-Material
--	89	90	I-Material
-cells	90	95	I-Material
-can	96	99	O
-only	100	104	O
-be	105	107	O
-loaded	108	114	O
-once	115	119	O
-with	120	124	O
-a	125	126	O
-cargo	127	132	O
-of	133	135	O
-adjuvant	136	144	B-Material
-drug	145	149	I-Material
-prior	150	155	O
-to	156	158	O
-transfer	159	167	O
-,	167	168	O
-and	169	172	O
-the	173	176	O
-duration	177	185	O
-of	186	188	O
-stimulation	189	200	B-Process
-is	201	203	O
-inherently	204	214	O
-limited	215	222	O
-by	223	225	O
-expansion	226	235	B-Process
-of	236	238	I-Process
-the	239	242	I-Process
-cell	243	247	I-Process
-population	248	258	I-Process
-in	259	261	I-Process
-vivo	262	266	I-Process
-,	266	267	O
-since	268	273	O
-cell	274	278	B-Material
--	278	279	I-Material
-bound	279	284	I-Material
-particles	285	294	I-Material
-are	295	298	O
-diluted	299	306	O
-with	307	311	O
-each	312	316	O
-cell	317	321	B-Process
-division	322	330	I-Process
-.	330	331	O
-
-We	332	334	O
-hypothesized	335	347	O
-that	348	352	O
-a	353	354	O
-strategy	355	363	O
-to	364	366	O
-target	367	373	O
-supporting	374	384	B-Material
-drugs	385	390	I-Material
-to	391	393	O
-T	394	395	B-Material
--	395	396	I-Material
-cells	396	401	I-Material
-with	402	406	O
-nanoparticle	407	419	B-Material
-drug	420	424	I-Material
-carriers	425	433	I-Material
-directly	434	442	O
-in	443	445	O
-vivo	446	450	O
-would	451	456	O
-enable	457	463	O
-transferred	464	475	B-Material
-lymphocytes	476	487	I-Material
-to	488	490	O
-be	491	493	O
-repeatedly	494	504	O
-stimulated	505	515	O
-with	516	520	O
-supporting	521	531	B-Material
-adjuvant	532	540	I-Material
-drugs	541	546	I-Material
-,	546	547	O
-and	548	551	O
-thereby	552	559	O
-provide	560	567	O
-continuous	568	578	O
-supporting	579	589	O
-signals	590	597	O
-over	598	602	O
-the	603	606	O
-prolonged	607	616	O
-durations	617	626	O
-that	627	631	O
-might	632	637	O
-be	638	640	O
-necessary	641	650	O
-for	651	654	O
-elimination	655	666	B-Task
-of	667	669	I-Task
-large	670	675	I-Task
-tumor	676	681	I-Task
-burdens	682	689	I-Task
-.	689	690	O
-
-Such	691	695	O
-“	696	697	B-Process
-re	697	699	I-Process
--	699	700	I-Process
-arming	700	706	I-Process
-”	706	707	I-Process
-of	708	710	I-Process
-T	711	712	I-Process
--	712	713	I-Process
-cells	713	718	I-Process
-with	719	723	I-Process
-supporting	724	734	I-Process
-drugs	735	740	I-Process
-could	741	746	O
-be	747	749	O
-achieved	750	758	O
-by	759	761	O
-repeated	762	770	O
-administration	771	785	B-Process
-of	786	788	I-Process
-targeted	789	797	I-Process
-particles	798	807	I-Process
-,	807	808	O
-allowing	809	817	O
-adoptively	818	828	B-Material
--	828	829	I-Material
-transferred	829	840	I-Material
-T	841	842	I-Material
--	842	843	I-Material
-cells	843	848	I-Material
-to	849	851	O
-be	852	854	O
-restimulated	855	867	O
-multiple	868	876	O
-times	877	882	O
-directly	883	891	O
-in	892	894	O
-vivo	895	899	O
-,	899	900	O
-while	901	906	O
-the	907	910	O
-use	911	914	O
-of	915	917	O
-internalizing	918	931	B-Material
-targeting	932	941	I-Material
-ligands	942	949	I-Material
-would	950	955	O
-minimize	956	964	O
-the	965	968	O
-likelihood	969	979	O
-of	980	982	O
-immune	983	989	O
-responses	990	999	O
-against	1000	1007	O
-the	1008	1011	O
-nanoparticle	1012	1024	B-Material
-carrier	1025	1032	I-Material
-.	1032	1033	O
-
-To	1034	1036	O
-our	1037	1040	O
-knowledge	1041	1050	O
-,	1050	1051	O
-only	1052	1056	O
-two	1057	1060	O
-prior	1061	1066	O
-studies	1067	1074	O
-have	1075	1079	O
-attempted	1080	1089	O
-to	1090	1092	O
-target	1093	1099	O
-nanoparticles	1100	1113	B-Material
-to	1114	1116	O
-T	1117	1118	B-Material
--	1118	1119	I-Material
-cells	1119	1124	I-Material
-in	1125	1127	O
-vivo	1128	1132	O
-[	1133	1134	O
-17,18	1134	1139	O
-]	1139	1140	O
-.	1140	1141	O
-
-In	1142	1144	O
-both	1145	1149	O
-of	1150	1152	O
-these	1153	1158	O
-studies	1159	1166	O
-,	1166	1167	O
-particles	1168	1177	O
-were	1178	1182	O
-targeted	1183	1191	O
-to	1192	1194	O
-T	1195	1196	B-Material
--	1196	1197	I-Material
-cells	1197	1202	I-Material
-via	1203	1206	O
-peptide	1207	1214	B-Material
--	1214	1215	I-Material
-MHC	1215	1218	I-Material
-ligands	1219	1226	I-Material
-that	1227	1231	O
-bind	1232	1236	O
-to	1237	1239	O
-specific	1240	1248	O
-T	1249	1250	B-Material
--	1250	1251	I-Material
-cell	1251	1255	I-Material
-receptors	1256	1265	I-Material
-.	1265	1266	O
-
-However	1267	1274	O
-,	1274	1275	O
-peptide	1276	1283	B-Material
--	1283	1284	I-Material
-MHC	1284	1287	I-Material
--	1287	1288	I-Material
-functionalized	1288	1302	I-Material
-nanoparticles	1303	1316	I-Material
-have	1317	1321	O
-recently	1322	1330	O
-been	1331	1335	O
-shown	1336	1341	O
-to	1342	1344	O
-deliver	1345	1352	O
-an	1353	1355	O
-anergizing	1356	1366	O
-/	1366	1367	O
-tolerizing	1367	1377	O
-signal	1378	1384	O
-to	1385	1387	O
-T	1388	1389	B-Material
--	1389	1390	I-Material
-cells	1390	1395	I-Material
-[	1396	1397	O
-18,19	1397	1402	O
-]	1402	1403	O
-—	1404	1405	O
-which	1406	1411	O
-is	1412	1414	O
-ideal	1415	1420	O
-for	1421	1424	O
-treating	1425	1433	B-Task
-graft	1434	1439	I-Task
-rejection	1440	1449	I-Task
-or	1450	1452	I-Task
-autoimmunity	1453	1465	I-Task
-,	1465	1466	O
-but	1467	1470	O
-runs	1471	1475	O
-counter	1476	1483	O
-to	1484	1486	O
-the	1487	1490	O
-goals	1491	1496	O
-of	1497	1499	O
-cancer	1500	1506	B-Task
-immunotherapy	1507	1520	I-Task
-.	1520	1521	O
+A	0,1	O	O
+limitation	2,12	O	O
+of	13,15	O	O
+the	16,19	O	O
+pharmacyte	20,30	O	B-Process
+approach	31,39	O	I-Process
+is	40,42	O	O
+the	43,46	O	O
+one	47,50	O	O
+-	50,51	O	O
+time	51,55	O	O
+nature	56,62	O	O
+of	63,65	O	O
+the	66,69	O	O
+intervention	70,82	O	O
+:	82,83	O	O
+ACT	84,87	O	B-Material
+T	88,89	O	I-Material
+-	89,90	O	I-Material
+cells	90,95	O	I-Material
+can	96,99	O	O
+only	100,104	O	O
+be	105,107	O	O
+loaded	108,114	O	O
+once	115,119	O	O
+with	120,124	O	O
+a	125,126	O	O
+cargo	127,132	O	O
+of	133,135	O	O
+adjuvant	136,144	O	B-Material
+drug	145,149	O	I-Material
+prior	150,155	O	O
+to	156,158	O	O
+transfer	159,167	O	O
+,	167,168	O	O
+and	169,172	O	O
+the	173,176	O	O
+duration	177,185	O	O
+of	186,188	O	O
+stimulation	189,200	O	B-Process
+is	201,203	O	O
+inherently	204,214	O	O
+limited	215,222	O	O
+by	223,225	O	O
+expansion	226,235	O	B-Process
+of	236,238	O	I-Process
+the	239,242	O	I-Process
+cell	243,247	O	I-Process
+population	248,258	O	I-Process
+in	259,261	O	I-Process
+vivo	262,266	O	I-Process
+,	266,267	O	O
+since	268,273	O	O
+cell	274,278	O	B-Material
+-	278,279	O	I-Material
+bound	279,284	O	I-Material
+particles	285,294	O	I-Material
+are	295,298	O	O
+diluted	299,306	O	O
+with	307,311	O	O
+each	312,316	O	O
+cell	317,321	O	B-Process
+division	322,330	O	I-Process
+.	330,331	O	O
+
+We	332,334	O	O
+hypothesized	335,347	O	O
+that	348,352	O	O
+a	353,354	O	O
+strategy	355,363	O	O
+to	364,366	O	O
+target	367,373	O	O
+supporting	374,384	O	B-Material
+drugs	385,390	O	I-Material
+to	391,393	O	O
+T	394,395	O	B-Material
+-	395,396	O	I-Material
+cells	396,401	O	I-Material
+with	402,406	O	O
+nanoparticle	407,419	O	B-Material
+drug	420,424	O	I-Material
+carriers	425,433	O	I-Material
+directly	434,442	O	O
+in	443,445	O	O
+vivo	446,450	O	O
+would	451,456	O	O
+enable	457,463	O	O
+transferred	464,475	O	B-Material
+lymphocytes	476,487	O	I-Material
+to	488,490	O	O
+be	491,493	O	O
+repeatedly	494,504	O	O
+stimulated	505,515	O	O
+with	516,520	O	O
+supporting	521,531	O	B-Material
+adjuvant	532,540	O	I-Material
+drugs	541,546	O	I-Material
+,	546,547	O	O
+and	548,551	O	O
+thereby	552,559	O	O
+provide	560,567	O	O
+continuous	568,578	O	O
+supporting	579,589	O	O
+signals	590,597	O	O
+over	598,602	O	O
+the	603,606	O	O
+prolonged	607,616	O	O
+durations	617,626	O	O
+that	627,631	O	O
+might	632,637	O	O
+be	638,640	O	O
+necessary	641,650	O	O
+for	651,654	O	O
+elimination	655,666	O	B-Task
+of	667,669	O	I-Task
+large	670,675	O	I-Task
+tumor	676,681	O	I-Task
+burdens	682,689	O	I-Task
+.	689,690	O	O
+
+Such	691,695	O	O
+“	696,697	O	B-Process
+re	697,699	O	I-Process
+-	699,700	O	I-Process
+arming	700,706	O	I-Process
+”	706,707	O	I-Process
+of	708,710	O	I-Process
+T	711,712	O	I-Process
+-	712,713	O	I-Process
+cells	713,718	O	I-Process
+with	719,723	O	I-Process
+supporting	724,734	O	I-Process
+drugs	735,740	O	I-Process
+could	741,746	O	O
+be	747,749	O	O
+achieved	750,758	O	O
+by	759,761	O	O
+repeated	762,770	O	O
+administration	771,785	O	B-Process
+of	786,788	O	I-Process
+targeted	789,797	O	I-Process
+particles	798,807	O	I-Process
+,	807,808	O	O
+allowing	809,817	O	O
+adoptively	818,828	O	B-Material
+-	828,829	O	I-Material
+transferred	829,840	O	I-Material
+T	841,842	O	I-Material
+-	842,843	O	I-Material
+cells	843,848	O	I-Material
+to	849,851	O	O
+be	852,854	O	O
+restimulated	855,867	O	O
+multiple	868,876	O	O
+times	877,882	O	O
+directly	883,891	O	O
+in	892,894	O	O
+vivo	895,899	O	O
+,	899,900	O	O
+while	901,906	O	O
+the	907,910	O	O
+use	911,914	O	O
+of	915,917	O	O
+internalizing	918,931	O	B-Material
+targeting	932,941	O	I-Material
+ligands	942,949	O	I-Material
+would	950,955	O	O
+minimize	956,964	O	O
+the	965,968	O	O
+likelihood	969,979	O	O
+of	980,982	O	O
+immune	983,989	O	O
+responses	990,999	O	O
+against	1000,1007	O	O
+the	1008,1011	O	O
+nanoparticle	1012,1024	O	B-Material
+carrier	1025,1032	O	I-Material
+.	1032,1033	O	O
+
+To	1034,1036	O	O
+our	1037,1040	O	O
+knowledge	1041,1050	O	O
+,	1050,1051	O	O
+only	1052,1056	O	O
+two	1057,1060	O	O
+prior	1061,1066	O	O
+studies	1067,1074	O	O
+have	1075,1079	O	O
+attempted	1080,1089	O	O
+to	1090,1092	O	O
+target	1093,1099	O	O
+nanoparticles	1100,1113	O	B-Material
+to	1114,1116	O	O
+T	1117,1118	O	B-Material
+-	1118,1119	O	I-Material
+cells	1119,1124	O	I-Material
+in	1125,1127	O	O
+vivo	1128,1132	O	O
+[	1133,1134	O	O
+17,18	1134,1139	O	O
+]	1139,1140	O	O
+.	1140,1141	O	O
+
+In	1142,1144	O	O
+both	1145,1149	O	O
+of	1150,1152	O	O
+these	1153,1158	O	O
+studies	1159,1166	O	O
+,	1166,1167	O	O
+particles	1168,1177	O	O
+were	1178,1182	O	O
+targeted	1183,1191	O	O
+to	1192,1194	O	O
+T	1195,1196	O	B-Material
+-	1196,1197	O	I-Material
+cells	1197,1202	O	I-Material
+via	1203,1206	O	O
+peptide	1207,1214	O	B-Material
+-	1214,1215	O	I-Material
+MHC	1215,1218	O	I-Material
+ligands	1219,1226	O	I-Material
+that	1227,1231	O	O
+bind	1232,1236	O	O
+to	1237,1239	O	O
+specific	1240,1248	O	O
+T	1249,1250	O	B-Material
+-	1250,1251	O	I-Material
+cell	1251,1255	O	I-Material
+receptors	1256,1265	O	I-Material
+.	1265,1266	O	O
+
+However	1267,1274	O	O
+,	1274,1275	O	O
+peptide	1276,1283	O	B-Material
+-	1283,1284	O	I-Material
+MHC	1284,1287	O	I-Material
+-	1287,1288	O	I-Material
+functionalized	1288,1302	O	I-Material
+nanoparticles	1303,1316	O	I-Material
+have	1317,1321	O	O
+recently	1322,1330	O	O
+been	1331,1335	O	O
+shown	1336,1341	O	O
+to	1342,1344	O	O
+deliver	1345,1352	O	O
+an	1353,1355	O	O
+anergizing	1356,1366	O	O
+/	1366,1367	O	O
+tolerizing	1367,1377	O	O
+signal	1378,1384	O	O
+to	1385,1387	O	O
+T	1388,1389	O	B-Material
+-	1389,1390	O	I-Material
+cells	1390,1395	O	I-Material
+[	1396,1397	O	O
+18,19	1397,1402	O	O
+]	1402,1403	O	O
+—	1404,1405	O	O
+which	1406,1411	O	O
+is	1412,1414	O	O
+ideal	1415,1420	O	O
+for	1421,1424	O	O
+treating	1425,1433	O	B-Task
+graft	1434,1439	O	I-Task
+rejection	1440,1449	O	I-Task
+or	1450,1452	O	I-Task
+autoimmunity	1453,1465	O	I-Task
+,	1465,1466	O	O
+but	1467,1470	O	O
+runs	1471,1475	O	O
+counter	1476,1483	O	O
+to	1484,1486	O	O
+the	1487,1490	O	O
+goals	1491,1496	O	O
+of	1497,1499	O	O
+cancer	1500,1506	O	B-Task
+immunotherapy	1507,1520	O	I-Task
+.	1520,1521	O	O
 
 
 -DOCSTART- (S0168365913004975)
 
-The	0	3	O
-α-ω-aminohexylcarbamate	4	27	B-Material
-derivative	28	38	I-Material
-of	39	41	I-Material
-cyanocobalamin	42	56	I-Material
-was	57	60	O
-prepared	61	69	O
-using	70	75	O
-a	76	77	O
-method	78	84	O
-described	85	94	O
-previously	95	105	O
-[	106	107	O
-18	107	109	O
-]	109	110	O
-.	110	111	O
-
-Briefly	112	119	O
-,	119	120	O
-solid	121	126	B-Material
-CDI	127	130	I-Material
-(	131	132	O
-260	132	135	O
-mg	135	137	O
-,	137	138	O
-0.32mmol	139	147	O
-)	147	148	O
-was	149	152	O
-added	153	158	O
-to	159	161	O
-cyanocobalamin	162	176	B-Material
-(	177	178	O
-1.0	178	181	O
-g	181	182	O
-,	182	183	O
-0.148mmol	184	193	O
-)	193	194	O
-previously	195	205	O
-dissolved	206	215	O
-in	216	218	O
-anhydrous	219	228	B-Material
-dimethyl	229	237	I-Material
-sulfoxide	238	247	I-Material
-.	247	248	O
-
-The	249	252	O
-mixture	253	260	O
-was	261	264	O
-stirred	265	272	O
-for	273	276	O
-up	277	279	O
-to	280	282	O
-2h	283	285	O
-at	286	288	O
-30	289	291	O
-°	291	292	O
-C	292	293	O
-,	293	294	O
-followed	295	303	O
-by	304	306	O
-the	307	310	O
-addition	311	319	O
-of	320	322	O
-dry	323	326	B-Material
-1,6-hexanediamine	327	344	I-Material
-(	345	346	O
-314	346	349	O
-mg	349	351	O
-,	351	352	O
-0.54mmol	353	361	O
-)	361	362	O
-and	363	366	O
-stirring	367	375	O
-of	376	378	O
-the	379	382	O
-mixture	383	390	O
-at	391	393	O
-room	394	398	O
-temperature	399	410	O
-over	411	415	O
-24h	416	419	O
-.	419	420	O
-
-The	421	424	O
-mixture	425	432	O
-was	433	436	O
-poured	437	443	O
-into	444	448	O
-ethyl	449	454	B-Material
-acetate	455	462	I-Material
-(	463	464	O
-30ml	464	468	O
-)	468	469	O
-and	470	473	O
-left	474	478	O
-to	479	481	O
-stand	482	487	O
-.	487	488	O
-
-Following	489	498	O
-centrifugation	499	513	B-Process
-and	514	517	O
-decanting	518	527	B-Process
-of	528	530	O
-the	531	534	O
-supernatant	535	546	B-Material
-,	546	547	O
-the	548	551	O
-residue	552	559	B-Material
-was	560	563	O
-sonicated	564	573	O
-for	574	577	O
-5min	578	582	O
-in	583	585	O
-acetone	586	593	B-Material
-(	594	595	O
-50ml	595	599	O
-)	599	600	O
-.	600	601	O
-
-The	602	605	O
-resulting	606	615	O
-precipitate	616	627	B-Material
-was	628	631	O
-filtered	632	640	O
-and	641	644	O
-the	645	648	O
-solid	649	654	B-Material
-washed	655	661	O
-in	662	664	O
-acetone	665	672	B-Material
-.	672	673	O
-
-The	674	677	O
-crude	678	683	B-Material
-product	684	691	I-Material
-was	692	695	O
-purified	696	704	O
-by	705	707	O
-silica	708	714	B-Process
-column	715	721	I-Process
-chromatography	722	736	I-Process
-(	737	738	O
-45	738	740	O
-%	740	741	O
-v	742	743	O
-/	743	744	O
-v	744	745	O
-2-propanol	746	756	B-Material
-,	756	757	O
-30	758	760	O
-%	760	761	O
-v	762	763	O
-/	763	764	O
-v	764	765	O
-n	766	767	O
--	767	768	O
-butanol	768	775	B-Material
-,	775	776	O
-2	777	778	O
-%	778	779	O
-v	780	781	O
-/	781	782	O
-v	782	783	O
-ammonia	784	791	B-Material
-and	792	795	O
-25	796	798	O
-%	798	799	O
-v	800	801	O
-/	801	802	O
-v	802	803	O
-water	804	809	B-Material
-)	809	810	O
-followed	811	819	O
-by	820	822	O
-lyophilisation	823	837	B-Process
-.	837	838	O
+The	0,3	O	O
+α-ω-aminohexylcarbamate	4,27	O	B-Material
+derivative	28,38	O	I-Material
+of	39,41	O	I-Material
+cyanocobalamin	42,56	O	I-Material
+was	57,60	O	O
+prepared	61,69	O	O
+using	70,75	O	O
+a	76,77	O	O
+method	78,84	O	O
+described	85,94	O	O
+previously	95,105	O	O
+[	106,107	O	O
+18	107,109	O	O
+]	109,110	O	O
+.	110,111	O	O
+
+Briefly	112,119	O	O
+,	119,120	O	O
+solid	121,126	O	B-Material
+CDI	127,130	O	I-Material
+(	131,132	O	O
+260	132,135	O	O
+mg	135,137	O	O
+,	137,138	O	O
+0.32mmol	139,147	O	O
+)	147,148	O	O
+was	149,152	O	O
+added	153,158	O	O
+to	159,161	O	O
+cyanocobalamin	162,176	O	B-Material
+(	177,178	O	O
+1.0	178,181	O	O
+g	181,182	O	O
+,	182,183	O	O
+0.148mmol	184,193	O	O
+)	193,194	O	O
+previously	195,205	O	O
+dissolved	206,215	O	O
+in	216,218	O	O
+anhydrous	219,228	O	B-Material
+dimethyl	229,237	O	I-Material
+sulfoxide	238,247	O	I-Material
+.	247,248	O	O
+
+The	249,252	O	O
+mixture	253,260	O	O
+was	261,264	O	O
+stirred	265,272	O	O
+for	273,276	O	O
+up	277,279	O	O
+to	280,282	O	O
+2h	283,285	O	O
+at	286,288	O	O
+30	289,291	O	O
+°	291,292	O	O
+C	292,293	O	O
+,	293,294	O	O
+followed	295,303	O	O
+by	304,306	O	O
+the	307,310	O	O
+addition	311,319	O	O
+of	320,322	O	O
+dry	323,326	O	B-Material
+1,6-hexanediamine	327,344	O	I-Material
+(	345,346	O	O
+314	346,349	O	O
+mg	349,351	O	O
+,	351,352	O	O
+0.54mmol	353,361	O	O
+)	361,362	O	O
+and	363,366	O	O
+stirring	367,375	O	O
+of	376,378	O	O
+the	379,382	O	O
+mixture	383,390	O	O
+at	391,393	O	O
+room	394,398	O	O
+temperature	399,410	O	O
+over	411,415	O	O
+24h	416,419	O	O
+.	419,420	O	O
+
+The	421,424	O	O
+mixture	425,432	O	O
+was	433,436	O	O
+poured	437,443	O	O
+into	444,448	O	O
+ethyl	449,454	O	B-Material
+acetate	455,462	O	I-Material
+(	463,464	O	O
+30ml	464,468	O	O
+)	468,469	O	O
+and	470,473	O	O
+left	474,478	O	O
+to	479,481	O	O
+stand	482,487	O	O
+.	487,488	O	O
+
+Following	489,498	O	O
+centrifugation	499,513	O	B-Process
+and	514,517	O	O
+decanting	518,527	O	B-Process
+of	528,530	O	O
+the	531,534	O	O
+supernatant	535,546	O	B-Material
+,	546,547	O	O
+the	548,551	O	O
+residue	552,559	O	B-Material
+was	560,563	O	O
+sonicated	564,573	O	O
+for	574,577	O	O
+5min	578,582	O	O
+in	583,585	O	O
+acetone	586,593	O	B-Material
+(	594,595	O	O
+50ml	595,599	O	O
+)	599,600	O	O
+.	600,601	O	O
+
+The	602,605	O	O
+resulting	606,615	O	O
+precipitate	616,627	O	B-Material
+was	628,631	O	O
+filtered	632,640	O	O
+and	641,644	O	O
+the	645,648	O	O
+solid	649,654	O	B-Material
+washed	655,661	O	O
+in	662,664	O	O
+acetone	665,672	O	B-Material
+.	672,673	O	O
+
+The	674,677	O	O
+crude	678,683	O	B-Material
+product	684,691	O	I-Material
+was	692,695	O	O
+purified	696,704	O	O
+by	705,707	O	O
+silica	708,714	O	B-Process
+column	715,721	O	I-Process
+chromatography	722,736	O	I-Process
+(	737,738	O	O
+45	738,740	O	O
+%	740,741	O	O
+v	742,743	O	O
+/	743,744	O	O
+v	744,745	O	O
+2-propanol	746,756	O	B-Material
+,	756,757	O	O
+30	758,760	O	O
+%	760,761	O	O
+v	762,763	O	O
+/	763,764	O	O
+v	764,765	O	O
+n	766,767	O	O
+-	767,768	O	O
+butanol	768,775	O	B-Material
+,	775,776	O	O
+2	777,778	O	O
+%	778,779	O	O
+v	780,781	O	O
+/	781,782	O	O
+v	782,783	O	O
+ammonia	784,791	O	B-Material
+and	792,795	O	O
+25	796,798	O	O
+%	798,799	O	O
+v	800,801	O	O
+/	801,802	O	O
+v	802,803	O	O
+water	804,809	O	B-Material
+)	809,810	O	O
+followed	811,819	O	O
+by	820,822	O	O
+lyophilisation	823,837	O	B-Process
+.	837,838	O	O
 
 
 -DOCSTART- (S0168365913008766)
 
-Immunopotentiators	0	18	B-Material
-activate	19	27	B-Process
-innate	28	34	I-Process
-immunity	35	43	I-Process
-directly	44	52	O
-(	53	54	O
-for	54	57	O
-example	58	65	O
-,	65	66	O
-cytokines	67	76	O
-)	76	77	O
-or	78	80	O
-through	81	88	O
-pattern	89	96	B-Process
--	96	97	I-Process
-recognition	97	108	I-Process
-receptors	109	118	I-Process
-(	119	120	O
-PRRs	120	124	B-Process
-,	124	125	O
-such	126	130	O
-as	131	133	O
-those	134	139	O
-for	140	143	O
-bacterial	144	153	O
-components	154	164	O
-)	164	165	O
-.	165	166	O
-
-The	167	170	O
-Toll	171	175	B-Process
--	175	176	I-Process
-like	176	180	I-Process
-receptors	181	190	I-Process
-(	191	192	O
-TLRs	192	196	B-Process
-)	196	197	O
-are	198	201	O
-a	202	203	O
-family	204	210	O
-of	211	213	O
-PRRs	214	218	B-Process
-that	219	223	O
-are	224	227	O
-an	228	230	O
-important	231	240	O
-link	241	245	O
-between	246	253	O
-innate	254	260	O
-and	261	264	O
-adaptive	265	273	O
-immunity	274	282	O
-.	282	283	O
-
-Some	284	288	O
-studies	289	296	O
-have	297	301	O
-shown	302	307	O
-that	308	312	O
-TLR	313	316	B-Material
-ligands	317	324	I-Material
-have	325	329	O
-adjuvant	330	338	O
-activity	339	347	O
-and	348	351	O
-enhance	352	359	O
-antigen	360	367	O
--	367	368	O
-specific	368	376	O
-antibody	377	385	O
-and	386	389	O
-cell	390	394	O
--	394	395	O
-mediated	395	403	O
-immune	404	410	O
-responses	411	420	O
-,	420	421	O
-especially	422	432	O
-when	433	437	O
-they	438	442	O
-are	443	446	O
-combined	447	455	O
-with	456	460	O
-delivery	461	469	O
-systems	470	477	O
-that	478	482	O
-promote	483	490	O
-their	491	496	O
-uptake	497	503	O
-and	504	507	O
-delivery	508	516	O
-into	517	521	O
-antigen	522	529	B-Material
--	529	530	I-Material
-presenting	530	540	I-Material
-cells	541	546	I-Material
-[	547	548	O
-22–24	548	553	O
-]	553	554	O
-.	554	555	O
-
-For	556	559	O
-clinical	560	568	B-Task
-studies	569	576	I-Task
-,	576	577	O
-TLR9	578	582	B-Material
-is	583	585	O
-generally	586	595	O
-stimulated	596	606	B-Process
-with	607	611	O
-synthetic	612	621	B-Material
-oligodeoxynucleotides	622	643	I-Material
-containing	644	654	O
-one	655	658	O
-or	659	661	O
-more	662	666	O
-unmethylated	667	679	B-Material
-CpG	680	683	I-Material
-dinucleotides	684	697	I-Material
-.	697	698	O
-
-In	699	701	O
-humans	702	708	O
-,	708	709	O
-CpG	710	713	B-Material
-has	714	717	O
-been	718	722	O
-used	723	727	O
-as	728	730	O
-an	731	733	O
-adjuvant	734	742	B-Material
-for	743	746	O
-infectious	747	757	B-Task
-disease	758	765	I-Task
-vaccination	766	777	I-Task
-[	778	779	O
-25,26	779	784	O
-]	784	785	O
-and	786	789	O
-in	790	792	O
-the	793	796	B-Task
-development	797	808	I-Task
-of	809	811	I-Task
-cancer	812	818	I-Task
-therapy	819	826	I-Task
-[	827	828	O
-27	828	830	O
-]	830	831	O
-.	831	832	O
-
-In	833	835	O
-a	836	837	O
-mouse	838	843	B-Process
-model	844	849	I-Process
-,	849	850	O
-CpG	851	854	B-Material
-has	855	858	O
-also	859	863	O
-been	864	868	O
-shown	869	874	O
-to	875	877	O
-induce	878	884	B-Process
-T	885	886	I-Process
-helper	887	893	I-Process
-1	894	895	I-Process
-(	896	897	O
-Th1	897	900	O
-)	900	901	O
-immune	902	908	O
-responses	909	918	O
-,	918	919	O
-which	920	925	O
-are	926	929	O
-characterized	930	943	O
-by	944	946	O
-the	947	950	O
-production	951	961	B-Process
-of	962	964	I-Process
-IFN-γ	965	970	I-Process
-and	971	974	I-Process
-the	975	978	I-Process
-generation	979	989	I-Process
-of	990	992	I-Process
-IgG2a	993	998	I-Process
-[	999	1000	O
-28,29	1000	1005	O
-]	1005	1006	O
-.	1006	1007	O
-
-Moreover	1008	1016	O
-,	1016	1017	O
-a	1018	1019	O
-previous	1020	1028	O
-study	1029	1034	O
-had	1035	1038	O
-demonstrated	1039	1051	O
-that	1052	1056	O
-different	1057	1066	O
-liposomes	1067	1076	B-Material
-with	1077	1081	O
-CpG	1082	1085	O
-ODN	1086	1089	O
-significantly	1090	1103	O
-increased	1104	1113	O
-Th1-biased	1114	1124	B-Material
-cytokines	1125	1134	I-Material
-and	1135	1138	O
-augmented	1139	1148	B-Process
-cell	1149	1153	I-Process
-mediated	1154	1162	I-Process
-immune	1163	1169	I-Process
-response	1170	1178	I-Process
-[	1179	1180	O
-30	1180	1182	O
-]	1182	1183	O
-.	1183	1184	O
+Immunopotentiators	0,18	O	B-Material
+activate	19,27	O	B-Process
+innate	28,34	O	I-Process
+immunity	35,43	O	I-Process
+directly	44,52	O	O
+(	53,54	O	O
+for	54,57	O	O
+example	58,65	O	O
+,	65,66	O	O
+cytokines	67,76	O	O
+)	76,77	O	O
+or	78,80	O	O
+through	81,88	O	O
+pattern	89,96	O	B-Process
+-	96,97	O	I-Process
+recognition	97,108	O	I-Process
+receptors	109,118	O	I-Process
+(	119,120	O	O
+PRRs	120,124	O	B-Process
+,	124,125	O	O
+such	126,130	O	O
+as	131,133	O	O
+those	134,139	O	O
+for	140,143	O	O
+bacterial	144,153	O	O
+components	154,164	O	O
+)	164,165	O	O
+.	165,166	O	O
+
+The	167,170	O	O
+Toll	171,175	O	B-Process
+-	175,176	O	I-Process
+like	176,180	O	I-Process
+receptors	181,190	O	I-Process
+(	191,192	O	O
+TLRs	192,196	O	B-Process
+)	196,197	O	O
+are	198,201	O	O
+a	202,203	O	O
+family	204,210	O	O
+of	211,213	O	O
+PRRs	214,218	O	B-Process
+that	219,223	O	O
+are	224,227	O	O
+an	228,230	O	O
+important	231,240	O	O
+link	241,245	O	O
+between	246,253	O	O
+innate	254,260	O	O
+and	261,264	O	O
+adaptive	265,273	O	O
+immunity	274,282	O	O
+.	282,283	O	O
+
+Some	284,288	O	O
+studies	289,296	O	O
+have	297,301	O	O
+shown	302,307	O	O
+that	308,312	O	O
+TLR	313,316	O	B-Material
+ligands	317,324	O	I-Material
+have	325,329	O	O
+adjuvant	330,338	O	O
+activity	339,347	O	O
+and	348,351	O	O
+enhance	352,359	O	O
+antigen	360,367	O	O
+-	367,368	O	O
+specific	368,376	O	O
+antibody	377,385	O	O
+and	386,389	O	O
+cell	390,394	O	O
+-	394,395	O	O
+mediated	395,403	O	O
+immune	404,410	O	O
+responses	411,420	O	O
+,	420,421	O	O
+especially	422,432	O	O
+when	433,437	O	O
+they	438,442	O	O
+are	443,446	O	O
+combined	447,455	O	O
+with	456,460	O	O
+delivery	461,469	O	O
+systems	470,477	O	O
+that	478,482	O	O
+promote	483,490	O	O
+their	491,496	O	O
+uptake	497,503	O	O
+and	504,507	O	O
+delivery	508,516	O	O
+into	517,521	O	O
+antigen	522,529	O	B-Material
+-	529,530	O	I-Material
+presenting	530,540	O	I-Material
+cells	541,546	O	I-Material
+[	547,548	O	O
+22–24	548,553	O	O
+]	553,554	O	O
+.	554,555	O	O
+
+For	556,559	O	O
+clinical	560,568	O	B-Task
+studies	569,576	O	I-Task
+,	576,577	O	O
+TLR9	578,582	O	B-Material
+is	583,585	O	O
+generally	586,595	O	O
+stimulated	596,606	O	B-Process
+with	607,611	O	O
+synthetic	612,621	O	B-Material
+oligodeoxynucleotides	622,643	O	I-Material
+containing	644,654	O	O
+one	655,658	O	O
+or	659,661	O	O
+more	662,666	O	O
+unmethylated	667,679	O	B-Material
+CpG	680,683	O	I-Material
+dinucleotides	684,697	O	I-Material
+.	697,698	O	O
+
+In	699,701	O	O
+humans	702,708	O	O
+,	708,709	O	O
+CpG	710,713	O	B-Material
+has	714,717	O	O
+been	718,722	O	O
+used	723,727	O	O
+as	728,730	O	O
+an	731,733	O	O
+adjuvant	734,742	O	B-Material
+for	743,746	O	O
+infectious	747,757	O	B-Task
+disease	758,765	O	I-Task
+vaccination	766,777	O	I-Task
+[	778,779	O	O
+25,26	779,784	O	O
+]	784,785	O	O
+and	786,789	O	O
+in	790,792	O	O
+the	793,796	O	B-Task
+development	797,808	O	I-Task
+of	809,811	O	I-Task
+cancer	812,818	O	I-Task
+therapy	819,826	O	I-Task
+[	827,828	O	O
+27	828,830	O	O
+]	830,831	O	O
+.	831,832	O	O
+
+In	833,835	O	O
+a	836,837	O	O
+mouse	838,843	O	B-Process
+model	844,849	O	I-Process
+,	849,850	O	O
+CpG	851,854	O	B-Material
+has	855,858	O	O
+also	859,863	O	O
+been	864,868	O	O
+shown	869,874	O	O
+to	875,877	O	O
+induce	878,884	O	B-Process
+T	885,886	O	I-Process
+helper	887,893	O	I-Process
+1	894,895	O	I-Process
+(	896,897	O	O
+Th1	897,900	O	O
+)	900,901	O	O
+immune	902,908	O	O
+responses	909,918	O	O
+,	918,919	O	O
+which	920,925	O	O
+are	926,929	O	O
+characterized	930,943	O	O
+by	944,946	O	O
+the	947,950	O	O
+production	951,961	O	B-Process
+of	962,964	O	I-Process
+IFN-γ	965,970	O	I-Process
+and	971,974	O	I-Process
+the	975,978	O	I-Process
+generation	979,989	O	I-Process
+of	990,992	O	I-Process
+IgG2a	993,998	O	I-Process
+[	999,1000	O	O
+28,29	1000,1005	O	O
+]	1005,1006	O	O
+.	1006,1007	O	O
+
+Moreover	1008,1016	O	O
+,	1016,1017	O	O
+a	1018,1019	O	O
+previous	1020,1028	O	O
+study	1029,1034	O	O
+had	1035,1038	O	O
+demonstrated	1039,1051	O	O
+that	1052,1056	O	O
+different	1057,1066	O	O
+liposomes	1067,1076	O	B-Material
+with	1077,1081	O	O
+CpG	1082,1085	O	O
+ODN	1086,1089	O	O
+significantly	1090,1103	O	O
+increased	1104,1113	O	O
+Th1-biased	1114,1124	O	B-Material
+cytokines	1125,1134	O	I-Material
+and	1135,1138	O	O
+augmented	1139,1148	O	B-Process
+cell	1149,1153	O	I-Process
+mediated	1154,1162	O	I-Process
+immune	1163,1169	O	I-Process
+response	1170,1178	O	I-Process
+[	1179,1180	O	O
+30	1180,1182	O	O
+]	1182,1183	O	O
+.	1183,1184	O	O
 
 
 -DOCSTART- (S0168365913009036)
 
-Two	0	3	O
-methods	4	11	O
-of	12	14	O
-formulating	15	26	B-Task
-anionic	27	34	I-Task
-nanocomplexes	35	48	I-Task
-were	49	53	O
-evaluated	54	63	O
-.	63	64	O
-
-In	65	67	O
-both	68	72	O
-,	72	73	O
-nanocomplexes	74	87	B-Material
-were	88	92	O
-prepared	93	101	B-Process
-in	102	104	O
-water	105	110	O
-at	111	113	O
-a	114	115	O
-range	116	121	O
-of	122	124	O
-molar	125	130	O
-charge	131	137	O
-ratios	138	144	O
-of	145	147	O
-L	148	149	O
-to	150	152	O
-D	153	154	O
-while	155	160	O
-the	161	164	O
-peptide	165	172	O
-P	173	174	O
-to	175	177	O
-D	178	179	O
-molar	180	185	O
-charge	186	192	O
-ratio	193	198	O
-was	199	202	O
-maintained	203	213	O
-constant	214	222	O
-at	223	225	O
-3:1	226	229	O
-.	229	230	O
-
-Method	231	237	O
-1	238	239	O
-(	240	241	O
-L	241	242	O
-:	242	243	O
-D	243	244	O
-:	244	245	O
-P	245	246	O
-)	246	247	O
-
-:	247	248	O
-DNA	249	252	B-Material
-was	253	256	O
-first	257	262	O
-added	263	268	B-Process
-to	269	271	O
-an	272	274	B-Material
-anionic	275	282	I-Material
-liposome	283	291	I-Material
-(	292	293	O
-LA	293	295	B-Material
-,	295	296	I-Material
-LAP1	297	301	I-Material
-or	302	304	I-Material
-LAP2	305	309	I-Material
-)	309	310	O
-and	311	314	O
-incubated	315	324	B-Process
-for	325	328	O
-15min	329	334	O
-at	335	337	O
-room	338	342	O
-temperature	343	354	O
-and	355	358	O
-then	359	363	O
-the	364	367	O
-peptide	368	375	O
-was	376	379	O
-added	380	385	B-Process
-with	386	390	O
-rapid	391	396	O
-mixing	397	403	O
-and	404	407	O
-incubated	408	417	B-Process
-at	418	420	O
-room	421	425	O
-temperature	426	437	O
-for	438	441	O
-a	442	443	O
-further	444	451	O
-20min	452	457	O
-;	457	458	O
-Method	459	465	O
-2	466	467	O
-(	468	469	O
-P	469	470	O
-:	470	471	O
-D	471	472	O
-:	472	473	O
-L	473	474	O
-)	474	475	O
-:	475	476	O
-the	477	480	O
-peptide	481	488	B-Material
-was	489	492	O
-added	493	498	B-Process
-to	499	501	O
-the	502	505	O
-DNA	506	509	O
-and	510	513	O
-incubated	514	523	B-Process
-for	524	527	O
-15min	528	533	O
-at	534	536	O
-room	537	541	O
-temperature	542	553	O
-and	554	557	O
-then	558	562	O
-liposome	563	571	B-Material
-was	572	575	O
-added	576	581	B-Process
-with	582	586	O
-rapid	587	592	O
-mixing	593	599	O
-and	600	603	O
-incubated	604	613	B-Process
-at	614	616	O
-room	617	621	O
-temperature	622	633	O
-for	634	637	O
-a	638	639	O
-further	640	647	O
-20min	648	653	O
-.	653	654	O
-
-Irrespective	655	667	O
-of	668	670	O
-the	671	674	O
-method	675	681	O
-of	682	684	O
-order	685	690	O
-of	691	693	O
-mixing	694	700	O
-,	700	701	O
-all	702	705	O
-molar	706	711	O
-charge	712	718	O
-ratios	719	725	O
-in	726	728	O
-this	729	733	O
-study	734	739	O
-refer	740	745	O
-to	746	748	O
-L	749	750	O
-:	750	751	O
-P	751	752	O
-:	752	753	O
-D.	753	755	O
-Cationic	756	764	O
-formulations	765	777	O
-LPD	778	781	B-Material
-and	782	785	O
-LCPRGPD	786	793	B-Material
-were	794	798	O
-prepared	799	807	O
-in	808	810	O
-the	811	814	O
-order	815	820	O
-L	821	822	O
-:	822	823	O
-P	823	824	O
-:	824	825	O
-D	825	826	O
-as	827	829	O
-described	830	839	O
-previously	840	850	O
-;	850	851	O
-first	852	857	O
-,	857	858	O
-the	859	862	O
-peptide	863	870	O
-was	871	874	O
-added	875	880	B-Process
-to	881	883	O
-the	884	887	O
-liposome	888	896	O
-DOTMA	897	902	B-Material
-/	902	903	O
-
-DOPE	903	907	B-Material
-or	908	910	O
-LCPRG	911	916	B-Material
-followed	917	925	O
-by	926	928	O
-addition	929	937	O
-of	938	940	O
-the	941	944	O
-DNA	945	948	B-Material
-with	949	953	O
-rapid	954	959	B-Process
-mixing	960	966	I-Process
-and	967	970	I-Process
-incubated	971	980	I-Process
-for	981	984	O
-30min	985	990	O
-at	991	993	O
-room	994	998	O
-temperature	999	1010	O
-to	1011	1013	O
-allow	1014	1019	O
-for	1020	1023	O
-complex	1024	1031	O
-formation	1032	1041	O
-[	1042	1043	O
-30	1043	1045	O
-]	1045	1046	O
-.	1046	1047	O
-
-The	1048	1051	O
-nanocomplexes	1052	1065	O
-prepared	1066	1074	O
-were	1075	1079	O
-termed	1080	1086	O
-LPD	1087	1090	B-Material
-(	1091	1092	O
-liposome	1092	1100	B-Material
-DOTMA	1101	1106	I-Material
-/	1106	1107	I-Material
-DOPE	1107	1111	I-Material
-)	1111	1112	O
-,	1112	1113	O
-LADP	1114	1118	B-Material
-and	1119	1122	O
-PDLA	1123	1127	B-Material
-(	1128	1129	O
-liposome	1129	1137	B-Material
-LA	1138	1140	I-Material
-)	1140	1141	O
-,	1141	1142	O
-
-PDLAP1	1143	1149	B-Material
-(	1150	1151	O
-liposome	1151	1159	B-Material
-LAP1	1160	1164	I-Material
-)	1164	1165	O
-,	1165	1166	O
-PDLAP2	1167	1173	B-Material
-
-(	1174	1175	O
-liposome	1175	1183	B-Material
-LAP2	1184	1188	I-Material
-)	1188	1189	O
-,	1189	1190	O
-PDLAPRG	1191	1198	B-Material
-(	1199	1200	O
-liposome	1200	1208	B-Material
-LAPRG	1209	1214	I-Material
-)	1214	1215	O
-and	1216	1219	O
-LCPRGPD	1220	1227	B-Material
-(	1228	1229	O
-liposome	1229	1237	B-Material
-LCPRG	1238	1243	I-Material
-)	1243	1244	O
-.	1244	1245	O
+Two	0,3	O	O
+methods	4,11	O	O
+of	12,14	O	O
+formulating	15,26	O	B-Task
+anionic	27,34	O	I-Task
+nanocomplexes	35,48	O	I-Task
+were	49,53	O	O
+evaluated	54,63	O	O
+.	63,64	O	O
+
+In	65,67	O	O
+both	68,72	O	O
+,	72,73	O	O
+nanocomplexes	74,87	O	B-Material
+were	88,92	O	O
+prepared	93,101	O	B-Process
+in	102,104	O	O
+water	105,110	O	O
+at	111,113	O	O
+a	114,115	O	O
+range	116,121	O	O
+of	122,124	O	O
+molar	125,130	O	O
+charge	131,137	O	O
+ratios	138,144	O	O
+of	145,147	O	O
+L	148,149	O	O
+to	150,152	O	O
+D	153,154	O	O
+while	155,160	O	O
+the	161,164	O	O
+peptide	165,172	O	O
+P	173,174	O	O
+to	175,177	O	O
+D	178,179	O	O
+molar	180,185	O	O
+charge	186,192	O	O
+ratio	193,198	O	O
+was	199,202	O	O
+maintained	203,213	O	O
+constant	214,222	O	O
+at	223,225	O	O
+3:1	226,229	O	O
+.	229,230	O	O
+
+Method	231,237	O	O
+1	238,239	O	O
+(	240,241	O	O
+L	241,242	O	O
+:	242,243	O	O
+D	243,244	O	O
+:	244,245	O	O
+P	245,246	O	O
+)	246,247	O	O
+
+:	247,248	O	O
+DNA	249,252	O	B-Material
+was	253,256	O	O
+first	257,262	O	O
+added	263,268	O	B-Process
+to	269,271	O	O
+an	272,274	O	B-Material
+anionic	275,282	O	I-Material
+liposome	283,291	O	I-Material
+(	292,293	O	O
+LA	293,295	O	B-Material
+,	295,296	O	I-Material
+LAP1	297,301	O	I-Material
+or	302,304	O	I-Material
+LAP2	305,309	O	I-Material
+)	309,310	O	O
+and	311,314	O	O
+incubated	315,324	O	B-Process
+for	325,328	O	O
+15min	329,334	O	O
+at	335,337	O	O
+room	338,342	O	O
+temperature	343,354	O	O
+and	355,358	O	O
+then	359,363	O	O
+the	364,367	O	O
+peptide	368,375	O	O
+was	376,379	O	O
+added	380,385	O	B-Process
+with	386,390	O	O
+rapid	391,396	O	O
+mixing	397,403	O	O
+and	404,407	O	O
+incubated	408,417	O	B-Process
+at	418,420	O	O
+room	421,425	O	O
+temperature	426,437	O	O
+for	438,441	O	O
+a	442,443	O	O
+further	444,451	O	O
+20min	452,457	O	O
+;	457,458	O	O
+Method	459,465	O	O
+2	466,467	O	O
+(	468,469	O	O
+P	469,470	O	O
+:	470,471	O	O
+D	471,472	O	O
+:	472,473	O	O
+L	473,474	O	O
+)	474,475	O	O
+:	475,476	O	O
+the	477,480	O	O
+peptide	481,488	O	B-Material
+was	489,492	O	O
+added	493,498	O	B-Process
+to	499,501	O	O
+the	502,505	O	O
+DNA	506,509	O	O
+and	510,513	O	O
+incubated	514,523	O	B-Process
+for	524,527	O	O
+15min	528,533	O	O
+at	534,536	O	O
+room	537,541	O	O
+temperature	542,553	O	O
+and	554,557	O	O
+then	558,562	O	O
+liposome	563,571	O	B-Material
+was	572,575	O	O
+added	576,581	O	B-Process
+with	582,586	O	O
+rapid	587,592	O	O
+mixing	593,599	O	O
+and	600,603	O	O
+incubated	604,613	O	B-Process
+at	614,616	O	O
+room	617,621	O	O
+temperature	622,633	O	O
+for	634,637	O	O
+a	638,639	O	O
+further	640,647	O	O
+20min	648,653	O	O
+.	653,654	O	O
+
+Irrespective	655,667	O	O
+of	668,670	O	O
+the	671,674	O	O
+method	675,681	O	O
+of	682,684	O	O
+order	685,690	O	O
+of	691,693	O	O
+mixing	694,700	O	O
+,	700,701	O	O
+all	702,705	O	O
+molar	706,711	O	O
+charge	712,718	O	O
+ratios	719,725	O	O
+in	726,728	O	O
+this	729,733	O	O
+study	734,739	O	O
+refer	740,745	O	O
+to	746,748	O	O
+L	749,750	O	O
+:	750,751	O	O
+P	751,752	O	O
+:	752,753	O	O
+D.	753,755	O	O
+Cationic	756,764	O	O
+formulations	765,777	O	O
+LPD	778,781	O	B-Material
+and	782,785	O	O
+LCPRGPD	786,793	O	B-Material
+were	794,798	O	O
+prepared	799,807	O	O
+in	808,810	O	O
+the	811,814	O	O
+order	815,820	O	O
+L	821,822	O	O
+:	822,823	O	O
+P	823,824	O	O
+:	824,825	O	O
+D	825,826	O	O
+as	827,829	O	O
+described	830,839	O	O
+previously	840,850	O	O
+;	850,851	O	O
+first	852,857	O	O
+,	857,858	O	O
+the	859,862	O	O
+peptide	863,870	O	O
+was	871,874	O	O
+added	875,880	O	B-Process
+to	881,883	O	O
+the	884,887	O	O
+liposome	888,896	O	O
+DOTMA	897,902	O	B-Material
+/	902,903	O	O
+
+DOPE	903,907	O	B-Material
+or	908,910	O	O
+LCPRG	911,916	O	B-Material
+followed	917,925	O	O
+by	926,928	O	O
+addition	929,937	O	O
+of	938,940	O	O
+the	941,944	O	O
+DNA	945,948	O	B-Material
+with	949,953	O	O
+rapid	954,959	O	B-Process
+mixing	960,966	O	I-Process
+and	967,970	O	I-Process
+incubated	971,980	O	I-Process
+for	981,984	O	O
+30min	985,990	O	O
+at	991,993	O	O
+room	994,998	O	O
+temperature	999,1010	O	O
+to	1011,1013	O	O
+allow	1014,1019	O	O
+for	1020,1023	O	O
+complex	1024,1031	O	O
+formation	1032,1041	O	O
+[	1042,1043	O	O
+30	1043,1045	O	O
+]	1045,1046	O	O
+.	1046,1047	O	O
+
+The	1048,1051	O	O
+nanocomplexes	1052,1065	O	O
+prepared	1066,1074	O	O
+were	1075,1079	O	O
+termed	1080,1086	O	O
+LPD	1087,1090	O	B-Material
+(	1091,1092	O	O
+liposome	1092,1100	O	B-Material
+DOTMA	1101,1106	O	I-Material
+/	1106,1107	O	I-Material
+DOPE	1107,1111	O	I-Material
+)	1111,1112	O	O
+,	1112,1113	O	O
+LADP	1114,1118	O	B-Material
+and	1119,1122	O	O
+PDLA	1123,1127	O	B-Material
+(	1128,1129	O	O
+liposome	1129,1137	O	B-Material
+LA	1138,1140	O	I-Material
+)	1140,1141	O	O
+,	1141,1142	O	O
+
+PDLAP1	1143,1149	O	B-Material
+(	1150,1151	O	O
+liposome	1151,1159	O	B-Material
+LAP1	1160,1164	O	I-Material
+)	1164,1165	O	O
+,	1165,1166	O	O
+PDLAP2	1167,1173	O	B-Material
+
+(	1174,1175	O	O
+liposome	1175,1183	O	B-Material
+LAP2	1184,1188	O	I-Material
+)	1188,1189	O	O
+,	1189,1190	O	O
+PDLAPRG	1191,1198	O	B-Material
+(	1199,1200	O	O
+liposome	1200,1208	O	B-Material
+LAPRG	1209,1214	O	I-Material
+)	1214,1215	O	O
+and	1216,1219	O	O
+LCPRGPD	1220,1227	O	B-Material
+(	1228,1229	O	O
+liposome	1229,1237	O	B-Material
+LCPRG	1238,1243	O	I-Material
+)	1243,1244	O	O
+.	1244,1245	O	O
 
 
 -DOCSTART- (S0168874X1630049X)
 
-The	0	3	O
-crack	4	9	B-Process
-band	10	14	I-Process
-approach	15	23	I-Process
-for	24	27	O
-producing	28	37	O
-mesh	38	42	O
-independent	43	54	O
-load	55	59	O
-–	59	60	O
-displacement	60	72	O
-curves	73	79	O
-for	80	83	O
-fracture	84	92	O
-in	93	95	O
-plain	96	101	O
-concrete	102	110	O
-is	111	113	O
-based	114	119	O
-on	120	122	O
-the	123	126	O
-idea	127	131	O
-that	132	136	O
-the	137	140	O
-crack	141	146	O
-opening	147	154	O
-is	155	157	O
-transformed	158	169	O
-into	170	174	O
-inelastic	175	184	O
-strain	185	191	O
-by	192	194	O
-distributing	195	207	O
-it	208	210	O
-over	211	215	O
-an	216	218	O
-element	219	226	O
-length	227	233	O
-dependent	234	243	O
-zone	244	248	O
-[	249	250	O
-5	250	251	O
-]	251	252	O
-.	252	253	O
-
-This	254	258	O
-approach	259	267	O
-will	268	272	O
-only	273	277	O
-produce	278	285	O
-mesh	286	290	O
-independent	291	302	O
-load	303	307	O
-–	307	308	O
-displacement	308	320	O
-curves	321	327	O
-,	327	328	O
-if	329	331	O
-the	332	335	O
-inelastic	336	345	O
-strain	346	352	O
-profiles	353	361	O
-in	362	364	O
-the	365	368	O
-finite	369	375	O
-element	376	383	O
-analysis	384	392	O
-are	393	396	O
-mesh	397	401	O
-size	402	406	O
-dependent	407	416	O
-.	416	417	O
-
-This	418	422	O
-requirement	423	434	O
-is	435	437	O
-an	438	440	O
-important	441	450	O
-difference	451	461	O
-to	462	464	O
-the	465	468	O
-nonlocal	469	477	O
-model	478	483	O
-which	484	489	O
-is	490	492	O
-designed	493	501	O
-to	502	504	O
-produce	505	512	O
-both	513	517	O
-mesh	518	522	O
-size	523	527	O
-independent	528	539	O
-load	540	544	O
-–	544	545	O
-displacement	545	557	O
-curves	558	564	O
-and	565	568	O
-strain	569	575	O
-profiles	576	584	O
-.	584	585	O
-
-In	586	588	O
-CDPM2	589	594	O
-,	594	595	O
-the	596	599	O
-crack	600	605	B-Process
-band	606	610	I-Process
-approach	611	619	I-Process
-is	620	622	O
-applied	623	630	O
-only	631	635	O
-to	636	638	O
-the	639	642	O
-tensile	643	650	B-Material
-part	651	655	I-Material
-of	656	658	O
-the	659	662	O
-damage	663	669	O
-algorithm	670	679	O
-by	680	682	O
-replacing	683	692	O
-the	693	696	O
-stress	697	703	B-Process
-–	703	704	I-Process
-inelastic	704	713	I-Process
-strain	714	720	I-Process
-law	721	724	I-Process
-shown	725	730	O
-in	731	733	O
-Fig	734	737	O
-.	737	738	O
-
-2(b	739	742	O
-)	742	743	O
-by	744	746	O
-a	747	748	O
-stress	749	755	B-Process
-–	755	756	I-Process
-inelastic	756	765	I-Process
-displacement	766	778	I-Process
-law	779	782	I-Process
-of	783	785	O
-the	786	789	O
-form(13)σ=ftexp(−ϵinhwft)if(ϵin>0)Here	790	828	B-Process
-
-,	828	829	O
-wft	830	833	O
-is	834	836	O
-a	837	838	O
-crack	839	844	O
-opening	845	852	O
-threshold	853	862	O
-used	863	867	O
-to	868	870	O
-control	871	878	O
-the	879	882	O
-slope	883	888	O
-of	889	891	O
-the	892	895	O
-softening	896	905	O
-curve	906	911	O
-and	912	915	O
-h	916	917	O
-is	918	920	O
-the	921	924	O
-width	925	930	O
-of	931	933	O
-the	934	937	O
-crack	938	943	O
--	943	944	O
-band	944	948	O
-,	948	949	O
-which	950	955	O
-in	956	958	O
-the	959	962	O
-present	963	970	O
-study	971	976	O
-is	977	979	O
-equal	980	985	O
-to	986	988	O
-the	989	992	O
-maximum	993	1000	O
-dimension	1001	1010	O
-of	1011	1013	O
-the	1014	1017	O
-element	1018	1025	O
-along	1026	1031	O
-the	1032	1035	O
-principal	1036	1045	O
-direction	1046	1055	O
-of	1056	1058	O
-the	1059	1062	O
-strain	1063	1069	O
-tensor	1070	1076	O
-corresponding	1077	1090	O
-to	1091	1093	O
-the	1094	1097	O
-maximum	1098	1105	O
-tensile	1106	1113	O
-principal	1114	1123	O
-strain	1124	1130	O
-at	1131	1133	O
-the	1134	1137	O
-onset	1138	1143	O
-of	1144	1146	O
-damage	1147	1153	O
-.	1153	1154	O
-
-For	1155	1158	O
-the	1159	1162	O
-compressive	1163	1174	O
-part	1175	1179	O
-,	1179	1180	O
-a	1181	1182	O
-stress	1183	1189	B-Process
-–	1189	1190	I-Process
-inelastic	1190	1199	I-Process
-strain	1200	1206	I-Process
-law	1207	1210	I-Process
-was	1211	1214	O
-used	1215	1219	O
-to	1220	1222	O
-determine	1223	1232	O
-the	1233	1236	O
-compressive	1237	1248	O
-damage	1249	1255	O
-parameter	1256	1265	O
-,	1265	1266	O
-since	1267	1272	O
-it	1273	1275	O
-was	1276	1279	O
-reported	1280	1288	O
-in	1289	1291	O
-[	1292	1293	O
-14	1293	1295	O
-]	1295	1296	O
-for	1297	1300	O
-columns	1301	1308	O
-subjected	1309	1318	O
-to	1319	1321	O
-eccentric	1322	1331	O
-compression	1332	1343	O
-that	1344	1348	O
-inelastic	1349	1358	B-Material
-strain	1359	1365	I-Material
-profiles	1366	1374	I-Material
-in	1375	1377	O
-compression	1378	1389	O
-do	1390	1392	O
-not	1393	1396	O
-exhibit	1397	1404	O
-a	1405	1406	O
-mesh	1407	1411	O
-dependence	1412	1422	O
-which	1423	1428	O
-would	1429	1434	O
-satisfy	1435	1442	O
-the	1443	1446	O
-assumptions	1447	1458	O
-of	1459	1461	O
-the	1462	1465	O
-crack	1466	1471	O
--	1471	1472	O
-band	1472	1476	O
-approach	1477	1485	O
-.	1485	1486	O
-
-This	1487	1491	O
-approach	1492	1500	O
-of	1501	1503	O
-applying	1504	1512	O
-the	1513	1516	O
-crack	1517	1522	B-Process
--	1522	1523	I-Process
-band	1523	1527	I-Process
-approach	1528	1536	I-Process
-only	1537	1541	O
-to	1542	1544	O
-the	1545	1548	O
-tensile	1549	1556	B-Material
-part	1557	1561	I-Material
-has	1562	1565	O
-already	1566	1573	O
-been	1574	1578	O
-successfully	1579	1591	O
-used	1592	1596	O
-in	1597	1599	O
-Grassl	1600	1606	O
-et	1607	1609	O
-al	1610	1612	O
-.	1612	1613	O
-
-[	1614	1615	O
-16	1615	1617	O
-]	1617	1618	O
-.	1618	1619	O
+The	0,3	O	O
+crack	4,9	O	B-Process
+band	10,14	O	I-Process
+approach	15,23	O	I-Process
+for	24,27	O	O
+producing	28,37	O	O
+mesh	38,42	O	O
+independent	43,54	O	O
+load	55,59	O	O
+–	59,60	O	O
+displacement	60,72	O	O
+curves	73,79	O	O
+for	80,83	O	O
+fracture	84,92	O	O
+in	93,95	O	O
+plain	96,101	O	O
+concrete	102,110	O	O
+is	111,113	O	O
+based	114,119	O	O
+on	120,122	O	O
+the	123,126	O	O
+idea	127,131	O	O
+that	132,136	O	O
+the	137,140	O	O
+crack	141,146	O	O
+opening	147,154	O	O
+is	155,157	O	O
+transformed	158,169	O	O
+into	170,174	O	O
+inelastic	175,184	O	O
+strain	185,191	O	O
+by	192,194	O	O
+distributing	195,207	O	O
+it	208,210	O	O
+over	211,215	O	O
+an	216,218	O	O
+element	219,226	O	O
+length	227,233	O	O
+dependent	234,243	O	O
+zone	244,248	O	O
+[	249,250	O	O
+5	250,251	O	O
+]	251,252	O	O
+.	252,253	O	O
+
+This	254,258	O	O
+approach	259,267	O	O
+will	268,272	O	O
+only	273,277	O	O
+produce	278,285	O	O
+mesh	286,290	O	O
+independent	291,302	O	O
+load	303,307	O	O
+–	307,308	O	O
+displacement	308,320	O	O
+curves	321,327	O	O
+,	327,328	O	O
+if	329,331	O	O
+the	332,335	O	O
+inelastic	336,345	O	O
+strain	346,352	O	O
+profiles	353,361	O	O
+in	362,364	O	O
+the	365,368	O	O
+finite	369,375	O	O
+element	376,383	O	O
+analysis	384,392	O	O
+are	393,396	O	O
+mesh	397,401	O	O
+size	402,406	O	O
+dependent	407,416	O	O
+.	416,417	O	O
+
+This	418,422	O	O
+requirement	423,434	O	O
+is	435,437	O	O
+an	438,440	O	O
+important	441,450	O	O
+difference	451,461	O	O
+to	462,464	O	O
+the	465,468	O	O
+nonlocal	469,477	O	O
+model	478,483	O	O
+which	484,489	O	O
+is	490,492	O	O
+designed	493,501	O	O
+to	502,504	O	O
+produce	505,512	O	O
+both	513,517	O	O
+mesh	518,522	O	O
+size	523,527	O	O
+independent	528,539	O	O
+load	540,544	O	O
+–	544,545	O	O
+displacement	545,557	O	O
+curves	558,564	O	O
+and	565,568	O	O
+strain	569,575	O	O
+profiles	576,584	O	O
+.	584,585	O	O
+
+In	586,588	O	O
+CDPM2	589,594	O	O
+,	594,595	O	O
+the	596,599	O	O
+crack	600,605	O	B-Process
+band	606,610	O	I-Process
+approach	611,619	O	I-Process
+is	620,622	O	O
+applied	623,630	O	O
+only	631,635	O	O
+to	636,638	O	O
+the	639,642	O	O
+tensile	643,650	O	B-Material
+part	651,655	O	I-Material
+of	656,658	O	O
+the	659,662	O	O
+damage	663,669	O	O
+algorithm	670,679	O	O
+by	680,682	O	O
+replacing	683,692	O	O
+the	693,696	O	O
+stress	697,703	O	B-Process
+–	703,704	O	I-Process
+inelastic	704,713	O	I-Process
+strain	714,720	O	I-Process
+law	721,724	O	I-Process
+shown	725,730	O	O
+in	731,733	O	O
+Fig	734,737	O	O
+.	737,738	O	O
+
+2(b	739,742	O	O
+)	742,743	O	O
+by	744,746	O	O
+a	747,748	O	O
+stress	749,755	O	B-Process
+–	755,756	O	I-Process
+inelastic	756,765	O	I-Process
+displacement	766,778	O	I-Process
+law	779,782	O	I-Process
+of	783,785	O	O
+the	786,789	O	O
+form(13)σ=ftexp(−ϵinhwft)if(ϵin>0)Here	790,828	O	B-Process
+
+,	828,829	O	O
+wft	830,833	O	O
+is	834,836	O	O
+a	837,838	O	O
+crack	839,844	O	O
+opening	845,852	O	O
+threshold	853,862	O	O
+used	863,867	O	O
+to	868,870	O	O
+control	871,878	O	O
+the	879,882	O	O
+slope	883,888	O	O
+of	889,891	O	O
+the	892,895	O	O
+softening	896,905	O	O
+curve	906,911	O	O
+and	912,915	O	O
+h	916,917	O	O
+is	918,920	O	O
+the	921,924	O	O
+width	925,930	O	O
+of	931,933	O	O
+the	934,937	O	O
+crack	938,943	O	O
+-	943,944	O	O
+band	944,948	O	O
+,	948,949	O	O
+which	950,955	O	O
+in	956,958	O	O
+the	959,962	O	O
+present	963,970	O	O
+study	971,976	O	O
+is	977,979	O	O
+equal	980,985	O	O
+to	986,988	O	O
+the	989,992	O	O
+maximum	993,1000	O	O
+dimension	1001,1010	O	O
+of	1011,1013	O	O
+the	1014,1017	O	O
+element	1018,1025	O	O
+along	1026,1031	O	O
+the	1032,1035	O	O
+principal	1036,1045	O	O
+direction	1046,1055	O	O
+of	1056,1058	O	O
+the	1059,1062	O	O
+strain	1063,1069	O	O
+tensor	1070,1076	O	O
+corresponding	1077,1090	O	O
+to	1091,1093	O	O
+the	1094,1097	O	O
+maximum	1098,1105	O	O
+tensile	1106,1113	O	O
+principal	1114,1123	O	O
+strain	1124,1130	O	O
+at	1131,1133	O	O
+the	1134,1137	O	O
+onset	1138,1143	O	O
+of	1144,1146	O	O
+damage	1147,1153	O	O
+.	1153,1154	O	O
+
+For	1155,1158	O	O
+the	1159,1162	O	O
+compressive	1163,1174	O	O
+part	1175,1179	O	O
+,	1179,1180	O	O
+a	1181,1182	O	O
+stress	1183,1189	O	B-Process
+–	1189,1190	O	I-Process
+inelastic	1190,1199	O	I-Process
+strain	1200,1206	O	I-Process
+law	1207,1210	O	I-Process
+was	1211,1214	O	O
+used	1215,1219	O	O
+to	1220,1222	O	O
+determine	1223,1232	O	O
+the	1233,1236	O	O
+compressive	1237,1248	O	O
+damage	1249,1255	O	O
+parameter	1256,1265	O	O
+,	1265,1266	O	O
+since	1267,1272	O	O
+it	1273,1275	O	O
+was	1276,1279	O	O
+reported	1280,1288	O	O
+in	1289,1291	O	O
+[	1292,1293	O	O
+14	1293,1295	O	O
+]	1295,1296	O	O
+for	1297,1300	O	O
+columns	1301,1308	O	O
+subjected	1309,1318	O	O
+to	1319,1321	O	O
+eccentric	1322,1331	O	O
+compression	1332,1343	O	O
+that	1344,1348	O	O
+inelastic	1349,1358	O	B-Material
+strain	1359,1365	O	I-Material
+profiles	1366,1374	O	I-Material
+in	1375,1377	O	O
+compression	1378,1389	O	O
+do	1390,1392	O	O
+not	1393,1396	O	O
+exhibit	1397,1404	O	O
+a	1405,1406	O	O
+mesh	1407,1411	O	O
+dependence	1412,1422	O	O
+which	1423,1428	O	O
+would	1429,1434	O	O
+satisfy	1435,1442	O	O
+the	1443,1446	O	O
+assumptions	1447,1458	O	O
+of	1459,1461	O	O
+the	1462,1465	O	O
+crack	1466,1471	O	O
+-	1471,1472	O	O
+band	1472,1476	O	O
+approach	1477,1485	O	O
+.	1485,1486	O	O
+
+This	1487,1491	O	O
+approach	1492,1500	O	O
+of	1501,1503	O	O
+applying	1504,1512	O	O
+the	1513,1516	O	O
+crack	1517,1522	O	B-Process
+-	1522,1523	O	I-Process
+band	1523,1527	O	I-Process
+approach	1528,1536	O	I-Process
+only	1537,1541	O	O
+to	1542,1544	O	O
+the	1545,1548	O	O
+tensile	1549,1556	O	B-Material
+part	1557,1561	O	I-Material
+has	1562,1565	O	O
+already	1566,1573	O	O
+been	1574,1578	O	O
+successfully	1579,1591	O	O
+used	1592,1596	O	O
+in	1597,1599	O	O
+Grassl	1600,1606	O	O
+et	1607,1609	O	O
+al	1610,1612	O	O
+.	1612,1613	O	O
+
+[	1614,1615	O	O
+16	1615,1617	O	O
+]	1617,1618	O	O
+.	1618,1619	O	O
 
 
 -DOCSTART- (S0254058414000662)
 
-HOMO	0	4	B-Material
-–	4	5	I-Material
-LUMO	5	9	I-Material
-energy	10	16	O
-band	17	21	O
-gaps	22	26	O
-between	27	34	O
-ylides	35	41	B-Material
-and	42	45	O
-their	46	51	O
-pyrene	52	58	B-Material
-adducts	59	66	I-Material
-
-propose	67	74	O
-that	75	79	O
-the	80	83	O
-1,3-DC	84	90	B-Material
-of	91	93	O
-second	94	100	B-Material
-pyridinium	101	111	I-Material
-ylides	112	118	I-Material
-to	119	121	O
-ylidepyrene	122	133	B-Material
-adducts	134	141	I-Material
-are	142	145	O
-HOMOylide	146	155	O
-–	155	156	O
-
-LUMOylide	156	165	O
-–	165	166	O
-pyrene	166	172	O
-controlled	173	183	O
-since	184	189	O
-the	190	193	O
-energy	194	200	O
-band	201	205	O
-gap	206	209	O
-is	210	212	O
-smaller	213	220	O
-than	221	225	O
-HOMOylide	226	235	B-Material
-–	235	236	I-Material
-pyrene	236	242	I-Material
-–	242	243	I-Material
-LUMOylide	243	252	I-Material
-.	252	253	O
-
-Regioselectivity	254	270	B-Task
-of	271	273	I-Task
-second	274	280	I-Task
-cycloaddition	281	294	I-Task
-was	295	298	O
-predicted	299	308	O
-using	309	314	O
-the	315	318	O
-atomic	319	325	B-Process
-orbital	326	333	I-Process
-coefficients	334	346	I-Process
-corresponding	347	360	O
-to	361	363	O
-HOMOylide	364	373	O
-–	373	374	O
-
-LUMOylide	374	383	O
-–	383	384	O
-pyrene	384	390	O
-.	390	391	O
-
-According	392	401	O
-to	402	404	O
-Fukui	405	410	O
-[	411	412	O
-33	412	414	O
-]	414	415	O
-,	415	416	O
-reactions	417	426	O
-can	427	430	O
-be	431	433	O
-favorable	434	443	O
-in	444	446	O
-the	447	450	O
-direction	451	460	O
-of	461	463	O
-maximal	464	471	O
-HOMO	472	476	O
-–	476	477	O
-
-LUMO	477	481	O
-overlapping	482	493	O
-of	494	496	O
-larger	497	503	O
-coefficients	504	516	O
-at	517	519	O
-the	520	523	O
-reactive	524	532	O
-sites	533	538	O
-.	538	539	O
-
-The	540	543	O
-most	544	548	O
-favorable	549	558	O
-interactions	559	571	O
-between	572	579	O
-corresponding	580	593	O
-ylides	594	600	B-Material
-and	601	604	I-Material
-ylidepyrene	605	616	I-Material
-adducts	617	624	I-Material
-to	625	627	O
-form	628	632	O
-the	633	636	O
-most	637	641	B-Process
-favorable	642	651	I-Process
-regioisomer	652	663	I-Process
-conformation	664	676	I-Process
-are	677	680	O
-given	681	686	O
-in	687	689	O
-Fig	690	693	O
-.	693	694	O
-
-3	695	696	O
-.	696	697	O
-
-Second	698	704	O
-ylide	705	710	B-Material
-addition	711	719	O
-to	720	722	O
-ylidepyrene	723	734	B-Material
-structure	735	744	O
-is	745	747	O
-therefore	748	757	O
-anticipated	758	769	O
-to	770	772	O
-proceed	773	780	O
-via	781	784	O
-ylideC2/C6–ylidepyrene	785	807	B-Material
--	807	808	I-Material
-C3	808	810	I-Material
-and	811	814	O
-ylideC7–ylidepyrene	815	834	B-Material
-/	834	835	I-Material
-C2	835	837	I-Material
-interactions	838	850	O
-to	851	853	O
-produce	854	861	O
-the	862	865	O
-same	866	870	O
-regioisomer	871	882	B-Task
-conformations	883	896	I-Task
-.	896	897	O
-
-Considering	898	909	O
-the	910	913	O
-theoretical	914	925	B-Process
-calculations	926	938	I-Process
-performed	939	948	O
-for	949	952	O
-pyrrolidine	953	964	B-Material
-attached	965	973	I-Material
-pyrene	974	980	I-Material
-structure	981	990	O
-,	990	991	O
-it	992	994	O
-is	995	997	O
-also	998	1002	O
-expected	1003	1011	O
-that	1012	1016	O
-formation	1017	1026	B-Process
-of	1027	1029	I-Process
-the	1030	1033	I-Process
-same	1034	1038	I-Process
-type	1039	1043	I-Process
-of	1044	1046	I-Process
-regioisomers	1047	1059	I-Process
-are	1060	1063	O
-favorable	1064	1073	O
-for	1074	1077	O
-SWNTs	1078	1083	B-Process
-after	1084	1089	O
-the	1090	1093	O
-1,3-DC	1094	1100	B-Material
-of	1101	1103	I-Material
-pyridinium	1104	1114	I-Material
-ylides	1115	1121	I-Material
-,	1121	1122	O
-Fig	1123	1126	O
-.	1126	1127	O
-
-3	1128	1129	O
-.	1129	1130	O
+HOMO	0,4	O	B-Material
+–	4,5	O	I-Material
+LUMO	5,9	O	I-Material
+energy	10,16	O	O
+band	17,21	O	O
+gaps	22,26	O	O
+between	27,34	O	O
+ylides	35,41	O	B-Material
+and	42,45	O	O
+their	46,51	O	O
+pyrene	52,58	O	B-Material
+adducts	59,66	O	I-Material
+
+propose	67,74	O	O
+that	75,79	O	O
+the	80,83	O	O
+1,3-DC	84,90	O	B-Material
+of	91,93	O	O
+second	94,100	O	B-Material
+pyridinium	101,111	O	I-Material
+ylides	112,118	O	I-Material
+to	119,121	O	O
+ylidepyrene	122,133	O	B-Material
+adducts	134,141	O	I-Material
+are	142,145	O	O
+HOMOylide	146,155	O	O
+–	155,156	O	O
+
+LUMOylide	156,165	O	O
+–	165,166	O	O
+pyrene	166,172	O	O
+controlled	173,183	O	O
+since	184,189	O	O
+the	190,193	O	O
+energy	194,200	O	O
+band	201,205	O	O
+gap	206,209	O	O
+is	210,212	O	O
+smaller	213,220	O	O
+than	221,225	O	O
+HOMOylide	226,235	O	B-Material
+–	235,236	O	I-Material
+pyrene	236,242	O	I-Material
+–	242,243	O	I-Material
+LUMOylide	243,252	O	I-Material
+.	252,253	O	O
+
+Regioselectivity	254,270	O	B-Task
+of	271,273	O	I-Task
+second	274,280	O	I-Task
+cycloaddition	281,294	O	I-Task
+was	295,298	O	O
+predicted	299,308	O	O
+using	309,314	O	O
+the	315,318	O	O
+atomic	319,325	O	B-Process
+orbital	326,333	O	I-Process
+coefficients	334,346	O	I-Process
+corresponding	347,360	O	O
+to	361,363	O	O
+HOMOylide	364,373	O	O
+–	373,374	O	O
+
+LUMOylide	374,383	O	O
+–	383,384	O	O
+pyrene	384,390	O	O
+.	390,391	O	O
+
+According	392,401	O	O
+to	402,404	O	O
+Fukui	405,410	O	O
+[	411,412	O	O
+33	412,414	O	O
+]	414,415	O	O
+,	415,416	O	O
+reactions	417,426	O	O
+can	427,430	O	O
+be	431,433	O	O
+favorable	434,443	O	O
+in	444,446	O	O
+the	447,450	O	O
+direction	451,460	O	O
+of	461,463	O	O
+maximal	464,471	O	O
+HOMO	472,476	O	O
+–	476,477	O	O
+
+LUMO	477,481	O	O
+overlapping	482,493	O	O
+of	494,496	O	O
+larger	497,503	O	O
+coefficients	504,516	O	O
+at	517,519	O	O
+the	520,523	O	O
+reactive	524,532	O	O
+sites	533,538	O	O
+.	538,539	O	O
+
+The	540,543	O	O
+most	544,548	O	O
+favorable	549,558	O	O
+interactions	559,571	O	O
+between	572,579	O	O
+corresponding	580,593	O	O
+ylides	594,600	O	B-Material
+and	601,604	O	I-Material
+ylidepyrene	605,616	O	I-Material
+adducts	617,624	O	I-Material
+to	625,627	O	O
+form	628,632	O	O
+the	633,636	O	O
+most	637,641	O	B-Process
+favorable	642,651	O	I-Process
+regioisomer	652,663	O	I-Process
+conformation	664,676	O	I-Process
+are	677,680	O	O
+given	681,686	O	O
+in	687,689	O	O
+Fig	690,693	O	O
+.	693,694	O	O
+
+3	695,696	O	O
+.	696,697	O	O
+
+Second	698,704	O	O
+ylide	705,710	O	B-Material
+addition	711,719	O	O
+to	720,722	O	O
+ylidepyrene	723,734	O	B-Material
+structure	735,744	O	O
+is	745,747	O	O
+therefore	748,757	O	O
+anticipated	758,769	O	O
+to	770,772	O	O
+proceed	773,780	O	O
+via	781,784	O	O
+ylideC2/C6–ylidepyrene	785,807	O	B-Material
+-	807,808	O	I-Material
+C3	808,810	O	I-Material
+and	811,814	O	O
+ylideC7–ylidepyrene	815,834	O	B-Material
+/	834,835	O	I-Material
+C2	835,837	O	I-Material
+interactions	838,850	O	O
+to	851,853	O	O
+produce	854,861	O	O
+the	862,865	O	O
+same	866,870	O	O
+regioisomer	871,882	O	B-Task
+conformations	883,896	O	I-Task
+.	896,897	O	O
+
+Considering	898,909	O	O
+the	910,913	O	O
+theoretical	914,925	O	B-Process
+calculations	926,938	O	I-Process
+performed	939,948	O	O
+for	949,952	O	O
+pyrrolidine	953,964	O	B-Material
+attached	965,973	O	I-Material
+pyrene	974,980	O	I-Material
+structure	981,990	O	O
+,	990,991	O	O
+it	992,994	O	O
+is	995,997	O	O
+also	998,1002	O	O
+expected	1003,1011	O	O
+that	1012,1016	O	O
+formation	1017,1026	O	B-Process
+of	1027,1029	O	I-Process
+the	1030,1033	O	I-Process
+same	1034,1038	O	I-Process
+type	1039,1043	O	I-Process
+of	1044,1046	O	I-Process
+regioisomers	1047,1059	O	I-Process
+are	1060,1063	O	O
+favorable	1064,1073	O	O
+for	1074,1077	O	O
+SWNTs	1078,1083	O	B-Process
+after	1084,1089	O	O
+the	1090,1093	O	O
+1,3-DC	1094,1100	O	B-Material
+of	1101,1103	O	I-Material
+pyridinium	1104,1114	O	I-Material
+ylides	1115,1121	O	I-Material
+,	1121,1122	O	O
+Fig	1123,1126	O	O
+.	1126,1127	O	O
+
+3	1128,1129	O	O
+.	1129,1130	O	O
 
 
 -DOCSTART- (S0254058415001212)
 
-Gamma	0	5	B-Material
-titanium	6	14	I-Material
-aluminides	15	25	I-Material
-are	26	29	O
-a	30	31	O
-family	32	38	O
-of	39	41	O
-low	42	45	O
-density	46	53	O
-,	53	54	O
-high	55	59	O
-performance	60	71	O
-alloys	72	78	B-Material
-with	79	83	O
-the	84	87	O
-potential	88	97	O
-to	98	100	O
-replace	101	108	O
-current	109	116	O
-Ni	117	119	B-Material
--	119	120	I-Material
-base	120	124	I-Material
-superalloys	125	136	I-Material
-used	137	141	O
-in	142	144	O
-the	145	148	O
-production	149	159	B-Task
-of	160	162	I-Task
-aero	163	167	I-Task
--	167	168	I-Task
-engine	168	174	I-Task
-components	175	185	I-Task
-.	185	186	O
-
-Investment	187	197	B-Process
-casting	198	205	I-Process
-is	206	208	O
-one	209	212	O
-of	213	215	O
-the	216	219	O
-most	220	224	O
-economical	225	235	O
-methods	236	243	O
-to	244	246	O
-produce	247	254	B-Task
-titanium	255	263	I-Task
-and	264	267	I-Task
-titanium	268	276	I-Task
-aluminide	277	286	I-Task
-alloy	287	292	I-Task
-products	293	301	I-Task
-,	301	302	O
-increasing	303	313	O
-the	314	317	B-Material
-components	318	328	I-Material
-'	328	329	O
-integrity	330	339	O
-and	340	343	O
-mechanical	344	354	O
-properties	355	365	O
-,	365	366	O
-whilst	367	373	O
-reducing	374	382	O
-material	383	391	O
-waste	392	397	O
-and	398	401	O
-machining	402	411	O
-cost	412	416	O
-[	417	418	O
-1	418	419	O
-]	419	420	O
-.	420	421	O
-
-Titanium	422	430	B-Material
-aluminides	431	441	I-Material
-are	442	445	O
-difficult	446	455	O
-to	456	458	O
-process	459	466	O
-mainly	467	473	O
-due	474	477	O
-to	478	480	O
-the	481	484	O
-low	485	488	O
-fluidity	489	497	O
-of	498	500	O
-the	501	504	O
-TiAl	505	509	B-Material
-alloy	510	515	I-Material
-around	516	522	O
-its	523	526	O
-melting	527	534	O
-temperature	535	546	O
-[	547	548	O
-2	548	549	O
-]	549	550	O
-.	550	551	O
-
-Due	552	555	O
-to	556	558	O
-the	559	562	O
-high	563	567	O
-affinity	568	576	O
-of	577	579	O
-elements	580	588	B-Material
-such	589	593	O
-as	594	596	O
-oxygen	597	603	B-Material
-,	603	604	O
-nitrogen	605	613	B-Material
-etc	614	617	O
-.	617	618	O
-,	618	619	O
-titanium	620	628	B-Material
-and	629	632	O
-its	633	636	O
-alloys	637	643	B-Material
-can	644	647	O
-easily	648	654	O
-interact	655	663	O
-with	664	668	O
-mould	669	674	B-Material
-materials	675	684	I-Material
-during	685	691	O
-the	692	695	O
-investment	696	706	O
-casting	707	714	B-Process
-process	715	722	I-Process
-,	722	723	O
-resulting	724	733	O
-in	734	736	O
-an	737	739	O
-interaction	740	751	B-Material
-hardened	752	760	I-Material
-layer	761	766	I-Material
-being	767	772	O
-generated	773	782	O
-at	783	785	O
-the	786	789	O
-metal	790	795	B-Material
-surface	796	803	I-Material
-[	804	805	O
-3,4	805	808	O
-]	808	809	O
-.	809	810	O
-
-This	811	815	O
-hardened	816	824	B-Material
-layer	825	830	I-Material
-contains	831	839	O
-a	840	841	O
-large	842	847	O
-amount	848	854	O
-of	855	857	O
-dissolved	858	867	B-Material
-oxygen	868	874	I-Material
-,	874	875	O
-and	876	879	O
-it	880	882	O
-is	883	885	O
-very	886	890	O
-brittle	891	898	O
-and	899	902	O
-susceptible	903	914	O
-to	915	917	O
-crack	918	923	B-Process
-generation	924	934	I-Process
-and	935	938	I-Process
-propagation	939	950	I-Process
-[	951	952	O
-5	952	953	O
-]	953	954	O
-.	954	955	O
+Gamma	0,5	O	B-Material
+titanium	6,14	O	I-Material
+aluminides	15,25	O	I-Material
+are	26,29	O	O
+a	30,31	O	O
+family	32,38	O	O
+of	39,41	O	O
+low	42,45	O	O
+density	46,53	O	O
+,	53,54	O	O
+high	55,59	O	O
+performance	60,71	O	O
+alloys	72,78	O	B-Material
+with	79,83	O	O
+the	84,87	O	O
+potential	88,97	O	O
+to	98,100	O	O
+replace	101,108	O	O
+current	109,116	O	O
+Ni	117,119	O	B-Material
+-	119,120	O	I-Material
+base	120,124	O	I-Material
+superalloys	125,136	O	I-Material
+used	137,141	O	O
+in	142,144	O	O
+the	145,148	O	O
+production	149,159	O	B-Task
+of	160,162	O	I-Task
+aero	163,167	O	I-Task
+-	167,168	O	I-Task
+engine	168,174	O	I-Task
+components	175,185	O	I-Task
+.	185,186	O	O
+
+Investment	187,197	O	B-Process
+casting	198,205	O	I-Process
+is	206,208	O	O
+one	209,212	O	O
+of	213,215	O	O
+the	216,219	O	O
+most	220,224	O	O
+economical	225,235	O	O
+methods	236,243	O	O
+to	244,246	O	O
+produce	247,254	O	B-Task
+titanium	255,263	O	I-Task
+and	264,267	O	I-Task
+titanium	268,276	O	I-Task
+aluminide	277,286	O	I-Task
+alloy	287,292	O	I-Task
+products	293,301	O	I-Task
+,	301,302	O	O
+increasing	303,313	O	O
+the	314,317	O	B-Material
+components	318,328	O	I-Material
+'	328,329	O	O
+integrity	330,339	O	O
+and	340,343	O	O
+mechanical	344,354	O	O
+properties	355,365	O	O
+,	365,366	O	O
+whilst	367,373	O	O
+reducing	374,382	O	O
+material	383,391	O	O
+waste	392,397	O	O
+and	398,401	O	O
+machining	402,411	O	O
+cost	412,416	O	O
+[	417,418	O	O
+1	418,419	O	O
+]	419,420	O	O
+.	420,421	O	O
+
+Titanium	422,430	O	B-Material
+aluminides	431,441	O	I-Material
+are	442,445	O	O
+difficult	446,455	O	O
+to	456,458	O	O
+process	459,466	O	O
+mainly	467,473	O	O
+due	474,477	O	O
+to	478,480	O	O
+the	481,484	O	O
+low	485,488	O	O
+fluidity	489,497	O	O
+of	498,500	O	O
+the	501,504	O	O
+TiAl	505,509	O	B-Material
+alloy	510,515	O	I-Material
+around	516,522	O	O
+its	523,526	O	O
+melting	527,534	O	O
+temperature	535,546	O	O
+[	547,548	O	O
+2	548,549	O	O
+]	549,550	O	O
+.	550,551	O	O
+
+Due	552,555	O	O
+to	556,558	O	O
+the	559,562	O	O
+high	563,567	O	O
+affinity	568,576	O	O
+of	577,579	O	O
+elements	580,588	O	B-Material
+such	589,593	O	O
+as	594,596	O	O
+oxygen	597,603	O	B-Material
+,	603,604	O	O
+nitrogen	605,613	O	B-Material
+etc	614,617	O	O
+.	617,618	O	O
+,	618,619	O	O
+titanium	620,628	O	B-Material
+and	629,632	O	O
+its	633,636	O	O
+alloys	637,643	O	B-Material
+can	644,647	O	O
+easily	648,654	O	O
+interact	655,663	O	O
+with	664,668	O	O
+mould	669,674	O	B-Material
+materials	675,684	O	I-Material
+during	685,691	O	O
+the	692,695	O	O
+investment	696,706	O	O
+casting	707,714	O	B-Process
+process	715,722	O	I-Process
+,	722,723	O	O
+resulting	724,733	O	O
+in	734,736	O	O
+an	737,739	O	O
+interaction	740,751	O	B-Material
+hardened	752,760	O	I-Material
+layer	761,766	O	I-Material
+being	767,772	O	O
+generated	773,782	O	O
+at	783,785	O	O
+the	786,789	O	O
+metal	790,795	O	B-Material
+surface	796,803	O	I-Material
+[	804,805	O	O
+3,4	805,808	O	O
+]	808,809	O	O
+.	809,810	O	O
+
+This	811,815	O	O
+hardened	816,824	O	B-Material
+layer	825,830	O	I-Material
+contains	831,839	O	O
+a	840,841	O	O
+large	842,847	O	O
+amount	848,854	O	O
+of	855,857	O	O
+dissolved	858,867	O	B-Material
+oxygen	868,874	O	I-Material
+,	874,875	O	O
+and	876,879	O	O
+it	880,882	O	O
+is	883,885	O	O
+very	886,890	O	O
+brittle	891,898	O	O
+and	899,902	O	O
+susceptible	903,914	O	O
+to	915,917	O	O
+crack	918,923	O	B-Process
+generation	924,934	O	I-Process
+and	935,938	O	I-Process
+propagation	939,950	O	I-Process
+[	951,952	O	O
+5	952,953	O	O
+]	953,954	O	O
+.	954,955	O	O
 
 
 -DOCSTART- (S025405841530136X)
 
-From	0	4	O
-this	5	9	O
-study	10	15	O
-where	16	21	O
-a	22	23	O
-commercial	24	34	O
-Al–12Si	35	42	B-Material
-alloy	43	48	I-Material
-was	49	52	O
-inoculated	53	63	B-Process
-with	64	68	I-Process
-different	69	78	I-Process
-level	79	84	I-Process
-of	85	87	I-Process
-Nb+B	88	92	I-Process
-addition	93	101	O
-to	102	104	O
-assess	105	111	O
-the	112	115	O
-grain	116	121	B-Task
-refining	122	130	I-Task
-potency	131	138	I-Task
-of	139	141	I-Task
-Nb+B	142	146	I-Task
-inoculation	147	158	I-Task
-it	159	161	O
-can	162	165	O
-be	166	168	O
-concluded	169	178	O
-that	179	183	O
-in	184	186	O
--	186	187	O
-situ	187	191	O
-formed	192	198	O
-Nb	199	201	B-Material
--	201	202	I-Material
-based	202	207	I-Material
-intermetallics	208	222	I-Material
-compounds	223	232	I-Material
-are	233	236	O
-potent	237	243	O
-heterogeneous	244	257	B-Material
-nucleation	258	268	I-Material
-substrates	269	279	I-Material
-with	280	284	O
-high	285	289	O
-potency	290	297	O
-for	298	301	O
-the	302	305	O
-refinement	306	316	O
-of	317	319	O
-Al	320	322	O
-–	322	323	O
-
-Si	323	325	O
-cast	326	330	O
-alloys	331	337	O
-.	337	338	O
-
-The	339	342	O
-primary	343	350	O
-α-Al	351	355	B-Material
-dendritic	356	365	I-Material
-grain	366	371	I-Material
-size	372	376	O
-varies	377	383	O
-with	384	388	O
-the	389	392	O
-addition	393	401	O
-level	402	407	O
-of	408	410	O
-Nb	411	413	B-Material
-and	414	417	O
-B.	418	420	B-Material
-
-Moreover	421	429	O
-,	429	430	O
-significant	431	442	O
-grain	443	448	B-Task
-refinement	449	459	I-Task
-over	460	464	O
-a	465	466	O
-wide	467	471	B-Process
-range	472	477	I-Process
-of	478	480	I-Process
-cooling	481	488	I-Process
-rates	489	494	I-Process
-is	495	497	O
-obtained	498	506	O
-via	507	510	O
-enhanced	511	519	B-Task
-heterogeneous	520	533	I-Task
-nucleation	534	544	I-Task
-making	545	551	O
-the	552	555	O
-grain	556	561	B-Material
-size	562	566	O
-of	567	569	O
-the	570	573	O
-material	574	582	O
-less	583	587	O
-sensitive	588	597	O
-to	598	600	O
-the	601	604	O
-cooling	605	612	O
-rate	613	617	O
-.	617	618	O
-
-Nb+B	619	623	B-Material
-inoculants	624	634	I-Material
-are	635	638	O
-characterised	639	652	O
-by	653	655	O
-some	656	660	O
-fading	661	667	B-Process
-which	668	673	O
-is	674	676	O
-still	677	682	O
-acceptable	683	693	O
-after	694	699	O
-4	700	701	O
-h	702	703	O
-of	704	706	O
-contact	707	714	O
-time	715	719	O
-.	719	720	O
-
-Moreover	721	729	O
-,	729	730	O
-alloys	731	737	B-Material
-refined	738	745	O
-by	746	748	O
-means	749	754	O
-of	755	757	O
-Nb+B	758	762	B-Material
-inoculants	763	773	I-Material
-can	774	777	O
-be	778	780	O
-recycled	781	789	O
-obtaining	790	799	O
-a	800	801	O
-fine	802	806	B-Material
-grain	807	812	I-Material
-structure	813	822	I-Material
-with	823	827	O
-small	828	833	O
-addition	834	842	O
-or	843	845	O
-no	846	848	O
-further	849	856	O
-addition	857	865	O
-of	866	868	O
-inoculants	869	879	B-Material
-after	880	885	O
-the	886	889	O
-first	890	895	O
-initial	896	903	O
-addition	904	912	O
-.	912	913	O
-
-Concluding	914	924	O
-,	924	925	O
-Nb+B	926	930	B-Process
-inoculation	931	942	I-Process
-is	943	945	O
-a	946	947	O
-promising	948	957	O
-candidate	958	967	O
-for	968	971	O
-the	972	975	O
-refinement	976	986	B-Task
-of	987	989	I-Task
-cast	990	994	I-Task
-Al	995	997	I-Task
-alloy	998	1003	I-Task
-which	1004	1009	O
-could	1010	1015	O
-lead	1016	1020	O
-to	1021	1023	O
-their	1024	1029	O
-wider	1030	1035	O
-employment	1036	1046	O
-in	1047	1049	O
-the	1050	1053	O
-automotive	1054	1064	O
-industry	1065	1073	O
-with	1074	1078	O
-the	1079	1082	O
-resultant	1083	1092	O
-intrinsic	1093	1102	O
-advantages	1103	1113	O
-of	1114	1116	O
-lighter	1117	1124	B-Task
-structural	1125	1135	I-Task
-component	1136	1145	I-Task
-from	1146	1150	O
-an	1151	1153	O
-environmental	1154	1167	O
-point	1168	1173	O
-of	1174	1176	O
-view	1177	1181	O
-.	1181	1182	O
+From	0,4	O	O
+this	5,9	O	O
+study	10,15	O	O
+where	16,21	O	O
+a	22,23	O	O
+commercial	24,34	O	O
+Al–12Si	35,42	O	B-Material
+alloy	43,48	O	I-Material
+was	49,52	O	O
+inoculated	53,63	O	B-Process
+with	64,68	O	I-Process
+different	69,78	O	I-Process
+level	79,84	O	I-Process
+of	85,87	O	I-Process
+Nb+B	88,92	O	I-Process
+addition	93,101	O	O
+to	102,104	O	O
+assess	105,111	O	O
+the	112,115	O	O
+grain	116,121	O	B-Task
+refining	122,130	O	I-Task
+potency	131,138	O	I-Task
+of	139,141	O	I-Task
+Nb+B	142,146	O	I-Task
+inoculation	147,158	O	I-Task
+it	159,161	O	O
+can	162,165	O	O
+be	166,168	O	O
+concluded	169,178	O	O
+that	179,183	O	O
+in	184,186	O	O
+-	186,187	O	O
+situ	187,191	O	O
+formed	192,198	O	O
+Nb	199,201	O	B-Material
+-	201,202	O	I-Material
+based	202,207	O	I-Material
+intermetallics	208,222	O	I-Material
+compounds	223,232	O	I-Material
+are	233,236	O	O
+potent	237,243	O	O
+heterogeneous	244,257	O	B-Material
+nucleation	258,268	O	I-Material
+substrates	269,279	O	I-Material
+with	280,284	O	O
+high	285,289	O	O
+potency	290,297	O	O
+for	298,301	O	O
+the	302,305	O	O
+refinement	306,316	O	O
+of	317,319	O	O
+Al	320,322	O	O
+–	322,323	O	O
+
+Si	323,325	O	O
+cast	326,330	O	O
+alloys	331,337	O	O
+.	337,338	O	O
+
+The	339,342	O	O
+primary	343,350	O	O
+α-Al	351,355	O	B-Material
+dendritic	356,365	O	I-Material
+grain	366,371	O	I-Material
+size	372,376	O	O
+varies	377,383	O	O
+with	384,388	O	O
+the	389,392	O	O
+addition	393,401	O	O
+level	402,407	O	O
+of	408,410	O	O
+Nb	411,413	O	B-Material
+and	414,417	O	O
+B.	418,420	O	B-Material
+
+Moreover	421,429	O	O
+,	429,430	O	O
+significant	431,442	O	O
+grain	443,448	O	B-Task
+refinement	449,459	O	I-Task
+over	460,464	O	O
+a	465,466	O	O
+wide	467,471	O	B-Process
+range	472,477	O	I-Process
+of	478,480	O	I-Process
+cooling	481,488	O	I-Process
+rates	489,494	O	I-Process
+is	495,497	O	O
+obtained	498,506	O	O
+via	507,510	O	O
+enhanced	511,519	O	B-Task
+heterogeneous	520,533	O	I-Task
+nucleation	534,544	O	I-Task
+making	545,551	O	O
+the	552,555	O	O
+grain	556,561	O	B-Material
+size	562,566	O	O
+of	567,569	O	O
+the	570,573	O	O
+material	574,582	O	O
+less	583,587	O	O
+sensitive	588,597	O	O
+to	598,600	O	O
+the	601,604	O	O
+cooling	605,612	O	O
+rate	613,617	O	O
+.	617,618	O	O
+
+Nb+B	619,623	O	B-Material
+inoculants	624,634	O	I-Material
+are	635,638	O	O
+characterised	639,652	O	O
+by	653,655	O	O
+some	656,660	O	O
+fading	661,667	O	B-Process
+which	668,673	O	O
+is	674,676	O	O
+still	677,682	O	O
+acceptable	683,693	O	O
+after	694,699	O	O
+4	700,701	O	O
+h	702,703	O	O
+of	704,706	O	O
+contact	707,714	O	O
+time	715,719	O	O
+.	719,720	O	O
+
+Moreover	721,729	O	O
+,	729,730	O	O
+alloys	731,737	O	B-Material
+refined	738,745	O	O
+by	746,748	O	O
+means	749,754	O	O
+of	755,757	O	O
+Nb+B	758,762	O	B-Material
+inoculants	763,773	O	I-Material
+can	774,777	O	O
+be	778,780	O	O
+recycled	781,789	O	O
+obtaining	790,799	O	O
+a	800,801	O	O
+fine	802,806	O	B-Material
+grain	807,812	O	I-Material
+structure	813,822	O	I-Material
+with	823,827	O	O
+small	828,833	O	O
+addition	834,842	O	O
+or	843,845	O	O
+no	846,848	O	O
+further	849,856	O	O
+addition	857,865	O	O
+of	866,868	O	O
+inoculants	869,879	O	B-Material
+after	880,885	O	O
+the	886,889	O	O
+first	890,895	O	O
+initial	896,903	O	O
+addition	904,912	O	O
+.	912,913	O	O
+
+Concluding	914,924	O	O
+,	924,925	O	O
+Nb+B	926,930	O	B-Process
+inoculation	931,942	O	I-Process
+is	943,945	O	O
+a	946,947	O	O
+promising	948,957	O	O
+candidate	958,967	O	O
+for	968,971	O	O
+the	972,975	O	O
+refinement	976,986	O	B-Task
+of	987,989	O	I-Task
+cast	990,994	O	I-Task
+Al	995,997	O	I-Task
+alloy	998,1003	O	I-Task
+which	1004,1009	O	O
+could	1010,1015	O	O
+lead	1016,1020	O	O
+to	1021,1023	O	O
+their	1024,1029	O	O
+wider	1030,1035	O	O
+employment	1036,1046	O	O
+in	1047,1049	O	O
+the	1050,1053	O	O
+automotive	1054,1064	O	O
+industry	1065,1073	O	O
+with	1074,1078	O	O
+the	1079,1082	O	O
+resultant	1083,1092	O	O
+intrinsic	1093,1102	O	O
+advantages	1103,1113	O	O
+of	1114,1116	O	O
+lighter	1117,1124	O	B-Task
+structural	1125,1135	O	I-Task
+component	1136,1145	O	I-Task
+from	1146,1150	O	O
+an	1151,1153	O	O
+environmental	1154,1167	O	O
+point	1168,1173	O	O
+of	1174,1176	O	O
+view	1177,1181	O	O
+.	1181,1182	O	O
 
 
 -DOCSTART- (S0254058415304235)
 
-The	0	3	O
-observed	4	12	B-Task
-conductivity	13	25	I-Task
-of	26	28	O
-A2FeMoO6–δ	29	39	B-Material
-(	40	41	O
-A	41	42	O
-=	43	44	O
-Ca	45	47	B-Material
-,	47	48	O
-Sr	49	51	B-Material
-,	51	52	O
-Ba	53	55	B-Material
-)	55	56	O
-[	57	58	O
-7	58	59	O
-]	59	60	O
-was	61	64	O
-linked	65	71	O
-to	72	74	O
-a	75	76	O
-potential	77	86	O
-double	87	93	B-Process
-exchange	94	102	I-Process
-mechanism	103	112	I-Process
-,	112	113	O
-with	114	118	O
-conduction	119	129	O
-between	130	137	O
-Fe3	138	141	O
-+	141	142	O
--O	142	144	O
--	144	145	O
-Mo	145	147	O
--	147	148	O
-O	148	149	O
--	149	150	O
-Fe2	150	153	O
-
-+	153	154	O
-.	154	155	O
-
-Double	156	162	B-Process
--	162	163	I-Process
-exchange	163	171	I-Process
-mechanisms	172	182	I-Process
-,	182	183	O
-as	184	186	O
-proposed	187	195	O
-by	196	198	O
-Zener	199	204	O
-[	205	206	O
-23	206	208	O
-]	208	209	O
-,	209	210	O
-posit	211	216	O
-that	217	221	O
-electron	222	230	B-Process
-transfer	231	239	I-Process
-between	240	247	O
-ions	248	252	B-Material
-in	253	255	O
-different	256	265	O
-oxidation	266	275	B-Process
-states	276	282	O
-may	283	286	O
-be	287	289	O
-facilitated	290	301	O
-if	302	304	O
-the	305	308	O
-electron	309	317	B-Material
-does	318	322	O
-not	323	326	O
-have	327	331	O
-to	332	334	O
-alter	335	340	O
-its	341	344	O
-spin	345	349	O
-state	350	355	O
-.	355	356	O
-
-Replacement	357	368	B-Process
-of	369	371	O
-Mo	372	374	B-Material
-with	375	379	O
-Fe	380	382	B-Material
-in	383	385	O
-this	386	390	O
-mechanism	391	400	O
-would	401	406	O
-be	407	409	O
-expected	410	418	O
-to	419	421	O
-result	422	428	O
-in	429	431	O
-a	432	433	O
-reduction	434	443	B-Process
-of	444	446	I-Process
-the	447	450	I-Process
-conductivity	451	463	I-Process
-through	464	471	O
-reduction	472	481	B-Process
-of	482	484	I-Process
-the	485	488	I-Process
-available	489	498	I-Process
-percolation	499	510	I-Process
-pathways	511	519	I-Process
-,	519	520	O
-unless	521	527	O
-delocalisation	528	542	B-Process
-of	543	545	I-Process
-Fe	546	548	I-Process
-electrons	549	558	I-Process
-through	559	566	O
-Fe2	567	570	O
-+	570	571	O
--O	571	573	O
--	573	574	O
-Fe3	574	577	O
-
-+	577	578	O
-exchange	579	587	O
-could	588	593	O
-also	594	598	O
-occur	599	604	O
-.	604	605	O
-
-Double	606	612	B-Process
-exchange	613	621	I-Process
-mechanisms	622	632	I-Process
-have	633	637	O
-been	638	642	O
-observed	643	651	O
-previously	652	662	O
-for	663	666	O
-mixed	667	672	O
-valent	673	679	O
-iron	680	684	B-Material
-in	685	687	I-Material
-iron	688	692	I-Material
-oxides	693	699	I-Material
-[	700	701	O
-24	701	703	O
-]	703	704	O
-,	704	705	O
-and	706	709	O
-,	709	710	O
-as	711	713	O
-iron	714	718	B-Material
-is	719	721	O
-known	722	727	O
-to	728	730	O
-exist	731	736	O
-in	737	739	O
-a	740	741	O
-mixed	742	747	O
-valent	748	754	O
-state	755	760	O
-for	761	764	O
-Ca2–xSrxFeMoO6–δ	765	781	B-Material
-
-[	782	783	O
-25	783	785	O
-]	785	786	O
-,	786	787	O
-this	788	792	O
-provides	793	801	O
-a	802	803	O
-plausible	804	813	O
-explanation	814	825	O
-for	826	829	O
-the	830	833	O
-observed	834	842	O
-metallic	843	851	B-Task
-conductivity	852	864	I-Task
-.	864	865	O
-
-Band	866	870	B-Process
-structure	871	880	I-Process
-calculations	881	893	I-Process
-and	894	897	O
-Mossbauer	898	907	B-Process
-spectroscopy	908	920	I-Process
-could	921	926	O
-be	927	929	O
-utilised	930	938	O
-to	939	941	O
-further	942	949	O
-elucidate	950	959	O
-the	960	963	O
-conduction	964	974	B-Task
-mechanism	975	984	I-Task
-for	985	988	O
-these	989	994	O
-compounds	995	1004	B-Material
-,	1004	1005	O
-however	1006	1013	O
-this	1014	1018	O
-is	1019	1021	O
-outside	1022	1029	O
-the	1030	1033	O
-scope	1034	1039	O
-of	1040	1042	O
-this	1043	1047	O
-enquiry	1048	1055	O
-.	1055	1056	O
+The	0,3	O	O
+observed	4,12	O	B-Task
+conductivity	13,25	O	I-Task
+of	26,28	O	O
+A2FeMoO6–δ	29,39	O	B-Material
+(	40,41	O	O
+A	41,42	O	O
+=	43,44	O	O
+Ca	45,47	O	B-Material
+,	47,48	O	O
+Sr	49,51	O	B-Material
+,	51,52	O	O
+Ba	53,55	O	B-Material
+)	55,56	O	O
+[	57,58	O	O
+7	58,59	O	O
+]	59,60	O	O
+was	61,64	O	O
+linked	65,71	O	O
+to	72,74	O	O
+a	75,76	O	O
+potential	77,86	O	O
+double	87,93	O	B-Process
+exchange	94,102	O	I-Process
+mechanism	103,112	O	I-Process
+,	112,113	O	O
+with	114,118	O	O
+conduction	119,129	O	O
+between	130,137	O	O
+Fe3	138,141	O	O
++	141,142	O	O
+-O	142,144	O	O
+-	144,145	O	O
+Mo	145,147	O	O
+-	147,148	O	O
+O	148,149	O	O
+-	149,150	O	O
+Fe2	150,153	O	O
+
++	153,154	O	O
+.	154,155	O	O
+
+Double	156,162	O	B-Process
+-	162,163	O	I-Process
+exchange	163,171	O	I-Process
+mechanisms	172,182	O	I-Process
+,	182,183	O	O
+as	184,186	O	O
+proposed	187,195	O	O
+by	196,198	O	O
+Zener	199,204	O	O
+[	205,206	O	O
+23	206,208	O	O
+]	208,209	O	O
+,	209,210	O	O
+posit	211,216	O	O
+that	217,221	O	O
+electron	222,230	O	B-Process
+transfer	231,239	O	I-Process
+between	240,247	O	O
+ions	248,252	O	B-Material
+in	253,255	O	O
+different	256,265	O	O
+oxidation	266,275	O	B-Process
+states	276,282	O	O
+may	283,286	O	O
+be	287,289	O	O
+facilitated	290,301	O	O
+if	302,304	O	O
+the	305,308	O	O
+electron	309,317	O	B-Material
+does	318,322	O	O
+not	323,326	O	O
+have	327,331	O	O
+to	332,334	O	O
+alter	335,340	O	O
+its	341,344	O	O
+spin	345,349	O	O
+state	350,355	O	O
+.	355,356	O	O
+
+Replacement	357,368	O	B-Process
+of	369,371	O	O
+Mo	372,374	O	B-Material
+with	375,379	O	O
+Fe	380,382	O	B-Material
+in	383,385	O	O
+this	386,390	O	O
+mechanism	391,400	O	O
+would	401,406	O	O
+be	407,409	O	O
+expected	410,418	O	O
+to	419,421	O	O
+result	422,428	O	O
+in	429,431	O	O
+a	432,433	O	O
+reduction	434,443	O	B-Process
+of	444,446	O	I-Process
+the	447,450	O	I-Process
+conductivity	451,463	O	I-Process
+through	464,471	O	O
+reduction	472,481	O	B-Process
+of	482,484	O	I-Process
+the	485,488	O	I-Process
+available	489,498	O	I-Process
+percolation	499,510	O	I-Process
+pathways	511,519	O	I-Process
+,	519,520	O	O
+unless	521,527	O	O
+delocalisation	528,542	O	B-Process
+of	543,545	O	I-Process
+Fe	546,548	O	I-Process
+electrons	549,558	O	I-Process
+through	559,566	O	O
+Fe2	567,570	O	O
++	570,571	O	O
+-O	571,573	O	O
+-	573,574	O	O
+Fe3	574,577	O	O
+
++	577,578	O	O
+exchange	579,587	O	O
+could	588,593	O	O
+also	594,598	O	O
+occur	599,604	O	O
+.	604,605	O	O
+
+Double	606,612	O	B-Process
+exchange	613,621	O	I-Process
+mechanisms	622,632	O	I-Process
+have	633,637	O	O
+been	638,642	O	O
+observed	643,651	O	O
+previously	652,662	O	O
+for	663,666	O	O
+mixed	667,672	O	O
+valent	673,679	O	O
+iron	680,684	O	B-Material
+in	685,687	O	I-Material
+iron	688,692	O	I-Material
+oxides	693,699	O	I-Material
+[	700,701	O	O
+24	701,703	O	O
+]	703,704	O	O
+,	704,705	O	O
+and	706,709	O	O
+,	709,710	O	O
+as	711,713	O	O
+iron	714,718	O	B-Material
+is	719,721	O	O
+known	722,727	O	O
+to	728,730	O	O
+exist	731,736	O	O
+in	737,739	O	O
+a	740,741	O	O
+mixed	742,747	O	O
+valent	748,754	O	O
+state	755,760	O	O
+for	761,764	O	O
+Ca2–xSrxFeMoO6–δ	765,781	O	B-Material
+
+[	782,783	O	O
+25	783,785	O	O
+]	785,786	O	O
+,	786,787	O	O
+this	788,792	O	O
+provides	793,801	O	O
+a	802,803	O	O
+plausible	804,813	O	O
+explanation	814,825	O	O
+for	826,829	O	O
+the	830,833	O	O
+observed	834,842	O	O
+metallic	843,851	O	B-Task
+conductivity	852,864	O	I-Task
+.	864,865	O	O
+
+Band	866,870	O	B-Process
+structure	871,880	O	I-Process
+calculations	881,893	O	I-Process
+and	894,897	O	O
+Mossbauer	898,907	O	B-Process
+spectroscopy	908,920	O	I-Process
+could	921,926	O	O
+be	927,929	O	O
+utilised	930,938	O	O
+to	939,941	O	O
+further	942,949	O	O
+elucidate	950,959	O	O
+the	960,963	O	O
+conduction	964,974	O	B-Task
+mechanism	975,984	O	I-Task
+for	985,988	O	O
+these	989,994	O	O
+compounds	995,1004	O	B-Material
+,	1004,1005	O	O
+however	1006,1013	O	O
+this	1014,1018	O	O
+is	1019,1021	O	O
+outside	1022,1029	O	O
+the	1030,1033	O	O
+scope	1034,1039	O	O
+of	1040,1042	O	O
+this	1043,1047	O	O
+enquiry	1048,1055	O	O
+.	1055,1056	O	O
 
 
 -DOCSTART- (S0266352X16301550)
 
-To	0	2	O
-address	3	10	O
-the	11	14	O
-vertical	15	23	B-Task
-displacement	24	36	I-Task
-estimation	37	47	I-Task
-of	48	50	I-Task
-conventional	51	63	I-Task
-pile	64	68	I-Task
-groups	69	75	I-Task
-subjected	76	85	I-Task
-to	86	88	I-Task
-mechanical	89	99	I-Task
-loads	100	105	I-Task
-,	105	106	O
-various	107	114	O
-numerical	115	124	B-Process
-and	125	128	I-Process
-analytical	129	139	I-Process
-methods	140	147	I-Process
-have	148	152	O
-been	153	157	O
-proposed	158	166	O
-.	166	167	O
-
-These	168	173	O
-methods	174	181	O
-include	182	189	O
-the	190	193	O
-finite	194	200	B-Process
-element	201	208	I-Process
-method	209	215	I-Process
-[	216	217	O
-e.g.	217	221	O
-,	221	222	O
-2,3	223	226	O
-]	226	227	O
-,	227	228	O
-the	229	232	O
-boundary	233	241	B-Process
-element	242	249	I-Process
-method	250	256	I-Process
-[	257	258	O
-e.g.	258	262	O
-,	262	263	O
-4,5	264	267	O
-]	267	268	O
-,	268	269	O
-the	270	273	O
-finite	274	280	B-Process
-difference	281	291	I-Process
-method	292	298	I-Process
-[	299	300	O
-e.g.	300	304	O
-,	304	305	O
-6	306	307	O
-]	307	308	O
-,	308	309	O
-the	310	313	O
-interaction	314	325	B-Process
-factor	326	332	I-Process
-method	333	339	I-Process
-[	340	341	O
-e.g.	341	345	O
-,	345	346	O
-7,8–11	347	353	O
-]	353	354	O
-,	354	355	O
-the	356	359	O
-equivalent	360	370	B-Process
-pier	371	375	I-Process
-and	376	379	I-Process
-raft	380	384	I-Process
-methods	385	392	I-Process
-[	393	394	O
-e.g.	394	398	O
-,	398	399	O
-12–14	400	405	O
-]	405	406	O
-,	406	407	O
-and	408	411	O
-the	412	415	O
-settlement	416	426	B-Process
-ratio	427	432	I-Process
-method	433	439	I-Process
-[	440	441	O
-e.g.	441	445	O
-,	445	446	O
-15	447	449	O
-]	449	450	O
-.	450	451	O
-
-The	452	455	O
-finite	456	462	B-Process
-element	463	470	I-Process
-method	471	477	I-Process
-,	477	478	O
-while	479	484	O
-providing	485	494	O
-the	495	498	O
-most	499	503	O
-rigorous	504	512	O
-and	513	516	O
-exhaustive	517	527	O
-representation	528	542	O
-of	543	545	O
-the	546	549	O
-pile	550	554	B-Task
-group	555	560	I-Task
--	560	561	I-Task
-related	561	568	I-Task
-problem	569	576	I-Task
-,	576	577	O
-is	578	580	O
-generally	581	590	O
-computationally	591	606	O
-expensive	607	616	O
-and	617	620	O
-considered	621	631	O
-mainly	632	638	O
-a	639	640	O
-research	641	649	B-Material
-tool	650	654	I-Material
-rather	655	661	O
-than	662	666	O
-a	667	668	O
-design	669	675	B-Material
-tool	676	680	I-Material
-.	680	681	O
-
-Conversely	682	692	O
-,	692	693	O
-the	694	697	O
-versatility	698	709	B-Process
-of	710	712	I-Process
-simplified	713	723	I-Process
-(	724	725	I-Process
-approximate	725	736	I-Process
-)	736	737	I-Process
-methods	738	745	I-Process
-,	745	746	O
-such	747	751	O
-as	752	754	O
-the	755	758	O
-interaction	759	770	B-Process
-factor	771	777	I-Process
-approach	778	786	I-Process
-that	787	791	O
-allows	792	798	O
-capturing	799	808	B-Process
-the	809	812	I-Process
-(	813	814	I-Process
-e.g.	814	818	I-Process
-,	818	819	I-Process
-vertical	820	828	I-Process
-)	828	829	I-Process
-displacements	830	843	I-Process
-of	844	846	I-Process
-any	847	850	I-Process
-general	851	858	I-Process
-pile	859	863	I-Process
-group	864	869	I-Process
-by	870	872	O
-the	873	876	O
-analysis	877	885	B-Process
-of	886	888	I-Process
-the	889	892	I-Process
-displacement	893	905	I-Process
-interaction	906	917	I-Process
-between	918	925	I-Process
-two	926	929	I-Process
-identical	930	939	I-Process
-piles	940	945	I-Process
-and	946	949	O
-by	950	952	O
-the	953	956	O
-use	957	960	O
-of	961	963	O
-the	964	967	O
-elastic	968	975	B-Process
-principle	976	985	I-Process
-of	986	988	I-Process
-superposition	989	1002	I-Process
-of	1003	1005	I-Process
-effects	1006	1013	I-Process
-,	1013	1014	O
-makes	1015	1020	O
-them	1021	1025	O
-attractive	1026	1036	O
-as	1037	1039	O
-design	1040	1046	B-Material
-tools	1047	1052	I-Material
-because	1053	1060	O
-they	1061	1065	O
-allow	1066	1071	O
-for	1072	1075	O
-the	1076	1079	O
-use	1080	1083	O
-of	1084	1086	O
-expedient	1087	1096	B-Task
-parametric	1097	1107	I-Task
-studies	1108	1115	I-Task
-under	1116	1121	O
-various	1122	1129	O
-design	1130	1136	O
-conditions	1137	1147	O
-.	1147	1148	O
+To	0,2	O	O
+address	3,10	O	O
+the	11,14	O	O
+vertical	15,23	O	B-Task
+displacement	24,36	O	I-Task
+estimation	37,47	O	I-Task
+of	48,50	O	I-Task
+conventional	51,63	O	I-Task
+pile	64,68	O	I-Task
+groups	69,75	O	I-Task
+subjected	76,85	O	I-Task
+to	86,88	O	I-Task
+mechanical	89,99	O	I-Task
+loads	100,105	O	I-Task
+,	105,106	O	O
+various	107,114	O	O
+numerical	115,124	O	B-Process
+and	125,128	O	I-Process
+analytical	129,139	O	I-Process
+methods	140,147	O	I-Process
+have	148,152	O	O
+been	153,157	O	O
+proposed	158,166	O	O
+.	166,167	O	O
+
+These	168,173	O	O
+methods	174,181	O	O
+include	182,189	O	O
+the	190,193	O	O
+finite	194,200	O	B-Process
+element	201,208	O	I-Process
+method	209,215	O	I-Process
+[	216,217	O	O
+e.g.	217,221	O	O
+,	221,222	O	O
+2,3	223,226	O	O
+]	226,227	O	O
+,	227,228	O	O
+the	229,232	O	O
+boundary	233,241	O	B-Process
+element	242,249	O	I-Process
+method	250,256	O	I-Process
+[	257,258	O	O
+e.g.	258,262	O	O
+,	262,263	O	O
+4,5	264,267	O	O
+]	267,268	O	O
+,	268,269	O	O
+the	270,273	O	O
+finite	274,280	O	B-Process
+difference	281,291	O	I-Process
+method	292,298	O	I-Process
+[	299,300	O	O
+e.g.	300,304	O	O
+,	304,305	O	O
+6	306,307	O	O
+]	307,308	O	O
+,	308,309	O	O
+the	310,313	O	O
+interaction	314,325	O	B-Process
+factor	326,332	O	I-Process
+method	333,339	O	I-Process
+[	340,341	O	O
+e.g.	341,345	O	O
+,	345,346	O	O
+7,8–11	347,353	O	O
+]	353,354	O	O
+,	354,355	O	O
+the	356,359	O	O
+equivalent	360,370	O	B-Process
+pier	371,375	O	I-Process
+and	376,379	O	I-Process
+raft	380,384	O	I-Process
+methods	385,392	O	I-Process
+[	393,394	O	O
+e.g.	394,398	O	O
+,	398,399	O	O
+12–14	400,405	O	O
+]	405,406	O	O
+,	406,407	O	O
+and	408,411	O	O
+the	412,415	O	O
+settlement	416,426	O	B-Process
+ratio	427,432	O	I-Process
+method	433,439	O	I-Process
+[	440,441	O	O
+e.g.	441,445	O	O
+,	445,446	O	O
+15	447,449	O	O
+]	449,450	O	O
+.	450,451	O	O
+
+The	452,455	O	O
+finite	456,462	O	B-Process
+element	463,470	O	I-Process
+method	471,477	O	I-Process
+,	477,478	O	O
+while	479,484	O	O
+providing	485,494	O	O
+the	495,498	O	O
+most	499,503	O	O
+rigorous	504,512	O	O
+and	513,516	O	O
+exhaustive	517,527	O	O
+representation	528,542	O	O
+of	543,545	O	O
+the	546,549	O	O
+pile	550,554	O	B-Task
+group	555,560	O	I-Task
+-	560,561	O	I-Task
+related	561,568	O	I-Task
+problem	569,576	O	I-Task
+,	576,577	O	O
+is	578,580	O	O
+generally	581,590	O	O
+computationally	591,606	O	O
+expensive	607,616	O	O
+and	617,620	O	O
+considered	621,631	O	O
+mainly	632,638	O	O
+a	639,640	O	O
+research	641,649	O	B-Material
+tool	650,654	O	I-Material
+rather	655,661	O	O
+than	662,666	O	O
+a	667,668	O	O
+design	669,675	O	B-Material
+tool	676,680	O	I-Material
+.	680,681	O	O
+
+Conversely	682,692	O	O
+,	692,693	O	O
+the	694,697	O	O
+versatility	698,709	O	B-Process
+of	710,712	O	I-Process
+simplified	713,723	O	I-Process
+(	724,725	O	I-Process
+approximate	725,736	O	I-Process
+)	736,737	O	I-Process
+methods	738,745	O	I-Process
+,	745,746	O	O
+such	747,751	O	O
+as	752,754	O	O
+the	755,758	O	O
+interaction	759,770	O	B-Process
+factor	771,777	O	I-Process
+approach	778,786	O	I-Process
+that	787,791	O	O
+allows	792,798	O	O
+capturing	799,808	O	B-Process
+the	809,812	O	I-Process
+(	813,814	O	I-Process
+e.g.	814,818	O	I-Process
+,	818,819	O	I-Process
+vertical	820,828	O	I-Process
+)	828,829	O	I-Process
+displacements	830,843	O	I-Process
+of	844,846	O	I-Process
+any	847,850	O	I-Process
+general	851,858	O	I-Process
+pile	859,863	O	I-Process
+group	864,869	O	I-Process
+by	870,872	O	O
+the	873,876	O	O
+analysis	877,885	O	B-Process
+of	886,888	O	I-Process
+the	889,892	O	I-Process
+displacement	893,905	O	I-Process
+interaction	906,917	O	I-Process
+between	918,925	O	I-Process
+two	926,929	O	I-Process
+identical	930,939	O	I-Process
+piles	940,945	O	I-Process
+and	946,949	O	O
+by	950,952	O	O
+the	953,956	O	O
+use	957,960	O	O
+of	961,963	O	O
+the	964,967	O	O
+elastic	968,975	O	B-Process
+principle	976,985	O	I-Process
+of	986,988	O	I-Process
+superposition	989,1002	O	I-Process
+of	1003,1005	O	I-Process
+effects	1006,1013	O	I-Process
+,	1013,1014	O	O
+makes	1015,1020	O	O
+them	1021,1025	O	O
+attractive	1026,1036	O	O
+as	1037,1039	O	O
+design	1040,1046	O	B-Material
+tools	1047,1052	O	I-Material
+because	1053,1060	O	O
+they	1061,1065	O	O
+allow	1066,1071	O	O
+for	1072,1075	O	O
+the	1076,1079	O	O
+use	1080,1083	O	O
+of	1084,1086	O	O
+expedient	1087,1096	O	B-Task
+parametric	1097,1107	O	I-Task
+studies	1108,1115	O	I-Task
+under	1116,1121	O	O
+various	1122,1129	O	O
+design	1130,1136	O	O
+conditions	1137,1147	O	O
+.	1147,1148	O	O
 
 
 -DOCSTART- (S0301010414003115)
 
-The	0	3	O
-optimised	4	13	B-Task
-structure	14	23	I-Task
-at	24	26	O
-the	27	30	O
-B3LYP	31	36	B-Process
-/	36	37	I-Process
-aug	37	40	I-Process
--	40	41	I-Process
-cc	41	43	I-Process
--	43	44	I-Process
-pVTZ	44	48	I-Process
-level	49	54	O
-was	55	58	O
-then	59	63	O
-used	64	68	O
-to	69	71	O
-perform	72	79	O
-calculations	80	92	O
-of	93	95	O
-the	96	99	O
-lowest	100	106	B-Process
-electronic	107	117	I-Process
-singlet	118	125	I-Process
-excited	126	133	O
-states	134	140	O
-with	141	145	O
-the	146	149	O
-coupled	150	157	O
-cluster	158	165	O
-linear	166	172	B-Process
-response	173	181	I-Process
-(	182	183	O
-LR	183	185	B-Process
-)	185	186	O
-coupled	187	194	B-Process
-cluster	195	202	I-Process
-hierarchy	203	212	I-Process
-CCS	213	216	B-Process
-,	216	217	O
-CC2	218	221	B-Process
-,	221	222	O
-CCSD	223	227	B-Process
-and	228	231	O
-CC3	232	235	B-Process
-,	235	236	O
-along	237	242	O
-with	243	247	O
-perturbative	248	260	B-Process
-corrected	261	270	I-Process
-methods	271	278	I-Process
-CIS(D	279	284	B-Process
-)	284	285	I-Process
-and	286	289	O
-CCSDR(3	290	297	B-Process
-)	297	298	I-Process
-.	298	299	O
-
-The	300	303	O
-correlated	304	314	B-Process
-response	315	323	I-Process
-methods	324	331	I-Process
-were	332	336	O
-performed	337	346	O
-with	347	351	O
-an	352	354	O
-all	355	358	O
--	358	359	O
-electron	359	367	O
-atomic	368	374	B-Process
-natural	375	382	I-Process
-orbital	383	390	I-Process
-(	391	392	O
-ANO	392	395	B-Process
-)	395	396	O
-basis	397	402	O
-set	403	406	O
-contracted	407	417	O
-to	418	420	O
-6s5p4d3f1	421	430	B-Process
-g	430	431	I-Process
-on	432	434	O
-manganese	435	444	B-Material
-,	444	445	O
-[	446	447	O
-47	447	449	O
-]	449	450	O
-together	451	459	O
-with	460	464	O
-the	465	468	O
-cc	469	471	B-Process
--	471	472	I-Process
-pVTZ	472	476	I-Process
-basis	477	482	O
-set	483	486	O
-on	487	489	O
-the	490	493	O
-oxygen	494	500	B-Material
-atoms	501	506	O
-.	506	507	O
-
-The	508	511	O
-all	512	515	B-Process
--	515	516	I-Process
-electron	516	524	I-Process
-correlated	525	535	I-Process
-calculations	536	548	I-Process
-invoked	549	556	O
-a	557	558	O
-13	559	561	O
-orbital	562	569	O
-frozen	570	576	O
-core	577	581	O
-(	582	583	O
-O	583	584	B-Material
-1s	585	587	O
-,	587	588	O
-Mn	589	591	B-Material
-1s2s2p3s3p	592	602	O
-)	602	603	O
-.	603	604	O
-
-Trial	605	610	O
-calculations	611	623	O
-correlating	624	635	O
-these	636	641	O
-orbitals	642	650	O
-only	651	655	O
-had	656	659	O
-a	660	661	O
-minor	662	667	O
-effect	668	674	O
-on	675	677	O
-excitation	678	688	B-Task
-energies	689	697	I-Task
-.	697	698	O
-
-For	699	702	O
-comparison	703	713	O
-the	714	717	O
-EOM	718	721	B-Process
--	721	722	I-Process
-CCSD	722	726	I-Process
-method	727	733	I-Process
-with	734	738	O
-the	739	742	O
-cc	743	745	B-Process
--	745	746	I-Process
-pVTZ	746	750	I-Process
-basis	751	756	O
-on	757	759	O
-all	760	763	O
-atoms	764	769	O
-was	770	773	O
-tested	774	780	O
-to	781	783	O
-compare	784	791	O
-with	792	796	O
-LR	797	799	B-Process
--	799	800	I-Process
-CCSD	800	804	I-Process
-.	804	805	O
-
-These	806	811	O
-formally	812	820	O
-give	821	825	O
-exactly	826	833	O
-the	834	837	O
-same	838	842	O
-excitation	843	853	B-Task
-energies	854	862	I-Task
-,	862	863	O
-although	864	872	O
-the	873	876	O
-transition	877	887	B-Task
-moments	888	895	I-Task
-are	896	899	O
-more	900	904	O
-accurate	905	913	O
-for	914	917	O
-LR	918	920	B-Process
--	920	921	I-Process
-CCSD	921	925	I-Process
-.	925	926	O
-
-Abelian	927	934	B-Process
-symmetry	935	943	I-Process
-(	944	945	O
-D2	945	947	B-Process
-)	947	948	O
-was	949	952	O
-used	953	957	O
-in	958	960	O
-all	961	964	O
-correlated	965	975	O
-excited	976	983	B-Process
-state	984	989	I-Process
-calculations	990	1002	I-Process
-.	1002	1003	O
+The	0,3	O	O
+optimised	4,13	O	B-Task
+structure	14,23	O	I-Task
+at	24,26	O	O
+the	27,30	O	O
+B3LYP	31,36	O	B-Process
+/	36,37	O	I-Process
+aug	37,40	O	I-Process
+-	40,41	O	I-Process
+cc	41,43	O	I-Process
+-	43,44	O	I-Process
+pVTZ	44,48	O	I-Process
+level	49,54	O	O
+was	55,58	O	O
+then	59,63	O	O
+used	64,68	O	O
+to	69,71	O	O
+perform	72,79	O	O
+calculations	80,92	O	O
+of	93,95	O	O
+the	96,99	O	O
+lowest	100,106	O	B-Process
+electronic	107,117	O	I-Process
+singlet	118,125	O	I-Process
+excited	126,133	O	O
+states	134,140	O	O
+with	141,145	O	O
+the	146,149	O	O
+coupled	150,157	O	O
+cluster	158,165	O	O
+linear	166,172	O	B-Process
+response	173,181	O	I-Process
+(	182,183	O	O
+LR	183,185	O	B-Process
+)	185,186	O	O
+coupled	187,194	O	B-Process
+cluster	195,202	O	I-Process
+hierarchy	203,212	O	I-Process
+CCS	213,216	O	B-Process
+,	216,217	O	O
+CC2	218,221	O	B-Process
+,	221,222	O	O
+CCSD	223,227	O	B-Process
+and	228,231	O	O
+CC3	232,235	O	B-Process
+,	235,236	O	O
+along	237,242	O	O
+with	243,247	O	O
+perturbative	248,260	O	B-Process
+corrected	261,270	O	I-Process
+methods	271,278	O	I-Process
+CIS(D	279,284	O	B-Process
+)	284,285	O	I-Process
+and	286,289	O	O
+CCSDR(3	290,297	O	B-Process
+)	297,298	O	I-Process
+.	298,299	O	O
+
+The	300,303	O	O
+correlated	304,314	O	B-Process
+response	315,323	O	I-Process
+methods	324,331	O	I-Process
+were	332,336	O	O
+performed	337,346	O	O
+with	347,351	O	O
+an	352,354	O	O
+all	355,358	O	O
+-	358,359	O	O
+electron	359,367	O	O
+atomic	368,374	O	B-Process
+natural	375,382	O	I-Process
+orbital	383,390	O	I-Process
+(	391,392	O	O
+ANO	392,395	O	B-Process
+)	395,396	O	O
+basis	397,402	O	O
+set	403,406	O	O
+contracted	407,417	O	O
+to	418,420	O	O
+6s5p4d3f1	421,430	O	B-Process
+g	430,431	O	I-Process
+on	432,434	O	O
+manganese	435,444	O	B-Material
+,	444,445	O	O
+[	446,447	O	O
+47	447,449	O	O
+]	449,450	O	O
+together	451,459	O	O
+with	460,464	O	O
+the	465,468	O	O
+cc	469,471	O	B-Process
+-	471,472	O	I-Process
+pVTZ	472,476	O	I-Process
+basis	477,482	O	O
+set	483,486	O	O
+on	487,489	O	O
+the	490,493	O	O
+oxygen	494,500	O	B-Material
+atoms	501,506	O	O
+.	506,507	O	O
+
+The	508,511	O	O
+all	512,515	O	B-Process
+-	515,516	O	I-Process
+electron	516,524	O	I-Process
+correlated	525,535	O	I-Process
+calculations	536,548	O	I-Process
+invoked	549,556	O	O
+a	557,558	O	O
+13	559,561	O	O
+orbital	562,569	O	O
+frozen	570,576	O	O
+core	577,581	O	O
+(	582,583	O	O
+O	583,584	O	B-Material
+1s	585,587	O	O
+,	587,588	O	O
+Mn	589,591	O	B-Material
+1s2s2p3s3p	592,602	O	O
+)	602,603	O	O
+.	603,604	O	O
+
+Trial	605,610	O	O
+calculations	611,623	O	O
+correlating	624,635	O	O
+these	636,641	O	O
+orbitals	642,650	O	O
+only	651,655	O	O
+had	656,659	O	O
+a	660,661	O	O
+minor	662,667	O	O
+effect	668,674	O	O
+on	675,677	O	O
+excitation	678,688	O	B-Task
+energies	689,697	O	I-Task
+.	697,698	O	O
+
+For	699,702	O	O
+comparison	703,713	O	O
+the	714,717	O	O
+EOM	718,721	O	B-Process
+-	721,722	O	I-Process
+CCSD	722,726	O	I-Process
+method	727,733	O	I-Process
+with	734,738	O	O
+the	739,742	O	O
+cc	743,745	O	B-Process
+-	745,746	O	I-Process
+pVTZ	746,750	O	I-Process
+basis	751,756	O	O
+on	757,759	O	O
+all	760,763	O	O
+atoms	764,769	O	O
+was	770,773	O	O
+tested	774,780	O	O
+to	781,783	O	O
+compare	784,791	O	O
+with	792,796	O	O
+LR	797,799	O	B-Process
+-	799,800	O	I-Process
+CCSD	800,804	O	I-Process
+.	804,805	O	O
+
+These	806,811	O	O
+formally	812,820	O	O
+give	821,825	O	O
+exactly	826,833	O	O
+the	834,837	O	O
+same	838,842	O	O
+excitation	843,853	O	B-Task
+energies	854,862	O	I-Task
+,	862,863	O	O
+although	864,872	O	O
+the	873,876	O	O
+transition	877,887	O	B-Task
+moments	888,895	O	I-Task
+are	896,899	O	O
+more	900,904	O	O
+accurate	905,913	O	O
+for	914,917	O	O
+LR	918,920	O	B-Process
+-	920,921	O	I-Process
+CCSD	921,925	O	I-Process
+.	925,926	O	O
+
+Abelian	927,934	O	B-Process
+symmetry	935,943	O	I-Process
+(	944,945	O	O
+D2	945,947	O	B-Process
+)	947,948	O	O
+was	949,952	O	O
+used	953,957	O	O
+in	958,960	O	O
+all	961,964	O	O
+correlated	965,975	O	O
+excited	976,983	O	B-Process
+state	984,989	O	I-Process
+calculations	990,1002	O	I-Process
+.	1002,1003	O	O
 
 
 -DOCSTART- (S0301010414003516)
 
-Arrays	0	6	O
-of	7	9	O
-TFTs	10	14	B-Material
-and	15	18	O
-circuits	19	27	B-Material
-were	28	32	O
-fabricated	33	43	O
-on	44	46	O
-precleaned	47	57	O
-,	57	58	O
-5cm×5	59	64	O
-cm	64	66	O
-,	66	67	O
-125μm	68	73	O
-thick	74	79	O
-polyethylene	80	92	B-Material
-naphthalate	93	104	I-Material
-(	105	106	I-Material
-PEN	106	109	I-Material
-)	109	110	I-Material
-substrates	111	121	I-Material
-(	122	123	O
-Dupont	123	129	O
--	129	130	O
-Teijin	130	136	O
-)	136	137	O
-.	137	138	O
-
-Full	139	143	O
-details	144	151	O
-of	152	154	O
-our	155	158	O
-vacuum	159	165	B-Process
--	165	166	I-Process
-fabrication	166	177	I-Process
-procedures	178	188	I-Process
-have	189	193	O
-been	194	198	O
-given	199	204	O
-in	205	207	O
-previous	208	216	O
-publications	217	229	O
-[	230	231	O
-17–19,23	231	239	O
-]	239	240	O
-.	240	241	O
-
-Briefly	242	249	O
-,	249	250	O
-aluminium	251	260	B-Material
-gate	261	265	I-Material
-electrodes	266	276	I-Material
-and	277	280	O
-associated	281	291	O
-tracks	292	298	B-Material
-were	299	303	O
-vacuum	304	310	B-Process
-evaporated	311	321	I-Process
-onto	322	326	O
-the	327	330	O
-substrates	331	341	B-Material
-through	342	349	O
-shadow	350	356	B-Material
-masks	357	362	I-Material
-.	362	363	O
-
-Subsequently	364	376	O
-,	376	377	O
-the	378	381	O
-substrates	382	392	B-Material
-were	393	397	O
-attached	398	406	O
-to	407	409	O
-a	410	411	O
-cooled	412	418	O
-web	419	422	B-Material
--	422	423	I-Material
-coater	423	429	I-Material
-drum	430	434	I-Material
-(	435	436	O
-Aerre	436	441	O
-Machines	442	450	O
-)	450	451	O
-.	451	452	O
-
-With	453	457	O
-the	458	461	O
-drum	462	466	B-Material
-rotating	467	475	O
-at	476	478	O
-a	479	480	O
-linear	481	487	O
-speed	488	493	O
-of	494	496	O
-25m	497	500	O
-/	500	501	O
-min	501	504	O
-under	505	510	O
-vacuum	511	517	O
-,	517	518	O
-flash	519	524	B-Material
--	524	525	I-Material
-evaporated	525	535	I-Material
-TPGDA	536	541	I-Material
-monomer	542	549	I-Material
-vapour	550	556	I-Material
-which	557	562	O
-condensed	563	572	O
-onto	573	577	O
-the	578	581	O
-substrates	582	592	B-Material
-was	593	596	O
-cross	597	602	B-Process
--	602	603	I-Process
-linked	603	609	I-Process
-by	610	612	O
-exposure	613	621	B-Process
-,	621	622	O
-in	623	625	O
-situ	626	630	O
-,	630	631	O
-to	632	634	O
-a	635	636	O
-plasma	637	643	B-Material
-.	643	644	O
-
-The	645	648	O
-resulting	649	658	O
-smooth	659	665	O
-,	665	666	O
-pinhole	667	674	O
--	674	675	O
-free	675	679	O
-films	680	685	B-Material
-were	686	690	O
-typically	691	700	O
-500	701	704	O
-nm	704	706	O
-to	707	709	O
-1μm	710	713	O
-thick	714	719	O
-with	720	724	O
-a	725	726	O
-measured	727	735	O
-dielectric	736	746	O
-constant	747	755	O
-varying	756	763	O
-in	764	766	O
-the	767	770	O
-range	771	776	O
-4–5	777	780	O
-.	780	781	O
-
-For	782	785	O
-circuit	786	793	B-Task
-fabrication	794	805	I-Task
-,	805	806	O
-the	807	810	O
-insulator	811	820	B-Material
-was	821	824	O
-patterned	825	834	O
-using	835	840	O
-shadow	841	847	B-Material
-masks	848	853	I-Material
-to	854	856	O
-define	857	863	O
-rectangular	864	875	O
-areas	876	881	O
-separated	882	891	O
-by	892	894	O
-1	895	896	O
-mm	896	898	O
-gaps	899	903	O
-to	904	906	O
-act	907	910	O
-as	911	913	O
-vias	914	918	O
-for	919	922	O
-inter	923	928	B-Process
--	928	929	I-Process
-layer	929	934	I-Process
-metallic	935	943	I-Process
-connections	944	955	I-Process
-.	955	956	O
-
-The	957	960	O
-substrates	961	971	B-Material
-were	972	976	O
-then	977	981	O
-transferred	982	993	O
-into	994	998	O
-an	999	1001	O
-evaporator	1002	1012	B-Material
-(	1013	1014	O
-Minispectros	1014	1026	O
-,	1026	1027	O
-Kurt	1028	1032	O
-Lesker	1033	1039	O
-)	1039	1040	O
-integrated	1041	1051	O
-into	1052	1056	O
-a	1057	1058	O
-nitrogen	1059	1067	B-Material
-glovebox	1068	1076	I-Material
-for	1077	1080	O
-the	1081	1084	O
-vacuum	1085	1091	B-Process
--	1091	1092	I-Process
-deposition	1092	1102	I-Process
-(	1103	1104	O
-2.4nm	1104	1109	O
-/	1109	1110	O
-min	1110	1113	O
-)	1113	1114	O
-of	1115	1117	O
-DNTT	1118	1122	O
-onto	1123	1127	O
-the	1128	1131	O
-insulator	1132	1141	B-Material
-.	1141	1142	O
-
-Without	1143	1150	O
-exposing	1151	1159	O
-the	1160	1163	O
-substrates	1164	1174	B-Material
-to	1175	1177	O
-ambient	1178	1185	B-Material
-air	1186	1189	I-Material
-,	1189	1190	O
-the	1191	1194	O
-gold	1195	1199	B-Material
-source	1200	1206	I-Material
-/	1206	1207	I-Material
-drain	1207	1212	I-Material
-metallisation	1213	1226	I-Material
-layer	1227	1232	I-Material
-was	1233	1236	O
-deposited	1237	1246	O
-through	1247	1254	O
-a	1255	1256	O
-shadow	1257	1263	B-Material
-mask	1264	1268	I-Material
-in	1269	1271	O
-the	1272	1275	O
-same	1276	1280	O
-evaporator	1281	1291	B-Material
-.	1291	1292	O
+Arrays	0,6	O	O
+of	7,9	O	O
+TFTs	10,14	O	B-Material
+and	15,18	O	O
+circuits	19,27	O	B-Material
+were	28,32	O	O
+fabricated	33,43	O	O
+on	44,46	O	O
+precleaned	47,57	O	O
+,	57,58	O	O
+5cm×5	59,64	O	O
+cm	64,66	O	O
+,	66,67	O	O
+125μm	68,73	O	O
+thick	74,79	O	O
+polyethylene	80,92	O	B-Material
+naphthalate	93,104	O	I-Material
+(	105,106	O	I-Material
+PEN	106,109	O	I-Material
+)	109,110	O	I-Material
+substrates	111,121	O	I-Material
+(	122,123	O	O
+Dupont	123,129	O	O
+-	129,130	O	O
+Teijin	130,136	O	O
+)	136,137	O	O
+.	137,138	O	O
+
+Full	139,143	O	O
+details	144,151	O	O
+of	152,154	O	O
+our	155,158	O	O
+vacuum	159,165	O	B-Process
+-	165,166	O	I-Process
+fabrication	166,177	O	I-Process
+procedures	178,188	O	I-Process
+have	189,193	O	O
+been	194,198	O	O
+given	199,204	O	O
+in	205,207	O	O
+previous	208,216	O	O
+publications	217,229	O	O
+[	230,231	O	O
+17–19,23	231,239	O	O
+]	239,240	O	O
+.	240,241	O	O
+
+Briefly	242,249	O	O
+,	249,250	O	O
+aluminium	251,260	O	B-Material
+gate	261,265	O	I-Material
+electrodes	266,276	O	I-Material
+and	277,280	O	O
+associated	281,291	O	O
+tracks	292,298	O	B-Material
+were	299,303	O	O
+vacuum	304,310	O	B-Process
+evaporated	311,321	O	I-Process
+onto	322,326	O	O
+the	327,330	O	O
+substrates	331,341	O	B-Material
+through	342,349	O	O
+shadow	350,356	O	B-Material
+masks	357,362	O	I-Material
+.	362,363	O	O
+
+Subsequently	364,376	O	O
+,	376,377	O	O
+the	378,381	O	O
+substrates	382,392	O	B-Material
+were	393,397	O	O
+attached	398,406	O	O
+to	407,409	O	O
+a	410,411	O	O
+cooled	412,418	O	O
+web	419,422	O	B-Material
+-	422,423	O	I-Material
+coater	423,429	O	I-Material
+drum	430,434	O	I-Material
+(	435,436	O	O
+Aerre	436,441	O	O
+Machines	442,450	O	O
+)	450,451	O	O
+.	451,452	O	O
+
+With	453,457	O	O
+the	458,461	O	O
+drum	462,466	O	B-Material
+rotating	467,475	O	O
+at	476,478	O	O
+a	479,480	O	O
+linear	481,487	O	O
+speed	488,493	O	O
+of	494,496	O	O
+25m	497,500	O	O
+/	500,501	O	O
+min	501,504	O	O
+under	505,510	O	O
+vacuum	511,517	O	O
+,	517,518	O	O
+flash	519,524	O	B-Material
+-	524,525	O	I-Material
+evaporated	525,535	O	I-Material
+TPGDA	536,541	O	I-Material
+monomer	542,549	O	I-Material
+vapour	550,556	O	I-Material
+which	557,562	O	O
+condensed	563,572	O	O
+onto	573,577	O	O
+the	578,581	O	O
+substrates	582,592	O	B-Material
+was	593,596	O	O
+cross	597,602	O	B-Process
+-	602,603	O	I-Process
+linked	603,609	O	I-Process
+by	610,612	O	O
+exposure	613,621	O	B-Process
+,	621,622	O	O
+in	623,625	O	O
+situ	626,630	O	O
+,	630,631	O	O
+to	632,634	O	O
+a	635,636	O	O
+plasma	637,643	O	B-Material
+.	643,644	O	O
+
+The	645,648	O	O
+resulting	649,658	O	O
+smooth	659,665	O	O
+,	665,666	O	O
+pinhole	667,674	O	O
+-	674,675	O	O
+free	675,679	O	O
+films	680,685	O	B-Material
+were	686,690	O	O
+typically	691,700	O	O
+500	701,704	O	O
+nm	704,706	O	O
+to	707,709	O	O
+1μm	710,713	O	O
+thick	714,719	O	O
+with	720,724	O	O
+a	725,726	O	O
+measured	727,735	O	O
+dielectric	736,746	O	O
+constant	747,755	O	O
+varying	756,763	O	O
+in	764,766	O	O
+the	767,770	O	O
+range	771,776	O	O
+4–5	777,780	O	O
+.	780,781	O	O
+
+For	782,785	O	O
+circuit	786,793	O	B-Task
+fabrication	794,805	O	I-Task
+,	805,806	O	O
+the	807,810	O	O
+insulator	811,820	O	B-Material
+was	821,824	O	O
+patterned	825,834	O	O
+using	835,840	O	O
+shadow	841,847	O	B-Material
+masks	848,853	O	I-Material
+to	854,856	O	O
+define	857,863	O	O
+rectangular	864,875	O	O
+areas	876,881	O	O
+separated	882,891	O	O
+by	892,894	O	O
+1	895,896	O	O
+mm	896,898	O	O
+gaps	899,903	O	O
+to	904,906	O	O
+act	907,910	O	O
+as	911,913	O	O
+vias	914,918	O	O
+for	919,922	O	O
+inter	923,928	O	B-Process
+-	928,929	O	I-Process
+layer	929,934	O	I-Process
+metallic	935,943	O	I-Process
+connections	944,955	O	I-Process
+.	955,956	O	O
+
+The	957,960	O	O
+substrates	961,971	O	B-Material
+were	972,976	O	O
+then	977,981	O	O
+transferred	982,993	O	O
+into	994,998	O	O
+an	999,1001	O	O
+evaporator	1002,1012	O	B-Material
+(	1013,1014	O	O
+Minispectros	1014,1026	O	O
+,	1026,1027	O	O
+Kurt	1028,1032	O	O
+Lesker	1033,1039	O	O
+)	1039,1040	O	O
+integrated	1041,1051	O	O
+into	1052,1056	O	O
+a	1057,1058	O	O
+nitrogen	1059,1067	O	B-Material
+glovebox	1068,1076	O	I-Material
+for	1077,1080	O	O
+the	1081,1084	O	O
+vacuum	1085,1091	O	B-Process
+-	1091,1092	O	I-Process
+deposition	1092,1102	O	I-Process
+(	1103,1104	O	O
+2.4nm	1104,1109	O	O
+/	1109,1110	O	O
+min	1110,1113	O	O
+)	1113,1114	O	O
+of	1115,1117	O	O
+DNTT	1118,1122	O	O
+onto	1123,1127	O	O
+the	1128,1131	O	O
+insulator	1132,1141	O	B-Material
+.	1141,1142	O	O
+
+Without	1143,1150	O	O
+exposing	1151,1159	O	O
+the	1160,1163	O	O
+substrates	1164,1174	O	B-Material
+to	1175,1177	O	O
+ambient	1178,1185	O	B-Material
+air	1186,1189	O	I-Material
+,	1189,1190	O	O
+the	1191,1194	O	O
+gold	1195,1199	O	B-Material
+source	1200,1206	O	I-Material
+/	1206,1207	O	I-Material
+drain	1207,1212	O	I-Material
+metallisation	1213,1226	O	I-Material
+layer	1227,1232	O	I-Material
+was	1233,1236	O	O
+deposited	1237,1246	O	O
+through	1247,1254	O	O
+a	1255,1256	O	O
+shadow	1257,1263	O	B-Material
+mask	1264,1268	O	I-Material
+in	1269,1271	O	O
+the	1272,1275	O	O
+same	1276,1280	O	O
+evaporator	1281,1291	O	B-Material
+.	1291,1292	O	O
 
 
 -DOCSTART- (S0301010415002256)
 
-For	0	3	O
-decades	4	11	O
-,	11	12	O
-vibronic	13	21	B-Process
-coupling	22	30	I-Process
-models	31	37	I-Process
-[	38	39	O
-1–4	39	42	O
-]	42	43	O
-have	44	48	O
-served	49	55	O
-as	56	58	O
-bridges	59	66	O
-connecting	67	77	O
-nuclear	78	85	B-Task
-dynamics	86	94	I-Task
-studies	95	102	I-Task
-with	103	107	O
-the	108	111	O
-static	112	118	O
-studies	119	126	O
-of	127	129	O
-electronic	130	140	B-Task
-structure	141	150	I-Task
-calculations	151	163	I-Task
-[	164	165	O
-5	165	166	O
-]	166	167	O
-.	167	168	O
-
-The	169	172	O
-vibronic	173	181	B-Process
-coupling	182	190	I-Process
-model	191	196	I-Process
-is	197	199	O
-a	200	201	O
-simple	202	208	O
-polynomial	209	219	B-Task
-expansion	220	229	I-Task
-of	230	232	O
-diabatic	233	241	B-Task
-potential	242	251	I-Task
-energy	252	258	I-Task
-surfaces	259	267	I-Task
-and	268	271	I-Task
-couplings	272	281	I-Task
-.	281	282	O
-
-The	283	286	O
-expansion	287	296	B-Process
-coefficients	297	309	I-Process
-are	310	313	O
-chosen	314	320	O
-so	321	323	O
-that	324	328	O
-the	329	332	O
-eigenvalues	333	344	O
-of	345	347	O
-the	348	351	O
-potential	352	361	O
-operator	362	370	O
-map	371	374	O
-on	375	377	O
-to	378	380	O
-the	381	384	O
-adiabatic	385	394	O
-potential	395	404	O
-surfaces	405	413	O
-.	413	414	O
-
-This	415	419	O
-diabatisation	420	433	B-Process
-by	434	436	O
-ansatz	437	443	O
-circumvents	444	455	O
-many	456	460	O
-of	461	463	O
-the	464	467	O
-problems	468	476	O
-of	477	479	O
-describing	480	490	O
-non	491	494	B-Task
--	494	495	I-Task
-adiabatic	495	504	I-Task
-systems	505	512	I-Task
-.	512	513	O
-
-It	514	516	O
-is	517	519	O
-also	520	524	O
-the	525	528	O
-inspiration	529	540	O
-for	541	544	O
-a	545	546	O
-diabatisation	547	560	B-Process
-scheme	561	567	I-Process
-that	568	572	O
-is	573	575	O
-used	576	580	O
-in	581	583	O
-modern	584	590	O
-,	590	591	O
-direct	592	598	B-Process
--	598	599	I-Process
-dynamic	599	606	I-Process
-methods	607	614	I-Process
-that	615	619	O
-include	620	627	O
-non	628	631	O
--	631	632	O
-adiabatic	632	641	O
-effects	642	649	O
-[	650	651	O
-6	651	652	O
-]	652	653	O
-.	653	654	O
-
-For	655	658	O
-a	659	660	O
-model	661	666	B-Process
-Hamiltonian	667	678	I-Process
-to	679	681	O
-correctly	682	691	O
-approximate	692	703	O
-the	704	707	O
-eigenvectors	708	720	O
-of	721	723	O
-the	724	727	O
-true	728	732	B-Process
-Hamiltonian	733	744	I-Process
-it	745	747	O
-has	748	751	O
-to	752	754	O
-span	755	759	O
-the	760	763	O
-totally	764	771	O
-symmetric	772	781	O
-irreducible	782	793	B-Process
-representation	794	808	I-Process
-(	809	810	O
-IrRep	810	815	B-Process
-)	815	816	O
-of	817	819	O
-the	820	823	O
-point	824	829	O
-groups	830	836	O
-the	837	840	O
-molecule	841	849	O
-belongs	850	857	O
-to	858	860	O
-,	860	861	O
-at	862	864	O
-the	865	868	O
-appropriate	869	880	O
-symmetric	881	890	B-Process
-geometries	891	901	I-Process
-[	902	903	O
-7	903	904	O
-]	904	905	O
-.	905	906	O
-
-In	907	909	O
-recent	910	916	O
-times	917	922	O
-,	922	923	O
-many	924	928	O
-articles	929	937	O
-have	938	942	O
-demonstrated	943	955	O
-the	956	959	O
-advantages	960	970	O
-of	971	973	O
-using	974	979	O
-symmetry	980	988	O
-when	989	993	O
-constructing	994	1006	O
-analytic	1007	1015	B-Process
-model	1016	1021	I-Process
-potentials	1022	1032	I-Process
-[	1033	1034	O
-8–12	1034	1038	O
-]	1038	1039	O
-,	1039	1040	O
-most	1041	1045	O
-often	1046	1051	O
-in	1052	1054	O
-the	1055	1058	O
-context	1059	1066	O
-of	1067	1069	O
-permutation	1070	1081	B-Process
--	1081	1082	I-Process
-inversion	1082	1091	I-Process
-groups	1092	1098	I-Process
-[	1099	1100	O
-13	1100	1102	O
-]	1102	1103	O
-.	1103	1104	O
+For	0,3	O	O
+decades	4,11	O	O
+,	11,12	O	O
+vibronic	13,21	O	B-Process
+coupling	22,30	O	I-Process
+models	31,37	O	I-Process
+[	38,39	O	O
+1–4	39,42	O	O
+]	42,43	O	O
+have	44,48	O	O
+served	49,55	O	O
+as	56,58	O	O
+bridges	59,66	O	O
+connecting	67,77	O	O
+nuclear	78,85	O	B-Task
+dynamics	86,94	O	I-Task
+studies	95,102	O	I-Task
+with	103,107	O	O
+the	108,111	O	O
+static	112,118	O	O
+studies	119,126	O	O
+of	127,129	O	O
+electronic	130,140	O	B-Task
+structure	141,150	O	I-Task
+calculations	151,163	O	I-Task
+[	164,165	O	O
+5	165,166	O	O
+]	166,167	O	O
+.	167,168	O	O
+
+The	169,172	O	O
+vibronic	173,181	O	B-Process
+coupling	182,190	O	I-Process
+model	191,196	O	I-Process
+is	197,199	O	O
+a	200,201	O	O
+simple	202,208	O	O
+polynomial	209,219	O	B-Task
+expansion	220,229	O	I-Task
+of	230,232	O	O
+diabatic	233,241	O	B-Task
+potential	242,251	O	I-Task
+energy	252,258	O	I-Task
+surfaces	259,267	O	I-Task
+and	268,271	O	I-Task
+couplings	272,281	O	I-Task
+.	281,282	O	O
+
+The	283,286	O	O
+expansion	287,296	O	B-Process
+coefficients	297,309	O	I-Process
+are	310,313	O	O
+chosen	314,320	O	O
+so	321,323	O	O
+that	324,328	O	O
+the	329,332	O	O
+eigenvalues	333,344	O	O
+of	345,347	O	O
+the	348,351	O	O
+potential	352,361	O	O
+operator	362,370	O	O
+map	371,374	O	O
+on	375,377	O	O
+to	378,380	O	O
+the	381,384	O	O
+adiabatic	385,394	O	O
+potential	395,404	O	O
+surfaces	405,413	O	O
+.	413,414	O	O
+
+This	415,419	O	O
+diabatisation	420,433	O	B-Process
+by	434,436	O	O
+ansatz	437,443	O	O
+circumvents	444,455	O	O
+many	456,460	O	O
+of	461,463	O	O
+the	464,467	O	O
+problems	468,476	O	O
+of	477,479	O	O
+describing	480,490	O	O
+non	491,494	O	B-Task
+-	494,495	O	I-Task
+adiabatic	495,504	O	I-Task
+systems	505,512	O	I-Task
+.	512,513	O	O
+
+It	514,516	O	O
+is	517,519	O	O
+also	520,524	O	O
+the	525,528	O	O
+inspiration	529,540	O	O
+for	541,544	O	O
+a	545,546	O	O
+diabatisation	547,560	O	B-Process
+scheme	561,567	O	I-Process
+that	568,572	O	O
+is	573,575	O	O
+used	576,580	O	O
+in	581,583	O	O
+modern	584,590	O	O
+,	590,591	O	O
+direct	592,598	O	B-Process
+-	598,599	O	I-Process
+dynamic	599,606	O	I-Process
+methods	607,614	O	I-Process
+that	615,619	O	O
+include	620,627	O	O
+non	628,631	O	O
+-	631,632	O	O
+adiabatic	632,641	O	O
+effects	642,649	O	O
+[	650,651	O	O
+6	651,652	O	O
+]	652,653	O	O
+.	653,654	O	O
+
+For	655,658	O	O
+a	659,660	O	O
+model	661,666	O	B-Process
+Hamiltonian	667,678	O	I-Process
+to	679,681	O	O
+correctly	682,691	O	O
+approximate	692,703	O	O
+the	704,707	O	O
+eigenvectors	708,720	O	O
+of	721,723	O	O
+the	724,727	O	O
+true	728,732	O	B-Process
+Hamiltonian	733,744	O	I-Process
+it	745,747	O	O
+has	748,751	O	O
+to	752,754	O	O
+span	755,759	O	O
+the	760,763	O	O
+totally	764,771	O	O
+symmetric	772,781	O	O
+irreducible	782,793	O	B-Process
+representation	794,808	O	I-Process
+(	809,810	O	O
+IrRep	810,815	O	B-Process
+)	815,816	O	O
+of	817,819	O	O
+the	820,823	O	O
+point	824,829	O	O
+groups	830,836	O	O
+the	837,840	O	O
+molecule	841,849	O	O
+belongs	850,857	O	O
+to	858,860	O	O
+,	860,861	O	O
+at	862,864	O	O
+the	865,868	O	O
+appropriate	869,880	O	O
+symmetric	881,890	O	B-Process
+geometries	891,901	O	I-Process
+[	902,903	O	O
+7	903,904	O	O
+]	904,905	O	O
+.	905,906	O	O
+
+In	907,909	O	O
+recent	910,916	O	O
+times	917,922	O	O
+,	922,923	O	O
+many	924,928	O	O
+articles	929,937	O	O
+have	938,942	O	O
+demonstrated	943,955	O	O
+the	956,959	O	O
+advantages	960,970	O	O
+of	971,973	O	O
+using	974,979	O	O
+symmetry	980,988	O	O
+when	989,993	O	O
+constructing	994,1006	O	O
+analytic	1007,1015	O	B-Process
+model	1016,1021	O	I-Process
+potentials	1022,1032	O	I-Process
+[	1033,1034	O	O
+8–12	1034,1038	O	O
+]	1038,1039	O	O
+,	1039,1040	O	O
+most	1041,1045	O	O
+often	1046,1051	O	O
+in	1052,1054	O	O
+the	1055,1058	O	O
+context	1059,1066	O	O
+of	1067,1069	O	O
+permutation	1070,1081	O	B-Process
+-	1081,1082	O	I-Process
+inversion	1082,1091	O	I-Process
+groups	1092,1098	O	I-Process
+[	1099,1100	O	O
+13	1100,1102	O	O
+]	1102,1103	O	O
+.	1103,1104	O	O
 
 
 -DOCSTART- (S030193221400144X)
 
-In	0	2	O
-the	3	6	O
-present	7	14	O
-work	15	19	O
-,	19	20	O
-a	21	22	O
-LIF	23	26	B-Process
-technique	27	36	I-Process
-is	37	39	O
-applied	40	47	O
-for	48	51	O
-investigation	52	65	O
-of	66	68	O
-gas	69	72	B-Task
--	72	73	I-Task
-sheared	73	80	I-Task
-film	81	85	I-Task
-flow	86	90	I-Task
-in	91	93	O
-horizontal	94	104	O
-rectangular	105	116	O
-duct	117	121	B-Material
-.	121	122	O
-
-The	123	126	O
-technique	127	136	O
-makes	137	142	O
-it	143	145	O
-possible	146	154	O
-to	155	157	O
-perform	158	165	O
-field	166	171	B-Process
-measurements	172	184	I-Process
-of	185	187	I-Process
-local	188	193	I-Process
-film	194	198	I-Process
-thickness	199	208	I-Process
-,	208	209	O
-resolved	210	218	O
-in	219	221	O
-both	222	226	O
-space	227	232	O
-and	233	236	O
-time	237	241	O
-,	241	242	O
-similar	243	250	O
-to	251	253	O
-the	254	257	O
-work	258	262	O
-of	263	265	O
-Alekseenko	266	276	O
-et	277	279	O
-al	280	282	O
-.	282	283	O
-
-(	284	285	O
-2009	285	289	O
-)	289	290	O
-.	290	291	O
-
-The	292	295	O
-flat	296	300	O
-shape	301	306	O
-and	307	310	O
-large	311	316	O
-transverse	317	327	O
-size	328	332	O
-of	333	335	O
-the	336	339	O
-duct	340	344	B-Material
-allow	345	350	O
-us	351	353	O
-to	354	356	O
-resolve	357	364	B-Process
-the	365	368	I-Process
-film	369	373	I-Process
-thickness	374	383	I-Process
-in	384	386	O
-transverse	387	397	O
-coordinate	398	408	O
-as	409	411	O
-well	412	416	O
-.	416	417	O
-
-Alekseenko	418	428	O
-et	429	431	O
-al	432	434	O
-.	434	435	O
-
-(	436	437	O
-2012	437	441	O
-)	441	442	O
-attempted	443	452	O
-to	453	455	O
-do	456	458	O
-this	459	463	O
-in	464	466	O
-annular	467	474	B-Process
-downward	475	483	I-Process
-flow	484	488	I-Process
-,	488	489	O
-but	490	493	O
-,	493	494	O
-for	495	498	O
-technical	499	508	O
-reasons	509	516	O
-,	516	517	O
-the	518	521	O
-sampling	522	530	B-Process
-frequency	531	540	I-Process
-was	541	544	O
-not	545	548	O
-high	549	553	O
-enough	554	560	O
-in	561	563	O
-their	564	569	O
-experiments	570	581	O
-.	581	582	O
-
-More	583	587	O
-recently	588	596	O
-Alekseenko	597	607	O
-et	608	610	O
-al	611	613	O
-.	613	614	O
-
-(	615	616	O
-2014a	616	621	O
-)	621	622	O
-showed	623	629	O
-that	630	634	O
-the	635	638	O
-LIF	639	642	B-Process
-technique	643	652	I-Process
-can	653	656	O
-also	657	661	O
-detect	662	668	B-Task
-entrained	669	678	I-Task
-droplets	679	687	I-Task
-.	687	688	O
-
-The	689	692	O
-technique	693	702	O
-allows	703	709	O
-the	710	713	O
-simultaneous	714	726	O
-study	727	732	O
-of	733	735	O
-three	736	741	B-Material
--	741	742	I-Material
-dimensional	742	753	I-Material
-wavy	754	758	I-Material
-structures	759	769	I-Material
-and	770	773	O
-liquid	774	780	B-Task
-entrainment	781	792	I-Task
-,	792	793	O
-and	794	797	O
-can	798	801	O
-improve	802	809	B-Task
-understanding	810	823	I-Task
-of	824	826	I-Task
-the	827	830	I-Task
-entrainment	831	842	I-Task
-phenomenon	843	853	I-Task
-.	853	854	O
+In	0,2	O	O
+the	3,6	O	O
+present	7,14	O	O
+work	15,19	O	O
+,	19,20	O	O
+a	21,22	O	O
+LIF	23,26	O	B-Process
+technique	27,36	O	I-Process
+is	37,39	O	O
+applied	40,47	O	O
+for	48,51	O	O
+investigation	52,65	O	O
+of	66,68	O	O
+gas	69,72	O	B-Task
+-	72,73	O	I-Task
+sheared	73,80	O	I-Task
+film	81,85	O	I-Task
+flow	86,90	O	I-Task
+in	91,93	O	O
+horizontal	94,104	O	O
+rectangular	105,116	O	O
+duct	117,121	O	B-Material
+.	121,122	O	O
+
+The	123,126	O	O
+technique	127,136	O	O
+makes	137,142	O	O
+it	143,145	O	O
+possible	146,154	O	O
+to	155,157	O	O
+perform	158,165	O	O
+field	166,171	O	B-Process
+measurements	172,184	O	I-Process
+of	185,187	O	I-Process
+local	188,193	O	I-Process
+film	194,198	O	I-Process
+thickness	199,208	O	I-Process
+,	208,209	O	O
+resolved	210,218	O	O
+in	219,221	O	O
+both	222,226	O	O
+space	227,232	O	O
+and	233,236	O	O
+time	237,241	O	O
+,	241,242	O	O
+similar	243,250	O	O
+to	251,253	O	O
+the	254,257	O	O
+work	258,262	O	O
+of	263,265	O	O
+Alekseenko	266,276	O	O
+et	277,279	O	O
+al	280,282	O	O
+.	282,283	O	O
+
+(	284,285	O	O
+2009	285,289	O	O
+)	289,290	O	O
+.	290,291	O	O
+
+The	292,295	O	O
+flat	296,300	O	O
+shape	301,306	O	O
+and	307,310	O	O
+large	311,316	O	O
+transverse	317,327	O	O
+size	328,332	O	O
+of	333,335	O	O
+the	336,339	O	O
+duct	340,344	O	B-Material
+allow	345,350	O	O
+us	351,353	O	O
+to	354,356	O	O
+resolve	357,364	O	B-Process
+the	365,368	O	I-Process
+film	369,373	O	I-Process
+thickness	374,383	O	I-Process
+in	384,386	O	O
+transverse	387,397	O	O
+coordinate	398,408	O	O
+as	409,411	O	O
+well	412,416	O	O
+.	416,417	O	O
+
+Alekseenko	418,428	O	O
+et	429,431	O	O
+al	432,434	O	O
+.	434,435	O	O
+
+(	436,437	O	O
+2012	437,441	O	O
+)	441,442	O	O
+attempted	443,452	O	O
+to	453,455	O	O
+do	456,458	O	O
+this	459,463	O	O
+in	464,466	O	O
+annular	467,474	O	B-Process
+downward	475,483	O	I-Process
+flow	484,488	O	I-Process
+,	488,489	O	O
+but	490,493	O	O
+,	493,494	O	O
+for	495,498	O	O
+technical	499,508	O	O
+reasons	509,516	O	O
+,	516,517	O	O
+the	518,521	O	O
+sampling	522,530	O	B-Process
+frequency	531,540	O	I-Process
+was	541,544	O	O
+not	545,548	O	O
+high	549,553	O	O
+enough	554,560	O	O
+in	561,563	O	O
+their	564,569	O	O
+experiments	570,581	O	O
+.	581,582	O	O
+
+More	583,587	O	O
+recently	588,596	O	O
+Alekseenko	597,607	O	O
+et	608,610	O	O
+al	611,613	O	O
+.	613,614	O	O
+
+(	615,616	O	O
+2014a	616,621	O	O
+)	621,622	O	O
+showed	623,629	O	O
+that	630,634	O	O
+the	635,638	O	O
+LIF	639,642	O	B-Process
+technique	643,652	O	I-Process
+can	653,656	O	O
+also	657,661	O	O
+detect	662,668	O	B-Task
+entrained	669,678	O	I-Task
+droplets	679,687	O	I-Task
+.	687,688	O	O
+
+The	689,692	O	O
+technique	693,702	O	O
+allows	703,709	O	O
+the	710,713	O	O
+simultaneous	714,726	O	O
+study	727,732	O	O
+of	733,735	O	O
+three	736,741	O	B-Material
+-	741,742	O	I-Material
+dimensional	742,753	O	I-Material
+wavy	754,758	O	I-Material
+structures	759,769	O	I-Material
+and	770,773	O	O
+liquid	774,780	O	B-Task
+entrainment	781,792	O	I-Task
+,	792,793	O	O
+and	794,797	O	O
+can	798,801	O	O
+improve	802,809	O	B-Task
+understanding	810,823	O	I-Task
+of	824,826	O	I-Task
+the	827,830	O	I-Task
+entrainment	831,842	O	I-Task
+phenomenon	843,853	O	I-Task
+.	853,854	O	O
 
 
 -DOCSTART- (S0301932214001499)
 
-In	0	2	O
-general	3	10	O
-,	10	11	O
-liquid	12	18	B-Process
-film	19	23	I-Process
-flows	24	29	I-Process
-of	30	32	O
-practical	33	42	O
-relevance	43	52	O
-are	53	56	O
-turbulent	57	66	O
-and	67	70	O
-,	70	71	O
-hence	72	77	O
-,	77	78	O
-are	79	82	O
-associated	83	93	O
-with	94	98	O
-the	99	102	O
-presence	103	111	O
-of	112	114	O
-broadband	115	124	B-Material
-interfacial	125	136	I-Material
-waves	137	142	I-Material
-on	143	145	O
-the	146	149	O
-film	150	154	B-Material
-surface	155	162	I-Material
-.	162	163	O
-
-A	164	165	O
-thorough	166	174	O
-understanding	175	188	B-Task
-of	189	191	I-Task
-the	192	195	I-Task
-characteristic	196	210	I-Task
-profiles	211	219	I-Task
-,	219	220	I-Task
-scales	221	227	I-Task
-and	228	231	I-Task
-dynamics	232	240	I-Task
-of	241	243	I-Task
-these	244	249	I-Task
-interfacial	250	261	I-Task
-waves	262	267	I-Task
-is	268	270	O
-of	271	273	O
-essential	274	283	O
-importance	284	294	O
-in	295	297	O
-making	298	304	O
-accurate	305	313	O
-and	314	317	O
-reliable	318	326	O
-predictions	327	338	O
-of	339	341	O
-heat	342	346	O
-and	347	350	O
-mass	351	355	O
-transfer	356	364	O
-rates	365	370	O
-(	371	372	O
-Mathie	372	378	O
-and	379	382	O
-Markides	383	391	O
-,	391	392	O
-2013a	393	398	O
-;	398	399	O
-Mathie	400	406	O
-et	407	409	O
-al	410	412	O
-.	412	413	O
-,	413	414	O
-2013	415	419	O
-)	419	420	O
-.	420	421	O
-
-Previous	422	430	O
-efforts	431	438	O
-in	439	441	O
-downwards	442	451	B-Process
-annular	452	459	I-Process
-flow	460	464	I-Process
-have	465	469	O
-focused	470	477	O
-on	478	480	O
-the	481	484	O
-spatio	485	491	B-Process
-/	491	492	I-Process
-temporal	492	500	I-Process
-measurement	501	512	I-Process
-of	513	515	O
-liquid	516	522	B-Process
-film	523	527	I-Process
-thickness	528	537	I-Process
-,	537	538	O
-followed	539	547	O
-by	548	550	O
-in	551	553	O
--	553	554	O
-depth	554	559	O
-statistical	560	571	B-Task
-analyses	572	580	I-Task
-of	581	583	I-Task
-this	584	588	I-Task
-film	589	593	I-Task
-thickness	594	603	I-Task
-(	604	605	O
-Webb	605	609	O
-and	610	613	O
-Hewitt	614	620	O
-,	620	621	O
-1975	622	626	O
-;	626	627	O
-Belt	628	632	O
-et	633	635	O
-al	636	638	O
-.	638	639	O
-,	639	640	O
-2010	641	645	O
-;	645	646	O
-Alekseenko	647	657	O
-et	658	660	O
-al	661	663	O
-.	663	664	O
-
-,	664	665	O
-2012	666	670	O
-;	670	671	O
-Zhao	672	676	O
-et	677	679	O
-al	680	682	O
-.	682	683	O
-,	683	684	O
-2013	685	689	O
-)	689	690	O
-.	690	691	O
-
-These	692	697	O
-efforts	698	705	O
-have	706	710	O
-contributed	711	722	O
-to	723	725	O
-a	726	727	O
-much	728	732	O
-improved	733	741	O
-understanding	742	755	O
-of	756	758	O
-the	759	762	O
-interfacial	763	774	B-Task
-topology	775	783	I-Task
-observed	784	792	O
-in	793	795	O
-downwards	796	805	B-Process
-annular	806	813	I-Process
-flows	814	819	I-Process
-and	820	823	O
-also	824	828	O
-to	829	831	O
-the	832	835	O
-subsequent	836	846	O
-proposal	847	855	O
-of	856	858	O
-a	859	860	O
-series	861	867	O
-of	868	870	O
-correlations	871	883	O
-for	884	887	O
-the	888	891	O
-quantification	892	906	B-Task
-of	907	909	I-Task
-the	910	913	I-Task
-mean	914	918	I-Task
-film	919	923	I-Task
-thickness	924	933	I-Task
-,	933	934	I-Task
-wave	935	939	I-Task
-amplitudes	940	950	I-Task
-and	951	954	I-Task
-liquid	955	961	I-Task
-entrainment	962	973	I-Task
-rates	974	979	I-Task
-into	980	984	O
-the	985	988	O
-gas	989	992	B-Process
-phase	993	998	I-Process
-(	999	1000	O
-Ambrosini	1000	1009	O
-et	1010	1012	O
-al	1013	1015	O
-.	1015	1016	O
-
-,	1016	1017	O
-1991	1018	1022	O
-;	1022	1023	O
-Karapantsios	1024	1036	O
-and	1037	1040	O
-Karabelas	1041	1050	O
-,	1050	1051	O
-1995	1052	1056	O
-;	1056	1057	O
-Azzopardi	1058	1067	O
-,	1067	1068	O
-1997	1069	1073	O
-)	1073	1074	O
-.	1074	1075	O
-
-On	1076	1078	O
-the	1079	1082	O
-other	1083	1088	O
-hand	1089	1093	O
-,	1093	1094	O
-less	1095	1099	O
-has	1100	1103	O
-been	1104	1108	O
-published	1109	1118	O
-on	1119	1121	O
-the	1122	1125	O
-velocity	1126	1134	B-Process
-distribution	1135	1147	I-Process
-and	1148	1151	O
-the	1152	1155	O
-flow	1156	1160	B-Process
-structure	1161	1170	I-Process
-within	1171	1177	I-Process
-the	1178	1181	I-Process
-liquid	1182	1188	I-Process
-films	1189	1194	I-Process
-,	1194	1195	O
-underneath	1196	1206	O
-the	1207	1210	O
-film	1211	1215	B-Material
-surface	1216	1223	I-Material
-.	1223	1224	O
-
-This	1225	1229	O
-can	1230	1233	O
-be	1234	1236	O
-related	1237	1244	O
-to	1245	1247	O
-the	1248	1251	O
-relative	1252	1260	O
-difficulty	1261	1271	O
-of	1272	1274	O
-these	1275	1280	O
-measurements	1281	1293	O
-caused	1294	1300	O
-by	1301	1303	O
-:	1303	1304	O
-(	1305	1306	O
-i	1306	1307	O
-)	1307	1308	O
-the	1309	1312	O
-extremely	1313	1322	O
-restricted	1323	1333	O
-measurement	1334	1345	O
-space	1346	1351	O
-,	1351	1352	O
-due	1353	1356	O
-to	1357	1359	O
-the	1360	1363	O
-small	1364	1369	O
-thickness	1370	1379	B-Task
-of	1380	1382	I-Task
-the	1383	1386	I-Task
-liquid	1387	1393	I-Task
-films	1394	1399	I-Task
-(	1400	1401	O
-in	1401	1403	O
-the	1404	1407	O
-order	1408	1413	O
-of	1414	1416	O
-and	1417	1420	O
-often	1421	1426	O
-sub	1427	1430	O
--	1430	1431	O
-mm	1431	1433	O
-)	1433	1434	O
-,	1434	1435	O
-(	1436	1437	O
-ii	1437	1439	O
-)	1439	1440	O
-the	1441	1444	O
-highly	1445	1451	O
-disturbed	1452	1461	O
-and	1462	1465	O
-intermittent	1466	1478	O
-nature	1479	1485	O
-of	1486	1488	O
-the	1489	1492	O
-gas	1493	1496	B-Process
-–	1496	1497	I-Process
-liquid	1497	1503	I-Process
-interface	1504	1513	I-Process
-,	1513	1514	O
-
-(	1515	1516	O
-iii	1516	1519	O
-)	1519	1520	O
-the	1521	1524	O
-entrainment	1525	1536	B-Process
-of	1537	1539	I-Process
-gas	1540	1543	I-Process
-inside	1544	1550	O
-the	1551	1554	O
-liquid	1555	1561	B-Material
-film	1562	1566	I-Material
-and	1567	1570	O
-of	1571	1573	O
-liquid	1574	1580	B-Material
-into	1581	1585	O
-the	1586	1589	O
-gas	1590	1593	B-Material
-core	1594	1598	I-Material
-,	1598	1599	O
-and	1600	1603	O
-(	1604	1605	O
-iv	1605	1607	O
-)	1607	1608	O
-the	1609	1612	O
-relatively	1613	1623	O
-high	1624	1628	B-Task
-velocities	1629	1639	I-Task
-of	1640	1642	O
-both	1643	1647	O
-the	1648	1651	O
-gas	1652	1655	B-Material
-and	1656	1659	O
-liquid	1660	1666	B-Material
-phases	1667	1673	O
-.	1673	1674	O
+In	0,2	O	O
+general	3,10	O	O
+,	10,11	O	O
+liquid	12,18	O	B-Process
+film	19,23	O	I-Process
+flows	24,29	O	I-Process
+of	30,32	O	O
+practical	33,42	O	O
+relevance	43,52	O	O
+are	53,56	O	O
+turbulent	57,66	O	O
+and	67,70	O	O
+,	70,71	O	O
+hence	72,77	O	O
+,	77,78	O	O
+are	79,82	O	O
+associated	83,93	O	O
+with	94,98	O	O
+the	99,102	O	O
+presence	103,111	O	O
+of	112,114	O	O
+broadband	115,124	O	B-Material
+interfacial	125,136	O	I-Material
+waves	137,142	O	I-Material
+on	143,145	O	O
+the	146,149	O	O
+film	150,154	O	B-Material
+surface	155,162	O	I-Material
+.	162,163	O	O
+
+A	164,165	O	O
+thorough	166,174	O	O
+understanding	175,188	O	B-Task
+of	189,191	O	I-Task
+the	192,195	O	I-Task
+characteristic	196,210	O	I-Task
+profiles	211,219	O	I-Task
+,	219,220	O	I-Task
+scales	221,227	O	I-Task
+and	228,231	O	I-Task
+dynamics	232,240	O	I-Task
+of	241,243	O	I-Task
+these	244,249	O	I-Task
+interfacial	250,261	O	I-Task
+waves	262,267	O	I-Task
+is	268,270	O	O
+of	271,273	O	O
+essential	274,283	O	O
+importance	284,294	O	O
+in	295,297	O	O
+making	298,304	O	O
+accurate	305,313	O	O
+and	314,317	O	O
+reliable	318,326	O	O
+predictions	327,338	O	O
+of	339,341	O	O
+heat	342,346	O	O
+and	347,350	O	O
+mass	351,355	O	O
+transfer	356,364	O	O
+rates	365,370	O	O
+(	371,372	O	O
+Mathie	372,378	O	O
+and	379,382	O	O
+Markides	383,391	O	O
+,	391,392	O	O
+2013a	393,398	O	O
+;	398,399	O	O
+Mathie	400,406	O	O
+et	407,409	O	O
+al	410,412	O	O
+.	412,413	O	O
+,	413,414	O	O
+2013	415,419	O	O
+)	419,420	O	O
+.	420,421	O	O
+
+Previous	422,430	O	O
+efforts	431,438	O	O
+in	439,441	O	O
+downwards	442,451	O	B-Process
+annular	452,459	O	I-Process
+flow	460,464	O	I-Process
+have	465,469	O	O
+focused	470,477	O	O
+on	478,480	O	O
+the	481,484	O	O
+spatio	485,491	O	B-Process
+/	491,492	O	I-Process
+temporal	492,500	O	I-Process
+measurement	501,512	O	I-Process
+of	513,515	O	O
+liquid	516,522	O	B-Process
+film	523,527	O	I-Process
+thickness	528,537	O	I-Process
+,	537,538	O	O
+followed	539,547	O	O
+by	548,550	O	O
+in	551,553	O	O
+-	553,554	O	O
+depth	554,559	O	O
+statistical	560,571	O	B-Task
+analyses	572,580	O	I-Task
+of	581,583	O	I-Task
+this	584,588	O	I-Task
+film	589,593	O	I-Task
+thickness	594,603	O	I-Task
+(	604,605	O	O
+Webb	605,609	O	O
+and	610,613	O	O
+Hewitt	614,620	O	O
+,	620,621	O	O
+1975	622,626	O	O
+;	626,627	O	O
+Belt	628,632	O	O
+et	633,635	O	O
+al	636,638	O	O
+.	638,639	O	O
+,	639,640	O	O
+2010	641,645	O	O
+;	645,646	O	O
+Alekseenko	647,657	O	O
+et	658,660	O	O
+al	661,663	O	O
+.	663,664	O	O
+
+,	664,665	O	O
+2012	666,670	O	O
+;	670,671	O	O
+Zhao	672,676	O	O
+et	677,679	O	O
+al	680,682	O	O
+.	682,683	O	O
+,	683,684	O	O
+2013	685,689	O	O
+)	689,690	O	O
+.	690,691	O	O
+
+These	692,697	O	O
+efforts	698,705	O	O
+have	706,710	O	O
+contributed	711,722	O	O
+to	723,725	O	O
+a	726,727	O	O
+much	728,732	O	O
+improved	733,741	O	O
+understanding	742,755	O	O
+of	756,758	O	O
+the	759,762	O	O
+interfacial	763,774	O	B-Task
+topology	775,783	O	I-Task
+observed	784,792	O	O
+in	793,795	O	O
+downwards	796,805	O	B-Process
+annular	806,813	O	I-Process
+flows	814,819	O	I-Process
+and	820,823	O	O
+also	824,828	O	O
+to	829,831	O	O
+the	832,835	O	O
+subsequent	836,846	O	O
+proposal	847,855	O	O
+of	856,858	O	O
+a	859,860	O	O
+series	861,867	O	O
+of	868,870	O	O
+correlations	871,883	O	O
+for	884,887	O	O
+the	888,891	O	O
+quantification	892,906	O	B-Task
+of	907,909	O	I-Task
+the	910,913	O	I-Task
+mean	914,918	O	I-Task
+film	919,923	O	I-Task
+thickness	924,933	O	I-Task
+,	933,934	O	I-Task
+wave	935,939	O	I-Task
+amplitudes	940,950	O	I-Task
+and	951,954	O	I-Task
+liquid	955,961	O	I-Task
+entrainment	962,973	O	I-Task
+rates	974,979	O	I-Task
+into	980,984	O	O
+the	985,988	O	O
+gas	989,992	O	B-Process
+phase	993,998	O	I-Process
+(	999,1000	O	O
+Ambrosini	1000,1009	O	O
+et	1010,1012	O	O
+al	1013,1015	O	O
+.	1015,1016	O	O
+
+,	1016,1017	O	O
+1991	1018,1022	O	O
+;	1022,1023	O	O
+Karapantsios	1024,1036	O	O
+and	1037,1040	O	O
+Karabelas	1041,1050	O	O
+,	1050,1051	O	O
+1995	1052,1056	O	O
+;	1056,1057	O	O
+Azzopardi	1058,1067	O	O
+,	1067,1068	O	O
+1997	1069,1073	O	O
+)	1073,1074	O	O
+.	1074,1075	O	O
+
+On	1076,1078	O	O
+the	1079,1082	O	O
+other	1083,1088	O	O
+hand	1089,1093	O	O
+,	1093,1094	O	O
+less	1095,1099	O	O
+has	1100,1103	O	O
+been	1104,1108	O	O
+published	1109,1118	O	O
+on	1119,1121	O	O
+the	1122,1125	O	O
+velocity	1126,1134	O	B-Process
+distribution	1135,1147	O	I-Process
+and	1148,1151	O	O
+the	1152,1155	O	O
+flow	1156,1160	O	B-Process
+structure	1161,1170	O	I-Process
+within	1171,1177	O	I-Process
+the	1178,1181	O	I-Process
+liquid	1182,1188	O	I-Process
+films	1189,1194	O	I-Process
+,	1194,1195	O	O
+underneath	1196,1206	O	O
+the	1207,1210	O	O
+film	1211,1215	O	B-Material
+surface	1216,1223	O	I-Material
+.	1223,1224	O	O
+
+This	1225,1229	O	O
+can	1230,1233	O	O
+be	1234,1236	O	O
+related	1237,1244	O	O
+to	1245,1247	O	O
+the	1248,1251	O	O
+relative	1252,1260	O	O
+difficulty	1261,1271	O	O
+of	1272,1274	O	O
+these	1275,1280	O	O
+measurements	1281,1293	O	O
+caused	1294,1300	O	O
+by	1301,1303	O	O
+:	1303,1304	O	O
+(	1305,1306	O	O
+i	1306,1307	O	O
+)	1307,1308	O	O
+the	1309,1312	O	O
+extremely	1313,1322	O	O
+restricted	1323,1333	O	O
+measurement	1334,1345	O	O
+space	1346,1351	O	O
+,	1351,1352	O	O
+due	1353,1356	O	O
+to	1357,1359	O	O
+the	1360,1363	O	O
+small	1364,1369	O	O
+thickness	1370,1379	O	B-Task
+of	1380,1382	O	I-Task
+the	1383,1386	O	I-Task
+liquid	1387,1393	O	I-Task
+films	1394,1399	O	I-Task
+(	1400,1401	O	O
+in	1401,1403	O	O
+the	1404,1407	O	O
+order	1408,1413	O	O
+of	1414,1416	O	O
+and	1417,1420	O	O
+often	1421,1426	O	O
+sub	1427,1430	O	O
+-	1430,1431	O	O
+mm	1431,1433	O	O
+)	1433,1434	O	O
+,	1434,1435	O	O
+(	1436,1437	O	O
+ii	1437,1439	O	O
+)	1439,1440	O	O
+the	1441,1444	O	O
+highly	1445,1451	O	O
+disturbed	1452,1461	O	O
+and	1462,1465	O	O
+intermittent	1466,1478	O	O
+nature	1479,1485	O	O
+of	1486,1488	O	O
+the	1489,1492	O	O
+gas	1493,1496	O	B-Process
+–	1496,1497	O	I-Process
+liquid	1497,1503	O	I-Process
+interface	1504,1513	O	I-Process
+,	1513,1514	O	O
+
+(	1515,1516	O	O
+iii	1516,1519	O	O
+)	1519,1520	O	O
+the	1521,1524	O	O
+entrainment	1525,1536	O	B-Process
+of	1537,1539	O	I-Process
+gas	1540,1543	O	I-Process
+inside	1544,1550	O	O
+the	1551,1554	O	O
+liquid	1555,1561	O	B-Material
+film	1562,1566	O	I-Material
+and	1567,1570	O	O
+of	1571,1573	O	O
+liquid	1574,1580	O	B-Material
+into	1581,1585	O	O
+the	1586,1589	O	O
+gas	1590,1593	O	B-Material
+core	1594,1598	O	I-Material
+,	1598,1599	O	O
+and	1600,1603	O	O
+(	1604,1605	O	O
+iv	1605,1607	O	O
+)	1607,1608	O	O
+the	1609,1612	O	O
+relatively	1613,1623	O	O
+high	1624,1628	O	B-Task
+velocities	1629,1639	O	I-Task
+of	1640,1642	O	O
+both	1643,1647	O	O
+the	1648,1651	O	O
+gas	1652,1655	O	B-Material
+and	1656,1659	O	O
+liquid	1660,1666	O	B-Material
+phases	1667,1673	O	O
+.	1673,1674	O	O
 
 
 -DOCSTART- (S0301932215002037)
 
-There	0	5	O
-is	6	8	O
-also	9	13	O
-a	14	15	O
-lack	16	20	O
-of	21	23	O
-agreement	24	33	O
-as	34	36	O
-to	37	39	O
-what	40	44	O
-constitutes	45	56	O
-churn	57	62	B-Process
-flow	63	67	I-Process
-.	67	68	O
-
-It	69	71	O
-is	72	74	O
-fairly	75	81	O
-certainly	82	91	O
-a	92	93	O
-gas	94	97	B-Process
-continuous	98	108	I-Process
-flow	109	113	I-Process
-.	113	114	O
-
-There	115	120	O
-is	121	123	O
-growing	124	131	O
-agreement	132	141	O
-that	142	146	O
-there	147	152	O
-are	153	156	O
-huge	157	161	B-Material
-waves	162	167	I-Material
-present	168	175	O
-and	176	179	O
-some	180	184	O
-of	185	187	O
-the	188	191	O
-liquid	192	198	B-Material
-is	199	201	O
-carried	202	209	O
-as	210	212	O
-drops	213	218	O
-.	218	219	O
-
-Sekoguchi	220	229	O
-and	230	233	O
-Mori	234	238	O
-(	239	240	O
-1997	240	244	O
-)	244	245	O
-and	246	249	O
-Sawai	250	255	O
-et	256	258	O
-al	259	261	O
-.	261	262	O
-
-(	263	264	O
-2004	264	268	O
-)	268	269	O
-using	270	275	O
-measurements	276	288	O
-from	289	293	O
-their	294	299	O
-multiple	300	308	O
-probes	309	315	B-Material
-(	316	317	O
-92	317	319	O
-over	320	324	O
-an	325	327	O
-axial	328	333	O
-length	334	340	O
-of	341	343	O
-2.325	344	349	O
-m	350	351	O
-)	351	352	O
-obtained	353	361	O
-time	362	366	B-Process
-/	366	367	I-Process
-axial	367	372	I-Process
-position	373	381	I-Process
-/	381	382	I-Process
-void	382	386	I-Process
-fraction	387	395	I-Process
-information	396	407	I-Process
-.	407	408	O
-
-From	409	413	O
-this	414	418	O
-they	419	423	O
-were	424	428	O
-able	429	433	O
-to	434	436	O
-identify	437	445	B-Process
-huge	446	450	I-Process
-wave	451	455	I-Process
-from	456	460	O
-amongst	461	468	O
-disturbance	469	480	B-Material
-waves	481	486	I-Material
-and	487	490	O
-slugs	491	496	B-Material
-.	496	497	O
-
-They	498	502	O
-classified	503	513	O
-individual	514	524	O
-structures	525	535	O
-as	536	538	O
-huge	539	543	B-Material
-waves	544	549	I-Material
-from	550	554	O
-their	555	560	O
-size	561	565	O
-together	566	574	O
-with	575	579	O
-the	580	583	O
-fact	584	588	O
-that	589	593	O
-their	594	599	O
-velocities	600	610	O
-depended	611	619	O
-significantly	620	633	O
-on	634	636	O
-the	637	640	O
-corresponding	641	654	O
-axial	655	660	O
-length	661	667	O
-.	667	668	O
-
-This	669	673	O
-was	674	677	O
-in	678	680	O
-contrast	681	689	O
-to	690	692	O
-disturbance	693	704	B-Material
-waves	705	710	I-Material
-where	711	716	O
-the	717	720	O
-velocity	721	729	B-Process
-of	730	732	I-Process
-individual	733	743	I-Process
-waves	744	749	I-Process
-only	750	754	O
-increased	755	764	O
-slightly	765	773	O
-with	774	778	O
-the	779	782	O
-axial	783	788	O
-extent	789	795	O
-of	796	798	O
-these	799	804	O
-waves	805	810	B-Material
-.	810	811	O
-
-They	812	816	O
-also	817	821	O
-found	822	827	O
-that	828	832	O
-the	833	836	O
-frequency	837	846	B-Process
-of	847	849	I-Process
-huge	850	854	I-Process
-waves	855	860	I-Process
-first	861	866	O
-increased	867	876	O
-and	877	880	O
-then	881	885	O
-decrease	886	894	O
-with	895	899	O
-increasing	900	910	O
-gas	911	914	B-Process
-superficial	915	926	I-Process
-velocity	927	935	I-Process
-.	935	936	O
-
-Similarly	937	946	O
-,	946	947	O
-their	948	953	O
-velocities	954	964	O
-were	965	969	O
-found	970	975	O
-to	976	978	O
-deviate	979	986	O
-from	987	991	O
-the	992	995	O
-line	996	1000	O
-for	1001	1004	O
-slug	1005	1009	B-Process
-flow	1010	1014	I-Process
-velocities	1015	1025	I-Process
-and	1026	1029	O
-pass	1030	1034	O
-through	1035	1042	O
-a	1043	1044	O
-maximum	1045	1052	O
-and	1053	1056	O
-then	1057	1061	O
-a	1062	1063	O
-minimum	1064	1071	O
-.	1071	1072	O
+There	0,5	O	O
+is	6,8	O	O
+also	9,13	O	O
+a	14,15	O	O
+lack	16,20	O	O
+of	21,23	O	O
+agreement	24,33	O	O
+as	34,36	O	O
+to	37,39	O	O
+what	40,44	O	O
+constitutes	45,56	O	O
+churn	57,62	O	B-Process
+flow	63,67	O	I-Process
+.	67,68	O	O
+
+It	69,71	O	O
+is	72,74	O	O
+fairly	75,81	O	O
+certainly	82,91	O	O
+a	92,93	O	O
+gas	94,97	O	B-Process
+continuous	98,108	O	I-Process
+flow	109,113	O	I-Process
+.	113,114	O	O
+
+There	115,120	O	O
+is	121,123	O	O
+growing	124,131	O	O
+agreement	132,141	O	O
+that	142,146	O	O
+there	147,152	O	O
+are	153,156	O	O
+huge	157,161	O	B-Material
+waves	162,167	O	I-Material
+present	168,175	O	O
+and	176,179	O	O
+some	180,184	O	O
+of	185,187	O	O
+the	188,191	O	O
+liquid	192,198	O	B-Material
+is	199,201	O	O
+carried	202,209	O	O
+as	210,212	O	O
+drops	213,218	O	O
+.	218,219	O	O
+
+Sekoguchi	220,229	O	O
+and	230,233	O	O
+Mori	234,238	O	O
+(	239,240	O	O
+1997	240,244	O	O
+)	244,245	O	O
+and	246,249	O	O
+Sawai	250,255	O	O
+et	256,258	O	O
+al	259,261	O	O
+.	261,262	O	O
+
+(	263,264	O	O
+2004	264,268	O	O
+)	268,269	O	O
+using	270,275	O	O
+measurements	276,288	O	O
+from	289,293	O	O
+their	294,299	O	O
+multiple	300,308	O	O
+probes	309,315	O	B-Material
+(	316,317	O	O
+92	317,319	O	O
+over	320,324	O	O
+an	325,327	O	O
+axial	328,333	O	O
+length	334,340	O	O
+of	341,343	O	O
+2.325	344,349	O	O
+m	350,351	O	O
+)	351,352	O	O
+obtained	353,361	O	O
+time	362,366	O	B-Process
+/	366,367	O	I-Process
+axial	367,372	O	I-Process
+position	373,381	O	I-Process
+/	381,382	O	I-Process
+void	382,386	O	I-Process
+fraction	387,395	O	I-Process
+information	396,407	O	I-Process
+.	407,408	O	O
+
+From	409,413	O	O
+this	414,418	O	O
+they	419,423	O	O
+were	424,428	O	O
+able	429,433	O	O
+to	434,436	O	O
+identify	437,445	O	B-Process
+huge	446,450	O	I-Process
+wave	451,455	O	I-Process
+from	456,460	O	O
+amongst	461,468	O	O
+disturbance	469,480	O	B-Material
+waves	481,486	O	I-Material
+and	487,490	O	O
+slugs	491,496	O	B-Material
+.	496,497	O	O
+
+They	498,502	O	O
+classified	503,513	O	O
+individual	514,524	O	O
+structures	525,535	O	O
+as	536,538	O	O
+huge	539,543	O	B-Material
+waves	544,549	O	I-Material
+from	550,554	O	O
+their	555,560	O	O
+size	561,565	O	O
+together	566,574	O	O
+with	575,579	O	O
+the	580,583	O	O
+fact	584,588	O	O
+that	589,593	O	O
+their	594,599	O	O
+velocities	600,610	O	O
+depended	611,619	O	O
+significantly	620,633	O	O
+on	634,636	O	O
+the	637,640	O	O
+corresponding	641,654	O	O
+axial	655,660	O	O
+length	661,667	O	O
+.	667,668	O	O
+
+This	669,673	O	O
+was	674,677	O	O
+in	678,680	O	O
+contrast	681,689	O	O
+to	690,692	O	O
+disturbance	693,704	O	B-Material
+waves	705,710	O	I-Material
+where	711,716	O	O
+the	717,720	O	O
+velocity	721,729	O	B-Process
+of	730,732	O	I-Process
+individual	733,743	O	I-Process
+waves	744,749	O	I-Process
+only	750,754	O	O
+increased	755,764	O	O
+slightly	765,773	O	O
+with	774,778	O	O
+the	779,782	O	O
+axial	783,788	O	O
+extent	789,795	O	O
+of	796,798	O	O
+these	799,804	O	O
+waves	805,810	O	B-Material
+.	810,811	O	O
+
+They	812,816	O	O
+also	817,821	O	O
+found	822,827	O	O
+that	828,832	O	O
+the	833,836	O	O
+frequency	837,846	O	B-Process
+of	847,849	O	I-Process
+huge	850,854	O	I-Process
+waves	855,860	O	I-Process
+first	861,866	O	O
+increased	867,876	O	O
+and	877,880	O	O
+then	881,885	O	O
+decrease	886,894	O	O
+with	895,899	O	O
+increasing	900,910	O	O
+gas	911,914	O	B-Process
+superficial	915,926	O	I-Process
+velocity	927,935	O	I-Process
+.	935,936	O	O
+
+Similarly	937,946	O	O
+,	946,947	O	O
+their	948,953	O	O
+velocities	954,964	O	O
+were	965,969	O	O
+found	970,975	O	O
+to	976,978	O	O
+deviate	979,986	O	O
+from	987,991	O	O
+the	992,995	O	O
+line	996,1000	O	O
+for	1001,1004	O	O
+slug	1005,1009	O	B-Process
+flow	1010,1014	O	I-Process
+velocities	1015,1025	O	I-Process
+and	1026,1029	O	O
+pass	1030,1034	O	O
+through	1035,1042	O	O
+a	1043,1044	O	O
+maximum	1045,1052	O	O
+and	1053,1056	O	O
+then	1057,1061	O	O
+a	1062,1063	O	O
+minimum	1064,1071	O	O
+.	1071,1072	O	O
 
 
 -DOCSTART- (S0305054816300867)
 
-The	0	3	O
-scheduling	4	14	B-Process
-process	15	22	I-Process
-we	23	25	O
-adopt	26	31	O
-matches	32	39	O
-a	40	41	O
-multiple	42	50	B-Process
-stage	51	56	I-Process
-stochastic	57	67	I-Process
-programming	68	79	I-Process
-approach	80	88	I-Process
-.	88	89	O
-
-Standard	90	98	O
-two	99	102	B-Process
--	102	103	I-Process
-stage	103	108	I-Process
-stochastic	109	119	I-Process
-programs	120	128	I-Process
-with	129	133	O
-linear	134	140	B-Process
-or	141	143	I-Process
-convex	144	150	I-Process
-functions	151	160	I-Process
-are	161	164	O
-often	165	170	O
-solved	171	177	O
-using	178	183	O
-the	184	187	O
-L	188	189	B-Process
--	189	190	I-Process
-shaped	190	196	I-Process
-method	197	203	I-Process
-or	204	206	O
-Bender	207	213	B-Process
-'s	213	215	I-Process
-decomposition	216	229	I-Process
-[	230	231	O
-44,6,7	231	237	O
-]	237	238	O
-.	238	239	O
-
-However	240	247	O
-,	247	248	O
-our	249	252	O
-recourse	253	261	B-Process
-decision	262	270	I-Process
-(	271	272	O
-scheduled	272	281	B-Process
-cancellations	282	295	I-Process
-)	295	296	O
-is	297	299	O
-still	300	305	O
-anticipative	306	318	O
-to	319	321	O
-further	322	329	O
-uncertainty	330	341	O
-,	341	342	O
-namely	343	349	O
-the	350	353	O
-second	354	360	O
-shift	361	366	O
-surgery	367	374	O
-durations	375	384	O
-,	384	385	O
-unavailability	386	400	O
-and	401	404	O
-cancellations	405	418	O
-.	418	419	O
-
-As	420	422	O
-such	423	427	O
-,	427	428	O
-the	429	432	O
-decision	433	441	B-Task
-problem	442	449	I-Task
-can	450	453	O
-be	454	456	O
-viewed	457	463	O
-as	464	466	O
-a	467	468	O
-three	469	474	B-Process
--	474	475	I-Process
-stage	475	480	I-Process
-recourse	481	489	I-Process
-model	490	495	I-Process
-[	496	497	O
-5,6	497	500	O
-]	500	501	O
-.	501	502	O
-
-Solving	503	510	O
-the	511	514	O
-scheduling	515	525	B-Task
-problem	526	533	I-Task
-is	534	536	O
-further	537	544	O
-complicated	545	556	O
-because	557	564	O
-the	565	568	O
-recourse	569	577	B-Process
-function	578	586	I-Process
-is	587	589	O
-integer	590	597	O
-.	597	598	O
-
-Laporte	599	606	O
-and	607	610	O
-Louveaux	611	619	O
-
-[	620	621	O
-26	621	623	O
-]	623	624	O
-propose	625	632	O
-modified	633	641	B-Process
-L	642	643	I-Process
--	643	644	I-Process
-shaped	644	650	I-Process
-decomposition	651	664	I-Process
-with	665	669	O
-adjusted	670	678	O
-optimal	679	686	O
-cuts	687	691	O
-for	692	695	O
-two	696	699	B-Process
-stage	700	705	I-Process
-stochastic	706	716	I-Process
-program	717	724	I-Process
-with	725	729	O
-integer	730	737	B-Process
-recourse	738	746	I-Process
-.	746	747	O
-
-Angulo	748	754	O
-et	755	757	O
-al	758	760	O
-.	760	761	O
-
-[	762	763	O
-1	763	764	O
-]	764	765	O
-alternately	766	777	O
-generate	778	786	B-Process
-optimal	787	794	I-Process
-cuts	795	799	I-Process
-of	800	802	I-Process
-the	803	806	I-Process
-linear	807	813	I-Process
-sub	814	817	I-Process
--	817	818	I-Process
-problem	818	825	I-Process
-and	826	829	I-Process
-the	830	833	I-Process
-integer	834	841	I-Process
-sub	842	845	I-Process
--	845	846	I-Process
-problem	846	853	I-Process
-,	853	854	O
-which	855	860	O
-improves	861	869	O
-the	870	873	O
-practical	874	883	O
-convergence	884	895	O
-(	896	897	O
-see	897	900	O
-also	901	905	O
-[	906	907	O
-15,8	907	911	O
-]	911	912	O
-)	912	913	O
-.	913	914	O
-
-We	915	917	O
-follow	918	924	O
-a	925	926	O
-sample	927	933	B-Process
-average	934	941	I-Process
-approximation	942	955	I-Process
-approach	956	964	I-Process
-(	965	966	O
-SAA	966	969	B-Process
-)	969	970	O
-which	971	976	O
-uses	977	981	O
-this	982	986	O
-framework	987	996	O
-.	996	997	O
-
-Moreover	998	1006	O
-,	1006	1007	O
-we	1008	1010	O
-prove	1011	1016	O
-and	1017	1020	O
-exploit	1021	1028	O
-a	1029	1030	O
-specific	1031	1039	O
-relationship	1040	1052	O
-between	1053	1060	O
-the	1061	1064	O
-first	1065	1070	B-Process
--	1070	1071	I-Process
-stage	1071	1076	I-Process
-realization	1077	1088	I-Process
-and	1089	1092	O
-the	1093	1096	O
-optimal	1097	1104	O
-number	1105	1111	O
-of	1112	1114	O
-scheduled	1115	1124	O
-cancellations	1125	1138	O
-to	1139	1141	O
-speed	1142	1147	O
-up	1148	1150	O
-the	1151	1154	O
-computation	1155	1166	O
-of	1167	1169	O
-integer	1170	1177	B-Process
-cuts	1178	1182	I-Process
-.	1182	1183	O
-
-We	1184	1186	O
-use	1187	1190	O
-Jensen	1191	1197	B-Process
-'s	1197	1199	I-Process
-inequality	1200	1210	I-Process
-[	1211	1212	O
-17	1212	1214	O
-]	1214	1215	O
-to	1216	1218	O
-upper	1219	1224	B-Task
-bound	1225	1230	I-Task
-the	1231	1234	I-Task
-minus	1235	1240	I-Task
-second	1241	1247	I-Task
-(	1248	1249	I-Task
-and	1249	1252	I-Task
-third	1253	1258	I-Task
-)	1258	1259	I-Task
-stage	1260	1265	I-Task
-cost	1266	1270	I-Task
-,	1270	1271	O
-a	1272	1273	O
-technique	1274	1283	O
-that	1284	1288	O
-was	1289	1292	O
-proposed	1293	1301	O
-by	1302	1304	O
-Batun	1305	1310	O
-et	1311	1313	O
-al	1314	1316	O
-.	1316	1317	O
-
-[	1318	1319	O
-3	1319	1320	O
-]	1320	1321	O
-.	1321	1322	O
+The	0,3	O	O
+scheduling	4,14	O	B-Process
+process	15,22	O	I-Process
+we	23,25	O	O
+adopt	26,31	O	O
+matches	32,39	O	O
+a	40,41	O	O
+multiple	42,50	O	B-Process
+stage	51,56	O	I-Process
+stochastic	57,67	O	I-Process
+programming	68,79	O	I-Process
+approach	80,88	O	I-Process
+.	88,89	O	O
+
+Standard	90,98	O	O
+two	99,102	O	B-Process
+-	102,103	O	I-Process
+stage	103,108	O	I-Process
+stochastic	109,119	O	I-Process
+programs	120,128	O	I-Process
+with	129,133	O	O
+linear	134,140	O	B-Process
+or	141,143	O	I-Process
+convex	144,150	O	I-Process
+functions	151,160	O	I-Process
+are	161,164	O	O
+often	165,170	O	O
+solved	171,177	O	O
+using	178,183	O	O
+the	184,187	O	O
+L	188,189	O	B-Process
+-	189,190	O	I-Process
+shaped	190,196	O	I-Process
+method	197,203	O	I-Process
+or	204,206	O	O
+Bender	207,213	O	B-Process
+'s	213,215	O	I-Process
+decomposition	216,229	O	I-Process
+[	230,231	O	O
+44,6,7	231,237	O	O
+]	237,238	O	O
+.	238,239	O	O
+
+However	240,247	O	O
+,	247,248	O	O
+our	249,252	O	O
+recourse	253,261	O	B-Process
+decision	262,270	O	I-Process
+(	271,272	O	O
+scheduled	272,281	O	B-Process
+cancellations	282,295	O	I-Process
+)	295,296	O	O
+is	297,299	O	O
+still	300,305	O	O
+anticipative	306,318	O	O
+to	319,321	O	O
+further	322,329	O	O
+uncertainty	330,341	O	O
+,	341,342	O	O
+namely	343,349	O	O
+the	350,353	O	O
+second	354,360	O	O
+shift	361,366	O	O
+surgery	367,374	O	O
+durations	375,384	O	O
+,	384,385	O	O
+unavailability	386,400	O	O
+and	401,404	O	O
+cancellations	405,418	O	O
+.	418,419	O	O
+
+As	420,422	O	O
+such	423,427	O	O
+,	427,428	O	O
+the	429,432	O	O
+decision	433,441	O	B-Task
+problem	442,449	O	I-Task
+can	450,453	O	O
+be	454,456	O	O
+viewed	457,463	O	O
+as	464,466	O	O
+a	467,468	O	O
+three	469,474	O	B-Process
+-	474,475	O	I-Process
+stage	475,480	O	I-Process
+recourse	481,489	O	I-Process
+model	490,495	O	I-Process
+[	496,497	O	O
+5,6	497,500	O	O
+]	500,501	O	O
+.	501,502	O	O
+
+Solving	503,510	O	O
+the	511,514	O	O
+scheduling	515,525	O	B-Task
+problem	526,533	O	I-Task
+is	534,536	O	O
+further	537,544	O	O
+complicated	545,556	O	O
+because	557,564	O	O
+the	565,568	O	O
+recourse	569,577	O	B-Process
+function	578,586	O	I-Process
+is	587,589	O	O
+integer	590,597	O	O
+.	597,598	O	O
+
+Laporte	599,606	O	O
+and	607,610	O	O
+Louveaux	611,619	O	O
+
+[	620,621	O	O
+26	621,623	O	O
+]	623,624	O	O
+propose	625,632	O	O
+modified	633,641	O	B-Process
+L	642,643	O	I-Process
+-	643,644	O	I-Process
+shaped	644,650	O	I-Process
+decomposition	651,664	O	I-Process
+with	665,669	O	O
+adjusted	670,678	O	O
+optimal	679,686	O	O
+cuts	687,691	O	O
+for	692,695	O	O
+two	696,699	O	B-Process
+stage	700,705	O	I-Process
+stochastic	706,716	O	I-Process
+program	717,724	O	I-Process
+with	725,729	O	O
+integer	730,737	O	B-Process
+recourse	738,746	O	I-Process
+.	746,747	O	O
+
+Angulo	748,754	O	O
+et	755,757	O	O
+al	758,760	O	O
+.	760,761	O	O
+
+[	762,763	O	O
+1	763,764	O	O
+]	764,765	O	O
+alternately	766,777	O	O
+generate	778,786	O	B-Process
+optimal	787,794	O	I-Process
+cuts	795,799	O	I-Process
+of	800,802	O	I-Process
+the	803,806	O	I-Process
+linear	807,813	O	I-Process
+sub	814,817	O	I-Process
+-	817,818	O	I-Process
+problem	818,825	O	I-Process
+and	826,829	O	I-Process
+the	830,833	O	I-Process
+integer	834,841	O	I-Process
+sub	842,845	O	I-Process
+-	845,846	O	I-Process
+problem	846,853	O	I-Process
+,	853,854	O	O
+which	855,860	O	O
+improves	861,869	O	O
+the	870,873	O	O
+practical	874,883	O	O
+convergence	884,895	O	O
+(	896,897	O	O
+see	897,900	O	O
+also	901,905	O	O
+[	906,907	O	O
+15,8	907,911	O	O
+]	911,912	O	O
+)	912,913	O	O
+.	913,914	O	O
+
+We	915,917	O	O
+follow	918,924	O	O
+a	925,926	O	O
+sample	927,933	O	B-Process
+average	934,941	O	I-Process
+approximation	942,955	O	I-Process
+approach	956,964	O	I-Process
+(	965,966	O	O
+SAA	966,969	O	B-Process
+)	969,970	O	O
+which	971,976	O	O
+uses	977,981	O	O
+this	982,986	O	O
+framework	987,996	O	O
+.	996,997	O	O
+
+Moreover	998,1006	O	O
+,	1006,1007	O	O
+we	1008,1010	O	O
+prove	1011,1016	O	O
+and	1017,1020	O	O
+exploit	1021,1028	O	O
+a	1029,1030	O	O
+specific	1031,1039	O	O
+relationship	1040,1052	O	O
+between	1053,1060	O	O
+the	1061,1064	O	O
+first	1065,1070	O	B-Process
+-	1070,1071	O	I-Process
+stage	1071,1076	O	I-Process
+realization	1077,1088	O	I-Process
+and	1089,1092	O	O
+the	1093,1096	O	O
+optimal	1097,1104	O	O
+number	1105,1111	O	O
+of	1112,1114	O	O
+scheduled	1115,1124	O	O
+cancellations	1125,1138	O	O
+to	1139,1141	O	O
+speed	1142,1147	O	O
+up	1148,1150	O	O
+the	1151,1154	O	O
+computation	1155,1166	O	O
+of	1167,1169	O	O
+integer	1170,1177	O	B-Process
+cuts	1178,1182	O	I-Process
+.	1182,1183	O	O
+
+We	1184,1186	O	O
+use	1187,1190	O	O
+Jensen	1191,1197	O	B-Process
+'s	1197,1199	O	I-Process
+inequality	1200,1210	O	I-Process
+[	1211,1212	O	O
+17	1212,1214	O	O
+]	1214,1215	O	O
+to	1216,1218	O	O
+upper	1219,1224	O	B-Task
+bound	1225,1230	O	I-Task
+the	1231,1234	O	I-Task
+minus	1235,1240	O	I-Task
+second	1241,1247	O	I-Task
+(	1248,1249	O	I-Task
+and	1249,1252	O	I-Task
+third	1253,1258	O	I-Task
+)	1258,1259	O	I-Task
+stage	1260,1265	O	I-Task
+cost	1266,1270	O	I-Task
+,	1270,1271	O	O
+a	1272,1273	O	O
+technique	1274,1283	O	O
+that	1284,1288	O	O
+was	1289,1292	O	O
+proposed	1293,1301	O	O
+by	1302,1304	O	O
+Batun	1305,1310	O	O
+et	1311,1313	O	O
+al	1314,1316	O	O
+.	1316,1317	O	O
+
+[	1318,1319	O	O
+3	1319,1320	O	O
+]	1320,1321	O	O
+.	1321,1322	O	O
 
 
 -DOCSTART- (S0306437913000768)
 
-Modeling	0	8	B-Task
-collaboration	9	22	I-Task
-processes	23	32	I-Task
-is	33	35	O
-a	36	37	O
-challenging	38	49	O
-task	50	54	O
-.	54	55	O
-
-Existing	56	64	O
-modeling	65	73	B-Process
-approaches	74	84	I-Process
-are	85	88	O
-not	89	92	O
-capable	93	100	O
-of	101	103	O
-expressing	104	114	O
-the	115	118	O
-unpredictable	119	132	O
-,	132	133	O
-non	134	137	O
--	137	138	O
-routine	138	145	O
-nature	146	152	O
-of	153	155	O
-human	156	161	B-Process
-collaboration	162	175	I-Process
-,	175	176	O
-which	177	182	O
-is	183	185	O
-influenced	186	196	O
-by	197	199	O
-the	200	203	O
-social	204	210	O
-context	211	218	O
-of	219	221	O
-involved	222	230	O
-collaborators	231	244	O
-.	244	245	O
-
-We	246	248	O
-propose	249	256	O
-a	257	258	O
-modeling	259	267	B-Process
-approach	268	276	I-Process
-which	277	282	O
-considers	283	292	O
-collaboration	293	306	B-Process
-processes	307	316	I-Process
-as	317	319	O
-the	320	323	O
-evolution	324	333	B-Process
-of	334	336	I-Process
-a	337	338	I-Process
-network	339	346	I-Process
-of	347	349	I-Process
-collaborative	350	363	I-Process
-documents	364	373	I-Process
-along	374	379	I-Process
-with	380	384	I-Process
-a	385	386	I-Process
-social	387	393	I-Process
-network	394	401	I-Process
-of	402	404	I-Process
-collaborators	405	418	I-Process
-.	418	419	O
-
-Our	420	423	O
-modeling	424	432	B-Process
-approach	433	441	I-Process
-,	441	442	O
-accompanied	443	454	O
-by	455	457	O
-a	458	459	O
-graphical	460	469	B-Process
-notation	470	478	I-Process
-and	479	482	I-Process
-formalization	483	496	I-Process
-,	496	497	O
-allows	498	504	O
-to	505	507	O
-capture	508	515	O
-the	516	519	O
-influence	520	529	B-Process
-of	530	532	I-Process
-complex	533	540	I-Process
-social	541	547	I-Process
-structures	548	558	I-Process
-formed	559	565	O
-by	566	568	O
-collaborators	569	582	O
-,	582	583	O
-and	584	587	O
-therefore	588	597	O
-facilitates	598	609	O
-such	610	614	O
-activities	615	625	O
-as	626	628	O
-the	629	632	O
-discovery	633	642	B-Task
-of	643	645	I-Task
-socially	646	654	I-Task
-coherent	655	663	I-Task
-teams	664	669	I-Task
-,	669	670	O
-social	671	677	O
-hubs	678	682	O
-,	682	683	O
-or	684	686	O
-unbiased	687	695	O
-experts	696	703	O
-.	703	704	O
-
-We	705	707	O
-demonstrate	708	719	O
-the	720	723	O
-applicability	724	737	O
-and	738	741	O
-expressiveness	742	756	O
-of	757	759	O
-our	760	763	O
-approach	764	772	O
-and	773	776	O
-notation	777	785	O
-,	785	786	O
-and	787	790	O
-discuss	791	798	O
-their	799	804	O
-strengths	805	814	O
-and	815	818	O
-weaknesses	819	829	O
-.	829	830	O
+Modeling	0,8	O	B-Task
+collaboration	9,22	O	I-Task
+processes	23,32	O	I-Task
+is	33,35	O	O
+a	36,37	O	O
+challenging	38,49	O	O
+task	50,54	O	O
+.	54,55	O	O
+
+Existing	56,64	O	O
+modeling	65,73	O	B-Process
+approaches	74,84	O	I-Process
+are	85,88	O	O
+not	89,92	O	O
+capable	93,100	O	O
+of	101,103	O	O
+expressing	104,114	O	O
+the	115,118	O	O
+unpredictable	119,132	O	O
+,	132,133	O	O
+non	134,137	O	O
+-	137,138	O	O
+routine	138,145	O	O
+nature	146,152	O	O
+of	153,155	O	O
+human	156,161	O	B-Process
+collaboration	162,175	O	I-Process
+,	175,176	O	O
+which	177,182	O	O
+is	183,185	O	O
+influenced	186,196	O	O
+by	197,199	O	O
+the	200,203	O	O
+social	204,210	O	O
+context	211,218	O	O
+of	219,221	O	O
+involved	222,230	O	O
+collaborators	231,244	O	O
+.	244,245	O	O
+
+We	246,248	O	O
+propose	249,256	O	O
+a	257,258	O	O
+modeling	259,267	O	B-Process
+approach	268,276	O	I-Process
+which	277,282	O	O
+considers	283,292	O	O
+collaboration	293,306	O	B-Process
+processes	307,316	O	I-Process
+as	317,319	O	O
+the	320,323	O	O
+evolution	324,333	O	B-Process
+of	334,336	O	I-Process
+a	337,338	O	I-Process
+network	339,346	O	I-Process
+of	347,349	O	I-Process
+collaborative	350,363	O	I-Process
+documents	364,373	O	I-Process
+along	374,379	O	I-Process
+with	380,384	O	I-Process
+a	385,386	O	I-Process
+social	387,393	O	I-Process
+network	394,401	O	I-Process
+of	402,404	O	I-Process
+collaborators	405,418	O	I-Process
+.	418,419	O	O
+
+Our	420,423	O	O
+modeling	424,432	O	B-Process
+approach	433,441	O	I-Process
+,	441,442	O	O
+accompanied	443,454	O	O
+by	455,457	O	O
+a	458,459	O	O
+graphical	460,469	O	B-Process
+notation	470,478	O	I-Process
+and	479,482	O	I-Process
+formalization	483,496	O	I-Process
+,	496,497	O	O
+allows	498,504	O	O
+to	505,507	O	O
+capture	508,515	O	O
+the	516,519	O	O
+influence	520,529	O	B-Process
+of	530,532	O	I-Process
+complex	533,540	O	I-Process
+social	541,547	O	I-Process
+structures	548,558	O	I-Process
+formed	559,565	O	O
+by	566,568	O	O
+collaborators	569,582	O	O
+,	582,583	O	O
+and	584,587	O	O
+therefore	588,597	O	O
+facilitates	598,609	O	O
+such	610,614	O	O
+activities	615,625	O	O
+as	626,628	O	O
+the	629,632	O	O
+discovery	633,642	O	B-Task
+of	643,645	O	I-Task
+socially	646,654	O	I-Task
+coherent	655,663	O	I-Task
+teams	664,669	O	I-Task
+,	669,670	O	O
+social	671,677	O	O
+hubs	678,682	O	O
+,	682,683	O	O
+or	684,686	O	O
+unbiased	687,695	O	O
+experts	696,703	O	O
+.	703,704	O	O
+
+We	705,707	O	O
+demonstrate	708,719	O	O
+the	720,723	O	O
+applicability	724,737	O	O
+and	738,741	O	O
+expressiveness	742,756	O	O
+of	757,759	O	O
+our	760,763	O	O
+approach	764,772	O	O
+and	773,776	O	O
+notation	777,785	O	O
+,	785,786	O	O
+and	787,790	O	O
+discuss	791,798	O	O
+their	799,804	O	O
+strengths	805,814	O	O
+and	815,818	O	O
+weaknesses	819,829	O	O
+.	829,830	O	O
 
 
 -DOCSTART- (S0370157309002877)
 
-We	0	2	O
-start	3	8	O
-by	9	11	O
-outlining	12	21	O
-the	22	25	O
-motivation	26	36	O
-,	36	37	O
-structure	38	47	O
-and	48	51	O
-content	52	59	O
-of	60	62	O
-the	63	66	O
-review	67	73	O
-.	73	74	O
-
-It	75	77	O
-has	78	81	O
-long	82	86	O
-been	87	91	O
-known	92	97	O
-that	98	102	O
-cardiovascular	103	117	B-Process
-signals	118	125	I-Process
-contain	126	133	O
-a	134	135	O
-number	136	142	O
-of	143	145	O
-oscillatory	146	157	B-Process
-components	158	168	I-Process
-that	169	173	O
-are	174	177	O
-not	178	181	O
-exactly	182	189	O
-periodic	190	198	O
-.	198	199	O
-
-To	200	202	O
-put	203	206	O
-it	207	209	O
-differently	210	221	O
-,	221	222	O
-their	223	228	O
-periods	229	236	B-Process
-(	237	238	O
-frequencies	238	249	B-Process
-)	249	250	O
-fluctuate	251	260	O
-with	261	265	O
-time	266	270	O
-.	270	271	O
-
-For	272	275	O
-example	276	283	O
-,	283	284	O
-heart	285	290	B-Process
-rate	291	295	I-Process
-variability	296	307	I-Process
-(	308	309	O
-HRV	309	312	B-Process
-)	312	313	O
-has	314	317	O
-in	318	320	O
-itself	321	327	O
-provided	328	336	O
-a	337	338	O
-major	339	344	O
-topic	345	350	O
-of	351	353	O
-discussion	354	364	O
-.	364	365	O
-
-We	366	368	O
-introduce	369	378	B-Task
-one	379	382	I-Task
-of	383	385	I-Task
-the	386	389	I-Task
-statistical	390	401	I-Task
-approaches	402	412	I-Task
-to	413	415	I-Task
-HRV	416	419	I-Task
-in	420	422	O
-Section	423	430	O
-3	431	432	O
-.	432	433	O
-
-However	434	441	O
-,	441	442	O
-in	443	445	O
-order	446	451	O
-to	452	454	O
-understand	455	465	B-Task
-the	466	469	I-Task
-variability	470	481	I-Task
-of	482	484	I-Task
-the	485	488	I-Task
-cardiovascular	489	503	I-Task
-system	504	510	I-Task
-,	510	511	O
-discussion	512	522	O
-of	523	525	O
-a	526	527	O
-single	528	534	O
-source	535	541	O
-is	542	544	O
-insufficient	545	557	O
-because	558	565	O
-the	566	569	O
-cardiovascular	570	584	B-Material
-system	585	591	I-Material
-is	592	594	O
-composed	595	603	O
-of	604	606	O
-many	607	611	O
-different	612	621	O
-physiological	622	635	B-Material
-components	636	646	I-Material
-(	647	648	O
-subsystems	648	658	B-Material
-)	658	659	O
-and	660	663	O
-it	664	666	O
-is	667	669	O
-the	670	673	O
-effects	674	681	O
-of	682	684	O
-their	685	690	O
-mutual	691	697	O
-interaction	698	709	O
-that	710	714	O
-combine	715	722	O
-to	723	725	O
-produce	726	733	O
-HRV	734	737	B-Task
-.	737	738	O
-
-This	739	743	O
-is	744	746	O
-demonstrated	747	759	O
-in	760	762	O
-Section	763	770	O
-4	771	772	O
-,	772	773	O
-revealed	774	782	O
-by	783	785	O
-results	786	793	O
-obtained	794	802	O
-using	803	808	O
-the	809	812	O
-wavelet	813	820	B-Process
-transform	821	830	I-Process
-.	830	831	O
-
-In	832	834	O
-Section	835	842	O
-5	843	844	O
-,	844	845	O
-we	846	848	O
-discuss	849	856	B-Task
-the	857	860	I-Task
-cardio	861	867	I-Task
--	867	868	I-Task
-respiratory	868	879	I-Task
-interaction	880	891	I-Task
-in	892	894	O
-terms	895	900	O
-of	901	903	O
-phase	904	909	B-Process
-synchronization	910	925	I-Process
-.	925	926	O
-
-To	927	929	O
-set	930	933	O
-the	934	937	O
-scene	938	943	O
-for	944	947	O
-these	948	953	O
-later	954	959	O
-discussions	960	971	O
-,	971	972	O
-we	973	975	O
-summarize	976	985	B-Task
-the	986	989	I-Task
-basic	990	995	I-Task
-principles	996	1006	I-Task
-of	1007	1009	I-Task
-phase	1010	1015	I-Task
-dynamics	1016	1024	I-Task
-in	1025	1027	O
-Section	1028	1035	O
-2	1036	1037	O
-.	1037	1038	O
-
-For	1039	1042	O
-readers	1043	1050	O
-who	1051	1054	O
-are	1055	1058	O
-unfamiliar	1059	1069	O
-with	1070	1074	O
-the	1075	1078	O
-physiological	1079	1092	O
-aspects	1093	1100	O
-of	1101	1103	O
-the	1104	1107	O
-research	1108	1116	O
-,	1116	1117	O
-we	1118	1120	O
-provide	1121	1128	O
-Appendices	1129	1139	O
-A	1140	1141	O
-on	1142	1144	O
-the	1145	1148	O
-cardiovascular	1149	1163	B-Material
-system	1164	1170	I-Material
-and	1171	1174	O
-B	1175	1176	O
-on	1177	1179	O
-how	1180	1183	O
-measurements	1184	1196	B-Process
-of	1197	1199	I-Process
-cardiovascular	1200	1214	I-Process
-signals	1215	1222	I-Process
-are	1223	1226	O
-conducted	1227	1236	O
-.	1236	1237	O
-
-Appendix	1238	1246	O
-C	1247	1248	O
-provides	1249	1257	O
-details	1258	1265	O
-of	1266	1268	O
-the	1269	1272	O
-statistical	1273	1284	B-Process
-methods	1285	1292	I-Process
-used	1293	1297	O
-in	1298	1300	O
-the	1301	1304	O
-group	1305	1310	B-Task
-data	1311	1315	I-Task
-analyses	1316	1324	I-Task
-.	1324	1325	O
+We	0,2	O	O
+start	3,8	O	O
+by	9,11	O	O
+outlining	12,21	O	O
+the	22,25	O	O
+motivation	26,36	O	O
+,	36,37	O	O
+structure	38,47	O	O
+and	48,51	O	O
+content	52,59	O	O
+of	60,62	O	O
+the	63,66	O	O
+review	67,73	O	O
+.	73,74	O	O
+
+It	75,77	O	O
+has	78,81	O	O
+long	82,86	O	O
+been	87,91	O	O
+known	92,97	O	O
+that	98,102	O	O
+cardiovascular	103,117	O	B-Process
+signals	118,125	O	I-Process
+contain	126,133	O	O
+a	134,135	O	O
+number	136,142	O	O
+of	143,145	O	O
+oscillatory	146,157	O	B-Process
+components	158,168	O	I-Process
+that	169,173	O	O
+are	174,177	O	O
+not	178,181	O	O
+exactly	182,189	O	O
+periodic	190,198	O	O
+.	198,199	O	O
+
+To	200,202	O	O
+put	203,206	O	O
+it	207,209	O	O
+differently	210,221	O	O
+,	221,222	O	O
+their	223,228	O	O
+periods	229,236	O	B-Process
+(	237,238	O	O
+frequencies	238,249	O	B-Process
+)	249,250	O	O
+fluctuate	251,260	O	O
+with	261,265	O	O
+time	266,270	O	O
+.	270,271	O	O
+
+For	272,275	O	O
+example	276,283	O	O
+,	283,284	O	O
+heart	285,290	O	B-Process
+rate	291,295	O	I-Process
+variability	296,307	O	I-Process
+(	308,309	O	O
+HRV	309,312	O	B-Process
+)	312,313	O	O
+has	314,317	O	O
+in	318,320	O	O
+itself	321,327	O	O
+provided	328,336	O	O
+a	337,338	O	O
+major	339,344	O	O
+topic	345,350	O	O
+of	351,353	O	O
+discussion	354,364	O	O
+.	364,365	O	O
+
+We	366,368	O	O
+introduce	369,378	O	B-Task
+one	379,382	O	I-Task
+of	383,385	O	I-Task
+the	386,389	O	I-Task
+statistical	390,401	O	I-Task
+approaches	402,412	O	I-Task
+to	413,415	O	I-Task
+HRV	416,419	O	I-Task
+in	420,422	O	O
+Section	423,430	O	O
+3	431,432	O	O
+.	432,433	O	O
+
+However	434,441	O	O
+,	441,442	O	O
+in	443,445	O	O
+order	446,451	O	O
+to	452,454	O	O
+understand	455,465	O	B-Task
+the	466,469	O	I-Task
+variability	470,481	O	I-Task
+of	482,484	O	I-Task
+the	485,488	O	I-Task
+cardiovascular	489,503	O	I-Task
+system	504,510	O	I-Task
+,	510,511	O	O
+discussion	512,522	O	O
+of	523,525	O	O
+a	526,527	O	O
+single	528,534	O	O
+source	535,541	O	O
+is	542,544	O	O
+insufficient	545,557	O	O
+because	558,565	O	O
+the	566,569	O	O
+cardiovascular	570,584	O	B-Material
+system	585,591	O	I-Material
+is	592,594	O	O
+composed	595,603	O	O
+of	604,606	O	O
+many	607,611	O	O
+different	612,621	O	O
+physiological	622,635	O	B-Material
+components	636,646	O	I-Material
+(	647,648	O	O
+subsystems	648,658	O	B-Material
+)	658,659	O	O
+and	660,663	O	O
+it	664,666	O	O
+is	667,669	O	O
+the	670,673	O	O
+effects	674,681	O	O
+of	682,684	O	O
+their	685,690	O	O
+mutual	691,697	O	O
+interaction	698,709	O	O
+that	710,714	O	O
+combine	715,722	O	O
+to	723,725	O	O
+produce	726,733	O	O
+HRV	734,737	O	B-Task
+.	737,738	O	O
+
+This	739,743	O	O
+is	744,746	O	O
+demonstrated	747,759	O	O
+in	760,762	O	O
+Section	763,770	O	O
+4	771,772	O	O
+,	772,773	O	O
+revealed	774,782	O	O
+by	783,785	O	O
+results	786,793	O	O
+obtained	794,802	O	O
+using	803,808	O	O
+the	809,812	O	O
+wavelet	813,820	O	B-Process
+transform	821,830	O	I-Process
+.	830,831	O	O
+
+In	832,834	O	O
+Section	835,842	O	O
+5	843,844	O	O
+,	844,845	O	O
+we	846,848	O	O
+discuss	849,856	O	B-Task
+the	857,860	O	I-Task
+cardio	861,867	O	I-Task
+-	867,868	O	I-Task
+respiratory	868,879	O	I-Task
+interaction	880,891	O	I-Task
+in	892,894	O	O
+terms	895,900	O	O
+of	901,903	O	O
+phase	904,909	O	B-Process
+synchronization	910,925	O	I-Process
+.	925,926	O	O
+
+To	927,929	O	O
+set	930,933	O	O
+the	934,937	O	O
+scene	938,943	O	O
+for	944,947	O	O
+these	948,953	O	O
+later	954,959	O	O
+discussions	960,971	O	O
+,	971,972	O	O
+we	973,975	O	O
+summarize	976,985	O	B-Task
+the	986,989	O	I-Task
+basic	990,995	O	I-Task
+principles	996,1006	O	I-Task
+of	1007,1009	O	I-Task
+phase	1010,1015	O	I-Task
+dynamics	1016,1024	O	I-Task
+in	1025,1027	O	O
+Section	1028,1035	O	O
+2	1036,1037	O	O
+.	1037,1038	O	O
+
+For	1039,1042	O	O
+readers	1043,1050	O	O
+who	1051,1054	O	O
+are	1055,1058	O	O
+unfamiliar	1059,1069	O	O
+with	1070,1074	O	O
+the	1075,1078	O	O
+physiological	1079,1092	O	O
+aspects	1093,1100	O	O
+of	1101,1103	O	O
+the	1104,1107	O	O
+research	1108,1116	O	O
+,	1116,1117	O	O
+we	1118,1120	O	O
+provide	1121,1128	O	O
+Appendices	1129,1139	O	O
+A	1140,1141	O	O
+on	1142,1144	O	O
+the	1145,1148	O	O
+cardiovascular	1149,1163	O	B-Material
+system	1164,1170	O	I-Material
+and	1171,1174	O	O
+B	1175,1176	O	O
+on	1177,1179	O	O
+how	1180,1183	O	O
+measurements	1184,1196	O	B-Process
+of	1197,1199	O	I-Process
+cardiovascular	1200,1214	O	I-Process
+signals	1215,1222	O	I-Process
+are	1223,1226	O	O
+conducted	1227,1236	O	O
+.	1236,1237	O	O
+
+Appendix	1238,1246	O	O
+C	1247,1248	O	O
+provides	1249,1257	O	O
+details	1258,1265	O	O
+of	1266,1268	O	O
+the	1269,1272	O	O
+statistical	1273,1284	O	B-Process
+methods	1285,1292	O	I-Process
+used	1293,1297	O	O
+in	1298,1300	O	O
+the	1301,1304	O	O
+group	1305,1310	O	B-Task
+data	1311,1315	O	I-Task
+analyses	1316,1324	O	I-Task
+.	1324,1325	O	O
 
 
 -DOCSTART- (S0370157312000105)
 
-By	0	2	O
-the	3	6	O
-early	7	12	O
-1970s	13	18	O
-,	18	19	O
-and	20	23	O
-following	24	33	O
-the	34	37	O
-‘	38	39	O
-golden	39	45	O
-age’	46	50	O
-of	51	53	O
-general	54	61	B-Task
-relativity	62	72	I-Task
-that	73	77	O
-took	78	82	O
-place	83	88	O
-in	89	91	O
-the	92	95	O
-1960s	96	101	O
-,	101	102	O
-there	103	108	O
-was	109	112	O
-a	113	114	O
-wide	115	119	O
-array	120	125	O
-of	126	128	O
-candidate	129	138	O
-theories	139	147	B-Task
-of	148	150	I-Task
-gravity	151	158	I-Task
-in	159	161	O
-existence	162	171	O
-that	172	176	O
-could	177	182	O
-rival	183	188	O
-Einstein	189	197	O
-’s	197	199	O
-.	199	200	O
-
-A	201	202	O
-formalism	203	212	O
-was	213	216	O
-needed	217	223	O
-to	224	226	O
-deal	227	231	O
-with	232	236	O
-this	237	241	O
-great	242	247	O
-abundance	248	257	O
-of	258	260	O
-possibilities	261	274	O
-,	274	275	O
-and	276	279	O
-this	280	284	O
-was	285	288	O
-provided	289	297	O
-in	298	300	O
-the	301	304	O
-form	305	309	O
-of	310	312	O
-the	313	316	O
-Parameterised	317	330	B-Process
-Post	331	335	I-Process
--	335	336	I-Process
-Newtonian	336	345	I-Process
-(	346	347	O
-PPN	347	350	B-Process
-)	350	351	O
-formalism	352	361	O
-by	362	364	O
-Kenneth	365	372	O
-Nordtvedt	373	382	O
-,	382	383	O
-Kip	384	387	O
-Thorne	388	394	O
-and	395	398	O
-Clifford	399	407	O
-Will	408	412	O
-.	412	413	O
-
-The	414	417	O
-PPN	418	421	B-Process
-formalism	422	431	I-Process
-was	432	435	O
-built	436	441	O
-on	442	444	O
-the	445	448	O
-earlier	449	456	O
-work	457	461	O
-of	462	464	O
-Eddington	465	474	O
-and	475	478	O
-Dicke	479	484	O
-,	484	485	O
-and	486	489	O
-allowed	490	497	O
-for	498	501	O
-the	502	505	O
-numerous	506	514	O
-theories	515	523	O
-available	524	533	O
-at	534	536	O
-the	537	540	O
-time	541	545	O
-to	546	548	O
-be	549	551	O
-compared	552	560	O
-to	561	563	O
-cutting	564	571	B-Task
-edge	572	576	I-Task
-astrophysical	577	590	I-Task
-observations	591	603	I-Task
-such	604	608	O
-as	609	611	O
-lunar	612	617	B-Task
-laser	618	623	I-Task
-ranging	624	631	I-Task
-,	631	632	O
-radio	633	638	B-Task
-echo	639	643	I-Task
-,	643	644	O
-and	645	648	O
-,	648	649	O
-in	650	652	O
-1974	653	657	O
-,	657	658	O
-the	659	662	O
-Hulse	663	668	B-Task
-–	668	669	I-Task
-Taylor	669	675	I-Task
-binary	676	682	I-Task
-pulsar	683	689	I-Task
-.	689	690	O
-
-The	691	694	O
-PPN	695	698	B-Process
-formalism	699	708	I-Process
-provided	709	717	O
-a	718	719	O
-clear	720	725	O
-structure	726	735	O
-within	736	742	O
-which	743	748	O
-one	749	752	O
-could	753	758	O
-compare	759	766	B-Process
-and	767	770	I-Process
-assess	771	777	I-Process
-various	778	785	O
-theories	786	794	O
-,	794	795	O
-and	796	799	O
-has	800	803	O
-been	804	808	O
-the	809	812	O
-benchmark	813	822	B-Process
-for	823	826	I-Process
-how	827	830	I-Process
-theories	831	839	I-Process
-of	840	842	I-Process
-gravity	843	850	I-Process
-should	851	857	I-Process
-be	858	860	I-Process
-evaluated	861	870	I-Process
-ever	871	875	O
-since	876	881	O
-.	881	882	O
-
-We	883	885	O
-will	886	890	O
-give	891	895	O
-an	896	898	O
-outline	899	906	O
-of	907	909	O
-the	910	913	O
-PPN	914	917	B-Process
-formalism	918	927	I-Process
-,	927	928	O
-and	929	932	O
-the	933	936	O
-constraints	937	948	O
-available	949	958	O
-within	959	965	O
-it	966	968	O
-today	969	974	O
-,	974	975	O
-in	976	978	O
-Section	979	986	O
-2	987	988	O
-.	988	989	O
+By	0,2	O	O
+the	3,6	O	O
+early	7,12	O	O
+1970s	13,18	O	O
+,	18,19	O	O
+and	20,23	O	O
+following	24,33	O	O
+the	34,37	O	O
+‘	38,39	O	O
+golden	39,45	O	O
+age’	46,50	O	O
+of	51,53	O	O
+general	54,61	O	B-Task
+relativity	62,72	O	I-Task
+that	73,77	O	O
+took	78,82	O	O
+place	83,88	O	O
+in	89,91	O	O
+the	92,95	O	O
+1960s	96,101	O	O
+,	101,102	O	O
+there	103,108	O	O
+was	109,112	O	O
+a	113,114	O	O
+wide	115,119	O	O
+array	120,125	O	O
+of	126,128	O	O
+candidate	129,138	O	O
+theories	139,147	O	B-Task
+of	148,150	O	I-Task
+gravity	151,158	O	I-Task
+in	159,161	O	O
+existence	162,171	O	O
+that	172,176	O	O
+could	177,182	O	O
+rival	183,188	O	O
+Einstein	189,197	O	O
+’s	197,199	O	O
+.	199,200	O	O
+
+A	201,202	O	O
+formalism	203,212	O	O
+was	213,216	O	O
+needed	217,223	O	O
+to	224,226	O	O
+deal	227,231	O	O
+with	232,236	O	O
+this	237,241	O	O
+great	242,247	O	O
+abundance	248,257	O	O
+of	258,260	O	O
+possibilities	261,274	O	O
+,	274,275	O	O
+and	276,279	O	O
+this	280,284	O	O
+was	285,288	O	O
+provided	289,297	O	O
+in	298,300	O	O
+the	301,304	O	O
+form	305,309	O	O
+of	310,312	O	O
+the	313,316	O	O
+Parameterised	317,330	O	B-Process
+Post	331,335	O	I-Process
+-	335,336	O	I-Process
+Newtonian	336,345	O	I-Process
+(	346,347	O	O
+PPN	347,350	O	B-Process
+)	350,351	O	O
+formalism	352,361	O	O
+by	362,364	O	O
+Kenneth	365,372	O	O
+Nordtvedt	373,382	O	O
+,	382,383	O	O
+Kip	384,387	O	O
+Thorne	388,394	O	O
+and	395,398	O	O
+Clifford	399,407	O	O
+Will	408,412	O	O
+.	412,413	O	O
+
+The	414,417	O	O
+PPN	418,421	O	B-Process
+formalism	422,431	O	I-Process
+was	432,435	O	O
+built	436,441	O	O
+on	442,444	O	O
+the	445,448	O	O
+earlier	449,456	O	O
+work	457,461	O	O
+of	462,464	O	O
+Eddington	465,474	O	O
+and	475,478	O	O
+Dicke	479,484	O	O
+,	484,485	O	O
+and	486,489	O	O
+allowed	490,497	O	O
+for	498,501	O	O
+the	502,505	O	O
+numerous	506,514	O	O
+theories	515,523	O	O
+available	524,533	O	O
+at	534,536	O	O
+the	537,540	O	O
+time	541,545	O	O
+to	546,548	O	O
+be	549,551	O	O
+compared	552,560	O	O
+to	561,563	O	O
+cutting	564,571	O	B-Task
+edge	572,576	O	I-Task
+astrophysical	577,590	O	I-Task
+observations	591,603	O	I-Task
+such	604,608	O	O
+as	609,611	O	O
+lunar	612,617	O	B-Task
+laser	618,623	O	I-Task
+ranging	624,631	O	I-Task
+,	631,632	O	O
+radio	633,638	O	B-Task
+echo	639,643	O	I-Task
+,	643,644	O	O
+and	645,648	O	O
+,	648,649	O	O
+in	650,652	O	O
+1974	653,657	O	O
+,	657,658	O	O
+the	659,662	O	O
+Hulse	663,668	O	B-Task
+–	668,669	O	I-Task
+Taylor	669,675	O	I-Task
+binary	676,682	O	I-Task
+pulsar	683,689	O	I-Task
+.	689,690	O	O
+
+The	691,694	O	O
+PPN	695,698	O	B-Process
+formalism	699,708	O	I-Process
+provided	709,717	O	O
+a	718,719	O	O
+clear	720,725	O	O
+structure	726,735	O	O
+within	736,742	O	O
+which	743,748	O	O
+one	749,752	O	O
+could	753,758	O	O
+compare	759,766	O	B-Process
+and	767,770	O	I-Process
+assess	771,777	O	I-Process
+various	778,785	O	O
+theories	786,794	O	O
+,	794,795	O	O
+and	796,799	O	O
+has	800,803	O	O
+been	804,808	O	O
+the	809,812	O	O
+benchmark	813,822	O	B-Process
+for	823,826	O	I-Process
+how	827,830	O	I-Process
+theories	831,839	O	I-Process
+of	840,842	O	I-Process
+gravity	843,850	O	I-Process
+should	851,857	O	I-Process
+be	858,860	O	I-Process
+evaluated	861,870	O	I-Process
+ever	871,875	O	O
+since	876,881	O	O
+.	881,882	O	O
+
+We	883,885	O	O
+will	886,890	O	O
+give	891,895	O	O
+an	896,898	O	O
+outline	899,906	O	O
+of	907,909	O	O
+the	910,913	O	O
+PPN	914,917	O	B-Process
+formalism	918,927	O	I-Process
+,	927,928	O	O
+and	929,932	O	O
+the	933,936	O	O
+constraints	937,948	O	O
+available	949,958	O	O
+within	959,965	O	O
+it	966,968	O	O
+today	969,974	O	O
+,	974,975	O	O
+in	976,978	O	O
+Section	979,986	O	O
+2	987,988	O	O
+.	988,989	O	O
 
 
 -DOCSTART- (S0370157314001318)
 
-Despite	0	7	O
-the	8	11	O
-ubiquity	12	20	O
-of	21	23	O
-time	24	28	B-Task
--	28	29	I-Task
-dependent	29	38	I-Task
-dynamical	39	48	I-Task
-systems	49	56	I-Task
-in	57	59	O
-nature	60	66	O
-,	66	67	O
-there	68	73	O
-has	74	77	O
-been	78	82	O
-relatively	83	93	O
-little	94	100	O
-work	101	105	O
-done	106	110	O
-on	111	113	O
-the	114	117	O
-analysis	118	126	B-Task
-of	127	129	I-Task
-time	130	134	I-Task
-series	135	141	I-Task
-from	142	146	O
-such	147	151	O
-systems	152	159	O
-.	159	160	O
-
-Mathematically	161	175	O
-they	176	180	O
-are	181	184	O
-known	185	190	O
-as	191	193	O
-non	194	197	B-Task
--	197	198	I-Task
-autonomous	198	208	I-Task
-systems	209	216	I-Task
-,	216	217	O
-which	218	223	O
-are	224	227	O
-named	228	233	O
-as	234	236	O
-such	237	241	O
-because	242	249	O
-,	249	250	O
-unlike	251	257	O
-autonomous	258	268	B-Task
-systems	269	276	I-Task
-,	276	277	O
-in	278	280	O
-addition	281	289	O
-to	290	292	O
-the	293	296	O
-points	297	303	O
-in	304	306	O
-space	307	312	O
-over	313	317	O
-which	318	323	O
-they	324	328	O
-are	329	332	O
-observed	333	341	O
-they	342	346	O
-are	347	350	O
-also	351	355	O
-influenced	356	366	O
-by	367	369	O
-the	370	373	O
-points	374	380	O
-in	381	383	O
-time	384	388	O
-.	388	389	O
-
-Recently	390	398	O
-there	399	404	O
-has	405	408	O
-been	409	413	O
-much	414	418	O
-work	419	423	O
-on	424	426	O
-the	427	430	O
-direct	431	437	O
-‘	438	439	B-Process
-bottom	439	445	I-Process
--	445	446	I-Process
-up’	446	449	I-Process
-approach	450	458	I-Process
-to	459	461	O
-these	462	467	O
-systems	468	475	O
-,	475	476	O
-which	477	482	O
-includes	483	491	O
-the	492	495	O
-introduction	496	508	O
-of	509	511	O
-a	512	513	O
-subclass	514	522	O
-known	523	528	O
-as	529	531	O
-chronotaxic	532	543	B-Task
-systems	544	551	I-Task
-that	552	556	O
-are	557	560	O
-able	561	565	O
-to	566	568	O
-model	569	574	B-Process
-the	575	578	I-Process
-stable	579	585	I-Process
-but	586	589	I-Process
-time	590	594	I-Process
--	594	595	I-Process
-varying	595	602	I-Process
-frequencies	603	614	I-Process
-of	615	617	O
-oscillations	618	630	O
-in	631	633	O
-living	634	640	B-Task
-systems	641	648	I-Task
-[	650	651	O
-8,9	651	654	O
-]	654	655	O
-.	655	656	O
-
-In	657	659	O
-contrast	660	668	O
-,	668	669	O
-the	670	673	O
-time	674	678	B-Process
-series	679	685	I-Process
-analysis	686	694	I-Process
-of	695	697	O
-these	698	703	O
-systems	704	711	O
-,	711	712	O
-referred	713	721	O
-to	722	724	O
-as	725	727	O
-the	728	731	O
-inverse	732	739	B-Process
-or	740	742	O
-‘	743	744	B-Process
-top	744	747	I-Process
--	747	748	I-Process
-down’	748	753	I-Process
-approach	754	762	O
-,	762	763	O
-has	764	767	O
-not	768	771	O
-been	772	776	O
-studied	777	784	O
-in	785	787	O
-detail	788	794	O
-before	795	801	O
-.	801	802	O
-
-This	803	807	O
-is	808	810	O
-partly	811	817	O
-because	818	825	O
-non	826	829	B-Task
--	829	830	I-Task
-autonomous	830	840	I-Task
-systems	841	848	I-Task
-can	849	852	O
-still	853	858	O
-be	859	861	O
-analysed	862	870	O
-in	871	873	O
-the	874	877	O
-same	878	882	O
-way	883	886	O
-as	887	889	O
-other	890	895	O
-types	896	901	O
-of	902	904	O
-systems	905	912	O
-in	913	915	O
-both	916	920	O
-the	921	924	O
-deterministic	925	938	B-Process
-[	940	941	O
-10	941	943	O
-]	943	944	O
-and	945	948	O
-the	949	952	O
-stochastic	953	963	B-Process
-[	965	966	O
-11	966	968	O
-]	968	969	O
-regime	970	976	O
-.	976	977	O
-
-However	978	985	O
-,	985	986	O
-it	987	989	O
-is	990	992	O
-now	993	996	O
-argued	997	1003	O
-that	1004	1008	O
-this	1009	1013	O
-type	1014	1018	O
-of	1019	1021	O
-analysis	1022	1030	O
-is	1031	1033	O
-insufficient	1034	1046	O
-and	1047	1050	O
-that	1051	1055	O
-an	1056	1058	O
-entirely	1059	1067	O
-new	1068	1071	O
-analytical	1072	1082	B-Task
-framework	1083	1092	I-Task
-is	1093	1095	O
-required	1096	1104	O
-to	1105	1107	O
-provide	1108	1115	O
-a	1116	1117	O
-more	1118	1122	O
-useful	1123	1129	O
-picture	1130	1137	O
-of	1138	1140	O
-such	1141	1145	O
-systems	1146	1153	O
-.	1153	1154	O
-
-In	1155	1157	O
-the	1158	1161	O
-case	1162	1166	O
-of	1167	1169	O
-chronotaxic	1170	1181	B-Task
-systems	1182	1189	I-Task
-some	1190	1194	O
-methods	1195	1202	O
-have	1203	1207	O
-already	1208	1215	O
-been	1216	1220	O
-developed	1221	1230	O
-for	1231	1234	O
-the	1235	1238	O
-inverse	1239	1246	B-Process
-approach	1247	1255	I-Process
-and	1256	1259	O
-they	1260	1264	O
-have	1265	1269	O
-shown	1270	1275	O
-to	1276	1278	O
-be	1279	1281	O
-useful	1282	1288	O
-in	1289	1291	O
-analysing	1292	1301	O
-heart	1302	1307	B-Task
-rate	1308	1312	I-Task
-variability	1313	1324	I-Task
-[	1326	1327	O
-12	1327	1329	O
-]	1329	1330	O
-.	1330	1331	O
-
-A	1332	1333	O
-general	1334	1341	O
-and	1342	1345	O
-dedicated	1346	1355	O
-procedure	1356	1365	O
-for	1366	1369	O
-analysing	1370	1379	O
-non	1380	1383	B-Task
--	1383	1384	I-Task
-autonomous	1384	1394	I-Task
-systems	1395	1402	I-Task
-has	1403	1406	O
-still	1407	1412	O
-not	1413	1416	O
-been	1417	1421	O
-tackled	1422	1429	O
-though	1430	1436	O
-.	1436	1437	O
+Despite	0,7	O	O
+the	8,11	O	O
+ubiquity	12,20	O	O
+of	21,23	O	O
+time	24,28	O	B-Task
+-	28,29	O	I-Task
+dependent	29,38	O	I-Task
+dynamical	39,48	O	I-Task
+systems	49,56	O	I-Task
+in	57,59	O	O
+nature	60,66	O	O
+,	66,67	O	O
+there	68,73	O	O
+has	74,77	O	O
+been	78,82	O	O
+relatively	83,93	O	O
+little	94,100	O	O
+work	101,105	O	O
+done	106,110	O	O
+on	111,113	O	O
+the	114,117	O	O
+analysis	118,126	O	B-Task
+of	127,129	O	I-Task
+time	130,134	O	I-Task
+series	135,141	O	I-Task
+from	142,146	O	O
+such	147,151	O	O
+systems	152,159	O	O
+.	159,160	O	O
+
+Mathematically	161,175	O	O
+they	176,180	O	O
+are	181,184	O	O
+known	185,190	O	O
+as	191,193	O	O
+non	194,197	O	B-Task
+-	197,198	O	I-Task
+autonomous	198,208	O	I-Task
+systems	209,216	O	I-Task
+,	216,217	O	O
+which	218,223	O	O
+are	224,227	O	O
+named	228,233	O	O
+as	234,236	O	O
+such	237,241	O	O
+because	242,249	O	O
+,	249,250	O	O
+unlike	251,257	O	O
+autonomous	258,268	O	B-Task
+systems	269,276	O	I-Task
+,	276,277	O	O
+in	278,280	O	O
+addition	281,289	O	O
+to	290,292	O	O
+the	293,296	O	O
+points	297,303	O	O
+in	304,306	O	O
+space	307,312	O	O
+over	313,317	O	O
+which	318,323	O	O
+they	324,328	O	O
+are	329,332	O	O
+observed	333,341	O	O
+they	342,346	O	O
+are	347,350	O	O
+also	351,355	O	O
+influenced	356,366	O	O
+by	367,369	O	O
+the	370,373	O	O
+points	374,380	O	O
+in	381,383	O	O
+time	384,388	O	O
+.	388,389	O	O
+
+Recently	390,398	O	O
+there	399,404	O	O
+has	405,408	O	O
+been	409,413	O	O
+much	414,418	O	O
+work	419,423	O	O
+on	424,426	O	O
+the	427,430	O	O
+direct	431,437	O	O
+‘	438,439	O	B-Process
+bottom	439,445	O	I-Process
+-	445,446	O	I-Process
+up’	446,449	O	I-Process
+approach	450,458	O	I-Process
+to	459,461	O	O
+these	462,467	O	O
+systems	468,475	O	O
+,	475,476	O	O
+which	477,482	O	O
+includes	483,491	O	O
+the	492,495	O	O
+introduction	496,508	O	O
+of	509,511	O	O
+a	512,513	O	O
+subclass	514,522	O	O
+known	523,528	O	O
+as	529,531	O	O
+chronotaxic	532,543	O	B-Task
+systems	544,551	O	I-Task
+that	552,556	O	O
+are	557,560	O	O
+able	561,565	O	O
+to	566,568	O	O
+model	569,574	O	B-Process
+the	575,578	O	I-Process
+stable	579,585	O	I-Process
+but	586,589	O	I-Process
+time	590,594	O	I-Process
+-	594,595	O	I-Process
+varying	595,602	O	I-Process
+frequencies	603,614	O	I-Process
+of	615,617	O	O
+oscillations	618,630	O	O
+in	631,633	O	O
+living	634,640	O	B-Task
+systems	641,648	O	I-Task
+[	650,651	O	O
+8,9	651,654	O	O
+]	654,655	O	O
+.	655,656	O	O
+
+In	657,659	O	O
+contrast	660,668	O	O
+,	668,669	O	O
+the	670,673	O	O
+time	674,678	O	B-Process
+series	679,685	O	I-Process
+analysis	686,694	O	I-Process
+of	695,697	O	O
+these	698,703	O	O
+systems	704,711	O	O
+,	711,712	O	O
+referred	713,721	O	O
+to	722,724	O	O
+as	725,727	O	O
+the	728,731	O	O
+inverse	732,739	O	B-Process
+or	740,742	O	O
+‘	743,744	O	B-Process
+top	744,747	O	I-Process
+-	747,748	O	I-Process
+down’	748,753	O	I-Process
+approach	754,762	O	O
+,	762,763	O	O
+has	764,767	O	O
+not	768,771	O	O
+been	772,776	O	O
+studied	777,784	O	O
+in	785,787	O	O
+detail	788,794	O	O
+before	795,801	O	O
+.	801,802	O	O
+
+This	803,807	O	O
+is	808,810	O	O
+partly	811,817	O	O
+because	818,825	O	O
+non	826,829	O	B-Task
+-	829,830	O	I-Task
+autonomous	830,840	O	I-Task
+systems	841,848	O	I-Task
+can	849,852	O	O
+still	853,858	O	O
+be	859,861	O	O
+analysed	862,870	O	O
+in	871,873	O	O
+the	874,877	O	O
+same	878,882	O	O
+way	883,886	O	O
+as	887,889	O	O
+other	890,895	O	O
+types	896,901	O	O
+of	902,904	O	O
+systems	905,912	O	O
+in	913,915	O	O
+both	916,920	O	O
+the	921,924	O	O
+deterministic	925,938	O	B-Process
+[	940,941	O	O
+10	941,943	O	O
+]	943,944	O	O
+and	945,948	O	O
+the	949,952	O	O
+stochastic	953,963	O	B-Process
+[	965,966	O	O
+11	966,968	O	O
+]	968,969	O	O
+regime	970,976	O	O
+.	976,977	O	O
+
+However	978,985	O	O
+,	985,986	O	O
+it	987,989	O	O
+is	990,992	O	O
+now	993,996	O	O
+argued	997,1003	O	O
+that	1004,1008	O	O
+this	1009,1013	O	O
+type	1014,1018	O	O
+of	1019,1021	O	O
+analysis	1022,1030	O	O
+is	1031,1033	O	O
+insufficient	1034,1046	O	O
+and	1047,1050	O	O
+that	1051,1055	O	O
+an	1056,1058	O	O
+entirely	1059,1067	O	O
+new	1068,1071	O	O
+analytical	1072,1082	O	B-Task
+framework	1083,1092	O	I-Task
+is	1093,1095	O	O
+required	1096,1104	O	O
+to	1105,1107	O	O
+provide	1108,1115	O	O
+a	1116,1117	O	O
+more	1118,1122	O	O
+useful	1123,1129	O	O
+picture	1130,1137	O	O
+of	1138,1140	O	O
+such	1141,1145	O	O
+systems	1146,1153	O	O
+.	1153,1154	O	O
+
+In	1155,1157	O	O
+the	1158,1161	O	O
+case	1162,1166	O	O
+of	1167,1169	O	O
+chronotaxic	1170,1181	O	B-Task
+systems	1182,1189	O	I-Task
+some	1190,1194	O	O
+methods	1195,1202	O	O
+have	1203,1207	O	O
+already	1208,1215	O	O
+been	1216,1220	O	O
+developed	1221,1230	O	O
+for	1231,1234	O	O
+the	1235,1238	O	O
+inverse	1239,1246	O	B-Process
+approach	1247,1255	O	I-Process
+and	1256,1259	O	O
+they	1260,1264	O	O
+have	1265,1269	O	O
+shown	1270,1275	O	O
+to	1276,1278	O	O
+be	1279,1281	O	O
+useful	1282,1288	O	O
+in	1289,1291	O	O
+analysing	1292,1301	O	O
+heart	1302,1307	O	B-Task
+rate	1308,1312	O	I-Task
+variability	1313,1324	O	I-Task
+[	1326,1327	O	O
+12	1327,1329	O	O
+]	1329,1330	O	O
+.	1330,1331	O	O
+
+A	1332,1333	O	O
+general	1334,1341	O	O
+and	1342,1345	O	O
+dedicated	1346,1355	O	O
+procedure	1356,1365	O	O
+for	1366,1369	O	O
+analysing	1370,1379	O	O
+non	1380,1383	O	B-Task
+-	1383,1384	O	I-Task
+autonomous	1384,1394	O	I-Task
+systems	1395,1402	O	I-Task
+has	1403,1406	O	O
+still	1407,1412	O	O
+not	1413,1416	O	O
+been	1417,1421	O	O
+tackled	1422,1429	O	O
+though	1430,1436	O	O
+.	1436,1437	O	O
 
 
 -DOCSTART- (S0370269304006070)
 
-The	0	3	O
-purpose	4	11	O
-of	12	14	O
-this	15	19	O
-Letter	20	26	O
-is	27	29	O
-to	30	32	O
-answer	33	39	O
-the	40	43	O
-above	44	49	O
-question	50	58	O
-and	59	62	O
-to	63	65	O
-confront	66	74	B-Task
-those	75	80	I-Task
-six	81	84	I-Task
--	84	85	I-Task
-zero	85	89	I-Task
-textures	90	98	I-Task
-of	99	101	I-Task
-lepton	102	108	I-Task
-mass	109	113	I-Task
-matrices	114	122	I-Task
-with	123	127	O
-the	128	131	O
-latest	132	138	O
-experimental	139	151	B-Material
-data	152	156	I-Material
-.	156	157	O
-
-First	158	163	O
-,	163	164	O
-we	165	167	O
-shall	168	173	O
-present	174	181	O
-a	182	183	O
-concise	184	191	O
-analysis	192	200	O
-of	201	203	O
-the	204	207	O
-lepton	208	214	B-Material
-mass	215	219	I-Material
-matrices	220	228	I-Material
-in	229	231	O
-Table	232	237	O
-1	238	239	O
-and	240	243	O
-reveal	244	250	B-Task
-their	251	256	I-Task
-isomeric	257	265	I-Task
-features	266	274	I-Task
-,	274	275	O
-namely	276	282	O
-,	282	283	O
-they	284	288	O
-have	289	293	O
-the	294	297	O
-same	298	302	O
-phenomenological	303	319	O
-consequences	320	332	O
-,	332	333	O
-although	334	342	O
-their	343	348	O
-structures	349	359	O
-are	360	363	O
-apparently	364	374	O
-different	375	384	O
-.	384	385	O
-
-Second	386	392	O
-,	392	393	O
-we	394	396	O
-shall	397	402	O
-examine	403	410	B-Task
-the	411	414	I-Task
-predictions	415	426	I-Task
-of	427	429	I-Task
-these	430	435	I-Task
-lepton	436	442	I-Task
-mass	443	447	I-Task
-matrices	448	456	I-Task
-by	457	459	O
-comparing	460	469	O
-them	470	474	O
-with	475	479	O
-the	480	483	O
-2σ	484	486	O
-and	487	490	O
-3σ	491	493	O
-intervals	494	503	O
-of	504	506	O
-two	507	510	O
-neutrino	511	519	B-Process
-mass	520	524	I-Process
--	524	525	I-Process
-squared	525	532	I-Process
-differences	533	544	I-Process
-and	545	548	O
-three	549	554	O
-lepton	555	561	O
-flavor	562	568	O
-mixing	569	575	O
-
-angles,22To	576	587	O
-be	588	590	O
-specific	591	599	O
-,	599	600	O
-we	601	603	O
-make	604	608	O
-use	609	612	O
-of	613	615	O
-the	616	619	O
-2σ	620	622	O
-and	623	626	O
-3σ	627	629	O
-intervals	630	639	O
-of	640	642	O
-two	643	646	O
-neutrino	647	655	B-Process
-mass	656	660	I-Process
--	660	661	I-Process
-squared	661	668	I-Process
-differences	669	680	I-Process
-and	681	684	O
-three	685	690	O
-lepton	691	697	B-Process
-flavor	698	704	I-Process
-mixing	705	711	I-Process
-angles	712	718	I-Process
-given	719	724	O
-by	725	727	O
-M.	728	730	O
-Maltoni	731	738	O
-et	739	741	O
-al	742	744	O
-.	744	745	O
-
-in	746	748	O
-Ref	749	752	O
-.	752	753	O
-
-[	754	755	O
-5	755	756	O
-]	756	757	O
-.	757	758	O
-
-which	759	764	O
-are	765	768	O
-obtained	769	777	O
-from	778	782	O
-a	783	784	O
-global	785	791	B-Task
-analysis	792	800	I-Task
-of	801	803	O
-the	804	807	O
-latest	808	814	O
-solar	815	820	B-Material
-,	820	821	I-Material
-atmospheric	822	833	I-Material
-,	833	834	I-Material
-reactor	835	842	I-Material
-(	843	844	I-Material
-KamLAND	844	851	I-Material
-and	852	855	I-Material
-CHOOZ	856	861	I-Material
-[	862	863	I-Material
-10	863	865	I-Material
-]	865	866	I-Material
-)	866	867	I-Material
-and	868	871	I-Material
-accelerator	872	883	I-Material
-(	884	885	I-Material
-K2	885	887	I-Material
-K	887	888	I-Material
-)	888	889	I-Material
-neutrino	890	898	I-Material
-data	899	903	I-Material
-.	903	904	O
-
-We	905	907	O
-find	908	912	O
-no	913	915	O
-parameter	916	925	O
-space	926	931	O
-allowed	932	939	O
-for	940	943	O
-six	944	947	O
-isomeric	948	956	B-Material
-lepton	957	963	I-Material
-mass	964	968	I-Material
-matrices	969	977	I-Material
-at	978	980	O
-the	981	984	O
-2σ	985	987	O
-level	988	993	O
-.	993	994	O
-
-At	995	997	O
-the	998	1001	O
-3σ	1002	1004	O
-level	1005	1010	O
-,	1010	1011	O
-however	1012	1019	O
-,	1019	1020	O
-their	1021	1026	O
-results	1027	1034	O
-for	1035	1038	O
-neutrino	1039	1047	B-Material
-masses	1048	1054	O
-and	1055	1058	O
-lepton	1059	1065	B-Process
-flavor	1066	1072	I-Process
-mixing	1073	1079	I-Process
-angles	1080	1086	I-Process
-can	1087	1090	O
-be	1091	1093	O
-compatible	1094	1104	O
-with	1105	1109	O
-current	1110	1117	B-Material
-data	1118	1122	I-Material
-.	1122	1123	O
-
-Third	1124	1129	O
-,	1129	1130	O
-we	1131	1133	O
-incorporate	1134	1145	O
-the	1146	1149	O
-seesaw	1150	1156	B-Process
-mechanism	1157	1166	I-Process
-and	1167	1170	O
-the	1171	1174	O
-Fukugita	1175	1183	O
-–	1183	1184	O
-
-Tanimoto	1184	1192	O
-–	1192	1193	O
-Yanagida	1193	1201	O
-hypothesis	1202	1212	O
-[	1213	1214	O
-9	1214	1215	O
-]	1215	1216	O
-in	1217	1219	O
-the	1220	1223	O
-charged	1224	1231	B-Material
-lepton	1232	1238	I-Material
-and	1239	1242	O
-Dirac	1243	1248	B-Material
-neutrino	1249	1257	I-Material
-mass	1258	1262	I-Material
-matrices	1263	1271	I-Material
-with	1272	1276	O
-six	1277	1280	O
-texture	1281	1288	O
-zeros	1289	1294	O
-.	1294	1295	O
-
-It	1296	1298	O
-turns	1299	1304	O
-out	1305	1308	O
-that	1309	1313	O
-their	1314	1319	O
-predictions	1320	1331	O
-,	1331	1332	O
-including	1333	1342	O
-θ23≈45	1343	1349	O
-°	1349	1350	O
-,	1350	1351	O
-are	1352	1355	O
-in	1356	1358	O
-good	1359	1363	O
-agreement	1364	1373	O
-with	1374	1378	O
-the	1379	1382	O
-present	1383	1390	O
-experimental	1391	1403	B-Material
-data	1404	1408	I-Material
-even	1409	1413	O
-at	1414	1416	O
-the	1417	1420	O
-2σ	1421	1423	O
-level	1424	1429	O
-.	1429	1430	O
+The	0,3	O	O
+purpose	4,11	O	O
+of	12,14	O	O
+this	15,19	O	O
+Letter	20,26	O	O
+is	27,29	O	O
+to	30,32	O	O
+answer	33,39	O	O
+the	40,43	O	O
+above	44,49	O	O
+question	50,58	O	O
+and	59,62	O	O
+to	63,65	O	O
+confront	66,74	O	B-Task
+those	75,80	O	I-Task
+six	81,84	O	I-Task
+-	84,85	O	I-Task
+zero	85,89	O	I-Task
+textures	90,98	O	I-Task
+of	99,101	O	I-Task
+lepton	102,108	O	I-Task
+mass	109,113	O	I-Task
+matrices	114,122	O	I-Task
+with	123,127	O	O
+the	128,131	O	O
+latest	132,138	O	O
+experimental	139,151	O	B-Material
+data	152,156	O	I-Material
+.	156,157	O	O
+
+First	158,163	O	O
+,	163,164	O	O
+we	165,167	O	O
+shall	168,173	O	O
+present	174,181	O	O
+a	182,183	O	O
+concise	184,191	O	O
+analysis	192,200	O	O
+of	201,203	O	O
+the	204,207	O	O
+lepton	208,214	O	B-Material
+mass	215,219	O	I-Material
+matrices	220,228	O	I-Material
+in	229,231	O	O
+Table	232,237	O	O
+1	238,239	O	O
+and	240,243	O	O
+reveal	244,250	O	B-Task
+their	251,256	O	I-Task
+isomeric	257,265	O	I-Task
+features	266,274	O	I-Task
+,	274,275	O	O
+namely	276,282	O	O
+,	282,283	O	O
+they	284,288	O	O
+have	289,293	O	O
+the	294,297	O	O
+same	298,302	O	O
+phenomenological	303,319	O	O
+consequences	320,332	O	O
+,	332,333	O	O
+although	334,342	O	O
+their	343,348	O	O
+structures	349,359	O	O
+are	360,363	O	O
+apparently	364,374	O	O
+different	375,384	O	O
+.	384,385	O	O
+
+Second	386,392	O	O
+,	392,393	O	O
+we	394,396	O	O
+shall	397,402	O	O
+examine	403,410	O	B-Task
+the	411,414	O	I-Task
+predictions	415,426	O	I-Task
+of	427,429	O	I-Task
+these	430,435	O	I-Task
+lepton	436,442	O	I-Task
+mass	443,447	O	I-Task
+matrices	448,456	O	I-Task
+by	457,459	O	O
+comparing	460,469	O	O
+them	470,474	O	O
+with	475,479	O	O
+the	480,483	O	O
+2σ	484,486	O	O
+and	487,490	O	O
+3σ	491,493	O	O
+intervals	494,503	O	O
+of	504,506	O	O
+two	507,510	O	O
+neutrino	511,519	O	B-Process
+mass	520,524	O	I-Process
+-	524,525	O	I-Process
+squared	525,532	O	I-Process
+differences	533,544	O	I-Process
+and	545,548	O	O
+three	549,554	O	O
+lepton	555,561	O	O
+flavor	562,568	O	O
+mixing	569,575	O	O
+
+angles,22To	576,587	O	O
+be	588,590	O	O
+specific	591,599	O	O
+,	599,600	O	O
+we	601,603	O	O
+make	604,608	O	O
+use	609,612	O	O
+of	613,615	O	O
+the	616,619	O	O
+2σ	620,622	O	O
+and	623,626	O	O
+3σ	627,629	O	O
+intervals	630,639	O	O
+of	640,642	O	O
+two	643,646	O	O
+neutrino	647,655	O	B-Process
+mass	656,660	O	I-Process
+-	660,661	O	I-Process
+squared	661,668	O	I-Process
+differences	669,680	O	I-Process
+and	681,684	O	O
+three	685,690	O	O
+lepton	691,697	O	B-Process
+flavor	698,704	O	I-Process
+mixing	705,711	O	I-Process
+angles	712,718	O	I-Process
+given	719,724	O	O
+by	725,727	O	O
+M.	728,730	O	O
+Maltoni	731,738	O	O
+et	739,741	O	O
+al	742,744	O	O
+.	744,745	O	O
+
+in	746,748	O	O
+Ref	749,752	O	O
+.	752,753	O	O
+
+[	754,755	O	O
+5	755,756	O	O
+]	756,757	O	O
+.	757,758	O	O
+
+which	759,764	O	O
+are	765,768	O	O
+obtained	769,777	O	O
+from	778,782	O	O
+a	783,784	O	O
+global	785,791	O	B-Task
+analysis	792,800	O	I-Task
+of	801,803	O	O
+the	804,807	O	O
+latest	808,814	O	O
+solar	815,820	O	B-Material
+,	820,821	O	I-Material
+atmospheric	822,833	O	I-Material
+,	833,834	O	I-Material
+reactor	835,842	O	I-Material
+(	843,844	O	I-Material
+KamLAND	844,851	O	I-Material
+and	852,855	O	I-Material
+CHOOZ	856,861	O	I-Material
+[	862,863	O	I-Material
+10	863,865	O	I-Material
+]	865,866	O	I-Material
+)	866,867	O	I-Material
+and	868,871	O	I-Material
+accelerator	872,883	O	I-Material
+(	884,885	O	I-Material
+K2	885,887	O	I-Material
+K	887,888	O	I-Material
+)	888,889	O	I-Material
+neutrino	890,898	O	I-Material
+data	899,903	O	I-Material
+.	903,904	O	O
+
+We	905,907	O	O
+find	908,912	O	O
+no	913,915	O	O
+parameter	916,925	O	O
+space	926,931	O	O
+allowed	932,939	O	O
+for	940,943	O	O
+six	944,947	O	O
+isomeric	948,956	O	B-Material
+lepton	957,963	O	I-Material
+mass	964,968	O	I-Material
+matrices	969,977	O	I-Material
+at	978,980	O	O
+the	981,984	O	O
+2σ	985,987	O	O
+level	988,993	O	O
+.	993,994	O	O
+
+At	995,997	O	O
+the	998,1001	O	O
+3σ	1002,1004	O	O
+level	1005,1010	O	O
+,	1010,1011	O	O
+however	1012,1019	O	O
+,	1019,1020	O	O
+their	1021,1026	O	O
+results	1027,1034	O	O
+for	1035,1038	O	O
+neutrino	1039,1047	O	B-Material
+masses	1048,1054	O	O
+and	1055,1058	O	O
+lepton	1059,1065	O	B-Process
+flavor	1066,1072	O	I-Process
+mixing	1073,1079	O	I-Process
+angles	1080,1086	O	I-Process
+can	1087,1090	O	O
+be	1091,1093	O	O
+compatible	1094,1104	O	O
+with	1105,1109	O	O
+current	1110,1117	O	B-Material
+data	1118,1122	O	I-Material
+.	1122,1123	O	O
+
+Third	1124,1129	O	O
+,	1129,1130	O	O
+we	1131,1133	O	O
+incorporate	1134,1145	O	O
+the	1146,1149	O	O
+seesaw	1150,1156	O	B-Process
+mechanism	1157,1166	O	I-Process
+and	1167,1170	O	O
+the	1171,1174	O	O
+Fukugita	1175,1183	O	O
+–	1183,1184	O	O
+
+Tanimoto	1184,1192	O	O
+–	1192,1193	O	O
+Yanagida	1193,1201	O	O
+hypothesis	1202,1212	O	O
+[	1213,1214	O	O
+9	1214,1215	O	O
+]	1215,1216	O	O
+in	1217,1219	O	O
+the	1220,1223	O	O
+charged	1224,1231	O	B-Material
+lepton	1232,1238	O	I-Material
+and	1239,1242	O	O
+Dirac	1243,1248	O	B-Material
+neutrino	1249,1257	O	I-Material
+mass	1258,1262	O	I-Material
+matrices	1263,1271	O	I-Material
+with	1272,1276	O	O
+six	1277,1280	O	O
+texture	1281,1288	O	O
+zeros	1289,1294	O	O
+.	1294,1295	O	O
+
+It	1296,1298	O	O
+turns	1299,1304	O	O
+out	1305,1308	O	O
+that	1309,1313	O	O
+their	1314,1319	O	O
+predictions	1320,1331	O	O
+,	1331,1332	O	O
+including	1333,1342	O	O
+θ23≈45	1343,1349	O	O
+°	1349,1350	O	O
+,	1350,1351	O	O
+are	1352,1355	O	O
+in	1356,1358	O	O
+good	1359,1363	O	O
+agreement	1364,1373	O	O
+with	1374,1378	O	O
+the	1379,1382	O	O
+present	1383,1390	O	O
+experimental	1391,1403	O	B-Material
+data	1404,1408	O	I-Material
+even	1409,1413	O	O
+at	1414,1416	O	O
+the	1417,1420	O	O
+2σ	1421,1423	O	O
+level	1424,1429	O	O
+.	1429,1430	O	O
 
 
 -DOCSTART- (S0370269304006082)
 
-The	0	3	O
-aim	4	7	O
-of	8	10	O
-this	11	15	O
-note	16	20	O
-is	21	23	O
-nothing	24	31	O
-more	32	36	O
-than	37	41	O
-to	42	44	O
-bring	45	50	B-Task
-both	51	55	I-Task
-approaches	56	66	I-Task
-on	67	69	I-Task
-equal	70	75	I-Task
-footing	76	83	I-Task
-and	84	87	O
-to	88	90	O
-relax	91	96	B-Task
-the	97	100	I-Task
-assumptions	101	112	I-Task
-under	113	118	O
-which	119	124	O
-the	125	128	O
-results	129	136	O
-of	137	139	O
-[	140	141	O
-11,13	141	146	O
-]	146	147	O
-have	148	152	O
-been	153	157	O
-derived	158	165	O
-using	166	171	O
-the	172	175	O
-first	176	181	O
-approach	182	190	O
-.	190	191	O
-
-More	192	196	O
-concretely	197	207	O
-,	207	208	O
-we	209	211	O
-generalize	212	222	B-Process
-the	223	226	I-Process
-one	227	230	I-Process
--	230	231	I-Process
-loop	231	235	I-Process
-partition	236	245	I-Process
-functions	246	255	I-Process
-,	255	256	I-Process
-as	257	259	O
-derived	260	267	O
-in	268	270	O
-[	271	272	O
-11,13	272	277	O
-]	277	278	O
-for	279	282	O
-levels	283	289	O
-being	290	295	O
-odd	296	299	O
-,	299	300	O
-to	301	303	O
-the	304	307	O
-case	308	312	O
-of	313	315	O
-even	316	320	O
-levels	321	327	O
-.	327	328	O
-
-Moreover	329	337	O
-,	337	338	O
-on	339	341	O
-the	342	345	O
-level	346	351	O
-of	352	354	O
-partition	355	364	O
-functions	365	374	O
-we	375	377	O
-implement	378	387	O
-additional	388	398	B-Process
-dressings	399	408	I-Process
-of	409	411	I-Process
-the	412	415	I-Process
-world	416	421	I-Process
--	421	422	I-Process
-sheet	422	427	I-Process
-parity	428	434	I-Process
-symmetry	435	443	I-Process
-and	444	447	O
-identify	448	456	O
-them	457	461	O
-with	462	466	O
-the	467	470	O
-dressings	471	480	B-Process
-introduced	481	491	O
-in	492	494	O
-[	495	496	O
-12	496	498	O
-]	498	499	O
-in	500	502	O
-the	503	506	O
-crosscap	507	515	B-Process
-state	516	521	I-Process
-approach	522	530	I-Process
-.	530	531	O
-
-As	532	534	O
-expected	535	543	O
-,	543	544	O
-all	545	548	O
-the	549	552	O
-physical	553	561	O
-information	562	573	O
-can	574	577	O
-be	578	580	O
-read	581	585	O
-off	586	589	O
-entirely	590	598	O
-from	599	603	O
-the	604	607	O
-various	608	615	O
-amplitudes	616	626	O
-.	626	627	O
-
-We	628	630	O
-will	631	635	O
-end	636	639	O
-up	640	642	O
-with	643	647	O
-a	648	649	O
-collection	650	660	O
-of	661	663	O
-very	664	668	O
-explicit	669	677	O
-and	678	681	O
-general	682	689	O
-one	690	693	B-Process
--	693	694	I-Process
-loop	694	698	I-Process
-partition	699	708	I-Process
-functions	709	718	I-Process
-and	719	722	O
-tadpole	723	730	B-Process
-cancellation	731	743	I-Process
-conditions	744	754	I-Process
-covering	755	763	O
-simple	764	770	O
-current	771	778	B-Process
-extensions	779	789	I-Process
-of	790	792	I-Process
-all	793	796	I-Process
-168	797	800	I-Process
-Gepner	801	807	I-Process
-models	808	814	I-Process
-with	815	819	O
-additional	820	830	O
-dressings	831	840	B-Process
-of	841	843	O
-the	844	847	O
-parity	848	854	B-Process
-symmetry	855	863	I-Process
-.	863	864	O
-
-In	865	867	O
-fact	868	872	O
-providing	873	882	O
-a	883	884	O
-compact	885	892	O
-collection	893	903	O
-of	904	906	O
-the	907	910	O
-main	911	915	O
-relevant	916	924	O
-formulas	925	933	O
-for	934	937	O
-constructing	938	950	B-Task
-supersymmetric	951	965	I-Task
-Gepner	966	972	I-Task
-model	973	978	I-Task
-orientifolds	979	991	I-Task
-was	992	995	O
-one	996	999	O
-of	1000	1002	O
-the	1003	1006	O
-motivations	1007	1018	O
-for	1019	1022	O
-writing	1023	1030	O
-this	1031	1035	O
-Letter	1036	1042	O
-.	1042	1043	O
-
-We	1044	1046	O
-hope	1047	1051	O
-that	1052	1056	O
-these	1057	1062	O
-expressions	1063	1074	O
-turn	1075	1079	O
-out	1080	1083	O
-to	1084	1086	O
-be	1087	1089	O
-useful	1090	1096	O
-for	1097	1100	O
-a	1101	1102	O
-systematic	1103	1113	B-Task
-search	1114	1120	I-Task
-for	1121	1124	I-Task
-Standard	1125	1133	I-Task
--	1133	1134	I-Task
-like	1134	1138	I-Task
-models	1139	1145	I-Task
-respectively	1146	1158	O
-for	1159	1162	O
-providing	1163	1172	B-Task
-a	1173	1174	I-Task
-statistical	1175	1186	I-Task
-ensemble	1187	1195	I-Task
-in	1196	1198	I-Task
-the	1199	1202	I-Task
-spirit	1203	1209	I-Task
-of	1210	1212	I-Task
-[	1213	1214	I-Task
-29	1214	1216	I-Task
-]	1216	1217	I-Task
-.	1217	1218	O
+The	0,3	O	O
+aim	4,7	O	O
+of	8,10	O	O
+this	11,15	O	O
+note	16,20	O	O
+is	21,23	O	O
+nothing	24,31	O	O
+more	32,36	O	O
+than	37,41	O	O
+to	42,44	O	O
+bring	45,50	O	B-Task
+both	51,55	O	I-Task
+approaches	56,66	O	I-Task
+on	67,69	O	I-Task
+equal	70,75	O	I-Task
+footing	76,83	O	I-Task
+and	84,87	O	O
+to	88,90	O	O
+relax	91,96	O	B-Task
+the	97,100	O	I-Task
+assumptions	101,112	O	I-Task
+under	113,118	O	O
+which	119,124	O	O
+the	125,128	O	O
+results	129,136	O	O
+of	137,139	O	O
+[	140,141	O	O
+11,13	141,146	O	O
+]	146,147	O	O
+have	148,152	O	O
+been	153,157	O	O
+derived	158,165	O	O
+using	166,171	O	O
+the	172,175	O	O
+first	176,181	O	O
+approach	182,190	O	O
+.	190,191	O	O
+
+More	192,196	O	O
+concretely	197,207	O	O
+,	207,208	O	O
+we	209,211	O	O
+generalize	212,222	O	B-Process
+the	223,226	O	I-Process
+one	227,230	O	I-Process
+-	230,231	O	I-Process
+loop	231,235	O	I-Process
+partition	236,245	O	I-Process
+functions	246,255	O	I-Process
+,	255,256	O	I-Process
+as	257,259	O	O
+derived	260,267	O	O
+in	268,270	O	O
+[	271,272	O	O
+11,13	272,277	O	O
+]	277,278	O	O
+for	279,282	O	O
+levels	283,289	O	O
+being	290,295	O	O
+odd	296,299	O	O
+,	299,300	O	O
+to	301,303	O	O
+the	304,307	O	O
+case	308,312	O	O
+of	313,315	O	O
+even	316,320	O	O
+levels	321,327	O	O
+.	327,328	O	O
+
+Moreover	329,337	O	O
+,	337,338	O	O
+on	339,341	O	O
+the	342,345	O	O
+level	346,351	O	O
+of	352,354	O	O
+partition	355,364	O	O
+functions	365,374	O	O
+we	375,377	O	O
+implement	378,387	O	O
+additional	388,398	O	B-Process
+dressings	399,408	O	I-Process
+of	409,411	O	I-Process
+the	412,415	O	I-Process
+world	416,421	O	I-Process
+-	421,422	O	I-Process
+sheet	422,427	O	I-Process
+parity	428,434	O	I-Process
+symmetry	435,443	O	I-Process
+and	444,447	O	O
+identify	448,456	O	O
+them	457,461	O	O
+with	462,466	O	O
+the	467,470	O	O
+dressings	471,480	O	B-Process
+introduced	481,491	O	O
+in	492,494	O	O
+[	495,496	O	O
+12	496,498	O	O
+]	498,499	O	O
+in	500,502	O	O
+the	503,506	O	O
+crosscap	507,515	O	B-Process
+state	516,521	O	I-Process
+approach	522,530	O	I-Process
+.	530,531	O	O
+
+As	532,534	O	O
+expected	535,543	O	O
+,	543,544	O	O
+all	545,548	O	O
+the	549,552	O	O
+physical	553,561	O	O
+information	562,573	O	O
+can	574,577	O	O
+be	578,580	O	O
+read	581,585	O	O
+off	586,589	O	O
+entirely	590,598	O	O
+from	599,603	O	O
+the	604,607	O	O
+various	608,615	O	O
+amplitudes	616,626	O	O
+.	626,627	O	O
+
+We	628,630	O	O
+will	631,635	O	O
+end	636,639	O	O
+up	640,642	O	O
+with	643,647	O	O
+a	648,649	O	O
+collection	650,660	O	O
+of	661,663	O	O
+very	664,668	O	O
+explicit	669,677	O	O
+and	678,681	O	O
+general	682,689	O	O
+one	690,693	O	B-Process
+-	693,694	O	I-Process
+loop	694,698	O	I-Process
+partition	699,708	O	I-Process
+functions	709,718	O	I-Process
+and	719,722	O	O
+tadpole	723,730	O	B-Process
+cancellation	731,743	O	I-Process
+conditions	744,754	O	I-Process
+covering	755,763	O	O
+simple	764,770	O	O
+current	771,778	O	B-Process
+extensions	779,789	O	I-Process
+of	790,792	O	I-Process
+all	793,796	O	I-Process
+168	797,800	O	I-Process
+Gepner	801,807	O	I-Process
+models	808,814	O	I-Process
+with	815,819	O	O
+additional	820,830	O	O
+dressings	831,840	O	B-Process
+of	841,843	O	O
+the	844,847	O	O
+parity	848,854	O	B-Process
+symmetry	855,863	O	I-Process
+.	863,864	O	O
+
+In	865,867	O	O
+fact	868,872	O	O
+providing	873,882	O	O
+a	883,884	O	O
+compact	885,892	O	O
+collection	893,903	O	O
+of	904,906	O	O
+the	907,910	O	O
+main	911,915	O	O
+relevant	916,924	O	O
+formulas	925,933	O	O
+for	934,937	O	O
+constructing	938,950	O	B-Task
+supersymmetric	951,965	O	I-Task
+Gepner	966,972	O	I-Task
+model	973,978	O	I-Task
+orientifolds	979,991	O	I-Task
+was	992,995	O	O
+one	996,999	O	O
+of	1000,1002	O	O
+the	1003,1006	O	O
+motivations	1007,1018	O	O
+for	1019,1022	O	O
+writing	1023,1030	O	O
+this	1031,1035	O	O
+Letter	1036,1042	O	O
+.	1042,1043	O	O
+
+We	1044,1046	O	O
+hope	1047,1051	O	O
+that	1052,1056	O	O
+these	1057,1062	O	O
+expressions	1063,1074	O	O
+turn	1075,1079	O	O
+out	1080,1083	O	O
+to	1084,1086	O	O
+be	1087,1089	O	O
+useful	1090,1096	O	O
+for	1097,1100	O	O
+a	1101,1102	O	O
+systematic	1103,1113	O	B-Task
+search	1114,1120	O	I-Task
+for	1121,1124	O	I-Task
+Standard	1125,1133	O	I-Task
+-	1133,1134	O	I-Task
+like	1134,1138	O	I-Task
+models	1139,1145	O	I-Task
+respectively	1146,1158	O	O
+for	1159,1162	O	O
+providing	1163,1172	O	B-Task
+a	1173,1174	O	I-Task
+statistical	1175,1186	O	I-Task
+ensemble	1187,1195	O	I-Task
+in	1196,1198	O	I-Task
+the	1199,1202	O	I-Task
+spirit	1203,1209	O	I-Task
+of	1210,1212	O	I-Task
+[	1213,1214	O	I-Task
+29	1214,1216	O	I-Task
+]	1216,1217	O	I-Task
+.	1217,1218	O	O
 
 
 -DOCSTART- (S0370269304006161)
 
-Absorption	0	10	B-Task
-events	11	17	I-Task
-through	18	25	I-Task
-the	26	29	I-Task
-charged	30	37	I-Task
-current	38	45	I-Task
-reactions	46	55	I-Task
-(	56	57	O
-2)νe+40Ar→e−+40K∗andν̄e+40Ar→e++40Cl∗.	57	95	O
-There	96	101	O
-is	102	104	O
-some	105	109	O
-uncertainty	110	121	O
-in	122	124	O
-predicting	125	135	B-Task
-e−(e+	136	141	I-Task
-)	141	142	I-Task
-event	143	148	I-Task
-rates	149	154	I-Task
-for	155	158	O
-these	159	164	O
-processes	165	174	O
-which	175	180	O
-arise	181	186	O
-due	187	190	O
-to	191	193	O
-the	194	197	O
-nuclear	198	205	B-Process
-model	206	211	I-Process
-dependencies	212	224	I-Process
-of	225	227	O
-the	228	231	O
-absorption	232	242	O
-cross	243	248	O
-section	249	256	O
-and	257	260	O
-the	261	264	O
-treatment	265	274	B-Process
-of	275	277	I-Process
-the	278	281	I-Process
-Coulomb	282	289	I-Process
-distortion	290	300	I-Process
-of	301	303	O
-electron	304	312	B-Material
-(	313	314	O
-positron	314	322	B-Material
-)	322	323	O
-in	324	326	O
-the	327	330	O
-field	331	336	O
-of	337	339	O
-the	340	343	O
-residual	344	352	B-Task
-nucleus	353	360	I-Task
-.	360	361	O
-
-The	362	365	O
-nuclear	366	373	B-Task
-absorption	374	384	I-Task
-cross	385	390	I-Task
-section	391	398	I-Task
-for	399	402	I-Task
-the	403	406	I-Task
-charged	407	414	I-Task
-current	415	422	I-Task
-neutrino	423	431	I-Task
-reactions	432	441	I-Task
-in	442	444	O
-40Ar	445	449	O
-relevant	450	458	O
-to	459	461	O
-supernova	462	471	B-Material
-neutrino	472	480	I-Material
-energies	481	489	I-Material
-was	490	493	O
-first	494	499	O
-calculated	500	510	O
-by	511	513	O
-Raghavan	514	522	O
-[	523	524	O
-10	524	526	O
-]	526	527	O
-and	528	531	O
-Bahcall	532	539	O
-et	540	542	O
-al	543	545	O
-.	545	546	O
-
-[	547	548	O
-11	548	550	O
-]	550	551	O
-for	552	555	O
-Fermi	556	561	O
-transitions	562	573	O
-leading	574	581	O
-to	582	584	O
-isobaric	585	593	B-Process
-analogue	594	602	I-Process
-state	603	608	I-Process
-(	609	610	O
-IAS	610	613	B-Process
-)	613	614	O
-at	615	617	O
-4.38	618	622	B-Process
-MeV	623	626	I-Process
-in	627	629	I-Process
-40K∗.	630	635	I-Process
-Later	636	641	O
-Ormand	642	648	O
-et	649	651	O
-al	652	654	O
-.	654	655	O
-
-[	656	657	O
-12	657	659	O
-]	659	660	O
-used	661	665	O
-a	666	667	O
-shell	668	673	B-Process
-model	674	679	I-Process
-to	680	682	O
-calculate	683	692	O
-the	693	696	B-Task
-Fermi	697	702	I-Task
-and	703	706	I-Task
-Gamow	707	712	I-Task
-–	712	713	I-Task
-Teller	713	719	I-Task
-transitions	720	731	I-Task
-.	731	732	O
-
-In	733	735	O
-these	736	741	O
-calculations	742	754	O
-Fermi	755	760	O
-function	761	769	O
-F(Z	770	773	O
-,	773	774	O
-Ee	774	776	O
-)	776	777	O
-was	778	781	O
-used	782	786	O
-to	787	789	O
-take	790	794	O
-into	795	799	O
-account	800	807	O
-the	808	811	O
-Coulomb	812	819	B-Process
-effects	820	827	I-Process
-.	827	828	O
-
-In	829	831	O
-a	832	833	O
-recent	834	840	O
-paper	841	846	O
-Bueno	847	852	O
-et	853	855	O
-al	856	858	O
-.	858	859	O
-
-[	860	861	O
-13	861	863	O
-]	863	864	O
-make	865	869	O
-use	870	873	O
-of	874	876	O
-a	877	878	O
-calculation	879	890	B-Process
-by	891	893	I-Process
-Martinez	894	902	I-Process
--	902	903	I-Process
-Pinedo	903	909	I-Process
-et	910	912	I-Process
-al	913	915	I-Process
-.	915	916	I-Process
-
-[	917	918	O
-14	918	920	O
-]	920	921	O
-who	922	925	O
-use	926	929	O
-a	930	931	O
-shell	932	937	B-Process
-model	938	943	I-Process
-for	944	947	I-Process
-Fermi	948	953	I-Process
-and	954	957	I-Process
-Gamow	958	963	I-Process
-–	963	964	I-Process
-Teller	964	970	I-Process
-transitions	971	982	I-Process
-and	983	986	O
-a	987	988	O
-continuum	989	998	B-Process
-random	999	1005	I-Process
-phase	1006	1011	I-Process
-approximation	1012	1025	I-Process
-(	1026	1027	O
-CRPA	1027	1031	B-Process
-)	1031	1032	O
-for	1033	1036	O
-forbidden	1037	1046	O
-transitions	1047	1058	O
-to	1059	1061	O
-calculate	1062	1071	O
-the	1072	1075	B-Task
-absorption	1076	1086	I-Task
-cross	1087	1092	I-Task
-sections	1093	1101	I-Task
-.	1101	1102	O
-
-In	1103	1105	O
-this	1106	1110	O
-calculation	1111	1122	O
-the	1123	1126	O
-Coulomb	1127	1134	O
-distortion	1135	1145	O
-of	1146	1148	O
-the	1149	1152	O
-produced	1153	1161	O
-electron	1162	1170	O
-is	1171	1173	O
-treated	1174	1181	O
-with	1182	1186	O
-a	1187	1188	O
-hybrid	1189	1195	O
-model	1196	1201	O
-where	1202	1207	O
-a	1208	1209	O
-Fermi	1210	1215	O
-function	1216	1224	O
-is	1225	1227	O
-used	1228	1232	O
-for	1233	1236	O
-lower	1237	1242	O
-electron	1243	1251	O
-energies	1252	1260	O
-and	1261	1264	O
-modified	1265	1273	B-Process
-effective	1274	1283	I-Process
-momentum	1284	1292	I-Process
-approximation	1293	1306	I-Process
-(	1307	1308	O
-MEMA	1308	1312	B-Process
-)	1312	1313	O
-for	1314	1317	O
-higher	1318	1324	O
-electron	1325	1333	O
-energies	1334	1342	O
-[	1343	1344	O
-14–17	1344	1349	O
-]	1349	1350	O
-.	1350	1351	O
-
-In	1352	1354	O
-a	1355	1356	O
-recent	1357	1363	O
-work	1364	1368	O
-Bhattacharya	1369	1381	O
-et	1382	1384	O
-al	1385	1387	O
-.	1387	1388	O
-
-[	1389	1390	O
-18	1390	1392	O
-]	1392	1393	O
-have	1394	1398	O
-measured	1399	1407	O
-the	1408	1411	O
-Fermi	1412	1417	B-Process
-and	1418	1421	I-Process
-Gamow	1422	1427	I-Process
-–	1427	1428	I-Process
-Teller	1428	1434	I-Process
-transition	1435	1445	I-Process
-strengths	1446	1455	I-Process
-leading	1456	1463	O
-to	1464	1466	O
-excited	1467	1474	O
-states	1475	1481	O
-up	1482	1484	O
-to	1485	1487	O
-6	1488	1489	O
-MeV	1490	1493	O
-in	1494	1496	O
-40K∗	1497	1501	O
-and	1502	1505	O
-obtained	1506	1514	O
-the	1515	1518	O
-neutrino	1519	1527	B-Task
-absorption	1528	1538	I-Task
-cross	1539	1544	I-Task
-section	1545	1552	I-Task
-for	1553	1556	O
-supernova	1557	1566	O
-neutrinos	1567	1576	O
-in	1577	1579	O
-40Ar	1580	1584	O
-.	1584	1585	O
+Absorption	0,10	O	B-Task
+events	11,17	O	I-Task
+through	18,25	O	I-Task
+the	26,29	O	I-Task
+charged	30,37	O	I-Task
+current	38,45	O	I-Task
+reactions	46,55	O	I-Task
+(	56,57	O	O
+2)νe+40Ar→e−+40K∗andν̄e+40Ar→e++40Cl∗.	57,95	O	O
+There	96,101	O	O
+is	102,104	O	O
+some	105,109	O	O
+uncertainty	110,121	O	O
+in	122,124	O	O
+predicting	125,135	O	B-Task
+e−(e+	136,141	O	I-Task
+)	141,142	O	I-Task
+event	143,148	O	I-Task
+rates	149,154	O	I-Task
+for	155,158	O	O
+these	159,164	O	O
+processes	165,174	O	O
+which	175,180	O	O
+arise	181,186	O	O
+due	187,190	O	O
+to	191,193	O	O
+the	194,197	O	O
+nuclear	198,205	O	B-Process
+model	206,211	O	I-Process
+dependencies	212,224	O	I-Process
+of	225,227	O	O
+the	228,231	O	O
+absorption	232,242	O	O
+cross	243,248	O	O
+section	249,256	O	O
+and	257,260	O	O
+the	261,264	O	O
+treatment	265,274	O	B-Process
+of	275,277	O	I-Process
+the	278,281	O	I-Process
+Coulomb	282,289	O	I-Process
+distortion	290,300	O	I-Process
+of	301,303	O	O
+electron	304,312	O	B-Material
+(	313,314	O	O
+positron	314,322	O	B-Material
+)	322,323	O	O
+in	324,326	O	O
+the	327,330	O	O
+field	331,336	O	O
+of	337,339	O	O
+the	340,343	O	O
+residual	344,352	O	B-Task
+nucleus	353,360	O	I-Task
+.	360,361	O	O
+
+The	362,365	O	O
+nuclear	366,373	O	B-Task
+absorption	374,384	O	I-Task
+cross	385,390	O	I-Task
+section	391,398	O	I-Task
+for	399,402	O	I-Task
+the	403,406	O	I-Task
+charged	407,414	O	I-Task
+current	415,422	O	I-Task
+neutrino	423,431	O	I-Task
+reactions	432,441	O	I-Task
+in	442,444	O	O
+40Ar	445,449	O	O
+relevant	450,458	O	O
+to	459,461	O	O
+supernova	462,471	O	B-Material
+neutrino	472,480	O	I-Material
+energies	481,489	O	I-Material
+was	490,493	O	O
+first	494,499	O	O
+calculated	500,510	O	O
+by	511,513	O	O
+Raghavan	514,522	O	O
+[	523,524	O	O
+10	524,526	O	O
+]	526,527	O	O
+and	528,531	O	O
+Bahcall	532,539	O	O
+et	540,542	O	O
+al	543,545	O	O
+.	545,546	O	O
+
+[	547,548	O	O
+11	548,550	O	O
+]	550,551	O	O
+for	552,555	O	O
+Fermi	556,561	O	O
+transitions	562,573	O	O
+leading	574,581	O	O
+to	582,584	O	O
+isobaric	585,593	O	B-Process
+analogue	594,602	O	I-Process
+state	603,608	O	I-Process
+(	609,610	O	O
+IAS	610,613	O	B-Process
+)	613,614	O	O
+at	615,617	O	O
+4.38	618,622	O	B-Process
+MeV	623,626	O	I-Process
+in	627,629	O	I-Process
+40K∗.	630,635	O	I-Process
+Later	636,641	O	O
+Ormand	642,648	O	O
+et	649,651	O	O
+al	652,654	O	O
+.	654,655	O	O
+
+[	656,657	O	O
+12	657,659	O	O
+]	659,660	O	O
+used	661,665	O	O
+a	666,667	O	O
+shell	668,673	O	B-Process
+model	674,679	O	I-Process
+to	680,682	O	O
+calculate	683,692	O	O
+the	693,696	O	B-Task
+Fermi	697,702	O	I-Task
+and	703,706	O	I-Task
+Gamow	707,712	O	I-Task
+–	712,713	O	I-Task
+Teller	713,719	O	I-Task
+transitions	720,731	O	I-Task
+.	731,732	O	O
+
+In	733,735	O	O
+these	736,741	O	O
+calculations	742,754	O	O
+Fermi	755,760	O	O
+function	761,769	O	O
+F(Z	770,773	O	O
+,	773,774	O	O
+Ee	774,776	O	O
+)	776,777	O	O
+was	778,781	O	O
+used	782,786	O	O
+to	787,789	O	O
+take	790,794	O	O
+into	795,799	O	O
+account	800,807	O	O
+the	808,811	O	O
+Coulomb	812,819	O	B-Process
+effects	820,827	O	I-Process
+.	827,828	O	O
+
+In	829,831	O	O
+a	832,833	O	O
+recent	834,840	O	O
+paper	841,846	O	O
+Bueno	847,852	O	O
+et	853,855	O	O
+al	856,858	O	O
+.	858,859	O	O
+
+[	860,861	O	O
+13	861,863	O	O
+]	863,864	O	O
+make	865,869	O	O
+use	870,873	O	O
+of	874,876	O	O
+a	877,878	O	O
+calculation	879,890	O	B-Process
+by	891,893	O	I-Process
+Martinez	894,902	O	I-Process
+-	902,903	O	I-Process
+Pinedo	903,909	O	I-Process
+et	910,912	O	I-Process
+al	913,915	O	I-Process
+.	915,916	O	I-Process
+
+[	917,918	O	O
+14	918,920	O	O
+]	920,921	O	O
+who	922,925	O	O
+use	926,929	O	O
+a	930,931	O	O
+shell	932,937	O	B-Process
+model	938,943	O	I-Process
+for	944,947	O	I-Process
+Fermi	948,953	O	I-Process
+and	954,957	O	I-Process
+Gamow	958,963	O	I-Process
+–	963,964	O	I-Process
+Teller	964,970	O	I-Process
+transitions	971,982	O	I-Process
+and	983,986	O	O
+a	987,988	O	O
+continuum	989,998	O	B-Process
+random	999,1005	O	I-Process
+phase	1006,1011	O	I-Process
+approximation	1012,1025	O	I-Process
+(	1026,1027	O	O
+CRPA	1027,1031	O	B-Process
+)	1031,1032	O	O
+for	1033,1036	O	O
+forbidden	1037,1046	O	O
+transitions	1047,1058	O	O
+to	1059,1061	O	O
+calculate	1062,1071	O	O
+the	1072,1075	O	B-Task
+absorption	1076,1086	O	I-Task
+cross	1087,1092	O	I-Task
+sections	1093,1101	O	I-Task
+.	1101,1102	O	O
+
+In	1103,1105	O	O
+this	1106,1110	O	O
+calculation	1111,1122	O	O
+the	1123,1126	O	O
+Coulomb	1127,1134	O	O
+distortion	1135,1145	O	O
+of	1146,1148	O	O
+the	1149,1152	O	O
+produced	1153,1161	O	O
+electron	1162,1170	O	O
+is	1171,1173	O	O
+treated	1174,1181	O	O
+with	1182,1186	O	O
+a	1187,1188	O	O
+hybrid	1189,1195	O	O
+model	1196,1201	O	O
+where	1202,1207	O	O
+a	1208,1209	O	O
+Fermi	1210,1215	O	O
+function	1216,1224	O	O
+is	1225,1227	O	O
+used	1228,1232	O	O
+for	1233,1236	O	O
+lower	1237,1242	O	O
+electron	1243,1251	O	O
+energies	1252,1260	O	O
+and	1261,1264	O	O
+modified	1265,1273	O	B-Process
+effective	1274,1283	O	I-Process
+momentum	1284,1292	O	I-Process
+approximation	1293,1306	O	I-Process
+(	1307,1308	O	O
+MEMA	1308,1312	O	B-Process
+)	1312,1313	O	O
+for	1314,1317	O	O
+higher	1318,1324	O	O
+electron	1325,1333	O	O
+energies	1334,1342	O	O
+[	1343,1344	O	O
+14–17	1344,1349	O	O
+]	1349,1350	O	O
+.	1350,1351	O	O
+
+In	1352,1354	O	O
+a	1355,1356	O	O
+recent	1357,1363	O	O
+work	1364,1368	O	O
+Bhattacharya	1369,1381	O	O
+et	1382,1384	O	O
+al	1385,1387	O	O
+.	1387,1388	O	O
+
+[	1389,1390	O	O
+18	1390,1392	O	O
+]	1392,1393	O	O
+have	1394,1398	O	O
+measured	1399,1407	O	O
+the	1408,1411	O	O
+Fermi	1412,1417	O	B-Process
+and	1418,1421	O	I-Process
+Gamow	1422,1427	O	I-Process
+–	1427,1428	O	I-Process
+Teller	1428,1434	O	I-Process
+transition	1435,1445	O	I-Process
+strengths	1446,1455	O	I-Process
+leading	1456,1463	O	O
+to	1464,1466	O	O
+excited	1467,1474	O	O
+states	1475,1481	O	O
+up	1482,1484	O	O
+to	1485,1487	O	O
+6	1488,1489	O	O
+MeV	1490,1493	O	O
+in	1494,1496	O	O
+40K∗	1497,1501	O	O
+and	1502,1505	O	O
+obtained	1506,1514	O	O
+the	1515,1518	O	O
+neutrino	1519,1527	O	B-Task
+absorption	1528,1538	O	I-Task
+cross	1539,1544	O	I-Task
+section	1545,1552	O	I-Task
+for	1553,1556	O	O
+supernova	1557,1566	O	O
+neutrinos	1567,1576	O	O
+in	1577,1579	O	O
+40Ar	1580,1584	O	O
+.	1584,1585	O	O
 
 
 -DOCSTART- (S0370269304006720)
 
-Classical	0	9	O
-,	9	10	O
-two	11	14	O
--	14	15	O
-dimensional	15	26	O
-sigma	27	32	O
-models	33	39	O
-on	40	42	O
-compact	43	50	O
-symmetric	51	60	O
-spaces	61	67	O
-
-G	68	69	O
-/	69	70	O
-H	70	71	O
-are	72	75	O
-integrable	76	86	O
-by	87	89	O
-virtue	90	96	O
-of	97	99	O
-conserved	100	109	O
-quantities	110	120	O
-which	121	126	O
-can	127	130	O
-arise	131	136	O
-as	137	139	O
-integrals	140	149	B-Process
-of	150	152	I-Process
-local	153	158	I-Process
-or	159	161	I-Process
-non	162	165	I-Process
--	165	166	I-Process
-local	166	171	I-Process
-functions	172	181	I-Process
-of	182	184	O
-the	185	188	O
-underlying	189	199	O
-fields	200	206	O
-(	207	208	O
-the	208	211	O
-accounts	212	220	O
-in	221	223	O
-[	224	225	O
-1–5	225	228	O
-]	228	229	O
-contain	230	237	O
-references	238	248	O
-to	249	251	O
-the	252	255	O
-extensive	256	265	O
-literature	266	276	O
-)	276	277	O
-.	277	278	O
-
-Since	279	284	O
-these	285	290	O
-models	291	297	O
-are	298	301	O
-asymptotically	302	316	O
-free	317	321	O
-and	322	325	O
-strongly	326	334	O
-coupled	335	342	O
-in	343	345	O
-the	346	349	O
-infrared	350	358	O
-,	358	359	O
-their	360	365	O
-quantum	366	373	O
-properties	374	384	O
-are	385	388	O
-not	389	392	O
-straightforward	393	408	O
-to	409	411	O
-determine	412	421	O
-.	421	422	O
-
-Nevertheless	423	435	O
-,	435	436	O
-following	437	446	O
-Lüscher	447	454	O
-[	455	456	O
-6	456	457	O
-]	457	458	O
-,	458	459	O
-Abdalla	460	467	O
-,	467	468	O
-Forger	469	475	O
-and	476	479	O
-Gomes	480	485	O
-showed	486	492	O
-[	493	494	O
-7	494	495	O
-]	495	496	O
-that	497	501	O
-,	501	502	O
-in	503	505	O
-a	506	507	O
-G	508	509	B-Task
-/	509	510	I-Task
-H	510	511	I-Task
-sigma	512	517	I-Task
-model	518	523	I-Task
-with	524	528	I-Task
-H	529	530	I-Task
-simple,11Here	531	544	I-Task
-,	544	545	O
-and	546	549	O
-throughout	550	560	O
-this	561	565	O
-Letter	566	572	O
-,	572	573	O
-we	574	576	O
-shall	577	582	O
-use	583	586	O
-‘	587	588	O
-simple’	588	595	B-Process
-to	596	598	O
-mean	599	603	O
-that	604	608	O
-the	609	612	O
-corresponding	613	626	B-Process
-Lie	627	630	I-Process
-algebra	631	638	I-Process
-has	639	642	I-Process
-no	643	645	I-Process
-non	646	649	I-Process
--	649	650	I-Process
-trivial	650	657	I-Process
-ideals	658	664	I-Process
-.	664	665	O
-
-Hence	666	671	O
-U(1	672	675	O
-)	675	676	O
-is	677	679	O
-simple	680	686	O
-in	687	689	O
-our	690	693	O
-terminology	694	705	O
-,	705	706	O
-in	707	709	O
-addition	710	718	O
-to	719	721	O
-the	722	725	O
-usual	726	731	O
-non	732	735	O
--	735	736	O
-Abelian	736	743	O
-simple	744	750	O
-groups	751	757	O
-of	758	760	O
-the	761	764	O
-Cartan	765	771	O
-–	771	772	O
-Killing	772	779	O
-classification	780	794	O
-[	795	796	O
-13	796	798	O
-]	798	799	O
-.	799	800	O
-
-the	801	804	O
-first	805	810	O
-conserved	811	820	O
-non	821	824	O
--	824	825	O
-local	825	830	O
-charge	831	837	O
-survives	838	846	O
-quantization	847	859	B-Process
-(	860	861	O
-after	861	866	O
-an	867	869	O
-appropriate	870	881	O
-renormalization	882	897	B-Process
-[	898	899	O
-6–8	899	902	O
-]	902	903	O
-)	903	904	O
-,	904	905	O
-which	906	911	O
-suffices	912	920	O
-to	921	923	O
-ensure	924	930	O
-quantum	931	938	B-Task
-integrability	939	952	I-Task
-of	953	955	O
-the	956	959	O
-theory	960	966	O
-.	966	967	O
-
-By	968	970	O
-contrast	971	979	O
-,	979	980	O
-calculations	981	993	B-Process
-using	994	999	I-Process
-the	1000	1003	I-Process
-1/N	1004	1007	I-Process
-expansion	1008	1017	I-Process
-reveal	1018	1024	O
-anomalies	1025	1034	O
-that	1035	1039	O
-spoil	1040	1045	O
-the	1046	1049	O
-conservation	1050	1062	B-Task
-of	1063	1065	I-Task
-the	1066	1069	I-Task
-quantum	1070	1077	I-Task
-non	1078	1081	I-Task
--	1081	1082	I-Task
-local	1082	1087	I-Task
-charges	1088	1095	I-Task
-in	1096	1098	O
-the	1099	1102	O
-CPN−1=SU(N)/SU(N−1)×U(1	1103	1126	B-Process
-)	1126	1127	I-Process
-models	1128	1134	I-Process
-for	1135	1138	I-Process
-N>2	1139	1142	I-Process
-,	1142	1143	O
-and	1144	1147	O
-in	1148	1150	O
-the	1151	1154	O
-wider	1155	1160	O
-class	1161	1166	O
-of	1167	1169	O
-theories	1170	1178	O
-based	1179	1184	O
-on	1185	1187	O
-the	1188	1191	O
-complex	1192	1199	B-Process
-Grassmannians	1200	1213	I-Process
-SU(N)/SU(n)×SU(N−n)×U(1	1214	1237	I-Process
-)	1237	1238	I-Process
-for	1239	1242	I-Process
-N	1243	1244	I-Process
->	1244	1245	I-Process
-n>1	1245	1248	I-Process
-[	1249	1250	O
-9	1250	1251	O
-]	1251	1252	O
-.	1252	1253	O
+Classical	0,9	O	O
+,	9,10	O	O
+two	11,14	O	O
+-	14,15	O	O
+dimensional	15,26	O	O
+sigma	27,32	O	O
+models	33,39	O	O
+on	40,42	O	O
+compact	43,50	O	O
+symmetric	51,60	O	O
+spaces	61,67	O	O
+
+G	68,69	O	O
+/	69,70	O	O
+H	70,71	O	O
+are	72,75	O	O
+integrable	76,86	O	O
+by	87,89	O	O
+virtue	90,96	O	O
+of	97,99	O	O
+conserved	100,109	O	O
+quantities	110,120	O	O
+which	121,126	O	O
+can	127,130	O	O
+arise	131,136	O	O
+as	137,139	O	O
+integrals	140,149	O	B-Process
+of	150,152	O	I-Process
+local	153,158	O	I-Process
+or	159,161	O	I-Process
+non	162,165	O	I-Process
+-	165,166	O	I-Process
+local	166,171	O	I-Process
+functions	172,181	O	I-Process
+of	182,184	O	O
+the	185,188	O	O
+underlying	189,199	O	O
+fields	200,206	O	O
+(	207,208	O	O
+the	208,211	O	O
+accounts	212,220	O	O
+in	221,223	O	O
+[	224,225	O	O
+1–5	225,228	O	O
+]	228,229	O	O
+contain	230,237	O	O
+references	238,248	O	O
+to	249,251	O	O
+the	252,255	O	O
+extensive	256,265	O	O
+literature	266,276	O	O
+)	276,277	O	O
+.	277,278	O	O
+
+Since	279,284	O	O
+these	285,290	O	O
+models	291,297	O	O
+are	298,301	O	O
+asymptotically	302,316	O	O
+free	317,321	O	O
+and	322,325	O	O
+strongly	326,334	O	O
+coupled	335,342	O	O
+in	343,345	O	O
+the	346,349	O	O
+infrared	350,358	O	O
+,	358,359	O	O
+their	360,365	O	O
+quantum	366,373	O	O
+properties	374,384	O	O
+are	385,388	O	O
+not	389,392	O	O
+straightforward	393,408	O	O
+to	409,411	O	O
+determine	412,421	O	O
+.	421,422	O	O
+
+Nevertheless	423,435	O	O
+,	435,436	O	O
+following	437,446	O	O
+Lüscher	447,454	O	O
+[	455,456	O	O
+6	456,457	O	O
+]	457,458	O	O
+,	458,459	O	O
+Abdalla	460,467	O	O
+,	467,468	O	O
+Forger	469,475	O	O
+and	476,479	O	O
+Gomes	480,485	O	O
+showed	486,492	O	O
+[	493,494	O	O
+7	494,495	O	O
+]	495,496	O	O
+that	497,501	O	O
+,	501,502	O	O
+in	503,505	O	O
+a	506,507	O	O
+G	508,509	O	B-Task
+/	509,510	O	I-Task
+H	510,511	O	I-Task
+sigma	512,517	O	I-Task
+model	518,523	O	I-Task
+with	524,528	O	I-Task
+H	529,530	O	I-Task
+simple,11Here	531,544	O	I-Task
+,	544,545	O	O
+and	546,549	O	O
+throughout	550,560	O	O
+this	561,565	O	O
+Letter	566,572	O	O
+,	572,573	O	O
+we	574,576	O	O
+shall	577,582	O	O
+use	583,586	O	O
+‘	587,588	O	O
+simple’	588,595	O	B-Process
+to	596,598	O	O
+mean	599,603	O	O
+that	604,608	O	O
+the	609,612	O	O
+corresponding	613,626	O	B-Process
+Lie	627,630	O	I-Process
+algebra	631,638	O	I-Process
+has	639,642	O	I-Process
+no	643,645	O	I-Process
+non	646,649	O	I-Process
+-	649,650	O	I-Process
+trivial	650,657	O	I-Process
+ideals	658,664	O	I-Process
+.	664,665	O	O
+
+Hence	666,671	O	O
+U(1	672,675	O	O
+)	675,676	O	O
+is	677,679	O	O
+simple	680,686	O	O
+in	687,689	O	O
+our	690,693	O	O
+terminology	694,705	O	O
+,	705,706	O	O
+in	707,709	O	O
+addition	710,718	O	O
+to	719,721	O	O
+the	722,725	O	O
+usual	726,731	O	O
+non	732,735	O	O
+-	735,736	O	O
+Abelian	736,743	O	O
+simple	744,750	O	O
+groups	751,757	O	O
+of	758,760	O	O
+the	761,764	O	O
+Cartan	765,771	O	O
+–	771,772	O	O
+Killing	772,779	O	O
+classification	780,794	O	O
+[	795,796	O	O
+13	796,798	O	O
+]	798,799	O	O
+.	799,800	O	O
+
+the	801,804	O	O
+first	805,810	O	O
+conserved	811,820	O	O
+non	821,824	O	O
+-	824,825	O	O
+local	825,830	O	O
+charge	831,837	O	O
+survives	838,846	O	O
+quantization	847,859	O	B-Process
+(	860,861	O	O
+after	861,866	O	O
+an	867,869	O	O
+appropriate	870,881	O	O
+renormalization	882,897	O	B-Process
+[	898,899	O	O
+6–8	899,902	O	O
+]	902,903	O	O
+)	903,904	O	O
+,	904,905	O	O
+which	906,911	O	O
+suffices	912,920	O	O
+to	921,923	O	O
+ensure	924,930	O	O
+quantum	931,938	O	B-Task
+integrability	939,952	O	I-Task
+of	953,955	O	O
+the	956,959	O	O
+theory	960,966	O	O
+.	966,967	O	O
+
+By	968,970	O	O
+contrast	971,979	O	O
+,	979,980	O	O
+calculations	981,993	O	B-Process
+using	994,999	O	I-Process
+the	1000,1003	O	I-Process
+1/N	1004,1007	O	I-Process
+expansion	1008,1017	O	I-Process
+reveal	1018,1024	O	O
+anomalies	1025,1034	O	O
+that	1035,1039	O	O
+spoil	1040,1045	O	O
+the	1046,1049	O	O
+conservation	1050,1062	O	B-Task
+of	1063,1065	O	I-Task
+the	1066,1069	O	I-Task
+quantum	1070,1077	O	I-Task
+non	1078,1081	O	I-Task
+-	1081,1082	O	I-Task
+local	1082,1087	O	I-Task
+charges	1088,1095	O	I-Task
+in	1096,1098	O	O
+the	1099,1102	O	O
+CPN−1=SU(N)/SU(N−1)×U(1	1103,1126	O	B-Process
+)	1126,1127	O	I-Process
+models	1128,1134	O	I-Process
+for	1135,1138	O	I-Process
+N>2	1139,1142	O	I-Process
+,	1142,1143	O	O
+and	1144,1147	O	O
+in	1148,1150	O	O
+the	1151,1154	O	O
+wider	1155,1160	O	O
+class	1161,1166	O	O
+of	1167,1169	O	O
+theories	1170,1178	O	O
+based	1179,1184	O	O
+on	1185,1187	O	O
+the	1188,1191	O	O
+complex	1192,1199	O	B-Process
+Grassmannians	1200,1213	O	I-Process
+SU(N)/SU(n)×SU(N−n)×U(1	1214,1237	O	I-Process
+)	1237,1238	O	I-Process
+for	1239,1242	O	I-Process
+N	1243,1244	O	I-Process
+>	1244,1245	O	I-Process
+n>1	1245,1248	O	I-Process
+[	1249,1250	O	O
+9	1250,1251	O	O
+]	1251,1252	O	O
+.	1252,1253	O	O
 
 
 -DOCSTART- (S0370269304006756)
 
-We	0	2	O
-propose	3	10	O
-a	11	12	O
-method	13	19	O
-for	20	23	O
-the	24	27	O
-lattice	28	35	B-Task
-QCD	36	39	I-Task
-computation	40	51	I-Task
-of	52	54	I-Task
-nucleon	55	62	I-Task
-–	62	63	I-Task
-nucleon	63	70	I-Task
-low	71	74	I-Task
--	74	75	I-Task
-energy	75	81	I-Task
-interactions	82	94	I-Task
-.	94	95	O
-
-It	96	98	O
-consists	99	107	O
-in	108	110	O
-simulating	111	121	B-Process
-QCD	122	125	I-Process
-in	126	128	O
-the	129	132	O
-background	133	143	O
-of	144	146	O
-a	147	148	O
-“	149	150	O
-electromagnetic	150	165	B-Material
-”	165	166	I-Material
-field	167	172	I-Material
-whose	173	178	O
-potential	179	188	O
-is	189	191	O
-non	192	195	O
--	195	196	O
-vanishing	196	205	O
-,	205	206	O
-but	207	210	O
-whose	211	216	O
-field	217	222	B-Process
-strength	223	231	I-Process
-is	232	234	I-Process
-zero	235	239	I-Process
-.	239	240	O
-
-By	241	243	O
-tuning	244	250	B-Process
-the	251	254	I-Process
-background	255	265	I-Process
-field	266	271	I-Process
-,	271	272	O
-phase	273	278	B-Task
--	278	279	I-Task
-shifts	279	285	I-Task
-at	286	288	I-Task
-any	289	292	I-Task
-(	293	294	I-Task
-but	294	297	I-Task
-small	298	303	I-Task
-)	303	304	I-Task
-momenta	305	312	I-Task
-can	313	316	O
-be	317	319	O
-determined	320	330	O
-by	331	333	O
-measuring	334	343	B-Process
-the	344	347	I-Process
-shift	348	353	I-Process
-of	354	356	I-Process
-the	357	360	I-Process
-ground	361	367	I-Process
-state	368	373	I-Process
-energy	374	380	I-Process
-.	380	381	O
-
-Lattice	382	389	B-Material
-sizes	390	395	I-Material
-as	396	398	O
-small	399	404	O
-as	405	407	O
-5	408	409	O
-Fermi	410	415	O
-can	416	419	O
-be	420	422	O
-sufficient	423	433	O
-for	434	437	O
-the	438	441	O
-calculation	442	453	B-Task
-of	454	456	I-Task
-phase	457	462	I-Task
-shifts	463	469	I-Task
-up	470	472	O
-to	473	475	O
-momenta	476	483	O
-of	484	486	O
-order	487	492	O
-of	493	495	O
-mπ/2	496	500	O
-.	500	501	O
+We	0,2	O	O
+propose	3,10	O	O
+a	11,12	O	O
+method	13,19	O	O
+for	20,23	O	O
+the	24,27	O	O
+lattice	28,35	O	B-Task
+QCD	36,39	O	I-Task
+computation	40,51	O	I-Task
+of	52,54	O	I-Task
+nucleon	55,62	O	I-Task
+–	62,63	O	I-Task
+nucleon	63,70	O	I-Task
+low	71,74	O	I-Task
+-	74,75	O	I-Task
+energy	75,81	O	I-Task
+interactions	82,94	O	I-Task
+.	94,95	O	O
+
+It	96,98	O	O
+consists	99,107	O	O
+in	108,110	O	O
+simulating	111,121	O	B-Process
+QCD	122,125	O	I-Process
+in	126,128	O	O
+the	129,132	O	O
+background	133,143	O	O
+of	144,146	O	O
+a	147,148	O	O
+“	149,150	O	O
+electromagnetic	150,165	O	B-Material
+”	165,166	O	I-Material
+field	167,172	O	I-Material
+whose	173,178	O	O
+potential	179,188	O	O
+is	189,191	O	O
+non	192,195	O	O
+-	195,196	O	O
+vanishing	196,205	O	O
+,	205,206	O	O
+but	207,210	O	O
+whose	211,216	O	O
+field	217,222	O	B-Process
+strength	223,231	O	I-Process
+is	232,234	O	I-Process
+zero	235,239	O	I-Process
+.	239,240	O	O
+
+By	241,243	O	O
+tuning	244,250	O	B-Process
+the	251,254	O	I-Process
+background	255,265	O	I-Process
+field	266,271	O	I-Process
+,	271,272	O	O
+phase	273,278	O	B-Task
+-	278,279	O	I-Task
+shifts	279,285	O	I-Task
+at	286,288	O	I-Task
+any	289,292	O	I-Task
+(	293,294	O	I-Task
+but	294,297	O	I-Task
+small	298,303	O	I-Task
+)	303,304	O	I-Task
+momenta	305,312	O	I-Task
+can	313,316	O	O
+be	317,319	O	O
+determined	320,330	O	O
+by	331,333	O	O
+measuring	334,343	O	B-Process
+the	344,347	O	I-Process
+shift	348,353	O	I-Process
+of	354,356	O	I-Process
+the	357,360	O	I-Process
+ground	361,367	O	I-Process
+state	368,373	O	I-Process
+energy	374,380	O	I-Process
+.	380,381	O	O
+
+Lattice	382,389	O	B-Material
+sizes	390,395	O	I-Material
+as	396,398	O	O
+small	399,404	O	O
+as	405,407	O	O
+5	408,409	O	O
+Fermi	410,415	O	O
+can	416,419	O	O
+be	420,422	O	O
+sufficient	423,433	O	O
+for	434,437	O	O
+the	438,441	O	O
+calculation	442,453	O	B-Task
+of	454,456	O	I-Task
+phase	457,462	O	I-Task
+shifts	463,469	O	I-Task
+up	470,472	O	O
+to	473,475	O	O
+momenta	476,483	O	O
+of	484,486	O	O
+order	487,492	O	O
+of	493,495	O	O
+mπ/2	496,500	O	O
+.	500,501	O	O
 
 
 -DOCSTART- (S0370269304006768)
 
-In	0	2	O
-our	3	6	O
-study	7	12	O
-we	13	15	O
-illustrate	16	26	O
-the	27	30	O
-properties	31	41	O
-of	42	44	O
-gauge	45	50	O
-invariant	51	60	B-Task
-extensions	61	71	I-Task
-of	72	74	I-Task
-local	75	80	I-Task
-functionals	81	92	I-Task
-.	92	93	O
-
-We	94	96	O
-aim	97	100	O
-at	101	103	O
-clarifying	104	114	O
-,	114	115	O
-via	116	119	O
-specific	120	128	O
-examples	129	137	O
-,	137	138	O
-the	139	142	O
-relation	143	151	O
-between	152	159	O
-a	160	161	O
-functional	162	172	B-Task
-which	173	178	I-Task
-is	179	181	I-Task
-local	182	187	I-Task
-in	188	190	I-Task
-a	191	192	I-Task
-particular	193	203	I-Task
-gauge	204	209	I-Task
-(	210	211	O
-but	211	214	O
-not	215	218	O
-necessarily	219	230	O
-gauge	231	236	O
-invariant	237	246	O
-)	246	247	O
-,	247	248	O
-and	249	252	O
-its	253	256	B-Task
-gauge	257	262	I-Task
-invariant	263	272	I-Task
-extension	273	282	I-Task
-(	283	284	O
-which	284	289	O
-is	290	292	O
-not	293	296	O
-necessarily	297	308	O
-local	309	314	O
-)	314	315	O
-.	315	316	O
-
-We	317	319	O
-show	320	324	O
-that	325	329	O
-the	330	333	O
-non	334	337	B-Process
--	337	338	I-Process
-localities	338	348	I-Process
-found	349	354	I-Process
-are	355	358	O
-not	359	362	O
-perturbatively	363	377	O
-local	378	383	O
-because	384	391	O
-they	392	396	O
-can	397	400	O
-not	400	403	O
-be	404	406	O
-expressed	407	416	O
-in	417	419	O
-terms	420	425	O
-of	426	428	O
-an	429	431	O
-infinite	432	440	B-Process
-derivative	441	451	I-Process
-expansion	452	461	I-Process
-.	461	462	O
-
-We	463	465	O
-believe	466	473	O
-that	474	478	O
-the	479	482	O
-implications	483	495	O
-of	496	498	O
-this	499	503	O
-observation	504	515	O
-have	516	520	O
-not	521	524	O
-been	525	529	O
-clearly	530	537	O
-emphasised	538	548	O
-in	549	551	O
-the	552	555	O
-literature	556	566	O
-,	566	567	O
-as	568	570	O
-attested	571	579	O
-by	580	582	O
-the	583	586	O
-absence	587	594	O
-of	595	597	O
-any	598	601	O
-debate	602	608	O
-about	609	614	O
-it	615	617	O
-in	618	620	O
-recent	621	627	O
-works	628	633	O
-.	633	634	O
-
-It	635	637	O
-is	638	640	O
-precisely	641	650	O
-these	651	656	O
-dangerous	657	666	O
-infrared	667	675	B-Task
-modes	676	681	I-Task
-that	682	686	O
-make	687	691	O
-it	692	694	O
-hard	695	699	O
-to	700	702	O
-define	703	709	O
-a	710	711	O
-gauge	712	717	B-Process
-independent	718	729	I-Process
-renormalisation	730	745	I-Process
-for	746	749	O
-the	750	753	O
-gauge	754	759	B-Task
-invariant	760	769	I-Task
-extensions	770	780	I-Task
-of	781	783	I-Task
-local	784	789	I-Task
-functionals	790	801	I-Task
-.	801	802	O
-
-This	803	807	O
-observation	808	819	O
-supports	820	828	O
-the	829	832	O
-remark	833	839	O
-in	840	842	O
-[	843	844	O
-2	844	845	O
-]	845	846	O
-that	847	851	O
-the	852	855	O
-expectation	856	867	B-Task
-value	868	873	I-Task
-receives	874	882	O
-important	883	892	O
-contributions	893	906	O
-from	907	911	O
-both	912	916	O
-large	917	922	O
-and	923	926	O
-small	927	932	O
-distances	933	942	O
-.	942	943	O
-
-Our	944	947	O
-arguments	948	957	O
-on	958	960	O
-renormalisability	961	978	B-Task
-are	979	982	O
-based	983	988	O
-on	989	991	O
-the	992	995	O
-notion	996	1002	B-Process
-of	1003	1005	I-Process
-renormalisation	1006	1021	I-Process
-in	1022	1024	O
-the	1025	1028	O
-modern	1029	1035	O
-sense	1036	1041	O
-[	1042	1043	O
-8	1043	1044	O
-]	1044	1045	O
-which	1046	1051	O
-relies	1052	1058	O
-on	1059	1061	O
-BRST	1062	1066	B-Process
-cohomology	1067	1077	I-Process
-theorems	1078	1086	I-Process
-.	1086	1087	O
-
-The	1088	1091	O
-BRST	1092	1096	B-Material
-terminology	1097	1108	I-Material
-will	1109	1113	O
-therefore	1114	1123	O
-be	1124	1126	O
-frequently	1127	1137	O
-used	1138	1142	O
-here	1143	1147	O
-,	1147	1148	O
-even	1149	1153	O
-though	1154	1160	O
-it	1161	1163	O
-is	1164	1166	O
-not	1167	1170	O
-always	1171	1177	O
-necessary	1178	1187	O
-.	1187	1188	O
+In	0,2	O	O
+our	3,6	O	O
+study	7,12	O	O
+we	13,15	O	O
+illustrate	16,26	O	O
+the	27,30	O	O
+properties	31,41	O	O
+of	42,44	O	O
+gauge	45,50	O	O
+invariant	51,60	O	B-Task
+extensions	61,71	O	I-Task
+of	72,74	O	I-Task
+local	75,80	O	I-Task
+functionals	81,92	O	I-Task
+.	92,93	O	O
+
+We	94,96	O	O
+aim	97,100	O	O
+at	101,103	O	O
+clarifying	104,114	O	O
+,	114,115	O	O
+via	116,119	O	O
+specific	120,128	O	O
+examples	129,137	O	O
+,	137,138	O	O
+the	139,142	O	O
+relation	143,151	O	O
+between	152,159	O	O
+a	160,161	O	O
+functional	162,172	O	B-Task
+which	173,178	O	I-Task
+is	179,181	O	I-Task
+local	182,187	O	I-Task
+in	188,190	O	I-Task
+a	191,192	O	I-Task
+particular	193,203	O	I-Task
+gauge	204,209	O	I-Task
+(	210,211	O	O
+but	211,214	O	O
+not	215,218	O	O
+necessarily	219,230	O	O
+gauge	231,236	O	O
+invariant	237,246	O	O
+)	246,247	O	O
+,	247,248	O	O
+and	249,252	O	O
+its	253,256	O	B-Task
+gauge	257,262	O	I-Task
+invariant	263,272	O	I-Task
+extension	273,282	O	I-Task
+(	283,284	O	O
+which	284,289	O	O
+is	290,292	O	O
+not	293,296	O	O
+necessarily	297,308	O	O
+local	309,314	O	O
+)	314,315	O	O
+.	315,316	O	O
+
+We	317,319	O	O
+show	320,324	O	O
+that	325,329	O	O
+the	330,333	O	O
+non	334,337	O	B-Process
+-	337,338	O	I-Process
+localities	338,348	O	I-Process
+found	349,354	O	I-Process
+are	355,358	O	O
+not	359,362	O	O
+perturbatively	363,377	O	O
+local	378,383	O	O
+because	384,391	O	O
+they	392,396	O	O
+can	397,400	O	O
+not	400,403	O	O
+be	404,406	O	O
+expressed	407,416	O	O
+in	417,419	O	O
+terms	420,425	O	O
+of	426,428	O	O
+an	429,431	O	O
+infinite	432,440	O	B-Process
+derivative	441,451	O	I-Process
+expansion	452,461	O	I-Process
+.	461,462	O	O
+
+We	463,465	O	O
+believe	466,473	O	O
+that	474,478	O	O
+the	479,482	O	O
+implications	483,495	O	O
+of	496,498	O	O
+this	499,503	O	O
+observation	504,515	O	O
+have	516,520	O	O
+not	521,524	O	O
+been	525,529	O	O
+clearly	530,537	O	O
+emphasised	538,548	O	O
+in	549,551	O	O
+the	552,555	O	O
+literature	556,566	O	O
+,	566,567	O	O
+as	568,570	O	O
+attested	571,579	O	O
+by	580,582	O	O
+the	583,586	O	O
+absence	587,594	O	O
+of	595,597	O	O
+any	598,601	O	O
+debate	602,608	O	O
+about	609,614	O	O
+it	615,617	O	O
+in	618,620	O	O
+recent	621,627	O	O
+works	628,633	O	O
+.	633,634	O	O
+
+It	635,637	O	O
+is	638,640	O	O
+precisely	641,650	O	O
+these	651,656	O	O
+dangerous	657,666	O	O
+infrared	667,675	O	B-Task
+modes	676,681	O	I-Task
+that	682,686	O	O
+make	687,691	O	O
+it	692,694	O	O
+hard	695,699	O	O
+to	700,702	O	O
+define	703,709	O	O
+a	710,711	O	O
+gauge	712,717	O	B-Process
+independent	718,729	O	I-Process
+renormalisation	730,745	O	I-Process
+for	746,749	O	O
+the	750,753	O	O
+gauge	754,759	O	B-Task
+invariant	760,769	O	I-Task
+extensions	770,780	O	I-Task
+of	781,783	O	I-Task
+local	784,789	O	I-Task
+functionals	790,801	O	I-Task
+.	801,802	O	O
+
+This	803,807	O	O
+observation	808,819	O	O
+supports	820,828	O	O
+the	829,832	O	O
+remark	833,839	O	O
+in	840,842	O	O
+[	843,844	O	O
+2	844,845	O	O
+]	845,846	O	O
+that	847,851	O	O
+the	852,855	O	O
+expectation	856,867	O	B-Task
+value	868,873	O	I-Task
+receives	874,882	O	O
+important	883,892	O	O
+contributions	893,906	O	O
+from	907,911	O	O
+both	912,916	O	O
+large	917,922	O	O
+and	923,926	O	O
+small	927,932	O	O
+distances	933,942	O	O
+.	942,943	O	O
+
+Our	944,947	O	O
+arguments	948,957	O	O
+on	958,960	O	O
+renormalisability	961,978	O	B-Task
+are	979,982	O	O
+based	983,988	O	O
+on	989,991	O	O
+the	992,995	O	O
+notion	996,1002	O	B-Process
+of	1003,1005	O	I-Process
+renormalisation	1006,1021	O	I-Process
+in	1022,1024	O	O
+the	1025,1028	O	O
+modern	1029,1035	O	O
+sense	1036,1041	O	O
+[	1042,1043	O	O
+8	1043,1044	O	O
+]	1044,1045	O	O
+which	1046,1051	O	O
+relies	1052,1058	O	O
+on	1059,1061	O	O
+BRST	1062,1066	O	B-Process
+cohomology	1067,1077	O	I-Process
+theorems	1078,1086	O	I-Process
+.	1086,1087	O	O
+
+The	1088,1091	O	O
+BRST	1092,1096	O	B-Material
+terminology	1097,1108	O	I-Material
+will	1109,1113	O	O
+therefore	1114,1123	O	O
+be	1124,1126	O	O
+frequently	1127,1137	O	O
+used	1138,1142	O	O
+here	1143,1147	O	O
+,	1147,1148	O	O
+even	1149,1153	O	O
+though	1154,1160	O	O
+it	1161,1163	O	O
+is	1164,1166	O	O
+not	1167,1170	O	O
+always	1171,1177	O	O
+necessary	1178,1187	O	O
+.	1187,1188	O	O
 
 
 -DOCSTART- (S037026930400680X)
 
-Certainly	0	9	O
-therefore	10	19	O
-the	20	23	O
-see	24	27	B-Process
--	27	28	I-Process
-saw	28	31	I-Process
-mechanism	32	41	I-Process
-is	42	44	O
-an	45	47	O
-attractive	48	58	O
-explanation	59	70	O
-of	71	73	O
-why	74	77	O
-the	78	81	O
-light	82	87	B-Task
-neutrino	88	96	I-Task
-masses	97	103	I-Task
-are	104	107	O
-so	108	110	O
-small	111	116	O
-.	116	117	O
-
-However	118	125	O
-,	125	126	O
-it	127	129	O
-is	130	132	O
-not	133	136	O
-without	137	144	O
-its	145	148	O
-faults	149	155	O
-.	155	156	O
-
-In	157	159	O
-particular	160	170	O
-,	170	171	O
-there	172	177	O
-is	178	180	O
-a	181	182	O
-tension	183	190	O
-between	191	198	O
-the	199	202	O
-strongly	203	211	O
-hierarchical	212	224	O
-nature	225	231	O
-of	232	234	O
-the	235	238	O
-observed	239	247	O
-Yukawa	248	254	B-Task
-couplings	255	264	I-Task
-in	265	267	I-Task
-the	268	271	I-Task
-quark	272	277	I-Task
-and	278	281	I-Task
-charged	282	289	I-Task
-lepton	290	296	I-Task
-sectors	297	304	I-Task
-,	304	305	O
-and	306	309	O
-the	310	313	O
-essentially	314	325	O
-hierarchy	326	335	B-Task
--	335	336	I-Task
-free	336	340	I-Task
-masses	341	347	I-Task
-implied	348	355	I-Task
-by	356	358	I-Task
-the	359	362	I-Task
-Δm2	363	366	I-Task
-'s	366	368	I-Task
-.	368	369	O
-
-Moreover	370	378	O
-,	378	379	O
-both	380	384	O
-the	385	388	O
-θ12	389	392	B-Task
-and	393	396	I-Task
-θ23	397	400	I-Task
-mixing	401	407	I-Task
-angles	408	414	I-Task
-are	415	418	O
-large	419	424	O
-while	425	430	O
-the	431	434	B-Task
-angle	435	440	I-Task
-θ13	441	444	I-Task
-is	445	447	O
-small	448	453	O
-which	454	459	O
-is	460	462	O
-in	463	465	O
-sharp	466	471	O
-contrast	472	480	O
-with	481	485	O
-the	486	489	O
-corresponding	490	503	O
-mixings	504	511	O
-in	512	514	O
-the	515	518	O
-quark	519	524	B-Process
-sector	525	531	I-Process
-which	532	537	O
-are	538	541	O
-all	542	545	O
-small	546	551	O
-.	551	552	O
-
-These	553	558	O
-problems	559	567	O
-can	568	571	O
-be	572	574	O
-solved	575	581	O
-in	582	584	O
-specific	585	593	O
-models	594	600	O
-,	600	601	O
-for	602	605	O
-example	606	613	O
-,	613	614	O
-the	615	618	O
-Δm2	619	622	B-Process
-values	623	629	I-Process
-can	630	633	I-Process
-be	634	636	I-Process
-fitted	637	643	I-Process
-by	644	646	I-Process
-taking	647	653	I-Process
-the	654	657	I-Process
-spectrum	658	666	I-Process
-of	667	669	I-Process
-rhd	670	673	I-Process
-neutrino	674	682	I-Process
-masses	683	689	I-Process
-to	690	692	O
-be	693	695	O
-hierarchical	696	708	O
-in	709	711	O
-such	712	716	O
-a	717	718	O
-way	719	722	O
-as	723	725	O
-to	726	728	O
-almost	729	735	O
-compensate	736	746	O
-for	747	750	O
-the	751	754	O
-hierarchical	755	767	B-Process
-neutrino	768	776	I-Process
-Yukawa	777	783	I-Process
-couplings	784	793	I-Process
-.	793	794	O
-
-But	795	798	O
-this	799	803	O
-has	804	807	O
-the	808	811	O
-price	812	817	O
-of	818	820	O
-introducing	821	832	O
-a	833	834	O
-wide	835	839	O
-range	840	845	O
-of	846	848	O
-rhd	849	852	B-Material
-neutrino	853	861	I-Material
-masses	862	868	I-Material
-MR∼1010–1015	869	881	B-Material
-which	882	887	O
-then	888	892	O
-require	893	900	O
-explanation	901	912	O
-.	912	913	O
+Certainly	0,9	O	O
+therefore	10,19	O	O
+the	20,23	O	O
+see	24,27	O	B-Process
+-	27,28	O	I-Process
+saw	28,31	O	I-Process
+mechanism	32,41	O	I-Process
+is	42,44	O	O
+an	45,47	O	O
+attractive	48,58	O	O
+explanation	59,70	O	O
+of	71,73	O	O
+why	74,77	O	O
+the	78,81	O	O
+light	82,87	O	B-Task
+neutrino	88,96	O	I-Task
+masses	97,103	O	I-Task
+are	104,107	O	O
+so	108,110	O	O
+small	111,116	O	O
+.	116,117	O	O
+
+However	118,125	O	O
+,	125,126	O	O
+it	127,129	O	O
+is	130,132	O	O
+not	133,136	O	O
+without	137,144	O	O
+its	145,148	O	O
+faults	149,155	O	O
+.	155,156	O	O
+
+In	157,159	O	O
+particular	160,170	O	O
+,	170,171	O	O
+there	172,177	O	O
+is	178,180	O	O
+a	181,182	O	O
+tension	183,190	O	O
+between	191,198	O	O
+the	199,202	O	O
+strongly	203,211	O	O
+hierarchical	212,224	O	O
+nature	225,231	O	O
+of	232,234	O	O
+the	235,238	O	O
+observed	239,247	O	O
+Yukawa	248,254	O	B-Task
+couplings	255,264	O	I-Task
+in	265,267	O	I-Task
+the	268,271	O	I-Task
+quark	272,277	O	I-Task
+and	278,281	O	I-Task
+charged	282,289	O	I-Task
+lepton	290,296	O	I-Task
+sectors	297,304	O	I-Task
+,	304,305	O	O
+and	306,309	O	O
+the	310,313	O	O
+essentially	314,325	O	O
+hierarchy	326,335	O	B-Task
+-	335,336	O	I-Task
+free	336,340	O	I-Task
+masses	341,347	O	I-Task
+implied	348,355	O	I-Task
+by	356,358	O	I-Task
+the	359,362	O	I-Task
+Δm2	363,366	O	I-Task
+'s	366,368	O	I-Task
+.	368,369	O	O
+
+Moreover	370,378	O	O
+,	378,379	O	O
+both	380,384	O	O
+the	385,388	O	O
+θ12	389,392	O	B-Task
+and	393,396	O	I-Task
+θ23	397,400	O	I-Task
+mixing	401,407	O	I-Task
+angles	408,414	O	I-Task
+are	415,418	O	O
+large	419,424	O	O
+while	425,430	O	O
+the	431,434	O	B-Task
+angle	435,440	O	I-Task
+θ13	441,444	O	I-Task
+is	445,447	O	O
+small	448,453	O	O
+which	454,459	O	O
+is	460,462	O	O
+in	463,465	O	O
+sharp	466,471	O	O
+contrast	472,480	O	O
+with	481,485	O	O
+the	486,489	O	O
+corresponding	490,503	O	O
+mixings	504,511	O	O
+in	512,514	O	O
+the	515,518	O	O
+quark	519,524	O	B-Process
+sector	525,531	O	I-Process
+which	532,537	O	O
+are	538,541	O	O
+all	542,545	O	O
+small	546,551	O	O
+.	551,552	O	O
+
+These	553,558	O	O
+problems	559,567	O	O
+can	568,571	O	O
+be	572,574	O	O
+solved	575,581	O	O
+in	582,584	O	O
+specific	585,593	O	O
+models	594,600	O	O
+,	600,601	O	O
+for	602,605	O	O
+example	606,613	O	O
+,	613,614	O	O
+the	615,618	O	O
+Δm2	619,622	O	B-Process
+values	623,629	O	I-Process
+can	630,633	O	I-Process
+be	634,636	O	I-Process
+fitted	637,643	O	I-Process
+by	644,646	O	I-Process
+taking	647,653	O	I-Process
+the	654,657	O	I-Process
+spectrum	658,666	O	I-Process
+of	667,669	O	I-Process
+rhd	670,673	O	I-Process
+neutrino	674,682	O	I-Process
+masses	683,689	O	I-Process
+to	690,692	O	O
+be	693,695	O	O
+hierarchical	696,708	O	O
+in	709,711	O	O
+such	712,716	O	O
+a	717,718	O	O
+way	719,722	O	O
+as	723,725	O	O
+to	726,728	O	O
+almost	729,735	O	O
+compensate	736,746	O	O
+for	747,750	O	O
+the	751,754	O	O
+hierarchical	755,767	O	B-Process
+neutrino	768,776	O	I-Process
+Yukawa	777,783	O	I-Process
+couplings	784,793	O	I-Process
+.	793,794	O	O
+
+But	795,798	O	O
+this	799,803	O	O
+has	804,807	O	O
+the	808,811	O	O
+price	812,817	O	O
+of	818,820	O	O
+introducing	821,832	O	O
+a	833,834	O	O
+wide	835,839	O	O
+range	840,845	O	O
+of	846,848	O	O
+rhd	849,852	O	B-Material
+neutrino	853,861	O	I-Material
+masses	862,868	O	I-Material
+MR∼1010–1015	869,881	O	B-Material
+which	882,887	O	O
+then	888,892	O	O
+require	893,900	O	O
+explanation	901,912	O	O
+.	912,913	O	O
 
 
 -DOCSTART- (S0370269304007129)
 
-We	0	2	O
-analyze	3	10	O
-the	11	14	O
-diagonal	15	23	B-Task
-and	24	27	I-Task
-transition	28	38	I-Task
-magnetic	39	47	I-Task
-and	48	51	I-Task
-electric	52	60	I-Task
-dipole	61	67	I-Task
-moments	68	75	I-Task
-of	76	78	I-Task
-charged	79	86	I-Task
-leptons	87	94	I-Task
-in	95	97	O
-extended	98	106	B-Process
-technicolor	107	118	I-Process
-(	119	120	O
-ETC	120	123	B-Process
-)	123	124	O
-models	125	131	O
-,	131	132	O
-taking	133	139	O
-account	140	147	O
-of	148	150	O
-the	151	154	O
-multiscale	155	165	O
-nature	166	172	O
-of	173	175	O
-the	176	179	O
-ETC	180	183	B-Process
-gauge	184	189	B-Process
-symmetry	190	198	I-Process
-breaking	199	207	I-Process
-,	207	208	O
-conformal	209	218	B-Process
-(	219	220	I-Process
-walking	220	227	I-Process
-)	227	228	I-Process
-behavior	229	237	I-Process
-of	238	240	I-Process
-the	241	244	I-Process
-technicolor	245	256	I-Process
-theory	257	263	I-Process
-,	263	264	O
-and	265	268	O
-mixing	269	275	B-Process
-in	276	278	I-Process
-the	279	282	I-Process
-charged	283	290	I-Process
--	290	291	I-Process
-lepton	291	297	I-Process
-mass	298	302	I-Process
-matrix	303	309	I-Process
-.	309	310	O
-
-We	311	313	O
-show	314	318	O
-that	319	323	O
-mixing	324	330	B-Task
-effects	331	338	I-Task
-dominate	339	347	O
-the	348	351	O
-ETC	352	355	B-Process
-contributions	356	369	O
-to	370	372	O
-charged	373	380	B-Task
-lepton	381	387	I-Task
-electric	388	396	I-Task
-dipole	397	403	I-Task
-moments	404	411	I-Task
-and	412	415	O
-that	416	420	O
-these	421	426	O
-can	427	430	O
-yield	431	436	O
-a	437	438	O
-value	439	444	B-Process
-of	445	447	I-Process
-|de|	448	452	I-Process
-comparable	453	463	O
-to	464	466	O
-the	467	470	O
-current	471	478	O
-limit	479	484	O
-.	484	485	O
-
-The	486	489	O
-rate	490	494	B-Process
-for	495	498	I-Process
-μ→eγ	499	503	I-Process
-can	504	507	O
-also	508	512	O
-be	513	515	O
-close	516	521	O
-to	522	524	O
-its	525	528	O
-limit	529	534	O
-.	534	535	O
-
-From	536	540	O
-these	541	546	O
-and	547	550	O
-other	551	556	O
-processes	557	566	O
-we	567	569	O
-derive	570	576	O
-constraints	577	588	O
-on	589	591	O
-the	592	595	O
-charged	596	603	B-Task
-lepton	604	610	I-Task
-mixing	611	617	I-Task
-angles	618	624	I-Task
-.	624	625	O
-
-The	626	629	O
-constraints	630	641	O
-are	642	645	O
-such	646	650	O
-that	651	655	O
-the	656	659	O
-ETC	660	663	B-Process
-contribution	664	676	O
-to	677	679	O
-the	680	683	O
-muon	684	688	B-Task
-anomalous	689	698	I-Task
-magnetic	699	707	I-Task
-moment	708	714	I-Task
-,	714	715	O
-which	716	721	O
-includes	722	730	O
-a	731	732	O
-significant	733	744	O
-lepton	745	751	B-Process
-mixing	752	758	I-Process
-term	759	763	I-Process
-,	763	764	O
-can	765	768	O
-approach	769	777	O
-,	777	778	O
-but	779	782	O
-does	783	787	O
-not	788	791	O
-exceed	792	798	O
-,	798	799	O
-the	800	803	O
-current	804	811	O
-sensitivity	812	823	O
-level	824	829	O
-.	829	830	O
+We	0,2	O	O
+analyze	3,10	O	O
+the	11,14	O	O
+diagonal	15,23	O	B-Task
+and	24,27	O	I-Task
+transition	28,38	O	I-Task
+magnetic	39,47	O	I-Task
+and	48,51	O	I-Task
+electric	52,60	O	I-Task
+dipole	61,67	O	I-Task
+moments	68,75	O	I-Task
+of	76,78	O	I-Task
+charged	79,86	O	I-Task
+leptons	87,94	O	I-Task
+in	95,97	O	O
+extended	98,106	O	B-Process
+technicolor	107,118	O	I-Process
+(	119,120	O	O
+ETC	120,123	O	B-Process
+)	123,124	O	O
+models	125,131	O	O
+,	131,132	O	O
+taking	133,139	O	O
+account	140,147	O	O
+of	148,150	O	O
+the	151,154	O	O
+multiscale	155,165	O	O
+nature	166,172	O	O
+of	173,175	O	O
+the	176,179	O	O
+ETC	180,183	O	B-Process
+gauge	184,189	O	B-Process
+symmetry	190,198	O	I-Process
+breaking	199,207	O	I-Process
+,	207,208	O	O
+conformal	209,218	O	B-Process
+(	219,220	O	I-Process
+walking	220,227	O	I-Process
+)	227,228	O	I-Process
+behavior	229,237	O	I-Process
+of	238,240	O	I-Process
+the	241,244	O	I-Process
+technicolor	245,256	O	I-Process
+theory	257,263	O	I-Process
+,	263,264	O	O
+and	265,268	O	O
+mixing	269,275	O	B-Process
+in	276,278	O	I-Process
+the	279,282	O	I-Process
+charged	283,290	O	I-Process
+-	290,291	O	I-Process
+lepton	291,297	O	I-Process
+mass	298,302	O	I-Process
+matrix	303,309	O	I-Process
+.	309,310	O	O
+
+We	311,313	O	O
+show	314,318	O	O
+that	319,323	O	O
+mixing	324,330	O	B-Task
+effects	331,338	O	I-Task
+dominate	339,347	O	O
+the	348,351	O	O
+ETC	352,355	O	B-Process
+contributions	356,369	O	O
+to	370,372	O	O
+charged	373,380	O	B-Task
+lepton	381,387	O	I-Task
+electric	388,396	O	I-Task
+dipole	397,403	O	I-Task
+moments	404,411	O	I-Task
+and	412,415	O	O
+that	416,420	O	O
+these	421,426	O	O
+can	427,430	O	O
+yield	431,436	O	O
+a	437,438	O	O
+value	439,444	O	B-Process
+of	445,447	O	I-Process
+|de|	448,452	O	I-Process
+comparable	453,463	O	O
+to	464,466	O	O
+the	467,470	O	O
+current	471,478	O	O
+limit	479,484	O	O
+.	484,485	O	O
+
+The	486,489	O	O
+rate	490,494	O	B-Process
+for	495,498	O	I-Process
+μ→eγ	499,503	O	I-Process
+can	504,507	O	O
+also	508,512	O	O
+be	513,515	O	O
+close	516,521	O	O
+to	522,524	O	O
+its	525,528	O	O
+limit	529,534	O	O
+.	534,535	O	O
+
+From	536,540	O	O
+these	541,546	O	O
+and	547,550	O	O
+other	551,556	O	O
+processes	557,566	O	O
+we	567,569	O	O
+derive	570,576	O	O
+constraints	577,588	O	O
+on	589,591	O	O
+the	592,595	O	O
+charged	596,603	O	B-Task
+lepton	604,610	O	I-Task
+mixing	611,617	O	I-Task
+angles	618,624	O	I-Task
+.	624,625	O	O
+
+The	626,629	O	O
+constraints	630,641	O	O
+are	642,645	O	O
+such	646,650	O	O
+that	651,655	O	O
+the	656,659	O	O
+ETC	660,663	O	B-Process
+contribution	664,676	O	O
+to	677,679	O	O
+the	680,683	O	O
+muon	684,688	O	B-Task
+anomalous	689,698	O	I-Task
+magnetic	699,707	O	I-Task
+moment	708,714	O	I-Task
+,	714,715	O	O
+which	716,721	O	O
+includes	722,730	O	O
+a	731,732	O	O
+significant	733,744	O	O
+lepton	745,751	O	B-Process
+mixing	752,758	O	I-Process
+term	759,763	O	I-Process
+,	763,764	O	O
+can	765,768	O	O
+approach	769,777	O	O
+,	777,778	O	O
+but	779,782	O	O
+does	783,787	O	O
+not	788,791	O	O
+exceed	792,798	O	O
+,	798,799	O	O
+the	800,803	O	O
+current	804,811	O	O
+sensitivity	812,823	O	O
+level	824,829	O	O
+.	829,830	O	O
 
 
 -DOCSTART- (S0370269304007208)
 
-It	0	2	O
-is	3	5	O
-well	6	10	O
-known	11	16	O
-that	17	21	O
-one	22	25	O
-of	26	28	O
-the	29	32	O
-long	33	37	O
-standing	38	46	O
-problems	47	55	O
-in	56	58	O
-physics	59	66	O
-is	67	69	O
-understanding	70	83	B-Task
-the	84	87	I-Task
-confinement	88	99	I-Task
-physics	100	107	I-Task
-from	108	112	I-Task
-first	113	118	I-Task
-principles	119	129	I-Task
-.	129	130	O
-
-Hence	131	136	O
-the	137	140	O
-challenge	141	150	O
-is	151	153	O
-to	154	156	O
-develop	157	164	B-Task
-analytical	165	175	I-Task
-approaches	176	186	I-Task
-which	187	192	O
-provide	193	200	O
-valuable	201	209	O
-insight	210	217	O
-and	218	221	O
-theoretical	222	233	O
-guidance	234	242	O
-.	242	243	O
-
-According	244	253	O
-to	254	256	O
-this	257	261	O
-viewpoint	262	271	O
-,	271	272	O
-an	273	275	O
-effective	276	285	O
-theory	286	292	O
-in	293	295	O
-which	296	301	O
-confining	302	311	O
-potentials	312	322	O
-are	323	326	O
-obtained	327	335	O
-as	336	338	O
-a	339	340	O
-consequence	341	352	O
-of	353	355	O
-spontaneous	356	367	B-Process
-symmetry	368	376	I-Process
-breaking	377	385	I-Process
-of	386	388	I-Process
-scale	389	394	I-Process
-invariance	395	405	I-Process
-has	406	409	O
-been	410	414	O
-developed	415	424	O
-[	425	426	O
-1	426	427	O
-]	427	428	O
-.	428	429	O
-
-In	430	432	O
-particular	433	443	O
-,	443	444	O
-it	445	447	O
-was	448	451	O
-shown	452	457	O
-that	458	462	O
-a	463	464	O
-such	465	469	O
-theory	470	476	O
-relies	477	483	O
-on	484	486	O
-a	487	488	O
-scale	489	494	B-Process
--	494	495	I-Process
-invariant	495	504	I-Process
-Lagrangian	505	515	I-Process
-of	516	518	O
-the	519	522	O
-type	523	527	O
-[	528	529	O
-2	529	530	O
-]	530	531	O
-(	532	533	O
-1)L=14w2−12w−FμνaFaμν	533	554	O
-,	554	555	O
-where	556	561	O
-Fμνa=∂μAνa−∂νAμa+gfabcAμbAνc	562	590	O
-,	590	591	O
-and	592	595	O
-w	596	597	O
-is	598	600	O
-not	601	604	O
-a	605	606	O
-fundamental	607	618	O
-field	619	624	O
-but	625	628	O
-rather	629	635	O
-is	636	638	O
-a	639	640	O
-function	641	649	B-Process
-of	650	652	I-Process
-4-index	653	660	I-Process
-field	661	666	I-Process
-strength	667	675	I-Process
-,	675	676	O
-that	677	681	O
-is	682	684	O
-,	684	685	O
-
-(	686	687	B-Process
-2)w=εμναβ∂μAναβ.	687	703	I-Process
-
-The	704	707	O
-Aναβ	708	712	B-Process
-equation	713	721	I-Process
-of	722	724	I-Process
-motion	725	731	I-Process
-leads	732	737	I-Process
-to	738	740	O
-(	741	742	O
-3)εμναβ∂βw−−FγδaFaγδ=0	742	764	B-Process
-,	764	765	O
-which	766	771	O
-is	772	774	O
-then	775	779	O
-integrated	780	790	B-Process
-to	791	793	I-Process
-(	794	795	I-Process
-4)w=−FμνaFaμν+M.	795	811	I-Process
-
-It	812	814	O
-is	815	817	O
-easy	818	822	O
-to	823	825	O
-verify	826	832	O
-that	833	837	O
-the	838	841	O
-Aaμ	842	845	B-Process
-equation	846	854	I-Process
-of	855	857	I-Process
-motion	858	864	I-Process
-leads	865	870	O
-us	871	873	O
-to	874	876	O
-(	877	878	O
-5)∇μFaμν+MFaμν−FαβbFbαβ=0	878	903	O
-.	903	904	O
-
-It	905	907	O
-is	908	910	O
-worth	911	916	O
-stressing	917	926	O
-at	927	929	O
-this	930	934	O
-stage	935	940	O
-that	941	945	O
-the	946	949	O
-above	950	955	O
-equation	956	964	O
-can	965	968	O
-be	969	971	O
-obtained	972	980	O
-from	981	985	O
-the	986	989	B-Process
-effective	990	999	I-Process
-Lagrangian	1000	1010	I-Process
-(	1011	1012	O
-6)Leff=−14FμνaFaμν+M2−FμνaFaμν.	1012	1043	B-Process
-Spherically	1044	1055	B-Task
-symmetric	1056	1065	I-Task
-solutions	1066	1075	I-Task
-of	1076	1078	O
-Eq	1079	1081	O
-.	1081	1082	O
-
-(	1083	1084	O
-5	1084	1085	O
-)	1085	1086	O
-display	1087	1094	O
-,	1094	1095	O
-even	1096	1100	O
-in	1101	1103	O
-the	1104	1107	O
-Abelian	1108	1115	O
-case	1116	1120	O
-,	1120	1121	O
-a	1122	1123	O
-Coulomb	1124	1131	B-Material
-piece	1132	1137	I-Material
-and	1138	1141	O
-a	1142	1143	O
-confining	1144	1153	B-Material
-part	1154	1158	I-Material
-.	1158	1159	O
-
-Also	1160	1164	O
-,	1164	1165	O
-the	1166	1169	O
-quantum	1170	1177	B-Task
-theory	1178	1184	I-Task
-calculation	1185	1196	I-Task
-of	1197	1199	I-Task
-the	1200	1203	I-Task
-static	1204	1210	I-Task
-energy	1211	1217	I-Task
-between	1218	1225	I-Task
-two	1226	1229	I-Task
-charges	1230	1237	I-Task
-displays	1238	1246	O
-the	1247	1250	O
-same	1251	1255	O
-behavior	1256	1264	O
-[	1265	1266	O
-1	1266	1267	O
-]	1267	1268	O
-.	1268	1269	O
-
-It	1270	1272	O
-is	1273	1275	O
-well	1276	1280	O
-known	1281	1286	O
-that	1287	1291	O
-the	1292	1295	O
-square	1296	1302	O
-root	1303	1307	O
-part	1308	1312	O
-describes	1313	1322	O
-string	1323	1329	B-Process
-like	1330	1334	I-Process
-solutions	1335	1344	I-Process
-[	1345	1346	O
-3,4	1346	1349	O
-]	1349	1350	O
-.	1350	1351	O
+It	0,2	O	O
+is	3,5	O	O
+well	6,10	O	O
+known	11,16	O	O
+that	17,21	O	O
+one	22,25	O	O
+of	26,28	O	O
+the	29,32	O	O
+long	33,37	O	O
+standing	38,46	O	O
+problems	47,55	O	O
+in	56,58	O	O
+physics	59,66	O	O
+is	67,69	O	O
+understanding	70,83	O	B-Task
+the	84,87	O	I-Task
+confinement	88,99	O	I-Task
+physics	100,107	O	I-Task
+from	108,112	O	I-Task
+first	113,118	O	I-Task
+principles	119,129	O	I-Task
+.	129,130	O	O
+
+Hence	131,136	O	O
+the	137,140	O	O
+challenge	141,150	O	O
+is	151,153	O	O
+to	154,156	O	O
+develop	157,164	O	B-Task
+analytical	165,175	O	I-Task
+approaches	176,186	O	I-Task
+which	187,192	O	O
+provide	193,200	O	O
+valuable	201,209	O	O
+insight	210,217	O	O
+and	218,221	O	O
+theoretical	222,233	O	O
+guidance	234,242	O	O
+.	242,243	O	O
+
+According	244,253	O	O
+to	254,256	O	O
+this	257,261	O	O
+viewpoint	262,271	O	O
+,	271,272	O	O
+an	273,275	O	O
+effective	276,285	O	O
+theory	286,292	O	O
+in	293,295	O	O
+which	296,301	O	O
+confining	302,311	O	O
+potentials	312,322	O	O
+are	323,326	O	O
+obtained	327,335	O	O
+as	336,338	O	O
+a	339,340	O	O
+consequence	341,352	O	O
+of	353,355	O	O
+spontaneous	356,367	O	B-Process
+symmetry	368,376	O	I-Process
+breaking	377,385	O	I-Process
+of	386,388	O	I-Process
+scale	389,394	O	I-Process
+invariance	395,405	O	I-Process
+has	406,409	O	O
+been	410,414	O	O
+developed	415,424	O	O
+[	425,426	O	O
+1	426,427	O	O
+]	427,428	O	O
+.	428,429	O	O
+
+In	430,432	O	O
+particular	433,443	O	O
+,	443,444	O	O
+it	445,447	O	O
+was	448,451	O	O
+shown	452,457	O	O
+that	458,462	O	O
+a	463,464	O	O
+such	465,469	O	O
+theory	470,476	O	O
+relies	477,483	O	O
+on	484,486	O	O
+a	487,488	O	O
+scale	489,494	O	B-Process
+-	494,495	O	I-Process
+invariant	495,504	O	I-Process
+Lagrangian	505,515	O	I-Process
+of	516,518	O	O
+the	519,522	O	O
+type	523,527	O	O
+[	528,529	O	O
+2	529,530	O	O
+]	530,531	O	O
+(	532,533	O	O
+1)L=14w2−12w−FμνaFaμν	533,554	O	O
+,	554,555	O	O
+where	556,561	O	O
+Fμνa=∂μAνa−∂νAμa+gfabcAμbAνc	562,590	O	O
+,	590,591	O	O
+and	592,595	O	O
+w	596,597	O	O
+is	598,600	O	O
+not	601,604	O	O
+a	605,606	O	O
+fundamental	607,618	O	O
+field	619,624	O	O
+but	625,628	O	O
+rather	629,635	O	O
+is	636,638	O	O
+a	639,640	O	O
+function	641,649	O	B-Process
+of	650,652	O	I-Process
+4-index	653,660	O	I-Process
+field	661,666	O	I-Process
+strength	667,675	O	I-Process
+,	675,676	O	O
+that	677,681	O	O
+is	682,684	O	O
+,	684,685	O	O
+
+(	686,687	O	B-Process
+2)w=εμναβ∂μAναβ.	687,703	O	I-Process
+
+The	704,707	O	O
+Aναβ	708,712	O	B-Process
+equation	713,721	O	I-Process
+of	722,724	O	I-Process
+motion	725,731	O	I-Process
+leads	732,737	O	I-Process
+to	738,740	O	O
+(	741,742	O	O
+3)εμναβ∂βw−−FγδaFaγδ=0	742,764	O	B-Process
+,	764,765	O	O
+which	766,771	O	O
+is	772,774	O	O
+then	775,779	O	O
+integrated	780,790	O	B-Process
+to	791,793	O	I-Process
+(	794,795	O	I-Process
+4)w=−FμνaFaμν+M.	795,811	O	I-Process
+
+It	812,814	O	O
+is	815,817	O	O
+easy	818,822	O	O
+to	823,825	O	O
+verify	826,832	O	O
+that	833,837	O	O
+the	838,841	O	O
+Aaμ	842,845	O	B-Process
+equation	846,854	O	I-Process
+of	855,857	O	I-Process
+motion	858,864	O	I-Process
+leads	865,870	O	O
+us	871,873	O	O
+to	874,876	O	O
+(	877,878	O	O
+5)∇μFaμν+MFaμν−FαβbFbαβ=0	878,903	O	O
+.	903,904	O	O
+
+It	905,907	O	O
+is	908,910	O	O
+worth	911,916	O	O
+stressing	917,926	O	O
+at	927,929	O	O
+this	930,934	O	O
+stage	935,940	O	O
+that	941,945	O	O
+the	946,949	O	O
+above	950,955	O	O
+equation	956,964	O	O
+can	965,968	O	O
+be	969,971	O	O
+obtained	972,980	O	O
+from	981,985	O	O
+the	986,989	O	B-Process
+effective	990,999	O	I-Process
+Lagrangian	1000,1010	O	I-Process
+(	1011,1012	O	O
+6)Leff=−14FμνaFaμν+M2−FμνaFaμν.	1012,1043	O	B-Process
+Spherically	1044,1055	O	B-Task
+symmetric	1056,1065	O	I-Task
+solutions	1066,1075	O	I-Task
+of	1076,1078	O	O
+Eq	1079,1081	O	O
+.	1081,1082	O	O
+
+(	1083,1084	O	O
+5	1084,1085	O	O
+)	1085,1086	O	O
+display	1087,1094	O	O
+,	1094,1095	O	O
+even	1096,1100	O	O
+in	1101,1103	O	O
+the	1104,1107	O	O
+Abelian	1108,1115	O	O
+case	1116,1120	O	O
+,	1120,1121	O	O
+a	1122,1123	O	O
+Coulomb	1124,1131	O	B-Material
+piece	1132,1137	O	I-Material
+and	1138,1141	O	O
+a	1142,1143	O	O
+confining	1144,1153	O	B-Material
+part	1154,1158	O	I-Material
+.	1158,1159	O	O
+
+Also	1160,1164	O	O
+,	1164,1165	O	O
+the	1166,1169	O	O
+quantum	1170,1177	O	B-Task
+theory	1178,1184	O	I-Task
+calculation	1185,1196	O	I-Task
+of	1197,1199	O	I-Task
+the	1200,1203	O	I-Task
+static	1204,1210	O	I-Task
+energy	1211,1217	O	I-Task
+between	1218,1225	O	I-Task
+two	1226,1229	O	I-Task
+charges	1230,1237	O	I-Task
+displays	1238,1246	O	O
+the	1247,1250	O	O
+same	1251,1255	O	O
+behavior	1256,1264	O	O
+[	1265,1266	O	O
+1	1266,1267	O	O
+]	1267,1268	O	O
+.	1268,1269	O	O
+
+It	1270,1272	O	O
+is	1273,1275	O	O
+well	1276,1280	O	O
+known	1281,1286	O	O
+that	1287,1291	O	O
+the	1292,1295	O	O
+square	1296,1302	O	O
+root	1303,1307	O	O
+part	1308,1312	O	O
+describes	1313,1322	O	O
+string	1323,1329	O	B-Process
+like	1330,1334	O	I-Process
+solutions	1335,1344	O	I-Process
+[	1345,1346	O	O
+3,4	1346,1349	O	O
+]	1349,1350	O	O
+.	1350,1351	O	O
 
 
 -DOCSTART- (S037026930400721X)
 
-In	0	2	O
-the	3	6	O
-supersymmetric	7	21	O
-case	22	26	O
-,	26	27	O
-such	28	32	O
-a	33	34	O
-small	35	40	B-Task
-coupling	41	49	I-Task
-for	50	53	I-Task
-quartic	54	61	I-Task
-interaction	62	73	I-Task
-can	74	77	O
-not	77	80	O
-be	81	83	O
-realized	84	92	O
-if	93	95	O
-the	96	99	O
-potential	100	109	O
-is	110	112	O
-lifted	113	119	O
-by	120	122	O
-the	123	126	O
-gauge	127	132	B-Process
-D	133	134	I-Process
--	134	135	I-Process
-term	135	139	I-Process
-interactions	140	152	I-Process
-,	152	153	O
-since	154	159	O
-,	159	160	O
-if	161	163	O
-so	164	166	O
-,	166	167	O
-the	168	171	B-Material
-coupling	172	180	I-Material
-constant	181	189	I-Material
-λ	190	191	I-Material
-becomes	192	199	O
-of	200	202	O
-the	203	206	O
-order	207	212	O
-O(g2	213	217	O
-)	217	218	O
-where	219	224	O
-g	225	226	O
-is	227	229	O
-the	230	233	O
-gauge	234	239	B-Material
-coupling	240	248	I-Material
-constant	249	257	I-Material
-in	258	260	O
-the	261	264	O
-standard	265	273	B-Process
-model	274	279	I-Process
-.	279	280	O
-
-Therefore	281	290	O
-,	290	291	O
-we	292	294	O
-focus	295	300	O
-our	301	304	O
-attention	305	314	O
-on	315	317	O
-the	318	321	O
-D	322	323	B-Task
--	323	324	I-Task
-flat	324	328	I-Task
-directions	329	339	I-Task
-.	339	340	O
-
-For	341	344	O
-D	345	346	B-Task
--	346	347	I-Task
-flat	347	351	I-Task
-directions	352	362	I-Task
-,	362	363	O
-we	364	366	O
-have	367	371	O
-to	372	374	O
-be	375	377	O
-more	378	382	O
-careful	383	390	O
-since	391	396	O
-behaviors	397	406	B-Task
-of	407	409	I-Task
-the	410	413	I-Task
-potential	414	423	I-Task
-depend	424	430	O
-on	431	433	O
-which	434	439	O
-flat	440	444	O
-direction	445	454	O
-we	455	457	O
-consider	458	466	O
-.	466	467	O
-
-In	468	470	O
-the	471	474	O
-MSSM	475	479	O
-,	479	480	O
-Yukawa	481	487	B-Task
-interactions	488	500	I-Task
-exist	501	506	O
-in	507	509	O
-the	510	513	O
-superpotential	514	528	O
-to	529	531	O
-generate	532	540	O
-the	541	544	O
-fermion	545	552	O
-masses	553	559	O
-.	559	560	O
-
-Such	561	565	O
-Yukawa	566	572	O
-interactions	573	585	O
-lift	586	590	O
-some	591	595	O
-of	596	598	O
-the	599	602	O
-D	603	604	B-Task
--	604	605	I-Task
-flat	605	609	I-Task
-directions	610	620	I-Task
-.	620	621	O
-
-In	622	624	O
-addition	625	633	O
-,	633	634	O
-we	635	637	O
-can	638	641	O
-also	642	646	O
-find	647	651	O
-several	652	659	O
-D	660	661	B-Task
--	661	662	I-Task
-flat	662	666	I-Task
-directions	667	677	I-Task
-which	678	683	O
-are	684	687	O
-not	688	691	O
-affected	692	700	O
-by	701	703	O
-the	704	707	O
-Yukawa	708	714	B-Task
-interactions	715	727	I-Task
-associated	728	738	O
-with	739	743	O
-the	744	747	O
-fermion	748	755	O
-masses	756	762	O
-;	762	763	O
-without	764	771	O
-R	772	773	O
--	773	774	O
-parity	774	780	O
-violation	781	790	O
-,	790	791	O
-such	792	796	O
-D	797	798	B-Task
--	798	799	I-Task
-flat	799	803	I-Task
-directions	804	814	I-Task
-are	815	818	O
-only	819	823	O
-lifted	824	830	O
-by	831	833	O
-the	834	837	O
-effects	838	845	O
-of	846	848	O
-supersymmetry	849	862	O
-breaking.33Here	863	878	O
-,	878	879	O
-we	880	882	O
-assume	883	889	O
-that	890	894	O
-coefficients	895	907	B-Task
-of	908	910	I-Task
-non	911	914	I-Task
--	914	915	I-Task
-renormalizable	915	929	I-Task
-terms	930	935	I-Task
-are	936	939	O
-suppressed	940	950	O
-enough	951	957	O
-to	958	960	O
-be	961	963	O
-neglected	964	973	O
-.	973	974	O
-
-This	975	979	O
-may	980	983	O
-be	984	986	O
-explained	987	996	O
-by	997	999	O
-the	1000	1003	O
-R	1004	1005	B-Process
--	1005	1006	I-Process
-symmetry	1006	1014	I-Process
-,	1014	1015	O
-assigning	1016	1025	O
-R	1026	1027	B-Process
--	1027	1028	I-Process
-charge	1028	1034	I-Process
-23	1035	1037	I-Process
-to	1038	1040	O
-each	1041	1045	O
-MSSM	1046	1050	B-Process
-chiral	1051	1057	I-Process
-superfields	1058	1069	I-Process
-.	1069	1070	O
-
-(	1071	1072	O
-See	1072	1075	O
-Ref	1076	1079	O
-.	1079	1080	O
-
-[	1081	1082	O
-6	1082	1083	O
-]	1083	1084	O
-for	1085	1088	O
-the	1089	1092	O
-details	1093	1100	O
-.	1100	1101	O
-)	1101	1102	O
+In	0,2	O	O
+the	3,6	O	O
+supersymmetric	7,21	O	O
+case	22,26	O	O
+,	26,27	O	O
+such	28,32	O	O
+a	33,34	O	O
+small	35,40	O	B-Task
+coupling	41,49	O	I-Task
+for	50,53	O	I-Task
+quartic	54,61	O	I-Task
+interaction	62,73	O	I-Task
+can	74,77	O	O
+not	77,80	O	O
+be	81,83	O	O
+realized	84,92	O	O
+if	93,95	O	O
+the	96,99	O	O
+potential	100,109	O	O
+is	110,112	O	O
+lifted	113,119	O	O
+by	120,122	O	O
+the	123,126	O	O
+gauge	127,132	O	B-Process
+D	133,134	O	I-Process
+-	134,135	O	I-Process
+term	135,139	O	I-Process
+interactions	140,152	O	I-Process
+,	152,153	O	O
+since	154,159	O	O
+,	159,160	O	O
+if	161,163	O	O
+so	164,166	O	O
+,	166,167	O	O
+the	168,171	O	B-Material
+coupling	172,180	O	I-Material
+constant	181,189	O	I-Material
+λ	190,191	O	I-Material
+becomes	192,199	O	O
+of	200,202	O	O
+the	203,206	O	O
+order	207,212	O	O
+O(g2	213,217	O	O
+)	217,218	O	O
+where	219,224	O	O
+g	225,226	O	O
+is	227,229	O	O
+the	230,233	O	O
+gauge	234,239	O	B-Material
+coupling	240,248	O	I-Material
+constant	249,257	O	I-Material
+in	258,260	O	O
+the	261,264	O	O
+standard	265,273	O	B-Process
+model	274,279	O	I-Process
+.	279,280	O	O
+
+Therefore	281,290	O	O
+,	290,291	O	O
+we	292,294	O	O
+focus	295,300	O	O
+our	301,304	O	O
+attention	305,314	O	O
+on	315,317	O	O
+the	318,321	O	O
+D	322,323	O	B-Task
+-	323,324	O	I-Task
+flat	324,328	O	I-Task
+directions	329,339	O	I-Task
+.	339,340	O	O
+
+For	341,344	O	O
+D	345,346	O	B-Task
+-	346,347	O	I-Task
+flat	347,351	O	I-Task
+directions	352,362	O	I-Task
+,	362,363	O	O
+we	364,366	O	O
+have	367,371	O	O
+to	372,374	O	O
+be	375,377	O	O
+more	378,382	O	O
+careful	383,390	O	O
+since	391,396	O	O
+behaviors	397,406	O	B-Task
+of	407,409	O	I-Task
+the	410,413	O	I-Task
+potential	414,423	O	I-Task
+depend	424,430	O	O
+on	431,433	O	O
+which	434,439	O	O
+flat	440,444	O	O
+direction	445,454	O	O
+we	455,457	O	O
+consider	458,466	O	O
+.	466,467	O	O
+
+In	468,470	O	O
+the	471,474	O	O
+MSSM	475,479	O	O
+,	479,480	O	O
+Yukawa	481,487	O	B-Task
+interactions	488,500	O	I-Task
+exist	501,506	O	O
+in	507,509	O	O
+the	510,513	O	O
+superpotential	514,528	O	O
+to	529,531	O	O
+generate	532,540	O	O
+the	541,544	O	O
+fermion	545,552	O	O
+masses	553,559	O	O
+.	559,560	O	O
+
+Such	561,565	O	O
+Yukawa	566,572	O	O
+interactions	573,585	O	O
+lift	586,590	O	O
+some	591,595	O	O
+of	596,598	O	O
+the	599,602	O	O
+D	603,604	O	B-Task
+-	604,605	O	I-Task
+flat	605,609	O	I-Task
+directions	610,620	O	I-Task
+.	620,621	O	O
+
+In	622,624	O	O
+addition	625,633	O	O
+,	633,634	O	O
+we	635,637	O	O
+can	638,641	O	O
+also	642,646	O	O
+find	647,651	O	O
+several	652,659	O	O
+D	660,661	O	B-Task
+-	661,662	O	I-Task
+flat	662,666	O	I-Task
+directions	667,677	O	I-Task
+which	678,683	O	O
+are	684,687	O	O
+not	688,691	O	O
+affected	692,700	O	O
+by	701,703	O	O
+the	704,707	O	O
+Yukawa	708,714	O	B-Task
+interactions	715,727	O	I-Task
+associated	728,738	O	O
+with	739,743	O	O
+the	744,747	O	O
+fermion	748,755	O	O
+masses	756,762	O	O
+;	762,763	O	O
+without	764,771	O	O
+R	772,773	O	O
+-	773,774	O	O
+parity	774,780	O	O
+violation	781,790	O	O
+,	790,791	O	O
+such	792,796	O	O
+D	797,798	O	B-Task
+-	798,799	O	I-Task
+flat	799,803	O	I-Task
+directions	804,814	O	I-Task
+are	815,818	O	O
+only	819,823	O	O
+lifted	824,830	O	O
+by	831,833	O	O
+the	834,837	O	O
+effects	838,845	O	O
+of	846,848	O	O
+supersymmetry	849,862	O	O
+breaking.33Here	863,878	O	O
+,	878,879	O	O
+we	880,882	O	O
+assume	883,889	O	O
+that	890,894	O	O
+coefficients	895,907	O	B-Task
+of	908,910	O	I-Task
+non	911,914	O	I-Task
+-	914,915	O	I-Task
+renormalizable	915,929	O	I-Task
+terms	930,935	O	I-Task
+are	936,939	O	O
+suppressed	940,950	O	O
+enough	951,957	O	O
+to	958,960	O	O
+be	961,963	O	O
+neglected	964,973	O	O
+.	973,974	O	O
+
+This	975,979	O	O
+may	980,983	O	O
+be	984,986	O	O
+explained	987,996	O	O
+by	997,999	O	O
+the	1000,1003	O	O
+R	1004,1005	O	B-Process
+-	1005,1006	O	I-Process
+symmetry	1006,1014	O	I-Process
+,	1014,1015	O	O
+assigning	1016,1025	O	O
+R	1026,1027	O	B-Process
+-	1027,1028	O	I-Process
+charge	1028,1034	O	I-Process
+23	1035,1037	O	I-Process
+to	1038,1040	O	O
+each	1041,1045	O	O
+MSSM	1046,1050	O	B-Process
+chiral	1051,1057	O	I-Process
+superfields	1058,1069	O	I-Process
+.	1069,1070	O	O
+
+(	1071,1072	O	O
+See	1072,1075	O	O
+Ref	1076,1079	O	O
+.	1079,1080	O	O
+
+[	1081,1082	O	O
+6	1082,1083	O	O
+]	1083,1084	O	O
+for	1085,1088	O	O
+the	1089,1092	O	O
+details	1093,1100	O	O
+.	1100,1101	O	O
+)	1101,1102	O	O
 
 
 -DOCSTART- (S0370269304007257)
 
-Some	0	4	O
-non	5	8	B-Task
--	8	9	I-Task
-standard	9	17	I-Task
-couplings	18	27	I-Task
-,	27	28	O
-which	29	34	O
-should	35	41	O
-be	42	44	O
-determined	45	55	O
-here	56	60	O
-,	60	61	O
-could	62	67	O
-also	68	72	O
-be	73	75	O
-studied	76	83	O
-in	84	86	O
-the	87	90	O
-standard	91	99	B-Process
-e+e−	100	104	I-Process
-option	105	111	I-Process
-of	112	114	O
-a	115	116	O
-linear	117	123	B-Material
-collider	124	132	I-Material
-.	132	133	O
-
-Therefore	134	143	O
-,	143	144	O
-it	145	147	O
-is	148	150	O
-worth	151	156	O
-while	157	162	O
-to	163	165	O
-compare	166	173	O
-the	174	177	O
-potential	178	187	B-Task
-power	188	193	I-Task
-of	194	196	O
-the	197	200	O
-two	201	204	O
-options	205	212	O
-.	212	213	O
-
-As	214	216	O
-far	217	220	O
-as	221	223	O
-the	224	227	O
-parameter	228	237	B-Task
-αγ1	238	241	I-Task
-is	242	244	O
-concerned	245	254	O
-,	254	255	O
-the	256	259	O
-γγ	260	262	B-Material
-collider	263	271	I-Material
-does	272	276	O
-not	277	280	O
-allow	281	286	O
-for	287	290	O
-its	291	294	O
-determination	295	308	O
-,	308	309	O
-while	310	315	O
-it	316	318	O
-could	319	324	O
-be	325	327	O
-determined	328	338	O
-at	339	341	O
-e+e−.	342	347	B-Process
-The	348	351	O
-second	352	358	O
-tt̄γ	359	363	O
-coupling	364	372	B-Task
-αγ2	373	376	I-Task
-,	376	377	O
-which	378	383	O
-is	384	386	O
-proportional	387	399	O
-to	400	402	O
-the	403	406	O
-real	407	411	O
-part	412	416	O
-of	417	419	O
-the	420	423	O
-top	424	427	O
--	427	428	O
-quark	428	433	O
-electric	434	442	O
-dipole	443	449	O
-moment,44See	450	462	O
-[	463	464	O
-23	464	466	O
-]	466	467	O
-taking	468	474	O
-into	475	479	O
-account	480	487	O
-that	488	492	O
-the	493	496	O
-operators	497	506	O
-OuB	507	510	O
-,	510	511	O
-OqB	512	515	O
-and	516	519	O
-OqW	520	523	O
-are	524	527	O
-redundant	528	537	O
-.	537	538	O
-
-can	539	542	O
-be	543	545	O
-measured	546	554	O
-here	555	559	O
-.	559	560	O
-
-It	561	563	O
-should	564	570	O
-be	571	573	O
-recalled	574	582	O
-that	583	587	O
-energy	588	594	O
-and	595	598	O
-polar	599	604	B-Task
--	604	605	I-Task
-angle	605	610	I-Task
-distributions	611	624	I-Task
-of	625	627	I-Task
-leptons	628	635	I-Task
-and	636	639	I-Task
-b	640	641	I-Task
--	641	642	I-Task
-quarks	642	648	I-Task
-in	649	651	O
-e+e−	652	656	B-Material
-colliders	657	666	I-Material
-are	667	670	O
-sensitive	671	680	O
-only	681	685	O
-to	686	688	O
-the	689	692	O
-imaginary	693	702	B-Process
-part	703	707	I-Process
-of	708	710	I-Process
-the	711	714	I-Process
-electric	715	723	I-Process
-dipole	724	730	I-Process
-moment,55However	731	747	I-Process
-,	747	748	O
-it	749	751	O
-should	752	758	O
-be	759	761	O
-emphasized	762	772	O
-that	773	777	O
-there	778	783	O
-exist	784	789	O
-observables	790	801	O
-sensitive	802	811	O
-also	812	816	O
-to	817	819	O
-the	820	823	B-Process
-real	824	828	I-Process
-part	829	833	I-Process
-of	834	836	I-Process
-the	837	840	I-Process
-top	841	844	I-Process
--	844	845	I-Process
-quark	845	850	I-Process
-electric	851	859	I-Process
-dipole	860	866	I-Process
-moment	867	873	I-Process
-,	873	874	O
-see	875	878	O
-[	879	880	O
-24	880	882	O
-]	882	883	O
-.	883	884	O
-
-while	885	890	O
-here	891	895	O
-the	896	899	O
-real	900	904	O
-part	905	909	O
-could	910	915	O
-be	916	918	O
-determined	919	929	O
-.	929	930	O
-
-For	931	934	O
-the	935	938	O
-measurement	939	950	B-Task
-of	951	953	I-Task
-γγH	954	957	I-Task
-couplings	958	967	I-Task
-,	967	968	O
-e+e−	969	973	B-Material
-colliders	974	983	I-Material
-are	984	987	O
-,	987	988	O
-of	989	991	O
-course	992	998	O
-,	998	999	O
-useless	1000	1007	O
-,	1007	1008	O
-while	1009	1014	O
-here	1015	1019	O
-,	1019	1020	O
-for	1021	1024	O
-the	1025	1028	B-Process
-bX	1029	1031	I-Process
-final	1032	1037	I-Process
-state	1038	1043	I-Process
-both	1044	1048	O
-αh1	1049	1052	B-Task
-and	1053	1056	I-Task
-αh2	1057	1060	I-Task
-could	1061	1066	I-Task
-be	1067	1069	I-Task
-measured	1070	1078	I-Task
-.	1078	1079	O
-
-In	1080	1082	O
-the	1083	1086	O
-case	1087	1091	O
-of	1092	1094	O
-the	1095	1098	B-Task
-decay	1099	1104	I-Task
-form	1105	1109	I-Task
-factor	1110	1116	I-Task
-αd	1117	1119	I-Task
-measurement	1120	1131	I-Task
-,	1131	1132	O
-the	1133	1136	O
-e+e−	1137	1141	B-Process
-option	1142	1148	I-Process
-seems	1149	1154	O
-to	1155	1157	O
-be	1158	1160	O
-a	1161	1162	O
-little	1163	1169	O
-more	1170	1174	O
-advantageous	1175	1187	O
-,	1187	1188	O
-especially	1189	1199	O
-if	1200	1202	O
-e+e−	1203	1207	B-Process
-polarization	1208	1220	I-Process
-can	1221	1224	O
-be	1225	1227	O
-tuned	1228	1233	O
-appropriately	1234	1247	O
-[	1248	1249	O
-25	1249	1251	O
-]	1251	1252	O
-.	1252	1253	O
+Some	0,4	O	O
+non	5,8	O	B-Task
+-	8,9	O	I-Task
+standard	9,17	O	I-Task
+couplings	18,27	O	I-Task
+,	27,28	O	O
+which	29,34	O	O
+should	35,41	O	O
+be	42,44	O	O
+determined	45,55	O	O
+here	56,60	O	O
+,	60,61	O	O
+could	62,67	O	O
+also	68,72	O	O
+be	73,75	O	O
+studied	76,83	O	O
+in	84,86	O	O
+the	87,90	O	O
+standard	91,99	O	B-Process
+e+e−	100,104	O	I-Process
+option	105,111	O	I-Process
+of	112,114	O	O
+a	115,116	O	O
+linear	117,123	O	B-Material
+collider	124,132	O	I-Material
+.	132,133	O	O
+
+Therefore	134,143	O	O
+,	143,144	O	O
+it	145,147	O	O
+is	148,150	O	O
+worth	151,156	O	O
+while	157,162	O	O
+to	163,165	O	O
+compare	166,173	O	O
+the	174,177	O	O
+potential	178,187	O	B-Task
+power	188,193	O	I-Task
+of	194,196	O	O
+the	197,200	O	O
+two	201,204	O	O
+options	205,212	O	O
+.	212,213	O	O
+
+As	214,216	O	O
+far	217,220	O	O
+as	221,223	O	O
+the	224,227	O	O
+parameter	228,237	O	B-Task
+αγ1	238,241	O	I-Task
+is	242,244	O	O
+concerned	245,254	O	O
+,	254,255	O	O
+the	256,259	O	O
+γγ	260,262	O	B-Material
+collider	263,271	O	I-Material
+does	272,276	O	O
+not	277,280	O	O
+allow	281,286	O	O
+for	287,290	O	O
+its	291,294	O	O
+determination	295,308	O	O
+,	308,309	O	O
+while	310,315	O	O
+it	316,318	O	O
+could	319,324	O	O
+be	325,327	O	O
+determined	328,338	O	O
+at	339,341	O	O
+e+e−.	342,347	O	B-Process
+The	348,351	O	O
+second	352,358	O	O
+tt̄γ	359,363	O	O
+coupling	364,372	O	B-Task
+αγ2	373,376	O	I-Task
+,	376,377	O	O
+which	378,383	O	O
+is	384,386	O	O
+proportional	387,399	O	O
+to	400,402	O	O
+the	403,406	O	O
+real	407,411	O	O
+part	412,416	O	O
+of	417,419	O	O
+the	420,423	O	O
+top	424,427	O	O
+-	427,428	O	O
+quark	428,433	O	O
+electric	434,442	O	O
+dipole	443,449	O	O
+moment,44See	450,462	O	O
+[	463,464	O	O
+23	464,466	O	O
+]	466,467	O	O
+taking	468,474	O	O
+into	475,479	O	O
+account	480,487	O	O
+that	488,492	O	O
+the	493,496	O	O
+operators	497,506	O	O
+OuB	507,510	O	O
+,	510,511	O	O
+OqB	512,515	O	O
+and	516,519	O	O
+OqW	520,523	O	O
+are	524,527	O	O
+redundant	528,537	O	O
+.	537,538	O	O
+
+can	539,542	O	O
+be	543,545	O	O
+measured	546,554	O	O
+here	555,559	O	O
+.	559,560	O	O
+
+It	561,563	O	O
+should	564,570	O	O
+be	571,573	O	O
+recalled	574,582	O	O
+that	583,587	O	O
+energy	588,594	O	O
+and	595,598	O	O
+polar	599,604	O	B-Task
+-	604,605	O	I-Task
+angle	605,610	O	I-Task
+distributions	611,624	O	I-Task
+of	625,627	O	I-Task
+leptons	628,635	O	I-Task
+and	636,639	O	I-Task
+b	640,641	O	I-Task
+-	641,642	O	I-Task
+quarks	642,648	O	I-Task
+in	649,651	O	O
+e+e−	652,656	O	B-Material
+colliders	657,666	O	I-Material
+are	667,670	O	O
+sensitive	671,680	O	O
+only	681,685	O	O
+to	686,688	O	O
+the	689,692	O	O
+imaginary	693,702	O	B-Process
+part	703,707	O	I-Process
+of	708,710	O	I-Process
+the	711,714	O	I-Process
+electric	715,723	O	I-Process
+dipole	724,730	O	I-Process
+moment,55However	731,747	O	I-Process
+,	747,748	O	O
+it	749,751	O	O
+should	752,758	O	O
+be	759,761	O	O
+emphasized	762,772	O	O
+that	773,777	O	O
+there	778,783	O	O
+exist	784,789	O	O
+observables	790,801	O	O
+sensitive	802,811	O	O
+also	812,816	O	O
+to	817,819	O	O
+the	820,823	O	B-Process
+real	824,828	O	I-Process
+part	829,833	O	I-Process
+of	834,836	O	I-Process
+the	837,840	O	I-Process
+top	841,844	O	I-Process
+-	844,845	O	I-Process
+quark	845,850	O	I-Process
+electric	851,859	O	I-Process
+dipole	860,866	O	I-Process
+moment	867,873	O	I-Process
+,	873,874	O	O
+see	875,878	O	O
+[	879,880	O	O
+24	880,882	O	O
+]	882,883	O	O
+.	883,884	O	O
+
+while	885,890	O	O
+here	891,895	O	O
+the	896,899	O	O
+real	900,904	O	O
+part	905,909	O	O
+could	910,915	O	O
+be	916,918	O	O
+determined	919,929	O	O
+.	929,930	O	O
+
+For	931,934	O	O
+the	935,938	O	O
+measurement	939,950	O	B-Task
+of	951,953	O	I-Task
+γγH	954,957	O	I-Task
+couplings	958,967	O	I-Task
+,	967,968	O	O
+e+e−	969,973	O	B-Material
+colliders	974,983	O	I-Material
+are	984,987	O	O
+,	987,988	O	O
+of	989,991	O	O
+course	992,998	O	O
+,	998,999	O	O
+useless	1000,1007	O	O
+,	1007,1008	O	O
+while	1009,1014	O	O
+here	1015,1019	O	O
+,	1019,1020	O	O
+for	1021,1024	O	O
+the	1025,1028	O	B-Process
+bX	1029,1031	O	I-Process
+final	1032,1037	O	I-Process
+state	1038,1043	O	I-Process
+both	1044,1048	O	O
+αh1	1049,1052	O	B-Task
+and	1053,1056	O	I-Task
+αh2	1057,1060	O	I-Task
+could	1061,1066	O	I-Task
+be	1067,1069	O	I-Task
+measured	1070,1078	O	I-Task
+.	1078,1079	O	O
+
+In	1080,1082	O	O
+the	1083,1086	O	O
+case	1087,1091	O	O
+of	1092,1094	O	O
+the	1095,1098	O	B-Task
+decay	1099,1104	O	I-Task
+form	1105,1109	O	I-Task
+factor	1110,1116	O	I-Task
+αd	1117,1119	O	I-Task
+measurement	1120,1131	O	I-Task
+,	1131,1132	O	O
+the	1133,1136	O	O
+e+e−	1137,1141	O	B-Process
+option	1142,1148	O	I-Process
+seems	1149,1154	O	O
+to	1155,1157	O	O
+be	1158,1160	O	O
+a	1161,1162	O	O
+little	1163,1169	O	O
+more	1170,1174	O	O
+advantageous	1175,1187	O	O
+,	1187,1188	O	O
+especially	1189,1199	O	O
+if	1200,1202	O	O
+e+e−	1203,1207	O	B-Process
+polarization	1208,1220	O	I-Process
+can	1221,1224	O	O
+be	1225,1227	O	O
+tuned	1228,1233	O	O
+appropriately	1234,1247	O	O
+[	1248,1249	O	O
+25	1249,1251	O	O
+]	1251,1252	O	O
+.	1252,1253	O	O
 
 
 -DOCSTART- (S0370269304007439)
 
-In	0	2	O
-contrast	3	11	O
-to	12	14	O
-the	15	18	O
-H	19	20	O
-particle	21	29	O
-,	29	30	O
-the	31	34	O
-situation	35	44	O
-for	45	48	O
-the	49	52	O
-Θ+	53	55	B-Task
-baryon	56	62	I-Task
-is	63	65	O
-very	66	70	O
-promising	71	80	O
-.	80	81	O
-
-Thus	82	86	O
-,	86	87	O
-in	88	90	O
-this	91	95	O
-Letter	96	102	O
-we	103	105	O
-explore	106	113	O
-the	114	117	B-Task
-formation	118	127	I-Task
-of	128	130	I-Task
-the	131	134	I-Task
-Θ+-baryon	135	144	I-Task
-within	145	151	O
-a	152	153	O
-new	154	157	O
-approach	158	166	O
-called	167	173	O
-parton	174	180	B-Process
--	180	181	I-Process
-based	181	186	I-Process
-Gribov	187	193	I-Process
-–	193	194	I-Process
-Regge	194	199	I-Process
-theory	200	206	I-Process
-.	206	207	O
-
-It	208	210	O
-is	211	213	O
-realized	214	222	O
-in	223	225	O
-the	226	229	O
-Monte	230	235	B-Material
-Carlo	236	241	I-Material
-program	242	249	I-Material
-NEXUS	250	255	B-Material
-3.97	256	260	I-Material
-[	261	262	O
-22,23	262	267	O
-]	267	268	O
-.	268	269	O
-
-In	270	272	O
-this	273	277	O
-model	278	283	O
-high	284	288	B-Process
-energy	289	295	I-Process
-hadronic	296	304	I-Process
-and	305	308	I-Process
-nuclear	309	316	I-Process
-collisions	317	327	I-Process
-are	328	331	O
-treated	332	339	O
-within	340	346	O
-a	347	348	O
-self	349	353	B-Process
--	353	354	I-Process
-consistent	354	364	I-Process
-quantum	365	372	I-Process
-mechanical	373	383	I-Process
-multiple	384	392	I-Process
-scattering	393	403	I-Process
-formalism	404	413	I-Process
-.	413	414	O
-
-Elementary	415	425	B-Process
-interactions	426	438	I-Process
-,	438	439	O
-happening	440	449	O
-in	450	452	O
-parallel	453	461	O
-,	461	462	O
-correspond	463	473	O
-to	474	476	O
-underlying	477	487	O
-microscopic	488	499	B-Process
-(	500	501	I-Process
-predominantly	501	514	I-Process
-soft	515	519	I-Process
-)	519	520	I-Process
-parton	521	527	I-Process
-cascades	528	536	I-Process
-and	537	540	O
-are	541	544	O
-described	545	554	O
-effectively	555	566	O
-as	567	569	O
-phenomenological	570	586	B-Process
-soft	587	591	I-Process
-pomeron	592	599	I-Process
-exchanges	600	609	I-Process
-.	609	610	O
-
-A	611	612	O
-pomeron	613	620	B-Material
-can	621	624	O
-be	625	627	O
-seen	628	632	O
-as	633	635	O
-layers	636	642	O
-of	643	645	O
-a	646	647	O
-(	648	649	B-Material
-soft	649	653	I-Material
-)	653	654	I-Material
-parton	655	661	I-Material
-ladder	662	668	I-Material
-,	668	669	O
-which	670	675	O
-is	676	678	O
-attached	679	687	O
-to	688	690	O
-projectile	691	701	B-Material
-and	702	705	I-Material
-target	706	712	I-Material
-nucleons	713	721	I-Material
-via	722	725	O
-leg	726	729	B-Material
-partons	730	737	I-Material
-.	737	738	O
-
-At	739	741	O
-high	742	746	O
-energies	747	755	O
-one	756	759	O
-accounts	760	768	O
-also	769	773	O
-for	774	777	O
-the	778	781	O
-contribution	782	794	O
-of	795	797	O
-perturbative	798	810	B-Material
-(	811	812	I-Material
-high	812	816	I-Material
-pt	817	819	I-Material
-)	819	820	I-Material
-partons	821	828	I-Material
-described	829	838	O
-by	839	841	O
-a	842	843	O
-so	844	846	O
--	846	847	O
-called	847	853	O
-“	854	855	B-Material
-semihard	855	863	I-Material
-pomeron”—a	864	874	I-Material
-piece	875	880	B-Material
-of	881	883	I-Material
-the	884	887	I-Material
-QCD	888	891	I-Material
-parton	892	898	I-Material
-ladder	899	905	I-Material
-sandwiched	906	916	I-Material
-between	917	924	I-Material
-two	925	928	I-Material
-soft	929	933	I-Material
-pomerons	934	942	I-Material
-which	943	948	I-Material
-are	949	952	I-Material
-connected	953	962	I-Material
-to	963	965	I-Material
-the	966	969	I-Material
-projectile	970	980	I-Material
-and	981	984	I-Material
-to	985	987	I-Material
-the	988	991	I-Material
-target	992	998	I-Material
-in	999	1001	I-Material
-the	1002	1005	I-Material
-usual	1006	1011	I-Material
-way	1012	1015	I-Material
-.	1015	1016	O
-
-The	1017	1020	O
-spectator	1021	1030	B-Material
-partons	1031	1038	I-Material
-of	1039	1041	O
-both	1042	1046	O
-projectile	1047	1057	B-Material
-and	1058	1061	I-Material
-target	1062	1068	I-Material
-nucleons	1069	1077	I-Material
-,	1077	1078	O
-left	1079	1083	O
-after	1084	1089	O
-pomeron	1090	1097	B-Process
-emissions	1098	1107	I-Process
-,	1107	1108	O
-form	1109	1113	O
-nucleon	1114	1121	B-Material
-remnants	1122	1130	I-Material
-.	1130	1131	O
-
-The	1132	1135	O
-legs	1136	1140	O
-of	1141	1143	O
-the	1144	1147	O
-pomerons	1148	1156	B-Material
-form	1157	1161	O
-color	1162	1167	B-Material
-singlets	1168	1176	I-Material
-,	1176	1177	O
-such	1178	1182	O
-as	1183	1185	O
-q	1186	1187	B-Material
-–	1187	1188	I-Material
-q̄	1188	1190	I-Material
-,	1190	1191	O
-q	1192	1193	B-Material
-–	1193	1194	I-Material
-qq	1194	1196	I-Material
-or	1197	1199	O
-q̄–q̄q̄.	1200	1208	B-Material
-
-The	1209	1212	O
-probability	1213	1224	O
-of	1225	1227	O
-q	1228	1229	B-Material
-–	1229	1230	I-Material
-qq	1230	1232	I-Material
-and	1233	1236	O
-q̄–q̄q̄	1237	1244	B-Material
-is	1245	1247	O
-controlled	1248	1258	O
-by	1259	1261	O
-the	1262	1265	O
-parameter	1266	1275	O
-Pqq	1276	1279	O
-and	1280	1283	O
-is	1284	1286	O
-fixed	1287	1292	B-Process
-by	1293	1295	I-Process
-the	1296	1299	I-Process
-experimental	1300	1312	I-Process
-yields	1313	1319	I-Process
-on	1320	1322	I-Process
-(	1323	1324	I-Process
-multi-)strange	1324	1338	I-Process
-baryons	1339	1346	I-Process
-[	1347	1348	O
-23	1348	1350	O
-]	1350	1351	O
-.	1351	1352	O
+In	0,2	O	O
+contrast	3,11	O	O
+to	12,14	O	O
+the	15,18	O	O
+H	19,20	O	O
+particle	21,29	O	O
+,	29,30	O	O
+the	31,34	O	O
+situation	35,44	O	O
+for	45,48	O	O
+the	49,52	O	O
+Θ+	53,55	O	B-Task
+baryon	56,62	O	I-Task
+is	63,65	O	O
+very	66,70	O	O
+promising	71,80	O	O
+.	80,81	O	O
+
+Thus	82,86	O	O
+,	86,87	O	O
+in	88,90	O	O
+this	91,95	O	O
+Letter	96,102	O	O
+we	103,105	O	O
+explore	106,113	O	O
+the	114,117	O	B-Task
+formation	118,127	O	I-Task
+of	128,130	O	I-Task
+the	131,134	O	I-Task
+Θ+-baryon	135,144	O	I-Task
+within	145,151	O	O
+a	152,153	O	O
+new	154,157	O	O
+approach	158,166	O	O
+called	167,173	O	O
+parton	174,180	O	B-Process
+-	180,181	O	I-Process
+based	181,186	O	I-Process
+Gribov	187,193	O	I-Process
+–	193,194	O	I-Process
+Regge	194,199	O	I-Process
+theory	200,206	O	I-Process
+.	206,207	O	O
+
+It	208,210	O	O
+is	211,213	O	O
+realized	214,222	O	O
+in	223,225	O	O
+the	226,229	O	O
+Monte	230,235	O	B-Material
+Carlo	236,241	O	I-Material
+program	242,249	O	I-Material
+NEXUS	250,255	O	B-Material
+3.97	256,260	O	I-Material
+[	261,262	O	O
+22,23	262,267	O	O
+]	267,268	O	O
+.	268,269	O	O
+
+In	270,272	O	O
+this	273,277	O	O
+model	278,283	O	O
+high	284,288	O	B-Process
+energy	289,295	O	I-Process
+hadronic	296,304	O	I-Process
+and	305,308	O	I-Process
+nuclear	309,316	O	I-Process
+collisions	317,327	O	I-Process
+are	328,331	O	O
+treated	332,339	O	O
+within	340,346	O	O
+a	347,348	O	O
+self	349,353	O	B-Process
+-	353,354	O	I-Process
+consistent	354,364	O	I-Process
+quantum	365,372	O	I-Process
+mechanical	373,383	O	I-Process
+multiple	384,392	O	I-Process
+scattering	393,403	O	I-Process
+formalism	404,413	O	I-Process
+.	413,414	O	O
+
+Elementary	415,425	O	B-Process
+interactions	426,438	O	I-Process
+,	438,439	O	O
+happening	440,449	O	O
+in	450,452	O	O
+parallel	453,461	O	O
+,	461,462	O	O
+correspond	463,473	O	O
+to	474,476	O	O
+underlying	477,487	O	O
+microscopic	488,499	O	B-Process
+(	500,501	O	I-Process
+predominantly	501,514	O	I-Process
+soft	515,519	O	I-Process
+)	519,520	O	I-Process
+parton	521,527	O	I-Process
+cascades	528,536	O	I-Process
+and	537,540	O	O
+are	541,544	O	O
+described	545,554	O	O
+effectively	555,566	O	O
+as	567,569	O	O
+phenomenological	570,586	O	B-Process
+soft	587,591	O	I-Process
+pomeron	592,599	O	I-Process
+exchanges	600,609	O	I-Process
+.	609,610	O	O
+
+A	611,612	O	O
+pomeron	613,620	O	B-Material
+can	621,624	O	O
+be	625,627	O	O
+seen	628,632	O	O
+as	633,635	O	O
+layers	636,642	O	O
+of	643,645	O	O
+a	646,647	O	O
+(	648,649	O	B-Material
+soft	649,653	O	I-Material
+)	653,654	O	I-Material
+parton	655,661	O	I-Material
+ladder	662,668	O	I-Material
+,	668,669	O	O
+which	670,675	O	O
+is	676,678	O	O
+attached	679,687	O	O
+to	688,690	O	O
+projectile	691,701	O	B-Material
+and	702,705	O	I-Material
+target	706,712	O	I-Material
+nucleons	713,721	O	I-Material
+via	722,725	O	O
+leg	726,729	O	B-Material
+partons	730,737	O	I-Material
+.	737,738	O	O
+
+At	739,741	O	O
+high	742,746	O	O
+energies	747,755	O	O
+one	756,759	O	O
+accounts	760,768	O	O
+also	769,773	O	O
+for	774,777	O	O
+the	778,781	O	O
+contribution	782,794	O	O
+of	795,797	O	O
+perturbative	798,810	O	B-Material
+(	811,812	O	I-Material
+high	812,816	O	I-Material
+pt	817,819	O	I-Material
+)	819,820	O	I-Material
+partons	821,828	O	I-Material
+described	829,838	O	O
+by	839,841	O	O
+a	842,843	O	O
+so	844,846	O	O
+-	846,847	O	O
+called	847,853	O	O
+“	854,855	O	B-Material
+semihard	855,863	O	I-Material
+pomeron”—a	864,874	O	I-Material
+piece	875,880	O	B-Material
+of	881,883	O	I-Material
+the	884,887	O	I-Material
+QCD	888,891	O	I-Material
+parton	892,898	O	I-Material
+ladder	899,905	O	I-Material
+sandwiched	906,916	O	I-Material
+between	917,924	O	I-Material
+two	925,928	O	I-Material
+soft	929,933	O	I-Material
+pomerons	934,942	O	I-Material
+which	943,948	O	I-Material
+are	949,952	O	I-Material
+connected	953,962	O	I-Material
+to	963,965	O	I-Material
+the	966,969	O	I-Material
+projectile	970,980	O	I-Material
+and	981,984	O	I-Material
+to	985,987	O	I-Material
+the	988,991	O	I-Material
+target	992,998	O	I-Material
+in	999,1001	O	I-Material
+the	1002,1005	O	I-Material
+usual	1006,1011	O	I-Material
+way	1012,1015	O	I-Material
+.	1015,1016	O	O
+
+The	1017,1020	O	O
+spectator	1021,1030	O	B-Material
+partons	1031,1038	O	I-Material
+of	1039,1041	O	O
+both	1042,1046	O	O
+projectile	1047,1057	O	B-Material
+and	1058,1061	O	I-Material
+target	1062,1068	O	I-Material
+nucleons	1069,1077	O	I-Material
+,	1077,1078	O	O
+left	1079,1083	O	O
+after	1084,1089	O	O
+pomeron	1090,1097	O	B-Process
+emissions	1098,1107	O	I-Process
+,	1107,1108	O	O
+form	1109,1113	O	O
+nucleon	1114,1121	O	B-Material
+remnants	1122,1130	O	I-Material
+.	1130,1131	O	O
+
+The	1132,1135	O	O
+legs	1136,1140	O	O
+of	1141,1143	O	O
+the	1144,1147	O	O
+pomerons	1148,1156	O	B-Material
+form	1157,1161	O	O
+color	1162,1167	O	B-Material
+singlets	1168,1176	O	I-Material
+,	1176,1177	O	O
+such	1178,1182	O	O
+as	1183,1185	O	O
+q	1186,1187	O	B-Material
+–	1187,1188	O	I-Material
+q̄	1188,1190	O	I-Material
+,	1190,1191	O	O
+q	1192,1193	O	B-Material
+–	1193,1194	O	I-Material
+qq	1194,1196	O	I-Material
+or	1197,1199	O	O
+q̄–q̄q̄.	1200,1208	O	B-Material
+
+The	1209,1212	O	O
+probability	1213,1224	O	O
+of	1225,1227	O	O
+q	1228,1229	O	B-Material
+–	1229,1230	O	I-Material
+qq	1230,1232	O	I-Material
+and	1233,1236	O	O
+q̄–q̄q̄	1237,1244	O	B-Material
+is	1245,1247	O	O
+controlled	1248,1258	O	O
+by	1259,1261	O	O
+the	1262,1265	O	O
+parameter	1266,1275	O	O
+Pqq	1276,1279	O	O
+and	1280,1283	O	O
+is	1284,1286	O	O
+fixed	1287,1292	O	B-Process
+by	1293,1295	O	I-Process
+the	1296,1299	O	I-Process
+experimental	1300,1312	O	I-Process
+yields	1313,1319	O	I-Process
+on	1320,1322	O	I-Process
+(	1323,1324	O	I-Process
+multi-)strange	1324,1338	O	I-Process
+baryons	1339,1346	O	I-Process
+[	1347,1348	O	O
+23	1348,1350	O	O
+]	1350,1351	O	O
+.	1351,1352	O	O
 
 
 -DOCSTART- (S0370269304007634)
 
-I	0	1	O
-also	2	6	O
-could	7	12	O
-not	13	16	O
-resist	17	23	O
-mentioning	24	34	O
-another	35	42	O
-wild	43	47	O
-speculation	48	59	O
-[	60	61	O
-10	61	63	O
-]	63	64	O
-.	64	65	O
-
-Many	66	70	O
-years	71	76	O
-ago	77	80	O
-,	80	81	O
-inspired	82	90	O
-by	91	93	O
-the	94	97	O
-almost	98	104	O
-exact	105	110	O
-correspondence	111	125	O
-between	126	133	O
-Einstein	134	142	B-Process
-'s	142	144	I-Process
-post	145	149	I-Process
--	149	150	I-Process
-Newtonian	150	159	I-Process
-equations	160	169	I-Process
-of	170	172	I-Process
-gravity	173	180	I-Process
-and	181	184	O
-Maxwell	185	192	B-Process
-'s	192	194	I-Process
-equations	195	204	I-Process
-of	205	207	I-Process
-motion	208	214	I-Process
-I	215	216	O
-proposed	217	225	O
-the	226	229	O
-gravitipole	230	241	B-Process
-in	242	244	O
-analogy	245	252	O
-with	253	257	O
-Dirac	258	263	B-Process
-'s	263	265	I-Process
-magnetic	266	274	I-Process
-monopole	275	283	I-Process
-.	283	284	O
-
-After	285	290	O
-Dirac	291	296	O
-there	297	302	O
-was	303	306	O
-considerable	307	319	O
-debate	320	326	O
-on	327	329	O
-how	330	333	O
-a	334	335	O
-field	336	341	B-Task
-theory	342	348	I-Task
-of	349	351	I-Task
-magnetic	352	360	I-Task
-monopoles	361	370	I-Task
-may	371	374	O
-be	375	377	O
-formulated	378	388	O
-.	388	389	O
-
-Eventually	390	400	O
-,	400	401	O
-'	402	403	O
-t	403	404	O
-Hooft	405	410	O
-and	411	414	O
-Polyakov	415	423	O
-showed	424	430	O
-that	431	435	O
-the	436	439	O
-magnetic	440	448	B-Task
-monopole	449	457	I-Task
-exists	458	464	O
-as	465	467	O
-an	468	470	O
-extended	471	479	O
-solution	480	488	O
-in	489	491	O
-certain	492	499	O
-non	500	503	B-Process
--	503	504	I-Process
-abelian	504	511	I-Process
-gauge	512	517	I-Process
-theories	518	526	I-Process
-.	526	527	O
-
-Most	528	532	O
-theorists	533	542	O
-now	543	546	O
-believe	547	554	O
-that	555	559	O
-electromagnetism	560	576	B-Process
-is	577	579	O
-merely	580	586	O
-a	587	588	O
-piece	589	594	O
-of	595	597	O
-a	598	599	O
-grand	600	605	O
-unified	606	613	O
-theory	614	620	O
-and	621	624	O
-that	625	629	O
-magnetic	630	638	B-Process
-monopoles	639	648	I-Process
-exist	649	654	O
-.	654	655	O
-
-Might	656	661	O
-it	662	664	O
-not	665	668	O
-turn	669	673	O
-out	674	677	O
-that	678	682	O
-Einstein	683	691	O
-'s	691	693	O
-theory	694	700	O
-is	701	703	O
-but	704	707	O
-a	708	709	O
-piece	710	715	O
-of	716	718	O
-a	719	720	O
-bigger	721	727	O
-theory	728	734	O
-and	735	738	O
-that	739	743	O
-gravitipoles	744	756	B-Process
-exist	757	762	O
-?	762	763	O
-
-In	764	766	O
-grand	767	772	O
-unified	773	780	O
-theory	781	787	O
-the	788	791	O
-electromagnetic	792	807	B-Process
-field	808	813	I-Process
-is	814	816	O
-a	817	818	O
-component	819	828	O
-of	829	831	O
-a	832	833	O
-multiplet	834	843	O
-.	843	844	O
-
-Could	845	850	O
-it	851	853	O
-be	854	856	O
-that	857	861	O
-the	862	865	O
-gravitational	866	879	B-Process
-field	880	885	I-Process
-also	886	890	O
-somehow	891	898	O
-carries	899	906	O
-an	907	909	O
-internal	910	918	O
-index	919	924	O
-and	925	928	O
-that	929	933	O
-the	934	937	O
-field	938	943	O
-we	944	946	O
-observe	947	954	O
-is	955	957	O
-just	958	962	O
-a	963	964	O
-component	965	974	O
-of	975	977	O
-a	978	979	O
-multiplet	980	989	O
-?	989	990	O
-
-Throwing	991	999	O
-caution	1000	1007	O
-to	1008	1010	O
-the	1011	1014	O
-wind	1015	1019	O
-,	1019	1020	O
-I	1021	1022	O
-also	1023	1027	O
-asked	1028	1033	O
-in	1034	1036	O
-[	1037	1038	O
-10	1038	1040	O
-]	1040	1041	O
-if	1042	1044	O
-the	1045	1048	O
-gravitipole	1049	1060	B-Process
-and	1061	1064	O
-the	1065	1068	O
-graviton	1069	1077	B-Process
-might	1078	1083	O
-not	1084	1087	O
-form	1088	1092	O
-a	1093	1094	O
-representation	1095	1109	O
-under	1110	1115	O
-some	1116	1120	O
-dual	1121	1125	O
-group	1126	1131	O
-just	1132	1136	O
-as	1137	1139	O
-the	1140	1143	O
-magnetic	1144	1152	B-Process
-monopole	1153	1161	I-Process
-and	1162	1165	O
-the	1166	1169	O
-photon	1170	1176	B-Material
-form	1177	1181	O
-a	1182	1183	O
-triplet	1184	1191	O
-under	1192	1197	O
-the	1198	1201	O
-dual	1202	1206	O
-group	1207	1212	O
-of	1213	1215	O
-Montonen	1216	1224	O
-and	1225	1228	O
-Olive	1229	1234	O
-
-[	1235	1236	O
-11	1236	1238	O
-]	1238	1239	O
-.	1239	1240	O
+I	0,1	O	O
+also	2,6	O	O
+could	7,12	O	O
+not	13,16	O	O
+resist	17,23	O	O
+mentioning	24,34	O	O
+another	35,42	O	O
+wild	43,47	O	O
+speculation	48,59	O	O
+[	60,61	O	O
+10	61,63	O	O
+]	63,64	O	O
+.	64,65	O	O
+
+Many	66,70	O	O
+years	71,76	O	O
+ago	77,80	O	O
+,	80,81	O	O
+inspired	82,90	O	O
+by	91,93	O	O
+the	94,97	O	O
+almost	98,104	O	O
+exact	105,110	O	O
+correspondence	111,125	O	O
+between	126,133	O	O
+Einstein	134,142	O	B-Process
+'s	142,144	O	I-Process
+post	145,149	O	I-Process
+-	149,150	O	I-Process
+Newtonian	150,159	O	I-Process
+equations	160,169	O	I-Process
+of	170,172	O	I-Process
+gravity	173,180	O	I-Process
+and	181,184	O	O
+Maxwell	185,192	O	B-Process
+'s	192,194	O	I-Process
+equations	195,204	O	I-Process
+of	205,207	O	I-Process
+motion	208,214	O	I-Process
+I	215,216	O	O
+proposed	217,225	O	O
+the	226,229	O	O
+gravitipole	230,241	O	B-Process
+in	242,244	O	O
+analogy	245,252	O	O
+with	253,257	O	O
+Dirac	258,263	O	B-Process
+'s	263,265	O	I-Process
+magnetic	266,274	O	I-Process
+monopole	275,283	O	I-Process
+.	283,284	O	O
+
+After	285,290	O	O
+Dirac	291,296	O	O
+there	297,302	O	O
+was	303,306	O	O
+considerable	307,319	O	O
+debate	320,326	O	O
+on	327,329	O	O
+how	330,333	O	O
+a	334,335	O	O
+field	336,341	O	B-Task
+theory	342,348	O	I-Task
+of	349,351	O	I-Task
+magnetic	352,360	O	I-Task
+monopoles	361,370	O	I-Task
+may	371,374	O	O
+be	375,377	O	O
+formulated	378,388	O	O
+.	388,389	O	O
+
+Eventually	390,400	O	O
+,	400,401	O	O
+'	402,403	O	O
+t	403,404	O	O
+Hooft	405,410	O	O
+and	411,414	O	O
+Polyakov	415,423	O	O
+showed	424,430	O	O
+that	431,435	O	O
+the	436,439	O	O
+magnetic	440,448	O	B-Task
+monopole	449,457	O	I-Task
+exists	458,464	O	O
+as	465,467	O	O
+an	468,470	O	O
+extended	471,479	O	O
+solution	480,488	O	O
+in	489,491	O	O
+certain	492,499	O	O
+non	500,503	O	B-Process
+-	503,504	O	I-Process
+abelian	504,511	O	I-Process
+gauge	512,517	O	I-Process
+theories	518,526	O	I-Process
+.	526,527	O	O
+
+Most	528,532	O	O
+theorists	533,542	O	O
+now	543,546	O	O
+believe	547,554	O	O
+that	555,559	O	O
+electromagnetism	560,576	O	B-Process
+is	577,579	O	O
+merely	580,586	O	O
+a	587,588	O	O
+piece	589,594	O	O
+of	595,597	O	O
+a	598,599	O	O
+grand	600,605	O	O
+unified	606,613	O	O
+theory	614,620	O	O
+and	621,624	O	O
+that	625,629	O	O
+magnetic	630,638	O	B-Process
+monopoles	639,648	O	I-Process
+exist	649,654	O	O
+.	654,655	O	O
+
+Might	656,661	O	O
+it	662,664	O	O
+not	665,668	O	O
+turn	669,673	O	O
+out	674,677	O	O
+that	678,682	O	O
+Einstein	683,691	O	O
+'s	691,693	O	O
+theory	694,700	O	O
+is	701,703	O	O
+but	704,707	O	O
+a	708,709	O	O
+piece	710,715	O	O
+of	716,718	O	O
+a	719,720	O	O
+bigger	721,727	O	O
+theory	728,734	O	O
+and	735,738	O	O
+that	739,743	O	O
+gravitipoles	744,756	O	B-Process
+exist	757,762	O	O
+?	762,763	O	O
+
+In	764,766	O	O
+grand	767,772	O	O
+unified	773,780	O	O
+theory	781,787	O	O
+the	788,791	O	O
+electromagnetic	792,807	O	B-Process
+field	808,813	O	I-Process
+is	814,816	O	O
+a	817,818	O	O
+component	819,828	O	O
+of	829,831	O	O
+a	832,833	O	O
+multiplet	834,843	O	O
+.	843,844	O	O
+
+Could	845,850	O	O
+it	851,853	O	O
+be	854,856	O	O
+that	857,861	O	O
+the	862,865	O	O
+gravitational	866,879	O	B-Process
+field	880,885	O	I-Process
+also	886,890	O	O
+somehow	891,898	O	O
+carries	899,906	O	O
+an	907,909	O	O
+internal	910,918	O	O
+index	919,924	O	O
+and	925,928	O	O
+that	929,933	O	O
+the	934,937	O	O
+field	938,943	O	O
+we	944,946	O	O
+observe	947,954	O	O
+is	955,957	O	O
+just	958,962	O	O
+a	963,964	O	O
+component	965,974	O	O
+of	975,977	O	O
+a	978,979	O	O
+multiplet	980,989	O	O
+?	989,990	O	O
+
+Throwing	991,999	O	O
+caution	1000,1007	O	O
+to	1008,1010	O	O
+the	1011,1014	O	O
+wind	1015,1019	O	O
+,	1019,1020	O	O
+I	1021,1022	O	O
+also	1023,1027	O	O
+asked	1028,1033	O	O
+in	1034,1036	O	O
+[	1037,1038	O	O
+10	1038,1040	O	O
+]	1040,1041	O	O
+if	1042,1044	O	O
+the	1045,1048	O	O
+gravitipole	1049,1060	O	B-Process
+and	1061,1064	O	O
+the	1065,1068	O	O
+graviton	1069,1077	O	B-Process
+might	1078,1083	O	O
+not	1084,1087	O	O
+form	1088,1092	O	O
+a	1093,1094	O	O
+representation	1095,1109	O	O
+under	1110,1115	O	O
+some	1116,1120	O	O
+dual	1121,1125	O	O
+group	1126,1131	O	O
+just	1132,1136	O	O
+as	1137,1139	O	O
+the	1140,1143	O	O
+magnetic	1144,1152	O	B-Process
+monopole	1153,1161	O	I-Process
+and	1162,1165	O	O
+the	1166,1169	O	O
+photon	1170,1176	O	B-Material
+form	1177,1181	O	O
+a	1182,1183	O	O
+triplet	1184,1191	O	O
+under	1192,1197	O	O
+the	1198,1201	O	O
+dual	1202,1206	O	O
+group	1207,1212	O	O
+of	1213,1215	O	O
+Montonen	1216,1224	O	O
+and	1225,1228	O	O
+Olive	1229,1234	O	O
+
+[	1235,1236	O	O
+11	1236,1238	O	O
+]	1238,1239	O	O
+.	1239,1240	O	O
 
 
 -DOCSTART- (S0370269304007695)
 
-In	0	2	O
-summary	3	10	O
-,	10	11	O
-we	12	14	O
-have	15	19	O
-shown	20	25	O
-that	26	30	O
-one	31	34	O
-can	35	38	O
-describe	39	47	B-Task
-the	48	51	I-Task
-experimental	52	64	I-Task
-data	65	69	I-Task
-of	70	72	I-Task
-the	73	76	I-Task
-HERMES	77	83	I-Task
-Collaboration	84	97	I-Task
-for	98	101	I-Task
-hadron	102	108	I-Task
-attenuation	109	120	I-Task
-on	121	123	I-Task
-nuclei	124	130	I-Task
-without	131	138	O
-invoking	139	147	O
-any	148	151	O
-changes	152	159	O
-in	160	162	O
-the	163	166	O
-fragmentation	167	180	B-Process
-function	181	189	I-Process
-due	190	193	O
-to	194	196	O
-gluon	197	202	B-Process
-radiation	203	212	I-Process
-.	212	213	O
-
-In	214	216	O
-our	217	220	O
-dynamical	221	230	B-Task
-studies	231	238	I-Task
-,	238	239	O
-that	240	244	O
-include	245	252	O
-the	253	256	O
-most	257	261	O
-relevant	262	270	O
-FSI	271	274	B-Process
-,	274	275	O
-we	276	278	O
-employ	279	285	O
-only	286	290	O
-the	291	294	O
-‘	295	296	B-Process
-free’	296	301	I-Process
-fragmentation	302	315	I-Process
-function	316	324	I-Process
-on	325	327	O
-a	328	329	O
-nucleon	330	337	B-Material
-and	338	341	O
-attribute	342	351	O
-the	352	355	O
-hadron	356	362	B-Process
-attenuation	363	374	I-Process
-to	375	377	O
-the	378	381	O
-deceleration	382	394	O
-of	395	397	O
-the	398	401	O
-produced	402	410	B-Material
-(	411	412	I-Material
-pre-)hadrons	412	424	I-Material
-due	425	428	O
-to	429	431	O
-FSI	432	435	B-Process
-in	436	438	O
-the	439	442	O
-surrounding	443	454	B-Material
-medium	455	461	I-Material
-.	461	462	O
-
-We	463	465	O
-find	466	470	O
-that	471	475	O
-in	476	478	O
-particular	479	489	O
-the	490	493	B-Process
-z	494	495	I-Process
--	495	496	I-Process
-dependence	496	506	I-Process
-of	507	509	I-Process
-RMh	510	513	I-Process
-is	514	516	O
-very	517	521	O
-sensitive	522	531	O
-to	532	534	O
-the	535	538	O
-interaction	539	550	O
-cross	551	556	O
-section	557	564	O
-of	565	567	O
-leading	568	575	B-Material
-prehadrons	576	586	I-Material
-and	587	590	O
-can	591	594	O
-be	595	597	O
-used	598	602	O
-to	603	605	O
-determine	606	615	B-Task
-σlead	616	621	I-Task
-.	621	622	O
-
-The	623	626	O
-interaction	627	638	B-Process
-of	639	641	I-Process
-the	642	645	I-Process
-leading	646	653	I-Process
-prehadrons	654	664	I-Process
-during	665	671	I-Process
-the	672	675	I-Process
-formation	676	685	I-Process
-time	686	690	I-Process
-could	691	696	O
-be	697	699	O
-interpreted	700	711	O
-as	712	714	O
-an	715	717	O
-in	718	720	B-Process
--	720	721	I-Process
-medium	721	727	I-Process
-change	728	734	I-Process
-of	735	737	I-Process
-the	738	741	I-Process
-fragmentation	742	755	I-Process
-function	756	764	I-Process
-,	764	765	O
-which	766	771	O
-however	772	779	O
-could	780	785	O
-not	786	789	O
-be	790	792	O
-given	793	798	O
-in	799	801	O
-a	802	803	O
-closed	804	810	O
-form	811	815	O
-.	815	816	O
-
-The	817	820	O
-extracted	821	830	O
-average	831	838	O
-hadron	839	845	B-Process
-formation	846	855	I-Process
-times	856	861	O
-of	862	864	O
-τf≳0.3	865	871	O
-fm	872	874	O
-/	874	875	O
-c	875	876	O
-are	877	880	O
-compatible	881	891	O
-with	892	896	O
-the	897	900	O
-analysis	901	909	B-Task
-of	910	912	I-Task
-antiproton	913	923	I-Task
-attenuation	924	935	I-Task
-in	936	938	O
-p+A	939	942	B-Process
-reactions	943	952	I-Process
-at	953	955	O
-AGS	956	959	O
-energies	960	968	O
-[	969	970	O
-17	970	972	O
-]	972	973	O
-.	973	974	O
-
-In	975	977	O
-an	978	980	O
-upcoming	981	989	O
-work	990	994	O
-we	995	997	O
-will	998	1002	O
-investigate	1003	1014	O
-in	1015	1017	O
-detail	1018	1024	B-Task
-the	1025	1028	I-Task
-spectra	1029	1036	I-Task
-for	1037	1040	I-Task
-different	1041	1050	I-Task
-particle	1051	1059	I-Task
-species	1060	1067	I-Task
-(	1068	1069	I-Task
-π±,K±,p	1069	1076	I-Task
-,	1076	1077	I-Task
-p̄	1077	1079	I-Task
-)	1079	1080	I-Task
-to	1081	1083	O
-examine	1084	1091	B-Task
-,	1091	1092	I-Task
-if	1093	1095	I-Task
-the	1096	1099	I-Task
-formation	1100	1109	I-Task
-times	1110	1115	I-Task
-of	1116	1118	I-Task
-mesons	1119	1125	I-Task
-and	1126	1129	I-Task
-antibaryons	1130	1141	I-Task
-are	1142	1145	I-Task
-about	1146	1151	I-Task
-equal	1152	1157	I-Task
-.	1157	1158	O
-
-In	1159	1161	O
-addition	1162	1170	O
-we	1171	1173	O
-will	1174	1178	O
-improve	1179	1186	B-Task
-our	1187	1190	I-Task
-model	1191	1196	I-Task
-to	1197	1199	I-Task
-describe	1200	1208	I-Task
-the	1209	1212	I-Task
-primary	1213	1220	I-Task
-photon	1221	1227	I-Task
-–	1227	1228	I-Task
-nucleon	1228	1235	I-Task
-reaction	1236	1244	I-Task
-below	1245	1250	I-Task
-the	1251	1254	I-Task
-PYTHIA	1255	1261	I-Task
-threshold	1262	1271	I-Task
-of	1272	1274	I-Task
-W⩾4	1275	1278	I-Task
-GeV.	1279	1283	I-Task
+In	0,2	O	O
+summary	3,10	O	O
+,	10,11	O	O
+we	12,14	O	O
+have	15,19	O	O
+shown	20,25	O	O
+that	26,30	O	O
+one	31,34	O	O
+can	35,38	O	O
+describe	39,47	O	B-Task
+the	48,51	O	I-Task
+experimental	52,64	O	I-Task
+data	65,69	O	I-Task
+of	70,72	O	I-Task
+the	73,76	O	I-Task
+HERMES	77,83	O	I-Task
+Collaboration	84,97	O	I-Task
+for	98,101	O	I-Task
+hadron	102,108	O	I-Task
+attenuation	109,120	O	I-Task
+on	121,123	O	I-Task
+nuclei	124,130	O	I-Task
+without	131,138	O	O
+invoking	139,147	O	O
+any	148,151	O	O
+changes	152,159	O	O
+in	160,162	O	O
+the	163,166	O	O
+fragmentation	167,180	O	B-Process
+function	181,189	O	I-Process
+due	190,193	O	O
+to	194,196	O	O
+gluon	197,202	O	B-Process
+radiation	203,212	O	I-Process
+.	212,213	O	O
+
+In	214,216	O	O
+our	217,220	O	O
+dynamical	221,230	O	B-Task
+studies	231,238	O	I-Task
+,	238,239	O	O
+that	240,244	O	O
+include	245,252	O	O
+the	253,256	O	O
+most	257,261	O	O
+relevant	262,270	O	O
+FSI	271,274	O	B-Process
+,	274,275	O	O
+we	276,278	O	O
+employ	279,285	O	O
+only	286,290	O	O
+the	291,294	O	O
+‘	295,296	O	B-Process
+free’	296,301	O	I-Process
+fragmentation	302,315	O	I-Process
+function	316,324	O	I-Process
+on	325,327	O	O
+a	328,329	O	O
+nucleon	330,337	O	B-Material
+and	338,341	O	O
+attribute	342,351	O	O
+the	352,355	O	O
+hadron	356,362	O	B-Process
+attenuation	363,374	O	I-Process
+to	375,377	O	O
+the	378,381	O	O
+deceleration	382,394	O	O
+of	395,397	O	O
+the	398,401	O	O
+produced	402,410	O	B-Material
+(	411,412	O	I-Material
+pre-)hadrons	412,424	O	I-Material
+due	425,428	O	O
+to	429,431	O	O
+FSI	432,435	O	B-Process
+in	436,438	O	O
+the	439,442	O	O
+surrounding	443,454	O	B-Material
+medium	455,461	O	I-Material
+.	461,462	O	O
+
+We	463,465	O	O
+find	466,470	O	O
+that	471,475	O	O
+in	476,478	O	O
+particular	479,489	O	O
+the	490,493	O	B-Process
+z	494,495	O	I-Process
+-	495,496	O	I-Process
+dependence	496,506	O	I-Process
+of	507,509	O	I-Process
+RMh	510,513	O	I-Process
+is	514,516	O	O
+very	517,521	O	O
+sensitive	522,531	O	O
+to	532,534	O	O
+the	535,538	O	O
+interaction	539,550	O	O
+cross	551,556	O	O
+section	557,564	O	O
+of	565,567	O	O
+leading	568,575	O	B-Material
+prehadrons	576,586	O	I-Material
+and	587,590	O	O
+can	591,594	O	O
+be	595,597	O	O
+used	598,602	O	O
+to	603,605	O	O
+determine	606,615	O	B-Task
+σlead	616,621	O	I-Task
+.	621,622	O	O
+
+The	623,626	O	O
+interaction	627,638	O	B-Process
+of	639,641	O	I-Process
+the	642,645	O	I-Process
+leading	646,653	O	I-Process
+prehadrons	654,664	O	I-Process
+during	665,671	O	I-Process
+the	672,675	O	I-Process
+formation	676,685	O	I-Process
+time	686,690	O	I-Process
+could	691,696	O	O
+be	697,699	O	O
+interpreted	700,711	O	O
+as	712,714	O	O
+an	715,717	O	O
+in	718,720	O	B-Process
+-	720,721	O	I-Process
+medium	721,727	O	I-Process
+change	728,734	O	I-Process
+of	735,737	O	I-Process
+the	738,741	O	I-Process
+fragmentation	742,755	O	I-Process
+function	756,764	O	I-Process
+,	764,765	O	O
+which	766,771	O	O
+however	772,779	O	O
+could	780,785	O	O
+not	786,789	O	O
+be	790,792	O	O
+given	793,798	O	O
+in	799,801	O	O
+a	802,803	O	O
+closed	804,810	O	O
+form	811,815	O	O
+.	815,816	O	O
+
+The	817,820	O	O
+extracted	821,830	O	O
+average	831,838	O	O
+hadron	839,845	O	B-Process
+formation	846,855	O	I-Process
+times	856,861	O	O
+of	862,864	O	O
+τf≳0.3	865,871	O	O
+fm	872,874	O	O
+/	874,875	O	O
+c	875,876	O	O
+are	877,880	O	O
+compatible	881,891	O	O
+with	892,896	O	O
+the	897,900	O	O
+analysis	901,909	O	B-Task
+of	910,912	O	I-Task
+antiproton	913,923	O	I-Task
+attenuation	924,935	O	I-Task
+in	936,938	O	O
+p+A	939,942	O	B-Process
+reactions	943,952	O	I-Process
+at	953,955	O	O
+AGS	956,959	O	O
+energies	960,968	O	O
+[	969,970	O	O
+17	970,972	O	O
+]	972,973	O	O
+.	973,974	O	O
+
+In	975,977	O	O
+an	978,980	O	O
+upcoming	981,989	O	O
+work	990,994	O	O
+we	995,997	O	O
+will	998,1002	O	O
+investigate	1003,1014	O	O
+in	1015,1017	O	O
+detail	1018,1024	O	B-Task
+the	1025,1028	O	I-Task
+spectra	1029,1036	O	I-Task
+for	1037,1040	O	I-Task
+different	1041,1050	O	I-Task
+particle	1051,1059	O	I-Task
+species	1060,1067	O	I-Task
+(	1068,1069	O	I-Task
+π±,K±,p	1069,1076	O	I-Task
+,	1076,1077	O	I-Task
+p̄	1077,1079	O	I-Task
+)	1079,1080	O	I-Task
+to	1081,1083	O	O
+examine	1084,1091	O	B-Task
+,	1091,1092	O	I-Task
+if	1093,1095	O	I-Task
+the	1096,1099	O	I-Task
+formation	1100,1109	O	I-Task
+times	1110,1115	O	I-Task
+of	1116,1118	O	I-Task
+mesons	1119,1125	O	I-Task
+and	1126,1129	O	I-Task
+antibaryons	1130,1141	O	I-Task
+are	1142,1145	O	I-Task
+about	1146,1151	O	I-Task
+equal	1152,1157	O	I-Task
+.	1157,1158	O	O
+
+In	1159,1161	O	O
+addition	1162,1170	O	O
+we	1171,1173	O	O
+will	1174,1178	O	O
+improve	1179,1186	O	B-Task
+our	1187,1190	O	I-Task
+model	1191,1196	O	I-Task
+to	1197,1199	O	I-Task
+describe	1200,1208	O	I-Task
+the	1209,1212	O	I-Task
+primary	1213,1220	O	I-Task
+photon	1221,1227	O	I-Task
+–	1227,1228	O	I-Task
+nucleon	1228,1235	O	I-Task
+reaction	1236,1244	O	I-Task
+below	1245,1250	O	I-Task
+the	1251,1254	O	I-Task
+PYTHIA	1255,1261	O	I-Task
+threshold	1262,1271	O	I-Task
+of	1272,1274	O	I-Task
+W⩾4	1275,1278	O	I-Task
+GeV.	1279,1283	O	I-Task
 
 
 -DOCSTART- (S0370269304007701)
 
-Solitons	0	8	B-Material
-present	9	16	O
-the	17	20	O
-possibility	21	32	O
-of	33	35	O
-extended	36	44	O
-objects	45	52	O
-as	53	55	O
-stable	56	62	O
-states	63	69	O
-within	70	76	O
-Quantum	77	84	O
-Field	85	90	O
-Theory	91	97	O
-.	97	98	O
-
-Although	99	107	O
-these	108	113	O
-solutions	114	123	O
-are	124	127	O
-obtained	128	136	O
-from	137	141	O
-semi	142	146	B-Process
--	146	147	I-Process
-classical	147	156	I-Process
-arguments	157	166	I-Process
-in	167	169	I-Process
-weak	170	174	I-Process
-coupling	175	183	I-Process
-limit	184	189	I-Process
-,	189	190	O
-their	191	196	O
-validity	197	205	O
-as	206	208	O
-quantal	209	216	B-Task
-states	217	223	I-Task
-is	224	226	O
-justified	227	236	O
-based	237	242	O
-on	243	245	O
-the	246	249	O
-associated	250	260	B-Process
-topological	261	272	I-Process
-conservation	273	285	I-Process
-laws	286	290	I-Process
-.	290	291	O
-
-A	292	293	O
-more	294	298	O
-curious	299	306	O
-occurrence	307	317	O
-is	318	320	O
-that	321	325	O
-of	326	328	O
-fermionic	329	338	B-Task
-zero	339	343	I-Task
--	343	344	I-Task
-energy	344	350	I-Task
-modes	351	356	I-Task
-trapped	357	364	I-Task
-on	365	367	I-Task
-such	368	372	I-Task
-solutions	373	382	I-Task
-.	382	383	O
-
-Their	384	389	O
-presence	390	398	O
-requires	399	407	O
-,	407	408	O
-according	409	418	O
-to	419	421	O
-well	422	426	O
--	426	427	O
-known	427	432	O
-arguments	433	442	O
-[	443	444	O
-1,2	444	447	O
-]	447	448	O
-,	448	449	O
-an	450	452	O
-assignment	453	463	B-Process
-of	464	466	I-Process
-half	467	471	I-Process
--	471	472	I-Process
-integer	472	479	I-Process
-fermion	480	487	I-Process
-number	488	494	I-Process
-to	495	497	I-Process
-the	498	501	I-Process
-solitonic	502	511	I-Process
-states	512	518	I-Process
-.	518	519	O
-
-In	520	522	O
-the	523	526	O
-usual	527	532	O
-treatment	533	542	O
-,	542	543	O
-the	544	547	B-Task
-back	548	552	I-Task
-reaction	553	561	I-Task
-of	562	564	I-Task
-the	565	568	I-Task
-fermion	569	576	I-Task
-zero	577	581	I-Task
--	581	582	I-Task
-modes	582	587	I-Task
-on	588	590	I-Task
-the	591	594	I-Task
-soliton	595	602	I-Task
-itself	603	609	O
-is	610	612	O
-ignored	613	620	O
-.	620	621	O
-
-However	622	629	O
-,	629	630	O
-the	631	634	O
-fractional	635	645	B-Task
-values	646	652	I-Task
-of	653	655	I-Task
-the	656	659	I-Task
-fermionic	660	669	I-Task
-charge	670	676	I-Task
-have	677	681	O
-interesting	682	693	O
-consequence	694	705	O
-for	706	709	O
-the	710	713	B-Task
-fate	714	718	I-Task
-of	719	721	I-Task
-the	722	725	I-Task
-soliton	726	733	I-Task
-if	734	736	O
-the	737	740	O
-latter	741	747	O
-is	748	750	O
-not	751	754	O
-strictly	755	763	O
-stable	764	770	O
-.	770	771	O
-
-The	772	775	O
-reason	776	782	O
-for	783	786	O
-this	787	791	O
-is	792	794	O
-that	795	799	O
-if	800	802	O
-the	803	806	O
-configuration	807	820	O
-were	821	825	O
-to	826	828	O
-relax	829	834	O
-to	835	837	O
-trivial	838	845	O
-vacuum	846	852	B-Material
-in	853	855	O
-isolation	856	865	O
-,	865	866	O
-there	867	872	O
-is	873	875	O
-no	876	878	O
-particle	879	887	O
--	887	888	O
-like	888	892	O
-state	893	898	O
-available	899	908	O
-for	909	912	O
-carrying	913	921	B-Task
-the	922	925	I-Task
-fractional	926	936	I-Task
-value	937	942	I-Task
-of	943	945	I-Task
-the	946	949	I-Task
-fermionic	950	959	I-Task
-charge	960	966	I-Task
-.	966	967	O
-
-Dynamical	968	977	B-Task
-stability	978	987	I-Task
-of	988	990	I-Task
-such	991	995	I-Task
-objects	996	1003	I-Task
-was	1004	1007	O
-pointed	1008	1015	O
-out	1016	1019	O
-in	1020	1022	O
-[	1023	1024	O
-3	1024	1025	O
-]	1025	1026	O
-,	1026	1027	O
-in	1028	1030	O
-cosmological	1031	1043	O
-context	1044	1051	O
-in	1052	1054	O
-[	1055	1056	O
-4,5	1056	1059	O
-]	1059	1060	O
-and	1061	1064	O
-more	1065	1069	O
-recently	1070	1078	O
-in	1079	1081	O
-[	1082	1083	O
-6–8	1083	1086	O
-]	1086	1087	O
-.	1087	1088	O
-
-Fractional	1089	1099	O
-fermion	1100	1107	O
-number	1108	1114	O
-phenomenon	1115	1125	O
-also	1126	1130	O
-occurs	1131	1137	O
-in	1138	1140	O
-condensed	1141	1150	B-Material
-matter	1151	1157	I-Material
-systems	1158	1165	I-Material
-and	1166	1169	O
-its	1170	1173	O
-wide	1174	1178	O
-ranging	1179	1186	O
-implications	1187	1199	O
-call	1200	1204	O
-for	1205	1208	O
-a	1209	1210	O
-systematic	1211	1221	B-Task
-understanding	1222	1235	I-Task
-of	1236	1238	I-Task
-the	1239	1242	I-Task
-phenomenon	1243	1253	I-Task
-.	1253	1254	O
+Solitons	0,8	O	B-Material
+present	9,16	O	O
+the	17,20	O	O
+possibility	21,32	O	O
+of	33,35	O	O
+extended	36,44	O	O
+objects	45,52	O	O
+as	53,55	O	O
+stable	56,62	O	O
+states	63,69	O	O
+within	70,76	O	O
+Quantum	77,84	O	O
+Field	85,90	O	O
+Theory	91,97	O	O
+.	97,98	O	O
+
+Although	99,107	O	O
+these	108,113	O	O
+solutions	114,123	O	O
+are	124,127	O	O
+obtained	128,136	O	O
+from	137,141	O	O
+semi	142,146	O	B-Process
+-	146,147	O	I-Process
+classical	147,156	O	I-Process
+arguments	157,166	O	I-Process
+in	167,169	O	I-Process
+weak	170,174	O	I-Process
+coupling	175,183	O	I-Process
+limit	184,189	O	I-Process
+,	189,190	O	O
+their	191,196	O	O
+validity	197,205	O	O
+as	206,208	O	O
+quantal	209,216	O	B-Task
+states	217,223	O	I-Task
+is	224,226	O	O
+justified	227,236	O	O
+based	237,242	O	O
+on	243,245	O	O
+the	246,249	O	O
+associated	250,260	O	B-Process
+topological	261,272	O	I-Process
+conservation	273,285	O	I-Process
+laws	286,290	O	I-Process
+.	290,291	O	O
+
+A	292,293	O	O
+more	294,298	O	O
+curious	299,306	O	O
+occurrence	307,317	O	O
+is	318,320	O	O
+that	321,325	O	O
+of	326,328	O	O
+fermionic	329,338	O	B-Task
+zero	339,343	O	I-Task
+-	343,344	O	I-Task
+energy	344,350	O	I-Task
+modes	351,356	O	I-Task
+trapped	357,364	O	I-Task
+on	365,367	O	I-Task
+such	368,372	O	I-Task
+solutions	373,382	O	I-Task
+.	382,383	O	O
+
+Their	384,389	O	O
+presence	390,398	O	O
+requires	399,407	O	O
+,	407,408	O	O
+according	409,418	O	O
+to	419,421	O	O
+well	422,426	O	O
+-	426,427	O	O
+known	427,432	O	O
+arguments	433,442	O	O
+[	443,444	O	O
+1,2	444,447	O	O
+]	447,448	O	O
+,	448,449	O	O
+an	450,452	O	O
+assignment	453,463	O	B-Process
+of	464,466	O	I-Process
+half	467,471	O	I-Process
+-	471,472	O	I-Process
+integer	472,479	O	I-Process
+fermion	480,487	O	I-Process
+number	488,494	O	I-Process
+to	495,497	O	I-Process
+the	498,501	O	I-Process
+solitonic	502,511	O	I-Process
+states	512,518	O	I-Process
+.	518,519	O	O
+
+In	520,522	O	O
+the	523,526	O	O
+usual	527,532	O	O
+treatment	533,542	O	O
+,	542,543	O	O
+the	544,547	O	B-Task
+back	548,552	O	I-Task
+reaction	553,561	O	I-Task
+of	562,564	O	I-Task
+the	565,568	O	I-Task
+fermion	569,576	O	I-Task
+zero	577,581	O	I-Task
+-	581,582	O	I-Task
+modes	582,587	O	I-Task
+on	588,590	O	I-Task
+the	591,594	O	I-Task
+soliton	595,602	O	I-Task
+itself	603,609	O	O
+is	610,612	O	O
+ignored	613,620	O	O
+.	620,621	O	O
+
+However	622,629	O	O
+,	629,630	O	O
+the	631,634	O	O
+fractional	635,645	O	B-Task
+values	646,652	O	I-Task
+of	653,655	O	I-Task
+the	656,659	O	I-Task
+fermionic	660,669	O	I-Task
+charge	670,676	O	I-Task
+have	677,681	O	O
+interesting	682,693	O	O
+consequence	694,705	O	O
+for	706,709	O	O
+the	710,713	O	B-Task
+fate	714,718	O	I-Task
+of	719,721	O	I-Task
+the	722,725	O	I-Task
+soliton	726,733	O	I-Task
+if	734,736	O	O
+the	737,740	O	O
+latter	741,747	O	O
+is	748,750	O	O
+not	751,754	O	O
+strictly	755,763	O	O
+stable	764,770	O	O
+.	770,771	O	O
+
+The	772,775	O	O
+reason	776,782	O	O
+for	783,786	O	O
+this	787,791	O	O
+is	792,794	O	O
+that	795,799	O	O
+if	800,802	O	O
+the	803,806	O	O
+configuration	807,820	O	O
+were	821,825	O	O
+to	826,828	O	O
+relax	829,834	O	O
+to	835,837	O	O
+trivial	838,845	O	O
+vacuum	846,852	O	B-Material
+in	853,855	O	O
+isolation	856,865	O	O
+,	865,866	O	O
+there	867,872	O	O
+is	873,875	O	O
+no	876,878	O	O
+particle	879,887	O	O
+-	887,888	O	O
+like	888,892	O	O
+state	893,898	O	O
+available	899,908	O	O
+for	909,912	O	O
+carrying	913,921	O	B-Task
+the	922,925	O	I-Task
+fractional	926,936	O	I-Task
+value	937,942	O	I-Task
+of	943,945	O	I-Task
+the	946,949	O	I-Task
+fermionic	950,959	O	I-Task
+charge	960,966	O	I-Task
+.	966,967	O	O
+
+Dynamical	968,977	O	B-Task
+stability	978,987	O	I-Task
+of	988,990	O	I-Task
+such	991,995	O	I-Task
+objects	996,1003	O	I-Task
+was	1004,1007	O	O
+pointed	1008,1015	O	O
+out	1016,1019	O	O
+in	1020,1022	O	O
+[	1023,1024	O	O
+3	1024,1025	O	O
+]	1025,1026	O	O
+,	1026,1027	O	O
+in	1028,1030	O	O
+cosmological	1031,1043	O	O
+context	1044,1051	O	O
+in	1052,1054	O	O
+[	1055,1056	O	O
+4,5	1056,1059	O	O
+]	1059,1060	O	O
+and	1061,1064	O	O
+more	1065,1069	O	O
+recently	1070,1078	O	O
+in	1079,1081	O	O
+[	1082,1083	O	O
+6–8	1083,1086	O	O
+]	1086,1087	O	O
+.	1087,1088	O	O
+
+Fractional	1089,1099	O	O
+fermion	1100,1107	O	O
+number	1108,1114	O	O
+phenomenon	1115,1125	O	O
+also	1126,1130	O	O
+occurs	1131,1137	O	O
+in	1138,1140	O	O
+condensed	1141,1150	O	B-Material
+matter	1151,1157	O	I-Material
+systems	1158,1165	O	I-Material
+and	1166,1169	O	O
+its	1170,1173	O	O
+wide	1174,1178	O	O
+ranging	1179,1186	O	O
+implications	1187,1199	O	O
+call	1200,1204	O	O
+for	1205,1208	O	O
+a	1209,1210	O	O
+systematic	1211,1221	O	B-Task
+understanding	1222,1235	O	I-Task
+of	1236,1238	O	I-Task
+the	1239,1242	O	I-Task
+phenomenon	1243,1253	O	I-Task
+.	1253,1254	O	O
 
 
 -DOCSTART- (S0370269304007749)
 
-The	0	3	O
-charmonium	4	14	B-Process
-production	15	25	I-Process
-has	26	29	O
-long	30	34	O
-been	35	39	O
-considered	40	50	O
-as	51	53	O
-a	54	55	O
-good	56	60	O
-process	61	68	O
-for	69	72	O
-investigating	73	86	B-Task
-both	87	91	I-Task
-perturbative	92	104	I-Task
-and	105	108	I-Task
-nonperturbative	109	124	I-Task
-properties	125	135	I-Task
-of	136	138	I-Task
-quantum	139	146	I-Task
-chromodynamics	147	161	I-Task
-(	162	163	I-Task
-QCD	163	166	I-Task
-)	166	167	O
-,	167	168	O
-because	169	176	O
-of	177	179	O
-the	180	183	O
-relatively	184	194	O
-large	195	200	O
-difference	201	211	O
-between	212	219	O
-the	220	223	O
-scale	224	229	O
-at	230	232	O
-which	233	238	O
-the	239	242	O
-charm	243	248	O
-–	248	249	O
-quark	249	254	O
-pair	255	259	O
-is	260	262	O
-produced	263	271	O
-at	272	274	O
-the	275	278	O
-parton	279	285	O
-level	286	291	O
-and	292	295	O
-the	296	299	O
-scale	300	305	O
-at	306	308	O
-which	309	314	O
-it	315	317	O
-evolves	318	325	O
-into	326	330	O
-a	331	332	O
-quarkonium	333	343	O
-.	343	344	O
-
-In	345	347	O
-particular	348	358	O
-,	358	359	O
-comparing	360	369	O
-to	370	372	O
-hadron	373	379	O
-colliders	380	389	O
-,	389	390	O
-e+e−	391	395	B-Material
-colliders	396	405	I-Material
-,	405	406	O
-provide	407	414	O
-a	415	416	O
-cleaner	417	424	O
-environment	425	436	O
-to	437	439	O
-study	440	445	B-Task
-the	446	449	I-Task
-charmonium	450	460	I-Task
-productions	461	472	I-Task
-and	473	476	I-Task
-decays	477	483	I-Task
-.	483	484	O
-
-However	485	492	O
-,	492	493	O
-some	494	498	O
-puzzles	499	506	O
-arise	507	512	O
-from	513	517	O
-the	518	521	O
-recent	522	528	B-Process
-measurements	529	541	I-Process
-on	542	544	I-Process
-the	545	548	I-Process
-prompt	549	555	I-Process
-J/ψ	556	559	I-Process
-productions	560	571	O
-at	572	574	O
-BaBar	575	580	B-Process
-and	581	584	O
-Belle	585	590	B-Process
-
-[	591	592	O
-1–3	592	595	O
-]	595	596	O
-.	596	597	O
-
-For	598	601	O
-the	602	605	O
-inclusive	606	615	B-Task
-J/ψ	616	619	I-Task
-productions	620	631	I-Task
-,	631	632	O
-the	633	636	O
-cross	637	642	O
-section	643	650	O
-is	651	653	O
-much	654	658	O
-larger	659	665	O
-than	666	670	O
-the	671	674	O
-predictions	675	686	O
-of	687	689	O
-nonrelativistic	690	705	B-Process
-quantum	706	713	I-Process
-chromodynamics	714	728	I-Process
-(	729	730	O
-NRQCD	730	735	B-Process
-)	735	736	O
-[	737	738	O
-4	738	739	O
-]	739	740	O
-;	740	741	O
-there	742	747	O
-is	748	750	O
-also	751	755	O
-an	756	758	O
-over	759	763	O
--	763	764	O
-abundance	764	773	O
-of	774	776	O
-the	777	780	O
-four	781	785	B-Process
--	785	786	I-Process
-charm	786	791	I-Process
-–	791	792	I-Process
-quark	792	797	I-Process
-processes	798	807	I-Process
-including	808	817	O
-the	818	821	O
-exclusive	822	831	B-Process
-J/ψ	832	835	I-Process
-and	836	839	I-Process
-charmonium	840	850	I-Process
-productions	851	862	I-Process
-;	862	863	O
-there	864	869	O
-is	870	872	O
-no	873	875	O
-apparent	876	884	O
-signal	885	891	O
-in	892	894	O
-the	895	898	O
-hard	899	903	O
-J/ψ	904	907	O
-spectrum	908	916	O
-which	917	922	O
-has	923	926	O
-been	927	931	O
-predicted	932	941	O
-by	942	944	O
-the	945	948	O
-J/ψgg	949	954	B-Process
-production	955	965	I-Process
-mode	966	970	I-Process
-as	971	973	O
-well	974	978	O
-as	979	981	O
-the	982	985	O
-color	986	991	B-Process
--	991	992	I-Process
-octet	992	997	I-Process
-mechanism	998	1007	I-Process
-in	1008	1010	I-Process
-NRQCD	1011	1016	I-Process
-.	1016	1017	O
-
-To	1018	1020	O
-provide	1021	1028	O
-plausible	1029	1038	O
-solutions	1039	1048	O
-and	1049	1052	O
-explanations	1053	1065	O
-for	1066	1069	O
-these	1070	1075	O
-conflicts	1076	1085	O
-,	1085	1086	O
-theorists	1087	1096	O
-have	1097	1101	O
-studied	1102	1109	O
-the	1110	1113	O
-possibilities	1114	1127	B-Task
-of	1128	1130	I-Task
-the	1131	1134	I-Task
-contribution	1135	1147	I-Task
-from	1148	1152	I-Task
-two	1153	1156	I-Task
--	1156	1157	I-Task
-virtual	1157	1164	I-Task
--	1164	1165	I-Task
-photon	1165	1171	I-Task
-mediate	1172	1179	I-Task
-processes	1180	1189	I-Task
-[	1190	1191	O
-5	1191	1192	O
-]	1192	1193	O
-,	1193	1194	O
-large	1195	1200	B-Task
-higher	1201	1207	I-Task
--	1207	1208	I-Task
-order	1208	1213	I-Task
-QCD	1214	1217	I-Task
-corrections	1218	1229	I-Task
-[	1230	1231	O
-6,7	1231	1234	O
-]	1234	1235	O
-,	1235	1236	O
-collinear	1237	1246	B-Task
-suppression	1247	1258	I-Task
-at	1259	1261	I-Task
-the	1262	1265	I-Task
-end	1266	1269	I-Task
--	1269	1270	I-Task
-point	1270	1275	I-Task
-region	1276	1282	I-Task
-of	1283	1285	I-Task
-the	1286	1289	I-Task
-J/ψ	1290	1293	I-Task
-momentum	1294	1302	I-Task
-[	1303	1304	O
-7,8	1304	1307	O
-]	1307	1308	O
-,	1308	1309	O
-contribution	1310	1322	B-Task
-from	1323	1327	I-Task
-the	1328	1331	I-Task
-J/ψ-glueball	1332	1344	I-Task
-associated	1345	1355	I-Task
-production	1356	1366	I-Task
-[	1367	1368	O
-9	1368	1369	O
-]	1369	1370	O
-and	1371	1374	O
-contribution	1375	1387	B-Task
-from	1388	1392	I-Task
-a	1393	1394	I-Task
-very	1395	1399	I-Task
-light	1400	1405	I-Task
-scalar	1406	1412	I-Task
-boson	1413	1418	I-Task
-[	1419	1420	O
-10	1420	1422	O
-]	1422	1423	O
-.	1423	1424	O
+The	0,3	O	O
+charmonium	4,14	O	B-Process
+production	15,25	O	I-Process
+has	26,29	O	O
+long	30,34	O	O
+been	35,39	O	O
+considered	40,50	O	O
+as	51,53	O	O
+a	54,55	O	O
+good	56,60	O	O
+process	61,68	O	O
+for	69,72	O	O
+investigating	73,86	O	B-Task
+both	87,91	O	I-Task
+perturbative	92,104	O	I-Task
+and	105,108	O	I-Task
+nonperturbative	109,124	O	I-Task
+properties	125,135	O	I-Task
+of	136,138	O	I-Task
+quantum	139,146	O	I-Task
+chromodynamics	147,161	O	I-Task
+(	162,163	O	I-Task
+QCD	163,166	O	I-Task
+)	166,167	O	O
+,	167,168	O	O
+because	169,176	O	O
+of	177,179	O	O
+the	180,183	O	O
+relatively	184,194	O	O
+large	195,200	O	O
+difference	201,211	O	O
+between	212,219	O	O
+the	220,223	O	O
+scale	224,229	O	O
+at	230,232	O	O
+which	233,238	O	O
+the	239,242	O	O
+charm	243,248	O	O
+–	248,249	O	O
+quark	249,254	O	O
+pair	255,259	O	O
+is	260,262	O	O
+produced	263,271	O	O
+at	272,274	O	O
+the	275,278	O	O
+parton	279,285	O	O
+level	286,291	O	O
+and	292,295	O	O
+the	296,299	O	O
+scale	300,305	O	O
+at	306,308	O	O
+which	309,314	O	O
+it	315,317	O	O
+evolves	318,325	O	O
+into	326,330	O	O
+a	331,332	O	O
+quarkonium	333,343	O	O
+.	343,344	O	O
+
+In	345,347	O	O
+particular	348,358	O	O
+,	358,359	O	O
+comparing	360,369	O	O
+to	370,372	O	O
+hadron	373,379	O	O
+colliders	380,389	O	O
+,	389,390	O	O
+e+e−	391,395	O	B-Material
+colliders	396,405	O	I-Material
+,	405,406	O	O
+provide	407,414	O	O
+a	415,416	O	O
+cleaner	417,424	O	O
+environment	425,436	O	O
+to	437,439	O	O
+study	440,445	O	B-Task
+the	446,449	O	I-Task
+charmonium	450,460	O	I-Task
+productions	461,472	O	I-Task
+and	473,476	O	I-Task
+decays	477,483	O	I-Task
+.	483,484	O	O
+
+However	485,492	O	O
+,	492,493	O	O
+some	494,498	O	O
+puzzles	499,506	O	O
+arise	507,512	O	O
+from	513,517	O	O
+the	518,521	O	O
+recent	522,528	O	B-Process
+measurements	529,541	O	I-Process
+on	542,544	O	I-Process
+the	545,548	O	I-Process
+prompt	549,555	O	I-Process
+J/ψ	556,559	O	I-Process
+productions	560,571	O	O
+at	572,574	O	O
+BaBar	575,580	O	B-Process
+and	581,584	O	O
+Belle	585,590	O	B-Process
+
+[	591,592	O	O
+1–3	592,595	O	O
+]	595,596	O	O
+.	596,597	O	O
+
+For	598,601	O	O
+the	602,605	O	O
+inclusive	606,615	O	B-Task
+J/ψ	616,619	O	I-Task
+productions	620,631	O	I-Task
+,	631,632	O	O
+the	633,636	O	O
+cross	637,642	O	O
+section	643,650	O	O
+is	651,653	O	O
+much	654,658	O	O
+larger	659,665	O	O
+than	666,670	O	O
+the	671,674	O	O
+predictions	675,686	O	O
+of	687,689	O	O
+nonrelativistic	690,705	O	B-Process
+quantum	706,713	O	I-Process
+chromodynamics	714,728	O	I-Process
+(	729,730	O	O
+NRQCD	730,735	O	B-Process
+)	735,736	O	O
+[	737,738	O	O
+4	738,739	O	O
+]	739,740	O	O
+;	740,741	O	O
+there	742,747	O	O
+is	748,750	O	O
+also	751,755	O	O
+an	756,758	O	O
+over	759,763	O	O
+-	763,764	O	O
+abundance	764,773	O	O
+of	774,776	O	O
+the	777,780	O	O
+four	781,785	O	B-Process
+-	785,786	O	I-Process
+charm	786,791	O	I-Process
+–	791,792	O	I-Process
+quark	792,797	O	I-Process
+processes	798,807	O	I-Process
+including	808,817	O	O
+the	818,821	O	O
+exclusive	822,831	O	B-Process
+J/ψ	832,835	O	I-Process
+and	836,839	O	I-Process
+charmonium	840,850	O	I-Process
+productions	851,862	O	I-Process
+;	862,863	O	O
+there	864,869	O	O
+is	870,872	O	O
+no	873,875	O	O
+apparent	876,884	O	O
+signal	885,891	O	O
+in	892,894	O	O
+the	895,898	O	O
+hard	899,903	O	O
+J/ψ	904,907	O	O
+spectrum	908,916	O	O
+which	917,922	O	O
+has	923,926	O	O
+been	927,931	O	O
+predicted	932,941	O	O
+by	942,944	O	O
+the	945,948	O	O
+J/ψgg	949,954	O	B-Process
+production	955,965	O	I-Process
+mode	966,970	O	I-Process
+as	971,973	O	O
+well	974,978	O	O
+as	979,981	O	O
+the	982,985	O	O
+color	986,991	O	B-Process
+-	991,992	O	I-Process
+octet	992,997	O	I-Process
+mechanism	998,1007	O	I-Process
+in	1008,1010	O	I-Process
+NRQCD	1011,1016	O	I-Process
+.	1016,1017	O	O
+
+To	1018,1020	O	O
+provide	1021,1028	O	O
+plausible	1029,1038	O	O
+solutions	1039,1048	O	O
+and	1049,1052	O	O
+explanations	1053,1065	O	O
+for	1066,1069	O	O
+these	1070,1075	O	O
+conflicts	1076,1085	O	O
+,	1085,1086	O	O
+theorists	1087,1096	O	O
+have	1097,1101	O	O
+studied	1102,1109	O	O
+the	1110,1113	O	O
+possibilities	1114,1127	O	B-Task
+of	1128,1130	O	I-Task
+the	1131,1134	O	I-Task
+contribution	1135,1147	O	I-Task
+from	1148,1152	O	I-Task
+two	1153,1156	O	I-Task
+-	1156,1157	O	I-Task
+virtual	1157,1164	O	I-Task
+-	1164,1165	O	I-Task
+photon	1165,1171	O	I-Task
+mediate	1172,1179	O	I-Task
+processes	1180,1189	O	I-Task
+[	1190,1191	O	O
+5	1191,1192	O	O
+]	1192,1193	O	O
+,	1193,1194	O	O
+large	1195,1200	O	B-Task
+higher	1201,1207	O	I-Task
+-	1207,1208	O	I-Task
+order	1208,1213	O	I-Task
+QCD	1214,1217	O	I-Task
+corrections	1218,1229	O	I-Task
+[	1230,1231	O	O
+6,7	1231,1234	O	O
+]	1234,1235	O	O
+,	1235,1236	O	O
+collinear	1237,1246	O	B-Task
+suppression	1247,1258	O	I-Task
+at	1259,1261	O	I-Task
+the	1262,1265	O	I-Task
+end	1266,1269	O	I-Task
+-	1269,1270	O	I-Task
+point	1270,1275	O	I-Task
+region	1276,1282	O	I-Task
+of	1283,1285	O	I-Task
+the	1286,1289	O	I-Task
+J/ψ	1290,1293	O	I-Task
+momentum	1294,1302	O	I-Task
+[	1303,1304	O	O
+7,8	1304,1307	O	O
+]	1307,1308	O	O
+,	1308,1309	O	O
+contribution	1310,1322	O	B-Task
+from	1323,1327	O	I-Task
+the	1328,1331	O	I-Task
+J/ψ-glueball	1332,1344	O	I-Task
+associated	1345,1355	O	I-Task
+production	1356,1366	O	I-Task
+[	1367,1368	O	O
+9	1368,1369	O	O
+]	1369,1370	O	O
+and	1371,1374	O	O
+contribution	1375,1387	O	B-Task
+from	1388,1392	O	I-Task
+a	1393,1394	O	I-Task
+very	1395,1399	O	I-Task
+light	1400,1405	O	I-Task
+scalar	1406,1412	O	I-Task
+boson	1413,1418	O	I-Task
+[	1419,1420	O	O
+10	1420,1422	O	O
+]	1422,1423	O	O
+.	1423,1424	O	O
 
 
 -DOCSTART- (S0370269304007798)
 
-States	0	6	O
-outside	7	14	O
-the	15	18	O
-constituent	19	30	O
-quark	31	36	O
-model	37	42	O
-have	43	47	O
-been	48	52	O
-hypothesized	53	65	O
-to	66	68	O
-exist	69	74	O
-almost	75	81	O
-since	82	87	O
-the	88	91	O
-introduction	92	104	O
-of	105	107	O
-color	108	113	O
-[	114	115	O
-1–4	115	118	O
-]	118	119	O
-.	119	120	O
-
-Hybrid	121	127	B-Material
-mesons	128	134	I-Material
-,	134	135	O
-qq̄	136	139	O
-states	140	146	O
-with	147	151	O
-an	152	154	O
-admixture	155	164	O
-of	165	167	O
-gluons	168	174	B-Material
-,	174	175	O
-and	176	179	O
-glueballs	180	189	B-Material
-,	189	190	O
-states	191	197	O
-with	198	202	O
-no	203	205	O
-quark	206	211	B-Material
-content	212	219	O
-,	219	220	O
-rely	221	225	O
-on	226	228	O
-the	229	232	O
-self	233	237	O
-interaction	238	249	O
-property	250	258	O
-of	259	261	O
-gluons	262	268	B-Material
-due	269	272	O
-to	273	275	O
-their	276	281	O
-color	282	287	B-Process
-charge	288	294	I-Process
-.	294	295	O
-
-Looking	296	303	B-Process
-for	304	307	I-Process
-glueballs	308	317	I-Process
-would	318	323	O
-be	324	326	O
-the	327	330	O
-most	331	335	O
-obvious	336	343	O
-way	344	347	O
-to	348	350	O
-find	351	355	B-Task
-evidence	356	364	I-Task
-for	365	368	I-Task
-states	369	375	I-Task
-with	376	380	I-Task
-constituent	381	392	I-Task
-gluons	393	399	I-Task
-;	399	400	O
-however	401	408	O
-,	408	409	O
-the	410	413	O
-search	414	420	O
-is	421	423	O
-hindered	424	432	O
-by	433	435	O
-the	436	439	O
-fact	440	444	O
-that	445	449	O
-these	450	455	O
-states	456	462	O
-may	463	466	O
-significantly	467	480	O
-mix	481	484	O
-with	485	489	O
-regular	490	497	O
-qq̄-mesons	498	508	B-Material
-in	509	511	O
-the	512	515	O
-region	516	522	O
-where	523	528	O
-the	529	532	O
-lightest	533	541	O
-are	542	545	O
-predicted	546	555	O
-to	556	558	O
-occur	559	564	O
-.	564	565	O
-
-As	566	568	O
-such	569	573	O
-,	573	574	O
-they	575	579	O
-may	580	583	O
-not	584	587	O
-be	588	590	O
-observable	591	601	O
-as	602	604	O
-pure	605	609	O
-states	610	616	O
-and	617	620	O
-disentangling	621	634	B-Task
-the	635	638	I-Task
-observed	639	647	I-Task
-spectra	648	655	I-Task
-may	656	659	O
-be	660	662	O
-a	663	664	O
-very	665	669	O
-difficult	670	679	O
-task	680	684	O
-.	684	685	O
-
-Instead	686	693	O
-,	693	694	O
-hybrid	695	701	B-Material
-mesons	702	708	I-Material
-(	709	710	O
-qq̄gn	710	715	B-Material
-)	715	716	O
-may	717	720	O
-be	721	723	O
-a	724	725	O
-better	726	732	O
-place	733	738	O
-to	739	741	O
-search	742	748	O
-for	749	752	O
-evidence	753	761	O
-of	762	764	O
-resonances	765	775	B-Task
-outside	776	783	I-Task
-the	784	787	I-Task
-constituent	788	799	I-Task
-quark	800	805	I-Task
-model	806	811	I-Task
-,	811	812	O
-especially	813	823	O
-since	824	829	O
-the	830	833	O
-lightest	834	842	O
-of	843	845	O
-theses	846	852	O
-states	853	859	O
-are	860	863	O
-predicted	864	873	O
-to	874	876	O
-have	877	881	O
-exotic	882	888	O
-quantum	889	896	O
-numbers	897	904	O
-of	905	907	O
-spin	908	912	O
-,	912	913	O
-parity	914	920	O
-,	920	921	O
-and	922	925	O
-charge	926	932	O
-conjugation	933	944	O
-,	944	945	O
-JPC	946	949	B-Process
-,	949	950	O
-that	951	955	O
-is	956	958	O
-,	958	959	O
-combinations	960	972	O
-that	973	977	O
-are	978	981	O
-unattainable	982	994	O
-by	995	997	O
-regular	998	1005	O
-qq̄-mesons	1006	1016	B-Material
-.	1016	1017	O
+States	0,6	O	O
+outside	7,14	O	O
+the	15,18	O	O
+constituent	19,30	O	O
+quark	31,36	O	O
+model	37,42	O	O
+have	43,47	O	O
+been	48,52	O	O
+hypothesized	53,65	O	O
+to	66,68	O	O
+exist	69,74	O	O
+almost	75,81	O	O
+since	82,87	O	O
+the	88,91	O	O
+introduction	92,104	O	O
+of	105,107	O	O
+color	108,113	O	O
+[	114,115	O	O
+1–4	115,118	O	O
+]	118,119	O	O
+.	119,120	O	O
+
+Hybrid	121,127	O	B-Material
+mesons	128,134	O	I-Material
+,	134,135	O	O
+qq̄	136,139	O	O
+states	140,146	O	O
+with	147,151	O	O
+an	152,154	O	O
+admixture	155,164	O	O
+of	165,167	O	O
+gluons	168,174	O	B-Material
+,	174,175	O	O
+and	176,179	O	O
+glueballs	180,189	O	B-Material
+,	189,190	O	O
+states	191,197	O	O
+with	198,202	O	O
+no	203,205	O	O
+quark	206,211	O	B-Material
+content	212,219	O	O
+,	219,220	O	O
+rely	221,225	O	O
+on	226,228	O	O
+the	229,232	O	O
+self	233,237	O	O
+interaction	238,249	O	O
+property	250,258	O	O
+of	259,261	O	O
+gluons	262,268	O	B-Material
+due	269,272	O	O
+to	273,275	O	O
+their	276,281	O	O
+color	282,287	O	B-Process
+charge	288,294	O	I-Process
+.	294,295	O	O
+
+Looking	296,303	O	B-Process
+for	304,307	O	I-Process
+glueballs	308,317	O	I-Process
+would	318,323	O	O
+be	324,326	O	O
+the	327,330	O	O
+most	331,335	O	O
+obvious	336,343	O	O
+way	344,347	O	O
+to	348,350	O	O
+find	351,355	O	B-Task
+evidence	356,364	O	I-Task
+for	365,368	O	I-Task
+states	369,375	O	I-Task
+with	376,380	O	I-Task
+constituent	381,392	O	I-Task
+gluons	393,399	O	I-Task
+;	399,400	O	O
+however	401,408	O	O
+,	408,409	O	O
+the	410,413	O	O
+search	414,420	O	O
+is	421,423	O	O
+hindered	424,432	O	O
+by	433,435	O	O
+the	436,439	O	O
+fact	440,444	O	O
+that	445,449	O	O
+these	450,455	O	O
+states	456,462	O	O
+may	463,466	O	O
+significantly	467,480	O	O
+mix	481,484	O	O
+with	485,489	O	O
+regular	490,497	O	O
+qq̄-mesons	498,508	O	B-Material
+in	509,511	O	O
+the	512,515	O	O
+region	516,522	O	O
+where	523,528	O	O
+the	529,532	O	O
+lightest	533,541	O	O
+are	542,545	O	O
+predicted	546,555	O	O
+to	556,558	O	O
+occur	559,564	O	O
+.	564,565	O	O
+
+As	566,568	O	O
+such	569,573	O	O
+,	573,574	O	O
+they	575,579	O	O
+may	580,583	O	O
+not	584,587	O	O
+be	588,590	O	O
+observable	591,601	O	O
+as	602,604	O	O
+pure	605,609	O	O
+states	610,616	O	O
+and	617,620	O	O
+disentangling	621,634	O	B-Task
+the	635,638	O	I-Task
+observed	639,647	O	I-Task
+spectra	648,655	O	I-Task
+may	656,659	O	O
+be	660,662	O	O
+a	663,664	O	O
+very	665,669	O	O
+difficult	670,679	O	O
+task	680,684	O	O
+.	684,685	O	O
+
+Instead	686,693	O	O
+,	693,694	O	O
+hybrid	695,701	O	B-Material
+mesons	702,708	O	I-Material
+(	709,710	O	O
+qq̄gn	710,715	O	B-Material
+)	715,716	O	O
+may	717,720	O	O
+be	721,723	O	O
+a	724,725	O	O
+better	726,732	O	O
+place	733,738	O	O
+to	739,741	O	O
+search	742,748	O	O
+for	749,752	O	O
+evidence	753,761	O	O
+of	762,764	O	O
+resonances	765,775	O	B-Task
+outside	776,783	O	I-Task
+the	784,787	O	I-Task
+constituent	788,799	O	I-Task
+quark	800,805	O	I-Task
+model	806,811	O	I-Task
+,	811,812	O	O
+especially	813,823	O	O
+since	824,829	O	O
+the	830,833	O	O
+lightest	834,842	O	O
+of	843,845	O	O
+theses	846,852	O	O
+states	853,859	O	O
+are	860,863	O	O
+predicted	864,873	O	O
+to	874,876	O	O
+have	877,881	O	O
+exotic	882,888	O	O
+quantum	889,896	O	O
+numbers	897,904	O	O
+of	905,907	O	O
+spin	908,912	O	O
+,	912,913	O	O
+parity	914,920	O	O
+,	920,921	O	O
+and	922,925	O	O
+charge	926,932	O	O
+conjugation	933,944	O	O
+,	944,945	O	O
+JPC	946,949	O	B-Process
+,	949,950	O	O
+that	951,955	O	O
+is	956,958	O	O
+,	958,959	O	O
+combinations	960,972	O	O
+that	973,977	O	O
+are	978,981	O	O
+unattainable	982,994	O	O
+by	995,997	O	O
+regular	998,1005	O	O
+qq̄-mesons	1006,1016	O	B-Material
+.	1016,1017	O	O
 
 
 -DOCSTART- (S0370269304008305)
 
-Correlation	0	11	B-Task
-of	12	14	I-Task
-charm	15	20	I-Task
--	20	21	I-Task
-quark	21	26	I-Task
-–	26	27	I-Task
-charm	27	32	I-Task
--	32	33	I-Task
-antiquark	33	42	I-Task
-in	43	45	I-Task
-γp	46	48	I-Task
-scattering	49	59	I-Task
-are	60	63	O
-calculated	64	74	O
-in	75	77	O
-the	78	81	O
-kt	82	84	B-Process
--	84	85	I-Process
-factorization	85	98	I-Process
-approach	99	107	I-Process
-.	107	108	O
-
-We	109	111	O
-apply	112	117	O
-different	118	127	O
-unintegrated	128	140	B-Process
-gluon	141	146	I-Process
-distributions	147	160	I-Process
-(	161	162	O
-uGDF	162	166	B-Process
-)	166	167	O
-used	168	172	O
-in	173	175	O
-the	176	179	O
-literature	180	190	O
-.	190	191	O
-
-The	192	195	O
-results	196	203	O
-of	204	206	O
-our	207	210	O
-calculations	211	223	O
-are	224	227	O
-compared	228	236	O
-with	237	241	O
-very	242	246	O
-recent	247	253	O
-experimental	254	266	O
-results	267	274	O
-from	275	279	O
-the	280	283	O
-FOCUS	284	289	O
-Collaboration	290	303	O
-.	303	304	O
-
-The	305	308	O
-CCFM	309	313	B-Material
-uGDF	314	318	I-Material
-developed	319	328	O
-recently	329	337	O
-by	338	340	O
-Kwieciński	341	351	O
-et	352	354	O
-al	355	357	O
-.	357	358	O
-
-gives	359	364	O
-a	365	366	O
-good	367	371	O
-description	372	383	O
-of	384	386	O
-the	387	390	O
-data	391	395	O
-.	395	396	O
-
-New	397	400	O
-observables	401	412	O
-are	413	416	O
-suggested	417	426	O
-for	427	430	O
-future	431	437	O
-studies	438	445	O
-.	445	446	O
-
-Predictions	447	458	O
-and	459	462	O
-perspectives	463	475	O
-for	476	479	O
-the	480	483	O
-HERA	484	488	B-Task
-energies	489	497	I-Task
-are	498	501	O
-presented	502	511	O
-.	511	512	O
+Correlation	0,11	O	B-Task
+of	12,14	O	I-Task
+charm	15,20	O	I-Task
+-	20,21	O	I-Task
+quark	21,26	O	I-Task
+–	26,27	O	I-Task
+charm	27,32	O	I-Task
+-	32,33	O	I-Task
+antiquark	33,42	O	I-Task
+in	43,45	O	I-Task
+γp	46,48	O	I-Task
+scattering	49,59	O	I-Task
+are	60,63	O	O
+calculated	64,74	O	O
+in	75,77	O	O
+the	78,81	O	O
+kt	82,84	O	B-Process
+-	84,85	O	I-Process
+factorization	85,98	O	I-Process
+approach	99,107	O	I-Process
+.	107,108	O	O
+
+We	109,111	O	O
+apply	112,117	O	O
+different	118,127	O	O
+unintegrated	128,140	O	B-Process
+gluon	141,146	O	I-Process
+distributions	147,160	O	I-Process
+(	161,162	O	O
+uGDF	162,166	O	B-Process
+)	166,167	O	O
+used	168,172	O	O
+in	173,175	O	O
+the	176,179	O	O
+literature	180,190	O	O
+.	190,191	O	O
+
+The	192,195	O	O
+results	196,203	O	O
+of	204,206	O	O
+our	207,210	O	O
+calculations	211,223	O	O
+are	224,227	O	O
+compared	228,236	O	O
+with	237,241	O	O
+very	242,246	O	O
+recent	247,253	O	O
+experimental	254,266	O	O
+results	267,274	O	O
+from	275,279	O	O
+the	280,283	O	O
+FOCUS	284,289	O	O
+Collaboration	290,303	O	O
+.	303,304	O	O
+
+The	305,308	O	O
+CCFM	309,313	O	B-Material
+uGDF	314,318	O	I-Material
+developed	319,328	O	O
+recently	329,337	O	O
+by	338,340	O	O
+Kwieciński	341,351	O	O
+et	352,354	O	O
+al	355,357	O	O
+.	357,358	O	O
+
+gives	359,364	O	O
+a	365,366	O	O
+good	367,371	O	O
+description	372,383	O	O
+of	384,386	O	O
+the	387,390	O	O
+data	391,395	O	O
+.	395,396	O	O
+
+New	397,400	O	O
+observables	401,412	O	O
+are	413,416	O	O
+suggested	417,426	O	O
+for	427,430	O	O
+future	431,437	O	O
+studies	438,445	O	O
+.	445,446	O	O
+
+Predictions	447,458	O	O
+and	459,462	O	O
+perspectives	463,475	O	O
+for	476,479	O	O
+the	480,483	O	O
+HERA	484,488	O	B-Task
+energies	489,497	O	I-Task
+are	498,501	O	O
+presented	502,511	O	O
+.	511,512	O	O
 
 
 -DOCSTART- (S0370269304008706)
 
-The	0	3	O
-agreement	4	13	B-Process
-between	14	21	I-Process
-the	22	25	I-Process
-new	26	29	I-Process
-data	30	34	I-Process
-and	35	38	I-Process
-the	39	42	I-Process
-calculations	43	55	I-Process
-with	56	60	I-Process
-the	61	64	I-Process
-relativistic	65	77	I-Process
-deuteron	78	86	I-Process
-wave	87	91	I-Process
-function	92	100	I-Process
-should	101	107	O
-not	108	111	O
-be	112	114	O
-considered	115	125	O
-as	126	128	O
-accidental	129	139	O
-one	140	143	O
-;	143	144	O
-in	145	147	O
-this	148	152	O
-connection	153	163	O
-other	164	169	O
-results	170	177	O
-should	178	184	O
-be	185	187	O
-mentioned	188	197	O
-.	197	198	O
-
-Previously	199	209	O
-it	210	212	O
-was	213	216	O
-shown	217	222	O
-[	223	224	O
-15	224	226	O
-]	226	227	O
-that	228	232	O
-calculations	233	245	B-Process
-within	246	252	I-Process
-the	253	256	I-Process
-framework	257	266	I-Process
-of	267	269	I-Process
-light	270	275	I-Process
--	275	276	I-Process
-front	276	281	I-Process
-dynamics	282	290	I-Process
-with	291	295	I-Process
-Karmanov	296	304	I-Process
-'s	304	306	I-Process
-deuteron	307	315	I-Process
-wave	316	320	I-Process
-function	321	329	I-Process
-are	330	333	O
-in	334	336	O
-reasonably	337	347	O
-good	348	352	O
-agreement	353	362	O
-with	363	367	O
-the	368	371	O
-experimental	372	384	O
-data	385	389	O
-on	390	392	O
-the	393	396	O
-T20	397	400	B-Process
-parameter	401	410	I-Process
-of	411	413	I-Process
-deuteron	414	422	I-Process
-breakup	423	430	I-Process
-on	431	433	I-Process
-H	434	435	I-Process
-and	436	439	I-Process
-C	440	441	I-Process
-targets	442	449	I-Process
-with	450	454	O
-the	455	458	O
-emission	459	467	B-Process
-of	468	470	I-Process
-protons	471	478	I-Process
-at	479	481	I-Process
-0	482	483	I-Process
-°	483	484	I-Process
-in	485	487	I-Process
-the	488	491	I-Process
-k	492	493	I-Process
-region	494	500	I-Process
-from	501	505	I-Process
-0.4	506	509	I-Process
-to	510	512	I-Process
-0.8	513	516	I-Process
-GeV	517	520	I-Process
-/	520	521	I-Process
-c	521	522	I-Process
-.	522	523	O
-
-Furthermore	524	535	O
-,	535	536	O
-within	537	543	O
-the	544	547	O
-same	548	552	O
-approach	553	561	O
-a	562	563	O
-qualitative	564	575	B-Task
-description	576	587	I-Task
-of	588	590	I-Task
-the	591	594	I-Task
-momentum	595	603	I-Task
-behaviour	604	613	I-Task
-of	614	616	I-Task
-the	617	620	I-Task
-Ayy	621	624	I-Task
-parameter	625	634	I-Task
-of	635	637	I-Task
-the	638	641	I-Task
-9Be(d	642	647	I-Task
-,	647	648	I-Task
-p)X	648	651	I-Task
-reaction	652	660	I-Task
-at	661	663	O
-a	664	665	O
-deuteron	666	674	B-Process
-momentum	675	683	I-Process
-of	684	686	O
-4.5	687	690	O
-GeV	691	694	O
-/	694	695	O
-c	695	696	O
-and	697	700	O
-a	701	702	O
-detected	703	711	O
-proton	712	718	O
-angle	719	724	O
-of	725	727	O
-80	728	730	O
-mr	731	733	O
-and	734	737	O
-a	738	739	O
-rather	740	746	O
-good	747	751	O
-description	752	763	O
-of	764	766	O
-the	767	770	O
-Ayy	771	774	B-Material
-data	775	779	I-Material
-for	780	783	O
-the	784	787	O
-12C(d	788	793	B-Process
-,	793	794	I-Process
-p)X	794	797	I-Process
-reaction	798	806	I-Process
-at	807	809	O
-9	810	811	O
-GeV	812	815	O
-/	815	816	O
-
-c	816	817	O
-and	818	821	O
-85	822	824	O
-mr	825	827	O
-were	828	832	O
-obtained	833	841	O
-[	842	843	O
-16	843	845	O
-]	845	846	O
-.	846	847	O
+The	0,3	O	O
+agreement	4,13	O	B-Process
+between	14,21	O	I-Process
+the	22,25	O	I-Process
+new	26,29	O	I-Process
+data	30,34	O	I-Process
+and	35,38	O	I-Process
+the	39,42	O	I-Process
+calculations	43,55	O	I-Process
+with	56,60	O	I-Process
+the	61,64	O	I-Process
+relativistic	65,77	O	I-Process
+deuteron	78,86	O	I-Process
+wave	87,91	O	I-Process
+function	92,100	O	I-Process
+should	101,107	O	O
+not	108,111	O	O
+be	112,114	O	O
+considered	115,125	O	O
+as	126,128	O	O
+accidental	129,139	O	O
+one	140,143	O	O
+;	143,144	O	O
+in	145,147	O	O
+this	148,152	O	O
+connection	153,163	O	O
+other	164,169	O	O
+results	170,177	O	O
+should	178,184	O	O
+be	185,187	O	O
+mentioned	188,197	O	O
+.	197,198	O	O
+
+Previously	199,209	O	O
+it	210,212	O	O
+was	213,216	O	O
+shown	217,222	O	O
+[	223,224	O	O
+15	224,226	O	O
+]	226,227	O	O
+that	228,232	O	O
+calculations	233,245	O	B-Process
+within	246,252	O	I-Process
+the	253,256	O	I-Process
+framework	257,266	O	I-Process
+of	267,269	O	I-Process
+light	270,275	O	I-Process
+-	275,276	O	I-Process
+front	276,281	O	I-Process
+dynamics	282,290	O	I-Process
+with	291,295	O	I-Process
+Karmanov	296,304	O	I-Process
+'s	304,306	O	I-Process
+deuteron	307,315	O	I-Process
+wave	316,320	O	I-Process
+function	321,329	O	I-Process
+are	330,333	O	O
+in	334,336	O	O
+reasonably	337,347	O	O
+good	348,352	O	O
+agreement	353,362	O	O
+with	363,367	O	O
+the	368,371	O	O
+experimental	372,384	O	O
+data	385,389	O	O
+on	390,392	O	O
+the	393,396	O	O
+T20	397,400	O	B-Process
+parameter	401,410	O	I-Process
+of	411,413	O	I-Process
+deuteron	414,422	O	I-Process
+breakup	423,430	O	I-Process
+on	431,433	O	I-Process
+H	434,435	O	I-Process
+and	436,439	O	I-Process
+C	440,441	O	I-Process
+targets	442,449	O	I-Process
+with	450,454	O	O
+the	455,458	O	O
+emission	459,467	O	B-Process
+of	468,470	O	I-Process
+protons	471,478	O	I-Process
+at	479,481	O	I-Process
+0	482,483	O	I-Process
+°	483,484	O	I-Process
+in	485,487	O	I-Process
+the	488,491	O	I-Process
+k	492,493	O	I-Process
+region	494,500	O	I-Process
+from	501,505	O	I-Process
+0.4	506,509	O	I-Process
+to	510,512	O	I-Process
+0.8	513,516	O	I-Process
+GeV	517,520	O	I-Process
+/	520,521	O	I-Process
+c	521,522	O	I-Process
+.	522,523	O	O
+
+Furthermore	524,535	O	O
+,	535,536	O	O
+within	537,543	O	O
+the	544,547	O	O
+same	548,552	O	O
+approach	553,561	O	O
+a	562,563	O	O
+qualitative	564,575	O	B-Task
+description	576,587	O	I-Task
+of	588,590	O	I-Task
+the	591,594	O	I-Task
+momentum	595,603	O	I-Task
+behaviour	604,613	O	I-Task
+of	614,616	O	I-Task
+the	617,620	O	I-Task
+Ayy	621,624	O	I-Task
+parameter	625,634	O	I-Task
+of	635,637	O	I-Task
+the	638,641	O	I-Task
+9Be(d	642,647	O	I-Task
+,	647,648	O	I-Task
+p)X	648,651	O	I-Task
+reaction	652,660	O	I-Task
+at	661,663	O	O
+a	664,665	O	O
+deuteron	666,674	O	B-Process
+momentum	675,683	O	I-Process
+of	684,686	O	O
+4.5	687,690	O	O
+GeV	691,694	O	O
+/	694,695	O	O
+c	695,696	O	O
+and	697,700	O	O
+a	701,702	O	O
+detected	703,711	O	O
+proton	712,718	O	O
+angle	719,724	O	O
+of	725,727	O	O
+80	728,730	O	O
+mr	731,733	O	O
+and	734,737	O	O
+a	738,739	O	O
+rather	740,746	O	O
+good	747,751	O	O
+description	752,763	O	O
+of	764,766	O	O
+the	767,770	O	O
+Ayy	771,774	O	B-Material
+data	775,779	O	I-Material
+for	780,783	O	O
+the	784,787	O	O
+12C(d	788,793	O	B-Process
+,	793,794	O	I-Process
+p)X	794,797	O	I-Process
+reaction	798,806	O	I-Process
+at	807,809	O	O
+9	810,811	O	O
+GeV	812,815	O	O
+/	815,816	O	O
+
+c	816,817	O	O
+and	818,821	O	O
+85	822,824	O	O
+mr	825,827	O	O
+were	828,832	O	O
+obtained	833,841	O	O
+[	842,843	O	O
+16	843,845	O	O
+]	845,846	O	O
+.	846,847	O	O
 
 
 -DOCSTART- (S0370269304008731)
 
-A	0	1	O
-scenario	2	10	O
-is	11	13	O
-proposed	14	22	O
-for	23	26	O
-bi	27	29	B-Task
--	29	30	I-Task
-large	30	35	I-Task
-lepton	36	42	I-Task
-mixing	43	49	I-Task
-in	50	52	O
-the	53	56	O
-framework	57	66	O
-of	67	69	O
-nearly	70	76	O
-threefold	77	86	O
-degenerate	87	97	B-Material
-Majorana	98	106	I-Material
-neutrinos	107	116	I-Material
-.	116	117	O
-
-In	118	120	O
-our	121	124	O
-proposal	125	133	O
-,	133	134	O
-we	135	137	O
-impose	138	144	O
-Z3	145	147	O
-symmetry	148	156	O
-in	157	159	O
-the	160	163	O
-neutrino	164	172	B-Material
-sector	173	179	I-Material
-at	180	182	O
-a	183	184	O
-high	185	189	O
-energy	190	196	O
-scale	197	202	O
-to	203	205	O
-account	206	213	O
-for	214	217	O
-the	218	221	O
-threefold	222	231	O
-degenerate	232	242	B-Material
-neutrinos	243	252	I-Material
-and	253	256	O
-the	257	260	O
-maximal	261	268	O
-mixing	269	275	O
-between	276	283	O
-νμ	284	286	O
-and	287	290	O
-ντ.	291	294	O
-
-In	295	297	O
-order	298	303	O
-to	304	306	O
-obtain	307	313	O
-the	314	317	O
-atmospheric	318	329	B-Task
-neutrino	330	338	I-Task
-mass	339	343	I-Task
-splitting	344	353	I-Task
-while	354	359	I-Task
-keeping	360	367	I-Task
-the	368	371	I-Task
-maximal	372	379	I-Task
-mixing	380	386	I-Task
-between	387	394	I-Task
-νμ	395	397	I-Task
-and	398	401	I-Task
-ντ	402	404	I-Task
-,	404	405	O
-we	406	408	O
-introduce	409	418	B-Process
-a	419	420	I-Process
-small	421	426	I-Process
-perturbation	427	439	I-Process
-to	440	442	I-Process
-the	443	446	I-Process
-neutrino	447	455	I-Process
-mass	456	460	I-Process
-matrix	461	467	I-Process
-without	468	475	I-Process
-breaking	476	484	I-Process
-Z3	485	487	I-Process
-symmetry	488	496	I-Process
-.	496	497	O
-
-On	498	500	O
-the	501	504	O
-other	505	510	O
-hand	511	515	O
-,	515	516	O
-the	517	520	O
-solar	521	526	B-Process
-neutrino	527	535	I-Process
-mixing	536	542	I-Process
-arises	543	549	O
-due	550	553	O
-to	554	556	O
-the	557	560	O
-non	561	564	B-Material
--	564	565	I-Material
-diagonal	565	573	I-Material
-charged	574	581	I-Material
-lepton	582	588	I-Material
-mass	589	593	I-Material
-matrix	594	600	I-Material
-,	600	601	O
-and	602	605	O
-the	606	609	O
-desirable	610	619	O
-large	620	625	B-Task
-mixing	626	632	I-Task
-and	633	636	I-Task
-mass	637	641	I-Task
-splitting	642	651	I-Task
-for	652	655	I-Task
-the	656	659	I-Task
-solar	660	665	I-Task
-neutrino	666	674	I-Task
-oscillation	675	686	I-Task
-can	687	690	O
-be	691	693	O
-obtained	694	702	O
-by	703	705	O
-radiative	706	715	B-Process
-corrections	716	727	I-Process
-.	727	728	O
+A	0,1	O	O
+scenario	2,10	O	O
+is	11,13	O	O
+proposed	14,22	O	O
+for	23,26	O	O
+bi	27,29	O	B-Task
+-	29,30	O	I-Task
+large	30,35	O	I-Task
+lepton	36,42	O	I-Task
+mixing	43,49	O	I-Task
+in	50,52	O	O
+the	53,56	O	O
+framework	57,66	O	O
+of	67,69	O	O
+nearly	70,76	O	O
+threefold	77,86	O	O
+degenerate	87,97	O	B-Material
+Majorana	98,106	O	I-Material
+neutrinos	107,116	O	I-Material
+.	116,117	O	O
+
+In	118,120	O	O
+our	121,124	O	O
+proposal	125,133	O	O
+,	133,134	O	O
+we	135,137	O	O
+impose	138,144	O	O
+Z3	145,147	O	O
+symmetry	148,156	O	O
+in	157,159	O	O
+the	160,163	O	O
+neutrino	164,172	O	B-Material
+sector	173,179	O	I-Material
+at	180,182	O	O
+a	183,184	O	O
+high	185,189	O	O
+energy	190,196	O	O
+scale	197,202	O	O
+to	203,205	O	O
+account	206,213	O	O
+for	214,217	O	O
+the	218,221	O	O
+threefold	222,231	O	O
+degenerate	232,242	O	B-Material
+neutrinos	243,252	O	I-Material
+and	253,256	O	O
+the	257,260	O	O
+maximal	261,268	O	O
+mixing	269,275	O	O
+between	276,283	O	O
+νμ	284,286	O	O
+and	287,290	O	O
+ντ.	291,294	O	O
+
+In	295,297	O	O
+order	298,303	O	O
+to	304,306	O	O
+obtain	307,313	O	O
+the	314,317	O	O
+atmospheric	318,329	O	B-Task
+neutrino	330,338	O	I-Task
+mass	339,343	O	I-Task
+splitting	344,353	O	I-Task
+while	354,359	O	I-Task
+keeping	360,367	O	I-Task
+the	368,371	O	I-Task
+maximal	372,379	O	I-Task
+mixing	380,386	O	I-Task
+between	387,394	O	I-Task
+νμ	395,397	O	I-Task
+and	398,401	O	I-Task
+ντ	402,404	O	I-Task
+,	404,405	O	O
+we	406,408	O	O
+introduce	409,418	O	B-Process
+a	419,420	O	I-Process
+small	421,426	O	I-Process
+perturbation	427,439	O	I-Process
+to	440,442	O	I-Process
+the	443,446	O	I-Process
+neutrino	447,455	O	I-Process
+mass	456,460	O	I-Process
+matrix	461,467	O	I-Process
+without	468,475	O	I-Process
+breaking	476,484	O	I-Process
+Z3	485,487	O	I-Process
+symmetry	488,496	O	I-Process
+.	496,497	O	O
+
+On	498,500	O	O
+the	501,504	O	O
+other	505,510	O	O
+hand	511,515	O	O
+,	515,516	O	O
+the	517,520	O	O
+solar	521,526	O	B-Process
+neutrino	527,535	O	I-Process
+mixing	536,542	O	I-Process
+arises	543,549	O	O
+due	550,553	O	O
+to	554,556	O	O
+the	557,560	O	O
+non	561,564	O	B-Material
+-	564,565	O	I-Material
+diagonal	565,573	O	I-Material
+charged	574,581	O	I-Material
+lepton	582,588	O	I-Material
+mass	589,593	O	I-Material
+matrix	594,600	O	I-Material
+,	600,601	O	O
+and	602,605	O	O
+the	606,609	O	O
+desirable	610,619	O	O
+large	620,625	O	B-Task
+mixing	626,632	O	I-Task
+and	633,636	O	I-Task
+mass	637,641	O	I-Task
+splitting	642,651	O	I-Task
+for	652,655	O	I-Task
+the	656,659	O	I-Task
+solar	660,665	O	I-Task
+neutrino	666,674	O	I-Task
+oscillation	675,686	O	I-Task
+can	687,690	O	O
+be	691,693	O	O
+obtained	694,702	O	O
+by	703,705	O	O
+radiative	706,715	O	B-Process
+corrections	716,727	O	I-Process
+.	727,728	O	O
 
 
 -DOCSTART- (S0370269304008780)
 
-In	0	2	O
-the	3	6	O
-NJL	7	10	B-Task
-model	11	16	I-Task
-studied	17	24	I-Task
-here	25	29	O
-,	29	30	O
-we	31	33	O
-find	34	38	O
-no	39	41	O
-stable	42	48	B-Material
-stars	49	54	I-Material
-with	55	59	O
-either	60	66	O
-CFL	67	70	B-Material
-or	71	73	I-Material
-normal	74	80	I-Material
-quark	81	86	I-Material
-matter	87	93	I-Material
-cores	94	99	I-Material
-.	99	100	O
-
-This	101	105	O
-is	106	108	O
-the	109	112	O
-opposite	113	121	O
-of	122	124	O
-the	125	128	O
-prediction	129	139	O
-of	140	142	O
-Ref	143	146	O
-.	146	147	O
-
-[	148	149	O
-15	149	151	O
-]	151	152	O
-where	153	158	O
-it	159	161	O
-was	162	165	O
-argued	166	172	O
-that	173	177	O
-there	178	183	O
-is	184	186	O
-no	187	189	O
-2SC	190	193	O
-phase	194	199	O
-in	200	202	O
-compact	203	210	B-Material
-stars	211	216	I-Material
-.	216	217	O
-
-Let	218	221	O
-us	222	224	O
-be	225	227	O
-more	228	232	O
-precise	233	240	O
-:	240	241	O
-performing	242	252	O
-a	253	254	O
-Taylor	255	261	B-Process
-expansion	262	271	I-Process
-in	272	274	O
-the	275	278	O
-strange	279	286	B-Material
-quark	287	292	I-Material
-mass	293	297	I-Material
-,	297	298	O
-the	299	302	O
-authors	303	310	O
-of	311	313	O
-Ref	314	317	O
-.	317	318	O
-
-[	319	320	O
-15	320	322	O
-]	322	323	O
-found	324	329	O
-that	330	334	O
-in	335	337	O
-beta	338	342	B-Material
--	342	343	I-Material
-equilibrated	343	355	I-Material
-electrically	356	368	I-Material
-and	369	372	O
-color	373	378	B-Material
-neutral	379	386	I-Material
-quark	387	392	I-Material
-matter	393	399	I-Material
-the	400	403	O
-2SC	404	407	B-Process
-phase	408	413	I-Process
-is	414	416	O
-always	417	423	O
-less	424	428	O
-favored	429	436	O
-than	437	441	O
-the	442	445	O
-CFL	446	449	B-Process
-phase	450	455	I-Process
-or	456	458	O
-normal	459	465	B-Material
-quark	466	471	I-Material
-matter	472	478	I-Material
-.	478	479	O
-
-From	480	484	O
-this	485	489	O
-observation	490	501	O
-they	502	506	O
-concluded	507	516	O
-that	517	521	O
-the	522	525	O
-2SC	526	529	B-Process
-phase	530	535	I-Process
-is	536	538	O
-absent	539	545	O
-in	546	548	O
-compact	549	556	B-Material
-stars	557	562	I-Material
-.	562	563	O
-
-In	564	566	O
-contrast	567	575	O
-to	576	578	O
-this	579	583	O
-result	584	590	O
-,	590	591	O
-it	592	594	O
-was	595	598	O
-shown	599	604	O
-in	605	607	O
-Ref	608	611	O
-.	611	612	O
-
-[	613	614	O
-16	614	616	O
-]	616	617	O
-in	618	620	O
-the	621	624	O
-framework	625	634	O
-of	635	637	O
-the	638	641	O
-NJL	642	645	B-Process
-model	646	651	I-Process
-that	652	656	O
-neutral	657	664	B-Material
-2SC	665	668	I-Material
-matter	669	675	I-Material
-could	676	681	O
-be	682	684	O
-the	685	688	O
-most	689	693	O
-favored	694	701	O
-quark	702	707	B-Process
-phase	708	713	I-Process
-in	714	716	O
-a	717	718	O
-certain	719	726	O
-regime	727	733	O
-.	733	734	O
-
-However	735	742	O
-,	742	743	O
-the	744	747	O
-authors	748	755	O
-argued	756	762	O
-that	763	767	O
-this	768	772	O
-interval	773	781	O
-might	782	787	O
-disappear	788	797	O
-if	798	800	O
-the	801	804	O
-hadronic	805	813	B-Process
-phase	814	819	I-Process
-is	820	822	O
-included	823	831	O
-more	832	836	O
-properly	837	845	O
-.	845	846	O
-
-This	847	851	O
-is	852	854	O
-indeed	855	861	O
-what	862	866	O
-we	867	869	O
-found	870	875	O
-for	876	879	O
-parameter	880	889	O
-set	890	893	O
-RKH	894	897	O
-,	897	898	O
-while	899	904	O
-for	905	908	O
-parameter	909	918	O
-set	919	922	O
-HK	923	925	O
-the	926	929	O
-2SC	930	933	O
-phase	934	939	O
-survives	940	948	O
-only	949	953	O
-in	954	956	O
-a	957	958	O
-tiny	959	963	O
-window	964	970	O
-.	970	971	O
-
-Nevertheless	972	984	O
-,	984	985	O
-if	986	988	O
-Nature	989	995	O
-chooses	996	1003	O
-to	1004	1006	O
-be	1007	1009	O
-similar	1010	1017	O
-to	1018	1020	O
-this	1021	1025	O
-equation	1026	1034	O
-of	1035	1037	O
-state	1038	1043	O
-,	1043	1044	O
-it	1045	1047	O
-will	1048	1052	O
-be	1053	1055	O
-this	1056	1060	O
-tiny	1061	1065	O
-window	1066	1072	O
-which	1073	1078	O
-gives	1079	1084	O
-rise	1085	1089	O
-to	1090	1092	O
-hybrid	1093	1099	B-Material
-stars	1100	1105	I-Material
-,	1105	1106	O
-whereas	1107	1114	O
-the	1115	1118	O
-CFL	1119	1122	B-Process
-phase	1123	1128	I-Process
-would	1129	1134	O
-be	1135	1137	O
-never	1138	1143	O
-present	1144	1151	O
-in	1152	1154	O
-compact	1155	1162	B-Material
-stars	1163	1168	I-Material
-.	1168	1169	O
+In	0,2	O	O
+the	3,6	O	O
+NJL	7,10	O	B-Task
+model	11,16	O	I-Task
+studied	17,24	O	I-Task
+here	25,29	O	O
+,	29,30	O	O
+we	31,33	O	O
+find	34,38	O	O
+no	39,41	O	O
+stable	42,48	O	B-Material
+stars	49,54	O	I-Material
+with	55,59	O	O
+either	60,66	O	O
+CFL	67,70	O	B-Material
+or	71,73	O	I-Material
+normal	74,80	O	I-Material
+quark	81,86	O	I-Material
+matter	87,93	O	I-Material
+cores	94,99	O	I-Material
+.	99,100	O	O
+
+This	101,105	O	O
+is	106,108	O	O
+the	109,112	O	O
+opposite	113,121	O	O
+of	122,124	O	O
+the	125,128	O	O
+prediction	129,139	O	O
+of	140,142	O	O
+Ref	143,146	O	O
+.	146,147	O	O
+
+[	148,149	O	O
+15	149,151	O	O
+]	151,152	O	O
+where	153,158	O	O
+it	159,161	O	O
+was	162,165	O	O
+argued	166,172	O	O
+that	173,177	O	O
+there	178,183	O	O
+is	184,186	O	O
+no	187,189	O	O
+2SC	190,193	O	O
+phase	194,199	O	O
+in	200,202	O	O
+compact	203,210	O	B-Material
+stars	211,216	O	I-Material
+.	216,217	O	O
+
+Let	218,221	O	O
+us	222,224	O	O
+be	225,227	O	O
+more	228,232	O	O
+precise	233,240	O	O
+:	240,241	O	O
+performing	242,252	O	O
+a	253,254	O	O
+Taylor	255,261	O	B-Process
+expansion	262,271	O	I-Process
+in	272,274	O	O
+the	275,278	O	O
+strange	279,286	O	B-Material
+quark	287,292	O	I-Material
+mass	293,297	O	I-Material
+,	297,298	O	O
+the	299,302	O	O
+authors	303,310	O	O
+of	311,313	O	O
+Ref	314,317	O	O
+.	317,318	O	O
+
+[	319,320	O	O
+15	320,322	O	O
+]	322,323	O	O
+found	324,329	O	O
+that	330,334	O	O
+in	335,337	O	O
+beta	338,342	O	B-Material
+-	342,343	O	I-Material
+equilibrated	343,355	O	I-Material
+electrically	356,368	O	I-Material
+and	369,372	O	O
+color	373,378	O	B-Material
+neutral	379,386	O	I-Material
+quark	387,392	O	I-Material
+matter	393,399	O	I-Material
+the	400,403	O	O
+2SC	404,407	O	B-Process
+phase	408,413	O	I-Process
+is	414,416	O	O
+always	417,423	O	O
+less	424,428	O	O
+favored	429,436	O	O
+than	437,441	O	O
+the	442,445	O	O
+CFL	446,449	O	B-Process
+phase	450,455	O	I-Process
+or	456,458	O	O
+normal	459,465	O	B-Material
+quark	466,471	O	I-Material
+matter	472,478	O	I-Material
+.	478,479	O	O
+
+From	480,484	O	O
+this	485,489	O	O
+observation	490,501	O	O
+they	502,506	O	O
+concluded	507,516	O	O
+that	517,521	O	O
+the	522,525	O	O
+2SC	526,529	O	B-Process
+phase	530,535	O	I-Process
+is	536,538	O	O
+absent	539,545	O	O
+in	546,548	O	O
+compact	549,556	O	B-Material
+stars	557,562	O	I-Material
+.	562,563	O	O
+
+In	564,566	O	O
+contrast	567,575	O	O
+to	576,578	O	O
+this	579,583	O	O
+result	584,590	O	O
+,	590,591	O	O
+it	592,594	O	O
+was	595,598	O	O
+shown	599,604	O	O
+in	605,607	O	O
+Ref	608,611	O	O
+.	611,612	O	O
+
+[	613,614	O	O
+16	614,616	O	O
+]	616,617	O	O
+in	618,620	O	O
+the	621,624	O	O
+framework	625,634	O	O
+of	635,637	O	O
+the	638,641	O	O
+NJL	642,645	O	B-Process
+model	646,651	O	I-Process
+that	652,656	O	O
+neutral	657,664	O	B-Material
+2SC	665,668	O	I-Material
+matter	669,675	O	I-Material
+could	676,681	O	O
+be	682,684	O	O
+the	685,688	O	O
+most	689,693	O	O
+favored	694,701	O	O
+quark	702,707	O	B-Process
+phase	708,713	O	I-Process
+in	714,716	O	O
+a	717,718	O	O
+certain	719,726	O	O
+regime	727,733	O	O
+.	733,734	O	O
+
+However	735,742	O	O
+,	742,743	O	O
+the	744,747	O	O
+authors	748,755	O	O
+argued	756,762	O	O
+that	763,767	O	O
+this	768,772	O	O
+interval	773,781	O	O
+might	782,787	O	O
+disappear	788,797	O	O
+if	798,800	O	O
+the	801,804	O	O
+hadronic	805,813	O	B-Process
+phase	814,819	O	I-Process
+is	820,822	O	O
+included	823,831	O	O
+more	832,836	O	O
+properly	837,845	O	O
+.	845,846	O	O
+
+This	847,851	O	O
+is	852,854	O	O
+indeed	855,861	O	O
+what	862,866	O	O
+we	867,869	O	O
+found	870,875	O	O
+for	876,879	O	O
+parameter	880,889	O	O
+set	890,893	O	O
+RKH	894,897	O	O
+,	897,898	O	O
+while	899,904	O	O
+for	905,908	O	O
+parameter	909,918	O	O
+set	919,922	O	O
+HK	923,925	O	O
+the	926,929	O	O
+2SC	930,933	O	O
+phase	934,939	O	O
+survives	940,948	O	O
+only	949,953	O	O
+in	954,956	O	O
+a	957,958	O	O
+tiny	959,963	O	O
+window	964,970	O	O
+.	970,971	O	O
+
+Nevertheless	972,984	O	O
+,	984,985	O	O
+if	986,988	O	O
+Nature	989,995	O	O
+chooses	996,1003	O	O
+to	1004,1006	O	O
+be	1007,1009	O	O
+similar	1010,1017	O	O
+to	1018,1020	O	O
+this	1021,1025	O	O
+equation	1026,1034	O	O
+of	1035,1037	O	O
+state	1038,1043	O	O
+,	1043,1044	O	O
+it	1045,1047	O	O
+will	1048,1052	O	O
+be	1053,1055	O	O
+this	1056,1060	O	O
+tiny	1061,1065	O	O
+window	1066,1072	O	O
+which	1073,1078	O	O
+gives	1079,1084	O	O
+rise	1085,1089	O	O
+to	1090,1092	O	O
+hybrid	1093,1099	O	B-Material
+stars	1100,1105	O	I-Material
+,	1105,1106	O	O
+whereas	1107,1114	O	O
+the	1115,1118	O	O
+CFL	1119,1122	O	B-Process
+phase	1123,1128	O	I-Process
+would	1129,1134	O	O
+be	1135,1137	O	O
+never	1138,1143	O	O
+present	1144,1151	O	O
+in	1152,1154	O	O
+compact	1155,1162	O	B-Material
+stars	1163,1168	O	I-Material
+.	1168,1169	O	O
 
 
 -DOCSTART- (S0370269304008792)
 
-We	0	2	O
-investigate	3	14	B-Task
-the	15	18	I-Task
-density	19	26	I-Task
-behavior	27	35	I-Task
-of	36	38	I-Task
-the	39	42	I-Task
-symmetry	43	51	I-Task
-energy	52	58	I-Task
-with	59	63	I-Task
-respect	64	71	I-Task
-to	72	74	I-Task
-isospin	75	82	I-Task
-equilibration	83	96	I-Task
-in	97	99	O
-the	100	103	O
-combined	104	112	B-Process
-systems	113	120	I-Process
-Ru(Zr)+Zr(Ru	121	133	B-Process
-)	133	134	I-Process
-at	135	137	O
-relativistic	138	150	B-Process
-energies	151	159	I-Process
-of	160	162	O
-0.4	163	166	O
-and	167	170	O
-1.528A	171	177	O
-GeV.	178	182	O
-
-The	183	186	O
-study	187	192	B-Task
-is	193	195	O
-performed	196	205	O
-within	206	212	O
-a	213	214	O
-relativistic	215	227	B-Process
-framework	228	237	I-Process
-and	238	241	O
-the	242	245	O
-contribution	246	258	B-Process
-of	259	261	I-Process
-the	262	265	I-Process
-iso	266	269	I-Process
--	269	270	I-Process
-vector	270	276	I-Process
-,	276	277	O
-scalar	278	284	B-Task
-δ	285	286	I-Task
-field	287	292	I-Task
-to	293	295	I-Task
-the	296	299	I-Task
-symmetry	300	308	I-Task
-energy	309	315	I-Task
-and	316	319	I-Task
-the	320	323	I-Task
-isospin	324	331	I-Task
-dynamics	332	340	I-Task
-is	341	343	I-Task
-particularly	344	356	I-Task
-explored	357	365	I-Task
-.	365	366	O
-
-We	367	369	O
-find	370	374	O
-that	375	379	O
-the	380	383	O
-isospin	384	391	B-Task
-mixing	392	398	I-Task
-depends	399	406	O
-on	407	409	O
-the	410	413	O
-symmetry	414	422	O
-energy	423	429	O
-and	430	433	O
-a	434	435	O
-stiffer	436	443	O
-behavior	444	452	O
-leads	453	458	O
-to	459	461	O
-more	462	466	O
-transparency	467	479	O
-.	479	480	O
-
-The	481	484	O
-results	485	492	O
-are	493	496	O
-also	497	501	O
-nicely	502	508	O
-sensitive	509	518	O
-to	519	521	O
-the	522	525	O
-“	526	527	O
-fine	527	531	O
-structure	532	541	O
-”	541	542	O
-of	543	545	O
-the	546	549	O
-symmetry	550	558	O
-energy	559	565	O
-,	565	566	O
-i.e.	567	571	O
-,	571	572	O
-to	573	575	O
-the	576	579	O
-covariant	580	589	O
-properties	590	600	O
-of	601	603	O
-the	604	607	O
-isovector	608	617	B-Material
-meson	618	623	I-Material
-fields	624	630	I-Material
-.	630	631	O
-
-The	631	634	O
-isospin	635	642	O
-tracing	643	650	O
-appears	651	658	O
-much	659	663	O
-less	664	668	O
-dependent	669	678	O
-on	679	681	O
-the	682	685	O
-in	686	688	O
-medium	689	695	O
-neutron	696	703	O
-–	703	704	O
-
-proton	704	710	O
-cross	711	716	O
-sections	717	725	O
-(	726	727	O
-σnp	727	730	B-Process
-)	730	731	O
-and	732	735	O
-this	736	740	O
-makes	741	746	O
-such	747	751	O
-observable	752	762	O
-very	763	767	O
-peculiar	768	776	O
-for	777	780	O
-the	781	784	O
-study	785	790	B-Task
-of	791	793	I-Task
-the	794	797	I-Task
-isovector	798	807	I-Task
-part	808	812	I-Task
-of	813	815	I-Task
-the	816	819	I-Task
-nuclear	820	827	I-Task
-equation	828	836	I-Task
-of	837	839	I-Task
-state	840	845	I-Task
-.	845	846	O
-
-Within	846	852	O
-such	853	857	O
-a	858	859	O
-framework	860	869	O
-,	869	870	O
-comparisons	871	882	B-Process
-with	883	887	I-Process
-experiments	888	899	I-Process
-support	900	907	O
-the	908	911	O
-introduction	912	924	B-Process
-of	925	927	I-Process
-the	928	931	I-Process
-δ	932	933	I-Process
-meson	934	939	I-Process
-in	940	942	I-Process
-the	943	946	I-Process
-description	947	958	I-Process
-of	959	961	I-Process
-the	962	965	I-Process
-iso	966	969	I-Process
--	969	970	I-Process
-vector	970	976	I-Process
-equation	977	985	I-Process
-of	986	988	I-Process
-state	989	994	I-Process
-.	994	995	O
+We	0,2	O	O
+investigate	3,14	O	B-Task
+the	15,18	O	I-Task
+density	19,26	O	I-Task
+behavior	27,35	O	I-Task
+of	36,38	O	I-Task
+the	39,42	O	I-Task
+symmetry	43,51	O	I-Task
+energy	52,58	O	I-Task
+with	59,63	O	I-Task
+respect	64,71	O	I-Task
+to	72,74	O	I-Task
+isospin	75,82	O	I-Task
+equilibration	83,96	O	I-Task
+in	97,99	O	O
+the	100,103	O	O
+combined	104,112	O	B-Process
+systems	113,120	O	I-Process
+Ru(Zr)+Zr(Ru	121,133	O	B-Process
+)	133,134	O	I-Process
+at	135,137	O	O
+relativistic	138,150	O	B-Process
+energies	151,159	O	I-Process
+of	160,162	O	O
+0.4	163,166	O	O
+and	167,170	O	O
+1.528A	171,177	O	O
+GeV.	178,182	O	O
+
+The	183,186	O	O
+study	187,192	O	B-Task
+is	193,195	O	O
+performed	196,205	O	O
+within	206,212	O	O
+a	213,214	O	O
+relativistic	215,227	O	B-Process
+framework	228,237	O	I-Process
+and	238,241	O	O
+the	242,245	O	O
+contribution	246,258	O	B-Process
+of	259,261	O	I-Process
+the	262,265	O	I-Process
+iso	266,269	O	I-Process
+-	269,270	O	I-Process
+vector	270,276	O	I-Process
+,	276,277	O	O
+scalar	278,284	O	B-Task
+δ	285,286	O	I-Task
+field	287,292	O	I-Task
+to	293,295	O	I-Task
+the	296,299	O	I-Task
+symmetry	300,308	O	I-Task
+energy	309,315	O	I-Task
+and	316,319	O	I-Task
+the	320,323	O	I-Task
+isospin	324,331	O	I-Task
+dynamics	332,340	O	I-Task
+is	341,343	O	I-Task
+particularly	344,356	O	I-Task
+explored	357,365	O	I-Task
+.	365,366	O	O
+
+We	367,369	O	O
+find	370,374	O	O
+that	375,379	O	O
+the	380,383	O	O
+isospin	384,391	O	B-Task
+mixing	392,398	O	I-Task
+depends	399,406	O	O
+on	407,409	O	O
+the	410,413	O	O
+symmetry	414,422	O	O
+energy	423,429	O	O
+and	430,433	O	O
+a	434,435	O	O
+stiffer	436,443	O	O
+behavior	444,452	O	O
+leads	453,458	O	O
+to	459,461	O	O
+more	462,466	O	O
+transparency	467,479	O	O
+.	479,480	O	O
+
+The	481,484	O	O
+results	485,492	O	O
+are	493,496	O	O
+also	497,501	O	O
+nicely	502,508	O	O
+sensitive	509,518	O	O
+to	519,521	O	O
+the	522,525	O	O
+“	526,527	O	O
+fine	527,531	O	O
+structure	532,541	O	O
+”	541,542	O	O
+of	543,545	O	O
+the	546,549	O	O
+symmetry	550,558	O	O
+energy	559,565	O	O
+,	565,566	O	O
+i.e.	567,571	O	O
+,	571,572	O	O
+to	573,575	O	O
+the	576,579	O	O
+covariant	580,589	O	O
+properties	590,600	O	O
+of	601,603	O	O
+the	604,607	O	O
+isovector	608,617	O	B-Material
+meson	618,623	O	I-Material
+fields	624,630	O	I-Material
+.	630,631	O	O
+
+The	631,634	O	O
+isospin	635,642	O	O
+tracing	643,650	O	O
+appears	651,658	O	O
+much	659,663	O	O
+less	664,668	O	O
+dependent	669,678	O	O
+on	679,681	O	O
+the	682,685	O	O
+in	686,688	O	O
+medium	689,695	O	O
+neutron	696,703	O	O
+–	703,704	O	O
+
+proton	704,710	O	O
+cross	711,716	O	O
+sections	717,725	O	O
+(	726,727	O	O
+σnp	727,730	O	B-Process
+)	730,731	O	O
+and	732,735	O	O
+this	736,740	O	O
+makes	741,746	O	O
+such	747,751	O	O
+observable	752,762	O	O
+very	763,767	O	O
+peculiar	768,776	O	O
+for	777,780	O	O
+the	781,784	O	O
+study	785,790	O	B-Task
+of	791,793	O	I-Task
+the	794,797	O	I-Task
+isovector	798,807	O	I-Task
+part	808,812	O	I-Task
+of	813,815	O	I-Task
+the	816,819	O	I-Task
+nuclear	820,827	O	I-Task
+equation	828,836	O	I-Task
+of	837,839	O	I-Task
+state	840,845	O	I-Task
+.	845,846	O	O
+
+Within	846,852	O	O
+such	853,857	O	O
+a	858,859	O	O
+framework	860,869	O	O
+,	869,870	O	O
+comparisons	871,882	O	B-Process
+with	883,887	O	I-Process
+experiments	888,899	O	I-Process
+support	900,907	O	O
+the	908,911	O	O
+introduction	912,924	O	B-Process
+of	925,927	O	I-Process
+the	928,931	O	I-Process
+δ	932,933	O	I-Process
+meson	934,939	O	I-Process
+in	940,942	O	I-Process
+the	943,946	O	I-Process
+description	947,958	O	I-Process
+of	959,961	O	I-Process
+the	962,965	O	I-Process
+iso	966,969	O	I-Process
+-	969,970	O	I-Process
+vector	970,976	O	I-Process
+equation	977,985	O	I-Process
+of	986,988	O	I-Process
+state	989,994	O	I-Process
+.	994,995	O	O
 
 
 -DOCSTART- (S0370269304008809)
 
-The	0	3	O
-most	4	8	O
-ambitious	9	18	O
-goal	19	23	O
-may	24	27	O
-be	28	30	O
-stated	31	37	O
-as	38	40	O
-the	41	44	O
-one	45	48	O
-of	49	51	O
-detecting	52	61	B-Task
-the	62	65	I-Task
-location	66	74	I-Task
-of	75	77	I-Task
-,	77	78	I-Task
-say	79	82	I-Task
-,	82	83	I-Task
-one	84	87	I-Task
-missing	88	95	I-Task
-level	96	101	I-Task
-on	102	104	I-Task
-an	105	107	I-Task
-otherwise	108	117	I-Task
-complete	118	126	I-Task
-sequence	127	135	I-Task
-.	135	136	O
-
-Dyson	137	142	O
-,	142	143	O
-in	144	146	O
-a	147	148	O
-recent	149	155	O
-review	156	162	O
-[	163	164	O
-7	164	165	O
-]	165	166	O
-,	166	167	O
-uses	168	172	O
-information	173	184	B-Process
-theory	185	191	I-Process
-concepts	192	200	I-Process
-and	201	204	O
-argues	205	211	O
-that	212	216	O
-correlations	217	229	B-Process
-in	230	232	I-Process
-a	233	234	I-Process
-sequence	235	243	I-Process
-may	244	247	O
-provide	248	255	O
-the	256	259	O
-necessary	260	269	O
-redundancy	270	280	O
-from	281	285	O
-which	286	291	O
-error	292	297	B-Task
-correcting	298	308	I-Task
-codes	309	314	I-Task
-can	315	318	I-Task
-be	319	321	I-Task
-constructed	322	333	I-Task
-.	333	334	O
-
-At	335	337	O
-one	338	341	O
-extreme	342	349	O
-where	350	355	O
-no	356	358	B-Process
-correlations	359	371	I-Process
-and	372	375	I-Process
-therefore	376	385	I-Process
-no	386	388	I-Process
-redundancy	389	399	I-Process
-are	400	403	I-Process
-present	404	411	I-Process
-(	412	413	O
-Poissonian	413	423	B-Process
-sequence	424	432	I-Process
-)	432	433	O
-,	433	434	O
-there	435	440	O
-is	441	443	O
-no	444	446	O
-possibility	447	458	O
-of	459	461	O
-detecting	462	471	B-Task
-one	472	475	I-Task
-missing	476	483	I-Task
-level	484	489	I-Task
-.	489	490	O
-
-At	491	493	O
-the	494	497	O
-other	498	503	O
-extreme	504	511	O
-,	511	512	O
-a	513	514	O
-sequence	515	523	B-Task
-of	524	526	I-Task
-equally	527	534	I-Task
-spaced	535	541	I-Task
-levels	542	548	I-Task
-(	549	550	O
-picket	550	556	B-Task
-fence	557	562	I-Task
-)	562	563	O
-,	563	564	O
-there	565	570	O
-is	571	573	O
-a	574	575	O
-maximum	576	583	O
-redundancy	584	594	O
-and	595	598	O
-a	599	600	O
-missed	601	607	B-Task
-level	608	613	I-Task
-can	614	617	I-Task
-be	618	620	I-Task
-obviously	621	630	I-Task
-detected	631	639	I-Task
-as	640	642	I-Task
-a	643	644	I-Task
-hole	645	649	I-Task
-in	650	652	I-Task
-the	653	656	I-Task
-spectrum	657	665	I-Task
-.	665	666	O
-
-Eigenvalues	667	678	O
-of	679	681	O
-random	682	688	O
-matrices	689	697	O
-,	697	698	O
-which	699	704	O
-exhibit	705	712	O
-characteristic	713	727	O
-correlations	728	740	O
-,	740	741	O
-correspond	742	752	O
-to	753	755	O
-an	756	758	O
-intermediate	759	771	O
-situation	772	781	O
-between	782	789	O
-these	790	795	O
-two	796	799	O
-extremes	800	808	O
-.	808	809	O
-
-The	810	813	O
-attempts	814	822	O
-to	823	825	O
-locate	826	832	B-Task
-in	833	835	I-Task
-the	836	839	I-Task
-last	840	844	I-Task
-case	845	849	I-Task
-a	850	851	I-Task
-single	852	858	I-Task
-missed	859	865	I-Task
-level	866	871	I-Task
-have	872	876	O
-remained	877	885	O
-unsuccessful	886	898	O
-so	899	901	O
-far	902	905	O
-.	905	906	O
-
-However	907	914	O
-,	914	915	O
-it	916	918	O
-should	919	925	O
-be	926	928	O
-mentioned	929	938	O
-that	939	943	O
-for	944	947	O
-two	948	951	B-Task
--	951	952	I-Task
-dimensional	952	963	I-Task
-chaotic	964	971	I-Task
-systems	972	979	I-Task
-where	980	985	O
-,	985	986	O
-besides	987	994	O
-correlations	995	1007	O
-of	1008	1010	O
-the	1011	1014	O
-order	1015	1020	O
-of	1021	1023	O
-one	1024	1027	O
-mean	1028	1032	O
-spacing	1033	1040	O
-as	1041	1043	O
-described	1044	1053	O
-by	1054	1056	O
-random	1057	1063	O
-matrices	1064	1072	O
-,	1072	1073	O
-the	1074	1077	O
-presence	1078	1086	O
-and	1087	1090	O
-the	1091	1094	O
-role	1095	1099	O
-of	1100	1102	O
-long	1103	1107	O
-range	1108	1113	O
-correlations	1114	1126	O
-governed	1127	1135	O
-by	1136	1138	O
-the	1139	1142	O
-shortest	1143	1151	O
-periodic	1152	1160	O
-orbits	1161	1167	O
-and	1168	1171	O
-reflected	1172	1181	O
-in	1182	1184	O
-Weyl	1185	1189	B-Process
-'s	1189	1191	I-Process
-law	1192	1195	I-Process
-describing	1196	1206	I-Process
-the	1207	1210	I-Process
-average	1211	1218	I-Process
-spectral	1219	1227	I-Process
-density	1228	1235	I-Process
-,	1235	1236	O
-is	1237	1239	O
-well	1240	1244	O
-understood	1245	1255	O
-.	1255	1256	O
-
-It	1257	1259	O
-is	1260	1262	O
-then	1263	1267	O
-possible	1268	1276	O
-to	1277	1279	O
-approximately	1280	1293	B-Task
-locate	1294	1300	I-Task
-,	1300	1301	O
-from	1302	1306	O
-the	1307	1310	O
-study	1311	1316	B-Process
-of	1317	1319	I-Process
-spectral	1320	1328	I-Process
-fluctuations	1329	1341	I-Process
-,	1341	1342	O
-a	1343	1344	B-Task
-single	1345	1351	I-Task
-missed	1352	1358	I-Task
-level	1359	1364	I-Task
-[	1365	1366	O
-8	1366	1367	O
-]	1367	1368	O
-.	1368	1369	O
+The	0,3	O	O
+most	4,8	O	O
+ambitious	9,18	O	O
+goal	19,23	O	O
+may	24,27	O	O
+be	28,30	O	O
+stated	31,37	O	O
+as	38,40	O	O
+the	41,44	O	O
+one	45,48	O	O
+of	49,51	O	O
+detecting	52,61	O	B-Task
+the	62,65	O	I-Task
+location	66,74	O	I-Task
+of	75,77	O	I-Task
+,	77,78	O	I-Task
+say	79,82	O	I-Task
+,	82,83	O	I-Task
+one	84,87	O	I-Task
+missing	88,95	O	I-Task
+level	96,101	O	I-Task
+on	102,104	O	I-Task
+an	105,107	O	I-Task
+otherwise	108,117	O	I-Task
+complete	118,126	O	I-Task
+sequence	127,135	O	I-Task
+.	135,136	O	O
+
+Dyson	137,142	O	O
+,	142,143	O	O
+in	144,146	O	O
+a	147,148	O	O
+recent	149,155	O	O
+review	156,162	O	O
+[	163,164	O	O
+7	164,165	O	O
+]	165,166	O	O
+,	166,167	O	O
+uses	168,172	O	O
+information	173,184	O	B-Process
+theory	185,191	O	I-Process
+concepts	192,200	O	I-Process
+and	201,204	O	O
+argues	205,211	O	O
+that	212,216	O	O
+correlations	217,229	O	B-Process
+in	230,232	O	I-Process
+a	233,234	O	I-Process
+sequence	235,243	O	I-Process
+may	244,247	O	O
+provide	248,255	O	O
+the	256,259	O	O
+necessary	260,269	O	O
+redundancy	270,280	O	O
+from	281,285	O	O
+which	286,291	O	O
+error	292,297	O	B-Task
+correcting	298,308	O	I-Task
+codes	309,314	O	I-Task
+can	315,318	O	I-Task
+be	319,321	O	I-Task
+constructed	322,333	O	I-Task
+.	333,334	O	O
+
+At	335,337	O	O
+one	338,341	O	O
+extreme	342,349	O	O
+where	350,355	O	O
+no	356,358	O	B-Process
+correlations	359,371	O	I-Process
+and	372,375	O	I-Process
+therefore	376,385	O	I-Process
+no	386,388	O	I-Process
+redundancy	389,399	O	I-Process
+are	400,403	O	I-Process
+present	404,411	O	I-Process
+(	412,413	O	O
+Poissonian	413,423	O	B-Process
+sequence	424,432	O	I-Process
+)	432,433	O	O
+,	433,434	O	O
+there	435,440	O	O
+is	441,443	O	O
+no	444,446	O	O
+possibility	447,458	O	O
+of	459,461	O	O
+detecting	462,471	O	B-Task
+one	472,475	O	I-Task
+missing	476,483	O	I-Task
+level	484,489	O	I-Task
+.	489,490	O	O
+
+At	491,493	O	O
+the	494,497	O	O
+other	498,503	O	O
+extreme	504,511	O	O
+,	511,512	O	O
+a	513,514	O	O
+sequence	515,523	O	B-Task
+of	524,526	O	I-Task
+equally	527,534	O	I-Task
+spaced	535,541	O	I-Task
+levels	542,548	O	I-Task
+(	549,550	O	O
+picket	550,556	O	B-Task
+fence	557,562	O	I-Task
+)	562,563	O	O
+,	563,564	O	O
+there	565,570	O	O
+is	571,573	O	O
+a	574,575	O	O
+maximum	576,583	O	O
+redundancy	584,594	O	O
+and	595,598	O	O
+a	599,600	O	O
+missed	601,607	O	B-Task
+level	608,613	O	I-Task
+can	614,617	O	I-Task
+be	618,620	O	I-Task
+obviously	621,630	O	I-Task
+detected	631,639	O	I-Task
+as	640,642	O	I-Task
+a	643,644	O	I-Task
+hole	645,649	O	I-Task
+in	650,652	O	I-Task
+the	653,656	O	I-Task
+spectrum	657,665	O	I-Task
+.	665,666	O	O
+
+Eigenvalues	667,678	O	O
+of	679,681	O	O
+random	682,688	O	O
+matrices	689,697	O	O
+,	697,698	O	O
+which	699,704	O	O
+exhibit	705,712	O	O
+characteristic	713,727	O	O
+correlations	728,740	O	O
+,	740,741	O	O
+correspond	742,752	O	O
+to	753,755	O	O
+an	756,758	O	O
+intermediate	759,771	O	O
+situation	772,781	O	O
+between	782,789	O	O
+these	790,795	O	O
+two	796,799	O	O
+extremes	800,808	O	O
+.	808,809	O	O
+
+The	810,813	O	O
+attempts	814,822	O	O
+to	823,825	O	O
+locate	826,832	O	B-Task
+in	833,835	O	I-Task
+the	836,839	O	I-Task
+last	840,844	O	I-Task
+case	845,849	O	I-Task
+a	850,851	O	I-Task
+single	852,858	O	I-Task
+missed	859,865	O	I-Task
+level	866,871	O	I-Task
+have	872,876	O	O
+remained	877,885	O	O
+unsuccessful	886,898	O	O
+so	899,901	O	O
+far	902,905	O	O
+.	905,906	O	O
+
+However	907,914	O	O
+,	914,915	O	O
+it	916,918	O	O
+should	919,925	O	O
+be	926,928	O	O
+mentioned	929,938	O	O
+that	939,943	O	O
+for	944,947	O	O
+two	948,951	O	B-Task
+-	951,952	O	I-Task
+dimensional	952,963	O	I-Task
+chaotic	964,971	O	I-Task
+systems	972,979	O	I-Task
+where	980,985	O	O
+,	985,986	O	O
+besides	987,994	O	O
+correlations	995,1007	O	O
+of	1008,1010	O	O
+the	1011,1014	O	O
+order	1015,1020	O	O
+of	1021,1023	O	O
+one	1024,1027	O	O
+mean	1028,1032	O	O
+spacing	1033,1040	O	O
+as	1041,1043	O	O
+described	1044,1053	O	O
+by	1054,1056	O	O
+random	1057,1063	O	O
+matrices	1064,1072	O	O
+,	1072,1073	O	O
+the	1074,1077	O	O
+presence	1078,1086	O	O
+and	1087,1090	O	O
+the	1091,1094	O	O
+role	1095,1099	O	O
+of	1100,1102	O	O
+long	1103,1107	O	O
+range	1108,1113	O	O
+correlations	1114,1126	O	O
+governed	1127,1135	O	O
+by	1136,1138	O	O
+the	1139,1142	O	O
+shortest	1143,1151	O	O
+periodic	1152,1160	O	O
+orbits	1161,1167	O	O
+and	1168,1171	O	O
+reflected	1172,1181	O	O
+in	1182,1184	O	O
+Weyl	1185,1189	O	B-Process
+'s	1189,1191	O	I-Process
+law	1192,1195	O	I-Process
+describing	1196,1206	O	I-Process
+the	1207,1210	O	I-Process
+average	1211,1218	O	I-Process
+spectral	1219,1227	O	I-Process
+density	1228,1235	O	I-Process
+,	1235,1236	O	O
+is	1237,1239	O	O
+well	1240,1244	O	O
+understood	1245,1255	O	O
+.	1255,1256	O	O
+
+It	1257,1259	O	O
+is	1260,1262	O	O
+then	1263,1267	O	O
+possible	1268,1276	O	O
+to	1277,1279	O	O
+approximately	1280,1293	O	B-Task
+locate	1294,1300	O	I-Task
+,	1300,1301	O	O
+from	1302,1306	O	O
+the	1307,1310	O	O
+study	1311,1316	O	B-Process
+of	1317,1319	O	I-Process
+spectral	1320,1328	O	I-Process
+fluctuations	1329,1341	O	I-Process
+,	1341,1342	O	O
+a	1343,1344	O	B-Task
+single	1345,1351	O	I-Task
+missed	1352,1358	O	I-Task
+level	1359,1364	O	I-Task
+[	1365,1366	O	O
+8	1366,1367	O	O
+]	1367,1368	O	O
+.	1368,1369	O	O
 
 
 -DOCSTART- (S0370269304008858)
 
-The	0	3	O
-reason	4	10	O
-to	11	13	O
-investigate	14	25	B-Task
-the	26	29	I-Task
-BFKL	30	34	I-Task
-and	35	38	I-Task
-DGLAP	39	44	I-Task
-equations	45	54	I-Task
-in	55	57	I-Task
-the	58	61	I-Task
-case	62	66	I-Task
-of	67	69	I-Task
-supersymmetric	70	84	I-Task
-theories	85	93	I-Task
-is	94	96	O
-based	97	102	O
-on	103	105	O
-a	106	107	O
-common	108	114	O
-belief	115	121	O
-,	121	122	O
-that	123	127	O
-the	128	131	O
-high	132	136	B-Task
-symmetry	137	145	I-Task
-may	146	149	I-Task
-significantly	150	163	I-Task
-simplify	164	172	I-Task
-the	173	176	I-Task
-structure	177	186	I-Task
-of	187	189	I-Task
-these	190	195	I-Task
-equations	196	205	I-Task
-.	205	206	O
-
-Indeed	207	213	O
-,	213	214	O
-it	215	217	O
-was	218	221	O
-found	222	227	O
-in	228	230	O
-the	231	234	O
-leading	235	242	B-Process
-logarithmic	243	254	I-Process
-approximation	255	268	I-Process
-(	269	270	O
-LLA	270	273	B-Process
-)	273	274	O
-[	275	276	O
-10	276	278	O
-]	278	279	O
-,	279	280	O
-that	281	285	O
-the	286	289	O
-so	290	292	O
--	292	293	O
-called	293	299	O
-quasi	300	305	O
--	305	306	O
-partonic	306	314	O
-operators	315	324	O
-in	325	327	O
-N=1	328	331	O
-SYM	332	335	O
-are	336	339	O
-unified	340	347	O
-in	348	350	O
-supermultiplets	351	366	O
-with	367	371	O
-anomalous	372	381	B-Process
-dimensions	382	392	I-Process
-obtained	393	401	I-Process
-from	402	406	I-Process
-universal	407	416	I-Process
-anomalous	417	426	I-Process
-dimensions	427	437	I-Process
-γuni(j	438	444	I-Process
-)	444	445	I-Process
-by	446	448	I-Process
-shifting	449	457	I-Process
-its	458	461	I-Process
-arguments	462	471	I-Process
-by	472	474	I-Process
-an	475	477	I-Process
-integer	478	485	I-Process
-number	486	492	I-Process
-.	492	493	O
-
-Further	494	501	O
-,	501	502	O
-the	503	506	O
-anomalous	507	516	B-Task
-dimension	517	526	I-Task
-matrices	527	535	I-Task
-for	536	539	I-Task
-twist-2	540	547	I-Task
-operators	548	557	I-Task
-are	558	561	O
-fixed	562	567	B-Process
-by	568	570	I-Process
-the	571	574	I-Process
-superconformal	575	589	I-Process
-invariance	590	600	I-Process
-[	601	602	O
-10	602	604	O
-]	604	605	O
-.	605	606	O
-
-Calculations	607	619	B-Process
-in	620	622	I-Process
-the	623	626	I-Process
-maximally	627	636	I-Process
-extended	637	645	I-Process
-N=4	646	649	I-Process
-SYM	650	653	I-Process
-,	653	654	I-Process
-where	655	660	I-Process
-the	661	664	I-Process
-coupling	665	673	I-Process
-constant	674	682	I-Process
-is	683	685	I-Process
-not	686	689	I-Process
-renormalized	690	702	I-Process
-,	702	703	O
-give	704	708	O
-even	709	713	O
-more	714	718	O
-remarkable	719	729	O
-results	730	737	O
-.	737	738	O
-
-Namely	739	745	O
-,	745	746	O
-it	747	749	O
-turns	750	755	O
-out	756	759	O
-,	759	760	O
-that	761	765	O
-here	766	770	O
-all	771	774	O
-twist-2	775	782	B-Task
-operators	783	792	I-Task
-enter	793	798	O
-in	799	801	O
-the	802	805	O
-same	806	810	O
-multiplet	811	820	O
-,	820	821	O
-their	822	827	O
-anomalous	828	837	B-Task
-dimension	838	847	I-Task
-matrix	848	854	I-Task
-is	855	857	O
-fixed	858	863	O
-completely	864	874	O
-by	875	877	O
-the	878	881	O
-super	882	887	B-Process
--	887	888	I-Process
-conformal	888	897	I-Process
-invariance	898	908	I-Process
-and	909	912	O
-its	913	916	O
-universal	917	926	O
-anomalous	927	936	O
-dimension	937	946	O
-in	947	949	O
-LLA	950	953	O
-is	954	956	O
-proportional	957	969	O
-to	970	972	O
-Ψ(j−1)−Ψ(1	973	983	O
-)	983	984	O
-,	984	985	O
-which	986	991	O
-means	992	997	O
-,	997	998	O
-that	999	1003	O
-the	1004	1007	O
-evolution	1008	1017	B-Task
-equations	1018	1027	I-Task
-for	1028	1031	I-Task
-the	1032	1035	I-Task
-matrix	1036	1042	I-Task
-elements	1043	1051	I-Task
-of	1052	1054	I-Task
-quasi	1055	1060	I-Task
--	1060	1061	I-Task
-partonic	1061	1069	I-Task
-operators	1070	1079	I-Task
-in	1080	1082	I-Task
-the	1083	1086	I-Task
-multicolor	1087	1097	I-Task
-limit	1098	1103	I-Task
-Nc→∞	1104	1108	I-Task
-are	1109	1112	O
-equivalent	1113	1123	O
-to	1124	1126	O
-the	1127	1130	O
-Schrödinger	1131	1142	O
-equation	1143	1151	O
-for	1152	1155	O
-an	1156	1158	O
-integrable	1159	1169	O
-Heisenberg	1170	1180	O
-spin	1181	1185	O
-model	1186	1191	O
-[	1192	1193	O
-11,12	1193	1198	O
-]	1198	1199	O
-.	1199	1200	O
-
-In	1201	1203	O
-QCD	1204	1207	O
-the	1208	1211	O
-integrability	1212	1225	O
-remains	1226	1233	O
-only	1234	1238	O
-in	1239	1241	O
-a	1242	1243	O
-small	1244	1249	O
-sector	1250	1256	O
-of	1257	1259	O
-the	1260	1263	O
-quasi	1264	1269	O
--	1269	1270	O
-partonic	1270	1278	O
-operators	1279	1288	O
-[	1289	1290	O
-13	1290	1292	O
-]	1292	1293	O
-.	1293	1294	O
-
-In	1295	1297	O
-the	1298	1301	O
-case	1302	1306	O
-of	1307	1309	O
-N=4	1310	1313	B-Task
-SYM	1314	1317	I-Task
-the	1318	1321	O
-equations	1322	1331	O
-for	1332	1335	O
-other	1336	1341	O
-sets	1342	1346	O
-of	1347	1349	O
-operators	1350	1359	O
-are	1360	1363	O
-also	1364	1368	O
-integrable	1369	1379	O
-[	1380	1381	O
-14–16	1381	1386	O
-]	1386	1387	O
-.	1387	1388	O
-
-Evolution	1389	1398	B-Task
-equations	1399	1408	I-Task
-for	1409	1412	I-Task
-quasi	1413	1418	I-Task
--	1418	1419	I-Task
-partonic	1419	1427	I-Task
-operators	1428	1437	I-Task
-are	1438	1441	O
-written	1442	1449	O
-in	1450	1452	O
-an	1453	1455	O
-explicitly	1456	1466	O
-super	1467	1472	O
--	1472	1473	O
-conformal	1473	1482	O
-form	1483	1487	O
-in	1488	1490	O
-Ref	1491	1494	O
-.	1494	1495	O
-
-[	1496	1497	O
-17	1497	1499	O
-]	1499	1500	O
-.	1500	1501	O
+The	0,3	O	O
+reason	4,10	O	O
+to	11,13	O	O
+investigate	14,25	O	B-Task
+the	26,29	O	I-Task
+BFKL	30,34	O	I-Task
+and	35,38	O	I-Task
+DGLAP	39,44	O	I-Task
+equations	45,54	O	I-Task
+in	55,57	O	I-Task
+the	58,61	O	I-Task
+case	62,66	O	I-Task
+of	67,69	O	I-Task
+supersymmetric	70,84	O	I-Task
+theories	85,93	O	I-Task
+is	94,96	O	O
+based	97,102	O	O
+on	103,105	O	O
+a	106,107	O	O
+common	108,114	O	O
+belief	115,121	O	O
+,	121,122	O	O
+that	123,127	O	O
+the	128,131	O	O
+high	132,136	O	B-Task
+symmetry	137,145	O	I-Task
+may	146,149	O	I-Task
+significantly	150,163	O	I-Task
+simplify	164,172	O	I-Task
+the	173,176	O	I-Task
+structure	177,186	O	I-Task
+of	187,189	O	I-Task
+these	190,195	O	I-Task
+equations	196,205	O	I-Task
+.	205,206	O	O
+
+Indeed	207,213	O	O
+,	213,214	O	O
+it	215,217	O	O
+was	218,221	O	O
+found	222,227	O	O
+in	228,230	O	O
+the	231,234	O	O
+leading	235,242	O	B-Process
+logarithmic	243,254	O	I-Process
+approximation	255,268	O	I-Process
+(	269,270	O	O
+LLA	270,273	O	B-Process
+)	273,274	O	O
+[	275,276	O	O
+10	276,278	O	O
+]	278,279	O	O
+,	279,280	O	O
+that	281,285	O	O
+the	286,289	O	O
+so	290,292	O	O
+-	292,293	O	O
+called	293,299	O	O
+quasi	300,305	O	O
+-	305,306	O	O
+partonic	306,314	O	O
+operators	315,324	O	O
+in	325,327	O	O
+N=1	328,331	O	O
+SYM	332,335	O	O
+are	336,339	O	O
+unified	340,347	O	O
+in	348,350	O	O
+supermultiplets	351,366	O	O
+with	367,371	O	O
+anomalous	372,381	O	B-Process
+dimensions	382,392	O	I-Process
+obtained	393,401	O	I-Process
+from	402,406	O	I-Process
+universal	407,416	O	I-Process
+anomalous	417,426	O	I-Process
+dimensions	427,437	O	I-Process
+γuni(j	438,444	O	I-Process
+)	444,445	O	I-Process
+by	446,448	O	I-Process
+shifting	449,457	O	I-Process
+its	458,461	O	I-Process
+arguments	462,471	O	I-Process
+by	472,474	O	I-Process
+an	475,477	O	I-Process
+integer	478,485	O	I-Process
+number	486,492	O	I-Process
+.	492,493	O	O
+
+Further	494,501	O	O
+,	501,502	O	O
+the	503,506	O	O
+anomalous	507,516	O	B-Task
+dimension	517,526	O	I-Task
+matrices	527,535	O	I-Task
+for	536,539	O	I-Task
+twist-2	540,547	O	I-Task
+operators	548,557	O	I-Task
+are	558,561	O	O
+fixed	562,567	O	B-Process
+by	568,570	O	I-Process
+the	571,574	O	I-Process
+superconformal	575,589	O	I-Process
+invariance	590,600	O	I-Process
+[	601,602	O	O
+10	602,604	O	O
+]	604,605	O	O
+.	605,606	O	O
+
+Calculations	607,619	O	B-Process
+in	620,622	O	I-Process
+the	623,626	O	I-Process
+maximally	627,636	O	I-Process
+extended	637,645	O	I-Process
+N=4	646,649	O	I-Process
+SYM	650,653	O	I-Process
+,	653,654	O	I-Process
+where	655,660	O	I-Process
+the	661,664	O	I-Process
+coupling	665,673	O	I-Process
+constant	674,682	O	I-Process
+is	683,685	O	I-Process
+not	686,689	O	I-Process
+renormalized	690,702	O	I-Process
+,	702,703	O	O
+give	704,708	O	O
+even	709,713	O	O
+more	714,718	O	O
+remarkable	719,729	O	O
+results	730,737	O	O
+.	737,738	O	O
+
+Namely	739,745	O	O
+,	745,746	O	O
+it	747,749	O	O
+turns	750,755	O	O
+out	756,759	O	O
+,	759,760	O	O
+that	761,765	O	O
+here	766,770	O	O
+all	771,774	O	O
+twist-2	775,782	O	B-Task
+operators	783,792	O	I-Task
+enter	793,798	O	O
+in	799,801	O	O
+the	802,805	O	O
+same	806,810	O	O
+multiplet	811,820	O	O
+,	820,821	O	O
+their	822,827	O	O
+anomalous	828,837	O	B-Task
+dimension	838,847	O	I-Task
+matrix	848,854	O	I-Task
+is	855,857	O	O
+fixed	858,863	O	O
+completely	864,874	O	O
+by	875,877	O	O
+the	878,881	O	O
+super	882,887	O	B-Process
+-	887,888	O	I-Process
+conformal	888,897	O	I-Process
+invariance	898,908	O	I-Process
+and	909,912	O	O
+its	913,916	O	O
+universal	917,926	O	O
+anomalous	927,936	O	O
+dimension	937,946	O	O
+in	947,949	O	O
+LLA	950,953	O	O
+is	954,956	O	O
+proportional	957,969	O	O
+to	970,972	O	O
+Ψ(j−1)−Ψ(1	973,983	O	O
+)	983,984	O	O
+,	984,985	O	O
+which	986,991	O	O
+means	992,997	O	O
+,	997,998	O	O
+that	999,1003	O	O
+the	1004,1007	O	O
+evolution	1008,1017	O	B-Task
+equations	1018,1027	O	I-Task
+for	1028,1031	O	I-Task
+the	1032,1035	O	I-Task
+matrix	1036,1042	O	I-Task
+elements	1043,1051	O	I-Task
+of	1052,1054	O	I-Task
+quasi	1055,1060	O	I-Task
+-	1060,1061	O	I-Task
+partonic	1061,1069	O	I-Task
+operators	1070,1079	O	I-Task
+in	1080,1082	O	I-Task
+the	1083,1086	O	I-Task
+multicolor	1087,1097	O	I-Task
+limit	1098,1103	O	I-Task
+Nc→∞	1104,1108	O	I-Task
+are	1109,1112	O	O
+equivalent	1113,1123	O	O
+to	1124,1126	O	O
+the	1127,1130	O	O
+Schrödinger	1131,1142	O	O
+equation	1143,1151	O	O
+for	1152,1155	O	O
+an	1156,1158	O	O
+integrable	1159,1169	O	O
+Heisenberg	1170,1180	O	O
+spin	1181,1185	O	O
+model	1186,1191	O	O
+[	1192,1193	O	O
+11,12	1193,1198	O	O
+]	1198,1199	O	O
+.	1199,1200	O	O
+
+In	1201,1203	O	O
+QCD	1204,1207	O	O
+the	1208,1211	O	O
+integrability	1212,1225	O	O
+remains	1226,1233	O	O
+only	1234,1238	O	O
+in	1239,1241	O	O
+a	1242,1243	O	O
+small	1244,1249	O	O
+sector	1250,1256	O	O
+of	1257,1259	O	O
+the	1260,1263	O	O
+quasi	1264,1269	O	O
+-	1269,1270	O	O
+partonic	1270,1278	O	O
+operators	1279,1288	O	O
+[	1289,1290	O	O
+13	1290,1292	O	O
+]	1292,1293	O	O
+.	1293,1294	O	O
+
+In	1295,1297	O	O
+the	1298,1301	O	O
+case	1302,1306	O	O
+of	1307,1309	O	O
+N=4	1310,1313	O	B-Task
+SYM	1314,1317	O	I-Task
+the	1318,1321	O	O
+equations	1322,1331	O	O
+for	1332,1335	O	O
+other	1336,1341	O	O
+sets	1342,1346	O	O
+of	1347,1349	O	O
+operators	1350,1359	O	O
+are	1360,1363	O	O
+also	1364,1368	O	O
+integrable	1369,1379	O	O
+[	1380,1381	O	O
+14–16	1381,1386	O	O
+]	1386,1387	O	O
+.	1387,1388	O	O
+
+Evolution	1389,1398	O	B-Task
+equations	1399,1408	O	I-Task
+for	1409,1412	O	I-Task
+quasi	1413,1418	O	I-Task
+-	1418,1419	O	I-Task
+partonic	1419,1427	O	I-Task
+operators	1428,1437	O	I-Task
+are	1438,1441	O	O
+written	1442,1449	O	O
+in	1450,1452	O	O
+an	1453,1455	O	O
+explicitly	1456,1466	O	O
+super	1467,1472	O	O
+-	1472,1473	O	O
+conformal	1473,1482	O	O
+form	1483,1487	O	O
+in	1488,1490	O	O
+Ref	1491,1494	O	O
+.	1494,1495	O	O
+
+[	1496,1497	O	O
+17	1497,1499	O	O
+]	1499,1500	O	O
+.	1500,1501	O	O
 
 
 -DOCSTART- (S0370269304008974)
 
-Thus	0	4	O
-,	4	5	O
-the	6	9	O
-extension	10	19	B-Process
-to	20	22	I-Process
-the	23	26	I-Process
-charmed	27	34	I-Process
-analogue	35	43	I-Process
-Θc(3099	44	51	I-Process
-)	51	52	I-Process
-provides	53	61	O
-an	62	64	O
-interesting	65	76	O
-test	77	81	O
-for	82	85	O
-the	86	89	O
-SDO	90	93	B-Task
-sum	94	97	I-Task
-rule	98	102	I-Task
-and	103	106	I-Task
-lattice	107	114	I-Task
-calculations	115	127	I-Task
-[	128	129	O
-17	129	131	O
-]	131	132	O
-.	132	133	O
-
-Here	134	138	O
-,	138	139	O
-the	140	143	O
-charm	144	149	B-Material
-quark	150	155	I-Material
-is	156	158	O
-quite	159	164	O
-heavy	165	170	O
-so	171	173	O
-that	174	178	O
-the	179	182	O
-constituent	183	194	B-Process
--	194	195	I-Process
-quark	195	200	I-Process
-picture	201	208	I-Process
-may	209	212	O
-fit	213	216	O
-well	217	221	O
-and	222	225	O
-the	226	229	O
-JW	230	232	B-Process
-prediction	233	243	I-Process
-for	244	247	O
-the	248	251	O
-parity	252	258	O
-is	259	261	O
-expected	262	270	O
-to	271	273	O
-be	274	276	O
-reproduced	277	287	O
-from	288	292	O
-QCD	293	296	B-Material
-.	296	297	O
-
-In	298	300	O
-fact	301	305	O
-,	305	306	O
-quenched	307	315	B-Task
-lattice	316	323	I-Task
-calculation	324	335	I-Task
-finds	336	341	O
-the	342	345	O
-parity	346	352	O
-of	353	355	O
-Θc(3099	356	363	O
-)	363	364	O
-to	365	367	O
-be	368	370	O
-positive	371	379	O
-[	380	381	O
-28	381	383	O
-]	383	384	O
-.	384	385	O
-
-In	386	388	O
-the	389	392	O
-extension	393	402	O
-to	403	405	O
-the	406	409	O
-Θc(3099	410	417	O
-)	417	418	O
-sum	419	422	O
-rules	423	428	O
-,	428	429	O
-there	430	435	O
-are	436	439	O
-two	440	443	O
-important	444	453	O
-aspects	454	461	O
-,	461	462	O
-which	463	468	O
-make	469	473	O
-this	474	478	O
-sum	479	482	B-Task
-rule	483	487	I-Task
-different	488	497	O
-from	498	502	O
-the	503	506	O
-SDO	507	510	B-Process
-sum	511	514	I-Process
-rule	515	519	I-Process
-.	519	520	O
-
-First	521	526	O
-of	527	529	O
-all	530	533	O
-,	533	534	O
-since	535	540	O
-the	541	544	O
-charm	545	550	B-Material
-quark	551	556	I-Material
-is	557	559	O
-too	560	563	O
-heavy	564	569	O
-to	570	572	O
-form	573	577	O
-quark	578	583	B-Material
-condensate	584	594	I-Material
-,	594	595	O
-it	596	598	O
-gives	599	604	O
-non	605	608	O
--	608	609	O
-perturbative	609	621	O
-effects	622	629	O
-only	630	634	O
-by	635	637	O
-radiating	638	647	B-Material
-gluons	648	654	I-Material
-.	654	655	O
-
-The	656	659	O
-quark	660	665	B-Material
-–	665	666	I-Material
-gluon	666	671	I-Material
-mixed	672	677	I-Material
-condensate	678	688	I-Material
-〈	689	690	O
-s̄gsσ·Gs	690	698	B-Material
-〉	698	699	O
-,	699	700	O
-which	701	706	O
-was	707	710	O
-the	711	714	O
-important	715	724	O
-contribution	725	737	O
-in	738	740	O
-the	741	744	O
-Θ+	745	747	B-Process
-sum	748	751	I-Process
-rule	752	756	I-Process
-,	756	757	O
-is	758	760	O
-replaced	761	769	B-Process
-by	770	772	I-Process
-gluonic	773	780	I-Process
-operators	781	790	I-Process
-in	791	793	I-Process
-the	794	797	I-Process
-heavy	798	803	I-Process
-quark	804	809	I-Process
-expansion	810	819	I-Process
-that	820	824	O
-are	825	828	O
-normally	829	837	O
-suppressed	838	848	O
-.	848	849	O
-
-Secondly	850	858	O
-,	858	859	O
-the	860	863	O
-charm	864	869	B-Process
-quark	870	875	I-Process
-mass	876	880	I-Process
-has	881	884	I-Process
-to	885	887	I-Process
-be	888	890	I-Process
-kept	891	895	I-Process
-finite	896	902	I-Process
-in	903	905	I-Process
-the	906	909	I-Process
-OPE	910	913	I-Process
-,	913	914	O
-which	915	920	O
-can	921	924	O
-be	925	927	O
-done	928	932	O
-by	933	935	O
-using	936	941	O
-the	942	945	O
-momentum	946	954	B-Process
-space	955	960	I-Process
-expression	961	971	I-Process
-for	972	975	O
-the	976	979	O
-charm	980	985	B-Material
--	985	986	I-Material
-quark	986	991	I-Material
-propagator	992	1002	I-Material
-.	1002	1003	O
-
-This	1004	1008	O
-is	1009	1011	O
-different	1012	1021	O
-from	1022	1026	O
-the	1027	1030	B-Process
-light	1031	1036	I-Process
--	1036	1037	I-Process
-quark	1037	1042	I-Process
-sum	1043	1046	I-Process
-rule	1047	1051	I-Process
-where	1052	1057	O
-the	1058	1061	O
-calculation	1062	1073	O
-is	1074	1076	O
-performed	1077	1086	O
-in	1087	1089	O
-the	1090	1093	O
-coordinate	1094	1104	O
-space	1105	1110	O
-and	1111	1114	O
-all	1115	1118	O
-the	1119	1122	O
-quark	1123	1128	B-Material
-propagators	1129	1140	I-Material
-are	1141	1144	O
-obtained	1145	1153	O
-based	1154	1159	O
-on	1160	1162	O
-the	1163	1166	O
-expansion	1167	1176	O
-with	1177	1181	O
-the	1182	1185	O
-small	1186	1191	B-Material
-quark	1192	1197	I-Material
-mass	1198	1202	O
-.	1202	1203	O
-
-Keeping	1204	1211	O
-these	1212	1217	O
-two	1218	1221	O
-aspects	1222	1229	O
-in	1230	1232	O
-mind	1233	1237	O
-,	1237	1238	O
-we	1239	1241	O
-construct	1242	1251	O
-QCD	1252	1255	B-Process
-sum	1256	1259	I-Process
-rules	1260	1265	I-Process
-for	1266	1269	O
-Θc(3099	1270	1277	O
-)	1277	1278	O
-and	1279	1282	O
-see	1283	1286	B-Task
-how	1287	1290	I-Task
-they	1291	1295	I-Task
-are	1296	1299	I-Task
-different	1300	1309	I-Task
-from	1310	1314	I-Task
-the	1315	1318	I-Task
-Θ+(1540	1319	1326	I-Task
-)	1326	1327	I-Task
-sum	1328	1331	I-Task
-rule	1332	1336	I-Task
-.	1336	1337	O
+Thus	0,4	O	O
+,	4,5	O	O
+the	6,9	O	O
+extension	10,19	O	B-Process
+to	20,22	O	I-Process
+the	23,26	O	I-Process
+charmed	27,34	O	I-Process
+analogue	35,43	O	I-Process
+Θc(3099	44,51	O	I-Process
+)	51,52	O	I-Process
+provides	53,61	O	O
+an	62,64	O	O
+interesting	65,76	O	O
+test	77,81	O	O
+for	82,85	O	O
+the	86,89	O	O
+SDO	90,93	O	B-Task
+sum	94,97	O	I-Task
+rule	98,102	O	I-Task
+and	103,106	O	I-Task
+lattice	107,114	O	I-Task
+calculations	115,127	O	I-Task
+[	128,129	O	O
+17	129,131	O	O
+]	131,132	O	O
+.	132,133	O	O
+
+Here	134,138	O	O
+,	138,139	O	O
+the	140,143	O	O
+charm	144,149	O	B-Material
+quark	150,155	O	I-Material
+is	156,158	O	O
+quite	159,164	O	O
+heavy	165,170	O	O
+so	171,173	O	O
+that	174,178	O	O
+the	179,182	O	O
+constituent	183,194	O	B-Process
+-	194,195	O	I-Process
+quark	195,200	O	I-Process
+picture	201,208	O	I-Process
+may	209,212	O	O
+fit	213,216	O	O
+well	217,221	O	O
+and	222,225	O	O
+the	226,229	O	O
+JW	230,232	O	B-Process
+prediction	233,243	O	I-Process
+for	244,247	O	O
+the	248,251	O	O
+parity	252,258	O	O
+is	259,261	O	O
+expected	262,270	O	O
+to	271,273	O	O
+be	274,276	O	O
+reproduced	277,287	O	O
+from	288,292	O	O
+QCD	293,296	O	B-Material
+.	296,297	O	O
+
+In	298,300	O	O
+fact	301,305	O	O
+,	305,306	O	O
+quenched	307,315	O	B-Task
+lattice	316,323	O	I-Task
+calculation	324,335	O	I-Task
+finds	336,341	O	O
+the	342,345	O	O
+parity	346,352	O	O
+of	353,355	O	O
+Θc(3099	356,363	O	O
+)	363,364	O	O
+to	365,367	O	O
+be	368,370	O	O
+positive	371,379	O	O
+[	380,381	O	O
+28	381,383	O	O
+]	383,384	O	O
+.	384,385	O	O
+
+In	386,388	O	O
+the	389,392	O	O
+extension	393,402	O	O
+to	403,405	O	O
+the	406,409	O	O
+Θc(3099	410,417	O	O
+)	417,418	O	O
+sum	419,422	O	O
+rules	423,428	O	O
+,	428,429	O	O
+there	430,435	O	O
+are	436,439	O	O
+two	440,443	O	O
+important	444,453	O	O
+aspects	454,461	O	O
+,	461,462	O	O
+which	463,468	O	O
+make	469,473	O	O
+this	474,478	O	O
+sum	479,482	O	B-Task
+rule	483,487	O	I-Task
+different	488,497	O	O
+from	498,502	O	O
+the	503,506	O	O
+SDO	507,510	O	B-Process
+sum	511,514	O	I-Process
+rule	515,519	O	I-Process
+.	519,520	O	O
+
+First	521,526	O	O
+of	527,529	O	O
+all	530,533	O	O
+,	533,534	O	O
+since	535,540	O	O
+the	541,544	O	O
+charm	545,550	O	B-Material
+quark	551,556	O	I-Material
+is	557,559	O	O
+too	560,563	O	O
+heavy	564,569	O	O
+to	570,572	O	O
+form	573,577	O	O
+quark	578,583	O	B-Material
+condensate	584,594	O	I-Material
+,	594,595	O	O
+it	596,598	O	O
+gives	599,604	O	O
+non	605,608	O	O
+-	608,609	O	O
+perturbative	609,621	O	O
+effects	622,629	O	O
+only	630,634	O	O
+by	635,637	O	O
+radiating	638,647	O	B-Material
+gluons	648,654	O	I-Material
+.	654,655	O	O
+
+The	656,659	O	O
+quark	660,665	O	B-Material
+–	665,666	O	I-Material
+gluon	666,671	O	I-Material
+mixed	672,677	O	I-Material
+condensate	678,688	O	I-Material
+〈	689,690	O	O
+s̄gsσ·Gs	690,698	O	B-Material
+〉	698,699	O	O
+,	699,700	O	O
+which	701,706	O	O
+was	707,710	O	O
+the	711,714	O	O
+important	715,724	O	O
+contribution	725,737	O	O
+in	738,740	O	O
+the	741,744	O	O
+Θ+	745,747	O	B-Process
+sum	748,751	O	I-Process
+rule	752,756	O	I-Process
+,	756,757	O	O
+is	758,760	O	O
+replaced	761,769	O	B-Process
+by	770,772	O	I-Process
+gluonic	773,780	O	I-Process
+operators	781,790	O	I-Process
+in	791,793	O	I-Process
+the	794,797	O	I-Process
+heavy	798,803	O	I-Process
+quark	804,809	O	I-Process
+expansion	810,819	O	I-Process
+that	820,824	O	O
+are	825,828	O	O
+normally	829,837	O	O
+suppressed	838,848	O	O
+.	848,849	O	O
+
+Secondly	850,858	O	O
+,	858,859	O	O
+the	860,863	O	O
+charm	864,869	O	B-Process
+quark	870,875	O	I-Process
+mass	876,880	O	I-Process
+has	881,884	O	I-Process
+to	885,887	O	I-Process
+be	888,890	O	I-Process
+kept	891,895	O	I-Process
+finite	896,902	O	I-Process
+in	903,905	O	I-Process
+the	906,909	O	I-Process
+OPE	910,913	O	I-Process
+,	913,914	O	O
+which	915,920	O	O
+can	921,924	O	O
+be	925,927	O	O
+done	928,932	O	O
+by	933,935	O	O
+using	936,941	O	O
+the	942,945	O	O
+momentum	946,954	O	B-Process
+space	955,960	O	I-Process
+expression	961,971	O	I-Process
+for	972,975	O	O
+the	976,979	O	O
+charm	980,985	O	B-Material
+-	985,986	O	I-Material
+quark	986,991	O	I-Material
+propagator	992,1002	O	I-Material
+.	1002,1003	O	O
+
+This	1004,1008	O	O
+is	1009,1011	O	O
+different	1012,1021	O	O
+from	1022,1026	O	O
+the	1027,1030	O	B-Process
+light	1031,1036	O	I-Process
+-	1036,1037	O	I-Process
+quark	1037,1042	O	I-Process
+sum	1043,1046	O	I-Process
+rule	1047,1051	O	I-Process
+where	1052,1057	O	O
+the	1058,1061	O	O
+calculation	1062,1073	O	O
+is	1074,1076	O	O
+performed	1077,1086	O	O
+in	1087,1089	O	O
+the	1090,1093	O	O
+coordinate	1094,1104	O	O
+space	1105,1110	O	O
+and	1111,1114	O	O
+all	1115,1118	O	O
+the	1119,1122	O	O
+quark	1123,1128	O	B-Material
+propagators	1129,1140	O	I-Material
+are	1141,1144	O	O
+obtained	1145,1153	O	O
+based	1154,1159	O	O
+on	1160,1162	O	O
+the	1163,1166	O	O
+expansion	1167,1176	O	O
+with	1177,1181	O	O
+the	1182,1185	O	O
+small	1186,1191	O	B-Material
+quark	1192,1197	O	I-Material
+mass	1198,1202	O	O
+.	1202,1203	O	O
+
+Keeping	1204,1211	O	O
+these	1212,1217	O	O
+two	1218,1221	O	O
+aspects	1222,1229	O	O
+in	1230,1232	O	O
+mind	1233,1237	O	O
+,	1237,1238	O	O
+we	1239,1241	O	O
+construct	1242,1251	O	O
+QCD	1252,1255	O	B-Process
+sum	1256,1259	O	I-Process
+rules	1260,1265	O	I-Process
+for	1266,1269	O	O
+Θc(3099	1270,1277	O	O
+)	1277,1278	O	O
+and	1279,1282	O	O
+see	1283,1286	O	B-Task
+how	1287,1290	O	I-Task
+they	1291,1295	O	I-Task
+are	1296,1299	O	I-Task
+different	1300,1309	O	I-Task
+from	1310,1314	O	I-Task
+the	1315,1318	O	I-Task
+Θ+(1540	1319,1326	O	I-Task
+)	1326,1327	O	I-Task
+sum	1328,1331	O	I-Task
+rule	1332,1336	O	I-Task
+.	1336,1337	O	O
 
 
 -DOCSTART- (S0370269304008998)
 
-Including	0	9	O
-the	10	13	O
-O(αs	14	18	O
-)	18	19	O
-corrections	20	31	O
-,	31	32	O
-all	33	36	O
-the	37	40	O
-operators	41	50	B-Task
-listed	51	57	I-Task
-in	58	60	I-Task
-(	61	62	I-Task
-9	62	63	I-Task
-)	63	64	I-Task
-and	65	68	I-Task
-(	69	70	I-Task
-10	70	72	I-Task
-)	72	73	I-Task
-have	74	78	I-Task
-to	79	81	I-Task
-be	82	84	I-Task
-included	85	93	I-Task
-.	93	94	O
-
-A	95	96	O
-convenient	97	107	O
-framework	108	117	O
-to	118	120	O
-carry	121	126	O
-out	127	130	O
-these	131	136	O
-calculations	137	149	O
-is	150	152	O
-the	153	156	O
-QCD	157	160	B-Process
-factorization	161	174	I-Process
-framework	175	184	I-Process
-[	185	186	O
-14	186	188	O
-]	188	189	O
-which	190	195	O
-allows	196	202	O
-to	203	205	O
-express	206	213	B-Process
-the	214	217	I-Process
-hadronic	218	226	I-Process
-matrix	227	233	I-Process
-elements	234	242	I-Process
-in	243	245	I-Process
-the	246	249	I-Process
-schematic	250	259	I-Process
-form	260	264	I-Process
-:	264	265	I-Process
-(	266	267	O
-11)〈Vγ|Oi|B〉=FB→VTiI+∫dk+2π∫01duφB,+(k+)TiII(k+,u)φV⊥(u	267	322	B-Process
-)	322	323	I-Process
-,	323	324	O
-where	325	330	O
-FB→V	331	335	B-Process
-are	336	339	O
-the	340	343	O
-transition	344	354	B-Process
-form	355	359	I-Process
-factors	360	367	I-Process
-defined	368	375	I-Process
-through	376	383	I-Process
-the	384	387	I-Process
-matrix	388	394	I-Process
-elements	395	403	I-Process
-of	404	406	I-Process
-the	407	410	I-Process
-operator	411	419	I-Process
-O7	420	422	I-Process
-,	422	423	I-Process
-φB,+(k+	424	431	I-Process
-)	431	432	I-Process
-is	433	435	O
-the	436	439	O
-leading	440	447	B-Process
--	447	448	I-Process
-twist	448	453	I-Process
-B	454	455	I-Process
--	455	456	I-Process
-meson	456	461	I-Process
-wave	462	466	I-Process
--	466	467	I-Process
-function	467	475	I-Process
-with	476	480	I-Process
-k+	481	483	I-Process
-being	484	489	I-Process
-a	490	491	I-Process
-light	492	497	I-Process
--	497	498	I-Process
-cone	498	502	I-Process
-component	503	512	I-Process
-of	513	515	I-Process
-the	516	519	I-Process
-spectator	520	529	I-Process
-quark	530	535	I-Process
-momentum	536	544	I-Process
-,	544	545	O
-φ⊥V(u	546	551	B-Process
-)	551	552	O
-is	553	555	O
-the	556	559	O
-leading	560	567	B-Process
--	567	568	I-Process
-twist	568	573	I-Process
-light	574	579	I-Process
--	579	580	I-Process
-cone	580	584	I-Process
-distribution	585	597	I-Process
-amplitude	598	607	I-Process
-(	608	609	O
-LCDA	609	613	B-Process
-)	613	614	O
-of	615	617	O
-the	618	621	O
-transversely	622	634	O
--	634	635	O
-polarized	635	644	O
-vector	645	651	O
-meson	652	657	O
-V	658	659	O
-,	659	660	O
-and	661	664	O
-u	665	666	B-Process
-is	667	669	O
-the	670	673	O
-fractional	674	684	B-Process
-momentum	685	693	I-Process
-of	694	696	I-Process
-the	697	700	I-Process
-vector	701	707	I-Process
-meson	708	713	I-Process
-carried	714	721	I-Process
-by	722	724	I-Process
-one	725	728	I-Process
-of	729	731	I-Process
-the	732	735	I-Process
-two	736	739	I-Process
-partons	740	747	I-Process
-.	747	748	O
-
-The	749	752	O
-quantities	753	763	O
-TiI	764	767	O
-and	768	771	O
-TiII	772	776	O
-are	777	780	O
-the	781	784	O
-hard	785	789	O
--	789	790	O
-perturbative	790	802	O
-kernels	803	810	O
-calculated	811	821	O
-to	822	824	O
-order	825	830	O
-αs	831	833	O
-,	833	834	O
-with	835	839	O
-the	840	843	O
-latter	844	850	O
-containing	851	861	O
-the	862	865	O
-so	866	868	O
--	868	869	O
-called	869	875	O
-hard	876	880	O
--	880	881	O
-spectator	881	890	O
-contributions	891	904	O
-.	904	905	O
-
-The	906	909	B-Process
-factorization	910	923	I-Process
-formula	924	931	I-Process
-(	932	933	O
-11	933	935	O
-)	935	936	O
-holds	937	942	O
-in	943	945	O
-the	946	949	O
-heavy	950	955	B-Material
-quark	956	961	I-Material
-limit	962	967	O
-,	967	968	O
-i.e.	969	973	O
-,	973	974	O
-to	975	977	O
-order	978	983	O
-ΛQCD	984	988	O
-/	988	989	O
-MB	989	991	O
-.	991	992	O
-
-This	993	997	B-Process
-factorization	998	1011	I-Process
-framework	1012	1021	I-Process
-has	1022	1025	O
-been	1026	1030	O
-used	1031	1035	O
-to	1036	1038	O
-calculate	1039	1048	O
-the	1049	1052	O
-branching	1053	1062	O
-fractions	1063	1072	O
-and	1073	1076	O
-related	1077	1084	O
-quantities	1085	1095	O
-for	1096	1099	O
-the	1100	1103	O
-decays	1104	1110	O
-
-B→K∗γ	1111	1116	O
-[	1117	1118	O
-15–17	1118	1123	O
-]	1123	1124	O
-and	1125	1128	O
-B→ργ	1129	1133	O
-[	1134	1135	O
-15,17	1135	1140	O
-]	1140	1141	O
-.	1141	1142	O
-
-The	1143	1146	O
-isospin	1147	1154	B-Task
-violation	1155	1164	I-Task
-in	1165	1167	I-Task
-the	1168	1171	I-Task
-B→K∗γ	1172	1177	I-Task
-decays	1178	1184	I-Task
-in	1185	1187	O
-this	1188	1192	O
-framework	1193	1202	O
-have	1203	1207	O
-also	1208	1212	O
-been	1213	1217	O
-studied	1218	1225	O
-[	1226	1227	O
-18	1227	1229	O
-]	1229	1230	O
-.	1230	1231	O
-
-(	1232	1233	O
-For	1233	1236	O
-applications	1237	1249	O
-to	1250	1252	O
-B→K∗γ∗	1253	1259	O
-,	1259	1260	O
-see	1261	1264	O
-Refs	1265	1269	O
-.	1269	1270	O
-
-[	1271	1272	O
-16,19,20	1272	1280	O
-]	1280	1281	O
-.	1281	1282	O
-)	1282	1283	O
-
-Very	1284	1288	O
-recently	1289	1297	O
-,	1297	1298	O
-the	1299	1302	O
-hard	1303	1307	B-Task
--	1307	1308	I-Task
-spectator	1308	1317	I-Task
-contribution	1318	1330	I-Task
-arising	1331	1338	I-Task
-from	1339	1343	I-Task
-the	1344	1347	I-Task
-chromomagnetic	1348	1362	I-Task
-operator	1363	1371	I-Task
-O8	1372	1374	I-Task
-have	1375	1379	O
-also	1380	1384	O
-been	1385	1389	O
-calculated	1390	1400	O
-in	1401	1403	O
-next	1404	1408	B-Process
--	1408	1409	I-Process
-to	1409	1411	I-Process
--	1411	1412	I-Process
-next	1412	1416	I-Process
--	1416	1417	I-Process
-to	1417	1419	I-Process
--	1419	1420	I-Process
-leading	1420	1427	I-Process
-order	1428	1433	I-Process
-(	1434	1435	O
-NNLO	1435	1439	B-Process
-)	1439	1440	O
-in	1441	1443	O
-αs	1444	1446	O
-showing	1447	1454	O
-that	1455	1459	O
-the	1460	1463	O
-spectator	1464	1473	B-Task
-interactions	1474	1486	I-Task
-factorize	1487	1496	O
-in	1497	1499	O
-the	1500	1503	O
-heavy	1504	1509	O
-quark	1510	1515	O
-limit	1516	1521	O
-[	1522	1523	O
-21	1523	1525	O
-]	1525	1526	O
-.	1526	1527	O
-
-However	1528	1535	O
-,	1535	1536	O
-the	1537	1540	O
-numerical	1541	1550	O
-effect	1551	1557	O
-of	1558	1560	O
-the	1561	1564	O
-resummed	1565	1573	O
-NNLO	1574	1578	O
-contributions	1579	1592	O
-is	1593	1595	O
-marginal	1596	1604	O
-and	1605	1608	O
-we	1609	1611	O
-shall	1612	1617	O
-not	1618	1621	O
-include	1622	1629	O
-this	1630	1634	O
-in	1635	1637	O
-our	1638	1641	O
-update	1642	1648	O
-.	1648	1649	O
+Including	0,9	O	O
+the	10,13	O	O
+O(αs	14,18	O	O
+)	18,19	O	O
+corrections	20,31	O	O
+,	31,32	O	O
+all	33,36	O	O
+the	37,40	O	O
+operators	41,50	O	B-Task
+listed	51,57	O	I-Task
+in	58,60	O	I-Task
+(	61,62	O	I-Task
+9	62,63	O	I-Task
+)	63,64	O	I-Task
+and	65,68	O	I-Task
+(	69,70	O	I-Task
+10	70,72	O	I-Task
+)	72,73	O	I-Task
+have	74,78	O	I-Task
+to	79,81	O	I-Task
+be	82,84	O	I-Task
+included	85,93	O	I-Task
+.	93,94	O	O
+
+A	95,96	O	O
+convenient	97,107	O	O
+framework	108,117	O	O
+to	118,120	O	O
+carry	121,126	O	O
+out	127,130	O	O
+these	131,136	O	O
+calculations	137,149	O	O
+is	150,152	O	O
+the	153,156	O	O
+QCD	157,160	O	B-Process
+factorization	161,174	O	I-Process
+framework	175,184	O	I-Process
+[	185,186	O	O
+14	186,188	O	O
+]	188,189	O	O
+which	190,195	O	O
+allows	196,202	O	O
+to	203,205	O	O
+express	206,213	O	B-Process
+the	214,217	O	I-Process
+hadronic	218,226	O	I-Process
+matrix	227,233	O	I-Process
+elements	234,242	O	I-Process
+in	243,245	O	I-Process
+the	246,249	O	I-Process
+schematic	250,259	O	I-Process
+form	260,264	O	I-Process
+:	264,265	O	I-Process
+(	266,267	O	O
+11)〈Vγ|Oi|B〉=FB→VTiI+∫dk+2π∫01duφB,+(k+)TiII(k+,u)φV⊥(u	267,322	O	B-Process
+)	322,323	O	I-Process
+,	323,324	O	O
+where	325,330	O	O
+FB→V	331,335	O	B-Process
+are	336,339	O	O
+the	340,343	O	O
+transition	344,354	O	B-Process
+form	355,359	O	I-Process
+factors	360,367	O	I-Process
+defined	368,375	O	I-Process
+through	376,383	O	I-Process
+the	384,387	O	I-Process
+matrix	388,394	O	I-Process
+elements	395,403	O	I-Process
+of	404,406	O	I-Process
+the	407,410	O	I-Process
+operator	411,419	O	I-Process
+O7	420,422	O	I-Process
+,	422,423	O	I-Process
+φB,+(k+	424,431	O	I-Process
+)	431,432	O	I-Process
+is	433,435	O	O
+the	436,439	O	O
+leading	440,447	O	B-Process
+-	447,448	O	I-Process
+twist	448,453	O	I-Process
+B	454,455	O	I-Process
+-	455,456	O	I-Process
+meson	456,461	O	I-Process
+wave	462,466	O	I-Process
+-	466,467	O	I-Process
+function	467,475	O	I-Process
+with	476,480	O	I-Process
+k+	481,483	O	I-Process
+being	484,489	O	I-Process
+a	490,491	O	I-Process
+light	492,497	O	I-Process
+-	497,498	O	I-Process
+cone	498,502	O	I-Process
+component	503,512	O	I-Process
+of	513,515	O	I-Process
+the	516,519	O	I-Process
+spectator	520,529	O	I-Process
+quark	530,535	O	I-Process
+momentum	536,544	O	I-Process
+,	544,545	O	O
+φ⊥V(u	546,551	O	B-Process
+)	551,552	O	O
+is	553,555	O	O
+the	556,559	O	O
+leading	560,567	O	B-Process
+-	567,568	O	I-Process
+twist	568,573	O	I-Process
+light	574,579	O	I-Process
+-	579,580	O	I-Process
+cone	580,584	O	I-Process
+distribution	585,597	O	I-Process
+amplitude	598,607	O	I-Process
+(	608,609	O	O
+LCDA	609,613	O	B-Process
+)	613,614	O	O
+of	615,617	O	O
+the	618,621	O	O
+transversely	622,634	O	O
+-	634,635	O	O
+polarized	635,644	O	O
+vector	645,651	O	O
+meson	652,657	O	O
+V	658,659	O	O
+,	659,660	O	O
+and	661,664	O	O
+u	665,666	O	B-Process
+is	667,669	O	O
+the	670,673	O	O
+fractional	674,684	O	B-Process
+momentum	685,693	O	I-Process
+of	694,696	O	I-Process
+the	697,700	O	I-Process
+vector	701,707	O	I-Process
+meson	708,713	O	I-Process
+carried	714,721	O	I-Process
+by	722,724	O	I-Process
+one	725,728	O	I-Process
+of	729,731	O	I-Process
+the	732,735	O	I-Process
+two	736,739	O	I-Process
+partons	740,747	O	I-Process
+.	747,748	O	O
+
+The	749,752	O	O
+quantities	753,763	O	O
+TiI	764,767	O	O
+and	768,771	O	O
+TiII	772,776	O	O
+are	777,780	O	O
+the	781,784	O	O
+hard	785,789	O	O
+-	789,790	O	O
+perturbative	790,802	O	O
+kernels	803,810	O	O
+calculated	811,821	O	O
+to	822,824	O	O
+order	825,830	O	O
+αs	831,833	O	O
+,	833,834	O	O
+with	835,839	O	O
+the	840,843	O	O
+latter	844,850	O	O
+containing	851,861	O	O
+the	862,865	O	O
+so	866,868	O	O
+-	868,869	O	O
+called	869,875	O	O
+hard	876,880	O	O
+-	880,881	O	O
+spectator	881,890	O	O
+contributions	891,904	O	O
+.	904,905	O	O
+
+The	906,909	O	B-Process
+factorization	910,923	O	I-Process
+formula	924,931	O	I-Process
+(	932,933	O	O
+11	933,935	O	O
+)	935,936	O	O
+holds	937,942	O	O
+in	943,945	O	O
+the	946,949	O	O
+heavy	950,955	O	B-Material
+quark	956,961	O	I-Material
+limit	962,967	O	O
+,	967,968	O	O
+i.e.	969,973	O	O
+,	973,974	O	O
+to	975,977	O	O
+order	978,983	O	O
+ΛQCD	984,988	O	O
+/	988,989	O	O
+MB	989,991	O	O
+.	991,992	O	O
+
+This	993,997	O	B-Process
+factorization	998,1011	O	I-Process
+framework	1012,1021	O	I-Process
+has	1022,1025	O	O
+been	1026,1030	O	O
+used	1031,1035	O	O
+to	1036,1038	O	O
+calculate	1039,1048	O	O
+the	1049,1052	O	O
+branching	1053,1062	O	O
+fractions	1063,1072	O	O
+and	1073,1076	O	O
+related	1077,1084	O	O
+quantities	1085,1095	O	O
+for	1096,1099	O	O
+the	1100,1103	O	O
+decays	1104,1110	O	O
+
+B→K∗γ	1111,1116	O	O
+[	1117,1118	O	O
+15–17	1118,1123	O	O
+]	1123,1124	O	O
+and	1125,1128	O	O
+B→ργ	1129,1133	O	O
+[	1134,1135	O	O
+15,17	1135,1140	O	O
+]	1140,1141	O	O
+.	1141,1142	O	O
+
+The	1143,1146	O	O
+isospin	1147,1154	O	B-Task
+violation	1155,1164	O	I-Task
+in	1165,1167	O	I-Task
+the	1168,1171	O	I-Task
+B→K∗γ	1172,1177	O	I-Task
+decays	1178,1184	O	I-Task
+in	1185,1187	O	O
+this	1188,1192	O	O
+framework	1193,1202	O	O
+have	1203,1207	O	O
+also	1208,1212	O	O
+been	1213,1217	O	O
+studied	1218,1225	O	O
+[	1226,1227	O	O
+18	1227,1229	O	O
+]	1229,1230	O	O
+.	1230,1231	O	O
+
+(	1232,1233	O	O
+For	1233,1236	O	O
+applications	1237,1249	O	O
+to	1250,1252	O	O
+B→K∗γ∗	1253,1259	O	O
+,	1259,1260	O	O
+see	1261,1264	O	O
+Refs	1265,1269	O	O
+.	1269,1270	O	O
+
+[	1271,1272	O	O
+16,19,20	1272,1280	O	O
+]	1280,1281	O	O
+.	1281,1282	O	O
+)	1282,1283	O	O
+
+Very	1284,1288	O	O
+recently	1289,1297	O	O
+,	1297,1298	O	O
+the	1299,1302	O	O
+hard	1303,1307	O	B-Task
+-	1307,1308	O	I-Task
+spectator	1308,1317	O	I-Task
+contribution	1318,1330	O	I-Task
+arising	1331,1338	O	I-Task
+from	1339,1343	O	I-Task
+the	1344,1347	O	I-Task
+chromomagnetic	1348,1362	O	I-Task
+operator	1363,1371	O	I-Task
+O8	1372,1374	O	I-Task
+have	1375,1379	O	O
+also	1380,1384	O	O
+been	1385,1389	O	O
+calculated	1390,1400	O	O
+in	1401,1403	O	O
+next	1404,1408	O	B-Process
+-	1408,1409	O	I-Process
+to	1409,1411	O	I-Process
+-	1411,1412	O	I-Process
+next	1412,1416	O	I-Process
+-	1416,1417	O	I-Process
+to	1417,1419	O	I-Process
+-	1419,1420	O	I-Process
+leading	1420,1427	O	I-Process
+order	1428,1433	O	I-Process
+(	1434,1435	O	O
+NNLO	1435,1439	O	B-Process
+)	1439,1440	O	O
+in	1441,1443	O	O
+αs	1444,1446	O	O
+showing	1447,1454	O	O
+that	1455,1459	O	O
+the	1460,1463	O	O
+spectator	1464,1473	O	B-Task
+interactions	1474,1486	O	I-Task
+factorize	1487,1496	O	O
+in	1497,1499	O	O
+the	1500,1503	O	O
+heavy	1504,1509	O	O
+quark	1510,1515	O	O
+limit	1516,1521	O	O
+[	1522,1523	O	O
+21	1523,1525	O	O
+]	1525,1526	O	O
+.	1526,1527	O	O
+
+However	1528,1535	O	O
+,	1535,1536	O	O
+the	1537,1540	O	O
+numerical	1541,1550	O	O
+effect	1551,1557	O	O
+of	1558,1560	O	O
+the	1561,1564	O	O
+resummed	1565,1573	O	O
+NNLO	1574,1578	O	O
+contributions	1579,1592	O	O
+is	1593,1595	O	O
+marginal	1596,1604	O	O
+and	1605,1608	O	O
+we	1609,1611	O	O
+shall	1612,1617	O	O
+not	1618,1621	O	O
+include	1622,1629	O	O
+this	1630,1634	O	O
+in	1635,1637	O	O
+our	1638,1641	O	O
+update	1642,1648	O	O
+.	1648,1649	O	O
 
 
 -DOCSTART- (S0370269304009013)
 
-Several	0	7	O
-methods	8	15	O
-based	16	21	O
-on	22	24	O
-dynamical	25	34	O
-assumptions	35	46	O
-were	47	51	O
-suggested	52	61	O
-for	62	65	O
-determination	66	79	B-Task
-of	80	82	I-Task
-the	83	86	I-Task
-P	87	88	I-Task
--	88	89	I-Task
-parity	89	95	I-Task
-of	96	98	O
-the	99	102	O
-Θ+	103	105	O
-[	106	107	O
-13	107	109	O
-]	109	110	O
-.	110	111	O
-
-According	112	121	O
-to	122	124	O
-a	125	126	O
-general	127	134	B-Process
-theorem	135	142	I-Process
-[	143	144	O
-14	144	146	O
-]	146	147	O
-,	147	148	O
-in	149	151	O
-order	152	157	O
-to	158	160	O
-determine	161	170	B-Task
-the	171	174	I-Task
-parity	175	181	I-Task
-of	182	184	O
-one	185	188	O
-particle	189	197	B-Material
-in	198	200	O
-a	201	202	O
-binary	203	209	B-Process
-reaction	210	218	I-Process
-one	219	222	O
-has	223	226	O
-to	227	229	O
-know	230	234	O
-polarizations	235	248	O
-at	249	251	O
-least	252	257	O
-of	258	260	O
-two	261	264	O
-fermions	265	273	B-Material
-participating	274	287	O
-in	288	290	O
-this	291	295	B-Process
-reaction	296	304	I-Process
-.	304	305	O
-
-Model	306	311	B-Process
-independent	312	323	I-Process
-methods	324	331	I-Process
-for	332	335	O
-determination	336	349	B-Task
-of	350	352	I-Task
-the	353	356	I-Task
-P	357	358	I-Task
--	358	359	I-Task
-parity	359	365	I-Task
-of	366	368	O
-the	369	372	O
-Θ+	373	375	O
-were	376	380	O
-suggested	381	390	O
-recently	391	399	O
-in	400	402	O
-Refs	403	407	O
-.	407	408	O
-
-[	409	410	O
-15,16	410	415	O
-]	415	416	O
-for	417	420	O
-pp	421	423	B-Process
--	423	424	I-Process
-collision	424	433	I-Process
-,	433	434	O
-and	435	438	O
-in	439	441	O
-Ref	442	445	O
-.	445	446	O
-
-[	447	448	O
-17	448	450	O
-]	450	451	O
-for	452	455	O
-photoproduction	456	471	B-Process
-of	472	474	O
-the	475	478	O
-Θ+	479	481	O
-.	481	482	O
-
-The	483	486	O
-method	487	493	O
-of	494	496	O
-Refs	497	501	O
-.	501	502	O
-
-[	503	504	O
-15,16	504	509	O
-]	509	510	O
-,	510	511	O
-based	512	517	O
-on	518	520	O
-the	521	524	O
-assumption	525	535	O
-that	536	540	O
-the	541	544	O
-spin	545	549	O
-of	550	552	O
-the	553	556	O
-Θ+	557	559	O
-equals	560	566	O
-12	567	569	O
-,	569	570	O
-suggests	571	579	O
-to	580	582	O
-measure	583	590	B-Process
-the	591	594	I-Process
-spin	595	599	I-Process
-–	599	600	I-Process
-spin	600	604	I-Process
-correlation	605	616	I-Process
-parameter	617	626	I-Process
-in	627	629	O
-the	630	633	O
-reaction	634	642	O
-p→p→→Σ+Θ+	643	652	O
-near	653	657	O
-the	658	661	O
-threshold	662	671	O
-.	671	672	O
-
-We	673	675	O
-generalize	676	686	O
-here	687	691	O
-this	692	696	O
-method	697	703	O
-for	704	707	O
-an	708	710	O
-arbitrary	711	720	O
-spin	721	725	O
-of	726	728	O
-the	729	732	O
-Θ+	733	735	O
-and	736	739	O
-both	740	744	O
-isospins	745	753	O
-T=0	754	757	O
-and	758	761	O
-T=1	762	765	O
-of	766	768	O
-the	769	772	O
-NN	773	775	O
-channel	776	783	O
-of	784	786	O
-the	787	790	O
-NN→YΘ+	791	797	O
-reaction	798	806	O
-.	806	807	O
-
-Furthermore	808	819	O
-,	819	820	O
-we	821	823	O
-consider	824	832	O
-a	833	834	O
-polarization	835	847	B-Process
-transfer	848	856	I-Process
-from	857	861	O
-a	862	863	O
-nucleon	864	871	B-Material
-to	872	874	O
-the	875	878	B-Material
-hyperon	879	886	I-Material
-Y	887	888	I-Material
-in	889	891	O
-this	892	896	O
-reaction	897	905	O
-.	905	906	O
-
-Our	907	910	O
-consideration	911	924	O
-is	925	927	O
-model	928	933	O
-independent	934	945	O
-,	945	946	O
-since	947	952	O
-it	953	955	O
-is	956	958	O
-based	959	964	O
-only	965	969	O
-on	970	972	O
-conservation	973	985	B-Process
-of	986	988	I-Process
-the	989	992	I-Process
-P	993	994	I-Process
--	994	995	I-Process
-parity	995	1001	I-Process
-,	1001	1002	O
-total	1003	1008	B-Process
-angular	1009	1016	I-Process
-momentum	1017	1025	I-Process
-and	1026	1029	O
-isospin	1030	1037	B-Process
-in	1038	1040	O
-the	1041	1044	O
-reaction	1045	1053	B-Process
-and	1054	1057	O
-the	1058	1061	O
-generalized	1062	1073	O
-Pauli	1074	1079	O
-principle	1080	1089	O
-for	1090	1093	O
-nucleons	1094	1102	B-Material
-.	1102	1103	O
+Several	0,7	O	O
+methods	8,15	O	O
+based	16,21	O	O
+on	22,24	O	O
+dynamical	25,34	O	O
+assumptions	35,46	O	O
+were	47,51	O	O
+suggested	52,61	O	O
+for	62,65	O	O
+determination	66,79	O	B-Task
+of	80,82	O	I-Task
+the	83,86	O	I-Task
+P	87,88	O	I-Task
+-	88,89	O	I-Task
+parity	89,95	O	I-Task
+of	96,98	O	O
+the	99,102	O	O
+Θ+	103,105	O	O
+[	106,107	O	O
+13	107,109	O	O
+]	109,110	O	O
+.	110,111	O	O
+
+According	112,121	O	O
+to	122,124	O	O
+a	125,126	O	O
+general	127,134	O	B-Process
+theorem	135,142	O	I-Process
+[	143,144	O	O
+14	144,146	O	O
+]	146,147	O	O
+,	147,148	O	O
+in	149,151	O	O
+order	152,157	O	O
+to	158,160	O	O
+determine	161,170	O	B-Task
+the	171,174	O	I-Task
+parity	175,181	O	I-Task
+of	182,184	O	O
+one	185,188	O	O
+particle	189,197	O	B-Material
+in	198,200	O	O
+a	201,202	O	O
+binary	203,209	O	B-Process
+reaction	210,218	O	I-Process
+one	219,222	O	O
+has	223,226	O	O
+to	227,229	O	O
+know	230,234	O	O
+polarizations	235,248	O	O
+at	249,251	O	O
+least	252,257	O	O
+of	258,260	O	O
+two	261,264	O	O
+fermions	265,273	O	B-Material
+participating	274,287	O	O
+in	288,290	O	O
+this	291,295	O	B-Process
+reaction	296,304	O	I-Process
+.	304,305	O	O
+
+Model	306,311	O	B-Process
+independent	312,323	O	I-Process
+methods	324,331	O	I-Process
+for	332,335	O	O
+determination	336,349	O	B-Task
+of	350,352	O	I-Task
+the	353,356	O	I-Task
+P	357,358	O	I-Task
+-	358,359	O	I-Task
+parity	359,365	O	I-Task
+of	366,368	O	O
+the	369,372	O	O
+Θ+	373,375	O	O
+were	376,380	O	O
+suggested	381,390	O	O
+recently	391,399	O	O
+in	400,402	O	O
+Refs	403,407	O	O
+.	407,408	O	O
+
+[	409,410	O	O
+15,16	410,415	O	O
+]	415,416	O	O
+for	417,420	O	O
+pp	421,423	O	B-Process
+-	423,424	O	I-Process
+collision	424,433	O	I-Process
+,	433,434	O	O
+and	435,438	O	O
+in	439,441	O	O
+Ref	442,445	O	O
+.	445,446	O	O
+
+[	447,448	O	O
+17	448,450	O	O
+]	450,451	O	O
+for	452,455	O	O
+photoproduction	456,471	O	B-Process
+of	472,474	O	O
+the	475,478	O	O
+Θ+	479,481	O	O
+.	481,482	O	O
+
+The	483,486	O	O
+method	487,493	O	O
+of	494,496	O	O
+Refs	497,501	O	O
+.	501,502	O	O
+
+[	503,504	O	O
+15,16	504,509	O	O
+]	509,510	O	O
+,	510,511	O	O
+based	512,517	O	O
+on	518,520	O	O
+the	521,524	O	O
+assumption	525,535	O	O
+that	536,540	O	O
+the	541,544	O	O
+spin	545,549	O	O
+of	550,552	O	O
+the	553,556	O	O
+Θ+	557,559	O	O
+equals	560,566	O	O
+12	567,569	O	O
+,	569,570	O	O
+suggests	571,579	O	O
+to	580,582	O	O
+measure	583,590	O	B-Process
+the	591,594	O	I-Process
+spin	595,599	O	I-Process
+–	599,600	O	I-Process
+spin	600,604	O	I-Process
+correlation	605,616	O	I-Process
+parameter	617,626	O	I-Process
+in	627,629	O	O
+the	630,633	O	O
+reaction	634,642	O	O
+p→p→→Σ+Θ+	643,652	O	O
+near	653,657	O	O
+the	658,661	O	O
+threshold	662,671	O	O
+.	671,672	O	O
+
+We	673,675	O	O
+generalize	676,686	O	O
+here	687,691	O	O
+this	692,696	O	O
+method	697,703	O	O
+for	704,707	O	O
+an	708,710	O	O
+arbitrary	711,720	O	O
+spin	721,725	O	O
+of	726,728	O	O
+the	729,732	O	O
+Θ+	733,735	O	O
+and	736,739	O	O
+both	740,744	O	O
+isospins	745,753	O	O
+T=0	754,757	O	O
+and	758,761	O	O
+T=1	762,765	O	O
+of	766,768	O	O
+the	769,772	O	O
+NN	773,775	O	O
+channel	776,783	O	O
+of	784,786	O	O
+the	787,790	O	O
+NN→YΘ+	791,797	O	O
+reaction	798,806	O	O
+.	806,807	O	O
+
+Furthermore	808,819	O	O
+,	819,820	O	O
+we	821,823	O	O
+consider	824,832	O	O
+a	833,834	O	O
+polarization	835,847	O	B-Process
+transfer	848,856	O	I-Process
+from	857,861	O	O
+a	862,863	O	O
+nucleon	864,871	O	B-Material
+to	872,874	O	O
+the	875,878	O	B-Material
+hyperon	879,886	O	I-Material
+Y	887,888	O	I-Material
+in	889,891	O	O
+this	892,896	O	O
+reaction	897,905	O	O
+.	905,906	O	O
+
+Our	907,910	O	O
+consideration	911,924	O	O
+is	925,927	O	O
+model	928,933	O	O
+independent	934,945	O	O
+,	945,946	O	O
+since	947,952	O	O
+it	953,955	O	O
+is	956,958	O	O
+based	959,964	O	O
+only	965,969	O	O
+on	970,972	O	O
+conservation	973,985	O	B-Process
+of	986,988	O	I-Process
+the	989,992	O	I-Process
+P	993,994	O	I-Process
+-	994,995	O	I-Process
+parity	995,1001	O	I-Process
+,	1001,1002	O	O
+total	1003,1008	O	B-Process
+angular	1009,1016	O	I-Process
+momentum	1017,1025	O	I-Process
+and	1026,1029	O	O
+isospin	1030,1037	O	B-Process
+in	1038,1040	O	O
+the	1041,1044	O	O
+reaction	1045,1053	O	B-Process
+and	1054,1057	O	O
+the	1058,1061	O	O
+generalized	1062,1073	O	O
+Pauli	1074,1079	O	O
+principle	1080,1089	O	O
+for	1090,1093	O	O
+nucleons	1094,1102	O	B-Material
+.	1102,1103	O	O
 
 
 -DOCSTART- (S0370269304009025)
 
-A	0	1	O
-central	2	9	O
-question	10	18	O
-from	19	23	O
-the	24	27	O
-point	28	33	O
-of	34	36	O
-view	37	41	O
-of	42	44	O
-nuclear	45	52	O
-physics	53	60	O
-involves	61	69	O
-the	70	73	O
-changes	74	81	B-Task
-to	82	84	I-Task
-the	85	88	I-Task
-quark	89	94	I-Task
-and	95	98	I-Task
-antiquark	99	108	I-Task
-distributions	109	122	I-Task
-of	123	125	I-Task
-a	126	127	I-Task
-bound	128	133	I-Task
-proton	134	140	I-Task
-.	140	141	O
-
-Since	142	147	O
-one	148	151	O
-must	152	156	O
-develop	157	164	B-Task
-a	165	166	I-Task
-reliable	167	175	I-Task
-model	176	181	I-Task
-of	182	184	I-Task
-both	185	189	I-Task
-the	190	193	I-Task
-free	194	198	I-Task
-proton	199	205	I-Task
-and	206	209	I-Task
-the	210	213	I-Task
-binding	214	221	I-Task
-of	222	224	I-Task
-nucleons	225	233	I-Task
-starting	234	242	I-Task
-from	243	247	I-Task
-the	248	251	I-Task
-quark	252	257	I-Task
-level	258	263	I-Task
-[	264	265	O
-8	265	266	O
-]	266	267	O
-,	267	268	O
-this	269	273	O
-problem	274	281	O
-is	282	284	O
-rather	285	291	O
-complicated	292	303	O
-.	303	304	O
-
-We	305	307	O
-intend	308	314	O
-to	315	317	O
-report	318	324	O
-on	325	327	O
-our	328	331	O
-investigation	332	345	O
-of	346	348	O
-that	349	353	O
-problem	354	361	O
-in	362	364	O
-future	365	371	O
-work	372	376	O
-.	376	377	O
-
-For	378	381	O
-the	382	385	O
-present	386	393	O
-,	393	394	O
-we	395	397	O
-have	398	402	O
-chosen	403	409	O
-to	410	412	O
-illustrate	413	423	B-Process
-the	424	427	I-Process
-formal	428	434	I-Process
-ideas	435	440	I-Process
-developed	441	450	I-Process
-here	451	455	I-Process
-by	456	458	I-Process
-applying	459	467	I-Process
-them	468	472	I-Process
-to	473	475	I-Process
-a	476	477	I-Process
-toy	478	481	I-Process
-model	482	487	I-Process
-,	487	488	O
-namely	489	495	O
-the	496	499	O
-quark	500	505	B-Material
-distributions	506	519	I-Material
-of	520	522	I-Material
-isospin	523	530	I-Material
-symmetric	531	540	I-Material
-quark	541	546	I-Material
-matter	547	553	I-Material
-in	554	556	O
-which	557	562	O
-each	563	567	B-Process
-quark	568	573	I-Process
-feels	574	579	I-Process
-a	580	581	I-Process
-scalar	582	588	I-Process
-potential	589	598	I-Process
-,	598	599	I-Process
-−Vsq	600	604	I-Process
-,	604	605	I-Process
-and	606	609	I-Process
-a	610	611	I-Process
-vector	612	618	I-Process
-potential	619	628	I-Process
-,	628	629	I-Process
-Vvq	630	633	I-Process
-.	633	634	O
-
-This	635	639	O
-is	640	642	O
-the	643	646	O
-premise	647	654	O
-of	655	657	O
-the	658	661	O
-Quark	662	667	B-Process
-–	667	668	I-Process
-Meson	668	673	I-Process
-Coupling	674	682	I-Process
-(	683	684	O
-QMC	684	687	B-Process
-)	687	688	O
-model	689	694	O
-[	695	696	O
-9	696	697	O
-]	697	698	O
-which	699	704	O
-has	705	708	O
-been	709	713	O
-used	714	718	O
-successfully	719	731	O
-to	732	734	O
-calculate	735	744	B-Task
-the	745	748	I-Task
-properties	749	759	I-Task
-of	760	762	I-Task
-nuclear	763	770	I-Task
-matter	771	777	I-Task
-as	778	780	I-Task
-well	781	785	I-Task
-as	786	788	I-Task
-finite	789	795	I-Task
-nuclei	796	802	I-Task
-[	803	804	O
-10,11	804	809	O
-]	809	810	O
-.	810	811	O
-
-Most	812	816	O
-recently	817	825	O
-it	826	828	O
-has	829	832	O
-also	833	837	O
-been	838	842	O
-used	843	847	O
-to	848	850	O
-derive	851	857	O
-an	858	860	O
-effective	861	870	B-Task
-nuclear	871	878	I-Task
-force	879	884	I-Task
-which	885	890	O
-is	891	893	O
-very	894	898	O
-close	899	904	O
-to	905	907	O
-the	908	911	O
-widely	912	918	O
-used	919	923	O
-Skyrme	924	930	O
-III	931	934	O
-force	935	940	O
-[	941	942	O
-12	942	944	O
-]	944	945	O
-.	945	946	O
-
-(	947	948	O
-Except	948	954	O
-that	955	959	O
-in	960	962	O
-QMC	963	966	O
-the	967	970	O
-quarks	971	977	O
-are	978	981	O
-confined	982	990	O
-by	991	993	O
-the	994	997	O
-MIT	998	1001	O
-bag	1002	1005	O
-,	1005	1006	O
-as	1007	1009	O
-well	1010	1014	O
-as	1015	1017	O
-feeling	1018	1025	O
-the	1026	1029	O
-mean	1030	1034	O
--	1034	1035	O
-field	1035	1040	O
-scalar	1041	1047	O
-and	1048	1051	O
-vector	1052	1058	O
-potentials	1059	1069	O
-generated	1070	1079	O
-by	1080	1082	O
-the	1083	1086	O
-surrounding	1087	1098	O
-nucleons	1099	1107	O
-.	1107	1108	O
-)	1108	1109	O
-
-In	1110	1112	O
-the	1113	1116	O
-mean	1117	1121	B-Process
-field	1122	1127	I-Process
-approximation	1128	1141	I-Process
-,	1141	1142	O
-the	1143	1146	O
-Dirac	1147	1152	B-Task
-equation	1153	1161	I-Task
-for	1162	1165	I-Task
-the	1166	1169	I-Task
-quark	1170	1175	I-Task
-in	1176	1178	I-Task
-infinite	1179	1187	I-Task
-quark	1188	1193	I-Task
-matter	1194	1200	I-Task
-is	1201	1203	O
-written	1204	1211	O
-as	1212	1214	O
-:	1214	1215	O
-(	1216	1217	B-Task
-30)iγ·∂−m−Vqs−γ0VqvψQMq(x)=0	1217	1245	I-Task
-.	1245	1246	O
+A	0,1	O	O
+central	2,9	O	O
+question	10,18	O	O
+from	19,23	O	O
+the	24,27	O	O
+point	28,33	O	O
+of	34,36	O	O
+view	37,41	O	O
+of	42,44	O	O
+nuclear	45,52	O	O
+physics	53,60	O	O
+involves	61,69	O	O
+the	70,73	O	O
+changes	74,81	O	B-Task
+to	82,84	O	I-Task
+the	85,88	O	I-Task
+quark	89,94	O	I-Task
+and	95,98	O	I-Task
+antiquark	99,108	O	I-Task
+distributions	109,122	O	I-Task
+of	123,125	O	I-Task
+a	126,127	O	I-Task
+bound	128,133	O	I-Task
+proton	134,140	O	I-Task
+.	140,141	O	O
+
+Since	142,147	O	O
+one	148,151	O	O
+must	152,156	O	O
+develop	157,164	O	B-Task
+a	165,166	O	I-Task
+reliable	167,175	O	I-Task
+model	176,181	O	I-Task
+of	182,184	O	I-Task
+both	185,189	O	I-Task
+the	190,193	O	I-Task
+free	194,198	O	I-Task
+proton	199,205	O	I-Task
+and	206,209	O	I-Task
+the	210,213	O	I-Task
+binding	214,221	O	I-Task
+of	222,224	O	I-Task
+nucleons	225,233	O	I-Task
+starting	234,242	O	I-Task
+from	243,247	O	I-Task
+the	248,251	O	I-Task
+quark	252,257	O	I-Task
+level	258,263	O	I-Task
+[	264,265	O	O
+8	265,266	O	O
+]	266,267	O	O
+,	267,268	O	O
+this	269,273	O	O
+problem	274,281	O	O
+is	282,284	O	O
+rather	285,291	O	O
+complicated	292,303	O	O
+.	303,304	O	O
+
+We	305,307	O	O
+intend	308,314	O	O
+to	315,317	O	O
+report	318,324	O	O
+on	325,327	O	O
+our	328,331	O	O
+investigation	332,345	O	O
+of	346,348	O	O
+that	349,353	O	O
+problem	354,361	O	O
+in	362,364	O	O
+future	365,371	O	O
+work	372,376	O	O
+.	376,377	O	O
+
+For	378,381	O	O
+the	382,385	O	O
+present	386,393	O	O
+,	393,394	O	O
+we	395,397	O	O
+have	398,402	O	O
+chosen	403,409	O	O
+to	410,412	O	O
+illustrate	413,423	O	B-Process
+the	424,427	O	I-Process
+formal	428,434	O	I-Process
+ideas	435,440	O	I-Process
+developed	441,450	O	I-Process
+here	451,455	O	I-Process
+by	456,458	O	I-Process
+applying	459,467	O	I-Process
+them	468,472	O	I-Process
+to	473,475	O	I-Process
+a	476,477	O	I-Process
+toy	478,481	O	I-Process
+model	482,487	O	I-Process
+,	487,488	O	O
+namely	489,495	O	O
+the	496,499	O	O
+quark	500,505	O	B-Material
+distributions	506,519	O	I-Material
+of	520,522	O	I-Material
+isospin	523,530	O	I-Material
+symmetric	531,540	O	I-Material
+quark	541,546	O	I-Material
+matter	547,553	O	I-Material
+in	554,556	O	O
+which	557,562	O	O
+each	563,567	O	B-Process
+quark	568,573	O	I-Process
+feels	574,579	O	I-Process
+a	580,581	O	I-Process
+scalar	582,588	O	I-Process
+potential	589,598	O	I-Process
+,	598,599	O	I-Process
+−Vsq	600,604	O	I-Process
+,	604,605	O	I-Process
+and	606,609	O	I-Process
+a	610,611	O	I-Process
+vector	612,618	O	I-Process
+potential	619,628	O	I-Process
+,	628,629	O	I-Process
+Vvq	630,633	O	I-Process
+.	633,634	O	O
+
+This	635,639	O	O
+is	640,642	O	O
+the	643,646	O	O
+premise	647,654	O	O
+of	655,657	O	O
+the	658,661	O	O
+Quark	662,667	O	B-Process
+–	667,668	O	I-Process
+Meson	668,673	O	I-Process
+Coupling	674,682	O	I-Process
+(	683,684	O	O
+QMC	684,687	O	B-Process
+)	687,688	O	O
+model	689,694	O	O
+[	695,696	O	O
+9	696,697	O	O
+]	697,698	O	O
+which	699,704	O	O
+has	705,708	O	O
+been	709,713	O	O
+used	714,718	O	O
+successfully	719,731	O	O
+to	732,734	O	O
+calculate	735,744	O	B-Task
+the	745,748	O	I-Task
+properties	749,759	O	I-Task
+of	760,762	O	I-Task
+nuclear	763,770	O	I-Task
+matter	771,777	O	I-Task
+as	778,780	O	I-Task
+well	781,785	O	I-Task
+as	786,788	O	I-Task
+finite	789,795	O	I-Task
+nuclei	796,802	O	I-Task
+[	803,804	O	O
+10,11	804,809	O	O
+]	809,810	O	O
+.	810,811	O	O
+
+Most	812,816	O	O
+recently	817,825	O	O
+it	826,828	O	O
+has	829,832	O	O
+also	833,837	O	O
+been	838,842	O	O
+used	843,847	O	O
+to	848,850	O	O
+derive	851,857	O	O
+an	858,860	O	O
+effective	861,870	O	B-Task
+nuclear	871,878	O	I-Task
+force	879,884	O	I-Task
+which	885,890	O	O
+is	891,893	O	O
+very	894,898	O	O
+close	899,904	O	O
+to	905,907	O	O
+the	908,911	O	O
+widely	912,918	O	O
+used	919,923	O	O
+Skyrme	924,930	O	O
+III	931,934	O	O
+force	935,940	O	O
+[	941,942	O	O
+12	942,944	O	O
+]	944,945	O	O
+.	945,946	O	O
+
+(	947,948	O	O
+Except	948,954	O	O
+that	955,959	O	O
+in	960,962	O	O
+QMC	963,966	O	O
+the	967,970	O	O
+quarks	971,977	O	O
+are	978,981	O	O
+confined	982,990	O	O
+by	991,993	O	O
+the	994,997	O	O
+MIT	998,1001	O	O
+bag	1002,1005	O	O
+,	1005,1006	O	O
+as	1007,1009	O	O
+well	1010,1014	O	O
+as	1015,1017	O	O
+feeling	1018,1025	O	O
+the	1026,1029	O	O
+mean	1030,1034	O	O
+-	1034,1035	O	O
+field	1035,1040	O	O
+scalar	1041,1047	O	O
+and	1048,1051	O	O
+vector	1052,1058	O	O
+potentials	1059,1069	O	O
+generated	1070,1079	O	O
+by	1080,1082	O	O
+the	1083,1086	O	O
+surrounding	1087,1098	O	O
+nucleons	1099,1107	O	O
+.	1107,1108	O	O
+)	1108,1109	O	O
+
+In	1110,1112	O	O
+the	1113,1116	O	O
+mean	1117,1121	O	B-Process
+field	1122,1127	O	I-Process
+approximation	1128,1141	O	I-Process
+,	1141,1142	O	O
+the	1143,1146	O	O
+Dirac	1147,1152	O	B-Task
+equation	1153,1161	O	I-Task
+for	1162,1165	O	I-Task
+the	1166,1169	O	I-Task
+quark	1170,1175	O	I-Task
+in	1176,1178	O	I-Task
+infinite	1179,1187	O	I-Task
+quark	1188,1193	O	I-Task
+matter	1194,1200	O	I-Task
+is	1201,1203	O	O
+written	1204,1211	O	O
+as	1212,1214	O	O
+:	1214,1215	O	O
+(	1216,1217	O	B-Task
+30)iγ·∂−m−Vqs−γ0VqvψQMq(x)=0	1217,1245	O	I-Task
+.	1245,1246	O	O
 
 
 -DOCSTART- (S0370269304009037)
 
-Within	0	6	O
-a	7	8	O
-coalescence	9	20	B-Process
-approach	21	29	I-Process
-as	30	32	O
-successfully	33	45	O
-applied	46	53	O
-earlier	54	61	O
-in	62	64	O
-the	65	68	O
-light	69	74	B-Task
--	74	75	I-Task
-quark	75	80	I-Task
-sector	81	87	I-Task
-,	87	88	O
-we	89	91	O
-have	92	96	O
-evaluated	97	106	B-Process
-transverse	107	117	I-Process
--	117	118	I-Process
-momentum	118	126	I-Process
-dependencies	127	139	I-Process
-of	140	142	O
-charmed	143	150	B-Material
-hadrons	151	158	I-Material
-in	159	161	O
-central	162	169	B-Process
-heavy	170	175	I-Process
--	175	176	I-Process
-ion	176	179	I-Process
-reactions	180	189	I-Process
-at	190	192	O
-RHIC	193	197	O
-.	197	198	O
-
-For	199	202	O
-the	203	206	O
-charm	207	212	B-Task
--	212	213	I-Task
-quark	213	218	I-Task
-distributions	219	232	I-Task
-at	233	235	O
-hadronization	236	249	B-Process
-we	250	252	O
-have	253	257	O
-considered	258	268	O
-two	269	272	O
-limiting	273	281	O
-scenarios	282	291	O
-,	291	292	O
-i.e.	293	297	O
-,	297	298	O
-no	299	301	O
-reinteractions	302	316	O
-(	317	318	O
-using	318	323	O
-spectra	324	331	B-Material
-from	332	336	O
-PYTHIA	337	343	O
-)	343	344	O
-and	345	348	O
-complete	349	357	B-Process
-thermalization	358	372	I-Process
-with	373	377	O
-transverse	378	388	B-Process
-flow	389	393	I-Process
-of	394	396	O
-the	397	400	O
-bulk	401	405	O
-matter	406	412	O
-.	412	413	O
-
-The	414	417	O
-resulting	418	427	O
-J/ψ	428	431	O
-(	432	433	O
-mT-)spectra	433	444	O
-differ	445	451	O
-in	452	454	O
-slope	455	460	O
-by	461	463	O
-up	464	466	O
-to	467	469	O
-a	470	471	O
-factor	472	478	O
-of	479	481	O
-2	482	483	O
-(	484	485	O
-harder	485	491	O
-for	492	495	O
-pQCD	496	500	B-Material
-c	501	502	I-Material
--	502	503	I-Material
-quarks	503	509	I-Material
-)	509	510	O
-,	510	511	O
-and	512	515	O
-the	516	519	O
-integrated	520	530	B-Process
-yield	531	536	I-Process
-is	537	539	O
-about	540	545	O
-a	546	547	O
-factor	548	554	O
-of	555	557	O
-3	558	559	O
-larger	560	566	O
-in	567	569	O
-the	570	573	O
-thermal	574	581	O
-case	582	586	O
-.	586	587	O
-
-For	588	591	O
-D	592	593	B-Material
--	593	594	I-Material
-mesons	594	600	I-Material
-,	600	601	O
-we	602	604	O
-found	605	610	O
-that	611	615	O
-the	616	619	O
-difference	620	630	B-Process
-in	631	633	I-Process
-the	634	637	I-Process
-slope	638	643	I-Process
-parameters	644	654	I-Process
-of	655	657	O
-the	658	661	O
-pT	662	664	B-Task
--	664	665	I-Task
-spectra	665	672	I-Task
-in	673	675	O
-the	676	679	O
-two	680	683	O
-scenarios	684	693	O
-is	694	696	O
-less	697	701	O
-pronounced	702	712	O
-,	712	713	O
-but	714	717	O
-their	718	723	O
-elliptic	724	732	B-Process
-flow	733	737	I-Process
-is	738	740	O
-about	741	746	O
-a	747	748	O
-factor	749	755	O
-of	756	758	O
-2	759	760	O
-larger	761	767	O
-for	768	771	O
-pT⩾1.5	772	778	O
-GeV	779	782	O
-in	783	785	O
-the	786	789	O
-thermalized	790	801	O
-case	802	806	O
-.	806	807	O
-
-The	808	811	O
-elliptic	812	820	B-Process
-flow	821	825	I-Process
-pattern	826	833	I-Process
-of	834	836	O
-D	837	838	B-Material
--	838	839	I-Material
-mesons	839	845	I-Material
-was	846	849	O
-found	850	855	O
-to	856	858	O
-be	859	861	O
-essentially	862	873	O
-preserved	874	883	O
-in	884	886	O
-the	887	890	O
-single	891	897	B-Task
--	897	898	I-Task
-electron	898	906	I-Task
-decay	907	912	I-Task
-spectra	913	920	I-Task
-,	920	921	O
-rendering	922	931	O
-the	932	935	O
-latter	936	942	O
-a	943	944	O
-very	945	949	O
-promising	950	959	O
-observable	960	970	O
-to	971	973	O
-address	974	981	O
-the	982	985	O
-strength	986	994	O
-of	995	997	O
-charm	998	1003	B-Process
-reinteractions	1004	1018	I-Process
-in	1019	1021	O
-the	1022	1025	O
-QGP	1026	1029	B-Process
-.	1029	1030	O
-
-The	1031	1034	O
-present	1035	1042	O
-study	1043	1048	O
-can	1049	1052	O
-be	1053	1055	O
-straightforwardly	1056	1073	O
-generalized	1074	1085	O
-to	1086	1088	O
-charmed	1089	1096	O
-baryons	1097	1104	B-Material
-(	1105	1106	O
-Λc	1106	1108	O
-)	1108	1109	O
-,	1109	1110	O
-which	1111	1116	O
-may	1117	1120	O
-serve	1121	1126	O
-as	1127	1129	O
-a	1130	1131	O
-complimentary	1132	1145	B-Material
-probe	1146	1151	I-Material
-for	1152	1155	O
-charm	1156	1161	B-Process
--	1161	1162	I-Process
-quark	1162	1167	I-Process
-reinteractions	1168	1182	I-Process
-in	1183	1185	O
-the	1186	1189	O
-QGP	1190	1193	B-Process
-.	1193	1194	O
+Within	0,6	O	O
+a	7,8	O	O
+coalescence	9,20	O	B-Process
+approach	21,29	O	I-Process
+as	30,32	O	O
+successfully	33,45	O	O
+applied	46,53	O	O
+earlier	54,61	O	O
+in	62,64	O	O
+the	65,68	O	O
+light	69,74	O	B-Task
+-	74,75	O	I-Task
+quark	75,80	O	I-Task
+sector	81,87	O	I-Task
+,	87,88	O	O
+we	89,91	O	O
+have	92,96	O	O
+evaluated	97,106	O	B-Process
+transverse	107,117	O	I-Process
+-	117,118	O	I-Process
+momentum	118,126	O	I-Process
+dependencies	127,139	O	I-Process
+of	140,142	O	O
+charmed	143,150	O	B-Material
+hadrons	151,158	O	I-Material
+in	159,161	O	O
+central	162,169	O	B-Process
+heavy	170,175	O	I-Process
+-	175,176	O	I-Process
+ion	176,179	O	I-Process
+reactions	180,189	O	I-Process
+at	190,192	O	O
+RHIC	193,197	O	O
+.	197,198	O	O
+
+For	199,202	O	O
+the	203,206	O	O
+charm	207,212	O	B-Task
+-	212,213	O	I-Task
+quark	213,218	O	I-Task
+distributions	219,232	O	I-Task
+at	233,235	O	O
+hadronization	236,249	O	B-Process
+we	250,252	O	O
+have	253,257	O	O
+considered	258,268	O	O
+two	269,272	O	O
+limiting	273,281	O	O
+scenarios	282,291	O	O
+,	291,292	O	O
+i.e.	293,297	O	O
+,	297,298	O	O
+no	299,301	O	O
+reinteractions	302,316	O	O
+(	317,318	O	O
+using	318,323	O	O
+spectra	324,331	O	B-Material
+from	332,336	O	O
+PYTHIA	337,343	O	O
+)	343,344	O	O
+and	345,348	O	O
+complete	349,357	O	B-Process
+thermalization	358,372	O	I-Process
+with	373,377	O	O
+transverse	378,388	O	B-Process
+flow	389,393	O	I-Process
+of	394,396	O	O
+the	397,400	O	O
+bulk	401,405	O	O
+matter	406,412	O	O
+.	412,413	O	O
+
+The	414,417	O	O
+resulting	418,427	O	O
+J/ψ	428,431	O	O
+(	432,433	O	O
+mT-)spectra	433,444	O	O
+differ	445,451	O	O
+in	452,454	O	O
+slope	455,460	O	O
+by	461,463	O	O
+up	464,466	O	O
+to	467,469	O	O
+a	470,471	O	O
+factor	472,478	O	O
+of	479,481	O	O
+2	482,483	O	O
+(	484,485	O	O
+harder	485,491	O	O
+for	492,495	O	O
+pQCD	496,500	O	B-Material
+c	501,502	O	I-Material
+-	502,503	O	I-Material
+quarks	503,509	O	I-Material
+)	509,510	O	O
+,	510,511	O	O
+and	512,515	O	O
+the	516,519	O	O
+integrated	520,530	O	B-Process
+yield	531,536	O	I-Process
+is	537,539	O	O
+about	540,545	O	O
+a	546,547	O	O
+factor	548,554	O	O
+of	555,557	O	O
+3	558,559	O	O
+larger	560,566	O	O
+in	567,569	O	O
+the	570,573	O	O
+thermal	574,581	O	O
+case	582,586	O	O
+.	586,587	O	O
+
+For	588,591	O	O
+D	592,593	O	B-Material
+-	593,594	O	I-Material
+mesons	594,600	O	I-Material
+,	600,601	O	O
+we	602,604	O	O
+found	605,610	O	O
+that	611,615	O	O
+the	616,619	O	O
+difference	620,630	O	B-Process
+in	631,633	O	I-Process
+the	634,637	O	I-Process
+slope	638,643	O	I-Process
+parameters	644,654	O	I-Process
+of	655,657	O	O
+the	658,661	O	O
+pT	662,664	O	B-Task
+-	664,665	O	I-Task
+spectra	665,672	O	I-Task
+in	673,675	O	O
+the	676,679	O	O
+two	680,683	O	O
+scenarios	684,693	O	O
+is	694,696	O	O
+less	697,701	O	O
+pronounced	702,712	O	O
+,	712,713	O	O
+but	714,717	O	O
+their	718,723	O	O
+elliptic	724,732	O	B-Process
+flow	733,737	O	I-Process
+is	738,740	O	O
+about	741,746	O	O
+a	747,748	O	O
+factor	749,755	O	O
+of	756,758	O	O
+2	759,760	O	O
+larger	761,767	O	O
+for	768,771	O	O
+pT⩾1.5	772,778	O	O
+GeV	779,782	O	O
+in	783,785	O	O
+the	786,789	O	O
+thermalized	790,801	O	O
+case	802,806	O	O
+.	806,807	O	O
+
+The	808,811	O	O
+elliptic	812,820	O	B-Process
+flow	821,825	O	I-Process
+pattern	826,833	O	I-Process
+of	834,836	O	O
+D	837,838	O	B-Material
+-	838,839	O	I-Material
+mesons	839,845	O	I-Material
+was	846,849	O	O
+found	850,855	O	O
+to	856,858	O	O
+be	859,861	O	O
+essentially	862,873	O	O
+preserved	874,883	O	O
+in	884,886	O	O
+the	887,890	O	O
+single	891,897	O	B-Task
+-	897,898	O	I-Task
+electron	898,906	O	I-Task
+decay	907,912	O	I-Task
+spectra	913,920	O	I-Task
+,	920,921	O	O
+rendering	922,931	O	O
+the	932,935	O	O
+latter	936,942	O	O
+a	943,944	O	O
+very	945,949	O	O
+promising	950,959	O	O
+observable	960,970	O	O
+to	971,973	O	O
+address	974,981	O	O
+the	982,985	O	O
+strength	986,994	O	O
+of	995,997	O	O
+charm	998,1003	O	B-Process
+reinteractions	1004,1018	O	I-Process
+in	1019,1021	O	O
+the	1022,1025	O	O
+QGP	1026,1029	O	B-Process
+.	1029,1030	O	O
+
+The	1031,1034	O	O
+present	1035,1042	O	O
+study	1043,1048	O	O
+can	1049,1052	O	O
+be	1053,1055	O	O
+straightforwardly	1056,1073	O	O
+generalized	1074,1085	O	O
+to	1086,1088	O	O
+charmed	1089,1096	O	O
+baryons	1097,1104	O	B-Material
+(	1105,1106	O	O
+Λc	1106,1108	O	O
+)	1108,1109	O	O
+,	1109,1110	O	O
+which	1111,1116	O	O
+may	1117,1120	O	O
+serve	1121,1126	O	O
+as	1127,1129	O	O
+a	1130,1131	O	O
+complimentary	1132,1145	O	B-Material
+probe	1146,1151	O	I-Material
+for	1152,1155	O	O
+charm	1156,1161	O	B-Process
+-	1161,1162	O	I-Process
+quark	1162,1167	O	I-Process
+reinteractions	1168,1182	O	I-Process
+in	1183,1185	O	O
+the	1186,1189	O	O
+QGP	1190,1193	O	B-Process
+.	1193,1194	O	O
 
 
 -DOCSTART- (S0370269304009049)
 
-One	0	3	O
-of	4	6	O
-the	7	10	O
-challenges	11	21	O
-in	22	24	O
-quantum	25	32	B-Task
-chromodynamics	33	47	I-Task
-(	48	49	O
-QCD	49	52	B-Task
-)	52	53	O
-is	54	56	O
-the	57	60	O
-relativistic	61	73	B-Task
-bound	74	79	I-Task
-state	80	85	I-Task
-problem	86	93	I-Task
-.	93	94	O
-
-In	95	97	O
-the	98	101	O
-light	102	107	B-Process
--	107	108	I-Process
-cone	108	112	I-Process
-Hamiltonian	113	124	I-Process
-approach	125	133	I-Process
-[	134	135	O
-1	135	136	O
-]	136	137	O
-light	138	143	B-Task
--	143	144	I-Task
-cone	144	148	I-Task
-wave	149	153	I-Task
-functions	154	163	I-Task
-can	164	167	O
-be	168	170	O
-constructed	171	182	O
-in	183	185	O
-a	186	187	O
-boost	188	193	O
-invariant	194	203	O
-way	204	207	O
-.	207	208	O
-
-It	209	211	O
-is	212	214	O
-necessary	215	224	O
-to	225	227	O
-have	228	232	O
-reliable	233	241	B-Material
-light	242	247	I-Material
--	247	248	I-Material
-cone	248	252	I-Material
-wave	253	257	I-Material
-functions	258	267	I-Material
-if	268	270	O
-one	271	274	O
-wants	275	280	O
-to	281	283	O
-calculate	284	293	B-Task
-high	294	298	I-Task
-energy	299	305	I-Task
-scattering	306	316	I-Task
-,	316	317	O
-especially	318	328	O
-exclusive	329	338	O
-reactions	339	348	B-Process
-.	348	349	O
-
-Many	350	354	O
-parametrizations	355	371	O
-assume	372	378	O
-separability	379	391	O
-of	392	394	O
-the	395	398	O
-dependence	399	409	O
-on	410	412	O
-the	413	416	O
-longitudinal	417	429	O
-momentum	430	438	O
-fraction	439	447	O
-and	448	451	O
-transverse	452	462	O
-momentum	463	471	O
-which	472	477	O
-is	478	480	O
-very	481	485	O
-unlikely	486	494	O
-since	495	500	O
-the	501	504	O
-two	505	508	O
-momenta	509	516	O
-are	517	520	O
-coupled	521	528	O
-in	529	531	O
-the	532	535	O
-kinetic	536	543	O
-energy	544	550	O
-operator	551	559	O
-.	559	560	O
-
-Various	561	568	O
-approaches	569	579	O
-have	580	584	O
-been	585	589	O
-tried	590	595	O
-to	596	598	O
-compute	599	606	O
-such	607	611	O
-wave	612	616	O
-functions	617	626	O
-.	626	627	O
-
-One	628	631	O
-can	632	635	O
-use	636	639	O
-the	640	643	O
-usual	644	649	O
-equal	650	655	B-Process
-time	656	660	I-Process
-Hamiltonian	661	672	I-Process
-[	673	674	O
-2	674	675	O
-]	675	676	O
-and	677	680	O
-transform	681	690	B-Process
-the	691	694	I-Process
-resulting	695	704	I-Process
-wave	705	709	I-Process
-functions	710	719	I-Process
-into	720	724	I-Process
-light	725	730	I-Process
--	730	731	I-Process
-cone	731	735	I-Process
-form	736	740	I-Process
-with	741	745	O
-the	746	749	O
-help	750	754	O
-of	755	757	O
-kinematical	758	769	B-Process
-on	770	772	I-Process
--	772	773	I-Process
-shell	773	778	I-Process
-equations	779	788	I-Process
-.	788	789	O
-
-The	790	793	O
-light	794	799	O
--	799	800	O
-cone	800	804	O
-Hamiltonian	805	816	O
-in	817	819	O
-a	820	821	O
-string	822	828	O
-picture	829	836	O
-is	837	839	O
-formulated	840	850	O
-in	851	853	O
-Ref	854	857	O
-.	857	858	O
-
-[	859	860	O
-3	860	861	O
-]	861	862	O
-.	862	863	O
-
-More	864	868	O
-ambitious	869	878	O
-is	879	881	O
-the	882	885	O
-construction	886	898	B-Task
-of	899	901	I-Task
-an	902	904	I-Task
-effective	905	914	I-Task
-Hamiltonian	915	926	I-Task
-including	927	936	I-Task
-the	937	940	I-Task
-gauge	941	946	I-Task
-degrees	947	954	I-Task
-of	955	957	I-Task
-freedom	958	965	I-Task
-explicitly	966	976	I-Task
-and	977	980	O
-then	981	985	O
-solving	986	993	B-Process
-the	994	997	I-Process
-bound	998	1003	I-Process
-state	1004	1009	I-Process
-problem	1010	1017	I-Process
-.	1017	1018	O
-
-For	1019	1022	O
-mesons	1023	1029	B-Material
-this	1030	1034	O
-approach	1035	1043	O
-[	1044	1045	O
-4,5	1045	1048	O
-]	1048	1049	O
-still	1050	1055	O
-needs	1056	1061	O
-many	1062	1066	O
-parameters	1067	1077	O
-to	1078	1080	O
-be	1081	1083	O
-fixed	1084	1089	O
-.	1089	1090	O
-
-Attempts	1091	1099	O
-have	1100	1104	O
-been	1105	1109	O
-made	1110	1114	O
-to	1115	1117	O
-solve	1118	1123	B-Task
-the	1124	1127	I-Task
-valence	1128	1135	I-Task
-quark	1136	1141	I-Task
-wave	1142	1146	I-Task
-function	1147	1155	I-Task
-for	1156	1159	I-Task
-mesons	1160	1166	I-Task
-in	1167	1169	O
-a	1170	1171	O
-simple	1172	1178	B-Process
-Hamiltonian	1179	1190	I-Process
-with	1191	1195	I-Process
-a	1196	1197	I-Process
-two	1198	1201	I-Process
--	1201	1202	I-Process
-body	1202	1206	I-Process
-potential	1207	1216	I-Process
-[	1217	1218	O
-6	1218	1219	O
-]	1219	1220	O
-.	1220	1221	O
+One	0,3	O	O
+of	4,6	O	O
+the	7,10	O	O
+challenges	11,21	O	O
+in	22,24	O	O
+quantum	25,32	O	B-Task
+chromodynamics	33,47	O	I-Task
+(	48,49	O	O
+QCD	49,52	O	B-Task
+)	52,53	O	O
+is	54,56	O	O
+the	57,60	O	O
+relativistic	61,73	O	B-Task
+bound	74,79	O	I-Task
+state	80,85	O	I-Task
+problem	86,93	O	I-Task
+.	93,94	O	O
+
+In	95,97	O	O
+the	98,101	O	O
+light	102,107	O	B-Process
+-	107,108	O	I-Process
+cone	108,112	O	I-Process
+Hamiltonian	113,124	O	I-Process
+approach	125,133	O	I-Process
+[	134,135	O	O
+1	135,136	O	O
+]	136,137	O	O
+light	138,143	O	B-Task
+-	143,144	O	I-Task
+cone	144,148	O	I-Task
+wave	149,153	O	I-Task
+functions	154,163	O	I-Task
+can	164,167	O	O
+be	168,170	O	O
+constructed	171,182	O	O
+in	183,185	O	O
+a	186,187	O	O
+boost	188,193	O	O
+invariant	194,203	O	O
+way	204,207	O	O
+.	207,208	O	O
+
+It	209,211	O	O
+is	212,214	O	O
+necessary	215,224	O	O
+to	225,227	O	O
+have	228,232	O	O
+reliable	233,241	O	B-Material
+light	242,247	O	I-Material
+-	247,248	O	I-Material
+cone	248,252	O	I-Material
+wave	253,257	O	I-Material
+functions	258,267	O	I-Material
+if	268,270	O	O
+one	271,274	O	O
+wants	275,280	O	O
+to	281,283	O	O
+calculate	284,293	O	B-Task
+high	294,298	O	I-Task
+energy	299,305	O	I-Task
+scattering	306,316	O	I-Task
+,	316,317	O	O
+especially	318,328	O	O
+exclusive	329,338	O	O
+reactions	339,348	O	B-Process
+.	348,349	O	O
+
+Many	350,354	O	O
+parametrizations	355,371	O	O
+assume	372,378	O	O
+separability	379,391	O	O
+of	392,394	O	O
+the	395,398	O	O
+dependence	399,409	O	O
+on	410,412	O	O
+the	413,416	O	O
+longitudinal	417,429	O	O
+momentum	430,438	O	O
+fraction	439,447	O	O
+and	448,451	O	O
+transverse	452,462	O	O
+momentum	463,471	O	O
+which	472,477	O	O
+is	478,480	O	O
+very	481,485	O	O
+unlikely	486,494	O	O
+since	495,500	O	O
+the	501,504	O	O
+two	505,508	O	O
+momenta	509,516	O	O
+are	517,520	O	O
+coupled	521,528	O	O
+in	529,531	O	O
+the	532,535	O	O
+kinetic	536,543	O	O
+energy	544,550	O	O
+operator	551,559	O	O
+.	559,560	O	O
+
+Various	561,568	O	O
+approaches	569,579	O	O
+have	580,584	O	O
+been	585,589	O	O
+tried	590,595	O	O
+to	596,598	O	O
+compute	599,606	O	O
+such	607,611	O	O
+wave	612,616	O	O
+functions	617,626	O	O
+.	626,627	O	O
+
+One	628,631	O	O
+can	632,635	O	O
+use	636,639	O	O
+the	640,643	O	O
+usual	644,649	O	O
+equal	650,655	O	B-Process
+time	656,660	O	I-Process
+Hamiltonian	661,672	O	I-Process
+[	673,674	O	O
+2	674,675	O	O
+]	675,676	O	O
+and	677,680	O	O
+transform	681,690	O	B-Process
+the	691,694	O	I-Process
+resulting	695,704	O	I-Process
+wave	705,709	O	I-Process
+functions	710,719	O	I-Process
+into	720,724	O	I-Process
+light	725,730	O	I-Process
+-	730,731	O	I-Process
+cone	731,735	O	I-Process
+form	736,740	O	I-Process
+with	741,745	O	O
+the	746,749	O	O
+help	750,754	O	O
+of	755,757	O	O
+kinematical	758,769	O	B-Process
+on	770,772	O	I-Process
+-	772,773	O	I-Process
+shell	773,778	O	I-Process
+equations	779,788	O	I-Process
+.	788,789	O	O
+
+The	790,793	O	O
+light	794,799	O	O
+-	799,800	O	O
+cone	800,804	O	O
+Hamiltonian	805,816	O	O
+in	817,819	O	O
+a	820,821	O	O
+string	822,828	O	O
+picture	829,836	O	O
+is	837,839	O	O
+formulated	840,850	O	O
+in	851,853	O	O
+Ref	854,857	O	O
+.	857,858	O	O
+
+[	859,860	O	O
+3	860,861	O	O
+]	861,862	O	O
+.	862,863	O	O
+
+More	864,868	O	O
+ambitious	869,878	O	O
+is	879,881	O	O
+the	882,885	O	O
+construction	886,898	O	B-Task
+of	899,901	O	I-Task
+an	902,904	O	I-Task
+effective	905,914	O	I-Task
+Hamiltonian	915,926	O	I-Task
+including	927,936	O	I-Task
+the	937,940	O	I-Task
+gauge	941,946	O	I-Task
+degrees	947,954	O	I-Task
+of	955,957	O	I-Task
+freedom	958,965	O	I-Task
+explicitly	966,976	O	I-Task
+and	977,980	O	O
+then	981,985	O	O
+solving	986,993	O	B-Process
+the	994,997	O	I-Process
+bound	998,1003	O	I-Process
+state	1004,1009	O	I-Process
+problem	1010,1017	O	I-Process
+.	1017,1018	O	O
+
+For	1019,1022	O	O
+mesons	1023,1029	O	B-Material
+this	1030,1034	O	O
+approach	1035,1043	O	O
+[	1044,1045	O	O
+4,5	1045,1048	O	O
+]	1048,1049	O	O
+still	1050,1055	O	O
+needs	1056,1061	O	O
+many	1062,1066	O	O
+parameters	1067,1077	O	O
+to	1078,1080	O	O
+be	1081,1083	O	O
+fixed	1084,1089	O	O
+.	1089,1090	O	O
+
+Attempts	1091,1099	O	O
+have	1100,1104	O	O
+been	1105,1109	O	O
+made	1110,1114	O	O
+to	1115,1117	O	O
+solve	1118,1123	O	B-Task
+the	1124,1127	O	I-Task
+valence	1128,1135	O	I-Task
+quark	1136,1141	O	I-Task
+wave	1142,1146	O	I-Task
+function	1147,1155	O	I-Task
+for	1156,1159	O	I-Task
+mesons	1160,1166	O	I-Task
+in	1167,1169	O	O
+a	1170,1171	O	O
+simple	1172,1178	O	B-Process
+Hamiltonian	1179,1190	O	I-Process
+with	1191,1195	O	I-Process
+a	1196,1197	O	I-Process
+two	1198,1201	O	I-Process
+-	1201,1202	O	I-Process
+body	1202,1206	O	I-Process
+potential	1207,1216	O	I-Process
+[	1217,1218	O	O
+6	1218,1219	O	O
+]	1219,1220	O	O
+.	1220,1221	O	O
 
 
 -DOCSTART- (S0370269304009062)
 
-The	0	3	O
-microwave	4	13	B-Process
-background	14	24	I-Process
-is	25	27	O
-not	28	31	O
-the	32	35	O
-only	36	40	O
-universal	41	50	B-Material
-photon	51	57	I-Material
-field	58	63	I-Material
-that	64	68	O
-has	69	72	O
-to	73	75	O
-be	76	78	O
-taken	79	84	B-Process
-in	85	87	I-Process
-consideration	88	101	I-Process
-.	101	102	O
-
-Especially	103	113	O
-interesting	114	125	O
-is	126	128	O
-the	129	132	O
-isotropic	133	142	B-Process
-infrared	143	151	I-Process
-and	152	155	I-Process
-optical	156	163	I-Process
-background	164	174	I-Process
-(	175	176	O
-IRB	176	179	B-Process
-)	179	180	O
-.	180	181	O
-
-The	182	185	O
-number	186	192	O
-density	193	200	O
-of	201	203	O
-IRB	204	207	B-Process
-is	208	210	O
-smaller	211	218	O
-than	219	223	O
-that	224	228	O
-of	229	231	O
-MBR	232	235	B-Process
-by	236	238	O
-more	239	243	O
-that	244	248	O
-two	249	252	O
-orders	253	259	O
-of	260	262	O
-magnitude	263	272	O
-.	272	273	O
-
-On	274	276	O
-the	277	280	O
-other	281	286	O
-hand	287	291	O
-,	291	292	O
-protons	293	300	B-Material
-of	301	303	O
-lower	304	309	O
-energy	310	316	O
-can	317	320	O
-interact	321	329	O
-on	330	332	O
-the	333	336	O
-IRB	337	340	B-Process
-,	340	341	O
-and	342	345	O
-the	346	349	B-Process
-smaller	350	357	I-Process
-number	358	364	I-Process
-density	365	372	I-Process
-has	373	376	I-Process
-to	377	379	I-Process
-be	380	382	I-Process
-weighted	383	391	I-Process
-with	392	396	I-Process
-the	397	400	I-Process
-higher	401	407	I-Process
-flux	408	412	I-Process
-of	413	415	I-Process
-interacting	416	427	I-Process
-protons	428	435	I-Process
-.	435	436	O
-
-The	437	440	O
-present	441	448	B-Task
-Universe	449	457	I-Task
-is	458	460	O
-optically	461	470	O
-thin	471	475	O
-to	476	478	O
-1019	479	483	O
-eV	484	486	O
-and	487	490	O
-lower	491	496	B-Material
-energy	497	503	I-Material
-protons	504	511	I-Material
-,	511	512	O
-but	513	516	O
-even	517	521	O
-at	522	524	O
-low	525	528	O
-redshifts	529	538	O
-the	539	542	O
-proton	543	549	B-Task
-interaction	550	561	I-Task
-rate	562	566	I-Task
-quickly	567	574	O
-increases	575	584	O
-.	584	585	O
-
-This	586	590	O
-is	591	593	O
-different	594	603	O
-from	604	608	O
-the	609	612	O
-interactions	613	625	B-Task
-on	626	628	I-Task
-MBR	629	632	I-Task
-,	632	633	O
-where	634	639	O
-the	640	643	O
-interacting	644	655	B-Material
-protons	656	663	I-Material
-quickly	664	671	B-Process
-lose	672	676	I-Process
-their	677	682	I-Process
-energy	683	689	I-Process
-even	690	694	I-Process
-at	695	697	I-Process
-z=0	698	701	I-Process
-.	701	702	O
-
-The	703	706	O
-cosmological	707	719	B-Process
-evolution	720	729	I-Process
-of	730	732	I-Process
-UHECR	733	738	I-Process
-injection	739	748	I-Process
-is	749	751	O
-thus	752	756	O
-of	757	759	O
-major	760	765	O
-importance	766	776	O
-for	777	780	O
-the	781	784	O
-contribution	785	797	O
-of	798	800	O
-such	801	805	O
-interactions	806	818	O
-to	819	821	O
-the	822	825	O
-flux	826	830	B-Task
-of	831	833	I-Task
-cosmogenic	834	844	I-Task
-neutrinos	845	854	I-Task
-.	854	855	O
+The	0,3	O	O
+microwave	4,13	O	B-Process
+background	14,24	O	I-Process
+is	25,27	O	O
+not	28,31	O	O
+the	32,35	O	O
+only	36,40	O	O
+universal	41,50	O	B-Material
+photon	51,57	O	I-Material
+field	58,63	O	I-Material
+that	64,68	O	O
+has	69,72	O	O
+to	73,75	O	O
+be	76,78	O	O
+taken	79,84	O	B-Process
+in	85,87	O	I-Process
+consideration	88,101	O	I-Process
+.	101,102	O	O
+
+Especially	103,113	O	O
+interesting	114,125	O	O
+is	126,128	O	O
+the	129,132	O	O
+isotropic	133,142	O	B-Process
+infrared	143,151	O	I-Process
+and	152,155	O	I-Process
+optical	156,163	O	I-Process
+background	164,174	O	I-Process
+(	175,176	O	O
+IRB	176,179	O	B-Process
+)	179,180	O	O
+.	180,181	O	O
+
+The	182,185	O	O
+number	186,192	O	O
+density	193,200	O	O
+of	201,203	O	O
+IRB	204,207	O	B-Process
+is	208,210	O	O
+smaller	211,218	O	O
+than	219,223	O	O
+that	224,228	O	O
+of	229,231	O	O
+MBR	232,235	O	B-Process
+by	236,238	O	O
+more	239,243	O	O
+that	244,248	O	O
+two	249,252	O	O
+orders	253,259	O	O
+of	260,262	O	O
+magnitude	263,272	O	O
+.	272,273	O	O
+
+On	274,276	O	O
+the	277,280	O	O
+other	281,286	O	O
+hand	287,291	O	O
+,	291,292	O	O
+protons	293,300	O	B-Material
+of	301,303	O	O
+lower	304,309	O	O
+energy	310,316	O	O
+can	317,320	O	O
+interact	321,329	O	O
+on	330,332	O	O
+the	333,336	O	O
+IRB	337,340	O	B-Process
+,	340,341	O	O
+and	342,345	O	O
+the	346,349	O	B-Process
+smaller	350,357	O	I-Process
+number	358,364	O	I-Process
+density	365,372	O	I-Process
+has	373,376	O	I-Process
+to	377,379	O	I-Process
+be	380,382	O	I-Process
+weighted	383,391	O	I-Process
+with	392,396	O	I-Process
+the	397,400	O	I-Process
+higher	401,407	O	I-Process
+flux	408,412	O	I-Process
+of	413,415	O	I-Process
+interacting	416,427	O	I-Process
+protons	428,435	O	I-Process
+.	435,436	O	O
+
+The	437,440	O	O
+present	441,448	O	B-Task
+Universe	449,457	O	I-Task
+is	458,460	O	O
+optically	461,470	O	O
+thin	471,475	O	O
+to	476,478	O	O
+1019	479,483	O	O
+eV	484,486	O	O
+and	487,490	O	O
+lower	491,496	O	B-Material
+energy	497,503	O	I-Material
+protons	504,511	O	I-Material
+,	511,512	O	O
+but	513,516	O	O
+even	517,521	O	O
+at	522,524	O	O
+low	525,528	O	O
+redshifts	529,538	O	O
+the	539,542	O	O
+proton	543,549	O	B-Task
+interaction	550,561	O	I-Task
+rate	562,566	O	I-Task
+quickly	567,574	O	O
+increases	575,584	O	O
+.	584,585	O	O
+
+This	586,590	O	O
+is	591,593	O	O
+different	594,603	O	O
+from	604,608	O	O
+the	609,612	O	O
+interactions	613,625	O	B-Task
+on	626,628	O	I-Task
+MBR	629,632	O	I-Task
+,	632,633	O	O
+where	634,639	O	O
+the	640,643	O	O
+interacting	644,655	O	B-Material
+protons	656,663	O	I-Material
+quickly	664,671	O	B-Process
+lose	672,676	O	I-Process
+their	677,682	O	I-Process
+energy	683,689	O	I-Process
+even	690,694	O	I-Process
+at	695,697	O	I-Process
+z=0	698,701	O	I-Process
+.	701,702	O	O
+
+The	703,706	O	O
+cosmological	707,719	O	B-Process
+evolution	720,729	O	I-Process
+of	730,732	O	I-Process
+UHECR	733,738	O	I-Process
+injection	739,748	O	I-Process
+is	749,751	O	O
+thus	752,756	O	O
+of	757,759	O	O
+major	760,765	O	O
+importance	766,776	O	O
+for	777,780	O	O
+the	781,784	O	O
+contribution	785,797	O	O
+of	798,800	O	O
+such	801,805	O	O
+interactions	806,818	O	O
+to	819,821	O	O
+the	822,825	O	O
+flux	826,830	O	B-Task
+of	831,833	O	I-Task
+cosmogenic	834,844	O	I-Task
+neutrinos	845,854	O	I-Task
+.	854,855	O	O
 
 
 -DOCSTART- (S0370269304009074)
 
-In	0	2	O
-this	3	7	O
-Letter	8	14	O
-,	14	15	O
-we	16	18	O
-extend	19	25	B-Task
-the	26	29	I-Task
-McVittie	30	38	I-Task
-'s	38	40	I-Task
-solution	41	49	I-Task
-into	50	54	I-Task
-charged	55	62	I-Task
-black	63	68	I-Task
-holes	69	74	I-Task
-.	74	75	O
-
-We	76	78	O
-first	79	84	O
-deduce	85	91	O
-the	92	95	O
-metric	96	102	O
-for	103	106	O
-a	107	108	O
-Reissner	109	117	O
-–	117	118	O
-
-Nordström	118	127	O
-black	128	133	O
-hole	134	138	O
-in	139	141	O
-the	142	145	O
-expanding	146	155	O
-universe	156	164	O
-
-;	164	165	O
-several	166	173	O
-special	174	181	O
-cases	182	187	O
-of	188	190	O
-our	191	194	O
-solution	195	203	O
-are	204	207	O
-exactly	208	215	O
-the	216	219	O
-same	220	224	O
-as	225	227	O
-some	228	232	O
-solutions	233	242	O
-discovered	243	253	O
-previously	254	264	O
-.	264	265	O
-
-In	266	268	O
-the	269	272	O
-previous	273	281	O
-work	282	286	O
-[	287	288	O
-6	288	289	O
-]	289	290	O
-we	291	293	O
-have	294	298	O
-applied	299	306	B-Task
-the	307	310	I-Task
-asymptotic	311	321	I-Task
-conditions	322	332	I-Task
-to	333	335	I-Task
-derive	336	342	I-Task
-the	343	346	I-Task
-Schwarzschild	347	360	I-Task
-metric	361	367	I-Task
-in	368	370	I-Task
-the	371	374	I-Task
-expanding	375	384	I-Task
-universe	385	393	I-Task
-,	393	394	O
-which	395	400	O
-is	401	403	O
-exactly	404	411	O
-the	412	415	O
-same	416	420	O
-as	421	423	O
-that	424	428	O
-derived	429	436	O
-by	437	439	O
-McVittie	440	448	O
-by	449	451	O
-solving	452	459	B-Process
-the	460	463	I-Process
-full	464	468	I-Process
-Einstein	469	477	I-Process
-equations	478	487	I-Process
-.	487	488	O
-
-That	489	493	O
-demonstrates	494	506	O
-the	507	510	O
-power	511	516	O
-of	517	519	O
-this	520	524	O
-simple	525	531	O
-and	532	535	O
-straight	536	544	O
--	544	545	O
-forward	545	552	O
-approach	553	561	O
-.	561	562	O
-
-In	563	565	O
-this	566	570	O
-Letter	571	577	O
-we	578	580	O
-follow	581	587	B-Process
-the	588	591	I-Process
-same	592	596	I-Process
-procedure	597	606	I-Process
-to	607	609	I-Process
-derive	610	616	I-Process
-the	617	620	I-Process
-metric	621	627	I-Process
-for	628	631	O
-the	632	635	O
-Reissner	636	644	O
-–	644	645	O
-
-Nordström	645	654	O
-black	655	660	O
-holes	661	666	O
-in	667	669	O
-Friedman	670	678	O
-
-–	678	679	O
-
-Robertson	679	688	O
-–	688	689	O
-Walker	689	695	O
-universe	696	704	O
-.	704	705	O
-
-We	706	708	O
-then	709	713	O
-study	714	719	B-Task
-the	720	723	I-Task
-influences	724	734	I-Task
-of	735	737	I-Task
-the	738	741	I-Task
-evolution	742	751	I-Task
-of	752	754	I-Task
-the	755	758	I-Task
-universe	759	767	I-Task
-on	768	770	I-Task
-the	771	774	I-Task
-size	775	779	I-Task
-of	780	782	I-Task
-the	783	786	I-Task
-black	787	792	I-Task
-hole	793	797	I-Task
-.	797	798	O
-
-Finally	799	806	O
-,	806	807	O
-in	808	810	O
-order	811	816	O
-to	817	819	O
-study	820	825	B-Task
-the	826	829	I-Task
-motion	830	836	I-Task
-of	837	839	I-Task
-the	840	843	I-Task
-planet	844	850	I-Task
-,	850	851	O
-we	852	854	O
-rewrite	855	862	B-Process
-the	863	866	I-Process
-metric	867	873	I-Process
-from	874	878	I-Process
-the	879	882	I-Process
-cosmic	883	889	I-Process
-coordinates	890	901	I-Process
-system	902	908	I-Process
-to	909	911	I-Process
-the	912	915	I-Process
-Schwarzschild	916	929	I-Process
-coordinates	930	941	I-Process
-system	942	948	I-Process
-.	948	949	O
+In	0,2	O	O
+this	3,7	O	O
+Letter	8,14	O	O
+,	14,15	O	O
+we	16,18	O	O
+extend	19,25	O	B-Task
+the	26,29	O	I-Task
+McVittie	30,38	O	I-Task
+'s	38,40	O	I-Task
+solution	41,49	O	I-Task
+into	50,54	O	I-Task
+charged	55,62	O	I-Task
+black	63,68	O	I-Task
+holes	69,74	O	I-Task
+.	74,75	O	O
+
+We	76,78	O	O
+first	79,84	O	O
+deduce	85,91	O	O
+the	92,95	O	O
+metric	96,102	O	O
+for	103,106	O	O
+a	107,108	O	O
+Reissner	109,117	O	O
+–	117,118	O	O
+
+Nordström	118,127	O	O
+black	128,133	O	O
+hole	134,138	O	O
+in	139,141	O	O
+the	142,145	O	O
+expanding	146,155	O	O
+universe	156,164	O	O
+
+;	164,165	O	O
+several	166,173	O	O
+special	174,181	O	O
+cases	182,187	O	O
+of	188,190	O	O
+our	191,194	O	O
+solution	195,203	O	O
+are	204,207	O	O
+exactly	208,215	O	O
+the	216,219	O	O
+same	220,224	O	O
+as	225,227	O	O
+some	228,232	O	O
+solutions	233,242	O	O
+discovered	243,253	O	O
+previously	254,264	O	O
+.	264,265	O	O
+
+In	266,268	O	O
+the	269,272	O	O
+previous	273,281	O	O
+work	282,286	O	O
+[	287,288	O	O
+6	288,289	O	O
+]	289,290	O	O
+we	291,293	O	O
+have	294,298	O	O
+applied	299,306	O	B-Task
+the	307,310	O	I-Task
+asymptotic	311,321	O	I-Task
+conditions	322,332	O	I-Task
+to	333,335	O	I-Task
+derive	336,342	O	I-Task
+the	343,346	O	I-Task
+Schwarzschild	347,360	O	I-Task
+metric	361,367	O	I-Task
+in	368,370	O	I-Task
+the	371,374	O	I-Task
+expanding	375,384	O	I-Task
+universe	385,393	O	I-Task
+,	393,394	O	O
+which	395,400	O	O
+is	401,403	O	O
+exactly	404,411	O	O
+the	412,415	O	O
+same	416,420	O	O
+as	421,423	O	O
+that	424,428	O	O
+derived	429,436	O	O
+by	437,439	O	O
+McVittie	440,448	O	O
+by	449,451	O	O
+solving	452,459	O	B-Process
+the	460,463	O	I-Process
+full	464,468	O	I-Process
+Einstein	469,477	O	I-Process
+equations	478,487	O	I-Process
+.	487,488	O	O
+
+That	489,493	O	O
+demonstrates	494,506	O	O
+the	507,510	O	O
+power	511,516	O	O
+of	517,519	O	O
+this	520,524	O	O
+simple	525,531	O	O
+and	532,535	O	O
+straight	536,544	O	O
+-	544,545	O	O
+forward	545,552	O	O
+approach	553,561	O	O
+.	561,562	O	O
+
+In	563,565	O	O
+this	566,570	O	O
+Letter	571,577	O	O
+we	578,580	O	O
+follow	581,587	O	B-Process
+the	588,591	O	I-Process
+same	592,596	O	I-Process
+procedure	597,606	O	I-Process
+to	607,609	O	I-Process
+derive	610,616	O	I-Process
+the	617,620	O	I-Process
+metric	621,627	O	I-Process
+for	628,631	O	O
+the	632,635	O	O
+Reissner	636,644	O	O
+–	644,645	O	O
+
+Nordström	645,654	O	O
+black	655,660	O	O
+holes	661,666	O	O
+in	667,669	O	O
+Friedman	670,678	O	O
+
+–	678,679	O	O
+
+Robertson	679,688	O	O
+–	688,689	O	O
+Walker	689,695	O	O
+universe	696,704	O	O
+.	704,705	O	O
+
+We	706,708	O	O
+then	709,713	O	O
+study	714,719	O	B-Task
+the	720,723	O	I-Task
+influences	724,734	O	I-Task
+of	735,737	O	I-Task
+the	738,741	O	I-Task
+evolution	742,751	O	I-Task
+of	752,754	O	I-Task
+the	755,758	O	I-Task
+universe	759,767	O	I-Task
+on	768,770	O	I-Task
+the	771,774	O	I-Task
+size	775,779	O	I-Task
+of	780,782	O	I-Task
+the	783,786	O	I-Task
+black	787,792	O	I-Task
+hole	793,797	O	I-Task
+.	797,798	O	O
+
+Finally	799,806	O	O
+,	806,807	O	O
+in	808,810	O	O
+order	811,816	O	O
+to	817,819	O	O
+study	820,825	O	B-Task
+the	826,829	O	I-Task
+motion	830,836	O	I-Task
+of	837,839	O	I-Task
+the	840,843	O	I-Task
+planet	844,850	O	I-Task
+,	850,851	O	O
+we	852,854	O	O
+rewrite	855,862	O	B-Process
+the	863,866	O	I-Process
+metric	867,873	O	I-Process
+from	874,878	O	I-Process
+the	879,882	O	I-Process
+cosmic	883,889	O	I-Process
+coordinates	890,901	O	I-Process
+system	902,908	O	I-Process
+to	909,911	O	I-Process
+the	912,915	O	I-Process
+Schwarzschild	916,929	O	I-Process
+coordinates	930,941	O	I-Process
+system	942,948	O	I-Process
+.	948,949	O	O
 
 
 -DOCSTART- (S0370269304009086)
 
-The	0	3	O
-ART	4	7	B-Process
-model	8	13	I-Process
-is	14	16	O
-a	17	18	O
-hadronic	19	27	B-Process
-transport	28	37	I-Process
-model	38	43	I-Process
-that	44	48	O
-includes	49	57	O
-baryons	58	65	B-Material
-such	66	70	O
-as	71	73	O
-N	74	75	B-Material
-,	75	76	I-Material
-Δ(1232	77	83	I-Material
-)	83	84	I-Material
-,	84	85	O
-N∗(1440	86	93	B-Material
-)	93	94	I-Material
-,	94	95	O
-N∗(1535	96	103	B-Material
-)	103	104	I-Material
-,	104	105	O
-Λ	106	107	B-Material
-,	107	108	O
-Σ	109	110	B-Material
-,	110	111	O
-and	112	115	O
-mesons	116	122	B-Material
-such	123	127	O
-as	128	130	O
-π	131	132	B-Material
-,	132	133	O
-ρ	134	135	B-Material
-,	135	136	O
-ω	137	138	B-Material
-,	138	139	O
-η	140	141	B-Material
-,	141	142	O
-K	143	144	B-Material
-,	144	145	O
-K∗.	146	149	B-Material
-Both	150	154	O
-elastic	155	162	B-Task
-and	163	166	I-Task
-inelastic	167	176	I-Task
-collisions	177	187	I-Task
-among	188	193	O
-most	194	198	O
-of	199	201	O
-these	202	207	B-Material
-particles	208	217	I-Material
-are	218	221	O
-included	222	230	O
-by	231	233	O
-using	234	239	O
-the	240	243	O
-experimental	244	256	B-Material
-data	257	261	I-Material
-from	262	266	I-Material
-hadron	267	273	I-Material
-–	273	274	I-Material
-hadron	274	280	I-Material
-collisions	281	291	I-Material
-.	291	292	O
-
-The	293	296	O
-ART	297	300	B-Process
-model	301	306	I-Process
-has	307	310	O
-been	311	315	O
-quite	316	321	O
-successful	322	332	O
-in	333	335	O
-explaining	336	346	B-Task
-many	347	351	I-Task
-experimental	352	364	I-Task
-observations	365	377	I-Task
-,	377	378	O
-including	379	388	O
-the	389	392	O
-surprisingly	393	405	O
-large	406	411	O
-kaon	412	416	B-Process
-antiflow	417	425	I-Process
-[	426	427	O
-11,12	427	432	O
-]	432	433	O
-in	434	436	O
-heavy	437	442	B-Process
-ion	443	446	I-Process
-collisions	447	457	I-Process
-at	458	460	O
-AGS	461	464	B-Process
-energies	465	473	I-Process
-.	473	474	O
-
-The	475	478	O
-ART	479	482	B-Process
-model	483	488	I-Process
-also	489	493	O
-allows	494	500	O
-us	501	503	O
-to	504	506	O
-understand	507	517	B-Task
-whether	518	525	I-Task
-or	526	528	I-Task
-not	529	532	I-Task
-the	533	536	I-Task
-strongly	537	545	I-Task
-interacting	546	557	I-Task
-matter	558	564	I-Task
-formed	565	571	I-Task
-in	572	574	I-Task
-these	575	580	I-Task
-collisions	581	591	I-Task
-reaches	592	599	I-Task
-chemical	600	608	I-Task
-and/or	609	615	I-Task
-thermal	616	623	I-Task
-equilibrium	624	635	I-Task
-.	635	636	O
-
-In	637	639	O
-the	640	643	O
-present	644	651	O
-study	652	657	O
-,	657	658	O
-we	659	661	O
-extend	662	668	B-Task
-the	669	672	I-Task
-ART	673	676	I-Task
-model	677	682	I-Task
-to	683	685	I-Task
-include	686	693	I-Task
-perturbatively	694	708	I-Task
-the	709	712	I-Task
-Ξ	713	714	I-Task
-particle	715	723	I-Task
-as	724	726	O
-in	727	729	O
-the	730	733	O
-studies	734	741	O
-for	742	745	O
-other	746	751	O
-rare	752	756	B-Material
-particles	757	766	I-Material
-using	767	772	O
-the	773	776	O
-transport	777	786	B-Material
-model	787	792	I-Material
-[	793	794	O
-6,13,14	794	801	O
-]	801	802	O
-.	802	803	O
+The	0,3	O	O
+ART	4,7	O	B-Process
+model	8,13	O	I-Process
+is	14,16	O	O
+a	17,18	O	O
+hadronic	19,27	O	B-Process
+transport	28,37	O	I-Process
+model	38,43	O	I-Process
+that	44,48	O	O
+includes	49,57	O	O
+baryons	58,65	O	B-Material
+such	66,70	O	O
+as	71,73	O	O
+N	74,75	O	B-Material
+,	75,76	O	I-Material
+Δ(1232	77,83	O	I-Material
+)	83,84	O	I-Material
+,	84,85	O	O
+N∗(1440	86,93	O	B-Material
+)	93,94	O	I-Material
+,	94,95	O	O
+N∗(1535	96,103	O	B-Material
+)	103,104	O	I-Material
+,	104,105	O	O
+Λ	106,107	O	B-Material
+,	107,108	O	O
+Σ	109,110	O	B-Material
+,	110,111	O	O
+and	112,115	O	O
+mesons	116,122	O	B-Material
+such	123,127	O	O
+as	128,130	O	O
+π	131,132	O	B-Material
+,	132,133	O	O
+ρ	134,135	O	B-Material
+,	135,136	O	O
+ω	137,138	O	B-Material
+,	138,139	O	O
+η	140,141	O	B-Material
+,	141,142	O	O
+K	143,144	O	B-Material
+,	144,145	O	O
+K∗.	146,149	O	B-Material
+Both	150,154	O	O
+elastic	155,162	O	B-Task
+and	163,166	O	I-Task
+inelastic	167,176	O	I-Task
+collisions	177,187	O	I-Task
+among	188,193	O	O
+most	194,198	O	O
+of	199,201	O	O
+these	202,207	O	B-Material
+particles	208,217	O	I-Material
+are	218,221	O	O
+included	222,230	O	O
+by	231,233	O	O
+using	234,239	O	O
+the	240,243	O	O
+experimental	244,256	O	B-Material
+data	257,261	O	I-Material
+from	262,266	O	I-Material
+hadron	267,273	O	I-Material
+–	273,274	O	I-Material
+hadron	274,280	O	I-Material
+collisions	281,291	O	I-Material
+.	291,292	O	O
+
+The	293,296	O	O
+ART	297,300	O	B-Process
+model	301,306	O	I-Process
+has	307,310	O	O
+been	311,315	O	O
+quite	316,321	O	O
+successful	322,332	O	O
+in	333,335	O	O
+explaining	336,346	O	B-Task
+many	347,351	O	I-Task
+experimental	352,364	O	I-Task
+observations	365,377	O	I-Task
+,	377,378	O	O
+including	379,388	O	O
+the	389,392	O	O
+surprisingly	393,405	O	O
+large	406,411	O	O
+kaon	412,416	O	B-Process
+antiflow	417,425	O	I-Process
+[	426,427	O	O
+11,12	427,432	O	O
+]	432,433	O	O
+in	434,436	O	O
+heavy	437,442	O	B-Process
+ion	443,446	O	I-Process
+collisions	447,457	O	I-Process
+at	458,460	O	O
+AGS	461,464	O	B-Process
+energies	465,473	O	I-Process
+.	473,474	O	O
+
+The	475,478	O	O
+ART	479,482	O	B-Process
+model	483,488	O	I-Process
+also	489,493	O	O
+allows	494,500	O	O
+us	501,503	O	O
+to	504,506	O	O
+understand	507,517	O	B-Task
+whether	518,525	O	I-Task
+or	526,528	O	I-Task
+not	529,532	O	I-Task
+the	533,536	O	I-Task
+strongly	537,545	O	I-Task
+interacting	546,557	O	I-Task
+matter	558,564	O	I-Task
+formed	565,571	O	I-Task
+in	572,574	O	I-Task
+these	575,580	O	I-Task
+collisions	581,591	O	I-Task
+reaches	592,599	O	I-Task
+chemical	600,608	O	I-Task
+and/or	609,615	O	I-Task
+thermal	616,623	O	I-Task
+equilibrium	624,635	O	I-Task
+.	635,636	O	O
+
+In	637,639	O	O
+the	640,643	O	O
+present	644,651	O	O
+study	652,657	O	O
+,	657,658	O	O
+we	659,661	O	O
+extend	662,668	O	B-Task
+the	669,672	O	I-Task
+ART	673,676	O	I-Task
+model	677,682	O	I-Task
+to	683,685	O	I-Task
+include	686,693	O	I-Task
+perturbatively	694,708	O	I-Task
+the	709,712	O	I-Task
+Ξ	713,714	O	I-Task
+particle	715,723	O	I-Task
+as	724,726	O	O
+in	727,729	O	O
+the	730,733	O	O
+studies	734,741	O	O
+for	742,745	O	O
+other	746,751	O	O
+rare	752,756	O	B-Material
+particles	757,766	O	I-Material
+using	767,772	O	O
+the	773,776	O	O
+transport	777,786	O	B-Material
+model	787,792	O	I-Material
+[	793,794	O	O
+6,13,14	794,801	O	O
+]	801,802	O	O
+.	802,803	O	O
 
 
 -DOCSTART- (S0370269304009104)
 
-Though	0	6	O
-,	6	7	O
-in	8	10	O
-this	11	15	O
-Letter	16	22	O
-we	23	25	O
-have	26	30	O
-constructed	31	42	B-Task
-the	43	46	I-Task
-Born	47	51	I-Task
-–	51	52	I-Task
-Infeld	52	58	I-Task
-black	59	64	I-Task
-holes	65	70	I-Task
-in	71	73	I-Task
-the	74	77	I-Task
-presence	78	86	I-Task
-of	87	89	I-Task
-a	90	91	I-Task
-cosmological	92	104	I-Task
-constant	105	113	I-Task
-and	114	117	O
-discussed	118	127	B-Task
-their	128	133	I-Task
-thermodynamical	134	149	I-Task
-properties	150	160	I-Task
-,	160	161	O
-many	162	166	O
-issues	167	173	O
-however	174	181	O
-still	182	187	O
-remain	188	194	O
-to	195	197	O
-be	198	200	O
-investigated	201	213	O
-.	213	214	O
-
-We	215	217	O
-know	218	222	O
-that	223	227	O
-Reissner	228	236	O
-–	236	237	O
-
-Nordström	237	246	O
-AdS	247	250	O
-
-black	251	256	O
-holes	257	262	O
-undergo	263	270	O
-
-Hawking	271	278	B-Process
-–	278	279	I-Process
-Page	279	283	I-Process
-phase	284	289	I-Process
-transition	290	300	I-Process
-.	300	301	O
-
-This	302	306	O
-transition	307	317	O
-gets	318	322	O
-modified	323	331	O
-as	332	334	O
-we	335	337	O
-include	338	345	O
-Born	346	350	O
-–	350	351	O
-
-Infeld	351	357	O
-corrections	358	369	O
-into	370	374	O
-account	375	382	O
-.	382	383	O
-
-We	384	386	O
-hope	387	391	O
-to	392	394	O
-carry	395	400	O
-out	401	404	O
-a	405	406	O
-detail	407	413	O
-study	414	419	O
-on	420	422	O
-this	423	427	O
-issue	428	433	O
-in	434	436	O
-the	437	440	O
-future	441	447	O
-.	447	448	O
-
-Furthermore	449	460	O
-,	460	461	O
-in	462	464	O
-the	465	468	O
-context	469	476	O
-of	477	479	O
-brane	480	485	B-Task
-world	486	491	I-Task
-cosmology	492	501	I-Task
-,	501	502	O
-it	503	505	O
-was	506	509	O
-found	510	515	O
-that	516	520	O
-a	521	522	O
-brane	523	528	B-Material
-moving	529	535	O
-in	536	538	O
-a	539	540	O
-Reissner	541	549	O
-–	549	550	O
-
-Nordström	550	559	O
-AdS	560	563	O
-background	564	574	O
-generates	575	584	O
-non	585	588	B-Task
--	588	589	I-Task
-singular	589	597	I-Task
-cosmology	598	607	I-Task
-[	608	609	O
-14	609	611	O
-]	611	612	O
-.	612	613	O
-
-However	614	621	O
-,	621	622	O
-as	623	625	O
-shown	626	631	O
-in	632	634	O
-[	635	636	O
-15	636	638	O
-]	638	639	O
-,	639	640	O
-the	641	644	O
-brane	645	650	B-Material
-always	651	657	O
-crosses	658	665	B-Process
-the	666	669	I-Process
-inner	670	675	I-Process
-horizon	676	683	I-Process
-of	684	686	I-Process
-the	687	690	I-Process
-bulk	691	695	I-Process
-geometry	696	704	I-Process
-,	704	705	O
-creating	706	714	O
-an	715	717	O
-instability	718	729	B-Process
-.	729	730	O
-
-It	731	733	O
-would	734	739	O
-be	740	742	O
-interesting	743	754	O
-to	755	757	O
-study	758	763	B-Task
-cosmology	764	773	I-Task
-on	774	776	I-Task
-the	777	780	I-Task
-brane	781	786	I-Task
-when	787	791	I-Task
-it	792	794	I-Task
-is	795	797	I-Task
-moving	798	804	I-Task
-in	805	807	I-Task
-the	808	811	I-Task
-charged	812	819	I-Task
-black	820	825	I-Task
-hole	826	830	I-Task
-backgrounds	831	842	I-Task
-that	843	847	O
-we	848	850	O
-have	851	855	O
-constructed	856	867	O
-.	867	868	O
-
-Note	869	873	O
-that	874	878	O
-since	879	884	O
-these	885	890	O
-charged	891	898	B-Material
-holes	899	904	I-Material
-does	905	909	O
-not	910	913	O
-have	914	918	O
-inner	919	924	O
-horizon	925	932	O
-for	933	936	O
-certain	937	944	O
-range	945	950	O
-of	951	953	O
-parameters	954	964	O
-,	964	965	O
-we	966	968	O
-may	969	972	O
-generate	973	981	B-Task
-non	982	985	I-Task
--	985	986	I-Task
-singular	986	994	I-Task
-cosmology	995	1004	I-Task
-without	1005	1012	I-Task
-creating	1013	1021	I-Task
-the	1022	1025	I-Task
-instabilities	1026	1039	I-Task
-that	1040	1044	O
-we	1045	1047	O
-have	1048	1052	O
-just	1053	1057	O
-mentioned	1058	1067	O
-.	1067	1068	O
+Though	0,6	O	O
+,	6,7	O	O
+in	8,10	O	O
+this	11,15	O	O
+Letter	16,22	O	O
+we	23,25	O	O
+have	26,30	O	O
+constructed	31,42	O	B-Task
+the	43,46	O	I-Task
+Born	47,51	O	I-Task
+–	51,52	O	I-Task
+Infeld	52,58	O	I-Task
+black	59,64	O	I-Task
+holes	65,70	O	I-Task
+in	71,73	O	I-Task
+the	74,77	O	I-Task
+presence	78,86	O	I-Task
+of	87,89	O	I-Task
+a	90,91	O	I-Task
+cosmological	92,104	O	I-Task
+constant	105,113	O	I-Task
+and	114,117	O	O
+discussed	118,127	O	B-Task
+their	128,133	O	I-Task
+thermodynamical	134,149	O	I-Task
+properties	150,160	O	I-Task
+,	160,161	O	O
+many	162,166	O	O
+issues	167,173	O	O
+however	174,181	O	O
+still	182,187	O	O
+remain	188,194	O	O
+to	195,197	O	O
+be	198,200	O	O
+investigated	201,213	O	O
+.	213,214	O	O
+
+We	215,217	O	O
+know	218,222	O	O
+that	223,227	O	O
+Reissner	228,236	O	O
+–	236,237	O	O
+
+Nordström	237,246	O	O
+AdS	247,250	O	O
+
+black	251,256	O	O
+holes	257,262	O	O
+undergo	263,270	O	O
+
+Hawking	271,278	O	B-Process
+–	278,279	O	I-Process
+Page	279,283	O	I-Process
+phase	284,289	O	I-Process
+transition	290,300	O	I-Process
+.	300,301	O	O
+
+This	302,306	O	O
+transition	307,317	O	O
+gets	318,322	O	O
+modified	323,331	O	O
+as	332,334	O	O
+we	335,337	O	O
+include	338,345	O	O
+Born	346,350	O	O
+–	350,351	O	O
+
+Infeld	351,357	O	O
+corrections	358,369	O	O
+into	370,374	O	O
+account	375,382	O	O
+.	382,383	O	O
+
+We	384,386	O	O
+hope	387,391	O	O
+to	392,394	O	O
+carry	395,400	O	O
+out	401,404	O	O
+a	405,406	O	O
+detail	407,413	O	O
+study	414,419	O	O
+on	420,422	O	O
+this	423,427	O	O
+issue	428,433	O	O
+in	434,436	O	O
+the	437,440	O	O
+future	441,447	O	O
+.	447,448	O	O
+
+Furthermore	449,460	O	O
+,	460,461	O	O
+in	462,464	O	O
+the	465,468	O	O
+context	469,476	O	O
+of	477,479	O	O
+brane	480,485	O	B-Task
+world	486,491	O	I-Task
+cosmology	492,501	O	I-Task
+,	501,502	O	O
+it	503,505	O	O
+was	506,509	O	O
+found	510,515	O	O
+that	516,520	O	O
+a	521,522	O	O
+brane	523,528	O	B-Material
+moving	529,535	O	O
+in	536,538	O	O
+a	539,540	O	O
+Reissner	541,549	O	O
+–	549,550	O	O
+
+Nordström	550,559	O	O
+AdS	560,563	O	O
+background	564,574	O	O
+generates	575,584	O	O
+non	585,588	O	B-Task
+-	588,589	O	I-Task
+singular	589,597	O	I-Task
+cosmology	598,607	O	I-Task
+[	608,609	O	O
+14	609,611	O	O
+]	611,612	O	O
+.	612,613	O	O
+
+However	614,621	O	O
+,	621,622	O	O
+as	623,625	O	O
+shown	626,631	O	O
+in	632,634	O	O
+[	635,636	O	O
+15	636,638	O	O
+]	638,639	O	O
+,	639,640	O	O
+the	641,644	O	O
+brane	645,650	O	B-Material
+always	651,657	O	O
+crosses	658,665	O	B-Process
+the	666,669	O	I-Process
+inner	670,675	O	I-Process
+horizon	676,683	O	I-Process
+of	684,686	O	I-Process
+the	687,690	O	I-Process
+bulk	691,695	O	I-Process
+geometry	696,704	O	I-Process
+,	704,705	O	O
+creating	706,714	O	O
+an	715,717	O	O
+instability	718,729	O	B-Process
+.	729,730	O	O
+
+It	731,733	O	O
+would	734,739	O	O
+be	740,742	O	O
+interesting	743,754	O	O
+to	755,757	O	O
+study	758,763	O	B-Task
+cosmology	764,773	O	I-Task
+on	774,776	O	I-Task
+the	777,780	O	I-Task
+brane	781,786	O	I-Task
+when	787,791	O	I-Task
+it	792,794	O	I-Task
+is	795,797	O	I-Task
+moving	798,804	O	I-Task
+in	805,807	O	I-Task
+the	808,811	O	I-Task
+charged	812,819	O	I-Task
+black	820,825	O	I-Task
+hole	826,830	O	I-Task
+backgrounds	831,842	O	I-Task
+that	843,847	O	O
+we	848,850	O	O
+have	851,855	O	O
+constructed	856,867	O	O
+.	867,868	O	O
+
+Note	869,873	O	O
+that	874,878	O	O
+since	879,884	O	O
+these	885,890	O	O
+charged	891,898	O	B-Material
+holes	899,904	O	I-Material
+does	905,909	O	O
+not	910,913	O	O
+have	914,918	O	O
+inner	919,924	O	O
+horizon	925,932	O	O
+for	933,936	O	O
+certain	937,944	O	O
+range	945,950	O	O
+of	951,953	O	O
+parameters	954,964	O	O
+,	964,965	O	O
+we	966,968	O	O
+may	969,972	O	O
+generate	973,981	O	B-Task
+non	982,985	O	I-Task
+-	985,986	O	I-Task
+singular	986,994	O	I-Task
+cosmology	995,1004	O	I-Task
+without	1005,1012	O	I-Task
+creating	1013,1021	O	I-Task
+the	1022,1025	O	I-Task
+instabilities	1026,1039	O	I-Task
+that	1040,1044	O	O
+we	1045,1047	O	O
+have	1048,1052	O	O
+just	1053,1057	O	O
+mentioned	1058,1067	O	O
+.	1067,1068	O	O
 
 
 -DOCSTART- (S0370269304009116)
 
-We	0	2	O
-prove	3	8	B-Process
-the	9	12	I-Process
-uniqueness	13	23	I-Process
-of	24	26	O
-the	27	30	O
-supersymmetric	31	45	O
-Salam	46	51	O
-–	51	52	O
-
-Sezgin	52	58	O
-(	59	60	O
-Minkowski)4×S2	60	74	O
-ground	75	81	O
-state	82	87	O
-among	88	93	O
-all	94	97	O
-non	98	101	B-Task
--	101	102	I-Task
-singular	102	110	I-Task
-solutions	111	120	I-Task
-with	121	125	I-Task
-a	126	127	I-Task
-four	128	132	I-Task
--	132	133	I-Task
-dimensional	133	144	I-Task
-Poincaré	145	153	I-Task
-,	153	154	O
-de	155	157	B-Task
-Sitter	158	164	I-Task
-or	165	167	I-Task
-anti	168	172	I-Task
--	172	173	I-Task
-de	173	175	I-Task
-Sitter	176	182	I-Task
-symmetry	183	191	I-Task
-.	191	192	O
-
-We	193	195	O
-construct	196	205	B-Process
-the	206	209	I-Process
-most	210	214	I-Process
-general	215	222	I-Process
-solutions	223	232	I-Process
-with	233	237	O
-an	238	240	O
-axial	241	246	B-Task
-symmetry	247	255	I-Task
-in	256	258	I-Task
-the	259	262	I-Task
-two	263	266	I-Task
--	266	267	I-Task
-dimensional	267	278	I-Task
-internal	279	287	I-Task
-space	288	293	I-Task
-,	293	294	I-Task
-and	295	298	O
-show	299	303	O
-that	304	308	O
-included	309	317	O
-amongst	318	325	O
-these	326	331	O
-is	332	334	O
-a	335	336	O
-family	337	343	O
-that	344	348	O
-is	349	351	O
-non	352	355	B-Process
--	355	356	I-Process
-singular	356	364	I-Process
-away	365	369	I-Process
-from	370	374	I-Process
-a	375	376	I-Process
-conical	377	384	I-Process
-defect	385	391	I-Process
-at	392	394	O
-one	395	398	O
-pole	399	403	O
-of	404	406	O
-a	407	408	O
-distorted	409	418	O
-2-sphere	419	427	O
-.	427	428	O
-
-These	429	434	O
-solutions	435	444	O
-admit	445	450	O
-the	451	454	O
-interpretation	455	469	B-Process
-of	470	472	I-Process
-3-branes	473	481	I-Process
-with	482	486	I-Process
-negative	487	495	I-Process
-tension	496	503	I-Process
-.	503	504	O
+We	0,2	O	O
+prove	3,8	O	B-Process
+the	9,12	O	I-Process
+uniqueness	13,23	O	I-Process
+of	24,26	O	O
+the	27,30	O	O
+supersymmetric	31,45	O	O
+Salam	46,51	O	O
+–	51,52	O	O
+
+Sezgin	52,58	O	O
+(	59,60	O	O
+Minkowski)4×S2	60,74	O	O
+ground	75,81	O	O
+state	82,87	O	O
+among	88,93	O	O
+all	94,97	O	O
+non	98,101	O	B-Task
+-	101,102	O	I-Task
+singular	102,110	O	I-Task
+solutions	111,120	O	I-Task
+with	121,125	O	I-Task
+a	126,127	O	I-Task
+four	128,132	O	I-Task
+-	132,133	O	I-Task
+dimensional	133,144	O	I-Task
+Poincaré	145,153	O	I-Task
+,	153,154	O	O
+de	155,157	O	B-Task
+Sitter	158,164	O	I-Task
+or	165,167	O	I-Task
+anti	168,172	O	I-Task
+-	172,173	O	I-Task
+de	173,175	O	I-Task
+Sitter	176,182	O	I-Task
+symmetry	183,191	O	I-Task
+.	191,192	O	O
+
+We	193,195	O	O
+construct	196,205	O	B-Process
+the	206,209	O	I-Process
+most	210,214	O	I-Process
+general	215,222	O	I-Process
+solutions	223,232	O	I-Process
+with	233,237	O	O
+an	238,240	O	O
+axial	241,246	O	B-Task
+symmetry	247,255	O	I-Task
+in	256,258	O	I-Task
+the	259,262	O	I-Task
+two	263,266	O	I-Task
+-	266,267	O	I-Task
+dimensional	267,278	O	I-Task
+internal	279,287	O	I-Task
+space	288,293	O	I-Task
+,	293,294	O	I-Task
+and	295,298	O	O
+show	299,303	O	O
+that	304,308	O	O
+included	309,317	O	O
+amongst	318,325	O	O
+these	326,331	O	O
+is	332,334	O	O
+a	335,336	O	O
+family	337,343	O	O
+that	344,348	O	O
+is	349,351	O	O
+non	352,355	O	B-Process
+-	355,356	O	I-Process
+singular	356,364	O	I-Process
+away	365,369	O	I-Process
+from	370,374	O	I-Process
+a	375,376	O	I-Process
+conical	377,384	O	I-Process
+defect	385,391	O	I-Process
+at	392,394	O	O
+one	395,398	O	O
+pole	399,403	O	O
+of	404,406	O	O
+a	407,408	O	O
+distorted	409,418	O	O
+2-sphere	419,427	O	O
+.	427,428	O	O
+
+These	429,434	O	O
+solutions	435,444	O	O
+admit	445,450	O	O
+the	451,454	O	O
+interpretation	455,469	O	B-Process
+of	470,472	O	I-Process
+3-branes	473,481	O	I-Process
+with	482,486	O	I-Process
+negative	487,495	O	I-Process
+tension	496,503	O	I-Process
+.	503,504	O	O
 
 
 -DOCSTART- (S0370269304009141)
 
-Longitudinal	0	12	B-Task
-beam	13	17	I-Task
-and	18	21	I-Task
-target	22	28	I-Task
-single	29	35	I-Task
--	35	36	I-Task
-spin	36	40	I-Task
-asymmetries	41	52	I-Task
-have	53	57	O
-been	58	62	O
-at	63	65	O
-the	66	69	O
-center	70	76	O
-of	77	79	O
-the	80	83	O
-attention	84	93	O
-lately	94	100	O
-,	100	101	O
-since	102	107	O
-they	108	112	O
-have	113	117	O
-been	118	122	O
-measured	123	131	O
-by	132	134	O
-the	135	138	O
-HERMES	139	145	B-Process
-and	146	149	I-Process
-CLAS	150	154	I-Process
-experimental	155	167	I-Process
-Collaborations	168	182	I-Process
-[	183	184	O
-1–4	184	187	O
-]	187	188	O
-and	189	192	O
-more	193	197	O
-measurements	198	210	O
-are	211	214	O
-planned	215	222	O
-.	222	223	O
-
-They	224	228	O
-were	229	233	O
-originally	234	244	O
-believed	245	253	O
-to	254	256	O
-be	257	259	O
-signals	260	267	O
-of	268	270	O
-the	271	274	O
-so	275	277	O
--	277	278	O
-called	278	284	O
-T	285	286	B-Process
--	286	287	I-Process
-odd	287	290	I-Process
-fragmentation	291	304	I-Process
-functions	305	314	I-Process
-[	315	316	O
-5	316	317	O
-]	317	318	O
-,	318	319	O
-in	320	322	O
-particular	323	333	O
-,	333	334	O
-of	335	337	O
-the	338	341	O
-Collins	342	349	B-Process
-function	350	358	I-Process
-[	359	360	O
-6–12	360	364	O
-]	364	365	O
-.	365	366	O
-
-However	367	374	O
-,	374	375	O
-both	376	380	O
-types	381	386	O
-of	387	389	O
-asymmetry	390	399	O
-can	400	403	O
-receive	404	411	B-Process
-contributions	412	425	I-Process
-also	426	430	I-Process
-from	431	435	I-Process
-T	436	437	I-Process
--	437	438	I-Process
-odd	438	441	I-Process
-distribution	442	454	I-Process
-functions	455	464	I-Process
-[	465	466	O
-13–16	466	471	O
-]	471	472	O
-,	472	473	O
-a	474	475	O
-fact	476	480	O
-that	481	485	O
-has	486	489	O
-often	490	495	O
-been	496	500	O
-neglected	501	510	O
-in	511	513	O
-analyses	514	522	O
-.	522	523	O
-
-An	524	526	O
-exhaustive	527	537	B-Task
-treatment	538	547	I-Task
-of	548	550	I-Task
-the	551	554	I-Task
-contributions	555	568	I-Task
-of	569	571	I-Task
-T	572	573	I-Task
--	573	574	I-Task
-odd	574	577	I-Task
-distribution	578	590	I-Task
-functions	591	600	I-Task
-has	601	604	O
-not	605	608	O
-been	609	613	O
-carried	614	621	O
-out	622	625	O
-completely	626	636	O
-so	637	639	O
-far	640	643	O
-,	643	644	O
-especially	645	655	O
-up	656	658	O
-to	659	661	O
-subleading	662	672	B-Process
-order	673	678	I-Process
-in	679	681	I-Process
-an	682	684	I-Process
-expansion	685	694	I-Process
-in	695	697	I-Process
-1/Q	698	701	I-Process
-,	701	702	O
-Q2	703	705	O
-being	706	711	O
-the	712	715	O
-virtuality	716	726	O
-of	727	729	O
-the	730	733	O
-incident	734	742	B-Material
-photon	743	749	I-Material
-and	750	753	O
-the	754	757	O
-only	758	762	O
-hard	763	767	O
-scale	768	773	O
-of	774	776	O
-the	777	780	O
-process	781	788	O
-,	788	789	O
-and	790	793	O
-including	794	803	O
-quark	804	809	B-Process
-mass	810	814	I-Process
-corrections	815	826	I-Process
-.	826	827	O
-
-It	828	830	O
-is	831	833	O
-the	834	837	O
-purpose	838	845	O
-of	846	848	O
-the	849	852	O
-present	853	860	O
-work	861	865	O
-to	866	868	O
-describe	869	877	B-Task
-the	878	881	I-Task
-longitudinal	882	894	I-Task
-beam	895	899	I-Task
-and	900	903	I-Task
-target	904	910	I-Task
-spin	911	915	I-Task
-asymmetries	916	927	I-Task
-in	928	930	O
-a	931	932	O
-complete	933	941	O
-way	942	945	O
-in	946	948	O
-terms	949	954	O
-of	955	957	O
-leading	958	965	O
-and	966	969	O
-subleading	970	980	O
-twist	981	986	B-Process
-distribution	987	999	I-Process
-and	1000	1003	O
-fragmentation	1004	1017	B-Process
-functions	1018	1027	I-Process
-.	1027	1028	O
-
-We	1029	1031	O
-consider	1032	1040	O
-both	1041	1045	O
-single	1046	1052	B-Process
--	1052	1053	I-Process
-particle	1053	1061	I-Process
-inclusive	1062	1071	I-Process
-DIS	1072	1075	I-Process
-,	1075	1076	O
-e+p→e′+h+X	1077	1087	B-Process
-,	1087	1088	O
-and	1089	1092	O
-single	1093	1099	B-Process
--	1099	1100	I-Process
-jet	1100	1103	I-Process
-inclusive	1104	1113	I-Process
-DIS	1114	1117	I-Process
-,	1117	1118	O
-e+p→e′+jet+X.	1119	1132	B-Process
-
-We	1133	1135	O
-assume	1136	1142	O
-factorization	1143	1156	B-Process
-holds	1157	1162	O
-for	1163	1166	O
-these	1167	1172	O
-processes	1173	1182	O
-,	1182	1183	O
-even	1184	1188	O
-though	1189	1195	O
-at	1196	1198	O
-present	1199	1206	O
-there	1207	1212	O
-is	1213	1215	O
-no	1216	1218	O
-factorization	1219	1232	B-Task
-proof	1233	1238	I-Task
-for	1239	1242	I-Task
-observables	1243	1254	I-Task
-containing	1255	1265	I-Task
-subleading	1266	1276	I-Task
--	1276	1277	I-Task
-twist	1277	1282	I-Task
-transverse	1283	1293	I-Task
--	1293	1294	I-Task
-momentum	1294	1302	I-Task
-dependent	1303	1312	I-Task
-functions	1313	1322	I-Task
-(	1323	1324	O
-only	1324	1328	O
-recently	1329	1337	O
-proofs	1338	1344	B-Task
-for	1345	1348	I-Task
-the	1349	1352	I-Task
-leading	1353	1360	I-Task
--	1360	1361	I-Task
-twist	1361	1366	I-Task
-case	1367	1371	I-Task
-have	1372	1376	O
-been	1377	1381	O
-presented	1382	1391	O
-in	1392	1394	O
-Refs	1395	1399	O
-.	1399	1400	O
-
-[	1401	1402	O
-17,18	1402	1407	O
-]	1407	1408	O
-)	1408	1409	O
-.	1409	1410	O
+Longitudinal	0,12	O	B-Task
+beam	13,17	O	I-Task
+and	18,21	O	I-Task
+target	22,28	O	I-Task
+single	29,35	O	I-Task
+-	35,36	O	I-Task
+spin	36,40	O	I-Task
+asymmetries	41,52	O	I-Task
+have	53,57	O	O
+been	58,62	O	O
+at	63,65	O	O
+the	66,69	O	O
+center	70,76	O	O
+of	77,79	O	O
+the	80,83	O	O
+attention	84,93	O	O
+lately	94,100	O	O
+,	100,101	O	O
+since	102,107	O	O
+they	108,112	O	O
+have	113,117	O	O
+been	118,122	O	O
+measured	123,131	O	O
+by	132,134	O	O
+the	135,138	O	O
+HERMES	139,145	O	B-Process
+and	146,149	O	I-Process
+CLAS	150,154	O	I-Process
+experimental	155,167	O	I-Process
+Collaborations	168,182	O	I-Process
+[	183,184	O	O
+1–4	184,187	O	O
+]	187,188	O	O
+and	189,192	O	O
+more	193,197	O	O
+measurements	198,210	O	O
+are	211,214	O	O
+planned	215,222	O	O
+.	222,223	O	O
+
+They	224,228	O	O
+were	229,233	O	O
+originally	234,244	O	O
+believed	245,253	O	O
+to	254,256	O	O
+be	257,259	O	O
+signals	260,267	O	O
+of	268,270	O	O
+the	271,274	O	O
+so	275,277	O	O
+-	277,278	O	O
+called	278,284	O	O
+T	285,286	O	B-Process
+-	286,287	O	I-Process
+odd	287,290	O	I-Process
+fragmentation	291,304	O	I-Process
+functions	305,314	O	I-Process
+[	315,316	O	O
+5	316,317	O	O
+]	317,318	O	O
+,	318,319	O	O
+in	320,322	O	O
+particular	323,333	O	O
+,	333,334	O	O
+of	335,337	O	O
+the	338,341	O	O
+Collins	342,349	O	B-Process
+function	350,358	O	I-Process
+[	359,360	O	O
+6–12	360,364	O	O
+]	364,365	O	O
+.	365,366	O	O
+
+However	367,374	O	O
+,	374,375	O	O
+both	376,380	O	O
+types	381,386	O	O
+of	387,389	O	O
+asymmetry	390,399	O	O
+can	400,403	O	O
+receive	404,411	O	B-Process
+contributions	412,425	O	I-Process
+also	426,430	O	I-Process
+from	431,435	O	I-Process
+T	436,437	O	I-Process
+-	437,438	O	I-Process
+odd	438,441	O	I-Process
+distribution	442,454	O	I-Process
+functions	455,464	O	I-Process
+[	465,466	O	O
+13–16	466,471	O	O
+]	471,472	O	O
+,	472,473	O	O
+a	474,475	O	O
+fact	476,480	O	O
+that	481,485	O	O
+has	486,489	O	O
+often	490,495	O	O
+been	496,500	O	O
+neglected	501,510	O	O
+in	511,513	O	O
+analyses	514,522	O	O
+.	522,523	O	O
+
+An	524,526	O	O
+exhaustive	527,537	O	B-Task
+treatment	538,547	O	I-Task
+of	548,550	O	I-Task
+the	551,554	O	I-Task
+contributions	555,568	O	I-Task
+of	569,571	O	I-Task
+T	572,573	O	I-Task
+-	573,574	O	I-Task
+odd	574,577	O	I-Task
+distribution	578,590	O	I-Task
+functions	591,600	O	I-Task
+has	601,604	O	O
+not	605,608	O	O
+been	609,613	O	O
+carried	614,621	O	O
+out	622,625	O	O
+completely	626,636	O	O
+so	637,639	O	O
+far	640,643	O	O
+,	643,644	O	O
+especially	645,655	O	O
+up	656,658	O	O
+to	659,661	O	O
+subleading	662,672	O	B-Process
+order	673,678	O	I-Process
+in	679,681	O	I-Process
+an	682,684	O	I-Process
+expansion	685,694	O	I-Process
+in	695,697	O	I-Process
+1/Q	698,701	O	I-Process
+,	701,702	O	O
+Q2	703,705	O	O
+being	706,711	O	O
+the	712,715	O	O
+virtuality	716,726	O	O
+of	727,729	O	O
+the	730,733	O	O
+incident	734,742	O	B-Material
+photon	743,749	O	I-Material
+and	750,753	O	O
+the	754,757	O	O
+only	758,762	O	O
+hard	763,767	O	O
+scale	768,773	O	O
+of	774,776	O	O
+the	777,780	O	O
+process	781,788	O	O
+,	788,789	O	O
+and	790,793	O	O
+including	794,803	O	O
+quark	804,809	O	B-Process
+mass	810,814	O	I-Process
+corrections	815,826	O	I-Process
+.	826,827	O	O
+
+It	828,830	O	O
+is	831,833	O	O
+the	834,837	O	O
+purpose	838,845	O	O
+of	846,848	O	O
+the	849,852	O	O
+present	853,860	O	O
+work	861,865	O	O
+to	866,868	O	O
+describe	869,877	O	B-Task
+the	878,881	O	I-Task
+longitudinal	882,894	O	I-Task
+beam	895,899	O	I-Task
+and	900,903	O	I-Task
+target	904,910	O	I-Task
+spin	911,915	O	I-Task
+asymmetries	916,927	O	I-Task
+in	928,930	O	O
+a	931,932	O	O
+complete	933,941	O	O
+way	942,945	O	O
+in	946,948	O	O
+terms	949,954	O	O
+of	955,957	O	O
+leading	958,965	O	O
+and	966,969	O	O
+subleading	970,980	O	O
+twist	981,986	O	B-Process
+distribution	987,999	O	I-Process
+and	1000,1003	O	O
+fragmentation	1004,1017	O	B-Process
+functions	1018,1027	O	I-Process
+.	1027,1028	O	O
+
+We	1029,1031	O	O
+consider	1032,1040	O	O
+both	1041,1045	O	O
+single	1046,1052	O	B-Process
+-	1052,1053	O	I-Process
+particle	1053,1061	O	I-Process
+inclusive	1062,1071	O	I-Process
+DIS	1072,1075	O	I-Process
+,	1075,1076	O	O
+e+p→e′+h+X	1077,1087	O	B-Process
+,	1087,1088	O	O
+and	1089,1092	O	O
+single	1093,1099	O	B-Process
+-	1099,1100	O	I-Process
+jet	1100,1103	O	I-Process
+inclusive	1104,1113	O	I-Process
+DIS	1114,1117	O	I-Process
+,	1117,1118	O	O
+e+p→e′+jet+X.	1119,1132	O	B-Process
+
+We	1133,1135	O	O
+assume	1136,1142	O	O
+factorization	1143,1156	O	B-Process
+holds	1157,1162	O	O
+for	1163,1166	O	O
+these	1167,1172	O	O
+processes	1173,1182	O	O
+,	1182,1183	O	O
+even	1184,1188	O	O
+though	1189,1195	O	O
+at	1196,1198	O	O
+present	1199,1206	O	O
+there	1207,1212	O	O
+is	1213,1215	O	O
+no	1216,1218	O	O
+factorization	1219,1232	O	B-Task
+proof	1233,1238	O	I-Task
+for	1239,1242	O	I-Task
+observables	1243,1254	O	I-Task
+containing	1255,1265	O	I-Task
+subleading	1266,1276	O	I-Task
+-	1276,1277	O	I-Task
+twist	1277,1282	O	I-Task
+transverse	1283,1293	O	I-Task
+-	1293,1294	O	I-Task
+momentum	1294,1302	O	I-Task
+dependent	1303,1312	O	I-Task
+functions	1313,1322	O	I-Task
+(	1323,1324	O	O
+only	1324,1328	O	O
+recently	1329,1337	O	O
+proofs	1338,1344	O	B-Task
+for	1345,1348	O	I-Task
+the	1349,1352	O	I-Task
+leading	1353,1360	O	I-Task
+-	1360,1361	O	I-Task
+twist	1361,1366	O	I-Task
+case	1367,1371	O	I-Task
+have	1372,1376	O	O
+been	1377,1381	O	O
+presented	1382,1391	O	O
+in	1392,1394	O	O
+Refs	1395,1399	O	O
+.	1399,1400	O	O
+
+[	1401,1402	O	O
+17,18	1402,1407	O	O
+]	1407,1408	O	O
+)	1408,1409	O	O
+.	1409,1410	O	O
 
 
 -DOCSTART- (S0370269304009165)
 
-There	0	5	O
-are	6	9	O
-many	10	14	O
-possible	15	23	O
-applications	24	36	B-Task
-for	37	40	I-Task
-this	41	45	I-Task
-mechanism	46	55	I-Task
-.	55	56	O
-
-In	57	59	O
-this	60	64	O
-Letter	65	71	O
-,	71	72	O
-we	73	75	O
-have	76	80	O
-concentrated	81	93	O
-on	94	96	O
-its	97	100	B-Task
-contribution	101	113	I-Task
-to	114	116	I-Task
-leptogenesis	117	129	I-Task
-and	130	133	I-Task
-baryogenesis	134	146	I-Task
-.	146	147	O
-
-Our	148	151	O
-calculation	152	163	O
-is	164	166	O
-applicable	167	177	O
-in	178	180	B-Process
-the	181	184	I-Process
-phase	185	190	I-Process
-when	191	195	I-Process
-the	196	199	I-Process
-fields	200	206	I-Process
-are	207	210	I-Process
-rolling	211	218	I-Process
-.	218	219	O
-
-This	220	224	O
-rolling	225	232	B-Process
-phase	233	238	I-Process
-will	239	243	O
-start	244	249	O
-when	250	254	O
-the	255	258	O
-Hubble	259	265	B-Process
-constant	266	274	I-Process
-drops	275	280	I-Process
-to	281	283	I-Process
-a	284	285	I-Process
-value	286	291	I-Process
-comparable	292	302	I-Process
-to	303	305	I-Process
-the	306	309	I-Process
-mass	310	314	I-Process
-of	315	317	I-Process
-the	318	321	I-Process
-scalar	322	328	I-Process
-fields	329	335	I-Process
-.	335	336	O
-
-It	337	339	O
-is	340	342	O
-at	343	345	O
-this	346	350	O
-time	351	355	O
-in	356	358	O
-the	359	362	O
-cosmological	363	375	B-Process
-evolution	376	385	I-Process
-that	386	390	O
-CP	391	393	B-Process
-violation	394	403	I-Process
-is	404	406	O
-most	407	411	O
-efficient	412	421	O
-.	421	422	O
-
-After	423	428	O
-the	429	432	O
-fields	433	439	B-Process
-have	440	444	I-Process
-relaxed	445	452	I-Process
-to	453	455	I-Process
-their	456	461	I-Process
-vacuum	462	468	I-Process
-values	469	475	I-Process
-,	475	476	O
-our	477	480	O
-CP	481	483	B-Process
-violation	484	493	I-Process
-mechanism	494	503	I-Process
-turns	504	509	O
-off	510	513	O
-.	513	514	O
-
-We	515	517	O
-plan	518	522	O
-to	523	525	O
-discuss	526	533	O
-more	534	538	O
-details	539	546	O
-,	546	547	O
-in	548	550	O
-particular	551	561	O
-applications	562	574	B-Task
-to	575	577	I-Task
-concrete	578	586	I-Task
-baryogenesis	587	599	I-Task
-models	600	606	I-Task
-,	606	607	O
-in	608	610	O
-a	611	612	O
-future	613	619	O
-publication	620	631	O
-[	632	633	O
-20	633	635	O
-]	635	636	O
-.	636	637	O
-
-Note	638	642	O
-that	643	647	O
-string	648	654	B-Task
-cosmology	655	664	I-Task
-and	665	668	O
-brane	669	674	B-Task
-world	675	680	I-Task
-scenarios	681	690	I-Task
-may	691	694	O
-provide	695	702	O
-natural	703	710	O
-settings	711	719	O
-for	720	723	O
-the	724	727	O
-origin	728	734	O
-of	735	737	O
-the	738	741	O
-scalar	742	748	B-Material
-fields	749	755	I-Material
-required	756	764	O
-for	765	768	O
-our	769	772	B-Process
-mechanism	773	782	I-Process
-(	783	784	O
-e.g.	784	788	O
-see	789	792	O
-Ref	793	796	O
-.	796	797	O
-
-[	798	799	O
-30	799	801	O
-]	801	802	O
-for	803	806	O
-a	807	808	O
-recent	809	815	O
-paper	816	821	O
-on	822	824	O
-how	825	828	B-Task
-scalar	829	835	I-Task
-fields	836	842	I-Task
-from	843	847	I-Task
-brane	848	853	I-Task
-world	854	859	I-Task
-scenarios	860	869	I-Task
-can	870	873	I-Task
-play	874	878	I-Task
-a	879	880	I-Task
-new	881	884	I-Task
-role	885	889	I-Task
-in	890	892	I-Task
-spontaneous	893	904	I-Task
-baryogenesis	905	917	I-Task
-)	917	918	O
-.	918	919	O
+There	0,5	O	O
+are	6,9	O	O
+many	10,14	O	O
+possible	15,23	O	O
+applications	24,36	O	B-Task
+for	37,40	O	I-Task
+this	41,45	O	I-Task
+mechanism	46,55	O	I-Task
+.	55,56	O	O
+
+In	57,59	O	O
+this	60,64	O	O
+Letter	65,71	O	O
+,	71,72	O	O
+we	73,75	O	O
+have	76,80	O	O
+concentrated	81,93	O	O
+on	94,96	O	O
+its	97,100	O	B-Task
+contribution	101,113	O	I-Task
+to	114,116	O	I-Task
+leptogenesis	117,129	O	I-Task
+and	130,133	O	I-Task
+baryogenesis	134,146	O	I-Task
+.	146,147	O	O
+
+Our	148,151	O	O
+calculation	152,163	O	O
+is	164,166	O	O
+applicable	167,177	O	O
+in	178,180	O	B-Process
+the	181,184	O	I-Process
+phase	185,190	O	I-Process
+when	191,195	O	I-Process
+the	196,199	O	I-Process
+fields	200,206	O	I-Process
+are	207,210	O	I-Process
+rolling	211,218	O	I-Process
+.	218,219	O	O
+
+This	220,224	O	O
+rolling	225,232	O	B-Process
+phase	233,238	O	I-Process
+will	239,243	O	O
+start	244,249	O	O
+when	250,254	O	O
+the	255,258	O	O
+Hubble	259,265	O	B-Process
+constant	266,274	O	I-Process
+drops	275,280	O	I-Process
+to	281,283	O	I-Process
+a	284,285	O	I-Process
+value	286,291	O	I-Process
+comparable	292,302	O	I-Process
+to	303,305	O	I-Process
+the	306,309	O	I-Process
+mass	310,314	O	I-Process
+of	315,317	O	I-Process
+the	318,321	O	I-Process
+scalar	322,328	O	I-Process
+fields	329,335	O	I-Process
+.	335,336	O	O
+
+It	337,339	O	O
+is	340,342	O	O
+at	343,345	O	O
+this	346,350	O	O
+time	351,355	O	O
+in	356,358	O	O
+the	359,362	O	O
+cosmological	363,375	O	B-Process
+evolution	376,385	O	I-Process
+that	386,390	O	O
+CP	391,393	O	B-Process
+violation	394,403	O	I-Process
+is	404,406	O	O
+most	407,411	O	O
+efficient	412,421	O	O
+.	421,422	O	O
+
+After	423,428	O	O
+the	429,432	O	O
+fields	433,439	O	B-Process
+have	440,444	O	I-Process
+relaxed	445,452	O	I-Process
+to	453,455	O	I-Process
+their	456,461	O	I-Process
+vacuum	462,468	O	I-Process
+values	469,475	O	I-Process
+,	475,476	O	O
+our	477,480	O	O
+CP	481,483	O	B-Process
+violation	484,493	O	I-Process
+mechanism	494,503	O	I-Process
+turns	504,509	O	O
+off	510,513	O	O
+.	513,514	O	O
+
+We	515,517	O	O
+plan	518,522	O	O
+to	523,525	O	O
+discuss	526,533	O	O
+more	534,538	O	O
+details	539,546	O	O
+,	546,547	O	O
+in	548,550	O	O
+particular	551,561	O	O
+applications	562,574	O	B-Task
+to	575,577	O	I-Task
+concrete	578,586	O	I-Task
+baryogenesis	587,599	O	I-Task
+models	600,606	O	I-Task
+,	606,607	O	O
+in	608,610	O	O
+a	611,612	O	O
+future	613,619	O	O
+publication	620,631	O	O
+[	632,633	O	O
+20	633,635	O	O
+]	635,636	O	O
+.	636,637	O	O
+
+Note	638,642	O	O
+that	643,647	O	O
+string	648,654	O	B-Task
+cosmology	655,664	O	I-Task
+and	665,668	O	O
+brane	669,674	O	B-Task
+world	675,680	O	I-Task
+scenarios	681,690	O	I-Task
+may	691,694	O	O
+provide	695,702	O	O
+natural	703,710	O	O
+settings	711,719	O	O
+for	720,723	O	O
+the	724,727	O	O
+origin	728,734	O	O
+of	735,737	O	O
+the	738,741	O	O
+scalar	742,748	O	B-Material
+fields	749,755	O	I-Material
+required	756,764	O	O
+for	765,768	O	O
+our	769,772	O	B-Process
+mechanism	773,782	O	I-Process
+(	783,784	O	O
+e.g.	784,788	O	O
+see	789,792	O	O
+Ref	793,796	O	O
+.	796,797	O	O
+
+[	798,799	O	O
+30	799,801	O	O
+]	801,802	O	O
+for	803,806	O	O
+a	807,808	O	O
+recent	809,815	O	O
+paper	816,821	O	O
+on	822,824	O	O
+how	825,828	O	B-Task
+scalar	829,835	O	I-Task
+fields	836,842	O	I-Task
+from	843,847	O	I-Task
+brane	848,853	O	I-Task
+world	854,859	O	I-Task
+scenarios	860,869	O	I-Task
+can	870,873	O	I-Task
+play	874,878	O	I-Task
+a	879,880	O	I-Task
+new	881,884	O	I-Task
+role	885,889	O	I-Task
+in	890,892	O	I-Task
+spontaneous	893,904	O	I-Task
+baryogenesis	905,917	O	I-Task
+)	917,918	O	O
+.	918,919	O	O
 
 
 -DOCSTART- (S0370269304009177)
 
-In	0	2	O
-the	3	6	O
-brane	7	12	B-Material
-system	13	19	I-Material
-appearing	20	29	O
-in	30	32	O
-string	33	39	O
-/	39	40	O
-
-D	40	41	O
--	41	42	O
-brane	42	47	O
-theory	48	54	O
-,	54	55	O
-the	56	59	O
-stableness	60	70	B-Task
-is	71	73	O
-the	74	77	O
-most	78	82	O
-important	83	92	O
-requirement	93	104	O
-.	104	105	O
-
-We	106	108	O
-find	109	113	O
-some	114	118	O
-stable	119	125	B-Process
-brane	126	131	I-Process
-configurations	132	146	I-Process
-in	147	149	O
-the	150	153	O
-SUSY	154	158	B-Process
-bulk	159	163	I-Process
--	163	164	I-Process
-boundary	164	172	I-Process
-theory	173	179	I-Process
-.	179	180	O
-
-We	181	183	O
-systematically	184	198	O
-solve	199	204	B-Task
-the	205	208	I-Task
-singular	209	217	I-Task
-field	218	223	I-Task
-equation	224	232	I-Task
-using	233	238	O
-a	239	240	O
-general	241	248	B-Process
-mathematical	249	261	I-Process
-result	262	268	I-Process
-about	269	274	I-Process
-the	275	278	I-Process
-free	279	283	I-Process
--	283	284	I-Process
-wave	284	288	I-Process
-solution	289	297	I-Process
-in	298	300	O
-S1/Z2-space	301	312	O
-.	312	313	O
-
-The	314	317	O
-two	318	321	O
-scalars	322	329	O
-,	329	330	O
-the	331	334	O
-extra	335	340	B-Process
--	340	341	I-Process
-component	341	350	I-Process
-of	351	353	I-Process
-the	354	357	I-Process
-bulk	358	362	I-Process
--	362	363	I-Process
-vector	363	369	I-Process
-(	370	371	O
-A5	371	373	B-Process
-)	373	374	O
-and	375	378	O
-the	379	382	O
-bulk	383	387	B-Process
--	387	388	I-Process
-scalar	388	394	I-Process
-(	395	396	O
-Φ	396	397	B-Process
-)	397	398	O
-,	398	399	O
-constitute	400	410	O
-the	411	414	O
-solutions	415	424	O
-.	424	425	O
-
-Their	426	431	O
-different	432	441	B-Task
-roles	442	447	I-Task
-are	448	451	I-Task
-clarified	452	461	I-Task
-.	461	462	O
-
-The	463	466	O
-importance	467	477	O
-of	478	480	O
-the	481	484	O
-“	485	486	O
-parallel	486	494	O
-”	494	495	O
-configuration	496	509	O
-is	510	512	O
-disclosed	513	522	O
-.	522	523	O
-
-The	524	527	O
-boundary	528	536	B-Process
-condition	537	546	I-Process
-(	547	548	O
-of	548	550	O
-A5	551	553	O
-)	553	554	O
-and	555	558	O
-the	559	562	O
-boundary	563	571	O
-matter	572	578	O
-fields	579	585	O
-are	586	589	O
-two	590	593	O
-important	594	603	O
-elements	604	612	O
-for	613	616	O
-making	617	623	O
-the	624	627	O
-localized	628	637	O
-configuration	638	651	O
-.	651	652	O
-
-Among	653	658	O
-all	659	662	O
-solutions	663	672	O
-,	672	673	O
-the	674	677	O
-solution	678	686	B-Process
-(	687	688	O
-c1=−1	688	693	B-Process
-,	693	694	I-Process
-c2=−1	695	700	I-Process
-)	700	701	O
-is	702	704	O
-expected	705	713	O
-to	714	716	O
-be	717	719	O
-the	720	723	O
-thin	724	728	B-Process
--	728	729	I-Process
-wall	729	733	I-Process
-limit	734	739	I-Process
-of	740	742	O
-a	743	744	O
-kink	745	749	B-Process
-solution	750	758	I-Process
-.	758	759	O
-
-We	760	762	O
-present	763	770	O
-a	771	772	O
-bulk	773	777	B-Process
-Higgs	778	783	I-Process
-model	784	789	I-Process
-corresponding	790	803	O
-to	804	806	O
-the	807	810	O
-non	811	814	B-Process
--	814	815	I-Process
-singular	815	823	I-Process
-solution	824	832	I-Process
-.	832	833	O
-
-The	834	837	O
-model	838	843	O
-is	844	846	O
-expected	847	855	O
-to	856	858	O
-give	859	863	O
-a	864	865	O
-non	866	869	B-Process
--	869	870	I-Process
-singular	870	878	I-Process
-and	879	882	I-Process
-stable	883	889	I-Process
-brane	890	895	I-Process
-solution	896	904	I-Process
-in	905	907	O
-the	908	911	O
-SUSY	912	916	B-Process
-bulk	917	921	I-Process
--	921	922	I-Process
-boundary	922	930	I-Process
-theory	931	937	I-Process
-.	937	938	O
+In	0,2	O	O
+the	3,6	O	O
+brane	7,12	O	B-Material
+system	13,19	O	I-Material
+appearing	20,29	O	O
+in	30,32	O	O
+string	33,39	O	O
+/	39,40	O	O
+
+D	40,41	O	O
+-	41,42	O	O
+brane	42,47	O	O
+theory	48,54	O	O
+,	54,55	O	O
+the	56,59	O	O
+stableness	60,70	O	B-Task
+is	71,73	O	O
+the	74,77	O	O
+most	78,82	O	O
+important	83,92	O	O
+requirement	93,104	O	O
+.	104,105	O	O
+
+We	106,108	O	O
+find	109,113	O	O
+some	114,118	O	O
+stable	119,125	O	B-Process
+brane	126,131	O	I-Process
+configurations	132,146	O	I-Process
+in	147,149	O	O
+the	150,153	O	O
+SUSY	154,158	O	B-Process
+bulk	159,163	O	I-Process
+-	163,164	O	I-Process
+boundary	164,172	O	I-Process
+theory	173,179	O	I-Process
+.	179,180	O	O
+
+We	181,183	O	O
+systematically	184,198	O	O
+solve	199,204	O	B-Task
+the	205,208	O	I-Task
+singular	209,217	O	I-Task
+field	218,223	O	I-Task
+equation	224,232	O	I-Task
+using	233,238	O	O
+a	239,240	O	O
+general	241,248	O	B-Process
+mathematical	249,261	O	I-Process
+result	262,268	O	I-Process
+about	269,274	O	I-Process
+the	275,278	O	I-Process
+free	279,283	O	I-Process
+-	283,284	O	I-Process
+wave	284,288	O	I-Process
+solution	289,297	O	I-Process
+in	298,300	O	O
+S1/Z2-space	301,312	O	O
+.	312,313	O	O
+
+The	314,317	O	O
+two	318,321	O	O
+scalars	322,329	O	O
+,	329,330	O	O
+the	331,334	O	O
+extra	335,340	O	B-Process
+-	340,341	O	I-Process
+component	341,350	O	I-Process
+of	351,353	O	I-Process
+the	354,357	O	I-Process
+bulk	358,362	O	I-Process
+-	362,363	O	I-Process
+vector	363,369	O	I-Process
+(	370,371	O	O
+A5	371,373	O	B-Process
+)	373,374	O	O
+and	375,378	O	O
+the	379,382	O	O
+bulk	383,387	O	B-Process
+-	387,388	O	I-Process
+scalar	388,394	O	I-Process
+(	395,396	O	O
+Φ	396,397	O	B-Process
+)	397,398	O	O
+,	398,399	O	O
+constitute	400,410	O	O
+the	411,414	O	O
+solutions	415,424	O	O
+.	424,425	O	O
+
+Their	426,431	O	O
+different	432,441	O	B-Task
+roles	442,447	O	I-Task
+are	448,451	O	I-Task
+clarified	452,461	O	I-Task
+.	461,462	O	O
+
+The	463,466	O	O
+importance	467,477	O	O
+of	478,480	O	O
+the	481,484	O	O
+“	485,486	O	O
+parallel	486,494	O	O
+”	494,495	O	O
+configuration	496,509	O	O
+is	510,512	O	O
+disclosed	513,522	O	O
+.	522,523	O	O
+
+The	524,527	O	O
+boundary	528,536	O	B-Process
+condition	537,546	O	I-Process
+(	547,548	O	O
+of	548,550	O	O
+A5	551,553	O	O
+)	553,554	O	O
+and	555,558	O	O
+the	559,562	O	O
+boundary	563,571	O	O
+matter	572,578	O	O
+fields	579,585	O	O
+are	586,589	O	O
+two	590,593	O	O
+important	594,603	O	O
+elements	604,612	O	O
+for	613,616	O	O
+making	617,623	O	O
+the	624,627	O	O
+localized	628,637	O	O
+configuration	638,651	O	O
+.	651,652	O	O
+
+Among	653,658	O	O
+all	659,662	O	O
+solutions	663,672	O	O
+,	672,673	O	O
+the	674,677	O	O
+solution	678,686	O	B-Process
+(	687,688	O	O
+c1=−1	688,693	O	B-Process
+,	693,694	O	I-Process
+c2=−1	695,700	O	I-Process
+)	700,701	O	O
+is	702,704	O	O
+expected	705,713	O	O
+to	714,716	O	O
+be	717,719	O	O
+the	720,723	O	O
+thin	724,728	O	B-Process
+-	728,729	O	I-Process
+wall	729,733	O	I-Process
+limit	734,739	O	I-Process
+of	740,742	O	O
+a	743,744	O	O
+kink	745,749	O	B-Process
+solution	750,758	O	I-Process
+.	758,759	O	O
+
+We	760,762	O	O
+present	763,770	O	O
+a	771,772	O	O
+bulk	773,777	O	B-Process
+Higgs	778,783	O	I-Process
+model	784,789	O	I-Process
+corresponding	790,803	O	O
+to	804,806	O	O
+the	807,810	O	O
+non	811,814	O	B-Process
+-	814,815	O	I-Process
+singular	815,823	O	I-Process
+solution	824,832	O	I-Process
+.	832,833	O	O
+
+The	834,837	O	O
+model	838,843	O	O
+is	844,846	O	O
+expected	847,855	O	O
+to	856,858	O	O
+give	859,863	O	O
+a	864,865	O	O
+non	866,869	O	B-Process
+-	869,870	O	I-Process
+singular	870,878	O	I-Process
+and	879,882	O	I-Process
+stable	883,889	O	I-Process
+brane	890,895	O	I-Process
+solution	896,904	O	I-Process
+in	905,907	O	O
+the	908,911	O	O
+SUSY	912,916	O	B-Process
+bulk	917,921	O	I-Process
+-	921,922	O	I-Process
+boundary	922,930	O	I-Process
+theory	931,937	O	I-Process
+.	937,938	O	O
 
 
 -DOCSTART- (S0370269304009189)
 
-The	0	3	O
-spins	4	9	B-Task
-and	10	13	I-Task
-parities	14	22	I-Task
-of	23	25	I-Task
-Θ+	26	28	I-Task
-and	29	32	I-Task
-Ξ−−	33	36	I-Task
-are	37	40	O
-not	41	44	O
-yet	45	48	O
-known	49	54	O
-experimentally	55	69	O
-.	69	70	O
-
-In	71	73	O
-this	74	78	O
-new	79	82	B-Task
-wave	83	87	I-Task
-of	88	90	I-Task
-pentaquark	91	101	I-Task
-research	102	110	I-Task
-,	110	111	O
-most	112	116	O
-theoretical	117	128	O
-papers	129	135	O
-take	136	140	B-Process
-the	141	144	I-Process
-spin	145	149	I-Process
-equal	150	155	I-Process
-to	156	158	I-Process
-1/2	159	162	I-Process
-.	162	163	O
-
-The	164	167	O
-parity	168	174	O
-is	175	177	O
-more	178	182	O
-controversial	183	196	O
-.	196	197	O
-
-In	198	200	O
-chiral	201	207	B-Process
-soliton	208	215	I-Process
-or	216	218	O
-Skyrme	219	225	B-Process
-models	226	232	I-Process
-the	233	236	O
-parity	237	243	O
-is	244	246	O
-positive	247	255	O
-[	256	257	O
-4	257	258	O
-]	258	259	O
-.	259	260	O
-
-In	261	263	O
-constituent	264	275	B-Process
-quark	276	281	I-Process
-models	282	288	I-Process
-it	289	291	O
-is	292	294	O
-usually	295	302	O
-positive	303	311	O
-.	311	312	O
-
-In	313	315	O
-the	316	319	O
-present	320	327	O
-approach	328	336	O
-,	336	337	O
-the	338	341	O
-parity	342	348	B-Task
-of	349	351	I-Task
-the	352	355	I-Task
-pentaquark	356	366	I-Task
-is	367	369	O
-given	370	375	O
-by	376	378	O
-P=(−)ℓ+1	379	387	B-Task
-,	387	388	O
-where	389	394	O
-ℓ	395	396	B-Task
-is	397	399	O
-the	400	403	O
-angular	404	411	B-Task
-momentum	412	420	I-Task
-associated	421	431	I-Task
-with	432	436	I-Task
-the	437	440	I-Task
-relative	441	449	I-Task
-coordinates	450	461	I-Task
-of	462	464	I-Task
-the	465	468	I-Task
-q4	469	471	I-Task
-subsystem	472	481	I-Task
-.	481	482	O
-
-We	483	485	O
-analyze	486	493	O
-the	494	497	O
-case	498	502	O
-where	503	508	O
-the	509	512	O
-subsystem	513	522	B-Task
-of	523	525	I-Task
-four	526	530	I-Task
-light	531	536	I-Task
-quarks	537	543	I-Task
-is	544	546	I-Task
-in	547	549	I-Task
-a	550	551	I-Task
-state	552	557	I-Task
-of	558	560	I-Task
-orbital	561	568	I-Task
-symmetry	569	577	I-Task
-[	578	579	O
-31]O	579	583	O
-and	584	587	O
-carries	588	595	O
-an	596	598	O
-angular	599	606	O
-momentum	607	615	O
-
-ℓ=1	616	619	O
-.	619	620	O
-
-Although	621	629	O
-the	630	633	O
-kinetic	634	641	B-Process
-energy	642	648	I-Process
-of	649	651	O
-such	652	656	O
-a	657	658	O
-state	659	664	O
-is	665	667	O
-higher	668	674	O
-than	675	679	O
-that	680	684	O
-of	685	687	O
-the	688	691	O
-totally	692	699	B-Process
-symmetric	700	709	I-Process
-[	710	711	I-Process
-4]O	711	714	I-Process
-state	715	720	I-Process
-,	720	721	O
-the	722	725	O
-[	726	727	O
-31]O	727	731	B-Process
-symmetry	732	740	I-Process
-is	741	743	O
-the	744	747	O
-most	748	752	O
-favourable	753	763	O
-both	764	768	O
-for	769	772	O
-the	773	776	O
-flavour	777	784	B-Process
-–	784	785	I-Process
-spin	785	789	I-Process
-interaction	790	801	I-Process
-[	802	803	O
-12	803	805	O
-]	805	806	O
-and	807	810	O
-the	811	814	O
-colour	815	821	B-Process
-–	821	822	I-Process
-spin	822	826	I-Process
-interaction	827	838	I-Process
-[	839	840	O
-13	840	842	O
-]	842	843	O
-.	843	844	O
-
-In	845	847	O
-the	848	851	O
-first	852	857	O
-case	858	862	O
-the	863	866	O
-statement	867	876	O
-is	877	879	O
-confirmed	880	889	O
-by	890	892	O
-the	893	896	O
-comparison	897	907	B-Task
-between	908	915	I-Task
-the	916	919	I-Task
-realistic	920	929	I-Task
-calculations	930	942	I-Task
-for	943	946	I-Task
-positive	947	955	I-Task
-parity	956	962	I-Task
-[	963	964	I-Task
-12	964	966	I-Task
-]	966	967	I-Task
-and	968	971	I-Task
-negative	972	980	I-Task
-parity	981	987	I-Task
-[	988	989	I-Task
-14	989	991	I-Task
-]	991	992	I-Task
-,	992	993	I-Task
-based	994	999	I-Task
-on	1000	1002	I-Task
-the	1003	1006	I-Task
-same	1007	1011	I-Task
-quark	1012	1017	I-Task
-model	1018	1023	I-Task
-[	1024	1025	I-Task
-15	1025	1027	I-Task
-]	1027	1028	I-Task
-.	1028	1029	O
-
-In	1030	1032	O
-Ref	1033	1036	O
-.	1036	1037	O
-
-[	1038	1039	O
-12	1039	1041	O
-]	1041	1042	O
-the	1043	1046	O
-antiquark	1047	1056	B-Material
-was	1057	1060	O
-heavy	1061	1066	O
-,	1066	1067	O
-c	1068	1069	O
-or	1070	1072	O
-b	1073	1074	O
-,	1074	1075	O
-and	1076	1079	O
-accordingly	1080	1091	O
-the	1092	1095	O
-interaction	1096	1107	B-Process
-between	1108	1115	I-Process
-light	1116	1121	I-Process
-quarks	1122	1128	I-Process
-and	1129	1132	I-Process
-the	1133	1136	I-Process
-heavy	1137	1142	I-Process
-antiquark	1143	1152	I-Process
-was	1153	1156	I-Process
-neglected	1157	1166	I-Process
-,	1166	1167	I-Process
-consistent	1168	1178	I-Process
-with	1179	1183	I-Process
-the	1184	1187	I-Process
-heavy	1188	1193	I-Process
-quark	1194	1199	I-Process
-limit	1200	1205	I-Process
-.	1205	1206	O
-
-In	1207	1209	O
-Ref	1210	1213	O
-.	1213	1214	O
-
-[	1215	1216	O
-16	1216	1218	O
-]	1218	1219	O
-an	1220	1222	O
-attractive	1223	1233	O
-spin	1234	1238	B-Process
-–	1238	1239	I-Process
-spin	1239	1243	I-Process
-interaction	1244	1255	I-Process
-between	1256	1263	O
-s̄	1264	1266	B-Material
-and	1267	1270	O
-the	1271	1274	O
-light	1275	1280	B-Material
-quarks	1281	1287	I-Material
-was	1288	1291	O
-incorporated	1292	1304	O
-and	1305	1308	O
-shown	1309	1314	O
-that	1315	1319	O
-a	1320	1321	O
-stable	1322	1328	O
-or	1329	1331	O
-narrow	1332	1338	O
-positive	1339	1347	O
-parity	1348	1354	O
-uudds̄	1355	1361	B-Material
-pentaquark	1362	1372	I-Material
-can	1373	1376	O
-be	1377	1379	O
-accommodated	1380	1392	O
-within	1393	1399	O
-such	1400	1404	O
-a	1405	1406	O
-model	1407	1412	O
-.	1412	1413	O
-
-This	1414	1418	O
-interaction	1419	1430	O
-has	1431	1434	O
-a	1435	1436	O
-form	1437	1441	O
-that	1442	1446	O
-corresponds	1447	1458	O
-to	1459	1461	O
-η	1462	1463	B-Process
-meson	1464	1469	I-Process
-exchange	1470	1478	I-Process
-[	1479	1480	O
-17	1480	1482	O
-]	1482	1483	O
-and	1484	1487	O
-its	1488	1491	O
-role	1492	1496	O
-is	1497	1499	O
-to	1500	1502	O
-lower	1503	1508	B-Process
-the	1509	1512	I-Process
-energy	1513	1519	I-Process
-of	1520	1522	I-Process
-the	1523	1526	I-Process
-whole	1527	1532	I-Process
-system	1533	1539	I-Process
-.	1539	1540	O
+The	0,3	O	O
+spins	4,9	O	B-Task
+and	10,13	O	I-Task
+parities	14,22	O	I-Task
+of	23,25	O	I-Task
+Θ+	26,28	O	I-Task
+and	29,32	O	I-Task
+Ξ−−	33,36	O	I-Task
+are	37,40	O	O
+not	41,44	O	O
+yet	45,48	O	O
+known	49,54	O	O
+experimentally	55,69	O	O
+.	69,70	O	O
+
+In	71,73	O	O
+this	74,78	O	O
+new	79,82	O	B-Task
+wave	83,87	O	I-Task
+of	88,90	O	I-Task
+pentaquark	91,101	O	I-Task
+research	102,110	O	I-Task
+,	110,111	O	O
+most	112,116	O	O
+theoretical	117,128	O	O
+papers	129,135	O	O
+take	136,140	O	B-Process
+the	141,144	O	I-Process
+spin	145,149	O	I-Process
+equal	150,155	O	I-Process
+to	156,158	O	I-Process
+1/2	159,162	O	I-Process
+.	162,163	O	O
+
+The	164,167	O	O
+parity	168,174	O	O
+is	175,177	O	O
+more	178,182	O	O
+controversial	183,196	O	O
+.	196,197	O	O
+
+In	198,200	O	O
+chiral	201,207	O	B-Process
+soliton	208,215	O	I-Process
+or	216,218	O	O
+Skyrme	219,225	O	B-Process
+models	226,232	O	I-Process
+the	233,236	O	O
+parity	237,243	O	O
+is	244,246	O	O
+positive	247,255	O	O
+[	256,257	O	O
+4	257,258	O	O
+]	258,259	O	O
+.	259,260	O	O
+
+In	261,263	O	O
+constituent	264,275	O	B-Process
+quark	276,281	O	I-Process
+models	282,288	O	I-Process
+it	289,291	O	O
+is	292,294	O	O
+usually	295,302	O	O
+positive	303,311	O	O
+.	311,312	O	O
+
+In	313,315	O	O
+the	316,319	O	O
+present	320,327	O	O
+approach	328,336	O	O
+,	336,337	O	O
+the	338,341	O	O
+parity	342,348	O	B-Task
+of	349,351	O	I-Task
+the	352,355	O	I-Task
+pentaquark	356,366	O	I-Task
+is	367,369	O	O
+given	370,375	O	O
+by	376,378	O	O
+P=(−)ℓ+1	379,387	O	B-Task
+,	387,388	O	O
+where	389,394	O	O
+ℓ	395,396	O	B-Task
+is	397,399	O	O
+the	400,403	O	O
+angular	404,411	O	B-Task
+momentum	412,420	O	I-Task
+associated	421,431	O	I-Task
+with	432,436	O	I-Task
+the	437,440	O	I-Task
+relative	441,449	O	I-Task
+coordinates	450,461	O	I-Task
+of	462,464	O	I-Task
+the	465,468	O	I-Task
+q4	469,471	O	I-Task
+subsystem	472,481	O	I-Task
+.	481,482	O	O
+
+We	483,485	O	O
+analyze	486,493	O	O
+the	494,497	O	O
+case	498,502	O	O
+where	503,508	O	O
+the	509,512	O	O
+subsystem	513,522	O	B-Task
+of	523,525	O	I-Task
+four	526,530	O	I-Task
+light	531,536	O	I-Task
+quarks	537,543	O	I-Task
+is	544,546	O	I-Task
+in	547,549	O	I-Task
+a	550,551	O	I-Task
+state	552,557	O	I-Task
+of	558,560	O	I-Task
+orbital	561,568	O	I-Task
+symmetry	569,577	O	I-Task
+[	578,579	O	O
+31]O	579,583	O	O
+and	584,587	O	O
+carries	588,595	O	O
+an	596,598	O	O
+angular	599,606	O	O
+momentum	607,615	O	O
+
+ℓ=1	616,619	O	O
+.	619,620	O	O
+
+Although	621,629	O	O
+the	630,633	O	O
+kinetic	634,641	O	B-Process
+energy	642,648	O	I-Process
+of	649,651	O	O
+such	652,656	O	O
+a	657,658	O	O
+state	659,664	O	O
+is	665,667	O	O
+higher	668,674	O	O
+than	675,679	O	O
+that	680,684	O	O
+of	685,687	O	O
+the	688,691	O	O
+totally	692,699	O	B-Process
+symmetric	700,709	O	I-Process
+[	710,711	O	I-Process
+4]O	711,714	O	I-Process
+state	715,720	O	I-Process
+,	720,721	O	O
+the	722,725	O	O
+[	726,727	O	O
+31]O	727,731	O	B-Process
+symmetry	732,740	O	I-Process
+is	741,743	O	O
+the	744,747	O	O
+most	748,752	O	O
+favourable	753,763	O	O
+both	764,768	O	O
+for	769,772	O	O
+the	773,776	O	O
+flavour	777,784	O	B-Process
+–	784,785	O	I-Process
+spin	785,789	O	I-Process
+interaction	790,801	O	I-Process
+[	802,803	O	O
+12	803,805	O	O
+]	805,806	O	O
+and	807,810	O	O
+the	811,814	O	O
+colour	815,821	O	B-Process
+–	821,822	O	I-Process
+spin	822,826	O	I-Process
+interaction	827,838	O	I-Process
+[	839,840	O	O
+13	840,842	O	O
+]	842,843	O	O
+.	843,844	O	O
+
+In	845,847	O	O
+the	848,851	O	O
+first	852,857	O	O
+case	858,862	O	O
+the	863,866	O	O
+statement	867,876	O	O
+is	877,879	O	O
+confirmed	880,889	O	O
+by	890,892	O	O
+the	893,896	O	O
+comparison	897,907	O	B-Task
+between	908,915	O	I-Task
+the	916,919	O	I-Task
+realistic	920,929	O	I-Task
+calculations	930,942	O	I-Task
+for	943,946	O	I-Task
+positive	947,955	O	I-Task
+parity	956,962	O	I-Task
+[	963,964	O	I-Task
+12	964,966	O	I-Task
+]	966,967	O	I-Task
+and	968,971	O	I-Task
+negative	972,980	O	I-Task
+parity	981,987	O	I-Task
+[	988,989	O	I-Task
+14	989,991	O	I-Task
+]	991,992	O	I-Task
+,	992,993	O	I-Task
+based	994,999	O	I-Task
+on	1000,1002	O	I-Task
+the	1003,1006	O	I-Task
+same	1007,1011	O	I-Task
+quark	1012,1017	O	I-Task
+model	1018,1023	O	I-Task
+[	1024,1025	O	I-Task
+15	1025,1027	O	I-Task
+]	1027,1028	O	I-Task
+.	1028,1029	O	O
+
+In	1030,1032	O	O
+Ref	1033,1036	O	O
+.	1036,1037	O	O
+
+[	1038,1039	O	O
+12	1039,1041	O	O
+]	1041,1042	O	O
+the	1043,1046	O	O
+antiquark	1047,1056	O	B-Material
+was	1057,1060	O	O
+heavy	1061,1066	O	O
+,	1066,1067	O	O
+c	1068,1069	O	O
+or	1070,1072	O	O
+b	1073,1074	O	O
+,	1074,1075	O	O
+and	1076,1079	O	O
+accordingly	1080,1091	O	O
+the	1092,1095	O	O
+interaction	1096,1107	O	B-Process
+between	1108,1115	O	I-Process
+light	1116,1121	O	I-Process
+quarks	1122,1128	O	I-Process
+and	1129,1132	O	I-Process
+the	1133,1136	O	I-Process
+heavy	1137,1142	O	I-Process
+antiquark	1143,1152	O	I-Process
+was	1153,1156	O	I-Process
+neglected	1157,1166	O	I-Process
+,	1166,1167	O	I-Process
+consistent	1168,1178	O	I-Process
+with	1179,1183	O	I-Process
+the	1184,1187	O	I-Process
+heavy	1188,1193	O	I-Process
+quark	1194,1199	O	I-Process
+limit	1200,1205	O	I-Process
+.	1205,1206	O	O
+
+In	1207,1209	O	O
+Ref	1210,1213	O	O
+.	1213,1214	O	O
+
+[	1215,1216	O	O
+16	1216,1218	O	O
+]	1218,1219	O	O
+an	1220,1222	O	O
+attractive	1223,1233	O	O
+spin	1234,1238	O	B-Process
+–	1238,1239	O	I-Process
+spin	1239,1243	O	I-Process
+interaction	1244,1255	O	I-Process
+between	1256,1263	O	O
+s̄	1264,1266	O	B-Material
+and	1267,1270	O	O
+the	1271,1274	O	O
+light	1275,1280	O	B-Material
+quarks	1281,1287	O	I-Material
+was	1288,1291	O	O
+incorporated	1292,1304	O	O
+and	1305,1308	O	O
+shown	1309,1314	O	O
+that	1315,1319	O	O
+a	1320,1321	O	O
+stable	1322,1328	O	O
+or	1329,1331	O	O
+narrow	1332,1338	O	O
+positive	1339,1347	O	O
+parity	1348,1354	O	O
+uudds̄	1355,1361	O	B-Material
+pentaquark	1362,1372	O	I-Material
+can	1373,1376	O	O
+be	1377,1379	O	O
+accommodated	1380,1392	O	O
+within	1393,1399	O	O
+such	1400,1404	O	O
+a	1405,1406	O	O
+model	1407,1412	O	O
+.	1412,1413	O	O
+
+This	1414,1418	O	O
+interaction	1419,1430	O	O
+has	1431,1434	O	O
+a	1435,1436	O	O
+form	1437,1441	O	O
+that	1442,1446	O	O
+corresponds	1447,1458	O	O
+to	1459,1461	O	O
+η	1462,1463	O	B-Process
+meson	1464,1469	O	I-Process
+exchange	1470,1478	O	I-Process
+[	1479,1480	O	O
+17	1480,1482	O	O
+]	1482,1483	O	O
+and	1484,1487	O	O
+its	1488,1491	O	O
+role	1492,1496	O	O
+is	1497,1499	O	O
+to	1500,1502	O	O
+lower	1503,1508	O	B-Process
+the	1509,1512	O	I-Process
+energy	1513,1519	O	I-Process
+of	1520,1522	O	I-Process
+the	1523,1526	O	I-Process
+whole	1527,1532	O	I-Process
+system	1533,1539	O	I-Process
+.	1539,1540	O	O
 
 
 -DOCSTART- (S0370269304009220)
 
-There	0	5	O
-exist	6	11	O
-some	12	16	O
-interesting	17	28	O
-cases	29	34	O
-where	35	40	O
-the	41	44	O
-deformation	45	56	B-Process
-structure	57	66	I-Process
-becomes	67	74	O
-simple	75	81	O
-.	81	82	O
-
-One	83	86	O
-is	87	89	O
-the	90	93	O
-limit	94	99	O
-to	100	102	O
-the	103	106	O
-N=1/2	107	112	B-Process
-superspace	113	123	I-Process
-[	124	125	O
-5	125	126	O
-]	126	127	O
-,	127	128	O
-where	129	134	O
-the	135	138	O
-action	139	145	O
-should	146	152	O
-reduce	153	159	O
-to	160	162	O
-N=1/2	163	168	B-Process
-super	169	174	I-Process
--	174	175	I-Process
-Yang	175	179	I-Process
-–	179	180	I-Process
-Mills	180	185	I-Process
-theory	186	192	I-Process
-with	193	197	I-Process
-adjoint	198	205	I-Process
-matter	206	212	I-Process
-.	212	213	O
-
-Another	214	221	O
-interesting	222	233	O
-case	234	238	O
-is	239	241	O
-the	242	245	O
-singlet	246	253	B-Task
-deformation	254	265	I-Task
-[	266	267	O
-10,11	267	272	O
-]	272	273	O
-,	273	274	O
-where	275	280	O
-the	281	284	O
-deformation	285	296	B-Process
-parameters	297	307	I-Process
-belongs	308	315	O
-to	316	318	O
-the	319	322	O
-singlet	323	330	B-Process
-representation	331	345	I-Process
-of	346	348	O
-the	349	352	O
-R	353	354	B-Process
--	354	355	I-Process
-symmetry	355	363	I-Process
-group	364	369	I-Process
-SU(2)R.	370	377	B-Process
-
-In	378	380	O
-this	381	385	O
-Letter	386	392	O
-,	392	393	O
-we	394	396	O
-will	397	401	O
-study	402	407	O
-N=2	408	411	O
-supersymmetric	412	426	O
-U(1	427	430	O
-)	430	431	O
-
-gauge	432	437	O
-theory	438	444	O
-in	445	447	O
-the	448	451	O
-harmonic	452	460	B-Process
-superspace	461	471	I-Process
-with	472	476	O
-singlet	477	484	B-Process
-deformation	485	496	I-Process
-.	496	497	O
-
-In	498	500	O
-this	501	505	O
-case	506	510	O
-,	510	511	O
-the	512	515	B-Task
-gauge	516	521	I-Task
-and	522	525	I-Task
-supersymmetry	526	539	I-Task
-transformations	540	555	I-Task
-get	556	559	O
-correction	560	570	B-Process
-linear	571	577	I-Process
-in	578	580	O
-the	581	584	O
-deformation	585	596	B-Process
-parameter	597	606	I-Process
-.	606	607	O
-
-Therefore	608	617	O
-we	618	620	O
-can	621	624	O
-easily	625	631	O
-perform	632	639	O
-the	640	643	O
-field	644	649	B-Process
-redefinition	650	662	I-Process
-such	663	667	O
-that	668	672	O
-the	673	676	O
-component	677	686	O
-fields	687	693	O
-transform	694	703	O
-canonically	704	715	O
-under	716	721	O
-the	722	725	O
-gauge	726	731	B-Process
-transformation	732	746	I-Process
-.	746	747	O
-
-In	748	750	O
-the	751	754	O
-case	755	759	O
-of	760	762	O
-N=1/2	763	768	B-Task
-super	769	774	I-Task
--	774	775	I-Task
-Yang	775	779	I-Task
-–	779	780	I-Task
-Mills	780	785	I-Task
-theory	786	792	I-Task
-,	792	793	O
-such	794	798	O
-field	799	804	B-Process
-redefinition	805	817	I-Process
-is	818	820	O
-also	821	825	O
-possible	826	834	O
-[	835	836	O
-5	836	837	O
-]	837	838	O
-.	838	839	O
-
-But	840	843	O
-in	844	846	O
-this	847	851	O
-case	852	856	O
-the	857	860	O
-component	861	870	B-Task
-fields	871	877	I-Task
-do	878	880	O
-not	881	884	O
-transform	885	894	O
-canonically	895	906	O
-under	907	912	O
-the	913	916	O
-deformed	917	925	B-Process
-supersymmtery	926	939	I-Process
-transformation	940	954	I-Process
-.	954	955	O
-
-In	956	958	O
-the	959	962	O
-singlet	963	970	B-Task
-case	971	975	I-Task
-,	975	976	O
-we	977	979	O
-will	980	984	O
-show	985	989	O
-that	990	994	O
-there	995	1000	O
-is	1001	1003	O
-a	1004	1005	O
-field	1006	1011	B-Process
-redefinition	1012	1024	I-Process
-such	1025	1029	O
-that	1030	1034	O
-the	1035	1038	O
-redefined	1039	1048	O
-fields	1049	1055	O
-also	1056	1060	O
-transform	1061	1070	B-Process
-canonically	1071	1082	I-Process
-under	1083	1088	I-Process
-the	1089	1092	I-Process
-deformed	1093	1101	I-Process
-supersymmetry	1102	1115	I-Process
-.	1115	1116	O
-
-We	1117	1119	O
-will	1120	1124	O
-construct	1125	1134	O
-a	1135	1136	O
-deformed	1137	1145	B-Process
-Lagrangian	1146	1156	I-Process
-which	1157	1162	O
-is	1163	1165	O
-invariant	1166	1175	O
-under	1176	1181	O
-both	1182	1186	O
-the	1187	1190	O
-gauge	1191	1196	B-Process
-and	1197	1200	I-Process
-supersymmetry	1201	1214	I-Process
-transformations	1215	1230	I-Process
-.	1230	1231	O
-
-We	1232	1234	O
-find	1235	1239	O
-that	1240	1244	O
-the	1245	1248	O
-deformed	1249	1257	B-Process
-Lagrangian	1258	1268	I-Process
-is	1269	1271	O
-characterized	1272	1285	O
-by	1286	1288	O
-a	1289	1290	O
-single	1291	1297	B-Process
-function	1298	1306	I-Process
-of	1307	1309	O
-an	1310	1312	O
-antiholomorphic	1313	1328	B-Process
-scalar	1329	1335	I-Process
-field	1336	1341	I-Process
-.	1341	1342	O
+There	0,5	O	O
+exist	6,11	O	O
+some	12,16	O	O
+interesting	17,28	O	O
+cases	29,34	O	O
+where	35,40	O	O
+the	41,44	O	O
+deformation	45,56	O	B-Process
+structure	57,66	O	I-Process
+becomes	67,74	O	O
+simple	75,81	O	O
+.	81,82	O	O
+
+One	83,86	O	O
+is	87,89	O	O
+the	90,93	O	O
+limit	94,99	O	O
+to	100,102	O	O
+the	103,106	O	O
+N=1/2	107,112	O	B-Process
+superspace	113,123	O	I-Process
+[	124,125	O	O
+5	125,126	O	O
+]	126,127	O	O
+,	127,128	O	O
+where	129,134	O	O
+the	135,138	O	O
+action	139,145	O	O
+should	146,152	O	O
+reduce	153,159	O	O
+to	160,162	O	O
+N=1/2	163,168	O	B-Process
+super	169,174	O	I-Process
+-	174,175	O	I-Process
+Yang	175,179	O	I-Process
+–	179,180	O	I-Process
+Mills	180,185	O	I-Process
+theory	186,192	O	I-Process
+with	193,197	O	I-Process
+adjoint	198,205	O	I-Process
+matter	206,212	O	I-Process
+.	212,213	O	O
+
+Another	214,221	O	O
+interesting	222,233	O	O
+case	234,238	O	O
+is	239,241	O	O
+the	242,245	O	O
+singlet	246,253	O	B-Task
+deformation	254,265	O	I-Task
+[	266,267	O	O
+10,11	267,272	O	O
+]	272,273	O	O
+,	273,274	O	O
+where	275,280	O	O
+the	281,284	O	O
+deformation	285,296	O	B-Process
+parameters	297,307	O	I-Process
+belongs	308,315	O	O
+to	316,318	O	O
+the	319,322	O	O
+singlet	323,330	O	B-Process
+representation	331,345	O	I-Process
+of	346,348	O	O
+the	349,352	O	O
+R	353,354	O	B-Process
+-	354,355	O	I-Process
+symmetry	355,363	O	I-Process
+group	364,369	O	I-Process
+SU(2)R.	370,377	O	B-Process
+
+In	378,380	O	O
+this	381,385	O	O
+Letter	386,392	O	O
+,	392,393	O	O
+we	394,396	O	O
+will	397,401	O	O
+study	402,407	O	O
+N=2	408,411	O	O
+supersymmetric	412,426	O	O
+U(1	427,430	O	O
+)	430,431	O	O
+
+gauge	432,437	O	O
+theory	438,444	O	O
+in	445,447	O	O
+the	448,451	O	O
+harmonic	452,460	O	B-Process
+superspace	461,471	O	I-Process
+with	472,476	O	O
+singlet	477,484	O	B-Process
+deformation	485,496	O	I-Process
+.	496,497	O	O
+
+In	498,500	O	O
+this	501,505	O	O
+case	506,510	O	O
+,	510,511	O	O
+the	512,515	O	B-Task
+gauge	516,521	O	I-Task
+and	522,525	O	I-Task
+supersymmetry	526,539	O	I-Task
+transformations	540,555	O	I-Task
+get	556,559	O	O
+correction	560,570	O	B-Process
+linear	571,577	O	I-Process
+in	578,580	O	O
+the	581,584	O	O
+deformation	585,596	O	B-Process
+parameter	597,606	O	I-Process
+.	606,607	O	O
+
+Therefore	608,617	O	O
+we	618,620	O	O
+can	621,624	O	O
+easily	625,631	O	O
+perform	632,639	O	O
+the	640,643	O	O
+field	644,649	O	B-Process
+redefinition	650,662	O	I-Process
+such	663,667	O	O
+that	668,672	O	O
+the	673,676	O	O
+component	677,686	O	O
+fields	687,693	O	O
+transform	694,703	O	O
+canonically	704,715	O	O
+under	716,721	O	O
+the	722,725	O	O
+gauge	726,731	O	B-Process
+transformation	732,746	O	I-Process
+.	746,747	O	O
+
+In	748,750	O	O
+the	751,754	O	O
+case	755,759	O	O
+of	760,762	O	O
+N=1/2	763,768	O	B-Task
+super	769,774	O	I-Task
+-	774,775	O	I-Task
+Yang	775,779	O	I-Task
+–	779,780	O	I-Task
+Mills	780,785	O	I-Task
+theory	786,792	O	I-Task
+,	792,793	O	O
+such	794,798	O	O
+field	799,804	O	B-Process
+redefinition	805,817	O	I-Process
+is	818,820	O	O
+also	821,825	O	O
+possible	826,834	O	O
+[	835,836	O	O
+5	836,837	O	O
+]	837,838	O	O
+.	838,839	O	O
+
+But	840,843	O	O
+in	844,846	O	O
+this	847,851	O	O
+case	852,856	O	O
+the	857,860	O	O
+component	861,870	O	B-Task
+fields	871,877	O	I-Task
+do	878,880	O	O
+not	881,884	O	O
+transform	885,894	O	O
+canonically	895,906	O	O
+under	907,912	O	O
+the	913,916	O	O
+deformed	917,925	O	B-Process
+supersymmtery	926,939	O	I-Process
+transformation	940,954	O	I-Process
+.	954,955	O	O
+
+In	956,958	O	O
+the	959,962	O	O
+singlet	963,970	O	B-Task
+case	971,975	O	I-Task
+,	975,976	O	O
+we	977,979	O	O
+will	980,984	O	O
+show	985,989	O	O
+that	990,994	O	O
+there	995,1000	O	O
+is	1001,1003	O	O
+a	1004,1005	O	O
+field	1006,1011	O	B-Process
+redefinition	1012,1024	O	I-Process
+such	1025,1029	O	O
+that	1030,1034	O	O
+the	1035,1038	O	O
+redefined	1039,1048	O	O
+fields	1049,1055	O	O
+also	1056,1060	O	O
+transform	1061,1070	O	B-Process
+canonically	1071,1082	O	I-Process
+under	1083,1088	O	I-Process
+the	1089,1092	O	I-Process
+deformed	1093,1101	O	I-Process
+supersymmetry	1102,1115	O	I-Process
+.	1115,1116	O	O
+
+We	1117,1119	O	O
+will	1120,1124	O	O
+construct	1125,1134	O	O
+a	1135,1136	O	O
+deformed	1137,1145	O	B-Process
+Lagrangian	1146,1156	O	I-Process
+which	1157,1162	O	O
+is	1163,1165	O	O
+invariant	1166,1175	O	O
+under	1176,1181	O	O
+both	1182,1186	O	O
+the	1187,1190	O	O
+gauge	1191,1196	O	B-Process
+and	1197,1200	O	I-Process
+supersymmetry	1201,1214	O	I-Process
+transformations	1215,1230	O	I-Process
+.	1230,1231	O	O
+
+We	1232,1234	O	O
+find	1235,1239	O	O
+that	1240,1244	O	O
+the	1245,1248	O	O
+deformed	1249,1257	O	B-Process
+Lagrangian	1258,1268	O	I-Process
+is	1269,1271	O	O
+characterized	1272,1285	O	O
+by	1286,1288	O	O
+a	1289,1290	O	O
+single	1291,1297	O	B-Process
+function	1298,1306	O	I-Process
+of	1307,1309	O	O
+an	1310,1312	O	O
+antiholomorphic	1313,1328	O	B-Process
+scalar	1329,1335	O	I-Process
+field	1336,1341	O	I-Process
+.	1341,1342	O	O
 
 
 -DOCSTART- (S0370269304009232)
 
-We	0	2	O
-consider	3	11	O
-finite	12	18	B-Process
--	18	19	I-Process
-time	19	23	I-Process
-,	23	24	I-Process
-future	25	31	I-Process
-(	32	33	I-Process
-sudden	33	39	I-Process
-or	40	42	I-Process
-Big	43	46	I-Process
-Rip	47	50	I-Process
-type	51	55	I-Process
-)	55	56	I-Process
-singularities	57	70	I-Process
-which	71	76	O
-may	77	80	O
-occur	81	86	O
-even	87	91	O
-when	92	96	O
-strong	97	103	B-Process
-energy	104	110	I-Process
-condition	111	120	I-Process
-is	121	123	O
-not	124	127	O
-violated	128	136	O
-but	137	140	O
-equation	141	149	O
-of	150	152	O
-state	153	158	O
-parameter	159	168	O
-is	169	171	O
-time	172	176	O
--	176	177	O
-dependent	177	186	O
-.	186	187	O
-
-Recently	188	196	O
-,	196	197	O
-example	198	205	B-Task
-of	206	208	I-Task
-such	209	213	I-Task
-singularity	214	225	I-Task
-has	226	229	O
-been	230	234	O
-presented	235	244	O
-by	245	247	O
-Barrow	248	254	O
-,	254	255	O
-we	256	258	B-Task
-found	259	264	I-Task
-another	265	272	I-Task
-example	273	280	I-Task
-of	281	283	I-Task
-it	284	286	I-Task
-.	286	287	O
-
-Taking	288	294	O
-into	295	299	O
-account	300	307	O
-back	308	312	B-Task
-reaction	313	321	I-Task
-of	322	324	I-Task
-conformal	325	334	I-Task
-quantum	335	342	I-Task
-fields	343	349	I-Task
-near	350	354	I-Task
-singularity	355	366	I-Task
-,	366	367	O
-it	368	370	O
-is	371	373	O
-shown	374	379	O
-explicitly	380	390	O
-that	391	395	O
-quantum	396	403	B-Process
-effects	404	411	I-Process
-may	412	415	O
-delay	416	421	O
-(	422	423	O
-or	423	425	O
-make	426	430	O
-milder	431	437	O
-)	437	438	O
-the	439	442	O
-singularity	443	454	B-Process
-.	454	455	O
-
-It	456	458	O
-is	459	461	O
-argued	462	468	O
-that	469	473	O
-if	474	476	O
-the	477	480	O
-evolution	481	490	B-Task
-to	491	493	I-Task
-singularity	494	505	I-Task
-is	506	508	O
-realistic	509	518	O
-,	518	519	O
-due	520	523	O
-to	524	526	O
-quantum	527	534	B-Process
-effects	535	542	I-Process
-the	543	546	B-Process
-universe	547	555	I-Process
-may	556	559	I-Process
-end	560	563	I-Process
-up	564	566	I-Process
-in	567	569	I-Process
-de	570	572	I-Process
-Sitter	573	579	I-Process
-phase	580	585	I-Process
-before	586	592	O
-scale	593	598	B-Process
-factor	599	605	I-Process
-blows	606	611	I-Process
-up	612	614	I-Process
-.	614	615	O
-
-This	616	620	O
-picture	621	628	O
-is	629	631	O
-generalized	632	643	O
-for	644	647	O
-braneworld	648	658	B-Material
-where	659	664	O
-sudden	665	671	B-Process
-singularity	672	683	I-Process
-may	684	687	O
-occur	688	693	O
-on	694	696	O
-the	697	700	O
-brane	701	706	B-Material
-with	707	711	O
-qualitatively	712	725	B-Process
-similar	726	733	I-Process
-conclusions	734	745	I-Process
-.	745	746	O
+We	0,2	O	O
+consider	3,11	O	O
+finite	12,18	O	B-Process
+-	18,19	O	I-Process
+time	19,23	O	I-Process
+,	23,24	O	I-Process
+future	25,31	O	I-Process
+(	32,33	O	I-Process
+sudden	33,39	O	I-Process
+or	40,42	O	I-Process
+Big	43,46	O	I-Process
+Rip	47,50	O	I-Process
+type	51,55	O	I-Process
+)	55,56	O	I-Process
+singularities	57,70	O	I-Process
+which	71,76	O	O
+may	77,80	O	O
+occur	81,86	O	O
+even	87,91	O	O
+when	92,96	O	O
+strong	97,103	O	B-Process
+energy	104,110	O	I-Process
+condition	111,120	O	I-Process
+is	121,123	O	O
+not	124,127	O	O
+violated	128,136	O	O
+but	137,140	O	O
+equation	141,149	O	O
+of	150,152	O	O
+state	153,158	O	O
+parameter	159,168	O	O
+is	169,171	O	O
+time	172,176	O	O
+-	176,177	O	O
+dependent	177,186	O	O
+.	186,187	O	O
+
+Recently	188,196	O	O
+,	196,197	O	O
+example	198,205	O	B-Task
+of	206,208	O	I-Task
+such	209,213	O	I-Task
+singularity	214,225	O	I-Task
+has	226,229	O	O
+been	230,234	O	O
+presented	235,244	O	O
+by	245,247	O	O
+Barrow	248,254	O	O
+,	254,255	O	O
+we	256,258	O	B-Task
+found	259,264	O	I-Task
+another	265,272	O	I-Task
+example	273,280	O	I-Task
+of	281,283	O	I-Task
+it	284,286	O	I-Task
+.	286,287	O	O
+
+Taking	288,294	O	O
+into	295,299	O	O
+account	300,307	O	O
+back	308,312	O	B-Task
+reaction	313,321	O	I-Task
+of	322,324	O	I-Task
+conformal	325,334	O	I-Task
+quantum	335,342	O	I-Task
+fields	343,349	O	I-Task
+near	350,354	O	I-Task
+singularity	355,366	O	I-Task
+,	366,367	O	O
+it	368,370	O	O
+is	371,373	O	O
+shown	374,379	O	O
+explicitly	380,390	O	O
+that	391,395	O	O
+quantum	396,403	O	B-Process
+effects	404,411	O	I-Process
+may	412,415	O	O
+delay	416,421	O	O
+(	422,423	O	O
+or	423,425	O	O
+make	426,430	O	O
+milder	431,437	O	O
+)	437,438	O	O
+the	439,442	O	O
+singularity	443,454	O	B-Process
+.	454,455	O	O
+
+It	456,458	O	O
+is	459,461	O	O
+argued	462,468	O	O
+that	469,473	O	O
+if	474,476	O	O
+the	477,480	O	O
+evolution	481,490	O	B-Task
+to	491,493	O	I-Task
+singularity	494,505	O	I-Task
+is	506,508	O	O
+realistic	509,518	O	O
+,	518,519	O	O
+due	520,523	O	O
+to	524,526	O	O
+quantum	527,534	O	B-Process
+effects	535,542	O	I-Process
+the	543,546	O	B-Process
+universe	547,555	O	I-Process
+may	556,559	O	I-Process
+end	560,563	O	I-Process
+up	564,566	O	I-Process
+in	567,569	O	I-Process
+de	570,572	O	I-Process
+Sitter	573,579	O	I-Process
+phase	580,585	O	I-Process
+before	586,592	O	O
+scale	593,598	O	B-Process
+factor	599,605	O	I-Process
+blows	606,611	O	I-Process
+up	612,614	O	I-Process
+.	614,615	O	O
+
+This	616,620	O	O
+picture	621,628	O	O
+is	629,631	O	O
+generalized	632,643	O	O
+for	644,647	O	O
+braneworld	648,658	O	B-Material
+where	659,664	O	O
+sudden	665,671	O	B-Process
+singularity	672,683	O	I-Process
+may	684,687	O	O
+occur	688,693	O	O
+on	694,696	O	O
+the	697,700	O	O
+brane	701,706	O	B-Material
+with	707,711	O	O
+qualitatively	712,725	O	B-Process
+similar	726,733	O	I-Process
+conclusions	734,745	O	I-Process
+.	745,746	O	O
 
 
 -DOCSTART- (S0370269304009268)
 
-One	0	3	O
-of	4	6	O
-the	7	10	O
-great	11	16	O
-successes	17	26	O
-of	27	29	O
-the	30	33	O
-experimental	34	46	O
-program	47	54	O
-carried	55	62	O
-out	63	66	O
-at	67	69	O
-LEP	70	73	O
-has	74	77	O
-been	78	82	O
-to	83	85	O
-put	86	89	B-Process
-a	90	91	I-Process
-firm	92	96	I-Process
-lower	97	102	I-Process
-bound	103	108	I-Process
-on	109	111	I-Process
-the	112	115	I-Process
-Higgs	116	121	I-Process
-mass	122	126	I-Process
-,	126	127	O
-mH>114	128	134	B-Process
-GeV	135	138	I-Process
-[	139	140	O
-1	140	141	O
-]	141	142	O
-,	142	143	O
-and	144	147	O
-at	148	150	O
-the	151	154	O
-same	155	159	O
-time	160	164	O
-,	164	165	O
-together	166	174	O
-with	175	179	O
-the	180	183	O
-information	184	195	O
-coming	196	202	O
-from	203	207	O
-SLD	208	211	B-Material
-,	211	212	O
-to	213	215	O
-give	216	220	O
-a	221	222	O
-strong	223	229	O
-indirect	230	238	O
-evidence	239	247	O
-that	248	252	O
-the	253	256	O
-Higgs	257	262	B-Material
-boson	263	268	I-Material
-,	268	269	O
-the	270	273	O
-still	274	279	O
-missing	280	287	O
-particle	288	296	B-Material
-of	297	299	O
-the	300	303	O
-Standard	304	312	B-Process
-Model	313	318	I-Process
-(	319	320	O
-SM	320	322	B-Process
-)	322	323	O
-,	323	324	O
-should	325	331	O
-be	332	334	O
-relatively	335	345	O
-light	346	351	O
-with	352	356	O
-a	357	358	O
-high	359	363	O
-probability	364	375	O
-for	376	379	O
-its	380	383	O
-mass	384	388	O
-to	389	391	O
-be	392	394	O
-below	395	400	O
-200	401	404	O
-GeV.	405	409	O
-
-The	410	413	B-Task
-search	414	420	I-Task
-for	421	424	I-Task
-the	425	428	I-Task
-Higgs	429	434	I-Task
-boson	435	440	I-Task
-is	441	443	O
-one	444	447	O
-of	448	450	O
-the	451	454	O
-main	455	459	O
-objective	460	469	O
-of	470	472	O
-the	473	476	O
-Tevatron	477	485	B-Material
-and	486	489	O
-the	490	493	O
-future	494	500	O
-Large	501	506	B-Material
-Hadron	507	513	I-Material
-Collider	514	522	I-Material
-(	523	524	B-Material
-LHC	524	527	I-Material
-)	527	528	I-Material
-,	528	529	O
-that	530	534	O
-are	535	538	O
-supposed	539	547	O
-to	548	550	O
-span	551	555	B-Process
-all	556	559	I-Process
-the	560	563	I-Process
-Higgs	564	569	I-Process
-mass	570	574	I-Process
-regions	575	582	I-Process
-up	583	585	I-Process
-to	586	588	I-Process
-1	589	590	I-Process
-TeV.	591	595	I-Process
-
-At	596	598	O
-hadron	599	605	B-Material
-colliders	606	615	I-Material
-the	616	619	O
-main	620	624	B-Task
-Higgs	625	630	I-Task
-production	631	641	I-Task
-mechanism	642	651	I-Task
-is	652	654	O
-the	655	658	O
-gluon	659	664	B-Process
-fusion	665	671	I-Process
-[	672	673	O
-2	673	674	O
-]	674	675	O
-,	675	676	O
-a	677	678	O
-process	679	686	O
-whose	687	692	O
-knowledge	693	702	O
-is	703	705	O
-fundamental	706	717	O
-in	718	720	O
-order	721	726	O
-to	727	729	O
-put	730	733	B-Process
-limits	734	740	I-Process
-on	741	743	I-Process
-the	744	747	I-Process
-Higgs	748	753	I-Process
-mass	754	758	I-Process
-or	759	761	O
-,	761	762	O
-in	763	765	O
-case	766	770	O
-the	771	774	O
-Higgs	775	780	B-Material
-is	781	783	O
-discovered	784	794	O
-,	794	795	O
-to	796	798	O
-compare	799	806	B-Process
-the	807	810	I-Process
-measured	811	819	I-Process
-cross	820	825	I-Process
-section	826	833	I-Process
-with	834	838	I-Process
-the	839	842	I-Process
-SM	843	845	I-Process
-result	846	852	I-Process
-.	852	853	O
-
-Concerning	854	864	O
-the	865	868	O
-Higgs	869	874	B-Process
-decay	875	880	I-Process
-channels	881	889	O
-,	889	890	O
-it	891	893	O
-is	894	896	O
-quite	897	902	O
-difficult	903	912	O
-for	913	916	O
-an	917	919	O
-hadron	920	926	B-Material
-collider	927	935	I-Material
-to	936	938	O
-access	939	945	B-Task
-part	946	950	I-Task
-of	951	953	I-Task
-the	954	957	I-Task
-mass	958	962	I-Task
-range	963	968	I-Task
-favored	969	976	I-Task
-by	977	979	I-Task
-the	980	983	I-Task
-LEP	984	987	I-Task
-results	988	995	I-Task
-,	995	996	O
-the	997	1000	O
-so	1001	1003	O
--	1003	1004	O
-called	1004	1010	O
-intermediate	1011	1023	B-Process
-Higgs	1024	1029	I-Process
-mass	1030	1034	I-Process
-region	1035	1041	I-Process
-114≲mH≲160	1042	1052	B-Process
-GeV	1053	1056	I-Process
-,	1056	1057	O
-because	1058	1065	O
-of	1066	1068	O
-the	1069	1072	O
-large	1073	1078	O
-QCD	1079	1082	B-Material
-background	1083	1093	I-Material
-to	1094	1096	O
-the	1097	1100	O
-dominant	1101	1109	O
-modes	1110	1115	O
-.	1115	1116	O
-
-In	1117	1119	O
-this	1120	1124	O
-region	1125	1131	O
-the	1132	1135	O
-rare	1136	1140	B-Process
-decay	1141	1146	I-Process
-H→γγ	1147	1151	B-Process
-is	1152	1154	O
-the	1155	1158	O
-most	1159	1163	O
-interesting	1164	1175	O
-alternative	1176	1187	O
-to	1188	1190	O
-the	1191	1194	O
-usual	1195	1200	O
-decay	1201	1206	B-Process
-channels	1207	1215	I-Process
-.	1215	1216	O
+One	0,3	O	O
+of	4,6	O	O
+the	7,10	O	O
+great	11,16	O	O
+successes	17,26	O	O
+of	27,29	O	O
+the	30,33	O	O
+experimental	34,46	O	O
+program	47,54	O	O
+carried	55,62	O	O
+out	63,66	O	O
+at	67,69	O	O
+LEP	70,73	O	O
+has	74,77	O	O
+been	78,82	O	O
+to	83,85	O	O
+put	86,89	O	B-Process
+a	90,91	O	I-Process
+firm	92,96	O	I-Process
+lower	97,102	O	I-Process
+bound	103,108	O	I-Process
+on	109,111	O	I-Process
+the	112,115	O	I-Process
+Higgs	116,121	O	I-Process
+mass	122,126	O	I-Process
+,	126,127	O	O
+mH>114	128,134	O	B-Process
+GeV	135,138	O	I-Process
+[	139,140	O	O
+1	140,141	O	O
+]	141,142	O	O
+,	142,143	O	O
+and	144,147	O	O
+at	148,150	O	O
+the	151,154	O	O
+same	155,159	O	O
+time	160,164	O	O
+,	164,165	O	O
+together	166,174	O	O
+with	175,179	O	O
+the	180,183	O	O
+information	184,195	O	O
+coming	196,202	O	O
+from	203,207	O	O
+SLD	208,211	O	B-Material
+,	211,212	O	O
+to	213,215	O	O
+give	216,220	O	O
+a	221,222	O	O
+strong	223,229	O	O
+indirect	230,238	O	O
+evidence	239,247	O	O
+that	248,252	O	O
+the	253,256	O	O
+Higgs	257,262	O	B-Material
+boson	263,268	O	I-Material
+,	268,269	O	O
+the	270,273	O	O
+still	274,279	O	O
+missing	280,287	O	O
+particle	288,296	O	B-Material
+of	297,299	O	O
+the	300,303	O	O
+Standard	304,312	O	B-Process
+Model	313,318	O	I-Process
+(	319,320	O	O
+SM	320,322	O	B-Process
+)	322,323	O	O
+,	323,324	O	O
+should	325,331	O	O
+be	332,334	O	O
+relatively	335,345	O	O
+light	346,351	O	O
+with	352,356	O	O
+a	357,358	O	O
+high	359,363	O	O
+probability	364,375	O	O
+for	376,379	O	O
+its	380,383	O	O
+mass	384,388	O	O
+to	389,391	O	O
+be	392,394	O	O
+below	395,400	O	O
+200	401,404	O	O
+GeV.	405,409	O	O
+
+The	410,413	O	B-Task
+search	414,420	O	I-Task
+for	421,424	O	I-Task
+the	425,428	O	I-Task
+Higgs	429,434	O	I-Task
+boson	435,440	O	I-Task
+is	441,443	O	O
+one	444,447	O	O
+of	448,450	O	O
+the	451,454	O	O
+main	455,459	O	O
+objective	460,469	O	O
+of	470,472	O	O
+the	473,476	O	O
+Tevatron	477,485	O	B-Material
+and	486,489	O	O
+the	490,493	O	O
+future	494,500	O	O
+Large	501,506	O	B-Material
+Hadron	507,513	O	I-Material
+Collider	514,522	O	I-Material
+(	523,524	O	B-Material
+LHC	524,527	O	I-Material
+)	527,528	O	I-Material
+,	528,529	O	O
+that	530,534	O	O
+are	535,538	O	O
+supposed	539,547	O	O
+to	548,550	O	O
+span	551,555	O	B-Process
+all	556,559	O	I-Process
+the	560,563	O	I-Process
+Higgs	564,569	O	I-Process
+mass	570,574	O	I-Process
+regions	575,582	O	I-Process
+up	583,585	O	I-Process
+to	586,588	O	I-Process
+1	589,590	O	I-Process
+TeV.	591,595	O	I-Process
+
+At	596,598	O	O
+hadron	599,605	O	B-Material
+colliders	606,615	O	I-Material
+the	616,619	O	O
+main	620,624	O	B-Task
+Higgs	625,630	O	I-Task
+production	631,641	O	I-Task
+mechanism	642,651	O	I-Task
+is	652,654	O	O
+the	655,658	O	O
+gluon	659,664	O	B-Process
+fusion	665,671	O	I-Process
+[	672,673	O	O
+2	673,674	O	O
+]	674,675	O	O
+,	675,676	O	O
+a	677,678	O	O
+process	679,686	O	O
+whose	687,692	O	O
+knowledge	693,702	O	O
+is	703,705	O	O
+fundamental	706,717	O	O
+in	718,720	O	O
+order	721,726	O	O
+to	727,729	O	O
+put	730,733	O	B-Process
+limits	734,740	O	I-Process
+on	741,743	O	I-Process
+the	744,747	O	I-Process
+Higgs	748,753	O	I-Process
+mass	754,758	O	I-Process
+or	759,761	O	O
+,	761,762	O	O
+in	763,765	O	O
+case	766,770	O	O
+the	771,774	O	O
+Higgs	775,780	O	B-Material
+is	781,783	O	O
+discovered	784,794	O	O
+,	794,795	O	O
+to	796,798	O	O
+compare	799,806	O	B-Process
+the	807,810	O	I-Process
+measured	811,819	O	I-Process
+cross	820,825	O	I-Process
+section	826,833	O	I-Process
+with	834,838	O	I-Process
+the	839,842	O	I-Process
+SM	843,845	O	I-Process
+result	846,852	O	I-Process
+.	852,853	O	O
+
+Concerning	854,864	O	O
+the	865,868	O	O
+Higgs	869,874	O	B-Process
+decay	875,880	O	I-Process
+channels	881,889	O	O
+,	889,890	O	O
+it	891,893	O	O
+is	894,896	O	O
+quite	897,902	O	O
+difficult	903,912	O	O
+for	913,916	O	O
+an	917,919	O	O
+hadron	920,926	O	B-Material
+collider	927,935	O	I-Material
+to	936,938	O	O
+access	939,945	O	B-Task
+part	946,950	O	I-Task
+of	951,953	O	I-Task
+the	954,957	O	I-Task
+mass	958,962	O	I-Task
+range	963,968	O	I-Task
+favored	969,976	O	I-Task
+by	977,979	O	I-Task
+the	980,983	O	I-Task
+LEP	984,987	O	I-Task
+results	988,995	O	I-Task
+,	995,996	O	O
+the	997,1000	O	O
+so	1001,1003	O	O
+-	1003,1004	O	O
+called	1004,1010	O	O
+intermediate	1011,1023	O	B-Process
+Higgs	1024,1029	O	I-Process
+mass	1030,1034	O	I-Process
+region	1035,1041	O	I-Process
+114≲mH≲160	1042,1052	O	B-Process
+GeV	1053,1056	O	I-Process
+,	1056,1057	O	O
+because	1058,1065	O	O
+of	1066,1068	O	O
+the	1069,1072	O	O
+large	1073,1078	O	O
+QCD	1079,1082	O	B-Material
+background	1083,1093	O	I-Material
+to	1094,1096	O	O
+the	1097,1100	O	O
+dominant	1101,1109	O	O
+modes	1110,1115	O	O
+.	1115,1116	O	O
+
+In	1117,1119	O	O
+this	1120,1124	O	O
+region	1125,1131	O	O
+the	1132,1135	O	O
+rare	1136,1140	O	B-Process
+decay	1141,1146	O	I-Process
+H→γγ	1147,1151	O	B-Process
+is	1152,1154	O	O
+the	1155,1158	O	O
+most	1159,1163	O	O
+interesting	1164,1175	O	O
+alternative	1176,1187	O	O
+to	1188,1190	O	O
+the	1191,1194	O	O
+usual	1195,1200	O	O
+decay	1201,1206	O	B-Process
+channels	1207,1215	O	I-Process
+.	1215,1216	O	O
 
 
 -DOCSTART- (S037026930400930X)
 
-Recent	0	6	O
-publications	7	19	O
-[	20	21	O
-31	21	23	O
-]	23	24	O
-employ	25	31	O
-a	32	33	O
-variety	34	41	O
-of	42	44	O
-methods	45	52	O
-for	53	56	O
-calculating	57	68	B-Task
-upper	69	74	I-Task
-limits	75	81	I-Task
-and	82	85	O
-there	86	91	O
-is	92	94	O
-no	95	97	O
-universally	98	109	O
-accepted	110	118	O
-procedure	119	128	O
-[	129	130	O
-27,32,33	130	138	O
-]	138	139	O
-.	139	140	O
-
-We	141	143	O
-choose	144	150	O
-an	151	153	O
-approach	154	162	O
-similar	163	170	O
-to	171	173	O
-that	174	178	O
-first	179	184	O
-advocated	185	194	O
-by	195	197	O
-Feldman	198	205	O
-and	206	209	O
-Cousins	210	217	O
-[	218	219	O
-27	219	221	O
-]	221	222	O
-.	222	223	O
-
-This	224	228	O
-method	229	235	O
-has	236	239	O
-been	240	244	O
-since	245	250	O
-extended	251	259	O
-by	260	262	O
-Conrad	263	269	O
-et	270	272	O
-al	273	275	O
-.	275	276	O
-
-[	277	278	O
-34	278	280	O
-]	280	281	O
-to	282	284	O
-incorporate	285	296	B-Process
-uncertainties	297	310	I-Process
-in	311	313	O
-detector	314	322	B-Task
-sensitivity	323	334	I-Task
-and	335	338	O
-the	339	342	O
-background	343	353	B-Process
-estimate	354	362	I-Process
-based	363	368	O
-on	369	371	O
-an	372	374	O
-approach	375	383	O
-described	384	393	O
-by	394	396	O
-Cousins	397	404	O
-and	405	408	O
-Highland	409	417	O
-
-[	418	419	O
-35	419	421	O
-]	421	422	O
-.	422	423	O
-
-A	424	425	O
-further	426	433	O
-refinement	434	444	O
-of	445	447	O
-the	448	451	O
-Conrad	452	458	O
-et	459	461	O
-al	462	464	O
-.	464	465	O
-
-method	466	472	O
-by	473	475	O
-Hill	476	480	O
-[	481	482	O
-36	482	484	O
-]	484	485	O
-results	486	493	O
-in	494	496	O
-more	497	501	B-Process
-appropriate	502	513	I-Process
-behavior	514	522	I-Process
-of	523	525	O
-the	526	529	O
-upper	530	535	O
-limit	536	541	O
-when	542	546	O
-the	547	550	O
-observed	551	559	O
-number	560	566	O
-of	567	569	O
-events	570	576	O
-is	577	579	O
-less	580	584	O
-than	585	589	O
-the	590	593	O
-estimated	594	603	O
-background	604	614	O
-,	614	615	O
-as	616	618	O
-is	619	621	O
-the	622	625	O
-case	626	630	O
-for	631	634	O
-the	635	638	O
-present	639	646	O
-measurement	647	658	B-Process
-.	658	659	O
-
-We	660	662	O
-have	663	667	O
-adopted	668	675	O
-this	676	680	O
-method	681	687	O
-but	688	691	O
-note	692	696	O
-that	697	701	O
-Table	702	707	O
-2	708	709	O
-contains	710	718	O
-all	719	722	O
-of	723	725	O
-the	726	729	O
-numbers	730	737	O
-needed	738	744	O
-to	745	747	O
-calculate	748	757	B-Task
-an	758	760	I-Task
-upper	761	766	I-Task
-limit	767	772	I-Task
-using	773	778	O
-any	779	782	O
-of	783	785	O
-the	786	789	O
-methods	790	797	O
-in	798	800	O
-the	801	804	O
-papers	805	811	O
-cited	812	817	O
-above	818	823	O
-.	823	824	O
-
-We	825	827	O
-assume	828	834	O
-that	835	839	O
-the	840	843	O
-probability	844	855	B-Process
-density	856	863	I-Process
-functions	864	873	I-Process
-of	874	876	O
-Fsens	877	882	O
-and	883	886	O
-background	887	897	B-Process
-estimates	898	907	I-Process
-are	908	911	O
-Gaussian	912	920	B-Process
--	920	921	I-Process
-distributed	921	932	I-Process
-.	932	933	O
+Recent	0,6	O	O
+publications	7,19	O	O
+[	20,21	O	O
+31	21,23	O	O
+]	23,24	O	O
+employ	25,31	O	O
+a	32,33	O	O
+variety	34,41	O	O
+of	42,44	O	O
+methods	45,52	O	O
+for	53,56	O	O
+calculating	57,68	O	B-Task
+upper	69,74	O	I-Task
+limits	75,81	O	I-Task
+and	82,85	O	O
+there	86,91	O	O
+is	92,94	O	O
+no	95,97	O	O
+universally	98,109	O	O
+accepted	110,118	O	O
+procedure	119,128	O	O
+[	129,130	O	O
+27,32,33	130,138	O	O
+]	138,139	O	O
+.	139,140	O	O
+
+We	141,143	O	O
+choose	144,150	O	O
+an	151,153	O	O
+approach	154,162	O	O
+similar	163,170	O	O
+to	171,173	O	O
+that	174,178	O	O
+first	179,184	O	O
+advocated	185,194	O	O
+by	195,197	O	O
+Feldman	198,205	O	O
+and	206,209	O	O
+Cousins	210,217	O	O
+[	218,219	O	O
+27	219,221	O	O
+]	221,222	O	O
+.	222,223	O	O
+
+This	224,228	O	O
+method	229,235	O	O
+has	236,239	O	O
+been	240,244	O	O
+since	245,250	O	O
+extended	251,259	O	O
+by	260,262	O	O
+Conrad	263,269	O	O
+et	270,272	O	O
+al	273,275	O	O
+.	275,276	O	O
+
+[	277,278	O	O
+34	278,280	O	O
+]	280,281	O	O
+to	282,284	O	O
+incorporate	285,296	O	B-Process
+uncertainties	297,310	O	I-Process
+in	311,313	O	O
+detector	314,322	O	B-Task
+sensitivity	323,334	O	I-Task
+and	335,338	O	O
+the	339,342	O	O
+background	343,353	O	B-Process
+estimate	354,362	O	I-Process
+based	363,368	O	O
+on	369,371	O	O
+an	372,374	O	O
+approach	375,383	O	O
+described	384,393	O	O
+by	394,396	O	O
+Cousins	397,404	O	O
+and	405,408	O	O
+Highland	409,417	O	O
+
+[	418,419	O	O
+35	419,421	O	O
+]	421,422	O	O
+.	422,423	O	O
+
+A	424,425	O	O
+further	426,433	O	O
+refinement	434,444	O	O
+of	445,447	O	O
+the	448,451	O	O
+Conrad	452,458	O	O
+et	459,461	O	O
+al	462,464	O	O
+.	464,465	O	O
+
+method	466,472	O	O
+by	473,475	O	O
+Hill	476,480	O	O
+[	481,482	O	O
+36	482,484	O	O
+]	484,485	O	O
+results	486,493	O	O
+in	494,496	O	O
+more	497,501	O	B-Process
+appropriate	502,513	O	I-Process
+behavior	514,522	O	I-Process
+of	523,525	O	O
+the	526,529	O	O
+upper	530,535	O	O
+limit	536,541	O	O
+when	542,546	O	O
+the	547,550	O	O
+observed	551,559	O	O
+number	560,566	O	O
+of	567,569	O	O
+events	570,576	O	O
+is	577,579	O	O
+less	580,584	O	O
+than	585,589	O	O
+the	590,593	O	O
+estimated	594,603	O	O
+background	604,614	O	O
+,	614,615	O	O
+as	616,618	O	O
+is	619,621	O	O
+the	622,625	O	O
+case	626,630	O	O
+for	631,634	O	O
+the	635,638	O	O
+present	639,646	O	O
+measurement	647,658	O	B-Process
+.	658,659	O	O
+
+We	660,662	O	O
+have	663,667	O	O
+adopted	668,675	O	O
+this	676,680	O	O
+method	681,687	O	O
+but	688,691	O	O
+note	692,696	O	O
+that	697,701	O	O
+Table	702,707	O	O
+2	708,709	O	O
+contains	710,718	O	O
+all	719,722	O	O
+of	723,725	O	O
+the	726,729	O	O
+numbers	730,737	O	O
+needed	738,744	O	O
+to	745,747	O	O
+calculate	748,757	O	B-Task
+an	758,760	O	I-Task
+upper	761,766	O	I-Task
+limit	767,772	O	I-Task
+using	773,778	O	O
+any	779,782	O	O
+of	783,785	O	O
+the	786,789	O	O
+methods	790,797	O	O
+in	798,800	O	O
+the	801,804	O	O
+papers	805,811	O	O
+cited	812,817	O	O
+above	818,823	O	O
+.	823,824	O	O
+
+We	825,827	O	O
+assume	828,834	O	O
+that	835,839	O	O
+the	840,843	O	O
+probability	844,855	O	B-Process
+density	856,863	O	I-Process
+functions	864,873	O	I-Process
+of	874,876	O	O
+Fsens	877,882	O	O
+and	883,886	O	O
+background	887,897	O	B-Process
+estimates	898,907	O	I-Process
+are	908,911	O	O
+Gaussian	912,920	O	B-Process
+-	920,921	O	I-Process
+distributed	921,932	O	I-Process
+.	932,933	O	O
 
 
 -DOCSTART- (S0370269304009335)
 
-In	0	2	O
-these	3	8	O
-frameworks	9	19	O
-,	19	20	O
-however	21	28	O
-,	28	29	O
-the	30	33	O
-physical	34	42	B-Task
-spacetime	43	52	I-Task
-dimension	53	62	I-Task
-is	63	65	O
-an	66	68	O
-input	69	74	O
-rather	75	81	O
-than	82	86	O
-a	87	88	O
-prediction	89	99	B-Process
-of	100	102	I-Process
-the	103	106	I-Process
-theory	107	113	I-Process
-.	113	114	O
-
-In	115	117	O
-fact	118	122	O
-,	122	123	O
-in	124	126	O
-standard	127	135	B-Process
-theories	136	144	I-Process
-whose	145	150	O
-gravitational	151	164	O
-sector	165	171	O
-is	172	174	O
-described	175	184	O
-by	185	187	O
-the	188	191	O
-Einstein	192	200	B-Process
-–	200	201	I-Process
-Hilbert	201	208	I-Process
-action	209	215	I-Process
-,	215	216	O
-there	217	222	O
-is	223	225	O
-no	226	228	O
-obstruction	229	240	O
-to	241	243	O
-perform	244	251	O
-dimensional	252	263	B-Process
-reductions	264	274	I-Process
-to	275	277	O
-spacetimes	278	288	O
-of	289	291	O
-dimensions	292	302	O
-d≠4	303	306	O
-.	306	307	O
-
-Then	308	312	O
-the	313	316	O
-question	317	325	O
-arises	326	332	O
-,	332	333	O
-since	334	339	O
-eleven	340	346	O
--	346	347	O
-dimensional	347	358	O
-Minkowski	359	368	B-Material
-space	369	374	I-Material
-is	375	377	O
-a	378	379	O
-maximally	380	389	O
-(	390	391	B-Process
-super)symmetric	391	406	I-Process
-state	407	412	I-Process
-,	412	413	O
-and	414	417	O
-the	418	421	O
-theory	422	428	O
-is	429	431	O
-well	432	436	O
--	436	437	O
-behaved	437	444	O
-around	445	451	O
-it	452	454	O
-,	454	455	O
-why	456	459	O
-the	460	463	O
-theory	464	470	O
-does	471	475	O
-not	476	479	O
-select	480	486	B-Process
-this	487	491	I-Process
-configuration	492	505	I-Process
-as	506	508	O
-the	509	512	O
-vacuum	513	519	O
-,	519	520	O
-but	521	524	O
-instead	525	532	O
-,	532	533	O
-it	534	536	O
-chooses	537	544	O
-a	545	546	O
-particular	547	557	O
-compactified	558	570	B-Process
-space	571	576	I-Process
-with	577	581	O
-less	582	586	O
-symmetry	587	595	O
-.	595	596	O
-
-An	597	599	O
-ideal	600	605	O
-situation	606	615	O
-,	615	616	O
-instead	617	624	O
-,	624	625	O
-would	626	631	O
-be	632	634	O
-that	635	639	O
-the	640	643	O
-eleven	644	650	B-Process
--	650	651	I-Process
-dimensional	651	662	I-Process
-theory	663	669	I-Process
-dynamically	670	681	O
-predicted	682	691	O
-a	692	693	O
-low	694	697	B-Task
-energy	698	704	I-Task
-regime	705	711	I-Task
-which	712	717	O
-could	718	723	O
-only	724	728	O
-be	729	731	O
-a	732	733	O
-four	734	738	B-Process
--	738	739	I-Process
-dimensional	739	750	I-Process
-effective	751	760	I-Process
-theory	761	767	I-Process
-.	767	768	O
-
-In	769	771	O
-such	772	776	O
-a	777	778	O
-scenario	779	787	O
-,	787	788	O
-a	789	790	O
-background	791	801	B-Process
-solution	802	810	I-Process
-with	811	815	O
-an	816	818	O
-effective	819	828	B-Process
-spacetime	829	838	I-Process
-dimension	839	848	I-Process
-d>4	849	852	B-Process
-should	853	859	O
-be	860	862	O
-expected	863	871	O
-to	872	874	O
-be	875	877	O
-a	878	879	O
-false	880	885	B-Process
-vacuum	886	892	I-Process
-where	893	898	O
-the	899	902	O
-propagators	903	914	B-Process
-for	915	918	I-Process
-the	919	922	I-Process
-dynamical	923	932	I-Process
-fields	933	939	I-Process
-are	940	943	O
-ill	944	947	O
--	947	948	O
-defined	948	955	O
-,	955	956	O
-lest	957	961	O
-a	962	963	O
-low	964	967	B-Process
-energy	968	974	I-Process
-effective	975	984	I-Process
-theory	985	991	I-Process
-could	992	997	O
-exist	998	1003	O
-in	1004	1006	O
-dimensions	1007	1017	O
-higher	1018	1024	O
-than	1025	1029	O
-four	1030	1034	O
-.	1034	1035	O
+In	0,2	O	O
+these	3,8	O	O
+frameworks	9,19	O	O
+,	19,20	O	O
+however	21,28	O	O
+,	28,29	O	O
+the	30,33	O	O
+physical	34,42	O	B-Task
+spacetime	43,52	O	I-Task
+dimension	53,62	O	I-Task
+is	63,65	O	O
+an	66,68	O	O
+input	69,74	O	O
+rather	75,81	O	O
+than	82,86	O	O
+a	87,88	O	O
+prediction	89,99	O	B-Process
+of	100,102	O	I-Process
+the	103,106	O	I-Process
+theory	107,113	O	I-Process
+.	113,114	O	O
+
+In	115,117	O	O
+fact	118,122	O	O
+,	122,123	O	O
+in	124,126	O	O
+standard	127,135	O	B-Process
+theories	136,144	O	I-Process
+whose	145,150	O	O
+gravitational	151,164	O	O
+sector	165,171	O	O
+is	172,174	O	O
+described	175,184	O	O
+by	185,187	O	O
+the	188,191	O	O
+Einstein	192,200	O	B-Process
+–	200,201	O	I-Process
+Hilbert	201,208	O	I-Process
+action	209,215	O	I-Process
+,	215,216	O	O
+there	217,222	O	O
+is	223,225	O	O
+no	226,228	O	O
+obstruction	229,240	O	O
+to	241,243	O	O
+perform	244,251	O	O
+dimensional	252,263	O	B-Process
+reductions	264,274	O	I-Process
+to	275,277	O	O
+spacetimes	278,288	O	O
+of	289,291	O	O
+dimensions	292,302	O	O
+d≠4	303,306	O	O
+.	306,307	O	O
+
+Then	308,312	O	O
+the	313,316	O	O
+question	317,325	O	O
+arises	326,332	O	O
+,	332,333	O	O
+since	334,339	O	O
+eleven	340,346	O	O
+-	346,347	O	O
+dimensional	347,358	O	O
+Minkowski	359,368	O	B-Material
+space	369,374	O	I-Material
+is	375,377	O	O
+a	378,379	O	O
+maximally	380,389	O	O
+(	390,391	O	B-Process
+super)symmetric	391,406	O	I-Process
+state	407,412	O	I-Process
+,	412,413	O	O
+and	414,417	O	O
+the	418,421	O	O
+theory	422,428	O	O
+is	429,431	O	O
+well	432,436	O	O
+-	436,437	O	O
+behaved	437,444	O	O
+around	445,451	O	O
+it	452,454	O	O
+,	454,455	O	O
+why	456,459	O	O
+the	460,463	O	O
+theory	464,470	O	O
+does	471,475	O	O
+not	476,479	O	O
+select	480,486	O	B-Process
+this	487,491	O	I-Process
+configuration	492,505	O	I-Process
+as	506,508	O	O
+the	509,512	O	O
+vacuum	513,519	O	O
+,	519,520	O	O
+but	521,524	O	O
+instead	525,532	O	O
+,	532,533	O	O
+it	534,536	O	O
+chooses	537,544	O	O
+a	545,546	O	O
+particular	547,557	O	O
+compactified	558,570	O	B-Process
+space	571,576	O	I-Process
+with	577,581	O	O
+less	582,586	O	O
+symmetry	587,595	O	O
+.	595,596	O	O
+
+An	597,599	O	O
+ideal	600,605	O	O
+situation	606,615	O	O
+,	615,616	O	O
+instead	617,624	O	O
+,	624,625	O	O
+would	626,631	O	O
+be	632,634	O	O
+that	635,639	O	O
+the	640,643	O	O
+eleven	644,650	O	B-Process
+-	650,651	O	I-Process
+dimensional	651,662	O	I-Process
+theory	663,669	O	I-Process
+dynamically	670,681	O	O
+predicted	682,691	O	O
+a	692,693	O	O
+low	694,697	O	B-Task
+energy	698,704	O	I-Task
+regime	705,711	O	I-Task
+which	712,717	O	O
+could	718,723	O	O
+only	724,728	O	O
+be	729,731	O	O
+a	732,733	O	O
+four	734,738	O	B-Process
+-	738,739	O	I-Process
+dimensional	739,750	O	I-Process
+effective	751,760	O	I-Process
+theory	761,767	O	I-Process
+.	767,768	O	O
+
+In	769,771	O	O
+such	772,776	O	O
+a	777,778	O	O
+scenario	779,787	O	O
+,	787,788	O	O
+a	789,790	O	O
+background	791,801	O	B-Process
+solution	802,810	O	I-Process
+with	811,815	O	O
+an	816,818	O	O
+effective	819,828	O	B-Process
+spacetime	829,838	O	I-Process
+dimension	839,848	O	I-Process
+d>4	849,852	O	B-Process
+should	853,859	O	O
+be	860,862	O	O
+expected	863,871	O	O
+to	872,874	O	O
+be	875,877	O	O
+a	878,879	O	O
+false	880,885	O	B-Process
+vacuum	886,892	O	I-Process
+where	893,898	O	O
+the	899,902	O	O
+propagators	903,914	O	B-Process
+for	915,918	O	I-Process
+the	919,922	O	I-Process
+dynamical	923,932	O	I-Process
+fields	933,939	O	I-Process
+are	940,943	O	O
+ill	944,947	O	O
+-	947,948	O	O
+defined	948,955	O	O
+,	955,956	O	O
+lest	957,961	O	O
+a	962,963	O	O
+low	964,967	O	B-Process
+energy	968,974	O	I-Process
+effective	975,984	O	I-Process
+theory	985,991	O	I-Process
+could	992,997	O	O
+exist	998,1003	O	O
+in	1004,1006	O	O
+dimensions	1007,1017	O	O
+higher	1018,1024	O	O
+than	1025,1029	O	O
+four	1030,1034	O	O
+.	1034,1035	O	O
 
 
 -DOCSTART- (S0370269304009347)
 
-The	0	3	O
-presence	4	12	O
-of	13	15	O
-chaotic	16	23	B-Task
-motion	24	30	I-Task
-in	31	33	I-Task
-nuclear	34	41	I-Task
-systems	42	49	I-Task
-has	50	53	O
-been	54	58	O
-firmly	59	65	O
-related	66	73	O
-with	74	78	O
-the	79	82	O
-statistics	83	93	B-Process
-of	94	96	I-Process
-high	97	101	I-Process
--	101	102	I-Process
-lying	102	107	I-Process
-energy	108	114	I-Process
-levels	115	121	I-Process
-[	122	123	O
-8,9	123	126	O
-]	126	127	O
-.	127	128	O
-
-Poisson	129	136	B-Process
-distributions	137	150	I-Process
-of	151	153	O
-normalized	154	164	O
-spacings	165	173	O
-of	174	176	O
-successive	177	187	O
-nuclear	188	195	O
-or	196	198	O
-atomic	199	205	O
-excited	206	213	B-Process
-levels	214	220	I-Process
-with	221	225	O
-the	226	229	O
-same	230	234	O
-spin	235	239	B-Process
-and	240	243	O
-parity	244	250	B-Process
-correspond	251	261	O
-to	262	264	O
-integrable	265	275	B-Process
-classical	276	285	I-Process
-dynamics	286	294	I-Process
-,	294	295	O
-while	296	301	O
-Wigner	302	308	B-Material
-'s	308	310	I-Material
-statistics	311	321	I-Material
-signal	322	328	O
-chaotic	329	336	B-Process
-motion	337	343	I-Process
-in	344	346	O
-the	347	350	O
-corresponding	351	364	O
-classical	365	374	B-Task
-regime	375	381	I-Task
-[	382	383	O
-10	383	385	O
-]	385	386	O
-.	386	387	O
-
-Intermediate	388	400	O
-situations	401	411	O
-are	412	415	O
-more	416	420	O
-difficult	421	430	O
-to	431	433	O
-assess	434	440	O
-.	440	441	O
-
-Very	442	446	O
-recently	447	455	O
-a	456	457	O
-proposal	458	466	O
-has	467	470	O
-been	471	475	O
-made	476	480	O
-to	481	483	O
-treat	484	489	O
-the	490	493	O
-spectral	494	502	B-Process
-fluctuations	503	515	I-Process
-δn	516	518	B-Process
-as	519	521	O
-discrete	522	530	B-Process
-time	531	535	I-Process
-series	536	542	I-Process
-[	543	544	O
-11	544	546	O
-]	546	547	O
-.	547	548	O
-
-Defining	549	557	O
-(	558	559	O
-1)δn=∫−∞En+1ρ˜(E)dE−n	559	580	O
-,	580	581	O
-with	582	586	O
-ρ˜(E	587	591	O
-)	591	592	O
-the	593	596	O
-mean	597	601	O
-level	602	607	O
-density	608	615	O
-which	616	621	O
-allows	622	628	O
-the	629	632	O
-mapping	633	640	B-Process
-to	641	643	I-Process
-dimensionless	644	657	I-Process
-levels	658	664	I-Process
-with	665	669	O
-unitary	670	677	B-Process
-average	678	685	I-Process
-level	686	691	I-Process
-density	692	699	I-Process
-,	699	700	O
-and	701	704	O
-analyzing	705	714	B-Process
-the	715	718	I-Process
-energy	719	725	I-Process
-fluctuations	726	738	I-Process
-as	739	741	O
-a	742	743	O
-discrete	744	752	B-Process
-time	753	757	I-Process
-series	758	764	I-Process
-,	764	765	O
-they	766	770	O
-found	771	776	O
-that	777	781	O
-nuclear	782	789	B-Task
-power	790	795	I-Task
-spectra	796	803	I-Task
-behave	804	810	O
-like	811	815	O
-1f	816	818	O
-noise	819	824	O
-,	824	825	O
-postulating	826	837	O
-that	838	842	O
-this	843	847	O
-might	848	853	O
-be	854	856	O
-a	857	858	O
-characteristic	859	873	O
-signature	874	883	O
-of	884	886	O
-generic	887	894	O
-quantum	895	902	B-Task
-chaotic	903	910	I-Task
-systems	911	918	I-Task
-.	918	919	O
-
-In	920	922	O
-the	923	926	O
-present	927	934	O
-work	935	939	O
-we	940	942	O
-implement	943	952	O
-this	953	957	O
-idea	958	962	O
-,	962	963	O
-using	964	969	O
-the	970	973	O
-1f	974	976	B-Process
-spectral	977	985	I-Process
-behavior	986	994	I-Process
-as	995	997	O
-a	998	999	O
-test	1000	1004	O
-for	1005	1008	O
-the	1009	1012	O
-presence	1013	1021	O
-of	1022	1024	O
-chaos	1025	1030	B-Process
-in	1031	1033	I-Process
-nuclear	1034	1041	I-Process
-mass	1042	1046	I-Process
-errors	1047	1053	I-Process
-.	1053	1054	O
+The	0,3	O	O
+presence	4,12	O	O
+of	13,15	O	O
+chaotic	16,23	O	B-Task
+motion	24,30	O	I-Task
+in	31,33	O	I-Task
+nuclear	34,41	O	I-Task
+systems	42,49	O	I-Task
+has	50,53	O	O
+been	54,58	O	O
+firmly	59,65	O	O
+related	66,73	O	O
+with	74,78	O	O
+the	79,82	O	O
+statistics	83,93	O	B-Process
+of	94,96	O	I-Process
+high	97,101	O	I-Process
+-	101,102	O	I-Process
+lying	102,107	O	I-Process
+energy	108,114	O	I-Process
+levels	115,121	O	I-Process
+[	122,123	O	O
+8,9	123,126	O	O
+]	126,127	O	O
+.	127,128	O	O
+
+Poisson	129,136	O	B-Process
+distributions	137,150	O	I-Process
+of	151,153	O	O
+normalized	154,164	O	O
+spacings	165,173	O	O
+of	174,176	O	O
+successive	177,187	O	O
+nuclear	188,195	O	O
+or	196,198	O	O
+atomic	199,205	O	O
+excited	206,213	O	B-Process
+levels	214,220	O	I-Process
+with	221,225	O	O
+the	226,229	O	O
+same	230,234	O	O
+spin	235,239	O	B-Process
+and	240,243	O	O
+parity	244,250	O	B-Process
+correspond	251,261	O	O
+to	262,264	O	O
+integrable	265,275	O	B-Process
+classical	276,285	O	I-Process
+dynamics	286,294	O	I-Process
+,	294,295	O	O
+while	296,301	O	O
+Wigner	302,308	O	B-Material
+'s	308,310	O	I-Material
+statistics	311,321	O	I-Material
+signal	322,328	O	O
+chaotic	329,336	O	B-Process
+motion	337,343	O	I-Process
+in	344,346	O	O
+the	347,350	O	O
+corresponding	351,364	O	O
+classical	365,374	O	B-Task
+regime	375,381	O	I-Task
+[	382,383	O	O
+10	383,385	O	O
+]	385,386	O	O
+.	386,387	O	O
+
+Intermediate	388,400	O	O
+situations	401,411	O	O
+are	412,415	O	O
+more	416,420	O	O
+difficult	421,430	O	O
+to	431,433	O	O
+assess	434,440	O	O
+.	440,441	O	O
+
+Very	442,446	O	O
+recently	447,455	O	O
+a	456,457	O	O
+proposal	458,466	O	O
+has	467,470	O	O
+been	471,475	O	O
+made	476,480	O	O
+to	481,483	O	O
+treat	484,489	O	O
+the	490,493	O	O
+spectral	494,502	O	B-Process
+fluctuations	503,515	O	I-Process
+δn	516,518	O	B-Process
+as	519,521	O	O
+discrete	522,530	O	B-Process
+time	531,535	O	I-Process
+series	536,542	O	I-Process
+[	543,544	O	O
+11	544,546	O	O
+]	546,547	O	O
+.	547,548	O	O
+
+Defining	549,557	O	O
+(	558,559	O	O
+1)δn=∫−∞En+1ρ˜(E)dE−n	559,580	O	O
+,	580,581	O	O
+with	582,586	O	O
+ρ˜(E	587,591	O	O
+)	591,592	O	O
+the	593,596	O	O
+mean	597,601	O	O
+level	602,607	O	O
+density	608,615	O	O
+which	616,621	O	O
+allows	622,628	O	O
+the	629,632	O	O
+mapping	633,640	O	B-Process
+to	641,643	O	I-Process
+dimensionless	644,657	O	I-Process
+levels	658,664	O	I-Process
+with	665,669	O	O
+unitary	670,677	O	B-Process
+average	678,685	O	I-Process
+level	686,691	O	I-Process
+density	692,699	O	I-Process
+,	699,700	O	O
+and	701,704	O	O
+analyzing	705,714	O	B-Process
+the	715,718	O	I-Process
+energy	719,725	O	I-Process
+fluctuations	726,738	O	I-Process
+as	739,741	O	O
+a	742,743	O	O
+discrete	744,752	O	B-Process
+time	753,757	O	I-Process
+series	758,764	O	I-Process
+,	764,765	O	O
+they	766,770	O	O
+found	771,776	O	O
+that	777,781	O	O
+nuclear	782,789	O	B-Task
+power	790,795	O	I-Task
+spectra	796,803	O	I-Task
+behave	804,810	O	O
+like	811,815	O	O
+1f	816,818	O	O
+noise	819,824	O	O
+,	824,825	O	O
+postulating	826,837	O	O
+that	838,842	O	O
+this	843,847	O	O
+might	848,853	O	O
+be	854,856	O	O
+a	857,858	O	O
+characteristic	859,873	O	O
+signature	874,883	O	O
+of	884,886	O	O
+generic	887,894	O	O
+quantum	895,902	O	B-Task
+chaotic	903,910	O	I-Task
+systems	911,918	O	I-Task
+.	918,919	O	O
+
+In	920,922	O	O
+the	923,926	O	O
+present	927,934	O	O
+work	935,939	O	O
+we	940,942	O	O
+implement	943,952	O	O
+this	953,957	O	O
+idea	958,962	O	O
+,	962,963	O	O
+using	964,969	O	O
+the	970,973	O	O
+1f	974,976	O	B-Process
+spectral	977,985	O	I-Process
+behavior	986,994	O	I-Process
+as	995,997	O	O
+a	998,999	O	O
+test	1000,1004	O	O
+for	1005,1008	O	O
+the	1009,1012	O	O
+presence	1013,1021	O	O
+of	1022,1024	O	O
+chaos	1025,1030	O	B-Process
+in	1031,1033	O	I-Process
+nuclear	1034,1041	O	I-Process
+mass	1042,1046	O	I-Process
+errors	1047,1053	O	I-Process
+.	1053,1054	O	O
 
 
 -DOCSTART- (S0370269304009359)
 
-Table	0	5	O
-1	6	7	O
-lists	8	13	O
-8	14	15	O
-pairs	16	21	O
-of	22	24	O
-B	25	26	B-Process
-decays	27	33	I-Process
-.	33	34	O
-
-In	35	37	O
-fact	38	42	O
-,	42	43	O
-there	44	49	O
-are	50	53	O
-more	54	58	O
-decay	59	64	B-Process
-pairs	65	70	I-Process
-,	70	71	O
-since	72	77	O
-many	78	82	O
-of	83	85	O
-the	86	89	O
-particles	90	99	O
-in	100	102	O
-the	103	106	O
-final	107	112	O
-states	113	119	O
-can	120	123	O
-be	124	126	O
-observed	127	135	O
-as	136	138	O
-either	139	145	O
-pseudoscalar	146	158	O
-(	159	160	O
-P	160	161	O
-)	161	162	O
-or	163	165	O
-vector	166	172	O
-(	173	174	O
-V	174	175	O
-)	175	176	O
-mesons	177	183	B-Material
-.	183	184	O
-
-Note	185	189	O
-that	190	194	O
-certain	195	202	O
-decays	203	209	B-Process
-are	210	213	O
-written	214	221	O
-in	222	224	O
-terms	225	230	O
-of	231	233	O
-VV	234	236	O
-final	237	242	O
-states	243	249	O
-,	249	250	O
-while	251	256	O
-others	257	263	O
-are	264	267	O
-have	268	272	O
-PP	273	275	O
-states	276	282	O
-.	282	283	O
-
-There	284	289	O
-are	290	293	O
-three	294	299	O
-reasons	300	307	O
-for	308	311	O
-this	312	316	O
-.	316	317	O
-
-First	318	323	O
-,	323	324	O
-some	325	329	O
-decays	330	336	B-Process
-involve	337	344	O
-a	345	346	O
-final	347	352	O
--	352	353	O
-state	353	358	O
-π0	359	361	O
-.	361	362	O
-
-However	363	370	O
-,	370	371	O
-experimentally	372	386	O
-it	387	389	O
-will	390	394	O
-be	395	397	O
-necessary	398	407	O
-to	408	410	O
-find	411	415	B-Task
-the	416	419	I-Task
-decay	420	425	I-Task
-vertices	426	434	I-Task
-of	435	437	O
-the	438	441	O
-final	442	447	B-Material
-particles	448	457	I-Material
-.	457	458	O
-
-This	459	463	O
-is	464	466	O
-virtually	467	476	O
-impossible	477	487	O
-for	488	491	O
-a	492	493	O
-π0	494	496	O
-,	496	497	O
-and	498	501	O
-so	502	504	O
-we	505	507	O
-always	508	514	O
-use	515	518	O
-a	519	520	O
-ρ0	521	523	O
-.	523	524	O
-
-Second	525	531	O
-,	531	532	O
-some	533	537	O
-pairs	538	543	B-Material
-of	544	546	I-Material
-decays	547	553	I-Material
-are	554	557	O
-related	558	565	O
-by	566	568	O
-SU(3	569	573	O
-)	573	574	O
-in	575	577	O
-the	578	581	O
-SM	582	584	B-Material
-only	585	589	O
-if	590	592	O
-an	593	595	O
-(	596	597	O
-ss¯	597	600	O
-)	600	601	O
-quark	602	607	B-Material
-pair	608	612	I-Material
-is	613	615	O
-used	616	620	O
-.	620	621	O
-
-However	622	629	O
-,	629	630	O
-there	631	636	O
-are	637	640	O
-no	641	643	O
-P	644	645	O
-'s	645	647	O
-which	648	653	O
-are	654	657	O
-pure	658	662	O
-(	663	664	O
-ss¯	664	667	O
-)	667	668	O
-.	668	669	O
-
-The	670	673	O
-mesons	674	680	B-Material
-η	681	682	B-Material
-and	683	686	O
-η′	687	689	B-Material
-have	690	694	O
-an	695	697	O
-(	698	699	O
-ss¯	699	702	O
-)	702	703	O
-component	704	713	O
-,	713	714	O
-but	715	718	O
-they	719	723	O
-also	724	728	O
-have	729	733	O
-significant	734	745	O
-(	746	747	O
-uu¯	747	750	O
-)	750	751	O
-and	752	755	O
-(	756	757	O
-dd¯	757	760	O
-)	760	761	O
-pieces	762	768	O
-.	768	769	O
-
-As	770	772	O
-a	773	774	O
-result	775	781	O
-the	782	785	O
-b¯→s¯	786	791	O
-and	792	795	O
-b¯→d¯	796	801	O
-decays	802	808	B-Process
-are	809	812	O
-not	813	816	O
-really	817	823	O
-related	824	831	O
-by	832	834	O
-SU(3	835	839	O
-)	839	840	O
-in	841	843	O
-the	844	847	O
-SM	848	850	B-Material
-if	851	853	O
-the	854	857	O
-final	858	863	O
-state	864	869	O
-involves	870	878	O
-an	879	881	O
-η	882	883	B-Material
-or	884	886	O
-η′.	887	890	B-Material
-We	891	893	O
-therefore	894	903	O
-consider	904	912	O
-instead	913	920	O
-the	921	924	O
-vector	925	931	B-Material
-meson	932	937	I-Material
-ϕ	938	939	B-Material
-which	940	945	O
-is	946	948	O
-essentially	949	960	O
-a	961	962	O
-pure	963	967	O
-(	968	969	O
-ss¯	969	972	O
-)	972	973	O
-quark	974	979	B-Process
-state	980	985	I-Process
-.	985	986	O
-
-Finally	987	994	O
-,	994	995	O
-we	996	998	O
-require	999	1006	O
-that	1007	1011	O
-both	1012	1016	O
-B0	1017	1019	B-Material
-and	1020	1023	O
-B¯0	1024	1027	B-Material
-be	1028	1030	O
-able	1031	1035	O
-to	1036	1038	O
-decay	1039	1044	B-Process
-to	1045	1047	I-Process
-the	1048	1051	I-Process
-final	1052	1057	I-Process
-state	1058	1063	I-Process
-.	1063	1064	O
-
-This	1065	1069	O
-can	1070	1073	O
-not	1073	1076	O
-happen	1077	1083	O
-if	1084	1086	O
-the	1087	1090	O
-final	1091	1096	O
-state	1097	1102	O
-contains	1103	1111	O
-a	1112	1113	O
-single	1114	1120	O
-K0	1121	1123	O
-(	1124	1125	O
-or	1125	1127	O
-K¯0	1128	1131	O
-)	1131	1132	O
-meson	1133	1138	B-Material
-.	1138	1139	O
-
-However	1140	1147	O
-,	1147	1148	O
-it	1149	1151	O
-can	1152	1155	O
-occur	1156	1161	O
-if	1162	1164	O
-this	1165	1169	O
-final	1170	1175	B-Material
--	1175	1176	I-Material
-state	1176	1181	I-Material
-particle	1182	1190	I-Material
-is	1191	1193	O
-an	1194	1196	O
-excited	1197	1204	B-Material
-neutral	1205	1212	I-Material
-kaon	1213	1217	I-Material
-.	1217	1218	O
-
-In	1219	1221	O
-this	1222	1226	O
-case	1227	1231	O
-one	1232	1235	O
-decay	1236	1241	O
-involves	1242	1250	O
-K*0	1251	1254	B-Material
-,	1254	1255	O
-while	1256	1261	O
-the	1262	1265	O
-other	1266	1271	O
-has	1272	1275	O
-K¯*0	1276	1280	B-Material
-.	1280	1281	O
-
-Assuming	1282	1290	O
-that	1291	1295	O
-the	1296	1299	O
-vector	1300	1306	B-Material
-meson	1307	1312	I-Material
-is	1313	1315	O
-detected	1316	1324	O
-via	1325	1328	O
-its	1329	1332	O
-decay	1333	1338	B-Process
-to	1339	1341	I-Process
-ψKsπ0	1342	1347	I-Process
-(	1348	1349	O
-as	1349	1351	O
-in	1352	1354	O
-the	1355	1358	O
-measurement	1359	1370	B-Process
-of	1371	1373	I-Process
-sin2β	1374	1379	I-Process
-via	1380	1383	O
-Bd0(t)→J/ψK	1384	1395	O
-*	1395	1396	O
-)	1396	1397	O
-,	1397	1398	O
-then	1399	1403	O
-both	1404	1408	O
-B0	1409	1411	B-Material
-and	1412	1415	O
-B¯0	1416	1419	B-Material
-can	1420	1423	O
-decay	1424	1429	B-Process
-to	1430	1432	O
-the	1433	1436	O
-same	1437	1441	O
-final	1442	1447	O
-state	1448	1453	O
-.	1453	1454	O
+Table	0,5	O	O
+1	6,7	O	O
+lists	8,13	O	O
+8	14,15	O	O
+pairs	16,21	O	O
+of	22,24	O	O
+B	25,26	O	B-Process
+decays	27,33	O	I-Process
+.	33,34	O	O
+
+In	35,37	O	O
+fact	38,42	O	O
+,	42,43	O	O
+there	44,49	O	O
+are	50,53	O	O
+more	54,58	O	O
+decay	59,64	O	B-Process
+pairs	65,70	O	I-Process
+,	70,71	O	O
+since	72,77	O	O
+many	78,82	O	O
+of	83,85	O	O
+the	86,89	O	O
+particles	90,99	O	O
+in	100,102	O	O
+the	103,106	O	O
+final	107,112	O	O
+states	113,119	O	O
+can	120,123	O	O
+be	124,126	O	O
+observed	127,135	O	O
+as	136,138	O	O
+either	139,145	O	O
+pseudoscalar	146,158	O	O
+(	159,160	O	O
+P	160,161	O	O
+)	161,162	O	O
+or	163,165	O	O
+vector	166,172	O	O
+(	173,174	O	O
+V	174,175	O	O
+)	175,176	O	O
+mesons	177,183	O	B-Material
+.	183,184	O	O
+
+Note	185,189	O	O
+that	190,194	O	O
+certain	195,202	O	O
+decays	203,209	O	B-Process
+are	210,213	O	O
+written	214,221	O	O
+in	222,224	O	O
+terms	225,230	O	O
+of	231,233	O	O
+VV	234,236	O	O
+final	237,242	O	O
+states	243,249	O	O
+,	249,250	O	O
+while	251,256	O	O
+others	257,263	O	O
+are	264,267	O	O
+have	268,272	O	O
+PP	273,275	O	O
+states	276,282	O	O
+.	282,283	O	O
+
+There	284,289	O	O
+are	290,293	O	O
+three	294,299	O	O
+reasons	300,307	O	O
+for	308,311	O	O
+this	312,316	O	O
+.	316,317	O	O
+
+First	318,323	O	O
+,	323,324	O	O
+some	325,329	O	O
+decays	330,336	O	B-Process
+involve	337,344	O	O
+a	345,346	O	O
+final	347,352	O	O
+-	352,353	O	O
+state	353,358	O	O
+π0	359,361	O	O
+.	361,362	O	O
+
+However	363,370	O	O
+,	370,371	O	O
+experimentally	372,386	O	O
+it	387,389	O	O
+will	390,394	O	O
+be	395,397	O	O
+necessary	398,407	O	O
+to	408,410	O	O
+find	411,415	O	B-Task
+the	416,419	O	I-Task
+decay	420,425	O	I-Task
+vertices	426,434	O	I-Task
+of	435,437	O	O
+the	438,441	O	O
+final	442,447	O	B-Material
+particles	448,457	O	I-Material
+.	457,458	O	O
+
+This	459,463	O	O
+is	464,466	O	O
+virtually	467,476	O	O
+impossible	477,487	O	O
+for	488,491	O	O
+a	492,493	O	O
+π0	494,496	O	O
+,	496,497	O	O
+and	498,501	O	O
+so	502,504	O	O
+we	505,507	O	O
+always	508,514	O	O
+use	515,518	O	O
+a	519,520	O	O
+ρ0	521,523	O	O
+.	523,524	O	O
+
+Second	525,531	O	O
+,	531,532	O	O
+some	533,537	O	O
+pairs	538,543	O	B-Material
+of	544,546	O	I-Material
+decays	547,553	O	I-Material
+are	554,557	O	O
+related	558,565	O	O
+by	566,568	O	O
+SU(3	569,573	O	O
+)	573,574	O	O
+in	575,577	O	O
+the	578,581	O	O
+SM	582,584	O	B-Material
+only	585,589	O	O
+if	590,592	O	O
+an	593,595	O	O
+(	596,597	O	O
+ss¯	597,600	O	O
+)	600,601	O	O
+quark	602,607	O	B-Material
+pair	608,612	O	I-Material
+is	613,615	O	O
+used	616,620	O	O
+.	620,621	O	O
+
+However	622,629	O	O
+,	629,630	O	O
+there	631,636	O	O
+are	637,640	O	O
+no	641,643	O	O
+P	644,645	O	O
+'s	645,647	O	O
+which	648,653	O	O
+are	654,657	O	O
+pure	658,662	O	O
+(	663,664	O	O
+ss¯	664,667	O	O
+)	667,668	O	O
+.	668,669	O	O
+
+The	670,673	O	O
+mesons	674,680	O	B-Material
+η	681,682	O	B-Material
+and	683,686	O	O
+η′	687,689	O	B-Material
+have	690,694	O	O
+an	695,697	O	O
+(	698,699	O	O
+ss¯	699,702	O	O
+)	702,703	O	O
+component	704,713	O	O
+,	713,714	O	O
+but	715,718	O	O
+they	719,723	O	O
+also	724,728	O	O
+have	729,733	O	O
+significant	734,745	O	O
+(	746,747	O	O
+uu¯	747,750	O	O
+)	750,751	O	O
+and	752,755	O	O
+(	756,757	O	O
+dd¯	757,760	O	O
+)	760,761	O	O
+pieces	762,768	O	O
+.	768,769	O	O
+
+As	770,772	O	O
+a	773,774	O	O
+result	775,781	O	O
+the	782,785	O	O
+b¯→s¯	786,791	O	O
+and	792,795	O	O
+b¯→d¯	796,801	O	O
+decays	802,808	O	B-Process
+are	809,812	O	O
+not	813,816	O	O
+really	817,823	O	O
+related	824,831	O	O
+by	832,834	O	O
+SU(3	835,839	O	O
+)	839,840	O	O
+in	841,843	O	O
+the	844,847	O	O
+SM	848,850	O	B-Material
+if	851,853	O	O
+the	854,857	O	O
+final	858,863	O	O
+state	864,869	O	O
+involves	870,878	O	O
+an	879,881	O	O
+η	882,883	O	B-Material
+or	884,886	O	O
+η′.	887,890	O	B-Material
+We	891,893	O	O
+therefore	894,903	O	O
+consider	904,912	O	O
+instead	913,920	O	O
+the	921,924	O	O
+vector	925,931	O	B-Material
+meson	932,937	O	I-Material
+ϕ	938,939	O	B-Material
+which	940,945	O	O
+is	946,948	O	O
+essentially	949,960	O	O
+a	961,962	O	O
+pure	963,967	O	O
+(	968,969	O	O
+ss¯	969,972	O	O
+)	972,973	O	O
+quark	974,979	O	B-Process
+state	980,985	O	I-Process
+.	985,986	O	O
+
+Finally	987,994	O	O
+,	994,995	O	O
+we	996,998	O	O
+require	999,1006	O	O
+that	1007,1011	O	O
+both	1012,1016	O	O
+B0	1017,1019	O	B-Material
+and	1020,1023	O	O
+B¯0	1024,1027	O	B-Material
+be	1028,1030	O	O
+able	1031,1035	O	O
+to	1036,1038	O	O
+decay	1039,1044	O	B-Process
+to	1045,1047	O	I-Process
+the	1048,1051	O	I-Process
+final	1052,1057	O	I-Process
+state	1058,1063	O	I-Process
+.	1063,1064	O	O
+
+This	1065,1069	O	O
+can	1070,1073	O	O
+not	1073,1076	O	O
+happen	1077,1083	O	O
+if	1084,1086	O	O
+the	1087,1090	O	O
+final	1091,1096	O	O
+state	1097,1102	O	O
+contains	1103,1111	O	O
+a	1112,1113	O	O
+single	1114,1120	O	O
+K0	1121,1123	O	O
+(	1124,1125	O	O
+or	1125,1127	O	O
+K¯0	1128,1131	O	O
+)	1131,1132	O	O
+meson	1133,1138	O	B-Material
+.	1138,1139	O	O
+
+However	1140,1147	O	O
+,	1147,1148	O	O
+it	1149,1151	O	O
+can	1152,1155	O	O
+occur	1156,1161	O	O
+if	1162,1164	O	O
+this	1165,1169	O	O
+final	1170,1175	O	B-Material
+-	1175,1176	O	I-Material
+state	1176,1181	O	I-Material
+particle	1182,1190	O	I-Material
+is	1191,1193	O	O
+an	1194,1196	O	O
+excited	1197,1204	O	B-Material
+neutral	1205,1212	O	I-Material
+kaon	1213,1217	O	I-Material
+.	1217,1218	O	O
+
+In	1219,1221	O	O
+this	1222,1226	O	O
+case	1227,1231	O	O
+one	1232,1235	O	O
+decay	1236,1241	O	O
+involves	1242,1250	O	O
+K*0	1251,1254	O	B-Material
+,	1254,1255	O	O
+while	1256,1261	O	O
+the	1262,1265	O	O
+other	1266,1271	O	O
+has	1272,1275	O	O
+K¯*0	1276,1280	O	B-Material
+.	1280,1281	O	O
+
+Assuming	1282,1290	O	O
+that	1291,1295	O	O
+the	1296,1299	O	O
+vector	1300,1306	O	B-Material
+meson	1307,1312	O	I-Material
+is	1313,1315	O	O
+detected	1316,1324	O	O
+via	1325,1328	O	O
+its	1329,1332	O	O
+decay	1333,1338	O	B-Process
+to	1339,1341	O	I-Process
+ψKsπ0	1342,1347	O	I-Process
+(	1348,1349	O	O
+as	1349,1351	O	O
+in	1352,1354	O	O
+the	1355,1358	O	O
+measurement	1359,1370	O	B-Process
+of	1371,1373	O	I-Process
+sin2β	1374,1379	O	I-Process
+via	1380,1383	O	O
+Bd0(t)→J/ψK	1384,1395	O	O
+*	1395,1396	O	O
+)	1396,1397	O	O
+,	1397,1398	O	O
+then	1399,1403	O	O
+both	1404,1408	O	O
+B0	1409,1411	O	B-Material
+and	1412,1415	O	O
+B¯0	1416,1419	O	B-Material
+can	1420,1423	O	O
+decay	1424,1429	O	B-Process
+to	1430,1432	O	O
+the	1433,1436	O	O
+same	1437,1441	O	O
+final	1442,1447	O	O
+state	1448,1453	O	O
+.	1453,1454	O	O
 
 
 -DOCSTART- (S0370269304009530)
 
-If	0	2	O
-signals	3	10	O
-suggesting	11	21	O
-supersymmetry	22	35	B-Process
-(	36	37	O
-SUSY	37	41	B-Process
-)	41	42	O
-are	43	46	O
-discovered	47	57	O
-at	58	60	O
-the	61	64	O
-LHC	65	68	O
-then	69	73	O
-it	74	76	O
-will	77	81	O
-be	82	84	O
-vital	85	90	O
-to	91	93	O
-measure	94	101	B-Task
-the	102	105	I-Task
-spins	106	111	I-Task
-of	112	114	I-Task
-the	115	118	I-Task
-new	119	122	I-Task
-particles	123	132	I-Task
-to	133	135	O
-demonstrate	136	147	B-Task
-that	148	152	I-Task
-they	153	157	I-Task
-are	158	161	I-Task
-indeed	162	168	I-Task
-the	169	172	I-Task
-predicted	173	182	I-Task
-super	183	188	I-Task
--	188	189	I-Task
-partners	189	197	I-Task
-.	197	198	O
-
-A	199	200	O
-method	201	207	O
-is	208	210	O
-discussed	211	220	O
-by	221	223	O
-which	224	229	O
-the	230	233	O
-spins	234	239	O
-of	240	242	O
-some	243	247	O
-of	248	250	O
-the	251	254	O
-SUSY	255	259	B-Material
-particles	260	269	I-Material
-can	270	273	O
-be	274	276	O
-determined	277	287	O
-.	287	288	O
-
-Angular	289	296	B-Process
-distributions	297	310	I-Process
-in	311	313	O
-sparticle	314	323	B-Process
-decays	324	330	I-Process
-lead	331	335	O
-to	336	338	O
-charge	339	345	B-Process
-asymmetry	346	355	I-Process
-in	356	358	O
-lepton	359	365	B-Process
--	365	366	I-Process
-jet	366	369	I-Process
-invariant	370	379	I-Process
-mass	380	384	I-Process
-distributions	385	398	I-Process
-.	398	399	O
-
-The	400	403	O
-size	404	408	O
-of	409	411	O
-the	412	415	O
-asymmetry	416	425	O
-is	426	428	O
-proportional	429	441	O
-to	442	444	O
-the	445	448	O
-primary	449	456	B-Process
-production	457	467	I-Process
-asymmetry	468	477	I-Process
-between	478	485	O
-squarks	486	493	B-Material
-and	494	497	O
-anti	498	502	B-Material
--	502	503	I-Material
-squarks	503	510	I-Material
-.	510	511	O
-
-Monte	512	517	B-Process
-Carlo	518	523	I-Process
-simulations	524	535	I-Process
-are	536	539	O
-performed	540	549	O
-for	550	553	O
-a	554	555	O
-particular	556	566	O
-mSUGRA	567	573	B-Process
-model	574	579	I-Process
-point	580	585	I-Process
-at	586	588	O
-the	589	592	O
-LHC	593	596	O
-.	596	597	O
-
-The	598	601	O
-resultant	602	611	O
-asymmetry	612	621	B-Process
-distributions	622	635	I-Process
-are	636	639	O
-consistent	640	650	O
-with	651	655	O
-a	656	657	O
-spin-0	658	664	B-Material
-slepton	665	672	I-Material
-and	673	676	O
-a	677	678	O
-spin-12χ˜20	679	690	O
-,	690	691	O
-but	692	695	O
-are	696	699	O
-not	700	703	O
-consistent	704	714	O
-with	715	719	O
-both	720	724	O
-particles	725	734	B-Material
-being	735	740	O
-scalars	741	748	O
-.	748	749	O
+If	0,2	O	O
+signals	3,10	O	O
+suggesting	11,21	O	O
+supersymmetry	22,35	O	B-Process
+(	36,37	O	O
+SUSY	37,41	O	B-Process
+)	41,42	O	O
+are	43,46	O	O
+discovered	47,57	O	O
+at	58,60	O	O
+the	61,64	O	O
+LHC	65,68	O	O
+then	69,73	O	O
+it	74,76	O	O
+will	77,81	O	O
+be	82,84	O	O
+vital	85,90	O	O
+to	91,93	O	O
+measure	94,101	O	B-Task
+the	102,105	O	I-Task
+spins	106,111	O	I-Task
+of	112,114	O	I-Task
+the	115,118	O	I-Task
+new	119,122	O	I-Task
+particles	123,132	O	I-Task
+to	133,135	O	O
+demonstrate	136,147	O	B-Task
+that	148,152	O	I-Task
+they	153,157	O	I-Task
+are	158,161	O	I-Task
+indeed	162,168	O	I-Task
+the	169,172	O	I-Task
+predicted	173,182	O	I-Task
+super	183,188	O	I-Task
+-	188,189	O	I-Task
+partners	189,197	O	I-Task
+.	197,198	O	O
+
+A	199,200	O	O
+method	201,207	O	O
+is	208,210	O	O
+discussed	211,220	O	O
+by	221,223	O	O
+which	224,229	O	O
+the	230,233	O	O
+spins	234,239	O	O
+of	240,242	O	O
+some	243,247	O	O
+of	248,250	O	O
+the	251,254	O	O
+SUSY	255,259	O	B-Material
+particles	260,269	O	I-Material
+can	270,273	O	O
+be	274,276	O	O
+determined	277,287	O	O
+.	287,288	O	O
+
+Angular	289,296	O	B-Process
+distributions	297,310	O	I-Process
+in	311,313	O	O
+sparticle	314,323	O	B-Process
+decays	324,330	O	I-Process
+lead	331,335	O	O
+to	336,338	O	O
+charge	339,345	O	B-Process
+asymmetry	346,355	O	I-Process
+in	356,358	O	O
+lepton	359,365	O	B-Process
+-	365,366	O	I-Process
+jet	366,369	O	I-Process
+invariant	370,379	O	I-Process
+mass	380,384	O	I-Process
+distributions	385,398	O	I-Process
+.	398,399	O	O
+
+The	400,403	O	O
+size	404,408	O	O
+of	409,411	O	O
+the	412,415	O	O
+asymmetry	416,425	O	O
+is	426,428	O	O
+proportional	429,441	O	O
+to	442,444	O	O
+the	445,448	O	O
+primary	449,456	O	B-Process
+production	457,467	O	I-Process
+asymmetry	468,477	O	I-Process
+between	478,485	O	O
+squarks	486,493	O	B-Material
+and	494,497	O	O
+anti	498,502	O	B-Material
+-	502,503	O	I-Material
+squarks	503,510	O	I-Material
+.	510,511	O	O
+
+Monte	512,517	O	B-Process
+Carlo	518,523	O	I-Process
+simulations	524,535	O	I-Process
+are	536,539	O	O
+performed	540,549	O	O
+for	550,553	O	O
+a	554,555	O	O
+particular	556,566	O	O
+mSUGRA	567,573	O	B-Process
+model	574,579	O	I-Process
+point	580,585	O	I-Process
+at	586,588	O	O
+the	589,592	O	O
+LHC	593,596	O	O
+.	596,597	O	O
+
+The	598,601	O	O
+resultant	602,611	O	O
+asymmetry	612,621	O	B-Process
+distributions	622,635	O	I-Process
+are	636,639	O	O
+consistent	640,650	O	O
+with	651,655	O	O
+a	656,657	O	O
+spin-0	658,664	O	B-Material
+slepton	665,672	O	I-Material
+and	673,676	O	O
+a	677,678	O	O
+spin-12χ˜20	679,690	O	O
+,	690,691	O	O
+but	692,695	O	O
+are	696,699	O	O
+not	700,703	O	O
+consistent	704,714	O	O
+with	715,719	O	O
+both	720,724	O	O
+particles	725,734	O	B-Material
+being	735,740	O	O
+scalars	741,748	O	O
+.	748,749	O	O
 
 
 -DOCSTART- (S0370269304009608)
 
-It	0	2	O
-should	3	9	O
-be	10	12	O
-noted	13	18	O
-that	19	23	O
-BEBC	24	28	B-Material
-[	29	30	O
-21	30	32	O
-]	32	33	O
-and	34	37	O
-NOMAD	38	43	B-Material
-[	44	45	O
-20	45	47	O
-]	47	48	O
-observed	49	57	B-Task
-a	58	59	I-Task
-discrepancy	60	71	I-Task
-between	72	79	O
-experimental	80	92	O
-ρ	93	94	O
-rates	95	100	O
-and	101	104	O
-those	105	110	O
-estimated	111	120	O
-with	121	125	O
-JETSET	126	132	B-Material
-
-[	133	134	O
-16	134	136	O
-]	136	137	O
-.	137	138	O
-
-NOMAD	139	144	B-Material
-[	145	146	O
-20	146	148	O
-]	148	149	O
-proposed	150	158	O
-to	159	161	O
-retune	162	168	B-Process
-some	169	173	I-Process
-of	174	176	I-Process
-the	177	180	I-Process
-parameters	181	191	I-Process
-used	192	196	O
-within	197	203	O
-JETSET	204	210	B-Material
-to	211	213	O
-obtain	214	220	B-Task
-better	221	227	I-Task
-agreement	228	237	I-Task
-.	237	238	O
-
-Therefore	239	248	O
-,	248	249	O
-for	250	253	O
-the	254	257	O
-purpose	258	265	O
-of	266	268	O
-this	269	273	O
-analysis	274	282	B-Task
-events	283	289	B-Process
-were	290	294	I-Process
-simulated	295	304	I-Process
-both	305	309	O
-with	310	314	O
-the	315	318	O
-default	319	326	B-Process
-setting	327	334	I-Process
-and	335	338	O
-with	339	343	O
-the	344	347	O
-setting	348	355	B-Process
-proposed	356	364	I-Process
-by	365	367	I-Process
-NOMAD	368	373	I-Process
-of	374	376	O
-key	377	380	O
-JETSET	381	387	B-Material
-parameters	388	398	O
-,	398	399	O
-taking	400	406	B-Process
-an	407	409	I-Process
-average	410	417	I-Process
-between	418	425	I-Process
-them	426	430	I-Process
-as	431	433	O
-a	434	435	O
-result	436	442	O
-and	443	446	O
-half	447	451	B-Process
-a	452	453	I-Process
-difference	454	464	I-Process
-as	465	467	I-Process
-a	468	469	I-Process
-systematic	470	480	I-Process
-error	481	486	I-Process
-.	486	487	O
-
-We	488	490	O
-used	491	495	O
-experimental	496	508	O
-rates	509	514	O
-of	515	517	O
-light	518	523	B-Material
-neutral	524	531	I-Material
-mesons	532	538	I-Material
-and	539	542	O
-resonances	543	553	B-Process
-where	554	559	O
-available	560	569	O
-(	570	571	O
-Table	571	576	O
-1	577	578	O
-)	578	579	O
-for	580	583	O
-normalization	584	597	B-Process
-purposes	598	606	O
-.	606	607	O
-
-The	608	611	O
-uncertainty	612	623	O
-introduced	624	634	O
-by	635	637	O
-the	638	641	O
-JETSET	642	648	B-Material
-parameter	649	658	B-Process
-settings	659	667	I-Process
-(	668	669	O
-which	669	674	O
-amounts	675	682	O
-to	683	685	O
-20	686	688	O
-%	688	689	O
-at	690	692	O
-most	693	697	O
-)	697	698	O
-affects	699	706	O
-only	707	711	O
-the	712	715	O
-production	716	726	O
-of	727	729	O
-the	730	733	O
-η′	734	736	O
-and	737	740	O
-ϕ	741	742	O
-for	743	746	O
-which	747	752	O
-no	753	755	O
-experimental	756	768	B-Material
-data	769	773	I-Material
-are	774	777	O
-available	778	787	O
-.	787	788	O
-
-This	789	793	O
-uncertainty	794	805	O
-is	806	808	O
-reflected	809	818	O
-in	819	821	O
-the	822	825	O
-error	826	831	O
-quoted	832	838	O
-in	839	841	O
-the	842	845	O
-table	846	851	O
-.	851	852	O
-
-However	853	860	O
-,	860	861	O
-since	862	867	O
-the	868	871	O
-contribution	872	884	O
-from	885	889	O
-η′	890	892	O
-and	893	896	O
-ϕ	897	898	O
-is	899	901	O
-small	902	907	O
-,	907	908	O
-the	909	912	O
-overall	913	920	O
-effect	921	927	O
-is	928	930	O
-less	931	935	O
-important	936	945	O
-.	945	946	O
+It	0,2	O	O
+should	3,9	O	O
+be	10,12	O	O
+noted	13,18	O	O
+that	19,23	O	O
+BEBC	24,28	O	B-Material
+[	29,30	O	O
+21	30,32	O	O
+]	32,33	O	O
+and	34,37	O	O
+NOMAD	38,43	O	B-Material
+[	44,45	O	O
+20	45,47	O	O
+]	47,48	O	O
+observed	49,57	O	B-Task
+a	58,59	O	I-Task
+discrepancy	60,71	O	I-Task
+between	72,79	O	O
+experimental	80,92	O	O
+ρ	93,94	O	O
+rates	95,100	O	O
+and	101,104	O	O
+those	105,110	O	O
+estimated	111,120	O	O
+with	121,125	O	O
+JETSET	126,132	O	B-Material
+
+[	133,134	O	O
+16	134,136	O	O
+]	136,137	O	O
+.	137,138	O	O
+
+NOMAD	139,144	O	B-Material
+[	145,146	O	O
+20	146,148	O	O
+]	148,149	O	O
+proposed	150,158	O	O
+to	159,161	O	O
+retune	162,168	O	B-Process
+some	169,173	O	I-Process
+of	174,176	O	I-Process
+the	177,180	O	I-Process
+parameters	181,191	O	I-Process
+used	192,196	O	O
+within	197,203	O	O
+JETSET	204,210	O	B-Material
+to	211,213	O	O
+obtain	214,220	O	B-Task
+better	221,227	O	I-Task
+agreement	228,237	O	I-Task
+.	237,238	O	O
+
+Therefore	239,248	O	O
+,	248,249	O	O
+for	250,253	O	O
+the	254,257	O	O
+purpose	258,265	O	O
+of	266,268	O	O
+this	269,273	O	O
+analysis	274,282	O	B-Task
+events	283,289	O	B-Process
+were	290,294	O	I-Process
+simulated	295,304	O	I-Process
+both	305,309	O	O
+with	310,314	O	O
+the	315,318	O	O
+default	319,326	O	B-Process
+setting	327,334	O	I-Process
+and	335,338	O	O
+with	339,343	O	O
+the	344,347	O	O
+setting	348,355	O	B-Process
+proposed	356,364	O	I-Process
+by	365,367	O	I-Process
+NOMAD	368,373	O	I-Process
+of	374,376	O	O
+key	377,380	O	O
+JETSET	381,387	O	B-Material
+parameters	388,398	O	O
+,	398,399	O	O
+taking	400,406	O	B-Process
+an	407,409	O	I-Process
+average	410,417	O	I-Process
+between	418,425	O	I-Process
+them	426,430	O	I-Process
+as	431,433	O	O
+a	434,435	O	O
+result	436,442	O	O
+and	443,446	O	O
+half	447,451	O	B-Process
+a	452,453	O	I-Process
+difference	454,464	O	I-Process
+as	465,467	O	I-Process
+a	468,469	O	I-Process
+systematic	470,480	O	I-Process
+error	481,486	O	I-Process
+.	486,487	O	O
+
+We	488,490	O	O
+used	491,495	O	O
+experimental	496,508	O	O
+rates	509,514	O	O
+of	515,517	O	O
+light	518,523	O	B-Material
+neutral	524,531	O	I-Material
+mesons	532,538	O	I-Material
+and	539,542	O	O
+resonances	543,553	O	B-Process
+where	554,559	O	O
+available	560,569	O	O
+(	570,571	O	O
+Table	571,576	O	O
+1	577,578	O	O
+)	578,579	O	O
+for	580,583	O	O
+normalization	584,597	O	B-Process
+purposes	598,606	O	O
+.	606,607	O	O
+
+The	608,611	O	O
+uncertainty	612,623	O	O
+introduced	624,634	O	O
+by	635,637	O	O
+the	638,641	O	O
+JETSET	642,648	O	B-Material
+parameter	649,658	O	B-Process
+settings	659,667	O	I-Process
+(	668,669	O	O
+which	669,674	O	O
+amounts	675,682	O	O
+to	683,685	O	O
+20	686,688	O	O
+%	688,689	O	O
+at	690,692	O	O
+most	693,697	O	O
+)	697,698	O	O
+affects	699,706	O	O
+only	707,711	O	O
+the	712,715	O	O
+production	716,726	O	O
+of	727,729	O	O
+the	730,733	O	O
+η′	734,736	O	O
+and	737,740	O	O
+ϕ	741,742	O	O
+for	743,746	O	O
+which	747,752	O	O
+no	753,755	O	O
+experimental	756,768	O	B-Material
+data	769,773	O	I-Material
+are	774,777	O	O
+available	778,787	O	O
+.	787,788	O	O
+
+This	789,793	O	O
+uncertainty	794,805	O	O
+is	806,808	O	O
+reflected	809,818	O	O
+in	819,821	O	O
+the	822,825	O	O
+error	826,831	O	O
+quoted	832,838	O	O
+in	839,841	O	O
+the	842,845	O	O
+table	846,851	O	O
+.	851,852	O	O
+
+However	853,860	O	O
+,	860,861	O	O
+since	862,867	O	O
+the	868,871	O	O
+contribution	872,884	O	O
+from	885,889	O	O
+η′	890,892	O	O
+and	893,896	O	O
+ϕ	897,898	O	O
+is	899,901	O	O
+small	902,907	O	O
+,	907,908	O	O
+the	909,912	O	O
+overall	913,920	O	O
+effect	921,927	O	O
+is	928,930	O	O
+less	931,935	O	O
+important	936,945	O	O
+.	945,946	O	O
 
 
 -DOCSTART- (S0370269304009657)
 
-In	0	2	O
-this	3	7	O
-Letter	8	14	O
-,	14	15	O
-we	16	18	O
-present	19	26	O
-results	27	34	O
-of	35	37	O
-a	38	39	O
-relativistic	40	52	B-Task
-calculation	53	64	I-Task
-of	65	67	I-Task
-decay	68	73	I-Task
-constants	74	83	I-Task
-in	84	86	O
-the	87	90	O
-framework	91	100	B-Process
-of	101	103	I-Process
-full	104	108	I-Process
-Salpeter	109	117	I-Process
-equation	118	126	I-Process
-.	126	127	O
-
-The	128	131	O
-full	132	136	O
-Salpeter	137	145	B-Process
-equation	146	154	I-Process
-is	155	157	O
-a	158	159	O
-relativistic	160	172	B-Process
-equation	173	181	I-Process
-describing	182	192	O
-a	193	194	O
-bound	195	200	O
-state	201	206	O
-.	206	207	O
-
-Since	208	213	O
-this	214	218	O
-method	219	225	O
-has	226	229	O
-a	230	231	O
-very	232	236	O
-solid	237	242	O
-basis	243	248	O
-in	249	251	O
-quantum	252	259	B-Process
-field	260	265	I-Process
-theory	266	272	I-Process
-,	272	273	O
-it	274	276	O
-is	277	279	O
-very	280	284	O
-good	285	289	O
-in	290	292	O
-describing	293	303	B-Task
-a	304	305	I-Task
-bound	306	311	I-Task
-state	312	317	I-Task
-which	318	323	O
-is	324	326	O
-a	327	328	O
-relativistic	329	341	B-Process
-system	342	348	I-Process
-.	348	349	O
-
-In	350	352	O
-a	353	354	O
-previous	355	363	O
-paper	364	369	O
-[	370	371	O
-16	371	373	O
-]	373	374	O
-,	374	375	O
-we	376	378	O
-solved	379	385	O
-the	386	389	O
-instantaneous	390	403	O
-Bethe	404	409	O
-–	409	410	O
-
-Salpeter	410	418	O
-equation	419	427	O
-[	428	429	O
-17	429	431	O
-]	431	432	O
-,	432	433	O
-which	434	439	O
-is	440	442	O
-also	443	447	O
-called	448	454	O
-full	455	459	B-Process
-Salpeter	460	468	I-Process
-equation	469	477	I-Process
-
-[	478	479	O
-18	479	481	O
-]	481	482	O
-.	482	483	O
-
-After	484	489	O
-we	490	492	O
-solved	493	499	B-Task
-the	500	503	I-Task
-full	504	508	I-Task
-Salpeter	509	517	I-Task
-equation	518	526	I-Task
-,	526	527	O
-we	528	530	O
-obtained	531	539	O
-the	540	543	O
-relativistic	544	556	B-Process
-wave	557	561	I-Process
-function	562	570	I-Process
-of	571	573	I-Process
-the	574	577	I-Process
-bound	578	583	I-Process
-state	584	589	I-Process
-.	589	590	O
-
-We	591	593	O
-used	594	598	O
-this	599	603	O
-wave	604	608	B-Process
-function	609	617	I-Process
-to	618	620	O
-calculate	621	630	B-Task
-the	631	634	I-Task
-average	635	642	I-Task
-kinetic	643	650	I-Task
-energy	651	657	I-Task
-of	658	660	O
-the	661	664	O
-heavy	665	670	B-Material
-quark	671	676	I-Material
-inside	677	683	O
-a	684	685	O
-heavy	686	691	B-Material
-meson	692	697	I-Material
-in	698	700	O
-0−	701	703	O
-state	704	709	O
-,	709	710	O
-and	711	714	O
-obtained	715	723	B-Process
-values	724	730	I-Process
-which	731	736	O
-agree	737	742	O
-very	743	747	O
-well	748	752	O
-with	753	757	O
-recent	758	764	O
-experiments	765	776	O
-.	776	777	O
-
-We	778	780	O
-also	781	785	O
-found	786	791	O
-there	792	797	O
-that	798	802	O
-the	803	806	O
-relativistic	807	819	B-Process
-corrections	820	831	I-Process
-are	832	835	I-Process
-quite	836	841	I-Process
-large	842	847	I-Process
-and	848	851	O
-can	852	855	O
-not	855	858	O
-be	859	861	O
-ignored	862	869	O
-[	870	871	O
-16	871	873	O
-]	873	874	O
-.	874	875	O
-
-In	876	878	O
-this	879	883	O
-Letter	884	890	O
-we	891	893	O
-use	894	897	B-Process
-this	898	902	I-Process
-method	903	909	I-Process
-to	910	912	O
-predict	913	920	B-Task
-the	921	924	I-Task
-values	925	931	I-Task
-of	932	934	I-Task
-decay	935	940	I-Task
-constants	941	950	I-Task
-of	951	953	O
-heavy	954	959	B-Material
-mesons	960	966	I-Material
-in	967	969	O
-0−	970	972	O
-state	973	978	O
-.	978	979	O
+In	0,2	O	O
+this	3,7	O	O
+Letter	8,14	O	O
+,	14,15	O	O
+we	16,18	O	O
+present	19,26	O	O
+results	27,34	O	O
+of	35,37	O	O
+a	38,39	O	O
+relativistic	40,52	O	B-Task
+calculation	53,64	O	I-Task
+of	65,67	O	I-Task
+decay	68,73	O	I-Task
+constants	74,83	O	I-Task
+in	84,86	O	O
+the	87,90	O	O
+framework	91,100	O	B-Process
+of	101,103	O	I-Process
+full	104,108	O	I-Process
+Salpeter	109,117	O	I-Process
+equation	118,126	O	I-Process
+.	126,127	O	O
+
+The	128,131	O	O
+full	132,136	O	O
+Salpeter	137,145	O	B-Process
+equation	146,154	O	I-Process
+is	155,157	O	O
+a	158,159	O	O
+relativistic	160,172	O	B-Process
+equation	173,181	O	I-Process
+describing	182,192	O	O
+a	193,194	O	O
+bound	195,200	O	O
+state	201,206	O	O
+.	206,207	O	O
+
+Since	208,213	O	O
+this	214,218	O	O
+method	219,225	O	O
+has	226,229	O	O
+a	230,231	O	O
+very	232,236	O	O
+solid	237,242	O	O
+basis	243,248	O	O
+in	249,251	O	O
+quantum	252,259	O	B-Process
+field	260,265	O	I-Process
+theory	266,272	O	I-Process
+,	272,273	O	O
+it	274,276	O	O
+is	277,279	O	O
+very	280,284	O	O
+good	285,289	O	O
+in	290,292	O	O
+describing	293,303	O	B-Task
+a	304,305	O	I-Task
+bound	306,311	O	I-Task
+state	312,317	O	I-Task
+which	318,323	O	O
+is	324,326	O	O
+a	327,328	O	O
+relativistic	329,341	O	B-Process
+system	342,348	O	I-Process
+.	348,349	O	O
+
+In	350,352	O	O
+a	353,354	O	O
+previous	355,363	O	O
+paper	364,369	O	O
+[	370,371	O	O
+16	371,373	O	O
+]	373,374	O	O
+,	374,375	O	O
+we	376,378	O	O
+solved	379,385	O	O
+the	386,389	O	O
+instantaneous	390,403	O	O
+Bethe	404,409	O	O
+–	409,410	O	O
+
+Salpeter	410,418	O	O
+equation	419,427	O	O
+[	428,429	O	O
+17	429,431	O	O
+]	431,432	O	O
+,	432,433	O	O
+which	434,439	O	O
+is	440,442	O	O
+also	443,447	O	O
+called	448,454	O	O
+full	455,459	O	B-Process
+Salpeter	460,468	O	I-Process
+equation	469,477	O	I-Process
+
+[	478,479	O	O
+18	479,481	O	O
+]	481,482	O	O
+.	482,483	O	O
+
+After	484,489	O	O
+we	490,492	O	O
+solved	493,499	O	B-Task
+the	500,503	O	I-Task
+full	504,508	O	I-Task
+Salpeter	509,517	O	I-Task
+equation	518,526	O	I-Task
+,	526,527	O	O
+we	528,530	O	O
+obtained	531,539	O	O
+the	540,543	O	O
+relativistic	544,556	O	B-Process
+wave	557,561	O	I-Process
+function	562,570	O	I-Process
+of	571,573	O	I-Process
+the	574,577	O	I-Process
+bound	578,583	O	I-Process
+state	584,589	O	I-Process
+.	589,590	O	O
+
+We	591,593	O	O
+used	594,598	O	O
+this	599,603	O	O
+wave	604,608	O	B-Process
+function	609,617	O	I-Process
+to	618,620	O	O
+calculate	621,630	O	B-Task
+the	631,634	O	I-Task
+average	635,642	O	I-Task
+kinetic	643,650	O	I-Task
+energy	651,657	O	I-Task
+of	658,660	O	O
+the	661,664	O	O
+heavy	665,670	O	B-Material
+quark	671,676	O	I-Material
+inside	677,683	O	O
+a	684,685	O	O
+heavy	686,691	O	B-Material
+meson	692,697	O	I-Material
+in	698,700	O	O
+0−	701,703	O	O
+state	704,709	O	O
+,	709,710	O	O
+and	711,714	O	O
+obtained	715,723	O	B-Process
+values	724,730	O	I-Process
+which	731,736	O	O
+agree	737,742	O	O
+very	743,747	O	O
+well	748,752	O	O
+with	753,757	O	O
+recent	758,764	O	O
+experiments	765,776	O	O
+.	776,777	O	O
+
+We	778,780	O	O
+also	781,785	O	O
+found	786,791	O	O
+there	792,797	O	O
+that	798,802	O	O
+the	803,806	O	O
+relativistic	807,819	O	B-Process
+corrections	820,831	O	I-Process
+are	832,835	O	I-Process
+quite	836,841	O	I-Process
+large	842,847	O	I-Process
+and	848,851	O	O
+can	852,855	O	O
+not	855,858	O	O
+be	859,861	O	O
+ignored	862,869	O	O
+[	870,871	O	O
+16	871,873	O	O
+]	873,874	O	O
+.	874,875	O	O
+
+In	876,878	O	O
+this	879,883	O	O
+Letter	884,890	O	O
+we	891,893	O	O
+use	894,897	O	B-Process
+this	898,902	O	I-Process
+method	903,909	O	I-Process
+to	910,912	O	O
+predict	913,920	O	B-Task
+the	921,924	O	I-Task
+values	925,931	O	I-Task
+of	932,934	O	I-Task
+decay	935,940	O	I-Task
+constants	941,950	O	I-Task
+of	951,953	O	O
+heavy	954,959	O	B-Material
+mesons	960,966	O	I-Material
+in	967,969	O	O
+0−	970,972	O	O
+state	973,978	O	O
+.	978,979	O	O
 
 
 -DOCSTART- (S0370269304009803)
 
-Our	0	3	O
-aim	4	7	O
-is	8	10	O
-to	11	13	O
-introduce	14	23	B-Task
-vector	24	30	I-Task
-mesons	31	37	I-Task
-in	38	40	O
-terms	41	46	O
-of	47	49	O
-a	50	51	O
-Lagrangian	52	62	B-Process
-which	63	68	O
-satisfies	69	78	O
-the	79	82	O
-low	83	86	B-Process
-energy	87	93	I-Process
-current	94	101	I-Process
-algebra	102	109	I-Process
-.	109	110	O
-
-One	111	114	O
-consistent	115	125	O
-method	126	132	O
-is	133	135	O
-in	136	138	O
-terms	139	144	O
-of	145	147	O
-a	148	149	O
-non	150	153	B-Process
--	153	154	I-Process
-linear	154	160	I-Process
-chiral	161	167	I-Process
-Lagrangian	168	178	I-Process
-with	179	183	O
-a	184	185	O
-hidden	186	192	B-Process
-local	193	198	I-Process
-symmetry	199	207	I-Process
-[	208	209	O
-6	209	210	O
-]	210	211	O
-.	211	212	O
-
-In	213	215	O
-this	216	220	O
-theory	221	227	O
-the	228	231	O
-vector	232	238	B-Material
-mesons	239	245	I-Material
-emerge	246	252	O
-as	253	255	O
-dynamical	256	265	B-Material
-vector	266	272	I-Material
-mesons	273	279	I-Material
-.	279	280	O
-
-The	281	284	O
-three	285	290	O
-point	291	296	O
-vector	297	303	B-Process
--	303	304	I-Process
-pseudo	304	310	I-Process
-scalar	311	317	I-Process
-interaction	318	329	I-Process
-is	330	332	O
-given	333	338	O
-by	339	341	O
-(	342	343	O
-11)ih4〈Vμ(P∂μP−∂μPP	343	362	B-Process
-)	362	363	I-Process
-〉	363	364	I-Process
-,	364	365	O
-where	366	371	O
-h	372	373	B-Process
-stands	374	380	O
-for	381	384	O
-the	385	388	O
-vector	389	395	B-Process
--	395	396	I-Process
-pseudoscalar	396	408	I-Process
-coupling	409	417	I-Process
-.	417	418	O
-
-Some	419	423	O
-typical	424	431	O
-vertices	432	440	B-Process
-of	441	443	I-Process
-ρ	444	445	I-Process
-'s	445	447	I-Process
-to	448	450	I-Process
-pseudoscalar	451	463	I-Process
-mesons	464	470	I-Process
-are	471	474	O
-(	475	476	B-Process
-12)π+(p1)π−(p2)ρ0:h(p1−p2)μεμ,π+(p1)π0(p2)ρ−:h(p1−p2)μεμ,K+(p1)K¯0(p2)ρ−:h2(p1−p2)μεμ,etc	476	565	I-Process
-.	565	566	O
-,	566	567	O
-which	568	573	O
-is	574	576	O
-directly	577	585	O
-related	586	593	O
-to	594	596	O
-the	597	600	O
-ρ	601	602	B-Process
-decay	603	608	I-Process
-width	609	614	I-Process
-:	614	615	O
-Γ(ρ)=h2(|pπ|)3/(6πmρ2	616	637	B-Process
-)	637	638	I-Process
-,	638	639	O
-where	640	645	O
-pπ	646	648	B-Process
-is	649	651	O
-the	652	655	O
-momentum	656	664	B-Process
-of	665	667	I-Process
-final	668	673	I-Process
-state	674	679	I-Process
-pions	680	685	I-Process
-in	686	688	I-Process
-the	689	692	I-Process
-ρ	693	694	I-Process
-rest	695	699	I-Process
-frame	700	705	I-Process
-.	705	706	O
-
-With	707	711	O
-Γ(ρ)=149.2MeV	712	725	O
-,	725	726	O
-we	727	729	O
-find	730	734	O
-h=5.95	735	741	O
-.	741	742	O
-
-We	743	745	O
-note	746	750	O
-in	751	753	O
-passing	754	761	O
-that	762	766	O
-the	767	770	O
-Kawarabayashi	771	784	O
-–	784	785	O
-
-Suzuki	785	791	O
-–	791	792	O
-Riazuddin	792	801	O
-–	801	802	O
-
-Fayyazuddin	802	813	O
-relation	814	822	O
-gives	823	828	O
-the	829	832	O
-value	833	838	O
-h	839	840	O
-=	840	841	O
-mρ/(2fπ)[12	841	852	O
-]	852	853	O
-.	853	854	O
-
-Thus	855	859	O
-the	860	863	O
-value	864	869	O
-of	870	872	O
-h	873	874	O
-in	875	877	O
-Eq	878	880	O
-.	880	881	O
-
-(	882	883	O
-4	883	884	O
-)	884	885	O
-and	886	889	O
-the	890	893	O
-two	894	897	O
-values	898	904	O
-in	905	907	O
-this	908	912	O
-paragraph	913	922	O
-differ	923	929	B-Process
-by	930	932	I-Process
-small	933	938	I-Process
-amounts	939	946	I-Process
-(	947	948	O
-∼19	948	951	O
-%	951	952	O
-)	952	953	O
-.	953	954	O
-
-The	955	958	O
-strong	959	965	B-Task
-four	966	970	I-Task
--	970	971	I-Task
-point	971	976	I-Task
-vertices	977	985	I-Task
-involving	986	995	I-Task
-pions	996	1001	I-Task
-are	1002	1005	I-Task
-obtained	1006	1014	I-Task
-from	1015	1019	O
-the	1020	1023	O
-first	1024	1029	O
-two	1030	1033	O
-terms	1034	1039	O
-of	1040	1042	O
-Eq	1043	1045	O
-.	1045	1046	O
-
-(	1047	1048	O
-5	1048	1049	O
-)	1049	1050	O
-.	1050	1051	O
-
-The	1052	1055	O
-weak	1056	1060	B-Task
-vertices	1061	1069	I-Task
-are	1070	1073	I-Task
-obtained	1074	1082	I-Task
-from	1083	1087	O
-the	1088	1091	O
-definitions	1092	1103	O
-of	1104	1106	O
-Q6	1107	1109	O
-and	1110	1113	O
-Q8	1114	1116	O
-.	1116	1117	O
-
-In	1118	1120	O
-the	1121	1124	O
-numerical	1125	1134	O
-work	1135	1139	O
-we	1140	1142	O
-shall	1143	1148	O
-use	1149	1152	O
-the	1153	1156	O
-value	1157	1162	O
-of	1163	1165	O
-h	1166	1167	O
-from	1168	1172	O
-Eq	1173	1175	O
-.	1175	1176	O
-
-(	1177	1178	O
-4	1178	1179	O
-)	1179	1180	O
-and	1181	1184	O
-also	1185	1189	O
-h=5.95	1190	1196	O
-obtained	1197	1205	O
-from	1206	1210	O
-the	1211	1214	O
-decay	1215	1220	O
-width	1221	1226	O
-.	1226	1227	O
+Our	0,3	O	O
+aim	4,7	O	O
+is	8,10	O	O
+to	11,13	O	O
+introduce	14,23	O	B-Task
+vector	24,30	O	I-Task
+mesons	31,37	O	I-Task
+in	38,40	O	O
+terms	41,46	O	O
+of	47,49	O	O
+a	50,51	O	O
+Lagrangian	52,62	O	B-Process
+which	63,68	O	O
+satisfies	69,78	O	O
+the	79,82	O	O
+low	83,86	O	B-Process
+energy	87,93	O	I-Process
+current	94,101	O	I-Process
+algebra	102,109	O	I-Process
+.	109,110	O	O
+
+One	111,114	O	O
+consistent	115,125	O	O
+method	126,132	O	O
+is	133,135	O	O
+in	136,138	O	O
+terms	139,144	O	O
+of	145,147	O	O
+a	148,149	O	O
+non	150,153	O	B-Process
+-	153,154	O	I-Process
+linear	154,160	O	I-Process
+chiral	161,167	O	I-Process
+Lagrangian	168,178	O	I-Process
+with	179,183	O	O
+a	184,185	O	O
+hidden	186,192	O	B-Process
+local	193,198	O	I-Process
+symmetry	199,207	O	I-Process
+[	208,209	O	O
+6	209,210	O	O
+]	210,211	O	O
+.	211,212	O	O
+
+In	213,215	O	O
+this	216,220	O	O
+theory	221,227	O	O
+the	228,231	O	O
+vector	232,238	O	B-Material
+mesons	239,245	O	I-Material
+emerge	246,252	O	O
+as	253,255	O	O
+dynamical	256,265	O	B-Material
+vector	266,272	O	I-Material
+mesons	273,279	O	I-Material
+.	279,280	O	O
+
+The	281,284	O	O
+three	285,290	O	O
+point	291,296	O	O
+vector	297,303	O	B-Process
+-	303,304	O	I-Process
+pseudo	304,310	O	I-Process
+scalar	311,317	O	I-Process
+interaction	318,329	O	I-Process
+is	330,332	O	O
+given	333,338	O	O
+by	339,341	O	O
+(	342,343	O	O
+11)ih4〈Vμ(P∂μP−∂μPP	343,362	O	B-Process
+)	362,363	O	I-Process
+〉	363,364	O	I-Process
+,	364,365	O	O
+where	366,371	O	O
+h	372,373	O	B-Process
+stands	374,380	O	O
+for	381,384	O	O
+the	385,388	O	O
+vector	389,395	O	B-Process
+-	395,396	O	I-Process
+pseudoscalar	396,408	O	I-Process
+coupling	409,417	O	I-Process
+.	417,418	O	O
+
+Some	419,423	O	O
+typical	424,431	O	O
+vertices	432,440	O	B-Process
+of	441,443	O	I-Process
+ρ	444,445	O	I-Process
+'s	445,447	O	I-Process
+to	448,450	O	I-Process
+pseudoscalar	451,463	O	I-Process
+mesons	464,470	O	I-Process
+are	471,474	O	O
+(	475,476	O	B-Process
+12)π+(p1)π−(p2)ρ0:h(p1−p2)μεμ,π+(p1)π0(p2)ρ−:h(p1−p2)μεμ,K+(p1)K¯0(p2)ρ−:h2(p1−p2)μεμ,etc	476,565	O	I-Process
+.	565,566	O	O
+,	566,567	O	O
+which	568,573	O	O
+is	574,576	O	O
+directly	577,585	O	O
+related	586,593	O	O
+to	594,596	O	O
+the	597,600	O	O
+ρ	601,602	O	B-Process
+decay	603,608	O	I-Process
+width	609,614	O	I-Process
+:	614,615	O	O
+Γ(ρ)=h2(|pπ|)3/(6πmρ2	616,637	O	B-Process
+)	637,638	O	I-Process
+,	638,639	O	O
+where	640,645	O	O
+pπ	646,648	O	B-Process
+is	649,651	O	O
+the	652,655	O	O
+momentum	656,664	O	B-Process
+of	665,667	O	I-Process
+final	668,673	O	I-Process
+state	674,679	O	I-Process
+pions	680,685	O	I-Process
+in	686,688	O	I-Process
+the	689,692	O	I-Process
+ρ	693,694	O	I-Process
+rest	695,699	O	I-Process
+frame	700,705	O	I-Process
+.	705,706	O	O
+
+With	707,711	O	O
+Γ(ρ)=149.2MeV	712,725	O	O
+,	725,726	O	O
+we	727,729	O	O
+find	730,734	O	O
+h=5.95	735,741	O	O
+.	741,742	O	O
+
+We	743,745	O	O
+note	746,750	O	O
+in	751,753	O	O
+passing	754,761	O	O
+that	762,766	O	O
+the	767,770	O	O
+Kawarabayashi	771,784	O	O
+–	784,785	O	O
+
+Suzuki	785,791	O	O
+–	791,792	O	O
+Riazuddin	792,801	O	O
+–	801,802	O	O
+
+Fayyazuddin	802,813	O	O
+relation	814,822	O	O
+gives	823,828	O	O
+the	829,832	O	O
+value	833,838	O	O
+h	839,840	O	O
+=	840,841	O	O
+mρ/(2fπ)[12	841,852	O	O
+]	852,853	O	O
+.	853,854	O	O
+
+Thus	855,859	O	O
+the	860,863	O	O
+value	864,869	O	O
+of	870,872	O	O
+h	873,874	O	O
+in	875,877	O	O
+Eq	878,880	O	O
+.	880,881	O	O
+
+(	882,883	O	O
+4	883,884	O	O
+)	884,885	O	O
+and	886,889	O	O
+the	890,893	O	O
+two	894,897	O	O
+values	898,904	O	O
+in	905,907	O	O
+this	908,912	O	O
+paragraph	913,922	O	O
+differ	923,929	O	B-Process
+by	930,932	O	I-Process
+small	933,938	O	I-Process
+amounts	939,946	O	I-Process
+(	947,948	O	O
+∼19	948,951	O	O
+%	951,952	O	O
+)	952,953	O	O
+.	953,954	O	O
+
+The	955,958	O	O
+strong	959,965	O	B-Task
+four	966,970	O	I-Task
+-	970,971	O	I-Task
+point	971,976	O	I-Task
+vertices	977,985	O	I-Task
+involving	986,995	O	I-Task
+pions	996,1001	O	I-Task
+are	1002,1005	O	I-Task
+obtained	1006,1014	O	I-Task
+from	1015,1019	O	O
+the	1020,1023	O	O
+first	1024,1029	O	O
+two	1030,1033	O	O
+terms	1034,1039	O	O
+of	1040,1042	O	O
+Eq	1043,1045	O	O
+.	1045,1046	O	O
+
+(	1047,1048	O	O
+5	1048,1049	O	O
+)	1049,1050	O	O
+.	1050,1051	O	O
+
+The	1052,1055	O	O
+weak	1056,1060	O	B-Task
+vertices	1061,1069	O	I-Task
+are	1070,1073	O	I-Task
+obtained	1074,1082	O	I-Task
+from	1083,1087	O	O
+the	1088,1091	O	O
+definitions	1092,1103	O	O
+of	1104,1106	O	O
+Q6	1107,1109	O	O
+and	1110,1113	O	O
+Q8	1114,1116	O	O
+.	1116,1117	O	O
+
+In	1118,1120	O	O
+the	1121,1124	O	O
+numerical	1125,1134	O	O
+work	1135,1139	O	O
+we	1140,1142	O	O
+shall	1143,1148	O	O
+use	1149,1152	O	O
+the	1153,1156	O	O
+value	1157,1162	O	O
+of	1163,1165	O	O
+h	1166,1167	O	O
+from	1168,1172	O	O
+Eq	1173,1175	O	O
+.	1175,1176	O	O
+
+(	1177,1178	O	O
+4	1178,1179	O	O
+)	1179,1180	O	O
+and	1181,1184	O	O
+also	1185,1189	O	O
+h=5.95	1190,1196	O	O
+obtained	1197,1205	O	O
+from	1206,1210	O	O
+the	1211,1214	O	O
+decay	1215,1220	O	O
+width	1221,1226	O	O
+.	1226,1227	O	O
 
 
 -DOCSTART- (S0370269304009979)
 
-On	0	2	O
-the	3	6	O
-other	7	12	O
-hand	13	17	O
-,	17	18	O
-the	19	22	O
-other	23	28	O
-local	29	34	O
-fields	35	41	O
-except	42	48	O
-the	49	52	O
-gravitational	53	66	O
-field	67	72	O
-are	73	76	O
-not	77	80	O
-always	81	87	O
-localized	88	97	B-Task
-on	98	100	I-Task
-the	101	104	I-Task
-brane	105	110	I-Task
-even	111	115	O
-in	116	118	O
-the	119	122	O
-warped	123	129	B-Process
-geometry	130	138	I-Process
-.	138	139	O
-
-Indeed	140	146	O
-,	146	147	O
-in	148	150	O
-the	151	154	O
-Randall	155	162	B-Material
-–	162	163	I-Material
-Sundrum	163	170	I-Material
-model	171	176	I-Material
-in	177	179	O
-five	180	184	B-Task
-dimensions	185	195	I-Task
-[	196	197	O
-2	197	198	O
-]	198	199	O
-,	199	200	O
-
-the	201	204	O
-following	205	214	O
-facts	215	220	O
-are	221	224	O
-well	225	229	O
-known	230	235	O
-:	235	236	O
-spin	237	241	B-Process
-0	242	243	I-Process
-field	244	249	I-Process
-is	250	252	I-Process
-localized	253	262	I-Process
-on	263	265	I-Process
-a	266	267	I-Process
-brane	268	273	I-Process
-with	274	278	O
-positive	279	287	B-Process
-tension	288	295	I-Process
-which	296	301	O
-also	302	306	O
-localizes	307	316	B-Process
-the	317	320	I-Process
-graviton	321	329	I-Process
-while	330	335	O
-the	336	339	O
-spin	340	344	O
-1/2	345	348	O
-and	349	352	O
-3/2	353	356	O
-fields	357	363	O
-are	364	367	O
-localized	368	377	O
-not	378	381	O
-on	382	384	O
-a	385	386	O
-brane	387	392	O
-with	393	397	O
-positive	398	406	B-Process
-tension	407	414	I-Process
-but	415	418	O
-on	419	421	O
-a	422	423	O
-brane	424	429	O
-with	430	434	O
-negative	435	443	B-Process
-tension	444	451	I-Process
-[	452	453	O
-6	453	454	O
-]	454	455	O
-.	455	456	O
-
-Spin	457	461	O
-1	462	463	O
-field	464	469	O
-is	470	472	O
-not	473	476	O
-localized	477	486	O
-neither	487	494	O
-on	495	497	O
-a	498	499	O
-brane	500	505	O
-with	506	510	O
-positive	511	519	B-Process
-tension	520	527	I-Process
-nor	528	531	O
-on	532	534	O
-a	535	536	O
-brane	537	542	O
-with	543	547	O
-negative	548	556	B-Process
-tension	557	564	I-Process
-[	565	566	O
-7	566	567	O
-]	567	568	O
-.	568	569	O
-
-In	570	572	O
-six	573	576	B-Process
-space	577	582	I-Process
-–	582	583	I-Process
-time	583	587	I-Process
-dimensions	588	598	I-Process
-,	598	599	O
-the	600	603	O
-spin	604	608	O
-1	609	610	O
-gauge	611	616	O
-field	617	622	O
-is	623	625	O
-also	626	630	O
-localized	631	640	B-Process
-on	641	643	I-Process
-the	644	647	I-Process
-brane	648	653	I-Process
-[	654	655	O
-8	655	656	O
-]	656	657	O
-.	657	658	O
-
-Thus	659	663	O
-,	663	664	O
-in	665	667	O
-order	668	673	O
-to	674	676	O
-fulfill	677	684	O
-the	685	688	O
-localization	689	701	B-Task
-of	702	704	O
-Standard	705	713	B-Material
-Model	714	719	I-Material
-particles	720	729	O
-on	730	732	O
-a	733	734	O
-brane	735	740	O
-with	741	745	O
-positive	746	754	B-Process
-tension	755	762	I-Process
-,	762	763	O
-it	764	766	O
-seems	767	772	O
-that	773	777	O
-some	778	782	O
-additional	783	793	O
-interactions	794	806	O
-except	807	813	O
-the	814	817	O
-gravitational	818	831	O
-interaction	832	843	O
-must	844	848	O
-be	849	851	O
-also	852	856	O
-introduced	857	867	B-Process
-in	868	870	I-Process
-the	871	874	I-Process
-bulk	875	879	I-Process
-.	879	880	O
-
-There	881	886	O
-is	887	889	O
-a	890	891	O
-lot	892	895	O
-of	896	898	O
-papers	899	905	O
-devoted	906	913	O
-to	914	916	O
-the	917	920	O
-different	921	930	O
-localization	931	943	B-Process
-mechanisms	944	954	I-Process
-of	955	957	O
-the	958	961	O
-bulk	962	966	O
-fields	967	973	O
-in	974	976	O
-various	977	984	O
-brane	985	990	B-Process
-world	991	996	I-Process
-models	997	1003	I-Process
-.	1003	1004	O
+On	0,2	O	O
+the	3,6	O	O
+other	7,12	O	O
+hand	13,17	O	O
+,	17,18	O	O
+the	19,22	O	O
+other	23,28	O	O
+local	29,34	O	O
+fields	35,41	O	O
+except	42,48	O	O
+the	49,52	O	O
+gravitational	53,66	O	O
+field	67,72	O	O
+are	73,76	O	O
+not	77,80	O	O
+always	81,87	O	O
+localized	88,97	O	B-Task
+on	98,100	O	I-Task
+the	101,104	O	I-Task
+brane	105,110	O	I-Task
+even	111,115	O	O
+in	116,118	O	O
+the	119,122	O	O
+warped	123,129	O	B-Process
+geometry	130,138	O	I-Process
+.	138,139	O	O
+
+Indeed	140,146	O	O
+,	146,147	O	O
+in	148,150	O	O
+the	151,154	O	O
+Randall	155,162	O	B-Material
+–	162,163	O	I-Material
+Sundrum	163,170	O	I-Material
+model	171,176	O	I-Material
+in	177,179	O	O
+five	180,184	O	B-Task
+dimensions	185,195	O	I-Task
+[	196,197	O	O
+2	197,198	O	O
+]	198,199	O	O
+,	199,200	O	O
+
+the	201,204	O	O
+following	205,214	O	O
+facts	215,220	O	O
+are	221,224	O	O
+well	225,229	O	O
+known	230,235	O	O
+:	235,236	O	O
+spin	237,241	O	B-Process
+0	242,243	O	I-Process
+field	244,249	O	I-Process
+is	250,252	O	I-Process
+localized	253,262	O	I-Process
+on	263,265	O	I-Process
+a	266,267	O	I-Process
+brane	268,273	O	I-Process
+with	274,278	O	O
+positive	279,287	O	B-Process
+tension	288,295	O	I-Process
+which	296,301	O	O
+also	302,306	O	O
+localizes	307,316	O	B-Process
+the	317,320	O	I-Process
+graviton	321,329	O	I-Process
+while	330,335	O	O
+the	336,339	O	O
+spin	340,344	O	O
+1/2	345,348	O	O
+and	349,352	O	O
+3/2	353,356	O	O
+fields	357,363	O	O
+are	364,367	O	O
+localized	368,377	O	O
+not	378,381	O	O
+on	382,384	O	O
+a	385,386	O	O
+brane	387,392	O	O
+with	393,397	O	O
+positive	398,406	O	B-Process
+tension	407,414	O	I-Process
+but	415,418	O	O
+on	419,421	O	O
+a	422,423	O	O
+brane	424,429	O	O
+with	430,434	O	O
+negative	435,443	O	B-Process
+tension	444,451	O	I-Process
+[	452,453	O	O
+6	453,454	O	O
+]	454,455	O	O
+.	455,456	O	O
+
+Spin	457,461	O	O
+1	462,463	O	O
+field	464,469	O	O
+is	470,472	O	O
+not	473,476	O	O
+localized	477,486	O	O
+neither	487,494	O	O
+on	495,497	O	O
+a	498,499	O	O
+brane	500,505	O	O
+with	506,510	O	O
+positive	511,519	O	B-Process
+tension	520,527	O	I-Process
+nor	528,531	O	O
+on	532,534	O	O
+a	535,536	O	O
+brane	537,542	O	O
+with	543,547	O	O
+negative	548,556	O	B-Process
+tension	557,564	O	I-Process
+[	565,566	O	O
+7	566,567	O	O
+]	567,568	O	O
+.	568,569	O	O
+
+In	570,572	O	O
+six	573,576	O	B-Process
+space	577,582	O	I-Process
+–	582,583	O	I-Process
+time	583,587	O	I-Process
+dimensions	588,598	O	I-Process
+,	598,599	O	O
+the	600,603	O	O
+spin	604,608	O	O
+1	609,610	O	O
+gauge	611,616	O	O
+field	617,622	O	O
+is	623,625	O	O
+also	626,630	O	O
+localized	631,640	O	B-Process
+on	641,643	O	I-Process
+the	644,647	O	I-Process
+brane	648,653	O	I-Process
+[	654,655	O	O
+8	655,656	O	O
+]	656,657	O	O
+.	657,658	O	O
+
+Thus	659,663	O	O
+,	663,664	O	O
+in	665,667	O	O
+order	668,673	O	O
+to	674,676	O	O
+fulfill	677,684	O	O
+the	685,688	O	O
+localization	689,701	O	B-Task
+of	702,704	O	O
+Standard	705,713	O	B-Material
+Model	714,719	O	I-Material
+particles	720,729	O	O
+on	730,732	O	O
+a	733,734	O	O
+brane	735,740	O	O
+with	741,745	O	O
+positive	746,754	O	B-Process
+tension	755,762	O	I-Process
+,	762,763	O	O
+it	764,766	O	O
+seems	767,772	O	O
+that	773,777	O	O
+some	778,782	O	O
+additional	783,793	O	O
+interactions	794,806	O	O
+except	807,813	O	O
+the	814,817	O	O
+gravitational	818,831	O	O
+interaction	832,843	O	O
+must	844,848	O	O
+be	849,851	O	O
+also	852,856	O	O
+introduced	857,867	O	B-Process
+in	868,870	O	I-Process
+the	871,874	O	I-Process
+bulk	875,879	O	I-Process
+.	879,880	O	O
+
+There	881,886	O	O
+is	887,889	O	O
+a	890,891	O	O
+lot	892,895	O	O
+of	896,898	O	O
+papers	899,905	O	O
+devoted	906,913	O	O
+to	914,916	O	O
+the	917,920	O	O
+different	921,930	O	O
+localization	931,943	O	B-Process
+mechanisms	944,954	O	I-Process
+of	955,957	O	O
+the	958,961	O	O
+bulk	962,966	O	O
+fields	967,973	O	O
+in	974,976	O	O
+various	977,984	O	O
+brane	985,990	O	B-Process
+world	991,996	O	I-Process
+models	997,1003	O	I-Process
+.	1003,1004	O	O
 
 
 -DOCSTART- (S0375960112002885)
 
-First	0	5	B-Process
--	5	6	I-Process
-principles	6	16	I-Process
-calculations	17	29	I-Process
-have	30	34	O
-clarified	35	44	O
-the	45	48	O
-electronic	49	59	B-Task
-structure	60	69	I-Task
-and	70	73	I-Task
-stability	74	83	I-Task
-of	84	86	O
-the	87	90	O
-W@Si12	91	97	B-Material
-cluster	98	105	I-Material
-under	106	111	O
-O2	112	114	B-Task
-molecule	115	123	I-Task
-adsorption	124	134	I-Task
-and	135	138	I-Task
-reaction	139	147	I-Task
-.	147	148	O
-
-Our	149	152	O
-results	153	160	O
-show	161	165	O
-that	166	170	O
-the	171	174	O
-W	175	176	B-Process
--	176	177	I-Process
-encapsulated	177	189	I-Process
-Si12	190	194	I-Process
-hexagonal	195	204	I-Process
-prism	205	210	I-Process
-cage	211	215	I-Process
-is	216	218	O
-very	219	223	O
-inert	224	229	O
-to	230	232	O
-oxidation	233	242	B-Task
-.	242	243	O
-
-The	244	247	O
-O2	248	250	B-Material
-molecule	251	259	O
-only	260	264	O
-weakly	265	271	O
-adsorbs	272	279	O
-onto	280	284	O
-the	285	288	O
-cluster	289	296	B-Material
-at	297	299	O
-relatively	300	310	O
-low	311	314	B-Process
-temperatures	315	327	I-Process
-,	327	328	O
-in	329	331	O
-the	332	335	O
-range	336	341	O
-of	342	344	O
-several	345	352	O
-tens	353	357	O
-meV.	358	362	O
-
-However	363	370	O
-,	370	371	O
-significant	372	383	B-Task
-reaction	384	392	I-Task
-barriers	393	401	I-Task
-(	402	403	O
-0.593–1.118	403	414	B-Task
-eV	415	417	I-Task
-)	417	418	O
-for	419	422	O
-the	423	426	O
-O2	427	429	B-Material
-molecule	430	438	O
-on	439	441	O
-the	442	445	O
-cluster	446	453	B-Material
-are	454	457	O
-identified	458	468	O
-on	469	471	O
-different	472	481	O
-adsorption	482	492	B-Process
-sites	493	498	O
-,	498	499	O
-nevertheless	500	512	O
-,	512	513	O
-these	514	519	O
-reaction	520	528	B-Process
-paths	529	534	O
-are	535	538	O
-spin	539	543	B-Task
-forbidden	544	553	I-Task
-reactions	554	563	I-Task
-according	564	573	O
-to	574	576	O
-Wingerʼs	577	585	B-Process
-spin	586	590	I-Process
-selection	591	600	I-Process
-rule	601	605	I-Process
-.	605	606	O
-
-These	607	612	O
-results	613	620	O
-imply	621	626	O
-that	627	631	O
-O2	632	634	B-Material
-readily	635	642	O
-desorb	643	649	O
-from	650	654	O
-the	655	658	O
-cluster	659	666	B-Material
-surface	667	674	O
-rather	675	681	O
-than	682	686	O
-dissociate	687	697	O
-and	698	701	O
-oxide	702	707	O
-the	708	711	O
-W@Si12	712	718	B-Material
-cluster	719	726	I-Material
-upon	727	731	O
-excitations	732	743	O
-.	743	744	O
-
-In	745	747	O
-high	748	752	B-Process
-temperature	753	764	I-Process
-and	765	768	I-Process
-high	769	773	I-Process
-pressure	774	782	I-Process
-conditions	783	793	I-Process
-,	793	794	O
-the	795	798	O
-O2	799	801	B-Material
-molecules	802	811	O
-may	812	815	O
-dissociate	816	826	O
-on	827	829	O
-the	830	833	O
-preferential	834	846	O
-edge	847	851	O
-site	852	856	O
-by	857	859	O
-overcoming	860	870	B-Process
-a	871	872	I-Process
-significantly	873	886	I-Process
-large	887	892	I-Process
-energy	893	899	I-Process
-barrier	900	907	I-Process
-.	907	908	O
+First	0,5	O	B-Process
+-	5,6	O	I-Process
+principles	6,16	O	I-Process
+calculations	17,29	O	I-Process
+have	30,34	O	O
+clarified	35,44	O	O
+the	45,48	O	O
+electronic	49,59	O	B-Task
+structure	60,69	O	I-Task
+and	70,73	O	I-Task
+stability	74,83	O	I-Task
+of	84,86	O	O
+the	87,90	O	O
+W@Si12	91,97	O	B-Material
+cluster	98,105	O	I-Material
+under	106,111	O	O
+O2	112,114	O	B-Task
+molecule	115,123	O	I-Task
+adsorption	124,134	O	I-Task
+and	135,138	O	I-Task
+reaction	139,147	O	I-Task
+.	147,148	O	O
+
+Our	149,152	O	O
+results	153,160	O	O
+show	161,165	O	O
+that	166,170	O	O
+the	171,174	O	O
+W	175,176	O	B-Process
+-	176,177	O	I-Process
+encapsulated	177,189	O	I-Process
+Si12	190,194	O	I-Process
+hexagonal	195,204	O	I-Process
+prism	205,210	O	I-Process
+cage	211,215	O	I-Process
+is	216,218	O	O
+very	219,223	O	O
+inert	224,229	O	O
+to	230,232	O	O
+oxidation	233,242	O	B-Task
+.	242,243	O	O
+
+The	244,247	O	O
+O2	248,250	O	B-Material
+molecule	251,259	O	O
+only	260,264	O	O
+weakly	265,271	O	O
+adsorbs	272,279	O	O
+onto	280,284	O	O
+the	285,288	O	O
+cluster	289,296	O	B-Material
+at	297,299	O	O
+relatively	300,310	O	O
+low	311,314	O	B-Process
+temperatures	315,327	O	I-Process
+,	327,328	O	O
+in	329,331	O	O
+the	332,335	O	O
+range	336,341	O	O
+of	342,344	O	O
+several	345,352	O	O
+tens	353,357	O	O
+meV.	358,362	O	O
+
+However	363,370	O	O
+,	370,371	O	O
+significant	372,383	O	B-Task
+reaction	384,392	O	I-Task
+barriers	393,401	O	I-Task
+(	402,403	O	O
+0.593–1.118	403,414	O	B-Task
+eV	415,417	O	I-Task
+)	417,418	O	O
+for	419,422	O	O
+the	423,426	O	O
+O2	427,429	O	B-Material
+molecule	430,438	O	O
+on	439,441	O	O
+the	442,445	O	O
+cluster	446,453	O	B-Material
+are	454,457	O	O
+identified	458,468	O	O
+on	469,471	O	O
+different	472,481	O	O
+adsorption	482,492	O	B-Process
+sites	493,498	O	O
+,	498,499	O	O
+nevertheless	500,512	O	O
+,	512,513	O	O
+these	514,519	O	O
+reaction	520,528	O	B-Process
+paths	529,534	O	O
+are	535,538	O	O
+spin	539,543	O	B-Task
+forbidden	544,553	O	I-Task
+reactions	554,563	O	I-Task
+according	564,573	O	O
+to	574,576	O	O
+Wingerʼs	577,585	O	B-Process
+spin	586,590	O	I-Process
+selection	591,600	O	I-Process
+rule	601,605	O	I-Process
+.	605,606	O	O
+
+These	607,612	O	O
+results	613,620	O	O
+imply	621,626	O	O
+that	627,631	O	O
+O2	632,634	O	B-Material
+readily	635,642	O	O
+desorb	643,649	O	O
+from	650,654	O	O
+the	655,658	O	O
+cluster	659,666	O	B-Material
+surface	667,674	O	O
+rather	675,681	O	O
+than	682,686	O	O
+dissociate	687,697	O	O
+and	698,701	O	O
+oxide	702,707	O	O
+the	708,711	O	O
+W@Si12	712,718	O	B-Material
+cluster	719,726	O	I-Material
+upon	727,731	O	O
+excitations	732,743	O	O
+.	743,744	O	O
+
+In	745,747	O	O
+high	748,752	O	B-Process
+temperature	753,764	O	I-Process
+and	765,768	O	I-Process
+high	769,773	O	I-Process
+pressure	774,782	O	I-Process
+conditions	783,793	O	I-Process
+,	793,794	O	O
+the	795,798	O	O
+O2	799,801	O	B-Material
+molecules	802,811	O	O
+may	812,815	O	O
+dissociate	816,826	O	O
+on	827,829	O	O
+the	830,833	O	O
+preferential	834,846	O	O
+edge	847,851	O	O
+site	852,856	O	O
+by	857,859	O	O
+overcoming	860,870	O	B-Process
+a	871,872	O	I-Process
+significantly	873,886	O	I-Process
+large	887,892	O	I-Process
+energy	893,899	O	I-Process
+barrier	900,907	O	I-Process
+.	907,908	O	O
 
 
 -DOCSTART- (S0375960113004568)
 
-The	0	3	O
-length	4	10	B-Task
-effect	11	17	I-Task
-is	18	20	O
-always	21	27	O
-important	28	37	O
-in	38	40	O
-nanodevices	41	52	B-Material
-.	52	53	O
-
-So	54	56	O
-we	57	59	O
-investigate	60	71	O
-the	72	75	O
-length	76	82	B-Task
-dependence	83	93	I-Task
-of	94	96	I-Task
-electronic	97	107	I-Task
-transport	108	117	I-Task
-properties	118	128	I-Task
-in	129	131	O
-M3	132	134	O
-by	135	137	O
-increasing	138	148	B-Process
-the	149	152	I-Process
-number	153	159	I-Process
-of	160	162	I-Process
-carbon	163	169	I-Process
-unit	170	174	I-Process
-cells	175	180	I-Process
-in	181	183	O
-the	184	187	O
-scattering	188	198	O
-region	199	205	O
-.	205	206	O
-
-Here	207	211	O
-we	212	214	O
-present	215	222	O
-the	223	226	O
-transport	227	236	O
-results	237	244	O
-when	245	249	O
-the	250	253	O
-numbers	254	261	O
-of	262	264	O
-carbon	265	271	B-Material
-unit	272	276	I-Material
-cells	277	282	I-Material
-in	283	285	O
-the	286	289	O
-scattering	290	300	O
-region	301	307	O
-are	308	311	O
-10	312	314	O
-and	315	318	O
-12	319	321	O
-,	321	322	O
-which	323	328	O
-are	329	332	O
-called	333	339	O
-M4	340	342	O
-and	343	346	O
-M5	347	349	O
-,	349	350	O
-respectively	351	363	O
-.	363	364	O
-
-The	365	368	O
-current	369	376	B-Process
-–	376	377	I-Process
-voltage	377	384	I-Process
-characteristics	385	400	I-Process
-shown	401	406	O
-in	407	409	O
-Fig	410	413	O
-.	413	414	O
-
-8	415	416	O
-.	416	417	O
-
-We	418	420	O
-can	421	424	O
-see	425	428	O
-that	429	433	O
-the	434	437	O
-large	438	443	B-Process
-rectifying	444	454	I-Process
-ratio	455	460	I-Process
-still	461	466	O
-can	467	470	O
-be	471	473	O
-observed	474	482	O
-irrespective	483	495	O
-of	496	498	O
-the	499	502	O
-length	503	509	O
-of	510	512	O
-heterojunctions	513	528	O
-.	528	529	O
-
-This	530	534	O
-is	535	537	O
-due	538	541	O
-to	542	544	O
-the	545	548	O
-fact	549	553	O
-that	554	558	O
-the	559	562	O
-electronic	563	573	B-Task
-transport	574	583	I-Task
-properties	584	594	I-Task
-for	595	598	O
-M3	599	601	O
-are	602	605	O
-mainly	606	612	O
-determined	613	623	O
-by	624	626	O
-the	627	630	O
-parity	631	637	O
-of	638	640	O
-the	641	644	O
-π	645	646	B-Process
-and	647	650	I-Process
-π⁎	651	653	I-Process
-subbands	654	662	I-Process
-of	663	665	O
-left	666	670	O
-and	671	674	O
-right	675	680	O
-electrodes	681	691	O
-.	691	692	O
-
-Thees	693	698	O
-results	699	706	O
-indicate	707	715	O
-that	716	720	O
-the	721	724	O
-lengths	725	732	O
-of	733	735	O
-the	736	739	O
-two	740	743	O
-parts	744	749	O
-in	750	752	O
-the	753	756	O
-scattering	757	767	O
-regions	768	775	O
-have	776	780	O
-no	781	783	O
-affects	784	791	O
-on	792	794	O
-the	795	798	O
-qualitative	799	810	B-Task
-charge	811	817	I-Task
-transport	818	827	I-Task
-in	828	830	O
-M3	831	833	O
-.	833	834	O
+The	0,3	O	O
+length	4,10	O	B-Task
+effect	11,17	O	I-Task
+is	18,20	O	O
+always	21,27	O	O
+important	28,37	O	O
+in	38,40	O	O
+nanodevices	41,52	O	B-Material
+.	52,53	O	O
+
+So	54,56	O	O
+we	57,59	O	O
+investigate	60,71	O	O
+the	72,75	O	O
+length	76,82	O	B-Task
+dependence	83,93	O	I-Task
+of	94,96	O	I-Task
+electronic	97,107	O	I-Task
+transport	108,117	O	I-Task
+properties	118,128	O	I-Task
+in	129,131	O	O
+M3	132,134	O	O
+by	135,137	O	O
+increasing	138,148	O	B-Process
+the	149,152	O	I-Process
+number	153,159	O	I-Process
+of	160,162	O	I-Process
+carbon	163,169	O	I-Process
+unit	170,174	O	I-Process
+cells	175,180	O	I-Process
+in	181,183	O	O
+the	184,187	O	O
+scattering	188,198	O	O
+region	199,205	O	O
+.	205,206	O	O
+
+Here	207,211	O	O
+we	212,214	O	O
+present	215,222	O	O
+the	223,226	O	O
+transport	227,236	O	O
+results	237,244	O	O
+when	245,249	O	O
+the	250,253	O	O
+numbers	254,261	O	O
+of	262,264	O	O
+carbon	265,271	O	B-Material
+unit	272,276	O	I-Material
+cells	277,282	O	I-Material
+in	283,285	O	O
+the	286,289	O	O
+scattering	290,300	O	O
+region	301,307	O	O
+are	308,311	O	O
+10	312,314	O	O
+and	315,318	O	O
+12	319,321	O	O
+,	321,322	O	O
+which	323,328	O	O
+are	329,332	O	O
+called	333,339	O	O
+M4	340,342	O	O
+and	343,346	O	O
+M5	347,349	O	O
+,	349,350	O	O
+respectively	351,363	O	O
+.	363,364	O	O
+
+The	365,368	O	O
+current	369,376	O	B-Process
+–	376,377	O	I-Process
+voltage	377,384	O	I-Process
+characteristics	385,400	O	I-Process
+shown	401,406	O	O
+in	407,409	O	O
+Fig	410,413	O	O
+.	413,414	O	O
+
+8	415,416	O	O
+.	416,417	O	O
+
+We	418,420	O	O
+can	421,424	O	O
+see	425,428	O	O
+that	429,433	O	O
+the	434,437	O	O
+large	438,443	O	B-Process
+rectifying	444,454	O	I-Process
+ratio	455,460	O	I-Process
+still	461,466	O	O
+can	467,470	O	O
+be	471,473	O	O
+observed	474,482	O	O
+irrespective	483,495	O	O
+of	496,498	O	O
+the	499,502	O	O
+length	503,509	O	O
+of	510,512	O	O
+heterojunctions	513,528	O	O
+.	528,529	O	O
+
+This	530,534	O	O
+is	535,537	O	O
+due	538,541	O	O
+to	542,544	O	O
+the	545,548	O	O
+fact	549,553	O	O
+that	554,558	O	O
+the	559,562	O	O
+electronic	563,573	O	B-Task
+transport	574,583	O	I-Task
+properties	584,594	O	I-Task
+for	595,598	O	O
+M3	599,601	O	O
+are	602,605	O	O
+mainly	606,612	O	O
+determined	613,623	O	O
+by	624,626	O	O
+the	627,630	O	O
+parity	631,637	O	O
+of	638,640	O	O
+the	641,644	O	O
+π	645,646	O	B-Process
+and	647,650	O	I-Process
+π⁎	651,653	O	I-Process
+subbands	654,662	O	I-Process
+of	663,665	O	O
+left	666,670	O	O
+and	671,674	O	O
+right	675,680	O	O
+electrodes	681,691	O	O
+.	691,692	O	O
+
+Thees	693,698	O	O
+results	699,706	O	O
+indicate	707,715	O	O
+that	716,720	O	O
+the	721,724	O	O
+lengths	725,732	O	O
+of	733,735	O	O
+the	736,739	O	O
+two	740,743	O	O
+parts	744,749	O	O
+in	750,752	O	O
+the	753,756	O	O
+scattering	757,767	O	O
+regions	768,775	O	O
+have	776,780	O	O
+no	781,783	O	O
+affects	784,791	O	O
+on	792,794	O	O
+the	795,798	O	O
+qualitative	799,810	O	B-Task
+charge	811,817	O	I-Task
+transport	818,827	O	I-Task
+in	828,830	O	O
+M3	831,833	O	O
+.	833,834	O	O
 
 
 -DOCSTART- (S0375960113004908)
 
-Topological	0	11	B-Process
-insulators	12	22	I-Process
-(	23	24	O
-TIs	24	27	B-Process
-)	27	28	O
-are	29	32	O
-promising	33	42	O
-candidates	43	53	O
-of	54	56	O
-spintronics	57	68	B-Material
-materials	69	78	I-Material
-because	79	86	O
-of	87	89	O
-their	90	95	O
-robust	96	102	O
-helical	103	110	O
-surface	111	118	O
-states	119	125	O
-and	126	129	O
-the	130	133	O
-extremely	134	143	O
-strong	144	150	O
-spin	151	155	B-Process
-–	155	156	I-Process
-orbit	156	161	I-Process
-interaction	162	173	I-Process
-[	174	175	O
-1–3	175	178	O
-]	178	179	O
-.	179	180	O
-
-Initially	181	190	O
-,	190	191	O
-binary	192	198	B-Material
-chalcogenides	199	212	I-Material
-Bi2Te3	213	219	B-Material
-,	219	220	O
-Sb2Te3	221	227	B-Material
-and	228	231	O
-Bi2Se3	232	238	B-Material
-have	239	243	O
-been	244	248	O
-identified	249	259	O
-as	260	262	O
-three	263	268	O
--	268	269	O
-dimensional	269	280	O
-TIs	281	284	B-Process
-by	285	287	O
-surface	288	295	B-Process
-sensitive	296	305	I-Process
-probes	306	312	I-Process
-such	313	317	O
-as	318	320	O
-angle	321	326	B-Process
-resolved	327	335	I-Process
-photoemission	336	349	I-Process
-spectroscopy	350	362	I-Process
-and	363	366	O
-scanning	367	375	B-Process
-tunneling	376	385	I-Process
-microscopy	386	396	I-Process
-/	396	397	I-Process
-spectroscopy	397	409	I-Process
-.	409	410	O
-
-Later	411	416	O
-,	416	417	O
-ternary	418	425	B-Material
-chalcogenide	426	438	I-Material
-(	439	440	B-Material
-BixSb1−x)2Te3	440	453	I-Material
-[	454	455	O
-4,5	455	458	O
-]	458	459	O
-,	459	460	O
-which	461	466	O
-has	467	470	O
-similar	471	478	O
-tetradymite	479	490	O
-structure	491	500	O
-to	501	503	O
-the	504	507	O
-parent	508	514	O
-compounds	515	524	O
-Bi2Te3	525	531	B-Material
-and	532	535	O
-Sb2Te3	536	542	B-Material
-,	542	543	O
-was	544	547	O
-predicted	548	557	O
-by	558	560	O
-ab	561	563	B-Process
-initio	564	570	I-Process
-calculations	571	583	I-Process
-and	584	587	O
-confirmed	588	597	O
-by	598	600	O
-ARPES	601	606	B-Process
-measurements	607	619	I-Process
-as	620	622	O
-a	623	624	O
-tunable	625	632	O
-topological	633	644	B-Process
-insulator	645	654	I-Process
-whose	655	660	O
-Fermi	661	666	O
-energy	667	673	O
-and	674	677	O
-carrier	678	685	O
-density	686	693	O
-can	694	697	O
-be	698	700	O
-adjusted	701	709	O
-via	710	713	O
-changing	714	722	B-Process
-the	723	726	I-Process
-Bi	727	729	I-Process
-/	729	730	I-Process
-Sb	730	732	I-Process
-composition	733	744	I-Process
-ratio	745	750	I-Process
-with	751	755	O
-stable	756	762	O
-topological	763	774	O
-surface	775	782	O
-state	783	788	O
-for	789	792	O
-the	793	796	O
-entire	797	803	O
-composition	804	815	O
-range	816	821	O
-.	821	822	O
-
-Combined	823	831	O
-with	832	836	O
-magnetism	837	846	B-Process
-or	847	849	O
-superconductivity	850	867	B-Process
-,	867	868	O
-TIs	869	872	B-Process
-have	873	877	O
-attracted	878	887	O
-great	888	893	O
-attention	894	903	O
-due	904	907	O
-to	908	910	O
-the	911	914	O
-rich	915	919	O
-variety	920	927	O
-of	928	930	O
-new	931	934	O
-physics	935	942	O
-and	943	946	O
-applications	947	959	O
-.	959	960	O
-
-The	961	964	O
-ferromagnetism	965	979	B-Process
-in	980	982	O
-several	983	990	O
-transition	991	1001	B-Material
-metal	1002	1007	I-Material
-(	1008	1009	O
-TM	1009	1011	B-Material
-)	1011	1012	O
-doped	1013	1018	O
-TIs	1019	1022	B-Process
-,	1022	1023	O
-which	1024	1029	O
-breaks	1030	1036	O
-the	1037	1040	O
-time	1041	1045	O
--	1045	1046	O
-reversal	1046	1054	O
-symmetry	1055	1063	O
-,	1063	1064	O
-has	1065	1068	O
-been	1069	1073	O
-reported	1074	1082	O
-[	1083	1084	O
-6–13	1084	1088	O
-]	1088	1089	O
-.	1089	1090	O
-
-Ferromagnetism	1091	1105	B-Process
-in	1106	1108	O
-TIs	1109	1112	B-Process
-is	1113	1115	O
-important	1116	1125	O
-because	1126	1133	O
-the	1134	1137	O
-combination	1138	1149	O
-of	1150	1152	O
-magnetism	1153	1162	B-Process
-with	1163	1167	O
-TIs	1168	1171	B-Process
-makes	1172	1177	O
-a	1178	1179	O
-good	1180	1184	O
-platform	1185	1193	O
-to	1194	1196	O
-study	1197	1202	O
-fundamental	1203	1214	B-Task
-physical	1215	1223	I-Task
-phenomena	1224	1233	I-Task
-,	1233	1234	O
-such	1235	1239	O
-as	1240	1242	O
-the	1243	1246	O
-quantum	1247	1254	O
-anomalous	1255	1264	O
-Hall	1265	1269	B-Task
-effect	1270	1276	I-Task
-[	1277	1278	O
-14–17	1278	1283	O
-]	1283	1284	O
-,	1284	1285	O
-Majorana	1286	1294	B-Task
-fermions	1295	1303	I-Task
-[	1304	1305	O
-18	1305	1307	O
-]	1307	1308	O
-,	1308	1309	O
-image	1310	1315	B-Task
-magnetic	1316	1324	I-Task
-monopole	1325	1333	I-Task
-effect	1334	1340	I-Task
-[	1341	1342	O
-19	1342	1344	O
-]	1344	1345	O
-,	1345	1346	O
-and	1347	1350	O
-topological	1351	1362	O
-contributions	1363	1376	O
-to	1377	1379	O
-the	1380	1383	O
-Faraday	1384	1391	B-Task
-and	1392	1395	I-Task
-Kerr	1396	1400	I-Task
-magneto	1401	1408	I-Task
--	1408	1409	I-Task
-optical	1409	1416	I-Task
-effect	1417	1423	I-Task
-[	1424	1425	O
-20	1425	1427	O
-]	1427	1428	O
-.	1428	1429	O
+Topological	0,11	O	B-Process
+insulators	12,22	O	I-Process
+(	23,24	O	O
+TIs	24,27	O	B-Process
+)	27,28	O	O
+are	29,32	O	O
+promising	33,42	O	O
+candidates	43,53	O	O
+of	54,56	O	O
+spintronics	57,68	O	B-Material
+materials	69,78	O	I-Material
+because	79,86	O	O
+of	87,89	O	O
+their	90,95	O	O
+robust	96,102	O	O
+helical	103,110	O	O
+surface	111,118	O	O
+states	119,125	O	O
+and	126,129	O	O
+the	130,133	O	O
+extremely	134,143	O	O
+strong	144,150	O	O
+spin	151,155	O	B-Process
+–	155,156	O	I-Process
+orbit	156,161	O	I-Process
+interaction	162,173	O	I-Process
+[	174,175	O	O
+1–3	175,178	O	O
+]	178,179	O	O
+.	179,180	O	O
+
+Initially	181,190	O	O
+,	190,191	O	O
+binary	192,198	O	B-Material
+chalcogenides	199,212	O	I-Material
+Bi2Te3	213,219	O	B-Material
+,	219,220	O	O
+Sb2Te3	221,227	O	B-Material
+and	228,231	O	O
+Bi2Se3	232,238	O	B-Material
+have	239,243	O	O
+been	244,248	O	O
+identified	249,259	O	O
+as	260,262	O	O
+three	263,268	O	O
+-	268,269	O	O
+dimensional	269,280	O	O
+TIs	281,284	O	B-Process
+by	285,287	O	O
+surface	288,295	O	B-Process
+sensitive	296,305	O	I-Process
+probes	306,312	O	I-Process
+such	313,317	O	O
+as	318,320	O	O
+angle	321,326	O	B-Process
+resolved	327,335	O	I-Process
+photoemission	336,349	O	I-Process
+spectroscopy	350,362	O	I-Process
+and	363,366	O	O
+scanning	367,375	O	B-Process
+tunneling	376,385	O	I-Process
+microscopy	386,396	O	I-Process
+/	396,397	O	I-Process
+spectroscopy	397,409	O	I-Process
+.	409,410	O	O
+
+Later	411,416	O	O
+,	416,417	O	O
+ternary	418,425	O	B-Material
+chalcogenide	426,438	O	I-Material
+(	439,440	O	B-Material
+BixSb1−x)2Te3	440,453	O	I-Material
+[	454,455	O	O
+4,5	455,458	O	O
+]	458,459	O	O
+,	459,460	O	O
+which	461,466	O	O
+has	467,470	O	O
+similar	471,478	O	O
+tetradymite	479,490	O	O
+structure	491,500	O	O
+to	501,503	O	O
+the	504,507	O	O
+parent	508,514	O	O
+compounds	515,524	O	O
+Bi2Te3	525,531	O	B-Material
+and	532,535	O	O
+Sb2Te3	536,542	O	B-Material
+,	542,543	O	O
+was	544,547	O	O
+predicted	548,557	O	O
+by	558,560	O	O
+ab	561,563	O	B-Process
+initio	564,570	O	I-Process
+calculations	571,583	O	I-Process
+and	584,587	O	O
+confirmed	588,597	O	O
+by	598,600	O	O
+ARPES	601,606	O	B-Process
+measurements	607,619	O	I-Process
+as	620,622	O	O
+a	623,624	O	O
+tunable	625,632	O	O
+topological	633,644	O	B-Process
+insulator	645,654	O	I-Process
+whose	655,660	O	O
+Fermi	661,666	O	O
+energy	667,673	O	O
+and	674,677	O	O
+carrier	678,685	O	O
+density	686,693	O	O
+can	694,697	O	O
+be	698,700	O	O
+adjusted	701,709	O	O
+via	710,713	O	O
+changing	714,722	O	B-Process
+the	723,726	O	I-Process
+Bi	727,729	O	I-Process
+/	729,730	O	I-Process
+Sb	730,732	O	I-Process
+composition	733,744	O	I-Process
+ratio	745,750	O	I-Process
+with	751,755	O	O
+stable	756,762	O	O
+topological	763,774	O	O
+surface	775,782	O	O
+state	783,788	O	O
+for	789,792	O	O
+the	793,796	O	O
+entire	797,803	O	O
+composition	804,815	O	O
+range	816,821	O	O
+.	821,822	O	O
+
+Combined	823,831	O	O
+with	832,836	O	O
+magnetism	837,846	O	B-Process
+or	847,849	O	O
+superconductivity	850,867	O	B-Process
+,	867,868	O	O
+TIs	869,872	O	B-Process
+have	873,877	O	O
+attracted	878,887	O	O
+great	888,893	O	O
+attention	894,903	O	O
+due	904,907	O	O
+to	908,910	O	O
+the	911,914	O	O
+rich	915,919	O	O
+variety	920,927	O	O
+of	928,930	O	O
+new	931,934	O	O
+physics	935,942	O	O
+and	943,946	O	O
+applications	947,959	O	O
+.	959,960	O	O
+
+The	961,964	O	O
+ferromagnetism	965,979	O	B-Process
+in	980,982	O	O
+several	983,990	O	O
+transition	991,1001	O	B-Material
+metal	1002,1007	O	I-Material
+(	1008,1009	O	O
+TM	1009,1011	O	B-Material
+)	1011,1012	O	O
+doped	1013,1018	O	O
+TIs	1019,1022	O	B-Process
+,	1022,1023	O	O
+which	1024,1029	O	O
+breaks	1030,1036	O	O
+the	1037,1040	O	O
+time	1041,1045	O	O
+-	1045,1046	O	O
+reversal	1046,1054	O	O
+symmetry	1055,1063	O	O
+,	1063,1064	O	O
+has	1065,1068	O	O
+been	1069,1073	O	O
+reported	1074,1082	O	O
+[	1083,1084	O	O
+6–13	1084,1088	O	O
+]	1088,1089	O	O
+.	1089,1090	O	O
+
+Ferromagnetism	1091,1105	O	B-Process
+in	1106,1108	O	O
+TIs	1109,1112	O	B-Process
+is	1113,1115	O	O
+important	1116,1125	O	O
+because	1126,1133	O	O
+the	1134,1137	O	O
+combination	1138,1149	O	O
+of	1150,1152	O	O
+magnetism	1153,1162	O	B-Process
+with	1163,1167	O	O
+TIs	1168,1171	O	B-Process
+makes	1172,1177	O	O
+a	1178,1179	O	O
+good	1180,1184	O	O
+platform	1185,1193	O	O
+to	1194,1196	O	O
+study	1197,1202	O	O
+fundamental	1203,1214	O	B-Task
+physical	1215,1223	O	I-Task
+phenomena	1224,1233	O	I-Task
+,	1233,1234	O	O
+such	1235,1239	O	O
+as	1240,1242	O	O
+the	1243,1246	O	O
+quantum	1247,1254	O	O
+anomalous	1255,1264	O	O
+Hall	1265,1269	O	B-Task
+effect	1270,1276	O	I-Task
+[	1277,1278	O	O
+14–17	1278,1283	O	O
+]	1283,1284	O	O
+,	1284,1285	O	O
+Majorana	1286,1294	O	B-Task
+fermions	1295,1303	O	I-Task
+[	1304,1305	O	O
+18	1305,1307	O	O
+]	1307,1308	O	O
+,	1308,1309	O	O
+image	1310,1315	O	B-Task
+magnetic	1316,1324	O	I-Task
+monopole	1325,1333	O	I-Task
+effect	1334,1340	O	I-Task
+[	1341,1342	O	O
+19	1342,1344	O	O
+]	1344,1345	O	O
+,	1345,1346	O	O
+and	1347,1350	O	O
+topological	1351,1362	O	O
+contributions	1363,1376	O	O
+to	1377,1379	O	O
+the	1380,1383	O	O
+Faraday	1384,1391	O	B-Task
+and	1392,1395	O	I-Task
+Kerr	1396,1400	O	I-Task
+magneto	1401,1408	O	I-Task
+-	1408,1409	O	I-Task
+optical	1409,1416	O	I-Task
+effect	1417,1423	O	I-Task
+[	1424,1425	O	O
+20	1425,1427	O	O
+]	1427,1428	O	O
+.	1428,1429	O	O
 
 
 -DOCSTART- (S0375960113006725)
 
-Observations	0	12	B-Process
-show	13	17	O
-that	18	22	O
-in	23	25	O
-the	26	29	O
-same	30	34	O
-area	35	39	O
-with	40	44	O
-dimensions	45	55	O
-of	56	58	O
-a	59	60	O
-few	61	64	O
-tenths	65	71	O
-of	72	74	O
-a	75	76	O
-parsec	77	83	O
-could	84	89	O
-be	90	92	O
-many	93	97	O
-sources	98	105	O
-,	105	106	O
-some	107	111	O
-of	112	114	O
-which	115	120	O
-only	121	125	O
-emits	126	131	O
-OH	132	134	B-Material
-lines	135	140	I-Material
-,	140	141	O
-and	142	145	O
-some	146	150	O
-–	151	152	O
-only	153	157	O
-lines	158	163	O
-H2O.	164	168	B-Material
-
-The	169	172	O
-only	173	177	O
-known	178	183	O
-in	184	186	O
-physics	187	194	O
-the	195	198	O
-emission	199	207	B-Process
-mechanism	208	217	I-Process
-that	218	222	O
-can	223	226	O
-give	227	231	O
-tremendous	232	242	O
-power	243	248	O
-within	249	255	O
-a	256	257	O
-narrow	258	264	O
-range	265	270	O
-of	271	273	O
-the	274	277	O
-spectrum	278	286	O
-,	286	287	O
-is	288	290	O
-coherent	291	299	O
-(	300	301	O
-i.e.	301	305	O
-the	306	309	O
-same	310	314	O
-phase	315	320	O
-and	321	324	O
-direction	325	334	O
-)	334	335	O
-light	336	341	B-Process
-lasers	342	348	I-Process
-,	348	349	O
-which	350	355	O
-are	356	359	O
-called	360	366	O
-optical	367	374	B-Process
-lasers	375	381	I-Process
-,	381	382	O
-and	383	386	O
-radio	387	392	B-Process
--	392	393	I-Process
-masers	393	399	I-Process
-.	399	400	O
-
-Cosmic	401	407	B-Material
-maser	408	413	I-Material
-radio	414	419	I-Material
-sources	420	427	I-Material
-emitting	428	436	O
-in	437	439	O
-the	440	443	O
-lines	444	449	O
-of	450	452	O
-the	453	456	O
-molecules	457	466	O
-have	467	471	O
-an	472	474	O
-extremely	475	484	O
-high	485	489	O
-brightness	490	500	O
-temperature	501	512	O
-radiation	513	522	O
-Tb	523	525	O
-.	525	526	O
-
-In	527	529	O
-the	530	533	O
-molecules	534	543	O
-of	544	546	O
-methanol	547	555	B-Material
-masers	556	562	I-Material
-(	563	564	O
-CH3OH	564	569	B-Material
-)	569	570	O
-
-Tb	571	573	O
-value	574	579	O
-can	580	583	O
-reach	584	589	O
-109	590	593	O
-K	594	595	O
-,	595	596	O
-with	597	601	O
-masers	602	608	B-Material
-hydroxyl	609	617	I-Material
-molecules	618	627	I-Material
-(	628	629	O
-OH	629	631	B-Material
-)	631	632	O
-
-6×1012	633	639	O
-K.	640	642	O
-
-The	643	646	O
-typical	647	654	O
-size	655	659	O
-of	660	662	O
-the	663	666	O
-maser	667	672	B-Material
-clusters	673	681	I-Material
-is	682	684	O
-about	685	690	O
-1014–1015	691	700	O
-m	701	702	O
-and	703	706	O
-the	707	710	O
-neutron	711	718	B-Material
-star	719	723	I-Material
-radius	724	730	O
-is	731	733	O
-of	734	736	O
-the	737	740	O
-order	741	746	O
-of	747	749	O
-10	750	752	O
-km	753	755	O
-.	755	756	O
-
-Thus	757	761	O
-,	761	762	O
-the	763	766	O
-radiation	767	776	B-Process
-dilution	777	785	I-Process
-coefficient	786	797	I-Process
-is	798	800	O
-equaled	801	808	O
-approximately	809	822	O
-(	823	824	O
-2.5×10−23)–(2.5×10−21	824	845	O
-)	845	846	O
-and	847	850	O
-,	850	851	O
-therefore	852	861	O
-,	861	862	O
-μB2B2/4(hν)2∼(2.4×10−5)–(2.4×10−7	863	896	O
-)	896	897	O
-for	898	901	O
-the	902	905	O
-hydrogen	906	914	B-Material
-line	915	919	I-Material
-21	920	922	O
-cm	923	925	O
-and	926	929	O
-of	930	932	O
-the	933	936	O
-order	937	942	O
-10−5–10−7	943	952	O
-for	953	956	O
-the	957	960	O
-OH	961	963	O
-18	964	966	O
-cm	967	969	O
-line	970	974	O
-or	975	977	O
-the	978	981	O
-same	982	986	O
-order	987	992	O
-as	993	995	O
-Eq	996	998	O
-.	998	999	O
-
-(	1000	1001	O
-1	1001	1002	O
-)	1002	1003	O
-.	1003	1004	O
+Observations	0,12	O	B-Process
+show	13,17	O	O
+that	18,22	O	O
+in	23,25	O	O
+the	26,29	O	O
+same	30,34	O	O
+area	35,39	O	O
+with	40,44	O	O
+dimensions	45,55	O	O
+of	56,58	O	O
+a	59,60	O	O
+few	61,64	O	O
+tenths	65,71	O	O
+of	72,74	O	O
+a	75,76	O	O
+parsec	77,83	O	O
+could	84,89	O	O
+be	90,92	O	O
+many	93,97	O	O
+sources	98,105	O	O
+,	105,106	O	O
+some	107,111	O	O
+of	112,114	O	O
+which	115,120	O	O
+only	121,125	O	O
+emits	126,131	O	O
+OH	132,134	O	B-Material
+lines	135,140	O	I-Material
+,	140,141	O	O
+and	142,145	O	O
+some	146,150	O	O
+–	151,152	O	O
+only	153,157	O	O
+lines	158,163	O	O
+H2O.	164,168	O	B-Material
+
+The	169,172	O	O
+only	173,177	O	O
+known	178,183	O	O
+in	184,186	O	O
+physics	187,194	O	O
+the	195,198	O	O
+emission	199,207	O	B-Process
+mechanism	208,217	O	I-Process
+that	218,222	O	O
+can	223,226	O	O
+give	227,231	O	O
+tremendous	232,242	O	O
+power	243,248	O	O
+within	249,255	O	O
+a	256,257	O	O
+narrow	258,264	O	O
+range	265,270	O	O
+of	271,273	O	O
+the	274,277	O	O
+spectrum	278,286	O	O
+,	286,287	O	O
+is	288,290	O	O
+coherent	291,299	O	O
+(	300,301	O	O
+i.e.	301,305	O	O
+the	306,309	O	O
+same	310,314	O	O
+phase	315,320	O	O
+and	321,324	O	O
+direction	325,334	O	O
+)	334,335	O	O
+light	336,341	O	B-Process
+lasers	342,348	O	I-Process
+,	348,349	O	O
+which	350,355	O	O
+are	356,359	O	O
+called	360,366	O	O
+optical	367,374	O	B-Process
+lasers	375,381	O	I-Process
+,	381,382	O	O
+and	383,386	O	O
+radio	387,392	O	B-Process
+-	392,393	O	I-Process
+masers	393,399	O	I-Process
+.	399,400	O	O
+
+Cosmic	401,407	O	B-Material
+maser	408,413	O	I-Material
+radio	414,419	O	I-Material
+sources	420,427	O	I-Material
+emitting	428,436	O	O
+in	437,439	O	O
+the	440,443	O	O
+lines	444,449	O	O
+of	450,452	O	O
+the	453,456	O	O
+molecules	457,466	O	O
+have	467,471	O	O
+an	472,474	O	O
+extremely	475,484	O	O
+high	485,489	O	O
+brightness	490,500	O	O
+temperature	501,512	O	O
+radiation	513,522	O	O
+Tb	523,525	O	O
+.	525,526	O	O
+
+In	527,529	O	O
+the	530,533	O	O
+molecules	534,543	O	O
+of	544,546	O	O
+methanol	547,555	O	B-Material
+masers	556,562	O	I-Material
+(	563,564	O	O
+CH3OH	564,569	O	B-Material
+)	569,570	O	O
+
+Tb	571,573	O	O
+value	574,579	O	O
+can	580,583	O	O
+reach	584,589	O	O
+109	590,593	O	O
+K	594,595	O	O
+,	595,596	O	O
+with	597,601	O	O
+masers	602,608	O	B-Material
+hydroxyl	609,617	O	I-Material
+molecules	618,627	O	I-Material
+(	628,629	O	O
+OH	629,631	O	B-Material
+)	631,632	O	O
+
+6×1012	633,639	O	O
+K.	640,642	O	O
+
+The	643,646	O	O
+typical	647,654	O	O
+size	655,659	O	O
+of	660,662	O	O
+the	663,666	O	O
+maser	667,672	O	B-Material
+clusters	673,681	O	I-Material
+is	682,684	O	O
+about	685,690	O	O
+1014–1015	691,700	O	O
+m	701,702	O	O
+and	703,706	O	O
+the	707,710	O	O
+neutron	711,718	O	B-Material
+star	719,723	O	I-Material
+radius	724,730	O	O
+is	731,733	O	O
+of	734,736	O	O
+the	737,740	O	O
+order	741,746	O	O
+of	747,749	O	O
+10	750,752	O	O
+km	753,755	O	O
+.	755,756	O	O
+
+Thus	757,761	O	O
+,	761,762	O	O
+the	763,766	O	O
+radiation	767,776	O	B-Process
+dilution	777,785	O	I-Process
+coefficient	786,797	O	I-Process
+is	798,800	O	O
+equaled	801,808	O	O
+approximately	809,822	O	O
+(	823,824	O	O
+2.5×10−23)–(2.5×10−21	824,845	O	O
+)	845,846	O	O
+and	847,850	O	O
+,	850,851	O	O
+therefore	852,861	O	O
+,	861,862	O	O
+μB2B2/4(hν)2∼(2.4×10−5)–(2.4×10−7	863,896	O	O
+)	896,897	O	O
+for	898,901	O	O
+the	902,905	O	O
+hydrogen	906,914	O	B-Material
+line	915,919	O	I-Material
+21	920,922	O	O
+cm	923,925	O	O
+and	926,929	O	O
+of	930,932	O	O
+the	933,936	O	O
+order	937,942	O	O
+10−5–10−7	943,952	O	O
+for	953,956	O	O
+the	957,960	O	O
+OH	961,963	O	O
+18	964,966	O	O
+cm	967,969	O	O
+line	970,974	O	O
+or	975,977	O	O
+the	978,981	O	O
+same	982,986	O	O
+order	987,992	O	O
+as	993,995	O	O
+Eq	996,998	O	O
+.	998,999	O	O
+
+(	1000,1001	O	O
+1	1001,1002	O	O
+)	1002,1003	O	O
+.	1003,1004	O	O
 
 
 -DOCSTART- (S037596011300741X)
 
-In	0	2	O
-exploring	3	12	O
-the	13	16	O
-WKB	17	20	B-Task
-limit	21	26	I-Task
-of	27	29	I-Task
-quantum	30	37	I-Task
-theory	38	44	I-Task
-,	44	45	O
-Bohm	46	50	O
-[	51	52	O
-2	52	53	O
-]	53	54	O
-was	55	58	O
-the	59	62	O
-first	63	68	O
-to	69	71	O
-notice	72	78	O
-that	79	83	O
-although	84	92	O
-one	93	96	O
-starts	97	103	O
-with	104	108	O
-all	109	112	O
-the	113	116	O
-ambiguities	117	128	O
-about	129	134	O
-the	135	138	O
-nature	139	145	O
-of	146	148	O
-a	149	150	O
-quantum	151	158	O
-system	159	165	O
-,	165	166	O
-the	167	170	O
-first	171	176	O
-order	177	182	O
-approximation	183	196	O
-fits	197	201	O
-the	202	205	O
-ordinary	206	214	O
-classical	215	224	O
-ontology	225	233	O
-.	233	234	O
-
-By	235	237	O
-that	238	242	O
-we	243	245	O
-mean	246	250	O
-that	251	255	O
-the	256	259	O
-real	260	264	O
-part	265	269	O
-of	270	272	O
-the	273	276	O
-Schrödinger	277	288	B-Process
-equation	289	297	I-Process
-under	298	303	I-Process
-polar	304	309	I-Process
-decomposition	310	323	I-Process
-of	324	326	I-Process
-the	327	330	I-Process
-wave	331	335	I-Process
-function	336	344	I-Process
-becomes	345	352	O
-the	353	356	O
-classical	357	366	O
-Hamilton	367	375	O
-–	375	376	O
-
-Jacobi	376	382	O
-equation	383	391	O
-in	392	394	O
-the	395	398	O
-limit	399	404	O
-where	405	410	O
-terms	411	416	O
-involving	417	426	O
-ℏ	427	428	O
-are	429	432	O
-neglected	433	442	O
-.	442	443	O
-
-In	444	446	O
-contrast	447	455	O
-to	456	458	O
-this	459	463	O
-approach	464	472	O
-,	472	473	O
-in	474	476	O
-this	477	481	O
-Letter	482	488	O
-we	489	491	O
-show	492	496	O
-that	497	501	O
-the	502	505	O
-classical	506	515	O
-trajectories	516	528	O
-arise	529	534	O
-from	535	539	O
-a	540	541	O
-short	542	547	B-Process
--	547	548	I-Process
-time	548	552	I-Process
-quantum	553	560	I-Process
-propagator	561	571	I-Process
-when	572	576	O
-terms	577	582	O
-of	583	585	O
-O(Δt2	586	591	O
-)	591	592	O
-can	593	596	O
-be	597	599	O
-neglected	600	609	O
-.	609	610	O
-
-This	611	615	O
-fact	616	620	O
-was	621	624	O
-actually	625	633	O
-already	634	641	O
-observed	642	650	O
-by	651	653	O
-Holland	654	661	O
-some	662	666	O
-twenty	667	673	O
-years	674	679	O
-ago	680	683	O
-:	683	684	O
-
-In	685	687	O
-page	688	692	O
-269	693	696	O
-of	697	699	O
-his	700	703	O
-book	704	708	O
-[	709	710	O
-6	710	711	O
-]	711	712	O
-infinitesimal	713	726	B-Material
-time	727	731	I-Material
-intervals	732	741	I-Material
-are	742	745	O
-considered	746	756	O
-whose	757	762	O
-sequence	763	771	O
-constructs	772	782	O
-a	783	784	O
-finite	785	791	O
-path	792	796	O
-.	796	797	O
-
-It	798	800	O
-is	801	803	O
-shown	804	809	O
-that	810	814	O
-along	815	820	O
-each	821	825	O
-segment	826	833	O
-the	834	837	O
-motion	838	844	O
-is	845	847	O
-classical	848	857	O
-(	858	859	O
-negligible	859	869	O
-quantum	870	877	O
-potential	878	887	O
-)	887	888	O
-,	888	889	O
-and	890	893	O
-that	894	898	O
-it	899	901	O
-follows	902	909	O
-that	910	914	O
-the	915	918	O
-quantum	919	926	O
-path	927	931	O
-may	932	935	O
-be	936	938	O
-decomposed	939	949	O
-into	950	954	O
-a	955	956	O
-sequence	957	965	O
-of	966	968	O
-segments	969	977	O
-along	978	983	O
-each	984	988	O
-of	989	991	O
-which	992	997	O
-the	998	1001	O
-classical	1002	1011	O
-action	1012	1018	O
-is	1019	1021	O
-a	1022	1023	O
-minimum	1024	1031	O
-.	1031	1032	O
-
-The	1033	1036	O
-novel	1037	1042	O
-contribution	1043	1055	O
-of	1056	1058	O
-the	1059	1062	O
-present	1063	1070	O
-Letter	1071	1077	O
-is	1078	1080	O
-an	1081	1083	O
-improved	1084	1092	O
-proof	1093	1098	O
-of	1099	1101	O
-Hollandʼs	1102	1111	O
-result	1112	1118	O
-using	1119	1124	O
-an	1125	1127	O
-improved	1128	1136	O
-version	1137	1144	O
-of	1145	1147	O
-the	1148	1151	O
-propagator	1152	1162	B-Process
-due	1163	1166	O
-to	1167	1169	O
-Makri	1170	1175	O
-and	1176	1179	O
-Miller	1180	1186	O
-[	1187	1188	O
-9,10	1188	1192	O
-]	1192	1193	O
-.	1193	1194	O
-
-(	1195	1196	O
-See	1196	1199	O
-also	1200	1204	O
-de	1205	1207	O
-Gosson	1208	1214	O
-[	1215	1216	O
-3	1216	1217	O
-]	1217	1218	O
-for	1219	1222	O
-a	1223	1224	O
-further	1225	1232	O
-discussion	1233	1243	O
-.	1243	1244	O
-)	1244	1245	O
+In	0,2	O	O
+exploring	3,12	O	O
+the	13,16	O	O
+WKB	17,20	O	B-Task
+limit	21,26	O	I-Task
+of	27,29	O	I-Task
+quantum	30,37	O	I-Task
+theory	38,44	O	I-Task
+,	44,45	O	O
+Bohm	46,50	O	O
+[	51,52	O	O
+2	52,53	O	O
+]	53,54	O	O
+was	55,58	O	O
+the	59,62	O	O
+first	63,68	O	O
+to	69,71	O	O
+notice	72,78	O	O
+that	79,83	O	O
+although	84,92	O	O
+one	93,96	O	O
+starts	97,103	O	O
+with	104,108	O	O
+all	109,112	O	O
+the	113,116	O	O
+ambiguities	117,128	O	O
+about	129,134	O	O
+the	135,138	O	O
+nature	139,145	O	O
+of	146,148	O	O
+a	149,150	O	O
+quantum	151,158	O	O
+system	159,165	O	O
+,	165,166	O	O
+the	167,170	O	O
+first	171,176	O	O
+order	177,182	O	O
+approximation	183,196	O	O
+fits	197,201	O	O
+the	202,205	O	O
+ordinary	206,214	O	O
+classical	215,224	O	O
+ontology	225,233	O	O
+.	233,234	O	O
+
+By	235,237	O	O
+that	238,242	O	O
+we	243,245	O	O
+mean	246,250	O	O
+that	251,255	O	O
+the	256,259	O	O
+real	260,264	O	O
+part	265,269	O	O
+of	270,272	O	O
+the	273,276	O	O
+Schrödinger	277,288	O	B-Process
+equation	289,297	O	I-Process
+under	298,303	O	I-Process
+polar	304,309	O	I-Process
+decomposition	310,323	O	I-Process
+of	324,326	O	I-Process
+the	327,330	O	I-Process
+wave	331,335	O	I-Process
+function	336,344	O	I-Process
+becomes	345,352	O	O
+the	353,356	O	O
+classical	357,366	O	O
+Hamilton	367,375	O	O
+–	375,376	O	O
+
+Jacobi	376,382	O	O
+equation	383,391	O	O
+in	392,394	O	O
+the	395,398	O	O
+limit	399,404	O	O
+where	405,410	O	O
+terms	411,416	O	O
+involving	417,426	O	O
+ℏ	427,428	O	O
+are	429,432	O	O
+neglected	433,442	O	O
+.	442,443	O	O
+
+In	444,446	O	O
+contrast	447,455	O	O
+to	456,458	O	O
+this	459,463	O	O
+approach	464,472	O	O
+,	472,473	O	O
+in	474,476	O	O
+this	477,481	O	O
+Letter	482,488	O	O
+we	489,491	O	O
+show	492,496	O	O
+that	497,501	O	O
+the	502,505	O	O
+classical	506,515	O	O
+trajectories	516,528	O	O
+arise	529,534	O	O
+from	535,539	O	O
+a	540,541	O	O
+short	542,547	O	B-Process
+-	547,548	O	I-Process
+time	548,552	O	I-Process
+quantum	553,560	O	I-Process
+propagator	561,571	O	I-Process
+when	572,576	O	O
+terms	577,582	O	O
+of	583,585	O	O
+O(Δt2	586,591	O	O
+)	591,592	O	O
+can	593,596	O	O
+be	597,599	O	O
+neglected	600,609	O	O
+.	609,610	O	O
+
+This	611,615	O	O
+fact	616,620	O	O
+was	621,624	O	O
+actually	625,633	O	O
+already	634,641	O	O
+observed	642,650	O	O
+by	651,653	O	O
+Holland	654,661	O	O
+some	662,666	O	O
+twenty	667,673	O	O
+years	674,679	O	O
+ago	680,683	O	O
+:	683,684	O	O
+
+In	685,687	O	O
+page	688,692	O	O
+269	693,696	O	O
+of	697,699	O	O
+his	700,703	O	O
+book	704,708	O	O
+[	709,710	O	O
+6	710,711	O	O
+]	711,712	O	O
+infinitesimal	713,726	O	B-Material
+time	727,731	O	I-Material
+intervals	732,741	O	I-Material
+are	742,745	O	O
+considered	746,756	O	O
+whose	757,762	O	O
+sequence	763,771	O	O
+constructs	772,782	O	O
+a	783,784	O	O
+finite	785,791	O	O
+path	792,796	O	O
+.	796,797	O	O
+
+It	798,800	O	O
+is	801,803	O	O
+shown	804,809	O	O
+that	810,814	O	O
+along	815,820	O	O
+each	821,825	O	O
+segment	826,833	O	O
+the	834,837	O	O
+motion	838,844	O	O
+is	845,847	O	O
+classical	848,857	O	O
+(	858,859	O	O
+negligible	859,869	O	O
+quantum	870,877	O	O
+potential	878,887	O	O
+)	887,888	O	O
+,	888,889	O	O
+and	890,893	O	O
+that	894,898	O	O
+it	899,901	O	O
+follows	902,909	O	O
+that	910,914	O	O
+the	915,918	O	O
+quantum	919,926	O	O
+path	927,931	O	O
+may	932,935	O	O
+be	936,938	O	O
+decomposed	939,949	O	O
+into	950,954	O	O
+a	955,956	O	O
+sequence	957,965	O	O
+of	966,968	O	O
+segments	969,977	O	O
+along	978,983	O	O
+each	984,988	O	O
+of	989,991	O	O
+which	992,997	O	O
+the	998,1001	O	O
+classical	1002,1011	O	O
+action	1012,1018	O	O
+is	1019,1021	O	O
+a	1022,1023	O	O
+minimum	1024,1031	O	O
+.	1031,1032	O	O
+
+The	1033,1036	O	O
+novel	1037,1042	O	O
+contribution	1043,1055	O	O
+of	1056,1058	O	O
+the	1059,1062	O	O
+present	1063,1070	O	O
+Letter	1071,1077	O	O
+is	1078,1080	O	O
+an	1081,1083	O	O
+improved	1084,1092	O	O
+proof	1093,1098	O	O
+of	1099,1101	O	O
+Hollandʼs	1102,1111	O	O
+result	1112,1118	O	O
+using	1119,1124	O	O
+an	1125,1127	O	O
+improved	1128,1136	O	O
+version	1137,1144	O	O
+of	1145,1147	O	O
+the	1148,1151	O	O
+propagator	1152,1162	O	B-Process
+due	1163,1166	O	O
+to	1167,1169	O	O
+Makri	1170,1175	O	O
+and	1176,1179	O	O
+Miller	1180,1186	O	O
+[	1187,1188	O	O
+9,10	1188,1192	O	O
+]	1192,1193	O	O
+.	1193,1194	O	O
+
+(	1195,1196	O	O
+See	1196,1199	O	O
+also	1200,1204	O	O
+de	1205,1207	O	O
+Gosson	1208,1214	O	O
+[	1215,1216	O	O
+3	1216,1217	O	O
+]	1217,1218	O	O
+for	1219,1222	O	O
+a	1223,1224	O	O
+further	1225,1232	O	O
+discussion	1233,1243	O	O
+.	1243,1244	O	O
+)	1244,1245	O	O
 
 
 -DOCSTART- (S0375960113010839)
 
-The	0	3	O
-goal	4	8	O
-of	9	11	O
-the	12	15	O
-glued	16	21	B-Process
-trees	22	27	I-Process
-(	28	29	O
-GT	29	31	B-Process
-)	31	32	O
-algorithm	33	42	O
-for	43	46	O
-quantum	47	54	B-Task
-search	55	61	I-Task
-is	62	64	O
-the	65	68	O
-following	69	78	O
-:	78	79	O
-beginning	80	89	O
-from	90	94	O
-the	95	98	O
-left	99	103	O
--	103	104	O
-most	104	108	O
-vertex	109	115	O
-of	116	118	O
-a	119	120	O
-given	121	126	O
-GT	127	129	B-Material
-graph	130	135	I-Material
-,	135	136	O
-traverse	137	145	O
-the	146	149	O
-graph	150	155	B-Material
-and	156	159	O
-reach	160	165	O
-the	166	169	O
-right	170	175	O
--	175	176	O
-most	176	180	O
-vertex	181	187	O
-,	187	188	O
-referred	189	197	O
-to	198	200	O
-as	201	203	O
-the	204	207	O
-target	208	214	O
-vertex	215	221	O
-.	221	222	O
-
-Childs	223	229	O
-et	230	232	O
-al	233	235	O
-.	235	236	O
-
-[	237	238	O
-1	238	239	O
-]	239	240	O
-use	241	244	O
-this	245	249	O
-algorithm	250	259	O
-to	260	262	O
-show	263	267	O
-quantum	268	275	B-Task
-walk	276	280	I-Task
-search	281	287	I-Task
-to	288	290	O
-be	291	293	O
-fundamentally	294	307	O
-more	308	312	O
-effective	313	322	O
-than	323	327	O
-classical	328	337	B-Task
-random	338	344	I-Task
-walk	345	349	I-Task
-search	350	356	I-Task
-by	357	359	O
-presenting	360	370	O
-a	371	372	O
-class	373	378	B-Material
-of	379	381	I-Material
-graphs	382	388	I-Material
-(	389	390	O
-the	390	393	O
-GT	394	396	B-Material
-graphs	397	403	I-Material
-)	403	404	O
-that	405	409	O
-force	410	415	O
-classical	416	425	B-Task
-random	426	432	I-Task
-walks	433	438	I-Task
-to	439	441	O
-make	442	446	O
-exponentially	447	460	O
-many	461	465	O
-queries	466	473	O
-to	474	476	O
-an	477	479	O
-oracle	480	486	O
-encoding	487	495	O
-the	496	499	O
-structure	500	509	O
-of	510	512	O
-the	513	516	O
-graph	517	522	O
-,	522	523	O
-but	524	527	O
-that	528	532	O
-are	533	536	O
-traversable	537	548	O
-by	549	551	O
-quantum	552	559	O
-walks	560	565	O
-with	566	570	O
-a	571	572	O
-polynomial	573	583	O
-number	584	590	O
-of	591	593	O
-queries	594	601	O
-to	602	604	O
-such	605	609	O
-an	610	612	O
-oracle	613	619	O
-.	619	620	O
-
-In	621	623	O
-order	624	629	O
-to	630	632	O
-study	633	638	O
-the	639	642	O
-robustness	643	653	O
-of	654	656	O
-the	657	660	O
-algorithm	661	670	O
-to	671	673	O
-the	674	677	O
-detrimental	678	689	O
-effects	690	697	O
-of	698	700	O
-decoherence	701	712	O
-,	712	713	O
-we	714	716	O
-shall	717	722	O
-determine	723	732	O
-how	733	736	O
-effectively	737	748	O
-it	749	751	O
-achieves	752	760	O
-its	761	764	O
-goal	765	769	O
-when	770	774	O
-subjected	775	784	O
-to	785	787	O
-an	788	790	O
-increasing	791	801	B-Process
-degree	802	808	I-Process
-of	809	811	I-Process
-phase	812	817	I-Process
-damping	818	825	I-Process
-noise	826	831	I-Process
-.	831	832	O
-
-For	833	836	O
-this	837	841	O
-reason	842	848	O
-,	848	849	O
-we	850	852	O
-will	853	857	O
-focus	858	863	O
-on	864	866	O
-the	867	870	O
-probability	871	882	O
-that	883	887	O
-the	888	891	O
-walker	892	898	O
-is	899	901	O
-on	902	904	O
-the	905	908	O
-target	909	915	O
-vertex	916	922	O
-at	923	925	O
-the	926	929	O
-end	930	933	O
-of	934	936	O
-the	937	940	O
-walk	941	945	O
-.	945	946	O
-
-We	947	949	O
-thus	950	954	O
-consider	955	963	O
-GT	964	966	B-Material
-graphs	967	973	I-Material
-such	974	978	O
-as	979	981	O
-the	982	985	O
-one	986	989	O
-illustrated	990	1001	O
-in	1002	1004	O
-Fig	1005	1008	O
-.	1008	1009	O
-
-1(b	1010	1013	O
-)	1013	1014	O
-,	1014	1015	O
-i.e.	1016	1020	O
-consisting	1021	1031	O
-of	1032	1034	O
-n	1035	1036	O
-layers	1037	1043	O
-before	1044	1050	O
-the	1051	1054	O
-gluing	1055	1061	B-Process
-stage	1062	1067	I-Process
-,	1067	1068	O
-and	1069	1072	O
-thus	1073	1077	O
-labelled	1078	1086	O
-as	1087	1089	O
-G′n	1090	1093	O
-.	1093	1094	O
+The	0,3	O	O
+goal	4,8	O	O
+of	9,11	O	O
+the	12,15	O	O
+glued	16,21	O	B-Process
+trees	22,27	O	I-Process
+(	28,29	O	O
+GT	29,31	O	B-Process
+)	31,32	O	O
+algorithm	33,42	O	O
+for	43,46	O	O
+quantum	47,54	O	B-Task
+search	55,61	O	I-Task
+is	62,64	O	O
+the	65,68	O	O
+following	69,78	O	O
+:	78,79	O	O
+beginning	80,89	O	O
+from	90,94	O	O
+the	95,98	O	O
+left	99,103	O	O
+-	103,104	O	O
+most	104,108	O	O
+vertex	109,115	O	O
+of	116,118	O	O
+a	119,120	O	O
+given	121,126	O	O
+GT	127,129	O	B-Material
+graph	130,135	O	I-Material
+,	135,136	O	O
+traverse	137,145	O	O
+the	146,149	O	O
+graph	150,155	O	B-Material
+and	156,159	O	O
+reach	160,165	O	O
+the	166,169	O	O
+right	170,175	O	O
+-	175,176	O	O
+most	176,180	O	O
+vertex	181,187	O	O
+,	187,188	O	O
+referred	189,197	O	O
+to	198,200	O	O
+as	201,203	O	O
+the	204,207	O	O
+target	208,214	O	O
+vertex	215,221	O	O
+.	221,222	O	O
+
+Childs	223,229	O	O
+et	230,232	O	O
+al	233,235	O	O
+.	235,236	O	O
+
+[	237,238	O	O
+1	238,239	O	O
+]	239,240	O	O
+use	241,244	O	O
+this	245,249	O	O
+algorithm	250,259	O	O
+to	260,262	O	O
+show	263,267	O	O
+quantum	268,275	O	B-Task
+walk	276,280	O	I-Task
+search	281,287	O	I-Task
+to	288,290	O	O
+be	291,293	O	O
+fundamentally	294,307	O	O
+more	308,312	O	O
+effective	313,322	O	O
+than	323,327	O	O
+classical	328,337	O	B-Task
+random	338,344	O	I-Task
+walk	345,349	O	I-Task
+search	350,356	O	I-Task
+by	357,359	O	O
+presenting	360,370	O	O
+a	371,372	O	O
+class	373,378	O	B-Material
+of	379,381	O	I-Material
+graphs	382,388	O	I-Material
+(	389,390	O	O
+the	390,393	O	O
+GT	394,396	O	B-Material
+graphs	397,403	O	I-Material
+)	403,404	O	O
+that	405,409	O	O
+force	410,415	O	O
+classical	416,425	O	B-Task
+random	426,432	O	I-Task
+walks	433,438	O	I-Task
+to	439,441	O	O
+make	442,446	O	O
+exponentially	447,460	O	O
+many	461,465	O	O
+queries	466,473	O	O
+to	474,476	O	O
+an	477,479	O	O
+oracle	480,486	O	O
+encoding	487,495	O	O
+the	496,499	O	O
+structure	500,509	O	O
+of	510,512	O	O
+the	513,516	O	O
+graph	517,522	O	O
+,	522,523	O	O
+but	524,527	O	O
+that	528,532	O	O
+are	533,536	O	O
+traversable	537,548	O	O
+by	549,551	O	O
+quantum	552,559	O	O
+walks	560,565	O	O
+with	566,570	O	O
+a	571,572	O	O
+polynomial	573,583	O	O
+number	584,590	O	O
+of	591,593	O	O
+queries	594,601	O	O
+to	602,604	O	O
+such	605,609	O	O
+an	610,612	O	O
+oracle	613,619	O	O
+.	619,620	O	O
+
+In	621,623	O	O
+order	624,629	O	O
+to	630,632	O	O
+study	633,638	O	O
+the	639,642	O	O
+robustness	643,653	O	O
+of	654,656	O	O
+the	657,660	O	O
+algorithm	661,670	O	O
+to	671,673	O	O
+the	674,677	O	O
+detrimental	678,689	O	O
+effects	690,697	O	O
+of	698,700	O	O
+decoherence	701,712	O	O
+,	712,713	O	O
+we	714,716	O	O
+shall	717,722	O	O
+determine	723,732	O	O
+how	733,736	O	O
+effectively	737,748	O	O
+it	749,751	O	O
+achieves	752,760	O	O
+its	761,764	O	O
+goal	765,769	O	O
+when	770,774	O	O
+subjected	775,784	O	O
+to	785,787	O	O
+an	788,790	O	O
+increasing	791,801	O	B-Process
+degree	802,808	O	I-Process
+of	809,811	O	I-Process
+phase	812,817	O	I-Process
+damping	818,825	O	I-Process
+noise	826,831	O	I-Process
+.	831,832	O	O
+
+For	833,836	O	O
+this	837,841	O	O
+reason	842,848	O	O
+,	848,849	O	O
+we	850,852	O	O
+will	853,857	O	O
+focus	858,863	O	O
+on	864,866	O	O
+the	867,870	O	O
+probability	871,882	O	O
+that	883,887	O	O
+the	888,891	O	O
+walker	892,898	O	O
+is	899,901	O	O
+on	902,904	O	O
+the	905,908	O	O
+target	909,915	O	O
+vertex	916,922	O	O
+at	923,925	O	O
+the	926,929	O	O
+end	930,933	O	O
+of	934,936	O	O
+the	937,940	O	O
+walk	941,945	O	O
+.	945,946	O	O
+
+We	947,949	O	O
+thus	950,954	O	O
+consider	955,963	O	O
+GT	964,966	O	B-Material
+graphs	967,973	O	I-Material
+such	974,978	O	O
+as	979,981	O	O
+the	982,985	O	O
+one	986,989	O	O
+illustrated	990,1001	O	O
+in	1002,1004	O	O
+Fig	1005,1008	O	O
+.	1008,1009	O	O
+
+1(b	1010,1013	O	O
+)	1013,1014	O	O
+,	1014,1015	O	O
+i.e.	1016,1020	O	O
+consisting	1021,1031	O	O
+of	1032,1034	O	O
+n	1035,1036	O	O
+layers	1037,1043	O	O
+before	1044,1050	O	O
+the	1051,1054	O	O
+gluing	1055,1061	O	B-Process
+stage	1062,1067	O	I-Process
+,	1067,1068	O	O
+and	1069,1072	O	O
+thus	1073,1077	O	O
+labelled	1078,1086	O	O
+as	1087,1089	O	O
+G′n	1090,1093	O	O
+.	1093,1094	O	O
 
 
 -DOCSTART- (S0375960115004120)
 
-Another	0	7	O
-remarkable	8	18	O
-feature	19	26	O
-of	27	29	O
-the	30	33	O
-quantum	34	41	B-Task
-field	42	47	I-Task
-treatment	48	57	I-Task
-can	58	61	O
-be	62	64	O
-revealed	65	73	O
-from	74	78	O
-the	79	82	O
-investigation	83	96	O
-of	97	99	O
-the	100	103	O
-vacuum	104	110	B-Material
-state	111	116	I-Material
-.	116	117	O
-
-For	118	121	O
-a	122	123	O
-classical	124	133	O
-field	134	139	O
-,	139	140	O
-vacuum	141	147	B-Material
-is	148	150	O
-realized	151	159	O
-by	160	162	O
-simply	163	169	O
-setting	170	177	O
-the	178	181	O
-potential	182	191	O
-to	192	194	O
-zero	195	199	O
-resulting	200	209	O
-in	210	212	O
-an	213	215	O
-unaltered	216	225	O
-,	225	226	O
-free	227	231	O
-evolution	232	241	O
-of	242	244	O
-the	245	248	O
-particle	249	257	B-Material
-'s	257	259	I-Material
-plane	260	265	I-Material
-wave	266	270	I-Material
-(	271	272	O
-|ψI〉=|ψIII〉=|k0	272	287	O
-〉	287	288	O
-)	288	289	O
-.	289	290	O
-
-In	291	293	O
-the	294	297	O
-quantized	298	307	B-Task
-treatment	308	317	I-Task
-,	317	318	O
-vacuum	319	325	B-Material
-is	326	328	O
-represented	329	340	O
-by	341	343	O
-an	344	346	O
-initial	347	354	O
-Fock	355	359	O
-state	360	365	O
-|n0=0	366	371	O
-〉	371	372	O
-which	373	378	O
-still	379	384	O
-interacts	385	394	O
-with	395	399	O
-the	400	403	O
-particle	404	412	O
-and	413	416	O
-yields	417	423	O
-as	424	426	O
-final	427	432	O
-state	433	438	O
-|ΨIII	439	444	O
-〉	444	445	O
-behind	446	452	O
-the	453	456	O
-field	457	462	O
-region(19)|ΨI〉=|k0〉⊗|0〉⇒|ΨIII〉=∑n=0∞t0n|k−n〉⊗|n	463	510	O
-〉	510	511	O
-with	512	516	O
-a	517	518	O
-photon	519	525	O
-exchange	526	534	O
-probability(20)P0,n=|t0n|2=1n!e−Λ2Λ2n	535	572	O
-The	573	576	O
-particle	577	585	O
-thus	586	590	O
-transfers	591	600	O
-energy	601	607	O
-to	608	610	O
-the	611	614	O
-vacuum	615	621	O
-field	622	627	O
-leading	628	635	O
-to	636	638	O
-a	639	640	O
-Poissonian	641	651	O
-distributed	652	663	O
-final	664	669	O
-photon	670	676	O
-number	677	683	O
-.	683	684	O
-
-Let	685	688	O
-'s	688	690	O
-consider	691	699	O
-,	699	700	O
-for	701	704	O
-example	705	712	O
-,	712	713	O
-a	714	715	O
-superconducting	716	731	B-Material
-resonant	732	740	I-Material
-circuit	741	748	I-Material
-as	749	751	O
-source	752	758	O
-of	759	761	O
-the	762	765	O
-field	766	771	O
-.	771	772	O
-
-The	773	776	O
-magnetic	777	785	B-Material
-field	786	791	I-Material
-along	792	797	O
-the	798	801	O
-axis	802	806	O
-of	807	809	O
-a	810	811	O
-properly	812	820	B-Material
-shaped	821	827	I-Material
-coil	828	832	I-Material
-is	833	835	O
-well	836	840	O
-approximated	841	853	O
-by	854	856	O
-the	857	860	O
-rectangular	861	872	O
-form	873	877	O
-.	877	878	O
-
-A	879	880	O
-particle	881	889	B-Material
-with	890	894	O
-a	895	896	O
-magnetic	897	905	O
-dipole	906	912	O
-moment	913	919	O
-passing	920	927	O
-through	928	935	O
-the	936	939	O
-coil	940	944	O
-then	945	949	O
-interacts	950	959	O
-with	960	964	O
-the	965	968	O
-circuit	969	976	O
-and	977	980	O
-excites	981	988	O
-it	989	991	O
-with	992	996	O
-a	997	998	O
-measurable	999	1009	O
-loss	1010	1014	O
-of	1015	1017	O
-kinetic	1018	1025	O
-energy	1026	1032	O
-even	1033	1037	O
-if	1038	1040	O
-the	1041	1044	O
-circuit	1045	1052	O
-is	1053	1055	O
-initially	1056	1065	O
-uncharged	1066	1075	O
-and	1076	1079	O
-there	1080	1085	O
-is	1086	1088	O
-classically	1089	1100	O
-no	1101	1103	O
-field	1104	1109	O
-it	1110	1112	O
-can	1113	1116	O
-couple	1117	1123	O
-to	1124	1126	O
-.	1126	1127	O
-
-The	1128	1131	O
-phenomenon	1132	1142	O
-that	1143	1147	O
-vacuum	1148	1154	B-Material
-in	1155	1157	O
-quantum	1158	1165	O
-field	1166	1171	O
-theory	1172	1178	O
-does	1179	1183	O
-not	1184	1187	O
-mean	1188	1192	O
-to	1193	1195	O
-“	1196	1197	O
-no	1197	1199	O
-influence	1200	1209	O
-”	1209	1210	O
-as	1211	1213	O
-known	1214	1219	O
-from	1220	1224	O
-Casimir	1225	1232	B-Process
-forces	1233	1239	I-Process
-or	1240	1242	I-Process
-Lamb	1243	1247	I-Process
-shift	1248	1253	I-Process
-is	1254	1256	O
-clearly	1257	1264	O
-visible	1265	1272	O
-here	1273	1277	O
-as	1278	1280	O
-well	1281	1285	O
-.	1285	1286	O
+Another	0,7	O	O
+remarkable	8,18	O	O
+feature	19,26	O	O
+of	27,29	O	O
+the	30,33	O	O
+quantum	34,41	O	B-Task
+field	42,47	O	I-Task
+treatment	48,57	O	I-Task
+can	58,61	O	O
+be	62,64	O	O
+revealed	65,73	O	O
+from	74,78	O	O
+the	79,82	O	O
+investigation	83,96	O	O
+of	97,99	O	O
+the	100,103	O	O
+vacuum	104,110	O	B-Material
+state	111,116	O	I-Material
+.	116,117	O	O
+
+For	118,121	O	O
+a	122,123	O	O
+classical	124,133	O	O
+field	134,139	O	O
+,	139,140	O	O
+vacuum	141,147	O	B-Material
+is	148,150	O	O
+realized	151,159	O	O
+by	160,162	O	O
+simply	163,169	O	O
+setting	170,177	O	O
+the	178,181	O	O
+potential	182,191	O	O
+to	192,194	O	O
+zero	195,199	O	O
+resulting	200,209	O	O
+in	210,212	O	O
+an	213,215	O	O
+unaltered	216,225	O	O
+,	225,226	O	O
+free	227,231	O	O
+evolution	232,241	O	O
+of	242,244	O	O
+the	245,248	O	O
+particle	249,257	O	B-Material
+'s	257,259	O	I-Material
+plane	260,265	O	I-Material
+wave	266,270	O	I-Material
+(	271,272	O	O
+|ψI〉=|ψIII〉=|k0	272,287	O	O
+〉	287,288	O	O
+)	288,289	O	O
+.	289,290	O	O
+
+In	291,293	O	O
+the	294,297	O	O
+quantized	298,307	O	B-Task
+treatment	308,317	O	I-Task
+,	317,318	O	O
+vacuum	319,325	O	B-Material
+is	326,328	O	O
+represented	329,340	O	O
+by	341,343	O	O
+an	344,346	O	O
+initial	347,354	O	O
+Fock	355,359	O	O
+state	360,365	O	O
+|n0=0	366,371	O	O
+〉	371,372	O	O
+which	373,378	O	O
+still	379,384	O	O
+interacts	385,394	O	O
+with	395,399	O	O
+the	400,403	O	O
+particle	404,412	O	O
+and	413,416	O	O
+yields	417,423	O	O
+as	424,426	O	O
+final	427,432	O	O
+state	433,438	O	O
+|ΨIII	439,444	O	O
+〉	444,445	O	O
+behind	446,452	O	O
+the	453,456	O	O
+field	457,462	O	O
+region(19)|ΨI〉=|k0〉⊗|0〉⇒|ΨIII〉=∑n=0∞t0n|k−n〉⊗|n	463,510	O	O
+〉	510,511	O	O
+with	512,516	O	O
+a	517,518	O	O
+photon	519,525	O	O
+exchange	526,534	O	O
+probability(20)P0,n=|t0n|2=1n!e−Λ2Λ2n	535,572	O	O
+The	573,576	O	O
+particle	577,585	O	O
+thus	586,590	O	O
+transfers	591,600	O	O
+energy	601,607	O	O
+to	608,610	O	O
+the	611,614	O	O
+vacuum	615,621	O	O
+field	622,627	O	O
+leading	628,635	O	O
+to	636,638	O	O
+a	639,640	O	O
+Poissonian	641,651	O	O
+distributed	652,663	O	O
+final	664,669	O	O
+photon	670,676	O	O
+number	677,683	O	O
+.	683,684	O	O
+
+Let	685,688	O	O
+'s	688,690	O	O
+consider	691,699	O	O
+,	699,700	O	O
+for	701,704	O	O
+example	705,712	O	O
+,	712,713	O	O
+a	714,715	O	O
+superconducting	716,731	O	B-Material
+resonant	732,740	O	I-Material
+circuit	741,748	O	I-Material
+as	749,751	O	O
+source	752,758	O	O
+of	759,761	O	O
+the	762,765	O	O
+field	766,771	O	O
+.	771,772	O	O
+
+The	773,776	O	O
+magnetic	777,785	O	B-Material
+field	786,791	O	I-Material
+along	792,797	O	O
+the	798,801	O	O
+axis	802,806	O	O
+of	807,809	O	O
+a	810,811	O	O
+properly	812,820	O	B-Material
+shaped	821,827	O	I-Material
+coil	828,832	O	I-Material
+is	833,835	O	O
+well	836,840	O	O
+approximated	841,853	O	O
+by	854,856	O	O
+the	857,860	O	O
+rectangular	861,872	O	O
+form	873,877	O	O
+.	877,878	O	O
+
+A	879,880	O	O
+particle	881,889	O	B-Material
+with	890,894	O	O
+a	895,896	O	O
+magnetic	897,905	O	O
+dipole	906,912	O	O
+moment	913,919	O	O
+passing	920,927	O	O
+through	928,935	O	O
+the	936,939	O	O
+coil	940,944	O	O
+then	945,949	O	O
+interacts	950,959	O	O
+with	960,964	O	O
+the	965,968	O	O
+circuit	969,976	O	O
+and	977,980	O	O
+excites	981,988	O	O
+it	989,991	O	O
+with	992,996	O	O
+a	997,998	O	O
+measurable	999,1009	O	O
+loss	1010,1014	O	O
+of	1015,1017	O	O
+kinetic	1018,1025	O	O
+energy	1026,1032	O	O
+even	1033,1037	O	O
+if	1038,1040	O	O
+the	1041,1044	O	O
+circuit	1045,1052	O	O
+is	1053,1055	O	O
+initially	1056,1065	O	O
+uncharged	1066,1075	O	O
+and	1076,1079	O	O
+there	1080,1085	O	O
+is	1086,1088	O	O
+classically	1089,1100	O	O
+no	1101,1103	O	O
+field	1104,1109	O	O
+it	1110,1112	O	O
+can	1113,1116	O	O
+couple	1117,1123	O	O
+to	1124,1126	O	O
+.	1126,1127	O	O
+
+The	1128,1131	O	O
+phenomenon	1132,1142	O	O
+that	1143,1147	O	O
+vacuum	1148,1154	O	B-Material
+in	1155,1157	O	O
+quantum	1158,1165	O	O
+field	1166,1171	O	O
+theory	1172,1178	O	O
+does	1179,1183	O	O
+not	1184,1187	O	O
+mean	1188,1192	O	O
+to	1193,1195	O	O
+“	1196,1197	O	O
+no	1197,1199	O	O
+influence	1200,1209	O	O
+”	1209,1210	O	O
+as	1211,1213	O	O
+known	1214,1219	O	O
+from	1220,1224	O	O
+Casimir	1225,1232	O	B-Process
+forces	1233,1239	O	I-Process
+or	1240,1242	O	I-Process
+Lamb	1243,1247	O	I-Process
+shift	1248,1253	O	I-Process
+is	1254,1256	O	O
+clearly	1257,1264	O	O
+visible	1265,1272	O	O
+here	1273,1277	O	O
+as	1278,1280	O	O
+well	1281,1285	O	O
+.	1285,1286	O	O
 
 
 -DOCSTART- (S0375960115005630)
 
-The	0	3	O
-systems	4	11	O
-in	12	14	O
-which	15	20	O
-the	21	24	O
-Stern	25	30	B-Process
-–	30	31	I-Process
-Gerlach	31	38	I-Process
-force	39	44	I-Process
-is	45	47	O
-most	48	52	O
-prominent	53	62	O
-are	63	66	O
-those	67	72	O
-with	73	77	O
-a	78	79	O
-high	80	84	O
-electromagnetic	85	100	B-Process
-field	101	106	I-Process
-gradient	107	115	I-Process
-.	115	116	O
-
-Section	117	124	O
-2	125	126	O
-considers	127	136	O
-the	137	140	O
-implications	141	153	O
-of	154	156	O
-the	157	160	O
-coupling	161	169	O
-between	170	177	O
-the	178	181	O
-spin	182	186	O
-of	187	189	O
-a	190	191	O
-classical	192	201	O
-electron	202	210	B-Material
-and	211	214	O
-the	215	218	O
-rapidly	219	226	O
-varying	227	234	O
-electromagnetic	235	250	B-Material
-field	251	256	I-Material
-produced	257	265	O
-by	266	268	O
-a	269	270	O
-laser	271	276	B-Process
--	276	277	I-Process
-driven	277	283	I-Process
-plasma	284	290	I-Process
-wave	291	295	I-Process
-.	295	296	O
-
-Sufficiently	297	309	O
-short	310	315	O
-,	315	316	O
-high	317	321	B-Process
--	321	322	I-Process
-intensity	322	331	I-Process
-laser	332	337	I-Process
-pulses	338	344	I-Process
-can	345	348	O
-form	349	353	O
-longitudinal	354	366	B-Material
-waves	367	372	I-Material
-within	373	379	O
-the	380	383	O
-electron	384	392	O
-density	393	400	O
-of	401	403	O
-a	404	405	O
-plasma	406	412	B-Material
-.	412	413	O
-
-These	414	419	O
-density	420	427	B-Material
-waves	428	433	I-Material
-propagate	434	443	O
-with	444	448	O
-speed	449	454	O
-comparable	455	465	O
-to	466	468	O
-the	469	472	O
-group	473	478	O
-speed	479	484	O
-of	485	487	O
-the	488	491	O
-laser	492	497	B-Process
-pulse	498	503	I-Process
-.	503	504	O
-
-Not	505	508	O
-all	509	512	O
-plasma	513	519	B-Material
-electrons	520	529	I-Material
-form	530	534	O
-this	535	539	O
-wave	540	544	O
-,	544	545	O
-however	546	553	O
-;	553	554	O
-some	555	559	O
-of	560	562	O
-the	563	566	O
-electrons	567	576	B-Material
-are	577	580	O
-caught	581	587	O
-up	588	590	O
-in	591	593	O
-the	594	597	O
-wave	598	602	O
-and	603	606	O
-accelerated	607	618	O
-by	619	621	O
-its	622	625	O
-high	626	630	O
-fields	631	637	O
-.	637	638	O
-
-The	639	642	O
-wave	643	647	O
-eventually	648	658	O
-collapses	659	668	O
-as	669	671	O
-these	672	677	O
-electrons	678	687	B-Process
-damp	688	692	I-Process
-the	693	696	I-Process
-wave	697	701	I-Process
-(	702	703	O
-the	703	706	O
-wave	707	711	B-Process
-‘	712	713	I-Process
-breaks’	713	720	I-Process
-)	720	721	O
-.	721	722	O
-
-The	723	726	O
-extremely	727	736	O
-high	737	741	B-Material
-electric	742	750	I-Material
-field	751	756	I-Material
-gradient	757	765	I-Material
-of	766	768	I-Material
-a	769	770	I-Material
-plasma	771	777	I-Material
-wave	778	782	I-Material
-near	783	787	O
-wavebreaking	788	800	O
-provides	801	809	O
-an	810	812	O
-excellent	813	822	O
-theoretical	823	834	O
-testing	835	842	O
-ground	843	849	O
-for	850	853	O
-the	854	857	O
-effects	858	865	O
-of	866	868	O
-Stern	869	874	B-Task
-–	874	875	I-Task
-Gerlach	875	882	I-Task
--	882	883	I-Task
-type	883	887	I-Task
-contributions	888	901	I-Task
-to	902	904	O
-the	905	908	O
-trajectory	909	919	O
-of	920	922	O
-a	923	924	O
-test	925	929	O
-electron	930	938	B-Material
-.	938	939	O
+The	0,3	O	O
+systems	4,11	O	O
+in	12,14	O	O
+which	15,20	O	O
+the	21,24	O	O
+Stern	25,30	O	B-Process
+–	30,31	O	I-Process
+Gerlach	31,38	O	I-Process
+force	39,44	O	I-Process
+is	45,47	O	O
+most	48,52	O	O
+prominent	53,62	O	O
+are	63,66	O	O
+those	67,72	O	O
+with	73,77	O	O
+a	78,79	O	O
+high	80,84	O	O
+electromagnetic	85,100	O	B-Process
+field	101,106	O	I-Process
+gradient	107,115	O	I-Process
+.	115,116	O	O
+
+Section	117,124	O	O
+2	125,126	O	O
+considers	127,136	O	O
+the	137,140	O	O
+implications	141,153	O	O
+of	154,156	O	O
+the	157,160	O	O
+coupling	161,169	O	O
+between	170,177	O	O
+the	178,181	O	O
+spin	182,186	O	O
+of	187,189	O	O
+a	190,191	O	O
+classical	192,201	O	O
+electron	202,210	O	B-Material
+and	211,214	O	O
+the	215,218	O	O
+rapidly	219,226	O	O
+varying	227,234	O	O
+electromagnetic	235,250	O	B-Material
+field	251,256	O	I-Material
+produced	257,265	O	O
+by	266,268	O	O
+a	269,270	O	O
+laser	271,276	O	B-Process
+-	276,277	O	I-Process
+driven	277,283	O	I-Process
+plasma	284,290	O	I-Process
+wave	291,295	O	I-Process
+.	295,296	O	O
+
+Sufficiently	297,309	O	O
+short	310,315	O	O
+,	315,316	O	O
+high	317,321	O	B-Process
+-	321,322	O	I-Process
+intensity	322,331	O	I-Process
+laser	332,337	O	I-Process
+pulses	338,344	O	I-Process
+can	345,348	O	O
+form	349,353	O	O
+longitudinal	354,366	O	B-Material
+waves	367,372	O	I-Material
+within	373,379	O	O
+the	380,383	O	O
+electron	384,392	O	O
+density	393,400	O	O
+of	401,403	O	O
+a	404,405	O	O
+plasma	406,412	O	B-Material
+.	412,413	O	O
+
+These	414,419	O	O
+density	420,427	O	B-Material
+waves	428,433	O	I-Material
+propagate	434,443	O	O
+with	444,448	O	O
+speed	449,454	O	O
+comparable	455,465	O	O
+to	466,468	O	O
+the	469,472	O	O
+group	473,478	O	O
+speed	479,484	O	O
+of	485,487	O	O
+the	488,491	O	O
+laser	492,497	O	B-Process
+pulse	498,503	O	I-Process
+.	503,504	O	O
+
+Not	505,508	O	O
+all	509,512	O	O
+plasma	513,519	O	B-Material
+electrons	520,529	O	I-Material
+form	530,534	O	O
+this	535,539	O	O
+wave	540,544	O	O
+,	544,545	O	O
+however	546,553	O	O
+;	553,554	O	O
+some	555,559	O	O
+of	560,562	O	O
+the	563,566	O	O
+electrons	567,576	O	B-Material
+are	577,580	O	O
+caught	581,587	O	O
+up	588,590	O	O
+in	591,593	O	O
+the	594,597	O	O
+wave	598,602	O	O
+and	603,606	O	O
+accelerated	607,618	O	O
+by	619,621	O	O
+its	622,625	O	O
+high	626,630	O	O
+fields	631,637	O	O
+.	637,638	O	O
+
+The	639,642	O	O
+wave	643,647	O	O
+eventually	648,658	O	O
+collapses	659,668	O	O
+as	669,671	O	O
+these	672,677	O	O
+electrons	678,687	O	B-Process
+damp	688,692	O	I-Process
+the	693,696	O	I-Process
+wave	697,701	O	I-Process
+(	702,703	O	O
+the	703,706	O	O
+wave	707,711	O	B-Process
+‘	712,713	O	I-Process
+breaks’	713,720	O	I-Process
+)	720,721	O	O
+.	721,722	O	O
+
+The	723,726	O	O
+extremely	727,736	O	O
+high	737,741	O	B-Material
+electric	742,750	O	I-Material
+field	751,756	O	I-Material
+gradient	757,765	O	I-Material
+of	766,768	O	I-Material
+a	769,770	O	I-Material
+plasma	771,777	O	I-Material
+wave	778,782	O	I-Material
+near	783,787	O	O
+wavebreaking	788,800	O	O
+provides	801,809	O	O
+an	810,812	O	O
+excellent	813,822	O	O
+theoretical	823,834	O	O
+testing	835,842	O	O
+ground	843,849	O	O
+for	850,853	O	O
+the	854,857	O	O
+effects	858,865	O	O
+of	866,868	O	O
+Stern	869,874	O	B-Task
+–	874,875	O	I-Task
+Gerlach	875,882	O	I-Task
+-	882,883	O	I-Task
+type	883,887	O	I-Task
+contributions	888,901	O	I-Task
+to	902,904	O	O
+the	905,908	O	O
+trajectory	909,919	O	O
+of	920,922	O	O
+a	923,924	O	O
+test	925,929	O	O
+electron	930,938	O	B-Material
+.	938,939	O	O
 
 
 -DOCSTART- (S0377025713001031)
 
-Flow	0	4	O
--	4	5	O
-induced	5	12	O
-deformations	13	25	O
-can	26	29	O
-lead	30	34	O
-to	35	37	O
-irreversible	38	50	O
-changes	51	58	O
-in	59	61	O
-the	62	65	O
-structure	66	75	O
-of	76	78	O
-a	79	80	O
-polymeric	81	90	B-Material
-fluid	91	96	I-Material
-;	96	97	O
-if	98	100	O
-the	101	104	O
-rate	105	109	O
-of	110	112	O
-extension	113	122	O
-far	123	126	O
-exceeds	127	134	O
-the	135	138	O
-rate	139	143	O
-of	144	146	O
-relaxation	147	157	O
-,	157	158	O
-then	159	163	O
-the	164	167	O
-polymer	168	175	O
-chain	176	181	O
-can	182	185	O
-be	186	188	O
-broken	189	195	O
-.	195	196	O
-
-Mechanical	197	207	O
-degradation	208	219	O
-of	220	222	O
-polymers	223	231	B-Material
-in	232	234	O
-extensional	235	246	O
-flow	247	251	O
-has	252	255	O
-long	256	260	O
-been	261	265	O
-recognised	266	276	O
-[	277	278	O
-30	278	280	O
-]	280	281	O
-and	282	285	O
-leads	286	291	O
-to	292	294	O
-a	295	296	O
-reduction	297	306	B-Process
-in	307	309	I-Process
-the	310	313	I-Process
-average	314	321	I-Process
-molecular	322	331	I-Process
-weight	332	338	I-Process
-.	338	339	O
-
-A	340	341	O
--	341	342	O
-Alamry	342	348	O
-et	349	351	O
-al	352	354	O
-.	354	355	O
-
-[	356	357	O
-1	357	358	O
-]	358	359	O
-have	360	364	O
-recently	365	373	O
-reported	374	382	O
-evidence	383	391	O
-of	392	394	O
-flow	395	399	O
--	399	400	O
-induced	400	407	O
-polymer	408	415	O
-degradation	416	427	O
-in	428	430	O
-DoD	431	434	B-Process
-jetting	435	442	I-Process
-.	442	443	O
-
-Central	444	451	B-Task
-scission	452	460	I-Task
-is	461	463	O
-observed	464	472	O
-for	473	476	O
-polystyrene	477	488	B-Material
-in	489	491	O
-a	492	493	O
-number	494	500	O
-of	501	503	O
-good	504	508	O
-solvents	509	517	O
-under	518	523	O
-certain	524	531	O
-jetting	532	539	O
-conditions	540	550	O
-for	551	554	O
-a	555	556	O
-bounded	557	564	O
-range	565	570	O
-of	571	573	O
-molecular	574	583	O
-weights	584	591	O
-.	591	592	O
-
-Since	593	598	O
-only	599	603	O
-those	604	609	O
-molecules	610	619	O
-that	620	624	O
-are	625	628	O
-fully	629	634	O
-extended	635	643	O
-can	644	647	O
-be	648	650	O
-fractured	651	660	O
-at	661	663	O
-the	664	667	O
-centre	668	674	O
-of	675	677	O
-the	678	681	O
-polymer	682	689	O
-chain	690	695	O
-[	696	697	O
-29	697	699	O
-]	699	700	O
-,	700	701	O
-in	702	704	O
-this	705	709	O
-paper	710	715	O
-we	716	718	O
-investigate	719	730	O
-whether	731	738	O
-flow	739	743	B-Task
--	743	744	I-Task
-induced	744	751	I-Task
-central	752	759	I-Task
-scission	760	768	I-Task
-is	769	771	O
-possible	772	780	O
-under	781	786	O
-the	787	790	O
-conditions	791	801	O
-of	802	804	O
-DoD	805	808	B-Process
-jetting	809	816	I-Process
-.	816	817	O
+Flow	0,4	O	O
+-	4,5	O	O
+induced	5,12	O	O
+deformations	13,25	O	O
+can	26,29	O	O
+lead	30,34	O	O
+to	35,37	O	O
+irreversible	38,50	O	O
+changes	51,58	O	O
+in	59,61	O	O
+the	62,65	O	O
+structure	66,75	O	O
+of	76,78	O	O
+a	79,80	O	O
+polymeric	81,90	O	B-Material
+fluid	91,96	O	I-Material
+;	96,97	O	O
+if	98,100	O	O
+the	101,104	O	O
+rate	105,109	O	O
+of	110,112	O	O
+extension	113,122	O	O
+far	123,126	O	O
+exceeds	127,134	O	O
+the	135,138	O	O
+rate	139,143	O	O
+of	144,146	O	O
+relaxation	147,157	O	O
+,	157,158	O	O
+then	159,163	O	O
+the	164,167	O	O
+polymer	168,175	O	O
+chain	176,181	O	O
+can	182,185	O	O
+be	186,188	O	O
+broken	189,195	O	O
+.	195,196	O	O
+
+Mechanical	197,207	O	O
+degradation	208,219	O	O
+of	220,222	O	O
+polymers	223,231	O	B-Material
+in	232,234	O	O
+extensional	235,246	O	O
+flow	247,251	O	O
+has	252,255	O	O
+long	256,260	O	O
+been	261,265	O	O
+recognised	266,276	O	O
+[	277,278	O	O
+30	278,280	O	O
+]	280,281	O	O
+and	282,285	O	O
+leads	286,291	O	O
+to	292,294	O	O
+a	295,296	O	O
+reduction	297,306	O	B-Process
+in	307,309	O	I-Process
+the	310,313	O	I-Process
+average	314,321	O	I-Process
+molecular	322,331	O	I-Process
+weight	332,338	O	I-Process
+.	338,339	O	O
+
+A	340,341	O	O
+-	341,342	O	O
+Alamry	342,348	O	O
+et	349,351	O	O
+al	352,354	O	O
+.	354,355	O	O
+
+[	356,357	O	O
+1	357,358	O	O
+]	358,359	O	O
+have	360,364	O	O
+recently	365,373	O	O
+reported	374,382	O	O
+evidence	383,391	O	O
+of	392,394	O	O
+flow	395,399	O	O
+-	399,400	O	O
+induced	400,407	O	O
+polymer	408,415	O	O
+degradation	416,427	O	O
+in	428,430	O	O
+DoD	431,434	O	B-Process
+jetting	435,442	O	I-Process
+.	442,443	O	O
+
+Central	444,451	O	B-Task
+scission	452,460	O	I-Task
+is	461,463	O	O
+observed	464,472	O	O
+for	473,476	O	O
+polystyrene	477,488	O	B-Material
+in	489,491	O	O
+a	492,493	O	O
+number	494,500	O	O
+of	501,503	O	O
+good	504,508	O	O
+solvents	509,517	O	O
+under	518,523	O	O
+certain	524,531	O	O
+jetting	532,539	O	O
+conditions	540,550	O	O
+for	551,554	O	O
+a	555,556	O	O
+bounded	557,564	O	O
+range	565,570	O	O
+of	571,573	O	O
+molecular	574,583	O	O
+weights	584,591	O	O
+.	591,592	O	O
+
+Since	593,598	O	O
+only	599,603	O	O
+those	604,609	O	O
+molecules	610,619	O	O
+that	620,624	O	O
+are	625,628	O	O
+fully	629,634	O	O
+extended	635,643	O	O
+can	644,647	O	O
+be	648,650	O	O
+fractured	651,660	O	O
+at	661,663	O	O
+the	664,667	O	O
+centre	668,674	O	O
+of	675,677	O	O
+the	678,681	O	O
+polymer	682,689	O	O
+chain	690,695	O	O
+[	696,697	O	O
+29	697,699	O	O
+]	699,700	O	O
+,	700,701	O	O
+in	702,704	O	O
+this	705,709	O	O
+paper	710,715	O	O
+we	716,718	O	O
+investigate	719,730	O	O
+whether	731,738	O	O
+flow	739,743	O	B-Task
+-	743,744	O	I-Task
+induced	744,751	O	I-Task
+central	752,759	O	I-Task
+scission	760,768	O	I-Task
+is	769,771	O	O
+possible	772,780	O	O
+under	781,786	O	O
+the	787,790	O	O
+conditions	791,801	O	O
+of	802,804	O	O
+DoD	805,808	O	B-Process
+jetting	809,816	O	I-Process
+.	816,817	O	O
 
 
 -DOCSTART- (S0377025714000135)
 
-This	0	4	O
-conclusion	5	15	O
-is	16	18	O
-a	19	20	O
-consequence	21	32	O
-of	33	35	O
-the	36	39	O
-high	40	44	O
-jet	45	48	O
-speeds	49	55	O
-and	56	59	O
-small	60	65	O
-nozzle	66	72	O
-diameters	73	82	O
-in	83	85	O
-combination	86	97	O
-with	98	102	O
-the	103	106	O
-relatively	107	117	O
-high	118	122	O
-viscosity	123	132	O
-solvent	133	140	O
-and	141	144	O
-modest	145	151	O
-molecular	152	161	O
-weights	162	169	O
-of	170	172	O
-the	173	176	O
-polystyrene	177	188	B-Material
-,	188	189	O
-which	190	195	O
-results	196	203	O
-in	204	206	O
-high	207	211	O
-Weissenberg	212	223	O
-numbers	224	231	O
-and	232	235	O
-moderate	236	244	O
-values	245	251	O
-of	252	254	O
-the	255	258	O
-extensibility	259	272	O
-,	272	273	O
-L	274	275	O
-studied	276	283	O
-here	284	288	O
-.	288	289	O
-
-As	290	292	O
-discussed	293	302	O
-in	303	305	O
-earlier	306	313	O
-papers	314	320	O
-[	321	322	O
-3,6	322	325	O
-]	325	326	O
-,	326	327	O
-other	328	333	O
-jetting	334	341	B-Process
-fluid	342	347	I-Process
-combinations	348	360	I-Process
-,	360	361	O
-such	362	366	O
-as	367	369	O
-those	370	375	O
-of	376	378	O
-de	379	381	O
-Gans	382	386	O
-et	387	389	O
-al	390	392	O
-.	392	393	O
-
-[	394	395	O
-4	395	396	O
-]	396	397	O
-,	397	398	O
-lie	399	402	O
-in	403	405	O
-a	406	407	O
-different	408	417	O
-jetting	418	425	O
-regime	426	432	O
-where	433	438	O
-full	439	443	O
-extension	444	453	O
-does	454	458	O
-not	459	462	O
-occur	463	468	O
-and	469	472	O
-relaxation	473	483	O
-time	484	488	O
-controls	489	497	O
-the	498	501	O
-viscoelastic	502	514	O
-behaviour	515	524	O
-.	524	525	O
-
-Consequently	526	538	O
-inkjet	539	545	B-Process
-fluid	546	551	I-Process
-assessment	552	562	I-Process
-methods	563	570	I-Process
-need	571	575	O
-to	576	578	O
-provide	579	586	B-Task
-a	587	588	I-Task
-full	589	593	I-Task
-characterisation	594	610	I-Task
-including	611	620	I-Task
-both	621	625	I-Task
-linear	626	632	I-Task
-and	633	636	I-Task
-nonlinear	637	646	I-Task
-viscoelastic	647	659	I-Task
-properties	660	670	I-Task
-.	670	671	O
-
-This	672	676	O
-complexity	677	687	O
-suggests	688	696	O
-assessments	697	708	O
-of	709	711	O
-inkjet	712	718	B-Material
-fluids	719	725	I-Material
-might	726	731	O
-have	732	736	O
-to	737	739	O
-include	740	747	O
-jetting	748	755	O
-from	756	760	O
-sets	761	765	O
-of	766	768	O
-DoD	769	772	B-Process
-print	773	778	I-Process
-head	779	783	I-Process
-devices	784	791	I-Process
-with	792	796	O
-different	797	806	O
-sensitivities	807	820	O
-to	821	823	O
-all	824	827	O
-the	828	831	O
-various	832	839	O
-VE	840	842	O
-parameters	843	853	O
-[	854	855	O
-37	855	857	O
-]	857	858	O
-,	858	859	O
-rather	860	866	O
-than	867	871	O
-reliance	872	880	O
-on	881	883	O
-testing	884	891	O
-without	892	899	O
-jetting	900	907	B-Process
-.	907	908	O
-
-This	909	913	O
-was	914	917	O
-not	918	921	O
-the	922	925	O
-expected	926	934	O
-outcome	935	942	O
-from	943	947	O
-the	948	951	O
-present	952	959	O
-work	960	964	O
-but	965	968	O
-does	969	973	O
-echo	974	978	O
-the	979	982	O
-very	983	987	O
-pragmatic	988	997	O
-viewpoint	998	1007	O
-expressed	1008	1017	O
-as	1018	1020	O
-a	1021	1022	O
-“	1023	1024	B-Process
-map	1024	1027	I-Process
-of	1028	1030	I-Process
-misery	1031	1037	I-Process
-”	1037	1038	I-Process
-by	1039	1041	O
-Clasen	1042	1048	O
-et	1049	1051	O
-al	1052	1054	O
-.	1054	1055	O
-
-[	1056	1057	O
-38	1057	1059	O
-]	1059	1060	O
-and	1061	1064	O
-may	1065	1068	O
-provide	1069	1076	O
-a	1077	1078	O
-way	1079	1082	O
-forward	1083	1090	O
-for	1091	1094	O
-future	1095	1101	O
-R&D	1102	1105	O
-strategies	1106	1116	O
-towards	1117	1124	O
-ink	1125	1128	B-Task
-testing	1129	1136	I-Task
-.	1136	1137	O
+This	0,4	O	O
+conclusion	5,15	O	O
+is	16,18	O	O
+a	19,20	O	O
+consequence	21,32	O	O
+of	33,35	O	O
+the	36,39	O	O
+high	40,44	O	O
+jet	45,48	O	O
+speeds	49,55	O	O
+and	56,59	O	O
+small	60,65	O	O
+nozzle	66,72	O	O
+diameters	73,82	O	O
+in	83,85	O	O
+combination	86,97	O	O
+with	98,102	O	O
+the	103,106	O	O
+relatively	107,117	O	O
+high	118,122	O	O
+viscosity	123,132	O	O
+solvent	133,140	O	O
+and	141,144	O	O
+modest	145,151	O	O
+molecular	152,161	O	O
+weights	162,169	O	O
+of	170,172	O	O
+the	173,176	O	O
+polystyrene	177,188	O	B-Material
+,	188,189	O	O
+which	190,195	O	O
+results	196,203	O	O
+in	204,206	O	O
+high	207,211	O	O
+Weissenberg	212,223	O	O
+numbers	224,231	O	O
+and	232,235	O	O
+moderate	236,244	O	O
+values	245,251	O	O
+of	252,254	O	O
+the	255,258	O	O
+extensibility	259,272	O	O
+,	272,273	O	O
+L	274,275	O	O
+studied	276,283	O	O
+here	284,288	O	O
+.	288,289	O	O
+
+As	290,292	O	O
+discussed	293,302	O	O
+in	303,305	O	O
+earlier	306,313	O	O
+papers	314,320	O	O
+[	321,322	O	O
+3,6	322,325	O	O
+]	325,326	O	O
+,	326,327	O	O
+other	328,333	O	O
+jetting	334,341	O	B-Process
+fluid	342,347	O	I-Process
+combinations	348,360	O	I-Process
+,	360,361	O	O
+such	362,366	O	O
+as	367,369	O	O
+those	370,375	O	O
+of	376,378	O	O
+de	379,381	O	O
+Gans	382,386	O	O
+et	387,389	O	O
+al	390,392	O	O
+.	392,393	O	O
+
+[	394,395	O	O
+4	395,396	O	O
+]	396,397	O	O
+,	397,398	O	O
+lie	399,402	O	O
+in	403,405	O	O
+a	406,407	O	O
+different	408,417	O	O
+jetting	418,425	O	O
+regime	426,432	O	O
+where	433,438	O	O
+full	439,443	O	O
+extension	444,453	O	O
+does	454,458	O	O
+not	459,462	O	O
+occur	463,468	O	O
+and	469,472	O	O
+relaxation	473,483	O	O
+time	484,488	O	O
+controls	489,497	O	O
+the	498,501	O	O
+viscoelastic	502,514	O	O
+behaviour	515,524	O	O
+.	524,525	O	O
+
+Consequently	526,538	O	O
+inkjet	539,545	O	B-Process
+fluid	546,551	O	I-Process
+assessment	552,562	O	I-Process
+methods	563,570	O	I-Process
+need	571,575	O	O
+to	576,578	O	O
+provide	579,586	O	B-Task
+a	587,588	O	I-Task
+full	589,593	O	I-Task
+characterisation	594,610	O	I-Task
+including	611,620	O	I-Task
+both	621,625	O	I-Task
+linear	626,632	O	I-Task
+and	633,636	O	I-Task
+nonlinear	637,646	O	I-Task
+viscoelastic	647,659	O	I-Task
+properties	660,670	O	I-Task
+.	670,671	O	O
+
+This	672,676	O	O
+complexity	677,687	O	O
+suggests	688,696	O	O
+assessments	697,708	O	O
+of	709,711	O	O
+inkjet	712,718	O	B-Material
+fluids	719,725	O	I-Material
+might	726,731	O	O
+have	732,736	O	O
+to	737,739	O	O
+include	740,747	O	O
+jetting	748,755	O	O
+from	756,760	O	O
+sets	761,765	O	O
+of	766,768	O	O
+DoD	769,772	O	B-Process
+print	773,778	O	I-Process
+head	779,783	O	I-Process
+devices	784,791	O	I-Process
+with	792,796	O	O
+different	797,806	O	O
+sensitivities	807,820	O	O
+to	821,823	O	O
+all	824,827	O	O
+the	828,831	O	O
+various	832,839	O	O
+VE	840,842	O	O
+parameters	843,853	O	O
+[	854,855	O	O
+37	855,857	O	O
+]	857,858	O	O
+,	858,859	O	O
+rather	860,866	O	O
+than	867,871	O	O
+reliance	872,880	O	O
+on	881,883	O	O
+testing	884,891	O	O
+without	892,899	O	O
+jetting	900,907	O	B-Process
+.	907,908	O	O
+
+This	909,913	O	O
+was	914,917	O	O
+not	918,921	O	O
+the	922,925	O	O
+expected	926,934	O	O
+outcome	935,942	O	O
+from	943,947	O	O
+the	948,951	O	O
+present	952,959	O	O
+work	960,964	O	O
+but	965,968	O	O
+does	969,973	O	O
+echo	974,978	O	O
+the	979,982	O	O
+very	983,987	O	O
+pragmatic	988,997	O	O
+viewpoint	998,1007	O	O
+expressed	1008,1017	O	O
+as	1018,1020	O	O
+a	1021,1022	O	O
+“	1023,1024	O	B-Process
+map	1024,1027	O	I-Process
+of	1028,1030	O	I-Process
+misery	1031,1037	O	I-Process
+”	1037,1038	O	I-Process
+by	1039,1041	O	O
+Clasen	1042,1048	O	O
+et	1049,1051	O	O
+al	1052,1054	O	O
+.	1054,1055	O	O
+
+[	1056,1057	O	O
+38	1057,1059	O	O
+]	1059,1060	O	O
+and	1061,1064	O	O
+may	1065,1068	O	O
+provide	1069,1076	O	O
+a	1077,1078	O	O
+way	1079,1082	O	O
+forward	1083,1090	O	O
+for	1091,1094	O	O
+future	1095,1101	O	O
+R&D	1102,1105	O	O
+strategies	1106,1116	O	O
+towards	1117,1124	O	O
+ink	1125,1128	O	B-Task
+testing	1129,1136	O	I-Task
+.	1136,1137	O	O
 
 
 -DOCSTART- (S0377025714000317)
 
-Denier	0	6	O
-and	7	10	O
-Hewitt	11	17	O
-[	18	19	O
-12	19	21	O
-]	21	22	O
-have	23	27	O
-shown	28	33	O
-that	34	38	O
-bounded	39	46	O
-solutions	47	56	O
-to	57	59	O
-9a	60	62	O
-,	62	63	O
-9b	64	66	O
-and	67	70	O
-9c	71	73	O
-subject	74	81	O
-to	82	84	O
-(	85	86	O
-10a	86	89	O
-)	89	90	O
-and	91	94	O
-(	95	96	O
-10b	96	99	O
-)	99	100	O
-exist	101	106	O
-only	107	111	O
-in	112	114	O
-the	115	118	O
-shear	119	124	O
--	124	125	O
-thinning	125	133	O
-case	134	138	O
-for	139	142	O
-n>12	143	147	O
-.	147	148	O
-
-In	149	151	O
-the	152	155	O
-shear	156	161	B-Process
--	161	162	I-Process
-thickening	162	172	I-Process
-case	173	177	O
-they	178	182	O
-have	183	187	O
-shown	188	193	O
-that	194	198	O
-solutions	199	208	B-Material
-become	209	215	O
-non	216	219	O
--	219	220	O
-differentiable	220	234	O
-at	235	237	O
-some	238	242	O
-critical	243	251	O
-location	252	260	O
-ηc	261	263	O
-,	263	264	O
-and	265	268	O
-although	269	277	O
-it	278	280	O
-transpires	281	291	O
-that	292	296	O
-this	297	301	O
-singularity	302	313	B-Process
-can	314	317	O
-be	318	320	O
-regularised	321	332	O
-entirely	333	341	O
-within	342	348	O
-the	349	352	O
-context	353	360	O
-of	361	363	O
-the	364	367	O
-power	368	373	B-Process
--	373	374	I-Process
-law	374	377	I-Process
-model	378	383	I-Process
-,	383	384	O
-we	385	387	O
-will	388	392	O
-not	393	396	O
-consider	397	405	O
-such	406	410	O
-flows	411	416	B-Material
-here	417	421	O
-.	421	422	O
-
-Thus	423	427	O
-in	428	430	O
-this	431	435	O
-study	436	441	O
-we	442	444	O
-will	445	449	O
-consider	450	458	O
-flows	459	464	B-Material
-with	465	469	O
-power	470	475	O
--	475	476	O
-law	476	479	O
-index	480	485	O
-in	486	488	O
-the	489	492	O
-range	493	498	O
-12<n⩽1	499	505	O
-.	505	506	O
-
-They	507	511	O
-have	512	516	O
-also	517	521	O
-shown	522	527	O
-that	528	532	O
-for	533	536	O
-12<n<1	537	543	O
-to	544	546	O
-ensure	547	553	O
-the	554	557	O
-correct	558	565	B-Process
-algebraic	566	575	I-Process
-decay	576	581	I-Process
-in	582	584	O
-the	585	588	O
-numerical	589	598	O
-solutions	599	608	O
-one	609	612	O
-must	613	617	O
-apply	618	623	O
-the	624	627	O
-Robin	628	633	B-Process
-condition(11)(u¯′,v¯′)=nη(n-1)(u¯,v¯)asη→∞,at	634	679	I-Process
-some	680	684	O
-suitably	685	693	O
-large	694	699	O
-value	700	705	O
-of	706	708	O
-η=η∞≫1	709	715	O
-.	715	716	O
-
-In	717	719	O
-the	720	723	O
-Newtonian	724	733	O
-case	734	738	O
-this	739	743	O
-relationship	744	756	O
-becomes	757	764	O
-singular	765	773	O
-,	773	774	O
-this	775	779	O
-is	780	782	O
-due	783	786	O
-to	787	789	O
-the	790	793	O
-fact	794	798	O
-that	799	803	O
-when	804	808	O
-n=1	809	812	O
-the	813	816	O
-functions	817	826	O
-u¯	827	829	O
-and	830	833	O
-v¯	834	836	O
-decay	837	842	O
-exponentially	843	856	O
-.	856	857	O
-
-Cochran	858	865	O
-[	866	867	O
-13	867	869	O
-]	869	870	O
-showed	871	877	O
-that	878	882	O
-in	883	885	O
-this	886	890	O
-case(12)(u¯′,v¯′)=w¯∞(u¯,v¯)asη→∞,where	891	930	O
-w∞=-2∫0∞u¯dη.	931	944	O
+Denier	0,6	O	O
+and	7,10	O	O
+Hewitt	11,17	O	O
+[	18,19	O	O
+12	19,21	O	O
+]	21,22	O	O
+have	23,27	O	O
+shown	28,33	O	O
+that	34,38	O	O
+bounded	39,46	O	O
+solutions	47,56	O	O
+to	57,59	O	O
+9a	60,62	O	O
+,	62,63	O	O
+9b	64,66	O	O
+and	67,70	O	O
+9c	71,73	O	O
+subject	74,81	O	O
+to	82,84	O	O
+(	85,86	O	O
+10a	86,89	O	O
+)	89,90	O	O
+and	91,94	O	O
+(	95,96	O	O
+10b	96,99	O	O
+)	99,100	O	O
+exist	101,106	O	O
+only	107,111	O	O
+in	112,114	O	O
+the	115,118	O	O
+shear	119,124	O	O
+-	124,125	O	O
+thinning	125,133	O	O
+case	134,138	O	O
+for	139,142	O	O
+n>12	143,147	O	O
+.	147,148	O	O
+
+In	149,151	O	O
+the	152,155	O	O
+shear	156,161	O	B-Process
+-	161,162	O	I-Process
+thickening	162,172	O	I-Process
+case	173,177	O	O
+they	178,182	O	O
+have	183,187	O	O
+shown	188,193	O	O
+that	194,198	O	O
+solutions	199,208	O	B-Material
+become	209,215	O	O
+non	216,219	O	O
+-	219,220	O	O
+differentiable	220,234	O	O
+at	235,237	O	O
+some	238,242	O	O
+critical	243,251	O	O
+location	252,260	O	O
+ηc	261,263	O	O
+,	263,264	O	O
+and	265,268	O	O
+although	269,277	O	O
+it	278,280	O	O
+transpires	281,291	O	O
+that	292,296	O	O
+this	297,301	O	O
+singularity	302,313	O	B-Process
+can	314,317	O	O
+be	318,320	O	O
+regularised	321,332	O	O
+entirely	333,341	O	O
+within	342,348	O	O
+the	349,352	O	O
+context	353,360	O	O
+of	361,363	O	O
+the	364,367	O	O
+power	368,373	O	B-Process
+-	373,374	O	I-Process
+law	374,377	O	I-Process
+model	378,383	O	I-Process
+,	383,384	O	O
+we	385,387	O	O
+will	388,392	O	O
+not	393,396	O	O
+consider	397,405	O	O
+such	406,410	O	O
+flows	411,416	O	B-Material
+here	417,421	O	O
+.	421,422	O	O
+
+Thus	423,427	O	O
+in	428,430	O	O
+this	431,435	O	O
+study	436,441	O	O
+we	442,444	O	O
+will	445,449	O	O
+consider	450,458	O	O
+flows	459,464	O	B-Material
+with	465,469	O	O
+power	470,475	O	O
+-	475,476	O	O
+law	476,479	O	O
+index	480,485	O	O
+in	486,488	O	O
+the	489,492	O	O
+range	493,498	O	O
+12<n⩽1	499,505	O	O
+.	505,506	O	O
+
+They	507,511	O	O
+have	512,516	O	O
+also	517,521	O	O
+shown	522,527	O	O
+that	528,532	O	O
+for	533,536	O	O
+12<n<1	537,543	O	O
+to	544,546	O	O
+ensure	547,553	O	O
+the	554,557	O	O
+correct	558,565	O	B-Process
+algebraic	566,575	O	I-Process
+decay	576,581	O	I-Process
+in	582,584	O	O
+the	585,588	O	O
+numerical	589,598	O	O
+solutions	599,608	O	O
+one	609,612	O	O
+must	613,617	O	O
+apply	618,623	O	O
+the	624,627	O	O
+Robin	628,633	O	B-Process
+condition(11)(u¯′,v¯′)=nη(n-1)(u¯,v¯)asη→∞,at	634,679	O	I-Process
+some	680,684	O	O
+suitably	685,693	O	O
+large	694,699	O	O
+value	700,705	O	O
+of	706,708	O	O
+η=η∞≫1	709,715	O	O
+.	715,716	O	O
+
+In	717,719	O	O
+the	720,723	O	O
+Newtonian	724,733	O	O
+case	734,738	O	O
+this	739,743	O	O
+relationship	744,756	O	O
+becomes	757,764	O	O
+singular	765,773	O	O
+,	773,774	O	O
+this	775,779	O	O
+is	780,782	O	O
+due	783,786	O	O
+to	787,789	O	O
+the	790,793	O	O
+fact	794,798	O	O
+that	799,803	O	O
+when	804,808	O	O
+n=1	809,812	O	O
+the	813,816	O	O
+functions	817,826	O	O
+u¯	827,829	O	O
+and	830,833	O	O
+v¯	834,836	O	O
+decay	837,842	O	O
+exponentially	843,856	O	O
+.	856,857	O	O
+
+Cochran	858,865	O	O
+[	866,867	O	O
+13	867,869	O	O
+]	869,870	O	O
+showed	871,877	O	O
+that	878,882	O	O
+in	883,885	O	O
+this	886,890	O	O
+case(12)(u¯′,v¯′)=w¯∞(u¯,v¯)asη→∞,where	891,930	O	O
+w∞=-2∫0∞u¯dη.	931,944	O	O
 
 
 -DOCSTART- (S0377025714001682)
 
-In	0	2	O
-order	3	8	O
-for	9	12	O
-DLS	13	16	B-Task
-based	17	22	I-Task
-micro	23	28	I-Task
--	28	29	I-Task
-rheology	29	37	I-Task
-to	38	40	O
-be	41	43	O
-successful	44	54	O
-,	54	55	O
-there	56	61	O
-must	62	66	O
-be	67	69	O
-sufficient	70	80	O
-scattering	81	91	O
-contrast	92	100	O
-between	101	108	O
-the	109	112	O
-sample	113	119	B-Material
-and	120	123	I-Material
-the	124	127	I-Material
-tracer	128	134	I-Material
-particles	135	144	I-Material
-.	144	145	O
-
-In	146	148	O
-order	149	154	O
-to	155	157	O
-achieve	158	165	O
-this	166	170	O
-,	170	171	O
-the	172	175	O
-maximum	176	183	O
-possible	184	192	O
-concentration	193	206	O
-of	207	209	O
-tracer	210	216	B-Material
-particles	217	226	I-Material
-was	227	230	O
-added	231	236	O
-such	237	241	O
-that	242	246	O
-single	247	253	O
-scattering	254	264	O
-events	265	271	O
-still	272	277	O
-dominated	278	287	O
-(	288	289	O
-as	289	291	O
-determined	292	302	O
-by	303	305	O
-measurements	306	318	O
-of	319	321	O
-diffusion	322	331	O
-coefficients	332	344	O
-in	345	347	O
-water	348	353	B-Material
-at	354	356	O
-different	357	366	O
-concentrations	367	381	O
-)	381	382	O
-.	382	383	O
-
-In	384	386	O
-order	387	392	O
-to	393	395	O
-determine	396	405	O
-whether	406	413	O
-or	414	416	O
-not	417	420	O
-the	421	424	O
-background	425	435	O
-scattering	436	446	O
-from	447	451	O
-the	452	455	O
-sample	456	462	O
-was	463	466	O
-sufficiently	467	479	O
-low	480	483	O
-compared	484	492	O
-to	493	495	O
-that	496	500	O
-of	501	503	O
-the	504	507	O
-tracer	508	514	B-Material
-particles	515	524	I-Material
-,	524	525	O
-we	526	528	O
-also	529	533	O
-compared	534	542	O
-the	543	546	O
-scattering	547	557	B-Material
-intensities	558	569	I-Material
-obtained	570	578	O
-from	579	583	O
-samples	584	591	O
-with	592	596	O
-and	597	600	O
-without	601	608	O
-tracer	609	615	B-Material
-particles	616	625	I-Material
-as	626	628	O
-a	629	630	O
-function	631	639	O
-of	640	642	O
-time	643	647	O
-.	647	648	O
-
-The	649	652	O
-results	653	660	O
-of	661	663	O
-this	664	668	O
-exercise	669	677	O
-are	678	681	O
-shown	682	687	O
-in	688	690	O
-Fig	691	694	O
-.	694	695	O
-
-6	696	697	O
-.	697	698	O
-
-From	699	703	O
-this	704	708	O
-figure	709	715	O
-it	716	718	O
-can	719	722	O
-be	723	725	O
-seen	726	730	O
-that	731	735	O
-although	736	744	O
-initially	745	754	O
-the	755	758	O
-scattering	759	769	B-Process
-from	770	774	O
-the	775	778	O
-sample	779	785	O
-without	786	793	O
-tracer	794	800	B-Material
-particles	801	810	I-Material
-is	811	813	O
-low	814	817	O
-compared	818	826	O
-to	827	829	O
-those	830	835	O
-containing	836	846	O
-tracer	847	853	B-Material
-particles	854	863	I-Material
-,	863	864	O
-as	865	867	O
-gelation	868	876	B-Material
-proceeds	877	885	O
-this	886	890	O
-eventually	891	901	O
-ceases	902	908	O
-to	909	911	O
-be	912	914	O
-the	915	918	O
-case	919	923	O
-.	923	924	O
-
-This	925	929	O
-is	930	932	O
-presumably	933	943	O
-because	944	951	O
-of	952	954	O
-the	955	958	O
-development	959	970	O
-of	971	973	O
-supra	974	979	B-Material
--	979	980	I-Material
-molecular	980	989	I-Material
-structures	990	1000	I-Material
-,	1000	1001	O
-such	1002	1006	O
-as	1007	1009	O
-those	1010	1015	O
-seen	1016	1020	O
-previously	1021	1031	O
-(	1032	1033	O
-Fig	1033	1036	O
-.	1036	1037	O
-
-2B	1038	1040	O
-)	1040	1041	O
-.	1041	1042	O
-
-Based	1043	1048	O
-on	1049	1051	O
-the	1052	1055	O
-results	1056	1063	O
-in	1064	1066	O
-Fig	1067	1070	O
-.	1070	1071	O
-
-6	1072	1073	O
-it	1074	1076	O
-was	1077	1080	O
-decided	1081	1088	O
-to	1089	1091	O
-only	1092	1096	O
-use	1097	1100	O
-data	1101	1105	O
-collected	1106	1115	O
-in	1116	1118	O
-the	1119	1122	O
-first	1123	1128	O
-240min	1129	1135	O
-of	1136	1138	O
-the	1139	1142	O
-experiment	1143	1153	O
-,	1153	1154	O
-after	1155	1160	O
-which	1161	1166	O
-point	1167	1172	O
-the	1173	1176	O
-scattering	1177	1187	B-Material
-from	1188	1192	I-Material
-the	1193	1196	I-Material
-gel	1197	1200	I-Material
-network	1201	1208	I-Material
-became	1209	1215	O
-rather	1216	1222	O
-too	1223	1226	O
-large	1227	1232	O
-to	1233	1235	O
-ignore	1236	1242	O
-.	1242	1243	O
+In	0,2	O	O
+order	3,8	O	O
+for	9,12	O	O
+DLS	13,16	O	B-Task
+based	17,22	O	I-Task
+micro	23,28	O	I-Task
+-	28,29	O	I-Task
+rheology	29,37	O	I-Task
+to	38,40	O	O
+be	41,43	O	O
+successful	44,54	O	O
+,	54,55	O	O
+there	56,61	O	O
+must	62,66	O	O
+be	67,69	O	O
+sufficient	70,80	O	O
+scattering	81,91	O	O
+contrast	92,100	O	O
+between	101,108	O	O
+the	109,112	O	O
+sample	113,119	O	B-Material
+and	120,123	O	I-Material
+the	124,127	O	I-Material
+tracer	128,134	O	I-Material
+particles	135,144	O	I-Material
+.	144,145	O	O
+
+In	146,148	O	O
+order	149,154	O	O
+to	155,157	O	O
+achieve	158,165	O	O
+this	166,170	O	O
+,	170,171	O	O
+the	172,175	O	O
+maximum	176,183	O	O
+possible	184,192	O	O
+concentration	193,206	O	O
+of	207,209	O	O
+tracer	210,216	O	B-Material
+particles	217,226	O	I-Material
+was	227,230	O	O
+added	231,236	O	O
+such	237,241	O	O
+that	242,246	O	O
+single	247,253	O	O
+scattering	254,264	O	O
+events	265,271	O	O
+still	272,277	O	O
+dominated	278,287	O	O
+(	288,289	O	O
+as	289,291	O	O
+determined	292,302	O	O
+by	303,305	O	O
+measurements	306,318	O	O
+of	319,321	O	O
+diffusion	322,331	O	O
+coefficients	332,344	O	O
+in	345,347	O	O
+water	348,353	O	B-Material
+at	354,356	O	O
+different	357,366	O	O
+concentrations	367,381	O	O
+)	381,382	O	O
+.	382,383	O	O
+
+In	384,386	O	O
+order	387,392	O	O
+to	393,395	O	O
+determine	396,405	O	O
+whether	406,413	O	O
+or	414,416	O	O
+not	417,420	O	O
+the	421,424	O	O
+background	425,435	O	O
+scattering	436,446	O	O
+from	447,451	O	O
+the	452,455	O	O
+sample	456,462	O	O
+was	463,466	O	O
+sufficiently	467,479	O	O
+low	480,483	O	O
+compared	484,492	O	O
+to	493,495	O	O
+that	496,500	O	O
+of	501,503	O	O
+the	504,507	O	O
+tracer	508,514	O	B-Material
+particles	515,524	O	I-Material
+,	524,525	O	O
+we	526,528	O	O
+also	529,533	O	O
+compared	534,542	O	O
+the	543,546	O	O
+scattering	547,557	O	B-Material
+intensities	558,569	O	I-Material
+obtained	570,578	O	O
+from	579,583	O	O
+samples	584,591	O	O
+with	592,596	O	O
+and	597,600	O	O
+without	601,608	O	O
+tracer	609,615	O	B-Material
+particles	616,625	O	I-Material
+as	626,628	O	O
+a	629,630	O	O
+function	631,639	O	O
+of	640,642	O	O
+time	643,647	O	O
+.	647,648	O	O
+
+The	649,652	O	O
+results	653,660	O	O
+of	661,663	O	O
+this	664,668	O	O
+exercise	669,677	O	O
+are	678,681	O	O
+shown	682,687	O	O
+in	688,690	O	O
+Fig	691,694	O	O
+.	694,695	O	O
+
+6	696,697	O	O
+.	697,698	O	O
+
+From	699,703	O	O
+this	704,708	O	O
+figure	709,715	O	O
+it	716,718	O	O
+can	719,722	O	O
+be	723,725	O	O
+seen	726,730	O	O
+that	731,735	O	O
+although	736,744	O	O
+initially	745,754	O	O
+the	755,758	O	O
+scattering	759,769	O	B-Process
+from	770,774	O	O
+the	775,778	O	O
+sample	779,785	O	O
+without	786,793	O	O
+tracer	794,800	O	B-Material
+particles	801,810	O	I-Material
+is	811,813	O	O
+low	814,817	O	O
+compared	818,826	O	O
+to	827,829	O	O
+those	830,835	O	O
+containing	836,846	O	O
+tracer	847,853	O	B-Material
+particles	854,863	O	I-Material
+,	863,864	O	O
+as	865,867	O	O
+gelation	868,876	O	B-Material
+proceeds	877,885	O	O
+this	886,890	O	O
+eventually	891,901	O	O
+ceases	902,908	O	O
+to	909,911	O	O
+be	912,914	O	O
+the	915,918	O	O
+case	919,923	O	O
+.	923,924	O	O
+
+This	925,929	O	O
+is	930,932	O	O
+presumably	933,943	O	O
+because	944,951	O	O
+of	952,954	O	O
+the	955,958	O	O
+development	959,970	O	O
+of	971,973	O	O
+supra	974,979	O	B-Material
+-	979,980	O	I-Material
+molecular	980,989	O	I-Material
+structures	990,1000	O	I-Material
+,	1000,1001	O	O
+such	1002,1006	O	O
+as	1007,1009	O	O
+those	1010,1015	O	O
+seen	1016,1020	O	O
+previously	1021,1031	O	O
+(	1032,1033	O	O
+Fig	1033,1036	O	O
+.	1036,1037	O	O
+
+2B	1038,1040	O	O
+)	1040,1041	O	O
+.	1041,1042	O	O
+
+Based	1043,1048	O	O
+on	1049,1051	O	O
+the	1052,1055	O	O
+results	1056,1063	O	O
+in	1064,1066	O	O
+Fig	1067,1070	O	O
+.	1070,1071	O	O
+
+6	1072,1073	O	O
+it	1074,1076	O	O
+was	1077,1080	O	O
+decided	1081,1088	O	O
+to	1089,1091	O	O
+only	1092,1096	O	O
+use	1097,1100	O	O
+data	1101,1105	O	O
+collected	1106,1115	O	O
+in	1116,1118	O	O
+the	1119,1122	O	O
+first	1123,1128	O	O
+240min	1129,1135	O	O
+of	1136,1138	O	O
+the	1139,1142	O	O
+experiment	1143,1153	O	O
+,	1153,1154	O	O
+after	1155,1160	O	O
+which	1161,1166	O	O
+point	1167,1172	O	O
+the	1173,1176	O	O
+scattering	1177,1187	O	B-Material
+from	1188,1192	O	I-Material
+the	1193,1196	O	I-Material
+gel	1197,1200	O	I-Material
+network	1201,1208	O	I-Material
+became	1209,1215	O	O
+rather	1216,1222	O	O
+too	1223,1226	O	O
+large	1227,1232	O	O
+to	1233,1235	O	O
+ignore	1236,1242	O	O
+.	1242,1243	O	O
 
 
 -DOCSTART- (S0377025714001931)
 
-Tack	0	4	B-Material
-is	5	7	O
-an	8	10	O
-important	11	20	O
-property	21	29	O
-of	30	32	O
-a	33	34	O
-PSA	35	38	B-Material
-as	39	41	O
-it	42	44	O
-quantifies	45	55	O
-its	56	59	O
-ability	60	67	O
-to	68	70	O
-form	71	75	O
-instantly	76	85	O
-a	86	87	O
-bond	88	92	O
-when	93	97	O
-brought	98	105	O
-into	106	110	O
-contact	111	118	O
-with	119	123	O
-a	124	125	O
-surface	126	133	O
-.	133	134	O
-
-The	135	138	O
-final	139	144	O
-adhesion	145	153	O
-and	154	157	O
-cohesive	158	166	O
-strength	167	175	O
-of	176	178	O
-the	179	182	O
-bond	183	187	O
-are	188	191	O
-influenced	192	202	O
-by	203	205	O
-numerous	206	214	O
-factors	215	222	O
-including	223	232	O
-the	233	236	O
-surface	237	244	O
-energies	245	253	O
-of	254	256	O
-the	257	260	O
-adhesive	261	269	B-Material
-and	270	273	O
-substrate	274	283	B-Material
-,	283	284	O
-dwell	285	290	O
-time	291	295	O
-,	295	296	O
-contact	297	304	O
-pressure	305	313	O
-,	313	314	O
-mechanical	315	325	O
-properties	326	336	O
-of	337	339	O
-the	340	343	O
-adhesive	344	352	B-Material
-,	352	353	O
-as	354	356	O
-well	357	361	O
-as	362	364	O
-environmental	365	378	O
-conditions	379	389	O
-such	390	394	O
-as	395	397	O
-temperature	398	409	O
-and	410	413	O
-humidity	414	422	O
-[	423	424	O
-8	424	425	O
-]	425	426	O
-.	426	427	O
-
-Therefore	428	437	O
-,	437	438	O
-tack	439	443	O
-is	444	446	O
-important	447	456	O
-in	457	459	O
-many	460	464	O
-applications	465	477	O
-where	478	483	O
-an	484	486	O
-instant	487	494	O
-bond	495	499	O
-is	500	502	O
-required	503	511	O
-,	511	512	O
-however	513	520	O
-it	521	523	O
-is	524	526	O
-equally	527	534	O
-important	535	544	O
-when	545	549	O
-a	550	551	O
-‘	552	553	B-Task
-clean’	553	559	I-Task
-separation	560	570	I-Task
-of	571	573	O
-the	574	577	O
-initially	578	587	O
-bonded	588	594	B-Material
-surfaces	595	603	I-Material
-is	604	606	O
-desirable	607	616	O
-.	616	617	O
-
-Many	618	622	O
-different	623	632	O
-methods	633	640	O
-for	641	644	O
-measuring	645	654	O
-the	655	658	O
-tack	659	663	B-Material
-have	664	668	O
-been	669	673	O
-devised	674	681	O
-with	682	686	O
-the	687	690	O
-four	691	695	O
-main	696	700	O
-ones	701	705	O
-being	706	711	O
-the	712	715	O
-rolling	716	723	B-Process
-ball	724	728	I-Process
-,	728	729	O
-loop	730	734	B-Process
-tack	735	739	I-Process
-,	739	740	O
-quick	741	746	B-Process
-stick	747	752	I-Process
-and	753	756	O
-probe	757	762	B-Process
-tack	763	767	I-Process
-tests	768	773	B-Process
-[	774	775	O
-9	775	776	O
-]	776	777	O
-.	777	778	O
-
-Each	779	783	O
-has	784	787	O
-its	788	791	O
-own	792	795	O
-advantages	796	806	O
-and	807	810	O
-disadvantages	811	824	O
-and	825	828	O
-the	829	832	O
-specific	833	841	O
-testing	842	849	O
-method	850	856	O
-should	857	863	O
-be	864	866	O
-selected	867	875	O
-based	876	881	O
-on	882	884	O
-the	885	888	O
-particular	889	899	O
-application	900	911	O
-.	911	912	O
+Tack	0,4	O	B-Material
+is	5,7	O	O
+an	8,10	O	O
+important	11,20	O	O
+property	21,29	O	O
+of	30,32	O	O
+a	33,34	O	O
+PSA	35,38	O	B-Material
+as	39,41	O	O
+it	42,44	O	O
+quantifies	45,55	O	O
+its	56,59	O	O
+ability	60,67	O	O
+to	68,70	O	O
+form	71,75	O	O
+instantly	76,85	O	O
+a	86,87	O	O
+bond	88,92	O	O
+when	93,97	O	O
+brought	98,105	O	O
+into	106,110	O	O
+contact	111,118	O	O
+with	119,123	O	O
+a	124,125	O	O
+surface	126,133	O	O
+.	133,134	O	O
+
+The	135,138	O	O
+final	139,144	O	O
+adhesion	145,153	O	O
+and	154,157	O	O
+cohesive	158,166	O	O
+strength	167,175	O	O
+of	176,178	O	O
+the	179,182	O	O
+bond	183,187	O	O
+are	188,191	O	O
+influenced	192,202	O	O
+by	203,205	O	O
+numerous	206,214	O	O
+factors	215,222	O	O
+including	223,232	O	O
+the	233,236	O	O
+surface	237,244	O	O
+energies	245,253	O	O
+of	254,256	O	O
+the	257,260	O	O
+adhesive	261,269	O	B-Material
+and	270,273	O	O
+substrate	274,283	O	B-Material
+,	283,284	O	O
+dwell	285,290	O	O
+time	291,295	O	O
+,	295,296	O	O
+contact	297,304	O	O
+pressure	305,313	O	O
+,	313,314	O	O
+mechanical	315,325	O	O
+properties	326,336	O	O
+of	337,339	O	O
+the	340,343	O	O
+adhesive	344,352	O	B-Material
+,	352,353	O	O
+as	354,356	O	O
+well	357,361	O	O
+as	362,364	O	O
+environmental	365,378	O	O
+conditions	379,389	O	O
+such	390,394	O	O
+as	395,397	O	O
+temperature	398,409	O	O
+and	410,413	O	O
+humidity	414,422	O	O
+[	423,424	O	O
+8	424,425	O	O
+]	425,426	O	O
+.	426,427	O	O
+
+Therefore	428,437	O	O
+,	437,438	O	O
+tack	439,443	O	O
+is	444,446	O	O
+important	447,456	O	O
+in	457,459	O	O
+many	460,464	O	O
+applications	465,477	O	O
+where	478,483	O	O
+an	484,486	O	O
+instant	487,494	O	O
+bond	495,499	O	O
+is	500,502	O	O
+required	503,511	O	O
+,	511,512	O	O
+however	513,520	O	O
+it	521,523	O	O
+is	524,526	O	O
+equally	527,534	O	O
+important	535,544	O	O
+when	545,549	O	O
+a	550,551	O	O
+‘	552,553	O	B-Task
+clean’	553,559	O	I-Task
+separation	560,570	O	I-Task
+of	571,573	O	O
+the	574,577	O	O
+initially	578,587	O	O
+bonded	588,594	O	B-Material
+surfaces	595,603	O	I-Material
+is	604,606	O	O
+desirable	607,616	O	O
+.	616,617	O	O
+
+Many	618,622	O	O
+different	623,632	O	O
+methods	633,640	O	O
+for	641,644	O	O
+measuring	645,654	O	O
+the	655,658	O	O
+tack	659,663	O	B-Material
+have	664,668	O	O
+been	669,673	O	O
+devised	674,681	O	O
+with	682,686	O	O
+the	687,690	O	O
+four	691,695	O	O
+main	696,700	O	O
+ones	701,705	O	O
+being	706,711	O	O
+the	712,715	O	O
+rolling	716,723	O	B-Process
+ball	724,728	O	I-Process
+,	728,729	O	O
+loop	730,734	O	B-Process
+tack	735,739	O	I-Process
+,	739,740	O	O
+quick	741,746	O	B-Process
+stick	747,752	O	I-Process
+and	753,756	O	O
+probe	757,762	O	B-Process
+tack	763,767	O	I-Process
+tests	768,773	O	B-Process
+[	774,775	O	O
+9	775,776	O	O
+]	776,777	O	O
+.	777,778	O	O
+
+Each	779,783	O	O
+has	784,787	O	O
+its	788,791	O	O
+own	792,795	O	O
+advantages	796,806	O	O
+and	807,810	O	O
+disadvantages	811,824	O	O
+and	825,828	O	O
+the	829,832	O	O
+specific	833,841	O	O
+testing	842,849	O	O
+method	850,856	O	O
+should	857,863	O	O
+be	864,866	O	O
+selected	867,875	O	O
+based	876,881	O	O
+on	882,884	O	O
+the	885,888	O	O
+particular	889,899	O	O
+application	900,911	O	O
+.	911,912	O	O
 
 
 -DOCSTART- (S0377025714002213)
 
-The	0	3	O
-first	4	9	O
-of	10	12	O
-these	13	18	O
-systems	19	26	O
-,	26	27	O
-a	28	29	O
-biopolymer	30	40	B-Process
-gel	41	44	I-Process
-,	44	45	O
-involves	46	54	O
-the	55	58	O
-thermoreversible	59	75	B-Task
-gelation	76	84	I-Task
-of	85	87	O
-aqueous	88	95	O
-gelatin	96	103	O
-solutions	104	113	O
-to	114	116	O
-form	117	121	O
-a	122	123	O
-physical	124	132	O
-gel	133	136	O
-,	136	137	O
-whereas	138	145	O
-the	146	149	O
-other	150	155	O
-systems	156	163	O
-considered	164	174	O
-herein	175	181	O
-involve	182	189	O
-the	190	193	O
-formation	194	203	O
-of	204	206	O
-chemical	207	215	O
-gels	216	220	O
-featuring	221	230	O
-permanent	231	240	O
-cross	241	246	B-Process
--	246	247	I-Process
-linked	247	253	I-Process
-branching	254	263	I-Process
-networks	264	272	I-Process
-.	272	273	O
-
-The	274	277	O
-second	278	284	O
-system	285	291	O
-is	292	294	O
-a	295	296	O
-commercial	297	307	B-Process
-silicone	308	316	I-Process
-dielectric	317	327	I-Process
-gel	328	331	I-Process
-(	332	333	O
-SDG	333	336	B-Process
-)	336	337	O
-which	338	343	O
-is	344	346	O
-used	347	351	O
-in	352	354	O
-the	355	358	O
-production	359	369	B-Task
-of	370	372	I-Task
-electronic	373	383	I-Task
-products	384	392	I-Task
-created	393	400	O
-by	401	403	O
-industrial	404	414	O
-printing	415	423	O
-processes	424	433	O
-.	433	434	O
-
-The	435	438	O
-third	439	444	O
-experimental	445	457	O
-system	458	464	O
-is	465	467	O
-a	468	469	O
-fibrin	470	476	B-Process
-gel	477	480	I-Process
-formed	481	487	O
-by	488	490	O
-the	491	494	O
-thrombin	495	503	B-Process
--	503	504	I-Process
-induced	504	511	I-Process
-polymerisation	512	526	I-Process
-of	527	529	O
-fibrinogen	530	540	B-Process
-molecules	541	550	I-Process
-.	550	551	O
-
-The	552	555	O
-gel	556	559	B-Process
-network	560	567	I-Process
-product	568	575	I-Process
-in	576	578	O
-the	579	582	O
-latter	583	589	O
-case	590	594	O
-forms	595	600	O
-the	601	604	O
-principal	605	614	O
-microstructural	615	630	B-Material
-component	631	640	I-Material
-of	641	643	O
-a	644	645	O
-blood	646	651	B-Material
-clot	652	656	I-Material
-[	657	658	O
-8	658	659	O
-]	659	660	O
-.	660	661	O
-
-The	662	665	O
-latter	666	672	O
-case	673	677	O
-is	678	680	O
-particularly	681	693	O
-interesting	694	705	O
-as	706	708	O
-the	709	712	O
-critical	713	721	B-Material
--	721	722	I-Material
-gel	722	725	I-Material
-which	726	731	O
-is	732	734	O
-established	735	746	O
-at	747	749	O
-the	750	753	O
-GP	754	756	B-Material
-serves	757	763	O
-as	764	766	O
-a	767	768	O
-‘	769	770	B-Material
-template’	770	779	I-Material
-for	780	783	I-Material
-the	784	787	I-Material
-ensuing	788	795	I-Material
-development	796	807	I-Material
-of	808	810	I-Material
-microstructure	811	825	I-Material
-and	826	829	I-Material
-associated	830	840	I-Material
-rheological	841	852	I-Material
-properties	853	863	I-Material
-in	864	866	O
-the	867	870	O
-post	871	875	O
--	875	876	O
-GP	876	878	B-Material
-phase	879	884	O
-of	885	887	O
-fibrin	888	894	B-Material
-clot	895	899	I-Material
-evolution	900	909	O
-[	910	911	O
-9	911	912	O
-]	912	913	O
-.	913	914	O
+The	0,3	O	O
+first	4,9	O	O
+of	10,12	O	O
+these	13,18	O	O
+systems	19,26	O	O
+,	26,27	O	O
+a	28,29	O	O
+biopolymer	30,40	O	B-Process
+gel	41,44	O	I-Process
+,	44,45	O	O
+involves	46,54	O	O
+the	55,58	O	O
+thermoreversible	59,75	O	B-Task
+gelation	76,84	O	I-Task
+of	85,87	O	O
+aqueous	88,95	O	O
+gelatin	96,103	O	O
+solutions	104,113	O	O
+to	114,116	O	O
+form	117,121	O	O
+a	122,123	O	O
+physical	124,132	O	O
+gel	133,136	O	O
+,	136,137	O	O
+whereas	138,145	O	O
+the	146,149	O	O
+other	150,155	O	O
+systems	156,163	O	O
+considered	164,174	O	O
+herein	175,181	O	O
+involve	182,189	O	O
+the	190,193	O	O
+formation	194,203	O	O
+of	204,206	O	O
+chemical	207,215	O	O
+gels	216,220	O	O
+featuring	221,230	O	O
+permanent	231,240	O	O
+cross	241,246	O	B-Process
+-	246,247	O	I-Process
+linked	247,253	O	I-Process
+branching	254,263	O	I-Process
+networks	264,272	O	I-Process
+.	272,273	O	O
+
+The	274,277	O	O
+second	278,284	O	O
+system	285,291	O	O
+is	292,294	O	O
+a	295,296	O	O
+commercial	297,307	O	B-Process
+silicone	308,316	O	I-Process
+dielectric	317,327	O	I-Process
+gel	328,331	O	I-Process
+(	332,333	O	O
+SDG	333,336	O	B-Process
+)	336,337	O	O
+which	338,343	O	O
+is	344,346	O	O
+used	347,351	O	O
+in	352,354	O	O
+the	355,358	O	O
+production	359,369	O	B-Task
+of	370,372	O	I-Task
+electronic	373,383	O	I-Task
+products	384,392	O	I-Task
+created	393,400	O	O
+by	401,403	O	O
+industrial	404,414	O	O
+printing	415,423	O	O
+processes	424,433	O	O
+.	433,434	O	O
+
+The	435,438	O	O
+third	439,444	O	O
+experimental	445,457	O	O
+system	458,464	O	O
+is	465,467	O	O
+a	468,469	O	O
+fibrin	470,476	O	B-Process
+gel	477,480	O	I-Process
+formed	481,487	O	O
+by	488,490	O	O
+the	491,494	O	O
+thrombin	495,503	O	B-Process
+-	503,504	O	I-Process
+induced	504,511	O	I-Process
+polymerisation	512,526	O	I-Process
+of	527,529	O	O
+fibrinogen	530,540	O	B-Process
+molecules	541,550	O	I-Process
+.	550,551	O	O
+
+The	552,555	O	O
+gel	556,559	O	B-Process
+network	560,567	O	I-Process
+product	568,575	O	I-Process
+in	576,578	O	O
+the	579,582	O	O
+latter	583,589	O	O
+case	590,594	O	O
+forms	595,600	O	O
+the	601,604	O	O
+principal	605,614	O	O
+microstructural	615,630	O	B-Material
+component	631,640	O	I-Material
+of	641,643	O	O
+a	644,645	O	O
+blood	646,651	O	B-Material
+clot	652,656	O	I-Material
+[	657,658	O	O
+8	658,659	O	O
+]	659,660	O	O
+.	660,661	O	O
+
+The	662,665	O	O
+latter	666,672	O	O
+case	673,677	O	O
+is	678,680	O	O
+particularly	681,693	O	O
+interesting	694,705	O	O
+as	706,708	O	O
+the	709,712	O	O
+critical	713,721	O	B-Material
+-	721,722	O	I-Material
+gel	722,725	O	I-Material
+which	726,731	O	O
+is	732,734	O	O
+established	735,746	O	O
+at	747,749	O	O
+the	750,753	O	O
+GP	754,756	O	B-Material
+serves	757,763	O	O
+as	764,766	O	O
+a	767,768	O	O
+‘	769,770	O	B-Material
+template’	770,779	O	I-Material
+for	780,783	O	I-Material
+the	784,787	O	I-Material
+ensuing	788,795	O	I-Material
+development	796,807	O	I-Material
+of	808,810	O	I-Material
+microstructure	811,825	O	I-Material
+and	826,829	O	I-Material
+associated	830,840	O	I-Material
+rheological	841,852	O	I-Material
+properties	853,863	O	I-Material
+in	864,866	O	O
+the	867,870	O	O
+post	871,875	O	O
+-	875,876	O	O
+GP	876,878	O	B-Material
+phase	879,884	O	O
+of	885,887	O	O
+fibrin	888,894	O	B-Material
+clot	895,899	O	I-Material
+evolution	900,909	O	O
+[	910,911	O	O
+9	911,912	O	O
+]	912,913	O	O
+.	913,914	O	O
 
 
 -DOCSTART- (S0377025715000051)
 
-A	0	1	O
-convenient	2	12	O
-and	13	16	O
-widely	17	23	O
-reported	24	32	O
-technique	33	42	O
-for	43	46	O
-detection	47	56	B-Task
-of	57	59	I-Task
-the	60	63	I-Task
-GP	64	66	I-Task
-involves	67	75	O
-measurements	76	88	B-Process
-of	89	91	I-Process
-the	92	95	I-Process
-complex	96	103	I-Process
-shear	104	109	I-Process
-modulus	110	117	I-Process
-,	117	118	O
-G∗	119	121	O
-,	121	122	O
-over	123	127	O
-a	128	129	O
-range	130	135	O
-of	136	138	O
-frequencies	139	150	O
-,	150	151	O
-ω	152	153	O
-,	153	154	O
-in	155	157	O
-oscillatory	158	169	O
-shear	170	175	O
-.	175	176	O
-
-At	177	179	O
-the	180	183	O
-GP	184	186	O
-the	187	190	O
-elastic	191	198	O
-and	199	202	O
-viscous	203	210	O
-components	211	221	O
-of	222	224	O
-the	225	228	O
-complex	229	236	O
-modulus	237	244	O
-,	244	245	O
-G′	246	248	O
-and	249	252	O
-G″	253	255	O
-,	255	256	O
-respectively	257	269	O
-scale	270	275	O
-in	276	278	O
-oscillatory	279	290	O
-frequency	291	300	O
-,	300	301	O
-ω	302	303	O
-,	303	304	O
-as	305	307	O
-G′(ω)∼G″(ω)∼ωα	308	322	O
-where	323	328	O
-α	329	330	O
-is	331	333	O
-termed	334	340	O
-the	341	344	O
-stress	345	351	O
-relaxation	352	362	O
-exponent	363	371	O
-[	372	373	O
-15	373	375	O
-]	375	376	O
-.	376	377	O
-
-Thus	378	382	O
-,	382	383	O
-the	384	387	O
-GP	388	390	O
-may	391	394	O
-be	395	397	O
-identified	398	408	O
-as	409	411	O
-the	412	415	O
-instant	416	423	O
-where	424	429	O
-the	430	433	O
-G′	434	436	O
-and	437	440	O
-G″	441	443	O
-scale	444	449	O
-in	450	452	O
-frequency	453	462	O
-according	463	472	O
-to	473	475	O
-identical	476	485	O
-power	486	491	O
-laws	492	496	O
-[	497	498	O
-15	498	500	O
-]	500	501	O
-,	501	502	O
-behaviour	503	512	O
-corresponding	513	526	O
-to	527	529	O
-attainment	530	540	O
-of	541	543	O
-a	544	545	O
-frequency	546	555	O
-independent	556	567	O
-phase	568	573	O
-angle	574	579	O
-,	579	580	O
-δ(=atan(G″/G′	581	594	O
-)	594	595	O
-)	595	596	O
-.	596	597	O
-
-GP	598	600	B-Process
-measurements	601	613	I-Process
-may	614	617	O
-involve	618	625	O
-‘	626	627	O
-frequency	627	636	B-Process
-sweeps’	637	644	I-Process
-with	645	649	O
-repeated	650	658	O
-consecutive	659	670	O
-application	671	682	O
-of	683	685	O
-a	686	687	O
-set	688	691	O
-of	692	694	O
-small	695	700	B-Process
-amplitude	701	710	I-Process
-oscillatory	711	722	I-Process
-shear	723	728	I-Process
-,	728	729	O
-SAOS	730	734	B-Process
-,	734	735	O
-waveforms	736	745	B-Process
-[	746	747	O
-15,16	747	752	O
-]	752	753	O
-,	753	754	O
-or	755	757	O
-by	758	760	O
-Fourier	761	768	B-Process
-Transform	769	778	I-Process
-Mechanical	779	789	I-Process
-Spectroscopy	790	802	I-Process
-,	802	803	O
-FTMS	804	808	B-Process
-,	808	809	O
-in	810	812	O
-which	813	818	O
-G∗(ω	819	823	O
-)	823	824	O
-is	825	827	O
-found	828	833	O
-by	834	836	O
-simultaneous	837	849	O
-application	850	861	B-Process
-of	862	864	I-Process
-several	865	872	I-Process
-harmonic	873	881	I-Process
-frequencies	882	893	I-Process
-in	894	896	O
-a	897	898	O
-composite	899	908	B-Process
-waveform	909	917	I-Process
-and	918	921	O
-its	922	925	O
-subsequent	926	936	O
-Fourier	937	944	B-Process
-analysis	945	953	I-Process
-[	954	955	O
-17,18	955	960	O
-]	960	961	O
-.	961	962	O
-
-Frequency	963	972	O
-sweeps	973	979	O
-are	980	983	O
-limited	984	991	O
-to	992	994	O
-relatively	995	1005	O
-slow	1006	1010	O
-gelation	1011	1019	B-Process
-processes	1020	1029	I-Process
-due	1030	1033	O
-to	1034	1036	O
-sample	1037	1043	O
-mutation	1044	1052	O
-and	1053	1056	O
-interpolation	1057	1070	O
-errors	1071	1077	O
-
-[	1078	1079	O
-9,19,20	1079	1086	O
-]	1086	1087	O
-.	1087	1088	O
-
-FTMS	1089	1093	B-Process
-may	1094	1097	O
-overcome	1098	1106	O
-these	1107	1112	O
-limitations	1113	1124	O
-,	1124	1125	O
-but	1126	1129	O
-is	1130	1132	O
-unsuitable	1133	1143	O
-for	1144	1147	O
-markedly	1148	1156	B-Material
-strain	1157	1163	I-Material
-sensitive	1164	1173	I-Material
-materials	1174	1183	I-Material
-,	1183	1184	O
-such	1185	1189	O
-as	1190	1192	O
-fibrin	1193	1199	B-Material
-gels	1200	1204	I-Material
-,	1204	1205	O
-due	1206	1209	O
-to	1210	1212	O
-the	1213	1216	O
-strain	1217	1223	O
-amplitude	1224	1233	O
-of	1234	1236	O
-the	1237	1240	O
-composite	1241	1250	B-Process
-waveform	1251	1259	I-Process
-exceeding	1260	1269	O
-the	1270	1273	O
-linear	1274	1280	O
-viscoelastic	1281	1293	O
-range	1294	1299	O
-(	1300	1301	O
-LVR	1301	1304	O
-)	1304	1305	O
-
-[	1306	1307	O
-9	1307	1308	O
-]	1308	1309	O
-.	1309	1310	O
+A	0,1	O	O
+convenient	2,12	O	O
+and	13,16	O	O
+widely	17,23	O	O
+reported	24,32	O	O
+technique	33,42	O	O
+for	43,46	O	O
+detection	47,56	O	B-Task
+of	57,59	O	I-Task
+the	60,63	O	I-Task
+GP	64,66	O	I-Task
+involves	67,75	O	O
+measurements	76,88	O	B-Process
+of	89,91	O	I-Process
+the	92,95	O	I-Process
+complex	96,103	O	I-Process
+shear	104,109	O	I-Process
+modulus	110,117	O	I-Process
+,	117,118	O	O
+G∗	119,121	O	O
+,	121,122	O	O
+over	123,127	O	O
+a	128,129	O	O
+range	130,135	O	O
+of	136,138	O	O
+frequencies	139,150	O	O
+,	150,151	O	O
+ω	152,153	O	O
+,	153,154	O	O
+in	155,157	O	O
+oscillatory	158,169	O	O
+shear	170,175	O	O
+.	175,176	O	O
+
+At	177,179	O	O
+the	180,183	O	O
+GP	184,186	O	O
+the	187,190	O	O
+elastic	191,198	O	O
+and	199,202	O	O
+viscous	203,210	O	O
+components	211,221	O	O
+of	222,224	O	O
+the	225,228	O	O
+complex	229,236	O	O
+modulus	237,244	O	O
+,	244,245	O	O
+G′	246,248	O	O
+and	249,252	O	O
+G″	253,255	O	O
+,	255,256	O	O
+respectively	257,269	O	O
+scale	270,275	O	O
+in	276,278	O	O
+oscillatory	279,290	O	O
+frequency	291,300	O	O
+,	300,301	O	O
+ω	302,303	O	O
+,	303,304	O	O
+as	305,307	O	O
+G′(ω)∼G″(ω)∼ωα	308,322	O	O
+where	323,328	O	O
+α	329,330	O	O
+is	331,333	O	O
+termed	334,340	O	O
+the	341,344	O	O
+stress	345,351	O	O
+relaxation	352,362	O	O
+exponent	363,371	O	O
+[	372,373	O	O
+15	373,375	O	O
+]	375,376	O	O
+.	376,377	O	O
+
+Thus	378,382	O	O
+,	382,383	O	O
+the	384,387	O	O
+GP	388,390	O	O
+may	391,394	O	O
+be	395,397	O	O
+identified	398,408	O	O
+as	409,411	O	O
+the	412,415	O	O
+instant	416,423	O	O
+where	424,429	O	O
+the	430,433	O	O
+G′	434,436	O	O
+and	437,440	O	O
+G″	441,443	O	O
+scale	444,449	O	O
+in	450,452	O	O
+frequency	453,462	O	O
+according	463,472	O	O
+to	473,475	O	O
+identical	476,485	O	O
+power	486,491	O	O
+laws	492,496	O	O
+[	497,498	O	O
+15	498,500	O	O
+]	500,501	O	O
+,	501,502	O	O
+behaviour	503,512	O	O
+corresponding	513,526	O	O
+to	527,529	O	O
+attainment	530,540	O	O
+of	541,543	O	O
+a	544,545	O	O
+frequency	546,555	O	O
+independent	556,567	O	O
+phase	568,573	O	O
+angle	574,579	O	O
+,	579,580	O	O
+δ(=atan(G″/G′	581,594	O	O
+)	594,595	O	O
+)	595,596	O	O
+.	596,597	O	O
+
+GP	598,600	O	B-Process
+measurements	601,613	O	I-Process
+may	614,617	O	O
+involve	618,625	O	O
+‘	626,627	O	O
+frequency	627,636	O	B-Process
+sweeps’	637,644	O	I-Process
+with	645,649	O	O
+repeated	650,658	O	O
+consecutive	659,670	O	O
+application	671,682	O	O
+of	683,685	O	O
+a	686,687	O	O
+set	688,691	O	O
+of	692,694	O	O
+small	695,700	O	B-Process
+amplitude	701,710	O	I-Process
+oscillatory	711,722	O	I-Process
+shear	723,728	O	I-Process
+,	728,729	O	O
+SAOS	730,734	O	B-Process
+,	734,735	O	O
+waveforms	736,745	O	B-Process
+[	746,747	O	O
+15,16	747,752	O	O
+]	752,753	O	O
+,	753,754	O	O
+or	755,757	O	O
+by	758,760	O	O
+Fourier	761,768	O	B-Process
+Transform	769,778	O	I-Process
+Mechanical	779,789	O	I-Process
+Spectroscopy	790,802	O	I-Process
+,	802,803	O	O
+FTMS	804,808	O	B-Process
+,	808,809	O	O
+in	810,812	O	O
+which	813,818	O	O
+G∗(ω	819,823	O	O
+)	823,824	O	O
+is	825,827	O	O
+found	828,833	O	O
+by	834,836	O	O
+simultaneous	837,849	O	O
+application	850,861	O	B-Process
+of	862,864	O	I-Process
+several	865,872	O	I-Process
+harmonic	873,881	O	I-Process
+frequencies	882,893	O	I-Process
+in	894,896	O	O
+a	897,898	O	O
+composite	899,908	O	B-Process
+waveform	909,917	O	I-Process
+and	918,921	O	O
+its	922,925	O	O
+subsequent	926,936	O	O
+Fourier	937,944	O	B-Process
+analysis	945,953	O	I-Process
+[	954,955	O	O
+17,18	955,960	O	O
+]	960,961	O	O
+.	961,962	O	O
+
+Frequency	963,972	O	O
+sweeps	973,979	O	O
+are	980,983	O	O
+limited	984,991	O	O
+to	992,994	O	O
+relatively	995,1005	O	O
+slow	1006,1010	O	O
+gelation	1011,1019	O	B-Process
+processes	1020,1029	O	I-Process
+due	1030,1033	O	O
+to	1034,1036	O	O
+sample	1037,1043	O	O
+mutation	1044,1052	O	O
+and	1053,1056	O	O
+interpolation	1057,1070	O	O
+errors	1071,1077	O	O
+
+[	1078,1079	O	O
+9,19,20	1079,1086	O	O
+]	1086,1087	O	O
+.	1087,1088	O	O
+
+FTMS	1089,1093	O	B-Process
+may	1094,1097	O	O
+overcome	1098,1106	O	O
+these	1107,1112	O	O
+limitations	1113,1124	O	O
+,	1124,1125	O	O
+but	1126,1129	O	O
+is	1130,1132	O	O
+unsuitable	1133,1143	O	O
+for	1144,1147	O	O
+markedly	1148,1156	O	B-Material
+strain	1157,1163	O	I-Material
+sensitive	1164,1173	O	I-Material
+materials	1174,1183	O	I-Material
+,	1183,1184	O	O
+such	1185,1189	O	O
+as	1190,1192	O	O
+fibrin	1193,1199	O	B-Material
+gels	1200,1204	O	I-Material
+,	1204,1205	O	O
+due	1206,1209	O	O
+to	1210,1212	O	O
+the	1213,1216	O	O
+strain	1217,1223	O	O
+amplitude	1224,1233	O	O
+of	1234,1236	O	O
+the	1237,1240	O	O
+composite	1241,1250	O	B-Process
+waveform	1251,1259	O	I-Process
+exceeding	1260,1269	O	O
+the	1270,1273	O	O
+linear	1274,1280	O	O
+viscoelastic	1281,1293	O	O
+range	1294,1299	O	O
+(	1300,1301	O	O
+LVR	1301,1304	O	O
+)	1304,1305	O	O
+
+[	1306,1307	O	O
+9	1307,1308	O	O
+]	1308,1309	O	O
+.	1309,1310	O	O
 
 
 -DOCSTART- (S0377025715000993)
 
-Equilibrium	0	11	B-Material
-surface	12	19	I-Material
-tension	20	27	I-Material
-was	28	31	O
-measured	32	40	O
-at	41	43	O
-21	44	46	O
-°	46	47	O
-C	47	48	O
-with	49	53	O
-a	54	55	O
-SITA	56	60	B-Process
-pro	61	64	I-Process
-line	65	69	I-Process
-t-15	70	74	I-Process
-bubble	75	81	I-Process
-tensiometer	82	93	I-Process
-.	93	94	O
-
-Rheological	95	106	B-Process
-measurements	107	119	I-Process
-were	120	124	O
-performed	125	134	O
-with	135	139	O
-an	140	142	O
-ARES	143	147	B-Process
-rheometer	148	157	I-Process
-at	158	160	O
-shear	161	166	O
-rates	167	172	O
-up	173	175	O
-to	176	178	O
-15s−1	179	184	O
-and	185	188	O
-with	189	193	O
-a	194	195	O
-piezo	196	201	B-Process
-axial	202	207	I-Process
-vibrator	208	216	I-Process
-[	217	218	O
-21	218	220	O
-]	220	221	O
-(	222	223	O
-PAV	223	226	B-Process
-)	226	227	O
-at	228	230	O
-frequencies	231	242	O
-up	243	245	O
-to	246	248	O
-6kHz	249	253	O
-.	253	254	O
-
-Table	255	260	O
-1	261	262	O
-shows	263	268	O
-the	269	272	O
-measured	273	281	O
-values	282	288	B-Material
-of	289	291	I-Material
-viscosity	292	301	I-Material
-(	302	303	O
-the	303	306	O
-real	307	311	O
-component	312	321	O
-η′	322	324	O
-of	325	327	O
-complex	328	335	O
-viscosity	336	345	O
-)	345	346	O
-at	347	349	O
-1s−1	350	354	O
-and	355	358	O
-
-4000s−1	359	366	O
-and	367	370	O
-of	371	373	O
-surface	374	381	B-Material
-tension	382	389	I-Material
-for	390	393	O
-the	394	397	O
-solutions	398	407	O
-with	408	412	O
-and	413	416	O
-without	417	424	O
-the	425	428	O
-surfactant	429	439	O
-mixture	440	447	O
-.	447	448	O
-
-For	449	452	O
-the	453	456	O
-most	457	461	B-Material
-concentrated	462	474	I-Material
-(	475	476	I-Material
-1.1wt%	476	482	I-Material
-)	482	483	I-Material
-solution	484	492	I-Material
-,	492	493	O
-viscosity	494	503	O
-fell	504	508	O
-from	509	513	O
->	514	515	O
-60mPas	515	521	O
-at	522	524	O
-low	525	528	O
-shear	529	534	O
-rate	535	539	O
-to	540	542	O
-about	543	548	O
-4mPas	549	554	O
-at	555	557	O
-the	558	561	O
-highest	562	569	O
-shear	570	575	O
-rates	576	581	O
-.	581	582	O
-
-The	583	586	O
-PEDOT	587	592	B-Material
-:	592	593	I-Material
-PSS	593	596	I-Material
-fluids	597	603	I-Material
-also	604	608	O
-exhibited	609	618	O
-elasticity	619	629	O
-that	630	634	O
-steadily	635	643	O
-reduced	644	651	O
-with	652	656	O
-increasing	657	667	O
-frequency	668	677	O
-[	678	679	O
-4	679	680	O
-]	680	681	O
-.	681	682	O
-
-All	683	686	O
-the	687	690	O
-aqueous	691	698	O
-PEDOT	699	704	O
-:	704	705	O
-
-PSS	705	708	O
-solutions	709	718	O
-shear	719	724	O
--	724	725	O
-thinned	725	732	O
-significantly	733	746	O
-,	746	747	O
-but	748	751	O
-the	752	755	O
-presence	756	764	O
-of	765	767	O
-surfactants	768	779	O
-did	780	783	O
-not	784	787	O
-affect	788	794	O
-the	795	798	O
-trends	799	805	O
-in	806	808	O
-the	809	812	O
-rheological	813	824	O
-behaviour	825	834	O
-,	834	835	O
-particularly	836	848	O
-at	849	851	O
-the	852	855	O
-higher	856	862	O
-frequencies	863	874	O
-(	875	876	O
-10–4000s−1	876	886	O
-)	886	887	O
-.	887	888	O
+Equilibrium	0,11	O	B-Material
+surface	12,19	O	I-Material
+tension	20,27	O	I-Material
+was	28,31	O	O
+measured	32,40	O	O
+at	41,43	O	O
+21	44,46	O	O
+°	46,47	O	O
+C	47,48	O	O
+with	49,53	O	O
+a	54,55	O	O
+SITA	56,60	O	B-Process
+pro	61,64	O	I-Process
+line	65,69	O	I-Process
+t-15	70,74	O	I-Process
+bubble	75,81	O	I-Process
+tensiometer	82,93	O	I-Process
+.	93,94	O	O
+
+Rheological	95,106	O	B-Process
+measurements	107,119	O	I-Process
+were	120,124	O	O
+performed	125,134	O	O
+with	135,139	O	O
+an	140,142	O	O
+ARES	143,147	O	B-Process
+rheometer	148,157	O	I-Process
+at	158,160	O	O
+shear	161,166	O	O
+rates	167,172	O	O
+up	173,175	O	O
+to	176,178	O	O
+15s−1	179,184	O	O
+and	185,188	O	O
+with	189,193	O	O
+a	194,195	O	O
+piezo	196,201	O	B-Process
+axial	202,207	O	I-Process
+vibrator	208,216	O	I-Process
+[	217,218	O	O
+21	218,220	O	O
+]	220,221	O	O
+(	222,223	O	O
+PAV	223,226	O	B-Process
+)	226,227	O	O
+at	228,230	O	O
+frequencies	231,242	O	O
+up	243,245	O	O
+to	246,248	O	O
+6kHz	249,253	O	O
+.	253,254	O	O
+
+Table	255,260	O	O
+1	261,262	O	O
+shows	263,268	O	O
+the	269,272	O	O
+measured	273,281	O	O
+values	282,288	O	B-Material
+of	289,291	O	I-Material
+viscosity	292,301	O	I-Material
+(	302,303	O	O
+the	303,306	O	O
+real	307,311	O	O
+component	312,321	O	O
+η′	322,324	O	O
+of	325,327	O	O
+complex	328,335	O	O
+viscosity	336,345	O	O
+)	345,346	O	O
+at	347,349	O	O
+1s−1	350,354	O	O
+and	355,358	O	O
+
+4000s−1	359,366	O	O
+and	367,370	O	O
+of	371,373	O	O
+surface	374,381	O	B-Material
+tension	382,389	O	I-Material
+for	390,393	O	O
+the	394,397	O	O
+solutions	398,407	O	O
+with	408,412	O	O
+and	413,416	O	O
+without	417,424	O	O
+the	425,428	O	O
+surfactant	429,439	O	O
+mixture	440,447	O	O
+.	447,448	O	O
+
+For	449,452	O	O
+the	453,456	O	O
+most	457,461	O	B-Material
+concentrated	462,474	O	I-Material
+(	475,476	O	I-Material
+1.1wt%	476,482	O	I-Material
+)	482,483	O	I-Material
+solution	484,492	O	I-Material
+,	492,493	O	O
+viscosity	494,503	O	O
+fell	504,508	O	O
+from	509,513	O	O
+>	514,515	O	O
+60mPas	515,521	O	O
+at	522,524	O	O
+low	525,528	O	O
+shear	529,534	O	O
+rate	535,539	O	O
+to	540,542	O	O
+about	543,548	O	O
+4mPas	549,554	O	O
+at	555,557	O	O
+the	558,561	O	O
+highest	562,569	O	O
+shear	570,575	O	O
+rates	576,581	O	O
+.	581,582	O	O
+
+The	583,586	O	O
+PEDOT	587,592	O	B-Material
+:	592,593	O	I-Material
+PSS	593,596	O	I-Material
+fluids	597,603	O	I-Material
+also	604,608	O	O
+exhibited	609,618	O	O
+elasticity	619,629	O	O
+that	630,634	O	O
+steadily	635,643	O	O
+reduced	644,651	O	O
+with	652,656	O	O
+increasing	657,667	O	O
+frequency	668,677	O	O
+[	678,679	O	O
+4	679,680	O	O
+]	680,681	O	O
+.	681,682	O	O
+
+All	683,686	O	O
+the	687,690	O	O
+aqueous	691,698	O	O
+PEDOT	699,704	O	O
+:	704,705	O	O
+
+PSS	705,708	O	O
+solutions	709,718	O	O
+shear	719,724	O	O
+-	724,725	O	O
+thinned	725,732	O	O
+significantly	733,746	O	O
+,	746,747	O	O
+but	748,751	O	O
+the	752,755	O	O
+presence	756,764	O	O
+of	765,767	O	O
+surfactants	768,779	O	O
+did	780,783	O	O
+not	784,787	O	O
+affect	788,794	O	O
+the	795,798	O	O
+trends	799,805	O	O
+in	806,808	O	O
+the	809,812	O	O
+rheological	813,824	O	O
+behaviour	825,834	O	O
+,	834,835	O	O
+particularly	836,848	O	O
+at	849,851	O	O
+the	852,855	O	O
+higher	856,862	O	O
+frequencies	863,874	O	O
+(	875,876	O	O
+10–4000s−1	876,886	O	O
+)	886,887	O	O
+.	887,888	O	O
 
 
 -DOCSTART- (S0377221716300984)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-we	15	17	O
-propose	18	25	O
-a	26	27	O
-general	28	35	O
-agent	36	41	O
--	41	42	O
-based	42	47	O
-distributed	48	59	O
-framework	60	69	B-Task
-where	70	75	O
-each	76	80	B-Process
-agent	81	86	I-Process
-is	87	89	I-Process
-implementing	90	102	I-Process
-a	103	104	I-Process
-different	105	114	I-Process
-metaheuristic	115	128	I-Process
-/	128	129	I-Process
-local	129	134	I-Process
-search	135	141	I-Process
-combination	142	153	I-Process
-.	153	154	O
-
-Moreover	155	163	O
-,	163	164	O
-an	165	167	O
-agent	168	173	O
-continuously	174	186	O
-adapts	187	193	B-Process
-itself	194	200	O
-during	201	207	O
-the	208	211	O
-search	212	218	O
-process	219	226	O
-using	227	232	O
-a	233	234	B-Material
-direct	235	241	I-Material
-cooperation	242	253	I-Material
-protocol	254	262	I-Material
-based	263	268	O
-on	269	271	O
-reinforcement	272	285	B-Task
-learning	286	294	I-Task
-and	295	298	O
-pattern	299	306	B-Task
-matching	307	315	I-Task
-.	315	316	O
-
-Good	317	321	B-Task
-patterns	322	330	I-Task
-that	331	335	O
-make	336	340	O
-up	341	343	O
-improving	344	353	O
-solutions	354	363	O
-are	364	367	O
-identified	368	378	O
-and	379	382	O
-shared	383	389	O
-by	390	392	O
-the	393	396	O
-agents	397	403	B-Material
-.	403	404	O
-
-This	405	409	O
-agent	410	415	B-Task
--	415	416	I-Task
-based	416	421	I-Task
-system	422	428	I-Task
-aims	429	433	O
-to	434	436	O
-provide	437	444	B-Process
-a	445	446	I-Process
-modular	447	454	I-Process
-flexible	455	463	I-Process
-framework	464	473	I-Process
-to	474	476	O
-deal	477	481	B-Process
-with	482	486	I-Process
-a	487	488	I-Process
-variety	489	496	I-Process
-of	497	499	I-Process
-different	500	509	I-Process
-problem	510	517	I-Process
-domains	518	525	I-Process
-.	525	526	O
-
-We	527	529	O
-have	530	534	O
-evaluated	535	544	O
-the	545	548	O
-performance	549	560	O
-of	561	563	O
-this	564	568	B-Task
-approach	569	577	I-Task
-using	578	583	O
-the	584	587	O
-proposed	588	596	O
-framework	597	606	O
-which	607	612	O
-embodies	613	621	B-Process
-a	622	623	I-Process
-set	624	627	I-Process
-of	628	630	I-Process
-well	631	635	I-Process
-known	636	641	I-Process
-metaheuristics	642	656	I-Process
-with	657	661	I-Process
-different	662	671	I-Process
-configurations	672	686	I-Process
-as	687	689	O
-agents	690	696	O
-on	697	699	O
-two	700	703	B-Material
-problem	704	711	I-Material
-domains	712	719	I-Material
-,	719	720	O
-Permutation	721	732	B-Material
-Flow	733	737	I-Material
--	737	738	I-Material
-shop	738	742	I-Material
-Scheduling	743	753	I-Material
-and	754	757	I-Material
-Capacitated	758	769	I-Material
-Vehicle	770	777	I-Material
-Routing	778	785	I-Material
-.	785	786	O
-
-The	787	790	O
-results	791	798	O
-show	799	803	O
-the	804	807	O
-success	808	815	O
-of	816	818	O
-the	819	822	O
-approach	823	831	B-Task
-yielding	832	840	O
-three	841	846	O
-new	847	850	O
-best	851	855	O
-known	856	861	O
-results	862	869	O
-of	870	872	O
-the	873	876	O
-Capacitated	877	888	B-Material
-Vehicle	889	896	I-Material
-Routing	897	904	I-Material
-benchmarks	905	915	I-Material
-tested	916	922	O
-,	922	923	O
-whilst	924	930	O
-the	931	934	O
-results	935	942	O
-for	943	946	O
-Permutation	947	958	B-Material
-Flow	959	963	I-Material
--	963	964	I-Material
-shop	964	968	I-Material
-Scheduling	969	979	I-Material
-are	980	983	O
-commensurate	984	996	O
-with	997	1001	O
-the	1002	1005	O
-best	1006	1010	O
-known	1011	1016	O
-values	1017	1023	O
-for	1024	1027	O
-all	1028	1031	O
-the	1032	1035	O
-benchmarks	1036	1046	O
-tested	1047	1053	O
-.	1053	1054	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+we	15,17	O	O
+propose	18,25	O	O
+a	26,27	O	O
+general	28,35	O	O
+agent	36,41	O	O
+-	41,42	O	O
+based	42,47	O	O
+distributed	48,59	O	O
+framework	60,69	O	B-Task
+where	70,75	O	O
+each	76,80	O	B-Process
+agent	81,86	O	I-Process
+is	87,89	O	I-Process
+implementing	90,102	O	I-Process
+a	103,104	O	I-Process
+different	105,114	O	I-Process
+metaheuristic	115,128	O	I-Process
+/	128,129	O	I-Process
+local	129,134	O	I-Process
+search	135,141	O	I-Process
+combination	142,153	O	I-Process
+.	153,154	O	O
+
+Moreover	155,163	O	O
+,	163,164	O	O
+an	165,167	O	O
+agent	168,173	O	O
+continuously	174,186	O	O
+adapts	187,193	O	B-Process
+itself	194,200	O	O
+during	201,207	O	O
+the	208,211	O	O
+search	212,218	O	O
+process	219,226	O	O
+using	227,232	O	O
+a	233,234	O	B-Material
+direct	235,241	O	I-Material
+cooperation	242,253	O	I-Material
+protocol	254,262	O	I-Material
+based	263,268	O	O
+on	269,271	O	O
+reinforcement	272,285	O	B-Task
+learning	286,294	O	I-Task
+and	295,298	O	O
+pattern	299,306	O	B-Task
+matching	307,315	O	I-Task
+.	315,316	O	O
+
+Good	317,321	O	B-Task
+patterns	322,330	O	I-Task
+that	331,335	O	O
+make	336,340	O	O
+up	341,343	O	O
+improving	344,353	O	O
+solutions	354,363	O	O
+are	364,367	O	O
+identified	368,378	O	O
+and	379,382	O	O
+shared	383,389	O	O
+by	390,392	O	O
+the	393,396	O	O
+agents	397,403	O	B-Material
+.	403,404	O	O
+
+This	405,409	O	O
+agent	410,415	O	B-Task
+-	415,416	O	I-Task
+based	416,421	O	I-Task
+system	422,428	O	I-Task
+aims	429,433	O	O
+to	434,436	O	O
+provide	437,444	O	B-Process
+a	445,446	O	I-Process
+modular	447,454	O	I-Process
+flexible	455,463	O	I-Process
+framework	464,473	O	I-Process
+to	474,476	O	O
+deal	477,481	O	B-Process
+with	482,486	O	I-Process
+a	487,488	O	I-Process
+variety	489,496	O	I-Process
+of	497,499	O	I-Process
+different	500,509	O	I-Process
+problem	510,517	O	I-Process
+domains	518,525	O	I-Process
+.	525,526	O	O
+
+We	527,529	O	O
+have	530,534	O	O
+evaluated	535,544	O	O
+the	545,548	O	O
+performance	549,560	O	O
+of	561,563	O	O
+this	564,568	O	B-Task
+approach	569,577	O	I-Task
+using	578,583	O	O
+the	584,587	O	O
+proposed	588,596	O	O
+framework	597,606	O	O
+which	607,612	O	O
+embodies	613,621	O	B-Process
+a	622,623	O	I-Process
+set	624,627	O	I-Process
+of	628,630	O	I-Process
+well	631,635	O	I-Process
+known	636,641	O	I-Process
+metaheuristics	642,656	O	I-Process
+with	657,661	O	I-Process
+different	662,671	O	I-Process
+configurations	672,686	O	I-Process
+as	687,689	O	O
+agents	690,696	O	O
+on	697,699	O	O
+two	700,703	O	B-Material
+problem	704,711	O	I-Material
+domains	712,719	O	I-Material
+,	719,720	O	O
+Permutation	721,732	O	B-Material
+Flow	733,737	O	I-Material
+-	737,738	O	I-Material
+shop	738,742	O	I-Material
+Scheduling	743,753	O	I-Material
+and	754,757	O	I-Material
+Capacitated	758,769	O	I-Material
+Vehicle	770,777	O	I-Material
+Routing	778,785	O	I-Material
+.	785,786	O	O
+
+The	787,790	O	O
+results	791,798	O	O
+show	799,803	O	O
+the	804,807	O	O
+success	808,815	O	O
+of	816,818	O	O
+the	819,822	O	O
+approach	823,831	O	B-Task
+yielding	832,840	O	O
+three	841,846	O	O
+new	847,850	O	O
+best	851,855	O	O
+known	856,861	O	O
+results	862,869	O	O
+of	870,872	O	O
+the	873,876	O	O
+Capacitated	877,888	O	B-Material
+Vehicle	889,896	O	I-Material
+Routing	897,904	O	I-Material
+benchmarks	905,915	O	I-Material
+tested	916,922	O	O
+,	922,923	O	O
+whilst	924,930	O	O
+the	931,934	O	O
+results	935,942	O	O
+for	943,946	O	O
+Permutation	947,958	O	B-Material
+Flow	959,963	O	I-Material
+-	963,964	O	I-Material
+shop	964,968	O	I-Material
+Scheduling	969,979	O	I-Material
+are	980,983	O	O
+commensurate	984,996	O	O
+with	997,1001	O	O
+the	1002,1005	O	O
+best	1006,1010	O	O
+known	1011,1016	O	O
+values	1017,1023	O	O
+for	1024,1027	O	O
+all	1028,1031	O	O
+the	1032,1035	O	O
+benchmarks	1036,1046	O	O
+tested	1047,1053	O	O
+.	1053,1054	O	O
 
 
 -DOCSTART- (S0377221716301357)
 
-As	0	2	O
-mentioned	3	12	O
-earlier	13	20	O
-,	20	21	O
-this	22	26	O
-paper	27	32	O
-represents	33	43	O
-ongoing	44	51	O
-efforts	52	59	O
-to	60	62	O
-efficiently	63	74	O
-address	75	82	O
-the	83	86	O
-stochastic	87	97	B-Task
-MPSP	98	102	I-Task
-.	102	103	O
-
-Future	104	110	O
-work	111	115	O
-may	116	119	O
-consider	120	128	O
-investigating	129	142	O
-whether	143	150	O
-the	151	154	O
-algorithm	155	164	O
-would	165	170	O
-be	171	173	O
-as	174	176	O
-successful	177	187	O
-or	188	190	O
-not	191	194	O
-in	195	197	O
-solving	198	205	O
-variants	206	214	O
-of	215	217	O
-the	218	221	O
-MPSP	222	226	B-Process
-that	227	231	O
-include	232	239	O
-more	240	244	O
-operational	245	256	B-Task
-constraints	257	268	I-Task
-,	268	269	O
-such	270	274	O
-as	275	277	O
-variable	278	286	B-Task
-cut	287	290	I-Task
--	290	291	I-Task
-off	291	294	I-Task
-grade	295	300	I-Task
-,	300	301	O
-grade	302	307	B-Task
-blending	308	316	I-Task
-,	316	317	O
-and	318	321	O
-stockpiling	322	333	B-Task
-,	333	334	O
-as	335	337	O
-it	338	340	O
-is	341	343	O
-in	344	346	O
-solving	347	354	O
-the	355	358	O
-“	359	360	O
-classical	360	369	O
-”	369	370	O
-variant	371	378	O
-considered	379	389	O
-in	390	392	O
-this	393	397	O
-paper	398	403	O
-.	403	404	O
-
-Indeed	405	411	O
-,	411	412	O
-it	413	415	O
-is	416	418	O
-a	419	420	O
-general	421	428	B-Process
--	428	429	I-Process
-purpose	429	436	I-Process
-algorithm	437	446	I-Process
-and	447	450	O
-should	451	457	O
-be	458	460	O
-applicable	461	471	O
-to	472	474	O
-any	475	478	O
-of	479	481	O
-these	482	487	O
-variants	488	496	O
-.	496	497	O
-
-Other	498	503	O
-research	504	512	O
-avenues	513	520	O
-include	521	528	O
-considering	529	540	O
-other	541	546	O
-strategies	547	557	O
-for	558	561	O
-updating	562	570	O
-the	571	574	O
-penalties	575	584	O
-within	585	591	O
-PH	592	594	B-Process
-and	595	598	O
-other	599	604	O
-methods	605	612	O
-for	613	616	O
-solving	617	624	O
-the	625	628	O
-sub	629	632	O
--	632	633	O
-problems	633	641	O
-.	641	642	O
-
-Finally	643	650	O
-,	650	651	O
-another	652	659	O
-important	660	669	O
-research	670	678	O
-direction	679	688	O
-is	689	691	O
-the	692	695	O
-development	696	707	O
-of	708	710	O
-other	711	716	O
-efficient	717	726	O
-solution	727	735	O
-approaches	736	746	O
-.	746	747	O
-
-Since	748	753	O
-it	754	756	O
-has	757	760	O
-been	761	765	O
-observed	766	774	O
-empirically	775	786	O
-that	787	791	O
-the	792	795	O
-problem	796	803	O
-formulation	804	815	O
-often	816	821	O
-achieves	822	830	O
-small	831	836	O
-integrality	837	848	O
-gaps	849	853	O
-,	853	854	O
-one	855	858	O
-approach	859	867	O
-could	868	873	O
-be	874	876	O
-to	877	879	O
-solve	880	885	B-Process
-the	886	889	I-Process
-linear	890	896	I-Process
-relaxation	897	907	I-Process
-of	908	910	O
-the	911	914	O
-problem	915	922	O
-using	923	928	O
-an	929	931	O
-efficient	932	941	O
-algorithm	942	951	O
-and	952	955	O
-then	956	960	O
-to	961	963	O
-use	964	967	O
-an	968	970	O
-LP	971	973	B-Process
--	973	974	I-Process
-rounding	974	982	I-Process
-procedure	983	992	I-Process
-to	993	995	O
-get	996	999	O
-an	1000	1002	O
-integer	1003	1010	O
-solution	1011	1019	O
-.	1019	1020	O
+As	0,2	O	O
+mentioned	3,12	O	O
+earlier	13,20	O	O
+,	20,21	O	O
+this	22,26	O	O
+paper	27,32	O	O
+represents	33,43	O	O
+ongoing	44,51	O	O
+efforts	52,59	O	O
+to	60,62	O	O
+efficiently	63,74	O	O
+address	75,82	O	O
+the	83,86	O	O
+stochastic	87,97	O	B-Task
+MPSP	98,102	O	I-Task
+.	102,103	O	O
+
+Future	104,110	O	O
+work	111,115	O	O
+may	116,119	O	O
+consider	120,128	O	O
+investigating	129,142	O	O
+whether	143,150	O	O
+the	151,154	O	O
+algorithm	155,164	O	O
+would	165,170	O	O
+be	171,173	O	O
+as	174,176	O	O
+successful	177,187	O	O
+or	188,190	O	O
+not	191,194	O	O
+in	195,197	O	O
+solving	198,205	O	O
+variants	206,214	O	O
+of	215,217	O	O
+the	218,221	O	O
+MPSP	222,226	O	B-Process
+that	227,231	O	O
+include	232,239	O	O
+more	240,244	O	O
+operational	245,256	O	B-Task
+constraints	257,268	O	I-Task
+,	268,269	O	O
+such	270,274	O	O
+as	275,277	O	O
+variable	278,286	O	B-Task
+cut	287,290	O	I-Task
+-	290,291	O	I-Task
+off	291,294	O	I-Task
+grade	295,300	O	I-Task
+,	300,301	O	O
+grade	302,307	O	B-Task
+blending	308,316	O	I-Task
+,	316,317	O	O
+and	318,321	O	O
+stockpiling	322,333	O	B-Task
+,	333,334	O	O
+as	335,337	O	O
+it	338,340	O	O
+is	341,343	O	O
+in	344,346	O	O
+solving	347,354	O	O
+the	355,358	O	O
+“	359,360	O	O
+classical	360,369	O	O
+”	369,370	O	O
+variant	371,378	O	O
+considered	379,389	O	O
+in	390,392	O	O
+this	393,397	O	O
+paper	398,403	O	O
+.	403,404	O	O
+
+Indeed	405,411	O	O
+,	411,412	O	O
+it	413,415	O	O
+is	416,418	O	O
+a	419,420	O	O
+general	421,428	O	B-Process
+-	428,429	O	I-Process
+purpose	429,436	O	I-Process
+algorithm	437,446	O	I-Process
+and	447,450	O	O
+should	451,457	O	O
+be	458,460	O	O
+applicable	461,471	O	O
+to	472,474	O	O
+any	475,478	O	O
+of	479,481	O	O
+these	482,487	O	O
+variants	488,496	O	O
+.	496,497	O	O
+
+Other	498,503	O	O
+research	504,512	O	O
+avenues	513,520	O	O
+include	521,528	O	O
+considering	529,540	O	O
+other	541,546	O	O
+strategies	547,557	O	O
+for	558,561	O	O
+updating	562,570	O	O
+the	571,574	O	O
+penalties	575,584	O	O
+within	585,591	O	O
+PH	592,594	O	B-Process
+and	595,598	O	O
+other	599,604	O	O
+methods	605,612	O	O
+for	613,616	O	O
+solving	617,624	O	O
+the	625,628	O	O
+sub	629,632	O	O
+-	632,633	O	O
+problems	633,641	O	O
+.	641,642	O	O
+
+Finally	643,650	O	O
+,	650,651	O	O
+another	652,659	O	O
+important	660,669	O	O
+research	670,678	O	O
+direction	679,688	O	O
+is	689,691	O	O
+the	692,695	O	O
+development	696,707	O	O
+of	708,710	O	O
+other	711,716	O	O
+efficient	717,726	O	O
+solution	727,735	O	O
+approaches	736,746	O	O
+.	746,747	O	O
+
+Since	748,753	O	O
+it	754,756	O	O
+has	757,760	O	O
+been	761,765	O	O
+observed	766,774	O	O
+empirically	775,786	O	O
+that	787,791	O	O
+the	792,795	O	O
+problem	796,803	O	O
+formulation	804,815	O	O
+often	816,821	O	O
+achieves	822,830	O	O
+small	831,836	O	O
+integrality	837,848	O	O
+gaps	849,853	O	O
+,	853,854	O	O
+one	855,858	O	O
+approach	859,867	O	O
+could	868,873	O	O
+be	874,876	O	O
+to	877,879	O	O
+solve	880,885	O	B-Process
+the	886,889	O	I-Process
+linear	890,896	O	I-Process
+relaxation	897,907	O	I-Process
+of	908,910	O	O
+the	911,914	O	O
+problem	915,922	O	O
+using	923,928	O	O
+an	929,931	O	O
+efficient	932,941	O	O
+algorithm	942,951	O	O
+and	952,955	O	O
+then	956,960	O	O
+to	961,963	O	O
+use	964,967	O	O
+an	968,970	O	O
+LP	971,973	O	B-Process
+-	973,974	O	I-Process
+rounding	974,982	O	I-Process
+procedure	983,992	O	I-Process
+to	993,995	O	O
+get	996,999	O	O
+an	1000,1002	O	O
+integer	1003,1010	O	O
+solution	1011,1019	O	O
+.	1019,1020	O	O
 
 
 -DOCSTART- (S0377221716301904)
 
-We	0	2	O
-propose	3	10	O
-an	11	13	O
-equilibrium	14	25	B-Process
-model	26	31	I-Process
-that	32	36	O
-allows	37	43	O
-to	44	46	O
-analyze	47	54	B-Task
-the	55	58	I-Task
-long	59	63	I-Task
--	63	64	I-Task
-run	64	67	I-Task
-impact	68	74	I-Task
-of	75	77	I-Task
-the	78	81	I-Task
-electricity	82	93	I-Task
-market	94	100	I-Task
-design	101	107	I-Task
-on	108	110	I-Task
-transmission	111	123	I-Task
-line	124	128	I-Task
-expansion	129	138	I-Task
-by	139	141	O
-the	142	145	O
-regulator	146	155	O
-and	156	159	O
-investment	160	170	O
-in	171	173	O
-generation	174	184	O
-capacity	185	193	O
-by	194	196	O
-private	197	204	O
-firms	205	210	O
-in	211	213	O
-liberalized	214	225	O
-electricity	226	237	O
-markets	238	245	O
-.	245	246	O
-
-The	247	250	O
-model	251	256	O
-incorporates	257	269	O
-investment	270	280	O
-decisions	281	290	O
-of	291	293	O
-the	294	297	O
-transmission	298	310	O
-system	311	317	O
-operator	318	326	O
-and	327	330	O
-private	331	338	O
-firms	339	344	O
-in	345	347	O
-expectation	348	359	O
-of	360	362	O
-an	363	365	O
-energy	366	372	O
--	372	373	O
-only	373	377	O
-market	378	384	O
-and	385	388	O
-cost	389	393	O
--	393	394	O
-based	394	399	O
-redispatch	400	410	O
-.	410	411	O
-
-In	412	414	O
-different	415	424	O
-specifications	425	439	O
-we	440	442	O
-consider	443	451	O
-the	452	455	O
-cases	456	461	O
-of	462	464	O
-one	465	468	O
-vs.	469	472	O
-multiple	473	481	O
-price	482	487	O
-zones	488	493	O
-(	494	495	O
-market	495	501	B-Process
-splitting	502	511	I-Process
-)	511	512	O
-and	513	516	O
-analyze	517	524	B-Process
-different	525	534	I-Process
-approaches	535	545	I-Process
-to	546	548	I-Process
-recover	549	556	I-Process
-network	557	564	I-Process
-cost	565	569	I-Process
-—	569	570	O
-in	570	572	O
-particular	573	583	O
-lump	584	588	B-Task
-sum	589	592	I-Task
-,	592	593	O
-generation	594	604	B-Task
-capacity	605	613	I-Task
-based	614	619	I-Task
-,	619	620	O
-and	621	624	O
-energy	625	631	B-Task
-based	632	637	I-Task
-fees	638	642	I-Task
-.	642	643	O
-
-In	644	646	O
-order	647	652	O
-to	653	655	O
-compare	656	663	O
-the	664	667	O
-outcomes	668	676	O
-of	677	679	O
-our	680	683	O
-multilevel	684	694	B-Process
-market	695	701	I-Process
-model	702	707	I-Process
-with	708	712	O
-a	713	714	O
-first	715	720	B-Process
-best	721	725	I-Process
-benchmark	726	735	I-Process
-,	735	736	O
-we	737	739	O
-also	740	744	O
-solve	745	750	B-Process
-the	751	754	I-Process
-corresponding	755	768	I-Process
-integrated	769	779	I-Process
-planner	780	787	I-Process
-problem	788	795	I-Process
-.	795	796	O
-
-Using	797	802	O
-two	803	806	O
-test	807	811	O
-networks	812	820	O
-we	821	823	O
-illustrate	824	834	O
-that	835	839	O
-energy	840	846	O
--	846	847	O
-only	847	851	O
-markets	852	859	O
-can	860	863	O
-lead	864	868	O
-to	869	871	O
-suboptimal	872	882	O
-locational	883	893	O
-decisions	894	903	O
-for	904	907	O
-generation	908	918	O
-capacity	919	927	O
-and	928	931	O
-thus	932	936	O
-imply	937	942	O
-excessive	943	952	B-Process
-network	953	960	I-Process
-expansion	961	970	I-Process
-.	970	971	O
-
-Market	972	978	B-Process
-splitting	979	988	I-Process
-heals	989	994	O
-these	995	1000	O
-problems	1001	1009	O
-only	1010	1014	O
-partially	1015	1024	O
-.	1024	1025	O
-
-These	1026	1031	O
-results	1032	1039	O
-are	1040	1043	O
-valid	1044	1049	O
-for	1050	1053	O
-all	1054	1057	O
-considered	1058	1068	O
-types	1069	1074	O
-of	1075	1077	O
-network	1078	1085	O
-tariffs	1086	1093	O
-,	1093	1094	O
-although	1095	1103	O
-investment	1104	1114	O
-slightly	1115	1123	O
-differs	1124	1131	O
-across	1132	1138	O
-those	1139	1144	O
-regimes	1145	1152	O
-.	1152	1153	O
+We	0,2	O	O
+propose	3,10	O	O
+an	11,13	O	O
+equilibrium	14,25	O	B-Process
+model	26,31	O	I-Process
+that	32,36	O	O
+allows	37,43	O	O
+to	44,46	O	O
+analyze	47,54	O	B-Task
+the	55,58	O	I-Task
+long	59,63	O	I-Task
+-	63,64	O	I-Task
+run	64,67	O	I-Task
+impact	68,74	O	I-Task
+of	75,77	O	I-Task
+the	78,81	O	I-Task
+electricity	82,93	O	I-Task
+market	94,100	O	I-Task
+design	101,107	O	I-Task
+on	108,110	O	I-Task
+transmission	111,123	O	I-Task
+line	124,128	O	I-Task
+expansion	129,138	O	I-Task
+by	139,141	O	O
+the	142,145	O	O
+regulator	146,155	O	O
+and	156,159	O	O
+investment	160,170	O	O
+in	171,173	O	O
+generation	174,184	O	O
+capacity	185,193	O	O
+by	194,196	O	O
+private	197,204	O	O
+firms	205,210	O	O
+in	211,213	O	O
+liberalized	214,225	O	O
+electricity	226,237	O	O
+markets	238,245	O	O
+.	245,246	O	O
+
+The	247,250	O	O
+model	251,256	O	O
+incorporates	257,269	O	O
+investment	270,280	O	O
+decisions	281,290	O	O
+of	291,293	O	O
+the	294,297	O	O
+transmission	298,310	O	O
+system	311,317	O	O
+operator	318,326	O	O
+and	327,330	O	O
+private	331,338	O	O
+firms	339,344	O	O
+in	345,347	O	O
+expectation	348,359	O	O
+of	360,362	O	O
+an	363,365	O	O
+energy	366,372	O	O
+-	372,373	O	O
+only	373,377	O	O
+market	378,384	O	O
+and	385,388	O	O
+cost	389,393	O	O
+-	393,394	O	O
+based	394,399	O	O
+redispatch	400,410	O	O
+.	410,411	O	O
+
+In	412,414	O	O
+different	415,424	O	O
+specifications	425,439	O	O
+we	440,442	O	O
+consider	443,451	O	O
+the	452,455	O	O
+cases	456,461	O	O
+of	462,464	O	O
+one	465,468	O	O
+vs.	469,472	O	O
+multiple	473,481	O	O
+price	482,487	O	O
+zones	488,493	O	O
+(	494,495	O	O
+market	495,501	O	B-Process
+splitting	502,511	O	I-Process
+)	511,512	O	O
+and	513,516	O	O
+analyze	517,524	O	B-Process
+different	525,534	O	I-Process
+approaches	535,545	O	I-Process
+to	546,548	O	I-Process
+recover	549,556	O	I-Process
+network	557,564	O	I-Process
+cost	565,569	O	I-Process
+—	569,570	O	O
+in	570,572	O	O
+particular	573,583	O	O
+lump	584,588	O	B-Task
+sum	589,592	O	I-Task
+,	592,593	O	O
+generation	594,604	O	B-Task
+capacity	605,613	O	I-Task
+based	614,619	O	I-Task
+,	619,620	O	O
+and	621,624	O	O
+energy	625,631	O	B-Task
+based	632,637	O	I-Task
+fees	638,642	O	I-Task
+.	642,643	O	O
+
+In	644,646	O	O
+order	647,652	O	O
+to	653,655	O	O
+compare	656,663	O	O
+the	664,667	O	O
+outcomes	668,676	O	O
+of	677,679	O	O
+our	680,683	O	O
+multilevel	684,694	O	B-Process
+market	695,701	O	I-Process
+model	702,707	O	I-Process
+with	708,712	O	O
+a	713,714	O	O
+first	715,720	O	B-Process
+best	721,725	O	I-Process
+benchmark	726,735	O	I-Process
+,	735,736	O	O
+we	737,739	O	O
+also	740,744	O	O
+solve	745,750	O	B-Process
+the	751,754	O	I-Process
+corresponding	755,768	O	I-Process
+integrated	769,779	O	I-Process
+planner	780,787	O	I-Process
+problem	788,795	O	I-Process
+.	795,796	O	O
+
+Using	797,802	O	O
+two	803,806	O	O
+test	807,811	O	O
+networks	812,820	O	O
+we	821,823	O	O
+illustrate	824,834	O	O
+that	835,839	O	O
+energy	840,846	O	O
+-	846,847	O	O
+only	847,851	O	O
+markets	852,859	O	O
+can	860,863	O	O
+lead	864,868	O	O
+to	869,871	O	O
+suboptimal	872,882	O	O
+locational	883,893	O	O
+decisions	894,903	O	O
+for	904,907	O	O
+generation	908,918	O	O
+capacity	919,927	O	O
+and	928,931	O	O
+thus	932,936	O	O
+imply	937,942	O	O
+excessive	943,952	O	B-Process
+network	953,960	O	I-Process
+expansion	961,970	O	I-Process
+.	970,971	O	O
+
+Market	972,978	O	B-Process
+splitting	979,988	O	I-Process
+heals	989,994	O	O
+these	995,1000	O	O
+problems	1001,1009	O	O
+only	1010,1014	O	O
+partially	1015,1024	O	O
+.	1024,1025	O	O
+
+These	1026,1031	O	O
+results	1032,1039	O	O
+are	1040,1043	O	O
+valid	1044,1049	O	O
+for	1050,1053	O	O
+all	1054,1057	O	O
+considered	1058,1068	O	O
+types	1069,1074	O	O
+of	1075,1077	O	O
+network	1078,1085	O	O
+tariffs	1086,1093	O	O
+,	1093,1094	O	O
+although	1095,1103	O	O
+investment	1104,1114	O	O
+slightly	1115,1123	O	O
+differs	1124,1131	O	O
+across	1132,1138	O	O
+those	1139,1144	O	O
+regimes	1145,1152	O	O
+.	1152,1153	O	O
 
 
 -DOCSTART- (S0377221716302259)
 
-Regarding	0	9	O
-the	10	13	O
-implications	14	26	B-Task
-of	27	29	I-Task
-the	30	33	I-Task
-results	34	41	I-Task
-of	42	44	O
-this	45	49	O
-paper	50	55	O
-,	55	56	O
-we	57	59	O
-note	60	64	O
-two	65	68	O
-points	69	75	O
-.	75	76	O
-
-From	77	81	O
-a	82	83	O
-practical	84	93	O
-point	94	99	O
-of	100	102	O
-view	103	107	O
-,	107	108	O
-we	109	111	O
-have	112	116	O
-endowed	117	124	O
-the	125	128	B-Task
-weighted	129	137	I-Task
-additive	138	146	I-Task
-model	147	152	I-Task
-with	153	157	I-Task
-a	158	159	I-Task
-distance	160	168	I-Task
-function	169	177	I-Task
-structure	178	187	I-Task
-,	187	188	O
-which	189	194	O
-takes	195	200	B-Process
-negative	201	209	I-Process
-values	210	216	I-Process
-for	217	220	I-Process
-points	221	227	I-Process
-located	228	235	I-Process
-outside	236	243	I-Process
-the	244	247	I-Process
-technology	248	258	I-Process
-and	259	262	I-Process
-non	263	266	I-Process
--	266	267	I-Process
-negative	267	275	I-Process
-values	276	282	I-Process
-for	283	286	I-Process
-points	287	293	I-Process
-into	294	298	I-Process
-the	299	302	I-Process
-production	303	313	I-Process
-possibility	314	325	I-Process
-set	326	329	I-Process
-.	329	330	O
-
-In	331	333	O
-this	334	338	O
-respect	339	346	O
-,	346	347	O
-the	348	351	B-Task
-weighted	352	360	I-Task
-additive	361	369	I-Task
-distance	370	378	I-Task
-function	379	387	I-Task
-methodologically	388	404	O
-supports	405	413	O
-the	414	417	O
-branch	418	424	O
-of	425	427	O
-the	428	431	O
-literature	432	442	O
-that	443	447	O
-resorts	448	455	O
-to	456	458	O
-the	459	462	O
-weighted	463	471	B-Material
-additive	472	480	I-Material
-model	481	486	I-Material
-or	487	489	O
-some	490	494	B-Material
-related	495	502	I-Material
-approach	503	511	I-Material
-to	512	514	O
-measure	515	522	B-Process
-productivity	523	535	I-Process
-over	536	540	I-Process
-time	541	545	I-Process
-(	546	547	O
-see	547	550	O
-,	550	551	O
-for	552	555	O
-example	556	563	O
-,	563	564	O
-Mahlberg	565	573	O
-&	574	575	O
-Sahoo	576	581	O
-,	581	582	O
-2011	583	587	O
-or	588	590	O
-Chang	591	596	O
-et	597	599	O
-al	600	602	O
-.	602	603	O
-,	603	604	O
-2012	605	609	O
-)	609	610	O
-.	610	611	O
-
-From	612	616	O
-a	617	618	O
-theoretical	619	630	O
-point	631	636	O
-of	637	639	O
-view	640	644	O
-,	644	645	O
-we	646	648	O
-have	649	653	O
-provided	654	662	O
-a	663	664	B-Material
-new	665	668	I-Material
-distance	669	677	I-Material
-function	678	686	I-Material
-with	687	691	O
-some	692	696	O
-interesting	697	708	O
-properties	709	719	O
-in	720	722	O
-contrast	723	731	O
-to	732	734	O
-the	735	738	O
-usual	739	744	O
-ones	745	749	O
-,	749	750	O
-mainly	751	757	O
-(	758	759	O
-1	759	760	O
-)	760	761	O
-when	762	766	O
-technical	767	776	O
-inefficiency	777	789	O
-has	790	793	O
-to	794	796	O
-be	797	799	O
-estimated	800	809	O
-,	809	810	O
-the	811	814	B-Material
-weighted	815	823	I-Material
-additive	824	832	I-Material
-distance	833	841	I-Material
-function	842	850	I-Material
-coincides	851	860	O
-with	861	865	O
-the	866	869	O
-weighted	870	878	O
-additive	879	887	O
-model	888	893	O
-,	893	894	O
-which	895	900	O
-means	901	906	B-Process
-that	907	911	I-Process
-technical	912	921	I-Process
-inefficiency	922	934	I-Process
-is	935	937	I-Process
-measured	938	946	I-Process
-following	947	956	I-Process
-the	957	960	I-Process
-Pareto	961	967	I-Process
--	967	968	I-Process
-Koopmans	968	976	I-Process
-notion	977	983	I-Process
-of	984	986	I-Process
-efficiency	987	997	I-Process
-;	997	998	O
-and	999	1002	O
-(	1003	1004	O
-2	1004	1005	O
-)	1005	1006	O
-when	1007	1011	O
-productivity	1012	1024	O
-has	1025	1028	O
-to	1029	1031	O
-be	1032	1034	O
-determined	1035	1045	B-Process
-and	1046	1049	I-Process
-decomposed	1050	1060	I-Process
-over	1061	1065	I-Process
-time	1066	1070	I-Process
-the	1071	1074	O
-weighted	1075	1083	B-Material
-additive	1084	1092	I-Material
-distance	1093	1101	I-Material
-function	1102	1110	I-Material
-emerges	1111	1118	O
-as	1119	1121	O
-an	1122	1124	O
-attractive	1125	1135	O
-tool	1136	1140	O
-to	1141	1143	O
-be	1144	1146	O
-used	1147	1151	O
-for	1152	1155	O
-cross	1156	1161	O
--	1161	1162	O
-period	1162	1168	O
-evaluation	1169	1179	O
-of	1180	1182	O
-returns	1183	1190	O
-to	1191	1193	O
-scale	1194	1199	O
-changes	1200	1207	O
-,	1207	1208	O
-since	1209	1214	O
-this	1215	1219	O
-distance	1220	1228	B-Material
-function	1229	1237	I-Material
-is	1238	1240	O
-always	1241	1247	O
-feasible	1248	1256	O
-,	1256	1257	O
-even	1258	1262	O
-under	1263	1268	O
-Variable	1269	1277	O
-Returns	1278	1285	O
-to	1286	1288	O
-Scale	1289	1294	O
-.	1294	1295	O
+Regarding	0,9	O	O
+the	10,13	O	O
+implications	14,26	O	B-Task
+of	27,29	O	I-Task
+the	30,33	O	I-Task
+results	34,41	O	I-Task
+of	42,44	O	O
+this	45,49	O	O
+paper	50,55	O	O
+,	55,56	O	O
+we	57,59	O	O
+note	60,64	O	O
+two	65,68	O	O
+points	69,75	O	O
+.	75,76	O	O
+
+From	77,81	O	O
+a	82,83	O	O
+practical	84,93	O	O
+point	94,99	O	O
+of	100,102	O	O
+view	103,107	O	O
+,	107,108	O	O
+we	109,111	O	O
+have	112,116	O	O
+endowed	117,124	O	O
+the	125,128	O	B-Task
+weighted	129,137	O	I-Task
+additive	138,146	O	I-Task
+model	147,152	O	I-Task
+with	153,157	O	I-Task
+a	158,159	O	I-Task
+distance	160,168	O	I-Task
+function	169,177	O	I-Task
+structure	178,187	O	I-Task
+,	187,188	O	O
+which	189,194	O	O
+takes	195,200	O	B-Process
+negative	201,209	O	I-Process
+values	210,216	O	I-Process
+for	217,220	O	I-Process
+points	221,227	O	I-Process
+located	228,235	O	I-Process
+outside	236,243	O	I-Process
+the	244,247	O	I-Process
+technology	248,258	O	I-Process
+and	259,262	O	I-Process
+non	263,266	O	I-Process
+-	266,267	O	I-Process
+negative	267,275	O	I-Process
+values	276,282	O	I-Process
+for	283,286	O	I-Process
+points	287,293	O	I-Process
+into	294,298	O	I-Process
+the	299,302	O	I-Process
+production	303,313	O	I-Process
+possibility	314,325	O	I-Process
+set	326,329	O	I-Process
+.	329,330	O	O
+
+In	331,333	O	O
+this	334,338	O	O
+respect	339,346	O	O
+,	346,347	O	O
+the	348,351	O	B-Task
+weighted	352,360	O	I-Task
+additive	361,369	O	I-Task
+distance	370,378	O	I-Task
+function	379,387	O	I-Task
+methodologically	388,404	O	O
+supports	405,413	O	O
+the	414,417	O	O
+branch	418,424	O	O
+of	425,427	O	O
+the	428,431	O	O
+literature	432,442	O	O
+that	443,447	O	O
+resorts	448,455	O	O
+to	456,458	O	O
+the	459,462	O	O
+weighted	463,471	O	B-Material
+additive	472,480	O	I-Material
+model	481,486	O	I-Material
+or	487,489	O	O
+some	490,494	O	B-Material
+related	495,502	O	I-Material
+approach	503,511	O	I-Material
+to	512,514	O	O
+measure	515,522	O	B-Process
+productivity	523,535	O	I-Process
+over	536,540	O	I-Process
+time	541,545	O	I-Process
+(	546,547	O	O
+see	547,550	O	O
+,	550,551	O	O
+for	552,555	O	O
+example	556,563	O	O
+,	563,564	O	O
+Mahlberg	565,573	O	O
+&	574,575	O	O
+Sahoo	576,581	O	O
+,	581,582	O	O
+2011	583,587	O	O
+or	588,590	O	O
+Chang	591,596	O	O
+et	597,599	O	O
+al	600,602	O	O
+.	602,603	O	O
+,	603,604	O	O
+2012	605,609	O	O
+)	609,610	O	O
+.	610,611	O	O
+
+From	612,616	O	O
+a	617,618	O	O
+theoretical	619,630	O	O
+point	631,636	O	O
+of	637,639	O	O
+view	640,644	O	O
+,	644,645	O	O
+we	646,648	O	O
+have	649,653	O	O
+provided	654,662	O	O
+a	663,664	O	B-Material
+new	665,668	O	I-Material
+distance	669,677	O	I-Material
+function	678,686	O	I-Material
+with	687,691	O	O
+some	692,696	O	O
+interesting	697,708	O	O
+properties	709,719	O	O
+in	720,722	O	O
+contrast	723,731	O	O
+to	732,734	O	O
+the	735,738	O	O
+usual	739,744	O	O
+ones	745,749	O	O
+,	749,750	O	O
+mainly	751,757	O	O
+(	758,759	O	O
+1	759,760	O	O
+)	760,761	O	O
+when	762,766	O	O
+technical	767,776	O	O
+inefficiency	777,789	O	O
+has	790,793	O	O
+to	794,796	O	O
+be	797,799	O	O
+estimated	800,809	O	O
+,	809,810	O	O
+the	811,814	O	B-Material
+weighted	815,823	O	I-Material
+additive	824,832	O	I-Material
+distance	833,841	O	I-Material
+function	842,850	O	I-Material
+coincides	851,860	O	O
+with	861,865	O	O
+the	866,869	O	O
+weighted	870,878	O	O
+additive	879,887	O	O
+model	888,893	O	O
+,	893,894	O	O
+which	895,900	O	O
+means	901,906	O	B-Process
+that	907,911	O	I-Process
+technical	912,921	O	I-Process
+inefficiency	922,934	O	I-Process
+is	935,937	O	I-Process
+measured	938,946	O	I-Process
+following	947,956	O	I-Process
+the	957,960	O	I-Process
+Pareto	961,967	O	I-Process
+-	967,968	O	I-Process
+Koopmans	968,976	O	I-Process
+notion	977,983	O	I-Process
+of	984,986	O	I-Process
+efficiency	987,997	O	I-Process
+;	997,998	O	O
+and	999,1002	O	O
+(	1003,1004	O	O
+2	1004,1005	O	O
+)	1005,1006	O	O
+when	1007,1011	O	O
+productivity	1012,1024	O	O
+has	1025,1028	O	O
+to	1029,1031	O	O
+be	1032,1034	O	O
+determined	1035,1045	O	B-Process
+and	1046,1049	O	I-Process
+decomposed	1050,1060	O	I-Process
+over	1061,1065	O	I-Process
+time	1066,1070	O	I-Process
+the	1071,1074	O	O
+weighted	1075,1083	O	B-Material
+additive	1084,1092	O	I-Material
+distance	1093,1101	O	I-Material
+function	1102,1110	O	I-Material
+emerges	1111,1118	O	O
+as	1119,1121	O	O
+an	1122,1124	O	O
+attractive	1125,1135	O	O
+tool	1136,1140	O	O
+to	1141,1143	O	O
+be	1144,1146	O	O
+used	1147,1151	O	O
+for	1152,1155	O	O
+cross	1156,1161	O	O
+-	1161,1162	O	O
+period	1162,1168	O	O
+evaluation	1169,1179	O	O
+of	1180,1182	O	O
+returns	1183,1190	O	O
+to	1191,1193	O	O
+scale	1194,1199	O	O
+changes	1200,1207	O	O
+,	1207,1208	O	O
+since	1209,1214	O	O
+this	1215,1219	O	O
+distance	1220,1228	O	B-Material
+function	1229,1237	O	I-Material
+is	1238,1240	O	O
+always	1241,1247	O	O
+feasible	1248,1256	O	O
+,	1256,1257	O	O
+even	1258,1262	O	O
+under	1263,1268	O	O
+Variable	1269,1277	O	O
+Returns	1278,1285	O	O
+to	1286,1288	O	O
+Scale	1289,1294	O	O
+.	1294,1295	O	O
 
 
 -DOCSTART- (S0377221716303873)
 
-The	0	3	O
-iron	4	8	B-Material
-ore	9	12	I-Material
-may	13	16	O
-be	17	19	O
-extracted	20	29	O
-from	30	34	O
-blocks	35	41	O
-of	42	44	O
-25×25×12meter3	45	59	O
-located	60	67	O
-at	68	70	O
-three	71	76	O
-consecutive	77	88	O
-mining	89	95	O
-benches	96	103	O
-of	104	106	O
-12meter	107	114	O
-height	115	121	O
-.	121	122	O
-
-For	123	126	O
-this	127	131	O
-case	132	136	O
-study	137	142	O
-,	142	143	O
-ten	144	147	O
-equally	148	155	O
-probable	156	164	B-Process
-scenarios	165	174	I-Process
-of	175	177	O
-iron	178	182	B-Material
-content	183	190	I-Material
-,	190	191	O
-phosphorous	192	203	B-Material
-,	203	204	O
-silica	205	211	B-Material
-,	211	212	O
-aluminum	213	221	B-Material
-and	222	225	O
-LOI	226	229	B-Material
-are	230	233	O
-used	234	238	O
-to	239	241	O
-quantify	242	250	B-Task
-the	251	254	I-Task
-joint	255	260	I-Task
-uncertainty	261	272	I-Task
-in	273	275	I-Task
-the	276	279	I-Task
-characteristics	280	295	I-Task
-of	296	298	I-Task
-the	299	302	I-Task
-iron	303	307	I-Task
-ore	308	311	I-Task
-deposit	312	319	I-Task
-considered	320	330	O
-and	331	334	O
-are	335	338	O
-the	339	342	O
-input	343	348	O
-to	349	351	O
-the	352	355	O
-SSTPS	356	361	B-Process
-formulation	362	373	I-Process
-proposed	374	382	O
-in	383	385	O
-the	386	389	O
-previous	390	398	O
-section	399	406	O
-.	406	407	O
-
-The	408	411	O
-simulated	412	421	B-Task
-scenarios	422	431	I-Task
-available	432	441	O
-were	442	446	O
-provided	447	455	O
-and	456	459	O
-generated	460	469	O
-using	470	475	O
-the	476	479	O
-stochastic	480	490	B-Process
-simulated	491	500	I-Process
-technique	501	510	I-Process
-detailed	511	519	O
-in	520	522	O
-Boucher	523	530	O
-and	531	534	O
-Dimitrakopoulos	535	550	O
-(	551	552	O
-2012	552	556	O
-)	556	557	O
-.	557	558	O
-
-The	559	562	O
-area	563	567	O
-considered	568	578	O
-is	579	581	O
-bounded	582	589	O
-by	590	592	O
-the	593	596	O
-limits	597	603	O
-of	604	606	O
-the	607	610	O
-given	611	616	O
-volume	617	623	O
-of	624	626	O
-production	627	637	O
-in	638	640	O
-the	641	644	O
-long	645	649	O
--	649	650	O
-term	650	654	O
-first	655	660	O
-year	661	665	O
-production	666	676	O
-schedule	677	685	O
-provided	686	694	O
-.	694	695	O
-
-Fig	696	699	O
-.	699	700	O
-
-4	701	702	O
-shows	703	708	O
-3	709	710	O
-scenarios	711	720	B-Process
-of	721	723	I-Process
-iron	724	728	I-Process
-ore	729	732	I-Process
-content	733	740	I-Process
-as	741	743	O
-well	744	748	O
-as	749	751	O
-the	752	755	O
-corresponding	756	769	O
-conventional	770	782	O
-and	783	786	O
-single	787	793	O
-estimated	794	803	O
-(	804	805	O
-average	805	812	O
-)	812	813	O
-representation	814	828	O
-of	829	831	O
-iron	832	836	B-Material
-content	837	844	O
-(	845	846	O
-Fe2O3	846	851	O
-%	851	852	O
-)	852	853	O
-for	854	857	O
-the	858	861	O
-upper	862	867	O
-bench	868	873	O
-.	873	874	O
-
-In	875	877	O
-total	878	883	O
-,	883	884	O
-734	885	888	B-Material
-blocks	889	895	I-Material
-from	896	900	O
-3525	901	905	O
-to	906	908	O
-21,150	909	915	O
-tonnes	916	922	O
-,	922	923	O
-with	924	928	O
-Fe2O3	929	934	B-Material
-from	935	939	O
-54.59	940	945	O
-%	945	946	O
-to	947	949	O
-60.63	950	955	O
-%	955	956	O
-,	956	957	O
-P	958	959	B-Material
-from	960	964	O
-0.02	965	969	O
-%	969	970	O
-to	971	973	O
-0.04	974	978	O
-%	978	979	O
-,	979	980	O
-SiO2	981	985	B-Material
-from	986	990	O
-3.10	991	995	O
-%	995	996	O
-to	997	999	O
-8.58	1000	1004	O
-%	1004	1005	O
-,	1005	1006	O
-Al2O3	1007	1012	B-Material
-from	1013	1017	O
-0.53	1018	1022	O
-%	1022	1023	O
-to	1024	1026	O
-1.88	1027	1031	O
-%	1031	1032	O
-and	1033	1036	O
-LOI	1037	1040	B-Material
-from	1041	1045	O
-8.75	1046	1050	O
-%	1050	1051	O
-to	1052	1054	O
-11.75	1055	1060	O
-%	1060	1061	O
-are	1062	1065	O
-available	1066	1075	O
-.	1075	1076	O
+The	0,3	O	O
+iron	4,8	O	B-Material
+ore	9,12	O	I-Material
+may	13,16	O	O
+be	17,19	O	O
+extracted	20,29	O	O
+from	30,34	O	O
+blocks	35,41	O	O
+of	42,44	O	O
+25×25×12meter3	45,59	O	O
+located	60,67	O	O
+at	68,70	O	O
+three	71,76	O	O
+consecutive	77,88	O	O
+mining	89,95	O	O
+benches	96,103	O	O
+of	104,106	O	O
+12meter	107,114	O	O
+height	115,121	O	O
+.	121,122	O	O
+
+For	123,126	O	O
+this	127,131	O	O
+case	132,136	O	O
+study	137,142	O	O
+,	142,143	O	O
+ten	144,147	O	O
+equally	148,155	O	O
+probable	156,164	O	B-Process
+scenarios	165,174	O	I-Process
+of	175,177	O	O
+iron	178,182	O	B-Material
+content	183,190	O	I-Material
+,	190,191	O	O
+phosphorous	192,203	O	B-Material
+,	203,204	O	O
+silica	205,211	O	B-Material
+,	211,212	O	O
+aluminum	213,221	O	B-Material
+and	222,225	O	O
+LOI	226,229	O	B-Material
+are	230,233	O	O
+used	234,238	O	O
+to	239,241	O	O
+quantify	242,250	O	B-Task
+the	251,254	O	I-Task
+joint	255,260	O	I-Task
+uncertainty	261,272	O	I-Task
+in	273,275	O	I-Task
+the	276,279	O	I-Task
+characteristics	280,295	O	I-Task
+of	296,298	O	I-Task
+the	299,302	O	I-Task
+iron	303,307	O	I-Task
+ore	308,311	O	I-Task
+deposit	312,319	O	I-Task
+considered	320,330	O	O
+and	331,334	O	O
+are	335,338	O	O
+the	339,342	O	O
+input	343,348	O	O
+to	349,351	O	O
+the	352,355	O	O
+SSTPS	356,361	O	B-Process
+formulation	362,373	O	I-Process
+proposed	374,382	O	O
+in	383,385	O	O
+the	386,389	O	O
+previous	390,398	O	O
+section	399,406	O	O
+.	406,407	O	O
+
+The	408,411	O	O
+simulated	412,421	O	B-Task
+scenarios	422,431	O	I-Task
+available	432,441	O	O
+were	442,446	O	O
+provided	447,455	O	O
+and	456,459	O	O
+generated	460,469	O	O
+using	470,475	O	O
+the	476,479	O	O
+stochastic	480,490	O	B-Process
+simulated	491,500	O	I-Process
+technique	501,510	O	I-Process
+detailed	511,519	O	O
+in	520,522	O	O
+Boucher	523,530	O	O
+and	531,534	O	O
+Dimitrakopoulos	535,550	O	O
+(	551,552	O	O
+2012	552,556	O	O
+)	556,557	O	O
+.	557,558	O	O
+
+The	559,562	O	O
+area	563,567	O	O
+considered	568,578	O	O
+is	579,581	O	O
+bounded	582,589	O	O
+by	590,592	O	O
+the	593,596	O	O
+limits	597,603	O	O
+of	604,606	O	O
+the	607,610	O	O
+given	611,616	O	O
+volume	617,623	O	O
+of	624,626	O	O
+production	627,637	O	O
+in	638,640	O	O
+the	641,644	O	O
+long	645,649	O	O
+-	649,650	O	O
+term	650,654	O	O
+first	655,660	O	O
+year	661,665	O	O
+production	666,676	O	O
+schedule	677,685	O	O
+provided	686,694	O	O
+.	694,695	O	O
+
+Fig	696,699	O	O
+.	699,700	O	O
+
+4	701,702	O	O
+shows	703,708	O	O
+3	709,710	O	O
+scenarios	711,720	O	B-Process
+of	721,723	O	I-Process
+iron	724,728	O	I-Process
+ore	729,732	O	I-Process
+content	733,740	O	I-Process
+as	741,743	O	O
+well	744,748	O	O
+as	749,751	O	O
+the	752,755	O	O
+corresponding	756,769	O	O
+conventional	770,782	O	O
+and	783,786	O	O
+single	787,793	O	O
+estimated	794,803	O	O
+(	804,805	O	O
+average	805,812	O	O
+)	812,813	O	O
+representation	814,828	O	O
+of	829,831	O	O
+iron	832,836	O	B-Material
+content	837,844	O	O
+(	845,846	O	O
+Fe2O3	846,851	O	O
+%	851,852	O	O
+)	852,853	O	O
+for	854,857	O	O
+the	858,861	O	O
+upper	862,867	O	O
+bench	868,873	O	O
+.	873,874	O	O
+
+In	875,877	O	O
+total	878,883	O	O
+,	883,884	O	O
+734	885,888	O	B-Material
+blocks	889,895	O	I-Material
+from	896,900	O	O
+3525	901,905	O	O
+to	906,908	O	O
+21,150	909,915	O	O
+tonnes	916,922	O	O
+,	922,923	O	O
+with	924,928	O	O
+Fe2O3	929,934	O	B-Material
+from	935,939	O	O
+54.59	940,945	O	O
+%	945,946	O	O
+to	947,949	O	O
+60.63	950,955	O	O
+%	955,956	O	O
+,	956,957	O	O
+P	958,959	O	B-Material
+from	960,964	O	O
+0.02	965,969	O	O
+%	969,970	O	O
+to	971,973	O	O
+0.04	974,978	O	O
+%	978,979	O	O
+,	979,980	O	O
+SiO2	981,985	O	B-Material
+from	986,990	O	O
+3.10	991,995	O	O
+%	995,996	O	O
+to	997,999	O	O
+8.58	1000,1004	O	O
+%	1004,1005	O	O
+,	1005,1006	O	O
+Al2O3	1007,1012	O	B-Material
+from	1013,1017	O	O
+0.53	1018,1022	O	O
+%	1022,1023	O	O
+to	1024,1026	O	O
+1.88	1027,1031	O	O
+%	1031,1032	O	O
+and	1033,1036	O	O
+LOI	1037,1040	O	B-Material
+from	1041,1045	O	O
+8.75	1046,1050	O	O
+%	1050,1051	O	O
+to	1052,1054	O	O
+11.75	1055,1060	O	O
+%	1060,1061	O	O
+are	1062,1065	O	O
+available	1066,1075	O	O
+.	1075,1076	O	O
 
 
 -DOCSTART- (S0377221716304258)
 
-Two	0	3	B-Process
--	3	4	I-Process
-state	4	9	I-Process
-models	10	16	I-Process
-are	17	20	O
-often	21	26	O
-insufficient	27	39	O
-to	40	42	O
-fit	43	46	O
-complex	47	54	O
-traces	55	61	O
-,	61	62	O
-therefore	63	72	O
-we	73	75	O
-also	76	80	O
-study	81	86	B-Task
-the	87	90	I-Task
-approximate	91	102	I-Task
-fitting	103	110	I-Task
-of	111	113	I-Task
-large	114	119	I-Task
-M3PPs	120	125	I-Task
-.	125	126	O
-
-In	127	129	O
-the	130	133	O
-single	134	140	O
-class	141	146	O
-setting	147	154	O
-,	154	155	O
-a	156	157	O
-known	158	163	O
-limitation	164	174	O
-of	175	177	O
-MMPPs	178	183	B-Material
-is	184	186	O
-the	187	190	O
-inability	191	200	O
-to	201	203	O
-simultaneously	204	218	O
-fit	219	222	O
-many	223	227	O
-statistical	228	239	B-Process
-descriptors	240	251	I-Process
-due	252	255	O
-to	256	258	O
-the	259	262	O
-non	263	266	O
--	266	267	O
-linearity	267	276	O
-of	277	279	O
-their	280	285	O
-underlying	286	296	B-Process
-equations	297	306	I-Process
-(	307	308	O
-Bodrog	308	314	O
-,	314	315	O
-Heindl	316	322	O
-,	322	323	O
-Horváth	324	331	O
-,	331	332	O
-&	333	334	O
-Telek	335	340	O
-,	340	341	O
-2008	342	346	O
-;	346	347	O
-Heindl	348	354	O
-,	354	355	O
-Horváth	356	363	O
-,	363	364	O
-&	365	366	O
-Gross	367	372	O
-,	372	373	O
-2006	374	378	O
-;	378	379	O
-Horváth	380	387	O
-&	388	389	O
-Telek	390	395	O
-,	395	396	O
-2009	397	401	O
-)	401	402	O
-.	402	403	O
-
-This	404	408	O
-has	409	412	O
-led	413	416	O
-to	417	419	O
-the	420	423	O
-definition	424	434	O
-of	435	437	O
-several	438	445	O
-approaches	446	456	O
-to	457	459	O
-fit	460	463	O
-complex	464	471	O
-traces	472	478	O
-by	479	481	O
-composing	482	491	B-Process
-multiple	492	500	I-Process
-small	501	506	I-Process
--	506	507	I-Process
-sized	507	512	I-Process
-MMPPs	513	518	I-Process
-or	519	521	I-Process
-MAPs	522	526	I-Process
-using	527	532	O
-Kronecker	533	542	B-Process
-operators	543	552	I-Process
-(	553	554	O
-Andersen	554	562	O
-&	563	564	O
-Nielsen	565	572	O
-,	572	573	O
-1998	574	578	O
-;	578	579	O
-Casale	580	586	O
-,	586	587	O
-Zhang	588	593	O
-,	593	594	O
-&	595	596	O
-Smirni	597	603	O
-,	603	604	O
-2010	605	609	O
-;	609	610	O
-Horváth	611	618	O
-&	619	620	O
-Telek	621	626	O
-,	626	627	O
-2002	628	632	O
-)	632	633	O
-.	633	634	O
-
-These	635	640	O
-methods	641	648	O
-employ	649	655	O
-composition	656	667	B-Process
-operators	668	677	I-Process
-for	678	681	O
-moment	682	688	O
-fitting	689	696	O
-,	696	697	O
-offering	698	706	O
-a	707	708	O
-different	709	718	O
-trade	719	724	O
--	724	725	O
-off	725	728	O
-between	729	736	O
-computational	737	750	O
-cost	751	755	O
-and	756	759	O
-fitting	760	767	O
-accuracy	768	776	O
-compared	777	785	O
-to	786	788	O
-fitting	789	796	B-Task
-methods	797	804	I-Task
-based	805	810	O
-on	811	813	O
-the	814	817	O
-EM	818	820	B-Process
-algorithm	821	830	I-Process
-(	831	832	O
-Breuer	832	838	O
-,	838	839	O
-2002	840	844	O
-;	844	845	O
-Horváth	846	853	O
-&	854	855	O
-Okamura	856	863	O
-,	863	864	O
-2013	865	869	O
-;	869	870	O
-Klemm	871	876	O
-,	876	877	O
-Lindemann	878	887	O
-,	887	888	O
-&	889	890	O
-Lohmann	891	898	O
-,	898	899	O
-2003	900	904	O
-)	904	905	O
-.	905	906	O
-
-In	907	909	O
-particular	910	920	O
-,	920	921	O
-the	922	925	O
-superposition	926	939	B-Process
-operator	940	948	I-Process
-allows	949	955	O
-one	956	959	O
-to	960	962	O
-describe	963	971	O
-a	972	973	O
-trace	974	979	O
-by	980	982	O
-the	983	986	O
-statistical	987	998	B-Process
-multiplexing	999	1011	I-Process
-of	1012	1014	I-Process
-several	1015	1022	I-Process
-MMPPs	1023	1028	I-Process
-,	1028	1029	O
-at	1030	1032	O
-the	1033	1036	O
-expense	1037	1044	O
-of	1045	1047	O
-an	1048	1050	O
-exponential	1051	1062	O
-growth	1063	1069	O
-of	1070	1072	O
-the	1073	1076	O
-number	1077	1083	O
-of	1084	1086	O
-states	1087	1093	O
-in	1094	1096	O
-the	1097	1100	O
-resulting	1101	1110	O
-process	1111	1118	O
-(	1119	1120	O
-Sriram	1120	1126	O
-&	1127	1128	O
-Whitt	1129	1134	O
-,	1134	1135	O
-1986	1136	1140	O
-)	1140	1141	O
-.	1141	1142	O
-
-This	1143	1147	O
-state	1148	1153	B-Process
-space	1154	1159	I-Process
-explosion	1160	1169	I-Process
-is	1170	1172	O
-an	1173	1175	O
-obstacle	1176	1184	O
-for	1185	1188	O
-the	1189	1192	O
-application	1193	1204	O
-of	1205	1207	O
-MMPPs	1208	1213	B-Material
-and	1214	1217	I-Material
-MAPs	1218	1222	I-Material
-to	1223	1225	O
-modeling	1226	1234	B-Task
-real	1235	1239	I-Task
-systems	1240	1247	I-Task
-;	1247	1248	O
-for	1249	1252	O
-example	1253	1260	O
-it	1261	1263	O
-considerably	1264	1276	O
-slows	1277	1282	O
-down	1283	1287	O
-,	1287	1288	O
-or	1289	1291	O
-even	1292	1296	O
-renders	1297	1304	O
-infeasible	1305	1315	O
-,	1315	1316	O
-the	1317	1320	O
-numerical	1321	1330	B-Task
-evaluation	1331	1341	I-Task
-of	1342	1344	I-Task
-queueing	1345	1353	I-Task
-models	1354	1360	I-Task
-by	1361	1363	O
-matrix	1364	1370	B-Task
-geometric	1371	1380	I-Task
-methods	1381	1388	I-Task
-(	1389	1390	O
-Bini	1390	1394	O
-,	1394	1395	O
-Meini	1396	1401	O
-,	1401	1402	O
-Steffé	1403	1409	O
-,	1409	1410	O
-Pérez	1411	1416	O
-,	1416	1417	O
-&	1418	1419	O
-Houdt	1420	1425	O
-,	1425	1426	O
-2012	1427	1431	O
-;	1431	1432	O
-Pérez	1433	1438	O
-,	1438	1439	O
-Velthoven	1440	1449	O
-,	1449	1450	O
-&	1451	1452	O
-Houdt	1453	1458	O
-,	1458	1459	O
-2008	1460	1464	O
-)	1464	1465	O
-.	1465	1466	O
+Two	0,3	O	B-Process
+-	3,4	O	I-Process
+state	4,9	O	I-Process
+models	10,16	O	I-Process
+are	17,20	O	O
+often	21,26	O	O
+insufficient	27,39	O	O
+to	40,42	O	O
+fit	43,46	O	O
+complex	47,54	O	O
+traces	55,61	O	O
+,	61,62	O	O
+therefore	63,72	O	O
+we	73,75	O	O
+also	76,80	O	O
+study	81,86	O	B-Task
+the	87,90	O	I-Task
+approximate	91,102	O	I-Task
+fitting	103,110	O	I-Task
+of	111,113	O	I-Task
+large	114,119	O	I-Task
+M3PPs	120,125	O	I-Task
+.	125,126	O	O
+
+In	127,129	O	O
+the	130,133	O	O
+single	134,140	O	O
+class	141,146	O	O
+setting	147,154	O	O
+,	154,155	O	O
+a	156,157	O	O
+known	158,163	O	O
+limitation	164,174	O	O
+of	175,177	O	O
+MMPPs	178,183	O	B-Material
+is	184,186	O	O
+the	187,190	O	O
+inability	191,200	O	O
+to	201,203	O	O
+simultaneously	204,218	O	O
+fit	219,222	O	O
+many	223,227	O	O
+statistical	228,239	O	B-Process
+descriptors	240,251	O	I-Process
+due	252,255	O	O
+to	256,258	O	O
+the	259,262	O	O
+non	263,266	O	O
+-	266,267	O	O
+linearity	267,276	O	O
+of	277,279	O	O
+their	280,285	O	O
+underlying	286,296	O	B-Process
+equations	297,306	O	I-Process
+(	307,308	O	O
+Bodrog	308,314	O	O
+,	314,315	O	O
+Heindl	316,322	O	O
+,	322,323	O	O
+Horváth	324,331	O	O
+,	331,332	O	O
+&	333,334	O	O
+Telek	335,340	O	O
+,	340,341	O	O
+2008	342,346	O	O
+;	346,347	O	O
+Heindl	348,354	O	O
+,	354,355	O	O
+Horváth	356,363	O	O
+,	363,364	O	O
+&	365,366	O	O
+Gross	367,372	O	O
+,	372,373	O	O
+2006	374,378	O	O
+;	378,379	O	O
+Horváth	380,387	O	O
+&	388,389	O	O
+Telek	390,395	O	O
+,	395,396	O	O
+2009	397,401	O	O
+)	401,402	O	O
+.	402,403	O	O
+
+This	404,408	O	O
+has	409,412	O	O
+led	413,416	O	O
+to	417,419	O	O
+the	420,423	O	O
+definition	424,434	O	O
+of	435,437	O	O
+several	438,445	O	O
+approaches	446,456	O	O
+to	457,459	O	O
+fit	460,463	O	O
+complex	464,471	O	O
+traces	472,478	O	O
+by	479,481	O	O
+composing	482,491	O	B-Process
+multiple	492,500	O	I-Process
+small	501,506	O	I-Process
+-	506,507	O	I-Process
+sized	507,512	O	I-Process
+MMPPs	513,518	O	I-Process
+or	519,521	O	I-Process
+MAPs	522,526	O	I-Process
+using	527,532	O	O
+Kronecker	533,542	O	B-Process
+operators	543,552	O	I-Process
+(	553,554	O	O
+Andersen	554,562	O	O
+&	563,564	O	O
+Nielsen	565,572	O	O
+,	572,573	O	O
+1998	574,578	O	O
+;	578,579	O	O
+Casale	580,586	O	O
+,	586,587	O	O
+Zhang	588,593	O	O
+,	593,594	O	O
+&	595,596	O	O
+Smirni	597,603	O	O
+,	603,604	O	O
+2010	605,609	O	O
+;	609,610	O	O
+Horváth	611,618	O	O
+&	619,620	O	O
+Telek	621,626	O	O
+,	626,627	O	O
+2002	628,632	O	O
+)	632,633	O	O
+.	633,634	O	O
+
+These	635,640	O	O
+methods	641,648	O	O
+employ	649,655	O	O
+composition	656,667	O	B-Process
+operators	668,677	O	I-Process
+for	678,681	O	O
+moment	682,688	O	O
+fitting	689,696	O	O
+,	696,697	O	O
+offering	698,706	O	O
+a	707,708	O	O
+different	709,718	O	O
+trade	719,724	O	O
+-	724,725	O	O
+off	725,728	O	O
+between	729,736	O	O
+computational	737,750	O	O
+cost	751,755	O	O
+and	756,759	O	O
+fitting	760,767	O	O
+accuracy	768,776	O	O
+compared	777,785	O	O
+to	786,788	O	O
+fitting	789,796	O	B-Task
+methods	797,804	O	I-Task
+based	805,810	O	O
+on	811,813	O	O
+the	814,817	O	O
+EM	818,820	O	B-Process
+algorithm	821,830	O	I-Process
+(	831,832	O	O
+Breuer	832,838	O	O
+,	838,839	O	O
+2002	840,844	O	O
+;	844,845	O	O
+Horváth	846,853	O	O
+&	854,855	O	O
+Okamura	856,863	O	O
+,	863,864	O	O
+2013	865,869	O	O
+;	869,870	O	O
+Klemm	871,876	O	O
+,	876,877	O	O
+Lindemann	878,887	O	O
+,	887,888	O	O
+&	889,890	O	O
+Lohmann	891,898	O	O
+,	898,899	O	O
+2003	900,904	O	O
+)	904,905	O	O
+.	905,906	O	O
+
+In	907,909	O	O
+particular	910,920	O	O
+,	920,921	O	O
+the	922,925	O	O
+superposition	926,939	O	B-Process
+operator	940,948	O	I-Process
+allows	949,955	O	O
+one	956,959	O	O
+to	960,962	O	O
+describe	963,971	O	O
+a	972,973	O	O
+trace	974,979	O	O
+by	980,982	O	O
+the	983,986	O	O
+statistical	987,998	O	B-Process
+multiplexing	999,1011	O	I-Process
+of	1012,1014	O	I-Process
+several	1015,1022	O	I-Process
+MMPPs	1023,1028	O	I-Process
+,	1028,1029	O	O
+at	1030,1032	O	O
+the	1033,1036	O	O
+expense	1037,1044	O	O
+of	1045,1047	O	O
+an	1048,1050	O	O
+exponential	1051,1062	O	O
+growth	1063,1069	O	O
+of	1070,1072	O	O
+the	1073,1076	O	O
+number	1077,1083	O	O
+of	1084,1086	O	O
+states	1087,1093	O	O
+in	1094,1096	O	O
+the	1097,1100	O	O
+resulting	1101,1110	O	O
+process	1111,1118	O	O
+(	1119,1120	O	O
+Sriram	1120,1126	O	O
+&	1127,1128	O	O
+Whitt	1129,1134	O	O
+,	1134,1135	O	O
+1986	1136,1140	O	O
+)	1140,1141	O	O
+.	1141,1142	O	O
+
+This	1143,1147	O	O
+state	1148,1153	O	B-Process
+space	1154,1159	O	I-Process
+explosion	1160,1169	O	I-Process
+is	1170,1172	O	O
+an	1173,1175	O	O
+obstacle	1176,1184	O	O
+for	1185,1188	O	O
+the	1189,1192	O	O
+application	1193,1204	O	O
+of	1205,1207	O	O
+MMPPs	1208,1213	O	B-Material
+and	1214,1217	O	I-Material
+MAPs	1218,1222	O	I-Material
+to	1223,1225	O	O
+modeling	1226,1234	O	B-Task
+real	1235,1239	O	I-Task
+systems	1240,1247	O	I-Task
+;	1247,1248	O	O
+for	1249,1252	O	O
+example	1253,1260	O	O
+it	1261,1263	O	O
+considerably	1264,1276	O	O
+slows	1277,1282	O	O
+down	1283,1287	O	O
+,	1287,1288	O	O
+or	1289,1291	O	O
+even	1292,1296	O	O
+renders	1297,1304	O	O
+infeasible	1305,1315	O	O
+,	1315,1316	O	O
+the	1317,1320	O	O
+numerical	1321,1330	O	B-Task
+evaluation	1331,1341	O	I-Task
+of	1342,1344	O	I-Task
+queueing	1345,1353	O	I-Task
+models	1354,1360	O	I-Task
+by	1361,1363	O	O
+matrix	1364,1370	O	B-Task
+geometric	1371,1380	O	I-Task
+methods	1381,1388	O	I-Task
+(	1389,1390	O	O
+Bini	1390,1394	O	O
+,	1394,1395	O	O
+Meini	1396,1401	O	O
+,	1401,1402	O	O
+Steffé	1403,1409	O	O
+,	1409,1410	O	O
+Pérez	1411,1416	O	O
+,	1416,1417	O	O
+&	1418,1419	O	O
+Houdt	1420,1425	O	O
+,	1425,1426	O	O
+2012	1427,1431	O	O
+;	1431,1432	O	O
+Pérez	1433,1438	O	O
+,	1438,1439	O	O
+Velthoven	1440,1449	O	O
+,	1449,1450	O	O
+&	1451,1452	O	O
+Houdt	1453,1458	O	O
+,	1458,1459	O	O
+2008	1460,1464	O	O
+)	1464,1465	O	O
+.	1465,1466	O	O
 
 
 -DOCSTART- (S0378381215300297)
 
-For	0	3	O
-mixtures	4	12	B-Material
-described	13	22	O
-by	23	25	O
-an	26	28	O
-equation	29	37	O
-of	38	40	O
-state	41	46	O
-,	46	47	O
-this	48	52	O
-calculation	53	64	O
-amounts	65	72	O
-to	73	75	O
-simultaneously	76	90	O
-solving	91	98	O
-the	99	102	O
-condition	103	112	O
-of	113	115	O
-thermal	116	123	O
-,	123	124	O
-mechanical	125	135	O
-and	136	139	O
-diffusive	140	149	O
-equilibria	150	160	O
-(	161	162	O
-equality	162	170	O
-of	171	173	O
-chemical	174	182	O
-potential	183	192	O
-)	192	193	O
-amongst	194	201	O
-two	202	205	O
-fluid	206	211	O
-phases	212	218	O
-for	219	222	O
-each	223	227	O
-component	228	237	O
-of	238	240	O
-the	241	244	O
-mixture	245	252	O
-.	252	253	O
-
-The	254	257	O
-analytical	258	268	O
-nature	269	275	O
-of	276	278	O
-this	279	283	O
-calculation	284	295	O
-lends	296	301	O
-itself	302	308	O
-to	309	311	O
-a	312	313	O
-reasonably	314	324	O
-rapid	325	330	O
-solution	331	339	O
-by	340	342	O
-numerical	343	352	B-Process
-methods	353	360	I-Process
-.	360	361	O
-
-In	362	364	O
-its	365	368	O
-most	369	373	O
-common	374	380	O
-form	381	385	O
-,	385	386	O
-the	387	390	O
-composition	391	402	O
-and	403	406	O
-temperature	407	418	O
-are	419	422	O
-fixed	423	428	O
-and	429	432	O
-the	433	436	O
-pressures	437	446	B-Material
-at	447	449	I-Material
-either	450	456	I-Material
-the	457	460	I-Material
-bubble	461	467	I-Material
-or	468	470	I-Material
-the	471	474	I-Material
-dew	475	478	I-Material
-point	479	484	I-Material
-are	485	488	O
-recursively	489	500	O
-calculated	501	511	O
-.	511	512	O
-
-The	513	516	O
-reader	517	523	O
-is	524	526	O
-referred	527	535	O
-to	536	538	O
-the	539	542	O
-excellent	543	552	O
-textbooks	553	562	O
-that	563	567	O
-describe	568	576	O
-the	577	580	O
-common	581	587	B-Process
-algorithms	588	598	I-Process
-employed	599	607	I-Process
-[	608	609	O
-80–82	609	614	O
-]	614	615	O
-.	615	616	O
-
-The	617	620	O
-quality	621	628	O
-of	629	631	O
-the	632	635	O
-result	636	642	O
-is	643	645	O
-obviously	646	655	O
-limited	656	663	O
-by	664	666	O
-the	667	670	O
-accuracy	671	679	O
-of	680	682	O
-the	683	686	O
-EoS	687	690	B-Process
-to	691	693	O
-faithfully	694	704	O
-represent	705	714	O
-fluid	715	720	B-Material
-mixtures	721	729	I-Material
-.	729	730	O
-
-Furthermore	731	742	O
-,	742	743	O
-the	744	747	O
-fact	748	752	O
-that	753	757	O
-some	758	762	O
-of	763	765	O
-the	766	769	O
-more	770	774	O
-interesting	775	786	O
-features	787	795	O
-of	796	798	O
-the	799	802	O
-phase	803	808	O
-diagram	809	816	O
-are	817	820	O
-close	821	826	O
-to	827	829	O
-the	830	833	O
-critical	834	842	O
-points	843	849	O
-of	850	852	O
-the	853	856	O
-mixture	857	864	O
-,	864	865	O
-make	866	870	O
-these	871	876	O
-calculations	877	889	O
-particularly	890	902	O
-challenging	903	914	O
-for	915	918	O
-all	919	922	O
-but	923	926	O
-the	927	930	O
-most	931	935	O
-optimized	936	945	O
-and	946	949	O
-force	950	955	O
--	955	956	O
-fitted	956	962	O
-of	963	965	O
-models	966	972	O
-.	972	973	O
+For	0,3	O	O
+mixtures	4,12	O	B-Material
+described	13,22	O	O
+by	23,25	O	O
+an	26,28	O	O
+equation	29,37	O	O
+of	38,40	O	O
+state	41,46	O	O
+,	46,47	O	O
+this	48,52	O	O
+calculation	53,64	O	O
+amounts	65,72	O	O
+to	73,75	O	O
+simultaneously	76,90	O	O
+solving	91,98	O	O
+the	99,102	O	O
+condition	103,112	O	O
+of	113,115	O	O
+thermal	116,123	O	O
+,	123,124	O	O
+mechanical	125,135	O	O
+and	136,139	O	O
+diffusive	140,149	O	O
+equilibria	150,160	O	O
+(	161,162	O	O
+equality	162,170	O	O
+of	171,173	O	O
+chemical	174,182	O	O
+potential	183,192	O	O
+)	192,193	O	O
+amongst	194,201	O	O
+two	202,205	O	O
+fluid	206,211	O	O
+phases	212,218	O	O
+for	219,222	O	O
+each	223,227	O	O
+component	228,237	O	O
+of	238,240	O	O
+the	241,244	O	O
+mixture	245,252	O	O
+.	252,253	O	O
+
+The	254,257	O	O
+analytical	258,268	O	O
+nature	269,275	O	O
+of	276,278	O	O
+this	279,283	O	O
+calculation	284,295	O	O
+lends	296,301	O	O
+itself	302,308	O	O
+to	309,311	O	O
+a	312,313	O	O
+reasonably	314,324	O	O
+rapid	325,330	O	O
+solution	331,339	O	O
+by	340,342	O	O
+numerical	343,352	O	B-Process
+methods	353,360	O	I-Process
+.	360,361	O	O
+
+In	362,364	O	O
+its	365,368	O	O
+most	369,373	O	O
+common	374,380	O	O
+form	381,385	O	O
+,	385,386	O	O
+the	387,390	O	O
+composition	391,402	O	O
+and	403,406	O	O
+temperature	407,418	O	O
+are	419,422	O	O
+fixed	423,428	O	O
+and	429,432	O	O
+the	433,436	O	O
+pressures	437,446	O	B-Material
+at	447,449	O	I-Material
+either	450,456	O	I-Material
+the	457,460	O	I-Material
+bubble	461,467	O	I-Material
+or	468,470	O	I-Material
+the	471,474	O	I-Material
+dew	475,478	O	I-Material
+point	479,484	O	I-Material
+are	485,488	O	O
+recursively	489,500	O	O
+calculated	501,511	O	O
+.	511,512	O	O
+
+The	513,516	O	O
+reader	517,523	O	O
+is	524,526	O	O
+referred	527,535	O	O
+to	536,538	O	O
+the	539,542	O	O
+excellent	543,552	O	O
+textbooks	553,562	O	O
+that	563,567	O	O
+describe	568,576	O	O
+the	577,580	O	O
+common	581,587	O	B-Process
+algorithms	588,598	O	I-Process
+employed	599,607	O	I-Process
+[	608,609	O	O
+80–82	609,614	O	O
+]	614,615	O	O
+.	615,616	O	O
+
+The	617,620	O	O
+quality	621,628	O	O
+of	629,631	O	O
+the	632,635	O	O
+result	636,642	O	O
+is	643,645	O	O
+obviously	646,655	O	O
+limited	656,663	O	O
+by	664,666	O	O
+the	667,670	O	O
+accuracy	671,679	O	O
+of	680,682	O	O
+the	683,686	O	O
+EoS	687,690	O	B-Process
+to	691,693	O	O
+faithfully	694,704	O	O
+represent	705,714	O	O
+fluid	715,720	O	B-Material
+mixtures	721,729	O	I-Material
+.	729,730	O	O
+
+Furthermore	731,742	O	O
+,	742,743	O	O
+the	744,747	O	O
+fact	748,752	O	O
+that	753,757	O	O
+some	758,762	O	O
+of	763,765	O	O
+the	766,769	O	O
+more	770,774	O	O
+interesting	775,786	O	O
+features	787,795	O	O
+of	796,798	O	O
+the	799,802	O	O
+phase	803,808	O	O
+diagram	809,816	O	O
+are	817,820	O	O
+close	821,826	O	O
+to	827,829	O	O
+the	830,833	O	O
+critical	834,842	O	O
+points	843,849	O	O
+of	850,852	O	O
+the	853,856	O	O
+mixture	857,864	O	O
+,	864,865	O	O
+make	866,870	O	O
+these	871,876	O	O
+calculations	877,889	O	O
+particularly	890,902	O	O
+challenging	903,914	O	O
+for	915,918	O	O
+all	919,922	O	O
+but	923,926	O	O
+the	927,930	O	O
+most	931,935	O	O
+optimized	936,945	O	O
+and	946,949	O	O
+force	950,955	O	O
+-	955,956	O	O
+fitted	956,962	O	O
+of	963,965	O	O
+models	966,972	O	O
+.	972,973	O	O
 
 
 -DOCSTART- (S0378381215300674)
 
-The	0	3	O
-next	4	8	O
-phase	9	14	O
-of	15	17	O
-our	18	21	O
-current	22	29	O
-study	30	35	O
-is	36	38	O
-to	39	41	O
-use	42	45	O
-the	46	49	O
-parameters	50	60	O
-obtained	61	69	O
-from	70	74	O
-pure	75	79	B-Process
--	79	80	I-Process
-component	80	89	I-Process
-systems	90	97	I-Process
-in	98	100	O
-a	101	102	O
-transferable	103	115	O
-manner	116	122	O
-to	123	125	O
-represent	126	135	O
-the	136	139	O
-corresponding	140	153	O
-mixtures	154	162	O
-.	162	163	O
-
-Mixtures	164	172	B-Material
-of	173	175	I-Material
-n	176	177	I-Material
--	177	178	I-Material
-alkanes	178	185	I-Material
-and	186	189	I-Material
-H2O	190	193	I-Material
-have	194	198	O
-been	199	203	O
-studied	204	211	O
-previously	212	222	O
-with	223	227	O
-SAFT-γ	228	234	B-Process
-SW	235	237	I-Process
-[	238	239	O
-82	239	241	O
-]	241	242	O
-.	242	243	O
-
-In	244	246	O
-general	247	254	O
-it	255	257	O
-is	258	260	O
-well	261	265	O
-known	266	271	O
-that	272	276	O
-the	277	280	O
-extreme	281	288	O
-nature	289	295	O
-of	296	298	O
-the	299	302	O
-phase	303	308	O
-separation	309	319	O
-[	320	321	O
-150	321	324	O
-]	324	325	O
-makes	326	331	O
-it	332	334	O
-challenging	335	346	O
-to	347	349	O
-model	350	355	O
-mixtures	356	364	B-Material
-of	365	367	I-Material
-H2O	368	371	I-Material
-with	372	376	O
-non	377	380	B-Process
--	380	381	I-Process
-polar	381	386	I-Process
-compounds	387	396	I-Process
-.	396	397	O
-
-Because	398	405	O
-of	406	408	O
-the	409	412	O
-large	413	418	O
-differences	419	430	O
-in	431	433	O
-the	434	437	O
-dielectric	438	448	O
-constant	449	457	O
-of	458	460	O
-the	461	464	O
-two	465	468	O
-phases	469	475	O
-as	476	478	O
-well	479	483	O
-as	484	486	O
-in	487	489	O
-the	490	493	O
-dipole	494	500	O
-moment	501	507	O
-of	508	510	O
-H2O	511	514	B-Material
-and	515	518	O
-the	519	522	O
-hydrophobic	523	534	B-Material
-molecules	535	544	I-Material
-,	544	545	O
-it	546	548	O
-especially	549	559	O
-difficult	560	569	O
-to	570	572	O
-obtain	573	579	O
-phase	580	585	O
--	585	586	O
-independent	586	597	O
-unlike	598	604	O
-interaction	605	616	O
-parameters	617	627	O
-[	628	629	O
-112	629	632	O
-]	632	633	O
-and	634	637	O
-thus	638	642	O
-to	643	645	O
-model	646	651	O
-simultaneously	652	666	O
-the	667	670	O
-equilibrium	671	682	O
-phases	683	689	O
-.	689	690	O
-
-In	691	693	O
-previous	694	702	O
-work	703	707	O
-[	708	709	O
-82	709	711	O
-]	711	712	O
-,	712	713	O
-emphasis	714	722	O
-was	723	726	O
-placed	727	733	O
-on	734	736	O
-obtaining	737	746	O
-an	747	749	O
-accurate	750	758	O
-description	759	770	B-Task
-of	771	773	I-Task
-the	774	777	I-Task
-alkane	778	784	I-Task
--	784	785	I-Task
-rich	785	789	I-Task
-phases	790	796	I-Task
-(	797	798	O
-both	798	802	O
-liquid	803	809	B-Material
-and	810	813	O
-vapour	814	820	B-Material
-)	820	821	O
-,	821	822	O
-while	823	828	O
-small	829	834	O
-absolute	835	843	O
-(	844	845	O
-but	845	848	O
-not	849	852	O
-relative	853	861	O
-)	861	862	O
-deviations	863	873	O
-for	874	877	O
-the	878	881	O
-aqueous	882	889	O
-phase	890	895	O
-composition	896	907	O
-were	908	912	O
-achieved	913	921	O
-.	921	922	O
-
-The	923	926	O
-systems	927	934	O
-of	935	937	O
-interest	938	946	O
-in	947	949	O
-our	950	953	O
-current	954	961	O
-work	962	966	O
-are	967	970	O
-typically	971	980	O
-aqueous	981	988	B-Material
-mixtures	989	997	I-Material
-containing	998	1008	O
-a	1009	1010	O
-high	1011	1015	O
-proportion	1016	1026	O
-of	1027	1029	O
-H2O	1030	1033	B-Material
-,	1033	1034	O
-alkylamine	1035	1045	B-Material
-,	1045	1046	O
-and	1047	1050	O
-CO2	1051	1054	B-Material
-.	1054	1055	O
-
-Consequently	1056	1068	O
-,	1068	1069	O
-in	1070	1072	O
-order	1073	1078	O
-to	1079	1081	O
-provide	1082	1089	O
-an	1090	1092	O
-improved	1093	1101	O
-overall	1102	1109	O
-description	1110	1121	O
-of	1122	1124	O
-the	1125	1128	O
-fluid	1129	1134	B-Process
--	1134	1135	I-Process
-phase	1135	1140	I-Process
-equilibria	1141	1151	I-Process
-at	1152	1154	O
-the	1155	1158	O
-conditions	1159	1169	O
-of	1170	1172	O
-interest	1173	1181	O
-,	1181	1182	O
-refinements	1183	1194	O
-have	1195	1199	O
-been	1200	1204	O
-made	1205	1209	O
-to	1210	1212	O
-the	1213	1216	O
-unlike	1217	1223	O
-parameters	1224	1234	O
-presented	1235	1244	O
-in	1245	1247	O
-the	1248	1251	O
-previous	1252	1260	O
-study	1261	1266	O
-[	1267	1268	O
-129	1268	1271	O
-]	1271	1272	O
-relating	1273	1281	O
-to	1282	1284	O
-the	1285	1288	O
-interactions	1289	1301	B-Process
-between	1302	1309	I-Process
-H2O	1310	1313	I-Process
-and	1314	1317	I-Process
-the	1318	1321	I-Process
-alkyl	1322	1327	I-Process
-groups	1328	1334	I-Process
-,	1334	1335	O
-CH3	1336	1339	B-Material
-and	1340	1343	I-Material
-CH2	1344	1347	I-Material
-,	1347	1348	O
-namely	1349	1355	O
-ϵCH3,H2O	1356	1364	B-Process
-,	1364	1365	I-Process
-ϵCH2,H2O	1366	1374	I-Process
-and	1375	1378	O
-λCH3,H2O	1379	1387	B-Process
-,	1387	1388	I-Process
-λCH2,H2O.	1389	1398	I-Process
+The	0,3	O	O
+next	4,8	O	O
+phase	9,14	O	O
+of	15,17	O	O
+our	18,21	O	O
+current	22,29	O	O
+study	30,35	O	O
+is	36,38	O	O
+to	39,41	O	O
+use	42,45	O	O
+the	46,49	O	O
+parameters	50,60	O	O
+obtained	61,69	O	O
+from	70,74	O	O
+pure	75,79	O	B-Process
+-	79,80	O	I-Process
+component	80,89	O	I-Process
+systems	90,97	O	I-Process
+in	98,100	O	O
+a	101,102	O	O
+transferable	103,115	O	O
+manner	116,122	O	O
+to	123,125	O	O
+represent	126,135	O	O
+the	136,139	O	O
+corresponding	140,153	O	O
+mixtures	154,162	O	O
+.	162,163	O	O
+
+Mixtures	164,172	O	B-Material
+of	173,175	O	I-Material
+n	176,177	O	I-Material
+-	177,178	O	I-Material
+alkanes	178,185	O	I-Material
+and	186,189	O	I-Material
+H2O	190,193	O	I-Material
+have	194,198	O	O
+been	199,203	O	O
+studied	204,211	O	O
+previously	212,222	O	O
+with	223,227	O	O
+SAFT-γ	228,234	O	B-Process
+SW	235,237	O	I-Process
+[	238,239	O	O
+82	239,241	O	O
+]	241,242	O	O
+.	242,243	O	O
+
+In	244,246	O	O
+general	247,254	O	O
+it	255,257	O	O
+is	258,260	O	O
+well	261,265	O	O
+known	266,271	O	O
+that	272,276	O	O
+the	277,280	O	O
+extreme	281,288	O	O
+nature	289,295	O	O
+of	296,298	O	O
+the	299,302	O	O
+phase	303,308	O	O
+separation	309,319	O	O
+[	320,321	O	O
+150	321,324	O	O
+]	324,325	O	O
+makes	326,331	O	O
+it	332,334	O	O
+challenging	335,346	O	O
+to	347,349	O	O
+model	350,355	O	O
+mixtures	356,364	O	B-Material
+of	365,367	O	I-Material
+H2O	368,371	O	I-Material
+with	372,376	O	O
+non	377,380	O	B-Process
+-	380,381	O	I-Process
+polar	381,386	O	I-Process
+compounds	387,396	O	I-Process
+.	396,397	O	O
+
+Because	398,405	O	O
+of	406,408	O	O
+the	409,412	O	O
+large	413,418	O	O
+differences	419,430	O	O
+in	431,433	O	O
+the	434,437	O	O
+dielectric	438,448	O	O
+constant	449,457	O	O
+of	458,460	O	O
+the	461,464	O	O
+two	465,468	O	O
+phases	469,475	O	O
+as	476,478	O	O
+well	479,483	O	O
+as	484,486	O	O
+in	487,489	O	O
+the	490,493	O	O
+dipole	494,500	O	O
+moment	501,507	O	O
+of	508,510	O	O
+H2O	511,514	O	B-Material
+and	515,518	O	O
+the	519,522	O	O
+hydrophobic	523,534	O	B-Material
+molecules	535,544	O	I-Material
+,	544,545	O	O
+it	546,548	O	O
+especially	549,559	O	O
+difficult	560,569	O	O
+to	570,572	O	O
+obtain	573,579	O	O
+phase	580,585	O	O
+-	585,586	O	O
+independent	586,597	O	O
+unlike	598,604	O	O
+interaction	605,616	O	O
+parameters	617,627	O	O
+[	628,629	O	O
+112	629,632	O	O
+]	632,633	O	O
+and	634,637	O	O
+thus	638,642	O	O
+to	643,645	O	O
+model	646,651	O	O
+simultaneously	652,666	O	O
+the	667,670	O	O
+equilibrium	671,682	O	O
+phases	683,689	O	O
+.	689,690	O	O
+
+In	691,693	O	O
+previous	694,702	O	O
+work	703,707	O	O
+[	708,709	O	O
+82	709,711	O	O
+]	711,712	O	O
+,	712,713	O	O
+emphasis	714,722	O	O
+was	723,726	O	O
+placed	727,733	O	O
+on	734,736	O	O
+obtaining	737,746	O	O
+an	747,749	O	O
+accurate	750,758	O	O
+description	759,770	O	B-Task
+of	771,773	O	I-Task
+the	774,777	O	I-Task
+alkane	778,784	O	I-Task
+-	784,785	O	I-Task
+rich	785,789	O	I-Task
+phases	790,796	O	I-Task
+(	797,798	O	O
+both	798,802	O	O
+liquid	803,809	O	B-Material
+and	810,813	O	O
+vapour	814,820	O	B-Material
+)	820,821	O	O
+,	821,822	O	O
+while	823,828	O	O
+small	829,834	O	O
+absolute	835,843	O	O
+(	844,845	O	O
+but	845,848	O	O
+not	849,852	O	O
+relative	853,861	O	O
+)	861,862	O	O
+deviations	863,873	O	O
+for	874,877	O	O
+the	878,881	O	O
+aqueous	882,889	O	O
+phase	890,895	O	O
+composition	896,907	O	O
+were	908,912	O	O
+achieved	913,921	O	O
+.	921,922	O	O
+
+The	923,926	O	O
+systems	927,934	O	O
+of	935,937	O	O
+interest	938,946	O	O
+in	947,949	O	O
+our	950,953	O	O
+current	954,961	O	O
+work	962,966	O	O
+are	967,970	O	O
+typically	971,980	O	O
+aqueous	981,988	O	B-Material
+mixtures	989,997	O	I-Material
+containing	998,1008	O	O
+a	1009,1010	O	O
+high	1011,1015	O	O
+proportion	1016,1026	O	O
+of	1027,1029	O	O
+H2O	1030,1033	O	B-Material
+,	1033,1034	O	O
+alkylamine	1035,1045	O	B-Material
+,	1045,1046	O	O
+and	1047,1050	O	O
+CO2	1051,1054	O	B-Material
+.	1054,1055	O	O
+
+Consequently	1056,1068	O	O
+,	1068,1069	O	O
+in	1070,1072	O	O
+order	1073,1078	O	O
+to	1079,1081	O	O
+provide	1082,1089	O	O
+an	1090,1092	O	O
+improved	1093,1101	O	O
+overall	1102,1109	O	O
+description	1110,1121	O	O
+of	1122,1124	O	O
+the	1125,1128	O	O
+fluid	1129,1134	O	B-Process
+-	1134,1135	O	I-Process
+phase	1135,1140	O	I-Process
+equilibria	1141,1151	O	I-Process
+at	1152,1154	O	O
+the	1155,1158	O	O
+conditions	1159,1169	O	O
+of	1170,1172	O	O
+interest	1173,1181	O	O
+,	1181,1182	O	O
+refinements	1183,1194	O	O
+have	1195,1199	O	O
+been	1200,1204	O	O
+made	1205,1209	O	O
+to	1210,1212	O	O
+the	1213,1216	O	O
+unlike	1217,1223	O	O
+parameters	1224,1234	O	O
+presented	1235,1244	O	O
+in	1245,1247	O	O
+the	1248,1251	O	O
+previous	1252,1260	O	O
+study	1261,1266	O	O
+[	1267,1268	O	O
+129	1268,1271	O	O
+]	1271,1272	O	O
+relating	1273,1281	O	O
+to	1282,1284	O	O
+the	1285,1288	O	O
+interactions	1289,1301	O	B-Process
+between	1302,1309	O	I-Process
+H2O	1310,1313	O	I-Process
+and	1314,1317	O	I-Process
+the	1318,1321	O	I-Process
+alkyl	1322,1327	O	I-Process
+groups	1328,1334	O	I-Process
+,	1334,1335	O	O
+CH3	1336,1339	O	B-Material
+and	1340,1343	O	I-Material
+CH2	1344,1347	O	I-Material
+,	1347,1348	O	O
+namely	1349,1355	O	O
+ϵCH3,H2O	1356,1364	O	B-Process
+,	1364,1365	O	I-Process
+ϵCH2,H2O	1366,1374	O	I-Process
+and	1375,1378	O	O
+λCH3,H2O	1379,1387	O	B-Process
+,	1387,1388	O	I-Process
+λCH2,H2O.	1389,1398	O	I-Process
 
 
 -DOCSTART- (S0378381215301291)
 
-Recently	0	8	O
-,	8	9	O
-fundamental	10	21	O
-(	22	23	O
-thermophysical	23	37	O
-property	38	46	O
-)	46	47	O
-research	48	56	O
-on	57	59	O
-ionic	60	65	B-Material
-clathrate	66	75	I-Material
-hydrates	76	84	I-Material
-has	85	88	O
-experienced	89	100	O
-remarkable	101	111	O
-growth	112	118	O
-,	118	119	O
-particularly	120	132	O
-over	133	137	O
-the	138	141	O
-last	142	146	O
-ten	147	150	O
-years	151	156	O
-[	157	158	O
-21–30	158	163	O
-]	163	164	O
-.	164	165	O
-
-Previously	166	176	O
-,	176	177	O
-beginning	178	187	O
-with	188	192	O
-the	193	196	O
-first	197	202	O
-paper	203	208	O
-on	209	211	O
-unusual	212	219	B-Material
-hydrates	220	228	I-Material
-of	229	231	I-Material
-tetrabutylammonium	232	250	I-Material
-salts	251	256	I-Material
-in	257	259	O
-1940	260	264	O
-[	265	266	O
-31	266	268	O
-]	268	269	O
-,	269	270	O
-a	271	272	O
-number	273	279	O
-of	280	282	O
-studies	283	290	O
-could	291	296	O
-be	297	299	O
-found	300	305	O
-on	306	308	O
-ionic	309	314	B-Material
-clathrate	315	324	I-Material
-hydrates	325	333	I-Material
-(	334	335	O
-hereafter	335	344	O
-,	344	345	O
-semiclathrate	346	359	B-Material
-hydrates	360	368	I-Material
-)	368	369	O
-[	370	371	O
-32–35	371	376	O
-]	376	377	O
-before	378	384	O
-the	385	388	O
-unified	389	396	O
-terminology	397	408	O
-semiclathrate	409	422	B-Material
-hydrate	423	430	I-Material
-was	431	434	O
-generally	435	444	O
-accepted	445	453	O
-.	453	454	O
-
-Semiclathrate	455	468	B-Material
-hydrates	469	477	I-Material
-have	478	482	O
-been	483	487	O
-attracting	488	498	O
-increased	499	508	O
-attention	509	518	O
-because	519	526	O
-of	527	529	O
-their	530	535	O
-promising	536	545	O
-applications	546	558	O
-as	559	561	O
-phase	562	567	B-Process
-change	568	574	I-Process
-materials	575	584	I-Process
-for	585	588	I-Process
-refrigeration	589	602	I-Process
-systems	603	610	I-Process
-and	611	614	O
-in	615	617	O
-gas	618	621	B-Process
-capture	622	629	I-Process
-and	630	633	I-Process
-storage	634	641	I-Process
-[	642	643	O
-36–41	643	648	O
-]	648	649	O
-.	649	650	O
-
-In	651	653	O
-addition	654	662	O
-,	662	663	O
-there	664	669	O
-is	670	672	O
-interesting	673	684	O
-speculation	685	696	O
-that	697	701	O
-semiclathrate	702	715	B-Material
-hydrate	716	723	I-Material
-may	724	727	O
-be	728	730	O
-regarded	731	739	O
-as	740	742	O
-a	743	744	O
-representative	745	759	O
-substance	760	769	O
-for	770	773	O
-the	774	777	O
-study	778	783	B-Task
-of	784	786	I-Task
-thermal	787	794	I-Task
-conductivity	795	807	I-Task
-in	808	810	O
-clathrate	811	820	O
-hydrate	821	828	O
-in	829	831	O
-general	832	839	O
-.	839	840	O
-
-This	841	845	O
-is	846	848	O
-because	849	856	O
-:	856	857	O
-(	858	859	O
-1	859	860	O
-)	860	861	O
-it	862	864	O
-can	865	868	O
-reduce	869	875	O
-characterization	876	892	O
-problems	893	901	O
-as	902	904	O
-a	905	906	O
-solid	907	912	O
-sample	913	919	O
-,	919	920	O
-since	921	926	O
-semiclathrate	927	940	B-Material
-hydrate	941	948	I-Material
-is	949	951	O
-formed	952	958	O
-around	959	965	O
-ambient	966	973	O
-temperature	974	985	O
-under	986	991	O
-atmospheric	992	1003	O
-pressure	1004	1012	O
-and	1013	1016	O
-is	1017	1019	O
-easy	1020	1024	O
-to	1025	1027	O
-handle	1028	1034	O
-;	1034	1035	O
-(	1036	1037	O
-2	1037	1038	O
-)	1038	1039	O
-accurately	1040	1050	O
-measuring	1051	1060	B-Task
-the	1061	1064	I-Task
-thermal	1065	1072	I-Task
-conductivity	1073	1085	I-Task
-of	1086	1088	O
-semiclathrate	1089	1102	B-Material
-hydrates	1103	1111	I-Material
-,	1111	1112	O
-which	1113	1118	O
-have	1119	1123	O
-many	1124	1128	O
-similarities	1129	1141	O
-to	1142	1144	O
-clathrate	1145	1154	B-Material
-hydrates	1155	1163	I-Material
-,	1163	1164	O
-may	1165	1168	O
-make	1169	1173	O
-possible	1174	1182	O
-a	1183	1184	O
-deeper	1185	1191	O
-understanding	1192	1205	O
-of	1206	1208	O
-the	1209	1212	O
-unique	1213	1219	O
-(	1220	1221	O
-anomalous	1221	1230	O
-)	1230	1231	O
-behavior	1232	1240	O
-of	1241	1243	O
-the	1244	1247	O
-thermal	1248	1255	B-Process
-conductivity	1256	1268	I-Process
-of	1269	1271	O
-clathrate	1272	1281	B-Material
-hydrates	1282	1290	I-Material
-;	1290	1291	O
-and	1292	1295	O
-(	1296	1297	O
-3	1297	1298	O
-)	1298	1299	O
-currently	1300	1309	O
-,	1309	1310	O
-there	1311	1316	O
-are	1317	1320	O
-no	1321	1323	O
-experimental	1324	1336	O
-studies	1337	1344	O
-on	1345	1347	O
-the	1348	1351	O
-thermal	1352	1359	O
-conductivity	1360	1372	O
-of	1373	1375	O
-semiclathrate	1376	1389	B-Material
-hydrates	1390	1398	I-Material
-.	1398	1399	O
+Recently	0,8	O	O
+,	8,9	O	O
+fundamental	10,21	O	O
+(	22,23	O	O
+thermophysical	23,37	O	O
+property	38,46	O	O
+)	46,47	O	O
+research	48,56	O	O
+on	57,59	O	O
+ionic	60,65	O	B-Material
+clathrate	66,75	O	I-Material
+hydrates	76,84	O	I-Material
+has	85,88	O	O
+experienced	89,100	O	O
+remarkable	101,111	O	O
+growth	112,118	O	O
+,	118,119	O	O
+particularly	120,132	O	O
+over	133,137	O	O
+the	138,141	O	O
+last	142,146	O	O
+ten	147,150	O	O
+years	151,156	O	O
+[	157,158	O	O
+21–30	158,163	O	O
+]	163,164	O	O
+.	164,165	O	O
+
+Previously	166,176	O	O
+,	176,177	O	O
+beginning	178,187	O	O
+with	188,192	O	O
+the	193,196	O	O
+first	197,202	O	O
+paper	203,208	O	O
+on	209,211	O	O
+unusual	212,219	O	B-Material
+hydrates	220,228	O	I-Material
+of	229,231	O	I-Material
+tetrabutylammonium	232,250	O	I-Material
+salts	251,256	O	I-Material
+in	257,259	O	O
+1940	260,264	O	O
+[	265,266	O	O
+31	266,268	O	O
+]	268,269	O	O
+,	269,270	O	O
+a	271,272	O	O
+number	273,279	O	O
+of	280,282	O	O
+studies	283,290	O	O
+could	291,296	O	O
+be	297,299	O	O
+found	300,305	O	O
+on	306,308	O	O
+ionic	309,314	O	B-Material
+clathrate	315,324	O	I-Material
+hydrates	325,333	O	I-Material
+(	334,335	O	O
+hereafter	335,344	O	O
+,	344,345	O	O
+semiclathrate	346,359	O	B-Material
+hydrates	360,368	O	I-Material
+)	368,369	O	O
+[	370,371	O	O
+32–35	371,376	O	O
+]	376,377	O	O
+before	378,384	O	O
+the	385,388	O	O
+unified	389,396	O	O
+terminology	397,408	O	O
+semiclathrate	409,422	O	B-Material
+hydrate	423,430	O	I-Material
+was	431,434	O	O
+generally	435,444	O	O
+accepted	445,453	O	O
+.	453,454	O	O
+
+Semiclathrate	455,468	O	B-Material
+hydrates	469,477	O	I-Material
+have	478,482	O	O
+been	483,487	O	O
+attracting	488,498	O	O
+increased	499,508	O	O
+attention	509,518	O	O
+because	519,526	O	O
+of	527,529	O	O
+their	530,535	O	O
+promising	536,545	O	O
+applications	546,558	O	O
+as	559,561	O	O
+phase	562,567	O	B-Process
+change	568,574	O	I-Process
+materials	575,584	O	I-Process
+for	585,588	O	I-Process
+refrigeration	589,602	O	I-Process
+systems	603,610	O	I-Process
+and	611,614	O	O
+in	615,617	O	O
+gas	618,621	O	B-Process
+capture	622,629	O	I-Process
+and	630,633	O	I-Process
+storage	634,641	O	I-Process
+[	642,643	O	O
+36–41	643,648	O	O
+]	648,649	O	O
+.	649,650	O	O
+
+In	651,653	O	O
+addition	654,662	O	O
+,	662,663	O	O
+there	664,669	O	O
+is	670,672	O	O
+interesting	673,684	O	O
+speculation	685,696	O	O
+that	697,701	O	O
+semiclathrate	702,715	O	B-Material
+hydrate	716,723	O	I-Material
+may	724,727	O	O
+be	728,730	O	O
+regarded	731,739	O	O
+as	740,742	O	O
+a	743,744	O	O
+representative	745,759	O	O
+substance	760,769	O	O
+for	770,773	O	O
+the	774,777	O	O
+study	778,783	O	B-Task
+of	784,786	O	I-Task
+thermal	787,794	O	I-Task
+conductivity	795,807	O	I-Task
+in	808,810	O	O
+clathrate	811,820	O	O
+hydrate	821,828	O	O
+in	829,831	O	O
+general	832,839	O	O
+.	839,840	O	O
+
+This	841,845	O	O
+is	846,848	O	O
+because	849,856	O	O
+:	856,857	O	O
+(	858,859	O	O
+1	859,860	O	O
+)	860,861	O	O
+it	862,864	O	O
+can	865,868	O	O
+reduce	869,875	O	O
+characterization	876,892	O	O
+problems	893,901	O	O
+as	902,904	O	O
+a	905,906	O	O
+solid	907,912	O	O
+sample	913,919	O	O
+,	919,920	O	O
+since	921,926	O	O
+semiclathrate	927,940	O	B-Material
+hydrate	941,948	O	I-Material
+is	949,951	O	O
+formed	952,958	O	O
+around	959,965	O	O
+ambient	966,973	O	O
+temperature	974,985	O	O
+under	986,991	O	O
+atmospheric	992,1003	O	O
+pressure	1004,1012	O	O
+and	1013,1016	O	O
+is	1017,1019	O	O
+easy	1020,1024	O	O
+to	1025,1027	O	O
+handle	1028,1034	O	O
+;	1034,1035	O	O
+(	1036,1037	O	O
+2	1037,1038	O	O
+)	1038,1039	O	O
+accurately	1040,1050	O	O
+measuring	1051,1060	O	B-Task
+the	1061,1064	O	I-Task
+thermal	1065,1072	O	I-Task
+conductivity	1073,1085	O	I-Task
+of	1086,1088	O	O
+semiclathrate	1089,1102	O	B-Material
+hydrates	1103,1111	O	I-Material
+,	1111,1112	O	O
+which	1113,1118	O	O
+have	1119,1123	O	O
+many	1124,1128	O	O
+similarities	1129,1141	O	O
+to	1142,1144	O	O
+clathrate	1145,1154	O	B-Material
+hydrates	1155,1163	O	I-Material
+,	1163,1164	O	O
+may	1165,1168	O	O
+make	1169,1173	O	O
+possible	1174,1182	O	O
+a	1183,1184	O	O
+deeper	1185,1191	O	O
+understanding	1192,1205	O	O
+of	1206,1208	O	O
+the	1209,1212	O	O
+unique	1213,1219	O	O
+(	1220,1221	O	O
+anomalous	1221,1230	O	O
+)	1230,1231	O	O
+behavior	1232,1240	O	O
+of	1241,1243	O	O
+the	1244,1247	O	O
+thermal	1248,1255	O	B-Process
+conductivity	1256,1268	O	I-Process
+of	1269,1271	O	O
+clathrate	1272,1281	O	B-Material
+hydrates	1282,1290	O	I-Material
+;	1290,1291	O	O
+and	1292,1295	O	O
+(	1296,1297	O	O
+3	1297,1298	O	O
+)	1298,1299	O	O
+currently	1300,1309	O	O
+,	1309,1310	O	O
+there	1311,1316	O	O
+are	1317,1320	O	O
+no	1321,1323	O	O
+experimental	1324,1336	O	O
+studies	1337,1344	O	O
+on	1345,1347	O	O
+the	1348,1351	O	O
+thermal	1352,1359	O	O
+conductivity	1360,1372	O	O
+of	1373,1375	O	O
+semiclathrate	1376,1389	O	B-Material
+hydrates	1390,1398	O	I-Material
+.	1398,1399	O	O
 
 
 -DOCSTART- (S0379711213001653)
 
-With	0	4	O
-development	5	16	O
-of	17	19	O
-performance	20	31	B-Task
--	31	32	I-Task
-based	32	37	I-Task
-design	38	44	I-Task
-,	44	45	O
-some	46	50	O
-studies	51	58	O
-have	59	63	O
-been	64	68	O
-conducted	69	78	O
-on	79	81	O
-fire	82	86	O
-risk	87	91	O
-analysis	92	100	O
-in	101	103	O
-buildings	104	113	O
-from	114	118	O
-different	119	128	O
-perspectives	129	141	O
-and	142	145	O
-levels	146	152	O
-.	152	153	O
-
-Models	154	160	B-Process
-such	161	165	O
-as	166	168	O
-FiRECAM	169	176	B-Process
-
-[	177	178	O
-11,12	178	183	O
-]	183	184	O
-and	185	188	O
-FiERAsystem	189	200	B-Process
-[	201	202	O
-13	202	204	O
-]	204	205	O
-were	206	210	O
-used	211	215	O
-to	216	218	O
-calculate	219	228	O
-the	229	232	O
-expected	233	241	O
-life	242	246	O
-risk	247	251	O
-.	251	252	O
-
-In	253	255	O
-other	256	261	O
-studies	262	269	O
-probabilistic	270	283	B-Process
-methods	284	291	I-Process
-have	292	296	O
-been	297	301	O
-used	302	306	O
-to	307	309	O
-assess	310	316	O
-levels	317	323	O
-of	324	326	O
-people	327	333	O
-safety	334	340	O
-in	341	343	O
-buildings	344	353	O
-[	354	355	O
-14	355	357	O
-]	357	358	O
-.	358	359	O
-
-Quantitative	360	372	B-Process
-risk	373	377	I-Process
-analysis	378	386	I-Process
-approaches	387	397	I-Process
-have	398	402	O
-also	403	407	O
-been	408	412	O
-used	413	417	O
-to	418	420	O
-quantify	421	429	O
-the	430	433	O
-risk	434	438	O
-to	439	441	O
-occupants	442	451	O
-using	452	457	O
-stochastic	458	468	B-Process
-factors	469	476	I-Process
-[	477	478	O
-15	478	480	O
-]	480	481	O
-.	481	482	O
-
-However	483	490	O
-,	490	491	O
-studies	492	499	O
-to	500	502	O
-date	503	507	O
-have	508	512	O
-largely	513	520	O
-been	521	525	O
-concerned	526	535	O
-with	536	540	O
-various	541	548	O
-aspects	549	556	B-Material
-of	557	559	I-Material
-fire	560	564	I-Material
-risk	565	569	I-Material
-analysis	570	578	I-Material
-and	579	582	O
-there	583	588	O
-has	589	592	O
-been	593	597	O
-little	598	604	O
-in	605	607	O
-the	608	611	O
-way	612	615	O
-of	616	618	O
-development	619	630	O
-of	631	633	O
-systematic	634	644	B-Process
-theoretical	645	656	I-Process
-methods	657	664	I-Process
-for	665	668	O
-analyzing	669	678	O
-fire	679	683	O
-risk	684	688	O
-in	689	691	O
-buildings	692	701	O
-in	702	704	O
-terms	705	710	O
-of	711	713	O
-fire	714	718	O
-risk	719	723	O
-management	724	734	O
-.	734	735	O
-
-Existing	736	744	O
-fire	745	749	O
-risk	750	754	O
-management	755	765	O
-involves	766	774	O
-the	775	778	O
-identification	779	793	B-Process
-of	794	796	I-Process
-alternative	797	808	I-Process
-fire	809	813	I-Process
-safety	814	820	I-Process
-design	821	827	I-Process
-options	828	835	I-Process
-[	836	837	O
-16,17	837	842	O
-]	842	843	O
-,	843	844	O
-the	845	848	O
-ongoing	849	856	B-Process
-inspection	857	867	I-Process
-,	867	868	O
-maintenance	869	880	B-Process
-of	881	883	I-Process
-fire	884	888	I-Process
-protection	889	899	I-Process
-systems	900	907	I-Process
-[	908	909	O
-18	909	911	O
-]	911	912	O
-and	913	916	O
-evacuation	917	927	B-Process
-training	928	936	I-Process
-and	937	940	I-Process
-drills	941	947	I-Process
-[	948	949	O
-19	949	951	O
-]	951	952	O
-.	952	953	O
-
-In	954	956	O
-this	957	961	O
-study	962	967	O
-,	967	968	O
-basic	969	974	B-Material
-process	975	982	I-Material
-of	983	985	I-Material
-fire	986	990	I-Material
-risk	991	995	I-Material
-analysis	996	1004	I-Material
-in	1005	1007	O
-building	1008	1016	O
-is	1017	1019	O
-described	1020	1029	O
-,	1029	1030	O
-and	1031	1034	O
-a	1035	1036	O
-fire	1037	1041	O
-risk	1042	1046	O
-analysis	1047	1055	O
-model	1056	1061	O
-based	1062	1067	O
-on	1068	1070	O
-scenario	1071	1079	O
-clusters	1080	1088	O
-is	1089	1091	O
-established	1092	1103	O
-with	1104	1108	O
-consideration	1109	1122	O
-of	1123	1125	O
-the	1126	1129	O
-characteristics	1130	1145	O
-of	1146	1148	O
-fire	1149	1153	O
-dynamics	1154	1162	O
-and	1163	1166	O
-occupants	1167	1176	O
-'	1176	1177	O
-behavior	1178	1186	O
-.	1186	1187	O
-
-The	1188	1191	O
-number	1192	1198	B-Material
-of	1199	1201	I-Material
-deaths	1202	1208	I-Material
-and	1209	1212	I-Material
-directive	1213	1222	I-Material
-property	1223	1231	I-Material
-loss	1232	1236	I-Material
-are	1237	1240	O
-selected	1241	1249	O
-as	1250	1252	O
-fire	1253	1257	O
-risk	1258	1262	O
-indices	1263	1270	O
-and	1271	1274	O
-the	1275	1278	O
-average	1279	1286	B-Material
-fire	1287	1291	I-Material
-risk	1292	1296	I-Material
-of	1297	1299	O
-residential	1300	1311	O
-buildings	1312	1321	O
-is	1322	1324	O
-quantitatively	1325	1339	O
-analyzed	1340	1348	O
-,	1348	1349	O
-so	1350	1352	O
-that	1353	1357	O
-appropriate	1358	1369	O
-fire	1370	1374	O
-risk	1375	1379	O
-management	1380	1390	O
-measures	1391	1399	O
-can	1400	1403	O
-be	1404	1406	O
-adopted	1407	1414	O
-.	1414	1415	O
+With	0,4	O	O
+development	5,16	O	O
+of	17,19	O	O
+performance	20,31	O	B-Task
+-	31,32	O	I-Task
+based	32,37	O	I-Task
+design	38,44	O	I-Task
+,	44,45	O	O
+some	46,50	O	O
+studies	51,58	O	O
+have	59,63	O	O
+been	64,68	O	O
+conducted	69,78	O	O
+on	79,81	O	O
+fire	82,86	O	O
+risk	87,91	O	O
+analysis	92,100	O	O
+in	101,103	O	O
+buildings	104,113	O	O
+from	114,118	O	O
+different	119,128	O	O
+perspectives	129,141	O	O
+and	142,145	O	O
+levels	146,152	O	O
+.	152,153	O	O
+
+Models	154,160	O	B-Process
+such	161,165	O	O
+as	166,168	O	O
+FiRECAM	169,176	O	B-Process
+
+[	177,178	O	O
+11,12	178,183	O	O
+]	183,184	O	O
+and	185,188	O	O
+FiERAsystem	189,200	O	B-Process
+[	201,202	O	O
+13	202,204	O	O
+]	204,205	O	O
+were	206,210	O	O
+used	211,215	O	O
+to	216,218	O	O
+calculate	219,228	O	O
+the	229,232	O	O
+expected	233,241	O	O
+life	242,246	O	O
+risk	247,251	O	O
+.	251,252	O	O
+
+In	253,255	O	O
+other	256,261	O	O
+studies	262,269	O	O
+probabilistic	270,283	O	B-Process
+methods	284,291	O	I-Process
+have	292,296	O	O
+been	297,301	O	O
+used	302,306	O	O
+to	307,309	O	O
+assess	310,316	O	O
+levels	317,323	O	O
+of	324,326	O	O
+people	327,333	O	O
+safety	334,340	O	O
+in	341,343	O	O
+buildings	344,353	O	O
+[	354,355	O	O
+14	355,357	O	O
+]	357,358	O	O
+.	358,359	O	O
+
+Quantitative	360,372	O	B-Process
+risk	373,377	O	I-Process
+analysis	378,386	O	I-Process
+approaches	387,397	O	I-Process
+have	398,402	O	O
+also	403,407	O	O
+been	408,412	O	O
+used	413,417	O	O
+to	418,420	O	O
+quantify	421,429	O	O
+the	430,433	O	O
+risk	434,438	O	O
+to	439,441	O	O
+occupants	442,451	O	O
+using	452,457	O	O
+stochastic	458,468	O	B-Process
+factors	469,476	O	I-Process
+[	477,478	O	O
+15	478,480	O	O
+]	480,481	O	O
+.	481,482	O	O
+
+However	483,490	O	O
+,	490,491	O	O
+studies	492,499	O	O
+to	500,502	O	O
+date	503,507	O	O
+have	508,512	O	O
+largely	513,520	O	O
+been	521,525	O	O
+concerned	526,535	O	O
+with	536,540	O	O
+various	541,548	O	O
+aspects	549,556	O	B-Material
+of	557,559	O	I-Material
+fire	560,564	O	I-Material
+risk	565,569	O	I-Material
+analysis	570,578	O	I-Material
+and	579,582	O	O
+there	583,588	O	O
+has	589,592	O	O
+been	593,597	O	O
+little	598,604	O	O
+in	605,607	O	O
+the	608,611	O	O
+way	612,615	O	O
+of	616,618	O	O
+development	619,630	O	O
+of	631,633	O	O
+systematic	634,644	O	B-Process
+theoretical	645,656	O	I-Process
+methods	657,664	O	I-Process
+for	665,668	O	O
+analyzing	669,678	O	O
+fire	679,683	O	O
+risk	684,688	O	O
+in	689,691	O	O
+buildings	692,701	O	O
+in	702,704	O	O
+terms	705,710	O	O
+of	711,713	O	O
+fire	714,718	O	O
+risk	719,723	O	O
+management	724,734	O	O
+.	734,735	O	O
+
+Existing	736,744	O	O
+fire	745,749	O	O
+risk	750,754	O	O
+management	755,765	O	O
+involves	766,774	O	O
+the	775,778	O	O
+identification	779,793	O	B-Process
+of	794,796	O	I-Process
+alternative	797,808	O	I-Process
+fire	809,813	O	I-Process
+safety	814,820	O	I-Process
+design	821,827	O	I-Process
+options	828,835	O	I-Process
+[	836,837	O	O
+16,17	837,842	O	O
+]	842,843	O	O
+,	843,844	O	O
+the	845,848	O	O
+ongoing	849,856	O	B-Process
+inspection	857,867	O	I-Process
+,	867,868	O	O
+maintenance	869,880	O	B-Process
+of	881,883	O	I-Process
+fire	884,888	O	I-Process
+protection	889,899	O	I-Process
+systems	900,907	O	I-Process
+[	908,909	O	O
+18	909,911	O	O
+]	911,912	O	O
+and	913,916	O	O
+evacuation	917,927	O	B-Process
+training	928,936	O	I-Process
+and	937,940	O	I-Process
+drills	941,947	O	I-Process
+[	948,949	O	O
+19	949,951	O	O
+]	951,952	O	O
+.	952,953	O	O
+
+In	954,956	O	O
+this	957,961	O	O
+study	962,967	O	O
+,	967,968	O	O
+basic	969,974	O	B-Material
+process	975,982	O	I-Material
+of	983,985	O	I-Material
+fire	986,990	O	I-Material
+risk	991,995	O	I-Material
+analysis	996,1004	O	I-Material
+in	1005,1007	O	O
+building	1008,1016	O	O
+is	1017,1019	O	O
+described	1020,1029	O	O
+,	1029,1030	O	O
+and	1031,1034	O	O
+a	1035,1036	O	O
+fire	1037,1041	O	O
+risk	1042,1046	O	O
+analysis	1047,1055	O	O
+model	1056,1061	O	O
+based	1062,1067	O	O
+on	1068,1070	O	O
+scenario	1071,1079	O	O
+clusters	1080,1088	O	O
+is	1089,1091	O	O
+established	1092,1103	O	O
+with	1104,1108	O	O
+consideration	1109,1122	O	O
+of	1123,1125	O	O
+the	1126,1129	O	O
+characteristics	1130,1145	O	O
+of	1146,1148	O	O
+fire	1149,1153	O	O
+dynamics	1154,1162	O	O
+and	1163,1166	O	O
+occupants	1167,1176	O	O
+'	1176,1177	O	O
+behavior	1178,1186	O	O
+.	1186,1187	O	O
+
+The	1188,1191	O	O
+number	1192,1198	O	B-Material
+of	1199,1201	O	I-Material
+deaths	1202,1208	O	I-Material
+and	1209,1212	O	I-Material
+directive	1213,1222	O	I-Material
+property	1223,1231	O	I-Material
+loss	1232,1236	O	I-Material
+are	1237,1240	O	O
+selected	1241,1249	O	O
+as	1250,1252	O	O
+fire	1253,1257	O	O
+risk	1258,1262	O	O
+indices	1263,1270	O	O
+and	1271,1274	O	O
+the	1275,1278	O	O
+average	1279,1286	O	B-Material
+fire	1287,1291	O	I-Material
+risk	1292,1296	O	I-Material
+of	1297,1299	O	O
+residential	1300,1311	O	O
+buildings	1312,1321	O	O
+is	1322,1324	O	O
+quantitatively	1325,1339	O	O
+analyzed	1340,1348	O	O
+,	1348,1349	O	O
+so	1350,1352	O	O
+that	1353,1357	O	O
+appropriate	1358,1369	O	O
+fire	1370,1374	O	O
+risk	1375,1379	O	O
+management	1380,1390	O	O
+measures	1391,1399	O	O
+can	1400,1403	O	O
+be	1404,1406	O	O
+adopted	1407,1414	O	O
+.	1414,1415	O	O
 
 
 -DOCSTART- (S0379711215000223)
 
-The	0	3	O
-mentioned	4	13	O
-difficulties	14	26	O
-associated	27	37	O
-with	38	42	O
-the	43	46	O
-calibration	47	58	B-Process
-process	59	66	I-Process
-inspired	67	75	O
-the	76	79	O
-concept	80	87	O
-of	88	90	O
-inverse	91	98	B-Task
-modelling	99	108	I-Task
-.	108	109	O
-
-In	110	112	O
-this	113	117	O
-case	118	122	O
-,	122	123	O
-the	124	127	O
-experimental	128	140	B-Material
-data	141	145	I-Material
-become	146	152	O
-entirely	153	161	O
-integrated	162	172	O
-in	173	175	O
-the	176	179	O
-calibration	180	191	B-Process
-process	192	199	I-Process
-and	200	203	O
-an	204	206	O
-optimization	207	219	B-Process
-routine	220	227	I-Process
-is	228	230	O
-used	231	235	O
-to	236	238	O
-quantify	239	247	B-Task
-the	248	251	I-Task
-best	252	256	I-Task
-set	257	260	I-Task
-of	261	263	I-Task
-parameters	264	274	I-Task
-which	275	280	O
-explain	281	288	O
-the	289	292	O
-observed	293	301	O
-pyrolysis	302	311	B-Task
-behaviour	312	321	I-Task
-(	322	323	O
-i.e.	323	327	O
-multivariable	328	341	B-Task
-curve	342	347	I-Task
-fitting	348	355	I-Task
-)	355	356	O
-.	356	357	O
-
-The	358	361	O
-most	362	366	O
-used	367	371	O
-experimental	372	384	B-Material
-data	385	389	I-Material
-for	390	393	O
-model	394	399	B-Process
-calibration	400	411	I-Process
-have	412	416	O
-been	417	421	O
-the	422	425	O
-mass	426	430	B-Process
-loss	431	435	I-Process
-rate	436	440	I-Process
-and	441	444	O
-the	445	448	O
-surface	449	456	B-Process
-temperature	457	468	I-Process
-[	469	470	I-Process
-10–12	470	475	O
-]	475	476	O
-.	476	477	O
-
-The	478	481	O
-optimization	482	494	B-Process
-technique	495	504	I-Process
-used	505	509	O
-is	510	512	O
-function	513	521	O
-of	522	524	O
-the	525	528	O
-number	529	535	O
-of	536	538	O
-variables	539	548	O
-and	549	552	O
-their	553	558	O
-interactions	559	571	O
-.	571	572	O
-
-In	573	575	O
-the	576	579	O
-past	580	584	O
-,	584	585	O
-only	586	590	O
-the	591	594	O
-few	595	598	O
-most	599	603	O
-uncertain	604	613	O
-parameters	614	624	B-Process
-(	625	626	O
-i.e.	626	630	O
-the	631	634	O
-kinetics	635	643	B-Process
-parameters	644	654	I-Process
-)	654	655	O
-were	656	660	O
-generally	661	670	O
-used	671	675	O
-as	676	678	O
-potentiometers	679	693	B-Process
-[	694	695	O
-13	695	697	O
-]	697	698	O
-.	698	699	O
-
-However	700	707	O
-,	707	708	O
-sophisticated	709	722	O
-mathematical	723	735	B-Process
-procedures	736	746	I-Process
-have	747	751	O
-been	752	756	O
-developed	757	766	O
-to	767	769	O
-increase	770	778	O
-the	779	782	O
-number	783	789	O
-of	790	792	O
-parameters	793	803	B-Process
-optimized	804	813	O
-simultaneously	814	828	O
-(	829	830	O
-e.g.	830	834	O
-Genetic	835	842	B-Process
-Algorithm	843	852	I-Process
-(	853	854	O
-GA	854	856	B-Process
-)	856	857	O
-
-[	858	859	O
-10,14	859	864	O
-]	864	865	O
-or	866	868	O
-Shuffled	869	877	B-Process
-Complex	878	885	I-Process
-Evolution	886	895	I-Process
-(	896	897	O
-SCE	897	900	B-Process
-)	900	901	O
-[	902	903	O
-11	903	905	O
-]	905	906	O
-)	906	907	O
-.	907	908	O
-
-Lautenberger	909	921	O
-and	922	925	O
-Fernandez	926	935	O
--	935	936	O
-Pello	936	941	O
-[	942	943	O
-12	943	945	O
-]	945	946	O
-have	947	951	O
-recently	952	960	O
-investigated	961	973	O
-the	974	977	O
-influence	978	987	O
-that	988	992	O
-the	993	996	O
-choice	997	1003	B-Process
-of	1004	1006	I-Process
-algorithm	1007	1016	I-Process
-can	1017	1020	O
-have	1021	1025	O
-on	1026	1028	O
-the	1029	1032	O
-optimized	1033	1042	O
-parameters	1043	1053	O
-.	1053	1054	O
-
-They	1055	1059	O
-generated	1060	1069	O
-using	1070	1075	O
-their	1076	1081	O
-code	1082	1086	O
-GPYRO	1087	1092	B-Material
-a	1093	1094	O
-set	1095	1098	O
-of	1099	1101	O
-synthetic	1102	1111	B-Material
-data	1112	1116	I-Material
-(	1117	1118	O
-mass	1118	1122	O
-loss	1123	1127	O
-rate	1128	1132	O
-and	1133	1136	O
-surfaces	1137	1145	O
-temperature	1146	1157	O
-)	1157	1158	O
-and	1159	1162	O
-tried	1163	1168	O
-with	1169	1173	O
-different	1174	1183	O
-algorithms	1184	1194	B-Process
-to	1195	1197	O
-find	1198	1202	O
-back	1203	1207	O
-the	1208	1211	O
-set	1212	1215	O
-of	1216	1218	O
-input	1219	1224	O
-parameters	1225	1235	O
-.	1235	1236	O
-
-The	1237	1240	O
-four	1241	1245	O
-optimization	1246	1258	B-Process
-algorithms	1259	1269	I-Process
-provided	1270	1278	O
-results	1279	1286	O
-with	1287	1291	O
-an	1292	1294	O
-absolute	1295	1303	O
-average	1304	1311	O
-error	1312	1317	O
-between	1318	1325	O
-1	1326	1327	O
-%	1327	1328	O
-and	1329	1332	O
-25	1333	1335	O
-%	1335	1336	O
-.	1336	1337	O
-
-SCE	1338	1341	B-Process
-was	1342	1345	O
-the	1346	1349	O
-most	1350	1354	O
-suitable	1355	1363	O
-algorithm	1364	1373	B-Process
-.	1373	1374	O
-
-The	1375	1378	O
-use	1379	1382	O
-of	1383	1385	O
-synthetic	1386	1395	B-Material
-data	1396	1400	I-Material
-conveniently	1401	1413	O
-avoids	1414	1420	O
-the	1421	1424	O
-problem	1425	1432	O
-of	1433	1435	O
-agreement	1436	1445	O
-between	1446	1453	O
-the	1454	1457	O
-actual	1458	1464	O
-physical	1465	1473	O
-phenomena	1474	1483	O
-and	1484	1487	O
-any	1488	1491	O
-modelling	1492	1501	O
-assumption	1502	1512	O
-.	1512	1513	O
+The	0,3	O	O
+mentioned	4,13	O	O
+difficulties	14,26	O	O
+associated	27,37	O	O
+with	38,42	O	O
+the	43,46	O	O
+calibration	47,58	O	B-Process
+process	59,66	O	I-Process
+inspired	67,75	O	O
+the	76,79	O	O
+concept	80,87	O	O
+of	88,90	O	O
+inverse	91,98	O	B-Task
+modelling	99,108	O	I-Task
+.	108,109	O	O
+
+In	110,112	O	O
+this	113,117	O	O
+case	118,122	O	O
+,	122,123	O	O
+the	124,127	O	O
+experimental	128,140	O	B-Material
+data	141,145	O	I-Material
+become	146,152	O	O
+entirely	153,161	O	O
+integrated	162,172	O	O
+in	173,175	O	O
+the	176,179	O	O
+calibration	180,191	O	B-Process
+process	192,199	O	I-Process
+and	200,203	O	O
+an	204,206	O	O
+optimization	207,219	O	B-Process
+routine	220,227	O	I-Process
+is	228,230	O	O
+used	231,235	O	O
+to	236,238	O	O
+quantify	239,247	O	B-Task
+the	248,251	O	I-Task
+best	252,256	O	I-Task
+set	257,260	O	I-Task
+of	261,263	O	I-Task
+parameters	264,274	O	I-Task
+which	275,280	O	O
+explain	281,288	O	O
+the	289,292	O	O
+observed	293,301	O	O
+pyrolysis	302,311	O	B-Task
+behaviour	312,321	O	I-Task
+(	322,323	O	O
+i.e.	323,327	O	O
+multivariable	328,341	O	B-Task
+curve	342,347	O	I-Task
+fitting	348,355	O	I-Task
+)	355,356	O	O
+.	356,357	O	O
+
+The	358,361	O	O
+most	362,366	O	O
+used	367,371	O	O
+experimental	372,384	O	B-Material
+data	385,389	O	I-Material
+for	390,393	O	O
+model	394,399	O	B-Process
+calibration	400,411	O	I-Process
+have	412,416	O	O
+been	417,421	O	O
+the	422,425	O	O
+mass	426,430	O	B-Process
+loss	431,435	O	I-Process
+rate	436,440	O	I-Process
+and	441,444	O	O
+the	445,448	O	O
+surface	449,456	O	B-Process
+temperature	457,468	O	I-Process
+[	469,470	O	I-Process
+10–12	470,475	O	O
+]	475,476	O	O
+.	476,477	O	O
+
+The	478,481	O	O
+optimization	482,494	O	B-Process
+technique	495,504	O	I-Process
+used	505,509	O	O
+is	510,512	O	O
+function	513,521	O	O
+of	522,524	O	O
+the	525,528	O	O
+number	529,535	O	O
+of	536,538	O	O
+variables	539,548	O	O
+and	549,552	O	O
+their	553,558	O	O
+interactions	559,571	O	O
+.	571,572	O	O
+
+In	573,575	O	O
+the	576,579	O	O
+past	580,584	O	O
+,	584,585	O	O
+only	586,590	O	O
+the	591,594	O	O
+few	595,598	O	O
+most	599,603	O	O
+uncertain	604,613	O	O
+parameters	614,624	O	B-Process
+(	625,626	O	O
+i.e.	626,630	O	O
+the	631,634	O	O
+kinetics	635,643	O	B-Process
+parameters	644,654	O	I-Process
+)	654,655	O	O
+were	656,660	O	O
+generally	661,670	O	O
+used	671,675	O	O
+as	676,678	O	O
+potentiometers	679,693	O	B-Process
+[	694,695	O	O
+13	695,697	O	O
+]	697,698	O	O
+.	698,699	O	O
+
+However	700,707	O	O
+,	707,708	O	O
+sophisticated	709,722	O	O
+mathematical	723,735	O	B-Process
+procedures	736,746	O	I-Process
+have	747,751	O	O
+been	752,756	O	O
+developed	757,766	O	O
+to	767,769	O	O
+increase	770,778	O	O
+the	779,782	O	O
+number	783,789	O	O
+of	790,792	O	O
+parameters	793,803	O	B-Process
+optimized	804,813	O	O
+simultaneously	814,828	O	O
+(	829,830	O	O
+e.g.	830,834	O	O
+Genetic	835,842	O	B-Process
+Algorithm	843,852	O	I-Process
+(	853,854	O	O
+GA	854,856	O	B-Process
+)	856,857	O	O
+
+[	858,859	O	O
+10,14	859,864	O	O
+]	864,865	O	O
+or	866,868	O	O
+Shuffled	869,877	O	B-Process
+Complex	878,885	O	I-Process
+Evolution	886,895	O	I-Process
+(	896,897	O	O
+SCE	897,900	O	B-Process
+)	900,901	O	O
+[	902,903	O	O
+11	903,905	O	O
+]	905,906	O	O
+)	906,907	O	O
+.	907,908	O	O
+
+Lautenberger	909,921	O	O
+and	922,925	O	O
+Fernandez	926,935	O	O
+-	935,936	O	O
+Pello	936,941	O	O
+[	942,943	O	O
+12	943,945	O	O
+]	945,946	O	O
+have	947,951	O	O
+recently	952,960	O	O
+investigated	961,973	O	O
+the	974,977	O	O
+influence	978,987	O	O
+that	988,992	O	O
+the	993,996	O	O
+choice	997,1003	O	B-Process
+of	1004,1006	O	I-Process
+algorithm	1007,1016	O	I-Process
+can	1017,1020	O	O
+have	1021,1025	O	O
+on	1026,1028	O	O
+the	1029,1032	O	O
+optimized	1033,1042	O	O
+parameters	1043,1053	O	O
+.	1053,1054	O	O
+
+They	1055,1059	O	O
+generated	1060,1069	O	O
+using	1070,1075	O	O
+their	1076,1081	O	O
+code	1082,1086	O	O
+GPYRO	1087,1092	O	B-Material
+a	1093,1094	O	O
+set	1095,1098	O	O
+of	1099,1101	O	O
+synthetic	1102,1111	O	B-Material
+data	1112,1116	O	I-Material
+(	1117,1118	O	O
+mass	1118,1122	O	O
+loss	1123,1127	O	O
+rate	1128,1132	O	O
+and	1133,1136	O	O
+surfaces	1137,1145	O	O
+temperature	1146,1157	O	O
+)	1157,1158	O	O
+and	1159,1162	O	O
+tried	1163,1168	O	O
+with	1169,1173	O	O
+different	1174,1183	O	O
+algorithms	1184,1194	O	B-Process
+to	1195,1197	O	O
+find	1198,1202	O	O
+back	1203,1207	O	O
+the	1208,1211	O	O
+set	1212,1215	O	O
+of	1216,1218	O	O
+input	1219,1224	O	O
+parameters	1225,1235	O	O
+.	1235,1236	O	O
+
+The	1237,1240	O	O
+four	1241,1245	O	O
+optimization	1246,1258	O	B-Process
+algorithms	1259,1269	O	I-Process
+provided	1270,1278	O	O
+results	1279,1286	O	O
+with	1287,1291	O	O
+an	1292,1294	O	O
+absolute	1295,1303	O	O
+average	1304,1311	O	O
+error	1312,1317	O	O
+between	1318,1325	O	O
+1	1326,1327	O	O
+%	1327,1328	O	O
+and	1329,1332	O	O
+25	1333,1335	O	O
+%	1335,1336	O	O
+.	1336,1337	O	O
+
+SCE	1338,1341	O	B-Process
+was	1342,1345	O	O
+the	1346,1349	O	O
+most	1350,1354	O	O
+suitable	1355,1363	O	O
+algorithm	1364,1373	O	B-Process
+.	1373,1374	O	O
+
+The	1375,1378	O	O
+use	1379,1382	O	O
+of	1383,1385	O	O
+synthetic	1386,1395	O	B-Material
+data	1396,1400	O	I-Material
+conveniently	1401,1413	O	O
+avoids	1414,1420	O	O
+the	1421,1424	O	O
+problem	1425,1432	O	O
+of	1433,1435	O	O
+agreement	1436,1445	O	O
+between	1446,1453	O	O
+the	1454,1457	O	O
+actual	1458,1464	O	O
+physical	1465,1473	O	O
+phenomena	1474,1483	O	O
+and	1484,1487	O	O
+any	1488,1491	O	O
+modelling	1492,1501	O	O
+assumption	1502,1512	O	O
+.	1512,1513	O	O
 
 
 -DOCSTART- (S0393044012000198)
 
-RemarkThe	0	9	O
-purely	10	16	O
-radiative	17	26	B-Task
-spacetimes	27	37	I-Task
-used	38	42	O
-as	43	45	O
-reference	46	55	B-Material
-solutions	56	65	I-Material
-in	66	68	O
-our	69	72	O
-analysis	73	81	O
-are	82	85	O
-not	86	89	O
-perturbations	90	103	O
-of	104	106	O
-the	107	110	O
-Minkowski	111	120	B-Task
-spacetime	121	130	I-Task
-.	130	131	O
-
-A	132	133	O
-way	134	137	O
-of	138	140	O
-seeing	141	147	O
-this	148	152	O
-is	153	155	O
-to	156	158	O
-consider	159	167	O
-the	168	171	O
-Newman	172	178	B-Material
-–	178	179	I-Material
-Penrose	179	186	I-Material
-constants	187	196	I-Material
-of	197	199	O
-the	200	203	O
-spacetime	204	213	O
-.	213	214	O
-
-The	215	218	O
-Newman	219	225	O
-–	225	226	O
-
-Penrose	226	233	O
-constants	234	243	O
-are	244	247	O
-a	248	249	O
-set	250	253	O
-of	254	256	O
-absolutely	257	267	O
-conserved	268	277	O
-quantities	278	288	O
-defined	289	296	O
-as	297	299	O
-integrals	300	309	O
-of	310	312	O
-certain	313	320	O
-components	321	331	O
-of	332	334	O
-the	335	338	O
-Weyl	339	343	B-Material
-tensor	344	350	I-Material
-and	351	354	O
-the	355	358	O
-Maxwell	359	366	B-Material
-fields	367	373	I-Material
-over	374	378	O
-cuts	379	383	O
-of	384	386	O
-null	387	391	O
-infinity	392	400	O
-—	400	401	O
-see	401	404	O
-[	405	406	O
-19–21	406	411	O
-]	411	412	O
-for	413	416	O
-the	417	420	O
-Einstein	421	429	O
-–	429	430	O
-Maxwell	430	437	O
-case	438	442	O
-.	442	443	O
-
-In	444	446	O
-[	447	448	O
-22	448	450	O
-]	450	451	O
-it	452	454	O
-has	455	458	O
-been	459	463	O
-shown	464	469	O
-that	470	474	O
-the	475	478	O
-value	479	484	O
-of	485	487	O
-the	488	491	O
-Newman	492	498	B-Material
-–	498	499	I-Material
-Penrose	499	506	I-Material
-constants	507	516	I-Material
-for	517	520	O
-a	521	522	O
-vacuum	523	529	B-Material
-radiative	530	539	I-Material
-spacetime	540	549	I-Material
-coincides	550	559	O
-with	560	564	O
-the	565	568	O
-value	569	574	O
-of	575	577	O
-the	578	581	O
-rescaled	582	590	O
-Weyl	591	595	O
-spinor	596	602	O
-at	603	605	O
-i+—this	606	613	O
-result	614	620	O
-can	621	624	O
-be	625	627	O
-extended	628	636	O
-to	637	639	O
-the	640	643	O
-electrovacuum	644	657	O
-case	658	662	O
-using	663	668	O
-the	669	672	O
-methods	673	680	O
-of	681	683	O
-this	684	688	O
-article	689	696	O
-.	696	697	O
-
-For	698	701	O
-the	702	705	O
-radiative	706	715	B-Task
-spacetimes	716	726	I-Task
-arising	727	734	O
-from	735	739	O
-the	740	743	O
-construction	744	756	O
-of	757	759	O
-[	760	761	O
-17	761	763	O
-]	763	764	O
-it	765	767	O
-can	768	771	O
-be	772	774	O
-seen	775	779	O
-that	780	784	O
-the	785	788	O
-value	789	794	O
-of	795	797	O
-the	798	801	O
-Weyl	802	806	O
-spinor	807	813	O
-at	814	816	O
-i+	817	819	O
-is	820	822	O
-essentially	823	834	O
-the	835	838	O
-mass	839	843	O
-quadrupole	844	854	O
-of	855	857	O
-the	858	861	O
-seed	862	866	O
-static	867	873	O
-spacetime	874	883	O
-.	883	884	O
-
-It	885	887	O
-follows	888	895	O
-,	895	896	O
-that	897	901	O
-the	902	905	O
-Newman	906	912	B-Material
-–	912	913	I-Material
-Penrose	913	920	I-Material
-constants	921	930	I-Material
-of	931	933	O
-the	934	937	O
-radiative	938	947	B-Material
-spacetime	948	957	I-Material
-can	958	961	O
-take	962	966	O
-arbitrary	967	976	O
-values	977	983	O
-.	983	984	O
-
-On	985	987	O
-the	988	991	O
-other	992	997	O
-hand	998	1002	O
-,	1002	1003	O
-for	1004	1007	O
-the	1008	1011	O
-Minkowski	1012	1021	B-Task
-spacetime	1022	1031	I-Task
-,	1031	1032	O
-the	1033	1036	O
-Newman	1037	1043	O
-–	1043	1044	O
-
-Penrose	1044	1051	O
-constants	1052	1061	O
-are	1062	1065	O
-exactly	1066	1073	O
-zero	1074	1078	O
-,	1078	1079	O
-and	1080	1083	O
-those	1084	1089	O
-of	1090	1092	O
-perturbations	1093	1106	O
-thereof	1107	1114	O
-will	1115	1119	O
-be	1120	1122	O
-small	1123	1128	O
-.	1128	1129	O
-
-Thus	1130	1134	O
-,	1134	1135	O
-in	1136	1138	O
-this	1139	1143	O
-precise	1144	1151	O
-sense	1152	1157	O
-,	1157	1158	O
-our	1159	1162	O
-radiative	1163	1172	B-Task
-spacetimes	1173	1183	I-Task
-are	1184	1187	O
-,	1187	1188	O
-generically	1189	1200	O
-,	1200	1201	O
-not	1202	1205	O
-perturbations	1206	1219	O
-of	1220	1222	O
-the	1223	1226	O
-Minkowski	1227	1236	B-Task
-spacetime	1237	1246	I-Task
-,	1246	1247	O
-unless	1248	1254	O
-all	1255	1258	O
-the	1259	1262	O
-Newman	1263	1269	B-Material
-–	1269	1270	I-Material
-Penrose	1270	1277	I-Material
-constants	1278	1287	I-Material
-vanish	1288	1294	O
-.	1294	1295	O
+RemarkThe	0,9	O	O
+purely	10,16	O	O
+radiative	17,26	O	B-Task
+spacetimes	27,37	O	I-Task
+used	38,42	O	O
+as	43,45	O	O
+reference	46,55	O	B-Material
+solutions	56,65	O	I-Material
+in	66,68	O	O
+our	69,72	O	O
+analysis	73,81	O	O
+are	82,85	O	O
+not	86,89	O	O
+perturbations	90,103	O	O
+of	104,106	O	O
+the	107,110	O	O
+Minkowski	111,120	O	B-Task
+spacetime	121,130	O	I-Task
+.	130,131	O	O
+
+A	132,133	O	O
+way	134,137	O	O
+of	138,140	O	O
+seeing	141,147	O	O
+this	148,152	O	O
+is	153,155	O	O
+to	156,158	O	O
+consider	159,167	O	O
+the	168,171	O	O
+Newman	172,178	O	B-Material
+–	178,179	O	I-Material
+Penrose	179,186	O	I-Material
+constants	187,196	O	I-Material
+of	197,199	O	O
+the	200,203	O	O
+spacetime	204,213	O	O
+.	213,214	O	O
+
+The	215,218	O	O
+Newman	219,225	O	O
+–	225,226	O	O
+
+Penrose	226,233	O	O
+constants	234,243	O	O
+are	244,247	O	O
+a	248,249	O	O
+set	250,253	O	O
+of	254,256	O	O
+absolutely	257,267	O	O
+conserved	268,277	O	O
+quantities	278,288	O	O
+defined	289,296	O	O
+as	297,299	O	O
+integrals	300,309	O	O
+of	310,312	O	O
+certain	313,320	O	O
+components	321,331	O	O
+of	332,334	O	O
+the	335,338	O	O
+Weyl	339,343	O	B-Material
+tensor	344,350	O	I-Material
+and	351,354	O	O
+the	355,358	O	O
+Maxwell	359,366	O	B-Material
+fields	367,373	O	I-Material
+over	374,378	O	O
+cuts	379,383	O	O
+of	384,386	O	O
+null	387,391	O	O
+infinity	392,400	O	O
+—	400,401	O	O
+see	401,404	O	O
+[	405,406	O	O
+19–21	406,411	O	O
+]	411,412	O	O
+for	413,416	O	O
+the	417,420	O	O
+Einstein	421,429	O	O
+–	429,430	O	O
+Maxwell	430,437	O	O
+case	438,442	O	O
+.	442,443	O	O
+
+In	444,446	O	O
+[	447,448	O	O
+22	448,450	O	O
+]	450,451	O	O
+it	452,454	O	O
+has	455,458	O	O
+been	459,463	O	O
+shown	464,469	O	O
+that	470,474	O	O
+the	475,478	O	O
+value	479,484	O	O
+of	485,487	O	O
+the	488,491	O	O
+Newman	492,498	O	B-Material
+–	498,499	O	I-Material
+Penrose	499,506	O	I-Material
+constants	507,516	O	I-Material
+for	517,520	O	O
+a	521,522	O	O
+vacuum	523,529	O	B-Material
+radiative	530,539	O	I-Material
+spacetime	540,549	O	I-Material
+coincides	550,559	O	O
+with	560,564	O	O
+the	565,568	O	O
+value	569,574	O	O
+of	575,577	O	O
+the	578,581	O	O
+rescaled	582,590	O	O
+Weyl	591,595	O	O
+spinor	596,602	O	O
+at	603,605	O	O
+i+—this	606,613	O	O
+result	614,620	O	O
+can	621,624	O	O
+be	625,627	O	O
+extended	628,636	O	O
+to	637,639	O	O
+the	640,643	O	O
+electrovacuum	644,657	O	O
+case	658,662	O	O
+using	663,668	O	O
+the	669,672	O	O
+methods	673,680	O	O
+of	681,683	O	O
+this	684,688	O	O
+article	689,696	O	O
+.	696,697	O	O
+
+For	698,701	O	O
+the	702,705	O	O
+radiative	706,715	O	B-Task
+spacetimes	716,726	O	I-Task
+arising	727,734	O	O
+from	735,739	O	O
+the	740,743	O	O
+construction	744,756	O	O
+of	757,759	O	O
+[	760,761	O	O
+17	761,763	O	O
+]	763,764	O	O
+it	765,767	O	O
+can	768,771	O	O
+be	772,774	O	O
+seen	775,779	O	O
+that	780,784	O	O
+the	785,788	O	O
+value	789,794	O	O
+of	795,797	O	O
+the	798,801	O	O
+Weyl	802,806	O	O
+spinor	807,813	O	O
+at	814,816	O	O
+i+	817,819	O	O
+is	820,822	O	O
+essentially	823,834	O	O
+the	835,838	O	O
+mass	839,843	O	O
+quadrupole	844,854	O	O
+of	855,857	O	O
+the	858,861	O	O
+seed	862,866	O	O
+static	867,873	O	O
+spacetime	874,883	O	O
+.	883,884	O	O
+
+It	885,887	O	O
+follows	888,895	O	O
+,	895,896	O	O
+that	897,901	O	O
+the	902,905	O	O
+Newman	906,912	O	B-Material
+–	912,913	O	I-Material
+Penrose	913,920	O	I-Material
+constants	921,930	O	I-Material
+of	931,933	O	O
+the	934,937	O	O
+radiative	938,947	O	B-Material
+spacetime	948,957	O	I-Material
+can	958,961	O	O
+take	962,966	O	O
+arbitrary	967,976	O	O
+values	977,983	O	O
+.	983,984	O	O
+
+On	985,987	O	O
+the	988,991	O	O
+other	992,997	O	O
+hand	998,1002	O	O
+,	1002,1003	O	O
+for	1004,1007	O	O
+the	1008,1011	O	O
+Minkowski	1012,1021	O	B-Task
+spacetime	1022,1031	O	I-Task
+,	1031,1032	O	O
+the	1033,1036	O	O
+Newman	1037,1043	O	O
+–	1043,1044	O	O
+
+Penrose	1044,1051	O	O
+constants	1052,1061	O	O
+are	1062,1065	O	O
+exactly	1066,1073	O	O
+zero	1074,1078	O	O
+,	1078,1079	O	O
+and	1080,1083	O	O
+those	1084,1089	O	O
+of	1090,1092	O	O
+perturbations	1093,1106	O	O
+thereof	1107,1114	O	O
+will	1115,1119	O	O
+be	1120,1122	O	O
+small	1123,1128	O	O
+.	1128,1129	O	O
+
+Thus	1130,1134	O	O
+,	1134,1135	O	O
+in	1136,1138	O	O
+this	1139,1143	O	O
+precise	1144,1151	O	O
+sense	1152,1157	O	O
+,	1157,1158	O	O
+our	1159,1162	O	O
+radiative	1163,1172	O	B-Task
+spacetimes	1173,1183	O	I-Task
+are	1184,1187	O	O
+,	1187,1188	O	O
+generically	1189,1200	O	O
+,	1200,1201	O	O
+not	1202,1205	O	O
+perturbations	1206,1219	O	O
+of	1220,1222	O	O
+the	1223,1226	O	O
+Minkowski	1227,1236	O	B-Task
+spacetime	1237,1246	O	I-Task
+,	1246,1247	O	O
+unless	1248,1254	O	O
+all	1255,1258	O	O
+the	1259,1262	O	O
+Newman	1263,1269	O	B-Material
+–	1269,1270	O	I-Material
+Penrose	1270,1277	O	I-Material
+constants	1278,1287	O	I-Material
+vanish	1288,1294	O	O
+.	1294,1295	O	O
 
 
 -DOCSTART- (S0736585316300661)
 
-To	0	2	O
-calculate	3	12	B-Task
-hedonic	13	20	I-Task
-price	21	26	I-Task
-indices	27	34	I-Task
-in	35	37	O
-the	38	41	O
-linear	42	48	B-Process
-model	49	54	I-Process
-,	54	55	O
-the	56	59	O
-initial	60	67	O
-or	68	70	O
-reference	71	80	O
-price	81	86	O
-has	87	90	O
-to	91	93	O
-be	94	96	O
-calculated	97	107	O
-(	108	109	O
-Triplett	109	117	O
-,	117	118	O
-2006	119	123	O
-)	123	124	O
-.	124	125	O
-
-The	126	129	O
-present	130	137	O
-study	138	143	O
-adopts	144	150	O
-the	151	154	O
-approach	155	163	O
-of	164	166	O
-de	167	169	O
-Haan	170	174	O
-and	175	178	O
-Diewert	179	186	O
-(	187	188	O
-2013	188	192	O
-)	192	193	O
-:	193	194	O
-a	195	196	O
-price	197	202	O
-index	203	208	O
-is	209	211	O
-constructed	212	223	O
-using	224	229	O
-the	230	233	O
-price	234	239	O
-generated	240	249	O
-by	250	252	O
-the	253	256	O
-estimated	257	266	O
-coefficients	267	279	O
-of	280	282	O
-a	283	284	O
-base	285	289	B-Process
-period	290	296	I-Process
-regression	297	307	I-Process
-model	308	313	I-Process
-,	313	314	O
-and	315	318	O
-it	319	321	O
-is	322	324	O
-calculated	325	335	O
-based	336	341	O
-on	342	344	O
-the	345	348	O
-based	349	354	O
-period	355	361	O
-average	362	369	O
-values	370	376	O
-of	377	379	O
-a	380	381	O
-given	382	387	O
-cell	388	392	O
-phone	393	398	O
-plan	399	403	O
-characteristic	404	418	O
-z¯	419	421	O
-for	422	425	O
-each	426	430	O
-operator	431	439	O
-(	440	441	O
-Supplementary	441	454	O
-Table	455	460	O
-S5	461	463	O
-)	463	464	O
-.	464	465	O
-
-For	466	469	O
-continuous	470	480	O
-characteristics	481	496	O
-,	496	497	O
-direct	498	504	O
-averages	505	513	O
-are	514	517	O
-used	518	522	O
-;	522	523	O
-for	524	527	O
-binary	528	534	O
-characteristics	535	550	O
-,	550	551	O
-the	552	555	O
-proportions	556	567	O
-of	568	570	O
-cell	571	575	O
-phone	576	581	O
-plans	582	587	O
-containing	588	598	O
-the	599	602	O
-feature	603	610	O
-are	611	614	O
-used	615	619	O
-.	619	620	O
-
-The	621	624	O
-resulting	625	634	O
-prices	635	641	O
-for	642	645	O
-this	646	650	O
-average	651	658	O
-cell	659	663	O
-phone	664	669	O
-plan	670	674	O
-are	675	678	O
-converted	679	688	O
-to	689	691	O
-an	692	694	O
-index	695	700	O
-by	701	703	O
-applying	704	712	B-Process
-previously	713	723	I-Process
-calculated	724	734	I-Process
-pure	735	739	I-Process
-price	740	745	I-Process
-changes	746	753	I-Process
-(	754	755	O
-δs	755	757	O
-)	757	758	O
-.	758	759	O
-
-Finally	760	767	O
-,	767	768	O
-the	769	772	O
-overall	773	780	O
-hedonic	781	788	O
-price	789	794	O
-index	795	800	O
-is	801	803	O
-calculated	804	814	O
-as	815	817	O
-the	818	821	O
-weighted	822	830	O
-average	831	838	O
-of	839	841	O
-firm	842	846	O
--	846	847	O
-level	847	852	O
-indices	853	860	O
-.	860	861	O
-
-Weights	862	869	O
-correspond	870	880	O
-to	881	883	O
-the	884	887	O
-relative	888	896	O
-proportion	897	907	O
-of	908	910	O
-cell	911	915	O
-phone	916	921	O
-plans	922	927	O
-by	928	930	O
-operator	931	939	O
-in	940	942	O
-the	943	946	O
-sample	947	953	O
-(	954	955	O
-0.3534	955	961	O
-for	962	965	O
-HT	966	968	O
-,	968	969	O
-0.3212	970	976	O
-for	977	980	O
-Vip	981	984	O
-,	984	985	O
-and	986	989	O
-0.3254	990	996	O
-for	997	1000	O
-Tele2	1001	1006	O
-)	1006	1007	O
-.	1007	1008	O
+To	0,2	O	O
+calculate	3,12	O	B-Task
+hedonic	13,20	O	I-Task
+price	21,26	O	I-Task
+indices	27,34	O	I-Task
+in	35,37	O	O
+the	38,41	O	O
+linear	42,48	O	B-Process
+model	49,54	O	I-Process
+,	54,55	O	O
+the	56,59	O	O
+initial	60,67	O	O
+or	68,70	O	O
+reference	71,80	O	O
+price	81,86	O	O
+has	87,90	O	O
+to	91,93	O	O
+be	94,96	O	O
+calculated	97,107	O	O
+(	108,109	O	O
+Triplett	109,117	O	O
+,	117,118	O	O
+2006	119,123	O	O
+)	123,124	O	O
+.	124,125	O	O
+
+The	126,129	O	O
+present	130,137	O	O
+study	138,143	O	O
+adopts	144,150	O	O
+the	151,154	O	O
+approach	155,163	O	O
+of	164,166	O	O
+de	167,169	O	O
+Haan	170,174	O	O
+and	175,178	O	O
+Diewert	179,186	O	O
+(	187,188	O	O
+2013	188,192	O	O
+)	192,193	O	O
+:	193,194	O	O
+a	195,196	O	O
+price	197,202	O	O
+index	203,208	O	O
+is	209,211	O	O
+constructed	212,223	O	O
+using	224,229	O	O
+the	230,233	O	O
+price	234,239	O	O
+generated	240,249	O	O
+by	250,252	O	O
+the	253,256	O	O
+estimated	257,266	O	O
+coefficients	267,279	O	O
+of	280,282	O	O
+a	283,284	O	O
+base	285,289	O	B-Process
+period	290,296	O	I-Process
+regression	297,307	O	I-Process
+model	308,313	O	I-Process
+,	313,314	O	O
+and	315,318	O	O
+it	319,321	O	O
+is	322,324	O	O
+calculated	325,335	O	O
+based	336,341	O	O
+on	342,344	O	O
+the	345,348	O	O
+based	349,354	O	O
+period	355,361	O	O
+average	362,369	O	O
+values	370,376	O	O
+of	377,379	O	O
+a	380,381	O	O
+given	382,387	O	O
+cell	388,392	O	O
+phone	393,398	O	O
+plan	399,403	O	O
+characteristic	404,418	O	O
+z¯	419,421	O	O
+for	422,425	O	O
+each	426,430	O	O
+operator	431,439	O	O
+(	440,441	O	O
+Supplementary	441,454	O	O
+Table	455,460	O	O
+S5	461,463	O	O
+)	463,464	O	O
+.	464,465	O	O
+
+For	466,469	O	O
+continuous	470,480	O	O
+characteristics	481,496	O	O
+,	496,497	O	O
+direct	498,504	O	O
+averages	505,513	O	O
+are	514,517	O	O
+used	518,522	O	O
+;	522,523	O	O
+for	524,527	O	O
+binary	528,534	O	O
+characteristics	535,550	O	O
+,	550,551	O	O
+the	552,555	O	O
+proportions	556,567	O	O
+of	568,570	O	O
+cell	571,575	O	O
+phone	576,581	O	O
+plans	582,587	O	O
+containing	588,598	O	O
+the	599,602	O	O
+feature	603,610	O	O
+are	611,614	O	O
+used	615,619	O	O
+.	619,620	O	O
+
+The	621,624	O	O
+resulting	625,634	O	O
+prices	635,641	O	O
+for	642,645	O	O
+this	646,650	O	O
+average	651,658	O	O
+cell	659,663	O	O
+phone	664,669	O	O
+plan	670,674	O	O
+are	675,678	O	O
+converted	679,688	O	O
+to	689,691	O	O
+an	692,694	O	O
+index	695,700	O	O
+by	701,703	O	O
+applying	704,712	O	B-Process
+previously	713,723	O	I-Process
+calculated	724,734	O	I-Process
+pure	735,739	O	I-Process
+price	740,745	O	I-Process
+changes	746,753	O	I-Process
+(	754,755	O	O
+δs	755,757	O	O
+)	757,758	O	O
+.	758,759	O	O
+
+Finally	760,767	O	O
+,	767,768	O	O
+the	769,772	O	O
+overall	773,780	O	O
+hedonic	781,788	O	O
+price	789,794	O	O
+index	795,800	O	O
+is	801,803	O	O
+calculated	804,814	O	O
+as	815,817	O	O
+the	818,821	O	O
+weighted	822,830	O	O
+average	831,838	O	O
+of	839,841	O	O
+firm	842,846	O	O
+-	846,847	O	O
+level	847,852	O	O
+indices	853,860	O	O
+.	860,861	O	O
+
+Weights	862,869	O	O
+correspond	870,880	O	O
+to	881,883	O	O
+the	884,887	O	O
+relative	888,896	O	O
+proportion	897,907	O	O
+of	908,910	O	O
+cell	911,915	O	O
+phone	916,921	O	O
+plans	922,927	O	O
+by	928,930	O	O
+operator	931,939	O	O
+in	940,942	O	O
+the	943,946	O	O
+sample	947,953	O	O
+(	954,955	O	O
+0.3534	955,961	O	O
+for	962,965	O	O
+HT	966,968	O	O
+,	968,969	O	O
+0.3212	970,976	O	O
+for	977,980	O	O
+Vip	981,984	O	O
+,	984,985	O	O
+and	986,989	O	O
+0.3254	990,996	O	O
+for	997,1000	O	O
+Tele2	1001,1006	O	O
+)	1006,1007	O	O
+.	1007,1008	O	O
 
 
 -DOCSTART- (S074756321630348X)
 
-Social	0	6	B-Process
-network	7	14	I-Process
-gaming	15	21	I-Process
-,	21	22	O
-which	23	28	O
-refers	29	35	O
-to	36	38	O
-playing	39	46	O
-games	47	52	O
-that	53	57	O
-are	58	61	O
-connected	62	71	O
-to	72	74	O
-social	75	81	B-Material
-networking	82	92	I-Material
-services	93	101	I-Material
-(	102	103	O
-SNS	103	106	B-Material
-)	106	107	O
-directly	108	116	O
-,	116	117	O
-or	118	120	O
-through	121	128	O
-mobile	129	135	B-Material
-applications	136	148	I-Material
-(	149	150	O
-apps	150	154	B-Material
-)	154	155	O
-,	155	156	O
-is	157	159	O
-a	160	161	O
-popular	162	169	O
-online	170	176	O
-activity	177	185	O
-.	185	186	O
-
-Social	187	193	B-Process
-network	194	201	I-Process
-games	202	207	I-Process
-(	208	209	O
-SNG	209	212	B-Process
-)	212	213	O
-are	214	217	O
-generally	218	227	O
-free	228	232	O
--	232	233	O
-to	233	235	O
--	235	236	O
-play	236	240	O
-and	241	244	O
-do	245	247	O
-not	248	251	O
-award	252	257	O
-monetary	258	266	O
-prizes	267	273	O
-,	273	274	O
-but	275	278	O
-users	279	284	O
-can	285	288	O
-make	289	293	O
-in	294	296	O
--	296	297	O
-game	297	301	O
-purchases	302	311	O
-to	312	314	O
-advance	315	322	O
-within	323	329	O
-the	330	333	O
-game	334	338	O
-,	338	339	O
-customise	340	349	O
-the	350	353	O
-game	354	358	O
-,	358	359	O
-give	360	364	O
-gifts	365	370	O
-to	371	373	O
-friends	374	381	O
-,	381	382	O
-and	383	386	O
-access	387	393	O
-other	394	399	O
-exclusive	400	409	O
-benefits	410	418	O
-and	419	422	O
-features	423	431	O
-,	431	432	O
-leading	433	440	O
-to	441	443	O
-these	444	449	O
-games	450	455	O
-being	456	461	O
-referred	462	470	O
-to	471	473	O
-as	474	476	O
-‘	477	478	O
-freemium’	478	487	O
-.	487	488	O
-
-Although	489	497	O
-SNG	498	501	B-Material
-are	502	505	O
-connected	506	515	O
-to	516	518	O
-a	519	520	O
-SNS	521	524	B-Process
-and	525	528	O
-encourage	529	538	O
-users	539	544	O
-to	545	547	O
-interact	548	556	O
-with	557	561	O
-their	562	567	O
-connections	568	579	O
-,	579	580	O
-most	581	585	O
-SNG	586	589	B-Material
-can	590	593	O
-be	594	596	O
-played	597	603	O
-without	604	611	O
-any	612	615	O
-social	616	622	O
-interaction	623	634	O
-.	634	635	O
-
-SNG	636	639	B-Material
-have	640	644	O
-grown	645	650	O
-rapidly	651	658	O
-in	659	661	O
-popularity	662	672	O
-and	673	676	O
-the	677	680	O
-global	681	687	O
-SNG	688	691	B-Material
-market	692	698	I-Material
-is	699	701	O
-predicted	702	711	O
-to	712	714	O
-grow	715	719	O
-annually	720	728	O
-at	729	731	O
-16	732	734	O
-%	734	735	O
-from	736	740	O
-2013	741	745	O
-to	746	748	O
-2019	749	753	O
-to	754	756	O
-reach	757	762	O
-a	763	764	O
-total	765	770	O
-market	771	777	O
-value	778	783	O
-of	784	786	O
-US$	787	790	O
-17.4	790	794	O
-billion	795	802	O
-(	803	804	O
-Transparency	804	816	O
-Market	817	823	O
-Research	824	832	O
-,	832	833	O
-2015	834	838	O
-)	838	839	O
-.	839	840	O
-
-A	841	842	O
-survey	843	849	B-Process
-of	850	852	O
-Facebook	853	861	O
-users	862	867	O
-in	868	870	O
-Australia	871	880	O
-in	881	883	O
-November	884	892	O
-2012	893	897	O
-reported	898	906	O
-that	907	911	O
-there	912	917	O
-are	918	921	O
-over	922	926	O
-3.5	927	930	O
-million	931	938	O
-social	939	945	O
-gamers	946	952	O
-across	953	959	O
-Australia	960	969	O
-and	970	973	O
-almost	974	980	O
-70	981	983	O
-%	983	984	O
-play	985	989	O
-SNG	990	993	B-Material
-daily	994	999	O
-
-(	1000	1001	O
-Spiral	1001	1007	O
-Media	1008	1013	O
-,	1013	1014	O
-2013	1015	1019	O
-)	1019	1020	O
-,	1020	1021	O
-and	1022	1025	O
-it	1026	1028	O
-is	1029	1031	O
-highly	1032	1038	O
-likely	1039	1045	O
-that	1046	1050	O
-the	1051	1054	O
-use	1055	1058	O
-of	1059	1061	O
-SNG	1062	1065	B-Material
-has	1066	1069	O
-increased	1070	1079	O
-since	1080	1085	O
-this	1086	1090	O
-time	1091	1095	O
-.	1095	1096	O
+Social	0,6	O	B-Process
+network	7,14	O	I-Process
+gaming	15,21	O	I-Process
+,	21,22	O	O
+which	23,28	O	O
+refers	29,35	O	O
+to	36,38	O	O
+playing	39,46	O	O
+games	47,52	O	O
+that	53,57	O	O
+are	58,61	O	O
+connected	62,71	O	O
+to	72,74	O	O
+social	75,81	O	B-Material
+networking	82,92	O	I-Material
+services	93,101	O	I-Material
+(	102,103	O	O
+SNS	103,106	O	B-Material
+)	106,107	O	O
+directly	108,116	O	O
+,	116,117	O	O
+or	118,120	O	O
+through	121,128	O	O
+mobile	129,135	O	B-Material
+applications	136,148	O	I-Material
+(	149,150	O	O
+apps	150,154	O	B-Material
+)	154,155	O	O
+,	155,156	O	O
+is	157,159	O	O
+a	160,161	O	O
+popular	162,169	O	O
+online	170,176	O	O
+activity	177,185	O	O
+.	185,186	O	O
+
+Social	187,193	O	B-Process
+network	194,201	O	I-Process
+games	202,207	O	I-Process
+(	208,209	O	O
+SNG	209,212	O	B-Process
+)	212,213	O	O
+are	214,217	O	O
+generally	218,227	O	O
+free	228,232	O	O
+-	232,233	O	O
+to	233,235	O	O
+-	235,236	O	O
+play	236,240	O	O
+and	241,244	O	O
+do	245,247	O	O
+not	248,251	O	O
+award	252,257	O	O
+monetary	258,266	O	O
+prizes	267,273	O	O
+,	273,274	O	O
+but	275,278	O	O
+users	279,284	O	O
+can	285,288	O	O
+make	289,293	O	O
+in	294,296	O	O
+-	296,297	O	O
+game	297,301	O	O
+purchases	302,311	O	O
+to	312,314	O	O
+advance	315,322	O	O
+within	323,329	O	O
+the	330,333	O	O
+game	334,338	O	O
+,	338,339	O	O
+customise	340,349	O	O
+the	350,353	O	O
+game	354,358	O	O
+,	358,359	O	O
+give	360,364	O	O
+gifts	365,370	O	O
+to	371,373	O	O
+friends	374,381	O	O
+,	381,382	O	O
+and	383,386	O	O
+access	387,393	O	O
+other	394,399	O	O
+exclusive	400,409	O	O
+benefits	410,418	O	O
+and	419,422	O	O
+features	423,431	O	O
+,	431,432	O	O
+leading	433,440	O	O
+to	441,443	O	O
+these	444,449	O	O
+games	450,455	O	O
+being	456,461	O	O
+referred	462,470	O	O
+to	471,473	O	O
+as	474,476	O	O
+‘	477,478	O	O
+freemium’	478,487	O	O
+.	487,488	O	O
+
+Although	489,497	O	O
+SNG	498,501	O	B-Material
+are	502,505	O	O
+connected	506,515	O	O
+to	516,518	O	O
+a	519,520	O	O
+SNS	521,524	O	B-Process
+and	525,528	O	O
+encourage	529,538	O	O
+users	539,544	O	O
+to	545,547	O	O
+interact	548,556	O	O
+with	557,561	O	O
+their	562,567	O	O
+connections	568,579	O	O
+,	579,580	O	O
+most	581,585	O	O
+SNG	586,589	O	B-Material
+can	590,593	O	O
+be	594,596	O	O
+played	597,603	O	O
+without	604,611	O	O
+any	612,615	O	O
+social	616,622	O	O
+interaction	623,634	O	O
+.	634,635	O	O
+
+SNG	636,639	O	B-Material
+have	640,644	O	O
+grown	645,650	O	O
+rapidly	651,658	O	O
+in	659,661	O	O
+popularity	662,672	O	O
+and	673,676	O	O
+the	677,680	O	O
+global	681,687	O	O
+SNG	688,691	O	B-Material
+market	692,698	O	I-Material
+is	699,701	O	O
+predicted	702,711	O	O
+to	712,714	O	O
+grow	715,719	O	O
+annually	720,728	O	O
+at	729,731	O	O
+16	732,734	O	O
+%	734,735	O	O
+from	736,740	O	O
+2013	741,745	O	O
+to	746,748	O	O
+2019	749,753	O	O
+to	754,756	O	O
+reach	757,762	O	O
+a	763,764	O	O
+total	765,770	O	O
+market	771,777	O	O
+value	778,783	O	O
+of	784,786	O	O
+US$	787,790	O	O
+17.4	790,794	O	O
+billion	795,802	O	O
+(	803,804	O	O
+Transparency	804,816	O	O
+Market	817,823	O	O
+Research	824,832	O	O
+,	832,833	O	O
+2015	834,838	O	O
+)	838,839	O	O
+.	839,840	O	O
+
+A	841,842	O	O
+survey	843,849	O	B-Process
+of	850,852	O	O
+Facebook	853,861	O	O
+users	862,867	O	O
+in	868,870	O	O
+Australia	871,880	O	O
+in	881,883	O	O
+November	884,892	O	O
+2012	893,897	O	O
+reported	898,906	O	O
+that	907,911	O	O
+there	912,917	O	O
+are	918,921	O	O
+over	922,926	O	O
+3.5	927,930	O	O
+million	931,938	O	O
+social	939,945	O	O
+gamers	946,952	O	O
+across	953,959	O	O
+Australia	960,969	O	O
+and	970,973	O	O
+almost	974,980	O	O
+70	981,983	O	O
+%	983,984	O	O
+play	985,989	O	O
+SNG	990,993	O	B-Material
+daily	994,999	O	O
+
+(	1000,1001	O	O
+Spiral	1001,1007	O	O
+Media	1008,1013	O	O
+,	1013,1014	O	O
+2013	1015,1019	O	O
+)	1019,1020	O	O
+,	1020,1021	O	O
+and	1022,1025	O	O
+it	1026,1028	O	O
+is	1029,1031	O	O
+highly	1032,1038	O	O
+likely	1039,1045	O	O
+that	1046,1050	O	O
+the	1051,1054	O	O
+use	1055,1058	O	O
+of	1059,1061	O	O
+SNG	1062,1065	O	B-Material
+has	1066,1069	O	O
+increased	1070,1079	O	O
+since	1080,1085	O	O
+this	1086,1090	O	O
+time	1091,1095	O	O
+.	1095,1096	O	O
 
 
 -DOCSTART- (S0749603615302184)
 
-However	0	7	O
-,	7	8	O
-the	9	12	O
-measured	13	21	O
-reflectivity	22	34	O
-is	35	37	O
-less	38	42	O
-than	43	47	O
-the	48	51	O
-predicted	52	61	O
-value	62	67	O
-(	68	69	O
-∼96	69	72	O
-%	72	73	O
-)	73	74	O
-,	74	75	O
-which	76	81	O
-is	82	84	O
-likely	85	91	O
-to	92	94	O
-relate	95	101	O
-to	102	104	O
-,	104	105	O
-amongst	106	113	O
-other	114	119	O
-factors	120	127	O
-,	127	128	O
-the	129	132	O
-roughness	133	142	O
-of	143	145	O
-the	146	149	O
-GaN	150	153	B-Material
-/	153	154	I-Material
-AlN	154	157	I-Material
-interfaces	158	168	I-Material
-particularly	169	181	O
-for	182	185	O
-the	186	189	O
-first	190	195	O
-layer	196	201	O
-in	202	204	O
-the	205	208	O
-DBR	209	212	B-Material
-stack	213	218	I-Material
-and	219	222	O
-the	223	226	O
-non	227	230	O
--	230	231	O
-uniformity	231	241	O
-of	242	244	O
-the	245	248	O
-DBR	249	252	B-Material
-layer	253	258	I-Material
-thicknesses	259	270	O
-.	270	271	O
-
-Using	272	277	O
-STEM	278	282	B-Process
-measurements	283	295	I-Process
-of	296	298	O
-the	299	302	O
-thickness	303	312	O
-of	313	315	O
-each	316	320	O
-layer	321	326	O
-(	327	328	O
-on	328	330	O
-the	331	334	O
-a	335	336	O
--	336	337	O
-plane	337	342	O
-)	342	343	O
-through	344	351	O
-the	352	355	O
-thickness	356	365	O
-of	366	368	O
-the	369	372	O
-stack	373	378	O
-,	378	379	O
-we	380	382	O
-calculate	383	392	B-Process
-a	393	394	I-Process
-new	395	398	I-Process
-model	399	404	I-Process
-(	405	406	O
-green	406	411	O
-curve	412	417	O
-)	417	418	O
-in	419	421	O
-which	422	427	O
-the	428	431	O
-overall	432	439	O
-reflectivity	440	452	O
-is	453	455	O
-reduced	456	463	O
-to	464	466	O
-85	467	469	O
-%	469	470	O
-.	470	471	O
-
-This	472	476	O
-implies	477	484	O
-that	485	489	O
-variations	490	500	O
-in	501	503	O
-layer	504	509	O
-thickness	510	519	O
-through	520	527	O
-the	528	531	O
-stack	532	537	O
-are	538	541	O
-the	542	545	O
-main	546	550	O
-source	551	557	O
-of	558	560	O
-the	561	564	O
-reduced	565	572	O
-reflectivity	573	585	O
-in	586	588	O
-comparison	589	599	O
-to	600	602	O
-the	603	606	O
-model	607	612	O
-.	612	613	O
-
-In	614	616	O
-fact	617	621	O
-,	621	622	O
-a	623	624	O
-closer	625	631	O
-look	632	636	O
-at	637	639	O
-the	640	643	O
-cross	644	649	B-Material
--	649	650	I-Material
-sectional	650	659	I-Material
-STEM	660	664	I-Material
-data	665	669	I-Material
-and	670	673	O
-a	674	675	O
-careful	676	683	O
-extraction	684	694	B-Process
-of	695	697	I-Process
-layer	698	703	I-Process
-thickness	704	713	I-Process
-have	714	718	O
-revealed	719	727	O
-that	728	732	O
-whilst	733	739	O
-the	740	743	O
-layer	744	749	O
-thicknesses	750	761	O
-are	762	765	O
-fairly	766	772	O
-consistent	773	783	O
-through	784	791	O
-the	792	795	O
-DBR	796	799	B-Material
-stack	800	805	I-Material
-in	806	808	I-Material
-the	809	812	I-Material
-wing	813	817	I-Material
-regions	818	825	I-Material
-,	825	826	O
-there	827	832	O
-is	833	835	O
-a	836	837	O
-monotonic	838	847	O
-variation	848	857	O
-in	858	860	O
-the	861	864	O
-measured	865	873	O
-layer	874	879	O
-thicknesses	880	891	O
-in	892	894	O
-the	895	898	B-Material
-window	899	905	I-Material
-regions	906	913	I-Material
-.	913	914	O
-
-(	915	916	O
-The	916	919	O
-GaN	920	923	B-Material
-layer	924	929	I-Material
-width	930	935	O
-smoothly	936	944	O
-increases	945	954	O
-,	954	955	O
-while	956	961	O
-the	962	965	O
-AlN	966	969	B-Material
-layer	970	975	I-Material
-thickness	976	985	O
-decreases	986	995	O
-through	996	1003	O
-the	1004	1007	O
-DBR	1008	1011	B-Material
-stack	1012	1017	I-Material
-.	1017	1018	O
-)	1018	1019	O
-.	1019	1020	O
-
-This	1021	1025	O
-observation	1026	1037	O
-could	1038	1043	O
-potentially	1044	1055	O
-be	1056	1058	O
-of	1059	1061	O
-practical	1062	1071	O
-importance	1072	1082	O
-,	1082	1083	O
-for	1084	1087	O
-samples	1088	1095	O
-grown	1096	1101	O
-on	1102	1104	O
-templates	1105	1114	O
-with	1115	1119	O
-a	1120	1121	O
-uniform	1122	1129	O
-defect	1130	1136	O
-density	1137	1144	O
-,	1144	1145	O
-as	1146	1148	O
-one	1149	1152	O
-could	1153	1158	O
-achieve	1159	1166	O
-much	1167	1171	O
-better	1172	1178	O
-reflectivities	1179	1193	O
-simply	1194	1200	O
-by	1201	1203	O
-altering	1204	1212	B-Process
-the	1213	1216	I-Process
-growth	1217	1223	I-Process
-time	1224	1228	I-Process
-to	1229	1231	O
-counteract	1232	1242	O
-the	1243	1246	O
-change	1247	1253	O
-in	1254	1256	O
-growth	1257	1263	O
-rate	1264	1268	O
-.	1268	1269	O
-
-This	1270	1274	O
-possibility	1275	1286	O
-is	1287	1289	O
-the	1290	1293	O
-subject	1294	1301	O
-of	1302	1304	O
-ongoing	1305	1312	O
-investigations	1313	1327	O
-.	1327	1328	O
-
-In	1329	1331	O
-addition	1332	1340	O
-,	1340	1341	O
-the	1342	1345	O
-presence	1346	1354	O
-of	1355	1357	O
-cracks	1358	1364	O
-and	1365	1368	O
-trenches	1369	1377	O
-in	1378	1380	O
-the	1381	1384	O
-top	1385	1388	O
-surface	1389	1396	O
-may	1397	1400	O
-also	1401	1405	O
-reduce	1406	1412	O
-the	1413	1416	O
-measured	1417	1425	O
-reflectivity	1426	1438	O
-further	1439	1446	O
-.	1446	1447	O
+However	0,7	O	O
+,	7,8	O	O
+the	9,12	O	O
+measured	13,21	O	O
+reflectivity	22,34	O	O
+is	35,37	O	O
+less	38,42	O	O
+than	43,47	O	O
+the	48,51	O	O
+predicted	52,61	O	O
+value	62,67	O	O
+(	68,69	O	O
+∼96	69,72	O	O
+%	72,73	O	O
+)	73,74	O	O
+,	74,75	O	O
+which	76,81	O	O
+is	82,84	O	O
+likely	85,91	O	O
+to	92,94	O	O
+relate	95,101	O	O
+to	102,104	O	O
+,	104,105	O	O
+amongst	106,113	O	O
+other	114,119	O	O
+factors	120,127	O	O
+,	127,128	O	O
+the	129,132	O	O
+roughness	133,142	O	O
+of	143,145	O	O
+the	146,149	O	O
+GaN	150,153	O	B-Material
+/	153,154	O	I-Material
+AlN	154,157	O	I-Material
+interfaces	158,168	O	I-Material
+particularly	169,181	O	O
+for	182,185	O	O
+the	186,189	O	O
+first	190,195	O	O
+layer	196,201	O	O
+in	202,204	O	O
+the	205,208	O	O
+DBR	209,212	O	B-Material
+stack	213,218	O	I-Material
+and	219,222	O	O
+the	223,226	O	O
+non	227,230	O	O
+-	230,231	O	O
+uniformity	231,241	O	O
+of	242,244	O	O
+the	245,248	O	O
+DBR	249,252	O	B-Material
+layer	253,258	O	I-Material
+thicknesses	259,270	O	O
+.	270,271	O	O
+
+Using	272,277	O	O
+STEM	278,282	O	B-Process
+measurements	283,295	O	I-Process
+of	296,298	O	O
+the	299,302	O	O
+thickness	303,312	O	O
+of	313,315	O	O
+each	316,320	O	O
+layer	321,326	O	O
+(	327,328	O	O
+on	328,330	O	O
+the	331,334	O	O
+a	335,336	O	O
+-	336,337	O	O
+plane	337,342	O	O
+)	342,343	O	O
+through	344,351	O	O
+the	352,355	O	O
+thickness	356,365	O	O
+of	366,368	O	O
+the	369,372	O	O
+stack	373,378	O	O
+,	378,379	O	O
+we	380,382	O	O
+calculate	383,392	O	B-Process
+a	393,394	O	I-Process
+new	395,398	O	I-Process
+model	399,404	O	I-Process
+(	405,406	O	O
+green	406,411	O	O
+curve	412,417	O	O
+)	417,418	O	O
+in	419,421	O	O
+which	422,427	O	O
+the	428,431	O	O
+overall	432,439	O	O
+reflectivity	440,452	O	O
+is	453,455	O	O
+reduced	456,463	O	O
+to	464,466	O	O
+85	467,469	O	O
+%	469,470	O	O
+.	470,471	O	O
+
+This	472,476	O	O
+implies	477,484	O	O
+that	485,489	O	O
+variations	490,500	O	O
+in	501,503	O	O
+layer	504,509	O	O
+thickness	510,519	O	O
+through	520,527	O	O
+the	528,531	O	O
+stack	532,537	O	O
+are	538,541	O	O
+the	542,545	O	O
+main	546,550	O	O
+source	551,557	O	O
+of	558,560	O	O
+the	561,564	O	O
+reduced	565,572	O	O
+reflectivity	573,585	O	O
+in	586,588	O	O
+comparison	589,599	O	O
+to	600,602	O	O
+the	603,606	O	O
+model	607,612	O	O
+.	612,613	O	O
+
+In	614,616	O	O
+fact	617,621	O	O
+,	621,622	O	O
+a	623,624	O	O
+closer	625,631	O	O
+look	632,636	O	O
+at	637,639	O	O
+the	640,643	O	O
+cross	644,649	O	B-Material
+-	649,650	O	I-Material
+sectional	650,659	O	I-Material
+STEM	660,664	O	I-Material
+data	665,669	O	I-Material
+and	670,673	O	O
+a	674,675	O	O
+careful	676,683	O	O
+extraction	684,694	O	B-Process
+of	695,697	O	I-Process
+layer	698,703	O	I-Process
+thickness	704,713	O	I-Process
+have	714,718	O	O
+revealed	719,727	O	O
+that	728,732	O	O
+whilst	733,739	O	O
+the	740,743	O	O
+layer	744,749	O	O
+thicknesses	750,761	O	O
+are	762,765	O	O
+fairly	766,772	O	O
+consistent	773,783	O	O
+through	784,791	O	O
+the	792,795	O	O
+DBR	796,799	O	B-Material
+stack	800,805	O	I-Material
+in	806,808	O	I-Material
+the	809,812	O	I-Material
+wing	813,817	O	I-Material
+regions	818,825	O	I-Material
+,	825,826	O	O
+there	827,832	O	O
+is	833,835	O	O
+a	836,837	O	O
+monotonic	838,847	O	O
+variation	848,857	O	O
+in	858,860	O	O
+the	861,864	O	O
+measured	865,873	O	O
+layer	874,879	O	O
+thicknesses	880,891	O	O
+in	892,894	O	O
+the	895,898	O	B-Material
+window	899,905	O	I-Material
+regions	906,913	O	I-Material
+.	913,914	O	O
+
+(	915,916	O	O
+The	916,919	O	O
+GaN	920,923	O	B-Material
+layer	924,929	O	I-Material
+width	930,935	O	O
+smoothly	936,944	O	O
+increases	945,954	O	O
+,	954,955	O	O
+while	956,961	O	O
+the	962,965	O	O
+AlN	966,969	O	B-Material
+layer	970,975	O	I-Material
+thickness	976,985	O	O
+decreases	986,995	O	O
+through	996,1003	O	O
+the	1004,1007	O	O
+DBR	1008,1011	O	B-Material
+stack	1012,1017	O	I-Material
+.	1017,1018	O	O
+)	1018,1019	O	O
+.	1019,1020	O	O
+
+This	1021,1025	O	O
+observation	1026,1037	O	O
+could	1038,1043	O	O
+potentially	1044,1055	O	O
+be	1056,1058	O	O
+of	1059,1061	O	O
+practical	1062,1071	O	O
+importance	1072,1082	O	O
+,	1082,1083	O	O
+for	1084,1087	O	O
+samples	1088,1095	O	O
+grown	1096,1101	O	O
+on	1102,1104	O	O
+templates	1105,1114	O	O
+with	1115,1119	O	O
+a	1120,1121	O	O
+uniform	1122,1129	O	O
+defect	1130,1136	O	O
+density	1137,1144	O	O
+,	1144,1145	O	O
+as	1146,1148	O	O
+one	1149,1152	O	O
+could	1153,1158	O	O
+achieve	1159,1166	O	O
+much	1167,1171	O	O
+better	1172,1178	O	O
+reflectivities	1179,1193	O	O
+simply	1194,1200	O	O
+by	1201,1203	O	O
+altering	1204,1212	O	B-Process
+the	1213,1216	O	I-Process
+growth	1217,1223	O	I-Process
+time	1224,1228	O	I-Process
+to	1229,1231	O	O
+counteract	1232,1242	O	O
+the	1243,1246	O	O
+change	1247,1253	O	O
+in	1254,1256	O	O
+growth	1257,1263	O	O
+rate	1264,1268	O	O
+.	1268,1269	O	O
+
+This	1270,1274	O	O
+possibility	1275,1286	O	O
+is	1287,1289	O	O
+the	1290,1293	O	O
+subject	1294,1301	O	O
+of	1302,1304	O	O
+ongoing	1305,1312	O	O
+investigations	1313,1327	O	O
+.	1327,1328	O	O
+
+In	1329,1331	O	O
+addition	1332,1340	O	O
+,	1340,1341	O	O
+the	1342,1345	O	O
+presence	1346,1354	O	O
+of	1355,1357	O	O
+cracks	1358,1364	O	O
+and	1365,1368	O	O
+trenches	1369,1377	O	O
+in	1378,1380	O	O
+the	1381,1384	O	O
+top	1385,1388	O	O
+surface	1389,1396	O	O
+may	1397,1400	O	O
+also	1401,1405	O	O
+reduce	1406,1412	O	O
+the	1413,1416	O	O
+measured	1417,1425	O	O
+reflectivity	1426,1438	O	O
+further	1439,1446	O	O
+.	1446,1447	O	O
 
 
 -DOCSTART- (S088523081530036X)
 
-Note	0	4	O
-that	5	9	O
-the	10	13	O
-presented	14	23	O
-architecture	24	36	O
-works	37	42	O
-at	43	45	O
-the	46	49	O
-frame	50	55	O
-level	56	61	O
-,	61	62	O
-meaning	63	70	O
-that	71	75	O
-each	76	80	O
-single	81	87	O
-frame	88	93	O
-(	94	95	O
-plus	95	99	O
-its	100	103	O
-corresponding	104	117	O
-context	118	125	O
-)	125	126	O
-is	127	129	O
-fed	130	133	O
--	133	134	O
-forward	134	141	O
-through	142	149	O
-the	150	153	O
-network	154	161	O
-,	161	162	O
-obtaining	163	172	O
-a	173	174	O
-class	175	180	O
-posterior	181	190	O
-probability	191	202	O
-for	203	206	O
-all	207	210	O
-of	211	213	O
-the	214	217	O
-target	218	224	B-Material
-languages	225	234	I-Material
-.	234	235	O
-
-This	236	240	O
-fact	241	245	O
-makes	246	251	O
-the	252	255	O
-DNNs	256	260	B-Process
-particularly	261	273	O
-suitable	274	282	O
-for	283	286	O
-real	287	291	O
--	291	292	O
-time	292	296	O
-applications	297	309	O
-because	310	317	O
-,	317	318	O
-unlike	319	325	O
-other	326	331	B-Process
-approaches	332	342	I-Process
-(	343	344	O
-i.e.	344	348	O
-i	349	350	B-Process
--	350	351	I-Process
-vectors	351	358	I-Process
-)	358	359	O
-,	359	360	O
-we	361	363	O
-can	364	367	O
-potentially	368	379	O
-make	380	384	O
-a	385	386	O
-decision	387	395	O
-about	396	401	O
-the	402	405	O
-language	406	414	O
-at	415	417	O
-each	418	422	O
-new	423	426	O
-frame	427	432	O
-.	432	433	O
-
-Indeed	434	440	O
-,	440	441	O
-at	442	444	O
-each	445	449	O
-frame	450	455	O
-,	455	456	O
-we	457	459	O
-can	460	463	O
-combine	464	471	B-Process
-the	472	475	I-Process
-evidence	476	484	I-Process
-from	485	489	I-Process
-past	490	494	I-Process
-frames	495	501	I-Process
-to	502	504	O
-get	505	508	O
-a	509	510	O
-single	511	517	O
-similarity	518	528	O
-score	529	534	O
-between	535	542	O
-the	543	546	O
-test	547	551	O
-utterance	552	561	O
-and	562	565	O
-the	566	569	O
-targetlanguages	570	585	O
-.	585	586	O
-
-A	587	588	O
-simple	589	595	O
-way	596	599	O
-of	600	602	O
-doing	603	608	O
-this	609	613	O
-combination	614	625	O
-is	626	628	O
-to	629	631	O
-assume	632	638	B-Process
-that	639	643	I-Process
-frames	644	650	I-Process
-are	651	654	I-Process
-independent	655	666	I-Process
-and	667	670	I-Process
-multiply	671	679	I-Process
-the	680	683	I-Process
-posterior	684	693	I-Process
-estimates	694	703	I-Process
-of	704	706	I-Process
-the	707	710	I-Process
-last	711	715	I-Process
-layer	716	721	I-Process
-.	721	722	O
-
-The	723	726	O
-score	727	732	O
-sl	733	735	O
-for	736	739	O
-language	740	748	O
-l	749	750	O
-of	751	753	O
-a	754	755	O
-given	756	761	O
-test	762	766	B-Material
-utterance	767	776	I-Material
-is	777	779	O
-computed	780	788	O
-by	789	791	O
-multiplying	792	803	B-Process
-the	804	807	I-Process
-output	808	814	I-Process
-probabilities	815	828	I-Process
-pl	829	831	I-Process
-obtained	832	840	I-Process
-for	841	844	I-Process
-all	845	848	I-Process
-of	849	851	I-Process
-its	852	855	I-Process
-frames	856	862	I-Process
-;	862	863	O
-or	864	866	O
-equivalently	867	879	O
-,	879	880	O
-accumulating	881	893	B-Process
-the	894	897	I-Process
-logs	898	902	I-Process
-as:(6)sl=1N∑t=1Nlogp(Ll|xt​	903	930	I-Process
-,	930	931	I-Process
-θ)where	932	939	I-Process
-p(Ll|xt​	940	948	O
-,	948	949	O
-θ	950	951	O
-)	951	952	O
-represents	953	963	O
-the	964	967	O
-class	968	973	O
-probability	974	985	O
-output	986	992	O
-for	993	996	O
-the	997	1000	O
-language	1001	1009	O
-
-l	1010	1011	O
-corresponding	1012	1025	O
-to	1026	1028	O
-the	1029	1032	O
-input	1033	1038	O
-example	1039	1046	O
-at	1047	1049	O
-time	1050	1054	O
-t	1055	1056	O
-,	1056	1057	O
-xt	1058	1060	O
-by	1061	1063	O
-using	1064	1069	O
-the	1070	1073	O
-DNN	1074	1077	B-Process
-defined	1078	1085	O
-by	1086	1088	O
-parameters	1089	1099	O
-θ.	1100	1102	O
+Note	0,4	O	O
+that	5,9	O	O
+the	10,13	O	O
+presented	14,23	O	O
+architecture	24,36	O	O
+works	37,42	O	O
+at	43,45	O	O
+the	46,49	O	O
+frame	50,55	O	O
+level	56,61	O	O
+,	61,62	O	O
+meaning	63,70	O	O
+that	71,75	O	O
+each	76,80	O	O
+single	81,87	O	O
+frame	88,93	O	O
+(	94,95	O	O
+plus	95,99	O	O
+its	100,103	O	O
+corresponding	104,117	O	O
+context	118,125	O	O
+)	125,126	O	O
+is	127,129	O	O
+fed	130,133	O	O
+-	133,134	O	O
+forward	134,141	O	O
+through	142,149	O	O
+the	150,153	O	O
+network	154,161	O	O
+,	161,162	O	O
+obtaining	163,172	O	O
+a	173,174	O	O
+class	175,180	O	O
+posterior	181,190	O	O
+probability	191,202	O	O
+for	203,206	O	O
+all	207,210	O	O
+of	211,213	O	O
+the	214,217	O	O
+target	218,224	O	B-Material
+languages	225,234	O	I-Material
+.	234,235	O	O
+
+This	236,240	O	O
+fact	241,245	O	O
+makes	246,251	O	O
+the	252,255	O	O
+DNNs	256,260	O	B-Process
+particularly	261,273	O	O
+suitable	274,282	O	O
+for	283,286	O	O
+real	287,291	O	O
+-	291,292	O	O
+time	292,296	O	O
+applications	297,309	O	O
+because	310,317	O	O
+,	317,318	O	O
+unlike	319,325	O	O
+other	326,331	O	B-Process
+approaches	332,342	O	I-Process
+(	343,344	O	O
+i.e.	344,348	O	O
+i	349,350	O	B-Process
+-	350,351	O	I-Process
+vectors	351,358	O	I-Process
+)	358,359	O	O
+,	359,360	O	O
+we	361,363	O	O
+can	364,367	O	O
+potentially	368,379	O	O
+make	380,384	O	O
+a	385,386	O	O
+decision	387,395	O	O
+about	396,401	O	O
+the	402,405	O	O
+language	406,414	O	O
+at	415,417	O	O
+each	418,422	O	O
+new	423,426	O	O
+frame	427,432	O	O
+.	432,433	O	O
+
+Indeed	434,440	O	O
+,	440,441	O	O
+at	442,444	O	O
+each	445,449	O	O
+frame	450,455	O	O
+,	455,456	O	O
+we	457,459	O	O
+can	460,463	O	O
+combine	464,471	O	B-Process
+the	472,475	O	I-Process
+evidence	476,484	O	I-Process
+from	485,489	O	I-Process
+past	490,494	O	I-Process
+frames	495,501	O	I-Process
+to	502,504	O	O
+get	505,508	O	O
+a	509,510	O	O
+single	511,517	O	O
+similarity	518,528	O	O
+score	529,534	O	O
+between	535,542	O	O
+the	543,546	O	O
+test	547,551	O	O
+utterance	552,561	O	O
+and	562,565	O	O
+the	566,569	O	O
+targetlanguages	570,585	O	O
+.	585,586	O	O
+
+A	587,588	O	O
+simple	589,595	O	O
+way	596,599	O	O
+of	600,602	O	O
+doing	603,608	O	O
+this	609,613	O	O
+combination	614,625	O	O
+is	626,628	O	O
+to	629,631	O	O
+assume	632,638	O	B-Process
+that	639,643	O	I-Process
+frames	644,650	O	I-Process
+are	651,654	O	I-Process
+independent	655,666	O	I-Process
+and	667,670	O	I-Process
+multiply	671,679	O	I-Process
+the	680,683	O	I-Process
+posterior	684,693	O	I-Process
+estimates	694,703	O	I-Process
+of	704,706	O	I-Process
+the	707,710	O	I-Process
+last	711,715	O	I-Process
+layer	716,721	O	I-Process
+.	721,722	O	O
+
+The	723,726	O	O
+score	727,732	O	O
+sl	733,735	O	O
+for	736,739	O	O
+language	740,748	O	O
+l	749,750	O	O
+of	751,753	O	O
+a	754,755	O	O
+given	756,761	O	O
+test	762,766	O	B-Material
+utterance	767,776	O	I-Material
+is	777,779	O	O
+computed	780,788	O	O
+by	789,791	O	O
+multiplying	792,803	O	B-Process
+the	804,807	O	I-Process
+output	808,814	O	I-Process
+probabilities	815,828	O	I-Process
+pl	829,831	O	I-Process
+obtained	832,840	O	I-Process
+for	841,844	O	I-Process
+all	845,848	O	I-Process
+of	849,851	O	I-Process
+its	852,855	O	I-Process
+frames	856,862	O	I-Process
+;	862,863	O	O
+or	864,866	O	O
+equivalently	867,879	O	O
+,	879,880	O	O
+accumulating	881,893	O	B-Process
+the	894,897	O	I-Process
+logs	898,902	O	I-Process
+as:(6)sl=1N∑t=1Nlogp(Ll|xt​	903,930	O	I-Process
+,	930,931	O	I-Process
+θ)where	932,939	O	I-Process
+p(Ll|xt​	940,948	O	O
+,	948,949	O	O
+θ	950,951	O	O
+)	951,952	O	O
+represents	953,963	O	O
+the	964,967	O	O
+class	968,973	O	O
+probability	974,985	O	O
+output	986,992	O	O
+for	993,996	O	O
+the	997,1000	O	O
+language	1001,1009	O	O
+
+l	1010,1011	O	O
+corresponding	1012,1025	O	O
+to	1026,1028	O	O
+the	1029,1032	O	O
+input	1033,1038	O	O
+example	1039,1046	O	O
+at	1047,1049	O	O
+time	1050,1054	O	O
+t	1055,1056	O	O
+,	1056,1057	O	O
+xt	1058,1060	O	O
+by	1061,1063	O	O
+using	1064,1069	O	O
+the	1070,1073	O	O
+DNN	1074,1077	O	B-Process
+defined	1078,1085	O	O
+by	1086,1088	O	O
+parameters	1089,1099	O	O
+θ.	1100,1102	O	O
 
 
 -DOCSTART- (S0885230816300043)
 
-The	0	3	O
-final	4	9	O
-set	10	13	O
-of	14	16	O
-experiments	17	28	O
-involved	29	37	O
-an	38	40	O
-adaptive	41	49	O
-retraining	50	60	O
-of	61	63	O
-the	64	67	O
-GMM	68	71	O
-–	71	72	O
-
-HMM	72	75	O
-parameters	76	86	O
-following	87	96	O
-the	97	100	O
-aNAT	101	105	B-Process
-procedure	106	115	I-Process
-.	115	116	O
-
-This	117	121	O
-new	122	125	O
-model	126	131	O
-only	132	136	O
-provided	137	145	O
-an	146	148	O
-improvement	149	160	O
-of	161	163	O
-0.3	164	167	O
-%	167	168	O
-,	168	169	O
-similar	170	177	O
-to	178	180	O
-using	181	186	O
-the	187	190	O
-aCMLLR	191	197	B-Process
-transforms	198	208	I-Process
-on	209	211	O
-the	212	215	O
-baseline	216	224	O
-GMM	225	228	B-Process
-–	228	229	I-Process
-HMM	229	232	I-Process
-model	233	238	I-Process
-.	238	239	O
-
-However	240	247	O
-,	247	248	O
-training	249	257	B-Process
-show	258	262	I-Process
--	262	263	I-Process
-based	263	268	I-Process
-aCMLLR	269	275	I-Process
-transforms	276	286	I-Process
-on	287	289	O
-top	290	293	O
-of	294	296	O
-the	297	300	O
-adaptively	301	311	O
-trained	312	319	O
-model	320	325	O
-boosted	326	333	O
-the	334	337	O
-improvement	338	349	O
-to	350	352	O
-0.8	353	356	O
-%	356	357	O
-absolute	358	366	O
-.	366	367	O
-
-This	368	372	O
-showed	373	379	O
-how	380	383	O
-adaptive	384	392	B-Process
-training	393	401	I-Process
-provided	402	410	O
-a	411	412	O
-better	413	419	O
-flexibility	420	431	O
-of	432	434	O
-the	435	438	O
-model	439	444	O
-to	445	447	O
-adapt	448	453	O
-to	454	456	O
-specific	457	465	O
-background	466	476	O
-conditions	477	487	O
-existing	488	496	O
-in	497	499	O
-each	500	504	O
-show	505	509	O
-.	509	510	O
-
-Finally	511	518	O
-,	518	519	O
-the	520	523	O
-factorisation	524	537	B-Process
-approach	538	546	I-Process
-using	547	552	I-Process
-MLLR	553	557	I-Process
-speaker	558	565	I-Process
-transforms	566	576	I-Process
-on	577	579	O
-top	580	583	O
-of	584	586	O
-the	587	590	O
-aNAT	591	595	B-Process
-model	596	601	I-Process
-and	602	605	O
-show	606	610	O
--	610	611	O
-based	611	616	O
-aCMLLR	617	623	B-Process
-transforms	624	634	I-Process
-was	635	638	O
-tested	639	645	O
-.	645	646	O
-
-This	647	651	O
-only	652	656	O
-increased	657	666	O
-the	667	670	O
-improvement	671	682	O
-to	683	685	O
-0.9	686	689	O
-%	689	690	O
-absolute	691	699	O
-(	700	701	O
-2.9	701	704	O
-%	704	705	O
-relative	706	714	O
-)	714	715	O
-,	715	716	O
-which	717	722	O
-reflects	723	731	O
-the	732	735	O
-difficulty	736	746	O
-of	747	749	O
-performing	750	760	O
-accurate	761	769	O
-speaker	770	777	B-Task
-clustering	778	788	I-Task
-in	789	791	O
-this	792	796	O
-task	797	801	O
-and	802	805	O
-how	806	809	O
-this	810	814	O
-actually	815	823	O
-hampers	824	831	O
-speaker	832	839	B-Task
-adaptation	840	850	I-Task
-.	850	851	O
+The	0,3	O	O
+final	4,9	O	O
+set	10,13	O	O
+of	14,16	O	O
+experiments	17,28	O	O
+involved	29,37	O	O
+an	38,40	O	O
+adaptive	41,49	O	O
+retraining	50,60	O	O
+of	61,63	O	O
+the	64,67	O	O
+GMM	68,71	O	O
+–	71,72	O	O
+
+HMM	72,75	O	O
+parameters	76,86	O	O
+following	87,96	O	O
+the	97,100	O	O
+aNAT	101,105	O	B-Process
+procedure	106,115	O	I-Process
+.	115,116	O	O
+
+This	117,121	O	O
+new	122,125	O	O
+model	126,131	O	O
+only	132,136	O	O
+provided	137,145	O	O
+an	146,148	O	O
+improvement	149,160	O	O
+of	161,163	O	O
+0.3	164,167	O	O
+%	167,168	O	O
+,	168,169	O	O
+similar	170,177	O	O
+to	178,180	O	O
+using	181,186	O	O
+the	187,190	O	O
+aCMLLR	191,197	O	B-Process
+transforms	198,208	O	I-Process
+on	209,211	O	O
+the	212,215	O	O
+baseline	216,224	O	O
+GMM	225,228	O	B-Process
+–	228,229	O	I-Process
+HMM	229,232	O	I-Process
+model	233,238	O	I-Process
+.	238,239	O	O
+
+However	240,247	O	O
+,	247,248	O	O
+training	249,257	O	B-Process
+show	258,262	O	I-Process
+-	262,263	O	I-Process
+based	263,268	O	I-Process
+aCMLLR	269,275	O	I-Process
+transforms	276,286	O	I-Process
+on	287,289	O	O
+top	290,293	O	O
+of	294,296	O	O
+the	297,300	O	O
+adaptively	301,311	O	O
+trained	312,319	O	O
+model	320,325	O	O
+boosted	326,333	O	O
+the	334,337	O	O
+improvement	338,349	O	O
+to	350,352	O	O
+0.8	353,356	O	O
+%	356,357	O	O
+absolute	358,366	O	O
+.	366,367	O	O
+
+This	368,372	O	O
+showed	373,379	O	O
+how	380,383	O	O
+adaptive	384,392	O	B-Process
+training	393,401	O	I-Process
+provided	402,410	O	O
+a	411,412	O	O
+better	413,419	O	O
+flexibility	420,431	O	O
+of	432,434	O	O
+the	435,438	O	O
+model	439,444	O	O
+to	445,447	O	O
+adapt	448,453	O	O
+to	454,456	O	O
+specific	457,465	O	O
+background	466,476	O	O
+conditions	477,487	O	O
+existing	488,496	O	O
+in	497,499	O	O
+each	500,504	O	O
+show	505,509	O	O
+.	509,510	O	O
+
+Finally	511,518	O	O
+,	518,519	O	O
+the	520,523	O	O
+factorisation	524,537	O	B-Process
+approach	538,546	O	I-Process
+using	547,552	O	I-Process
+MLLR	553,557	O	I-Process
+speaker	558,565	O	I-Process
+transforms	566,576	O	I-Process
+on	577,579	O	O
+top	580,583	O	O
+of	584,586	O	O
+the	587,590	O	O
+aNAT	591,595	O	B-Process
+model	596,601	O	I-Process
+and	602,605	O	O
+show	606,610	O	O
+-	610,611	O	O
+based	611,616	O	O
+aCMLLR	617,623	O	B-Process
+transforms	624,634	O	I-Process
+was	635,638	O	O
+tested	639,645	O	O
+.	645,646	O	O
+
+This	647,651	O	O
+only	652,656	O	O
+increased	657,666	O	O
+the	667,670	O	O
+improvement	671,682	O	O
+to	683,685	O	O
+0.9	686,689	O	O
+%	689,690	O	O
+absolute	691,699	O	O
+(	700,701	O	O
+2.9	701,704	O	O
+%	704,705	O	O
+relative	706,714	O	O
+)	714,715	O	O
+,	715,716	O	O
+which	717,722	O	O
+reflects	723,731	O	O
+the	732,735	O	O
+difficulty	736,746	O	O
+of	747,749	O	O
+performing	750,760	O	O
+accurate	761,769	O	O
+speaker	770,777	O	B-Task
+clustering	778,788	O	I-Task
+in	789,791	O	O
+this	792,796	O	O
+task	797,801	O	O
+and	802,805	O	O
+how	806,809	O	O
+this	810,814	O	O
+actually	815,823	O	O
+hampers	824,831	O	O
+speaker	832,839	O	B-Task
+adaptation	840,850	O	I-Task
+.	850,851	O	O
 
 
 -DOCSTART- (S0888327016300048)
 
-The	0	3	O
-research	4	12	O
-work	13	17	O
-in	18	20	O
-this	21	25	O
-paper	26	31	O
-elaborates	32	42	B-Task
-on	43	45	I-Task
-the	46	49	I-Task
-theoretical	50	61	I-Task
-effectiveness	62	75	I-Task
-of	76	78	I-Task
-the	79	82	I-Task
-proposed	83	91	I-Task
-method	92	98	I-Task
-based	99	104	I-Task
-on	105	107	I-Task
-the	108	111	I-Task
-multivariate	112	124	I-Task
-EMD	125	128	I-Task
-.	128	129	O
-
-It	130	132	O
-also	133	137	O
-clearly	138	145	O
-indicates	146	155	O
-through	156	163	O
-numerical	164	173	B-Process
-simulations	174	185	I-Process
-and	186	189	O
-applications	190	202	B-Task
-to	203	205	I-Task
-bearing	206	213	I-Task
-monitoring	214	224	I-Task
-that	225	229	O
-the	230	233	O
-expansion	234	243	B-Process
-from	244	248	I-Process
-standard	249	257	I-Process
-EMD	258	261	I-Process
-to	262	264	I-Process
-multivariate	265	277	I-Process
-EMD	278	281	I-Process
-is	282	284	O
-a	285	286	O
-successful	287	297	O
-exploration	298	309	O
-.	309	310	O
-
-Using	311	316	O
-multiple	317	325	O
-sensors	326	333	B-Material
-to	334	336	O
-collect	337	344	O
-signal	345	351	O
-from	352	356	O
-different	357	366	O
-locations	367	376	O
-of	377	379	O
-the	380	383	O
-machine	384	391	O
-and	392	395	O
-using	396	401	O
-the	402	405	O
-multivariate	406	418	B-Process
-EMD	419	422	I-Process
-to	423	425	O
-analyze	426	433	O
-multivariate	434	446	B-Material
-signal	447	453	I-Material
-can	454	457	O
-contribute	458	468	O
-to	469	471	O
-comprehensively	472	487	O
-collect	488	495	O
-all	496	499	O
-the	500	503	O
-frequency	504	513	B-Material
-components	514	524	I-Material
-related	525	532	O
-to	533	535	O
-any	536	539	O
-bearing	540	547	O
-fault	548	553	O
-,	553	554	O
-and	555	558	O
-is	559	561	O
-beneficial	562	572	O
-to	573	575	O
-extract	576	583	B-Task
-fault	584	589	I-Task
-information	590	601	I-Task
-,	601	602	O
-especially	603	613	O
-for	614	617	O
-early	618	623	O
-weak	624	628	O
-fault	629	634	O
-characteristics	635	650	O
-.	650	651	O
-
-Both	652	656	O
-the	657	660	O
-characteristic	661	675	O
-frequencies	676	687	O
-of	688	690	O
-simulated	691	700	O
-signal	701	707	O
-and	708	711	O
-the	712	715	O
-fault	716	721	O
-frequencies	722	733	O
-of	734	736	O
-practical	737	746	B-Material
-rolling	747	754	I-Material
-bearing	755	762	I-Material
-signal	763	769	I-Material
-can	770	773	O
-be	774	776	O
-extracted	777	786	O
-from	787	791	O
-the	792	795	O
-same	796	800	O
-order	801	806	O
-of	807	809	O
-IMF	810	813	O
-groups	814	820	O
-,	820	821	O
-thus	822	826	O
-showing	827	834	O
-that	835	839	O
-multivariate	840	852	B-Process
-EMD	853	856	I-Process
-is	857	859	O
-an	860	862	O
-effective	863	872	O
-signal	873	879	B-Process
-decomposition	880	893	I-Process
-algorithm	894	903	I-Process
-and	904	907	O
-can	908	911	O
-be	912	914	O
-competently	915	926	O
-applied	927	934	O
-to	935	937	O
-fault	938	943	B-Process
-diagnosis	944	953	I-Process
-of	954	956	O
-rolling	957	964	B-Material
-bearings	965	973	I-Material
-when	974	978	O
-combined	979	987	O
-with	988	992	O
-a	993	994	O
-multiscale	995	1005	B-Process
-reduction	1006	1015	I-Process
-method	1016	1022	I-Process
-and	1023	1026	O
-fault	1027	1032	B-Process
-correlation	1033	1044	I-Process
-factor	1045	1051	I-Process
-analysis	1052	1060	I-Process
-.	1060	1061	O
-
-In	1062	1064	O
-signal	1065	1071	B-Task
-acquisition	1072	1083	I-Task
-and	1084	1087	I-Task
-processing	1088	1098	I-Task
-,	1098	1099	O
-given	1100	1105	O
-the	1106	1109	O
-circumstance	1110	1122	O
-that	1123	1127	O
-there	1128	1133	O
-is	1134	1136	O
-a	1137	1138	O
-trend	1139	1144	O
-toward	1145	1151	O
-the	1152	1155	O
-use	1156	1159	O
-of	1160	1162	O
-multiple	1163	1171	O
-sensors	1172	1179	B-Material
-,	1179	1180	O
-multivariate	1181	1193	B-Process
-EMD	1194	1197	I-Process
-appears	1198	1205	O
-to	1206	1208	O
-be	1209	1211	O
-very	1212	1216	O
-useful	1217	1223	O
-and	1224	1227	O
-meaningful	1228	1238	O
-as	1239	1241	O
-a	1242	1243	O
-kind	1244	1248	O
-of	1249	1251	O
-multivariate	1252	1264	B-Process
-data	1265	1269	I-Process
-processing	1270	1280	I-Process
-algorithm	1281	1290	I-Process
-.	1290	1291	O
-
-By	1292	1294	O
-analyzing	1295	1304	O
-the	1305	1308	O
-simulated	1309	1318	B-Material
-signal	1319	1325	I-Material
-and	1326	1329	O
-two	1330	1333	O
-different	1334	1343	O
-practical	1344	1353	B-Material
-multivariate	1354	1366	I-Material
-signals	1367	1374	I-Material
-,	1374	1375	O
-the	1376	1379	O
-results	1380	1387	O
-demonstrate	1388	1399	O
-the	1400	1403	O
-significance	1404	1416	O
-of	1417	1419	O
-the	1420	1423	O
-proposed	1424	1432	O
-method	1433	1439	O
-in	1440	1442	O
-the	1443	1446	O
-field	1447	1452	O
-of	1453	1455	O
-fault	1456	1461	B-Task
-diagnosis	1462	1471	I-Task
-of	1472	1474	I-Task
-rolling	1475	1482	I-Task
-bearing	1483	1490	I-Task
-.	1490	1491	O
+The	0,3	O	O
+research	4,12	O	O
+work	13,17	O	O
+in	18,20	O	O
+this	21,25	O	O
+paper	26,31	O	O
+elaborates	32,42	O	B-Task
+on	43,45	O	I-Task
+the	46,49	O	I-Task
+theoretical	50,61	O	I-Task
+effectiveness	62,75	O	I-Task
+of	76,78	O	I-Task
+the	79,82	O	I-Task
+proposed	83,91	O	I-Task
+method	92,98	O	I-Task
+based	99,104	O	I-Task
+on	105,107	O	I-Task
+the	108,111	O	I-Task
+multivariate	112,124	O	I-Task
+EMD	125,128	O	I-Task
+.	128,129	O	O
+
+It	130,132	O	O
+also	133,137	O	O
+clearly	138,145	O	O
+indicates	146,155	O	O
+through	156,163	O	O
+numerical	164,173	O	B-Process
+simulations	174,185	O	I-Process
+and	186,189	O	O
+applications	190,202	O	B-Task
+to	203,205	O	I-Task
+bearing	206,213	O	I-Task
+monitoring	214,224	O	I-Task
+that	225,229	O	O
+the	230,233	O	O
+expansion	234,243	O	B-Process
+from	244,248	O	I-Process
+standard	249,257	O	I-Process
+EMD	258,261	O	I-Process
+to	262,264	O	I-Process
+multivariate	265,277	O	I-Process
+EMD	278,281	O	I-Process
+is	282,284	O	O
+a	285,286	O	O
+successful	287,297	O	O
+exploration	298,309	O	O
+.	309,310	O	O
+
+Using	311,316	O	O
+multiple	317,325	O	O
+sensors	326,333	O	B-Material
+to	334,336	O	O
+collect	337,344	O	O
+signal	345,351	O	O
+from	352,356	O	O
+different	357,366	O	O
+locations	367,376	O	O
+of	377,379	O	O
+the	380,383	O	O
+machine	384,391	O	O
+and	392,395	O	O
+using	396,401	O	O
+the	402,405	O	O
+multivariate	406,418	O	B-Process
+EMD	419,422	O	I-Process
+to	423,425	O	O
+analyze	426,433	O	O
+multivariate	434,446	O	B-Material
+signal	447,453	O	I-Material
+can	454,457	O	O
+contribute	458,468	O	O
+to	469,471	O	O
+comprehensively	472,487	O	O
+collect	488,495	O	O
+all	496,499	O	O
+the	500,503	O	O
+frequency	504,513	O	B-Material
+components	514,524	O	I-Material
+related	525,532	O	O
+to	533,535	O	O
+any	536,539	O	O
+bearing	540,547	O	O
+fault	548,553	O	O
+,	553,554	O	O
+and	555,558	O	O
+is	559,561	O	O
+beneficial	562,572	O	O
+to	573,575	O	O
+extract	576,583	O	B-Task
+fault	584,589	O	I-Task
+information	590,601	O	I-Task
+,	601,602	O	O
+especially	603,613	O	O
+for	614,617	O	O
+early	618,623	O	O
+weak	624,628	O	O
+fault	629,634	O	O
+characteristics	635,650	O	O
+.	650,651	O	O
+
+Both	652,656	O	O
+the	657,660	O	O
+characteristic	661,675	O	O
+frequencies	676,687	O	O
+of	688,690	O	O
+simulated	691,700	O	O
+signal	701,707	O	O
+and	708,711	O	O
+the	712,715	O	O
+fault	716,721	O	O
+frequencies	722,733	O	O
+of	734,736	O	O
+practical	737,746	O	B-Material
+rolling	747,754	O	I-Material
+bearing	755,762	O	I-Material
+signal	763,769	O	I-Material
+can	770,773	O	O
+be	774,776	O	O
+extracted	777,786	O	O
+from	787,791	O	O
+the	792,795	O	O
+same	796,800	O	O
+order	801,806	O	O
+of	807,809	O	O
+IMF	810,813	O	O
+groups	814,820	O	O
+,	820,821	O	O
+thus	822,826	O	O
+showing	827,834	O	O
+that	835,839	O	O
+multivariate	840,852	O	B-Process
+EMD	853,856	O	I-Process
+is	857,859	O	O
+an	860,862	O	O
+effective	863,872	O	O
+signal	873,879	O	B-Process
+decomposition	880,893	O	I-Process
+algorithm	894,903	O	I-Process
+and	904,907	O	O
+can	908,911	O	O
+be	912,914	O	O
+competently	915,926	O	O
+applied	927,934	O	O
+to	935,937	O	O
+fault	938,943	O	B-Process
+diagnosis	944,953	O	I-Process
+of	954,956	O	O
+rolling	957,964	O	B-Material
+bearings	965,973	O	I-Material
+when	974,978	O	O
+combined	979,987	O	O
+with	988,992	O	O
+a	993,994	O	O
+multiscale	995,1005	O	B-Process
+reduction	1006,1015	O	I-Process
+method	1016,1022	O	I-Process
+and	1023,1026	O	O
+fault	1027,1032	O	B-Process
+correlation	1033,1044	O	I-Process
+factor	1045,1051	O	I-Process
+analysis	1052,1060	O	I-Process
+.	1060,1061	O	O
+
+In	1062,1064	O	O
+signal	1065,1071	O	B-Task
+acquisition	1072,1083	O	I-Task
+and	1084,1087	O	I-Task
+processing	1088,1098	O	I-Task
+,	1098,1099	O	O
+given	1100,1105	O	O
+the	1106,1109	O	O
+circumstance	1110,1122	O	O
+that	1123,1127	O	O
+there	1128,1133	O	O
+is	1134,1136	O	O
+a	1137,1138	O	O
+trend	1139,1144	O	O
+toward	1145,1151	O	O
+the	1152,1155	O	O
+use	1156,1159	O	O
+of	1160,1162	O	O
+multiple	1163,1171	O	O
+sensors	1172,1179	O	B-Material
+,	1179,1180	O	O
+multivariate	1181,1193	O	B-Process
+EMD	1194,1197	O	I-Process
+appears	1198,1205	O	O
+to	1206,1208	O	O
+be	1209,1211	O	O
+very	1212,1216	O	O
+useful	1217,1223	O	O
+and	1224,1227	O	O
+meaningful	1228,1238	O	O
+as	1239,1241	O	O
+a	1242,1243	O	O
+kind	1244,1248	O	O
+of	1249,1251	O	O
+multivariate	1252,1264	O	B-Process
+data	1265,1269	O	I-Process
+processing	1270,1280	O	I-Process
+algorithm	1281,1290	O	I-Process
+.	1290,1291	O	O
+
+By	1292,1294	O	O
+analyzing	1295,1304	O	O
+the	1305,1308	O	O
+simulated	1309,1318	O	B-Material
+signal	1319,1325	O	I-Material
+and	1326,1329	O	O
+two	1330,1333	O	O
+different	1334,1343	O	O
+practical	1344,1353	O	B-Material
+multivariate	1354,1366	O	I-Material
+signals	1367,1374	O	I-Material
+,	1374,1375	O	O
+the	1376,1379	O	O
+results	1380,1387	O	O
+demonstrate	1388,1399	O	O
+the	1400,1403	O	O
+significance	1404,1416	O	O
+of	1417,1419	O	O
+the	1420,1423	O	O
+proposed	1424,1432	O	O
+method	1433,1439	O	O
+in	1440,1442	O	O
+the	1443,1446	O	O
+field	1447,1452	O	O
+of	1453,1455	O	O
+fault	1456,1461	O	B-Task
+diagnosis	1462,1471	O	I-Task
+of	1472,1474	O	I-Task
+rolling	1475,1482	O	I-Task
+bearing	1483,1490	O	I-Task
+.	1490,1491	O	O
 
 
 -DOCSTART- (S0888327016302333)
 
-The	0	3	B-Task
-GFRFs	4	9	I-Task
-of	10	12	I-Task
-nonlinear	13	22	I-Task
-systems	23	30	I-Task
-can	31	34	O
-be	35	37	O
-determined	38	48	O
-by	49	51	O
-either	52	58	O
-a	59	60	B-Material
-parametric	61	71	I-Material
--	71	72	I-Material
-model	72	77	I-Material
--	77	78	I-Material
-based	78	83	I-Material
-method	84	90	I-Material
-or	91	93	O
-a	94	95	B-Material
-nonparametric	96	109	I-Material
--	109	110	I-Material
-model	110	115	I-Material
--	115	116	I-Material
-based	116	121	I-Material
-method	122	128	I-Material
-[	129	130	O
-8	130	131	O
-]	131	132	O
-.	132	133	O
-
-In	134	136	O
-the	137	140	O
-parametric	141	151	O
-approach	152	160	O
-,	160	161	O
-a	162	163	B-Task
-nonlinear	164	173	I-Task
-parametric	174	184	I-Task
-model	185	190	I-Task
-is	191	193	O
-first	194	199	O
-identified	200	210	O
-from	211	215	O
-the	216	219	O
-input	220	225	O
-–	225	226	O
-output	226	232	O
-data	233	237	O
-.	237	238	O
-
-The	239	242	O
-GFRFs	243	248	B-Task
-are	249	252	O
-then	253	257	O
-obtained	258	266	O
-by	267	269	O
-mapping	270	277	B-Process
-the	278	281	I-Process
-resultant	282	291	I-Process
-model	292	297	I-Process
-into	298	302	I-Process
-the	303	306	I-Process
-frequency	307	316	I-Process
-domain	317	323	I-Process
-using	324	329	O
-the	330	333	O
-probing	334	341	B-Material
-method	342	348	I-Material
-[	349	350	O
-9	350	351	O
-]	351	352	O
-.	352	353	O
-
-The	354	357	O
-nonparametric	358	371	B-Task
-approach	372	380	I-Task
-is	381	383	O
-often	384	389	O
-referred	390	398	O
-to	399	401	O
-as	402	404	O
-frequency	405	414	B-Task
--	414	415	I-Task
-domain	415	421	I-Task
-Volterra	422	430	I-Task
-system	431	437	I-Task
-identification	438	452	I-Task
-and	453	456	O
-is	457	459	O
-based	460	465	O
-on	466	468	O
-the	469	472	O
-observation	473	484	O
-that	485	489	O
-the	490	493	O
-Volterra	494	502	B-Task
-model	503	508	I-Task
-of	509	511	I-Task
-nonlinear	512	521	I-Task
-systems	522	529	I-Task
-is	530	532	O
-linear	533	539	O
-in	540	542	O
-terms	543	548	O
-of	549	551	O
-the	552	555	O
-unknown	556	563	O
-Volterra	564	572	O
-kernels	573	580	O
-,	580	581	O
-which	582	587	O
-,	587	588	O
-in	589	591	O
-the	592	595	O
-frequency	596	605	O
-domain	606	612	O
-,	612	613	O
-corresponds	614	625	B-Material
-to	626	628	I-Material
-a	629	630	I-Material
-linear	631	637	I-Material
-relation	638	646	I-Material
-between	647	654	O
-the	655	658	O
-output	659	665	O
-frequency	666	675	O
-response	676	684	O
-and	685	688	O
-linear	689	695	O
-,	695	696	O
-quadratic	697	706	O
-,	706	707	O
-and	708	711	O
-higher	712	718	O
-order	719	724	O
-GFRFs	725	730	O
-.	730	731	O
-
-This	732	736	O
-linear	737	743	B-Task
-relationship	744	756	I-Task
-allows	757	763	O
-the	764	767	O
-use	768	771	O
-of	772	774	O
-a	775	776	B-Material
-least	777	782	I-Material
-squares	783	790	I-Material
-(	791	792	I-Material
-LS	792	794	I-Material
-)	794	795	I-Material
-approach	796	804	I-Material
-to	805	807	O
-solve	808	813	O
-for	814	817	O
-the	818	821	O
-GFRFs	822	827	B-Task
-.	827	828	O
-
-Several	829	836	O
-researchers	837	848	O
-[	849	850	O
-10–12	850	855	O
-]	855	856	O
-have	857	861	O
-used	862	866	O
-this	867	871	O
-method	872	878	O
-to	879	881	O
-estimate	882	890	O
-the	891	894	O
-GFRFs	895	900	B-Task
-.	900	901	O
-
-But	902	905	O
-they	906	910	O
-usually	911	918	O
-made	919	923	B-Process
-the	924	927	I-Process
-assumption	928	938	I-Process
-that	939	943	O
-it	944	946	O
-is	947	949	O
-known	950	955	O
-a	956	957	O
-priori	958	964	O
-that	965	969	O
-the	970	973	B-Task
-system	974	980	I-Task
-under	981	986	O
-study	987	992	O
-can	993	996	O
-be	997	999	O
-represented	1000	1011	O
-by	1012	1014	O
-just	1015	1019	O
-two	1020	1023	B-Material
-or	1024	1026	I-Material
-three	1027	1032	I-Material
-terms	1033	1038	I-Material
-.	1038	1039	O
-
-However	1040	1047	O
-,	1047	1048	O
-such	1049	1053	O
-information	1054	1065	O
-is	1066	1068	O
-rarely	1069	1075	O
-available	1076	1085	O
-a	1086	1087	O
-priori	1088	1094	O
-.	1094	1095	O
+The	0,3	O	B-Task
+GFRFs	4,9	O	I-Task
+of	10,12	O	I-Task
+nonlinear	13,22	O	I-Task
+systems	23,30	O	I-Task
+can	31,34	O	O
+be	35,37	O	O
+determined	38,48	O	O
+by	49,51	O	O
+either	52,58	O	O
+a	59,60	O	B-Material
+parametric	61,71	O	I-Material
+-	71,72	O	I-Material
+model	72,77	O	I-Material
+-	77,78	O	I-Material
+based	78,83	O	I-Material
+method	84,90	O	I-Material
+or	91,93	O	O
+a	94,95	O	B-Material
+nonparametric	96,109	O	I-Material
+-	109,110	O	I-Material
+model	110,115	O	I-Material
+-	115,116	O	I-Material
+based	116,121	O	I-Material
+method	122,128	O	I-Material
+[	129,130	O	O
+8	130,131	O	O
+]	131,132	O	O
+.	132,133	O	O
+
+In	134,136	O	O
+the	137,140	O	O
+parametric	141,151	O	O
+approach	152,160	O	O
+,	160,161	O	O
+a	162,163	O	B-Task
+nonlinear	164,173	O	I-Task
+parametric	174,184	O	I-Task
+model	185,190	O	I-Task
+is	191,193	O	O
+first	194,199	O	O
+identified	200,210	O	O
+from	211,215	O	O
+the	216,219	O	O
+input	220,225	O	O
+–	225,226	O	O
+output	226,232	O	O
+data	233,237	O	O
+.	237,238	O	O
+
+The	239,242	O	O
+GFRFs	243,248	O	B-Task
+are	249,252	O	O
+then	253,257	O	O
+obtained	258,266	O	O
+by	267,269	O	O
+mapping	270,277	O	B-Process
+the	278,281	O	I-Process
+resultant	282,291	O	I-Process
+model	292,297	O	I-Process
+into	298,302	O	I-Process
+the	303,306	O	I-Process
+frequency	307,316	O	I-Process
+domain	317,323	O	I-Process
+using	324,329	O	O
+the	330,333	O	O
+probing	334,341	O	B-Material
+method	342,348	O	I-Material
+[	349,350	O	O
+9	350,351	O	O
+]	351,352	O	O
+.	352,353	O	O
+
+The	354,357	O	O
+nonparametric	358,371	O	B-Task
+approach	372,380	O	I-Task
+is	381,383	O	O
+often	384,389	O	O
+referred	390,398	O	O
+to	399,401	O	O
+as	402,404	O	O
+frequency	405,414	O	B-Task
+-	414,415	O	I-Task
+domain	415,421	O	I-Task
+Volterra	422,430	O	I-Task
+system	431,437	O	I-Task
+identification	438,452	O	I-Task
+and	453,456	O	O
+is	457,459	O	O
+based	460,465	O	O
+on	466,468	O	O
+the	469,472	O	O
+observation	473,484	O	O
+that	485,489	O	O
+the	490,493	O	O
+Volterra	494,502	O	B-Task
+model	503,508	O	I-Task
+of	509,511	O	I-Task
+nonlinear	512,521	O	I-Task
+systems	522,529	O	I-Task
+is	530,532	O	O
+linear	533,539	O	O
+in	540,542	O	O
+terms	543,548	O	O
+of	549,551	O	O
+the	552,555	O	O
+unknown	556,563	O	O
+Volterra	564,572	O	O
+kernels	573,580	O	O
+,	580,581	O	O
+which	582,587	O	O
+,	587,588	O	O
+in	589,591	O	O
+the	592,595	O	O
+frequency	596,605	O	O
+domain	606,612	O	O
+,	612,613	O	O
+corresponds	614,625	O	B-Material
+to	626,628	O	I-Material
+a	629,630	O	I-Material
+linear	631,637	O	I-Material
+relation	638,646	O	I-Material
+between	647,654	O	O
+the	655,658	O	O
+output	659,665	O	O
+frequency	666,675	O	O
+response	676,684	O	O
+and	685,688	O	O
+linear	689,695	O	O
+,	695,696	O	O
+quadratic	697,706	O	O
+,	706,707	O	O
+and	708,711	O	O
+higher	712,718	O	O
+order	719,724	O	O
+GFRFs	725,730	O	O
+.	730,731	O	O
+
+This	732,736	O	O
+linear	737,743	O	B-Task
+relationship	744,756	O	I-Task
+allows	757,763	O	O
+the	764,767	O	O
+use	768,771	O	O
+of	772,774	O	O
+a	775,776	O	B-Material
+least	777,782	O	I-Material
+squares	783,790	O	I-Material
+(	791,792	O	I-Material
+LS	792,794	O	I-Material
+)	794,795	O	I-Material
+approach	796,804	O	I-Material
+to	805,807	O	O
+solve	808,813	O	O
+for	814,817	O	O
+the	818,821	O	O
+GFRFs	822,827	O	B-Task
+.	827,828	O	O
+
+Several	829,836	O	O
+researchers	837,848	O	O
+[	849,850	O	O
+10–12	850,855	O	O
+]	855,856	O	O
+have	857,861	O	O
+used	862,866	O	O
+this	867,871	O	O
+method	872,878	O	O
+to	879,881	O	O
+estimate	882,890	O	O
+the	891,894	O	O
+GFRFs	895,900	O	B-Task
+.	900,901	O	O
+
+But	902,905	O	O
+they	906,910	O	O
+usually	911,918	O	O
+made	919,923	O	B-Process
+the	924,927	O	I-Process
+assumption	928,938	O	I-Process
+that	939,943	O	O
+it	944,946	O	O
+is	947,949	O	O
+known	950,955	O	O
+a	956,957	O	O
+priori	958,964	O	O
+that	965,969	O	O
+the	970,973	O	B-Task
+system	974,980	O	I-Task
+under	981,986	O	O
+study	987,992	O	O
+can	993,996	O	O
+be	997,999	O	O
+represented	1000,1011	O	O
+by	1012,1014	O	O
+just	1015,1019	O	O
+two	1020,1023	O	B-Material
+or	1024,1026	O	I-Material
+three	1027,1032	O	I-Material
+terms	1033,1038	O	I-Material
+.	1038,1039	O	O
+
+However	1040,1047	O	O
+,	1047,1048	O	O
+such	1049,1053	O	O
+information	1054,1065	O	O
+is	1066,1068	O	O
+rarely	1069,1075	O	O
+available	1076,1085	O	O
+a	1086,1087	O	O
+priori	1088,1094	O	O
+.	1094,1095	O	O
 
 
 -DOCSTART- (S0888613X16300767)
 
-However	0	7	O
-this	8	12	O
-is	13	15	O
-not	16	19	O
-just	20	24	O
-a	25	26	O
-useful	27	33	O
-depiction	34	43	O
-of	44	46	O
-an	47	49	B-Task
-apposite	50	58	I-Task
-well	59	63	I-Task
--	63	64	I-Task
-supported	64	73	I-Task
-statistical	74	85	I-Task
-model	86	91	I-Task
-.	91	92	O
-
-If	93	95	O
-we	96	98	O
-are	99	102	O
-prepared	103	111	O
-to	112	114	O
-allow	115	120	O
-that	121	125	O
-the	126	129	O
-process	130	137	O
-is	138	140	O
-driven	141	147	O
-by	148	150	O
-a	151	152	O
-CRG	153	156	B-Material
-and	157	160	O
-that	161	165	O
-the	166	169	O
-MAP	170	173	B-Material
-model	174	179	I-Material
-that	180	184	O
-we	185	187	O
-have	188	192	O
-discovered	193	203	O
-is	204	206	O
-indeed	207	213	O
-generating	214	224	O
-the	225	228	O
-idle	229	233	B-Process
-process	234	241	I-Process
-,	241	242	O
-then	243	247	O
-identifying	248	259	B-Process
-the	260	263	I-Process
-disconnected	264	276	I-Process
-components	277	287	I-Process
-of	288	290	I-Process
-the	291	294	I-Process
-system	295	301	I-Process
-allows	302	308	O
-us	309	311	O
-to	312	314	O
-immediately	315	326	O
-make	327	331	O
-assertions	332	342	O
-about	343	348	O
-the	349	352	B-Task
-impact	353	359	I-Task
-of	360	362	I-Task
-various	363	370	I-Task
-controls	371	379	I-Task
-we	380	382	O
-might	383	388	O
-apply	389	394	O
-to	395	397	O
-this	398	402	O
-regulatory	403	413	O
-process	414	421	O
-–	422	423	O
-just	424	428	O
-as	429	431	O
-we	432	434	O
-can	435	438	O
-were	439	443	O
-we	444	446	O
-to	447	449	O
-believe	450	457	O
-the	458	461	O
-model	462	467	O
-was	468	471	O
-a	472	473	O
-causal	474	480	O
-extension	481	490	O
-of	491	493	O
-a	494	495	O
-BN	496	498	B-Material
-.	498	499	O
-
-In	500	502	O
-the	503	506	O
-context	507	514	O
-of	515	517	O
-microarrays	518	529	O
-,	529	530	O
-the	531	534	O
-objective	535	544	O
-of	545	547	O
-clustering	548	558	B-Task
-is	559	561	O
-to	562	564	O
-identify	565	573	B-Process
-patterns	574	582	I-Process
-among	583	588	I-Process
-the	589	592	I-Process
-data	593	597	I-Process
-and	598	601	O
-decide	602	608	O
-which	609	614	O
-genes	615	620	O
-to	621	623	O
-focus	624	629	O
-on	630	632	O
-in	633	635	O
-further	636	643	O
-,	643	644	O
-more	645	649	O
-gene	650	654	O
--	654	655	O
-specific	655	663	O
-,	663	664	O
-experiments	665	676	O
-.	676	677	O
-
-It	678	680	O
-is	681	683	O
-therefore	684	693	O
-necessary	694	703	O
-for	704	707	O
-the	708	711	O
-scientist	712	721	O
-to	722	724	O
-make	725	729	O
-such	730	734	O
-causal	735	741	O
-conjectures	742	753	O
-about	754	759	O
-the	760	763	B-Task
-effect	764	770	I-Task
-of	771	773	I-Task
-controls	774	782	I-Task
-available	783	792	O
-to	793	795	O
-her	796	799	O
-on	800	802	O
-the	803	806	O
-expressions	807	818	O
-reflecting	819	829	O
-the	830	833	O
-underlying	834	844	O
-regulatory	845	855	O
-process	856	863	O
-she	864	867	O
-studies	868	875	O
-.	875	876	O
-
-These	877	882	O
-conjectures	883	894	B-Task
-can	895	898	O
-be	899	901	O
-universal	902	911	O
-or	912	914	O
-nuanced	915	922	O
-by	923	925	O
-evoking	926	933	B-Material
-ideas	934	939	I-Material
-of	940	942	I-Material
-parsimony	943	952	I-Material
-.	952	953	O
+However	0,7	O	O
+this	8,12	O	O
+is	13,15	O	O
+not	16,19	O	O
+just	20,24	O	O
+a	25,26	O	O
+useful	27,33	O	O
+depiction	34,43	O	O
+of	44,46	O	O
+an	47,49	O	B-Task
+apposite	50,58	O	I-Task
+well	59,63	O	I-Task
+-	63,64	O	I-Task
+supported	64,73	O	I-Task
+statistical	74,85	O	I-Task
+model	86,91	O	I-Task
+.	91,92	O	O
+
+If	93,95	O	O
+we	96,98	O	O
+are	99,102	O	O
+prepared	103,111	O	O
+to	112,114	O	O
+allow	115,120	O	O
+that	121,125	O	O
+the	126,129	O	O
+process	130,137	O	O
+is	138,140	O	O
+driven	141,147	O	O
+by	148,150	O	O
+a	151,152	O	O
+CRG	153,156	O	B-Material
+and	157,160	O	O
+that	161,165	O	O
+the	166,169	O	O
+MAP	170,173	O	B-Material
+model	174,179	O	I-Material
+that	180,184	O	O
+we	185,187	O	O
+have	188,192	O	O
+discovered	193,203	O	O
+is	204,206	O	O
+indeed	207,213	O	O
+generating	214,224	O	O
+the	225,228	O	O
+idle	229,233	O	B-Process
+process	234,241	O	I-Process
+,	241,242	O	O
+then	243,247	O	O
+identifying	248,259	O	B-Process
+the	260,263	O	I-Process
+disconnected	264,276	O	I-Process
+components	277,287	O	I-Process
+of	288,290	O	I-Process
+the	291,294	O	I-Process
+system	295,301	O	I-Process
+allows	302,308	O	O
+us	309,311	O	O
+to	312,314	O	O
+immediately	315,326	O	O
+make	327,331	O	O
+assertions	332,342	O	O
+about	343,348	O	O
+the	349,352	O	B-Task
+impact	353,359	O	I-Task
+of	360,362	O	I-Task
+various	363,370	O	I-Task
+controls	371,379	O	I-Task
+we	380,382	O	O
+might	383,388	O	O
+apply	389,394	O	O
+to	395,397	O	O
+this	398,402	O	O
+regulatory	403,413	O	O
+process	414,421	O	O
+–	422,423	O	O
+just	424,428	O	O
+as	429,431	O	O
+we	432,434	O	O
+can	435,438	O	O
+were	439,443	O	O
+we	444,446	O	O
+to	447,449	O	O
+believe	450,457	O	O
+the	458,461	O	O
+model	462,467	O	O
+was	468,471	O	O
+a	472,473	O	O
+causal	474,480	O	O
+extension	481,490	O	O
+of	491,493	O	O
+a	494,495	O	O
+BN	496,498	O	B-Material
+.	498,499	O	O
+
+In	500,502	O	O
+the	503,506	O	O
+context	507,514	O	O
+of	515,517	O	O
+microarrays	518,529	O	O
+,	529,530	O	O
+the	531,534	O	O
+objective	535,544	O	O
+of	545,547	O	O
+clustering	548,558	O	B-Task
+is	559,561	O	O
+to	562,564	O	O
+identify	565,573	O	B-Process
+patterns	574,582	O	I-Process
+among	583,588	O	I-Process
+the	589,592	O	I-Process
+data	593,597	O	I-Process
+and	598,601	O	O
+decide	602,608	O	O
+which	609,614	O	O
+genes	615,620	O	O
+to	621,623	O	O
+focus	624,629	O	O
+on	630,632	O	O
+in	633,635	O	O
+further	636,643	O	O
+,	643,644	O	O
+more	645,649	O	O
+gene	650,654	O	O
+-	654,655	O	O
+specific	655,663	O	O
+,	663,664	O	O
+experiments	665,676	O	O
+.	676,677	O	O
+
+It	678,680	O	O
+is	681,683	O	O
+therefore	684,693	O	O
+necessary	694,703	O	O
+for	704,707	O	O
+the	708,711	O	O
+scientist	712,721	O	O
+to	722,724	O	O
+make	725,729	O	O
+such	730,734	O	O
+causal	735,741	O	O
+conjectures	742,753	O	O
+about	754,759	O	O
+the	760,763	O	B-Task
+effect	764,770	O	I-Task
+of	771,773	O	I-Task
+controls	774,782	O	I-Task
+available	783,792	O	O
+to	793,795	O	O
+her	796,799	O	O
+on	800,802	O	O
+the	803,806	O	O
+expressions	807,818	O	O
+reflecting	819,829	O	O
+the	830,833	O	O
+underlying	834,844	O	O
+regulatory	845,855	O	O
+process	856,863	O	O
+she	864,867	O	O
+studies	868,875	O	O
+.	875,876	O	O
+
+These	877,882	O	O
+conjectures	883,894	O	B-Task
+can	895,898	O	O
+be	899,901	O	O
+universal	902,911	O	O
+or	912,914	O	O
+nuanced	915,922	O	O
+by	923,925	O	O
+evoking	926,933	O	B-Material
+ideas	934,939	O	I-Material
+of	940,942	O	I-Material
+parsimony	943,952	O	I-Material
+.	952,953	O	O
 
 
 -DOCSTART- (S0888613X16301062)
 
-The	0	3	O
-first	4	9	O
-step	10	14	O
-of	15	17	O
-PB	18	20	B-Material
-,	20	21	O
-the	22	25	O
-enumeration	26	37	B-Material
-of	38	40	I-Material
-the	41	44	I-Material
-conditional	45	56	I-Material
-sample	57	63	I-Material
-space	64	69	I-Material
-through	70	77	O
-abductive	78	87	O
-logic	88	93	O
-programming	94	105	O
-,	105	106	O
-could	107	112	O
-be	113	115	O
-compared	116	124	O
-to	125	127	O
-“	128	129	O
-logical	129	136	B-Material
-inference	137	146	I-Material
-”	146	147	O
-in	148	150	O
-ProbLog	151	158	B-Material
-[	159	160	O
-9	160	161	O
-]	161	162	O
-.	162	163	O
-
-While	164	169	O
-both	170	174	O
-languages	175	184	O
-aim	185	188	O
-to	189	191	O
-generate	192	200	O
-a	201	202	O
-propositional	203	216	O
-formula	217	224	O
-and	225	228	O
-compile	229	236	O
-it	237	239	O
-into	240	244	O
-a	245	246	O
-decision	247	255	O
-diagram	256	263	O
-,	263	264	O
-“	265	266	B-Material
-logical	266	273	I-Material
-inference	274	283	I-Material
-”	283	284	I-Material
-in	285	287	I-Material
-PB	288	290	I-Material
-is	291	293	O
-based	294	299	O
-on	300	302	O
-abductive	303	312	O
-logic	313	318	O
-programming	319	330	O
-,	330	331	O
-while	332	337	O
-ProbLog	338	345	B-Material
-grounds	346	353	O
-the	354	357	O
-relevant	358	366	O
-parts	367	372	O
-of	373	375	O
-the	376	379	O
-probabilistic	380	393	O
-program	394	401	O
-.	401	402	O
-
-Moreover	403	411	O
-,	411	412	O
-in	413	415	O
-PB	416	418	B-Material
-compilation	419	430	I-Material
-of	431	433	O
-the	434	437	O
-boolean	438	445	O
-formulas	446	454	O
-is	455	457	O
-performed	458	467	O
-using	468	473	O
-(	474	475	B-Process
-RO)BDDs	475	482	I-Process
-,	482	483	O
-while	484	489	O
-ProbLog	490	497	B-Material
-can	498	501	O
-use	502	505	O
-a	506	507	O
-wider	508	513	O
-range	514	519	O
-of	520	522	O
-decision	523	531	B-Process
-diagrams	532	540	I-Process
-,	540	541	O
-e.g.	542	546	O
-sentential	547	557	B-Process
-decision	558	566	I-Process
-diagrams	567	575	I-Process
-(	576	577	O
-SDD	577	580	B-Process
-)	580	581	O
-,	581	582	O
-deterministic	583	596	B-Process
-,	596	597	I-Process
-decomposable	598	610	I-Process
-negation	611	619	I-Process
-normal	620	626	I-Process
-form	627	631	I-Process
-(	632	633	O
-d	633	634	B-Process
--	634	635	I-Process
-DNNF	635	639	I-Process
-)	639	640	O
-.	640	641	O
-
-These	642	647	O
-differences	648	659	O
-reflect	660	667	O
-the	668	671	O
-different	672	681	O
-aims	682	686	O
-of	687	689	O
-the	690	693	O
-two	694	697	O
-PPLs	698	702	B-Material
-:	702	703	O
-ProbLog	704	711	B-Material
-focuses	712	719	O
-on	720	722	O
-models	723	729	O
-where	730	735	O
-“	736	737	O
-logical	737	744	B-Task
-inference	745	754	I-Task
-”	754	755	O
-needs	756	761	O
-to	762	764	O
-be	765	767	O
-efficient	768	777	O
-,	777	778	O
-and	779	782	O
-the	783	786	O
-resulting	787	796	O
-representation	797	811	O
-,	811	812	O
-the	813	816	O
-decision	817	825	O
-diagrams	826	834	O
-,	834	835	O
-need	836	840	O
-to	841	843	O
-be	844	846	O
-compact	847	854	O
-,	854	855	O
-while	856	861	O
-PB	862	864	B-Material
-focuses	865	872	O
-on	873	875	O
-models	876	882	O
-where	883	888	O
-“	889	890	B-Task
-logical	890	897	I-Task
-inference	898	907	I-Task
-”	907	908	I-Task
-is	909	911	O
-typically	912	921	O
-easy	922	926	O
-,	926	927	O
-however	928	935	O
-it	936	938	O
-must	939	943	O
-be	944	946	O
-applied	947	954	O
-repeatedly	955	965	O
-,	965	966	O
-according	967	976	O
-to	977	979	O
-the	980	983	O
-nature	984	990	O
-and	991	994	O
-the	995	998	O
-number	999	1005	O
-of	1006	1008	O
-the	1009	1012	O
-observations	1013	1025	O
-.	1025	1026	O
-
-However	1027	1034	O
-,	1034	1035	O
-in	1036	1038	O
-future	1039	1045	O
-work	1046	1050	O
-,	1050	1051	O
-PB	1052	1054	B-Material
-could	1055	1060	O
-benefit	1061	1068	O
-from	1069	1073	O
-the	1074	1077	O
-use	1078	1081	B-Process
-of	1082	1084	I-Process
-more	1085	1089	I-Process
-compact	1090	1097	I-Process
-decision	1098	1106	I-Process
-diagrams	1107	1115	I-Process
-.	1115	1116	O
+The	0,3	O	O
+first	4,9	O	O
+step	10,14	O	O
+of	15,17	O	O
+PB	18,20	O	B-Material
+,	20,21	O	O
+the	22,25	O	O
+enumeration	26,37	O	B-Material
+of	38,40	O	I-Material
+the	41,44	O	I-Material
+conditional	45,56	O	I-Material
+sample	57,63	O	I-Material
+space	64,69	O	I-Material
+through	70,77	O	O
+abductive	78,87	O	O
+logic	88,93	O	O
+programming	94,105	O	O
+,	105,106	O	O
+could	107,112	O	O
+be	113,115	O	O
+compared	116,124	O	O
+to	125,127	O	O
+“	128,129	O	O
+logical	129,136	O	B-Material
+inference	137,146	O	I-Material
+”	146,147	O	O
+in	148,150	O	O
+ProbLog	151,158	O	B-Material
+[	159,160	O	O
+9	160,161	O	O
+]	161,162	O	O
+.	162,163	O	O
+
+While	164,169	O	O
+both	170,174	O	O
+languages	175,184	O	O
+aim	185,188	O	O
+to	189,191	O	O
+generate	192,200	O	O
+a	201,202	O	O
+propositional	203,216	O	O
+formula	217,224	O	O
+and	225,228	O	O
+compile	229,236	O	O
+it	237,239	O	O
+into	240,244	O	O
+a	245,246	O	O
+decision	247,255	O	O
+diagram	256,263	O	O
+,	263,264	O	O
+“	265,266	O	B-Material
+logical	266,273	O	I-Material
+inference	274,283	O	I-Material
+”	283,284	O	I-Material
+in	285,287	O	I-Material
+PB	288,290	O	I-Material
+is	291,293	O	O
+based	294,299	O	O
+on	300,302	O	O
+abductive	303,312	O	O
+logic	313,318	O	O
+programming	319,330	O	O
+,	330,331	O	O
+while	332,337	O	O
+ProbLog	338,345	O	B-Material
+grounds	346,353	O	O
+the	354,357	O	O
+relevant	358,366	O	O
+parts	367,372	O	O
+of	373,375	O	O
+the	376,379	O	O
+probabilistic	380,393	O	O
+program	394,401	O	O
+.	401,402	O	O
+
+Moreover	403,411	O	O
+,	411,412	O	O
+in	413,415	O	O
+PB	416,418	O	B-Material
+compilation	419,430	O	I-Material
+of	431,433	O	O
+the	434,437	O	O
+boolean	438,445	O	O
+formulas	446,454	O	O
+is	455,457	O	O
+performed	458,467	O	O
+using	468,473	O	O
+(	474,475	O	B-Process
+RO)BDDs	475,482	O	I-Process
+,	482,483	O	O
+while	484,489	O	O
+ProbLog	490,497	O	B-Material
+can	498,501	O	O
+use	502,505	O	O
+a	506,507	O	O
+wider	508,513	O	O
+range	514,519	O	O
+of	520,522	O	O
+decision	523,531	O	B-Process
+diagrams	532,540	O	I-Process
+,	540,541	O	O
+e.g.	542,546	O	O
+sentential	547,557	O	B-Process
+decision	558,566	O	I-Process
+diagrams	567,575	O	I-Process
+(	576,577	O	O
+SDD	577,580	O	B-Process
+)	580,581	O	O
+,	581,582	O	O
+deterministic	583,596	O	B-Process
+,	596,597	O	I-Process
+decomposable	598,610	O	I-Process
+negation	611,619	O	I-Process
+normal	620,626	O	I-Process
+form	627,631	O	I-Process
+(	632,633	O	O
+d	633,634	O	B-Process
+-	634,635	O	I-Process
+DNNF	635,639	O	I-Process
+)	639,640	O	O
+.	640,641	O	O
+
+These	642,647	O	O
+differences	648,659	O	O
+reflect	660,667	O	O
+the	668,671	O	O
+different	672,681	O	O
+aims	682,686	O	O
+of	687,689	O	O
+the	690,693	O	O
+two	694,697	O	O
+PPLs	698,702	O	B-Material
+:	702,703	O	O
+ProbLog	704,711	O	B-Material
+focuses	712,719	O	O
+on	720,722	O	O
+models	723,729	O	O
+where	730,735	O	O
+“	736,737	O	O
+logical	737,744	O	B-Task
+inference	745,754	O	I-Task
+”	754,755	O	O
+needs	756,761	O	O
+to	762,764	O	O
+be	765,767	O	O
+efficient	768,777	O	O
+,	777,778	O	O
+and	779,782	O	O
+the	783,786	O	O
+resulting	787,796	O	O
+representation	797,811	O	O
+,	811,812	O	O
+the	813,816	O	O
+decision	817,825	O	O
+diagrams	826,834	O	O
+,	834,835	O	O
+need	836,840	O	O
+to	841,843	O	O
+be	844,846	O	O
+compact	847,854	O	O
+,	854,855	O	O
+while	856,861	O	O
+PB	862,864	O	B-Material
+focuses	865,872	O	O
+on	873,875	O	O
+models	876,882	O	O
+where	883,888	O	O
+“	889,890	O	B-Task
+logical	890,897	O	I-Task
+inference	898,907	O	I-Task
+”	907,908	O	I-Task
+is	909,911	O	O
+typically	912,921	O	O
+easy	922,926	O	O
+,	926,927	O	O
+however	928,935	O	O
+it	936,938	O	O
+must	939,943	O	O
+be	944,946	O	O
+applied	947,954	O	O
+repeatedly	955,965	O	O
+,	965,966	O	O
+according	967,976	O	O
+to	977,979	O	O
+the	980,983	O	O
+nature	984,990	O	O
+and	991,994	O	O
+the	995,998	O	O
+number	999,1005	O	O
+of	1006,1008	O	O
+the	1009,1012	O	O
+observations	1013,1025	O	O
+.	1025,1026	O	O
+
+However	1027,1034	O	O
+,	1034,1035	O	O
+in	1036,1038	O	O
+future	1039,1045	O	O
+work	1046,1050	O	O
+,	1050,1051	O	O
+PB	1052,1054	O	B-Material
+could	1055,1060	O	O
+benefit	1061,1068	O	O
+from	1069,1073	O	O
+the	1074,1077	O	O
+use	1078,1081	O	B-Process
+of	1082,1084	O	I-Process
+more	1085,1089	O	I-Process
+compact	1090,1097	O	I-Process
+decision	1098,1106	O	I-Process
+diagrams	1107,1115	O	I-Process
+.	1115,1116	O	O
 
 
 -DOCSTART- (S0895611116300684)
 
-In	0	2	O
-the	3	6	O
-case	7	11	O
-of	12	14	O
-PSR	15	18	B-Task
-applied	19	26	I-Task
-to	27	29	I-Task
-vessels	30	37	I-Task
-,	37	38	O
-preservation	39	51	O
-of	52	54	O
-high	55	59	O
-curvature	60	69	O
-and	70	73	O
-branches	74	82	O
-(	83	84	O
-concavities	84	95	O
-)	95	96	O
-demands	97	104	O
-a	105	106	O
-high	107	111	O
-value	112	117	O
-of	118	120	O
-the	121	124	O
-d	125	126	O
-parameter	127	136	O
-,	136	137	O
-resulting	138	147	O
-in	148	150	O
-models	151	157	O
-with	158	162	O
-high	163	167	O
-number	168	174	O
-of	175	177	O
-polygons	178	186	O
-.	186	187	O
-
-To	188	190	O
-cope	191	195	O
-with	196	200	O
-this	201	205	O
-problem	206	213	O
-,	213	214	O
-Wu	215	217	O
-et	218	220	O
-al	221	223	O
-.	223	224	O
-
-(	225	226	O
-2013	226	230	O
-)	230	231	O
-evaluates	232	241	O
-a	242	243	O
-variant	244	251	O
-of	252	254	O
-PSR	255	258	B-Process
-(	259	260	O
-in	260	262	O
-that	263	267	O
-work	268	272	O
-referred	273	281	O
-to	282	284	O
-as	285	287	O
-scale	288	293	B-Process
--	293	294	I-Process
-adaptive	294	302	I-Process
-[	303	304	O
-SA	304	306	B-Process
-]	306	307	O
-)	307	308	O
-,	308	309	O
-which	310	315	O
-includes	316	324	O
-curvature	325	334	B-Process
--	334	335	I-Process
-dependent	335	344	I-Process
-polygonization	345	359	I-Process
-(	360	361	O
-e.g.	361	365	O
-increasing	366	376	B-Process
-/	376	377	I-Process
-decreasing	377	387	I-Process
-the	388	391	I-Process
-size	392	396	I-Process
-of	397	399	I-Process
-triangles	400	409	I-Process
-according	410	419	I-Process
-to	420	422	I-Process
-the	423	426	I-Process
-local	427	432	I-Process
-curvature	433	442	I-Process
-)	442	443	O
-
-(	444	445	O
-Wu	445	447	O
-et	448	450	O
-al	451	453	O
-.	453	454	O
-,	454	455	O
-2010	456	460	O
-)	460	461	O
-.	461	462	O
-
-In	463	465	O
-Wu	466	468	O
-et	469	471	O
-al	472	474	O
-.	474	475	O
-
-(	476	477	O
-2013	477	481	O
-)	481	482	O
-,	482	483	O
-other	484	489	O
-methods	490	497	O
-including	498	507	O
-MC	508	510	B-Process
-(	511	512	O
-without	512	519	O
-smoothing	520	529	O
-and	530	533	O
-decimation	534	544	O
-)	544	545	O
-are	546	549	O
-evaluated	550	559	O
-with	560	564	O
-application	565	576	O
-to	577	579	O
-vessel	580	586	B-Task
-modeling	587	595	I-Task
-.	595	596	O
-
-The	597	600	O
-authors	601	608	O
-,	608	609	O
-point	610	615	O
-at	616	618	O
-SA	619	621	B-Material
-as	622	624	O
-a	625	626	O
-suitable	627	635	O
-method	636	642	O
-for	643	646	O
-reconstruction	647	661	B-Task
-of	662	664	I-Task
-vessels	665	672	I-Task
-with	673	677	O
-applications	678	690	O
-to	691	693	O
-surgery	694	701	B-Task
-planning	702	710	I-Task
-.	710	711	O
-
-The	712	715	O
-methods	716	723	O
-evaluated	724	733	O
-by	734	736	O
-Wu	737	739	O
-et	740	742	O
-al	743	745	O
-.	745	746	O
-
-(	747	748	O
-2013	748	752	O
-)	752	753	O
-could	754	759	O
-be	760	762	O
-also	763	767	O
-compared	768	776	O
-with	777	781	O
-another	782	789	O
-set	790	793	O
-of	794	796	O
-techniques	797	807	O
-(	808	809	O
-known	809	814	O
-as	815	817	O
-model	818	823	B-Material
--	823	824	I-Material
-based	824	829	I-Material
-methods	830	837	I-Material
-)	837	838	O
-(	839	840	O
-Preim	840	845	O
-and	846	849	O
-Oeltze	850	856	O
-,	856	857	O
-2008	858	862	O
-)	862	863	O
-,	863	864	O
-widely	865	871	O
-used	872	876	O
-in	877	879	O
-the	880	883	O
-context	884	891	O
-of	892	894	O
-vessel	895	901	B-Task
-modeling	902	910	I-Task
-for	911	914	I-Task
-surgery	915	922	I-Task
-planning	923	931	I-Task
-.	931	932	O
+In	0,2	O	O
+the	3,6	O	O
+case	7,11	O	O
+of	12,14	O	O
+PSR	15,18	O	B-Task
+applied	19,26	O	I-Task
+to	27,29	O	I-Task
+vessels	30,37	O	I-Task
+,	37,38	O	O
+preservation	39,51	O	O
+of	52,54	O	O
+high	55,59	O	O
+curvature	60,69	O	O
+and	70,73	O	O
+branches	74,82	O	O
+(	83,84	O	O
+concavities	84,95	O	O
+)	95,96	O	O
+demands	97,104	O	O
+a	105,106	O	O
+high	107,111	O	O
+value	112,117	O	O
+of	118,120	O	O
+the	121,124	O	O
+d	125,126	O	O
+parameter	127,136	O	O
+,	136,137	O	O
+resulting	138,147	O	O
+in	148,150	O	O
+models	151,157	O	O
+with	158,162	O	O
+high	163,167	O	O
+number	168,174	O	O
+of	175,177	O	O
+polygons	178,186	O	O
+.	186,187	O	O
+
+To	188,190	O	O
+cope	191,195	O	O
+with	196,200	O	O
+this	201,205	O	O
+problem	206,213	O	O
+,	213,214	O	O
+Wu	215,217	O	O
+et	218,220	O	O
+al	221,223	O	O
+.	223,224	O	O
+
+(	225,226	O	O
+2013	226,230	O	O
+)	230,231	O	O
+evaluates	232,241	O	O
+a	242,243	O	O
+variant	244,251	O	O
+of	252,254	O	O
+PSR	255,258	O	B-Process
+(	259,260	O	O
+in	260,262	O	O
+that	263,267	O	O
+work	268,272	O	O
+referred	273,281	O	O
+to	282,284	O	O
+as	285,287	O	O
+scale	288,293	O	B-Process
+-	293,294	O	I-Process
+adaptive	294,302	O	I-Process
+[	303,304	O	O
+SA	304,306	O	B-Process
+]	306,307	O	O
+)	307,308	O	O
+,	308,309	O	O
+which	310,315	O	O
+includes	316,324	O	O
+curvature	325,334	O	B-Process
+-	334,335	O	I-Process
+dependent	335,344	O	I-Process
+polygonization	345,359	O	I-Process
+(	360,361	O	O
+e.g.	361,365	O	O
+increasing	366,376	O	B-Process
+/	376,377	O	I-Process
+decreasing	377,387	O	I-Process
+the	388,391	O	I-Process
+size	392,396	O	I-Process
+of	397,399	O	I-Process
+triangles	400,409	O	I-Process
+according	410,419	O	I-Process
+to	420,422	O	I-Process
+the	423,426	O	I-Process
+local	427,432	O	I-Process
+curvature	433,442	O	I-Process
+)	442,443	O	O
+
+(	444,445	O	O
+Wu	445,447	O	O
+et	448,450	O	O
+al	451,453	O	O
+.	453,454	O	O
+,	454,455	O	O
+2010	456,460	O	O
+)	460,461	O	O
+.	461,462	O	O
+
+In	463,465	O	O
+Wu	466,468	O	O
+et	469,471	O	O
+al	472,474	O	O
+.	474,475	O	O
+
+(	476,477	O	O
+2013	477,481	O	O
+)	481,482	O	O
+,	482,483	O	O
+other	484,489	O	O
+methods	490,497	O	O
+including	498,507	O	O
+MC	508,510	O	B-Process
+(	511,512	O	O
+without	512,519	O	O
+smoothing	520,529	O	O
+and	530,533	O	O
+decimation	534,544	O	O
+)	544,545	O	O
+are	546,549	O	O
+evaluated	550,559	O	O
+with	560,564	O	O
+application	565,576	O	O
+to	577,579	O	O
+vessel	580,586	O	B-Task
+modeling	587,595	O	I-Task
+.	595,596	O	O
+
+The	597,600	O	O
+authors	601,608	O	O
+,	608,609	O	O
+point	610,615	O	O
+at	616,618	O	O
+SA	619,621	O	B-Material
+as	622,624	O	O
+a	625,626	O	O
+suitable	627,635	O	O
+method	636,642	O	O
+for	643,646	O	O
+reconstruction	647,661	O	B-Task
+of	662,664	O	I-Task
+vessels	665,672	O	I-Task
+with	673,677	O	O
+applications	678,690	O	O
+to	691,693	O	O
+surgery	694,701	O	B-Task
+planning	702,710	O	I-Task
+.	710,711	O	O
+
+The	712,715	O	O
+methods	716,723	O	O
+evaluated	724,733	O	O
+by	734,736	O	O
+Wu	737,739	O	O
+et	740,742	O	O
+al	743,745	O	O
+.	745,746	O	O
+
+(	747,748	O	O
+2013	748,752	O	O
+)	752,753	O	O
+could	754,759	O	O
+be	760,762	O	O
+also	763,767	O	O
+compared	768,776	O	O
+with	777,781	O	O
+another	782,789	O	O
+set	790,793	O	O
+of	794,796	O	O
+techniques	797,807	O	O
+(	808,809	O	O
+known	809,814	O	O
+as	815,817	O	O
+model	818,823	O	B-Material
+-	823,824	O	I-Material
+based	824,829	O	I-Material
+methods	830,837	O	I-Material
+)	837,838	O	O
+(	839,840	O	O
+Preim	840,845	O	O
+and	846,849	O	O
+Oeltze	850,856	O	O
+,	856,857	O	O
+2008	858,862	O	O
+)	862,863	O	O
+,	863,864	O	O
+widely	865,871	O	O
+used	872,876	O	O
+in	877,879	O	O
+the	880,883	O	O
+context	884,891	O	O
+of	892,894	O	O
+vessel	895,901	O	B-Task
+modeling	902,910	O	I-Task
+for	911,914	O	I-Task
+surgery	915,922	O	I-Task
+planning	923,931	O	I-Task
+.	931,932	O	O
 
 
 -DOCSTART- (S0927025612000249)
 
-The	0	3	O
-need	4	8	O
-for	9	12	O
-power	13	18	B-Task
-generation	19	29	I-Task
-industry	30	38	O
-to	39	41	O
-improve	42	49	B-Task
-the	50	53	I-Task
-thermal	54	61	I-Task
-efficiency	62	72	I-Task
-of	73	75	I-Task
-power	76	81	I-Task
-plant	82	87	I-Task
-has	88	91	O
-led	92	95	O
-to	96	98	O
-the	99	102	O
-development	103	114	O
-of	115	117	O
-9–12	118	122	B-Material
-%	122	123	I-Material
-Cr	124	126	I-Material
-martensitic	127	138	I-Material
-steels	139	145	I-Material
-.	145	146	O
-
-The	147	150	O
-development	151	162	B-Task
-of	163	165	I-Task
-and	166	169	I-Task
-research	170	178	I-Task
-on	179	181	I-Task
-P91	182	185	I-Task
-steels	186	192	I-Task
-started	193	200	O
-since	201	206	O
-late	207	211	O
-1970s	212	217	O
-and	218	221	O
-early	222	227	O
-1990s	228	233	O
-,	233	234	O
-respectively	235	247	O
-[	248	249	O
-1	249	250	O
-]	250	251	O
-.	251	252	O
-
-The	253	256	O
-work	257	261	O
-has	262	265	O
-focussed	266	274	O
-on	275	277	O
-their	278	283	O
-creep	284	289	O
-strengths	290	299	O
-due	300	303	O
-to	304	306	O
-its	307	310	O
-intended	311	319	O
-application	320	331	O
-at	332	334	O
-high	335	339	O
-temperature	340	351	O
-.	351	352	O
-
-Recently	353	361	O
-,	361	362	O
-the	363	366	O
-introduction	367	379	O
-of	380	382	O
-more	383	387	O
-cyclic	388	394	O
-operation	395	404	O
-of	405	407	O
-power	408	413	B-Material
-plant	414	419	I-Material
-has	420	423	O
-introduced	424	434	O
-the	435	438	O
-possibility	439	450	O
-of	451	453	O
-fatigue	454	461	B-Process
-problems	462	470	I-Process
-.	470	471	O
-
-Bore	472	476	O
-cracking	477	485	O
-due	486	489	O
-to	490	492	O
-the	493	496	O
-effects	497	504	O
-of	505	507	O
-varying	508	515	O
-steam	516	521	B-Process
-warming	522	529	I-Process
-has	530	533	O
-been	534	538	O
-reported	539	547	O
-[	548	549	O
-2	549	550	O
-]	550	551	O
-.	551	552	O
-
-The	553	556	O
-temperature	557	568	B-Process
-cycling	569	576	I-Process
-causes	577	583	O
-thermal	584	591	O
-gradients	592	601	O
-between	602	609	O
-the	610	613	O
-inside	614	620	O
-and	621	624	O
-outside	625	632	O
-of	633	635	O
-components	636	646	O
-and	647	650	O
-this	651	655	O
-can	656	659	O
-cause	660	665	O
-cyclic	666	672	O
-stress	673	679	O
-levels	680	686	O
-to	687	689	O
-be	690	692	O
-of	693	695	O
-concerns	696	704	O
-.	704	705	O
-
-Recently	706	714	O
-,	714	715	O
-research	716	724	O
-on	725	727	O
-thermal	728	735	B-Task
-–	735	736	I-Task
-mechanical	736	746	I-Task
-analysis	747	755	I-Task
-of	756	758	I-Task
-P91	759	762	I-Task
-has	763	766	O
-been	767	771	O
-carried	772	779	O
-out	780	783	O
-including	784	793	O
-the	794	797	O
-characterisation	798	814	B-Task
-of	815	817	I-Task
-the	818	821	I-Task
-cyclic	822	828	I-Task
-behaviour	829	838	I-Task
-of	839	841	I-Task
-the	842	845	I-Task
-material	846	854	I-Task
-using	855	860	O
-the	861	864	O
-two	865	868	B-Process
--	868	869	I-Process
-layer	869	874	I-Process
-and	875	878	I-Process
-unified	879	886	I-Process
-visco	887	892	I-Process
--	892	893	I-Process
-plasticity	893	903	I-Process
-models	904	910	I-Process
-[	911	912	O
-3,4	912	915	O
-]	915	916	O
-.	916	917	O
+The	0,3	O	O
+need	4,8	O	O
+for	9,12	O	O
+power	13,18	O	B-Task
+generation	19,29	O	I-Task
+industry	30,38	O	O
+to	39,41	O	O
+improve	42,49	O	B-Task
+the	50,53	O	I-Task
+thermal	54,61	O	I-Task
+efficiency	62,72	O	I-Task
+of	73,75	O	I-Task
+power	76,81	O	I-Task
+plant	82,87	O	I-Task
+has	88,91	O	O
+led	92,95	O	O
+to	96,98	O	O
+the	99,102	O	O
+development	103,114	O	O
+of	115,117	O	O
+9–12	118,122	O	B-Material
+%	122,123	O	I-Material
+Cr	124,126	O	I-Material
+martensitic	127,138	O	I-Material
+steels	139,145	O	I-Material
+.	145,146	O	O
+
+The	147,150	O	O
+development	151,162	O	B-Task
+of	163,165	O	I-Task
+and	166,169	O	I-Task
+research	170,178	O	I-Task
+on	179,181	O	I-Task
+P91	182,185	O	I-Task
+steels	186,192	O	I-Task
+started	193,200	O	O
+since	201,206	O	O
+late	207,211	O	O
+1970s	212,217	O	O
+and	218,221	O	O
+early	222,227	O	O
+1990s	228,233	O	O
+,	233,234	O	O
+respectively	235,247	O	O
+[	248,249	O	O
+1	249,250	O	O
+]	250,251	O	O
+.	251,252	O	O
+
+The	253,256	O	O
+work	257,261	O	O
+has	262,265	O	O
+focussed	266,274	O	O
+on	275,277	O	O
+their	278,283	O	O
+creep	284,289	O	O
+strengths	290,299	O	O
+due	300,303	O	O
+to	304,306	O	O
+its	307,310	O	O
+intended	311,319	O	O
+application	320,331	O	O
+at	332,334	O	O
+high	335,339	O	O
+temperature	340,351	O	O
+.	351,352	O	O
+
+Recently	353,361	O	O
+,	361,362	O	O
+the	363,366	O	O
+introduction	367,379	O	O
+of	380,382	O	O
+more	383,387	O	O
+cyclic	388,394	O	O
+operation	395,404	O	O
+of	405,407	O	O
+power	408,413	O	B-Material
+plant	414,419	O	I-Material
+has	420,423	O	O
+introduced	424,434	O	O
+the	435,438	O	O
+possibility	439,450	O	O
+of	451,453	O	O
+fatigue	454,461	O	B-Process
+problems	462,470	O	I-Process
+.	470,471	O	O
+
+Bore	472,476	O	O
+cracking	477,485	O	O
+due	486,489	O	O
+to	490,492	O	O
+the	493,496	O	O
+effects	497,504	O	O
+of	505,507	O	O
+varying	508,515	O	O
+steam	516,521	O	B-Process
+warming	522,529	O	I-Process
+has	530,533	O	O
+been	534,538	O	O
+reported	539,547	O	O
+[	548,549	O	O
+2	549,550	O	O
+]	550,551	O	O
+.	551,552	O	O
+
+The	553,556	O	O
+temperature	557,568	O	B-Process
+cycling	569,576	O	I-Process
+causes	577,583	O	O
+thermal	584,591	O	O
+gradients	592,601	O	O
+between	602,609	O	O
+the	610,613	O	O
+inside	614,620	O	O
+and	621,624	O	O
+outside	625,632	O	O
+of	633,635	O	O
+components	636,646	O	O
+and	647,650	O	O
+this	651,655	O	O
+can	656,659	O	O
+cause	660,665	O	O
+cyclic	666,672	O	O
+stress	673,679	O	O
+levels	680,686	O	O
+to	687,689	O	O
+be	690,692	O	O
+of	693,695	O	O
+concerns	696,704	O	O
+.	704,705	O	O
+
+Recently	706,714	O	O
+,	714,715	O	O
+research	716,724	O	O
+on	725,727	O	O
+thermal	728,735	O	B-Task
+–	735,736	O	I-Task
+mechanical	736,746	O	I-Task
+analysis	747,755	O	I-Task
+of	756,758	O	I-Task
+P91	759,762	O	I-Task
+has	763,766	O	O
+been	767,771	O	O
+carried	772,779	O	O
+out	780,783	O	O
+including	784,793	O	O
+the	794,797	O	O
+characterisation	798,814	O	B-Task
+of	815,817	O	I-Task
+the	818,821	O	I-Task
+cyclic	822,828	O	I-Task
+behaviour	829,838	O	I-Task
+of	839,841	O	I-Task
+the	842,845	O	I-Task
+material	846,854	O	I-Task
+using	855,860	O	O
+the	861,864	O	O
+two	865,868	O	B-Process
+-	868,869	O	I-Process
+layer	869,874	O	I-Process
+and	875,878	O	I-Process
+unified	879,886	O	I-Process
+visco	887,892	O	I-Process
+-	892,893	O	I-Process
+plasticity	893,903	O	I-Process
+models	904,910	O	I-Process
+[	911,912	O	O
+3,4	912,915	O	O
+]	915,916	O	O
+.	916,917	O	O
 
 
 -DOCSTART- (S092702561300267X)
 
-In	0	2	O
-previous	3	11	O
-publications	12	24	O
-the	25	28	O
-present	29	36	O
-authors	37	44	O
-proposed	45	53	O
-a	54	55	O
-method	56	62	O
-to	63	65	O
-incorporate	66	77	B-Task
-the	78	81	I-Task
-thermodynamics	82	96	I-Task
-of	97	99	I-Task
-ternary	100	107	I-Task
-alloys	108	114	I-Task
-and	115	118	I-Task
-liquid	119	125	I-Task
-diffusion	126	135	I-Task
--	135	136	I-Task
-governed	136	144	I-Task
-solidification	145	159	I-Task
-kinetics	160	168	I-Task
-into	169	173	I-Task
-a	174	175	I-Task
-multiphase	176	186	I-Task
-volume	187	193	I-Task
-average	194	201	I-Task
-solidification	202	216	I-Task
-model	217	222	I-Task
-[	223	224	O
-23,24	224	229	O
-]	229	230	O
-.	230	231	O
-
-Back	232	236	B-Process
-diffusion	237	246	I-Process
-was	247	250	O
-disregarded	251	262	O
-.	262	263	O
-
-A	264	265	O
-way	266	269	O
-to	270	272	O
-access	273	279	O
-the	280	283	O
-thermodynamic	284	297	B-Material
-data	298	302	I-Material
-(	303	304	O
-e.g.	304	308	O
-Thermo	309	315	O
--	315	316	O
-Calc	316	320	O
-[	321	322	O
-1	322	323	O
-]	323	324	O
-)	324	325	O
-through	326	333	O
-a	334	335	O
-tabulation	336	346	B-Material
-and	347	350	I-Material
-interpolation	351	364	I-Material
-program	365	372	I-Material
-ISAT	373	377	B-Material
-(	378	379	O
-In	379	381	B-Material
-Situ	382	386	I-Material
-Adaptive	387	395	I-Material
-Tabulation	396	406	I-Material
-)	406	407	O
-was	408	411	O
-suggested	412	421	O
-.	421	422	O
-
-With	423	427	O
-the	428	431	O
-ISAT	432	436	B-Process
-approach	437	445	I-Process
-it	446	448	O
-is	449	451	O
-possible	452	460	O
-to	461	463	O
-perform	464	471	O
-an	472	474	O
-online	475	481	O
-call	482	486	O
-of	487	489	O
-the	490	493	O
-thermodynamic	494	507	B-Material
-data	508	512	I-Material
-and	513	516	O
-trace	517	522	O
-the	523	526	O
-formation	527	536	O
-of	537	539	O
-each	540	544	O
-individual	545	555	O
-solid	556	561	O
-phase	562	567	O
-(	568	569	O
-primary	569	576	O
-,	576	577	O
-peritectic	578	588	O
-,	588	589	O
-eutectic	590	598	O
-,	598	599	O
-etc	600	603	O
-.	603	604	O
-)	604	605	O
-.	605	606	O
-
-As	607	609	O
-the	610	613	O
-number	614	620	O
-of	621	623	O
-calls	624	629	O
-of	630	632	O
-the	633	636	O
-thermodynamic	637	650	B-Material
-data	651	655	I-Material
-is	656	658	O
-equal	659	664	O
-to	665	667	O
-the	668	671	O
-product	672	679	O
-of	680	682	O
-the	683	686	O
-number	687	693	O
-of	694	696	O
-the	697	700	O
-discretized	701	712	B-Material
-volume	713	719	I-Material
-elements	720	728	I-Material
-,	728	729	O
-the	730	733	O
-time	734	738	O
-steps	739	744	O
-and	745	748	O
-the	749	752	O
-calculation	753	764	O
-iterations	765	775	O
-per	776	779	O
-time	780	784	O
-step	785	789	O
-,	789	790	O
-the	791	794	O
-calculation	795	806	O
-becomes	807	814	O
-exhausting	815	825	O
-.	825	826	O
-
-Therefore	827	836	O
-,	836	837	O
-the	838	841	O
-current	842	849	B-Process
-model	850	855	I-Process
-is	856	858	O
-a	859	860	O
-modification	861	873	B-Process
-of	874	876	I-Process
-the	877	880	I-Process
-previous	881	889	I-Process
-model	890	895	I-Process
-using	896	901	I-Process
-a	902	903	I-Process
-linearized	904	914	I-Process
-phase	915	920	I-Process
-diagram	921	928	I-Process
-,	928	929	O
-and	930	933	O
-no	934	936	O
-online	937	943	B-Process
-call	944	948	I-Process
-of	949	951	I-Process
-thermodynamic	952	965	I-Process
-data	966	970	I-Process
-is	971	973	O
-necessary	974	983	O
-.	983	984	O
-
-In	985	987	O
-addition	988	996	O
-,	996	997	O
-the	998	1001	O
-model	1002	1007	O
-presented	1008	1017	O
-in	1018	1020	O
-this	1021	1025	O
-paper	1026	1031	O
-is	1032	1034	O
-extended	1035	1043	B-Task
-to	1044	1046	I-Task
-consider	1047	1055	I-Task
-the	1056	1059	I-Task
-back	1060	1064	I-Task
-diffusion	1065	1074	I-Task
-into	1075	1079	I-Task
-the	1080	1083	I-Task
-solid	1084	1089	I-Task
-.	1089	1090	O
-
-With	1091	1095	O
-these	1096	1101	O
-modifications	1102	1115	B-Process
-,	1115	1116	O
-the	1117	1120	O
-model	1121	1126	O
-can	1127	1130	O
-be	1131	1133	O
-used	1134	1138	O
-to	1139	1141	O
-perform	1142	1149	B-Task
-casting	1150	1157	I-Task
-process	1158	1165	I-Task
-simulations	1166	1177	I-Task
-with	1178	1182	I-Task
-incorporated	1183	1195	I-Task
-full	1196	1200	I-Task
-diffusion	1201	1210	I-Task
--	1210	1211	I-Task
-governed	1211	1219	I-Task
-solidification	1220	1234	I-Task
-kinetics	1235	1243	I-Task
-for	1244	1247	O
-ternary	1248	1255	B-Material
-alloys	1256	1262	I-Material
-at	1263	1265	O
-a	1266	1267	O
-reasonable	1268	1278	O
-computation	1279	1290	O
-cost	1291	1295	O
-.	1295	1296	O
+In	0,2	O	O
+previous	3,11	O	O
+publications	12,24	O	O
+the	25,28	O	O
+present	29,36	O	O
+authors	37,44	O	O
+proposed	45,53	O	O
+a	54,55	O	O
+method	56,62	O	O
+to	63,65	O	O
+incorporate	66,77	O	B-Task
+the	78,81	O	I-Task
+thermodynamics	82,96	O	I-Task
+of	97,99	O	I-Task
+ternary	100,107	O	I-Task
+alloys	108,114	O	I-Task
+and	115,118	O	I-Task
+liquid	119,125	O	I-Task
+diffusion	126,135	O	I-Task
+-	135,136	O	I-Task
+governed	136,144	O	I-Task
+solidification	145,159	O	I-Task
+kinetics	160,168	O	I-Task
+into	169,173	O	I-Task
+a	174,175	O	I-Task
+multiphase	176,186	O	I-Task
+volume	187,193	O	I-Task
+average	194,201	O	I-Task
+solidification	202,216	O	I-Task
+model	217,222	O	I-Task
+[	223,224	O	O
+23,24	224,229	O	O
+]	229,230	O	O
+.	230,231	O	O
+
+Back	232,236	O	B-Process
+diffusion	237,246	O	I-Process
+was	247,250	O	O
+disregarded	251,262	O	O
+.	262,263	O	O
+
+A	264,265	O	O
+way	266,269	O	O
+to	270,272	O	O
+access	273,279	O	O
+the	280,283	O	O
+thermodynamic	284,297	O	B-Material
+data	298,302	O	I-Material
+(	303,304	O	O
+e.g.	304,308	O	O
+Thermo	309,315	O	O
+-	315,316	O	O
+Calc	316,320	O	O
+[	321,322	O	O
+1	322,323	O	O
+]	323,324	O	O
+)	324,325	O	O
+through	326,333	O	O
+a	334,335	O	O
+tabulation	336,346	O	B-Material
+and	347,350	O	I-Material
+interpolation	351,364	O	I-Material
+program	365,372	O	I-Material
+ISAT	373,377	O	B-Material
+(	378,379	O	O
+In	379,381	O	B-Material
+Situ	382,386	O	I-Material
+Adaptive	387,395	O	I-Material
+Tabulation	396,406	O	I-Material
+)	406,407	O	O
+was	408,411	O	O
+suggested	412,421	O	O
+.	421,422	O	O
+
+With	423,427	O	O
+the	428,431	O	O
+ISAT	432,436	O	B-Process
+approach	437,445	O	I-Process
+it	446,448	O	O
+is	449,451	O	O
+possible	452,460	O	O
+to	461,463	O	O
+perform	464,471	O	O
+an	472,474	O	O
+online	475,481	O	O
+call	482,486	O	O
+of	487,489	O	O
+the	490,493	O	O
+thermodynamic	494,507	O	B-Material
+data	508,512	O	I-Material
+and	513,516	O	O
+trace	517,522	O	O
+the	523,526	O	O
+formation	527,536	O	O
+of	537,539	O	O
+each	540,544	O	O
+individual	545,555	O	O
+solid	556,561	O	O
+phase	562,567	O	O
+(	568,569	O	O
+primary	569,576	O	O
+,	576,577	O	O
+peritectic	578,588	O	O
+,	588,589	O	O
+eutectic	590,598	O	O
+,	598,599	O	O
+etc	600,603	O	O
+.	603,604	O	O
+)	604,605	O	O
+.	605,606	O	O
+
+As	607,609	O	O
+the	610,613	O	O
+number	614,620	O	O
+of	621,623	O	O
+calls	624,629	O	O
+of	630,632	O	O
+the	633,636	O	O
+thermodynamic	637,650	O	B-Material
+data	651,655	O	I-Material
+is	656,658	O	O
+equal	659,664	O	O
+to	665,667	O	O
+the	668,671	O	O
+product	672,679	O	O
+of	680,682	O	O
+the	683,686	O	O
+number	687,693	O	O
+of	694,696	O	O
+the	697,700	O	O
+discretized	701,712	O	B-Material
+volume	713,719	O	I-Material
+elements	720,728	O	I-Material
+,	728,729	O	O
+the	730,733	O	O
+time	734,738	O	O
+steps	739,744	O	O
+and	745,748	O	O
+the	749,752	O	O
+calculation	753,764	O	O
+iterations	765,775	O	O
+per	776,779	O	O
+time	780,784	O	O
+step	785,789	O	O
+,	789,790	O	O
+the	791,794	O	O
+calculation	795,806	O	O
+becomes	807,814	O	O
+exhausting	815,825	O	O
+.	825,826	O	O
+
+Therefore	827,836	O	O
+,	836,837	O	O
+the	838,841	O	O
+current	842,849	O	B-Process
+model	850,855	O	I-Process
+is	856,858	O	O
+a	859,860	O	O
+modification	861,873	O	B-Process
+of	874,876	O	I-Process
+the	877,880	O	I-Process
+previous	881,889	O	I-Process
+model	890,895	O	I-Process
+using	896,901	O	I-Process
+a	902,903	O	I-Process
+linearized	904,914	O	I-Process
+phase	915,920	O	I-Process
+diagram	921,928	O	I-Process
+,	928,929	O	O
+and	930,933	O	O
+no	934,936	O	O
+online	937,943	O	B-Process
+call	944,948	O	I-Process
+of	949,951	O	I-Process
+thermodynamic	952,965	O	I-Process
+data	966,970	O	I-Process
+is	971,973	O	O
+necessary	974,983	O	O
+.	983,984	O	O
+
+In	985,987	O	O
+addition	988,996	O	O
+,	996,997	O	O
+the	998,1001	O	O
+model	1002,1007	O	O
+presented	1008,1017	O	O
+in	1018,1020	O	O
+this	1021,1025	O	O
+paper	1026,1031	O	O
+is	1032,1034	O	O
+extended	1035,1043	O	B-Task
+to	1044,1046	O	I-Task
+consider	1047,1055	O	I-Task
+the	1056,1059	O	I-Task
+back	1060,1064	O	I-Task
+diffusion	1065,1074	O	I-Task
+into	1075,1079	O	I-Task
+the	1080,1083	O	I-Task
+solid	1084,1089	O	I-Task
+.	1089,1090	O	O
+
+With	1091,1095	O	O
+these	1096,1101	O	O
+modifications	1102,1115	O	B-Process
+,	1115,1116	O	O
+the	1117,1120	O	O
+model	1121,1126	O	O
+can	1127,1130	O	O
+be	1131,1133	O	O
+used	1134,1138	O	O
+to	1139,1141	O	O
+perform	1142,1149	O	B-Task
+casting	1150,1157	O	I-Task
+process	1158,1165	O	I-Task
+simulations	1166,1177	O	I-Task
+with	1178,1182	O	I-Task
+incorporated	1183,1195	O	I-Task
+full	1196,1200	O	I-Task
+diffusion	1201,1210	O	I-Task
+-	1210,1211	O	I-Task
+governed	1211,1219	O	I-Task
+solidification	1220,1234	O	I-Task
+kinetics	1235,1243	O	I-Task
+for	1244,1247	O	O
+ternary	1248,1255	O	B-Material
+alloys	1256,1262	O	I-Material
+at	1263,1265	O	O
+a	1266,1267	O	O
+reasonable	1268,1278	O	O
+computation	1279,1290	O	O
+cost	1291,1295	O	O
+.	1295,1296	O	O
 
 
 -DOCSTART- (S092702561300760X)
 
-Due	0	3	O
-to	4	6	O
-the	7	10	O
-complex	11	18	O
-nature	19	25	O
-of	26	28	O
-the	29	32	O
-thermal	33	40	B-Process
-spray	41	46	I-Process
-process	47	54	I-Process
-,	54	55	O
-modelling	56	65	B-Task
-has	66	69	O
-been	70	74	O
-playing	75	82	O
-a	83	84	O
-key	85	88	O
-role	89	93	O
-in	94	96	O
-providing	97	106	B-Task
-some	107	111	I-Task
-key	112	115	I-Task
-insights	116	124	I-Task
-for	125	128	I-Task
-process	129	136	I-Task
-design	137	143	I-Task
-and	144	147	I-Task
-operations	148	158	I-Task
-.	158	159	O
-
-The	160	163	O
-relationships	164	177	O
-among	178	183	O
-processing	184	194	B-Process
-conditions	195	205	O
-,	205	206	O
-particle	207	215	O
-characteristics	216	231	O
-,	231	232	O
-and	233	236	O
-the	237	240	O
-resulting	241	250	O
-coating	251	258	B-Process
-properties	259	269	O
-are	270	273	O
-nonlinear	274	283	O
-and	284	287	O
-might	288	293	O
-be	294	296	O
-difficult	297	306	O
-to	307	309	O
-be	310	312	O
-unravelled	313	323	O
-by	324	326	O
-the	327	330	O
-experimental	331	343	B-Task
-studies	344	351	I-Task
-alone	352	357	O
-(	358	359	O
-e.g.	359	363	O
-[	364	365	O
-5–7	365	368	O
-]	368	369	O
-)	369	370	O
-
-Detailed	371	379	O
-information	380	391	O
-on	392	394	O
-the	395	398	O
-atomic	399	405	B-Process
-level	406	411	I-Process
-changes	412	419	I-Process
-leading	420	427	O
-to	428	430	O
-changes	431	438	O
-observed	439	447	O
-at	448	450	O
-macroscale	451	461	O
-can	462	465	O
-appropriately	466	479	O
-be	480	482	O
-obtained	483	491	O
-by	492	494	O
-MD	495	497	B-Process
-simulation	498	508	I-Process
-and	509	512	O
-the	513	516	O
-effect	517	523	O
-of	524	526	O
-temperature	527	538	O
-and	539	542	O
-velocity	543	551	O
-can	552	555	O
-be	556	558	O
-determined	559	569	O
-more	570	574	O
-precisely	575	584	O
-.	584	585	O
-
-In	586	588	O
-this	589	593	O
-work	594	598	O
-,	598	599	O
-relatively	600	610	O
-simpler	611	618	O
-spray	619	624	B-Process
-system	625	631	I-Process
-of	632	634	O
-copper	635	641	B-Material
-–	641	642	I-Material
-copper	642	648	I-Material
-particle	649	657	I-Material
-was	658	661	O
-simulated	662	671	O
-to	672	674	O
-obtain	675	681	O
-a	682	683	O
-better	684	690	O
-understanding	691	704	O
-of	705	707	O
-particle	708	716	B-Process
-recrystallization	717	734	I-Process
-and	735	738	I-Process
-solidification	739	753	I-Process
-,	753	754	O
-and	755	758	O
-deformation	759	770	B-Process
-mechanics	771	780	O
-and	781	784	O
-topography	785	795	O
-of	796	798	O
-the	799	802	O
-impacting	803	812	O
-particles	813	822	B-Material
-.	822	823	O
-
-Using	824	829	O
-state	830	835	O
--	835	836	O
-of	836	838	O
--	838	839	O
-the	839	842	O
--	842	843	O
-art	843	846	O
-methods	847	854	O
-to	855	857	O
-examine	858	865	O
-the	866	869	O
-physical	870	878	O
-mechanisms	879	889	O
-involved	890	898	O
-in	899	901	O
-the	902	905	O
-impacting	906	915	O
-behavior	916	924	O
-and	925	928	O
-structure	929	938	O
-–	938	939	O
-property	939	947	O
-relationship	948	960	O
-,	960	961	O
-it	962	964	O
-can	965	968	O
-be	969	971	O
-suggested	972	981	O
-that	982	986	O
-the	987	990	O
-consecutive	991	1002	B-Process
-layer	1003	1008	I-Process
-deposition	1009	1019	I-Process
-of	1020	1022	O
-particles	1023	1032	B-Material
-can	1033	1036	O
-better	1037	1043	O
-be	1044	1046	O
-understood	1047	1057	O
-by	1058	1060	O
-understanding	1061	1074	B-Task
-individual	1075	1085	I-Task
-particle	1086	1094	I-Task
-impacts	1095	1102	I-Task
-.	1102	1103	O
-
-The	1104	1107	O
-particle	1108	1116	B-Process
-–	1116	1117	I-Process
-surface	1117	1124	I-Process
-interaction	1125	1136	I-Process
-mechanism	1137	1146	I-Process
-and	1147	1150	O
-its	1151	1154	O
-relation	1155	1163	O
-to	1164	1166	O
-Reynolds	1167	1175	B-Process
-number	1176	1182	I-Process
-can	1183	1186	O
-offer	1187	1192	O
-information	1193	1204	O
-on	1205	1207	O
-the	1208	1211	O
-quality	1212	1219	O
-of	1220	1222	O
-the	1223	1226	O
-coating	1227	1234	B-Process
-through	1235	1242	O
-its	1243	1246	O
-response	1247	1255	O
-to	1256	1258	O
-shock	1259	1264	B-Process
-heating	1265	1272	I-Process
-.	1272	1273	O
-
-As	1274	1276	O
-a	1277	1278	O
-general	1279	1286	O
-practice	1287	1295	O
-,	1295	1296	O
-engineering	1297	1308	B-Material
-components	1309	1319	I-Material
-are	1320	1323	O
-thermally	1324	1333	B-Process
-sprayed	1334	1341	I-Process
-in	1342	1344	O
-a	1345	1346	O
-continuous	1347	1357	O
-multilayer	1358	1368	O
-mode	1369	1373	O
-with	1374	1378	O
-cooling	1379	1386	B-Process
-;	1386	1387	O
-therefore	1388	1397	O
-there	1398	1403	O
-is	1404	1406	O
-an	1407	1409	O
-opportunity	1410	1421	O
-for	1422	1425	O
-developing	1426	1436	B-Task
-richer	1437	1443	I-Task
-theoretical	1444	1455	I-Task
-models	1456	1462	I-Task
-for	1463	1466	I-Task
-single	1467	1473	I-Task
-or	1474	1476	I-Task
-multiple	1477	1485	I-Task
-particle	1486	1494	I-Task
-impact	1495	1501	I-Task
-in	1502	1504	O
-conjunction	1505	1516	O
-with	1517	1521	O
-actual	1522	1528	O
-spraying	1529	1537	B-Task
-tests	1538	1543	I-Task
-,	1543	1544	O
-so	1545	1547	O
-as	1548	1550	O
-to	1551	1553	O
-identify	1554	1562	O
-cohesive	1563	1571	O
-and	1572	1575	O
-adhesive	1576	1584	O
-strength	1585	1593	O
-,	1593	1594	O
-hardness	1595	1603	O
-and	1604	1607	O
-residual	1608	1616	O
-stresses	1617	1625	O
-.	1625	1626	O
+Due	0,3	O	O
+to	4,6	O	O
+the	7,10	O	O
+complex	11,18	O	O
+nature	19,25	O	O
+of	26,28	O	O
+the	29,32	O	O
+thermal	33,40	O	B-Process
+spray	41,46	O	I-Process
+process	47,54	O	I-Process
+,	54,55	O	O
+modelling	56,65	O	B-Task
+has	66,69	O	O
+been	70,74	O	O
+playing	75,82	O	O
+a	83,84	O	O
+key	85,88	O	O
+role	89,93	O	O
+in	94,96	O	O
+providing	97,106	O	B-Task
+some	107,111	O	I-Task
+key	112,115	O	I-Task
+insights	116,124	O	I-Task
+for	125,128	O	I-Task
+process	129,136	O	I-Task
+design	137,143	O	I-Task
+and	144,147	O	I-Task
+operations	148,158	O	I-Task
+.	158,159	O	O
+
+The	160,163	O	O
+relationships	164,177	O	O
+among	178,183	O	O
+processing	184,194	O	B-Process
+conditions	195,205	O	O
+,	205,206	O	O
+particle	207,215	O	O
+characteristics	216,231	O	O
+,	231,232	O	O
+and	233,236	O	O
+the	237,240	O	O
+resulting	241,250	O	O
+coating	251,258	O	B-Process
+properties	259,269	O	O
+are	270,273	O	O
+nonlinear	274,283	O	O
+and	284,287	O	O
+might	288,293	O	O
+be	294,296	O	O
+difficult	297,306	O	O
+to	307,309	O	O
+be	310,312	O	O
+unravelled	313,323	O	O
+by	324,326	O	O
+the	327,330	O	O
+experimental	331,343	O	B-Task
+studies	344,351	O	I-Task
+alone	352,357	O	O
+(	358,359	O	O
+e.g.	359,363	O	O
+[	364,365	O	O
+5–7	365,368	O	O
+]	368,369	O	O
+)	369,370	O	O
+
+Detailed	371,379	O	O
+information	380,391	O	O
+on	392,394	O	O
+the	395,398	O	O
+atomic	399,405	O	B-Process
+level	406,411	O	I-Process
+changes	412,419	O	I-Process
+leading	420,427	O	O
+to	428,430	O	O
+changes	431,438	O	O
+observed	439,447	O	O
+at	448,450	O	O
+macroscale	451,461	O	O
+can	462,465	O	O
+appropriately	466,479	O	O
+be	480,482	O	O
+obtained	483,491	O	O
+by	492,494	O	O
+MD	495,497	O	B-Process
+simulation	498,508	O	I-Process
+and	509,512	O	O
+the	513,516	O	O
+effect	517,523	O	O
+of	524,526	O	O
+temperature	527,538	O	O
+and	539,542	O	O
+velocity	543,551	O	O
+can	552,555	O	O
+be	556,558	O	O
+determined	559,569	O	O
+more	570,574	O	O
+precisely	575,584	O	O
+.	584,585	O	O
+
+In	586,588	O	O
+this	589,593	O	O
+work	594,598	O	O
+,	598,599	O	O
+relatively	600,610	O	O
+simpler	611,618	O	O
+spray	619,624	O	B-Process
+system	625,631	O	I-Process
+of	632,634	O	O
+copper	635,641	O	B-Material
+–	641,642	O	I-Material
+copper	642,648	O	I-Material
+particle	649,657	O	I-Material
+was	658,661	O	O
+simulated	662,671	O	O
+to	672,674	O	O
+obtain	675,681	O	O
+a	682,683	O	O
+better	684,690	O	O
+understanding	691,704	O	O
+of	705,707	O	O
+particle	708,716	O	B-Process
+recrystallization	717,734	O	I-Process
+and	735,738	O	I-Process
+solidification	739,753	O	I-Process
+,	753,754	O	O
+and	755,758	O	O
+deformation	759,770	O	B-Process
+mechanics	771,780	O	O
+and	781,784	O	O
+topography	785,795	O	O
+of	796,798	O	O
+the	799,802	O	O
+impacting	803,812	O	O
+particles	813,822	O	B-Material
+.	822,823	O	O
+
+Using	824,829	O	O
+state	830,835	O	O
+-	835,836	O	O
+of	836,838	O	O
+-	838,839	O	O
+the	839,842	O	O
+-	842,843	O	O
+art	843,846	O	O
+methods	847,854	O	O
+to	855,857	O	O
+examine	858,865	O	O
+the	866,869	O	O
+physical	870,878	O	O
+mechanisms	879,889	O	O
+involved	890,898	O	O
+in	899,901	O	O
+the	902,905	O	O
+impacting	906,915	O	O
+behavior	916,924	O	O
+and	925,928	O	O
+structure	929,938	O	O
+–	938,939	O	O
+property	939,947	O	O
+relationship	948,960	O	O
+,	960,961	O	O
+it	962,964	O	O
+can	965,968	O	O
+be	969,971	O	O
+suggested	972,981	O	O
+that	982,986	O	O
+the	987,990	O	O
+consecutive	991,1002	O	B-Process
+layer	1003,1008	O	I-Process
+deposition	1009,1019	O	I-Process
+of	1020,1022	O	O
+particles	1023,1032	O	B-Material
+can	1033,1036	O	O
+better	1037,1043	O	O
+be	1044,1046	O	O
+understood	1047,1057	O	O
+by	1058,1060	O	O
+understanding	1061,1074	O	B-Task
+individual	1075,1085	O	I-Task
+particle	1086,1094	O	I-Task
+impacts	1095,1102	O	I-Task
+.	1102,1103	O	O
+
+The	1104,1107	O	O
+particle	1108,1116	O	B-Process
+–	1116,1117	O	I-Process
+surface	1117,1124	O	I-Process
+interaction	1125,1136	O	I-Process
+mechanism	1137,1146	O	I-Process
+and	1147,1150	O	O
+its	1151,1154	O	O
+relation	1155,1163	O	O
+to	1164,1166	O	O
+Reynolds	1167,1175	O	B-Process
+number	1176,1182	O	I-Process
+can	1183,1186	O	O
+offer	1187,1192	O	O
+information	1193,1204	O	O
+on	1205,1207	O	O
+the	1208,1211	O	O
+quality	1212,1219	O	O
+of	1220,1222	O	O
+the	1223,1226	O	O
+coating	1227,1234	O	B-Process
+through	1235,1242	O	O
+its	1243,1246	O	O
+response	1247,1255	O	O
+to	1256,1258	O	O
+shock	1259,1264	O	B-Process
+heating	1265,1272	O	I-Process
+.	1272,1273	O	O
+
+As	1274,1276	O	O
+a	1277,1278	O	O
+general	1279,1286	O	O
+practice	1287,1295	O	O
+,	1295,1296	O	O
+engineering	1297,1308	O	B-Material
+components	1309,1319	O	I-Material
+are	1320,1323	O	O
+thermally	1324,1333	O	B-Process
+sprayed	1334,1341	O	I-Process
+in	1342,1344	O	O
+a	1345,1346	O	O
+continuous	1347,1357	O	O
+multilayer	1358,1368	O	O
+mode	1369,1373	O	O
+with	1374,1378	O	O
+cooling	1379,1386	O	B-Process
+;	1386,1387	O	O
+therefore	1388,1397	O	O
+there	1398,1403	O	O
+is	1404,1406	O	O
+an	1407,1409	O	O
+opportunity	1410,1421	O	O
+for	1422,1425	O	O
+developing	1426,1436	O	B-Task
+richer	1437,1443	O	I-Task
+theoretical	1444,1455	O	I-Task
+models	1456,1462	O	I-Task
+for	1463,1466	O	I-Task
+single	1467,1473	O	I-Task
+or	1474,1476	O	I-Task
+multiple	1477,1485	O	I-Task
+particle	1486,1494	O	I-Task
+impact	1495,1501	O	I-Task
+in	1502,1504	O	O
+conjunction	1505,1516	O	O
+with	1517,1521	O	O
+actual	1522,1528	O	O
+spraying	1529,1537	O	B-Task
+tests	1538,1543	O	I-Task
+,	1543,1544	O	O
+so	1545,1547	O	O
+as	1548,1550	O	O
+to	1551,1553	O	O
+identify	1554,1562	O	O
+cohesive	1563,1571	O	O
+and	1572,1575	O	O
+adhesive	1576,1584	O	O
+strength	1585,1593	O	O
+,	1593,1594	O	O
+hardness	1595,1603	O	O
+and	1604,1607	O	O
+residual	1608,1616	O	O
+stresses	1617,1625	O	O
+.	1625,1626	O	O
 
 
 -DOCSTART- (S0927025614007137)
 
-Structural	0	10	B-Material
-adhesives	11	20	I-Material
-are	21	24	O
-increasingly	25	37	O
-used	38	42	O
-for	43	46	O
-bonding	47	54	B-Material
-components	55	65	I-Material
-within	66	72	O
-critical	73	81	B-Material
-load	82	86	I-Material
-bearing	87	94	I-Material
-engineering	95	106	I-Material
-structures	107	117	I-Material
-such	118	122	O
-as	123	125	O
-aerospace	126	135	B-Material
-and	136	139	O
-automotives	140	151	B-Material
-.	151	152	O
-
-Typically	153	162	O
-these	163	168	O
-adhesives	169	178	B-Material
-are	179	182	O
-based	183	188	O
-on	189	191	O
-epoxy	192	197	B-Material
-polymers	198	206	I-Material
-.	206	207	O
-
-Epoxies	208	215	B-Material
-are	216	219	O
-inherently	220	230	O
-brittle	231	238	O
-due	239	242	O
-to	243	245	O
-their	246	251	O
-homogeneous	252	263	O
-microstructure	264	278	B-Material
-and	279	282	O
-highly	283	289	O
-cross	290	295	O
-linked	296	302	O
-nature	303	309	O
-.	309	310	O
-
-Thus	311	315	O
-,	315	316	O
-there	317	322	O
-has	323	326	O
-been	327	331	O
-much	332	336	O
-research	337	345	O
-focused	346	353	O
-on	354	356	O
-improving	357	366	B-Task
-the	367	370	I-Task
-fracture	371	379	I-Task
-toughness	380	389	I-Task
-of	390	392	I-Task
-epoxy	393	398	I-Task
-polymers	399	407	I-Task
-by	408	410	O
-incorporating	411	424	B-Process
-a	425	426	I-Process
-second	427	433	I-Process
-minority	434	442	I-Process
-phase	443	448	I-Process
-at	449	451	I-Process
-the	452	455	I-Process
-nano	456	460	I-Process
--	460	461	I-Process
-scale	461	466	I-Process
-.	466	467	O
-
-These	468	473	O
-modifiers	474	483	O
-fall	484	488	O
-into	489	493	O
-one	494	497	O
-of	498	500	O
-two	501	504	O
-main	505	509	O
-categories	510	520	O
-:	520	521	O
-inorganic	522	531	B-Material
-additives	532	541	I-Material
-,	541	542	O
-e.g.	543	547	O
-silica	548	554	B-Material
-[	555	556	O
-1,2	556	559	O
-]	559	560	O
-,	560	561	O
-glass	562	567	B-Material
-[	568	569	O
-3	569	570	O
-]	570	571	O
-,	571	572	O
-alumina	573	580	B-Material
-[	581	582	O
-4	582	583	O
-]	583	584	O
-,	584	585	O
-nano	586	590	B-Material
--	590	591	I-Material
-clays	591	596	I-Material
-[	597	598	O
-5	598	599	O
-]	599	600	O
-and	601	604	O
-carbon	605	611	B-Material
-nanotubes	612	621	I-Material
-[	622	623	O
-6,7	623	626	O
-]	626	627	O
-or	628	630	O
-organic	631	638	B-Material
-,	638	639	O
-usually	640	647	O
-rubber	648	654	B-Material
-particles	655	664	I-Material
-.	664	665	O
-
-Rubbery	666	673	B-Material
-additives	674	683	I-Material
-can	684	687	O
-be	688	690	O
-either	691	697	O
-core	698	702	B-Material
-–	702	703	I-Material
-shell	703	708	I-Material
-rubber	709	715	I-Material
-particles	716	725	I-Material
-[	726	727	O
-8–10	727	731	O
-]	731	732	O
-or	733	735	O
-can	736	739	O
-form	740	744	O
-during	745	751	O
-curing	752	758	B-Process
-via	759	762	O
-reaction	763	771	B-Process
-induced	772	779	I-Process
-phase	780	785	I-Process
-separation	786	796	I-Process
-mechanisms	797	807	I-Process
-[	808	809	O
-11,12	809	814	O
-]	814	815	O
-.	815	816	O
-
-The	817	820	O
-primary	821	828	O
-energy	829	835	B-Process
-dissipation	836	847	I-Process
-mechanisms	848	858	I-Process
-for	859	862	O
-rubber	863	869	B-Material
-toughened	870	879	I-Material
-epoxies	880	887	I-Material
-are	888	891	O
-known	892	897	O
-to	898	900	O
-be	901	903	O
-both	904	908	O
-plastic	909	916	B-Process
-void	917	921	I-Process
-growth	922	928	I-Process
-and	929	932	O
-shear	933	938	B-Task
-band	939	943	I-Task
-development	944	955	I-Task
-[	956	957	O
-13	957	959	O
-]	959	960	O
-.	960	961	O
-
-It	962	964	O
-has	965	968	O
-also	969	973	O
-been	974	978	O
-shown	979	984	O
-that	985	989	O
-a	990	991	O
-combination	992	1003	O
-of	1004	1006	O
-the	1007	1010	O
-above	1011	1016	O
-additives	1017	1026	B-Material
-to	1027	1029	O
-create	1030	1036	O
-a	1037	1038	O
-hybrid	1039	1045	B-Material
-material	1046	1054	I-Material
-can	1055	1058	O
-provide	1059	1066	O
-synergistic	1067	1078	B-Process
-toughening	1079	1089	I-Process
-effects	1090	1097	I-Process
-,	1097	1098	O
-e.g.	1099	1103	O
-carbon	1104	1110	B-Material
-nanotubes	1111	1120	I-Material
-and	1121	1124	I-Material
-silica	1125	1131	I-Material
-nanoparticles	1132	1145	I-Material
-[	1146	1147	O
-14	1147	1149	O
-]	1149	1150	O
-or	1151	1153	O
-rubber	1154	1160	B-Material
-with	1161	1165	I-Material
-silica	1166	1172	I-Material
-nanoparticles	1173	1186	I-Material
-[	1187	1188	O
-15–17	1188	1193	O
-]	1193	1194	O
-.	1194	1195	O
+Structural	0,10	O	B-Material
+adhesives	11,20	O	I-Material
+are	21,24	O	O
+increasingly	25,37	O	O
+used	38,42	O	O
+for	43,46	O	O
+bonding	47,54	O	B-Material
+components	55,65	O	I-Material
+within	66,72	O	O
+critical	73,81	O	B-Material
+load	82,86	O	I-Material
+bearing	87,94	O	I-Material
+engineering	95,106	O	I-Material
+structures	107,117	O	I-Material
+such	118,122	O	O
+as	123,125	O	O
+aerospace	126,135	O	B-Material
+and	136,139	O	O
+automotives	140,151	O	B-Material
+.	151,152	O	O
+
+Typically	153,162	O	O
+these	163,168	O	O
+adhesives	169,178	O	B-Material
+are	179,182	O	O
+based	183,188	O	O
+on	189,191	O	O
+epoxy	192,197	O	B-Material
+polymers	198,206	O	I-Material
+.	206,207	O	O
+
+Epoxies	208,215	O	B-Material
+are	216,219	O	O
+inherently	220,230	O	O
+brittle	231,238	O	O
+due	239,242	O	O
+to	243,245	O	O
+their	246,251	O	O
+homogeneous	252,263	O	O
+microstructure	264,278	O	B-Material
+and	279,282	O	O
+highly	283,289	O	O
+cross	290,295	O	O
+linked	296,302	O	O
+nature	303,309	O	O
+.	309,310	O	O
+
+Thus	311,315	O	O
+,	315,316	O	O
+there	317,322	O	O
+has	323,326	O	O
+been	327,331	O	O
+much	332,336	O	O
+research	337,345	O	O
+focused	346,353	O	O
+on	354,356	O	O
+improving	357,366	O	B-Task
+the	367,370	O	I-Task
+fracture	371,379	O	I-Task
+toughness	380,389	O	I-Task
+of	390,392	O	I-Task
+epoxy	393,398	O	I-Task
+polymers	399,407	O	I-Task
+by	408,410	O	O
+incorporating	411,424	O	B-Process
+a	425,426	O	I-Process
+second	427,433	O	I-Process
+minority	434,442	O	I-Process
+phase	443,448	O	I-Process
+at	449,451	O	I-Process
+the	452,455	O	I-Process
+nano	456,460	O	I-Process
+-	460,461	O	I-Process
+scale	461,466	O	I-Process
+.	466,467	O	O
+
+These	468,473	O	O
+modifiers	474,483	O	O
+fall	484,488	O	O
+into	489,493	O	O
+one	494,497	O	O
+of	498,500	O	O
+two	501,504	O	O
+main	505,509	O	O
+categories	510,520	O	O
+:	520,521	O	O
+inorganic	522,531	O	B-Material
+additives	532,541	O	I-Material
+,	541,542	O	O
+e.g.	543,547	O	O
+silica	548,554	O	B-Material
+[	555,556	O	O
+1,2	556,559	O	O
+]	559,560	O	O
+,	560,561	O	O
+glass	562,567	O	B-Material
+[	568,569	O	O
+3	569,570	O	O
+]	570,571	O	O
+,	571,572	O	O
+alumina	573,580	O	B-Material
+[	581,582	O	O
+4	582,583	O	O
+]	583,584	O	O
+,	584,585	O	O
+nano	586,590	O	B-Material
+-	590,591	O	I-Material
+clays	591,596	O	I-Material
+[	597,598	O	O
+5	598,599	O	O
+]	599,600	O	O
+and	601,604	O	O
+carbon	605,611	O	B-Material
+nanotubes	612,621	O	I-Material
+[	622,623	O	O
+6,7	623,626	O	O
+]	626,627	O	O
+or	628,630	O	O
+organic	631,638	O	B-Material
+,	638,639	O	O
+usually	640,647	O	O
+rubber	648,654	O	B-Material
+particles	655,664	O	I-Material
+.	664,665	O	O
+
+Rubbery	666,673	O	B-Material
+additives	674,683	O	I-Material
+can	684,687	O	O
+be	688,690	O	O
+either	691,697	O	O
+core	698,702	O	B-Material
+–	702,703	O	I-Material
+shell	703,708	O	I-Material
+rubber	709,715	O	I-Material
+particles	716,725	O	I-Material
+[	726,727	O	O
+8–10	727,731	O	O
+]	731,732	O	O
+or	733,735	O	O
+can	736,739	O	O
+form	740,744	O	O
+during	745,751	O	O
+curing	752,758	O	B-Process
+via	759,762	O	O
+reaction	763,771	O	B-Process
+induced	772,779	O	I-Process
+phase	780,785	O	I-Process
+separation	786,796	O	I-Process
+mechanisms	797,807	O	I-Process
+[	808,809	O	O
+11,12	809,814	O	O
+]	814,815	O	O
+.	815,816	O	O
+
+The	817,820	O	O
+primary	821,828	O	O
+energy	829,835	O	B-Process
+dissipation	836,847	O	I-Process
+mechanisms	848,858	O	I-Process
+for	859,862	O	O
+rubber	863,869	O	B-Material
+toughened	870,879	O	I-Material
+epoxies	880,887	O	I-Material
+are	888,891	O	O
+known	892,897	O	O
+to	898,900	O	O
+be	901,903	O	O
+both	904,908	O	O
+plastic	909,916	O	B-Process
+void	917,921	O	I-Process
+growth	922,928	O	I-Process
+and	929,932	O	O
+shear	933,938	O	B-Task
+band	939,943	O	I-Task
+development	944,955	O	I-Task
+[	956,957	O	O
+13	957,959	O	O
+]	959,960	O	O
+.	960,961	O	O
+
+It	962,964	O	O
+has	965,968	O	O
+also	969,973	O	O
+been	974,978	O	O
+shown	979,984	O	O
+that	985,989	O	O
+a	990,991	O	O
+combination	992,1003	O	O
+of	1004,1006	O	O
+the	1007,1010	O	O
+above	1011,1016	O	O
+additives	1017,1026	O	B-Material
+to	1027,1029	O	O
+create	1030,1036	O	O
+a	1037,1038	O	O
+hybrid	1039,1045	O	B-Material
+material	1046,1054	O	I-Material
+can	1055,1058	O	O
+provide	1059,1066	O	O
+synergistic	1067,1078	O	B-Process
+toughening	1079,1089	O	I-Process
+effects	1090,1097	O	I-Process
+,	1097,1098	O	O
+e.g.	1099,1103	O	O
+carbon	1104,1110	O	B-Material
+nanotubes	1111,1120	O	I-Material
+and	1121,1124	O	I-Material
+silica	1125,1131	O	I-Material
+nanoparticles	1132,1145	O	I-Material
+[	1146,1147	O	O
+14	1147,1149	O	O
+]	1149,1150	O	O
+or	1151,1153	O	O
+rubber	1154,1160	O	B-Material
+with	1161,1165	O	I-Material
+silica	1166,1172	O	I-Material
+nanoparticles	1173,1186	O	I-Material
+[	1187,1188	O	O
+15–17	1188,1193	O	O
+]	1193,1194	O	O
+.	1194,1195	O	O
 
 
 -DOCSTART- (S0957417416301786)
 
-These	0	5	O
-results	6	13	O
-demonstrate	14	25	O
-that	26	30	O
-SW	31	33	B-Process
--	33	34	I-Process
-SVR	34	37	I-Process
-predicts	38	46	O
-complicated	47	58	O
-micrometeorological	59	78	B-Material
-data	79	83	I-Material
-with	84	88	O
-the	89	92	O
-best	93	97	O
-prediction	98	108	O
-performance	109	120	O
-and	121	124	O
-the	125	128	O
-lowest	129	135	O
-computational	136	149	O
-complexity	150	160	O
-compared	161	169	O
-with	170	174	O
-standard	175	183	B-Process
-algorithms	184	194	I-Process
-.	194	195	O
-
-In	196	198	O
-particular	199	209	O
-,	209	210	O
-we	211	213	O
-found	214	219	O
-that	220	224	O
-dynamic	225	232	B-Process
-aggregation	233	244	I-Process
-of	245	247	I-Process
-models	248	254	I-Process
-built	255	260	O
-from	261	265	O
-very	266	270	O
-little	271	277	O
-extracted	278	287	O
-data	288	292	O
-by	293	295	O
-D	296	297	B-Process
--	297	298	I-Process
-SDC	298	301	I-Process
-is	302	304	O
-effective	305	314	O
-for	315	318	O
-compatibility	319	332	O
-of	333	335	O
-high	336	340	O
-prediction	341	351	O
-performance	352	363	O
-and	364	367	O
-low	368	371	O
-computational	372	385	O
-complexity	386	396	O
-.	396	397	O
-
-However	398	405	O
-,	405	406	O
-there	407	412	O
-are	413	416	O
-problems	417	425	O
-to	426	428	O
-be	429	431	O
-solved	432	438	O
-in	439	441	O
-SW	442	444	B-Process
--	444	445	I-Process
-SVR	445	448	I-Process
-.	448	449	O
-
-Firstly	450	457	O
-,	457	458	O
-the	459	462	O
-prediction	463	473	O
-performance	474	485	O
-of	486	488	O
-SW	489	491	B-Process
--	491	492	I-Process
-SVR	492	495	I-Process
-sometimes	496	505	O
-deteriorates	506	518	O
-despite	519	526	O
-an	527	529	O
-increase	530	538	O
-of	539	541	O
-training	542	550	B-Material
-data	551	555	I-Material
-.	555	556	O
-
-In	557	559	O
-particular	560	570	O
-,	570	571	O
-this	572	576	O
-problem	577	584	O
-occurred	585	593	O
-under	594	599	O
-the	600	603	O
-conditions	604	614	O
-that	615	619	O
-prediction	620	630	O
-horizons	631	639	O
-are	640	643	O
-6	644	645	O
-h	646	647	O
-as	648	650	O
-shown	651	656	O
-in	657	659	O
-Fig	660	663	O
-.	663	664	O
-
-3	665	666	O
-.	666	667	O
-
-This	668	672	O
-is	673	675	O
-because	676	683	O
-data	684	688	O
-extracted	689	698	O
-by	699	701	O
-D	702	703	B-Process
--	703	704	I-Process
-SDC	704	707	I-Process
-involves	708	716	O
-unnecessary	717	728	O
-training	729	737	B-Material
-data	738	742	I-Material
-for	743	746	O
-highly	747	753	O
-accurate	754	762	O
-prediction	763	773	O
-.	773	774	O
-
-If	775	777	O
-D	778	779	B-Process
--	779	780	I-Process
-SDC	780	783	I-Process
-extracts	784	792	O
-the	793	796	O
-same	797	801	O
-data	802	806	O
-as	807	809	O
-the	810	813	O
-extracted	814	823	O
-data	824	828	O
-when	829	833	O
-training	834	842	O
-periods	843	850	O
-are	851	854	O
-shorter	855	862	O
-,	862	863	O
-the	864	867	O
-prediction	868	878	O
-performance	879	890	O
-of	891	893	O
-SW	894	896	B-Process
--	896	897	I-Process
-SVR	897	900	I-Process
-never	901	906	O
-deteriorates	907	919	O
-due	920	923	O
-to	924	926	O
-an	927	929	O
-increase	930	938	O
-of	939	941	O
-training	942	950	B-Material
-data	951	955	I-Material
-.	955	956	O
-
-Therefore	957	966	O
-,	966	967	O
-we	968	970	O
-must	971	975	O
-review	976	982	O
-both	983	987	O
-feature	988	995	O
-mapping	996	1003	O
-and	1004	1007	O
-algorithms	1008	1018	O
-of	1019	1021	O
-D	1022	1023	B-Process
--	1023	1024	I-Process
-SDC	1024	1027	I-Process
-so	1028	1030	O
-as	1031	1033	O
-to	1034	1036	O
-avoid	1037	1042	O
-extracting	1043	1053	O
-unnecessary	1054	1065	O
-training	1066	1074	O
-data	1075	1079	O
-.	1079	1080	O
-
-Meanwhile	1081	1090	O
-,	1090	1091	O
-SW	1092	1094	B-Process
--	1094	1095	I-Process
-SVR	1095	1098	I-Process
-is	1099	1101	O
-based	1102	1107	O
-on	1108	1110	O
-a	1111	1112	O
-combination	1113	1124	B-Process
-of	1125	1127	I-Process
-several	1128	1135	I-Process
-algorithms	1136	1146	I-Process
-:	1146	1147	O
-kernel	1148	1154	B-Process
-approximation	1155	1168	I-Process
-,	1168	1169	O
-PLS	1170	1173	B-Process
-regression	1174	1184	I-Process
-,	1184	1185	O
-k	1186	1187	B-Process
--	1187	1188	I-Process
-means	1188	1193	I-Process
-,	1193	1194	O
-D	1195	1196	B-Process
--	1196	1197	I-Process
-SDC	1197	1200	I-Process
-,	1200	1201	O
-and	1202	1205	O
-linear	1206	1212	B-Process
-SVR	1213	1216	I-Process
-.	1216	1217	O
-
-Moreover	1218	1226	O
-,	1226	1227	O
-each	1228	1232	O
-algorithm	1233	1242	O
-has	1243	1246	O
-several	1247	1254	O
-parameters	1255	1265	O
-.	1265	1266	O
-
-Therefore	1267	1276	O
-,	1276	1277	O
-SW	1278	1280	B-Process
--	1280	1281	I-Process
-SVR	1281	1284	I-Process
-has	1285	1288	O
-more	1289	1293	O
-varied	1294	1300	O
-parameters	1301	1311	O
-,	1311	1312	O
-and	1313	1316	O
-it	1317	1319	O
-takes	1320	1325	O
-more	1326	1330	O
-time	1331	1335	O
-to	1336	1338	O
-tune	1339	1343	B-Process
-the	1344	1347	I-Process
-parameters	1348	1358	I-Process
-.	1358	1359	O
-
-In	1360	1362	O
-this	1363	1367	O
-experiment	1368	1378	O
-,	1378	1379	O
-we	1380	1382	O
-used	1383	1387	O
-a	1388	1389	O
-grid	1390	1394	B-Process
-search	1395	1401	I-Process
-roughly	1402	1409	O
-so	1410	1412	O
-as	1413	1415	O
-to	1416	1418	O
-decide	1419	1425	O
-the	1426	1429	O
-parameters	1430	1440	O
-in	1441	1443	O
-a	1444	1445	O
-certain	1446	1453	O
-time	1454	1458	O
-.	1458	1459	O
-
-However	1460	1467	O
-,	1467	1468	O
-there	1469	1474	O
-is	1475	1477	O
-still	1478	1483	O
-room	1484	1488	O
-for	1489	1492	O
-improvement	1493	1504	O
-in	1505	1507	O
-the	1508	1511	O
-prediction	1512	1522	O
-performance	1523	1534	O
-by	1535	1537	O
-using	1538	1543	O
-other	1544	1549	O
-approaches	1550	1560	O
-such	1561	1565	O
-as	1566	1568	O
-a	1569	1570	O
-genetic	1571	1578	B-Process
-algorithm	1579	1588	I-Process
-instead	1589	1596	O
-of	1597	1599	O
-a	1600	1601	O
-grid	1602	1606	B-Process
-search	1607	1613	I-Process
-(	1614	1615	O
-Huang	1615	1620	O
-&	1621	1622	O
-Wang	1623	1627	O
-,	1627	1628	O
-2006	1629	1633	O
-)	1633	1634	O
-.	1634	1635	O
+These	0,5	O	O
+results	6,13	O	O
+demonstrate	14,25	O	O
+that	26,30	O	O
+SW	31,33	O	B-Process
+-	33,34	O	I-Process
+SVR	34,37	O	I-Process
+predicts	38,46	O	O
+complicated	47,58	O	O
+micrometeorological	59,78	O	B-Material
+data	79,83	O	I-Material
+with	84,88	O	O
+the	89,92	O	O
+best	93,97	O	O
+prediction	98,108	O	O
+performance	109,120	O	O
+and	121,124	O	O
+the	125,128	O	O
+lowest	129,135	O	O
+computational	136,149	O	O
+complexity	150,160	O	O
+compared	161,169	O	O
+with	170,174	O	O
+standard	175,183	O	B-Process
+algorithms	184,194	O	I-Process
+.	194,195	O	O
+
+In	196,198	O	O
+particular	199,209	O	O
+,	209,210	O	O
+we	211,213	O	O
+found	214,219	O	O
+that	220,224	O	O
+dynamic	225,232	O	B-Process
+aggregation	233,244	O	I-Process
+of	245,247	O	I-Process
+models	248,254	O	I-Process
+built	255,260	O	O
+from	261,265	O	O
+very	266,270	O	O
+little	271,277	O	O
+extracted	278,287	O	O
+data	288,292	O	O
+by	293,295	O	O
+D	296,297	O	B-Process
+-	297,298	O	I-Process
+SDC	298,301	O	I-Process
+is	302,304	O	O
+effective	305,314	O	O
+for	315,318	O	O
+compatibility	319,332	O	O
+of	333,335	O	O
+high	336,340	O	O
+prediction	341,351	O	O
+performance	352,363	O	O
+and	364,367	O	O
+low	368,371	O	O
+computational	372,385	O	O
+complexity	386,396	O	O
+.	396,397	O	O
+
+However	398,405	O	O
+,	405,406	O	O
+there	407,412	O	O
+are	413,416	O	O
+problems	417,425	O	O
+to	426,428	O	O
+be	429,431	O	O
+solved	432,438	O	O
+in	439,441	O	O
+SW	442,444	O	B-Process
+-	444,445	O	I-Process
+SVR	445,448	O	I-Process
+.	448,449	O	O
+
+Firstly	450,457	O	O
+,	457,458	O	O
+the	459,462	O	O
+prediction	463,473	O	O
+performance	474,485	O	O
+of	486,488	O	O
+SW	489,491	O	B-Process
+-	491,492	O	I-Process
+SVR	492,495	O	I-Process
+sometimes	496,505	O	O
+deteriorates	506,518	O	O
+despite	519,526	O	O
+an	527,529	O	O
+increase	530,538	O	O
+of	539,541	O	O
+training	542,550	O	B-Material
+data	551,555	O	I-Material
+.	555,556	O	O
+
+In	557,559	O	O
+particular	560,570	O	O
+,	570,571	O	O
+this	572,576	O	O
+problem	577,584	O	O
+occurred	585,593	O	O
+under	594,599	O	O
+the	600,603	O	O
+conditions	604,614	O	O
+that	615,619	O	O
+prediction	620,630	O	O
+horizons	631,639	O	O
+are	640,643	O	O
+6	644,645	O	O
+h	646,647	O	O
+as	648,650	O	O
+shown	651,656	O	O
+in	657,659	O	O
+Fig	660,663	O	O
+.	663,664	O	O
+
+3	665,666	O	O
+.	666,667	O	O
+
+This	668,672	O	O
+is	673,675	O	O
+because	676,683	O	O
+data	684,688	O	O
+extracted	689,698	O	O
+by	699,701	O	O
+D	702,703	O	B-Process
+-	703,704	O	I-Process
+SDC	704,707	O	I-Process
+involves	708,716	O	O
+unnecessary	717,728	O	O
+training	729,737	O	B-Material
+data	738,742	O	I-Material
+for	743,746	O	O
+highly	747,753	O	O
+accurate	754,762	O	O
+prediction	763,773	O	O
+.	773,774	O	O
+
+If	775,777	O	O
+D	778,779	O	B-Process
+-	779,780	O	I-Process
+SDC	780,783	O	I-Process
+extracts	784,792	O	O
+the	793,796	O	O
+same	797,801	O	O
+data	802,806	O	O
+as	807,809	O	O
+the	810,813	O	O
+extracted	814,823	O	O
+data	824,828	O	O
+when	829,833	O	O
+training	834,842	O	O
+periods	843,850	O	O
+are	851,854	O	O
+shorter	855,862	O	O
+,	862,863	O	O
+the	864,867	O	O
+prediction	868,878	O	O
+performance	879,890	O	O
+of	891,893	O	O
+SW	894,896	O	B-Process
+-	896,897	O	I-Process
+SVR	897,900	O	I-Process
+never	901,906	O	O
+deteriorates	907,919	O	O
+due	920,923	O	O
+to	924,926	O	O
+an	927,929	O	O
+increase	930,938	O	O
+of	939,941	O	O
+training	942,950	O	B-Material
+data	951,955	O	I-Material
+.	955,956	O	O
+
+Therefore	957,966	O	O
+,	966,967	O	O
+we	968,970	O	O
+must	971,975	O	O
+review	976,982	O	O
+both	983,987	O	O
+feature	988,995	O	O
+mapping	996,1003	O	O
+and	1004,1007	O	O
+algorithms	1008,1018	O	O
+of	1019,1021	O	O
+D	1022,1023	O	B-Process
+-	1023,1024	O	I-Process
+SDC	1024,1027	O	I-Process
+so	1028,1030	O	O
+as	1031,1033	O	O
+to	1034,1036	O	O
+avoid	1037,1042	O	O
+extracting	1043,1053	O	O
+unnecessary	1054,1065	O	O
+training	1066,1074	O	O
+data	1075,1079	O	O
+.	1079,1080	O	O
+
+Meanwhile	1081,1090	O	O
+,	1090,1091	O	O
+SW	1092,1094	O	B-Process
+-	1094,1095	O	I-Process
+SVR	1095,1098	O	I-Process
+is	1099,1101	O	O
+based	1102,1107	O	O
+on	1108,1110	O	O
+a	1111,1112	O	O
+combination	1113,1124	O	B-Process
+of	1125,1127	O	I-Process
+several	1128,1135	O	I-Process
+algorithms	1136,1146	O	I-Process
+:	1146,1147	O	O
+kernel	1148,1154	O	B-Process
+approximation	1155,1168	O	I-Process
+,	1168,1169	O	O
+PLS	1170,1173	O	B-Process
+regression	1174,1184	O	I-Process
+,	1184,1185	O	O
+k	1186,1187	O	B-Process
+-	1187,1188	O	I-Process
+means	1188,1193	O	I-Process
+,	1193,1194	O	O
+D	1195,1196	O	B-Process
+-	1196,1197	O	I-Process
+SDC	1197,1200	O	I-Process
+,	1200,1201	O	O
+and	1202,1205	O	O
+linear	1206,1212	O	B-Process
+SVR	1213,1216	O	I-Process
+.	1216,1217	O	O
+
+Moreover	1218,1226	O	O
+,	1226,1227	O	O
+each	1228,1232	O	O
+algorithm	1233,1242	O	O
+has	1243,1246	O	O
+several	1247,1254	O	O
+parameters	1255,1265	O	O
+.	1265,1266	O	O
+
+Therefore	1267,1276	O	O
+,	1276,1277	O	O
+SW	1278,1280	O	B-Process
+-	1280,1281	O	I-Process
+SVR	1281,1284	O	I-Process
+has	1285,1288	O	O
+more	1289,1293	O	O
+varied	1294,1300	O	O
+parameters	1301,1311	O	O
+,	1311,1312	O	O
+and	1313,1316	O	O
+it	1317,1319	O	O
+takes	1320,1325	O	O
+more	1326,1330	O	O
+time	1331,1335	O	O
+to	1336,1338	O	O
+tune	1339,1343	O	B-Process
+the	1344,1347	O	I-Process
+parameters	1348,1358	O	I-Process
+.	1358,1359	O	O
+
+In	1360,1362	O	O
+this	1363,1367	O	O
+experiment	1368,1378	O	O
+,	1378,1379	O	O
+we	1380,1382	O	O
+used	1383,1387	O	O
+a	1388,1389	O	O
+grid	1390,1394	O	B-Process
+search	1395,1401	O	I-Process
+roughly	1402,1409	O	O
+so	1410,1412	O	O
+as	1413,1415	O	O
+to	1416,1418	O	O
+decide	1419,1425	O	O
+the	1426,1429	O	O
+parameters	1430,1440	O	O
+in	1441,1443	O	O
+a	1444,1445	O	O
+certain	1446,1453	O	O
+time	1454,1458	O	O
+.	1458,1459	O	O
+
+However	1460,1467	O	O
+,	1467,1468	O	O
+there	1469,1474	O	O
+is	1475,1477	O	O
+still	1478,1483	O	O
+room	1484,1488	O	O
+for	1489,1492	O	O
+improvement	1493,1504	O	O
+in	1505,1507	O	O
+the	1508,1511	O	O
+prediction	1512,1522	O	O
+performance	1523,1534	O	O
+by	1535,1537	O	O
+using	1538,1543	O	O
+other	1544,1549	O	O
+approaches	1550,1560	O	O
+such	1561,1565	O	O
+as	1566,1568	O	O
+a	1569,1570	O	O
+genetic	1571,1578	O	B-Process
+algorithm	1579,1588	O	I-Process
+instead	1589,1596	O	O
+of	1597,1599	O	O
+a	1600,1601	O	O
+grid	1602,1606	O	B-Process
+search	1607,1613	O	I-Process
+(	1614,1615	O	O
+Huang	1615,1620	O	O
+&	1621,1622	O	O
+Wang	1623,1627	O	O
+,	1627,1628	O	O
+2006	1629,1633	O	O
+)	1633,1634	O	O
+.	1634,1635	O	O
 
 
 -DOCSTART- (S0957417416302561)
 
-•More	0	5	O
-efforts	6	13	O
-should	14	20	O
-be	21	23	O
-directed	24	32	O
-towards	33	40	O
-advancing	41	50	O
-the	51	54	O
-methods	55	62	O
-of	63	65	O
-feature	66	73	B-Task
-extraction	74	84	I-Task
-to	85	87	O
-overcome	88	96	O
-the	97	100	O
-influence	101	110	O
-of	111	113	O
-dynamic	114	121	O
-factors	122	129	O
-that	130	134	O
-limit	135	140	O
-the	141	144	O
-performance	145	156	O
-.	156	157	O
-
-The	158	161	O
-use	162	165	O
-of	166	168	O
-advanced	169	177	B-Process
-machine	178	185	I-Process
-learning	186	194	I-Process
-methods	195	202	I-Process
-such	203	207	O
-as	208	210	O
-deep	211	215	B-Process
-neural	216	222	I-Process
-networks	223	231	I-Process
-and	232	235	O
-muscles	236	243	B-Process
-synergies	244	253	I-Process
-extraction	254	264	I-Process
-should	265	271	O
-also	272	276	O
-be	277	279	O
-investigated	280	292	O
-on	293	295	O
-problems	296	304	O
-under	305	310	O
-the	311	314	O
-influence	315	324	O
-of	325	327	O
-multiple	328	336	O
-dynamic	337	344	O
-factors	345	352	O
-as	353	355	O
-such	356	360	O
-methods	361	368	O
-may	369	372	O
-provide	373	380	O
-substantial	381	392	O
-improvements	393	405	O
-upon	406	410	O
-the	411	414	O
-utilized	415	423	B-Process
-time	424	428	I-Process
--	428	429	I-Process
-and	429	432	I-Process
--	432	433	I-Process
-frequency	433	442	I-Process
-EMG	443	446	I-Process
-feature	447	454	I-Process
-extraction	455	465	I-Process
-methods	466	473	I-Process
-(	474	475	O
-Diener	475	481	O
-,	481	482	O
-Janke	483	488	O
-,	488	489	O
-&	490	491	O
-Schultz	492	499	O
-,	499	500	O
-2015	501	505	O
-;	505	506	O
-Ison	507	511	O
-,	511	512	O
-Vujaklija	513	522	O
-,	522	523	O
-Whitsell	524	532	O
-,	532	533	O
-Farina	534	540	O
-,	540	541	O
-&	542	543	O
-Artemiadis	544	554	O
-,	554	555	O
-2016	556	560	O
-;	560	561	O
-Park	562	566	O
-&	567	568	O
-Lee	569	572	O
-,	572	573	O
-2016	574	578	O
-)	578	579	O
-.	579	580	O
-
-Meanwhile	581	590	O
-,	590	591	O
-we	592	594	O
-showed	595	601	O
-that	602	606	O
-the	607	610	O
-performance	611	622	B-Material
-of	623	625	O
-the	626	629	O
-learning	630	638	O
-algorithms	639	649	O
-can	650	653	O
-be	654	656	O
-improved	657	665	O
-by	666	668	O
-using	669	674	O
-feature	675	682	B-Process
-extraction	683	693	I-Process
-methods	694	701	I-Process
-that	702	706	O
-rely	707	711	O
-on	712	714	O
-the	715	718	O
-angular	719	726	O
-information	727	738	O
-of	739	741	O
-muscle	742	748	O
-activation	749	759	O
-patterns	760	768	O
-.	768	769	O
-
-Features	770	778	B-Process
-such	779	783	O
-as	784	786	O
-the	787	790	O
-TD	791	793	B-Process
--	793	794	I-Process
-PSD	794	797	I-Process
-and	798	801	O
-the	802	805	O
-DFT	806	809	B-Process
-proved	810	816	O
-more	817	821	O
-successful	822	832	O
-than	833	837	O
-others	838	844	O
-in	845	847	O
-reducing	848	856	B-Task
-the	857	860	I-Task
-impact	861	867	I-Task
-of	868	870	I-Task
-the	871	874	I-Task
-two	875	878	I-Task
-dynamic	879	886	I-Task
-factors	887	894	I-Task
-that	895	899	O
-we	900	902	O
-considered	903	913	O
-in	914	916	O
-this	917	921	O
-paper	922	927	O
-.	927	928	O
-
-Such	929	933	O
-features	934	942	O
-can	943	946	O
-be	947	949	O
-readily	950	957	O
-implemented	958	969	O
-into	970	974	O
-a	975	976	O
-prosthesis	977	987	B-Process
-controller	988	998	I-Process
-for	999	1002	O
-real	1003	1007	B-Task
--	1007	1008	I-Task
-time	1008	1012	I-Task
-control	1013	1020	I-Task
-,	1020	1021	O
-especially	1022	1032	O
-that	1033	1037	O
-the	1038	1041	O
-EMG	1042	1045	B-Process
-pattern	1046	1053	I-Process
-recognition	1054	1065	I-Process
-systems	1066	1073	I-Process
-are	1074	1077	O
-nowadays	1078	1086	O
-becoming	1087	1095	O
-available	1096	1105	O
-for	1106	1109	O
-clinical	1110	1118	B-Task
-testing	1119	1126	I-Task
-,	1126	1127	O
-e.g.	1128	1132	O
-the	1133	1136	O
-COAPT	1137	1142	B-Process
-complete	1143	1151	I-Process
-control	1152	1159	I-Process
-system	1160	1166	I-Process
-(	1167	1168	O
-Kuiken	1168	1174	O
-et	1175	1177	O
-al	1178	1180	O
-.	1180	1181	O
-,	1181	1182	O
-
-2014)11https://www.coaptengineering.com/.	1183	1224	O
+•More	0,5	O	O
+efforts	6,13	O	O
+should	14,20	O	O
+be	21,23	O	O
+directed	24,32	O	O
+towards	33,40	O	O
+advancing	41,50	O	O
+the	51,54	O	O
+methods	55,62	O	O
+of	63,65	O	O
+feature	66,73	O	B-Task
+extraction	74,84	O	I-Task
+to	85,87	O	O
+overcome	88,96	O	O
+the	97,100	O	O
+influence	101,110	O	O
+of	111,113	O	O
+dynamic	114,121	O	O
+factors	122,129	O	O
+that	130,134	O	O
+limit	135,140	O	O
+the	141,144	O	O
+performance	145,156	O	O
+.	156,157	O	O
+
+The	158,161	O	O
+use	162,165	O	O
+of	166,168	O	O
+advanced	169,177	O	B-Process
+machine	178,185	O	I-Process
+learning	186,194	O	I-Process
+methods	195,202	O	I-Process
+such	203,207	O	O
+as	208,210	O	O
+deep	211,215	O	B-Process
+neural	216,222	O	I-Process
+networks	223,231	O	I-Process
+and	232,235	O	O
+muscles	236,243	O	B-Process
+synergies	244,253	O	I-Process
+extraction	254,264	O	I-Process
+should	265,271	O	O
+also	272,276	O	O
+be	277,279	O	O
+investigated	280,292	O	O
+on	293,295	O	O
+problems	296,304	O	O
+under	305,310	O	O
+the	311,314	O	O
+influence	315,324	O	O
+of	325,327	O	O
+multiple	328,336	O	O
+dynamic	337,344	O	O
+factors	345,352	O	O
+as	353,355	O	O
+such	356,360	O	O
+methods	361,368	O	O
+may	369,372	O	O
+provide	373,380	O	O
+substantial	381,392	O	O
+improvements	393,405	O	O
+upon	406,410	O	O
+the	411,414	O	O
+utilized	415,423	O	B-Process
+time	424,428	O	I-Process
+-	428,429	O	I-Process
+and	429,432	O	I-Process
+-	432,433	O	I-Process
+frequency	433,442	O	I-Process
+EMG	443,446	O	I-Process
+feature	447,454	O	I-Process
+extraction	455,465	O	I-Process
+methods	466,473	O	I-Process
+(	474,475	O	O
+Diener	475,481	O	O
+,	481,482	O	O
+Janke	483,488	O	O
+,	488,489	O	O
+&	490,491	O	O
+Schultz	492,499	O	O
+,	499,500	O	O
+2015	501,505	O	O
+;	505,506	O	O
+Ison	507,511	O	O
+,	511,512	O	O
+Vujaklija	513,522	O	O
+,	522,523	O	O
+Whitsell	524,532	O	O
+,	532,533	O	O
+Farina	534,540	O	O
+,	540,541	O	O
+&	542,543	O	O
+Artemiadis	544,554	O	O
+,	554,555	O	O
+2016	556,560	O	O
+;	560,561	O	O
+Park	562,566	O	O
+&	567,568	O	O
+Lee	569,572	O	O
+,	572,573	O	O
+2016	574,578	O	O
+)	578,579	O	O
+.	579,580	O	O
+
+Meanwhile	581,590	O	O
+,	590,591	O	O
+we	592,594	O	O
+showed	595,601	O	O
+that	602,606	O	O
+the	607,610	O	O
+performance	611,622	O	B-Material
+of	623,625	O	O
+the	626,629	O	O
+learning	630,638	O	O
+algorithms	639,649	O	O
+can	650,653	O	O
+be	654,656	O	O
+improved	657,665	O	O
+by	666,668	O	O
+using	669,674	O	O
+feature	675,682	O	B-Process
+extraction	683,693	O	I-Process
+methods	694,701	O	I-Process
+that	702,706	O	O
+rely	707,711	O	O
+on	712,714	O	O
+the	715,718	O	O
+angular	719,726	O	O
+information	727,738	O	O
+of	739,741	O	O
+muscle	742,748	O	O
+activation	749,759	O	O
+patterns	760,768	O	O
+.	768,769	O	O
+
+Features	770,778	O	B-Process
+such	779,783	O	O
+as	784,786	O	O
+the	787,790	O	O
+TD	791,793	O	B-Process
+-	793,794	O	I-Process
+PSD	794,797	O	I-Process
+and	798,801	O	O
+the	802,805	O	O
+DFT	806,809	O	B-Process
+proved	810,816	O	O
+more	817,821	O	O
+successful	822,832	O	O
+than	833,837	O	O
+others	838,844	O	O
+in	845,847	O	O
+reducing	848,856	O	B-Task
+the	857,860	O	I-Task
+impact	861,867	O	I-Task
+of	868,870	O	I-Task
+the	871,874	O	I-Task
+two	875,878	O	I-Task
+dynamic	879,886	O	I-Task
+factors	887,894	O	I-Task
+that	895,899	O	O
+we	900,902	O	O
+considered	903,913	O	O
+in	914,916	O	O
+this	917,921	O	O
+paper	922,927	O	O
+.	927,928	O	O
+
+Such	929,933	O	O
+features	934,942	O	O
+can	943,946	O	O
+be	947,949	O	O
+readily	950,957	O	O
+implemented	958,969	O	O
+into	970,974	O	O
+a	975,976	O	O
+prosthesis	977,987	O	B-Process
+controller	988,998	O	I-Process
+for	999,1002	O	O
+real	1003,1007	O	B-Task
+-	1007,1008	O	I-Task
+time	1008,1012	O	I-Task
+control	1013,1020	O	I-Task
+,	1020,1021	O	O
+especially	1022,1032	O	O
+that	1033,1037	O	O
+the	1038,1041	O	O
+EMG	1042,1045	O	B-Process
+pattern	1046,1053	O	I-Process
+recognition	1054,1065	O	I-Process
+systems	1066,1073	O	I-Process
+are	1074,1077	O	O
+nowadays	1078,1086	O	O
+becoming	1087,1095	O	O
+available	1096,1105	O	O
+for	1106,1109	O	O
+clinical	1110,1118	O	B-Task
+testing	1119,1126	O	I-Task
+,	1126,1127	O	O
+e.g.	1128,1132	O	O
+the	1133,1136	O	O
+COAPT	1137,1142	O	B-Process
+complete	1143,1151	O	I-Process
+control	1152,1159	O	I-Process
+system	1160,1166	O	I-Process
+(	1167,1168	O	O
+Kuiken	1168,1174	O	O
+et	1175,1177	O	O
+al	1178,1180	O	O
+.	1180,1181	O	O
+,	1181,1182	O	O
+
+2014)11https://www.coaptengineering.com/.	1183,1224	O	O
 
 
 -DOCSTART- (S0957417416303773)
 
-In	0	2	O
-the	3	6	O
-recent	7	13	O
-years	14	19	O
-and	20	23	O
-mainly	24	30	O
-motivated	31	40	O
-by	41	43	O
-the	44	47	O
-impulse	48	55	O
-of	56	58	O
-data	59	63	B-Task
-mining	64	70	I-Task
-many	71	75	O
-methods	76	83	O
-for	84	87	O
-dimensionality	88	102	B-Task
-reduction	103	112	I-Task
-have	113	117	O
-arisen	118	124	O
-.	124	125	O
-
-Within	126	132	O
-these	133	138	O
-,	138	139	O
-it	140	142	O
-is	143	145	O
-worth	146	151	O
-highlighting	152	164	O
-the	165	168	O
-Principal	169	178	B-Material
-Component	179	188	I-Material
-Analysis	189	197	I-Material
-method	198	204	I-Material
-(	205	206	O
-PCA	206	209	B-Material
-)	209	210	O
-
-(	211	212	O
-Jolliffe	212	220	O
-,	220	221	O
-2002	222	226	O
-)	226	227	O
-.	227	228	O
-
-In	229	231	O
-an	232	234	O
-N	235	236	O
--	236	237	O
-dimensional	237	248	O
-vector	249	255	O
-space	256	261	O
-,	261	262	O
-the	263	266	B-Material
-simplest	267	275	I-Material
-version	276	283	I-Material
-of	284	286	I-Material
-PCA	287	290	I-Material
-(	291	292	O
-linear	292	298	B-Material
-PCA	299	302	I-Material
-)	302	303	O
-is	304	306	O
-a	307	308	O
-technique	309	318	O
-that	319	323	O
-finds	324	329	B-Process
-the	330	333	I-Process
-mutually	334	342	I-Process
--	342	343	I-Process
-uncorrelated	343	355	I-Process
-vectors	356	363	I-Process
-onto	364	368	O
-which	369	374	O
-the	375	378	B-Process
-projection	379	389	I-Process
-of	390	392	I-Process
-the	393	396	I-Process
-samples	397	404	I-Process
-generates	405	414	I-Process
-the	415	418	I-Process
-highest	419	426	I-Process
-variances	427	436	I-Process
-.	436	437	O
-
-The	438	441	O
-result	442	448	O
-is	449	451	O
-a	452	453	B-Material
-set	454	457	I-Material
-of	458	460	I-Material
-orthogonal	461	471	I-Material
-vectors	472	479	I-Material
-sorted	480	486	O
-in	487	489	O
-descending	490	500	O
-order	501	506	O
-of	507	509	O
-achieved	510	518	O
-variance	519	527	O
-.	527	528	O
-
-The	529	532	O
-first	533	538	O
-of	539	541	O
-these	542	547	O
-vectors	548	555	O
-is	556	558	O
-that	559	563	O
-onto	564	568	O
-which	569	574	O
-the	575	578	B-Process
-variance	579	587	I-Process
-of	588	590	I-Process
-the	591	594	I-Process
-projection	595	605	I-Process
-of	606	608	I-Process
-the	609	612	I-Process
-samples	613	620	I-Process
-is	621	623	I-Process
-maximum	624	631	I-Process
-.	631	632	O
-
-In	633	635	O
-this	636	640	O
-sense	641	646	O
-,	646	647	O
-the	648	651	O
-original	652	660	O
-KPIs	661	665	O
-constitute	666	676	O
-the	677	680	O
-N	681	682	B-Material
--	682	683	I-Material
-dimensional	683	694	I-Material
-vector	695	701	I-Material
-space	702	707	I-Material
-basis	708	713	I-Material
-,	713	714	O
-whereas	715	722	O
-the	723	726	O
-N^	727	729	B-Material
-synthetic	730	739	I-Material
-KPIs	740	744	I-Material
-represent	745	754	O
-the	755	758	O
-orthogonal	759	769	O
-vectors	770	777	O
-with	778	782	O
-the	783	786	O
-highest	787	794	O
-variance	795	803	O
-.	803	804	O
-
-To	805	807	O
-be	808	810	O
-rigorous	811	819	O
-,	819	820	O
-up	821	823	B-Task
-to	824	826	I-Task
-N	827	828	I-Task
-synthetic	829	838	I-Task
-orthogonal	839	849	I-Task
-KPIs	850	854	I-Task
-may	855	858	O
-be	859	861	O
-computed	862	870	O
-.	870	871	O
-
-However	872	879	O
-,	879	880	O
-only	881	885	O
-a	886	887	O
-small	888	893	O
-set	894	897	O
-of	898	900	O
-them	901	905	O
-,	905	906	O
-the	907	910	B-Material
-first	911	916	I-Material
-N^	917	919	I-Material
-,	919	920	O
-is	921	923	O
-enough	924	930	O
-to	931	933	O
-account	934	941	O
-for	942	945	O
-most	946	950	O
-of	951	953	O
-the	954	957	O
-variance	958	966	O
-of	967	969	O
-the	970	973	O
-data	974	978	O
-.	978	979	O
+In	0,2	O	O
+the	3,6	O	O
+recent	7,13	O	O
+years	14,19	O	O
+and	20,23	O	O
+mainly	24,30	O	O
+motivated	31,40	O	O
+by	41,43	O	O
+the	44,47	O	O
+impulse	48,55	O	O
+of	56,58	O	O
+data	59,63	O	B-Task
+mining	64,70	O	I-Task
+many	71,75	O	O
+methods	76,83	O	O
+for	84,87	O	O
+dimensionality	88,102	O	B-Task
+reduction	103,112	O	I-Task
+have	113,117	O	O
+arisen	118,124	O	O
+.	124,125	O	O
+
+Within	126,132	O	O
+these	133,138	O	O
+,	138,139	O	O
+it	140,142	O	O
+is	143,145	O	O
+worth	146,151	O	O
+highlighting	152,164	O	O
+the	165,168	O	O
+Principal	169,178	O	B-Material
+Component	179,188	O	I-Material
+Analysis	189,197	O	I-Material
+method	198,204	O	I-Material
+(	205,206	O	O
+PCA	206,209	O	B-Material
+)	209,210	O	O
+
+(	211,212	O	O
+Jolliffe	212,220	O	O
+,	220,221	O	O
+2002	222,226	O	O
+)	226,227	O	O
+.	227,228	O	O
+
+In	229,231	O	O
+an	232,234	O	O
+N	235,236	O	O
+-	236,237	O	O
+dimensional	237,248	O	O
+vector	249,255	O	O
+space	256,261	O	O
+,	261,262	O	O
+the	263,266	O	B-Material
+simplest	267,275	O	I-Material
+version	276,283	O	I-Material
+of	284,286	O	I-Material
+PCA	287,290	O	I-Material
+(	291,292	O	O
+linear	292,298	O	B-Material
+PCA	299,302	O	I-Material
+)	302,303	O	O
+is	304,306	O	O
+a	307,308	O	O
+technique	309,318	O	O
+that	319,323	O	O
+finds	324,329	O	B-Process
+the	330,333	O	I-Process
+mutually	334,342	O	I-Process
+-	342,343	O	I-Process
+uncorrelated	343,355	O	I-Process
+vectors	356,363	O	I-Process
+onto	364,368	O	O
+which	369,374	O	O
+the	375,378	O	B-Process
+projection	379,389	O	I-Process
+of	390,392	O	I-Process
+the	393,396	O	I-Process
+samples	397,404	O	I-Process
+generates	405,414	O	I-Process
+the	415,418	O	I-Process
+highest	419,426	O	I-Process
+variances	427,436	O	I-Process
+.	436,437	O	O
+
+The	438,441	O	O
+result	442,448	O	O
+is	449,451	O	O
+a	452,453	O	B-Material
+set	454,457	O	I-Material
+of	458,460	O	I-Material
+orthogonal	461,471	O	I-Material
+vectors	472,479	O	I-Material
+sorted	480,486	O	O
+in	487,489	O	O
+descending	490,500	O	O
+order	501,506	O	O
+of	507,509	O	O
+achieved	510,518	O	O
+variance	519,527	O	O
+.	527,528	O	O
+
+The	529,532	O	O
+first	533,538	O	O
+of	539,541	O	O
+these	542,547	O	O
+vectors	548,555	O	O
+is	556,558	O	O
+that	559,563	O	O
+onto	564,568	O	O
+which	569,574	O	O
+the	575,578	O	B-Process
+variance	579,587	O	I-Process
+of	588,590	O	I-Process
+the	591,594	O	I-Process
+projection	595,605	O	I-Process
+of	606,608	O	I-Process
+the	609,612	O	I-Process
+samples	613,620	O	I-Process
+is	621,623	O	I-Process
+maximum	624,631	O	I-Process
+.	631,632	O	O
+
+In	633,635	O	O
+this	636,640	O	O
+sense	641,646	O	O
+,	646,647	O	O
+the	648,651	O	O
+original	652,660	O	O
+KPIs	661,665	O	O
+constitute	666,676	O	O
+the	677,680	O	O
+N	681,682	O	B-Material
+-	682,683	O	I-Material
+dimensional	683,694	O	I-Material
+vector	695,701	O	I-Material
+space	702,707	O	I-Material
+basis	708,713	O	I-Material
+,	713,714	O	O
+whereas	715,722	O	O
+the	723,726	O	O
+N^	727,729	O	B-Material
+synthetic	730,739	O	I-Material
+KPIs	740,744	O	I-Material
+represent	745,754	O	O
+the	755,758	O	O
+orthogonal	759,769	O	O
+vectors	770,777	O	O
+with	778,782	O	O
+the	783,786	O	O
+highest	787,794	O	O
+variance	795,803	O	O
+.	803,804	O	O
+
+To	805,807	O	O
+be	808,810	O	O
+rigorous	811,819	O	O
+,	819,820	O	O
+up	821,823	O	B-Task
+to	824,826	O	I-Task
+N	827,828	O	I-Task
+synthetic	829,838	O	I-Task
+orthogonal	839,849	O	I-Task
+KPIs	850,854	O	I-Task
+may	855,858	O	O
+be	859,861	O	O
+computed	862,870	O	O
+.	870,871	O	O
+
+However	872,879	O	O
+,	879,880	O	O
+only	881,885	O	O
+a	886,887	O	O
+small	888,893	O	O
+set	894,897	O	O
+of	898,900	O	O
+them	901,905	O	O
+,	905,906	O	O
+the	907,910	O	B-Material
+first	911,916	O	I-Material
+N^	917,919	O	I-Material
+,	919,920	O	O
+is	921,923	O	O
+enough	924,930	O	O
+to	931,933	O	O
+account	934,941	O	O
+for	942,945	O	O
+most	946,950	O	O
+of	951,953	O	O
+the	954,957	O	O
+variance	958,966	O	O
+of	967,969	O	O
+the	970,973	O	O
+data	974,978	O	O
+.	978,979	O	O
 
 
 -DOCSTART- (S0963869514000863)
 
-EM	0	2	B-Material
-sensors	3	10	I-Material
-exploit	11	18	O
-the	19	22	O
-difference	23	33	B-Task
-in	34	36	I-Task
-magnetic	37	45	I-Task
-properties	46	56	I-Task
-,	56	57	O
-such	58	62	O
-as	63	65	O
-relative	66	74	B-Task
-permeability	75	87	I-Task
-,	87	88	O
-and	89	92	O
-electrical	93	103	B-Task
-conductivity	104	116	I-Task
-between	117	124	O
-samples	125	132	O
-with	133	137	O
-different	138	147	O
-microstructural	148	163	B-Task
-phase	164	169	I-Task
-balances	170	178	I-Task
-.	178	179	O
-
-In	180	182	O
-ferromagnetic	183	196	B-Material
-steels	197	203	I-Material
-,	203	204	O
-the	205	208	O
-change	209	215	O
-in	216	218	O
-relative	219	227	B-Task
-permeability	228	240	I-Task
-has	241	244	O
-a	245	246	O
-significant	247	258	O
-effect	259	265	O
-.	265	266	O
-
-Previously	267	277	O
-,	277	278	O
-multi	279	284	B-Material
--	284	285	I-Material
-frequency	285	294	I-Material
-EM	295	297	I-Material
-sensors	298	305	I-Material
-have	306	310	O
-been	311	315	O
-shown	316	321	O
-to	322	324	O
-be	325	327	O
-able	328	332	O
-to	333	335	O
-measure	336	343	O
-austenite	344	353	O
-/	353	354	O
-ferrite	354	361	O
-fraction	362	370	O
-from	371	375	O
-0	376	377	O
-%	377	378	O
-to	379	381	O
-100	382	385	O
-%	385	386	O
-in	387	389	O
-model	390	395	O
-(	396	397	O
-HIPped	397	403	O
-austenitic	404	414	O
-/	414	415	O
-ferritc	415	422	O
-stainless	423	432	B-Material
-steel	433	438	I-Material
-powder	439	445	I-Material
-)	445	446	O
-alloys	447	453	O
-[	454	455	O
-7,8	455	458	O
-]	458	459	O
-.	459	460	O
-
-The	461	464	O
-large	465	470	O
-difference	471	481	B-Process
-in	482	484	I-Process
-magnetic	485	493	I-Process
-properties	494	504	I-Process
-of	505	507	O
-ferrite	508	515	B-Process
-(	516	517	O
-ferromagnetic	517	530	B-Process
-)	530	531	O
-and	532	535	O
-austenite	536	545	B-Process
-(	546	547	O
-paramagnetic	547	559	B-Process
-)	559	560	O
-phases	561	567	O
-makes	568	573	O
-the	574	577	O
-change	578	584	O
-in	585	587	O
-signal	588	594	O
-large	595	600	O
-and	601	604	O
-hence	605	610	O
-relatively	611	621	O
-easy	622	626	O
-to	627	629	O
-measure	630	637	O
-.	637	638	O
-
-EM	639	641	B-Material
-sensors	642	649	I-Material
-have	650	654	O
-also	655	659	O
-measured	660	668	O
-the	669	672	O
-levels	673	679	O
-of	680	682	O
-decarburisation	683	698	B-Task
-(	699	700	O
-variation	700	709	B-Task
-in	710	712	I-Task
-ferrite	713	720	I-Task
-content	721	728	I-Task
-with	729	733	I-Task
-depth	734	739	I-Task
-)	739	740	O
-in	741	743	O
-steel	744	749	B-Material
-rod	750	753	I-Material
-[	754	755	O
-9,10	755	759	O
-]	759	760	O
-.	760	761	O
-
-The	762	765	O
-approach	766	774	O
-adopted	775	782	O
-to	783	785	O
-relate	786	792	O
-the	793	796	O
-overall	797	804	O
-steel	805	810	B-Material
-EM	811	813	B-Process
-sensor	814	820	I-Process
-signal	821	827	I-Process
-to	828	830	O
-its	831	834	O
-microstructure	835	849	O
-has	850	853	O
-been	854	858	O
-to	859	861	O
-construct	862	871	O
-a	872	873	O
-finite	874	880	B-Process
-element	881	888	I-Process
-(	889	890	O
-FE	890	892	B-Process
-)	892	893	O
-model	894	899	O
-for	900	903	O
-the	904	907	O
-microstructure	908	922	O
-(	923	924	O
-phase	924	929	O
-,	929	930	O
-region	931	937	O
-size	938	942	O
-and	943	946	O
-distribution	947	959	O
-)	959	960	O
-.	960	961	O
-
-The	962	965	O
-EM	966	968	B-Process
-properties	969	979	I-Process
-of	980	982	I-Process
-the	983	986	I-Process
-individual	987	997	I-Process
-phases	998	1004	I-Process
-are	1005	1008	O
-assigned	1009	1017	O
-to	1018	1020	O
-those	1021	1026	O
-regions	1027	1034	O
-to	1035	1037	O
-give	1038	1042	O
-the	1043	1046	O
-overall	1047	1054	B-Process
-EM	1055	1057	I-Process
-properties	1058	1068	I-Process
-of	1069	1071	O
-the	1072	1075	O
-steel	1076	1081	B-Material
-.	1081	1082	O
-
-Within	1083	1089	O
-the	1090	1093	O
-model	1094	1099	O
-the	1100	1103	O
-particular	1104	1114	B-Process
-sensor	1115	1121	I-Process
-geometry	1122	1130	I-Process
-is	1131	1133	O
-included	1134	1142	O
-(	1143	1144	O
-e.g.	1144	1148	O
-two	1149	1152	O
--	1152	1153	O
-dimensional	1153	1164	O
-axisymmetric	1165	1177	O
-for	1178	1181	O
-a	1182	1183	O
-cylindrical	1184	1195	B-Material
-sample	1196	1202	I-Material
-and	1203	1206	O
-tubular	1207	1214	B-Material
-sensor	1215	1221	I-Material
-[	1222	1223	O
-10	1223	1225	O
-]	1225	1226	O
-)	1226	1227	O
-and	1228	1231	O
-the	1232	1235	O
-interaction	1236	1247	O
-with	1248	1252	O
-the	1253	1256	O
-steel	1257	1262	B-Material
-and	1263	1266	O
-any	1267	1270	O
-external	1271	1279	B-Material
-circuits	1280	1288	I-Material
-predicted	1289	1298	O
-.	1298	1299	O
-
-In	1300	1302	O
-this	1303	1307	O
-way	1308	1311	O
-different	1312	1321	O
-microstructures	1322	1337	B-Material
-and	1338	1341	O
-sensor	1342	1348	B-Material
-designs	1349	1356	O
-can	1357	1360	O
-be	1361	1363	O
-compared	1364	1372	O
-.	1372	1373	O
+EM	0,2	O	B-Material
+sensors	3,10	O	I-Material
+exploit	11,18	O	O
+the	19,22	O	O
+difference	23,33	O	B-Task
+in	34,36	O	I-Task
+magnetic	37,45	O	I-Task
+properties	46,56	O	I-Task
+,	56,57	O	O
+such	58,62	O	O
+as	63,65	O	O
+relative	66,74	O	B-Task
+permeability	75,87	O	I-Task
+,	87,88	O	O
+and	89,92	O	O
+electrical	93,103	O	B-Task
+conductivity	104,116	O	I-Task
+between	117,124	O	O
+samples	125,132	O	O
+with	133,137	O	O
+different	138,147	O	O
+microstructural	148,163	O	B-Task
+phase	164,169	O	I-Task
+balances	170,178	O	I-Task
+.	178,179	O	O
+
+In	180,182	O	O
+ferromagnetic	183,196	O	B-Material
+steels	197,203	O	I-Material
+,	203,204	O	O
+the	205,208	O	O
+change	209,215	O	O
+in	216,218	O	O
+relative	219,227	O	B-Task
+permeability	228,240	O	I-Task
+has	241,244	O	O
+a	245,246	O	O
+significant	247,258	O	O
+effect	259,265	O	O
+.	265,266	O	O
+
+Previously	267,277	O	O
+,	277,278	O	O
+multi	279,284	O	B-Material
+-	284,285	O	I-Material
+frequency	285,294	O	I-Material
+EM	295,297	O	I-Material
+sensors	298,305	O	I-Material
+have	306,310	O	O
+been	311,315	O	O
+shown	316,321	O	O
+to	322,324	O	O
+be	325,327	O	O
+able	328,332	O	O
+to	333,335	O	O
+measure	336,343	O	O
+austenite	344,353	O	O
+/	353,354	O	O
+ferrite	354,361	O	O
+fraction	362,370	O	O
+from	371,375	O	O
+0	376,377	O	O
+%	377,378	O	O
+to	379,381	O	O
+100	382,385	O	O
+%	385,386	O	O
+in	387,389	O	O
+model	390,395	O	O
+(	396,397	O	O
+HIPped	397,403	O	O
+austenitic	404,414	O	O
+/	414,415	O	O
+ferritc	415,422	O	O
+stainless	423,432	O	B-Material
+steel	433,438	O	I-Material
+powder	439,445	O	I-Material
+)	445,446	O	O
+alloys	447,453	O	O
+[	454,455	O	O
+7,8	455,458	O	O
+]	458,459	O	O
+.	459,460	O	O
+
+The	461,464	O	O
+large	465,470	O	O
+difference	471,481	O	B-Process
+in	482,484	O	I-Process
+magnetic	485,493	O	I-Process
+properties	494,504	O	I-Process
+of	505,507	O	O
+ferrite	508,515	O	B-Process
+(	516,517	O	O
+ferromagnetic	517,530	O	B-Process
+)	530,531	O	O
+and	532,535	O	O
+austenite	536,545	O	B-Process
+(	546,547	O	O
+paramagnetic	547,559	O	B-Process
+)	559,560	O	O
+phases	561,567	O	O
+makes	568,573	O	O
+the	574,577	O	O
+change	578,584	O	O
+in	585,587	O	O
+signal	588,594	O	O
+large	595,600	O	O
+and	601,604	O	O
+hence	605,610	O	O
+relatively	611,621	O	O
+easy	622,626	O	O
+to	627,629	O	O
+measure	630,637	O	O
+.	637,638	O	O
+
+EM	639,641	O	B-Material
+sensors	642,649	O	I-Material
+have	650,654	O	O
+also	655,659	O	O
+measured	660,668	O	O
+the	669,672	O	O
+levels	673,679	O	O
+of	680,682	O	O
+decarburisation	683,698	O	B-Task
+(	699,700	O	O
+variation	700,709	O	B-Task
+in	710,712	O	I-Task
+ferrite	713,720	O	I-Task
+content	721,728	O	I-Task
+with	729,733	O	I-Task
+depth	734,739	O	I-Task
+)	739,740	O	O
+in	741,743	O	O
+steel	744,749	O	B-Material
+rod	750,753	O	I-Material
+[	754,755	O	O
+9,10	755,759	O	O
+]	759,760	O	O
+.	760,761	O	O
+
+The	762,765	O	O
+approach	766,774	O	O
+adopted	775,782	O	O
+to	783,785	O	O
+relate	786,792	O	O
+the	793,796	O	O
+overall	797,804	O	O
+steel	805,810	O	B-Material
+EM	811,813	O	B-Process
+sensor	814,820	O	I-Process
+signal	821,827	O	I-Process
+to	828,830	O	O
+its	831,834	O	O
+microstructure	835,849	O	O
+has	850,853	O	O
+been	854,858	O	O
+to	859,861	O	O
+construct	862,871	O	O
+a	872,873	O	O
+finite	874,880	O	B-Process
+element	881,888	O	I-Process
+(	889,890	O	O
+FE	890,892	O	B-Process
+)	892,893	O	O
+model	894,899	O	O
+for	900,903	O	O
+the	904,907	O	O
+microstructure	908,922	O	O
+(	923,924	O	O
+phase	924,929	O	O
+,	929,930	O	O
+region	931,937	O	O
+size	938,942	O	O
+and	943,946	O	O
+distribution	947,959	O	O
+)	959,960	O	O
+.	960,961	O	O
+
+The	962,965	O	O
+EM	966,968	O	B-Process
+properties	969,979	O	I-Process
+of	980,982	O	I-Process
+the	983,986	O	I-Process
+individual	987,997	O	I-Process
+phases	998,1004	O	I-Process
+are	1005,1008	O	O
+assigned	1009,1017	O	O
+to	1018,1020	O	O
+those	1021,1026	O	O
+regions	1027,1034	O	O
+to	1035,1037	O	O
+give	1038,1042	O	O
+the	1043,1046	O	O
+overall	1047,1054	O	B-Process
+EM	1055,1057	O	I-Process
+properties	1058,1068	O	I-Process
+of	1069,1071	O	O
+the	1072,1075	O	O
+steel	1076,1081	O	B-Material
+.	1081,1082	O	O
+
+Within	1083,1089	O	O
+the	1090,1093	O	O
+model	1094,1099	O	O
+the	1100,1103	O	O
+particular	1104,1114	O	B-Process
+sensor	1115,1121	O	I-Process
+geometry	1122,1130	O	I-Process
+is	1131,1133	O	O
+included	1134,1142	O	O
+(	1143,1144	O	O
+e.g.	1144,1148	O	O
+two	1149,1152	O	O
+-	1152,1153	O	O
+dimensional	1153,1164	O	O
+axisymmetric	1165,1177	O	O
+for	1178,1181	O	O
+a	1182,1183	O	O
+cylindrical	1184,1195	O	B-Material
+sample	1196,1202	O	I-Material
+and	1203,1206	O	O
+tubular	1207,1214	O	B-Material
+sensor	1215,1221	O	I-Material
+[	1222,1223	O	O
+10	1223,1225	O	O
+]	1225,1226	O	O
+)	1226,1227	O	O
+and	1228,1231	O	O
+the	1232,1235	O	O
+interaction	1236,1247	O	O
+with	1248,1252	O	O
+the	1253,1256	O	O
+steel	1257,1262	O	B-Material
+and	1263,1266	O	O
+any	1267,1270	O	O
+external	1271,1279	O	B-Material
+circuits	1280,1288	O	I-Material
+predicted	1289,1298	O	O
+.	1298,1299	O	O
+
+In	1300,1302	O	O
+this	1303,1307	O	O
+way	1308,1311	O	O
+different	1312,1321	O	O
+microstructures	1322,1337	O	B-Material
+and	1338,1341	O	O
+sensor	1342,1348	O	B-Material
+designs	1349,1356	O	O
+can	1357,1360	O	O
+be	1361,1363	O	O
+compared	1364,1372	O	O
+.	1372,1373	O	O
 
 
 -DOCSTART- (S0997754612001318)
 
-Many	0	4	O
-applications	5	17	O
-in	18	20	O
-fluid	21	26	B-Task
-mechanics	27	36	I-Task
-have	37	41	O
-shown	42	47	O
-that	48	52	O
-surface	53	60	B-Process
-suction	61	68	I-Process
-can	69	72	O
-be	73	75	O
-used	76	80	O
-as	81	83	O
-an	84	86	O
-effective	87	96	O
-flow	97	101	B-Process
--	101	102	I-Process
-control	102	109	I-Process
-mechanism	110	119	I-Process
-.	119	120	O
-
-For	121	124	O
-example	125	132	O
-,	132	133	O
-Gregory	134	141	O
-and	142	145	O
-Walker	146	152	O
-[	153	154	O
-1	154	155	O
-]	155	156	O
-discuss	157	164	O
-how	165	168	O
-the	169	172	O
-introduction	173	185	O
-of	186	188	O
-suction	189	196	O
-extends	197	204	O
-the	205	208	O
-laminar	209	216	O
--	216	217	O
-flow	217	221	O
-region	222	228	O
-over	229	233	O
-a	234	235	O
-swept	236	241	B-Material
-wing	242	246	I-Material
-by	247	249	O
-reducing	250	258	B-Task
-the	259	262	I-Task
-thickness	263	272	I-Task
-of	273	275	I-Task
-the	276	279	I-Task
-boundary	280	288	I-Task
-layer	289	294	I-Task
-and	295	298	I-Task
-the	299	302	I-Task
-magnitude	303	312	I-Task
-of	313	315	I-Task
-crossflow	316	325	I-Task
-velocity	326	334	I-Task
-.	334	335	O
-
-Conclusions	336	347	O
-for	348	351	O
-the	352	355	O
-swept	356	361	B-Process
--	361	362	I-Process
-wing	362	366	I-Process
-flow	367	371	I-Process
-arose	372	377	O
-from	378	382	O
-equivalent	383	393	O
-studies	394	401	O
-of	402	404	O
-the	405	408	O
-von	409	412	O
-Kármán	413	419	O
-(	420	421	O
-rotating	421	429	B-Material
-disk	430	434	I-Material
-)	434	435	O
-flow	436	440	O
-(	441	442	O
-see	442	445	O
-Gregory	446	453	O
-and	454	457	O
-Walker	458	464	O
-[	465	466	O
-2	466	467	O
-]	467	468	O
-,	468	469	O
-Stuart	470	476	O
-[	477	478	O
-3	478	479	O
-]	479	480	O
-)	480	481	O
-and	482	485	O
-work	486	490	O
-has	491	494	O
-since	495	500	O
-continued	501	510	O
-into	511	515	O
-this	516	520	O
-and	521	524	O
-related	525	532	O
-flows	533	538	O
-using	539	544	O
-numerical	545	554	B-Process
-and	555	558	I-Process
-asymptotic	559	569	I-Process
-approaches	570	580	I-Process
-(	581	582	O
-see	582	585	O
-Ockendon	586	594	O
-[	595	596	O
-4	596	597	O
-]	597	598	O
-,	598	599	O
-Dhanak	600	606	O
-[	607	608	O
-5	608	609	O
-]	609	610	O
-,	610	611	O
-Bassom	612	618	O
-and	619	622	O
-Seddougui	623	632	O
-[	633	634	O
-6	634	635	O
-]	635	636	O
-,	636	637	O
-Lingwood	638	646	O
-[	647	648	O
-7	648	649	O
-]	649	650	O
-,	650	651	O
-Turkyilmazoglu	652	666	O
-[	667	668	O
-8	668	669	O
-]	669	670	O
-,	670	671	O
-Lingwood	672	680	O
-and	681	684	O
-Garrett	685	692	O
-[	693	694	O
-9	694	695	O
-]	695	696	O
-,	696	697	O
-for	698	701	O
-example	702	709	O
-)	709	710	O
-.	710	711	O
-
-The	712	715	O
-literature	716	726	O
-shows	727	732	O
-that	733	737	O
-increasing	738	748	B-Process
-suction	749	756	I-Process
-has	757	760	O
-a	761	762	O
-stabilising	763	774	O
-effect	775	781	O
-on	782	784	O
-the	785	788	O
-general	789	796	O
-class	797	802	O
-of	803	805	O
-“	806	807	B-Process
-Bödewadt	807	815	I-Process
-,	815	816	I-Process
-Ekman	817	822	I-Process
-and	823	826	I-Process
-von	827	830	I-Process
-Kármán	831	837	I-Process
-”	837	838	I-Process
-(	839	840	I-Process
-BEK	840	843	I-Process
-)	843	844	I-Process
-flows	845	850	I-Process
-which	851	856	O
-results	857	864	O
-in	865	867	O
-an	868	870	O
-increase	871	879	B-Process
-in	880	882	I-Process
-critical	883	891	I-Process
-Reynolds	892	900	I-Process
-numbers	901	908	I-Process
-for	909	912	O
-the	913	916	O
-onset	917	922	O
-of	923	925	O
-convective	926	936	O
-and	937	940	O
-absolute	941	949	O
-instabilities	950	963	O
-,	963	964	O
-a	965	966	O
-narrowing	967	976	B-Process
-in	977	979	I-Process
-the	980	983	I-Process
-range	984	989	I-Process
-of	990	992	I-Process
-unstable	993	1001	I-Process
-parameters	1002	1012	I-Process
-and	1013	1016	O
-a	1017	1018	O
-decrease	1019	1027	B-Process
-in	1028	1030	I-Process
-amplification	1031	1044	I-Process
-rates	1045	1050	I-Process
-of	1051	1053	O
-the	1054	1057	O
-unstable	1058	1066	O
-convective	1067	1077	O
-modes	1078	1083	O
-.	1083	1084	O
-
-The	1085	1088	O
-convective	1089	1099	B-Process
-instability	1100	1111	I-Process
-results	1112	1119	O
-are	1120	1123	O
-interpreted	1124	1135	O
-in	1136	1138	O
-terms	1139	1144	O
-of	1145	1147	O
-a	1148	1149	O
-delay	1150	1155	O
-in	1156	1158	O
-the	1159	1162	O
-onset	1163	1168	O
-of	1169	1171	O
-spiral	1172	1178	B-Material
-vortices	1179	1187	I-Material
-,	1187	1188	O
-and	1189	1192	O
-the	1193	1196	O
-absolute	1197	1205	B-Process
-instability	1206	1217	I-Process
-results	1218	1225	O
-in	1226	1228	O
-terms	1229	1234	O
-of	1235	1237	O
-the	1238	1241	O
-onset	1242	1247	O
-of	1248	1250	O
-laminar	1251	1258	B-Process
--	1258	1259	I-Process
-turbulent	1259	1268	I-Process
-transition	1269	1279	I-Process
-(	1280	1281	O
-Lingwood	1281	1289	O
-[	1290	1291	O
-7,10,11	1291	1298	O
-]	1298	1299	O
-)	1299	1300	O
-.	1300	1301	O
+Many	0,4	O	O
+applications	5,17	O	O
+in	18,20	O	O
+fluid	21,26	O	B-Task
+mechanics	27,36	O	I-Task
+have	37,41	O	O
+shown	42,47	O	O
+that	48,52	O	O
+surface	53,60	O	B-Process
+suction	61,68	O	I-Process
+can	69,72	O	O
+be	73,75	O	O
+used	76,80	O	O
+as	81,83	O	O
+an	84,86	O	O
+effective	87,96	O	O
+flow	97,101	O	B-Process
+-	101,102	O	I-Process
+control	102,109	O	I-Process
+mechanism	110,119	O	I-Process
+.	119,120	O	O
+
+For	121,124	O	O
+example	125,132	O	O
+,	132,133	O	O
+Gregory	134,141	O	O
+and	142,145	O	O
+Walker	146,152	O	O
+[	153,154	O	O
+1	154,155	O	O
+]	155,156	O	O
+discuss	157,164	O	O
+how	165,168	O	O
+the	169,172	O	O
+introduction	173,185	O	O
+of	186,188	O	O
+suction	189,196	O	O
+extends	197,204	O	O
+the	205,208	O	O
+laminar	209,216	O	O
+-	216,217	O	O
+flow	217,221	O	O
+region	222,228	O	O
+over	229,233	O	O
+a	234,235	O	O
+swept	236,241	O	B-Material
+wing	242,246	O	I-Material
+by	247,249	O	O
+reducing	250,258	O	B-Task
+the	259,262	O	I-Task
+thickness	263,272	O	I-Task
+of	273,275	O	I-Task
+the	276,279	O	I-Task
+boundary	280,288	O	I-Task
+layer	289,294	O	I-Task
+and	295,298	O	I-Task
+the	299,302	O	I-Task
+magnitude	303,312	O	I-Task
+of	313,315	O	I-Task
+crossflow	316,325	O	I-Task
+velocity	326,334	O	I-Task
+.	334,335	O	O
+
+Conclusions	336,347	O	O
+for	348,351	O	O
+the	352,355	O	O
+swept	356,361	O	B-Process
+-	361,362	O	I-Process
+wing	362,366	O	I-Process
+flow	367,371	O	I-Process
+arose	372,377	O	O
+from	378,382	O	O
+equivalent	383,393	O	O
+studies	394,401	O	O
+of	402,404	O	O
+the	405,408	O	O
+von	409,412	O	O
+Kármán	413,419	O	O
+(	420,421	O	O
+rotating	421,429	O	B-Material
+disk	430,434	O	I-Material
+)	434,435	O	O
+flow	436,440	O	O
+(	441,442	O	O
+see	442,445	O	O
+Gregory	446,453	O	O
+and	454,457	O	O
+Walker	458,464	O	O
+[	465,466	O	O
+2	466,467	O	O
+]	467,468	O	O
+,	468,469	O	O
+Stuart	470,476	O	O
+[	477,478	O	O
+3	478,479	O	O
+]	479,480	O	O
+)	480,481	O	O
+and	482,485	O	O
+work	486,490	O	O
+has	491,494	O	O
+since	495,500	O	O
+continued	501,510	O	O
+into	511,515	O	O
+this	516,520	O	O
+and	521,524	O	O
+related	525,532	O	O
+flows	533,538	O	O
+using	539,544	O	O
+numerical	545,554	O	B-Process
+and	555,558	O	I-Process
+asymptotic	559,569	O	I-Process
+approaches	570,580	O	I-Process
+(	581,582	O	O
+see	582,585	O	O
+Ockendon	586,594	O	O
+[	595,596	O	O
+4	596,597	O	O
+]	597,598	O	O
+,	598,599	O	O
+Dhanak	600,606	O	O
+[	607,608	O	O
+5	608,609	O	O
+]	609,610	O	O
+,	610,611	O	O
+Bassom	612,618	O	O
+and	619,622	O	O
+Seddougui	623,632	O	O
+[	633,634	O	O
+6	634,635	O	O
+]	635,636	O	O
+,	636,637	O	O
+Lingwood	638,646	O	O
+[	647,648	O	O
+7	648,649	O	O
+]	649,650	O	O
+,	650,651	O	O
+Turkyilmazoglu	652,666	O	O
+[	667,668	O	O
+8	668,669	O	O
+]	669,670	O	O
+,	670,671	O	O
+Lingwood	672,680	O	O
+and	681,684	O	O
+Garrett	685,692	O	O
+[	693,694	O	O
+9	694,695	O	O
+]	695,696	O	O
+,	696,697	O	O
+for	698,701	O	O
+example	702,709	O	O
+)	709,710	O	O
+.	710,711	O	O
+
+The	712,715	O	O
+literature	716,726	O	O
+shows	727,732	O	O
+that	733,737	O	O
+increasing	738,748	O	B-Process
+suction	749,756	O	I-Process
+has	757,760	O	O
+a	761,762	O	O
+stabilising	763,774	O	O
+effect	775,781	O	O
+on	782,784	O	O
+the	785,788	O	O
+general	789,796	O	O
+class	797,802	O	O
+of	803,805	O	O
+“	806,807	O	B-Process
+Bödewadt	807,815	O	I-Process
+,	815,816	O	I-Process
+Ekman	817,822	O	I-Process
+and	823,826	O	I-Process
+von	827,830	O	I-Process
+Kármán	831,837	O	I-Process
+”	837,838	O	I-Process
+(	839,840	O	I-Process
+BEK	840,843	O	I-Process
+)	843,844	O	I-Process
+flows	845,850	O	I-Process
+which	851,856	O	O
+results	857,864	O	O
+in	865,867	O	O
+an	868,870	O	O
+increase	871,879	O	B-Process
+in	880,882	O	I-Process
+critical	883,891	O	I-Process
+Reynolds	892,900	O	I-Process
+numbers	901,908	O	I-Process
+for	909,912	O	O
+the	913,916	O	O
+onset	917,922	O	O
+of	923,925	O	O
+convective	926,936	O	O
+and	937,940	O	O
+absolute	941,949	O	O
+instabilities	950,963	O	O
+,	963,964	O	O
+a	965,966	O	O
+narrowing	967,976	O	B-Process
+in	977,979	O	I-Process
+the	980,983	O	I-Process
+range	984,989	O	I-Process
+of	990,992	O	I-Process
+unstable	993,1001	O	I-Process
+parameters	1002,1012	O	I-Process
+and	1013,1016	O	O
+a	1017,1018	O	O
+decrease	1019,1027	O	B-Process
+in	1028,1030	O	I-Process
+amplification	1031,1044	O	I-Process
+rates	1045,1050	O	I-Process
+of	1051,1053	O	O
+the	1054,1057	O	O
+unstable	1058,1066	O	O
+convective	1067,1077	O	O
+modes	1078,1083	O	O
+.	1083,1084	O	O
+
+The	1085,1088	O	O
+convective	1089,1099	O	B-Process
+instability	1100,1111	O	I-Process
+results	1112,1119	O	O
+are	1120,1123	O	O
+interpreted	1124,1135	O	O
+in	1136,1138	O	O
+terms	1139,1144	O	O
+of	1145,1147	O	O
+a	1148,1149	O	O
+delay	1150,1155	O	O
+in	1156,1158	O	O
+the	1159,1162	O	O
+onset	1163,1168	O	O
+of	1169,1171	O	O
+spiral	1172,1178	O	B-Material
+vortices	1179,1187	O	I-Material
+,	1187,1188	O	O
+and	1189,1192	O	O
+the	1193,1196	O	O
+absolute	1197,1205	O	B-Process
+instability	1206,1217	O	I-Process
+results	1218,1225	O	O
+in	1226,1228	O	O
+terms	1229,1234	O	O
+of	1235,1237	O	O
+the	1238,1241	O	O
+onset	1242,1247	O	O
+of	1248,1250	O	O
+laminar	1251,1258	O	B-Process
+-	1258,1259	O	I-Process
+turbulent	1259,1268	O	I-Process
+transition	1269,1279	O	I-Process
+(	1280,1281	O	O
+Lingwood	1281,1289	O	O
+[	1290,1291	O	O
+7,10,11	1291,1298	O	O
+]	1298,1299	O	O
+)	1299,1300	O	O
+.	1300,1301	O	O
 
 
 -DOCSTART- (S1071581916300854)
 
-We	0	2	O
-have	3	7	O
-developed	8	17	O
-a	18	19	O
-systematic	20	30	O
-,	30	31	O
-quantified	32	42	O
-understanding	43	56	O
-of	57	59	O
-a	60	61	O
-specific	62	70	O
-problem	71	78	O
-:	78	79	O
-the	80	83	O
-design	84	90	B-Task
-of	91	93	I-Task
-mobile	94	100	I-Task
--	100	101	I-Task
-friendly	101	109	I-Task
-unique	110	116	I-Task
-identifiers	117	128	I-Task
-.	128	129	O
-
-But	130	133	O
-our	134	137	O
-results	138	145	O
-also	146	150	O
-apply	151	156	O
-to	157	159	O
-the	160	163	O
-design	164	170	B-Task
-of	171	173	I-Task
-other	174	179	I-Task
-text	180	184	I-Task
--	184	185	I-Task
-based	185	190	I-Task
-services	191	199	I-Task
-.	199	200	O
-
-There	201	206	O
-has	207	210	O
-been	211	215	O
-a	216	217	O
-trend	218	223	O
-toward	224	230	O
-bespoke	231	238	B-Material
-and	239	242	I-Material
-adaptive	243	251	I-Material
-keyboards	252	261	I-Material
-(	262	263	O
-e.g.	263	267	O
-,	267	268	O
-Dunlop	269	275	O
-and	276	279	O
-Levine	280	286	O
-,	286	287	O
-2012	288	292	O
-;	292	293	O
-Karrenbauer	294	305	O
-and	306	309	O
-Oulasvirta	310	320	O
-,	320	321	O
-2014	322	326	O
-;	326	327	O
-Leiva	328	333	O
-et	334	336	O
-al	337	339	O
-.	339	340	O
-,	340	341	O
-2015	342	346	O
-;	346	347	O
-Wiseman	348	355	O
-et	356	358	O
-al	359	361	O
-.	361	362	O
-,	362	363	O
-2013	364	368	O
-)	368	369	O
-.	369	370	O
-
-More	371	375	O
-often	376	381	O
-than	382	386	O
-not	387	390	O
-,	390	391	O
-though	392	398	O
-,	398	399	O
-input	400	405	B-Material
-devices	406	413	I-Material
-are	414	417	O
-a	418	419	O
-fixed	420	425	O
-constraint	426	436	O
-in	437	439	O
-the	440	443	O
-design	444	450	B-Task
-of	451	453	I-Task
-a	454	455	I-Task
-service	456	463	I-Task
-.	463	464	O
-
-Most	465	469	O
-users	470	475	O
-are	476	479	O
-typing	480	486	O
-on	487	489	O
-the	490	493	O
-keyboard	494	502	O
-that	503	507	O
-came	508	512	O
-with	513	517	O
-their	518	523	O
-phone	524	529	O
-.	529	530	O
-
-Those	531	536	O
-keyboards	537	546	O
-have	547	551	O
-advantages	552	562	O
-,	562	563	O
-limitations	564	575	O
-and	576	579	O
-quirks	580	586	O
-.	586	587	O
-
-The	588	591	O
-mode	592	596	B-Process
--	596	597	I-Process
-switching	597	606	I-Process
-that	607	611	O
-most	612	616	O
-touchscreen	617	628	O
-keyboards	629	638	O
-require	639	646	O
-to	647	649	O
-reach	650	655	O
-numbers	656	663	O
-and	664	667	O
-capital	668	675	O
-letters	676	683	O
-is	684	686	O
-at	687	689	O
-the	690	693	O
-root	694	698	O
-of	699	701	O
-design	702	708	O
-improvements	709	721	O
-we	722	724	O
-propose	725	732	O
-in	733	735	O
-this	736	740	O
-paper	741	746	O
-.	746	747	O
-
-When	748	752	O
-designing	753	762	B-Task
-services	763	771	I-Task
-,	771	772	O
-it	773	775	O
-is	776	778	O
-vital	779	784	O
-to	785	787	O
-be	788	790	O
-aware	791	796	O
-of	797	799	O
-the	800	803	O
-fixed	804	809	O
-constraints	810	821	O
-of	822	824	O
-a	825	826	O
-system	827	833	O
-and	834	837	O
-to	838	840	O
-then	841	845	O
-focus	846	851	O
-on	852	854	O
-the	855	858	O
-aspects	859	866	O
-of	867	869	O
-a	870	871	O
-service	872	879	O
-'s	879	881	O
-design	882	888	O
-that	889	893	O
-can	894	897	O
-be	898	900	O
-controlled	901	911	O
-.	911	912	O
-
-Making	913	919	O
-changes	920	927	O
-to	928	930	O
-input	931	936	O
-data	937	941	O
-in	942	944	O
-this	945	949	O
-way	950	953	O
-is	954	956	O
-a	957	958	O
-cheap	959	964	O
-,	964	965	O
-quick	966	971	O
-and	972	975	O
-easy	976	980	O
-way	981	984	O
-to	985	987	O
-improve	988	995	O
-user	996	1000	O
-experience	1001	1011	O
-.	1011	1012	O
+We	0,2	O	O
+have	3,7	O	O
+developed	8,17	O	O
+a	18,19	O	O
+systematic	20,30	O	O
+,	30,31	O	O
+quantified	32,42	O	O
+understanding	43,56	O	O
+of	57,59	O	O
+a	60,61	O	O
+specific	62,70	O	O
+problem	71,78	O	O
+:	78,79	O	O
+the	80,83	O	O
+design	84,90	O	B-Task
+of	91,93	O	I-Task
+mobile	94,100	O	I-Task
+-	100,101	O	I-Task
+friendly	101,109	O	I-Task
+unique	110,116	O	I-Task
+identifiers	117,128	O	I-Task
+.	128,129	O	O
+
+But	130,133	O	O
+our	134,137	O	O
+results	138,145	O	O
+also	146,150	O	O
+apply	151,156	O	O
+to	157,159	O	O
+the	160,163	O	O
+design	164,170	O	B-Task
+of	171,173	O	I-Task
+other	174,179	O	I-Task
+text	180,184	O	I-Task
+-	184,185	O	I-Task
+based	185,190	O	I-Task
+services	191,199	O	I-Task
+.	199,200	O	O
+
+There	201,206	O	O
+has	207,210	O	O
+been	211,215	O	O
+a	216,217	O	O
+trend	218,223	O	O
+toward	224,230	O	O
+bespoke	231,238	O	B-Material
+and	239,242	O	I-Material
+adaptive	243,251	O	I-Material
+keyboards	252,261	O	I-Material
+(	262,263	O	O
+e.g.	263,267	O	O
+,	267,268	O	O
+Dunlop	269,275	O	O
+and	276,279	O	O
+Levine	280,286	O	O
+,	286,287	O	O
+2012	288,292	O	O
+;	292,293	O	O
+Karrenbauer	294,305	O	O
+and	306,309	O	O
+Oulasvirta	310,320	O	O
+,	320,321	O	O
+2014	322,326	O	O
+;	326,327	O	O
+Leiva	328,333	O	O
+et	334,336	O	O
+al	337,339	O	O
+.	339,340	O	O
+,	340,341	O	O
+2015	342,346	O	O
+;	346,347	O	O
+Wiseman	348,355	O	O
+et	356,358	O	O
+al	359,361	O	O
+.	361,362	O	O
+,	362,363	O	O
+2013	364,368	O	O
+)	368,369	O	O
+.	369,370	O	O
+
+More	371,375	O	O
+often	376,381	O	O
+than	382,386	O	O
+not	387,390	O	O
+,	390,391	O	O
+though	392,398	O	O
+,	398,399	O	O
+input	400,405	O	B-Material
+devices	406,413	O	I-Material
+are	414,417	O	O
+a	418,419	O	O
+fixed	420,425	O	O
+constraint	426,436	O	O
+in	437,439	O	O
+the	440,443	O	O
+design	444,450	O	B-Task
+of	451,453	O	I-Task
+a	454,455	O	I-Task
+service	456,463	O	I-Task
+.	463,464	O	O
+
+Most	465,469	O	O
+users	470,475	O	O
+are	476,479	O	O
+typing	480,486	O	O
+on	487,489	O	O
+the	490,493	O	O
+keyboard	494,502	O	O
+that	503,507	O	O
+came	508,512	O	O
+with	513,517	O	O
+their	518,523	O	O
+phone	524,529	O	O
+.	529,530	O	O
+
+Those	531,536	O	O
+keyboards	537,546	O	O
+have	547,551	O	O
+advantages	552,562	O	O
+,	562,563	O	O
+limitations	564,575	O	O
+and	576,579	O	O
+quirks	580,586	O	O
+.	586,587	O	O
+
+The	588,591	O	O
+mode	592,596	O	B-Process
+-	596,597	O	I-Process
+switching	597,606	O	I-Process
+that	607,611	O	O
+most	612,616	O	O
+touchscreen	617,628	O	O
+keyboards	629,638	O	O
+require	639,646	O	O
+to	647,649	O	O
+reach	650,655	O	O
+numbers	656,663	O	O
+and	664,667	O	O
+capital	668,675	O	O
+letters	676,683	O	O
+is	684,686	O	O
+at	687,689	O	O
+the	690,693	O	O
+root	694,698	O	O
+of	699,701	O	O
+design	702,708	O	O
+improvements	709,721	O	O
+we	722,724	O	O
+propose	725,732	O	O
+in	733,735	O	O
+this	736,740	O	O
+paper	741,746	O	O
+.	746,747	O	O
+
+When	748,752	O	O
+designing	753,762	O	B-Task
+services	763,771	O	I-Task
+,	771,772	O	O
+it	773,775	O	O
+is	776,778	O	O
+vital	779,784	O	O
+to	785,787	O	O
+be	788,790	O	O
+aware	791,796	O	O
+of	797,799	O	O
+the	800,803	O	O
+fixed	804,809	O	O
+constraints	810,821	O	O
+of	822,824	O	O
+a	825,826	O	O
+system	827,833	O	O
+and	834,837	O	O
+to	838,840	O	O
+then	841,845	O	O
+focus	846,851	O	O
+on	852,854	O	O
+the	855,858	O	O
+aspects	859,866	O	O
+of	867,869	O	O
+a	870,871	O	O
+service	872,879	O	O
+'s	879,881	O	O
+design	882,888	O	O
+that	889,893	O	O
+can	894,897	O	O
+be	898,900	O	O
+controlled	901,911	O	O
+.	911,912	O	O
+
+Making	913,919	O	O
+changes	920,927	O	O
+to	928,930	O	O
+input	931,936	O	O
+data	937,941	O	O
+in	942,944	O	O
+this	945,949	O	O
+way	950,953	O	O
+is	954,956	O	O
+a	957,958	O	O
+cheap	959,964	O	O
+,	964,965	O	O
+quick	966,971	O	O
+and	972,975	O	O
+easy	976,980	O	O
+way	981,984	O	O
+to	985,987	O	O
+improve	988,995	O	O
+user	996,1000	O	O
+experience	1001,1011	O	O
+.	1011,1012	O	O
 
 
 -DOCSTART- (S1361841516300342)
 
-Probabilistic	0	13	B-Process
-and	14	17	I-Process
-stochastic	18	28	I-Process
-approaches	29	39	I-Process
-can	40	43	O
-facilitate	44	54	O
-the	55	58	O
-search	59	65	B-Task
-for	66	69	I-Task
-local	70	75	I-Task
-and	76	79	I-Task
-global	80	86	I-Task
-optima	87	93	I-Task
-.	93	94	O
-
-Evolutionary	95	107	B-Process
-algorithms	108	118	I-Process
-,	118	119	O
-such	120	124	O
-as	125	127	O
-genetic	128	135	B-Process
-population	136	146	I-Process
-(	147	148	O
-Jomier	148	154	O
-et	155	157	O
-al	158	160	O
-.	160	161	O
-,	161	162	O
-2006	163	167	O
-;	167	168	O
-Rivest	169	175	O
--	175	176	O
-Henault	176	183	O
-et	184	186	O
-al	187	189	O
-.	189	190	O
-,	190	191	O
-2012	192	196	O
-;	196	197	O
-Ruijters	198	206	O
-et	207	209	O
-al	210	212	O
-.	212	213	O
-,	213	214	O
-2009	215	219	O
-)	219	220	O
-,	220	221	O
-are	222	225	O
-considered	226	236	O
-as	237	239	O
-a	240	241	O
-strategy	242	250	O
-that	251	255	O
-is	256	258	O
-“	259	260	O
-less	260	264	O
-likely	265	271	O
-to	272	274	O
-get	275	278	O
-stuck	279	284	O
-in	285	287	O
-a	288	289	O
-local	290	295	O
-optimum	296	303	O
-”	303	304	O
-(	305	306	O
-Ruijters	306	314	O
-et	315	317	O
-al	318	320	O
-.	320	321	O
-,	321	322	O
-2009	323	327	O
-)	327	328	O
-.	328	329	O
-
-A	330	331	O
-cost	332	336	B-Material
-function	337	345	I-Material
-consisting	346	356	O
-of	357	359	O
-the	360	363	O
-“	364	365	O
-sum	365	368	O
-of	369	371	O
-the	372	375	O
-Gaussian	376	384	O
--	384	385	O
-blurred	385	392	O
-intensity	393	402	O
-values	403	409	O
-in	410	412	O
-the	413	416	O
-[	417	418	O
-DSA	418	421	O
-]	421	422	O
-at	423	425	O
-the	426	429	O
-projected	430	439	O
-model	440	445	O
-points	446	452	O
-
-”	452	453	O
-
-(	454	455	O
-Jomier	455	461	O
-et	462	464	O
-al	465	467	O
-.	467	468	O
-,	468	469	O
-2006	470	474	O
-)	474	475	O
-is	476	478	O
-optimized	479	488	O
-using	489	494	O
-a	495	496	O
-genetic	497	504	B-Process
-algorithm	505	514	I-Process
-optimizer	515	524	I-Process
-.	524	525	O
-
-Other	526	531	O
-authors	532	539	O
-“	540	541	O
-use	541	544	O
-the	545	548	O
-Condensation	549	561	B-Process
-form	562	566	I-Process
-of	567	569	I-Process
-sequential	570	580	I-Process
-Monte	581	586	I-Process
-Carlo	587	592	I-Process
-sampling	593	601	I-Process
-to	602	604	O
-estimate	605	613	B-Task
-a	614	615	I-Task
-cost	616	620	I-Task
-function	621	629	I-Task
-gradient	630	638	I-Task
-”	638	639	O
-
-(	640	641	O
-Florin	641	647	O
-et	648	650	O
-al	651	653	O
-.	653	654	O
-,	654	655	O
-2005	656	660	O
-)	660	661	O
-for	662	665	O
-finding	666	673	O
-the	674	677	O
-global	678	684	O
-minimum	685	692	O
-.	692	693	O
-
-Besides	694	701	O
-,	701	702	O
-the	703	706	O
-Kalman	707	713	B-Process
-filter	714	720	I-Process
-is	721	723	O
-successfully	724	736	O
-adopted	737	744	O
-(	745	746	O
-Curwen	746	752	O
-et	753	755	O
-al	756	758	O
-.	758	759	O
-,	759	760	O
-1994	761	765	O
-;	765	766	O
-Feldmar	767	774	O
-et	775	777	O
-al	778	780	O
-.	780	781	O
-,	781	782	O
-1997	783	787	O
-;	787	788	O
-Toledo	789	795	O
-et	796	798	O
-al	799	801	O
-.	801	802	O
-,	802	803	O
-1998	804	808	O
-)	808	809	O
-.	809	810	O
+Probabilistic	0,13	O	B-Process
+and	14,17	O	I-Process
+stochastic	18,28	O	I-Process
+approaches	29,39	O	I-Process
+can	40,43	O	O
+facilitate	44,54	O	O
+the	55,58	O	O
+search	59,65	O	B-Task
+for	66,69	O	I-Task
+local	70,75	O	I-Task
+and	76,79	O	I-Task
+global	80,86	O	I-Task
+optima	87,93	O	I-Task
+.	93,94	O	O
+
+Evolutionary	95,107	O	B-Process
+algorithms	108,118	O	I-Process
+,	118,119	O	O
+such	120,124	O	O
+as	125,127	O	O
+genetic	128,135	O	B-Process
+population	136,146	O	I-Process
+(	147,148	O	O
+Jomier	148,154	O	O
+et	155,157	O	O
+al	158,160	O	O
+.	160,161	O	O
+,	161,162	O	O
+2006	163,167	O	O
+;	167,168	O	O
+Rivest	169,175	O	O
+-	175,176	O	O
+Henault	176,183	O	O
+et	184,186	O	O
+al	187,189	O	O
+.	189,190	O	O
+,	190,191	O	O
+2012	192,196	O	O
+;	196,197	O	O
+Ruijters	198,206	O	O
+et	207,209	O	O
+al	210,212	O	O
+.	212,213	O	O
+,	213,214	O	O
+2009	215,219	O	O
+)	219,220	O	O
+,	220,221	O	O
+are	222,225	O	O
+considered	226,236	O	O
+as	237,239	O	O
+a	240,241	O	O
+strategy	242,250	O	O
+that	251,255	O	O
+is	256,258	O	O
+“	259,260	O	O
+less	260,264	O	O
+likely	265,271	O	O
+to	272,274	O	O
+get	275,278	O	O
+stuck	279,284	O	O
+in	285,287	O	O
+a	288,289	O	O
+local	290,295	O	O
+optimum	296,303	O	O
+”	303,304	O	O
+(	305,306	O	O
+Ruijters	306,314	O	O
+et	315,317	O	O
+al	318,320	O	O
+.	320,321	O	O
+,	321,322	O	O
+2009	323,327	O	O
+)	327,328	O	O
+.	328,329	O	O
+
+A	330,331	O	O
+cost	332,336	O	B-Material
+function	337,345	O	I-Material
+consisting	346,356	O	O
+of	357,359	O	O
+the	360,363	O	O
+“	364,365	O	O
+sum	365,368	O	O
+of	369,371	O	O
+the	372,375	O	O
+Gaussian	376,384	O	O
+-	384,385	O	O
+blurred	385,392	O	O
+intensity	393,402	O	O
+values	403,409	O	O
+in	410,412	O	O
+the	413,416	O	O
+[	417,418	O	O
+DSA	418,421	O	O
+]	421,422	O	O
+at	423,425	O	O
+the	426,429	O	O
+projected	430,439	O	O
+model	440,445	O	O
+points	446,452	O	O
+
+”	452,453	O	O
+
+(	454,455	O	O
+Jomier	455,461	O	O
+et	462,464	O	O
+al	465,467	O	O
+.	467,468	O	O
+,	468,469	O	O
+2006	470,474	O	O
+)	474,475	O	O
+is	476,478	O	O
+optimized	479,488	O	O
+using	489,494	O	O
+a	495,496	O	O
+genetic	497,504	O	B-Process
+algorithm	505,514	O	I-Process
+optimizer	515,524	O	I-Process
+.	524,525	O	O
+
+Other	526,531	O	O
+authors	532,539	O	O
+“	540,541	O	O
+use	541,544	O	O
+the	545,548	O	O
+Condensation	549,561	O	B-Process
+form	562,566	O	I-Process
+of	567,569	O	I-Process
+sequential	570,580	O	I-Process
+Monte	581,586	O	I-Process
+Carlo	587,592	O	I-Process
+sampling	593,601	O	I-Process
+to	602,604	O	O
+estimate	605,613	O	B-Task
+a	614,615	O	I-Task
+cost	616,620	O	I-Task
+function	621,629	O	I-Task
+gradient	630,638	O	I-Task
+”	638,639	O	O
+
+(	640,641	O	O
+Florin	641,647	O	O
+et	648,650	O	O
+al	651,653	O	O
+.	653,654	O	O
+,	654,655	O	O
+2005	656,660	O	O
+)	660,661	O	O
+for	662,665	O	O
+finding	666,673	O	O
+the	674,677	O	O
+global	678,684	O	O
+minimum	685,692	O	O
+.	692,693	O	O
+
+Besides	694,701	O	O
+,	701,702	O	O
+the	703,706	O	O
+Kalman	707,713	O	B-Process
+filter	714,720	O	I-Process
+is	721,723	O	O
+successfully	724,736	O	O
+adopted	737,744	O	O
+(	745,746	O	O
+Curwen	746,752	O	O
+et	753,755	O	O
+al	756,758	O	O
+.	758,759	O	O
+,	759,760	O	O
+1994	761,765	O	O
+;	765,766	O	O
+Feldmar	767,774	O	O
+et	775,777	O	O
+al	778,780	O	O
+.	780,781	O	O
+,	781,782	O	O
+1997	783,787	O	O
+;	787,788	O	O
+Toledo	789,795	O	O
+et	796,798	O	O
+al	799,801	O	O
+.	801,802	O	O
+,	802,803	O	O
+1998	804,808	O	O
+)	808,809	O	O
+.	809,810	O	O
 
 
 -DOCSTART- (S1361841516300822)
 
-For	0	3	O
-all	4	7	O
-volunteers	8	18	O
-the	19	22	O
-AAMM	23	27	B-Task
-technique	28	37	I-Task
-significantly	38	51	O
-(	52	53	O
-p	53	54	O
-<	55	56	O
-0.01	57	61	O
-)	61	62	O
-outperformed	63	75	O
-the	76	79	O
-other	80	85	O
-two	86	89	O
-methods	90	97	O
-in	98	100	O
-all	101	104	O
-of	105	107	O
-the	108	111	O
-intervals	112	121	O
-as	122	124	O
-can	125	128	O
-be	129	131	O
-seen	132	136	O
-by	137	139	O
-comparing	140	149	O
-to	150	152	O
-the	153	156	O
-error	157	162	B-Material
-curves	163	169	I-Material
-shown	170	175	O
-in	176	178	O
-Fig	179	182	O
-.	182	183	O
-
-8	184	185	O
-and	186	189	O
-the	190	193	O
-figures	194	201	O
-in	202	204	O
-Table	205	210	O
-1	211	212	O
-in	213	215	O
-the	216	219	O
-supplementary	220	233	O
-materials	234	243	O
-.	243	244	O
-
-Significance	245	257	O
-was	258	261	O
-assessed	262	270	O
-using	271	276	O
-a	277	278	O
-1-tailed	279	287	B-Process
-Wilcoxon	288	296	I-Process
-signed	297	303	I-Process
-rank	304	308	I-Process
-test	309	313	I-Process
-since	314	319	O
-the	320	323	O
-error	324	329	O
-distributions	330	343	O
-were	344	348	O
-generally	349	358	O
-not	359	362	O
-symmetric	363	372	O
-.	372	373	O
-
-The	374	377	O
-estimation	378	388	O
-errors	389	395	O
-for	396	399	O
-AAMM	400	404	B-Task
-and	405	408	O
-its	409	412	O
-non	413	416	O
--	416	417	O
-adaptive	417	425	O
-counterpart	426	437	O
-,	437	438	O
-AAMM	439	443	B-Task
-(	444	445	I-Task
-no	445	447	I-Task
-adapt	448	453	I-Task
-.	453	454	I-Task
-)	454	455	I-Task
-,	455	456	O
-were	457	461	O
-similar	462	469	O
-in	470	472	O
-the	473	476	O
-beginning	477	486	O
-of	487	489	O
-the	490	493	O
-application	494	505	O
-phase	506	511	O
-,	511	512	O
-but	513	516	O
-as	517	519	O
-anticipated	520	531	O
-,	531	532	O
-as	533	535	O
-the	536	539	O
-application	540	551	O
-phase	552	557	O
-went	558	562	O
-on	563	565	O
-,	565	566	O
-the	567	570	O
-AAMM	571	575	B-Task
-technique	576	585	I-Task
-continually	586	597	O
-improved	598	606	O
-its	607	610	O
-accuracy	611	619	O
-by	620	622	O
-incorporating	623	636	O
-more	637	641	O
-and	642	645	O
-more	646	650	O
-data	651	655	O
-into	656	660	O
-the	661	664	O
-model	665	670	O
-.	670	671	O
-
-On	672	674	O
-average	675	682	O
-the	683	686	O
-motion	687	693	B-Material
-estimation	694	704	I-Material
-of	705	707	O
-AAMM	708	712	B-Task
-improved	713	721	O
-by	722	724	O
-22.94	725	730	O
-%	730	731	O
-in	732	734	O
-T5	735	737	O
-with	738	742	O
-respect	743	750	O
-to	751	753	O
-its	754	757	O
-non	758	761	O
--	761	762	O
-adaptive	762	770	O
-counterpart	771	782	O
-.	782	783	O
-
-However	784	791	O
-,	791	792	O
-the	793	796	O
-method	797	803	O
-has	804	807	O
-already	808	815	O
-significantly	816	829	O
-adapted	830	837	O
-to	838	840	O
-the	841	844	O
-breathing	845	854	O
-pattern	855	862	O
-in	863	865	O
-T2	866	868	O
-,	868	869	O
-i.e.	870	874	O
-after	875	880	O
-between	881	888	O
-3	889	890	O
-and	891	894	O
-7	895	896	O
-min	897	900	O
-of	901	903	O
-imaging	904	911	B-Process
-,	911	912	O
-where	913	918	O
-motion	919	925	B-Material
-estimations	926	937	I-Material
-where	938	943	O
-on	944	946	O
-average	947	954	O
-16.87	955	960	O
-%	960	961	O
-more	962	966	O
-accurate	967	975	O
-than	976	980	O
-at	981	983	O
-the	984	987	O
-beginning	988	997	O
-of	998	1000	O
-the	1001	1004	O
-adaptation	1005	1015	O
-phase	1016	1021	O
-.	1021	1022	O
-
-By	1023	1025	O
-visually	1026	1034	O
-inspecting	1035	1045	O
-the	1046	1049	O
-curves	1050	1056	O
-for	1057	1060	O
-AAMM	1061	1065	B-Task
-in	1066	1068	O
-Fig	1069	1072	O
-.	1072	1073	O
-
-8	1074	1075	O
-it	1076	1078	O
-can	1079	1082	O
-be	1083	1085	O
-seen	1086	1090	O
-that	1091	1095	O
-for	1096	1099	O
-many	1100	1104	O
-volunteers	1105	1115	O
-(	1116	1117	O
-in	1117	1119	O
-particular	1120	1130	O
-volunteers	1131	1141	O
-A	1142	1143	O
-,	1143	1144	O
-D	1145	1146	O
-,	1146	1147	O
-E	1148	1149	O
-,	1149	1150	O
-and	1151	1154	O
-F	1155	1156	O
-)	1156	1157	O
-the	1158	1161	O
-error	1162	1167	B-Material
-curves	1168	1174	I-Material
-start	1175	1180	O
-to	1181	1183	O
-flatten	1184	1191	O
-approximately	1192	1205	O
-around	1206	1212	O
-the	1213	1216	O
-7	1217	1218	O
-min	1219	1222	O
-mark	1223	1227	O
-.	1227	1228	O
-
-From	1229	1233	O
-this	1234	1238	O
-it	1239	1241	O
-can	1242	1245	O
-be	1246	1248	O
-concluded	1249	1258	O
-that	1259	1263	O
-a	1264	1265	O
-longer	1266	1272	O
-calibration	1273	1284	B-Process
-scan	1285	1289	I-Process
-of	1290	1292	O
-around	1293	1299	O
-12	1300	1302	O
-min	1303	1306	O
-would	1307	1312	O
-be	1313	1315	O
-optimal	1316	1323	O
-,	1323	1324	O
-that	1325	1329	O
-is	1330	1332	O
-the	1333	1336	O
-5	1337	1338	O
-min	1339	1342	O
-that	1343	1347	O
-were	1348	1352	O
-used	1353	1357	O
-for	1358	1361	O
-calibration	1362	1373	B-Process
-in	1374	1376	O
-this	1377	1381	O
-experiment	1382	1392	O
-plus	1393	1397	O
-7	1398	1399	O
-min	1400	1403	O
-worth	1404	1409	O
-of	1410	1412	O
-data	1413	1417	O
-added	1418	1423	O
-during	1424	1430	O
-the	1431	1434	O
-application	1435	1446	O
-phase	1447	1452	O
-.	1452	1453	O
-
-Note	1454	1458	O
-that	1459	1463	O
-this	1464	1468	O
-time	1469	1473	O
-could	1474	1479	O
-be	1480	1482	O
-significantly	1483	1496	O
-reduced	1497	1504	O
-if	1505	1507	O
-a	1508	1509	O
-non	1510	1513	B-Process
--	1513	1514	I-Process
-cardiac	1514	1521	I-Process
--	1521	1522	I-Process
-gated	1522	1527	I-Process
-sequence	1528	1536	I-Process
-was	1537	1540	O
-used	1541	1545	O
-.	1545	1546	O
+For	0,3	O	O
+all	4,7	O	O
+volunteers	8,18	O	O
+the	19,22	O	O
+AAMM	23,27	O	B-Task
+technique	28,37	O	I-Task
+significantly	38,51	O	O
+(	52,53	O	O
+p	53,54	O	O
+<	55,56	O	O
+0.01	57,61	O	O
+)	61,62	O	O
+outperformed	63,75	O	O
+the	76,79	O	O
+other	80,85	O	O
+two	86,89	O	O
+methods	90,97	O	O
+in	98,100	O	O
+all	101,104	O	O
+of	105,107	O	O
+the	108,111	O	O
+intervals	112,121	O	O
+as	122,124	O	O
+can	125,128	O	O
+be	129,131	O	O
+seen	132,136	O	O
+by	137,139	O	O
+comparing	140,149	O	O
+to	150,152	O	O
+the	153,156	O	O
+error	157,162	O	B-Material
+curves	163,169	O	I-Material
+shown	170,175	O	O
+in	176,178	O	O
+Fig	179,182	O	O
+.	182,183	O	O
+
+8	184,185	O	O
+and	186,189	O	O
+the	190,193	O	O
+figures	194,201	O	O
+in	202,204	O	O
+Table	205,210	O	O
+1	211,212	O	O
+in	213,215	O	O
+the	216,219	O	O
+supplementary	220,233	O	O
+materials	234,243	O	O
+.	243,244	O	O
+
+Significance	245,257	O	O
+was	258,261	O	O
+assessed	262,270	O	O
+using	271,276	O	O
+a	277,278	O	O
+1-tailed	279,287	O	B-Process
+Wilcoxon	288,296	O	I-Process
+signed	297,303	O	I-Process
+rank	304,308	O	I-Process
+test	309,313	O	I-Process
+since	314,319	O	O
+the	320,323	O	O
+error	324,329	O	O
+distributions	330,343	O	O
+were	344,348	O	O
+generally	349,358	O	O
+not	359,362	O	O
+symmetric	363,372	O	O
+.	372,373	O	O
+
+The	374,377	O	O
+estimation	378,388	O	O
+errors	389,395	O	O
+for	396,399	O	O
+AAMM	400,404	O	B-Task
+and	405,408	O	O
+its	409,412	O	O
+non	413,416	O	O
+-	416,417	O	O
+adaptive	417,425	O	O
+counterpart	426,437	O	O
+,	437,438	O	O
+AAMM	439,443	O	B-Task
+(	444,445	O	I-Task
+no	445,447	O	I-Task
+adapt	448,453	O	I-Task
+.	453,454	O	I-Task
+)	454,455	O	I-Task
+,	455,456	O	O
+were	457,461	O	O
+similar	462,469	O	O
+in	470,472	O	O
+the	473,476	O	O
+beginning	477,486	O	O
+of	487,489	O	O
+the	490,493	O	O
+application	494,505	O	O
+phase	506,511	O	O
+,	511,512	O	O
+but	513,516	O	O
+as	517,519	O	O
+anticipated	520,531	O	O
+,	531,532	O	O
+as	533,535	O	O
+the	536,539	O	O
+application	540,551	O	O
+phase	552,557	O	O
+went	558,562	O	O
+on	563,565	O	O
+,	565,566	O	O
+the	567,570	O	O
+AAMM	571,575	O	B-Task
+technique	576,585	O	I-Task
+continually	586,597	O	O
+improved	598,606	O	O
+its	607,610	O	O
+accuracy	611,619	O	O
+by	620,622	O	O
+incorporating	623,636	O	O
+more	637,641	O	O
+and	642,645	O	O
+more	646,650	O	O
+data	651,655	O	O
+into	656,660	O	O
+the	661,664	O	O
+model	665,670	O	O
+.	670,671	O	O
+
+On	672,674	O	O
+average	675,682	O	O
+the	683,686	O	O
+motion	687,693	O	B-Material
+estimation	694,704	O	I-Material
+of	705,707	O	O
+AAMM	708,712	O	B-Task
+improved	713,721	O	O
+by	722,724	O	O
+22.94	725,730	O	O
+%	730,731	O	O
+in	732,734	O	O
+T5	735,737	O	O
+with	738,742	O	O
+respect	743,750	O	O
+to	751,753	O	O
+its	754,757	O	O
+non	758,761	O	O
+-	761,762	O	O
+adaptive	762,770	O	O
+counterpart	771,782	O	O
+.	782,783	O	O
+
+However	784,791	O	O
+,	791,792	O	O
+the	793,796	O	O
+method	797,803	O	O
+has	804,807	O	O
+already	808,815	O	O
+significantly	816,829	O	O
+adapted	830,837	O	O
+to	838,840	O	O
+the	841,844	O	O
+breathing	845,854	O	O
+pattern	855,862	O	O
+in	863,865	O	O
+T2	866,868	O	O
+,	868,869	O	O
+i.e.	870,874	O	O
+after	875,880	O	O
+between	881,888	O	O
+3	889,890	O	O
+and	891,894	O	O
+7	895,896	O	O
+min	897,900	O	O
+of	901,903	O	O
+imaging	904,911	O	B-Process
+,	911,912	O	O
+where	913,918	O	O
+motion	919,925	O	B-Material
+estimations	926,937	O	I-Material
+where	938,943	O	O
+on	944,946	O	O
+average	947,954	O	O
+16.87	955,960	O	O
+%	960,961	O	O
+more	962,966	O	O
+accurate	967,975	O	O
+than	976,980	O	O
+at	981,983	O	O
+the	984,987	O	O
+beginning	988,997	O	O
+of	998,1000	O	O
+the	1001,1004	O	O
+adaptation	1005,1015	O	O
+phase	1016,1021	O	O
+.	1021,1022	O	O
+
+By	1023,1025	O	O
+visually	1026,1034	O	O
+inspecting	1035,1045	O	O
+the	1046,1049	O	O
+curves	1050,1056	O	O
+for	1057,1060	O	O
+AAMM	1061,1065	O	B-Task
+in	1066,1068	O	O
+Fig	1069,1072	O	O
+.	1072,1073	O	O
+
+8	1074,1075	O	O
+it	1076,1078	O	O
+can	1079,1082	O	O
+be	1083,1085	O	O
+seen	1086,1090	O	O
+that	1091,1095	O	O
+for	1096,1099	O	O
+many	1100,1104	O	O
+volunteers	1105,1115	O	O
+(	1116,1117	O	O
+in	1117,1119	O	O
+particular	1120,1130	O	O
+volunteers	1131,1141	O	O
+A	1142,1143	O	O
+,	1143,1144	O	O
+D	1145,1146	O	O
+,	1146,1147	O	O
+E	1148,1149	O	O
+,	1149,1150	O	O
+and	1151,1154	O	O
+F	1155,1156	O	O
+)	1156,1157	O	O
+the	1158,1161	O	O
+error	1162,1167	O	B-Material
+curves	1168,1174	O	I-Material
+start	1175,1180	O	O
+to	1181,1183	O	O
+flatten	1184,1191	O	O
+approximately	1192,1205	O	O
+around	1206,1212	O	O
+the	1213,1216	O	O
+7	1217,1218	O	O
+min	1219,1222	O	O
+mark	1223,1227	O	O
+.	1227,1228	O	O
+
+From	1229,1233	O	O
+this	1234,1238	O	O
+it	1239,1241	O	O
+can	1242,1245	O	O
+be	1246,1248	O	O
+concluded	1249,1258	O	O
+that	1259,1263	O	O
+a	1264,1265	O	O
+longer	1266,1272	O	O
+calibration	1273,1284	O	B-Process
+scan	1285,1289	O	I-Process
+of	1290,1292	O	O
+around	1293,1299	O	O
+12	1300,1302	O	O
+min	1303,1306	O	O
+would	1307,1312	O	O
+be	1313,1315	O	O
+optimal	1316,1323	O	O
+,	1323,1324	O	O
+that	1325,1329	O	O
+is	1330,1332	O	O
+the	1333,1336	O	O
+5	1337,1338	O	O
+min	1339,1342	O	O
+that	1343,1347	O	O
+were	1348,1352	O	O
+used	1353,1357	O	O
+for	1358,1361	O	O
+calibration	1362,1373	O	B-Process
+in	1374,1376	O	O
+this	1377,1381	O	O
+experiment	1382,1392	O	O
+plus	1393,1397	O	O
+7	1398,1399	O	O
+min	1400,1403	O	O
+worth	1404,1409	O	O
+of	1410,1412	O	O
+data	1413,1417	O	O
+added	1418,1423	O	O
+during	1424,1430	O	O
+the	1431,1434	O	O
+application	1435,1446	O	O
+phase	1447,1452	O	O
+.	1452,1453	O	O
+
+Note	1454,1458	O	O
+that	1459,1463	O	O
+this	1464,1468	O	O
+time	1469,1473	O	O
+could	1474,1479	O	O
+be	1480,1482	O	O
+significantly	1483,1496	O	O
+reduced	1497,1504	O	O
+if	1505,1507	O	O
+a	1508,1509	O	O
+non	1510,1513	O	B-Process
+-	1513,1514	O	I-Process
+cardiac	1514,1521	O	I-Process
+-	1521,1522	O	I-Process
+gated	1522,1527	O	I-Process
+sequence	1528,1536	O	I-Process
+was	1537,1540	O	O
+used	1541,1545	O	O
+.	1545,1546	O	O
 
 
 -DOCSTART- (S1364815216303541)
 
-As	0	2	O
-a	3	4	O
-particular	5	15	O
-case	16	20	O
-of	21	23	O
-survey	24	30	O
-data	31	35	O
-,	35	36	O
-we	37	39	O
-used	40	44	O
-the	45	48	O
-iUTAH	49	54	B-Process
-“	55	56	I-Process
-Utah	56	60	I-Process
-Water	61	66	I-Process
-Survey	67	73	I-Process
-,	73	74	I-Process
-”	74	75	I-Process
-which	76	81	O
-was	82	85	O
-implemented	86	97	O
-by	98	100	O
-participating	101	114	O
-researchers	115	126	O
-from	127	131	O
-several	132	139	O
-Utah	140	144	O
-institutions	145	157	O
-of	158	160	O
-higher	161	167	O
-education	168	177	O
-.	177	178	O
-
-The	179	182	O
-objectives	183	193	O
-of	194	196	O
-the	197	200	O
-survey	201	207	O
-were	208	212	O
-to	213	215	O
-document	216	224	O
-how	225	228	O
-a	229	230	O
-representative	231	245	O
-cross	246	251	O
--	251	252	O
-section	252	259	O
-of	260	262	O
-Utah	263	267	B-Task
-'s	267	269	I-Task
-adult	270	275	I-Task
-population	276	286	I-Task
-thinks	287	293	I-Task
-about	294	299	I-Task
-water	300	305	I-Task
-issues	306	312	I-Task
-.	312	313	O
-
-The	314	317	O
-survey	318	324	B-Process
-included	325	333	O
-three	334	339	O
-core	340	344	O
-blocks	345	351	O
-of	352	354	O
-questions	355	364	O
-:	364	365	O
-perceptions	366	377	B-Material
-of	378	380	I-Material
-the	381	384	I-Material
-adequacy	385	393	I-Material
-of	394	396	I-Material
-local	397	402	I-Material
-water	403	408	I-Material
-supplies	409	417	I-Material
-,	417	418	O
-perceptions	419	430	B-Material
-of	431	433	I-Material
-the	434	437	I-Material
-quality	438	445	I-Material
-of	446	448	I-Material
-local	449	454	I-Material
-water	455	460	I-Material
-resources	461	470	I-Material
-,	470	471	O
-and	472	475	O
-concern	476	483	B-Material
-about	484	489	I-Material
-a	490	491	I-Material
-range	492	497	I-Material
-of	498	500	I-Material
-water	501	506	I-Material
-and	507	510	I-Material
-non	511	514	I-Material
--	514	515	I-Material
-water	515	520	I-Material
-issues	521	527	I-Material
-.	527	528	O
-
-A	529	530	O
-number	531	537	O
-of	538	540	O
-additional	541	551	O
-questions	552	561	O
-captured	562	570	O
-information	571	582	O
-about	583	588	O
-respondents	589	600	O
-'	600	601	O
-familiarity	602	613	B-Material
-with	614	618	I-Material
-water	619	624	I-Material
-cost	625	629	I-Material
-,	629	630	O
-lawn	631	635	B-Material
--	635	636	I-Material
-watering	636	644	I-Material
-behaviors	645	654	I-Material
-,	654	655	O
-participation	656	669	B-Material
-in	670	672	I-Material
-water	673	678	I-Material
-based	679	684	I-Material
-recreation	685	695	I-Material
-,	695	696	O
-and	697	700	O
-demographic	701	712	B-Material
-attributes	713	723	I-Material
-.	723	724	O
-
-Supplementary	725	738	B-Process
-material	739	747	I-Process
-to	748	750	O
-this	751	755	O
-paper	756	761	O
-includes	762	770	O
-a	771	772	O
-document	773	781	O
-with	782	786	O
-a	787	788	O
-description	789	800	B-Process
-of	801	803	I-Process
-the	804	807	I-Process
-dataset	808	815	I-Process
-as	816	818	O
-a	819	820	O
-whole	821	826	O
-,	826	827	O
-a	828	829	O
-document	830	838	O
-containing	839	849	O
-the	850	853	O
-complete	854	862	B-Process
-survey	863	869	I-Process
-instrument	870	880	I-Process
-,	880	881	O
-and	882	885	O
-two	886	889	O
-data	890	894	O
-files	895	900	O
-containing	901	911	O
-the	912	915	O
-results	916	923	O
-and	924	927	O
-an	928	930	O
-associated	931	941	B-Process
-codebook	942	950	I-Process
-(	951	952	O
-see	952	955	O
-Section	956	963	O
-4.3	964	967	O
-)	967	968	O
-.	968	969	O
+As	0,2	O	O
+a	3,4	O	O
+particular	5,15	O	O
+case	16,20	O	O
+of	21,23	O	O
+survey	24,30	O	O
+data	31,35	O	O
+,	35,36	O	O
+we	37,39	O	O
+used	40,44	O	O
+the	45,48	O	O
+iUTAH	49,54	O	B-Process
+“	55,56	O	I-Process
+Utah	56,60	O	I-Process
+Water	61,66	O	I-Process
+Survey	67,73	O	I-Process
+,	73,74	O	I-Process
+”	74,75	O	I-Process
+which	76,81	O	O
+was	82,85	O	O
+implemented	86,97	O	O
+by	98,100	O	O
+participating	101,114	O	O
+researchers	115,126	O	O
+from	127,131	O	O
+several	132,139	O	O
+Utah	140,144	O	O
+institutions	145,157	O	O
+of	158,160	O	O
+higher	161,167	O	O
+education	168,177	O	O
+.	177,178	O	O
+
+The	179,182	O	O
+objectives	183,193	O	O
+of	194,196	O	O
+the	197,200	O	O
+survey	201,207	O	O
+were	208,212	O	O
+to	213,215	O	O
+document	216,224	O	O
+how	225,228	O	O
+a	229,230	O	O
+representative	231,245	O	O
+cross	246,251	O	O
+-	251,252	O	O
+section	252,259	O	O
+of	260,262	O	O
+Utah	263,267	O	B-Task
+'s	267,269	O	I-Task
+adult	270,275	O	I-Task
+population	276,286	O	I-Task
+thinks	287,293	O	I-Task
+about	294,299	O	I-Task
+water	300,305	O	I-Task
+issues	306,312	O	I-Task
+.	312,313	O	O
+
+The	314,317	O	O
+survey	318,324	O	B-Process
+included	325,333	O	O
+three	334,339	O	O
+core	340,344	O	O
+blocks	345,351	O	O
+of	352,354	O	O
+questions	355,364	O	O
+:	364,365	O	O
+perceptions	366,377	O	B-Material
+of	378,380	O	I-Material
+the	381,384	O	I-Material
+adequacy	385,393	O	I-Material
+of	394,396	O	I-Material
+local	397,402	O	I-Material
+water	403,408	O	I-Material
+supplies	409,417	O	I-Material
+,	417,418	O	O
+perceptions	419,430	O	B-Material
+of	431,433	O	I-Material
+the	434,437	O	I-Material
+quality	438,445	O	I-Material
+of	446,448	O	I-Material
+local	449,454	O	I-Material
+water	455,460	O	I-Material
+resources	461,470	O	I-Material
+,	470,471	O	O
+and	472,475	O	O
+concern	476,483	O	B-Material
+about	484,489	O	I-Material
+a	490,491	O	I-Material
+range	492,497	O	I-Material
+of	498,500	O	I-Material
+water	501,506	O	I-Material
+and	507,510	O	I-Material
+non	511,514	O	I-Material
+-	514,515	O	I-Material
+water	515,520	O	I-Material
+issues	521,527	O	I-Material
+.	527,528	O	O
+
+A	529,530	O	O
+number	531,537	O	O
+of	538,540	O	O
+additional	541,551	O	O
+questions	552,561	O	O
+captured	562,570	O	O
+information	571,582	O	O
+about	583,588	O	O
+respondents	589,600	O	O
+'	600,601	O	O
+familiarity	602,613	O	B-Material
+with	614,618	O	I-Material
+water	619,624	O	I-Material
+cost	625,629	O	I-Material
+,	629,630	O	O
+lawn	631,635	O	B-Material
+-	635,636	O	I-Material
+watering	636,644	O	I-Material
+behaviors	645,654	O	I-Material
+,	654,655	O	O
+participation	656,669	O	B-Material
+in	670,672	O	I-Material
+water	673,678	O	I-Material
+based	679,684	O	I-Material
+recreation	685,695	O	I-Material
+,	695,696	O	O
+and	697,700	O	O
+demographic	701,712	O	B-Material
+attributes	713,723	O	I-Material
+.	723,724	O	O
+
+Supplementary	725,738	O	B-Process
+material	739,747	O	I-Process
+to	748,750	O	O
+this	751,755	O	O
+paper	756,761	O	O
+includes	762,770	O	O
+a	771,772	O	O
+document	773,781	O	O
+with	782,786	O	O
+a	787,788	O	O
+description	789,800	O	B-Process
+of	801,803	O	I-Process
+the	804,807	O	I-Process
+dataset	808,815	O	I-Process
+as	816,818	O	O
+a	819,820	O	O
+whole	821,826	O	O
+,	826,827	O	O
+a	828,829	O	O
+document	830,838	O	O
+containing	839,849	O	O
+the	850,853	O	O
+complete	854,862	O	B-Process
+survey	863,869	O	I-Process
+instrument	870,880	O	I-Process
+,	880,881	O	O
+and	882,885	O	O
+two	886,889	O	O
+data	890,894	O	O
+files	895,900	O	O
+containing	901,911	O	O
+the	912,915	O	O
+results	916,923	O	O
+and	924,927	O	O
+an	928,930	O	O
+associated	931,941	O	B-Process
+codebook	942,950	O	I-Process
+(	951,952	O	O
+see	952,955	O	O
+Section	956,963	O	O
+4.3	964,967	O	O
+)	967,968	O	O
+.	968,969	O	O
 
 
 -DOCSTART- (S1524070312000380)
 
-Isogeometric	0	12	B-Process
-analysis	13	21	I-Process
-(	22	23	O
-IGA	23	26	B-Process
-)	26	27	O
-is	28	30	O
-a	31	32	O
-numerical	33	42	B-Process
-simulation	43	53	I-Process
-method	54	60	I-Process
-which	61	66	O
-is	67	69	O
-directly	70	78	O
-based	79	84	O
-on	85	87	O
-the	88	91	O
-NURBS	92	97	B-Process
--	97	98	I-Process
-based	98	103	I-Process
-representation	104	118	I-Process
-of	119	121	I-Process
-CAD	122	125	I-Process
-models	126	132	I-Process
-.	132	133	O
-
-It	134	136	O
-exploits	137	145	O
-the	146	149	O
-tensor	150	156	O
--	156	157	O
-product	157	164	O
-structure	165	174	O
-of	175	177	O
-2-	178	180	O
-or	181	183	O
-3-dimensional	184	197	O
-NURBS	198	203	B-Material
-objects	204	211	I-Material
-to	212	214	O
-parameterize	215	227	O
-the	228	231	O
-physical	232	240	O
-domain	241	247	O
-.	247	248	O
-
-Hence	249	254	O
-the	255	258	O
-physical	259	267	B-Process
-domain	268	274	I-Process
-is	275	277	I-Process
-parameterized	278	291	I-Process
-with	292	296	O
-respect	297	304	O
-to	305	307	O
-a	308	309	O
-rectangle	310	319	O
-or	320	322	O
-to	323	325	O
-a	326	327	O
-cube	328	332	O
-.	332	333	O
-
-Consequently	334	346	O
-,	346	347	O
-singularly	348	358	O
-parameterized	359	372	O
-NURBS	373	378	B-Material
-surfaces	379	387	I-Material
-and	388	391	O
-NURBS	392	397	B-Material
-volumes	398	405	I-Material
-are	406	409	O
-needed	410	416	O
-in	417	419	O
-order	420	425	O
-to	426	428	O
-represent	429	438	O
-non	439	442	O
--	442	443	O
-quadrangular	443	455	O
-or	456	458	O
-non	459	462	O
--	462	463	O
-hexahedral	463	473	O
-domains	474	481	O
-without	482	489	O
-splitting	490	499	B-Process
-,	499	500	O
-thereby	501	508	O
-producing	509	518	O
-a	519	520	O
-very	521	525	O
-compact	526	533	O
-and	534	537	O
-convenient	538	548	O
-representation	549	563	O
-.	563	564	O
-
-The	564	567	O
-Galerkin	568	576	B-Process
-projection	577	587	I-Process
-introduces	588	598	O
-finite	599	605	O
--	605	606	O
-dimensional	606	617	O
-spaces	618	624	O
-of	625	627	O
-test	628	632	O
-functions	633	642	O
-in	643	645	O
-the	646	649	O
-weak	650	654	O
-formulation	655	666	B-Process
-of	667	669	I-Process
-partial	670	677	I-Process
-differential	678	690	I-Process
-equations	691	700	I-Process
-.	700	701	O
-
-In	702	704	O
-particular	705	715	O
-,	715	716	O
-the	717	720	O
-test	721	725	O
-functions	726	735	O
-used	736	740	O
-in	741	743	O
-isogeometric	744	756	B-Process
-analysis	757	765	I-Process
-are	766	769	O
-obtained	770	778	O
-by	779	781	O
-composing	782	791	O
-the	792	795	O
-inverse	796	803	O
-of	804	806	O
-the	807	810	O
-domain	811	817	O
-parameterization	818	834	O
-with	835	839	O
-the	840	843	O
-NURBS	844	849	B-Process
-basis	850	855	I-Process
-functions	856	865	I-Process
-.	865	866	O
-
-In	867	869	O
-the	870	873	O
-case	874	878	O
-of	879	881	O
-singular	882	890	O
-parameterizations	891	908	O
-,	908	909	O
-however	910	917	O
-,	917	918	O
-some	919	923	O
-of	924	926	O
-the	927	930	O
-resulting	931	940	O
-test	941	945	O
-functions	946	955	O
-do	956	958	O
-not	959	962	O
-necessarily	963	974	O
-fulfill	975	982	O
-the	983	986	O
-required	987	995	O
-regularity	996	1006	O
-properties	1007	1017	O
-.	1017	1018	O
-
-Consequently	1019	1031	O
-,	1031	1032	O
-numerical	1033	1042	B-Process
-methods	1043	1050	I-Process
-for	1051	1054	O
-the	1055	1058	O
-solution	1059	1067	O
-of	1068	1070	O
-partial	1071	1078	O
-differential	1079	1091	O
-equations	1092	1101	O
-can	1102	1105	O
-not	1105	1108	O
-be	1109	1111	O
-applied	1112	1119	O
-properly	1120	1128	O
-.	1128	1129	O
-
-We	1129	1131	O
-discuss	1132	1139	B-Task
-the	1140	1143	I-Task
-regularity	1144	1154	I-Task
-properties	1155	1165	I-Task
-of	1166	1168	I-Task
-the	1169	1172	I-Task
-test	1173	1177	I-Task
-functions	1178	1187	I-Task
-.	1187	1188	O
-
-For	1189	1192	O
-one-	1193	1197	O
-and	1198	1201	O
-two	1202	1205	O
--	1205	1206	O
-dimensional	1206	1217	O
-domains	1218	1225	O
-we	1226	1228	O
-consider	1229	1237	B-Task
-several	1238	1245	I-Task
-important	1246	1255	I-Task
-classes	1256	1263	I-Task
-of	1264	1266	I-Task
-singularities	1267	1280	I-Task
-of	1281	1283	I-Task
-NURBS	1284	1289	I-Task
-parameterizations	1290	1307	I-Task
-.	1307	1308	O
-
-For	1309	1312	O
-specific	1313	1321	O
-cases	1322	1327	O
-we	1328	1330	O
-derive	1331	1337	B-Task
-additional	1338	1348	I-Task
-conditions	1349	1359	I-Task
-which	1360	1365	I-Task
-guarantee	1366	1375	I-Task
-the	1376	1379	I-Task
-regularity	1380	1390	I-Task
-of	1391	1393	I-Task
-the	1394	1397	I-Task
-test	1398	1402	I-Task
-functions	1403	1412	I-Task
-.	1412	1413	O
-
-In	1414	1416	O
-addition	1417	1425	O
-we	1426	1428	O
-present	1429	1436	B-Task
-a	1437	1438	I-Task
-modification	1439	1451	I-Task
-scheme	1452	1458	I-Task
-for	1459	1462	O
-the	1463	1466	O
-discretized	1467	1478	B-Process
-function	1479	1487	I-Process
-space	1488	1493	I-Process
-in	1494	1496	O
-case	1497	1501	O
-of	1502	1504	O
-insufficient	1505	1517	O
-regularity	1518	1528	O
-.	1528	1529	O
-
-It	1530	1532	O
-is	1533	1535	O
-also	1536	1540	O
-shown	1541	1546	O
-how	1547	1550	O
-these	1551	1556	O
-results	1557	1564	O
-can	1565	1568	O
-be	1569	1571	O
-applied	1572	1579	O
-for	1580	1583	O
-computational	1584	1597	O
-domains	1598	1605	O
-in	1606	1608	O
-higher	1609	1615	O
-dimensions	1616	1626	O
-that	1627	1631	O
-can	1632	1635	O
-be	1636	1638	O
-parameterized	1639	1652	B-Process
-via	1653	1656	O
-sweeping	1657	1665	B-Process
-.	1665	1666	O
+Isogeometric	0,12	O	B-Process
+analysis	13,21	O	I-Process
+(	22,23	O	O
+IGA	23,26	O	B-Process
+)	26,27	O	O
+is	28,30	O	O
+a	31,32	O	O
+numerical	33,42	O	B-Process
+simulation	43,53	O	I-Process
+method	54,60	O	I-Process
+which	61,66	O	O
+is	67,69	O	O
+directly	70,78	O	O
+based	79,84	O	O
+on	85,87	O	O
+the	88,91	O	O
+NURBS	92,97	O	B-Process
+-	97,98	O	I-Process
+based	98,103	O	I-Process
+representation	104,118	O	I-Process
+of	119,121	O	I-Process
+CAD	122,125	O	I-Process
+models	126,132	O	I-Process
+.	132,133	O	O
+
+It	134,136	O	O
+exploits	137,145	O	O
+the	146,149	O	O
+tensor	150,156	O	O
+-	156,157	O	O
+product	157,164	O	O
+structure	165,174	O	O
+of	175,177	O	O
+2-	178,180	O	O
+or	181,183	O	O
+3-dimensional	184,197	O	O
+NURBS	198,203	O	B-Material
+objects	204,211	O	I-Material
+to	212,214	O	O
+parameterize	215,227	O	O
+the	228,231	O	O
+physical	232,240	O	O
+domain	241,247	O	O
+.	247,248	O	O
+
+Hence	249,254	O	O
+the	255,258	O	O
+physical	259,267	O	B-Process
+domain	268,274	O	I-Process
+is	275,277	O	I-Process
+parameterized	278,291	O	I-Process
+with	292,296	O	O
+respect	297,304	O	O
+to	305,307	O	O
+a	308,309	O	O
+rectangle	310,319	O	O
+or	320,322	O	O
+to	323,325	O	O
+a	326,327	O	O
+cube	328,332	O	O
+.	332,333	O	O
+
+Consequently	334,346	O	O
+,	346,347	O	O
+singularly	348,358	O	O
+parameterized	359,372	O	O
+NURBS	373,378	O	B-Material
+surfaces	379,387	O	I-Material
+and	388,391	O	O
+NURBS	392,397	O	B-Material
+volumes	398,405	O	I-Material
+are	406,409	O	O
+needed	410,416	O	O
+in	417,419	O	O
+order	420,425	O	O
+to	426,428	O	O
+represent	429,438	O	O
+non	439,442	O	O
+-	442,443	O	O
+quadrangular	443,455	O	O
+or	456,458	O	O
+non	459,462	O	O
+-	462,463	O	O
+hexahedral	463,473	O	O
+domains	474,481	O	O
+without	482,489	O	O
+splitting	490,499	O	B-Process
+,	499,500	O	O
+thereby	501,508	O	O
+producing	509,518	O	O
+a	519,520	O	O
+very	521,525	O	O
+compact	526,533	O	O
+and	534,537	O	O
+convenient	538,548	O	O
+representation	549,563	O	O
+.	563,564	O	O
+
+The	564,567	O	O
+Galerkin	568,576	O	B-Process
+projection	577,587	O	I-Process
+introduces	588,598	O	O
+finite	599,605	O	O
+-	605,606	O	O
+dimensional	606,617	O	O
+spaces	618,624	O	O
+of	625,627	O	O
+test	628,632	O	O
+functions	633,642	O	O
+in	643,645	O	O
+the	646,649	O	O
+weak	650,654	O	O
+formulation	655,666	O	B-Process
+of	667,669	O	I-Process
+partial	670,677	O	I-Process
+differential	678,690	O	I-Process
+equations	691,700	O	I-Process
+.	700,701	O	O
+
+In	702,704	O	O
+particular	705,715	O	O
+,	715,716	O	O
+the	717,720	O	O
+test	721,725	O	O
+functions	726,735	O	O
+used	736,740	O	O
+in	741,743	O	O
+isogeometric	744,756	O	B-Process
+analysis	757,765	O	I-Process
+are	766,769	O	O
+obtained	770,778	O	O
+by	779,781	O	O
+composing	782,791	O	O
+the	792,795	O	O
+inverse	796,803	O	O
+of	804,806	O	O
+the	807,810	O	O
+domain	811,817	O	O
+parameterization	818,834	O	O
+with	835,839	O	O
+the	840,843	O	O
+NURBS	844,849	O	B-Process
+basis	850,855	O	I-Process
+functions	856,865	O	I-Process
+.	865,866	O	O
+
+In	867,869	O	O
+the	870,873	O	O
+case	874,878	O	O
+of	879,881	O	O
+singular	882,890	O	O
+parameterizations	891,908	O	O
+,	908,909	O	O
+however	910,917	O	O
+,	917,918	O	O
+some	919,923	O	O
+of	924,926	O	O
+the	927,930	O	O
+resulting	931,940	O	O
+test	941,945	O	O
+functions	946,955	O	O
+do	956,958	O	O
+not	959,962	O	O
+necessarily	963,974	O	O
+fulfill	975,982	O	O
+the	983,986	O	O
+required	987,995	O	O
+regularity	996,1006	O	O
+properties	1007,1017	O	O
+.	1017,1018	O	O
+
+Consequently	1019,1031	O	O
+,	1031,1032	O	O
+numerical	1033,1042	O	B-Process
+methods	1043,1050	O	I-Process
+for	1051,1054	O	O
+the	1055,1058	O	O
+solution	1059,1067	O	O
+of	1068,1070	O	O
+partial	1071,1078	O	O
+differential	1079,1091	O	O
+equations	1092,1101	O	O
+can	1102,1105	O	O
+not	1105,1108	O	O
+be	1109,1111	O	O
+applied	1112,1119	O	O
+properly	1120,1128	O	O
+.	1128,1129	O	O
+
+We	1129,1131	O	O
+discuss	1132,1139	O	B-Task
+the	1140,1143	O	I-Task
+regularity	1144,1154	O	I-Task
+properties	1155,1165	O	I-Task
+of	1166,1168	O	I-Task
+the	1169,1172	O	I-Task
+test	1173,1177	O	I-Task
+functions	1178,1187	O	I-Task
+.	1187,1188	O	O
+
+For	1189,1192	O	O
+one-	1193,1197	O	O
+and	1198,1201	O	O
+two	1202,1205	O	O
+-	1205,1206	O	O
+dimensional	1206,1217	O	O
+domains	1218,1225	O	O
+we	1226,1228	O	O
+consider	1229,1237	O	B-Task
+several	1238,1245	O	I-Task
+important	1246,1255	O	I-Task
+classes	1256,1263	O	I-Task
+of	1264,1266	O	I-Task
+singularities	1267,1280	O	I-Task
+of	1281,1283	O	I-Task
+NURBS	1284,1289	O	I-Task
+parameterizations	1290,1307	O	I-Task
+.	1307,1308	O	O
+
+For	1309,1312	O	O
+specific	1313,1321	O	O
+cases	1322,1327	O	O
+we	1328,1330	O	O
+derive	1331,1337	O	B-Task
+additional	1338,1348	O	I-Task
+conditions	1349,1359	O	I-Task
+which	1360,1365	O	I-Task
+guarantee	1366,1375	O	I-Task
+the	1376,1379	O	I-Task
+regularity	1380,1390	O	I-Task
+of	1391,1393	O	I-Task
+the	1394,1397	O	I-Task
+test	1398,1402	O	I-Task
+functions	1403,1412	O	I-Task
+.	1412,1413	O	O
+
+In	1414,1416	O	O
+addition	1417,1425	O	O
+we	1426,1428	O	O
+present	1429,1436	O	B-Task
+a	1437,1438	O	I-Task
+modification	1439,1451	O	I-Task
+scheme	1452,1458	O	I-Task
+for	1459,1462	O	O
+the	1463,1466	O	O
+discretized	1467,1478	O	B-Process
+function	1479,1487	O	I-Process
+space	1488,1493	O	I-Process
+in	1494,1496	O	O
+case	1497,1501	O	O
+of	1502,1504	O	O
+insufficient	1505,1517	O	O
+regularity	1518,1528	O	O
+.	1528,1529	O	O
+
+It	1530,1532	O	O
+is	1533,1535	O	O
+also	1536,1540	O	O
+shown	1541,1546	O	O
+how	1547,1550	O	O
+these	1551,1556	O	O
+results	1557,1564	O	O
+can	1565,1568	O	O
+be	1569,1571	O	O
+applied	1572,1579	O	O
+for	1580,1583	O	O
+computational	1584,1597	O	O
+domains	1598,1605	O	O
+in	1606,1608	O	O
+higher	1609,1615	O	O
+dimensions	1616,1626	O	O
+that	1627,1631	O	O
+can	1632,1635	O	O
+be	1636,1638	O	O
+parameterized	1639,1652	O	B-Process
+via	1653,1656	O	O
+sweeping	1657,1665	O	B-Process
+.	1665,1666	O	O
 
 
 -DOCSTART- (S1566253516300069)
 
-The	0	3	O
-above	4	9	O
-discussion	10	20	O
-also	21	25	O
-lays	26	30	O
-bare	31	35	O
-the	36	39	O
-difference	40	50	O
-of	51	53	O
-perspectives	54	66	O
-between	67	74	O
-the	75	78	O
-fusion	79	85	O
-of	86	88	O
-hard	89	93	B-Process
-constraints	94	105	I-Process
-and	106	109	O
-knowledge	110	119	B-Process
--	119	120	I-Process
-base	120	124	I-Process
-merging	125	132	I-Process
-:	132	133	O
-the	134	137	O
-idea	138	142	O
-of	143	145	O
-Konieczny	146	155	O
-and	156	159	O
-Pino	160	164	O
--	164	165	O
-Perez	165	170	O
-is	171	173	O
-to	174	176	O
-explain	177	184	O
-the	185	188	O
-fusion	189	195	B-Process
-of	196	198	I-Process
-plain	199	204	I-Process
-epistemic	205	214	I-Process
-states	215	221	I-Process
-,	221	222	O
-understood	223	233	O
-as	234	236	O
-a	237	238	O
-set	239	242	O
-of	243	245	O
-plausible	246	255	O
-worlds	256	262	O
-,	262	263	O
-by	264	266	O
-the	267	270	O
-existence	271	280	O
-of	281	283	O
-underlying	284	294	O
-partial	295	302	B-Process
-orderings	303	312	I-Process
-or	313	315	O
-numerical	316	325	B-Process
-plausibility	326	338	I-Process
-degrees	339	346	I-Process
-(	347	348	O
-obtained	348	356	O
-by	357	359	O
-distances	360	369	O
-)	369	370	O
-,	370	371	O
-based	372	377	O
-on	378	380	O
-axioms	381	387	O
-that	388	392	O
-only	393	397	O
-use	398	401	O
-plausible	402	411	O
-sets	412	416	O
-attached	417	425	O
-to	426	428	O
-these	429	434	O
-orderings	435	444	O
-.	444	445	O
-
-In	446	448	O
-[	449	450	O
-67	450	452	O
-]	452	453	O
-the	454	457	O
-same	458	462	O
-authors	463	470	O
-use	471	474	O
-both	475	479	O
-hard	480	484	B-Process
-(	485	486	I-Process
-integrity	486	495	I-Process
-)	495	496	I-Process
-constraints	497	508	I-Process
-and	509	512	O
-belief	513	519	B-Process
-sets	520	524	I-Process
-referring	525	534	O
-to	535	537	O
-plausible	538	547	O
-worlds	548	554	O
-,	554	555	O
-and	556	559	O
-try	560	563	O
-to	564	566	O
-extend	567	573	O
-both	574	578	O
-the	579	582	O
-AGM	583	586	B-Process
-revision	587	595	I-Process
-and	596	599	O
-knowledge	600	609	B-Process
--	609	610	I-Process
-based	610	615	I-Process
-merging	616	623	I-Process
-.	623	624	O
-
-However	625	632	O
-,	632	633	O
-they	634	638	O
-do	639	641	O
-not	642	645	O
-envisage	646	654	O
-the	655	658	O
-merging	659	666	B-Process
-of	667	669	I-Process
-integrity	670	679	I-Process
-constraints	680	691	I-Process
-discussed	692	701	O
-in	702	704	O
-the	705	708	O
-previous	709	717	O
-section	718	725	O
-.	725	726	O
-
-The	727	730	O
-belief	731	737	B-Task
-revision	738	746	I-Task
-and	747	750	I-Task
-merging	751	758	I-Task
-literature	759	769	O
-takes	770	775	O
-an	776	778	O
-external	779	787	O
-point	788	793	O
-of	794	796	O
-view	797	801	O
-on	802	804	O
-cognitive	805	814	O
-processes	815	824	O
-under	825	830	O
-study	831	836	O
-.	836	837	O
-
-The	838	841	O
-underlying	842	852	O
-ordered	853	860	B-Material
-structures	861	871	I-Material
-are	872	875	O
-here	876	880	O
-a	881	882	O
-consequence	883	894	O
-of	895	897	O
-the	898	901	O
-merging	902	909	O
-postulates	910	920	O
-,	920	921	O
-but	922	925	O
-they	926	930	O
-do	931	933	O
-not	934	937	O
-appear	938	944	O
-explicitly	945	955	O
-in	956	958	O
-the	959	962	O
-axioms	963	969	O
-and	970	973	O
-they	974	978	O
-are	979	982	O
-not	983	986	O
-observable	987	997	O
-from	998	1002	O
-the	1003	1006	O
-outside	1007	1014	O
-.	1014	1015	O
-
-On	1016	1018	O
-the	1019	1022	O
-contrary	1023	1031	O
-,	1031	1032	O
-our	1033	1036	O
-approach	1037	1045	O
-is	1046	1048	O
-to	1049	1051	O
-construct	1052	1061	B-Process
-fusion	1062	1068	I-Process
-rules	1069	1074	I-Process
-that	1075	1079	O
-only	1080	1084	O
-rely	1085	1089	O
-on	1090	1092	O
-what	1093	1097	O
-is	1098	1100	O
-explicitly	1101	1111	O
-supplied	1112	1120	O
-by	1121	1123	O
-sources	1124	1131	O
-.	1131	1132	O
-
-In	1133	1135	O
-the	1136	1139	O
-sequel	1140	1146	O
-we	1147	1149	O
-consider	1150	1158	O
-the	1159	1162	O
-counterpart	1163	1174	O
-of	1175	1177	O
-our	1178	1181	O
-fusion	1182	1188	O
-postulates	1189	1199	O
-for	1200	1203	O
-ranked	1204	1210	B-Process
-models	1211	1217	I-Process
-,	1217	1218	O
-that	1219	1223	O
-can	1224	1227	O
-be	1228	1230	O
-expressed	1231	1240	O
-by	1241	1243	O
-means	1244	1249	O
-of	1250	1252	O
-total	1253	1258	O
-orders	1259	1265	O
-of	1266	1268	O
-possible	1269	1277	O
-worlds	1278	1284	O
-or	1285	1287	O
-by	1288	1290	O
-their	1291	1296	O
-encodings	1297	1306	O
-on	1307	1309	O
-a	1310	1311	O
-plausibility	1312	1324	O
-scale	1325	1330	O
-.	1330	1331	O
+The	0,3	O	O
+above	4,9	O	O
+discussion	10,20	O	O
+also	21,25	O	O
+lays	26,30	O	O
+bare	31,35	O	O
+the	36,39	O	O
+difference	40,50	O	O
+of	51,53	O	O
+perspectives	54,66	O	O
+between	67,74	O	O
+the	75,78	O	O
+fusion	79,85	O	O
+of	86,88	O	O
+hard	89,93	O	B-Process
+constraints	94,105	O	I-Process
+and	106,109	O	O
+knowledge	110,119	O	B-Process
+-	119,120	O	I-Process
+base	120,124	O	I-Process
+merging	125,132	O	I-Process
+:	132,133	O	O
+the	134,137	O	O
+idea	138,142	O	O
+of	143,145	O	O
+Konieczny	146,155	O	O
+and	156,159	O	O
+Pino	160,164	O	O
+-	164,165	O	O
+Perez	165,170	O	O
+is	171,173	O	O
+to	174,176	O	O
+explain	177,184	O	O
+the	185,188	O	O
+fusion	189,195	O	B-Process
+of	196,198	O	I-Process
+plain	199,204	O	I-Process
+epistemic	205,214	O	I-Process
+states	215,221	O	I-Process
+,	221,222	O	O
+understood	223,233	O	O
+as	234,236	O	O
+a	237,238	O	O
+set	239,242	O	O
+of	243,245	O	O
+plausible	246,255	O	O
+worlds	256,262	O	O
+,	262,263	O	O
+by	264,266	O	O
+the	267,270	O	O
+existence	271,280	O	O
+of	281,283	O	O
+underlying	284,294	O	O
+partial	295,302	O	B-Process
+orderings	303,312	O	I-Process
+or	313,315	O	O
+numerical	316,325	O	B-Process
+plausibility	326,338	O	I-Process
+degrees	339,346	O	I-Process
+(	347,348	O	O
+obtained	348,356	O	O
+by	357,359	O	O
+distances	360,369	O	O
+)	369,370	O	O
+,	370,371	O	O
+based	372,377	O	O
+on	378,380	O	O
+axioms	381,387	O	O
+that	388,392	O	O
+only	393,397	O	O
+use	398,401	O	O
+plausible	402,411	O	O
+sets	412,416	O	O
+attached	417,425	O	O
+to	426,428	O	O
+these	429,434	O	O
+orderings	435,444	O	O
+.	444,445	O	O
+
+In	446,448	O	O
+[	449,450	O	O
+67	450,452	O	O
+]	452,453	O	O
+the	454,457	O	O
+same	458,462	O	O
+authors	463,470	O	O
+use	471,474	O	O
+both	475,479	O	O
+hard	480,484	O	B-Process
+(	485,486	O	I-Process
+integrity	486,495	O	I-Process
+)	495,496	O	I-Process
+constraints	497,508	O	I-Process
+and	509,512	O	O
+belief	513,519	O	B-Process
+sets	520,524	O	I-Process
+referring	525,534	O	O
+to	535,537	O	O
+plausible	538,547	O	O
+worlds	548,554	O	O
+,	554,555	O	O
+and	556,559	O	O
+try	560,563	O	O
+to	564,566	O	O
+extend	567,573	O	O
+both	574,578	O	O
+the	579,582	O	O
+AGM	583,586	O	B-Process
+revision	587,595	O	I-Process
+and	596,599	O	O
+knowledge	600,609	O	B-Process
+-	609,610	O	I-Process
+based	610,615	O	I-Process
+merging	616,623	O	I-Process
+.	623,624	O	O
+
+However	625,632	O	O
+,	632,633	O	O
+they	634,638	O	O
+do	639,641	O	O
+not	642,645	O	O
+envisage	646,654	O	O
+the	655,658	O	O
+merging	659,666	O	B-Process
+of	667,669	O	I-Process
+integrity	670,679	O	I-Process
+constraints	680,691	O	I-Process
+discussed	692,701	O	O
+in	702,704	O	O
+the	705,708	O	O
+previous	709,717	O	O
+section	718,725	O	O
+.	725,726	O	O
+
+The	727,730	O	O
+belief	731,737	O	B-Task
+revision	738,746	O	I-Task
+and	747,750	O	I-Task
+merging	751,758	O	I-Task
+literature	759,769	O	O
+takes	770,775	O	O
+an	776,778	O	O
+external	779,787	O	O
+point	788,793	O	O
+of	794,796	O	O
+view	797,801	O	O
+on	802,804	O	O
+cognitive	805,814	O	O
+processes	815,824	O	O
+under	825,830	O	O
+study	831,836	O	O
+.	836,837	O	O
+
+The	838,841	O	O
+underlying	842,852	O	O
+ordered	853,860	O	B-Material
+structures	861,871	O	I-Material
+are	872,875	O	O
+here	876,880	O	O
+a	881,882	O	O
+consequence	883,894	O	O
+of	895,897	O	O
+the	898,901	O	O
+merging	902,909	O	O
+postulates	910,920	O	O
+,	920,921	O	O
+but	922,925	O	O
+they	926,930	O	O
+do	931,933	O	O
+not	934,937	O	O
+appear	938,944	O	O
+explicitly	945,955	O	O
+in	956,958	O	O
+the	959,962	O	O
+axioms	963,969	O	O
+and	970,973	O	O
+they	974,978	O	O
+are	979,982	O	O
+not	983,986	O	O
+observable	987,997	O	O
+from	998,1002	O	O
+the	1003,1006	O	O
+outside	1007,1014	O	O
+.	1014,1015	O	O
+
+On	1016,1018	O	O
+the	1019,1022	O	O
+contrary	1023,1031	O	O
+,	1031,1032	O	O
+our	1033,1036	O	O
+approach	1037,1045	O	O
+is	1046,1048	O	O
+to	1049,1051	O	O
+construct	1052,1061	O	B-Process
+fusion	1062,1068	O	I-Process
+rules	1069,1074	O	I-Process
+that	1075,1079	O	O
+only	1080,1084	O	O
+rely	1085,1089	O	O
+on	1090,1092	O	O
+what	1093,1097	O	O
+is	1098,1100	O	O
+explicitly	1101,1111	O	O
+supplied	1112,1120	O	O
+by	1121,1123	O	O
+sources	1124,1131	O	O
+.	1131,1132	O	O
+
+In	1133,1135	O	O
+the	1136,1139	O	O
+sequel	1140,1146	O	O
+we	1147,1149	O	O
+consider	1150,1158	O	O
+the	1159,1162	O	O
+counterpart	1163,1174	O	O
+of	1175,1177	O	O
+our	1178,1181	O	O
+fusion	1182,1188	O	O
+postulates	1189,1199	O	O
+for	1200,1203	O	O
+ranked	1204,1210	O	B-Process
+models	1211,1217	O	I-Process
+,	1217,1218	O	O
+that	1219,1223	O	O
+can	1224,1227	O	O
+be	1228,1230	O	O
+expressed	1231,1240	O	O
+by	1241,1243	O	O
+means	1244,1249	O	O
+of	1250,1252	O	O
+total	1253,1258	O	O
+orders	1259,1265	O	O
+of	1266,1268	O	O
+possible	1269,1277	O	O
+worlds	1278,1284	O	O
+or	1285,1287	O	O
+by	1288,1290	O	O
+their	1291,1296	O	O
+encodings	1297,1306	O	O
+on	1307,1309	O	O
+a	1310,1311	O	O
+plausibility	1312,1324	O	O
+scale	1325,1330	O	O
+.	1330,1331	O	O
 
 
 -DOCSTART- (S1566253516300252)
 
-Methods	0	7	O
-for	8	11	O
-anomaly	12	19	B-Task
-detection	20	29	I-Task
-in	30	32	O
-a	33	34	O
-local	35	40	O
-context	41	48	O
-are	49	52	O
-the	53	56	O
-conceptual	57	67	O
-opposite	68	76	O
-to	77	79	O
-the	80	83	O
-afore	84	89	B-Material
--	89	90	I-Material
-described	90	99	I-Material
-centralized	100	111	I-Material
-methods	112	119	I-Material
-,	119	120	O
-which	121	126	O
-rely	127	131	O
-on	132	134	O
-globally	135	143	B-Material
-shared	144	150	I-Material
-models	151	157	I-Material
-.	157	158	O
-
-In	159	161	O
-data	162	166	B-Task
-mining	167	173	I-Task
-,	173	174	O
-the	175	178	O
-notion	179	185	B-Task
-of	186	188	I-Task
-locality	189	197	I-Task
-is	198	200	O
-often	201	206	O
-given	207	212	O
-as	213	215	O
-distance	216	224	B-Material
-between	225	232	I-Material
-data	233	237	I-Material
-values	238	244	I-Material
-(	245	246	O
-given	246	251	O
-a	252	253	B-Material
-specific	254	262	I-Material
-distance	263	271	I-Material
-metric	272	278	I-Material
-such	279	283	I-Material
-as	284	286	I-Material
-Euclidean	287	296	I-Material
-distance	297	305	I-Material
-)	305	306	O
-.	306	307	O
-
-A	308	309	O
-data	310	314	O
-point	315	320	O
-is	321	323	O
-compared	324	332	B-Process
-to	333	335	I-Process
-the	336	339	I-Process
-value	340	345	I-Process
-of	346	348	I-Process
-its	349	352	I-Process
-nearest	353	360	I-Process
-neighbors	361	370	I-Process
-in	371	373	O
-terms	374	379	O
-of	380	382	O
-data	383	387	O
-distance	388	396	O
-[	397	398	O
-42	398	400	O
-]	400	401	O
-.	401	402	O
-
-However	403	410	O
-,	410	411	O
-the	412	415	B-Task
-notion	416	422	I-Task
-of	423	425	I-Task
-locality	426	434	I-Task
-can	435	438	O
-also	439	443	O
-be	444	446	O
-given	447	452	O
-in	453	455	O
-a	456	457	B-Material
-geographical	458	470	I-Material
-distance	471	479	I-Material
-between	480	487	O
-the	488	491	O
-sources	492	499	O
-of	500	502	O
-the	503	506	O
-data	507	511	O
-.	511	512	O
-
-Many	513	517	B-Material
-similar	518	525	I-Material
-values	526	532	I-Material
-(	533	534	O
-i.e.	534	538	O
-,	538	539	O
-data	540	544	O
-with	545	549	O
-small	550	555	O
-distance	556	564	O
-among	565	570	O
-each	571	575	O
-other	576	581	O
-)	581	582	O
-result	583	589	O
-in	590	592	O
-a	593	594	O
-higher	595	601	O
-density	602	609	O
-,	609	610	O
-called	611	617	O
-clusters	618	626	B-Material
-,	626	627	O
-while	628	633	O
-values	634	640	B-Process
-that	641	645	I-Process
-are	646	649	I-Process
-less	650	654	I-Process
-similar	655	662	I-Process
-result	663	669	I-Process
-in	670	672	I-Process
-a	673	674	I-Process
-lower	675	680	I-Process
-density	681	688	I-Process
-.	688	689	O
-
-Anomalies	690	699	B-Task
-can	700	703	O
-fall	704	708	O
-outside	709	716	O
-of	717	719	O
-any	720	723	O
-cluster	724	731	B-Material
-but	732	735	O
-,	735	736	O
-when	737	741	O
-frequently	742	752	O
-occurring	753	762	O
-,	762	763	O
-can	764	767	B-Process
-form	768	772	I-Process
-a	773	774	I-Process
-cluster	775	782	I-Process
-too	783	786	O
-.	786	787	O
-
-Determining	788	799	B-Task
-if	800	802	I-Task
-a	803	804	I-Task
-datum	805	810	I-Task
-is	811	813	I-Task
-normal	814	820	I-Task
-or	821	823	I-Task
-anomalous	824	833	I-Task
-compared	834	842	O
-to	843	845	O
-local	846	851	O
-neighborhood	852	864	O
-data	865	869	O
-is	870	872	O
-a	873	874	O
-challenge	875	884	O
-.	884	885	O
+Methods	0,7	O	O
+for	8,11	O	O
+anomaly	12,19	O	B-Task
+detection	20,29	O	I-Task
+in	30,32	O	O
+a	33,34	O	O
+local	35,40	O	O
+context	41,48	O	O
+are	49,52	O	O
+the	53,56	O	O
+conceptual	57,67	O	O
+opposite	68,76	O	O
+to	77,79	O	O
+the	80,83	O	O
+afore	84,89	O	B-Material
+-	89,90	O	I-Material
+described	90,99	O	I-Material
+centralized	100,111	O	I-Material
+methods	112,119	O	I-Material
+,	119,120	O	O
+which	121,126	O	O
+rely	127,131	O	O
+on	132,134	O	O
+globally	135,143	O	B-Material
+shared	144,150	O	I-Material
+models	151,157	O	I-Material
+.	157,158	O	O
+
+In	159,161	O	O
+data	162,166	O	B-Task
+mining	167,173	O	I-Task
+,	173,174	O	O
+the	175,178	O	O
+notion	179,185	O	B-Task
+of	186,188	O	I-Task
+locality	189,197	O	I-Task
+is	198,200	O	O
+often	201,206	O	O
+given	207,212	O	O
+as	213,215	O	O
+distance	216,224	O	B-Material
+between	225,232	O	I-Material
+data	233,237	O	I-Material
+values	238,244	O	I-Material
+(	245,246	O	O
+given	246,251	O	O
+a	252,253	O	B-Material
+specific	254,262	O	I-Material
+distance	263,271	O	I-Material
+metric	272,278	O	I-Material
+such	279,283	O	I-Material
+as	284,286	O	I-Material
+Euclidean	287,296	O	I-Material
+distance	297,305	O	I-Material
+)	305,306	O	O
+.	306,307	O	O
+
+A	308,309	O	O
+data	310,314	O	O
+point	315,320	O	O
+is	321,323	O	O
+compared	324,332	O	B-Process
+to	333,335	O	I-Process
+the	336,339	O	I-Process
+value	340,345	O	I-Process
+of	346,348	O	I-Process
+its	349,352	O	I-Process
+nearest	353,360	O	I-Process
+neighbors	361,370	O	I-Process
+in	371,373	O	O
+terms	374,379	O	O
+of	380,382	O	O
+data	383,387	O	O
+distance	388,396	O	O
+[	397,398	O	O
+42	398,400	O	O
+]	400,401	O	O
+.	401,402	O	O
+
+However	403,410	O	O
+,	410,411	O	O
+the	412,415	O	B-Task
+notion	416,422	O	I-Task
+of	423,425	O	I-Task
+locality	426,434	O	I-Task
+can	435,438	O	O
+also	439,443	O	O
+be	444,446	O	O
+given	447,452	O	O
+in	453,455	O	O
+a	456,457	O	B-Material
+geographical	458,470	O	I-Material
+distance	471,479	O	I-Material
+between	480,487	O	O
+the	488,491	O	O
+sources	492,499	O	O
+of	500,502	O	O
+the	503,506	O	O
+data	507,511	O	O
+.	511,512	O	O
+
+Many	513,517	O	B-Material
+similar	518,525	O	I-Material
+values	526,532	O	I-Material
+(	533,534	O	O
+i.e.	534,538	O	O
+,	538,539	O	O
+data	540,544	O	O
+with	545,549	O	O
+small	550,555	O	O
+distance	556,564	O	O
+among	565,570	O	O
+each	571,575	O	O
+other	576,581	O	O
+)	581,582	O	O
+result	583,589	O	O
+in	590,592	O	O
+a	593,594	O	O
+higher	595,601	O	O
+density	602,609	O	O
+,	609,610	O	O
+called	611,617	O	O
+clusters	618,626	O	B-Material
+,	626,627	O	O
+while	628,633	O	O
+values	634,640	O	B-Process
+that	641,645	O	I-Process
+are	646,649	O	I-Process
+less	650,654	O	I-Process
+similar	655,662	O	I-Process
+result	663,669	O	I-Process
+in	670,672	O	I-Process
+a	673,674	O	I-Process
+lower	675,680	O	I-Process
+density	681,688	O	I-Process
+.	688,689	O	O
+
+Anomalies	690,699	O	B-Task
+can	700,703	O	O
+fall	704,708	O	O
+outside	709,716	O	O
+of	717,719	O	O
+any	720,723	O	O
+cluster	724,731	O	B-Material
+but	732,735	O	O
+,	735,736	O	O
+when	737,741	O	O
+frequently	742,752	O	O
+occurring	753,762	O	O
+,	762,763	O	O
+can	764,767	O	B-Process
+form	768,772	O	I-Process
+a	773,774	O	I-Process
+cluster	775,782	O	I-Process
+too	783,786	O	O
+.	786,787	O	O
+
+Determining	788,799	O	B-Task
+if	800,802	O	I-Task
+a	803,804	O	I-Task
+datum	805,810	O	I-Task
+is	811,813	O	I-Task
+normal	814,820	O	I-Task
+or	821,823	O	I-Task
+anomalous	824,833	O	I-Task
+compared	834,842	O	O
+to	843,845	O	O
+local	846,851	O	O
+neighborhood	852,864	O	O
+data	865,869	O	O
+is	870,872	O	O
+a	873,874	O	O
+challenge	875,884	O	O
+.	884,885	O	O
 
 
 -DOCSTART- (S1570870516301822)
 
-MWSN	0	4	B-Process
-routing	5	12	I-Process
-protocols	13	22	I-Process
-generally	23	32	O
-take	33	37	O
-influence	38	47	O
-from	48	52	O
-both	53	57	O
-WSN	58	61	B-Process
-and	62	65	O
-mobile	66	72	B-Process
-ad	73	75	I-Process
-hoc	76	79	I-Process
-network	80	87	I-Process
-(	88	89	O
-MANET	89	94	B-Process
-)	94	95	O
-routing	96	103	B-Process
-protocols	104	113	I-Process
-,	113	114	O
-which	115	120	O
-all	121	124	O
-share	125	130	O
-common	131	137	O
-limitations	138	149	O
-,	149	150	O
-such	151	155	O
-as	156	158	O
-bandwidth	159	168	O
-,	168	169	O
-power	170	175	O
-and	176	179	O
-cost	180	184	O
-.	184	185	O
-
-WSNs	186	190	B-Process
-often	191	196	O
-share	197	202	O
-the	203	206	O
-same	207	211	O
-aim	212	215	O
-as	216	218	O
-MWSNs	219	224	B-Process
-,	224	225	O
-in	226	228	O
-that	229	233	O
-they	234	238	O
-wish	239	243	O
-to	244	246	O
-route	247	252	B-Process
-data	253	257	I-Process
-from	258	262	O
-many	263	267	O
-sensors	268	275	B-Material
-to	276	278	O
-a	279	280	O
-single	281	287	O
-sink	288	292	O
-.	292	293	O
-
-However	294	301	O
-,	301	302	O
-WSNs	303	307	B-Process
-are	308	311	O
-normally	312	320	O
-considered	321	331	O
-to	332	334	O
-be	335	337	O
-static	338	344	O
-and	345	348	O
-so	349	351	O
-the	352	355	O
-associated	356	366	O
-routing	367	374	O
-protocols	375	384	O
-are	385	388	O
-often	389	394	O
-unable	395	401	O
-to	402	404	O
-cope	405	409	O
-in	410	412	O
-a	413	414	O
-mobile	415	421	O
-scenario	422	430	O
-[	431	432	O
-10	432	434	O
-]	434	435	O
-.	435	436	O
-
-Alternatively	437	450	O
-,	450	451	O
-MANET	452	457	B-Process
-protocols	458	467	I-Process
-are	468	471	O
-designed	472	480	O
-to	481	483	O
-be	484	486	O
-able	487	491	O
-to	492	494	O
-cope	495	499	O
-with	500	504	O
-the	505	508	O
-mobility	509	517	O
-of	518	520	O
-nodes	521	526	O
-,	526	527	O
-however	528	535	O
-they	536	540	O
-aim	541	544	O
-to	545	547	O
-allow	548	553	O
-end	554	557	O
--	557	558	O
-to	558	560	O
--	560	561	O
-end	561	564	O
-communication	565	578	O
-to	579	581	O
-occur	582	587	O
-between	588	595	O
-any	596	599	O
-two	600	603	O
-nodes	604	609	O
-[	610	611	O
-2	611	612	O
-]	612	613	O
-.	613	614	O
-
-This	615	619	O
-extra	620	625	O
-functionality	626	639	O
-is	640	642	O
-often	643	648	O
-not	649	652	O
-required	653	661	O
-by	662	664	O
-MWSNs	665	670	B-Process
-and	671	674	O
-so	675	677	O
-the	678	681	O
-additional	682	692	O
-overhead	693	701	O
-is	702	704	O
-unnecessary	705	716	O
-.	716	717	O
-
-Combined	718	726	O
-with	727	731	O
-the	732	735	O
-high	736	740	O
-packet	741	747	O
-delivery	748	756	O
-ratios	757	763	O
-and	764	767	O
-low	768	771	O
-delays	772	778	O
-that	779	783	O
-are	784	787	O
-demanded	788	796	O
-by	797	799	O
-emerging	800	808	O
-applications	809	821	O
-,	821	822	O
-the	823	826	O
-ideal	827	832	O
-routing	833	840	O
-solution	841	849	O
-for	850	853	O
-a	854	855	O
-MWSN	856	860	B-Process
-is	861	863	O
-one	864	867	O
-that	868	872	O
-can	873	876	O
-handle	877	883	O
-the	884	887	O
-mobility	888	896	O
-of	897	899	O
-nodes	900	905	O
-and	906	909	O
-allows	910	916	O
-data	917	921	O
-to	922	924	O
-be	925	927	O
-forwarded	928	937	O
-from	938	942	O
-the	943	946	O
-sensors	947	954	O
-to	955	957	O
-the	958	961	O
-sink	962	966	O
-in	967	969	O
-a	970	971	O
-reliable	972	980	O
-and	981	984	O
-timely	985	991	O
-manner	992	998	O
-.	998	999	O
-
-This	1000	1004	O
-set	1005	1008	O
-of	1009	1011	O
-requirements	1012	1024	O
-make	1025	1029	O
-the	1030	1033	O
-problem	1034	1041	O
-of	1042	1044	O
-routing	1045	1052	B-Task
-in	1053	1055	I-Task
-a	1056	1057	I-Task
-MWSN	1058	1062	I-Task
-a	1063	1064	O
-unique	1065	1071	O
-challenge	1072	1081	O
-,	1081	1082	O
-which	1083	1088	O
-will	1089	1093	O
-require	1094	1101	O
-new	1102	1105	O
-specifically	1106	1118	O
-designed	1119	1127	O
-solutions	1128	1137	O
-.	1137	1138	O
-
-For	1139	1142	O
-this	1143	1147	O
-reason	1148	1154	O
-there	1155	1160	O
-have	1161	1165	O
-been	1166	1170	O
-many	1171	1175	O
-routing	1176	1183	O
-protocols	1184	1193	O
-designed	1194	1202	O
-for	1203	1206	O
-MWSNs	1207	1212	B-Process
-.	1212	1213	O
-
-As	1214	1216	O
-such	1217	1221	O
-,	1221	1222	O
-this	1223	1227	O
-section	1228	1235	O
-will	1236	1240	O
-give	1241	1245	O
-an	1246	1248	O
-overview	1249	1257	O
-of	1258	1260	O
-the	1261	1264	O
-current	1265	1272	O
-literature	1273	1283	O
-,	1283	1284	O
-which	1285	1290	O
-highlights	1291	1301	O
-the	1302	1305	O
-different	1306	1315	O
-techniques	1316	1326	O
-and	1327	1330	O
-commonly	1331	1339	O
-used	1340	1344	O
-protocols	1345	1354	O
-in	1355	1357	O
-MWSN	1358	1362	B-Process
-routing	1363	1370	I-Process
-.	1370	1371	O
+MWSN	0,4	O	B-Process
+routing	5,12	O	I-Process
+protocols	13,22	O	I-Process
+generally	23,32	O	O
+take	33,37	O	O
+influence	38,47	O	O
+from	48,52	O	O
+both	53,57	O	O
+WSN	58,61	O	B-Process
+and	62,65	O	O
+mobile	66,72	O	B-Process
+ad	73,75	O	I-Process
+hoc	76,79	O	I-Process
+network	80,87	O	I-Process
+(	88,89	O	O
+MANET	89,94	O	B-Process
+)	94,95	O	O
+routing	96,103	O	B-Process
+protocols	104,113	O	I-Process
+,	113,114	O	O
+which	115,120	O	O
+all	121,124	O	O
+share	125,130	O	O
+common	131,137	O	O
+limitations	138,149	O	O
+,	149,150	O	O
+such	151,155	O	O
+as	156,158	O	O
+bandwidth	159,168	O	O
+,	168,169	O	O
+power	170,175	O	O
+and	176,179	O	O
+cost	180,184	O	O
+.	184,185	O	O
+
+WSNs	186,190	O	B-Process
+often	191,196	O	O
+share	197,202	O	O
+the	203,206	O	O
+same	207,211	O	O
+aim	212,215	O	O
+as	216,218	O	O
+MWSNs	219,224	O	B-Process
+,	224,225	O	O
+in	226,228	O	O
+that	229,233	O	O
+they	234,238	O	O
+wish	239,243	O	O
+to	244,246	O	O
+route	247,252	O	B-Process
+data	253,257	O	I-Process
+from	258,262	O	O
+many	263,267	O	O
+sensors	268,275	O	B-Material
+to	276,278	O	O
+a	279,280	O	O
+single	281,287	O	O
+sink	288,292	O	O
+.	292,293	O	O
+
+However	294,301	O	O
+,	301,302	O	O
+WSNs	303,307	O	B-Process
+are	308,311	O	O
+normally	312,320	O	O
+considered	321,331	O	O
+to	332,334	O	O
+be	335,337	O	O
+static	338,344	O	O
+and	345,348	O	O
+so	349,351	O	O
+the	352,355	O	O
+associated	356,366	O	O
+routing	367,374	O	O
+protocols	375,384	O	O
+are	385,388	O	O
+often	389,394	O	O
+unable	395,401	O	O
+to	402,404	O	O
+cope	405,409	O	O
+in	410,412	O	O
+a	413,414	O	O
+mobile	415,421	O	O
+scenario	422,430	O	O
+[	431,432	O	O
+10	432,434	O	O
+]	434,435	O	O
+.	435,436	O	O
+
+Alternatively	437,450	O	O
+,	450,451	O	O
+MANET	452,457	O	B-Process
+protocols	458,467	O	I-Process
+are	468,471	O	O
+designed	472,480	O	O
+to	481,483	O	O
+be	484,486	O	O
+able	487,491	O	O
+to	492,494	O	O
+cope	495,499	O	O
+with	500,504	O	O
+the	505,508	O	O
+mobility	509,517	O	O
+of	518,520	O	O
+nodes	521,526	O	O
+,	526,527	O	O
+however	528,535	O	O
+they	536,540	O	O
+aim	541,544	O	O
+to	545,547	O	O
+allow	548,553	O	O
+end	554,557	O	O
+-	557,558	O	O
+to	558,560	O	O
+-	560,561	O	O
+end	561,564	O	O
+communication	565,578	O	O
+to	579,581	O	O
+occur	582,587	O	O
+between	588,595	O	O
+any	596,599	O	O
+two	600,603	O	O
+nodes	604,609	O	O
+[	610,611	O	O
+2	611,612	O	O
+]	612,613	O	O
+.	613,614	O	O
+
+This	615,619	O	O
+extra	620,625	O	O
+functionality	626,639	O	O
+is	640,642	O	O
+often	643,648	O	O
+not	649,652	O	O
+required	653,661	O	O
+by	662,664	O	O
+MWSNs	665,670	O	B-Process
+and	671,674	O	O
+so	675,677	O	O
+the	678,681	O	O
+additional	682,692	O	O
+overhead	693,701	O	O
+is	702,704	O	O
+unnecessary	705,716	O	O
+.	716,717	O	O
+
+Combined	718,726	O	O
+with	727,731	O	O
+the	732,735	O	O
+high	736,740	O	O
+packet	741,747	O	O
+delivery	748,756	O	O
+ratios	757,763	O	O
+and	764,767	O	O
+low	768,771	O	O
+delays	772,778	O	O
+that	779,783	O	O
+are	784,787	O	O
+demanded	788,796	O	O
+by	797,799	O	O
+emerging	800,808	O	O
+applications	809,821	O	O
+,	821,822	O	O
+the	823,826	O	O
+ideal	827,832	O	O
+routing	833,840	O	O
+solution	841,849	O	O
+for	850,853	O	O
+a	854,855	O	O
+MWSN	856,860	O	B-Process
+is	861,863	O	O
+one	864,867	O	O
+that	868,872	O	O
+can	873,876	O	O
+handle	877,883	O	O
+the	884,887	O	O
+mobility	888,896	O	O
+of	897,899	O	O
+nodes	900,905	O	O
+and	906,909	O	O
+allows	910,916	O	O
+data	917,921	O	O
+to	922,924	O	O
+be	925,927	O	O
+forwarded	928,937	O	O
+from	938,942	O	O
+the	943,946	O	O
+sensors	947,954	O	O
+to	955,957	O	O
+the	958,961	O	O
+sink	962,966	O	O
+in	967,969	O	O
+a	970,971	O	O
+reliable	972,980	O	O
+and	981,984	O	O
+timely	985,991	O	O
+manner	992,998	O	O
+.	998,999	O	O
+
+This	1000,1004	O	O
+set	1005,1008	O	O
+of	1009,1011	O	O
+requirements	1012,1024	O	O
+make	1025,1029	O	O
+the	1030,1033	O	O
+problem	1034,1041	O	O
+of	1042,1044	O	O
+routing	1045,1052	O	B-Task
+in	1053,1055	O	I-Task
+a	1056,1057	O	I-Task
+MWSN	1058,1062	O	I-Task
+a	1063,1064	O	O
+unique	1065,1071	O	O
+challenge	1072,1081	O	O
+,	1081,1082	O	O
+which	1083,1088	O	O
+will	1089,1093	O	O
+require	1094,1101	O	O
+new	1102,1105	O	O
+specifically	1106,1118	O	O
+designed	1119,1127	O	O
+solutions	1128,1137	O	O
+.	1137,1138	O	O
+
+For	1139,1142	O	O
+this	1143,1147	O	O
+reason	1148,1154	O	O
+there	1155,1160	O	O
+have	1161,1165	O	O
+been	1166,1170	O	O
+many	1171,1175	O	O
+routing	1176,1183	O	O
+protocols	1184,1193	O	O
+designed	1194,1202	O	O
+for	1203,1206	O	O
+MWSNs	1207,1212	O	B-Process
+.	1212,1213	O	O
+
+As	1214,1216	O	O
+such	1217,1221	O	O
+,	1221,1222	O	O
+this	1223,1227	O	O
+section	1228,1235	O	O
+will	1236,1240	O	O
+give	1241,1245	O	O
+an	1246,1248	O	O
+overview	1249,1257	O	O
+of	1258,1260	O	O
+the	1261,1264	O	O
+current	1265,1272	O	O
+literature	1273,1283	O	O
+,	1283,1284	O	O
+which	1285,1290	O	O
+highlights	1291,1301	O	O
+the	1302,1305	O	O
+different	1306,1315	O	O
+techniques	1316,1326	O	O
+and	1327,1330	O	O
+commonly	1331,1339	O	O
+used	1340,1344	O	O
+protocols	1345,1354	O	O
+in	1355,1357	O	O
+MWSN	1358,1362	O	B-Process
+routing	1363,1370	O	I-Process
+.	1370,1371	O	O
 
 
 -DOCSTART- (S1875952116300209)
 
-In	0	2	O
-order	3	8	O
-to	9	11	O
-test	12	16	B-Task
-whether	17	24	I-Task
-haptic	25	31	I-Task
-patterns	32	40	I-Task
-can	41	44	I-Task
-convey	45	51	I-Task
-or	52	54	I-Task
-enhance	55	62	I-Task
-the	63	66	I-Task
-mood	67	71	I-Task
-music	72	77	I-Task
-of	78	80	O
-a	81	82	O
-movie	83	88	O
-,	88	89	O
-an	90	92	O
-affective	93	102	B-Material
-movie	103	108	I-Material
-clip	109	113	I-Material
-corpus	114	120	I-Material
-was	121	124	O
-required	125	133	O
-consisting	134	144	O
-of	145	147	O
-clips	148	153	O
-labeled	154	161	O
-according	162	171	O
-to	172	174	O
-the	175	178	O
-emotion	179	186	O
-conveyed	187	195	O
-in	196	198	O
-the	199	202	O
-mood	203	207	O
-music	208	213	O
-.	213	214	O
-
-The	215	218	O
-following	219	228	O
-database	229	237	B-Material
-collections	238	249	I-Material
-were	250	254	O
-examined	255	263	O
-as	264	266	O
-possible	267	275	O
-sources	276	283	O
-for	284	287	O
-the	288	291	O
-corpus	292	298	O
-:	298	299	O
-the	300	303	O
-Emotional	304	313	B-Material
-Movie	314	319	I-Material
-Database	320	328	I-Material
-(	329	330	O
-EMDB	330	334	B-Material
-)	334	335	O
-[	336	337	O
-19	337	339	O
-]	339	340	O
-,	340	341	O
-and	342	345	O
-Film	346	350	B-Material
-Stim	351	355	I-Material
-[	356	357	O
-20	357	359	O
-]	359	360	O
-.	360	361	O
-
-However	362	369	O
-,	369	370	O
-these	371	376	O
-were	377	381	O
-discarded	382	391	O
-after	392	397	O
-review	398	404	B-Process
-as	405	407	O
-unsuitable	408	418	O
-.	418	419	O
-
-The	420	423	O
-aim	424	427	O
-of	428	430	O
-this	431	435	O
-study	436	441	O
-is	442	444	O
-to	445	447	O
-enhance	448	455	B-Task
-the	456	459	I-Task
-mood	460	464	I-Task
-in	465	467	O
-the	468	471	O
-film	472	476	O
-score	477	482	O
-,	482	483	O
-and	484	487	O
-in	488	490	O
-the	491	494	O
-case	495	499	O
-of	500	502	O
-the	503	506	O
-clips	507	512	O
-in	513	515	O
-the	516	519	O
-EMDB	520	524	B-Material
-,	524	525	O
-no	526	528	O
-audio	529	534	O
-is	535	537	O
-provided	538	546	O
-which	547	552	O
-deemed	553	559	O
-the	560	563	O
-clips	564	569	O
-unsuitable	570	580	O
-.	580	581	O
-
-In	582	584	O
-the	585	588	O
-case	589	593	O
-of	594	596	O
-the	597	600	O
-Film	601	605	B-Material
-Stim	606	610	I-Material
-database	611	619	I-Material
-,	619	620	O
-the	621	624	O
-clips	625	630	O
-are	631	634	O
-in	635	637	O
-French	638	644	O
-rather	645	651	O
-than	652	656	O
-English	657	664	O
-,	664	665	O
-and	666	669	O
-with	670	674	O
-no	675	677	O
-subtitles	678	687	O
-which	688	693	O
-where	694	699	O
-also	700	704	O
-deemed	705	711	O
-unsuitable	712	722	O
-since	723	728	O
-the	729	732	O
-studies	733	740	O
-are	741	744	O
-carried	745	752	O
-out	753	756	O
-with	757	761	O
-English	762	769	B-Material
-speaking	770	778	I-Material
-participants	779	791	I-Material
-.	791	792	O
-
-Furthermore	793	804	O
-,	804	805	O
-the	806	809	O
-Film	810	814	B-Material
-Stim	815	819	I-Material
-selection	820	829	I-Material
-is	830	832	O
-based	833	838	O
-on	839	841	O
-the	842	845	O
-affective	846	855	O
-content	856	863	O
-of	864	866	O
-the	867	870	O
-narrative	871	880	O
-as	881	883	O
-in	884	886	O
-most	887	891	O
-of	892	894	O
-them	895	899	O
-there	900	905	O
-is	906	908	O
-no	909	911	O
-music	912	917	O
-which	918	923	O
-is	924	926	O
-also	927	931	O
-unsuitable	932	942	O
-as	943	945	O
-discussed	946	955	O
-.	955	956	O
-
-From	957	961	O
-our	962	965	O
-review	966	972	B-Process
-of	973	975	I-Process
-available	976	985	I-Process
-database	986	994	I-Process
-collections	995	1006	I-Process
-,	1006	1007	O
-it	1008	1010	O
-was	1011	1014	O
-found	1015	1020	O
-that	1021	1025	O
-at	1026	1028	O
-present	1029	1036	O
-there	1037	1042	O
-is	1043	1045	O
-no	1046	1048	O
-standard	1049	1057	O
-corpus	1058	1064	O
-of	1065	1067	O
-affective	1068	1077	O
-movie	1078	1083	O
-clips	1084	1089	O
-where	1090	1095	O
-the	1096	1099	O
-affective	1100	1109	O
-indexing	1110	1118	O
-referred	1119	1127	O
-to	1128	1130	O
-the	1131	1134	O
-musical	1135	1142	O
-score	1143	1148	O
-of	1149	1151	O
-the	1152	1155	O
-clip	1156	1160	O
-.	1160	1161	O
+In	0,2	O	O
+order	3,8	O	O
+to	9,11	O	O
+test	12,16	O	B-Task
+whether	17,24	O	I-Task
+haptic	25,31	O	I-Task
+patterns	32,40	O	I-Task
+can	41,44	O	I-Task
+convey	45,51	O	I-Task
+or	52,54	O	I-Task
+enhance	55,62	O	I-Task
+the	63,66	O	I-Task
+mood	67,71	O	I-Task
+music	72,77	O	I-Task
+of	78,80	O	O
+a	81,82	O	O
+movie	83,88	O	O
+,	88,89	O	O
+an	90,92	O	O
+affective	93,102	O	B-Material
+movie	103,108	O	I-Material
+clip	109,113	O	I-Material
+corpus	114,120	O	I-Material
+was	121,124	O	O
+required	125,133	O	O
+consisting	134,144	O	O
+of	145,147	O	O
+clips	148,153	O	O
+labeled	154,161	O	O
+according	162,171	O	O
+to	172,174	O	O
+the	175,178	O	O
+emotion	179,186	O	O
+conveyed	187,195	O	O
+in	196,198	O	O
+the	199,202	O	O
+mood	203,207	O	O
+music	208,213	O	O
+.	213,214	O	O
+
+The	215,218	O	O
+following	219,228	O	O
+database	229,237	O	B-Material
+collections	238,249	O	I-Material
+were	250,254	O	O
+examined	255,263	O	O
+as	264,266	O	O
+possible	267,275	O	O
+sources	276,283	O	O
+for	284,287	O	O
+the	288,291	O	O
+corpus	292,298	O	O
+:	298,299	O	O
+the	300,303	O	O
+Emotional	304,313	O	B-Material
+Movie	314,319	O	I-Material
+Database	320,328	O	I-Material
+(	329,330	O	O
+EMDB	330,334	O	B-Material
+)	334,335	O	O
+[	336,337	O	O
+19	337,339	O	O
+]	339,340	O	O
+,	340,341	O	O
+and	342,345	O	O
+Film	346,350	O	B-Material
+Stim	351,355	O	I-Material
+[	356,357	O	O
+20	357,359	O	O
+]	359,360	O	O
+.	360,361	O	O
+
+However	362,369	O	O
+,	369,370	O	O
+these	371,376	O	O
+were	377,381	O	O
+discarded	382,391	O	O
+after	392,397	O	O
+review	398,404	O	B-Process
+as	405,407	O	O
+unsuitable	408,418	O	O
+.	418,419	O	O
+
+The	420,423	O	O
+aim	424,427	O	O
+of	428,430	O	O
+this	431,435	O	O
+study	436,441	O	O
+is	442,444	O	O
+to	445,447	O	O
+enhance	448,455	O	B-Task
+the	456,459	O	I-Task
+mood	460,464	O	I-Task
+in	465,467	O	O
+the	468,471	O	O
+film	472,476	O	O
+score	477,482	O	O
+,	482,483	O	O
+and	484,487	O	O
+in	488,490	O	O
+the	491,494	O	O
+case	495,499	O	O
+of	500,502	O	O
+the	503,506	O	O
+clips	507,512	O	O
+in	513,515	O	O
+the	516,519	O	O
+EMDB	520,524	O	B-Material
+,	524,525	O	O
+no	526,528	O	O
+audio	529,534	O	O
+is	535,537	O	O
+provided	538,546	O	O
+which	547,552	O	O
+deemed	553,559	O	O
+the	560,563	O	O
+clips	564,569	O	O
+unsuitable	570,580	O	O
+.	580,581	O	O
+
+In	582,584	O	O
+the	585,588	O	O
+case	589,593	O	O
+of	594,596	O	O
+the	597,600	O	O
+Film	601,605	O	B-Material
+Stim	606,610	O	I-Material
+database	611,619	O	I-Material
+,	619,620	O	O
+the	621,624	O	O
+clips	625,630	O	O
+are	631,634	O	O
+in	635,637	O	O
+French	638,644	O	O
+rather	645,651	O	O
+than	652,656	O	O
+English	657,664	O	O
+,	664,665	O	O
+and	666,669	O	O
+with	670,674	O	O
+no	675,677	O	O
+subtitles	678,687	O	O
+which	688,693	O	O
+where	694,699	O	O
+also	700,704	O	O
+deemed	705,711	O	O
+unsuitable	712,722	O	O
+since	723,728	O	O
+the	729,732	O	O
+studies	733,740	O	O
+are	741,744	O	O
+carried	745,752	O	O
+out	753,756	O	O
+with	757,761	O	O
+English	762,769	O	B-Material
+speaking	770,778	O	I-Material
+participants	779,791	O	I-Material
+.	791,792	O	O
+
+Furthermore	793,804	O	O
+,	804,805	O	O
+the	806,809	O	O
+Film	810,814	O	B-Material
+Stim	815,819	O	I-Material
+selection	820,829	O	I-Material
+is	830,832	O	O
+based	833,838	O	O
+on	839,841	O	O
+the	842,845	O	O
+affective	846,855	O	O
+content	856,863	O	O
+of	864,866	O	O
+the	867,870	O	O
+narrative	871,880	O	O
+as	881,883	O	O
+in	884,886	O	O
+most	887,891	O	O
+of	892,894	O	O
+them	895,899	O	O
+there	900,905	O	O
+is	906,908	O	O
+no	909,911	O	O
+music	912,917	O	O
+which	918,923	O	O
+is	924,926	O	O
+also	927,931	O	O
+unsuitable	932,942	O	O
+as	943,945	O	O
+discussed	946,955	O	O
+.	955,956	O	O
+
+From	957,961	O	O
+our	962,965	O	O
+review	966,972	O	B-Process
+of	973,975	O	I-Process
+available	976,985	O	I-Process
+database	986,994	O	I-Process
+collections	995,1006	O	I-Process
+,	1006,1007	O	O
+it	1008,1010	O	O
+was	1011,1014	O	O
+found	1015,1020	O	O
+that	1021,1025	O	O
+at	1026,1028	O	O
+present	1029,1036	O	O
+there	1037,1042	O	O
+is	1043,1045	O	O
+no	1046,1048	O	O
+standard	1049,1057	O	O
+corpus	1058,1064	O	O
+of	1065,1067	O	O
+affective	1068,1077	O	O
+movie	1078,1083	O	O
+clips	1084,1089	O	O
+where	1090,1095	O	O
+the	1096,1099	O	O
+affective	1100,1109	O	O
+indexing	1110,1118	O	O
+referred	1119,1127	O	O
+to	1128,1130	O	O
+the	1131,1134	O	O
+musical	1135,1142	O	O
+score	1143,1148	O	O
+of	1149,1151	O	O
+the	1152,1155	O	O
+clip	1156,1160	O	O
+.	1160,1161	O	O
 
 
 -DOCSTART- (S2212667812000032)
 
-Aspect	0	6	B-Process
--	6	7	I-Process
-oriented	7	15	I-Process
-Programming	16	27	I-Process
-(	28	29	O
-AOP	29	32	B-Process
-)	32	33	O
-can	34	37	O
-well	38	42	O
-solve	43	48	B-Task
-the	49	52	I-Task
-cross	53	58	I-Task
--	58	59	I-Task
-cutting	59	66	I-Task
-concerns	67	75	I-Task
-.	75	76	O
-
-Because	77	84	O
-of	85	87	O
-the	88	91	O
-different	92	101	O
-features	102	110	O
-of	111	113	O
-aspect	114	120	O
-,	120	121	O
-AOP	122	125	B-Process
-requires	126	134	O
-new	135	138	O
-techniques	139	149	O
-for	150	153	O
-testing	154	161	O
-.	161	162	O
-
-First	163	168	O
-,	168	169	O
-this	170	174	O
-paper	175	180	O
-proposes	181	189	O
-a	190	191	O
-model	192	197	B-Task
-to	198	200	I-Task
-test	201	205	I-Task
-aspect	206	212	I-Task
--	212	213	I-Task
-oriented	213	221	I-Task
-software	222	230	I-Task
-.	230	231	O
-
-In	232	234	O
-order	235	240	O
-to	241	243	O
-support	244	251	O
-the	252	255	O
-testing	256	263	B-Process
-model	264	269	I-Process
-of	270	272	O
-the	273	276	O
-first	277	282	O
-three	283	288	O
-steps	289	294	O
-,	294	295	O
-we	296	298	O
-propose	299	306	O
-the	307	310	O
-algorithm	311	320	B-Process
-of	321	323	I-Process
-selecting	324	333	I-Process
-aspect	334	340	I-Process
-relevant	341	349	I-Process
-test	350	354	I-Process
-cases	355	360	I-Process
-.	360	361	O
-
-Then	362	366	O
-,	366	367	O
-we	368	370	O
-develop	371	378	B-Task
-a	379	380	I-Task
-new	381	384	I-Task
-tool	385	389	I-Task
-to	390	392	I-Task
-implement	393	402	I-Task
-the	403	406	I-Task
-theoretical	407	418	I-Task
-of	419	421	I-Task
-automating	422	432	I-Task
-select	433	439	I-Task
-test	440	444	I-Task
-case	445	449	I-Task
-.	449	450	O
-
-Finally	451	458	O
-,	458	459	O
-a	460	461	O
-case	462	466	O
-of	467	469	O
-the	470	473	O
-Bank	474	478	B-Process
-Account	479	486	I-Process
-System	487	493	I-Process
-is	494	496	O
-studied	497	504	O
-to	505	507	O
-illustrate	508	518	O
-our	519	522	O
-testing	523	530	O
-approach	531	539	O
-.	539	540	O
+Aspect	0,6	O	B-Process
+-	6,7	O	I-Process
+oriented	7,15	O	I-Process
+Programming	16,27	O	I-Process
+(	28,29	O	O
+AOP	29,32	O	B-Process
+)	32,33	O	O
+can	34,37	O	O
+well	38,42	O	O
+solve	43,48	O	B-Task
+the	49,52	O	I-Task
+cross	53,58	O	I-Task
+-	58,59	O	I-Task
+cutting	59,66	O	I-Task
+concerns	67,75	O	I-Task
+.	75,76	O	O
+
+Because	77,84	O	O
+of	85,87	O	O
+the	88,91	O	O
+different	92,101	O	O
+features	102,110	O	O
+of	111,113	O	O
+aspect	114,120	O	O
+,	120,121	O	O
+AOP	122,125	O	B-Process
+requires	126,134	O	O
+new	135,138	O	O
+techniques	139,149	O	O
+for	150,153	O	O
+testing	154,161	O	O
+.	161,162	O	O
+
+First	163,168	O	O
+,	168,169	O	O
+this	170,174	O	O
+paper	175,180	O	O
+proposes	181,189	O	O
+a	190,191	O	O
+model	192,197	O	B-Task
+to	198,200	O	I-Task
+test	201,205	O	I-Task
+aspect	206,212	O	I-Task
+-	212,213	O	I-Task
+oriented	213,221	O	I-Task
+software	222,230	O	I-Task
+.	230,231	O	O
+
+In	232,234	O	O
+order	235,240	O	O
+to	241,243	O	O
+support	244,251	O	O
+the	252,255	O	O
+testing	256,263	O	B-Process
+model	264,269	O	I-Process
+of	270,272	O	O
+the	273,276	O	O
+first	277,282	O	O
+three	283,288	O	O
+steps	289,294	O	O
+,	294,295	O	O
+we	296,298	O	O
+propose	299,306	O	O
+the	307,310	O	O
+algorithm	311,320	O	B-Process
+of	321,323	O	I-Process
+selecting	324,333	O	I-Process
+aspect	334,340	O	I-Process
+relevant	341,349	O	I-Process
+test	350,354	O	I-Process
+cases	355,360	O	I-Process
+.	360,361	O	O
+
+Then	362,366	O	O
+,	366,367	O	O
+we	368,370	O	O
+develop	371,378	O	B-Task
+a	379,380	O	I-Task
+new	381,384	O	I-Task
+tool	385,389	O	I-Task
+to	390,392	O	I-Task
+implement	393,402	O	I-Task
+the	403,406	O	I-Task
+theoretical	407,418	O	I-Task
+of	419,421	O	I-Task
+automating	422,432	O	I-Task
+select	433,439	O	I-Task
+test	440,444	O	I-Task
+case	445,449	O	I-Task
+.	449,450	O	O
+
+Finally	451,458	O	O
+,	458,459	O	O
+a	460,461	O	O
+case	462,466	O	O
+of	467,469	O	O
+the	470,473	O	O
+Bank	474,478	O	B-Process
+Account	479,486	O	I-Process
+System	487,493	O	I-Process
+is	494,496	O	O
+studied	497,504	O	O
+to	505,507	O	O
+illustrate	508,518	O	O
+our	519,522	O	O
+testing	523,530	O	O
+approach	531,539	O	O
+.	539,540	O	O
 
 
 -DOCSTART- (S221266781200007X)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-the	15	18	O
-design	19	25	B-Task
-of	26	28	I-Task
-a	29	30	I-Task
-varnish	31	38	I-Task
-plant	39	44	I-Task
-at	45	47	O
-Crocodile	48	57	O
-Matchet	58	65	O
-Limited	66	73	O
-,	73	74	O
-Tema	75	79	O
-,	79	80	O
-Ghana	81	86	O
-was	87	90	O
-considered	91	101	O
-and	102	105	O
-modification	106	118	B-Task
-made	119	123	I-Task
-to	124	126	I-Task
-eliminate	127	136	I-Task
-blooming	137	145	I-Task
-and	146	149	I-Task
-rusting	150	157	I-Task
-of	158	160	O
-its	161	164	O
-product	165	172	O
-at	173	175	O
-the	176	179	O
-final	180	185	O
-processing	186	196	B-Material
-plant	197	202	I-Material
-when	203	207	O
-there	208	213	O
-is	214	216	O
-high	217	221	O
-moisture	222	230	O
-content	231	238	O
-in	239	241	O
-the	242	245	O
-atmosphere	246	256	O
-.	256	257	O
-
-The	258	261	O
-proposed	262	270	O
-design	271	277	O
-included	278	286	O
-pipelines	287	296	B-Material
-or	297	299	O
-ductsand	300	308	B-Material
-hot	309	312	I-Material
-air	313	316	I-Material
-receiving	317	326	I-Material
-chambers	327	335	I-Material
-for	336	339	O
-the	340	343	O
-Varnish	344	351	B-Material
-Plant	352	357	I-Material
-.	357	358	O
-
-Heat	358	362	O
-from	363	367	O
-the	368	371	O
-exhaust	372	379	B-Material
-gas	380	383	I-Material
-which	384	389	O
-would	390	395	O
-have	396	400	O
-otherwise	401	410	O
-,	410	411	O
-gone	412	416	O
-wasted	417	423	O
-,	423	424	O
-was	425	428	O
-utilised	429	437	O
-by	438	440	O
-redesigning	441	452	B-Task
-the	453	456	I-Task
-varnish	457	464	I-Task
-plant	465	470	I-Task
-and	471	474	O
-this	475	479	O
-yielded	480	487	O
-6.74kW	488	494	O
-of	495	497	O
-heat	498	502	B-Process
-energy	503	509	I-Process
-which	510	515	O
-was	516	519	O
-transferred	520	531	B-Task
-into	532	536	I-Task
-the	537	540	I-Task
-air	541	544	I-Task
-chambers	545	553	I-Task
-to	554	556	O
-aid	557	560	O
-the	561	564	O
-drying	565	571	B-Process
-ofmatchets	572	582	I-Process
-at	583	585	O
-the	586	589	O
-hardening	590	599	B-Material
-plant	600	605	I-Material
-.	605	606	O
-
-Consequently	607	619	O
-,	619	620	O
-the	621	624	O
-absorption	625	635	B-Process
-of	636	638	I-Process
-the	639	642	I-Process
-moisture	643	651	I-Process
-on	652	654	O
-the	655	658	O
-steel	659	664	B-Material
-and	665	668	O
-the	669	672	O
-dryness	673	680	O
-of	681	683	O
-the	684	687	O
-product	688	695	O
-were	696	700	O
-improved	701	709	O
-.	709	710	O
-
-Further	711	718	B-Task
-studies	719	726	I-Task
-were	727	731	O
-done	732	736	O
-to	737	739	O
-ensure	740	746	O
-constant	747	755	B-Process
-supply	756	762	I-Process
-of	763	765	I-Process
-hot	766	769	I-Process
-air	770	773	I-Process
-into	774	778	I-Process
-the	779	782	I-Process
-air	783	786	I-Process
-chambers	787	795	I-Process
-.	795	796	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+the	15,18	O	O
+design	19,25	O	B-Task
+of	26,28	O	I-Task
+a	29,30	O	I-Task
+varnish	31,38	O	I-Task
+plant	39,44	O	I-Task
+at	45,47	O	O
+Crocodile	48,57	O	O
+Matchet	58,65	O	O
+Limited	66,73	O	O
+,	73,74	O	O
+Tema	75,79	O	O
+,	79,80	O	O
+Ghana	81,86	O	O
+was	87,90	O	O
+considered	91,101	O	O
+and	102,105	O	O
+modification	106,118	O	B-Task
+made	119,123	O	I-Task
+to	124,126	O	I-Task
+eliminate	127,136	O	I-Task
+blooming	137,145	O	I-Task
+and	146,149	O	I-Task
+rusting	150,157	O	I-Task
+of	158,160	O	O
+its	161,164	O	O
+product	165,172	O	O
+at	173,175	O	O
+the	176,179	O	O
+final	180,185	O	O
+processing	186,196	O	B-Material
+plant	197,202	O	I-Material
+when	203,207	O	O
+there	208,213	O	O
+is	214,216	O	O
+high	217,221	O	O
+moisture	222,230	O	O
+content	231,238	O	O
+in	239,241	O	O
+the	242,245	O	O
+atmosphere	246,256	O	O
+.	256,257	O	O
+
+The	258,261	O	O
+proposed	262,270	O	O
+design	271,277	O	O
+included	278,286	O	O
+pipelines	287,296	O	B-Material
+or	297,299	O	O
+ductsand	300,308	O	B-Material
+hot	309,312	O	I-Material
+air	313,316	O	I-Material
+receiving	317,326	O	I-Material
+chambers	327,335	O	I-Material
+for	336,339	O	O
+the	340,343	O	O
+Varnish	344,351	O	B-Material
+Plant	352,357	O	I-Material
+.	357,358	O	O
+
+Heat	358,362	O	O
+from	363,367	O	O
+the	368,371	O	O
+exhaust	372,379	O	B-Material
+gas	380,383	O	I-Material
+which	384,389	O	O
+would	390,395	O	O
+have	396,400	O	O
+otherwise	401,410	O	O
+,	410,411	O	O
+gone	412,416	O	O
+wasted	417,423	O	O
+,	423,424	O	O
+was	425,428	O	O
+utilised	429,437	O	O
+by	438,440	O	O
+redesigning	441,452	O	B-Task
+the	453,456	O	I-Task
+varnish	457,464	O	I-Task
+plant	465,470	O	I-Task
+and	471,474	O	O
+this	475,479	O	O
+yielded	480,487	O	O
+6.74kW	488,494	O	O
+of	495,497	O	O
+heat	498,502	O	B-Process
+energy	503,509	O	I-Process
+which	510,515	O	O
+was	516,519	O	O
+transferred	520,531	O	B-Task
+into	532,536	O	I-Task
+the	537,540	O	I-Task
+air	541,544	O	I-Task
+chambers	545,553	O	I-Task
+to	554,556	O	O
+aid	557,560	O	O
+the	561,564	O	O
+drying	565,571	O	B-Process
+ofmatchets	572,582	O	I-Process
+at	583,585	O	O
+the	586,589	O	O
+hardening	590,599	O	B-Material
+plant	600,605	O	I-Material
+.	605,606	O	O
+
+Consequently	607,619	O	O
+,	619,620	O	O
+the	621,624	O	O
+absorption	625,635	O	B-Process
+of	636,638	O	I-Process
+the	639,642	O	I-Process
+moisture	643,651	O	I-Process
+on	652,654	O	O
+the	655,658	O	O
+steel	659,664	O	B-Material
+and	665,668	O	O
+the	669,672	O	O
+dryness	673,680	O	O
+of	681,683	O	O
+the	684,687	O	O
+product	688,695	O	O
+were	696,700	O	O
+improved	701,709	O	O
+.	709,710	O	O
+
+Further	711,718	O	B-Task
+studies	719,726	O	I-Task
+were	727,731	O	O
+done	732,736	O	O
+to	737,739	O	O
+ensure	740,746	O	O
+constant	747,755	O	B-Process
+supply	756,762	O	I-Process
+of	763,765	O	I-Process
+hot	766,769	O	I-Process
+air	770,773	O	I-Process
+into	774,778	O	I-Process
+the	779,782	O	I-Process
+air	783,786	O	I-Process
+chambers	787,795	O	I-Process
+.	795,796	O	O
 
 
 -DOCSTART- (S2212667812000524)
 
-Digital	0	7	B-Material
-libraries	8	17	I-Material
-promise	18	25	O
-new	26	29	O
-societal	30	38	O
-benefits	39	47	O
-,	47	48	O
-especially	49	59	O
-for	60	63	O
-e	64	65	B-Process
--	65	66	I-Process
-learning	66	74	I-Process
-in	75	77	O
-digital	78	85	O
-or	86	88	O
-mobile	89	95	O
-times	96	101	O
-,	101	102	O
-starting	103	111	O
-with	112	116	O
-the	117	120	O
-elimination	121	132	B-Process
-of	133	135	I-Process
-the	136	139	I-Process
-time	140	144	I-Process
-and	145	148	I-Process
-space	149	154	I-Process
-constraints	155	166	I-Process
-of	167	169	O
-traditional	170	181	O
-bricks	182	188	B-Material
--	188	189	I-Material
-and	189	192	I-Material
--	192	193	I-Material
-mortar	193	199	I-Material
-libraries	200	209	I-Material
-.	209	210	O
-
-The	211	214	O
-library	215	222	O
-and	223	226	O
-information	227	238	O
-professionals	239	252	O
-are	253	256	O
-required	257	265	O
-to	266	268	O
-acquire	269	276	B-Task
-such	277	281	I-Task
-knowledge	282	291	I-Task
-and	292	295	I-Task
-skills	296	302	I-Task
-as	303	305	O
-the	306	309	O
-library	310	317	O
-is	318	320	O
-one	321	324	O
-of	325	327	O
-the	328	331	O
-highly	332	338	O
-IT	339	341	O
-influenced	342	352	O
-service	353	360	O
-profession	361	371	O
-.	371	372	O
-
-This	373	377	O
-paper	378	383	O
-gives	384	389	O
-an	390	392	O
-overview	393	401	B-Task
-of	402	404	I-Task
-current	405	412	I-Task
-trends	413	419	I-Task
-in	420	422	I-Task
-digital	423	430	I-Task
-library	431	438	I-Task
-research	439	447	I-Task
-consists	448	456	O
-of	457	459	O
-digital	460	467	B-Material
-library	468	475	I-Material
-characteristic	476	490	O
-,	490	491	O
-advantage	492	501	O
-,	501	502	O
-disadvantages	503	516	O
-and	517	520	O
-function	521	529	O
-.	529	530	O
-
-This	531	535	O
-paper	536	541	O
-also	542	546	O
-highlights	547	557	B-Task
-on	558	560	I-Task
-the	561	564	I-Task
-impact	565	571	I-Task
-of	572	574	I-Task
-information	575	586	I-Task
-technology	587	597	I-Task
-on	598	600	O
-the	601	604	O
-traditional	605	616	O
-library	617	624	B-Material
-.	624	625	O
+Digital	0,7	O	B-Material
+libraries	8,17	O	I-Material
+promise	18,25	O	O
+new	26,29	O	O
+societal	30,38	O	O
+benefits	39,47	O	O
+,	47,48	O	O
+especially	49,59	O	O
+for	60,63	O	O
+e	64,65	O	B-Process
+-	65,66	O	I-Process
+learning	66,74	O	I-Process
+in	75,77	O	O
+digital	78,85	O	O
+or	86,88	O	O
+mobile	89,95	O	O
+times	96,101	O	O
+,	101,102	O	O
+starting	103,111	O	O
+with	112,116	O	O
+the	117,120	O	O
+elimination	121,132	O	B-Process
+of	133,135	O	I-Process
+the	136,139	O	I-Process
+time	140,144	O	I-Process
+and	145,148	O	I-Process
+space	149,154	O	I-Process
+constraints	155,166	O	I-Process
+of	167,169	O	O
+traditional	170,181	O	O
+bricks	182,188	O	B-Material
+-	188,189	O	I-Material
+and	189,192	O	I-Material
+-	192,193	O	I-Material
+mortar	193,199	O	I-Material
+libraries	200,209	O	I-Material
+.	209,210	O	O
+
+The	211,214	O	O
+library	215,222	O	O
+and	223,226	O	O
+information	227,238	O	O
+professionals	239,252	O	O
+are	253,256	O	O
+required	257,265	O	O
+to	266,268	O	O
+acquire	269,276	O	B-Task
+such	277,281	O	I-Task
+knowledge	282,291	O	I-Task
+and	292,295	O	I-Task
+skills	296,302	O	I-Task
+as	303,305	O	O
+the	306,309	O	O
+library	310,317	O	O
+is	318,320	O	O
+one	321,324	O	O
+of	325,327	O	O
+the	328,331	O	O
+highly	332,338	O	O
+IT	339,341	O	O
+influenced	342,352	O	O
+service	353,360	O	O
+profession	361,371	O	O
+.	371,372	O	O
+
+This	373,377	O	O
+paper	378,383	O	O
+gives	384,389	O	O
+an	390,392	O	O
+overview	393,401	O	B-Task
+of	402,404	O	I-Task
+current	405,412	O	I-Task
+trends	413,419	O	I-Task
+in	420,422	O	I-Task
+digital	423,430	O	I-Task
+library	431,438	O	I-Task
+research	439,447	O	I-Task
+consists	448,456	O	O
+of	457,459	O	O
+digital	460,467	O	B-Material
+library	468,475	O	I-Material
+characteristic	476,490	O	O
+,	490,491	O	O
+advantage	492,501	O	O
+,	501,502	O	O
+disadvantages	503,516	O	O
+and	517,520	O	O
+function	521,529	O	O
+.	529,530	O	O
+
+This	531,535	O	O
+paper	536,541	O	O
+also	542,546	O	O
+highlights	547,557	O	B-Task
+on	558,560	O	I-Task
+the	561,564	O	I-Task
+impact	565,571	O	I-Task
+of	572,574	O	I-Task
+information	575,586	O	I-Task
+technology	587,597	O	I-Task
+on	598,600	O	O
+the	601,604	O	O
+traditional	605,616	O	O
+library	617,624	O	B-Material
+.	624,625	O	O
 
 
 -DOCSTART- (S2212667812000536)
 
-According	0	9	O
-to	10	12	O
-the	13	16	O
-situation	17	26	O
-that	27	31	O
-the	32	35	O
-IT	36	38	O
-students	39	47	O
-can	48	51	O
-not	52	55	O
-meet	56	60	O
-the	61	64	O
-software	65	73	O
-industry	74	82	O
-demand	83	89	O
-for	90	93	O
-qualified	94	103	O
-personnel	104	113	O
-,	113	114	O
-a	115	116	O
-“	117	118	B-Process
-triple	118	124	I-Process
--	124	125	I-Process
-driven	125	131	I-Process
-”	131	132	I-Process
-three	133	138	I-Process
--	138	139	I-Process
-dimensional	139	150	I-Process
-software	151	159	I-Process
-development	160	171	I-Process
-practical	172	181	I-Process
-teaching	182	190	I-Process
-system	191	197	I-Process
-was	198	201	O
-proposed	202	210	O
-,	210	211	O
-aiming	212	218	O
-to	219	221	O
-improve	222	229	B-Task
-the	230	233	I-Task
-software	234	242	I-Task
-development	243	254	I-Task
-capabilities	255	267	I-Task
-and	268	271	I-Task
-innovation	272	282	I-Task
-sense	283	288	I-Task
-of	289	291	I-Task
-students	292	300	I-Task
-.	300	301	O
-
-This	302	306	O
-system	307	313	O
-can	314	317	O
-effectively	318	329	O
-improve	330	337	O
-students	338	346	O
-the	347	350	O
-interest	351	359	O
-of	360	362	O
-software	363	371	B-Process
-development	372	383	I-Process
-and	384	387	O
-the	388	391	O
-practical	392	401	B-Process
-skills	402	408	I-Process
-and	409	412	O
-sense	413	418	O
-of	419	421	O
-innovation	422	432	O
-,	432	433	O
-laying	434	440	O
-a	441	442	O
-solid	443	448	O
-foundation	449	459	O
-for	460	463	O
-student	464	471	O
-after	472	477	O
-graduation	478	488	O
-to	489	491	O
-rapidly	492	499	O
-integrate	500	509	O
-into	510	514	O
-the	515	518	O
-software	519	527	B-Process
-development	528	539	I-Process
-process	540	547	I-Process
-,	547	548	O
-meeting	549	556	O
-the	557	560	O
-needs	561	566	O
-of	567	569	O
-software	570	578	B-Task
-industry	579	587	I-Task
-.	587	588	O
+According	0,9	O	O
+to	10,12	O	O
+the	13,16	O	O
+situation	17,26	O	O
+that	27,31	O	O
+the	32,35	O	O
+IT	36,38	O	O
+students	39,47	O	O
+can	48,51	O	O
+not	52,55	O	O
+meet	56,60	O	O
+the	61,64	O	O
+software	65,73	O	O
+industry	74,82	O	O
+demand	83,89	O	O
+for	90,93	O	O
+qualified	94,103	O	O
+personnel	104,113	O	O
+,	113,114	O	O
+a	115,116	O	O
+“	117,118	O	B-Process
+triple	118,124	O	I-Process
+-	124,125	O	I-Process
+driven	125,131	O	I-Process
+”	131,132	O	I-Process
+three	133,138	O	I-Process
+-	138,139	O	I-Process
+dimensional	139,150	O	I-Process
+software	151,159	O	I-Process
+development	160,171	O	I-Process
+practical	172,181	O	I-Process
+teaching	182,190	O	I-Process
+system	191,197	O	I-Process
+was	198,201	O	O
+proposed	202,210	O	O
+,	210,211	O	O
+aiming	212,218	O	O
+to	219,221	O	O
+improve	222,229	O	B-Task
+the	230,233	O	I-Task
+software	234,242	O	I-Task
+development	243,254	O	I-Task
+capabilities	255,267	O	I-Task
+and	268,271	O	I-Task
+innovation	272,282	O	I-Task
+sense	283,288	O	I-Task
+of	289,291	O	I-Task
+students	292,300	O	I-Task
+.	300,301	O	O
+
+This	302,306	O	O
+system	307,313	O	O
+can	314,317	O	O
+effectively	318,329	O	O
+improve	330,337	O	O
+students	338,346	O	O
+the	347,350	O	O
+interest	351,359	O	O
+of	360,362	O	O
+software	363,371	O	B-Process
+development	372,383	O	I-Process
+and	384,387	O	O
+the	388,391	O	O
+practical	392,401	O	B-Process
+skills	402,408	O	I-Process
+and	409,412	O	O
+sense	413,418	O	O
+of	419,421	O	O
+innovation	422,432	O	O
+,	432,433	O	O
+laying	434,440	O	O
+a	441,442	O	O
+solid	443,448	O	O
+foundation	449,459	O	O
+for	460,463	O	O
+student	464,471	O	O
+after	472,477	O	O
+graduation	478,488	O	O
+to	489,491	O	O
+rapidly	492,499	O	O
+integrate	500,509	O	O
+into	510,514	O	O
+the	515,518	O	O
+software	519,527	O	B-Process
+development	528,539	O	I-Process
+process	540,547	O	I-Process
+,	547,548	O	O
+meeting	549,556	O	O
+the	557,560	O	O
+needs	561,566	O	O
+of	567,569	O	O
+software	570,578	O	B-Task
+industry	579,587	O	I-Task
+.	587,588	O	O
 
 
 -DOCSTART- (S2212667812000664)
 
-According	0	9	O
-to	10	12	O
-the	13	16	O
-shortcomings	17	29	O
-of	30	32	O
-long	33	37	O
-time	38	42	O
-and	43	46	O
-big	47	50	O
-errors	51	57	O
-about	58	63	O
-the	64	67	O
-moving	68	74	B-Process
-plate	75	80	I-Process
-recognition	81	92	I-Process
-system	93	99	I-Process
-,	99	100	O
-we	101	103	O
-present	104	111	O
-the	112	115	O
-moving	116	122	B-Process
-plate	123	128	I-Process
-recognition	129	140	I-Process
-algorithm	141	150	I-Process
-based	151	156	O
-on	157	159	O
-principal	160	169	B-Process
-component	170	179	I-Process
-analysis(PCA	180	192	I-Process
-)	192	193	O
-color	194	199	B-Process
-extraction	200	210	I-Process
-.	210	211	I-Process
-
-On	212	214	O
-the	215	218	O
-basis	219	224	O
-of	225	227	O
-the	228	231	O
-analysis	232	240	B-Task
-of	241	243	I-Task
-moving	244	250	I-Task
-plate	251	256	I-Task
-recognition	257	268	I-Task
-system	269	275	I-Task
-'s	275	277	I-Task
-basic	278	283	I-Task
-principles	284	294	I-Task
-,	294	295	O
-it	296	298	O
-introduces	299	309	O
-the	310	313	O
-basic	314	319	O
-principles	320	330	O
-and	331	334	O
-calculation	335	346	O
-steps	347	352	O
-about	353	358	O
-PCA	359	362	B-Process
-extraction	363	373	I-Process
-algorithm	374	383	I-Process
-,	383	384	O
-and	385	388	O
-discusses	389	398	O
-the	399	402	O
-feasibility	403	414	O
-of	415	417	O
-applying	418	426	B-Task
-the	427	430	I-Task
-algorithm	431	440	I-Task
-to	441	443	I-Task
-PRS	444	447	I-Task
-in	448	450	O
-the	451	454	O
-paper	455	460	O
-.	460	461	O
-
-The	462	465	O
-experimental	466	478	O
-results	479	486	O
-show	487	491	O
-that	492	496	O
-the	497	500	O
-algorithm	501	510	O
-has	511	514	O
-the	515	518	O
-advantages	519	529	O
-of	530	532	O
-faster	533	539	O
-speed	540	545	O
-and	546	549	O
-higher	550	556	O
-accuracy	557	565	O
-of	566	568	O
-recognition	569	580	B-Process
-.	580	581	O
-
-The	582	585	O
-algorithm	586	595	O
-provides	596	604	O
-a	605	606	O
-new	607	610	O
-thought	611	618	O
-for	619	622	O
-the	623	626	O
-research	627	635	B-Task
-on	636	638	I-Task
-the	639	642	I-Task
-moving	643	649	I-Task
-plate	650	655	I-Task
-recognition	656	667	I-Task
-algorithm	668	677	I-Task
-.	677	678	O
+According	0,9	O	O
+to	10,12	O	O
+the	13,16	O	O
+shortcomings	17,29	O	O
+of	30,32	O	O
+long	33,37	O	O
+time	38,42	O	O
+and	43,46	O	O
+big	47,50	O	O
+errors	51,57	O	O
+about	58,63	O	O
+the	64,67	O	O
+moving	68,74	O	B-Process
+plate	75,80	O	I-Process
+recognition	81,92	O	I-Process
+system	93,99	O	I-Process
+,	99,100	O	O
+we	101,103	O	O
+present	104,111	O	O
+the	112,115	O	O
+moving	116,122	O	B-Process
+plate	123,128	O	I-Process
+recognition	129,140	O	I-Process
+algorithm	141,150	O	I-Process
+based	151,156	O	O
+on	157,159	O	O
+principal	160,169	O	B-Process
+component	170,179	O	I-Process
+analysis(PCA	180,192	O	I-Process
+)	192,193	O	O
+color	194,199	O	B-Process
+extraction	200,210	O	I-Process
+.	210,211	O	I-Process
+
+On	212,214	O	O
+the	215,218	O	O
+basis	219,224	O	O
+of	225,227	O	O
+the	228,231	O	O
+analysis	232,240	O	B-Task
+of	241,243	O	I-Task
+moving	244,250	O	I-Task
+plate	251,256	O	I-Task
+recognition	257,268	O	I-Task
+system	269,275	O	I-Task
+'s	275,277	O	I-Task
+basic	278,283	O	I-Task
+principles	284,294	O	I-Task
+,	294,295	O	O
+it	296,298	O	O
+introduces	299,309	O	O
+the	310,313	O	O
+basic	314,319	O	O
+principles	320,330	O	O
+and	331,334	O	O
+calculation	335,346	O	O
+steps	347,352	O	O
+about	353,358	O	O
+PCA	359,362	O	B-Process
+extraction	363,373	O	I-Process
+algorithm	374,383	O	I-Process
+,	383,384	O	O
+and	385,388	O	O
+discusses	389,398	O	O
+the	399,402	O	O
+feasibility	403,414	O	O
+of	415,417	O	O
+applying	418,426	O	B-Task
+the	427,430	O	I-Task
+algorithm	431,440	O	I-Task
+to	441,443	O	I-Task
+PRS	444,447	O	I-Task
+in	448,450	O	O
+the	451,454	O	O
+paper	455,460	O	O
+.	460,461	O	O
+
+The	462,465	O	O
+experimental	466,478	O	O
+results	479,486	O	O
+show	487,491	O	O
+that	492,496	O	O
+the	497,500	O	O
+algorithm	501,510	O	O
+has	511,514	O	O
+the	515,518	O	O
+advantages	519,529	O	O
+of	530,532	O	O
+faster	533,539	O	O
+speed	540,545	O	O
+and	546,549	O	O
+higher	550,556	O	O
+accuracy	557,565	O	O
+of	566,568	O	O
+recognition	569,580	O	B-Process
+.	580,581	O	O
+
+The	582,585	O	O
+algorithm	586,595	O	O
+provides	596,604	O	O
+a	605,606	O	O
+new	607,610	O	O
+thought	611,618	O	O
+for	619,622	O	O
+the	623,626	O	O
+research	627,635	O	B-Task
+on	636,638	O	I-Task
+the	639,642	O	I-Task
+moving	643,649	O	I-Task
+plate	650,655	O	I-Task
+recognition	656,667	O	I-Task
+algorithm	668,677	O	I-Task
+.	677,678	O	O
 
 
 -DOCSTART- (S2212667812000780)
 
-With	0	4	O
-the	5	8	O
-development	9	20	O
-of	21	23	O
-sport	24	29	O
-normal	30	36	O
-students	37	45	O
-in	46	48	O
-china	49	54	O
-,	54	55	O
-Some	56	60	O
-ideas	61	66	O
-to	67	69	O
-teaching	70	78	O
-and	79	82	O
-learning	83	91	O
-that	92	96	O
-view	97	101	O
-learning	102	110	O
-as	111	113	O
-a	114	115	O
-simple	116	122	O
-process	123	130	O
-of	131	133	O
-knowledge	134	143	B-Process
-have	144	148	O
-become	149	155	O
-outdated	156	164	O
-and	165	168	O
-ineffective	169	180	O
-,	180	181	O
-therefore	182	191	O
-,	191	192	O
-In	193	195	O
-order	196	201	O
-to	202	204	O
-improving	205	214	B-Task
-the	215	218	I-Task
-quality	219	226	I-Task
-of	227	229	I-Task
-teaching	230	238	I-Task
-and	239	242	I-Task
-learning	243	251	I-Task
-on	252	254	I-Task
-sport	255	260	I-Task
-normal	261	267	I-Task
-students	268	276	I-Task
-in	277	279	O
-china	280	285	O
-,	285	286	O
-this	287	291	O
-author	292	298	O
-discussed	299	308	O
-some	309	313	O
-factors	314	321	B-Process
-on	322	324	I-Process
-promoting	325	334	I-Process
-the	335	338	I-Process
-level	339	344	I-Process
-of	345	347	I-Process
-teaching	348	356	I-Process
-and	357	360	I-Process
-learning	361	369	I-Process
-for	370	373	O
-sport	374	379	O
-normal	380	386	O
-students	387	395	O
-,	395	396	O
-such	397	401	O
-as	402	404	O
-implementation	405	419	B-Process
-principle	420	429	I-Process
-,	429	430	O
-curriculum	431	441	B-Process
-design	442	448	I-Process
-,	448	449	O
-education	450	459	B-Process
-policy	460	466	I-Process
-,	466	467	O
-and	468	471	O
-so	472	474	O
-on	475	477	O
-.	477	478	O
-
-The	479	482	O
-meaning	483	490	O
-of	491	493	O
-results	494	501	O
-and	502	505	O
-their	506	511	O
-implication	512	523	O
-of	524	526	O
-future	527	533	B-Task
-research	534	542	I-Task
-are	543	546	O
-discussed	547	556	O
-.	556	557	O
+With	0,4	O	O
+the	5,8	O	O
+development	9,20	O	O
+of	21,23	O	O
+sport	24,29	O	O
+normal	30,36	O	O
+students	37,45	O	O
+in	46,48	O	O
+china	49,54	O	O
+,	54,55	O	O
+Some	56,60	O	O
+ideas	61,66	O	O
+to	67,69	O	O
+teaching	70,78	O	O
+and	79,82	O	O
+learning	83,91	O	O
+that	92,96	O	O
+view	97,101	O	O
+learning	102,110	O	O
+as	111,113	O	O
+a	114,115	O	O
+simple	116,122	O	O
+process	123,130	O	O
+of	131,133	O	O
+knowledge	134,143	O	B-Process
+have	144,148	O	O
+become	149,155	O	O
+outdated	156,164	O	O
+and	165,168	O	O
+ineffective	169,180	O	O
+,	180,181	O	O
+therefore	182,191	O	O
+,	191,192	O	O
+In	193,195	O	O
+order	196,201	O	O
+to	202,204	O	O
+improving	205,214	O	B-Task
+the	215,218	O	I-Task
+quality	219,226	O	I-Task
+of	227,229	O	I-Task
+teaching	230,238	O	I-Task
+and	239,242	O	I-Task
+learning	243,251	O	I-Task
+on	252,254	O	I-Task
+sport	255,260	O	I-Task
+normal	261,267	O	I-Task
+students	268,276	O	I-Task
+in	277,279	O	O
+china	280,285	O	O
+,	285,286	O	O
+this	287,291	O	O
+author	292,298	O	O
+discussed	299,308	O	O
+some	309,313	O	O
+factors	314,321	O	B-Process
+on	322,324	O	I-Process
+promoting	325,334	O	I-Process
+the	335,338	O	I-Process
+level	339,344	O	I-Process
+of	345,347	O	I-Process
+teaching	348,356	O	I-Process
+and	357,360	O	I-Process
+learning	361,369	O	I-Process
+for	370,373	O	O
+sport	374,379	O	O
+normal	380,386	O	O
+students	387,395	O	O
+,	395,396	O	O
+such	397,401	O	O
+as	402,404	O	O
+implementation	405,419	O	B-Process
+principle	420,429	O	I-Process
+,	429,430	O	O
+curriculum	431,441	O	B-Process
+design	442,448	O	I-Process
+,	448,449	O	O
+education	450,459	O	B-Process
+policy	460,466	O	I-Process
+,	466,467	O	O
+and	468,471	O	O
+so	472,474	O	O
+on	475,477	O	O
+.	477,478	O	O
+
+The	479,482	O	O
+meaning	483,490	O	O
+of	491,493	O	O
+results	494,501	O	O
+and	502,505	O	O
+their	506,511	O	O
+implication	512,523	O	O
+of	524,526	O	O
+future	527,533	O	B-Task
+research	534,542	O	I-Task
+are	543,546	O	O
+discussed	547,556	O	O
+.	556,557	O	O
 
 
 -DOCSTART- (S2212667812000792)
 
-A	0	1	O
-process	2	9	B-Process
--	9	10	I-Process
-driven	10	16	I-Process
-model	17	22	I-Process
-is	23	25	O
-presented	26	35	O
-to	36	38	O
-build	39	44	O
-an	45	47	O
-instinctive	48	59	O
-and	60	63	O
-efficient	64	73	O
-higher	74	80	O
-educational	81	92	O
-administrative	93	107	B-Process
-management	108	118	I-Process
-system	119	125	I-Process
-to	126	128	O
-overcome	129	137	B-Process
-problems	138	146	I-Process
-most	147	151	O
-universities	152	164	O
-facing	165	171	O
-.	171	172	O
-
-With	173	177	O
-this	178	182	O
-model	183	188	O
-,	188	189	O
-processes	190	199	B-Task
-are	200	203	I-Task
-identified	204	214	I-Task
-explicitly	215	225	O
-and	226	229	O
-the	230	233	O
-routine	234	241	O
-of	242	244	O
-educational	245	256	B-Process
-administration	257	271	I-Process
-is	272	274	O
-broken	275	281	O
-into	282	286	O
-small	287	292	O
-tasks	293	298	O
-.	298	299	O
-
-Each	300	304	O
-task	305	309	O
-has	310	313	O
-designated	314	324	O
-role	325	329	O
-of	330	332	O
-executors	333	342	O
-.	342	343	O
-
-A	344	345	O
-process	346	353	O
-describes	354	363	O
-the	364	367	O
-activities	368	378	O
-and	379	382	O
-relationships	383	396	O
-among	397	402	O
-them	403	407	O
-.	407	408	O
-
-A	409	410	O
-prototype	411	420	O
-of	421	423	O
-higher	424	430	O
-educational	431	442	O
-administrative	443	457	O
-system	458	464	O
-is	465	467	O
-built	468	473	O
-with	474	478	O
-Bonita	479	485	B-Material
-open	486	490	I-Material
-solution	491	499	I-Material
-.	499	500	O
-
-The	501	504	O
-demo	505	509	O
-shows	510	515	O
-that	516	520	O
-the	521	524	O
-process	525	532	O
--	532	533	O
-driven	533	539	O
-higher	540	546	O
-educational	547	558	O
-administrative	559	573	B-Process
-system	574	580	I-Process
-helps	581	586	O
-end	587	590	O
-users	591	596	O
-understand	597	607	B-Process
-processes	608	617	I-Process
-they	618	622	I-Process
-are	623	626	I-Process
-involved	627	635	I-Process
-and	636	639	O
-focus	640	645	O
-on	646	648	O
-what	649	653	O
-to	654	656	O
-do	657	659	O
-.	659	660	O
+A	0,1	O	O
+process	2,9	O	B-Process
+-	9,10	O	I-Process
+driven	10,16	O	I-Process
+model	17,22	O	I-Process
+is	23,25	O	O
+presented	26,35	O	O
+to	36,38	O	O
+build	39,44	O	O
+an	45,47	O	O
+instinctive	48,59	O	O
+and	60,63	O	O
+efficient	64,73	O	O
+higher	74,80	O	O
+educational	81,92	O	O
+administrative	93,107	O	B-Process
+management	108,118	O	I-Process
+system	119,125	O	I-Process
+to	126,128	O	O
+overcome	129,137	O	B-Process
+problems	138,146	O	I-Process
+most	147,151	O	O
+universities	152,164	O	O
+facing	165,171	O	O
+.	171,172	O	O
+
+With	173,177	O	O
+this	178,182	O	O
+model	183,188	O	O
+,	188,189	O	O
+processes	190,199	O	B-Task
+are	200,203	O	I-Task
+identified	204,214	O	I-Task
+explicitly	215,225	O	O
+and	226,229	O	O
+the	230,233	O	O
+routine	234,241	O	O
+of	242,244	O	O
+educational	245,256	O	B-Process
+administration	257,271	O	I-Process
+is	272,274	O	O
+broken	275,281	O	O
+into	282,286	O	O
+small	287,292	O	O
+tasks	293,298	O	O
+.	298,299	O	O
+
+Each	300,304	O	O
+task	305,309	O	O
+has	310,313	O	O
+designated	314,324	O	O
+role	325,329	O	O
+of	330,332	O	O
+executors	333,342	O	O
+.	342,343	O	O
+
+A	344,345	O	O
+process	346,353	O	O
+describes	354,363	O	O
+the	364,367	O	O
+activities	368,378	O	O
+and	379,382	O	O
+relationships	383,396	O	O
+among	397,402	O	O
+them	403,407	O	O
+.	407,408	O	O
+
+A	409,410	O	O
+prototype	411,420	O	O
+of	421,423	O	O
+higher	424,430	O	O
+educational	431,442	O	O
+administrative	443,457	O	O
+system	458,464	O	O
+is	465,467	O	O
+built	468,473	O	O
+with	474,478	O	O
+Bonita	479,485	O	B-Material
+open	486,490	O	I-Material
+solution	491,499	O	I-Material
+.	499,500	O	O
+
+The	501,504	O	O
+demo	505,509	O	O
+shows	510,515	O	O
+that	516,520	O	O
+the	521,524	O	O
+process	525,532	O	O
+-	532,533	O	O
+driven	533,539	O	O
+higher	540,546	O	O
+educational	547,558	O	O
+administrative	559,573	O	B-Process
+system	574,580	O	I-Process
+helps	581,586	O	O
+end	587,590	O	O
+users	591,596	O	O
+understand	597,607	O	B-Process
+processes	608,617	O	I-Process
+they	618,622	O	I-Process
+are	623,626	O	I-Process
+involved	627,635	O	I-Process
+and	636,639	O	O
+focus	640,645	O	O
+on	646,648	O	O
+what	649,653	O	O
+to	654,656	O	O
+do	657,659	O	O
+.	659,660	O	O
 
 
 -DOCSTART- (S2212667812000810)
 
-With	0	4	O
-employment	5	15	O
-of	16	18	O
-utilizing	19	28	O
-the	29	32	O
-investigation	33	46	B-Process
-,	46	47	O
-expert	48	54	B-Process
-interviews	55	65	I-Process
-and	66	69	O
-comparison	70	80	O
-,	80	81	O
-this	82	86	O
-article	87	94	O
-investigates	95	107	B-Task
-the	108	111	I-Task
-curricula	112	121	I-Task
-construction	122	134	I-Task
-,	134	135	I-Task
-curricula	136	145	I-Task
-design	146	152	I-Task
-and	153	156	I-Task
-curricula	157	166	I-Task
-content	167	174	I-Task
-for	175	178	O
-sports	179	185	O
-free	186	190	O
-normal	191	197	O
-students	198	206	O
-.	206	207	O
-
-On	208	210	O
-the	211	214	O
-basis	215	220	O
-of	221	223	O
-the	224	227	O
-investigation	228	241	B-Task
-,	241	242	O
-this	243	247	O
-article	248	255	O
-analyzed	256	264	O
-the	265	268	O
-theoretical	269	280	B-Process
-framework	281	290	I-Process
-of	291	293	O
-curricular	294	304	O
-construction	305	317	O
-and	318	321	O
-proposed	322	330	O
-some	331	335	O
-suggestions	336	347	O
-.	347	348	O
-
-We	349	351	O
-hope	352	356	O
-that	357	361	O
-it	362	364	O
-can	365	368	O
-provide	369	376	O
-some	377	381	O
-evidences	382	391	O
-for	392	395	O
-curricula	396	405	B-Process
-design	406	412	I-Process
-for	413	416	O
-sports	417	423	O
-free	424	428	O
-normal	429	435	O
-students	436	444	O
-.	444	445	O
+With	0,4	O	O
+employment	5,15	O	O
+of	16,18	O	O
+utilizing	19,28	O	O
+the	29,32	O	O
+investigation	33,46	O	B-Process
+,	46,47	O	O
+expert	48,54	O	B-Process
+interviews	55,65	O	I-Process
+and	66,69	O	O
+comparison	70,80	O	O
+,	80,81	O	O
+this	82,86	O	O
+article	87,94	O	O
+investigates	95,107	O	B-Task
+the	108,111	O	I-Task
+curricula	112,121	O	I-Task
+construction	122,134	O	I-Task
+,	134,135	O	I-Task
+curricula	136,145	O	I-Task
+design	146,152	O	I-Task
+and	153,156	O	I-Task
+curricula	157,166	O	I-Task
+content	167,174	O	I-Task
+for	175,178	O	O
+sports	179,185	O	O
+free	186,190	O	O
+normal	191,197	O	O
+students	198,206	O	O
+.	206,207	O	O
+
+On	208,210	O	O
+the	211,214	O	O
+basis	215,220	O	O
+of	221,223	O	O
+the	224,227	O	O
+investigation	228,241	O	B-Task
+,	241,242	O	O
+this	243,247	O	O
+article	248,255	O	O
+analyzed	256,264	O	O
+the	265,268	O	O
+theoretical	269,280	O	B-Process
+framework	281,290	O	I-Process
+of	291,293	O	O
+curricular	294,304	O	O
+construction	305,317	O	O
+and	318,321	O	O
+proposed	322,330	O	O
+some	331,335	O	O
+suggestions	336,347	O	O
+.	347,348	O	O
+
+We	349,351	O	O
+hope	352,356	O	O
+that	357,361	O	O
+it	362,364	O	O
+can	365,368	O	O
+provide	369,376	O	O
+some	377,381	O	O
+evidences	382,391	O	O
+for	392,395	O	O
+curricula	396,405	O	B-Process
+design	406,412	O	I-Process
+for	413,416	O	O
+sports	417,423	O	O
+free	424,428	O	O
+normal	429,435	O	O
+students	436,444	O	O
+.	444,445	O	O
 
 
 -DOCSTART- (S2212667812000822)
 
-It	0	2	O
-has	3	6	O
-been	7	11	O
-more	12	16	O
-than	17	21	O
-a	22	23	O
-century	24	31	O
-since	32	37	O
-the	38	41	O
-emergence	42	51	O
-of	52	54	O
-the	55	58	O
-lettered	59	67	B-Material
-words	68	73	I-Material
-.	73	74	O
-
-After	75	80	O
-that	81	85	O
-,	85	86	O
-with	87	91	O
-the	92	95	O
-development	96	107	B-Process
-of	108	110	I-Process
-economy	111	118	I-Process
-and	119	122	I-Process
-culture	123	130	I-Process
-,	130	131	O
-the	132	135	O
-increase	136	144	O
-of	145	147	O
-international	148	161	O
-contacts	162	170	O
-and	171	174	O
-communication	175	188	B-Process
-between	189	196	O
-China	197	202	O
-and	203	206	O
-foreign	207	214	O
-countries	215	224	O
-,	224	225	O
-lettered	226	234	B-Material
-words	235	240	I-Material
-have	241	245	O
-been	246	250	O
-appearing	251	260	O
-more	261	265	O
-frequently	266	276	O
-.	276	277	O
-
-Lettered	278	286	B-Material
-words	287	292	I-Material
-have	293	297	O
-become	298	304	O
-an	305	307	O
-indispensable	308	321	O
-part	322	326	O
-of	327	329	O
-Chinese	330	337	B-Material
-vocabulary	338	348	I-Material
-,	348	349	O
-such	350	354	O
-as	355	357	O
-WTO	358	361	B-Material
-,	361	362	O
-Ka	363	365	B-Material
-la	366	368	I-Material
-OK	369	371	I-Material
-and	372	375	O
-MP3	376	379	B-Material
-.	379	380	O
-
-As	381	383	O
-a	384	385	O
-new	386	389	O
-phenomenon	390	400	O
-in	401	403	O
-the	404	407	O
-vocabulary	408	418	B-Process
-system	419	425	I-Process
-of	426	428	O
-the	429	432	O
-modern	433	439	O
-Chinese	440	447	O
-,	447	448	O
-the	449	452	O
-lettered	453	461	B-Material
-words	462	467	I-Material
-draws	468	473	O
-a	474	475	O
-lot	476	479	O
-of	480	482	O
-academic	483	491	O
-attention	492	501	O
-.	501	502	O
-
-Ecolinguistics	503	517	B-Process
-is	518	520	O
-a	521	522	O
-new	523	526	O
-branch	527	533	B-Process
-of	534	536	I-Process
-linguistic	537	547	I-Process
-,	547	548	O
-which	549	554	O
-combine	555	562	B-Process
-the	563	566	I-Process
-linguistic	567	577	I-Process
-with	578	582	I-Process
-the	583	586	I-Process
-ecology	587	594	I-Process
-.	594	595	O
-
-This	596	600	O
-paper	601	606	O
-is	607	609	O
-trying	610	616	O
-to	617	619	O
-analyze	620	627	B-Task
-the	628	631	I-Task
-lettered	632	640	I-Task
-words	641	646	I-Task
-from	647	651	I-Task
-the	652	655	I-Task
-perspective	656	667	I-Task
-of	668	670	I-Task
-Ecolinguistics	671	685	I-Task
-.	685	686	O
-
-This	687	691	O
-paper	692	697	O
-will	698	702	O
-discuss	703	710	B-Task
-the	711	714	I-Task
-reasons	715	722	I-Task
-of	723	725	I-Task
-appearing	726	735	I-Task
-the	736	739	I-Task
-lettered	740	748	I-Task
-words	749	754	I-Task
-and	755	758	O
-the	759	762	O
-influence	763	772	O
-may	773	776	O
-give	777	781	O
-to	782	784	O
-modern	785	791	O
-Chinese	792	799	O
-form	800	804	O
-the	805	808	O
-ecolinguistic	809	822	O
-view	823	827	O
-.	827	828	O
+It	0,2	O	O
+has	3,6	O	O
+been	7,11	O	O
+more	12,16	O	O
+than	17,21	O	O
+a	22,23	O	O
+century	24,31	O	O
+since	32,37	O	O
+the	38,41	O	O
+emergence	42,51	O	O
+of	52,54	O	O
+the	55,58	O	O
+lettered	59,67	O	B-Material
+words	68,73	O	I-Material
+.	73,74	O	O
+
+After	75,80	O	O
+that	81,85	O	O
+,	85,86	O	O
+with	87,91	O	O
+the	92,95	O	O
+development	96,107	O	B-Process
+of	108,110	O	I-Process
+economy	111,118	O	I-Process
+and	119,122	O	I-Process
+culture	123,130	O	I-Process
+,	130,131	O	O
+the	132,135	O	O
+increase	136,144	O	O
+of	145,147	O	O
+international	148,161	O	O
+contacts	162,170	O	O
+and	171,174	O	O
+communication	175,188	O	B-Process
+between	189,196	O	O
+China	197,202	O	O
+and	203,206	O	O
+foreign	207,214	O	O
+countries	215,224	O	O
+,	224,225	O	O
+lettered	226,234	O	B-Material
+words	235,240	O	I-Material
+have	241,245	O	O
+been	246,250	O	O
+appearing	251,260	O	O
+more	261,265	O	O
+frequently	266,276	O	O
+.	276,277	O	O
+
+Lettered	278,286	O	B-Material
+words	287,292	O	I-Material
+have	293,297	O	O
+become	298,304	O	O
+an	305,307	O	O
+indispensable	308,321	O	O
+part	322,326	O	O
+of	327,329	O	O
+Chinese	330,337	O	B-Material
+vocabulary	338,348	O	I-Material
+,	348,349	O	O
+such	350,354	O	O
+as	355,357	O	O
+WTO	358,361	O	B-Material
+,	361,362	O	O
+Ka	363,365	O	B-Material
+la	366,368	O	I-Material
+OK	369,371	O	I-Material
+and	372,375	O	O
+MP3	376,379	O	B-Material
+.	379,380	O	O
+
+As	381,383	O	O
+a	384,385	O	O
+new	386,389	O	O
+phenomenon	390,400	O	O
+in	401,403	O	O
+the	404,407	O	O
+vocabulary	408,418	O	B-Process
+system	419,425	O	I-Process
+of	426,428	O	O
+the	429,432	O	O
+modern	433,439	O	O
+Chinese	440,447	O	O
+,	447,448	O	O
+the	449,452	O	O
+lettered	453,461	O	B-Material
+words	462,467	O	I-Material
+draws	468,473	O	O
+a	474,475	O	O
+lot	476,479	O	O
+of	480,482	O	O
+academic	483,491	O	O
+attention	492,501	O	O
+.	501,502	O	O
+
+Ecolinguistics	503,517	O	B-Process
+is	518,520	O	O
+a	521,522	O	O
+new	523,526	O	O
+branch	527,533	O	B-Process
+of	534,536	O	I-Process
+linguistic	537,547	O	I-Process
+,	547,548	O	O
+which	549,554	O	O
+combine	555,562	O	B-Process
+the	563,566	O	I-Process
+linguistic	567,577	O	I-Process
+with	578,582	O	I-Process
+the	583,586	O	I-Process
+ecology	587,594	O	I-Process
+.	594,595	O	O
+
+This	596,600	O	O
+paper	601,606	O	O
+is	607,609	O	O
+trying	610,616	O	O
+to	617,619	O	O
+analyze	620,627	O	B-Task
+the	628,631	O	I-Task
+lettered	632,640	O	I-Task
+words	641,646	O	I-Task
+from	647,651	O	I-Task
+the	652,655	O	I-Task
+perspective	656,667	O	I-Task
+of	668,670	O	I-Task
+Ecolinguistics	671,685	O	I-Task
+.	685,686	O	O
+
+This	687,691	O	O
+paper	692,697	O	O
+will	698,702	O	O
+discuss	703,710	O	B-Task
+the	711,714	O	I-Task
+reasons	715,722	O	I-Task
+of	723,725	O	I-Task
+appearing	726,735	O	I-Task
+the	736,739	O	I-Task
+lettered	740,748	O	I-Task
+words	749,754	O	I-Task
+and	755,758	O	O
+the	759,762	O	O
+influence	763,772	O	O
+may	773,776	O	O
+give	777,781	O	O
+to	782,784	O	O
+modern	785,791	O	O
+Chinese	792,799	O	O
+form	800,804	O	O
+the	805,808	O	O
+ecolinguistic	809,822	O	O
+view	823,827	O	O
+.	827,828	O	O
 
 
 -DOCSTART- (S2212667812000883)
 
-The	0	3	O
-21st	4	8	O
-century	9	16	O
-in	17	19	O
-the	20	23	O
-face	24	28	O
-of	29	31	O
-an	32	34	O
-aging	35	40	B-Process
-population	41	51	I-Process
-trend	52	57	I-Process
-,	57	58	O
-the	59	62	O
-health	63	69	O
-status	70	76	O
-of	77	79	O
-the	80	83	O
-elderly	84	91	O
-is	92	94	O
-a	95	96	O
-hot	97	100	O
-issue	101	106	O
-of	107	109	O
-social	110	116	O
-concern	117	124	O
-,	124	125	O
-therefore	126	135	O
-,	135	136	O
-to	137	139	O
-explore	140	147	B-Task
-the	148	151	I-Task
-health	152	158	I-Task
-status	159	165	I-Task
-of	166	168	O
-the	169	172	O
-Chinese	173	180	O
-population	181	191	O
-aging	192	197	O
-and	198	201	O
-the	202	205	O
-elderly	206	213	O
-,	213	214	O
-elderly	215	222	O
-fitness	223	230	O
-exercise	231	239	O
-Misunderstanding	240	256	O
-study	257	262	O
-and	263	266	O
-formulate	267	276	B-Task
-measures	277	285	I-Task
-and	286	289	I-Task
-methods	290	297	I-Task
-of	298	300	I-Task
-fitness	301	308	I-Task
-of	309	311	O
-the	312	315	O
-elderly	316	323	O
-,	323	324	O
-promoting	325	334	O
-elderly	335	342	B-Process
-fitness	343	350	I-Process
-training	351	359	I-Process
-towards	360	367	O
-a	368	369	O
-healthy	370	377	O
-,	377	378	O
-scientific	379	389	O
-direction	390	399	O
-,	399	400	O
-to	401	403	O
-promote	404	411	B-Task
-a	412	413	I-Task
-nationwide	414	424	I-Task
-fitness	425	432	I-Task
-activities	433	443	I-Task
-carried	444	451	O
-out	452	455	O
-in	456	458	O
-order	459	464	O
-to	465	467	O
-achieve	468	475	O
-the	476	479	O
-exercise	480	488	B-Process
-of	489	491	I-Process
-scientific	492	502	I-Process
-fitness	503	510	I-Process
-of	511	513	O
-older	514	519	O
-persons	520	527	O
-.	527	528	O
+The	0,3	O	O
+21st	4,8	O	O
+century	9,16	O	O
+in	17,19	O	O
+the	20,23	O	O
+face	24,28	O	O
+of	29,31	O	O
+an	32,34	O	O
+aging	35,40	O	B-Process
+population	41,51	O	I-Process
+trend	52,57	O	I-Process
+,	57,58	O	O
+the	59,62	O	O
+health	63,69	O	O
+status	70,76	O	O
+of	77,79	O	O
+the	80,83	O	O
+elderly	84,91	O	O
+is	92,94	O	O
+a	95,96	O	O
+hot	97,100	O	O
+issue	101,106	O	O
+of	107,109	O	O
+social	110,116	O	O
+concern	117,124	O	O
+,	124,125	O	O
+therefore	126,135	O	O
+,	135,136	O	O
+to	137,139	O	O
+explore	140,147	O	B-Task
+the	148,151	O	I-Task
+health	152,158	O	I-Task
+status	159,165	O	I-Task
+of	166,168	O	O
+the	169,172	O	O
+Chinese	173,180	O	O
+population	181,191	O	O
+aging	192,197	O	O
+and	198,201	O	O
+the	202,205	O	O
+elderly	206,213	O	O
+,	213,214	O	O
+elderly	215,222	O	O
+fitness	223,230	O	O
+exercise	231,239	O	O
+Misunderstanding	240,256	O	O
+study	257,262	O	O
+and	263,266	O	O
+formulate	267,276	O	B-Task
+measures	277,285	O	I-Task
+and	286,289	O	I-Task
+methods	290,297	O	I-Task
+of	298,300	O	I-Task
+fitness	301,308	O	I-Task
+of	309,311	O	O
+the	312,315	O	O
+elderly	316,323	O	O
+,	323,324	O	O
+promoting	325,334	O	O
+elderly	335,342	O	B-Process
+fitness	343,350	O	I-Process
+training	351,359	O	I-Process
+towards	360,367	O	O
+a	368,369	O	O
+healthy	370,377	O	O
+,	377,378	O	O
+scientific	379,389	O	O
+direction	390,399	O	O
+,	399,400	O	O
+to	401,403	O	O
+promote	404,411	O	B-Task
+a	412,413	O	I-Task
+nationwide	414,424	O	I-Task
+fitness	425,432	O	I-Task
+activities	433,443	O	I-Task
+carried	444,451	O	O
+out	452,455	O	O
+in	456,458	O	O
+order	459,464	O	O
+to	465,467	O	O
+achieve	468,475	O	O
+the	476,479	O	O
+exercise	480,488	O	B-Process
+of	489,491	O	I-Process
+scientific	492,502	O	I-Process
+fitness	503,510	O	I-Process
+of	511,513	O	O
+older	514,519	O	O
+persons	520,527	O	O
+.	527,528	O	O
 
 
 -DOCSTART- (S2212667812000895)
 
-Faced	0	5	O
-with	6	10	O
-deficient	11	20	O
-ability	21	28	O
-of	29	31	O
-autonomic	32	41	B-Task
-learning	42	50	I-Task
-among	51	56	O
-learners	57	65	O
-and	66	69	O
-low	70	73	B-Process
-emotional	74	83	I-Process
-involvement	84	95	I-Process
-in	96	98	O
-current	99	106	O
-web	107	110	B-Material
--	110	111	I-Material
-based	111	116	I-Material
-instructional	117	130	I-Material
-environment	131	142	I-Material
-,	142	143	O
-here	144	148	O
-we	149	151	O
-propose	152	159	B-Task
-a	160	161	I-Task
-construct	162	171	I-Task
-model	172	177	I-Task
-that	178	182	O
-is	183	185	O
-based	186	191	O
-on	192	194	O
-inter	195	200	O
--	200	201	O
-subjectivity	201	213	O
-fusing	214	220	B-Process
-cognition	221	230	I-Process
-with	231	235	I-Process
-emotion	236	243	I-Process
-to	244	246	O
-make	247	251	O
-up	252	254	O
-for	255	258	O
-these	259	264	O
-shortages	265	274	O
-.	274	275	O
-
-Further	276	283	O
-more	284	288	O
-,	288	289	O
-we	290	292	O
-’ve	292	295	O
-put	296	299	O
-the	300	303	O
-construct	304	313	B-Process
-model	314	319	I-Process
-into	320	324	O
-practice	325	333	O
-through	334	341	O
-the	342	345	O
-online	346	352	B-Process
-teaching	353	361	I-Process
-reformation	362	373	I-Process
-of	374	376	O
-the	377	380	O
-quality	381	388	O
-course	389	395	O
-apparel	396	403	O
-production	404	414	O
-and	415	418	O
-management	419	429	O
-.	429	430	O
+Faced	0,5	O	O
+with	6,10	O	O
+deficient	11,20	O	O
+ability	21,28	O	O
+of	29,31	O	O
+autonomic	32,41	O	B-Task
+learning	42,50	O	I-Task
+among	51,56	O	O
+learners	57,65	O	O
+and	66,69	O	O
+low	70,73	O	B-Process
+emotional	74,83	O	I-Process
+involvement	84,95	O	I-Process
+in	96,98	O	O
+current	99,106	O	O
+web	107,110	O	B-Material
+-	110,111	O	I-Material
+based	111,116	O	I-Material
+instructional	117,130	O	I-Material
+environment	131,142	O	I-Material
+,	142,143	O	O
+here	144,148	O	O
+we	149,151	O	O
+propose	152,159	O	B-Task
+a	160,161	O	I-Task
+construct	162,171	O	I-Task
+model	172,177	O	I-Task
+that	178,182	O	O
+is	183,185	O	O
+based	186,191	O	O
+on	192,194	O	O
+inter	195,200	O	O
+-	200,201	O	O
+subjectivity	201,213	O	O
+fusing	214,220	O	B-Process
+cognition	221,230	O	I-Process
+with	231,235	O	I-Process
+emotion	236,243	O	I-Process
+to	244,246	O	O
+make	247,251	O	O
+up	252,254	O	O
+for	255,258	O	O
+these	259,264	O	O
+shortages	265,274	O	O
+.	274,275	O	O
+
+Further	276,283	O	O
+more	284,288	O	O
+,	288,289	O	O
+we	290,292	O	O
+’ve	292,295	O	O
+put	296,299	O	O
+the	300,303	O	O
+construct	304,313	O	B-Process
+model	314,319	O	I-Process
+into	320,324	O	O
+practice	325,333	O	O
+through	334,341	O	O
+the	342,345	O	O
+online	346,352	O	B-Process
+teaching	353,361	O	I-Process
+reformation	362,373	O	I-Process
+of	374,376	O	O
+the	377,380	O	O
+quality	381,388	O	O
+course	389,395	O	O
+apparel	396,403	O	O
+production	404,414	O	O
+and	415,418	O	O
+management	419,429	O	O
+.	429,430	O	O
 
 
 -DOCSTART- (S2212667812000937)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-we	15	17	O
-present	18	25	O
-algorithms	26	36	B-Task
-for	37	40	I-Task
-automatic	41	50	I-Task
-generation	51	61	I-Task
-of	62	64	I-Task
-logic	65	70	I-Task
-reasoning	71	80	I-Task
-questions	81	90	I-Task
-.	90	91	I-Task
-
-The	92	95	O
-algorithms	96	106	O
-are	107	110	O
-able	111	115	O
-to	116	118	O
-construct	119	128	B-Process
-questions	129	138	I-Process
-that	139	143	I-Process
-are	144	147	I-Process
-solvable	148	156	I-Process
-with	157	161	I-Process
-unique	162	168	I-Process
-solutions	169	178	I-Process
-.	178	179	O
-
-The	180	183	O
-algorithms	184	194	O
-employ	195	201	O
-AI	202	204	B-Process
-techniques	205	215	I-Process
-such	216	220	O
-as	221	223	O
-semantic	224	232	B-Process
-networks	233	241	I-Process
-to	242	244	O
-produce	245	252	O
-verbal	253	259	B-Material
-questions	260	269	I-Material
-.	269	270	O
-
-These	271	276	O
-algorithms	277	287	O
-are	288	291	O
-small	292	297	O
-in	298	300	O
-size	301	305	O
-and	306	309	O
-are	310	313	O
-able	314	318	O
-to	319	321	O
-replace	322	329	O
-traditional	330	341	B-Material
-question	342	350	I-Material
-databases	351	360	I-Material
-.	360	361	O
-
-They	362	366	O
-are	367	370	O
-particularly	371	383	O
-suitable	384	392	O
-for	393	396	O
-implementation	397	411	O
-on	412	414	O
-the	415	418	O
-memory	419	425	B-Process
-constrained	426	437	I-Process
-mobile	438	444	I-Process
-platforms	445	454	I-Process
-.	454	455	O
-
-The	456	459	O
-algorithms	460	470	O
-can	471	474	O
-be	475	477	O
-applied	478	485	O
-to	486	488	O
-question	489	497	B-Process
-generation	498	508	I-Process
-for	509	512	I-Process
-job	513	516	I-Process
-interview	517	526	I-Process
-,	526	527	O
-civil	528	533	O
-service	534	541	O
-exam	542	546	O
-,	546	547	O
-etc	548	551	O
-.	551	552	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+we	15,17	O	O
+present	18,25	O	O
+algorithms	26,36	O	B-Task
+for	37,40	O	I-Task
+automatic	41,50	O	I-Task
+generation	51,61	O	I-Task
+of	62,64	O	I-Task
+logic	65,70	O	I-Task
+reasoning	71,80	O	I-Task
+questions	81,90	O	I-Task
+.	90,91	O	I-Task
+
+The	92,95	O	O
+algorithms	96,106	O	O
+are	107,110	O	O
+able	111,115	O	O
+to	116,118	O	O
+construct	119,128	O	B-Process
+questions	129,138	O	I-Process
+that	139,143	O	I-Process
+are	144,147	O	I-Process
+solvable	148,156	O	I-Process
+with	157,161	O	I-Process
+unique	162,168	O	I-Process
+solutions	169,178	O	I-Process
+.	178,179	O	O
+
+The	180,183	O	O
+algorithms	184,194	O	O
+employ	195,201	O	O
+AI	202,204	O	B-Process
+techniques	205,215	O	I-Process
+such	216,220	O	O
+as	221,223	O	O
+semantic	224,232	O	B-Process
+networks	233,241	O	I-Process
+to	242,244	O	O
+produce	245,252	O	O
+verbal	253,259	O	B-Material
+questions	260,269	O	I-Material
+.	269,270	O	O
+
+These	271,276	O	O
+algorithms	277,287	O	O
+are	288,291	O	O
+small	292,297	O	O
+in	298,300	O	O
+size	301,305	O	O
+and	306,309	O	O
+are	310,313	O	O
+able	314,318	O	O
+to	319,321	O	O
+replace	322,329	O	O
+traditional	330,341	O	B-Material
+question	342,350	O	I-Material
+databases	351,360	O	I-Material
+.	360,361	O	O
+
+They	362,366	O	O
+are	367,370	O	O
+particularly	371,383	O	O
+suitable	384,392	O	O
+for	393,396	O	O
+implementation	397,411	O	O
+on	412,414	O	O
+the	415,418	O	O
+memory	419,425	O	B-Process
+constrained	426,437	O	I-Process
+mobile	438,444	O	I-Process
+platforms	445,454	O	I-Process
+.	454,455	O	O
+
+The	456,459	O	O
+algorithms	460,470	O	O
+can	471,474	O	O
+be	475,477	O	O
+applied	478,485	O	O
+to	486,488	O	O
+question	489,497	O	B-Process
+generation	498,508	O	I-Process
+for	509,512	O	I-Process
+job	513,516	O	I-Process
+interview	517,526	O	I-Process
+,	526,527	O	O
+civil	528,533	O	O
+service	534,541	O	O
+exam	542,546	O	O
+,	546,547	O	O
+etc	548,551	O	O
+.	551,552	O	O
 
 
 -DOCSTART- (S2212667812000949)
 
-By	0	2	O
-referring	3	12	O
-to	13	15	O
-many	16	20	O
-relevant	21	29	O
-data	30	34	B-Material
-and	35	38	I-Material
-essays	39	45	I-Material
-,	45	46	O
-this	47	51	O
-paper	52	57	O
-aims	58	62	O
-at	63	65	O
-discussing	66	76	B-Task
-and	77	80	I-Task
-analyzing	81	90	I-Task
-the	91	94	I-Task
-importance	95	105	I-Task
-of	106	108	I-Task
-hip	109	112	I-Task
--	112	113	I-Task
-push	113	117	I-Task
-applied	118	125	I-Task
-in	126	128	I-Task
-walking	129	136	I-Task
-race	137	141	I-Task
-,	141	142	O
-based	142	147	O
-on	148	150	O
-the	151	154	O
-point	155	160	O
-of	161	163	O
-the	164	167	O
-view	168	172	O
-on	173	175	O
-sports	176	182	B-Process
-biomechanics	183	195	I-Process
-.With	196	201	O
-
-redard	202	208	O
-to	209	211	O
-the	212	215	O
-existing	216	224	O
-problems	225	233	O
-,	233	234	O
-the	234	237	O
-authors	238	245	O
-have	246	250	O
-made	251	255	O
-an	256	258	O
-objective	259	268	B-Task
-analysis	269	277	I-Task
-on	278	280	I-Task
-the	281	284	I-Task
-sports	285	291	I-Task
--	291	292	I-Task
-biomechanics	292	304	I-Task
-factors	305	312	I-Task
-that	313	317	O
-can	318	321	O
-influence	322	331	O
-the	332	335	O
-race	336	340	O
-,	340	341	O
-hoping	341	347	O
-to	348	350	O
-provide	351	358	O
-a	359	360	O
-theoretical	361	372	B-Task
-basis	373	378	I-Task
-for	379	382	O
-the	383	386	O
-deep	387	391	B-Task
-development	392	403	I-Task
-and	404	407	I-Task
-training	408	416	I-Task
-of	417	419	I-Task
-walking	420	427	I-Task
-race	428	432	I-Task
-.	432	433	O
+By	0,2	O	O
+referring	3,12	O	O
+to	13,15	O	O
+many	16,20	O	O
+relevant	21,29	O	O
+data	30,34	O	B-Material
+and	35,38	O	I-Material
+essays	39,45	O	I-Material
+,	45,46	O	O
+this	47,51	O	O
+paper	52,57	O	O
+aims	58,62	O	O
+at	63,65	O	O
+discussing	66,76	O	B-Task
+and	77,80	O	I-Task
+analyzing	81,90	O	I-Task
+the	91,94	O	I-Task
+importance	95,105	O	I-Task
+of	106,108	O	I-Task
+hip	109,112	O	I-Task
+-	112,113	O	I-Task
+push	113,117	O	I-Task
+applied	118,125	O	I-Task
+in	126,128	O	I-Task
+walking	129,136	O	I-Task
+race	137,141	O	I-Task
+,	141,142	O	O
+based	142,147	O	O
+on	148,150	O	O
+the	151,154	O	O
+point	155,160	O	O
+of	161,163	O	O
+the	164,167	O	O
+view	168,172	O	O
+on	173,175	O	O
+sports	176,182	O	B-Process
+biomechanics	183,195	O	I-Process
+.With	196,201	O	O
+
+redard	202,208	O	O
+to	209,211	O	O
+the	212,215	O	O
+existing	216,224	O	O
+problems	225,233	O	O
+,	233,234	O	O
+the	234,237	O	O
+authors	238,245	O	O
+have	246,250	O	O
+made	251,255	O	O
+an	256,258	O	O
+objective	259,268	O	B-Task
+analysis	269,277	O	I-Task
+on	278,280	O	I-Task
+the	281,284	O	I-Task
+sports	285,291	O	I-Task
+-	291,292	O	I-Task
+biomechanics	292,304	O	I-Task
+factors	305,312	O	I-Task
+that	313,317	O	O
+can	318,321	O	O
+influence	322,331	O	O
+the	332,335	O	O
+race	336,340	O	O
+,	340,341	O	O
+hoping	341,347	O	O
+to	348,350	O	O
+provide	351,358	O	O
+a	359,360	O	O
+theoretical	361,372	O	B-Task
+basis	373,378	O	I-Task
+for	379,382	O	O
+the	383,386	O	O
+deep	387,391	O	B-Task
+development	392,403	O	I-Task
+and	404,407	O	I-Task
+training	408,416	O	I-Task
+of	417,419	O	I-Task
+walking	420,427	O	I-Task
+race	428,432	O	I-Task
+.	432,433	O	O
 
 
 -DOCSTART- (S221266781300018X)
 
-Amodel	0	6	O
-are	7	10	O
-proposed	11	19	O
-for	20	23	O
-modeling	24	32	B-Task
-data	33	37	I-Task
--	37	38	I-Task
-centric	38	45	I-Task
-Web	46	49	I-Task
-services	50	58	I-Task
-which	59	64	O
-are	65	68	O
-powered	69	76	O
-by	77	79	O
-relational	80	90	B-Material
-databases	91	100	I-Material
-and	101	104	O
-interact	105	113	B-Process
-with	114	118	I-Process
-users	119	124	I-Process
-according	125	134	O
-to	135	137	O
-logical	138	145	B-Process
-formulas	146	154	I-Process
-specifying	155	165	O
-input	166	171	O
-constraints	172	183	O
-,	183	184	O
-control	185	192	B-Process
--	192	193	I-Process
-flow	193	197	I-Process
-constraints	198	209	I-Process
-and	210	213	O
-state	214	219	B-Process
-/	219	220	I-Process
-output	220	226	I-Process
-/	226	227	I-Process
-action	227	233	I-Process
-rules	234	239	I-Process
-.	239	240	O
-
-The	241	244	O
-Linear	245	251	B-Process
-Temporal	252	260	I-Process
-First	261	266	I-Process
--	266	267	I-Process
-Order	267	272	I-Process
-Logic	273	278	I-Process
-(	279	280	O
-LTL	280	283	B-Process
--	283	284	I-Process
-FO	284	286	I-Process
-)	286	287	O
-formulas	288	296	O
-over	297	301	O
-inputs	302	308	O
-,	308	309	O
-states	310	316	O
-,	316	317	O
-outputs	318	325	O
-and	326	329	O
-actions	330	337	O
-are	338	341	O
-used	342	346	O
-to	347	349	O
-express	350	357	O
-the	358	361	O
-properties	362	372	O
-to	373	375	O
-be	376	378	O
-verified	379	387	O
-.	387	388	O
-
-We	388	390	O
-have	391	395	O
-proven	396	402	O
-that	403	407	O
-automatic	408	417	O
-verification	418	430	O
-of	431	433	O
-LTL	434	437	B-Process
--	437	438	I-Process
-FO	438	440	I-Process
-properties	441	451	O
-of	452	454	O
-data	455	459	B-Material
--	459	460	I-Material
-centric	460	467	I-Material
-Web	468	471	I-Material
-services	472	480	I-Material
-under	481	486	O
-input	487	492	O
--	492	493	O
-bounded	493	500	O
-constraints	501	512	O
-is	513	515	O
-decidable	516	525	O
-by	526	528	O
-reducing	529	537	B-Process
-Web	538	541	I-Process
-services	542	550	I-Process
-to	551	553	I-Process
-data	554	558	I-Process
--	558	559	I-Process
-centric	559	566	I-Process
-Web	567	570	I-Process
-applications	571	583	I-Process
-.	583	584	O
-
-Thus	585	589	O
-,	589	590	O
-we	591	593	O
-can	594	597	O
-verify	598	604	B-Task
-Web	605	608	I-Task
-service	609	616	I-Task
-specifications	617	631	I-Task
-using	632	637	O
-existing	638	646	O
-verifier	647	655	O
-designed	656	664	O
-for	665	668	O
-Web	669	672	B-Process
-applications	673	685	I-Process
-.	685	686	O
+Amodel	0,6	O	O
+are	7,10	O	O
+proposed	11,19	O	O
+for	20,23	O	O
+modeling	24,32	O	B-Task
+data	33,37	O	I-Task
+-	37,38	O	I-Task
+centric	38,45	O	I-Task
+Web	46,49	O	I-Task
+services	50,58	O	I-Task
+which	59,64	O	O
+are	65,68	O	O
+powered	69,76	O	O
+by	77,79	O	O
+relational	80,90	O	B-Material
+databases	91,100	O	I-Material
+and	101,104	O	O
+interact	105,113	O	B-Process
+with	114,118	O	I-Process
+users	119,124	O	I-Process
+according	125,134	O	O
+to	135,137	O	O
+logical	138,145	O	B-Process
+formulas	146,154	O	I-Process
+specifying	155,165	O	O
+input	166,171	O	O
+constraints	172,183	O	O
+,	183,184	O	O
+control	185,192	O	B-Process
+-	192,193	O	I-Process
+flow	193,197	O	I-Process
+constraints	198,209	O	I-Process
+and	210,213	O	O
+state	214,219	O	B-Process
+/	219,220	O	I-Process
+output	220,226	O	I-Process
+/	226,227	O	I-Process
+action	227,233	O	I-Process
+rules	234,239	O	I-Process
+.	239,240	O	O
+
+The	241,244	O	O
+Linear	245,251	O	B-Process
+Temporal	252,260	O	I-Process
+First	261,266	O	I-Process
+-	266,267	O	I-Process
+Order	267,272	O	I-Process
+Logic	273,278	O	I-Process
+(	279,280	O	O
+LTL	280,283	O	B-Process
+-	283,284	O	I-Process
+FO	284,286	O	I-Process
+)	286,287	O	O
+formulas	288,296	O	O
+over	297,301	O	O
+inputs	302,308	O	O
+,	308,309	O	O
+states	310,316	O	O
+,	316,317	O	O
+outputs	318,325	O	O
+and	326,329	O	O
+actions	330,337	O	O
+are	338,341	O	O
+used	342,346	O	O
+to	347,349	O	O
+express	350,357	O	O
+the	358,361	O	O
+properties	362,372	O	O
+to	373,375	O	O
+be	376,378	O	O
+verified	379,387	O	O
+.	387,388	O	O
+
+We	388,390	O	O
+have	391,395	O	O
+proven	396,402	O	O
+that	403,407	O	O
+automatic	408,417	O	O
+verification	418,430	O	O
+of	431,433	O	O
+LTL	434,437	O	B-Process
+-	437,438	O	I-Process
+FO	438,440	O	I-Process
+properties	441,451	O	O
+of	452,454	O	O
+data	455,459	O	B-Material
+-	459,460	O	I-Material
+centric	460,467	O	I-Material
+Web	468,471	O	I-Material
+services	472,480	O	I-Material
+under	481,486	O	O
+input	487,492	O	O
+-	492,493	O	O
+bounded	493,500	O	O
+constraints	501,512	O	O
+is	513,515	O	O
+decidable	516,525	O	O
+by	526,528	O	O
+reducing	529,537	O	B-Process
+Web	538,541	O	I-Process
+services	542,550	O	I-Process
+to	551,553	O	I-Process
+data	554,558	O	I-Process
+-	558,559	O	I-Process
+centric	559,566	O	I-Process
+Web	567,570	O	I-Process
+applications	571,583	O	I-Process
+.	583,584	O	O
+
+Thus	585,589	O	O
+,	589,590	O	O
+we	591,593	O	O
+can	594,597	O	O
+verify	598,604	O	B-Task
+Web	605,608	O	I-Task
+service	609,616	O	I-Task
+specifications	617,631	O	I-Task
+using	632,637	O	O
+existing	638,646	O	O
+verifier	647,655	O	O
+designed	656,664	O	O
+for	665,668	O	O
+Web	669,672	O	B-Process
+applications	673,685	O	I-Process
+.	685,686	O	O
 
 
 -DOCSTART- (S2212667813000610)
 
-The	0	3	O
-most	4	8	O
-important	9	18	O
-goal	19	23	O
-of	24	26	O
-the	27	30	O
-software	31	39	B-Process
-industry	40	48	I-Process
-is	49	51	O
-to	52	54	O
-produce	55	62	B-Task
-successful	63	73	I-Task
-product	74	81	I-Task
-.	81	82	O
-
-During	83	89	O
-the	90	93	O
-process	94	101	O
-of	102	104	O
-production	105	115	B-Process
-several	116	123	O
-times	124	129	O
-the	130	133	O
-product	134	141	B-Process
-fails	142	147	I-Process
-due	148	151	O
-to	152	154	O
-lack	155	159	O
-of	160	162	O
-proper	163	169	O
-management	170	180	B-Process
-.	180	181	O
-
-This	182	186	O
-paper	187	192	O
-is	193	195	O
-exploring	196	205	O
-the	206	209	O
-role	210	214	B-Task
-of	215	217	I-Task
-software	218	226	I-Task
-engineering	227	238	I-Task
-courses	239	246	I-Task
-in	247	249	O
-computer	250	258	B-Task
-engineering	259	270	I-Task
-related	271	278	O
-branches	279	287	O
-and	288	291	O
-then	292	296	O
-reasons	297	304	O
-why	305	308	O
-software	309	317	O
-developers	318	328	O
-lack	329	333	O
-project	334	341	B-Process
-management	342	352	I-Process
-in	353	355	O
-proper	356	362	B-Process
-software	363	371	I-Process
-management	372	382	I-Process
-trainings	383	392	I-Process
-.	392	393	O
-
-Our	394	397	O
-findings	398	406	O
-reflect	407	414	O
-that	415	419	O
-in	420	422	O
-majority	423	431	O
-of	432	434	O
-computer	435	443	O
-related	444	451	O
-branches	452	460	O
-like	461	465	O
-computer	466	474	O
-science	475	482	O
-,	482	483	O
-computer	484	492	O
-engineering	493	504	O
-,	504	505	O
-information	506	517	O
-system	518	524	O
-engineering	525	536	O
-there	537	542	O
-is	543	545	O
-no	546	548	O
-place	549	554	O
-for	555	558	O
-software	559	567	B-Process
-project	568	575	I-Process
-management	576	586	I-Process
-course	587	593	I-Process
-.	593	594	O
-
-Our	595	598	O
-findings	599	607	O
-are	608	611	O
-based	612	617	O
-on	618	620	O
-a	621	622	O
-survey	623	629	B-Task
-of	630	632	I-Task
-course	633	639	I-Task
-curriculums	640	651	I-Task
-of	652	654	O
-computer	655	663	B-Task
-engineering	664	675	I-Task
-,	675	676	O
-computer	677	685	B-Task
-science	686	693	I-Task
-and	694	697	I-Task
-information	698	709	I-Task
-system	710	716	I-Task
-engineering	717	728	I-Task
-courses	729	736	O
-taught	737	743	O
-in	744	746	O
-Turkish	747	754	O
-universities	755	767	O
-.	767	768	O
+The	0,3	O	O
+most	4,8	O	O
+important	9,18	O	O
+goal	19,23	O	O
+of	24,26	O	O
+the	27,30	O	O
+software	31,39	O	B-Process
+industry	40,48	O	I-Process
+is	49,51	O	O
+to	52,54	O	O
+produce	55,62	O	B-Task
+successful	63,73	O	I-Task
+product	74,81	O	I-Task
+.	81,82	O	O
+
+During	83,89	O	O
+the	90,93	O	O
+process	94,101	O	O
+of	102,104	O	O
+production	105,115	O	B-Process
+several	116,123	O	O
+times	124,129	O	O
+the	130,133	O	O
+product	134,141	O	B-Process
+fails	142,147	O	I-Process
+due	148,151	O	O
+to	152,154	O	O
+lack	155,159	O	O
+of	160,162	O	O
+proper	163,169	O	O
+management	170,180	O	B-Process
+.	180,181	O	O
+
+This	182,186	O	O
+paper	187,192	O	O
+is	193,195	O	O
+exploring	196,205	O	O
+the	206,209	O	O
+role	210,214	O	B-Task
+of	215,217	O	I-Task
+software	218,226	O	I-Task
+engineering	227,238	O	I-Task
+courses	239,246	O	I-Task
+in	247,249	O	O
+computer	250,258	O	B-Task
+engineering	259,270	O	I-Task
+related	271,278	O	O
+branches	279,287	O	O
+and	288,291	O	O
+then	292,296	O	O
+reasons	297,304	O	O
+why	305,308	O	O
+software	309,317	O	O
+developers	318,328	O	O
+lack	329,333	O	O
+project	334,341	O	B-Process
+management	342,352	O	I-Process
+in	353,355	O	O
+proper	356,362	O	B-Process
+software	363,371	O	I-Process
+management	372,382	O	I-Process
+trainings	383,392	O	I-Process
+.	392,393	O	O
+
+Our	394,397	O	O
+findings	398,406	O	O
+reflect	407,414	O	O
+that	415,419	O	O
+in	420,422	O	O
+majority	423,431	O	O
+of	432,434	O	O
+computer	435,443	O	O
+related	444,451	O	O
+branches	452,460	O	O
+like	461,465	O	O
+computer	466,474	O	O
+science	475,482	O	O
+,	482,483	O	O
+computer	484,492	O	O
+engineering	493,504	O	O
+,	504,505	O	O
+information	506,517	O	O
+system	518,524	O	O
+engineering	525,536	O	O
+there	537,542	O	O
+is	543,545	O	O
+no	546,548	O	O
+place	549,554	O	O
+for	555,558	O	O
+software	559,567	O	B-Process
+project	568,575	O	I-Process
+management	576,586	O	I-Process
+course	587,593	O	I-Process
+.	593,594	O	O
+
+Our	595,598	O	O
+findings	599,607	O	O
+are	608,611	O	O
+based	612,617	O	O
+on	618,620	O	O
+a	621,622	O	O
+survey	623,629	O	B-Task
+of	630,632	O	I-Task
+course	633,639	O	I-Task
+curriculums	640,651	O	I-Task
+of	652,654	O	O
+computer	655,663	O	B-Task
+engineering	664,675	O	I-Task
+,	675,676	O	O
+computer	677,685	O	B-Task
+science	686,693	O	I-Task
+and	694,697	O	I-Task
+information	698,709	O	I-Task
+system	710,716	O	I-Task
+engineering	717,728	O	I-Task
+courses	729,736	O	O
+taught	737,743	O	O
+in	744,746	O	O
+Turkish	747,754	O	O
+universities	755,767	O	O
+.	767,768	O	O
 
 
 -DOCSTART- (S2212667813000762)
 
-Analyzing	0	9	O
-the	10	13	O
-significance	14	26	O
-of	27	29	O
-macroscopical	30	43	O
-dynamic	44	51	O
-monitoring	52	62	O
-of	63	65	O
-new	66	69	O
-add	70	73	O
-construction	74	86	B-Material
-land	87	91	I-Material
-,	91	92	O
-considering	93	104	O
-the	105	108	O
-influence	109	118	O
-of	119	121	O
-various	122	129	O
-factors	130	137	O
-,	137	138	O
-this	139	143	O
-paper	144	149	O
-selected	150	158	O
-Yinchuan	159	167	B-Material
-Plain	168	173	I-Material
-for	174	177	O
-a	178	179	O
-typical	180	187	O
-experimental	188	200	O
-zone	201	205	O
-,	205	206	O
-built	207	212	O
-knowledge	213	222	B-Material
-base	223	227	I-Material
-of	228	230	O
-remote	231	237	B-Process
-sensing	238	245	I-Process
-images	246	252	I-Process
-interpretation	253	267	I-Process
-,	267	268	O
-used	269	273	O
-multi	274	279	B-Material
--	279	280	I-Material
-temporal	280	288	I-Material
-remote	289	295	I-Material
-sensing	296	303	I-Material
-images	304	310	I-Material
-,	310	311	O
-carried	312	319	O
-through	320	327	O
-interactive	328	339	B-Process
-interpretation	340	354	I-Process
-of	355	357	I-Process
-change	358	364	I-Process
-patterns	365	373	I-Process
-of	374	376	O
-new	377	380	O
-add	381	384	O
-construction	385	397	B-Material
-land	398	402	I-Material
-and	403	406	O
-field	407	412	B-Process
-validation	413	423	I-Process
-.	423	424	O
-
-Interpretation	425	439	B-Task
-results	440	447	O
-of	448	450	O
-20	451	453	O
-m	453	454	O
-scale	455	460	O
-remote	461	467	B-Material
-sensing	468	475	I-Material
-image	476	481	I-Material
-show	482	486	O
-that	487	491	O
-the	492	495	O
-minimum	496	503	O
-spot	504	508	O
-average	509	516	O
-area	517	521	O
-of	522	524	O
-new	525	528	O
-construction	529	541	B-Material
-land	542	546	I-Material
-change	547	553	O
-monitored	554	563	O
-by	564	566	O
-20	567	569	O
-m	569	570	O
-scale	571	576	O
-remote	577	583	B-Material
-sensing	584	591	I-Material
-data	592	596	I-Material
-is	597	599	O
-about	600	605	O
-6	606	607	O
-acres	608	613	O
-.	613	614	O
-
-The	615	618	O
-ability	619	626	O
-20	627	629	O
-m	629	630	O
-scale	631	636	O
-remote	637	643	B-Material
-sensing	644	651	I-Material
-data	652	656	I-Material
-identifies	657	667	B-Process
-new	668	671	I-Process
-increased	672	681	I-Process
-construction	682	694	I-Process
-land	695	699	I-Process
-change	700	706	O
-further	707	714	O
-strengthens	715	726	O
-,	726	727	O
-shows	728	733	O
-in	734	736	O
-the	737	740	O
-recognition	741	752	B-Process
-of	753	755	I-Process
-the	756	759	I-Process
-smallest	760	768	I-Process
-spot	769	773	I-Process
-area	774	778	I-Process
-reduces	779	786	O
-and	787	790	O
-the	791	794	O
-recognition	795	806	B-Process
-accuracy	807	815	O
-increases	816	825	O
-.	825	826	O
+Analyzing	0,9	O	O
+the	10,13	O	O
+significance	14,26	O	O
+of	27,29	O	O
+macroscopical	30,43	O	O
+dynamic	44,51	O	O
+monitoring	52,62	O	O
+of	63,65	O	O
+new	66,69	O	O
+add	70,73	O	O
+construction	74,86	O	B-Material
+land	87,91	O	I-Material
+,	91,92	O	O
+considering	93,104	O	O
+the	105,108	O	O
+influence	109,118	O	O
+of	119,121	O	O
+various	122,129	O	O
+factors	130,137	O	O
+,	137,138	O	O
+this	139,143	O	O
+paper	144,149	O	O
+selected	150,158	O	O
+Yinchuan	159,167	O	B-Material
+Plain	168,173	O	I-Material
+for	174,177	O	O
+a	178,179	O	O
+typical	180,187	O	O
+experimental	188,200	O	O
+zone	201,205	O	O
+,	205,206	O	O
+built	207,212	O	O
+knowledge	213,222	O	B-Material
+base	223,227	O	I-Material
+of	228,230	O	O
+remote	231,237	O	B-Process
+sensing	238,245	O	I-Process
+images	246,252	O	I-Process
+interpretation	253,267	O	I-Process
+,	267,268	O	O
+used	269,273	O	O
+multi	274,279	O	B-Material
+-	279,280	O	I-Material
+temporal	280,288	O	I-Material
+remote	289,295	O	I-Material
+sensing	296,303	O	I-Material
+images	304,310	O	I-Material
+,	310,311	O	O
+carried	312,319	O	O
+through	320,327	O	O
+interactive	328,339	O	B-Process
+interpretation	340,354	O	I-Process
+of	355,357	O	I-Process
+change	358,364	O	I-Process
+patterns	365,373	O	I-Process
+of	374,376	O	O
+new	377,380	O	O
+add	381,384	O	O
+construction	385,397	O	B-Material
+land	398,402	O	I-Material
+and	403,406	O	O
+field	407,412	O	B-Process
+validation	413,423	O	I-Process
+.	423,424	O	O
+
+Interpretation	425,439	O	B-Task
+results	440,447	O	O
+of	448,450	O	O
+20	451,453	O	O
+m	453,454	O	O
+scale	455,460	O	O
+remote	461,467	O	B-Material
+sensing	468,475	O	I-Material
+image	476,481	O	I-Material
+show	482,486	O	O
+that	487,491	O	O
+the	492,495	O	O
+minimum	496,503	O	O
+spot	504,508	O	O
+average	509,516	O	O
+area	517,521	O	O
+of	522,524	O	O
+new	525,528	O	O
+construction	529,541	O	B-Material
+land	542,546	O	I-Material
+change	547,553	O	O
+monitored	554,563	O	O
+by	564,566	O	O
+20	567,569	O	O
+m	569,570	O	O
+scale	571,576	O	O
+remote	577,583	O	B-Material
+sensing	584,591	O	I-Material
+data	592,596	O	I-Material
+is	597,599	O	O
+about	600,605	O	O
+6	606,607	O	O
+acres	608,613	O	O
+.	613,614	O	O
+
+The	615,618	O	O
+ability	619,626	O	O
+20	627,629	O	O
+m	629,630	O	O
+scale	631,636	O	O
+remote	637,643	O	B-Material
+sensing	644,651	O	I-Material
+data	652,656	O	I-Material
+identifies	657,667	O	B-Process
+new	668,671	O	I-Process
+increased	672,681	O	I-Process
+construction	682,694	O	I-Process
+land	695,699	O	I-Process
+change	700,706	O	O
+further	707,714	O	O
+strengthens	715,726	O	O
+,	726,727	O	O
+shows	728,733	O	O
+in	734,736	O	O
+the	737,740	O	O
+recognition	741,752	O	B-Process
+of	753,755	O	I-Process
+the	756,759	O	I-Process
+smallest	760,768	O	I-Process
+spot	769,773	O	I-Process
+area	774,778	O	I-Process
+reduces	779,786	O	O
+and	787,790	O	O
+the	791,794	O	O
+recognition	795,806	O	B-Process
+accuracy	807,815	O	O
+increases	816,825	O	O
+.	825,826	O	O
 
 
 -DOCSTART- (S2212667813000774)
 
-Evolutionary	0	12	B-Process
-Algorithms	13	23	I-Process
-are	24	27	O
-the	28	31	O
-stochastic	32	42	B-Process
-optimization	43	55	I-Process
-methods	56	63	I-Process
-,	63	64	O
-simulating	65	75	O
-the	76	79	O
-behavior	80	88	O
-of	89	91	O
-natural	92	99	B-Process
-evolution	100	109	I-Process
-.	109	110	O
-
-These	111	116	O
-algorithms	117	127	O
-are	128	131	O
-basically	132	141	O
-population	142	152	B-Process
-based	153	158	I-Process
-search	159	165	I-Process
-procedures	166	176	I-Process
-efficiently	177	188	O
-dealing	189	196	O
-with	197	201	O
-complex	202	209	O
-search	210	216	O
-spaces	217	223	O
-having	224	230	O
-robust	231	237	O
-and	238	241	O
-powerful	242	250	O
-search	251	257	B-Process
-mechanism	258	267	I-Process
-.	267	268	O
-
-EAs	269	272	B-Process
-are	273	276	O
-highly	277	283	O
-applicable	284	294	O
-in	295	297	O
-multiobjective	298	312	O
-optimization	313	325	B-Process
-problem	326	333	I-Process
-which	334	339	O
-are	340	343	O
-having	344	350	O
-conflicting	351	362	O
-objectives	363	373	O
-.	373	374	O
-
-This	375	379	O
-paper	380	385	O
-reviews	386	393	B-Task
-the	394	397	I-Task
-work	398	402	I-Task
-carried	403	410	I-Task
-out	411	414	I-Task
-for	415	418	I-Task
-diversity	419	428	I-Task
-and	429	432	I-Task
-convergence	433	444	I-Task
-issues	445	451	I-Task
-in	452	454	I-Task
-EMO	455	458	I-Task
-.	458	459	O
+Evolutionary	0,12	O	B-Process
+Algorithms	13,23	O	I-Process
+are	24,27	O	O
+the	28,31	O	O
+stochastic	32,42	O	B-Process
+optimization	43,55	O	I-Process
+methods	56,63	O	I-Process
+,	63,64	O	O
+simulating	65,75	O	O
+the	76,79	O	O
+behavior	80,88	O	O
+of	89,91	O	O
+natural	92,99	O	B-Process
+evolution	100,109	O	I-Process
+.	109,110	O	O
+
+These	111,116	O	O
+algorithms	117,127	O	O
+are	128,131	O	O
+basically	132,141	O	O
+population	142,152	O	B-Process
+based	153,158	O	I-Process
+search	159,165	O	I-Process
+procedures	166,176	O	I-Process
+efficiently	177,188	O	O
+dealing	189,196	O	O
+with	197,201	O	O
+complex	202,209	O	O
+search	210,216	O	O
+spaces	217,223	O	O
+having	224,230	O	O
+robust	231,237	O	O
+and	238,241	O	O
+powerful	242,250	O	O
+search	251,257	O	B-Process
+mechanism	258,267	O	I-Process
+.	267,268	O	O
+
+EAs	269,272	O	B-Process
+are	273,276	O	O
+highly	277,283	O	O
+applicable	284,294	O	O
+in	295,297	O	O
+multiobjective	298,312	O	O
+optimization	313,325	O	B-Process
+problem	326,333	O	I-Process
+which	334,339	O	O
+are	340,343	O	O
+having	344,350	O	O
+conflicting	351,362	O	O
+objectives	363,373	O	O
+.	373,374	O	O
+
+This	375,379	O	O
+paper	380,385	O	O
+reviews	386,393	O	B-Task
+the	394,397	O	I-Task
+work	398,402	O	I-Task
+carried	403,410	O	I-Task
+out	411,414	O	I-Task
+for	415,418	O	I-Task
+diversity	419,428	O	I-Task
+and	429,432	O	I-Task
+convergence	433,444	O	I-Task
+issues	445,451	O	I-Task
+in	452,454	O	I-Task
+EMO	455,458	O	I-Task
+.	458,459	O	O
 
 
 -DOCSTART- (S221266781300083X)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-coordination	15	27	B-Task
-problem	28	35	I-Task
-of	36	38	I-Task
-agricultural	39	51	I-Task
-products	52	60	I-Task
-supply	61	67	I-Task
-chain	68	73	I-Task
-with	74	78	O
-stochastic	79	89	B-Process
-yield	90	95	I-Process
-is	96	98	O
-studied	99	106	O
-based	107	112	O
-on	113	115	O
-prices	116	122	B-Process
-compensation	123	135	I-Process
-strategy	136	144	I-Process
-.	144	145	O
-
-The	146	149	O
-agricultural	150	162	B-Process
-producing	163	172	I-Process
-is	173	175	O
-influenced	176	186	O
-by	187	189	O
-the	190	193	O
-natural	194	201	O
-conditions	202	212	O
-,	212	213	O
-and	214	217	O
-the	218	221	O
-yield	222	227	B-Process
-is	228	230	O
-uncertain	231	240	O
-.	240	241	O
-
-While	242	247	O
-agricultural	248	260	B-Material
-products	261	269	I-Material
-is	270	272	O
-rigid	273	278	O
-demand	279	285	O
-goods	286	291	O
-,	291	292	O
-the	293	296	O
-fluctuations	297	309	B-Process
-of	310	312	I-Process
-yield	313	318	I-Process
-cause	319	324	O
-greater	325	332	O
-volatility	333	343	O
-of	344	346	O
-prices	347	353	O
-.	353	354	O
-
-The	355	358	O
-two-	359	363	B-Process
-echelon	364	371	I-Process
-supply	372	378	I-Process
-chain	379	384	I-Process
-with	385	389	O
-one	390	393	O
-supplier	394	402	O
-and	403	406	O
-one	407	410	O
-retailor	411	419	O
-is	420	422	O
-studied	423	430	O
-,	430	431	O
-and	432	435	O
-the	436	439	O
-mathematical	440	452	B-Task
-model	453	458	I-Task
-is	459	461	I-Task
-constructed	462	473	I-Task
-.	473	474	O
-
-The	475	478	O
-model	479	484	O
-showed	485	491	O
-that	492	496	O
-prices	497	503	B-Process
-compensation	504	516	I-Process
-strategy	517	525	I-Process
-is	526	528	O
-Pareto	529	535	O
-improvement	536	547	O
-for	548	551	O
-agricultural	552	564	B-Process
-products	565	573	I-Process
-supply	574	580	I-Process
-chain	581	586	I-Process
-with	587	591	O
-stochastic	592	602	B-Process
-yield	603	608	I-Process
-,	608	609	O
-and	610	613	O
-it	614	616	O
-also	617	621	O
-incentive	622	631	O
-agricultural	632	644	B-Material
-products	645	653	I-Material
-supplier	654	662	O
-to	663	665	O
-rise	666	670	O
-the	671	674	O
-production	675	685	B-Process
-plan	686	690	I-Process
-and	691	694	O
-balance	695	702	O
-the	703	706	O
-profit	707	713	B-Process
-allocation	714	724	I-Process
-of	725	727	O
-supply	728	734	B-Process
-chain	735	740	I-Process
-.	740	741	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+coordination	15,27	O	B-Task
+problem	28,35	O	I-Task
+of	36,38	O	I-Task
+agricultural	39,51	O	I-Task
+products	52,60	O	I-Task
+supply	61,67	O	I-Task
+chain	68,73	O	I-Task
+with	74,78	O	O
+stochastic	79,89	O	B-Process
+yield	90,95	O	I-Process
+is	96,98	O	O
+studied	99,106	O	O
+based	107,112	O	O
+on	113,115	O	O
+prices	116,122	O	B-Process
+compensation	123,135	O	I-Process
+strategy	136,144	O	I-Process
+.	144,145	O	O
+
+The	146,149	O	O
+agricultural	150,162	O	B-Process
+producing	163,172	O	I-Process
+is	173,175	O	O
+influenced	176,186	O	O
+by	187,189	O	O
+the	190,193	O	O
+natural	194,201	O	O
+conditions	202,212	O	O
+,	212,213	O	O
+and	214,217	O	O
+the	218,221	O	O
+yield	222,227	O	B-Process
+is	228,230	O	O
+uncertain	231,240	O	O
+.	240,241	O	O
+
+While	242,247	O	O
+agricultural	248,260	O	B-Material
+products	261,269	O	I-Material
+is	270,272	O	O
+rigid	273,278	O	O
+demand	279,285	O	O
+goods	286,291	O	O
+,	291,292	O	O
+the	293,296	O	O
+fluctuations	297,309	O	B-Process
+of	310,312	O	I-Process
+yield	313,318	O	I-Process
+cause	319,324	O	O
+greater	325,332	O	O
+volatility	333,343	O	O
+of	344,346	O	O
+prices	347,353	O	O
+.	353,354	O	O
+
+The	355,358	O	O
+two-	359,363	O	B-Process
+echelon	364,371	O	I-Process
+supply	372,378	O	I-Process
+chain	379,384	O	I-Process
+with	385,389	O	O
+one	390,393	O	O
+supplier	394,402	O	O
+and	403,406	O	O
+one	407,410	O	O
+retailor	411,419	O	O
+is	420,422	O	O
+studied	423,430	O	O
+,	430,431	O	O
+and	432,435	O	O
+the	436,439	O	O
+mathematical	440,452	O	B-Task
+model	453,458	O	I-Task
+is	459,461	O	I-Task
+constructed	462,473	O	I-Task
+.	473,474	O	O
+
+The	475,478	O	O
+model	479,484	O	O
+showed	485,491	O	O
+that	492,496	O	O
+prices	497,503	O	B-Process
+compensation	504,516	O	I-Process
+strategy	517,525	O	I-Process
+is	526,528	O	O
+Pareto	529,535	O	O
+improvement	536,547	O	O
+for	548,551	O	O
+agricultural	552,564	O	B-Process
+products	565,573	O	I-Process
+supply	574,580	O	I-Process
+chain	581,586	O	I-Process
+with	587,591	O	O
+stochastic	592,602	O	B-Process
+yield	603,608	O	I-Process
+,	608,609	O	O
+and	610,613	O	O
+it	614,616	O	O
+also	617,621	O	O
+incentive	622,631	O	O
+agricultural	632,644	O	B-Material
+products	645,653	O	I-Material
+supplier	654,662	O	O
+to	663,665	O	O
+rise	666,670	O	O
+the	671,674	O	O
+production	675,685	O	B-Process
+plan	686,690	O	I-Process
+and	691,694	O	O
+balance	695,702	O	O
+the	703,706	O	O
+profit	707,713	O	B-Process
+allocation	714,724	O	I-Process
+of	725,727	O	O
+supply	728,734	O	B-Process
+chain	735,740	O	I-Process
+.	740,741	O	O
 
 
 -DOCSTART- (S2212667813001068)
 
-It	0	2	O
-is	3	5	O
-difficult	6	15	O
-in	16	18	O
-directly	19	27	O
-predicting	28	38	O
-permeability	39	51	B-Process
-from	52	56	O
-porosity	57	65	B-Process
-in	66	68	O
-tight	69	74	O
-sandstones	75	85	B-Material
-due	86	89	O
-to	90	92	O
-the	93	96	O
-poor	97	101	O
-relationship	102	114	O
-between	115	122	O
-core	123	127	O
-derived	128	135	O
-porosity	136	144	B-Process
-and	145	148	O
-permeability	149	161	B-Process
-that	162	166	O
-caused	167	173	O
-by	174	176	O
-the	177	180	O
-extreme	181	188	O
-heterogeneity	189	202	O
-.	202	203	O
-
-The	204	207	O
-classical	208	217	O
-SDR	218	221	B-Process
-(	222	223	O
-Schlumberger	223	235	B-Process
-Doll	236	240	I-Process
-Research	241	249	I-Process
-)	249	250	O
-and	251	254	O
-Timur	255	260	B-Process
--	260	261	I-Process
-Coates	261	267	I-Process
-models	268	274	I-Process
-are	275	278	O
-all	279	282	O
-unusable	283	291	O
-because	292	299	O
-not	300	303	O
-enough	304	310	O
-core	311	315	O
-samples	316	323	O
-were	324	328	O
-drilled	329	336	O
-for	337	340	O
-lab	341	344	O
-NMR	345	348	B-Process
-experimental	349	361	B-Process
-measurements	362	374	I-Process
-to	375	377	O
-calibrate	378	387	B-Task
-the	388	391	I-Task
-involved	392	400	I-Task
-model	401	406	I-Task
-parameters	407	417	I-Task
-.	417	418	O
-
-Based	419	424	O
-on	425	427	O
-the	428	431	O
-classification	432	446	B-Process
-scale	447	452	I-Process
-method	453	459	I-Process
-(	460	461	O
-CSM	461	464	B-Process
-)	464	465	O
-,	465	466	O
-after	467	472	O
-the	473	476	O
-target	477	483	O
-tight	484	489	O
-sandstones	490	500	B-Material
-are	501	504	O
-classified	505	515	O
-into	516	520	O
-two	521	524	O
-types	525	530	O
-,	530	531	O
-the	532	535	O
-relationship	536	548	O
-between	549	556	O
-core	557	561	O
-porosity	562	570	B-Process
-and	571	574	O
-permeability	575	587	B-Process
-is	588	590	O
-established	591	602	O
-for	603	606	O
-every	607	612	O
-type	613	617	O
-of	618	620	O
-formations	621	631	O
-,	631	632	O
-and	633	636	O
-the	637	640	O
-corresponding	641	654	O
-permeability	655	667	B-Task
-estimation	668	678	I-Task
-models	679	685	I-Task
-are	686	689	O
-established	690	701	O
-.	701	702	O
-
-Field	703	708	B-Material
-examples	709	717	I-Material
-show	718	722	O
-that	723	727	O
-the	728	731	O
-classification	732	746	B-Process
-scale	747	752	I-Process
-method	753	759	I-Process
-is	760	762	O
-effective	763	772	O
-in	773	775	O
-estimating	776	786	O
-tight	787	792	O
-sandstone	793	802	B-Material
-permeability	803	815	B-Process
-.	815	816	O
+It	0,2	O	O
+is	3,5	O	O
+difficult	6,15	O	O
+in	16,18	O	O
+directly	19,27	O	O
+predicting	28,38	O	O
+permeability	39,51	O	B-Process
+from	52,56	O	O
+porosity	57,65	O	B-Process
+in	66,68	O	O
+tight	69,74	O	O
+sandstones	75,85	O	B-Material
+due	86,89	O	O
+to	90,92	O	O
+the	93,96	O	O
+poor	97,101	O	O
+relationship	102,114	O	O
+between	115,122	O	O
+core	123,127	O	O
+derived	128,135	O	O
+porosity	136,144	O	B-Process
+and	145,148	O	O
+permeability	149,161	O	B-Process
+that	162,166	O	O
+caused	167,173	O	O
+by	174,176	O	O
+the	177,180	O	O
+extreme	181,188	O	O
+heterogeneity	189,202	O	O
+.	202,203	O	O
+
+The	204,207	O	O
+classical	208,217	O	O
+SDR	218,221	O	B-Process
+(	222,223	O	O
+Schlumberger	223,235	O	B-Process
+Doll	236,240	O	I-Process
+Research	241,249	O	I-Process
+)	249,250	O	O
+and	251,254	O	O
+Timur	255,260	O	B-Process
+-	260,261	O	I-Process
+Coates	261,267	O	I-Process
+models	268,274	O	I-Process
+are	275,278	O	O
+all	279,282	O	O
+unusable	283,291	O	O
+because	292,299	O	O
+not	300,303	O	O
+enough	304,310	O	O
+core	311,315	O	O
+samples	316,323	O	O
+were	324,328	O	O
+drilled	329,336	O	O
+for	337,340	O	O
+lab	341,344	O	O
+NMR	345,348	O	B-Process
+experimental	349,361	O	B-Process
+measurements	362,374	O	I-Process
+to	375,377	O	O
+calibrate	378,387	O	B-Task
+the	388,391	O	I-Task
+involved	392,400	O	I-Task
+model	401,406	O	I-Task
+parameters	407,417	O	I-Task
+.	417,418	O	O
+
+Based	419,424	O	O
+on	425,427	O	O
+the	428,431	O	O
+classification	432,446	O	B-Process
+scale	447,452	O	I-Process
+method	453,459	O	I-Process
+(	460,461	O	O
+CSM	461,464	O	B-Process
+)	464,465	O	O
+,	465,466	O	O
+after	467,472	O	O
+the	473,476	O	O
+target	477,483	O	O
+tight	484,489	O	O
+sandstones	490,500	O	B-Material
+are	501,504	O	O
+classified	505,515	O	O
+into	516,520	O	O
+two	521,524	O	O
+types	525,530	O	O
+,	530,531	O	O
+the	532,535	O	O
+relationship	536,548	O	O
+between	549,556	O	O
+core	557,561	O	O
+porosity	562,570	O	B-Process
+and	571,574	O	O
+permeability	575,587	O	B-Process
+is	588,590	O	O
+established	591,602	O	O
+for	603,606	O	O
+every	607,612	O	O
+type	613,617	O	O
+of	618,620	O	O
+formations	621,631	O	O
+,	631,632	O	O
+and	633,636	O	O
+the	637,640	O	O
+corresponding	641,654	O	O
+permeability	655,667	O	B-Task
+estimation	668,678	O	I-Task
+models	679,685	O	I-Task
+are	686,689	O	O
+established	690,701	O	O
+.	701,702	O	O
+
+Field	703,708	O	B-Material
+examples	709,717	O	I-Material
+show	718,722	O	O
+that	723,727	O	O
+the	728,731	O	O
+classification	732,746	O	B-Process
+scale	747,752	O	I-Process
+method	753,759	O	I-Process
+is	760,762	O	O
+effective	763,772	O	O
+in	773,775	O	O
+estimating	776,786	O	O
+tight	787,792	O	O
+sandstone	793,802	O	B-Material
+permeability	803,815	O	B-Process
+.	815,816	O	O
 
 
 -DOCSTART- (S2212667814000045)
 
-The	0	3	O
-opportunity	4	15	O
-offered	16	23	O
-by	24	26	O
-digital	27	34	O
-technologies	35	47	O
-to	48	50	O
-make	51	55	O
-deep	56	60	O
-rationalization	61	76	B-Process
-in	77	79	O
-purchase	80	88	O
-of	89	91	O
-supplies	92	100	B-Material
-is	101	103	O
-becoming	104	112	O
-indispensable	113	126	O
-in	127	129	O
-competition	130	141	O
-between	142	149	O
-enterprises	150	161	O
-,	161	162	O
-considering	163	174	O
-positive	175	183	O
-effects	184	191	O
-in	192	194	O
-reducing	195	203	B-Process
-the	204	207	I-Process
-costs	208	213	I-Process
-of	214	216	O
-the	217	220	O
-companies	221	230	O
-that	231	235	O
-have	236	240	O
-adopted	241	248	O
-the	249	252	O
-E	253	254	B-Process
--	254	255	I-Process
-Procurement	255	266	I-Process
-.	266	267	O
-
-As	268	270	O
-it	271	273	O
-has	274	277	O
-been	278	282	O
-confirmed	283	292	O
-by	293	295	O
-numerous	296	304	O
-case	305	309	B-Task
-studies	310	317	I-Task
-,	317	318	O
-automation	319	329	B-Process
-of	330	332	I-Process
-procedures	333	343	I-Process
-for	344	347	O
-the	348	351	O
-purchase	352	360	O
-through	361	368	O
-e	369	370	B-Process
--	370	371	I-Process
-procurement	371	382	I-Process
-technology	383	393	I-Process
-enables	394	401	O
-companies	402	411	O
-to	412	414	O
-achieve	415	422	O
-a	423	424	O
-reduction	425	434	O
-in	435	437	O
-costs	438	443	O
-(	444	445	O
-average	445	452	O
-8	453	454	O
--	454	455	O
-12	455	457	O
-%	457	458	O
-)	458	459	O
-of	460	462	O
-total	463	468	O
-purchases	469	478	O
-.	478	479	O
-
-So	480	482	O
-web	483	486	B-Process
--	486	487	I-Process
-based	487	492	I-Process
-models	493	499	I-Process
-are	500	503	O
-playing	504	511	O
-a	512	513	O
-critical	514	522	O
-role	523	527	O
-within	528	534	O
-companies	535	544	O
-,	544	545	O
-especially	546	556	O
-in	557	559	O
-the	560	563	O
-generation	564	574	B-Process
-of	575	577	I-Process
-value	578	583	I-Process
-of	584	586	I-Process
-supply	587	593	I-Process
-chain	594	599	I-Process
-.	599	600	O
-
-This	601	605	O
-article	606	613	O
-focuses	614	621	O
-on	622	624	O
-the	625	628	O
-role	629	633	B-Task
-of	634	636	I-Task
-e	637	638	I-Task
--	638	639	I-Task
-procurement	639	650	I-Task
-within	651	657	O
-a	658	659	O
-supply	660	666	B-Process
-chain	667	672	I-Process
-showing	673	680	O
-,	680	681	O
-through	682	689	O
-simulations	690	701	B-Process
-,	701	702	O
-the	703	706	O
-advantages	707	717	O
-and	718	721	O
-difficulties	722	734	O
-of	735	737	O
-implementing	738	750	O
-a	751	752	O
-systematic	753	763	O
-use	764	767	O
-of	768	770	O
-the	771	774	O
-Internet	775	783	O
-and	784	787	O
-defining	788	796	O
-the	797	800	O
-basic	801	806	O
-structure	807	816	O
-of	817	819	O
-an	820	822	O
-e	823	824	B-Process
--	824	825	I-Process
-supply	825	831	I-Process
-chain	832	837	I-Process
-.	837	838	O
+The	0,3	O	O
+opportunity	4,15	O	O
+offered	16,23	O	O
+by	24,26	O	O
+digital	27,34	O	O
+technologies	35,47	O	O
+to	48,50	O	O
+make	51,55	O	O
+deep	56,60	O	O
+rationalization	61,76	O	B-Process
+in	77,79	O	O
+purchase	80,88	O	O
+of	89,91	O	O
+supplies	92,100	O	B-Material
+is	101,103	O	O
+becoming	104,112	O	O
+indispensable	113,126	O	O
+in	127,129	O	O
+competition	130,141	O	O
+between	142,149	O	O
+enterprises	150,161	O	O
+,	161,162	O	O
+considering	163,174	O	O
+positive	175,183	O	O
+effects	184,191	O	O
+in	192,194	O	O
+reducing	195,203	O	B-Process
+the	204,207	O	I-Process
+costs	208,213	O	I-Process
+of	214,216	O	O
+the	217,220	O	O
+companies	221,230	O	O
+that	231,235	O	O
+have	236,240	O	O
+adopted	241,248	O	O
+the	249,252	O	O
+E	253,254	O	B-Process
+-	254,255	O	I-Process
+Procurement	255,266	O	I-Process
+.	266,267	O	O
+
+As	268,270	O	O
+it	271,273	O	O
+has	274,277	O	O
+been	278,282	O	O
+confirmed	283,292	O	O
+by	293,295	O	O
+numerous	296,304	O	O
+case	305,309	O	B-Task
+studies	310,317	O	I-Task
+,	317,318	O	O
+automation	319,329	O	B-Process
+of	330,332	O	I-Process
+procedures	333,343	O	I-Process
+for	344,347	O	O
+the	348,351	O	O
+purchase	352,360	O	O
+through	361,368	O	O
+e	369,370	O	B-Process
+-	370,371	O	I-Process
+procurement	371,382	O	I-Process
+technology	383,393	O	I-Process
+enables	394,401	O	O
+companies	402,411	O	O
+to	412,414	O	O
+achieve	415,422	O	O
+a	423,424	O	O
+reduction	425,434	O	O
+in	435,437	O	O
+costs	438,443	O	O
+(	444,445	O	O
+average	445,452	O	O
+8	453,454	O	O
+-	454,455	O	O
+12	455,457	O	O
+%	457,458	O	O
+)	458,459	O	O
+of	460,462	O	O
+total	463,468	O	O
+purchases	469,478	O	O
+.	478,479	O	O
+
+So	480,482	O	O
+web	483,486	O	B-Process
+-	486,487	O	I-Process
+based	487,492	O	I-Process
+models	493,499	O	I-Process
+are	500,503	O	O
+playing	504,511	O	O
+a	512,513	O	O
+critical	514,522	O	O
+role	523,527	O	O
+within	528,534	O	O
+companies	535,544	O	O
+,	544,545	O	O
+especially	546,556	O	O
+in	557,559	O	O
+the	560,563	O	O
+generation	564,574	O	B-Process
+of	575,577	O	I-Process
+value	578,583	O	I-Process
+of	584,586	O	I-Process
+supply	587,593	O	I-Process
+chain	594,599	O	I-Process
+.	599,600	O	O
+
+This	601,605	O	O
+article	606,613	O	O
+focuses	614,621	O	O
+on	622,624	O	O
+the	625,628	O	O
+role	629,633	O	B-Task
+of	634,636	O	I-Task
+e	637,638	O	I-Task
+-	638,639	O	I-Task
+procurement	639,650	O	I-Task
+within	651,657	O	O
+a	658,659	O	O
+supply	660,666	O	B-Process
+chain	667,672	O	I-Process
+showing	673,680	O	O
+,	680,681	O	O
+through	682,689	O	O
+simulations	690,701	O	B-Process
+,	701,702	O	O
+the	703,706	O	O
+advantages	707,717	O	O
+and	718,721	O	O
+difficulties	722,734	O	O
+of	735,737	O	O
+implementing	738,750	O	O
+a	751,752	O	O
+systematic	753,763	O	O
+use	764,767	O	O
+of	768,770	O	O
+the	771,774	O	O
+Internet	775,783	O	O
+and	784,787	O	O
+defining	788,796	O	O
+the	797,800	O	O
+basic	801,806	O	O
+structure	807,816	O	O
+of	817,819	O	O
+an	820,822	O	O
+e	823,824	O	B-Process
+-	824,825	O	I-Process
+supply	825,831	O	I-Process
+chain	832,837	O	I-Process
+.	837,838	O	O
 
 
 -DOCSTART- (S2212667814000069)
 
-In	0	2	O
-the	3	6	O
-present	7	14	O
-paper	15	20	O
-,	20	21	O
-a	22	23	O
-hypergraph	24	34	B-Task
-model	35	40	I-Task
-for	41	44	O
-the	45	48	O
-structural	49	59	B-Process
-system	60	66	I-Process
-modeling	67	75	I-Process
-and	76	79	O
-reconfigurability	80	97	B-Process
-analysis	98	106	I-Process
-has	107	110	O
-been	111	115	O
-presented	116	125	O
-.	125	126	O
-
-At	127	129	O
-first	130	135	O
-,	135	136	O
-we	137	139	O
-represent	140	149	O
-each	150	154	O
-system	155	161	O
-equation	162	170	O
-by	171	173	O
-a	174	175	O
-hyperedge	176	185	O
-,	185	186	O
-and	187	190	O
-then	191	195	O
-we	196	198	O
-extend	199	205	O
-the	206	209	O
-modeling	210	218	B-Process
-hypergraph	219	229	I-Process
-with	230	234	O
-others	235	241	O
-colored	242	249	O
-hyperedges	250	260	O
-(	261	262	O
-red	262	265	O
-and	266	269	O
-blue	270	274	O
-)	274	275	O
-which	276	281	O
-allows	282	288	O
-us	289	291	O
-to	292	294	O
-perform	295	302	O
-the	303	306	O
-analysis	307	315	B-Task
-task	316	320	I-Task
-.	320	321	O
-
-Based	322	327	O
-on	328	330	O
-the	331	334	O
-bottom	335	341	B-Process
-up	342	344	I-Process
-analysis	345	353	I-Process
-hypergraph	354	364	I-Process
-model	365	370	I-Process
-,	370	371	O
-it	372	374	O
-'s	374	376	O
-very	377	381	O
-easy	382	386	O
-to	387	389	O
-check	390	395	O
-the	396	399	O
-system	400	406	B-Process
-reconfigurability	407	424	I-Process
-in	425	427	O
-the	428	431	O
-presence	432	440	O
-of	441	443	O
-fault	444	449	O
-by	450	452	O
-verifying	453	462	B-Process
-the	463	466	I-Process
-existence	467	476	I-Process
-of	477	479	I-Process
-paths	480	485	I-Process
-from	486	490	I-Process
-the	491	494	I-Process
-affected	495	503	I-Process
-hyperedge	504	513	I-Process
-to	514	516	O
-specifics	517	526	O
-blue	527	531	O
-hyperedges	532	542	O
-passing	543	550	O
-through	551	558	O
-specifics	559	568	O
-red	569	572	O
-hyperedges	573	583	O
-.	583	584	O
-
-The	585	588	O
-method	589	595	O
-is	596	598	O
-illustrated	599	610	O
-through	611	618	O
-a	619	620	O
-pedagogical	621	632	B-Task
-example	633	640	I-Task
-.	640	641	O
+In	0,2	O	O
+the	3,6	O	O
+present	7,14	O	O
+paper	15,20	O	O
+,	20,21	O	O
+a	22,23	O	O
+hypergraph	24,34	O	B-Task
+model	35,40	O	I-Task
+for	41,44	O	O
+the	45,48	O	O
+structural	49,59	O	B-Process
+system	60,66	O	I-Process
+modeling	67,75	O	I-Process
+and	76,79	O	O
+reconfigurability	80,97	O	B-Process
+analysis	98,106	O	I-Process
+has	107,110	O	O
+been	111,115	O	O
+presented	116,125	O	O
+.	125,126	O	O
+
+At	127,129	O	O
+first	130,135	O	O
+,	135,136	O	O
+we	137,139	O	O
+represent	140,149	O	O
+each	150,154	O	O
+system	155,161	O	O
+equation	162,170	O	O
+by	171,173	O	O
+a	174,175	O	O
+hyperedge	176,185	O	O
+,	185,186	O	O
+and	187,190	O	O
+then	191,195	O	O
+we	196,198	O	O
+extend	199,205	O	O
+the	206,209	O	O
+modeling	210,218	O	B-Process
+hypergraph	219,229	O	I-Process
+with	230,234	O	O
+others	235,241	O	O
+colored	242,249	O	O
+hyperedges	250,260	O	O
+(	261,262	O	O
+red	262,265	O	O
+and	266,269	O	O
+blue	270,274	O	O
+)	274,275	O	O
+which	276,281	O	O
+allows	282,288	O	O
+us	289,291	O	O
+to	292,294	O	O
+perform	295,302	O	O
+the	303,306	O	O
+analysis	307,315	O	B-Task
+task	316,320	O	I-Task
+.	320,321	O	O
+
+Based	322,327	O	O
+on	328,330	O	O
+the	331,334	O	O
+bottom	335,341	O	B-Process
+up	342,344	O	I-Process
+analysis	345,353	O	I-Process
+hypergraph	354,364	O	I-Process
+model	365,370	O	I-Process
+,	370,371	O	O
+it	372,374	O	O
+'s	374,376	O	O
+very	377,381	O	O
+easy	382,386	O	O
+to	387,389	O	O
+check	390,395	O	O
+the	396,399	O	O
+system	400,406	O	B-Process
+reconfigurability	407,424	O	I-Process
+in	425,427	O	O
+the	428,431	O	O
+presence	432,440	O	O
+of	441,443	O	O
+fault	444,449	O	O
+by	450,452	O	O
+verifying	453,462	O	B-Process
+the	463,466	O	I-Process
+existence	467,476	O	I-Process
+of	477,479	O	I-Process
+paths	480,485	O	I-Process
+from	486,490	O	I-Process
+the	491,494	O	I-Process
+affected	495,503	O	I-Process
+hyperedge	504,513	O	I-Process
+to	514,516	O	O
+specifics	517,526	O	O
+blue	527,531	O	O
+hyperedges	532,542	O	O
+passing	543,550	O	O
+through	551,558	O	O
+specifics	559,568	O	O
+red	569,572	O	O
+hyperedges	573,583	O	O
+.	583,584	O	O
+
+The	585,588	O	O
+method	589,595	O	O
+is	596,598	O	O
+illustrated	599,610	O	O
+through	611,618	O	O
+a	619,620	O	O
+pedagogical	621,632	O	B-Task
+example	633,640	O	I-Task
+.	640,641	O	O
 
 
 -DOCSTART- (S2212667814000070)
 
-This	0	4	O
-paper	5	10	O
-suggests	11	19	O
-a	20	21	O
-design	22	28	B-Task
-of	29	31	I-Task
-high	32	36	I-Task
-quality	37	44	I-Task
-real	45	49	I-Task
--	49	50	I-Task
-time	50	54	I-Task
-rotation	55	63	I-Task
-face	64	68	I-Task
-detection	69	78	I-Task
-architecture	79	91	I-Task
-for	92	95	I-Task
-gesture	96	103	I-Task
-recognition	104	115	I-Task
-of	116	118	I-Task
-smart	119	124	I-Task
-TV	125	127	I-Task
-.	127	128	O
-
-For	129	132	O
-high	133	137	O
-performance	138	149	O
-rotated	150	157	O
-face	158	162	B-Process
-detection	163	172	I-Process
-,	172	173	O
-the	174	177	O
-multiple	178	186	O
--	186	187	O
-MCT(Modified	187	199	B-Process
-Census	200	206	I-Process
-Transform	207	216	I-Process
-)	216	217	O
-architecture	218	230	O
-,	230	231	O
-which	232	237	O
-is	238	240	O
-robust	241	247	O
-against	248	255	O
-lighting	256	264	O
-change	265	271	O
-,	271	272	O
-was	273	276	O
-used	277	281	O
-.	281	282	O
-
-The	283	286	O
-Adaboost	287	295	B-Process
-learning	296	304	I-Process
-algorithm	305	314	I-Process
-was	315	318	O
-used	319	323	O
-for	324	327	O
-creating	328	336	B-Task
-optimized	337	346	I-Task
-learning	347	355	I-Task
-data	356	360	I-Task
-.	360	361	O
-
-The	362	365	O
-proposed	366	374	O
-hardware	375	383	B-Material
-structure	384	393	I-Material
-was	394	397	O
-composed	398	406	O
-of	407	409	O
-Color	410	415	B-Material
-Space	416	421	I-Material
-Converter	422	431	I-Material
-,	431	432	O
-Image	433	438	B-Material
-Resizer	439	446	I-Material
-,	446	447	I-Material
-Noise	448	453	B-Material
-Filter	454	460	I-Material
-,	460	461	O
-Memory	462	468	B-Material
-Controller	469	479	I-Material
-Interface	480	489	I-Material
-,	489	490	O
-Image	491	496	B-Material
-Rotator	497	504	I-Material
-,	504	505	O
-Image	506	511	B-Material
-Scaler	512	518	I-Material
-,	518	519	O
-MCT	520	523	B-Material
-Generator	524	533	I-Material
-,	533	534	O
-Candidate	535	544	B-Material
-Detector	545	553	I-Material
-,	553	554	I-Material
-Confidence	555	565	B-Material
-Switch	566	572	I-Material
-,	572	573	O
-Confidence	574	584	B-Material
-Mapper	585	591	I-Material
-,	591	592	O
-Position	593	601	B-Material
-Resizer	602	609	I-Material
-,	609	610	I-Material
-Data	611	615	B-Material
-Grouper	616	623	I-Material
-,	623	624	O
-Overlay	625	632	B-Material
-Processor	633	642	I-Material
-and	643	646	O
-Color	647	652	B-Material
-Overlay	653	660	I-Material
-Processer	661	670	I-Material
-.	670	671	O
-
-As	672	674	O
-a	675	676	O
-result	677	683	O
-,	683	684	O
-suggested	685	694	O
-face	695	699	B-Process
-detection	700	709	I-Process
-device	710	716	O
-can	717	720	O
-conduct	721	728	O
-real	729	733	B-Process
--	733	734	I-Process
-time	734	738	I-Process
-processing	739	749	I-Process
-at	750	752	O
-speed	753	758	O
-of	759	761	O
-at	762	764	O
-least	765	770	O
-30	771	773	O
-frames	774	780	O
-per	781	784	O
-second	785	791	O
-.	791	792	O
+This	0,4	O	O
+paper	5,10	O	O
+suggests	11,19	O	O
+a	20,21	O	O
+design	22,28	O	B-Task
+of	29,31	O	I-Task
+high	32,36	O	I-Task
+quality	37,44	O	I-Task
+real	45,49	O	I-Task
+-	49,50	O	I-Task
+time	50,54	O	I-Task
+rotation	55,63	O	I-Task
+face	64,68	O	I-Task
+detection	69,78	O	I-Task
+architecture	79,91	O	I-Task
+for	92,95	O	I-Task
+gesture	96,103	O	I-Task
+recognition	104,115	O	I-Task
+of	116,118	O	I-Task
+smart	119,124	O	I-Task
+TV	125,127	O	I-Task
+.	127,128	O	O
+
+For	129,132	O	O
+high	133,137	O	O
+performance	138,149	O	O
+rotated	150,157	O	O
+face	158,162	O	B-Process
+detection	163,172	O	I-Process
+,	172,173	O	O
+the	174,177	O	O
+multiple	178,186	O	O
+-	186,187	O	O
+MCT(Modified	187,199	O	B-Process
+Census	200,206	O	I-Process
+Transform	207,216	O	I-Process
+)	216,217	O	O
+architecture	218,230	O	O
+,	230,231	O	O
+which	232,237	O	O
+is	238,240	O	O
+robust	241,247	O	O
+against	248,255	O	O
+lighting	256,264	O	O
+change	265,271	O	O
+,	271,272	O	O
+was	273,276	O	O
+used	277,281	O	O
+.	281,282	O	O
+
+The	283,286	O	O
+Adaboost	287,295	O	B-Process
+learning	296,304	O	I-Process
+algorithm	305,314	O	I-Process
+was	315,318	O	O
+used	319,323	O	O
+for	324,327	O	O
+creating	328,336	O	B-Task
+optimized	337,346	O	I-Task
+learning	347,355	O	I-Task
+data	356,360	O	I-Task
+.	360,361	O	O
+
+The	362,365	O	O
+proposed	366,374	O	O
+hardware	375,383	O	B-Material
+structure	384,393	O	I-Material
+was	394,397	O	O
+composed	398,406	O	O
+of	407,409	O	O
+Color	410,415	O	B-Material
+Space	416,421	O	I-Material
+Converter	422,431	O	I-Material
+,	431,432	O	O
+Image	433,438	O	B-Material
+Resizer	439,446	O	I-Material
+,	446,447	O	I-Material
+Noise	448,453	O	B-Material
+Filter	454,460	O	I-Material
+,	460,461	O	O
+Memory	462,468	O	B-Material
+Controller	469,479	O	I-Material
+Interface	480,489	O	I-Material
+,	489,490	O	O
+Image	491,496	O	B-Material
+Rotator	497,504	O	I-Material
+,	504,505	O	O
+Image	506,511	O	B-Material
+Scaler	512,518	O	I-Material
+,	518,519	O	O
+MCT	520,523	O	B-Material
+Generator	524,533	O	I-Material
+,	533,534	O	O
+Candidate	535,544	O	B-Material
+Detector	545,553	O	I-Material
+,	553,554	O	I-Material
+Confidence	555,565	O	B-Material
+Switch	566,572	O	I-Material
+,	572,573	O	O
+Confidence	574,584	O	B-Material
+Mapper	585,591	O	I-Material
+,	591,592	O	O
+Position	593,601	O	B-Material
+Resizer	602,609	O	I-Material
+,	609,610	O	I-Material
+Data	611,615	O	B-Material
+Grouper	616,623	O	I-Material
+,	623,624	O	O
+Overlay	625,632	O	B-Material
+Processor	633,642	O	I-Material
+and	643,646	O	O
+Color	647,652	O	B-Material
+Overlay	653,660	O	I-Material
+Processer	661,670	O	I-Material
+.	670,671	O	O
+
+As	672,674	O	O
+a	675,676	O	O
+result	677,683	O	O
+,	683,684	O	O
+suggested	685,694	O	O
+face	695,699	O	B-Process
+detection	700,709	O	I-Process
+device	710,716	O	O
+can	717,720	O	O
+conduct	721,728	O	O
+real	729,733	O	B-Process
+-	733,734	O	I-Process
+time	734,738	O	I-Process
+processing	739,749	O	I-Process
+at	750,752	O	O
+speed	753,758	O	O
+of	759,761	O	O
+at	762,764	O	O
+least	765,770	O	O
+30	771,773	O	O
+frames	774,780	O	O
+per	781,784	O	O
+second	785,791	O	O
+.	791,792	O	O
 
 
 -DOCSTART- (S2212667814000124)
 
-Based	0	5	O
-on	6	8	O
-expectation	9	20	B-Process
--	20	21	I-Process
-maximization	21	33	I-Process
-algorithm	34	43	I-Process
-,	43	44	O
-parameter	45	54	B-Task
-estimation	55	65	I-Task
-was	66	69	O
-proposed	70	78	O
-for	79	82	O
-data	83	87	B-Process
--	87	88	I-Process
-driven	88	94	I-Process
-nonlinear	95	104	I-Process
-models	105	111	I-Process
-in	112	114	O
-this	115	119	O
-work	120	124	O
-.	124	125	O
-
-On	126	128	O
-this	129	133	O
-basis	134	139	O
-,	139	140	O
-particle	141	149	B-Material
-filters	150	157	I-Material
-were	158	162	O
-used	163	167	O
-to	168	170	O
-approximately	171	184	O
-calculate	185	194	O
-integrals	195	204	O
-,	204	205	O
-deriving	206	214	O
-EM	215	217	B-Process
-algorithm	218	227	I-Process
-based	228	233	O
-on	234	236	O
-particle	237	245	B-Material
-filter	246	252	I-Material
-.	252	253	O
-
-And	254	257	O
-the	258	261	O
-effectiveness	262	275	O
-of	276	278	O
-using	279	284	O
-the	285	288	O
-proposed	289	297	O
-algorithm	298	307	O
-for	308	311	O
-the	312	315	O
-soft	316	320	B-Material
-sensor	321	327	I-Material
-of	328	330	O
-COx	331	334	B-Material
-content	335	342	O
-in	343	345	O
-tail	346	350	B-Material
-gas	351	354	I-Material
-of	355	357	O
-PX	358	360	B-Process
-oxidation	361	370	I-Process
-side	371	375	O
-reactions	376	385	O
-was	386	389	O
-verified	390	398	O
-through	399	406	O
-simulation	407	417	B-Process
-results	418	425	O
-.	425	426	O
+Based	0,5	O	O
+on	6,8	O	O
+expectation	9,20	O	B-Process
+-	20,21	O	I-Process
+maximization	21,33	O	I-Process
+algorithm	34,43	O	I-Process
+,	43,44	O	O
+parameter	45,54	O	B-Task
+estimation	55,65	O	I-Task
+was	66,69	O	O
+proposed	70,78	O	O
+for	79,82	O	O
+data	83,87	O	B-Process
+-	87,88	O	I-Process
+driven	88,94	O	I-Process
+nonlinear	95,104	O	I-Process
+models	105,111	O	I-Process
+in	112,114	O	O
+this	115,119	O	O
+work	120,124	O	O
+.	124,125	O	O
+
+On	126,128	O	O
+this	129,133	O	O
+basis	134,139	O	O
+,	139,140	O	O
+particle	141,149	O	B-Material
+filters	150,157	O	I-Material
+were	158,162	O	O
+used	163,167	O	O
+to	168,170	O	O
+approximately	171,184	O	O
+calculate	185,194	O	O
+integrals	195,204	O	O
+,	204,205	O	O
+deriving	206,214	O	O
+EM	215,217	O	B-Process
+algorithm	218,227	O	I-Process
+based	228,233	O	O
+on	234,236	O	O
+particle	237,245	O	B-Material
+filter	246,252	O	I-Material
+.	252,253	O	O
+
+And	254,257	O	O
+the	258,261	O	O
+effectiveness	262,275	O	O
+of	276,278	O	O
+using	279,284	O	O
+the	285,288	O	O
+proposed	289,297	O	O
+algorithm	298,307	O	O
+for	308,311	O	O
+the	312,315	O	O
+soft	316,320	O	B-Material
+sensor	321,327	O	I-Material
+of	328,330	O	O
+COx	331,334	O	B-Material
+content	335,342	O	O
+in	343,345	O	O
+tail	346,350	O	B-Material
+gas	351,354	O	I-Material
+of	355,357	O	O
+PX	358,360	O	B-Process
+oxidation	361,370	O	I-Process
+side	371,375	O	O
+reactions	376,385	O	O
+was	386,389	O	O
+verified	390,398	O	O
+through	399,406	O	O
+simulation	407,417	O	B-Process
+results	418,425	O	O
+.	425,426	O	O
 
 
 -DOCSTART- (S2212667814000264)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-we	15	17	O
-present	18	25	O
-a	26	27	O
-project	28	35	O
-aiming	36	42	O
-at	43	45	O
-integrating	46	57	B-Task
-immersive	58	67	I-Task
-virtual	68	75	I-Task
-reality	76	83	I-Task
-technologies	84	96	I-Task
-into	97	101	I-Task
-a	102	103	I-Task
-three	104	109	I-Task
--	109	110	I-Task
-dimensional	110	121	I-Task
-virtual	122	129	I-Task
-world	130	135	I-Task
-.	135	136	O
-
-We	137	139	O
-use	140	143	O
-an	144	146	O
-educational	147	158	B-Material
-platform	159	167	I-Material
-vAcademia	168	177	B-Material
-as	178	180	O
-a	181	182	O
-test	183	187	O
-bed	188	191	O
-for	192	195	O
-the	196	199	O
-project	200	207	O
-,	207	208	O
-and	209	212	O
-focus	213	218	O
-on	219	221	O
-improving	222	231	O
-the	232	235	O
-learning	236	244	B-Process
-process	245	252	I-Process
-and	253	256	O
-,	256	257	O
-subsequently	258	270	O
-–	271	272	O
-the	273	276	O
-outcomes	277	285	O
-.	285	286	O
-
-We	287	289	O
-aim	290	293	O
-at	294	296	O
-increasing	297	307	B-Task
-the	308	311	I-Task
-immersiveness	312	325	I-Task
-of	326	328	I-Task
-3D	329	331	I-Task
-virtual	332	339	I-Task
-world	340	345	I-Task
-experience	346	356	I-Task
-by	357	359	O
-applying	360	368	O
-motion	369	375	B-Process
-tracking	376	384	I-Process
-for	385	388	O
-controlling	389	400	B-Process
-the	401	404	I-Process
-avatar	405	411	I-Process
-and	412	415	O
-two	416	419	O
-technologies	420	432	O
-for	433	436	O
-natural	437	444	B-Process
-navigation	445	455	I-Process
-:	455	456	O
-immersive	457	466	B-Process
-projection	467	477	I-Process
-and	478	481	O
-head	482	486	B-Material
--	486	487	I-Material
-mounted	487	494	I-Material
-display	495	502	I-Material
-.	502	503	O
-
-In	504	506	O
-addition	507	515	O
-,	515	516	O
-we	517	519	O
-propose	520	527	O
-the	528	531	O
-major	532	537	B-Task
-types	538	543	I-Task
-of	544	546	I-Task
-learning	547	555	I-Task
-scenarios	556	565	I-Task
-for	566	569	O
-the	570	573	O
-use	574	577	O
-of	578	580	O
-the	581	584	O
-designed	585	593	O
-systems	594	601	O
-.	601	602	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+we	15,17	O	O
+present	18,25	O	O
+a	26,27	O	O
+project	28,35	O	O
+aiming	36,42	O	O
+at	43,45	O	O
+integrating	46,57	O	B-Task
+immersive	58,67	O	I-Task
+virtual	68,75	O	I-Task
+reality	76,83	O	I-Task
+technologies	84,96	O	I-Task
+into	97,101	O	I-Task
+a	102,103	O	I-Task
+three	104,109	O	I-Task
+-	109,110	O	I-Task
+dimensional	110,121	O	I-Task
+virtual	122,129	O	I-Task
+world	130,135	O	I-Task
+.	135,136	O	O
+
+We	137,139	O	O
+use	140,143	O	O
+an	144,146	O	O
+educational	147,158	O	B-Material
+platform	159,167	O	I-Material
+vAcademia	168,177	O	B-Material
+as	178,180	O	O
+a	181,182	O	O
+test	183,187	O	O
+bed	188,191	O	O
+for	192,195	O	O
+the	196,199	O	O
+project	200,207	O	O
+,	207,208	O	O
+and	209,212	O	O
+focus	213,218	O	O
+on	219,221	O	O
+improving	222,231	O	O
+the	232,235	O	O
+learning	236,244	O	B-Process
+process	245,252	O	I-Process
+and	253,256	O	O
+,	256,257	O	O
+subsequently	258,270	O	O
+–	271,272	O	O
+the	273,276	O	O
+outcomes	277,285	O	O
+.	285,286	O	O
+
+We	287,289	O	O
+aim	290,293	O	O
+at	294,296	O	O
+increasing	297,307	O	B-Task
+the	308,311	O	I-Task
+immersiveness	312,325	O	I-Task
+of	326,328	O	I-Task
+3D	329,331	O	I-Task
+virtual	332,339	O	I-Task
+world	340,345	O	I-Task
+experience	346,356	O	I-Task
+by	357,359	O	O
+applying	360,368	O	O
+motion	369,375	O	B-Process
+tracking	376,384	O	I-Process
+for	385,388	O	O
+controlling	389,400	O	B-Process
+the	401,404	O	I-Process
+avatar	405,411	O	I-Process
+and	412,415	O	O
+two	416,419	O	O
+technologies	420,432	O	O
+for	433,436	O	O
+natural	437,444	O	B-Process
+navigation	445,455	O	I-Process
+:	455,456	O	O
+immersive	457,466	O	B-Process
+projection	467,477	O	I-Process
+and	478,481	O	O
+head	482,486	O	B-Material
+-	486,487	O	I-Material
+mounted	487,494	O	I-Material
+display	495,502	O	I-Material
+.	502,503	O	O
+
+In	504,506	O	O
+addition	507,515	O	O
+,	515,516	O	O
+we	517,519	O	O
+propose	520,527	O	O
+the	528,531	O	O
+major	532,537	O	B-Task
+types	538,543	O	I-Task
+of	544,546	O	I-Task
+learning	547,555	O	I-Task
+scenarios	556,565	O	I-Task
+for	566,569	O	O
+the	570,573	O	O
+use	574,577	O	O
+of	578,580	O	O
+the	581,584	O	O
+designed	585,593	O	O
+systems	594,601	O	O
+.	601,602	O	O
 
 
 -DOCSTART- (S2212667814000331)
 
-In	0	2	O
-order	3	8	O
-to	9	11	O
-solve	12	17	O
-the	18	21	O
-problem	22	29	B-Task
-that	30	34	I-Task
-the	35	38	I-Task
-diesel	39	45	I-Task
-engine	46	52	I-Task
-PT	53	55	I-Task
-fuel	56	60	I-Task
-system	61	67	I-Task
-is	68	70	I-Task
-unable	71	77	I-Task
-to	78	80	I-Task
-field	81	86	I-Task
-maintain	87	95	I-Task
-,	95	96	O
-developed	97	106	O
-a	107	108	O
-portable	109	117	B-Material
-signal	118	124	I-Material
-acquisition	125	136	I-Material
-and	137	140	I-Material
-analysis	141	149	I-Material
-system	150	156	I-Material
-for	157	160	O
-diesel	161	167	B-Material
-engine	168	174	I-Material
-PT	175	177	I-Material
-fuel	178	182	I-Material
-system	183	189	I-Material
-.	189	190	O
-
-Firstly	191	198	O
-,	198	199	O
-the	200	203	O
-PT	204	206	B-Task
-pump	207	211	I-Task
-work	212	216	I-Task
-Principle	217	226	I-Task
-was	227	230	I-Task
-analyzed	231	239	I-Task
-,	239	240	O
-and	241	244	O
-the	245	248	O
-PT	249	251	B-Material
-pump	252	256	I-Material
-failure	257	264	O
-mapping	265	272	O
-relation	273	281	O
-between	282	289	O
-reason	290	296	O
-and	297	300	O
-failure	301	308	O
-phenomenon	309	319	O
-was	320	323	O
-analyzed	324	332	O
-;	332	333	O
-Secondly	334	342	O
-,	342	343	O
-the	344	347	O
-diesel	348	354	B-Material
-engine	355	361	I-Material
-PT	362	364	I-Material
-pump	365	369	I-Material
-failure	370	377	B-Task
-fuel	378	382	I-Task
-pressure	383	391	I-Task
-characteristics	392	407	I-Task
-were	408	412	I-Task
-analyzed	413	421	I-Task
-;	421	422	O
-Lastly	423	429	O
-,	429	430	O
-using	431	436	O
-the	437	440	O
-portable	441	449	O
-signal	450	456	B-Process
-acquisition	457	468	I-Process
-and	469	472	O
-analysis	473	481	B-Process
-system	482	488	I-Process
-to	489	491	O
-diagnose	492	500	B-Task
-the	501	504	I-Task
-diesel	505	511	I-Task
-engine	512	518	I-Task
-PT	519	521	I-Task
-fuel	522	526	I-Task
-system	527	533	I-Task
-,	533	534	O
-experiment	535	545	O
-results	546	553	O
-show	554	558	O
-that	559	563	O
-the	564	567	O
-system	568	574	O
-can	575	578	O
-correctly	579	588	O
-detect	589	595	B-Process
-the	596	599	I-Process
-diesel	600	606	I-Process
-engine	607	613	I-Process
-PT	614	616	I-Process
-fuel	617	621	I-Process
-system	622	628	I-Process
-state	629	634	I-Process
-.	634	635	O
+In	0,2	O	O
+order	3,8	O	O
+to	9,11	O	O
+solve	12,17	O	O
+the	18,21	O	O
+problem	22,29	O	B-Task
+that	30,34	O	I-Task
+the	35,38	O	I-Task
+diesel	39,45	O	I-Task
+engine	46,52	O	I-Task
+PT	53,55	O	I-Task
+fuel	56,60	O	I-Task
+system	61,67	O	I-Task
+is	68,70	O	I-Task
+unable	71,77	O	I-Task
+to	78,80	O	I-Task
+field	81,86	O	I-Task
+maintain	87,95	O	I-Task
+,	95,96	O	O
+developed	97,106	O	O
+a	107,108	O	O
+portable	109,117	O	B-Material
+signal	118,124	O	I-Material
+acquisition	125,136	O	I-Material
+and	137,140	O	I-Material
+analysis	141,149	O	I-Material
+system	150,156	O	I-Material
+for	157,160	O	O
+diesel	161,167	O	B-Material
+engine	168,174	O	I-Material
+PT	175,177	O	I-Material
+fuel	178,182	O	I-Material
+system	183,189	O	I-Material
+.	189,190	O	O
+
+Firstly	191,198	O	O
+,	198,199	O	O
+the	200,203	O	O
+PT	204,206	O	B-Task
+pump	207,211	O	I-Task
+work	212,216	O	I-Task
+Principle	217,226	O	I-Task
+was	227,230	O	I-Task
+analyzed	231,239	O	I-Task
+,	239,240	O	O
+and	241,244	O	O
+the	245,248	O	O
+PT	249,251	O	B-Material
+pump	252,256	O	I-Material
+failure	257,264	O	O
+mapping	265,272	O	O
+relation	273,281	O	O
+between	282,289	O	O
+reason	290,296	O	O
+and	297,300	O	O
+failure	301,308	O	O
+phenomenon	309,319	O	O
+was	320,323	O	O
+analyzed	324,332	O	O
+;	332,333	O	O
+Secondly	334,342	O	O
+,	342,343	O	O
+the	344,347	O	O
+diesel	348,354	O	B-Material
+engine	355,361	O	I-Material
+PT	362,364	O	I-Material
+pump	365,369	O	I-Material
+failure	370,377	O	B-Task
+fuel	378,382	O	I-Task
+pressure	383,391	O	I-Task
+characteristics	392,407	O	I-Task
+were	408,412	O	I-Task
+analyzed	413,421	O	I-Task
+;	421,422	O	O
+Lastly	423,429	O	O
+,	429,430	O	O
+using	431,436	O	O
+the	437,440	O	O
+portable	441,449	O	O
+signal	450,456	O	B-Process
+acquisition	457,468	O	I-Process
+and	469,472	O	O
+analysis	473,481	O	B-Process
+system	482,488	O	I-Process
+to	489,491	O	O
+diagnose	492,500	O	B-Task
+the	501,504	O	I-Task
+diesel	505,511	O	I-Task
+engine	512,518	O	I-Task
+PT	519,521	O	I-Task
+fuel	522,526	O	I-Task
+system	527,533	O	I-Task
+,	533,534	O	O
+experiment	535,545	O	O
+results	546,553	O	O
+show	554,558	O	O
+that	559,563	O	O
+the	564,567	O	O
+system	568,574	O	O
+can	575,578	O	O
+correctly	579,588	O	O
+detect	589,595	O	B-Process
+the	596,599	O	I-Process
+diesel	600,606	O	I-Process
+engine	607,613	O	I-Process
+PT	614,616	O	I-Process
+fuel	617,621	O	I-Process
+system	622,628	O	I-Process
+state	629,634	O	I-Process
+.	634,635	O	O
 
 
 -DOCSTART- (S2212667814000380)
 
-The	0	3	O
-behavior	4	12	O
-of	13	15	O
-cellular	16	24	B-Material
-beam	25	29	I-Material
-is	30	32	O
-described	33	42	O
-using	43	48	O
-design	49	55	B-Task
-methods	56	63	I-Task
-according	64	73	O
-to	74	76	O
-BS	77	79	O
-:	79	80	O
-5950	81	85	O
-,	85	86	O
-considering	87	98	O
-particularly	99	111	O
-the	112	115	O
-strength	116	124	O
-of	125	127	O
-tee	128	131	O
-sections	132	140	O
-and	141	144	O
-web	145	148	O
-post	149	153	O
-element	154	161	O
-.	161	162	O
-
-Such	163	167	O
-behavior	168	176	O
-is	177	179	O
-derived	180	187	O
-from	188	192	O
-parametric	193	203	O
-study	204	209	O
-involving	210	219	O
-finite	220	226	B-Process
-element	227	234	I-Process
-analysis	235	243	I-Process
-using	244	249	O
-software	250	258	O
-ANSYS	259	264	B-Material
-.	264	265	O
-
-The	266	269	O
-design	270	276	B-Process
-method	277	283	I-Process
-is	284	286	O
-based	287	292	O
-on	293	295	O
-plastic	296	303	B-Process
-analysis	304	312	I-Process
-of	313	315	I-Process
-beam	316	320	I-Process
-section	321	328	I-Process
-at	329	331	O
-ultimate	332	340	O
-loads	341	346	O
-and	347	350	O
-elastic	351	358	B-Process
-analysis	359	367	I-Process
-at	368	370	O
-serviceability	371	385	O
-loads	386	391	O
-.	391	392	O
-
-The	393	396	O
-procedure	397	406	B-Task
-of	407	409	I-Task
-design	410	416	I-Task
-of	417	419	I-Task
-cellular	420	428	I-Task
-beam	429	433	I-Task
-is	434	436	I-Task
-illustrated	437	448	I-Task
-and	449	452	O
-an	453	455	O
-example	456	463	O
-based	464	469	O
-on	470	472	O
-design	473	479	B-Process
-method	480	486	I-Process
-is	487	489	O
-worked	490	496	O
-out	497	500	O
-and	501	504	O
-its	505	508	O
-verification	509	521	O
-is	522	524	O
-done	525	529	O
-for	530	533	O
-checking	534	542	O
-the	543	546	O
-suitability	547	558	O
-.	558	559	O
+The	0,3	O	O
+behavior	4,12	O	O
+of	13,15	O	O
+cellular	16,24	O	B-Material
+beam	25,29	O	I-Material
+is	30,32	O	O
+described	33,42	O	O
+using	43,48	O	O
+design	49,55	O	B-Task
+methods	56,63	O	I-Task
+according	64,73	O	O
+to	74,76	O	O
+BS	77,79	O	O
+:	79,80	O	O
+5950	81,85	O	O
+,	85,86	O	O
+considering	87,98	O	O
+particularly	99,111	O	O
+the	112,115	O	O
+strength	116,124	O	O
+of	125,127	O	O
+tee	128,131	O	O
+sections	132,140	O	O
+and	141,144	O	O
+web	145,148	O	O
+post	149,153	O	O
+element	154,161	O	O
+.	161,162	O	O
+
+Such	163,167	O	O
+behavior	168,176	O	O
+is	177,179	O	O
+derived	180,187	O	O
+from	188,192	O	O
+parametric	193,203	O	O
+study	204,209	O	O
+involving	210,219	O	O
+finite	220,226	O	B-Process
+element	227,234	O	I-Process
+analysis	235,243	O	I-Process
+using	244,249	O	O
+software	250,258	O	O
+ANSYS	259,264	O	B-Material
+.	264,265	O	O
+
+The	266,269	O	O
+design	270,276	O	B-Process
+method	277,283	O	I-Process
+is	284,286	O	O
+based	287,292	O	O
+on	293,295	O	O
+plastic	296,303	O	B-Process
+analysis	304,312	O	I-Process
+of	313,315	O	I-Process
+beam	316,320	O	I-Process
+section	321,328	O	I-Process
+at	329,331	O	O
+ultimate	332,340	O	O
+loads	341,346	O	O
+and	347,350	O	O
+elastic	351,358	O	B-Process
+analysis	359,367	O	I-Process
+at	368,370	O	O
+serviceability	371,385	O	O
+loads	386,391	O	O
+.	391,392	O	O
+
+The	393,396	O	O
+procedure	397,406	O	B-Task
+of	407,409	O	I-Task
+design	410,416	O	I-Task
+of	417,419	O	I-Task
+cellular	420,428	O	I-Task
+beam	429,433	O	I-Task
+is	434,436	O	I-Task
+illustrated	437,448	O	I-Task
+and	449,452	O	O
+an	453,455	O	O
+example	456,463	O	O
+based	464,469	O	O
+on	470,472	O	O
+design	473,479	O	B-Process
+method	480,486	O	I-Process
+is	487,489	O	O
+worked	490,496	O	O
+out	497,500	O	O
+and	501,504	O	O
+its	505,508	O	O
+verification	509,521	O	O
+is	522,524	O	O
+done	525,529	O	O
+for	530,533	O	O
+checking	534,542	O	O
+the	543,546	O	O
+suitability	547,558	O	O
+.	558,559	O	O
 
 
 -DOCSTART- (S2212667814000550)
 
-The	0	3	O
-low	4	7	B-Process
--	7	8	I-Process
-carbon	8	14	I-Process
-economic	15	23	I-Process
-development	24	35	I-Process
-has	36	39	O
-become	40	46	O
-the	47	50	O
-trend	51	56	O
-and	57	60	O
-orientation	61	72	O
-of	73	75	O
-regional	76	84	B-Process
-economic	85	93	I-Process
-development	94	105	I-Process
-.	105	106	O
-
-As	107	109	O
-the	110	113	O
-residents	114	123	O
-of	124	126	O
-Heilongjiang	127	139	O
-province	140	148	O
-,	148	149	O
-their	150	155	O
-consumption	156	167	O
-is	168	170	O
-the	171	174	O
-most	175	179	O
-direct	180	186	O
-way	187	190	O
-to	191	193	O
-achieve	194	201	O
-the	202	205	O
-low	206	209	O
--	209	210	O
-carbon	210	216	B-Material
-lifestyle	217	226	O
-.	226	227	O
-
-Based	228	233	O
-on	234	236	O
-the	237	240	O
-research	241	249	O
-and	250	253	O
-discussion	254	264	O
-of	265	267	O
-the	268	271	O
-connotation	272	283	O
-of	284	286	O
-low	287	290	B-Process
--	290	291	I-Process
-carbon	291	297	I-Process
-consumption	298	309	I-Process
-and	310	313	O
-its	314	317	O
-culture	318	325	O
-,	325	326	O
-behaviour	327	336	O
-,	336	337	O
-preferences	338	349	O
-and	350	353	O
-habits	354	360	O
-,	360	361	O
-it	362	364	O
-is	365	367	O
-concluded	368	377	O
-that	378	382	O
-the	383	386	O
-low	387	390	B-Process
--	390	391	I-Process
-carbon	391	397	I-Process
-consumption	398	409	I-Process
-requires	410	418	O
-us	419	421	O
-to	422	424	O
-abide	425	430	O
-by	431	433	O
-the	434	437	O
-life	438	442	O
--	442	443	O
-style	443	448	O
-of	449	451	O
-knowledge	452	461	O
-and	462	465	O
-culture	466	473	O
-.	473	474	O
-
-Therefore	475	484	O
-,	484	485	O
-it	486	488	O
-is	489	491	O
-obvious	492	499	O
-that	500	504	O
-the	505	508	O
-development	509	520	B-Task
-of	521	523	I-Task
-low	524	527	I-Task
--	527	528	I-Task
-carbon	528	534	I-Task
-economy	535	542	I-Task
-is	543	545	O
-a	546	547	O
-complex	548	555	O
-and	556	559	O
-systematic	560	570	O
-project	571	578	O
-,	578	579	O
-involved	580	588	O
-the	589	592	O
-economic	593	601	B-Process
-development	602	613	I-Process
-mode	614	618	O
-,	618	619	O
-technological	620	633	B-Process
-innovation	634	644	I-Process
-mode	645	649	O
-,	649	650	O
-consumption	651	662	O
-values	663	669	O
-and	670	673	O
-changes	674	681	O
-of	682	684	O
-lifestyle	685	694	O
-.	694	695	O
+The	0,3	O	O
+low	4,7	O	B-Process
+-	7,8	O	I-Process
+carbon	8,14	O	I-Process
+economic	15,23	O	I-Process
+development	24,35	O	I-Process
+has	36,39	O	O
+become	40,46	O	O
+the	47,50	O	O
+trend	51,56	O	O
+and	57,60	O	O
+orientation	61,72	O	O
+of	73,75	O	O
+regional	76,84	O	B-Process
+economic	85,93	O	I-Process
+development	94,105	O	I-Process
+.	105,106	O	O
+
+As	107,109	O	O
+the	110,113	O	O
+residents	114,123	O	O
+of	124,126	O	O
+Heilongjiang	127,139	O	O
+province	140,148	O	O
+,	148,149	O	O
+their	150,155	O	O
+consumption	156,167	O	O
+is	168,170	O	O
+the	171,174	O	O
+most	175,179	O	O
+direct	180,186	O	O
+way	187,190	O	O
+to	191,193	O	O
+achieve	194,201	O	O
+the	202,205	O	O
+low	206,209	O	O
+-	209,210	O	O
+carbon	210,216	O	B-Material
+lifestyle	217,226	O	O
+.	226,227	O	O
+
+Based	228,233	O	O
+on	234,236	O	O
+the	237,240	O	O
+research	241,249	O	O
+and	250,253	O	O
+discussion	254,264	O	O
+of	265,267	O	O
+the	268,271	O	O
+connotation	272,283	O	O
+of	284,286	O	O
+low	287,290	O	B-Process
+-	290,291	O	I-Process
+carbon	291,297	O	I-Process
+consumption	298,309	O	I-Process
+and	310,313	O	O
+its	314,317	O	O
+culture	318,325	O	O
+,	325,326	O	O
+behaviour	327,336	O	O
+,	336,337	O	O
+preferences	338,349	O	O
+and	350,353	O	O
+habits	354,360	O	O
+,	360,361	O	O
+it	362,364	O	O
+is	365,367	O	O
+concluded	368,377	O	O
+that	378,382	O	O
+the	383,386	O	O
+low	387,390	O	B-Process
+-	390,391	O	I-Process
+carbon	391,397	O	I-Process
+consumption	398,409	O	I-Process
+requires	410,418	O	O
+us	419,421	O	O
+to	422,424	O	O
+abide	425,430	O	O
+by	431,433	O	O
+the	434,437	O	O
+life	438,442	O	O
+-	442,443	O	O
+style	443,448	O	O
+of	449,451	O	O
+knowledge	452,461	O	O
+and	462,465	O	O
+culture	466,473	O	O
+.	473,474	O	O
+
+Therefore	475,484	O	O
+,	484,485	O	O
+it	486,488	O	O
+is	489,491	O	O
+obvious	492,499	O	O
+that	500,504	O	O
+the	505,508	O	O
+development	509,520	O	B-Task
+of	521,523	O	I-Task
+low	524,527	O	I-Task
+-	527,528	O	I-Task
+carbon	528,534	O	I-Task
+economy	535,542	O	I-Task
+is	543,545	O	O
+a	546,547	O	O
+complex	548,555	O	O
+and	556,559	O	O
+systematic	560,570	O	O
+project	571,578	O	O
+,	578,579	O	O
+involved	580,588	O	O
+the	589,592	O	O
+economic	593,601	O	B-Process
+development	602,613	O	I-Process
+mode	614,618	O	O
+,	618,619	O	O
+technological	620,633	O	B-Process
+innovation	634,644	O	I-Process
+mode	645,649	O	O
+,	649,650	O	O
+consumption	651,662	O	O
+values	663,669	O	O
+and	670,673	O	O
+changes	674,681	O	O
+of	682,684	O	O
+lifestyle	685,694	O	O
+.	694,695	O	O
 
 
 -DOCSTART- (S2212667814000690)
 
-The	0	3	O
-paper	4	9	O
-presents	10	18	B-Task
-the	19	22	I-Task
-results	23	30	I-Task
-of	31	33	I-Task
-studies	34	41	I-Task
-of	42	44	I-Task
-the	45	48	I-Task
-effect	49	55	I-Task
-of	56	58	I-Task
-multiwalled	59	70	I-Task
-carbon	71	77	I-Task
-nanotubes	78	87	I-Task
-18	88	90	O
--	90	91	O
-20	91	93	O
-nm	93	95	O
-in	96	98	O
-concentrations	99	113	O
-of	114	116	O
-1	117	118	O
-and	119	122	O
-10	123	125	O
-mg	125	127	O
-/	128	129	O
-ml	130	132	O
-for	133	136	O
-diatoms	137	144	O
-Pseudo	145	151	B-Material
--	151	152	I-Material
-nitzschia	152	161	I-Material
-pungens	162	169	I-Material
-(	170	171	O
-clone	171	176	B-Material
-PP-07	177	182	I-Material
-)	182	183	O
-and	184	187	O
-golden	188	194	O
-alga	195	199	O
-
-Isochrysis	200	210	O
-galbana	211	218	O
-(	219	220	O
-clone	220	225	B-Material
-TISO	226	230	I-Material
-)	230	231	O
-.	231	232	O
-
-The	233	236	O
-toxic	237	242	B-Process
-effects	243	250	I-Process
-of	251	253	O
-multiwalled	254	265	O
-nanotubes	266	275	B-Material
-on	276	278	O
-both	279	283	O
-types	284	289	O
-of	290	292	O
-algae	293	298	B-Material
-is	299	301	O
-revealed	302	310	O
-,	310	311	O
-which	312	317	O
-results	318	325	O
-in	326	328	O
-a	329	330	O
-decrease	331	339	O
-of	340	342	O
-the	343	346	O
-linear	347	353	O
-dimensions	354	364	O
-of	365	367	O
-cells	368	373	B-Material
-,	373	374	O
-chloroplasts	375	387	B-Material
-,	387	388	O
-and	389	392	O
-a	393	394	O
-reduced	395	402	O
-number	403	409	O
-of	410	412	O
-cells	413	418	B-Material
-when	419	423	O
-incubated	424	433	B-Process
-over	434	438	O
-24h	439	442	O
-(	443	444	O
-Pseudo	444	450	B-Material
--	450	451	I-Material
-nitzschia	451	460	I-Material
-pungens	461	468	I-Material
-)	468	469	O
-and	470	473	O
-36hours	474	481	O
-(	482	483	O
-Isochrysis	483	493	B-Material
-galbana	494	501	I-Material
-)	501	502	O
-.	502	503	O
+The	0,3	O	O
+paper	4,9	O	O
+presents	10,18	O	B-Task
+the	19,22	O	I-Task
+results	23,30	O	I-Task
+of	31,33	O	I-Task
+studies	34,41	O	I-Task
+of	42,44	O	I-Task
+the	45,48	O	I-Task
+effect	49,55	O	I-Task
+of	56,58	O	I-Task
+multiwalled	59,70	O	I-Task
+carbon	71,77	O	I-Task
+nanotubes	78,87	O	I-Task
+18	88,90	O	O
+-	90,91	O	O
+20	91,93	O	O
+nm	93,95	O	O
+in	96,98	O	O
+concentrations	99,113	O	O
+of	114,116	O	O
+1	117,118	O	O
+and	119,122	O	O
+10	123,125	O	O
+mg	125,127	O	O
+/	128,129	O	O
+ml	130,132	O	O
+for	133,136	O	O
+diatoms	137,144	O	O
+Pseudo	145,151	O	B-Material
+-	151,152	O	I-Material
+nitzschia	152,161	O	I-Material
+pungens	162,169	O	I-Material
+(	170,171	O	O
+clone	171,176	O	B-Material
+PP-07	177,182	O	I-Material
+)	182,183	O	O
+and	184,187	O	O
+golden	188,194	O	O
+alga	195,199	O	O
+
+Isochrysis	200,210	O	O
+galbana	211,218	O	O
+(	219,220	O	O
+clone	220,225	O	B-Material
+TISO	226,230	O	I-Material
+)	230,231	O	O
+.	231,232	O	O
+
+The	233,236	O	O
+toxic	237,242	O	B-Process
+effects	243,250	O	I-Process
+of	251,253	O	O
+multiwalled	254,265	O	O
+nanotubes	266,275	O	B-Material
+on	276,278	O	O
+both	279,283	O	O
+types	284,289	O	O
+of	290,292	O	O
+algae	293,298	O	B-Material
+is	299,301	O	O
+revealed	302,310	O	O
+,	310,311	O	O
+which	312,317	O	O
+results	318,325	O	O
+in	326,328	O	O
+a	329,330	O	O
+decrease	331,339	O	O
+of	340,342	O	O
+the	343,346	O	O
+linear	347,353	O	O
+dimensions	354,364	O	O
+of	365,367	O	O
+cells	368,373	O	B-Material
+,	373,374	O	O
+chloroplasts	375,387	O	B-Material
+,	387,388	O	O
+and	389,392	O	O
+a	393,394	O	O
+reduced	395,402	O	O
+number	403,409	O	O
+of	410,412	O	O
+cells	413,418	O	B-Material
+when	419,423	O	O
+incubated	424,433	O	B-Process
+over	434,438	O	O
+24h	439,442	O	O
+(	443,444	O	O
+Pseudo	444,450	O	B-Material
+-	450,451	O	I-Material
+nitzschia	451,460	O	I-Material
+pungens	461,468	O	I-Material
+)	468,469	O	O
+and	470,473	O	O
+36hours	474,481	O	O
+(	482,483	O	O
+Isochrysis	483,493	O	B-Material
+galbana	494,501	O	I-Material
+)	501,502	O	O
+.	502,503	O	O
 
 
 -DOCSTART- (S2212667814000732)
 
-The	0	3	O
-retrospective	4	17	B-Task
-assessment	18	28	I-Task
-of	29	31	I-Task
-environmental	32	45	I-Task
-carrying	46	54	I-Task
-capacity	55	63	I-Task
-aims	64	68	O
-to	69	71	O
-obtain	72	78	B-Task
-the	79	82	I-Task
-historical	83	93	I-Task
-development	94	105	I-Task
-situation	106	115	I-Task
-of	116	118	I-Task
-reclamation	119	130	I-Task
-domain	131	137	I-Task
-,	137	138	O
-it	139	141	O
-'s	141	143	O
-an	144	146	O
-essential	147	156	O
-tool	157	161	O
-for	162	165	O
-improving	166	175	B-Task
-the	176	179	I-Task
-managed	180	187	I-Task
-level	188	193	I-Task
-and	194	197	O
-guiding	198	205	B-Task
-the	206	209	I-Task
-environmental	210	223	I-Task
-management	224	234	I-Task
-of	235	237	I-Task
-reclamation	238	249	I-Task
-.	249	250	O
-
-In	251	253	O
-this	254	258	O
-paper	259	264	O
-,	264	265	O
-a	266	267	O
-synthetic	268	277	B-Task
-assessment	278	288	I-Task
-method	289	295	I-Task
-based	296	301	I-Task
-on	302	304	I-Task
-cloud	305	310	I-Task
-theory	311	317	I-Task
-is	318	320	I-Task
-applied	321	328	I-Task
-to	329	331	O
-evaluate	332	340	O
-the	341	344	O
-single	345	351	O
-factor	352	358	O
-and	359	362	O
-multiple	363	371	O
-factors	372	379	O
-environmental	380	393	B-Process
-carrying	394	402	I-Process
-capacity	403	411	I-Process
-in	412	414	O
-Caofeidian	415	425	O
-marine	426	432	O
-district	433	441	O
-,	441	442	O
-Tangshan	443	451	O
-Bay	452	455	O
-,	455	456	O
-China	457	462	O
-.	462	463	O
-
-With	464	468	O
-the	469	472	O
-field	473	478	B-Material
-data	479	483	I-Material
-of	484	486	O
-five	487	491	O
-assessment	492	502	O
-indexes	503	510	O
-in	511	513	O
-recent	514	520	O
-six	521	524	O
-years	525	530	O
-,	530	531	O
-the	532	535	O
-assessment	536	546	O
-results	547	554	O
-are	555	558	O
-obtained	559	567	O
-which	568	573	O
-show	574	578	O
-that	579	583	O
-the	584	587	O
-marine	588	594	B-Process
-reclamation	595	606	I-Process
-has	607	610	O
-a	611	612	O
-certain	613	620	O
-impact	621	627	O
-for	628	631	O
-the	632	635	O
-marine	636	642	O
-environment	643	654	O
-.	654	655	O
+The	0,3	O	O
+retrospective	4,17	O	B-Task
+assessment	18,28	O	I-Task
+of	29,31	O	I-Task
+environmental	32,45	O	I-Task
+carrying	46,54	O	I-Task
+capacity	55,63	O	I-Task
+aims	64,68	O	O
+to	69,71	O	O
+obtain	72,78	O	B-Task
+the	79,82	O	I-Task
+historical	83,93	O	I-Task
+development	94,105	O	I-Task
+situation	106,115	O	I-Task
+of	116,118	O	I-Task
+reclamation	119,130	O	I-Task
+domain	131,137	O	I-Task
+,	137,138	O	O
+it	139,141	O	O
+'s	141,143	O	O
+an	144,146	O	O
+essential	147,156	O	O
+tool	157,161	O	O
+for	162,165	O	O
+improving	166,175	O	B-Task
+the	176,179	O	I-Task
+managed	180,187	O	I-Task
+level	188,193	O	I-Task
+and	194,197	O	O
+guiding	198,205	O	B-Task
+the	206,209	O	I-Task
+environmental	210,223	O	I-Task
+management	224,234	O	I-Task
+of	235,237	O	I-Task
+reclamation	238,249	O	I-Task
+.	249,250	O	O
+
+In	251,253	O	O
+this	254,258	O	O
+paper	259,264	O	O
+,	264,265	O	O
+a	266,267	O	O
+synthetic	268,277	O	B-Task
+assessment	278,288	O	I-Task
+method	289,295	O	I-Task
+based	296,301	O	I-Task
+on	302,304	O	I-Task
+cloud	305,310	O	I-Task
+theory	311,317	O	I-Task
+is	318,320	O	I-Task
+applied	321,328	O	I-Task
+to	329,331	O	O
+evaluate	332,340	O	O
+the	341,344	O	O
+single	345,351	O	O
+factor	352,358	O	O
+and	359,362	O	O
+multiple	363,371	O	O
+factors	372,379	O	O
+environmental	380,393	O	B-Process
+carrying	394,402	O	I-Process
+capacity	403,411	O	I-Process
+in	412,414	O	O
+Caofeidian	415,425	O	O
+marine	426,432	O	O
+district	433,441	O	O
+,	441,442	O	O
+Tangshan	443,451	O	O
+Bay	452,455	O	O
+,	455,456	O	O
+China	457,462	O	O
+.	462,463	O	O
+
+With	464,468	O	O
+the	469,472	O	O
+field	473,478	O	B-Material
+data	479,483	O	I-Material
+of	484,486	O	O
+five	487,491	O	O
+assessment	492,502	O	O
+indexes	503,510	O	O
+in	511,513	O	O
+recent	514,520	O	O
+six	521,524	O	O
+years	525,530	O	O
+,	530,531	O	O
+the	532,535	O	O
+assessment	536,546	O	O
+results	547,554	O	O
+are	555,558	O	O
+obtained	559,567	O	O
+which	568,573	O	O
+show	574,578	O	O
+that	579,583	O	O
+the	584,587	O	O
+marine	588,594	O	B-Process
+reclamation	595,606	O	I-Process
+has	607,610	O	O
+a	611,612	O	O
+certain	613,620	O	O
+impact	621,627	O	O
+for	628,631	O	O
+the	632,635	O	O
+marine	636,642	O	O
+environment	643,654	O	O
+.	654,655	O	O
 
 
 -DOCSTART- (S2212667814000756)
 
-This	0	4	O
-study	5	10	O
-is	11	13	O
-focused	14	21	O
-on	22	24	O
-the	25	28	O
-water	29	34	B-Process
--	34	35	I-Process
-gas	35	38	I-Process
-shift	39	44	I-Process
-reaction	45	53	I-Process
-(	54	55	O
-WGSR	55	59	B-Process
-)	59	60	O
-,	60	61	O
-occurring	62	71	O
-in	72	74	O
-the	75	78	O
-chemical	79	87	B-Process
-kinetics	88	96	I-Process
-equipment	97	106	I-Process
-,	106	107	O
-which	108	113	O
-is	114	116	O
-used	117	121	O
-to	122	124	O
-increase	125	133	O
-hydrogen	134	142	B-Process
-recovery	143	151	I-Process
-from	152	156	O
-industrial	157	167	B-Process
-processes	168	177	I-Process
-.	177	178	O
-
-The	179	182	O
-research	183	191	O
-deals	192	197	O
-with	198	202	O
-comparing	203	212	O
-hydrogen	213	221	B-Process
-recovery	222	230	I-Process
-with	231	235	O
-the	236	239	O
-use	240	243	O
-of	244	246	O
-three	247	252	O
-different	253	262	O
-catalysts	263	272	B-Material
-.	272	273	O
-
-The	274	277	O
-amount	278	284	O
-of	285	287	O
-the	288	291	O
-produced	292	300	O
-hydrogen	301	309	B-Material
-depends	310	317	O
-considerably	318	330	O
-on	331	333	O
-the	334	337	O
-reaction	338	346	B-Process
-state	347	352	O
-and	353	356	O
-the	357	360	O
-catalyst	361	369	B-Material
-composition	370	381	O
-.	381	382	O
-
-To	383	385	O
-improve	386	393	O
-the	394	397	O
-course	398	404	O
-of	405	407	O
-the	408	411	O
-reaction	412	420	B-Process
-,	420	421	O
-natural	422	429	B-Material
-catalysts	430	439	I-Material
-–	440	441	O
-calcite	442	449	B-Material
-,	449	450	O
-coal	451	455	B-Material
-char	456	460	I-Material
-(	461	462	O
-unburned	462	470	B-Material
-residues	471	479	I-Material
-from	480	484	I-Material
-coal	485	489	I-Material
-)	489	490	O
-and	491	494	O
-modified	495	503	B-Material
-olivine	504	511	I-Material
-
-–	512	513	O
-are	514	517	O
-added	518	523	O
-to	524	526	O
-the	527	530	O
-gasification	531	543	B-Process
-process	544	551	I-Process
-and	552	555	O
-heated	556	562	B-Process
-to	563	565	O
-the	566	569	O
-process	570	577	O
-temperature	578	589	O
-of	590	592	O
-800	593	596	O
-,	596	597	O
-850	598	601	O
-and	602	605	O
-900oC.	606	612	O
+This	0,4	O	O
+study	5,10	O	O
+is	11,13	O	O
+focused	14,21	O	O
+on	22,24	O	O
+the	25,28	O	O
+water	29,34	O	B-Process
+-	34,35	O	I-Process
+gas	35,38	O	I-Process
+shift	39,44	O	I-Process
+reaction	45,53	O	I-Process
+(	54,55	O	O
+WGSR	55,59	O	B-Process
+)	59,60	O	O
+,	60,61	O	O
+occurring	62,71	O	O
+in	72,74	O	O
+the	75,78	O	O
+chemical	79,87	O	B-Process
+kinetics	88,96	O	I-Process
+equipment	97,106	O	I-Process
+,	106,107	O	O
+which	108,113	O	O
+is	114,116	O	O
+used	117,121	O	O
+to	122,124	O	O
+increase	125,133	O	O
+hydrogen	134,142	O	B-Process
+recovery	143,151	O	I-Process
+from	152,156	O	O
+industrial	157,167	O	B-Process
+processes	168,177	O	I-Process
+.	177,178	O	O
+
+The	179,182	O	O
+research	183,191	O	O
+deals	192,197	O	O
+with	198,202	O	O
+comparing	203,212	O	O
+hydrogen	213,221	O	B-Process
+recovery	222,230	O	I-Process
+with	231,235	O	O
+the	236,239	O	O
+use	240,243	O	O
+of	244,246	O	O
+three	247,252	O	O
+different	253,262	O	O
+catalysts	263,272	O	B-Material
+.	272,273	O	O
+
+The	274,277	O	O
+amount	278,284	O	O
+of	285,287	O	O
+the	288,291	O	O
+produced	292,300	O	O
+hydrogen	301,309	O	B-Material
+depends	310,317	O	O
+considerably	318,330	O	O
+on	331,333	O	O
+the	334,337	O	O
+reaction	338,346	O	B-Process
+state	347,352	O	O
+and	353,356	O	O
+the	357,360	O	O
+catalyst	361,369	O	B-Material
+composition	370,381	O	O
+.	381,382	O	O
+
+To	383,385	O	O
+improve	386,393	O	O
+the	394,397	O	O
+course	398,404	O	O
+of	405,407	O	O
+the	408,411	O	O
+reaction	412,420	O	B-Process
+,	420,421	O	O
+natural	422,429	O	B-Material
+catalysts	430,439	O	I-Material
+–	440,441	O	O
+calcite	442,449	O	B-Material
+,	449,450	O	O
+coal	451,455	O	B-Material
+char	456,460	O	I-Material
+(	461,462	O	O
+unburned	462,470	O	B-Material
+residues	471,479	O	I-Material
+from	480,484	O	I-Material
+coal	485,489	O	I-Material
+)	489,490	O	O
+and	491,494	O	O
+modified	495,503	O	B-Material
+olivine	504,511	O	I-Material
+
+–	512,513	O	O
+are	514,517	O	O
+added	518,523	O	O
+to	524,526	O	O
+the	527,530	O	O
+gasification	531,543	O	B-Process
+process	544,551	O	I-Process
+and	552,555	O	O
+heated	556,562	O	B-Process
+to	563,565	O	O
+the	566,569	O	O
+process	570,577	O	O
+temperature	578,589	O	O
+of	590,592	O	O
+800	593,596	O	O
+,	596,597	O	O
+850	598,601	O	O
+and	602,605	O	O
+900oC.	606,612	O	O
 
 
 -DOCSTART- (S221266781400080X)
 
-Several	0	7	O
-inorganic	8	17	B-Material
-flocculating	18	30	I-Material
-agents	31	37	I-Material
-,	37	38	O
-including	39	48	O
-FeSO4	49	54	B-Material
-,	54	55	O
-Al2(SO4)3	56	65	B-Material
-,	65	66	I-Material
-FeCl3	67	72	B-Material
-and	73	76	O
-an	77	79	O
-organic	80	87	B-Material
-coagulant	88	97	I-Material
-aid	98	101	I-Material
-PAM	102	105	B-Material
-,	105	106	O
-were	107	111	O
-used	112	116	O
-to	117	119	O
-treat	120	125	B-Process
-the	126	129	I-Process
-wastewater	130	140	I-Process
-from	141	145	O
-domestic	146	154	O
-anima	155	160	O
-and	161	164	O
-poultry	165	172	O
-breeding	173	181	O
-in	182	184	O
-this	185	189	O
-paper	190	195	O
-.	195	196	O
-
-The	197	200	O
-ideal	201	206	O
-operating	207	216	O
-conditions	217	227	O
-were	228	232	O
-attained	233	241	O
-by	242	244	O
-single	245	251	B-Task
-factor	252	258	I-Task
-experiment	259	269	I-Task
-and	270	273	O
-orthogonal	274	284	B-Task
-design	285	291	I-Task
-experiment	292	302	I-Task
-.	302	303	O
-
-And	304	307	O
-the	308	311	O
-ideal	312	317	O
-operating	318	327	O
-conditions	328	338	O
-are	339	342	O
-follows	343	350	O
-:	350	351	O
-the	352	355	O
-dose	356	360	O
-of	361	363	O
-FeSO4	364	369	B-Material
-and	370	373	O
-
-PAM	374	377	B-Material
-is	378	380	O
-
-135.2mg	381	388	O
-/	388	389	O
-L	389	390	O
-and	391	394	O
-0.384mg	395	402	O
-/	402	403	O
-L	403	404	O
-respectively	405	417	O
-when	418	422	O
-keeping	423	430	O
-the	431	434	O
-pH	435	437	O
-10	438	440	O
-;	440	441	O
-and	442	445	O
-
-the	446	449	O
-corresponding	450	463	O
-removal	464	471	B-Process
-rate	472	476	I-Process
-is	477	479	O
-55	480	482	O
-%	482	483	O
-and	484	487	O
-60	488	490	O
-%	490	491	O
-for	492	495	O
-COD	496	499	B-Material
-and	500	503	O
-turbidity	504	513	O
-.	513	514	O
-
-Based	515	520	O
-on	521	523	O
-the	524	527	O
-experimental	528	540	O
-results	541	548	O
-,	548	549	O
-this	550	554	O
-paper	555	560	O
-analyzes	561	569	B-Task
-the	570	573	I-Task
-main	574	578	I-Task
-factors	579	586	I-Task
-that	587	591	O
-affect	592	598	O
-wastewater	599	609	B-Process
-flocculation	610	622	I-Process
-treatment	623	632	I-Process
-.	632	633	O
+Several	0,7	O	O
+inorganic	8,17	O	B-Material
+flocculating	18,30	O	I-Material
+agents	31,37	O	I-Material
+,	37,38	O	O
+including	39,48	O	O
+FeSO4	49,54	O	B-Material
+,	54,55	O	O
+Al2(SO4)3	56,65	O	B-Material
+,	65,66	O	I-Material
+FeCl3	67,72	O	B-Material
+and	73,76	O	O
+an	77,79	O	O
+organic	80,87	O	B-Material
+coagulant	88,97	O	I-Material
+aid	98,101	O	I-Material
+PAM	102,105	O	B-Material
+,	105,106	O	O
+were	107,111	O	O
+used	112,116	O	O
+to	117,119	O	O
+treat	120,125	O	B-Process
+the	126,129	O	I-Process
+wastewater	130,140	O	I-Process
+from	141,145	O	O
+domestic	146,154	O	O
+anima	155,160	O	O
+and	161,164	O	O
+poultry	165,172	O	O
+breeding	173,181	O	O
+in	182,184	O	O
+this	185,189	O	O
+paper	190,195	O	O
+.	195,196	O	O
+
+The	197,200	O	O
+ideal	201,206	O	O
+operating	207,216	O	O
+conditions	217,227	O	O
+were	228,232	O	O
+attained	233,241	O	O
+by	242,244	O	O
+single	245,251	O	B-Task
+factor	252,258	O	I-Task
+experiment	259,269	O	I-Task
+and	270,273	O	O
+orthogonal	274,284	O	B-Task
+design	285,291	O	I-Task
+experiment	292,302	O	I-Task
+.	302,303	O	O
+
+And	304,307	O	O
+the	308,311	O	O
+ideal	312,317	O	O
+operating	318,327	O	O
+conditions	328,338	O	O
+are	339,342	O	O
+follows	343,350	O	O
+:	350,351	O	O
+the	352,355	O	O
+dose	356,360	O	O
+of	361,363	O	O
+FeSO4	364,369	O	B-Material
+and	370,373	O	O
+
+PAM	374,377	O	B-Material
+is	378,380	O	O
+
+135.2mg	381,388	O	O
+/	388,389	O	O
+L	389,390	O	O
+and	391,394	O	O
+0.384mg	395,402	O	O
+/	402,403	O	O
+L	403,404	O	O
+respectively	405,417	O	O
+when	418,422	O	O
+keeping	423,430	O	O
+the	431,434	O	O
+pH	435,437	O	O
+10	438,440	O	O
+;	440,441	O	O
+and	442,445	O	O
+
+the	446,449	O	O
+corresponding	450,463	O	O
+removal	464,471	O	B-Process
+rate	472,476	O	I-Process
+is	477,479	O	O
+55	480,482	O	O
+%	482,483	O	O
+and	484,487	O	O
+60	488,490	O	O
+%	490,491	O	O
+for	492,495	O	O
+COD	496,499	O	B-Material
+and	500,503	O	O
+turbidity	504,513	O	O
+.	513,514	O	O
+
+Based	515,520	O	O
+on	521,523	O	O
+the	524,527	O	O
+experimental	528,540	O	O
+results	541,548	O	O
+,	548,549	O	O
+this	550,554	O	O
+paper	555,560	O	O
+analyzes	561,569	O	B-Task
+the	570,573	O	I-Task
+main	574,578	O	I-Task
+factors	579,586	O	I-Task
+that	587,591	O	O
+affect	592,598	O	O
+wastewater	599,609	O	B-Process
+flocculation	610,622	O	I-Process
+treatment	623,632	O	I-Process
+.	632,633	O	O
 
 
 -DOCSTART- (S2212667814000884)
 
-Many	0	4	O
-models	5	11	B-Process
-have	12	16	O
-been	17	21	O
-propounded	22	32	O
-for	33	36	O
-forecasting	37	48	B-Process
-lightning	49	58	I-Process
-.	58	59	O
-
-Though	60	66	O
-majority	67	75	O
-of	76	78	O
-the	79	82	O
-model	83	88	B-Process
-had	89	92	O
-shown	93	98	O
-accuracy	99	107	O
-,	107	108	O
-the	109	112	O
-response	113	121	O
-time	122	126	O
-in	127	129	O
-detecting	130	139	O
-natural	140	147	B-Process
-phenomenon	148	158	I-Process
-is	159	161	O
-quite	162	167	O
-low	168	171	O
-.	171	172	O
-
-In	173	175	O
-this	176	180	O
-model	181	186	O
-,	186	187	O
-we	188	190	O
-used	191	195	O
-the	196	199	O
-mathematical	200	212	B-Task
-experimentation	213	228	I-Task
-of	229	231	O
-the	232	235	O
-micro	236	241	B-Material
-scale	242	247	I-Material
-plasmas	248	255	I-Material
-to	256	258	O
-develop	259	266	O
-the	267	270	O
-macro	271	276	B-Material
-scale	277	282	I-Material
-atmospheric	283	294	I-Material
-plasma	295	301	I-Material
-which	302	307	O
-we	308	310	O
-believe	311	318	O
-is	319	321	O
-a	322	323	O
-major	324	329	O
-influence	330	339	O
-of	340	342	O
-lightning	343	352	B-Process
-.	352	353	O
-
-The	354	357	O
-Schrödinger	358	369	B-Process
--	369	370	I-Process
-electrostatic	370	383	I-Process
-algorithm	384	393	I-Process
-was	394	397	O
-propounded	398	408	O
-to	409	411	O
-further	412	419	O
-increase	420	428	O
-both	429	433	O
-the	434	437	O
-accuracy	438	446	O
-and	447	450	O
-alacrity	451	459	O
-of	460	462	O
-detecting	463	472	B-Process
-natural	473	480	I-Process
-phenomena	481	490	I-Process
-.	490	491	I-Process
-
-According	492	501	O
-to	502	504	O
-our	505	508	O
-theoretical	509	520	B-Task
-experimentation	521	536	I-Task
-,	536	537	O
-the	538	541	O
-air	542	545	B-Material
-density	546	553	O
-plays	554	559	O
-a	560	561	O
-major	562	567	O
-role	568	572	O
-in	573	575	O
-lightning	576	585	B-Process
-forecast	586	594	O
-.	594	595	O
-
-Our	596	599	O
-guess	600	605	O
-was	606	609	O
-verified	610	618	O
-using	619	624	O
-the	625	628	O
-Davis	629	634	B-Process
-Weather	635	642	I-Process
-Station	643	650	I-Process
-to	651	653	O
-track	654	659	B-Task
-the	660	663	I-Task
-air	664	667	I-Task
-density	668	675	I-Task
-both	676	680	O
-in	681	683	O
-the	684	687	O
-upper	688	693	O
-and	694	697	O
-lower	698	703	O
-atmosphere	704	714	O
-.	714	715	O
-
-The	716	719	O
-air	720	723	B-Material
-density	724	731	O
-in	732	734	O
-the	735	738	O
-upper	739	744	B-Material
-atmosphere	745	755	I-Material
-showed	756	762	O
-prospect	763	771	O
-as	772	774	O
-a	775	776	O
-vital	777	782	O
-factor	783	789	O
-for	790	793	O
-lightning	794	803	B-Process
-forecast	804	812	O
-.	812	813	O
+Many	0,4	O	O
+models	5,11	O	B-Process
+have	12,16	O	O
+been	17,21	O	O
+propounded	22,32	O	O
+for	33,36	O	O
+forecasting	37,48	O	B-Process
+lightning	49,58	O	I-Process
+.	58,59	O	O
+
+Though	60,66	O	O
+majority	67,75	O	O
+of	76,78	O	O
+the	79,82	O	O
+model	83,88	O	B-Process
+had	89,92	O	O
+shown	93,98	O	O
+accuracy	99,107	O	O
+,	107,108	O	O
+the	109,112	O	O
+response	113,121	O	O
+time	122,126	O	O
+in	127,129	O	O
+detecting	130,139	O	O
+natural	140,147	O	B-Process
+phenomenon	148,158	O	I-Process
+is	159,161	O	O
+quite	162,167	O	O
+low	168,171	O	O
+.	171,172	O	O
+
+In	173,175	O	O
+this	176,180	O	O
+model	181,186	O	O
+,	186,187	O	O
+we	188,190	O	O
+used	191,195	O	O
+the	196,199	O	O
+mathematical	200,212	O	B-Task
+experimentation	213,228	O	I-Task
+of	229,231	O	O
+the	232,235	O	O
+micro	236,241	O	B-Material
+scale	242,247	O	I-Material
+plasmas	248,255	O	I-Material
+to	256,258	O	O
+develop	259,266	O	O
+the	267,270	O	O
+macro	271,276	O	B-Material
+scale	277,282	O	I-Material
+atmospheric	283,294	O	I-Material
+plasma	295,301	O	I-Material
+which	302,307	O	O
+we	308,310	O	O
+believe	311,318	O	O
+is	319,321	O	O
+a	322,323	O	O
+major	324,329	O	O
+influence	330,339	O	O
+of	340,342	O	O
+lightning	343,352	O	B-Process
+.	352,353	O	O
+
+The	354,357	O	O
+Schrödinger	358,369	O	B-Process
+-	369,370	O	I-Process
+electrostatic	370,383	O	I-Process
+algorithm	384,393	O	I-Process
+was	394,397	O	O
+propounded	398,408	O	O
+to	409,411	O	O
+further	412,419	O	O
+increase	420,428	O	O
+both	429,433	O	O
+the	434,437	O	O
+accuracy	438,446	O	O
+and	447,450	O	O
+alacrity	451,459	O	O
+of	460,462	O	O
+detecting	463,472	O	B-Process
+natural	473,480	O	I-Process
+phenomena	481,490	O	I-Process
+.	490,491	O	I-Process
+
+According	492,501	O	O
+to	502,504	O	O
+our	505,508	O	O
+theoretical	509,520	O	B-Task
+experimentation	521,536	O	I-Task
+,	536,537	O	O
+the	538,541	O	O
+air	542,545	O	B-Material
+density	546,553	O	O
+plays	554,559	O	O
+a	560,561	O	O
+major	562,567	O	O
+role	568,572	O	O
+in	573,575	O	O
+lightning	576,585	O	B-Process
+forecast	586,594	O	O
+.	594,595	O	O
+
+Our	596,599	O	O
+guess	600,605	O	O
+was	606,609	O	O
+verified	610,618	O	O
+using	619,624	O	O
+the	625,628	O	O
+Davis	629,634	O	B-Process
+Weather	635,642	O	I-Process
+Station	643,650	O	I-Process
+to	651,653	O	O
+track	654,659	O	B-Task
+the	660,663	O	I-Task
+air	664,667	O	I-Task
+density	668,675	O	I-Task
+both	676,680	O	O
+in	681,683	O	O
+the	684,687	O	O
+upper	688,693	O	O
+and	694,697	O	O
+lower	698,703	O	O
+atmosphere	704,714	O	O
+.	714,715	O	O
+
+The	716,719	O	O
+air	720,723	O	B-Material
+density	724,731	O	O
+in	732,734	O	O
+the	735,738	O	O
+upper	739,744	O	B-Material
+atmosphere	745,755	O	I-Material
+showed	756,762	O	O
+prospect	763,771	O	O
+as	772,774	O	O
+a	775,776	O	O
+vital	777,782	O	O
+factor	783,789	O	O
+for	790,793	O	O
+lightning	794,803	O	B-Process
+forecast	804,812	O	O
+.	812,813	O	O
 
 
 -DOCSTART- (S2212667814000951)
 
-Design	0	6	B-Task
-semantics	7	16	I-Task
-is	17	19	O
-an	20	22	O
-integration	23	34	B-Task
-of	35	37	I-Task
-human	38	43	I-Task
-mode	44	48	I-Task
-of	49	51	I-Task
-existence	52	61	I-Task
-and	62	65	I-Task
-view	66	70	I-Task
-on	71	73	I-Task
-culture	74	81	I-Task
-and	82	85	I-Task
-art	86	89	I-Task
-,	89	90	O
-which	91	96	O
-means	97	102	O
-it	103	105	O
-is	106	108	O
-a	109	110	O
-unity	111	116	B-Task
-of	117	119	I-Task
-art	120	123	I-Task
-and	124	127	I-Task
-science	128	135	I-Task
-.	135	136	O
-
-Design	137	143	B-Task
-semantics	144	153	I-Task
-is	154	156	O
-the	157	160	O
-annotation	161	171	B-Task
-of	172	174	I-Task
-form	175	179	I-Task
-and	180	183	I-Task
-the	184	187	I-Task
-reflection	188	198	I-Task
-of	199	201	I-Task
-its	202	205	I-Task
-symbolic	206	214	I-Task
-meaning	215	222	I-Task
-,	222	223	O
-which	224	229	O
-means	230	235	O
-it	236	238	O
-is	239	241	O
-an	242	244	O
-explanation	245	256	B-Task
-of	257	259	I-Task
-the	260	263	I-Task
-deposited	264	273	I-Task
-human	274	279	I-Task
-cultural	280	288	I-Task
-spirit	289	295	I-Task
-.	295	296	O
-
-Chinese	297	304	O
-art	305	308	O
-stresses	309	317	O
-Expression	318	328	O
-,	328	329	O
-Force	330	335	O
-and	336	339	O
-Qi	340	342	O
-.	342	343	O
-
-In	344	346	O
-China	347	352	O
-,	352	353	O
-people	354	360	O
-advocate	361	369	O
-“	370	371	O
-to	371	373	B-Process
-learn	374	379	I-Process
-from	380	384	I-Process
-nature	385	391	I-Process
-”	391	392	O
-,	392	393	O
-“	394	395	O
-to	395	397	O
-look	398	402	O
-up	403	405	O
-to	406	408	O
-observe	409	416	O
-the	417	420	O
-sun	421	424	O
-,	424	425	O
-the	426	429	O
-moon	430	434	O
-and	435	438	O
-stars	439	444	O
-,	444	445	O
-and	446	449	O
-look	450	454	O
-down	455	459	O
-to	460	462	O
-observe	463	470	B-Process
-the	471	474	I-Process
-surroundings	475	487	I-Process
-”	487	488	O
-,	488	489	O
-and	490	493	O
-take	494	498	O
-“	499	500	O
-Nature	500	506	O
-and	507	510	O
-Man	511	514	O
-in	515	517	O
-One	518	521	O
-”	521	522	O
-as	523	525	O
-the	526	529	O
-highest	530	537	O
-state	538	543	O
-of	544	546	O
-spirit	547	553	O
-.	553	554	O
-
-Design	555	561	B-Task
-semantics	562	571	I-Task
-is	572	574	O
-expressed	575	584	O
-in	585	587	O
-space	588	593	B-Task
-environment	594	605	I-Task
-design	606	612	I-Task
-through	613	620	O
-a	621	622	O
-symbiotic	623	632	O
-philosophical	633	646	O
-view	647	651	O
-that	652	656	O
-natural	657	664	B-Material
-and	665	668	I-Material
-artificial	669	679	I-Material
-forms	680	685	I-Material
-are	686	689	O
-complementary	690	703	O
-and	704	707	O
-interactive	708	719	O
-.	719	720	O
-
-This	721	725	O
-form	726	730	O
-of	731	733	O
-design	734	740	O
-leads	741	746	O
-humans	747	753	O
-back	754	758	O
-to	759	761	O
-a	762	763	O
-better	764	770	O
-state	771	776	O
-of	777	779	O
-living	780	786	O
-,	786	787	O
-i.e.	788	792	O
-Nature	793	799	O
-and	800	803	O
-Man	804	807	O
-in	808	810	O
-One	811	814	O
-.	814	815	O
+Design	0,6	O	B-Task
+semantics	7,16	O	I-Task
+is	17,19	O	O
+an	20,22	O	O
+integration	23,34	O	B-Task
+of	35,37	O	I-Task
+human	38,43	O	I-Task
+mode	44,48	O	I-Task
+of	49,51	O	I-Task
+existence	52,61	O	I-Task
+and	62,65	O	I-Task
+view	66,70	O	I-Task
+on	71,73	O	I-Task
+culture	74,81	O	I-Task
+and	82,85	O	I-Task
+art	86,89	O	I-Task
+,	89,90	O	O
+which	91,96	O	O
+means	97,102	O	O
+it	103,105	O	O
+is	106,108	O	O
+a	109,110	O	O
+unity	111,116	O	B-Task
+of	117,119	O	I-Task
+art	120,123	O	I-Task
+and	124,127	O	I-Task
+science	128,135	O	I-Task
+.	135,136	O	O
+
+Design	137,143	O	B-Task
+semantics	144,153	O	I-Task
+is	154,156	O	O
+the	157,160	O	O
+annotation	161,171	O	B-Task
+of	172,174	O	I-Task
+form	175,179	O	I-Task
+and	180,183	O	I-Task
+the	184,187	O	I-Task
+reflection	188,198	O	I-Task
+of	199,201	O	I-Task
+its	202,205	O	I-Task
+symbolic	206,214	O	I-Task
+meaning	215,222	O	I-Task
+,	222,223	O	O
+which	224,229	O	O
+means	230,235	O	O
+it	236,238	O	O
+is	239,241	O	O
+an	242,244	O	O
+explanation	245,256	O	B-Task
+of	257,259	O	I-Task
+the	260,263	O	I-Task
+deposited	264,273	O	I-Task
+human	274,279	O	I-Task
+cultural	280,288	O	I-Task
+spirit	289,295	O	I-Task
+.	295,296	O	O
+
+Chinese	297,304	O	O
+art	305,308	O	O
+stresses	309,317	O	O
+Expression	318,328	O	O
+,	328,329	O	O
+Force	330,335	O	O
+and	336,339	O	O
+Qi	340,342	O	O
+.	342,343	O	O
+
+In	344,346	O	O
+China	347,352	O	O
+,	352,353	O	O
+people	354,360	O	O
+advocate	361,369	O	O
+“	370,371	O	O
+to	371,373	O	B-Process
+learn	374,379	O	I-Process
+from	380,384	O	I-Process
+nature	385,391	O	I-Process
+”	391,392	O	O
+,	392,393	O	O
+“	394,395	O	O
+to	395,397	O	O
+look	398,402	O	O
+up	403,405	O	O
+to	406,408	O	O
+observe	409,416	O	O
+the	417,420	O	O
+sun	421,424	O	O
+,	424,425	O	O
+the	426,429	O	O
+moon	430,434	O	O
+and	435,438	O	O
+stars	439,444	O	O
+,	444,445	O	O
+and	446,449	O	O
+look	450,454	O	O
+down	455,459	O	O
+to	460,462	O	O
+observe	463,470	O	B-Process
+the	471,474	O	I-Process
+surroundings	475,487	O	I-Process
+”	487,488	O	O
+,	488,489	O	O
+and	490,493	O	O
+take	494,498	O	O
+“	499,500	O	O
+Nature	500,506	O	O
+and	507,510	O	O
+Man	511,514	O	O
+in	515,517	O	O
+One	518,521	O	O
+”	521,522	O	O
+as	523,525	O	O
+the	526,529	O	O
+highest	530,537	O	O
+state	538,543	O	O
+of	544,546	O	O
+spirit	547,553	O	O
+.	553,554	O	O
+
+Design	555,561	O	B-Task
+semantics	562,571	O	I-Task
+is	572,574	O	O
+expressed	575,584	O	O
+in	585,587	O	O
+space	588,593	O	B-Task
+environment	594,605	O	I-Task
+design	606,612	O	I-Task
+through	613,620	O	O
+a	621,622	O	O
+symbiotic	623,632	O	O
+philosophical	633,646	O	O
+view	647,651	O	O
+that	652,656	O	O
+natural	657,664	O	B-Material
+and	665,668	O	I-Material
+artificial	669,679	O	I-Material
+forms	680,685	O	I-Material
+are	686,689	O	O
+complementary	690,703	O	O
+and	704,707	O	O
+interactive	708,719	O	O
+.	719,720	O	O
+
+This	721,725	O	O
+form	726,730	O	O
+of	731,733	O	O
+design	734,740	O	O
+leads	741,746	O	O
+humans	747,753	O	O
+back	754,758	O	O
+to	759,761	O	O
+a	762,763	O	O
+better	764,770	O	O
+state	771,776	O	O
+of	777,779	O	O
+living	780,786	O	O
+,	786,787	O	O
+i.e.	788,792	O	O
+Nature	793,799	O	O
+and	800,803	O	O
+Man	804,807	O	O
+in	808,810	O	O
+One	811,814	O	O
+.	814,815	O	O
 
 
 -DOCSTART- (S2212667814000975)
 
-It	0	2	O
-has	3	6	O
-been	7	11	O
-acknowledged	12	24	O
-that	25	29	O
-megalopolises	30	43	O
-are	44	47	O
-playing	48	55	O
-a	56	57	O
-leading	58	65	O
-role	66	70	O
-in	71	73	O
-the	74	77	O
-processes	78	87	O
-of	88	90	O
-both	91	95	O
-economic	96	104	B-Process
-development	105	116	I-Process
-and	117	120	O
-culture	121	128	B-Process
-change	129	135	I-Process
-.	135	136	O
-
-Thereupon	137	146	O
-,	146	147	O
-the	148	151	O
-new	152	155	O
-emphases	156	164	O
-on	165	167	O
-sustainability	168	182	B-Process
-of	183	185	I-Process
-transportation	186	200	I-Process
-system	201	207	I-Process
-in	208	210	O
-megalopolis	211	222	O
-are	223	226	O
-creating	227	235	O
-new	236	239	O
-demands	240	247	O
-for	248	251	O
-adequate	252	260	O
-approach	261	269	B-Task
-to	270	272	I-Task
-measure	273	280	I-Task
-its	281	284	I-Task
-performance	285	296	I-Task
-and	297	300	I-Task
-diagnosis	301	310	I-Task
-potential	311	320	I-Task
-drawbacks	321	330	I-Task
-.	330	331	O
-
-By	332	334	O
-examining	335	344	O
-the	345	348	O
-descriptions	349	361	O
-of	362	364	O
-sustainable	365	376	O
-transport	377	386	B-Process
-system	387	393	I-Process
-as	394	396	O
-well	397	401	O
-as	402	404	O
-its	405	408	O
-evaluating	409	419	O
-approach	420	428	O
-,	428	429	O
-a	430	431	O
-framework	432	441	B-Material
-with	442	446	O
-the	447	450	O
-general	451	458	O
-applicability	459	472	O
-and	473	476	O
-easily	477	483	O
-accessible	484	494	O
-data	495	499	O
-resource	500	508	O
-for	509	512	O
-evaluating	513	523	O
-sustainability	524	538	O
-of	539	541	O
-transport	542	551	B-Process
-system	552	558	I-Process
-in	559	561	O
-megalopolis	562	573	O
-is	574	576	O
-developed	577	586	O
-based	587	592	O
-on	593	595	O
-nature	596	602	O
-of	603	605	O
-regional	606	614	O
-structure	615	624	O
-and	625	628	O
-the	629	632	O
-feature	633	640	O
-transport	641	650	O
-demand	651	657	O
-in	658	660	O
-megalopolis	661	672	O
-.	672	673	O
-
-The	674	677	O
-proposed	678	686	B-Task
-framework	687	696	I-Task
-is	697	699	I-Task
-applied	700	707	I-Task
-in	708	710	O
-the	711	714	O
-analysis	715	723	O
-and	724	727	O
-comparison	728	738	O
-of	739	741	O
-Jing	742	746	O
--	746	747	O
-Jin	747	750	O
--	750	751	O
-Ji	751	753	O
-and	754	757	O
-Yangtze	758	765	O
-River	766	771	O
-Delta	772	777	O
-..	777	779	O
+It	0,2	O	O
+has	3,6	O	O
+been	7,11	O	O
+acknowledged	12,24	O	O
+that	25,29	O	O
+megalopolises	30,43	O	O
+are	44,47	O	O
+playing	48,55	O	O
+a	56,57	O	O
+leading	58,65	O	O
+role	66,70	O	O
+in	71,73	O	O
+the	74,77	O	O
+processes	78,87	O	O
+of	88,90	O	O
+both	91,95	O	O
+economic	96,104	O	B-Process
+development	105,116	O	I-Process
+and	117,120	O	O
+culture	121,128	O	B-Process
+change	129,135	O	I-Process
+.	135,136	O	O
+
+Thereupon	137,146	O	O
+,	146,147	O	O
+the	148,151	O	O
+new	152,155	O	O
+emphases	156,164	O	O
+on	165,167	O	O
+sustainability	168,182	O	B-Process
+of	183,185	O	I-Process
+transportation	186,200	O	I-Process
+system	201,207	O	I-Process
+in	208,210	O	O
+megalopolis	211,222	O	O
+are	223,226	O	O
+creating	227,235	O	O
+new	236,239	O	O
+demands	240,247	O	O
+for	248,251	O	O
+adequate	252,260	O	O
+approach	261,269	O	B-Task
+to	270,272	O	I-Task
+measure	273,280	O	I-Task
+its	281,284	O	I-Task
+performance	285,296	O	I-Task
+and	297,300	O	I-Task
+diagnosis	301,310	O	I-Task
+potential	311,320	O	I-Task
+drawbacks	321,330	O	I-Task
+.	330,331	O	O
+
+By	332,334	O	O
+examining	335,344	O	O
+the	345,348	O	O
+descriptions	349,361	O	O
+of	362,364	O	O
+sustainable	365,376	O	O
+transport	377,386	O	B-Process
+system	387,393	O	I-Process
+as	394,396	O	O
+well	397,401	O	O
+as	402,404	O	O
+its	405,408	O	O
+evaluating	409,419	O	O
+approach	420,428	O	O
+,	428,429	O	O
+a	430,431	O	O
+framework	432,441	O	B-Material
+with	442,446	O	O
+the	447,450	O	O
+general	451,458	O	O
+applicability	459,472	O	O
+and	473,476	O	O
+easily	477,483	O	O
+accessible	484,494	O	O
+data	495,499	O	O
+resource	500,508	O	O
+for	509,512	O	O
+evaluating	513,523	O	O
+sustainability	524,538	O	O
+of	539,541	O	O
+transport	542,551	O	B-Process
+system	552,558	O	I-Process
+in	559,561	O	O
+megalopolis	562,573	O	O
+is	574,576	O	O
+developed	577,586	O	O
+based	587,592	O	O
+on	593,595	O	O
+nature	596,602	O	O
+of	603,605	O	O
+regional	606,614	O	O
+structure	615,624	O	O
+and	625,628	O	O
+the	629,632	O	O
+feature	633,640	O	O
+transport	641,650	O	O
+demand	651,657	O	O
+in	658,660	O	O
+megalopolis	661,672	O	O
+.	672,673	O	O
+
+The	674,677	O	O
+proposed	678,686	O	B-Task
+framework	687,696	O	I-Task
+is	697,699	O	I-Task
+applied	700,707	O	I-Task
+in	708,710	O	O
+the	711,714	O	O
+analysis	715,723	O	O
+and	724,727	O	O
+comparison	728,738	O	O
+of	739,741	O	O
+Jing	742,746	O	O
+-	746,747	O	O
+Jin	747,750	O	O
+-	750,751	O	O
+Ji	751,753	O	O
+and	754,757	O	O
+Yangtze	758,765	O	O
+River	766,771	O	O
+Delta	772,777	O	O
+..	777,779	O	O
 
 
 -DOCSTART- (S2212667814000987)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-we	14	16	O
-consider	17	25	O
-problems	26	34	B-Task
-of	35	37	I-Task
-creating	38	46	I-Task
-and	47	50	I-Task
-introducing	51	62	I-Task
-intelligent	63	74	I-Task
-management	75	85	I-Task
-systems	86	93	I-Task
-as	94	96	O
-one	97	100	O
-of	101	103	O
-the	104	107	O
-most	108	112	O
-important	113	122	O
-mechanism	123	132	O
-of	133	135	O
-increasing	136	146	B-Task
-energy	147	153	I-Task
-efficiency	154	164	I-Task
-in	165	167	O
-industry	168	176	O
-.	176	177	O
-
-Operating	178	187	O
-principles	188	198	O
-of	199	201	O
-intelligent	202	213	B-Process
-electric	214	222	I-Process
-power	223	228	I-Process
-distribution	229	241	I-Process
-systems	242	249	I-Process
-developed	250	259	O
-in	260	262	O
-MSTU	263	267	B-Material
-«	268	269	I-Material
-STANKIN	269	276	I-Material
-»	276	277	I-Material
-for	278	281	O
-AC	282	284	B-Material
-and	285	288	I-Material
-DC	289	291	I-Material
-grids	292	297	I-Material
-on	298	300	O
-industrial	301	311	O
-plants	312	318	O
-are	319	322	O
-described	323	332	O
-.	332	333	O
-
-Essential	334	343	O
-devices	344	351	B-Task
-composing	352	361	I-Task
-the	362	365	I-Task
-systems	366	373	I-Task
-are	374	377	I-Task
-considered	378	388	I-Task
-,	388	389	O
-their	390	395	O
-technical	396	405	B-Task
-characteristics	406	421	I-Task
-are	422	425	I-Task
-described	426	435	I-Task
-.	435	436	O
-
-Experimental	437	449	O
-results	450	457	O
-are	458	461	O
-presented	462	471	O
-.	471	472	O
-
-In	472	474	O
-this	475	479	O
-paper	480	485	O
-we	486	488	O
-consider	489	497	O
-problems	498	506	O
-of	507	509	O
-creating	510	518	B-Task
-and	519	522	I-Task
-introducing	523	534	I-Task
-intelligent	535	546	I-Task
-management	547	557	I-Task
-systems	558	565	I-Task
-as	566	568	O
-one	569	572	O
-of	573	575	O
-the	576	579	O
-most	580	584	O
-important	585	594	O
-mechanism	595	604	O
-of	605	607	O
-increasing	608	618	B-Task
-energy	619	625	I-Task
-efficiency	626	636	I-Task
-in	637	639	O
-industry	640	648	O
-.	648	649	O
-
-Operating	650	659	O
-principles	660	670	O
-of	671	673	O
-intelligent	674	685	B-Process
-electric	686	694	I-Process
-power	695	700	I-Process
-distribution	701	713	I-Process
-systems	714	721	I-Process
-developed	722	731	O
-in	732	734	O
-MSTU	735	739	B-Material
-«	740	741	I-Material
-STANKIN	741	748	I-Material
-»	748	749	I-Material
-for	750	753	O
-AC	754	756	B-Material
-and	757	760	I-Material
-DC	761	763	I-Material
-grids	764	769	I-Material
-on	770	772	O
-industrial	773	783	O
-plants	784	790	O
-are	791	794	O
-described	795	804	O
-.	804	805	O
-
-Essential	806	815	O
-devices	816	823	B-Task
-composing	824	833	I-Task
-the	834	837	I-Task
-systems	838	845	I-Task
-are	846	849	I-Task
-considered	850	860	I-Task
-,	860	861	O
-their	862	867	O
-technical	868	877	B-Task
-characteristics	878	893	I-Task
-are	894	897	I-Task
-described	898	907	I-Task
-.	907	908	O
-
-Experimental	909	921	O
-results	922	929	O
-are	930	933	O
-presented	934	943	O
-.	943	944	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+we	14,16	O	O
+consider	17,25	O	O
+problems	26,34	O	B-Task
+of	35,37	O	I-Task
+creating	38,46	O	I-Task
+and	47,50	O	I-Task
+introducing	51,62	O	I-Task
+intelligent	63,74	O	I-Task
+management	75,85	O	I-Task
+systems	86,93	O	I-Task
+as	94,96	O	O
+one	97,100	O	O
+of	101,103	O	O
+the	104,107	O	O
+most	108,112	O	O
+important	113,122	O	O
+mechanism	123,132	O	O
+of	133,135	O	O
+increasing	136,146	O	B-Task
+energy	147,153	O	I-Task
+efficiency	154,164	O	I-Task
+in	165,167	O	O
+industry	168,176	O	O
+.	176,177	O	O
+
+Operating	178,187	O	O
+principles	188,198	O	O
+of	199,201	O	O
+intelligent	202,213	O	B-Process
+electric	214,222	O	I-Process
+power	223,228	O	I-Process
+distribution	229,241	O	I-Process
+systems	242,249	O	I-Process
+developed	250,259	O	O
+in	260,262	O	O
+MSTU	263,267	O	B-Material
+«	268,269	O	I-Material
+STANKIN	269,276	O	I-Material
+»	276,277	O	I-Material
+for	278,281	O	O
+AC	282,284	O	B-Material
+and	285,288	O	I-Material
+DC	289,291	O	I-Material
+grids	292,297	O	I-Material
+on	298,300	O	O
+industrial	301,311	O	O
+plants	312,318	O	O
+are	319,322	O	O
+described	323,332	O	O
+.	332,333	O	O
+
+Essential	334,343	O	O
+devices	344,351	O	B-Task
+composing	352,361	O	I-Task
+the	362,365	O	I-Task
+systems	366,373	O	I-Task
+are	374,377	O	I-Task
+considered	378,388	O	I-Task
+,	388,389	O	O
+their	390,395	O	O
+technical	396,405	O	B-Task
+characteristics	406,421	O	I-Task
+are	422,425	O	I-Task
+described	426,435	O	I-Task
+.	435,436	O	O
+
+Experimental	437,449	O	O
+results	450,457	O	O
+are	458,461	O	O
+presented	462,471	O	O
+.	471,472	O	O
+
+In	472,474	O	O
+this	475,479	O	O
+paper	480,485	O	O
+we	486,488	O	O
+consider	489,497	O	O
+problems	498,506	O	O
+of	507,509	O	O
+creating	510,518	O	B-Task
+and	519,522	O	I-Task
+introducing	523,534	O	I-Task
+intelligent	535,546	O	I-Task
+management	547,557	O	I-Task
+systems	558,565	O	I-Task
+as	566,568	O	O
+one	569,572	O	O
+of	573,575	O	O
+the	576,579	O	O
+most	580,584	O	O
+important	585,594	O	O
+mechanism	595,604	O	O
+of	605,607	O	O
+increasing	608,618	O	B-Task
+energy	619,625	O	I-Task
+efficiency	626,636	O	I-Task
+in	637,639	O	O
+industry	640,648	O	O
+.	648,649	O	O
+
+Operating	650,659	O	O
+principles	660,670	O	O
+of	671,673	O	O
+intelligent	674,685	O	B-Process
+electric	686,694	O	I-Process
+power	695,700	O	I-Process
+distribution	701,713	O	I-Process
+systems	714,721	O	I-Process
+developed	722,731	O	O
+in	732,734	O	O
+MSTU	735,739	O	B-Material
+«	740,741	O	I-Material
+STANKIN	741,748	O	I-Material
+»	748,749	O	I-Material
+for	750,753	O	O
+AC	754,756	O	B-Material
+and	757,760	O	I-Material
+DC	761,763	O	I-Material
+grids	764,769	O	I-Material
+on	770,772	O	O
+industrial	773,783	O	O
+plants	784,790	O	O
+are	791,794	O	O
+described	795,804	O	O
+.	804,805	O	O
+
+Essential	806,815	O	O
+devices	816,823	O	B-Task
+composing	824,833	O	I-Task
+the	834,837	O	I-Task
+systems	838,845	O	I-Task
+are	846,849	O	I-Task
+considered	850,860	O	I-Task
+,	860,861	O	O
+their	862,867	O	O
+technical	868,877	O	B-Task
+characteristics	878,893	O	I-Task
+are	894,897	O	I-Task
+described	898,907	O	I-Task
+.	907,908	O	O
+
+Experimental	909,921	O	O
+results	922,929	O	O
+are	930,933	O	O
+presented	934,943	O	O
+.	943,944	O	O
 
 
 -DOCSTART- (S2212667814001166)
 
-Along	0	5	O
-with	6	10	O
-the	11	14	O
-expansion	15	24	B-Task
-of	25	27	I-Task
-computer	28	36	I-Task
--	36	37	I-Task
-based	37	42	I-Task
-climate	43	50	I-Task
-simulations	51	62	I-Task
-,	62	63	O
-efficient	64	73	O
-visualization	74	87	B-Task
-and	88	91	I-Task
-analysis	92	100	I-Task
-of	101	103	I-Task
-massive	104	111	I-Task
-climate	112	119	I-Task
-data	120	124	I-Task
-are	125	128	O
-becoming	129	137	O
-more	138	142	O
-important	143	152	O
-than	153	157	O
-ever	158	162	O
-.	162	163	O
-
-In	164	166	O
-this	167	171	O
-paper	172	177	O
-,	177	178	O
-we	179	181	O
-try	182	185	O
-to	186	188	O
-explore	189	196	B-Task
-the	197	200	I-Task
-factors	201	208	I-Task
-behide	209	215	I-Task
-climate	216	223	I-Task
-changes	224	231	I-Task
-by	232	234	O
-combining	235	244	B-Process
-window	245	251	I-Process
-query	252	257	I-Process
-and	258	261	I-Process
-time	262	266	I-Process
--	266	267	I-Process
-varying	267	274	I-Process
-data	275	279	I-Process
-mining	280	286	I-Process
-techniques	287	297	I-Process
-.	297	298	O
-
-With	299	303	O
-constant	304	312	O
-query	313	318	O
-time	319	323	O
-and	324	327	O
-acceptable	328	338	O
-storage	339	346	O
-cost	347	351	O
-,	351	352	O
-the	353	356	O
-algorithms	357	367	B-Process
-presented	368	377	O
-support	378	385	O
-various	386	393	O
-queries	394	401	B-Process
-on	402	404	O
-3d	405	407	B-Process
-time	408	412	I-Process
--	412	413	I-Process
-varying	413	420	I-Process
-datasets	421	429	I-Process
-,	429	430	O
-such	431	435	O
-as	436	438	O
-average	439	446	O
-,	446	447	O
-min	448	451	O
-,	451	452	O
-and	453	456	O
-max	457	460	O
-value	461	466	O
-.	466	467	O
-
-A	468	469	O
-new	470	473	O
-time	474	478	B-Process
--	478	479	I-Process
-varying	479	486	I-Process
-data	487	491	I-Process
-analysis	492	500	I-Process
-algorithm	501	510	I-Process
-is	511	513	O
-given	514	519	O
-,	519	520	O
-which	521	526	O
-is	527	529	O
-especially	530	540	O
-suitable	541	549	O
-for	550	553	O
-analyzing	554	563	B-Task
-big	564	567	I-Task
-data	568	572	I-Task
-.	572	573	O
-
-All	574	577	O
-these	578	583	O
-algorithms	584	594	B-Process
-have	595	599	O
-been	600	604	O
-implemented	605	616	B-Task
-on	617	619	I-Task
-and	620	623	I-Task
-integrated	624	634	I-Task
-into	635	639	I-Task
-a	640	641	I-Task
-visual	642	648	I-Task
-analysis	649	657	I-Task
-system	658	664	I-Task
-,	664	665	O
-with	666	670	O
-tiled	671	676	B-Material
--	676	677	I-Material
-LCD	677	680	I-Material
-ultra	681	686	I-Material
--	686	687	I-Material
-resolution	687	697	I-Material
-display	698	705	I-Material
-.	705	706	O
-
-Experimental	707	719	O
-results	720	727	O
-on	728	730	O
-several	731	738	B-Material
-datasets	739	747	I-Material
-from	748	752	I-Material
-practical	753	762	I-Material
-applications	763	775	I-Material
-are	776	779	O
-presented	780	789	O
-.	789	790	O
+Along	0,5	O	O
+with	6,10	O	O
+the	11,14	O	O
+expansion	15,24	O	B-Task
+of	25,27	O	I-Task
+computer	28,36	O	I-Task
+-	36,37	O	I-Task
+based	37,42	O	I-Task
+climate	43,50	O	I-Task
+simulations	51,62	O	I-Task
+,	62,63	O	O
+efficient	64,73	O	O
+visualization	74,87	O	B-Task
+and	88,91	O	I-Task
+analysis	92,100	O	I-Task
+of	101,103	O	I-Task
+massive	104,111	O	I-Task
+climate	112,119	O	I-Task
+data	120,124	O	I-Task
+are	125,128	O	O
+becoming	129,137	O	O
+more	138,142	O	O
+important	143,152	O	O
+than	153,157	O	O
+ever	158,162	O	O
+.	162,163	O	O
+
+In	164,166	O	O
+this	167,171	O	O
+paper	172,177	O	O
+,	177,178	O	O
+we	179,181	O	O
+try	182,185	O	O
+to	186,188	O	O
+explore	189,196	O	B-Task
+the	197,200	O	I-Task
+factors	201,208	O	I-Task
+behide	209,215	O	I-Task
+climate	216,223	O	I-Task
+changes	224,231	O	I-Task
+by	232,234	O	O
+combining	235,244	O	B-Process
+window	245,251	O	I-Process
+query	252,257	O	I-Process
+and	258,261	O	I-Process
+time	262,266	O	I-Process
+-	266,267	O	I-Process
+varying	267,274	O	I-Process
+data	275,279	O	I-Process
+mining	280,286	O	I-Process
+techniques	287,297	O	I-Process
+.	297,298	O	O
+
+With	299,303	O	O
+constant	304,312	O	O
+query	313,318	O	O
+time	319,323	O	O
+and	324,327	O	O
+acceptable	328,338	O	O
+storage	339,346	O	O
+cost	347,351	O	O
+,	351,352	O	O
+the	353,356	O	O
+algorithms	357,367	O	B-Process
+presented	368,377	O	O
+support	378,385	O	O
+various	386,393	O	O
+queries	394,401	O	B-Process
+on	402,404	O	O
+3d	405,407	O	B-Process
+time	408,412	O	I-Process
+-	412,413	O	I-Process
+varying	413,420	O	I-Process
+datasets	421,429	O	I-Process
+,	429,430	O	O
+such	431,435	O	O
+as	436,438	O	O
+average	439,446	O	O
+,	446,447	O	O
+min	448,451	O	O
+,	451,452	O	O
+and	453,456	O	O
+max	457,460	O	O
+value	461,466	O	O
+.	466,467	O	O
+
+A	468,469	O	O
+new	470,473	O	O
+time	474,478	O	B-Process
+-	478,479	O	I-Process
+varying	479,486	O	I-Process
+data	487,491	O	I-Process
+analysis	492,500	O	I-Process
+algorithm	501,510	O	I-Process
+is	511,513	O	O
+given	514,519	O	O
+,	519,520	O	O
+which	521,526	O	O
+is	527,529	O	O
+especially	530,540	O	O
+suitable	541,549	O	O
+for	550,553	O	O
+analyzing	554,563	O	B-Task
+big	564,567	O	I-Task
+data	568,572	O	I-Task
+.	572,573	O	O
+
+All	574,577	O	O
+these	578,583	O	O
+algorithms	584,594	O	B-Process
+have	595,599	O	O
+been	600,604	O	O
+implemented	605,616	O	B-Task
+on	617,619	O	I-Task
+and	620,623	O	I-Task
+integrated	624,634	O	I-Task
+into	635,639	O	I-Task
+a	640,641	O	I-Task
+visual	642,648	O	I-Task
+analysis	649,657	O	I-Task
+system	658,664	O	I-Task
+,	664,665	O	O
+with	666,670	O	O
+tiled	671,676	O	B-Material
+-	676,677	O	I-Material
+LCD	677,680	O	I-Material
+ultra	681,686	O	I-Material
+-	686,687	O	I-Material
+resolution	687,697	O	I-Material
+display	698,705	O	I-Material
+.	705,706	O	O
+
+Experimental	707,719	O	O
+results	720,727	O	O
+on	728,730	O	O
+several	731,738	O	B-Material
+datasets	739,747	O	I-Material
+from	748,752	O	I-Material
+practical	753,762	O	I-Material
+applications	763,775	O	I-Material
+are	776,779	O	O
+presented	780,789	O	O
+.	789,790	O	O
 
 
 -DOCSTART- (S2212667814001208)
 
-Improving	0	9	B-Task
-as	10	12	I-Task
-well	13	17	I-Task
-as	18	20	I-Task
-evaluating	21	31	I-Task
-the	32	35	I-Task
-performance	36	47	I-Task
-of	48	50	O
-High	51	55	B-Task
-Performance	56	67	I-Task
-Computing	68	77	I-Task
-(	78	79	O
-HPC	79	82	B-Task
-)	82	83	O
-applications	84	96	O
-by	97	99	O
-migrating	100	109	B-Process
-them	110	114	I-Process
-to	115	117	I-Process
-Cloud	118	123	I-Process
-environments	124	136	I-Process
-are	137	140	O
-widely	141	147	O
-considered	148	158	O
-as	159	161	O
-critical	162	170	O
-issues	171	177	O
-in	178	180	O
-the	181	184	O
-field	185	190	O
-of	191	193	O
-high	194	198	B-Task
-performance	199	210	I-Task
-and	211	214	I-Task
-Cloud	215	220	I-Task
-computing	221	230	I-Task
-.	230	231	O
-
-However	232	239	O
-,	239	240	O
-poor	241	245	B-Process
-network	246	253	I-Process
-performance	254	265	I-Process
-,	265	266	O
-heterogeneous	267	280	B-Process
-and	281	284	I-Process
-dynamic	285	292	I-Process
-environments	293	305	I-Process
-are	306	309	O
-some	310	314	O
-series	315	321	O
-of	322	324	O
-pitfalls	325	333	O
-for	334	337	O
-execution	338	347	B-Process
-of	348	350	I-Process
-HPC	351	354	I-Process
-applications	355	367	I-Process
-in	368	370	I-Process
-Cloud	371	376	I-Process
-.	376	377	O
-
-This	378	382	O
-paper	383	388	O
-proposes	389	397	B-Task
-a	398	399	I-Task
-new	400	403	I-Task
-approach	404	412	I-Task
-to	413	415	I-Task
-improve	416	423	I-Task
-the	424	427	I-Task
-performance	428	439	I-Task
-and	440	443	I-Task
-scalability	444	455	I-Task
-of	456	458	I-Task
-HPC	459	462	I-Task
-applications	463	475	I-Task
-on	476	478	O
-Amazon	479	485	B-Material
-'s	485	487	I-Material
-HPC	488	491	I-Material
-Cloud	492	497	I-Material
-.	497	498	O
-
-The	499	502	O
-evidence	503	511	O
-from	512	516	O
-our	517	520	O
-approach	521	529	O
-points	530	536	O
-a	537	538	O
-significant	539	550	O
-improvement	551	562	O
-in	563	565	O
-speed	566	571	B-Process
-up	572	574	I-Process
-and	575	578	O
-scale	579	584	B-Process
-up	585	587	I-Process
-with	588	592	O
-the	593	596	O
-response	597	605	B-Process
-rate	606	610	I-Process
-of	611	613	O
-more	614	618	O
-than	619	623	O
-20	624	626	O
-percent	627	634	O
-parallel	635	643	B-Process
-efficiency	644	653	I-Process
-on	654	656	O
-the	657	660	O
-Cloud	661	666	B-Material
-in	667	669	O
-comparison	670	680	O
-to	681	683	O
-dedicated	684	693	O
-HPC	694	697	B-Material
-cluster	698	705	I-Material
-.	705	706	O
-
-We	707	709	O
-state	710	715	O
-that	716	720	O
-the	721	724	O
-EC2	725	728	B-Material
-Cloud	729	734	I-Material
-system	735	741	I-Material
-is	742	744	O
-a	745	746	O
-feasible	747	755	O
-platform	756	764	O
-for	765	768	O
-deploying	769	778	B-Process
-on	779	781	I-Process
--	781	782	I-Process
-demand	782	788	I-Process
-,	788	789	I-Process
-small	790	795	I-Process
-sized	796	801	I-Process
-HPC	802	805	I-Process
-applications	806	818	I-Process
-.	818	819	O
+Improving	0,9	O	B-Task
+as	10,12	O	I-Task
+well	13,17	O	I-Task
+as	18,20	O	I-Task
+evaluating	21,31	O	I-Task
+the	32,35	O	I-Task
+performance	36,47	O	I-Task
+of	48,50	O	O
+High	51,55	O	B-Task
+Performance	56,67	O	I-Task
+Computing	68,77	O	I-Task
+(	78,79	O	O
+HPC	79,82	O	B-Task
+)	82,83	O	O
+applications	84,96	O	O
+by	97,99	O	O
+migrating	100,109	O	B-Process
+them	110,114	O	I-Process
+to	115,117	O	I-Process
+Cloud	118,123	O	I-Process
+environments	124,136	O	I-Process
+are	137,140	O	O
+widely	141,147	O	O
+considered	148,158	O	O
+as	159,161	O	O
+critical	162,170	O	O
+issues	171,177	O	O
+in	178,180	O	O
+the	181,184	O	O
+field	185,190	O	O
+of	191,193	O	O
+high	194,198	O	B-Task
+performance	199,210	O	I-Task
+and	211,214	O	I-Task
+Cloud	215,220	O	I-Task
+computing	221,230	O	I-Task
+.	230,231	O	O
+
+However	232,239	O	O
+,	239,240	O	O
+poor	241,245	O	B-Process
+network	246,253	O	I-Process
+performance	254,265	O	I-Process
+,	265,266	O	O
+heterogeneous	267,280	O	B-Process
+and	281,284	O	I-Process
+dynamic	285,292	O	I-Process
+environments	293,305	O	I-Process
+are	306,309	O	O
+some	310,314	O	O
+series	315,321	O	O
+of	322,324	O	O
+pitfalls	325,333	O	O
+for	334,337	O	O
+execution	338,347	O	B-Process
+of	348,350	O	I-Process
+HPC	351,354	O	I-Process
+applications	355,367	O	I-Process
+in	368,370	O	I-Process
+Cloud	371,376	O	I-Process
+.	376,377	O	O
+
+This	378,382	O	O
+paper	383,388	O	O
+proposes	389,397	O	B-Task
+a	398,399	O	I-Task
+new	400,403	O	I-Task
+approach	404,412	O	I-Task
+to	413,415	O	I-Task
+improve	416,423	O	I-Task
+the	424,427	O	I-Task
+performance	428,439	O	I-Task
+and	440,443	O	I-Task
+scalability	444,455	O	I-Task
+of	456,458	O	I-Task
+HPC	459,462	O	I-Task
+applications	463,475	O	I-Task
+on	476,478	O	O
+Amazon	479,485	O	B-Material
+'s	485,487	O	I-Material
+HPC	488,491	O	I-Material
+Cloud	492,497	O	I-Material
+.	497,498	O	O
+
+The	499,502	O	O
+evidence	503,511	O	O
+from	512,516	O	O
+our	517,520	O	O
+approach	521,529	O	O
+points	530,536	O	O
+a	537,538	O	O
+significant	539,550	O	O
+improvement	551,562	O	O
+in	563,565	O	O
+speed	566,571	O	B-Process
+up	572,574	O	I-Process
+and	575,578	O	O
+scale	579,584	O	B-Process
+up	585,587	O	I-Process
+with	588,592	O	O
+the	593,596	O	O
+response	597,605	O	B-Process
+rate	606,610	O	I-Process
+of	611,613	O	O
+more	614,618	O	O
+than	619,623	O	O
+20	624,626	O	O
+percent	627,634	O	O
+parallel	635,643	O	B-Process
+efficiency	644,653	O	I-Process
+on	654,656	O	O
+the	657,660	O	O
+Cloud	661,666	O	B-Material
+in	667,669	O	O
+comparison	670,680	O	O
+to	681,683	O	O
+dedicated	684,693	O	O
+HPC	694,697	O	B-Material
+cluster	698,705	O	I-Material
+.	705,706	O	O
+
+We	707,709	O	O
+state	710,715	O	O
+that	716,720	O	O
+the	721,724	O	O
+EC2	725,728	O	B-Material
+Cloud	729,734	O	I-Material
+system	735,741	O	I-Material
+is	742,744	O	O
+a	745,746	O	O
+feasible	747,755	O	O
+platform	756,764	O	O
+for	765,768	O	O
+deploying	769,778	O	B-Process
+on	779,781	O	I-Process
+-	781,782	O	I-Process
+demand	782,788	O	I-Process
+,	788,789	O	I-Process
+small	790,795	O	I-Process
+sized	796,801	O	I-Process
+HPC	802,805	O	I-Process
+applications	806,818	O	I-Process
+.	818,819	O	O
 
 
 -DOCSTART- (S221266781400121X)
 
-In	0	2	O
-the	3	6	O
-paper	7	12	O
-we	13	15	O
-present	16	23	O
-an	24	26	O
-extended	27	35	B-Task
-version	36	43	I-Task
-of	44	46	I-Task
-the	47	50	I-Task
-graph	51	56	I-Task
--	56	57	I-Task
-based	57	62	I-Task
-unsupervised	63	75	I-Task
-Word	76	80	I-Task
-Sense	81	86	I-Task
-Disambiguation	87	101	I-Task
-algorithm	102	111	I-Task
-.	111	112	O
-
-The	113	116	O
-algorithm	117	126	B-Process
-is	127	129	O
-based	130	135	O
-on	136	138	O
-the	139	142	O
-spreading	143	152	B-Process
-activation	153	163	I-Process
-scheme	164	170	I-Process
-applied	171	178	O
-to	179	181	O
-the	182	185	O
-graphs	186	192	O
-dynamically	193	204	O
-built	205	210	B-Process
-on	211	213	I-Process
-the	214	217	I-Process
-basis	218	223	I-Process
-of	224	226	I-Process
-the	227	230	I-Process
-text	231	235	I-Process
-words	236	241	I-Process
-and	242	245	I-Process
-a	246	247	I-Process
-large	248	253	I-Process
-wordnet	254	261	I-Process
-.	261	262	O
-
-The	263	266	O
-algorithm	267	276	B-Process
-,	276	277	O
-originally	278	288	O
-proposed	289	297	O
-for	298	301	O
-English	302	309	B-Material
-and	310	313	I-Material
-Princeton	314	323	I-Material
-WordNet	324	331	I-Material
-,	331	332	O
-was	333	336	O
-adapted	337	344	O
-to	345	347	O
-Polish	348	354	B-Material
-and	355	358	I-Material
-plWordNet	359	368	I-Material
-.	368	369	O
-
-An	370	372	O
-extension	373	382	B-Process
-based	383	388	O
-on	389	391	O
-the	392	395	O
-knowledge	396	405	O
-acquired	406	414	O
-from	415	419	O
-the	420	423	O
-corpus	424	430	B-Process
--	430	431	I-Process
-derived	431	438	I-Process
-Measure	439	446	I-Process
-of	447	449	I-Process
-Semantic	450	458	I-Process
-Relatedness	459	470	I-Process
-was	471	474	O
-proposed	475	483	O
-.	483	484	O
-
-The	485	488	O
-extended	489	497	B-Process
-algorithm	498	507	I-Process
-was	508	511	O
-evaluated	512	521	O
-against	522	529	O
-the	530	533	O
-manually	534	542	B-Material
-disambiguated	543	556	I-Material
-corpus	557	563	I-Material
-.	563	564	O
-
-We	565	567	O
-observed	568	576	O
-improvement	577	588	O
-in	589	591	O
-the	592	595	O
-case	596	600	O
-of	601	603	O
-the	604	607	O
-disambiguation	608	622	B-Process
-performed	623	632	O
-for	633	636	O
-shorter	637	644	O
-text	645	649	O
-contexts	650	658	O
-.	658	659	O
-
-In	660	662	O
-addition	663	671	O
-the	672	675	O
-algorithm	676	685	O
-application	686	697	O
-expressed	698	707	O
-improvement	708	719	O
-in	720	722	O
-document	723	731	B-Task
-clustering	732	742	I-Task
-task	743	747	I-Task
-.	747	748	O
+In	0,2	O	O
+the	3,6	O	O
+paper	7,12	O	O
+we	13,15	O	O
+present	16,23	O	O
+an	24,26	O	O
+extended	27,35	O	B-Task
+version	36,43	O	I-Task
+of	44,46	O	I-Task
+the	47,50	O	I-Task
+graph	51,56	O	I-Task
+-	56,57	O	I-Task
+based	57,62	O	I-Task
+unsupervised	63,75	O	I-Task
+Word	76,80	O	I-Task
+Sense	81,86	O	I-Task
+Disambiguation	87,101	O	I-Task
+algorithm	102,111	O	I-Task
+.	111,112	O	O
+
+The	113,116	O	O
+algorithm	117,126	O	B-Process
+is	127,129	O	O
+based	130,135	O	O
+on	136,138	O	O
+the	139,142	O	O
+spreading	143,152	O	B-Process
+activation	153,163	O	I-Process
+scheme	164,170	O	I-Process
+applied	171,178	O	O
+to	179,181	O	O
+the	182,185	O	O
+graphs	186,192	O	O
+dynamically	193,204	O	O
+built	205,210	O	B-Process
+on	211,213	O	I-Process
+the	214,217	O	I-Process
+basis	218,223	O	I-Process
+of	224,226	O	I-Process
+the	227,230	O	I-Process
+text	231,235	O	I-Process
+words	236,241	O	I-Process
+and	242,245	O	I-Process
+a	246,247	O	I-Process
+large	248,253	O	I-Process
+wordnet	254,261	O	I-Process
+.	261,262	O	O
+
+The	263,266	O	O
+algorithm	267,276	O	B-Process
+,	276,277	O	O
+originally	278,288	O	O
+proposed	289,297	O	O
+for	298,301	O	O
+English	302,309	O	B-Material
+and	310,313	O	I-Material
+Princeton	314,323	O	I-Material
+WordNet	324,331	O	I-Material
+,	331,332	O	O
+was	333,336	O	O
+adapted	337,344	O	O
+to	345,347	O	O
+Polish	348,354	O	B-Material
+and	355,358	O	I-Material
+plWordNet	359,368	O	I-Material
+.	368,369	O	O
+
+An	370,372	O	O
+extension	373,382	O	B-Process
+based	383,388	O	O
+on	389,391	O	O
+the	392,395	O	O
+knowledge	396,405	O	O
+acquired	406,414	O	O
+from	415,419	O	O
+the	420,423	O	O
+corpus	424,430	O	B-Process
+-	430,431	O	I-Process
+derived	431,438	O	I-Process
+Measure	439,446	O	I-Process
+of	447,449	O	I-Process
+Semantic	450,458	O	I-Process
+Relatedness	459,470	O	I-Process
+was	471,474	O	O
+proposed	475,483	O	O
+.	483,484	O	O
+
+The	485,488	O	O
+extended	489,497	O	B-Process
+algorithm	498,507	O	I-Process
+was	508,511	O	O
+evaluated	512,521	O	O
+against	522,529	O	O
+the	530,533	O	O
+manually	534,542	O	B-Material
+disambiguated	543,556	O	I-Material
+corpus	557,563	O	I-Material
+.	563,564	O	O
+
+We	565,567	O	O
+observed	568,576	O	O
+improvement	577,588	O	O
+in	589,591	O	O
+the	592,595	O	O
+case	596,600	O	O
+of	601,603	O	O
+the	604,607	O	O
+disambiguation	608,622	O	B-Process
+performed	623,632	O	O
+for	633,636	O	O
+shorter	637,644	O	O
+text	645,649	O	O
+contexts	650,658	O	O
+.	658,659	O	O
+
+In	660,662	O	O
+addition	663,671	O	O
+the	672,675	O	O
+algorithm	676,685	O	O
+application	686,697	O	O
+expressed	698,707	O	O
+improvement	708,719	O	O
+in	720,722	O	O
+document	723,731	O	B-Task
+clustering	732,742	O	I-Task
+task	743,747	O	I-Task
+.	747,748	O	O
 
 
 -DOCSTART- (S2212667814001245)
 
-Sentence	0	8	B-Task
-reduction	9	18	I-Task
-is	19	21	O
-one	22	25	O
-of	26	28	O
-approaches	29	39	O
-for	40	43	O
-text	44	48	B-Task
-summarization	49	62	I-Task
-that	63	67	O
-has	68	71	O
-been	72	76	O
-attracted	77	86	O
-many	87	91	O
-researchers	92	103	O
-and	104	107	O
-scholars	108	116	O
-of	117	119	O
-natural	120	127	B-Task
-language	128	136	I-Task
-processing	137	147	I-Task
-field	148	153	O
-.	153	154	O
-
-In	155	157	O
-this	158	162	O
-paper	163	168	O
-,	168	169	O
-we	170	172	O
-present	173	180	O
-a	181	182	O
-method	183	189	O
-that	190	194	O
-generates	195	204	B-Task
-sentence	205	213	I-Task
-reduction	214	223	I-Task
-and	224	227	O
-applying	228	236	O
-in	237	239	O
-Vietnamese	240	250	B-Process
-text	251	255	I-Process
-summarization	256	269	I-Process
-using	270	275	O
-Bayesian	276	284	B-Process
-Network	285	292	I-Process
-model	293	298	I-Process
-.	298	299	O
-
-Bayesian	300	308	B-Process
-network	309	316	I-Process
-model	317	322	I-Process
-is	323	325	O
-used	326	330	O
-to	331	333	O
-find	334	338	O
-the	339	342	O
-best	343	347	B-Task
-likelihood	348	358	I-Task
-short	359	364	I-Task
-sentence	365	373	I-Task
-through	374	381	O
-compare	382	389	B-Process
-difference	390	400	I-Process
-of	401	403	I-Process
-probability	404	415	I-Process
-.	415	416	O
-
-Experimental	417	429	O
-results	430	437	O
-with	438	442	O
-980	443	446	B-Material
-sentences	447	456	I-Material
-,	456	457	O
-show	458	462	O
-
-that	463	467	O
-our	468	471	O
-method	472	478	O
-really	479	485	O
-effectively	486	497	O
-in	498	500	O
-generating	501	511	B-Process
-sentence	512	520	I-Process
-reduction	521	530	I-Process
-that	531	535	O
-understandable	536	550	O
-,	550	551	O
-readable	552	560	O
-and	561	564	O
-exactly	565	572	O
-grammar	573	580	O
-.	580	581	O
+Sentence	0,8	O	B-Task
+reduction	9,18	O	I-Task
+is	19,21	O	O
+one	22,25	O	O
+of	26,28	O	O
+approaches	29,39	O	O
+for	40,43	O	O
+text	44,48	O	B-Task
+summarization	49,62	O	I-Task
+that	63,67	O	O
+has	68,71	O	O
+been	72,76	O	O
+attracted	77,86	O	O
+many	87,91	O	O
+researchers	92,103	O	O
+and	104,107	O	O
+scholars	108,116	O	O
+of	117,119	O	O
+natural	120,127	O	B-Task
+language	128,136	O	I-Task
+processing	137,147	O	I-Task
+field	148,153	O	O
+.	153,154	O	O
+
+In	155,157	O	O
+this	158,162	O	O
+paper	163,168	O	O
+,	168,169	O	O
+we	170,172	O	O
+present	173,180	O	O
+a	181,182	O	O
+method	183,189	O	O
+that	190,194	O	O
+generates	195,204	O	B-Task
+sentence	205,213	O	I-Task
+reduction	214,223	O	I-Task
+and	224,227	O	O
+applying	228,236	O	O
+in	237,239	O	O
+Vietnamese	240,250	O	B-Process
+text	251,255	O	I-Process
+summarization	256,269	O	I-Process
+using	270,275	O	O
+Bayesian	276,284	O	B-Process
+Network	285,292	O	I-Process
+model	293,298	O	I-Process
+.	298,299	O	O
+
+Bayesian	300,308	O	B-Process
+network	309,316	O	I-Process
+model	317,322	O	I-Process
+is	323,325	O	O
+used	326,330	O	O
+to	331,333	O	O
+find	334,338	O	O
+the	339,342	O	O
+best	343,347	O	B-Task
+likelihood	348,358	O	I-Task
+short	359,364	O	I-Task
+sentence	365,373	O	I-Task
+through	374,381	O	O
+compare	382,389	O	B-Process
+difference	390,400	O	I-Process
+of	401,403	O	I-Process
+probability	404,415	O	I-Process
+.	415,416	O	O
+
+Experimental	417,429	O	O
+results	430,437	O	O
+with	438,442	O	O
+980	443,446	O	B-Material
+sentences	447,456	O	I-Material
+,	456,457	O	O
+show	458,462	O	O
+
+that	463,467	O	O
+our	468,471	O	O
+method	472,478	O	O
+really	479,485	O	O
+effectively	486,497	O	O
+in	498,500	O	O
+generating	501,511	O	B-Process
+sentence	512,520	O	I-Process
+reduction	521,530	O	I-Process
+that	531,535	O	O
+understandable	536,550	O	O
+,	550,551	O	O
+readable	552,560	O	O
+and	561,564	O	O
+exactly	565,572	O	O
+grammar	573,580	O	O
+.	580,581	O	O
 
 
 -DOCSTART- (S2212667814001294)
 
-Knowledge	0	9	B-Task
-Management	10	20	I-Task
-(	21	22	O
-KM	22	24	B-Task
-)	24	25	O
-is	26	28	O
-one	29	32	O
-of	33	35	O
-the	36	39	O
-hotspots	40	48	O
-for	49	52	O
-research	53	61	O
-in	62	64	O
-the	65	68	O
-past	69	73	O
-decade	74	80	O
-.	80	81	O
-
-In	82	84	O
-most	85	89	O
-cases	90	95	O
-,	95	96	O
-the	97	100	O
-number	101	107	O
-of	108	110	O
-users	111	116	O
-in	117	119	O
-a	120	121	O
-Knowledge	122	131	B-Process
-Management	132	142	I-Process
-System	143	149	I-Process
-(	150	151	O
-KMS	151	154	B-Process
-)	154	155	O
-is	156	158	O
-very	159	163	O
-large	164	169	O
-,	169	170	O
-and	171	174	O
-they	175	179	O
-are	180	183	O
-from	184	188	O
-varied	189	195	O
-departments	196	207	O
-,	207	208	O
-even	209	213	O
-other	214	219	O
-companies	220	229	O
-.	229	230	O
-
-In	231	233	O
-this	234	238	O
-paper	239	244	O
-,	244	245	O
-some	246	250	O
-defects	251	258	B-Task
-when	259	263	I-Task
-existing	264	272	I-Task
-methods	273	280	I-Task
-about	281	286	I-Task
-access	287	293	I-Task
-control	294	301	I-Task
-and	302	305	I-Task
-recommendation	306	320	I-Task
-are	321	324	I-Task
-deployed	325	333	I-Task
-in	334	336	I-Task
-KMS	337	340	I-Task
-are	341	344	I-Task
-analyzed	345	353	I-Task
-to	354	356	O
-show	357	361	O
-that	362	366	O
-these	367	372	O
-widely	373	379	O
--	379	380	O
-used	380	384	O
-approaches	385	395	O
-need	396	400	O
-to	401	403	O
-be	404	406	O
-extended	407	415	B-Process
-.	415	416	O
-
-To	417	419	O
-overcome	420	428	O
-the	429	432	O
-deficiencies	433	445	O
-of	446	448	O
-previous	449	457	O
-work	458	462	O
-,	462	463	O
-this	464	468	O
-paper	469	474	O
-proposes	475	483	O
-an	484	486	O
-extended	487	495	O
-Role	496	500	B-Process
--	500	501	I-Process
-Based	501	506	I-Process
-Access	507	513	I-Process
-Control	514	521	I-Process
-(	522	523	O
-RBAC	523	527	B-Process
-)	527	528	O
-method	529	535	O
-and	536	539	O
-a	540	541	O
-hybrid	542	548	B-Process
-recommendation	549	563	I-Process
-approach	564	572	I-Process
-for	573	576	O
-Knowledge	577	586	B-Process
-Management	587	597	I-Process
-System	598	604	I-Process
-.	604	605	O
-
-Also	606	610	O
-,	610	611	O
-a	612	613	O
-real	614	618	B-Process
--	618	619	I-Process
-life	619	623	I-Process
-system	624	630	I-Process
-is	631	633	O
-presented	634	643	O
-to	644	646	O
-verify	647	653	B-Task
-the	654	657	I-Task
-proposed	658	666	I-Task
-methodology	667	678	I-Task
-.	678	679	O
+Knowledge	0,9	O	B-Task
+Management	10,20	O	I-Task
+(	21,22	O	O
+KM	22,24	O	B-Task
+)	24,25	O	O
+is	26,28	O	O
+one	29,32	O	O
+of	33,35	O	O
+the	36,39	O	O
+hotspots	40,48	O	O
+for	49,52	O	O
+research	53,61	O	O
+in	62,64	O	O
+the	65,68	O	O
+past	69,73	O	O
+decade	74,80	O	O
+.	80,81	O	O
+
+In	82,84	O	O
+most	85,89	O	O
+cases	90,95	O	O
+,	95,96	O	O
+the	97,100	O	O
+number	101,107	O	O
+of	108,110	O	O
+users	111,116	O	O
+in	117,119	O	O
+a	120,121	O	O
+Knowledge	122,131	O	B-Process
+Management	132,142	O	I-Process
+System	143,149	O	I-Process
+(	150,151	O	O
+KMS	151,154	O	B-Process
+)	154,155	O	O
+is	156,158	O	O
+very	159,163	O	O
+large	164,169	O	O
+,	169,170	O	O
+and	171,174	O	O
+they	175,179	O	O
+are	180,183	O	O
+from	184,188	O	O
+varied	189,195	O	O
+departments	196,207	O	O
+,	207,208	O	O
+even	209,213	O	O
+other	214,219	O	O
+companies	220,229	O	O
+.	229,230	O	O
+
+In	231,233	O	O
+this	234,238	O	O
+paper	239,244	O	O
+,	244,245	O	O
+some	246,250	O	O
+defects	251,258	O	B-Task
+when	259,263	O	I-Task
+existing	264,272	O	I-Task
+methods	273,280	O	I-Task
+about	281,286	O	I-Task
+access	287,293	O	I-Task
+control	294,301	O	I-Task
+and	302,305	O	I-Task
+recommendation	306,320	O	I-Task
+are	321,324	O	I-Task
+deployed	325,333	O	I-Task
+in	334,336	O	I-Task
+KMS	337,340	O	I-Task
+are	341,344	O	I-Task
+analyzed	345,353	O	I-Task
+to	354,356	O	O
+show	357,361	O	O
+that	362,366	O	O
+these	367,372	O	O
+widely	373,379	O	O
+-	379,380	O	O
+used	380,384	O	O
+approaches	385,395	O	O
+need	396,400	O	O
+to	401,403	O	O
+be	404,406	O	O
+extended	407,415	O	B-Process
+.	415,416	O	O
+
+To	417,419	O	O
+overcome	420,428	O	O
+the	429,432	O	O
+deficiencies	433,445	O	O
+of	446,448	O	O
+previous	449,457	O	O
+work	458,462	O	O
+,	462,463	O	O
+this	464,468	O	O
+paper	469,474	O	O
+proposes	475,483	O	O
+an	484,486	O	O
+extended	487,495	O	O
+Role	496,500	O	B-Process
+-	500,501	O	I-Process
+Based	501,506	O	I-Process
+Access	507,513	O	I-Process
+Control	514,521	O	I-Process
+(	522,523	O	O
+RBAC	523,527	O	B-Process
+)	527,528	O	O
+method	529,535	O	O
+and	536,539	O	O
+a	540,541	O	O
+hybrid	542,548	O	B-Process
+recommendation	549,563	O	I-Process
+approach	564,572	O	I-Process
+for	573,576	O	O
+Knowledge	577,586	O	B-Process
+Management	587,597	O	I-Process
+System	598,604	O	I-Process
+.	604,605	O	O
+
+Also	606,610	O	O
+,	610,611	O	O
+a	612,613	O	O
+real	614,618	O	B-Process
+-	618,619	O	I-Process
+life	619,623	O	I-Process
+system	624,630	O	I-Process
+is	631,633	O	O
+presented	634,643	O	O
+to	644,646	O	O
+verify	647,653	O	B-Task
+the	654,657	O	I-Task
+proposed	658,666	O	I-Task
+methodology	667,678	O	I-Task
+.	678,679	O	O
 
 
 -DOCSTART- (S2212667814001348)
 
-Some	0	4	O
-nonlinear	5	14	B-Process
-wave	15	19	I-Process
-equations	20	29	I-Process
-are	30	33	O
-more	34	38	O
-difficult	39	48	O
-to	49	51	O
-investigate	52	63	B-Task
-mathematically	64	78	I-Task
-,	78	79	O
-as	80	82	O
-no	83	85	O
-general	86	93	O
-analytical	94	104	B-Process
-method	105	111	I-Process
-for	112	115	O
-their	116	121	O
-solutions	122	131	O
-exists	132	138	O
-.	138	139	O
-
-The	140	143	O
-Exponential	144	155	B-Process
-Time	156	160	I-Process
-Differencing	161	173	I-Process
-(	174	175	O
-ETD	175	178	B-Process
-)	178	179	O
-technique	180	189	O
-requires	190	198	O
-minimum	199	206	B-Material
-stages	207	213	I-Material
-to	214	216	O
-obtain	217	223	O
-the	224	227	O
-requiredaccurateness	228	248	O
-,	248	249	O
-which	250	255	O
-suggests	256	264	O
-an	265	267	O
-efficient	268	277	O
-technique	278	287	O
-relatingto	288	298	O
-computational	299	312	B-Process
-duration	313	321	I-Process
-thatensures	322	333	O
-remarkable	334	344	O
-stability	345	354	B-Process
-characteristicsupon	355	374	I-Process
-resolving	375	384	B-Task
-nonlinear	385	394	I-Task
-wave	395	399	I-Task
-equations	400	409	I-Task
-.	409	410	O
-
-This	411	415	O
-article	416	423	O
-solves	424	430	B-Task
-the	431	434	I-Task
-diagonal	435	443	I-Task
-example	444	451	I-Task
-of	452	454	I-Task
-Kawahara	455	463	I-Task
-equation	464	472	I-Task
-via	473	476	O
-the	477	480	O
-ETD	481	484	B-Process
-Runge	485	490	I-Process
--	490	491	I-Process
-Kutta	491	496	I-Process
-4	497	498	I-Process
-technique	499	508	I-Process
-.	508	509	O
-
-Implementation	510	524	O
-of	525	527	O
-this	528	532	O
-technique	533	542	O
-is	543	545	O
-proposed	546	554	O
-by	555	557	O
-short	558	563	O
-Matlab	564	570	B-Material
-programs	571	579	I-Material
-.	579	580	O
+Some	0,4	O	O
+nonlinear	5,14	O	B-Process
+wave	15,19	O	I-Process
+equations	20,29	O	I-Process
+are	30,33	O	O
+more	34,38	O	O
+difficult	39,48	O	O
+to	49,51	O	O
+investigate	52,63	O	B-Task
+mathematically	64,78	O	I-Task
+,	78,79	O	O
+as	80,82	O	O
+no	83,85	O	O
+general	86,93	O	O
+analytical	94,104	O	B-Process
+method	105,111	O	I-Process
+for	112,115	O	O
+their	116,121	O	O
+solutions	122,131	O	O
+exists	132,138	O	O
+.	138,139	O	O
+
+The	140,143	O	O
+Exponential	144,155	O	B-Process
+Time	156,160	O	I-Process
+Differencing	161,173	O	I-Process
+(	174,175	O	O
+ETD	175,178	O	B-Process
+)	178,179	O	O
+technique	180,189	O	O
+requires	190,198	O	O
+minimum	199,206	O	B-Material
+stages	207,213	O	I-Material
+to	214,216	O	O
+obtain	217,223	O	O
+the	224,227	O	O
+requiredaccurateness	228,248	O	O
+,	248,249	O	O
+which	250,255	O	O
+suggests	256,264	O	O
+an	265,267	O	O
+efficient	268,277	O	O
+technique	278,287	O	O
+relatingto	288,298	O	O
+computational	299,312	O	B-Process
+duration	313,321	O	I-Process
+thatensures	322,333	O	O
+remarkable	334,344	O	O
+stability	345,354	O	B-Process
+characteristicsupon	355,374	O	I-Process
+resolving	375,384	O	B-Task
+nonlinear	385,394	O	I-Task
+wave	395,399	O	I-Task
+equations	400,409	O	I-Task
+.	409,410	O	O
+
+This	411,415	O	O
+article	416,423	O	O
+solves	424,430	O	B-Task
+the	431,434	O	I-Task
+diagonal	435,443	O	I-Task
+example	444,451	O	I-Task
+of	452,454	O	I-Task
+Kawahara	455,463	O	I-Task
+equation	464,472	O	I-Task
+via	473,476	O	O
+the	477,480	O	O
+ETD	481,484	O	B-Process
+Runge	485,490	O	I-Process
+-	490,491	O	I-Process
+Kutta	491,496	O	I-Process
+4	497,498	O	I-Process
+technique	499,508	O	I-Process
+.	508,509	O	O
+
+Implementation	510,524	O	O
+of	525,527	O	O
+this	528,532	O	O
+technique	533,542	O	O
+is	543,545	O	O
+proposed	546,554	O	O
+by	555,557	O	O
+short	558,563	O	O
+Matlab	564,570	O	B-Material
+programs	571,579	O	I-Material
+.	579,580	O	O
 
 
 -DOCSTART- (S2212667814001361)
 
-Contractor	0	10	B-Task
-selection	11	20	I-Task
-for	21	24	O
-a	25	26	O
-project	27	34	O
-is	35	37	O
-an	38	40	O
-important	41	50	O
-decision	51	59	O
-,	59	60	O
-one	61	64	O
-for	65	68	O
-the	69	72	O
-project	73	80	B-Material
-time	81	85	I-Material
-and	86	89	I-Material
-cost	90	94	I-Material
-,	94	95	O
-next	96	100	O
-for	101	104	O
-the	105	108	O
-quality	109	116	B-Material
-obtained	117	125	O
-by	126	128	O
-the	129	132	O
-project	133	140	O
-.	140	141	O
-
-Although	142	150	O
-the	151	154	O
-project	155	162	B-Material
-managers	163	171	I-Material
-can	172	175	O
-easily	176	182	O
-determine	183	192	B-Task
-the	193	196	I-Task
-project	197	204	I-Task
-time	205	209	I-Task
-and	210	213	I-Task
-cost	214	218	I-Task
-,	218	219	O
-the	220	223	O
-quality	224	231	O
-is	232	234	O
-usually	235	242	O
-undefined	243	252	O
-especially	253	263	O
-for	264	267	O
-un	268	270	B-Material
--	270	271	I-Material
-experienced	271	282	I-Material
-managers	283	291	I-Material
-.	291	292	O
-
-With	293	297	O
-a	298	299	O
-learnable	300	309	B-Process
-property	310	318	I-Process
-,	318	319	O
-an	320	322	O
-approach	323	331	O
-is	332	334	O
-first	335	340	O
-introduced	341	351	O
-in	352	354	O
-this	355	359	O
-paper	360	365	O
-to	366	368	O
-quantify	369	377	B-Task
-the	378	381	I-Task
-quality	382	389	I-Task
-obtained	390	398	I-Task
-for	399	402	I-Task
-a	403	404	I-Task
-gas	405	408	I-Task
-well	409	413	I-Task
-drilling	414	422	I-Task
-project	423	430	I-Task
-.	430	431	O
-
-Then	432	436	O
-,	436	437	O
-based	438	443	O
-on	444	446	O
-these	447	452	O
-three	453	458	O
-objectives	459	469	B-Material
-(	470	471	B-Material
-time	471	475	I-Material
-,	475	476	O
-cost	477	481	B-Material
-,	481	482	O
-and	483	486	O
-quality	487	494	B-Material
-)	494	495	O
-,	495	496	O
-a	497	498	O
-contractor	499	509	B-Task
-selection	510	519	I-Task
-problem	520	527	I-Task
-is	528	530	O
-converted	531	540	O
-to	541	543	O
-an	544	546	O
-optimization	547	559	B-Task
-problem	560	567	I-Task
-.	567	568	O
-
-Next	569	573	O
-,	573	574	O
-the	575	578	O
-NSGA	579	583	B-Process
--	583	584	I-Process
-II	584	586	I-Process
-algorithm	587	596	I-Process
-is	597	599	O
-utilized	600	608	O
-for	609	612	O
-solution	613	621	O
-.	621	622	O
-
-At	623	625	O
-the	626	629	O
-end	630	633	O
-,	633	634	O
-a	635	636	O
-sensitivity	637	648	B-Process
-analysis	649	657	I-Process
-is	658	660	O
-performed	661	670	O
-to	671	673	O
-select	674	680	O
-the	681	684	O
-parameters	685	695	O
-of	696	698	O
-the	699	702	O
-algorithm	703	712	O
-.	712	713	O
+Contractor	0,10	O	B-Task
+selection	11,20	O	I-Task
+for	21,24	O	O
+a	25,26	O	O
+project	27,34	O	O
+is	35,37	O	O
+an	38,40	O	O
+important	41,50	O	O
+decision	51,59	O	O
+,	59,60	O	O
+one	61,64	O	O
+for	65,68	O	O
+the	69,72	O	O
+project	73,80	O	B-Material
+time	81,85	O	I-Material
+and	86,89	O	I-Material
+cost	90,94	O	I-Material
+,	94,95	O	O
+next	96,100	O	O
+for	101,104	O	O
+the	105,108	O	O
+quality	109,116	O	B-Material
+obtained	117,125	O	O
+by	126,128	O	O
+the	129,132	O	O
+project	133,140	O	O
+.	140,141	O	O
+
+Although	142,150	O	O
+the	151,154	O	O
+project	155,162	O	B-Material
+managers	163,171	O	I-Material
+can	172,175	O	O
+easily	176,182	O	O
+determine	183,192	O	B-Task
+the	193,196	O	I-Task
+project	197,204	O	I-Task
+time	205,209	O	I-Task
+and	210,213	O	I-Task
+cost	214,218	O	I-Task
+,	218,219	O	O
+the	220,223	O	O
+quality	224,231	O	O
+is	232,234	O	O
+usually	235,242	O	O
+undefined	243,252	O	O
+especially	253,263	O	O
+for	264,267	O	O
+un	268,270	O	B-Material
+-	270,271	O	I-Material
+experienced	271,282	O	I-Material
+managers	283,291	O	I-Material
+.	291,292	O	O
+
+With	293,297	O	O
+a	298,299	O	O
+learnable	300,309	O	B-Process
+property	310,318	O	I-Process
+,	318,319	O	O
+an	320,322	O	O
+approach	323,331	O	O
+is	332,334	O	O
+first	335,340	O	O
+introduced	341,351	O	O
+in	352,354	O	O
+this	355,359	O	O
+paper	360,365	O	O
+to	366,368	O	O
+quantify	369,377	O	B-Task
+the	378,381	O	I-Task
+quality	382,389	O	I-Task
+obtained	390,398	O	I-Task
+for	399,402	O	I-Task
+a	403,404	O	I-Task
+gas	405,408	O	I-Task
+well	409,413	O	I-Task
+drilling	414,422	O	I-Task
+project	423,430	O	I-Task
+.	430,431	O	O
+
+Then	432,436	O	O
+,	436,437	O	O
+based	438,443	O	O
+on	444,446	O	O
+these	447,452	O	O
+three	453,458	O	O
+objectives	459,469	O	B-Material
+(	470,471	O	B-Material
+time	471,475	O	I-Material
+,	475,476	O	O
+cost	477,481	O	B-Material
+,	481,482	O	O
+and	483,486	O	O
+quality	487,494	O	B-Material
+)	494,495	O	O
+,	495,496	O	O
+a	497,498	O	O
+contractor	499,509	O	B-Task
+selection	510,519	O	I-Task
+problem	520,527	O	I-Task
+is	528,530	O	O
+converted	531,540	O	O
+to	541,543	O	O
+an	544,546	O	O
+optimization	547,559	O	B-Task
+problem	560,567	O	I-Task
+.	567,568	O	O
+
+Next	569,573	O	O
+,	573,574	O	O
+the	575,578	O	O
+NSGA	579,583	O	B-Process
+-	583,584	O	I-Process
+II	584,586	O	I-Process
+algorithm	587,596	O	I-Process
+is	597,599	O	O
+utilized	600,608	O	O
+for	609,612	O	O
+solution	613,621	O	O
+.	621,622	O	O
+
+At	623,625	O	O
+the	626,629	O	O
+end	630,633	O	O
+,	633,634	O	O
+a	635,636	O	O
+sensitivity	637,648	O	B-Process
+analysis	649,657	O	I-Process
+is	658,660	O	O
+performed	661,670	O	O
+to	671,673	O	O
+select	674,680	O	O
+the	681,684	O	O
+parameters	685,695	O	O
+of	696,698	O	O
+the	699,702	O	O
+algorithm	703,712	O	O
+.	712,713	O	O
 
 
 -DOCSTART- (S2212667814001397)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-a	15	16	O
-regression	17	27	B-Process
-analysis	28	36	I-Process
-based	37	42	I-Process
-method	43	49	I-Process
-is	50	52	O
-proposed	53	61	O
-to	62	64	O
-calculate	65	74	B-Task
-the	75	78	I-Task
-Journal	79	86	I-Task
-Influence	87	96	I-Task
-Score	97	102	I-Task
-.	102	103	O
-
-This	104	108	O
-Influence	109	118	B-Process
-Score	119	124	I-Process
-is	125	127	O
-used	128	132	O
-to	133	135	O
-measure	136	143	B-Task
-the	144	147	I-Task
-scientific	148	158	I-Task
-influence	159	168	I-Task
-of	169	171	I-Task
-scholarly	172	181	I-Task
-journals	182	190	I-Task
-.	190	191	O
-
-Journal	192	199	B-Process
-Influence	200	209	I-Process
-Score	210	215	I-Process
-is	216	218	O
-calculated	219	229	O
-by	230	232	O
-using	233	238	B-Process
-various	239	246	I-Process
-factors	247	254	I-Process
-in	255	257	I-Process
-a	258	259	I-Process
-weighted	260	268	I-Process
-manner	269	275	I-Process
-.	275	276	O
-
-The	277	280	O
-Score	281	286	O
-is	287	289	O
-then	290	294	O
-compared	295	303	B-Task
-with	304	308	I-Task
-the	309	312	I-Task
-SCImago	313	320	I-Task
-Journal	321	328	I-Task
-Score	329	334	I-Task
-.	334	335	O
-
-The	336	339	O
-results	340	347	O
-show	348	352	O
-that	353	357	O
-the	358	361	O
-error	362	367	O
-is	368	370	O
-small	371	376	O
-between	377	384	O
-the	385	388	O
-existing	389	397	O
-and	398	401	O
-proposed	402	410	O
-methods	411	418	O
-,	418	419	O
-proving	420	427	O
-that	428	432	O
-the	433	436	O
-model	437	442	O
-is	443	445	O
-a	446	447	O
-feasible	448	456	O
-and	457	460	O
-effective	461	470	O
-way	471	474	O
-of	475	477	O
-calculating	478	489	B-Task
-scientific	490	500	I-Task
-impact	501	507	I-Task
-of	508	510	I-Task
-journals	511	519	I-Task
-.	519	520	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+a	15,16	O	O
+regression	17,27	O	B-Process
+analysis	28,36	O	I-Process
+based	37,42	O	I-Process
+method	43,49	O	I-Process
+is	50,52	O	O
+proposed	53,61	O	O
+to	62,64	O	O
+calculate	65,74	O	B-Task
+the	75,78	O	I-Task
+Journal	79,86	O	I-Task
+Influence	87,96	O	I-Task
+Score	97,102	O	I-Task
+.	102,103	O	O
+
+This	104,108	O	O
+Influence	109,118	O	B-Process
+Score	119,124	O	I-Process
+is	125,127	O	O
+used	128,132	O	O
+to	133,135	O	O
+measure	136,143	O	B-Task
+the	144,147	O	I-Task
+scientific	148,158	O	I-Task
+influence	159,168	O	I-Task
+of	169,171	O	I-Task
+scholarly	172,181	O	I-Task
+journals	182,190	O	I-Task
+.	190,191	O	O
+
+Journal	192,199	O	B-Process
+Influence	200,209	O	I-Process
+Score	210,215	O	I-Process
+is	216,218	O	O
+calculated	219,229	O	O
+by	230,232	O	O
+using	233,238	O	B-Process
+various	239,246	O	I-Process
+factors	247,254	O	I-Process
+in	255,257	O	I-Process
+a	258,259	O	I-Process
+weighted	260,268	O	I-Process
+manner	269,275	O	I-Process
+.	275,276	O	O
+
+The	277,280	O	O
+Score	281,286	O	O
+is	287,289	O	O
+then	290,294	O	O
+compared	295,303	O	B-Task
+with	304,308	O	I-Task
+the	309,312	O	I-Task
+SCImago	313,320	O	I-Task
+Journal	321,328	O	I-Task
+Score	329,334	O	I-Task
+.	334,335	O	O
+
+The	336,339	O	O
+results	340,347	O	O
+show	348,352	O	O
+that	353,357	O	O
+the	358,361	O	O
+error	362,367	O	O
+is	368,370	O	O
+small	371,376	O	O
+between	377,384	O	O
+the	385,388	O	O
+existing	389,397	O	O
+and	398,401	O	O
+proposed	402,410	O	O
+methods	411,418	O	O
+,	418,419	O	O
+proving	420,427	O	O
+that	428,432	O	O
+the	433,436	O	O
+model	437,442	O	O
+is	443,445	O	O
+a	446,447	O	O
+feasible	448,456	O	O
+and	457,460	O	O
+effective	461,470	O	O
+way	471,474	O	O
+of	475,477	O	O
+calculating	478,489	O	B-Task
+scientific	490,500	O	I-Task
+impact	501,507	O	I-Task
+of	508,510	O	I-Task
+journals	511,519	O	I-Task
+.	519,520	O	O
 
 
 -DOCSTART- (S2212667814001440)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-we	15	17	O
-present	18	25	O
-a	26	27	O
-tele	28	32	B-Process
--	32	33	I-Process
-operated	33	41	I-Process
-mobile	42	48	I-Process
-robot	49	54	I-Process
-system	55	61	I-Process
-for	62	65	O
-old	66	69	B-Task
-age	70	73	I-Task
-surveillance	74	86	I-Task
-.	86	87	O
-
-The	88	91	O
-robot	92	97	O
-operates	98	106	O
-in	107	109	O
-autonomous	110	120	B-Process
-mode	121	125	I-Process
-in	126	128	O
-which	129	134	O
-the	135	138	O
-robots	139	145	O
-navigates	146	155	B-Process
-in	156	158	I-Process
-the	159	162	I-Process
-environment	163	174	I-Process
-and	175	178	O
-search	179	185	B-Process
-for	186	189	I-Process
-unusual	190	197	I-Process
-situation	198	207	I-Process
-of	208	210	O
-elderly	211	218	B-Material
-people	219	225	I-Material
-.	225	226	O
-
-If	227	229	O
-a	230	231	O
-patient	232	239	B-Material
-is	240	242	O
-lying	243	248	B-Process
-on	249	251	I-Process
-the	252	255	I-Process
-floor	256	261	I-Process
-,	261	262	O
-the	263	266	O
-robot	267	272	B-Material
-informs	273	280	B-Process
-the	281	284	I-Process
-user	285	289	I-Process
-.	289	290	O
-
-The	291	294	O
-user	295	299	O
-switches	300	308	B-Process
-the	309	312	I-Process
-control	313	320	I-Process
-mode	321	325	I-Process
-from	326	330	I-Process
-autonomous	331	341	I-Process
-to	342	344	I-Process
-haptic	345	351	I-Process
-based	352	357	I-Process
-user	358	362	O
-control	363	370	O
-.	370	371	O
-
-In	372	374	O
-the	375	378	O
-autonomous	379	389	B-Process
-mode	390	394	I-Process
-,	394	395	O
-the	396	399	O
-robot	400	405	B-Material
-utilizes	406	414	O
-the	415	418	O
-visual	419	425	B-Task
-sensor	426	432	I-Task
-and	433	436	I-Task
-landmarks	437	446	I-Task
-to	447	449	I-Task
-monitor	450	457	I-Task
-the	458	461	O
-entire	462	468	O
-environment	469	480	O
-.	480	481	O
-
-The	482	485	O
-robot	486	491	B-Material
-is	492	494	O
-equipped	495	503	O
-microphone	504	514	B-Material
-,	514	515	O
-speaker	516	523	B-Material
-and	524	527	O
-monitor	528	535	B-Material
-making	536	542	O
-it	543	545	O
-possible	546	554	O
-to	555	557	O
-communicate	558	569	B-Process
-with	570	574	O
-the	575	578	O
-user	579	583	O
-in	584	586	O
-remote	587	593	B-Material
-place	594	599	I-Material
-.	599	600	O
-
-In	601	603	O
-addition	604	612	O
-,	612	613	O
-the	614	617	O
-robot	618	623	B-Material
-utilizes	624	632	O
-the	633	636	O
-vital	637	642	B-Process
-sensors	643	650	I-Process
-to	651	653	O
-check	654	659	O
-the	660	663	O
-patient	664	671	B-Material
-'s	671	673	I-Material
-condition	674	683	I-Material
-.	683	684	O
-
-The	685	688	O
-preliminary	689	700	O
-surveillance	701	713	O
-experiments	714	725	O
-show	726	730	O
-a	731	732	O
-good	733	737	O
-performance	738	749	O
-.	749	750	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+we	15,17	O	O
+present	18,25	O	O
+a	26,27	O	O
+tele	28,32	O	B-Process
+-	32,33	O	I-Process
+operated	33,41	O	I-Process
+mobile	42,48	O	I-Process
+robot	49,54	O	I-Process
+system	55,61	O	I-Process
+for	62,65	O	O
+old	66,69	O	B-Task
+age	70,73	O	I-Task
+surveillance	74,86	O	I-Task
+.	86,87	O	O
+
+The	88,91	O	O
+robot	92,97	O	O
+operates	98,106	O	O
+in	107,109	O	O
+autonomous	110,120	O	B-Process
+mode	121,125	O	I-Process
+in	126,128	O	O
+which	129,134	O	O
+the	135,138	O	O
+robots	139,145	O	O
+navigates	146,155	O	B-Process
+in	156,158	O	I-Process
+the	159,162	O	I-Process
+environment	163,174	O	I-Process
+and	175,178	O	O
+search	179,185	O	B-Process
+for	186,189	O	I-Process
+unusual	190,197	O	I-Process
+situation	198,207	O	I-Process
+of	208,210	O	O
+elderly	211,218	O	B-Material
+people	219,225	O	I-Material
+.	225,226	O	O
+
+If	227,229	O	O
+a	230,231	O	O
+patient	232,239	O	B-Material
+is	240,242	O	O
+lying	243,248	O	B-Process
+on	249,251	O	I-Process
+the	252,255	O	I-Process
+floor	256,261	O	I-Process
+,	261,262	O	O
+the	263,266	O	O
+robot	267,272	O	B-Material
+informs	273,280	O	B-Process
+the	281,284	O	I-Process
+user	285,289	O	I-Process
+.	289,290	O	O
+
+The	291,294	O	O
+user	295,299	O	O
+switches	300,308	O	B-Process
+the	309,312	O	I-Process
+control	313,320	O	I-Process
+mode	321,325	O	I-Process
+from	326,330	O	I-Process
+autonomous	331,341	O	I-Process
+to	342,344	O	I-Process
+haptic	345,351	O	I-Process
+based	352,357	O	I-Process
+user	358,362	O	O
+control	363,370	O	O
+.	370,371	O	O
+
+In	372,374	O	O
+the	375,378	O	O
+autonomous	379,389	O	B-Process
+mode	390,394	O	I-Process
+,	394,395	O	O
+the	396,399	O	O
+robot	400,405	O	B-Material
+utilizes	406,414	O	O
+the	415,418	O	O
+visual	419,425	O	B-Task
+sensor	426,432	O	I-Task
+and	433,436	O	I-Task
+landmarks	437,446	O	I-Task
+to	447,449	O	I-Task
+monitor	450,457	O	I-Task
+the	458,461	O	O
+entire	462,468	O	O
+environment	469,480	O	O
+.	480,481	O	O
+
+The	482,485	O	O
+robot	486,491	O	B-Material
+is	492,494	O	O
+equipped	495,503	O	O
+microphone	504,514	O	B-Material
+,	514,515	O	O
+speaker	516,523	O	B-Material
+and	524,527	O	O
+monitor	528,535	O	B-Material
+making	536,542	O	O
+it	543,545	O	O
+possible	546,554	O	O
+to	555,557	O	O
+communicate	558,569	O	B-Process
+with	570,574	O	O
+the	575,578	O	O
+user	579,583	O	O
+in	584,586	O	O
+remote	587,593	O	B-Material
+place	594,599	O	I-Material
+.	599,600	O	O
+
+In	601,603	O	O
+addition	604,612	O	O
+,	612,613	O	O
+the	614,617	O	O
+robot	618,623	O	B-Material
+utilizes	624,632	O	O
+the	633,636	O	O
+vital	637,642	O	B-Process
+sensors	643,650	O	I-Process
+to	651,653	O	O
+check	654,659	O	O
+the	660,663	O	O
+patient	664,671	O	B-Material
+'s	671,673	O	I-Material
+condition	674,683	O	I-Material
+.	683,684	O	O
+
+The	685,688	O	O
+preliminary	689,700	O	O
+surveillance	701,713	O	O
+experiments	714,725	O	O
+show	726,730	O	O
+a	731,732	O	O
+good	733,737	O	O
+performance	738,749	O	O
+.	749,750	O	O
 
 
 -DOCSTART- (S2212667814001464)
 
-Recently	0	8	O
-,	8	9	O
-a	10	11	O
-network	12	19	B-Task
-virtualization	20	34	I-Task
-technology	35	45	I-Task
-has	46	49	O
-attracted	50	59	O
-considerable	60	72	O
-attention	73	82	O
-as	83	85	O
-one	86	89	O
-of	90	92	O
-new	93	96	B-Task
-generation	97	107	I-Task
-network	108	115	I-Task
-technologies	116	128	I-Task
-.	128	129	O
-
-In	130	132	O
-this	133	137	O
-paper	138	143	O
-,	143	144	O
-in	145	147	O
-order	148	153	O
-to	154	156	O
-permit	157	163	O
-the	164	167	O
-rapid	168	173	B-Task
-changing	174	182	I-Task
-for	183	186	I-Task
-a	187	188	I-Task
-topology	189	197	I-Task
-of	198	200	I-Task
-a	201	202	I-Task
-virtual	203	210	I-Task
-network	211	218	I-Task
-,	218	219	O
-we	220	222	O
-propose	223	230	O
-a	231	232	O
-new	233	236	O
-virtual	237	244	B-Process
-network	245	252	I-Process
-construction	253	265	I-Process
-method	266	272	I-Process
-based	273	278	O
-on	279	281	O
-the	282	285	O
-shortest	286	294	B-Process
-path	295	299	I-Process
-betweenness	300	311	I-Process
-.	311	312	O
-
-In	313	315	O
-our	316	319	O
-proposed	320	328	B-Process
-method	329	335	I-Process
-,	335	336	O
-at	337	339	O
-first	340	345	O
-,	345	346	O
-a	347	348	O
-service	349	356	B-Material
-provider	357	365	I-Material
-receives	366	374	O
-a	375	376	O
-user	377	381	O
-'s	381	383	O
-request	384	391	O
-for	392	395	O
-the	396	399	O
-reconfiguration	400	415	B-Process
-of	416	418	I-Process
-the	419	422	I-Process
-constructed	423	434	I-Process
-virtual	435	442	I-Process
-network	443	450	I-Process
-.	450	451	O
-
-In	452	454	O
-this	455	459	O
-case	460	464	O
-,	464	465	O
-the	466	469	O
-service	470	477	B-Material
-provider	478	486	I-Material
-reconfigures	487	499	B-Process
-the	500	503	I-Process
-topology	504	512	I-Process
-of	513	515	I-Process
-the	516	519	I-Process
-constructed	520	531	I-Process
-virtual	532	539	I-Process
-network	540	547	I-Process
-rapidly	548	555	O
-based	556	561	O
-on	562	564	O
-shortest	565	573	B-Process
-path	574	578	I-Process
-betweenness	579	590	I-Process
-.	590	591	O
-
-We	592	594	O
-evaluate	595	603	O
-the	604	607	O
-performance	608	619	O
-of	620	622	O
-our	623	626	O
-proposed	627	635	O
-method	636	642	O
-with	643	647	O
-simulation	648	658	B-Process
-,	658	659	O
-and	660	663	O
-we	664	666	O
-show	667	671	O
-the	672	675	O
-effectiveness	676	689	O
-of	690	692	O
-our	693	696	O
-proposed	697	705	O
-method	706	712	O
-.	712	713	O
+Recently	0,8	O	O
+,	8,9	O	O
+a	10,11	O	O
+network	12,19	O	B-Task
+virtualization	20,34	O	I-Task
+technology	35,45	O	I-Task
+has	46,49	O	O
+attracted	50,59	O	O
+considerable	60,72	O	O
+attention	73,82	O	O
+as	83,85	O	O
+one	86,89	O	O
+of	90,92	O	O
+new	93,96	O	B-Task
+generation	97,107	O	I-Task
+network	108,115	O	I-Task
+technologies	116,128	O	I-Task
+.	128,129	O	O
+
+In	130,132	O	O
+this	133,137	O	O
+paper	138,143	O	O
+,	143,144	O	O
+in	145,147	O	O
+order	148,153	O	O
+to	154,156	O	O
+permit	157,163	O	O
+the	164,167	O	O
+rapid	168,173	O	B-Task
+changing	174,182	O	I-Task
+for	183,186	O	I-Task
+a	187,188	O	I-Task
+topology	189,197	O	I-Task
+of	198,200	O	I-Task
+a	201,202	O	I-Task
+virtual	203,210	O	I-Task
+network	211,218	O	I-Task
+,	218,219	O	O
+we	220,222	O	O
+propose	223,230	O	O
+a	231,232	O	O
+new	233,236	O	O
+virtual	237,244	O	B-Process
+network	245,252	O	I-Process
+construction	253,265	O	I-Process
+method	266,272	O	I-Process
+based	273,278	O	O
+on	279,281	O	O
+the	282,285	O	O
+shortest	286,294	O	B-Process
+path	295,299	O	I-Process
+betweenness	300,311	O	I-Process
+.	311,312	O	O
+
+In	313,315	O	O
+our	316,319	O	O
+proposed	320,328	O	B-Process
+method	329,335	O	I-Process
+,	335,336	O	O
+at	337,339	O	O
+first	340,345	O	O
+,	345,346	O	O
+a	347,348	O	O
+service	349,356	O	B-Material
+provider	357,365	O	I-Material
+receives	366,374	O	O
+a	375,376	O	O
+user	377,381	O	O
+'s	381,383	O	O
+request	384,391	O	O
+for	392,395	O	O
+the	396,399	O	O
+reconfiguration	400,415	O	B-Process
+of	416,418	O	I-Process
+the	419,422	O	I-Process
+constructed	423,434	O	I-Process
+virtual	435,442	O	I-Process
+network	443,450	O	I-Process
+.	450,451	O	O
+
+In	452,454	O	O
+this	455,459	O	O
+case	460,464	O	O
+,	464,465	O	O
+the	466,469	O	O
+service	470,477	O	B-Material
+provider	478,486	O	I-Material
+reconfigures	487,499	O	B-Process
+the	500,503	O	I-Process
+topology	504,512	O	I-Process
+of	513,515	O	I-Process
+the	516,519	O	I-Process
+constructed	520,531	O	I-Process
+virtual	532,539	O	I-Process
+network	540,547	O	I-Process
+rapidly	548,555	O	O
+based	556,561	O	O
+on	562,564	O	O
+shortest	565,573	O	B-Process
+path	574,578	O	I-Process
+betweenness	579,590	O	I-Process
+.	590,591	O	O
+
+We	592,594	O	O
+evaluate	595,603	O	O
+the	604,607	O	O
+performance	608,619	O	O
+of	620,622	O	O
+our	623,626	O	O
+proposed	627,635	O	O
+method	636,642	O	O
+with	643,647	O	O
+simulation	648,658	O	B-Process
+,	658,659	O	O
+and	660,663	O	O
+we	664,666	O	O
+show	667,671	O	O
+the	672,675	O	O
+effectiveness	676,689	O	O
+of	690,692	O	O
+our	693,696	O	O
+proposed	697,705	O	O
+method	706,712	O	O
+.	712,713	O	O
 
 
 -DOCSTART- (S2212667814001476)
 
-Security	0	8	O
-issues	9	15	O
-of	16	18	O
-data	19	23	B-Material
-hosted	24	30	O
-in	31	33	O
-a	34	35	O
-Cloud	36	41	B-Material
-Computing	42	51	I-Material
-provider	52	60	I-Material
-remain	61	67	O
-hidden	68	74	O
-seen	75	79	O
-excessive	80	89	B-Process
-marketing	90	99	I-Process
-that	100	104	O
-led	105	108	O
-to	109	111	O
-a	112	113	O
-totally	114	121	O
-unrealistic	122	133	O
-view	134	138	O
-of	139	141	O
-cloud	142	147	B-Task
-computing	148	157	I-Task
-security	158	166	I-Task
-.	166	167	O
-
-Although	168	176	O
-Cloud	177	182	B-Task
-Computing	183	192	I-Task
-has	193	196	O
-not	197	200	O
-yet	201	204	O
-reached	205	212	O
-the	213	216	O
-level	217	222	O
-of	223	225	O
-maturity	226	234	O
-expected	235	243	O
-by	244	246	O
-its	247	250	O
-customers	251	260	O
-,	260	261	O
-and	262	265	O
-that	266	270	O
-the	271	274	O
-problems	275	283	O
-of	284	286	O
-confidentiality	287	302	B-Process
-,	302	303	I-Process
-integrity	304	313	I-Process
-,	313	314	I-Process
-reliability	315	326	I-Process
-and	327	330	I-Process
-consistency	331	342	I-Process
-(	343	344	O
-CIRC	344	348	B-Process
-)	348	349	O
-are	350	353	O
-still	354	359	O
-open	360	364	O
-,	364	365	O
-the	366	369	O
-researchers	370	381	O
-in	382	384	O
-this	385	389	O
-field	390	395	O
-have	396	400	O
-already	401	408	O
-considered	409	419	O
-a	420	421	O
-future	422	428	B-Process
-cloud	429	434	I-Process
-strategy	435	443	I-Process
-which	444	449	O
-aims	450	454	O
-:	454	455	O
-a	456	457	O
-better	458	464	O
-QoS	465	468	O
-,	468	469	O
-reliability	470	481	O
-and	482	485	O
-high	486	490	O
-availability	491	503	O
-,	503	504	O
-it	505	507	O
-is	508	510	O
-the	511	514	O
-Multi	515	520	B-Process
--	520	521	I-Process
-Clouds	521	527	I-Process
-,	527	528	O
-Cloud	529	534	B-Process
-of	535	537	I-Process
-Clouds	538	544	I-Process
-or	545	547	O
-Interclouds	548	559	B-Process
-.	559	560	O
-
-This	560	564	O
-paper	565	570	O
-will	571	575	O
-present	576	583	B-Task
-the	584	587	I-Task
-security	588	596	I-Task
-limitations	597	608	I-Task
-in	609	611	I-Task
-the	612	615	I-Task
-single	616	622	I-Task
-Cloud	623	628	I-Task
-and	629	632	O
-the	633	636	O
-usefulness	637	647	B-Task
-of	648	650	I-Task
-adopting	651	659	I-Task
-rather	660	666	I-Task
-Multi	667	672	I-Task
--	672	673	I-Task
-Clouds	673	679	I-Task
-strategy	680	688	I-Task
-to	689	691	O
-reduce	692	698	O
-security	699	707	B-Process
-risks	708	713	I-Process
-,	713	714	O
-through	715	722	O
-the	723	726	O
-use	727	730	O
-of	731	733	O
-DepSky	734	740	B-Material
-which	741	746	O
-is	747	749	O
-a	750	751	O
-virtual	752	759	B-Material
-storage	760	767	I-Material
-system	768	774	I-Material
-that	775	779	O
-ensures	780	787	O
-better	788	794	B-Process
-availability	795	807	I-Process
-and	808	811	I-Process
-high	812	816	I-Process
-confidentiality	817	832	I-Process
-of	833	835	O
-data	836	840	O
-.	840	841	O
+Security	0,8	O	O
+issues	9,15	O	O
+of	16,18	O	O
+data	19,23	O	B-Material
+hosted	24,30	O	O
+in	31,33	O	O
+a	34,35	O	O
+Cloud	36,41	O	B-Material
+Computing	42,51	O	I-Material
+provider	52,60	O	I-Material
+remain	61,67	O	O
+hidden	68,74	O	O
+seen	75,79	O	O
+excessive	80,89	O	B-Process
+marketing	90,99	O	I-Process
+that	100,104	O	O
+led	105,108	O	O
+to	109,111	O	O
+a	112,113	O	O
+totally	114,121	O	O
+unrealistic	122,133	O	O
+view	134,138	O	O
+of	139,141	O	O
+cloud	142,147	O	B-Task
+computing	148,157	O	I-Task
+security	158,166	O	I-Task
+.	166,167	O	O
+
+Although	168,176	O	O
+Cloud	177,182	O	B-Task
+Computing	183,192	O	I-Task
+has	193,196	O	O
+not	197,200	O	O
+yet	201,204	O	O
+reached	205,212	O	O
+the	213,216	O	O
+level	217,222	O	O
+of	223,225	O	O
+maturity	226,234	O	O
+expected	235,243	O	O
+by	244,246	O	O
+its	247,250	O	O
+customers	251,260	O	O
+,	260,261	O	O
+and	262,265	O	O
+that	266,270	O	O
+the	271,274	O	O
+problems	275,283	O	O
+of	284,286	O	O
+confidentiality	287,302	O	B-Process
+,	302,303	O	I-Process
+integrity	304,313	O	I-Process
+,	313,314	O	I-Process
+reliability	315,326	O	I-Process
+and	327,330	O	I-Process
+consistency	331,342	O	I-Process
+(	343,344	O	O
+CIRC	344,348	O	B-Process
+)	348,349	O	O
+are	350,353	O	O
+still	354,359	O	O
+open	360,364	O	O
+,	364,365	O	O
+the	366,369	O	O
+researchers	370,381	O	O
+in	382,384	O	O
+this	385,389	O	O
+field	390,395	O	O
+have	396,400	O	O
+already	401,408	O	O
+considered	409,419	O	O
+a	420,421	O	O
+future	422,428	O	B-Process
+cloud	429,434	O	I-Process
+strategy	435,443	O	I-Process
+which	444,449	O	O
+aims	450,454	O	O
+:	454,455	O	O
+a	456,457	O	O
+better	458,464	O	O
+QoS	465,468	O	O
+,	468,469	O	O
+reliability	470,481	O	O
+and	482,485	O	O
+high	486,490	O	O
+availability	491,503	O	O
+,	503,504	O	O
+it	505,507	O	O
+is	508,510	O	O
+the	511,514	O	O
+Multi	515,520	O	B-Process
+-	520,521	O	I-Process
+Clouds	521,527	O	I-Process
+,	527,528	O	O
+Cloud	529,534	O	B-Process
+of	535,537	O	I-Process
+Clouds	538,544	O	I-Process
+or	545,547	O	O
+Interclouds	548,559	O	B-Process
+.	559,560	O	O
+
+This	560,564	O	O
+paper	565,570	O	O
+will	571,575	O	O
+present	576,583	O	B-Task
+the	584,587	O	I-Task
+security	588,596	O	I-Task
+limitations	597,608	O	I-Task
+in	609,611	O	I-Task
+the	612,615	O	I-Task
+single	616,622	O	I-Task
+Cloud	623,628	O	I-Task
+and	629,632	O	O
+the	633,636	O	O
+usefulness	637,647	O	B-Task
+of	648,650	O	I-Task
+adopting	651,659	O	I-Task
+rather	660,666	O	I-Task
+Multi	667,672	O	I-Task
+-	672,673	O	I-Task
+Clouds	673,679	O	I-Task
+strategy	680,688	O	I-Task
+to	689,691	O	O
+reduce	692,698	O	O
+security	699,707	O	B-Process
+risks	708,713	O	I-Process
+,	713,714	O	O
+through	715,722	O	O
+the	723,726	O	O
+use	727,730	O	O
+of	731,733	O	O
+DepSky	734,740	O	B-Material
+which	741,746	O	O
+is	747,749	O	O
+a	750,751	O	O
+virtual	752,759	O	B-Material
+storage	760,767	O	I-Material
+system	768,774	O	I-Material
+that	775,779	O	O
+ensures	780,787	O	O
+better	788,794	O	B-Process
+availability	795,807	O	I-Process
+and	808,811	O	I-Process
+high	812,816	O	I-Process
+confidentiality	817,832	O	I-Process
+of	833,835	O	O
+data	836,840	O	O
+.	840,841	O	O
 
 
 -DOCSTART- (S2212667814001488)
 
-This	0	4	O
-paper	5	10	O
-presents	11	19	O
-general	20	27	O
-results	28	35	O
-on	36	38	O
-the	39	42	O
-Java	43	47	B-Task
-source	48	54	I-Task
-code	55	59	I-Task
-snippet	60	67	I-Task
-detection	68	77	I-Task
-problem	78	85	O
-.	85	86	O
-
-We	87	89	O
-propose	90	97	O
-the	98	101	O
-tool	102	106	O
-which	107	112	O
-uses	113	117	O
-graph	118	123	B-Process
-and	124	127	I-Process
-subgraph	128	136	I-Process
-isomorphism	137	148	I-Process
-detection	149	158	I-Process
-.	158	159	O
-
-A	160	161	O
-number	162	168	O
-of	169	171	O
-solutions	172	181	O
-for	182	185	O
-all	186	189	O
-of	190	192	O
-these	193	198	O
-tasks	199	204	O
-have	205	209	O
-been	210	214	O
-proposed	215	223	O
-in	224	226	O
-the	227	230	O
-literature	231	241	O
-.	241	242	O
-
-However	243	250	O
-,	250	251	O
-although	252	260	O
-that	261	265	O
-all	266	269	O
-these	270	275	O
-solutions	276	285	O
-are	286	289	O
-really	290	296	O
-fast	297	301	O
-,	301	302	O
-they	303	307	O
-compare	308	315	B-Process
-just	316	320	I-Process
-the	321	324	I-Process
-constant	325	333	I-Process
-static	334	340	I-Process
-trees	341	346	I-Process
-.	346	347	O
-
-Our	348	351	O
-solution	352	360	O
-offers	361	367	O
-to	368	370	O
-enter	371	376	B-Process
-an	377	379	I-Process
-input	380	385	I-Process
-sample	386	392	I-Process
-dynamically	393	404	I-Process
-with	405	409	O
-the	410	413	O
-Scripthon	414	423	B-Material
-language	424	432	I-Material
-while	433	438	O
-preserving	439	449	B-Process
-an	450	452	I-Process
-acceptable	453	463	I-Process
-speed	464	469	I-Process
-.	469	470	O
-
-We	471	473	O
-used	474	478	O
-several	479	486	B-Process
-optimizations	487	500	I-Process
-to	501	503	O
-achieve	504	511	O
-very	512	516	O
-low	517	520	O
-number	521	527	O
-of	528	530	O
-comparisons	531	542	B-Process
-during	543	549	O
-the	550	553	O
-matching	554	562	B-Process
-algorithm	563	572	I-Process
-.	572	573	O
+This	0,4	O	O
+paper	5,10	O	O
+presents	11,19	O	O
+general	20,27	O	O
+results	28,35	O	O
+on	36,38	O	O
+the	39,42	O	O
+Java	43,47	O	B-Task
+source	48,54	O	I-Task
+code	55,59	O	I-Task
+snippet	60,67	O	I-Task
+detection	68,77	O	I-Task
+problem	78,85	O	O
+.	85,86	O	O
+
+We	87,89	O	O
+propose	90,97	O	O
+the	98,101	O	O
+tool	102,106	O	O
+which	107,112	O	O
+uses	113,117	O	O
+graph	118,123	O	B-Process
+and	124,127	O	I-Process
+subgraph	128,136	O	I-Process
+isomorphism	137,148	O	I-Process
+detection	149,158	O	I-Process
+.	158,159	O	O
+
+A	160,161	O	O
+number	162,168	O	O
+of	169,171	O	O
+solutions	172,181	O	O
+for	182,185	O	O
+all	186,189	O	O
+of	190,192	O	O
+these	193,198	O	O
+tasks	199,204	O	O
+have	205,209	O	O
+been	210,214	O	O
+proposed	215,223	O	O
+in	224,226	O	O
+the	227,230	O	O
+literature	231,241	O	O
+.	241,242	O	O
+
+However	243,250	O	O
+,	250,251	O	O
+although	252,260	O	O
+that	261,265	O	O
+all	266,269	O	O
+these	270,275	O	O
+solutions	276,285	O	O
+are	286,289	O	O
+really	290,296	O	O
+fast	297,301	O	O
+,	301,302	O	O
+they	303,307	O	O
+compare	308,315	O	B-Process
+just	316,320	O	I-Process
+the	321,324	O	I-Process
+constant	325,333	O	I-Process
+static	334,340	O	I-Process
+trees	341,346	O	I-Process
+.	346,347	O	O
+
+Our	348,351	O	O
+solution	352,360	O	O
+offers	361,367	O	O
+to	368,370	O	O
+enter	371,376	O	B-Process
+an	377,379	O	I-Process
+input	380,385	O	I-Process
+sample	386,392	O	I-Process
+dynamically	393,404	O	I-Process
+with	405,409	O	O
+the	410,413	O	O
+Scripthon	414,423	O	B-Material
+language	424,432	O	I-Material
+while	433,438	O	O
+preserving	439,449	O	B-Process
+an	450,452	O	I-Process
+acceptable	453,463	O	I-Process
+speed	464,469	O	I-Process
+.	469,470	O	O
+
+We	471,473	O	O
+used	474,478	O	O
+several	479,486	O	B-Process
+optimizations	487,500	O	I-Process
+to	501,503	O	O
+achieve	504,511	O	O
+very	512,516	O	O
+low	517,520	O	O
+number	521,527	O	O
+of	528,530	O	O
+comparisons	531,542	O	B-Process
+during	543,549	O	O
+the	550,553	O	O
+matching	554,562	O	B-Process
+algorithm	563,572	O	I-Process
+.	572,573	O	O
 
 
 -DOCSTART- (S221266781400149X)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-adaptive	15	23	B-Task
-beamforming	24	35	I-Task
-techniques	36	46	I-Task
-for	47	50	O
-smart	51	56	B-Material
-antennas	57	65	I-Material
-based	66	71	O
-upon	72	76	O
-Least	77	82	B-Process
-Mean	83	87	I-Process
-Squares	88	95	I-Process
-(	96	97	O
-LMS	97	100	B-Process
-)	100	101	O
-,	101	102	O
-Sample	103	109	B-Process
-Matrix	110	116	I-Process
-Inversion	117	126	I-Process
-(	127	128	O
-SMI	128	131	B-Process
-)	131	132	O
-,	132	133	O
-Recursive	134	143	B-Process
-Least	144	149	I-Process
-Squares	150	157	I-Process
-(	158	159	O
-RLS	159	162	B-Process
-)	162	163	O
-and	164	167	O
-Conjugate	168	177	B-Process
-Gradient	178	186	I-Process
-Method	187	193	I-Process
-(	194	195	O
-CGM	195	198	B-Process
-)	198	199	O
-are	200	203	O
-discussed	204	213	B-Task
-and	214	217	I-Task
-analyzed	218	226	I-Task
-.	226	227	O
-
-The	228	231	O
-beamforming	232	243	B-Process
-performance	244	255	I-Process
-is	256	258	O
-studied	259	266	O
-by	267	269	O
-varying	270	277	B-Process
-the	278	281	I-Process
-element	282	289	I-Process
-spacing	290	297	I-Process
-and	298	301	I-Process
-the	302	305	I-Process
-number	306	312	I-Process
-of	313	315	I-Process
-antenna	316	323	I-Process
-array	324	329	I-Process
-elements	330	338	I-Process
-for	339	342	O
-each	343	347	O
-algorithm	348	357	B-Material
-.	357	358	O
-
-These	359	364	O
-four	365	369	O
-algorithms	370	380	B-Material
-are	381	384	O
-compared	385	393	O
-for	394	397	O
-their	398	403	O
-rate	404	408	B-Process
-of	409	411	I-Process
-convergence	412	423	I-Process
-,	423	424	O
-beamforming	425	436	B-Process
-and	437	440	O
-null	441	445	B-Process
-steering	446	454	I-Process
-performance	455	466	I-Process
-(	467	468	O
-beamwidth	468	477	B-Process
-,	477	478	O
-null	479	483	B-Process
-depths	484	490	I-Process
-and	491	494	O
-maximum	495	502	B-Process
-side	503	507	I-Process
-lobe	508	512	I-Process
-level	513	518	I-Process
-)	518	519	O
-.	519	520	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+adaptive	15,23	O	B-Task
+beamforming	24,35	O	I-Task
+techniques	36,46	O	I-Task
+for	47,50	O	O
+smart	51,56	O	B-Material
+antennas	57,65	O	I-Material
+based	66,71	O	O
+upon	72,76	O	O
+Least	77,82	O	B-Process
+Mean	83,87	O	I-Process
+Squares	88,95	O	I-Process
+(	96,97	O	O
+LMS	97,100	O	B-Process
+)	100,101	O	O
+,	101,102	O	O
+Sample	103,109	O	B-Process
+Matrix	110,116	O	I-Process
+Inversion	117,126	O	I-Process
+(	127,128	O	O
+SMI	128,131	O	B-Process
+)	131,132	O	O
+,	132,133	O	O
+Recursive	134,143	O	B-Process
+Least	144,149	O	I-Process
+Squares	150,157	O	I-Process
+(	158,159	O	O
+RLS	159,162	O	B-Process
+)	162,163	O	O
+and	164,167	O	O
+Conjugate	168,177	O	B-Process
+Gradient	178,186	O	I-Process
+Method	187,193	O	I-Process
+(	194,195	O	O
+CGM	195,198	O	B-Process
+)	198,199	O	O
+are	200,203	O	O
+discussed	204,213	O	B-Task
+and	214,217	O	I-Task
+analyzed	218,226	O	I-Task
+.	226,227	O	O
+
+The	228,231	O	O
+beamforming	232,243	O	B-Process
+performance	244,255	O	I-Process
+is	256,258	O	O
+studied	259,266	O	O
+by	267,269	O	O
+varying	270,277	O	B-Process
+the	278,281	O	I-Process
+element	282,289	O	I-Process
+spacing	290,297	O	I-Process
+and	298,301	O	I-Process
+the	302,305	O	I-Process
+number	306,312	O	I-Process
+of	313,315	O	I-Process
+antenna	316,323	O	I-Process
+array	324,329	O	I-Process
+elements	330,338	O	I-Process
+for	339,342	O	O
+each	343,347	O	O
+algorithm	348,357	O	B-Material
+.	357,358	O	O
+
+These	359,364	O	O
+four	365,369	O	O
+algorithms	370,380	O	B-Material
+are	381,384	O	O
+compared	385,393	O	O
+for	394,397	O	O
+their	398,403	O	O
+rate	404,408	O	B-Process
+of	409,411	O	I-Process
+convergence	412,423	O	I-Process
+,	423,424	O	O
+beamforming	425,436	O	B-Process
+and	437,440	O	O
+null	441,445	O	B-Process
+steering	446,454	O	I-Process
+performance	455,466	O	I-Process
+(	467,468	O	O
+beamwidth	468,477	O	B-Process
+,	477,478	O	O
+null	479,483	O	B-Process
+depths	484,490	O	I-Process
+and	491,494	O	O
+maximum	495,502	O	B-Process
+side	503,507	O	I-Process
+lobe	508,512	O	I-Process
+level	513,518	O	I-Process
+)	518,519	O	O
+.	519,520	O	O
 
 
 -DOCSTART- (S2212671612000121)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-three	15	20	B-Task
-different	21	30	I-Task
-approaches	31	41	I-Task
-for	42	45	O
-implementing	46	58	B-Task
-a	59	60	I-Task
-quantum	61	68	I-Task
-search	69	75	I-Task
-algorithm	76	85	I-Task
-by	86	88	I-Task
-adiabatic	89	98	I-Task
-evolution	99	108	I-Task
-are	109	112	O
-shown	113	118	O
-.	118	119	O
-
-As	120	122	O
-expected	123	131	O
-,	131	132	O
-either	133	139	O
-one	140	143	O
-of	144	146	O
-them	147	151	O
-can	152	155	O
-provide	156	163	O
-a	164	165	O
-quadratic	166	175	B-Process
-speed	176	181	I-Process
-up	182	184	I-Process
-as	185	187	O
-opposed	188	195	O
-to	196	198	O
-the	199	202	O
-classical	203	212	B-Process
-search	213	219	I-Process
-algorithm	220	229	I-Process
-.	229	230	O
-
-This	231	235	O
-implies	236	243	O
-that	244	248	O
-adiabatic	249	258	B-Process
-evolution	259	268	I-Process
-based	269	274	O
-quantum	275	282	B-Task
-computation	283	294	I-Task
-gives	295	300	O
-more	301	305	O
-feasibilities	306	319	B-Material
-than	320	324	O
-the	325	328	O
-quantum	329	336	B-Process
-circuit	337	344	I-Process
-model	345	350	I-Process
-,	350	351	O
-although	352	360	O
-the	361	364	O
-equivalence	365	376	O
-between	377	384	O
-them	385	389	O
-has	390	393	O
-already	394	401	O
-been	402	406	O
-proven	407	413	O
-in	414	416	O
-the	417	420	O
-corresponding	421	434	O
-literature	435	445	O
-.	445	446	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+three	15,20	O	B-Task
+different	21,30	O	I-Task
+approaches	31,41	O	I-Task
+for	42,45	O	O
+implementing	46,58	O	B-Task
+a	59,60	O	I-Task
+quantum	61,68	O	I-Task
+search	69,75	O	I-Task
+algorithm	76,85	O	I-Task
+by	86,88	O	I-Task
+adiabatic	89,98	O	I-Task
+evolution	99,108	O	I-Task
+are	109,112	O	O
+shown	113,118	O	O
+.	118,119	O	O
+
+As	120,122	O	O
+expected	123,131	O	O
+,	131,132	O	O
+either	133,139	O	O
+one	140,143	O	O
+of	144,146	O	O
+them	147,151	O	O
+can	152,155	O	O
+provide	156,163	O	O
+a	164,165	O	O
+quadratic	166,175	O	B-Process
+speed	176,181	O	I-Process
+up	182,184	O	I-Process
+as	185,187	O	O
+opposed	188,195	O	O
+to	196,198	O	O
+the	199,202	O	O
+classical	203,212	O	B-Process
+search	213,219	O	I-Process
+algorithm	220,229	O	I-Process
+.	229,230	O	O
+
+This	231,235	O	O
+implies	236,243	O	O
+that	244,248	O	O
+adiabatic	249,258	O	B-Process
+evolution	259,268	O	I-Process
+based	269,274	O	O
+quantum	275,282	O	B-Task
+computation	283,294	O	I-Task
+gives	295,300	O	O
+more	301,305	O	O
+feasibilities	306,319	O	B-Material
+than	320,324	O	O
+the	325,328	O	O
+quantum	329,336	O	B-Process
+circuit	337,344	O	I-Process
+model	345,350	O	I-Process
+,	350,351	O	O
+although	352,360	O	O
+the	361,364	O	O
+equivalence	365,376	O	O
+between	377,384	O	O
+them	385,389	O	O
+has	390,393	O	O
+already	394,401	O	O
+been	402,406	O	O
+proven	407,413	O	O
+in	414,416	O	O
+the	417,420	O	O
+corresponding	421,434	O	O
+literature	435,445	O	O
+.	445,446	O	O
 
 
 -DOCSTART- (S2212671612000613)
 
-Video	0	5	B-Process
--	5	6	I-Process
-oculography	6	17	I-Process
-(	18	19	O
-VOG	19	22	B-Process
-)	22	23	O
-is	24	26	O
-one	27	30	O
-of	31	33	O
-eye	34	37	B-Process
-movement	38	46	I-Process
-measurement	47	58	I-Process
-methods	59	66	I-Process
-.	66	67	O
-
-A	68	69	O
-key	70	73	O
-problem	74	81	O
-of	82	84	O
-VOG	85	88	B-Process
-is	89	91	O
-to	92	94	O
-accurately	95	105	B-Task
-estimate	106	114	I-Task
-the	115	118	I-Task
-pupil	119	124	I-Task
-center	125	131	I-Task
-.	131	132	O
-
-Then	133	137	O
-a	138	139	O
-pupil	140	145	B-Process
-location	146	154	I-Process
-method	155	161	I-Process
-based	162	167	O
-on	168	170	O
-morphology	171	181	B-Process
-and	182	185	O
-Canny	186	191	B-Process
-algorithm	192	201	I-Process
-was	202	205	O
-proposed	206	214	O
-for	215	218	O
-a	219	220	O
-WIFI	221	225	B-Process
--	225	226	I-Process
-based	226	231	I-Process
-VOG	232	235	I-Process
-system	236	242	I-Process
-which	243	248	O
-was	249	252	O
-developed	253	262	O
-our	263	266	O
-latest	267	273	O
-work	274	278	O
-.	278	279	O
-
-Moreover	280	288	O
-,	288	289	O
-a	290	291	O
-healthy	292	299	B-Material
-volunteer	300	309	I-Material
-was	310	313	O
-introduced	314	324	O
-to	325	327	O
-do	328	330	O
-sinusoidal	331	341	B-Task
-tracking	342	350	I-Task
-test	351	355	I-Task
-to	356	358	O
-evaluate	359	367	B-Task
-the	368	371	I-Task
-pupil	372	377	I-Task
-location	378	386	I-Task
-method	387	393	I-Task
-.	393	394	O
-
-Experimental	395	407	O
-results	408	415	O
-showed	416	422	O
-that	423	427	O
-the	428	431	O
-method	432	438	O
-could	439	444	O
-well	445	449	O
-trace	450	455	B-Process
-eye	456	459	I-Process
-movement	460	468	I-Process
-and	469	472	O
-meet	473	477	O
-the	478	481	O
-anticipated	482	493	O
-results	494	501	O
-with	502	506	O
-stimulation	507	518	B-Process
-.	518	519	O
+Video	0,5	O	B-Process
+-	5,6	O	I-Process
+oculography	6,17	O	I-Process
+(	18,19	O	O
+VOG	19,22	O	B-Process
+)	22,23	O	O
+is	24,26	O	O
+one	27,30	O	O
+of	31,33	O	O
+eye	34,37	O	B-Process
+movement	38,46	O	I-Process
+measurement	47,58	O	I-Process
+methods	59,66	O	I-Process
+.	66,67	O	O
+
+A	68,69	O	O
+key	70,73	O	O
+problem	74,81	O	O
+of	82,84	O	O
+VOG	85,88	O	B-Process
+is	89,91	O	O
+to	92,94	O	O
+accurately	95,105	O	B-Task
+estimate	106,114	O	I-Task
+the	115,118	O	I-Task
+pupil	119,124	O	I-Task
+center	125,131	O	I-Task
+.	131,132	O	O
+
+Then	133,137	O	O
+a	138,139	O	O
+pupil	140,145	O	B-Process
+location	146,154	O	I-Process
+method	155,161	O	I-Process
+based	162,167	O	O
+on	168,170	O	O
+morphology	171,181	O	B-Process
+and	182,185	O	O
+Canny	186,191	O	B-Process
+algorithm	192,201	O	I-Process
+was	202,205	O	O
+proposed	206,214	O	O
+for	215,218	O	O
+a	219,220	O	O
+WIFI	221,225	O	B-Process
+-	225,226	O	I-Process
+based	226,231	O	I-Process
+VOG	232,235	O	I-Process
+system	236,242	O	I-Process
+which	243,248	O	O
+was	249,252	O	O
+developed	253,262	O	O
+our	263,266	O	O
+latest	267,273	O	O
+work	274,278	O	O
+.	278,279	O	O
+
+Moreover	280,288	O	O
+,	288,289	O	O
+a	290,291	O	O
+healthy	292,299	O	B-Material
+volunteer	300,309	O	I-Material
+was	310,313	O	O
+introduced	314,324	O	O
+to	325,327	O	O
+do	328,330	O	O
+sinusoidal	331,341	O	B-Task
+tracking	342,350	O	I-Task
+test	351,355	O	I-Task
+to	356,358	O	O
+evaluate	359,367	O	B-Task
+the	368,371	O	I-Task
+pupil	372,377	O	I-Task
+location	378,386	O	I-Task
+method	387,393	O	I-Task
+.	393,394	O	O
+
+Experimental	395,407	O	O
+results	408,415	O	O
+showed	416,422	O	O
+that	423,427	O	O
+the	428,431	O	O
+method	432,438	O	O
+could	439,444	O	O
+well	445,449	O	O
+trace	450,455	O	B-Process
+eye	456,459	O	I-Process
+movement	460,468	O	I-Process
+and	469,472	O	O
+meet	473,477	O	O
+the	478,481	O	O
+anticipated	482,493	O	O
+results	494,501	O	O
+with	502,506	O	O
+stimulation	507,518	O	B-Process
+.	518,519	O	O
 
 
 -DOCSTART- (S2212671612000637)
 
-The	0	3	O
-Hamiltonian	4	15	B-Process
-approach	16	24	I-Process
-and	25	28	O
-the	29	32	O
-variational	33	44	B-Process
-approach	45	53	I-Process
-are	54	57	O
-utilized	58	66	O
-to	67	69	O
-treat	70	75	B-Task
-the	76	79	I-Task
-relativistic	80	92	I-Task
-harmonic	93	101	I-Task
-oscillator	102	112	I-Task
-for	113	116	O
-the	117	120	O
-amplitude	121	130	B-Process
--	130	131	I-Process
-frequency	131	140	I-Process
-relationship	141	153	I-Process
-.	153	154	O
-
-The	155	158	O
-nice	159	163	O
-reliability	164	175	O
-is	176	178	O
-shown	179	184	O
-by	185	187	O
-the	188	191	O
-result	192	198	B-Process
-comparison	199	209	I-Process
-with	210	214	O
-that	215	219	O
-from	220	224	O
-open	225	229	B-Material
-literature	230	240	I-Material
-.	240	241	O
-
-The	242	245	O
-simplicity	246	256	O
-and	257	260	O
-efficiency	261	271	O
-of	272	274	O
-the	275	278	O
-methods	279	286	O
-are	287	290	O
-also	291	295	O
-disclosed	296	305	O
-for	306	309	O
-different	310	319	O
-range	320	325	O
-of	326	328	O
-the	329	332	O
-initial	333	340	B-Process
-amplitude	341	350	I-Process
-during	351	357	O
-looking	358	365	O
-for	366	369	O
-the	370	373	O
-amplitude	374	383	B-Process
--	383	384	I-Process
-frequency	384	393	I-Process
-relationship	394	406	I-Process
-for	407	410	O
-the	411	414	O
-nonlinear	415	424	B-Process
-relativistic	425	437	I-Process
-harmonic	438	446	I-Process
-oscillator	447	457	I-Process
-.	457	458	O
+The	0,3	O	O
+Hamiltonian	4,15	O	B-Process
+approach	16,24	O	I-Process
+and	25,28	O	O
+the	29,32	O	O
+variational	33,44	O	B-Process
+approach	45,53	O	I-Process
+are	54,57	O	O
+utilized	58,66	O	O
+to	67,69	O	O
+treat	70,75	O	B-Task
+the	76,79	O	I-Task
+relativistic	80,92	O	I-Task
+harmonic	93,101	O	I-Task
+oscillator	102,112	O	I-Task
+for	113,116	O	O
+the	117,120	O	O
+amplitude	121,130	O	B-Process
+-	130,131	O	I-Process
+frequency	131,140	O	I-Process
+relationship	141,153	O	I-Process
+.	153,154	O	O
+
+The	155,158	O	O
+nice	159,163	O	O
+reliability	164,175	O	O
+is	176,178	O	O
+shown	179,184	O	O
+by	185,187	O	O
+the	188,191	O	O
+result	192,198	O	B-Process
+comparison	199,209	O	I-Process
+with	210,214	O	O
+that	215,219	O	O
+from	220,224	O	O
+open	225,229	O	B-Material
+literature	230,240	O	I-Material
+.	240,241	O	O
+
+The	242,245	O	O
+simplicity	246,256	O	O
+and	257,260	O	O
+efficiency	261,271	O	O
+of	272,274	O	O
+the	275,278	O	O
+methods	279,286	O	O
+are	287,290	O	O
+also	291,295	O	O
+disclosed	296,305	O	O
+for	306,309	O	O
+different	310,319	O	O
+range	320,325	O	O
+of	326,328	O	O
+the	329,332	O	O
+initial	333,340	O	B-Process
+amplitude	341,350	O	I-Process
+during	351,357	O	O
+looking	358,365	O	O
+for	366,369	O	O
+the	370,373	O	O
+amplitude	374,383	O	B-Process
+-	383,384	O	I-Process
+frequency	384,393	O	I-Process
+relationship	394,406	O	I-Process
+for	407,410	O	O
+the	411,414	O	O
+nonlinear	415,424	O	B-Process
+relativistic	425,437	O	I-Process
+harmonic	438,446	O	I-Process
+oscillator	447,457	O	I-Process
+.	457,458	O	O
 
 
 -DOCSTART- (S2212671612000686)
 
-This	0	4	O
-paper	5	10	O
-make	11	15	O
-the	16	19	O
-explained	20	29	O
-variables	30	39	O
-our	40	43	O
-financial	44	53	B-Process
-stress	54	60	I-Process
-index	61	66	I-Process
-consist	67	74	O
-of	75	77	O
-the	78	81	O
-synchronous	82	93	B-Process
-variables	94	103	I-Process
-financial	104	113	I-Process
-systemic	114	122	I-Process
-risk	123	127	I-Process
-,	127	128	O
-and	129	132	O
-make	133	137	O
-the	138	141	O
-explanatory	142	153	O
-variables	154	163	O
-the	164	167	O
-macroeconomic	168	181	B-Process
-variable	182	190	I-Process
-,	190	191	O
-currency	192	200	B-Process
-credit	201	207	I-Process
-variable	208	216	I-Process
-,	216	217	O
-asset	218	223	B-Process
-price	224	229	I-Process
-variable	230	238	I-Process
-and	239	242	O
-the	243	246	O
-macroeconomic	247	260	B-Process
-variable	261	269	I-Process
-of	270	272	I-Process
-correlative	273	284	I-Process
-economic	285	293	I-Process
-powers	294	300	I-Process
-,	300	301	O
-then	302	306	O
-use	307	310	O
-stepwise	311	319	B-Process
-regression	320	330	I-Process
-method	331	337	I-Process
-to	338	340	O
-establish	341	350	B-Task
-the	351	354	I-Task
-financial	355	364	I-Task
-systemic	365	373	I-Task
-risk	374	378	I-Task
-best	379	383	I-Task
-predict	384	391	I-Task
-equation	392	400	I-Task
-,	400	401	O
-thus	402	406	O
-set	407	410	B-Task
-up	411	413	I-Task
-the	414	417	I-Task
-reasonable	418	428	I-Task
-and	429	432	I-Task
-practical	433	442	I-Task
-financial	443	452	I-Task
-systemic	453	461	I-Task
-risk	462	466	I-Task
-early	467	472	I-Task
--	472	473	I-Task
-warning	473	480	I-Task
-index	481	486	I-Task
-system	487	493	I-Task
-;	493	494	O
-besides	495	502	O
-,	502	503	O
-use	504	507	O
-the	508	511	O
-best	512	516	B-Process
-prediction	517	527	I-Process
-equations	528	537	I-Process
-predicts	538	546	O
-the	547	550	O
-financial	551	560	O
-systemic	561	569	O
-risk	570	574	O
-status	575	581	O
-in	582	584	O
-2011	585	589	O
-.	589	590	O
-
-The	591	594	O
-predicted	595	604	O
-results	605	612	O
-show	613	617	O
-that	618	622	O
-Chinese	623	630	O
-financial	631	640	O
-systemic	641	649	O
-risk	650	654	O
-is	655	657	O
-on	658	660	O
-the	661	664	O
-rise	665	669	O
-in	670	672	O
-the	673	676	O
-first	677	682	O
-three	683	688	O
-quarters	689	697	O
-and	698	701	O
-higher	702	708	O
-than	709	713	O
-the	714	717	O
-peak	718	722	O
-of	723	725	O
-2008	726	730	O
-;	730	731	O
-financial	732	741	O
-systemic	742	750	O
-risk	751	755	O
-start	756	761	O
-to	762	764	O
-decline	765	772	O
-since	773	778	O
-the	779	782	O
-fourth	783	789	O
-quarter	790	797	O
-.	797	798	O
+This	0,4	O	O
+paper	5,10	O	O
+make	11,15	O	O
+the	16,19	O	O
+explained	20,29	O	O
+variables	30,39	O	O
+our	40,43	O	O
+financial	44,53	O	B-Process
+stress	54,60	O	I-Process
+index	61,66	O	I-Process
+consist	67,74	O	O
+of	75,77	O	O
+the	78,81	O	O
+synchronous	82,93	O	B-Process
+variables	94,103	O	I-Process
+financial	104,113	O	I-Process
+systemic	114,122	O	I-Process
+risk	123,127	O	I-Process
+,	127,128	O	O
+and	129,132	O	O
+make	133,137	O	O
+the	138,141	O	O
+explanatory	142,153	O	O
+variables	154,163	O	O
+the	164,167	O	O
+macroeconomic	168,181	O	B-Process
+variable	182,190	O	I-Process
+,	190,191	O	O
+currency	192,200	O	B-Process
+credit	201,207	O	I-Process
+variable	208,216	O	I-Process
+,	216,217	O	O
+asset	218,223	O	B-Process
+price	224,229	O	I-Process
+variable	230,238	O	I-Process
+and	239,242	O	O
+the	243,246	O	O
+macroeconomic	247,260	O	B-Process
+variable	261,269	O	I-Process
+of	270,272	O	I-Process
+correlative	273,284	O	I-Process
+economic	285,293	O	I-Process
+powers	294,300	O	I-Process
+,	300,301	O	O
+then	302,306	O	O
+use	307,310	O	O
+stepwise	311,319	O	B-Process
+regression	320,330	O	I-Process
+method	331,337	O	I-Process
+to	338,340	O	O
+establish	341,350	O	B-Task
+the	351,354	O	I-Task
+financial	355,364	O	I-Task
+systemic	365,373	O	I-Task
+risk	374,378	O	I-Task
+best	379,383	O	I-Task
+predict	384,391	O	I-Task
+equation	392,400	O	I-Task
+,	400,401	O	O
+thus	402,406	O	O
+set	407,410	O	B-Task
+up	411,413	O	I-Task
+the	414,417	O	I-Task
+reasonable	418,428	O	I-Task
+and	429,432	O	I-Task
+practical	433,442	O	I-Task
+financial	443,452	O	I-Task
+systemic	453,461	O	I-Task
+risk	462,466	O	I-Task
+early	467,472	O	I-Task
+-	472,473	O	I-Task
+warning	473,480	O	I-Task
+index	481,486	O	I-Task
+system	487,493	O	I-Task
+;	493,494	O	O
+besides	495,502	O	O
+,	502,503	O	O
+use	504,507	O	O
+the	508,511	O	O
+best	512,516	O	B-Process
+prediction	517,527	O	I-Process
+equations	528,537	O	I-Process
+predicts	538,546	O	O
+the	547,550	O	O
+financial	551,560	O	O
+systemic	561,569	O	O
+risk	570,574	O	O
+status	575,581	O	O
+in	582,584	O	O
+2011	585,589	O	O
+.	589,590	O	O
+
+The	591,594	O	O
+predicted	595,604	O	O
+results	605,612	O	O
+show	613,617	O	O
+that	618,622	O	O
+Chinese	623,630	O	O
+financial	631,640	O	O
+systemic	641,649	O	O
+risk	650,654	O	O
+is	655,657	O	O
+on	658,660	O	O
+the	661,664	O	O
+rise	665,669	O	O
+in	670,672	O	O
+the	673,676	O	O
+first	677,682	O	O
+three	683,688	O	O
+quarters	689,697	O	O
+and	698,701	O	O
+higher	702,708	O	O
+than	709,713	O	O
+the	714,717	O	O
+peak	718,722	O	O
+of	723,725	O	O
+2008	726,730	O	O
+;	730,731	O	O
+financial	732,741	O	O
+systemic	742,750	O	O
+risk	751,755	O	O
+start	756,761	O	O
+to	762,764	O	O
+decline	765,772	O	O
+since	773,778	O	O
+the	779,782	O	O
+fourth	783,789	O	O
+quarter	790,797	O	O
+.	797,798	O	O
 
 
 -DOCSTART- (S2212671612000698)
 
-In	0	2	O
-Obstacle	3	11	B-Task
-detection	12	21	I-Task
-is	22	24	O
-based	25	30	O
-on	31	33	O
-inverse	34	41	B-Process
-perspective	42	53	I-Process
-mapping	54	61	I-Process
-and	62	65	I-Process
-homography	66	76	I-Process
-.	76	77	O
-
-Obstacle	78	86	B-Task
-classification	87	101	I-Task
-is	102	104	O
-based	105	110	O
-on	111	113	O
-fuzzy	114	119	B-Process
-neural	120	126	I-Process
-network	127	134	I-Process
-.	134	135	O
-
-The	136	139	O
-estimation	140	150	B-Task
-of	151	153	I-Task
-the	154	157	I-Task
-vanishing	158	167	I-Task
-point	168	173	I-Task
-relies	174	180	O
-on	181	183	O
-feature	184	191	B-Process
-extraction	192	202	I-Process
-strategy	203	211	I-Process
-.	211	212	O
-
-The	213	216	O
-method	217	223	O
-exploits	224	232	O
-the	233	236	O
-geometrical	237	248	B-Process
-relations	249	258	I-Process
-between	259	266	O
-the	267	270	O
-elements	271	279	B-Material
-in	280	282	O
-the	283	286	O
-scene	287	292	B-Material
-so	293	295	O
-that	296	300	O
-obstacle	301	309	B-Material
-can	310	313	O
-be	314	316	O
-detected	317	325	B-Process
-.	325	326	O
-
-The	327	330	O
-estimated	331	340	B-Process
-homography	341	351	I-Process
-of	352	354	O
-the	355	358	O
-road	359	363	B-Material
-plane	364	369	I-Material
-between	370	377	O
-successive	378	388	O
-images	389	395	B-Material
-is	396	398	O
-used	399	403	O
-for	404	407	O
-image	408	413	B-Task
-alignment	414	423	I-Task
-.	423	424	O
-
-A	425	426	O
-new	427	430	O
-fuzzy	431	436	B-Process
-decision	437	445	I-Process
-fusion	446	452	I-Process
-method	453	459	I-Process
-with	460	464	O
-fuzzy	465	470	B-Process
-attribution	471	482	I-Process
-for	483	486	I-Process
-obstacle	487	495	I-Process
-detection	496	505	I-Process
-and	506	509	I-Process
-classification	510	524	I-Process
-application	525	536	I-Process
-is	537	539	O
-described	540	549	O
-The	550	553	B-Process
-fuzzy	554	559	I-Process
-decision	560	568	I-Process
-function	569	577	I-Process
-modifies	578	586	O
-parameters	587	597	O
-with	598	602	O
-auto	603	607	B-Process
--	607	608	I-Process
-adapted	608	615	I-Process
-algorithm	616	625	I-Process
-to	626	628	O
-get	629	632	O
-better	633	639	O
-classification	640	654	B-Process
-probability	655	666	O
-
-It	667	669	O
-is	670	672	O
-shown	673	678	O
-that	679	683	O
-the	684	687	O
-method	688	694	O
-can	695	698	O
-achieve	699	706	O
-better	707	713	O
-classification	714	728	B-Process
-result	729	735	O
-.	735	736	O
+In	0,2	O	O
+Obstacle	3,11	O	B-Task
+detection	12,21	O	I-Task
+is	22,24	O	O
+based	25,30	O	O
+on	31,33	O	O
+inverse	34,41	O	B-Process
+perspective	42,53	O	I-Process
+mapping	54,61	O	I-Process
+and	62,65	O	I-Process
+homography	66,76	O	I-Process
+.	76,77	O	O
+
+Obstacle	78,86	O	B-Task
+classification	87,101	O	I-Task
+is	102,104	O	O
+based	105,110	O	O
+on	111,113	O	O
+fuzzy	114,119	O	B-Process
+neural	120,126	O	I-Process
+network	127,134	O	I-Process
+.	134,135	O	O
+
+The	136,139	O	O
+estimation	140,150	O	B-Task
+of	151,153	O	I-Task
+the	154,157	O	I-Task
+vanishing	158,167	O	I-Task
+point	168,173	O	I-Task
+relies	174,180	O	O
+on	181,183	O	O
+feature	184,191	O	B-Process
+extraction	192,202	O	I-Process
+strategy	203,211	O	I-Process
+.	211,212	O	O
+
+The	213,216	O	O
+method	217,223	O	O
+exploits	224,232	O	O
+the	233,236	O	O
+geometrical	237,248	O	B-Process
+relations	249,258	O	I-Process
+between	259,266	O	O
+the	267,270	O	O
+elements	271,279	O	B-Material
+in	280,282	O	O
+the	283,286	O	O
+scene	287,292	O	B-Material
+so	293,295	O	O
+that	296,300	O	O
+obstacle	301,309	O	B-Material
+can	310,313	O	O
+be	314,316	O	O
+detected	317,325	O	B-Process
+.	325,326	O	O
+
+The	327,330	O	O
+estimated	331,340	O	B-Process
+homography	341,351	O	I-Process
+of	352,354	O	O
+the	355,358	O	O
+road	359,363	O	B-Material
+plane	364,369	O	I-Material
+between	370,377	O	O
+successive	378,388	O	O
+images	389,395	O	B-Material
+is	396,398	O	O
+used	399,403	O	O
+for	404,407	O	O
+image	408,413	O	B-Task
+alignment	414,423	O	I-Task
+.	423,424	O	O
+
+A	425,426	O	O
+new	427,430	O	O
+fuzzy	431,436	O	B-Process
+decision	437,445	O	I-Process
+fusion	446,452	O	I-Process
+method	453,459	O	I-Process
+with	460,464	O	O
+fuzzy	465,470	O	B-Process
+attribution	471,482	O	I-Process
+for	483,486	O	I-Process
+obstacle	487,495	O	I-Process
+detection	496,505	O	I-Process
+and	506,509	O	I-Process
+classification	510,524	O	I-Process
+application	525,536	O	I-Process
+is	537,539	O	O
+described	540,549	O	O
+The	550,553	O	B-Process
+fuzzy	554,559	O	I-Process
+decision	560,568	O	I-Process
+function	569,577	O	I-Process
+modifies	578,586	O	O
+parameters	587,597	O	O
+with	598,602	O	O
+auto	603,607	O	B-Process
+-	607,608	O	I-Process
+adapted	608,615	O	I-Process
+algorithm	616,625	O	I-Process
+to	626,628	O	O
+get	629,632	O	O
+better	633,639	O	O
+classification	640,654	O	B-Process
+probability	655,666	O	O
+
+It	667,669	O	O
+is	670,672	O	O
+shown	673,678	O	O
+that	679,683	O	O
+the	684,687	O	O
+method	688,694	O	O
+can	695,698	O	O
+achieve	699,706	O	O
+better	707,713	O	O
+classification	714,728	O	B-Process
+result	729,735	O	O
+.	735,736	O	O
 
 
 -DOCSTART- (S2212671612000704)
 
-The	0	3	O
-load	4	8	O
-of	9	11	O
-beam	12	16	B-Material
-pumping	17	24	I-Material
-unit	25	29	I-Material
-is	30	32	O
-changeable	33	43	O
-,	43	44	O
-which	45	50	O
-is	51	53	O
-often	54	59	O
-in	60	62	O
-a	63	64	O
-state	65	70	O
-of	71	73	O
-light	74	79	B-Process
-load	80	84	I-Process
-.	84	85	O
-
-Reducing	86	94	B-Process
-a	95	96	I-Process
-certain	97	104	I-Process
-voltage	105	112	I-Process
-can	113	116	O
-improve	117	124	B-Process
-the	125	128	I-Process
-power	129	134	I-Process
-factor	135	141	I-Process
-and	142	145	I-Process
-efficiency	146	156	I-Process
-of	157	159	I-Process
-the	160	163	I-Process
-beam	164	168	I-Process
-pumping	169	176	I-Process
-unit	177	181	I-Process
-when	182	186	O
-in	187	189	O
-light	190	195	B-Process
-load	196	200	I-Process
-.We	201	204	O
-
-can	205	208	O
-change	209	215	B-Process
-the	216	219	I-Process
-voltage	220	227	I-Process
-by	228	230	O
-changing	231	239	B-Process
-the	240	243	I-Process
-thyristor	244	253	I-Process
-trigger	254	261	I-Process
-angle	262	267	I-Process
-.	267	268	O
-
-It	269	271	O
-is	272	274	O
-complex	275	282	O
-and	283	286	O
-unacceptable	287	299	O
-to	300	302	O
-analyze	303	310	B-Process
-the	311	314	I-Process
-change	315	321	I-Process
-of	322	324	I-Process
-the	325	328	I-Process
-cycles	329	335	I-Process
-of	336	338	I-Process
-the	339	342	I-Process
-load	343	347	I-Process
-overall	348	355	I-Process
-.	355	356	O
-
-So	357	359	O
-we	360	362	O
-can	363	366	O
-divide	367	373	B-Process
-the	374	377	I-Process
-load	378	382	I-Process
-of	383	385	O
-the	386	389	O
-whole	390	395	O
-cycle	396	401	O
-into	402	406	O
-several	407	414	O
-equal	415	420	B-Material
-parts	421	426	I-Material
-,	426	427	O
-each	428	432	O
-can	433	436	O
-be	437	439	O
-thought	440	447	O
-of	448	450	O
-as	451	453	O
-a	454	455	O
-constant	456	464	B-Process
-load	465	469	I-Process
-.	469	470	O
-
-The	471	474	O
-most	475	479	O
-optimal	480	487	B-Process
-voltage	488	495	I-Process
-for	496	499	O
-the	500	503	O
-current	504	511	B-Process
-load	512	516	I-Process
-can	517	520	O
-be	521	523	O
-calculated	524	534	B-Task
-by	535	537	I-Task
-genetic	538	545	I-Task
-algorithm	546	555	I-Task
-.	555	556	O
-
-When	557	561	O
-each	562	566	O
-load	567	571	O
-is	572	574	O
-in	575	577	O
-the	578	581	O
-most	582	586	O
-optimal	587	594	B-Process
-voltage	595	602	I-Process
-,	602	603	O
-we	604	606	O
-can	607	610	O
-get	611	614	O
-the	615	618	O
-whole	619	624	B-Process
-optimal	625	632	I-Process
-voltage	633	640	I-Process
-changeable	641	651	I-Process
-rule	652	656	I-Process
-.	656	657	I-Process
-
-Then	658	662	O
-it	663	665	O
-produces	666	674	O
-the	675	678	O
-result	679	685	O
-of	686	688	O
-energy	689	695	B-Task
-saving	696	702	I-Task
-.	702	703	O
+The	0,3	O	O
+load	4,8	O	O
+of	9,11	O	O
+beam	12,16	O	B-Material
+pumping	17,24	O	I-Material
+unit	25,29	O	I-Material
+is	30,32	O	O
+changeable	33,43	O	O
+,	43,44	O	O
+which	45,50	O	O
+is	51,53	O	O
+often	54,59	O	O
+in	60,62	O	O
+a	63,64	O	O
+state	65,70	O	O
+of	71,73	O	O
+light	74,79	O	B-Process
+load	80,84	O	I-Process
+.	84,85	O	O
+
+Reducing	86,94	O	B-Process
+a	95,96	O	I-Process
+certain	97,104	O	I-Process
+voltage	105,112	O	I-Process
+can	113,116	O	O
+improve	117,124	O	B-Process
+the	125,128	O	I-Process
+power	129,134	O	I-Process
+factor	135,141	O	I-Process
+and	142,145	O	I-Process
+efficiency	146,156	O	I-Process
+of	157,159	O	I-Process
+the	160,163	O	I-Process
+beam	164,168	O	I-Process
+pumping	169,176	O	I-Process
+unit	177,181	O	I-Process
+when	182,186	O	O
+in	187,189	O	O
+light	190,195	O	B-Process
+load	196,200	O	I-Process
+.We	201,204	O	O
+
+can	205,208	O	O
+change	209,215	O	B-Process
+the	216,219	O	I-Process
+voltage	220,227	O	I-Process
+by	228,230	O	O
+changing	231,239	O	B-Process
+the	240,243	O	I-Process
+thyristor	244,253	O	I-Process
+trigger	254,261	O	I-Process
+angle	262,267	O	I-Process
+.	267,268	O	O
+
+It	269,271	O	O
+is	272,274	O	O
+complex	275,282	O	O
+and	283,286	O	O
+unacceptable	287,299	O	O
+to	300,302	O	O
+analyze	303,310	O	B-Process
+the	311,314	O	I-Process
+change	315,321	O	I-Process
+of	322,324	O	I-Process
+the	325,328	O	I-Process
+cycles	329,335	O	I-Process
+of	336,338	O	I-Process
+the	339,342	O	I-Process
+load	343,347	O	I-Process
+overall	348,355	O	I-Process
+.	355,356	O	O
+
+So	357,359	O	O
+we	360,362	O	O
+can	363,366	O	O
+divide	367,373	O	B-Process
+the	374,377	O	I-Process
+load	378,382	O	I-Process
+of	383,385	O	O
+the	386,389	O	O
+whole	390,395	O	O
+cycle	396,401	O	O
+into	402,406	O	O
+several	407,414	O	O
+equal	415,420	O	B-Material
+parts	421,426	O	I-Material
+,	426,427	O	O
+each	428,432	O	O
+can	433,436	O	O
+be	437,439	O	O
+thought	440,447	O	O
+of	448,450	O	O
+as	451,453	O	O
+a	454,455	O	O
+constant	456,464	O	B-Process
+load	465,469	O	I-Process
+.	469,470	O	O
+
+The	471,474	O	O
+most	475,479	O	O
+optimal	480,487	O	B-Process
+voltage	488,495	O	I-Process
+for	496,499	O	O
+the	500,503	O	O
+current	504,511	O	B-Process
+load	512,516	O	I-Process
+can	517,520	O	O
+be	521,523	O	O
+calculated	524,534	O	B-Task
+by	535,537	O	I-Task
+genetic	538,545	O	I-Task
+algorithm	546,555	O	I-Task
+.	555,556	O	O
+
+When	557,561	O	O
+each	562,566	O	O
+load	567,571	O	O
+is	572,574	O	O
+in	575,577	O	O
+the	578,581	O	O
+most	582,586	O	O
+optimal	587,594	O	B-Process
+voltage	595,602	O	I-Process
+,	602,603	O	O
+we	604,606	O	O
+can	607,610	O	O
+get	611,614	O	O
+the	615,618	O	O
+whole	619,624	O	B-Process
+optimal	625,632	O	I-Process
+voltage	633,640	O	I-Process
+changeable	641,651	O	I-Process
+rule	652,656	O	I-Process
+.	656,657	O	I-Process
+
+Then	658,662	O	O
+it	663,665	O	O
+produces	666,674	O	O
+the	675,678	O	O
+result	679,685	O	O
+of	686,688	O	O
+energy	689,695	O	B-Task
+saving	696,702	O	I-Task
+.	702,703	O	O
 
 
 -DOCSTART- (S2212671612000716)
 
-Based	0	5	O
-on	6	8	O
-the	9	12	O
-description	13	24	B-Process
-model	25	30	I-Process
-of	31	33	O
-object	34	40	B-Process
--	40	41	I-Process
-orientation	41	52	I-Process
--	52	53	I-Process
-based	53	58	I-Process
-direction	59	68	I-Process
-relation	69	77	I-Process
-in	78	80	O
-two	81	84	B-Material
--	84	85	I-Material
-dimensional	85	96	I-Material
-space	97	102	I-Material
-,	102	103	O
-the	104	107	O
-description	108	119	B-Task
-mode	120	124	I-Task
-of	125	127	I-Task
-object	128	134	I-Task
--	134	135	I-Task
-orientation	135	146	I-Task
--	146	147	I-Task
-based	147	152	I-Task
-direction	153	162	I-Task
-relation	163	171	I-Task
-in	172	174	I-Task
-three	175	180	I-Task
--	180	181	I-Task
-dimensional	181	192	I-Task
-space	193	198	I-Task
-is	199	201	I-Task
-proposed	202	210	I-Task
-.	210	211	O
-
-The	212	215	O
-basic	216	221	O
-idea	222	226	O
-is	227	229	O
-that	230	234	O
-the	235	238	O
-actual	239	245	O
-direction	246	255	B-Process
-region	256	262	I-Process
-is	263	265	O
-modeled	266	273	O
-as	274	276	O
-an	277	279	O
-open	280	284	B-Material
-shape	285	290	I-Material
-.	290	291	O
-
-The	292	295	O
-computation	296	307	B-Process
-related	308	315	O
-to	316	318	O
-the	319	322	O
-world	323	328	B-Material
-boundary	329	337	I-Material
-of	338	340	O
-spatial	341	348	B-Process
-direction	349	358	I-Process
-region	359	365	I-Process
-is	366	368	O
-eliminated	369	379	O
-,	379	380	O
-and	381	384	O
-the	385	388	O
-processing	389	399	B-Process
-of	400	402	I-Process
-the	403	406	I-Process
-direction	407	416	I-Process
-predicates	417	427	I-Process
-is	428	430	O
-converted	431	440	O
-into	441	445	O
-the	446	449	O
-processing	450	460	B-Process
-of	461	463	I-Process
-topological	464	475	I-Process
-operations	476	486	I-Process
-between	487	494	O
-open	495	499	B-Material
-shapes	500	506	I-Material
-and	507	510	O
-closed	511	517	O
-geometry	518	526	B-Material
-objects	527	534	I-Material
-.	534	535	O
-
-The	536	539	O
-algorithms	540	550	B-Process
-of	551	553	I-Process
-topological	554	565	I-Process
-operations	566	576	I-Process
-between	577	584	O
-open	585	589	B-Material
-shapes	590	596	I-Material
-and	597	600	O
-closed	601	607	O
-geometry	608	616	B-Material
-objects	617	624	I-Material
-are	625	628	O
-presented	629	638	O
-and	639	642	O
-the	643	646	O
-theoretical	647	658	B-Task
-proof	659	664	I-Task
-for	665	668	I-Task
-the	669	672	I-Task
-correctness	673	684	I-Task
-and	685	688	I-Task
-completeness	689	701	I-Task
-of	702	704	I-Task
-the	705	708	I-Task
-algorithms	709	719	I-Task
-is	720	722	O
-performed	723	732	O
-.	732	733	O
+Based	0,5	O	O
+on	6,8	O	O
+the	9,12	O	O
+description	13,24	O	B-Process
+model	25,30	O	I-Process
+of	31,33	O	O
+object	34,40	O	B-Process
+-	40,41	O	I-Process
+orientation	41,52	O	I-Process
+-	52,53	O	I-Process
+based	53,58	O	I-Process
+direction	59,68	O	I-Process
+relation	69,77	O	I-Process
+in	78,80	O	O
+two	81,84	O	B-Material
+-	84,85	O	I-Material
+dimensional	85,96	O	I-Material
+space	97,102	O	I-Material
+,	102,103	O	O
+the	104,107	O	O
+description	108,119	O	B-Task
+mode	120,124	O	I-Task
+of	125,127	O	I-Task
+object	128,134	O	I-Task
+-	134,135	O	I-Task
+orientation	135,146	O	I-Task
+-	146,147	O	I-Task
+based	147,152	O	I-Task
+direction	153,162	O	I-Task
+relation	163,171	O	I-Task
+in	172,174	O	I-Task
+three	175,180	O	I-Task
+-	180,181	O	I-Task
+dimensional	181,192	O	I-Task
+space	193,198	O	I-Task
+is	199,201	O	I-Task
+proposed	202,210	O	I-Task
+.	210,211	O	O
+
+The	212,215	O	O
+basic	216,221	O	O
+idea	222,226	O	O
+is	227,229	O	O
+that	230,234	O	O
+the	235,238	O	O
+actual	239,245	O	O
+direction	246,255	O	B-Process
+region	256,262	O	I-Process
+is	263,265	O	O
+modeled	266,273	O	O
+as	274,276	O	O
+an	277,279	O	O
+open	280,284	O	B-Material
+shape	285,290	O	I-Material
+.	290,291	O	O
+
+The	292,295	O	O
+computation	296,307	O	B-Process
+related	308,315	O	O
+to	316,318	O	O
+the	319,322	O	O
+world	323,328	O	B-Material
+boundary	329,337	O	I-Material
+of	338,340	O	O
+spatial	341,348	O	B-Process
+direction	349,358	O	I-Process
+region	359,365	O	I-Process
+is	366,368	O	O
+eliminated	369,379	O	O
+,	379,380	O	O
+and	381,384	O	O
+the	385,388	O	O
+processing	389,399	O	B-Process
+of	400,402	O	I-Process
+the	403,406	O	I-Process
+direction	407,416	O	I-Process
+predicates	417,427	O	I-Process
+is	428,430	O	O
+converted	431,440	O	O
+into	441,445	O	O
+the	446,449	O	O
+processing	450,460	O	B-Process
+of	461,463	O	I-Process
+topological	464,475	O	I-Process
+operations	476,486	O	I-Process
+between	487,494	O	O
+open	495,499	O	B-Material
+shapes	500,506	O	I-Material
+and	507,510	O	O
+closed	511,517	O	O
+geometry	518,526	O	B-Material
+objects	527,534	O	I-Material
+.	534,535	O	O
+
+The	536,539	O	O
+algorithms	540,550	O	B-Process
+of	551,553	O	I-Process
+topological	554,565	O	I-Process
+operations	566,576	O	I-Process
+between	577,584	O	O
+open	585,589	O	B-Material
+shapes	590,596	O	I-Material
+and	597,600	O	O
+closed	601,607	O	O
+geometry	608,616	O	B-Material
+objects	617,624	O	I-Material
+are	625,628	O	O
+presented	629,638	O	O
+and	639,642	O	O
+the	643,646	O	O
+theoretical	647,658	O	B-Task
+proof	659,664	O	I-Task
+for	665,668	O	I-Task
+the	669,672	O	I-Task
+correctness	673,684	O	I-Task
+and	685,688	O	I-Task
+completeness	689,701	O	I-Task
+of	702,704	O	I-Task
+the	705,708	O	I-Task
+algorithms	709,719	O	I-Task
+is	720,722	O	O
+performed	723,732	O	O
+.	732,733	O	O
 
 
 -DOCSTART- (S2212671612001163)
 
-The	0	3	O
-paper	4	9	O
-deals	10	15	O
-with	16	20	O
-the	21	24	O
-computation	25	36	B-Task
-of	37	39	I-Task
-distribution	40	52	I-Task
-network	53	60	I-Task
-components	61	71	I-Task
-reliability	72	83	I-Task
-parameters	84	94	I-Task
-.	94	95	O
-
-Knowledge	96	105	O
-of	106	108	O
-the	109	112	O
-component	113	122	B-Process
-reliability	123	134	I-Process
-parameters	135	145	I-Process
-in	146	148	O
-power	149	154	B-Material
-networks	155	163	I-Material
-is	164	166	O
-necessary	167	176	O
-for	177	180	O
-the	181	184	O
-reliability	185	196	B-Process
-computation	197	208	I-Process
-and	209	212	O
-also	213	217	O
-for	218	221	O
-reliability	222	233	B-Process
--	233	234	I-Process
-centered	234	242	I-Process
-maintenance	243	254	I-Process
-system	255	261	I-Process
-.	261	262	O
-
-Component	263	272	B-Process
-reliability	273	284	I-Process
-parameters	285	295	I-Process
-are	296	299	O
-possible	300	308	O
-to	309	311	O
-retrieve	312	320	B-Process
-only	321	325	O
-with	326	330	O
-accurate	331	339	B-Material
-databases	340	349	I-Material
-of	350	352	I-Material
-distribution	353	365	I-Material
-companies	366	375	I-Material
-.	375	376	O
-
-Such	377	381	O
-a	382	383	O
-database	384	392	B-Material
-includes	393	401	O
-records	402	409	B-Process
-of	410	412	I-Process
-outages	413	420	I-Process
-and	421	424	I-Process
-interruptions	425	438	I-Process
-in	439	441	O
-power	442	447	B-Material
-networks	448	456	I-Material
-.	456	457	O
-
-It	458	460	O
-is	461	463	O
-impossible	464	474	O
-to	475	477	O
-retrieve	478	486	B-Process
-reliability	487	498	I-Process
-parameters	499	509	I-Process
-from	510	514	O
-this	515	519	O
-data	520	524	B-Material
-in	525	527	O
-a	528	529	O
-direct	530	536	O
-way	537	540	O
-because	541	548	O
-of	549	551	O
-heterogeneity	552	565	B-Process
-.	565	566	O
-
-In	567	569	O
-this	570	574	O
-paper	575	580	O
-,	580	581	O
-we	582	584	O
-introduce	585	594	B-Task
-some	595	599	I-Task
-results	600	607	I-Task
-of	608	610	I-Task
-databases	611	620	I-Task
-calculations	621	633	I-Task
-.	633	634	O
-
-We	635	637	O
-apply	638	643	O
-this	644	648	O
-framework	649	658	B-Process
-for	659	662	I-Process
-the	663	666	I-Process
-retrieving	667	677	I-Process
-of	678	680	I-Process
-parameters	681	691	I-Process
-from	692	696	I-Process
-outage	697	703	I-Process
-data	704	708	I-Process
-in	709	711	O
-the	712	715	O
-Czech	716	721	O
-and	722	725	O
-Slovak	726	732	O
-republics	733	742	O
-.	742	743	O
-
-There	744	749	O
-are	750	753	O
-also	754	758	O
-actual	759	765	O
-results	766	773	O
-.	773	774	O
+The	0,3	O	O
+paper	4,9	O	O
+deals	10,15	O	O
+with	16,20	O	O
+the	21,24	O	O
+computation	25,36	O	B-Task
+of	37,39	O	I-Task
+distribution	40,52	O	I-Task
+network	53,60	O	I-Task
+components	61,71	O	I-Task
+reliability	72,83	O	I-Task
+parameters	84,94	O	I-Task
+.	94,95	O	O
+
+Knowledge	96,105	O	O
+of	106,108	O	O
+the	109,112	O	O
+component	113,122	O	B-Process
+reliability	123,134	O	I-Process
+parameters	135,145	O	I-Process
+in	146,148	O	O
+power	149,154	O	B-Material
+networks	155,163	O	I-Material
+is	164,166	O	O
+necessary	167,176	O	O
+for	177,180	O	O
+the	181,184	O	O
+reliability	185,196	O	B-Process
+computation	197,208	O	I-Process
+and	209,212	O	O
+also	213,217	O	O
+for	218,221	O	O
+reliability	222,233	O	B-Process
+-	233,234	O	I-Process
+centered	234,242	O	I-Process
+maintenance	243,254	O	I-Process
+system	255,261	O	I-Process
+.	261,262	O	O
+
+Component	263,272	O	B-Process
+reliability	273,284	O	I-Process
+parameters	285,295	O	I-Process
+are	296,299	O	O
+possible	300,308	O	O
+to	309,311	O	O
+retrieve	312,320	O	B-Process
+only	321,325	O	O
+with	326,330	O	O
+accurate	331,339	O	B-Material
+databases	340,349	O	I-Material
+of	350,352	O	I-Material
+distribution	353,365	O	I-Material
+companies	366,375	O	I-Material
+.	375,376	O	O
+
+Such	377,381	O	O
+a	382,383	O	O
+database	384,392	O	B-Material
+includes	393,401	O	O
+records	402,409	O	B-Process
+of	410,412	O	I-Process
+outages	413,420	O	I-Process
+and	421,424	O	I-Process
+interruptions	425,438	O	I-Process
+in	439,441	O	O
+power	442,447	O	B-Material
+networks	448,456	O	I-Material
+.	456,457	O	O
+
+It	458,460	O	O
+is	461,463	O	O
+impossible	464,474	O	O
+to	475,477	O	O
+retrieve	478,486	O	B-Process
+reliability	487,498	O	I-Process
+parameters	499,509	O	I-Process
+from	510,514	O	O
+this	515,519	O	O
+data	520,524	O	B-Material
+in	525,527	O	O
+a	528,529	O	O
+direct	530,536	O	O
+way	537,540	O	O
+because	541,548	O	O
+of	549,551	O	O
+heterogeneity	552,565	O	B-Process
+.	565,566	O	O
+
+In	567,569	O	O
+this	570,574	O	O
+paper	575,580	O	O
+,	580,581	O	O
+we	582,584	O	O
+introduce	585,594	O	B-Task
+some	595,599	O	I-Task
+results	600,607	O	I-Task
+of	608,610	O	I-Task
+databases	611,620	O	I-Task
+calculations	621,633	O	I-Task
+.	633,634	O	O
+
+We	635,637	O	O
+apply	638,643	O	O
+this	644,648	O	O
+framework	649,658	O	B-Process
+for	659,662	O	I-Process
+the	663,666	O	I-Process
+retrieving	667,677	O	I-Process
+of	678,680	O	I-Process
+parameters	681,691	O	I-Process
+from	692,696	O	I-Process
+outage	697,703	O	I-Process
+data	704,708	O	I-Process
+in	709,711	O	O
+the	712,715	O	O
+Czech	716,721	O	O
+and	722,725	O	O
+Slovak	726,732	O	O
+republics	733,742	O	O
+.	742,743	O	O
+
+There	744,749	O	O
+are	750,753	O	O
+also	754,758	O	O
+actual	759,765	O	O
+results	766,773	O	O
+.	773,774	O	O
 
 
 -DOCSTART- (S2212671612001291)
 
-In	0	2	O
-the	3	6	O
-paper	7	12	O
-we	13	15	O
-propose	16	23	O
-a	24	25	O
-conceptual	26	36	B-Task
-methodology	37	48	I-Task
-to	49	51	I-Task
-control	52	59	I-Task
-liquid	60	66	I-Task
-state	67	72	I-Task
-of	73	75	O
-Al	76	78	B-Material
--	78	79	I-Material
-Si	79	81	I-Material
-alloys	82	88	I-Material
-in	89	91	O
-melting	92	99	B-Process
-and	100	103	I-Process
-holding	104	111	I-Process
-sub	112	115	I-Process
--	115	116	I-Process
-process	116	123	I-Process
-of	124	126	O
-the	127	130	O
-pressure	131	139	B-Process
-die	140	143	I-Process
--	143	144	I-Process
-casting	144	151	I-Process
-process	152	159	I-Process
-.	159	160	O
-
-Given	161	166	O
-that	167	171	O
-,	171	172	O
-we	173	175	O
-determine	176	185	B-Task
-the	186	189	I-Task
-characteristic	190	204	I-Task
-of	205	207	I-Task
-the	208	211	I-Task
-holding	212	219	I-Task
-furnace	220	227	I-Task
-based	228	233	O
-on	234	236	O
-weight	237	243	B-Material
-percent	244	251	I-Material
-(	252	253	O
-wt	253	255	B-Material
-%	256	257	I-Material
-)	257	258	O
-of	259	261	O
-the	262	265	O
-certain	266	273	O
-alloys	274	280	B-Material
-and	281	284	O
-their	285	290	O
-elements	291	299	O
-.	299	300	O
-
-Subsequently	301	313	O
-the	314	317	O
-paper	318	323	O
-introduces	324	334	O
-an	335	337	O
-application	338	349	B-Task
-of	350	352	I-Task
-methodology	353	364	I-Task
-of	365	367	I-Task
-research	368	376	I-Task
-for	377	380	O
-establishing	381	393	O
-characteristic	394	408	B-Task
-of	409	411	I-Task
-holding	412	419	I-Task
-furnace	420	427	I-Task
-.	427	428	O
-
-The	429	432	O
-application	433	444	O
-was	445	448	O
-realized	449	457	O
-under	458	463	O
-real	464	468	B-Process
-conditions	469	479	I-Process
-in	480	482	O
-foundry	483	490	B-Material
-that	491	495	O
-uses	496	500	O
-horizontal	501	511	B-Material
-cold	512	516	I-Material
-chamber	517	524	I-Material
-machine	525	532	I-Material
-CLH	533	536	B-Material
-400.1	537	542	I-Material
-.	542	543	O
-
-The	544	547	O
-chemical	548	556	B-Process
-analysis	557	565	I-Process
-was	566	569	O
-performed	570	579	O
-by	580	582	O
-spectrophotometer	583	600	B-Material
-SPECTROLAB	601	611	B-Material
-JR.CCD	612	618	I-Material
-2000	619	623	I-Material
-.	623	624	O
-
-Finally	625	632	O
-the	633	636	O
-last	637	641	O
-part	642	646	O
-of	647	649	O
-the	650	653	O
-paper	654	659	O
-lists	660	665	O
-overall	666	673	O
-findings	674	682	O
-with	683	687	O
-possible	688	696	O
-future	697	703	O
-direction	704	713	O
-to	714	716	O
-extend	717	723	B-Task
-this	724	728	I-Task
-methodology	729	740	I-Task
-in	741	743	I-Task
-practice	744	752	I-Task
-.	752	753	O
+In	0,2	O	O
+the	3,6	O	O
+paper	7,12	O	O
+we	13,15	O	O
+propose	16,23	O	O
+a	24,25	O	O
+conceptual	26,36	O	B-Task
+methodology	37,48	O	I-Task
+to	49,51	O	I-Task
+control	52,59	O	I-Task
+liquid	60,66	O	I-Task
+state	67,72	O	I-Task
+of	73,75	O	O
+Al	76,78	O	B-Material
+-	78,79	O	I-Material
+Si	79,81	O	I-Material
+alloys	82,88	O	I-Material
+in	89,91	O	O
+melting	92,99	O	B-Process
+and	100,103	O	I-Process
+holding	104,111	O	I-Process
+sub	112,115	O	I-Process
+-	115,116	O	I-Process
+process	116,123	O	I-Process
+of	124,126	O	O
+the	127,130	O	O
+pressure	131,139	O	B-Process
+die	140,143	O	I-Process
+-	143,144	O	I-Process
+casting	144,151	O	I-Process
+process	152,159	O	I-Process
+.	159,160	O	O
+
+Given	161,166	O	O
+that	167,171	O	O
+,	171,172	O	O
+we	173,175	O	O
+determine	176,185	O	B-Task
+the	186,189	O	I-Task
+characteristic	190,204	O	I-Task
+of	205,207	O	I-Task
+the	208,211	O	I-Task
+holding	212,219	O	I-Task
+furnace	220,227	O	I-Task
+based	228,233	O	O
+on	234,236	O	O
+weight	237,243	O	B-Material
+percent	244,251	O	I-Material
+(	252,253	O	O
+wt	253,255	O	B-Material
+%	256,257	O	I-Material
+)	257,258	O	O
+of	259,261	O	O
+the	262,265	O	O
+certain	266,273	O	O
+alloys	274,280	O	B-Material
+and	281,284	O	O
+their	285,290	O	O
+elements	291,299	O	O
+.	299,300	O	O
+
+Subsequently	301,313	O	O
+the	314,317	O	O
+paper	318,323	O	O
+introduces	324,334	O	O
+an	335,337	O	O
+application	338,349	O	B-Task
+of	350,352	O	I-Task
+methodology	353,364	O	I-Task
+of	365,367	O	I-Task
+research	368,376	O	I-Task
+for	377,380	O	O
+establishing	381,393	O	O
+characteristic	394,408	O	B-Task
+of	409,411	O	I-Task
+holding	412,419	O	I-Task
+furnace	420,427	O	I-Task
+.	427,428	O	O
+
+The	429,432	O	O
+application	433,444	O	O
+was	445,448	O	O
+realized	449,457	O	O
+under	458,463	O	O
+real	464,468	O	B-Process
+conditions	469,479	O	I-Process
+in	480,482	O	O
+foundry	483,490	O	B-Material
+that	491,495	O	O
+uses	496,500	O	O
+horizontal	501,511	O	B-Material
+cold	512,516	O	I-Material
+chamber	517,524	O	I-Material
+machine	525,532	O	I-Material
+CLH	533,536	O	B-Material
+400.1	537,542	O	I-Material
+.	542,543	O	O
+
+The	544,547	O	O
+chemical	548,556	O	B-Process
+analysis	557,565	O	I-Process
+was	566,569	O	O
+performed	570,579	O	O
+by	580,582	O	O
+spectrophotometer	583,600	O	B-Material
+SPECTROLAB	601,611	O	B-Material
+JR.CCD	612,618	O	I-Material
+2000	619,623	O	I-Material
+.	623,624	O	O
+
+Finally	625,632	O	O
+the	633,636	O	O
+last	637,641	O	O
+part	642,646	O	O
+of	647,649	O	O
+the	650,653	O	O
+paper	654,659	O	O
+lists	660,665	O	O
+overall	666,673	O	O
+findings	674,682	O	O
+with	683,687	O	O
+possible	688,696	O	O
+future	697,703	O	O
+direction	704,713	O	O
+to	714,716	O	O
+extend	717,723	O	B-Task
+this	724,728	O	I-Task
+methodology	729,740	O	I-Task
+in	741,743	O	I-Task
+practice	744,752	O	I-Task
+.	752,753	O	O
 
 
 -DOCSTART- (S2212671612001497)
 
-Our	0	3	O
-country	4	11	O
-is	12	14	O
-rich	15	19	O
-of	20	22	O
-line	23	27	B-Process
-galloping	28	37	I-Process
-,	37	38	O
-there	39	44	O
-are	45	48	O
-many	49	53	O
-important	54	63	O
-galloping	64	73	B-Material
-data	74	78	I-Material
-failed	79	85	O
-to	86	88	O
-collect	89	96	B-Task
-systematically	97	111	I-Task
-and	112	115	I-Task
-completely	116	126	I-Task
-because	127	134	O
-there	135	140	O
-is	141	143	O
-no	144	146	O
-unified	147	154	B-Process
-management	155	165	I-Process
-platform	166	174	I-Process
-.	174	175	O
-
-After	176	181	O
-the	182	185	O
-galloping	186	195	B-Process
-occurrence	196	206	I-Process
-in	207	209	O
-2009–2010	210	219	O
-'s	219	221	O
-winter	222	228	O
-the	229	232	O
-department	233	243	O
-of	244	246	O
-productive	247	257	O
-of	258	260	O
-the	261	264	O
-State	265	270	O
-Grid	271	275	O
-Corporation	276	287	O
-organized	288	297	O
-a	298	299	O
-lot	300	303	O
-of	304	306	O
-human	307	312	O
-to	313	315	O
-carry	316	321	B-Process
-out	322	325	I-Process
-the	326	329	I-Process
-research	330	338	I-Process
-of	339	341	I-Process
-galloping	342	351	I-Process
-information	352	363	I-Process
-,	363	364	I-Process
-this	365	369	O
-work	370	374	O
-is	375	377	O
-time	378	382	O
-–	382	383	O
-consuming	383	392	O
-and	393	396	O
-inefficient	397	408	O
-.	408	409	O
-
-The	410	413	O
-State	414	419	O
-Grid	420	424	O
-Corporation	425	436	O
-has	437	440	O
-used	441	445	O
-the	446	449	O
-production	450	460	B-Material
-management	461	471	I-Material
-system	472	478	I-Material
-(	479	480	O
-PMS	480	483	B-Material
-)	483	484	O
-which	485	490	O
-is	491	493	O
-a	494	495	O
-powerful	496	504	O
-and	505	508	O
-easy	509	513	O
-to	514	516	O
-use	517	520	O
-.	520	521	O
-
-With	522	526	O
-the	527	530	O
-help	531	535	O
-of	536	538	O
-the	539	542	O
-system	543	549	O
-we	550	552	O
-can	553	556	O
-create	557	563	B-Task
-a	564	565	I-Task
-galloping	566	575	I-Task
-database	576	584	I-Task
-which	585	590	O
-can	591	594	O
-save	595	599	B-Process
-resources	600	609	I-Process
-and	610	613	I-Process
-storage	614	621	I-Process
-the	622	625	I-Process
-galloping	626	635	I-Process
-data	636	640	I-Process
-.	640	641	O
-
-To	642	644	O
-build	645	650	O
-and	651	654	O
-put	655	658	O
-it	659	661	O
-into	662	666	O
-application	667	678	B-Process
-of	679	681	I-Process
-database	682	690	I-Process
-can	691	694	O
-provide	695	702	O
-technical	703	712	B-Process
-support	713	720	I-Process
-for	721	724	O
-line	725	729	B-Process
-galloping	730	739	I-Process
-prevention	740	750	I-Process
-and	751	754	O
-galloping	755	764	B-Process
-research	765	773	I-Process
-work	774	778	I-Process
-.	778	779	O
+Our	0,3	O	O
+country	4,11	O	O
+is	12,14	O	O
+rich	15,19	O	O
+of	20,22	O	O
+line	23,27	O	B-Process
+galloping	28,37	O	I-Process
+,	37,38	O	O
+there	39,44	O	O
+are	45,48	O	O
+many	49,53	O	O
+important	54,63	O	O
+galloping	64,73	O	B-Material
+data	74,78	O	I-Material
+failed	79,85	O	O
+to	86,88	O	O
+collect	89,96	O	B-Task
+systematically	97,111	O	I-Task
+and	112,115	O	I-Task
+completely	116,126	O	I-Task
+because	127,134	O	O
+there	135,140	O	O
+is	141,143	O	O
+no	144,146	O	O
+unified	147,154	O	B-Process
+management	155,165	O	I-Process
+platform	166,174	O	I-Process
+.	174,175	O	O
+
+After	176,181	O	O
+the	182,185	O	O
+galloping	186,195	O	B-Process
+occurrence	196,206	O	I-Process
+in	207,209	O	O
+2009–2010	210,219	O	O
+'s	219,221	O	O
+winter	222,228	O	O
+the	229,232	O	O
+department	233,243	O	O
+of	244,246	O	O
+productive	247,257	O	O
+of	258,260	O	O
+the	261,264	O	O
+State	265,270	O	O
+Grid	271,275	O	O
+Corporation	276,287	O	O
+organized	288,297	O	O
+a	298,299	O	O
+lot	300,303	O	O
+of	304,306	O	O
+human	307,312	O	O
+to	313,315	O	O
+carry	316,321	O	B-Process
+out	322,325	O	I-Process
+the	326,329	O	I-Process
+research	330,338	O	I-Process
+of	339,341	O	I-Process
+galloping	342,351	O	I-Process
+information	352,363	O	I-Process
+,	363,364	O	I-Process
+this	365,369	O	O
+work	370,374	O	O
+is	375,377	O	O
+time	378,382	O	O
+–	382,383	O	O
+consuming	383,392	O	O
+and	393,396	O	O
+inefficient	397,408	O	O
+.	408,409	O	O
+
+The	410,413	O	O
+State	414,419	O	O
+Grid	420,424	O	O
+Corporation	425,436	O	O
+has	437,440	O	O
+used	441,445	O	O
+the	446,449	O	O
+production	450,460	O	B-Material
+management	461,471	O	I-Material
+system	472,478	O	I-Material
+(	479,480	O	O
+PMS	480,483	O	B-Material
+)	483,484	O	O
+which	485,490	O	O
+is	491,493	O	O
+a	494,495	O	O
+powerful	496,504	O	O
+and	505,508	O	O
+easy	509,513	O	O
+to	514,516	O	O
+use	517,520	O	O
+.	520,521	O	O
+
+With	522,526	O	O
+the	527,530	O	O
+help	531,535	O	O
+of	536,538	O	O
+the	539,542	O	O
+system	543,549	O	O
+we	550,552	O	O
+can	553,556	O	O
+create	557,563	O	B-Task
+a	564,565	O	I-Task
+galloping	566,575	O	I-Task
+database	576,584	O	I-Task
+which	585,590	O	O
+can	591,594	O	O
+save	595,599	O	B-Process
+resources	600,609	O	I-Process
+and	610,613	O	I-Process
+storage	614,621	O	I-Process
+the	622,625	O	I-Process
+galloping	626,635	O	I-Process
+data	636,640	O	I-Process
+.	640,641	O	O
+
+To	642,644	O	O
+build	645,650	O	O
+and	651,654	O	O
+put	655,658	O	O
+it	659,661	O	O
+into	662,666	O	O
+application	667,678	O	B-Process
+of	679,681	O	I-Process
+database	682,690	O	I-Process
+can	691,694	O	O
+provide	695,702	O	O
+technical	703,712	O	B-Process
+support	713,720	O	I-Process
+for	721,724	O	O
+line	725,729	O	B-Process
+galloping	730,739	O	I-Process
+prevention	740,750	O	I-Process
+and	751,754	O	O
+galloping	755,764	O	B-Process
+research	765,773	O	I-Process
+work	774,778	O	I-Process
+.	778,779	O	O
 
 
 -DOCSTART- (S2212671612001618)
 
-This	0	4	O
-paper	5	10	O
-presents	11	19	O
-a	20	21	O
-non	22	25	B-Process
--	25	26	I-Process
-fragile	26	33	I-Process
-controller	34	44	I-Process
-design	45	51	I-Process
-method	52	58	I-Process
-based	59	64	O
-on	65	67	O
-system	68	74	B-Process
-quadratic	75	84	I-Process
-performance	85	96	I-Process
-optimization	97	109	I-Process
-.	109	110	O
-
-For	111	114	O
-the	115	118	O
-additive	119	127	B-Process
-controller	128	138	I-Process
-gain	139	143	I-Process
-variations	144	154	I-Process
-,	154	155	O
-the	156	159	O
-necessary	160	169	O
-and	170	173	O
-sufficient	174	184	O
-conditions	185	195	O
-for	196	199	O
-the	200	203	O
-existence	204	213	O
-of	214	216	O
-non	217	220	B-Process
--	220	221	I-Process
-fragile	221	228	I-Process
-state	229	234	I-Process
-feedback	235	243	I-Process
-controller	244	254	I-Process
-are	255	258	O
-given	259	264	O
-and	265	268	O
-transformed	269	280	B-Process
-to	281	283	O
-the	284	287	O
-LMI	288	291	B-Task
-problems	292	300	I-Task
-,	300	301	O
-which	302	307	O
-simplifies	308	318	B-Process
-the	319	322	I-Process
-solutions	323	332	I-Process
-to	333	335	O
-obtain	336	342	O
-non	343	346	B-Process
--	346	347	I-Process
-fragile	347	354	I-Process
-state	355	360	I-Process
-feedback	361	369	I-Process
-controllers	370	381	I-Process
-.	381	382	O
-
-The	383	386	O
-flight	387	393	B-Process
-control	394	401	I-Process
-simulation	402	412	I-Process
-results	413	420	O
-prove	421	426	O
-the	427	430	O
-reliability	431	442	O
-and	443	446	O
-validity	447	455	O
-of	456	458	O
-the	459	462	O
-method	463	469	O
-.	469	470	O
+This	0,4	O	O
+paper	5,10	O	O
+presents	11,19	O	O
+a	20,21	O	O
+non	22,25	O	B-Process
+-	25,26	O	I-Process
+fragile	26,33	O	I-Process
+controller	34,44	O	I-Process
+design	45,51	O	I-Process
+method	52,58	O	I-Process
+based	59,64	O	O
+on	65,67	O	O
+system	68,74	O	B-Process
+quadratic	75,84	O	I-Process
+performance	85,96	O	I-Process
+optimization	97,109	O	I-Process
+.	109,110	O	O
+
+For	111,114	O	O
+the	115,118	O	O
+additive	119,127	O	B-Process
+controller	128,138	O	I-Process
+gain	139,143	O	I-Process
+variations	144,154	O	I-Process
+,	154,155	O	O
+the	156,159	O	O
+necessary	160,169	O	O
+and	170,173	O	O
+sufficient	174,184	O	O
+conditions	185,195	O	O
+for	196,199	O	O
+the	200,203	O	O
+existence	204,213	O	O
+of	214,216	O	O
+non	217,220	O	B-Process
+-	220,221	O	I-Process
+fragile	221,228	O	I-Process
+state	229,234	O	I-Process
+feedback	235,243	O	I-Process
+controller	244,254	O	I-Process
+are	255,258	O	O
+given	259,264	O	O
+and	265,268	O	O
+transformed	269,280	O	B-Process
+to	281,283	O	O
+the	284,287	O	O
+LMI	288,291	O	B-Task
+problems	292,300	O	I-Task
+,	300,301	O	O
+which	302,307	O	O
+simplifies	308,318	O	B-Process
+the	319,322	O	I-Process
+solutions	323,332	O	I-Process
+to	333,335	O	O
+obtain	336,342	O	O
+non	343,346	O	B-Process
+-	346,347	O	I-Process
+fragile	347,354	O	I-Process
+state	355,360	O	I-Process
+feedback	361,369	O	I-Process
+controllers	370,381	O	I-Process
+.	381,382	O	O
+
+The	383,386	O	O
+flight	387,393	O	B-Process
+control	394,401	O	I-Process
+simulation	402,412	O	I-Process
+results	413,420	O	O
+prove	421,426	O	O
+the	427,430	O	O
+reliability	431,442	O	O
+and	443,446	O	O
+validity	447,455	O	O
+of	456,458	O	O
+the	459,462	O	O
+method	463,469	O	O
+.	469,470	O	O
 
 
 -DOCSTART- (S221267161200162X)
 
-A	0	1	O
-fuzzy	2	7	B-Task
--	7	8	I-Task
-Hammerstein	8	19	I-Task
-model	20	25	I-Task
-predictive	26	36	I-Task
-control	37	44	I-Task
-method	45	51	I-Task
-is	52	54	O
-proposed	55	63	O
-for	64	67	O
-a	68	69	O
-continuous	70	80	B-Material
-stirred	81	88	I-Material
--	88	89	I-Material
-tank	89	93	I-Material
-reactor	94	101	I-Material
-(	102	103	O
-CSTR	103	107	B-Material
-)	107	108	O
-.	108	109	O
-
-In	110	112	O
-this	113	117	O
-paper	118	123	O
-T	124	125	B-Process
--	125	126	I-Process
-S	126	127	I-Process
-fuzzy	128	133	I-Process
-model	134	139	I-Process
-is	140	142	O
-used	143	147	O
-to	148	150	O
-approximate	151	162	O
-the	163	166	O
-static	167	173	B-Task
-nonlinear	174	183	I-Task
-characteristics	184	199	I-Task
-of	200	202	I-Task
-Hammerstein	203	214	I-Task
-model	215	220	I-Task
-,	220	221	O
-and	222	225	O
-a	226	227	O
-linear	228	234	B-Process
-autoregressive	235	249	I-Process
-model	250	255	I-Process
-is	256	258	O
-used	259	263	O
-to	264	266	O
-solve	267	272	O
-the	273	276	O
-results	277	284	O
-of	285	287	O
-optimal	288	295	B-Process
-control	296	303	I-Process
-.	303	304	O
-
-The	305	308	O
-designed	309	317	O
-nonlinear	318	327	B-Process
-predictive	328	338	I-Process
-controller	339	349	I-Process
-using	350	355	O
-Hammerstein	356	367	B-Process
-model	368	373	I-Process
-make	374	378	O
-good	379	383	O
-use	384	387	O
-of	388	390	O
-the	391	394	O
-ability	395	402	O
-of	403	405	O
-universal	406	415	B-Process
-approach	416	424	I-Process
-nonlinear	425	434	I-Process
-of	435	437	O
-T	438	439	B-Process
--	439	440	I-Process
-S	440	441	I-Process
-model	442	447	I-Process
-,	447	448	O
-and	449	452	O
-divide	453	459	O
-the	460	463	O
-question	464	472	O
-of	473	475	O
-nonlinear	476	485	B-Process
-predictive	486	496	I-Process
-control	497	504	I-Process
-into	505	509	O
-the	510	513	O
-nonlinear	514	523	B-Process
-model	524	529	I-Process
-recongnization	530	544	I-Process
-and	545	548	O
-the	549	552	O
-question	553	561	O
-of	562	564	O
-linear	565	571	B-Process
-predictive	572	582	I-Process
-control	583	590	I-Process
-.	590	591	O
-
-The	592	595	O
-application	596	607	O
-results	608	615	O
-of	616	618	O
-CSTR	619	623	B-Process
-process	624	631	I-Process
-show	632	636	O
-the	637	640	O
-proposed	641	649	O
-control	650	657	B-Process
-method	658	664	I-Process
-has	665	668	O
-good	669	673	O
-control	674	681	O
-performance	682	693	O
-compared	694	702	O
-to	703	705	O
-PID	706	709	B-Material
-controller	710	720	I-Material
-.	720	721	O
+A	0,1	O	O
+fuzzy	2,7	O	B-Task
+-	7,8	O	I-Task
+Hammerstein	8,19	O	I-Task
+model	20,25	O	I-Task
+predictive	26,36	O	I-Task
+control	37,44	O	I-Task
+method	45,51	O	I-Task
+is	52,54	O	O
+proposed	55,63	O	O
+for	64,67	O	O
+a	68,69	O	O
+continuous	70,80	O	B-Material
+stirred	81,88	O	I-Material
+-	88,89	O	I-Material
+tank	89,93	O	I-Material
+reactor	94,101	O	I-Material
+(	102,103	O	O
+CSTR	103,107	O	B-Material
+)	107,108	O	O
+.	108,109	O	O
+
+In	110,112	O	O
+this	113,117	O	O
+paper	118,123	O	O
+T	124,125	O	B-Process
+-	125,126	O	I-Process
+S	126,127	O	I-Process
+fuzzy	128,133	O	I-Process
+model	134,139	O	I-Process
+is	140,142	O	O
+used	143,147	O	O
+to	148,150	O	O
+approximate	151,162	O	O
+the	163,166	O	O
+static	167,173	O	B-Task
+nonlinear	174,183	O	I-Task
+characteristics	184,199	O	I-Task
+of	200,202	O	I-Task
+Hammerstein	203,214	O	I-Task
+model	215,220	O	I-Task
+,	220,221	O	O
+and	222,225	O	O
+a	226,227	O	O
+linear	228,234	O	B-Process
+autoregressive	235,249	O	I-Process
+model	250,255	O	I-Process
+is	256,258	O	O
+used	259,263	O	O
+to	264,266	O	O
+solve	267,272	O	O
+the	273,276	O	O
+results	277,284	O	O
+of	285,287	O	O
+optimal	288,295	O	B-Process
+control	296,303	O	I-Process
+.	303,304	O	O
+
+The	305,308	O	O
+designed	309,317	O	O
+nonlinear	318,327	O	B-Process
+predictive	328,338	O	I-Process
+controller	339,349	O	I-Process
+using	350,355	O	O
+Hammerstein	356,367	O	B-Process
+model	368,373	O	I-Process
+make	374,378	O	O
+good	379,383	O	O
+use	384,387	O	O
+of	388,390	O	O
+the	391,394	O	O
+ability	395,402	O	O
+of	403,405	O	O
+universal	406,415	O	B-Process
+approach	416,424	O	I-Process
+nonlinear	425,434	O	I-Process
+of	435,437	O	O
+T	438,439	O	B-Process
+-	439,440	O	I-Process
+S	440,441	O	I-Process
+model	442,447	O	I-Process
+,	447,448	O	O
+and	449,452	O	O
+divide	453,459	O	O
+the	460,463	O	O
+question	464,472	O	O
+of	473,475	O	O
+nonlinear	476,485	O	B-Process
+predictive	486,496	O	I-Process
+control	497,504	O	I-Process
+into	505,509	O	O
+the	510,513	O	O
+nonlinear	514,523	O	B-Process
+model	524,529	O	I-Process
+recongnization	530,544	O	I-Process
+and	545,548	O	O
+the	549,552	O	O
+question	553,561	O	O
+of	562,564	O	O
+linear	565,571	O	B-Process
+predictive	572,582	O	I-Process
+control	583,590	O	I-Process
+.	590,591	O	O
+
+The	592,595	O	O
+application	596,607	O	O
+results	608,615	O	O
+of	616,618	O	O
+CSTR	619,623	O	B-Process
+process	624,631	O	I-Process
+show	632,636	O	O
+the	637,640	O	O
+proposed	641,649	O	O
+control	650,657	O	B-Process
+method	658,664	O	I-Process
+has	665,668	O	O
+good	669,673	O	O
+control	674,681	O	O
+performance	682,693	O	O
+compared	694,702	O	O
+to	703,705	O	O
+PID	706,709	O	B-Material
+controller	710,720	O	I-Material
+.	720,721	O	O
 
 
 -DOCSTART- (S2212671612001692)
 
-The	0	3	O
-key	4	7	O
-point	8	13	O
-of	14	16	O
-robot	17	22	B-Task
-dynamics	23	31	I-Task
-is	32	34	O
-optimal	35	42	O
-design	43	49	O
-and	50	53	O
-control	54	61	O
-.	61	62	O
-
-The	63	66	O
-efficiency	67	77	B-Task
-of	78	80	I-Task
-robot	81	86	I-Task
-dynamics	87	95	I-Task
-has	96	99	O
-been	100	104	O
-the	105	108	O
-goal	109	113	O
-of	114	116	O
-researchers	117	128	O
-in	129	131	O
-recent	132	138	O
-years	139	144	O
-.	144	145	O
-
-Screws	146	152	B-Material
-are	153	156	O
-used	157	161	O
-to	162	164	O
-describe	165	173	B-Task
-dynamic	174	181	I-Task
-problems	182	190	I-Task
-in	191	193	O
-this	194	198	O
-paper	199	204	O
-,	204	205	O
-and	206	209	O
-an	210	212	O
-O(N	213	216	B-Process
-)	216	217	I-Process
-recursive	218	227	I-Process
-robot	228	233	I-Process
-forward	234	241	I-Process
-dynamic	242	249	I-Process
-algorithm	250	259	I-Process
-is	260	262	O
-given	263	268	O
-on	269	271	O
-this	272	276	O
-.	276	277	O
-
-It	278	280	O
-can	281	284	O
-be	285	287	O
-easily	288	294	O
-extended	295	303	O
-to	304	306	O
-tree	307	311	B-Process
-topology	312	320	I-Process
-,	320	321	I-Process
-closed	322	328	I-Process
-loop	329	333	I-Process
-and	334	337	I-Process
-spatial	338	345	I-Process
-robot	346	351	I-Process
-systems	352	359	I-Process
-.	359	360	O
-
-And	361	364	O
-three	365	370	O
-classic	371	378	O
-methods	379	386	O
-of	387	389	O
-robot	390	395	B-Task
-dynamics	396	404	I-Task
-are	405	408	O
-compared	409	417	O
-for	418	421	O
-easy	422	426	O
-of	427	429	O
-use	430	433	O
-.	433	434	O
-
-The	435	438	O
-results	439	446	O
-show	447	451	O
-that	452	456	O
-dynamics	457	465	B-Process
-described	466	475	I-Process
-with	476	480	I-Process
-screws	481	487	I-Process
-are	488	491	O
-helpful	492	499	O
-in	500	502	O
-high	503	507	B-Process
-efficient	508	517	I-Process
-dynamics	518	526	I-Process
-modelling	527	536	I-Process
-.	536	537	I-Process
-
-The	538	541	O
-dynamical	542	551	B-Process
-expressions	552	563	I-Process
-based	564	569	O
-on	570	572	O
-screws	573	579	B-Material
-are	580	583	O
-concise	584	591	O
-and	592	595	O
-clear	596	601	O
-.	601	602	O
-
-It	603	605	O
-'s	605	607	O
-efficiency	608	618	O
-is	619	621	O
-high	622	626	O
-of	627	629	O
-O(N	630	633	O
-)	633	634	O
-and	635	638	O
-is	639	641	O
-linear	642	648	B-Process
-to	649	651	I-Process
-the	652	655	I-Process
-degree	656	662	I-Process
-of	663	665	I-Process
-freedom	666	673	I-Process
-.	673	674	O
-
-With	675	679	O
-the	680	683	O
-improvement	684	695	B-Task
-of	696	698	I-Task
-computation	699	710	I-Task
-efficiency	711	721	I-Task
-,	721	722	O
-it	723	725	O
-will	726	730	O
-make	731	735	O
-the	736	739	O
-real	740	744	B-Process
--	744	745	I-Process
-time	745	749	I-Process
-dynamics	750	758	I-Process
-control	759	766	I-Process
-become	767	773	O
-possible	774	782	O
-.	782	783	O
+The	0,3	O	O
+key	4,7	O	O
+point	8,13	O	O
+of	14,16	O	O
+robot	17,22	O	B-Task
+dynamics	23,31	O	I-Task
+is	32,34	O	O
+optimal	35,42	O	O
+design	43,49	O	O
+and	50,53	O	O
+control	54,61	O	O
+.	61,62	O	O
+
+The	63,66	O	O
+efficiency	67,77	O	B-Task
+of	78,80	O	I-Task
+robot	81,86	O	I-Task
+dynamics	87,95	O	I-Task
+has	96,99	O	O
+been	100,104	O	O
+the	105,108	O	O
+goal	109,113	O	O
+of	114,116	O	O
+researchers	117,128	O	O
+in	129,131	O	O
+recent	132,138	O	O
+years	139,144	O	O
+.	144,145	O	O
+
+Screws	146,152	O	B-Material
+are	153,156	O	O
+used	157,161	O	O
+to	162,164	O	O
+describe	165,173	O	B-Task
+dynamic	174,181	O	I-Task
+problems	182,190	O	I-Task
+in	191,193	O	O
+this	194,198	O	O
+paper	199,204	O	O
+,	204,205	O	O
+and	206,209	O	O
+an	210,212	O	O
+O(N	213,216	O	B-Process
+)	216,217	O	I-Process
+recursive	218,227	O	I-Process
+robot	228,233	O	I-Process
+forward	234,241	O	I-Process
+dynamic	242,249	O	I-Process
+algorithm	250,259	O	I-Process
+is	260,262	O	O
+given	263,268	O	O
+on	269,271	O	O
+this	272,276	O	O
+.	276,277	O	O
+
+It	278,280	O	O
+can	281,284	O	O
+be	285,287	O	O
+easily	288,294	O	O
+extended	295,303	O	O
+to	304,306	O	O
+tree	307,311	O	B-Process
+topology	312,320	O	I-Process
+,	320,321	O	I-Process
+closed	322,328	O	I-Process
+loop	329,333	O	I-Process
+and	334,337	O	I-Process
+spatial	338,345	O	I-Process
+robot	346,351	O	I-Process
+systems	352,359	O	I-Process
+.	359,360	O	O
+
+And	361,364	O	O
+three	365,370	O	O
+classic	371,378	O	O
+methods	379,386	O	O
+of	387,389	O	O
+robot	390,395	O	B-Task
+dynamics	396,404	O	I-Task
+are	405,408	O	O
+compared	409,417	O	O
+for	418,421	O	O
+easy	422,426	O	O
+of	427,429	O	O
+use	430,433	O	O
+.	433,434	O	O
+
+The	435,438	O	O
+results	439,446	O	O
+show	447,451	O	O
+that	452,456	O	O
+dynamics	457,465	O	B-Process
+described	466,475	O	I-Process
+with	476,480	O	I-Process
+screws	481,487	O	I-Process
+are	488,491	O	O
+helpful	492,499	O	O
+in	500,502	O	O
+high	503,507	O	B-Process
+efficient	508,517	O	I-Process
+dynamics	518,526	O	I-Process
+modelling	527,536	O	I-Process
+.	536,537	O	I-Process
+
+The	538,541	O	O
+dynamical	542,551	O	B-Process
+expressions	552,563	O	I-Process
+based	564,569	O	O
+on	570,572	O	O
+screws	573,579	O	B-Material
+are	580,583	O	O
+concise	584,591	O	O
+and	592,595	O	O
+clear	596,601	O	O
+.	601,602	O	O
+
+It	603,605	O	O
+'s	605,607	O	O
+efficiency	608,618	O	O
+is	619,621	O	O
+high	622,626	O	O
+of	627,629	O	O
+O(N	630,633	O	O
+)	633,634	O	O
+and	635,638	O	O
+is	639,641	O	O
+linear	642,648	O	B-Process
+to	649,651	O	I-Process
+the	652,655	O	I-Process
+degree	656,662	O	I-Process
+of	663,665	O	I-Process
+freedom	666,673	O	I-Process
+.	673,674	O	O
+
+With	675,679	O	O
+the	680,683	O	O
+improvement	684,695	O	B-Task
+of	696,698	O	I-Task
+computation	699,710	O	I-Task
+efficiency	711,721	O	I-Task
+,	721,722	O	O
+it	723,725	O	O
+will	726,730	O	O
+make	731,735	O	O
+the	736,739	O	O
+real	740,744	O	B-Process
+-	744,745	O	I-Process
+time	745,749	O	I-Process
+dynamics	750,758	O	I-Process
+control	759,766	O	I-Process
+become	767,773	O	O
+possible	774,782	O	O
+.	782,783	O	O
 
 
 -DOCSTART- (S2212671612001709)
 
-An	0	2	O
-algorithm	3	12	B-Task
-of	13	15	I-Task
-multi	16	21	I-Task
--	21	22	I-Task
-axis	22	26	I-Task
-NC	27	29	I-Task
-tool	30	34	I-Task
--	34	35	I-Task
-path	35	39	I-Task
-generation	40	50	I-Task
-for	51	54	I-Task
-subdivision	55	66	I-Task
-surfaces	67	75	I-Task
-is	76	78	O
-proposed	79	87	O
-.	87	88	O
-
-The	89	92	O
-algorithm	93	102	B-Process
-includes	103	111	O
-two	112	115	O
-steps	116	121	O
-:	121	122	O
-model	123	128	B-Process
-building	129	137	I-Process
-and	138	141	O
-tool	142	146	B-Process
-path	147	151	I-Process
-generation	152	162	I-Process
-.	162	163	O
-
-In	164	166	O
-the	167	170	O
-section	171	178	O
-of	179	181	O
-model	182	187	B-Process
-building	188	196	I-Process
-,	196	197	O
-in	198	200	O
-order	201	206	O
-to	207	209	O
-obtain	210	216	B-Task
-the	217	220	I-Task
-deformed	221	229	I-Task
-surface	230	237	I-Task
-,	237	238	O
-the	239	242	O
-deformation	243	254	B-Process
-vector	255	261	I-Process
-is	262	264	I-Process
-computed	265	273	I-Process
-which	274	279	O
-is	280	282	O
-associated	283	293	O
-with	294	298	O
-the	299	302	O
-curvature	303	312	B-Process
-and	313	316	I-Process
-the	317	320	I-Process
-slope	321	326	I-Process
-of	327	329	I-Process
-cutter	330	336	I-Process
-location	337	345	I-Process
-surface	346	353	I-Process
-.	353	354	O
-
-In	355	357	O
-the	358	361	O
-procedure	362	371	O
-of	372	374	O
-tool	375	379	B-Process
-path	380	384	I-Process
-generation	385	395	I-Process
-,	395	396	O
-the	397	400	O
-slicing	401	408	B-Process
-procedure	409	418	I-Process
-is	419	421	O
-adopted	422	429	O
-to	430	432	O
-get	433	436	O
-the	437	440	O
-CL	441	443	B-Material
-points	444	450	I-Material
-.	450	451	O
-
-In	452	454	O
-addition	455	463	O
-,	463	464	O
-the	465	468	O
-inversely	469	478	B-Process
-converted	479	488	I-Process
-method	489	495	I-Process
-is	496	498	O
-used	499	503	O
-.	503	504	O
-
-The	505	508	O
-method	509	515	O
-is	516	518	O
-tested	519	525	B-Task
-by	526	528	I-Task
-some	529	533	I-Task
-examples	534	542	I-Task
-with	543	547	I-Task
-actual	548	554	I-Task
-machining	555	564	I-Task
-.	564	565	O
-
-The	566	569	O
-results	570	577	O
-show	578	582	O
-that	583	587	O
-the	588	591	O
-method	592	598	O
-can	599	602	O
-effectively	603	614	O
-reduce	615	621	O
-the	622	625	O
-error	626	631	O
-of	632	634	O
-the	635	638	O
-scallop	639	646	B-Material
-height	647	653	I-Material
-for	654	657	O
-subdivision	658	669	B-Material
-surface	670	677	I-Material
-and	678	681	O
-obtain	682	688	O
-the	689	692	O
-better	693	699	O
-shape	700	705	O
-and	706	709	O
-quality	710	717	O
-.	717	718	O
-
-In	719	721	O
-addition	722	730	O
-,	730	731	O
-the	732	735	O
-computational	736	749	O
-complexity	750	760	O
-and	761	764	O
-is	765	767	O
-scalable	768	776	O
-and	777	780	O
-robust	781	787	O
-.	787	788	O
+An	0,2	O	O
+algorithm	3,12	O	B-Task
+of	13,15	O	I-Task
+multi	16,21	O	I-Task
+-	21,22	O	I-Task
+axis	22,26	O	I-Task
+NC	27,29	O	I-Task
+tool	30,34	O	I-Task
+-	34,35	O	I-Task
+path	35,39	O	I-Task
+generation	40,50	O	I-Task
+for	51,54	O	I-Task
+subdivision	55,66	O	I-Task
+surfaces	67,75	O	I-Task
+is	76,78	O	O
+proposed	79,87	O	O
+.	87,88	O	O
+
+The	89,92	O	O
+algorithm	93,102	O	B-Process
+includes	103,111	O	O
+two	112,115	O	O
+steps	116,121	O	O
+:	121,122	O	O
+model	123,128	O	B-Process
+building	129,137	O	I-Process
+and	138,141	O	O
+tool	142,146	O	B-Process
+path	147,151	O	I-Process
+generation	152,162	O	I-Process
+.	162,163	O	O
+
+In	164,166	O	O
+the	167,170	O	O
+section	171,178	O	O
+of	179,181	O	O
+model	182,187	O	B-Process
+building	188,196	O	I-Process
+,	196,197	O	O
+in	198,200	O	O
+order	201,206	O	O
+to	207,209	O	O
+obtain	210,216	O	B-Task
+the	217,220	O	I-Task
+deformed	221,229	O	I-Task
+surface	230,237	O	I-Task
+,	237,238	O	O
+the	239,242	O	O
+deformation	243,254	O	B-Process
+vector	255,261	O	I-Process
+is	262,264	O	I-Process
+computed	265,273	O	I-Process
+which	274,279	O	O
+is	280,282	O	O
+associated	283,293	O	O
+with	294,298	O	O
+the	299,302	O	O
+curvature	303,312	O	B-Process
+and	313,316	O	I-Process
+the	317,320	O	I-Process
+slope	321,326	O	I-Process
+of	327,329	O	I-Process
+cutter	330,336	O	I-Process
+location	337,345	O	I-Process
+surface	346,353	O	I-Process
+.	353,354	O	O
+
+In	355,357	O	O
+the	358,361	O	O
+procedure	362,371	O	O
+of	372,374	O	O
+tool	375,379	O	B-Process
+path	380,384	O	I-Process
+generation	385,395	O	I-Process
+,	395,396	O	O
+the	397,400	O	O
+slicing	401,408	O	B-Process
+procedure	409,418	O	I-Process
+is	419,421	O	O
+adopted	422,429	O	O
+to	430,432	O	O
+get	433,436	O	O
+the	437,440	O	O
+CL	441,443	O	B-Material
+points	444,450	O	I-Material
+.	450,451	O	O
+
+In	452,454	O	O
+addition	455,463	O	O
+,	463,464	O	O
+the	465,468	O	O
+inversely	469,478	O	B-Process
+converted	479,488	O	I-Process
+method	489,495	O	I-Process
+is	496,498	O	O
+used	499,503	O	O
+.	503,504	O	O
+
+The	505,508	O	O
+method	509,515	O	O
+is	516,518	O	O
+tested	519,525	O	B-Task
+by	526,528	O	I-Task
+some	529,533	O	I-Task
+examples	534,542	O	I-Task
+with	543,547	O	I-Task
+actual	548,554	O	I-Task
+machining	555,564	O	I-Task
+.	564,565	O	O
+
+The	566,569	O	O
+results	570,577	O	O
+show	578,582	O	O
+that	583,587	O	O
+the	588,591	O	O
+method	592,598	O	O
+can	599,602	O	O
+effectively	603,614	O	O
+reduce	615,621	O	O
+the	622,625	O	O
+error	626,631	O	O
+of	632,634	O	O
+the	635,638	O	O
+scallop	639,646	O	B-Material
+height	647,653	O	I-Material
+for	654,657	O	O
+subdivision	658,669	O	B-Material
+surface	670,677	O	I-Material
+and	678,681	O	O
+obtain	682,688	O	O
+the	689,692	O	O
+better	693,699	O	O
+shape	700,705	O	O
+and	706,709	O	O
+quality	710,717	O	O
+.	717,718	O	O
+
+In	719,721	O	O
+addition	722,730	O	O
+,	730,731	O	O
+the	732,735	O	O
+computational	736,749	O	O
+complexity	750,760	O	O
+and	761,764	O	O
+is	765,767	O	O
+scalable	768,776	O	O
+and	777,780	O	O
+robust	781,787	O	O
+.	787,788	O	O
 
 
 -DOCSTART- (S221267161200176X)
 
-Modeling	0	8	B-Task
-or	9	11	I-Task
-approximating	12	25	I-Task
-high	26	30	I-Task
-dimensional	31	42	I-Task
-,	42	43	I-Task
-computationally	44	59	I-Task
--	59	60	I-Task
-expensive	60	69	I-Task
-problems	70	78	I-Task
-faces	79	84	O
-an	85	87	O
-exponentially	88	101	O
-increasing	102	112	O
-difficulty	113	123	O
-,	123	124	O
-the	125	128	O
-“	129	130	O
-curse	130	135	B-Process
-of	136	138	I-Process
-dimensionality	139	153	I-Process
-”	153	154	O
-.	154	155	O
-
-This	156	160	O
-paper	161	166	O
-proposes	167	175	O
-a	176	177	O
-new	178	181	B-Process
-form	182	186	I-Process
-of	187	189	I-Process
-high	190	194	I-Process
-dimensional	195	206	I-Process
-model	207	212	I-Process
-representation	213	227	I-Process
-(	228	229	O
-HDMR	229	233	B-Process
-)	233	234	O
-by	235	237	O
-utilizing	238	247	O
-the	248	251	O
-support	252	259	B-Process
-vector	260	266	I-Process
-regression	267	277	I-Process
-(	278	279	O
-SVR	279	282	B-Process
-)	282	283	O
-,	283	284	O
-termed	285	291	O
-as	292	294	O
-adaptive	295	303	B-Process
-SVR	304	307	I-Process
--	307	308	I-Process
-HMDR	308	312	I-Process
-,	312	313	O
-to	314	316	O
-conquer	317	324	B-Task
-this	325	329	I-Task
-dilemma	330	337	I-Task
-.	337	338	O
-
-The	339	342	O
-proposed	343	351	O
-model	352	357	O
-could	358	363	O
-reveal	364	370	O
-explicit	371	379	B-Process
-correlations	380	392	I-Process
-among	393	398	O
-different	399	408	O
-input	409	414	B-Material
-variables	415	424	I-Material
-of	425	427	O
-the	428	431	O
-underlying	432	442	O
-function	443	451	O
-which	452	457	O
-is	458	460	O
-unknown	461	468	O
-or	469	471	O
-expensive	472	481	O
-for	482	485	O
-computation	486	497	B-Process
-.	497	498	O
-
-Taking	499	505	O
-advantage	506	515	O
-of	516	518	O
-HDMR	519	523	B-Process
-'s	523	525	O
-hierarchical	526	538	O
-structure	539	548	O
-,	548	549	O
-it	550	552	O
-could	553	558	O
-alleviate	559	568	B-Task
-the	569	572	I-Task
-exponential	573	584	I-Task
-increasing	585	595	I-Task
-difficulty	596	606	I-Task
-,	606	607	O
-and	608	611	O
-gain	612	616	O
-satisfying	617	627	O
-accuracy	628	636	O
-with	637	641	O
-small	642	647	O
-set	648	651	O
-of	652	654	O
-samples	655	662	O
-by	663	665	O
-SVR	666	669	B-Process
-.	669	670	O
-
-Numerical	671	680	O
-examples	681	689	O
-of	690	692	O
-different	693	702	O
-dimensionality	703	717	O
-are	718	721	O
-given	722	727	O
-to	728	730	O
-illustrate	731	741	B-Task
-the	742	745	I-Task
-principle	746	755	I-Task
-,	755	756	I-Task
-procedure	757	766	I-Task
-and	767	770	I-Task
-performance	771	782	I-Task
-of	783	785	O
-SVR	786	789	B-Process
--	789	790	I-Process
-HDMR	790	794	I-Process
-.	794	795	O
+Modeling	0,8	O	B-Task
+or	9,11	O	I-Task
+approximating	12,25	O	I-Task
+high	26,30	O	I-Task
+dimensional	31,42	O	I-Task
+,	42,43	O	I-Task
+computationally	44,59	O	I-Task
+-	59,60	O	I-Task
+expensive	60,69	O	I-Task
+problems	70,78	O	I-Task
+faces	79,84	O	O
+an	85,87	O	O
+exponentially	88,101	O	O
+increasing	102,112	O	O
+difficulty	113,123	O	O
+,	123,124	O	O
+the	125,128	O	O
+“	129,130	O	O
+curse	130,135	O	B-Process
+of	136,138	O	I-Process
+dimensionality	139,153	O	I-Process
+”	153,154	O	O
+.	154,155	O	O
+
+This	156,160	O	O
+paper	161,166	O	O
+proposes	167,175	O	O
+a	176,177	O	O
+new	178,181	O	B-Process
+form	182,186	O	I-Process
+of	187,189	O	I-Process
+high	190,194	O	I-Process
+dimensional	195,206	O	I-Process
+model	207,212	O	I-Process
+representation	213,227	O	I-Process
+(	228,229	O	O
+HDMR	229,233	O	B-Process
+)	233,234	O	O
+by	235,237	O	O
+utilizing	238,247	O	O
+the	248,251	O	O
+support	252,259	O	B-Process
+vector	260,266	O	I-Process
+regression	267,277	O	I-Process
+(	278,279	O	O
+SVR	279,282	O	B-Process
+)	282,283	O	O
+,	283,284	O	O
+termed	285,291	O	O
+as	292,294	O	O
+adaptive	295,303	O	B-Process
+SVR	304,307	O	I-Process
+-	307,308	O	I-Process
+HMDR	308,312	O	I-Process
+,	312,313	O	O
+to	314,316	O	O
+conquer	317,324	O	B-Task
+this	325,329	O	I-Task
+dilemma	330,337	O	I-Task
+.	337,338	O	O
+
+The	339,342	O	O
+proposed	343,351	O	O
+model	352,357	O	O
+could	358,363	O	O
+reveal	364,370	O	O
+explicit	371,379	O	B-Process
+correlations	380,392	O	I-Process
+among	393,398	O	O
+different	399,408	O	O
+input	409,414	O	B-Material
+variables	415,424	O	I-Material
+of	425,427	O	O
+the	428,431	O	O
+underlying	432,442	O	O
+function	443,451	O	O
+which	452,457	O	O
+is	458,460	O	O
+unknown	461,468	O	O
+or	469,471	O	O
+expensive	472,481	O	O
+for	482,485	O	O
+computation	486,497	O	B-Process
+.	497,498	O	O
+
+Taking	499,505	O	O
+advantage	506,515	O	O
+of	516,518	O	O
+HDMR	519,523	O	B-Process
+'s	523,525	O	O
+hierarchical	526,538	O	O
+structure	539,548	O	O
+,	548,549	O	O
+it	550,552	O	O
+could	553,558	O	O
+alleviate	559,568	O	B-Task
+the	569,572	O	I-Task
+exponential	573,584	O	I-Task
+increasing	585,595	O	I-Task
+difficulty	596,606	O	I-Task
+,	606,607	O	O
+and	608,611	O	O
+gain	612,616	O	O
+satisfying	617,627	O	O
+accuracy	628,636	O	O
+with	637,641	O	O
+small	642,647	O	O
+set	648,651	O	O
+of	652,654	O	O
+samples	655,662	O	O
+by	663,665	O	O
+SVR	666,669	O	B-Process
+.	669,670	O	O
+
+Numerical	671,680	O	O
+examples	681,689	O	O
+of	690,692	O	O
+different	693,702	O	O
+dimensionality	703,717	O	O
+are	718,721	O	O
+given	722,727	O	O
+to	728,730	O	O
+illustrate	731,741	O	B-Task
+the	742,745	O	I-Task
+principle	746,755	O	I-Task
+,	755,756	O	I-Task
+procedure	757,766	O	I-Task
+and	767,770	O	I-Task
+performance	771,782	O	I-Task
+of	783,785	O	O
+SVR	786,789	O	B-Process
+-	789,790	O	I-Process
+HDMR	790,794	O	I-Process
+.	794,795	O	O
 
 
 -DOCSTART- (S2212671612001783)
 
-Metal	0	5	B-Material
-–	5	6	I-Material
-intermetallic	6	19	I-Material
-laminated	20	29	I-Material
-(	30	31	O
-MIL	31	34	B-Material
-)	34	35	O
-composites	36	46	O
-are	47	50	O
-fabricated	51	61	B-Process
-upon	62	66	I-Process
-reaction	67	75	I-Process
-sintering	76	85	I-Process
-of	86	88	O
-titanium	89	97	B-Material
-and	98	101	I-Material
-aluminum	102	110	I-Material
-foils	111	116	I-Material
-of	117	119	O
-various	120	127	O
-thicknesses	128	139	O
-.	139	140	O
-
-The	141	144	O
-intermetallic	145	158	B-Process
-phase	159	164	I-Process
-of	165	167	O
-Al3Ti	168	173	B-Process
-forming	174	181	I-Process
-during	182	188	O
-the	189	192	O
-above	193	198	O
-processing	199	209	B-Process
-gives	210	215	O
-high	216	220	O
-hardness	221	229	O
-and	230	233	O
-stiffness	234	243	O
-to	244	246	O
-the	247	250	O
-composite	251	260	B-Material
-,	260	261	O
-while	262	267	O
-unreacted	268	277	B-Material
-titanium	278	286	I-Material
-provides	287	295	O
-the	296	299	O
-necessary	300	309	O
-high	310	314	O
-strength	315	323	O
-and	324	327	O
-ductility	328	337	O
-.	337	338	O
-
-Some	339	343	O
-results	344	351	O
-of	352	354	O
-studies	355	362	B-Process
-of	363	365	I-Process
-microstructure	366	380	I-Process
-and	381	384	O
-some	385	389	O
-mechanical	390	400	O
-properties	401	411	O
-of	412	414	O
-layered	415	422	B-Material
-composites	423	433	I-Material
-are	434	437	O
-presented	438	447	B-Task
-on	448	450	I-Task
-the	451	454	I-Task
-example	455	462	I-Task
-of	463	465	I-Task
-Ti	466	468	I-Task
--	468	469	I-Task
-Al	469	471	I-Task
-system	472	478	I-Task
-.	478	479	O
-
-Static	480	486	B-Task
-and	487	490	I-Task
-dynamic	491	498	I-Task
-tests	499	504	I-Task
-results	505	512	I-Task
-are	513	516	I-Task
-discussed	517	526	I-Task
-for	527	530	O
-the	531	534	O
-case	535	539	O
-when	540	544	O
-the	545	548	O
-intermetallic	549	562	B-Process
-reaction	563	571	I-Process
-was	572	575	O
-interrupted	576	587	B-Process
-in	588	590	O
-the	591	594	O
-course	595	601	O
-of	602	604	O
-intermetallic	605	618	B-Process
-sintering	619	628	I-Process
-and	629	632	O
-also	633	637	O
-for	638	641	O
-the	642	645	O
-case	646	650	O
-when	651	655	O
-it	656	658	O
-was	659	662	O
-completed	663	672	O
-.	672	673	O
+Metal	0,5	O	B-Material
+–	5,6	O	I-Material
+intermetallic	6,19	O	I-Material
+laminated	20,29	O	I-Material
+(	30,31	O	O
+MIL	31,34	O	B-Material
+)	34,35	O	O
+composites	36,46	O	O
+are	47,50	O	O
+fabricated	51,61	O	B-Process
+upon	62,66	O	I-Process
+reaction	67,75	O	I-Process
+sintering	76,85	O	I-Process
+of	86,88	O	O
+titanium	89,97	O	B-Material
+and	98,101	O	I-Material
+aluminum	102,110	O	I-Material
+foils	111,116	O	I-Material
+of	117,119	O	O
+various	120,127	O	O
+thicknesses	128,139	O	O
+.	139,140	O	O
+
+The	141,144	O	O
+intermetallic	145,158	O	B-Process
+phase	159,164	O	I-Process
+of	165,167	O	O
+Al3Ti	168,173	O	B-Process
+forming	174,181	O	I-Process
+during	182,188	O	O
+the	189,192	O	O
+above	193,198	O	O
+processing	199,209	O	B-Process
+gives	210,215	O	O
+high	216,220	O	O
+hardness	221,229	O	O
+and	230,233	O	O
+stiffness	234,243	O	O
+to	244,246	O	O
+the	247,250	O	O
+composite	251,260	O	B-Material
+,	260,261	O	O
+while	262,267	O	O
+unreacted	268,277	O	B-Material
+titanium	278,286	O	I-Material
+provides	287,295	O	O
+the	296,299	O	O
+necessary	300,309	O	O
+high	310,314	O	O
+strength	315,323	O	O
+and	324,327	O	O
+ductility	328,337	O	O
+.	337,338	O	O
+
+Some	339,343	O	O
+results	344,351	O	O
+of	352,354	O	O
+studies	355,362	O	B-Process
+of	363,365	O	I-Process
+microstructure	366,380	O	I-Process
+and	381,384	O	O
+some	385,389	O	O
+mechanical	390,400	O	O
+properties	401,411	O	O
+of	412,414	O	O
+layered	415,422	O	B-Material
+composites	423,433	O	I-Material
+are	434,437	O	O
+presented	438,447	O	B-Task
+on	448,450	O	I-Task
+the	451,454	O	I-Task
+example	455,462	O	I-Task
+of	463,465	O	I-Task
+Ti	466,468	O	I-Task
+-	468,469	O	I-Task
+Al	469,471	O	I-Task
+system	472,478	O	I-Task
+.	478,479	O	O
+
+Static	480,486	O	B-Task
+and	487,490	O	I-Task
+dynamic	491,498	O	I-Task
+tests	499,504	O	I-Task
+results	505,512	O	I-Task
+are	513,516	O	I-Task
+discussed	517,526	O	I-Task
+for	527,530	O	O
+the	531,534	O	O
+case	535,539	O	O
+when	540,544	O	O
+the	545,548	O	O
+intermetallic	549,562	O	B-Process
+reaction	563,571	O	I-Process
+was	572,575	O	O
+interrupted	576,587	O	B-Process
+in	588,590	O	O
+the	591,594	O	O
+course	595,601	O	O
+of	602,604	O	O
+intermetallic	605,618	O	B-Process
+sintering	619,628	O	I-Process
+and	629,632	O	O
+also	633,637	O	O
+for	638,641	O	O
+the	642,645	O	O
+case	646,650	O	O
+when	651,655	O	O
+it	656,658	O	O
+was	659,662	O	O
+completed	663,672	O	O
+.	672,673	O	O
 
 
 -DOCSTART- (S2212671612002120)
 
-A	0	1	O
-design	2	8	B-Process
-method	9	15	I-Process
-for	16	19	O
-network	20	27	B-Process
-attack	28	34	I-Process
-and	35	38	O
-defense	39	46	B-Process
-simulation	47	57	I-Process
-platform	58	66	I-Process
-is	67	69	O
-discussed	70	79	O
-in	80	82	O
-this	83	87	O
-paper	88	93	O
-.	93	94	O
-
-Firstly	95	102	O
-the	103	106	O
-component	107	116	O
-and	117	120	O
-function	121	129	O
-of	130	132	O
-the	133	136	O
-platform	137	145	B-Process
-are	146	149	O
-analyzed	150	158	O
-.	158	159	O
-
-Then	160	164	O
-Visio	165	170	B-Process
-second	171	177	I-Process
-development	178	189	I-Process
-method	190	196	I-Process
-is	197	199	O
-used	200	204	O
-to	205	207	O
-construct	208	217	B-Task
-the	218	221	I-Task
-virtual	222	229	I-Task
-network	230	237	I-Task
-topology	238	246	I-Task
-.	246	247	O
-
-The	248	251	O
-parsing	252	259	B-Task
-of	260	262	I-Task
-virtual	263	270	I-Task
-network	271	278	I-Task
-topology	279	287	I-Task
-is	288	290	O
-also	291	295	O
-researched	296	306	O
-and	307	310	O
-the	311	314	O
-relative	315	323	B-Material
-flow	324	328	I-Material
-sheet	329	334	I-Material
-is	335	337	O
-described	338	347	O
-.	347	348	O
-
-Lastly	349	355	O
-an	356	358	O
-example	359	366	O
-is	367	369	O
-carried	370	377	O
-out	378	381	O
-to	382	384	O
-test	385	389	B-Task
-performance	390	401	I-Task
-of	402	404	I-Task
-the	405	408	I-Task
-platform	409	417	I-Task
-.	417	418	O
-
-Simulation	419	429	O
-results	430	437	O
-show	438	442	O
-the	443	446	O
-effectiveness	447	460	O
-of	461	463	O
-the	464	467	O
-proposed	468	476	O
-method	477	483	O
-.	483	484	O
+A	0,1	O	O
+design	2,8	O	B-Process
+method	9,15	O	I-Process
+for	16,19	O	O
+network	20,27	O	B-Process
+attack	28,34	O	I-Process
+and	35,38	O	O
+defense	39,46	O	B-Process
+simulation	47,57	O	I-Process
+platform	58,66	O	I-Process
+is	67,69	O	O
+discussed	70,79	O	O
+in	80,82	O	O
+this	83,87	O	O
+paper	88,93	O	O
+.	93,94	O	O
+
+Firstly	95,102	O	O
+the	103,106	O	O
+component	107,116	O	O
+and	117,120	O	O
+function	121,129	O	O
+of	130,132	O	O
+the	133,136	O	O
+platform	137,145	O	B-Process
+are	146,149	O	O
+analyzed	150,158	O	O
+.	158,159	O	O
+
+Then	160,164	O	O
+Visio	165,170	O	B-Process
+second	171,177	O	I-Process
+development	178,189	O	I-Process
+method	190,196	O	I-Process
+is	197,199	O	O
+used	200,204	O	O
+to	205,207	O	O
+construct	208,217	O	B-Task
+the	218,221	O	I-Task
+virtual	222,229	O	I-Task
+network	230,237	O	I-Task
+topology	238,246	O	I-Task
+.	246,247	O	O
+
+The	248,251	O	O
+parsing	252,259	O	B-Task
+of	260,262	O	I-Task
+virtual	263,270	O	I-Task
+network	271,278	O	I-Task
+topology	279,287	O	I-Task
+is	288,290	O	O
+also	291,295	O	O
+researched	296,306	O	O
+and	307,310	O	O
+the	311,314	O	O
+relative	315,323	O	B-Material
+flow	324,328	O	I-Material
+sheet	329,334	O	I-Material
+is	335,337	O	O
+described	338,347	O	O
+.	347,348	O	O
+
+Lastly	349,355	O	O
+an	356,358	O	O
+example	359,366	O	O
+is	367,369	O	O
+carried	370,377	O	O
+out	378,381	O	O
+to	382,384	O	O
+test	385,389	O	B-Task
+performance	390,401	O	I-Task
+of	402,404	O	I-Task
+the	405,408	O	I-Task
+platform	409,417	O	I-Task
+.	417,418	O	O
+
+Simulation	419,429	O	O
+results	430,437	O	O
+show	438,442	O	O
+the	443,446	O	O
+effectiveness	447,460	O	O
+of	461,463	O	O
+the	464,467	O	O
+proposed	468,476	O	O
+method	477,483	O	O
+.	483,484	O	O
 
 
 -DOCSTART- (S221267161200217X)
 
-The	0	3	O
-existing	4	12	O
-GO	13	15	B-Process
-methodology	16	27	I-Process
-algorithm	28	37	I-Process
-is	38	40	O
-theoretical	41	52	O
-,	52	53	O
-and	54	57	O
-hard	58	62	O
-to	63	65	O
-solve	66	71	O
-with	72	76	O
-computer	77	85	O
-.	85	86	O
-
-In	87	89	O
-this	90	94	O
-paper	95	100	O
-,	100	101	O
-we	102	104	O
-research	105	113	O
-a	114	115	O
-new	116	119	B-Task
-method	120	126	I-Task
-to	127	129	I-Task
-get	130	133	I-Task
-the	134	137	I-Task
-reliability	138	149	I-Task
-of	150	152	I-Task
-system	153	159	I-Task
-based	160	165	I-Task
-on	166	168	I-Task
-GO	169	171	I-Task
-methodology	172	183	I-Task
-.	183	184	O
-
-According	185	194	O
-to	195	197	O
-some	198	202	O
-properties	203	213	O
-of	214	216	O
-the	217	220	O
-operators	221	230	O
-in	231	233	O
-GO	234	236	B-Material
-chart	237	242	I-Material
-,	242	243	O
-GO	244	246	B-Material
-chart	247	252	I-Material
-can	253	256	O
-be	257	259	O
-transformed	260	271	O
-into	272	276	O
-series	277	283	B-Process
-structure	284	293	I-Process
-,	293	294	O
-then	295	299	O
-the	300	303	O
-minimal	304	311	B-Process
-path	312	316	I-Process
-sets	317	321	I-Process
-are	322	325	I-Process
-induced	326	333	I-Process
-based	334	339	O
-on	340	342	O
-Enumeration	343	354	B-Process
-method	355	361	I-Process
-from	362	366	O
-first	367	372	O
-operator	373	381	O
-to	382	384	O
-last	385	389	O
-one	390	393	O
-.	393	394	O
-
-It	395	397	O
-is	398	400	O
-very	401	405	O
-convenient	406	416	O
-for	417	420	O
-computer	421	429	O
-to	430	432	O
-calculate	433	442	B-Task
-the	443	446	I-Task
-system	447	453	I-Task
-reliability	454	465	I-Task
-with	466	470	O
-the	471	474	O
-new	475	478	O
-method	479	485	O
-based	486	491	O
-on	492	494	O
-minimal	495	502	B-Process
-path	503	507	I-Process
-sets	508	512	I-Process
-.	512	513	O
-
-The	514	517	O
-case	518	522	O
-study	523	528	O
-indicates	529	538	O
-the	539	542	O
-method	543	549	O
-is	550	552	O
-suitable	553	561	O
-for	562	565	O
-practical	566	575	B-Task
-engineering	576	587	I-Task
-,	587	588	O
-which	589	594	O
-can	595	598	O
-be	599	601	O
-used	602	606	O
-to	607	609	O
-possess	610	617	O
-the	618	621	O
-quantitative	622	634	B-Process
-analysis	635	643	I-Process
-of	644	646	O
-complex	647	654	B-Process
-GO	655	657	I-Process
-methodology	658	669	I-Process
-models	670	676	I-Process
-.	676	677	O
+The	0,3	O	O
+existing	4,12	O	O
+GO	13,15	O	B-Process
+methodology	16,27	O	I-Process
+algorithm	28,37	O	I-Process
+is	38,40	O	O
+theoretical	41,52	O	O
+,	52,53	O	O
+and	54,57	O	O
+hard	58,62	O	O
+to	63,65	O	O
+solve	66,71	O	O
+with	72,76	O	O
+computer	77,85	O	O
+.	85,86	O	O
+
+In	87,89	O	O
+this	90,94	O	O
+paper	95,100	O	O
+,	100,101	O	O
+we	102,104	O	O
+research	105,113	O	O
+a	114,115	O	O
+new	116,119	O	B-Task
+method	120,126	O	I-Task
+to	127,129	O	I-Task
+get	130,133	O	I-Task
+the	134,137	O	I-Task
+reliability	138,149	O	I-Task
+of	150,152	O	I-Task
+system	153,159	O	I-Task
+based	160,165	O	I-Task
+on	166,168	O	I-Task
+GO	169,171	O	I-Task
+methodology	172,183	O	I-Task
+.	183,184	O	O
+
+According	185,194	O	O
+to	195,197	O	O
+some	198,202	O	O
+properties	203,213	O	O
+of	214,216	O	O
+the	217,220	O	O
+operators	221,230	O	O
+in	231,233	O	O
+GO	234,236	O	B-Material
+chart	237,242	O	I-Material
+,	242,243	O	O
+GO	244,246	O	B-Material
+chart	247,252	O	I-Material
+can	253,256	O	O
+be	257,259	O	O
+transformed	260,271	O	O
+into	272,276	O	O
+series	277,283	O	B-Process
+structure	284,293	O	I-Process
+,	293,294	O	O
+then	295,299	O	O
+the	300,303	O	O
+minimal	304,311	O	B-Process
+path	312,316	O	I-Process
+sets	317,321	O	I-Process
+are	322,325	O	I-Process
+induced	326,333	O	I-Process
+based	334,339	O	O
+on	340,342	O	O
+Enumeration	343,354	O	B-Process
+method	355,361	O	I-Process
+from	362,366	O	O
+first	367,372	O	O
+operator	373,381	O	O
+to	382,384	O	O
+last	385,389	O	O
+one	390,393	O	O
+.	393,394	O	O
+
+It	395,397	O	O
+is	398,400	O	O
+very	401,405	O	O
+convenient	406,416	O	O
+for	417,420	O	O
+computer	421,429	O	O
+to	430,432	O	O
+calculate	433,442	O	B-Task
+the	443,446	O	I-Task
+system	447,453	O	I-Task
+reliability	454,465	O	I-Task
+with	466,470	O	O
+the	471,474	O	O
+new	475,478	O	O
+method	479,485	O	O
+based	486,491	O	O
+on	492,494	O	O
+minimal	495,502	O	B-Process
+path	503,507	O	I-Process
+sets	508,512	O	I-Process
+.	512,513	O	O
+
+The	514,517	O	O
+case	518,522	O	O
+study	523,528	O	O
+indicates	529,538	O	O
+the	539,542	O	O
+method	543,549	O	O
+is	550,552	O	O
+suitable	553,561	O	O
+for	562,565	O	O
+practical	566,575	O	B-Task
+engineering	576,587	O	I-Task
+,	587,588	O	O
+which	589,594	O	O
+can	595,598	O	O
+be	599,601	O	O
+used	602,606	O	O
+to	607,609	O	O
+possess	610,617	O	O
+the	618,621	O	O
+quantitative	622,634	O	B-Process
+analysis	635,643	O	I-Process
+of	644,646	O	O
+complex	647,654	O	B-Process
+GO	655,657	O	I-Process
+methodology	658,669	O	I-Process
+models	670,676	O	I-Process
+.	676,677	O	O
 
 
 -DOCSTART- (S2212671612002181)
 
-The	0	3	O
-number	4	10	O
-of	11	13	O
-hidden	14	20	B-Material
-nodes	21	26	I-Material
-is	27	29	O
-a	30	31	O
-critical	32	40	O
-factor	41	47	O
-for	48	51	O
-the	52	55	O
-generalization	56	70	B-Task
-of	71	73	I-Task
-ELM	74	77	I-Task
-.	77	78	O
-
-Generally	79	88	O
-,	88	89	O
-it	90	92	O
-is	93	95	O
-heavy	96	101	O
-for	102	105	O
-time	106	110	B-Process
-consumption	111	122	I-Process
-to	123	125	O
-obtain	126	132	B-Process
-the	133	136	I-Process
-optimal	137	144	I-Process
-number	145	151	I-Process
-of	152	154	I-Process
-hidden	155	161	I-Process
-nodes	162	167	I-Process
-with	168	172	O
-trial	173	178	B-Process
--	178	179	I-Process
-and	179	182	I-Process
--	182	183	I-Process
-error	183	188	I-Process
-.	188	189	O
-
-A	190	191	O
-novel	192	197	B-Task
-algorithm	198	207	I-Task
-is	208	210	I-Task
-proposed	211	219	I-Task
-to	220	222	O
-optimize	223	231	B-Task
-the	232	235	I-Task
-hidden	236	242	I-Task
-node	243	247	I-Task
-number	248	254	I-Task
-to	255	257	O
-guarantee	258	267	O
-good	268	272	O
-generalization	273	287	B-Process
-,	287	288	O
-which	289	294	O
-employs	295	302	O
-the	303	306	O
-PSO	307	310	B-Process
-in	311	313	O
-the	314	317	O
-optimization	318	330	B-Process
-process	331	338	I-Process
-with	339	343	O
-structural	344	354	B-Process
-risk	355	359	I-Process
-minimization	360	372	I-Process
-principle	373	382	I-Process
-.	382	383	O
-
-The	384	387	O
-simulation	388	398	O
-results	399	406	O
-indicate	407	415	O
-our	416	419	O
-algorithm	420	429	B-Process
-for	430	433	O
-the	434	437	O
-optimal	438	445	O
-number	446	452	O
-of	453	455	O
-hidden	456	462	B-Material
-nodes	463	468	I-Material
-is	469	471	O
-reasonable	472	482	O
-and	483	486	O
-feasible	487	495	O
-with	496	500	O
-6	501	502	B-Material
-datasets	503	511	I-Material
-on	512	514	O
-benchmark	515	524	O
-problems	525	533	O
-by	534	536	O
-the	537	540	O
-accuracy	541	549	B-Process
-comparisons	550	561	I-Process
-.	561	562	O
+The	0,3	O	O
+number	4,10	O	O
+of	11,13	O	O
+hidden	14,20	O	B-Material
+nodes	21,26	O	I-Material
+is	27,29	O	O
+a	30,31	O	O
+critical	32,40	O	O
+factor	41,47	O	O
+for	48,51	O	O
+the	52,55	O	O
+generalization	56,70	O	B-Task
+of	71,73	O	I-Task
+ELM	74,77	O	I-Task
+.	77,78	O	O
+
+Generally	79,88	O	O
+,	88,89	O	O
+it	90,92	O	O
+is	93,95	O	O
+heavy	96,101	O	O
+for	102,105	O	O
+time	106,110	O	B-Process
+consumption	111,122	O	I-Process
+to	123,125	O	O
+obtain	126,132	O	B-Process
+the	133,136	O	I-Process
+optimal	137,144	O	I-Process
+number	145,151	O	I-Process
+of	152,154	O	I-Process
+hidden	155,161	O	I-Process
+nodes	162,167	O	I-Process
+with	168,172	O	O
+trial	173,178	O	B-Process
+-	178,179	O	I-Process
+and	179,182	O	I-Process
+-	182,183	O	I-Process
+error	183,188	O	I-Process
+.	188,189	O	O
+
+A	190,191	O	O
+novel	192,197	O	B-Task
+algorithm	198,207	O	I-Task
+is	208,210	O	I-Task
+proposed	211,219	O	I-Task
+to	220,222	O	O
+optimize	223,231	O	B-Task
+the	232,235	O	I-Task
+hidden	236,242	O	I-Task
+node	243,247	O	I-Task
+number	248,254	O	I-Task
+to	255,257	O	O
+guarantee	258,267	O	O
+good	268,272	O	O
+generalization	273,287	O	B-Process
+,	287,288	O	O
+which	289,294	O	O
+employs	295,302	O	O
+the	303,306	O	O
+PSO	307,310	O	B-Process
+in	311,313	O	O
+the	314,317	O	O
+optimization	318,330	O	B-Process
+process	331,338	O	I-Process
+with	339,343	O	O
+structural	344,354	O	B-Process
+risk	355,359	O	I-Process
+minimization	360,372	O	I-Process
+principle	373,382	O	I-Process
+.	382,383	O	O
+
+The	384,387	O	O
+simulation	388,398	O	O
+results	399,406	O	O
+indicate	407,415	O	O
+our	416,419	O	O
+algorithm	420,429	O	B-Process
+for	430,433	O	O
+the	434,437	O	O
+optimal	438,445	O	O
+number	446,452	O	O
+of	453,455	O	O
+hidden	456,462	O	B-Material
+nodes	463,468	O	I-Material
+is	469,471	O	O
+reasonable	472,482	O	O
+and	483,486	O	O
+feasible	487,495	O	O
+with	496,500	O	O
+6	501,502	O	B-Material
+datasets	503,511	O	I-Material
+on	512,514	O	O
+benchmark	515,524	O	O
+problems	525,533	O	O
+by	534,536	O	O
+the	537,540	O	O
+accuracy	541,549	O	B-Process
+comparisons	550,561	O	I-Process
+.	561,562	O	O
 
 
 -DOCSTART- (S221267161200220X)
 
-For	0	3	O
-providing	4	13	O
-the	14	17	O
-government	18	28	O
-with	29	33	O
-effective	34	43	B-Task
-monitoring	44	54	I-Task
-of	55	57	O
-the	58	61	O
-trends	62	68	B-Process
-of	69	71	I-Process
-the	72	75	I-Process
-economic	76	84	I-Process
-variables	85	94	I-Process
-in	95	97	O
-the	98	101	O
-future	102	108	O
-and	109	112	O
-good	113	117	O
-reference	118	127	O
-for	128	131	O
-developing	132	142	B-Process
-a	143	144	I-Process
-reasonable	145	155	I-Process
-policy	156	162	I-Process
-,	162	163	O
-in	164	166	O
-this	167	171	O
-paper	172	177	O
-,	177	178	O
-we	179	181	O
-establish	182	191	B-Task
-a	192	193	I-Task
-time	194	198	I-Task
-series	199	205	I-Task
-model	206	211	I-Task
-on	212	214	O
-China	215	220	O
-'s	220	222	O
-Foreign	223	230	B-Process
-Direct	231	237	I-Process
-Investment	238	248	I-Process
-(	249	250	O
-FDI	250	253	B-Process
-)	253	254	O
-by	255	257	O
-using	258	263	O
-wavelet	264	271	B-Process
-analysis	272	280	I-Process
-and	281	284	O
-intervention	285	297	B-Process
-analysis	298	306	I-Process
-and	307	310	O
-time	311	315	B-Process
-series	316	322	I-Process
-analysis	323	331	I-Process
-and	332	335	O
-predict	336	343	B-Task
-the	344	347	I-Task
-trend	348	353	I-Task
-of	354	356	I-Task
-FDI	357	360	I-Task
-in	361	363	O
-the	364	367	O
-next	368	372	O
-several	373	380	O
-years	381	386	O
-.	386	387	O
-
-This	388	392	O
-model	393	398	O
-eliminates	399	409	O
-the	410	413	O
-interference	414	426	B-Process
-of	427	429	I-Process
-noise	430	435	I-Process
-for	436	439	O
-predicting	440	450	O
-by	451	453	O
-using	454	459	O
-wavelet	460	467	B-Process
-analysis	468	476	I-Process
-,	476	477	O
-and	478	481	O
-describes	482	491	O
-the	492	495	O
-autocorrelation	496	511	B-Process
-and	512	515	O
-time	516	520	B-Process
--	520	521	I-Process
-varying	521	528	I-Process
-volatility	529	539	I-Process
-of	540	542	O
-the	543	546	O
-financial	547	556	B-Material
-time	557	561	I-Material
-series	562	568	I-Material
-by	569	571	O
-using	572	577	O
-ARIMA-	578	584	B-Process
-GARCH	585	590	I-Process
--	590	591	I-Process
-M	591	592	I-Process
-model	593	598	I-Process
-.	598	599	O
-
-The	600	603	O
-simulation	604	614	O
-results	615	622	O
-show	623	627	O
-that	628	632	O
-this	633	637	O
-model	638	643	O
-explains	644	652	O
-the	653	656	O
-dynamic	657	664	O
-structure	665	674	O
-of	675	677	O
-China	678	683	O
-'s	683	685	O
-FDI	686	689	B-Process
-trends	690	696	O
-well	697	701	O
-.	701	702	O
+For	0,3	O	O
+providing	4,13	O	O
+the	14,17	O	O
+government	18,28	O	O
+with	29,33	O	O
+effective	34,43	O	B-Task
+monitoring	44,54	O	I-Task
+of	55,57	O	O
+the	58,61	O	O
+trends	62,68	O	B-Process
+of	69,71	O	I-Process
+the	72,75	O	I-Process
+economic	76,84	O	I-Process
+variables	85,94	O	I-Process
+in	95,97	O	O
+the	98,101	O	O
+future	102,108	O	O
+and	109,112	O	O
+good	113,117	O	O
+reference	118,127	O	O
+for	128,131	O	O
+developing	132,142	O	B-Process
+a	143,144	O	I-Process
+reasonable	145,155	O	I-Process
+policy	156,162	O	I-Process
+,	162,163	O	O
+in	164,166	O	O
+this	167,171	O	O
+paper	172,177	O	O
+,	177,178	O	O
+we	179,181	O	O
+establish	182,191	O	B-Task
+a	192,193	O	I-Task
+time	194,198	O	I-Task
+series	199,205	O	I-Task
+model	206,211	O	I-Task
+on	212,214	O	O
+China	215,220	O	O
+'s	220,222	O	O
+Foreign	223,230	O	B-Process
+Direct	231,237	O	I-Process
+Investment	238,248	O	I-Process
+(	249,250	O	O
+FDI	250,253	O	B-Process
+)	253,254	O	O
+by	255,257	O	O
+using	258,263	O	O
+wavelet	264,271	O	B-Process
+analysis	272,280	O	I-Process
+and	281,284	O	O
+intervention	285,297	O	B-Process
+analysis	298,306	O	I-Process
+and	307,310	O	O
+time	311,315	O	B-Process
+series	316,322	O	I-Process
+analysis	323,331	O	I-Process
+and	332,335	O	O
+predict	336,343	O	B-Task
+the	344,347	O	I-Task
+trend	348,353	O	I-Task
+of	354,356	O	I-Task
+FDI	357,360	O	I-Task
+in	361,363	O	O
+the	364,367	O	O
+next	368,372	O	O
+several	373,380	O	O
+years	381,386	O	O
+.	386,387	O	O
+
+This	388,392	O	O
+model	393,398	O	O
+eliminates	399,409	O	O
+the	410,413	O	O
+interference	414,426	O	B-Process
+of	427,429	O	I-Process
+noise	430,435	O	I-Process
+for	436,439	O	O
+predicting	440,450	O	O
+by	451,453	O	O
+using	454,459	O	O
+wavelet	460,467	O	B-Process
+analysis	468,476	O	I-Process
+,	476,477	O	O
+and	478,481	O	O
+describes	482,491	O	O
+the	492,495	O	O
+autocorrelation	496,511	O	B-Process
+and	512,515	O	O
+time	516,520	O	B-Process
+-	520,521	O	I-Process
+varying	521,528	O	I-Process
+volatility	529,539	O	I-Process
+of	540,542	O	O
+the	543,546	O	O
+financial	547,556	O	B-Material
+time	557,561	O	I-Material
+series	562,568	O	I-Material
+by	569,571	O	O
+using	572,577	O	O
+ARIMA-	578,584	O	B-Process
+GARCH	585,590	O	I-Process
+-	590,591	O	I-Process
+M	591,592	O	I-Process
+model	593,598	O	I-Process
+.	598,599	O	O
+
+The	600,603	O	O
+simulation	604,614	O	O
+results	615,622	O	O
+show	623,627	O	O
+that	628,632	O	O
+this	633,637	O	O
+model	638,643	O	O
+explains	644,652	O	O
+the	653,656	O	O
+dynamic	657,664	O	O
+structure	665,674	O	O
+of	675,677	O	O
+China	678,683	O	O
+'s	683,685	O	O
+FDI	686,689	O	B-Process
+trends	690,696	O	O
+well	697,701	O	O
+.	701,702	O	O
 
 
 -DOCSTART- (S2212671612002302)
 
-Monitoring	0	10	B-Task
-the	11	14	I-Task
-wear	15	19	I-Task
-condition	20	29	I-Task
-of	30	32	O
-the	33	36	O
-tramway	37	44	B-Material
-superstructure	45	59	I-Material
-is	60	62	O
-one	63	66	O
-of	67	69	O
-the	70	73	O
-key	74	77	O
-points	78	84	O
-to	85	87	O
-guarantee	88	97	O
-an	98	100	O
-adequate	101	109	O
-safety	110	116	B-Process
-level	117	122	I-Process
-of	123	125	O
-the	126	129	O
-light	130	135	B-Material
-rail	136	140	I-Material
-transport	141	150	I-Material
-system	151	157	I-Material
-.	157	158	O
-
-The	159	162	O
-purpose	163	170	O
-of	171	173	O
-this	174	178	O
-paper	179	184	O
-is	185	187	O
-to	188	190	O
-suggest	191	198	O
-a	199	200	O
-new	201	204	B-Task
-non	205	208	I-Task
--	208	209	I-Task
-conventionalprocedure	209	230	I-Task
-for	231	234	O
-measuring	235	244	O
-the	245	248	O
-transverse	249	259	B-Process
-profile	260	267	I-Process
-of	268	270	O
-rails	271	276	B-Material
-in	277	279	O
-operation	280	289	O
-by	290	292	O
-means	293	298	O
-of	299	301	O
-image	302	307	B-Process
--	307	308	I-Process
-processing	308	318	I-Process
-technique	319	328	I-Process
-.	328	329	O
-
-This	330	334	O
-methodological	335	349	O
-approach	350	358	O
-is	359	361	O
-based	362	367	O
-on	368	370	O
-the	371	374	O
-“	375	376	O
-information	376	387	B-Material
-”	387	388	I-Material
-contained	389	398	O
-in	399	401	O
-high	402	406	B-Material
--	406	407	I-Material
-resolution	407	417	I-Material
-photographic	418	430	I-Material
-images	431	437	I-Material
-of	438	440	O
-tracks	441	447	B-Material
-and	448	451	O
-on	452	454	O
-specific	455	463	B-Process
-algorithms	464	474	I-Process
-which	475	480	O
-allow	481	486	O
-to	487	489	O
-obtain	490	496	O
-the	497	500	O
-exact	501	506	O
-geometric	507	516	O
-profile	517	524	O
-of	525	527	O
-the	528	531	O
-rails	532	537	B-Material
-and	538	541	O
-therefore	542	551	O
-to	552	554	O
-measure	555	562	O
-the	563	566	O
-state	567	572	O
-of	573	575	O
-the	576	579	O
-rail	580	584	O
--	584	585	O
-head	585	589	O
-extrados	590	598	O
-wear	599	603	O
-.	603	604	O
+Monitoring	0,10	O	B-Task
+the	11,14	O	I-Task
+wear	15,19	O	I-Task
+condition	20,29	O	I-Task
+of	30,32	O	O
+the	33,36	O	O
+tramway	37,44	O	B-Material
+superstructure	45,59	O	I-Material
+is	60,62	O	O
+one	63,66	O	O
+of	67,69	O	O
+the	70,73	O	O
+key	74,77	O	O
+points	78,84	O	O
+to	85,87	O	O
+guarantee	88,97	O	O
+an	98,100	O	O
+adequate	101,109	O	O
+safety	110,116	O	B-Process
+level	117,122	O	I-Process
+of	123,125	O	O
+the	126,129	O	O
+light	130,135	O	B-Material
+rail	136,140	O	I-Material
+transport	141,150	O	I-Material
+system	151,157	O	I-Material
+.	157,158	O	O
+
+The	159,162	O	O
+purpose	163,170	O	O
+of	171,173	O	O
+this	174,178	O	O
+paper	179,184	O	O
+is	185,187	O	O
+to	188,190	O	O
+suggest	191,198	O	O
+a	199,200	O	O
+new	201,204	O	B-Task
+non	205,208	O	I-Task
+-	208,209	O	I-Task
+conventionalprocedure	209,230	O	I-Task
+for	231,234	O	O
+measuring	235,244	O	O
+the	245,248	O	O
+transverse	249,259	O	B-Process
+profile	260,267	O	I-Process
+of	268,270	O	O
+rails	271,276	O	B-Material
+in	277,279	O	O
+operation	280,289	O	O
+by	290,292	O	O
+means	293,298	O	O
+of	299,301	O	O
+image	302,307	O	B-Process
+-	307,308	O	I-Process
+processing	308,318	O	I-Process
+technique	319,328	O	I-Process
+.	328,329	O	O
+
+This	330,334	O	O
+methodological	335,349	O	O
+approach	350,358	O	O
+is	359,361	O	O
+based	362,367	O	O
+on	368,370	O	O
+the	371,374	O	O
+“	375,376	O	O
+information	376,387	O	B-Material
+”	387,388	O	I-Material
+contained	389,398	O	O
+in	399,401	O	O
+high	402,406	O	B-Material
+-	406,407	O	I-Material
+resolution	407,417	O	I-Material
+photographic	418,430	O	I-Material
+images	431,437	O	I-Material
+of	438,440	O	O
+tracks	441,447	O	B-Material
+and	448,451	O	O
+on	452,454	O	O
+specific	455,463	O	B-Process
+algorithms	464,474	O	I-Process
+which	475,480	O	O
+allow	481,486	O	O
+to	487,489	O	O
+obtain	490,496	O	O
+the	497,500	O	O
+exact	501,506	O	O
+geometric	507,516	O	O
+profile	517,524	O	O
+of	525,527	O	O
+the	528,531	O	O
+rails	532,537	O	B-Material
+and	538,541	O	O
+therefore	542,551	O	O
+to	552,554	O	O
+measure	555,562	O	O
+the	563,566	O	O
+state	567,572	O	O
+of	573,575	O	O
+the	576,579	O	O
+rail	580,584	O	O
+-	584,585	O	O
+head	585,589	O	O
+extrados	590,598	O	O
+wear	599,603	O	O
+.	603,604	O	O
 
 
 -DOCSTART- (S2212671612002338)
 
-Robust	0	6	B-Task
-and	7	10	I-Task
-automatic	11	20	I-Task
-thresholding	21	33	I-Task
-of	34	36	O
-gray	37	41	B-Material
-level	42	47	I-Material
-images	48	54	I-Material
-has	55	58	O
-been	59	63	O
-commonly	64	72	O
-used	73	77	O
-in	78	80	O
-the	81	84	O
-field	85	90	O
-of	91	93	O
-pattern	94	101	B-Task
-recognition	102	113	I-Task
-and	114	117	O
-computer	118	126	B-Task
-vision	127	133	I-Task
-for	134	137	O
-objects	138	145	B-Task
-detecting	146	155	I-Task
-,	155	156	I-Task
-tracking	157	165	I-Task
-and	166	169	I-Task
-recognizing	170	181	I-Task
-.	181	182	O
-
-The	183	186	O
-Otsu	187	191	B-Process
-scheme	192	198	I-Process
-,	198	199	O
-a	200	201	O
-widely	202	208	O
-used	209	213	O
-image	214	219	B-Process
-thresholding	220	232	I-Process
-technique	233	242	I-Process
-,	242	243	O
-provides	244	252	O
-approving	253	262	O
-results	263	270	O
-for	271	274	O
-segmenting	275	285	B-Process
-a	286	287	O
-gray	288	292	B-Material
-level	293	298	I-Material
-image	299	304	I-Material
-with	305	309	O
-only	310	314	O
-one	315	318	O
-modal	319	324	B-Process
-distribution	325	337	I-Process
-in	338	340	O
-gray	341	345	B-Material
-level	346	351	I-Material
-histogram	352	361	I-Material
-.	361	362	I-Material
-
-However	363	370	O
-,	370	371	O
-it	372	374	O
-provides	375	383	O
-poor	384	388	O
-results	389	396	O
-if	397	399	O
-the	400	403	O
-histogram	404	413	B-Material
-of	414	416	O
-a	417	418	O
-gray	419	423	O
-level	424	429	O
-is	430	432	O
-non	433	436	O
--	436	437	O
-bimodal	437	444	O
-.	444	445	O
-
-For	446	449	O
-enhancing	450	459	B-Task
-the	460	463	I-Task
-performance	464	475	I-Task
-of	476	478	O
-the	479	482	O
-Otsu	483	487	B-Process
-algorithm	488	497	I-Process
-further	498	505	O
-,	505	506	O
-in	507	509	O
-this	510	514	O
-work	515	519	O
-,	519	520	O
-an	521	523	O
-improved	524	532	O
-median	533	539	B-Process
--	539	540	I-Process
-based	540	545	I-Process
-Otsu	546	550	I-Process
-image	551	556	I-Process
-thresholding	557	569	I-Process
-algorithm	570	579	I-Process
-is	580	582	O
-presented	583	592	O
-.	592	593	O
-
-Finally	594	601	O
-extensive	602	611	B-Task
-tests	612	617	I-Task
-are	618	621	O
-performed	622	631	O
-and	632	635	O
-the	636	639	O
-experiments	640	651	O
-show	652	656	O
-that	657	661	O
-our	662	665	O
-method	666	672	O
-obtain	673	679	O
-more	680	684	O
-satisfactory	685	697	O
-results	698	705	O
-than	706	710	O
-the	711	714	O
-original	715	723	O
-Otsu	724	728	B-Process
-thresholding	729	741	I-Process
-algorithm	742	751	I-Process
-.	751	752	O
+Robust	0,6	O	B-Task
+and	7,10	O	I-Task
+automatic	11,20	O	I-Task
+thresholding	21,33	O	I-Task
+of	34,36	O	O
+gray	37,41	O	B-Material
+level	42,47	O	I-Material
+images	48,54	O	I-Material
+has	55,58	O	O
+been	59,63	O	O
+commonly	64,72	O	O
+used	73,77	O	O
+in	78,80	O	O
+the	81,84	O	O
+field	85,90	O	O
+of	91,93	O	O
+pattern	94,101	O	B-Task
+recognition	102,113	O	I-Task
+and	114,117	O	O
+computer	118,126	O	B-Task
+vision	127,133	O	I-Task
+for	134,137	O	O
+objects	138,145	O	B-Task
+detecting	146,155	O	I-Task
+,	155,156	O	I-Task
+tracking	157,165	O	I-Task
+and	166,169	O	I-Task
+recognizing	170,181	O	I-Task
+.	181,182	O	O
+
+The	183,186	O	O
+Otsu	187,191	O	B-Process
+scheme	192,198	O	I-Process
+,	198,199	O	O
+a	200,201	O	O
+widely	202,208	O	O
+used	209,213	O	O
+image	214,219	O	B-Process
+thresholding	220,232	O	I-Process
+technique	233,242	O	I-Process
+,	242,243	O	O
+provides	244,252	O	O
+approving	253,262	O	O
+results	263,270	O	O
+for	271,274	O	O
+segmenting	275,285	O	B-Process
+a	286,287	O	O
+gray	288,292	O	B-Material
+level	293,298	O	I-Material
+image	299,304	O	I-Material
+with	305,309	O	O
+only	310,314	O	O
+one	315,318	O	O
+modal	319,324	O	B-Process
+distribution	325,337	O	I-Process
+in	338,340	O	O
+gray	341,345	O	B-Material
+level	346,351	O	I-Material
+histogram	352,361	O	I-Material
+.	361,362	O	I-Material
+
+However	363,370	O	O
+,	370,371	O	O
+it	372,374	O	O
+provides	375,383	O	O
+poor	384,388	O	O
+results	389,396	O	O
+if	397,399	O	O
+the	400,403	O	O
+histogram	404,413	O	B-Material
+of	414,416	O	O
+a	417,418	O	O
+gray	419,423	O	O
+level	424,429	O	O
+is	430,432	O	O
+non	433,436	O	O
+-	436,437	O	O
+bimodal	437,444	O	O
+.	444,445	O	O
+
+For	446,449	O	O
+enhancing	450,459	O	B-Task
+the	460,463	O	I-Task
+performance	464,475	O	I-Task
+of	476,478	O	O
+the	479,482	O	O
+Otsu	483,487	O	B-Process
+algorithm	488,497	O	I-Process
+further	498,505	O	O
+,	505,506	O	O
+in	507,509	O	O
+this	510,514	O	O
+work	515,519	O	O
+,	519,520	O	O
+an	521,523	O	O
+improved	524,532	O	O
+median	533,539	O	B-Process
+-	539,540	O	I-Process
+based	540,545	O	I-Process
+Otsu	546,550	O	I-Process
+image	551,556	O	I-Process
+thresholding	557,569	O	I-Process
+algorithm	570,579	O	I-Process
+is	580,582	O	O
+presented	583,592	O	O
+.	592,593	O	O
+
+Finally	594,601	O	O
+extensive	602,611	O	B-Task
+tests	612,617	O	I-Task
+are	618,621	O	O
+performed	622,631	O	O
+and	632,635	O	O
+the	636,639	O	O
+experiments	640,651	O	O
+show	652,656	O	O
+that	657,661	O	O
+our	662,665	O	O
+method	666,672	O	O
+obtain	673,679	O	O
+more	680,684	O	O
+satisfactory	685,697	O	O
+results	698,705	O	O
+than	706,710	O	O
+the	711,714	O	O
+original	715,723	O	O
+Otsu	724,728	O	B-Process
+thresholding	729,741	O	I-Process
+algorithm	742,751	O	I-Process
+.	751,752	O	O
 
 
 -DOCSTART- (S2212671612002351)
 
-In	0	2	O
-this	3	7	O
-paper	8	13	O
-,	13	14	O
-a	15	16	O
-novel	17	22	O
-position	23	31	B-Task
-estimation	32	42	I-Task
-method	43	49	I-Task
-of	50	52	O
-prism	53	58	B-Material
-was	59	62	O
-proposed	63	71	O
-for	72	75	O
-single	76	82	B-Material
--	82	83	I-Material
-lens	83	87	I-Material
-stereovision	88	100	I-Material
-system	101	107	I-Material
-.	107	108	O
-
-The	109	112	O
-prism	113	118	B-Material
-with	119	123	O
-multi	124	129	O
-faces	130	135	O
-was	136	139	O
-considered	140	150	O
-as	151	153	O
-a	154	155	O
-single	156	162	B-Material
-optical	163	170	I-Material
-system	171	177	I-Material
-composed	178	186	O
-of	187	189	O
-some	190	194	O
-refractive	195	205	B-Material
-planes	206	212	I-Material
-.	212	213	O
-
-A	214	215	O
-transformation	216	230	B-Material
-matrix	231	237	I-Material
-which	238	243	O
-can	244	247	O
-express	248	255	B-Task
-the	256	259	I-Task
-relationship	260	272	I-Task
-between	273	280	O
-an	281	283	O
-object	284	290	B-Material
-point	291	296	I-Material
-and	297	300	O
-its	301	304	O
-image	305	310	B-Material
-by	311	313	O
-the	314	317	O
-refraction	318	328	B-Process
-of	329	331	I-Process
-prism	332	337	I-Process
-was	338	341	O
-derived	342	349	O
-based	350	355	O
-on	356	358	O
-geometrical	359	370	B-Process
-optics	371	377	I-Process
-,	377	378	O
-and	379	382	O
-a	383	384	O
-mathematical	385	397	B-Process
-model	398	403	I-Process
-was	404	407	O
-introduced	408	418	O
-which	419	424	O
-can	425	428	O
-denote	429	435	O
-the	436	439	O
-position	440	448	O
-of	449	451	O
-prism	452	457	B-Material
-with	458	462	O
-arbitrary	463	472	O
-faces	473	478	O
-only	479	483	O
-by	484	486	O
-7	487	488	O
-parameters	489	499	O
-.	499	500	O
-
-This	501	505	O
-model	506	511	O
-can	512	515	O
-extend	516	522	B-Process
-the	523	526	I-Process
-application	527	538	I-Process
-of	539	541	I-Process
-single	542	548	I-Process
--	548	549	I-Process
-lens	549	553	I-Process
-stereovision	554	566	I-Process
-system	567	573	I-Process
-using	574	579	O
-prism	580	585	B-Material
-to	586	588	O
-a	589	590	O
-more	591	595	O
-widely	596	602	O
-area	603	607	O
-.	607	608	O
-
-Experimentation	609	624	O
-results	625	632	O
-are	633	636	O
-presented	637	646	O
-to	647	649	O
-prove	650	655	O
-the	656	659	O
-effectiveness	660	673	B-Process
-and	674	677	O
-robustness	678	688	B-Process
-of	689	691	O
-our	692	695	O
-proposed	696	704	O
-model	705	710	O
-.	710	711	O
+In	0,2	O	O
+this	3,7	O	O
+paper	8,13	O	O
+,	13,14	O	O
+a	15,16	O	O
+novel	17,22	O	O
+position	23,31	O	B-Task
+estimation	32,42	O	I-Task
+method	43,49	O	I-Task
+of	50,52	O	O
+prism	53,58	O	B-Material
+was	59,62	O	O
+proposed	63,71	O	O
+for	72,75	O	O
+single	76,82	O	B-Material
+-	82,83	O	I-Material
+lens	83,87	O	I-Material
+stereovision	88,100	O	I-Material
+system	101,107	O	I-Material
+.	107,108	O	O
+
+The	109,112	O	O
+prism	113,118	O	B-Material
+with	119,123	O	O
+multi	124,129	O	O
+faces	130,135	O	O
+was	136,139	O	O
+considered	140,150	O	O
+as	151,153	O	O
+a	154,155	O	O
+single	156,162	O	B-Material
+optical	163,170	O	I-Material
+system	171,177	O	I-Material
+composed	178,186	O	O
+of	187,189	O	O
+some	190,194	O	O
+refractive	195,205	O	B-Material
+planes	206,212	O	I-Material
+.	212,213	O	O
+
+A	214,215	O	O
+transformation	216,230	O	B-Material
+matrix	231,237	O	I-Material
+which	238,243	O	O
+can	244,247	O	O
+express	248,255	O	B-Task
+the	256,259	O	I-Task
+relationship	260,272	O	I-Task
+between	273,280	O	O
+an	281,283	O	O
+object	284,290	O	B-Material
+point	291,296	O	I-Material
+and	297,300	O	O
+its	301,304	O	O
+image	305,310	O	B-Material
+by	311,313	O	O
+the	314,317	O	O
+refraction	318,328	O	B-Process
+of	329,331	O	I-Process
+prism	332,337	O	I-Process
+was	338,341	O	O
+derived	342,349	O	O
+based	350,355	O	O
+on	356,358	O	O
+geometrical	359,370	O	B-Process
+optics	371,377	O	I-Process
+,	377,378	O	O
+and	379,382	O	O
+a	383,384	O	O
+mathematical	385,397	O	B-Process
+model	398,403	O	I-Process
+was	404,407	O	O
+introduced	408,418	O	O
+which	419,424	O	O
+can	425,428	O	O
+denote	429,435	O	O
+the	436,439	O	O
+position	440,448	O	O
+of	449,451	O	O
+prism	452,457	O	B-Material
+with	458,462	O	O
+arbitrary	463,472	O	O
+faces	473,478	O	O
+only	479,483	O	O
+by	484,486	O	O
+7	487,488	O	O
+parameters	489,499	O	O
+.	499,500	O	O
+
+This	501,505	O	O
+model	506,511	O	O
+can	512,515	O	O
+extend	516,522	O	B-Process
+the	523,526	O	I-Process
+application	527,538	O	I-Process
+of	539,541	O	I-Process
+single	542,548	O	I-Process
+-	548,549	O	I-Process
+lens	549,553	O	I-Process
+stereovision	554,566	O	I-Process
+system	567,573	O	I-Process
+using	574,579	O	O
+prism	580,585	O	B-Material
+to	586,588	O	O
+a	589,590	O	O
+more	591,595	O	O
+widely	596,602	O	O
+area	603,607	O	O
+.	607,608	O	O
+
+Experimentation	609,624	O	O
+results	625,632	O	O
+are	633,636	O	O
+presented	637,646	O	O
+to	647,649	O	O
+prove	650,655	O	O
+the	656,659	O	O
+effectiveness	660,673	O	B-Process
+and	674,677	O	O
+robustness	678,688	O	B-Process
+of	689,691	O	O
+our	692,695	O	O
+proposed	696,704	O	O
+model	705,710	O	O
+.	710,711	O	O
 
 
 -DOCSTART- (S2212671612002375)
 
-Power	0	5	B-Process
-Grid	6	10	I-Process
-reasoning	11	20	I-Process
-expert	21	27	I-Process
-system	28	34	I-Process
-is	35	37	O
-a	38	39	O
-complex	40	47	O
-system	48	54	B-Process
-.	54	55	O
-
-To	56	58	O
-solve	59	64	O
-knowledge	65	74	B-Task
-sharing	75	82	I-Task
-of	83	85	I-Task
-knowledge	86	95	I-Task
-Base	96	100	I-Task
-in	101	103	I-Task
-expert	104	110	I-Task
-system	111	117	I-Task
-,	117	118	O
-we	119	121	O
-abstract	122	130	B-Task
-and	131	134	I-Task
-analyze	135	142	I-Task
-the	143	146	I-Task
-power	147	152	I-Task
-grid	153	157	I-Task
-security	158	166	I-Task
-investigation	167	180	I-Task
-procedure	181	190	I-Task
-by	191	193	O
-using	194	199	O
-ontology	200	208	B-Process
-Technology	209	219	I-Process
-.	219	220	O
-
-With	221	225	O
-ontology	226	234	B-Material
--	234	235	I-Material
-based	235	240	I-Material
-Power	241	246	I-Material
-Grid	247	251	I-Material
-knowledge	252	261	I-Material
-base	262	266	I-Material
-,	266	267	O
-we	268	270	O
-establish	271	280	O
-associated	281	291	B-Task
-relationship	292	304	I-Task
-of	305	307	I-Task
-procedure	308	317	I-Task
-vocabularies	318	330	I-Task
-.	330	331	O
-
-In	332	334	O
-this	335	339	O
-paper	340	345	O
-,	345	346	O
-we	347	349	O
-introduce	350	359	B-Task
-and	360	363	I-Task
-analyze	364	371	I-Task
-of	372	374	I-Task
-semantic	375	383	I-Task
-reasoning	384	393	I-Task
-tools	394	399	I-Task
-such	400	404	O
-as	405	407	O
-Jena	408	412	B-Material
-.	412	413	O
-
-The	414	417	O
-reasoner	418	426	B-Process
-mechanism	427	436	I-Process
-and	437	440	O
-inference	441	450	B-Material
-rules	451	456	I-Material
-of	457	459	I-Material
-grammar	460	467	I-Material
-has	468	471	O
-been	472	476	O
-included	477	485	O
-and	486	489	O
-explained	490	499	O
-.	499	500	O
-
-At	501	503	O
-last	504	508	O
-we	509	511	O
-give	512	516	O
-a	517	518	O
-specific	519	527	B-Task
-application	528	539	I-Task
-of	540	542	I-Task
-security	543	551	I-Task
-investigation	552	565	I-Task
-procedure	566	575	I-Task
-ontology	576	584	I-Task
-and	585	588	I-Task
-reasoning	589	598	I-Task
-.	598	599	O
+Power	0,5	O	B-Process
+Grid	6,10	O	I-Process
+reasoning	11,20	O	I-Process
+expert	21,27	O	I-Process
+system	28,34	O	I-Process
+is	35,37	O	O
+a	38,39	O	O
+complex	40,47	O	O
+system	48,54	O	B-Process
+.	54,55	O	O
+
+To	56,58	O	O
+solve	59,64	O	O
+knowledge	65,74	O	B-Task
+sharing	75,82	O	I-Task
+of	83,85	O	I-Task
+knowledge	86,95	O	I-Task
+Base	96,100	O	I-Task
+in	101,103	O	I-Task
+expert	104,110	O	I-Task
+system	111,117	O	I-Task
+,	117,118	O	O
+we	119,121	O	O
+abstract	122,130	O	B-Task
+and	131,134	O	I-Task
+analyze	135,142	O	I-Task
+the	143,146	O	I-Task
+power	147,152	O	I-Task
+grid	153,157	O	I-Task
+security	158,166	O	I-Task
+investigation	167,180	O	I-Task
+procedure	181,190	O	I-Task
+by	191,193	O	O
+using	194,199	O	O
+ontology	200,208	O	B-Process
+Technology	209,219	O	I-Process
+.	219,220	O	O
+
+With	221,225	O	O
+ontology	226,234	O	B-Material
+-	234,235	O	I-Material
+based	235,240	O	I-Material
+Power	241,246	O	I-Material
+Grid	247,251	O	I-Material
+knowledge	252,261	O	I-Material
+base	262,266	O	I-Material
+,	266,267	O	O
+we	268,270	O	O
+establish	271,280	O	O
+associated	281,291	O	B-Task
+relationship	292,304	O	I-Task
+of	305,307	O	I-Task
+procedure	308,317	O	I-Task
+vocabularies	318,330	O	I-Task
+.	330,331	O	O
+
+In	332,334	O	O
+this	335,339	O	O
+paper	340,345	O	O
+,	345,346	O	O
+we	347,349	O	O
+introduce	350,359	O	B-Task
+and	360,363	O	I-Task
+analyze	364,371	O	I-Task
+of	372,374	O	I-Task
+semantic	375,383	O	I-Task
+reasoning	384,393	O	I-Task
+tools	394,399	O	I-Task
+such	400,404	O	O
+as	405,407	O	O
+Jena	408,412	O	B-Material
+.	412,413	O	O
+
+The	414,417	O	O
+reasoner	418,426	O	B-Process
+mechanism	427,436	O	I-Process
+and	437,440	O	O
+inference	441,450	O	B-Material
+rules	451,456	O	I-Material
+of	457,459	O	I-Material
+grammar	460,467	O	I-Material
+has	468,471	O	O
+been	472,476	O	O
+included	477,485	O	O
+and	486,489	O	O
+explained	490,499	O	O
+.	499,500	O	O
+
+At	501,503	O	O
+last	504,508	O	O
+we	509,511	O	O
+give	512,516	O	O
+a	517,518	O	O
+specific	519,527	O	B-Task
+application	528,539	O	I-Task
+of	540,542	O	I-Task
+security	543,551	O	I-Task
+investigation	552,565	O	I-Task
+procedure	566,575	O	I-Task
+ontology	576,584	O	I-Task
+and	585,588	O	I-Task
+reasoning	589,598	O	I-Task
+.	598,599	O	O
 
 
 -DOCSTART- (S221450951400031X)
 
-This	0	4	O
-phase	5	10	O
-was	11	14	O
-completed	15	24	O
-in	25	27	O
-2005	28	32	O
-.	32	33	O
-
-Previous	34	42	O
-contracts	43	52	O
-had	53	56	O
-been	57	61	O
-procured	62	70	O
-with	71	75	O
-the	76	79	O
-contractor	80	90	O
-providing	91	100	O
-the	101	104	O
-detailed	105	113	B-Material
-design	114	120	I-Material
-.	120	121	O
-
-For	122	125	O
-this	126	130	O
-system	131	137	O
-the	138	141	O
-design	142	148	O
-was	149	152	O
-undertaken	153	163	O
-by	164	166	O
-Mott	167	171	O
-MacDonald	172	181	O
-.	181	182	O
-
-It	183	185	O
-was	186	189	O
-developed	190	199	O
-by	200	202	O
-looking	203	210	B-Process
-at	211	213	I-Process
-the	214	217	I-Process
-systems	218	225	I-Process
-installed	226	235	I-Process
-previously	236	246	I-Process
-and	247	250	I-Process
-calculating	251	262	I-Process
-what	263	267	O
-was	268	271	O
-actually	272	280	O
-required	281	289	O
-to	290	292	O
-achieve	293	300	O
-cathodic	301	309	B-Task
-protection	310	320	I-Task
-of	321	323	I-Task
-the	324	327	I-Task
-piers	328	333	I-Task
-.	333	334	O
-
-This	335	339	O
-resulted	340	348	O
-in	349	351	O
-a	352	353	O
-significant	354	365	B-Process
-reduction	366	375	I-Process
-in	376	378	I-Process
-the	379	382	I-Process
-number	383	389	I-Process
-of	390	392	I-Process
-zones	393	398	I-Process
-and	399	402	I-Process
-monitoring	403	413	I-Process
-probes	414	420	I-Process
-.	420	421	O
-
-The	422	425	O
-varying	426	433	B-Process
-amounts	434	441	I-Process
-of	442	444	I-Process
-steelwork	445	454	I-Process
-in	455	457	O
-the	458	461	O
-beams	462	467	O
-had	468	471	O
-previously	472	482	O
-lead	483	487	O
-to	488	490	O
-up	491	493	O
-to	494	496	O
-5	497	498	O
-zones	499	504	O
-per	505	508	O
-beam	509	513	O
-,	513	514	O
-with	515	519	O
-multiple	520	528	B-Process
-layers	529	535	I-Process
-of	536	538	I-Process
-mesh	539	543	I-Process
-to	544	546	O
-achieve	547	554	O
-the	555	558	O
-design	559	565	O
-current	566	573	O
-density	574	581	O
-.	581	582	O
-
-On	583	585	O
-review	586	592	O
-of	593	595	O
-the	596	599	O
-data	600	604	B-Material
-the	605	608	O
-operating	609	618	O
-current	619	626	O
-density	627	634	O
-was	635	638	O
-similar	639	646	O
-in	647	649	O
-all	650	653	O
-zones	654	659	O
-and	660	663	O
-so	664	666	O
-this	667	671	O
-was	672	675	O
-reduced	676	683	O
-to	684	686	O
-a	687	688	O
-single	689	695	O
-zone	696	700	O
-per	701	704	O
-beam	705	709	O
-.	709	710	O
-
-The	711	714	O
-encapsulation	715	728	B-Process
-was	729	732	O
-susceptible	733	744	O
-to	745	747	O
-ASR	748	751	B-Process
-and	752	755	O
-contained	756	765	O
-post	766	770	O
-tensioning	771	781	O
-
-and	782	785	O
-so	786	788	O
-it	789	791	O
-was	792	795	O
-decided	796	803	O
-to	804	806	O
-use	807	810	O
-a	811	812	O
-galvanic	813	821	B-Material
-system	822	828	I-Material
-based	829	834	O
-on	835	837	O
-Galvashield	838	849	B-Material
-CC	850	852	I-Material
-anodes	853	859	I-Material
-from	860	864	O
-Fosroc	865	871	O
-.	871	872	O
-
-Our	873	876	O
-design	877	883	O
-did	884	887	O
-not	888	891	O
-include	892	899	O
-an	900	902	O
-option	903	909	O
-to	910	912	O
-allow	913	918	O
-depolarization	919	933	B-Task
-of	934	936	I-Task
-the	937	940	I-Task
-galvanic	941	949	I-Task
-system	950	956	I-Task
-,	956	957	O
-but	958	961	O
-the	962	965	O
-contractor	966	976	O
-supplied	977	985	O
-one	986	989	O
-,	989	990	O
-such	991	995	O
-that	996	1000	O
-the	1001	1004	O
-anodes	1005	1011	O
-could	1012	1017	O
-be	1018	1020	O
-remotely	1021	1029	O
-disconnected	1030	1042	O
-.	1042	1043	O
-
-The	1044	1047	O
-control	1048	1055	O
-unit	1056	1060	O
-was	1061	1064	O
-from	1065	1069	O
-Electrotech	1070	1081	O
-CP	1082	1084	O
-and	1085	1088	O
-operated	1089	1097	O
-via	1098	1101	O
-a	1102	1103	O
-broadband	1104	1113	B-Process
-connection	1114	1124	I-Process
-provided	1125	1133	O
-by	1134	1136	O
-the	1137	1140	O
-contractor	1141	1151	O
-.	1151	1152	O
+This	0,4	O	O
+phase	5,10	O	O
+was	11,14	O	O
+completed	15,24	O	O
+in	25,27	O	O
+2005	28,32	O	O
+.	32,33	O	O
+
+Previous	34,42	O	O
+contracts	43,52	O	O
+had	53,56	O	O
+been	57,61	O	O
+procured	62,70	O	O
+with	71,75	O	O
+the	76,79	O	O
+contractor	80,90	O	O
+providing	91,100	O	O
+the	101,104	O	O
+detailed	105,113	O	B-Material
+design	114,120	O	I-Material
+.	120,121	O	O
+
+For	122,125	O	O
+this	126,130	O	O
+system	131,137	O	O
+the	138,141	O	O
+design	142,148	O	O
+was	149,152	O	O
+undertaken	153,163	O	O
+by	164,166	O	O
+Mott	167,171	O	O
+MacDonald	172,181	O	O
+.	181,182	O	O
+
+It	183,185	O	O
+was	186,189	O	O
+developed	190,199	O	O
+by	200,202	O	O
+looking	203,210	O	B-Process
+at	211,213	O	I-Process
+the	214,217	O	I-Process
+systems	218,225	O	I-Process
+installed	226,235	O	I-Process
+previously	236,246	O	I-Process
+and	247,250	O	I-Process
+calculating	251,262	O	I-Process
+what	263,267	O	O
+was	268,271	O	O
+actually	272,280	O	O
+required	281,289	O	O
+to	290,292	O	O
+achieve	293,300	O	O
+cathodic	301,309	O	B-Task
+protection	310,320	O	I-Task
+of	321,323	O	I-Task
+the	324,327	O	I-Task
+piers	328,333	O	I-Task
+.	333,334	O	O
+
+This	335,339	O	O
+resulted	340,348	O	O
+in	349,351	O	O
+a	352,353	O	O
+significant	354,365	O	B-Process
+reduction	366,375	O	I-Process
+in	376,378	O	I-Process
+the	379,382	O	I-Process
+number	383,389	O	I-Process
+of	390,392	O	I-Process
+zones	393,398	O	I-Process
+and	399,402	O	I-Process
+monitoring	403,413	O	I-Process
+probes	414,420	O	I-Process
+.	420,421	O	O
+
+The	422,425	O	O
+varying	426,433	O	B-Process
+amounts	434,441	O	I-Process
+of	442,444	O	I-Process
+steelwork	445,454	O	I-Process
+in	455,457	O	O
+the	458,461	O	O
+beams	462,467	O	O
+had	468,471	O	O
+previously	472,482	O	O
+lead	483,487	O	O
+to	488,490	O	O
+up	491,493	O	O
+to	494,496	O	O
+5	497,498	O	O
+zones	499,504	O	O
+per	505,508	O	O
+beam	509,513	O	O
+,	513,514	O	O
+with	515,519	O	O
+multiple	520,528	O	B-Process
+layers	529,535	O	I-Process
+of	536,538	O	I-Process
+mesh	539,543	O	I-Process
+to	544,546	O	O
+achieve	547,554	O	O
+the	555,558	O	O
+design	559,565	O	O
+current	566,573	O	O
+density	574,581	O	O
+.	581,582	O	O
+
+On	583,585	O	O
+review	586,592	O	O
+of	593,595	O	O
+the	596,599	O	O
+data	600,604	O	B-Material
+the	605,608	O	O
+operating	609,618	O	O
+current	619,626	O	O
+density	627,634	O	O
+was	635,638	O	O
+similar	639,646	O	O
+in	647,649	O	O
+all	650,653	O	O
+zones	654,659	O	O
+and	660,663	O	O
+so	664,666	O	O
+this	667,671	O	O
+was	672,675	O	O
+reduced	676,683	O	O
+to	684,686	O	O
+a	687,688	O	O
+single	689,695	O	O
+zone	696,700	O	O
+per	701,704	O	O
+beam	705,709	O	O
+.	709,710	O	O
+
+The	711,714	O	O
+encapsulation	715,728	O	B-Process
+was	729,732	O	O
+susceptible	733,744	O	O
+to	745,747	O	O
+ASR	748,751	O	B-Process
+and	752,755	O	O
+contained	756,765	O	O
+post	766,770	O	O
+tensioning	771,781	O	O
+
+and	782,785	O	O
+so	786,788	O	O
+it	789,791	O	O
+was	792,795	O	O
+decided	796,803	O	O
+to	804,806	O	O
+use	807,810	O	O
+a	811,812	O	O
+galvanic	813,821	O	B-Material
+system	822,828	O	I-Material
+based	829,834	O	O
+on	835,837	O	O
+Galvashield	838,849	O	B-Material
+CC	850,852	O	I-Material
+anodes	853,859	O	I-Material
+from	860,864	O	O
+Fosroc	865,871	O	O
+.	871,872	O	O
+
+Our	873,876	O	O
+design	877,883	O	O
+did	884,887	O	O
+not	888,891	O	O
+include	892,899	O	O
+an	900,902	O	O
+option	903,909	O	O
+to	910,912	O	O
+allow	913,918	O	O
+depolarization	919,933	O	B-Task
+of	934,936	O	I-Task
+the	937,940	O	I-Task
+galvanic	941,949	O	I-Task
+system	950,956	O	I-Task
+,	956,957	O	O
+but	958,961	O	O
+the	962,965	O	O
+contractor	966,976	O	O
+supplied	977,985	O	O
+one	986,989	O	O
+,	989,990	O	O
+such	991,995	O	O
+that	996,1000	O	O
+the	1001,1004	O	O
+anodes	1005,1011	O	O
+could	1012,1017	O	O
+be	1018,1020	O	O
+remotely	1021,1029	O	O
+disconnected	1030,1042	O	O
+.	1042,1043	O	O
+
+The	1044,1047	O	O
+control	1048,1055	O	O
+unit	1056,1060	O	O
+was	1061,1064	O	O
+from	1065,1069	O	O
+Electrotech	1070,1081	O	O
+CP	1082,1084	O	O
+and	1085,1088	O	O
+operated	1089,1097	O	O
+via	1098,1101	O	O
+a	1102,1103	O	O
+broadband	1104,1113	O	B-Process
+connection	1114,1124	O	I-Process
+provided	1125,1133	O	O
+by	1134,1136	O	O
+the	1137,1140	O	O
+contractor	1141,1151	O	O
+.	1151,1152	O	O
 
 
 -DOCSTART- (S221450951530005X)
 
-An	0	2	O
-innovative	3	13	O
-sound	14	19	B-Material
-wall	20	24	I-Material
-system	25	31	I-Material
-was	32	35	O
-developed	36	45	O
-in	46	48	O
-the	49	52	O
-University	53	63	O
-of	64	66	O
-Western	67	74	O
-Ontario	75	82	O
-,	82	83	O
-and	84	87	O
-was	88	91	O
-examined	92	100	O
-to	101	103	O
-serve	104	109	O
-as	110	112	O
-a	113	114	O
-vertical	115	123	O
-extension	124	133	O
-to	134	136	O
-the	137	140	O
-existing	141	149	B-Material
-sound	150	155	I-Material
-walls	156	161	I-Material
-.	161	162	O
-
-The	163	166	O
-wall	167	171	B-Material
-system	172	178	I-Material
-(	179	180	O
-denoted	180	187	O
-as	188	190	O
-flexi	191	196	B-Material
--	196	197	I-Material
-wall	197	201	I-Material
-)	201	202	O
-consists	203	211	O
-of	212	214	O
-stay	215	219	B-Material
--	219	220	I-Material
-in	220	222	I-Material
--	222	223	I-Material
-place	223	228	I-Material
-poly	229	233	I-Material
--	233	234	I-Material
-blocks	234	240	I-Material
-as	241	243	O
-formwork	244	252	O
-,	252	253	O
-light	254	259	B-Material
-polyurethane	260	272	I-Material
-foam	273	277	I-Material
-(	278	279	O
-LPF	279	282	B-Material
-)	282	283	O
-reinforced	284	294	O
-with	295	299	O
-steel	300	305	B-Material
-rebars	306	312	I-Material
-as	313	315	O
-structural	316	326	B-Material
-cores	327	332	I-Material
-and	333	336	O
-polyurea	337	345	B-Material
-as	346	348	O
-a	349	350	O
-coating	351	358	B-Process
-of	359	361	O
-the	362	365	O
-wall	366	370	B-Material
-surfaces	371	379	I-Material
-(	380	381	O
-Fig	381	384	O
-.	384	385	O
-
-1	386	387	O
-)	387	388	O
-.	388	389	O
-
-Poly	390	394	B-Material
--	394	395	I-Material
-blocks	395	401	I-Material
-are	402	405	O
-interlocking	406	418	B-Material
-light	419	424	I-Material
--	424	425	I-Material
-weight	425	431	I-Material
-blocks	432	438	I-Material
-which	439	444	O
-are	445	448	O
-stacked	449	456	O
-up	457	459	O
-layer	460	465	O
-by	466	468	O
-layer	469	474	O
-and	475	478	O
-act	479	482	O
-as	483	485	O
-formwork	486	494	O
-for	495	498	O
-the	499	502	O
-LPF	503	506	B-Material
-cores	507	512	I-Material
-.	512	513	O
-
-The	514	517	O
-poly	518	522	B-Material
--	522	523	I-Material
-block	523	528	I-Material
-is	529	531	O
-20×20×80cm3	532	543	O
-and	544	547	O
-includes	548	556	O
-four	557	561	O
-cylindrical	562	573	B-Material
-voids	574	579	I-Material
-with	580	584	O
-14	585	587	O
-cm	587	589	O
-diameter	590	598	O
-.	598	599	O
-
-It	600	602	O
-is	603	605	O
-made	606	610	O
-of	611	613	O
-molded	614	620	B-Material
-low	621	624	I-Material
--	624	625	I-Material
-density	625	632	I-Material
-polyurethane	633	645	I-Material
-and	646	649	O
-weighs	650	656	O
-approximately	657	670	O
-1	671	672	O
-kg	672	674	O
-.	674	675	O
-
-The	676	679	O
-poly	680	684	B-Material
--	684	685	I-Material
-blocks	685	691	I-Material
-are	692	695	O
-fire	696	700	B-Material
--	700	701	I-Material
-resistant	701	710	I-Material
-blocks	711	717	I-Material
-and	718	721	O
-have	722	726	O
-an	727	729	O
-excellent	730	739	O
-capability	740	750	O
-to	751	753	O
-absorb	754	760	B-Process
-,	760	761	O
-mitigate	762	770	B-Process
-and	771	774	O
-reflect	775	782	B-Process
-a	783	784	O
-wide	785	789	O
-range	790	795	O
-of	796	798	O
-noises	799	805	O
-with	806	810	O
-unmatched	811	820	O
-frequency	821	830	O
-of	831	833	O
-reflective	834	844	O
-noise	845	850	O
-.	850	851	O
-
-Polyurea	852	860	B-Material
-coating	861	868	I-Material
-is	869	871	O
-an	872	874	O
-abrasion	875	883	B-Material
--	883	884	I-Material
-resistant	884	893	I-Material
-finishing	894	903	I-Material
-layer	904	909	I-Material
-,	909	910	O
-which	911	916	O
-is	917	919	O
-sprayed	920	927	B-Process
-on	928	930	O
-the	931	934	O
-surfaces	935	943	B-Material
-of	944	946	I-Material
-the	947	950	I-Material
-wall	951	955	I-Material
-and	956	959	O
-sets	960	964	O
-within	965	971	O
-2–3min	972	978	O
-.	978	979	O
-
-This	980	984	O
-layer	985	990	B-Material
-also	991	995	O
-enhances	996	1004	B-Process
-the	1005	1008	I-Process
-surface	1009	1016	I-Process
-resistance	1017	1027	I-Process
-of	1028	1030	O
-poly	1031	1035	B-Material
--	1035	1036	I-Material
-blocks	1036	1042	I-Material
-against	1043	1050	O
-stone	1051	1056	B-Process
-impact	1057	1063	I-Process
-,	1063	1064	O
-weathering	1065	1075	B-Process
-,	1075	1076	O
-fire	1077	1081	B-Process
-development	1082	1093	I-Process
-,	1093	1094	O
-chemicals	1095	1104	B-Material
-and	1105	1108	O
-penetration	1109	1120	B-Process
-.	1120	1121	O
-
-LPF	1122	1125	B-Material
-is	1126	1128	O
-an	1129	1131	O
-expanding	1132	1141	B-Material
-liquid	1142	1148	I-Material
-mixture	1149	1156	I-Material
-which	1157	1162	O
-is	1163	1165	O
-injected	1166	1174	O
-into	1175	1179	O
-the	1180	1183	O
-poly	1184	1188	B-Material
--	1188	1189	I-Material
-block	1189	1194	I-Material
-voids	1195	1200	I-Material
-and	1201	1204	O
-cures	1205	1210	B-Material
-within	1211	1217	O
-10min	1218	1223	O
-.	1223	1224	O
-
-Steel	1225	1230	B-Material
-rebars	1231	1237	I-Material
-are	1238	1241	O
-epoxied	1242	1249	O
-into	1250	1254	O
-holes	1255	1260	B-Material
-drilled	1261	1268	O
-in	1269	1271	O
-the	1272	1275	O
-existing	1276	1284	B-Material
-sound	1285	1290	I-Material
-wall	1291	1295	I-Material
-to	1296	1298	O
-connect	1299	1306	O
-the	1307	1310	O
-wall	1311	1315	B-Material
-extension	1316	1325	I-Material
-to	1326	1328	O
-its	1329	1332	O
-base	1333	1337	B-Material
-.	1337	1338	O
+An	0,2	O	O
+innovative	3,13	O	O
+sound	14,19	O	B-Material
+wall	20,24	O	I-Material
+system	25,31	O	I-Material
+was	32,35	O	O
+developed	36,45	O	O
+in	46,48	O	O
+the	49,52	O	O
+University	53,63	O	O
+of	64,66	O	O
+Western	67,74	O	O
+Ontario	75,82	O	O
+,	82,83	O	O
+and	84,87	O	O
+was	88,91	O	O
+examined	92,100	O	O
+to	101,103	O	O
+serve	104,109	O	O
+as	110,112	O	O
+a	113,114	O	O
+vertical	115,123	O	O
+extension	124,133	O	O
+to	134,136	O	O
+the	137,140	O	O
+existing	141,149	O	B-Material
+sound	150,155	O	I-Material
+walls	156,161	O	I-Material
+.	161,162	O	O
+
+The	163,166	O	O
+wall	167,171	O	B-Material
+system	172,178	O	I-Material
+(	179,180	O	O
+denoted	180,187	O	O
+as	188,190	O	O
+flexi	191,196	O	B-Material
+-	196,197	O	I-Material
+wall	197,201	O	I-Material
+)	201,202	O	O
+consists	203,211	O	O
+of	212,214	O	O
+stay	215,219	O	B-Material
+-	219,220	O	I-Material
+in	220,222	O	I-Material
+-	222,223	O	I-Material
+place	223,228	O	I-Material
+poly	229,233	O	I-Material
+-	233,234	O	I-Material
+blocks	234,240	O	I-Material
+as	241,243	O	O
+formwork	244,252	O	O
+,	252,253	O	O
+light	254,259	O	B-Material
+polyurethane	260,272	O	I-Material
+foam	273,277	O	I-Material
+(	278,279	O	O
+LPF	279,282	O	B-Material
+)	282,283	O	O
+reinforced	284,294	O	O
+with	295,299	O	O
+steel	300,305	O	B-Material
+rebars	306,312	O	I-Material
+as	313,315	O	O
+structural	316,326	O	B-Material
+cores	327,332	O	I-Material
+and	333,336	O	O
+polyurea	337,345	O	B-Material
+as	346,348	O	O
+a	349,350	O	O
+coating	351,358	O	B-Process
+of	359,361	O	O
+the	362,365	O	O
+wall	366,370	O	B-Material
+surfaces	371,379	O	I-Material
+(	380,381	O	O
+Fig	381,384	O	O
+.	384,385	O	O
+
+1	386,387	O	O
+)	387,388	O	O
+.	388,389	O	O
+
+Poly	390,394	O	B-Material
+-	394,395	O	I-Material
+blocks	395,401	O	I-Material
+are	402,405	O	O
+interlocking	406,418	O	B-Material
+light	419,424	O	I-Material
+-	424,425	O	I-Material
+weight	425,431	O	I-Material
+blocks	432,438	O	I-Material
+which	439,444	O	O
+are	445,448	O	O
+stacked	449,456	O	O
+up	457,459	O	O
+layer	460,465	O	O
+by	466,468	O	O
+layer	469,474	O	O
+and	475,478	O	O
+act	479,482	O	O
+as	483,485	O	O
+formwork	486,494	O	O
+for	495,498	O	O
+the	499,502	O	O
+LPF	503,506	O	B-Material
+cores	507,512	O	I-Material
+.	512,513	O	O
+
+The	514,517	O	O
+poly	518,522	O	B-Material
+-	522,523	O	I-Material
+block	523,528	O	I-Material
+is	529,531	O	O
+20×20×80cm3	532,543	O	O
+and	544,547	O	O
+includes	548,556	O	O
+four	557,561	O	O
+cylindrical	562,573	O	B-Material
+voids	574,579	O	I-Material
+with	580,584	O	O
+14	585,587	O	O
+cm	587,589	O	O
+diameter	590,598	O	O
+.	598,599	O	O
+
+It	600,602	O	O
+is	603,605	O	O
+made	606,610	O	O
+of	611,613	O	O
+molded	614,620	O	B-Material
+low	621,624	O	I-Material
+-	624,625	O	I-Material
+density	625,632	O	I-Material
+polyurethane	633,645	O	I-Material
+and	646,649	O	O
+weighs	650,656	O	O
+approximately	657,670	O	O
+1	671,672	O	O
+kg	672,674	O	O
+.	674,675	O	O
+
+The	676,679	O	O
+poly	680,684	O	B-Material
+-	684,685	O	I-Material
+blocks	685,691	O	I-Material
+are	692,695	O	O
+fire	696,700	O	B-Material
+-	700,701	O	I-Material
+resistant	701,710	O	I-Material
+blocks	711,717	O	I-Material
+and	718,721	O	O
+have	722,726	O	O
+an	727,729	O	O
+excellent	730,739	O	O
+capability	740,750	O	O
+to	751,753	O	O
+absorb	754,760	O	B-Process
+,	760,761	O	O
+mitigate	762,770	O	B-Process
+and	771,774	O	O
+reflect	775,782	O	B-Process
+a	783,784	O	O
+wide	785,789	O	O
+range	790,795	O	O
+of	796,798	O	O
+noises	799,805	O	O
+with	806,810	O	O
+unmatched	811,820	O	O
+frequency	821,830	O	O
+of	831,833	O	O
+reflective	834,844	O	O
+noise	845,850	O	O
+.	850,851	O	O
+
+Polyurea	852,860	O	B-Material
+coating	861,868	O	I-Material
+is	869,871	O	O
+an	872,874	O	O
+abrasion	875,883	O	B-Material
+-	883,884	O	I-Material
+resistant	884,893	O	I-Material
+finishing	894,903	O	I-Material
+layer	904,909	O	I-Material
+,	909,910	O	O
+which	911,916	O	O
+is	917,919	O	O
+sprayed	920,927	O	B-Process
+on	928,930	O	O
+the	931,934	O	O
+surfaces	935,943	O	B-Material
+of	944,946	O	I-Material
+the	947,950	O	I-Material
+wall	951,955	O	I-Material
+and	956,959	O	O
+sets	960,964	O	O
+within	965,971	O	O
+2–3min	972,978	O	O
+.	978,979	O	O
+
+This	980,984	O	O
+layer	985,990	O	B-Material
+also	991,995	O	O
+enhances	996,1004	O	B-Process
+the	1005,1008	O	I-Process
+surface	1009,1016	O	I-Process
+resistance	1017,1027	O	I-Process
+of	1028,1030	O	O
+poly	1031,1035	O	B-Material
+-	1035,1036	O	I-Material
+blocks	1036,1042	O	I-Material
+against	1043,1050	O	O
+stone	1051,1056	O	B-Process
+impact	1057,1063	O	I-Process
+,	1063,1064	O	O
+weathering	1065,1075	O	B-Process
+,	1075,1076	O	O
+fire	1077,1081	O	B-Process
+development	1082,1093	O	I-Process
+,	1093,1094	O	O
+chemicals	1095,1104	O	B-Material
+and	1105,1108	O	O
+penetration	1109,1120	O	B-Process
+.	1120,1121	O	O
+
+LPF	1122,1125	O	B-Material
+is	1126,1128	O	O
+an	1129,1131	O	O
+expanding	1132,1141	O	B-Material
+liquid	1142,1148	O	I-Material
+mixture	1149,1156	O	I-Material
+which	1157,1162	O	O
+is	1163,1165	O	O
+injected	1166,1174	O	O
+into	1175,1179	O	O
+the	1180,1183	O	O
+poly	1184,1188	O	B-Material
+-	1188,1189	O	I-Material
+block	1189,1194	O	I-Material
+voids	1195,1200	O	I-Material
+and	1201,1204	O	O
+cures	1205,1210	O	B-Material
+within	1211,1217	O	O
+10min	1218,1223	O	O
+.	1223,1224	O	O
+
+Steel	1225,1230	O	B-Material
+rebars	1231,1237	O	I-Material
+are	1238,1241	O	O
+epoxied	1242,1249	O	O
+into	1250,1254	O	O
+holes	1255,1260	O	B-Material
+drilled	1261,1268	O	O
+in	1269,1271	O	O
+the	1272,1275	O	O
+existing	1276,1284	O	B-Material
+sound	1285,1290	O	I-Material
+wall	1291,1295	O	I-Material
+to	1296,1298	O	O
+connect	1299,1306	O	O
+the	1307,1310	O	O
+wall	1311,1315	O	B-Material
+extension	1316,1325	O	I-Material
+to	1326,1328	O	O
+its	1329,1332	O	O
+base	1333,1337	O	B-Material
+.	1337,1338	O	O
 
 
 -DOCSTART- (S2214509515300103)
 
-Another	0	7	O
-important	8	17	O
-reason	18	24	O
-for	25	28	O
-the	29	32	O
-damages	33	40	O
-incurred	41	49	O
-by	50	52	O
-the	53	56	O
-RC	57	59	O
-buildings	60	69	O
-is	70	72	O
-workmanship	73	84	B-Process
-defects	85	92	I-Process
-.	92	93	O
-
-It	94	96	O
-is	97	99	O
-understood	100	110	O
-that	111	115	O
-granulometry	116	128	B-Process
-of	129	131	I-Process
-the	132	135	I-Process
-handmade	136	144	I-Process
-concretes	145	154	I-Process
-was	155	158	O
-not	159	162	O
-in	163	165	O
-compliance	166	176	O
-with	177	181	O
-the	182	185	O
-standards	186	195	O
-since	196	201	O
-the	202	205	O
-aggregate	206	215	O
-utilized	216	224	O
-in	225	227	O
-them	228	232	O
-was	233	236	O
-not	237	240	O
-sieved	241	247	O
-.	247	248	O
-
-Also	249	253	O
-the	254	257	O
-compaction	258	268	B-Process
-process	269	276	I-Process
-was	277	280	O
-not	281	284	O
-properly	285	293	O
-implemented	294	305	O
-in	306	308	O
-general	309	316	O
-in	317	319	O
-the	320	323	O
-installment	324	335	B-Process
-of	336	338	I-Process
-concrete	339	347	I-Process
-in	348	350	O
-RC	351	353	O
-buildings	354	363	O
-.	363	364	O
-
-This	365	369	O
-situation	370	379	O
-resulted	380	388	O
-in	389	391	O
-the	392	395	O
-concrete	396	404	B-Material
-to	405	407	O
-exhibit	408	415	O
-an	416	418	O
-excessively	419	430	O
-porous	431	437	O
-structure	438	447	O
-.	447	448	O
-
-The	449	452	O
-most	453	457	O
-fundamental	458	469	O
-rules	470	475	O
-of	476	478	O
-thumb	479	484	O
-of	485	487	O
-construction	488	500	O
-,	500	501	O
-namely	502	508	O
-concrete	509	517	B-Material
-cover	518	523	I-Material
-,	523	524	O
-was	525	528	O
-not	529	532	O
-taken	533	538	O
-care	539	543	O
-of	544	546	O
-in	547	549	O
-formwork	550	558	O
-workmanship	559	570	O
-.	570	571	O
-
-Faults	572	578	B-Process
-in	579	581	I-Process
-the	582	585	I-Process
-connections	586	597	I-Process
-of	598	600	I-Process
-stirrups	601	609	I-Process
-to	610	612	O
-the	613	616	O
-longitudinal	617	629	O
-bars	630	634	O
-,	634	635	O
-unstaggered	636	647	B-Process
-formation	648	657	I-Process
-of	658	660	I-Process
-stirrup	661	668	I-Process
-hooks	669	674	B-Material
-in	675	677	O
-beams	678	683	B-Material
-and	684	687	O
-columns	688	695	B-Material
-,	695	696	O
-the	697	700	O
-perpendicular	701	714	B-Process
-angles	715	721	I-Process
-of	722	724	O
-the	725	728	O
-hooks	729	734	B-Material
-,	734	735	O
-inadequately	736	748	B-Process
-anchorage	749	758	I-Process
-lengths	759	766	I-Process
-of	767	769	O
-the	770	773	O
-stirrup	774	781	B-Material
-hooks	782	787	I-Material
-and	788	791	O
-longitudinal	792	804	B-Material
-bars	805	809	I-Material
-,	809	810	O
-and	811	814	O
-the	815	818	O
-use	819	822	B-Process
-of	823	825	I-Process
-cold	826	830	I-Process
-joints	831	837	I-Process
-were	838	842	O
-the	843	846	O
-other	847	852	O
-frequently	853	863	O
-encountered	864	875	O
-workmanship	876	887	B-Process
-defects	888	895	I-Process
-(	896	897	O
-Figs	897	901	O
-.	901	902	O
-
-19–22	903	908	O
-)	908	909	O
-.	909	910	O
+Another	0,7	O	O
+important	8,17	O	O
+reason	18,24	O	O
+for	25,28	O	O
+the	29,32	O	O
+damages	33,40	O	O
+incurred	41,49	O	O
+by	50,52	O	O
+the	53,56	O	O
+RC	57,59	O	O
+buildings	60,69	O	O
+is	70,72	O	O
+workmanship	73,84	O	B-Process
+defects	85,92	O	I-Process
+.	92,93	O	O
+
+It	94,96	O	O
+is	97,99	O	O
+understood	100,110	O	O
+that	111,115	O	O
+granulometry	116,128	O	B-Process
+of	129,131	O	I-Process
+the	132,135	O	I-Process
+handmade	136,144	O	I-Process
+concretes	145,154	O	I-Process
+was	155,158	O	O
+not	159,162	O	O
+in	163,165	O	O
+compliance	166,176	O	O
+with	177,181	O	O
+the	182,185	O	O
+standards	186,195	O	O
+since	196,201	O	O
+the	202,205	O	O
+aggregate	206,215	O	O
+utilized	216,224	O	O
+in	225,227	O	O
+them	228,232	O	O
+was	233,236	O	O
+not	237,240	O	O
+sieved	241,247	O	O
+.	247,248	O	O
+
+Also	249,253	O	O
+the	254,257	O	O
+compaction	258,268	O	B-Process
+process	269,276	O	I-Process
+was	277,280	O	O
+not	281,284	O	O
+properly	285,293	O	O
+implemented	294,305	O	O
+in	306,308	O	O
+general	309,316	O	O
+in	317,319	O	O
+the	320,323	O	O
+installment	324,335	O	B-Process
+of	336,338	O	I-Process
+concrete	339,347	O	I-Process
+in	348,350	O	O
+RC	351,353	O	O
+buildings	354,363	O	O
+.	363,364	O	O
+
+This	365,369	O	O
+situation	370,379	O	O
+resulted	380,388	O	O
+in	389,391	O	O
+the	392,395	O	O
+concrete	396,404	O	B-Material
+to	405,407	O	O
+exhibit	408,415	O	O
+an	416,418	O	O
+excessively	419,430	O	O
+porous	431,437	O	O
+structure	438,447	O	O
+.	447,448	O	O
+
+The	449,452	O	O
+most	453,457	O	O
+fundamental	458,469	O	O
+rules	470,475	O	O
+of	476,478	O	O
+thumb	479,484	O	O
+of	485,487	O	O
+construction	488,500	O	O
+,	500,501	O	O
+namely	502,508	O	O
+concrete	509,517	O	B-Material
+cover	518,523	O	I-Material
+,	523,524	O	O
+was	525,528	O	O
+not	529,532	O	O
+taken	533,538	O	O
+care	539,543	O	O
+of	544,546	O	O
+in	547,549	O	O
+formwork	550,558	O	O
+workmanship	559,570	O	O
+.	570,571	O	O
+
+Faults	572,578	O	B-Process
+in	579,581	O	I-Process
+the	582,585	O	I-Process
+connections	586,597	O	I-Process
+of	598,600	O	I-Process
+stirrups	601,609	O	I-Process
+to	610,612	O	O
+the	613,616	O	O
+longitudinal	617,629	O	O
+bars	630,634	O	O
+,	634,635	O	O
+unstaggered	636,647	O	B-Process
+formation	648,657	O	I-Process
+of	658,660	O	I-Process
+stirrup	661,668	O	I-Process
+hooks	669,674	O	B-Material
+in	675,677	O	O
+beams	678,683	O	B-Material
+and	684,687	O	O
+columns	688,695	O	B-Material
+,	695,696	O	O
+the	697,700	O	O
+perpendicular	701,714	O	B-Process
+angles	715,721	O	I-Process
+of	722,724	O	O
+the	725,728	O	O
+hooks	729,734	O	B-Material
+,	734,735	O	O
+inadequately	736,748	O	B-Process
+anchorage	749,758	O	I-Process
+lengths	759,766	O	I-Process
+of	767,769	O	O
+the	770,773	O	O
+stirrup	774,781	O	B-Material
+hooks	782,787	O	I-Material
+and	788,791	O	O
+longitudinal	792,804	O	B-Material
+bars	805,809	O	I-Material
+,	809,810	O	O
+and	811,814	O	O
+the	815,818	O	O
+use	819,822	O	B-Process
+of	823,825	O	I-Process
+cold	826,830	O	I-Process
+joints	831,837	O	I-Process
+were	838,842	O	O
+the	843,846	O	O
+other	847,852	O	O
+frequently	853,863	O	O
+encountered	864,875	O	O
+workmanship	876,887	O	B-Process
+defects	888,895	O	I-Process
+(	896,897	O	O
+Figs	897,901	O	O
+.	901,902	O	O
+
+19–22	903,908	O	O
+)	908,909	O	O
+.	909,910	O	O
 
 
 -DOCSTART- (S2214657115000052)
 
-The	0	3	O
-exponential	4	15	B-Process
-relationships	16	29	I-Process
-reported	30	38	O
-in	39	41	O
-the	42	45	O
-plots	46	51	O
-may	52	55	O
-be	56	58	O
-used	59	63	O
-to	64	66	O
-convert	67	74	B-Task
-the	75	78	I-Task
-dielectric	79	89	I-Task
-values	90	96	I-Task
-to	97	99	I-Task
-air	100	103	I-Task
-void	104	108	I-Task
-values	109	115	I-Task
-as	116	118	O
-prescribed	119	129	O
-in	130	132	O
-previous	133	141	O
-studies	142	149	O
-[	150	151	O
-1–3	151	154	O
-]	154	155	O
-.	155	156	O
-
-The	157	160	O
-AC	161	163	B-Process
-pavement	164	172	I-Process
-composite	173	182	I-Process
-permittivity	183	195	I-Process
-reduces	196	203	O
-,	203	204	O
-along	205	210	O
-with	211	215	O
-the	216	219	O
-reflection	220	230	O
-coefficient	231	242	O
-,	242	243	O
-as	244	246	O
-the	247	250	O
-volumetric	251	261	B-Process
-proportion	262	272	I-Process
-of	273	275	I-Process
-air	276	279	I-Process
-increases	280	289	O
-as	290	292	O
-compared	293	301	O
-to	302	304	O
-the	305	308	O
-remaining	309	318	O
-components	319	329	O
-.	329	330	O
-
-However	331	338	O
-,	338	339	O
-the	340	343	O
-method	344	350	O
-relies	351	357	O
-on	358	360	O
-an	361	363	O
-empirical	364	373	O
-fit	374	377	O
-,	377	378	O
-determined	379	389	O
-on	390	392	O
-a	393	394	O
-case	395	399	O
--	399	400	O
-by	400	402	O
--	402	403	O
-case	403	407	O
-basis	408	413	O
-,	413	414	O
-since	415	420	O
-the	421	424	O
-permittivity	425	437	O
-of	438	440	O
-the	441	444	O
-remaining	445	454	O
-components	455	465	O
-depends	466	473	O
-on	474	476	O
-the	477	480	O
-mix	481	484	B-Material
-design	485	491	I-Material
-(	492	493	O
-aggregate	493	502	O
-type	503	507	O
-,	507	508	O
-binder	509	515	O
-content	516	523	O
-,	523	524	O
-etc	525	528	O
-.	528	529	O
-)	529	530	O
-.	530	531	O
-
-Long	532	536	B-Process
-term	537	541	I-Process
-studies	542	549	I-Process
-in	550	552	I-Process
-Finland	553	560	I-Process
-concluded	561	570	O
-that	571	575	O
-this	576	580	O
-empirical	581	590	O
-fit	591	594	O
-is	595	597	O
-an	598	600	O
-exponential	601	612	B-Task
-relationship	613	625	I-Task
-[	626	627	O
-1	627	628	O
-]	628	629	O
-.	629	630	O
-
-The	631	634	O
-exponential	635	646	O
-fits	647	651	O
-,	651	652	O
-using	653	658	O
-a	659	660	O
-sufficient	661	671	B-Process
-amount	672	678	I-Process
-of	679	681	I-Process
-cores	682	687	I-Process
-,	687	688	O
-can	689	692	O
-be	693	695	O
-used	696	700	O
-to	701	703	O
-map	704	707	B-Task
-the	708	711	I-Task
-air	712	715	I-Task
-void	716	720	I-Task
-content	721	728	I-Task
-variation	729	738	I-Task
-in	739	741	O
-a	742	743	O
-similar	744	751	O
-manner	752	758	O
-to	759	761	O
-the	762	765	O
-dielectric	766	776	B-Material
-maps	777	781	I-Material
-shown	782	787	O
-in	788	790	O
-Fig	791	794	O
-.	794	795	O
-
-4	796	797	O
-.	797	798	O
-
-Only	799	803	O
-4	804	805	O
-cores	806	811	O
-were	812	816	O
-feasible	817	825	O
-due	826	829	O
-to	830	832	O
-various	833	840	O
-factors	841	848	O
-involved	849	857	O
-with	858	862	O
-testing	863	870	B-Task
-the	871	874	I-Task
-final	875	880	I-Task
-lift	881	885	I-Task
-of	886	888	O
-an	889	891	O
-in	892	894	O
--	894	895	O
-service	895	902	O
-pavement	903	911	O
-.	911	912	O
-
-More	913	917	O
-cores	918	923	O
-are	924	927	O
-needed	928	934	O
-for	935	938	O
-more	939	943	B-Task
-stable	944	950	I-Task
-exponential	951	962	I-Task
-coefficients	963	975	I-Task
-,	975	976	O
-although	977	985	O
-the	986	989	O
-limited	990	997	O
-cores	998	1003	O
-show	1004	1008	O
-that	1009	1013	O
-the	1014	1017	O
-predicted	1018	1027	B-Process
-relationships	1028	1041	I-Process
-are	1042	1045	O
-similar	1046	1053	O
-for	1054	1057	O
-the	1058	1061	O
-measured	1062	1070	B-Process
-dielectric	1071	1081	I-Process
-range	1082	1087	I-Process
-in	1088	1090	O
-this	1091	1095	O
-case	1096	1100	O
--	1100	1101	O
-study	1101	1106	O
-.	1106	1107	O
-
-Since	1108	1113	O
-both	1114	1118	O
-regressions	1119	1130	B-Process
-predict	1131	1138	O
-air	1139	1142	B-Task
-void	1143	1147	I-Task
-content	1148	1155	I-Task
-at	1156	1158	O
-a	1159	1160	O
-maximum	1161	1168	O
-difference	1169	1179	O
-of	1180	1182	O
-0.56	1183	1187	O
-%	1187	1188	O
-,	1188	1189	O
-which	1190	1195	O
-is	1196	1198	O
-within	1199	1205	O
-the	1206	1209	O
-uncertainty	1210	1221	O
-of	1222	1224	O
-the	1225	1228	O
-core	1229	1233	B-Process
-measurement	1234	1245	I-Process
-precision	1246	1255	I-Process
-of	1256	1258	O
-0.7	1259	1262	O
-%	1262	1263	O
-,	1263	1264	O
-use	1265	1268	O
-of	1269	1271	O
-either	1272	1278	O
-the	1279	1282	O
-initial	1283	1290	B-Process
-or	1291	1293	I-Process
-repeat	1294	1300	I-Process
-run	1301	1304	I-Process
-regression	1305	1315	I-Process
-predictions	1316	1327	I-Process
-are	1328	1331	O
-appropriate	1332	1343	O
-.	1343	1344	O
+The	0,3	O	O
+exponential	4,15	O	B-Process
+relationships	16,29	O	I-Process
+reported	30,38	O	O
+in	39,41	O	O
+the	42,45	O	O
+plots	46,51	O	O
+may	52,55	O	O
+be	56,58	O	O
+used	59,63	O	O
+to	64,66	O	O
+convert	67,74	O	B-Task
+the	75,78	O	I-Task
+dielectric	79,89	O	I-Task
+values	90,96	O	I-Task
+to	97,99	O	I-Task
+air	100,103	O	I-Task
+void	104,108	O	I-Task
+values	109,115	O	I-Task
+as	116,118	O	O
+prescribed	119,129	O	O
+in	130,132	O	O
+previous	133,141	O	O
+studies	142,149	O	O
+[	150,151	O	O
+1–3	151,154	O	O
+]	154,155	O	O
+.	155,156	O	O
+
+The	157,160	O	O
+AC	161,163	O	B-Process
+pavement	164,172	O	I-Process
+composite	173,182	O	I-Process
+permittivity	183,195	O	I-Process
+reduces	196,203	O	O
+,	203,204	O	O
+along	205,210	O	O
+with	211,215	O	O
+the	216,219	O	O
+reflection	220,230	O	O
+coefficient	231,242	O	O
+,	242,243	O	O
+as	244,246	O	O
+the	247,250	O	O
+volumetric	251,261	O	B-Process
+proportion	262,272	O	I-Process
+of	273,275	O	I-Process
+air	276,279	O	I-Process
+increases	280,289	O	O
+as	290,292	O	O
+compared	293,301	O	O
+to	302,304	O	O
+the	305,308	O	O
+remaining	309,318	O	O
+components	319,329	O	O
+.	329,330	O	O
+
+However	331,338	O	O
+,	338,339	O	O
+the	340,343	O	O
+method	344,350	O	O
+relies	351,357	O	O
+on	358,360	O	O
+an	361,363	O	O
+empirical	364,373	O	O
+fit	374,377	O	O
+,	377,378	O	O
+determined	379,389	O	O
+on	390,392	O	O
+a	393,394	O	O
+case	395,399	O	O
+-	399,400	O	O
+by	400,402	O	O
+-	402,403	O	O
+case	403,407	O	O
+basis	408,413	O	O
+,	413,414	O	O
+since	415,420	O	O
+the	421,424	O	O
+permittivity	425,437	O	O
+of	438,440	O	O
+the	441,444	O	O
+remaining	445,454	O	O
+components	455,465	O	O
+depends	466,473	O	O
+on	474,476	O	O
+the	477,480	O	O
+mix	481,484	O	B-Material
+design	485,491	O	I-Material
+(	492,493	O	O
+aggregate	493,502	O	O
+type	503,507	O	O
+,	507,508	O	O
+binder	509,515	O	O
+content	516,523	O	O
+,	523,524	O	O
+etc	525,528	O	O
+.	528,529	O	O
+)	529,530	O	O
+.	530,531	O	O
+
+Long	532,536	O	B-Process
+term	537,541	O	I-Process
+studies	542,549	O	I-Process
+in	550,552	O	I-Process
+Finland	553,560	O	I-Process
+concluded	561,570	O	O
+that	571,575	O	O
+this	576,580	O	O
+empirical	581,590	O	O
+fit	591,594	O	O
+is	595,597	O	O
+an	598,600	O	O
+exponential	601,612	O	B-Task
+relationship	613,625	O	I-Task
+[	626,627	O	O
+1	627,628	O	O
+]	628,629	O	O
+.	629,630	O	O
+
+The	631,634	O	O
+exponential	635,646	O	O
+fits	647,651	O	O
+,	651,652	O	O
+using	653,658	O	O
+a	659,660	O	O
+sufficient	661,671	O	B-Process
+amount	672,678	O	I-Process
+of	679,681	O	I-Process
+cores	682,687	O	I-Process
+,	687,688	O	O
+can	689,692	O	O
+be	693,695	O	O
+used	696,700	O	O
+to	701,703	O	O
+map	704,707	O	B-Task
+the	708,711	O	I-Task
+air	712,715	O	I-Task
+void	716,720	O	I-Task
+content	721,728	O	I-Task
+variation	729,738	O	I-Task
+in	739,741	O	O
+a	742,743	O	O
+similar	744,751	O	O
+manner	752,758	O	O
+to	759,761	O	O
+the	762,765	O	O
+dielectric	766,776	O	B-Material
+maps	777,781	O	I-Material
+shown	782,787	O	O
+in	788,790	O	O
+Fig	791,794	O	O
+.	794,795	O	O
+
+4	796,797	O	O
+.	797,798	O	O
+
+Only	799,803	O	O
+4	804,805	O	O
+cores	806,811	O	O
+were	812,816	O	O
+feasible	817,825	O	O
+due	826,829	O	O
+to	830,832	O	O
+various	833,840	O	O
+factors	841,848	O	O
+involved	849,857	O	O
+with	858,862	O	O
+testing	863,870	O	B-Task
+the	871,874	O	I-Task
+final	875,880	O	I-Task
+lift	881,885	O	I-Task
+of	886,888	O	O
+an	889,891	O	O
+in	892,894	O	O
+-	894,895	O	O
+service	895,902	O	O
+pavement	903,911	O	O
+.	911,912	O	O
+
+More	913,917	O	O
+cores	918,923	O	O
+are	924,927	O	O
+needed	928,934	O	O
+for	935,938	O	O
+more	939,943	O	B-Task
+stable	944,950	O	I-Task
+exponential	951,962	O	I-Task
+coefficients	963,975	O	I-Task
+,	975,976	O	O
+although	977,985	O	O
+the	986,989	O	O
+limited	990,997	O	O
+cores	998,1003	O	O
+show	1004,1008	O	O
+that	1009,1013	O	O
+the	1014,1017	O	O
+predicted	1018,1027	O	B-Process
+relationships	1028,1041	O	I-Process
+are	1042,1045	O	O
+similar	1046,1053	O	O
+for	1054,1057	O	O
+the	1058,1061	O	O
+measured	1062,1070	O	B-Process
+dielectric	1071,1081	O	I-Process
+range	1082,1087	O	I-Process
+in	1088,1090	O	O
+this	1091,1095	O	O
+case	1096,1100	O	O
+-	1100,1101	O	O
+study	1101,1106	O	O
+.	1106,1107	O	O
+
+Since	1108,1113	O	O
+both	1114,1118	O	O
+regressions	1119,1130	O	B-Process
+predict	1131,1138	O	O
+air	1139,1142	O	B-Task
+void	1143,1147	O	I-Task
+content	1148,1155	O	I-Task
+at	1156,1158	O	O
+a	1159,1160	O	O
+maximum	1161,1168	O	O
+difference	1169,1179	O	O
+of	1180,1182	O	O
+0.56	1183,1187	O	O
+%	1187,1188	O	O
+,	1188,1189	O	O
+which	1190,1195	O	O
+is	1196,1198	O	O
+within	1199,1205	O	O
+the	1206,1209	O	O
+uncertainty	1210,1221	O	O
+of	1222,1224	O	O
+the	1225,1228	O	O
+core	1229,1233	O	B-Process
+measurement	1234,1245	O	I-Process
+precision	1246,1255	O	I-Process
+of	1256,1258	O	O
+0.7	1259,1262	O	O
+%	1262,1263	O	O
+,	1263,1264	O	O
+use	1265,1268	O	O
+of	1269,1271	O	O
+either	1272,1278	O	O
+the	1279,1282	O	O
+initial	1283,1290	O	B-Process
+or	1291,1293	O	I-Process
+repeat	1294,1300	O	I-Process
+run	1301,1304	O	I-Process
+regression	1305,1315	O	I-Process
+predictions	1316,1327	O	I-Process
+are	1328,1331	O	O
+appropriate	1332,1343	O	O
+.	1343,1344	O	O
 
 
 -DOCSTART- (S2214657115000155)
 
-MicroCT	0	7	B-Process
-has	8	11	O
-been	12	16	O
-applied	17	24	O
-to	25	27	O
-AM	28	30	B-Material
-parts	31	36	I-Material
-in	37	39	O
-various	40	47	O
-forms	48	53	O
-.	53	54	O
-
-Some	55	59	O
-preliminary	60	71	B-Material
-results	72	79	I-Material
-demonstrating	80	93	O
-the	94	97	O
-visualization	98	111	B-Task
-of	112	114	I-Task
-defects	115	122	I-Task
-including	123	132	O
-porosity	133	141	B-Process
-in	142	144	I-Process
-AM	145	147	I-Process
-components	148	158	I-Process
-were	159	163	O
-reported	164	172	O
-in	173	175	O
-[	176	177	O
-6	177	178	O
-]	178	179	O
-.	179	180	O
-
-In	181	183	O
-another	184	191	O
-study	192	197	O
-,	197	198	O
-the	199	202	O
-porosity	203	211	B-Task
-structures	212	222	I-Task
-in	223	225	I-Task
-parts	226	231	I-Task
-built	232	237	O
-with	238	242	O
-improper	243	251	O
-settings	252	260	O
-were	261	265	O
-investigated	266	278	O
-[	279	280	O
-7	280	281	O
-]	281	282	O
-.	282	283	O
-
-In	284	286	O
-this	287	291	O
-work	292	296	O
-,	296	297	O
-the	298	301	O
-average	302	309	B-Process
-porosity	310	318	I-Process
-ranged	319	325	O
-from	326	330	O
-0.1–0.5	331	338	O
-%	338	339	O
-,	339	340	O
-and	341	344	O
-large	345	350	O
-pores	351	356	O
-were	357	361	O
-observed	362	370	O
-which	371	376	O
-followed	377	385	O
-the	386	389	O
-build	390	395	B-Process
-direction	396	405	I-Process
-and	406	409	O
-may	410	413	O
-be	414	416	O
-attributed	417	427	O
-to	428	430	O
-the	431	434	O
-electron	435	443	B-Process
-beam	444	448	I-Process
-raster	449	455	I-Process
-and	456	459	I-Process
-overlap	460	467	I-Process
-pattern	468	475	I-Process
-.	475	476	I-Process
-
-This	477	481	O
-was	482	485	O
-followed	486	494	O
-by	495	497	O
-more	498	502	O
-recent	503	509	B-Material
-reports	510	517	I-Material
-of	518	520	O
-the	521	524	O
-porosity	525	533	B-Task
-distribution	534	546	I-Task
-as	547	549	O
-a	550	551	O
-function	552	560	O
-of	561	563	O
-build	564	569	O
-strategy	570	578	O
-for	579	582	O
-electron	583	591	B-Material
-beam	592	596	I-Material
-melted	597	603	I-Material
-samples	604	611	I-Material
-with	612	616	O
-average	617	624	O
-porosity	625	633	O
-<	634	635	O
-0.2	636	639	O
-%	639	640	O
-[	641	642	O
-8	642	643	O
-]	643	644	O
-.	644	645	O
-
-In	646	648	O
-another	649	656	O
-study	657	662	O
-,	662	663	O
-similar	664	671	O
-porosity	672	680	B-Material
-images	681	687	I-Material
-from	688	692	O
-microCT	693	700	B-Material
-were	701	705	O
-reported	706	714	O
-at	715	717	O
-levels	718	724	O
-above	725	730	O
-0.2	731	734	O
-%	734	735	O
-average	736	743	O
-porosity	744	752	O
-[	753	754	O
-9,10	754	758	O
-]	758	759	O
-.	759	760	O
-
-Very	761	765	O
-recent	766	772	O
-work	773	777	O
-reports	778	785	O
-similar	786	793	O
-images	794	800	O
-and	801	804	O
-may	805	808	O
-indicate	809	817	O
-that	818	822	O
-the	823	826	O
-porosity	827	835	O
-structure	836	845	O
-depends	846	853	O
-on	854	856	O
-the	857	860	O
-build	861	866	O
-direction	867	876	O
-[	877	878	O
-11	878	880	O
-]	880	881	O
-.	881	882	O
-
-Other	883	888	O
-applications	889	901	O
-of	902	904	O
-the	905	908	O
-use	909	912	O
-of	913	915	O
-microCT	916	923	B-Material
-to	924	926	O
-characterize	927	939	B-Task
-AM	940	942	I-Task
-parts	943	948	I-Task
-include	949	956	O
-the	957	960	O
-comparison	961	971	B-Process
-of	972	974	I-Process
-the	975	978	I-Process
-part	979	983	I-Process
-to	984	986	I-Process
-its	987	990	I-Process
-design	991	997	I-Process
-model	998	1003	I-Process
-[	1004	1005	O
-12	1005	1007	O
-]	1007	1008	O
-and	1009	1012	O
-the	1013	1016	O
-characterization	1017	1033	B-Process
-of	1034	1036	I-Process
-surface	1037	1044	I-Process
-roughness	1045	1054	I-Process
-of	1055	1057	O
-such	1058	1062	O
-parts	1063	1068	O
-[	1069	1070	O
-13	1070	1072	O
-]	1072	1073	O
-.	1073	1074	O
-
-In	1075	1077	O
-the	1078	1081	O
-present	1082	1089	O
-work	1090	1094	O
-,	1094	1095	O
-the	1096	1099	O
-aim	1100	1103	O
-is	1104	1106	O
-to	1107	1109	O
-demonstrate	1110	1121	B-Task
-a	1122	1123	I-Task
-specific	1124	1132	I-Task
-type	1133	1137	I-Task
-of	1138	1140	I-Task
-defect	1141	1147	I-Task
-present	1148	1155	O
-at	1156	1158	O
-very	1159	1163	B-Process
-low	1164	1167	I-Process
-average	1168	1175	I-Process
-porosity	1176	1184	I-Process
-levels	1185	1191	I-Process
-below	1192	1197	O
-0.01	1198	1202	O
-%	1202	1203	O
-,	1203	1204	O
-and	1205	1208	O
-which	1209	1214	O
-does	1215	1219	O
-not	1220	1223	B-Process
-follow	1224	1230	I-Process
-the	1231	1234	I-Process
-build	1235	1240	I-Process
-direction	1241	1250	I-Process
-as	1251	1253	O
-in	1254	1256	O
-some	1257	1261	O
-other	1262	1267	O
-reported	1268	1276	O
-examples	1277	1285	O
-.	1285	1286	O
-
-We	1287	1289	O
-also	1290	1294	O
-demonstrate	1295	1306	O
-how	1307	1310	O
-this	1311	1315	O
-porosity	1316	1324	B-Task
-structure	1325	1334	I-Task
-changes	1335	1342	I-Task
-after	1343	1348	O
-Hot	1349	1352	B-Process
-Isostatic	1353	1362	I-Process
-Pressing	1363	1371	I-Process
-(	1372	1373	O
-HIP	1373	1376	B-Process
-)	1376	1377	O
-treatment	1378	1387	O
-of	1388	1390	O
-the	1391	1394	O
-same	1395	1399	O
-sample	1400	1406	O
-.	1406	1407	O
+MicroCT	0,7	O	B-Process
+has	8,11	O	O
+been	12,16	O	O
+applied	17,24	O	O
+to	25,27	O	O
+AM	28,30	O	B-Material
+parts	31,36	O	I-Material
+in	37,39	O	O
+various	40,47	O	O
+forms	48,53	O	O
+.	53,54	O	O
+
+Some	55,59	O	O
+preliminary	60,71	O	B-Material
+results	72,79	O	I-Material
+demonstrating	80,93	O	O
+the	94,97	O	O
+visualization	98,111	O	B-Task
+of	112,114	O	I-Task
+defects	115,122	O	I-Task
+including	123,132	O	O
+porosity	133,141	O	B-Process
+in	142,144	O	I-Process
+AM	145,147	O	I-Process
+components	148,158	O	I-Process
+were	159,163	O	O
+reported	164,172	O	O
+in	173,175	O	O
+[	176,177	O	O
+6	177,178	O	O
+]	178,179	O	O
+.	179,180	O	O
+
+In	181,183	O	O
+another	184,191	O	O
+study	192,197	O	O
+,	197,198	O	O
+the	199,202	O	O
+porosity	203,211	O	B-Task
+structures	212,222	O	I-Task
+in	223,225	O	I-Task
+parts	226,231	O	I-Task
+built	232,237	O	O
+with	238,242	O	O
+improper	243,251	O	O
+settings	252,260	O	O
+were	261,265	O	O
+investigated	266,278	O	O
+[	279,280	O	O
+7	280,281	O	O
+]	281,282	O	O
+.	282,283	O	O
+
+In	284,286	O	O
+this	287,291	O	O
+work	292,296	O	O
+,	296,297	O	O
+the	298,301	O	O
+average	302,309	O	B-Process
+porosity	310,318	O	I-Process
+ranged	319,325	O	O
+from	326,330	O	O
+0.1–0.5	331,338	O	O
+%	338,339	O	O
+,	339,340	O	O
+and	341,344	O	O
+large	345,350	O	O
+pores	351,356	O	O
+were	357,361	O	O
+observed	362,370	O	O
+which	371,376	O	O
+followed	377,385	O	O
+the	386,389	O	O
+build	390,395	O	B-Process
+direction	396,405	O	I-Process
+and	406,409	O	O
+may	410,413	O	O
+be	414,416	O	O
+attributed	417,427	O	O
+to	428,430	O	O
+the	431,434	O	O
+electron	435,443	O	B-Process
+beam	444,448	O	I-Process
+raster	449,455	O	I-Process
+and	456,459	O	I-Process
+overlap	460,467	O	I-Process
+pattern	468,475	O	I-Process
+.	475,476	O	I-Process
+
+This	477,481	O	O
+was	482,485	O	O
+followed	486,494	O	O
+by	495,497	O	O
+more	498,502	O	O
+recent	503,509	O	B-Material
+reports	510,517	O	I-Material
+of	518,520	O	O
+the	521,524	O	O
+porosity	525,533	O	B-Task
+distribution	534,546	O	I-Task
+as	547,549	O	O
+a	550,551	O	O
+function	552,560	O	O
+of	561,563	O	O
+build	564,569	O	O
+strategy	570,578	O	O
+for	579,582	O	O
+electron	583,591	O	B-Material
+beam	592,596	O	I-Material
+melted	597,603	O	I-Material
+samples	604,611	O	I-Material
+with	612,616	O	O
+average	617,624	O	O
+porosity	625,633	O	O
+<	634,635	O	O
+0.2	636,639	O	O
+%	639,640	O	O
+[	641,642	O	O
+8	642,643	O	O
+]	643,644	O	O
+.	644,645	O	O
+
+In	646,648	O	O
+another	649,656	O	O
+study	657,662	O	O
+,	662,663	O	O
+similar	664,671	O	O
+porosity	672,680	O	B-Material
+images	681,687	O	I-Material
+from	688,692	O	O
+microCT	693,700	O	B-Material
+were	701,705	O	O
+reported	706,714	O	O
+at	715,717	O	O
+levels	718,724	O	O
+above	725,730	O	O
+0.2	731,734	O	O
+%	734,735	O	O
+average	736,743	O	O
+porosity	744,752	O	O
+[	753,754	O	O
+9,10	754,758	O	O
+]	758,759	O	O
+.	759,760	O	O
+
+Very	761,765	O	O
+recent	766,772	O	O
+work	773,777	O	O
+reports	778,785	O	O
+similar	786,793	O	O
+images	794,800	O	O
+and	801,804	O	O
+may	805,808	O	O
+indicate	809,817	O	O
+that	818,822	O	O
+the	823,826	O	O
+porosity	827,835	O	O
+structure	836,845	O	O
+depends	846,853	O	O
+on	854,856	O	O
+the	857,860	O	O
+build	861,866	O	O
+direction	867,876	O	O
+[	877,878	O	O
+11	878,880	O	O
+]	880,881	O	O
+.	881,882	O	O
+
+Other	883,888	O	O
+applications	889,901	O	O
+of	902,904	O	O
+the	905,908	O	O
+use	909,912	O	O
+of	913,915	O	O
+microCT	916,923	O	B-Material
+to	924,926	O	O
+characterize	927,939	O	B-Task
+AM	940,942	O	I-Task
+parts	943,948	O	I-Task
+include	949,956	O	O
+the	957,960	O	O
+comparison	961,971	O	B-Process
+of	972,974	O	I-Process
+the	975,978	O	I-Process
+part	979,983	O	I-Process
+to	984,986	O	I-Process
+its	987,990	O	I-Process
+design	991,997	O	I-Process
+model	998,1003	O	I-Process
+[	1004,1005	O	O
+12	1005,1007	O	O
+]	1007,1008	O	O
+and	1009,1012	O	O
+the	1013,1016	O	O
+characterization	1017,1033	O	B-Process
+of	1034,1036	O	I-Process
+surface	1037,1044	O	I-Process
+roughness	1045,1054	O	I-Process
+of	1055,1057	O	O
+such	1058,1062	O	O
+parts	1063,1068	O	O
+[	1069,1070	O	O
+13	1070,1072	O	O
+]	1072,1073	O	O
+.	1073,1074	O	O
+
+In	1075,1077	O	O
+the	1078,1081	O	O
+present	1082,1089	O	O
+work	1090,1094	O	O
+,	1094,1095	O	O
+the	1096,1099	O	O
+aim	1100,1103	O	O
+is	1104,1106	O	O
+to	1107,1109	O	O
+demonstrate	1110,1121	O	B-Task
+a	1122,1123	O	I-Task
+specific	1124,1132	O	I-Task
+type	1133,1137	O	I-Task
+of	1138,1140	O	I-Task
+defect	1141,1147	O	I-Task
+present	1148,1155	O	O
+at	1156,1158	O	O
+very	1159,1163	O	B-Process
+low	1164,1167	O	I-Process
+average	1168,1175	O	I-Process
+porosity	1176,1184	O	I-Process
+levels	1185,1191	O	I-Process
+below	1192,1197	O	O
+0.01	1198,1202	O	O
+%	1202,1203	O	O
+,	1203,1204	O	O
+and	1205,1208	O	O
+which	1209,1214	O	O
+does	1215,1219	O	O
+not	1220,1223	O	B-Process
+follow	1224,1230	O	I-Process
+the	1231,1234	O	I-Process
+build	1235,1240	O	I-Process
+direction	1241,1250	O	I-Process
+as	1251,1253	O	O
+in	1254,1256	O	O
+some	1257,1261	O	O
+other	1262,1267	O	O
+reported	1268,1276	O	O
+examples	1277,1285	O	O
+.	1285,1286	O	O
+
+We	1287,1289	O	O
+also	1290,1294	O	O
+demonstrate	1295,1306	O	O
+how	1307,1310	O	O
+this	1311,1315	O	O
+porosity	1316,1324	O	B-Task
+structure	1325,1334	O	I-Task
+changes	1335,1342	O	I-Task
+after	1343,1348	O	O
+Hot	1349,1352	O	B-Process
+Isostatic	1353,1362	O	I-Process
+Pressing	1363,1371	O	I-Process
+(	1372,1373	O	O
+HIP	1373,1376	O	B-Process
+)	1376,1377	O	O
+treatment	1378,1387	O	O
+of	1388,1390	O	O
+the	1391,1394	O	O
+same	1395,1399	O	O
+sample	1400,1406	O	O
+.	1406,1407	O	O
 
 
 -DOCSTART- (S2214657115000179)
 
-Aeroengine	0	10	B-Task
-turbine	11	18	I-Task
-disks	19	24	I-Task
-often	25	30	O
-consist	31	38	O
-of	39	41	O
-paramagnetic	42	54	B-Material
-,	54	55	O
-that	56	60	O
-means	61	66	O
-non	67	70	B-Material
--	70	71	I-Material
-ferromagnetic	71	84	I-Material
-Nickel	85	91	I-Material
-based	92	97	I-Material
-alloys	98	104	I-Material
-.	104	105	O
-
-Sometimes	106	115	O
-,	115	116	O
-parasitic	117	126	B-Material
-small	127	132	I-Material
-ferromagnetic	133	146	I-Material
-particles	147	156	I-Material
-can	157	160	O
-be	161	163	O
-included	164	172	O
-in	173	175	O
-these	176	181	O
-disks	182	187	O
-that	188	192	O
-may	193	196	O
-decrease	197	205	B-Task
-the	206	209	I-Task
-mechanical	210	220	I-Task
-stability	221	230	I-Task
-.	230	231	O
-
-For	232	235	O
-this	236	240	O
-reason	241	247	O
-,	247	248	O
-in	249	251	O
-case	252	256	O
-of	257	259	O
-a	260	261	O
-suspicion	262	271	O
-disks	272	277	O
-are	278	281	O
-to	282	284	O
-be	285	287	O
-analysed	288	296	O
-with	297	301	O
-respect	302	309	O
-to	310	312	O
-ferromagnetic	313	326	B-Process
-inclusions	327	337	I-Process
-.	337	338	O
-
-These	339	344	O
-inclusions	345	355	O
-generate	356	364	O
-a	365	366	O
-magnetic	367	375	B-Task
-density	376	383	I-Task
-which	384	389	O
-can	390	393	O
-be	394	396	O
-measured	397	405	O
-by	406	408	O
-a	409	410	O
-flux	411	415	B-Material
-gate	416	420	I-Material
-magnetometer	421	433	I-Material
-using	434	439	O
-the	440	443	O
-magnetic	444	452	B-Process
-remanence	453	462	I-Process
-method	463	469	I-Process
-[	470	471	O
-1	471	472	O
-]	472	473	O
-.	473	474	O
-
-The	475	478	O
-detection	479	488	B-Process
-principle	489	498	I-Process
-of	499	501	I-Process
-ferromagnetic	502	515	I-Process
-impurities	516	526	I-Process
-in	527	529	O
-non	530	533	O
--	533	534	O
-magnetic	534	542	O
-metallic	543	551	O
-materials	552	561	O
-is	562	564	O
-based	565	570	O
-on	571	573	O
-their	574	579	O
-remanence	580	589	O
-.	589	590	O
-
-Before	591	597	O
-such	598	602	O
-a	603	604	O
-measurement	605	616	B-Task
-can	617	620	O
-be	621	623	O
-carried	624	631	O
-out	632	635	O
-,	635	636	O
-the	637	640	O
-aeroengine	641	651	O
-turbine	652	659	O
-disks	660	665	O
-are	666	669	O
-premagnetised	670	683	B-Process
-in	684	686	O
-axial	687	692	O
-direction	693	702	O
-.	702	703	O
-
-As	704	706	O
-ferromagnetic	707	720	O
-materials	721	730	O
-show	731	735	O
-the	736	739	O
-well	740	744	O
--	744	745	O
-known	745	750	O
-hysteresis	751	761	B-Process
-behaviour	762	771	I-Process
-,	771	772	O
-those	773	778	O
-materials	779	788	O
-can	789	792	O
-be	793	795	O
-magnetised	796	806	O
-by	807	809	O
-a	810	811	O
-strong	812	818	B-Process
-magnetic	819	827	I-Process
-field	828	833	I-Process
-which	834	839	O
-drives	840	846	O
-the	847	850	O
-magnetic	851	859	O
-material	860	868	O
-into	869	873	O
-saturation	874	884	O
-.	884	885	O
-
-When	886	890	O
-removing	891	899	B-Process
-the	900	903	I-Process
-magnetic	904	912	I-Process
-field	913	918	I-Process
-,	918	919	O
-the	920	923	O
-remanence	924	933	O
-is	934	936	O
-left	937	941	O
-.	941	942	O
-
-This	943	947	O
-remaining	948	957	B-Process
-flux	958	962	I-Process
-density	963	970	I-Process
-is	971	973	O
-used	974	978	O
-to	979	981	O
-detect	982	988	O
-them	989	993	O
-in	994	996	O
-non	997	1000	O
--	1000	1001	O
-magnetic	1001	1009	O
-materials	1010	1019	O
-.	1019	1020	O
+Aeroengine	0,10	O	B-Task
+turbine	11,18	O	I-Task
+disks	19,24	O	I-Task
+often	25,30	O	O
+consist	31,38	O	O
+of	39,41	O	O
+paramagnetic	42,54	O	B-Material
+,	54,55	O	O
+that	56,60	O	O
+means	61,66	O	O
+non	67,70	O	B-Material
+-	70,71	O	I-Material
+ferromagnetic	71,84	O	I-Material
+Nickel	85,91	O	I-Material
+based	92,97	O	I-Material
+alloys	98,104	O	I-Material
+.	104,105	O	O
+
+Sometimes	106,115	O	O
+,	115,116	O	O
+parasitic	117,126	O	B-Material
+small	127,132	O	I-Material
+ferromagnetic	133,146	O	I-Material
+particles	147,156	O	I-Material
+can	157,160	O	O
+be	161,163	O	O
+included	164,172	O	O
+in	173,175	O	O
+these	176,181	O	O
+disks	182,187	O	O
+that	188,192	O	O
+may	193,196	O	O
+decrease	197,205	O	B-Task
+the	206,209	O	I-Task
+mechanical	210,220	O	I-Task
+stability	221,230	O	I-Task
+.	230,231	O	O
+
+For	232,235	O	O
+this	236,240	O	O
+reason	241,247	O	O
+,	247,248	O	O
+in	249,251	O	O
+case	252,256	O	O
+of	257,259	O	O
+a	260,261	O	O
+suspicion	262,271	O	O
+disks	272,277	O	O
+are	278,281	O	O
+to	282,284	O	O
+be	285,287	O	O
+analysed	288,296	O	O
+with	297,301	O	O
+respect	302,309	O	O
+to	310,312	O	O
+ferromagnetic	313,326	O	B-Process
+inclusions	327,337	O	I-Process
+.	337,338	O	O
+
+These	339,344	O	O
+inclusions	345,355	O	O
+generate	356,364	O	O
+a	365,366	O	O
+magnetic	367,375	O	B-Task
+density	376,383	O	I-Task
+which	384,389	O	O
+can	390,393	O	O
+be	394,396	O	O
+measured	397,405	O	O
+by	406,408	O	O
+a	409,410	O	O
+flux	411,415	O	B-Material
+gate	416,420	O	I-Material
+magnetometer	421,433	O	I-Material
+using	434,439	O	O
+the	440,443	O	O
+magnetic	444,452	O	B-Process
+remanence	453,462	O	I-Process
+method	463,469	O	I-Process
+[	470,471	O	O
+1	471,472	O	O
+]	472,473	O	O
+.	473,474	O	O
+
+The	475,478	O	O
+detection	479,488	O	B-Process
+principle	489,498	O	I-Process
+of	499,501	O	I-Process
+ferromagnetic	502,515	O	I-Process
+impurities	516,526	O	I-Process
+in	527,529	O	O
+non	530,533	O	O
+-	533,534	O	O
+magnetic	534,542	O	O
+metallic	543,551	O	O
+materials	552,561	O	O
+is	562,564	O	O
+based	565,570	O	O
+on	571,573	O	O
+their	574,579	O	O
+remanence	580,589	O	O
+.	589,590	O	O
+
+Before	591,597	O	O
+such	598,602	O	O
+a	603,604	O	O
+measurement	605,616	O	B-Task
+can	617,620	O	O
+be	621,623	O	O
+carried	624,631	O	O
+out	632,635	O	O
+,	635,636	O	O
+the	637,640	O	O
+aeroengine	641,651	O	O
+turbine	652,659	O	O
+disks	660,665	O	O
+are	666,669	O	O
+premagnetised	670,683	O	B-Process
+in	684,686	O	O
+axial	687,692	O	O
+direction	693,702	O	O
+.	702,703	O	O
+
+As	704,706	O	O
+ferromagnetic	707,720	O	O
+materials	721,730	O	O
+show	731,735	O	O
+the	736,739	O	O
+well	740,744	O	O
+-	744,745	O	O
+known	745,750	O	O
+hysteresis	751,761	O	B-Process
+behaviour	762,771	O	I-Process
+,	771,772	O	O
+those	773,778	O	O
+materials	779,788	O	O
+can	789,792	O	O
+be	793,795	O	O
+magnetised	796,806	O	O
+by	807,809	O	O
+a	810,811	O	O
+strong	812,818	O	B-Process
+magnetic	819,827	O	I-Process
+field	828,833	O	I-Process
+which	834,839	O	O
+drives	840,846	O	O
+the	847,850	O	O
+magnetic	851,859	O	O
+material	860,868	O	O
+into	869,873	O	O
+saturation	874,884	O	O
+.	884,885	O	O
+
+When	886,890	O	O
+removing	891,899	O	B-Process
+the	900,903	O	I-Process
+magnetic	904,912	O	I-Process
+field	913,918	O	I-Process
+,	918,919	O	O
+the	920,923	O	O
+remanence	924,933	O	O
+is	934,936	O	O
+left	937,941	O	O
+.	941,942	O	O
+
+This	943,947	O	O
+remaining	948,957	O	B-Process
+flux	958,962	O	I-Process
+density	963,970	O	I-Process
+is	971,973	O	O
+used	974,978	O	O
+to	979,981	O	O
+detect	982,988	O	O
+them	989,993	O	O
+in	994,996	O	O
+non	997,1000	O	O
+-	1000,1001	O	O
+magnetic	1001,1009	O	O
+materials	1010,1019	O	O
+.	1019,1020	O	O
 
 
 -DOCSTART- (S2352179114200032)
 
-Although	0	8	O
-the	9	12	O
-presented	13	22	O
-model	23	28	O
-is	29	31	O
-developed	32	41	O
-and	42	45	O
-tested	46	52	O
-with	53	57	O
-a	58	59	B-Material
--	59	60	I-Material
-C	60	61	I-Material
-:	61	62	I-Material
-H	62	63	I-Material
-layers	64	70	I-Material
-in	71	73	O
-mind	74	78	O
-,	78	79	O
-it	80	82	O
-is	83	85	O
-not	86	89	O
-necessarily	90	101	O
-limited	102	109	O
-to	110	112	O
-them	113	117	O
-.	117	118	O
-
-Moreover	119	127	O
-,	127	128	O
-the	129	132	O
-only	133	137	O
-assumptions	138	149	O
-are	150	153	O
-chemical	154	162	B-Process
-reactions	163	172	I-Process
-between	173	180	O
-the	181	184	O
-gas	185	188	B-Material
-and	189	192	O
-the	193	196	O
-solid	197	202	B-Material
-forming	203	210	I-Material
-volatiles	211	220	I-Material
-,	220	221	O
-the	222	225	O
-loss	226	230	O
-of	231	233	O
-these	234	239	O
-volatiles	240	249	O
-from	250	254	O
-the	255	258	O
-material	259	267	O
-and	268	271	O
-the	272	275	O
-two	276	279	O
-stated	280	286	O
-boundary	287	295	O
-conditions	296	306	O
-of	307	309	O
-gas	310	313	B-Process
-influx	314	320	I-Process
-at	321	323	O
-a	324	325	O
-single	326	332	B-Material
-outer	333	338	I-Material
-surface	339	346	I-Material
-and	347	350	O
-the	351	354	O
-possibility	355	366	O
-of	367	369	O
-reactions	370	379	B-Process
-throughout	380	390	O
-the	391	394	O
-bulk	395	399	O
-.	399	400	O
-
-Porosity	401	409	B-Process
-and	410	413	O
-significant	414	425	O
-gas	426	429	B-Material
-inventories	430	441	I-Material
-were	442	446	O
-observed	447	455	O
-not	456	459	O
-only	460	464	O
-for	465	468	O
-carbon	469	475	B-Material
-[	476	477	O
-12	477	479	O
-]	479	480	O
-but	481	484	O
-,	484	485	O
-e.g.	486	490	O
-also	491	495	O
-for	496	499	O
-beryllium	500	509	B-Material
-co	510	512	I-Material
--	512	513	I-Material
-deposits	513	521	I-Material
-[	522	523	O
-25	523	525	O
-]	525	526	O
-and	527	530	O
-can	531	534	O
-be	535	537	O
-expected	538	546	O
-for	547	550	O
-other	551	556	O
-co	557	559	O
--	559	560	O
-deposits	560	568	O
-formed	569	575	O
-in	576	578	O
-plasma	579	585	B-Material
-devices	586	593	I-Material
-[	594	595	O
-1	595	596	O
-]	596	597	O
-.	597	598	O
-
-Thus	599	603	O
-,	603	604	O
-TCR	605	608	B-Material
-and	609	612	O
-its	613	616	O
-description	617	628	O
-by	629	631	O
-the	632	635	O
-presented	636	645	O
-model	646	651	O
-may	652	655	O
-be	656	658	O
-applicable	659	669	O
-to	670	672	O
-all	673	676	O
-deposits	677	685	O
-.	685	686	O
-
-If	687	689	O
-a	690	691	O
-layer	692	697	O
-has	698	701	O
-constituents	702	714	B-Process
-that	715	719	I-Process
-are	720	723	I-Process
-not	724	727	I-Process
-forming	728	735	I-Process
-volatiles	736	745	I-Process
-with	746	750	I-Process
-the	751	754	I-Process
-reactive	755	763	I-Process
-gas	764	767	I-Process
-,	767	768	O
-e.g.	769	773	O
-W	774	775	B-Process
-and	776	779	I-Process
-Be	780	782	I-Process
-with	783	787	I-Process
-O2	788	790	I-Process
-,	790	791	O
-these	792	797	O
-constituents	798	810	O
-can	811	814	O
-not	814	817	O
-be	818	820	O
-removed	821	828	O
-by	829	831	O
-TCR	832	835	B-Material
-,	835	836	O
-as	837	839	O
-they	840	844	O
-will	845	849	O
-not	850	853	O
-be	854	856	O
-removed	857	864	O
-from	865	869	O
-the	870	873	O
-deposit	874	881	O
-.	881	882	O
-
-This	883	887	O
-can	888	891	O
-influence	892	901	O
-the	902	905	O
-removal	906	913	O
-of	914	916	O
-other	917	922	O
-deposit	923	930	B-Material
-constituents	931	943	I-Material
-and	944	947	O
-the	948	951	O
-time	952	956	O
-evolution	957	966	O
-of	967	969	O
-the	970	973	O
-process	974	981	O
-can	982	985	O
-change	986	992	O
-.	992	993	O
-
-The	994	997	O
-new	998	1001	O
-understanding	1002	1015	O
-of	1016	1018	O
-TCR	1019	1022	B-Material
-may	1023	1026	O
-,	1026	1027	O
-for	1028	1031	O
-the	1032	1035	O
-first	1036	1041	O
-time	1042	1046	O
-,	1046	1047	O
-allow	1048	1053	O
-applying	1054	1062	O
-the	1063	1066	O
-method	1067	1073	O
-in	1074	1076	O
-a	1077	1078	O
-controlled	1079	1089	O
-way	1090	1093	O
-to	1094	1096	O
-nuclear	1097	1104	B-Material
-fusion	1105	1111	I-Material
-devices	1112	1119	I-Material
-,	1119	1120	O
-possibly	1121	1129	O
-solving	1130	1137	O
-the	1138	1141	O
-tritium	1142	1149	B-Task
-retention	1150	1159	I-Task
-issue	1160	1165	I-Task
-especially	1166	1176	O
-related	1177	1184	O
-to	1185	1187	O
-carbon	1188	1194	B-Material
-based	1195	1200	I-Material
-materials	1201	1210	I-Material
-.	1210	1211	O
+Although	0,8	O	O
+the	9,12	O	O
+presented	13,22	O	O
+model	23,28	O	O
+is	29,31	O	O
+developed	32,41	O	O
+and	42,45	O	O
+tested	46,52	O	O
+with	53,57	O	O
+a	58,59	O	B-Material
+-	59,60	O	I-Material
+C	60,61	O	I-Material
+:	61,62	O	I-Material
+H	62,63	O	I-Material
+layers	64,70	O	I-Material
+in	71,73	O	O
+mind	74,78	O	O
+,	78,79	O	O
+it	80,82	O	O
+is	83,85	O	O
+not	86,89	O	O
+necessarily	90,101	O	O
+limited	102,109	O	O
+to	110,112	O	O
+them	113,117	O	O
+.	117,118	O	O
+
+Moreover	119,127	O	O
+,	127,128	O	O
+the	129,132	O	O
+only	133,137	O	O
+assumptions	138,149	O	O
+are	150,153	O	O
+chemical	154,162	O	B-Process
+reactions	163,172	O	I-Process
+between	173,180	O	O
+the	181,184	O	O
+gas	185,188	O	B-Material
+and	189,192	O	O
+the	193,196	O	O
+solid	197,202	O	B-Material
+forming	203,210	O	I-Material
+volatiles	211,220	O	I-Material
+,	220,221	O	O
+the	222,225	O	O
+loss	226,230	O	O
+of	231,233	O	O
+these	234,239	O	O
+volatiles	240,249	O	O
+from	250,254	O	O
+the	255,258	O	O
+material	259,267	O	O
+and	268,271	O	O
+the	272,275	O	O
+two	276,279	O	O
+stated	280,286	O	O
+boundary	287,295	O	O
+conditions	296,306	O	O
+of	307,309	O	O
+gas	310,313	O	B-Process
+influx	314,320	O	I-Process
+at	321,323	O	O
+a	324,325	O	O
+single	326,332	O	B-Material
+outer	333,338	O	I-Material
+surface	339,346	O	I-Material
+and	347,350	O	O
+the	351,354	O	O
+possibility	355,366	O	O
+of	367,369	O	O
+reactions	370,379	O	B-Process
+throughout	380,390	O	O
+the	391,394	O	O
+bulk	395,399	O	O
+.	399,400	O	O
+
+Porosity	401,409	O	B-Process
+and	410,413	O	O
+significant	414,425	O	O
+gas	426,429	O	B-Material
+inventories	430,441	O	I-Material
+were	442,446	O	O
+observed	447,455	O	O
+not	456,459	O	O
+only	460,464	O	O
+for	465,468	O	O
+carbon	469,475	O	B-Material
+[	476,477	O	O
+12	477,479	O	O
+]	479,480	O	O
+but	481,484	O	O
+,	484,485	O	O
+e.g.	486,490	O	O
+also	491,495	O	O
+for	496,499	O	O
+beryllium	500,509	O	B-Material
+co	510,512	O	I-Material
+-	512,513	O	I-Material
+deposits	513,521	O	I-Material
+[	522,523	O	O
+25	523,525	O	O
+]	525,526	O	O
+and	527,530	O	O
+can	531,534	O	O
+be	535,537	O	O
+expected	538,546	O	O
+for	547,550	O	O
+other	551,556	O	O
+co	557,559	O	O
+-	559,560	O	O
+deposits	560,568	O	O
+formed	569,575	O	O
+in	576,578	O	O
+plasma	579,585	O	B-Material
+devices	586,593	O	I-Material
+[	594,595	O	O
+1	595,596	O	O
+]	596,597	O	O
+.	597,598	O	O
+
+Thus	599,603	O	O
+,	603,604	O	O
+TCR	605,608	O	B-Material
+and	609,612	O	O
+its	613,616	O	O
+description	617,628	O	O
+by	629,631	O	O
+the	632,635	O	O
+presented	636,645	O	O
+model	646,651	O	O
+may	652,655	O	O
+be	656,658	O	O
+applicable	659,669	O	O
+to	670,672	O	O
+all	673,676	O	O
+deposits	677,685	O	O
+.	685,686	O	O
+
+If	687,689	O	O
+a	690,691	O	O
+layer	692,697	O	O
+has	698,701	O	O
+constituents	702,714	O	B-Process
+that	715,719	O	I-Process
+are	720,723	O	I-Process
+not	724,727	O	I-Process
+forming	728,735	O	I-Process
+volatiles	736,745	O	I-Process
+with	746,750	O	I-Process
+the	751,754	O	I-Process
+reactive	755,763	O	I-Process
+gas	764,767	O	I-Process
+,	767,768	O	O
+e.g.	769,773	O	O
+W	774,775	O	B-Process
+and	776,779	O	I-Process
+Be	780,782	O	I-Process
+with	783,787	O	I-Process
+O2	788,790	O	I-Process
+,	790,791	O	O
+these	792,797	O	O
+constituents	798,810	O	O
+can	811,814	O	O
+not	814,817	O	O
+be	818,820	O	O
+removed	821,828	O	O
+by	829,831	O	O
+TCR	832,835	O	B-Material
+,	835,836	O	O
+as	837,839	O	O
+they	840,844	O	O
+will	845,849	O	O
+not	850,853	O	O
+be	854,856	O	O
+removed	857,864	O	O
+from	865,869	O	O
+the	870,873	O	O
+deposit	874,881	O	O
+.	881,882	O	O
+
+This	883,887	O	O
+can	888,891	O	O
+influence	892,901	O	O
+the	902,905	O	O
+removal	906,913	O	O
+of	914,916	O	O
+other	917,922	O	O
+deposit	923,930	O	B-Material
+constituents	931,943	O	I-Material
+and	944,947	O	O
+the	948,951	O	O
+time	952,956	O	O
+evolution	957,966	O	O
+of	967,969	O	O
+the	970,973	O	O
+process	974,981	O	O
+can	982,985	O	O
+change	986,992	O	O
+.	992,993	O	O
+
+The	994,997	O	O
+new	998,1001	O	O
+understanding	1002,1015	O	O
+of	1016,1018	O	O
+TCR	1019,1022	O	B-Material
+may	1023,1026	O	O
+,	1026,1027	O	O
+for	1028,1031	O	O
+the	1032,1035	O	O
+first	1036,1041	O	O
+time	1042,1046	O	O
+,	1046,1047	O	O
+allow	1048,1053	O	O
+applying	1054,1062	O	O
+the	1063,1066	O	O
+method	1067,1073	O	O
+in	1074,1076	O	O
+a	1077,1078	O	O
+controlled	1079,1089	O	O
+way	1090,1093	O	O
+to	1094,1096	O	O
+nuclear	1097,1104	O	B-Material
+fusion	1105,1111	O	I-Material
+devices	1112,1119	O	I-Material
+,	1119,1120	O	O
+possibly	1121,1129	O	O
+solving	1130,1137	O	O
+the	1138,1141	O	O
+tritium	1142,1149	O	B-Task
+retention	1150,1159	O	I-Task
+issue	1160,1165	O	I-Task
+especially	1166,1176	O	O
+related	1177,1184	O	O
+to	1185,1187	O	O
+carbon	1188,1194	O	B-Material
+based	1195,1200	O	I-Material
+materials	1201,1210	O	I-Material
+.	1210,1211	O	O
 
 
 -DOCSTART- (S2352179114200056)
 
-Power	0	5	B-Material
-and	6	9	I-Material
-particle	10	18	I-Material
-exhaust	19	26	I-Material
-are	27	30	O
-crucial	31	38	O
-for	39	42	O
-the	43	46	O
-viability	47	56	O
-of	57	59	O
-any	60	63	O
-future	64	70	O
-fusion	71	77	B-Material
-power	78	83	I-Material
-plant	84	89	I-Material
-concept	90	97	O
-.	97	98	O
-
-Heat	99	103	O
-in	104	106	O
-fusion	107	113	B-Process
-reactors	114	122	I-Process
-must	123	127	O
-be	128	130	O
-extracted	131	140	O
-through	141	148	O
-a	149	150	O
-wall	151	155	O
-and	156	159	O
-can	160	163	O
-not	163	166	O
-be	167	169	O
-exhausted	170	179	O
-volumetrically	180	194	O
-,	194	195	O
-which	196	201	O
-limits	202	208	O
-the	209	212	O
-allowed	213	220	O
-power	221	226	O
-density	227	234	O
-in	235	237	O
-fusion	238	244	B-Process
-reactors	245	253	I-Process
-[	254	255	O
-1	255	256	O
-]	256	257	O
-and	258	261	O
-is	262	264	O
-a	265	266	O
-severe	267	273	B-Task
-technical	274	283	I-Task
-challenge	284	293	I-Task
-in	294	296	O
-itself	297	303	O
-[	304	305	O
-2	305	306	O
-]	306	307	O
-.	307	308	O
-
-In	309	311	O
-addition	312	320	O
-,	320	321	O
-structural	322	332	B-Process
-material	333	341	I-Process
-changes	342	349	I-Process
-resulting	350	359	O
-from	360	364	O
-neutron	365	372	B-Process
-irradiation	373	384	I-Process
-cause	385	390	O
-degradation	391	402	O
-in	403	405	O
-the	406	409	O
-heat	410	414	O
-exhaust	415	422	O
-capabilities	423	435	O
-of	436	438	O
-existing	439	447	O
-designs	448	455	O
-[	456	457	O
-3	457	458	O
-]	458	459	O
-and	460	463	O
-static	464	470	B-Process
-surfaces	471	479	I-Process
-can	480	483	O
-suffer	484	490	O
-severely	491	499	O
-from	500	504	O
-erosion	505	512	O
-due	513	516	O
-to	517	519	O
-impinging	520	529	B-Material
-plasma	530	536	I-Material
-particles	537	546	I-Material
-[	547	548	O
-4,5	548	551	O
-]	551	552	O
-.	552	553	O
-
-It	554	556	O
-is	557	559	O
-concluded	560	569	O
-that	570	574	O
-conventional	575	587	O
-concepts	588	596	O
-and	597	600	O
-materials	601	610	O
-for	611	614	O
-plasma	615	621	B-Task
-facing	622	628	I-Task
-components	629	639	I-Task
-(	640	641	O
-PFCs	641	645	B-Task
-)	645	646	O
-reach	647	652	O
-their	653	658	O
-limits	659	665	O
-in	666	668	O
-terms	669	674	O
-of	675	677	O
-material	678	686	O
-lifetime	687	695	O
-and	696	699	O
-power	700	705	O
-exhaust	706	713	O
-at	714	716	O
-approximately	717	730	O
-20MW	731	735	O
-/	735	736	O
-m2	736	738	O
-,	738	739	O
-which	740	745	O
-is	746	748	O
-presumably	749	759	O
-dramatically	760	772	O
-reduced	773	780	O
-to	781	783	O
-<	784	785	O
-10MW	785	789	O
-/	789	790	O
-m2	790	792	O
-due	793	796	O
-to	797	799	O
-neutron	800	807	B-Process
-damage	808	814	I-Process
-in	815	817	O
-a	818	819	O
-D	820	821	B-Material
--	821	822	I-Material
-T	822	823	I-Material
-reactor	824	831	I-Material
-[	832	833	O
-6	833	834	O
-]	834	835	O
-or	836	838	O
-even	839	843	O
-only	844	848	O
-half	849	853	O
-that	854	858	O
-value	859	864	O
-[	865	866	O
-7	866	867	O
-]	867	868	O
-.	868	869	O
+Power	0,5	O	B-Material
+and	6,9	O	I-Material
+particle	10,18	O	I-Material
+exhaust	19,26	O	I-Material
+are	27,30	O	O
+crucial	31,38	O	O
+for	39,42	O	O
+the	43,46	O	O
+viability	47,56	O	O
+of	57,59	O	O
+any	60,63	O	O
+future	64,70	O	O
+fusion	71,77	O	B-Material
+power	78,83	O	I-Material
+plant	84,89	O	I-Material
+concept	90,97	O	O
+.	97,98	O	O
+
+Heat	99,103	O	O
+in	104,106	O	O
+fusion	107,113	O	B-Process
+reactors	114,122	O	I-Process
+must	123,127	O	O
+be	128,130	O	O
+extracted	131,140	O	O
+through	141,148	O	O
+a	149,150	O	O
+wall	151,155	O	O
+and	156,159	O	O
+can	160,163	O	O
+not	163,166	O	O
+be	167,169	O	O
+exhausted	170,179	O	O
+volumetrically	180,194	O	O
+,	194,195	O	O
+which	196,201	O	O
+limits	202,208	O	O
+the	209,212	O	O
+allowed	213,220	O	O
+power	221,226	O	O
+density	227,234	O	O
+in	235,237	O	O
+fusion	238,244	O	B-Process
+reactors	245,253	O	I-Process
+[	254,255	O	O
+1	255,256	O	O
+]	256,257	O	O
+and	258,261	O	O
+is	262,264	O	O
+a	265,266	O	O
+severe	267,273	O	B-Task
+technical	274,283	O	I-Task
+challenge	284,293	O	I-Task
+in	294,296	O	O
+itself	297,303	O	O
+[	304,305	O	O
+2	305,306	O	O
+]	306,307	O	O
+.	307,308	O	O
+
+In	309,311	O	O
+addition	312,320	O	O
+,	320,321	O	O
+structural	322,332	O	B-Process
+material	333,341	O	I-Process
+changes	342,349	O	I-Process
+resulting	350,359	O	O
+from	360,364	O	O
+neutron	365,372	O	B-Process
+irradiation	373,384	O	I-Process
+cause	385,390	O	O
+degradation	391,402	O	O
+in	403,405	O	O
+the	406,409	O	O
+heat	410,414	O	O
+exhaust	415,422	O	O
+capabilities	423,435	O	O
+of	436,438	O	O
+existing	439,447	O	O
+designs	448,455	O	O
+[	456,457	O	O
+3	457,458	O	O
+]	458,459	O	O
+and	460,463	O	O
+static	464,470	O	B-Process
+surfaces	471,479	O	I-Process
+can	480,483	O	O
+suffer	484,490	O	O
+severely	491,499	O	O
+from	500,504	O	O
+erosion	505,512	O	O
+due	513,516	O	O
+to	517,519	O	O
+impinging	520,529	O	B-Material
+plasma	530,536	O	I-Material
+particles	537,546	O	I-Material
+[	547,548	O	O
+4,5	548,551	O	O
+]	551,552	O	O
+.	552,553	O	O
+
+It	554,556	O	O
+is	557,559	O	O
+concluded	560,569	O	O
+that	570,574	O	O
+conventional	575,587	O	O
+concepts	588,596	O	O
+and	597,600	O	O
+materials	601,610	O	O
+for	611,614	O	O
+plasma	615,621	O	B-Task
+facing	622,628	O	I-Task
+components	629,639	O	I-Task
+(	640,641	O	O
+PFCs	641,645	O	B-Task
+)	645,646	O	O
+reach	647,652	O	O
+their	653,658	O	O
+limits	659,665	O	O
+in	666,668	O	O
+terms	669,674	O	O
+of	675,677	O	O
+material	678,686	O	O
+lifetime	687,695	O	O
+and	696,699	O	O
+power	700,705	O	O
+exhaust	706,713	O	O
+at	714,716	O	O
+approximately	717,730	O	O
+20MW	731,735	O	O
+/	735,736	O	O
+m2	736,738	O	O
+,	738,739	O	O
+which	740,745	O	O
+is	746,748	O	O
+presumably	749,759	O	O
+dramatically	760,772	O	O
+reduced	773,780	O	O
+to	781,783	O	O
+<	784,785	O	O
+10MW	785,789	O	O
+/	789,790	O	O
+m2	790,792	O	O
+due	793,796	O	O
+to	797,799	O	O
+neutron	800,807	O	B-Process
+damage	808,814	O	I-Process
+in	815,817	O	O
+a	818,819	O	O
+D	820,821	O	B-Material
+-	821,822	O	I-Material
+T	822,823	O	I-Material
+reactor	824,831	O	I-Material
+[	832,833	O	O
+6	833,834	O	O
+]	834,835	O	O
+or	836,838	O	O
+even	839,843	O	O
+only	844,848	O	O
+half	849,853	O	O
+that	854,858	O	O
+value	859,864	O	O
+[	865,866	O	O
+7	866,867	O	O
+]	867,868	O	O
+.	868,869	O	O
 
 
diff --git a/scripts/semeval2017_to_conll2003.py b/scripts/semeval2017_to_conll2003.py
index f815d9d..4e53d50 100644
--- a/scripts/semeval2017_to_conll2003.py
+++ b/scripts/semeval2017_to_conll2003.py
@@ -119,7 +119,7 @@
             f_out.write(f'-DOCSTART- ({id})\n\n')
             for token_spans, token_labels in zip(instance['spans'], instance['labels']):
                 for token_span, token_label in zip(token_spans, token_labels):
-                    f_out.write('\t'.join([token_span.text, str(token_span.start), str(token_span.stop), token_label]))
+                    f_out.write('\t'.join([token_span.text, str(token_span.start) + ',' + str(token_span.stop), 'O', token_label]))
                     f_out.write('\n')  # new token
                 f_out.write('\n')  # new sent
             f_out.write('\n')  # new paper

From acc5da9fb6a6ad58b982583efdeca9b1f8e86c48 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Thu, 21 Feb 2019 16:21:13 -0800
Subject: [PATCH 20/23] script for loading allenlnp model from beaker and
 predicting in semeval format

---
 scripts/predict_semeval2017_with_allennlp.py | 195 +++++++++++++++++++
 1 file changed, 195 insertions(+)
 create mode 100644 scripts/predict_semeval2017_with_allennlp.py

diff --git a/scripts/predict_semeval2017_with_allennlp.py b/scripts/predict_semeval2017_with_allennlp.py
new file mode 100644
index 0000000..454ba85
--- /dev/null
+++ b/scripts/predict_semeval2017_with_allennlp.py
@@ -0,0 +1,195 @@
+"""
+
+Load an Allennlp model and make predictions.  Then format predictions into
+Semeval2017 format to use their evaluation script.
+
+"""
+import argparse
+
+import os
+import subprocess
+import json
+
+from collections import defaultdict
+import time
+
+from allennlp.common import Params
+from allennlp.data import DatasetReader
+from allennlp.models import Model
+
+
+def fetch_beaker_group_experiments_results(results_dir: str, group_id: str):
+    group_json = json.loads(subprocess.check_output(['beaker', 'group', 'inspect', '--contents', f'{group_id}'], stderr=subprocess.STDOUT).decode('UTF-8'))
+    experiment_ids = group_json[0]['experiments']
+    for experiment_id in experiment_ids:
+        experiment_dir = os.path.join(results_dir, experiment_id)
+        experiment_json = json.loads(subprocess.check_output(['beaker', 'experiment', 'inspect', f'{experiment_id}'], stderr=subprocess.STDOUT).decode('UTF-8'))
+        result_id = experiment_json[0]['nodes'][0]['result_id']
+        os.makedirs(experiment_dir, exist_ok=True)
+        if len(os.listdir(experiment_dir)) == 0:
+            subprocess.check_output(['beaker', 'dataset', 'fetch', '--output', f'{experiment_dir}', f'{result_id}'], stderr=subprocess.STDOUT).decode('UTF-8')
+
+
+def load_bert_reader_model_from_beaker_experiment_dir(experiment_dir: str,
+                                                      bert_vocab_dir: str,
+                                                      bert_weights_dir: str,
+                                                      cuda_device: int = -1):
+    # check values of existing config
+    config_file = os.path.join(experiment_dir, 'config.json')
+    with open(config_file, 'r') as f:
+        config_json = json.load(f)
+        bert_vocab_name = os.path.basename(config_json['dataset_reader']['token_indexers']['bert']['pretrained_model'])
+        bert_weights_name = os.path.basename(config_json['model']['text_field_embedder']['token_embedders']['bert']['pretrained_model'])
+
+    overrides = {
+        'dataset_reader.token_indexers.bert.pretrained_model': os.path.join(bert_vocab_dir, bert_vocab_name),
+        'model.text_field_embedder.token_embedders.bert.pretrained_model': os.path.join(bert_weights_dir, bert_weights_name)
+    }
+
+    # config w/ overrriden new paths
+    config = Params.from_file(config_file, params_overrides=json.dumps(overrides))
+
+    # instantiate dataset reader
+    reader = DatasetReader.from_params(config["dataset_reader"])
+
+    # instantiate model w/ pretrained weights
+    model = Model.load(config.duplicate(),
+                       weights_file=os.path.join(experiment_dir, 'best.th'),
+                       serialization_dir=experiment_dir,
+                       cuda_device=cuda_device)
+
+    return reader, model
+
+
+def load_spans_for_tokens(conll_file: str):
+    all_tokens_spans = []
+    with open(conll_file) as f_test:
+        token_spans = []
+        for line in f_test:
+            if 'DOCSTART' in line:
+                id = line.strip().split('-DOCSTART- ')[-1][1:-1]
+            elif line.strip() == '':
+                if len(token_spans) > 0:
+                    all_tokens_spans.append(token_spans)
+                    token_spans = []
+                else:
+                    continue
+            else:
+                token, span, _, label = line.strip().split('\t')
+                token_spans.append({
+                    'id': id,
+                    'token': token,
+                    'span': span
+                })
+    return all_tokens_spans
+
+
+def extract_spans_with_allennlp(all_tokens_spans, instances, model):
+    s = time.time()
+    all_extractions = defaultdict(list)
+    for instance, token_spans in zip(instances, all_tokens_spans):
+        id = token_spans[0]['id']
+        print(f'Starting instance {id}')
+
+        # load all the variables and check both lists align
+        assert len(instance['metadata'].metadata['words']) == len(token_spans)
+        out = model.forward_on_instance(instance)
+        pred_tags = out['tags']
+        tokens = out['words']
+        spans = [tuple(int(i) for i in d['span'].split(',')) for d in token_spans]
+        assert [d['token'] for d in token_spans] == tokens
+        assert len(pred_tags) == len(tokens) == len(spans)
+
+        # build extractions by converting BIO back to text w/ appropriate whitespace padding between merged tokens
+        extractions = []
+        for token, pred_tag, span in zip(tokens, pred_tags, spans):
+            if pred_tag == 'O':
+                continue
+
+            bio, label = pred_tag.split('-')
+            if bio == 'B' or bio == 'U':
+                extractions.append([{
+                    'entity': token,
+                    'span': span,
+                    'label': label
+                }])
+
+            elif bio == 'I' or bio == 'L':
+                extractions[-1].append({
+                    'entity': token,
+                    'span': span,
+                    'label': label
+                })
+        all_extractions[id].extend(extractions)
+
+    e = time.time()
+    print(f'Time took for prediction: {e - s}')
+    return all_extractions
+
+
+if __name__ == '__main__':
+
+    parser = argparse.ArgumentParser()
+    parser.add_argument('experiment_dir', type=str,
+                        help='Location of beaker experiment dump')
+    parser.add_argument('bert_vocab_dir', type=str,
+                        help='Location of BERT vocab files')
+    parser.add_argument('bert_weights_dir', type=str,
+                        help='Location of BERT weights files')
+    parser.add_argument('conll_file', type=str,
+                        help='CONLL2003 file to predict')
+    parser.add_argument('output_dir', type=str,
+                        help='Output directory to dump predicted .ann files')
+    parser.add_argument('--gpu', action='store_true',
+                        help='Flag to use GPU')
+    args = parser.parse_args()
+
+    # fetch_beaker_group_experiments_results(results_dir='beaker/', group_id='gr_nfp4yg5x4rsx')
+
+    os.environ['CUDA_VISIBLE_DEVICES'] = '0'
+
+    reader, model = load_bert_reader_model_from_beaker_experiment_dir(experiment_dir=args.experiment_dir,
+                                                                      bert_vocab_dir=args.bert_vocab_dir,
+                                                                      bert_weights_dir=args.bert_weights_dir,
+                                                                      cuda_device=0 if args.gpu else -1)
+    # collect token spans from the dataset
+    all_tokens_spans = load_spans_for_tokens(args.conll_file)
+
+    # read instances for prediction
+    instances = reader.read(args.conll_file)
+
+    # predict while aligning read spans with each token
+    all_extractions = extract_spans_with_allennlp(all_tokens_spans, instances, model)
+
+    # each `extraction` is actually a List of tokens & metadata about that token
+    # compile them into strings & metadata about that string
+    for id, extractions in all_extractions.items():
+        compiled_extractions = []
+        for extraction in extractions:
+            compiled_text = extraction[0]['entity']
+            min_start, max_stop = extraction[0]['span']
+            label = extraction[0]['label']
+            for d in extraction[1:]:
+                assert d['label'] == label
+                current_start, current_stop = d['span']
+                whitespace_between_tokens = ' ' * (current_start - max_stop)
+                compiled_text += whitespace_between_tokens + d['entity']
+                max_stop = current_stop
+            compiled_extraction = {
+                'entity': compiled_text,
+                'span': (min_start, max_stop),
+                'label': label
+            }
+            compiled_extractions.append(compiled_extraction)
+        all_extractions[id] = compiled_extractions
+
+    # write in `.ann` format to match with semeval
+    os.makedirs(args.output_dir, exist_ok=True)
+    for id, extractions in all_extractions.items():
+        with open(os.path.join(args.output_dir, f'{id}.ann'), 'w') as f_out:
+            for i, extraction in enumerate(extractions):
+                text = extraction['entity']
+                start, stop = extraction['span']
+                label = extraction['label']
+                f_out.write('\t'.join([f'T{i+1}', f'{label} {start} {stop}', f'{text}']))
+                f_out.write('\n')

From ab9d62ba9668cec0bbd035a54ae14d93789e0b37 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Thu, 21 Feb 2019 16:22:27 -0800
Subject: [PATCH 21/23] scienceie2017 scripts

---
 scienceie2017_scripts/README.md    |  33 +++++
 scienceie2017_scripts/eval.py      | 230 +++++++++++++++++++++++++++++
 scienceie2017_scripts/eval_py27.py | 205 +++++++++++++++++++++++++
 scienceie2017_scripts/util.py      | 180 ++++++++++++++++++++++
 scienceie2017_scripts/xml_utils.py | 166 +++++++++++++++++++++
 5 files changed, 814 insertions(+)
 create mode 100644 scienceie2017_scripts/README.md
 create mode 100644 scienceie2017_scripts/eval.py
 create mode 100644 scienceie2017_scripts/eval_py27.py
 create mode 100644 scienceie2017_scripts/util.py
 create mode 100644 scienceie2017_scripts/xml_utils.py

diff --git a/scienceie2017_scripts/README.md b/scienceie2017_scripts/README.md
new file mode 100644
index 0000000..c401501
--- /dev/null
+++ b/scienceie2017_scripts/README.md
@@ -0,0 +1,33 @@
+# semeval2017-ScienceIE
+
+Scripts for SemEval 2017 ScienceIE task (Task 10).
+Please contact the task organisers on the ScienceIE mailing list (scienceie@googlegroups.com) if there are any problems with using the scripts.
+
+Scripts contained are eval.py, for evaluating performance on the task, and util.py, for reading parsing ScienceDirect .xml files
+
+Update (20 October 2016): the eval.py script now performs micro averaging, not macro averaging as before, and does not print metrics for "none" anymore. Thanks to Matthew Peters (AI2) for spotting this and improving the script!
+
+Update (12 December 2016): there is now an additional eval_py27.py which is the same as eval.py, but for Python 2.7 instead of Python 3.
+
+Update (18 January 2017): synonym-of relations are now evaluated as undirected relations, i.e. the order of the arguments is not taken into account. Thanks to Makoto Miwa (Toyota Technological Institute) for pointing this out!
+
+Update (21 February 2017): the eval.py script now has the additional option "rels" for "remove_anno", which leads to only displaying performance for relation extraction.
+
+
+##Requirements:
+* Python 3 or Python 2.7
+* sklearn
+* xml.sax
+
+## Script usage:
+* eval.py: evaluation script. Usage: ```python eval.py <gold folder> <pred folder> <remove anno>```
+    * gold folder (optional): (default: "data/dev/") folder containing the gold standard files distributed by the SemEval 2017 Task 10 organisers, in .ann format.
+    * pred folder (optional): (default: "data_pred/dev/") folder containing the prediction files, which should be in the same format as the gold files. Note that the evaluation script ignores IDs and surface forms and only judges based on the provided character offsets.
+    * remove anno (optional): "rel", "types", "keys" or "" (default). This is for removing relation annotations if you want to test performance for keyphrase boundary identification and keyphrase classification only ("rel"), for removing relation and keyphrase type annotations if you want to test performance for keyphrase boundary identification only ("types"), or for removing keyphrase annotations if you want to test performance for relation extraction only ("rels").
+* util.py: script containing utilities for parsing the original ScienceDirect .xml files to obtain text only and for parsing .ann files and looking up spans in corresponding .txt files
+    
+## References:
+* SemEval task: https://scienceie.github.io/
+* .ann format: http://brat.nlplab.org/standoff.html
+* sklearn: http://scikit-learn.org/
+* ScienceDirect: http://www.sciencedirect.com/
\ No newline at end of file
diff --git a/scienceie2017_scripts/eval.py b/scienceie2017_scripts/eval.py
new file mode 100644
index 0000000..23797c2
--- /dev/null
+++ b/scienceie2017_scripts/eval.py
@@ -0,0 +1,230 @@
+#!/usr/bin/python
+# by Mattew Peters, who spotted that sklearn does macro averaging not micro averaging correctly and changed it
+
+import os
+from sklearn.metrics import precision_recall_fscore_support
+import sys
+import copy
+
+def calculateMeasures(folder_gold="data/dev/", folder_pred="data_pred/dev/", remove_anno = ""):
+    '''
+    Calculate P, R, F1, Macro F
+    :param folder_gold: folder containing gold standard .ann files
+    :param folder_pred: folder containing prediction .ann files
+    :param remove_anno: if set if "rel", relations will be ignored. Use this setting to only evaluate
+    keyphrase boundary recognition and keyphrase classification. If set to "types", only keyphrase boundary recognition is evaluated.
+    If set to "keys", only relations will be evaluated.
+    :return:
+    '''
+
+    flist_gold = os.listdir(folder_gold)
+    res_all_gold = []
+    res_all_pred = []
+    targets = []
+
+    if type(remove_anno) == str:
+        remove_anno = [remove_anno]
+    if "types" in remove_anno:
+        remove_anno.append("rel")
+
+    for f in flist_gold:
+        # ignoring non-.ann files, should there be any
+        if not str(f).endswith(".ann"):
+            continue
+        f_gold = open(os.path.join(folder_gold, f), "r")
+        try:
+            f_pred = open(os.path.join(folder_pred, f), "r")
+            res_full_pred, res_pred, spans_pred, rels_pred = normaliseAnnotations(f_pred, remove_anno)
+        except IOError:
+            print(f + " file missing in " + folder_pred + ". Assuming no predictions are available for this file.")
+            res_full_pred, res_pred, spans_pred, rels_pred = [], [], [], []
+
+        res_full_gold, res_gold, spans_gold, rels_gold = normaliseAnnotations(f_gold, remove_anno)
+
+        spans_all = set(spans_gold + spans_pred)
+
+        for i, r in enumerate(spans_all):
+            if r in spans_gold:
+                target = res_gold[spans_gold.index(r)].split(" ")[0]
+                res_all_gold.append(target)
+                if not target in targets:
+                    targets.append(target)
+            else:
+                # those are the false positives, contained in pred but not gold
+                res_all_gold.append("NONE")
+
+            if r in spans_pred:
+                target_pred = res_pred[spans_pred.index(r)].split(" ")[0]
+                res_all_pred.append(target_pred)
+            else:
+                # those are the false negatives, contained in gold but not pred
+                res_all_pred.append("NONE")
+
+    if "keys" in remove_anno:
+        targets = ["Hyponym-of", "Synonym-of"]
+    #y_true, y_pred, labels, targets
+    prec, recall, f1, support = precision_recall_fscore_support(
+        res_all_gold, res_all_pred, labels=targets, average=None)
+    # unpack the precision, recall, f1 and support
+    metrics = {}
+    for k, target in enumerate(targets):
+        metrics[target] = {
+            'precision': prec[k],
+            'recall': recall[k],
+            'f1-score': f1[k],
+            'support': support[k]
+        }
+
+    # now micro-averaged
+    if not "types" in remove_anno:
+        prec, recall, f1, s = precision_recall_fscore_support(
+            res_all_gold, res_all_pred, labels=targets, average='micro')
+        metrics['overall'] = {
+            'precision': prec,
+            'recall': recall,
+            'f1-score': f1,
+            'support': sum(support)
+        }
+    else:
+        # just binary classification, nothing to average
+        metrics['overall'] = metrics['KEYPHRASE-NOTYPES']
+
+    print_report(metrics, targets)
+    return metrics
+
+
+
+def print_report(metrics, targets, digits=2):
+    def _get_line(results, target, columns):
+        line = [target]
+        for column in columns[:-1]:
+            line.append("{0:0.{1}f}".format(results[column], digits))
+        line.append("%s" % results[columns[-1]])
+        return line
+
+    columns = ['precision', 'recall', 'f1-score', 'support']
+
+    fmt = '%11s' + '%9s' * 4 + '\n'
+    report = [fmt % tuple([''] + columns)]
+    report.append('\n')
+    for target in targets:
+        results = metrics[target]
+        line = _get_line(results, target, columns)
+        report.append(fmt % tuple(line))
+    report.append('\n')
+
+    # overall
+    line = _get_line(metrics['overall'], 'avg / total', columns)
+    report.append(fmt % tuple(line))
+    report.append('\n')
+
+    print(''.join(report))
+
+
+def normaliseAnnotations(file_anno, remove_anno):
+    '''
+    Parse annotations from the annotation files: remove relations (if requested), convert rel IDs to entity spans
+    :param file_anno:
+    :param remove_anno:
+    :return:
+    '''
+    res_full_anno = []
+    res_anno = []
+    spans_anno = []
+    rels_anno = []
+
+    for l in file_anno:
+        r_g = l.strip().split("\t")
+        r_g_offs = r_g[1].split(" ")
+
+        # remove relation instances if specified
+        if "rel" in remove_anno and r_g_offs[0].endswith("-of"):
+            continue
+
+        res_full_anno.append(l.strip())
+        # normalise relation instances by looking up entity spans for relation IDs
+        if r_g_offs[0].endswith("-of"):
+            arg1 = r_g_offs[1].replace("Arg1:", "")
+            arg2 = r_g_offs[2].replace("Arg2:", "")
+            for l in res_full_anno:
+                r_g_tmp = l.strip().split("\t")
+                if r_g_tmp[0] == arg1:
+                    ent1 = r_g_tmp[1].replace(" ", "_")
+                if r_g_tmp[0] == arg2:
+                    ent2 = r_g_tmp[1].replace(" ", "_")
+
+            if r_g_offs[0] == "Synonym-of":
+                ent1_spl = ent1.split("_")
+                ent2_spl = ent2.split("_")
+                if ent1_spl[1] > ent2_spl[1]:
+                    ent1_old = copy.copy(ent1)
+                    ent1 = copy.copy(ent2)
+                    ent2 = ent1_old
+
+            spans_anno.append(" ".join([ent1, ent2]))
+            res_anno.append(" ".join([r_g_offs[0], ent1, ent2]))
+            rels_anno.append(" ".join([r_g_offs[0], ent1, ent2]))
+
+        else:
+            spans_anno.append(" ".join([r_g_offs[1], r_g_offs[2]]))
+            keytype = r_g[1]
+            if "types" in remove_anno:
+                keytype = "KEYPHRASE-NOTYPES"
+            res_anno.append(keytype)
+
+
+
+    for r in rels_anno:
+        r_offs = r.split(" ")
+        # reorder hyponyms to start with smallest index
+        if r_offs[0] == "Synonym-of" and r_offs[2].split("_")[1] < r_offs[1].split("_")[1]:  # 1, 2
+            r = " ".join([r_offs[0], r_offs[2], r_offs[1]])
+
+        # Check, in all other hyponym relations, if the synonymous entity with smallest index is used for them.
+        # If not, change it so it is.
+        if r_offs[0] == "Synonym-of":
+            for r2 in rels_anno:
+                r2_offs = r2.split(" ")
+                if r2_offs[0] == "Hyponym-of" and r_offs[1] == r2_offs[1]:
+                    r_new = " ".join([r2_offs[0], r_offs[2], r2_offs[2]])
+                    rels_anno[rels_anno.index(r2)] = r_new
+
+                if r2_offs[0] == "Hyponym-of" and r_offs[1] == r2_offs[2]:
+                    r_new = " ".join([r2_offs[0], r2_offs[1], r_offs[2]])
+                    rels_anno[rels_anno.index(r2)] = r_new
+
+    rels_anno = list(set(rels_anno))
+
+    res_full_anno_new = []
+    res_anno_new = []
+    spans_anno_new = []
+
+    for r in res_full_anno:
+        r_g = r.strip().split("\t")
+        if r_g[0].startswith("R") or r_g[0] == "*":
+            continue
+        ind = res_full_anno.index(r)
+        res_full_anno_new.append(r)
+        res_anno_new.append(res_anno[ind])
+        spans_anno_new.append(spans_anno[ind])
+
+    for r in rels_anno:
+        res_full_anno_new.append("R\t" + r)
+        res_anno_new.append(r)
+        spans_anno_new.append(" ".join([r.split(" ")[1], r.split(" ")[2]]))
+
+    return res_full_anno_new, res_anno_new, spans_anno_new, rels_anno
+
+
+if __name__ == '__main__':
+    folder_gold = "data/dev/"
+    folder_pred = "data_pred/dev/"
+    remove_anno = ""  # "", "types", "rel" or "keys"
+    if len(sys.argv) >= 2:
+        folder_gold = sys.argv[1]
+    if len(sys.argv) >= 3:
+        folder_pred = sys.argv[2]
+    if len(sys.argv) == 4:
+        remove_anno = sys.argv[3]
+
+    calculateMeasures(folder_gold, folder_pred, remove_anno)
diff --git a/scienceie2017_scripts/eval_py27.py b/scienceie2017_scripts/eval_py27.py
new file mode 100644
index 0000000..446e818
--- /dev/null
+++ b/scienceie2017_scripts/eval_py27.py
@@ -0,0 +1,205 @@
+#!/usr/bin/python
+
+import os
+import sys
+import copy
+
+def calculateMeasures(folder_gold="data/dev/", folder_pred="data_pred/dev/", remove_anno = ""):
+    '''
+    Calculate P, R, F1, Macro F
+    :param folder_gold: folder containing gold standard .ann files
+    :param folder_pred: folder containing prediction .ann files
+    :param remove_anno: if set if "rel", relations will be ignored. Use this setting to only evaluate
+    keyphrase boundary recognition and keyphrase classification. If set to "types", only keyphrase boundary recognition is evaluated.
+    Note that for the later, false positive
+    :return:
+    '''
+
+    flist_gold = os.listdir(folder_gold)
+    res_all_gold = []
+    res_all_pred = []
+    targets = []
+
+    for f in flist_gold:
+        # ignoring non-.ann files, should there be any
+        if not str(f).endswith(".ann"):
+            continue
+        f_gold = open(os.path.join(folder_gold, f), "r")
+        try:
+            f_pred = open(os.path.join(folder_pred, f), "r")
+            res_full_pred, res_pred, spans_pred, rels_pred = normaliseAnnotations(f_pred, remove_anno)
+        except IOError:
+            print(f + " file missing in " + folder_pred + ". Assuming no predictions are available for this file.")
+            res_full_pred, res_pred, spans_pred, rels_pred = [], [], [], []
+
+        res_full_gold, res_gold, spans_gold, rels_gold = normaliseAnnotations(f_gold, remove_anno)
+
+        spans_all = set(spans_gold + spans_pred)
+
+        for i, r in enumerate(spans_all):
+            if r in spans_gold:
+                target = res_gold[spans_gold.index(r)].split(" ")[0]
+                res_all_gold.append(target)
+                if not target in targets:
+                    targets.append(target)
+            else:
+                # those are the false positives, contained in pred but not gold
+                res_all_gold.append("NONE")
+
+            if r in spans_pred:
+                target_pred = res_pred[spans_pred.index(r)].split(" ")[0]
+                res_all_pred.append(target_pred)
+            else:
+                # those are the false negatives, contained in gold but not pred
+                res_all_pred.append("NONE")
+
+    p_map, r_map, f1_map = precision_recall_fscore(res_all_gold, res_all_pred, targets)
+
+    return p_map, r_map, f1_map
+
+
+def precision_recall_fscore(y_true, y_pred, labels=None, average=None):
+
+    p_map, r_map, f1_map = {}, {}, {}
+    tp_map, fp_map, fn_map = {}, {}, {}
+    for l in set(labels):
+        tp_map[l], fp_map[l], fn_map[l] = 0.0, 0.0, 0.0
+
+    for i, gold in enumerate(y_true):
+        pred = y_pred[i]
+        if gold == pred:
+            tp_map[gold] += 1
+        elif gold == "NONE" and pred != "NONE":
+            fp_map[pred] += 1
+        else:
+            fn_map[gold] += 1
+
+    tp_all = sum(tp_map[l] for l in set(labels))
+    fp_all = sum(fp_map[l] for l in set(labels))
+    fn_all = sum(fn_map[l] for l in set(labels))
+
+    print "\nlabel\t\tprecision\trecall\tf1"
+    for l in set(labels):
+        r_map[l] = tp_map[l] / (tp_map[l] + fn_map[l])
+        p_map[l] = tp_map[l] / (tp_map[l] + fp_map[l])
+        f1_map[l] = (2 * p_map[l] * r_map[l] / (p_map[l] + r_map[l]))
+
+        print l, p_map[l], r_map[l], f1_map[l]
+
+    r_map["all_micro"] = tp_all / (tp_all + fn_all)
+    p_map["all_micro"] = tp_all / (tp_all + fp_all)
+    f1_map["all_micro"] = (2 * p_map["all_micro"] * r_map["all_micro"] / (p_map["all_micro"] + r_map["all_micro"]))
+
+    print "all_micro", p_map["all_micro"], r_map["all_micro"], f1_map["all_micro"]
+
+    return p_map, r_map, f1_map
+
+
+
+def normaliseAnnotations(file_anno, remove_anno):
+    '''
+    Parse annotations from the annotation files: remove relations (if requested), convert rel IDs to entity spans
+    :param file_anno:
+    :param remove_anno:
+    :return:
+    '''
+    res_full_anno = []
+    res_anno = []
+    spans_anno = []
+    rels_anno = []
+
+    for l in file_anno:
+        r_g = l.strip().split("\t")
+        r_g_offs = r_g[1].split(" ")
+
+        # remove relation instances if specified
+        if remove_anno != "" and r_g_offs[0].endswith("-of"):
+            continue
+
+        res_full_anno.append(l.strip())
+        # normalise relation instances by looking up entity spans for relation IDs
+        if r_g_offs[0].endswith("-of"):
+            arg1 = r_g_offs[1].replace("Arg1:", "")
+            arg2 = r_g_offs[2].replace("Arg2:", "")
+            for l in res_full_anno:
+                r_g_tmp = l.strip().split("\t")
+                if r_g_tmp[0] == arg1:
+                    ent1 = r_g_tmp[1].replace(" ", "_")
+                if r_g_tmp[0] == arg2:
+                    ent2 = r_g_tmp[1].replace(" ", "_")
+
+            if r_g_offs[0] == "Synonym-of":
+                ent1_spl = ent1.split("_")
+                ent2_spl = ent2.split("_")
+                if ent1_spl[1] > ent2_spl[1]:
+                    ent1_old = copy.copy(ent1)
+                    ent1 = copy.copy(ent2)
+                    ent2 = ent1_old
+
+            spans_anno.append(" ".join([ent1, ent2]))
+            res_anno.append(" ".join([r_g_offs[0], ent1, ent2]))
+            rels_anno.append(" ".join([r_g_offs[0], ent1, ent2]))
+
+        else:
+            spans_anno.append(" ".join([r_g_offs[1], r_g_offs[2]]))
+            keytype = r_g[1]
+            if remove_anno == "types":
+                keytype = "KEYPHRASE-NOTYPES"
+            res_anno.append(keytype)
+
+
+
+    for r in rels_anno:
+        r_offs = r.split(" ")
+        # reorder hyponyms to start with smallest index
+        if r_offs[0] == "Synonym-of" and r_offs[2].split("_")[1] < r_offs[1].split("_")[1]:  # 1, 2
+            r = " ".join([r_offs[0], r_offs[2], r_offs[1]])
+
+        # Check, in all other hyponym relations, if the synonymous entity with smallest index is used for them.
+        # If not, change it so it is.
+        if r_offs[0] == "Synonym-of":
+            for r2 in rels_anno:
+                r2_offs = r2.split(" ")
+                if r2_offs[0] == "Hyponym-of" and r_offs[1] == r2_offs[1]:
+                    r_new = " ".join([r2_offs[0], r_offs[2], r2_offs[2]])
+                    rels_anno[rels_anno.index(r2)] = r_new
+
+                if r2_offs[0] == "Hyponym-of" and r_offs[1] == r2_offs[2]:
+                    r_new = " ".join([r2_offs[0], r2_offs[1], r_offs[2]])
+                    rels_anno[rels_anno.index(r2)] = r_new
+
+    rels_anno = list(set(rels_anno))
+
+    res_full_anno_new = []
+    res_anno_new = []
+    spans_anno_new = []
+
+    for r in res_full_anno:
+        r_g = r.strip().split("\t")
+        if r_g[0].startswith("R") or r_g[0] == "*":
+            continue
+        ind = res_full_anno.index(r)
+        res_full_anno_new.append(r)
+        res_anno_new.append(res_anno[ind])
+        spans_anno_new.append(spans_anno[ind])
+
+    for r in rels_anno:
+        res_full_anno_new.append("R\t" + r)
+        res_anno_new.append(r)
+        spans_anno_new.append(" ".join([r.split(" ")[1], r.split(" ")[2]]))
+
+    return res_full_anno_new, res_anno_new, spans_anno_new, rels_anno
+
+
+if __name__ == '__main__':
+    folder_gold = "data/dev/"
+    folder_pred = "data_pred/dev/"
+    remove_anno = ""  # "", "rel" or "types"
+    if len(sys.argv) >= 2:
+        folder_gold = sys.argv[1]
+    if len(sys.argv) >= 3:
+        folder_pred = sys.argv[2]
+    if len(sys.argv) == 4:
+        remove_anno = sys.argv[3]
+
+    calculateMeasures(folder_gold, folder_pred, remove_anno)
diff --git a/scienceie2017_scripts/util.py b/scienceie2017_scripts/util.py
new file mode 100644
index 0000000..a8845c2
--- /dev/null
+++ b/scienceie2017_scripts/util.py
@@ -0,0 +1,180 @@
+#!/usr/bin/python
+
+import xml.sax
+import collections
+import os
+
+class PubHandler(xml.sax.ContentHandler):
+   def __init__(self):
+       # content of each publication document
+        self.id = ""
+        self.journalname = ""
+        self.openaccess = ""
+        self.pubdate = ""
+        self.title = ""
+        self.authors = []
+        self.keyphrases = []
+        self.abstract = ""
+        self.highlights = []
+        self.text = collections.OrderedDict()
+
+        # temporary variables, ignore
+        self.CurrentData = ""
+        self.highlightflag = False
+        self.textbuilder_highlight = []
+        self.inpara = False
+        self.textbuilder = []
+        self.textbuilder_abstract = []
+        self.paraid = 0
+        self.inabstract = False
+        self.textbuilder_title = []
+        self.intitle = False
+
+
+   def startElement(self, tag, attributes):
+       # Call when an element starts
+        self.CurrentData = tag
+        v = attributes.get("class")  # returns "None" if not contained
+        if v == "author-highlights":
+            self.highlightflag = True
+        if tag == "ce:para":
+            self.inpara = True
+            self.paraid += 1 #attributes.get("id")  # there isn't always one, so let's use a counter instead
+        if tag == "ce:abstract" and self.highlightflag == False:
+            self.inabstract = True
+        if tag == "ce:title" or tag == "dc:title":
+            self.intitle = True
+
+
+   def endElement(self, tag):
+       # Call when an elements ends
+        self.CurrentData = ""
+        if tag == "ce:abstract":
+            self.highlightflag = False
+            self.inabstract = False
+            if len(self.textbuilder_abstract) > 0:
+                para = "".join(self.textbuilder_abstract)
+                self.abstract = para
+                self.textbuilder_abstract = []
+        elif tag == "ce:para":
+            if len(self.textbuilder_highlight) > 0:
+                para = "".join(self.textbuilder_highlight)
+                self.highlights.append(para)
+                self.textbuilder_highlight = []
+            self.inpara = False
+            if len(self.textbuilder) > 0:
+                para = "".join(self.textbuilder)
+                self.text[self.paraid] = para
+                self.textbuilder = []
+        if tag == "ce:title" or tag == "dc:title":
+            self.intitle = False
+            if len(self.textbuilder_title) > 0:
+               para = "".join(self.textbuilder_title)
+               self.title = para
+               self.textbuilder_title = []
+
+
+   def characters(self, content):
+        # Call when a character is read
+        if self.CurrentData == "dc:identifier":
+            self.id = content
+        elif self.CurrentData == "prism:publicationName":
+            self.journalname = content
+        elif self.CurrentData == "openaccess":
+            self.openaccess = content
+        elif self.CurrentData == "prism:coverDate":
+            self.pubdate = content
+        elif self.intitle == True:
+            self.textbuilder_title.append(content)
+        elif self.CurrentData == "dc:creator":
+            self.authors.append(content)
+        elif self.CurrentData == "dcterms:subject":
+            self.keyphrases.append(content)
+        elif (self.CurrentData == "dc:description") or (self.inabstract == True and self.highlightflag == False):
+            if content.startswith("Abstract"):
+                content = content.replace("Abstract", "", 1)
+            self.textbuilder_abstract.append(content)
+        elif self.highlightflag == True:
+            if content.startswith("Highlights"):
+                content = content.replace("Highlights", "", 1)
+            if content.startswith("•"):
+                content = content.replace("•", "", 1)
+            self.textbuilder_highlight.append(content)
+        elif self.inpara == True and self.highlightflag == False:
+            self.textbuilder.append(content)
+
+
+def parseXML(fpath="data/dev/S0010938X13003818.xml"):
+    '''
+    Parse XML files to retrieve full publication text
+    :param fpath: path to file
+    :return:
+    '''
+
+    # create an XMLReader
+    parser = xml.sax.make_parser()
+    # turn off namespaces
+    parser.setFeature(xml.sax.handler.feature_namespaces, 0)
+
+    Handler = PubHandler()
+    parser.setContentHandler(Handler)
+
+    parser.parse(fpath)
+
+    print("Title:", Handler.title)
+    for h in Handler.highlights:
+        print("Highlight:", h)
+    print("Abstract:", Handler.abstract)
+    for n, t in Handler.text.items():
+        print("Text:", t)
+
+
+def parseXMLAll(dirpath = "data/dev/"):
+
+    dir = os.listdir(dirpath)
+    for f in dir:
+        if not f.endswith(".xml"):
+            continue
+        print(f)
+        parseXML(os.path.join(dirpath, f))
+        print("")
+
+
+def readAnn(textfolder = "data/dev/"):
+    '''
+    Read .ann files and look up corresponding spans in .txt files
+    :param textfolder:
+    :return:
+    '''
+
+    flist = os.listdir(textfolder)
+    for f in flist:
+        if not f.endswith(".ann"):
+            continue
+        f_anno = open(os.path.join(textfolder, f), "rU")
+        f_text = open(os.path.join(textfolder, f.replace(".ann", ".txt")), "rU")
+
+        # there's only one line, as each .ann file is one text paragraph
+        for l in f_text:
+            text = l
+
+        for l in f_anno:
+            anno_inst = l.strip("\n").split("\t")
+            if len(anno_inst) == 3:
+                anno_inst1 = anno_inst[1].split(" ")
+                if len(anno_inst1) == 3:
+                    keytype, start, end = anno_inst1
+                else:
+                    keytype, start, _, end = anno_inst1
+                if not keytype.endswith("-of"):
+
+                    # look up span in text and print error message if it doesn't match the .ann span text
+                    keyphr_text_lookup = text[int(start):int(end)]
+                    keyphr_ann = anno_inst[2]
+                    if keyphr_text_lookup != keyphr_ann:
+                        print("Spans don't match for anno " + l.strip() + " in file " + f)
+
+
+if __name__ == '__main__':
+    #parseXML()
+    readAnn()
\ No newline at end of file
diff --git a/scienceie2017_scripts/xml_utils.py b/scienceie2017_scripts/xml_utils.py
new file mode 100644
index 0000000..87ab771
--- /dev/null
+++ b/scienceie2017_scripts/xml_utils.py
@@ -0,0 +1,166 @@
+#!/usr/bin/python3
+
+import xml.sax
+import collections
+import os
+
+class PubHandler(xml.sax.ContentHandler):
+   def __init__(self):
+       # content of each publication document
+        self.id = ""
+        self.journalname = ""  # journal name
+        self.openaccess = ""   # open access or not
+        self.pubdate = ""      # publication date date
+        self.title = ""        # title
+        self.authors = []      # list of authors
+        self.keyphrases = []   # author-defined keyphrases
+        self.abstract = ""     # abstract
+        self.highlights = []   # highlight (i.e. author-defined summary statements)
+        self.text = collections.OrderedDict()  # text
+        self.captions = []     # image and table captions
+        self.bib_entries = []  # bib entries
+
+        # temporary variables, ignore
+        self.CurrentData = ""
+        self.highlightflag = False
+        self.textbuilder_highlight = []
+        self.inpara = False
+        self.textbuilder = []
+        self.textbuilder_abstract = []
+        self.paraid = 0
+        self.inabstract = False
+        self.textbuilder_title = []
+        self.intitle = False
+        self.textbuilder_captions = []
+        self.incaption = False
+        self.textbuilder_bib = []
+        self.inbib = False
+
+   def startElement(self, tag, attributes):
+       # Call when an element starts
+       self.CurrentData = tag
+       v = attributes.get("class")  # returns "None" if not contained
+       if v == "author-highlights":
+           self.highlightflag = True
+       if tag == "ce:para":
+           self.inpara = True
+           self.paraid += 1  # attributes.get("id")  # there isn't always one, so let's use a counter instead
+       if tag == "ce:abstract" and self.highlightflag == False:
+           self.inabstract = True
+       if tag == "ce:title" or tag == "dc:title":
+           self.intitle = True
+       if tag == "ce:caption":
+           self.incaption = True
+       if tag == "ce:bib-reference":
+           self.inbib = True
+
+   def endElement(self, tag):
+       # Call when an elements ends
+       self.CurrentData = ""
+       if tag == "ce:abstract":
+           self.highlightflag = False
+           self.inabstract = False
+           if len(self.textbuilder_abstract) > 0:
+               para = "".join(self.textbuilder_abstract)
+               self.abstract = para
+               self.textbuilder_abstract = []
+       elif tag == "ce:para":
+           if len(self.textbuilder_highlight) > 0:
+               para = "".join(self.textbuilder_highlight)
+               self.highlights.append(para)
+               self.textbuilder_highlight = []
+           self.inpara = False
+           if len(self.textbuilder) > 0:
+               para = "".join(self.textbuilder)
+               self.text[self.paraid] = para
+               self.textbuilder = []
+       if tag == "ce:title" or tag == "dc:title":
+           self.intitle = False
+           if len(self.textbuilder_title) > 0:
+               para = "".join(self.textbuilder_title)
+               self.title = para
+               self.textbuilder_title = []
+       if tag == "ce:caption":
+           if len(self.textbuilder_captions) > 0:
+               caption = " ".join(self.textbuilder_captions)
+               self.captions.append(caption)
+               self.textbuilder_captions = []
+       if tag == "ce:bib-reference":
+           if len(self.textbuilder_bib) > 0:
+               bibref = " ".join(self.textbuilder_bib)
+               self.bib_entries.append(bibref)
+               self.textbuilder_bib = []
+
+   def characters(self, content):
+       # Call when a character is read
+       if self.CurrentData == "dc:identifier":
+           self.id = content
+       elif self.CurrentData == "prism:publicationName":
+           self.journalname = content
+       elif self.CurrentData == "openaccess":
+           self.openaccess = content
+       elif self.CurrentData == "prism:coverDate":
+           self.pubdate = content
+       elif self.intitle == True:
+           self.textbuilder_title.append(content)
+       elif self.CurrentData == "dc:creator":
+           self.authors.append(content)
+       elif self.CurrentData == "dcterms:subject":
+           self.keyphrases.append(content)
+       elif (self.CurrentData == "dc:description") or (self.inabstract == True and self.highlightflag == False):
+           if content.startswith("Abstract"):
+               content = content.replace("Abstract", "", 1)
+           self.textbuilder_abstract.append(content)
+       elif self.highlightflag == True:
+           if content.startswith("Highlights"):
+               content = content.replace("Highlights", "", 1)
+           if content.startswith("•"):
+               content = content.replace("•", "", 1)
+           self.textbuilder_highlight.append(content)
+       elif self.inpara == True and self.highlightflag == False:
+           self.textbuilder.append(content)
+       elif self.incaption == True:
+           self.textbuilder_captions.append(content)
+       elif self.inbib == True:
+           self.textbuilder_bib.append(content)
+
+
+def parseXML(fpath="papers_with_highlights/S2352220815001534.xml"):
+    '''
+    Parse XML files to retrieve full publication text
+    :param fpath: path to file
+    :return:
+    '''
+
+    # create an XMLReader
+    parser = xml.sax.make_parser()
+    # turn off namespaces
+    parser.setFeature(xml.sax.handler.feature_namespaces, 0)
+    Handler = PubHandler()
+    parser.setContentHandler(Handler)
+
+    # parse document
+    parser.parse(fpath)
+
+    # access the different parts of the publication
+    print("Title:", Handler.title)
+    for h in Handler.highlights:
+        print("Highlight:", h)
+    print("Abstract:", Handler.abstract)
+    for n, t in Handler.text.items():
+        print("Text:", t)
+
+
+def parseXMLAll(dirpath = "papers_with_highlights/"):
+
+    dir = os.listdir(dirpath)
+    for f in dir:
+        if not f.endswith(".xml"):
+            continue
+        print(f)
+        parseXML(os.path.join(dirpath, f))
+        print("")
+
+
+if __name__ == '__main__':
+    parseXML()

From 85b649946c8b06986eac3c5e0024dcad36d77d26 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Thu, 21 Feb 2019 16:22:51 -0800
Subject: [PATCH 22/23] test files for evaluating semeval

---
 semeval2017/test/S0010482516301810.ann | 34 +++++++++++++++
 semeval2017/test/S0010482516301810.txt |  1 +
 semeval2017/test/S0010938X15301268.ann | 29 +++++++++++++
 semeval2017/test/S0010938X15301268.txt |  1 +
 semeval2017/test/S0010938X15301554.ann | 41 ++++++++++++++++++
 semeval2017/test/S0010938X15301554.txt |  1 +
 semeval2017/test/S0011227514002136.ann | 19 +++++++++
 semeval2017/test/S0011227514002136.txt |  1 +
 semeval2017/test/S0011227515000648.ann | 21 ++++++++++
 semeval2017/test/S0011227515000648.txt |  1 +
 semeval2017/test/S0011227515001216.ann | 25 +++++++++++
 semeval2017/test/S0011227515001216.txt |  1 +
 semeval2017/test/S002002551630384X.ann | 15 +++++++
 semeval2017/test/S002002551630384X.txt |  1 +
 semeval2017/test/S0021961414003255.ann | 21 ++++++++++
 semeval2017/test/S0021961414003255.txt |  1 +
 semeval2017/test/S002199911200068X.ann | 26 ++++++++++++
 semeval2017/test/S002199911200068X.txt |  1 +
 semeval2017/test/S0021999112002847.ann | 15 +++++++
 semeval2017/test/S0021999112002847.txt |  1 +
 semeval2017/test/S0021999112003579.ann | 25 +++++++++++
 semeval2017/test/S0021999112003579.txt |  1 +
 semeval2017/test/S0021999113002945.ann | 14 +++++++
 semeval2017/test/S0021999113002945.txt |  1 +
 semeval2017/test/S0021999113003422.ann | 14 +++++++
 semeval2017/test/S0021999113003422.txt |  1 +
 semeval2017/test/S002199911300346X.ann | 39 ++++++++++++++++++
 semeval2017/test/S002199911300346X.txt |  1 +
 semeval2017/test/S0021999113004555.ann | 15 +++++++
 semeval2017/test/S0021999113004555.txt |  1 +
 semeval2017/test/S0021999113005603.ann | 24 +++++++++++
 semeval2017/test/S0021999113005603.txt |  1 +
 semeval2017/test/S0021999113005652.ann | 23 +++++++++++
 semeval2017/test/S0021999113005652.txt |  1 +
 semeval2017/test/S0021999113005718.ann | 17 ++++++++
 semeval2017/test/S0021999113005718.txt |  1 +
 semeval2017/test/S0021999113006955.ann | 34 +++++++++++++++
 semeval2017/test/S0021999113006955.txt |  1 +
 semeval2017/test/S0021999116303291.ann | 37 +++++++++++++++++
 semeval2017/test/S0021999116303291.txt |  1 +
 semeval2017/test/S0032386107010518.ann | 30 ++++++++++++++
 semeval2017/test/S0032386107010518.txt |  1 +
 semeval2017/test/S0032386108009397.ann | 33 +++++++++++++++
 semeval2017/test/S0032386108009397.txt |  1 +
 semeval2017/test/S0032386109001463.ann | 11 +++++
 semeval2017/test/S0032386109001463.txt |  1 +
 semeval2017/test/S0032386109003991.ann | 22 ++++++++++
 semeval2017/test/S0032386109003991.txt |  1 +
 semeval2017/test/S0032386109005357.ann | 38 +++++++++++++++++
 semeval2017/test/S0032386109005357.txt |  1 +
 semeval2017/test/S0032386110001254.ann | 45 ++++++++++++++++++++
 semeval2017/test/S0032386110001254.txt |  1 +
 semeval2017/test/S0039602899010493.ann | 23 +++++++++++
 semeval2017/test/S0039602899010493.txt |  1 +
 semeval2017/test/S0098300413002124.ann | 24 +++++++++++
 semeval2017/test/S0098300413002124.txt |  1 +
 semeval2017/test/S0098300414000259.ann | 22 ++++++++++
 semeval2017/test/S0098300414000259.txt |  1 +
 semeval2017/test/S0098300414002532.ann | 16 ++++++++
 semeval2017/test/S0098300414002532.txt |  1 +
 semeval2017/test/S0166361516300926.ann |  9 ++++
 semeval2017/test/S0166361516300926.txt |  1 +
 semeval2017/test/S0168365912007560.ann | 35 ++++++++++++++++
 semeval2017/test/S0168365912007560.txt |  1 +
 semeval2017/test/S0168365913001521.ann | 34 +++++++++++++++
 semeval2017/test/S0168365913001521.txt |  1 +
 semeval2017/test/S0168365913009589.ann | 16 ++++++++
 semeval2017/test/S0168365913009589.txt |  1 +
 semeval2017/test/S0168583X14003929.ann | 15 +++++++
 semeval2017/test/S0168583X14003929.txt |  1 +
 semeval2017/test/S0257897213003563.ann | 27 ++++++++++++
 semeval2017/test/S0257897213003563.txt |  1 +
 semeval2017/test/S0257897213004131.ann | 23 +++++++++++
 semeval2017/test/S0257897213004131.txt |  1 +
 semeval2017/test/S0263822312000657.ann | 15 +++++++
 semeval2017/test/S0263822312000657.txt |  1 +
 semeval2017/test/S0263822312001468.ann | 34 +++++++++++++++
 semeval2017/test/S0263822312001468.txt |  1 +
 semeval2017/test/S0301679X13003289.ann | 30 ++++++++++++++
 semeval2017/test/S0301679X13003289.txt |  1 +
 semeval2017/test/S0301679X14000449.ann | 21 ++++++++++
 semeval2017/test/S0301679X14000449.txt |  1 +
 semeval2017/test/S0301679X14003272.ann |  8 ++++
 semeval2017/test/S0301679X14003272.txt |  1 +
 semeval2017/test/S0304399111001811.ann | 18 ++++++++
 semeval2017/test/S0304399111001811.txt |  1 +
 semeval2017/test/S030439911200040X.ann | 17 ++++++++
 semeval2017/test/S030439911200040X.txt |  1 +
 semeval2017/test/S0305440314001927.ann | 21 ++++++++++
 semeval2017/test/S0305440314001927.txt |  1 +
 semeval2017/test/S0370269301015222.ann | 30 ++++++++++++++
 semeval2017/test/S0370269301015222.txt |  1 +
 semeval2017/test/S0370269302011838.ann | 13 ++++++
 semeval2017/test/S0370269302011838.txt |  1 +
 semeval2017/test/S0370269302012492.ann | 15 +++++++
 semeval2017/test/S0370269302012492.txt |  1 +
 semeval2017/test/S0370269302013412.ann | 21 ++++++++++
 semeval2017/test/S0370269302013412.txt |  1 +
 semeval2017/test/S0370269302014880.ann | 57 ++++++++++++++++++++++++++
 semeval2017/test/S0370269302014880.txt |  1 +
 semeval2017/test/S0370269302014892.ann | 20 +++++++++
 semeval2017/test/S0370269302014892.txt |  1 +
 semeval2017/test/S0370269303015478.ann | 22 ++++++++++
 semeval2017/test/S0370269303015478.txt |  1 +
 semeval2017/test/S0370269303017222.ann | 18 ++++++++
 semeval2017/test/S0370269303017222.txt |  1 +
 semeval2017/test/S037026930301801X.ann | 17 ++++++++
 semeval2017/test/S037026930301801X.txt |  1 +
 semeval2017/test/S0370269304005829.ann | 15 +++++++
 semeval2017/test/S0370269304005829.txt |  1 +
 semeval2017/test/S0370269304007567.ann | 22 ++++++++++
 semeval2017/test/S0370269304007567.txt |  1 +
 semeval2017/test/S0370269304007816.ann |  9 ++++
 semeval2017/test/S0370269304007816.txt |  1 +
 semeval2017/test/S0370269304008421.ann | 15 +++++++
 semeval2017/test/S0370269304008421.txt |  1 +
 semeval2017/test/S0370269304008494.ann | 26 ++++++++++++
 semeval2017/test/S0370269304008494.txt |  1 +
 semeval2017/test/S0370269304009293.ann |  7 ++++
 semeval2017/test/S0370269304009293.txt |  1 +
 semeval2017/test/S0370269304012638.ann | 16 ++++++++
 semeval2017/test/S0370269304012638.txt |  1 +
 semeval2017/test/S037877531001949X.ann | 18 ++++++++
 semeval2017/test/S037877531001949X.txt |  1 +
 semeval2017/test/S0885230816301759.ann |  6 +++
 semeval2017/test/S0885230816301759.txt |  1 +
 semeval2017/test/S092583881302834X.ann | 13 ++++++
 semeval2017/test/S092583881302834X.txt |  1 +
 semeval2017/test/S0925838814009669.ann | 32 +++++++++++++++
 semeval2017/test/S0925838814009669.txt |  1 +
 semeval2017/test/S0927025614003322.ann | 15 +++++++
 semeval2017/test/S0927025614003322.txt |  1 +
 semeval2017/test/S0927025614006181.ann | 29 +++++++++++++
 semeval2017/test/S0927025614006181.txt |  1 +
 semeval2017/test/S0927025615006357.ann | 24 +++++++++++
 semeval2017/test/S0927025615006357.txt |  1 +
 semeval2017/test/S096386951400070X.ann | 14 +++++++
 semeval2017/test/S096386951400070X.txt |  1 +
 semeval2017/test/S0963869514000875.ann | 20 +++++++++
 semeval2017/test/S0963869514000875.txt |  1 +
 semeval2017/test/S0963869514000954.ann | 23 +++++++++++
 semeval2017/test/S0963869514000954.txt |  1 +
 semeval2017/test/S0963869514001066.ann | 25 +++++++++++
 semeval2017/test/S0963869514001066.txt |  1 +
 semeval2017/test/S0963869514001078.ann | 14 +++++++
 semeval2017/test/S0963869514001078.txt |  1 +
 semeval2017/test/S0963869515000572.ann | 18 ++++++++
 semeval2017/test/S0963869515000572.txt |  1 +
 semeval2017/test/S0968432814000250.ann | 32 +++++++++++++++
 semeval2017/test/S0968432814000250.txt |  1 +
 semeval2017/test/S1010603009002676.ann | 33 +++++++++++++++
 semeval2017/test/S1010603009002676.txt |  1 +
 semeval2017/test/S1010603013001809.ann | 47 +++++++++++++++++++++
 semeval2017/test/S1010603013001809.txt |  1 +
 semeval2017/test/S107158191630074X.ann |  7 ++++
 semeval2017/test/S107158191630074X.txt |  1 +
 semeval2017/test/S1359646214000165.ann | 30 ++++++++++++++
 semeval2017/test/S1359646214000165.txt |  1 +
 semeval2017/test/S1364815216302122.ann | 18 ++++++++
 semeval2017/test/S1364815216302122.txt |  1 +
 semeval2017/test/S1364815216302705.ann | 18 ++++++++
 semeval2017/test/S1364815216302705.txt |  1 +
 semeval2017/test/S136481521630305X.ann | 21 ++++++++++
 semeval2017/test/S136481521630305X.txt |  1 +
 semeval2017/test/S1364815216303061.ann | 13 ++++++
 semeval2017/test/S1364815216303061.txt |  1 +
 semeval2017/test/S1364815216303243.ann | 23 +++++++++++
 semeval2017/test/S1364815216303243.txt |  1 +
 semeval2017/test/S1386505616301769.ann | 11 +++++
 semeval2017/test/S1386505616301769.txt |  1 +
 semeval2017/test/S1574119211001544.ann | 18 ++++++++
 semeval2017/test/S1574119211001544.txt |  1 +
 semeval2017/test/S1574119215000796.ann | 25 +++++++++++
 semeval2017/test/S1574119215000796.txt |  1 +
 semeval2017/test/S1631070514000954.ann | 37 +++++++++++++++++
 semeval2017/test/S1631070514000954.txt |  1 +
 semeval2017/test/S167420011300196X.ann | 16 ++++++++
 semeval2017/test/S167420011300196X.txt |  1 +
 semeval2017/test/S1687850714000405.ann | 29 +++++++++++++
 semeval2017/test/S1687850714000405.txt |  1 +
 semeval2017/test/S1746809416300933.ann | 30 ++++++++++++++
 semeval2017/test/S1746809416300933.txt |  1 +
 semeval2017/test/S1877750311000676.ann | 16 ++++++++
 semeval2017/test/S1877750311000676.txt |  1 +
 semeval2017/test/S1877750313000240.ann | 14 +++++++
 semeval2017/test/S1877750313000240.txt |  1 +
 semeval2017/test/S187775031300077X.ann | 17 ++++++++
 semeval2017/test/S187775031300077X.txt |  1 +
 semeval2017/test/S1877750313001269.ann | 16 ++++++++
 semeval2017/test/S1877750313001269.txt |  1 +
 semeval2017/test/S1877750315000460.ann | 24 +++++++++++
 semeval2017/test/S1877750315000460.txt |  1 +
 semeval2017/test/S2212671612000431.ann | 41 ++++++++++++++++++
 semeval2017/test/S2212671612000431.txt |  1 +
 semeval2017/test/S2212671612000741.ann | 12 ++++++
 semeval2017/test/S2212671612000741.txt |  1 +
 semeval2017/test/S221267161400105X.ann | 17 ++++++++
 semeval2017/test/S221267161400105X.txt |  1 +
 semeval2017/test/S221450951400014X.ann | 45 ++++++++++++++++++++
 semeval2017/test/S221450951400014X.txt |  1 +
 200 files changed, 2359 insertions(+)
 create mode 100644 semeval2017/test/S0010482516301810.ann
 create mode 100644 semeval2017/test/S0010482516301810.txt
 create mode 100644 semeval2017/test/S0010938X15301268.ann
 create mode 100644 semeval2017/test/S0010938X15301268.txt
 create mode 100644 semeval2017/test/S0010938X15301554.ann
 create mode 100644 semeval2017/test/S0010938X15301554.txt
 create mode 100644 semeval2017/test/S0011227514002136.ann
 create mode 100644 semeval2017/test/S0011227514002136.txt
 create mode 100644 semeval2017/test/S0011227515000648.ann
 create mode 100644 semeval2017/test/S0011227515000648.txt
 create mode 100644 semeval2017/test/S0011227515001216.ann
 create mode 100644 semeval2017/test/S0011227515001216.txt
 create mode 100644 semeval2017/test/S002002551630384X.ann
 create mode 100644 semeval2017/test/S002002551630384X.txt
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diff --git a/semeval2017/test/S0010482516301810.ann b/semeval2017/test/S0010482516301810.ann
new file mode 100644
index 0000000..f222702
--- /dev/null
+++ b/semeval2017/test/S0010482516301810.ann
@@ -0,0 +1,34 @@
+T1	Process 0 50	Three-dimensional digital subtraction angiographic
+T2	Process 52 58	3D-DSA
+*	Synonym-of T1 T2
+T3	Process 83 103	cerebral angiography
+T4	Process 144 156	embolization
+T5	Task 227 275	creating a 3D model of the target vessel segment
+T6	Process 306 337	standard triangulation language
+T7	Process 339 342	STL
+*	Synonym-of T6 T7
+T8	Material 383 400	triangular meshes
+T9	Material 202 212	DICOM file
+T10	Process 407 423	3D visualization
+T12	Material 510 539	computational volumetric mesh
+T13	Material 639 647	STL file
+T14	Material 837 850	acrylic resin
+T15	Material 852 856	Vero
+R1	Hyponym-of Arg1:T15 Arg2:T14	
+T16	Process 966 983	removing spicule.
+T17	Material 450 465	Amira version X
+T18	Process 428 439	measurement
+T11	Process 587 596	Smoothing
+T19	Material 674 684	3D printer
+T20	Material 686 697	OBJET30 Pro
+R3	Hyponym-of Arg1:T20 Arg2:T19	
+T21	Process 190 196	3D-DSA
+T22	Material 238 246	3D model
+T23	Material 407 448	3D visualization and measurement software
+R2	Hyponym-of Arg1:T17 Arg2:T23	
+T24	Process 601 610	remeshing
+T25	Process 869 887	immersion in water
+T26	Material 882 887	water
+T27	Material 924 940	3D printed model
+T28	Process 945 953	smoothed
+T29	Material 565 585	triangulated surface
diff --git a/semeval2017/test/S0010482516301810.txt b/semeval2017/test/S0010482516301810.txt
new file mode 100644
index 0000000..c07e19f
--- /dev/null
+++ b/semeval2017/test/S0010482516301810.txt
@@ -0,0 +1 @@
+Three-dimensional digital subtraction angiographic (3D-DSA) images from diagnostic cerebral angiography were obtained at least one day prior to embolization in all patients. The raw data of 3D-DSA in a DICOM file were used for creating a 3D model of the target vessel segment. These data were converted to standard triangulation language (STL) surface data as an aggregation of fine triangular meshes using 3D visualization and measurement software (Amira version X, FEI, Burlington, MA, USA). An unstructured computational volumetric mesh was constructed from the triangulated surface. Smoothing and remeshing followed as next steps. The STL file was then transferred to a 3D printer (OBJET30 Pro; Stratasys Ltd., Eden Prairie, MN, USA). The resolution of the build layer was 0.028mm, and the 3D printed vessel model was produced using acrylic resin (Vero). Following immersion in water for a few hours, the surface of the 3D printed model was smoothed by manually removing spicule.
diff --git a/semeval2017/test/S0010938X15301268.ann b/semeval2017/test/S0010938X15301268.ann
new file mode 100644
index 0000000..115c9a0
--- /dev/null
+++ b/semeval2017/test/S0010938X15301268.ann
@@ -0,0 +1,29 @@
+T1	Material 46 64	corrosion products
+T2	Material 104 110	Cu40Zn
+T3	Material 122 134	hydrozincite
+T4	Material 149 153	Cu2O
+T5	Material 378 384	Cu40Zn
+T6	Material 408 410	DP
+T7	Material 415 418	HZ7
+T8	Material 530 536	Cu40Zn
+T9	Material 552 564	hydrozincite
+T10	Material 566 569	HZ7
+*	Synonym-of T9 T10
+T11	Material 587 611	diamond polished surface
+T12	Material 613 615	DP
+*	Synonym-of T11 T12
+T13	Material 678 691	simonkolleite
+T14	Material 751 763	hydrozincite
+T15	Material 809 833	NaCl-containing droplets
+T16	Material 883 895	hydrozincite
+T17	Material 900 907	cuprite
+T18	Process 456 471	formation rates
+T20	Process 280 296	absorbance units
+T19	Task 308 406	comparisons to be made of the amounts of each species between the two Cu40Zn surfaces investigated
+R1	Hyponym-of Arg1:T3 Arg2:T1	
+R2	Hyponym-of Arg1:T4 Arg2:T1	
+T21	Material 480 492	hydrozincite
+T22	Material 497 504	cuprite
+T23	Process 665 691	formation of simonkolleite
+T24	Process 776 793	initial spreading
+T25	Process 865 879	formation rate
diff --git a/semeval2017/test/S0010938X15301268.txt b/semeval2017/test/S0010938X15301268.txt
new file mode 100644
index 0000000..125f185
--- /dev/null
+++ b/semeval2017/test/S0010938X15301268.txt
@@ -0,0 +1 @@
+Fig. 9 displays the growth of two of the main corrosion products that develop or form on the surface of Cu40Zn with time, hydrozincite (Fig. 9a) and Cu2O (Fig. 9b). It should be remembered that both phases were present already from start of the exposure. The data is presented in absorbance units and allows comparisons to be made of the amounts of each species between the two Cu40Zn surfaces investigated, DP and HZ7. The tendency is very clear that the formation rates of both hydrozincite and cuprite are quite suppressed for Cu40Zn with preformed hydrozincite (HZ7) compared to the diamond polished surface (DP). In summary, without being able to consider the formation of simonkolleite, it can be concluded that an increased surface coverage of hydrozincite reduces the initial spreading ability of the NaCl-containing droplets and thereby lowers the overall formation rate of hydrozincite and cuprite.
diff --git a/semeval2017/test/S0010938X15301554.ann b/semeval2017/test/S0010938X15301554.ann
new file mode 100644
index 0000000..7b3f555
--- /dev/null
+++ b/semeval2017/test/S0010938X15301554.ann
@@ -0,0 +1,41 @@
+T1	Material 0 26	AA 2024-T3 aluminium alloy
+T2	Material 153 159	copper
+T3	Material 164 173	magnesium
+T4	Process 225 252	thermomechanical processing
+T5	Task 46 68	aerospace applications
+T6	Material 280 285	alloy
+T7	Process 324 355	compositionally-distinct phases
+T8	Process 475 484	corrosion
+T9	Process 508 525	surface treatment
+T10	Material 584 589	alloy
+T11	Material 638 661	intermetallic particles
+T12	Material 716 728	alloy matrix
+T13	Material 736 776	Copper-containing second phase particles
+T14	Process 834 854	corrosion resistance
+T15	Material 937 958	second phase particle
+T16	Material 1024 1031	S phase
+T17	Material 1073 1090	S phase particles
+T18	Material 1151 1164	AA2024 alloys
+T19	Process 984 1003	corrosion behaviour
+T20	Material 1201 1206	alloy
+T21	Material 1252 1261	particles
+T22	Process 1328 1337	corrosion
+T23	Material 1345 1350	alloy
+T24	Process 1364 1374	dealloying
+T25	Material 1382 1399	S phase particles
+T26	Process 1418 1428	enrichment
+T27	Material 1432 1438	copper
+T28	Process 1451 1482	decrease of the Volta potential
+T29	Material 1558 1572	cathodic sites
+T30	Material 440 445	alloy
+T31	Material 191 208	alloying elements
+R1	Hyponym-of Arg1:T3 Arg2:T31	
+R2	Hyponym-of Arg1:T2 Arg2:T31	
+T32	Material 784 789	alloy
+T33	Material 1033 1040	Al2CuMg
+*	Synonym-of T16 T33
+T34	Process 557 566	corrosion
+T35	Material 1126 1147	constituent particles
+R3	Hyponym-of Arg1:T17 Arg2:T35	
+T36	Material 1524 1543	dealloyed particles
+*	Synonym-of T20 T18
diff --git a/semeval2017/test/S0010938X15301554.txt b/semeval2017/test/S0010938X15301554.txt
new file mode 100644
index 0000000..d0f2cf3
--- /dev/null
+++ b/semeval2017/test/S0010938X15301554.txt
@@ -0,0 +1 @@
+AA 2024-T3 aluminium alloy is widely used for aerospace applications due to its high strength to weight ratio and high damage tolerance that result from copper and magnesium as the principal alloying elements and appropriate thermomechanical processing. The microstructure of the alloy is relatively complex and a number of compositionally-distinct phases have been identified [1]. Although possessing favourable mechanical properties, the alloy is relatively susceptible to corrosion and generally requires surface treatment in practical applications. The corrosion behaviour of the alloy is particularly affected by the presence of the intermetallic particles due to their differing potentials with respect to the alloy matrix [2–9]. Copper-containing second phase particles at the alloy surface are particularly detrimental to the corrosion resistance as they provide preferential cathodic sites [2,10]. One of the principle types of second phase particle that is important to the corrosion behaviour of the alloy is the S phase (Al2CuMg) particle [1,11]. Dealloying of S phase particles, which may account for ∼60% of the constituent particles in AA2024 alloys [11], is commonly observed when the alloy is exposed to an aggressive environment. The particles are considered as important initiation sites for severe localized corrosion in the alloy [11–22]. The dealloying of the S phase particles and the resulting enrichment of copper result in a decrease of the Volta potential with respect to the matrix and hence the dealloyed particles become active cathodic sites [23–25].
diff --git a/semeval2017/test/S0011227514002136.ann b/semeval2017/test/S0011227514002136.ann
new file mode 100644
index 0000000..db7bd07
--- /dev/null
+++ b/semeval2017/test/S0011227514002136.ann
@@ -0,0 +1,19 @@
+T1	Task 0 53	Measuring and analysing the hold time of the CPA pill
+T2	Material 45 53	CPA pill
+T3	Process 65 92	thermal boundary resistance
+T4	Material 104 108	pill
+T5	Material 185 197	CPA crystals
+T6	Process 129 145	thermal boundary
+*	Synonym-of T3 T6
+T7	Process 166 177	temperature
+T8	Process 302 323	servo control program
+T9	Material 391 399	CPA pill
+T10	Process 374 383	recycling
+T11	Process 415 433	operation at 200mK
+T12	Process 461 482	servo control program
+T13	Material 498 506	CPA pill
+T14	Process 564 585	microkelvin stability
+T15	Process 607 632	fast read-out thermometry
+T16	Task 712 716	mKCC
+*	Synonym-of T2 T4
+T17	Material 238 249	cold finger
diff --git a/semeval2017/test/S0011227514002136.txt b/semeval2017/test/S0011227514002136.txt
new file mode 100644
index 0000000..088cfcb
--- /dev/null
+++ b/semeval2017/test/S0011227514002136.txt
@@ -0,0 +1 @@
+Measuring and analysing the hold time of the CPA pill allows the thermal boundary resistance within the pill to be assessed; the thermal boundary dictates the actual temperature of the CPA crystals in comparison to the temperature of the cold finger, which is maintained at a constant temperature by a servo control program. Fig. 17 shows the temperature profile during the recycling of the CPA pill and subsequent operation at 200mK. During the hold time, the servo control program maintained the CPA pill temperature to within a millikelvin. It is expected that microkelvin stability can be achieved with fast read-out thermometry (which was not available at the time of testing but which will be used for the mKCC), as this would allow for temperature control on much faster (millisecond) timescales than the current (approximately 1s) thermometry readout used.
diff --git a/semeval2017/test/S0011227515000648.ann b/semeval2017/test/S0011227515000648.ann
new file mode 100644
index 0000000..119b54c
--- /dev/null
+++ b/semeval2017/test/S0011227515000648.ann
@@ -0,0 +1,21 @@
+T1	Material 27 40	batches #1/#2
+T2	Process 129 154	110-nm process technology
+T3	Material 180 183	LNT
+T4	Material 403 416	batches #3/#4
+T5	Material 421 426	#5/#6
+T6	Process 447 465	process technology
+T7	Process 813 834	transistor parameters
+T8	Process 843 864	transconductance/gain
+T9	Process 866 883	threshold voltage
+T10	Process 889 904	threshold slope
+T11	Process 259 285	erase and program timeouts
+T12	Process 314 324	long erase
+T13	Process 329 342	program times
+T14	Process 347 357	bit errors
+T15	Process 4 18	product change
+T16	Process 377 387	pass rates
+T17	Process 541 555	assembly lines
+R1	Hyponym-of Arg1:T8 Arg2:T7	
+R2	Hyponym-of Arg1:T9 Arg2:T7	
+R3	Hyponym-of Arg1:T10 Arg2:T7	
+T18	Process 641 651	tolerances
diff --git a/semeval2017/test/S0011227515000648.txt b/semeval2017/test/S0011227515000648.txt
new file mode 100644
index 0000000..5d62193
--- /dev/null
+++ b/semeval2017/test/S0011227515000648.txt
@@ -0,0 +1 @@
+The product change between batches #1/#2 and the others is the most influential on the test results. The redesign and upgrade to 110-nm process technology reduces the pass rate at LNT by approximately half. This is mainly caused by the increased incidence of erase and program timeouts with some contribution from long erase and program times and bit errors. The difference in pass rates at 88K between batches #3/#4 and #5/#6, which use the same process technology with the same dimensions, can be explained by the fabrication in different assembly lines, where other processes or base materials may have been changed. This means different tolerances in base materials and production process, which are more pronounced the lower the temperature. Some of the differences of technology scale may reflect shifts in transistor parameters such as transconductance/gain, threshold voltage, and threshold slope [7].
diff --git a/semeval2017/test/S0011227515001216.ann b/semeval2017/test/S0011227515001216.ann
new file mode 100644
index 0000000..c3a1b78
--- /dev/null
+++ b/semeval2017/test/S0011227515001216.ann
@@ -0,0 +1,25 @@
+T1	Task 9 37	assembling the miniature ADR
+T2	Material 24 37	miniature ADR
+T3	Material 43 62	mKCC MR heat switch
+T4	Process 82 105	thermally characterised
+T5	Material 113 133	cryostat constraints
+T7	Material 210 232	tungsten heat switches
+T8	Process 238 258	thermal conductivity
+T10	Process 340 360	thermal conductivity
+T11	Material 497 513	mKCC heat switch
+T12	Process 575 595	thermal conductivity
+T13	Material 607 623	MSSL heat switch
+T14	Material 829 851	tungsten heat switches
+T15	Material 960 982	20,000 RRR heat switch
+T16	Process 1056 1076	thermal conductivity
+T17	Process 1299 1319	thermal conductivity
+T18	Material 1423 1436	miniature ADR
+T19	Material 1327 1338	mKCC switch
+T6	Process 362 363	κ
+*	Synonym-of T10 T6
+T9	Process 408 422	magnetic field
+T20	Process 424 425	B
+*	Synonym-of T9 T20
+T23	Process 805 824	thermal performance
+T24	Material 1084 1095	mKCC switch
+R1	Hyponym-of Arg1:T15 Arg2:T14	
diff --git a/semeval2017/test/S0011227515001216.txt b/semeval2017/test/S0011227515001216.txt
new file mode 100644
index 0000000..da9043f
--- /dev/null
+++ b/semeval2017/test/S0011227515001216.txt
@@ -0,0 +1 @@
+Prior to assembling the miniature ADR, the mKCC MR heat switch could not be fully thermally characterised due to cryostat constraints. However, based on experiments and research conducted at MSSL on a range of tungsten heat switches, the thermal conductivity has been estimated. In Hills et al. [8], an equation is derived which allows the thermal conductivity (κ) below 6K to be calculated as a function of magnetic field (B) and temperature (T) (see Eq. (1)). To estimate the performance of the mKCC heat switch, the parameters in Eq. (1) have been taken from the measured thermal conductivity of another MSSL heat switch with the same 1.5mm square cross section, a free path length of 43cm and a RRR of 20,000; it has been observed from experiments conducted at MSSL that there is little change in the thermal performance for tungsten heat switches with a RRR between 20,000 and 32,000 (subject of a future publication) and therefore the performance of the 20,000 RRR heat switch has been assumed to be a good approximation. Fig. 5 gives the calculated thermal conductivity of the mKCC switch at 0, 1, 2 and 3T based on Eq. (1), where the constants b0, a1, a2, a3, a4 and n have the values 0.0328, 1.19×10−4, 3.57×10−6, 1.36, 0.000968 and 1.7 respectively. It should be noted that the calculated thermal conductivity of the mKCC switch presented in Fig. 5 has been validated by comparing the experimental results of the miniature ADR with modelled predictions (this is discussed in Section 3.3).(1)κ(T)=b0T2+1a1+a2T2T+Bna3T+a4T4
diff --git a/semeval2017/test/S002002551630384X.ann b/semeval2017/test/S002002551630384X.ann
new file mode 100644
index 0000000..a5be73c
--- /dev/null
+++ b/semeval2017/test/S002002551630384X.ann
@@ -0,0 +1,15 @@
+T1	Task 20 71	combine sets and networks in a single visualization
+T2	Process 99 112	Euler diagram
+T3	Process 51 71	single visualization
+T4	Process 334 348	Euler diagrams
+T5	Material 419 431	network data
+T6	Process 472 489	transparent hulls
+T7	Material 437 451	Graph clusters
+T8	Material 692 698	glyphs
+T9	Process 944 957	T1, T3 and T4
+T10	Process 1053 1065	convex hulls
+T11	Process 1075 1082	Vizster
+R1	Hyponym-of Arg1:T11 Arg2:T10	
+T12	Material 350 365	Compound graphs
+T13	Task 905 935	finding relations between sets
+T14	Process 1004 1046	visualize grouping information over graphs
diff --git a/semeval2017/test/S002002551630384X.txt b/semeval2017/test/S002002551630384X.txt
new file mode 100644
index 0000000..3129889
--- /dev/null
+++ b/semeval2017/test/S002002551630384X.txt
@@ -0,0 +1 @@
+An early attempt to combine sets and networks in a single visualization relied on first drawing an Euler diagram then placing a graph inside it [30], however the sets were often visualized with convoluted, difficult to follow curves. In addition, only limited kinds of set data could be shown as the system was limited to well-formed Euler diagrams. Compound graphs can be used to represent restricted kinds of grouped network data [8]. Graph clusters are visualized with transparent hulls by Santamaria and Theron [39]. However, the technique removes edges from the graph and it is not sufficiently sophisticated for arbitrary overlapping sets. Itoh et al. [24] proposed to overlay pie-like glyphs over the nodes in a graph to encode multiple categories. Each set is hence represented using disconnected regions that are linked by having the same colour. This causes difficulties with tasks that involve finding relations between sets such as T1, T3 and T4 in Section 5.3. A related class of techniques visualize grouping information over graphs using convex hulls, such as Vizster [22]. However, they do not support visualizing set overlaps.
diff --git a/semeval2017/test/S0021961414003255.ann b/semeval2017/test/S0021961414003255.ann
new file mode 100644
index 0000000..64699fd
--- /dev/null
+++ b/semeval2017/test/S0021961414003255.ann
@@ -0,0 +1,21 @@
+T1	Task 50 62	XRD analysis
+T2	Process 130 138	quenched
+T3	Process 350 361	thermograms
+T4	Process 408 429	solidification arrest
+T5	Process 433 450	clear inflections
+T6	Process 518 529	latent heat
+T7	Process 581 613	reflected light signal technique
+T8	Process 689 700	segregation
+T9	Process 865 883	Raman spectroscopy
+T10	Process 907 918	segregation
+T11	Process 974 990	phase transition
+T12	Task 1033 1045	XRD analysis
+T13	Process 23 42	segregation effects
+T14	Material 320 326	liquid
+T15	Material 334 341	surface
+T16	Process 299 310	crystallise
+T17	Process 630 642	phase change
+T18	Material 737 748	molten pool
+T19	Task 844 883	material analysis by Raman spectroscopy
+T20	Material 765 787	re-solidified material
+T21	Material 1097 1119	re-solidified material
diff --git a/semeval2017/test/S0021961414003255.txt b/semeval2017/test/S0021961414003255.txt
new file mode 100644
index 0000000..dc9761b
--- /dev/null
+++ b/semeval2017/test/S0021961414003255.txt
@@ -0,0 +1 @@
+Moreover, one observes segregation effects by the XRD analysis, which probably took place at high temperature, and were partially quenched to room temperature. The phase analysis showed up to three distinct phases, which should have hence a distinct measurable phase transition temperature, if they crystallise from the liquid on the surface. In the thermograms these effects are not observable as different solidification arrest or clear inflections. The proportion of new appearing phases is small and therefore the latent heat released by this new phase will be also small. The reflected light signal technique only showed one phase change during cooling. As well, the location of this segregation cannot be determined exactly in the molten pool or later in the re-solidified material. At the surface, where the temperature is measured, the material analysis by Raman spectroscopy has not shown signs of segregation, so that also the uncertainties in composition for the phase transition are taken from the uncertainties from the XRD analysis for the most abundant phase at each composition in re-solidified material.
diff --git a/semeval2017/test/S002199911200068X.ann b/semeval2017/test/S002199911200068X.ann
new file mode 100644
index 0000000..3e866b5
--- /dev/null
+++ b/semeval2017/test/S002199911200068X.ann
@@ -0,0 +1,26 @@
+T1	Process 0 33	Myocardial electrical propagation
+T2	Material 61 88	monodomain or bidomain PDEs
+T3	Material 137 147	geometries
+T4	Process 203 224	finite element method
+T5	Process 226 229	FEM
+*	Synonym-of T4 T5
+T6	Material 249 253	PDEs
+T7	Process 606 639	high-end supercomputing resources
+T9	Task 766 781	preconditioning
+T10	Task 783 798	parallelisation
+T11	Task 803 831	adaptivity in space and time
+T12	Process 925 950	high-order polynomial FEM
+T13	Material 978 992	monodomain PDE
+T14	Process 1075 1095	piecewise-linear FEM
+T15	Process 1277 1301	finite element p-version
+T16	Task 858 913	investigate the potential of reducing the number of DOF
+T8	Task 378 400	human heart geometries
+T17	Material 276 299	cardiac geometry meshes
+T18	Process 402 429	systems of linear equations
+T19	Process 507 517	simulation
+T20	Task 706 746	developing efficient solution techniques
+R1	Hyponym-of Arg1:T9 Arg2:T20	
+R2	Hyponym-of Arg1:T10 Arg2:T20	
+R3	Hyponym-of Arg1:T11 Arg2:T20	
+T21	Task 1020 1065	significantly improving simulation efficiency
+T22	Process 1044 1065	simulation efficiency
diff --git a/semeval2017/test/S002199911200068X.txt b/semeval2017/test/S002199911200068X.txt
new file mode 100644
index 0000000..3279ff6
--- /dev/null
+++ b/semeval2017/test/S002199911200068X.txt
@@ -0,0 +1 @@
+Myocardial electrical propagation can be simulated using the monodomain or bidomain PDEs [5,6]. Due to its capacity to represent complex geometries with ease, approximations are often obtained using the finite element method (FEM) to discretise the PDEs in space on realistic cardiac geometry meshes; this results in very large (up to forty-million degrees of freedom (DOF) for human heart geometries) systems of linear equations which must be solved many thousands of times over the course of even a short simulation. Thus, they are extremely computationally demanding, presenting taxing problems even to high-end supercomputing resources. This computational demand means that effort has been invested in developing efficient solution techniques, including work on preconditioning, parallelisation and adaptivity in space and time [7–12]. In this study, we investigate the potential of reducing the number of DOF by using a high-order polynomial FEM [13–15] to approximate the monodomain PDE in space, with the goal of significantly improving simulation efficiency over the piecewise-linear FEM approach commonly used in the field [16–19]. For schemes where the polynomial degree p of the elements is adjusted according to the error in the approximation, this is known as the finite element p-version. In the work presented here, we work with schemes which keep p fixed.
diff --git a/semeval2017/test/S0021999112002847.ann b/semeval2017/test/S0021999112002847.ann
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index 0000000..681d190
--- /dev/null
+++ b/semeval2017/test/S0021999112002847.ann
@@ -0,0 +1,15 @@
+T1	Task 16 95	develop a new approach to DEA suitable for modelling three-dimensional problems
+T2	Process 231 262	orthonormal basis approximation
+T3	Process 158 196	parametrise the boundary of the region
+T4	Material 282 320	boundary phase space coordinate system
+T5	Material 401 411	arc-length
+T6	Material 431 465	momentum (or direction) coordinate
+T7	Material 539 555	univariate basis
+T8	Material 597 610	Fourier basis
+T9	Material 618 639	Chebyshev polynomials
+R1	Hyponym-of Arg1:T8 Arg2:T7	
+R2	Hyponym-of Arg1:T9 Arg2:T7	
+T10	Process 775 802	spherical polar coordinates
+T11	Process 42 45	DEA
+T12	Process 59 95	modelling three-dimensional problems
+T13	Process 109 120	DEA methods
diff --git a/semeval2017/test/S0021999112002847.txt b/semeval2017/test/S0021999112002847.txt
new file mode 100644
index 0000000..040faea
--- /dev/null
+++ b/semeval2017/test/S0021999112002847.txt
@@ -0,0 +1 @@
+In this work we develop a new approach to DEA suitable for modelling three-dimensional problems. The present DEA methods rely on the fact that one can easily parametrise the boundary of the region being modelled, and then apply an orthonormal basis approximation over the resulting boundary phase space coordinate system. In two dimensions this is simple as the boundary may be parametrised along its arc-length and the associated momentum (or direction) coordinate taken tangential to the boundary. The basis can be any suitable (scaled) univariate basis in both position and momentum, such as a Fourier basis [8] or Chebyshev polynomials [9]. Defining a suitable parametrisation for the spatial coordinate in three-dimensions becomes much more difficult. In momentum space spherical polar coordinates may be employed and so these problems do not arise.
diff --git a/semeval2017/test/S0021999112003579.ann b/semeval2017/test/S0021999112003579.ann
new file mode 100644
index 0000000..4da92d9
--- /dev/null
+++ b/semeval2017/test/S0021999112003579.ann
@@ -0,0 +1,25 @@
+T1	Material 43 61	vector of unknowns
+T2	Material 63 72	xPS=[X,L]
+*	Synonym-of T1 T2
+T3	Material 98 115	nodal coordinates
+T4	Material 153 173	Lagrange multipliers
+T5	Process 228 249	Newton-based solution
+T6	Material 278 301	displacement constraint
+T7	Process 317 339	saddle-point structure
+T8	Process 359 383	tangent stiffness matrix
+T9	Material 391 425	unconstrained pseudo-solid problem
+T10	Material 435 458	two off-diagonal blocks
+T11	Material 459 462	Cxl
+T12	Material 467 475	Clx=CxlT
+R1	Hyponym-of Arg1:T11 Arg2:T10	
+R2	Hyponym-of Arg1:T12 Arg2:T10	
+T13	Material 543 563	Lagrange multipliers
+T14	Process 743 772	Dirichlet boundary conditions
+T15	Process 836 852	Newton iteration
+T16	Process 961 986	equilibrium configuration
+T17	Task 3 30	order the discrete unknowns
+T18	Material 911 935	tangent stiffness matrix
+T19	Process 625 639	discretisation
+T20	Material 603 606	LBB
+T21	Material 682 685	LBB
+T22	Process 703 739	Lagrange-multiplier-based imposition
diff --git a/semeval2017/test/S0021999112003579.txt b/semeval2017/test/S0021999112003579.txt
new file mode 100644
index 0000000..4ce0cd7
--- /dev/null
+++ b/semeval2017/test/S0021999112003579.txt
@@ -0,0 +1 @@
+We order the discrete unknowns so that the vector of unknowns, xPS=[X,L], contains the nx unknown nodal coordinates, followed by the nb unknown discrete Lagrange multipliers. The linear systems to be solved in the course of the Newton-based solution of Eq. (10), subject to the displacement constraint (9), then have saddle-point structure,(15)where E is the tangent stiffness matrix of the unconstrained pseudo-solid problem, and the two off-diagonal blocks Cxl and Clx=CxlT arise through the imposition of the displacement constraint by the Lagrange multipliers. We refer to [34] for the proof of the LBB stability of this discretisation; see also [35,36] for a discussion of the LBB stability of the Lagrange-multiplier-based imposition of Dirichlet boundary conditions in related problems. We note that during the first step of the Newton iteration, E is symmetric positive definite since it represents the tangent stiffness matrix relative to the system’s equilibrium configuration.
diff --git a/semeval2017/test/S0021999113002945.ann b/semeval2017/test/S0021999113002945.ann
new file mode 100644
index 0000000..4d0b482
--- /dev/null
+++ b/semeval2017/test/S0021999113002945.ann
@@ -0,0 +1,14 @@
+T1	Process 0 10	Inequality
+T2	Material 73 80	p-norms
+T3	Material 178 184	||y||∞
+T4	Material 214 220	2-norm
+T5	Material 35 47	maximum-norm
+T6	Material 237 249	maximum-norm
+T7	Material 410 432	optimized coefficients
+T8	Process 449 466	vast solution set
+T9	Material 500 517	maximum deviation
+T10	Material 690 702	maximum-norm
+T11	Material 738 757	objective functions
+T12	Task 761 801	extend the accurate wave number coverage
+R1	Hyponym-of Arg1:T5 Arg2:T2	
+T13	Material 225 231	1-norm
diff --git a/semeval2017/test/S0021999113002945.txt b/semeval2017/test/S0021999113002945.txt
new file mode 100644
index 0000000..c987eea
--- /dev/null
+++ b/semeval2017/test/S0021999113002945.txt
@@ -0,0 +1 @@
+Inequality (22) indicates that the maximum-norm is the loosest among all p-norms. Fortunately, this loosest constraint would not seriously affect the accuracy since the value of ||y||∞ is comparable to that of the 2-norm and 1-norm. The maximum-norm provides us with the largest number of possible solutions under a given error limitation [24]. This would greatly enhance the possibility of finding a group of optimized coefficients when scanning a vast solution set. On the other hand, checking the maximum deviation sounds more reasonable than checking the “distance” between the accurate and approximated wave numbers since it is not working in the space domain. Therefore, we chose the maximum-norm as our criterion for designing the objective functions to extend the accurate wave number coverage as widely as possible.
diff --git a/semeval2017/test/S0021999113003422.ann b/semeval2017/test/S0021999113003422.ann
new file mode 100644
index 0000000..47e09da
--- /dev/null
+++ b/semeval2017/test/S0021999113003422.ann
@@ -0,0 +1,14 @@
+T1	Material 8 30	numerical oscillations
+T2	Material 75 79	ISPM
+T3	Process 105 116	IBM kernels
+T4	Process 286 308	Lagrangian description
+T5	Process 443 473	kernel interpolation functions
+T7	Task 913 935	Maple computer program
+T6	Process 777 802	Cartesian staggered grids
+T8	Process 998 1005	kernels
+T9	Task 529 612	a new family of kernel functions which do not introduce these spurious oscillations
+T10	Material 403 415	oscillations
+T11	Process 618 634	kernel functions
+T12	Material 870 882	oscillations
+T13	Process 888 909	computing derivatives
+T14	Task 958 1005	obtain explicit expressions for the new kernels
diff --git a/semeval2017/test/S0021999113003422.txt b/semeval2017/test/S0021999113003422.txt
new file mode 100644
index 0000000..270320b
--- /dev/null
+++ b/semeval2017/test/S0021999113003422.txt
@@ -0,0 +1 @@
+Similar numerical oscillations to those described above also emerge in the ISPM when utilising classical IBM kernels due to their lack of regularity (with discontinuous second derivatives). Furthermore, it is important to remark that the immersed structure stresses are captured in the Lagrangian description and hence, in order to compute them accurately, it is important to ensure that these spurious oscillations are not introduced via the kernel interpolation functions. In this paper, the authors have specifically designed a new family of kernel functions which do not introduce these spurious oscillations. The kernel functions are obtained by taking into account discrete reproducibility conditions as originally introduced by Peskin [14] (in our case, tailor-made for Cartesian staggered grids) and regularity requirements to prevent the appearance of spurious oscillations when computing derivatives. A Maple computer program has been developed to obtain explicit expressions for the new kernels.
diff --git a/semeval2017/test/S002199911300346X.ann b/semeval2017/test/S002199911300346X.ann
new file mode 100644
index 0000000..8df74eb
--- /dev/null
+++ b/semeval2017/test/S002199911300346X.ann
@@ -0,0 +1,39 @@
+T1	Process 0 15	Contact methods
+T3	Process 140 155	contact methods
+T4	Process 264 282	contact algorithms
+T5	Process 299 313	Lagrangian SGH
+T6	Material 88 91	SGH
+T7	Process 406 428	contact surface scheme
+T8	Process 490 504	contact method
+T9	Process 521 542	master–slave approach
+T10	Material 586 591	nodes
+T11	Material 687 700	slave surface
+T12	Material 723 733	ghost mesh
+T13	Material 784 795	slave zones
+T14	Material 847 860	slave surface
+T15	Material 868 879	ghost zones
+T17	Material 1084 1111	cell-centered hydrodynamics
+T18	Material 1113 1116	CCH
+*	Synonym-of T17 T18
+T2	Material 59 86	staggered-grid hydrodynamic
+*	Synonym-of T2 T6
+T20	Material 1345 1348	CCH
+T19	Task 1362 1412	solve a Riemann-like problem at the node of a zone
+T21	Process 335 339	HEMP
+T22	Process 437 442	TOODY
+T23	Process 473 479	DYNA2D
+T24	Process 508 513	TOODY
+R1	Hyponym-of Arg1:T9 Arg2:T8	
+T25	Material 599 614	contact surface
+T26	Material 641 654	internal node
+T27	Material 742 756	phony elements
+*	Synonym-of T12 T27
+T29	Material 963 986	ghost zone surface area
+T30	Material 994 1006	surface area
+T31	Material 1014 1028	master surface
+T32	Task 1034 1056	contact surface method
+T33	Process 1061 1111	nodal-based Lagrangian cell-centered hydrodynamics
+T16	Process 1203 1208	TOODY
+T28	Process 1224 1246	area fraction approach
+T34	Process 1250 1255	TOODY
+T35	Process 1345 1356	CCH methods
diff --git a/semeval2017/test/S002199911300346X.txt b/semeval2017/test/S002199911300346X.txt
new file mode 100644
index 0000000..deb5cde
--- /dev/null
+++ b/semeval2017/test/S002199911300346X.txt
@@ -0,0 +1 @@
+Contact methods have been developed and used in Lagrangian staggered-grid hydrodynamic (SGH) calculations for many years. Early examples of contact methods are discussed in Wilkins [37] and Cherry et al. [7]. Hallquist et al. [17] provides an overview of multiple contact algorithms used in various Lagrangian SGH codes dating back to HEMP [37]. Of particular interest, Hallquist et al. [17] describes the contact surface scheme used in TOODY [31] and later implemented in DYNA2D [36]. The contact method of TOODY uses a master–slave approach. The goal of this approach is to treat the nodes on the contact surface in a manner similar to an internal node. The physical properties of the slave surface are interpolated to a ghost mesh (termed phony elements in [17]) that overlays the slave zones. The physical properties are interpolated from the slave surface to the ghost zones using surface area weights. The surface area weights are equal to the ratio of the ghost zone surface area to the surface area of the master surface. The contact surface method for nodal-based Lagrangian cell-centered hydrodynamics (CCH) presented in this paper will use surface area weights similar in concept to those in TOODY. Following the area fraction approach of TOODY may seem retrospective; however, using surface area weights naturally extends to the new CCH methods that solve a Riemann-like problem at the node of a zone [10,24,25,3].
diff --git a/semeval2017/test/S0021999113004555.ann b/semeval2017/test/S0021999113004555.ann
new file mode 100644
index 0000000..f486979
--- /dev/null
+++ b/semeval2017/test/S0021999113004555.ann
@@ -0,0 +1,15 @@
+T1	Process 6 30	Runge–Kutta IMEX schemes
+T2	Process 83 96	HEVI solution
+T3	Process 124 142	atmospheric motion
+T4	Process 160 177	ARS(2,3,2) scheme
+T5	Process 276 299	Strang carryover scheme
+T7	Process 568 587	Rosenbrock solution
+T8	Process 702 721	Rosenbrock solution
+T9	Process 744 757	Newton solver
+T10	Process 780 801	time-step restriction
+T6	Process 315 331	Strang splitting
+T11	Process 682 698	wave propagation
+T12	Process 725 757	one iteration of a Newton solver
+*	Synonym-of T8 T12
+T13	Process 818 836	vertical advection
+T14	Process 852 882	slowing the vertical advection
diff --git a/semeval2017/test/S0021999113004555.txt b/semeval2017/test/S0021999113004555.txt
new file mode 100644
index 0000000..20c583c
--- /dev/null
+++ b/semeval2017/test/S0021999113004555.txt
@@ -0,0 +1 @@
+Three Runge–Kutta IMEX schemes were tested by Ullrich and Jablonowski [23] for the HEVI solution of the equations governing atmospheric motion. They tested the ARS(2,3,2) scheme of Ascher et al. [1] and also suggested the less computationally expensive but nearly as accurate Strang carryover scheme. This involves Strang splitting but the first implicit stage is cleverly re-used from the final implicit stage of the previous time-step and so there is only one implicit solution per time-step. Another novel approach taken by Ullrich and Jablonowski [23] is to use a Rosenbrock solution in order to treat all of the vertical terms implicitly rather than just the terms involved in wave propagation. A Rosenbrock solution is one iteration of a Newton solver. This circumvents the time-step restriction associated with vertical advection at the cost of slowing the vertical advection.
diff --git a/semeval2017/test/S0021999113005603.ann b/semeval2017/test/S0021999113005603.ann
new file mode 100644
index 0000000..db983fa
--- /dev/null
+++ b/semeval2017/test/S0021999113005603.ann
@@ -0,0 +1,24 @@
+T1	Process 89 119	cumulative averaging technique
+T2	Process 159 195	divided into spatially-oriented bins
+T3	Material 239 247	velocity
+T4	Material 252 273	shear-stress profiles
+T5	Process 318 345	Cumulative Averaging Method
+T6	Process 347 350	CAM
+*	Synonym-of T5 T6
+T7	Process 368 387	stress tensor field
+T8	Process 410 438	Irving–Kirkwood relationship
+T9	Process 447 475	least-squares polynomial fit
+T11	Process 658 670	macro solver
+T12	Material 709 729	Nth order polynomial
+T14	Material 782 802	Mth order polynomial
+T13	Material 999 1010	polynomials
+T15	Material 1097 1114	new slip velocity
+T16	Material 1181 1219	compressed wall micro-element solution
+T17	Task 123 135	reduce noise
+T18	Process 227 273	resolve the velocity and shear-stress profiles
+T10	Task 514 526	reduce noise
+T19	Process 555 574	continuous function
+T20	Process 587 603	stability issues
+T21	Process 617 670	supplying highly fluctuating data to the macro solver
+T22	Process 674 691	least-squares fit
+T23	Material 1135 1149	macro solution
diff --git a/semeval2017/test/S0021999113005603.txt b/semeval2017/test/S0021999113005603.txt
new file mode 100644
index 0000000..86a052a
--- /dev/null
+++ b/semeval2017/test/S0021999113005603.txt
@@ -0,0 +1 @@
+After all micro elements reach a relaxed steady-state, measurements are obtained using a cumulative averaging technique to reduce noise. Each micro element is divided into spatially-oriented bins in the y-direction in order to resolve the velocity and shear-stress profiles. Velocity in each bin is measured using the Cumulative Averaging Method (CAM) [24], while the stress tensor field is measured using the Irving–Kirkwood relationship [25]. A least-squares polynomial fit to the data is performed, which helps reduce noise further. The fit produces a continuous function that avoids stability issues arising from supplying highly fluctuating data to the macro solver. A least-squares fit is applied to an Nth order polynomial for the velocity profile in the core region, and an Mth order polynomial for the velocity profile in the constrained region:(16)〈ui,core〉=∑k=1Nbk,iyi′(N−k),for 0⩽yi′⩽hcore, and(17)〈ui,cs〉=∑k=1Mck,iyi″(M−k),for 0⩽yi″⩽hcs, where bk,i and ck,i are the coefficients of the polynomials used in the core micro region and constrained region respectively. An estimate of the new slip velocity uB for input to the macro solution (6) is taken directly from the compressed wall micro-element solution (16), at yi′=0.
diff --git a/semeval2017/test/S0021999113005652.ann b/semeval2017/test/S0021999113005652.ann
new file mode 100644
index 0000000..203183e
--- /dev/null
+++ b/semeval2017/test/S0021999113005652.ann
@@ -0,0 +1,23 @@
+T1	Material 49 63	Schmidt number
+T2	Material 102 130	bulk-mean concentration of B
+T3	Task 21 94	quantify the effects of the Schmidt number and the chemical reaction rate
+T5	Material 233 252	degradation product
+T6	Process 270 292	acidification of water
+T7	Material 636 650	Schmidt number
+T8	Process 851 867	turbulent mixing
+T9	Material 1025 1040	Reynolds number
+T10	Process 1188 1214	aquarium chemical reaction
+T11	Process 1291 1310	practical modelling
+T12	Material 430 437	Schmidt
+T13	Material 476 504	bulk-mean concentration CB⁎¯
+T14	Material 543 571	bulk-mean concentration of B
+T4	Process 72 94	chemical reaction rate
+T15	Process 300 317	chemical reaction
+T16	Material 329 357	bulk-mean concentration of B
+T17	Process 446 468	chemical reaction rate
+T18	Process 605 627	chemical reaction rate
+T19	Material 715 745	equilibrium concentration of A
+T20	Process 807 824	chemical reaction
+T21	Process 972 989	chemical reaction
+T22	Material 1101 1116	Reynolds number
+T23	Process 1319 1331	gas exchange
diff --git a/semeval2017/test/S0021999113005652.txt b/semeval2017/test/S0021999113005652.txt
new file mode 100644
index 0000000..478cb6c
--- /dev/null
+++ b/semeval2017/test/S0021999113005652.txt
@@ -0,0 +1 @@
+It is interesting to quantify the effects of the Schmidt number and the chemical reaction rate on the bulk-mean concentration of B in water. The data could present important information on evaluating the environmental impacts of the degradation product of B, as well as acidification of water by the chemical reaction. Here, the bulk-mean concentration of B is defined by(24)CB⁎¯=∫01〈CB⁎〉(z⁎)dz⁎ Fig. 15 depicts the effect of the Schmidt and the chemical reaction rate on the bulk-mean concentration CB⁎¯. It is worth to mention here that the bulk-mean concentration of B reaches approximately 0.6 as the chemical reaction rate and the Schmidt number increase to infinite, and the concentration is smaller than the equilibrium concentration of A at the interface. This figure indicates that progress of the chemical reaction is somewhat interfered by turbulent mixing in water, and the efficiency of the chemical reaction is up to approximately 60%. The efficiency of the chemical reaction in water will be a function of the Reynolds number of the water flow, and the efficiency could increase as the Reynolds number increases. We need an extensive investigation on the efficiency of the aquarium chemical reaction in the near future to extend the results of this study further to establish practical modelling for the gas exchange between air and water.
diff --git a/semeval2017/test/S0021999113005718.ann b/semeval2017/test/S0021999113005718.ann
new file mode 100644
index 0000000..7df0283
--- /dev/null
+++ b/semeval2017/test/S0021999113005718.ann
@@ -0,0 +1,17 @@
+T1	Task 0 20	Numerical simulation
+T2	Process 28 36	gas flow
+T3	Process 134 171	conventional continuum fluid dynamics
+T4	Process 229 254	thermodynamic equilibrium
+T5	Material 349 363	channel height
+T6	Process 501 537	direct simulation Monte Carlo method
+T7	Process 539 543	DSMC
+T8	Process 559 563	DSMC
+*	Synonym-of T6 T7
+T9	Process 599 625	internal-flow applications
+T10	Material 662 679	high-aspect ratio
+T11	Material 744 761	high-aspect ratio
+T14	Process 434 477	accurate and flexible modelling alternative
+T15	Process 402 422	molecular collisions
+R1	Hyponym-of Arg1:T6 Arg2:T14	
+T16	Process 1012 1032	long channel network
+T17	Task 783 801	multiscale problem
diff --git a/semeval2017/test/S0021999113005718.txt b/semeval2017/test/S0021999113005718.txt
new file mode 100644
index 0000000..fd488da
--- /dev/null
+++ b/semeval2017/test/S0021999113005718.txt
@@ -0,0 +1 @@
+Numerical simulation of the gas flow through such non-trivial internal geometries is, however, extremely challenging. This is because conventional continuum fluid dynamics, which assumes that locally a gas is close to a state of thermodynamic equilibrium, becomes invalid or inaccurate as the smallest characteristic scale of the geometry (e.g. the channel height) approaches the mean distance between molecular collisions, λ [1]. An accurate and flexible modelling alternative for these cases is the direct simulation Monte Carlo method (DSMC) [2]. However, DSMC can be prohibitively expensive for internal-flow applications, which typically have a geometry of high-aspect ratio (i.e. are extremely long, relative to their cross-section). The high-aspect ratio creates a formidable multiscale problem: processes need to be resolved occurring over the smallest characteristic scale of the geometry (e.g. a channelʼs height), as well as over the largest characteristic scale of the geometry (e.g. the length of a long channel network), simultaneously.
diff --git a/semeval2017/test/S0021999113006955.ann b/semeval2017/test/S0021999113006955.ann
new file mode 100644
index 0000000..0770bc0
--- /dev/null
+++ b/semeval2017/test/S0021999113006955.ann
@@ -0,0 +1,34 @@
+T1	Process 32 57	high-order discretisation
+T2	Process 66 100	exponential convergence properties
+T4	Process 275 314	parametrisation of the surface elements
+T6	Process 596 611	mesh refinement
+T7	Process 615 648	higher solution polynomial orders
+T8	Process 715 730	geometric error
+T9	Material 777 800	coarse curvilinear mesh
+T11	Process 956 979	reduce this lower bound
+T14	Process 1152 1175	exponential convergence
+T15	Material 1265 1283	element boundaries
+T16	Process 1232 1283	discontinuities are aligned with element boundaries
+T17	Material 1327 1334	element
+T18	Process 1371 1394	geometric approximation
+T19	Task 1446 1461	cardiac problem
+T20	Material 820 826	meshes
+T3	Material 170 178	solution
+T21	Material 183 195	true surface
+T22	Material 298 314	surface elements
+T5	Material 390 406	smooth solutions
+T23	Process 678 702	geometry parametrisation
+T24	Task 736 755	analytic test cases
+R1	Hyponym-of Arg1:T9 Arg2:T20	
+T25	Material 890 898	solution
+T10	Material 987 995	solution
+T12	Material 1010 1018	solution
+T13	Material 1098 1106	solution
+T26	Material 1484 1496	true surface
+T27	Material 1501 1509	solution
+T28	Material 1406 1418	true surface
+T29	Material 1126 1138	true surface
+T30	Process 866 898	capture features in the solution
+T31	Process 918 938	capture the geometry
+T32	Material 1181 1182	P
+T33	Material 1187 1189	Pg
diff --git a/semeval2017/test/S0021999113006955.txt b/semeval2017/test/S0021999113006955.txt
new file mode 100644
index 0000000..b72502c
--- /dev/null
+++ b/semeval2017/test/S0021999113006955.txt
@@ -0,0 +1 @@
+The test cases confirm that the high-order discretisation retains exponential convergence properties with increasing geometric and expansion polynomial order if both the solution and true surface are smooth. Errors are found to saturate when the geometric errors, due to the parametrisation of the surface elements, begin to dominate the temporal and spatial discretisation errors. For the smooth solutions considered as test cases, the results show that this dominance of geometric errors quickly limits the effectiveness of further increases in the number of degrees of freedom, either through mesh refinement or higher solution polynomial orders. Increasing the order of the geometry parametrisation reduces the geometric error. The analytic test cases presented here use a coarse curvilinear mesh; for applications, meshes are typically more refined in order to capture features in the solution and so will better capture the geometry and consequently reduce this lower bound on the solution error. If the solution is not smooth, we do not expect to see rapid convergence. In the case that the solution is smooth, but the true surface is not, then exponential convergence with P and Pg can only be achieved if, and only if, the discontinuities are aligned with element boundaries. However, if discontinuities lie within an element, convergence will be limited by the geometric approximation, since the true surface cannot be captured. In the cardiac problem, we consider both the true surface and solution to be smooth.
diff --git a/semeval2017/test/S0021999116303291.ann b/semeval2017/test/S0021999116303291.ann
new file mode 100644
index 0000000..6785da3
--- /dev/null
+++ b/semeval2017/test/S0021999116303291.ann
@@ -0,0 +1,37 @@
+T1	Process 0 3	DPD
+T2	Process 61 69	isotropy
+T3	Process 75 94	Galilean invariance
+T4	Process 130 150	lattice-gas automata
+T5	Material 198 221	coarse-grained particle
+T6	Process 437 454	Langevin dynamics
+T7	Process 458 468	thermostat
+T8	Process 711 727	angular momentum
+T9	Process 736 751	linear momentum
+T10	Process 849 876	profile-unbiased thermostat
+T11	Process 878 881	PUT
+*	Synonym-of T11 T10
+T12	Task 944 984	nonequilibrium molecular dynamics (NEMD)
+T13	Process 944 977	nonequilibrium molecular dynamics
+T14	Process 979 983	NEMD
+*	Synonym-of T14 T13
+T15	Task 1233 1293	recover thermodynamic, dynamical, and rheological properties
+T16	Material 1297 1311	complex fluids
+T19	Process 1521 1538	polymeric systems
+T20	Process 166 169	DPD
+T21	Process 352 354	MD
+T22	Process 574 591	Langevin dynamics
+T23	Process 769 788	Galilean invariance
+T24	Process 800 835	dependence on the relative velocity
+R1	Hyponym-of Arg1:T24 Arg2:T23	
+T25	Process 843 846	DPD
+T26	Process 1123 1126	DPD
+T27	Process 1205 1208	DPD
+T28	Process 1438 1441	DPD
+T29	Process 1465 1482	Langevin dynamics
+T18	Material 1334 1351	polymer solutions
+T30	Material 1358 1379	colloidal suspensions
+T17	Material 1386 1402	multiphase flows
+T31	Material 1413 1431	biological systems
+T32	Material 229 238	particles
+T33	Material 1606 1614	polymers
+T34	Process 1578 1598	dynamic fluctuations
diff --git a/semeval2017/test/S0021999116303291.txt b/semeval2017/test/S0021999116303291.txt
new file mode 100644
index 0000000..add9f66
--- /dev/null
+++ b/semeval2017/test/S0021999116303291.txt
@@ -0,0 +1 @@
+DPD was first proposed in order to recover the properties of isotropy (and Galilean invariance) that were broken in the so-called lattice-gas automata method [5]. In DPD, each body is regarded as a coarse-grained particle. These particles interact in a soft (and short-ranged) potential, allowing larger integration timesteps than would be possible in MD, while simultaneously decreasing the number of degrees of freedom required. As in Langevin dynamics, a thermostat consisting of well-balanced damping and stochastic terms is applied to each particle. However, unlike in Langevin dynamics, both terms are pairwise and the damping term is based on relative velocities, leading to the conservation of both the angular momentum and the linear momentum. The property of Galilean invariance (i.e., the dependence on the relative velocity) makes DPD a profile-unbiased thermostat (PUT) [6,7] by construction and thus it is an ideal thermostat for nonequilibrium molecular dynamics (NEMD) [8]. The momentum is expected to propagate locally (while global momentum is conserved) and thus the correct hydrodynamics is expected in DPD [8], as demonstrated previously in [9]. Due to the aforementioned properties, DPD has been widely used to recover thermodynamic, dynamical, and rheological properties of complex fluids, with applications in polymer solutions [10], colloidal suspensions [11], multiphase flows [12], and biological systems [13]. DPD has been compared with Langevin dynamics for out-of-equilibrium simulations of polymeric systems in [14], where as expected the correct dynamic fluctuations of the polymers were obtained with the former but not with the latter.
diff --git a/semeval2017/test/S0032386107010518.ann b/semeval2017/test/S0032386107010518.ann
new file mode 100644
index 0000000..752218a
--- /dev/null
+++ b/semeval2017/test/S0032386107010518.ann
@@ -0,0 +1,30 @@
+T1	Material 120 139	functional polymers
+T2	Task 260 286	macromolecular engineering
+T3	Process 295 309	polymerization
+T4	Material 420 439	telechelic polymers
+T5	Material 446 478	polymers with defined chain-ends
+R1	Hyponym-of Arg1:T4 Arg2:T5	
+T6	Process 531 567	atom transfer radical polymerization
+T7	Process 579 584	CuAAC
+T8	Material 0 39	Copper-catalyzed Huisgen cycloadditions
+T9	Process 569 573	ATRP
+*	Synonym-of T6 T9
+T10	Process 1255 1280	nucleophilic substitution
+T11	Material 1245 1251	azides
+T12	Material 1322 1329	alkynes
+T13	Material 1471 1492	ω-functional polymers
+T14	Material 1515 1529	triazole rings
+T16	Task 107 139	synthesis of functional polymers
+T17	Material 214 232	synthetic polymers
+T18	Process 750 754	ATRP
+T19	Process 773 787	polymerization
+T20	Process 840 844	ATRP
+T21	Process 1113 1117	ATRP
+T22	Process 1146 1151	CuAAC
+T23	Process 1388 1393	CuAAC
+T24	Process 1216 1220	ATRP
+R2	Hyponym-of Arg1:T18 Arg2:T19	
+T25	Process 885 921	preparation of well-defined polymers
+T26	Material 913 921	polymers
+T27	Material 1171 1203	ω-bromine chain-ends of polymers
+T15	Process 1593 1600	H-bonds
diff --git a/semeval2017/test/S0032386107010518.txt b/semeval2017/test/S0032386107010518.txt
new file mode 100644
index 0000000..5bc2d2d
--- /dev/null
+++ b/semeval2017/test/S0032386107010518.txt
@@ -0,0 +1 @@
+Copper-catalyzed Huisgen cycloadditions have been recently extensively studied by polymer chemists for the synthesis of functional polymers (either end-functional or side-functional). The post-functionalization of synthetic polymers is an important feature of macromolecular engineering as many polymerization mechanisms are rather sensitive to the presence of bulky or functional groups. For example, a wide variety of telechelic polymers (i.e. polymers with defined chain-ends) can be efficiently prepared using a combination of atom transfer radical polymerization (ATRP) and CuAAC. This strategy was independently reported in early 2005 by van Hest and Opsteen [31], Lutz et al. [32], and Matyjaszewski et al. [33]. Such step was important since ATRP is a very popular polymerization method in modern materials science [34,35]. Indeed, ATRP is a facile technique, which allows the preparation of well-defined polymers with narrow molecular weight distribution, predictable chain length, controlled microstructure, defined chain-ends and controlled architecture [36–41]. However, the range of possibilities of ATRP can be further broadened by CuAAC. For instance, the ω-bromine chain-ends of polymers prepared by ATRP can be transformed into azides by nucleophilic substitution and subsequently reacted with functional alkynes (Scheme 3) [32]. Due to the very high chemoselectivity of CuAAC, this method is highly modular and may be used to synthesize a wide range of ω-functional polymers. Moreover, the formed triazole rings are not “passive” spacers but interesting functions exhibiting H-bonds capability, aromaticity and rigidity.
diff --git a/semeval2017/test/S0032386108009397.ann b/semeval2017/test/S0032386108009397.ann
new file mode 100644
index 0000000..af55a16
--- /dev/null
+++ b/semeval2017/test/S0032386108009397.ann
@@ -0,0 +1,33 @@
+T2	Process 4 25	viscoelastic behavior
+T3	Material 29 39	elastomers
+T1	Task 111 158	characterize the dynamics of the polymer chains
+T5	Process 483 501	constraint release
+T4	Material 344 357	polymer melts
+T6	Task 659 683	control of the mesh size
+T7	Material 144 158	polymer chains
+T8	Material 893 909	precursor chains
+T11	Material 284 297	polymer chain
+T12	Material 596 618	crosslinked elastomers
+T13	Material 969 984	PDMS elastomers
+T14	Material 1014 1018	PDMS
+T15	Material 1051 1068	unattached chains
+T16	Material 1070 1072	Mg
+T17	Material 1082 1094	network mesh
+T18	Material 1096 1098	Mx
+*	Synonym-of T15 T16
+*	Synonym-of T17 T18
+T19	Material 1561 1582	chemical cross-links.
+T20	Material 194 208	Polymer chains
+T21	Material 461 472	probe chain
+T22	Material 730 734	mesh
+T23	Material 864 868	mesh
+T24	Material 1198 1202	PDMS
+T9	Process 1160 1165	Mx>Me
+T10	Process 1170 1175	Mx<Me
+T25	Process 1282 1287	Mx>Me
+T26	Process 1292 1297	Mx<Me
+T27	Process 1322 1324	NL
+T28	Process 1329 1331	NS
+*	Synonym-of T25 T27
+*	Synonym-of T26 T28
+T29	Material 1454 1458	mesh
diff --git a/semeval2017/test/S0032386108009397.txt b/semeval2017/test/S0032386108009397.txt
new file mode 100644
index 0000000..9589c36
--- /dev/null
+++ b/semeval2017/test/S0032386108009397.txt
@@ -0,0 +1 @@
+The viscoelastic behavior of elastomers containing small amounts of unattached chains has been investigated to characterize the dynamics of the polymer chains trapped in fixed networks [66–68]. Polymer chains trapped in fixed networks constitute a simpler system for the study of the polymer chain dynamics than the corresponding uncrosslinked polymer melts. This is because the complicated effect of the motion of the surrounding chains on the dynamics of the probe chain – called “constraint release” [69] – is absent in the fixed network systems. Most of the earlier studies employed randomly crosslinked elastomers as host networks. In this case, precise control of the mesh size of the host networks is not possible, and the mesh size has a broad distribution. The end-linking systems give the host networks a more uniform mesh size, and they can control the mesh size by the size of the precursor chains. We investigated the dynamic viscoelasticity of end-linked PDMS elastomers containing unattached linear PDMS as functions of the size of the unattached chains (Mg) and the network mesh (Mx) (Fig. 9a) [70]. We employed two types of host networks with Mx>Me and Mx<Me where Me (≈10,000 for PDMS) is the molecular mass between adjacent entanglements in the molten state. The Mx>Me and Mx<Me networks (designated as NL and NS, respectively) were designed by end-linking the long (Mn=84,000) and short precursor chains (Mn=4,550), respectively. The mesh of the NL networks is dominated by trapped entanglements, while that of the NS network is governed by chemical cross-links.
diff --git a/semeval2017/test/S0032386109001463.ann b/semeval2017/test/S0032386109001463.ann
new file mode 100644
index 0000000..d15c33f
--- /dev/null
+++ b/semeval2017/test/S0032386109001463.ann
@@ -0,0 +1,11 @@
+T1	Material 34 48	polymer chains
+T2	Material 97 111	star molecules
+T3	Material 547 555	polygons
+T4	Material 581 615	three interfaces, A/B, B/C and C/A
+T5	Process 703 716	chain entropy
+T6	Process 921 941	diagonal bond method
+T7	Process 949 971	Monte Carlo Simulation
+T8	Material 1100 1124	three-branched molecules
+T9	Process 1142 1162	even polygon theorem
+R1	Hyponym-of Arg1:T7 Arg2:T6	
+T10	Material 489 498	cylinders
diff --git a/semeval2017/test/S0032386109001463.txt b/semeval2017/test/S0032386109001463.txt
new file mode 100644
index 0000000..4a8baa1
--- /dev/null
+++ b/semeval2017/test/S0032386109001463.txt
@@ -0,0 +1 @@
+When incompatible three component polymer chains are tethered at a junction point, the resultant star molecules of the ABC type are in a very frustrated field in bulk. That is, their junction points cannot be aligned on two-dimensional planes but on one-dimensional lines, as schematically shown in Fig. 1. Furthermore, when the chain length difference is not so large, the array of junction points tends to be straight and long one. Consequently each domain with mesoscopic sizes becomes cylinders, and their cross sections could be conformed by polygons [28,29]. This is because three interfaces, A/B, B/C and C/A are likely to be flat since there exist no junction points at interfaces and therefore chain entropy contribution to the free energy of structure formation is considerably small comparing with regular block and graft copolymer systems. As a matter of fact, Dotera predicted several tiling patterns by the diagonal bond method, a new Monte Carlo Simulation [30], while Gemma and Dotera pointed out that only three regular tilings, i.e., (6.6.6), (4.8.8) and (4.6.12) are permitted for three-branched molecules proposed as the “even polygon theorem” [31].
diff --git a/semeval2017/test/S0032386109003991.ann b/semeval2017/test/S0032386109003991.ann
new file mode 100644
index 0000000..5c9caab
--- /dev/null
+++ b/semeval2017/test/S0032386109003991.ann
@@ -0,0 +1,22 @@
+T1	Task 696 734	production of anionic polystyrene (PS)
+T2	Process 9 23	polymerization
+T3	Material 710 729	anionic polystyrene
+T4	Material 730 733	(PS
+*	Synonym-of T3 T4
+T5	Process 203 214	propagation
+T6	Task 343 376	industrial styrene polymerization
+T7	Process 960 983	alkyllithium initiators
+T8	Process 1146 1179	anionic polymerization of styrene
+T9	Material 1198 1205	solvent
+T10	Process 1444 1470	propagating active species
+T11	Material 601 620	anionic polystyrene
+T12	Process 59 70	termination
+T13	Process 113 131	monomer conversion
+T14	Material 225 233	polymers
+T15	Material 519 543	low molar mass oligomers
+T16	Process 798 812	polymerization
+T17	Process 417 424	washing
+T18	Process 428 437	degassing
+T19	Material 926 942	organic solvents
+T20	Process 29 37	reaction
+R1	Hyponym-of Arg1:T2 Arg2:T20	
diff --git a/semeval2017/test/S0032386109003991.txt b/semeval2017/test/S0032386109003991.txt
new file mode 100644
index 0000000..59c3d98
--- /dev/null
+++ b/semeval2017/test/S0032386109003991.txt
@@ -0,0 +1 @@
+A living polymerization is a reaction without transfer and termination reactions that can proceed up to complete monomer conversion. In addition, when initiation is quantitative and fast compared to the propagation reaction, polymers with precisely controlled chain length and narrow molar mass distribution can be obtained. In the case of an industrial styrene polymerization this would permit to avoid any specific washing or degassing steps, which are necessary in the radical process to remove residual monomer and low molar mass oligomers. Since head-to-head defects along the chains are absent, anionic polystyrene would exhibit also a better thermal stability than radical one. Therefore, production of anionic polystyrene (PS) would be of interest if the conditions required to control the polymerization could be adapted to the market and be able to compete economically with industrial radical processes. The use of organic solvents and of expensive alkyllithium initiators, as well as the relatively low reaction temperatures required, was some important limitation to overcome. The possibilities to achieve a quantitative living-like anionic polymerization of styrene in the absence of solvent and at elevated temperature, using inexpensive initiating systems, were the main targets identified to tremendously decrease the cost of the anionic process. This implied at first to control the reactivity and stability of initiating and propagating active species in such unusual operating conditions.
diff --git a/semeval2017/test/S0032386109005357.ann b/semeval2017/test/S0032386109005357.ann
new file mode 100644
index 0000000..e62dadc
--- /dev/null
+++ b/semeval2017/test/S0032386109005357.ann
@@ -0,0 +1,38 @@
+T1	Material 57 66	polyester
+T2	Process 96 112	polycondensation
+T3	Material 133 150	dimethyl malonate
+T4	Material 155 169	1,4-butanediol
+T5	Material 245 258	l-lactic acid
+T6	Material 349 367	polyester oligomer
+T7	Material 429 442	PLCA oligomer
+T8	Material 460 479	dihydroxylated PLLA
+T9	Material 510 540	PLCA–PLLA multiblock copolymer
+T10	Material 572 579	lipases
+T11	Process 611 638	ring-opening polymerization
+T12	Process 640 643	ROP
+*	Synonym-of T11 T12
+T13	Material 648 669	cyclic ester monomers
+T14	Process 741 757	polycondensation
+T15	Process 815 831	enzyme-catalyzed
+T16	Material 918 945	hydroxyl-bearing polyesters
+T17	Process 975 991	copolymerization
+T18	Material 995 1010	divinyl adipate
+T19	Process 1108 1125	copolymerizations
+T20	Material 1129 1143	1,8-octanediol
+T21	Material 1211 1226	α-hydroxy acids
+T22	Process 1301 1317	polycondensation
+T23	Material 1373 1397	Biodegradable polyesters
+T24	Material 297 335	poly[(l-lactic acid)-co-(citric acid)]
+T25	Material 727 737	polyesters
+T26	Material 1173 1181	alditols
+T27	Material 1344 1352	monomers
+T28	Material 1024 1030	triols
+T29	Material 1240 1251	amino acids
+T30	Process 225 241	polycondensation
+T31	Material 263 274	citric acid
+T32	Material 1037 1045	glycerol
+T33	Material 1047 1064	1,2,4-butanetriol
+R1	Hyponym-of Arg1:T32 Arg2:T28	
+R2	Hyponym-of Arg1:T33 Arg2:T28	
+T34	Material 1149 1160	adipic acid
+T35	Material 1286 1297	lactic acid
diff --git a/semeval2017/test/S0032386109005357.txt b/semeval2017/test/S0032386109005357.txt
new file mode 100644
index 0000000..85ff7ea
--- /dev/null
+++ b/semeval2017/test/S0032386109005357.txt
@@ -0,0 +1 @@
+A hydroxyl-functionalized poly(butylene succinate) based polyester was prepared by conventional polycondensation of benzyl-protected dimethyl malonate and 1,4-butanediol (Scheme 2(a)) [24a]. Yao et al. reported on the direct polycondensation of l-lactic acid and citric acid with the formation of poly[(l-lactic acid)-co-(citric acid)], obtaining a polyester oligomer with both pendant carboxylic and hydroxyl groups [24b]. This PLCA oligomer was reacted with dihydroxylated PLLA as a macromonomer, yielding a PLCA–PLLA multiblock copolymer as shown in Scheme 2(b). While lipases have been investigated for the ring-opening polymerization (ROP) of cyclic ester monomers [25,26], they have also been used for the preparation of polyesters by polycondensation reactions. The advantage of this technique is that these enzyme-catalyzed reactions proceed without protection of the pendant functional groups. In this field, hydroxyl-bearing polyesters have been synthesized by the copolymerization of divinyl adipate with various triols (e.g. glycerol, 1,2,4-butanetriol) as represented in Scheme 2(c) [27] and by copolymerizations of 1,8-octanediol with adipic acid and several alditols [28]. Very recently, several α-hydroxy acids derived from amino acids were homo- and copolymerized with lactic acid by polycondensation in bulk without protected monomers (Scheme 2(d)) [29]. Biodegradable polyesters with various pendant groups were obtained, although the molecular weights remained low (1000–3000gmol−1).
diff --git a/semeval2017/test/S0032386110001254.ann b/semeval2017/test/S0032386110001254.ann
new file mode 100644
index 0000000..274fd93
--- /dev/null
+++ b/semeval2017/test/S0032386110001254.ann
@@ -0,0 +1,45 @@
+T1	Process 49 65	hydrogen bonding
+T2	Process 74 84	alkylation
+T3	Material 137 154	imidazolium salts
+T4	Material 239 256	Imidazolium salts
+T5	Material 277 287	metal ions
+T6	Process 441 477	atom transfer radical polymerization
+T7	Process 479 483	ATRP
+*	Synonym-of T6 T7
+T8	Material 320 339	metal nanoparticles
+T9	Process 386 409	polyelectrolyte brushes
+T11	Material 954 968	Hydrogels form
+T12	Task 1141 1163	bioactive applications
+T13	Process 1318 1341	Separation applications
+T14	Material 1384 1401	Imidazolium salts
+T15	Process 1410 1427	vesicle formation
+T16	Process 1495 1514	polymeric actuators
+T17	Material 610 626	imidazolium salt
+T18	Material 1229 1244	antiarrhythmics
+T19	Material 293 310	aqueous solutions
+T20	Material 355 368	carbohydrates
+T21	Process 930 947	biocidal activity
+T22	Material 974 1023	polymerized methylimidazolium-based ionic liquids
+T23	Task 1176 1198	bioactive applications
+T24	Material 1203 1220	imidazolium salts
+T25	Material 1431 1454	imidazolium surfactants
+T10	Material 801 853	1-alkyl-2-methyl-3-hydroxyethylimidazolium chlorides
+T26	Material 859 896	N-alkyl-N-hydroxyethylpyrrolidinonium
+T27	Material 503 564	poly(1-ethyl 3-(2-methacryloyloxy ethyl) imidazolium chloride
+T28	Process 662 682	antimicrobial action
+T29	Material 749 786	1-Alkyl-3-methylimidazolium chlorides
+T30	Material 791 799	bromides
+T31	Process 108 133	electrostatic aggregation
+T32	Material 724 739	liquid crystals
+T33	Material 579 592	gold surfaces
+T34	Material 1029 1044	acryloyl groups
+T35	Material 1050 1057	polymer
+T36	Material 1251 1271	anti-metastic agents
+T37	Material 1285 1311	imidazolium-based steroids
+R1	Hyponym-of Arg1:T18 Arg2:T24	
+R2	Hyponym-of Arg1:T36 Arg2:T24	
+R3	Hyponym-of Arg1:T37 Arg2:T24	
+T38	Material 1374 1377	CO2
+T39	Process 1350 1377	efficient absorption of CO2
+R4	Hyponym-of Arg1:T39 Arg2:T13	
+T40	Material 1078 1096	organized lamellae
diff --git a/semeval2017/test/S0032386110001254.txt b/semeval2017/test/S0032386110001254.txt
new file mode 100644
index 0000000..dd2a36b
--- /dev/null
+++ b/semeval2017/test/S0032386110001254.txt
@@ -0,0 +1 @@
+Despite the loss of directed, self-complementary hydrogen bonding through alkylation of the imidazole ring, electrostatic aggregation of imidazolium salts is a tunable, self-assembly process, which is instrumental to several applications. Imidazolium salts are used to extract metal ions from aqueous solutions and coat metal nanoparticles [15], dissolve carbohydrates [16], and create polyelectrolyte brushes on surfaces [17]. For example, atom transfer radical polymerization (ATRP) was used to graft poly(1-ethyl 3-(2-methacryloyloxy ethyl) imidazolium chloride) brushes onto gold surfaces [17]. One of the imidazolium salt’s most promising attributes is its antimicrobial action [12,18] and molecular self-assembly into liquid crystals [19,20]. 1-Alkyl-3-methylimidazolium chlorides and bromides, 1-alkyl-2-methyl-3-hydroxyethylimidazolium chlorides, and N-alkyl-N-hydroxyethylpyrrolidinonium, for example, all exhibit strong biocidal activity [18]. Hydrogels form from polymerized methylimidazolium-based ionic liquids with acryloyl groups; the polymer self-assembles into organized lamellae with unique swelling properties, leading to bioactive applications [19]. Other bioactive applications for imidazolium salts include antiarrhythmics [21], anti-metastic agents [22,23], and imidazolium-based steroids [24]. Separation applications include efficient absorption of CO2 [25]. Imidazolium salts enhance vesicle formation as imidazolium surfactants [26], and they also find application in polymeric actuators [27].
diff --git a/semeval2017/test/S0039602899010493.ann b/semeval2017/test/S0039602899010493.ann
new file mode 100644
index 0000000..1b85646
--- /dev/null
+++ b/semeval2017/test/S0039602899010493.ann
@@ -0,0 +1,23 @@
+T1	Material 306 322	adsorbed species
+T2	Material 286 301	surface defects
+T3	Process 815 840	density functional theory
+T4	Process 842 845	DFT
+T5	Process 662 679	density of states
+T6	Process 681 684	DOS
+*	Synonym-of T3 T4 T20
+*	Synonym-of T5 T6
+T7	Material 470 482	MIES spectra
+T8	Process 585 604	Auger de-excitation
+T9	Material 614 626	MIES spectra
+T10	Process 762 781	Hartree–Fock method
+T11	Process 37 39	AD
+T12	Process 215 217	AD
+T13	Process 1062 1065	DOS
+T14	Process 1135 1138	DOS
+T15	Material 1354 1358	MIES
+T16	Process 1497 1500	DOS
+T17	Process 1101 1114	AD transition
+T18	Material 703 722	surface oxygen ions
+T19	Process 787 799	crystal code
+*	Synonym-of T10 T19
+T20	Process 859 869	cetep code
diff --git a/semeval2017/test/S0039602899010493.txt b/semeval2017/test/S0039602899010493.txt
new file mode 100644
index 0000000..5896651
--- /dev/null
+++ b/semeval2017/test/S0039602899010493.txt
@@ -0,0 +1 @@
+Although the basic mechanisms of the AD process are reasonably well understood, it has not proved simple to apply existing theories to the interpretation of experimental data. What is needed is a combination of the AD theory and the electronic structure of realistic systems, including surface defects and adsorbed species. Such electronic structure calculations are still complex and time-consuming. In many cases, especially for insulating surfaces, attempts to model MIES spectra use simple or intuitive models. In Refs. [4,6,23] it is assumed that the main transition mechanism is Auger de-excitation, and the MIES spectra have been simulated by the surface density of states (DOS) projected on the surface oxygen ions of the uppermost surface layer using a Hartree–Fock method (the crystal code [24,25]) and a density functional theory (DFT) method (the cetep code [26]). The effect of the overlap between the surface and He(1s) wavefunctions was taken into account only approximately by applying an additional z-dependent exponential factor to the surface DOS. Other workers [5,6] estimated the AD transition probability using a DOS projected on to the projectile 1s atomic orbital. However, they were not able to use state-of-the-art methods for the surface electronic structure. Yet the success of the simplified treatments [4–6], especially for MIES features such as relative energies of the different peaks, suggests that real spectra are indeed related to the projection of the surface DOS on to the projectile orbital.
diff --git a/semeval2017/test/S0098300413002124.ann b/semeval2017/test/S0098300413002124.ann
new file mode 100644
index 0000000..78088e9
--- /dev/null
+++ b/semeval2017/test/S0098300413002124.ann
@@ -0,0 +1,24 @@
+T1	Task 69 117	describe the geodetic data transformation method
+T2	Material 215 235	terrain digital data
+T3	Process 28 51	terrain data processing
+T4	Process 260 308	fine-resolution (3″ or finer) terrain data bases
+T5	Process 317 321	SRTM
+T6	Process 323 358	Shuttle Radar Topographical Mission
+T7	Process 375 398	Digital Elevation Model
+T8	Process 370 373	DEM
+*	Synonym-of T5 T6
+*	Synonym-of T8 T7
+R1	Hyponym-of Arg1:T5 Arg2:T4	
+R2	Hyponym-of Arg1:T8 Arg2:T4	
+T9	Process 462 509	fine-scale (meters up to 100m) atmospheric flow
+T10	Material 931 936	WGS84
+T11	Material 938 962	World Geodetic System 84
+*	Synonym-of T10 T11
+T12	Material 1071 1089	East, North and Up
+T13	Material 1091 1094	ENU
+*	Synonym-of T12 T13
+T14	Material 1239 1266	Cartesian coordinate system
+T15	Process 610 614	SRTM
+T16	Process 1025 1029	3DWF
+T17	Process 799 803	SRTM
+T18	Process 1131 1135	3DWF
diff --git a/semeval2017/test/S0098300413002124.txt b/semeval2017/test/S0098300413002124.txt
new file mode 100644
index 0000000..6e80b7a
--- /dev/null
+++ b/semeval2017/test/S0098300413002124.txt
@@ -0,0 +1 @@
+In this section, we use the terrain data processing as an example to describe the geodetic data transformation method. Since Google Maps/Earth server only gives the terrain data in graphical display, we have to get terrain digital data from other sources. The fine-resolution (3″ or finer) terrain data bases such as SRTM (Shuttle Radar Topographical Mission) or USGS's DEM (Digital Elevation Model) data are necessary. Moreover, since 3DWF is used to model the fine-scale (meters up to 100m) atmospheric flow, it needs fine resolution terrain data. In this project, we use the terrain elevation data set from SRTM (Farr et al. 2007) with 3-arcsecond (~90m resolution at the equator) resolution. The data covers the land area, nearly global from 56S to 60N latitudes. We use the processed version 4 SRTM data set as described in Gamache (2005) in which some of the missing data holes were filled. The original data is organized in WGS84 (World Geodetic System 84) geodetic coordinate system. When the data are applied to the 3DWF model, they are transformed to the local East, North and Up (ENU) coordinate (see Fig. 3). Since the 3DWF is a fine scale wind model and its entire model domain is not intended to be larger than 20×20km, this Cartesian coordinate system is a good choice with very little distortion due to the curvature of the Earth's surface. The transformation from the WGS84 data to the ENU coordinate is performed as follows (Fukushima, 2006; Featherstone and Claessens, 2008).
diff --git a/semeval2017/test/S0098300414000259.ann b/semeval2017/test/S0098300414000259.ann
new file mode 100644
index 0000000..39f5958
--- /dev/null
+++ b/semeval2017/test/S0098300414000259.ann
@@ -0,0 +1,22 @@
+T1	Process 38 57	MapReduce workflows
+T2	Process 0 10	Apache Pig
+T3	Material 104 127	directed acyclic graphs
+T4	Material 129 133	DAGs
+*	Synonym-of T3 T4
+T5	Process 242 251	Pig Latin
+T6	Process 474 496	user-defined functions
+T7	Process 498 502	UDFs
+*	Synonym-of T6 T7
+T8	Task 744 758	DAG processing
+T9	Material 825 831	Hadoop
+T10	Process 878 887	MapReduce
+T11	Process 541 544	Pig
+T12	Material 889 900	Pig scripts
+T13	Process 975 989	Java MapReduce
+T14	Process 226 235	MapReduce
+T15	Material 63 69	Hadoop
+T16	Process 433 447	SQL operations
+T17	Process 358 361	SQL
+T18	Process 449 452	Pig
+T19	Process 709 718	MapReduce
+T20	Material 670 676	Hadoop
diff --git a/semeval2017/test/S0098300414000259.txt b/semeval2017/test/S0098300414000259.txt
new file mode 100644
index 0000000..9a602be
--- /dev/null
+++ b/semeval2017/test/S0098300414000259.txt
@@ -0,0 +1 @@
+Apache Pig is a platform for creating MapReduce workflows with Hadoop. These workflows are expressed as directed acyclic graphs (DAGs) of tasks that exist at a conceptually higher level than their implementations as series of MapReduce jobs. Pig Latin is the procedural language used for building these workflows, providing syntax similar to the declarative SQL commonly used for relational database systems. In addition to standard SQL operations, Pig can be extended with user-defined functions (UDFs) commonly written in Java. We adopted Pig for our implementation of the correlator to speed up development time, allow for ad hoc workflow changes, and to embrace the Hadoop community׳s migration away from MapReduce towards more generalized DAG processing (Mayer, 2013). Specifically, in the event that future versions of Hadoop are optimized to support paradigms other than MapReduce, Pig scripts could take advantage of these advances without recoding, whereas explicit Java MapReduce jobs would need to be rewritten.
diff --git a/semeval2017/test/S0098300414002532.ann b/semeval2017/test/S0098300414002532.ann
new file mode 100644
index 0000000..0b4dca8
--- /dev/null
+++ b/semeval2017/test/S0098300414002532.ann
@@ -0,0 +1,16 @@
+T1	Process 316 330	manual editing
+T2	Task 0 62	The threshold values for removing large caters were determined
+T3	Process 644 673	Tools for Graphics and Shapes
+T4	Material 1039 1043	MOLA
+T5	Material 1122 1126	MOLA
+T6	Material 1211 1215	MOLA
+T7	Material 1307 1311	DEMs
+T8	Material 1444 1448	DEMs
+T9	Process 972 983	PBTH method
+T10	Material 1071 1075	MOLA
+T11	Material 1101 1105	HRSC
+T12	Material 1356 1359	DEM
+T13	Material 1048 1052	HRSC
+T14	Material 1155 1159	HRSC
+T15	Material 1369 1373	HRSC
+T16	Material 1388 1392	MOLA
diff --git a/semeval2017/test/S0098300414002532.txt b/semeval2017/test/S0098300414002532.txt
new file mode 100644
index 0000000..6a8bfb6
--- /dev/null
+++ b/semeval2017/test/S0098300414002532.txt
@@ -0,0 +1 @@
+The threshold values for removing large caters were determined by examining the craters within the study area, referencing previous studies (Molloy and Stepinski, 2007), and some trial and error. After the parameter values are determined, the rest of the process is automated. However, we do anticipate some minimum manual editing may be needed in some complicated terrains when apply it to all of Mars. To minimize the distortion resulted from map projection on global datasets, we will choose an equal area projection by evaluating the options suggested in Steinwand et al. (1995) or conduct geodesic area calculation using software such as “Tools for Graphics and Shapes” (http://www.jennessent.com/arcgis/shapes_graphics.htm)Although post-formational modification to the valleys may be minimum (Williams and Phillips, 2001), there may nonetheless be modifications such as eolian fill and mass wasting (e.g., Grant et al., 2008). Thus the volume estimates derived with PBTH method represents a lower bound. Comparing the estimates from MOLA and HRSC data reveals that MOLA estimate is about 91% of HRSC value. However, MOLA has global coverage whereas HRSC does not. Therefore, for areas where there is only MOLA coverage, the estimate may be scaled upward by 1.1 times. The algorithm has been tested on DEMs with various resolutions (2 m for simulated DEM, 75m for HRSC, and 463m for MOLA). It can certainly be applied to higher resolution DEMs for Mars when they become available, but the threshold values will need to be adjusted.
diff --git a/semeval2017/test/S0166361516300926.ann b/semeval2017/test/S0166361516300926.ann
new file mode 100644
index 0000000..1522187
--- /dev/null
+++ b/semeval2017/test/S0166361516300926.ann
@@ -0,0 +1,9 @@
+T1	Material 80 91	ERP modules
+T2	Process 717 734	hybrid ERP system
+T3	Process 832 858	Enterprise Social Software
+T4	Process 860 863	ESS
+*	Synonym-of T3 T4
+T5	Process 1391 1408	hybrid ERP system
+T6	Process 188 198	ERP system
+T7	Process 790 806	ERP installation
+T8	Process 941 951	ERP system
diff --git a/semeval2017/test/S0166361516300926.txt b/semeval2017/test/S0166361516300926.txt
new file mode 100644
index 0000000..3a875c6
--- /dev/null
+++ b/semeval2017/test/S0166361516300926.txt
@@ -0,0 +1 @@
+This research traces the implementation of an information system in the form of ERP modules covering tenant and contract management in a Chinese service company. Misalignments between the ERP system specification and user needs led to the adoption of informal processes within the organisation. These processes are facilitated within an informal organisational structure and are based on human interactions undertaken within the formal organisation. Rather than to attempt to suppress the emergence of the informal organisation the company decided to channel the energies of staff involved in informal processes towards organisational goals. The company achieved this by harnessing the capabilities of what we term a hybrid ERP system, combining the functionality of a traditional (formal) ERP installation with the capabilities of Enterprise Social Software (ESS). However the company recognised that the successful operation of the hybrid ERP system would require a number of changes in organisational design in areas such as reporting structures and communication channels. A narrative provided by interviews with company personnel is thematised around the formal and informal characteristics of the organisation as defined in the literature. This leads to a definition of the characteristics of the hybrid organisation and strategies for enabling a hybrid organisation, facilitated by a hybrid ERP system, which directs formal and informal behaviour towards organisational goals and provides a template for future hybrid implementations.
diff --git a/semeval2017/test/S0168365912007560.ann b/semeval2017/test/S0168365912007560.ann
new file mode 100644
index 0000000..823c340
--- /dev/null
+++ b/semeval2017/test/S0168365912007560.ann
@@ -0,0 +1,35 @@
+T1	Task 26 80	whether carbohydrate coupling increased antigen uptake
+T2	Process 92 124	C-type lectin receptor targeting
+T3	Material 141 149	antigens
+T4	Material 168 182	pHrodo Red dye
+T5	Material 184 194	Invitrogen
+R1	Hyponym-of Arg1:T5 Arg2:T4	
+T6	Process 221 231	fluoresces
+T7	Material 287 296	endosomes
+T8	Material 369 386	neoglycocomplexes
+T9	Material 393 428	bone marrow derived dendritic cells
+T10	Material 430 435	BMDCs
+*	Synonym-of T9 T10
+T11	Material 472 507	mannan-conjugates MN–Ova and MN–Pap
+T12	Process 459 468	ingestion
+T13	Task 568 596	intradermal needle-injection
+T14	Process 717 730	FACS analysis
+T15	Material 911 933	pHrodo-labeled antigen
+T16	Material 1003 1023	pHrodo+MHCIIhigh DCs
+T17	Material 1248 1265	CD8α−/pHrodo+ DCs
+T18	Process 1558 1579	intradermal injection
+T19	Material 863 867	CD8α
+T20	Material 869 874	CD11b
+T21	Material 880 885	CD11c
+T22	Material 1046 1052	MN–Ova
+T23	Material 1057 1063	MN–Pap
+T24	Material 1092 1098	MD–Pap
+T25	Material 1132 1140	antigens
+T26	Material 1180 1187	antigen
+T27	Material 1157 1170	carbohydrates
+T28	Material 1206 1215	CD8α− DCs
+T29	Material 1289 1297	antigens
+T30	Material 1341 1349	antigens
+T31	Material 1492 1512	antigen-loaded cells
+T32	Material 645 652	Antigen
+T33	Material 297 306	lysosomes
diff --git a/semeval2017/test/S0168365912007560.txt b/semeval2017/test/S0168365912007560.txt
new file mode 100644
index 0000000..33f260f
--- /dev/null
+++ b/semeval2017/test/S0168365912007560.txt
@@ -0,0 +1 @@
+We addressed the question whether carbohydrate coupling increased antigen uptake by DCs via C-type lectin receptor targeting. Therefore, the antigens were labeled with pHrodo Red dye (Invitrogen), a dye that specifically fluoresces as pH decreases from neutral to acidic, as provided in endosomes/lysosomes of cells. In vitro characterization of the cellular uptake of neoglycocomplexes using bone marrow derived dendritic cells (BMDCs) demonstrated superior ingestion of mannan-conjugates MN–Ova and MN–Pap (Supplementary Fig. S4A-D,F). This was confirmed in vivo by intradermal needle-injection of labeled antigen into the ear pinnae of mice. Antigen uptake and transport to the ear dLNs were measured after 24h by FACS analysis. DCs in cervical LNs were identified according to their high expression of MHC class II (Fig. 3A) and additionally characterized by CD8α, CD11b, and CD11c expression and uptake of pHrodo-labeled antigen (Fig. 3B, D–F). The results showed significantly elevated numbers of pHrodo+MHCIIhigh DCs for mannan conjugates MN–Ova and MN–Pap (and to a lesser degree for MD–Pap) in comparison to the unmodified antigens (Fig. 3C). Both carbohydrates targeted antigen preferentially to CD8α− DCs, as indicated by an increase in CD8α−/pHrodo+ DCs compared to unmodified antigens (Fig. 3E and F). Nevertheless, whether the antigens were taken up in situ by dermal DCs or by LN resident APCs via the afferent lymphatics could not be fully elucidated. Histology revealed that antigen-loaded cells in the dLNs were already present 30min after intradermal injection (Supplementary Fig. S4G), suggesting both mechanisms.
diff --git a/semeval2017/test/S0168365913001521.ann b/semeval2017/test/S0168365913001521.ann
new file mode 100644
index 0000000..4b7eb34
--- /dev/null
+++ b/semeval2017/test/S0168365913001521.ann
@@ -0,0 +1,34 @@
+T1	Material 4 21	mesoporous silica
+T2	Material 180 203	tetraethylorthosilicate
+T3	Material 205 209	TEOS
+*	Synonym-of T2 T3
+T4	Material 154 178	soluble silica precursor
+R1	Hyponym-of Arg1:T2 Arg2:T4	
+T5	Material 316 346	cetyltrimethylammonium bromide
+T6	Material 348 352	CTAB
+T7	Material 304 314	surfactant
+*	Synonym-of T5 T6
+R2	Hyponym-of Arg1:T5 Arg2:T7	
+T8	Material 547 586	mesoporous structure-directing template
+T9	Material 687 700	atomizing gas
+T10	Process 732 740	atomizer
+T11	Process 823 835	tube furnace
+T12	Material 870 894	durapore membrane filter
+T13	Process 1009 1020	calcination
+T14	Material 1041 1063	mesoporous silica core
+T15	Material 1130 1156	aminopropyltriethoxysilane
+T16	Material 1158 1163	APTES
+*	Synonym-of T15 T16
+T17	Material 1416 1426	protocells
+T18	Material 1465 1474	liposomes
+T19	Process 53 77	surfactant self-assembly
+T20	Material 126 146	homogeneous solution
+T21	Material 252 269	hydrochloric acid
+T22	Material 283 290	ethanol
+T23	Material 295 301	water.
+T24	Material 588 605	Aerosol solutions
+T25	Material 609 623	soluble silica
+T26	Material 629 639	surfactant
+T27	Process 665 673	nitrogen
+T28	Material 785 801	aerosol droplets
+T29	Material 966 976	surfactant
diff --git a/semeval2017/test/S0168365913001521.txt b/semeval2017/test/S0168365913001521.txt
new file mode 100644
index 0000000..d67a666
--- /dev/null
+++ b/semeval2017/test/S0168365913001521.txt
@@ -0,0 +1 @@
+The mesoporous silica particles were prepared by the surfactant self-assembly method described previously [18,24]. Briefly, a homogeneous solution of the soluble silica precursor, tetraethylorthosilicate (TEOS; Sigma-Aldrich Corp., St. Louis, MO), and hydrochloric acid was mixed in ethanol and water. A surfactant, cetyltrimethylammonium bromide (CTAB; Sigma-Aldrich Corp., St. Louis, MO), with an initial concentration much less than the critical micelle concentration was added to lower the surface tension of the liquid mixture and act as the mesoporous structure-directing template. Aerosol solutions of soluble silica plus surfactant were then generated with nitrogen as a carrier atomizing gas using a commercially available atomizer (Model 9392A, TSI, Inc., St. Paul, MN). The aerosol droplets were solidified in a tube furnace at 400°C until dry. Once dried, a durapore membrane filter, kept at 80°C, was used to collect the particles. As a final step, the surfactant was removed at 400°C for 5h via calcination. The surface of the mesoporous silica core in these studies was chemically modified with 10wt.% or 15wt.% by aminopropyltriethoxysilane (APTES; Sigma-Aldrich Corp., St. Louis, MO) conducted identically as previously described [17] to create a positive surface charge to increase loading efficiency of negatively charged cargo. Further, Liu and colleagues report the colloidal stability of these protocells with lipid bilayers, excess amount of liposomes (50μg liposomes per 0.5mg silica were used [18]).
diff --git a/semeval2017/test/S0168365913009589.ann b/semeval2017/test/S0168365913009589.ann
new file mode 100644
index 0000000..505a838
--- /dev/null
+++ b/semeval2017/test/S0168365913009589.ann
@@ -0,0 +1,16 @@
+T1	Process 0 10	Ultrasound
+T2	Process 12 14	US
+T3	Task 85 104	inertial cavitation
+T4	Material 55 64	liposomes
+T5	Process 461 463	US
+T6	Process 613 635	intratumoral injection
+T7	Material 186 196	gas bubble
+T8	Material 476 487	gas bubbles
+T9	Process 728 730	US
+T10	Process 880 882	US
+T11	Task 989 1008	inertial cavitation
+T12	Process 1069 1071	US
+T13	Material 1105 1123	US contrast agents
+T14	Material 1203 1220	oncolytic viruses
+T15	Process 1319 1340	US-induced cavitation
+T16	Process 1502 1504	US
diff --git a/semeval2017/test/S0168365913009589.txt b/semeval2017/test/S0168365913009589.txt
new file mode 100644
index 0000000..3efb132
--- /dev/null
+++ b/semeval2017/test/S0168365913009589.txt
@@ -0,0 +1 @@
+Ultrasound (US) can initiate the release of drugs from liposomes via an event called inertial cavitation, whereby the rarefactional phase of an ultrasound wave causes the expansion of a gas bubble followed by a violent collapse due to the inertia of the surrounding media. This collapse creates shock waves which can disrupt the stability of co-localised liposomal drug carriers. To date, studies have concentrated on the use of low frequency or high intensity US to generate gas bubbles in situ, and most recently such parameters have been used to achieve a variable level of triggered drug release following an intratumoral injection of liposomes [14]. However, concerns persist over the damage to non-target tissue that such US exposure parameters may cause and whether ultimately they will be widely clinically applicable. An alternative strategy is to utilise high-frequency US pulses at pressures in the diagnostic range in the presence of pre-existing gas bubbles. This provides an inertial cavitation stimulus for drug release using safe, clinically achievable US exposure conditions and approved US contrast agents [15]. Indeed, in the context of improving the delivery of therapeutics such as oncolytic viruses, this approach has already shown great promise [16]. A further advantage of this approach is that US-induced cavitation events produce distinct acoustic emissions that can be recorded and characterised providing non-invasive feedback, a feature which has proven useful in ablative US applications [17–19].
diff --git a/semeval2017/test/S0168583X14003929.ann b/semeval2017/test/S0168583X14003929.ann
new file mode 100644
index 0000000..e234ae0
--- /dev/null
+++ b/semeval2017/test/S0168583X14003929.ann
@@ -0,0 +1,15 @@
+T1	Process 35 50	FIB instruments
+T2	Material 56 63	gallium
+T3	Material 65 67	Ga
+*	Synonym-of T2 T3
+T4	Process 305 316	Ga ion beam
+T5	Process 448 459	Ga ion beam
+T6	Process 486 500	semiconductors
+T7	Task 556 572	Cryo-FIB milling
+T8	Process 638 649	Ga ion beam
+T9	Material 654 669	III–V materials
+T10	Task 702 718	cryo-FIB milling
+T11	Material 752 773	Group III–V materials
+T12	Process 1012 1025	semiconductor
+T13	Material 105 112	Gallium
+T14	Process 881 910	electronic or photonic device
diff --git a/semeval2017/test/S0168583X14003929.txt b/semeval2017/test/S0168583X14003929.txt
new file mode 100644
index 0000000..d388f84
--- /dev/null
+++ b/semeval2017/test/S0168583X14003929.txt
@@ -0,0 +1 @@
+The most widely used ion source in FIB instruments is a gallium (Ga) liquid metal ion source (LMIS) [1]. Gallium is attractive as an ion source because of its low melting temperature (29.8°C at standard atmospheric pressure [4]) and its low volatility [1]. However, some materials show sensitivity to the Ga ion beam. This sensitivity is manifested as changes in the structure and chemical composition of the starting material upon exposure to the Ga ion beam [5]. Group III–V compound semiconductors are one class of materials that show such sensitivity. Cryo-FIB milling has recently been reported to suppress the reactions between the Ga ion beam and III–V materials [6]. The suggested advantage of cryo-FIB milling over room temperature milling of Group III–V materials is appealing, given the variety of present and potential future applications for these materials (e.g., as electronic or photonic devices given the favorable electron transport and direct band gap properties associated with several III–V semiconductor systems).
diff --git a/semeval2017/test/S0257897213003563.ann b/semeval2017/test/S0257897213003563.ann
new file mode 100644
index 0000000..eccef3f
--- /dev/null
+++ b/semeval2017/test/S0257897213003563.ann
@@ -0,0 +1,27 @@
+T1	Process 17 38	ellipsometric spectra
+T2	Process 163 191	optical constants/dielectric
+T3	Process 228 254	three-phase layered system
+T4	Process 256 274	air/film/substrate
+R1	Hyponym-of Arg1:T4 Arg2:T3	
+T5	Material 205 224	Ni-doped TiO2 films
+T6	Process 364 378	semiconductors
+T7	Process 518 532	Adachi's model
+T8	Process 545 593	ε(Ε)=ε∞+{A0[2−(1+χ0)1/2−(1−χ0)1/2]}/(EOBG2/3χ02)
+*	Synonym-of T7 T8
+T9	Process 618 640	incident photon energy
+T10	Process 652 686	high-frequency dielectric constant
+T11	Process 688 697	χ0=(E+iΓ)
+T12	Process 699 703	EOBG
+T13	Process 735 743	A0 and Γ
+T14	Process 752 786	strength and broadening parameters
+T15	Process 609 610	E
+*	Synonym-of T15 T9
+T16	Process 642 644	ε∞
+*	Synonym-of T16 T10
+*	Synonym-of T11 T12
+*	Synonym-of T13 T14
+T17	Material 940 964	Fabry–Pérot interference
+T18	Process 40 57	optical constants
+T19	Process 794 798	EOBG
+T20	Process 857 859	SE
+T21	Process 1371 1374	SEM
diff --git a/semeval2017/test/S0257897213003563.txt b/semeval2017/test/S0257897213003563.txt
new file mode 100644
index 0000000..7e5bb63
--- /dev/null
+++ b/semeval2017/test/S0257897213003563.txt
@@ -0,0 +1 @@
+According to the ellipsometric spectra, optical constants and other physical parameters can be extracted by an appropriate fitting model. In order to estimate the optical constants/dielectric functions of Ni-doped TiO2 films, a three-phase layered system (air/film/substrate) [15] was utilized to study the ellipsometric spectra. TiO2 belongs to the wide band gap semiconductors. Considering the contribution of the M0 type critical point with the lowest three dimensions, its dielectric function can be calculated by Adachi's model [15,22,23]: ε(Ε)=ε∞+{A0[2−(1+χ0)1/2−(1−χ0)1/2]}/(EOBG2/3χ02). In the model, E is the incident photon energy, ε∞ is the high-frequency dielectric constant, χ0=(E+iΓ), EOBG is the optical gap energy, and A0 and Γ are the strength and broadening parameters of the EOBG transition, respectively. As an example, the experimental SE of the film TN1 at an incident angle 70° by dot scatter is shown in Fig. 4. The Fabry–Pérot interference oscillations due to multiple reflections within the film have been found in the photon energy from 1.5eV to 3.5eV (354nm–826nm), which indicates that the films are transparent in this region. Note that a good agreement of the experimental and calculated spectra is attained in the whole measured photon energy range. The fitting thickness for film TN2 is 159nm, which is very near to the value obtained by SEM (see Fig. 1(b)).
diff --git a/semeval2017/test/S0257897213004131.ann b/semeval2017/test/S0257897213004131.ann
new file mode 100644
index 0000000..223a91d
--- /dev/null
+++ b/semeval2017/test/S0257897213004131.ann
@@ -0,0 +1,23 @@
+T1	Process 42 54	testing time
+T2	Process 59 80	friction coefficients
+T3	Process 175 187	wear process
+T4	Material 191 204	uncoated AZ31
+T6	Process 304 316	wear process
+T7	Material 408 422	nano-particles
+T8	Process 445 478	reduction of friction coefficient
+T10	Process 658 674	“rolling effect”
+T11	Material 683 702	Al2O3 nanoparticles
+T12	Material 736 759	Spherical nanoparticles
+T13	Process 823 843	friction coefficient
+T16	Material 1013 1042	uncoated AZ31 magnesium alloy
+T17	Process 1087 1107	friction coefficient
+T18	Material 320 347	composite anodizing coating
+T9	Process 508 525	composite coating
+T15	Material 616 634	anodizing coatings
+T19	Process 795 810	reduce friction
+T14	Material 893 938	anodizing coating without Al2O3 nanoparticles
+T20	Material 1048 1066	anodizing coatings
+T5	Material 209 254	anodizing coating without Al2O3 nanoparticles
+T21	Material 353 372	Al2O3 nanoparticles
+T22	Material 426 437	electrolyte
+T23	Process 985 992	coating
diff --git a/semeval2017/test/S0257897213004131.txt b/semeval2017/test/S0257897213004131.txt
new file mode 100644
index 0000000..3e63db3
--- /dev/null
+++ b/semeval2017/test/S0257897213004131.txt
@@ -0,0 +1 @@
+Fig. 7 shows the relationship between the testing time and friction coefficients of various samples under dry conditions. There exist running in and steady wear period in the wear process of uncoated AZ31 and anodizing coating without Al2O3 nanoparticles while there has a steady wear period only in the wear process of composite anodizing coating with Al2O3 nanoparticles. At the same time, the addition of nano-particles to electrolyte led to reduction of friction coefficient. The friction coefficient of composite coating is relatively lower and more stable than what has been reported in literature [24,25] for anodizing coatings. This may be caused by “rolling effect” made by Al2O3 nanoparticles on the surface of oxide coating. Spherical nanoparticles change sliding into rolling, which reduce friction, making the friction coefficient becomes more stable. The friction coefficient of anodizing coating without Al2O3 nanoparticles has large fluctuation maybe for the damage of coating. In contrast to the uncoated AZ31 magnesium alloy, the anodizing coatings show slightly lower friction coefficient. This can be attributed to their higher load-bearing capacity for high hardness.
diff --git a/semeval2017/test/S0263822312000657.ann b/semeval2017/test/S0263822312000657.ann
new file mode 100644
index 0000000..c389bcd
--- /dev/null
+++ b/semeval2017/test/S0263822312000657.ann
@@ -0,0 +1,15 @@
+T1	Material 0 29	Functionally Graded Materials
+T2	Task 452 494	Study of bone, shell, balsawood and bamboo
+T3	Material 690 718	Functionally Graded Material
+T4	Material 772 796	heat resistant materials
+T5	Task 808 817	aerospace
+T6	Task 822 846	nuclear fission reactors
+T7	Material 335 363	Functionally Graded Material
+T8	Material 31 35	FGMs
+*	Synonym-of T1 T8
+T9	Material 101 134	heterogeneous composite materials
+R1	Hyponym-of Arg1:T8 Arg2:T9	
+T10	Material 488 494	bamboo
+T11	Material 474 483	balsawood
+T12	Material 467 472	shell
+T13	Material 461 465	bone
diff --git a/semeval2017/test/S0263822312000657.txt b/semeval2017/test/S0263822312000657.txt
new file mode 100644
index 0000000..78ce083
--- /dev/null
+++ b/semeval2017/test/S0263822312000657.txt
@@ -0,0 +1 @@
+Functionally Graded Materials (FGMs), described in detail by Suresh and Mortensen [1], are a type of heterogeneous composite materials exhibiting gradual variation in volume fraction of their constituents from one surface of the material to the other, resulting in properties which vary continuously across the material. The idea of a Functionally Graded Material is not a new one, there are in fact many natural materials which exhibit this property. Study of bone, shell, balsawood and bamboo shows that they are all graded with their greatest strength on the outside, in areas where the greatest protection is required. However it was not until the 1980s in Japan [2] that the idea of a Functionally Graded Material was actively researched in order to gain advances in heat resistant materials for use in aerospace and nuclear fission reactors.
diff --git a/semeval2017/test/S0263822312001468.ann b/semeval2017/test/S0263822312001468.ann
new file mode 100644
index 0000000..52b94b9
--- /dev/null
+++ b/semeval2017/test/S0263822312001468.ann
@@ -0,0 +1,34 @@
+T1	Task 46 62	passenger safety
+T2	Process 23 44	structural efficiency
+T3	Process 120 145	transportation industries
+T4	Material 158 184	crashworthiness parameters
+T6	Task 274 295	protect the passenger
+T7	Task 321 347	Crashworthiness parameters
+T8	Process 488 514	tubular composites failure
+T9	Process 551 567	brittle collapse
+T10	Material 597 618	tubular failure modes
+T11	Process 712 731	plastic deformation
+T12	Task 733 770	Implementation of composite materials
+T13	Process 889 907	crushing behaviour
+T15	Material 966 985	composite materials
+T16	Process 1026 1049	fracture surface energy
+T17	Process 1072 1091	plastic deformation
+T18	Process 1188 1219	crashworthiness characteristics
+T19	Process 1270 1294	axial crushing behaviour
+T20	Material 1298 1320	fibre-reinforced tubes
+T21	Material 1326 1342	fibreglass tubes
+T22	Material 1350 1359	PVC tubes
+T23	Material 1368 1412	carbon fibre reinforced plastic (CFRP) tubes
+T25	Material 388 393	metal
+T26	Material 397 419	fibre/resin composites
+T28	Material 585 595	composites
+T29	Process 637 663	micro-cracking development
+T14	Material 911 946	fibre reinforced composite material
+T30	Material 1223 1242	composite materials
+T24	Task 243 269	prevent the massive damage
+T5	Process 665 677	delamination
+T27	Process 679 693	fibre breakage
+T32	Material 1108 1114	metals
+T31	Material 1368 1399	carbon fibre reinforced plastic
+T33	Material 1401 1405	CFRP
+*	Synonym-of T31 T33
diff --git a/semeval2017/test/S0263822312001468.txt b/semeval2017/test/S0263822312001468.txt
new file mode 100644
index 0000000..2fc5f50
--- /dev/null
+++ b/semeval2017/test/S0263822312001468.txt
@@ -0,0 +1 @@
+Recently together with structural efficiency, passenger safety is also an important issue in application of material to transportation industries. Hence, the crashworthiness parameters are introducing to predict the capability of structure to prevent the massive damage and protect the passenger in the event of a crash. Crashworthiness parameters for various thin-walled tubes made from metal or fibre/resin composites in different geometries have been studied. A critical difference of tubular composites failure modes compared with metallic is the brittle collapse. In addition, in composites, tubular failure modes are involved with micro-cracking development, delamination, fibre breakage, etc., instead of plastic deformation. Implementation of composite materials in the field of crashworthiness is attributed to Hull, who in 80s and 90s of the last century studied extensively the crushing behaviour of fibre reinforced composite material. He found that the composite materials absorbed high energy in the face of the fracture surface energy mechanism rather than plastic deformation as observed for metals [1]. This observation has inspired others to further investigation about crashworthiness characteristics of composite materials. Studies have examined the axial crushing behaviour of fibre-reinforced tubes [2], fibreglass tubes [3,4], PVC tubes [5] and carbon fibre reinforced plastic (CFRP) tubes [6].
diff --git a/semeval2017/test/S0301679X13003289.ann b/semeval2017/test/S0301679X13003289.ann
new file mode 100644
index 0000000..e4167c4
--- /dev/null
+++ b/semeval2017/test/S0301679X13003289.ann
@@ -0,0 +1,30 @@
+T1	Process 0 30	Nanoparticle Tracking Analysis
+T2	Process 32 35	NTA
+T3	Material 72 89	soot agglomerates
+T4	Process 121 156	Transmission Electron Microscoscopy
+T5	Process 158 161	TEM
+T6	Material 164 182	Soot nanoparticles
+T7	Material 330 337	heptane
+T8	Material 362 379	soot agglomerates
+T9	Process 391 417	size distribution analysis
+T10	Process 503 506	TEM
+T11	Material 517 529	agglomerates
+T12	Material 583 595	agglomerates
+T13	Process 624 627	NTA
+T14	Material 731 753	soot-in-oil aggregates
+T15	Process 832 835	TEM
+T16	Process 836 866	Nanoparticle Tracking Analysis
+T17	Process 868 871	NTA
+T18	Process 957 992	Transmission Electron Microscoscopy
+T19	Process 994 997	TEM
+T20	Material 1166 1173	heptane
+T21	Material 1198 1215	soot agglomerates
+T22	Process 1227 1253	size distribution analysis
+T23	Process 1339 1342	TEM
+T24	Material 1353 1365	agglomerates
+T25	Material 1419 1431	agglomerates
+T26	Process 1460 1463	NTA
+T27	Material 1567 1589	soot-in-oil aggregates
+T28	Process 1668 1671	TEM
+T29	Material 660 682	polydisperse solutions
+T30	Material 1496 1518	polydisperse solutions
diff --git a/semeval2017/test/S0301679X13003289.txt b/semeval2017/test/S0301679X13003289.txt
new file mode 100644
index 0000000..8d7952d
--- /dev/null
+++ b/semeval2017/test/S0301679X13003289.txt
@@ -0,0 +1 @@
+Nanoparticle Tracking Analysis (NTA) has been applied to characterising soot agglomerates of particles and compared with Transmission Electron Microscoscopy (TEM). Soot nanoparticles were extracted from used oil drawn from the sump of a light duty automotive diesel engine. The samples were prepared for analysis by diluting with heptane. Individual tracking of soot agglomerates allows for size distribution analysis. The size of soot was compared with length measurements of projected two-dimensional TEM images of agglomerates. Both the techniques show that soot-in-oil exists as agglomerates with average size of 120nm. NTA is able to measure particles in polydisperse solutions and reports the size and volume distribution of soot-in-oil aggregates; it has the advantages of being fast and relatively low cost if compared with TEM.Nanoparticle Tracking Analysis (NTA) has been applied to characterising soot agglomerates of particles and compared with Transmission Electron Microscoscopy (TEM). Soot nanoparticles were extracted from used oil drawn from the sump of a light duty automotive diesel engine. The samples were prepared for analysis by diluting with heptane. Individual tracking of soot agglomerates allows for size distribution analysis. The size of soot was compared with length measurements of projected two-dimensional TEM images of agglomerates. Both the techniques show that soot-in-oil exists as agglomerates with average size of 120nm. NTA is able to measure particles in polydisperse solutions and reports the size and volume distribution of soot-in-oil aggregates; it has the advantages of being fast and relatively low cost if compared with TEM.
diff --git a/semeval2017/test/S0301679X14000449.ann b/semeval2017/test/S0301679X14000449.ann
new file mode 100644
index 0000000..7680755
--- /dev/null
+++ b/semeval2017/test/S0301679X14000449.ann
@@ -0,0 +1,21 @@
+T1	Process 438 454	powder formation
+T2	Process 458 465	plowing
+T3	Process 480 496	powder formation
+T4	Process 501 508	plowing
+T5	Material 538 561	dimensionless parameter
+T6	Material 563 566	Sc⁎
+R1	Hyponym-of Arg1:T5 Arg2:T6	
+T7	Material 574 592	critical parameter
+T8	Material 594 606	Sc,critical⁎
+R2	Hyponym-of Arg1:T7 Arg2:T8	
+T9	Process 755 771	powder formation
+T10	Process 977 984	plowing
+T11	Material 1043 1058	stainless steel
+T12	Material 1062 1073	Al2O3 balls
+T13	Material 1091 1109	SiC or Si3N4 balls
+T14	Material 1150 1169	SiC and Si3N4 balls
+T15	Material 1275 1289	wear-mode maps
+T16	Material 18 31	wear-mode map
+T17	Process 1338 1354	powder formation
+T18	Process 611 646	Sc⁎=HvRmaxKIc(4)Sc,critical⁎=51+10μ
+T19	Process 662 678	Vickers hardness
diff --git a/semeval2017/test/S0301679X14000449.txt b/semeval2017/test/S0301679X14000449.txt
new file mode 100644
index 0000000..7e99c9a
--- /dev/null
+++ b/semeval2017/test/S0301679X14000449.txt
@@ -0,0 +1 @@
+Fig. 11 shows the wear-mode map of RH ceramics, in which the early-stage friction coefficients and the surface roughness of the pure surface were chosen. The value of the fracture toughness of RH ceramics was calculated based on the reference data in other literature [22]. The Sc of RH ceramics was smaller than Sc,critical under all tested conditions during the initial stage of friction. Thus, the initial wear mode of RH ceramics was powder formation or plowing. In addition, powder formation and plowing can be distinguished using a dimensionless parameter (Sc⁎) and a critical parameter (Sc,critical⁎).(3)Sc⁎=HvRmaxKIc(4)Sc,critical⁎=51+10μwhere Hv is the Vickers hardness of RH ceramics [Pa]. The initial wear mode of RH ceramics was determined as powder formation under all tested conditions, as demonstrated in Fig. 12(a). Furthermore, the wear-mode map at 2×104 cycles was constructed, as shown in Fig. 12(b). In the map, all plots moved near the transition curve to plowing. In particular, the plots for RH ceramics sliding against stainless steel or Al2O3 balls were nearer than SiC or Si3N4 balls. Therefore, RH ceramics sliding against SiC and Si3N4 balls showed relatively higher wear than the other counterpart materials. Nevertheless, these results from the wear-mode maps indicated that the wear mode of RH ceramics was powder formation accompanied with microcracks under all tested conditions in this study, resulting in low wear (<5×10−9mm2/N). Indeed, the observation of the worn surfaces revealed that the catastrophic wear of RH ceramics accompanied by large brittle fracture was prevented overall, as shown in Fig. 13.
diff --git a/semeval2017/test/S0301679X14003272.ann b/semeval2017/test/S0301679X14003272.ann
new file mode 100644
index 0000000..150c6e7
--- /dev/null
+++ b/semeval2017/test/S0301679X14003272.ann
@@ -0,0 +1,8 @@
+T1	Process 79 102	piezoelectric load cell
+T2	Process 146 150	LSMB
+T3	Process 156 160	LSMB
+T4	Material 175 183	flexures
+T5	Process 348 357	load cell
+T6	Process 383 412	displacement and load sensors
+T7	Material 657 672	fretting loops.
+T8	Task 4 46	lateral force, Q, is measured and recorded
diff --git a/semeval2017/test/S0301679X14003272.txt b/semeval2017/test/S0301679X14003272.txt
new file mode 100644
index 0000000..0d007e7
--- /dev/null
+++ b/semeval2017/test/S0301679X14003272.txt
@@ -0,0 +1 @@
+The lateral force, Q, is measured and recorded throughout the entire test by a piezoelectric load cell which is connected to the quasi-stationary LSMB. The LSMB is mounted on flexures which provide flexibility in the horizontal direction so that the majority of the lateral force is transmitted though the much stiffer load path which contains the load cell as shown in Fig. 2. Both displacement and load sensors have been calibrated (both externally and in-situ) in static conditions. The load and displacement signals are sampled at a rate of two hundred measurements per fretting cycle at all fretting frequencies, with these data being used to generate fretting loops. The loops were used to derive the contact slip amplitude and the energy coefficient of friction in each cycle according to the method suggested by Fouvry et al. [17]. Average values for these were calculated for each test (the average coefficient of friction included values associated with the initial transients in the tests as suggested by Hirsch and Neu [18]).
diff --git a/semeval2017/test/S0304399111001811.ann b/semeval2017/test/S0304399111001811.ann
new file mode 100644
index 0000000..acad2d0
--- /dev/null
+++ b/semeval2017/test/S0304399111001811.ann
@@ -0,0 +1,18 @@
+T1	Process 32 86	electrons carrying quantized orbital angular momentum.
+T2	Material 147 157	plane wave
+T3	Material 191 202	lens system
+T4	Process 389 417	reduced Schrödinger equation
+T5	Material 661 669	vortices
+T7	Process 997 1030	Inclusion of spherical aberration
+T8	Process 1403 1452	creation of nm-sized or smaller electron vortices
+T10	Material 221 245	round, centered aperture
+T11	Material 272 280	aperture
+T12	Material 293 309	holographic mask
+T13	Material 448 456	aperture
+T14	Material 435 440	plane
+T15	Material 700 710	plane wave
+T16	Material 735 751	holographic mask
+T17	Process 926 944	angular divergence
+T18	Material 854 869	magnetic lenses
+T6	Process 1128 1145	Partial coherence
+T9	Material 1153 1166	incident wave
diff --git a/semeval2017/test/S0304399111001811.txt b/semeval2017/test/S0304399111001811.txt
new file mode 100644
index 0000000..0876a64
--- /dev/null
+++ b/semeval2017/test/S0304399111001811.txt
@@ -0,0 +1 @@
+We have developed the theory of electrons carrying quantized orbital angular momentum. To make connection to realistic situations, we considered a plane wave moving along the optic axis of a lens system, intercepted by a round, centered aperture.88In the experiment, this aperture carries the holographic mask. It turns out that the movement along the optic axis can be separated off; the reduced Schrödinger equation operating in the plane of the aperture can be mapped onto Bessel's differential equation. The ensuing eigenfunctions fall into families with discrete orbital angular momentum ℏm along the optic axis where m is a magnetic quantum number. Those vortices can be produced by matching a plane wave after passage through a holographic mask with a fork dislocation to the eigenfunctions of the cylindrical problem. Vortices can be focussed by magnetic lenses into volcano-like charge distributions with very narrow angular divergence, resembling loop currents in the diffraction plane. Inclusion of spherical aberration changes the ringlike shape but does not destroy the central zero intensity of vortices with m≠0. Partial coherence of the incident wave leads to a rise of the central intensity minimum. It is shown that a very small source angle (i.e. a very high coherence) is necessary so as to keep the volcano structure intact. Their small angular width in the far field may allow the creation of nm-sized or smaller electron vortices but the demand for extremely high coherence of the source poses a serious difficulty.
diff --git a/semeval2017/test/S030439911200040X.ann b/semeval2017/test/S030439911200040X.ann
new file mode 100644
index 0000000..b607c80
--- /dev/null
+++ b/semeval2017/test/S030439911200040X.ann
@@ -0,0 +1,17 @@
+T1	Material 17 35	1D radial profiles
+T2	Process 50 68	circular averaging
+T3	Process 107 127	elliptical averaging
+T4	Process 151 169	circular averaging
+T5	Process 190 201	astigmatism
+T6	Process 203 214	Astigmatism
+T7	Material 250 260	Thon rings
+T8	Material 319 329	1D profile
+T9	Material 435 445	Thon rings
+T10	Process 498 518	Canny edge detection
+T11	Process 551 571	elliptical averaging
+T12	Process 652 663	astigmatism
+T13	Process 752 757	ATLAS
+T14	Process 827 846	2D PSD optimization
+T15	Process 801 804	CTF
+T16	Process 72 91	2D experimental PSD
+T17	Process 412 415	PSD
diff --git a/semeval2017/test/S030439911200040X.txt b/semeval2017/test/S030439911200040X.txt
new file mode 100644
index 0000000..7f5b1f1
--- /dev/null
+++ b/semeval2017/test/S030439911200040X.txt
@@ -0,0 +1 @@
+Some methods use 1D radial profiles obtained from circular averaging of 2D experimental PSD [4,8,11] or by elliptical averaging [17]. An inadequacy of circular averaging is that it neglects astigmatism. Astigmatism distorts the circular shape of the Thon rings and thus decreases their modulation depth in the obtained 1D profile. A few algorithms that consider astigmatism involve concepts such as dividing the PSD into sectors where Thon rings are approximated by circular arcs [15,21], applying Canny edge detection to find the rings [17] prior to elliptical averaging, determining the relationship between the 1D circular averages with and without astigmatism [22], or using a brute-force scan of a database containing precalculated patterns as in ATLAS [23]. Some other approaches for estimating CTF parameters do a fully 2D PSD optimization [12,14,18,20] but they usually regulate and fit numerous parameters by an extensive search that does not guarantee convergence. Furthermore, only a few schemes that were developed for defocus estimation provide an error analysis [23,24].
diff --git a/semeval2017/test/S0305440314001927.ann b/semeval2017/test/S0305440314001927.ann
new file mode 100644
index 0000000..ca98abe
--- /dev/null
+++ b/semeval2017/test/S0305440314001927.ann
@@ -0,0 +1,21 @@
+T2	Material 113 129	2D line drawings
+T3	Material 85 111	ordinary still photographs
+T4	Material 134 159	occasional cross-sections
+T8	Process 673 707	traditional digital photogrammetry
+T9	Process 780 794	laser scanning
+T10	Process 875 882	SfM–MVS
+T11	Task 1145 1170	archaeological landscapes
+T12	Task 1172 1177	sites
+T13	Task 1181 1190	artefacts
+T14	Process 1298 1323	terracotta warrior models
+T15	Process 205 214	3D models
+T16	Process 253 275	digital photogrammetry
+T17	Process 280 294	laser scanners
+T18	Task 331 358	data capture at close range
+T7	Process 435 449	laser scanners
+T19	Process 527 542	SfM–MVS methods
+T20	Material 940 954	digital camera
+T21	Process 966 1033	prior training about the required number and overlap of photographs
+T23	Process 1106 1123	recording process
+T24	Process 728 754	control of camera position
+T1	Task 35 63	recorded sites and artefacts
diff --git a/semeval2017/test/S0305440314001927.txt b/semeval2017/test/S0305440314001927.txt
new file mode 100644
index 0000000..14f99da
--- /dev/null
+++ b/semeval2017/test/S0305440314001927.txt
@@ -0,0 +1 @@
+Traditionally, archaeologists have recorded sites and artefacts via a combination of ordinary still photographs, 2D line drawings and occasional cross-sections. Given these constraints, the attractions of 3D models have been obvious for some time, with digital photogrammetry and laser scanners offering two well-known methods for data capture at close range (e.g. Bates et al., 2010; Hess and Robson, 2010). The highest specification laser scanners still boast better positional accuracy and greater true colour fidelity than SfM–MVS methods (James and Robson, 2012), but the latter produce very good quality models nonetheless and have many unique selling points. Unlike traditional digital photogrammetry, little or no prior control of camera position is necessary, and unlike laser scanning, no major equipment costs or setup are involved. However, the key attraction of SfM–MVS is that the required input can be taken by anyone with a digital camera and modest prior training about the required number and overlap of photographs. A whole series of traditional bottlenecks are thereby removed from the recording process and large numbers of archaeological landscapes, sites or artefacts can now be captured rapidly, in the field, in the laboratory or in the museum. Fig. 2a–c shows examples of terracotta warrior models for which the level of surface detail is considerable.
diff --git a/semeval2017/test/S0370269301015222.ann b/semeval2017/test/S0370269301015222.ann
new file mode 100644
index 0000000..bd0dd43
--- /dev/null
+++ b/semeval2017/test/S0370269301015222.ann
@@ -0,0 +1,30 @@
+T1	Task 7 32	astronomical observations
+T2	Material 36 68	high redshift type Ia supernovae
+T3	Task 114 173	power spectrum of the cosmic microwave background radiation
+T4	Process 357 404	Friedmann–Robertson–Walker (FRW) standard model
+T5	Material 679 700	cosmological constant
+T6	Process 708 729	vacuum energy density
+T7	Task 987 1016	cosmological constant problem
+T8	Task 1166 1185	coincidence problem
+T9	Process 190 199	BOOMERANG
+T10	Process 208 216	MAXIMA-1
+T11	Process 525 539	matter density
+T12	Process 735 745	ρΛ≡Λ/(8πG)
+T17	Task 1040 1078	question why Λ is so unnaturally small
+T18	Material 1126 1128	ρΛ
+T20	Task 408 417	cosmology
+T21	Process 540 541	ρ
+*	Synonym-of T11 T21
+T22	Process 568 584	critical density
+T23	Process 585 590	ρcrit
+*	Synonym-of T22 T23
+T24	Material 701 702	Λ
+*	Synonym-of T5 T24
+*	Synonym-of T6 T12
+T25	Process 773 774	ρ
+T26	Process 806 822	critical density
+T13	Process 918 940	deceleration parameter
+T14	Process 941 942	q
+*	Synonym-of T13 T14
+T15	Task 1201 1287	why ρ and ρΛ happen to be of the same order of magnitude precisely at this very moment
+*	Synonym-of T8 T15
diff --git a/semeval2017/test/S0370269301015222.txt b/semeval2017/test/S0370269301015222.txt
new file mode 100644
index 0000000..10541d0
--- /dev/null
+++ b/semeval2017/test/S0370269301015222.txt
@@ -0,0 +1 @@
+Recent astronomical observations of high redshift type Ia supernovae performed by two groups [1–3] as well as the power spectrum of the cosmic microwave background radiation obtained by the BOOMERANG [4] and MAXIMA-1 [5] experiments seem to indicate that at present the Universe is in a state of accelerated expansion. If one analyzes these data within the Friedmann–Robertson–Walker (FRW) standard model of cosmology their most natural interpretation is that the Universe is spatially flat and that the (baryonic plus dark) matter density ρ is about one third of the critical density ρcrit. Most interestingly, the dominant contribution to the energy density is provided by the cosmological constant Λ. The vacuum energy density (1.1)ρΛ≡Λ/(8πG) is about twice as large as ρ, i.e., about two thirds of the critical density. With ΩM≡ρ/ρcrit, ΩΛ≡ρΛ/ρcrit and Ωtot≡ΩM+ΩΛ: (1.2)ΩM≈1/3,ΩΛ≈2/3,Ωtot≈1. This implies that the deceleration parameter q is approximately −1/2. While originally the cosmological constant problem [6] was related to the question why Λ is so unnaturally small, the discovery of the important role played by ρΛ has shifted the emphasis toward the “coincidence problem”, the question why ρ and ρΛ happen to be of the same order of magnitude precisely at this very moment [7].
diff --git a/semeval2017/test/S0370269302011838.ann b/semeval2017/test/S0370269302011838.ann
new file mode 100644
index 0000000..31ef338
--- /dev/null
+++ b/semeval2017/test/S0370269302011838.ann
@@ -0,0 +1,13 @@
+T1	Task 27 49	charged multiplicities
+T2	Task 51 94	evolution of multiplicities with centrality
+T3	Task 96 111	particle ratios
+T4	Task 116 149	transverse momentum distributions
+T5	Process 208 220	string model
+T6	Material 236 251	hard collisions
+T7	Material 253 286	collectivity in the initial state
+T8	Material 320 360	rescattering of the produced secondaries
+T9	Task 362 376	Multiplicities
+T10	Process 442 475	Transverse momentum distributions
+T11	Process 588 622	Discrepancies with particle ratios
+T20	Task 381 396	their evolution
+T12	Material 607 615	particle
diff --git a/semeval2017/test/S0370269302011838.txt b/semeval2017/test/S0370269302011838.txt
new file mode 100644
index 0000000..e204633
--- /dev/null
+++ b/semeval2017/test/S0370269302011838.txt
@@ -0,0 +1 @@
+First results from RHIC on charged multiplicities, evolution of multiplicities with centrality, particle ratios and transverse momentum distributions in central and minimum bias collisions, are analyzed in a string model which includes hard collisions, collectivity in the initial state considered as string fusion, and rescattering of the produced secondaries. Multiplicities and their evolution with centrality are successfully reproduced. Transverse momentum distributions in the model show a larger pT-tail than experimental data, disagreement which grows with increasing centrality. Discrepancies with particle ratios appear and are examined comparing with previous features of the model at SPS.
diff --git a/semeval2017/test/S0370269302012492.ann b/semeval2017/test/S0370269302012492.ann
new file mode 100644
index 0000000..8136a98
--- /dev/null
+++ b/semeval2017/test/S0370269302012492.ann
@@ -0,0 +1,15 @@
+T2	Process 77 93	massless scalars
+T3	Process 101 117	self-dual string
+T6	Process 338 357	linear fluctuations
+T8	Process 481 510	higher angular momentum modes
+T9	Process 561 585	linearized approximation
+T10	Process 698 719	world volume solitons
+T11	Task 933 941	small ωR
+T12	Process 984 1004	approximate solution
+T1	Task 27 93	calculate the cross section for the absorption of massless scalars
+T13	Material 145 164	M-theory five-brane
+T4	Process 183 213	entirely world volume approach
+T5	Material 292 298	s-wave
+T7	Process 793 808	brane solutions
+T14	Process 1031 1051	approximate solution
+T15	Process 1098 1122	supergravity calculation
diff --git a/semeval2017/test/S0370269302012492.txt b/semeval2017/test/S0370269302012492.txt
new file mode 100644
index 0000000..71cff5f
--- /dev/null
+++ b/semeval2017/test/S0370269302012492.txt
@@ -0,0 +1 @@
+In this section we wish to calculate the cross section for the absorption of massless scalars by the self-dual string in the world volume of the M-theory five-brane. We will adopt an entirely world volume approach similar to that of [21–23]. We begin by writing the equation satisfied by the s-wave with energy ω, φ(r,t)=φ(r)eiωt, of the linear fluctuations of the four overall transverse scalars about the self-dual string, (it is known that there are problems when one considers higher angular momentum modes [23], one must take care with the validity of the linearized approximation, this is discussed in [13]): (15)ρ−3ddρρ3ddρ+1+R6ω6ρ6φ(ρ)=0, where ρ=rω, R=Q1/3ℓp. Note, as pointed out by [11] world volume solitons have a much sharper potential than the Coulomb type potential typical of brane solutions in supergravity; thus this scattering is different to that of the string in six-dimensional supergravity. Nevertheless, for small ωR one may solve this problem by matching an approximate solution in the inner region to an approximate solution in the outer region; this follows closely the supergravity calculation [24].
diff --git a/semeval2017/test/S0370269302013412.ann b/semeval2017/test/S0370269302013412.ann
new file mode 100644
index 0000000..0468ab5
--- /dev/null
+++ b/semeval2017/test/S0370269302013412.ann
@@ -0,0 +1,21 @@
+T1	Task 3 107	consider cosmological consequences of a conformal-invariant formulation of Einstein's General Relativity
+T2	Process 43 107	conformal-invariant formulation of Einstein's General Relativity
+T3	Material 129 141	scale factor
+T4	Material 269 280	Planck mass
+T6	Process 386 421	temperature history of the universe
+T7	Process 441 453	mass history
+T8	Process 473 511	conformal-invariant cosmological model
+T19	Material 192 207	massless scalar
+T20	Material 209 216	dilaton
+*	Synonym-of T19 T20
+T21	Material 192 223	massless scalar (dilaton) field
+T22	Task 78 107	Einstein's General Relativity
+T23	Material 248 254	masses
+R1	Hyponym-of Arg1:T4 Arg2:T23	
+T5	Process 337 374	Hoyle–Narlikar type of mass evolution
+T24	Process 297 322	expansion of the universe
+T25	Material 556 573	supernova Ia data
+T26	Process 582 619	effective magnitude–redshift relation
+T27	Material 630 651	cosmological constant
+T28	Process 682 704	high-redshift behavior
+T29	Task 733 751	standard cosmology
diff --git a/semeval2017/test/S0370269302013412.txt b/semeval2017/test/S0370269302013412.txt
new file mode 100644
index 0000000..cac8a17
--- /dev/null
+++ b/semeval2017/test/S0370269302013412.txt
@@ -0,0 +1 @@
+We consider cosmological consequences of a conformal-invariant formulation of Einstein's General Relativity where instead of the scale factor of the spatial metrics in the action functional a massless scalar (dilaton) field occurs which scales all masses including the Planck mass. Instead of the expansion of the universe we obtain the Hoyle–Narlikar type of mass evolution, where the temperature history of the universe is replaced by the mass history. We show that this conformal-invariant cosmological model gives a satisfactory description of the new supernova Ia data for the effective magnitude–redshift relation without a cosmological constant and make a prediction for the high-redshift behavior which deviates from that of standard cosmology for z>1.7.
diff --git a/semeval2017/test/S0370269302014880.ann b/semeval2017/test/S0370269302014880.ann
new file mode 100644
index 0000000..3066435
--- /dev/null
+++ b/semeval2017/test/S0370269302014880.ann
@@ -0,0 +1,57 @@
+T1	Material 14 31	charmonium states
+T2	Task 171 191	experimental program
+T3	Material 333 349	original picture
+T4	Process 523 558	subsequent evolution of the system,
+T5	Material 573 592	hidden charm mesons
+T6	Process 620 685	absorption of pre-resonance charmonium states by nuclear nucleons
+T7	Process 720 768	interactions of charmonia with secondary hadrons
+T8	Process 785 838	dissociation of cc̄ bound states in deconfined medium
+T9	Process 886 901	J/ψ suppression
+T10	Material 951 965	proton–nucleus
+T11	Process 970 996	nucleus–nucleus collisions
+T12	Material 1002 1019	light projectiles
+T13	Task 1134 1149	NA50 experiment
+T14	Process 1284 1299	J/ψ suppression
+T15	Process 1318 1349	formation of quark–gluon plasma
+T16	Process 1367 1383	comover scenario
+T18	Material 246 249	J/ψ
+T19	Material 402 411	charmonia
+T20	Process 476 510	primary nucleon–nucleon collisions
+T21	Material 669 685	nuclear nucleons
+T22	Process 770 778	comovers
+T23	Process 840 861	anomalous suppression
+T24	Process 1090 1109	nuclear suppression
+T25	Material 1071 1088	sweeping nucleons
+T26	Material 1186 1191	Pb+Pb
+T17	Material 32 35	J/ψ
+T27	Material 40 42	ψ′
+R1	Hyponym-of Arg1:T17 Arg2:T1	
+R2	Hyponym-of Arg1:T27 Arg2:T1	
+T28	Process 46 72	nucleus–nucleus collisions
+T29	Material 46 53	nucleus
+T30	Material 54 61	nucleus
+T31	Task 0 72	Production of charmonium states J/ψ and ψ′ in nucleus–nucleus collisions
+T32	Task 238 327	use the J/ψ as a probe of the state of matter created at the early stage of the collision
+T33	Material 484 491	nucleon
+T34	Material 492 499	nucleon
+T35	Process 687 713	normal nuclear suppression
+*	Synonym-of T35 T6
+T36	Material 736 745	charmonia
+T37	Material 761 768	hadrons
+*	Synonym-of T22 T7
+T38	Material 648 658	charmonium
+*	Synonym-of T8 T23
+T39	Material 801 804	cc̄
+T40	Material 886 889	J/ψ
+T41	Material 918 938	Drell–Yan muon pairs
+T42	Material 978 985	nucleus
+T43	Material 970 977	nucleus
+T44	Material 1223 1226	J/ψ
+T45	Material 1157 1184	heavy projectile and target
+R3	Hyponym-of Arg1:T26 Arg2:T45	
+T46	Process 1223 1238	J/ψ suppression
+T47	Process 1243 1261	central collisions
+T48	Material 1284 1287	J/ψ
+T49	Material 1331 1349	quark–gluon plasma
+T50	Material 1351 1354	QGP
+*	Synonym-of T49 T50
diff --git a/semeval2017/test/S0370269302014880.txt b/semeval2017/test/S0370269302014880.txt
new file mode 100644
index 0000000..32e527c
--- /dev/null
+++ b/semeval2017/test/S0370269302014880.txt
@@ -0,0 +1 @@
+Production of charmonium states J/ψ and ψ′ in nucleus–nucleus collisions has been studied at CERN SPS over the previous 15 years by the NA38 and NA50 Collaborations. This experimental program was mainly motivated by the suggestion [1] to use the J/ψ as a probe of the state of matter created at the early stage of the collision. The original picture [1] (see also [2] for a modern review) assumes that charmonia are created exclusively at the initial stage of the reaction in primary nucleon–nucleon collisions. During the subsequent evolution of the system, the number of hidden charm mesons is reduced because of: (a) absorption of pre-resonance charmonium states by nuclear nucleons (normal nuclear suppression), (b) interactions of charmonia with secondary hadrons (comovers), (c) dissociation of cc̄ bound states in deconfined medium (anomalous suppression). It was found [3] that J/ψ suppression with respect to Drell–Yan muon pairs measured in proton–nucleus and nucleus–nucleus collisions with light projectiles can be explained by the so-called “normal” (due to sweeping nucleons) nuclear suppression alone. In contrast, the NA50 experiment with a heavy projectile and target (Pb+Pb) revealed essentially stronger J/ψ suppression for central collisions [4–7]. This anomalous J/ψ suppression was attributed to formation of quark–gluon plasma (QGP) [7], but a comover scenario cannot be excluded [8].
diff --git a/semeval2017/test/S0370269302014892.ann b/semeval2017/test/S0370269302014892.ann
new file mode 100644
index 0000000..a492d22
--- /dev/null
+++ b/semeval2017/test/S0370269302014892.ann
@@ -0,0 +1,20 @@
+T1	Task 39 72	formula for meson pair production
+T2	Task 259 266	formula
+T4	Process 839 862	two-photon annihilation
+T5	Process 913 940	electromagnetic form factor
+T7	Task 1117 1139	Brodsky–Lepage formula
+T8	Material 51 61	meson pair
+T9	Process 51 72	meson pair production
+T10	Material 174 195	electromagnetic meson
+T3	Process 313 378	neglecting part of the amplitudes with opposite photon helicities
+T11	Material 361 378	photon helicities
+T12	Process 636 664	partonic transverse momentum
+T13	Process 672 695	hard scattering process
+T14	Material 843 849	photon
+T15	Material 876 881	pions
+T16	Material 974 983	pion pair
+T6	Material 1002 1026	annihilation form factor
+T17	Material 1027 1033	R2π(s)
+*	Synonym-of T6 T17
+T18	Process 1151 1194	vanishing cross section for γγ annihilation
+T19	Material 1209 1230	neutral pseudoscalars
diff --git a/semeval2017/test/S0370269302014892.txt b/semeval2017/test/S0370269302014892.txt
new file mode 100644
index 0000000..ce29ebb
--- /dev/null
+++ b/semeval2017/test/S0370269302014892.txt
@@ -0,0 +1 @@
+Brodsky and Lepage [8] have proposed a formula for meson pair production which looks similar to (25), except for a different charge factor and the appearance of the timelike electromagnetic meson form factor instead of the annihilation form factor R(s). This formula was obtained from the leading-twist result by neglecting part of the amplitudes with opposite photon helicities. As has been pointed out in [9], this part is however not approximately independent of the pion distribution amplitude and not generically small. We also remark that the appearance of Fπ(s) in the γγ→π+π− amplitude is no longer observed if corrections from partonic transverse momentum in the hard scattering process are taken into account, and that these corrections are not numerically small for the values of s we are dealing with [13]. Notice further that two-photon annihilation produces two pions in a C-even state, whereas the electromagnetic form factor projects on the C-odd state of a pion pair. In contrast, our annihilation form factor R2π(s) is C-even as discussed after (24). Finally, due to a particular charge factor, the Brodsky–Lepage formula leads to a vanishing cross section for γγ annihilation into pairs of neutral pseudoscalars.
diff --git a/semeval2017/test/S0370269303015478.ann b/semeval2017/test/S0370269303015478.ann
new file mode 100644
index 0000000..be40f0f
--- /dev/null
+++ b/semeval2017/test/S0370269303015478.ann
@@ -0,0 +1,22 @@
+T1	Process 6 28	perturbative expansion
+T2	Process 105 132	tree-level unitarity bounds
+T3	Process 136 166	loop-improved unitarity bounds
+T4	Process 67 79	exact bounds
+T5	Process 195 211	unitarity bounds
+T6	Task 226 245	tree-level analysis
+T7	Task 257 276	tree level analysis
+T8	Process 309 328	equivalence theorem
+T9	Process 353 378	high-energy approximation
+T10	Material 455 473	gauge-boson masses
+T11	Process 541 560	equivalence theorem
+T12	Process 569 586	decoupling regime
+T13	Process 632 652	unitarity constraint
+T14	Process 706 721	quantum effects
+T15	Process 729 771	decays of the light CP-even Higgs boson h0
+T16	Task 690 771	investigate the quantum effects in the decays of the light CP-even Higgs boson h0
+T17	Task 784 864	looking for sizeable differences with respect to the SM in the decoupling regime
+T18	Process 847 864	decoupling regime
+T19	Process 837 839	SM
+T20	Material 757 768	Higgs boson
+T21	Material 769 771	h0
+*	Synonym-of T21 T20
diff --git a/semeval2017/test/S0370269303015478.txt b/semeval2017/test/S0370269303015478.txt
new file mode 100644
index 0000000..2ddc556
--- /dev/null
+++ b/semeval2017/test/S0370269303015478.txt
@@ -0,0 +1 @@
+Since perturbative expansion is used, it is impossible to find the exact bounds; instead, one can derive tree-level unitarity bounds or loop-improved unitarity bounds. In this study, we will use unitarity bounds coming from a tree-level analysis [20]. This tree level analysis is derived with the help of the equivalence theorem [21], which itself is a high-energy approximation where it is assumed that the energy scale is much larger than the Z0 and W± gauge-boson masses. We will consider here this “high-energy” hypothesis that both the equivalence theorem and the decoupling regime are well settled, but in such a way that the unitarity constraint is also fulfilled. Our purpose is to investigate the quantum effects in the decays of the light CP-even Higgs boson h0, especially looking for sizeable differences with respect to the SM in the decoupling regime.
diff --git a/semeval2017/test/S0370269303017222.ann b/semeval2017/test/S0370269303017222.ann
new file mode 100644
index 0000000..0891426
--- /dev/null
+++ b/semeval2017/test/S0370269303017222.ann
@@ -0,0 +1,18 @@
+T1	Process 7 16	bag model
+T2	Process 43 74	oscillator confining potentials
+T3	Process 220 256	Pairwise spin-dependent interactions
+T4	Process 274 288	level ordering
+T5	Process 312 335	color-spin interactions
+T6	Process 368 392	flavor-spin interactions
+T7	Process 431 453	q3 color wave function
+T8	Process 476 509	flavor-spin-orbital wave function
+T9	Material 540 546	quarks
+T10	Process 566 591	flavor-spin wave function
+T11	Process 660 683	flavor-spin interaction
+T12	Material 692 697	quark
+T13	Process 719 740	orbital wave function
+T14	Process 773 798	flavor-spin wave function
+T15	Process 808 831	flavor-spin interaction
+T16	Material 1039 1044	quark
+T17	Process 905 920	mass splittings
+T18	Process 1039 1049	quark spin
diff --git a/semeval2017/test/S0370269303017222.txt b/semeval2017/test/S0370269303017222.txt
new file mode 100644
index 0000000..6814028
--- /dev/null
+++ b/semeval2017/test/S0370269303017222.txt
@@ -0,0 +1 @@
+In the bag model and in linear or harmonic oscillator confining potentials, the first excited S-state lies above the lowest P-state, making the predicted Roper mass heavier than the lightest negative parity baryon mass. Pairwise spin-dependent interactions must reverse the level ordering. As mentioned earlier, color-spin interactions fail in this regard [29], while flavor-spin interactions produce the desired effect. Since the q3 color wave function is antisymmetric, the flavor-spin-orbital wave function is totally symmetric. For all quarks in an S-state, the flavor-spin wave function is totally symmetric all by itself and leads to the most attractive flavor-spin interaction. If one quark is in a P-state, the orbital wave function is mixed symmetry and so is the flavor-spin wave function, and the flavor-spin interaction is a less attractive. In the SU(3)F symmetric case, Eq. (1), one obtains mass splittings (2)ΔMχ=−14Cχ,N(939),N∗(1440),−4Cχ,Δ(1232),−2Cχ,N∗(1535). Here we have approximated the N∗(1535) as a state with total quark spin-1/2.
diff --git a/semeval2017/test/S037026930301801X.ann b/semeval2017/test/S037026930301801X.ann
new file mode 100644
index 0000000..b312e18
--- /dev/null
+++ b/semeval2017/test/S037026930301801X.ann
@@ -0,0 +1,17 @@
+T1	Process 421 433	decay energy
+T2	Process 544 566	breakup cross-sections
+T3	Material 870 885	alpha-particles
+T4	Material 891 907	valence neutrons
+T6	Task 915 984	comprehensive measurements of the neutron-removal and cluster breakup
+T7	Process 969 984	cluster breakup
+T8	Material 70 91	di-cluster structures
+T9	Process 125 140	breakup process
+T10	Process 173 229	wavefunctions of the ground state and the excited states
+T11	Process 235 278	first-chance cluster breakup cross-sections
+T12	Material 318 345	xHe+A−xHe cluster structure
+T13	Material 605 611	nuclei
+T14	Process 693 711	reaction mechanics
+T15	Material 821 842	neutron rich isotopes
+T16	Process 949 964	neutron-removal
+T5	Process 789 813	dominant structural mode
+T17	Material 1064 1088	neutron-rich Be isotopes
diff --git a/semeval2017/test/S037026930301801X.txt b/semeval2017/test/S037026930301801X.txt
new file mode 100644
index 0000000..c71386a
--- /dev/null
+++ b/semeval2017/test/S037026930301801X.txt
@@ -0,0 +1 @@
+The measurements presented here provide evidence for the existence of di-cluster structures in 10–12,14Be. Certainly, if the breakup process samples the overlap between the wavefunctions of the ground state and the excited states, the first-chance cluster breakup cross-sections, shown in Fig. 4(a), indicate that the xHe+A−xHe cluster structure does not decrease over the mass range A=10, 12 and 14. Given also that the decay energy threshold increases with mass number, the present data may even indicate a slight increase in clustering. The breakup cross-sections also appear to demonstrate that these nuclei possess a stronger structural overlap with an α–Xn–α configuration, although the reaction mechanics by which this final state is reached may be complex. That is to say that the dominant structural mode of the neutron rich isotopes may be identified with two alpha-particles plus valence neutrons. These comprehensive measurements of the neutron-removal and cluster breakup for the first time provide experimental data whereby the structure of the most neutron-rich Be isotopes can be modeled via their reactions.
diff --git a/semeval2017/test/S0370269304005829.ann b/semeval2017/test/S0370269304005829.ann
new file mode 100644
index 0000000..b886830
--- /dev/null
+++ b/semeval2017/test/S0370269304005829.ann
@@ -0,0 +1,15 @@
+T1	Material 34 50	beta-beam source
+T2	Material 79 100	static tritium source
+T3	Process 122 132	beta-beams
+T4	Process 145 160	neutrino fluxes
+T5	Process 213 241	electron–neutrino scattering
+T6	Material 458 470	reactor case
+T7	Material 554 570	electron recoils
+T8	Material 595 611	beta-beam source
+T9	Process 692 716	neutrino magnetic moment
+T10	Material 753 766	Helium-6 ions
+T11	Material 692 700	neutrino
+T12	Material 213 221	electron
+T13	Material 222 230	neutrino
+T14	Material 145 153	neutrino
+T15	Material 815 824	neutrinos
diff --git a/semeval2017/test/S0370269304005829.txt b/semeval2017/test/S0370269304005829.txt
new file mode 100644
index 0000000..fcbabe3
--- /dev/null
+++ b/semeval2017/test/S0370269304005829.txt
@@ -0,0 +1 @@
+Let us now consider the case of a beta-beam source. Similarly to the case of a static tritium source, an advantage of the beta-beams is that the neutrino fluxes can be very accurately calculated. Fig. 3 shows the electron–neutrino scattering events in the range of 0.1 MeV to 1 MeV and 1 keV to 10 keV, respectively. (In Fig. 3(b) we have rounded to the nearest integer number of counts.) The shape of the flux-averaged cross sections is very similar to the reactor case as reflected in the event rates shown in the figures. As can be seen, by measuring electron recoils in the keV range with a beta-beam source one could, with a sufficiently strong source, have a very clear signature for a neutrino magnetic moment of 5×10−11μB. These figures are for Helium-6 ions, however, similar results can be obtained using neutrinos from 18Ne. The results shown are obtained for an intensity of 1015 ν/s (i.e., 1015  ions/s). If there is no magnetic moment, this intensity will produce about 170 events in the 0.1 MeV to 1 MeV range per year and 3 events in the 1 keV to 10 keV range per year. These numbers increase to 210 and 55, respectively, in the case of a magnetic moment of 5×10−11μB.
diff --git a/semeval2017/test/S0370269304007567.ann b/semeval2017/test/S0370269304007567.ann
new file mode 100644
index 0000000..d1fd27c
--- /dev/null
+++ b/semeval2017/test/S0370269304007567.ann
@@ -0,0 +1,22 @@
+T1	Material 29 43	drift chambers
+T2	Material 94 127	flash analog-to-digital converter
+T3	Material 288 320	drift chamber simulation package
+T4	Material 322 330	GARFIELD
+R1	Hyponym-of Arg1:T4 Arg2:T3	
+T5	Material 343 374	gas property simulation package
+T6	Material 376 384	MAGBOLTZ
+R2	Hyponym-of Arg1:T6 Arg2:T5	
+T7	Process 894 908	magnetic field
+T8	Process 975 996	chamber manufacturing
+T9	Material 975 982	chamber
+T10	Process 720 732	x–t relation
+T11	Process 172 224	relation between the hit position and the drift time
+T12	Process 226 238	x–t relation
+*	Synonym-of T12 T11
+T13	Process 245 257	x–t relation
+T14	Material 404 412	chambers
+T15	Process 1027 1039	x–t relation
+T16	Process 1271 1283	x–t relation
+T17	Material 1109 1120	chamber gas
+T18	Process 1187 1199	x–t relation
+T19	Material 1287 1291	ODCs
diff --git a/semeval2017/test/S0370269304007567.txt b/semeval2017/test/S0370269304007567.txt
new file mode 100644
index 0000000..e8191c3
--- /dev/null
+++ b/semeval2017/test/S0370269304007567.txt
@@ -0,0 +1 @@
+Each hit position inside the drift chambers was calculated from the drift time digitized by a flash analog-to-digital converter. The calculation was carried out based on a relation between the hit position and the drift time (x–t relation). The x–t relation was precisely calculated by a drift chamber simulation package, GARFIELD [20], and a gas property simulation package, MAGBOLTZ [21]. Although the chambers were constructed carefully with a tolerance of 100 μm, there was a small position deviation of wires and field-shaping patterns, which could locally modify the electric field. In order to take account of the limited accuracy in the chamber manufacturing, a correction was commonly applied to the calculated x–t relation throughout the experiments. The correction was obtained to minimize the χ2 in the fitting of straight tracks of clean muon events observed on the ground without magnetic field. The correction was as small as expected from the accuracy in the chamber manufacturing. During the observations, the x–t relation was affected by the variation in the pressure and temperature of the chamber gas. In order to take account of these time-dependent variations, the x–t relation was calibrated for each data-taking run. Especially in calibrating the x–t relation of ODCs, an absolute reference positions were provided by SciFi, which are not affected by the variation in the pressure nor temperature.
diff --git a/semeval2017/test/S0370269304007816.ann b/semeval2017/test/S0370269304007816.ann
new file mode 100644
index 0000000..61a6cf0
--- /dev/null
+++ b/semeval2017/test/S0370269304007816.ann
@@ -0,0 +1,9 @@
+T1	Process 16 34	multispecies model
+T2	Process 73 119	harmonic, two-body and three-body interactions
+T3	Task 3 67	define a new multispecies model of Calogero type in D dimensions
+T4	Process 142 167	conformal SU(1,1) algebra
+T6	Process 281 307	equidistant energy spectra
+T7	Process 490 516	construct ladder operators
+T8	Process 442 480	find their corresponding eigenenergies
+T9	Process 338 374	construct all polynomial eigenstates
+T10	Task 553 587	Analysing corresponding Fock space
diff --git a/semeval2017/test/S0370269304007816.txt b/semeval2017/test/S0370269304007816.txt
new file mode 100644
index 0000000..032baf0
--- /dev/null
+++ b/semeval2017/test/S0370269304007816.txt
@@ -0,0 +1 @@
+We define a new multispecies model of Calogero type in D dimensions with harmonic, two-body and three-body interactions. Using the underlying conformal SU(1,1) algebra, we indicate how to find the complete set of the states in Bargmann–Fock space. There are towers of states, with equidistant energy spectra in each tower. We explicitely construct all polynomial eigenstates, namely the center-of-mass states and global dilatation modes, and find their corresponding eigenenergies. We also construct ladder operators for these global collective states. Analysing corresponding Fock space, we detect the universal critical point at which the model exhibits singular behavior. The above results are universal for all systems with underlying conformal SU(1,1) symmetry.
diff --git a/semeval2017/test/S0370269304008421.ann b/semeval2017/test/S0370269304008421.ann
new file mode 100644
index 0000000..88487a4
--- /dev/null
+++ b/semeval2017/test/S0370269304008421.ann
@@ -0,0 +1,15 @@
+T1	Material 19 21	Pc
+T2	Process 208 227	matter Hamiltonians
+T3	Process 197 203	vacuum
+T4	Process 109 129	conversion in matter
+T5	Process 150 189	relative orientation of the eigenstates
+T6	Process 269 296	analytical solutions for Pc
+T7	Material 294 296	Pc
+T8	Material 371 374	NSI
+T9	Process 332 379	generalization of these results to the NSI case
+R1	Hyponym-of Arg1:T7 Arg2:T8	
+T10	Process 569 591	adiabaticity violation
+T11	Material 812 820	neutrino
+T12	Material 880 888	neutrino
+T13	Material 962 964	Pc
+T14	Material 1101 1109	neutrino
diff --git a/semeval2017/test/S0370269304008421.txt b/semeval2017/test/S0370269304008421.txt
new file mode 100644
index 0000000..02fa6f6
--- /dev/null
+++ b/semeval2017/test/S0370269304008421.txt
@@ -0,0 +1 @@
+The expression for Pc is also easily found in the same basis, where it becomes apparent that the dynamics of conversion in matter depends only on the relative orientation of the eigenstates of the vacuum and matter Hamiltonians. This allows to directly apply the known analytical solutions for Pc, and, upon rotating back, obtain a generalization of these results to the NSI case. For example, the answer for the infinite exponential profile [18,19] A∝exp(−r/r0) becomes Pc=exp[γ(1−cos2θrel)/2]−1exp(γ)−1, where γ≡4πr0Δ=πr0Δm2/Eν. We further observe that since γ⪢1 the adiabaticity violation occurs only when |θ−α|⪡1 and φ≃π/2, which is the analogue of the small-angle MSW [10,20] effect in the rotated basis. The “resonant” region in the Sun where level jumping can take place is narrow, defined by A≃Δ [21]. A neutrino produced at a lower density evolves adiabatically, while a neutrino produced at a higher density may undergo level crossing. The probability Pc in the latter case is given to a very good accuracy by the formula for the linear profile, with an appropriate gradient taken along the neutrino trajectory, (12)Pc≃Θ(A−Δ)e−γ(cos2θrel+1)/2, where Θ(x) is the step function, Θ(x)=1 for x>0 and Θ(x)=0 otherwise. We emphasize that our results differ from the similar ones given in [5,22] in three important respects: (i) they are valid for all, not just small values of α (which is essential for our application), (ii) they include the angle φ, and (iii) the argument of the Θ function does not contain cos2θ, as follows from [21]. We stress that for large values of α and φ≃π/2 adiabaticity is violated for large values of θ.
diff --git a/semeval2017/test/S0370269304008494.ann b/semeval2017/test/S0370269304008494.ann
new file mode 100644
index 0000000..32a010b
--- /dev/null
+++ b/semeval2017/test/S0370269304008494.ann
@@ -0,0 +1,26 @@
+T1	Task 26 41	nuclear physics
+T2	Task 49 111	observation of at least partial restoration of chiral symmetry
+R1	Hyponym-of Arg1:T2 Arg2:T1	
+T3	Material 123 145	chiral order parameter
+T4	Material 147 150	q̄q
+*	Synonym-of T4 T3
+T5	Material 207 221	nuclear matter
+T6	Material 278 294	quark condensate
+T7	Process 332 354	photonuclear reactions
+T8	Process 383 421	partial restoration of chiral symmetry
+T9	Material 462 469	σ meson
+T10	Material 499 503	pion
+T11	Material 511 525	nuclear medium
+T12	Material 477 491	chiral partner
+T13	Material 627 633	photon
+T14	Process 627 651	photon induced reactions
+T15	Material 655 661	nuclei
+T16	Material 747 754	σ meson
+T17	Process 936 960	nuclear many-body system
+T18	Material 1117 1123	nuclei
+T19	Material 1203 1206	QCD
+T20	Task 1071 1109	partial restoration of chiral symmetry
+T21	Process 969 1038	Measuring a threshold enhancement of the π0π0 invariant mass spectrum
+T22	Process 854 864	σ→ππ decay
+T23	Process 555 601	measuring the π0π0 invariant mass distribution
+T24	Material 718 731	quasiparticle
diff --git a/semeval2017/test/S0370269304008494.txt b/semeval2017/test/S0370269304008494.txt
new file mode 100644
index 0000000..0b2df23
--- /dev/null
+++ b/semeval2017/test/S0370269304008494.txt
@@ -0,0 +1 @@
+One major goal of current nuclear physics is the observation of at least partial restoration of chiral symmetry. Since the chiral order parameter 〈q̄q〉 is expected to decrease by about 30% already at normal nuclear matter density [1–4], any in-medium change due to the dropping quark condensate should in principle be observable in photonuclear reactions. The conjecture that such a partial restoration of chiral symmetry causes a softening and narrowing of the σ meson as the chiral partner of the pion in the nuclear medium [5,6] has led to the idea of measuring the π0π0 invariant mass distribution near the 2π threshold in photon induced reactions on nuclei [7]. In contrast to its questionable nature as a proper quasiparticle in vacuum, the σ meson might develop a much narrower peak at finite baryon density due to phase-space suppression for the σ→ππ decay, hence making it possible to explore its properties when embedded in a nuclear many-body system [8–11]. Measuring a threshold enhancement of the π0π0 invariant mass spectrum might serve as a signal for the partial restoration of chiral symmetry inside nuclei and, therefore, give information about one of the most fundamental features of QCD.
diff --git a/semeval2017/test/S0370269304009293.ann b/semeval2017/test/S0370269304009293.ann
new file mode 100644
index 0000000..d9beda7
--- /dev/null
+++ b/semeval2017/test/S0370269304009293.ann
@@ -0,0 +1,7 @@
+T1	Material 3 6	OPE
+T2	Material 10 17	VQCD(r)
+T3	Process 358 377	multipole expansion
+T4	Material 624 637	QCD potential
+T5	Process 673 692	multipole expansion
+T6	Process 876 902	dimensional regularization
+T7	Process 937 956	hard cutoff schemes
diff --git a/semeval2017/test/S0370269304009293.txt b/semeval2017/test/S0370269304009293.txt
new file mode 100644
index 0000000..60eb068
--- /dev/null
+++ b/semeval2017/test/S0370269304009293.txt
@@ -0,0 +1 @@
+An OPE of VQCD(r) was developed in [3]. In this and the next paragraph, we review the content of that paper relevant to our analysis. Within this framework, short-distance contributions are contained in the potentials, which are in fact the Wilson coefficients, while non-perturbative contributions are contained in the matrix elements that are organized in multipole expansion in r→ at r≪ΛQCD−1. The following relation was derived: (16)VQCD(r)=VS(r)+δEUS(r),(17)δEUS=−ig2TFNC∫0∞dte−iΔV(r)t×〈r→⋅E→a(t)φadj(t,0)abr→⋅E→b(0)〉+O(r3). VS(r) denotes the singlet potential. δEUS(r) denotes the non-perturbative contribution to the QCD potential, which starts at O(ΛQCD3r2) in the multipole expansion. ΔV(r)=VO(r)−VS(r) denotes the difference between the octet and singlet potentials; see [3] for details. Intuitively VS(r) corresponds to VUV(r;μf) and δEUS(r) to VIR(r;μf). We adopt dimensional regularization in our analysis; we also refer to hard cutoff schemes when discussing conceptual aspects.
diff --git a/semeval2017/test/S0370269304012638.ann b/semeval2017/test/S0370269304012638.ann
new file mode 100644
index 0000000..3f79173
--- /dev/null
+++ b/semeval2017/test/S0370269304012638.ann
@@ -0,0 +1,16 @@
+T1	Material 114 126	two-loop QED
+T2	Process 114 143	two-loop QED effective action
+T3	Process 203 218	one-loop action
+T4	Process 299 311	higher loops
+T5	Process 384 409	all-loop effective action
+T6	Task 681 718	analysis of N=2 covariant supergraphs
+T7	Material 697 718	covariant supergraphs
+T8	Process 856 871	D3-brane action
+T9	Material 875 882	AdS5×S5
+T10	Material 934 948	Coulomb branch
+T11	Material 959 970	gauge group
+T12	Material 971 976	SU(N)
+R1	Hyponym-of Arg1:T12 Arg2:T11	
+T13	Material 1001 1013	SU(N−1)×U(1)
+T14	Material 917 926	SU(N) SYM
+T15	Task 1051 1078	F6 tests of this conjecture
diff --git a/semeval2017/test/S0370269304012638.txt b/semeval2017/test/S0370269304012638.txt
new file mode 100644
index 0000000..1dce03a
--- /dev/null
+++ b/semeval2017/test/S0370269304012638.txt
@@ -0,0 +1 @@
+It has recently been demonstrated [15] (see also [13] and references therein) that for a self-dual background the two-loop QED effective action takes a remarkably simple form that is very similar to the one-loop action in the same background. There are expectations that this similarity persists at higher loops, and therefore there should be some remarkable structure encoded in the all-loop effective action for gauge theories. In the supersymmetric case, one has to replace the requirement of self-duality by that of relaxed super self-duality [16] in order to arrive at conclusions similar to those given in [15]. Further progress in this direction may be achieved through the analysis of N=2 covariant supergraphs. Finally, we believe that the results of this Letter may be helpful in the context of the conjectured correspondence [17–19] between the D3-brane action in AdS5×S5 and the low-energy action for N=4 SU(N) SYM on its Coulomb branch, with the gauge group SU(N) spontaneously broken to SU(N−1)×U(1). There have appeared two independent F6 tests of this conjecture [19,20], with conflicting conclusions. The approach advocated here provides the opportunity for a further test.
diff --git a/semeval2017/test/S037877531001949X.ann b/semeval2017/test/S037877531001949X.ann
new file mode 100644
index 0000000..55c1dc3
--- /dev/null
+++ b/semeval2017/test/S037877531001949X.ann
@@ -0,0 +1,18 @@
+T1	Task 4 33	Substrate Induced Coagulation
+T2	Task 35 38	SIC
+*	Synonym-of T1 T2
+T3	Material 223 236	carbon blacks
+T4	Process 302 332	electromagnetic wave shielding
+T5	Process 341 354	metallization
+T6	Material 383 404	printed wiring boards
+T7	Material 432 451	conducting polymers
+T8	Material 461 467	Teflon
+R1	Hyponym-of Arg1:T8 Arg2:T7	
+T9	Process 502 513	dip-coating
+T10	Process 663 685	meta-stable dispersion
+T11	Process 711 722	SIC coating
+T12	Material 734 746	carbon black
+T13	Process 866 893	LiCoO2-composite electrodes
+T14	Process 898 914	Li-ion batteries
+T15	Process 105 112	coating
+T16	Process 40 47	coating
diff --git a/semeval2017/test/S037877531001949X.txt b/semeval2017/test/S037877531001949X.txt
new file mode 100644
index 0000000..ece047f
--- /dev/null
+++ b/semeval2017/test/S037877531001949X.txt
@@ -0,0 +1 @@
+The Substrate Induced Coagulation (SIC) coating process provides a self assembled and almost binder free coating with small particles. Most research so far has been used to coat a variety of surfaces with highly conductive carbon blacks [34,35,36]. Layers deposited by this technique have been used in electromagnetic wave shielding, in the metallization process of through-holes in printed wiring boards, and in the manufacture of conducting polymers (such as Teflon) [37,38,39]. An advantage of this dip-coating process is that it can be used for any kind of surface, provided the substrate is stable in water and that the particles used for the coating form a meta-stable dispersion. Recently, a non-aqueous SIC coating process of carbon black was developed by investigating the stabilities of non-aqueous dispersions [36]. These dispersions were used to prepare LiCoO2-composite electrodes for Li-ion batteries with an improved conductivity while keeping the content of active battery material high [35].
diff --git a/semeval2017/test/S0885230816301759.ann b/semeval2017/test/S0885230816301759.ann
new file mode 100644
index 0000000..049640e
--- /dev/null
+++ b/semeval2017/test/S0885230816301759.ann
@@ -0,0 +1,6 @@
+T1	Task 158 226	provides non-native learners with feedback on sentence stress errors
+T2	Task 361 399	predict and detect the sentence stress
+T3	Material 815 826	CALL system
+T4	Process 22 53	sentence stress feedback system
+T5	Process 446 477	prediction and detection models
+T6	Process 517 548	stress feedback provision model
diff --git a/semeval2017/test/S0885230816301759.txt b/semeval2017/test/S0885230816301759.txt
new file mode 100644
index 0000000..832ecab
--- /dev/null
+++ b/semeval2017/test/S0885230816301759.txt
@@ -0,0 +1 @@
+This paper proposes a sentence stress feedback system in which sentence stress prediction, detection, and feedback provision models are combined. This system provides non-native learners with feedback on sentence stress errors so that they can improve their English rhythm and fluency in a self-study setting. The sentence stress feedback system was devised to predict and detect the sentence stress of any practice sentence. The accuracy of the prediction and detection models was 96.6% and 84.1%, respectively. The stress feedback provision model offers positive or negative stress feedback for each spoken word by comparing the probability of the predicted stress pattern with that of the detected stress pattern. In an experiment that evaluated the educational effect of the proposed system incorporated in our CALL system, significant improvements in accentedness and rhythm were seen with the students who trained with our system but not with those in the control group.
diff --git a/semeval2017/test/S092583881302834X.ann b/semeval2017/test/S092583881302834X.ann
new file mode 100644
index 0000000..242640f
--- /dev/null
+++ b/semeval2017/test/S092583881302834X.ann
@@ -0,0 +1,13 @@
+T1	Material 21 24	MGs
+T2	Task 235 266	search for a BE in plastic flow
+T3	Process 319 332	shear-banding
+T4	Process 402 423	Anelastic deformation
+T5	Process 663 689	shear transformation zones
+T6	Process 691 695	STZs
+*	Synonym-of T5 T6
+T7	Task 791 818	observe anelasticity in MGs
+T8	Task 1064 1107	investigate the effects of torque reversal.
+T9	Material 299 302	MGs
+T10	Material 178 180	MG
+T11	Material 745 748	MGs
+T12	Material 973 975	MG
diff --git a/semeval2017/test/S092583881302834X.txt b/semeval2017/test/S092583881302834X.txt
new file mode 100644
index 0000000..fb16ef6
--- /dev/null
+++ b/semeval2017/test/S092583881302834X.txt
@@ -0,0 +1 @@
+Plastically deformed MGs develop inhomogeneity and show harder and softer regions [16]. While this could in principle be associated with a BE according to the composite model, a MG provides no basis for a dislocation-based theory. The search for a BE in plastic flow is hindered by the softening of MGs associated with shear-banding (in contrast to the work-hardening familiar in conventional alloys). Anelastic deformation is, however, of interest as its time-dependence must relate to relaxation processes in the MG structure that in turn should be connected to the onset of plasticity. In particular, anelasticity may offer a way to study the operation of the shear transformation zones (STZs [17]) often used to interpret the deformation of MGs. Fujita et al. have used torsion tests to observe anelasticity in MGs loaded (at maximum, on the cylindrical sample surface) to 30%, 16% and just 4% of the shear yield stress τy [18]. In the present work we apply torsion to MG samples to reach stresses up to 24% of τy, and for the first time in the elastic regime investigate the effects of torque reversal.
diff --git a/semeval2017/test/S0925838814009669.ann b/semeval2017/test/S0925838814009669.ann
new file mode 100644
index 0000000..b969f02
--- /dev/null
+++ b/semeval2017/test/S0925838814009669.ann
@@ -0,0 +1,32 @@
+T1	Material 0 3	SPS
+T3	Process 102 115	consolidation
+T4	Task 127 193	investigated the effect of processing of cryomilled Al 5083 powder
+T5	Process 198 201	SPS
+T6	Process 208 255	X-ray Diffraction (XRD) grain size calculations
+T8	Process 638 709	combination of cryomilling and SPS of AA-5356/B4C nanocomposites powder
+T9	Task 824 914	investigated the effect of SPS on mechanically milled AA6061 (Al–Mg–Si) micro-alloy powder
+T10	Process 273 276	SPS
+T11	Material 491 494	SPS
+T12	Material 787 805	bulk nanocomposite
+T13	Material 1020 1023	SPS
+T16	Material 1143 1170	unmilled and milled powders
+T17	Material 1266 1296	milled nanocrystalline powders
+T2	Process 44 115	retain the nanostructure of aluminum alloy powders during consolidation
+T18	Material 55 94	nanostructure of aluminum alloy powders
+T19	Material 72 94	aluminum alloy powders
+T20	Process 154 193	processing of cryomilled Al 5083 powder
+T21	Material 168 193	cryomilled Al 5083 powder
+T22	Process 208 225	X-ray Diffraction
+T23	Process 227 230	XRD
+*	Synonym-of T22 T23
+T24	Material 319 324	alloy
+T7	Process 438 453	nanoindentation
+T25	Material 471 477	AA5083
+T26	Process 653 664	cryomilling
+T27	Process 669 672	SPS
+T28	Material 676 709	AA-5356/B4C nanocomposites powder
+T29	Process 851 854	SPS
+T30	Material 858 914	mechanically milled AA6061 (Al–Mg–Si) micro-alloy powder
+T31	Material 858 884	mechanically milled AA6061
+T32	Material 886 894	Al–Mg–Si
+*	Synonym-of T31 T32
diff --git a/semeval2017/test/S0925838814009669.txt b/semeval2017/test/S0925838814009669.txt
new file mode 100644
index 0000000..fdbd236
--- /dev/null
+++ b/semeval2017/test/S0925838814009669.txt
@@ -0,0 +1 @@
+SPS has been utilized in several studies to retain the nanostructure of aluminum alloy powders during consolidation. Ye et al. investigated the effect of processing of cryomilled Al 5083 powder via SPS [13]. X-ray Diffraction (XRD) grain size calculations before and after SPS showed that the average grain size of the alloy only increased from 25nm to 50nm (from powder to bulk state). Subsequently, the hardness values obtained through nanoindentation for specimens of AA5083 produced via SPS were highly improved in comparison to conventional sintering methods were grain coarsening takes place on a larger scale. In another study the combination of cryomilling and SPS of AA-5356/B4C nanocomposites powder was found to largely improve the microhardness and flexural strengths of the bulk nanocomposite. Rana et al. [14] investigated the effect of SPS on mechanically milled AA6061 (Al–Mg–Si) micro-alloy powder. The average grain size after 20h of milling was ∼35nm and increased to only ∼85nm after processing with SPS at 500°C. Microhardness and compressive tests were carried out on the consolidated near full density specimens of both unmilled and milled powders and the results showed significant increase in both hardness and compressive strengths for the milled nanocrystalline powders as a result of the very fine grain size.
diff --git a/semeval2017/test/S0927025614003322.ann b/semeval2017/test/S0927025614003322.ann
new file mode 100644
index 0000000..59d480e
--- /dev/null
+++ b/semeval2017/test/S0927025614003322.ann
@@ -0,0 +1,15 @@
+T1	Task 15 48	high-throughput materials science
+T4	Process 304 317	WEB-based API
+T5	Material 374 391	AFLOWLIB database
+T6	Task 329 391	improve the accessibility and utility of the AFLOWLIB database
+T10	Material 563 584	simulation provenance
+T11	Material 589 607	runtime properties
+T12	Process 804 830	sharing of updates of data
+T13	Material 893 913	alloy phase diagrams
+T2	Task 207 275	efficient interfaces to interrogate available data on various levels
+T3	Material 471 490	physical properties
+T7	Material 492 549	thermodynamic, crystallographic, or mechanical properties
+*	Synonym-of T3 T7
+T8	Process 673 724	browse a class of materials with a desired property
+T9	Process 745 768	higher level work-flows
+T14	Process 774 783	interface
diff --git a/semeval2017/test/S0927025614003322.txt b/semeval2017/test/S0927025614003322.txt
new file mode 100644
index 0000000..5d063ce
--- /dev/null
+++ b/semeval2017/test/S0927025614003322.txt
@@ -0,0 +1 @@
+A principle of high-throughput materials science is that one does not know a priori where the value of the data lies for any specific application. Trends and insights are deduced a posteriori. This requires efficient interfaces to interrogate available data on various levels. We have developed a simple WEB-based API to greatly improve the accessibility and utility of the AFLOWLIB database [14] to the scientific community. Through it, the client can access calculated physical properties (thermodynamic, crystallographic, or mechanical properties), as well as simulation provenance and runtime properties of the included systems. The data may be used directly (e.g., to browse a class of materials with a desired property) or integrated into higher level work-flows. The interface also allows for the sharing of updates of data used in previous published works, e.g., previously calculated alloy phase diagrams [19–31], thus the database can be expanded systematically.
diff --git a/semeval2017/test/S0927025614006181.ann b/semeval2017/test/S0927025614006181.ann
new file mode 100644
index 0000000..0cf4ee8
--- /dev/null
+++ b/semeval2017/test/S0927025614006181.ann
@@ -0,0 +1,29 @@
+T1	Process 4 27	Discrete Element Method
+T2	Material 39 46	spheres
+T3	Material 177 195	granular materials
+T4	Process 412 443	explicit time stepping approach
+T5	Process 473 508	translational and rotational motion
+T6	Process 545 551	forces
+T7	Process 666 702	linear spring–dashpot–slider analogy
+T8	Process 945 962	Particle cohesion
+T9	Process 1042 1077	translational and rotational motion
+T10	Process 1115 1170	half step leap-frog Verlet numerical integration scheme
+T11	Material 1181 1199	particle positions
+T12	Material 1204 1214	velocities
+T13	Task 147 195	modelling packing and flow of granular materials
+T14	Process 1216 1236	Near-neighbour lists
+T16	Process 556 563	moments
+T17	Process 447 468	numerically integrate
+T18	Material 601 642	inter-particle and particle wall contacts
+T19	Process 704 718	Contact forces
+T20	Material 812 829	particles centres
+T21	Process 831 857	Particle elastic stiffness
+T22	Material 831 847	Particle elastic
+T23	Process 868 884	sphere “overlap”
+T24	Process 917 932	contact damping
+T25	Material 1086 1094	particle
+T26	Material 1302 1319	particle contacts
+T27	Process 1326 1339	zoning method
+T15	Material 1435 1450	particle centre
+T28	Material 1485 1505	contacting particles
+T29	Material 868 874	sphere
diff --git a/semeval2017/test/S0927025614006181.txt b/semeval2017/test/S0927025614006181.txt
new file mode 100644
index 0000000..6fce0ce
--- /dev/null
+++ b/semeval2017/test/S0927025614006181.txt
@@ -0,0 +1 @@
+The Discrete Element Method applied to spheres is well established as a reasonably realistic tool, in a wide range of engineering disciplines, for modelling packing and flow of granular materials; Asmar et al. [8] describes the fundamentals of this method as applied by code developed in-house at Nottingham; since these are widely documented the details are not reproduced here, simply a summary. It applies an explicit time stepping approach to numerically integrate the translational and rotational motion of each particle from the resulting forces and moments acting on them at each timestep. The inter-particle and particle wall contacts are modelled using the linear spring–dashpot–slider analogy. Contact forces are modelled in the normal and tangential directions with respect to the line connecting the particles centres. Particle elastic stiffness is set so sphere “overlap” is not significant and moderate contact damping is applied. Particle cohesion can also be modelled but is assumed to be negligible in the current study. The translational and rotational motion of each particle is modelled using a half step leap-frog Verlet numerical integration scheme to update particle positions and velocities. Near-neighbour lists are used to increase the computational efficiency of determining particle contacts and a zoning method is used each time the list is composed; that is the system is divided into cubic regions, each particle centre is within one zone, and potential contacting particles are within the same or next-door neighbour zones. Full details are given in Asmar et al. [8].
diff --git a/semeval2017/test/S0927025615006357.ann b/semeval2017/test/S0927025615006357.ann
new file mode 100644
index 0000000..6ca387a
--- /dev/null
+++ b/semeval2017/test/S0927025615006357.ann
@@ -0,0 +1,24 @@
+T1	Process 15 39	crystal plasticity model
+T2	Process 61 65	XFEM
+T3	Task 87 136	study cyclic deformation and fatigue crack growth
+T4	Material 142 170	nickel-based superalloy LSHR
+T5	Process 288 318	RVE-based finite element model
+T6	Process 453 490	crystal plasticity constitutive model
+T7	Material 563 595	user-defined material subroutine
+T8	Material 597 601	UMAT
+T9	Material 646 652	ABAQUS
+T10	Process 706 729	finite element analyses
+T11	Process 827 839	crack growth
+T12	Process 857 871	XFEM technique
+T13	Process 880 914	calibrated crystal plasticity UMAT
+T14	Process 938 952	plastic strain
+T15	Material 172 198	Low Solvus High Refractory
+T16	Material 166 170	LSHR
+*	Synonym-of T16 T15
+T17	Process 507 525	cyclic deformation
+*	Synonym-of T7 T8
+T18	Task 819 839	predict crack growth
+T19	Task 423 490	determine the parameters of a crystal plasticity constitutive model
+T20	Task 265 318	develop and evaluate a RVE-based finite element model
+T21	Material 741 790	monotonic, stress relaxation and cyclic test data
+T22	Process 969 987	fracture criterion
diff --git a/semeval2017/test/S0927025615006357.txt b/semeval2017/test/S0927025615006357.txt
new file mode 100644
index 0000000..9568ddd
--- /dev/null
+++ b/semeval2017/test/S0927025615006357.txt
@@ -0,0 +1 @@
+In this paper, crystal plasticity model, in combination with XFEM, has been applied to study cyclic deformation and fatigue crack growth in a nickel-based superalloy LSHR (Low Solvus High Refractory) at high temperature. The first objective of this research was to develop and evaluate a RVE-based finite element model with the incorporation of a realistic material microstructure. The second objective of this work was to determine the parameters of a crystal plasticity constitutive model to describe the cyclic deformation behaviour of the material by using a user-defined material subroutine (UMAT) interfaced with the finite element package ABAQUS. The model parameters were calibrated from extensive finite element analyses to fit the monotonic, stress relaxation and cyclic test data. The third objective was to predict crack growth by combining the XFEM technique and the calibrated crystal plasticity UMAT, for which accumulated plastic strain was used as the fracture criterion.
diff --git a/semeval2017/test/S096386951400070X.ann b/semeval2017/test/S096386951400070X.ann
new file mode 100644
index 0000000..1e36327
--- /dev/null
+++ b/semeval2017/test/S096386951400070X.ann
@@ -0,0 +1,14 @@
+T2	Process 105 150	electrical resonance of an eddy current probe
+T3	Material 175 188	impedance SNR
+T4	Material 209 212	SNR
+T5	Process 347 387	defect-decoupling resonance-shift effect
+T6	Process 414 458	near electrical resonance signal enhancement
+T7	Process 460 465	NERSE
+*	Synonym-of T6 T7
+T8	Process 479 484	NERSE
+T9	Process 535 549	ECT inspection
+T10	Process 825 830	NERSE
+T11	Material 657 677	electrical impedance
+T1	Material 132 150	eddy current probe
+T12	Material 303 306	SNR
+T13	Task 15 48	highlighted a band of frequencies
diff --git a/semeval2017/test/S096386951400070X.txt b/semeval2017/test/S096386951400070X.txt
new file mode 100644
index 0000000..1ba0396
--- /dev/null
+++ b/semeval2017/test/S096386951400070X.txt
@@ -0,0 +1 @@
+This paper has highlighted a band of frequencies, outside the conventional operation range, and close to electrical resonance of an eddy current probe, where the magnitude of impedance SNR reaches a peak. The SNR of scans of three slots of varying depth were enhanced by a factor of up to 3.7, from the SNR measured at 1MHz. This is a result of a defect-decoupling resonance-shift effect and is referred to as the near electrical resonance signal enhancement (NERSE) phenomenon. NERSE frequency operation has significant potential for ECT inspection, and opens up a range of investigative possibilities. Within this investigation, only the magnitude of the electrical impedance has been analyzed. An immediate extension of this investigation will be to consider phase information, and determine whether a similar exploitable NERSE effect exists.
diff --git a/semeval2017/test/S0963869514000875.ann b/semeval2017/test/S0963869514000875.ann
new file mode 100644
index 0000000..eae9f97
--- /dev/null
+++ b/semeval2017/test/S0963869514000875.ann
@@ -0,0 +1,20 @@
+T1	Task 76 120	use of other time–frequency analysis methods
+T2	Process 126 142	STFT spectrogram
+T5	Process 436 459	time–frequency analysis
+T6	Process 469 494	discrete wavelet analysis
+T7	Process 522 547	multi-resolution analysis
+T8	Material 571 590	temporal resolution
+T9	Material 629 649	frequency resolution
+T10	Material 737 745	SH waves
+T11	Process 768 773	EMATs
+T12	Material 969 998	longitudinal ultrasonic waves
+T13	Material 1002 1023	electromagnetic waves
+T14	Process 89 112	time–frequency analysis
+T3	Process 281 292	spectrogram
+R1	Hyponym-of Arg1:T6 Arg2:T5	
+T4	Material 397 417	frequency resolution
+T15	Material 308 324	fixed resolution
+T16	Material 346 361	time resolution
+T17	Material 657 681	low frequency components
+T18	Material 806 825	pulsed array system
+T19	Task 889 949	demonstrating this phenomenon with a number of other systems
diff --git a/semeval2017/test/S0963869514000875.txt b/semeval2017/test/S0963869514000875.txt
new file mode 100644
index 0000000..eff66af
--- /dev/null
+++ b/semeval2017/test/S0963869514000875.txt
@@ -0,0 +1 @@
+There are a number of avenues to explore for future work, in particular the use of other time–frequency analysis methods. The STFT spectrogram was utilised here, as it is the simplest to implement. Whilst all of the echoes could be clearly resolved in both time and frequency, the spectrogram suffers from a fixed resolution, i.e. an increase of time resolution necessarily leads to a decrease in frequency resolution. Other methods of time–frequency analysis, such as discrete wavelet analysis, benefit from advantage of multi-resolution analysis, which offers improved temporal resolution of the high frequency components, and frequency resolution of the low frequency components [25,18,19]. Also, whilst the current work has utilised SH waves that are generated by EMATs, the physics that describes the pulsed array system is universal to other types of waves. Future work will include demonstrating this phenomenon with a number of other systems, for example using longitudinal ultrasonic waves or electromagnetic waves.
diff --git a/semeval2017/test/S0963869514000954.ann b/semeval2017/test/S0963869514000954.ann
new file mode 100644
index 0000000..b7c9335
--- /dev/null
+++ b/semeval2017/test/S0963869514000954.ann
@@ -0,0 +1,23 @@
+T1	Process 0 30	Global optimisation algorithms
+T2	Task 57 87	solve the optimisation problem
+T3	Material 231 250	local minima/maxima
+T4	Process 256 273	genetic algorithm
+T5	Process 275 277	GA
+T6	Process 289 318	global optimisation technique
+*	Synonym-of T4 T5
+T7	Material 470 494	decision variable domain
+T8	Material 496 497	X
+*	Synonym-of T7 T8
+T9	Material 633 643	population
+T10	Material 645 651	parent
+R1	Hyponym-of Arg1:T10 Arg2:T9	
+T11	Process 872 874	GA
+T12	Process 125 162	incorporating statistical information
+T13	Process 192 211	objective functions
+R2	Hyponym-of Arg1:T6 Arg2:T5	
+T14	Process 324 361	mimics biological evolution processes
+T15	Process 428 460	random selection of a population
+T16	Process 504 521	genetic algorithm
+T17	Process 587 623	selects a group of individual values
+T18	Process 679 688	crossover
+T19	Process 692 700	mutation
diff --git a/semeval2017/test/S0963869514000954.txt b/semeval2017/test/S0963869514000954.txt
new file mode 100644
index 0000000..2603c00
--- /dev/null
+++ b/semeval2017/test/S0963869514000954.txt
@@ -0,0 +1 @@
+Global optimisation algorithms are used in this study to solve the optimisation problem as they are known to be efficient in incorporating statistical information and dealing with complicated objective functions that have multiple local minima/maxima. The genetic algorithm (GA) is such a global optimisation technique that mimics biological evolution processes and is used in this particular study. The algorithm starts with a random selection of a population from the decision variable domain (X). The genetic algorithm repeatedly modifies this population. At each step, the algorithm selects a group of individual values from the population (parent) which are evolved through crossover or mutation to produce members of the next generation. This process is repeated for several generations until an optimum solution is reached. See [19] for a fuller description of the GA.
diff --git a/semeval2017/test/S0963869514001066.ann b/semeval2017/test/S0963869514001066.ann
new file mode 100644
index 0000000..2a8fc65
--- /dev/null
+++ b/semeval2017/test/S0963869514001066.ann
@@ -0,0 +1,25 @@
+T1	Process 7 28	Total Focusing Method
+T2	Process 30 33	TFM
+T3	Material 141 149	FMC data
+T4	Process 350 370	Linear interpolation
+T5	Process 467 481	TFM image ITFM
+T6	Process 589 606	Hilbert transform
+T7	Material 671 691	transmitting element
+T8	Material 728 745	receiving element
+T9	Material 937 940	FMC
+T10	Process 976 992	conventional TFM
+T11	Material 186 195	x–z plane
+T12	Material 234 238	grid
+T13	Process 215 238	discretized into a grid
+T14	Process 302 348	synthesize a focus at every point in this grid
+T15	Process 292 298	summed
+T16	Material 344 348	grid
+T17	Process 426 444	discretely sampled
+T18	Material 467 476	TFM image
+T19	Material 633 641	FMC data
+T20	Material 747 748	R
+*	Synonym-of T8 T20
+T21	Material 693 694	T
+*	Synonym-of T7 T21
+T22	Process 815 824	summation
+T23	Material 857 883	transmitter–receiver pairs
diff --git a/semeval2017/test/S0963869514001066.txt b/semeval2017/test/S0963869514001066.txt
new file mode 100644
index 0000000..7aa368e
--- /dev/null
+++ b/semeval2017/test/S0963869514001066.txt
@@ -0,0 +1 @@
+In the Total Focusing Method (TFM) the beam is synthetically focused at every point in the target region [7] as follows. After obtaining the FMC data, the target region, which is in the x–z plane in 2D (Fig. 1), is discretized into a grid. The signals from all elements in the array are then summed to synthesize a focus at every point in this grid. Linear interpolation of the time domain signals is necessary since they are discretely sampled. The intensity of the TFM image ITFM at any point (x,z) is given by:(10)ITFM(x,z)=|∑HTR(1c((xT−x)2+z2+(xR−x)2+z2))|forallT,Rwhere HTR(t) is the Hilbert transform of a signal uTR(t) in the FMC data, xT is the x-position of the transmitting element (T) and xR is the x-position of the receiving element (R). Note that the z-position of all elements is zero (Fig. 3a). The summation is carried out for all possible transmitter–receiver pairs and therefore uses all the information captured with FMC. This algorithm is referred to as ‘conventional TFM’ in this paper.
diff --git a/semeval2017/test/S0963869514001078.ann b/semeval2017/test/S0963869514001078.ann
new file mode 100644
index 0000000..6a0f30f
--- /dev/null
+++ b/semeval2017/test/S0963869514001078.ann
@@ -0,0 +1,14 @@
+T1	Process 61 78	Lorentz mechanism
+T2	Material 108 113	steel
+T3	Material 138 154	low carbon steel
+T4	Process 166 192	magnetostrictive mechanism
+T5	Material 269 288	ferromagnetic oxide
+T6	Material 410 424	magnetic field
+T7	Process 437 458	generation efficiency
+T8	Material 799 804	EMATs
+T9	Task 820 846	studying phase transitions
+T10	Material 850 865	magnetic alloys
+T11	Process 739 776	electromagnetic ultrasound generation
+R1	Hyponym-of Arg1:T3 Arg2:T2	
+T12	Process 576 601	magnetic phase transition
+T13	Process 645 685	ferromagnetic to paramagnetic transition
diff --git a/semeval2017/test/S0963869514001078.txt b/semeval2017/test/S0963869514001078.txt
new file mode 100644
index 0000000..760de02
--- /dev/null
+++ b/semeval2017/test/S0963869514001078.txt
@@ -0,0 +1 @@
+It is known that as the temperature of the sample rises, the Lorentz mechanism remains dominant until Tc of steel is reached (770°C for a low carbon steel), when the magnetostrictive mechanism becomes more efficient [15]. Previously this has been thought due to a thin ferromagnetic oxide layer on the sample surface, the surface being cooler than the bulk of the material [16,17]. This layer concentrates the magnetic field, increasing generation efficiency. Recent studies also show that rearrangement of the magnetic moments from ordered domains to a disordered state at a magnetic phase transition lowers the magnetostrictive constant. This ferromagnetic to paramagnetic transition is accompanied by large changes in the efficiency of electromagnetic ultrasound generation leading to the use of EMATs as a method of studying phase transitions in magnetic alloys [18].
diff --git a/semeval2017/test/S0963869515000572.ann b/semeval2017/test/S0963869515000572.ann
new file mode 100644
index 0000000..5c27695
--- /dev/null
+++ b/semeval2017/test/S0963869515000572.ann
@@ -0,0 +1,18 @@
+T3	Material 0 38	Shear horizontal (SH) ultrasound waves
+T4	Material 43 55	guided waves
+R1	Hyponym-of Arg1:T3 Arg2:T4	
+T5	Material 431 434	SH0
+T6	Process 635 648	SH ultrasound
+T7	Material 922 930	SH waves
+T8	Material 949 959	bulk waves
+T1	Process 261 282	bulk shear wave speed
+T9	Process 483 499	shear wave speed
+T2	Process 567 583	shear wave speed
+T10	Process 528 549	phase and group speed
+*	Synonym-of T10 T2
+T11	Process 610 621	oscillation
+T12	Material 690 694	wave
+*	Synonym-of T7 T8
+T13	Process 122 133	propagation
+T14	Process 899 910	propagation
+T15	Process 735 746	propagation
diff --git a/semeval2017/test/S0963869515000572.txt b/semeval2017/test/S0963869515000572.txt
new file mode 100644
index 0000000..529c4ea
--- /dev/null
+++ b/semeval2017/test/S0963869515000572.txt
@@ -0,0 +1 @@
+Shear horizontal (SH) ultrasound waves are guided waves (they have propagation properties affected by the geometry of the propagation medium), with symmetric and anti-symmetric modes; phase and group speeds are dependent on frequency, sample thickness, and the bulk shear wave speed [11,12]. The properties of the different modes can be very useful, such as in thickness measurement [13], but in this case they are a complication. SH0 has a thickness independent speed, equal to the shear wave speed, and is non-dispersive (the phase and group speed are equal to the shear wave speed for all frequencies). The oscillation direction of SH ultrasound is in the plane of the surface where the wave was generated, and perpendicular to the propagation direction, as shown in Fig. 1, with respect to a reference interface, which is typically a sample surface. Under certain conditions, such as over short propagation distances, SH waves can be treated as bulk waves.
diff --git a/semeval2017/test/S0968432814000250.ann b/semeval2017/test/S0968432814000250.ann
new file mode 100644
index 0000000..e4cc545
--- /dev/null
+++ b/semeval2017/test/S0968432814000250.ann
@@ -0,0 +1,32 @@
+T1	Task 0 9	Volume EM
+T2	Process 33 45	transmission
+T3	Material 49 78	scanning electron microscopes
+T4	Material 274 306	transmission electron microscopy
+T5	Task 340 391	ultrastructural examination of biomedical specimens
+T6	Task 439 459	cell biology studies
+T7	Process 509 535	deposition of heavy metals
+T8	Task 965 992	visualisation of structures
+T9	Material 1238 1255	low beam energies
+T10	Process 1272 1290	interaction volume
+T11	Task 1360 1374	volume imaging
+T12	Process 1443 1472	traditional manual techniques
+T13	Process 1489 1503	latest systems
+T14	Task 804 820	electron imaging
+T15	Process 722 750	scanning electron microscopy
+T16	Process 752 755	SEM
+*	Synonym-of T15 T16
+T17	Process 722 767	scanning electron microscopy (SEM) technology
+T18	Material 308 311	TEM
+*	Synonym-of T4 T18
+T19	Material 523 535	heavy metals
+T20	Process 822 826	SEMs
+T21	Material 832 863	field emission electron sources
+T22	Material 868 902	high efficiency electron detectors
+T23	Material 1001 1018	synaptic vesicles
+T24	Material 1023 1032	membranes
+T25	Material 1165 1182	membrane bilayers
+T26	Task 1132 1182	resolving individual leaflets of membrane bilayers
+T27	Process 1292 1318	enhancing axial resolution
+T28	Process 1383 1412	transmission and scanning EMs
+T29	Task 1526 1544	sample preparation
+T30	Task 1549 1556	imaging
diff --git a/semeval2017/test/S0968432814000250.txt b/semeval2017/test/S0968432814000250.txt
new file mode 100644
index 0000000..20d57c9
--- /dev/null
+++ b/semeval2017/test/S0968432814000250.txt
@@ -0,0 +1 @@
+Volume EM can be performed using transmission or scanning electron microscopes. Each approach has its own strengths and weaknesses, and the choice is dependant on the required lateral (x, y) and axial (z) resolution, and the size of the structure of interest. Historically, transmission electron microscopy (TEM) was the tool of choice for ultrastructural examination of biomedical specimens at sub-nanometer resolution. However, for many cell biology studies structural resolution is actually limited by the deposition of heavy metals onto membranes during sample preparation. In addition, voxel dimensions may only need to be half that of the smallest expected feature of interest (Briggman and Bock, 2012). Advances in scanning electron microscopy (SEM) technology are now driving a paradigm shift in electron imaging. SEMs with field emission electron sources and high efficiency electron detectors can achieve lateral resolutions in the order of 3nm, allowing visualisation of structures such as synaptic vesicles and membranes (De Winter et al., 2009; Knott et al., 2008; Vihinen et al., 2013; Villinger et al., 2012), though resolving individual leaflets of membrane bilayers remains a challenge (Vihinen et al., 2013). The use of low beam energies also limits the interaction volume, enhancing axial resolution (Hennig and Denk, 2007). In this review, volume imaging in both transmission and scanning EMs will be explored, moving from traditional manual techniques, through to the latest systems where aspects of both sample preparation and imaging have been automated.
diff --git a/semeval2017/test/S1010603009002676.ann b/semeval2017/test/S1010603009002676.ann
new file mode 100644
index 0000000..50a35f0
--- /dev/null
+++ b/semeval2017/test/S1010603009002676.ann
@@ -0,0 +1,33 @@
+T1	Task 30 142	experimental observations on how solvents can vary the TPA and TPF properties of fluorescent rhodamine (Rh) dyes
+T2	Process 85 88	TPA
+T3	Process 93 96	TPF
+T4	Material 111 142	fluorescent rhodamine (Rh) dyes
+T5	Material 143 147	Rh6G
+T6	Material 149 152	RhB
+T7	Material 157 162	Rh101
+R1	Hyponym-of Arg1:T5 Arg2:T4	
+R2	Hyponym-of Arg1:T6 Arg2:T4	
+R3	Hyponym-of Arg1:T7 Arg2:T4	
+T8	Material 190 204	xanthenes dyes
+T9	Process 275 300	single-molecule detection
+T10	Process 307 333	DNA-sequence determination
+T11	Process 340 362	fluorescence labelling
+T12	Material 465 479	rhodamine dyes
+T13	Process 608 611	TPA
+T14	Process 774 810	single-photon absorption (SPA) peaks
+T15	Process 815 824	TPA peaks
+T16	Process 926 929	SPA
+T17	Process 934 937	TPA
+T18	Material 956 960	dyes
+T19	Material 164 174	Rhodamines
+R4	Hyponym-of Arg1:T19 Arg2:T8	
+T20	Process 394 406	fluorescence
+T21	Material 111 132	fluorescent rhodamine
+T22	Material 134 136	Rh
+*	Synonym-of T22 T21
+T23	Process 774 798	single-photon absorption
+T24	Process 800 803	SPA
+*	Synonym-of T24 T23
+T25	Material 711 740	non-centrosymmetric molecules
+T26	Process 748 768	symmetry relaxations
+T27	Material 581 606	centrosymmetric molecules
diff --git a/semeval2017/test/S1010603009002676.txt b/semeval2017/test/S1010603009002676.txt
new file mode 100644
index 0000000..8378850
--- /dev/null
+++ b/semeval2017/test/S1010603009002676.txt
@@ -0,0 +1 @@
+In this paper, we present our experimental observations on how solvents can vary the TPA and TPF properties of fluorescent rhodamine (Rh) dyes Rh6G, RhB and Rh101. Rhodamines are well-known xanthenes dyes, which have been extensively used for many widespread applications in single-molecule detection [24], DNA-sequence determination [25], fluorescence labelling [26], etc. due to their strong fluorescence over the visible spectral region. Molecular geometries of rhodamine dyes are well-known [27,28] and indicate that all the structures are non-centrosymmetric. In general, for centrosymmetric molecules, TPA is forbidden when tuned to the transitions at one-half of the excitation frequencies. However, for non-centrosymmetric molecules due to symmetry relaxations, the single-photon absorption (SPA) peaks and TPA peaks may coincide. So we set our primary aim to find the effect of solvent polarity on the correlation of SPA and TPA peaks for all the dyes.
diff --git a/semeval2017/test/S1010603013001809.ann b/semeval2017/test/S1010603013001809.ann
new file mode 100644
index 0000000..24983ce
--- /dev/null
+++ b/semeval2017/test/S1010603013001809.ann
@@ -0,0 +1,47 @@
+T1	Task 22 60	enhancement of photocatalytic activity
+T2	Material 74 86	co-catalysts
+T3	Material 111 123	co-catalysts
+T4	Material 175 184	electrons
+T5	Material 220 225	holes
+T6	Material 270 272	Pt
+T7	Material 274 278	Fe3+
+T8	Material 284 288	Cu2+
+T9	Material 253 265	co-catalysts
+R1	Hyponym-of Arg1:T6 Arg2:T9	
+R2	Hyponym-of Arg1:T7 Arg2:T9	
+R3	Hyponym-of Arg1:T8 Arg2:T9	
+T10	Material 318 322	Fe3+
+T11	Material 327 331	Cu2+
+T12	Material 397 401	Fe2+
+T13	Material 406 409	Cu+
+T14	Material 427 435	electron
+T15	Material 463 490	reduced metal oxide cluster
+T16	Material 496 508	reduced ions
+T17	Material 570 578	electron
+T18	Material 592 598	oxygen
+T19	Material 620 624	CoOx
+T20	Material 626 630	CoPi
+T21	Material 632 637	CoPOx
+*	Synonym-of T20 T21
+T22	Material 640 644	IrOx
+T23	Material 650 654	RuOx
+T24	Process 674 689	water oxidation
+T25	Material 703 707	CoPi
+T26	Material 745 756	co-catalyst
+T27	Process 761 776	water oxidation
+T28	Process 826 837	co-grafting
+T29	Process 849 872	photocatalytic activity
+T30	Process 922 933	co-grafting
+T31	Material 974 983	electrons
+T32	Material 988 993	holes
+T33	Process 995 1018	photocatalytic activity
+T34	Material 1084 1089	BiVO4
+T35	Material 1118 1138	p-type semiconductor
+T36	Process 1171 1194	photocatalytic activity
+T37	Material 348 371	amorphous oxide cluster
+R4	Hyponym-of Arg1:T25 Arg2:T26	
+T38	Process 887 900	gaseous phase
+T39	Material 942 954	co-catalysts
+T40	Process 1022 1035	gaseous phase
+T41	Process 161 184	separation of electrons
+T42	Process 206 225	separation of holes
diff --git a/semeval2017/test/S1010603013001809.txt b/semeval2017/test/S1010603013001809.txt
new file mode 100644
index 0000000..af19062
--- /dev/null
+++ b/semeval2017/test/S1010603013001809.txt
@@ -0,0 +1 @@
+The other methods for enhancement of photocatalytic activity are grafting co-catalysts. There are two kinds of co-catalysts in terms of its function: one is for separation of electrons and the other is for separation of holes. The former representative co-catalysts are Pt, Fe3+, and Cu2+ [9–12]. It was reported that Fe3+ and Cu2+ were grafted as amorphous oxide cluster [9,10], and reduced into Fe2+ and Cu+ by receiving one electron, respectively [11,12]. The reduced metal oxide cluster with reduced ions could return into the original state by giving more than one electron to molecular oxygen. The latter ones are CoOx, CoPi (CoPOx), IrOx, and RuOx which are used for water oxidation, among which CoPi is reported to be the most effective co-catalyst for water oxidation [13]. However, there were few reports concerning co-grafting effects on photocatalytic activity especially in gaseous phase. We expected that by co-grafting of both co-catalysts for separations of electrons and holes, photocatalytic activity in gaseous phase would be further enhanced. Moreover, complex of BiVO4 with the other materials of p-type semiconductor is also effective for enhancing photocatalytic activity.
diff --git a/semeval2017/test/S107158191630074X.ann b/semeval2017/test/S107158191630074X.ann
new file mode 100644
index 0000000..82010a0
--- /dev/null
+++ b/semeval2017/test/S107158191630074X.ann
@@ -0,0 +1,7 @@
+T1	Task 101 169	compare how many clicks the users made in average for each condition
+T2	Material 235 242	buffers
+T3	Material 700 706	buffer
+T4	Material 862 868	buffer
+T5	Material 203 209	buffer
+T6	Material 312 324	input buffer
+T7	Process 290 300	simulation
diff --git a/semeval2017/test/S107158191630074X.txt b/semeval2017/test/S107158191630074X.txt
new file mode 100644
index 0000000..63fadad
--- /dev/null
+++ b/semeval2017/test/S107158191630074X.txt
@@ -0,0 +1 @@
+An obvious metric to measure the monitoring performance between the different conditions would be to compare how many clicks the users made in average for each condition. Furthermore of interest are the buffer values of the respective buffers at the time of the user's interaction with the simulation (e.g., the input buffer of a certain machine at the time of refilling it). A relatively high average buffer value can e.g. signify that the users do not trust that the respective mode of process monitoring conveys the need for interaction in time, leading the users to switching their attention to the process simulation in regular intervals, and performing interactions just in case. A low average buffer can, on the other hand, signify that the users rely on the respective conditions’ ability to signal interaction needs. On the other hand, if e.g. an input buffer had already been completely depleted at the time of intervention, this may signify that the respective condition has failed to inform the users in time. In many cases, participants used double clicks for their interactions, while a single click would have been sufficient, a fact that was perhaps not communicated clearly enough to the participants. Therefore, if several clicks were performed directly one after another, only the first click was taken into account.
diff --git a/semeval2017/test/S1359646214000165.ann b/semeval2017/test/S1359646214000165.ann
new file mode 100644
index 0000000..04ae758
--- /dev/null
+++ b/semeval2017/test/S1359646214000165.ann
@@ -0,0 +1,30 @@
+T1	Task 4 33	first-principles calculations
+T2	Material 58 95	Cambridge Serial Total Energy Package
+T3	Process 131 168	plane-wave pseudopotential DFT method
+T4	Material 97 103	CASTEP
+*	Synonym-of T2 T4
+T5	Process 232 266	generalized gradient approximation
+T6	Process 291 316	electron–ion interactions
+T7	Process 334 376	Vanderbilt-type ultrasoft pseudopotentials
+T8	Process 451 474	Brillouin-zone sampling
+T9	Process 499 520	Monkhorst-Pack scheme
+T10	Material 711 717	nickel
+T11	Process 1009 1023	ferromagnetism
+T12	Process 693 707	ferromagnetism
+T13	Material 1219 1232	ηP structures
+T14	Material 1468 1473	alloy
+T15	Process 174 205	exchange correlation functional
+T16	Process 268 275	PBE-GGA
+*	Synonym-of T5 T16
+T17	Material 291 299	electron
+T18	Material 300 303	ion
+T19	Material 387 397	plane wave
+T20	Process 528 543	k-point spacing
+T21	Process 772 789	spin polarization
+T22	Material 968 973	alloy
+T23	Material 1176 1178	Ti
+T24	Process 1270 1281	Ti alloying
+T25	Material 1270 1272	Ti
+T26	Material 1360 1362	Ti
+T27	Material 1481 1483	Al
+T28	Material 1484 1486	Ti
diff --git a/semeval2017/test/S1359646214000165.txt b/semeval2017/test/S1359646214000165.txt
new file mode 100644
index 0000000..1fc6c6d
--- /dev/null
+++ b/semeval2017/test/S1359646214000165.txt
@@ -0,0 +1 @@
+The first-principles calculations are performed using the Cambridge Serial Total Energy Package (CASTEP) [21] which implements the plane-wave pseudopotential DFT method. The exchange correlation functional is approximated using the generalized gradient approximation (PBE-GGA) [22], and the electron–ion interactions are described by Vanderbilt-type ultrasoft pseudopotentials [23]. The plane wave basis set is truncated at a cutoff of 400eV, and the Brillouin-zone sampling was performed using the Monkhorst-Pack scheme with a k-point spacing in reciprocal space of 0.04Å−1. Tests show that these computational parameters give results that are sufficiently accurate for present purposes. The ferromagnetism of nickel is accounted for by performing all calculations using spin polarization, starting at a ferromagnetic initial configuration and relaxing towards its ground state. However, for all compositions considered, the ground state electronic structure of each alloy is found to exhibit only very weak ferromagnetism, and the effect is not thought to influence their phase stability. Table 1 shows the calculated equilibrium lattice constants of the η phase at various Ti concentrations, using partially ordered ηP structures. The change in lattice constant upon Ti alloying is relatively small, but can be related to the ∼10% larger covalent radius of Ti. The calculated lattice constants are in good agreement with the experimental values, which relate to an alloy with a Al/Ti ratio of ∼2.75.
diff --git a/semeval2017/test/S1364815216302122.ann b/semeval2017/test/S1364815216302122.ann
new file mode 100644
index 0000000..2fa981d
--- /dev/null
+++ b/semeval2017/test/S1364815216302122.ann
@@ -0,0 +1,18 @@
+T1	Process 47 75	multi-objective optimization
+T2	Process 259 276	scaling procedure
+T3	Process 512 529	scaling procedure
+T4	Process 771 783	optimization
+T5	Process 882 920	Strength Pareto Evolutionary Algorithm
+T6	Process 922 926	SPEA
+*	Synonym-of T5 T6
+T7	Process 1036 1064	multi-objective optimization
+T8	Process 1070 1074	SPEA
+T9	Task 1094 1118	evolutionary computation
+T10	Process 1123 1127	SPEA
+T11	Process 1272 1293	Pareto optimal models
+R1	Hyponym-of Arg1:T8 Arg2:T7	
+T12	Process 1295 1312	downscaling rules
+*	Synonym-of T11 T12
+T13	Process 469 479	regression
+T14	Process 969 1019	using a single (weighted) fitness or cost function
+T15	Process 1132 1151	fitness calculation
diff --git a/semeval2017/test/S1364815216302122.txt b/semeval2017/test/S1364815216302122.txt
new file mode 100644
index 0000000..cd9d35a
--- /dev/null
+++ b/semeval2017/test/S1364815216302122.txt
@@ -0,0 +1 @@
+When we formulate the downscaling problem as a multi-objective optimization problem, we face, however, the following problems. Minimizing the sum of different objectives is problematic, since they may have different units and ranges. Even with an appropriate scaling procedure there is a risk of treating the objectives unequally or getting trapped in a local minimum. Firstly, we can never know, what is the minimum value of each objective that can be achieved by the regression. Thus, designing an appropriate scaling procedure is difficult and one would need to decide on the relative importance of the different objectives in advance. Secondly, adding multiple, conflicting objectives very likely results in a fitness function with multiple local minima, which makes optimization more difficult. To avoid these problems, we have implemented fitness calculation according to the Strength Pareto Evolutionary Algorithm (SPEA) by Zitzler and Thiele (1999), instead of using a single (weighted) fitness or cost function. Approaches for multi-objective optimization like SPEA are widely used in evolutionary computation. In SPEA the fitness calculation during the fitting procedure is based on an intercomparison of the different models. Further, a finite set of so called Pareto optimal models (downscaling rules) is returned.
diff --git a/semeval2017/test/S1364815216302705.ann b/semeval2017/test/S1364815216302705.ann
new file mode 100644
index 0000000..3ec4d5b
--- /dev/null
+++ b/semeval2017/test/S1364815216302705.ann
@@ -0,0 +1,18 @@
+T1	Process 83 88	SLAMM
+T2	Process 179 182	SLR
+T3	Process 756 761	SLAMM
+T4	Material 1127 1148	marsh migration model
+T5	Process 1216 1230	spatial inputs
+T6	Process 1232 1235	DEM
+R1	Hyponym-of Arg1:T6 Arg2:T5	
+T7	Process 1255 1272	parameter choices
+T8	Process 1274 1289	accretion rates
+R2	Hyponym-of Arg1:T8 Arg2:T7	
+T9	Process 1358 1363	SLAMM
+T10	Task 44 110	present and discuss the application of SLAMM to the New York coast
+T11	Process 1237 1243	VDATUM
+R3	Hyponym-of Arg1:T11 Arg2:T5	
+T12	Process 1291 1302	tide ranges
+R4	Hyponym-of Arg1:T12 Arg2:T7	
+T13	Process 1313 1334	landcover projections
+T14	Material 1628 1651	high-quality local data
diff --git a/semeval2017/test/S1364815216302705.txt b/semeval2017/test/S1364815216302705.txt
new file mode 100644
index 0000000..018517a
--- /dev/null
+++ b/semeval2017/test/S1364815216302705.txt
@@ -0,0 +1 @@
+The main objective of this manuscript is to present and discuss the application of SLAMM to the New York coast. Although the base analysis considers a range of different possible SLR scenarios, the effects of various sources of uncertainties such as input parameters and driving data are not accounted for. In addition, refined and site-specific data are often not available requiring the use of regional data collected from literature and professional judgement in order to run the model. To ignore the effects of these uncertainties on predictions may make interpretation of the results and subsequent decision making misleading since the likelihood and probabilities of predicted outcomes would be unknown. A unique capability of the current version of SLAMM is the ability to aggregate multiple types of input-data uncertainty to create outputs accompanied by probability statements and confidence intervals. Uncertainty in elevation data layers have been considered by several modeling groups to various extents (Gesch, 2009; Gilmer and Ferdaña, 2012; Schmid et al., 2014). However, to the best of our knowledge, no other marsh migration model simultaneously accounts for the combined effects of uncertainty in spatial inputs (DEM, VDATUM, etc.) and parameter choices (accretion rates, tide ranges, etc.) on landcover projections. This added feature of SLAMM allows results to be evaluated in terms of their likelihood of occurrence with respect to input-data and parameter uncertainties. Further, by assigning wide ranges of uncertainty when appropriate, it permits the production of meaningful projections in areas where high-quality local data are not available.
diff --git a/semeval2017/test/S136481521630305X.ann b/semeval2017/test/S136481521630305X.ann
new file mode 100644
index 0000000..3bf8010
--- /dev/null
+++ b/semeval2017/test/S136481521630305X.ann
@@ -0,0 +1,21 @@
+T1	Task 107 123	model evaluation
+T2	Process 296 318	constituent statistics
+T3	Process 320 322	SB
+R1	Hyponym-of Arg1:T3 Arg2:T2	
+T4	Material 790 803	N2O emissions
+T5	Material 889 901	N2O datasets
+T6	Process 283 286	MSE
+T7	Process 324 328	SDSD
+T8	Process 333 336	LCS
+R2	Hyponym-of Arg1:T7 Arg2:T2	
+R3	Hyponym-of Arg1:T8 Arg2:T2	
+T9	Material 1277 1280	N2O
+T10	Task 1489 1503	N2O prediction
+T11	Task 1341 1355	N2O prediction
+T13	Material 1110 1155	measured and simulated data for soil moisture
+T14	Material 1187 1201	soil mineral N
+T12	Material 1341 1344	N2O
+T15	Task 1383 1407	soil moisture prediction
+T16	Material 1534 1547	soil moisture
+T17	Task 1552 1577	soil mineral N prediction
+T18	Material 1552 1566	soil mineral N
diff --git a/semeval2017/test/S136481521630305X.txt b/semeval2017/test/S136481521630305X.txt
new file mode 100644
index 0000000..6219d51
--- /dev/null
+++ b/semeval2017/test/S136481521630305X.txt
@@ -0,0 +1 @@
+Using measured data from two arable sites in the UK we have shown that lags can have significant impact on model evaluation and can affect both the level of correlation between measured and simulated data and the magnitude of the sums of the residuals. Also, we used the division of MSE to three constituent statistics (SB, SDSD and LCS) to show how the level of correlation can affect the sum of residuals. By dividing the algorithm-predicted series of lag values into monthly sets and examining the frequency distribution of the lags, certain patterns in these temporally patchy series have been identified. A challenging task in relation to time lags between observed and simulated daily data, is to determine their cause. This task becomes more difficult for model outputs such as soil N2O emissions that are driven by various interacting variables. Even more so, because the measured N2O datasets and the measured datasets of their drivers (e.g. soil moisture, soil N content) cover small time periods, they are not continuous and can vary widely in size. In this study we implemented the algorithm using measured and simulated data for soil moisture (first and second example) and soil mineral N (second example), and compared its results with the respective results for N2O. In our first example, we showed that the estimated lags in N2O prediction are related to the lags in soil moisture prediction in a way that changes gradually through time. In our second example, the lags in N2O prediction were explained by the lags in soil moisture and soil mineral N prediction, with which they had a positive relationship.
diff --git a/semeval2017/test/S1364815216303061.ann b/semeval2017/test/S1364815216303061.ann
new file mode 100644
index 0000000..8af6fc1
--- /dev/null
+++ b/semeval2017/test/S1364815216303061.ann
@@ -0,0 +1,13 @@
+T1	Task 3 57	representing wetland-river interactions involving GIWs
+T2	Process 1019 1027	WATFLOOD
+T3	Task 1049 1095	riparian wetland-river interaction is modelled
+T4	Process 1466 1473	MODFLOW
+T5	Process 1439 1458	Darcy flow equation
+T6	Material 1386 1404	wetland vegetation
+T7	Material 1413 1428	subsurface soil
+T8	Process 1335 1371	equivalent transmissivity expression
+T9	Process 308 324	outlet elevation
+T10	Task 735 802	interactions should be quantified according to hydraulic principles
+T11	Material 813 862	relative river and wetland water level elevations
+T12	Material 878 922	properties of the connection between the two
+T13	Material 1106 1169	principle of Dupuit-Forchheimer lateral/radial groundwater flow
diff --git a/semeval2017/test/S1364815216303061.txt b/semeval2017/test/S1364815216303061.txt
new file mode 100644
index 0000000..a6d3e1f
--- /dev/null
+++ b/semeval2017/test/S1364815216303061.txt
@@ -0,0 +1 @@
+In representing wetland-river interactions involving GIWs, many models assume that the wetland can discharge into a river but cannot receive overbank flows from it. In such models, the volume of water (or water level elevation) in a wetland and its corresponding threshold value (predominantly controlled by outlet elevation) are the prime determinants of wetland outflow (Feng et al., 2012; Hammer and Kadlec, 1986; Johnson et al., 2010; Kadlec and Wallace, 2009; Powell et al., 2008; Voldseth et al., 2007; Wen et al., 2013; Zhang and Mitsch, 2005). However, in regions characterised by widespread riparian wetlands that are hydraulically connected with adjacent rivers, wetland-river interaction is likely to be bidirectional. Such interactions should be quantified according to hydraulic principles involving relative river and wetland water level elevations as well as the properties of the connection between the two (Kouwen, 2013; Liu et al., 2008; Min et al., 2010; Nyarko, 2007; Restrepo et al., 1998). In the WATFLOOD model, for instance, riparian wetland-river interaction is modelled using the principle of Dupuit-Forchheimer lateral/radial groundwater flow (Kouwen, 2013). Since exchange between riparian wetlands and rivers can occur over the surface and/or through the subsurface, Restrepo et al. (1998) incorporated an equivalent transmissivity expression, obtained for wetland vegetation and the subsurface soil, into the Darcy flow equation of the MODFLOW model.
diff --git a/semeval2017/test/S1364815216303243.ann b/semeval2017/test/S1364815216303243.ann
new file mode 100644
index 0000000..5133e36
--- /dev/null
+++ b/semeval2017/test/S1364815216303243.ann
@@ -0,0 +1,23 @@
+T1	Process 51 74	Shallow Water Equations
+T2	Process 76 80	SWEs
+*	Synonym-of T1 T2
+T3	Process 269 273	SWEs
+T4	Process 428 433	JFLOW
+T5	Process 466 488	Urban Inundation Model
+T6	Process 490 493	UIM
+*	Synonym-of T5 T6
+T7	Process 545 556	LISFLOOD-FP
+T8	Process 756 767	LISFLOOD-FP
+T9	Process 800 804	SWEs
+T10	Process 854 865	LISFLOOD-FP
+T11	Process 895 915	Cartesian directions
+T12	Process 943 947	SWEs
+T13	Material 972 1012	multi resolution grids or irregular mesh
+T14	Material 1019 1032	InfoWorks ICM
+T15	Material 1054 1064	MIKE FLOOD
+R1	Hyponym-of Arg1:T14 Arg2:T13	
+R2	Hyponym-of Arg1:T15 Arg2:T13	
+T16	Process 238 273	reducing the complexity of the SWEs
+T17	Process 8 40	physically-based 2D flood models
+T18	Task 41 81	solve the Shallow Water Equations (SWEs)
+T19	Process 589 616	2D diffusion wave equations
diff --git a/semeval2017/test/S1364815216303243.txt b/semeval2017/test/S1364815216303243.txt
new file mode 100644
index 0000000..d298e02
--- /dev/null
+++ b/semeval2017/test/S1364815216303243.txt
@@ -0,0 +1 @@
+Typical physically-based 2D flood models solve the Shallow Water Equations (SWEs), requiring high computational resources. Many of these models have been developed to obtain better performance, while maintaining the required accuracy, by reducing the complexity of the SWEs. This reduction is usually achieved by approximating or neglecting less significant terms of the equations (Hunter et al., 2007; Yen and Tsai, 2001). The JFLOW model (Bradbrook et al., 2004), Urban Inundation Model (UIM) (Chen et al., 2007), and the diffusive version of LISFLOOD-FP (Hunter et al., 2005) solve the 2D diffusion wave equations that neglect the inertial (local acceleration) and advection (convective acceleration) terms (Yen and Tsai, 2001). The inertial version of LISFLOOD-FP (Bates et al., 2010) solves the SWEs without the advection term. In either version of LISFLOOD-FP the flow is decoupled in the Cartesian directions. Other models use the full SWEs but focus on the use of multi resolution grids or irregular mesh, like InfoWorks ICM (Innovyze, 2012) and MIKE FLOOD (DHI Software, 2014; Hénonin et al., 2013). These last two models are commercial packages, and the code applied in the optimisation techniques is not in the public domain.
diff --git a/semeval2017/test/S1386505616301769.ann b/semeval2017/test/S1386505616301769.ann
new file mode 100644
index 0000000..9aaecec
--- /dev/null
+++ b/semeval2017/test/S1386505616301769.ann
@@ -0,0 +1,11 @@
+T1	Task 28 46	EMR implementation
+T2	Process 28 31	EMR
+T3	Process 528 531	EMR
+T4	Process 634 637	EMR
+T5	Process 756 759	EMR
+T6	Material 830 849	mobile applications
+T7	Process 912 916	EMRs
+T8	Process 966 969	EMR
+T9	Process 704 707	EMR
+T10	Task 104 130	health information systems
+T11	Process 954 980	cloud-based EMR ecosystems
diff --git a/semeval2017/test/S1386505616301769.txt b/semeval2017/test/S1386505616301769.txt
new file mode 100644
index 0000000..97a0b1d
--- /dev/null
+++ b/semeval2017/test/S1386505616301769.txt
@@ -0,0 +1 @@
+The purported advantages of EMR implementation in urban slums are widely promoted. Increasingly capable health information systems could facilitate communication, help coordinate care, and improve the continuity of care in disadvantaged communities like Kibera. However, available systems may not have the ability to simplify care or improve efficiency where funding and human resources are scarce, infrastructure is unreliable and health data demands are opportunistic, not strategic. This study described perceptions of local EMR stakeholders in two urban slum clinics. They shared many observations that may be important for other EMR initiatives to heed, and worried most about the sustainability of EMR initiatives in like communities. The future for EMR use in urban slums is promising. Innovative new technologies, such as mobile applications and point-of-care laboratory tests, could extend the reach of EMRs where infrastructure is wanting. New cloud-based EMR ecosystems, where data is collected and stored centrally could leverage cell phone networks to promote more health information sharing, coordination of care and ultimately better outcomes for vulnerable populations.Summary pointsWhat was already known on the topic?•Rapid urbanization is associated with growth in the number and size of urban slums and an associated rise in the burden of disease, further worsening an already fragmented and inefficient health care system.
diff --git a/semeval2017/test/S1574119211001544.ann b/semeval2017/test/S1574119211001544.ann
new file mode 100644
index 0000000..12ee515
--- /dev/null
+++ b/semeval2017/test/S1574119211001544.ann
@@ -0,0 +1,18 @@
+T1	Process 77 92	mobility models
+T2	Task 22 30	protocol
+T3	Material 253 258	nodes
+T4	Material 274 294	geographical regions
+T5	Material 347 368	performance potential
+T6	Material 541 546	nodes
+T7	Process 769 788	push-community mode
+T8	Material 880 885	nodes
+T10	Material 206 220	physical space
+T11	Material 188 193	nodes
+T12	Process 541 555	nodes mobility
+T13	Process 454 492	extend the physical region of movement
+T14	Process 504 533	impose potential restrictions
+T15	Process 572 635	forcing similar nodes to move within specifically defined areas
+T16	Material 588 593	nodes
+T17	Process 661 677	forwarding modes
+T18	Process 756 763	network
+T9	Material 977 981	node
diff --git a/semeval2017/test/S1574119211001544.txt b/semeval2017/test/S1574119211001544.txt
new file mode 100644
index 0000000..cac6514
--- /dev/null
+++ b/semeval2017/test/S1574119211001544.txt
@@ -0,0 +1 @@
+As future work on the protocol, we would promote two items. Firstly, the two mobility models that we have considered in this work propose possible way to capture social context in the way nodes move in the physical space, yet still potentially allowing nodes to explore the geographical regions considered in its entirety. Further insights to the performance potential could be given through the assessment of the protocol with other mobilities that can extend the physical region of movement as well as impose potential restrictions on the nodes mobility, for example by forcing similar nodes to move within specifically defined areas. Secondly, the different forwarding modes introduced in Section  3.3 express different levels of cooperation across the network. The push-community mode, for example, is a form of interest-community selfishness and assumes reciprocation in the nodes’ behaviour. The vulnerability (resp. resilience) of the protocol to different instances of node misbehaviours is a research item worth exploring.
diff --git a/semeval2017/test/S1574119215000796.ann b/semeval2017/test/S1574119215000796.ann
new file mode 100644
index 0000000..5b5542c
--- /dev/null
+++ b/semeval2017/test/S1574119215000796.ann
@@ -0,0 +1,25 @@
+T1	Process 13 38	multihop routing protocol
+T2	Process 40 46	PHASeR
+*	Synonym-of T1 T2
+T3	Material 95 99	MWSN
+T4	Process 220 235	gradient metric
+T5	Task 13 38	multihop routing protocol
+T6	Process 549 555	PHASeR
+T7	Process 579 599	gradient maintenance
+T8	Material 605 619	mobile network
+T9	Process 726 730	TDMA
+T10	Process 732 761	time division multiple access
+*	Synonym-of T9 T10
+T11	Process 763 766	MAC
+T12	Process 768 789	medium access control
+*	Synonym-of T11 T12
+T13	Material 869 883	packet latency
+T14	Process 885 891	PHASeR
+T15	Process 924 937	encapsulation
+T16	Process 1179 1207	cross-layer routing protocol
+T17	Material 1212 1217	MWSNs
+T18	Process 1070 1086	node cooperation
+T19	Material 1070 1074	node
+T20	Material 971 976	nodes
+T21	Material 1265 1272	sensors
+T22	Task 1179 1217	cross-layer routing protocol for MWSNs
diff --git a/semeval2017/test/S1574119215000796.txt b/semeval2017/test/S1574119215000796.txt
new file mode 100644
index 0000000..ca9634b
--- /dev/null
+++ b/semeval2017/test/S1574119215000796.txt
@@ -0,0 +1 @@
+The proposed multihop routing protocol, PHASeR, applies the technique of blind forwarding in a MWSN, which increases the reliability of data delivery through its inherent use of multiple routes. This approach requires a gradient metric to be continuously maintained, which is problematic in a dynamic topology. The literature commonly uses either flooding or location awareness, however flooding creates large amounts of overhead and location determination schemes can often be inaccurate, power hungry and create the issue of the dead end problem. PHASeR uses a novel method of gradient maintenance in a mobile network, which requires the proactive sharing of only local topology information. This is facilitated by a global TDMA (time division multiple access) MAC (medium access control) layer and further reduces the amount of overhead, which in turn will decrease packet latency. PHASeR is also set apart by its use of encapsulation, which allows data from multiple nodes to be transmitted in the same packet in order to handle high volumes of traffic. It utilises node cooperation to create a robust multipath routing solution. As such, the contribution of this paper is a cross-layer routing protocol for MWSNs that can handle the constant flow of data from sensors in highly mobile situations.
diff --git a/semeval2017/test/S1631070514000954.ann b/semeval2017/test/S1631070514000954.ann
new file mode 100644
index 0000000..a737dee
--- /dev/null
+++ b/semeval2017/test/S1631070514000954.ann
@@ -0,0 +1,37 @@
+T1	Process 0 17	Superconductivity
+T2	Material 21 30	actinides
+T3	Task 0 30	Superconductivity in actinides
+T4	Material 53 66	thorium metal
+T5	Material 98 105	uranium
+T6	Material 126 143	uranium compounds
+T7	Material 172 195	uranium superconductors
+T8	Material 240 277	uranium heavy fermion superconductors
+T9	Material 361 390	ferromagnetic superconductors
+T10	Material 394 401	uranium
+T11	Material 465 474	plutonium
+T12	Process 444 461	superconductivity
+T13	Material 484 493	neptunium
+T14	Material 514 523	actinides
+T15	Process 569 583	periodic table
+T16	Material 620 641	Transuranium elements
+T17	Material 870 884	transactinides
+T18	Material 646 658	transuranics
+T19	Material 528 537	actinoids
+*	Synonym-of T14 T19
+*	Synonym-of T16 T18
+T20	Material 889 903	superactinides
+*	Synonym-of T17 T20
+R1	Hyponym-of Arg1:T4 Arg2:T2	
+R2	Hyponym-of Arg1:T5 Arg2:T2	
+R3	Hyponym-of Arg1:T6 Arg2:T2	
+R4	Hyponym-of Arg1:T8 Arg2:T7	
+T22	Material 591 593	Ac
+T23	Material 602 604	Th
+T24	Material 614 616	Lr
+R5	Hyponym-of Arg1:T22 Arg2:T19	
+R6	Hyponym-of Arg1:T23 Arg2:T19	
+R7	Hyponym-of Arg1:T24 Arg2:T19	
+T25	Material 726 733	uranium
+T26	Material 816 834	synthetic elements
+T27	Material 849 851	Lr
+T21	Task 1018 1054	study of condensed-matter properties
diff --git a/semeval2017/test/S1631070514000954.txt b/semeval2017/test/S1631070514000954.txt
new file mode 100644
index 0000000..3f8d001
--- /dev/null
+++ b/semeval2017/test/S1631070514000954.txt
@@ -0,0 +1 @@
+Superconductivity in actinides was first observed in thorium metal in 1929 [7], then in elemental uranium in 1942 [8], and in uranium compounds in 1958 [9]. A new class of uranium superconductors emerged in the 1980's with the discovery of uranium heavy fermion superconductors [10]. Further surprises came at the beginning of the century with the discovery of ferromagnetic superconductors in uranium systems [11] and the first observation of superconductivity in plutonium [12] and neptunium [13] compounds. The actinides (or actinoids) are located at the end of the periodic table (N=89 (Ac) or 90 (Th) to 103 (Lr)). Transuranium elements (or transuranics) are the chemical elements with atomic number (Z) greater than 92 (uranium) and due to their short half-life on a geological timescale, they are essentially synthetic elements. Above Z=103 (Lr), one talks about transactinides (or superactinides) elements. These latter elements have extremely short half-lives and no macroscopic quantity is available for the study of condensed-matter properties.
diff --git a/semeval2017/test/S167420011300196X.ann b/semeval2017/test/S167420011300196X.ann
new file mode 100644
index 0000000..e991945
--- /dev/null
+++ b/semeval2017/test/S167420011300196X.ann
@@ -0,0 +1,16 @@
+T1	Task 0 8	PV cells
+T2	Material 70 94	incident solar radiation
+T3	Material 100 114	electric power
+T4	Process 456 477	incomplete absorption
+T5	Process 538 552	thermalization
+T6	Process 556 571	carrier cooling
+*	Synonym-of T5 T6
+T7	Process 734 757	radiative recombination
+T8	Process 415 425	absorption
+T9	Process 56 114	conversion of incident solar radiation into electric power
+T10	Process 186 221	fossil fuel-based energy conversion
+T11	Process 361 377	solar conversion
+T12	Material 485 492	photons
+T13	Material 579 592	solar photons
+T14	Material 625 644	electron-hole pairs
+T15	Process 1131 1142	solar power
diff --git a/semeval2017/test/S167420011300196X.txt b/semeval2017/test/S167420011300196X.txt
new file mode 100644
index 0000000..2fcc05a
--- /dev/null
+++ b/semeval2017/test/S167420011300196X.txt
@@ -0,0 +1 @@
+PV cells are one of the most promising technologies for conversion of incident solar radiation into electric power. However, this technology is still far from being able to compete with fossil fuel-based energy conversion technologies because of its relatively low efficiency and energy density. Theoretically, there are three unavoidable losses that limit the solar conversion efficiency of a device with a single absorption threshold or band gap Eg: (1) incomplete absorption, where photons with energies below Eg are not absorbed; (2) thermalization or carrier cooling, where solar photons with sufficient energy generate electron-hole pairs and then immediately lose almost all energy in excess of Eg in the form of heat; and (3) radiative recombination, where a small fraction of the excited states radioactively recombine with the ground state at the maximum power output (Hanna & Nozik, 2006; Henry, 1980). Taking an air mass of 1.5 as an example, for different band gap Eg these three losses can be calculated and the results are indicated by areas S1, S2, and S3 in Fig. 1. Note that the area under the outer curve is the solar power per unit area, and that only S4 can be delivered to the load.
diff --git a/semeval2017/test/S1687850714000405.ann b/semeval2017/test/S1687850714000405.ann
new file mode 100644
index 0000000..72dcab1
--- /dev/null
+++ b/semeval2017/test/S1687850714000405.ann
@@ -0,0 +1,29 @@
+T1	Material 0 9	Xylanases
+T2	Material 108 117	Xylanases
+T3	Task 153 176	pulp and paper industry
+T4	Process 202 232	hydrolyzed the xylan component
+T5	Process 344 367	brightening of the pulp
+T6	Process 381 415	chlorine free bleaching operations
+T7	Material 486 494	xylanase
+T8	Process 551 604	even redistribution of the water content of the bread
+T9	Task 674 694	animal feed industry
+T10	Task 718 759	hydrolysis of non-starchy polysaccharides
+T11	Task 872 901	maceration of vegetable matte
+T12	Task 925 955	protoplastation of plant cells
+T13	Task 957 989	clarification of juices and wine
+T14	Task 1004 1035	liquefaction of coffee mucilage
+T15	Task 1040 1060	making liquid coffee
+T16	Task 1062 1101	recovery of oil from subterranian mines
+T17	Task 1103 1160	extraction of flavors and pigments, plant oils and starch
+T18	Task 1197 1241	efficiency of agricultural silage production
+T19	Material 130 145	bleaching agent
+T20	Material 217 232	xylan component
+T21	Material 238 242	wood
+T22	Process 263 280	removal of lignin
+T23	Material 274 280	lignin
+T24	Material 363 367	pulp
+T25	Material 629 638	Xylanases
+T26	Material 732 759	non-starchy polysaccharides
+T27	Material 768 780	arabinoxylan
+R1	Hyponym-of Arg1:T27 Arg2:T26	
+T28	Material 834 843	Xylanases
diff --git a/semeval2017/test/S1687850714000405.txt b/semeval2017/test/S1687850714000405.txt
new file mode 100644
index 0000000..48e24fd
--- /dev/null
+++ b/semeval2017/test/S1687850714000405.txt
@@ -0,0 +1 @@
+Xylanases have potential applications in various fields. Some of the important applications are as fallows. Xylanases are used as bleaching agent in the pulp and paper industry. Mostly they are used to hydrolyzed the xylan component from wood which facilitate in removal of lignin (Viikari, Kantelinen, Buchert, & Puls, 1994). It also helps in brightening of the pulp to avoid the chlorine free bleaching operations (Paice, Jurasek, Ho, Bourbonnais, & Archibald, 1989). In bakeries the xylanase act on the gluten fraction of the dough and help in the even redistribution of the water content of the bread (Wong & Saddler, 1992). Xylanases also have potential application in animal feed industry. They are used for the hydrolysis of non-starchy polysaccharides such as arabinoxylan in monogastric diets (Walsh, Power, & Headon, 1993). Xylanases also play a key role in the maceration of vegetable matter (Beck & Scoot, 1974), protoplastation of plant cells, clarification of juices and wine (Biely, 1985) liquefaction of coffee mucilage for making liquid coffee, recovery of oil from subterranian mines, extraction of flavors and pigments, plant oils and starch (McCleary, 1986) and to improve the efficiency of agricultural silage production (Wong & Saddler, 1992).
diff --git a/semeval2017/test/S1746809416300933.ann b/semeval2017/test/S1746809416300933.ann
new file mode 100644
index 0000000..74dda3e
--- /dev/null
+++ b/semeval2017/test/S1746809416300933.ann
@@ -0,0 +1,30 @@
+T1	Material 9 60	Electrically evoked auditory steady-state responses
+T2	Material 62 68	EASSRs
+*	Synonym-of T2 T1
+T3	Material 74 91	neural potentials
+T4	Process 108 128	electroencephalogram
+T5	Process 130 133	EEG
+*	Synonym-of T5 T4
+T6	Process 206 222	cochlear implant
+T7	Process 224 226	CI
+*	Synonym-of T7 T6
+T8	Material 229 235	EASSRs
+T9	Process 276 286	CI fitting
+T10	Process 297 308	EEG signals
+T11	Process 342 354	CI artifacts
+T12	Process 392 404	CI artifacts
+T13	Task 374 435	characterized the CI artifacts for monopolar mode stimulation
+T14	Task 471 491	linear interpolation
+T15	Process 531 542	CI artifact
+T16	Process 661 672	CI artifact
+T17	Process 714 748	contralateral recording electrodes
+T18	Process 753 785	ipsilateral recording electrodes
+T19	Process 787 798	CI artifact
+T20	Process 860 894	contralateral recording electrodes
+T21	Material 1048 1054	EASSRs
+T22	Process 1080 1090	CI fitting
+T23	Task 1095 1116	neuroscience research
+T24	Process 1122 1133	CI artifact
+T25	Task 1161 1181	linear interpolation
+T26	Process 1031 1042	CI artifact
+T27	Process 1205 1239	contralateral recording electrodes
diff --git a/semeval2017/test/S1746809416300933.txt b/semeval2017/test/S1746809416300933.txt
new file mode 100644
index 0000000..16ea854
--- /dev/null
+++ b/semeval2017/test/S1746809416300933.txt
@@ -0,0 +1 @@
+ObjectiveElectrically evoked auditory steady-state responses (EASSRs) are neural potentials measured in the electroencephalogram (EEG) in response to periodic pulse trains presented, for example, through a cochlear implant (CI). EASSRs could potentially be used for objective CI fitting. However, EEG signals are contaminated with electrical CI artifacts. In this paper, we characterized the CI artifacts for monopolar mode stimulation and evaluated at which pulse rate, linear interpolation over the signal part contaminated with CI artifact is successful.MethodsCI artifacts were characterized by means of their amplitude growth functions and duration.ResultsCI artifact durations were between 0.7 and 1.7ms, at contralateral recording electrodes. At ipsilateral recording electrodes, CI artifact durations are range from 0.7 to larger than 2ms.ConclusionAt contralateral recording electrodes, the artifact was shorter than the interpulse interval across subjects for 500pps, which was not always the case for 900pps.SignificanceCI artifact-free EASSRs are crucial for reliable CI fitting and neuroscience research. The CI artifact has been characterized and linear interpolation allows to remove it at contralateral recording electrodes for stimulation at 500pps.
diff --git a/semeval2017/test/S1877750311000676.ann b/semeval2017/test/S1877750311000676.ann
new file mode 100644
index 0000000..a53abdf
--- /dev/null
+++ b/semeval2017/test/S1877750311000676.ann
@@ -0,0 +1,16 @@
+T1	Task 80 101	lane selection policy
+T2	Process 103 109	VISSIM
+T3	Process 127 146	simulation toolkits
+R1	Hyponym-of Arg1:T2 Arg2:T3	
+T4	Process 174 195	probabilistic routing
+T5	Process 348 358	simulation
+T6	Material 543 550	drivers
+T7	Material 625 632	vehicle
+T8	Material 665 677	weighbridges
+T9	Process 994 1019	graphical microsimulation
+T10	Process 1032 1053	2D and 3D simulations
+T11	Process 42 79	probabilistic, ‘roulette wheel’ style
+T12	Process 276 295	piecewise technique
+*	Synonym-of T10 T9
+T13	Process 1250 1271	probabilistic routing
+T14	Process 1356 1366	simulation
diff --git a/semeval2017/test/S1877750311000676.txt b/semeval2017/test/S1877750311000676.txt
new file mode 100644
index 0000000..885eabb
--- /dev/null
+++ b/semeval2017/test/S1877750311000676.txt
@@ -0,0 +1 @@
+One way to enforce this ratio is to use a probabilistic, ‘roulette wheel’ style lane selection policy. VISSIM, along with most simulation toolkits, offers methods to specify probabilistic routing whereby a defined percentage of vehicles are sent down unique routes. This is a piecewise technique that can be reapplied at various locations around a simulation. While these methods are attractive from a calibration perspective as exact representations of existing statistics can be ensured, the process is an unrealistic one as it assumes that drivers make probabilistic decisions at precise locations. So in this case when a vehicle arrives at a point prior to the weighbridges it is allocated one of the lanes based on the respective probabilities. It turns out that this method leads to significant variations in trip times depending on the initial random number seed, this can be seen in a graphic of the key areas of the simulation for the 2 different runs (Fig. 7). One of the benefits of graphical microsimulation is that the 2D and 3D simulations help the researcher to visualise a new scheme and its potential benefits but also to highlight unrealistic behaviour. Fig. 7 shows the congestion at the decision point for 2 different runs. Using probabilistic routing to enforce correct routing percentages is a clear case of overcalibration affecting simulation brittleness.
diff --git a/semeval2017/test/S1877750313000240.ann b/semeval2017/test/S1877750313000240.ann
new file mode 100644
index 0000000..cbf9de5
--- /dev/null
+++ b/semeval2017/test/S1877750313000240.ann
@@ -0,0 +1,14 @@
+T1	Process 127 147	blood-flow LB solver
+T2	Process 242 267	lattice-Boltzmann solvers
+T3	Process 209 237	performance prediction model
+T4	Process 341 359	HemeLB application
+T5	Process 370 376	HemeLB
+T6	Process 486 500	LB simulations
+T7	Process 574 580	HemeLB
+T8	Process 634 640	HemeLB
+T9	Material 794 802	ParMETIS
+T10	Process 913 938	compile-time polymorphism
+T11	Process 282 310	performance prediction model
+T12	Process 836 868	coalesced communication patterns
+T13	Process 895 904	rendering
+*	Synonym-of T4 T5
diff --git a/semeval2017/test/S1877750313000240.txt b/semeval2017/test/S1877750313000240.txt
new file mode 100644
index 0000000..2815d85
--- /dev/null
+++ b/semeval2017/test/S1877750313000240.txt
@@ -0,0 +1 @@
+A few studies within the physiological domain are of special relevance to this work. These include a performance analysis of a blood-flow LB solver using a range of sparse and non-sparse geometries [21] and a performance prediction model for lattice-Boltzmann solvers [22,23]. This performance prediction model can be applied largely to our HemeLB application, although HemeLB uses a different decomposition technique and performs real-time rendering and visualisation tasks during the LB simulations. Mazzeo and Coveney [1] studied the scalability of an earlier version of HemeLB. However, the current performance characteristics of HemeLB are substantially enhanced due to numerous subsequent advances in the code, amongst others: an improved hierarchical, compressed file format; the use of ParMETIS to ensure good load-balance; the coalesced communication patterns to reduce the overhead of rendering; use of compile-time polymorphism to avoid virtual function calls in inner loops.
diff --git a/semeval2017/test/S187775031300077X.ann b/semeval2017/test/S187775031300077X.ann
new file mode 100644
index 0000000..ec06f96
--- /dev/null
+++ b/semeval2017/test/S187775031300077X.ann
@@ -0,0 +1,17 @@
+T1	Process 9 26	mean-field models
+T2	Task 117 153	spatially extended dynamical systems
+T3	Process 212 223	Liley model
+T4	Material 289 319	Partial Differential Equations
+T5	Material 392 411	membrane potentials
+T6	Material 425 440	synaptic inputs
+T7	Material 482 513	Ordinary Differential Equations
+T8	Material 321 325	PDEs
+T9	Material 515 519	ODEs
+*	Synonym-of T4 T8
+*	Synonym-of T7 T9
+T10	Process 633 663	numerical bifurcation analysis
+T11	Material 772 781	PDE model
+T12	Material 1040 1062	large, sparse matrices
+T13	Material 1162 1167	PETSc
+T14	Task 986 1062	efficient, iterative solvers for linear problems with large, sparse matrices
+T15	Process 986 1014	efficient, iterative solvers
diff --git a/semeval2017/test/S187775031300077X.txt b/semeval2017/test/S187775031300077X.txt
new file mode 100644
index 0000000..2c55c46
--- /dev/null
+++ b/semeval2017/test/S187775031300077X.txt
@@ -0,0 +1 @@
+Although mean-field models have been used in all these settings, little analysis has been done on their behaviour as spatially extended dynamical systems. In part, this is due to their staggering complexity. The Liley model [15] considered here, for instance, consists of fourteen coupled Partial Differential Equations (PDEs) with strong nonlinearities, imposed by coupling between the mean membrane potentials and the mean synaptic inputs. The model can be reduced to a system of Ordinary Differential Equations (ODEs) by considering only spatially homogeneous solutions, and the resulting system has been examined in detail using numerical bifurcation analysis (see [16] and references therein). In order to compute equilibria, periodic orbits and such objects for the PDE model, we need a flexible, stable simulation code for the model and its linearization that can run in parallel to scale up to a domain size of about 2500cm2, the size of a full-grown human cortex. We also need efficient, iterative solvers for linear problems with large, sparse matrices. In this paper, we will show that all this can be accomplished in the open-source software package PETSc [17]. Our implementation consists of a number of functions in C that are available publicly [18].
diff --git a/semeval2017/test/S1877750313001269.ann b/semeval2017/test/S1877750313001269.ann
new file mode 100644
index 0000000..77b87a3
--- /dev/null
+++ b/semeval2017/test/S1877750313001269.ann
@@ -0,0 +1,16 @@
+T1	Process 6 33	virtualization technologies
+T2	Process 199 225	high performance computing
+T3	Process 258 261	HPC
+T4	Process 399 402	HPC
+T5	Material 437 449	applications
+T6	Material 907 921	virtual server
+T7	Task 199 235	high performance computing scenarios
+T9	Material 810 816	broker
+T10	Process 549 576	virtualization technologies
+T11	Material 617 638	virtualized interface
+T12	Process 665 689	Grid and cloud computing
+T13	Process 708 726	interaction models
+T14	Process 731 745	grid computing
+T15	Process 849 863	queuing system
+T16	Process 868 883	cloud computing
+T17	Process 1011 1029	interaction models
diff --git a/semeval2017/test/S1877750313001269.txt b/semeval2017/test/S1877750313001269.txt
new file mode 100644
index 0000000..9c584c8
--- /dev/null
+++ b/semeval2017/test/S1877750313001269.txt
@@ -0,0 +1 @@
+While virtualization technologies certainly reduce the complexity of using a system, and especially when working across multiple heterogeneous computing environments, they are not widely deployed in high performance computing scenarios. As its name suggest, HPC seeks to obtain maximum performance from computing platforms. Extra software layers impact detrimentally on performance, meaning that in HPC scenarios users typically run the applications as close to the ‘bare metal’ as possible. In addition to the performance degradation introduced by virtualization technologies, choosing what details to abstract in a virtualized interface is itself very important. Grid and cloud computing support different interaction models. In grid computing, the user interacts with an individual resource (or sometimes a broker) in order to launch jobs into a queuing system. In cloud computing, users interact with a virtual server, in effect putting them in control of their own complete operating system. Both of these interaction models put the onus on the user to understand very specific details of the system that they are dealing with, making life difficult for the end user, typically a scientist who wants to progress his or her scientific investigations without any specific usability hurdles obstructing the pathway.
diff --git a/semeval2017/test/S1877750315000460.ann b/semeval2017/test/S1877750315000460.ann
new file mode 100644
index 0000000..4d29c37
--- /dev/null
+++ b/semeval2017/test/S1877750315000460.ann
@@ -0,0 +1,24 @@
+T1	Material 0 9	FabHemeLB
+T2	Material 15 26	Python tool
+T3	Task 39 112	automate the construction and management of ensemble simulation workflows
+R1	Hyponym-of Arg1:T1 Arg2:T2	
+T4	Material 114 123	FabHemeLB
+T5	Material 150 156	FabSim
+T6	Material 183 189	HemeLB
+T7	Material 207 213	FabSim
+T8	Material 218 227	FabHemeLB
+T9	Material 318 327	FabHemeLB
+T10	Material 497 503	HemeLB
+T11	Material 816 825	FabHemeLB
+T12	Material 361 367	HemeLB
+T13	Process 257 267	deployment
+T14	Process 269 278	execution
+T15	Process 283 296	data analysis
+T16	Process 441 476	organize and curate simulation data
+T18	Process 608 618	simulation
+R2	Hyponym-of Arg1:T4 Arg2:T5	
+T19	Task 236 316	automate application deployment, execution and data analysis on remote resources
+T17	Material 461 476	simulation data
+T20	Process 645 689	monitor the queue status on remote resources
+T21	Process 691 722	fetch results of completed jobs
+T22	Process 745 798	combine functionalities into single one-line commands
diff --git a/semeval2017/test/S1877750315000460.txt b/semeval2017/test/S1877750315000460.txt
new file mode 100644
index 0000000..c0e8f99
--- /dev/null
+++ b/semeval2017/test/S1877750315000460.txt
@@ -0,0 +1 @@
+FabHemeLB is a Python tool which helps automate the construction and management of ensemble simulation workflows. FabHemeLB is an extended version of FabSim [27] configured to handle HemeLB operations. Both FabSim and FabHemeLB help to automate application deployment, execution and data analysis on remote resources. FabHemeLB can be used to compile and build HemeLB on any remote resource, to reuse machine-specific configurations, and to organize and curate simulation data. It can also submit HemeLB jobs to a remote resource specifying the number of cores and the wall clock time limit for completing a simulation. The tool is also able to monitor the queue status on remote resources, fetch results of completed jobs, and can conveniently combine functionalities into single one-line commands. In general, the FabHemeLB commands have the following structure:
diff --git a/semeval2017/test/S2212671612000431.ann b/semeval2017/test/S2212671612000431.ann
new file mode 100644
index 0000000..dc37b02
--- /dev/null
+++ b/semeval2017/test/S2212671612000431.ann
@@ -0,0 +1,41 @@
+T1	Material 38 41	LBP
+T2	Material 43 63	local binary pattern
+*	Synonym-of T1 T2
+T3	Task 271 336	eye location, geometric normalization, illumination normalization
+T4	Process 403 405	ER
+T5	Process 407 421	Eyeball Search
+T6	Process 377 396	eye location method
+*	Synonym-of T5 T4
+R1	Hyponym-of Arg1:T4 Arg2:T6	
+T7	Material 471 474	LBP
+T8	Material 701 704	LBP
+T9	Material 706 726	local binary pattern
+*	Synonym-of T8 T9
+T10	Task 934 946	eye location
+T11	Process 1040 1059	eye location method
+T12	Process 1066 1068	ER
+T13	Process 1070 1084	Eyeball Search
+*	Synonym-of T13 T12
+R2	Hyponym-of Arg1:T12 Arg2:T11	
+T14	Material 1134 1137	LBP
+T15	Task 490 501	recognition
+T16	Process 1153 1164	recognition
+T17	Task 1291 1302	recognition
+T18	Process 193 211	AdaBoost algorithm
+T19	Process 1017 1030	preprocessing
+T20	Process 856 874	AdaBoost algorithm
+T21	Material 548 564	symbian platform
+T22	Material 766 782	symbian platform
+T23	Task 888 914	pre-processing of the face
+T24	Task 948 971	geometric normalization
+T25	Task 973 999	illumination normalization
+R3	Hyponym-of Arg1:T10 Arg2:T23	
+R4	Hyponym-of Arg1:T24 Arg2:T23	
+R5	Hyponym-of Arg1:T25 Arg2:T23	
+T26	Material 1211 1227	symbian platform
+T27	Material 76 99	face recognition system
+T28	Task 76 92	face recognition
+T29	Material 103 119	symbian platform
+T30	Task 349 367	face preprocessing
+T31	Task 377 389	eye location
+R6	Hyponym-of Arg1:T31 Arg2:T30	
diff --git a/semeval2017/test/S2212671612000431.txt b/semeval2017/test/S2212671612000431.txt
new file mode 100644
index 0000000..aeba571
--- /dev/null
+++ b/semeval2017/test/S2212671612000431.txt
@@ -0,0 +1 @@
+In this paper, an implementation of a LBP (local binary pattern) based fast face recognition system on symbian platform is presented. First, face in picture taken from camera is detected using AdaBoost algorithm. Second, the pre-processing of the face is done, including eye location, geometric normalization, illumination normalization. During the face preprocessing, a rapid eye location method named ER (Eyeball Search) is proposed and implemented. Last, the improved LBP is adopted for recognition. Although the computational capability of the symbian platform is limited, the experimental results show good performance for recognition rate and time. in pressIn this paper, an implementation of a LBP (local binary pattern) based fast face recognition system on symbian platform is presented. First, face in picture taken from camera is detected using AdaBoost algorithm. Second, the pre-processing of the face is done, including eye location, geometric normalization, illumination normalization. During the face preprocessing, a rapid eye location method named ER (Eyeball Search) is proposed and implemented. Last, the improved LBP is adopted for recognition. Although the computational capability of the symbian platform is limited, the experimental results show good performance for recognition rate and time. in press
diff --git a/semeval2017/test/S2212671612000741.ann b/semeval2017/test/S2212671612000741.ann
new file mode 100644
index 0000000..56fade6
--- /dev/null
+++ b/semeval2017/test/S2212671612000741.ann
@@ -0,0 +1,12 @@
+T1	Process 55 89	Kernel Extensional Matrix Matching
+T2	Process 91 95	KEMM
+*	Synonym-of T1 T2
+T3	Task 156 173	sentence aligning
+T4	Material 334 351	similarity matrix
+T5	Task 393 410	sentence aligning
+T6	Process 456 460	KEMM
+T7	Process 531 544	Gale's system
+T16	Task 2 20	sentence alignment
+T8	Material 134 151	similarity matrix
+T9	Process 363 388	construct a select matrix
+T10	Task 606 624	sentence alignment
diff --git a/semeval2017/test/S2212671612000741.txt b/semeval2017/test/S2212671612000741.txt
new file mode 100644
index 0000000..df0567f
--- /dev/null
+++ b/semeval2017/test/S2212671612000741.txt
@@ -0,0 +1 @@
+A sentence alignment model based on combined clues and Kernel Extensional Matrix Matching (KEMM) method is proposed. In this model, a similarity matrix for sentence aligning is formed by the similarities of bilingual sentences calculated by the combined clues, such as lexicon, morphology, length and special symbols, etc.; then this similarity matrix is used to construct a select matrix for sentence aligning; finally, obtains the sentence alignments by KEMM. Experimental results illustrated that our model outperforms over the Gale's system on handling any types of sentence alignments, with 30% total sentence alignment error rate decreasing.
diff --git a/semeval2017/test/S221267161400105X.ann b/semeval2017/test/S221267161400105X.ann
new file mode 100644
index 0000000..2f0f453
--- /dev/null
+++ b/semeval2017/test/S221267161400105X.ann
@@ -0,0 +1,17 @@
+T1	Process 88 121	Scale-invariant feature transform
+T2	Process 126 130	SIFT
+T3	Process 157 183	Speeded up robust features
+T4	Process 188 192	SURF
+*	Synonym-of T1 T2
+*	Synonym-of T3 T4
+T5	Material 257 267	depth maps
+T6	Process 398 420	Support vector machine
+T7	Process 425 428	SVM
+*	Synonym-of T6 T7
+T8	Task 16 73	comparison between two popular feature extraction methods
+T9	Process 332 355	Microsoft Kinect camera
+T10	Process 492 495	SVM
+T22	Task 47 65	feature extraction
+T23	Process 441 455	classification
+T27	Process 441 462	classification method
+R2	Hyponym-of Arg1:T7 Arg2:T27	
diff --git a/semeval2017/test/S221267161400105X.txt b/semeval2017/test/S221267161400105X.txt
new file mode 100644
index 0000000..d4c1383
--- /dev/null
+++ b/semeval2017/test/S221267161400105X.txt
@@ -0,0 +1 @@
+In this paper a comparison between two popular feature extraction methods is presented. Scale-invariant feature transform (or SIFT) is the first method. The Speeded up robust features (or SURF) is presented as second. These two methods are tested on set of depth maps. Ten defined gestures of left hand are in these depth maps. The Microsoft Kinect camera is used for capturing the images [1]. The Support vector machine (or SVM) is used as classification method. The results are accuracy of SVM prediction on selected images.
diff --git a/semeval2017/test/S221450951400014X.ann b/semeval2017/test/S221450951400014X.ann
new file mode 100644
index 0000000..00ebb3f
--- /dev/null
+++ b/semeval2017/test/S221450951400014X.ann
@@ -0,0 +1,45 @@
+T1	Material 56 63	bitumen
+T2	Material 158 176	waste glass cullet
+T3	Process 106 123	stiffness modulus
+T4	Process 334 351	stiffness modulus
+T5	Material 462 480	waste glass cullet
+T6	Material 589 607	waste glass cullet
+T7	Process 838 852	Marshall tests
+T8	Material 688 707	bituminous material
+T9	Material 952 970	waste glass cullet
+T10	Material 781 793	glass cullet
+T11	Material 1047 1065	waste glass cullet
+T12	Material 1120 1138	waste glass cullet
+T13	Process 1243 1255	interlocking
+T14	Process 1144 1161	stiffness modulus
+T15	Material 1313 1325	glass cullet
+T16	Material 1395 1411	glass particles’
+T17	Process 1476 1493	stiffness modulus
+T18	Material 1528 1546	waste glass cullet
+T19	Process 1682 1699	stiffness modulus
+T20	Material 1742 1754	glass cullet
+T21	Material 1865 1883	waste glass cullet
+T22	Process 30 71	changes in the measure of bitumen content
+T23	Process 87 144	differences in the stiffness modulus of asphaltic samples
+T24	Material 127 144	asphaltic samples
+T25	Material 199 204	glass
+T26	Process 235 252	stiffness modulus
+T27	Material 256 272	modified asphalt
+T28	Material 324 329	glass
+T29	Material 355 372	asphaltic samples
+T30	Material 421 428	bitumen
+T31	Process 540 557	stiffness modulus
+T32	Material 561 578	asphaltic samples
+T33	Material 637 644	bitumen
+T34	Material 654 669	Glass particles
+T35	Material 744 751	bitumen
+T36	Material 866 873	bitumen
+T37	Material 1001 1008	bitumen
+T38	Material 1085 1102	saphaltic samples
+T39	Material 1165 1182	asphaltic samples
+T40	Material 1196 1214	waste glass cullet
+T41	Material 1497 1514	asphaltic samples
+T42	Material 1573 1578	glass
+T43	Material 1617 1626	particles
+T44	Process 1788 1805	stiffness modulus
+T45	Material 1809 1826	asphaltic samples
diff --git a/semeval2017/test/S221450951400014X.txt b/semeval2017/test/S221450951400014X.txt
new file mode 100644
index 0000000..ff7b9ec
--- /dev/null
+++ b/semeval2017/test/S221450951400014X.txt
@@ -0,0 +1 @@
+This figure demonstrates that changes in the measure of bitumen content create sizable differences in the stiffness modulus of asphaltic samples that include waste glass cullet. As the percentage of glass increases, the measure of the stiffness modulus of modified asphalt increases too. But with pass of optimum measure of glass the stiffness modulus of asphaltic samples decrease. This trend in total of percentages of bitumen content is existing. Due to that waste glass cullet has no suction; the trend does not extend to measuring the stiffness modulus of asphaltic samples including waste glass cullet with different percentage of bitumen content. Glass particles do not absorb any bituminous material, so it is necessary to decrease the bitumen content with the addition of glass cullet. According to Fig. 2 and the results of the Marshall tests, the optimum bitumen measures decrease significantly in samples that include higher percentages of waste glass cullet. As the percentage of optimum bitumen content is 1% more in samples without waste glass cullet in comparison with saphaltic samples that include 20% waste glass cullet. The stiffness modulus of asphaltic samples that include waste glass cullet increased due to additional interlocking between the aggregate and the angularity of particles of glass cullet content. The increase in the intrusive friction angle because of the glass particles’ increased angularity is the main reason for the addition of the stiffness modulus of asphaltic samples that include waste glass cullet. But as the percentage of glass content reaches greater than 15%, the particles’ abundance cause slip these particles on together. The stiffness modulus of samples decreases as the percentage of glass cullet increases. The variations in the stiffness modulus of asphaltic samples that include different percentages of waste glass cullet at different temperature are shown in Fig. 3.

From 2e772569d4b312918ac2378c93f5a50175c578a5 Mon Sep 17 00:00:00 2001
From: kyleclo <kyleclo@uw.edu>
Date: Thu, 21 Feb 2019 20:57:13 -0800
Subject: [PATCH 23/23] update semeval predict script to pull experiment from
 beaker

---
 scripts/predict_semeval2017_with_allennlp.py | 28 +++++++++++++++-----
 1 file changed, 21 insertions(+), 7 deletions(-)

diff --git a/scripts/predict_semeval2017_with_allennlp.py b/scripts/predict_semeval2017_with_allennlp.py
index 454ba85..e1d37bf 100644
--- a/scripts/predict_semeval2017_with_allennlp.py
+++ b/scripts/predict_semeval2017_with_allennlp.py
@@ -30,6 +30,16 @@ def fetch_beaker_group_experiments_results(results_dir: str, group_id: str):
             subprocess.check_output(['beaker', 'dataset', 'fetch', '--output', f'{experiment_dir}', f'{result_id}'], stderr=subprocess.STDOUT).decode('UTF-8')
 
 
+def fetch_beaker_experiment_results(results_dir: str, experiment_id: str):
+    experiment_dir = os.path.join(results_dir, experiment_id)
+    experiment_json = json.loads(subprocess.check_output(['beaker', 'experiment', 'inspect', f'{experiment_id}'], stderr=subprocess.STDOUT).decode('UTF-8'))
+    result_id = experiment_json[0]['nodes'][0]['result_id']
+    os.makedirs(experiment_dir, exist_ok=True)
+    if len(os.listdir(experiment_dir)) == 0:
+        subprocess.check_output(['beaker', 'dataset', 'fetch', '--output', f'{experiment_dir}', f'{result_id}'], stderr=subprocess.STDOUT).decode('UTF-8')
+    return experiment_dir
+
+
 def load_bert_reader_model_from_beaker_experiment_dir(experiment_dir: str,
                                                       bert_vocab_dir: str,
                                                       bert_weights_dir: str,
@@ -130,25 +140,29 @@ def extract_spans_with_allennlp(all_tokens_spans, instances, model):
 if __name__ == '__main__':
 
     parser = argparse.ArgumentParser()
-    parser.add_argument('experiment_dir', type=str,
-                        help='Location of beaker experiment dump')
-    parser.add_argument('bert_vocab_dir', type=str,
+    parser.add_argument('--beaker_dir', type=str,
+                        help='Location of beaker experiments dump')
+    parser.add_argument('--experiment_id', type=str,
+                        help='Beaker experiment ID')
+    parser.add_argument('--bert_vocab_dir', type=str,
                         help='Location of BERT vocab files')
-    parser.add_argument('bert_weights_dir', type=str,
+    parser.add_argument('--bert_weights_dir', type=str,
                         help='Location of BERT weights files')
-    parser.add_argument('conll_file', type=str,
+    parser.add_argument('--conll_file', type=str,
                         help='CONLL2003 file to predict')
-    parser.add_argument('output_dir', type=str,
+    parser.add_argument('--output_dir', type=str,
                         help='Output directory to dump predicted .ann files')
     parser.add_argument('--gpu', action='store_true',
                         help='Flag to use GPU')
     args = parser.parse_args()
 
     # fetch_beaker_group_experiments_results(results_dir='beaker/', group_id='gr_nfp4yg5x4rsx')
+    experiment_dir = fetch_beaker_experiment_results(results_dir=args.beaker_dir,
+                                                     experiment_id=args.experiment_id)
 
     os.environ['CUDA_VISIBLE_DEVICES'] = '0'
 
-    reader, model = load_bert_reader_model_from_beaker_experiment_dir(experiment_dir=args.experiment_dir,
+    reader, model = load_bert_reader_model_from_beaker_experiment_dir(experiment_dir=experiment_dir,
                                                                       bert_vocab_dir=args.bert_vocab_dir,
                                                                       bert_weights_dir=args.bert_weights_dir,
                                                                       cuda_device=0 if args.gpu else -1)